##gff-version 3
sequence1	MetaGeneAnnotator	CDS	451	1815	.	+	0	ID=MGA_1;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080636.1;translation=MNNDELLEQLRLKLSRETWKSWLSTSKILDIKKNEVIIGLGNIFLKEAVEKKFGKVIKDTLSDILKRDVSVSFTDIKIDNSKKINKGPMIKTRPLKLSEFNTEFVFESFVVGHSNRMAYYSAQEVAQSPGKFNPLFIYGDVGLGKTHLLHAIANHMLEHSPDLRVKYLTAEDFMNEMMKAIRSKDMDNFREKFRKSVDVFLIDDVQFLIGKNSVQTELFHTFNSLFNSGKQVVICSDRTPEELATFHPRLISRFEMGLVVNIEEPDAGTRYLIAKKMAHMISLQLSDDVAHYLAEHVDRNLRRMRGAIMNLMLHTKITGKPANMETARKIVDSIIRMNDEKRKYNSKEAFETIKINTLVNSVLQEYDIERKELYSSSRKKKISEARQILAYMLKIYGKMNVKDISKMLKRNHSTISQSIKKIDQSLVLGNKLIKSKLDNIKNKMEQEKTDMNVI;locus_tag=LOCUS_00010;gene=dnaA;note=WP_004080636.1 chromosomal replication initiator protein DnaA (Thermotoga maritima) [pid:41.0%25%2C q_cov:96.3%25%2C s_cov:97.0%25%2C Eval:1.4e-100],MGA_1
sequence1	MetaGeneAnnotator	CDS	1995	3032	.	+	0	ID=MGA_2;product=L-threonine 3-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868502.1;translation=MRAVVKKEPGKSFVLEDVKEPKIVNSKDVKLKILKVSVCGTDLHIWKWDEWSQNRIKPPQINGHECVGEVVEIGKEVKGVKVGDIVTCETHIPCGVCYQCKTGNMHVCKDMQILGVDRDGVWAEYAVVPEVVVWKVDKKIPLKYVSVMEPLGNAIFTATSFDLRGKYVLITGAGPIGAMAINVAQVSGAAAVIVSEVSEYRINMAKELGADLVINPMKQDLIEEVNKFTDGHGADVLLEMSGNVKALNDGINAVRNAGEVAVLAVYKGNTISFEMNTAVFKNLTIKAVTGRKMFETWHIASQWLKYNRLKLDKIVTHEFDLSEFEKALQLMNEGKSGKIVLNVAK;locus_tag=LOCUS_00020;gene=tdh;EC_number=1.1.1.103;note=WP_010868502.1 L-threonine 3-dehydrogenase (Pyrococcus abyssi) [pid:46.3%25%2C q_cov:98.6%25%2C s_cov:97.7%25%2C Eval:2.4e-86],MGA_2
sequence1	MetaGeneAnnotator	CDS	3058	4242	.	+	0	ID=MGA_3;product=glycine C-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870375.1;translation=MNFYENLKNEMEELKEKGLLVTVKTLETAQGAWLNIEGKKVLNMCSNNYLNFCNREELKKEAIKAVEKWGVGPGAVRSIAGTLTIHNELEKELAEFKGVEATLVVQSGFNANQAVIPAIVKKGDAILSDELNHASIIDGVRLSKATKYVWKHKDAKDLELKLKEAKENGANTMLVITDGVFSMDGDLAPLPELVEVCEKHGALLMVDDAHGEGVLGKNGRGIVDHYGLHGRVDIEVGTLSKAFGLVGGFIAGKKVLIDYLKQKARPFLFSSSLSPAEAGAGIAAVKLLKDSGEPVEKLWDNGNYFKGKMKELGFDIGQSETPITPVMLYEAKVAKEFSKKLFEEGIFATSIGFPTVPKGKARIRVMISASHTKEDLDFAIEKFEKIGKELNIIK;locus_tag=LOCUS_00030;EC_number=2.3.1.29;note=WP_012870375.1 glycine C-acetyltransferase (Thermanaerovibrio acidaminovorans) [pid:56.7%25%2C q_cov:96.4%25%2C s_cov:96.7%25%2C Eval:1.5e-122],MGA_3
sequence1	MetaGeneAnnotator	CDS	4258	5574	.	-	0	ID=MGA_4;product=23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080361.1;translation=MSLKIEKLVYGGYGFSKDNEKIYLIDDGYPEEVVEVDEIKRKKKTIFAKVNSIKERSPYRINSKCEHFQKCGGCQWLDYDYKHQLTSKTNIVEEQLKRIGKLDIKVNDIIASDFVYNYRAKMEFGFSYNNEVILGLKKKSSNEIVDLKSCPISPKEFDELRNKVKIIVNKLNIQVYNSKNKKGILRSLVLRKNNINNKIMMILVTSKENFNKKEELKNELLKLNISSLIHLVNPNNKVILSGKYNVWYGNEFLEEKFNGIKYKVLPTSFFQNNYNVTQKMLDYVNEYLNTQNTNNKSLLDLYCGVGLFGLYFSKKFKNIKGIEVSKTSINSAKENAKLNNIKNIDFDALDAIKFLKNSKSYDYLIIDPPRAGIGIEGVELISRKIREGVVYISCDPSTFARDLSEFEKLGFKIKSVQPFDMFPNTYHIENISILEKIK;locus_tag=LOCUS_00040;gene=rlmD;EC_number=2.1.1.190;note=WP_004080361.1 23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD (Thermotoga maritima) [pid:37.9%25%2C q_cov:99.1%25%2C s_cov:98.4%25%2C Eval:1.2e-83],MGA_4
sequence1	MetaGeneAnnotator	CDS	5576	6139	.	-	0	ID=MGA_5;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003131748.1;translation=MIVEKIVSDTFQTNTYIINKKIVIDPASDFTKLIKEPVDILLTHGHFDHILGLKFLKLEYVYIHPNDCELLKDYKKNLSSLINKKIEFDIECKDITKFFEVIHTPGHTMGSCAIKIENYLFTGDTLFTDSIGRTDFPGSSEKHMFESLKILKDYLKNIPEDTIIAPGHGPMTSVEKILINNPYLRSI;locus_tag=LOCUS_00050;note=WP_003131748.1 MBL fold metallo-hydrolase (Lactococcus) [pid:35.7%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:1.1e-25],MGA_5
sequence1	MetaGeneAnnotator	CDS	6265	7383	.	+	0	ID=MGA_6;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966702.1;translation=MAFKNFTNIKQFDFQINRILTYGEKACNEKEVYEAAKEIKDMKSWFKVWNKLGKIAEHEKRYLHAAFYYRLAEFFLIEKDVNKEKMYNLSIHNFNKVIDNDKNVKKFFVPYKNSQMKTLVFNSKIEKGKIIAFGGYDSFIEEFYLSIKEISEKGYTVYLFEGPGQGLTLKNGIYFEYNWENSLSAVLNYFNLNDVFVIGISWGGYFSLRAAAFEKRIKKVIAYDILYDGFDCMIHPFPKIFRYLIKFLFFTKQKNILNFILNKAMKKELILNWAIAHGMYITGTNSPYDFYKNLKKHTLKNISKKIKCDVLLLAGEEDHYIPLNHYHILMKKLKYAKNLTGKIFTKAEGGEQHCQVGNHEIAIDYMIDWLES;locus_tag=LOCUS_00060;note=WP_010966702.1 alpha/beta hydrolase (Clostridium) [pid:42.5%25%2C q_cov:97.8%25%2C s_cov:97.6%25%2C Eval:3.1e-74],MGA_6
sequence1	MetaGeneAnnotator	CDS	7423	8019	.	+	0	ID=MGA_7;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966545.1;translation=MKKSELTKQKILKASIELFSEKGFASTRTLEIAKKAGVSEGTIFKYFEKKKDILHAVVSESIDVFIKEFAVSDLKETIKNFSKKDIKIILKEIIMERLSFFNKYSKYLKIIFNEIQYDEILKEKVIKSIFNEFKSNANEVYGIGLKRGEFKNIDSYVAVRSFIGMILMLLFQKLYLKSENFEKEIDTVIEIFLNGVKI;locus_tag=LOCUS_00070;note=WP_010966545.1 TetR/AcrR family transcriptional regulator (Clostridium) [pid:34.3%25%2C q_cov:98.5%25%2C s_cov:96.6%25%2C Eval:1.5e-26],MGA_7
sequence1	MetaGeneAnnotator	CDS	8016	10178	.	+	0	ID=MGA_8;product=RND family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079930.1;translation=MNFFEKYTNFIKKHQKLVFIFMLLLIILSIWGIFKIKINTDFTLFMPKHSSYKKRYDEMNKTFGTSEQMMFLLEYDKNLRTIEGIKKLRDIQNKMEKITGVSMVIGPTPEKIPVGLTLKDVSKVNKKDLNLILKYIDNMDIMKSLVQKDSKNYASFTVMVNESSKPLNALKNIEKMLDIEKVKYYVSGDTYLQTKVFDYLLKILLIIPPLSIIIIFATFKARIRSLKATIFSVFPAGIGALLTLGFLGWFIGEISVMTVLVPIFVIVLGSADGLHFMSHYIEYYRNSKNKELSISKTLKAVGVPMIMTTLTTMIGFLSMLVIQSDAIKQLGMASSIGVFLAGIATWIFLPLIIFKNKKITIPEPKVSKVTTFLKKLQGKNSIIITLILIIISIPGILKLQTNFNMLTMYKKSTEVRKGIDKISEVTGGSLPIFLTYKTNEDILSTNFSNEILLLEKELKESGNILKAVSYYDILSVMNNFIYGKKEYPQNSFTAKILYSLASSQNKSLKNFILPSQKTGKIILFPKNLKSKTLKNIETLINKNDEKTTYTLSGIPLIMDEMNRRIIPDQLSSLILATVLVFIMILITQKNFFIALFSIIPISVTLLSLFGIMGYTGIDLSIITSIMSSLTIGVGIDYAIHYSGLYRHFKQLNAENPADEAFNYVSTPILANAFGLAFGFSSMIFSPLQIHTYLVILMWTTMVVSSVLSLTLLPTLVKKLK;locus_tag=LOCUS_00080;note=WP_004079930.1 RND family transporter (Thermotoga maritima) [pid:36.9%25%2C q_cov:96.5%25%2C s_cov:96.7%25%2C Eval:2.3e-133],MGA_8
sequence1	MetaGeneAnnotator	CDS	10195	10566	.	-	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVEFINKICESLDKECFNEFYFVVVNGKEDIGNNESLICPNKIFCYDDRIIISSYNYEKNENIEIKKFMEKLDNFEDMELYVMDSKNRIFSIEDNIEISSDQYASLILVPVENYMEIANIK;locus_tag=LOCUS_00090;note=MGA_9
sequence1	MetaGeneAnnotator	CDS	10713	11645	.	-	0	ID=MGA_10;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081384.1;translation=MKDLRIVFMGTPDFATIVLKSLIENNYNIIGVFSQPDKPKGRGKKLLPTPVKKLAIENNIPVFQPKSVNVGNGFKSLEELNPDIVITVAYGKILKKQVIDLPKMGCWNIHASILPKYRGAAPIQRAIENGESETGISIFKIVEALDAGPVAMIEKISIENSDNLETVHDKLAELSSKMIVEFLSNLNNINLQEQDDSKATYASKITNNDLILDFHKESRIIFNKIRAYDPIPGVKATINNQIVKLFSAEILNKESKEKPGTILSFDKTGIIVKTIDSAIKIGKIKFPGKKTISTFDAINGRKLKIGDFFE;locus_tag=LOCUS_00100;gene=fmt;EC_number=2.1.2.9;note=WP_004081384.1 methionyl-tRNA formyltransferase (Thermotoga maritima) [pid:46.9%25%2C q_cov:99.0%25%2C s_cov:98.4%25%2C Eval:3.8e-80],MGA_10
sequence1	MetaGeneAnnotator	CDS	11642	12175	.	-	0	ID=MGA_11;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082176.1;translation=MNLEIRIIGDPILRKKAKEVVIFDENFKTIITDFFEKMYKWDGVGLAAPQAGISLRFFVMDDGEENGKKAVINPEILGFLGEDIDFEEGCLSIPNVYAHVIRKEGIKVRYQDVEGNVVEEELHGYTARVFQHETDHLNGILFTDRLSVVQKAKLKKELLRLGKEGKKKAKELGEVKL;locus_tag=LOCUS_00110;gene=def;EC_number=3.5.1.88;note=WP_004082176.1 peptide deformylase (Thermotoga) [pid:60.8%25%2C q_cov:80.8%25%2C s_cov:86.0%25%2C Eval:1.3e-41],MGA_11
sequence1	MetaGeneAnnotator	CDS	12165	12935	.	-	0	ID=MGA_12;product=5'/3'-nucleotidase SurE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082178.1;translation=MNILISNDDGIMAPGISILKSFLEKDHNVFVVAPDVERSATGHAITVRNPLWAKDVMVNNKLFGKAVNGTPADCVKLGLEAIHKDINIDLVISGINRGPNLGTDVLYSGTVSAAIEGAMNGYPSIAVSSADFTNPNYETAAKIILDIIEKFDFKTVPEFTTLNINVPSISYDEIKGIKITRQSKRRYDDYFEARKDPFGNTYYWMLGNVVEDDNNNNSDYLAVNENYVSITPLTVFLTKKDYMKELKDILEVKYES;locus_tag=LOCUS_00120;gene=surE;EC_number=3.1.3.6;note=WP_004082178.1 5'/3'-nucleotidase SurE (Thermotoga maritima) [pid:51.8%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:3.0e-74],MGA_12
sequence1	MetaGeneAnnotator	CDS	13167	13589	.	+	0	ID=MGA_13;product=OsmC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080643.1;translation=MAEELIFKRQDKYHFFTKTKNGFEIHTDSKVGNGYEQTAATPMNHLLAGLAGCTGIDVVMILEKMHVELDDFQIRLQYDRKETHPKIYTNIKIIYEFTGKDLPMDKLEKAVNLSQNKYCSASAIFKESAEVTHEIIIKEA;locus_tag=LOCUS_00130;note=WP_004080643.1 OsmC family protein (Thermotoga) [pid:46.8%25%2C q_cov:87.1%25%2C s_cov:90.6%25%2C Eval:7.8e-25],MGA_13
sequence1	MetaGeneAnnotator	CDS	13591	14403	.	+	0	ID=MGA_14;product=Mrp/NBP35 family ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582908.1;translation=MAGVNNINLVIEKANDRLKNVKKTIVVMSGKGGVGKSTVAVNLAVSLALEGRKVGLLDVDLHGPDVARMLGGREEYPYQVGEEVMPPEVNGIKFISMSHFLKDQSNPVVWRGPLKTGAIMQFVSDISWGELDYLVVDCPPGTGDESLTIFQNFKNIQGAVIVTTPSDVSQDDVEKAINFVKMMKHETLGLVENMSYFVCDECKKKHYIFGKGGAKKLAEKYNLEVLQEIPLNASLRENMDNGKPAAYFGTPEMVAPFTQLAKKIIAKSEI;locus_tag=LOCUS_00140;note=WP_012582908.1 Mrp/NBP35 family ATP-binding protein (Dictyoglomus turgidum) [pid:50.0%25%2C q_cov:86.3%25%2C s_cov:86.0%25%2C Eval:8.4e-62],MGA_14
sequence1	MetaGeneAnnotator	CDS	14559	15206	.	+	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIFILLIIIISIFSFSGVFADINPPKSIGAGFEDENNYIKLSTESISFSYKKEVLKRIEPFFSINLNLNNPLKNNDIQAGINLNYEPFNIGIGMWNSFTETASPTYAGYAGASILLNFKFEKIIIGSNFTFKMLNVVLDENGLNYYFKAFPEDLAQMRGFSAYFGYNFFKNENLDISFYMNFMGNYSIIPGGLVFYKLNDAYSFDLKVEIWR;locus_tag=LOCUS_00150;note=MGA_15
sequence1	MetaGeneAnnotator	CDS	15209	15955	.	+	0	ID=MGA_16;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082182.1;translation=MKKNREEEREEVVDLFSSDELYNLKVDEVIKILNEREKNSKPIEEEKEKIFEHYYTENPTSELTIKELTFVLHNSHIYKLKAPSGVYGKKRIDRASALLIENVEITGKKLLDIGCGYGVIGIVLKKENPNIEVFMSDINNRAVQFTKINAKDNNANVEVRSGYLFEPWKDEKFDMIISNPPIVAGKHVWMKLIEDGFKHLNTEGTMQLVAFHNKGGKRIKEYMKNIFGNVTDVVKSGGARVYKSVKED;locus_tag=LOCUS_00160;note=WP_004082182.1 class I SAM-dependent methyltransferase (Thermotoga) [pid:59.7%25%2C q_cov:79.0%25%2C s_cov:93.3%25%2C Eval:3.6e-69],MGA_16
sequence1	MetaGeneAnnotator	CDS	15957	16715	.	+	0	ID=MGA_17;product=energy-coupling factor ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476335.1;translation=MILKCENINYNYGKRKVINNVSLGIKKGQFTGIVGDNGSGKSTLMKILSGILFDYNGKVFFENEELNEKNRIKIGYIFQNPENQIVGVTIEEDVAFGMENMGVPRKEMIKKIQWALSIVGMSGFEKRDPNTLSGGQKQRLAIASILAMDPEVIFMDEPTTMLDPVGRLEVYTVIKKLVELKKTVVIASHHSQDLRDVERIIALKNGKIIFDGNKNNFYKTNKLNIEEPIEIRTKKILHMNYEELVNKLADRT;locus_tag=LOCUS_00170;note=WP_011476335.1 energy-coupling factor ABC transporter ATP-binding protein (Ligilactobacillus salivarius) [pid:40.9%25%2C q_cov:97.6%25%2C s_cov:91.1%25%2C Eval:2.0e-51],MGA_17
sequence1	MetaGeneAnnotator	CDS	16699	17499	.	+	0	ID=MGA_18;product=energy-coupling factor transporter ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966382.1;translation=MPIELENVSFSYGINTPFEKKALNEVNLKINEGELWLFIGHTGSGKSTLLNTLNGLIIPNGKVTVDTLQTNNKNTNMKELRKKVGIIFQYPESQFFLPTIAEEILYAPKNFDVDLKKEEIKFYMDIVGLPYDYLNRSPFSLSGGEMRKVAIISVLSYNPKYIIFDEPTVGLDYSTRKSVFNTVKKLNNMGKTIILSTHWISEFLELKPLVAIMKNSNLIFKGKFDDFIKLDQNFLSEAGIIFDEKLELYKKALLKNDKLKDKIAML;locus_tag=LOCUS_00180;EC_number=3.6.3.-;note=WP_010966382.1 energy-coupling factor transporter ATPase (Clostridium) [pid:43.8%25%2C q_cov:85.0%25%2C s_cov:80.8%25%2C Eval:7.9e-49],MGA_18
sequence1	MetaGeneAnnotator	CDS	17616	18779	.	+	0	ID=MGA_19;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948736.1;translation=MSTKIKSNSVKKRNIHFDLEPFIFLTIFLAIFIPLGNVMGGSNLFKTLMATAHDLLLNTVFFIMAVAVLTGALGALFSEFGVVYLLNKILKPLMKPLYKLPGAASLGILTTYLSDNPAILSLSKDKEFIKYFERWQVPLLCNMGTAFGMGLIVTTFMIAQSSALGENLVLPVLIGNIGAIVGSVISVRIFSMFTKKFYGEEGEFENTTVSWRKVREGNAGSRFLDALLEGGKTGVDLGLSIIPGVLIISTFVMIVTYGPSDPNIGYQGLAYEGVPVLPWVFGKISGVLEFLFGFHSAKLIAFPLTSLGSTGAAMALIPSFIKEGILTGNDVAVFTALGMTWSGYLSTHIAMMDTLGARKLASKAILSHTIAGLCAGIITHYMYVLFL;locus_tag=LOCUS_00190;note=WP_011948736.1 membrane protein (Clostridium) [pid:55.1%25%2C q_cov:98.7%25%2C s_cov:96.5%25%2C Eval:8.7e-120],MGA_19
sequence1	MetaGeneAnnotator	CDS	18909	20126	.	+	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFIIFLVLILSLIYFSKDMRKTLIVYTKGYSDSTALLESAVDEKIINMGKYRLITRDDMIFKEIQLQLQGVVEGKGDLKQLKADALIYIEVLDTFYQQQESYDKTSKWWEYEITAKYKLIDIQTGQVLENKLYKGTGQQNITKYKTSQEALRDAKYEAINDASSSIISKLNTLFILRGNILNQAPNGYLLVDLGRNHGVYKNMVFQFEKSYDVYGDSYKIKDGKLIVKDILDNKAFLKPVELPTKFKISEKGITVVENPSMSPERMRFNIHYTNLNTNYHGGGIDFALDNYEGFYSKFGLDFNIISKNIFYSNMNFALGYMIYAGPVEITPDVSFEFQGMLSSDASSMSFDIVPEVNMGLGITNNINLYLNSGYIFNIYSMEEMGLSLINGLRIKGGIEFKF;locus_tag=LOCUS_00200;note=MGA_20
sequence1	MetaGeneAnnotator	CDS	20158	21165	.	-	0	ID=MGA_21;product=electron transfer flavoprotein subunit alpha/FixB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986692.1;translation=MPLINEITIKEYKDVWVFAEQRDNKLMPVVYELLGEGKKISEKMNSNLCAVLVGDNVEFLCDELIKYGAKKVYLIEDVLLKNYTTDGYSRVISNLINEKKPEVFLIGATHIGRDLAPRISAKIDTGLTADCTILEVDEDKKLLQTRPAFGGNIMATIICPKHRPQMATVRPGVMKKAEINNENNGEIIKINANICCKDIRTEVLKVIKQKSTTLDITEAEIVVAGGRGLGKPEGFKLIEKLAEKLNGVVGASRAVVDSEWIDSSHQVGQTGKTVRPKIYIACGISGAIQHIAGMKDSECIIAINKDKYAPIFKVADYGIVGDLYEVIPELIKELN;locus_tag=LOCUS_00210;note=WP_011986692.1 electron transfer flavoprotein subunit alpha/FixB family protein (Clostridium botulinum) [pid:63.7%25%2C q_cov:97.6%25%2C s_cov:94.0%25%2C Eval:3.8e-121],MGA_21
sequence1	MetaGeneAnnotator	CDS	21179	21964	.	-	0	ID=MGA_22;product=electron transfer flavoprotein subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986693.1;translation=MNILVCIKQVPDTTELKIDPVKGTLIRTGVPSIMNYDDKAALEEALKLKDKFNAKVTVLSMGPIQAKEVIEEAIAMGADEGFLLSDRKFGGADTWATSTTLTAAIKKLGYFDIIFAGRQAIDGDTAQVGPQIAEKLNIPQITYVKNIEYMDNEFIVERELEDGYEVIKVSSPVLLTTIKQINKPRYMHIGRVVDVCAKDNIKVLTFEDIDIDERYIGLKGSPTQVKKSFTPEPKGEGKMVSGTIEEMVKDVVNELKEKHFI;locus_tag=LOCUS_00220;gene=etfB;note=WP_011986693.1 electron transfer flavoprotein subunit beta (Clostridium botulinum) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-87],MGA_22
sequence1	MetaGeneAnnotator	CDS	21976	23115	.	-	0	ID=MGA_23;product=acyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003418888.1;translation=MNFELTKQQKMIRQMVRELTEKDIKSRAAEIDETGRFPTESYELLKKYGLLGMTISKKYNGAGADELSYAITVEELSRYCATTGVICSAHNSLACWPIYKFGTEEQKEKYLKPLACGEKLGAFALTEPNAGTDAGAQQTKAIDDGDYWILNGSKIFITNGGQADTYIVFAMTDPSKGTRGISAFIVDRSTIGFEIGKIEHKMGIRGSATAELIFRDAKIPKNNLLGSLNKGFKIAMQTLDGGRIGIAAQALGIAQGAFDETVKYIKQREQFGRPIAKFQGVQFNIAEMKTKIEAARILVYKAANNKEKGKSYSVEAAMAKLFAAEVAMEVTTKAVQLHGGYGYTKDYCVERMMRDAKITEIYEGTSEVQKMVISANVLK;locus_tag=LOCUS_00230;note=WP_003418888.1 acyl-CoA dehydrogenase (Clostridioides difficile) [pid:65.0%25%2C q_cov:98.7%25%2C s_cov:98.9%25%2C Eval:7.6e-137],MGA_23
sequence1	MetaGeneAnnotator	CDS	23349	23585	.	-	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIRFFVNLVVIISEFISDDTSIEDVTIFKSDIIFILLIGTPINIYILRSIIKFLKNNSLSKVRNVPLEMKKFDYELN;locus_tag=LOCUS_00240;note=MGA_24
sequence1	MetaGeneAnnotator	CDS	23632	24237	.	-	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSPKSFYLLYLIFDIVYIVFNYNSLKEYFNFSSFKLFNKGNKLIRVCMYIFLSLITITLIVYLKKFQNENSLLNYFKGSFVILLILLSVSEELTFRIVIPKSLSKVYNKDFFVYTAQALIDTIYGFFYSQKLFYPYLSDKDLNDPIILLDFIISYLISIFMYYSLKRTKNIYFVIFLQFLNIILLQLLTILAINFLAINS;locus_tag=LOCUS_00250;note=MGA_25
sequence1	MetaGeneAnnotator	CDS	24315	24623	.	+	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEP;locus_tag=LOCUS_00260;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.3%25%2C q_cov:69.6%25%2C s_cov:17.9%25%2C Eval:3.5e-14%2C partial hit],internal stop codon at [24621:24623](+)%2C[24786:24788](+),frameshifted%2C insertion/deletion at around 24800,MGA_26
sequence1	MetaGeneAnnotator	CDS	24654	24788	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIGMYGLGLSTKDMNVEDIYGVELSTEMISKITNKILHEIRK;locus_tag=LOCUS_00270;note=MGA_27
sequence1	MetaGeneAnnotator	CDS	24772	24969	.	+	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLENDKAGQEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKEVLGIYRWGMSSKMCKQ;locus_tag=LOCUS_00280;note=WP_072530700.1 IS256 family transposase (Bacteroides ilei) [pid:53.5%25%2C q_cov:66.2%25%2C s_cov:10.5%25%2C Eval:8.2e-08%2C partial hit],internal stop codon at [24787:24789](+),frameshifted%2C insertion/deletion at around 24650%2C24620%2C24804,MGA_28
sequence1	MetaGeneAnnotator	CDS	24971	25687	.	-	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVTIRKDYEVKNYALYTALAYDANGIKDILGIWLNESESKHKWMQIFDELKARGVEDIFFISMDGVSGLEDGAKSIFPNVIVQRCIVHLIRNSLKYIPSKFYKSFTSSIKKFYTAPNLKTAQSEFELFKVAWSQYPGAVSVWERNFHFVEQLFDFGSAVRKIMYTTNPIESVNSSFRKVVKKGAFPNEKALFKLIFLRINELYSKWNSRPVPNWALVRNQLDIDPRFQSRFRNFSDF;locus_tag=LOCUS_00290;note=WP_014748779.1 IS256 family transposase (Enterococcus faecium) [pid:64.5%25%2C q_cov:98.3%25%2C s_cov:54.4%25%2C Eval:2.1e-87%2C partial hit],internal stop codon at [25870:25872](-),frameshifted%2C insertion/deletion at around 25854,MGA_29
sequence1	MetaGeneAnnotator	CDS	25817	27043	.	+	0	ID=MGA_30;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKKMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYKKKNLKSSSGMIELKVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPVIKDWQERPLHEIYTFVFLDAIYFNVREDGRIGKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIEGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_00300;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:45.3%25%2C q_cov:93.1%25%2C s_cov:96.0%25%2C Eval:2.4e-99],MGA_30
sequence1	MetaGeneAnnotator	CDS	27310	27618	.	+	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEP;locus_tag=LOCUS_00310;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.3%25%2C q_cov:69.6%25%2C s_cov:17.9%25%2C Eval:3.5e-14%2C partial hit],frameshifted%2C insertion/deletion at around 27615,MGA_31
sequence1	MetaGeneAnnotator	CDS	27669	28559	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKEVLGIYIGEIESSKFWLRVLNDLKNRGIKDILIASVDGLTGFPQAIKTAFPDTIVQRCIIHQIRNTLKYVSYKDRKELVNDLKKVYKAPNKDIAYSNLQDLKENKWTKYKLALESWEKHWETISPYFDYGDDVRKIMYTTNVIESLNRQYRKATKNKTSFPNDDALLKMLYLATINATKRWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_00320;note=WP_008761338.1 IS256 family transposase (Bacteroides) [pid:50.2%25%2C q_cov:97.6%25%2C s_cov:71.4%25%2C Eval:3.5e-88%2C partial hit],frameshifted%2C insertion/deletion at around 27615,MGA_32
sequence1	MetaGeneAnnotator	CDS	29006	29350	.	-	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLYTVDEVAKITGVSSYMVLKWVSEDKLKTVFKDNETFISEESLNEFQKNTNIKLLKPSESMKIFSMNKPNNKSENKQNTKNKKGVLELLEEYRKENNVMSPEEIESLFNSKK;locus_tag=LOCUS_00330;note=MGA_33
sequence1	MetaGeneAnnotator	CDS	29367	30599	.	-	0	ID=MGA_34;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868206.1;translation=MSDKKNFLLYTVGRFISLFGDGMQSAIVSLFILSLTGSVKKMGLFFLYLSVINIIFLPISGVISDKFNRKKLMVILDILNGSIFLILGFLISKNNINIYTYTAFATLLGIFGNIYSVSTSAMLPNIVSKDYLLKATSSMVTLFSINVIISPAIGGFLYATIGIKYIFLFNGISFIASAIIEMFIKYKHLNAQKKLKIKNIFNDYFEGLKYVNNNKSIRYYVFLVTTFIILLRPLFTIVYPILIKDTLKMDLKYFGLVSSLLAVGTLTGSIIVKKIKNSNSVKNSILIQTLSFFVLAFLTSFNVSKYNFIIFPIVCIVTSIFGFAIVLRNIPINVFIQKNTENEFLGRVFSVRNLLQKILTTGSILLYSIVFDKINISYGLLIFGTINLLFFLIFNILGNVKNIQIQSEEA;locus_tag=LOCUS_00340;note=WP_010868206.1 MFS transporter (Pyrococcus abyssi) [pid:30.8%25%2C q_cov:90.2%25%2C s_cov:88.3%25%2C Eval:8.4e-44],MGA_34
sequence1	MetaGeneAnnotator	CDS	31008	32297	.	-	0	ID=MGA_35;product=IS110 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_066867479.1;translation=MNYTQNEKIKQVDEKTLVVGVDIAKETHYARTFDNRGIEYGKVIKFKSNRDGFEAFKKQIKEIAEITGREKIIIGIEPTGHYWYTLANYVNKRGMKLVQVNPYHVKRAKELDDNTPSKSDRKDPKTIAMLVKDGRYAIPYMPEGIYAEIRKAYDIRETINKKLLVVKNRIQRWVAIYFPEYKTVFKGIYGKASIITLEELSIPIEIIKLSAEEIVEIWQKEIKRAVGIKRAKSLIEAAKETTGLTNGLEMAKYEIKKLIQEYKMLEEEKAELEEKLKRKVYKISGVEKALSIKGIGIITISGFIAEVGEIKRFDHAKQIIKLAGLNLRENSSGKHKGETKISKRGRKRLRSLLFKSILPLVAQNKEFKLLHRYYTTRKTNPLKKKQSLVALMGKLIRIIYTLMTKKKEYDPEKLLKDIKGPKRQSFLAA;locus_tag=LOCUS_00350;note=WP_066867479.1 IS110 family transposase (Sinorhizobium saheli) [pid:21.4%25%2C q_cov:92.1%25%2C s_cov:98.2%25%2C Eval:8.1e-13],MGA_35
sequence1	MetaGeneAnnotator	CDS	32433	33698	.	-	0	ID=MGA_36;product=radical SAM/SPASM domain Clo7bot peptide maturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948312.1;translation=MKKYKLSMFNITKEIENDLLIFNSLNRGIVLIENRFINDFNNIKLTGTTDNIELLNGLIKQEMVIENSINEINRIKALDKLERYSTDNLSLVIATTFSCNFDCWYCYEKGLNNSFMTENIQNSISDFILSKSKTLNKIKIDWYGGEPLLNIKAIEQISENILSNISKDITFEASIISNGYLLNKEVAKKLAKYHVKKAQITLDGTKKIHDKNRPHINGKGSFDKIIQNIKEINDIINVIVRVNLDKNNVNYFDNLLDYLEEEGLKDKIFIYFSIIKDPNPINEQLCYKTTEVSDLEINLMRKIMKRKFKLATSLLEGNGYCTGMNNNFYIIDPAGDLYKCPMQIGKKEDSIGNIIKGIDFDKNAKWLAYDYFLDSKCKECNLLPLCRGGCPSEKMKNNSNDCFTFKYNIKERLNLFFESLS;locus_tag=LOCUS_00360;gene=ctpM;note=WP_011948312.1 radical SAM/SPASM domain Clo7bot peptide maturase (Clostridium botulinum) [pid:30.0%25%2C q_cov:98.1%25%2C s_cov:95.6%25%2C Eval:4.6e-53],MGA_36
sequence1	MetaGeneAnnotator	CDS	34300	35835	.	-	0	ID=MGA_37;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766109.1;translation=MKKLPIGVQDYKKIKEGNYTYIDKTKYILDLISSEAPIFLSRPRRFGKSLTVSTLYYLFKGKKDLFKGTYIYDKWEFKEYPVIKIDMSDNTLTTYEEFIKSLYNKINELYKEESLKPTTDDLPTMFGNLIKKLSQKYEERTVILVDEYESPILEHMNNKEEAEKVRRFLREFYKKIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELESNFKEHIKETAVEMKMEEKELLKNLKMYYNGFSFDGESSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGIKRLGLREKYILDYPNIEVKNSFSKIILEANYGIREIEQIETTIYERIYEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDTIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_00370;note=WP_008766109.1 ATP-binding protein (Bacteroides) [pid:33.8%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.1e-78],MGA_37
sequence1	MetaGeneAnnotator	CDS	35995	37197	.	-	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIRIIIVLFIFLNSIIFGENLNYEKFDKAIKSMYLKEVKKTEDILNKYKMFFQNVSYNFGIDGDFSKLDFTTSQINLNWNIFSSGKNIAEMKINEVVNRIEELLDENKYFNKYISLRYEFFNRYQMQENLKLLNKYYDELLKITLPQNEIEKLKLEREKISTQIQKNDLKESFDNQNLNGFIFLILNKMQDVTFTYPKEYYEMKKLNELLNSYKLKDFKENYEYLIAKKEKEQNKYSKILTNNNEINFNLGANYDFKTNNYSLSFMMDYNYDVPFINFSGNGNYSNGHYNISSTINPVIKEQKKEENEKTLGEILAKVRDDYNKLLNQIEATENNLYIINLDIKISELEYEKNKEKKTDLEKILNERNIESTKLNYILNVVKYNLLVKTLIDTYYEKK;locus_tag=LOCUS_00380;note=MGA_38
sequence1	MetaGeneAnnotator	CDS	37221	38258	.	-	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVFFIISIITIITQGEFVKYESISLNNKIDKEYKFNLRINKKKVIKRKDVDFISCKFDVNSKGEIYLGLYSEPSILKFLPEKKEYIKIENEIIPDYYSGGVTVVYLRVLPNDKVIVKSLDGIAILNNDKLEKFYEFPGTSVDDWAYDIVKKKKRSEIYFNPPITNDLHTDVVYIEKTKDGLIEFNQKTVYYYKIIGNNFYGDYKTIYEKKEKCKYSSDIILKSNSNKLYKVIWDNKERLLKILDVEKGTIKILDNYKYTATYDIDMIDDNFYILYENYDSEDSNRKDLKILKMDKNFNIIYDFSVMKQKYFYIPELKVKKINGKIFIYIKTKESIKILYEN;locus_tag=LOCUS_00390;note=MGA_39
sequence1	MetaGeneAnnotator	CDS	38333	38464	.	-	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLESVYRAKYFLKGPYHEKSYSISVEKPTRTNKYVKIYYKKGW;locus_tag=LOCUS_00400;note=MGA_40
sequence1	MetaGeneAnnotator	CDS	38535	39677	.	-	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSIIIFLVLLSISMFSNTVSFFKEYFLNYFQSNDKFSTTFAKKKTKNYENLNFSTYFDYPYDGTYSINLNSGIKINLFDYQQYLKKEIFNYEKNISLANIEARKMNYIFNYFLDYLEYLKTKNINEELKRVLNFINKNNLLNKNKIFYVRLKNEILENEYYCKKIKREKYNNIKNLFGYHILKDSFIKNSSNLNYIKKNIINNPDYSYNKNNEEIIKLKNNKEDFSVYFDLNYNYNNSWDSENTFNKNFSCSLNFEKSFEIFGISLKNHISIYPNKISANIFFIDYANKFLLNSNKLNNVLNEKIKDYYSYFQRLNILLTKLKNYNEVINIQELNTIKNFSEYIKLINEYYSTYSEIYRIYLGILMLGNSDFILDNLK;locus_tag=LOCUS_00410;note=MGA_41
sequence1	MetaGeneAnnotator	CDS	39746	40729	.	-	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFGLIIFYNIVIFSQNLVLVNKFYIDSSKVDLNKYAGVIDGNIYSIEKINPLIIKSYNIYNGLTKEFLKYSKKVDISIIKYDYLKKPYYTEIFKIIDDKIYIISIGEKLYSLDTKTHEIKEFELENKEQILDYYVSLDTTKDKKDIFFISPNKNLDMILSHYNTNSGFIKNISTGFGVKKILVIKNNVFVINYDEFLKRLSISKFDMDLNKRTFINKKYDTGNCFELPIKIKQKKLYSNYIDDEVKVIKSKEYIVVMNEENFYIISTKVDENGFSKVLKIIPIEKIIDKKLSDLNNLILSSDNEYIYLFNKESYILYTIKLKL;locus_tag=LOCUS_00420;note=MGA_42
sequence1	MetaGeneAnnotator	CDS	40740	41348	.	-	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKRGISWLILFTFILTMMPMNAFATKNVSVNSMSDSQMSAVVGGVSPKKPSKPKPKIETRYFHGVTAGSAKIIYKGPEKIVSAAVDNMDYKNFLDYSFEVNESTTNEFTVSGEAEFLDFWKASGGYTHHKTKSYIGSFVAKIPPRHQGFIVKYKEKIEWSAYSKKIIYKDGVPDSEDNRKGTKINILDVYRAKYIKISY;locus_tag=LOCUS_00430;note=MGA_43
sequence1	MetaGeneAnnotator	CDS	41345	42805	.	-	0	ID=MGA_44;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545206.1;translation=MNIILLALSGLLVFLSYPPFDFGFLGYFALIPYFYVVKKNEKSLRYGFFEGTLIGTIIFLSILHIQSESILINILIFLLLVNIMGITFMIYTIIVKMIYNSLKVKIQKICMISLGWMVIEFITNKMLVGFTFYAGITQHNNDLMLYLSKYIGLYGISFVVVLINVILLESILKLKENKKLKKNDIKYIIFILGFFLAYFVFNSLNDIKNINGINIKKKETLKVRLIQGNITAKEYKKAEEKNKMKNIFEKYMNLSIKNNSSELIVWPETAVHRWIMRIPEYKNKIINIAKTNKINILFGTPDLEPNDEEYNSAFLISKTGKILGKYNKNYTVPFYENYFKKGKEINPFEINNIKIGVEICFEAFFQNVSTELKQKGAGIIFLLSNNGLFGYSNIPYITSAFMQFRAAENNVYVAQLMNTGITQIINNNGKVLKKTKLFETKIINYEIPVIYKQFILSMEKQHIITILFLVIIIAMLLKIQMRRRKK;locus_tag=LOCUS_00440;gene=lnt;note=WP_012545206.1 apolipoprotein N-acyltransferase (Thermodesulfovibrio yellowstonii) [pid:26.6%25%2C q_cov:97.3%25%2C s_cov:92.6%25%2C Eval:1.7e-38],MGA_44
sequence1	MetaGeneAnnotator	CDS	42802	43386	.	-	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKLYYKIKKFFLSLTLLFAFVVFANIMTMLYVSKINNKNLKSEVLNYYIEKNVSYDDTSEYLQKTYYTCGPAALNYLLYLYGVNTTEEKLATLSKTNEKGTTLLNLKYAAERCGFKARGLKANFEYLKEIRKPVITYVKGNHYVVVEDITNKYVSLFDPDPEYGEIRIPIKIFKEAWNNIVLKINTKPLVMR;locus_tag=LOCUS_00450;note=WP_143485779.1 C39 family peptidase (Methanothermobacter thermautotrophicus) [pid:41.8%25%2C q_cov:69.1%25%2C s_cov:41.6%25%2C Eval:1.2e-17%2C partial hit],MGA_45
sequence1	MetaGeneAnnotator	CDS	43878	45410	.	-	0	ID=MGA_46;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055295205.1;translation=MKKLPIGVQDFKELITDYIYIDKTKYLHELITSGKFYFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRINLLDVATDNVERMKESLTKIIKLEGKRNGIEITETDYKFAFNEMIIKLSKKERVVILVDEYEKPILDNINNKEKAEKYREILRDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLDKTYAQMLGYTQEELEKNFKEHIKETASEMKMEEKELLKNLKMYYNGFSFDGENSVYNPFSILQFFKKRKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTIWKAIKEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDIIYIMEIKIDKSAEKALTQIKEMKYYEKYKGKEIYIVGININSEKRNIDEYKIEKI;locus_tag=LOCUS_00460;note=WP_055295205.1 ATP-binding protein (Bacteroides salyersiae) [pid:35.3%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:8.4e-84],MGA_46
sequence1	MetaGeneAnnotator	CDS	45566	46774	.	-	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTKKIMIVLFIILINAFLFGENLNYEKFDKAIKSMYLKEFKRTEDILNKYKMFFPNVSYNFGIDGDFSKLDFTTSQINLNWNIFSSGKNITEMKINEVVNRIEELLDKNKYFNKYISLRYEFFNMYQMQENLKILNKYYDKLIKITPPQNEIEKLKLEREKISTKIQKNDLKESFDNQNLNGFIFLILNKMQDVTFTYPKEYYEMKKLNELLNSYKLKDFKENYEYLIAKKEKEQNKYSKILTNNNEINFNLGANYDFKTNNYSLSFMMDYNYDVPFINFSGNGNYSNGHYNISSTINPVIKEQKKEENEKTLGEILAKVRDDYNKLLNQIEATENNLYIINLDIKISELEYEKNKEKKTDLEKILNERNIESTKLNYILNVVKYNLLVKTLIDTYYEKK;locus_tag=LOCUS_00470;note=MGA_47
sequence1	MetaGeneAnnotator	CDS	46793	47902	.	-	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKQIFLIILVVLITGILFSEKLKLNLVNEYHSDNYRTNYFDVSDSGTITFYCYYNYIEKYKGNKKIVTSSKRGLVTIDIFNDITTFIKEDLQPYFYVPMYFSGINYDKKENIYIATSNGLSKFSLNLGVDSFTLYYKTVDPSLATAYKLKTFYDLYNNLYSKEPKSKWENFDLSKNRISDMEPLIEKIYFFQNDSLKDVYGLADSKINKITYYEKNKLGYDTLKLEEIKILEGEYKVIQLRTDYKYLYALIEKNKAFYLYKINKFGKAELITNLTEKYKEYEILDFDMLDKNNFYFLTGKKELHDYAKIFVNYIFKWNSKTNITKSYKSLKSTSYDNATKGFRVKKLKNNNYVFLSYTSEVDVFKEN;locus_tag=LOCUS_00480;note=MGA_48
sequence1	MetaGeneAnnotator	CDS	48079	48828	.	-	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKRGISWLILFTFILTMMPMNAFATIKKDVSVKSMSDSQMSAVVGTGGGGGGSKPNYIIEKSAIKWQKNYTTYQLETIKKVADAEVISTGPEKATLSIYHTTSYAFTSGITGNLSMDFTYGKLGLGVNAAMQKTKTVRCGETFTIPPYSTGTAYYKSRYNCEDGNVSVWFLHQKLDESGTKVIDSWHTIESAGSYKKRELDGIIDSVVVTILYTKAPFLSIHPEFSVSYYPHKINVNSFSTAWTRF;locus_tag=LOCUS_00490;note=MGA_49
sequence1	MetaGeneAnnotator	CDS	48825	50186	.	-	0	ID=MGA_50;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545206.1;translation=MKKNEKSLRYGFFEGTLIGTIIFLSILHIQSESILINILIFLLLVNIMGITFMIYTIIVKMIYNSLKVKIQKICMISLGWMVIEFITNKMLVGFTFYVGITQHNNDLMLYLSKYIGLYGISFVVVLINVIILESILKLKENKKLKKNDIKYIIFILGFFLAYFVFNSSNDIKNINGINIKKKETLKVRLIQGNITAKEYKKAEEKNKMKNIFEKYMNLSIKENSSELIVWPETAVHRWIMRIPEYKNKIINIAKTNKINILFGTPDLEPNDEEYNSAFLISKTGKILGKYNKNYTVPFYESYFKKGKEIRPFEINNIKIGVEICFEAFFQNVSTELKQKGAGIIFLLSNNGLFGYSNIPYITSAFMQFRAAENNVYVAQLMNTGITQIINNNGKVLKKTKLFETKIINYEIPVIYKQTIYSKYGETTYYIITILFLVIIIAMLLKIQMRRRKK;locus_tag=LOCUS_00500;gene=lnt;note=WP_012545206.1 apolipoprotein N-acyltransferase (Thermodesulfovibrio yellowstonii) [pid:26.5%25%2C q_cov:94.7%25%2C s_cov:85.1%25%2C Eval:1.2e-33],MGA_50
sequence1	MetaGeneAnnotator	CDS	50258	50428	.	-	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKLYYKIKKIFLSLTLLFAFVVFANIMTVLYVSKINNKNLKSEILNYYIEKADY;locus_tag=LOCUS_00510;note=MGA_51
sequence1	MetaGeneAnnotator	CDS	50914	52449	.	-	0	ID=MGA_52;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055295205.1;translation=MKKLPIGVQDYKKIKEGNYTYIDKTKYILELISSEAPIFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRISLLDVSTENEQSFKYGLLEIIKTEAERYGITIENTNYKYAFNELIIKLSQKERVVILVDEYEKPILDNINNKEKAEKYREILRDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLDKTYAQMLGYTQEELEKNFKEHIKETASEMKMEEKELLKNLKMYYNGFSFDGENSVYNPFSILQFFKKRKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTIWKAIKEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDIIYIMEIKIDKSAEKALTQIKEMKYYEKYKGKEIYIVGININSEKRNIDEYKIEKI;locus_tag=LOCUS_00520;note=WP_055295205.1 ATP-binding protein (Bacteroides salyersiae) [pid:34.4%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:7.8e-82],MGA_52
sequence1	MetaGeneAnnotator	CDS	52566	53135	.	-	0	ID=MGA_53;product=indolepyruvate oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869131.1;translation=MTKNILLVGVGGQGIILTSKILSTALINDGYDVKMSEVHGMAQRGGSVTTQVRYGEKVYSPIIGKGEADILISFEKMEAMRWIEYLKPEGKLVVNDYAIGSAPILAGTAKYPKNIIEELKEKVDTLVLNAHEVALELGNVKVQNIVMLGALVKEMNLSNIDWENAIKNLVKPKFVEINIKAFNKGLKLR;locus_tag=LOCUS_00530;note=WP_012869131.1 indolepyruvate oxidoreductase subunit beta (Thermanaerovibrio acidaminovorans) [pid:58.0%25%2C q_cov:98.9%25%2C s_cov:97.4%25%2C Eval:5.9e-59],MGA_53
sequence1	MetaGeneAnnotator	CDS	53137	54909	.	-	0	ID=MGA_54;product=indolepyruvate ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003430808.1;translation=MKKLLTGNEAVARGAYEAGVHVAAAYPGTPSTEILENIAKYKEIYSEWTPNEKVAVEVAVGASMAGARSLSAMKHVGMNVAADPMFTYAYLGVNGGCVIVTADDPGMHSSQNEQDNRYYARHAKMPLIEPSDSQEAKDFTMEAYEISEKYDVPVLFRLTTRVCHSKSLVELGERKNVEIKPYSRNIPKFVATPARARVHHIELEEKLKKLEEYANNTFLNKEEWNTEEIGIITSGISYQYAKEVFGDKASYLKLGFTYPLPKKMIKEFSSKVKKLYVIEENEPFLETEIKAMGINVIGKEKIPITLELNPDIIREALLGEKSKIVEQNKEKVVSRPPTLCSGCPHRGLFYELGKKKDVVITGDIGCYTLGSAEPLNAMDSVVCMGAGVSAAHGFIKAFEQAGTKKKVFGVVGDSTFFHSGITGLIDIVYNKSNATIIILDNRITAMTGHQENPGTGYTLMGEKAEIIDIEAICKAVGIKHIRTINPNNLKEVKDSINEAMELTEPSVIITKWPCALKKFTEIDMQQFELKPQKYYVDSDKCKKCKMCLNIGCPSISFDEKIGSIIDQDTCVGCSVCAQVCPFDAIKKVGE;locus_tag=LOCUS_00540;gene=iorA;EC_number=1.2.7.8;note=WP_003430808.1 indolepyruvate ferredoxin oxidoreductase subunit alpha (Clostridioides difficile) [pid:59.5%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.0e-208],MGA_54
sequence1	MetaGeneAnnotator	CDS	55075	55836	.	-	0	ID=MGA_55;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081106.1;translation=MKLIDTHCHLTLEHFDNEREELIKELSEKFEFLFEVGIDLKSSKKTIELSKKVKNIYCSVGIHPTETENLKHDDYDEIEKLIENKKVIAIGEIGLDFHWDTDKKDQYIGFEKQLYIANKNNIPIIMHIRDAYTEAIDFLKTHNIPEMGGVVHCYSSDRKNAKKFLDMGLYLGFDGPITYPKNQELREVLKYTPIDKILPETDSPFLPPVPYRGKRNNPLYIQYVYEKISEIKQIDIEPLKEILFLNAKKLFKV;locus_tag=LOCUS_00550;note=WP_004081106.1 TatD family hydrolase (Thermotoga maritima) [pid:44.2%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:8.3e-61],MGA_55
sequence1	MetaGeneAnnotator	CDS	56027	56854	.	+	0	ID=MGA_56;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012644897.1;translation=MKSFVFDLDGTLLNSNIEITQNTINSLKKLKEQGTSIIIATGRMYSSMMYIIEKYLPFLKGYSPLIAYNGAYVLDKNKNILYESTIENKIACKCIKFLRNENIHRQAYINDVLIVEEDNNEIKSYSKHASIKYVVVKDLIDEINKRNNVIKLLAIGKENIILELQKKLKKNFEKDLNIIQSFKTYLDLVHKNTSKGAALKKVFEYYNLSFDNTYIFGDSQNDISMLNLTKNSFVLNNASNEVKKHAKYVIPSNDEDGVSFAIEKILSSNSFTYSN;locus_tag=LOCUS_00560;EC_number=3.1.3.-;note=WP_012644897.1 Cof-type HAD-IIB family hydrolase (Thermotoga neapolitana) [pid:35.9%25%2C q_cov:95.3%25%2C s_cov:95.9%25%2C Eval:2.4e-40],MGA_56
sequence1	MetaGeneAnnotator	CDS	56805	57596	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLKKFFLLIVLLIVINEFSSYPILSENKIIGHIYTDLKANINKNELNGYILSLNQIDPELCYLAIGSVNNFELIENLFLDIGTELKNKNFDFVIFGNLKTLNKETTDYLNYIGKSPYLISEVLYRMIRGFETAGIVPVLKITSDDDTKVKNSLKNRAGAIYTYSEEINNLDMYLKNNNVYLKKDRILRLPWKTETSFLKDSIKSIYENSIILSGWRKDNSKLLYRKINFTETKMITYFSHSVESLAKEVLDGKKLATGKITW;locus_tag=LOCUS_00570;note=MGA_57
sequence1	MetaGeneAnnotator	CDS	57610	58191	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKIEELEEKIKKLEEEIIGYKNREQEMEFLIEQYNSLVKDEFDSFDEFVMNLVTRKIIDENTRVYSKEFFEKLFSIYYQKAFEMDKECGIITIRLPYFDKVSGEEKKVVEREIGKILRESVRIPLDIIARYSNVSFVILLTDITKDVFDTISERIKKRLTTLTDYSNNFKMKRYYIPVDDVKTEDILNDLR;locus_tag=LOCUS_00580;note=MGA_58
sequence1	MetaGeneAnnotator	CDS	58204	59496	.	+	0	ID=MGA_59;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082675.1;translation=MESLRIDNTGKLIVSGMQQANGILEISGAKNSVLPIMAACILTDEKIILRNVPDISDVNTMIEILESSGKTVNRVKDTLYIEKSEKINSEIPYEPVRKMRASFNVYGPLTVINKISKVALPGGCSLGARPVNFHIDGLMKLGIESKIEHGFVYGKIKPIEKSEVHISLDFPSVGATEHILTTATLIDGVKTIINNCAMEPEIDDLANFLNKMGANIEGIGTSKIIIHGVKKLHGIDYKVIPDRIEAGTFIIMGALIGKNLTIKNINAEHLESLFSKLDEMNIEYNLKGNEVKISSSLNKKLNATIIDTAPYPGFPTDLQSQMMVLCSLIDGRTTIKENIFSNRLSIIDELNRMGANIKAENNNLAIVDGVRFLSGAPVQATDLRSSAALLLAALVAEGETIINNVDHIFRGYEKIEEKLKNVGIKIEYYE;locus_tag=LOCUS_00590;gene=murA;EC_number=2.5.1.7;note=WP_004082675.1 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Thermotoga) [pid:52.6%25%2C q_cov:97.9%25%2C s_cov:99.0%25%2C Eval:6.5e-119],MGA_59
sequence1	MetaGeneAnnotator	CDS	59526	61541	.	-	0	ID=MGA_60;product=DUF1156 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_207707612.1;translation=MNDFPYKFISDISKKEVVHRKPIYSVHKWFSRKTDSLIRGILLSLMNKNVEKSFYLNNEMLLKNKIVLDPFFGGGTIPINVLRMGGKIVGYDINPVSWFITKCELESVEIEELKKTFNKIELEVGKEISNYYKIKNENGELCDVIYLFRSKKTKCSKCGKEIKIFPTYRLTNIKRKNFINYTICKNCGSLIKSNDEIVTCKNCGIKFNSFLGNYKRGKVTCECGNIFNLRDQKDVENEIIAIEYYDNKERKIKIPDNDDIKHFSEKFNIDFDFIPNQKIPYGDETKRLFNHNYFYWKDMFYESQLYFHSLLLKNIKEIRNVKIREQFLCLFSNFLNSNNAFCSFQKDYNKSEPLFGDHHFAPIVISVENNMWGAKVGSGTFKKFFQNYIKAKEFNYNIFEKNYNKNEKIFLEKEKINAIFAKNFEDLKDKNTFLICNSSKNMKELPDESIDYIITDPPYFSSINYSELSEFFYVWQRILLNNEYIYFKNDSLKKDKEIVVNKSRNYKKDDYIKELKHVFLEGRRVLKNNSYMVLTYNNNSIDGWVSIIIPIIESGFKIIKTYPVDIEKNSGLIDNIRNKMNFNLIIVCQKTLFELKEIKFQQFLKKVKKEILKNIYYKKSISYSDKVVIIMGKIFEVYSEYSKVYLNKSLINIEEIIKLYYEKYLDELIYE;locus_tag=LOCUS_00600;note=WP_207707612.1 DUF1156 domain-containing protein (Desulfofundulus thermobenzoicus) [pid:27.9%25%2C q_cov:87.6%25%2C s_cov:80.1%25%2C Eval:1.3e-63],MGA_60
sequence1	MetaGeneAnnotator	CDS	61543	62592	.	-	0	ID=MGA_61;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083210.1;translation=MNKSFKTMIKVFFLETFKNKIEVFFTLFFPVLFLVIFGFLFTQNNIVKTYTYGISGTINDDVKNYFKPNKILIYENEEKLKEAVNNNKVDYGIYMNNNEVKYYYVSNMNSNIQWIKYGANSGVKKYLLKLKKDYISVDEKLIKLGKTQTNPMEYLLTGIIAISILSGGMFSVINVFGRYKKLGIIKRFMVAPVKPYQFVISASFNKLILNFASIFFIIILGKMWFNLSFQFNWFLLIIVGLSTTIGMMGVGILILVLFKETESANTASSILFTIMMFFAGIYFPISFIPGYLRWLSYILPVKYVVDIIRYVAGVESMNILVFWFINIIFILSGTLLLIIASKNFVKESK;locus_tag=LOCUS_00610;note=WP_004083210.1 ABC transporter permease (Thermotoga) [pid:33.5%25%2C q_cov:95.4%25%2C s_cov:95.5%25%2C Eval:1.0e-44],MGA_61
sequence1	MetaGeneAnnotator	CDS	62585	63715	.	-	0	ID=MGA_62;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083211.1;translation=MKLFSLTKTMITDNFRQFEIVFWSIVFPAVFFLFFNALFSGVQNGDMNTNLKIGVYYEENLTGMAEQIFEGTFKEISKSNMIKFSTLKSKNEGINLIKEKKIDSFIVFPKNFNSLNLNMVFNLVKVPSIEFYYYPGNDSIFSKNIFKSIVDEMNVRIANKGKEFKVNSSEEAINLKKSLKYKDFLFPGILMMSILTISIFNMPIGIITDVESGIIKKLNTSPIKSYHYFFAFGLSNFLVLILSISLFYFEAYLLKVTNVIYSIQFIIFLIYSAITALSFGLLFASFFKKISTISVVSNVAYQMTIFLSGLYFSVKTTPWFIRWYVYFNPATYLVDGMRNLLEGKSVGGINYLIPAIWFVIGIVTFSINYKRVMKYE;locus_tag=LOCUS_00620;note=WP_004083211.1 ABC transporter permease (Thermotoga maritima) [pid:29.0%25%2C q_cov:96.8%25%2C s_cov:97.0%25%2C Eval:7.7e-41],MGA_62
sequence1	MetaGeneAnnotator	CDS	63728	64621	.	-	0	ID=MGA_63;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865109.1;translation=MNIIEVKNLKKYYKGIKAVDGINIEVKKGYVVAILGPNGAGKTTTVETLEGLRVPTSGEIYYFGEKINVVDEKIKEKIGVQLQSTNFFTNLTVHETLKAFSGLYKKTVDVNELLKKFNLIEKKKSRIKNLSGGQLQRVALATAVVNDPEIVFLDEPTTGLDPQARRNLWDAIIELKKNGKTIILTTHYMEEAEKLADMIYIIDHGKIILKGTVKELIENTKMKSVITFYSEKNIKIDMLDLKNINGFYELETNDVESDIIKILEYSKEKGHKIEDISIRKPNLEDVFLQLTGRTLRE;locus_tag=LOCUS_00630;note=WP_010865109.1 ABC transporter ATP-binding protein (Thermotoga) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:96.3%25%2C Eval:4.8e-85],MGA_63
sequence1	MetaGeneAnnotator	CDS	64851	65009	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNIIEFKFYYKKLKKGGVFMKKYKEKRCTSYSEGFDRIVELKDYFNYIIKF;locus_tag=LOCUS_00640;note=MGA_64
sequence1	MetaGeneAnnotator	CDS	65089	67125	.	-	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYKKIIFFIIILIISSFSFTQIYYVEDKKDLYTPLEVLKMDKKVLNQTTFGLTNSSYWYFFSLENYEKNKEFFVEINKPQLSYIDFYVIENNSIKTCIKTGINRGYDSKPLKVNTFVFPVKIESKKTNILIKVKTSSYMTVPIKVLEKNDFFYKKINENIVLGLYYGIIISMILYNFFIFISTKNISYFYYILYLFNFVMMQLVWDGLTNDIFSKNIWWFEHSNSFFIFLTIIFYLLFVKKFINLSKIKKSLNKIFIFSIQIFSIMLFISLFLSSTLSTNIATISGLISVFLLSFLMIKLKMKTLTIKLFTYAWFFFVLGIFINILAALKIIPTNILTIYFPKIGSTLEVILLSLSLGNKINIIRREKELNQKMKNFLLKLHKVSKILTEIKNEKIPEKLLDQLINELELDGGIIYLEDNNTYISKNFKEKIIDFNYLLNKVFDNNKESCILNDFYIENTLYKTVYLFKIKNGKIILFSLKKSQYTKEEVKILNEFMNYGGVIIENNKLFLKTEKLSKIDSLTGIYNRYAFFKETEKIVESNKYKNYSSIMVDIDYFKKINDTYGHLIGDIVLKIIVERIQSCIRKTDILGRYGGEEFVIILPNISKQRLMEVSEKILKNISDFPIIVNNNSLRVTVSLGVIFTNRKIELSTLLLYVDEQLYKAKENGRNRIEVMEK;locus_tag=LOCUS_00650;note=WP_000691480.1 guanylate cyclase (Leptospira) [pid:28.5%25%2C q_cov:51.5%25%2C s_cov:51.8%25%2C Eval:5.0e-34%2C partial hit],MGA_65
sequence1	MetaGeneAnnotator	CDS	67115	67726	.	-	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNEVKKIMETGDLILFSGQYEMSKLVEKLEECPWSHVAMVVKFDEISEPFLWESTSLTNLKDVLFDDHKKGPKLVELYKRLKSYGNDVTPYKPPIYSFRKLNLKRTSEMLDDLYKLFYNVYGIPNPGELKMIWEVFEGKIFNLPSKKDNYTCSELIAESYIKMGLLGTKKVINSYMPKDFSSYGNISLLKGSFDKEVIIEL;locus_tag=LOCUS_00660;note=MGA_66
sequence1	MetaGeneAnnotator	CDS	67797	69005	.	-	0	ID=MGA_67;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082978.1;translation=MKILVINTGSSSLKYQILNMKDEKLLCKGLVERIGGKDAKIIHKIDGKKHEEVIEIKDHEKALNEVLKLIINNEFGCLKDIKEIVAVGHRVVHGGEKFASSVLITNEVKKALEENIELAPLHNPPNLLGIEAAEKLLPGVPMVGVFDTAFHQTMPPEAYLYPIPYEIYHKYKIRRYGFHGTSHRFVSQRAAEILNKNIKELKIITVHLGNGASIAAIDGGKVIDTSMGFTPLEGVVMGTRSGDIDPSIPIYLIRKGYTPDEVDNILNKKSGMYGLSNYLSNDMRDIREAKSKGDEHCKFAIDVYVYRIAKYIGAYATALGGVDAIIFTAGVGENSTSIRRHVCNRLKIFGVELDQEKNVKLNSSEAIISSENSKVKVLIVPTNEELMIARDTKDIISKRVEA;locus_tag=LOCUS_00670;gene=ackA;EC_number=2.7.2.1;note=WP_004082978.1 acetate kinase (Thermotoga) [pid:62.8%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:2.8e-145],MGA_67
sequence1	MetaGeneAnnotator	CDS	69128	70066	.	-	0	ID=MGA_68;product=class II fructose-1%2C6-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082977.1;translation=MAYVNTKVILDKANKEGYGVGAFNVNNLEFIHAIIEAGVEKKSPVIIQTSQGALKYAGDGDVYRGARLFVKMVREFADSVEIPVALNLDHGSKLENIMACIQAGYSSVMIDASHSPLEENIAITKDIVRIAHAANVSVEAELGQLAGIEDDVVAEHSVLVDPNEAKRFVEETKVDFLAPAIGTSHGAFKFKGTAKLDFDRLKEVKELTKIPLVLHGASSVVQEMVKIAEANGADFGGSKGVPSDILKETVKYGINKVNTDTDLRMAYIAGLREFLNNNPKEFDPRKYFATAKEYTKKVIMDRMEVLDSVGKI;locus_tag=LOCUS_00680;gene=fba;EC_number=4.1.2.13;note=WP_004082977.1 class II fructose-1%2C6-bisphosphate aldolase (Thermotoga) [pid:60.9%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.6e-105],MGA_68
sequence1	MetaGeneAnnotator	CDS	70147	70653	.	-	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEKKYDKAILAAGCFWGVEDLLKNYEGIIDTRVGYTGGKTPNPTYEQVCYGFTGHAEAIELIYDKEKITYEQILKIFFDIHDFTQINRQGVDIGEQYRSSIFYINEEQKQIAENIISFLKKKGYDVATKLEKAKEFWQAEDYHQKYYEKTGKKSYCHYKRNIFKDE;locus_tag=LOCUS_00690;note=WP_010932947.1 bifunctional methionine sulfoxide reductase B/A protein (Chlorobaculum tepidum) [pid:60.8%25%2C q_cov:94.0%25%2C s_cov:55.6%25%2C Eval:1.8e-55%2C partial hit],MGA_69
sequence1	MetaGeneAnnotator	CDS	70710	72566	.	-	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFKVLKEKCIACRACERVAEENFKIIDGKAIVYKQPENETEETKSIKALKSCPTNAIEIKNIELITGSSNVKETLEKHPKLKEKLIELSPKFKKMQTPFMWNTLAKFATFENASKMTKISLCEILHTLNEELGLVKELSKKFPECIKEFNEEKFNNTDIFWDENEVLKVENNNFESIENVLNKLKNLKRGEGFVFEGEFVIDPFIKNIEELKYLYNVKKINKFEYRVSVFNKSNKDNLNILDVRTMQVDPFDVIIKKAYSIKPGEEFILVQTFEPTPLINMLNGMGFDHKTEIKSEFEVWVYFKKTIEEEEKNENSNKPTITIQSATPVGYPIIMKLLQSKKIKNAVNIKELKVWEETEKHLGWIVNGKADISFSALITASKFKGMDVKMPVVFVWDNFSILTRGYKAKSIEDLKGKKLYLPLFEDAPPAKITKYLIQSKGFDVNDFEFVFGKPFGRPKQIMNDFINGKVDTVLLREPEAGFAIKTLKNNNIKYSELSYGKLWNEINNNFGLFPNAGVIFKGEFVRKYPEISKVVLDELKNSIEWVNKNKKEAAKLSFDMMRANIENVEEFLNRVTFKYVEGEELTKKINQFYSLLIENDILNFEIDNDLMNMFKI;locus_tag=LOCUS_00700;note=MGA_70
sequence1	MetaGeneAnnotator	CDS	72726	74069	.	+	0	ID=MGA_71;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947936.1;translation=MSKKYFKVLKIALPAVGEMLLYMLVFVSDTAFIGHWGGNDAVSAVGLSTELIYTITGIIITIGLSTAITTMVAQSYGAKKINTVEKYLSSGFFFGFFISLIVSTFIFLFSKNILIILGAKKIVLSYGLSYTKIVAFGSVFQMLVSLLSSGLRGIGNTFMSMISALIINTINIILDWIFIFGKFGFPEMGVKGAAIATSLAAIIGFLFLVFYYVFFSKVKIRFKYIKNLNKKYILKLFYLAVPSGLQEGAFSLARLLSVSWVLSGLGKLSASTNQIVTTIESISFMPGWGFSVAATALVGQMIGAKDYKKAKEYANISALMGTVIMSFFGILFILIPKLFMNFFITDPKTIELGVLCLIVTAFEQPTMAISMIYGGSLKGAGDTKTPFKVSLFTNWGIRLPLIFIIIFILKLNLVYVWGAMVIQWFIDALLKYNFFKNFLSSKIKLNI;locus_tag=LOCUS_00710;note=WP_011947936.1 MATE family efflux transporter (Clostridium botulinum) [pid:42.7%25%2C q_cov:94.4%25%2C s_cov:95.1%25%2C Eval:8.0e-96],MGA_71
sequence1	MetaGeneAnnotator	CDS	74195	75895	.	+	0	ID=MGA_72;product=oleate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011082857.1;translation=MGNYQRINPKKPEGIETKKAYLVGSGIGALSAAFYLIRDGHMDGKNITILERKNINGGALDGAGNAEEGYVIRGGREMEAHYECTWDMFGDIPSLKRPGRTILDEFHEINVWDPNESVCRLLHNRGERADSSTLGLEEKHIKQLTKLSLATEEALGNITVKQFFDPSFFETNMWLFWRSMFAFETWHSVVEMKRYMQRFIHLLPGMNKLKGILFSEYNQYDSFVLPLLSWLKERGVKFENETLVTDLDMDITDSEKVVTGIHIIKNGKEEIIKTTRNDLVFVTNGSMTENSTIGSMNKAPELNREPGPVWNLWKNIAKKDKAFGNPEVFCGNIDKTKWESFTMTFKDSKMEDVLKKLTGNDPRSGRGITGSVVTFKDSNWGMSFTGSRQPHFANQPDNVIVLWAYGLFPDNEGDFIKKKMSECTGEELLREVLYHLNVEGELMEEIVDSAIVIPVMMPYITSQFMPRVKGDRPDVVPEGSVNLAFLGQFAEIKDDCVFTVEYSVRSAIMGVYKLLNLEKEVPEIYPSQYDVRALTAATKTLYSGKPLPGEPIIKKLIKDTTLEGLI;locus_tag=LOCUS_00720;EC_number=4.2.1.53;note=WP_011082857.1 oleate hydratase (Bradyrhizobium) [pid:48.9%25%2C q_cov:98.2%25%2C s_cov:95.9%25%2C Eval:7.1e-156],MGA_72
sequence1	MetaGeneAnnotator	CDS	75912	76481	.	-	0	ID=MGA_73;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002279620.1;translation=MSKLTQKALSESLKKLMQTIPLSKITVNDVVKECGLNRRTLYYYFHDIYDLLEWTFKTEILNVLGKNRTYETWQKGFLKILYYLRENKKIVLNAYNSIDRDHLENHLDESVYKLIFGVINELSKDMNITEKDKKYVAKFYKIALTNTIIDWVKEHMEEDPKEIVDNLTKILDGDLYRALLKYEKEKPNK;locus_tag=LOCUS_00730;note=WP_002279620.1 TetR/AcrR family transcriptional regulator (Streptococcus mutans) [pid:40.8%25%2C q_cov:97.4%25%2C s_cov:97.9%25%2C Eval:4.5e-43],MGA_73
sequence1	MetaGeneAnnotator	CDS	76595	77485	.	+	0	ID=MGA_74;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000658271.1;translation=MNSKKFLGWAYLFITIFFFSTIEVATKPFLNIFNPFQITFLRFFIGGLFILLYLFLTKQIKNFQFSFKNLMLMCFIGSLNSLLSMSLLQFSIKFSNASTAAILISANPIFVLILASIILNEKITLKKIISLIVGIIGIIIILLSNNTGDSYLGLLFGLLSTFSFAFYTVMVKRYLSNIPSNIFVAFSFLMSSIPFYIVLKILKIPVFEFNGNFQIYLMLFYISIFVTGIAYITFFKALTILDASLGSFSFLLKPVISTILAYYFLNEVPNKLKLIGTIFVVLSVGILALKFQQKNN;locus_tag=LOCUS_00740;note=WP_000658271.1 DMT family transporter (Bacillus cereus) [pid:23.3%25%2C q_cov:92.6%25%2C s_cov:91.2%25%2C Eval:1.7e-13],MGA_74
sequence1	MetaGeneAnnotator	CDS	77604	79553	.	+	0	ID=MGA_75;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFVLFIFLFINIFVFSNPLEDTFKFLNVKYDPKEINTSNNFEVLSIKDINSNECFIKIHWNIKNIFLSGTRVLLNNGNGFKIIKSLSAFQNSVSIKVLKNKKNSFIIQNYDKDGSIYNSTIKDVYIFYNNEKNKIISYKNKKFLIYKNLFEKNKNTLIYFGKKEEDFLEINALNLKSNSIVFPIGYTSDSTIASFVKERTKVSFINSNISFNFETKYPLISPEITKSGFHEIFPIIPASYISKKLNLNFNSINIRLFYKNEFKDESYSELWKVKPKFSRQTYEEEAMILHKKISGIRYGYRIPEKSINTEVYNKKRKAIIFVHGIQINRYLENFFKEKFPWRTLQRFGTFNNFFRYIYENDEKFKNFDFYEFIYDSHTMTAKEFGKKLYELMEKGKFKDYKELYFISHSMGGLVTRYALNFSNYTNIVNIINIDAVNYGSSLQNLIELFAYKSFDEKIDENIESAIKILENSLNDTISQKKLNLDNELKILFKTYPYLIPAILSEYNILDTFNGGYSIRSSNTKKLNKLNNTLFKKNLFTPSKDIINLNKNDKYLNKLLLIYSKIDDYDPIVTFNFSHSVLEFFGRITNSSKYEIENDGAVTVASQMMYGYNVRRDSNYINGRNHETFFNDYKMITELLNKYVLINY;locus_tag=LOCUS_00750;note=MGA_75
sequence1	MetaGeneAnnotator	CDS	79589	80530	.	+	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSNENINAIYYSVKISFEKNINKNKNFNESIYTLMNTLKNKNNEDILNMIILKFNKTFNIKINSKKNMFKNKSQYIISNKVYKNITSSRNKINTLQINSQNVLNNKILKKKHTLKNEKSNLKTCFYYLNTKFDKNKPLPKIIIKDYSTLLKKRMNSKSLFVLYGTLNNKINTYIQNELKNKKEKNKNILKNSRLYINKNFQNIQIKNYEEINLKTEYCLKSMKINLNNIMNNTSLILKNKILNSEMMLAEIGLFKFEITNSSIFKINCFIVNKKYDNIKNITKDILSLIKTKELSEKNKEKIINSLEGFVNA;locus_tag=LOCUS_00760;note=MGA_76
sequence1	MetaGeneAnnotator	CDS	80523	80774	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHENLKEIIELEKSDLIDLKFKEIVNYMKTIEEYFKESSEDELEEAIMLYEKLQELYVVANRKLEELEAKKKAIDKKINFQNK;locus_tag=LOCUS_00770;note=MGA_77
sequence1	MetaGeneAnnotator	CDS	80808	81005	.	-	0	ID=MGA_78;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288762.1;translation=MKGTVKWFDAKKGFGFITAEDGKDVFVHFSAITMDGFRTLEENQEVQFDVVDGEKGPQASNVTSA;locus_tag=LOCUS_00780;note=WP_002288762.1 cold-shock protein (Bacteria) [pid:73.0%25%2C q_cov:96.9%25%2C s_cov:95.5%25%2C Eval:1.3e-21],MGA_78
sequence1	MetaGeneAnnotator	CDS	81185	81385	.	-	0	ID=MGA_79;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082425.1;translation=MKGTVKWFDAKKGFGFITSDDGKDVFVHFSAITMDGFKTLEENQKVEFDVVDGEKGPQASNVRTAE;locus_tag=LOCUS_00790;note=WP_004082425.1 cold-shock protein (Thermotoga) [pid:71.4%25%2C q_cov:95.5%25%2C s_cov:95.5%25%2C Eval:1.0e-21],MGA_79
sequence1	MetaGeneAnnotator	CDS	81483	81755	.	-	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGPVYNLSYDTKGMNEKKAAEAFVSELFAKVLNSMNDNPLVKDNKLFPKSNTEKWFKEMLNAEYAKSLSKKELKPLVNQVVNSIKPNRK;locus_tag=LOCUS_00800;note=MGA_80
sequence1	MetaGeneAnnotator	CDS	81757	82737	.	-	0	ID=MGA_81;product=flagellar basal body P-ring protein FlgI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081923.1;translation=MKKIILVLILIVSILSFANVRIKDISDFRGARDNQLFGIGIVTGLNGTGDSGNIPSEMLNNLFKNLGMQIKNQITSKNTAVVIITADIPSFYKEGMKLDVTVSAVGDSKSIENGVLIQTPLYGADNNVYAVAQGNVLTGGAEVKSTNLQKKYKVSGYIPQGAIVEKEIPANIVSNNTITLNLKHPDFSTAARVSMAINVTFSDKISKAMDSSSIKIKIPDVFYDDVVSFLALIEEIEVQPDVKAQIIINEKTGTIVLGGKVKLADFSLSYGNFVISVNDGSINGNPATIDNVIAALKASGATPQDIIAIIQNLSKAGYIYGEVVVM;locus_tag=LOCUS_00810;note=WP_004081923.1 flagellar basal body P-ring protein FlgI (Thermotoga maritima) [pid:55.9%25%2C q_cov:97.9%25%2C s_cov:97.9%25%2C Eval:1.3e-102],MGA_81
sequence1	MetaGeneAnnotator	CDS	82750	83355	.	-	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLIIIIIILTTISFSDSLWNKSSKTSIVSNNKNYSVGDFITVIVRESPTLSMDDNIPGYKSTTIDTLGSIVKNIGGTDLTKFLPLGSTDPSSLKVSNNKVKSSTKANVSLYITAKITKIDKNIYTIRGEKEIKIDNQRKKMIIEGDFAKDSINDGYIESSKIANAKIWYAGDIIFQQDPKEPSWISWILSGIANVFY;locus_tag=LOCUS_00820;note=MGA_82
sequence1	MetaGeneAnnotator	CDS	83352	84266	.	-	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKVFFITFIFFISLIYAKTVFTVPSTVITNDNRFSLKDIFQDIQYDRTICYINNYKIYQKEELEKILKGFLSIYYKDYQLSFNSNTIKVIKEVSDVIKKTNFNFNEFIINTVNNYNKNFRVLKIEKKITVSSTPTINRIFRSGNTLYISASYLKNNQKHYFNVSVKISEEKKILLFSKDILRNEILKLEDTKESTVNILSLNFQPLYLKEFKEGKFKLIKNGLKNEIINKNFLKVIPDVLAGNTITIVVKYNGVVVKSWGIVLKDANYGEIISVKNTQTKKVVTGLLKEGPYLLINLGSDVN;locus_tag=LOCUS_00830;note=MGA_83
sequence1	MetaGeneAnnotator	CDS	84268	85053	.	-	0	ID=MGA_84;product=flagellar basal-body rod protein FlgG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081929.1;translation=MITSLYTAASGMNAEQKKLDIISNNLSNVDTTGYKSMRAEFQDLLYQAVKEAGTPTAQDSTLPTGLYIGHGTRLAATNRLFTMGNLEETGNSTDIAITGDGFFQVQLQDGKIGYTRDGSFKRDANGRLTTSNGLLVVPNITIPQSASGLSISPDGIISVKLGDGTIQNLGNLTLVRFVNPAGLEPTGNNIYLETQASGAPIEGVSGQDGYGALQQGYLEKSNVEAVKEMVNMIISQRAYDMNSKAITSADEMLRTVASLKR;locus_tag=LOCUS_00840;gene=flgG;note=WP_004081929.1 flagellar basal-body rod protein FlgG (Thermotoga) [pid:67.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-103],MGA_84
sequence1	MetaGeneAnnotator	CDS	85068	85781	.	-	0	ID=MGA_85;product=flagellar basal-body rod protein FlgF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081931.1;translation=MRGIYSAGMGMLNSLQRLNSISNNLANVNTNGYKKDTSLFKAILEKEFYSFPKNSQKGIGIGKTETAVVLDKVVPEMTQGKLVETNNNFDMAILGKGFFKVQSGKDIFYTRDGEFKLSADGYLVDNNGNKILDETNNPIRVQKNLEINENGNINNTSNKIGIVELKNLSKKGTNYFIGTEVKDTISKIKQGYVEKSNVDTLKEMVNMISANREFEILQKAVQSQDSLNAKAIEITRT;locus_tag=LOCUS_00850;gene=flgF;note=WP_004081931.1 flagellar basal-body rod protein FlgF (Thermotoga) [pid:41.2%25%2C q_cov:97.5%25%2C s_cov:96.4%25%2C Eval:5.3e-43],MGA_85
sequence1	MetaGeneAnnotator	CDS	85798	86799	.	-	0	ID=MGA_86;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081933.1;translation=MAKHDLGIDLGTATFVVYSRTEGIFIEEPSVVAIDKKKGQIIAIGHEAKEMLGKTPDEIEIIRPVQDGVINTPEIIEDVLRYFLKKAKKGISFSKPIFVIGIPALTTDVERRAVKEAAEKVGASKAYLVLEPVAAAIGTEIDITKPNGHMVVDLGGGTTDIAVISLGGSVMRESIKVAGQAMDNEIIKYIKKQYRFSIGEATAEQLKKEIGKAYSMEENIELEITGQNIKTGLPSSLIINSDDVFKAIKSVLGEIISKIKNVLEKTPPELAADVMKNGIILAGGASKIRGLDKLIFEKTGVKTKVTEEPHLTVAKGTGILLDNIELLNRVSVD;locus_tag=LOCUS_00860;note=WP_004081933.1 rod shape-determining protein (Thermotoga) [pid:53.3%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:8.3e-97],MGA_86
sequence1	Aragorn:1.2.38	tRNA	86823	86898	.	-	.	ID=Aragorn_1;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence1	MetaGeneAnnotator	CDS	86889	87545	.	-	0	ID=MGA_87;product=RuvX/YqgF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865357.1;translation=MKILGIDHGQKKCGIANAVFNIASPYKTVLNNELITFFKKEGVNKDTIIVYGLPLSMSGRFSNQTYNVIKSAIEVKTTYGCKIIFIDERLTSKTLFTELKGVVKSKKIKKTKDQNSSSLILSVYLANKNAGIELKEKKVYNIVHQIKSKKTLVYETAIKNIKDIENFYIFTKDPWIFWYYFSQGIKSINIEKDLEEYDVLICSEEKNIDLKYNEKMCL;locus_tag=LOCUS_00870;note=WP_010865357.1 RuvX/YqgF family protein (Thermotoga) [pid:25.9%25%2C q_cov:99.1%25%2C s_cov:94.0%25%2C Eval:3.6e-11],MGA_87
sequence1	MetaGeneAnnotator	CDS	87542	87796	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTTLDLDLALIIKNMNIIDVKSILDENKIFSKIYPAPKSVLESCSPILVVSSKDEIKVKDILEGILYEKIKMDKDIIWELLKR;locus_tag=LOCUS_00880;note=MGA_88
sequence1	MetaGeneAnnotator	CDS	87802	90909	.	-	0	ID=MGA_89;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081936.1;translation=MKSIWRIFWDTNDPNYERNLKVSRSISNGAKVSEFLAKLMVSRGITNTEEAIKFLNPSEKDVIDPFKLKDMDKAVDLLLNILSKKEKIVVFGDYDVDGVTAASTLYLGLRDLGYDVEAYIPSRLEEGYSLNVEAIEEFKNNGFNNIITVDCGITSIVEVKYAKNLGMKVIVTDHHEQQEVLPPADAVINPKRRDTSYPFRGLAGVGVAFKLLLAISSKIKSNFNPYDYIDLVAVGTIADIVPLLSENRYFVKLGIEKLKTNPLPGLNGLLKELKVSNSEIKSNIIAYKVAPKINAAGRMADAVTAFNLLISKDKEEINKYVLALLKLNTKRQAKEKEIYLFALSLMDVNPKLKNDKVIVLSGENWHLGVLGIVASKLSAQFNKPVLMISKEGEFGKGSSRSPQGINLIEIFKRASEKGVFKEFGGHELAAGFTTYSSKIEELRIAVNNAYKEIYGDSKPTLEVSIDSEIDKIWSNFFDDIKKLEPYGYKNPEPTFFIKNMHIENLKFFGTAVESFAGKSRDKDYIMDTIGYGLSQKLKDIRFNGPTSINIDAVGNFREEPAFNSKRTFLKFYLKDLSLIEKNNKYLSLNEFDVNSLLNEEISKVSKIKAIINNLNSKKVAMFLPSKVKYAVIMKKIVESLNKNKKIIIVGSSHVNLKHTYNIISSYISPTIICYNKKSKLSIKNLNEKNIIFITVPSFFKNLKMFTGNKFDFIVDEPFYSVAHPAVKSIKEYSEFRKFLNYKEDNISILGSIYHETLKEFLKVAGYKVLISNINQSNFEIIKEKKKLNEVLKDYLNSYNKKIIVINNRKKQELIKNFIVEKLNIPEETIKIFNEDIEFSKKLMLREKLKKTSSNILITSYSNNGLGMKISDKKPVFILLEPPKTRLELIDLVSNWNVNNYHVNIVLAYDNKFKMRLNYEYAKEYPSQNILKQSFDFIKNNPDLKETDIIKNLFKDDREIGKIVLDELIDSGLILNSSGKYEVLDEFDLKLLHKSIKIKESILDNWIIKETIDFFKDVDTKKFMQMLKTNITEIRR;locus_tag=LOCUS_00890;gene=recJ;note=WP_004081936.1 single-stranded-DNA-specific exonuclease RecJ (Thermotoga maritima) [pid:31.0%25%2C q_cov:97.8%25%2C s_cov:99.7%25%2C Eval:2.6e-117],MGA_89
sequence1	MetaGeneAnnotator	CDS	91043	91543	.	-	0	ID=MGA_90;product=dihydrofolate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082129.1;translation=MILNLIMVSSINGIISKTEIEKPYWNTKEDLKFFSTLTKKSGVVIMGRKTFETIGKALPERLNIVMTKNPQKYKNLKNLKFINDSPENILKSLKNYSEVFLIGGSTINSLFLEKNLIDYIYLTIEPWLINGKITLFKDIKKDIPLILEEIKKLNDSTIVLKYKIKK;locus_tag=LOCUS_00900;gene=folA;EC_number=1.5.1.3;note=WP_004082129.1 dihydrofolate reductase (Thermotoga maritima) [pid:42.1%25%2C q_cov:85.5%25%2C s_cov:85.2%25%2C Eval:1.4e-25],MGA_90
sequence1	MetaGeneAnnotator	CDS	91642	92622	.	+	0	ID=MGA_91;product=asparaginase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965021.1;translation=MKKIAIVTTGGTIAMTQDPNLGVVPSEKINQKLNDIPYLKNIAKTELIEFANKPSPHITPKDMLELSKLVKKLIKNKEYDGVVITHGTDTLEETAYFLDLTIDTVKPVVLTAAMRNLSEPSADGPMNLIASVRVASLEKSADNGVLVCLNDEIHAAREVTKTYTSNVATFDSPGYGPLGIVDEDTVVFFRRTLERMHIEADAINDKVALIKTYTGDNGETLKHLPKMGYSAVVVEGFGRGNVPPAVGNVLKELVKQNFPVVVVSRCFKGRVLGVYGYDGGGADLKKHGIILGQEVSGQKARIKMMVVLAKTKEINVIRDYFEFQNK;locus_tag=LOCUS_00910;note=WP_010965021.1 asparaginase (Clostridium) [pid:46.4%25%2C q_cov:98.8%25%2C s_cov:97.6%25%2C Eval:1.9e-82],MGA_91
sequence1	MetaGeneAnnotator	CDS	92636	93646	.	+	0	ID=MGA_92;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081545.1;translation=MTKNAKSSIYTGIYLALFFSIALISMQVFSIIVFSIGSILIIDLFAKIIQKFFKLPRKLSILFSLLALFIFIGLVVGLLIPTVIHEVSNFLNFLESFFNNKEWKKLFNNSFPQLENNISEFLSGLQPKLFEFLNYIALQIPNVGQKAGSFIFYLFLLTIYGSFFFDTFKNKLLFMFPKSIRKNTLLFWKDLYIDLETFVVSTVFAAIFVGGAAFVATNIIGIKYSLILSVWAALTNFIPVVGVIFEFIPLIIVGISSGITKMLILLIVMIIIHATAFVFFLYVLKGKTRINSVAVIVSILIFGYIFGLIGPLIAVPIGILLRTYWNHFISPYLERS;locus_tag=LOCUS_00920;note=WP_004081545.1 AI-2E family transporter (Thermotoga) [pid:28.8%25%2C q_cov:97.9%25%2C s_cov:96.4%25%2C Eval:2.9e-44],MGA_92
sequence1	MetaGeneAnnotator	CDS	93651	94997	.	+	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILIFLIIFSIQIFSITLENIYNLSKNSSTLDKSWKELVLYIQKNGSNQQLERYGEIISAKKYLYNKYKNFKFINTIISEDLKEFLIGIGIIDFNFSEEDTKKILYIFKNLPKTIQNILESGKMEEINLKYSYKIKGLNSYVNQKSDDLFLKYLIDKTIQNPPFFDKDMQNFVNTFISKSHIIKMNEIIESSRYYIQEKDFMGGYNLLKFLYEKNYISDKNLKQYYKLKTYFELKNKLSTYASTVYTFENQEIEKYTYDVLSLINSVSNLTLSKKMLEDILYSIVKVLNTRIEKLDKKLNVDFSNIQINNLNEELSNEIIKLKLKLNYSKDIIKNASNNKTEKSNKIKTNFFIEYLFIFLVIITLIILMLLFELFPSEKKVEFLCKIGMGKYGLRLTEKLILKNPNYYKYYILLATVYEVIGDFEKSISAYKTATNLKKKSGGNE;locus_tag=LOCUS_00930;note=MGA_93
sequence1	MetaGeneAnnotator	CDS	94997	95659	.	+	0	ID=MGA_94;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080725.1;translation=MNTLIISSSSKEIFILITKNKKIYLKTITGKGSGSKIAPVIKKMIDELNININDFNEFAIDIGPGSFTGIRISIAFLQGLMINSNKKIKTFYSTDLINISFEKEVKKRMVLKRAREDAAYVSLYENKKRLFGPKMISAEELKKYEDYALLGDESLYFKEKYNLKNEYYEVKINYTKILELLENSNSVEIKDLKPLYLQKPIAVEVWEKKNNKKMPEKNWN;locus_tag=LOCUS_00940;gene=tsaB;EC_number=2.3.1.234;note=WP_004080725.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Thermotoga maritima) [pid:28.1%25%2C q_cov:91.8%25%2C s_cov:95.1%25%2C Eval:4.3e-12],MGA_94
sequence1	MetaGeneAnnotator	CDS	95685	96938	.	-	0	ID=MGA_95;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005480753.1;translation=MFEYKLTDLIKIFQNLRINEFSDFLEHSIDVAKLSVSIAEELAPGKFSKSIVYFCGLMHDIGFLLKEIILENIDIDKDYILNYKTLASIEELDKKNFHSYLSASVLKYFKRFIPHDYLTAIENHHKEDNELIYESDEVKMLSKIFHVADKLSVIYRVNLESPEIGMEKMDEFIDNCGFFKTSIKNIINDDMNYLYLFDGNLNLKRYFNVDISLTLYEFMDFLKLISMIIDFRSPYTLNHTVSVSNVAKEIAKEMLDDYDANLLYMAGLMHDIGKIKTPLYILHKEGGLSYYEMNIMRKHVGETFRIFENFCSLKEIVLIASQHHEKLDGSGYPWGLSASQLSIGARILQIADMYVALREDRPYREGMSVEKALGIIEDMVEKNKLDKKVFDTLKNLTKEKELIKKYDKFIDEIEIDF;locus_tag=LOCUS_00950;note=WP_005480753.1 HD-GYP domain-containing protein (Vibrio) [pid:30.2%25%2C q_cov:89.9%25%2C s_cov:90.0%25%2C Eval:5.9e-37],MGA_95
sequence1	MetaGeneAnnotator	CDS	97122	98078	.	+	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNITKKYSIVFNLLIAILIAFIGLLISNFFLRGLILIGALIFFGKNFIRLKTLYYTLIISFVIVPFFIAISINPLIKPFSNIKNFNWFIYSNTEVLKPDKYIEGSKNLEIKCTSVEIKFDDTTEKLYIPSKIKVLKVGNTTKLEYKKINSKIIITIGTKNKYSSFKLNTVHSNLNGNLNSDKIEINDVHMELNSTLKADSIILKGVHSELSGSIISKNLLVSCVHLEIYSTLNSNDIKINGTSIKFNSVIERGDNLYINGTSINAKINYTKPWENAYHLNINGTSGNIVINEPKDNTGNLIIESSGSLSIKRNSNVY;locus_tag=LOCUS_00960;note=MGA_96
sequence1	MetaGeneAnnotator	CDS	98068	98436	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTKIDKHSGIPAYIQIMNQIKKEIYLGYLKTNEKLPTIREMQKIFSVNINTVSRALEKLSLEGLIESQHGVGYFVRNNAPIDENFITLIKTLVKKLKNNKMSLDTAILIFEEVWKNEQHDQ;locus_tag=LOCUS_00970;note=WP_003978036.1 GntR family transcriptional regulator (Streptomyces) [pid:42.5%25%2C q_cov:59.8%25%2C s_cov:50.0%25%2C Eval:7.2e-12%2C partial hit],MGA_97
sequence1	MetaGeneAnnotator	CDS	98417	98986	.	+	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNMINKLEAYFMKEFFEKNGKLIVFFLLMLIPNYESKTIFLFLFSVSFLSSDIYHGRYSTLGALPFSRIEIFVSAYTFLISIVFVSQLLAGTLGMLSLTDTITNLLIPSLIFVTAYFSISMIFVQNSLNNLVFPLLIFFADGILSSLPNNIFKNISPFIQENTLYSLIFAFILLIIAGYLFIEKGVQK;locus_tag=LOCUS_00980;note=MGA_98
sequence1	MetaGeneAnnotator	CDS	98983	99813	.	+	0	ID=MGA_99;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080933.1;translation=MINVIKVNKSFKNNPVLNNITFHVKKGEIFSLIGPNGAGKTTTLRCIYDELTPNSGEIKIMDQHISSKLKEKIAVMPEDRFTFKKFTGTQYLKIWKLLYTNFDLEVFNKFLIHYKFNMEQTIETYSMGMKTLFYLALTIASNADLLILDEPTQNLDPVIRYDILNILKNYAIEKGKTIILSSHEIYELEEISDSFAIVTEGKVLYTDTIDNAKETHRILNKGEKVEGEVISSVNEEILVKTTENIGRYPNFKEISIGYLKQNKTFTPFESTSKKLI;locus_tag=LOCUS_00990;note=WP_004080933.1 ABC transporter ATP-binding protein (Thermotoga) [pid:32.5%25%2C q_cov:88.0%25%2C s_cov:89.1%25%2C Eval:1.8e-35],MGA_99
sequence1	MetaGeneAnnotator	CDS	100218	102728	.	-	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIFIFILIILNILSFSLKVGIYEYPPLVLNGKTGATIDFFKEIEKNLNINIEFVYSSQRDLMDKLKKRKIDILANMAYTPERAKFFKFNSEVYIPDWGVLYTSKKSNINSIMDLNNKKIAYMKTDVYFEGENGLKNILKRFNIEAELIGVENYQEIFDLLQRKKVDAGVIGRLSGKIIESNYDIKKTNIIFSPINIKFMFRNDIDKKLIDSIDAELISMKKDKKSIYYTSIGNNISKNVIFKIPENVRNILFYIIFMVIILLFSLVFYSKKLKKEVEKRTQSLSEAYEQLEATHEELMAQEEELRVTNLELEEKQKELRSIIDLVPHYIYIKDIDGKFLVVNKAYADFYGTTVEDLENKYHQEVHSKISKDELNQFLIDNIEVIKSKQIKSYERTLTSPIGDKKIFNTIKMPFESYLTNKPTVLGVSIDMTEVYKANKKIKDQNQELEETNKELEDALIASRVEKDRFINLIGIVKNISESLKQRDELFLSKLLNVAVSAIGADYGSVYRYSGKDWKFVDAIGHDIKKLKKLNLKREYFIESDDVEIINYLLENKERRLPKDISKKFNEATRTMKNSIIIPLYSNGIKVGGMSFDLDINSISVFSNEDLEIAKAFKEIASVFLTVKRYNNSLKNTYLNFANKLAMIADAYDDITGNHIYRVGKISEFIARKLKLNVQMIEEIGNFAPLHDVGKIFIPTTVLKKEGKLTSEEWEEMKKHTVYAKKLIGDDEHFKVALNMALYHHEKFDGSGYPFGKKGNDIPIEAQIVSIADIYDALRSKRPYKKELTHEEVMNILIFGDDKTKPEHFNQKILKIMEYYGDKINEIYEKMYNKV;locus_tag=LOCUS_01000;note=WP_004082198.1 HD domain-containing protein (Thermotoga maritima) [pid:39.3%25%2C q_cov:33.6%25%2C s_cov:50.8%25%2C Eval:1.4e-57%2C partial hit],MGA_100
sequence1	MetaGeneAnnotator	CDS	103145	104032	.	+	0	ID=MGA_101;product=pyridoxal 5'-phosphate synthase lyase subunit PdxS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987078.1;translation=MENINERYRINKNLAQMLKGGVIMDVTNVEQAKIAEEAGAVAVMALERVPADIRKQGGVARMSDPKMIKEIVDAVSIPVMAKVRIGHFVEAQLLEAIGIDFIDESEVLTPADEDFHIDKTSFKIPFVCGARNLGEALRRIGEGAAMIRTKGEAGTGNVVEAVRHMRTISAEMKRLTTLSKEQLMAEVKKIQAPYDLIMYVAKNGKLPVVNFAAGGIATPADAALMMQLGCDGVFVGSGIFKSEDPAKRAKAIVEATTHFNNPELIAKVSENLGEPMYGLDINEIPKEQILADRGW;locus_tag=LOCUS_01010;gene=pdxS;note=WP_011987078.1 pyridoxal 5'-phosphate synthase lyase subunit PdxS (Clostridium botulinum) [pid:77.6%25%2C q_cov:96.9%25%2C s_cov:100.0%25%2C Eval:2.6e-123],MGA_101
sequence1	MetaGeneAnnotator	CDS	104034	104597	.	+	0	ID=MGA_102;product=pyridoxal 5'-phosphate synthase glutaminase subunit PdxT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011082818.1;translation=MKKVGVLDLQGGVEEHINLLDKIDNVESIRIKKAEQIDSIDALILPGGESTTMSKLIKKYNLSEKIKNFKGPIWGTCAGLILLSKKIENDEKTETLKLLDITVKRNAFGSQLNSFIKKEKISVLQYPFEMVFIRAPIISKTNNNVEIIAKTNDKIVGIKQGNIIGTSFHPELTNDKSFHEYFLSLIK;locus_tag=LOCUS_01020;gene=pdxT;EC_number=3.5.1.2%3B 4.3.3.6;note=WP_011082818.1 pyridoxal 5'-phosphate synthase glutaminase subunit PdxT (Staphylococcus) [pid:50.3%25%2C q_cov:96.8%25%2C s_cov:96.2%25%2C Eval:1.5e-43],MGA_102
sequence1	MetaGeneAnnotator	CDS	104618	106885	.	-	0	ID=MGA_103;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965028.1;translation=MNYYEVIPFTNLDYYTYSTELKLEVGQRVMINLRNKMIPALIYKKVEKIPEFKVKEIEFIIDELPLITFKHIKIIEEISKNFAISLGEASKLFFPPISSDMYKLKVVPISPLAPFQKPIFLNEFYKNFKSKSVANKKIRELSKNGIVKLELHIKRTKEKKESFFKLNKSIEEIMKIKISNTAMSVVNYLNMKDIINEKELYELGILKHGTTVLKTLMKKNIICEVNESQIYQYKKIILSDEQQKVVNEINALNDKPHLLYGVTGSGKTEVFFEIAKPLLENGKKILITIPEISLTPQLVNRIKNRFAEYNVSLYHSSLTSSEKLKTWYDSINGKTDIIVGTRSALFIPVKELGMIIMDEEHDTSYYQSEGTIYDGVEAAFIRSKIENIKLVLASATPRVKDYYRAINNEFYMEKIEKRIFSKMPEVEIINMKEEEKISWIFSKKVIKEIKKTLEKDKKIIIFTPTRGYANYIMCPDCGYIFKCSECDVSLTFHKNDMKLKCHYCGKEEKVPSVCPNCGNVNLQSRGYGTERVVNELMKLFPSEVILRVDRTVIRSYEELKKTFNYMKEPGKKIIVGTKMITKGLDIEDLHLVVVLDSDRYSNFPDYSAYESTGALILQVGGRSGRKERGKVLIQTFKPEEELYKAAKNHDYTMILNHEIKERKEFRYPPFSDMIIIMVYEEDKKNCEKISREIFNEVKEITREIMGPVDPIISRIKNKYRKQIILRGNINIESLRNVLKNFRNIKVYVNPPSTLL;locus_tag=LOCUS_01030;gene=priA;EC_number=3.6.1.-;note=WP_010965028.1 primosomal protein N' (Clostridium) [pid:34.0%25%2C q_cov:99.3%25%2C s_cov:98.5%25%2C Eval:1.1e-114],MGA_103
sequence1	MetaGeneAnnotator	CDS	106889	108871	.	-	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLTLFMIFLSTFIFSNKVAFFYTKDASMVKIIGNFTNFEEKNFKKTTTGIWKYEIDLKVGKYFYRYIVDGKEILDPLNTNYEEYDGKLYNIRKVEEMYIPQKGDSKIKDIYFDVSRKYINPVKSGEIYLSIEFDKSDVEDVSLISNADKVEKNFYSLKDKDKYVFHIFTKSDKLKYLFYIKDGEKIKFGYNDSFFTFDFKHPQIKYFDVPTWSKGRIYYQIFPERFKNGDKTNDYVSTQNWNGPYNRNQLLFDFFGGDLQGVIDSKEYLKELGIEGIYFNPIFEADSTHKYDTKDYLKIDPHFGTEKVFKDLINTFKKENIKIILDGVFNHTGSDFFAMKENFEKQKKSNYLDWYFIKKFPIIKSADNYECWWNYSDLPKLNINNSQVRGYFDEVLGKWMSFGIDGWRLDAVDQIQTSFWSNFIYPAIKNTNKDALIVGEYWKDASDYFKDPSFDSVMNYIFRDSAISYANGGNARNFVNTTNSYLNKYPPQVLNSLWNMLGSHDTERIFTMLHENLWSLKIAVGLQMTFVGAPVIYYGDEIGMTGGDDPFCRKPFTWDKTKWNMDIFNYYKKLIEFRKNHKALREGSYKVLKTKISTIVFERVFNEDKVIIITNSKKIKTKIDLSLDGKYKDILTGNEYTKINYANPRSIMILYKE;locus_tag=LOCUS_01040;note=WP_011393356.1 glycoside hydrolase family 13 protein (Moorella thermoacetica) [pid:37.9%25%2C q_cov:68.8%25%2C s_cov:80.9%25%2C Eval:2.8e-90%2C partial hit],MGA_104
sequence1	MetaGeneAnnotator	CDS	109073	110782	.	-	0	ID=MGA_105;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEDLILENYYYVDKTKYIEVLENMPEKYISFLRPRKFGKSLWLDTMSKYYDVKYSDKFDTIFKDLYIQKHPTPKKSSYHILEFNFSGLNTDSKEELKFDFNSEVYEKLSSFINRYNLNIKLNNSIKEPSTLLRTFINQYKELNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNERASEKVYNSDMVLYFISEYNREKRKPKDVIDMNIASDYKKIQNLFKLGEIVGINTEKDSHEVVNELLNEILLNSKTEIEVLTQAFNMERKLDIKDIKTLLFYLGFLTFEKENFYTYLKIPNYSMKKLYSEYFVESIEDRAKSYINTEKLELAVKRIVIDGNINPFANEIENVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVE;locus_tag=LOCUS_01050;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:37.7%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:7.1e-95],MGA_105
sequence1	MetaGeneAnnotator	CDS	110885	111517	.	-	0	ID=MGA_106;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391621.1;translation=MKKNDSIYKELERRIIELTMKPGEIINEKELAQEFDVSRTPVREALLKLAEKELVEIIPRKGTYVSQIDIKKIKNTYEIKMYLEALAASLAAERATDEEVEEMLKVIEELKKLNPKKDYKKYIELDQLFHKLTRDASRNSMLIEYLENLNIITERFLQYIQYVVSDSTWYIESVILIAQAIKDRDSKKASKEAEEHVVYFLKELSQRFFM;locus_tag=LOCUS_01060;note=WP_011391621.1 GntR family transcriptional regulator (Moorella thermoacetica) [pid:31.9%25%2C q_cov:91.0%25%2C s_cov:82.3%25%2C Eval:3.2e-22],MGA_106
sequence1	MetaGeneAnnotator	CDS	111532	112437	.	-	0	ID=MGA_107;product=pyruvate synthase subunit PorB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877344.1;translation=MNNIKPVNPRTITDEEFFYGHYACAGCGGSLAVRLALKVLGPGAFSALPAGCMSAVGFIYPQMAFKNNSIITPFASTAAVMSGMNAGLKALGVKDYQVVGFAGDGGTADIGFQALSGAIDRNDNVIYICYDNEAYMNTGIQKSGLTPYGAKTTTTPAGENLPGSIRPKKNMFEIVAAHGIEYAATASIAYPQDFINKLTKAKNINGTSYIHIYASCPTGWGIPENKSIEIARNAVETGLWYLAEYENEEFKLNKNPKDFKPIEDYLLKQGRFKHLKEKDLNKIKELRDKKWEKMRKNWILP;locus_tag=LOCUS_01070;gene=porB;EC_number=1.2.7.1;note=WP_010877344.1 pyruvate synthase subunit PorB (Methanothermobacter) [pid:52.3%25%2C q_cov:94.4%25%2C s_cov:99.0%25%2C Eval:3.6e-80],MGA_107
sequence1	MetaGeneAnnotator	CDS	112450	113628	.	-	0	ID=MGA_108;product=pyruvate ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393422.1;translation=MMKKFVSGDEAVAMGVRLARPHVISAYPITPQTIVVERLSEMVEDKSLKAEFLHVESEHSAMAAAMGVSSVGARAFTATSSQGLLYMSEVMHYVSGARFPIVMMNANRSIAVPWSIYGDQRDSLSQLDSGWIQVYVEDAQEALDMIIQAYKIAENKDVLTPMMVNLDGFVLTHTYELINLPNQEKVDEFLPPIDSIVKMDINDPKSLCFSTSPEHNMEFKYKQHVAMLNAKKVIEEVDKEYGDMFGRYYDGLIEEYKTTDAEVLLLTVGSITGTARVVIDKLRKNGQKVGLIKLRYLRPFPEEELQKISSKAKVLGVLEKDVSFGYEGTVFTNVSSALSKLENQPQIYNFLGGMGGRDISKEDIEDIILKLIDAHNGKKIDRVQFVNLKARV;locus_tag=LOCUS_01080;EC_number=1.2.7.1;note=WP_011393422.1 pyruvate ferredoxin oxidoreductase subunit alpha (Moorella thermoacetica) [pid:48.0%25%2C q_cov:95.2%25%2C s_cov:95.4%25%2C Eval:3.5e-100],MGA_108
sequence1	MetaGeneAnnotator	CDS	113625	113939	.	-	0	ID=MGA_109;product=3-methyl-2-oxobutanoate dehydrogenase subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868482.1;translation=MNYKENRPKIIEFKNPEHIDDFPVGTTVPSGQLVKKNSGWRTFKPVINKDVCVNCLNCYIFCPDGVIYKSENKVDVDYDFCKGCGVCANECRVNAITMVKEGEE;locus_tag=LOCUS_01090;note=WP_010868482.1 3-methyl-2-oxobutanoate dehydrogenase subunit delta (Pyrococcus abyssi) [pid:47.7%25%2C q_cov:83.7%25%2C s_cov:83.8%25%2C Eval:1.9e-20],MGA_109
sequence1	MetaGeneAnnotator	CDS	113939	114484	.	-	0	ID=MGA_110;product=pyruvate synthase subunit PorC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869766.1;translation=MIEVRWHGRGGQGSFTAARLLGSAAALFENKYSLSFPSFGPERRGAPVLGFTKIDDTKIFDRSEVKESDYVIILDETLINKDILNGIKKGAKIIINTKDASKYTIFNDYEVYAIDATTMALNILKRPITNTAMLGALIGASEVVSLESAKNAIKSEMKESLIEKNIKILEIAYNEIKKAVR;locus_tag=LOCUS_01100;gene=porC;EC_number=1.2.7.1;note=WP_010869766.1 pyruvate synthase subunit PorC (Methanocaldococcus jannaschii) [pid:49.2%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:8.1e-39],MGA_110
sequence1	CRT:1.2	repeat_region	114858	115679	.	+	.	ID=CRT_1;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=atttatattccaatatggtttgattattat;note=CRT_1
sequence1	MetaGeneAnnotator	CDS	115859	118123	.	-	0	ID=MGA_111;product=CRISPR-associated helicase/endonuclease Cas3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016965.1;translation=MIEFYYAKSNPKETIEEHTEKLLDNLNLLKEIYPNIKNIDWDILYVICKYHDLGKINPKFQTKIGNYIEDNFKDMKEIPHNFLSPCFLPKKKIKKLLESKNYNEQEINKYLIIIYQSIYWHHEREEPENLINLFKDYKEEIQNLIKDYIFAIDKEKLKFNPSIGRFVSKPIENQIEDYGEDILYEYILHKGLLNKIDYSASAGLPIEISPEPLSDYVIKFLKKEYNSNLNDLQEYMKANENKNIVVIASTGYGKTEAGLLWIGKNKGYFTLPVKVSINSIYRRLLNKIKLKKEKVGLLHSDTLSELLKDASSYKFDEDYYNLTKNKSLPLTITTLDQIIKFIFKYNGYEYDLAHLSYSKIIIDEIQMYNSKMLAYLIIALKYIDKIGGKFSIITATFPPFIYDLMKNYNINIELSENMFLSNKKRHKIKVFKEDILNLKINKSKEKVLIIANTIKKSQEIYDLISKSEEYSEYNIELLHSRFINKDRKEKEDLIIKVGNKQKNGKYIFISTSIVEASLDIDFDILYTELLDLNSLFQRMGRCYRKRELKEGFNNVNIFIGNEKNSPSGTNIKEFIDREIFEYSKEEIFKYDNKYISEEDKQKMIKSIFNTEKLKETEYFKNIKNYLNYWNEIEKGSVEKKYINLREIDNCTIIPKTIYNKYSDIIEEKYSKITNLKKDYENKKRFIEINNLIEDIKKYSVNIPSYMIKSNNIKLNLVENIEINKYKKLYILNYDYSKEKGIGKYLGKVEEDNFI;locus_tag=LOCUS_01110;note=WP_011016965.1 CRISPR-associated helicase/endonuclease Cas3 (Fusobacterium nucleatum) [pid:34.3%25%2C q_cov:98.1%25%2C s_cov:97.4%25%2C Eval:6.8e-104],MGA_111
sequence1	MetaGeneAnnotator	CDS	118130	118894	.	-	0	ID=MGA_112;product=type I-B CRISPR-associated protein Cas5b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439785.1;translation=MNKKAIRIKAYQNMVNFKKPTSFQLKETYPLPPYSTIIGMVHVACGYSEYHEMQISVQGDHHSKINDLWTRYEFACTSFEKGRHQLKVPYSKYDKKSNSYKENELGITKGISTAELLVDLNLIIHIIPESQEEIEYIYNKIKYPDTYLSLGRWEDLVQINEIKIVNIEKKDLEEDFNLEHDAYIPVKNFEIGDISTNSTKYKINKDYKLQKIKKNVFIRKWNKIDVYHASKINTGIFEDSNIYLDEDNYFIFNA;locus_tag=LOCUS_01120;gene=cas5b;note=WP_003439785.1 type I-B CRISPR-associated protein Cas5b (Clostridioides difficile) [pid:29.8%25%2C q_cov:98.0%25%2C s_cov:97.4%25%2C Eval:5.3e-23],MGA_112
sequence1	MetaGeneAnnotator	CDS	118911	119795	.	-	0	ID=MGA_113;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=MDKKGLTISFIIEAESANYGEGIGNVSSLKKLTRSQGESYTYISRQALRYNIINQCGYDTTKLSLDKEVIQYAPDAHIDEYPEIDFFGYMKTLKGEDSKTRSAVVRLSNAIALEPFSLDLDFLSNKGLLDRYNMQNENKKKGSNLAQSEIHKSYYTYTITIDLDKIGIDKVENIEIDNSEKSNRVCNLLDTIKFLYRDIRGRRENLSPILAIGGVYNIKNPFFHNRLILKDGNFDIDTIRNIYTYDEEVENKTKVGVIESKFNNGYDIKEKLNAKKIGEFFEEIKKEVKDYYIK;locus_tag=LOCUS_01130;gene=cas7i;note=WP_012544921.1 type I-B CRISPR-associated protein Cas7/Cst2/DevR (Thermodesulfovibrio) [pid:44.6%25%2C q_cov:98.6%25%2C s_cov:97.7%25%2C Eval:3.5e-64],MGA_113
sequence1	MetaGeneAnnotator	CDS	119798	121492	.	-	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIISTIRLEMNDWLYNAGLVGLYNILNHSNASSLKKNNNGFEFDIEELDNFEEKYFEYFMDKYQYILPYNKFESLSNYLNNFEEKYFKENSEFIGDINDYIGLLKKKLTSNSYSNTYPLLKDLDIDFFEEGKKLKKIKFKKNDTDEEKLKVIKETVESLILINSKLKEKVVKKYLCSKDVIYNIINNFWNNISILHKQNNKNDHFLQFKNDFVDTTLNYLKKDISKAKYNCCVCDRKITKLSKPESFDLVWINKIGVDQNRKSSHFWNFNNTSYICPVCNLVYACVPAGFNNYYGKGIYINKNNNFKSLVESNNISFKKDEGIHSYFDLENFTYRNILNSLESVEINKKRLELENIQIIKFDKENSLRPYTFNILSKSMINVLKKEKKRLEFIINKYIKVSNDDYISLYDATINNLYNNSLLFNLINESMNIQFRNDGIIKDFLINLIYINNTFLNTKGERGMNEKLITMAKFKGEEFKQYYKQKNSENKINGITYKLLNSLKTKNKNLFLDTIINSYMYLGKEIPSIILECNKNVESLQTIGYAFILGIQSTKKENIDKGGN;locus_tag=LOCUS_01140;note=MGA_114
sequence1	MetaGeneAnnotator	CDS	121500	122228	.	-	0	ID=MGA_115;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546265.1;translation=MRFRLFFELENKEMPLDYRRIFMSFIKKSFTEKDVSILKKYYNEKDSIQKHFSFGINFGKCKFENQKIKMENNKFFMVLSSFDNEFAINFYNSILNMKTQKFPLPNSNSMTLFNISLEKEKWINKNEIYFKIMSPVIIRKHEKKDNKDFYYTLDNKESINILKENIKYTLLKSEYNNLVKYVDNLKIDIVNFKKTIVLNYSAKIPVTLGVIKVKGNEMILDYLYKSGIGSKRSNGFGLVEIL;locus_tag=LOCUS_01150;gene=cas6;note=WP_012546265.1 CRISPR-associated endoribonuclease Cas6 (Thermodesulfovibrio) [pid:27.7%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:4.6e-13],MGA_115
sequence1	MetaGeneAnnotator	CDS	122434	122916	.	+	0	ID=MGA_116;product=CRISPR-associated protein Cas4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016964.1;translation=MSGMHIYYFNICKRKLWLFSHNLNFEDENINVKIGKIIEEESYSNQKKNYLIDNINIDYIKRNKTIHEIKKSNSFEEANIMQIKYYLYILTKYGLNDIKGILEYPKLYIRKEINLDKNDYIIIEKQIYEIYKIINNKKIPNVIKDNKICKKCAYYEYCYI;locus_tag=LOCUS_01160;gene=cas4;note=WP_011016964.1 CRISPR-associated protein Cas4 (Fusobacterium nucleatum) [pid:41.0%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:1.1e-32],MGA_116
sequence1	MetaGeneAnnotator	CDS	122928	123917	.	+	0	ID=MGA_117;product=type I-B CRISPR-associated endonuclease Cas1b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896423.1;translation=MKRSYYLFSNGELKRRDNSLIIKNTRTSKYIPVEDVNQIYVFGEISFNSKLTNFLFQNNITVHFFNYYGYYSGSFYPRENLLSGDVHLKQAVNHLNFHKRLLIAKEFINSASFNISRNLKYYNRKGITLEFQIKEIDFLRKKINNVNSIEELMGIEGNIRKIYYSTWDFFINQNINFKKREKHPPKNWINSLISFINSLIYTTTLTEIYHTHLDPTISFLHSPSERRYSLSLDISEIFKPIVGDRLIFSLLNKNMITHESFIEEFNHIILKDSAKKIILKEFDERLKQTIKHKKLNKKVSYRRLFRLECYKLEKHVTEDTKYEGFKIWW;locus_tag=LOCUS_01170;gene=cas1b;note=WP_005896423.1 type I-B CRISPR-associated endonuclease Cas1b (Fusobacterium nucleatum) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-106],MGA_117
sequence1	MetaGeneAnnotator	CDS	123924	124211	.	+	0	ID=MGA_118;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903132.1;translation=MYVILIYDINIEEDNKKGQRILNNSFKICKKYLNHVQKSVFEGEIDKAQLEKLHAELNRYIRKDLDSVIIFKSNNPRWLMKDFWGIKEDKTSNFF;locus_tag=LOCUS_01180;gene=cas2;note=WP_005903132.1 CRISPR-associated endonuclease Cas2 (Fusobacterium) [pid:52.1%25%2C q_cov:98.9%25%2C s_cov:85.8%25%2C Eval:4.8e-24],MGA_118
sequence1	Aragorn:1.2.38	tRNA	124309	124383	.	-	.	ID=Aragorn_2;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence1	MetaGeneAnnotator	CDS	124750	125688	.	+	0	ID=MGA_119;product=asparagine synthetase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762509.1;translation=MKKVDSLELVKKYTDGNFFKDVTFIQSQILKSVRHVLDEKGFIEILPVIISPMTDPLNHPVFNADINYYGKTYSITKSMILHKQISTLVHEKIYSVSPNLRLETEENYDSGRHLVEFVQIDMEKLGATRDEIMDIMEEAIKYTVNTLKDSYPEIIEKYHPSLDFLNKPFKKITVKEAKSTYGEDYEKILSKKSKEPFWLIDMPLLEREFYDKQDMKNPDVLLDFDLIFPEGFGEGISGGEREHEYDQIIKRMDLKRTSSKMFEEYLSLAKEGILKPTAGCGIGVERFTRYILGLDHVENARLFAKAPGRYSI;locus_tag=LOCUS_01190;note=WP_011762509.1 asparagine synthetase A (Pyrobaculum islandicum) [pid:39.2%25%2C q_cov:95.2%25%2C s_cov:88.1%25%2C Eval:2.5e-55],MGA_119
sequence1	MetaGeneAnnotator	CDS	125776	127098	.	+	0	ID=MGA_120;product=type I glutamate--ammonia ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003231737.1;translation=MTREEILKKIVEEKIKFIRLQITDINGMLKNVEIPADEIERALDGKVMFDGSSIEGMARIDESDMYLIPDLSTFTILPWTLENGKVGRFVCDVYKPDGKPYEGDPRSVLKRIVKKLRDEEYIGYAGPEPEFFILPRDEKGNPKLELMDKGGYFDLLPIGHGEETRKMIVEALEEMGLNVEASHHEVAPSQHEIDFTYDKILETADNIQTFKLVVKTISLLRGMHATFMPKPFFGINGSGMHCNMSLFKNDENIFYDKNKKYELSQELQYFIGGIFEHINSITAIANPTINSYKRLVPGYEAPINVAWAASNRTALIRVPASRGKGTRIELRSPDPTANPYLLFSVIFASGLKGVKEKILPPEPVVENIYKMKEDKKMELGIKKLPSSLKESLECLKNDEFIKDVLGEHIFKKFIEIKEKECRLFDAAVTDWETNKYLGIL;locus_tag=LOCUS_01200;gene=glnA;EC_number=6.3.1.2;note=WP_003231737.1 type I glutamate--ammonia ligase (Bacillus) [pid:58.6%25%2C q_cov:99.1%25%2C s_cov:98.4%25%2C Eval:3.1e-148],MGA_120
sequence1	MetaGeneAnnotator	CDS	127210	128676	.	+	0	ID=MGA_121;product=bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964704.1;translation=MNIKRAIISVYNKNGLEKFARFLYENNVEIISTGGTANYLEEKGIKVTKMSDYTKFPEILNGRVKSLHPKLFGGVLAVDGNKNQEKEIIEYDIPKVDMVVVNFYPFDEVARNTTNEKELLENIDIGGFALLRAAAKNYRDVIPVVDPEDYNTIIDSIEECGDFPLHNRRKLSLKAFYSCSKYDSNIHKVFSELFASEKYEHEFFEILGMLRYGSNPLQEGTLLKFVNGESLFDNVINLTTHKSPTLRILKDVKLLYSVAVKTKGNLLAFSKKGVFVFAYLNPSNEDIKKFYGMLDQLRGGIVYTEDVEMVKKLKNSKLDGIITSSEPNIDHFLGYKPMIFKINKKEINMNYEYFVDGDLVVKQEYKKIEADLPDVETIGFEVAKLHRSDTIVYVKNNKIYSGVQNALNRKVALKVLEEIVEEAGDTFEKGTLIFDSPVNSDFVIKKIIEWKIEKIVVPPALPKDEKYIETINNHEVNVVVTSRRYHRY;locus_tag=LOCUS_01210;gene=purH;EC_number=2.1.2.3%3B 3.5.4.10;note=WP_010964704.1 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase (Clostridium) [pid:30.5%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:9.8e-50],MGA_121
sequence1	MetaGeneAnnotator	CDS	128839	130473	.	-	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTNYLKKAKPYILTVIILIFFSYVIDNIYFENELNEIKKSYISQANFFAESLVSGYFQWDEMYNAVLNNDVEDINKIIKDLKKTYKSVLFFKIIDKIPPKKNYEITSDNKDLIFIFKISDDFKDKFIKNRVVLIKVNSEYILNKIDLKRIRIAFSNKNFVYNLKYKRVFSSFDIIIYVMAVIFTIIIILIFQGNNQKKIMESINLQKRSLKEISDLTNYLLKIENEPSYDYLIKKGVEIIPGAQAGSILMKAGEEYKYVSCFGYNFKELSKITFKANELIQGEDIKIKIIKKIHSANKQTLNKKNFDILDKNGKTKKIKSTLFIPIIIENEILIFINLDNFESEDAFNQNSIEIAKIFSNQLSALLRRKKIEEYLKYAANHDTLTKLPNRRMFELEFEKMISLAKREQKKICLLYMDLKKFKNANDKYGHKAGDLVLKTVSKRLKKILRKSDLISRIGGDEFIISLYNCKNYIDFVERAIKEVEKDIFFEDNKINVSGNFGIAIFPKDANTVDSLILEGDIAMYNAKKKGLKYFLASQNKFI;locus_tag=LOCUS_01220;note=WP_018112090.1 EAL domain-containing protein (Thermus igniterrae) [pid:32.9%25%2C q_cov:55.5%25%2C s_cov:35.6%25%2C Eval:1.4e-36%2C partial hit],MGA_122
sequence1	MetaGeneAnnotator	CDS	130495	131499	.	-	0	ID=MGA_123;product=membrane dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889546.1;translation=MNIKNKVKEIQKNSIIIDAHFDLLMDVLRKRENGRINIIESDYLKKFKKGGINIIVSSIFIDNKFLPEQGLKRALLQISALYQEIKESNNKVILCKNYDDIMNTIKKDKIGILLSFEGVEPIGNDLNLLDIFYELGVRMAGITWSRRNYAADGCHFDKKVEGKKGGLTDFGVELIKKMEKMNMIIDVSHINDQGFWDIINFSKTPIIASHSNVRTLSSSMRNLTDEQIKAIAERDGVIGMNGNSIFISNSNPSIDTFIDHVDYIVNLVGIEHVGIGFDFCDMFRNENSKTFDVIKGHEDIGKFIEKLLEHGYNDKEIKLILGNNFLRVYKNILN;locus_tag=LOCUS_01230;EC_number=3.4.13.-;note=WP_009889546.1 membrane dipeptidase (Clostridioides difficile) [pid:38.6%25%2C q_cov:95.5%25%2C s_cov:99.7%25%2C Eval:1.0e-57],MGA_123
sequence1	MetaGeneAnnotator	CDS	131616	132107	.	+	0	ID=MGA_124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKIIKKPLDIIFKTSQIIINNEGINSLSIRKIAKESGISIGTIYNYFENKDALIIKLMEQYWKESIYLLNEKKYLNQEKFLDDLYEVLCTYQKTYKDFWKNNSLNNIPQIRSSMIKKVITLISNKTKLKNPEFILQNLMATATWNFIEYSKLKKILLNKEGV;locus_tag=LOCUS_01240;note=WP_011861191.1 TetR/AcrR family transcriptional regulator (Clostridioides difficile) [pid:30.9%25%2C q_cov:72.4%25%2C s_cov:66.7%25%2C Eval:2.0e-08%2C partial hit],MGA_124
sequence1	MetaGeneAnnotator	CDS	132110	132475	.	+	0	ID=MGA_125;product=HsmA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986720.1;translation=MLLSAIITIVLALIFYSWGVWGEKLKGRLTKKFLILFWIGLFFDTTGTTLMSMISEHPQPFHKITGLLAIFLMLIHALWGSVVFIKNNETWIKNFHKFSLFVWLMWLIPFLSGMIFGASAN;locus_tag=LOCUS_01250;note=WP_011986720.1 HsmA family protein (Clostridium botulinum) [pid:50.0%25%2C q_cov:97.5%25%2C s_cov:96.9%25%2C Eval:1.0e-26],MGA_125
sequence1	MetaGeneAnnotator	CDS	132563	134242	.	+	0	ID=MGA_126;product=phospho-sugar mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454107.1;translation=MDDVKIKSYKTFDLWLNNVDDSLKNELLTIKSNENELIDRFYKDLEFGTGGMRGKIGIGSNRMNFYTVARASQGFANYLKKIKDFPSIVIAYDTRNKSDYFAKNAAQVFAANGINVYLFSEPTATPILSYAVRYLKADGGIVITASHNPAEYNGYKVYTSNGVQAVPNIAEKIIEEVNKLDYFKDINIIKYEEGINNEKIIELDNEVYNNYIDEVEGYVRTLVPEINNNLKIVYTPLHGTGFKPVSEILKKLDFNIEIVEEQAKRDINFSTVKSPNPEEKEAFKLGLSLAKKSNADIVLATDPDSDRIGVFEKYNNDYISFNGNEMGIMLSHFILSKLKLHNLLPQNGIIVKTIVSTDMIKPIAQHFNVSVDETLTGFKFIGEKIEEYKFNRKNKFIFGFEESYGYLANEHARDKDAVIASALISVMASELKKEEKTLKMYLNELYEKYGYYKEKLMTFTFEGYSGAQKIRNIMEKIKNEPPIKISSFRLLETIDYNKGHNNLPKSNVIELRYGSIKLIARPSGTEPKIKFYILVNSDSEEKALNLISDVELIIFNLIN;locus_tag=LOCUS_01260;note=WP_004454107.1 phospho-sugar mutase (Clostridioides difficile) [pid:44.8%25%2C q_cov:98.0%25%2C s_cov:97.4%25%2C Eval:2.3e-127],MGA_126
sequence1	MetaGeneAnnotator	CDS	134276	135460	.	-	0	ID=MGA_127;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081444.1;translation=MAEKKILLEVENLKKYFPVKAGVFKRVVAQVKAVDDISFKVYEGETLGLVGESGCGKSTSGMSILRLLNPTSGRILIEGHDTTPWFMNSFESKKYIKKTYVERFDELKNKLGNEKKVIETLEKDVDKKYAKIYFKDGYHGLHEEMLSNIHEKRLFFRKNAQIIFQDPYSSLNPRMRIKNIIAEGMITHGIADSKEATEIVGDLLEKVGLSREYLYRYPHQFSGGQRQRVGIARALALKPKLIVADEAVSALDVSVQSQILNLMYDLQKEFNLTYVFIAHDLAVVKHISDRIAVMYLGKIAELTSKEELFDNPLHPYTVSLMSAIPMPDPEYKKERVILQGDVPSPLNPPSGCRFHTRCPIAKDICSKKEPPLKEISPDHFVSCHFPGEFKVKLK;locus_tag=LOCUS_01270;note=WP_004081444.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:62.0%25%2C q_cov:97.5%25%2C s_cov:99.0%25%2C Eval:4.1e-141],MGA_127
sequence1	MetaGeneAnnotator	CDS	135460	136479	.	-	0	ID=MGA_128;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081442.1;translation=MSTKKDEPILKVRNLKTYFKTEDGIVKAVNGLSFDLYPGETLSIVGESGSGKSVTSLSIMRLLDENGFIPEGEIIYKGKDITKFSDKEMRHVRGNEISMIFQEPMTALNPVFTIGEQMMEMMELHMNLKGNEAKNRAIELLRKVGIPEPEERVDQYPHELSGGMRQRAMIAMALSCNPEVLIADEPTTALDVTIQAQILELMKDLQKEYGMAIIFITHDLGVVAEISDRAVVMYGGEVVESSDIITVFKKTKHPYTWGLMNSIPKIEEDVERLWAIPGNVPTPLNFPKGCKFSNRCFLADEKCKKQQPELEEIENGHIVRCWHVDKLVKEIQKVKGENK;locus_tag=LOCUS_01280;note=WP_004081442.1 ABC transporter ATP-binding protein (Thermotoga) [pid:67.2%25%2C q_cov:97.6%25%2C s_cov:99.1%25%2C Eval:3.9e-126],MGA_128
sequence1	MetaGeneAnnotator	CDS	136491	137816	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNEEIKRMLRKFYKNPSAMFGLFLLIGFIIIGILAPVLAPVSIPNDSDLEDISNYLANYTEDKKQDILDSFQSYYELSYDFYLTDYDTIMDLKDKLIKYKSNKLSKKDFSEFLLSLADEYIIDQSYVDQLNSGDKKVINELNSLVKTYETKKKEASKEKSRIEQLSNSKNFESDAHKIYNELYKSYVKSINFDPYLMPNVTLSSKPEPPSKDHPFGVSNGKDIYYGVIWGVRTGFKIGLIVVISGTIIGLFIGSISAYFGGWIDEVLMRITDIFMSIPFLLAAMVLTTILGTGLDKVMIALVVFGWMGTARLIRGNILQTKNEQYVLAAKALGVSDAKIIVKHILPNTIFPVVVQASMRIGSMVITAAGLSFLGVGAPQGYADWGSVLTYARDWMLGGGSNALQYWYTITYPGIAMVLFVLAWNLVGDALRDIFDPKLRM;locus_tag=LOCUS_01290;note=WP_004081440.1 ABC transporter permease (Thermotoga) [pid:66.0%25%2C q_cov:56.0%25%2C s_cov:83.4%25%2C Eval:9.1e-100%2C partial hit],MGA_129
sequence1	MetaGeneAnnotator	CDS	137827	138834	.	-	0	ID=MGA_130;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081437.1;translation=MLPLIMLGVTLIVFSIMQLLGSDQLLSAYVDANAIDKMSPAEMEAVKEKYGLNDPWYIRYGVWLNGILHGDLGWSIVGKDKVSKAILERFPYTVELALYAILPIIAGGIWLGIKAAVHHNKFADHSIRIFALIGWSLPDFVFGLLILMIFYVGLGWFPPGKLGVNAEAVVASPEFHRYTKLLTIDGLLNGRLDIFWDALRHLIGPILTMAYLWWAYLLRITRASMLEVLRKDYIRTARAKGLSENVVINKHAKKNALIPVTTVAGQMVIGLLGGAVIVETVFNRPGIGRFAAQAAQQLDYGSIMGSLLFSSGILVFGNLVIDIVYAIVDPRIRLG;locus_tag=LOCUS_01300;note=WP_004081437.1 ABC transporter permease (Thermotoga) [pid:70.7%25%2C q_cov:100.0%25%2C s_cov:97.1%25%2C Eval:3.1e-139],MGA_130
sequence1	MetaGeneAnnotator	CDS	138953	140812	.	-	0	ID=MGA_131;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081506.1;translation=MKKLFVLLTALLMVTAVFSNVVNPDTYFNATIGEPDTLDVHQAYDTASSEVIFNVYENLVEYDGESMSKFLPRLSTEVPSVDNGYLKDDGKTYVFHIRKGVKFHNGNDLTPSDVEYTFERALLADPSAGPLWMVFEALFGSGTYDVESMVKKYAGVAYKDMFDAKGNILPKYKDTLINFYKDVIDPVVEVKGDDVYIHLAAPFAAFLNIIAQGSSWGAILDKEWSASIGLWDGNPDGWWKYHDWKKEDSPLYAKTNGTGPFMLESWDRTQQRVTLVRNDNYWRTPAKLKKVIIAGIDEWSTRKAMLEKGEADQISTPAEFLSQVEQNPDVFVKRGLSSVSITALSFNWSVKADSKYIGSGKFDGQGIPTNFFEDQNVRLGFAYSFDYQAFIKEVLDGEGYQTPTVLPQGFLGYNDNLPKFKFDLKLATKYFKRAYRGKLWQRGFKMTILYNTGNKARQKSAEILRDNLKKINPKFDCEVKGVQWPTFLDARKNGKMPVYIIGWLADYPDPHNFIFTYYDSNGDYGSYYGANFAEFANKPQPDFGAKSLNKMIEDAAKHPDPSVRQKLYEQIQKFVNKYAVSMPLYQPYGSRVQRKWVKGWVRNPIWPGTNYYPLYKSDK;locus_tag=LOCUS_01310;note=WP_004081506.1 ABC transporter substrate-binding protein (Thermotoga maritima) [pid:57.3%25%2C q_cov:97.4%25%2C s_cov:97.6%25%2C Eval:6.4e-214],MGA_131
sequence1	MetaGeneAnnotator	CDS	141136	141825	.	-	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKTLETLYKFLGKELLKNENRKKLEESIFNNLKTVLDFKEIYSSIKELENFEVQNYLLEMLMSSFFNKLNMVYKDKELMYGEKKISIELTSKALEFLIEIAELSEPNTELIFNILSNDIELRAEAIASIFSNSKNLWEEDEINSYLKKLKPLTLKFLIFLCEVELTTTEELLKKLNLKNKKSVSALVSALSRNAPKGKEKLVFKNNNSIKINMKYKNIIMNELKKRV;locus_tag=LOCUS_01320;note=MGA_132
sequence1	MetaGeneAnnotator	CDS	141946	142851	.	+	0	ID=MGA_133;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080622.1;translation=MLKQLIVDEKNYYKRLDKFIRNNLSEIKLGAIYKSFRKGNIKVNGKRIKKNDYEIKIGDIISIYYNEKNEDIIRPEKPEMKARPLKFDIIYENNDFIVINKPPKVSMHPGTGEQMVTIIEGLQYYAKNSNNPFEPHLVHRLDKLTSGTLVIAKNKMVSRDLSSLISGRKADKYYKTLVFGKLKPKGTLNSLINEKNAKLTYSLIDELNLPEGTFSYIDVHLLTGRKHQIRVQFSNIGHPIIGDDLYGNKEINKIFRKKYGLKRFFLHAYNLKFDYKNKKYDFYAPLYSDLEKVFENIKRIK;locus_tag=LOCUS_01330;note=WP_004080622.1 RluA family pseudouridine synthase (Thermotoga) [pid:41.2%25%2C q_cov:95.3%25%2C s_cov:93.1%25%2C Eval:2.0e-59],MGA_133
sequence1	MetaGeneAnnotator	CDS	142851	144086	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKYIIIISIVFVSFFSFYSLFIDISDTKYFSFVEPKKVQLNNYVYYKYNNYVFLKDFNSISKKNDLQFLNKLIKNNDIIFIVEFSDFDKYFSKIKNETALDLNKFKYCHYIKVKEIEKYDDEIIVQRFHRALKERRIKVFWIPNTLRKDELTLKIKNNLKYEKPINDLSYFSPNHLIKYIFFLLIFFNIYIYLPFFSIIYLISLLLFKSWSYVTAATIFSFIVYYKISKKNVLKVVFSSIFFGIMVYFSGYDYLLINKLNSLRGIKVLLIALLSFEIINQLKNFKLKNLKKFDLITILLIMFFSIIYILRSGNWSYVSNFERKMRDIIEKIFIARPRTKELLSYPFYYLNNTGIIVSFFRTLLIVSILDTFLHFHTPLYLGILRTLNGLFIYLFTFFVFELIKYFRGGK;locus_tag=LOCUS_01340;note=WP_012869235.1 DUF5693 family protein (Thermanaerovibrio acidaminovorans) [pid:36.2%25%2C q_cov:23.1%25%2C s_cov:16.2%25%2C Eval:2.7e-10%2C partial hit],MGA_134
sequence1	MetaGeneAnnotator	CDS	144083	144463	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYSVEDLNIEKLKNAMEFVKSIVNDNNLIFKLQMAVDEIGSNSFKYGKKSKLHIYFNNEEIHLQVENSGNPIPKEYLELNDDNFFLSQSLSRGGGLGLHIIKNLCDDFNYIRKEEKNIISIKFKK;locus_tag=LOCUS_01350;note=MGA_135
sequence1	MetaGeneAnnotator	CDS	144485	145675	.	-	0	ID=MGA_136;product=pyridoxal phosphate-dependent aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438357.1;translation=MKFSERVLNMQESPIRKLIPFAEKAKKAGKKVYHLNIGQPDLETPKEFFSTISNLPSKVIAYSHSAGIIELREAFSNYYKKMNIDFDPEDIIITTGGSEAIVFSLAAISDPNDEVIVIEPFYANYKGFAEMLNVKLLPVRAVPENGYAVPPTEEFEKVVTSKTKAIIFSNPSNPTGAVYTREELQRIVDFAKKHDLYIISDEVYKEFTFDGTKHVSIMEFEDKERFIVVDSISKRYSGCGMRIGVFATKNKELYSQVMKFAQSRLCSPVVEQYGTVGILNNISEEYMENVKKEYMKRRDIVYEELSKIEGLSFEKPKGSFYVSVKVPVDNTEEFIKFMLNDFDIDGETVMVAPLNGFYATEGAGLQELRIAYVLEPSKLRRACYILAEGIKAYNNK;locus_tag=LOCUS_01360;note=WP_003438357.1 pyridoxal phosphate-dependent aminotransferase (Clostridioides) [pid:50.8%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:6.7e-115],MGA_136
sequence1	MetaGeneAnnotator	CDS	146040	146612	.	+	0	ID=MGA_137;product=nucleotidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987119.1;translation=MVDGVILAGGYSKRTGVMKMSLKLNSKTVIQHTVESMINVCENIIVVCGYKAEEVYDLVKSYKKVQVYYNKNYPKGMFTSVKEGIKHVKNDRFFLTPGDYPKLNKNIYETLLKYKENIVIPAFGNKKGHPVLMNSSLISDILLEPDTLSLNYFINKREYRIVEINDDSIINDIDTLEDYENIKKYFKGGE;locus_tag=LOCUS_01370;note=WP_011987119.1 nucleotidyltransferase family protein (Clostridium botulinum) [pid:44.2%25%2C q_cov:95.3%25%2C s_cov:95.2%25%2C Eval:6.9e-39],MGA_137
sequence1	MetaGeneAnnotator	CDS	146613	148682	.	+	0	ID=MGA_138;product=xanthine dehydrogenase family protein molybdopterin-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869185.1;translation=MKISDSVNRIDNKEKISGKAKYIDDINFPSLYYASTLRSSISHGKILNIKIPILPENYFIIDKNDIPGKNIVKIIKEDMPFLAEDEVNYIGEPILLIAGPDKEEVNKIKNAIEVSYKSLKADFEGKEIIEKYSFESGDIKKTFDESDEIFERTYKTGYQEQIYLETQGMIGNIENNQITVYGSMQCPYYVKNALDQLMNSDTRVIQTTTGGAFGGKEEFPSLIAGHAALAALKTKHPVKIVYDRAEDIICTTKRHPSKIIIKTSLKNKKITGIDVDISLNAGAYAGLSEVVLQRAMFAAIGVYNIKNLRVKGKALKTNTVPNGAFRGFGAPQAFFAIETHMNNIAMYLNKNPLDLKTEYLLKTSDSTSTGGIFRDEIKLPEMIKKITQESKYYKKYEEFKNKKNKGIGISLFFHGGGFTGSGERDIIKATVKLEKNKDKIEILVSNVEMGQGLQTTFRKIVAHALNKSYHEITFKNPDTLKVPDSGPTVASRSIMVVGKLLKDAADELKNNLDKEVITIEKHYKQPNYIKWDQEKMKGDAYPTYSWGIDIVEVEIDDITAEVEINNIWTINDVGIAIDNKIIKGQIEGGIVQGLGYSYLEVMNIKNGKILQNNLTNYIVPTSKDFPKIHSSLIENPYIEGPYGAKAAGELPLVGAAPAFVGAVQNALNKEFYEIPLTPEKIMEVMHNEN;locus_tag=LOCUS_01380;note=WP_012869185.1 xanthine dehydrogenase family protein molybdopterin-binding subunit (Thermanaerovibrio acidaminovorans) [pid:35.0%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:2.2e-122],MGA_138
sequence1	MetaGeneAnnotator	CDS	148672	149142	.	+	0	ID=MGA_139;product=(2Fe-2S)-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869169.1;translation=MKINFILDKKEITLDVNPLKRLLDVLRDLKVTGVKEGCGEGECGACAVLINGKLVNSCMVAVGNIQNKTITTIEGYKTNKKYKIIEEAFEEAGAVQCGFCTPGMVIATEALLSKNPTPTEEEIREGISGNICRCTGYNMIVDGIKLASKRGENLWK;locus_tag=LOCUS_01390;note=WP_012869169.1 (2Fe-2S)-binding protein (Thermanaerovibrio acidaminovorans) [pid:43.9%25%2C q_cov:94.2%25%2C s_cov:93.1%25%2C Eval:7.9e-33],MGA_139
sequence1	MetaGeneAnnotator	CDS	149133	149963	.	+	0	ID=MGA_140;product=xanthine dehydrogenase FAD-binding subunit XdhB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948906.1;translation=MEIAYKPKTLEEALKIKNDLNCTVYAGGTDLMVKYKNLSIPNIKNTVIFISDLKELKNIKINEKIEIGACVTQSELIHSNLPNIIKNISSQISSPAIRNLGTIGGNICNASPAGDLLPLLYSLDSKLTLQSYDSIQEVLIYDFIISPGKIKLKENEILTKISFKNINFNNIYYKKVGTRKSNALSKISFLGLANINNENKIEDIRISFGAVGPTVIRNKELENSLINKKVNDLRINRILNSYSEVIKPIDDLRSTSKYRKTVSLNLLENFLRGLVR;locus_tag=LOCUS_01400;gene=xdhB;note=WP_011948906.1 xanthine dehydrogenase FAD-binding subunit XdhB (Clostridium botulinum) [pid:34.6%25%2C q_cov:92.4%25%2C s_cov:88.8%25%2C Eval:2.5e-29],MGA_140
sequence1	MetaGeneAnnotator	CDS	149960	150577	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFYVLFFGALWGLTEATLGYGLHFISVFIPGIAGFVMFAFAFLFMNMAYKKTKNLFTVIEVSMVAASIKLLDLALPIHPIKAINPAISILFEGLAVFTFLYLFKNKKSFTSIFTMSMSWRVAFVLLSFIEIPLNAPNFVISKNLIEIMNFLIIDSLINSIIIYAFMKKIKLPEFKRIKNMKITPALSLVILSVAMLAELNLR;locus_tag=LOCUS_01410;note=MGA_141
sequence1	MetaGeneAnnotator	CDS	150589	151386	.	+	0	ID=MGA_142;product=XdhC/CoxI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940877.1;translation=MQIYEELLNLKKKGENGILITVVEKDGFGPATPGIKMLVTKNKRIGTVGGGSLEEFAYKKALDLLKNKKNELHKYALNEENKVIENTGMVCGGNVTLFYEYIGSGEKLYIFGAGHVGKALTYHINPLNYFVTVIDERDGIFNDFPNINKTINSTVSDFFKNNIIEDNSYIVISTPSHAHDYEVLKNVYLNSKPKYIGMLASDTKANLMVKKLKDEVSNADLSILHTPVGLDIGGPTPHEIAISIISEIQSIKYQKKQIKKMRKIW;locus_tag=LOCUS_01420;note=WP_010940877.1 XdhC/CoxI family protein (Geobacter sulfurreducens) [pid:33.3%25%2C q_cov:90.2%25%2C s_cov:92.5%25%2C Eval:3.4e-28],MGA_142
sequence1	MetaGeneAnnotator	CDS	151380	151844	.	+	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIISGEINSGKTTKLINIFKTTGGDGFAAIKVYKNNEFYGYNLTRLSNNEIIPFISIDKFDDELFKLSRFSFSKKGFIFANKIIDETLINKKTLYIDEIGPLELSKKGFYTSFKKALKKNIEIYVCIRSSCIQNVIKEFKIKNYKIITEVIK;locus_tag=LOCUS_01430;note=MGA_143
sequence1	MetaGeneAnnotator	CDS	151841	153259	.	+	0	ID=MGA_144;product=pyridoxal-phosphate dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393496.1;translation=MKTPIIGPTFEEMLHPWKIDPELRKRAIEMKDKDPLHPINLYNITWRDKDDEIYYFEMPKELTGVKANIIVLYAKDFPSGSHKVGATYSVLAEKTVTHEVDPSTHKLIWPSTGNYGIGGAWVSSRMNYNSLVLLPELMSKERFDIIRSYGSDVIATPGCESNVKEIYDKSKELKTKDPEHVRILNQFEEFGNYRFHYHVTGNTMAELVKEKKIGNERVAAVVLGVGSAGTIACGDRLKQLFPETKIVAMEPIQCPTISLNGYGGHDIQGIGDKHVTWIHNVMNMDATVLVDDMDSKKMLQVMTDPVGIEYLKQSLKEKDIKNISTKLGISGVANIIAAIKMAKFYNMKEDENIFVVATDSIERYHSVMKQLDDEFGKLTTSEAKSRTERICLFAEPSHVFEGTKYNRERWHNLKYFTWIEQQNKTIEEINAQKDQKYWEEQQNKVFEMDEKIKEYREKNAERLHKVMYEVEK;locus_tag=LOCUS_01440;note=WP_011393496.1 pyridoxal-phosphate dependent enzyme (Moorella thermoacetica) [pid:41.8%25%2C q_cov:95.3%25%2C s_cov:98.5%25%2C Eval:4.4e-92],MGA_144
sequence1	MetaGeneAnnotator	CDS	153256	154452	.	+	0	ID=MGA_145;product=YgeY family selenium metabolism-linked hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047945.1;translation=MSKALDLAKKYESEIVQFMSNLIRAKSYSADESAVIEVIKKEMEKVGFDEIKTDGLGNIIGKIGNGKKIIAIDGHIDTVEVGNENLWDREPFSGENDAEYVYGRGASDQKAGICSAVYGMKILKELNLMDDFTVYVTGTVMEEDCDGMCWRYLIEKEKLKPDFVVITEPTSLNIYRGHRGRIELRIKTTGISAHASAPERGENAIYKMAKVINEIEKLNEELKPHPFLGKGTVVVSQIFFKSPSQNAVPDECQIQLDRRITPYDTKESIFKELNTAIKRSGVKAEIIELEYSRPSYKGIKYPVEKFFPAWEIDESSPIIQAGIKTYIKTFEEDPVVDKWTFSTNGTVTAGVYNIPTIGFGPGEEKYAHAPNEKVEIEHLVKAAAFYANFPKTLINMIP;locus_tag=LOCUS_01450;note=WP_012047945.1 YgeY family selenium metabolism-linked hydrolase (Clostridium) [pid:52.8%25%2C q_cov:98.0%25%2C s_cov:96.3%25%2C Eval:5.3e-120],MGA_145
sequence1	MetaGeneAnnotator	CDS	154504	155493	.	+	0	ID=MGA_146;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869178.1;translation=MSTFFRGRHFITTQDFTNEELNIMLDLAKDLKIKFSYGEQTPYLLYKTLFLMFFDQSTRTRNSMQAGIAQLGGDGIFLSPDKMQVSHGEVAKDTGVILSRFGDGIGIRHCTYGEGNKYLNAIAKNSKAPLMNLQDDIYHPFQVMADLMTMRERFGNNLKGLKVGISWGYAESHLKPLSVPQSQILLFTRFGMDVTLAYPKGFDLMPDIVKTAKQNAENHGGKLNITNNMDDAFVDAHVVFPKNWGGFFISDKEEEIRAEQAKHKDWKCTEEKMKLLDKSGVFMHALPADRGNEVEDSVIDGPRSIVYDEAENRLHTAKAIMTLLMGGRY;locus_tag=LOCUS_01460;note=WP_012869178.1 ornithine carbamoyltransferase (Thermanaerovibrio acidaminovorans) [pid:61.0%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:6.7e-115],MGA_146
sequence1	MetaGeneAnnotator	CDS	155495	156793	.	+	0	ID=MGA_147;product=dihydropyrimidinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861449.1;translation=MFDLAILHGKVYINNEFKELNIYIKDGKISALSNELLFSKEKYNAKNMYVLPGFIDPHVHFELTVGNHTSIDTFESGSISAVYGGVTTFIDFLDPINKVENLEKAFKIRNTLAKKSIIDYSFHTTIFNPKSSPMDLVKKSKTLGIPSIKLFTTYGERQTYDDYIYELLKISSKEKINVMIHSENDTLIKKGRNIIAEHAKSRPEISEITEIIKLSQMAEYTNGRLYIVHTTCGTSVEKLKKCYSKILNKTLFIESCPHYFYFNSEVYNSNKGNLYTMTPPLRNELEVEKLKQNIDNIYTIGTDHCPFTLKEKMTSFTDLIPMGIGGIEHSFVLMYSMFGEKIINKFTINPAKVHGLYPKKGILLPGSDADIVIFNPNEESIIKSTHSLCDYEIYQNIKVKGKIMSVLSNGKFILKENKFIKTKGSFIERKIL;locus_tag=LOCUS_01470;gene=hydA;EC_number=3.5.2.2;note=WP_011861449.1 dihydropyrimidinase (Clostridioides difficile) [pid:33.0%25%2C q_cov:98.6%25%2C s_cov:98.9%25%2C Eval:3.5e-56],MGA_147
sequence1	MetaGeneAnnotator	CDS	156790	158049	.	+	0	ID=MGA_148;product=putative aminohydrolase SsnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002359625.1;translation=MKAIINANIYDYENYFENMYILYDKKIIEIDKMKNFNKNCDIIDAKNSIVMPGFVNSHTHIYSTFARGLNIPFNPETFKELLEQLWWKLDSKLTLESIYYSGLISSNEFIKNGVTTIIDHHASGEITNSLNTLKKAICDKSGLRGIFCFETSDRFDVDKCIEENIEFSKNNSEKCSGIFGMHASITLSDNTLKKISNLTNLPIHIHVAESLEDEDDCIKNHQMRIIERLKKYDLIKNNSILAHCIHIDENEANLIKKSNSYIVLNPTSNMNNGVGLPDIQMLQKRGIPLMLGNDGLGYNFAKDIQTLLFSMKHKYLNPLAFSIDDLKKIINTNFEYASKILKIKLGKIKKDYVSDFLIVPYNSPTPMTKENADGHIFYGVFDNFRPKTVICNGKILKTNNEIYNESKKVSQKLWNKIQG;locus_tag=LOCUS_01480;gene=ssnA;note=WP_002359625.1 putative aminohydrolase SsnA (Enterococcus) [pid:35.3%25%2C q_cov:96.4%25%2C s_cov:95.9%25%2C Eval:1.7e-68],MGA_148
sequence1	MetaGeneAnnotator	CDS	158054	159136	.	+	0	ID=MGA_149;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009891591.1;translation=MNLKTSICGIDLKNPLMPASGPLTGDFEKMNFLYKSGVGAMVTKTISIKGAEVIRPCIYGEKNFIMNNELWSEYSYKKWIHEILPKAKKEFDIPLIVSAGYTKEDMEFLIPKLDEFADIFEISTHYVGKDLNKISEIVKTIRKYTKKPLFIKMSPHIPEPIEFVKKIMESGANGVVAINSLGPTMKIDLETRSTLLGNKDGFAWTSGPVIKPLSLALIHEIHKNVPNAVIIGTGGVEKAEDIIEFLLAGASGVQMLSSALIKGKDLYKKIINSLPKKLEKYGFSSIEHVIESKILTRTPTFTPNHPKIDNEKCTLCKLCENVCPYFAITVNEKVIVDNKKCFGCGLCESRCPTKAISNVL;locus_tag=LOCUS_01490;note=WP_009891591.1 4Fe-4S binding protein (Clostridioides) [pid:39.6%25%2C q_cov:98.9%25%2C s_cov:96.5%25%2C Eval:2.6e-70],MGA_149
sequence1	MetaGeneAnnotator	CDS	159316	160329	.	+	0	ID=MGA_150;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583737.1;translation=MKRIAILNVGGDCPGLNAVIRALIVKGAEEDIEVIGVYDGFKGLVNDKMFIMTKEHVSGKLPEGGIILGSSKYDPTKNAEDLEKLKENVKKYQITSLILLTGHTGAGIALKLKDEGVPSVIIPATIDNDLKWTDLSIGFLTALQTVVTSLDFLHSTANAGHRVIVVEVGGDEAGWLATIGGMSGGADYIITPEVLPDPKDMLANIKKRYDVGKKFSIIVVEEKAELPEEIKNVSGSDNKLVSPSELVMEYIKENVSDEIDCRIVNLGYMQRGGSPAAFDRFLAFKFGCGAVKAVKEGKTNVALGLHGYEVTEIPYTEEILENKTVKPEIYEMAKLFF;locus_tag=LOCUS_01500;note=WP_012583737.1 6-phosphofructokinase (Dictyoglomus turgidum) [pid:38.2%25%2C q_cov:99.4%25%2C s_cov:98.3%25%2C Eval:5.4e-59],MGA_150
sequence1	MetaGeneAnnotator	CDS	160360	160911	.	-	0	ID=MGA_151;product=DUF4416 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082414.1;translation=MGKLKKSEMVNYVIHAFTAGNSDYWLNETGVIEEIKKHFGKIDYISKPLDFQRFTDYYNEEMGKNIVVEGRMISLELMASPAFLADAKLITNKIEEKFAIDGKRKVNLDVGYVHHTQFVLATTKQQGNRIYIGRNIYAEITLMYVYGKWAHSNNSYENFKDEMYKKELEVIRGLYLKKRKKIK;locus_tag=LOCUS_01510;note=WP_004082414.1 DUF4416 family protein (Thermotoga maritima) [pid:53.8%25%2C q_cov:99.5%25%2C s_cov:98.9%25%2C Eval:4.7e-50],MGA_151
sequence1	MetaGeneAnnotator	CDS	160889	161467	.	-	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGTFNKNISYLIKSKNLDIKEIAKELKISMYSFQKILNEDYTGYSRTSLKDISKRLEEILDEKITFIEKKESIVEDKTVNKKAVIYLIFLWFLIFLNGIFLFLVSKDALLYSKIRNGKTFDVYIKNLSKKDIKLNNKLLSSEKSLLVKLSVDDKIKVENNNGIVELKTPFEVYRIKLENFEVVLSGKVKKK;locus_tag=LOCUS_01520;note=MGA_152
sequence1	MetaGeneAnnotator	CDS	161689	163200	.	+	0	ID=MGA_153;product=sodium-dependent transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_226990850.1;translation=MARQRWNSRWAFVLAAVGSAAGLGNAWRFPYMAYSNGGGAFYIPYFIALFVAGIPLLMAEFGMGQGLQASAPKVMRSAGKGFEMIGWWAVFSGAIITFYYNVIMGWIFNYLIKSTTVAWKNNPSDYFFNSFLKISSGPGEIGALRWAIVIGLAVTWLWIYLILRKGTDSVGKTVAWTVPLPIILLLVLGLRGITLNGAGEGLNYLFSPDFSKLADVKVWAAAFGQIFFSLSLAFGVMITYGSYNSKKSDVANNTVITALGNSATSFLAGIAVFSVLGYMATIQGVGVDKVVSQGIGLAFVVYPKAISLLPGGVFVQAIFGFLFFVMLLTLGIDSAFSLVEAIEASISDKFKVGKKKFLITMSIIGFIFGLLFATQGGLYWLDIIDHFIGNYALLIVGIFESLIFGWIIGAEKLRTYINNVSEIKIGKWFTFFIKYLIPIILIWILTTSAIDEFKKPYGGYPIWSILTGFSVFVFVPILGFIFSLIKEKNKDFVIKEINFDVED;locus_tag=LOCUS_01530;note=WP_226990850.1 sodium-dependent transporter (Methanosarcina acetivorans) [pid:45.3%25%2C q_cov:96.4%25%2C s_cov:98.2%25%2C Eval:4.0e-123],MGA_153
sequence1	MetaGeneAnnotator	CDS	163376	164269	.	-	0	ID=MGA_154;product=protein translocase subunit SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080745.1;translation=MNIDFVGKRKFFITLSSILIVIALILSFTKGFNFGIDFAGGTELTASLDKKVEISEIRNVLKSIKSDYATAKIVELKPLKGQENKFLFTITIKDSFNTDQKENFLASLKKGFGDNNFEKLQFNDVSGAAAEEIKTFAWYAVLISLVLLLGYISLRFKFSFGVGALVALAHDIIIVVGLYSLFNIEINVSAIAAFLTLAGYSLNDTIVVYDRIRENMKKMRGKDISEIVNNSINEVIVRSLNTSITTFAVVFLMLLIGGRSIAPFAFGLTFGVIVGTYSSLYIASPLVIGWLKKSKVY;locus_tag=LOCUS_01540;gene=secF;note=WP_004080745.1 protein translocase subunit SecF (Thermotoga) [pid:49.7%25%2C q_cov:98.0%25%2C s_cov:98.6%25%2C Eval:1.2e-80],MGA_154
sequence1	MetaGeneAnnotator	CDS	164271	165677	.	-	0	ID=MGA_155;product=protein translocase subunit SecD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080746.1;translation=MKARKVRLIFSIVIILVALLGMIIPGKDSAKYSGMSKVLSKIKLGLDIQGGSSLEYDLKVDSTAKAQDIIDNVILVLRKRLDIAGYTEASVAKVVSNGKIRVRVEIPGISDTAKAEKLIGSKGKLYFAEVLDTKVSDVKPTLLRNRTMEIDGNKIDLYDYVQDKDNATKWYKVKKVFEFGENPFEITGADLVDAKPSVNTRNAGFLINLNFGSEGAKKFSLATGNLVNKQLAIILDDRVVIAPVVNTQITSGAAIIEGISTLEEAKNDSALIKGGNLPVDLIKFQERSLGPTLGRDIVETIIKAGLFGLILVMIYMVIFYKWMGVVADIALIYNSLLLMGFLSWTGAILTLPGIAGIILTFGTTVDGNVIIYERIKEELRLGRPPLTAVKFGFEKAFWTLFDANLTTIIAGVVLYYFTTGAVRGFAITLIIGVIGSLFTNLVVSRIILESTSHNVKSEKLVKEVKGEN;locus_tag=LOCUS_01550;gene=secD;note=WP_004080746.1 protein translocase subunit SecD (Thermotoga) [pid:44.9%25%2C q_cov:97.4%25%2C s_cov:97.2%25%2C Eval:8.0e-102],MGA_155
sequence1	MetaGeneAnnotator	CDS	165713	166108	.	-	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFENILNFVNFGAAGGTAPTASAPTTTGAAASSGFGSIWFIIILFVLMYVMLILPQKRQEKKHKQMLSQIKKGDKVLTSSGIIGKVVSVNSDKIRIRTAEKTELDITKNAVGTVISKASEDTKKDDIKEEK;locus_tag=LOCUS_01560;note=WP_004080747.1 preprotein translocase subunit YajC (Thermotoga) [pid:49.5%25%2C q_cov:68.7%25%2C s_cov:78.4%25%2C Eval:6.5e-21%2C partial hit],MGA_156
sequence1	Aragorn:1.2.38	tRNA	166243	166319	.	-	.	ID=Aragorn_3;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence1	MetaGeneAnnotator	CDS	166519	167685	.	+	0	ID=MGA_157;product=UDP-2%2C3-diacylglucosamine diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080989.1;translation=MKLYISDLHIGNGSSKDDFVYDENLIYILKNMKFNELFFVGDIFELIAGNNTSLLNTAKEYIDNFNVSELKNVYNKHQQLFDTINKISKKSKIRYIIGNHDYYIFHNEKLQQTIKDFMGNIEFFPYYYDKKCKIFIIHGNQFDPMNRFAIDKENNILPSFGEYMMKYMEENFDSTVNDILPDELISDYDNISPILDVFQWLDYINERYNLKCNLKSLWSENFINFVRTPQIKKWLKVSFPKYSILTNVFVNKIGGMKFGEFLVRTIMLFRGFKKTNSLLLQSKKLLLDDFYIPKKNLIGYTDKSIRLDSKDINGIIMGHNHQPTHKILKNAYTKKFYANTGAWKHIVSKNFGINENEFIRKNVISYLCIEENLKVKLYTEESYFGGGK;locus_tag=LOCUS_01570;note=WP_004080989.1 UDP-2%2C3-diacylglucosamine diphosphatase (Thermotoga maritima) [pid:35.7%25%2C q_cov:96.4%25%2C s_cov:96.2%25%2C Eval:2.1e-73],MGA_157
sequence1	MetaGeneAnnotator	CDS	167682	168575	.	+	0	ID=MGA_158;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082867.1;translation=MKKFLIVSIILIVSVSIFSMSFYNPIGPTLLPAAGLYIAPPKDLKTNLWRTLDEAQTIVLKEQADFIVLPVAYGIQLINKGANYKLAGVSLWKTFYLVSSQNIKDVKQLEGKRVLTIHGPGQTADLILKMVKKEMNLNFDIVYVKSGADIIQLLASNKESIAVLPEPFVSLAEVKTKGKISPKLDIQSIYYKVSKSINKIPIAGLFIKNSINVSTANEIINAYRKSTNDFFINNTNEAIDFVVKSMGGKMPKPVIEKAAKRSEIIYKTDIGNVLNYLKILKKFNFIDNYSKDMLYLK;locus_tag=LOCUS_01580;note=WP_004082867.1 ABC transporter substrate-binding protein (Thermotoga maritima) [pid:31.9%25%2C q_cov:89.6%25%2C s_cov:88.0%25%2C Eval:3.4e-30],MGA_158
sequence1	MetaGeneAnnotator	CDS	168733	171393	.	+	0	ID=MGA_159;product=pyruvate%2C phosphate dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082976.1;translation=MTKKYVYSWGNGEAEGSSKMKHLLGGKGANLAEMASLGFPTPGGFTITTEMCDYYWKNGKVFPQELKAEVDAAIEKLEKISGKRFGDNENPLLVSVRSGAAVSMPGMMDTILNLGLNDVSVKALAKLSNNERFAYDSYRRFMQMFGDVALGIEHAKFEEKLNIVKREKGVTGDLELDAEDLKKVVELYKEAYKEAGLDFPQDPKKQMWAAIEAVFGSWNNERAIKYRAINGIKEGELLGTAVNVQMMAFGNMGEDSGTGVAFTRNPNTGEKKFYGEYLLNAQGEDVVAGIRTPEPMEKLNEVNPEVYKQLCDIMTKLENHFRDMQDIEFTMEKGKLYLLQTRTGKRTSAAAVKIAVDMLKEGLITEEEAVMRVKPADIEKLLHPMFDAEELKKAQYMGKGLPASPGAATGMAIFSADKAEEKAEEGIPVILVRPETSPEDVGGMNAAEGILTATGGMTSHAAVVARGMGKTAIVGAANLEIDENAKTATINGVTIKENDWVSLDGNEGKYYAGKVKTIKPQGLHGDIAELLEVADKLADLGVRANADIPRDAKVAREFGAKGIGLCRTEHMFFDEARIMKMRTMIVSKTVEQREAALSELLPFQKADFKGLFEAMEGYGVTIRYLDPPLHEFLPNDEEQMKEIAPQLGISVEELKEIVENLHEFNPMMGHRGCRLSITYPEIAVMQTKAVIGAAIEVAKEGKKVRPEIMIPLVGKVDELKFLRELVEKTANELIKESGIDLEYKVGTMIEVPRAAATADQIAQQADFFSFGTNDLTQLTLGFSRDDYGKFIKEYIKEGIYESDPFQHIDRRGVGRMIKMALNDGREVNPLLKTGVCGEHGGDPESIEFCHLVGLDYVSCSPYRVPVARLAAAQAAVTYKRRKRVND;locus_tag=LOCUS_01590;gene=ppdK;EC_number=2.7.9.1;note=WP_004082976.1 pyruvate%2C phosphate dikinase (Thermotoga maritima) [pid:66.6%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_159
sequence1	MetaGeneAnnotator	CDS	171541	172818	.	+	0	ID=MGA_160;product=sodium ion-translocating decarboxylase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080712.1;translation=MTSPSVKKIIFILMFMLVTFSLFADTPNVPAKNNVNTTSVVTTSNTTEENGLILFLKNNGFAKLTWKHIVMILIGILVIWVAISKDAEPLLLVSLGFGMILANIPPEVTGFLSPPTSVSPGGLIYYIKQGMLLGIYPPLIFLGLGAMTDFSYLIANPILFLLGAAAQVGIFVTFIIANLIGFNMFEAASISIIGGADGPTSIYLASRFAPQILSIIAVAAYSYIALIPIIQPPISKFWTTKAERKIRMKKLRVVSQREKIIFPILTTLVVTLIVPQAISLVGMLMLGNLLKESGRTARLAEAASRYILDVSTILLMLSVGASATADKFLTPAFLKILFLGAAAFIVALSSGILVAKFMNLFLKNKINPLIGAAGVSAVPDAARVAQHVAQEDDPGNFILMHAMGPNVAGVIGSAVAAGIFINMIH;locus_tag=LOCUS_01600;note=WP_004080712.1 sodium ion-translocating decarboxylase subunit beta (Thermotoga maritima) [pid:60.5%25%2C q_cov:87.5%25%2C s_cov:97.9%25%2C Eval:4.7e-122],MGA_160
sequence1	MetaGeneAnnotator	CDS	172854	173069	.	+	0	ID=MGA_161;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080714.1;translation=MPSVKKNFKVEINYEYCKKCGLCYWICPTKTIIAGEYGKPEVPDHAKCIGCLQCEKICPDFAINVIEDGEK;locus_tag=LOCUS_01610;note=WP_004080714.1 4Fe-4S binding protein (Thermotoga) [pid:55.7%25%2C q_cov:85.9%25%2C s_cov:92.3%25%2C Eval:7.6e-17],MGA_161
sequence1	MetaGeneAnnotator	CDS	173069	174229	.	+	0	ID=MGA_162;product=2-oxoacid:acceptor oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080717.1;translation=MGKVHFMSGNEACAHAAIKAGCRFFGGYPITPSTEVAETLARELPKVGGTFIQMEDEIASAASIIGASLAGAKSMTATSGPGFSLMQEAFGYAVMTETPCVFVDVMRGGPSTGLPTKPSQGDIMQVRWGTHGDHQIIVLYPSTVEEVYKYTITAFNYAEKYRTPVILLMDETLGHMRESFYIDYEDEYPEVIERIKDVELEEEDVFHPFDVDENSEISPLMEMGKSRFHVSGLVHDETGFPVGTSPEIADKAIRHLDSKIRLYAEEIAIYDEYMLTDAEIVVVAYGSTARAALRAVKMARGDKIPVGLFKPITIWPLPSSRIKNLFKNAQALIVPELNMGQYVQELSKLNKGNKYIESLTKVNGELITPEEILNSIIKVWIQITEM;locus_tag=LOCUS_01620;note=WP_004080717.1 2-oxoacid:acceptor oxidoreductase subunit alpha (Thermotoga) [pid:64.2%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:1.2e-140],MGA_162
sequence1	MetaGeneAnnotator	CDS	174304	175770	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLEKNLKKYEDKIRKIFIEPELNYIFSEMDKNIYYEFNTDIYIHENTEQVPLNIYKILKLAEHYNLFKIHNINIVKEKEKQSISIIRNNGNLITLNYTLMNTNFNNILLHIIKNSSNTFSSLLINIFLKSSRISHILLNSRVIIEESLKHGVGKEKIIYAILTGITTEFGAGFDRAILFKKYGSEYKVYRACGQKSFEENKKIKENYLNLNQTLKQFLNNFDKAKPFGSLEVILKNFTLKEEDIKYKYLFEDSLKQNNAVKLPISSLSKNLINNLDLMGEIAMIPLNFENSQYGFILCDNRYNNTPISDEQLYALDYLGKQGSIILETKISHEALKFEAETDSLTGLGNRNSYEKYIQRLSISGEKHIGIAMIDLDNFKIVNDTFGHKAGDELLIKFSKIIKEELRKTDYAFRYGGDEFTLFFKDIDSEMLKLKLQNIEKIYYEKTKKTFSAGGLIMKYDIYDEIKNVDELLYKSKNSGKGKISMRF;locus_tag=LOCUS_01630;note=WP_011947948.1 sensor domain-containing diguanylate cyclase (Clostridium botulinum) [pid:30.0%25%2C q_cov:52.5%25%2C s_cov:77.0%25%2C Eval:3.0e-22%2C partial hit],MGA_163
sequence1	MetaGeneAnnotator	CDS	175837	176115	.	+	0	ID=MGA_164;product=stage V sporulation protein S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080683.1;translation=MEILKVSHKSAPNKVAGAIAGVLSKTGEVEIQSIGAGAVNQAVKAIAIAKRFIENDGKELYVIPGFVEVKVGEEERTGIKFKVYIESEEKSE;locus_tag=LOCUS_01640;note=WP_004080683.1 stage V sporulation protein S (Thermotoga) [pid:66.3%25%2C q_cov:96.7%25%2C s_cov:97.8%25%2C Eval:1.7e-29],MGA_164
sequence1	MetaGeneAnnotator	CDS	176112	176357	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDEKTIQEIIAACTSDARLFSIIEDLKTKTKEERFVIRKKASIILSKVNGIEKEALKFYYIITEDGVIEEILRRLKRGKT;locus_tag=LOCUS_01650;note=MGA_165
sequence1	MetaGeneAnnotator	CDS	176344	177231	.	+	0	ID=MGA_166;product=DUF1385 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480077.1;translation=MEKPKTVGGQAVIEGVMMKGIHTVVAVKKENGKVAVKKLKDKSWGLIEKIPFIRGFFILLHAMIIGMNALSYSASVSGEEDEEFTKKDMILSILFAFLVAGLGFGALPVLLTKPFKIESEFWFALIEGIIRAFLVIGYIWAISLMKDVKRVFEYHGAEHKSVFTYEQNEPLEVKYAKKYTTLHPRCGTSFMIITVFASIIVFAAFGALGYNSLLIKVLSRILLLPLVASLAYEFQRFTANIITTPLGKILAYPGLMLQKITTSEPDEQQLKIGLISLKYALKEDFDGEIEVDIND;locus_tag=LOCUS_01660;note=WP_198480077.1 DUF1385 domain-containing protein (Fusobacterium canifelinum) [pid:41.6%25%2C q_cov:96.9%25%2C s_cov:97.4%25%2C Eval:2.9e-58],MGA_166
sequence1	MetaGeneAnnotator	CDS	177254	177985	.	-	0	ID=MGA_167;product=LytTR family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048251.1;translation=MRCIIVEDELPAISRLEMLLKKFNDIEIIDKVMDGKSAVHSIKKNKPDLVFLDINLPELNGFEVIKKLTYSPMIIFLTAYDEYAVKAFEENAIDYLLKPTNYERLKKSIDRAKERDKNNILEKIKNMIKEENIKERFSVKDGDEILIIPHEEVYYFKAQDKYTFLCTYDREFYFDQSLKNLEKILDSSKFLRIHKSYIVSVDKVKKLKKWFLRDYTLELCDKNKTSLKIGRSYLSRIKEKLDF;locus_tag=LOCUS_01670;note=WP_012048251.1 LytTR family DNA-binding domain-containing protein (Clostridium botulinum) [pid:34.9%25%2C q_cov:99.2%25%2C s_cov:98.0%25%2C Eval:4.1e-38],MGA_167
sequence1	MetaGeneAnnotator	CDS	177987	179027	.	-	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIKNQFLKIFIITQIIGVLFSVFIAILVSSYEHFIITLGISLILSNSLSFSFFMLYYLYKKFLKKSIDSKIINNLILFSIFMLSIYIGFQTFSVLTSIIFPGMFLKVGFFQGILLLINGVLILGTIFLYLFYYKLKKEITKKIIENNKLKENMLKSELAALQSKINPHFLFNTLNSILDLAYSSPKKVEEVVINLSGIYRKILYSSDKKFQTLEEEFELIKKYLDIEKIRMGDRLEYEIIIDESIKNNLIPPLIIEPIVENSVIHGISKKKNGGKIFIEAMNIENKINIVVKDNGVGFEGELNGFGIKSVKERLKLLFKDKSNVKINSTSNGTTVKITFPKEVI;locus_tag=LOCUS_01680;note=WP_012048252.1 LytS/YhcK type 5TM receptor domain-containing protein (Clostridium botulinum) [pid:40.0%25%2C q_cov:58.1%25%2C s_cov:38.4%25%2C Eval:6.0e-37%2C partial hit],MGA_168
sequence1	MetaGeneAnnotator	CDS	179024	179695	.	-	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFIFLLIIPVFLYSYTDIIVIKEQIKKYEDYLEKYPNDTQKMFDLARLYEYLGENGSFESFSRAKNIYKNILNISYIPKAQLLYGRVLLKIGKEQWFIPIKLWYVYSGYSEMSDAVKNDPYSISFHYIRANALYELKDFPFCVDTSISDYEYILNNSNYDSQLLIDNNAEILFKLADLKELKKDYKRAYELYEKIVKKYKESFYSQLSKERMKSLVNKK;locus_tag=LOCUS_01690;note=MGA_169
sequence1	MetaGeneAnnotator	CDS	179716	181893	.	-	0	ID=MGA_170;product=1%2C4-alpha-glucan branching enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056426.1;translation=MSLLTDDEIKKIINADCHDPFKYLGMHKLNKNEMVVRVFKPDAEKVRLVSKDKRFYLEKINENGLFEKVFQAKEFFKYKFEFTGINKNKWTLRDPYSFLPQITEYDLYLFNEGNHHKIYEKLGAHKLTINRISGVLFSVWAPSAKRVSVIGNFNNWDGRVHQMRVLGSSGVWEIFIPGIKEGDLYKFEIKAQNNEILLKTDPYAFYNEVRPSNASIVYTTKYKWNDKKWIKLRKENNWEAKPISTYEVHLGSWVRNEENKFLSYLELSEKLVNYVKEQGFTHVEFMSIEEHPLDESWGYQVTGYYAPTSRFGRPEHLKYLIDKFHENNIGVILDWVPGHFPKDAHALGRFDGTGLYEHIDPRLGEHIDWGTYIFNYGRNEVKNFLISNALYWVEKFHFDGLRVDAVASMLYLDYSRKDGEWIPNKYGGRENLEAIEFMKYLNSIMKKYHPGVLMIAEESTSFDGVTRDVENNGLGYTFKWNMGWMHDTLEYFKKDPIYRKYAQNEITFSMVYAFSEKFILSLSHDEVVYGKKSLLEKMPGDDWQKFANLRLLYAYMYSHPGKKLIFMGSEFAQRNEWDCKKQLDWNLLQYESHRKMQNFVKDLNKIYKENKELYELDSFNEGFEWIDFNDSENSVLSFIRKSRDENEFTVCIFNFTPVPRYNYRIGVPKKGTYVEIMNTDWEGYWGSNVDNIHEIKTENVKFHGRDQSINITLPPLAALYIKFKK;locus_tag=LOCUS_01700;gene=glgB;EC_number=2.4.1.18;note=WP_011056426.1 1%2C4-alpha-glucan branching enzyme (Thermosynechococcus vestitus) [pid:50.4%25%2C q_cov:99.6%25%2C s_cov:97.9%25%2C Eval:3.1e-231],MGA_170
sequence1	MetaGeneAnnotator	CDS	181979	183112	.	-	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLYLLITLIALLFFVSCSPQQSEIPYYQSFSTPQSKVDDTIKITVEGIGYDYNSAETDARLKALQQSVGFKLYGEKKVSNFTLVDKSIFTKTLGYIKSENILSKGPYQSDYYKVEIEFTVSKNIPDDDFFYIIRKMNKPKVGVWLPSKAYKGSLSFEDRSAEIALLSKLKEYGFDVYDTERLNEIIKTKQKDIPQLAKSLKKYGVDVLLTGELYGESTGEVYGLLGARAKVNFKVYWTQTGKIISSYSDERGASDISSMIAVKKAVEDASLVSGDEISKLIIKDWMNQLANGLPMELFINKMNYDQYADFISYLKKSAGIIDIGSKSFEDGYVDVVTNTFLQPEDFYIRILKPYFKNKINIINQSFTQMTVEIKQ;locus_tag=LOCUS_01710;note=MGA_171
sequence1	MetaGeneAnnotator	CDS	183109	184083	.	-	0	ID=MGA_172;product=DNA-processing protein DprA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082954.1;translation=MNTIDLITLREVYKLSNEELIEAFEKNLLPFKEDFNEKKKYLYDILSKKNIGIITYFDDEYPELLKEIPDPPVILYYIGDISLLKTNTVSVVGTRKPTEYGKKMCSLITNEINNYTIVSGMAFGIDSIAHMNSKKTIAVLGCGVDIIYPKANMHLYNKISNQGLIISEYFPGTKPAKYTFPYRNRIIAGLSKSTIVIEAAKKSGSLITANYAMDFGREVYALPGDINRINSYGTNYLIYMGAKPIYSLEEIQKTFNIEQLVKINNFSVEECSIINLINDGKNTVELLYENSNFEISKILSILMKLEISGHLQNVDGVYSMGGKV;locus_tag=LOCUS_01720;gene=dprA;note=WP_004082954.1 DNA-processing protein DprA (Thermotoga) [pid:40.9%25%2C q_cov:95.4%25%2C s_cov:94.7%25%2C Eval:3.5e-60],MGA_172
sequence1	MetaGeneAnnotator	CDS	184123	185832	.	-	0	ID=MGA_173;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEKIRTENFYYVDKTKYIEIIEDMPESYIFFLRPRKFGKSLWLDTMSKYYDIKYSDKFDTIFKDLYIQKHPTPKKNSYHILEFNFSGLNTDSKEELKFGFKDEIYEKLDTFIYKYNLNITLDKSKNEPSELFKEFINKYNKQNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNKRASEKVYNSDMVLYFISEYNREKRKPEDVIDMNIASDYKKIQNLFKLGEVVGINNIDNEKEAIGNLLNEILMTDKTEIEELTRAFNLERKMEIDDVKTLLFYLGFLTIESKGFVMNLKIPNYSIKKIYSEYFLEMIKTRAKNYIDTGKIKIAIRKLLVDGNINSLANEIEDVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKIYQVKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEIE;locus_tag=LOCUS_01730;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:38.6%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:4.1e-95],MGA_173
sequence1	MetaGeneAnnotator	CDS	186279	186638	.	-	0	ID=MGA_174;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081748.1;translation=MKKATVGKAYDIEPLFINNDTVKNVKKRVLIGSKLGAPNFVMRLFTVAPNGNSPKHSHHWEHEIFILKGKANVFNGEEYQVVEAGNYIFVPGNVEHQLINIGEDDLEFICVIPNSADEE;locus_tag=LOCUS_01740;note=WP_004081748.1 cupin domain-containing protein (Thermotoga maritima) [pid:52.3%25%2C q_cov:93.3%25%2C s_cov:96.5%25%2C Eval:1.2e-25],MGA_174
sequence1	MetaGeneAnnotator	CDS	186641	187291	.	-	0	ID=MGA_175;product=protein jag;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081749.1;translation=MIKIQSKQITSKNLETALKEAKEIFKVKEEEISYTLIQKEVKGFLRIGSKPAIIEAYLNETYLLNQISEFLKEITKSFDEGITSSIKIYGKTIIIFLNGEGLGNLIGKHGRTLGALQHLIMIYVNRMTSTKVDIKLDIGDYRKKRRKKIEEITENSIKKLLSGEEEIELAPMFSFERKMVHEYVKRHYPNLITKSVGFEPYRKVVICREEYTPKGA;locus_tag=LOCUS_01750;note=WP_004081749.1 protein jag (Thermotoga maritima) [pid:39.9%25%2C q_cov:89.4%25%2C s_cov:86.9%25%2C Eval:1.0e-39],MGA_175
sequence1	MetaGeneAnnotator	CDS	187307	188671	.	-	0	ID=MGA_176;product=membrane protein insertase YidC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865347.1;translation=MKKQLIIIGLIILSVFVYALPEIKITENASKITNVELKLYNFNMDEFGHIKNYSIVESRTKKVVELFEYANDSFDLINPETKMEILPVRSEYNISEDKKYVEFTFFFKNGGYKKYKFYNDTYFHFDIEFDNVKGLVKIPTISYADKIRTSKNQLVSYLPKPYSAKVSLKSVLVFSTNKKIEDGLLYNVSGNSISKVYMGPMKLTFIKSVFDDETNKSIKALLQDVGALNWSSNIYYFFVDFLYMLKQWTGNFGWAIIIFTLIIRVILYPLYHKQMKSMIMMKQLQPEIEKLKKKYSNPQKQQEAMMNLYKEKGYNPASGCLPLLVQMPVFFLLYSVIYYFGESFAYNPKFLFWSDLSQGGFSQNIILVLVTSLAYIVTGLWSANDAKMAWQQIIMSVVFQFMFIGFPTGLFIYYTTTALIQVVLTYITHKRYGIKGITLRELFGLGPKPIKRKA;locus_tag=LOCUS_01760;gene=yidC;note=WP_010865347.1 membrane protein insertase YidC (Thermotoga maritima) [pid:40.8%25%2C q_cov:98.0%25%2C s_cov:98.9%25%2C Eval:6.3e-88],MGA_176
sequence1	MetaGeneAnnotator	CDS	188668	188937	.	-	0	ID=MGA_177;product=membrane protein insertion efficiency factor YidD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081754.1;translation=MKKIILLLITFYRKFISPLKPPSCRFSPTCSAYTYEAVSRFGSLKGLYLGFRRILRCHPFNPGGNDPVPEKFEFFIKNNTQKNKGSAKN;locus_tag=LOCUS_01770;gene=yidD;note=WP_004081754.1 membrane protein insertion efficiency factor YidD (Thermotoga) [pid:60.8%25%2C q_cov:83.1%25%2C s_cov:91.4%25%2C Eval:1.4e-23],MGA_177
sequence1	MetaGeneAnnotator	CDS	188934	189272	.	-	0	ID=MGA_178;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081756.1;translation=MQTFKKRERLKLRKDFEELFNDGERAVSRYFVVVYKKSSTPKIAISVKRKFGKAYVRNRLKRYVRELYRTNKDTFNSNIMLFIPRKSLSKKFKDMTFEEFKEIFFDIMSKIK;locus_tag=LOCUS_01780;gene=rnpA;EC_number=3.1.26.5;note=WP_004081756.1 ribonuclease P protein component (Thermotoga maritima) [pid:40.4%25%2C q_cov:99.1%25%2C s_cov:97.4%25%2C Eval:1.8e-18],MGA_178
sequence1	MetaGeneAnnotator	CDS	189272	189406	.	-	0	ID=MGA_179;product=50S ribosomal protein L34;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000828326.1;translation=MKRTYQPSRIKRARTHGFRARKATSGGRNVLRRRRAKGRKSLTV;locus_tag=LOCUS_01790;gene=rpmH;note=WP_000828326.1 50S ribosomal protein L34 (Leptospira) [pid:79.5%25%2C q_cov:100.0%25%2C s_cov:83.0%25%2C Eval:2.9e-13],MGA_179
sequence1	MetaGeneAnnotator	CDS	189674	190558	.	+	0	ID=MGA_180;product=DUF89 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082811.1;translation=MKAEYECIGCIIKHTQSLIEKADKTNKISSEKKFEDYKKVISDLIKNLEYGKRPIELSVSQYDSIYELYGKQDFFINEKTNANQIFLEMYDDLFYFIMNSENPLKTAAKLSAISNIIDYGVKNSFGELEFEIETMAKKRKFAIDDFKSFNEKLKTAKKILFIHDNAGEIVLDKLFIKTIKKFYPDIIIYSAVRSAPIINDATLKDTDEINLKELSIPIESGSVYPGTIFEKTNETFKNIFEKSDIIISKGQGNFEGLNKTCEKIYFILTAKCSVVSQELNVKVGEFVFKRDVVI;locus_tag=LOCUS_01800;note=WP_004082811.1 DUF89 domain-containing protein (Thermotoga maritima) [pid:35.3%25%2C q_cov:98.0%25%2C s_cov:96.9%25%2C Eval:1.3e-45],MGA_180
sequence1	MetaGeneAnnotator	CDS	190588	192144	.	+	0	ID=MGA_181;product=bifunctional UDP-sugar hydrolase/5'-nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082429.1;translation=MKKLLSLITVLMMISAIFAAPVHLVIFHINDTHGHAWPYSEYHNPDIGGFARIATIVNEQRAEIEKEGGHVLFLHAGDANTGVPESDQLKAVPDFAMLHYMGVDAMALGNHEFDNDLQTLEMQQRVAHFPFLSSNFVDKNLFPIFKPYLIKNFGDLKVGIIGVTTEQTNVLEPLHLGTNRFESAEEAVKDYLPEVKSKSDIVIVLGHLGYGVRPNLPVGYTTSDELAKKVEGISVIIDGHSHTVIEPPKYINNTIVAQAGEWGKYVGRIDLWIDKGRVTKWEGKLIPVNLKKYNGKDENGKALYTNLNPVEEDPFIKMIADSYYNMGSEKLNEVIGETKINLDGERQDVRSKETNLAHLITDATLEKTNADFAFTNGGGIRASIKPGKITYRDILTVLPFGNTVYVVKLTGKDVMDVLNYAVTIPAGQGAHMHVSGITYDVVNGKPTNVMIKGKPLDMNKTYNVVTNNYVAAGGDGYKMLKGKNGYDTGFVLADVVKDYIKELGTIKNYDSKNRINVK;locus_tag=LOCUS_01810;note=WP_004082429.1 bifunctional UDP-sugar hydrolase/5'-nucleotidase (Thermotoga maritima) [pid:51.6%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:3.9e-145],MGA_181
sequence1	MetaGeneAnnotator	CDS	192176	193456	.	-	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKITIVLLVALFSIVSFSNVLQYVPSNSKAFFYVKNLTKSYESLKTIPSLKSIFLDPINLEIMLSSYAEMYMTSSEVESSAFYDLLQNVDLAGFIVEPSNETYHFGVVMGPFKDSKKFIDYINKILISSLKESGVSIDIVEKENYVVFVMDKDLYKEAKKGVSINQQNIENGFYYVLNSSKMKGNGYAYVKDGYLIGKSNGAVSSGITNTNFIKPLDNYKFPGTYMIVSGYIPTDLSSLKSIIKNFGDFDLVQKLLSSSNGIELGGNVELNSDSMEFNGKEYIKINTKNTIKDIIPLLEDNSIKYKKVNDNEITMSIETMIDDPENIGEKKKVTTDLNLWKDNEELYIYQGTPKEYKDLIKGYKKLSENTLFNMLSEKIGSANLAFAFFDLSKLFSGYGIEGNFGGLININYKENDKLEISFIIK;locus_tag=LOCUS_01820;note=MGA_182
sequence1	MetaGeneAnnotator	CDS	193551	195524	.	-	0	ID=MGA_183;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965839.1;translation=MKLKGKLISFIVGTITVFFILIMYNNVASYQTAFKKAKHDIMLSNTNIVNSFEAFFNNVGNIANFLNGDTNVLGAYENKYGERKWMLKTFQNVVDNYSEIQSVYMGLPDGTMLIKPDQELPATYDPRVRPWYKAALEKNGEIVITDPYADASSGEMLITVAKAIIKNGEVVGVVGLDLTMNELVTKLNESHMYKSQYSYVLNEKGITLLHKDATKIGVDISSNELYKKATSNSGVISYVYNKVKKTAYYQKMNGTNWIFYTVVDDKDVATTPVRRLIINFTIAVTLSIIVLVMVLYFLSKMITKPLKEMSEKIEKFGNGEINEKFEYESKDEIGQMSKALKRMTEKLREIIMSIDKSGSNTERASSELSSVSEELSATAEELTAQMSSVKDNAENVAANVEEVSSGVQEVAASAQAISRSAQELSEAAEESSIAANEGSGLISDVQRIINEALTQSDQTNKEVNKLSENAANVENIVDTINSITEQTNLLALNAAIEAARAGEAGKGFAVVAEEIRKLAEESKNATEKIAVILGEIKTGTETTAGATEKIVNITKKINGSMKELTEKFEVIKERVDGMNSGIQNLTASSEQQSASAEEMSSAMDNVARIVSEISDQVSDASEAINNVSEGTQNITANAGELLEMSKLLISQIKFFKL;locus_tag=LOCUS_01830;note=WP_010965839.1 methyl-accepting chemotaxis protein (Clostridium) [pid:24.4%25%2C q_cov:98.5%25%2C s_cov:97.7%25%2C Eval:1.3e-66],MGA_183
sequence1	MetaGeneAnnotator	CDS	195537	195881	.	-	0	ID=MGA_184;product=anti-sigma factor antagonist;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002670686.1;translation=MYFKLEFEEKGNFLIIKGHGELDVYHSLNFKEEAREKINELKEKIIIFDTTDVPYIDSSGLGSIIALFKDIHKNHKELVITGMRKEVENLFKMTRTDRIVSIYPTIEDAIKQLS;locus_tag=LOCUS_01840;note=WP_002670686.1 anti-sigma factor antagonist (Treponema denticola) [pid:30.0%25%2C q_cov:96.5%25%2C s_cov:97.3%25%2C Eval:2.8e-08],MGA_184
sequence1	MetaGeneAnnotator	CDS	196039	198009	.	-	0	ID=MGA_185;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964123.1;translation=MKLKGKLISFIVGTITVFFILIMYNNVASYQTAFKKAKHDIMLSNTNIVNSFEAFFNNVGNIANFLNGDANVLGAYENKYEERKWMLKTFQNIVDNYAEIEFVYMGLPDGTMITTPPPVSSDYDPRVRPWYKDALEKNGEIVITDPYADSSSGEMLITVTKAIIKNGEVVGVIGLDLNMNELVTKLNESRIYKSQYSYVLNEKGITLLHKDATKIGKDMSTTELYKKATSNSGVISYVYNKVKKTAYYQKMNGTNWIFYTVVDDKDVAATPVRRLIINFTIAVTLSIIVLVMVLYFLSKMITKPLKEMSEKIERFGNGEINEKFEYESKDEIGQMSKALKRMTEKLREIIMSIDKSGSNTERASSELSSVSEELSATAEELTAQMSSVKDNAENVAANVEEVSSGVQEVAASAQAISRSAQELSEAAEESSIAANEGSGLISDVQRIINEALTQSDQTNKEVNKLSENAANVENIVDTINSITEQTNLLALNAAIEAARAGEAGKGFAVVAEEIRKLAEESKNATEKIAVILGEIKTGTETTAGATEKIVNITKKINGSMKELTEKFEVIKERVDGMNSGIQNLTASSEQQSASAEEMSSAMDNVARIVSEISDQVSDASEAINNVSEGTQNITANAGELLEMSKLLISQIKFFKL;locus_tag=LOCUS_01850;note=WP_010964123.1 methyl-accepting chemotaxis protein (Clostridium) [pid:25.3%25%2C q_cov:99.7%25%2C s_cov:98.4%25%2C Eval:5.3e-65],MGA_185
sequence1	MetaGeneAnnotator	CDS	198071	199330	.	-	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKLKNDGIFHYINTKVNSNKYITPLITDTHMHLLGLGEKLRNPNLEGKSLKEIKNIILNKKDEKKIILRGWSEEFANPTKEYLDEISNVPVFLIRRCGHVAVINSKVFELIDFSNYEEYIDYKTGRITEQSLELVYQKLGYYTDINEDLKVAEEYLLKKGYGYIHSDDLHGIKNMIDGDKIKIFEKVAVNNYNELIDYYNSGYFNKYKSVKVYTDGSLGGRTAYLINEYNDFNTKGEFVWDLEELKKVLIFCENNNLHLALHAIGDEAIENILNVFSDVKPKNIHRIIHASILHDEQLKKIKKLNIILDMQPAFIESDKSILNKRLGKRENLTYRFFDIYNKSIPLFFSSDSPIEVPDWYRDIITLNKLGLPLKYILNTMIYFPKVIDNFERNFKIGYLEFDNNPFEKINKPKVNIDL;locus_tag=LOCUS_01860;note=WP_004083093.1 amidohydrolase (Thermotoga maritima) [pid:31.9%25%2C q_cov:80.7%25%2C s_cov:73.0%25%2C Eval:3.9e-36%2C partial hit],MGA_186
sequence1	MetaGeneAnnotator	CDS	199402	199944	.	-	0	ID=MGA_187;product=2-oxoacid:acceptor oxidoreductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869337.1;translation=MSYHGVIAAGFGGQGVMLFGQLLAFSGMMDNKFSTFLPSYGPEMRGGTANCTVVVSDEYIASPVIDTPNEVIAFNIPSMYKFEKDLVKDGILILNSSVIDREPTRKDIKVIKVPANEIAEKLGFLKVQNMVMFGAYLEATKAVSLDSIKHALEHKLTGKKAKFIDLNMQAIKAGMEAAKQ;locus_tag=LOCUS_01870;note=WP_012869337.1 2-oxoacid:acceptor oxidoreductase family protein (Thermanaerovibrio acidaminovorans) [pid:58.9%25%2C q_cov:96.7%25%2C s_cov:94.6%25%2C Eval:2.4e-51],MGA_187
sequence1	MetaGeneAnnotator	CDS	199941	200696	.	-	0	ID=MGA_188;product=thiamine pyrophosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869338.1;translation=MPYVEKFKGPKALNGKEFTYCPGCHHGIIHRLVAEVIDELGIQGKTLMVSPVGCSVFGYEFFELDGTVAAHGRAPAVATGMKRATPDKVVFTYQGDGDLAAIGTAEIIHAANRGEKITTIFVNNAIYGMTGGQMAPTTLLGMKTTTSPYGRRAEVEGHPIHMSEVIKELDGVAYLARTKVNTPMDVKKTKAAIKKAFEAQLNGDGFGMVEILSTCPTNWGVSPVEANKWLEENLVKEYPLGTFIDKVGEAK;locus_tag=LOCUS_01880;note=WP_012869338.1 thiamine pyrophosphate-dependent enzyme (Thermanaerovibrio acidaminovorans) [pid:74.3%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:1.6e-109],MGA_188
sequence1	MetaGeneAnnotator	CDS	200711	201766	.	-	0	ID=MGA_189;product=3-methyl-2-oxobutanoate dehydrogenase subunit VorB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082297.1;translation=MAEKVMVKGTEAIGEAAIRAGCRLYYGYPITPQSELTEYMARRLPEVEGTFLQAESEVAAVNMIYGAACTGRRVFTSTSSPGFSLMQEGVSYIAGAELPAVFVNVVRGGPGLGDIQPGQCDYFQATKGGGHGDYRMVVYGPESLQEAVELTSKAFDVADKYRVVSMLLADGLLGQMMEPVEFPDFVDLNTLPDHSSWAMTGNEGREAHKVTSFNIDPYGLEEMNERYQATYKKIIENEQMHEEYMLEDADVVIVAYGTIGRIAKSVAKMAREQGIKAGVFRPITLWPYPYEALSKFTDQAKLFFTVEMSAGQMVEDVKLSVNGKKPVEFYGRMGGVVPTPTEILNKLKELV;locus_tag=LOCUS_01890;note=WP_004082297.1 3-methyl-2-oxobutanoate dehydrogenase subunit VorB (Thermotoga maritima) [pid:66.7%25%2C q_cov:99.1%25%2C s_cov:98.6%25%2C Eval:3.1e-137],MGA_189
sequence1	MetaGeneAnnotator	CDS	201785	202006	.	-	0	ID=MGA_190;product=ferredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869340.1;translation=MEFKNLVEIDQERCKGCGLCINACPKQVLGFSESYNSKSYHPAEVKNQEACIGCGFCYSMCPDVCITVKTLAK;locus_tag=LOCUS_01900;note=WP_012869340.1 ferredoxin family protein (Thermanaerovibrio acidaminovorans) [pid:64.6%25%2C q_cov:89.0%25%2C s_cov:85.5%25%2C Eval:2.2e-24],MGA_190
sequence1	MetaGeneAnnotator	CDS	202027	202692	.	-	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082293.1;translation=MFEKHKVHVFIGMFGSGKTEIALNTALKLKEHNEKVAIADVDTISPYFRTRDEKDNLESKGIEVITPPVKYMYADVPIISPRIGGYINNPEFKTVLDVGGNDDGAIVLGSLNNFIKKADVATYFVVNTKRPFTDTKEKIIGHIKRLSAKARVEVNYIVANPNVMNDTTQEIVDEGEKILSEVSEEIGIPVVFTSVDERISEKINTKYPKFLINRFMNKIWD;locus_tag=LOCUS_01910;note=WP_004082293.1 hypothetical protein (Thermotoga maritima) [pid:42.0%25%2C q_cov:95.9%25%2C s_cov:95.4%25%2C Eval:1.8e-42],MGA_191
sequence1	MetaGeneAnnotator	CDS	202703	203770	.	-	0	ID=MGA_192;product=butyrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869342.1;translation=MFRILVINPGSTSTKLAIFEDENEVLNETVRHTSAEIEPFEKITDQYEFRKKVIENFLNKAGYPLSSFSAIIGRGGLLKPIPGGIYSVNEDMLKDLKSGKYGEHASNLGGLIAYELAKEVEIQSFIADPVVVDEMMDIARFSGHPDFPRKSIFHALNQKEIGRQLAEKLGKDYEDSNLIIVHMGGGISVGAHKKGKVVDVNNALDGDGPFTPERAGTLPLTGLIDLCYSGKYTLDEVKKLIKGKGGFVAYLNTNDGREVQEKIVKGDEKAKLIYSAMAFQVAKWIGKFAAAMNFEVDGIALTGGLAYDKDMMVPWISERVEFIAPVYTFPGGDEERALAMSAFRALKGVQKINTY;locus_tag=LOCUS_01920;gene=buk;EC_number=2.7.2.7;note=WP_012869342.1 butyrate kinase (Thermanaerovibrio acidaminovorans) [pid:66.7%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:1.0e-135],MGA_192
sequence1	MetaGeneAnnotator	CDS	203783	204676	.	-	0	ID=MGA_193;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080280.1;translation=MELQDIFEMAKKIEPKKKIAVAVAQDEVVLKAVNNAVENGICNAVLFGDKEEIEKIAKKENINLSNFEIRDYKNKKEAIKNAVESVSKGETDLPMKGKCTTGELLSVFLKEEYGLRTKNTMNLVSVFEIPTYHKLLIVSDAGMLIAPTLQQKIDEVNNAVAVAHKIGIETPKVAIVGAVEQVNTKMVATTDAAIITQMNRRNQIKGCIVDGPFAMDNAISKEAAEHKGIVSDVAGDADIIIMPQIEAGNIFYKSMVFLGNSKVASTILGGKKPVVLTSRADSDEAKLNSIAISVLMA;locus_tag=LOCUS_01930;EC_number=2.3.1.8;note=WP_004080280.1 phosphate acetyltransferase (Thermotoga maritima) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-81],MGA_193
sequence1	MetaGeneAnnotator	CDS	204676	205734	.	-	0	ID=MGA_194;product=butyrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869343.1;translation=MKILVINPGSTSTKVAIFEDKELKITKTLEHSSEEISKYDHIMEQIDMRKKAIVEFAEENGYKIKDFDTIAARGGILPPLSSGTYKVTEEMVNYLKNETPVEHASNLAAVIAYEVADGIPVYITDPVSVDEFVPEARISGIPQLERKSLFHALNMKMVARRASEELNKKYEDCNFVIVHLGGGISVGAQEKGKMIDVNNANDEGPFSPERSGELPVGDIAKVAFSRKYEKREMRKRYVGKGGLVGYLKTNDLREALKLTENDENAKKVIEGMTYQISKEIGAMATVLKGKIDAIIITGGLANSEIFINKIKERISKIGLIMVYPGSFEMEALAEGAYRAEKNIESPIEWRKR;locus_tag=LOCUS_01940;gene=buk;EC_number=2.7.2.7;note=WP_012869343.1 butyrate kinase (Thermanaerovibrio acidaminovorans) [pid:54.0%25%2C q_cov:99.1%25%2C s_cov:97.8%25%2C Eval:5.0e-103],MGA_194
sequence1	MetaGeneAnnotator	CDS	205746	206978	.	-	0	ID=MGA_195;product=PLP-dependent aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080276.1;translation=MELEKKLSKVSKRIKSSLIRELLDLKDPEMISFGGGVPDPDTFPRHEIAKIASEVIENEHRVTLQYGSTGGDNILKEQYIKLLKKHENIDNLDVDNLLITVGSQQALYLLGITFLDEESYCGVSRPIYLGAASAFQQRDPKFINVPLLEDGMDLDYLEKELEKLNKEGNIEKFKFLYVISNFHNPAGVTMGIEKRKKVVELANKYDFIIVEDDPYGALRFEGEKLPSIYSMAPERTILLNTFSKVLSPGLRLGLVVGPKDMVKRISMAKQAADLCTPALTQRIGARYLERFDLIEGIQPTIEIYREKKNLMMKLVEEKLGDIKGIKWINPEGGLFTWITLPEGFDTLEMFEIAKEEKILYIPGTAFYVDEPDNNTMRLSFCLPTKEKIKEGMDRLRKTIDRYAKEKGLEI;locus_tag=LOCUS_01950;note=WP_004080276.1 PLP-dependent aminotransferase family protein (Thermotoga maritima) [pid:56.6%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:3.9e-134],MGA_195
sequence1	MetaGeneAnnotator	CDS	207299	208558	.	+	0	ID=MGA_196;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081014.1;translation=MWEDIKTTDPEIYDIVNRELDRQEYGLELIASENFASKAVIEAMGSMLTNKYAEGYPKKRYYGGCEIVDEAETLARNRAKELFNAKWVNVQPHSGSQANMGAYFALIEPGDTIMGMSLSHGGHLTHGASVNFSGQIYKVVSYGVNPDTEVIDYDEVERIAKENNPKVIVAGGSAYARIIDFKRFREIADSVGAYLMVDMAHFAGLVAAGIYPNPLEYADVVTTTTHKTLRGPRGGMILTNDKELYKKINKAIFPGIQGGPLMHVIAAKAVAFKEALSDDFKTYQKQVVKNAKKLAEELEKNGLRIVSGGTDSHLMLVDLTDIDVTGKALEKALVQCHITVNKNTIPKETRSPFVTSGIRVGTPALTTRGMKENEMVKVAELIAKVAKNVKDEEGTIDETIKNEVIADVKELCKQFPLYL;locus_tag=LOCUS_01960;note=WP_004081014.1 serine hydroxymethyltransferase (Thermotoga maritima) [pid:74.6%25%2C q_cov:99.8%25%2C s_cov:97.9%25%2C Eval:2.2e-180],MGA_196
sequence1	MetaGeneAnnotator	CDS	208765	209982	.	+	0	ID=MGA_197;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082978.1;translation=MKILVINAGSSSIKYQLLNMDTEEVLSMGLVERIGIEGSRIVHRVNGEKHIIEKEIQDHEVGLKYVLSLFTDSKYGVLKSLEEIDAVGHRVVHGGEKFASSVRINDDVLNTMEMLSFLAPLHNPANIMGIKAATELLPNVPHIGVFDTAFHQSMPEKSYLYAIPYEYYEKYKVRRYGFHGTSHRYVAQRTAEILGKDVKDLKIISCHIGNGASIAAIDGGKSVDTSMGFTPLEGLAMGTRSGDIDPAIVDFLIKEEGLTSKEVITILNKKSGMLGLTKKYSDMRDIEDNAIAGDKVCRTAFDIYEYKIAKYIGSYAASMNGVDAIVFTAGVGENSPIMREEIAENYLGYLGININKEKNNVRGKETIVSTEDSKIKLMVVPTNEELMIARDTKEIVEKNLDELKL;locus_tag=LOCUS_01970;gene=ackA;EC_number=2.7.2.1;note=WP_004082978.1 acetate kinase (Thermotoga) [pid:66.6%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:4.7e-156],MGA_197
sequence1	MetaGeneAnnotator	CDS	210015	210335	.	-	0	ID=MGA_198;product=divalent cation tolerance protein CutA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001160791.1;translation=MDNIYKIEVFIPEKFLNELRIAMNNTGACKYGNYDNCISYSKVKSMWRPLEGTNPYLGEIGKLCFADEIKVEAICKGEFLKDTVKAIKQVHPYEEPVINIIPLYEI;locus_tag=LOCUS_01980;gene=cutA;note=WP_001160791.1 divalent cation tolerance protein CutA (Bacillus cereus) [pid:55.1%25%2C q_cov:92.5%25%2C s_cov:85.2%25%2C Eval:4.2e-28],MGA_198
sequence1	MetaGeneAnnotator	CDS	210429	210626	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVAALASNLKMMDTGMKISTSVTKKAMDTTNLVGDMILENIQKSTVDVSMAKDPNLGNYIDLRV;locus_tag=LOCUS_01990;note=MGA_199
sequence1	MetaGeneAnnotator	CDS	210654	210866	.	-	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKRNAIAEMSFILFLNAYGTYENVRKVYFMKKRGISVKKIIKENPFIESEKDLENYLKRMEKIYKSYI;locus_tag=LOCUS_02000;note=MGA_200
sequence1	MetaGeneAnnotator	CDS	210997	211692	.	-	0	ID=MGA_201;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000616577.1;translation=MRTFFTALGIVLYLIYSLILILISKFLRGETKQKFITKQVTMFAKTAFKLTGSKIEVKGLENIPDGPVLFVSNHQSNFDIPIFLGYLNKPLGFIAKKEMEKIPILSTWMRYIHCVFMDRSNVRNAVKSINDGIKILKNGHSLMVFPEGTRSHDGKIGEFKPGSFKLATNSGVPIVPVTISGSIDIMPKNKVEVRKANVKVVVGKPIEVSSEDKKKTPELAEKVREIIKENL;locus_tag=LOCUS_02010;note=WP_000616577.1 lysophospholipid acyltransferase family protein (Bacillus cereus) [pid:47.8%25%2C q_cov:86.6%25%2C s_cov:84.1%25%2C Eval:7.8e-52],MGA_201
sequence1	MetaGeneAnnotator	CDS	211808	212647	.	+	0	ID=MGA_202;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582643.1;translation=MALIWISIRIILLGYERIAGKKIATNEHALISSWGFFTFSLLVMFPFFKDLNLNIFTISLISGSIYTISFFLYVYALSIEDASIIAPLYNMNVVFLILTTFLFLSESITLSKILGSLLMIYGVSFLKKDINIIESYKNLFKSKGAIAMIVSSFLMAIGRTLDGFFAKNMNTTGYSVGIYTVVSLELFVFSLIKFKSLKPHINLIKNKYKDLISGGISNSYSYIALLNAFKYIDVSIAEPVSMLSTLVTAIIAKVVFKEKISVRLAGILILILGAFVIYK;locus_tag=LOCUS_02020;note=WP_012582643.1 DMT family transporter (Dictyoglomus turgidum) [pid:43.1%25%2C q_cov:99.3%25%2C s_cov:98.2%25%2C Eval:3.8e-57],MGA_202
sequence1	MetaGeneAnnotator	CDS	212744	213520	.	+	0	ID=MGA_203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDFIKEYKRRKDLYGLKDHEIAKKLSTGIKNIHRFEKGNYNPSYKFLSTLTKIMGGNLKILFDDKNTISFSNEVVNWFESISKKTNESYDEIAKNMLKGLFFIQRGKSLKEALKENYEVYKNVFESLEDTLLVDTHIKREDVKDYLYLLKNCTIDSIIKEKFEFKLKNHFDSYTFEKSKSTLTSNKITFSCTINLLNKEEIVGHIKTSYKILLNLNSKKIKDILKNKMLKDSYKNKIITKEILPEIKKSINVLLENF;locus_tag=LOCUS_02030;note=MGA_203
sequence1	MetaGeneAnnotator	CDS	213538	214608	.	-	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFLILVSLMISILIFSNDPWKNMEDIQKEIYDTFDNNGGSEVPWYYDENKHSDVDTEIFYQYYSDIKESNSIDEIIIITKDALKKLYSKMMEEDYEVTEEDFNTYILLNYTWAALYEGIFGWDLPWKKTLNNISTWIPSVLKKDGSVIGNFFKLNNSLYKLNQHKYIKVTEHKIIDNFFENPYSDTWFLMIKEYKKIKKFYFFMKEELEKYKEFLSSDYSKNKEKIQKTLKYIDLSSLYFKKLDSIARYEVFDRLVVPIINYEYELYLKYYDNNIIFFKDKEKKEKEKEVALQFNKVTNLIDYCVADDTKEWFIDFQKMLKKYLGEKEWNELKLYGKLSQEWLRLLPEVKVDY;locus_tag=LOCUS_02040;note=MGA_204
sequence1	MetaGeneAnnotator	CDS	214623	216089	.	-	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFVMIFLILSLSFFSLPSASEHAKAGLEDFGFYTGKNKNIRLTFTEISNLIDNINSNPFKDISTKFGKFGHRNFGHWGFSGSIPFNKNEYLKELIKNGVSKEKIVLEWKKITDKMTNIVMEKTGVTDKKLAKSLAGLIYDHHILKDYEDKIIEPLSDINNLKKDILKNFETLFGKNSNLTTDFRKYLKDIPKNLSEKEQSILITKFIKKVNLGSSLEDIFSKEFQEKNIKVYTNLKKMMNSSNKINKYLNIKTAAKGALLSGIISGLFHSYKVYKNEEEIDEALKNVIKDSSKTGISLYTSEAIMQKIGKKYALTAATGAALNYGIATFVFNEVNTVYDFFIDKSINSEEFLKENGENILKSSFSGLFSYCAVILGATPTGFTVIAVAIAGDLIINKAIETYKRLDKKNYFFMEDIIGNLPLSVQRRRTIFDLEDHYKNKKTIFDLEDHYKDKKTIFDLEDHYKDKKTIFDLEEHYKDKKTIFDY;locus_tag=LOCUS_02050;note=MGA_205
sequence1	MetaGeneAnnotator	CDS	216362	218158	.	+	0	ID=MGA_206;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIEDNMYFVDKSLLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKDLKIHKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHALLTMELSTLYIDHEYVFEVLNEREKDVYNKIMDREALDADYENSIRNLSKYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLEVSTVLNELFNDKYGLTKEEVEETLKYYELEYEEKEVIDWYNGYNFGGVEIYNPFSIVTLAKNRGKIRPYWMNTSGNYLIRKLIKEGTVNIKDSVEKLINGEEVECEIIETMVYGDLNLNSESAIWTLFLFSGYLKWTSKKRQNNITTYKVKIPNEEVKDFFVQTVRNMLRESNISIDNMLLNLKVGRIKTFTDQFKDLTMNTLSYFDVSGKEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNKDEDKSLKDSAKNGLKQINEKRYEEEIKNYGINDIIKVSIAFDKKEVEIVSNLDKDIELTPEEKIAKSMLEKGLDVNMISELTGISIENLKSIHNKL;locus_tag=LOCUS_02060;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.2%25%2C q_cov:92.0%25%2C s_cov:99.1%25%2C Eval:4.1e-101],MGA_206
sequence1	MetaGeneAnnotator	CDS	218285	219625	.	-	0	ID=MGA_207;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259421.1;translation=MSNLKYDVVVIGGVAAGTSAAATIKRIKSDMSVCIFQKEPYISYGGCGLPYSVSGEVKSPESVIGFTPEIFKEKKGADVFINHEVYKVNFDNKKVYVKNENDEFEVEYKNLVISTGASPIMPKFTYTGNGVFKLRNPTDARTMLDFINENNPKKGIVIGGGYIGIESAEALKKHGIDVTVIEGTDKLLRGMEDELLNAFKDMTTKSLKVEFNTMVEDITFDNGIKVITKNKNYDADIVVVAIGVRPNTGFLKGTDLEMLKNGAIVVNEKSQTNIKDVYSAGDCASVKNYITKKDVYIPLGTTANKQGRVAGKNICDVKESFEGVVGSLITKYEDVEFAKTGFSLSEALESGFDAIKVYVKSGSKAHYYSGSKKIHMTMTVEKSTGRILGAQYVGGEVFARLNAITPLLYKNGTVDDLRNMDLAYAPPFSPVWDINLVAANLAKKKI;locus_tag=LOCUS_02070;note=WP_012259421.1 FAD-dependent oxidoreductase (Chloroflexus aurantiacus) [pid:38.1%25%2C q_cov:96.4%25%2C s_cov:97.5%25%2C Eval:8.6e-82],MGA_207
sequence1	MetaGeneAnnotator	CDS	219850	221382	.	+	0	ID=MGA_208;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202160.1;translation=MKKLPIGIDDFKKIITENYLYIDKTKYIYDLVDLGVPTFLSRPRRFGKSLTLSTLYYLFKGEKELFKDTFIYDKWEFKEYPIIRINLLDAVYDDIDRFKKSLTNIIRENAINYGIDLVEDDYKFAFSELVLKLSKRDKVVVLIDEYERPVLHNINNKRVAEKMRDILQDFYVIVKSKGQFIKFVFMTGITKFTKMGVFSSLNNLRDISISKQYSQMFGYTQQELEIHFNNYIEMTKDVLNLSRVDLLKKIKKYYNGFSFDGEQFVYNPYSVLNFFSEKKFSNYWFESGSPTFLYEYIKGKDITYDELTKVTVSELDFSTREIENARPRIFFIQSGYLTFKGIDKYNKYIIDYPNLEVKNSFSKLLLEANYDIREDILNNSEAIFKNAFFENNIDNVIDEIKRIIASVPYNLHKKEESYYHSLIYTILAASGLNVRAEELSFNGRSDLIVEFDNFLYVIELKKDKSPDFALEQIKEKGYYKPYVDKYDIYLIGININSDKKNIESFKVEKI;locus_tag=LOCUS_02080;note=WP_011202160.1 ATP-binding protein (Bacteroides fragilis) [pid:34.4%25%2C q_cov:99.4%25%2C s_cov:99.6%25%2C Eval:4.1e-83],MGA_208
sequence1	MetaGeneAnnotator	CDS	221470	223173	.	-	0	ID=MGA_209;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865314.1;translation=MKNKSFANIFKYSKKYIKIQFFLLIPTVIAVLFPLIRPIVIKQFIDNILNKDIKIILSYVFLLLGIVVVERLINFFSNNLLYKTINNISSKEKVSLFKKIFKLSLKDLKKYTSGDILSRVLQDTDELSQTISIVYLVIFANILQLISAAFLLFSFSYKLAIIAYSTLPLFYITSKLFDKKIKNSSINERKTNSVLIESFREKLSGFKTIIGFSKKDHFLNQFEDDSIKDKNAKNKLIFYTRAQDEFISFIYNLIPILILGIGGLLVQRKEISLGTLIAFYSYIGWLNHPIQMLSNIVISVKKSKETLKRIEEIYNLPEDEHNGNDLLESIKNIELKNISFSYEDKEIIKNINLNIVSNNKYSIVGESGSGKSTLLNLLPLFYKDFSGNIFINNKNIKEYDINSLHKKILYVSQNEFILNDTLKENIFFGDTFSEKDIKKAIEYSCINDFLPELEDGMKTVLGENGSNLSDGQKQRITIARAIIRKPDLLILDESTNAIDSKTEEKIFDSISKIIPTIIIISHRLSTIKKAENIIIINDGKVLSKGSHKDLLENCKEYSRNIESQLLH;locus_tag=LOCUS_02090;note=WP_010865314.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:31.1%25%2C q_cov:98.6%25%2C s_cov:97.9%25%2C Eval:3.0e-77],MGA_209
sequence1	MetaGeneAnnotator	CDS	223058	223303	.	+	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLINGNNTAITVGISKKNCIFIYFFEYLKIFANDLFFKINPPITLIYFLAQLYYNSFHLTLLFYACYNSLYKMVSNDNFS;locus_tag=LOCUS_02100;note=MGA_210
sequence1	MetaGeneAnnotator	CDS	223365	223505	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEFCLKIFNIASQYGSYRKPFLNRVIFYNKINNGWNSLFKSFLFS;locus_tag=LOCUS_02110;note=MGA_211
sequence1	MetaGeneAnnotator	CDS	223805	224827	.	-	0	ID=MGA_212;product=(4-{4-[2-(gamma-L-glutamylamino)ethyl]phenoxymethyl}furan-2-yl)methanamine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_209320036.1;translation=MEILTLDIGGANLKYCIFSFQSNKIEIKEYDELNILNNNLNVFELFLKKEIFKITSKNSIDKILFTQTASLIYENNKEGVKKIASILKEVFKGEIFMFTPDRLINIEILDFERYTECYNWAITRELCKDRKGIIIDMGSTSTDIIPILEKENNKNNIMRLIDGEVNYLGMVRTILQSVIKTVPYKNFDVPIIAEPILKTGDIFYYLDMIPYNKHLNYSSNIKFINKLEIENKICQLIASDKNFLSKEEINIIIKYIYEEIKNTIKFKINKIMKKNNLDNNITLFATGYGINNILKEIYKEMNFSEYITLENLLNVKKYTPAIGLGYVYFKKIMRRDFSMI;locus_tag=LOCUS_02120;gene=mfnF;EC_number=2.5.1.131;note=WP_209320036.1 (4-{4-[2-(gamma-L-glutamylamino)ethyl]phenoxymethyl}furan-2-yl)methanamine synthase (Methanocaldococcus jannaschii) [pid:24.9%25%2C q_cov:88.2%25%2C s_cov:90.2%25%2C Eval:5.9e-13],MGA_212
sequence1	MetaGeneAnnotator	CDS	224848	225612	.	-	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIFENLKEFYYLFIIIFSEVRVIWIFQMIFGMVAPIGLILFIKVFWNNYNKIQAIHLISGNVVISMVMPLMLMLCSRLAQMKYDESINYFIGLPIKKINFILALIFSSAISYLPASIATLIFTKLILGINIEIQKVLFTVIIAFIISSLSFVGLGVFIGLKSKTPIHSNIIGNAVVFFMVFFTPTIIPTEKFPKIFLWISYLFPTTYAVNLFESIFNNIFNGAFFINLFVLSLFVLISFVYLYKFINWYIE;locus_tag=LOCUS_02130;note=MGA_213
sequence1	MetaGeneAnnotator	CDS	225609	226565	.	-	0	ID=MGA_214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIIEAKNITKIYKNGIAANKNISLDIKKGEILGILGPNGAGKTTLIKQIVGFLKPTSGKIYFNKEDISLNPNLIRKNLCYQSQSNFVLRGLKTREALYYTGKLNKMTKNRIKEKIELLKKELDLNTVFNKEIENMSGGQKQIVNLAVSLVSDSKILVLDEPTNNLDPEKKALLIDFVHRLKLKYGYTIILVSHNIFEIEKIADRVAIIYDGSLLKLDTPKNYIALMGGDYKIKFFIHKDKIPKIENYFKNFSINEFGYTSIYIEEKKIFESMDYLNKEIGKEKLKDIKVLNTNLEDSYLFFLKNYRKNFIKEDLKK;locus_tag=LOCUS_02140;note=WP_011028123.1 ABC transporter ATP-binding protein (Streptomyces) [pid:33.6%25%2C q_cov:68.2%25%2C s_cov:67.0%25%2C Eval:8.5e-35%2C partial hit],MGA_214
sequence1	MetaGeneAnnotator	CDS	226558	227097	.	-	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQEISVIFIFIYLMVTRVDLLNINNFNYSKKDFFLFFINSLIFFIINYLLELKNNNYKYLFKNISKKSIYLYLFKGIIFIPILEEILYRGILISILIKIFNSYIAVIISSIIFMFQHKFYNFYQYIFLFLIAMILGIYFLIFNSIIPTILIHSVINMANYIYFIKNYKNNKKKEWENG;locus_tag=LOCUS_02150;note=WP_010957083.1 CPBP family intramembrane metalloprotease (Treponema denticola) [pid:31.3%25%2C q_cov:84.4%25%2C s_cov:62.2%25%2C Eval:9.1e-11%2C partial hit],MGA_215
sequence1	MetaGeneAnnotator	CDS	227152	227322	.	-	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIIIHMIILTHIAGIYKKGGEKMYEKPEVKKVEKVYEKPVFLAKASSECGCGQGY;locus_tag=LOCUS_02160;note=MGA_216
sequence1	MetaGeneAnnotator	CDS	227270	228289	.	-	0	ID=MGA_217;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546519.1;translation=MNYLRLPNFKNVPDNVFIELTRNCNLNCLHCANSSNKSLKNELTDDEIFRLIDHLSEINVFSVVLTGGEPFLRKSIFELIDYLNQKKILVKIATNGLLINEKIAKKLSEYKISGVQISLDSSNKEKHDSFRRVNGSFNKALNAIKFLSNNGIKVTTGMTVTNNNYNEIEDVINLSIKNGAKSFLAVKYIPTGRGLESKLNMLDLKKSKEFSYKILNLSKKYEKKIYISEDDGFCFLLKKERKDLFCPAGISSCVIEADGNVHPCQFIGDRSLVSGNIREKNFIDIWLYSKNLREFRSIQNLNKKCNNCEHLNICMGGCKGMTYGYYNSYDYPDPYCWNL;locus_tag=LOCUS_02170;note=WP_012546519.1 radical SAM protein (Thermodesulfovibrio) [pid:36.1%25%2C q_cov:93.8%25%2C s_cov:94.9%25%2C Eval:2.7e-50],MGA_217
sequence1	MetaGeneAnnotator	CDS	228286	229233	.	-	0	ID=MGA_218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNFAPTEINWGLTYSCNLKCNHCYSNSSSQNLKNPLSFDKLKLIMNKIIDAGIFKIIFTGGEPFLNTNLFSLIEIAKKNNIFVHINTNGLLLDDKIIEKLQEYKVDSIRISLDGKNKFEHESLRGKNSNFEKVCSVIEKISKTNITTSIATTINKNNYMSLEEIIKLSINLGAKNWTTFRYVKYNKNSYKYALDKYEYYEILKKLYEYKIKYEKSIELYIEDPLFLFINEGKNRPCPASNSFFAINPKGDVLLCPSIPLKVGSLIENNVFDIWNSKVFLNLRGKRMGCLSAAFEKYNVLKKDPFLKNFEVKKF;locus_tag=LOCUS_02180;note=WP_048064511.1 radical SAM protein (Archaeoglobus fulgidus) [pid:27.4%25%2C q_cov:92.1%25%2C s_cov:67.6%25%2C Eval:2.5e-31%2C partial hit],MGA_218
sequence1	MetaGeneAnnotator	CDS	229234	229500	.	-	0	ID=MGA_219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNQKFVRNKDIKWRKEVDSILFMKENELYTLNNVGAFIWELCNGDYTVNEIINIINQEYKIDKNIIKSDVIEFLMNLLNEKIIEEKI;locus_tag=LOCUS_02190;note=MGA_219
sequence1	MetaGeneAnnotator	CDS	229532	229654	.	-	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFIVIAIIAFGGMAFSDPLPSTNQTDSINKIVDLGK;locus_tag=LOCUS_02200;note=MGA_220
sequence1	MetaGeneAnnotator	CDS	229831	231408	.	+	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582639.1;translation=MNEFCLKIFNIASQYGSYGRPFLNRFIFYNKINNGWDSLFKSFLFSWDNNFESSLLEINNGIKNCKSNTLYYLLLSKKISCLIRLNKFNESKKLYMILKKNLRNIPEFSRNIVFSTLLNCESILNINKNTRLWSKKYEEDFSTKLFVTIGNARKNIINNNFNEGWKNFQTAYELAKKIRHPVGLITVLNDYSWFLKDFDERKAKELSIELMYYYSYFFEDLTTWFGVYDTFFEVHKNDFYFLFWNFNELSFIFNLLSKEDKEKYKYFKLYEGKFKIKLSKYNNTKFLKDYLSQYFSNFFKASKLTNISYKRLKDLFNNKTKKIKGNTIQKFILGFKITPNTNAPFPILNEYLKLLIDKKFIESLNTFSKLNHTNKKMVFITTYVSILDKKNSNLKKLYNNLNTINTLNLDYDLKLFVINMINPNNILKGRIDLVYHFFKKFTIKKRKLFFENYLNLESKEKYVIDTFIRNYSRYDFNFSIKLKIFDELKEFTNKYKLKKTPTILSFWCFSKSSERRVLLNILKKL;locus_tag=LOCUS_02210;note=WP_012582639.1 hypothetical protein (Dictyoglomus turgidum) [pid:30.4%25%2C q_cov:98.1%25%2C s_cov:97.8%25%2C Eval:3.2e-54],MGA_221
sequence1	MetaGeneAnnotator	CDS	231639	232319	.	-	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIDTILAIFYKDLKYLKYQKREIYWSIASIFIFPALLFMPKTPFSLVGYFFRTSVILFSGLMPLGVAGSFSGNSISFERMDETLEFLLSSGIKPLNFYIGKIILPLLLGMIYSIISTIEMSTLLKYVFVDISIPLETLIIIPLCSAIIGSNGGIISRLLFKSDVKAVNIEAIFTLIILILPYIIVRPDLGGINAIIYMIIILFVFFSLIVLGIHQIKNKKVLDF;locus_tag=LOCUS_02220;note=MGA_222
sequence1	MetaGeneAnnotator	CDS	232349	232993	.	-	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIITIFYKEFQEFISVNKKRSMVLKLIYLPIMYLILLLENRPKNFLIFLMFILFIIGIYSVFITYNSVQEEKNKKTLETLLSIGLKRKNIFVGKIILPIIVSLIITIYNICCIYIINLFNYFPKIEINLILFFAIPILFGVLNATMTFLLTLKMDKSYYMSYFISATVFIFGFIIFYPISLIKTLLLIMYMIIMICIIMIFTIQRFNKYKIF;locus_tag=LOCUS_02230;note=MGA_223
sequence1	MetaGeneAnnotator	CDS	232986	233705	.	-	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFEKVSFNYKNKVEVLNDLTVEFPSNEITGLIGHNGAGKTTIYRLISNLILPSEGKIIINQDMITDYKKQVAYIPSGASIYERLTAYENLVFRAKIIGLSKDEYDKKIKILLKKLKLSKRIHDKAYDFSNGMKKRLGLASALIGSPKLLLIDEALNGIDPESINIIVNILKELNENGTTIIITSHDLSLIHDLCTEIKILNEGEFVYQGEKNKEFKDFKEFYLSLTTNYDEEEDFVE;locus_tag=LOCUS_02240;note=WP_011948245.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:36.3%25%2C q_cov:87.0%25%2C s_cov:68.1%25%2C Eval:1.6e-34%2C partial hit],MGA_224
sequence1	MetaGeneAnnotator	CDS	234129	236042	.	+	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPLKTIISNVYFKIIYIFSIFLFFFFIIITILFSYEYELKIKNTELALNYTFESVNNEIKNYETAVYNILQNFLTSKNTLKPQTEKIYLNKLKNIKTTLKVINLNYYFINEKGIVYDTDYSTDLNLDLSIFKNFWKEISSIKVGETLIKSITFETLTGKTRLYGYTKLSNGSIFEIGILFENFNTYFNKKLFNNPYLKNEHFKVKTYIGSISLFEKKYPKEKYLYLKNSLKSTVILNTKLFEKTYYIGKSFGTSNYFIEFTLVFKRLKYIFYLIIFATLIFLIFTILMYNYIKNKIKINITKPTKQLSNNMKNFVLTNTIGEDIKTNISEIFNIYINYKKMATEIIENKEEMLATNEELEASYQKLYEKNNELENSYKKLEELNKTLDLKVAEKTKEILNSKEKIMQAEKLSSLSFLIMEIAHQLNTPIGVSITGTSFMLEQLEEKIKKCDSSLKKDLLDWNNTINIVLKNLLKSANILNTFKNISTTKSDELLSIFDIKTLIINTLNFFDLKDIKVMTEIPKMNIKGYPGVLKQIFTILITNTLEYAFPNNTFDKKIIKVNVKKKDDKLLIEYSDNGIGINEDTLKKIFEPYYTTSKNKDGLGLYIVYNLVKNTLNGEIICESHINQGTLFKIKF;locus_tag=LOCUS_02250;note=WP_171279904.1 ATP-binding protein (Aeromonas) [pid:28.8%25%2C q_cov:46.0%25%2C s_cov:44.4%25%2C Eval:1.3e-31%2C partial hit],MGA_225
sequence1	MetaGeneAnnotator	CDS	236105	237796	.	-	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFTVVVLFLVFLFASCTKFNEVKSSKEFLMTRSISQKVLFDNAHSQTAGNADWTIRGGYSTLADDIKLLGYTVEEWGNDESGSGQIDDDAKITYDVLKNYFAYIIPEPNIPFTKAEQDAIIQYINDGGNVFFISDHEGADRNADGWDAVEIFNGFKKGTHTIDSKNSYTDDFVGRLGFRYEENNVYQAPVTDIRTHSITTNVSQVAVWNGSTHYMISNTINGVVYTSTTSAGPYIIAGTYGKGKFVSCGDSSMFNDGTRGDGTTDKYSGYFEYDNRTFASNVIRWFNQNSSSEGINAPNNLTVSSINTNSAKLMWSDNSQSELGYRIYLSTDNVNFIKTVELGENATSYTLNNLNSNTTYYIKVSVYYGNNEKESSIISFTTLQPFTNKKLYLTEVVDAYDYNYEYIEFYNNTSESINLNGCKLVLDRKRTDGTLYTPIEISLSGILKSKGFLIVARNSSKKNFQNYFGVRLSKNTIFINSNNKMYINKSEQRFVIKDSNGSIIDDNKTSKFLTNVLNNIKVRNDFINYGFEDINIVDEWTDYYDTSAGYLTQEQLNFIQ;locus_tag=LOCUS_02260;note=WP_000791479.1 DNA-binding protein (Bacillus thuringiensis) [pid:29.2%25%2C q_cov:59.0%25%2C s_cov:75.9%25%2C Eval:5.4e-39%2C partial hit],MGA_226
sequence1	MetaGeneAnnotator	CDS	237972	238508	.	-	0	ID=MGA_227;product=ComF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082014.1;translation=MCGKPTTKRICTKCINDMYEPVRSSNNIYHCTHYYKSSKMIKMYKYASHPSFSKIMGEMLCKLFIDLKIPEEVYTVTFIPSNKKSYYEKGFIPAKEIAKHFAKYFDFELKELLINKSKKRHAEMTQNERLNSVNFEIIKKVPKNIIIIDDVYTSGASMNTAIELLNTNTIGLTFAKTR;locus_tag=LOCUS_02270;note=WP_004082014.1 ComF family protein (Thermotoga) [pid:27.1%25%2C q_cov:100.0%25%2C s_cov:94.1%25%2C Eval:3.9e-14],MGA_227
sequence1	MetaGeneAnnotator	CDS	238546	239814	.	-	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASEIIETYKLLQEKIKSENAKVFFDMLDSPYPAFKSRAIQELTKLKIDTPIIKDYLNDSDAGVRLASLKYLEKMNLLEENQLKAATKDLAPSLRREAIKMYITSGYEPIDYIFSHTTDPDPTVRYQLLVSFLEFYPEESEKILTLLKDDPYIKIQQLIYALENISETIKSKDVQLAVKKMAMARYFESNDSITFFNLIKEVYPECEKQTQIMIIKFMATIPCDIIKSFVENKINEEKDNEILIELVKTIKKVCGSENLPSWIIETFINEKDPKLISFGLKLASEKDDMSYVDFSRDLLKKIDDDYVLGSATYLAYFQDYKLMDHVPSFLESLSSKRINTGIRIIKKLKLENFVPEIAQISGDKKYPTTVRKNALNTLKYFKAKQYWEIPYNILKDPNERGDLKLAALNALLKLNAEMVTNL;locus_tag=LOCUS_02280;note=MGA_228
sequence1	MetaGeneAnnotator	CDS	239804	240235	.	-	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNGFILIETVFELLIISIMTLAVLATFARTVFILKKVMNDIVDLNIKENSIMETIRITKNEIKNLYYYNEYMIISNNNGEKTGLKYNKYSKKLYRYKNNYGTVGITYIGDNITKFNYEKNFLSIGFGKDILKIAIQEEKNGQ;locus_tag=LOCUS_02290;note=MGA_229
sequence1	MetaGeneAnnotator	CDS	240238	240768	.	-	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIIIFLLLIGIISFSININTGISVLTDKKSNVALNFGFNSKTFDFAFDMYPDFTTQVKLTTITDISVLISKINNNINVEGGIIWFNDNPTGTKERSLPFIYAGFKYEESLFFGKLYFGYPLQENVSLDLADYLILKAGVTIPKPQNFIDDIKIEFRFTKDRKDFSIYISTPVR;locus_tag=LOCUS_02300;note=MGA_230
sequence1	MetaGeneAnnotator	CDS	240773	241000	.	-	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLGFNYDKIMGKIGLKYVVPIIAAKRAEVLKNTEELEQTKKSRDYVTKAMKEMEEGTTFVKNQENLDSVRTDLK;locus_tag=LOCUS_02310;note=MGA_231
sequence1	MetaGeneAnnotator	CDS	241005	241631	.	-	0	ID=MGA_232;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082205.1;translation=MKGILYVVSGPSGAGKSSMIKKALNVVDGFTFSVSYTTRAMRPGEKDGIDYNFISEEQFKKMEKNNEFLECAEVHGYYYGTGKEEIKNKLAEGYNIVLDVDVQGALNIKKVMADDTVLIFIAPPSYEELRRRLEGRGTENHKDLTKRLEDAHWELSKIYDFDYLIVNQNLNESINQLISIIIAEQLNINRIGQHLGKYKFFKQTFNER;locus_tag=LOCUS_02320;gene=gmk;EC_number=2.7.4.8;note=WP_004082205.1 guanylate kinase (Thermotoga maritima) [pid:48.2%25%2C q_cov:95.7%25%2C s_cov:95.7%25%2C Eval:8.0e-50],MGA_232
sequence1	MetaGeneAnnotator	CDS	241628	241921	.	-	0	ID=MGA_233;product=DUF370 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082206.1;translation=MYGLINIGFGNVVVGDRVIAIVNPGSQPLKRLRDVAESQGKLLEVNHGRKTRAFVITDSGHVIASAIQPETITNRFTQNFYDIEKALERIRKEAFNG;locus_tag=LOCUS_02330;note=WP_004082206.1 DUF370 domain-containing protein (Thermotoga) [pid:66.3%25%2C q_cov:94.8%25%2C s_cov:100.0%25%2C Eval:6.9e-31],MGA_233
sequence1	MetaGeneAnnotator	CDS	241960	242838	.	-	0	ID=MGA_234;product=YicC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082207.1;translation=MRSMTGYGRIEKIIGNYNYTVEIKSLNGKYLNLKTSLAGIFSPLELNVQNYLKKQFKRGNINVFVDIRFLNPSDFVEIDMGLAKSYNEALNKVAEELNLPDKPNLDILTKFRDVIKVKINEKSLEEVWGGLKEVLGETVEKVKEFQYSEGENLKTVITEYMNQVEDLVSKLEIDAGKIKDIYRERLMNNIEQVLTSKEKINEERLELEVVLTAERADISEEIDRLKSHIKKVRTIINSKDEVKGQNLDFLSQEMHREFNTIASKSKMTDITNYSVEGRVLINKIREQVQNIH;locus_tag=LOCUS_02340;note=WP_004082207.1 YicC family protein (Thermotoga maritima) [pid:37.5%25%2C q_cov:99.7%25%2C s_cov:99.3%25%2C Eval:1.2e-56],MGA_234
sequence1	MetaGeneAnnotator	CDS	242875	244005	.	-	0	ID=MGA_235;product=cysteine desulfurase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082208.1;translation=MIYFDNNATTQVDKEVADLIYKYMTERYANPNSIHEFGIESEDAVEESRNSIAKLFGVLPFEIYFTSCATESINWALRGVAKANEKYGKHIITSKIEHSATINTLKTLEKEGFEITYVNANKDGVISLEEIKKSLREDTILVSIMAANNETGTIQPIKEISNLIKEKSPKAYFHVDCVQIVGKMDFKLKDLNCDLASFSAHKFHGPKGVGILYKKERTRIFPIITGGSQERGMRGGTQNVPGIVGTALALKKAFENLIKMKKIEEIRNYIKSEMESMGAKIITPIDNSVPNTLAAFFPKTRGDVIVNALSDEGIYISTSAACSSKGVSGSRVLKELGYSETDSKAMLRISLSHTNTMEEAQYFLKKLKNVLNFLKF;locus_tag=LOCUS_02350;note=WP_004082208.1 cysteine desulfurase family protein (Thermotoga maritima) [pid:50.8%25%2C q_cov:96.0%25%2C s_cov:94.3%25%2C Eval:1.3e-99],MGA_235
sequence1	MetaGeneAnnotator	CDS	244020	247205	.	-	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLAMINFDFFELKNTHFDEVAEKVKKLYEKDPLNFLFIGPSGFYVKQVADRVAKKLNKTINRDGFRVINQYITEIFKVYNPTSIIIDRDFLKIYIEKEIEDLIEREKNDVEFSKYVNVLSKSTKSTEYILDIFEKKWEINKIEDKKALTYSNVYLNLENMETNTNFYKLYKKLEESLENILNKKFNDEINIGQNYDSISIYKWFYTNFKDKLGKNIVISGFFDISPVTSKVLEKLVDSFENSHIYAWEMLKDRSFESLKGFYKFMDDKIKVSKRKQILLKDVFKEKNISIYRTSDIVLEVEKISKDIKKKILVGIQPEEIGVVVSDAMTAKMFSDYFDEINVPHRFKDDNPLSQSRIVSILLQPLKTVVRGYEIEDMLAMIESGYCGKININIDEFEKYLKKLNLFYSSKSSLKKRKDEWNSAFEDEINKLKYSIKNTEESERVKRELETLNELLRVSEDLFKLLKEIEESSKNFNVSTYREFLKKWEEEEILEIKTLKKYENFEVINSEIIALKEFSKMLIKTERTLEKIIGDKKINISKFYRIINDLCEIEKFRSSEKYSNTIEIMNLSDSRFVNKKYKYFIDFTENNYPKVSINPFLTSMNIANESLKISEKMHRRSLFISMIFSENIIFSTPISTLDGEPILSSPYEKEFFKYFDIKEVKMYGEKKEVIPKDADEIFSELEKDMYYILQNKDFNLTKEVKNLKENIKNNKWKINEKTKIGTISHNKVSTYVDCPFRYYLSYIAKIRGDKDFNIFSEGLIKHAAMKTLFGEYPYYDHMDNLYLNREKLINELSNIIEEIWKEMITEGLEKYSAIKEVEIEKISEELYESIGEILKDYINMGKKLKLNYSDVLKTEYFEETNIKIGKYKLKAEARIDRIDKTNGNYIYLMDQFEDNLKPEAYSIIDYKNKASFQSEQLFLYYKVLENSKEFDLKNKDVYLKFQPLDGSGKMGDKFIKIQKDMFIIKKKGNSKQFLALDLKEYENWFEKILSNIEESNFDPISIKDREIKRFLEETSEKYGNRKTGEKYYECEYCQYLKLCSMLEYLKNFKVKKGWKK;locus_tag=LOCUS_02360;note=MGA_236
sequence1	MetaGeneAnnotator	CDS	247387	247734	.	+	0	ID=MGA_237;product=glycine cleavage system protein GcvH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865076.1;translation=MKKYTKTHEFVSVDGNVATVGISNHAAEELGDITYVDLPEVGTELSKGDTLCSVESVKSAADVYAPISGKIVEINEELDATPEIINEDAEGKGWIVKIELSNTSELDELSDTDAE;locus_tag=LOCUS_02370;gene=gcvH;note=WP_010865076.1 glycine cleavage system protein GcvH (Thermotoga maritima) [pid:64.9%25%2C q_cov:99.1%25%2C s_cov:91.9%25%2C Eval:1.6e-40],MGA_237
sequence1	MetaGeneAnnotator	CDS	247766	248128	.	-	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQVFGENTGKGFEKEEPLTIFLKAIESAVFKSAVRKNNRVYLSDIWFITSLPKDLIVEVITKYADTIKIPEDIQFIYDDKRKTNIWVRPEKTEEEKNEELNEELKDDEFKNEENQIIEE;locus_tag=LOCUS_02380;note=MGA_238
sequence1	MetaGeneAnnotator	CDS	248140	250503	.	-	0	ID=MGA_239;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080832.1;translation=MRLSMEWISDYIKLKEDETGIVNKIKQHTTNVETVDEIAKGVKKVKVGKILKTEGHPDADRLQVCTVDVGEEEPIIIVTNDLSIKPGHTVPVAVDGAVLKDNFKIKSRKMRGVFSQGMFCSLEEFELEENAHGVYKINEDVKPGTDFLEYFKINDKVIEIEVFANRPDLLSYVGVAKELETINAGTDFKLPEYTKLEKTDVFPIKLETTDCNRYTAAIMTDIKIGPSPIWLVRRLASAGIRSINNIVDITNYVMLETGHPVHAFDMDLIGNQIVVKKGEKGTKVLLLDEKKYELNGTETLITDGEKILALGGVMGGELSGINENTKRILLEVAHFDPVNTRKTSKYHKLQTDASFRFERGVDPNDAEFVMGRLVKLISELANGKSDGKMVDVYPNIIEPKTIKARYEYIKDRLGVEISKEEVEKIYDSFEFKYQTTEFGWVVTVPTNRHDLSIEIDIVEEVGRIYGYHNIESSFPETVMKAGTKGAVVSFKDEVSNIVRSTGYNEIMTYSFMNIEKMWMEKSEIKLLNPLSAEYEYMRPLVSYGVLESISYNFRNQNRDVKFFEIANVYSKDESLESKIKETLHLSIGATGRENPDDFTDKREVSYYTLKGAVDTLFKELNIIPEYKRVEIEGMSYSQTAEIFVDKEKVGFIGLVDKDYAKKFYGIKAPVYIGELDLSKLFELKVPLTKENKNYEYPAIKREYSFIVPIKVAFSEIEEIINKSGKIIEKISIFDIYKGKNMDEDKISITITITYRASDRTLTDEDVNRVENKMLKKLNNIEVSLRER;locus_tag=LOCUS_02390;gene=pheT;EC_number=6.1.1.20;note=WP_004080832.1 phenylalanine--tRNA ligase subunit beta (Thermotoga maritima) [pid:38.6%25%2C q_cov:100.0%25%2C s_cov:99.9%25%2C Eval:9.8e-162],MGA_239
sequence1	MetaGeneAnnotator	CDS	250515	251528	.	-	0	ID=MGA_240;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080838.1;translation=MIDKTTMIEELKEKLQSLSTIQEVQNIKAQYFGKKGQITALMKNIGRIEPEKKKEYGMQVNELKQEIERLLNGKLDEIKKEIKKQEELKNWVDVTAHGAERSFGKEHLIAKTIRDIYEIFTQFGFTVVEGPEIEEPWFNFDALNTPEWHPAREMQDTFYLEDDLLLRTHTSAVQIRTMLKEEPPLAIISSGRTYRKDEIDATHSAMFHQLECLFIDKKVTVGNLKMFLEQLTKKIFDNEDTKVLLRPSYFPFVEPGFEVDVSCMNCGGKGCNVCKGTGWIEVLGAGLVHPKVLENVGYDPEKWQGFAFGVGVERIAMLKYGISNMRELYKNDIRFID;locus_tag=LOCUS_02400;gene=pheS;EC_number=6.1.1.20;note=WP_004080838.1 phenylalanine--tRNA ligase subunit alpha (Thermotoga) [pid:52.1%25%2C q_cov:97.3%25%2C s_cov:96.9%25%2C Eval:6.5e-97],MGA_240
sequence1	MetaGeneAnnotator	CDS	251503	252312	.	-	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKVFFIFIIYFLLIYFLNDISNKIFENEKIIYIGKVLFNKEKLVEMNSMPEYAKAVIKYSDGKMLVYIPKNTEYFRKILPDLKIIASNISVLEKKVIVPTFIESDTLKRSRVFEITKDVYYFIFAIFIAILGFVYRPFSSKKYFLLSFKYKKQFIIPIFMFSILSFFIYLTSYFFDYSTISIPFFIGVSIVFIENIFQNKIFRAMSLIILVFIPFVNDTYFIFIVSMIINLIVSLILLKKYNFIKEKSKDEKTGEVIENDRQDNND;locus_tag=LOCUS_02410;note=MGA_241
sequence1	MetaGeneAnnotator	CDS	252326	252940	.	-	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEVNNVILRILNPSIEFPEITLEKGNCLGIYTENVKKLSKNFFKLICEPQKFAEKVTINNLVLDKSTWIGRTFTHIVSPELWEDSILNILKNKPQRRHLVFIFATVEEVNKKELYEISKLIEDYKKEGAVLVISNSSELFEATVDTLLDEKENEIYLENGLFYEDINTGKIYDDIEEEIKAKLFDIRIKKTKINIEENNEKFY;locus_tag=LOCUS_02420;note=MGA_242
sequence1	MetaGeneAnnotator	CDS	252933	253490	.	-	0	ID=MGA_243;product=flavin reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583110.1;translation=MDIKSFYRNIALPVCTVMAGDEKNYNIMTVAWSTPLSINPTLFGFAIKKTRYTYDFLTKYKEYSVTFYNFEDSKMIEQIGRISGREFDKIKNLNIEIVKSNKIKTPYVRGYFSFECVLNNIINVGDHDFVVGEVIEVHENLNNNFNPSLYVGKDRYSTINSSKVYDFNTLEIVNELRKNRRNNNV;locus_tag=LOCUS_02430;note=WP_012583110.1 flavin reductase family protein (Dictyoglomus turgidum) [pid:33.6%25%2C q_cov:76.8%25%2C s_cov:82.2%25%2C Eval:5.1e-20],MGA_243
sequence1	MetaGeneAnnotator	CDS	253657	254316	.	+	0	ID=MGA_244;product=fructose-6-phosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083013.1;translation=MKIFLDTANIEQIKEAQKLGIIDGVTTNPTLVSKENAVFEERISEICEVVKGPVSAEVTSSNAEGMIEEARKLAKISEHVVVKIPMTQEGIKAVKVLSAEGIKTNVTLVFSALQAILAAKAGATYVSPFIGRLDDIGHMGMELIEQIVQIFKNYDYKTEIIVASVRHPEHVLEAAIVGGDIVTVPFAVIEKMFKHPMTDLGLERFNADWKKYQEYMSKK;locus_tag=LOCUS_02440;gene=fsa;note=WP_004083013.1 fructose-6-phosphate aldolase (Thermotoga) [pid:68.8%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:6.4e-85],MGA_244
sequence1	MetaGeneAnnotator	CDS	254407	255993	.	-	0	ID=MGA_245;product=Lsa family ABC-F type ribosomal protection protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000061775.1;translation=MANIKLNNLSFYYTSPYKLIFQNLNLTINVEWKCGLVGKNGRGKTTLLKLLKRDLEPSIGEINIPIKVSYFPFKIEKKYTLTYDILKNLIAPFSDMEKKMDYLLQNKNINEYGEVLEKYTFLNGFIIDTLIEKEFNKMGLKLELLKRPYETLSSGEKTKIMIIAMFLRKDNYLLIDEPTNHLDISSREQLGKYLSKKKNFLVVSHDRYFLDLCIDHIISINKSNVKLLNTNYSELEYNLKLEEDFEKKKNEKIEKKVKNLKEALIRSKVWANNREKDKFKKYHPDTSIIDKGYVGGKAKKLMKMSKNFELNIQKNIEEQKGLLKNVEKNYELKIFNSNKIPNKLLQIYNLNVEYGNNTILKNFNLTLYKKERIAIFGKNGSGKTTLLKAIFNEINIKSGNIYKPKFINFSRVEQVSNWEDTTLYEYIQKKQINENKFRQILGNFEVRGEILDKQAKEFSDGEKKKIDLCLSIVDPVTVLIWDEPLNYIDIPTRLKLEKAILKYEPTMIFIEHDRYFIENIATKIIEIK;locus_tag=LOCUS_02450;note=WP_000061775.1 Lsa family ABC-F type ribosomal protection protein (Bacillus thuringiensis) [pid:33.2%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.8e-84],MGA_245
sequence1	MetaGeneAnnotator	CDS	256816	258525	.	+	0	ID=MGA_246;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEKIRTENFYYVDKTKYIEIIEDMPESYIFFLRPRKFGKSLWLDTMSKYYDVKYSDKFDTIFKDLYIQKHPTPKKSSYHILEFNFSGLNTDSKEELKFDFNSEVFEKLSSFINRYNLNIKLNNSIKEPSTLLRTFINQYKELNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNERASEKVYNSDMVLYFISEYNREKRKPKDVIDMNIASDYKKIQNLFKLGEVVGINNIDNEKEAIGNLLNEILMTDKTEIEELTRAFNLERKMEIDDVKTLLFYLGFLTIESKGFVMNLKIPNYSIKKIYSEYFLEMIKTRAKNYIDTGKIKIAIRKLLVDGNINSLASEIESVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMIFVGRELKHLDEVE;locus_tag=LOCUS_02460;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:39.5%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:1.2e-97],MGA_246
sequence1	MetaGeneAnnotator	CDS	258865	262077	.	+	0	ID=MGA_247;product=helicase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_204874017.1;translation=MNNNNDLTFFTNEKGKTLADRFRKILMNNTQFFDVLVGYFRTSGFYEMYEALEGVEKIRILVGLNVDKKTVELLEASKDIEYLSTNEIKKNFNKIVKKEMDNSEDKIDIEKGIKKFIEFIQDEKLEMRIYPDEPLHAKVYIIRKNEKKSEDFGKLITGSSNFSHSGLKGNLEFNVELKNKSDVEYALEKFEKLWEKGIDITKDYIETITKKTWIREDITPYELYLKFLYEYFYDEINDDKIKFKGEMLPEGFKKFQYQIDAVNQAKKILNKYNGVFLADVVGLGKTYIATLLAKELKGGRKLIICPPVLVSYWEKTLVDFGVSATVKSLGKLEDILENYENDYFKYVFIDEAHRFRNDGTSNYAKLHEICLNKKIILISATPQNNYSTDILNLIKLFQPKNNSNIIEGQPNIENFFMKMLNNEKKSKKLYKNNSTEENKNKFEKIIKKNSAEIRDKVLRKIMVRRVRSEIEKYYKEDMEKQGLTFPKIGTPEQIIYKFDDEIDKLFDGILYLINNLTYSRYKTLTYLLNPTEEEKTLISGQLNLKGFMKVLLIKRLESSFYAFSKSVLRFKESYINFIKMYNSGKIYISKKYDIYELLNDEEEEKIIELINDGQIKYYTPDNFNESFIKDLEKDLEILEEMNRNIKKINSDPKLDYFITELNNNNILKNSKKIIFTESKETAEYLKIQLQNKLNKNVIVFTGSSSLVLKDIIIENFDPNIPKNKQKNDIEILITTDVLAEGINLHRANILINYDLPWNPTRIMQRIGRINRVGTNFDKIHVFNFFPTRKSNEHISLKENIISKLQSFHNTFGEDSKFLTEDEEINSFEFSGEKLYEALNKNLSLDEENWDDSELEYLKIIRDIRDNNEELFLKIKNLPKKSRSSKCNNLGKENVVSFIRDGELKRIYICNSDFNGRELTFFEGVKILKCQKDEPKIKINDNFFDMLNWNKEYFKIKKEENIKKTPIKKIGNDAKFLKLIKGFENYKKTFSGKEEKRFYKIKELFENGYLSKEIIKNINNEIEKLLKKETNPHKLLDIVFEIIPDSYKNIEKTDVKNSTSKIEVILSEYIN;locus_tag=LOCUS_02470;note=WP_204874017.1 helicase-related protein (Pseudoflavonifractor phocaeensis) [pid:44.9%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:6.4e-260],MGA_247
sequence1	MetaGeneAnnotator	CDS	262089	265790	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQIKQKRNEIIKKLVSNRFNIEIFKQFTARVINTTVRNRTIQKEPKEYTEYIEYYQIVEDYEDKEGKKIYVIAVKTKDKLDNGNTIDPTKARTKQRNFVANLLKGNDKIPMHDAALVSFYNDVSNSWRLSFIKLDYSFTFEGIKEKLTPAKRYSYILGKNEATHTAEKQLNQLVKNNEEATLEQLENIFQIEKVTKEFFDKYKEKYLELKEHLEKDKEFVQEALKHTEKVEEFSEEFSKKLMGQLAFLYFLQKKGWLGVKAIHEKLNKEQFEDILKNKTPSEKELLNNLYKRINKNEYKSQKEVIENLDDNELDIIMNCFKNTPFEGKWGDGEKNFVRKLFEHHKRFTTNKNFFNDYLEYLFYEALNTYRGENQYYKKFNCKIPFLNGGLFEPYEGYDWKTTNFHIPDTIFSNEKEEGILDIFDRYNFTIAENEPYETEIAVDPEMLGKVFENLLDVKDRKFKGAFYTPREIVYYMCKESLINYLDNEIEEVEREKFEELLQIGEFVKEYDTHIFEMEYKNGKKVKDEEWGIHISIFKNIHKIDKALKNVKIADPAIGSGAFPLGMLIEIVKVRNVLTEYFIIHEYFRLKKDNKLDEFWNIKDKLLIERSLYNLKIETIKNSLFGVDIEPSAVEIAKLRLWLSIVVDSENNNINPLPNLDFNLMVGNSLLDEFEGINLFDEKLLNKEYKKKDKIINPKLFYTDFEEKQRDILSNIKALHKNFFIEKNSLKKKQIKESLNSLEWELIKFTLSESGNKDKIKELEKLQKEKRKPYFLWKLEFAEVFKEKGGFDIVIGNPPYIGERKNKKIFIPVQNSNFGKKYYIGKMDFWYFFTSLGLNILKNKGTLNFIAPNNWLTTFGGKKMRNHIMKDGIIKQFINFGDYMVFENAAQQTMIFLIEKDNKSKEYIVDYREVLDKNIEKNELNLFLGKNKNKKFKYYSSKISKNNFKKDDNIKLLDNKTYIIINKIKKNKNIYLKKNEIAQGIVVPQDFLNKKNANILNLKKGSGIFVLTNNELKNLNLSENEINTLIRPYYTTNEIKKYYTNNKNKFWIIYTKPNINNKINKFPNIKKHLDLFLSINTSDNKPYGLHRSRNENFFKGEKIISLRKCSKPTFSFNNFDCYISQSFFSIKTIRINLKYLTGILNSKLIEFWLRNMGKMQGNTYQIDKEPLMNIPIKVKNSNQKIFIKIVNQIIELKKQKKDTTELENKIDEMVYDLYELTEEEKEIVRNFNN;locus_tag=LOCUS_02480;note=WP_010891828.1 class I SAM-dependent DNA methyltransferase (Campylobacter jejuni) [pid:26.2%25%2C q_cov:59.4%25%2C s_cov:63.1%25%2C Eval:2.5e-45%2C partial hit],MGA_248
sequence1	Barrnap:0.8	rRNA	266132	269038	.	-	.	ID=Barrnap_1;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00010;note=Barrnap_1
sequence1	Aragorn:1.2.38	tRNA	269081	269157	.	-	.	ID=Aragorn_4;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence1	Barrnap:0.8	rRNA	269198	270720	.	-	.	ID=Barrnap_2;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00020;note=Barrnap_2
sequence1	MetaGeneAnnotator	CDS	271050	272486	.	-	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIWNRKFYRNIILKNIINEKNIYFSYFWPISTLIMIFFIFLNLNMNIKIETTSSLLKYSLIIIVAYFIIFNKIIQNLIKDIRKKNIEKFYKLGFTKKFMWKIFYMEFFIINIITILWGIMEGIIFLKLFFSITKSILFLQNNMKLEIKTFIITFFIFLISINSIFLLKIKMKKIKDYKFFLFSIFLVIFISLFLFSYAYKNFKVASINFEGYLKAVLNDKKVFSKEKFKDLSVIIDKKFILISEEDYPKISDLYYFKKNSYLKIKNKVYEVKKIIELEDKFLRDVYVIKKDSFQFLKNNFKIQKYKIVNNYPIKIEDWIKVININNNLNSYITNDVILKRLLFLYQKRKNIFLYDVFIILLTGFIVFISSMFQIYFYSIREMKKNEKIIINMYKLGISKNKQLKNMLKRLKIRFFLPSFFGYIVQFLIFIVLEYNFFVFNNNSIINSFFYESFILIVITIIELIFYYNIKLKYKKIQN;locus_tag=LOCUS_02490;note=WP_010964827.1 ABC transporter permease (Clostridium) [pid:29.1%25%2C q_cov:27.4%25%2C s_cov:21.6%25%2C Eval:1.1e-08%2C partial hit],MGA_251
sequence1	MetaGeneAnnotator	CDS	272461	273216	.	-	0	ID=MGA_252;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963695.1;translation=MKKIKIKNLYKVYGAHKNFEGTRALNGINLEIESGQVVAIMGPSGCGKTTLFSMISGIDTPTSGEVWVKDKNIFKMNSEERATYRRNNIGLIFQEDMLIDYFTIYENISLLRNDTNEIKKLSEYFGINKFLNKYPKELSFGERQKVAACRAFINNQDLILADEPTGNLDSNSSKKFIEYVLKLNNIRNDTFLMATHDPFVASYCNRVVFLNDGKIIMDIYKKESRRHFLDRIFDCLVILEGEINDMEQEIL;locus_tag=LOCUS_02500;note=WP_010963695.1 ABC transporter ATP-binding protein (Clostridium) [pid:44.5%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:5.3e-60],MGA_252
sequence1	MetaGeneAnnotator	CDS	273203	274216	.	-	0	ID=MGA_253;product=sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963694.1;translation=MKLKIISNYFLDRKYFIILYYFSTILISIYFSAETKKIDIVYPLIMSSYILVIFFLIDFIRYYIFNLHMLRTSKNRYYKIKSYTKEQKNILDTIELVNISAFGEISKIKTENEQKNFFISQWIHNLKTPVSVIDLILQENEEYEFINEIKEENERIKNLLNHLLNIMRLNEFTRDFDPQKYNFYDEIIDIVKEKSAQFIHNEVYPEINGNNKINIIVDKKWNRFLIEQVINNAIKYSDKNKKSKKVIFRLKEKEDIILEIEDNGIGIPEYDINRVFEPFFTGENGKDFLNSSGIGLYTCKLISEKIGAKINIESKLGKGTKIIISYKKEVGFKNEKD;locus_tag=LOCUS_02510;note=WP_010963694.1 sensor histidine kinase (Clostridium) [pid:38.9%25%2C q_cov:97.9%25%2C s_cov:100.0%25%2C Eval:2.8e-68],MGA_253
sequence1	MetaGeneAnnotator	CDS	274213	274902	.	-	0	ID=MGA_254;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963693.1;translation=MKKLYLIEDDKKLATHLSVYLRKNRYEVYTVFDFRKIEEEFKKINPDLVIMDVNLPYNDGFYLCRNIRKVSKVPIIFLTARIDPKEQVLGMELGGDDYIIKPFNYQVLIAKINAIFRRYSSFDEVTLKYKKFKLSADKMLLYFEDKKINLSKTEFQILWKLFEKQEETVNRDEILESIWKNGDFVDENTLNVNLTRLRNKLKTFGIKNFIKTIRKKGYTLNSNYEEEEK;locus_tag=LOCUS_02520;note=WP_010963693.1 response regulator transcription factor (Clostridium) [pid:45.8%25%2C q_cov:96.5%25%2C s_cov:98.7%25%2C Eval:3.4e-55],MGA_254
sequence1	MetaGeneAnnotator	CDS	274977	275111	.	-	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPLTMYINEDIMIRLNYLVDVLGYEPEFVAKNYLKGLGLIKIK;locus_tag=LOCUS_02530;note=MGA_255
sequence1	MetaGeneAnnotator	CDS	275306	276649	.	-	0	ID=MGA_256;product=NADH oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002361833.1;translation=MKTIIIGCTHAGTAAALNAKKLYPDIDITVYEKNDNISFLSCGIALYIEGVVKDRNGLFYSSPKQLKEMGINAKMKHEVIDVDVNNHKIKVKDLETNKVFEDYYDKLIVTTGSWPIVPNIKGIKMENILLSKNFQHSNVIIEKAKIAQNIVVIGAGYIGVELVEAFERMGKKVTLIDMQDRILSKYLDKEITDIAENKLLENKINLALNEKVQEFIGENNKVNKVITDKNEYKTDLVILCIGFKPSTKLFENKLNMTDDGAIIVDEYMKTSNKDILAAGDSCAVKYNPTNTHKYIPLATNAVRMGTLVAMNLYENKIKYMGTQGTSGIKIYNHNIASTGLTEVLAKENNINFDTVIINENNRPEFMPTYYKLTLKLVYEKESHRILGAQIISDADLTQSINTLSICIQKHMTIEELAFVDFFFQPHYNKPWNFLNTAALKVLEKEFK;locus_tag=LOCUS_02540;EC_number=7.1.1.2;note=WP_002361833.1 NADH oxidase (Enterococcus) [pid:54.3%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:5.7e-142],MGA_256
sequence1	MetaGeneAnnotator	CDS	276892	277974	.	+	0	ID=MGA_257;product=MoxR family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080632.1;translation=MIPSEIKYLSKKIMESNEIPLLWGHFGVGKTDIAKEIAKETGRDLIILVISQMEPGDLIGMPSKSTNKTIFLKPDWWPENPNTIIMIDEINRAHRSIRNAIMQLLVDRRIHNHVLPKDTWIMAAANPPDEEYDQVDLITDPAFMSRFFHLTLNANVNDWTKWAKEEKVKDEVIDFINNYPEYMTPDHIVSMKLDLRPSPRSWFKFSNVLKNLSENDIKKYGYSLGASILGADATNAFFNHLNNKKTLPTAQELLIEGKFFERLNDLNTEEKVSLILRINNYIEKLEENEMIQIIDNSEHKIIAKNIKSISKYIPKDSIFSVLRNLDNLIEKSTGVKKAFYDKLLEELSISLSEEKWLEEL;locus_tag=LOCUS_02550;note=WP_004080632.1 MoxR family ATPase (Thermotoga maritima) [pid:53.0%25%2C q_cov:93.9%25%2C s_cov:93.7%25%2C Eval:7.4e-102],MGA_257
sequence1	MetaGeneAnnotator	CDS	277971	279140	.	+	0	ID=MGA_258;product=VWA-like domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080633.1;translation=MKDIVEKAWIELAKESVFFSYIRMHFENIPTENIRTTKLSITSSGNFRLLYNPRRLKSYGIRFTKALIKHEIYHIIFGHIFIKPKKREKGIWGLAMDASINQYIKELDSLSEPLDVFLLEGHGTDNETLFVTAPINMLNKTAEEYFTYAMDIIEKSNFIDMEEVNDSSPDSHEFESELPEEITFDIISEVVTQAYDKSAGNEPNGIELAISIMAKKNKFDWKTLIRRFFGSSVIVDKYRTQMRPNRRYDDQPGWRTERGPKIAVIVDTSGSIIEEEFNDFFSEIEDIARVSGGKISLIQADENVQSVLQYSKGKWRDTVLKGKGSTDLQPAVDYVEENLRPEGIIVFTDGWVEVPNINRRCFFVLSKKHNPEFFSQVIDIYGNKKIVTL;locus_tag=LOCUS_02560;note=WP_004080633.1 VWA-like domain-containing protein (Thermotoga maritima) [pid:43.8%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:3.3e-95],MGA_258
sequence1	MetaGeneAnnotator	CDS	279151	280716	.	+	0	ID=MGA_259;product=NFACT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083167.1;translation=MPIDGLVIHKLINEINTETTGMTIKNIYQPVNHQLLIKLNKKNILFSLRNPAYIVLLNEKPDVPDSPQNFSLLLRKKIKGGKIVNVKQMGLDRIGYIEIKNRNELGDLKIFKLYFELMGKSNLILVNDENKIIDALKKSTDSMRSILPGAKYIPYYDDSKALIFDDINLLDFPFMGFSKKSEEILRKIGIEKARNQIKNNTVYYFKDLEKPDVSSITPENYIYEELSPSEGILKLFEERTKKSKIIETKKKLEKIVIKNIEKNERTKNNLLKDISKEEKLPEMIKKGELLQSYLYTAKRGDKFIEVTDWESGKKVKIELNPLKNPTTNLEKYFKKIKKTKTMVEFSKNRIKKFIKELEYLYQLWETIDSSEDIETLEEIHEEMFLVGLIKSKKKRKIKKVKNSYRHFEYMNFEIYVGKNNKQNDELTKNAYKEDIWLHTQGIPGSHTIIKSAGKEVPLKVIEYAASLAATFSRAKLSSNVAVDYTQRKNVWKPGGAKPGMVLYKNYKTIITNPILKLIKNI;locus_tag=LOCUS_02570;note=WP_004083167.1 NFACT family protein (Thermotoga maritima) [pid:34.5%25%2C q_cov:98.5%25%2C s_cov:99.1%25%2C Eval:1.2e-77],MGA_259
sequence1	MetaGeneAnnotator	CDS	280804	281475	.	+	0	ID=MGA_260;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081034.1;translation=MIVTENLKKIYNTGDLEVDALNGINLKIEEGKIVSILGPSGSGKSTLLNCLSGIDRPTEGKIKVAGIEITELKDNELTSFRSKNMGFIFQSYNLIPVLNSVENVELPLLINGENEKTSRKKALEMLQQVGLSKRSKSFPSMLSGGESQRVAIARALVTTPKIVWADEPTGALDTKTSMEIMNLIVKLNKENAQTFVIVTHDIRITEYSSKIFEMDSGKIISER;locus_tag=LOCUS_02580;note=WP_004081034.1 ABC transporter ATP-binding protein (Thermotoga) [pid:55.3%25%2C q_cov:98.2%25%2C s_cov:96.0%25%2C Eval:4.6e-62],MGA_260
sequence1	MetaGeneAnnotator	CDS	281611	284346	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLGSMIGMAFIIGALGINDSFNNYVYENIEKYFGEVDEVLFSGTGIKEKSIKPFLEELKEKKLIDGVIPIYQTTYPISKKGNLKSLKLSEIKQVGFVGMDYSKLKNFGSTKINIPDEFLDLKDNEAIITKDLSKTLNIKVGDSIEVIQGKDTLSFLFPKTYKVKKIVDLKGILNYRGRHAEGVNGSVFLTLNSARQGKKFPTGTYTDFLISNTGGIIEGNSHTKEIKKIYNKYKNLPSITYSKDNQIQKLSGGEIAAIFIFFSGFAIISGGILIINMYSMMVDERKRELGILRAIGVQKTGIRNIIFYESILYTLFSVPIGIFTGIFLSKFTFSNIAEVSSSIASSNIVQSIPTFNSYHITLNSIYIGVLLGIIIPISITYFYTLIISKLNVVEAIKNIKNIREKNSLFNYILFFILSIAFLFININYVRYTSISFLILLFPYILKKKNNLLKSITPLITLLLPFLFKSDEILMLSSKSILILISIILLTINNFIIFEKIFLSIKIKKMIPILKIALTYPMREKKKTGLIVSLYGIVIFVIVVVTILPYLQTQKLALEKDSLFAGFDGVVVEMPGGFIPIKLNSKELNSLDSIKTAGEFYMLTAGKNNIEIPLIFGSNEFFSFNKLKIKDKIPELSNKTDREIWNFIYNNTGFAIVPQNYIDGMNDIKLELGKTYSFNLNKITFIPGSKPESQSTGKGAVSFKIAAIISNVSDTLAIGPLLSVKNLNIQNFKNDGIHGYYFALSNNKNAKKDLTKYLKQKNQFFIFVDDIIDIGLKVTSGIVKIINSFLYFGLIVGILSISITTIKSVEERKRIIGMMKAIGYTNNMIFGVFFIESTFVILTGIIIGIVSGIITSYQIYKVFFSNLSFKLPMKSLLLMGLIFYIISIIFTFFPARKASKISPAESMKVMD;locus_tag=LOCUS_02590;note=WP_015443885.1 ABC transporter permease (Legionella pneumophila) [pid:30.4%25%2C q_cov:12.6%25%2C s_cov:28.5%25%2C Eval:2.0e-09%2C partial hit],MGA_261
sequence1	MetaGeneAnnotator	CDS	284357	285829	.	+	0	ID=MGA_262;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081289.1;translation=MAYLLTLISGILTGLAMPGNLFSFFIWGSVVFYLKNMSESTKTYQRLLHTIIYSNSLLATTLWWQMPVLTKNIPEVLNHYPPIFGFLGFIGEIFLLSLPYLLIWILSELYHRKYRKVNYISLMFFYAFSYTAAEALREMGDLAVTGGSLGYALYNHIGLLQIASIFGYLGLTFIIILVNSAIAFDDSRDKIIKGILIFSAIYAINFSIERFIPITENSKTFKITAIQTNVPQEIKYNANTWKSYTLFSDLLQRAKDEKSSLIILPESTFMEDIQDTNVSEALKINIKTIKKPVLMGYPKKTETDYYNTAWLYDKEGQIKETYDKIKLTPFAEFLPYEAIFNKFKIFKLFVFYTPGSEFKTFNVNNTKFGVQICFETYFPEVSIQETKKGAEFLTAITNDGWFNTQTALIQHFTQSIFRAVETRRDFLQVSNTGITAMVDKYGRIKKVYSEHKEVIDTVSVNLNKKTSIYSNISGVFKALLFIGALILSIV;locus_tag=LOCUS_02600;gene=lnt;note=WP_004081289.1 apolipoprotein N-acyltransferase (Thermotoga maritima) [pid:35.1%25%2C q_cov:98.2%25%2C s_cov:94.9%25%2C Eval:3.4e-74],MGA_262
sequence1	MetaGeneAnnotator	CDS	285865	286938	.	-	0	ID=MGA_263;product=glutamate 5-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083012.1;translation=MKKTNIKRIVIKVGSNLLIKDGEINKTYIIELSRKISNLYKRGIKVILISSGANAAGLNYLNLSRAKTLLQKQAICSIGQVQMMKIYENAFNFFGQKISQILLTKDDFTNRKRFLNLKNTLIGLNQLNILPIINENDSISTEEIMFGDNDMLSAMFSIGWNADGLMLMTSVDGVYNDEKKIMKEFKDESSILSMKKTSYGSGGINSKIDSAKLSSNSGIKTCICNGKKLENIDYFINNESCGTMFFPKKKIKNRKAWIIFLSKSKGRVFINSGAKEALEENKSLLSIGVIKVYGSFEKGDVVDIYDENEDKIGKGIINYSYIETVKIIGKKSSEFEKILGYYSYDELIHRDNIGIVK;locus_tag=LOCUS_02610;gene=proB;EC_number=2.7.2.11;note=WP_004083012.1 glutamate 5-kinase (Thermotoga) [pid:49.3%25%2C q_cov:97.5%25%2C s_cov:99.4%25%2C Eval:9.0e-100],MGA_263
sequence1	MetaGeneAnnotator	CDS	286940	288184	.	-	0	ID=MGA_264;product=glutamate-5-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083010.1;translation=MEELLEKVEKLKKAFEILKLKNANEKNEAILRIAEALKKNEKYILKENDKDVQIAIKKGIKSSLIDRLKLNSKRINGMIKACKEIIELKDPIGEIYDSFLRKDGIRISKVRIPIGLIGIIYESRPNVTLEASILAIKSGNTLLLRGGSDAINSNLAIVKAIKEGLKNSLIPTDSVQIIEDTNRSIVNEMLTLNKYIDLIIPRGGKDLIDFVIETSKIPVLETGTGICHIFVDESANIEKSIEIIDNAKTQRPGTCNTVETVLIHKNIAKKILPKLKDKLLEKNVLIRGCNEVKKIIEVESATDKDWTTEYLDLIISIKVVENINEAISHIKKYSTSHSESILTENYLNGMKFVNEIDSAAVYINASTRFTDGGEFEMGAEMGISTQKLHARGPVGLKELTTYKYIIFGNYDSRR;locus_tag=LOCUS_02620;EC_number=1.2.1.41;note=WP_004083010.1 glutamate-5-semialdehyde dehydrogenase (Thermotoga maritima) [pid:59.7%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.4e-142],MGA_264
sequence1	MetaGeneAnnotator	CDS	288197	288970	.	-	0	ID=MGA_265;product=pyrroline-5-carboxylate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476242.1;translation=MNIGIIGVGTIGGMLLEKLRADSFYVVNRTKEKLEKYKGMNNLNICDTVKEVYNKSDIIFLAVKPQNIDEVLYEIRKTQIFNKIIISTVAGKDLKEIQEKTGKDGIIRIMPTILSKTGNGVTSVTFNDTINNKLKEKIINLLSSLGKIVEITEANLNAFTILSSSSPAFISLIVESFIDGAVNIGIKPKVAKEIFFETLKGTIKLLEEEKIEFSALRQMVSSPGGVTIQGLYSMEKRGIKGTIMEGIYESYQKMNNM;locus_tag=LOCUS_02630;gene=proC;EC_number=1.5.1.2;note=WP_011476242.1 pyrroline-5-carboxylate reductase (Ligilactobacillus salivarius) [pid:30.2%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:7.0e-31],MGA_265
sequence1	MetaGeneAnnotator	CDS	289281	291419	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLTILILFFSIISFSIKIGYYENYPLCFNDNGKPSGIFVEIIDYIGKGNNIKINWIYDTFPNLLKKIKNNEIDIITSVSILNERKEFLNYPEQYITNEWSELISYKNIFKISDLNNKKIGVLKNDVCYIGNKGLKNIKDSFNIKMEFIEFTIFDNLLKALKDKKIDVGLIPQSIYKKNNFLNISPILMFPVNLTIASSKKDEHKNFLSLFDKTIKKLKKDKTSMYYITLQKYRNIFVKSNKIPTYLIFIFIFFIAVFLLIIFHFYKLKNTREFLKLKTIIDQIPLGILLHDKKNIYYQNKLFYNISKEKLDSLDTLLKKLNLNEEFKEKLFNTSNKNNELFQKINGIYYKIITIHLYSKNKDLSFTLFENLNELVKTEKKIMNKVDIDILEKVFDLMNSENYDYEIFIENLFKSILKKNIADFFGLGILDDQKLNLNIGMPDGRINKIKLIREEKTVSWFVLNKNTKLYIPNNLEWHEDDYSIKVADKSLVGKPSTLYICPIELKNTRGIVIFGKIGIDKYSEEDLHLLNILLKQISFAVNYRTLSKKFYEEKEHYKKMALFDTLTNLYTRYFFNGWILNHYEKLKRNNQTSTVVMIDVDNFKFINDKYGHIVGDEVLKSIAKVILNNIRSSDLASRFGGDEFIIVFDNFDFKQTKERMNLIQTKLSKLNFDFKITISCGISVITNEKDWLETLKEADKKMYKMKNSKK;locus_tag=LOCUS_02640;note=WP_004080592.1 GGDEF domain-containing protein (Thermotoga) [pid:35.8%25%2C q_cov:26.5%25%2C s_cov:49.0%25%2C Eval:8.2e-27%2C partial hit],MGA_266
sequence1	MetaGeneAnnotator	CDS	291453	293897	.	-	0	ID=MGA_267;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583762.1;translation=MIFFDKNKRIIKKYQKIANKINDIEKEFEKLSDEQLKNKTIEFKERLDKGETLDDLLVEGFATVREASKRVLGMRHFDVQLIGGIALHEGNVAEMKTGEGKTLVATLPVYLNALTGGNVHLATHNDYLAQRDAKWMGPVYEFLGMSVGFIYSGMDSEERKNAYKCNITYGTANEFGFDYLRDNLVYEIENKSQRGHYFAIVDEADSILIDEARTPLIISGPSDTPSHLYKKFSTMINKFELEKDYTMEEKHKTVSLTEEGIAKAEKLIGVENLYDPKNIKYLYHIMNALKAKLFFIRDKDYIVQDGEVVIVDDFTGRLLPGRRYSEGLHQSIEAKENVKIKEESVTYATVTFQNYFRMYDKLAGMTGTAKTEEDEFRTIYNCEVIVIPTNKPVIRKDKNDLIYKTKKEKYAEAVKVIEERHKLGQPLLVGTASIESSEYLSSLLKKKGITHEVLNAKPENQVREAEIVAKAGELNSVTIATNMAGRGTDIKLGEGVKEVGGLFVLGTERHESRRIDNQLIGRSGRQGDPGESRFFLSFEDDILRLFGGEKLKGIMNTLKIEEGVPIEHGLLTKIIRDSQKKIEGINFSIRKRLYELDSAMDSQRISIYGHRDWILKQGNYDEHLKEIFEDVVDRLVEASWNEREEKIDVKYLKTKLEAYMIELRKEFETVEDAKNEIQDLLWEKYNSKKEEFGEEFTQISKYIMLRIIDERWRNHLDSIEALKDAVGLRAYGQKNPVLEFKRESYHMFEHLVDEIYDDTVAYLMRIVKIDPQKEAEMARKEASKLNFNHSDVSVLGKESENKKIKKHKRIKVKK;locus_tag=LOCUS_02650;gene=secA;note=WP_012583762.1 preprotein translocase subunit SecA (Dictyoglomus turgidum) [pid:55.7%25%2C q_cov:93.7%25%2C s_cov:97.1%25%2C Eval:7.1e-240],MGA_267
sequence1	MetaGeneAnnotator	CDS	293907	295109	.	-	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKISLVFLIISVVIGYSNENYIKIKSLRGFYDEVINKVPLFRYINSKEGMGMEYTLEVLSKSITSNSTDLNIFLNSPVEFFTNKSMNYEYLLNPNYIHFLNDLLKTSSSIYIGNTKINVLKDVFNIFNIKNLKISKDSSEMWIGDQKPVSNSKYIVSGKINNFLNEKKDWYFVGNEYDKSFSATFTTLEKNFESKTTFDIDILKDKKIFGEVLDIFLLQKNKFLNYIREFFVPMDEDSSKALEELTESIDSKEFLTITSRNISNLNDITLFIQANLNKNKLSIIANKRRMKSGKIGTYYYYEFTYSKAGTQIYVYYNDEDFLISTIKPSRMKIYFGESPRFKLLNSYKALKNRKNLERVLMIDLVNYIEKNFYGSINSFVNVSFFKKEKNYIVNVTIK;locus_tag=LOCUS_02660;note=MGA_268
sequence1	MetaGeneAnnotator	CDS	295106	295747	.	-	0	ID=MGA_269;product=TlyA family rRNA (cytidine-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081998.1;translation=MTEKDIIKITGTLNYVGRGALKLLEAIKKFNINIEKKICMDIGASTGGFTQVLLENKAKKVYAVDVGTMQLHNKIRNNKNVVIMENTNARNLILNEKVDIITCDVSFISIKKMIDTFNNNLKKNGKIIALIKPQFEVGRENIIKGIAKDKNIHVKMINEIIEYFSKNNIFASKLIKSPIKGGSGNTEYLILFTKTKSSNDKLKIKKVVFGEKK;locus_tag=LOCUS_02670;note=WP_004081998.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Thermotoga) [pid:45.7%25%2C q_cov:93.4%25%2C s_cov:77.5%25%2C Eval:1.7e-42],MGA_269
sequence1	MetaGeneAnnotator	CDS	295891	296892	.	-	0	ID=MGA_270;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080334.1;translation=MSREYIIPIFIPHAGCKKRCVFCNEYSATGIKKYPDLNELEKEFNRYSSYFKEKNNVYIAFYGSTFTGIKDELMKFYLNWAQKKINDGLVSGIRFSTSPEEINDKKFEILKDFDISVIEVGVQSFFEDVLKSANRPHDLNDVYNAINVLDKYNVKYGLHLMTGLLNSSYEKDIKSAEIASKTKADFFRIHPSVILKNSTLEIMYKKNTYIPESIDRAVEKVAKMTVILEREGKKVIRMGLCLYGDEINNVVAGPYHQSFGDLVRSHIAKLILTKIKFNELSIPMAYKSNFIGYKKSNKKYLINNISFNDEEKFYLDKKEFDYIELLRKINFDS;locus_tag=LOCUS_02680;note=WP_004080334.1 radical SAM protein (Thermotoga maritima) [pid:36.7%25%2C q_cov:84.4%25%2C s_cov:86.8%25%2C Eval:1.1e-48],MGA_270
sequence1	MetaGeneAnnotator	CDS	296894	298090	.	-	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKVVKEILVLLFVIISLVSFPNNFSISIVDYDEEKQLVNINLSCKFIPVEKPSVIVFYGDFQKHVDLLKRTNKKYNFFISLKDKPETFFSIFIKGMDVIGNKKIDTFMNFFNTSDFIPKIKFLVVSTIEENGINYHISYEANAKLSYYSFDFDEKNVSSIEELKDEFFKSNEGFHKIHIEFKNRFGFISSIDTKVLKIKNYVFSEKILKPMAKEKKVGFHIVKKGESIYKIADEYKINPGEIVKLNNIKDPSKIYVGQPLIIGRVKYFESPIQLKINMAKNLMKMYYGSTLLKVYPVAVGRSDSTPPGYYKIMYQEKEPALYWYGEYIKPGSIINGIGSRWLQLSEKQYGIHGTTKPWEIGKRISHGCIRMLNKDVEEVEFLCDLGTEVYVEKGEE;locus_tag=LOCUS_02690;note=WP_004082202.1 L%2CD-transpeptidase family protein (Thermotoga) [pid:46.0%25%2C q_cov:57.5%25%2C s_cov:60.5%25%2C Eval:1.5e-58%2C partial hit],MGA_271
sequence1	MetaGeneAnnotator	CDS	298017	299228	.	-	0	ID=MGA_272;product=bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082203.1;translation=MNYPYLKNKNVLLGVSSGIALYKAVDLASKLRKLDVGLNIILTPNAEKLIDKTVFSAVGDCNVYTSIKNDVNGGWIPHTSLSADADVFVVAPATTNTIAKLNAGFADNLLTATASAFDKEEKIIVATMNTRMFENKANLRNLKGLEEMGWKIMFPDEGHLACGEVGKGRYPDNENILEFIDGVLAPKDYEGKKVVITAGPTIEPIDPVRSITNRSSGKMGYELARELAARGAEVYLISGPTKLKPPFLVKKFFSVESVDEMFKLTLKFFKEADIAIMAAAVSDYKVKNYSNKKIKKSSENLIIELEKNPDILKELGKIKNNTQITVGFAAETNDVIEYANKKLINKNADIIVSNDVSRKDIGFDSNQNEVVLISKDGEKHVEKSSKRDISVAICNYISSKFSK;locus_tag=LOCUS_02700;gene=coaBC;EC_number=4.1.1.36%3B 6.3.2.5;note=WP_004082203.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Thermotoga maritima) [pid:51.3%25%2C q_cov:96.5%25%2C s_cov:97.7%25%2C Eval:1.6e-100],MGA_272
sequence1	MetaGeneAnnotator	CDS	299264	300640	.	-	0	ID=MGA_273;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082426.1;translation=MTRVRFAPSPTGYLHVGGVRTALFNWYYSKKNNGKFILRIEDTDIERSKKEYEDIILNDFKWCGIDYDEGPDKGGEYGPYRQSERFDIYKKYINKLIDEKKAYYAIYSKEDNTQIIKKSYEYPKEYYNKGYSITVNFKVEKNKKIIFDDLIKGKMIFDSNTYNDFVIFRSNGVPMYNFTVVVDDYLMNITHIFRGEDHLSNTPKQIMLYEALNFEKPKFAHIPLIIGEDKSPLSKRHGGTSVAYFKEEGYLPSALINYLAVLGWSTEEQVFDFKDKIDEFDITKVSNKAVVFDYKKLMWINSEHLRNKPLDEIFTHYMNWCSINNIKINASDNYIKEVIDISRQKVSTLKQLHEFSKNFYDEEFNYEEKYLKYTKKDWFKLLISEAIKKLESSEYDIEKIENTMQSLADLKITGKKNTYQSVRGALLGALVTPGLYESIVVLGKRRVIKRLKKILENV;locus_tag=LOCUS_02710;gene=gltX;EC_number=6.1.1.17;note=WP_004082426.1 glutamate--tRNA ligase (Thermotoga) [pid:50.0%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:6.1e-139],MGA_273
sequence1	MetaGeneAnnotator	CDS	300633	301160	.	-	0	ID=MGA_274;product=TIGR00725 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080450.1;translation=MNVGVIGYSGNKELEPVKSLKKICIEVGKVIAKNNWIMYNGGRDGIMDLVSEGAKKNGGKVIGVMPWEENGNEYLDLEIKTGLDFSMRSFVLLKSVDAVVSIGGEIGTALELVGAYAYKKPLILLKGTGGWTEIAEKILIDGKYLDNRKMIEVKVAKDLNEMEALLKEIEGELSD;locus_tag=LOCUS_02720;note=WP_004080450.1 TIGR00725 family protein (Thermotoga) [pid:55.1%25%2C q_cov:95.4%25%2C s_cov:97.7%25%2C Eval:2.0e-52],MGA_274
sequence1	MetaGeneAnnotator	CDS	301166	301873	.	-	0	ID=MGA_275;product=LPS export ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164927114.1;translation=MDSIVKCEKIFKRYGKKEVLKNVDFVATSGKVTGLLGPNGAGKTTLFKSILGLVVPNNGQVYLDGEKITHLPIHRRALKGMAYLPQEPSVFRNATVRDNLYMISDLLKIKDKEKKIKNISKEFGIESLLHQLSDSLSGGEKRRLEIARTLLIDPKVILLDEPFVGIDPITVKDIQSIIAKLAKSGISVIITDHNVDELAEVVDDLYVMHKGNVIAHGKPSEVLELKEVKENYLGW;locus_tag=LOCUS_02730;gene=lptB;EC_number=7.5.2.5;note=WP_164927114.1 LPS export ABC transporter ATP-binding protein (Chlorobaculum tepidum) [pid:46.6%25%2C q_cov:99.6%25%2C s_cov:96.7%25%2C Eval:4.9e-57],MGA_275
sequence1	MetaGeneAnnotator	CDS	301874	302371	.	-	0	ID=MGA_276;product=OmpH family outer membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080454.1;translation=MKKIVLMSMVLLMGVVMSFSNELKIGFVNLEKVTKSYYKWTDLQDKYKNDMAYYQNKIEKMKEELQTMEKNGASKEDLQKKYQEVQVKVNGYNTAIQKEYTTKSNGLISELKTFIQKYAQDNNYDLILFESSVIFASEKVDITDTILKMVNEEVNTEKNTTENKK;locus_tag=LOCUS_02740;note=WP_004080454.1 OmpH family outer membrane protein (Thermotoga) [pid:36.8%25%2C q_cov:89.1%25%2C s_cov:96.2%25%2C Eval:6.3e-26],MGA_276
sequence1	MetaGeneAnnotator	CDS	302565	303269	.	+	0	ID=MGA_277;product=DUF4912 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081709.1;translation=MILDENILKILDLEEPSIQELRHISKKLNIKLRRSMKKKTIIKEIQKELRKLEQEGLIHTNKNKNILDFATNTYYDKDSLKNMYVNASLIYVYWSFSKETINVLKNKKEKNFFLRIFENDPLENLIRILETPVDIFKTKKLYINVKPNSTYYSEIGYKEKTTTFVSILTSNKINTPKNYPSHNKDELWLDLKTKNIKTIKSKEYDLIIEKINPIYSINNNAASSSFLWTGYDNI;locus_tag=LOCUS_02750;note=WP_004081709.1 DUF4912 domain-containing protein (Thermotoga) [pid:32.4%25%2C q_cov:86.8%25%2C s_cov:85.3%25%2C Eval:1.4e-19],MGA_277
sequence1	MetaGeneAnnotator	CDS	303266	304867	.	+	0	ID=MGA_278;product=glycoside hydrolase family 57 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965710.1;translation=MKGKFLLVLHAHLPYIRHPNFDDFMEEHWLFEAINETYIPLLKVFDSLDKKNIDFKLTLSITPPLMEMLVSKNLNKKFLNYMHNLIDLSKKEIEKTKTEDPRKHKMAKYYNKLFNENLKLYLDKFNQNILQGFKEFQEKGYIEMVTCNGTHGFLPTMIEYPAAIRAQIKTGINTYKKYFNEAPNGIWLAECGYFKGLDKYLSEENLKYFFVDSHAFWYSEIPARYNVYRPIITPNNIFAFARDPESSEQIWSADIGYPGDSRYRDFYRDIGFDREYSYIKPYIDKSGIRSNTGIKYYKITDKTLNSNEKDYYDIDESMQAVVQHAKDFVNKKTIQIENMQNFEEEPIIVAPFDAELFGHWWYEGPMFLEKLFEEISKSNLLSTSIPTEIIKSSKKIQILEPAPSTWGKNGYNEVWINDSNDWIYPYLNEMIEKMIKYAKSKSNISKIEERTLNQMARELLLAQSSDWAFIMSTNTTVEYAKNRFQTHVKRFFELEEMIKNKTINEETLSKYEWLDKIFKNMDFRIYRNNEFAI;locus_tag=LOCUS_02760;note=WP_010965710.1 glycoside hydrolase family 57 protein (Clostridium) [pid:44.7%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.2e-136],MGA_278
sequence1	MetaGeneAnnotator	CDS	304883	305458	.	+	0	ID=MGA_279;product=pyruvate synthase subunit PorC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082456.1;translation=MPEKYFEVRWHGRAGQGAKSASQFLAEAVVEAGKFATSFPEYGAERAGAPMKAFNRIAEVPIRLRNNVQHPDVVLVVDDTLLGNPEITDGLKEEKILVVNTVKTPEEVKKITGFNGKIATIEATNIALEEIGRGIPNTVMIGALVKLTDIVPLDVVKTKINHAFAKKFSKEIVDANMRAVDRGHQEVKING;locus_tag=LOCUS_02770;gene=porC;EC_number=1.2.7.1;note=WP_004082456.1 pyruvate synthase subunit PorC (Thermotoga) [pid:61.8%25%2C q_cov:97.4%25%2C s_cov:96.4%25%2C Eval:4.9e-61],MGA_279
sequence1	MetaGeneAnnotator	CDS	305451	305765	.	+	0	ID=MGA_280;product=pyruvate synthase subunit PorD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082458.1;translation=MADLKNWKEVPIGGVVDKPASAREYHTGTWRVMRPVVNKDKCINCMQCWLYCPDMAIGGKTSTETKNGMEMTGFDLNYCKGCGTCAAICPVKAIEMKPETEFEK;locus_tag=LOCUS_02780;gene=porD;EC_number=1.2.7.1;note=WP_004082458.1 pyruvate synthase subunit PorD (Thermotoga) [pid:63.6%25%2C q_cov:95.2%25%2C s_cov:92.9%25%2C Eval:1.2e-35],MGA_280
sequence1	MetaGeneAnnotator	CDS	305780	306949	.	+	0	ID=MGA_281;product=pyruvate synthase subunit PorA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082460.1;translation=MPVRLETTGAAAVAHAMRQINPDVVAAYPITPQTPIVQYYADFVADGVVDTMTIPVESEHSAMSATVGSAAAGARTMTATAANGLALMAEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMLVRDSGWLQLFCENHQEAYDMTLIACKIAEKEEVLLPTMVNLDGFITSHGADSFEMLDDDVAKKFVGEWEPKYPLVNVAKPVTHGSLDLFDYYYEHHRQQEEAMQNAYKLLPEVFAEFEKISGRKYDYLDLYKVEDAEYVMVVLNSTASTAKYVVDELREKGIKAGLIKPWVFTPFPKKQFQQALNGKKAVVVLDRAMSFGKEAPLYSLVKSSLYEVAVRPTMGSYVYGLGGRDVTPEMIHEAFEAAISGNLITDEQRYLGLRD;locus_tag=LOCUS_02790;gene=porA;EC_number=1.2.7.1;note=WP_004082460.1 pyruvate synthase subunit PorA (Thermotoga) [pid:70.2%25%2C q_cov:99.2%25%2C s_cov:98.5%25%2C Eval:1.7e-155],MGA_281
sequence1	MetaGeneAnnotator	CDS	306965	307942	.	+	0	ID=MGA_282;product=thiamine pyrophosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082462.1;translation=MPLNVKQLVEYVEKNDWPFTQGHRLCPGCNAPMVAKWATLTAKALGYEPVVGAATGCLEVSSTIYPYTAWNVPYIHNAFENVAATISGAQTAYESLKHRGKIKSEKPLKFIAFGGDGGTYDIGLQSLSGAIERGHDFVYVLYDNEGYMNTGNQRSGSTPTGAQTTTEPVGKVKPGKVQFKKSLLDIIAGHEGVYAASASTSEPLDFMKKMEKALEFKGPAFIAVLAPCVRFWRIPESTGPAVTKLAVETKYWPLWEYDRGVYKVTKKPRNFKPIREYIEKIGKFKQLLKTDHADEVIDQMQEYVDAKWERLLALEEISQDKPLRK;locus_tag=LOCUS_02800;note=WP_004082462.1 thiamine pyrophosphate-dependent enzyme (Thermotoga) [pid:65.1%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.9e-131],MGA_282
sequence1	MetaGeneAnnotator	CDS	308102	310060	.	+	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDWFVKHEKVISFLIVAFFVIGTVAWSISAYISTGATKAKSVNTPTKQNAVAVLEKDGKELDYPYWVMKTELDAEYKTRKSQLEQQYHQQIDPVFDALGLKYSLVNQIADFDIVKYFAEKNHLMPTKNEVKKELENQVNSYIASLKNNQENWDKIIKYYGSEKKVRDLLTNGQDSRVESNLIYNRVLSKVATVTRAEGLKKITEDFDKIKAENEQVNAQHILVSDEATALKIKKMIDNKEISFEDAAAKYSKDTSNATSGGNLGYFGRNKMVKEFEDAAFAATPGVVVGPVKTQFGYHLIKVNDKKVFNKPEDVFLYTDVYSKIEQDLQNTKFKDWLKKYKEDEKFSVKYLDNKYEFMVELSSAATDDTKISKLIDELTPAIFGDDNEVLPEADVELLGLYATLLKAHGNNVNNNLLEVKRFISLQDTDKSVIALGMDTINKKISEIEAKIKENPNDSTLSKEKFKYTDAKSFIEAKEAVSKMNISTVEEAKTEKEKLQKNFDSIQDKNLKVLKDLFYEYPTSNKVVQEYYQINPSDLNAVVQYTKLEFNGLKQYMGYLSADMIKQYFQKQFTEIYVNISNVIASPKASTKNKLDAIDLGIDFATTLKDNNLKLDYLKKAKEIDANYYKDIDKMIAETEKAISNEASSMKK;locus_tag=LOCUS_02810;note=WP_000710058.1 peptidylprolyl isomerase PrsA (Bacillus cereus) [pid:35.8%25%2C q_cov:36.2%25%2C s_cov:78.0%25%2C Eval:2.9e-23%2C partial hit],MGA_283
sequence1	Aragorn:1.2.38	tRNA	310144	310219	.	-	.	ID=Aragorn_5;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence1	MetaGeneAnnotator	CDS	310284	311957	.	+	0	ID=MGA_284;product=nucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080960.1;translation=MKIKLRNLEEKKVYEIPEGSTFGVLAKKHELETGRTVFAVKYNNNIKELFKIPNEDGIIEFLDLSTSDGVKIYQRGLLFLLEIALKELNKNENLYVQSSIGNGLYCEFETKNPSEDFINKLKEKMNELIEQNLPFKKENIEKFKAIKMFKDAGKDDKALLFKFRKKSTVNIYSIKKYFNYFYGYMPESTGTLKKFDLIKQGNGIVLLQPNQESPDEVPEYRHLEKLSSTFKEYTQWLKIMEIKTVGELNELISHGKESAVELIRVADALHEKKYAMIADEIIKNDKIKLILIAGPSSSGKTTSAKRIALQLKVNGIKTIPISLDDYFVERDKTPRDENGDYDFESINALDLELFNQNMMDLFEGKEVTLPKYNFVTGKREWHQKTLKLEKGQILIVEGIHGLNEKLTNKIPREWKFKIYVSALTQMNLDDVNRIPTTDTRLIRRIVRDFNFRGHSALDTLKMWPSVRKGEEENIFPYQEEADIMFNSHLAYELAVLKIFAEPLLLQVDNTVPEYSEAKRLLRFLDYFLPITELEEIPKKSVIREFIGRSESVKISVY;locus_tag=LOCUS_02820;note=WP_004080960.1 nucleoside kinase (Thermotoga) [pid:54.5%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:5.5e-169],MGA_284
sequence1	MetaGeneAnnotator	CDS	312177	313394	.	-	0	ID=MGA_285;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELMVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPLIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARFHNWNAVISELAILFEERLKDYL;locus_tag=LOCUS_02830;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:44.9%25%2C q_cov:93.6%25%2C s_cov:95.7%25%2C Eval:6.8e-99],MGA_285
sequence1	MetaGeneAnnotator	CDS	313520	314572	.	-	0	ID=MGA_286;product=reductive dehalogenase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889925.1;translation=MKKIDERDTMFARMSYDFNGKEYNDYYFRNPDKKIIDDEFRNMPDFGSKETTTYDEVFTPLGNSNFKFLADIKHLVNGKCSEEKVNVSPEKITKAIKKLGKYFGAVEIGITKMEDYHYYSYRGRNGHYGEKIKEYHKHKYGIVFAVEMEKNLINRAPNVEEAITVTQGYVKAAIIGMQLSYYIRELGYPARNHMDGNYLIIAPRVAEDAGLGEVGRNGLLTNKKYGSRIRLGVVTTDLQLLEDEKKLFGLKEFCDLCKKCSKNCLGRAISDKSLKDKEFNFSQENCFKVWKKLGTDCGVCISSCPFSQNVPNELLKNEILTKEDMDKILEWDKKTNGRRMYLKEKDNLII;locus_tag=LOCUS_02840;note=WP_009889925.1 reductive dehalogenase domain-containing protein (Clostridioides difficile) [pid:52.3%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:2.6e-96],MGA_286
sequence1	MetaGeneAnnotator	CDS	314588	316738	.	-	0	ID=MGA_287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVFSYISLISFFTVTITGFLVYLRNSKNILNILFAIACFFESIWNITEFIMRSTNNYYTAQSMLKVVSFWPFIIALSLHFSLVYSGRIIFKEKKFIYIFTYISAFIFSIYGIFNESIIINPIKYSWGWRYIFKEFNVFNVIMILWALILIFFISYLSIETFKIQKKTKYEKHSKYILLGLNLPLIIGVITDFLFPAFNIKSPELFSLFMIIGNCFILYGMLKYNIFYFSYEKTSSEILESFTDFLIITDNDNIIQRVNNKLIKETGFKRKDIIYTNIKNIFFEKANAKFDNNYKIIAEKFLLKTSTNKKIPILMSVSDLYNENKEKTGYIYYARSLKDLSNIKNELKKSEKRYKTLFKTANDGILILKENKIIDFNDKILTLFKTTSKKIYGKTPMEFSPEKQPDGKNSIEKGAYYITKALNEGSCYFEWVHKDTNGREFYCEISLNKLTLNDQNYIQALIRDINERKIIEKKLLKAKKDAENASKAKSMFIANMSHEFRTPMNAILGISSILLENKNKNLSKKDLEFIEIIRESGNHLLSMINDILDISKLEAGKMERVESLFYLNTLLLKIEKITKGLLNGKKISFNIITEKNIPQYITSDMKKIERILINLIGNAVKFTEKGVIILRLYKKEKKLFFEVSDTGIGIKEENLKLLFKRFNQIDNSFSKKYSGTGLGLYLCKSMVNYLNGEITIKSTYGSGTTVIFYIPLKDNK;locus_tag=LOCUS_02850;note=WP_000202845.1 response regulator (Leptospira interrogans) [pid:35.5%25%2C q_cov:49.9%25%2C s_cov:34.8%25%2C Eval:1.7e-56%2C partial hit],MGA_287
sequence1	MetaGeneAnnotator	CDS	316810	317745	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLILSLLILSIVAYSLTNDEIRYIATAYNKGFSRSIEEIKKYSMKENYLYDDFILNYYNYFLGKMELKDVLKSKTIISDKPFIPTKTYLKRSIEFKTYLNNIIDKNKNIIYEKIPILNKKSKKLNPTIIKKFKKREILKERVYKLLKAYKINMNDLNNYAEAIVDYTYTYLNSNITFYRKYNISSNFFKEKIVVKDIPVELLLSFMVAESRLRPYSYRIEIKNDKIYAFSIGFTHILVDADFAYISNVNDKFGNNKFDMYNFNLLSSLYFGNEKNKENYLSDIDLITLRGSILYASVLLQLIYEKIVL;locus_tag=LOCUS_02860;note=MGA_288
sequence1	MetaGeneAnnotator	CDS	317768	318166	.	-	0	ID=MGA_289;product=secondary thiamine-phosphate synthase enzyme YjbQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496720.1;translation=MVYEYPVITHKREELINITDMVNESIIKSRVKNGVCIVFTTHTTAAITINENADPDVKTDIIKFLNEKIPLNHGFKHLEGNSDAHIKSSLFGCSQQIIINDGKPLLGIWQGIYFCEFDGPRNRRIYIKILEG;locus_tag=LOCUS_02870;note=WP_064496720.1 secondary thiamine-phosphate synthase enzyme YjbQ (Methanocaldococcus jannaschii) [pid:63.1%25%2C q_cov:98.5%25%2C s_cov:97.7%25%2C Eval:8.4e-45],MGA_289
sequence1	MetaGeneAnnotator	CDS	318169	318423	.	-	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFFSRKEKSRDVAVKRLNSFVRTTRGTTRTMENKSDEINYMVEYIKDYAYRNLNVEKNDVKVHITKDGSSVTLVANIFYEGRN;locus_tag=LOCUS_02880;note=MGA_290
sequence1	MetaGeneAnnotator	CDS	318428	319249	.	-	0	ID=MGA_291;product=septum site-determining protein MinD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082421.1;translation=MKQSKIIVVTSGKGGVGKTTTTANIGVSLAQKGFKVCVIDADIGLKNLDLVLGLENRIVYTIIDIVNGNKKVKDTLVKHKTVKNLNLLASSQVANKNMVEPEDMVKIVDELTKMFDYILIDSPAGIERGFSNSIKAAQHAIVVTTPDLTAISDADRVIGLLENEGFNDNNISLIVNRIKPKMVEKKEMLSPDDIKEALAINLIGIIPDSEEIIISTNEGKPIALDSSKSVAINFNNIALRISGEDVPIEEDIKNNNVDTEGFFSFLKKMIGRR;locus_tag=LOCUS_02890;gene=minD;note=WP_004082421.1 septum site-determining protein MinD (Thermotoga) [pid:59.1%25%2C q_cov:93.4%25%2C s_cov:95.6%25%2C Eval:1.6e-81],MGA_291
sequence1	MetaGeneAnnotator	CDS	319398	320198	.	-	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFKKELKYNLKSFFIWGSVLIMFSLLFVPFIDGILQDSDSLKKFMDSMPKFLLKSFGTNTDTFFTPEGFFSTKGMTMAYILTGIFSVLIASNMFAYEYQKKTIEYLLIKPYSRLKIFLIKSFSLIFFYLVYFFIFGIANFLLFKSFVHYEYNINIINGFALYLFVIEMFFGSIAVLLSVLFQKTILTQSISIGLFVFMYFSDMLGFAIDSMSWIRNFTIFKYFSLNETVSKGHVFVLNSFIIILISLTIMYVSMIIFKNKEIEY;locus_tag=LOCUS_02900;note=MGA_292
sequence1	MetaGeneAnnotator	CDS	320214	321014	.	-	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFKKDFKYNFRSLLIWSIIIFSFSLLYIPFTEKILSDSGQMVKMLNKLPKIFLKSFNIDTESFSTPEGFFGSEGMSFIFILTGLFSATLSGSLFAKEFENKTIEYLLIKPFSRVKIFIQKYLVLISNIIILNLIFNFSTLYLFSVFVSSEYDKNILLGFGLYVFTVELFFGALGVLFSILFQKSNLTTTLSLGILFIMYFGETTVSEIKSIEPLAKLSIFHYMPLIETVKNHKIYLNNSIVIILISFIIMYISLKIFEKKNILI;locus_tag=LOCUS_02910;note=MGA_293
sequence1	MetaGeneAnnotator	CDS	321028	321879	.	-	0	ID=MGA_294;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080497.1;translation=MIKISNLKKYYGKNRGIEDVSIEIKEGEIFGLIGPNGAGKTTTIRILTGFLSEDAGEAKINGFKLPEDINKVKKDIGYIPGEVNFYGDMKIKEFLKFNRNFYDNVDVKYEKEIIELLGIDINKKFKELSLGNKKKVAILQALVHKPKYLILDEPTSGLDPLVQQKFYSLIKDHKKMGCAILFSSHILSEIEKLCNNFAMIKEGKVIKSGAIDDLRDISSRVITVYGLNDTLNNFKFTEKNNAKEFLVKTKDIHFFIKELSNFNFEDIEIKKPDLEELFLKYYK;locus_tag=LOCUS_02920;note=WP_004080497.1 ABC transporter ATP-binding protein (Thermotoga) [pid:45.2%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:2.3e-73],MGA_294
sequence1	MetaGeneAnnotator	CDS	321866	322498	.	-	0	ID=MGA_295;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462142.1;translation=MPKQTFFNLSLEKQERIKNAAIEEFSKYSFSNSSINRIIQVAKIPKGSFYQYFENKEDIYIYIIEEIGKVKIKYIQNNINDFSKKNIFEIIQLSIESSLKMISEYPKYAEIGLKMMNEDTNFINKIINNLKINMYEFLSVPIKNAVNDGLIDENLDIDLLIFFISKVLSSVSEYAKEKDIKDFNEIADLTNKIMYMIENGIRRREQNDKN;locus_tag=LOCUS_02930;note=WP_011462142.1 TetR/AcrR family transcriptional regulator (Desulfitobacterium hafniense) [pid:26.2%25%2C q_cov:97.6%25%2C s_cov:98.6%25%2C Eval:1.7e-15],MGA_295
sequence1	MetaGeneAnnotator	CDS	322635	324167	.	+	0	ID=MGA_296;product=sensor domain-containing diguanylate cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_208846059.1;translation=MYKKQIKKKSLKLFFEIFILSSIILSFIVFFTYKVRMNNYINILLENEKNKISLQNEFIKVFMEDLTKDLNFLSYSEIPYRASYLNKNISSLKNSQLEIINFSKYKKVYDQIRFIDLNGNEQMRVNYNNGNIKVLKKDELQNKSHRYYFKDMKYIKKDEIYVSYFDLNVEKKEIEVPYKPTIRFLQPYYYDGEKIGYIVLNYIGNNFIEEFKNIRKRMYLLDEDGYFLITPNKEDEWGFMFGEKDKTFKNYYPEVSKEVFSKKSGTIKFKNIIYVFNTIDLKLFSNIKNKTTWKVVSYIKNDDYKKISNNLFFNTLILYIFMIIIILIVSYIITRYNYQKLYNEELIKEYATYDELTHLYNRRIVMNFLNELIKLSNREHNKFCVCFADVNNLKKVNDTLGHDYGDDLIKTVARILKETVREVDIVGRIGGDEFLILFPKCDKENAEKIWNRINKKFEEINSTNEKKFKVVVAHGIEEYQNKMNINELIKIADQKMYEDKKRLKSNQNKL;locus_tag=LOCUS_02940;EC_number=2.7.7.65;note=WP_208846059.1 sensor domain-containing diguanylate cyclase (Aliivibrio finisterrensis) [pid:29.4%25%2C q_cov:93.9%25%2C s_cov:93.8%25%2C Eval:1.5e-53],MGA_296
sequence1	MetaGeneAnnotator	CDS	324872	325783	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIRVLGADGSGSLDNVALGIRYAADHGANIINMSLGGGANAQTLADAVKYAHDKGVTIVTASGNDNGSISYPAKYPETIAVGSVRYDLKRAWYSNYGPELDVVAPGGDTQVDQNNDGYADGVLSTTWKPDTGDTYVFMQGTSMASPHVAGVAALLYAHGIKNPEDIRNVLRNSATDLGDTGYDNYYGAGLINAYNALTYNDNGNGGNGGGSTPPTTAKLKAFVLGYDYWQGGYVVISDTQEVVNGHYQLNEVQTGYTSYVCVWQDNNNNGKIDSGDYWGYDGSYNFKANQNYNVNLTATIKP;locus_tag=LOCUS_02950;note=WP_164928808.1 S8 family serine peptidase (Gloeobacter violaceus) [pid:44.7%25%2C q_cov:65.3%25%2C s_cov:33.6%25%2C Eval:6.9e-39%2C partial hit],MGA_297
sequence1	MetaGeneAnnotator	CDS	325879	325998	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLMFIMALAIIAGVSNVKDLNLSNNDIPKTVNQLEL;locus_tag=LOCUS_02960;note=MGA_298
sequence1	MetaGeneAnnotator	CDS	326080	328119	.	-	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLLFTMMLLFINVFSMVKVVDKNLKLYGSTDANKGDILVENDEVGFIVGGLNNKNSGRIIDVFSQKYKYDTLDVMRYFISGETLKNTDLKFINNGVALTQLGSKYSIETTYTLNKNTIFVVSKIKNISKKQQFLKFTDILDYTSSMPYFVSKKFNGKNNFMIQENNVALYYDSYNSTKIFKIINIKNTTAITPKYQKLKPNETTTISRFIKIDKSISNFQKELLNESKTYTVSIKLRNTIPARDILTEVVDFKGNIISTGYTNENGDVSFNLPKDNYYVMPVFGTLNFEKISLNEKTSLNINIKKENEFLYKPFLTAKNTDGVIVNFKLLYPDLATVVVYDNQKEVGRYKTNYTTNVHHIRITGLKPNKKYEYMVFVGNKYTKPLESSIYYFKTFSEKPQKFVFDVYGDTRSYEKKHKEVVISMSKTNPDFVINTGDLVEKGNYEKDWIKFFWALEPLAPYTAYYPTLGNHEYNNIFYYRAFDLPNGGGDYNRRWYSFDYGSVHFTMIDSNISPNDTAFKAQINWLKNDLNSTNKTFKIVFFHHPFWTTSQQYGPMAENKEDGNELIKYWMPIFKQYEVDAVMNGHIHAYERYEKDGIVFITTGGGGAPLDTIHTATPLPWIKKDIIDYTHFVQVEATSNTLSFTVKAVSQLLDADKLVYKNVEGKILDEFKIKK;locus_tag=LOCUS_02970;note=WP_011392674.1 fibronectin type III domain-containing protein (Moorella thermoacetica) [pid:33.5%25%2C q_cov:37.1%25%2C s_cov:46.8%25%2C Eval:4.1e-28%2C partial hit],MGA_299
sequence1	MetaGeneAnnotator	CDS	328181	329728	.	-	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582639.1;translation=MEKRDYRFLEMVSKYGSYSKPLINYTKKTTKNENILFYIRALELKNDDEFKNFIIKALDLCNDKNVKYLLLGEYLFYLKKVNVKKASILYQRLKSEMHKIPPLSRNTLVGGFFSFEASIETSKTIRLWGKSYTLDESSYIFINIGRARKLTSENKIKKAISTYLKMLKTSVKIPHVSAILIILNNVSWYLAYDHPKISYKFVNYLMYYIGYYIESFKDIEMYIDTYIHVLKHNNENKFFYLTSFVYEIDEVFYKKYINENYYSLNTSSYKNNSTLKNFIKNNIKNIHNAYKKTGISNKTFYSILDNKTEKINSKTLQKLILSLNIKYNNNLPFEIINELKKLNIKNYKLKLNFDNTFIIKVLSNYMSKENRKKNYPFISKNIKNIINDILNNNIELIQENLKLKLFIIESIENSHCIYEGRKKLAKIFLYSLKDDKLKKFINNYLELKEKDKKIMDIFIRNYSRYLKNSFSIETNKYLDEFCKTFKLKKKTAITAFWCFNENDQKKFLRIIKKFD;locus_tag=LOCUS_02980;note=WP_012582639.1 hypothetical protein (Dictyoglomus turgidum) [pid:25.3%25%2C q_cov:96.1%25%2C s_cov:96.0%25%2C Eval:3.3e-43],MGA_300
sequence1	MetaGeneAnnotator	CDS	329739	330452	.	-	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLDDLFFKYKANITKKFDNFPKYTRRQTLARFLARYELFKKIQNVKGNIVECGVYHGGGVMSWAKFSTIFEPYALYRKVIGFDTFEGFPSIHENDKVREDIKNKNLKPKGLKPNYDVYEEMNELMELYNMNRYLSNFPKVELIKGDAIKTIPEYVENNKHLVISLLYLDFDLYEPTKIALEYLFPRVVKGGIVVFDETNNNLWPGETVAIMEKFGSFNNLKVQKFDFEPKLSYVIL;locus_tag=LOCUS_02990;note=MGA_301
sequence1	MetaGeneAnnotator	CDS	330503	332305	.	-	0	ID=MGA_302;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKRLPIGQSDFKTIIEEDMYFVDKSLLIKEVIESGNVLLITRPRRFGKTLSQSMMKYFFDITQNNDYLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLISELSTLYIDHKYVLDVLDNEEKIIYDKIMDREALDADYENSIRNLSKYMERYYGKKVIILIDECDIPIKQAYLYGYYDEITPLIGNLFSSALKDNVYLEKAVLTGITGVTKGSIFSGLNNIEVSIVLSNLLNDKYGFTKEEVEETLKYYELEYEEKEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIGLYWMNTSGNYLIRKLIKEGSAELKDKIEKLINGEEIESKINETMVYGDLYLNSNESIWTLFLFSGYLKWIKETKEGYRRYTLAIPNKEVRMFYEDTVLLMLEEGNIQLDNILINLINGHIEEFKEDFQKLTMNTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVVLIPKDKTDKGIIIEFKKFYKNEKTLLNSAQNGLKQINEKKYEEEIKSYGINDIIKVSIAFDKKEVEIVSNLDKEENNERKDLEYELKLKSIETAKKLKEMGLTKEQIIQVTGLSMEEIENL;locus_tag=LOCUS_03000;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:39.1%25%2C q_cov:90.8%25%2C s_cov:98.7%25%2C Eval:1.7e-99],MGA_302
sequence1	MetaGeneAnnotator	CDS	332418	333566	.	-	0	ID=MGA_303;product=23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434581.1;translation=MDLCSAYGRCGACSKLDIDYENQLKEKEDKVLKIFENLKLSPKRYHGIIGSPEIYAYRNKMEYTFGNEAKDAPLIVGFRGRKKKFDVFYTPDCKLVDDDFNKIVVCTKEFFSSRDYTFRNYRKHTGYLRHLSVRKGINTNEILINIATDFTDENDGDIQLWAEELKNLKLNGKIVSILHSKTTSKGNVLKADKLEVIFGDMFFHEKVLDLSFKVGPFSFFQTNTHGAEVLYSTAMKYVENADVAYDLYSGTGTIASLLSKYVKKVYAVELVEEAVKMAKLNAEMNNINNVEFLCGDVKDKIKELPKPDFVVFDPPRAGLNPKVISFIKRQSFKKIIYVSCNPETLAQDLKALENFYSIEDLHIVDMFPHTPHVESVCLLVKK;locus_tag=LOCUS_03010;gene=rlmD;EC_number=2.1.1.190;note=WP_003434581.1 23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD (Clostridioides difficile) [pid:43.4%25%2C q_cov:99.7%25%2C s_cov:84.5%25%2C Eval:1.0e-88],MGA_303
sequence1	MetaGeneAnnotator	CDS	333566	336442	.	-	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLGLILFVLFSTFIYGVSIQVISPKNNDKNVDIKSIFRWNIDEKLDIKYDLFLSKDISDLNKNIKLEKTYSNFYAGDVLEPNTTYYWKVIGYYEDNKIESNIFKFKTRNLKKGDISWIFFGNYKNVFKIKDMFIGIKETSIDIIKDKNVIFTKKYKDKIIDVSIKDKIYVLFNNTFSILDFKLNEELLKKFNDTFIKIQDNFILSKNGIYQIYDDNIEKISDLNAKKIIKVKDKIYVFTENYCYLLKNNIKKNVYNLNGKYVDSLKLFQNNNILVMTNNGLTLYNPNFEIISKYDFQIKYDSLKRKIFDFLGTSVIISGDRTLIFFDSNLQIQSSKTLNQKIDYFVPINKKEYIVFGESIKSYDISGKTLWYYGSINSLKIVSKPRVYKNSVLVGIKDYVTKYIEFYDFFDYIKDVDSDLKISIPTDTTKNSSNTNVSTKITLNSSTTNISTDTTKNSSNTNVSTKITLNSSITNISTDTIKTSELSTQTINKVINTLKNNKEINKTIIYANKLLKSLFENNKIKIQTNLKENINTRKFNLEINSSKIKKFVMLLETKDSSLTTIVGTTTTLNLDEEKTYTLKLKPLKYKKFIYVKTFKTTFFNIVKEFIKPYDQYSYGAIADNDNFYMYGYEEKNDWNAKLWIFNKYLEPKKEMTFGGPKTEFFKDAIITHDSTVSTNIILVGDTTSVGLNGNAYMVNTTTDGTVNYETNYGDIGRDSGIIVKNIDENNYIMGGNIFVNNRLSDIFLTKYTNEGTRIWINTFGGKSIEILTDVLPTKDNGFLVVGMTKSFGYGGYDVYGIKLNYYGKEVWSNTYGDSNDDKPVGFFKYKNTIYIFYENYSDTVNHCYVKISSKNGFGSSVRIKSNYNEKINGIKNIDGTIYLYGYREENNMKNGIIYTLNVNEGTLSLVKKYENFEITSLSKMNTSFYISGNTLKNNSMNLKILKVNTIKDEVDN;locus_tag=LOCUS_03020;note=MGA_304
sequence1	MetaGeneAnnotator	CDS	336454	338208	.	-	0	ID=MGA_305;product=tetratricopeptide repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082319.1;translation=MKPKYSIIYIDLKPDYAKLHNLPIKLPVLLEDFQKASKTNKLPLDIILRGLEAANEVSKDDYYRSYLVFYYFEAFKMNLEKDLTLAKKYLEKAKETSYDYRYHFYNALYLKKIKEVELSEFEFKQSISMNGNFAYSYYELGNLMFERKIYDEAFEYYQKAIDVNREFVLPNLKIADVYAENGRFTEALEYLKKCLDMDKNFIPAYQRIGVIFNQIQRFIDSVNFHEKALKLDSKNFELYYNYAYALSKLGRHRDAIKALEKAAELNKKDYIFHELSLEYKNIGEYILAFETEKKAFELATDKNKELIRITLLKLSTIMEDEELFFKLYNENEDLKNNYKTFKMIFELSSGNIEEAIKDLSFLNTEGLFLSLPYRLQNIEQFVEKLEKNVNKDIEKSIFESFNEEGILIPELLAEKLKENKFNGTHIGWLKEKNTDSKMMPNGLEIITNSLLLSGFNYGLSERISTVLSKYLWKDGLGIAFGRILLRIYQDRIFGENSTVEVFVQNTIEEIKDLSFKFAKVLSEYESYFMDFDTLLEIKIKSFEDALKVLISGMTLNLSLQEILDSEFNDDKIKELLRFLVVIDF;locus_tag=LOCUS_03030;note=WP_004082319.1 tetratricopeptide repeat protein (Thermotoga maritima) [pid:33.9%25%2C q_cov:91.4%25%2C s_cov:92.9%25%2C Eval:4.8e-70],MGA_305
sequence1	MetaGeneAnnotator	CDS	338220	339548	.	-	0	ID=MGA_306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLVFIFILIICLSFSSVYIKNGYLNFVITGRDTSENIQLVFEDKNYDFFYINGKLKCYIPLPKDGIYSFYYLKKNNKILEKTIFQKNNKNIIYIINGKISNPNSFANTYYVLENTNKITAYVEKNDLDYFYDTSIFGNINLISPYFTFKSNYDFGYSKTPYAYMSFMGFLGNETLNLGYKNTLMTGRGYYLKYYTNFFEKKYFFSIRDYSGADKVSKENYEIIPVYFFNYDGLFDIEYRAYDNPLNVGSLYTVVGNDFKVGMLWSSSKQADLNYLCPEKEKKSPLLIFYAGNNDLSLNFGYYNYSEPYYLATKSIVKEGMNTYYYYFNVDFLKKGLTLYFTINWIPEIYAYINYADELWGFSNIAYNFYLDNLRIYPLLQVYYYKDIKLQFKLYGELKTNFGIFKGGIGTTTYNSVWDGWTIKEEKQDLKFNLNYEYSF;locus_tag=LOCUS_03040;note=MGA_306
sequence1	MetaGeneAnnotator	CDS	339545	339916	.	-	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEKYFWIFSTLIYIALIIYLSVSKPIVNYSDFKGEDKIIHFIAYFIGADLTFMAVSELKKFYLKILTTLSYLSLPIITEYLQSFSKYHVFDIKDMYAGFLGMCIGFFYFLSKKIAFKDVVK;locus_tag=LOCUS_03050;note=MGA_307
sequence1	MetaGeneAnnotator	CDS	339967	340314	.	-	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFVKYFNDLHGAFHNDLNLQKNIYEIPKLFNKHVSILLKSIYSDLSKNILTDIYFDESSEKHFIISDELLEIIKEDWNNSDLKVLIEKMAKETYDRIIHLKKDNDKTETYRKI;locus_tag=LOCUS_03060;note=MGA_308
sequence1	MetaGeneAnnotator	CDS	340334	341458	.	-	0	ID=MGA_309;product=tRNA guanosine(34) transglycosylase Tgt;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897970.1;translation=MNKIRYELLHVDKYTGARRGRIHTKRGIIETPVFMPVGTNATVKGLTGRMIEEVGSEIILANAFHLFLRPGLEVLNHFNGIHNFMNWKKPLLTDSGGFQVFSLKGRKITEEGVTFKSPLDGSTIMISPEKSMEIQQTIGSDIAMAFDECVDTKITDYNYFKESVDRTFRWAKRSYEAHNRDDQALFGIVQGGLYSDLRQRSLEQIISIPFDGYALGGLAVGEPYQESEKVLKEFANKLPQDKPRYIMGIGSPTMMLLSVENGMDMFDCVLPTRMGRHGTALTWKGKLNLKNSKMTFDDKPIEEGCTCYACQNHSRGYIKHLYKRDELLAKTLISIHNLHFNISFVKAMRKAIEEDRFREFKEEFFKTSTYPLKN;locus_tag=LOCUS_03070;gene=tgt;EC_number=2.4.2.29;note=WP_009897970.1 tRNA guanosine(34) transglycosylase Tgt (Clostridioides difficile) [pid:53.2%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:2.2e-112],MGA_309
sequence1	MetaGeneAnnotator	CDS	341651	343852	.	+	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKNKILLSIILIVLFISIAYETIFYINEKKDTNNEFIKNSELSIKLIDNAINFFIEGKKADVSSLSSIIKETKVSSTTMNLFKNYVNNHKNTTFAFFGSSNGEYLEYPIPKLSKDYDPRVRPWYLKAINSSDVEIIDPYLTLASKELMVSIVKNVNNLGVVGIGVSLKNFYLLLKTINTFKDTYLILLDEKNRILINTYNNSNILKDVSTLSKDLNLKKESALIDNNEYLVLKKNSQFLNWKYIIFSNKSIIYKKILNFNKNLLIMFTLFFIISIYYAEITSKSITKPLENLSKKIKLIKNNNFDITFDINSEGEIGTIERSLGMMTISIKKLLNEVEQKNEKLEKLNQEILNSNEELSDLNTELESMYIKTEELNTIFEKLISIISQINSNVHEEEIFSDLLTLAIDIIPNADTGSIALLTDKFEFVAAVGHNLKELQKIELKKEYMIKVKDITIIKDVNYKNINIMPKEVFEKFKKATKEISESLISPIYVGETYIGNLSVDILKGSNKHFGNDSKRIMKALSTISSSILTVKNYSKIQGKLHSQIIYSLIKILEIYDPYTKGHSEFVAKYSFEVAKKLNLNMEKCKKIYWAGLLHDIGKIFVPSTILNKTSKLTNEEFEEIKKHPISGYEILKTSEELEEIAKIVLHHHERYDGKGYPYGLLEKDIPIESRIITVVDTWNAMTSNRPYREALNIEYAIKELQKNRGTQFDANLVDVFLDIILNNEQFE;locus_tag=LOCUS_03080;note=WP_012584035.1 transporter substrate-binding domain-containing protein (Dictyoglomus turgidum) [pid:31.9%25%2C q_cov:74.2%25%2C s_cov:83.8%25%2C Eval:2.3e-64%2C partial hit],MGA_310
sequence1	MetaGeneAnnotator	CDS	343945	346131	.	+	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLRGKFSLLMITMIFFSLLIITFFVVRISSNSLTSSYADKMTAVVSKTHDTLHGFFESLESELKLYSELENIKQAIFDFEDSYVTIVDTYGKDGLVEKFKRAYITKNPFKPKNKLDTIDDSKITDDERDQLLLYDINHSTYQPFLRKVINKMGYGDILLLNKEGVILYTVNKNTDLIKSVTNELKNTNLAKLYNILKKSNDNNVHMVDYETYSPTGNPEMFAGISLKNDDGELQGYLIIEEHIEKINNILTSTIGLGETGETYIVGTDKLMRSNSRFSKEPTILKTKIETEPIEKAFNKQEGWMITKNYRNEKVISSYKNFKHFEINWALIGEVTLKEANKGSSNIIRLTVIILIIELIIAFILSYFFTRKMTKPLEELVKNIDDFGEGDLTIIPKVKTKDEIGKMANSIKNMSENLREALLKIKESSLKLQKNSQVLSDVSLESAEMGKKLAEQSKIIENNSENVAANVQEVSAGVNEVSMAAQNVSESARELSELAGETNEDAENGYTSLTNVVNVVNEAIEQTNSAKTTVNELVENAKNIGEVVDAINTITEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEESKKATEKISVILEDTKKMSLNVNNVTSKTSDMMNKAGIDIESVVTKFEKIKNSVDQMGMMIETLTANSEEQSASSEEMGAAMSKVSDIIMDINNQIKSSGDLIDLQSDGAEKVNENAKELSNLSEELMENIKKFKL;locus_tag=LOCUS_03090;note=WP_010865030.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:34.2%25%2C q_cov:50.5%25%2C s_cov:56.1%25%2C Eval:1.0e-56%2C partial hit],MGA_311
sequence1	MetaGeneAnnotator	CDS	346158	346952	.	-	0	ID=MGA_312;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_004081704.1;translation=MKKTSEWLKEYQIILKKKYGQNFLSSDLYTKKIVKKSEIKDVDYIIEIGPGAGTLTEELEKTGLKVIAYEIDTTLKSLLEERFKNKNVEIIFGDFLKADLTPYKDKKIAYIANIPYNISSPILEKIFIETPNFVQASLMVQKEFGERIIATSGKNYSPLSVFVQYFCDVKKLLDVPKSAFIPNPKIDSVVLKLTKHNKYNVDSKDFFKFIHICFSQRRKTIRNNLKSIIDDVEYFLESCGIDSKSRPETISVEQYLNMYKEYIK;locus_tag=LOCUS_03100;gene=rsmA;EC_number=2.1.1.182;note=WP_004081704.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Thermotoga) [pid:47.7%25%2C q_cov:98.5%25%2C s_cov:96.2%25%2C Eval:3.9e-56],MGA_312
sequence1	MetaGeneAnnotator	CDS	347135	348244	.	+	0	ID=MGA_313;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081216.1;translation=MKDILIIGYMHPKYDKRTYRTVSTLSQEYKIYYQYWTNDEKEIEYEENNIVYIPVYYKKNIQAHPFIKLKNRKNIDLKIIEIMKRKKYDTIYFHHFLARFPVKSFKIAKKQCNQIVYDLHEYHPENFLSAMKGIKRKMKISIMTKIFKKQLNIVDKVIYVSQGIKDYMDNNNYDLKHPYIIVPNYAISSLKVKKIEERDKRIAFLGKVPRDLDEEKEILKRLNNLGYEIALIGIDEIKDKALSFIKPMGFLPYEKMLEETSKCMFTFLSFGIVQPVNHIYCMPNKYFDSIGAGVPIILADKFITMQNMTKKYKNGIIININNPDESIEKIKKLSTKENYNELLKNIEKYQNEFIWNQKQKQKLIDFIKK;locus_tag=LOCUS_03110;note=WP_004081216.1 glycosyltransferase family 4 protein (Thermotoga maritima) [pid:38.9%25%2C q_cov:98.1%25%2C s_cov:98.3%25%2C Eval:2.0e-70],MGA_313
sequence1	MetaGeneAnnotator	CDS	349019	350077	.	-	0	ID=MGA_314;product=UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012895956.1;translation=MKIISLIGARPQFIKEAIINKEIKKTNIQEIIVHSGQHYDKNMSDIFFQTLGITQPDYNMNIGSGKHGEMTGKIMIEFEKIVEKEKPDMILVYGDTNTTLAGAIVASKMKIPVVHVEAGIRQEPKDMPEEINRVLTDRISNMLFCASKQSVENLKKENIKNGVHFVGDVMYDLYKMMEKDFKYDKFNELNLKKDEYILMTMHRDFNVDKKEKLEKILKQVEKISEEKKIVFTIHPRTKARIKEFKLKKYLKEVVVIEPIDYLNLMGLVKNSWKVITDSGGLQKEAYFAKKRAIVVMPDTGWRELIEVKWNVLANENNLYEKTFLNFKEVYPKNVYGNADAGKKIVDLLLNNN;locus_tag=LOCUS_03120;gene=wecB;EC_number=5.1.3.14;note=WP_012895956.1 UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing) (Thermotoga petrophila) [pid:64.1%25%2C q_cov:98.9%25%2C s_cov:96.9%25%2C Eval:8.4e-135],MGA_314
sequence1	MetaGeneAnnotator	CDS	350754	352181	.	-	0	ID=MGA_315;product=oligosaccharide flippase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164924813.1;translation=MKKNVKDIMTYFIGSLFPMFIGFLSSPIFTRYFTPDEYGILGLINITYSYINVFFISWISSCLWRYYNKFKNKNELSKLLNIIISIFFINCFILIISGFLITYLIPSLNEYMILLLLKNIALLTGGFVGYYLIILRLEGKAFKYVFFSSSVAYINFVIMLLLTFKFSWRIEAFYFSQILSNFPFFLTFLLYIGKNTTEIKPFKILLNEKKILKEMFLFGIASGLTIITQYLLSSGDRYILKIFRDLSELGIYDRVYNISNRSVFLLIGVFFNTFNPFIYDKLENDIKNIDKHYENLIPKYILFIFPIVLFVSLYSKEVAFILLGEKFRIGYTIIPFVVFGTFFMGINTFFEVKLKFTNIKYVLRGYIFATIINIILNFIFIPKFGYYAAAFTTTLSNFILLFYLAYKSRIFKLKYILINKINYTIPLIFLGISTVSFFIVRLFFNPNLLFSIIEGCFYFFMYIFITIKLNKKLLK;locus_tag=LOCUS_03130;note=WP_164924813.1 oligosaccharide flippase family protein (Thermodesulfovibrio yellowstonii) [pid:23.4%25%2C q_cov:94.5%25%2C s_cov:96.1%25%2C Eval:8.7e-11],MGA_315
sequence1	MetaGeneAnnotator	CDS	352192	353301	.	-	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINLAGDVSFSLLKGEAKNFMIREKEEKLFKIFLSKILNKLNINYKLYYNYMFKDIKLKEYSNEQILYNTNIQIRDINPFEHMKQFFKEADISFFNLETPISNKGRHVGDFNSEIKYLNYIKDLDISLVSIANNHMFDNGEIGFEETLKNLENNNIRYIGGGWNLSNARTLKTIEKKGIKITFLAYTDHCNRNFYGLARENNSGILPLYSKLIKKDINRAKKISDYVFVYLHFVLENKTLIHKEEQKIARKIIDYGADVLIGGHSHVPKGFEIYNNKPIIYSLGNFIFGYNSKNWGNNLVSTIELNKNKISEIKIYPILSKKEYIFSPIILNNSEGIKLLTRIKKDSKKYCKTKLLLNEKDCYLSYKF;locus_tag=LOCUS_03140;note=WP_001983041.1 CapA family protein (Leptospira) [pid:31.7%25%2C q_cov:71.5%25%2C s_cov:72.1%25%2C Eval:1.2e-33%2C partial hit],MGA_316
sequence1	MetaGeneAnnotator	CDS	353303	355000	.	-	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKLEKNNFDIIDKNKLIETDKYFIYFEGYFFYNDDFYIKNEAANFLVKNIENIENLIRELNGVFLCLTLDKVNKNIIIFNDKISFPQLFYYKIESNIYISEDFWKLRNYLNIKEFDDISIVEFLKYRFVSGKYTLLKNIFEVQPGRIYKIQNNIIDEEIWYDYKIKEKINDKEFAEKEIFNSMEKIFKRYDKIFKNKKIGLNLTGGLDSRYILGMLLKNNNANNLINFTFGTKYCEDMKIANTINKKYKLKNSYYYLDDNFINDYYNEEEISKIIEKIGFKTYYFQGFGFSKISNLHNKESIDYLLTGDNGFILGLLYKDELEKLNSFEKLTNYLIKSTSTILSNEDIEKYTKIEFNDALNKKLFDRIYEQLDKNNDLASEYVKWSILNRERNYATRNYNFYSLHSIPLYPNYENEFFELMFSLNKKLFKNQMVYINSMYKYLFIDELKDLSKILVDQRGNIKLDKNNNYIFNSKFYNKKRFICNGFANKYNLKSQYNTYPFNLIKKNKKLIYGKTKNIINNENIINKNYLLENLFNQKRKFYLYDLSVLMSLEAFMNYIKEL;locus_tag=LOCUS_03150;note=WP_011986996.1 asparagine synthase-related protein (Clostridium botulinum) [pid:25.9%25%2C q_cov:68.8%25%2C s_cov:56.1%25%2C Eval:6.3e-19%2C partial hit],MGA_317
sequence1	MetaGeneAnnotator	CDS	355005	356123	.	-	0	ID=MGA_318;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461034.1;translation=MKILMITSLYPAYKNHSIKEISYALHNFITEWNKNNEVIVFRPYFIPARKKVHYEKKVIIDNITIYNVPVYRIPKLGIFFTKNIIKKLENIKFNPDKVICHLSPAFSWGYKIADRFNADFIVGIHNSDLKEYNKKYIEIFTKAKKIACRSKSIQNRLIEKYPQFKNKTFIANSGIDKNEIESKDFFYNKIDFWKNKDKINFITVSLLQKLKNIDINLKALANLKYKNWNYTIIGDGEEREYLENLVDELNLKDKVKFLGMKDRFVGLEYMKKSDVFIMASAPETFGLAFLEAMAKANIIIGAKGWGIDGIIKNNYNGFLVKPRNTQEMINVLNSLFESGFNEINKILLNSYDTINNYTQELMAKAYIDNIKE;locus_tag=LOCUS_03160;EC_number=2.4.-.-;note=WP_011461034.1 glycosyltransferase (Desulfitobacterium hafniense) [pid:29.0%25%2C q_cov:90.9%25%2C s_cov:90.6%25%2C Eval:2.7e-30],MGA_318
sequence1	MetaGeneAnnotator	CDS	356125	357090	.	-	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMVRLLKESEKNKWNNFVQNSNQGSIFCSYEWIKTVTNNDFKILTYEENRNVIAGLPLPFINSKNIKMPKLTQKLGVLFDNFENMKYNKRLEKEKKIIYEFLNEIKGKYKSFYMNFDWHFDNWLPFYWQGFKQTTRYTYVIDFEKGIDNIWKELDQNTRNTIKKAKKNNIKVVESFDIKEFYKFNKMTFSRQSMNIPYSFEYVEKIYTNLKNNIKIFKTIDEKGNIHAMNFYIQDNKAVYYLMSGSDPKFRKYSSQNLLQWEAIKYYSSKVRYFDFEGSMIESIESNFRKFGTIQKQYFSIYTADFNYYLKSLIKYILGRS;locus_tag=LOCUS_03170;note=MGA_319
sequence1	MetaGeneAnnotator	CDS	357090	358331	.	-	0	ID=MGA_320;product=polysaccharide deacetylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047913.1;translation=MNKVDIKSYIENYLNEIFVENINISILKNSYILNNELKFNIYEFWNKNDEELLNDFNNFSFKNDYISTIFFFLSGYWEYTHSELKDKIGRFPAIESFQFKKEILEEPVVEIIVEKIRKELNLNYKQNNTKIFITHDIDFLGLLKGFNFIKNLGGDILKRKDIKLFFDKLIKKIINSDPCSVENLISIHKKYGTTGTFFFIPDIQGKKFGGGYDPTKKKKYLKKLEKEINKINGNVGIHYDAEYLNKNRMEKDIEKLKNIFNSKIDKGRSHYLMFDIKKSFDIYEKAGIKLDSTGGYADRVGFRFGTCKPFKPFNFDKGKEYNIIEIPLIIMEGTLQSQKYMNLTSKEGFEKIKEIINKIKKYNGVFTFLWHNTSFYNITWKDWEWVYEETIKYSIKKELKCISADNLVKGENN;locus_tag=LOCUS_03180;note=WP_012047913.1 polysaccharide deacetylase family protein (Clostridium botulinum) [pid:31.1%25%2C q_cov:96.1%25%2C s_cov:88.7%25%2C Eval:5.1e-41],MGA_320
sequence1	MetaGeneAnnotator	CDS	358324	359445	.	-	0	ID=MGA_321;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765892.1;translation=MNLLYFTHYNLNNNEFKGVKNKIQSQIKVFKKNKIKTSLVYFEDFKMMLLNEEKKTVLSTFKNNVEKRMKMYKILNNYTMNHNIDILYIRYPSTDPNFISFLKKQKKENRKVFLELPTYPFKNEDKSLKAFVIKSIESLNNFNLKKYVDYIVTFSNHKKIKGIPCININNGIDIEKLPLHQKTKNINKINLIGVANISKWHGYDRIITGLYEYYKTKPQKEVYFHIVGMGNEFLNLKNLVEKLALKKYIKFHEIKIGKELDEIFEKADIGIGSLANHRKGLKKDSALKNREYCARGIPFIIASDDDDFSKNFKYTYKISKTEKPVNIKDILNFYESIKNKNYPEEMREYAKNNLSWNVKMKPIINIIKGDLFE;locus_tag=LOCUS_03190;note=WP_008765892.1 glycosyltransferase family 4 protein (Bacteroides) [pid:37.1%25%2C q_cov:93.8%25%2C s_cov:95.5%25%2C Eval:2.8e-59],MGA_321
sequence1	MetaGeneAnnotator	CDS	359465	360610	.	-	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGILLITLSFIVSIKYNKLNHFILFNLLIVIMIYLMNINSYEALFQIAFKTSDTKLYFSTFNLPFEDMTNKTFYQYPMFLRYLIYPFKDAVLALITQSNIIFLLLILIFKDLNNIFFFTIYFNHTLFFTNINFLKDNYLIIVILLTIFLIQNIKNKIMQAIIIAFSILIMKDIRPFYKFFIFLSIIPFVHLKQNSKKKNFIIIGLMLSLAGLIFLLNFKYIMAVLSTWNATSSTGTTGFSILSPIKIIFGPTPLRYLYSQNFFVQPFLKEHNIIFFVLHLIYYLILPYLIIMFFINIKEYLNISALKSESLYSLGMSLGTFLVYLLIYGSADIRQRAIILLFLTIFIIKENTLSFDFILKYKYSYFFIFLFEMILMVISV;locus_tag=LOCUS_03200;note=MGA_322
sequence1	MetaGeneAnnotator	CDS	360687	361658	.	-	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVYQLLDKFRFGGGENVAFNYARILNKLNIENYLIAKNQDNNFINKLKNYKINYKTKLNKINKNDVLIIHTNRNLIKIFIKYFFKINKPKIYYLQHLEYDEKKFKRLSKIINYICNGFIQITPITENLINKYIKIPVIFFQNFNINRYKKEEYEKIKNKIRKELNLKDDDYIAMFSGTFKKGKNLSHILYFAEKNPKIKFLILGDGEERSILKNKTNNIIWLGRVEDVEKYLIASDLYLFTSGKEMMPMALIEAINYNKACLAYNIEVNKYLLNKIQLCKNKEEMNQKIKELYKNKINYFEYKTKYNFDYGIRKMKELLNI;locus_tag=LOCUS_03210;note=MGA_323
sequence1	MetaGeneAnnotator	CDS	361659	362762	.	-	0	ID=MGA_324;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880300.1;translation=MENTKKVITSIGKYYYPTKGGIEKVTKDIAEVLAKDGYVSKVISFDGKKHKSGIINNVDIIRFKELKIGPAPISIKFLKIFNNLCKDSDVLIFHYPNPIAEYALLKYKGNAKIIIFYHSDLIGYNGLITKIYNKMTDKVLNKADVIIGTSPNYVKSSKNLKKYEDKTKILPLCVNHGEFETDKLYDFKNFNFKNKILFVGRFVKYKGINYLIDSLKYLDKSYGLIIVGSGKLKNKIKEQIKENDLKERVLMLENLSNGELKSVYNSSDVFVLPSILKSEAYGIVSLEAMANKLPIITTELGTGTSFYNVDGFNGKVIEPKSSKAIAEAVKICIKNKNEYGINGYQKVRQEFSLDVFNRTILEILKEL;locus_tag=LOCUS_03220;note=WP_010880300.1 glycosyltransferase family 4 protein (Aquifex aeolicus) [pid:32.4%25%2C q_cov:98.1%25%2C s_cov:98.9%25%2C Eval:1.8e-47],MGA_324
sequence1	MetaGeneAnnotator	CDS	362749	364554	.	-	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDNSLKKFFNKYFNIFKRNYKLFLILFLSFYAFMFLYYKNTRKFWEASQTMVLKNNEVDLSNNSSLSLLGLGEGNSAIDDEANIIKSDYVIKKTIEDLKLIKYLNDNRTFIEKLKGVEYKERNTIEYIRGIIEAAKIPNTVNYFEIKVRFFNDVYAYKIVKDLYKYYNEYSIILEDKKMENKIKKMEEEFNKISIDFESINQKIIKFQVDNKILDTFEKDNLTKQYFEVYSKLFEIEKTKIEKQLEKNNIEKNIKNMNPELQNVMLYNSNFSGIKDLKSTITKQKLELEILKINSPNSPKINELETSINVYENNLKNKISTITKNKINLLAVIDKNKYNQYVEDLTFLENVDILKEVNQNLLKVINEKIQKRTPLYIEYFELLKQKNFLQYKYNAYLETIEKYKLNKNIKESKFVIVNEAFIPPYSVYPSKKRTLILSIFISVFFAYLIIYLKDSFSKKIKYTSTLEELYNEDYIILNNSVDKLVSEIISKDYISIGCVIKNSELKNMFKEEMIKNKFNLFTIQKEDSYAIKLEKYREFISKKNKVFIIFDNFNNDYNLLKDEFDKILVIANEMNKDFFENQVNKKHLIVFWKDKKNGKY;locus_tag=LOCUS_03230;note=MGA_325
sequence1	MetaGeneAnnotator	CDS	364566	365744	.	-	0	ID=MGA_326;product=sugar transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081168.1;translation=MRKYIKIIDILIITIFLILLKVPFTVAFFVAFIVFLGFYAFRVYDNENMINYNSNLIRNAIGTIIGYVGTLIFYFALENFINRYMLIYLFIFNTFALSLLHLIEYKIYTKHANIKKFLILGDSKGIENILSEIEKKTMNKIKFVDTEDYDNLLIVDPKIKRNGENVEYLPNLCEYYLKRIPIEVLSKFSEYYEVTLNNPLESPSKRIIDIIISVVLMILFSPFMLIISFFILIEDGLPIIFEQKRIGKDEKSFKMIKFRSLKEAKIDKNNPNGEIEKRVLKIGKFIRFTRLDESLQFINVLKGDMSIVGSRPEMEEFHLKMNGKIPFYSKRLKLKPGITGWAQINYKHTSTIKDYIKKTEYDLYYIKNRNLMLDLQIMLKTFETMIGMKGAR;locus_tag=LOCUS_03240;note=WP_004081168.1 sugar transferase (Thermotoga maritima) [pid:45.7%25%2C q_cov:91.1%25%2C s_cov:91.9%25%2C Eval:4.0e-88],MGA_326
sequence1	MetaGeneAnnotator	CDS	365903	366214	.	-	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIEFFTLTGEDGNEYHFMYVDEIELNGTKYWICDEAFPEENAEEIVLGDSVAFKVIQDGEDFFLDSIEDEKEYEAVSKAWEEAEKEIEIDEDADFEIKEKE;locus_tag=LOCUS_03250;note=MGA_327
sequence1	MetaGeneAnnotator	CDS	366310	366582	.	-	0	ID=MGA_328;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814866.1;translation=MNKKSLVSAISEKLNVSKKDAEKFLNDFVDIVSESLEKGESVKLVGFGTFEVVKREERKGINPQTKETIIIPAKKVPKFKAGTELKNRVM;locus_tag=LOCUS_03260;note=WP_005814866.1 HU family DNA-binding protein (Desulfitobacterium) [pid:61.8%25%2C q_cov:98.9%25%2C s_cov:97.8%25%2C Eval:4.0e-23],MGA_328
sequence1	MetaGeneAnnotator	CDS	366774	368432	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDSLYIKLGIPIILFVLLALTTYLSTLYITKMQSADGLVINLAGRQRMLSQRMTKEALTFSKFKKEEDKTDLLNTLKVFDTTLTSLKDGGEAPFDLAWKKMVNLPKAPEKVKLQLETVKNIWDNFYNKMHDFLDKDSEESLVYLINNNLSLLIEMNKAVTLFQEESEKKVVLMKSMQLIIFIISLLLGTYAIYMLRKSLSPLKSLEKIAEGDLTVKSSIETNDEIGIIAQKMYMLVGEKLRPTFEFIKENLEKIKVHSDEVSSSAQESNAITEEFKAAFDMMSEEAEVMKNETDNTNDAVSEISRSTDEVANSAIELANVAGTLEDATNNGKEVMANLESAVNNAKNETLKTIDEVKELEKYASNITEVIEQVSNIADQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEETRNATEEISEILGSIKSNVDKSTDQIFTVKETVEKVTDHSKTLEKELNNILNQTSVVSEKSQTLAASAEEQNASSQAISQSFENVNDSLNKYFDNVRNMRESSNDIQNTADNLANIASDLQLSVDNLNDSISKFKF;locus_tag=LOCUS_03270;note=WP_004081682.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:29.6%25%2C q_cov:67.9%25%2C s_cov:66.1%25%2C Eval:1.8e-47%2C partial hit],MGA_329
sequence1	MetaGeneAnnotator	CDS	368462	369226	.	-	0	ID=MGA_330;product=TIGR00266 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403082.1;translation=MADVIDYKIYGDDMQLVEIELDYGEGVRAEAGAMMYMEDGIEMQTNTGGGIFSGLKRMVTGESFFITNFYYKGNGKGHVAFGAPYPGKIIPIDLSKFNGQFICQKDSFLCAAKGIEIGVEFTKKIGAGLFGGEGFILQRLEGDGLAFIHAGGTIIKKILHPGESLRVDTGCIVGFERNVKYDIQFVGGFTNALFGGEGVFLARLTGPGAVYLQSLPFSRLADRISAGVRSNKGETKGIDGIGKNILGSFFGGDN;locus_tag=LOCUS_03280;note=WP_011403082.1 TIGR00266 family protein (Salinibacter ruber) [pid:66.8%25%2C q_cov:98.4%25%2C s_cov:97.3%25%2C Eval:7.2e-97],MGA_330
sequence1	MetaGeneAnnotator	CDS	369316	369909	.	-	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLLVLFVAILSLTSFSNLIVGGNGWSDIFFGFEGWNAYGGVKEYLSLDSILGEEYTKLNLPLTDIQYIFDGGINYVGFDGSVLLDDTNLSFGSYYLSGEAKAAIGTTFLKLNFFGYDVIPAFETGLSANYYFYDTKALTAAQKAGFGINLLGDLYLNPIFGFTFIFESTEKTDIKITPHFFPWPFMLGVEVELN;locus_tag=LOCUS_03290;note=MGA_331
sequence1	MetaGeneAnnotator	CDS	370071	372239	.	-	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFKSLSFKFILLMSLVLIVSFSVIGFFSAREITNLSNDLIKNKIMEKSVDKITNIILTNDSKIAKLREEAIKDQVLRLTSIDEMAKDIIEKYIQLEKSGKMTRKEAQEAAKNDVKLLKYDNGEGYLFGFTEKSVTVFHAAKPSLEGKSLYDLKDKNGNYVIRNIVKAAKDKFNGIGDGSSVYYWPKPGMPDDQVFPKLSVGLYVPEWNWYIGTGVYIDNIDKNMAQLKKESDDQLYKMLYSNPTLGNSSYPIVYDKDGKFVMYYKKESIGKKSSAVDDKTGKKVFDIVKDVKNGFFSYYYPKPGQTKPVKKIAYVKNIGDYYVVLAAYEDEMYAAVRKSISITIWISIFSIIIVSLIIYFLFRNMIKKPLNTIVEFSKEISNGVLNKELKKDKNDEMGILQESLESMRKNLHKIVIEIKEKSQKTEKNSANMAALSEELNATTEEAFADSEKVTEAAENTAAAIEETTASVDEVATSAQVVSSAATSLADKNDEVENNIETGEKKIREIKDIAKNAVDNAEDNYSTVKKLQDESANIEGIVDAIVTIAEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEETKTATESISELLGNIKNDTKVVGEKSLGLKDIIEKVGNQSNEVAIGFENIKNSMKEMSSMVTNLAASAEEQSAAAEEMAAAMNQASDNVSTVSSSIKNTKEEIKAVADSSVEIVGMAEELSQISNELDSLVEKFKV;locus_tag=LOCUS_03300;note=WP_004081682.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:28.8%25%2C q_cov:68.7%25%2C s_cov:88.7%25%2C Eval:7.0e-58%2C partial hit],MGA_332
sequence1	MetaGeneAnnotator	CDS	372277	373392	.	-	0	ID=MGA_333;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_051618904.1;translation=MELKKRNFVFLSLLLFSILVNTLAPIMTSIKSTFNVSIIELSFVPTLSTVGSMLSNFIGAMIIAQLGLKSSLLITIIFGVIGTSIFAISSSFLMILFGIFFIGVSMGTAFTTLTSFFAHLDEKYQNYGFFHACFGFGGILAPVFIAFLLKYNIDFRTIYAVYSVLLIVLFFYVLLTNTMKNTKYEAIRFREALKILSRKFVYISLIIFVLYAGVEIGYVTWSGTLFNKFNITKENASLILSGFWIVFTFARILTEKINKKIGLLKTISIFSFFSALSIILLLFTHNYLFFISTGIFLGPIFPSVQKFSNSKLSNREVGLFSGLVYGSTGIGQLIIVNSMALIGSINILYSYVLPMFILFTLILLKRLLNSV;locus_tag=LOCUS_03310;note=WP_051618904.1 MFS transporter (Deinococcus radiodurans) [pid:21.8%25%2C q_cov:86.0%25%2C s_cov:79.7%25%2C Eval:1.1e-10],MGA_333
sequence1	MetaGeneAnnotator	CDS	373506	374549	.	-	0	ID=MGA_334;product=endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986423.1;translation=MKKVLKVSLWILSILVVAVIAFFGFYTAVDFKPNKVIKLNVTSNGKSIDKNELTLMTWNLGYMGMGKEIDFFMDGGTQSNPKKENVERNLKGILNFISTHNADFYLLQEVDKNSKRSYHIDESKEIAKALNNYAYSFAVNYKNPYVPVPLSDPMGKVLSGLFTLGKYTPSSATRYALPGEYGWPIKLVQLDRCIQEWRFPYKDKELVIINTHNSAFDDGSLRKTQMGFLKDKLLSEYKKGNYVIIGGDWNMVPPGVPLNNFKSEQKIPSWIIEISKDWPDKGWKWNYDIKTPSIRNDDIPYTPGKNYTTIIDSFLTSPNIVVESINGYNLNFVYTDHNPVMIKVKLN;locus_tag=LOCUS_03320;note=WP_011986423.1 endonuclease (Clostridium botulinum) [pid:43.3%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:8.9e-81],MGA_334
sequence1	MetaGeneAnnotator	CDS	374907	375770	.	+	0	ID=MGA_335;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814610.1;translation=MSVKIITDSTSYIPENIKKELDISILSLNISFDTEEYKEIELKNETFYKKMEEYDELPKSSQPSIKDFYTAFEEIVIAGHEIVGVFLSSKMSGTYSTALMVKNMILENYPEAKIEIVDSTSNSMQLGFAAITGAKLAKEGKNIEEIVSEINKNIKRSKFIFIPDDFKYLKKGGRVGTAQAIIGSVLKIKPILTVINGKTAVLEKIRTRKKAIEKMIDIFAKDIEKYGFGDAVVHHINCEEEALKLADLLKETTGKIIKIVPIGPVIGTHVGPGSIGIAYFTKETLNS;locus_tag=LOCUS_03330;note=WP_005814610.1 DegV family protein (Desulfitobacterium hafniense) [pid:52.6%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:3.0e-81],MGA_335
sequence1	MetaGeneAnnotator	CDS	375767	376372	.	+	0	ID=MGA_336;product=ribonuclease H family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889235.1;translation=MNKKIYAVKKGRKTGLFSSWKECEEQTKGYSGAIYKSFTNKEEAEKYLQNSSLNKKTKNVDIKNTIIAYIDGSFNSKTKEYSAGIVMFYNNTKKTFKYKDKDPKFSKMRNVAGEIMASQLIMQYAVKNHVKNLEIYYDYEGIEKWCTDEWKANKTGTKLYKKYYDQIKDKVNIKFIKVQAHTGNKYNEEADKLAKSALGLL;locus_tag=LOCUS_03340;note=WP_009889235.1 ribonuclease H family protein (Clostridioides difficile) [pid:51.3%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:2.6e-55],MGA_336
sequence1	MetaGeneAnnotator	CDS	376413	376904	.	-	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEENMGDVKINKIAKPSSVYFEMFLGTLNILVSTIVLLFSGIVQIFREELTQLIGTQFTLDFKNLIIINIPILVFGILLHIYSLERVANKKYKLYGFFIFLLGFVMTGLITFLIVKYSLNWFGVSLFGKTSIGLNKLFYFPSIAYIAYSLIIIYYSIGLMRR;locus_tag=LOCUS_03350;note=MGA_337
sequence1	MetaGeneAnnotator	CDS	376975	378315	.	-	0	ID=MGA_338;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861729.1;translation=MELNLTEGSILKKLTKLALPIMATSFFQMAYNMTDMMWLGRVGSSVVAAVGVAGFFIWFANAIVMMTKVGAEVTVSQSIGAKNKKKAFEYIISSLFLAFVLGVFYSVFLYFFANDLISIFQFEDKSIFSMSVNYLRIISFGILFTFLNPTFSGVYNGLGNSKIPFLVNGIGLIVNMILDPILILNFNFRETGAAIATVFSQLIVLIVFLIDFKKFKESLVFKFNLSNFKKIIKIGFPITLNSSLFATFSMIISTMISKYGALPVAVQSVGAKIESVSWMTASGFSTALGTFTGQNYGAGKINRIKKGYLSTITLSFIVGLSATFAFMFFGKQIFSFFIPEQSAIDLGFKYLKILAISQVFMTLEISTQGAFNGFGKTIPPTVVSILFTGLRIPFGVLLAEYITKDVTGFWWSISISSILKGVVLTTWFVLFFSSKYNKNIFNSEKI;locus_tag=LOCUS_03360;note=WP_011861729.1 MATE family efflux transporter (Clostridioides difficile) [pid:45.8%25%2C q_cov:95.7%25%2C s_cov:96.2%25%2C Eval:1.4e-108],MGA_338
sequence1	MetaGeneAnnotator	CDS	378363	379106	.	-	0	ID=MGA_339;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889131.1;translation=MSDKVLAVVNGKEITERAVNDLIAKLGPQRSAPFMTPEGKKQLLDELINQELIYLDAIDQKLDEEEDFKINLDVVKKDILKQYAIGKLLNPITVSDDEVKKYYEENKAAFVKPESVKASHILIDSEEKANEILEELKNGTDFADAAKKYSSCPSKAQGGDLGYFGRGQMVPEFDSAVFNMELNEISNPVKTQFGYHIIKVTDKKDKEMSSFEEVKEGITKQMLNMKQSEVYLKKSQELKSKYTVEIK;locus_tag=LOCUS_03370;EC_number=5.2.1.8;note=WP_009889131.1 peptidylprolyl isomerase (Clostridioides difficile) [pid:53.1%25%2C q_cov:98.0%25%2C s_cov:96.8%25%2C Eval:2.3e-68],MGA_339
sequence1	MetaGeneAnnotator	CDS	379200	379835	.	-	0	ID=MGA_340;product=hemolysin III family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964265.1;translation=MKKRDYSIGEEIFNSITHGVGALLSLIALILLLVSSFLKGNTLHAASALVYSLTLFTLYLFSTLYHAIPNKKAKSVFKIFDHSSIFLLIAGTYTPFTLITIGGDLGWRVFAIIWSIAIFGILKEIFIKKKMVVLSTLIYLSMGWMVVFVLKPVVSNLPFWGLIWLIIGGLFYTAGTAFYIVKKIPYFHSVWHLFVLAGSVSHFICIYFYVV;locus_tag=LOCUS_03380;note=WP_010964265.1 hemolysin III family protein (Clostridium) [pid:46.3%25%2C q_cov:96.2%25%2C s_cov:96.2%25%2C Eval:3.6e-53],MGA_340
sequence1	MetaGeneAnnotator	CDS	380124	380540	.	+	0	ID=MGA_341;product=Hsp20/alpha crystallin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083188.1;translation=MSLLKVYNDDFFKKPFELFEEFDNLLNAAPTRDMKIDIYEDEKSLNIEAELPGVTKKDIKINLEDNVLSIRCDKKEEKEEKGKNYFRRERVFGTFERSFKLPENVDVEKIDANFENGILKLNIPKKEKQNNSKEIVIK;locus_tag=LOCUS_03390;note=WP_004083188.1 Hsp20/alpha crystallin family protein (Thermotoga) [pid:42.1%25%2C q_cov:84.1%25%2C s_cov:85.7%25%2C Eval:6.9e-23],MGA_341
sequence1	MetaGeneAnnotator	CDS	380558	381739	.	-	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKFLSILIILTLPILVFLSDYNLNLSNGDYLWINGLTDNIIGHIPGMYEQNNELFFRADNSVSEYSFDIGLNKWKIGISKNTNDSTVLFYDISTQDRNNKNLSYFLNLINGAKKFIYLSVYDLDNVDIVNALISAKNRGVDVRVVIESGNRNTKTDFKLPNNNIPIIYDMNSAYMHNKFGVIDGYCVVTGSTNLTETGINSNSNNMFIVFNNELAQDYMEEFNEQFNKKMFGKYDDNIKSFVKVKTNSGLIEPFFMPEDDLKDRLVQLINSAQQSIDIMMFTFTDKEIANALLDAKNRGLKIRIIMETFQAKSSWSVYSFIKSLNPVLDKNPRTFHHKVMIIDNSITVTGSYNFTNSAQFKNDENALIIHSQDVSHSFTKEFNRFWTLYTKK;locus_tag=LOCUS_03400;note=WP_012256684.1 phospholipase D-like domain-containing protein (Chloroflexus aurantiacus) [pid:31.2%25%2C q_cov:71.0%25%2C s_cov:73.8%25%2C Eval:1.6e-36%2C partial hit],MGA_342
sequence1	MetaGeneAnnotator	CDS	381909	382406	.	+	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLVLMIVVISVFAFSVQLSGAFRFMPNGDTYPDGTPKGANGFRISNLDSFIGLSIEGYMPNDPRHPDFLEFNAFVLGVLKLGIIDVYGGVSPILLFNLQDPSTTETTPSGGLYHSLNPFVLKGGAELNLGAINIIGEAYFVTNDKFRHFDQLGYALGVGLTF;locus_tag=LOCUS_03410;note=MGA_343
sequence1	MetaGeneAnnotator	CDS	382435	383574	.	-	0	ID=MGA_344;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948041.1;translation=MDIKELSLKKHEEWKGKLEVVSKSKVNNSHDLAIAYTPGVAEPCKKIYQNNDDVYKYTMKGNTVAVITDGTAVLGLGDIGPKAALPVMEGKCVLFKEFAGINAIPICLDTKDVDEIIKTIKLISPGFGGINLEDISAPRCFEIEERLKKELNIPVFHDDQHGTAIIVLAGIINALKVVNKNTDVRVVVNGAGAAGTAITKLLLKYGFKNIMVCDKQGILTPKTAVNDHQKELALMTNTKELSGSLKDAIKKSDIFIGVSAPNIVTEDMVKSMNKDAIIFAMANPTPEIMPDLAKKAGAKVIGTGRSDFPNQVNNVLAFPGIFKGALKIRSQISDDMKVAAAEAIASMVDDLNEDNILPKAFDEGISDKVAEAIVAINKK;locus_tag=LOCUS_03420;EC_number=1.1.1.40;note=WP_011948041.1 malate dehydrogenase (Clostridium botulinum) [pid:69.0%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:1.2e-147],MGA_344
sequence1	MetaGeneAnnotator	CDS	383587	384078	.	-	0	ID=MGA_345;product=Fe-S-containing hydro-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545215.1;translation=MNIESLKIWDEISYSGELIVMRDAAHKRLKELMDDNKKLPVDLNKKIIFYAGPAKSLDGFPVGSIGPTTSNRMDPFLDMVFSLGVLGTIGKGKRSSVAISMCKKYKRVYFVTPSGSAAVMAKKVIKRKVLAFNDLGTEAIQLLEVVDFPLLVAIDSNGNSIFK;locus_tag=LOCUS_03430;note=WP_012545215.1 Fe-S-containing hydro-lyase (Thermodesulfovibrio) [pid:46.0%25%2C q_cov:98.8%25%2C s_cov:88.0%25%2C Eval:4.6e-37],MGA_345
sequence1	MetaGeneAnnotator	CDS	384068	384892	.	-	0	ID=MGA_346;product=fumarate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583696.1;translation=MESVDLNSIKNELIEAIKNANVLINSKVKEKVDNYSGLFCNTLKENYSVSKDTGMPLCQDTGMVEFFVFVGKDLCFNENINDFLNNCVEEVYTKNPFRYSTVNDPLFERKNLNNNTPAIVHLFQTNDSTLKIKFLIKGGGSENNTALFMLKPSSTKEDVVEIVKSFIKENGAKSCPPLHVGIGVGGSSDKAIILSKMALLKDFNERNSNELYANLENKLIKELNELKIGFQGLGKGSSVHSVHINYFPTHIATLPLAISVDCYLCRKGEVCFEY;locus_tag=LOCUS_03440;EC_number=4.2.1.2;note=WP_012583696.1 fumarate hydratase (Dictyoglomus turgidum) [pid:37.3%25%2C q_cov:97.4%25%2C s_cov:97.9%25%2C Eval:8.5e-46],MGA_346
sequence1	MetaGeneAnnotator	CDS	384941	386767	.	-	0	ID=MGA_347;product=exopolysaccharide transport family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081154.1;translation=MEEQEMELSLSDILRIFKRRSKFFWIILISTFVLTLIYLFAFAKPVYEVKQTIEYKGSSGSSFSLGSLSGLASLAGISTGGNSSLSTEIEKMKSDEVLKEVIKDLNMVEKANENKGFLTKLRGITYTERDFIDKLKEDISINNVKDTSLLNISYKNSDPTFAASVVSLLYKHYMKYSEDNYYKNNAEYMSGINKLFNDTETQFDLINKEIMDYQIKNKITSSQVQNDPMISYYATTYMNLLKLDSQKSQLEMKLKAIESNLLKLNPDMKEYLAVNSVSALNNLKVSLEKNKMTLETLKLTQPNSPKIDELNAVISVQENDFKTSLNKVLSNNLNFLAATDKNTFNDYISTKTQLEMFDVLKNVNKKILSMIDAEISKKSPILYKYYELKKNQKILETKYNSLLNLVESEKMKKSLYQQKFDVVSPVYVPLKPVAPNKKLTLAIGIVLGIFLGILGVFLKESSDKTIKDINEFEALFGVPEIKMSKKEVNKLANYIYQHGGNNIGIISLSSDPEIHKIGRFVYNKLYEVNNDYDFYDTHTISDKIKVFDEVKGKDKNILSFIDFESEDYILYKNILDVNIILVKEKETNIDHVVEAKKSIKNMVYVYIK;locus_tag=LOCUS_03450;note=WP_004081154.1 exopolysaccharide transport family protein (Thermotoga maritima) [pid:26.0%25%2C q_cov:78.6%25%2C s_cov:75.5%25%2C Eval:5.6e-37],MGA_347
sequence1	MetaGeneAnnotator	CDS	387060	387260	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNLLKKSGKVAYTETINGKEKRTTKTYNLYTDDDTLIKQALDEVVNLSSNKNAFYAYREDYEII;locus_tag=LOCUS_03460;note=MGA_348
sequence1	MetaGeneAnnotator	CDS	387309	387521	.	+	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLTMKFYDVNAKKNYTVNISDFDDTKTQEEIQASMDKMIGVLVPTTAAKDEALITDTNKTEVFNLIEN;locus_tag=LOCUS_03470;note=MGA_349
sequence1	MetaGeneAnnotator	CDS	387521	387712	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILTGIIPTLVKMIEHPGNGEIKKEIVMNATKEVLKVNNLYNPLLDAAISAMIDGIAGLLKN;locus_tag=LOCUS_03480;note=MGA_350
sequence1	MetaGeneAnnotator	CDS	387885	388286	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNQKRFTDEQLVQMIQNEKTPKRLKEKAKETLFNKYIGMLKNKTKKLCENCSTDFDGTYQSLCYLFNLAIKTFKMKGQFKGYSSRYIDLKVMNDIGKQKTKLPYVGKESPFYIRNWDKVYFYEETSEVYNRE;locus_tag=LOCUS_03490;note=MGA_351
sequence1	MetaGeneAnnotator	CDS	388619	389938	.	+	0	ID=MGA_352;product=sugar transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081168.1;translation=MRKAIKLLDMLIILLFNIYAMALPIWLSLIITAALFIGLYAFRTYDSENMKSINENLIRTTVGTIIGYIIILLVYVFIEKYINRYIFLYNLLFVMITIPVLHKIEYILYSKHFPVKRYLVIGRKNEIGKILDEITKKSMNKLQFVEYINPSPVRLEKLMTENYEEKNPLYFFNLKKEKETAKNNFNAIIITDPKLEDLVKPQLQEYKKRNIPIEYLPNIAENYLKRIPLEVAEKFKEYYEVIFQNVKESPAKRIGDIIISSVLFAVFSPFMLIISFFTLFEDGKPIVFSQKRVGKNEQLFKMHKFRSLKNQPINKENPNAGIEQRVLKIGKITRKLRIDETLQFFNVLIGNMSIVGSRPEMQEFHNQMKGKILFYPKRLLLNPGITGWAQINYKHTTTLEDYKKKTEYDLYYIKNRTSIMDLQIMLKTAETMLGMRGSR;locus_tag=LOCUS_03500;note=WP_004081168.1 sugar transferase (Thermotoga maritima) [pid:40.6%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:3.0e-87],MGA_352
sequence1	MetaGeneAnnotator	CDS	389938	390933	.	+	0	ID=MGA_353;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000096185.1;translation=MKKYELPMISIIIPLLNEEKHIKKLLKSIDDQTYPKEKIELILVDGNSSDNTVKIINTEKQKRKYDILLLNNPKKLTPISMNIGIKRAKGSYIVRLDAHATYNKEYIYEGIIEMINNDSLISVGGYWYTTPVFETKRSKVISKIFNSYLGSGFSKYRMNKLNKAKNKIVDTVPYGIFRKEQLIKVNGYNEKLIRGQDIDLFYRLKKIFNGKIKILKNMKIYYKLKSTNAIELYKRQFKQGIWLFNRKEGILFRHYFPLLAGIIGLILFFINLKIYIYVLLFYFFICSISYLIEIDNIIEIFLLPYALYSYFMNHLGFFLGVIKSFLKLLKK;locus_tag=LOCUS_03510;note=WP_000096185.1 glycosyltransferase family 2 protein (Streptococcus pneumoniae) [pid:26.9%25%2C q_cov:96.1%25%2C s_cov:83.6%25%2C Eval:4.5e-26],MGA_353
sequence1	MetaGeneAnnotator	CDS	390948	392114	.	+	0	ID=MGA_354;product=UDP-glucose 6-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015706040.1;translation=MKITIAGTGYVGLSLAILLAQHNEVTALDIIKEKVEMINNKISPIKDKEIEEYLKTKKLNLKATLDKNEAYKNAEIVIIATPTNYDEEKNYFDTSTVEKVIEDVLEINPNALMIIKSTIPVGYTNSIKGKYEIENIIFSPEFLREGKALYDNLYPSRIVIGEQSERAKTFANLLIEGAIKKDIPVLYTNETEAEAIKLFANTYLAMRVSFFNELDTYAEIRGLDTKQIIEGIGLDPRIGNHYNNPSFGYGGYCLPKDTKQLLANYENVPNNIIKAIVDANTTRKDHIANMIIKRKPKIVGVYRLTMKTNSDNFRQSSIQGVMKRIKAKGIEVIVYEPTLKETKFFNSRVINNLDEFKNLSDVIISNRMHEELNDVIEKIYTRDLYKRD;locus_tag=LOCUS_03520;gene=ugd;EC_number=1.1.1.22;note=WP_015706040.1 UDP-glucose 6-dehydrogenase (Klebsiella aerogenes) [pid:72.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-162],MGA_354
sequence1	MetaGeneAnnotator	CDS	392443	393522	.	+	0	ID=MGA_355;product=GDP-mannose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107662.1;translation=MKKALITGITGQDGSYLAEFLLEKGYEVHGIIRRSSSFNTGRIEHLYIDELIKDMHKERKVKLHYGDMTDSTNLIRLIREIEPDEIYNLAAQSHVQVSFEVPEYTADTDGIGTLRLLEAVRFLGFEQKTRIYQASTSELFGKVQEIPQKETTPFYPRSPYAVAKLYGYWIIKNYREAYNMFAVNGILFNHESERRGETFVTRKITLAASRIKLRKQEKLYLGNLDAKRDWGYAKDYVECMWLMLQYDKPEDFVIATGEMHTVREFTTLAFKEVGIELDWQGNGINEKGIDKATGKVLVEVDPKYFRPTEVEQLLGDPTKAKTLLGWNPTKTSFKELIKIMVKSDMELVKKEDKSTRSFD;locus_tag=LOCUS_03530;gene=gmd;EC_number=4.2.1.47;note=WP_011107662.1 GDP-mannose 4%2C6-dehydratase (Bacteroides thetaiotaomicron) [pid:80.9%25%2C q_cov:97.5%25%2C s_cov:98.3%25%2C Eval:2.4e-169],MGA_355
sequence1	MetaGeneAnnotator	CDS	393554	394627	.	+	0	ID=MGA_356;product=GDP-L-fucose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012544929.1;translation=MEKNSKIYVAGHRGLVGSAIIRKLKSDGYTNIITKTHKELDLTNQQETREFFEQEKPEYVFLAAAKVGGILANDTYKADFIYQNIMIASNVIEASYKYGVKKLLNLGSSCIYPKYAKQPMKEEELLTGELESTNEPYAIAKISAIKMCRYFNEQYGTNFISVMPTNLYGPNDNFNLETAHVLPALIRKFYLGKLLEEEKYDKIIENIKKYKIGFNLDKEIDFDNKDSILKVLKKVGVTKEAITLWGSGEIYREFLYVEDMADACVYLMKNIEAKEMKKVSLDYFVNIGTGKDIKIKELSNLIKEIIEYNGETIYDKTKPDGTPKKLLDVSKLNSLGWKHNIELEKGVKLIYDWFRGR;locus_tag=LOCUS_03540;note=WP_012544929.1 GDP-L-fucose synthase (Thermodesulfovibrio yellowstonii) [pid:54.5%25%2C q_cov:99.4%25%2C s_cov:99.2%25%2C Eval:7.8e-120],MGA_356
sequence1	MetaGeneAnnotator	CDS	394730	396352	.	+	0	ID=MGA_357;product=lipopolysaccharide biosynthesis protein RfbH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002208596.1;translation=MFSPEFLREGKTLYDNLYPLRIVIGEQSKRAKIFKHIKQNNKSNSRCKYNTKRDHIADMILKRKPKTVRVYRLTMKTNSDNFRQSSIQGEKSMNKKEQLKQEILEKTKEYYNLVHKNKRKFIPGETFINYGGRFFDENEVINLVDSSLEFWLTSGHWAEEFEEKFARYLNIKYCSLTNSGSSANLLAFMALTSPKLGEKRIKKGDEVITVAAGFPTTVTPIIQYGAIPVFVDVELPSYNIDVTELEKALSNKTKAIMVAHTLGNPFNLKEVKEFCDKNKLWLIEDNCDALGSEYFIDGEWKKTGTIGDIGTSSFYPPHHMTMGEGGAVYTNNSLLNRLINSFRDWGRDCWCKSGVDNTCNHRFSKQYGELPLGYDHKYVYSHFGYNLKATDMQASIGVAQLNKLENIVNRRRYNWKKLNEGLKSVSDVLILPEAEANSNPSWFGFIISVKENNNITRKGLVEFLEKNKIQTRNLFAGNLIKHPAFDEMRKTNTGYKQIGNLKNTDFIMKNTFWIGVYPGITDEMLDYMILKIKEYIKINK;locus_tag=LOCUS_03550;gene=rfbH;note=WP_002208596.1 lipopolysaccharide biosynthesis protein RfbH (Yersinia pseudotuberculosis complex) [pid:54.2%25%2C q_cov:82.0%25%2C s_cov:99.1%25%2C Eval:1.2e-136],MGA_357
sequence1	MetaGeneAnnotator	CDS	396365	397144	.	+	0	ID=MGA_358;product=glucose-1-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107730.1;translation=MKVVLLAGGFGTRLSEETVNIPKPMVRIGDKPILWHIMKTYSEYGYNEFIVCLGYKGYVIKEWFANYMLHTSDVTIDVKSNSVEVHNNKAEPWKVTLIETGQNTMTGGRIKRIKEYTKKEPFMLTYGDGVADINIEELVKHHQKSGKALTVTAYKPKGKFGSLEINENNDVTAFTEKPAGDGMWINAGYFVCEPEVFDYIKNGDSTIFEREPLENIAKDGKMTSFKHEGFWKPMDTLRDNIELNEMWDKNKAPWKIWND;locus_tag=LOCUS_03560;gene=rfbF;EC_number=2.7.7.33;note=WP_011107730.1 glucose-1-phosphate cytidylyltransferase (Bacteroides thetaiotaomicron) [pid:59.9%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:2.4e-95],MGA_358
sequence1	MetaGeneAnnotator	CDS	397175	398245	.	+	0	ID=MGA_359;product=CDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202465.1;translation=MNLFNNIYKEKRVLVTGHTGFKGSWLTIWLKELGAEVIGYALDPYTVKDNFVLSKLSDKIVDIRGDIRDKKKLEKVFNEYKPQIVFHLAAQPLVRLSYEIPVETYEVNVMGTINIMECIRKTPETKVGIMITTDKCYENREQIWGYRENEAMGGYDPYSSSKGAAEIAISSWRRSFFNTKDYEKHGKAIASVRAGNVIGGGDWARDRIIPDCIRALEKGNPIEIRNPKAIRPWEHVLEPLSGYLLLGEKLLKNPKKYAEGWNFGPTLDSIVSVWEIGKKVIKNYGNGELKDISNSTAVHEAKLLALDISKSRFKLGWKPTLNIDETIEMTVEWYREYKNRSVYNMCVEQIEKFINK;locus_tag=LOCUS_03570;gene=rfbG;EC_number=4.2.1.45;note=WP_011202465.1 CDP-glucose 4%2C6-dehydratase (Bacteroides fragilis) [pid:68.0%25%2C q_cov:99.2%25%2C s_cov:98.3%25%2C Eval:5.3e-145],MGA_359
sequence1	MetaGeneAnnotator	CDS	398346	399272	.	+	0	ID=MGA_360;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545190.1;translation=MEKILITGGFGFIGKNLIEYLSKQYKIVVIDKYVDEQFIKKYNEIKYYEYNFFENDNIKLIISDEDPDYIINLISIVTAERNMDIFNDMIQANINIFLKLYEASKALKKLKLFLHFGSGEEYGNIKAPFNENNREYPNSPYALAKQITTNTAMMLNKNYNFPIAVVRPGNLFGKYQEKNKFITYIINQLLDNNKIETTLGEQKRDFIYASDFANGISLILKKYDNFLGEIVNLSSGKSISLKKIILFCKDYIKSDSEIEFGKIPYRENEIMDFELDISKFKNRIGQYFNIDIKEGLKKYIELLKGENK;locus_tag=LOCUS_03580;note=WP_012545190.1 NAD(P)-dependent oxidoreductase (Thermodesulfovibrio) [pid:32.4%25%2C q_cov:98.7%25%2C s_cov:97.4%25%2C Eval:2.1e-30],MGA_360
sequence1	MetaGeneAnnotator	CDS	399269	400309	.	+	0	ID=MGA_361;product=CDP-paratose 2-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000770936.1;translation=MKYLINGGCGFLGSNMAAHYIKNGNEVIVFDNMYRFGTEKNLDWLNSLKGNFKFIKGDVRNIYEIGKVIQEEKPDIIFHFAGQVAMTTSIENPYMDFEINVKGTINVLESVRKYSPETIVCFSSTNKVYGDLKYLNFEEKNLRYVSKDYPNGFDETISLEFHSPYGCSKGSADQYMLDYARIFGLKTIVFRHSSIFGGRQFATKDQGWVGWFCQKAYEIKKGIAEEPFTISGNGKQVRDILFGTDLIECYELAIENIDKTKGQVYNIGGGMKNSFSLLELFKELEKNLDIKMEYRKLPWRESDQKVFVADISKAKKDFDWEPKVNKYDGLKRMYEWVEKINDVKIK;locus_tag=LOCUS_03590;note=WP_000770936.1 CDP-paratose 2-epimerase (Salmonella) [pid:59.4%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:5.9e-117],MGA_361
sequence1	MetaGeneAnnotator	CDS	400629	401579	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKGKVSICITTYNRPKLLRELLESILIQSYQNFEIIITDNSNNTDTKEMVKKINSNKIKYIKNDRNIGMGKNALKAFSYVDGEFMTFTPDDDLWNDKTKIEKQVKVLNQYKNINIVYSNANSIDYNGNLLDEFTSIYDGDEFKFLKGEELLPGNETNYFLNILTAMLRSEKLLNIFKESYHYNSEEYLCYYIGATEEEIGFISKKLVSLREAEHYREVEKKGKILDWKKAKDIRIKQILGIFSTLINLHPETCDKLETQKVELFLGKHIIRTAIQSKNIFLILKTIFSVYLFFEEFSLIKAFKLKNNKKKSFG;locus_tag=LOCUS_03600;note=WP_010942605.1 glycosyltransferase (Geobacter sulfurreducens) [pid:36.1%25%2C q_cov:41.8%25%2C s_cov:44.1%25%2C Eval:8.8e-16%2C partial hit],MGA_362
sequence1	MetaGeneAnnotator	CDS	401629	401967	.	-	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFVGIDVSKDKLDYFFDNSIKGIVDNSIDGYEKLVSIFKDKDISFALESTGIYSKNIFVFLKAHGFNELFFFAPSDVFNTRKILNWPKNDKLDDLNLLENLLVLDIIFHIN;locus_tag=LOCUS_03610;note=MGA_363
sequence1	MetaGeneAnnotator	CDS	402229	403164	.	+	0	ID=MGA_364;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005648226.1;translation=MNKSKPLVSILIPVYNREKIILETIQSAKNQTYQNIEIIIVDNCSTDATYEVVYDEARKDSRIKVFQNEENLGPVKNLKKCLEHSKGEYIKILWSDDQILKDYIEKTLPFLMNDMEIGFVYTSTIIYFETGKKRKAYRFGETGEYETKAFIKAHLFGEKHVPVSPGNALFRRKDIEKNLLIDINNPKKLDFSRYGAGNDLLIFLFTAASYSKFGFIDENLSFFRAHKNSFSISYDLDEYYTYSKVYFLNNIFKYKKDREVYFQYLYCLKKKYRYMIEEEQKNKLLFFKCKYLFIYLFKKFIQKLNKKIRRK;locus_tag=LOCUS_03620;note=WP_005648226.1 glycosyltransferase family 2 protein (Haemophilus influenzae) [pid:27.7%25%2C q_cov:80.7%25%2C s_cov:98.8%25%2C Eval:1.4e-18],MGA_364
sequence1	MetaGeneAnnotator	CDS	403166	404440	.	+	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIMHDTKWNIIDFVTSFIITFINIKVLTNGLGIEGYGFYSLFIGLIATFGLVDIGMGMAVSKYLSEFIGEKKYKDVNQVIEIGILFYLTLGIIVLIITIIFKENIINFLNLSGFYYKLGLKLIVLLPILMTLNFIIQILNNILVAFEKWKIISKINIIFKVINFLGILYIMFNLKQKILKIFVLILNIFIVKLIVSIIIIKRNYNFFELTKIRKNLFFKIINFLKYSLLQYLFSILLGHLDNLIIAKFINLKTVGVYQISLKVMNYLYSFLINIFKIIFPKISKMHGKKNLFKINQYIKKNLFICETISIVLSLFTIVTWKFFIGAYLGSKIANSTYIYILVFLVFLIIRAPEVIYYYYFNAIARPKVFAYSSVIEGFSNFALYILLIPKYGALGIILGHIISKLFGVIFFFIYSKKLKEY;locus_tag=LOCUS_03630;note=WP_005480626.1 hypothetical protein (Vibrio parahaemolyticus) [pid:20.3%25%2C q_cov:68.4%25%2C s_cov:58.7%25%2C Eval:1.1e-09%2C partial hit],MGA_365
sequence1	MetaGeneAnnotator	CDS	404454	405593	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIKNFYNIYNRVLKKQIKKNIFKTKYKKNVLISYIIDPFINKEKNIKHSNWKESRIIAKLFSNHEYNVDVVHYDYFKKINYSKYDLIFGFGDLYEKSFYVEDFKGKRIYYATGAHVNFQNNAELLRLLNLKKRKNKTLRPRRIVEKNWSCSTVLSDAIFCIGNDWTISTYSNYFKERIMKIPVSLGDFSFEKIEKKDIGTAKKNFLWLGSTGLVHKGLDLCIEAFSKTKDLNLHICGAFEEDFFEVYKNELKKENINYYGFLDINSSKFKEIISKCSYLIYPTSSEGQAGSVIIAMANGLIPIATKECGIDIDKYGILIDDISINKIIEIIKNVSIYSEKKIEKMSSLSYDYIKNNHTIEKFEKIFDESLKYFFKEE;locus_tag=LOCUS_03640;note=MGA_366
sequence1	MetaGeneAnnotator	CDS	405926	406273	.	+	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYTQNEKIKQVDEKTLVVGVDIAKETHYARTFDNRGIEYGKVIKFNSTREGFESFEKQIKEIAEIIGREKIIIGIELTGHYWYTLANYVNKKEMMLVQVNPYHVKRAKELECTK;locus_tag=LOCUS_03650;note=MGA_367
sequence1	MetaGeneAnnotator	CDS	406305	406682	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKDGRYAIPYIPRGIYAEIRKAYDIRETINKKLLVVKNRIQRWVAIYFPEYKTVFKGIYGKASIITLEELSIPLEIIKLNAEEIVEIWQKGIKRAVGIKRAKSLIEAAKETIGIKDGFSMVRN;locus_tag=LOCUS_03660;note=MGA_368
sequence1	MetaGeneAnnotator	CDS	406741	406920	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTMVYTIPRIENALSIKGVGIITISGFIAEVGDIKRFNHPKQIIKLAGLNLKETSSMR;locus_tag=LOCUS_03670;note=MGA_369
sequence1	MetaGeneAnnotator	CDS	406952	407128	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSLLFKAILPIVATNNEFKLMHNYYTTRVKNPLKKKQSLIALMGKLIKIIYTLITKK;locus_tag=LOCUS_03680;note=MGA_370
sequence1	MetaGeneAnnotator	CDS	407610	408746	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLVYGMNFISYYIGKIGIADLVLILLCFFSLYKISYIKIQKKDIYVFFFLFINFMVFIINVDEKYLAIDKFFFAYMKLIIYFMSYLIIPNYLSKDIKQFNKIIINSLNFICIYGLYQFIAHYLNIGLPYGLDTSMISYGIFRIRSIFREPSLFLFPVMMYLYLIVSGEKLSKKNHIIIISAFILSFSLTIYGLLFMGIFTVIAMKKLKLKYKSLVYVSIVIFSIVLYFSVPLVQNHIRNLIVLHPSSSTTRLVGGIIFALKTPYYGVGIGNLENYYNIKMNNVIIKLFTTGGAVNNIIAVIKIVSGYLGLFVFIWYLIKKYSKVCKDYLIILFVSFFTWGNFNSAGSFFFLIMLEILRINRKEKIKYEKCIGKCNNC;locus_tag=LOCUS_03690;note=MGA_371
sequence1	MetaGeneAnnotator	CDS	408712	409491	.	+	0	ID=MGA_372;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000922020.1;translation=MRNVLVSVITVSFNSIKTIKDTFESILLQNYKNIEYIVIDGKSNDGTVEIIESYKEKFMNKGISFKWVSEEDKGIYDAMNKGIKMAIGELIGIINSDDWYEKDIIEKIVNVYDKHNKPDIIHGNLKIYSERMIYKETRYPKDKYWKLWEGMIIKHPTCFIKKSLYEKIGLYNTKYKISSDYDFLLRAYINKARIVYFNNIISHMRLGGVSNEFLKDSWVEVERIAIKNGLSKIMAKYYFYKKILIRKIKKMVKKCALKY;locus_tag=LOCUS_03700;note=WP_000922020.1 glycosyltransferase family 2 protein (Helicobacter pylori) [pid:43.5%25%2C q_cov:79.2%25%2C s_cov:78.4%25%2C Eval:1.5e-41],MGA_372
sequence1	MetaGeneAnnotator	CDS	409473	410273	.	+	0	ID=MGA_373;product=glycosyltransferase family A protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_083199050.1;translation=MCVEILMSTLNKRSIKDLFLKEKNINRNIVIINQTNRKGNYIDGKNNIRMLNYNEMGTSISKNRAINNANCNLCILADDDIFYVKNYDEIIENQFSKNLDADVLTFQIKTPENKLYKNYIKKEMWHTKRTITKVSMIEIAFRRNRILEKNIKFDLDFGINCRYKNGEENIFLMDCIKEGLKIKYIPIPIVIHPDESSGKIIDEKGLFARGALFFRLFRYKALLVNLVFILKKYKMINQKLSILNAIKAIYKGTFDYIKLIKMRKKI;locus_tag=LOCUS_03710;note=WP_083199050.1 glycosyltransferase family A protein (Aliivibrio logei) [pid:42.8%25%2C q_cov:96.2%25%2C s_cov:97.7%25%2C Eval:3.0e-56],MGA_373
sequence1	MetaGeneAnnotator	CDS	410340	410519	.	+	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNKKDNRIKLIKLEKNSDATVSRNIAIKEANGKYIAFLDSNDLWKKTIMNLLLLNIN;locus_tag=LOCUS_03720;note=WP_003426498.1 glycosyltransferase family 2 protein (Clostridioides difficile) [pid:69.0%25%2C q_cov:71.2%25%2C s_cov:16.8%25%2C Eval:3.1e-10%2C partial hit],internal stop codon at [410667:410669](+)%2C[410682:410684](+)%2C[410799:410801](+),frameshifted%2C insertion/deletion at around 410344%2C410609%2C410651%2C410483,MGA_374
sequence1	MetaGeneAnnotator	CDS	410474	410611	.	+	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENNYEFTFTKYQLIKENGKKLDKYIEVPKTLNYKPVLLKNPIV;locus_tag=LOCUS_03730;note=MGA_375
sequence1	MetaGeneAnnotator	CDS	411458	411976	.	+	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEVVNIKKGATIFGYYVNNPREFGIVEFDENNNVISLEEKPENQKSNYAVPGLYYYDNSVIQRAKKLTPSAREEIEITDLNREYLNEGKLKVELLGRGFAWLDTGTYDGLSNANEFVRTIQKRTGLYISCLEEIAYKNKWISKEQLIKLGKEMEKTEYGQYILNIAGEVK;locus_tag=LOCUS_03740;note=WP_010965630.1 glucose-1-phosphate thymidylyltransferase RfbA (Clostridium) [pid:61.5%25%2C q_cov:98.3%25%2C s_cov:58.7%25%2C Eval:1.8e-58%2C partial hit],frameshifted%2C insertion/deletion at around 411313%2C411322%2C411219,MGA_376
sequence1	MetaGeneAnnotator	CDS	411973	413022	.	+	0	ID=MGA_377;product=dTDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965629.1;translation=MTILVTGVAGFIGSNFLHYYLSKYKDRKVIGVDSLTYAGNLENISGLMNNKNFEFIKADITDAQKINEIFEKYEIDGVINFAAESHVDRSIHDPQIFLKTNILGTQTLLDACKKSWYKDGRWSKDKKYLQISTDEVYGALGKTGYFTEETPLDPHSPYSASKASADLIVKAYYDTYKMPMNITRCSNNYGPYQFPEKLIPLMINNALNHKELPIYGDGKQIRDWLHVFDTCIAIDLVFEKAEVGQVYNIGGHNEKENIFIVNKIIETLREKTGDEKINESLIKHVEDRLGHDRRYGIDPSKIKRDLGWEPTIMFEEGIVKTIEWYLNNQDWMKSVISGDYLEFYEKNYK;locus_tag=LOCUS_03750;gene=rfbB;EC_number=4.2.1.46;note=WP_010965629.1 dTDP-glucose 4%2C6-dehydratase (Clostridium) [pid:64.6%25%2C q_cov:99.4%25%2C s_cov:98.6%25%2C Eval:1.4e-134],MGA_377
sequence1	MetaGeneAnnotator	CDS	413054	414475	.	+	0	ID=MGA_378;product=oligosaccharide flippase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048103.1;translation=MNGKEENKKDFLKRLAGFSIGPIVGALLGFISVPIQTWLIDPSQLGKTAMYSMAFGLTSLFIYLGIDQSFVREYNVEKDKKNLLWNSFLIPFIFSIIIMFVYIFFYESISKLLFNSIERYIIRILAFSLPFAVVFRFNTLIIRMKEKARLFSFIQITNRLIGLILLIIILLFFNKNFKGIIQAQFYTLILSAVITTFINIDDWKYKFKLNKVLVKKIVLFGLPLIPTSIMMWILNSMDKIALRTWADFNSIGLYSAAFKIAGIVGIVQQAFATFWAPTVYRWYENNVSTKKYEMVSNKLNSILTTLFAFIVLFKNQIIMILSPEYKSAAIIVPFLMFYPIMYTLSETTQMGIGFTRKTHYNILITIVASGMNVVGNFILVPKYGAVGASVSTGLSYIVFFWLRTFISRFLWKKFDIKKHAISIFLMIIMAFFSVIYNNFFIDLFLFMIIIVYNIKDILWGFSLIKGILIKNKK;locus_tag=LOCUS_03760;note=WP_012048103.1 oligosaccharide flippase family protein (Clostridium botulinum) [pid:46.4%25%2C q_cov:98.9%25%2C s_cov:98.5%25%2C Eval:1.7e-128],MGA_378
sequence1	MetaGeneAnnotator	CDS	414697	415014	.	+	0	ID=MGA_379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKCEYCKKELLKKGTLSFYGKKDTRTVSEIRVTHTGTCDKSMEEKMVKNNFINLGNLGLNEFYDKDKVFITLLDILERVVVSGLKIEVQAFNKLREIVEFLNH;locus_tag=LOCUS_03770;note=MGA_379
sequence1	MetaGeneAnnotator	CDS	415334	417145	.	+	0	ID=MGA_380;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKRLPIGQSDFKTIIEEDMYFVDKSLLIKEVIESGNVLLITRPRRFGKTLSQSMMKYFFDITQNNDYLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLAMELSRLYIKHEYVLKVLNKREKAVFNKIMDREALDADYENCIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEEDEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIGPYWMNTSGNYLIRKLIKEGTVNIKDSIEKLLNGEKIESKINETMVYGDLHINSNESIWTLFLFSGYLKWIKETKEGYRRYTLAIPNKEVRMFYEDTVLLMFEEENIQLDNILINLINGHIEEFKEDFQKLTMNTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAQNGLKQINEKRYEEEIKNYGINDIIKVSIAFDKKEVEIVSNLDKEEENNERKDLEYELKLKSIETAKKLKEMGLTKEQIIQATGLSIEEINILYK;locus_tag=LOCUS_03780;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.5%25%2C q_cov:90.4%25%2C s_cov:98.7%25%2C Eval:3.2e-101],MGA_380
sequence1	MetaGeneAnnotator	CDS	417312	417560	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLPIGKQDLKNIILNEYMYIDKTKYIYELARSDVPIFISRPRRFGKSLTISTLYYLFKGEKELFKRLYIYMINGNGKDIL;locus_tag=LOCUS_03790;note=WP_011107814.1 ATP-binding protein (Bacteroides thetaiotaomicron) [pid:49.4%25%2C q_cov:93.9%25%2C s_cov:14.7%25%2C Eval:1.2e-14%2C partial hit],frameshifted%2C insertion/deletion at around 417542,MGA_381
sequence1	MetaGeneAnnotator	CDS	417572	418462	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEMSIKNEEELEYGILLRLRLREIGKEYGVEINETIIKYAFSELIQKLSRKEKVVVLIDEYDRPILNHMNDGKAEVMRNILREFYVVIKDSDPYLRFAILTGITKLTKTGIFSSLNNLNDVTINKKYSQMMEITQEELKEGFKDHIEETTKELNLNRKELLEKIKEHYNGFSFDGIKSVYNPYSLLKFFDVQEFKNYWIESGTPQYLIEYIKKHKVQTEEIIGEYVTETSLTTYEIENAPPIVYLIQSGYLTFKEKHEYLGYKVDYPNKEIKESMSELLLTGTYEIEENAHVRKI;locus_tag=LOCUS_03800;note=WP_002680484.1 ATP-binding protein (Treponema denticola) [pid:40.9%25%2C q_cov:83.4%25%2C s_cov:47.4%25%2C Eval:8.8e-47%2C partial hit],internal stop codon at [418461:418463](+),frameshifted%2C insertion/deletion at around 418466%2C417527,MGA_382
sequence1	MetaGeneAnnotator	CDS	418507	418755	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIISKIPYNLFEETERWYHSIILTILWSCGLNVRGEVLGNLGKSDIEIEYRGEVYIIELKKAKPEVCIQQIKEKNIKVQR;locus_tag=LOCUS_03810;note=MGA_383
sequence1	MetaGeneAnnotator	CDS	418930	419823	.	+	0	ID=MGA_384;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000483126.1;translation=MCRINPRVDFAFKKLFGTESNKQLLIDLINSIVSEEDKVKDIEIKNPYNEKNFKNDKLSILDIKAVDQKGHWYNVEMQIIDQEYYDKRALYYWSRVYSGQLFAGINYDNLKKTISINILNFKCLEEENYHNVYKIVNMESKKEFIDHLEIHFIELEKYDEKMSTMLDRWVNFLKKADIYEKDKLPKELEEVESIKKAVELLDEMSLNYEERESYEARLKWLRDEEAAIKTAENKGFKKGLTKGIEQGIEQGIEQGIEQGVKKGKLEMAKKMINKGLDKNIISELTGLSMEEINILYK;locus_tag=LOCUS_03820;note=WP_000483126.1 Rpn family recombination-promoting nuclease/putative transposase (Bacillus cereus) [pid:36.4%25%2C q_cov:97.3%25%2C s_cov:95.9%25%2C Eval:1.2e-48],MGA_384
sequence1	MetaGeneAnnotator	CDS	420071	421861	.	+	0	ID=MGA_385;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKRLPIGQSDFKTIIEEDMYFVDKSLLIKEVIESGNVLLITRPRRFGKTLSQSMMKYFFDITQNNDYLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLISELSTLYIDHKYVLDVLDNEEKIIYDKIMDREALDADYENSIRNLSKYMERYYGKKVIILIDECDIPIKQAYLYGYYDEITPLIGNLFSSALKDNVYLEKAVLTGITGVTKESIFSGLNNIEVSIVLSNLLNDKYGFTKEEVEETLKYYELEYEEKEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIGPYWMNTSGNYLIRKLIKEGSAELKDKIEKLINGEEVECEIIETMVYGDLNLNSESAIWTLFLFSGYLKWTSKKRKNNITMYKVKIPNEEVKDFFVQTVRNMLRESNISIENMLLNLKVGRIKTFTDQFKDLTMNTLSYFDVSGKEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNRDEDKSLKDSAKNGLKQINEKKYEEEIKSYGINDIIKVSIVFDKKEVEIVSNLDKDVELTEIEKVAKNMLENGVDIEFISKMTNLSIEKIKNIKNIL;locus_tag=LOCUS_03830;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.5%25%2C q_cov:91.8%25%2C s_cov:98.7%25%2C Eval:1.5e-98],MGA_385
sequence1	MetaGeneAnnotator	CDS	422122	422559	.	-	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIVTFHAKDINFIFNQHEKANEIIDVVKKSQFLEGTIIYQKNPILFRDSMYSEKFFKHIGYNIPNEVEKYNFDGADDQTAKVYSFGDKYGVYFHAYIENIEVYEGYLIFSEKPTKECFEKMNKILFHAYYVFKKDEFKEKFEI;locus_tag=LOCUS_03840;note=MGA_386
sequence1	MetaGeneAnnotator	CDS	422564	423787	.	-	0	ID=MGA_387;product=aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987074.1;translation=MENFKELLEKYAELSVRTAINIQKDQTLVVNAPIVAVDFVREVVKKAYENGAKNVHIEWHDEEITYTKYKMAPDEAFNEFPMWKAKGFEEFAKQNAAFLSISASNPDLLKDVDPQKIANANKAAAKAMNKFREYTQKGKVSWAVVSVPTKEWSKKVFGTTDEEKLWKKIFEVTRVNTEDPVSEWKKHIGTLKNKIAMMNSKNYKFLHYKAPGTDLKIELPEDHVWVGGGLTTEKGVYFIPNMPTEEIFTLPLKTGINGTVTSTKPLNYGGNLIEKFTLTFKDGKIIDFSAKNGYETLKKLIETDEGSHYIGEVALVPQNSPISNSNIIFYNTLFDENASCHLAIGAAYPLCLKNGPNMTRKELEEKGANTSMTHVDFMIGSDSMNIDGITKDGKIEPIFRNGNWIEE;locus_tag=LOCUS_03850;note=WP_011987074.1 aminopeptidase (Clostridium botulinum) [pid:59.1%25%2C q_cov:99.3%25%2C s_cov:99.5%25%2C Eval:1.4e-144],MGA_387
sequence1	MetaGeneAnnotator	CDS	423879	424496	.	-	0	ID=MGA_388;product=cyclodeaminase/cyclohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011203598.1;translation=MFEEMKLNEFIDKVASSDPVPGGGSVSAMAGSTAAALSSMVSGLTIGKKKYAEVEEEIKEIKIKADELKDKLLKDIEKDSEAFDLVMKAFGMPKSTDEEKAKRKEAIQTSMKKAAEVPFDVAKSCFEVMKLAEVVVEKGNKNAITDGAVSAMLARTAVLGALYNVKINLDSIKDDDFVEKYSKEVKDLEEKTRELEEVILSKVGF;locus_tag=LOCUS_03860;note=WP_011203598.1 cyclodeaminase/cyclohydrolase family protein (Bacteroides fragilis) [pid:45.8%25%2C q_cov:97.1%25%2C s_cov:97.1%25%2C Eval:6.5e-41],MGA_388
sequence1	MetaGeneAnnotator	CDS	424489	425727	.	-	0	ID=MGA_389;product=imidazolonepropionase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108451.1;translation=MKLLIKNAAEIVTCSGYSSKKGKEMNDIKVIKNGTIVIENGIITDIGTNIKVDEKEYKVIDATGKSVLPGFVDSHTHFVFGGYREEEFDWRLKGQTYMEIMEKGGGIASSVKHTRNTTEEELVNLGKKRLDSMMNFGVTTVEGKSGYGLNLETELKQLRVMKKLNEIHSIDVIPTFLGAHSIPKEYKGKSDEYVEKLIKEMLPKVKEENLAKFCDVFCEKNVFTVEQSKKILLEAQKYGLKSKIHADEIVELGGAKLAAEINAVSADHLLQTSDAGIEKLANSSTIATLLPLTAFSLKENFANARKMIDSGCSVALATDMNPGSCFSNSIPLLISLATIYMNMTIEETITALTINGAAALGLEKEIGSIDKGKKADIIILEYPSYKFLPYHTGVNIIETVIKDGIVRRDKSV;locus_tag=LOCUS_03870;gene=hutI;EC_number=3.5.2.7;note=WP_011108451.1 imidazolonepropionase (Bacteroides) [pid:57.1%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:5.5e-128],MGA_389
sequence1	MetaGeneAnnotator	CDS	425730	426626	.	-	0	ID=MGA_390;product=glutamate formimidoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681237.1;translation=MNKIIECVPNFSEGQDLKKVEKIVDAFRGKEGVKLLDYSSDPDHNRSVVTVVGEPEPLKKAVIEAIGVAIKEIDMTKHHGQHPRMGATDVVPFIPIKNATTEECIELSKEVAKEVWEKYQLPVFLYEKSASAKHRQNLSKIRKGQFEGMAEKVKEEKWHPDFGEEKIHPTAGVVAIGARPPLVAFNVNLNTNDLSIADKIAKKVRYIGGGLRYVKAMGVELKDRNIVQISMNMTDFSKTSLYQSFEMIKFEAKRWGVSIVGTEIIGLVPMMALIDVAEYYLGIENFSTDQILESRIME;locus_tag=LOCUS_03880;gene=ftcD;EC_number=2.1.2.5;note=WP_002681237.1 glutamate formimidoyltransferase (Treponema denticola) [pid:73.5%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:3.8e-127],MGA_390
sequence1	MetaGeneAnnotator	CDS	426641	428656	.	-	0	ID=MGA_391;product=urocanate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680599.1;translation=MNSDISKAMTIKLDNVLPEYPKFEEGIRRAPKRELTLTKKEIEIALKNALRYVPEELHEVLAPEFMEELMTRGRIYGYRYRPAGKLYGKPIDEYKGNTIEGKAFQVMIDNNLDFDVALYPYELVTYGETGQVCQNWMQYRLIKKYLEVMTDEQTLVIESGHPLGLFKSHKLAPRVIITNALMVGMFDDQENWIKAQAMGVANYGQMTAGGWMYIGPQGIVHGTFNTLLNAGRLKLGIPQDGDLKGKLYVTSGLGGMSGAQGKSIEIANGVGIIAEVDRSRIQTRLDQGWISKVTDNCEEAFKIAKEYQKNEKSIAIAYYGNVVDLLEYADKNNIHIDLLSDQTSCHAPYDGGYCPAGLTFDERTKMLAENKEEFRKKVDESLIRHYHVIKRLVDKGSYFFDYGNSFMRAVYDAGDKTITKNGVDTTEGFIFPSYVEDIMGPMLFDYGYGPFRWVCLSGNPEDLRKTDKAAMDLIDPNRRSQDRDNWVWIRDAEKNKLVVGTQARILYQDAIGRMNIALKFNEMVRNGEVGPIMLGRDHHDTGGTDSPYRETSNIKDGSNIMADMATQCFAGNAARGMSLVALHNGGGVGIGKAINGGFGMVLDGSERVDNILKMSIPWDVMGGVARRNWARNENSIETCIEYNKTYTENHITIPYIPNQDLINKVMKDFDL;locus_tag=LOCUS_03890;EC_number=4.2.1.49;note=WP_002680599.1 urocanate hydratase (Treponema denticola) [pid:71.8%25%2C q_cov:99.3%25%2C s_cov:98.8%25%2C Eval:1.5e-296],MGA_391
sequence1	MetaGeneAnnotator	CDS	429019	430035	.	+	0	ID=MGA_392;product=2%2C4-diaminopentanoate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009895461.1;translation=MYRVAVWGFGAMGSGIVRNIISKYELKLVGVHDARVDYIGKDVGTLLGLEEVGVKVHDNPMKMIDETNPDLVVIATNSFVSVVKDQILSVVKKNVNVVTIAEEMAHSFYTHPEESLEIDNTARRHGVTVLGTGVNPGFVLDTLVIALTGASLNVKKIKAARINDLSPFGPTVMQTQGVGTTVEEFEKGINDGSIVGHIGFEQSIHMIADAMGWHIDRIEQERKPIVSNVYRETKYVKVEKGMVAGCNHTAKAYMGDECVIELEHPQQVLPELEDVNTGDYIWVEGNPDLSLSIKPEIPGGKGTMAIATNMIPAVIESEAGLMTMSDLPVPRALIGELY;locus_tag=LOCUS_03900;gene=ord;EC_number=1.4.1.-;note=WP_009895461.1 2%2C4-diaminopentanoate dehydrogenase (Clostridioides difficile) [pid:44.7%25%2C q_cov:99.1%25%2C s_cov:94.6%25%2C Eval:7.0e-83],MGA_392
sequence1	MetaGeneAnnotator	CDS	430088	430393	.	+	0	ID=MGA_393;product=2-amino-4-oxopentanoate thiolase subunit OrtA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860811.1;translation=MSAKKGDWVQIHFIALKPEERSPRLPEDTKKVPLEIKIKGFLENDSANIGDIVKIKTNVGRVVEGKLISINPVYEHNFGEPVPELLKISNQLWDILEGDSK;locus_tag=LOCUS_03910;gene=ortA;EC_number=2.3.1.263;note=WP_011860811.1 2-amino-4-oxopentanoate thiolase subunit OrtA (Clostridioides difficile) [pid:55.1%25%2C q_cov:97.0%25%2C s_cov:95.1%25%2C Eval:1.6e-24],MGA_393
sequence1	MetaGeneAnnotator	CDS	430390	431793	.	+	0	ID=MGA_394;product=2-amino-4-oxopentanoate thiolase subunit OrtB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032507361.1;translation=MNTYEEVMARKNKIMKKSVGVDYSKYEQEGIAFDYEKMMKDAGYTIEEMRKIQSETGVGNTPLVELKNINKLIKKLAPKGKGARIFVKDEEKNPSGSFKDRRASISAYRAKELGYKGVMAATSGNYGAAVASQAAKRGLRSIIVQEAFDSRGVGQPEILEKTRACEAYGSEVVQMSVGPELFYYFLLLLDETGYFNASLYTPFGIKGVETLGYEIAIQCKELTGKFPDAVVSTHAGGGITTGTARGLQMAGANNTKVIGASVDLSGLHMASDTAFNKKSFTTGHTGFGIPFATFPDRSDVPRNAARVLRYMDRYLLVTQGEVFYMTEALANIEGMQRGPAGNTSLTAAFALAMEMNEDEVIVVNETEYTGAGKLPSAQLTFAKKNGIEIKVGDPVKEDKPGEKIVIPEHPSMIKYIEYPMEKLKKSYLKNLIKMENKTEFSDFEYEYLEKELKADKKTIENYINELK;locus_tag=LOCUS_03920;gene=ortB;EC_number=2.3.1.263;note=WP_032507361.1 2-amino-4-oxopentanoate thiolase subunit OrtB (Clostridioides difficile) [pid:62.3%25%2C q_cov:99.4%25%2C s_cov:97.9%25%2C Eval:3.5e-166],MGA_394
sequence1	MetaGeneAnnotator	CDS	431827	432195	.	+	0	ID=MGA_395;product=ornithine aminomutase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434665.1;translation=MKERIDDFKERSKHLQNMTDEQLEKYFWELVEKTVNPMVELAEKHTTKSIERSVLLRMGFNSLQAAALVDKIFEKNLLSKGAGHVIWKVAKNNNLDVIEAGKQMIEGKYWEEAVELFKGGEK;locus_tag=LOCUS_03930;note=WP_003434665.1 ornithine aminomutase subunit alpha (Clostridioides difficile) [pid:50.8%25%2C q_cov:98.4%25%2C s_cov:96.8%25%2C Eval:1.7e-32],MGA_395
sequence1	MetaGeneAnnotator	CDS	432195	434375	.	+	0	ID=MGA_396;product=D-ornithine 4%2C5-aminomutase subunit OraE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009895465.1;translation=MDLKPNEKLDVNEILKDLESYVPRRKGWAWRKHVDEAKKHDFTYYQTSEDLKNSVPLPSAHYFGNIDPQPDEVITSEIASGKFEEDIRRMRMAAWHGADHIMVIRTLGQSHIDGLIEGTPEGIGGIPITRKQLRASRKACDLIEDEIGRPINFHSYVSGVAGPEIAVLFAEEGVNAAHQDPQYNVLYRGINPIRSFVDAAAAKHVMASVDMLQIDGAHNANASAKKAWNVMPELIVQHGINCMFSVKAGMKKDLISLSTVPPTTVPSPEFRMNLIYALTLREVMRDYKFRAQMNTRYIEADLFDATRIHTLNTVLSRLTSADIQSTITPDEGRNVPWHINSIRGVETAKHALISLDGIKKYVKIDEEAVRPEIRELKMRAILMLEEIQEMGGYFEAVEDGIFVDNGNYPERHGDGIKRPKNGGIGAGTIVPRDEDYFAPVSAHFGYNKLPEGIEKPEDAIGGDTLHKPEKIQYIDELDENDNVNTRLKEVNENRAKGLIKPEVEWSYDGVIQLDMTIPDTPEYAEAAAIEICKKMNLEEIQVISKTVLHPTEGTYVELRAKVPFFVKRDELTLPKKPDLLEEDVLFDFFKKHPTKVVAGTVGNDEHNVGMREILDIKHGGIEKYGVKYTYLGTSVPPEKMIDAAIETGASAILASFIVTHSDVHVENMKKLHELAIEKGIRDKVLIIVGGTQLNNDIAVENHMDAGFGRGTKGIHVATYLCKQLQK;locus_tag=LOCUS_03940;gene=oraE;EC_number=5.4.3.5;note=WP_009895465.1 D-ornithine 4%2C5-aminomutase subunit OraE (Clostridioides difficile) [pid:58.8%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:9.0e-255],MGA_396
sequence1	MetaGeneAnnotator	CDS	434399	436108	.	-	0	ID=MGA_397;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEKIQTENFYYVDKTKYIETLEDMPESYILFLRPRKFGKSLWLDTMSKYYDVKYSDKFDTIFKDLYIQKHPTPKKNSYHILEFNFSGLNTDSKEELKYGFKNKVFNSLNFFIKHYNLKIKLNIDLKEPADLLNNFINQYKELNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNERASEKVYNSDMVLYFISEYNREKRKPKDVIDMNIASDYKKIQNLFKLGEIVGINTEKDSHEVVNELLNEILLNSKTEIEVLTQAFNMERKLDIKDIKTLLFYLGFLTFEKENFYTYLKIPNYSMKKLYSEYFVESIEDRAKSYINTEKLELAVKRIVIDGNINPFANEIENVLKKLSDRDFQSFSEKHIKRLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVE;locus_tag=LOCUS_03950;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:37.5%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:2.7e-94],MGA_397
sequence1	MetaGeneAnnotator	CDS	436296	438005	.	-	0	ID=MGA_398;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEKIQTENFYYVDKTKYIETLEDMPESYILFLRPRKFGKSLWLDTMSKYYDVKYSDKFDTIFKDLYIQKHPTPKKSSYHILEFNFSGLNTDSKEELKFDFNSEVYEKLSSFINRYNLNIKLNNSIKEPSTLLRTFINQYKELNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNERASEKVYNSDMVLYFISEYNREKRKPKDVIDMNIASDYKKIQNLFKLGEIVGINTEKDSHEVVNELLNEILLNSKTEIEVLTQAFNMERKLDIKDIKTLLFYLGFLTFEKENFYTYLKIPNYSMKKLYSEYFVESIEDRAKSYINTEKLELAVKRIVIDGNINPFANEIENVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVG;locus_tag=LOCUS_03960;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:37.5%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:4.1e-95],MGA_398
sequence1	MetaGeneAnnotator	CDS	438089	438766	.	-	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKMLVFWALIFVTIAFSNYYPSICSDSSILEEGKAEITISYPLNSIRMGLFGIAEVGISTSENGFYLKLGMNDSKIFPIDFNIGYSVIWNYTYNYFMHIGIPINTFKFQFGASYGKDIGIIDNYIIDNYKGTMSFSYLFDEDEKNQKFLILDGFMLEKYKGSNLDDTKFNVNLYGVEKFKSDFLFFKGISLIGGFQINENTFMENTIFPLSIVIGISTSFSLY;locus_tag=LOCUS_03970;note=MGA_399
sequence1	MetaGeneAnnotator	CDS	438933	439655	.	-	0	ID=MGA_400;product=queuosine precursor transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015968.1;translation=MNEMLWFVMLLINFGAILFAYKMWGKAGLYIWVPIATILANIQVLKTIHLFGMTATLGNIIYATSFLVTDILSENYGKKEAKRAVKIGFFAVISMTVLMNLAIYFVPSAEDFGNESIKTIFGFMPRIMIASLSAYWISQHHDVWAYEFWRNKFPAKKFIWIRNNASTMISQLIDSAVFTVIAFWGSFKFSVLMQILISTYVIKWIVAAADTPFVYIAKNWKDKDKIKDEILNSEVLEKSL;locus_tag=LOCUS_03980;note=WP_011015968.1 queuosine precursor transporter (Fusobacterium nucleatum) [pid:60.9%25%2C q_cov:95.4%25%2C s_cov:98.7%25%2C Eval:1.3e-73],MGA_400
sequence1	MetaGeneAnnotator	CDS	439761	442592	.	-	0	ID=MGA_401;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021373559.1;translation=MENSNFKFIINNILNECVDEEYNKGIIYYQKNNIFSTMIAFSKEIAFINSKFSSENIDYKINCKIEKNGNFSFECGCGYHKKNIGLCSHAIGALLDVKNKYEFNVERENNILDELIVKNEKYDEIEKFGIFEYNDQMILKPLIKAKNNKSYKFFNFNPNEFVKAKTINPYFLSIKKISYTKVFDNKNLYLLSFSSLYDLQEKILFEKKELFWDTEVNFVFKVIGNKSTYSIKGIFKDENGEVLYKKYFNSRNDMAILDNNGYFRIIKNIQEPINLKKFNKFELKIEKEKFIEKYYIPLSKIGIKFDFEDSDIDISYLNPQLKLYIFKLENKFKVKLKIEYSNKEHSLNEIETNLKKRSLDILKYNSVNLNENGETYWSADKFVDFIENTMKNLPKNIKVLYSKDIKIIKNPKILFNTIKQKEWFETDIIYKNNSITNMLNTSKNKKYIVLKDGSIIQIPEKIKKLSKKIKMDKKINALNLFEFQEECVGDGLEFIEKLKNFETIKDYTNELNLKYELRGYQKKGYNFLRFLKEYNLNGILADDMGLGKTFQTIALLSTVKQQNLIIVPNSVLHNWINEINKFSNMSYTLYSGKDKIIDNSDIIITTYGTVRNSLDLLEKTFEYIVLDEAQYIKNSYTKTAKSVKKLRAKHKLALTGTPIENSILDIYSIFDFLMPNYLGTKKEFIELLKTEKGTQSIKDKIKPFIIRRTKEEVLKELPTKVEETVYVDMTEDQKDVYFSMLNTIKNTVNTNNKILLFEALTRLRQISLHPKLVLKEYKGKSGKFEELKNFIYKIINSNHKIIIFSQFVKMLKLIEEYLNLEEISYEIITGKTKNRNEIVDKYNNNANTKIMLVSLKAGGTGLNITSADYVIHFDPWWNPAVENQATDRAHRIGQTKKVFVYKYISKGSVEEKILKLKKEKKDLYGEFVKSTDFSKKDLEFLFN;locus_tag=LOCUS_03990;note=WP_021373559.1 DEAD/DEAH box helicase (Clostridioides difficile) [pid:33.8%25%2C q_cov:87.5%25%2C s_cov:83.8%25%2C Eval:1.1e-111],MGA_401
sequence1	MetaGeneAnnotator	CDS	442623	444263	.	-	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGSELMKRVLLGFYILIFVAIGFSEPVSYLTSKDGKIYEKYFIDFETLKSEYLSSSNKEFFEKANTEYSIIKGLIDFLVIDKYLNDKNITIDSTSIKNNAQEMFNKYKNNENVLKIYGTLDDFYNYLKVQMWKNEIITKVKKVFFDEIKNEELDKYIKDNFYDIKNGYDRIKLKLITISNEASILSIKKEILDKKITFEDAAKKYSEDELSKNGGEIGWIDRNTKKYQPLFSLTINSTPNEVLGPIKIEDKYGLLLLEDKILMQTKEDILKDQYAVNKIKEIITQDKVSNWFKKYRDNYDFTVYYKPLIIEYRVDKAKDFKEKNALETLYREKLKTEKDIPDEWYLSYDKLSEYILKDRLSYKQDLTVYYNEIKKYPEYFGKNKEEIDKEIEKLKKIESTDDSTINVQKAVEKEDILNDLLYYSEFYTFKTIEEIKTEMKKIDEYISELEKIKRDFLIKLYKKNEDTENSAEIISTIFKKYPKDPYIKFEYTKLIYSKIKDLKSKDIEKLKQIKTIFESLLNEDSLSSKVKDEIKKYITEIKAEL;locus_tag=LOCUS_04000;note=WP_012583863.1 peptidyl-prolyl cis-trans isomerase (Dictyoglomus turgidum) [pid:24.8%25%2C q_cov:57.3%25%2C s_cov:83.4%25%2C Eval:7.1e-12%2C partial hit],MGA_402
sequence1	MetaGeneAnnotator	CDS	444403	444897	.	+	0	ID=MGA_403;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082324.1;translation=MPPSFILRSDLMDTIKEKIFKKAEEFAKEMNLEIFDIKINKTKRKNRVEIIIDKLEKYVGIEDCRKFSVKIEPWFDEEDLFNGSYDLIVSSPGLDRPLRGINDYKRFKGKLAKFYFIEKVGNKTSLIAFIEDILDDELLLKTKNNKKYNIKIKNIKNSNLEIDF;locus_tag=LOCUS_04010;gene=rimP;note=WP_004082324.1 ribosome maturation factor RimP (Thermotoga maritima) [pid:41.7%25%2C q_cov:87.8%25%2C s_cov:92.7%25%2C Eval:1.8e-20],MGA_403
sequence1	MetaGeneAnnotator	CDS	444911	445933	.	+	0	ID=MGA_404;product=transcription termination factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082323.1;translation=MNINLLDALDTFEKEKGIKREVLIEIIQKSIKSAYKKNYGTKNVEVEIDKSLTSISVYQIWHIVENVEDPTEEISLEEAKKISSKAEIGGEIRKKVNLKKDFKRIAAQTAKQVILQNIKELEKNALYDRYAPLKNKLTSAEVMKVTEQYAEIRIGKLETKLPEKEMIPGEILKQGDLIKVHIKDIQKTTKGPKIMVSRVTNELIIELLKSIVPEVEKGIVEIVKIYREPGIRSKIAVISHSKEIDPVGSCIGENSMRISELLNEVKNEKIDIIEYSEDITQFIKNALAPAEVVNVEINENEKSAIVYVPKTQFSLAIGKGGQTARTAAKITGWKIDIHTV;locus_tag=LOCUS_04020;gene=nusA;note=WP_004082323.1 transcription termination factor NusA (Thermotoga) [pid:56.4%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:7.3e-104],MGA_404
sequence1	MetaGeneAnnotator	CDS	446091	446564	.	+	0	ID=MGA_405;product=Fur family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082322.1;translation=MSNQDLLKNTLKNRKQRMTAQRELILRIFMESNGKAMNIDDVFMEIRKKRNHRTSKMTVKRAIDLLVELNILNEVNYEDEGTKYEYIFKEKNMENIIFVCENCNKATSFSIPKEKILSLLPEDIKGFQIKNTMIKITGYCPECSKALIEDVKETIIK;locus_tag=LOCUS_04030;note=WP_004082322.1 Fur family transcriptional regulator (Thermotoga maritima) [pid:34.7%25%2C q_cov:94.3%25%2C s_cov:96.7%25%2C Eval:1.1e-18],MGA_405
sequence1	MetaGeneAnnotator	CDS	446638	447180	.	+	0	ID=MGA_406;product=HDIG domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583840.1;translation=MDRNEAILKVKKHIQTENLVTHSLAVGAIMKELGEKLNKDSNIWEVTGILHDLDYEETKENPDIHAIKTVEILKDQITPEMKDAILAHNEKKELETDIEFALYASDQLSGLITAAVYVRPSKSINDLTVKSLKKKFKDKAFARGANREHIKQIEKLGLELNEFFEIGISGMKKISNELGL;locus_tag=LOCUS_04040;note=WP_012583840.1 HDIG domain-containing protein (Dictyoglomus turgidum) [pid:48.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-42],MGA_406
sequence1	MetaGeneAnnotator	CDS	447183	447944	.	+	0	ID=MGA_407;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875851.1;translation=MKIISWNVNGIRAILKKNLIEFLEVQNPDILCIQETKAHEEQLTKKFLSYGDWYKYFFSAQKKGYSGVATFTKIKPIEVLNGFNIDKFDSEGRVLITEFNEFSLFNIYFPNGKSKKERLEYKMEFYNYLLDYLKEYKKKQKNIIICGDVNTAHTEIDLARPKENSKVSGFLPIEREWIDKLLESGFVDFFRKFNKNPNNYTWWDYKTRARERNVGWRIDYFFVSKDFEKNIKNAYILPEIMGSDHCPIVLEIK;locus_tag=LOCUS_04050;gene=xth;EC_number=3.1.11.2;note=WP_010875851.1 exodeoxyribonuclease III (Methanothermobacter) [pid:55.7%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:5.1e-87],MGA_407
sequence1	MetaGeneAnnotator	CDS	447969	449705	.	-	0	ID=MGA_408;product=carbon starvation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880806.1;translation=MNSLLLMVITFLGYIVAYQFYGKFIGHKIFQLTNKNKMPAHEFEDGVDFVPTKKHIVLGHHFTTIAGTGPIVGPAIGIIWGWGPALLWIFFGSIFMGAVHDFSALIISARNQGRTLGDLTGNLISPSTKYAFQFIIQFLLWIVLAIFAMIMGILFVKYPQSVFPVWMEIPIAMWLGYEIKKGKSDTLYSIIAVVLMYVTIFLGLYIPISLPGSANAQIITWAVILFGYVFIASTLPVQTLLQPRDYINSHELLIAMGLLVLGVVFAHPQMTAPVVNEAAKAAGTDIPNLMPILFITIACGAISGFHSLAASGTTVKQVDKEKDTLAIGYGGMILEGVLATIVLIAIGGGLGMGLASKDGTLLTGSAAYASHYASWAGAAGLGAKLEAVIVGAANLMTSIGIPKDLGMSIMAVFVVSFAGTTLDSATRIQRFSFQEIMKKKDGKVMKPFDNRFISTGIVVILAAILTFLQPGGKGALILWPMFGALNQLLAALALLIATVYLSSKGKNILVTFIPMVFMLIMTIWAMFINLNKFIGMKNGLLITLSVIIMLLTAWLLIGAFMALAKNLKNREVVIEEEE;locus_tag=LOCUS_04060;note=WP_010880806.1 carbon starvation protein A (Aquifex aeolicus) [pid:37.6%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:1.9e-108],MGA_408
sequence1	Barrnap:0.8	rRNA	450027	452933	.	-	.	ID=Barrnap_3;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00030;note=Barrnap_3
sequence1	Aragorn:1.2.38	tRNA	452985	453060	.	-	.	ID=Aragorn_6;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence1	Barrnap:0.8	rRNA	453108	454630	.	-	.	ID=Barrnap_4;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00040;note=Barrnap_4
sequence1	MetaGeneAnnotator	CDS	454998	455321	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEDKILGLIGFSSRTRSFVFGKDGIRSYIKSLQNKKVVIIASDTGKSTKDDTIKRCESFNVPCVVLKTKTKEDLSNALGKTEVSIVGIEDENIVKGILDLVGGDA;locus_tag=LOCUS_04070;note=MGA_411
sequence1	MetaGeneAnnotator	CDS	455321	457453	.	+	0	ID=MGA_412;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080913.1;translation=MSKTRVYELAKELNISTKELMNYLEKELGLEIKSHMSTLDEDSIETIKEFYNSTKKKSNDNKKKIPNKNNSKVISNKNKIIKNEVKENKEIKEAKNETKKESSKEDNIKEIILSSNELKLDLLAKKLHKNQGDLIKSMFMKGIMIKPNQDLNIEIAEEIAMNFNYILTINDDEQTKPTETKQEKDILKERWEKIYSEKKDKFKDRAPVVTVMGHVDHGKTTLLDHIRKTQVADKEAGGITQSIGAYQTVYNGKKITFIDTPGHEAFTEMRARGAQSTDIVILIVAADDGVMPQTIEAYNHAKDAGVPIIVAINKVDKPNANVELTKQQLVAKLNLIPEDWGGDAITVPISAKSGMGVDDLLEMVLLVSEMQEIKCYPKGNARAIIIESKLDKFLGPVATVIVKDGILKNGDFFVAGSTFGKVRRLIDSNGKTIKQAGPSTPVQILGFDEVPSMHSILYAVNTLDEAREISSIAKEKEESKSKQKKHVKLEDFMNMMKENQKKILNIILKAGTYGEIEALKNSISKLKNSDIDIEIVHAGIGAITTSDVMLASASNAVILGFRVKADSKTLKMADKEEIQIKRYDIIFNLIDELKKALQGMLEPEEKEEITGSGKIKEVFKIKKVGNIAGIQLTDGYVSAEGRVRIYREGKLIQDVEIETLQHYKDIVKSVSAPQECGIKFVNFNDFNSGDELEFYKYIQIERTLNFNSKK;locus_tag=LOCUS_04080;gene=infB;note=WP_004080913.1 translation initiation factor IF-2 (Thermotoga maritima) [pid:52.8%25%2C q_cov:99.4%25%2C s_cov:98.6%25%2C Eval:1.1e-209],MGA_412
sequence1	MetaGeneAnnotator	CDS	457492	458949	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFGIGIFILIWYIASLFYNPIILPDPFLTLHTLFNLMMNQSFWIQFFDTLLKSLLGFTLSILIGVPIGFASGINKKFKSFIRPIIMLFQGAPIVSYIAIIMLWFGIGFYTPMFVAFIVIFPTIVLNVSQGIESTDKKLLEMAKVYNIKKSDTIKFIYLGSVFPFIISTLKIVSGTLWKATVVGEFLGGSRGLGYALSISKISLNTDEVFAYTLFLIIVGIIFERLILKINFKLKLPEKKCIEKTREIYKITPASIKIQNLKKSFNTEIISNFSTLIDQSETFAIIGDSGSGKTTILNILSNLIPKTSGTIEKNFKRLAYIFQEDRLIPWMNVEDNIKIVNQNISKEVFVETLKTLKIYDKIKSFPHELSGGMKKRVNIARALIYFPDIILMDEPFSSLDIKIKHEIILDFLKLKEKYKFSIIIVSHDPYELSMLADSTVFLYGTPSISSEKTTYKKAINRNKKENELIYLEIKNKILGEEYEKY;locus_tag=LOCUS_04090;note=WP_011948970.1 ABC transporter permease subunit (Clostridium botulinum) [pid:34.4%25%2C q_cov:44.5%25%2C s_cov:85.8%25%2C Eval:3.4e-34%2C partial hit],MGA_413
sequence1	MetaGeneAnnotator	CDS	458936	459577	.	+	0	ID=MGA_414;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958039.1;translation=MKNIKNIIFDIDGTLVNTKKVTIPAFKKTLESLDKDGFKVKVNSNEIMKYIGYTIDNIFKNIFKSDDKVLIEKAIHYLDIYEEEFLSKTNEIFFDGVFDVLSYLKSKNKNIYLLSNCNKKYLNIVLEKGLNEFIDSPHCSEMYNWKEKDYVISTFIKKTNSKSFVMIGDRHKDIEAAKANNIKSIGCNYGYGNKEVEKADVIIHNIKDIINIF;locus_tag=LOCUS_04100;note=WP_010958039.1 HAD family hydrolase (Coxiella burnetii) [pid:29.3%25%2C q_cov:93.4%25%2C s_cov:81.2%25%2C Eval:4.6e-16],MGA_414
sequence1	MetaGeneAnnotator	CDS	459848	461425	.	+	0	ID=MGA_415;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015951.1;translation=MSKFEDLGLSETTLKALKKKGFEEPTPIQEKTIPVLLKGEVDLIGQAQTGTGKTAAFGLPLIEKLTPGAKHVQALILAPTRELAVQVAEEINSLKGRSKLSILPIYGGASIERQLNALRRGVDIVVGTPGRVIDHIKRKSLKLENISYFILDEADEMLNMGFIDDMEEIFKHTNPDKRVLLFSATMPKPILGLAKKYMKNFEIIKVKKEQLTTNLTDQIYFEVNESDKFEALCRIIDIEKDFYGLVFCRTKLDVDRVALKLTERGYNAEGIHGDISQYQRERILKKFKDKRAHILVATDVAARGLDINDLTHVINYSLPQDPESYVHRIGRTGRAGKEGTAITFVTPSEYRKLIFIKRVANTNIRKEKVPGIKEIIKTKKERIKNEILDIVKNSNASEYENLAKELLNISDPVQAISALLKHAYQSELDTANYNEISEVSINTKGKTRLFVALGKKDEMDIKKLLKFIKDKTDVDTKKIRDVRIFENFSFISVPFEEAEIIIDTFKRKKRGRRPLVEKAKERKSK;locus_tag=LOCUS_04110;note=WP_011015951.1 DEAD/DEAH box helicase (Fusobacterium nucleatum) [pid:56.8%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:3.7e-175],MGA_415
sequence1	MetaGeneAnnotator	CDS	461844	462194	.	-	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKTYKYKDLGFRVVKRGNTIPKILSINPENYKSIDKGLVGLKWEAISVNGGNLTYDVYFGTEKDNLLKVSEAQTENSYNLGEINEKGIYYWKVAAKSDKGRVFESPIYRFYVEV;locus_tag=LOCUS_04120;note=MGA_416
sequence1	MetaGeneAnnotator	CDS	462279	462443	.	-	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLLFIEKKNDIIMSYSQYVIVSVIKCVNCVNVQKIKKNKNTFDILIFKSKTKE;locus_tag=LOCUS_04130;note=MGA_417
sequence1	MetaGeneAnnotator	CDS	462489	464279	.	-	0	ID=MGA_418;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKRLPIGRSDFKSLIEDNMYFVDKSMLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEYLFKDLNIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLAMELSRLYIKHEYVFEVLNEREKDVYNKIMGREALDADYENCIRSLSEYMERYYDKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLEVSTVLNELFNDKYGLTKEEVEEVLKYYELEYEENEVIDWYNGYNFGGVEIYNPFSIVTLAKNKGKIRPYWMNTSGNYLIRKLIKEGTVNIKDNVEKLINGEEVECEIIETMVYGDLNLNSESAIWTLFLFSGYLKWTSKKRKNNITMYKVKIPNEEVKDFFVQTVRNMLRESNININNILLNLINGYIEEFKEDFQKLTINTLSYFDVSGEEPERFYHGLILGMSVGLKEEYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAQNGLKQINEKKYEEEIKSYGINDIIKVSIAFDKKEVEIVSNLDKDVEVTPEERMAKELLKNGVDIEIISKTTKLSIEKIKNMSNQL;locus_tag=LOCUS_04140;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.4%25%2C q_cov:91.8%25%2C s_cov:98.7%25%2C Eval:2.8e-102],MGA_418
sequence1	MetaGeneAnnotator	CDS	464479	466854	.	-	0	ID=MGA_419;product=homocysteine S-methyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949155.1;translation=MHIKERIKNELLFFDGAMGTQLQKKGLKLGTLPETLNITNPNIIKEIHELYIRSGAQIITTNTFGASEFKLKRTEYTVEEIVESAVKIAKSATGVQYVALDIGPIGRLLEPSGTLKFEEAYNMFKRQMIAGEKAGADLILIETISDLYEAKAAILAAKENTKLPVFCTMTFTEDGRTFTGTDPLTMVNVLEGLDVDALGLNCSVGPKEAIPIVEKIIKYSSIPVMVQPNAGLPEIENGETKYKITPKEFLTHMKKIVEMGAQIIGGCCGTDERFIKLMTKELKTVKPKKIKEKEFTAVSSYSKTVKIGETLKIIGERINPTGKKKFKQALRDKNLDYIIKEAINQKEEGADILDVNVGLPEINEEEIMIKVIKEIQSVMGLPLQIDSSDPKVIEHAVRIYNGKPLINSVNGKKESMEKIFPIVKKYGACVVGLTLDERGIPKKAEERVEVAEKIIKTAQKYGIHKKNILIDCLVLTASAQQEDVMETIKAVRMVKEKFNVKTTLGISNVSFGLPNRSILNKTFLAMALTAGVDAPILNPKKEEIKEIIYSYKVLSNQDKQSEKFIEKYSKVIQKKLNKEIKMQKEIDLKQIIIDGLKDEAIEATKILLKEKKSMEIINEFLIPALDIVGQRYEKEEIFLPQLIRSAETVKKSFELIKEIILKSGEEKKVGKKILLATVQGDVHDIGKNIVKVILENYGYEIVDLGKDVPAQKIIESIKKENIRLVGLSALMTTTVKSMEYIIKEIRKNKLDCKIMVGGAVLNQKYTDMIKADYYVKDAQKAVEIAKQFFSI;locus_tag=LOCUS_04150;note=WP_011949155.1 homocysteine S-methyltransferase family protein (Clostridium botulinum) [pid:60.6%25%2C q_cov:99.7%25%2C s_cov:99.6%25%2C Eval:3.1e-272],MGA_419
sequence1	MetaGeneAnnotator	CDS	466844	467497	.	-	0	ID=MGA_420;product=methionine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986274.1;translation=MEFKKEVLRYLGYKNQKIDNKLDFLIDKSIEEVKNTSIYRYTFKIFDLEKLKEGILLSGTEVLLKGENIKTHLRASDKCAIMAVTIGFEIDKKLRYYQLKDMTKAVIFNACASVYVEKSCDEVQSIIEKEMYPYYITPRYSPGYGDFSIEVQQEIVNILDTRKKIGLDVTENNVLIPEKSVTAIIGLQKENSVANIYGCDGCKLNCSFKRKGGSCAY;locus_tag=LOCUS_04160;note=WP_011986274.1 methionine synthase (Clostridium botulinum) [pid:40.4%25%2C q_cov:98.6%25%2C s_cov:96.0%25%2C Eval:4.3e-41],MGA_420
sequence1	MetaGeneAnnotator	CDS	467500	468384	.	-	0	ID=MGA_421;product=methylenetetrahydrofolate reductase [NAD(P)H];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949153.1;translation=MYIKDIFKEKKPVISFEIFPPKKESNIKTIYKTIDELAQLNPDYISVTYGASGSIKNNKTVEISSFIKREYKIEPLSHLTCINSSKKEIDEILNQLIENNISNVLALRGDIPNDKNIKKEFNYAEDLIRYISKKKKFSIGAACYPEGHIEARNKSLDLYYLNKKVNAGTDFLITQLFFDNKYFYDFREKLKNRNINIPLQAGIMPVVNKKQVEKIVSMCGVNIPEKFIKIMNKYENNKEALIDAGVTYACDQIIDLLTTGVDGIHLYVMNKSKIAKEIVKRITSILKINIKMEE;locus_tag=LOCUS_04170;gene=metF;EC_number=1.5.1.20;note=WP_011949153.1 methylenetetrahydrofolate reductase [NAD(P)H] (Clostridium botulinum) [pid:58.2%25%2C q_cov:96.9%25%2C s_cov:96.6%25%2C Eval:1.7e-95],MGA_421
sequence1	MetaGeneAnnotator	CDS	468390	469109	.	-	0	ID=MGA_422;product=UPF0280 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583102.1;translation=MYEVRDYREKMKSQDMTNFRVMEFETDLFISAKKDLSKITKKMVKKYREEIINYSAKNIEFYKSLVPIVEKENASKIVKHMIKVSKLTNVGPMAAIAGAISEYVGIELLKYTDEVIIENGGDIFLKTKKERKIKIYAGKSKFSNKLSLKIKPNYEKLGICTSSGTFGHSLSFGKSDAVVVLSEDTLLADATATAIGNIIKTKEDIKKGIKFATSIKNIIGILIIVDNTLGSWGKIEIER;locus_tag=LOCUS_04180;note=WP_012583102.1 UPF0280 family protein (Dictyoglomus turgidum) [pid:46.6%25%2C q_cov:99.6%25%2C s_cov:97.5%25%2C Eval:3.3e-56],MGA_422
sequence1	MetaGeneAnnotator	CDS	469111	470244	.	-	0	ID=MGA_423;product=homocysteine biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583100.1;translation=MKTYEEINEKISKGEAVVVTAEEIIDIVEEIGIEKTAEYVDVVTTATFGPMCSSGAFLNFGHSNPPIRMQKTYLNGVEAYSGLAAVDSYIGASQESKNKKYGGAHVIHDLISGKKIHLEATSNGTDCYPKKHVDTYITKEDINEAYLFNPRNVYQNYNAATNASDKKIYTYMGTLRPNMGNINYSTTGELSPLLNDPYYKTIGIGTKIFLAGTQGYVSWMGTQFNSSAERNERGVPITPAGTLAVIGDLKKMNKEYIQPVIFKNYGISMFIGIGIPIPILNEEILKYTTIKNEEIQTNIIDYSSGKKIKKVNYKQLQSGMVKINGKEVRTASISNLKKARKIANELKDEIKNGNFLLTKPLEVFPLDKKVKKMKEDD;locus_tag=LOCUS_04190;note=WP_012583100.1 homocysteine biosynthesis protein (Dictyoglomus turgidum) [pid:54.5%25%2C q_cov:96.6%25%2C s_cov:93.9%25%2C Eval:2.6e-113],MGA_423
sequence1	MetaGeneAnnotator	CDS	470231	471463	.	-	0	ID=MGA_424;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392817.1;translation=MNIIVKKYGGTSVATVERIEKIAKKVVELKKKNKIIVVVSAPAGMTNDLLEKAKKISKTPSKRELDMILSVGEQVSISLLSMAIQNLGEKSISFTGWQASILTNENYNKAKIKKINIKRIKKELEKDNVVILAGFQGVTKKNEITTLGRGGSDITATAVAAALGLKEVDICTDVNGVYTSDPRIVNNAKKIQKISYEEMLEMADSGAKVLHGRCVELAAKNNLKIHLRSSFTEEIGTIVGGVKNMEKPIIKGITLSKNESKISIKGIPYSINVLNTIFKEIANEGINIDLIVENKVKDEIDISFTLSKNDFEKALCVSNKIKEKLKAKNVEFNESVSKISVIGYGIKSNPGIAAKVFEVLSNEKIPIDMVSCSEIKISCIVSKEHSEIGLKKLHEKLIEKNKEVEKYENL;locus_tag=LOCUS_04200;EC_number=2.7.2.4;note=WP_011392817.1 aspartate kinase (Moorella thermoacetica) [pid:44.8%25%2C q_cov:96.1%25%2C s_cov:98.0%25%2C Eval:4.1e-91],MGA_424
sequence1	MetaGeneAnnotator	CDS	471854	472453	.	-	0	ID=MGA_425;product=TerD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003430074.1;translation=MSINLTKGQKINLSKDYAGLSKIMVGLGWDPVEQSAKGFFKSLFKENQDIDCDASVLMLKNDKLQSNSDLVYFGNLNDKANSVIHQGDNLTGEGEGDDEQIFVDLSRVPSDISRLVFVVNIYDCVRRKQHFGMIKNAFIRLVDIEGKKELLKYNLSDDYSNKTSLVVAELYRHNNEWKFGAIGEGNTDSGLKELIKRYK;locus_tag=LOCUS_04210;note=WP_003430074.1 TerD family protein (Clostridioides difficile) [pid:63.6%25%2C q_cov:98.5%25%2C s_cov:94.7%25%2C Eval:2.9e-67],MGA_425
sequence1	MetaGeneAnnotator	CDS	472465	473040	.	-	0	ID=MGA_426;product=TerD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003241242.1;translation=MAISLKKGEKVDLTKGTGIKKVIVGLGWDTNKYDGGFDFDLDASAFLLDANGKATSETDFVFYNNLKHPSGAVIHTGDNRTGEGEGDDEEILIDFEKIPSNIEKIAITVTIFEADQRKQNFGQVSNAFVRIVNQDTNEEYLRYDLTEDFSVETALVICEIYKHNNEWKFNAVGSGFSGGLAALVKNYGLDV;locus_tag=LOCUS_04220;note=WP_003241242.1 TerD family protein (Bacillus) [pid:65.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-72],MGA_426
sequence1	MetaGeneAnnotator	CDS	473057	474055	.	-	0	ID=MGA_427;product=sodium:calcium antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404555.1;translation=MFEWITNIWIALPVLVVMSYLVSVASDKLGDVLHITGLKLNIPTSVRGATFDAIASSFPEFATAMIAVLLYHKFNDVGVATIAGSGIFNILLIPLVSILAFKGIDLNLKVKAQYVYRDMIFYLISIVTLFIFTYIGYFNIYTGLILLLIYSAYIYVLYLQTKDFRNNQEEQEELEEDMSYLLITFWIVVAMAIIWISIDAIIASALVISNTIHVPPFIVSVVVIAAATSIPDTLLSVKSAKKGDADGAISNAVGSNIFDICVGLGIPMVIAGRTIEVQLSQNAGMFGFLLISMFTTGILLLKKKGMHKKDAGIMGIVYLLFIVYVVIKAING;locus_tag=LOCUS_04230;note=WP_011404555.1 sodium:calcium antiporter (Salinibacter ruber) [pid:27.1%25%2C q_cov:85.5%25%2C s_cov:82.6%25%2C Eval:1.2e-26],MGA_427
sequence1	MetaGeneAnnotator	CDS	474088	474663	.	-	0	ID=MGA_428;product=TerD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003241242.1;translation=MSINLKKGEKINLTKGTGIKKVIVGLGWDTNKYDGGFDFDLDASVFLLDANGKATSDSDFIFYNNLKHPSGAVIHTGDNKTGEGEGDDEQILIDFEKIPSNIEKISIAVTIHDAETRKQNFGQVSNAFVRVINQDTNEEYLRYDLSEDFSIETVLVICEIYKHNNEWKFNAVGSGFSGGLETLVKNYGLDA;locus_tag=LOCUS_04240;note=WP_003241242.1 TerD family protein (Bacillus) [pid:68.4%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.3e-77],MGA_428
sequence1	MetaGeneAnnotator	CDS	474895	477210	.	+	0	ID=MGA_429;product=YceG family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964719.1;translation=MLNIERIIISKSKKSNNLLEDLKINITKRVDYYYHKSLFVPVYFYRIVGNEKTLNYIKNSLNDKKYILIQAKSFKQDDNLLSLIKNTYNENINMFFKSIKNTNFFNITNTKILNDSIAIAFYKTLKLYEKKNNNITKIKNFSYKMLLKIKEYSKDICIDEDNTKILYYGNIKEHDIYFLYFLFEIGCDILYINENDNEFEKFDFINEISNKTTIQVPTNFKLQSNKIHNESNINKLPLNTFHTDDIITTLKKSDDIFSDFFLPLSKRHNYVNGEKIILPVFFYRYIGIKDNEVDFNNELFHFDKKLLEYGSKYIKFINKIPFNPQFMPNLNWMSLKTSEEIVQYLNQNSAFFQLEDKKYKLKLLSSFKEILYLFLIEENNPSKIKNFVFKFISWINEYLPNLISNFDYANKLNKVIINPKILYYGEIKKHEFYFLIFLSKMGSDILYINKLKDVTYDLNNKYSIPFLLEKRCENTPFPQKEVITRKETTAYKASEEIGMIIHNEEDGVYKPWQFQNYYPKAVTLKTTYDELKILWNNESRMRTGFKVFNKNIYIPNIFAKISGTHEQINDYWSDLSSFLTENTLFFEEVPFTKITYTKQELYKSAFLFKDNKINKEELLNYEFYKFGYLNTGVQSSIINKIEELIELNPFKETMTMELKLKILVTILELPKEIVRMIQNFDYPFIPPKIVIYDNTEKMFSIEDSIIISFLNLFGFDILILTPTGYNNIEQKIKTQYYDIHKIGKNIFDLNLPDLKKLKKQKKSIWSIFSKK;locus_tag=LOCUS_04250;note=WP_010964719.1 YceG family protein (Clostridium) [pid:34.2%25%2C q_cov:98.3%25%2C s_cov:96.0%25%2C Eval:3.9e-115],MGA_429
sequence1	MetaGeneAnnotator	CDS	477223	478305	.	+	0	ID=MGA_430;product=toxic anion resistance protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964720.1;translation=MADEFKIENENIEEVKNEIELKVKNSPEVQAISSQIDFKNVESILTFGKETAEEISKFADKILNSIETTKIEDSGTLLVQLNKIMDKFDIKDFNDAEKKQGLLKKLFKKAEKTIDGLLKKYHTMGGEVDKVYIQLKEYENEITQSNRMLEEMFNKNMEYYETLEKYIQAGHIVVERLKSEILPQLEEKTKSGEQIDQVNYSNGLQVLEMMEQRIYDLELAKSVALQTMPQIKLIQKGNYNLIRKINSAFIITIPIFKQGLNQAITLKRQKIQAQAMAALDEKTNELLLRNAQNTAMQSKMTAQLAGSSSIKLETLEETWKTIMKGIDETREIQENLKQERINGTKKLHELQNEYNNKIKK;locus_tag=LOCUS_04260;note=WP_010964720.1 toxic anion resistance protein (Clostridium) [pid:54.1%25%2C q_cov:95.0%25%2C s_cov:91.9%25%2C Eval:2.2e-101],MGA_430
sequence1	MetaGeneAnnotator	CDS	478327	481365	.	-	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNLSNTIIKIKSIIQNDLKSSIALKKLKIKDIEELVFTHFNSIVALKIMQEKFLISEEYTSTDSLIYEKISKKMNLKKNSEELYYEVFQVAFNELYQKIPEFFLKPEISLSGYALKKIMNELNLVKDWNKDDILGWCYQYYNDDVRENNKSIAIQSQFYTPEWIIEFLVDNTLTTYYSEINKYTHLKEKYNIIPKKNREYKDLSNISILDPACGSGHFLIKSYDRLIEMYEENGISSEDASKLIIENNLFGLDVDKRAIQTTKLILKLKALENNCFETLNFNIHSISDDLGSLQKNTIFEQKFDIVLSNPPYTDSSNYSKDLKEKIFSLYTNFKKNLYTCFIKKNYDFLKDEGLLGMITPQTFMFISSYQKTREFILNNMNIRMFVQFGLGGVFNDALVDTAAYIMEKSELNHGTYIDLTKSKNKKEKLFYIWKNKNFEYSRNVYYIDNNNFKKIPGFPFAYWMNQKLLNIFSNLQLKDIADVRQGIATGDNKRFLRYNWEVAKEEINKKWIPYSKGGPYNMWYGNLWWVIAYDDKNKELLKKSGNKLPSRQYYFREGITYSMTTSKGSTFRYLPKNFMFDCKGSSIFFKKEKLKFRILTILNSTFGRFLYKFIAGSVDLEVGDLKKLPIHKNIIEDIDKTKFLDLLGKILIIIKKQNLDIYPIELHYKGSPLHQLQCNQLPLITETDTVKRIKNFIKKRDSLDTYLTLFESIADKLIFELYNLNEKDIKLVLKEMSTPVGWLKINKNHTNHLLKLKDILTKTYLKEFKIEESEVEKLQKYIDSYIEALKVETKKINTEDKILKSYYKRWKIDYDNQIKKVSTELKLNPLIIFEESIKGNVLSRYRVQEYLFLAIDHSIKKILKESEYGFLDVEKTKEKIKPLSTRIMLDLEKVGITDDFFSSFTGKSIEKYLITDYIKSHKKLYKNAPIIWKIDTVFLLFSRLNSGTFQLISKVYIKPEIKQLELKRFKTDKDLKRIEKLKTIDENLLKLSPIPEKGIKYNLNKLTFIK;locus_tag=LOCUS_04270;note=WP_011022345.1 BREX-1 system adenine-specific DNA-methyltransferase PglX (Methanosarcina acetivorans) [pid:25.0%25%2C q_cov:67.9%25%2C s_cov:54.7%25%2C Eval:3.3e-48%2C partial hit],MGA_431
sequence1	MetaGeneAnnotator	CDS	481549	483891	.	+	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDIKKYTTILFLIFGIFIFSKNILILNSYSYDYTWTKNITWGILDTLNEKYSTYIEYMDTKRNNSDEYYKKLFDLYYMKYKDKKIDLVIASDDNAYNFIEKYGKKFLINIPVVFCGINYIQKTNINSSKNFYGIGEYEDIDGTINIALSLHSKIKNIYFLIDDFTQSGKIMFQELNDNINKYTTKYNKNFEIIKVNHLQESIKKIRTLKDGIIIIQAFLKDANENILSLEKSLEIIEKNSKLPIYGMLYSYLGHGIVGGVLTSGYYQGVEAAKISKKLLTNQKVSKEDILKATINSNQIFFDYNQMKKFNISKKLLPKKSILINNTQSFFEKYKKVILIYFFSITILTSIILFLIINIYKRKKAENIIQKQNMELESSYEELEAQHEELEATQEELTKNYKKIKSEKQKNIEINDKLNKIIEVTEKFSKMNTTFDEFCNTLLKAAIALIPEADYGSISIMEKDKWNYIATVGHDLNILKTLDLKPEYALQINGTQDIKSFEDFHLGNMPQNIKEKLYKASKPIKESLMTKINIEEKTLWICLDIDKKSIKTFKSYSKEIINTFIYLAEKFMRLNLRMDKVKSAYLDFSQKLATIAEAHDDCTGKHVIRVGALSELIAKKYGLNNDKVQDIKNFAPLHDVGKIFVSNEILTKNTKLSKEEWEEMKKHTIHAKRLLTGEYFEIALKIALNHHERYDGSGYPMGLKGNEIPIEAQIVSIADVYDALRSDRPYKKAFTHEETLNILLIGDGRTSPKHFNPKILKIFEENHKEIKTLFDKINKN;locus_tag=LOCUS_04280;note=WP_004082198.1 HD domain-containing protein (Thermotoga maritima) [pid:52.3%25%2C q_cov:28.1%25%2C s_cov:38.9%25%2C Eval:1.0e-57%2C partial hit],MGA_432
sequence1	MetaGeneAnnotator	CDS	483910	485145	.	+	0	ID=MGA_433;product=aminopeptidase P family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948284.1;translation=MNIETLSKRRNELLKTLPNNSIVVLFSGREKFKTADELYTFSPNRNFFYFTNIEQSDVAMILIKENDKTSEFLFIEKNDPIKSRWIGEKIKPEEAQKISGIKNIRFLDTFNDFLNQQIQKNENIYFDLERQSWNKGKSEAEEFALELKNKFPHVKINNIYNNISQLRMIKDEEEIKNIKKAISITKLGIENMIKNAKPNMMEYELEAYFDFSLISNGIREKAFHTITASGKNATVLHYSQNNCKAEDKTLVLLDLGAAYNHYSADISRTFPVNGKFTQRQKDVYNAVLKAQKEVEKNAKPGVTLIELNEIAKKVLSKECKSLGLIEKDDELIKYYFHGVSHHLGLDTHDVGDRSLPLQKGMVITNEPGLYIEEEGIGIRIEDDLLITENGCEVLSKEIIKEVSDIENFMEN;locus_tag=LOCUS_04290;note=WP_011948284.1 aminopeptidase P family protein (Clostridium botulinum) [pid:55.3%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:2.5e-133],MGA_433
sequence1	MetaGeneAnnotator	CDS	485150	488230	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKKITDNPNRNFFISASAGTGKTYTLTQYYMSILEKNKDSNIIDKILAVTFTNKAAGEMRERITESIYEKMNAAKTNKEYEYWNEVKISLSGAWIKTIDSFCSRILKDNNVLIGVDPNFTMISEFKKENEIERAVYYTLKVILETYENIDPDLINLSTDRKNNVEKILLEFKKDKEFKKIVKEFLKNEGIKKFEELLKEMVRNWRLEMKRAIVETMELSENGDLYTNFLKLLKNASYIASEFYESLTIDQFKYDFKGILEKTILTLENNNILKKYQNKFKYIIVDEYQDTNYLQKEIFDKLHHENNYLFYVGDRKQSIYRFRGADVSVFSKTENEFKNKNYIVESLNTNRRSNSEIVSYINKLSKDVLFEKNNIYMDDVESELFESICFKEIDECNYEIKENKNITPNLLKDDNKRIKYIYATPEKDNKELRVKKEAETIIKTIKNLLNKEMTFRKRKNGKIIFETRKIKPGDIALLLKQLSGYEEILKNEFQKNNIPYYIVGGKSFYYKPEVQAVFSALSAVQNPYNDYEFIKYMMSLIGGMTLNQLHTLIKNKKNSLFETFETIEFSSERLNRAYLVLKKYRNLRYYMKPTDILKGIIKETKYLVYLMALDNSESAISNVKKLITGSQQYDSIANTFSELVKLLKKSTEVDEKEAVLEDEKSNSVKIMTIHKSKGLEFPIVLLGGLHNKIDKKIIKNIDFSLPNSNGERYYLLKNVMKNTLNESSNYILKWFKNNDFLEKTETNRLIYVATTRAKEMLIPILINTKSNSYNNYFFNYKYDNIDKINEIDLKDIKINNKIEEIIFKDIPKNNLKNLKNLAYKQYIAPTYLINEPKESEEKFLKNIGISYKKYFKQSVFSDEELMFRGSQLHLKLQSAPSLIHLKKLIDKEKNRNYDYLPPKFDELNIVKKAFGKNEIVKTEWRLVKKIEINNKEYMLFGIPDRVLINNGNIEVIDYKFSDLLNKNKIKDYIFQLQFYMYLLKDFGYPKKGYILSIKETKEPIEVTYNNDIELEIINKIKKLQI;locus_tag=LOCUS_04300;note=WP_010965560.1 helicase-exonuclease AddAB subunit AddA (Clostridium) [pid:23.6%25%2C q_cov:74.5%25%2C s_cov:65.3%25%2C Eval:2.8e-39%2C partial hit],MGA_434
sequence1	MetaGeneAnnotator	CDS	488422	490473	.	+	0	ID=MGA_435;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986325.1;translation=MNSLKWRMVFIIGTLVTAILLISGSISVIYLRNQTISQLETNSKEVLKSQAKYVEMWFNEKIDTLNNMANAEFKNTNFNEKDNVQKLKREYNVNKKFFEMFFVARKDGFSYTNLDGVTANVADRQYFKEIMSGKNYAISGMLISRATQNPIIVVAVPIKDNSGKTIGMIGGTVLLDSFQSLINGLKISNLGYGWAIDNTGLVIAHKDKSSIGKVNIINADKDFGYNGLTNIYNRLKKGEINLEEVTLPDKSQAFIAFSPIGKTGFSFGVTIDKNSMLKNVYTMIKYFIIIIAAFLFIGIFSAYLIGNAVSKPIIELSKEIEKLGDGILDVNIENIRKDEIGKMQESLLKTTQKLKSMVKQILGISMNVNSSSTELSATSEEASATNQEISAQADQINESTQSVSASLQEMGANIEEITSASNNLVSFINNVVEESNGMKKNAEIGKTNIKNIEDVIAKISEEMLESSKMSNKLYEKSANIMQIVETINNITEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEESRSATEDISQILSEVFDSIKNLNKKSEEISEVAINAKDNEEDAAHSVEQIMDEIEKIVDRVGEISIAINQQNSSTNEILSAVNVSVSSIENISEEVNELSEAIKVQVNVAQNVGENSMDLSELSKKLEDQLEKTFKLKEEEKEEILKTLSLKVKA;locus_tag=LOCUS_04310;note=WP_011986325.1 methyl-accepting chemotaxis protein (Clostridium botulinum) [pid:27.1%25%2C q_cov:93.7%25%2C s_cov:96.1%25%2C Eval:8.0e-64],MGA_435
sequence1	MetaGeneAnnotator	CDS	490548	491012	.	+	0	ID=MGA_436;product=chemotaxis protein CheX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082082.1;translation=MLDVKVINAVIEALTGTFKAASKTTISLGKPQMLRDIGDSFQIITTIGFNGVLEGNLIYSMPEDVAVSIVTNMMGGMMQIDKIDDMALSAIGELANMISGAIAISLEKTGFPINITPPSVLNGEKISVSVHGTILKFPGKLLDDKEMDVFLVVK;locus_tag=LOCUS_04320;note=WP_004082082.1 chemotaxis protein CheX (Thermotoga) [pid:37.3%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:1.6e-25],MGA_436
sequence1	MetaGeneAnnotator	CDS	491048	491983	.	-	0	ID=MGA_437;product=carbamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000037999.1;translation=MKDKIVVALGGNALGKTPEEQLKLVKHTAKPIADLIEAGHEVVIAHGNGPQVGMINLAMEVSSKSDAGTPAMPFPECGAMSQGYIGYHLQNALREELLNRGIKKPVATIITQVIVDKNDKAFEKPTKPVGAFYTKEEAEVLKETRGYTMVEDAGRGYRRVVPSPIPVDVAEKEAVMDLVKNDHIVITVGGGGIPVVQEGNSLIGVPAVIDKDFASEKMAEILDADYLIILTAVEKVAINYGKENEKWLSDLSVEEAEKYMNEGHFAPGSMLPKVTAAVKFAKSKKGRKALITSLEKAKEGIEGKTGTLISQ;locus_tag=LOCUS_04330;gene=arcC;EC_number=2.7.2.2;note=WP_000037999.1 carbamate kinase (Escherichia coli) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-111],MGA_437
sequence1	MetaGeneAnnotator	CDS	491998	492990	.	-	0	ID=MGA_438;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861433.1;translation=MSVNLRGRHFLTLKEYTPEEIRYLLDLSMDLKAKKRAGIKGNLLEGKNIVLIFEKSSTRTRCAFEVGAYDEGANVTYLTNSQMGKKETIEDTAKVLGRFYDGIEFRGFKQETVETLAKYAGVPVWNGLTDLYHPTQILADFLTVKEHVAKPLNKVKFVFVGDARNNMGNSLMIGAAKTGMDFVALAPKSLWPSEELVNEMKEVAKETGATITLTENVDDVKGADVIYTDVWVSMGEEDKFEERINLLKDYQVNMEMIKKTENDDVIFLHCLPSFHDKNTVVGKDIFEKFGLESMEVTDEVFRSRHSKVFDEAENRMHTIKAVMVATIGNL;locus_tag=LOCUS_04340;gene=argF;EC_number=2.1.3.3;note=WP_011861433.1 ornithine carbamoyltransferase (Clostridioides difficile) [pid:74.7%25%2C q_cov:98.8%25%2C s_cov:96.5%25%2C Eval:8.4e-142],MGA_438
sequence1	MetaGeneAnnotator	CDS	493080	494294	.	-	0	ID=MGA_439;product=arginine deiminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003385506.1;translation=MKINVYSEIGKLRRVLLHRPGKELENLAPRYLADLLFDDIPYLKKAQEEHDAFANLLRENGVEVKYVTDLFVEAMDSQNNKLDFVKEFLDLSEINNQYIREALIEMLTSMSTREMVDKLIAGVRTNELKLKQDIFSVKVRKAKLGIPFFLNPMPNLYFQRDPAATIGKGITINKMRTPARRREAMLMEYVINNHPEYKGTPKYYEKDCPYALEGGDVLVLNKKTLAVGISQRTDPEALEALANNIFHKYGDSFESILGFLIPESRAYMHLDTVFTMLDYDKFVVHPKLEGIIKIFVLRKEDKGYSVSEESGELSEILKRHLELEKATVIRCGDSDEIAAEREQWNDGSNALAIAPGKIIVYDRNYVTNRLFKEAGIEILEIPSSELSRGRGGPRCMSMPLFREE;locus_tag=LOCUS_04350;gene=arcA;EC_number=3.5.3.6;note=WP_003385506.1 arginine deiminase (Clostridium) [pid:52.2%25%2C q_cov:99.3%25%2C s_cov:98.3%25%2C Eval:7.2e-117],MGA_439
sequence1	MetaGeneAnnotator	CDS	494640	495863	.	-	0	ID=MGA_440;product=glycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082016.1;translation=MKKDALNIIKNSINDVLPNVSVENFLKDKKFEGNIYTLAIGKAAWEMANSALKVLPKIKKGIIITKYKHSKGSIKNFDIYEAGHPISDENTIKATKKAIEFASNLKEEDTLLFLVSGGGSSLFEIPEKNISLKELQEINLQLLKSGADIREINTVRKHLSKVKGGKFAKLTKSKIMTLVLSDVLGNDLSTIASGPAYPDFTTSNDAFNIIEKYNIKISKKILETLKIETPKKLKNIETHIIGDINKFCESVKKNSELLGYKSIIMVKSMNGDADETGKFIGNIAKDFESKEPTCLIFGGETTVKVKGNGKGGRNQEIALTAALNISGVKDTIIASFSSDGTDGPTDAAGGIVDGNSLKNLKELNIDVKKILKNNDSYNALKKINSLIFTGPTGTNVNDITFILKNNR;locus_tag=LOCUS_04360;note=WP_004082016.1 glycerate kinase (Thermotoga maritima) [pid:50.0%25%2C q_cov:98.0%25%2C s_cov:97.1%25%2C Eval:3.0e-110],MGA_440
sequence1	MetaGeneAnnotator	CDS	495860	496519	.	-	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGIAGYYLDKQGNHRLSFEDKNTNNIFDNKIKLMDKTYELLDKKFGNLVKTPIIFGGNMVLHRNTIEKVSFDPYNTRGEDIDYLINAKMEGLSFFLDKSLNIIHLPPEYNESNKINVCKLKQDILRFFYEKEKIEYSKNIEELNSIDIEKLKPYPGEFFEEKNFKDAEEKLLNILEKNEVKEFINYAKLRAKELSPKYFEFRILWKNLFKDLKKEILK;locus_tag=LOCUS_04370;note=MGA_441
sequence1	MetaGeneAnnotator	CDS	496783	497010	.	-	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVTIVVPTYWTLPSNKKDSNTIFDHPTPLDFDGTLERTLESLKKIEYYNFDILVITASTHKELSYEVEKKYKK;locus_tag=LOCUS_04380;note=MGA_442
sequence1	MetaGeneAnnotator	CDS	497044	498702	.	-	0	ID=MGA_443;product=glucosylglycerate phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012602336.1;translation=MNSIEKKLEILYPKNSKFLYENIKKLIKKYALNNIKKEKFNEKDTILITYGDSIKKENEAPLKTLYKFLNEYIKNSINTVHLLPFFPYSSDDGFSVIDYKKVNPELGNWEDIKILSENYKLMFDAVINHISAKSLWFEEFLKGNKKFENYFIEVEDSKDLSKVFRPRALPLLNEYKTSNRIKKIWTTFSKDQIDLNYKNEKVFIEILEILMLYVKNGAKLIRFDAIGFLWKEIGTNCIHHPNTHLFIQLLREILEKIGDCKIVTETNVPHQDNVSYFGNGYNEAHMVYNFTLPPLVLYSFLSQNSKYITRWAKELEYKSNETTFFNFLASHDGIGLMPVKGILNSEEIKKMVLNTLENEGLVSYKNNADGTKEPYEMNINYFDALYEKDIELEENIKKFLGAYSIAIALKGIPGIYIHSLLGSRNWNEGVKITKINRSINREKLNYDTLRLELNEENSLRHKVFYGMIKMLKIRNNNKEFSPLAEQEILEINDKVFAIKRGNFFILHNFTNESIKLNLSKYFKLGINLINDEKTKNEFKIKPYEYMWIKGEL;locus_tag=LOCUS_04390;gene=ycjM;EC_number=2.4.1.352;note=WP_012602336.1 glucosylglycerate phosphorylase (Escherichia coli) [pid:45.5%25%2C q_cov:93.1%25%2C s_cov:93.0%25%2C Eval:1.7e-130],MGA_443
sequence1	MetaGeneAnnotator	CDS	498714	499514	.	-	0	ID=MGA_444;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080056.1;translation=MVINKLKGIYSSLTKSEKKAADYIIERPDDTIHYSITELSKWSGVSETTVYRLVRKAGFDGYQQFKLELVREMSSESTIEKSSNVYESYFNKTISTINTIYKNLDIDTINEIIDRILISNRLIFFAVGRSAPIAEDIAIKFSSLGYSAVAYSDPHIQVMVSASLTSNDTVFTISHSGFIRDTYKSTEIANDAGAYTIGITSGVNSPLSKIVKKALYTVASPHENEFIESRIGEVFLMDILYNAMLMKKNHNKHFEELSKVIRPKRF;locus_tag=LOCUS_04400;note=WP_004080056.1 MurR/RpiR family transcriptional regulator (Thermotoga) [pid:40.8%25%2C q_cov:98.9%25%2C s_cov:98.5%25%2C Eval:8.7e-56],MGA_444
sequence1	MetaGeneAnnotator	CDS	499564	500535	.	-	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKKSFIRTFFFWFLIVLLVTFVIYPFLWMVSVSFRYDTDAFDKGLIPKRPTLNAYEELLGLKKSIREELSNEDKQLLDLVKNMPEEQKKKVLEKIYSKRKKNSFPFLRFFKNSLLLAGISALISVIISIFGAYAFSRIEFSGRSYIQRGVLLVYLFGGTILAVPLYQIFVKMGMTNSGIKGMLSLFVIYIVQTLPVSLYMLGNYFRTIPETIEEAAIIDGCSRLKVIYKIIIPLSLPAIVTVFIYAFMIGWNEYLFASIFIRPYPEFHTLPIGLNEIFNSEHAIWTKMMAASVLTAVPVIILFMTMEKYLAGGLTTGGVKE;locus_tag=LOCUS_04410;note=WP_000224665.1 carbohydrate ABC transporter permease (Enterobacteriaceae) [pid:43.3%25%2C q_cov:67.2%25%2C s_cov:75.7%25%2C Eval:1.4e-53%2C partial hit],MGA_445
sequence1	MetaGeneAnnotator	CDS	500529	501401	.	-	0	ID=MGA_446;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288134.1;translation=MVKYTSLKRKEETFGWKLISPTLILIGFLILYPVLYNIYLSFFKVSLNFGEKNTFVGIQNYLNVLSDLSFWKSFGTTVAFTLITVMGSILLGLGVALLMNKKFPGRSIVRGLLLFPYVTPLIAIVFSWKYVFLPIDGPLVQFLSIFGFNSGTDMINDPNNAFIVVSIFNIWRNFPFVYLMILSRLQSISDDYYEAAELDGASSWQKFLNITLPELYFVIGSIALLRGIWNFYKFDEVYLMSKFANTLPIYIYEKAFSGLPQQGVAASIATILFVVMFSLIGFYVKKVLKW;locus_tag=LOCUS_04420;note=WP_002288134.1 sugar ABC transporter permease (Enterococcus) [pid:41.2%25%2C q_cov:93.1%25%2C s_cov:93.8%25%2C Eval:2.8e-58],MGA_446
sequence1	MetaGeneAnnotator	CDS	501470	502753	.	-	0	ID=MGA_447;product=sugar ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288135.1;translation=MKKLIVLIIVLSISLFVFSKTITFWTTETESDRQQRINALATIFEAQTGIEVKVVPIQENDLLKQIPVAKNSGTLPDLLEGGIEPLLLLASSGYMNEDLTSKIIKDFGDVYPGASRLLSNGKSNFGIPFHAWVQGIWYRKDWFDGKDLGYPLSWHNILTAAKSLNNPAKGVYGLILPKKADSYAEQVFTEIALANGARPIDENGNITFTSKAMIEAFRFYKELNKYAKPGYTTVLDALKGYLAGEASMIFYSTYIMDDIAVEDVQKSRINSFDPKLVLNTGFANKMINIRPTSYGQMVGLGILKTSNNTEEVEKFVKFLMTPKNYVYWLHMAPGGMNPTRKSVAESSEFLDNPILSRYGKEKISEIVGALDSVERFEFVNGKVISDMSKLSANFVIGKAINYMFANNWTPQQTAEWAQKEAKRVLGK;locus_tag=LOCUS_04430;note=WP_002288135.1 sugar ABC transporter substrate-binding protein (Enterococcus) [pid:30.6%25%2C q_cov:94.1%25%2C s_cov:92.5%25%2C Eval:1.3e-47],MGA_447
sequence1	MetaGeneAnnotator	CDS	502919	504217	.	-	0	ID=MGA_448;product=mannosylglucosylglycerate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080052.1;translation=MKIGLLHYRVGETDGVSLEMNKWKNVLESMGNEVFLIGGEMGNASGIQIPLLAYSEESNEIIKKKSYISLDDWSEDKLEKEINKLSNEIKKQLKLLKDFDLIVVNNIWSLGHNLSAAKALWEFCHENKIKVYAHHHDFYWERDYYKNPTSEYVKELLNEFFPPLKIKHIVINSIAQKNLYNKKKVNSYIVPNVFDFDKKLWKVDLYNKNIYSKLGIKENDIVFLQATRVVKRKGIELAIDTLSLVQKKAKQGTLYNGKKFDKDSKIYLLLPGLQEEFEYTNLLKAQAEQKNVNLLFANDICEDIRKDKKYSLWDFYAISDFVTYPSILEGFGNQFLEALFAMKPILMYEYPVFKEDIAKNGFKYVSLGDNARKNKKDLYEVNENTLIKASNEIISILYDKNKYNDIVQNNFNLGKKYYSYQTLEKLLLKIIY;locus_tag=LOCUS_04440;gene=mggS;EC_number=2.4.1.-;note=WP_004080052.1 mannosylglucosylglycerate synthase (Thermotoga maritima) [pid:40.1%25%2C q_cov:98.8%25%2C s_cov:98.6%25%2C Eval:1.6e-80],MGA_448
sequence1	MetaGeneAnnotator	CDS	504333	504674	.	+	0	ID=MGA_449;product=ASCH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868731.1;translation=MVHQMKLIEEMFEKIKNKEKKVEIRLFDEKRQKIKEGDIIIFSKLPKLNETLKVKVFNLKKFNTFKEMFKTLPKDIYGYKDISLEKFLSMIYEIYSIKQEKKYGVLVIEISNL;locus_tag=LOCUS_04450;note=WP_010868731.1 ASCH domain-containing protein (Pyrococcus abyssi) [pid:42.6%25%2C q_cov:85.0%25%2C s_cov:82.0%25%2C Eval:1.4e-10],MGA_449
sequence1	MetaGeneAnnotator	CDS	504807	505355	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLVFLMVLIGITVLWADNTPTLVNNYAEFSNDATTLAAKVKVFVDQWYSATFKPTQSLTFTSAGNWDGGDHLGEGLGTFSIQSNGEVLMKVKIDPSETTSDIYSAISALRLIHNNDKDNPLTETNPKEIAFTLSQDDALSTNVYDIRADFNIDSKLKATGNDNYVIFYVVDFQPNNRLP;locus_tag=LOCUS_04460;note=MGA_450
sequence1	MetaGeneAnnotator	CDS	505455	507005	.	+	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLVFLVIFSSILSFSFMVQPLVQNIEAKPGEEVEVQYVMSNTTKVKEDINLNITGVFINEKKDGWVLDQNYSRSAANWIEYNPNITLLPNEKTTQKFKVKVPFGTAGSYFAAFNFSSNAPVTSGQVAYKMNFLTVVQILVSGQGSKEKITVSSATPTLIKENGELLGINLDLDVKNPSDWVSSVWGRIDVKSDQLRKILASIDIPEENGTFVSPKKGKSLNYKINKLLPPGDYKIQMALSYGYHKYYFGKTTYESTFTVPAEIEKNRKSLFLSTDLKELYTKIEKRNSSRGLQVNPKNLTLNILNNDYVEAIVTPRINATFNPKGSDNNFNRLINPKFVQIRPLRDIRARPYTERGNSLRIMADYRRANLENLKGEYYGSLELSAKGELKDKTLTKNLTVPIIIDFGDNTYKFNSNATFEASTLLINVENKGNSRVKFDASIFVMNSKTGEKIGDDINLKNLIVYPNCSYTLKQDINKIGDADKIIIKYKYLDGFDTNGNQLYSEKTSEIKIK;locus_tag=LOCUS_04470;note=MGA_451
sequence1	MetaGeneAnnotator	CDS	507019	508185	.	+	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIKRLLILLILIIFSTFNFANANLYSVSLFQEDLRTAISNLAYDTGTTIIMDPKIAGFVTLDAVDKPLETLLDMILMPFGYAWKRIDDYILVGVPDPSSGTSIHLNDTYVMKTRYLTPKSLMQLLPRYFQNFVSYSEQDRNFVVINAPPKIAGTIANTIRKIDMGRAELSIEVKVVQIDTEEFKKWNISKLEITQPYDRGNGYNNSPHTQLSDKSLDFLANLNGVDYGLIIDKAISEGHGEVVSNSKINVISGENSTLSGKLVQSTNDQKVVGEYSGFELSLSPYLMSGKKVRLNATVLLKDKRSVENDSYLENKIQSTFVLDLEEEGTIAAFNYSTVVQKSIGIPFLSDIPGIGSLFKTSIDKKTDQQIIFLVKCYASGGEIQ;locus_tag=LOCUS_04480;note=WP_213605796.1 type II secretion system secretin GspD (Pseudomonas qingdaonensis) [pid:23.3%25%2C q_cov:61.1%25%2C s_cov:35.1%25%2C Eval:7.6e-07%2C partial hit],MGA_452
sequence1	MetaGeneAnnotator	CDS	508182	509654	.	+	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKLKKQFIIFFILILIPMYIFSSSKIIDINFYETPLKDAIQSIADGSNSIIIIGPEVKGRVTLSVRGLSVDSALELILYGTTYDYKKISEGIYVVGTLEAQNNISMYLNQPNIIKLKYITTENIKNVLSQYGERVKYIDGADFIVVYGNDKIAKKITDTIEKFDKLGNEYIFLYNIYSLTQSAYQAIQQLNYYDFPVKFENSLNFLQKNFTRLTRIEQTGFIETTNYAKFSIGIDFSKLNGQIAIENNLYSLKTSITTQDSTVLNSFSSTQKVGDTIYAAYNINGAFYLIVYNLLPEIQTSLTKPVGTYAKVNTGIEYTNKLLYTAGLSISDKYVQFSYDFNKDFKILFKSDIVSGINGEMEASLDENSKLNTKISFIEEQKFDPFFMLGKVSLGTSLTIKNNELSPELSNLGYNLGLYWGFMKDVSIIKYINFGIGFDLNYDFNKFNILPEFLVKNKLSFDKTLMYLNFKINKNLNYDINGYVSFEF;locus_tag=LOCUS_04490;note=WP_004080304.1 general secretion pathway protein GspD (Thermotoga maritima) [pid:27.7%25%2C q_cov:31.4%25%2C s_cov:39.5%25%2C Eval:4.9e-09%2C partial hit],MGA_453
sequence1	MetaGeneAnnotator	CDS	509692	510351	.	+	0	ID=MGA_454;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582570.1;translation=MYNILIVEDDASIARLLELELQHEGYKTLIAKDGEEAVEFYGNFKPDVILLDVMLPIRNGFEIAEIIRNYDKDVGIIMLTAKGELEDKVNGLKNADDYIVKPFEVEEVFARIESLLRRLGKTKNSIKAGDIELFPERMQVFIKGKELHLSLTEFNILKTLLLNKNIVVSKEKILEEVWGYEDENLNIVEVYVNYLRKKLGDYGKKIKTVRGVGYVIRED;locus_tag=LOCUS_04500;note=WP_012582570.1 response regulator transcription factor (Dictyoglomus turgidum) [pid:54.1%25%2C q_cov:98.6%25%2C s_cov:99.1%25%2C Eval:4.6e-59],MGA_454
sequence1	MetaGeneAnnotator	CDS	510323	511645	.	+	0	ID=MGA_455;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582569.1;translation=MLDTLSEKIKSSAVLNQAIFFTIMVFIIITIITFSMKILVSTTALHGYSKALINQINPNKILKNDETDIFSKFLENTDIIKRSFMENKIVILDNKLINDPYKIIDENFRIPGTPVAIKKNGIYYIFVGLRLFDNSKMIVGGPSLEFTAVMGAFNYISIIILIFGLIFSIIISYLLAKKSLSPTIKISKKLSKINIENLERVPEQKTIEFQVLANRLNSMLDRIEQGYEIQKQFVSDVSHELRTPLTTLNGYIKMLKRWGKNDEKLLEESIEKIETSTNYLKSMIEKLLILSKPDFNPEISIFNISDAIKEVLKLYNTQERKFIEKGTSFNVETSFEYLIIILKTLIENAVKYSEKEIEIIYDKNSIIIKDFGIGIPEDKVEHIFERFYQADTSRKDFGHGLGLSIAKKLCEKLNIKIVANSKINEGSSFKLMFGGKNSEN;locus_tag=LOCUS_04510;note=WP_012582569.1 HAMP domain-containing sensor histidine kinase (Dictyoglomus turgidum) [pid:32.6%25%2C q_cov:84.3%25%2C s_cov:91.5%25%2C Eval:2.2e-45],MGA_455
sequence1	MetaGeneAnnotator	CDS	511635	512666	.	+	0	ID=MGA_456;product=M42 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032842698.1;translation=MKIDMEYTLNYLKEIMKVHSPSGDTEKGIKNVEEEFDKLKISHKRTKKGAIIATIKGKDDEHHKTISAHIDTLGAMVKEIKNNGRLKMAQIGGFSWTSVEGENVIVKTLNGEEYTGTILFDKQSVHIHGMIPRETIRSDENMEIRLDEDVKNKDDVLKLGINVGDFVYCETRTTITKNGYIKSRYLDDKAAVAIIMGICKYIKDNNIEPKYTTHFFISNYEEVGHGISAIPEKTDEFIAIDIGTVGLGQNSDEFSVCISARDTSGPYDFSFRKKLQKICEKNNIQYKVDMYNRYGSDASKLVHQGVDVNYALLGPGVDATHHYERTHIKSLDNTAKLLLNYIV;locus_tag=LOCUS_04520;note=WP_032842698.1 M42 family metallopeptidase (Fusobacterium nucleatum) [pid:54.4%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:5.3e-102],MGA_456
sequence1	MetaGeneAnnotator	CDS	512984	513841	.	+	0	ID=MGA_457;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082812.1;translation=MKKIIFKEYFFATIGALLTAFGLAVFLMPHDIACGGANGLAIVLNSVIHVPVGILMYGVNIILFILSFIFIGKEFGAKSIYCTFILNFFVDMFDRILPIPKYTGNDMFLAVFFGVVISAAGMAITFSQNASTGGTDIIAKIFNKYFGLSLGIGLLMSDLIIGLLAGIAYDPTVGMYSIVSVIINGLTVDFIIRGITTDVTMMIISEKKKEILEYILKDLDRGASLINAEGAYSGQKKQFIYVALSRREKNEMIHKIQSIDPDAFITVQPISTVIGYGFKNFKQVI;locus_tag=LOCUS_04530;note=WP_004082812.1 YitT family protein (Thermotoga) [pid:51.4%25%2C q_cov:97.5%25%2C s_cov:98.2%25%2C Eval:1.0e-84],MGA_457
sequence1	MetaGeneAnnotator	CDS	513998	514645	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKFEEYSFFNPSPNFREMVLLQIISKDSNVSQEILAKNAGIAPSMVNRYLKEFEEKKYINKVGKTRRSMQYKLTEDGIKRLQFLIVSYTSEVSKMYAETKISFDGVLYQIKNKSLKNIYLYGAGVVGGILLKVLNSENIEIKGFIDESPLKIGEKLYNIKIFSPESMKNKNYDAIIIASFRHYEEILKKAKNFGLKNIQIFKIDNEGKVSLKEA;locus_tag=LOCUS_04540;note=MGA_458
sequence1	MetaGeneAnnotator	CDS	514648	515799	.	+	0	ID=MGA_459;product=DegT/DnrJ/EryC1/StrS aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081105.1;translation=MKVPLFDMTRQYEKIRTEVLNTIDEIFKSGKVVLGKHVKNLEENIEKYMNVKNAIGVANGSDALVIAVKALNLNPGDYVITTPYTFFATASCIVRNGLTPIFVDIEEKYYNIDLNEVERILKTHPQKEKIKAIIPVHLFGKTVDMKKLLELKEKYNLKVIEDTAQAIGAVWYDGDKKIYAGTASEFGTISFFPTKNLGGYGDGGMIVSNNDELSQKAKYLRVHGASKKYYHDEVGFNSRLDEVQAAILDIKLKQLDEYIEKRINVAKIYKKLFTENGLNEYIEYPEVFKDRTHVYHQYVITLKSGNRDELFKHLKENEIGTSIYYPKGLHLQKCFEDLGYKEGDFPITEKACKTTIALPIFPELTEKEQEHVVKTIKNYFKGE;locus_tag=LOCUS_04550;note=WP_004081105.1 DegT/DnrJ/EryC1/StrS aminotransferase family protein (Thermotoga maritima) [pid:53.2%25%2C q_cov:97.7%25%2C s_cov:98.7%25%2C Eval:1.5e-111],MGA_459
sequence1	MetaGeneAnnotator	CDS	515802	517106	.	+	0	ID=MGA_460;product=nucleotide sugar dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081274.1;translation=MALIDKINDKTAKLGVIGLGYVGLPLAVEKAKAGYNVIGFDVQESKVKMVNEGINYIGDVVDSELKDLVKNGKIKASTNFDELESCDAVMICVPTPLDKFKQPDLTYVEASTREVAKRIHKEMLVVLESTTYPGTTEEVMQPILEESGLKAGEDFYLAFSPERVDPGNIRFKTKNTPKVVGGVSEASTKVAKALYESILDAEVFCVSSPKEAEMAKILENSFRIVNIAFINEMAIVAKKMGINLWEVIDAAATKPFGFMPFYPGPGVGGHCIPIDPFYLTYKAREYDYHTRIIEMSGEINDYMPEYVVERVMDLLNENKKCMNGAKIVMLGIAYKNDIDDMRESPALKVLEHLEKKRADVTVVDPWVAEFKWNGDTVKTVELTEELLKNADAVVVTTGHTNIDYDFVAKNAKIIFDTKNIMKNVKENREKIVIL;locus_tag=LOCUS_04560;note=WP_004081274.1 nucleotide sugar dehydrogenase (Thermotoga) [pid:68.6%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:4.9e-175],MGA_460
sequence1	MetaGeneAnnotator	CDS	517117	518184	.	+	0	ID=MGA_461;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008192388.1;translation=MLRWAIIGCGRIATKKHTEAIINNKENIELVAVADIIEERAETLANIIKDAGLKKPEIYTDYNEILKRKDIDGVSITTESGKHYEIAMKAMNNEKHVLTEKPMALSTKHMDEMIKLSKEKNLKLGVCFQNRFNPPVQELRKKIENGDFGELFHGQISIRWNRNKDYYEQAKWRGTWEMDGGTLMNQCTHGIDLLIWTFGGEIESITGRIENFNHDYNEAEDFGSAIVKFKNGGVGIIEGTANVYPKNLNETLSVFGEKGSVVIGGLAVNKIETWKFENEDGHPYQSLPDPDTVYGAGHIPLYKDFIEAINENRKPYVSGEDGKKAVEAVLAIYKSSKTGKTINFPFEFSSIEMKK;locus_tag=LOCUS_04570;note=WP_008192388.1 Gfo/Idh/MocA family oxidoreductase (Thermotoga) [pid:63.2%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:2.6e-136],MGA_461
sequence1	MetaGeneAnnotator	CDS	518284	519993	.	+	0	ID=MGA_462;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFKKIRTENFYYVDKTKYIEIIEDMPESYILFLRPRKFGKSLWLDTMSKYYDVKYSDEFDTIFKDLYIQKHPTPKKNSYHILEFNFSGLNTDSKEELKYGFKDEIYEKLDTFIYKYNLNITLDKSKNEPSELFREFINKYNKLNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNKHAKKKVYNSDMVLYFISEYNREKRKPEDIIDMNIASDYKKIQNLFKLGEIVGINTEKNSHEVVNELLNEILLNSKTEIEVLTQAFNMERKLDIKDIKTLLFYLGFLTFEKENFYTYLKIPNYSMKKLYSEYFVESIEDRAKSYINTEKLELAVKRIVIDGNINPFANEIENVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVESGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKIYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVE;locus_tag=LOCUS_04580;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:36.9%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:6.0e-94],MGA_462
sequence1	MetaGeneAnnotator	CDS	520060	520794	.	+	0	ID=MGA_463;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082240.1;translation=MKLNEKIAIITGASRGIGYEIAKKFVENGAKVIAFDVNEEGLKQAKNTLNNYYPYVVDVTDSKKIDETVKKINSEFGKIDILVNNAGVTKDTLLVMMKEENFDFVVNINLKGVFLVTKSVAKVMRKQKSGNIINISSIVGIEGNIGQTNYAATKAGVIGMTKTWAKEMTMRGENVRVNAIAPGFIQTAMTDKLKDEMKEAAINRMCIKRLGTAEDISKTALFLASDDSAYITGQVIRVDGGITL;locus_tag=LOCUS_04590;gene=fabG;EC_number=1.1.1.100;note=WP_004082240.1 3-oxoacyl-[acyl-carrier-protein] reductase (Thermotoga maritima) [pid:52.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-69],MGA_463
sequence1	MetaGeneAnnotator	CDS	520841	521305	.	+	0	ID=MGA_464;product=chemotaxis protein CheX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082082.1;translation=MVDIKIVNAVLSSLTATFKAAAKSVVKLQKPELVKDIGETRAIVSTIGFNGVLEGNVIYTLSEDTAKGIVGNMMGGMMEITEIDELALSAIGELGNMISGAIAISLEKIGYPINITPPSVVRGADMTVSVNGSILKFSGFIEETKEIDVYMVIK;locus_tag=LOCUS_04600;note=WP_004082082.1 chemotaxis protein CheX (Thermotoga) [pid:41.2%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:1.9e-26],MGA_464
sequence1	MetaGeneAnnotator	CDS	521346	522011	.	-	0	ID=MGA_465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFEVVKKGNINYIYKSNKLLKYKPWLGDLFSFFYDNIMKKSVFPKKFGSSLEKHYDFFNSELKKFDNFIILDLACGNASISKFLNKSNFYYGIDISKGLLKNAIKNLNVNGFQNFELYLANASELPFEDDKFDVCLCNLAINFFNDLDKVLTEIKRVLKDKGVFIGVVPVPEKNYRNSKINGTLYSEKKLESIFEKNGFNFKSYNYENGALLYFKSSFTI;locus_tag=LOCUS_04610;note=WP_011023811.1 class I SAM-dependent methyltransferase (Methanosarcina acetivorans) [pid:32.2%25%2C q_cov:64.7%25%2C s_cov:48.1%25%2C Eval:1.9e-12%2C partial hit],MGA_465
sequence1	MetaGeneAnnotator	CDS	522243	523178	.	+	0	ID=MGA_466;product=inorganic phosphate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080645.1;translation=MIYFLIPAIFLGWSLGSNDAANLFGPPVSSGIIKYKHAIIIASIFVVLGAIIGGAAGLKTIGGLTDINLRESSISLFGAALTVTFMTFLGLPVSTSQAVVGSLVGVGMLRGSVDLSKLIKVVISWVGTPIGALIIAFFAYKIVSYFFRQFLSVQKQDIFIIVGTWAVGIYGSYSLGANNVANVTGALVGRNELFTIPLMATIGGLSIAFGILTFSKRVMMTVGKGIIELDHFSSMITIFAASATVWIYSLIGVPVSSSQSIVGAIIGIGFATGTKTVDKKAIFKIVSGWVSTPVLSGIISVIVTLIMEVIL;locus_tag=LOCUS_04620;note=WP_004080645.1 inorganic phosphate transporter (Thermotoga maritima) [pid:47.9%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:4.2e-79],MGA_466
sequence1	MetaGeneAnnotator	CDS	523175	523816	.	+	0	ID=MGA_467;product=TIGR00153 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080648.1;translation=MKFFFGKKEEHIIEMFKKHLDLVDEGIKLLTELSETYMEGKCIEELTEKVRSKEQEADLLRRDVETVMYKGAFLPNFRGDLLGIIESVDKVINKAETVADIFYIQKPRIPEDFKIEIVKQMGKVDQTYLALREAIKQMFENVEKVPELIKNVEVYEHEEDVVEKGLIKKIFESDMELAEKIHLKELILNIGDIADRAEDSSDRVEIVMLKRSI;locus_tag=LOCUS_04630;note=WP_004080648.1 TIGR00153 family protein (Thermotoga) [pid:51.4%25%2C q_cov:98.1%25%2C s_cov:98.6%25%2C Eval:2.7e-53],MGA_467
sequence1	MetaGeneAnnotator	CDS	523882	524445	.	+	0	ID=MGA_468;product=dTDP-4-dehydrorhamnose 3%2C5-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032842710.1;translation=MFDILKTNINGVYILKPKVFKDNRGFFMESWNKKDFFNIGIKKDFVQDNHVQSKKGVLRGLHFQTKHKQGKLIRCINGKIYDISVDLRKNSKTFGKYFSVLLSDKNKNMLYIPEEFAHGYLVLSDKTEILYKTTDYYYPEYESGIIWNDKTLNINWNLDKYKIKKSELILSSKDQKLPDFNEYLKIY;locus_tag=LOCUS_04640;gene=rfbC;EC_number=5.1.3.13;note=WP_032842710.1 dTDP-4-dehydrorhamnose 3%2C5-epimerase (Fusobacterium nucleatum) [pid:55.2%25%2C q_cov:97.3%25%2C s_cov:96.3%25%2C Eval:2.1e-53],MGA_468
sequence1	MetaGeneAnnotator	CDS	524476	525327	.	+	0	ID=MGA_469;product=dTDP-4-dehydrorhamnose reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164925241.1;translation=MLYYTIYEVKKIKILITGSNGQLGVEFQKFFEKININYIAVPHKKLDITNISNLYEVLKNKNITHILNCASYNDVDKAEKNSKLAYKTNALGVKNLSLISNKINAKLIHFSTDYVFDGSKNNPYNIFDTPNPINEYGKSKLIGEKYLKKLSKNYLLIRTSWLFGGNKNFIKKVLEWSKKEEIRVSYNEVSSPTYTLDLVKVTFFLIKQKSFGTYHITNTPTNRYEWAKFILNKIKYTGKIVKVKKEVFNLPAKRPNYSVLLNNHEVKISTWQKSTNNYLRCIL;locus_tag=LOCUS_04650;gene=rfbD;EC_number=1.1.1.133;note=WP_164925241.1 dTDP-4-dehydrorhamnose reductase (Thermanaerovibrio acidaminovorans) [pid:36.8%25%2C q_cov:96.8%25%2C s_cov:96.8%25%2C Eval:9.3e-51],MGA_469
sequence1	MetaGeneAnnotator	CDS	525324	526562	.	+	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKKDKQYYKFCMYGFFKNLRFFEPFLILFFLEKGLNYFQIGILYAIREISTNILEIPTGIVADSIGRRRTMISSFSSYIISFIFFYLSKSYWLFILGMVFFSFGEAFRTGTHKAMIFEYLKIKGWEDYKVDYYGHTRSSSQFGSAVSSLIAASIVFFSKNYSLIFLFSIIPYIMDLLLMMTYPKELDGELKTFDEKKLKNNFKKVIKDFILSFKDIKLLKAVLNSSIYTGYYKAVKDYLQPVLKSFALTLPLFLTFKNEQRESLIIGVVYFVIFIFTAFAARFSGKFAKIFSSFSKPLNITLIIGLSSGIVAGLFYDIDLRILSIVFYLLIYMLENLRKPLGVAYISSSLNKDILATILSASSQMSTIIVALSSIILGFCADVFGPGNAIIILSALLLIFTPLFLIKEKK;locus_tag=LOCUS_04660;note=WP_062387517.1 MFS transporter (Thermococcus peptonophilus) [pid:23.2%25%2C q_cov:43.0%25%2C s_cov:46.3%25%2C Eval:6.1e-10%2C partial hit],MGA_470
sequence1	MetaGeneAnnotator	CDS	526604	527845	.	+	0	ID=MGA_471;product=L-serine ammonia-lyase%2C iron-sulfur-dependent%2C subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869254.1;translation=MIKVKEYIKNEVKEAYGCTEPASVALTVARACQETDEKVENIFIETSKSIYKNGMAVKIPGTNGQRGNIIAAALGSKLNNISLEIFKGCTSNIVKEALKMVNEKKVSVKCLYEKSGVYTKATIKTKNHEIITISEGKHDFISLVLKDGKEIYKNEYIEEDSIKYFELKDGIVDEILNSLKTLDENDLNFITKGIEMNLDAANKCIKEEIPGHELLKNFEDCDMNEIRKCAMAASAARMDGAFVPIMSSGGSGNQGIVTTVPVGILGKNLKKSKKEIAKAAVIAHLISGYIKDKVGKLAPICGAFFSAGAGAAGALTWLMGGNIGQIEQAIETMLSNTTGIMCDGAKESCAFRVGTAVAEAHAAAIMVLKKTHVACSEGFIDCSLEKTIDNVVKINKAFENLDNTLIKIIEERY;locus_tag=LOCUS_04670;EC_number=4.3.1.17;note=WP_012869254.1 L-serine ammonia-lyase%2C iron-sulfur-dependent%2C subunit alpha (Thermanaerovibrio acidaminovorans) [pid:35.7%25%2C q_cov:99.3%25%2C s_cov:97.2%25%2C Eval:3.1e-70],MGA_471
sequence1	MetaGeneAnnotator	CDS	527976	530051	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFILIFLLILINSFSLKIRAGTYSNIPVSFEENDGKIVGIFSEILNYIAKKEGWNIEYTLLPQNIQMKRLLDGKIDLSFAYGITEERKKFYEYNKVFVMNDWATVYTNLSDKDLNYFSMQNKKVGVMKTDIYYDGPVGIKNILKNFEVKCNFVEYDTYEDIFKALEKKEINFGVVSRLYGVMSQKKYNVNATAMIFNPINLYFLFKKDAPINKKIIPILDKYLFELKNKNDSFYYKIINKYIESTVSNKIPIWIYYIFGFILSVIIILIITVYFMKKIINKKTKDALKQKEEVEAAYEELQAYNEELTANQSELEDLYEFSEKEKEKFKKLLEINSKIPQYINLNDSVFISELLNVSIKILDGNYGIAFKLDNDCLYFLSAFGHEINNFKDLKLKNFFNRLEITKLKNIKRMIKENTPQENKDKINGYILETEYSIIIPFVIEGKTNFIITIDKIKGDFEKDFLEISRALRGFIETLLKVKSQNQEFRSSYTNFANRLAMIAEAHDDITGNHINRVGVLSEFIAQKLNLSNDLIFEIKNFAPLHDVGKIFIPNDILGKKGPLTKDEWEIMKKHTVYARRLLGKNKYFQTALNIALYHHEKYNGNGYPFGIQGEEIPIEAAIVSVVDVYDALRSKRPYKKEMKHEEAMKIIFEGDERTNPSDFNPKILRIFEENSDEIKIIYNYLLKNK;locus_tag=LOCUS_04680;note=WP_004082198.1 HD domain-containing protein (Thermotoga maritima) [pid:46.5%25%2C q_cov:34.9%25%2C s_cov:42.7%25%2C Eval:4.5e-62%2C partial hit],MGA_472
sequence1	MetaGeneAnnotator	CDS	530063	530950	.	+	0	ID=MGA_473;product=sensor domain-containing diguanylate cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943599.1;translation=MQINYKIFENIIKSMELGIYILDWKKEIVYWNKGAEKITGITKDEIVGNKFKEELLKYSDKNGNFLNTLETPSMKTIADGRERIEKLYIQIKNKERIPIEVQVYPLKNEENQIIGAFEVFIDISEEERLKEEYEKLKRDAFIDDLTGIPNKKYINKKLRELYDDYKRYKLDFSVLFLKIKNFNSLVEKNGKVFSEKALKQVAKKISSITRSSDFFGFWEGNTFILILRFVNNTQVLEIANRFNSNLKNIEIDETKLEFLFGGSIITEEDTIETLLEKAEKKLLESETDKYENIKL;locus_tag=LOCUS_04690;note=WP_010943599.1 sensor domain-containing diguanylate cyclase (Geobacter sulfurreducens) [pid:32.6%25%2C q_cov:82.0%25%2C s_cov:76.5%25%2C Eval:2.4e-36],MGA_473
sequence1	MetaGeneAnnotator	CDS	530971	532248	.	+	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLFIFFMLISLLSFSRYTLNMHVYGDIPKDLFNSVINDIRAFVTSSNRFIVLGEVNKKEISTELILSSIFNNDKDNNLIKSSDLNLSIKVFNYSLSNQETSFNYILNNNSGNFINKNGVYIKVIVGNYYKYDVKTNSYIQDEYGKYVKATNEKFYVASNFYSFFPHKVKKTKLSYDISVTLTNTNDNKILYSKTIKNAKTITTENYGYSSLYKSFFKKQNPKIAVYNNNEVGYAISNSLKYIFPIKANVIDIDKTNVYLSVGEDEGILKGYIFKAENNGKKAYLKVENVNANTSETKIINIDYGMNFKYNMPVKEAFSLPFISPFIFQLSYEFEPTFGIGLRNYDIYGTTTAYCIANFNFKFNIKQIECGFSLYKNKNLNFYLRSGINSLNIFGGIELDILNHFGLFIDYSNDFNYGAKIFF;locus_tag=LOCUS_04700;note=MGA_474
sequence1	MetaGeneAnnotator	CDS	532259	534256	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILLMFLIFSILTYSKTIAEFIEINRETNINFDEISKILENKFGNFTFVKRQISYNSKLTFNIFKNPNIADYGIYIKINNIKKEEKITKNVLFIRNDNSGTYVYFKNIYVPITSKKRYDYDGKNYFLSKNGKYIYLDNYLWAKNEEDKFIEFSGYYKKELKTIKTYKYSLNGIYELVDFKTSFVVSSGSLNTSSSNKETLIKSSLNKINFNFKKFYNEKPKIALYISKNGYESIENKLYDYIRTNFENDGRYAVLDRNNLDKLFEEKKLDMITKNTNKVASNFKNVEYIILLQVNMYKKEKYSTYNEYNFLNNVYGEYSNNYKLDVGTYYNEVKNKDKITYTPSATGIYVKTIKTPWDRKPKYLNIKNFYTKIGNVDLKEDIILNYTYRIIDLKTATLLGEKTNSINKDLYLSKPTNFYGGIESDIESTAINSIVYNISKDMSYNIMTIFPIRTTVNKVINNEVFINSGLNYGVLPFSIYRIIDKYKTIGQVRVVLPMLKESKTKIISLKDKNSIPKSGDLAYEDFYFIKPLGFSIGINSCGLENFGFEFKYRFFNIYNETKSFISFINSYNIQNITDEFNEIYKKYETNFNLSLGFNLFSTNYLNVFAGGGIIYFLDKSSLNIYPMLEINSLKKDKNFSIYFRVSYTNNTIEELVGFETDF;locus_tag=LOCUS_04710;note=MGA_475
sequence1	MetaGeneAnnotator	CDS	534398	535057	.	+	0	ID=MGA_476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIGLVAVLMMLVMSFGAYPYWHGLNDPAYTHAVNGNVNLNNKTVDVMVYQWISATFVSRETFRTVRGAKDLQGNPLTDGILITKPGIVNDVLLGGIALYSNGNVDITVGATSNYAPAGKTNMNDKIRNLKLKTYNSINNSVVKFTKSIVDADPLAGYTLSNQNNIAKVSNLIGNRNNGTYGPEFAILADINVPNNFGPGDDYVISLDISVAPKTKF;locus_tag=LOCUS_04720;note=MGA_476
sequence1	MetaGeneAnnotator	CDS	535104	535436	.	-	0	ID=MGA_477;product=YraN family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082957.1;translation=MANGKVYEDIACTYLKKNKYKILKRNFKIKFGEIDIICKKDDVLIFVEVKGGTDKLSDPAYRANRKKLLKISQVAQIFIQNSNIEFSETRIDVISVNYDGKINHYKSQRF;locus_tag=LOCUS_04730;note=WP_004082957.1 YraN family protein (Thermotoga) [pid:37.7%25%2C q_cov:96.4%25%2C s_cov:95.4%25%2C Eval:6.8e-15],MGA_477
sequence1	MetaGeneAnnotator	CDS	535429	535716	.	-	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKSDIKKLEKLANIELTEEEEKVIEKDLSNLLEYMSQLDEINVDNVEEMYSPISNELKTVVHKDDPVLFENTEKIKNEFPEIKNDLLKIPSIHG;locus_tag=LOCUS_04740;note=MGA_478
sequence1	MetaGeneAnnotator	CDS	535728	536111	.	-	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDAYFKIDSKTLKKIISETLKNKSPFLKLLFNSTTKLIFENDTIKINALMFKYYIKIKEKPYYLNGTYMFEHNLPLDKINTKSLPQNIKITSSMMAVYVPENLITKNIVLKNLTFDDDKIIVELTT;locus_tag=LOCUS_04750;note=MGA_479
sequence1	MetaGeneAnnotator	CDS	536123	536569	.	-	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGIELKVSEDFINGVFKNIIKTTNIKEIKNLNIELVKDGLIFKSEFDVFGKSVNFKSNVKILETPNSLASGSLRFVFGGDESLKKILEGLFLIVTEVTNSISSNDDEITINFNNLKLDESIKGTLKNLKFYEFKLDNKNLNLNILYD;locus_tag=LOCUS_04760;note=MGA_480
sequence1	MetaGeneAnnotator	CDS	536682	537242	.	+	0	ID=MGA_481;product=phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428581.1;translation=MILGIMSDTHGSLSYFNKALKVLNKVDRYIHLGDFLYHGPRNPLPDGYNPKELAKELKKLKYSYVTGNCDAQIDNYVLDLPEVKPYSMESYENFKILMTHGFTPTIEEAIELANKNNCDILIHGHTHISKIEKRNNLIIFNPGSTALPKENTPNSVGKITINNNTMILELIDLETGNIYKRKEISK;locus_tag=LOCUS_04770;gene=yfcE;EC_number=3.1.4.-;note=WP_003428581.1 phosphodiesterase (Clostridioides difficile) [pid:45.4%25%2C q_cov:95.7%25%2C s_cov:97.4%25%2C Eval:1.5e-38],MGA_481
sequence1	MetaGeneAnnotator	CDS	537239	538330	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNETKSLKFLIILPFLSVFFQVGILSSGPQLQQMYGNSFYTSTFIAITPLITMIFGSLWGPILKTLGEKKTFGVALLGWILSLILITIFLSNPILGIIFRGMQGIFDAVFFSIALAGVSKSSIEGNLKAKYYGAIEFMASFGSIMGPLIIGTGFVFNPKYVLLLVIIIVSLYAILGYNIIKNIKIDTVETKKGKFSPKIFLATFFGIVILSTIVSNQAVLPGFGENSFNSPIVGKFLVSIFGTFIMLGNMLKHKIKGVKYWIPMIASVMLFIAYIFINFVFVYLLFTMITGFLLGLSLTMSSEYASKLSKGFEETGMTVYSSLRISGNFLGPYLAGMFTHSNLIIIMSVLTLASTGFLKVSKE;locus_tag=LOCUS_04780;note=MGA_482
sequence1	MetaGeneAnnotator	CDS	538343	539032	.	+	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELNQVTKFISNYYDVLISSWYVLFPIAAFFVFFSKLSSKISIFLIGMYMSYTILIPYAMKLEQIKNLLEKYTDYKFMIFLIVSIIFGIIFYSLVKVAIIISGFTMGGLLGFALGNFLVSSNPEFLTKLPFDSSYIPWMGLVIIGLIVAFIISKDFEKMIAALSVIFGSLMMSFYTLFLLEKYSSLKIGDNTILMSLESISRPETITFLGCFIVYMAIGFFFIMRKGK;locus_tag=LOCUS_04790;note=MGA_483
sequence1	MetaGeneAnnotator	CDS	539036	539659	.	+	0	ID=MGA_484;product=N-glycosylase/DNA lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082367.1;translation=MDLVKELFNIKPECNTLVENRFKEFENLGKNGSEEDLFSELSFCVLTANWSAKGGIRAQKEIGNGFINLSEEKLIEALKSVGHRFPKARAKYIVSNRWIIGNLKALIKKDPFEAREYIVKNIKGISWKESSHFLRNCGISNLAILDKHIMRLMIKAGLLNELPKSGWSKKKYIEIEEKLRPISKKFEEPIGKLDLYMWFMAKKSVDK;locus_tag=LOCUS_04800;note=WP_004082367.1 N-glycosylase/DNA lyase (Thermotoga) [pid:60.2%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:4.7e-71],MGA_484
sequence1	MetaGeneAnnotator	CDS	539727	539921	.	+	0	ID=MGA_485;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082747.1;translation=MPIYRYECTECGHDFTVMHSMNETPNIKCEKCGAPAKRIIGKVGISFKGSGYYINDSKKTASTK;locus_tag=LOCUS_04810;note=WP_004082747.1 zinc ribbon domain-containing protein (Thermotoga maritima) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:85.3%25%2C Eval:1.6e-19],MGA_485
sequence1	Aragorn:1.2.38	tRNA	539992	540067	.	+	.	ID=Aragorn_7;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence1	MetaGeneAnnotator	CDS	540207	540752	.	+	0	ID=MGA_486;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_081440588.1;translation=MVIPIAKDGAIRNDSIRAREVLLIDDKGEKKGVVSTREALRLANEANLDLVLVSPNARPPVAKIMDYGKFKYEKEKKEKETKKKQKKQLVKEMKFRLRIDEHDFMTKVNRIRTFINAGNKVRAVIMFLGRDIMFKDRGKDLIERIIKETADIAKVSRNIKVAGRDMDIYLEPLEEKPKKED;locus_tag=LOCUS_04820;gene=infC;note=WP_081440588.1 translation initiation factor IF-3 (Thermotoga) [pid:49.7%25%2C q_cov:85.6%25%2C s_cov:86.9%25%2C Eval:1.2e-37],MGA_486
sequence1	MetaGeneAnnotator	CDS	540755	540961	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKIKVKTKSAMKKRYKVTGSGKIVRYRRSHTGHNSGFKSNTKMRRLQKQTELTKTLLKQTERAMGRA;locus_tag=LOCUS_04830;note=MGA_487
sequence1	MetaGeneAnnotator	CDS	540989	541345	.	+	0	ID=MGA_488;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082031.1;translation=MRVKRAVTARKKKKFYLKKAKGYRGALSRRYVLAKQQFYRSGVKAYAGRKDKKGDFRRLWITRINAAARLQDMKYNELIHGLKLANANINRKMLAELAVSDIEAFNAYVALAKEALNK;locus_tag=LOCUS_04840;gene=rplT;note=WP_004082031.1 50S ribosomal protein L20 (Thermotoga) [pid:67.9%25%2C q_cov:94.9%25%2C s_cov:94.9%25%2C Eval:4.6e-35],MGA_488
sequence1	MetaGeneAnnotator	CDS	541389	543149	.	-	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKIKRGIRFSIFQIVIMSLLSVALILFFLSNILTRNLIEKNYNQKKDLAISSIMEIFGISTKGSKSSENKYNLAINSIFDNINNLYEKNYTIQSQDLEKGKYIFDDLKNVFEKLKLPIPKIEYILFDDKKNVLYHSEMNSDKYIDLKNNLLKLINNNTNSKRITDTLDSTDSKYSFLNLDKYIFGLEVKLGNDEFFLKNTQKFTDLLTKQYDVIESIKVYKFDDFFNYDLELNDNQISSLKNNEQIILKNDFKETYFLPIENDLIIKVDFNKKIIYKDMIPIYFSFVIAIFVSLIIGLIVAHRVSNPLIKSIESISKSIKKYTEEKDLTAIAEIKLNKKSPYELINLSKGFTEMTQEISAYTEELQAMNEALENSYNEIEKKNKKLKEENYYFSKQLSKIAESYDDDTGNHIDRVASLSEFIAKKLNLNDDFIKDIKYFAPLHDIGKILTPIEILRKPGKLTNDEFEIIKKHPIDGGKLIGDGEEYKVARNIAMYHHEKYNGKGYPFGKIGDQIPIEAQIVSFADVYDALRSERPYKKAFSHEEVCNILVNGDNRTKPTDFNPLILEVFKRYHNEIDKLYNSLK;locus_tag=LOCUS_04850;note=WP_004082198.1 HD domain-containing protein (Thermotoga maritima) [pid:41.5%25%2C q_cov:51.0%25%2C s_cov:53.8%25%2C Eval:5.7e-63%2C partial hit],MGA_489
sequence1	MetaGeneAnnotator	CDS	543240	544898	.	-	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKTKVFLLVSVLILLQLIFFVMSNNFFSTVLKNEDKLTSVYMKNLKNIGNYSTVFMESRKLIAEYLAFNDIALKTNAEEKMKKLIEDISRLNIENKDETLKKEAINKINTYLSLLKTYKSVEEIKNNVKNFKKVGNDAISAFSKLQIAIEKSVDDFGNKNENIIKNSKKIGIYIIIISFFIGITISWILIRSLANTLIILMNYAKHLSERNYNVKIPKTKDKSELGQLINIFKTMHNQLVKDMKNIKEESINLKNSMKDINETLESTAEATQETTTATAEISTEIESITAAIQETTASIEEISSATKLIADEATEAAQFGHDSTEEAEEAGNTVKKSIDKMVEITEVTKEIETVVKEFNDSSAKISNFVETVASIAEQTNLLSLNAAIEAARAGEAGKGFAVVAEEVRVLAEESRKAADEIKIVVEGIIKVSNEAMNVSNLVNKKVEEGSDLSNEAGKNLKKILKSVKDITAKLESIAAAVQEQTASVDEIANAMTELSDNSVKVNGSVQEITAATEEHTANIETITSETTKTLELSDRLAAIVKQFKLN;locus_tag=LOCUS_04860;note=WP_004080253.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:38.9%25%2C q_cov:66.7%25%2C s_cov:69.2%25%2C Eval:1.5e-65%2C partial hit],MGA_490
sequence1	MetaGeneAnnotator	CDS	545281	545583	.	+	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIQQHPILKFKKENRVNFLFEGKEVYGYEGETIAASLHALGIWEYGEGAHSHTPRGLFCAIGHCSSCLMKVDGVPNTRICVTKIKEGMIVEKQHPRGSL;locus_tag=LOCUS_04870;note=WP_011249074.1 FAD-dependent oxidoreductase (Thermococcus kodakarensis) [pid:53.2%25%2C q_cov:94.0%25%2C s_cov:19.5%25%2C Eval:3.9e-26%2C partial hit],frameshifted%2C insertion/deletion at around 545562,MGA_491
sequence1	MetaGeneAnnotator	CDS	545583	547190	.	+	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDTDVLIIGGGPAGISAAISAGENNLDVTLIEEKDILGGQLVKQTHRFFGSKEEHAGTRGFDISNELNQKIRDLKNIKVMLEATAMGVYEDGIVTVLHEEHMKKINPKKIIMATGAFEKFLAFENNHLPGIFGAGAVQTLMNLYGILPGKKVLMIGSGNIGLIVSYQLAQAGVDVVGVIEASQNIGGYMVHASKLRRMGIPILTGHTIKKALGKNKVEGAIIYELDKNWNEVKNSEKKIECDVICISVGLSPMIDLFSQAGCKTKYIGELGGNIPLRNENMQTTNPNIYVAGDVDGIEEATAAMLEGEIAGLNAVFSITKNNALNKKIKEKKESLNSLRAGPTGEKIRKGLLKMNFDVKVEHQNNTKIEINILKKTGVASKEIINEKLPSEERLNKGPAAIFECFQKIPCNPCVHSCPYGAVIPFKDINDIPYVDYDKCVGCGICISSCPGLAIFVVNKNYTKNTSTISLPYEFLPKPEPNDTVDVLNRKGEKICKGKIIRVLDGKKQDHTTVITVEIPKEFHMEARNIKVAIS;locus_tag=LOCUS_04880;note=WP_010877784.1 FAD-dependent oxidoreductase (Archaeoglobus fulgidus) [pid:50.1%25%2C q_cov:67.3%25%2C s_cov:68.4%25%2C Eval:2.6e-99%2C partial hit],MGA_492
sequence1	MetaGeneAnnotator	CDS	547187	547456	.	+	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDDNIIVCRCEDITMKEIRDAIKEGFTTLEEIKRVLRAGMGPCQGKTCGPIIAREIVKMTGKSMEEVMTQKLRPPFGGITFKEVINDE;locus_tag=LOCUS_04890;note=WP_012869716.1 (2Fe-2S)-binding protein (Thermanaerovibrio acidaminovorans) [pid:52.1%25%2C q_cov:79.8%25%2C s_cov:65.7%25%2C Eval:3.0e-18%2C partial hit],MGA_493
sequence1	MetaGeneAnnotator	CDS	547446	548576	.	+	0	ID=MGA_494;product=FAD-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164925160.1;translation=MMNKAYVVIIGGGVTGCSIAYNLAKKGIKDIIVLERKYLSYGATGRCGAGIRQQWGTHQNCILSTESIKIFENMNEILQTKRDIELKQKGYLLLAYSEKELKQFKKNIEIQHEHNIPSTLVTPEEAKEIVPMLNTENIIGGAFCPTDGHANPFLVNQAYADAAKRLGVKFIKAEALGIKKKESKIIGVETNKGFIETTRVVNAAGSWSKEIGSMVGIDLPVYSEVHEILATEPVKPILNPMVMSFSHNFYCQQTPHGSFIMGMSPIEKVKDVSWQFLERMTKKISTLLPPTKNLRIVRQWSGYYNISPDKQPIVCESEEIEGFYMAIGFSGHGFMLSPAVGILMSNIILKEKLQWDVTLDIGRFKRKEIIEEPSVV;locus_tag=LOCUS_04900;note=WP_164925160.1 FAD-binding oxidoreductase (Thermanaerovibrio acidaminovorans) [pid:48.0%25%2C q_cov:98.9%25%2C s_cov:98.4%25%2C Eval:3.0e-93],MGA_494
sequence1	MetaGeneAnnotator	CDS	548594	550222	.	+	0	ID=MGA_495;product=L-glutamate gamma-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404266.1;translation=MNSINLYEMPKNEPILGYLPGSKEKKELKEKLKELENKVIEIPAIIGGKEIKTGNTKDIFMPHDLTHKIATVHMLGEEEVKMAIESAMNAKKIWDKYTWQDRVSIFRRAAELLSTTWRSTLNAATMMCQSKNVFQAEIDSACELIDFFNFNSYYLTQLYKDQPISPKGIWNRVEYRPLEGFVFAVTPFNFSSIGGNLPTAPAIMGNTVLWKPARTQLYSAYFTMKLLIEAGVPEGVINFLPVSGSIVGEVVLKHPDLAGIHFTGSTGTFQYMWRTVGENISNYKAYPRIVGETGGKDFMVVHKSAEKNEVLTALIRGSFEYQGQKCSALSRAYIPESMWNEIKDELIEKTDNLKMGNPEDFTNFINAVIDKASFDKINSYIKHAKDSSDAEIIAGGKSDDTKGYFIRPTIIKTTNPHFKTMEEEIFGPVLTIYVYSDEKYEETLELCDKTSIYGLTGAVFAKDRNAILLANEKLVNAAGNFYINDKPTGAVVGQQPFGGARASGTNDKAGSAMNLLRWTSMRSVKENFNPPKSYEYGFMQEK;locus_tag=LOCUS_04910;gene=pruA;EC_number=1.2.1.88;note=WP_011404266.1 L-glutamate gamma-semialdehyde dehydrogenase (Salinibacter ruber) [pid:57.5%25%2C q_cov:98.0%25%2C s_cov:94.7%25%2C Eval:7.7e-184],MGA_495
sequence1	MetaGeneAnnotator	CDS	550724	552319	.	-	0	ID=MGA_496;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949183.1;translation=MYKLKFLIKKIDKKLIIQLMFILIFYMIVNLIMLTIPLVYKNIIDIIQSNKLISIKNIILWASLTILCFFLKSYFEYKSSILKLKASGNVLKKLLYNILNKNFYNFNKNGTEYYSDILTTKIDSFISIFSLESMTSFISLFRLIIISIIMFNLNYIIGFSTFFIITVSFFIFKYANNYYLKNISNVEKGYMTYFDDTEDTINGKIEIINYFAFNKENKRNYTLYDKIKRKKVKILSRDFINFFMILDYSRVIYELFIFVFSLNLVINKEITIGTLIILVVYSKMISEPIMYLNSIISDIRNSFVAVDILYSETNTKSNEKIYEIKDINTISLNNISINIEDKNILNNFNMYIEKYDKLGIIAPSGSGKSTIISLIIKEIEAKLGTIYINNKNIKEISQKSILNCMTILSQDSYIFENTIYENINMGRNISKEEVLKILKKMSLEYFDLNYKLQSNGKNISGGEKSRILLARTILSKKDFIILDEPLEEVDKNTKEKILIYLKKELKDKTCIIISHNDEVINFLCSKHLYLS;locus_tag=LOCUS_04920;note=WP_011949183.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:25.9%25%2C q_cov:96.2%25%2C s_cov:95.8%25%2C Eval:3.5e-40],MGA_496
sequence1	MetaGeneAnnotator	CDS	552312	553943	.	-	0	ID=MGA_497;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183065.1;translation=MKEFFILFKKLWNYFPKKIKFYYIFYMIVSIINVSIFIILPFLYGKIIDVIEKNQYNSHKIYLYVSLTILGYLSIKIMSLINIKVKESLIQMFNNKIYKSILLLNNKDYKDKESGYWMSILKNDMKQISVLFLDFLYTLPAEIFNAIAVFIILAYYSLTMSIIILISSILNILINLYREKNVIPYYNKAQEKYRHFYSILNTNLKGQKDIKYFNYYSKVSKEIIDNYNVYKNEFNKYKKRDFIISNTLNFINSISEILCTSIAFLLFIKGKYSFGTTILITQFLTIVSTKATYIYENIKWLQSFPNHMKKILYIFDKSKINLNKSYYEQKNEFKYINIDNISFKYKEKNIFKNFNLKINKGDKISIYGKSGVGKTTLINLILGILNPDSGKISIEKNVKIGVFSQDFYIFNRSIKDNILLSDMKVENEEIIKILKYCGLKTWFEKNNYNLDYTVGKSGNFLSGGEKMRVALARLIVYDPEVIILDEPLRGIDKSLKDELILFMKEYIKHKTVIIISHDKDVLSLGNKKIELNKKVLIGCDKNV;locus_tag=LOCUS_04930;note=WP_011183065.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:26.6%25%2C q_cov:89.0%25%2C s_cov:91.9%25%2C Eval:2.6e-38],MGA_497
sequence1	MetaGeneAnnotator	CDS	553964	555310	.	-	0	ID=MGA_498;product=radical SAM/SPASM domain Clo7bot peptide maturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948312.1;translation=MFLTKNKAFFYLKNNYYILNTENGALIKLDKNSYEHLKNKNIKKLSNEEVNILRKNGFIIDKNEYNNFYFNNRNNYLISKHLKSDSLKIDIAVTNKCNFSCTYCFEKENLNNYINVNEKTKNEFRKNLSDYINNKIKNNNLKKITIVWYGGEPTLEYDFINKINKEYYELGKEKDIEFNNIIISNGYLINDKFISELKKYNTSYIQITLDGEKDMHNHRRKLKSNKGTYNQILNNIEKLISNKIETVIRINIDKENFKQVNNLIDTINKKFSKFVGKYLFIDLSRVFGSEYSYTNYEFKDIKNNFTHKLFKYKFLEPIISNNGVNAFCSAECDNDDLVIDIFGNVYKCWNYVYEKDKAYTTLKEIIDNDFKIISRNKNRLDYVEKASLLTVNEGECLSCEFLRYCKGLCPDQRKRMIEGYEENIYKNDKCKEIVYSYIESNIKEILSY;locus_tag=LOCUS_04940;gene=ctpM;note=WP_011948312.1 radical SAM/SPASM domain Clo7bot peptide maturase (Clostridium botulinum) [pid:27.1%25%2C q_cov:94.4%25%2C s_cov:91.3%25%2C Eval:6.1e-35],MGA_498
sequence1	MetaGeneAnnotator	CDS	556065	557603	.	-	0	ID=MGA_499;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055295205.1;translation=MKKLPIGVQNFKELITDYIYIDKTKYLHELVTNGKFYFLSRPRRFGKSLTVSTLYYLFKGEKELFKGTYIYDKWEFKEYPVIKIDMSDNTLTTYEEFIESLKDKINKIYKEEGITPTTKDLPTMFGNIIEDLNKKNKERTVILIDEYESPILEHLNNKEEAEKIRRFLREFYKKIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLDKTYAQMLGYTQEELESNFKEHIKETAIEMKMEEKELLKNLKMYYNGFSFDGENSVYNPFSILQFFKKKKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTIWKAIKEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDIIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEVYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_04950;note=WP_055295205.1 ATP-binding protein (Bacteroides salyersiae) [pid:34.9%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:4.9e-84],MGA_499
sequence1	MetaGeneAnnotator	CDS	558064	559596	.	-	0	ID=MGA_500;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766109.1;translation=MKKLPIGVQDFKELITNYIYIDKTKYLYELITSGKFYFLSRPRRFGKSLTVSTLYYLFKGEKELFKGTYIYDKWEFKEYPVIKIDMSDNTLTTYEEFIESLKDKINKIYKEEGLTSTTKDLPTMFGNIIEDLNKKNKERTVILIDEYESPILEHMNNKEEAEKIRRFLREFYKKIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELESNFKEHIKETAIEMKMEEKELLKNLKMYYNGFSFDGEDSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGIKRLGLREKYILDYPNIEVKNSFSKIILEANYGIREIEQIETTIYERIYEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDTIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_04960;note=WP_008766109.1 ATP-binding protein (Bacteroides) [pid:35.3%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:8.6e-81],MGA_500
sequence1	MetaGeneAnnotator	CDS	559659	559946	.	-	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLNYIIGFSTFFIITVSFFIFKYANNYYLKNISNVEKGYMIYFDDTEDTINGKIEIINYFAFNKENKRNYTLYDKIKRKKSYEILFNLKMMKS;locus_tag=LOCUS_04970;note=MGA_501
sequence1	MetaGeneAnnotator	CDS	560572	562104	.	-	0	ID=MGA_502;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055295205.1;translation=MKKLPIGVQDFKELITDYIYIDKTKYLHELITSGKFNFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRINLLDVSTENEQSFKYGLLEIIKEEAKRYGITIENTNYKYAFNELIIKLSQKERVVILVDEYEKPILDNINNKEKAEKYREILRDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELESNFKEHIKETAIEMKMEEKELLKNLKMYYNGFSFDGENSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTMWRSIKEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASTGLNVTAEELTNLGRSDIVIEEDTIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEIYIIGININSEKRNIDEYKIEKV;locus_tag=LOCUS_04980;note=WP_055295205.1 ATP-binding protein (Bacteroides salyersiae) [pid:34.5%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:9.6e-80],MGA_502
sequence1	MetaGeneAnnotator	CDS	562548	562676	.	-	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLILGIFEKNEVTTNDSKMDKVMEVLINTRKKEKIMKCQIT;locus_tag=LOCUS_04990;note=MGA_503
sequence1	MetaGeneAnnotator	CDS	563296	564687	.	-	0	ID=MGA_504;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081016.1;translation=MKIYDTLKGELVEFKPIKEKEVKMYVCGPTVYNLIHVGNGRPMIVFDAFRRFLEYTGYKVTMVQNFTDIDDKIINKAIEENVPFEEVSERYITQYWKDAQNLNIRASNFHPKTTNYVQEIIKFIEDLIKKGYAYESNGDVYFEVRKFKDYGKLSHRNIDDMKSGARIEVSDIKKDPLDFALWKNAKPGEPAWESPWGNGRPGWHIECSVMSGELLGETFDIHAGGNDLVFPHHENERAQSMARHGKEFANYWMHNGMIKVSGDKMSKSIGNIWLIRDVVKEFGADTTKVFILSKHYRTPLDFTKEGLEEQKKSVTRVQNSLIEAEKYFNGTVPFIKNTEYMKQTINNMKEALSEDFNTPKVIAKIFEVSKNLNKAITEKNEQQIKENYHLIKNEMGPVLGIFEKNEVTTNDSKMDKVMEVIINTRKKAKKEKNYEMSDYIREELKKVGIILKDTPQGMEYTIQ;locus_tag=LOCUS_05000;gene=cysS;EC_number=6.1.1.16;note=WP_004081016.1 cysteine--tRNA ligase (Thermotoga) [pid:54.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-154],MGA_504
sequence1	MetaGeneAnnotator	CDS	564684	566138	.	-	0	ID=MGA_505;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081547.1;translation=MIRTRFAPSPTGYLHVGGARTALFNYLFARKNGGKFILRIEDTDIERSTKESEEQLIKALKWLGLDWDEGPQVGGEVGPYRQSERTEIYKQKTKELIESGKAYEAYAYSEELDKIKEELLAAGKPPHYSYEEISKYDTPERRKEFEEKGLKPVVFFKMPRKDYSIKDLIKGDVTFKKGAIGDFVLMRSNGLPTYNYAVVIDDMLMQISHVIRGDDHLSNTLRQVAIYEAFEMPLPQFAHVSMILGTDGKRLSKRHGATSVEEFKYRGYLPESVVNYLALLGWSHPEGKEIVELSEMIEKFDLDRVNSSPAVFDEVKMKWMNANYIRKTNVEKLYELSIPFITESKLLTEEQCKDNKKWLLEAFELIKTSVEELQKVPEELSILIKDFEIDETNQEFLEYLNAENVKQSIKIALEKFINDEEWTEKTVLENLKIAMKEAKPAKKPFYMALRKSITNEFHGPDLVKSIHLIGRARVIERLERVVNL;locus_tag=LOCUS_05010;gene=gltX;EC_number=6.1.1.17;note=WP_004081547.1 glutamate--tRNA ligase (Thermotoga) [pid:56.7%25%2C q_cov:99.2%25%2C s_cov:99.1%25%2C Eval:2.0e-156],MGA_505
sequence1	MetaGeneAnnotator	CDS	566141	566677	.	-	0	ID=MGA_506;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080176.1;translation=MKLIEKELTEEKIFKGRLLDVRKYTVELPDGKHTTRELVVHPGAVAILPIEDENVYLVEQHRFPIRKNLIEIPAGKFDTPNEDPLECGKRELEEEIGKKADEWIYLGYIYTTPGFSNEIIHLYMAKNLKDGTMNTDDDEFINVKKLKINEFEEQIKDGTITDAKTITAYTRAKLMGGI;locus_tag=LOCUS_05020;note=WP_004080176.1 NUDIX hydrolase (Thermotoga maritima) [pid:47.7%25%2C q_cov:97.8%25%2C s_cov:96.6%25%2C Eval:2.0e-42],MGA_506
sequence1	MetaGeneAnnotator	CDS	566679	567809	.	-	0	ID=MGA_507;product=fused response regulator/phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000025517.1;translation=MKKNKIVVIDDSSINRMFIKTIIEENLPKFEVFEAENGMEGFKLCKEEKPNVILLDIMMPELDGYEVCKMLKKEESTKRIPVIFLSALTDAEDKAKGFDVGGIDYITKPSEIKEVIARINTHAGLYNVQNELREYIKKVNEDLLMAQKVQIEMLPKTKKVDGLSMDWCFKPSFNVSGDMFGLIPIESGAIFYVIDVSGHGAASAMLSLLIKQQIENLVSTGITDLKILGKKLDDGKFFNLSDGAYFTAIFVKIENNKANICNFGHREPLLISDKIKVINEGNFPLGMNLINEEEIVEKIYDFQKDDIILLYTDGLIEAVNENNKEFTMEMIIKLIKNIQEKTPKIIINKIKEEFEHFIESKKPDDDITIFAVKKEI;locus_tag=LOCUS_05030;note=WP_000025517.1 fused response regulator/phosphatase (Bacillus cereus) [pid:29.4%25%2C q_cov:86.2%25%2C s_cov:87.9%25%2C Eval:3.4e-36],MGA_507
sequence1	MetaGeneAnnotator	CDS	567796	568203	.	-	0	ID=MGA_508;product=cytidine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003721969.1;translation=MDKKIFNTLYEKALKARENAYAPYSNFKVGAALLTEDNEIFVGCNVENASYGLSICAERNAIFSANAAGKRKYKGLVVVADTEGPVSPCGACRQVIYEFGDYEVVLTNLQGDIKETTSKELLPYGFNGDDLNEKK;locus_tag=LOCUS_05040;EC_number=3.5.4.5;note=WP_003721969.1 cytidine deaminase (Listeria) [pid:60.6%25%2C q_cov:92.6%25%2C s_cov:96.9%25%2C Eval:8.5e-37],MGA_508
sequence1	MetaGeneAnnotator	CDS	568196	569521	.	-	0	ID=MGA_509;product=hemolysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080781.1;translation=MDDPSGSTGVLISLVEVIILLLLSGFFSASETAMTAMSKHKLKDYVENEDDEKKKNQIEKFLKKPNQVLTTILIMNNIVNILAASLTTVFITKLFPNSQGLAIGIATGFITLLILIFGEITPKVYARQNTVKFFEFSFKIINILNYILRPIAWILVRVSNLVIRIFGGSTINEAPFITENEIMSYLDIGHEEGIIEKDEKYLMQRSLEMRDTSVKEIMTPRVDIVAMEDDENIMELVSLINEEGYSRFPIYRESLDTIVGICYAKDIFKIIEEEKEELKAKNILTIAHKPYFVPVTMKIKDVLKNFLSNRIHMAIVVDEYGGTAGLVTLEDVIEELTGEILDEYDDVIEESNITRIDDNTLLVNGSTPINDIERELDEEMPETDFETISGFLLEQLERFPKPGEKISYDNFEFEVISVTVNKIDKVKVSIRSKNKGDEEIG;locus_tag=LOCUS_05050;note=WP_004080781.1 hemolysin family protein (Thermotoga) [pid:45.5%25%2C q_cov:100.0%25%2C s_cov:96.7%25%2C Eval:2.9e-106],MGA_509
sequence1	MetaGeneAnnotator	CDS	569551	570420	.	-	0	ID=MGA_510;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391779.1;translation=MSKKNFLDYTIITFGTFLTALGIVLFLDPFNIVAGGVSGLSIGMKALFGWDLSIQILIYNIVLFLLGFKLLGLGFGVKSIYSSVLLSFFIWIMEHVYSLQNILKTIETTNSIDMVLMASVYGSIISGVGLGLVIWRGATTGGTDIIAMILNKYFHMTVGSGLMIADAIVTMTAFFINPILPMYGLIAIFIVAKTIDGVIDGLSSTRTVLIISDKYDKIKDGIYEKLDRGVTYLKGVGTYTNKEKNVIMLTIFKSEIGELKSLLNEIDSKAFTVILENKEALGYGFKKIS;locus_tag=LOCUS_05060;note=WP_011391779.1 YitT family protein (Moorella thermoacetica) [pid:39.5%25%2C q_cov:98.6%25%2C s_cov:97.9%25%2C Eval:1.1e-54],MGA_510
sequence1	MetaGeneAnnotator	CDS	570436	571551	.	-	0	ID=MGA_511;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080777.1;translation=MEKKDYYKILNIDKSASPEEIKKAYRKLVKEWHPDRHMENKHIAEEKFKEIQEAYEVLSNPEKKKLYDRFGFVPEGGMPNGGQAGGFEDIFQDFFGGGGDSGNPFSDIFDTFFGGGGRSSAREESRAERGQDIHATINLELKDVLYDIKKKLEYSRYQTCTSCNGTGAKNGTAFKTCPRCHGEGTIHEEQRSFFGTFVKTYPCPTCGGTGKIIEEKCDVCNGKGKTVKKEKLDITIPAGVEDGYVFRVRGKGHAGKNGGQDGSLILHINVKPNNKFIRKGANLETEVTIDYVTAALGGKIKVPTLEGDIIEKINEGTNPGTIIRLKNQGLPTFNGRRRGDIYVKLNVKIDKPSLKEKKILKELAKAKKIEI;locus_tag=LOCUS_05070;gene=dnaJ;EC_number=1.8.4.-;note=WP_004080777.1 molecular chaperone DnaJ (Thermotoga) [pid:46.0%25%2C q_cov:94.3%25%2C s_cov:93.2%25%2C Eval:2.2e-80],MGA_511
sequence1	MetaGeneAnnotator	CDS	571551	572261	.	-	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKKQNKNEMKDQEIKKEESKEVKKEEKKSKKESKKKEVSLKQIKKELDEIKKQNETLISEVEKSNEEKLKYRDAAVSLKSDFENYKDYVEREKRDIEKKSKESVIKQLINPFQKLSISLKYKDSPEFGKAIEMVYRDFVNAFEKSGLKFISPEKGSQFDPFEHEVIEKFETTEVNEYHVYDVQSVGYKLNNIVVEPAKVVVAVKPKIKKEENEKIEKNENVSKESNNEANKEGEN;locus_tag=LOCUS_05080;note=WP_004080776.1 nucleotide exchange factor GrpE (Thermotoga) [pid:34.6%25%2C q_cov:65.7%25%2C s_cov:89.5%25%2C Eval:2.2e-20%2C partial hit],MGA_512
sequence1	MetaGeneAnnotator	CDS	572328	573335	.	-	0	ID=MGA_513;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080775.1;translation=MGIVLSQRQKDILLSIVDIYIKYKKPVSSDDVLKYSRVKASSATIRNDMQKLQRLKYIYQQHTSGGRIPSDRALELYFEIVKDVYSKTEKMLDIPKEYKFYDLNIMIENMSKIVSEILEGMIIFEYPNPRYVFITRCVVTPLTESHYVVTFLTNLGMTISRTVEKYGLPISSELEKMLNKGLSGKSIQELLSAVNSESYKTDDIRIKNMFSMINSLLNEFSRNKYHVTGLEKIISHCKNNIESIESLTMMVENDEIKDKIFDKIEFSNDINIFFGDDLNARALKNFSFFNTSYSLSSNSIGRVLLITDKYKNYEKVYKVLKEYVSRFSEIISKNL;locus_tag=LOCUS_05090;gene=hrcA;note=WP_004080775.1 heat-inducible transcriptional repressor HrcA (Thermotoga) [pid:30.8%25%2C q_cov:97.0%25%2C s_cov:93.5%25%2C Eval:3.6e-39],MGA_513
sequence1	MetaGeneAnnotator	CDS	573469	574965	.	+	0	ID=MGA_514;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082936.1;translation=MTISKILGLLKNEIIKSSINLPENFEITSIKDNCENVEKNDVFVAIKGEIFDGHDFIQTSYKRGAVLFIVESDKNIPEKASYIKVKNTRKALSEIAFNFSNINSDNFKIFGVTGTNGKSTTVSLIHHLLRESKKTSTLIGTVEIKINDEVIDEPYNTTPGSLKLASILKESKEKNVEFINMEVSSHSIEQKRVENIKFDIIAYTNITRDHLDYHSTFEEYKNVKLSLVKNLKKDGKVILNIDNLKKEELKNVDKDKIITYGFSEDADYVIKDVSKSIYQMNFKIKTPEGSELSIYSSIVGDFNASNITLALISTKLMGLSYEEIKHGIITFSGVPGRFQLVPNSKNLGFSVVIDFAHTPDALEQVLKTAKDITTGRVIIVFGAGGHADVGKRKIMGAVASKYSDITILTTDDPKDDDPEKIIEDVKKGIDVNKNFIVIPNRKTAINAAINFANREDIVIIAGRGHELFQLFAKGKKVRFNDFEVAHEIIENLRRSMKK;locus_tag=LOCUS_05100;EC_number=6.3.2.13;note=WP_004082936.1 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Thermotoga) [pid:39.6%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:6.0e-95],MGA_514
sequence1	MetaGeneAnnotator	CDS	574962	576206	.	+	0	ID=MGA_515;product=UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082934.1;translation=MTLSDLKKAKYVFKINSNEIEKNDVFVAYGKGHNYVNDAFSKGASFAVIDTEGKYIGKTIKLNNTTLDFLNESAKILNSKMTIAITGSNGKTTTKECLYYLLSPHMKTFKTPKNKNTEIGIPLSIFNEYNNEDVAILEMGLRKPGDLELLSNVYKPDVVFITNIGSSHMEFFKNKEMLSKEKMKITSGMDRGLLILNGDQNLKNIAPKNLNILTFGKNENNDGYLKDFFYYKNNTKVFYTLFGKELMLTLNGIWTEGHLLDLLSAILFTVFIKVPLDPSVLSQINLPEGRFKLYELKNKTIIDDSYNASYESFTNGFKTLERLKGKKILIMGEVLESGDKKINEKILKETKNTFDEIYFFDPQNIFSSLKVKKIKSFEELKKLLNELKGIIYIKASNGTGINSFLKEYFNNRRQ;locus_tag=LOCUS_05110;note=WP_004082934.1 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Thermotoga maritima) [pid:36.5%25%2C q_cov:87.4%25%2C s_cov:86.9%25%2C Eval:2.5e-56],MGA_515
sequence1	MetaGeneAnnotator	CDS	576206	577141	.	+	0	ID=MGA_516;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082932.1;translation=MILIISLISFFILIYIYRVYINFAKKKQLGQFIRKEGPDLHNYKEGTPTAGGIFFTLTISILSLIAFFINKESIYLIVSLSSIMYSLIGFIDDFLSINRKESTGLKSFEKLLLQLIVSSILFFVINYFNSHDYTNIPFFNLKLNFGLLYPIWVILYLAGMSNASNLTDGLDGLSGGIFIISAFFTILITSAPKELLFILIIPVIAYLMFNIKPAKLFMGDTGSLALGGILGSIAVYYSAEFFTIFTCFIFLTEMFSVIIQVSSYKIRKKRVFLMSPIHHHFELKNWSEERVVMYFWIINFLMGLIAIGGLK;locus_tag=LOCUS_05120;gene=mraY;EC_number=2.7.8.13;note=WP_004082932.1 phospho-N-acetylmuramoyl-pentapeptide-transferase (Thermotoga) [pid:43.0%25%2C q_cov:96.1%25%2C s_cov:96.4%25%2C Eval:5.7e-68],MGA_516
sequence1	MetaGeneAnnotator	CDS	577138	578415	.	+	0	ID=MGA_517;product=UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082930.1;translation=MNICLVGYGKSNKSLLKFLIDQAHNITVSNNSPFNEETKKYFKENNVIFEEKHGDLLKNTQLAIMSPGVSPESIAGKIVLENNINYTTEIEYSWSFIKGQNPNSIFIGVTGTNGKTTTTTLINHIIQESDYSSMTCGNIGKPLIELPTNLNFYVVEVSSFQMFWSKKFFPEISIILNLAPDHLNWHRSIEEYYNSKLIMAERTLASGGLVLLNKSIKTNNSSERILFFDKEFIKNNILNYKNISIKIENDFLNMEIYKENTVAAILTTLNLNIPNSIIQEAIKTYSPEKHRLEFCGKINNINFYDDSKATNVHAAYNAYLSFRNKDYIAILSGEPKNEDMSQLIEELNKNSIAVFVCGDMKKEVKKYNYSKKFYFEENLKDIVKKALNFNTKNVVLSPAGASYDLYKNYIERGNDFKKFIKELRE;locus_tag=LOCUS_05130;gene=murD;EC_number=6.3.2.9;note=WP_004082930.1 UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase (Thermotoga maritima) [pid:28.7%25%2C q_cov:99.1%25%2C s_cov:98.4%25%2C Eval:1.3e-50],MGA_517
sequence1	MetaGeneAnnotator	CDS	578415	579524	.	+	0	ID=MGA_518;product=FtsW/RodA/SpoVE family cell cycle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082928.1;translation=MEKQIKKNILLYLIVLGITLIFGIFFVYSSLFAMEELNGINPKTKLLNYIIAMTIGTVGGIISFVFGKVLIKSKSFMISMYIFLNSFLFIVLFFSHNVANVNRWLYFGSFQFQPSELAKLLIPAIIAHYYYIKTKSNFLFDLLIPVIICGIPIFLIYKEPDLSTSVIISFISIISIFLAIKKFKYQSILILTVITITIFAFIFKDNLLHSYQLQRLNNSDNYQTQQSLKAIENGGVLGTSPFNGKYKYRVPASYSDFIMSVIGEEWGKLGIILVITLFLFLSWNLITMAYTTKNLLTIVYSCTTAMWIFVQVTINALVGLGVKGIPVTGVTLPLMSYGNTSLIITLTAIGLSLGLIYFNSLGSEQIEKN;locus_tag=LOCUS_05140;note=WP_004082928.1 FtsW/RodA/SpoVE family cell cycle protein (Thermotoga) [pid:27.9%25%2C q_cov:93.8%25%2C s_cov:96.4%25%2C Eval:1.2e-30],MGA_518
sequence1	MetaGeneAnnotator	CDS	579511	580536	.	+	0	ID=MGA_519;product=undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082926.1;translation=MKKIKVIVSGGGTGGHYTPALSFIKYLDKKYDLEVLYFVTKGRIEQKKLKKDFPKAKMEVVNLTGLKRPLYKLQNIKIILLALKETFRIKKIIKKFNPDFGFLTGGYVVGPVGKALSQLKIPFYLHEQNSIMGITNKLLSKKAKKVFTSFEMSPFIKTGNPVRIPEKEVKRSVLKNYNLDPSKKTLLIMAGSLGSEQIDDIMYNVYKKNNDINFIHITKNKNKFKEFKNVKTYEYLDNIYEIMSICDGGIFRGGATTIAEILFYELKCAIIPWSNASENHQFKNALKLKEMGLAEVFDEKNIDYNKLQNFIEKIEIKNTDFIWNIKEDESIKNIVKNIDEF;locus_tag=LOCUS_05150;gene=murG;EC_number=2.4.1.227;note=WP_004082926.1 undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase (Thermotoga maritima) [pid:36.7%25%2C q_cov:96.5%25%2C s_cov:96.8%25%2C Eval:2.8e-55],MGA_519
sequence1	MetaGeneAnnotator	CDS	580554	581894	.	+	0	ID=MGA_520;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082924.1;translation=MKYFFSGIGGIGMSSLALYSYYSGNEVYGTNNEINERVEYLENKGIKINIGHTNVLPNVDVVIRSTAIKDDNPEIIEANKRGIPVLYRMEYLNNILKNNWSIGITGTDGKTSTTAMVSQIFKYAKKDPTVFLGGIHNFLEDGNFRIGSGQIIAEVDESDGYIKKSQSDVVIINNLRPDHLEHYNNDFQNLENSLKQYAKRTRDILFLNGDDPILSTWNLNVPQLLFFGQNNNCDYIMKNRKTMGRYQEFEVYYKDKFIGKITLPIPGEHYAYDALAATALAIEYGIDFNTIHEALFTYKTVNRRFNILYSNSSIFVIDDYAHTPDEISMTIDAAKEYFPNKRIITIFQPHRYTRLYRHMKGFINALEKSDEVLVYRIYSAFEKPIEGVDESKITNLLDINSKYFDDSKKLINHLIDYNNSVLLFVGAGDITKVANKVGRIFKNKNH;locus_tag=LOCUS_05160;gene=murC;EC_number=6.3.2.8;note=WP_004082924.1 UDP-N-acetylmuramate--L-alanine ligase (Thermotoga maritima) [pid:38.8%25%2C q_cov:96.4%25%2C s_cov:94.3%25%2C Eval:9.9e-78],MGA_520
sequence1	MetaGeneAnnotator	CDS	582009	583262	.	+	0	ID=MGA_521;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761338.1;translation=MARRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEPKIVPKYKKDISDIEGRIIGMYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKEVLGIYIGEIESSKFWLRVLNDLKNRGIKDILIASVDGLTGFPQAIKTAFPDTIVQRCIIHQIRNTLKYVSYKDRKELVNDLKKVYKAPNKDIAYSNLQDLKENKWTKYKLALESWEKHWETISPYFDYGDDVRKIMYTTNVIESLNRQYRKATKNKTSFPNDDALLKMLYLATINATKRWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_05170;note=WP_008761338.1 IS256 family transposase (Bacteroides) [pid:47.6%25%2C q_cov:88.5%25%2C s_cov:91.1%25%2C Eval:2.1e-103],MGA_521
sequence1	MetaGeneAnnotator	CDS	583502	585304	.	-	0	ID=MGA_522;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIDDNMYFVDKSMLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLAMELSSLYIDHKYVLNVLDEEEKSVYKSITSETADDAKYENSIRNLSKYMERYYGKKVIILIDEYDTPIQQAYLYGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLEVSTVLNELFNDKYGLTKEEVEETLKYYELEYEESEVIDWYNGYNFGGVEIYNPFSIVTLAKNKGKIRPYWMNTSGNYLVKQLIKQGSAELKDKIEKLINGEEIESTINETMVYGDLNNNLEESVWTLFLFSGYLKWTKNINHDYERYTLKIPNKEVKIFYNKTVVSMLEEERIKLNNILINLINGHIEEFKEDFQKLTINTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAKNGLKQINEKRYEEEIKSYGINDIIKVSIAFDKKEVEIVSNLDKEEKLTEIEKVAKNMIENGVDIEFISKMTNLSIEKIKKLKGSIKNFV;locus_tag=LOCUS_05180;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.6%25%2C q_cov:91.3%25%2C s_cov:99.1%25%2C Eval:5.8e-103],MGA_522
sequence1	Aragorn:1.2.38	tRNA	585498	585573	.	+	.	ID=Aragorn_8;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence1	Aragorn:1.2.38	tRNA	585578	585652	.	+	.	ID=Aragorn_9;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_9
sequence1	Aragorn:1.2.38	tRNA	585662	585737	.	+	.	ID=Aragorn_10;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence1	MetaGeneAnnotator	CDS	585766	586296	.	-	0	ID=MGA_523;product=GNAT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080594.1;translation=MLKGNKIRLRAYKREELKLVMEFINDEDVTKFLRPGVPFPFRYEDEIKFYESLNPMSTSSYSFAIELLETEKYIGGCGINEIDWKNSVATVGIFLGKPYWNKGYGTEALKILVDFIFNEMNINKVKLNVYSFNERAIKSYKKVGFVVEGRLRQEIFKEGKYYDEIIMGILRSEYKI;locus_tag=LOCUS_05190;note=WP_004080594.1 GNAT family protein (Thermotoga) [pid:63.4%25%2C q_cov:99.4%25%2C s_cov:96.2%25%2C Eval:2.1e-65],MGA_523
sequence1	MetaGeneAnnotator	CDS	586374	587324	.	-	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFIHVFKDIDKIKNSVISFTTSENMTEFPYPSIILFKGTSIKNGDGYAILVDYENVLSFWADEWINNEEVIDLSWDIMEITKVYYRPKKISIPSIWEEFYNFLELFIKNKEIIILKENFKKNKFQDLETIKELDYSMQIMDSIRDTLFDFFISNELLYKIEIKSSGKVLIFGIDLQKYINIANMLDDEIEKKLLWLILRITLERSILKNFKPQNTKIISNGIVKVTLENISIEEIRNSFNQIKKDLYLNSEDIYNIFYDLKENTNIINELFELKDIIEKETDKEFIEILDMLVVDSITKNEKSIIERIKKIGKYF;locus_tag=LOCUS_05200;note=MGA_524
sequence1	MetaGeneAnnotator	CDS	587817	588953	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLYEVFVYDKLLKTSYKTYFIGKNDQEFFGFLSYDFKIINIKVVNLIFGSKVLSTSSMKFLTSNLYILLDSGVSLLDALSFVIMNNEVDSLLRGVLFKSYLILRKGSDLKTSFTFKEYDDYFIYSISICKNKSSFINVLKSLSNYYENVELTRSTLSKSTLYPFMVLTSILFLLTFLKLYFLPKISLLLNTTITFRFSTFMLVSFLFLNLSFFIIFILSKKNDIYVSKIPFLKNFYKNYLFYKFSRDINLLIHNGLSLYYAFNIVISNINSNYLALKFTNIAVMLESGFDIINAFSEIKDIPEFALAFSLTEKTGNSKELFNYLEKFFYQKFTLFVDKVYKLIEPFFLLILSIIVASLTYELYTNIFLNGVDLSEL;locus_tag=LOCUS_05210;note=MGA_525
sequence1	MetaGeneAnnotator	CDS	588943	589344	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKSGFLSFEIIIYLLIEIIFFGATSFFISSKLYDYFDELSNKAMITEMILNLRITSLTNSYDKSSAFVGSVYLNNGFGILNYNFKFNSGILKRVSFVDGKYASSGGFFEDDKNKKLLNLIPVTGAITKNDY;locus_tag=LOCUS_05220;note=MGA_526
sequence1	MetaGeneAnnotator	CDS	589334	590116	.	+	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKKNKVCIGDIDGFIKPFKGEFELKKQYFDEIINKKIVFFELDKNEYFICSKKEYLKHKFDYVYDEFIPIQIILYFLKKEGTFKTEFGIYTVVKEDNNFLVFKNDKNNIENIQNLSVKNFKDNAKDIFKIKSYLRKGINIFFSVFIIFLIFINIKSGINLFTKFNYELKKEKQETNDYNQYSNLVQNQKKRLSEFFDYLNKIDAKLITFNYSGIKLQARVILRMEYGKKIMGKYAIKEISRLEFDGYGYAILDIFEGD;locus_tag=LOCUS_05230;note=MGA_527
sequence1	MetaGeneAnnotator	CDS	590118	590696	.	+	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLLIIVFLFFIYIFLNTFNFKPKEKEYTIKDFDLKNGVLNYQETKLLLSNILNTNVLIKNIDIKRENFSLLNIEKEYNIKIQKFYPGFNYTKIKNENYTKLNTKLNTKFLNVIKINFNTIWKLKDTFKRFDASFSGYIKTQNKKEAYIYFNKEIIKVYKGDKLGNRKIIEIFEDGILLLTIDNSFEVIL;locus_tag=LOCUS_05240;note=MGA_528
sequence1	MetaGeneAnnotator	CDS	590693	592666	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFLIIFIFFVIIMNAFNLEYENNNNVIIFEKNTNLIVKSSFSKTIHKIIINKNFEEKTIKVKRGIISEIKTKDNIITIKTLIPTTINIENNKVYFPSSKLLNVDKVYFEKIKLKDLFKIFTDYMNWNWIKTDIIPDKDISISTKEFRIEDFIRILKNIYSINTIFFNKNTVILSKKILDMQDTMPLIINSKQLIKNENENKIKYLIIDKNITIIPLKKLFNIKVVELKNNYVVKIEYKDIESFFYILNNLKKHNETNIKNTITNESTTIILSSKYDLKNITNFYGLNCVKSNDVFIINGKTNDINNFLKLEEKLKKLEKSKKTIKEKVKNIEKKEEKDKILNKLLIIPSKINNIFDKILLKENIKFEKIENNIYIIKYTKDKEEILKQIIQTLKVDTLNGNVSLKKLINYLAKMEKINTICDFKDIEVSVNDYDLTFNNILKCSISKGILYNYIDKNTIRFFQDKKLLKYRIYVLTGNNIKSISTKDLYLMAKMNFSNLKDTKSEFFLISNPIIYVNENETSEMNSVLSVPIMDTENKVISKIESGFKLNIIGKLDRITNMIETKINLSISEMKDQDKNIVDERSIKTILKTTNGGFIKIGSMSFEKSINKKIGIPFLKDIPAIGILFSTNELTNTKFDMIILLNVQAMNKPEE;locus_tag=LOCUS_05250;note=MGA_529
sequence1	MetaGeneAnnotator	CDS	592669	593478	.	+	0	ID=MGA_530;product=AmmeMemoRadiSam system protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082616.1;translation=MIRRARFSGSFYPQNIEKLNELMNFYYDNIKLCNKYSEPIGIIVPHAGYIYSGKIAALAYKKIFNTSNFKRVFLIGPNHSGIGSNISIYDEGSWETPYGKIKVDTKIAKKIIETLNINNDISAHYYEHSLEVQLPFLQYVLKDNFSIVPITLKDQSFLTVKNIAKVLKPLLKKGDLIIASTDLNHYEKQEITYEKDLKIIKAIEQKDVEDLYIQIETNDITMCGYGAVGILLNLEFKDVNILGHTTSGDVTYDYSSVVGYMSAILKNSV;locus_tag=LOCUS_05260;gene=amrB;note=WP_004082616.1 AmmeMemoRadiSam system protein B (Thermotoga maritima) [pid:43.0%25%2C q_cov:98.5%25%2C s_cov:99.6%25%2C Eval:2.2e-54],MGA_530
sequence1	MetaGeneAnnotator	CDS	593497	593838	.	+	0	ID=MGA_531;product=Asp23/Gls24 family envelope stress response protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082317.1;translation=MVVQTEFGSVNIKSEVIQDIVYKAVLESYGTVDTGKQGFFDKIANLLTREETKGVNVLEEEGRIIVNLDLVLEYGLPVKKVAENTQENVYHRIESMLNFDDVIVNVNIAGLKF;locus_tag=LOCUS_05270;note=WP_004082317.1 Asp23/Gls24 family envelope stress response protein (Thermotoga) [pid:29.8%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:4.0e-10],MGA_531
sequence1	MetaGeneAnnotator	CDS	593854	595488	.	+	0	ID=MGA_532;product=DAK2 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082318.1;translation=MKRILEGKDIYIGVKKAAEELVKNRDEINALNVFPVPDGDTGSNMSAAMLEACDWMDKVKDPNNPKEVLKILRDGLLMGARGNSGVILSQIFRGFTESLETKKRITTKDFIEALKNAKEVAYQAVIKPVEGTMLTLIRKLAERSEKELADEKDFLIFTEKMMKIAYEIVEETPKYLKKLREANVVDAGAKGVYYIFKGITDAIHGDTEVNIEKLEKADSAEISNIAYEELKYQYCTECVLKLKNEEISKKELEELRAFLEEMGDSIVSVHQGEFLKTHIHTNHPGTVFEKFLEYGEFLKVKVDNMKIQHEHVVETKKTKKEESYPERNWGIVAVSPGKGISEIFKSLGVSKVIFGGQTMNPSVKDITDAIEEIPYEKIILLPNNPNIIMTAEKAAEMTEKEIIVLPTKYIQEGVSSLLGFQDDLEKEELKTSMEEYMKSIVPIQVTYAVRDSEINGEPVKKGEYLIFTGKELSAHGKNMYKETQNILLNLIEEGYEIITIFYGDEAKEKDVQKMANKIMEKNHDVEIEIHQGGQQHYPLLISLE;locus_tag=LOCUS_05280;note=WP_004082318.1 DAK2 domain-containing protein (Thermotoga maritima) [pid:47.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-134],MGA_532
sequence1	MetaGeneAnnotator	CDS	595504	596349	.	+	0	ID=MGA_533;product=glycine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082894.1;translation=MKIQELIMNLNKFWSEKGCVIDQPYDMEMGAGTYHSSTFFRVLGEEPWKVAFVQPCRRPTDGRYGENPNRMQRFYQYQVIIKPSPENIQEIYLESLESLGINPKEHDIRFVEDNWESPTLGAWGVGWEVWMDGMEITQFTYFQQMGGVSLKPIPVEITYGIERIAMYLQNIENVYESNWNEDTKYGKLYKENERQFSTYNFEVANTEMLYKLYEMYREEFNRLIEKNLYFPAYEYLIKTAHTFNLLDARNAISVNERQKYILDIREMSKKCASSYIGGDEK;locus_tag=LOCUS_05290;EC_number=6.1.1.14;note=WP_004082894.1 glycine--tRNA ligase subunit alpha (Thermotoga maritima) [pid:69.2%25%2C q_cov:98.2%25%2C s_cov:96.5%25%2C Eval:2.1e-119],MGA_533
sequence1	MetaGeneAnnotator	CDS	596346	598367	.	+	0	ID=MGA_534;product=glycine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082897.1;translation=MNKLLFEIGMEELPSSEYKNIKKQLNENIEKFLKENNLKYEKINIFISPRRFGSYITGLSDSQPDKVEERKGPAKSVAYNENGEPTKALLGFLKGAKATEKDIIIKEFKGNEYVFIKIERKGKTTKKLFEENLPKIIKSIKFKKSMKWGNGDYEFVRPVHWILGMYNKEILDFEIFGKKASNITYGHRFFGGKIELKEIEKYFEELKNNYVIANFEERVQKIKNDLQQLKEKNNIKIEQDEDLIIEIAELTEYPTGVIGTFNEKYMKLPYEIIEVTVKHHQRSFVVKDENKYISFQDGIGREENIIKGYSRVINARLDDAAFYYEDDLKVSIEDNLKSLEKITYQKGIGNYKEKVERIEKLSEFIANELKIKEVKEIKRAAKLSKIDIPSNVVYEFPEMQGIMGRIYLKNKGETENIYLTAEEHYHPIEENDKVTKNIVSDIVSLADRIDDIVGYFGIGKIPSGSKDPFALRRKSFGVFRIIIENDWDIDIKNIVKKASEILNLEYDENKLEDFFKSRFETILLKEGIKPDILSSVITNYNKPLRAIISAKALLKYSDSKEFKEFITAFQRVNNISKKHNSTEYQGRLFVEEVEKNLFEKYLETKAQLEDKIKILDYEGAMEKLINLKEAIDTYFDNIFVMDKDESIRLNRLGFLKTISEMFKDIGDVSKLYQ;locus_tag=LOCUS_05300;gene=glyS;EC_number=6.1.1.14;note=WP_004082897.1 glycine--tRNA ligase subunit beta (Thermotoga maritima) [pid:41.7%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:1.4e-158],MGA_534
sequence1	MetaGeneAnnotator	CDS	598379	599320	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFLKKLKEVDKSVVFSSVEEIKGLSYPSIIVFKGSSSEYGKGMAILIDFDRVLEAWAGEKVDNDKTLKINEEISEYLGVKYEAEYLDLPDNWEGFNGYTEFFLESGEVDVISMEFEKIKTLREDYIESFKKIIKNVKTIKEDVKLISNNKDSIFKVHFVSAGKMIMFSIDLSSYIKLSNKLKTENEKKFLWLILNLLMKKNLLSNGKQLSFSQVSKGMMGLFIEEVEDKKLKEIFKNFKTIIDMKEEEILSKFNECQECIKYIDKLTLLNKNVSNENTNTVWDMLELALLDYLINKKDSSISTIIKNFEKFN;locus_tag=LOCUS_05310;note=MGA_535
sequence1	MetaGeneAnnotator	CDS	599349	600446	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVLYFENLKKCPEFVPGYKRPGTYFRVKIEDVEIEANYENVEENKAVIIRAGKNMRQSHWIHIYAVYKYFEQQNKKLEEIILELENRKKPIKKIEILNKEKWIKKDILKLKTKEKEPGSHCKFCIKKEQCHAEFFKNKNYLVVPSINKKMISDFEEMEIDPVDIIKSNQIEKFPQHRKKLYNLKSLLKNEPLKIKPFKLPNSYIIFDVESYYSLDFLFGFLNNDEYIPFVFTKKDRKKMKKMIDYLTKENKQLVHYDKHDVMALARISKEIPEYKKKIDKLIKNAMDIYEVILKNYSFPVTSYSLKDISKYYNFNWRTKLNGFAVIIEYNRYLKGETKIMQTILDYNEDDCRATKVLLEEMKKI;locus_tag=LOCUS_05320;note=WP_004082671.1 TM0106 family RecB-like putative nuclease (Thermotoga maritima) [pid:30.9%25%2C q_cov:67.1%25%2C s_cov:61.4%25%2C Eval:5.7e-25%2C partial hit],MGA_536
sequence1	MetaGeneAnnotator	CDS	600466	601377	.	+	0	ID=MGA_537;product=GTPase Era;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_024103711.1;translation=MENFKSGFVAFAGKPNVGKSTLINALMKQKIVITSNKPQTTRNKINCILTEKDYQIVFVDTPGIHKPLHKLGEYMVEIAVGALRGVDLILFVVDPTDGIRKSDMHVAEIISKSRIPTILIINKIDQIKDEKILKETEEKFKELNKIKTIYTSAIKGTNIDELEKTIVENLSKGPMYYPEDMISDKPSRFIISELIREKVFRLTEQEIPHSTGIVVEDLKTRENGMLYVRATIYVERDSQKGIIIGKSGKMIKEIGKLARLDIQEMFEEKVFLDLHVKVKKKWRESEFLIRNTMGFKDELKKDK;locus_tag=LOCUS_05330;gene=era;note=WP_024103711.1 GTPase Era (Thermotoga) [pid:57.7%25%2C q_cov:97.7%25%2C s_cov:99.7%25%2C Eval:3.6e-96],MGA_537
sequence1	MetaGeneAnnotator	CDS	601664	602116	.	+	0	ID=MGA_538;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249766.1;translation=MIKVGEKAIDFNVKDHNGNEVKLSNYKGKKVLLSFHPLAFTGVCETQMKNLDIKYKELEKLNVIPLGFSVDSQFAKKAWADQMMLKNLQLVTDFWPHGEVAKNYGIFNEELGFSERANILIDENGIVEFVKVYPIKEQPNLNEILDYLKK;locus_tag=LOCUS_05340;note=WP_011249766.1 peroxiredoxin (Thermococcus kodakarensis) [pid:59.9%25%2C q_cov:98.0%25%2C s_cov:99.3%25%2C Eval:4.6e-48],MGA_538
sequence1	MetaGeneAnnotator	CDS	602215	604242	.	+	0	ID=MGA_539;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001009435.1;translation=MSIKKKLMIIMIFSVILFVLITIFMISETNSLNKKWDNYTNTVTKRSELISDIKEQFGYGGAIHLFKNYILRGKDKYIQSFKNKQEKVMESFKEYKLLKDISQEEIKYLDIIENTFKKYGENLDYAVTLKKNNESIEKIDSIIKIDDSPALNSFNELEKIVQTLVNKQTNEFENKIIQLKLLIESGIIIISILLFGTFIYFLYTIKPLYTVRNKLKELSQNEGDLIINIEVKSKDEIGEVSLFFNKFINTFRKSLINFFSKFRNNILQFNSITKELEIFRYNFEDMDKSLSKNMNSLNNVTEYIEQQDASTQEISDNIQNLANTAVELNNVATEISEVSENSKVDLNEMNEIVNSISSNMTPIVTKVKSVSEKAEVINEVVETIASISEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEESRNASESIRENLEEVMTGVNETSDMVVSMSKNIKEVSKVNEKTANKLFELIDSVEKISNYSNNLAASAEEQGAAVEELSASSQNITELVNSLKLDMNSIFEKEQYMNERNYSMVERVSNESNELLNIVNMFSAFKMFNTNDFIEEIEKAKLSHEEWIKKFEESIKNNIKLIEDNPKKCGFGLFIGVNSKNYPENIKEIWEKIIIIHKKLHEYAKQFEYNNKSNNDNLLIKVKETSKELESLLNQIIEKLK;locus_tag=LOCUS_05350;note=WP_001009435.1 methyl-accepting chemotaxis protein (Bacillus) [pid:26.5%25%2C q_cov:81.9%25%2C s_cov:98.4%25%2C Eval:1.5e-43],MGA_539
sequence1	MetaGeneAnnotator	CDS	604406	604891	.	+	0	ID=MGA_540;product=8-oxo-dGTP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963411.1;translation=MKYTTLCFIKKEDSILMLNREKKVWMGMWNVLGGKGIENEKPEECAIREIYEESGIKVKNISYHGMVTWEHNKIKFIDEPMYIFFSEIDKNYELKTPLKTPEGILDWKKIDWILNKDNIGVIKNIPIFLKDILYENKIFKYHFIWKNNTLKDYSKKACEMN;locus_tag=LOCUS_05360;note=WP_010963411.1 8-oxo-dGTP diphosphatase (Clostridium) [pid:47.3%25%2C q_cov:90.7%25%2C s_cov:91.1%25%2C Eval:9.0e-38],MGA_540
sequence1	MetaGeneAnnotator	CDS	604996	606777	.	+	0	ID=MGA_541;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIDDNMYFVDKSMLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEYLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHALLTMELSRLYLKHKYVLEVLDNEEKIIYDKIMGREALDADYENSIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLEVSTVLNELFNNKYGLTKEEVEKILKYYELEYEENEVIDWYNGYNFGGVEIYNPFSIVTLAKNKGKIGPYWMNTSGNFLVKQLIKQGSAELKDKIEKLINGEEIESTINETMVYGDLNNNLEESVWTLFLFSGYLKWTKNINHDYERYTLKIPNKEVKIFYNKTVVSMLEEERIKFDNMLLNLKVGRIKTFTDQFKDLTMNTLSYFDVSGKEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNRDEDKSLKDSAKNGLNQINEKRYEEEIKSYGINDIIKVSIAFDKKEVEIVSNLDKDVELTPEEKIAKELLKNGVDIEIISKTTKLSVEKIKKL;locus_tag=LOCUS_05370;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.3%25%2C q_cov:92.6%25%2C s_cov:99.1%25%2C Eval:1.1e-101],MGA_541
sequence1	MetaGeneAnnotator	CDS	607303	608847	.	+	0	ID=MGA_542;product=IS21-like element IS1326 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001324342.1;translation=MIRLGQKREIIILYFRENKSEISRKTGINRKTVNKYINEYEDALKEFEKVESKKSKEEIIEIITGKPKYKVSNRKPRKVTEELRIKIEELVKANELKRQKGLRKQTMPVTQMYEIIRDEGYEISIGTIYNIVKKFNTKRTKEAYIKQRYNPGEIVEFDWGEVKLEINGINKKFQMAVFTFAYSNYRYALLYEKQNMESFIDSHVRFFEHIGGINKTIVYDNMKVAIRKFVGHNDRELTDDLTKLSLYYKFDIRFCNVRKPNEKGHVEKSVNVLKQRAFSIKDKFKNIDDANEFLSSRVKYLNENMKNTSNISPLKLLKEEKEYLICKPPKYEYSIIKEVYVDKYSTITLNNCHYSVPVEYTNKWLKVKLYPEKIIIYDEKPIATHKRLYGNNMWKIEINHYLSLLKRKPGALHSSLALHQVPQKIKKIYNNYFTTKPKEFINLLEYMYKNNLRINDIEETIEKLERISPKDISATKIKILYENKINNNQKNKYQGTIEEYSRKQLLHLKELIKS;locus_tag=LOCUS_05380;gene=istA;note=WP_001324342.1 IS21-like element IS1326 family transposase (Bacteria) [pid:26.2%25%2C q_cov:80.7%25%2C s_cov:79.3%25%2C Eval:4.2e-35],MGA_542
sequence1	MetaGeneAnnotator	CDS	608844	609515	.	+	0	ID=MGA_543;product=IS21-like element helper ATPase IstB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010974232.1;translation=MKNNKNKIYEEIEFYSKELKLSKLKIHFKEYIKDANNTEISYELFLYEILKKEYERLLDSRLKSRIRTANFSQKKYIEDLEKEYLPEDARKKLKVLSTLEFIQTNQNVILSGNPGTGKTHIAIGLGMKACMKGFKVLFTTIPLLITQLKESRSNKTLRAFQSKFGKYDLVICDELGYISFDKEGAELLFSLLSLRASRKSTVITTNLSFGGKKYLMILYYLQL;locus_tag=LOCUS_05390;gene=istB;note=WP_010974232.1 IS21-like element helper ATPase IstB (Agrobacterium tumefaciens complex) [pid:33.8%25%2C q_cov:87.4%25%2C s_cov:77.4%25%2C Eval:2.0e-28],MGA_543
sequence1	MetaGeneAnnotator	CDS	609805	611058	.	+	0	ID=MGA_544;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761338.1;translation=MERRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEPKIVPKYKKDISDIEGRIIGMYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKEVLGIYIGEIESSKFWLRVLNDLKNRGIKDILIASVDGLTGFPQAIKTAFPDTIVQRCIIHQIRNTLKYVSYKDRKELVNDLKKVYKAPNKDIAYSNLQDLKENKWTKYKLALESWEKHWETISPYFDYGDDVRKIMYTTNVIESLNRQYRKATKNKTSFPNDDALLKMLYLATINATKRWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_05400;note=WP_008761338.1 IS256 family transposase (Bacteroides) [pid:47.6%25%2C q_cov:88.5%25%2C s_cov:91.1%25%2C Eval:2.1e-103],MGA_544
sequence1	MetaGeneAnnotator	CDS	611258	612475	.	+	0	ID=MGA_545;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELMVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPLIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARFHNWNAVISELAILFEERLKDYL;locus_tag=LOCUS_05410;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:44.9%25%2C q_cov:93.6%25%2C s_cov:95.7%25%2C Eval:6.8e-99],MGA_545
sequence1	MetaGeneAnnotator	CDS	612876	613154	.	-	0	ID=MGA_546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQTGTLIWYYKICKREVWFMSRNIIPDQYDENIDYGRFLHEQVYQKKKKEISFGRVKFDLVYKSKDKLIIGEIKKTSKFCILQVKNKPNYN;locus_tag=LOCUS_05420;note=WP_011460582.1 CRISPR-associated protein Cas4 (Desulfitobacterium hafniense) [pid:53.8%25%2C q_cov:83.7%25%2C s_cov:46.2%25%2C Eval:7.3e-20%2C partial hit],MGA_546
sequence1	MetaGeneAnnotator	CDS	613168	615432	.	-	0	ID=MGA_547;product=CRISPR-associated helicase/endonuclease Cas3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582994.1;translation=MLYSHENIKLIDHLKGVLNIGVDVYKNKKKLLFPFEKKHIEVALKNMLFFHDLGKSTAFFQQYLKESIENEEISVSKDLRKHSLISALYAGLKTYKDTNSKILSLIVFESIKKHHGNLEDFDSAIFIEDEHLKKIWDNLNFKDLNIKNEIKYFEIKDYIDFLYDLDEQSFKDEYYFILNFFFSILTYSDKTEVIFHKKIKNIYFSDVKNFVNKYKAIKFKNVVSNELNELRESAYLESFTNLNDAKIFSLNLPTGIGKTLNAFNLAFNSLNSQYNKIIYALPYTSIVDQTAKIAVEMLKINELVPENYLTVHHHLSEIEYKNNDDFYKGEKAQFLIENWDKPLIITTFWQLFNSIITNQNLTLRKFHNISNSIIILDEIQTLPYIYWNLIKDIFEKITKIFNIKIIIMTATMPFIFKEDKINIFPLINDKKKYFSKFSRYKISKINNLNTIYLEDISEIALKDLKENPQKDFLFVFNTIKSSTEFFKLLKENINEKITYLSTNITPIERLERINYIKTSKKRKIVVSTQLIEAGVDIDLDVIYRDLAPLDNIIQTAGRCNRNNKNQMGLLKLFSLKRNKSSKKEDFEYIYKKVVLIPTKEVLRDIEIIYEKDLLEYLEIYYKKIHNNMSTDMSKKILENIKKLNYDKIYKNFNLIENTLSVSIFIEKDEKASKILKVFKNILSINDFYKRKESFLKIKKEFYDYTISLIITKENFNSIKNFEEYGNIKILTKEMIDLYYDKNIGFINKSNEFII;locus_tag=LOCUS_05430;note=WP_012582994.1 CRISPR-associated helicase/endonuclease Cas3 (Dictyoglomus turgidum) [pid:35.7%25%2C q_cov:99.2%25%2C s_cov:98.6%25%2C Eval:2.9e-115],MGA_547
sequence1	MetaGeneAnnotator	CDS	615432	616151	.	-	0	ID=MGA_548;product=type I-B CRISPR-associated protein Cas5b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082347.1;translation=MDKILVFDLWSDFGHFKVPYTTTSPLTFPVPPKTTVYGILSAILGLDKNEYLKYYKDKQTKIGISIKNSIQKILIPENLINTRYVPLFARMNSRKKAPRTQIRFEFLKNPKYRVFVSMKNNSLFEQLIQNIKQHKSIYTVSMGISECLANFKYVGEFDYVVKNKGKELTSIIPIDFVEKINFFDTQKKYLKIHLPTEFNINRVLVESRDFLIERTGKSINLEIKEYIDIPEINEKVVLF;locus_tag=LOCUS_05440;gene=cas5b;note=WP_004082347.1 type I-B CRISPR-associated protein Cas5b (Thermotoga) [pid:28.3%25%2C q_cov:96.7%25%2C s_cov:97.7%25%2C Eval:7.6e-21],MGA_548
sequence1	MetaGeneAnnotator	CDS	616155	617051	.	-	0	ID=MGA_549;product=type I-B CRISPR-associated protein Cas7/Csh2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582996.1;translation=MYIEKRSELLFCYDITDANPNGDPLDNNKPRIDEETSINFVTDVRLKRTIRDYLYEYKGYNGENNKDIFVREIIYDDKNMYIQDGKKRAGNFENNANDILNKCIDVRLFGGVIPLSKDSITYTGPIQFKVGRSLHQVELQHIKGTGAFASKQGTKQNTFREEYILPYSFIAFHGIINETAAKHTSLSEEDVDLLLDGMWNGTKNLISRSKFGQMPRLLIKVDYKEKGYFIGDLDKYIKIKTEKLENKIRKLEDFTLDISKLLEVFEEEEEKIDKISYKVDKFLNIIGEIPSTWEKLEI;locus_tag=LOCUS_05450;gene=cas7b;note=WP_012582996.1 type I-B CRISPR-associated protein Cas7/Csh2 (Dictyoglomus turgidum) [pid:51.2%25%2C q_cov:95.3%25%2C s_cov:91.7%25%2C Eval:2.4e-76],MGA_549
sequence1	MetaGeneAnnotator	CDS	617053	618855	.	-	0	ID=MGA_550;product=TIGR02556 family CRISPR-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582997.1;translation=MLEALYEIGKIIPEDDNFLNDFIEDIGTNYKHVFKIIFDIDEFKYLNIDYEEFDSDKKLKYFYKKGFSNGPDKTPTSKITTFEKVFSNKISQIFKNIIKNNEKNFSSDELLFFQNLEMSFNKSEEKIKEEFFDYLKNNNFLNNNGNIEGGGIVTFVFKKDNKFYYVGELDEFKNLFLKSKEDAYKNFYIKGGKVSKSKDKYCYICKKEKDEVYGFVSTFQFYTVDKRGMVTGGFKKENAWKNYPVCLDCAVTLERGKKFLMNNLKYKFCGFNYLLIPQLIVENDVLLKNLINRIKSRYSEFSSKKISGRKITQTEEKILEILSKENNSILFNFIFFEKTNNAFNILLELSEIPPSRLNKLVTAQKTVDLIGKESFFKPIILKKGDEVNFNFSFYFIREFFLNNKIDGKFNKYFLDILNNIFIDKNISYNFLLNNFMKKIRSEFLNNGFYDLNVLKAFKIVLYLNELNLLDKKFNFVKGVETVYEEFFEQAKILDTETKKALFLEGVLTEFLLNIQYKNRKSKPFMARLNGLKINEKIAKRLLPEIINKLEEYDENYYRSLETEISKYMLNSNFSKYTVDEMSFYFVLGMTLAKNFKNEGD;locus_tag=LOCUS_05460;note=WP_012582997.1 TIGR02556 family CRISPR-associated protein (Dictyoglomus turgidum) [pid:32.8%25%2C q_cov:98.5%25%2C s_cov:97.8%25%2C Eval:5.6e-82],MGA_550
sequence1	MetaGeneAnnotator	CDS	618868	619596	.	-	0	ID=MGA_551;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545251.1;translation=MRLNIKFSFDTLEIPINYNHILQAIVLKLINDETYQKFIHDVGFKYKNRNYKLYSFSRLNGNFKYNKEVKKIKFYDFAIFSITSINTEFMKYISKTLLFNNELYINNQKVVIEEISGEKNEFNTEYLRVKSLSPVVVYSTFKDNNKNKTYYYTPYEEKFYKILKKNIIKKYSSYYNEEINDKRLNIRHVKNLKEVVTNYKGFIIKGWMGEYELTGNPKLLNVALNTGLGSKNSMGYGFIEKI;locus_tag=LOCUS_05470;gene=cas6;note=WP_012545251.1 CRISPR-associated endoribonuclease Cas6 (Thermodesulfovibrio) [pid:37.0%25%2C q_cov:93.8%25%2C s_cov:93.0%25%2C Eval:2.8e-34],MGA_551
sequence1	CRT:1.2	repeat_region	620008	620709	.	+	.	ID=CRT_2;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gttcttattctacctatgaggaattgaaac;note=CRT_2
sequence1	CRT:1.2	repeat_region	620815	621111	.	+	.	ID=CRT_3;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gttcttattctacctatgaggaattgaaac;note=CRT_3
sequence1	MetaGeneAnnotator	CDS	621855	622397	.	+	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINYTDKEQQIINTLMSFTFLWELHNLKFLESKCYADLKFKDRFVHEQIKSIGIMNNGMIPVILYMMLIIPKELFDNTKYSENFKEINKQISNLKNIEIIKSTYKSDEKNINYIRHFRNAVAHMNIKCEKTVVVFEDKNKKENFKIEVSYKALGEIVGFFYKFYAELIEEYKEKYKNKQ;locus_tag=LOCUS_05480;note=MGA_553
sequence1	MetaGeneAnnotator	CDS	622583	624364	.	+	0	ID=MGA_554;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIEDNMYFVDKSMLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHALLTMELSRLYTKHEYVFEILSEKEKIVFKEIMLETADDAKYENCIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLYGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLEVSTVLNELFNDKYGLTKEEVEETLKYYELEYEESEVIDWYNGYNFGGVEIYNPFSIVTLAKNKGKIRPYWMNTSGNYLVKQLIKQGSAELKDKIEKLINGEEIESTINETMVYGDLNNNLEESVWTLFLFSGYLKWTKNINHDYERYTLKIPNKEVKIFYNKTVVSMLEEERIKLNNILINLINGHIEEFKEDFQKLTINTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAKNGLKQINEKKYEEEIKDHGINDIIKVSIAFDKKEVEIVSNLDKDVELTEIEKVAKNMIENGVDIEFISKMTNLSIEKIKNLI;locus_tag=LOCUS_05490;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.6%25%2C q_cov:92.4%25%2C s_cov:99.1%25%2C Eval:7.4e-103],MGA_554
sequence1	MetaGeneAnnotator	CDS	624416	625096	.	-	0	ID=MGA_555;product=DUF554 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082914.1;translation=MFNISVIVNTFAIIIGGSLGLLIGNKLKDNYRNILFQAIGLTTIAIGMKMAFKANDLLVVLGSLALGGLLGEFWNIEGGIGKIANKLENSKGETPFVKGFITATVLFVVGPMTILGCMSAGTGDNSLIFLKSLLDGISSIVLASVYGTGVIFSALSVYIVQGLLVVFAGSLNFLSNPTYLNDFTAVGGLMVFAIALRLLNIKEIKVGNFLPSLIFVILIDFIKTLF;locus_tag=LOCUS_05500;note=WP_004082914.1 DUF554 domain-containing protein (Thermotoga maritima) [pid:41.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-48],MGA_555
sequence1	MetaGeneAnnotator	CDS	625096	626520	.	-	0	ID=MGA_556;product=aminoacyl-histidine dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987157.1;translation=MLENLEPKKVFTFFEELTKIPRGSGNEKAVSDYLVKFAKDRNLEVIQDEALNVIIKKKGVENSPTVILQGHMDMVCEKESSSNHDFTKDPIPLIVEGDFVKTNGTTLGADNGIAVAYALALLDSNDIVHPNLEVLITTEEETGMGGAAAVDPKNLTGTMLINIDSEEEGEILVSCAGGVREKISLPINFENYSSETYSIKVSGLKGGHSGMEIIKQRGNAIKILGRTLYSILDDINLVSLNGGAKMNAIPREAQAIITCENPKDLEIKIKNFEKLVKNEYSVQDPELKIEFTKHEKTNKIIKKEDFIKAVKILYVIPDGVQTMSQSIDNLVQSSTNLGVLTMTDNSINFDIASRSSVESLKEEIVNRTKISVEAFGAEFKTMSSYPAWQYREDSKLREIFKDVYLKTFKKEVKISAIHAGLECGLLSGKMPNVDMISFGPNLYDVHTPQEKMSISSVQNMWKYLLEILKELANK;locus_tag=LOCUS_05510;note=WP_011987157.1 aminoacyl-histidine dipeptidase (Clostridium botulinum) [pid:53.3%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:3.6e-142],MGA_556
sequence1	MetaGeneAnnotator	CDS	626635	628077	.	+	0	ID=MGA_557;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865341.1;translation=MKIVVIGGGVVGSLVARELCKYEVDVTLIDKNFDIGMGVSKANSAILHAGYDDEAGTQRAKFCVRGNELYTKLEEELEIDVKRIGSHVLAFKNEDLNTLDELYKRGIENGVPGMRILTKDEIQDMEPNINPSVIASLYAPTAGITEPWQVAIAAVENAQKNGLKLALNEEVIKIVTVDGKIKGVETDKNEYDADVVINAAGLYSDKIATMAGDVAIPLHPRRGEYVLLNKFTVHDLVNSIIFPPPSKMGKGILVLPTVDGGILLGPTSEDLPYVMKFDRSTTKPGIEKVVEGAKRLIPGIDLRETVKTFAGSRPESPNKDFWIGRSKKIKGLVHAAAMRSPGLTAAPAIAEFIPEEVQDFMEVKFEKKNDFDPKRKRIVHYFTDVSKEEYDEIIKKDPLAGKIVCVCNKVTEREVLEAIKRGATTLDGIKFRTRAMFGECQGGFCTNKLLEILSRETGKSIEELHYGTKKSYVVNGKVRP;locus_tag=LOCUS_05520;note=WP_010865341.1 NAD(P)/FAD-dependent oxidoreductase (Thermotoga maritima) [pid:57.9%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:5.1e-160],MGA_557
sequence1	MetaGeneAnnotator	CDS	628074	629306	.	+	0	ID=MGA_558;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008195104.1;translation=MKKYETDVLVIGGGAAGMGAALSASEEGVKVTIVERTERLGGILNQCIHNGFGLHFFKEELTGPEYAFKFKKLVQKDNIEFLSNRFLYKIDEENKEVYFTSTEGMEVIKCKSMVYAAGARERPYGSLLVPGGRVSGIYTAGVAQRLTNLENRLPGKKALILGSGDIGLIMARRLTLEGMKVEAVLERMPYPGGLERNINQCLNDFNIPLLLSTTVLEVRGNGRLEEVIVGQVDENYNVIKGSERSYAVDTLILSVGLVPSTTPIMHVVDINPRTRGVVVDSQMRTSKDWIFAAGNCVVVYDLVDYVSSEGQIAGKNAAKYVKGEEKGNRYEIKKGRNIGIINPLIYSDKSDLELYIRVSKPDTGKLVVKNGDEIVYQSKESNLLPSEMEHFKIKKEKLGEIKGLTVEMIK;locus_tag=LOCUS_05530;note=WP_008195104.1 FAD-dependent oxidoreductase (Thermotoga) [pid:55.4%25%2C q_cov:93.2%25%2C s_cov:93.3%25%2C Eval:7.4e-117],MGA_558
sequence1	MetaGeneAnnotator	CDS	629303	629677	.	+	0	ID=MGA_559;product=DUF1667 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081696.1;translation=MKEVDLTCVQCPLGCKIKVKMDDAGVVLDILGNRCNRGKEYAMQEVVDPKRVIPTNVKVLNGVDELVSVKTTNPVPKRLMWEIMNIIKETTVEAPVKIGQVIIKDILKTGADIVATREVEKVNK;locus_tag=LOCUS_05540;note=WP_004081696.1 DUF1667 domain-containing protein (Thermotoga) [pid:53.4%25%2C q_cov:95.2%25%2C s_cov:85.5%25%2C Eval:1.5e-33],MGA_559
sequence1	MetaGeneAnnotator	CDS	629958	631175	.	+	0	ID=MGA_560;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELMVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPLIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARFHNWNAVISELAILFEERLKDYL;locus_tag=LOCUS_05550;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:44.9%25%2C q_cov:93.6%25%2C s_cov:95.7%25%2C Eval:6.8e-99],MGA_560
sequence1	MetaGeneAnnotator	CDS	631728	633263	.	-	0	ID=MGA_561;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055295205.1;translation=MKKLPIGVQDYKKIKEGNYTYIDKTKYILDLISSEAPIFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRINLLDVATDNVERMKESLTKIIKLEGNRNGIEITETDYKFAFNELIIKLSQKERVVILVDEYEKPILDNINNKEKAEKYREILRDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLDKAYAQMLGYTQEELESNFKEHIKETAIEMNMEEKELLKNLKMYYNGFSFDGENSVYNPFSILQFFKKREFENYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSKLDFSTREIEEANASIFFTQAGYLTFKGKEKYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTIWKAIKEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDDIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEVYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_05560;note=WP_055295205.1 ATP-binding protein (Bacteroides salyersiae) [pid:34.5%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:1.7e-81],MGA_561
sequence1	MetaGeneAnnotator	CDS	633365	636031	.	+	0	ID=MGA_562;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082086.1;translation=MGDLYLIDGTGIAYRAFFALDTWLKNSKGLTTNAILGTSRMMLKLLNDFIRKDEDSILFVMDKKTKTYRNELLESYKANRPKAPDEFIEQIPYILNMVEYMGINVTSADGYEADDIIATAAVKYKDLYDNIYIVTSDKDMMQLIKENIFILRPEKGITDIVMYEENRVKEKMGVPPKKIIDLLSLMGDSADNIPGVKGIGIKTAQKLLNVYNDIEDIYEHIEELKGAIKTKLIAGKDMAYLSKRLVRLQYDAPLNYEKKDLIYTGFTDKFQDYLKELEFKRIIKELGFENEEKIESQENDYSKKVEYELFASENVKDLYKKIEKSSKISFDLETTSLIPNKAKVLGVALSPEPFVGYYLDLSNETEEKKKEILTELSNLIIKKDIIGQNIKYDISVLKNYDINIENIYFDTMIGAFLISPDSRRFNMDDLAEKYLNYKTTKYKEVMSGTLFSKTLKDVNIESVKDYASEDADITHRLYKVIYPKVNASKLDRILNEVELPLIPVLAEMETNGVYFDTKYLKQLEGEFSKKVNQLMIDMENLAGYPFNPNSPKQVGELLYKKIGLKGKKKTKTGSYSTDAESLEYLKGQHPIIEKILENRKYQKLLSTYVIAIPKMVNEKTGRVHTSFNQTGTSTGRLSSSDPNLQNLPIREEEGGRIRKAVKPQSEDGILLSADYSQIELRVLAHISKDETLINAYKHGKDIHTITASKIFGISEEEVDSHARRVGKTVNFSIVYGVSGYGLAQRVGIGVAQAQTFINKYFELYKGVGSYQKSILEFAKNNGYVETLMGRKRFIKNIRANKNEIERMAINSPIQGTAADIMKLAMIKLYKNLPSYAKMILQVHDEIVIELPKSKLEEVKPILKDCMENAFKLDVPLEIDMKYGDYWMK;locus_tag=LOCUS_05570;gene=polA;EC_number=2.7.7.7;note=WP_004082086.1 DNA polymerase I (Thermotoga maritima) [pid:47.7%25%2C q_cov:99.8%25%2C s_cov:99.9%25%2C Eval:4.8e-229],MGA_562
sequence1	MetaGeneAnnotator	CDS	636040	636684	.	+	0	ID=MGA_563;product=MgtC/SapB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000115702.1;translation=MNYIDIIIRIITASFAGSAIGYNREKINRPAGIRTHALLALGSAILTILSMDIFYDPLTKAGDPGRIAAQVVSGIGFLGAGTILKNGNKVKGLTTAATLWVSASIGITFGSGSYFIGSVALIITLIVLSFNKISKHLTDEVTIEIVLKENKSHKKILEKISETNFNLVNADLSQKDEGRLYFTFKNIDEKNISDIQKKLLLLDSIESLGILDNN;locus_tag=LOCUS_05580;note=WP_000115702.1 MgtC/SapB family protein (Bacillus cereus group) [pid:38.0%25%2C q_cov:92.5%25%2C s_cov:91.1%25%2C Eval:2.5e-30],MGA_563
sequence1	MetaGeneAnnotator	CDS	636715	637917	.	-	0	ID=MGA_564;product=acetyl-CoA C-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903642.1;translation=MRKIYIVEAKRTAVGSFGGALKDLTASELGAIAIKEVIKDVDPKNINQVVVGNVLQAGQGMGPARQASIKAGIPVEVPAYTINMICGSGMKAIMLAANEIKLGADLVVAAGMESMSNAPYNLPSKSRFGSKFGDMKVTDHMIREGLWDVFNDYHMGVTAENLVEKYGITREEMDELSAMSQNRAEEAIKAGKFKDEIIPVEIKTRKGTVTVDTDEYPRFGTTVEKLAKLRPAFKKDGTVTAGNSSGINDGASAMLLASEEAVKKYNLKPIAEIVAYDQGGVDPAYMGMGPVAAISNLFEKYTEYELKDMELLELNEAFAAQSLANIKALTEKYNLTKEWFTERTNVNGGAIAIGHPIGASGNRITVTLIHEMKKRNLNIGLASLCIGGGMGTAIVIKNVK;locus_tag=LOCUS_05590;note=WP_005903642.1 acetyl-CoA C-acetyltransferase (Fusobacterium nucleatum) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-137],MGA_564
sequence1	MetaGeneAnnotator	CDS	638017	638745	.	-	0	ID=MGA_565;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898376.1;translation=MRMEDKICVVTGGARGIGEGIVRKFAQEGAKMVFACDMNINEELNKVENIRSVKLDVTDRDAIKEFVDKVVEEFEKIDVLVNNAGITKDALIQRMSEEAWDAVINVNLKGVFNMTQFIAPIMIKKGKGSIISTSSIVGVFGNIGQTNYAATKGGVISMTKTWAKEFSRKGAQVRSNAIAPGFIKTPMTEAMPEKILNSIAEKVPLKRMGEVEDIANAALFLASDESSYVNGQILGVDGGLVI;locus_tag=LOCUS_05600;gene=fabG;EC_number=1.1.1.100;note=WP_005898376.1 3-oxoacyl-[acyl-carrier-protein] reductase (Fusobacterium nucleatum) [pid:57.2%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:8.8e-73],MGA_565
sequence1	MetaGeneAnnotator	CDS	638742	639542	.	-	0	ID=MGA_566;product=B12-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902977.1;translation=MSGGLYSMSSKDFDKTLNLKAIKPYGDTMNDGKTQLSFTLPVPYGDEASEAAKQLMKKMGFENPQVVYSKELTKGFTYFVCYGSCTHTVDYTTIHVPKVESTTWSMKETDEYIKEHIGRKIVIIGASTGTDAHTVGIDAIMNMKGFAGHYGLERYKMFETLNMGSQVLNEDFVAKAIEMNADVLLVSQTVTQKDIHIKNLTELVEILEAEGIRDKVILIAGGPRISHELVKELGYDAGFGPNSYADDVASYVAQEMVRRIEGGNEK;locus_tag=LOCUS_05610;note=WP_005902977.1 B12-binding domain-containing protein (Fusobacterium nucleatum) [pid:64.5%25%2C q_cov:97.4%25%2C s_cov:98.5%25%2C Eval:3.3e-95],MGA_566
sequence1	MetaGeneAnnotator	CDS	639539	641098	.	-	0	ID=MGA_567;product=D-lysine 5%2C6-aminomutase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015881.1;translation=MKSKLGLDLNKIEYARKLSKEIALDVQNFVEKHTTVAVERTICRLLEIDGVNNEDVPLPNVVVDQLKENGVLSEGVLFFMGNAMIEMGLTPQEIAEKIANEELDITKLKMNPIEKIKETIEPNINATVEKLRKNREKRNEYLSTIGEGSKPYLYVIVATGNIYEDVVQAQAAARQGADIVAVIRTTGQSLLDYVPYGPTTEGFGGTMATQANFKIMREALDEVGEEVGRYIRLCNYCSGLCMPEIAAMGAFERLDVMLNDALYGILFRDINMKRTLVDQFFSRVINGFAGVIINTGEDNYLTTADAVEEAHTVLASDFINEQLALMAGIPEEQMGLGHAFEMNPELTNGFLYELAQAQMLREIFPKAPLKYMPPTKFMTGNIFRGHVQDALFNEVSIWTGQGIQLLGMLTEALHTPFMSDRYLSIENAKYIFNNMKDLGSEVEFKKDGIIQQRAQKVLNDATELLEKMVEDGLFKSLEKGTFAAIKRPIDGGKGLNGVVEKGNNYFNPFIKKMLEGERP;locus_tag=LOCUS_05620;EC_number=5.4.3.3;note=WP_011015881.1 D-lysine 5%2C6-aminomutase subunit alpha (Fusobacterium nucleatum) [pid:70.7%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:2.7e-210],MGA_567
sequence1	MetaGeneAnnotator	CDS	641088	642461	.	-	0	ID=MGA_568;product=endonuclease MutS2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015882.1;translation=MKNKKIIGLEYIFNTLELITPIGYKKLKKLEFLTDEKEIKKEINATKEVFEFYMKNKKKVSEICHSLMKVRDITTTIKRLKNEYILDDVELFEIKTFSIISEELRELIKNEISIISLDSLNEVVEILDPEGYKIPSFYICDEYSEELKNLRKKKSKASEEEKEKLYEIEVELEDEIREKLTKQLIKYSKNLESCINKIAYLDLLIAKAKQIEKLDLCEPEISEETEYKSFFNPEIKDILEKKGKRYQKINVNVKTGVNIITGANMSGKTVILKTLALCQYMFQMGFFIPAESAKIRPVKKVFLQTGDYQSSLSGLSSYASEMIQLNEALTYSKKEKSCLILLDELARSTNPHEGKAIVKAVIRYLNSNDSLTYIATHYNVTKNENVRKLRVKGLIKEKLNESIDHKRIDEYIDYALIEDEEDKIPEEALTIAKLLNIDNELIDIAEKILKKEGLDEE;locus_tag=LOCUS_05630;note=WP_011015882.1 endonuclease MutS2 (Fusobacterium nucleatum) [pid:30.2%25%2C q_cov:98.7%25%2C s_cov:97.7%25%2C Eval:4.4e-57],MGA_568
sequence1	MetaGeneAnnotator	CDS	642458	643456	.	-	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFIEEIKKLKSLSVVGLQKNTGKTETLNYIIKRLKNENIGMTSIGIDGESTDQVTQTPKPEIKIYKNMIFATAEKFYKAKKFTSEILDVSAKTTSIGRVVIARALEEGKVLLAGPQDTVWIKQTIDKINGFGTTLTLVDGAISRLSPSSPAITEGMVLATGAALTINMKELVKKTKHTINLINIEEFGMTHLKSLKNGVYMINESKEIKKLSIKSILNFEKLEEDFFSYGNTIYTTGSITDKFLKYLSKQKNIKKITVVVKDFTKIFVTPEVLSIFKKRGGTLKVLKKTKLIAVTVNPTSPNGYTLNSLELKNNIQELTTVPVINVREETV;locus_tag=LOCUS_05640;note=MGA_569
sequence1	MetaGeneAnnotator	CDS	643460	643870	.	-	0	ID=MGA_570;product=MaoC family dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016670.1;translation=MKYEDIKLNDIYEIEKTITSNMVETFAEITGDKNPVHLDEEFAKNSIFKARIAHGILVVGQISAVLGMEFPGPGTIYLKQDTKFLKPVYIGEKIKISVEVKEKYDEKSRILLSTKVFNEKGKLAVDGEALVLFKGE;locus_tag=LOCUS_05650;note=WP_011016670.1 MaoC family dehydratase (Fusobacterium nucleatum) [pid:45.5%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:1.0e-26],MGA_570
sequence1	MetaGeneAnnotator	CDS	643873	645129	.	-	0	ID=MGA_571;product=lysine 2%2C3-aminomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902971.1;translation=MRSYKEIPLWKDVTDEQWNDWKWQIQNRITTVEQLKQVINLTEEEEKGVHNALKTLRMAITPYYASLMDPDNPKCPIRRQAVPSAKEIIKGEWDMLDPLHEDEDSPAPCITHRYPDRVLFLITDMCSMYCRHCTRRRFAGQTDASKKMEEINQAIDYIRRTPQVRDVLLSGGDALMVGIPMLEYILKELRKIDHVEVIRIGTRTPVVFPQVITDELVDMLKKYHPLWLNTHFNHPKEITPESTEACRKLADAGIPLGNQSVLLRGINDSEFIMMELVHRLVEIRVRPYYIYQCDLSQGIEHFRTSVSKGIGIIEALMGHTSGFCIPSFVVDAPGGGGKTRVMPQYLISQTDKTVILRNYEGVITTYHEPEDTTTDVDDSEYRKKYQIHGVAGLFHNHEHISLEPANLERHKRSHHEKV;locus_tag=LOCUS_05660;gene=ablA;EC_number=5.4.3.2;note=WP_005902971.1 lysine 2%2C3-aminomutase (Fusobacterium nucleatum) [pid:65.6%25%2C q_cov:96.2%25%2C s_cov:94.8%25%2C Eval:5.8e-157],MGA_571
sequence1	MetaGeneAnnotator	CDS	645142	646176	.	-	0	ID=MGA_572;product=L-erythro-3%2C5-diaminohexanoate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015884.1;translation=MEKGCPFGTHRVIEPVGMLPQAAKKIDNTMQIRSNELLIDVQTLNIDSASFTQIKKACEKDISKMEKMILDIVNERGKMQNPVTGSGGMLIGTIKEIGPDFPDKSLKIGDKIATLVSLSLTPLKIEKIKKVNINNDQVDIDGQAILFESGLYAVLPNDIPEKLALAALDVAGAPAQVAKLVKPGNTVCIIGGGGKSGVLCSYEAMKQAGKDGKVIVVEYSEENAKRIKDMNLAHHVIVADATKPVEVYEKVKEVTDGEFCDITINNVNIESTEMSSILITKDEGIVYFFSMATSFTKAALGAEGVGKDITMMVGNGYTKGHADLTLQIIRESEDIRNLFEKLYV;locus_tag=LOCUS_05670;gene=kdd;EC_number=1.4.1.11;note=WP_011015884.1 L-erythro-3%2C5-diaminohexanoate dehydrogenase (Fusobacterium nucleatum) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-106],MGA_572
sequence1	MetaGeneAnnotator	CDS	646179	646997	.	-	0	ID=MGA_573;product=3-keto-5-aminohexanoate cleavage protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029490830.1;translation=MEKLIITAAVTGAEVTREQQPNLPLTPDEIAEEALKCYEVGASIIHVHARDKEGNPTQSYDVYKEIKEKVEKKCNVIFQPSTGGAVWHKFEERMQPLKLNPEMATLSAGTTNFGEDIFVNSSEYIEKFAKEMYERKIKPEIEVFERGHINNALRLLKKEILRTPIHFDFVMGVPGAIPGEIDDLLYLVNHIPHGSTWTVAGIGRYELSLAVHAILMGGHVRVGFEDNIYYKKGELATSNAQLVQRIANISRELGREVATPEEARKILGIGGK;locus_tag=LOCUS_05680;note=WP_029490830.1 3-keto-5-aminohexanoate cleavage protein (Fusobacterium) [pid:53.5%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.7e-78],MGA_573
sequence1	MetaGeneAnnotator	CDS	647002	647385	.	-	0	ID=MGA_574;product=3-aminobutyryl-CoA ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902967.1;translation=MEKVMIRVRMSSHDAHYGGNLVDGAKMLQLFGDVATELLIRNDGDEGLFKAYDMVEFMAPVYAGDFIEATGEIIKTGNTSRKMIFEARKVIVPRPDISESAADVLEEPVVVCRASGTCVVPKDSQRK;locus_tag=LOCUS_05690;note=WP_005902967.1 3-aminobutyryl-CoA ammonia-lyase (Fusobacterium) [pid:83.1%25%2C q_cov:97.6%25%2C s_cov:96.9%25%2C Eval:4.8e-56],MGA_574
sequence1	MetaGeneAnnotator	CDS	647389	648039	.	-	0	ID=MGA_575;product=3-oxoacid CoA-transferase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389225.1;translation=MDTKIKIAKRVAKELKDGNLVNLGIGLPTLVSNYIPQGVHVFFQSENGIVGMGPVPKEGMENGDLTNAGAGYVTALPGAMAFDSAFSFSLIRGGHLDVTVLGGLQVDEEGHLANWMVPGKMIPGMGGAMDLVTGAKKVIVAMTHTAKGRAKIVKKCTLPLTSIRKVDLIVTEMCVIEPTEKGLLLKEISEGFTVEDIKNATEAKLIIPEDLKVMEV;locus_tag=LOCUS_05700;note=WP_011389225.1 3-oxoacid CoA-transferase subunit B (Rhodospirillum rubrum) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:4.5e-83],MGA_575
sequence1	MetaGeneAnnotator	CDS	648039	648692	.	-	0	ID=MGA_576;product=3-oxoacid CoA-transferase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389137.1;translation=MKVINAKEAIEKVNNGDSVMIGGFLGVGAPETLVDELIAQKKSDLEIIGNDTAFVDKGIGKVVVNKLARKVVVSHIGTNKETQRQMIENELEVKLVPQGTLAEQVRAGGVGLGGILTPTGVGTEVEKGKQVVELNGKKYILEEAIHAKVALIKAKKADYLGNLQFSLTARNFNPLMAMAADIVIAEVEEIVPTGCIPPDSVHIPSVVVDYIVVGGAK;locus_tag=LOCUS_05710;note=WP_011389137.1 3-oxoacid CoA-transferase subunit A (Rhodospirillum rubrum) [pid:58.3%25%2C q_cov:97.2%25%2C s_cov:97.2%25%2C Eval:5.5e-65],MGA_576
sequence1	MetaGeneAnnotator	CDS	648966	649217	.	+	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVIKIKGIITTIIITIIFLILFIIYGFGIITSILSIKGNFFTNAIFFVVIGLLVFFIISLIITMFNRIKEIKKEEKDDLSKY;locus_tag=LOCUS_05720;note=MGA_577
sequence1	MetaGeneAnnotator	CDS	649198	649512	.	+	0	ID=MGA_578;product=YbjQ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003396712.1;translation=MILVNTDFISGKKLETISIVKGSTIRSKNVGKDIMSGLKTLVGGEITAYVEMMNEARAIATKRMVEEAEELNADAIINIRYATSAIMASAAEVIVYGTAVKFVD;locus_tag=LOCUS_05730;note=WP_003396712.1 YbjQ family protein (Clostridium) [pid:77.5%25%2C q_cov:98.1%25%2C s_cov:99.0%25%2C Eval:1.2e-38],MGA_578
sequence1	MetaGeneAnnotator	CDS	649568	649861	.	+	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKLSKLSIYSIILFFAFFSIFLLFIKLGERGGQTFFSNLKLTIPFLLAAASGIFSFFTGIISILKNKERSILVFISTGIGAFILFWVSAEILFPH;locus_tag=LOCUS_05740;note=MGA_579
sequence1	Aragorn:1.2.38	tRNA	649990	650067	.	+	.	ID=Aragorn_11;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence1	MetaGeneAnnotator	CDS	650245	650439	.	-	0	ID=MGA_580;product=50S ribosomal protein L28;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965040.1;translation=MSKKCDICGKGPVANGQRSGHSLVSTRRWWKPNIQRVRAVMSDGSVKRVHVCTDCLRAGKIKRA;locus_tag=LOCUS_05750;gene=rpmB;note=WP_010965040.1 50S ribosomal protein L28 (Clostridium) [pid:57.8%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:3.5e-14],MGA_580
sequence1	MetaGeneAnnotator	CDS	650560	652071	.	-	0	ID=MGA_581;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082221.1;translation=MGNEIRNQRIKMIEELRNNGFNPYPYSFNKEMDVEKIKLKFEDKINPGDLLENEVFSFAGRIMTIRTHGKSAFIHLKDDTGRLQVYIRKDKIGEEKYDFFKKFISAGDWLGVKGFPFKTKTGELTILALEIELLSKTIRPMPEKWHGLKDKEIRYRQRYVDMISNDEVIKTFRTRSLVVRYMREYLNERGFFEVETPILQNIMGGANARPFITHINAFDTDMYLRIATELHLKRLVVGGMEKVYEIGRIFRNEGVDYKHNPEFTTIELYQAYADYNDIMELTENVLAYIAKKIHGTTKVMYDGKEIDFTPPFKRIKMREFIKEHLGVDILEDSIETLDAFLKEKGIEVEIKEKGKYIDELWDLVEDKIVQPTFIIDHPIEISPLAKKHREDPRLTERFELIVNGTELANAFSELNDAIDQLERFKKQEELKDLGDDEAQVVDYDFVRALEYGLPPTGGLGIGIDRFAMFMTNTTTIKDIIPFPLVKNVKFEDEEAYLDEEHNG;locus_tag=LOCUS_05760;gene=lysS;EC_number=6.1.1.6;note=WP_004082221.1 lysine--tRNA ligase (Thermotoga maritima) [pid:61.2%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:3.1e-184],MGA_581
sequence1	MetaGeneAnnotator	CDS	652089	652562	.	-	0	ID=MGA_582;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082222.1;translation=MAETYKLTKEGYEKLKAEKDELKNRLMGEIAEKIKSARELGDLSENSEYEEAKNEQGKIDSRIKEIEYILDNSEILEDEEGNNTEVKLGKIVKIHDYGLKIDKEFRLVTPQEADIKKDKISTESIIGKNILGKKINDTVVIKTLNGKNKKIKILNIH;locus_tag=LOCUS_05770;gene=greA;note=WP_004082222.1 transcription elongation factor GreA (Thermotoga) [pid:58.2%25%2C q_cov:85.4%25%2C s_cov:85.3%25%2C Eval:2.7e-36],MGA_582
sequence1	MetaGeneAnnotator	CDS	652577	653026	.	-	0	ID=MGA_583;product=transcriptional regulator NrdR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865386.1;translation=MKCPFCGHEETKVLDSRPGANGNSVRRRRECLKCEARFTTYERYEDNKLRLIKKDGKRELFDRNKVMNGIIRACEKRPVSSEQIEDIVERIEDKLKKTGKSEISSTKIGDMVVEELKKIDQVSYVRFASVYKEFRDIDSFLEIVKDLKK;locus_tag=LOCUS_05780;gene=nrdR;note=WP_010865386.1 transcriptional regulator NrdR (Thermotoga maritima) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:95.5%25%2C Eval:2.6e-51],MGA_583
sequence1	MetaGeneAnnotator	CDS	653023	653949	.	-	0	ID=MGA_584;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012896330.1;translation=MPTFSEEVKMSIVNTEFLYPEIELYGAIKGKGDFVIDGNKKYLKITVSSLSSMKRVYKLCKKLFGEWITAYVRIERRLRIGRTGEILLDLKYAEKIIFNIGIDIFEDKVPSILKEDPIKLGVFLKGMFLTTGSVSLKSSYHLEFFLDISEKYANDLIKTFKELLGVKSNYIIKSNKIKLYIKASRDIVSILEIMGANESVEKLMDIVKVRELKGNVTRTINFITANALKTAESSSKQIKEIEYIIRNKGLESLNEELKKIAEYRMNNSDESLSEMAENLGYKKSTLYSKLKKISKISQELKNNGGNKQ;locus_tag=LOCUS_05790;gene=whiA;note=WP_012896330.1 DNA-binding protein WhiA (Thermotoga petrophila) [pid:32.7%25%2C q_cov:96.1%25%2C s_cov:96.9%25%2C Eval:1.0e-29],MGA_584
sequence1	MetaGeneAnnotator	CDS	654073	654930	.	-	0	ID=MGA_585;product=RNase adapter RapZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963833.1;translation=MENNPIVFLITGLSGAGKTFLLRSLEDEGYYTVDNVPPHLIKSFLDVTCTSGIEKLALVSDIRWKKFNELTECFINIKKNSSCDIRIKKVFLDADTQTIIDRFKKSRRNHPLDMPLEKAIEKERDILNEIKNISDIIIDTSNTEPSEFRKKFFQIINENKRTLKLKIISFGFKNGIPRSADYIFDVRFLPNPFYFYKMYKLTGLDDKIKDYLESFKEVKKTVDLIYSDAKFIQEQYGQAGRIEAVYGIGCTGGKHRSVYIAQKLYEKLKAEGKDVSIEHRDINKE;locus_tag=LOCUS_05800;gene=rapZ;note=WP_010963833.1 RNase adapter RapZ (Clostridium) [pid:43.0%25%2C q_cov:97.2%25%2C s_cov:95.9%25%2C Eval:7.9e-58],MGA_585
sequence1	MetaGeneAnnotator	CDS	654920	655732	.	-	0	ID=MGA_586;product=glutamate racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880160.1;translation=MKIGFFDSGIGGLTVLKKVIKNYGNNEYYYFGDTLRVPYGSKPQEVLVEILEGIFDFFENLNVDILISACNTTDSLVKMGLVKVENRKFKYVSIIDNGINQIEKGEKVLLLATKNTVNSGSYRNGLIKKGIKQINEKACPLFVPLVEEGYWYGPMADSIVKNYLKDYENKFDKVILGCTHYPILKKHILKRLNATIIDPADGVIKELNTKYLLFSNKKVPKVNFYITGNVEQFKFLSKRFLKKTYYNSSYYKLDLFKNKSYFKGGEYFGK;locus_tag=LOCUS_05810;gene=murI;EC_number=5.1.1.3;note=WP_010880160.1 glutamate racemase (Aquifex aeolicus) [pid:36.7%25%2C q_cov:89.3%25%2C s_cov:94.1%25%2C Eval:4.9e-38],MGA_586
sequence1	MetaGeneAnnotator	CDS	655747	656040	.	-	0	ID=MGA_587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEDYKVVEIKILNEIYKFKVNEPQEVIDPILEEIKENVEDLSKKIGKQKVNHILLLLLLNEKLNNLIFKEKTQDLLNEYKEKIENLPNFYDTKSVL;locus_tag=LOCUS_05820;note=MGA_587
sequence1	MetaGeneAnnotator	CDS	656055	656327	.	-	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILKELEEMIKTLMEKYNKLKEEKEALEKERDDLYSEYESLLNEKESMLTELNGLRNKHEDIEKTLIQIKEELVSKIGKDIEKLTENNI;locus_tag=LOCUS_05830;note=MGA_588
sequence1	MetaGeneAnnotator	CDS	656495	657685	.	+	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYIKKILELVSSLGTPSFHSNIGQLIYSETQSNKLVMIRNIDNIWIVLDAKKIVPSKLEYTSLEEILSEFQLENIFEFPFSTYILCDGNFEDTDTIEYLSNAFEKESELYEKNRLMTVIDRLSYQLSSIESLVLNLSEPLQEEKFIDIIQSSIAELLFCSASTFKVNGLKATKISEIGYIKSSKDFIDLDEILLSCIEMSLPLNLDDVDGLETLKEDKIKVIIPIGNLENNSFLIFITRDTKIEEEEKLFINTIFRIIQHFYTKQFIELIDFKEQLSLKTLRILHTFDSLIEMLKEEKNLKEKFIESIKTLNDVEKITELNLEINLPNGVYTSKEANINVKNSDIIISYPDTLEKNKQNFLCIKINSTENILELINIMSLILDGYETILNKKQKG;locus_tag=LOCUS_05840;note=MGA_589
sequence1	MetaGeneAnnotator	CDS	657698	657967	.	-	0	ID=MGA_590;product=stage V sporulation protein S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012548757.1;translation=MAELEVLKVAANSKPIAVAGALAAIIREKGKVEIQSIGAGAVNQAVKAIAIARGYVAPSGIDLVCVPAFSDVSIDGEERTAIKFVVKPK;locus_tag=LOCUS_05850;note=WP_012548757.1 stage V sporulation protein S (Dictyoglomus) [pid:77.9%25%2C q_cov:96.6%25%2C s_cov:98.9%25%2C Eval:1.3e-32],MGA_590
sequence1	Aragorn:1.2.38	tRNA	658019	658095	.	-	.	ID=Aragorn_12;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence1	MetaGeneAnnotator	CDS	658204	658470	.	+	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIRRIESQQSLNMKRIQDNKLKSIEKNKKEKIETPLKISGESKKYIEIAKSLPETRTSLINSIKEAIDNGLYKINSNKIAELMLGDR;locus_tag=LOCUS_05860;note=MGA_591
sequence1	MetaGeneAnnotator	CDS	658472	658951	.	+	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNKLKDIIREEIEILTDFFSILEELQNKIINKSEVSEINSTLLNIEKKSSNFWKIDEERNEILNKICTENKIKNNIKEVIEFFSKENKEIAILLAKLVETMNEFTIKLDMLRQIIGFQTNFDNLIIKLINIDKTGKTTYGKNGYNKNIEPSNNGWRG;locus_tag=LOCUS_05870;note=MGA_592
sequence1	MetaGeneAnnotator	CDS	658954	661551	.	+	0	ID=MGA_593;product=flagellar hook-associated protein FlgK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082609.1;translation=MSDFSIFGLLNTGMLGIYTHKLAMNVVGHNIANANTPGYSRQRPNIIATPPMPMNTLTNPMVPLQIGTGSKIKDIQRVRDDFLDVQYRQVSNRYNYWDNVEGNLHYIEQLFGEPGETGIRNLFDSFWASTQELISDPTNEAAKGQIVSRATELKNTMVDLDYRLSQLQDDTNNEIKTRVNQINTYFKRIADLNDKIRGIQLIGATPNDLLDERDRILDQLSELVDLNVNQFPTGEIALRIGDRTLLNGGTYQELKAYTIPGTNGFINVYSNNVPVQFKDGKFAALFKLRDEIVPKYRKKLDEFAINLADGVNLIHQEGWDSTGSITGANFFKSISASKDTDDARLFRIAGYKYLKNGPVNYITSKRSFNVNGLDEIKLLNPTKLVSIDSSSLPKISLLNGNTNFSSLNTAITNSTNTDGITIDSNLKFAYNSKTDNLTLENNGEKKLSNRLLIDVNGTLFSDYGFKTKQITAMRFNKDDFVSGSFSFDITDSTTKQKKTTTIDFSSDLNSDGTIDYKDMIKAINSDTDGYLKAFADEGNGNVYITGTEKIENFDIDNVVINDSEGIFSKMKTDKVKLDALDTSEPTLNNIIKDETGNDIRDNISFEVNGIKITLNPETETLNDIAEKINALNTGVTASFTPNGRFVLRGGNSIDFNLRNSSIKGPDYLFASLGLIDDDTSSLTGNDITLISVDKKMSQLNETLKLANVLKIDNGLGLVNRLDVLDSIKSNPSTISIDLGKVSTTDWKTSTREPVGLNNPSVWEEISKLKTEPILNDGKDGFSGFLASIVAEMGVQGETASKMKLNSSYLKDQIDSERERVKGVSIDEEMSNLIKYQQAFNASTRVINAVDEMIQKVVNGLGLVGR;locus_tag=LOCUS_05880;gene=flgK;note=WP_004082609.1 flagellar hook-associated protein FlgK (Thermotoga maritima) [pid:40.4%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:1.7e-175],MGA_593
sequence1	MetaGeneAnnotator	CDS	661558	662445	.	+	0	ID=MGA_594;product=flagellar hook-associated protein FlgL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082608.1;translation=MRVTENLINNRALSDIQNVMRRYADLNSQLTSGKTVRYPSDNASVASRISNLDSRIREIDRYKSNIDLAETYTNMYDTTTKEVNSVFLRIKELAVQGANGTLSDEDRNSIVQELGKLNEHLISVANTKIGNRYIFGGAQSDKQPISSDGSVQTLPSANIKQKISVGGYNIEYGLTAYDTFVTKSGTTAFQIVDRLKQALADGKNDEIQNELGAIEEIQSKTLSATAQIGGTEKMLELSKTRMEDFNQFTTAYLSKESDADITKVLTDLKMQNMVLQSALKTTAQIVPPTLVDFMR;locus_tag=LOCUS_05890;gene=flgL;note=WP_004082608.1 flagellar hook-associated protein FlgL (Thermotoga) [pid:40.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-62],MGA_594
sequence1	MetaGeneAnnotator	CDS	662461	662910	.	+	0	ID=MGA_595;product=flagellar assembly protein FliW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943666.1;translation=MNVTTKLGISNISEKEIITFEYGMPGFETLKKFVLLTPEESKPIMWLASIENKEIAFPVIHPELIRSDYSITLPKDIVDYLELKTSKDALTLSILTINDTNTTINLLAPIIISLKNKLGIQLIIENTNYTTKHDLKEELKRTKVLKGAD;locus_tag=LOCUS_05900;note=WP_010943666.1 flagellar assembly protein FliW (Geobacter sulfurreducens) [pid:36.3%25%2C q_cov:96.0%25%2C s_cov:91.2%25%2C Eval:3.7e-18],MGA_595
sequence1	MetaGeneAnnotator	CDS	662912	663157	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLILSRKKGESIIIKTNDKTIKIKILENNGDIKIGFEADKDIKIYRNELYEEIAKNNKQSISDLNSLNKIKNLFDNNENSL;locus_tag=LOCUS_05910;note=MGA_596
sequence1	MetaGeneAnnotator	CDS	663141	663929	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTAFKEEFLSIFSKNNLPEIALIGGINIEHIVGKNNNIKTIVGGRSGRLSVFLKKTGLYPEVFSFLGQDEFLNMILNYFDSQNIPITWSINPSGNNIDVRILKESKVYSDKRDENLTISPIFLDEFLNNIENIFIKVEKWNIDILDYIIYKKKNIFLDLTFDEALKFENLKNVYCFVKNNEIPKSNLKVPNNIIIFSKNNILFKNKIYSFKNNLFLEEAISSYQASFIYGIIKNFNLNFINELSIKSFKSAYKNCFFNFFY;locus_tag=LOCUS_05920;note=MGA_597
sequence1	Aragorn:1.2.38	tRNA	664092	664180	.	+	.	ID=Aragorn_13;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_13
sequence1	MetaGeneAnnotator	CDS	664380	665687	.	+	0	ID=MGA_598;product=30S ribosomal protein S12 methylthiotransferase RimO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082413.1;translation=MKKFNIVRLGCPKNDADMDIFRGILEKNNYSYEEDAKKCDYIFIDTCGFIESAKEESINTILGYAELKKTNKNLKIIAIGCLIERYFENFKKELKEADGLFGVVPPQVIFDKINNGNMFFKLPEPMDVYECNERYIPNTSYAYVKIGDGCNRNCAFCSIPSFKGAPMSRSIEDIKKEVEFLVKNGKKEIILVSQDNTLYGINLYKKQALPDLLKELNSIEGEFWIRVMYLHPDFLTDEIIETIHNTPKVVKYFDVPMQHGSDKILNRMGRIKKTKDLFKMIEKIRKNPNAVLRTSIVVGFPGETNEDFEKLLNFVNKIEFDKLGGFAYSPEENTEAFTMDGQVDEKIKEKRLEELMMLQKDISEEIMIKHIGKNMKVLIEEKTDNVYVGRTFMDAPEIDGNIIFKCNKTLKIGNFINVKINNAYEYDLEGEVLDE;locus_tag=LOCUS_05930;gene=rimO;EC_number=2.8.4.4;note=WP_004082413.1 30S ribosomal protein S12 methylthiotransferase RimO (Thermotoga) [pid:52.9%25%2C q_cov:97.7%25%2C s_cov:98.4%25%2C Eval:6.3e-122],MGA_598
sequence1	MetaGeneAnnotator	CDS	665680	666213	.	+	0	ID=MGA_599;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020863053.1;translation=MNKNLNIPNTLSTIRAIFTIPIFILTIYNNYLWALILFIIASLTDLFDGMIARKLNQVTDLGKFIDQISDKIMINAIFVGLMQIKLIPGWFVAILISRDTFVSGIRMFLASKNIVVAANKLGKLKTVLQMSLIILLYFYGITKINLNILNEIMIYSTVTVSIISGIIYFIKSLKHFS;locus_tag=LOCUS_05940;gene=pgsA;EC_number=2.7.8.5;note=WP_020863053.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mycoplasma mycoides) [pid:39.5%25%2C q_cov:96.0%25%2C s_cov:96.0%25%2C Eval:2.5e-29],MGA_599
sequence1	MetaGeneAnnotator	CDS	666234	666809	.	+	0	ID=MGA_600;product=RNA 2'%2C3'-cyclic phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082411.1;translation=MEELRTFIALDSNIELKILLKDTIEKLNKMGFKANWTTTENIHLTLLFLGDLSMHKIAEIAYKIGERISGFPTFIFDVNNLGFFESENSPKNFWFGVSGQQTLHGLYKEIQKAVSLCEIEVQNEEFVPHITVGRIKKYPEHWKKLISSIDFETIKVPVNSVCIYSSTLTKKGPVYEKLYTIDFEGGVIING;locus_tag=LOCUS_05950;gene=thpR;note=WP_004082411.1 RNA 2'%2C3'-cyclic phosphodiesterase (Thermotoga) [pid:49.2%25%2C q_cov:96.9%25%2C s_cov:98.4%25%2C Eval:1.0e-45],MGA_600
sequence1	MetaGeneAnnotator	CDS	666802	667917	.	+	0	ID=MGA_601;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082410.1;translation=MAKSNNNVSKEDLLEKLVKELEKSHGAGSVMIMGKGVEARELSIVPTGCLSLDIALGVGGFPRGRIIEIYGNESSGKTTLTLQALAEVQKAGGVAAFVDAEHALDVTYAKNLGVDIDNLVISQPDYGEQALEIVDSLVRSNMLDIVVVDSVAALVPKTEIEGSMGDTHVGLQARLMSQALRKLAGSVNKSKTIVIFINQLRMKIGVMYGNPETTTGGIALKFYSSIRIEVRRGTQIKEGKDALGNETTLKVVKNKVAPPFKDAKVDMIYGRGIAKENDIFNLAVENGLIQRKGAWFSYINSTGEEVSLGQGKLNAIGYLTENPEIMDFMEYKIRENNNVKIPDELRKKFEVKKAKKENKSKDEKKNEEKEA;locus_tag=LOCUS_05960;gene=recA;note=WP_004082410.1 recombinase RecA (Thermotoga maritima) [pid:64.7%25%2C q_cov:87.9%25%2C s_cov:91.6%25%2C Eval:1.0e-122],MGA_601
sequence1	MetaGeneAnnotator	CDS	667886	668371	.	+	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKMKKKKPKKIFDPSDIKAAEKSAEYLIRYRMRSEKELLWKLKEKGFSDEIILELIEKLKKYKLINDKIFAYHFAYDKLTLSKKGPLIIQMELRKLGVDEYLIQDTLIQLKNEINIYEIAFELGKKYYEKNNDLIKTKNFLYKKGFEQSTINYVIADIQ;locus_tag=LOCUS_05970;note=MGA_602
sequence1	MetaGeneAnnotator	CDS	668389	669933	.	+	0	ID=MGA_603;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012310845.1;translation=MITIFIALLVGIISIFFGIYIGNKKFIGSLKLKKEEIEKFLNQSKKDAEELKIKAKEEAKALRKKELVEAREEIHKMKDEAERELKKQKNDFKVLEERLIRREENLDRKEQNIETLKEKLETEKESIKEKLLEAENKLHEIAALTEEEAKQIILNEVTEKYEKTLAQKYKEMKEEYEDDAKKYAKWVITTSIQRYASDVTSEITTSTVTLPTDDMKGRIIGREGRNIRTFEKLTGTDLIIDDTPEIVVLSCFNPLRREIAKRTLEALVADGRIHPARIEEIYDKSKKEVEEFIKEAGKEAIMRVGIKSPHPELIKLLGRLKFRTSYGQDVLEHSIEVAQFAGLMANELGLNVELAKRAALFHDLGKAIDHEVEGSHAIVGGQIAKRYNEKPAVVNGIQYHHNEVDPMTPEAILVGAADALSAARPGARREALENYVRRIEQLEEIAKSFRYVDKAYAIQAGREVRIIIQPDKIDDALAEKLSHDVSHQIEEKMQYPGVIKVTVIREKRSVSYAS;locus_tag=LOCUS_05980;gene=rny;note=WP_012310845.1 ribonuclease Y (Thermotoga) [pid:59.3%25%2C q_cov:87.9%25%2C s_cov:90.5%25%2C Eval:1.4e-158],MGA_603
sequence1	MetaGeneAnnotator	CDS	669963	670517	.	-	0	ID=MGA_604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRPNPELRLKRKKELMNSIISIINENSISATTTRKIANEADLTIASLHYYFGSKDGAMVETARFILDTWITDILEAPGDFEKKIVKLFTPSDNMAAFSQIITYPYRSKITLKMIKEIDDKFNILIKDVLRAKGFDVDASFTVADVLKTFLIGLGFKGYVYPEIIKEEIKVVTEFLNLNKERE;locus_tag=LOCUS_05990;note=MGA_604
sequence1	MetaGeneAnnotator	CDS	670717	672966	.	-	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISLLIVLFVLPIVLFSYTLRVGDTIGMFVFGYPQYTMDSLTIGPEGIITVPPIGRIKVSGMEVSEVENIISKKLQNYVKTPNITIGITQYAPFIVNIFGNVSRNGVINIQKSSIKLSELIALSGGLKDYLSSFNAVVTYPNNVTKTYDISWIYNGGTGEDPIITENSRVVIPYENQNKINVFSEFGTTSFTYFNGITLKYIISKQNVPISNIDDKITLLRDGKTEIFSIDEVIKNEDVLLKRNDTIILTKLQKYVYVDTEKKYVKVNFEKNEDMTIKNILSKLNINPSVINKITVNSKEFDMNSKLNTEDFVKIEYLKNYVYLSGSFGISGRIAIDPPEKLTLTKILSLAHGFKNDFSGKLDVLLNGNMKVYNINVNKIETYKDIVFEPQSTIIAESEEKVAYIIGDLSDSRAYNTGDTLFDLLIKYQLNEAYNIKYSVDGNVGNIKGNEIEKEKNIELKGKVILDISKIKENNVIVYKEGVTKIINKNKVTLMDIISSVNGFEPVNRGILKIYNNNKLIKSYTEKNIWNNTLEEVPMGSYVIVQPETQYSYITILGNVSPKSLKTDIPIKLTDVLSSTNFNWQVQDEVIVYSEDKKDVVNTQDIEKIKDYEVEPGSIIFVSQSKPKLIYAFGEINKQGVVEYVKGLTLLDYIFRVGGIKQTGEPSKIFLFKNGPGNPPITLDISGIMNSNPIKSPMNPVLNPGDIIFVPKNALTGVFDVMNTVTTFMNFIKTGTETYTTVTNAIK;locus_tag=LOCUS_06000;note=WP_004081159.1 SLBB domain-containing protein (Thermotoga maritima) [pid:23.0%25%2C q_cov:86.5%25%2C s_cov:66.4%25%2C Eval:1.5e-34%2C partial hit],MGA_605
sequence1	MetaGeneAnnotator	CDS	672978	673418	.	-	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDAYYYNKIGNDLLSKKSYDEALLMYLKAISINSKEPMFYHNAGVCLMLKGESERAISLFEHAIKIGINLDETKYYLIKILFELERYEKVVNSSLPEKNFKIDAMILKAKAALRINKNEDVKKILNELEILGYTSQETELIQKMI;locus_tag=LOCUS_06010;note=MGA_606
sequence1	MetaGeneAnnotator	CDS	673411	675192	.	-	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFLISILLLLFINVFTSELTKREFDSRIKFSESLKLLFDNKKYEARIKLADAISGEVYIEDIPKFWYYAAKLDLQLGRIDKAKQDLDNILLFSAQNENVNTLKNFIRNIEKFSLTDYSTPIFLDIEKINGNYKSYERFYSPVDAEVLNSEIYILDSTNNRIFKKNDEEQWIKLPKMTYYGMTSDNKLNRIYLGTNKGIYYFNSYAKNNFFNINFKDTAESTTSTNTESKLFKLTNDGSYAVFDVDNAGRICAFDSYKGYLTIFGYDGEILQQKKFDYNVIFTSGVYYQNKIYLLESISKQIYVYDTLTKRVIDKVQLDKNDFYNSITVLPWGPLLIDSYKKGIFIFNLENKKVTPTKIKNFYGKIKLKYGILTLIDSKNSNVYIKRVVSKSKSIYNINIYGLFFDKEKLKVSGKINVSDLNGNNIEYLLKNFYVNDTGGRVNFNYTRNFIKTNVYTYNSIEEFFKTGISQIKTDSFIITKGNIKEKPKAEKIIPLLLSGSSIFYLRDLNDLTDVLNNIIYTTGGIIISPEEENYLNKYLNFAYNPVDMIDYSLTPPIVQGIKQTKVTINMNKQILSDTLYYFTEGVGLGE;locus_tag=LOCUS_06020;note=MGA_607
sequence1	MetaGeneAnnotator	CDS	675189	675800	.	-	0	ID=MGA_608;product=glycerol-3-phosphate 1-O-acyltransferase PlsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081723.1;translation=MTSVILFCILGYVAGSIPFSYIIPTLFGKDIRKVGSGNVGGTNVLRTLGFLPGFISIMLDIFKAFIPVFVAKIFYGNISWIPYLTAFFAIIGHDYPIWLKFKGGKGVASTAGVMFGLSGISGLIFVMIWIPITLVTKYVSVASISALILSSIFSFFYDFKLGILMVILAIIGTYKHKDNIIRLLNGNENKTDIFKIFKKGIKK;locus_tag=LOCUS_06030;gene=plsY;EC_number=2.3.1.15;note=WP_004081723.1 glycerol-3-phosphate 1-O-acyltransferase PlsY (Thermotoga) [pid:49.2%25%2C q_cov:92.1%25%2C s_cov:95.9%25%2C Eval:2.1e-44],MGA_608
sequence1	MetaGeneAnnotator	CDS	675823	677166	.	-	0	ID=MGA_609;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081721.1;translation=MAEPIVLIIGKPNVGKSTLFNRIIREKKSIVLDFPGVTRDHVYGEARWGERAFTLVDTCGIFENPEGIIERQQKQVVLSSVKEASLVLFVIDGREGITSEDIHVVEFLRKAGVEIVFVANKIESYEKYERNILPELYEIGFGEPIPVSAEHNKNIDELIDTILERLEQQGIDTTLREENDDEIVKVAIIGKPNAGKSSLFNKITGLKKAIVSDIPGTTRDIVDEIVEFDGKKYKFIDTAGMRKKSTVEYGTVEMYSIVRTIKAIERADVVIIVVDSTEGITHQDQKVAGLAENKGKATIVAFNKWDLVKNQSIKKKEYEEYFEKEFYYIKYSPAIYTSAERGWGIEELIDSIDIVNKSRNRRIPTSALNAALERYLMVSPPPVKKGKRIKFYYATQVDVKPPVFTFYSNQPENIPKTYAQSLRNMIRKYIDPFVGTPLFIKFAERKK;locus_tag=LOCUS_06040;gene=der;EC_number=3.6.5.-;note=WP_004081721.1 ribosome biogenesis GTPase Der (Thermotoga) [pid:50.6%25%2C q_cov:97.8%25%2C s_cov:98.4%25%2C Eval:8.5e-130],MGA_609
sequence1	MetaGeneAnnotator	CDS	677185	678783	.	-	0	ID=MGA_610;product=30S ribosomal protein S1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081719.1;translation=MEEMSFEELLNENEMNEIKRGKLFKGEVVRIASDGIWVSLEATGDALVKSDELVKNISEYKIGDPISVVVTKTNDETGINSASERRALGEKLREEIKEGAVLKTKFEKRLEKGYQVLIGNAVRAFLPGSLSMLKPTDKMPENEMDMKVISVRGRRIVVSRKDIIEEQQREIYENYKENMIVEGTVDSIKNFGAFVKLNDYVNALIPVSEISWDKNVNINEVLKIGSKVKGVIIRLDQDKKKISISLKQLKDNPWTNIEEKYPIDSVVTGIVTNIFPFGFTVKVESGVEGLVHESEVFWARRGKIKDVVSIGDKVEVKVLGINREKNRLSLSYKQVLGNPWEEIENKYNIGNVVGGKVEKVLPNGAIIKLEEGITGFVHVSELSWNFVDNVEEALNDGDNVKVKVLDIDKENQKMKLSIKQAIENPWKKVVNELKVGDYINGKVIRYAGTGAVVIVEDYNVEAFLPVKKVSYEKIEDIKNVLKIGDSLKAKVLDIEFENEEKKGNMVISVLDVIKDEERKELDEAIKKVNEDA;locus_tag=LOCUS_06050;note=WP_004081719.1 30S ribosomal protein S1 (Thermotoga) [pid:39.4%25%2C q_cov:98.5%25%2C s_cov:95.8%25%2C Eval:9.1e-105],MGA_610
sequence1	MetaGeneAnnotator	CDS	678804	679646	.	-	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKIAKKTGFCYGVDRAFNGVKTLAKESKEKVYIYGELVHNKEVIKNLSESGIEKIDNLKEFPQKYENSTVVIRAHGIPKKEREQLKKFKKVVDMTCPIVQNLVDYTNDVQLKGYYIVVYGKTNHPEMICLKGNVDEKKINITLEPYKLNTNKICIISQTTVDNDSFKKFYMKMMEINNFSDIIIKNTICKETSFREEEAKKLSKWAECVIVIGGKNSSNTRKLYNISLEHCKNTHYVENYKELSENIKNNEKVAILTGSSTPQWSIKDVVDFLKGNIS;locus_tag=LOCUS_06060;note=WP_012047676.1 bifunctional 4-hydroxy-3-methylbut-2-enyl diphosphate reductase/30S ribosomal protein S1 (Clostridium botulinum) [pid:38.4%25%2C q_cov:100.0%25%2C s_cov:43.9%25%2C Eval:2.2e-49%2C partial hit],internal stop codon at [678518:678520](-)%2C[678804:678806](-),frameshifted%2C insertion/deletion at around 678545%2C678755,MGA_611
sequence1	MetaGeneAnnotator	CDS	679627	680298	.	-	0	ID=MGA_612;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439454.1;translation=MIHIAIDGPAGSGKSTIAKKVAEKFNINYLDSGALYRIIGYYIFNENINLEDANGIVNSLGDIDIILSEGKYRLNGKLIDDQIRTYNSGKLASRVAKIPEVRKKVNYILKSISSKESTVIDGRDIGTVVLPKAEVKIYLTASAKERANRRYKELIEKGEKVNFEDVYTEIKKRDEADTNRTIAPLKPAEDAKIIDTTGKKIEEVLSEIYTIVESELKNGNKNS;locus_tag=LOCUS_06070;gene=cmk;EC_number=2.7.4.25;note=WP_003439454.1 (d)CMP kinase (Clostridioides difficile) [pid:46.3%25%2C q_cov:91.9%25%2C s_cov:94.9%25%2C Eval:1.2e-46],MGA_612
sequence1	MetaGeneAnnotator	CDS	680317	680646	.	-	0	ID=MGA_613;product=STAS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081714.1;translation=MDFIVTFNEIEKAFVIKTIGDIDAYHSATFKQKVLEHFNNTDKKVIALDLSEVSYIDSAGLGSIVSLIKESKKAKKELVLYALQPQVKKIFEMTKLDKIIRIIDTESEI;locus_tag=LOCUS_06080;note=WP_004081714.1 STAS domain-containing protein (Thermotoga) [pid:44.7%25%2C q_cov:86.2%25%2C s_cov:85.5%25%2C Eval:3.9e-18],MGA_613
sequence1	MetaGeneAnnotator	CDS	680663	682420	.	-	0	ID=MGA_614;product=aspartate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081712.1;translation=MLKKTHNCGELNAQYEGQEVVLNGWVDRIRDLGGIKFILLRDRYGKTQIFFDPNENKELYEKSLTLGNEYTVGIKGIVKKRPDDAINKNMKTGDIEILATDIEIFSESETPPIYVNKDEDISENLRLKYRYLDLRKEKMQKNLIMRHKIMQASRKYLSENGFLEVETPFLTKSTPEGARDFLVPSRIKPGNFYALPQSPQIFKQLLMVSGFDKYFQIARCFRDEDFRADRQPEFTQIDFEASFVKKEDIFEYGEGLVKAIFKEAVGLEIETPFRQMSYDEALEKYGSDKPDTRYGMELIELNEYFENTQASFIKEKIDNNGVIKGFVIPKKAKEYSRKKFDYFTESAKQLGATGLIWIANDGDKVRSSIKKIAEKEIQDILNHGIIDNGDVMLLLTGDRKEVNKLLGQLRVKVIKEEMEKKSGFDILWIVDFPMFAWDEEENRITAEHHPFTMPNLKDLEMYKDDPLKIKAECYDLVINGYEMASGGERIYRKDIQKRIFEMIGLEEKEIQEKFGFLLEAFKYGAPPHAGAALGLDRLVAVICEEDSIKEVIAFPKTATGSSPMTEAPSRVDEKQLKNLKLKIIE;locus_tag=LOCUS_06090;gene=aspS;EC_number=6.1.1.12;note=WP_004081712.1 aspartate--tRNA ligase (Thermotoga) [pid:53.4%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:6.5e-176],MGA_614
sequence1	MetaGeneAnnotator	CDS	682545	683474	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRILMSVLIIIFTFSLAFSVNFKDVPVNHWAYDAVQRIASIGILEGYPDGTFKGLEQVNRYQLTLTVSRTIDYIEQNLISTLAEKISELDKKLSSNSGSSDDVKLLNSKISSLDEKTTSLEKNISDLKNSYELLGYTVSKLDNLQKKVDALSVPKDTSTEVTELKKDIEKLNSQFSDLSAVISNYENMGTDLNALNANVSTNKKDISDVKTLISALNAKVDLKADENKIKLLDSKISKIESVSSQNSSNLSTVLSLTSKNKNEIDALADSVKQLNSKKSDSNGIDFMDILLSVLISAGVSIAVVAFMK;locus_tag=LOCUS_06100;note=WP_004081489.1 S-layer homology domain-containing protein (Thermotoga maritima) [pid:26.0%25%2C q_cov:91.6%25%2C s_cov:73.8%25%2C Eval:4.3e-20%2C partial hit],MGA_615
sequence1	MetaGeneAnnotator	CDS	683490	684167	.	-	0	ID=MGA_616;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947925.1;translation=MGIIVIEGADGAGKSTQIELLINYFKKNEIKYKFIHFPVMEDSFSGKTISKFLRGEFGGVKEVNPYFVSILYAMNRNEYKDQILNWIKNGYTILLDRYVYSNIAFQCAKIKDKNKKEELKKWLLEMEFEYYNLPKPNLTIYLDVPENILIKRLNSKRSGEDRNYLNGSEDIHEKDFELQKNVINEYLMLVKEDDTFYKVETYEKDKHLTPHEIYEKIIKIIKSAN;locus_tag=LOCUS_06110;EC_number=2.7.4.9;note=WP_011947925.1 thymidylate kinase (Clostridium botulinum) [pid:34.8%25%2C q_cov:97.3%25%2C s_cov:93.5%25%2C Eval:3.9e-24],MGA_616
sequence1	MetaGeneAnnotator	CDS	684367	686085	.	+	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLLTFILILYSLISFTSKEFNNAIYFFNKADKFESLEETLAFHQKTISELSKILSSKTTKMSTNLENGKITFYGYKAWEYAKYYPKLIKNILKIKEIKNNKFIKNLYLLESNLIINKYKNFPLSKKILNNSFSINNENFLNITLPATSYFNENFLNISLKYLKDIENNEIRDSIYEFISIYLLQKKQYEESLKFSKKIKREISRYYVYQKIAIEYLNIDINKTLEIVNLIDIDFIKDLTLEKIIDILLNNNNVDKALEFLNFIEDESDKSLALNHIGIFYLKQNNENYKYYLSKAYWKTKLIKNDYERDKAFKNIALDFLNNDLFVNSLDIAYEIKNNYIKYLLFKEISIYMFNKEKINIGNTFMNISLNSANSIENQNSRDFALEDLCLTEIKLNNIEDAIKILNTIKEEKYKDLVLSNLAIFYANTDLRKTYNFINKINDIKVKAITMGNVSVKIKDIAPTLSNKYLKKSLYILKVNENNYLKESLILNLFDLKKYENLELILKSIHEEKIKNAVIIELAKKILNTHTFIEIKNTTIMNYIKTCIFFEYSLKNTLTIEDINFILNYI;locus_tag=LOCUS_06120;note=MGA_617
sequence1	MetaGeneAnnotator	CDS	686114	687985	.	-	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLFVLSLIILNILTISKQINIKYFDMKWGDSPYINGEFSYMNSNDNWKKFKYEGNTIEDKKDNFLWLRYKLPDENLEGKSFFFSSIVGYLEIYCNNKLLYRMINLNTLNKNKYYGYPADLIPLKQEYRNKYLYIRMYSDKKDIGFIGEIEIDDTINLYKKEKIKNIDFLFLGVFFTVLGFLILFFSISFKKKERKSIISLAILMLSSGIWNFEHPSIAYMNFLPPNIWAEFFEYAIITLPIGMFMFYEATFEKHYKKLSRSMWNINLMYVCIIGFLDFINKIFIKSTVNILFSTRSLFYILFFIEVFVIIFISFKEIFYGNKEARFYTIGILSVIGSSFYEILGERRMFVFWKRPLMQWGLFVFIILVIKIIFNSREKEKKMIKQYSKELKEKNIQLKDANAIKLNFIAKMSHELKTPLNGVLGFTKMLLDETFGELNEKQKNIIKTIYLSGKQMNTLVNETMIFSRIKRDKITLNKQNIKLHYLVERIIDTHKLNLKKNIEIINSVDKDCLVYGDEIRVYQIINNLIGNAIKFTQSGYVMIESIDKEKYYEINVEDTGIGIPEKEINDIFNEFKQLKNTNTGLGLGLAIVKYLVKMHGGSIRAENTNRGSKFIFTLPKK;locus_tag=LOCUS_06130;note=WP_012545601.1 hybrid sensor histidine kinase/response regulator (Thermodesulfovibrio yellowstonii) [pid:37.5%25%2C q_cov:40.4%25%2C s_cov:41.7%25%2C Eval:1.2e-37%2C partial hit],MGA_618
sequence1	MetaGeneAnnotator	CDS	688103	688678	.	-	0	ID=MGA_619;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000649791.1;translation=MKKIIIGLGNPGPRYVFTRHNVGFLSIDRFYEINKKFIDFREVSGRTFEGYESSKYLLVKPTTFMNLSGQVFIELSRKYGRINNTDIVLIYDDVSLDFGKIRIRKTGSAGGHNGVKSIIASLGTQEFLRIRVGVDKKPEYMKLSDYVLSQFKNDELSVMNKILDPVSNIIEMLVDNKVDEAMNKYNGEVFL;locus_tag=LOCUS_06140;gene=pth;EC_number=3.1.1.29;note=WP_000649791.1 aminoacyl-tRNA hydrolase (Staphylococcus) [pid:43.4%25%2C q_cov:97.9%25%2C s_cov:98.9%25%2C Eval:8.2e-40],MGA_619
sequence1	MetaGeneAnnotator	CDS	688682	689281	.	-	0	ID=MGA_620;product=50S ribosomal protein L25;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082103.1;translation=MARTRVLEVVERDLKKKANVLRSEGIIPAEVYGPGIENNRHIGVNSRNFESIVSTVKETTLVTLKDESGNEVEAFVKTLQRHKVSDKVIHIDFYVPVKGHKMHLHIPLNFVGECIGLSRGGRLEVSYHELPVEILPKDIVETIDVDITNLNVHDHITAADIAKLLPEETKIILDPEDLIVSVVPKVIEEEVSEEAEEEA;locus_tag=LOCUS_06150;note=WP_004082103.1 50S ribosomal protein L25 (Thermotoga maritima) [pid:41.1%25%2C q_cov:81.9%25%2C s_cov:76.7%25%2C Eval:2.0e-28],MGA_620
sequence1	MetaGeneAnnotator	CDS	689325	690272	.	-	0	ID=MGA_621;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082104.1;translation=MAIVGNSEMKVFTGNSNLPLAQKIVEYIGTRLGDCQVSHFADGEVNVKINETVRGYDVYVIQSVSDPVNDNLMELLVMIDALKRASAGSITIIIPYYGYARQDRKAKGRDPITAKLVANLLTVAGANRVATIDLHAEQIQGFFDIPVDNLWSFPVFANYFKENEDLSDYIVVSPDVGGVKRARKFAEKLGVPLAILDKRRPKDNVAEIMHVIGEVEGKRCILFDDIIDTGGSIVGATEALIKNGAKTVTACATHGIFSKTAKEKLQNSKLDKVIVTDTIYHKELPEKFEVLSVAPMFGEAVVRIRKNLSVSILFR;locus_tag=LOCUS_06160;note=WP_004082104.1 ribose-phosphate pyrophosphokinase (Thermotoga maritima) [pid:67.3%25%2C q_cov:98.4%25%2C s_cov:99.0%25%2C Eval:1.3e-120],MGA_621
sequence1	MetaGeneAnnotator	CDS	690278	691618	.	-	0	ID=MGA_622;product=bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082105.1;translation=MKTLILAAGKGTRMKSKYPKVMHKVMGIPMLNWVIDRANEVSEDVGVVLGHGIEMVKEIVPNNIKIFEQIGMKGTGHAVMAAEEFLEGDNTLILYGDVPLISNKTLNNLLSKHKNEDNDATLLTIKLKNPFGYGRVIRENNKFKKIVEHKDANEKELIINEINTGIAIYKTEKLREALKKINTNNAQGEYYLTDTFLYFNKVGIFETNDEFEVSGINDRVQLSIIENEARKRHLKNLMKSGVTIIDPSSTYIDYGVKIGQDTIIHPQTYIYGKTIIGNECEIGPMTRVKDCTIMNNVKVLRSECEGAEIYNDVSVGPFTRLRTGAVLKSKVKIGNFVEIKKSTLEEGVKAGHLTYLGDAHIGEKTNIGAGTITCNYDGKNKFKTSIGKNAFIGSNASLVAPVKIGENVITAAGSVITEDVPDNSLAFGRARQIVKKDWVLKKMKGE;locus_tag=LOCUS_06170;gene=glmU;EC_number=2.7.7.23;note=WP_004082105.1 bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU (Thermotoga maritima) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-135],MGA_622
sequence1	MetaGeneAnnotator	CDS	691702	692259	.	-	0	ID=MGA_623;product=Holliday junction branch migration protein RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082791.1;translation=MLKKIRGKIVSIGEENISIEVGPFTLEAFPSFRILKDLETEQEYNFEASFEMSEWNMALYVFKDIDERNVFESLKKVSKIGPKTAARIVRSTDAEAISAMIGSGDISGLSKLPGIGKKTAERIASELKGKFEGIEIKNDLSDAIEALEALGYERFKIMRFLKNNDVSNMPVEEIIKIGLAKLSKK;locus_tag=LOCUS_06180;gene=ruvA;EC_number=3.6.4.12;note=WP_004082791.1 Holliday junction branch migration protein RuvA (Thermotoga) [pid:40.1%25%2C q_cov:83.2%25%2C s_cov:86.2%25%2C Eval:1.1e-22],MGA_623
sequence1	MetaGeneAnnotator	CDS	692253	693557	.	-	0	ID=MGA_624;product=folylpolyglutamate synthase/dihydrofolate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865066.1;translation=MKEFKELVEFLYGKKAGSTKIKLGLERIKKFCEILDNPQNSYKVIHVAGTNGKGSVTKALSTILKEQGYKVGTFISPHLVDINERIRINGKNISNEDFVQLYKEIEPYIERIESGNNEMSPSFFEIITAMAFQYFKNEKVDIAIVEVGLGGRLDSTNVVESDVAVITTIAKDHTKILGESLEEIAHEKAGIIKNNSMLVIGDISESPRDVIIRKAEIVGAKAVKVLGKHFNFKNTRYSLNWNSMDFKYEDKSLNELIFRCNGAYQPHNISVALAATYAFAEKNKININEEKLRKAVKNFIWEGRFELIEKNNKKIILEGAHNMAGIEMFEKTINMYMPFAKKVALIGILDDKDFEEMVKRIGPLFSEIIVTTVTSTRSENPELVYESIKKYNSNVRFVKDPIEAYEKLLKKDADYYFVTGSLYLIGEIRGHIVC;locus_tag=LOCUS_06190;note=WP_010865066.1 folylpolyglutamate synthase/dihydrofolate synthase family protein (Thermotoga maritima) [pid:40.4%25%2C q_cov:98.2%25%2C s_cov:96.3%25%2C Eval:1.2e-80],MGA_624
sequence1	MetaGeneAnnotator	CDS	693554	696163	.	-	0	ID=MGA_625;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082363.1;translation=MDIGNRYTPHELEKKWYSTWNEKETFKPKEGNDTFSIVIPPPNITGKLHVGHALNMTLQDVLTRYNRMKGLSTLWLPGEDHAGIATQHVVEKFLRESEGKRREEYGREEFVDRVWDWANEYKDHIRGQIKAMGASVDWSRERFTLDEGLNKAVRKVFVELYNEGLIYKGKYIVNWCPSCGTVLADDEVEHEDENGKFYHIKYYFENSDEYVIIATTRPETMLGDVAVAVHPSDERYKDIVGKNLILPLVNKKIPIISDPYVDPKFGTGMVKITPAHDPNDYQVGLRHNLERIQVMDESAKMTEDCGKYAGMDRYEARKEIVKDLEELNLLEKIEDHKHAVGHCYRCHTTVEPFLMDQWFVKMEPLAKKAIEAVEKEEIKFHPPRWKKVYLNWMSEIRDWCISRQLWWGHRIPVWYCEDCGHINVSENEVHKCEKCGSTNLKQDEDVLDTWFSSALWPFSTLGWPENTKDLEKFYPTSTLVTGFDIIFFWVARMIIMGEKFMNDKPFSDVYITPLVRDKQGRKMSKSLGNGLDPLEVIEKYGTDPMRFTLSILAAQGKDIKLDIKAFEPYSKFANKIWNATRFVLLNMNDFEEIELKDEMLAIEDKWIFTKLSKAVKEVSKAIEEYNFNIGAKTMYEFFWNEFCDWYIESVKDRLKDDNSKRVAQNVLVKVLDNALKLLHPFMPYITEELWQSLPIEHSSEMIITSSWPIFEKSYEIEESNFEKIMQVVRGIRNVKTEMNIAIIKKVEVKFKATNDNFMKKSDSMIKKLGFVSNIEKVSDKPNGTATAYVDDDMEVYVVVGDLIDIEAESARLEKKIGKLNKEVQKFEKKLSNKNFVEKASADVVEETKEKLNDAKVQLEKVEKLYGELK;locus_tag=LOCUS_06200;EC_number=6.1.1.9;note=WP_004082363.1 valine--tRNA ligase (Thermotoga) [pid:62.9%25%2C q_cov:99.9%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_625
sequence1	MetaGeneAnnotator	CDS	696180	696644	.	-	0	ID=MGA_626;product=threonine/serine exporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808679.1;translation=MIIRIIFSYFATGAFSILFKTPAKYVPLSALSGMIGWSVYEVSNAYFSIEVAFVLSAFIAGFVSILFSNLFLVNSKIFMIPAVIPLVPGAPAFFSIQKFIEKDYNQAINFAYATFVAAFGIVIGLSMATYIFSFFNDFFDRKRILKYNNSIKNK;locus_tag=LOCUS_06210;note=WP_005808679.1 threonine/serine exporter family protein (Desulfitobacterium hafniense) [pid:34.9%25%2C q_cov:92.9%25%2C s_cov:92.8%25%2C Eval:2.5e-15],MGA_626
sequence1	MetaGeneAnnotator	CDS	696649	697389	.	-	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIQRISDIFMEIAKSLYYYGESSTEIEDSLFKIAKTYGLDVQVAAMGTVIHITLIAPKGETISRIERVNDIDINFSKLELWEQLIRRIINEKRPLYKVKKDIIKIKNINEHTKTSIPLLIISVFIVSFSFCILFKGNFIDSIVSGISGVSSFIIIFKIKNRIFKDFMAGFLLHTFISIQSIFFNINLFPSLAGALMVFVPGLLLTNGILEIGERNLVSGGSKLLESMFILGALVMGAISSSIIWR;locus_tag=LOCUS_06220;note=MGA_627
sequence1	MetaGeneAnnotator	CDS	697426	699300	.	+	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTFSNKIIKIININFIIYSISLILSAYLVSYYIINVYIMNNLDTIFNTKKYFMKNIQETINSEFLMYKKYGIKNFKLIDSIYGNGKFEFHNKTINFIPHKGIIKDKDDQYIYFSYNYNTKYLIGINLNKIVKYLNIKNKANDFIVILKTSEGFVLPQNIIFNSLINKNLNEDTIVLKTKTERYNVKLGKEYGIDFFVLINSKIIDTYTTYIAIAAFTFLLIIIIINKTNSIFVQRSIEKPINTLITGIKNIKTKKSSEIIYEEDDEFKILSNEFNALYKQLRVTILDLKQSEENAKKASEFKSNVLKTLSHEIKTPLHSILGFTEYLKLKLNDEKDIEILNTVRKSSSDLLKKFEKLFERSKIETEPENIKLNLENFNLKTTILKIASIYESECSKKNIKFNLSFKLENLNTQFLDKIKIEKVLIELLDNALKFTEKGEINFTIENDEKNLYFSIEDTGKGIKADEIDIIFEDFFQSEHFLTRTTEGMGMGLSISNFYIKVMDGKIKFKSKKIGTIVNLEIPTELTLKKIKNLSIEKDFKNLSISKKKLENIQLNLEKDIREIINTTNLKLFKEKLNTLYTYTKSNNLNTLSNILFDLKNKSMGFSKEYLEELHNLFLYKIF;locus_tag=LOCUS_06230;note=WP_010852241.1 histidine kinase N-terminal 7TM domain-containing protein (Lunatimonas lonarensis) [pid:33.5%25%2C q_cov:41.0%25%2C s_cov:29.8%25%2C Eval:1.5e-29%2C partial hit],MGA_628
sequence1	Aragorn:1.2.38	tRNA	699375	699449	.	+	.	ID=Aragorn_14;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_14
sequence1	MetaGeneAnnotator	CDS	699536	700915	.	-	0	ID=MGA_629;product=pyruvate carboxylase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082715.1;translation=MPYVVDTTLRDGQQSLIATRMKTKEFEDKLEIFDQVGYHSMEVWGGATYDSCIRYLNEDPWERLKTIRKKLKNTKIQMLLRGQNILGYRHYPDEVLELFIKKMADYGVDIVRIFDALNDIRNLEKAIEYTKKYKMHAQGAISYTVSPVHNVDFYLKYAEKLVKCGVDSIAIKDMAGLLEPHVAVELVKKLKEKFDIPIELHTHNTTGLGSLSCYAASEAGIDGLNLALSPFANGTSQPAVEPFNQALKLGLNNEKILELTEYFWKVRKNHEENDMKMTSINAQILDSQIPGGMLSNLVSQLKAQKAEDRLDEVLKEVPAVRKELGYPPLVTPTSQIVGVQATLNVLTGERYKMITNEVKNYLKGMYGRSPAPVDEEIFKKALGNEKPIDHRPADDLEPVLKKARSEMGLLAQTDEDLLTYVLFGEVGKKFLKDKYEKSLGVDLNIAKEYEDEESSIYPV;locus_tag=LOCUS_06240;EC_number=6.4.1.1;note=WP_004082715.1 pyruvate carboxylase subunit B (Thermotoga) [pid:60.5%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:3.2e-156],MGA_629
sequence1	MetaGeneAnnotator	CDS	701182	702915	.	-	0	ID=MGA_630;product=Na+/H+ antiporter NhaC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948187.1;translation=MKKSKRNLIITVFTMIFLMLSVSIFAAGGDSQKFDYGALSLIPPIVAIALAFLTKEVILSLALGVFSGALISTFATSSSGFFLKIVESYTNTISYPVKALGDEWHAGILIFTVAIGGMVAIISKMGGTRAIANALAKKAKTARSAQNVTWLMGIVIFFDDYANTLIVGPTMRPLADKMKVSREKLSYIVDSTAAPVAGMALISTWIGYELGLIGDSFKAANLTDINAYSVFINTIPYRLYSIFAIVMVFLVGFMLRDFGPMYKAEKRARLTGKLLSDGATPLSSADFEKGNEKKDIPLRMSNALVPIITLVVFAFIGLWYSGGGLEKPFTLIGIRDAFGDADASVSLIWAAILAGIVAMVMGISQKILTLHEAFEAWVEGAKSLMITAIILTLAWSIGSVTETLGTAPYLVKVVSGSLPGWLLPTLVYIMSSIVAFSTGTSWGTMAIMMPLAIPLATHYSGGALTPIVYATLGSVLTGSIFGDHCSPISDTTIMSSMASSADHMDHVKTQIPYALFIAGLTIVVGTIPIGLGLPVWISFILGVIGIWATLKFFGKSTKLEDLQAEEGIKVNAQLEEE;locus_tag=LOCUS_06250;note=WP_011948187.1 Na+/H+ antiporter NhaC family protein (Clostridium) [pid:46.4%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:3.0e-149],MGA_630
sequence1	MetaGeneAnnotator	CDS	703183	703980	.	+	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFITTIIINKLEVIIFKGLSISKKVFLKDKTYLLNHIINNFGSFIFGYIYVSIWKSLTKSSEMTTYVMVNQSALWLTMFLPYGCYIPQKMREGTIAFELLKPYGIMYGSFFEVFGHTIYNFLFRSIPIYTFSILLLHAELPSSNRIIPYFITLFNAFLVAFFLNYFIGLWSMKFISYTGAQGLYYFFMNIFGGYFLPAEYFPGILKQIVPFLPFACTSYIPGSVYLGKISFSFAFFIQSFWIITLGITAYILTEKLSKNLKIQGG;locus_tag=LOCUS_06260;note=MGA_631
sequence1	MetaGeneAnnotator	CDS	703982	704749	.	+	0	ID=MGA_632;product=ABC-2 family transporter protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000965773.1;translation=MNLFKSMLKASIKSQLEYRFNFIVDSTISGIVIFSDFLMLAIVLMNFKEIAGWNIYEVAVLYSIVEAGWGIFRLFGEGINKFEELIISGKFDTLLTRPISPIKQLFLQKFELKRIGVFLQAILVGSWGLSNLNITSIYMYPILIFFSIVITFEINLILAAIAFWTIKNSDIIILAFYSTRTASSYPINIYGSILRSILTFFIPIATVGYYPVSYLLGKTKNSFALFSPVLGTLFLIPVTYFIWKMGLKKYTSTGS;locus_tag=LOCUS_06270;note=WP_000965773.1 ABC-2 family transporter protein (Bacillus cereus) [pid:32.1%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:3.4e-30],MGA_632
sequence1	MetaGeneAnnotator	CDS	704760	705695	.	+	0	ID=MGA_633;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000843645.1;translation=MEYITVENLKKSYTIYKRKKFKREKKEILALNGINLKIKKGEFLGYIGPNGAGKSTTIKILTGIMEPDSGNVKIDNFCPWKDRKKYVKNIGVVFGQKTQMWWDLPVIETYNLLKDIFKVKDFKNNLEYLIEKLNLSEILYHPVRQLSLGQRMRAEVGACMIHDPDILFLDEPTIGLDIISKENVNNFLKELNEKGKTIFLTTHDLKDIETLCNEVLVLNKGNIVYKGDVNNLKNITDMPTTMKIFLKSPPKDFKLIKELNGEYLKEKKEITLNIKSDGVAKIAEKIFKNYEVEDFKVTEPGIEEIIKEIYK;locus_tag=LOCUS_06280;note=WP_000843645.1 ATP-binding cassette domain-containing protein (Bacillus) [pid:41.3%25%2C q_cov:99.0%25%2C s_cov:97.0%25%2C Eval:2.5e-68],MGA_633
sequence1	MetaGeneAnnotator	CDS	705798	706514	.	+	0	ID=MGA_634;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003020631.1;translation=MMIPTPHIEVKDKNTIAKTVIMPGDPLRAKFIAEKFLENPVLFNSVRNMYGYTGTYKGKRISVMGSGMGMASIGIYSYELFKFYDVENIIRVGSCGAYTDELNLYDVILVDEAYSESTFAKCQSGYESDIIEPSEKLNEQLRTAAKNLKIEIKEGRIHSSDVFYRENFEVFKEINKKYGCMAVEMESFALFANAKSTGKNAACLLTVSDSLVTHEATSSEERQLSFTKMMEIALEMAE;locus_tag=LOCUS_06290;gene=deoD;EC_number=2.4.2.1;note=WP_003020631.1 purine-nucleoside phosphorylase (Francisella tularensis) [pid:54.7%25%2C q_cov:98.3%25%2C s_cov:97.5%25%2C Eval:4.2e-72],MGA_634
sequence1	MetaGeneAnnotator	CDS	706540	707187	.	-	0	ID=MGA_635;product=2-phosphosulfolactate phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080870.1;translation=MINVYTTYLENIEKHDIYVLIDTLRATSTISTLLHCKIKSLEIVESLEKAFLKKNKILIGERNAQKIKGFDYSNSPVEILKNKEKLNGKEIVLTTTNGAKAFNKISSMGKVIPLSLLNLNSVYEYVKDYTDIGIVCSGSNGVSSLEDLYTAGLFLRNFKDVDLNDGAKIALSIANLSVEEIKNSDHARTMKRLNLNEDIKFCFKLNVFNEVIIME;locus_tag=LOCUS_06300;note=WP_004080870.1 2-phosphosulfolactate phosphatase family protein (Thermotoga maritima) [pid:45.2%25%2C q_cov:89.8%25%2C s_cov:86.3%25%2C Eval:2.9e-34],MGA_635
sequence1	MetaGeneAnnotator	CDS	707184	709211	.	-	0	ID=MGA_636;product=DUF1923 family maltosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865200.1;translation=MDNLKGIYSFLVKKIKDGKTNYAVPKRWMPDNYEGNIKLRGRKFFVNPYEYFSEIIETILKNSNESEKYNKPLSFIKKEQTPNWIKSSIFYGAHVRSTSAYIHTESHLFESIDSEGYTEGGTFLKMIALLPYLKQFNVECIYLLPITQSSNKFKKGEVGSPYSVKDFFKVEKDFHDTLLEDEFNPNDEFAAFVEAAHRLNIRVVLDFVPRTAARDNNLILEHPEWFYWIDSKEKNKFKPPYLKTLKFEQPALENLEILYNDEAVKQHLKKFKFDPKTQDPNKWENFVMKNKNNENFLDEIEKEFGVITVPGFSDWINDPQPTWDDVTFLRLYMSHPETAEKYLSKDQPPYVLFDVVKASKFPGKEKNVELWNTIANIMPFYQKNFGIDGARLDMGHALPKELEHMIIENAKKYDPSFAIIAEELNMDNHIKAKDSGYDGILGNSWWTEPRYKEGWLKKVVSDIMVNISLPAFATSETPDSPRAVTRDGKELFSKMSGVLNTFMPNGITFINSGYEIFEKQPMNTGLDFDNPIEQKFENLKPTDQFYGKLAFFDWYALHWNVDHHMVKLLKLLGKIKEEHKNLLLKSENYKFIDFGNDAFVMFWWNGEEGIVIPVNLNKEHPFYFDINLGYYTWRGYHKVKTLIENYRRGESEWEVQDGTLKVGINPFEARVFLIK;locus_tag=LOCUS_06310;note=WP_010865200.1 DUF1923 family maltosyltransferase (Thermotoga maritima) [pid:50.2%25%2C q_cov:89.9%25%2C s_cov:93.0%25%2C Eval:2.7e-165],MGA_636
sequence1	MetaGeneAnnotator	CDS	709334	709618	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNCAVFYGDYVGVVDIRSISEHFKKGFAKKVVLFIGREPVKKAAEMLKENDYIEVKIVKKPSKSAKEYFKSLNNSFLSDLNEFGERAMMFDPC;locus_tag=LOCUS_06320;note=MGA_637
sequence1	MetaGeneAnnotator	CDS	709605	711227	.	+	0	ID=MGA_638;product=LytS/YhcK type 5TM receptor domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048252.1;translation=MILVNESFILKMLERTGLIVLLIYIVLRLPYTKKLFIKDHEKKLKINIFIGISGGLIGIVGTLLGISYKTAITNYRDMGVIFAGFIAGIPGGLIAGLISGTHRFFMGGITNVPCSLATISIGIIAGIYSEKFGEEIFNPISSIFFTATAEIYHLFLVYLIVSPKELAFEISTKFMPPMVLSNSLGVFLLSSIYYSLLKENELLQSKAVISIFKIFEKSTFLINGMKEEFLQSFSKETIKNTMFTDFFIIKDNKVISSYGEIKRNIKISEFEKTILKKQKIHYLKNGKQEKINSNNLKFFSGIFIPLKDENILLEFIKNKSNFISDSQITVAKLIGDFISLQLKIHRANNIRSEMEEMRYRDLLMKTNPHMIFNVLNTISYLSDKEPLKVKELCYSLGNFLRNNVDIEKPLIDLKKELNILDNYIDIMRVRYEDMIEFDFKINAEDSMQLPAFTLQPLVENSLKHGMIPDKKLKISITITQKSNGFKIIIKDNGKGSNSNKEGFGIKSIRKRYENIYHNKVKINTSSFLFSGMVVTIDVGG;locus_tag=LOCUS_06330;note=WP_012048252.1 LytS/YhcK type 5TM receptor domain-containing protein (Clostridium botulinum) [pid:25.7%25%2C q_cov:97.2%25%2C s_cov:97.8%25%2C Eval:2.7e-48],MGA_638
sequence1	MetaGeneAnnotator	CDS	711231	711926	.	+	0	ID=MGA_639;product=LytTR family DNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902128.1;translation=MKLKTIIIDDEKYAREALKDLLLNFDLFEVVKEFQSATQALKELYKIQPDIIFTDIEMPGLKGTEFADIIKNFDTKIIIISAYTEYSIKAFELNIFDYLLKPVSIERFSKTVEKLQKELKFKSIEKLPVKNDEGIEFIDLNDIKYFESFDKTLIVYHNKGKSEVYKYKISEIESITKNKILRVHKSYAVNIEKIIKFGHLIGKSWFVTLNTGEKVHVSKTYVENLKKRLNL;locus_tag=LOCUS_06340;note=WP_005902128.1 LytTR family DNA-binding domain-containing protein (Fusobacterium nucleatum) [pid:32.6%25%2C q_cov:97.4%25%2C s_cov:97.9%25%2C Eval:2.1e-28],MGA_639
sequence1	MetaGeneAnnotator	CDS	711968	714574	.	-	0	ID=MGA_640;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082381.1;translation=MAMIQKKNYFLRHIIMIIVVLIILFPIIWVVSTSVRRDNAAFSSKLFSNRLTMRNYTELLFPKPTVPELIKDLNDVTAYIDEYNSYTTEQAIKRSNEDINKLFNYLDMSKENLNNVEKNYESVLSTFIEEKESILKDLNEIRETDFAYFNKKLSDLNKKLNEYGYNLETSKLDTLIKNYLSQRKKTYEFLIQYKGNNDKYYSETESLLFKVPLKTTLWKIKTYRKWKREENTDFINNIGTEVSNLESSWKKVDSEIKILSNKINTFVQEKFGITLKTISDNEEKIKNYETIQSKLKNELNNTEVSLNKIKVKVKAITDVYFLNKSKIKAAYDVIKSTEFKGGELPKTGSDGNFYLLVQKYKDILPDIYSSAKNIDSLNKNGFVETVKLYDEIFNFLYSNFSGIYSLRNNETVMPAYETLKSSAEKMAISLSEIKMIINQYKDNYENKLELISMDNKLTNEINKASNENEVLKENEKDKLDFVNEIQELPNLIFVKDFTNENIKTLNEAYYYSIFLKSKFYSKYIPERNKYFLFSAYNNLKESKNRFLSGKEKMETLISKMSVQLTFLKNNIKNIVKLNYGGNVTNIKSIEIMTDLYNTKYGNANADLSRASRIVSDFSEKLKYGNLKSILKKIDKYLYNFSMDWKKWLRKPFVRWMLNSIIVAGLTAFLTVLMTSMAAYPFSRMRFVGRKQGLLFLMIIQMFPAIMSMVALYKTLKFIGDYNPFIGLDTIGGLIFVYLGGIAYNMWLFKGYYDTIPDSLEESAMIDGATRLQTFWKIVFPLSLPIISVVTILAFMGIFNEFLLANIILQREEIYTYALGLRSFTTGPFETEWGMFTAASMIGMLPMVTLFLVMQKWIVGGLTQGSVKG;locus_tag=LOCUS_06350;note=WP_004082381.1 sugar ABC transporter permease (Thermotoga maritima) [pid:33.8%25%2C q_cov:99.8%25%2C s_cov:99.9%25%2C Eval:6.5e-122],MGA_640
sequence1	MetaGeneAnnotator	CDS	714574	716295	.	-	0	ID=MGA_641;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082382.1;translation=MKKFLKFLMWGGVAILNAILVWFTFMLFALGNYSLAVTLGVFVAIADWAIFSKKGYPYRYTIAALFFLFVLTIYPMYYTIQIAFTNYGTGHLFSRDQAIETLLTDTRFLYSPNNAEIYDFKIFVKYDEQYKPTEDFLVLLYNKEKSFLAKKPQNIQYDAKGNVKYAESELMPLKNDVFDETYKIIKNKEGKIIAIDNGKIKYTYFYGFDDPSVSSNSAYYNSVIRQKYLKVINLKNGKKSFRLSSDYVYRKFSESYRVYEAISKTNIIEGRKVTKTQILNTLTNTILEDKDGAFWDYDKNGVSTRLIGYVEGVGAYNFKKILTDPKIAGPFFKIFVWTFTYAILSVIFSFIIGLALALALNDKNMKGRMIYRTLLIIPWAIPVFISVLVWRNGFFNETYGIINKIFLAKLGLEPIKWLNDPFWAKISILIVNTWLGFPYMMTVTLGALQSIPGELYEASSIDGATKWKQFSKITMPLLMVSVAPLLVMSFAFNFNNFVGIYLLTGGGPALPNSNTSAGATDILISFTYKLAFEGRKGQDFGFASAIAIIIFGIVSIISYFNFKFSKAFEEVSR;locus_tag=LOCUS_06360;note=WP_004082382.1 ABC transporter permease subunit (Thermotoga maritima) [pid:49.7%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:4.7e-155],MGA_641
sequence1	MetaGeneAnnotator	CDS	716452	717654	.	-	0	ID=MGA_642;product=maltose/maltodextrin ABC transporter substrate-binding protein MalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_024103758.1;translation=MKKTLLLALVVIFSVLSVFSESIVIWASEKQVDFMKKIGAQFTKDTGINVDVQFVNFGDIKSKFLTASQAGEGPDIIVGAHDWVGELVKNGLLDPLPTSAIEMDKYAQSGINAFTVNGKLYGLPYAIEAVALIYNKDYVETAPKTIDDLLKTAKEYTTDETLGFVYDVNNFYFTYGFLKGFGGYVFNWSKENGYDVHDIGLNNEGAIKGGNLIKKFMDDGIIPAGANYNTMDSMFKDGLAAMIINGPWSLKGYIDAGIDFGVLPLTELELEPGKTAKPFVGVQGLMVNAKSKNKALAKEFVINYLATKEGIYNFYVADPRLPARNDVLDIIKEKGGPIPENIVEEFIKSAAGGEPMPNVPEMGMVWSPMADALNNITSGNQSPEQALNDAVSKIKSSMSK;locus_tag=LOCUS_06370;gene=malE;EC_number=7.5.2.1;note=WP_024103758.1 maltose/maltodextrin ABC transporter substrate-binding protein MalE (Thermotoga maritima) [pid:55.4%25%2C q_cov:97.2%25%2C s_cov:97.4%25%2C Eval:4.1e-120],MGA_642
sequence1	MetaGeneAnnotator	CDS	717876	718757	.	-	0	ID=MGA_643;product=UDP-N-acetylmuramate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082230.1;translation=MNLIKDLYLNGCDVKKNEPLKNHTNFRVGGKVSYFIEPRTKESFIYALKKLKNEEYKIIGGGANIIAKDEFHDFFVLSTKNLSNYKLKGEKIIAECGVSITRLSKISCENNLSGLEFASGIPGSLGGAIFMNAGAYGGEFKDVVESVEIFDVNEEKIKTFSREDMKFDYRSSIVKNLKIIVLSAVLKLNIGNNVEEKTKELLEKRWERQPLDMPSAGSIFKRPKPDFYVGTTIEKLGLKGFSIGDAQISEKHAGFIVNKGNATFEDILNLIKLVKNKVKILYNMNLEVEPEIW;locus_tag=LOCUS_06380;gene=murB;EC_number=1.3.1.98;note=WP_004082230.1 UDP-N-acetylmuramate dehydrogenase (Thermotoga maritima) [pid:46.7%25%2C q_cov:98.0%25%2C s_cov:95.7%25%2C Eval:4.4e-67],MGA_643
sequence1	MetaGeneAnnotator	CDS	718860	719828	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLSVIMICRNEIKNIKSVLDSFYEQSYVPDEIIIVDGMSNDGTYEYLKTQENNFKNLKVLQNKQMYTPHGLNMGIKNSSSDYIMIAGAHTKYNNNYIKSIKEYLDIHKDIGIVGGVSKGTPSKETLLAKSFADSYSCIFGVGAKHRVFNTEQEVDTVAYAAYRKELFEKYGLFDERLLRNQDIELNYRFRKNGIKIIMLPIENKYLAPNSLLKFIKKNFDNGYWNFITLKLTPHGISFRHFIPMFFVLFLILFLSLFSINIIRNILLIPMAFYILLDVLFSLKEKNLFLLIIFPILHISYGFGTLISLIKNFKIKSEVSK;locus_tag=LOCUS_06390;note=WP_010965644.1 glycosyltransferase family 2 protein (Clostridium) [pid:24.4%25%2C q_cov:62.1%25%2C s_cov:82.7%25%2C Eval:3.3e-10%2C partial hit],MGA_644
sequence1	MetaGeneAnnotator	CDS	719825	720454	.	+	0	ID=MGA_645;product=uracil phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081012.1;translation=MKNLHVVEHPLIKHKLSIMRNKDTGPKEFRELLNEITLLLTYEASRKLPLNEYDVETPIQKTTGYAVDDKKITIVPILRAGLGMLDGIMELVPNASVGFLGLFRDPKTLEPVEYYSKFPEFTENHHIYIIDPMLATGHSMNAAIEIVKKNNGKNITVMSLISSPEGVKEVLDKYPDIEIYTAALDEKLNDKAYIIPGLGDAGDRLFRTK;locus_tag=LOCUS_06400;gene=upp;EC_number=2.4.2.9;note=WP_004081012.1 uracil phosphoribosyltransferase (Thermotoga) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-76],MGA_645
sequence1	MetaGeneAnnotator	CDS	720493	721995	.	+	0	ID=MGA_646;product=murein biosynthesis integral membrane protein MurJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082614.1;translation=MSELLTHSILFGIATLISRLLGLVRDAAFAHYFGRSEAFDAYTIAIMLPFFLRRIFAEGALSSAFIPLFSRKGKKESQKFLSTTIWLMLFSTSIIYIFVLFFSKDLAFLLGSGLSKDALNLSSNLMKITYPFIIFISLWAIISGVLNTKKVFFTPAVAPALTNITTIMGIFFSFLFLPKILGPVIGFTLGGLFQFLFVIPSLKKTGYSITFEFEKKYVKEISILFGPALLGVAVTTLNTLVDQNIATWTGTGGVSTIQYASRLYQLPLGIFAVSVANSLLPKLSKAVHLKDEILYSKHLKDSIEIIAFLTIPSAVGLFLLSNGLIGLIYQHGNFTQADTIITGKTLAMYAIGLPFYSLYSIFVRTYHSKLNTKLPTIISIIMLIVNASLNLIFIFYIKTGIYGIALATSLSGALGMIISMIPSIQHIKLNTILEIIKITIASSLMGAFILSTQTIFNSKILLLIQIFISTLLYFGFAYLLRIKNMHQVINIFLKKISSSK;locus_tag=LOCUS_06410;gene=murJ;note=WP_004082614.1 murein biosynthesis integral membrane protein MurJ (Thermotoga maritima) [pid:35.0%25%2C q_cov:96.4%25%2C s_cov:97.7%25%2C Eval:5.0e-73],MGA_646
sequence1	MetaGeneAnnotator	CDS	722089	723876	.	-	0	ID=MGA_647;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKRLPIGRSDFKSLIEDNMYFVDKSLLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKDLKIYKEKKIIEKHLNKHPVIYITFKDLKSNNLKKMHALLTMELSRLYTKHEYVLKVLNKREKAVFNKIMDREALDADYENCIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEESEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIRPYWMNTSGNYLVKQLIKQGSAELKDKIEKLINGEEIESTINETMVYGDLNNNLEESVWTLFLFSGYLKWTKNINHDYERYTLKIPNKEVKIFYNKTVVSMLEEERIKFDNMLLNLKVGRIKTFTDQFKDLTMNTLSYFDVSGKEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNRDEDKSLKDSAQNGLKQINEKKYEEEIKSYGINDIIKVSIAFDKKEVEIVSNLDKGIELTPEEKIAKELLKNGVDIEIISKTTNLSIEKIKNIHGQL;locus_tag=LOCUS_06420;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:36.2%25%2C q_cov:91.8%25%2C s_cov:98.7%25%2C Eval:4.5e-100],MGA_647
sequence1	MetaGeneAnnotator	CDS	724257	724784	.	-	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGVSGLEDGAKSIFPNVIVQRCIVHLIRNSLKYIPSKFYKSFTSSIKKFYTAPNLKTAQSEFELFKVAWSQYPGAVSVWKRKFHFVEQLFYFGSAVRKIMYTTNPIESVNSSFRKVVKKGAFPNEKALFKLIFLRINELYSKWNSRPVPNWALVRNQLDTDPRFQSRFRYFSDF;locus_tag=LOCUS_06430;note=WP_014748779.1 IS256 family transposase (Enterococcus faecium) [pid:62.4%25%2C q_cov:97.1%25%2C s_cov:39.5%25%2C Eval:1.4e-56%2C partial hit],MGA_648
sequence1	MetaGeneAnnotator	CDS	725051	726268	.	-	0	ID=MGA_649;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELMVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPLIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARFHNWNAVISELAILFEERLKDYL;locus_tag=LOCUS_06440;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:44.9%25%2C q_cov:93.6%25%2C s_cov:95.7%25%2C Eval:6.8e-99],MGA_649
sequence1	MetaGeneAnnotator	CDS	726330	726698	.	-	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAKGMSQRDISSTIKDIYGFEISHETVSKITDNILPKLQEWQNRPLKKLYTFVFVDCMYVTIRKDYEVKNYALYTALAYDANGVKDILGIWLNESESKHKWMQIFDELKARGVEDIESVKY;locus_tag=LOCUS_06450;note=WP_002298157.1 IS256 family transposase (Enterococcus) [pid:67.5%25%2C q_cov:95.9%25%2C s_cov:27.2%25%2C Eval:5.8e-46%2C partial hit],MGA_650
sequence1	MetaGeneAnnotator	CDS	726752	727108	.	-	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKEVLGIYIGEIESSKFWLRVLNDLKNRGIKEGV;locus_tag=LOCUS_06460;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.1%25%2C q_cov:98.3%25%2C s_cov:29.3%25%2C Eval:2.6e-30%2C partial hit],frameshifted%2C insertion/deletion at around 727161,MGA_651
sequence1	MetaGeneAnnotator	CDS	727159	727467	.	-	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEP;locus_tag=LOCUS_06470;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.3%25%2C q_cov:69.6%25%2C s_cov:17.9%25%2C Eval:3.5e-14%2C partial hit],frameshifted%2C insertion/deletion at around 727161,MGA_652
sequence1	MetaGeneAnnotator	CDS	727416	727655	.	-	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRKRNLKREKIVRDFIKEFKIETAEEAQEQVSKRDHKKICVNKKIKPSSWDGKIKPGRRFLKWKEGKKKKKKKATLKN;locus_tag=LOCUS_06480;note=MGA_653
sequence1	MetaGeneAnnotator	CDS	727894	731658	.	-	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRMRKIILIMIITLIIFQMNGCSAEKEEIKQPKKPPYVKIEGIKSKEQKIDYIYNIKRYEVTFEEYDKYCEETGAEKPKDEGWGRGKRPVINVSWYDAIKYCNWKSEKEGLPKAYDEEGNLLDNYGKETTDPLKAKGYRLPTEAEWEYAARGGKESKGYEYSGSNDIDEVAWYWNNTKETQEVGTKKPNELGIYDMSGNVWEWCTDWYEKDEKVIKGGSWNDEKEILSIDYKNEYEPDIKRSFLGFRVVKVNYYKPKIEEIGDKEINEGKKLEFEVKGTDEDGDELKYEAKGMLEGAKFKGNKFEWRPTYEQSGNYKVIFKVTDGITDVYKKVNIIVKNKNRKPKIKEIGDKEINEGDKIEIEIKGTDEDGDELKYEAKGMPEGAKFKGNKFEWRPTYEQSGKYEVTFKVTDGVIDVYKKVNIIVKNKNTKPKIKEIGDKEINEGDKIEIEIKGTDEDGDELKYEAKGMPEGAKFKGNKFEWKPTYEQSGKYEVTFKVTDGVTDVYKKVNIMVKDKMTYIKKGTFKMGSNNGYSDEKPSHKVELTYKFLIGNYEVTFEEYDKYCEETGVKKPNDEGWGRGKRPVINVIWYDAIKYCNWKSKKEGLPVAYDSNGNLLDENGNKTTDLSKVAGYRLPTEAEWEYAARGGMQSKGNKYAGSNTVGDVAWHSNNSLGKTHEAGTKKSNELGIYDMSGNVWEWCNDWYDENYYTNSPQTNPYNSVESGYKVIRGGSWHTKSKDTKVSSRNKIIKNYKYNDVGFRIVKTGIVISLISPRNYEIVNEDKIKLKWNVVNDDRRKFMYDVYFGTEKENLLKVSEDQKENSYNLGERKEKGIYYWKVKIKSNKGETFETQIYHFYVGGGILKWKYETGNNVYSSPTIGRDGTIYVGSEDGNVYAIKQNGTLKWKYEIKGWFSFKKGVNSSPAIGADGTVYVGSEDGNVYAIKQDGILKWKYKTGGRVNSSPAIGRDGTIYVGSEDGNVYAIKQDGTLKWKYEIKGWFSFKKGVNSSPAIGADGTVYVGSEDGNVYAIKQDGTLKWSYETKGRVNSSPAIGRDRTIYVGSEDGNVYAIKQDGTLKWSYETKGRVNSSPAIGRDRTIYVGSEDGNVYAIKQDGTLKWSYETKGRVNSSPAIGRDRTIYVGSEDGNVYAIKQDGTLKWSYETKGRVNSSSAIGRDGTIYVGSEDGNVYAIKQDGTLKWLYETKGSINSSLTIGEDGMIYVGSADNKVYAITSESKGVAESAWPIFRQNLKHTGRKK;locus_tag=LOCUS_06490;note=WP_011021765.1 DUF2341 domain-containing protein (Methanosarcina acetivorans) [pid:51.2%25%2C q_cov:26.0%25%2C s_cov:7.9%25%2C Eval:1.5e-93%2C partial hit],MGA_654
sequence1	MetaGeneAnnotator	CDS	731872	732891	.	-	0	ID=MGA_655;product=mannose-1-phosphate guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080489.1;translation=MVKIKAIILAGGSGERFWPLSNSKTPKQFLKIFSNKSLIRETYERLVLKLDPKDIFVITAEKHFDLTKKELPELPEENIILEPIPRNTAPACTLATLVADKNEVVFILPADHYIPDVENFWKTIFKAVNAAKEYDGLFTLGIKPTRPETGYGYIESKNEVEENIFKVKAFREKPNVETAIDFIKKGNFYWNSGMFIWKKDVFFEEMEKYNSNIIKKLKDVDPRNIEKLRKIMPEVEKISIDYALMEKSKKVYTIKSNFSWSDVGNWLSVRELKGYSDENENVKVVEGKNIYVSSKKFVGVIGLSNIVVVETDNGILVANEEKVQKVREIVSELKEKGKF;locus_tag=LOCUS_06500;note=WP_004080489.1 mannose-1-phosphate guanylyltransferase (Thermotoga) [pid:55.0%25%2C q_cov:97.3%25%2C s_cov:98.8%25%2C Eval:4.1e-107],MGA_655
sequence1	MetaGeneAnnotator	CDS	732970	733749	.	+	0	ID=MGA_656;product=mannose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011942876.1;translation=MINEVLITKPILSEKVWGNNELNNLFNYNSETPLGEIWLYSPYKKNESILSGLNSKEVYGKASEIFPNFKLLIKLIYTSKWLSVQLHPNDTMAKKLENEENGKTEAWFFLKDNGRLKISNENKKIIDSLKNNDWNLKEYEMNKNDIAFIPAGTIHTLGPNSMILEVQQSSNITYRLYDWGRKREIHIDKAIKVLENVESNYSISRKSNGFESKYFNFNIIENVEKEGFGVYVSLKDFTTLVLPENIKHKFTGQWFEVKK;locus_tag=LOCUS_06510;note=WP_011942876.1 mannose-6-phosphate isomerase (Thermotoga) [pid:40.0%25%2C q_cov:92.7%25%2C s_cov:90.3%25%2C Eval:1.3e-45],MGA_656
sequence1	Aragorn:1.2.38	tRNA	733772	733846	.	-	.	ID=Aragorn_15;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_15
sequence1	Aragorn:1.2.38	tRNA	733886	733959	.	-	.	ID=Aragorn_16;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_16
sequence1	MetaGeneAnnotator	CDS	734144	735379	.	+	0	ID=MGA_658;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081730.1;translation=MGKKIDEKKIMSELQQINLEQLEESDGEMVIKVHKKNKKIKDINKIIKSLKTKAKKNKNILTYSDIDETIPANFADEISSEFIEKIYFELEKSGISIVEDINVPEDEEIENTEEDEELKILENVELKMYDNISLGDPIKIYLKEISKVNLLSTARERQLARRAQKGDKHARDELIKANLRLVISIAKRYTGRGLSFLDLIQEGNIGLIKAVKKFDWRKGFKFSTYATWWIRQAITRAIADQARTIRIPVHMVETINRMNKLIREYLQKNGEYPSNEELSVLMDKSVEKINEILISAKDIISLNSPISSGNGDDDESETGDFVGSEDLTPEEVAQQMILKEKLEEILDTLHPKEALVLKMRYGFLDGKQKTLEEVGQFFNVTRERIRQIETKALRKLRHPSRSSQLKDIVDG;locus_tag=LOCUS_06520;gene=rpoD;note=WP_004081730.1 RNA polymerase sigma factor RpoD (Thermotoga) [pid:56.9%25%2C q_cov:99.5%25%2C s_cov:98.0%25%2C Eval:9.7e-117],MGA_658
sequence1	MetaGeneAnnotator	CDS	735411	735995	.	-	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVILVVFALAMAIGIFAADPINFNYNGNDWVSNGNVDKTANVSISVYQWIYANVQGNSLTITKPGELKDQKIVDFVVASNDEVVMNIDTNIDDIEGLDITRLQFWHKNVQTGNVYTKDYGKTIDRIVYKPRIIDNGDGTYKFDEFALNADFDVALTLKAAGGNKNPNADDSVSTQDPYILNVNFHFEPTTTF;locus_tag=LOCUS_06530;note=MGA_659
sequence1	MetaGeneAnnotator	CDS	736245	736517	.	-	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINLTNIKKIALIGASNNEEKYGYKIMKNLIKKGFEMYPVNPKDEEVVGVKAYKKISDLPKDVQLIVFVVPAKIGINSAKEAYESGFKKL;locus_tag=LOCUS_06540;note=WP_004081702.1 CoA-binding protein (Thermotoga) [pid:48.8%25%2C q_cov:91.1%25%2C s_cov:62.6%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [736245:736247](-),MGA_660
sequence1	MetaGeneAnnotator	CDS	736510	736944	.	-	0	ID=MGA_661;product=SUF system NifU family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081568.1;translation=MSIEDLYTDIILDYAKNKKFKKEIKNAWHEHGKNLSCGDELELYVKLEDGVIKDASYTGHGCIVSQASASIMCESIKGKKLSEAKKIVQNVLNMAQGNEYNEEVVGDIEIFEDISNYPMRVKCFTLSWHTFDTVLKNAEVKKDD;locus_tag=LOCUS_06550;note=WP_004081568.1 SUF system NifU family Fe-S cluster assembly protein (Thermotoga maritima) [pid:44.7%25%2C q_cov:91.0%25%2C s_cov:95.7%25%2C Eval:3.0e-30],MGA_661
sequence1	MetaGeneAnnotator	CDS	736949	738145	.	-	0	ID=MGA_662;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081567.1;translation=MLLKVRSDFDSLSKKVNGKDLIYFDSAATTLKPNRVVEAIEDYYKNHNSNVHRSPHTLAGEATTMYEDARDAVANFINAKREEVIFTKGTTESLNSLAYSLSKDLNGEVLISTLEHHANFVPWQQLFDNVIYYDAENGVFNEEKYLKLVNKNTSLISITGQSNVTGQEINIKNLVLKIRKINKDVIIVLDGAQLIPHSKIDVKELDIDFLAFSGHKMLGPMGIGVLYGKKYILEKMKPFLYGGEMIDQVSIEKTTFNVLPYKFEAGTPNVGGAIGLAEAIKYLESLNVNEVYSHIKELTSYAIKKLSELDFLDVYGTKDTNHNSLISFNVKNVHPHDVANLLNDLYGIAIRSGHHCAQPLMKNLNVHSTCRASFYIYNTLEEIDVLIEGLKKVNKILG;locus_tag=LOCUS_06560;note=WP_004081567.1 cysteine desulfurase (Thermotoga maritima) [pid:49.9%25%2C q_cov:97.5%25%2C s_cov:97.1%25%2C Eval:7.7e-111],MGA_662
sequence1	MetaGeneAnnotator	CDS	738123	739310	.	-	0	ID=MGA_663;product=SufD family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081566.1;translation=MKTIFEKPINMVHKNFKGIEPEPKQIKSENDYNETELQMAIEYTENEDMKKYRKIKFEAYKKWDFPIWKRARLKGYDPLKYTPCKSQIDNIDEEGLEILSKYGFEGAHRKYLLMAETFYNTGYYIKTNENEIAETKVIQYNTETSVYENTVFNIKKNSKLTVVRVFKTKSDIFRTTALKGRLEENSELTIINVNILNDENISIDNAMFDIGKNAKIKVFDLNIGGKLAVPHYIFRLSEKNGQAEMKPYFLGNNETIIDMLYLMKFYAPDTIGKIYGKGALKDKSKVIFRGFLDLKKGAKEATADESEYTLLLSPKAKAEAIPSLLVDENEVNAAHAASVGTIEEDKLYYLMTRGFSKDEAKKLISFGIFEPVIEEIEKYHPSTAEVITNVIKSKI;locus_tag=LOCUS_06570;note=WP_004081566.1 SufD family Fe-S cluster assembly protein (Thermotoga maritima) [pid:34.4%25%2C q_cov:97.7%25%2C s_cov:99.5%25%2C Eval:7.2e-61],MGA_663
sequence1	MetaGeneAnnotator	CDS	739323	740729	.	-	0	ID=MGA_664;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081565.1;translation=MTDFNMEELLIDQSRFDFRNPEVYAYKSLPGLNKKIIEEMTFQKEQPKWLLEKRLKALEIFKTIKDPNFGVDVSGLDLNKIIAYIKPKGKKSNTWEEVPDEIKDTFEKLGIPEAERKALAGVGAQYDSEVVYQHVQDDLKKLGVIFMDMESAVKKYPDLVKQYFMKAVPPTDHKYAALHGAIWSGGTFLYVPKGVKVPLPLQAYFRMNNPGMGQLEHTIIVADEGAEVSFIEGCSAPFYNTTNIHAGMVEIYVRRGARVKYVTIQNWSKNTYNLNTKRAMVEEDGIMEWVSGSLGSYKTMIYPSSILIGRGAKTEIKAITYAGANQHMDAGSKVLMLAPHTSATVDARSISVAGGWSFYRGWLKVNEKARGAKASVECQALMLDNESKSDTVPLIEVYNDDADVGHEAKIGRIKQEQIYYLMTRGLSEAEAKAMVVRGFVEPFSKELPIEYAIELNRLLNLEVESSIG;locus_tag=LOCUS_06580;gene=sufB;note=WP_004081565.1 Fe-S cluster assembly protein SufB (Thermotoga) [pid:68.9%25%2C q_cov:98.9%25%2C s_cov:99.8%25%2C Eval:3.7e-192],MGA_664
sequence1	MetaGeneAnnotator	CDS	740734	741489	.	-	0	ID=MGA_665;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000136057.1;translation=MNTILEIKNLKAKTVDDGTLILKGVNLKINEGEIHAIMGPNGSGKSTLSNVIMGSPKYEVVEGDILFKGKSILGLSTDQRAKLGLFMSFQSPESVDGVKMRQFLLNSYRNINTEDEITALKLNKKILNFSDTVKLNKDFLNRYVNTGFSGGERKKSEILQMGLLNPSLSILDEIDSGLDVDALKIVSESINKFKTEKMGILMITHYQRILNYVTPDFVHVYANGTIVKTGDATLAKEVEENGYAFLETVEE;locus_tag=LOCUS_06590;gene=sufC;note=WP_000136057.1 Fe-S cluster assembly ATPase SufC (Leptospira) [pid:57.2%25%2C q_cov:98.0%25%2C s_cov:97.6%25%2C Eval:2.2e-74],MGA_665
sequence1	MetaGeneAnnotator	CDS	741657	742652	.	+	0	ID=MGA_666;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_062822608.1;translation=MNINPLVDFAFKVIFGSEKNKDILIDFLNALLKEENKKIESLDILNPYTEKTAINDKLSILDIKAKLDNGTYVNIEVQLINEKNMIKRTLYYWGKMYTEQLKKGKSYISLERTITINILNFNLLKTKKYHSIYRLKDIKENTELTDVMEVHFVELPKIETEEANLNDKLIEWLLFLKEPENTNMEVITMKNKEIKKAMTVLEFINSDRIAKELYEAREKELMDKIDQQLYAEEVGMKKGFQKGLKKGIEQGIEQGIEQGIEQGIEQGIGKGIEQGIKQEKLIISKKLLKKKFGNKMDNLIPKLDTLSIEKLDEIISNIFDLTIETLKNKIK;locus_tag=LOCUS_06600;note=WP_062822608.1 Rpn family recombination-promoting nuclease/putative transposase (Bacillus cereus group) [pid:38.9%25%2C q_cov:82.5%25%2C s_cov:87.2%25%2C Eval:9.0e-51],MGA_666
sequence1	MetaGeneAnnotator	CDS	742698	744107	.	-	0	ID=MGA_667;product=basic amino acid/polyamine antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949127.1;translation=MSNNKVLGLFALITLVIGSMIGAGIFNSPADLGSVANPGAIFIGWAITGFGVFSLAMVFYFLTMKKPELEGGIYTYAREQFGEFIGFNAAWGYWWAALLANIAFFAVIMKILSGYFPILETNKIYAFIFSSIILWIYHFLIISGIKTAGITNAVLTILKLIPLFIVAIFSLFAFKPDLVKEFFFSTTLASTGEYSSIWHQINNSFGTMLWSFVGIEGAVVLSNKAKSKKDIGKATIIGFLITLFVYVSVSTLTMGIVPVKELVSSTSPLGTVLKELIGPFGKYLLDFGFLISVFGALLSWLLLTSEIPFIASKTDNVFTKNFSKQNEHATPIFSLTITNILTQIFLLFLMSKTLQGVYNTIFYISTTTLLLPYLTSSIFGANVAFKEKSGIFKFFSIVAIIYTIWVIYAVGIVYVLTAIVIYATGIFIYPKAKKERNLNLTKNEKLSYFIMDSIAVIVIIMVIFGKLSV;locus_tag=LOCUS_06610;note=WP_011949127.1 basic amino acid/polyamine antiporter (Clostridium botulinum) [pid:47.1%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:3.2e-119],MGA_667
sequence1	MetaGeneAnnotator	CDS	744283	745518	.	+	0	ID=MGA_668;product=beta-ketoacyl-ACP synthase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080861.1;translation=MNRVAVTGIGTINSIAKNTKEFSESLKNDVVGIDMITQFDTSDHKVKIASEIKNFEPKNYMDKKVAKRYDRFLQLALVASKEAIEDAKFKNDDWKENTAVIIGSGIGGFKTLFSEFEKFSKKGAKMVSPFLIPMMIPDMVSGAVAIEHKLKGPNFSTVSACASSLNAIANSAMLIKHGYINVAVTGGSEAVISPMPIAAFANMQALSTRNDDPKTASRPFDKDRDGFVMGEGSGILILESEEHAKARGAKIYGYIDGFGLSGDGYHISATDPEGAGAVKAMEMALKTANAKPEDIDMINCHGTSTPVGDVSEIKAIKQVFGSHTEKLLVQSTKGHIGHNLGAAGAIELIAVILQSNEEFIHGMPTIQNIDGKFEDLNITLKTKNGKVKKILKNAFGFGGHNASILFVKEDN;locus_tag=LOCUS_06620;gene=fabF;EC_number=2.3.1.179;note=WP_004080861.1 beta-ketoacyl-ACP synthase II (Thermotoga) [pid:53.9%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:1.5e-122],MGA_668
sequence1	MetaGeneAnnotator	CDS	745518	746360	.	+	0	ID=MGA_669;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583151.1;translation=MGRIGIVVDNTSNIPNKLINELGIGCVSLYVIRNNKYVRASDVCQTKFYDEIKKSVYIPHTSQPSVADFESIYKNMINKYDEIISLHISSKLSGTYNSATLAAKLIDSEKIHVIDSKTTSWGLGYLAIEIKNIIDKNQYSTKQIIEYAKNFYKKTKVFFSVGDLNYLYKGGRIGKAKALMGSLLNLKPLITLENGELSAVRSLRGNKNLFNEMIERSFDFSGKLKKISLIHTGNLKLAGDLKDMLISRKISEDIINISYLDIIIGTHLGPNSVGIITHFE;locus_tag=LOCUS_06630;note=WP_012583151.1 DegV family protein (Dictyoglomus turgidum) [pid:33.6%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:9.8e-37],MGA_669
sequence1	MetaGeneAnnotator	CDS	746373	746789	.	+	0	ID=MGA_670;product=3-hydroxyacyl-ACP dehydratase FabZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080862.1;translation=MNIDEIMKILPHRYPFLLVDKVLSIEENKIIALKNVTINEPFFQGHFPKYPIMPGVLQIEGLAQTAGLLFMKDLKEDVVPLFIGIDKCRFKKEVRPGDTITYELEVMAEKAGVYKLKGIVKCEGKVCTKAEIMVGIKK;locus_tag=LOCUS_06640;gene=fabZ;EC_number=4.2.1.59;note=WP_004080862.1 3-hydroxyacyl-ACP dehydratase FabZ (Thermotoga) [pid:55.1%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:3.0e-42],MGA_670
sequence1	MetaGeneAnnotator	CDS	746802	747689	.	+	0	ID=MGA_671;product=ketoacyl-ACP synthase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880686.1;translation=MKVLQIGAYIPENILTNEMLSERFNVSTEWIYKRTNIKKRFLSNTSILDMGIKASKNLDLNGVDAVLFASSIGPHYVPNYVSAFKALNIKTAKYGIDISNGFVGFITAVHTAEIMMKEKLAKRVLIIISEKLSDLTDKNDINTAILFSDAAIAMVVETENYDYEHKTNYDYSLYPALNVNKDKKIEMNGKTVYRFAVKNMNEIIKKFLTSKTKLIVPHQANGRILNSVSKQFSGVKFLNYIEETGNTGAASIPLALYKYYGNKSFSLKNHILVSVGGGMTASGITWRCFNEDSNN;locus_tag=LOCUS_06650;note=WP_010880686.1 ketoacyl-ACP synthase III (Aquifex aeolicus) [pid:32.6%25%2C q_cov:96.6%25%2C s_cov:96.8%25%2C Eval:1.4e-31],MGA_671
sequence1	MetaGeneAnnotator	CDS	747670	748590	.	+	0	ID=MGA_672;product=enoyl-[acyl-carrier-protein] reductase FabK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080864.1;translation=MKTRITELLDIEYPIIEGGMAWVGTGTLAAAVSNAGGLGTIGSGSMTPEILKQHIDIVKSQTNKPFAVNIMLLNPYVEELIKLVLSEKVPVVIFGAGNPGKYIKKLKENGIKVMAVVASENLAIRLERNGVDAIIGEGMECGGHIGDVSTLVLISKLAKMLKVPLIAAGGIADSTTAAATFMLGAEGIQMGTRFIATPECEAHQTYKDLVVKSGIRDAVVTGSKIGHPARVIKTKFAKKIKELEMASPEEAEKMMVGSLRKAFIEGNKEEGSFMAGQSCGLIESIKPVKNIIIELNKGLEEKLEVK;locus_tag=LOCUS_06660;gene=fabK;note=WP_004080864.1 enoyl-[acyl-carrier-protein] reductase FabK (Thermotoga) [pid:58.6%25%2C q_cov:99.3%25%2C s_cov:96.8%25%2C Eval:9.0e-103],MGA_672
sequence1	MetaGeneAnnotator	CDS	748590	749468	.	+	0	ID=MGA_673;product=ACP S-malonyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080868.1;translation=MKAFVFPGQGSQTLGMGSEILKENPEYKIYLKKANDTLEYDLESIIFGDDLEKLTLTQNAQPALLTIGYIYHRYLIEKKEILPDVVAGHSLGEWTALVASGVLNFEDAVRLVHLRGLYMSQACPPGQGTMAAILGMNPEKIKDLLRGFENVVPANFNSSVQTVISGETKEVLEAMTFLKENGAKKVVQLKVSGPFHSPLISNAAEKLQIEVDKVEFKTPSIPIVQNVTAKYENDPNIIKENIIKQITSPVRWVDSVINMNNNGVDKFIEAGPGKVLTGLIKRIVKGVELINI;locus_tag=LOCUS_06670;gene=fabD;EC_number=2.3.1.39;note=WP_004080868.1 ACP S-malonyltransferase (Thermotoga) [pid:49.8%25%2C q_cov:96.9%25%2C s_cov:95.6%25%2C Eval:1.5e-67],MGA_673
sequence1	MetaGeneAnnotator	CDS	749574	750431	.	+	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYLIFLLVISLFIFYSCTNLLSNTGTVKLSITDSPIDGANIKGVYIDVTGISYSMSTGDTGWTKLDLKEEKLFNLLEFTNGDAKIMGNFNLPAGKINQIRFFLDTNKSFIKFSNDSTTTLSIPSGDTTGYKATISGGATIPVNGQIEITADFDVRKSLNLIGNGLYKLQPTIRLIVNNQAGVIKGQITDASTDTTVFAYSNNSYNTSDIEFSSAINSSRLRDNGTFELHYLSAGTYDLVFAKFTTDGTLSLLGGISNIEVKSNQITNVPTTTINNLENVSIW;locus_tag=LOCUS_06680;note=MGA_674
sequence1	MetaGeneAnnotator	CDS	750765	751205	.	+	0	ID=MGA_675;product=OsmC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867668.1;translation=MGKAKFSIKARRASHTKTVIESRDFKLIIDEPEHMGGTDEGPNPVEYLAAALAGCLNVTGHMVANEMGIKIENLEFEVEGELDPRGFMGKANNVRPGYSQMNIKVNVETDADNETLNKWLDIVEKRCPVSDNIQNTTPINLSIIKK;locus_tag=LOCUS_06690;note=WP_010867668.1 OsmC family protein (Pyrococcus abyssi) [pid:43.9%25%2C q_cov:95.2%25%2C s_cov:93.0%25%2C Eval:1.1e-27],MGA_675
sequence1	MetaGeneAnnotator	CDS	751223	752584	.	-	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSVTDGINTTYQNVKIIVKEVDNPPQIEEIKDIVIKEGEKIEFTVNATDVDGDSLKVTAKNLPEGATFNSITRKFEWIPTYEQAGEYNVIFKVTDGITEVSKEVKIVVEEVDNSPVIDEIINTTINEGNILTFTISATDQDDDILTYWAENLPVGADFGEETHKFTWKPYYTQSGQYSITFNVSDGIITTSKTIVLNVLESEEPTTTKNSMVEIKNGSFEMGNGETSKPIHTVILNYDFYIGRYETTFNEYDKFCEDTGKNKPQYSGNRNNYPVIYISWTDANEYCNWLSDKEGLPKSYDSLGNFIDEKGSITTDLAKTYGYRLPTEAEWEYAAKGNENYLYSGSDNIDDVAWYSGNSDSKTHEVGQKMPNNFGIYDMSGNVWELVSDYYGSYSSSLEINPYNIDSTSGNRIRRGGSYNFGAGDAQVTGRKSISITDYGPNLGFRIVRTKK;locus_tag=LOCUS_06700;note=WP_011262010.1 SUMF1/EgtB/PvdO family nonheme iron enzyme (Aliivibrio fischeri) [pid:35.9%25%2C q_cov:54.5%25%2C s_cov:87.5%25%2C Eval:9.9e-33%2C partial hit],MGA_676
sequence1	MetaGeneAnnotator	CDS	752581	752829	.	-	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFLFLMILILILFVGCTEIKTPPPAIEKIGDKIIKENEELNFIVKVKSIEKDNLIYNVENTPKGAIFNGNQIILKVESMM;locus_tag=LOCUS_06710;note=MGA_677
sequence1	MetaGeneAnnotator	CDS	753074	754669	.	+	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLAKKTFVLLFILFSILSIASVSFDIKNFDLSTEQKISIALEHDQYDIGANAAEIIIKLYNFNNYDTLISSLTYSFENNDDEDIYDDDFDDNYDHEYYDDDYNENTEDSTDNNYHLKTPEKKEDPFTIIQETGFDKLLLSLKENLNVIKNIKNIKVNLSNEAAIQFQKKLFSNDTDIYNEPISFDYRDFKLLSLLTSLTNEKPSNNEFLNDLDKVLNQDNEENFNDIMKKYLNKKAFEQFSSMFNEIANLDPEGNTDAFDIINNYLKVFAKNDGEENWLSLKDIFKTNIFDPEKITKNIDEDLNQLKFLLKESFNIYDFENNPIFLNRKNKDFTDILLNKLSIENNEVFKKNKLTYLLDYDLNKKILSIKVNEIIVKTPLEILKELYNSLPYGEFNLYIETKEKNVITKTNLYCNFLKLKSNFEFTDLNLKVSPDIIRYTIGIIFSSLFKNLDDEYLYLLPDMFSLITRDNNDLIFSVKLKDYFILSSRTPNFFSKENIEKIINDFNSPDELTPTETSTNSSETNESN;locus_tag=LOCUS_06720;note=MGA_678
sequence1	MetaGeneAnnotator	CDS	754697	757117	.	-	0	ID=MGA_679;product=ATP-dependent Clp protease ATP-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081598.1;translation=MRFNPEDFSEKALSAIQEANLLAQGNTNNVVTPDHLALAIIETKEPKIADVFYKNNIYHVENQLKNYIHSQNGMYSSNSNQIYLSNEVAGVFNTAKIESNKLGLKKVTLLVLLMAILMEGNSYSAKILNESTDKEKIEEVIKKYIENGEDEEMNESEDDPLKKYTVNLNQRAKAGKLMPVIGRDDEIYRMIEILSRKAKNNPVLIGDPGVGKTAIVEGLAQNIVKGFAPKFLKNKTILQLDLARLIAGSKFRGEFEERLKNVIDEVMKKQNEVILFIDELHTIIGSGAVEGGSMDAANILKPALARGEIKVIGATTMEEYRKYIEKDKALARRFQPVTIEEPSEEEAIQILNGLKESYEKHHGVEITQEAINAAVKLSSRYLNDRFLPDKSIDLIDEACAKVKLAYSESSASLDQMLDNKSKLEEKINDLTLNGKYEEAAKVKIELLDLEKNIEKEKKRENSEISNIVNEEIIAQIIEKWTGIPVTKILSDERKKLINLESEIHKRVIGQEEAVELIAQTIRKSRAGFKNPKRPNGSFLFLGPTGVGKTEIAKTIAEILFNTEEALIRLDMSEYMEKFSVSRLIGSPPGYVGYDQGGQLTEAVRRKPYSVILFDEIEKAHPDVYNILLQVLDDGILTDGKGNKVDFRNTIIILTSNIGSEQIIKSRHALGFVEDAKENYKDMKNEVMKSVEKFFKPEFINRLDEIIVFHPLSKENLKNIIKIQLKDVQNRVSENGMNLEVSEKAVEYLLEKGYNPIYGARPLRRVIEKELETPLAFKIINGNFVEGDNIIVDFEEDKLIFKKQVQS;locus_tag=LOCUS_06730;note=WP_004081598.1 ATP-dependent Clp protease ATP-binding subunit (Thermotoga maritima) [pid:50.4%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:1.7e-225],MGA_679
sequence1	MetaGeneAnnotator	CDS	757602	758609	.	+	0	ID=MGA_680;product=ADP-forming succinate--CoA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869705.1;translation=MKIHEFVGKEILSKNGIKVPKSFLTREKEVQCNILPCVLKSQVLVGGRMKAGGILFSDECNDFKKKLSLLLEKKIKGEKPYGVLIEEKKEIKKEYYLSLILDRTQKDIIIGFSKDGGIDIEDSESLITGNFESIIDKLPVKIKNILPKLRKIFREKDLTLLEINPLAELKDGSICALDAVFHLDDNAIYRQKWAQEFEEETQYPFHYVKLNGDTGIIGCGAGIVMATMDTVKMYGGTPANFLDLGGGANEENTIMALELLKNEGIKKIVMNIFGGITECDVIANAIVNFTKKNKDIKLFIRLTGTNEKKAKKILIENNIPFYEDMYSMIKEGERV;locus_tag=LOCUS_06740;gene=sucC;EC_number=6.2.1.5;note=WP_010869705.1 ADP-forming succinate--CoA ligase subunit beta (Methanocaldococcus jannaschii) [pid:42.9%25%2C q_cov:97.0%25%2C s_cov:97.0%25%2C Eval:1.5e-69],MGA_680
sequence1	MetaGeneAnnotator	CDS	758606	759442	.	+	0	ID=MGA_681;product=succinate--CoA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742632.1;translation=MITGNEKVCVQGITGKSGSFHTKKMKEYGTNIVCGTSKNTNINFVHNVPVVNSVKKAVEIYHADTSIIFVPAKFAREAILDAINNGIKKIIIITEHIPQHDMLEVYKYAKAKNIIIIGPNCPGMILTNISKIGIMPERAFKAGDTAIISRSGTLMYEVSNYISMYSTGVKVAIGLGGDPIIGTSIAEAFDYIIDNNIKKVIIIGEVGGNDEITGIEYALNKQYNGKIKVFFAGRTAPKGKRMGHAGAIIEGFEGSIEYKEEKLFQMGIPVSKSIPELV;locus_tag=LOCUS_06750;gene=sucD;EC_number=6.2.1.5;note=WP_084742632.1 succinate--CoA ligase subunit alpha (Sulfurisphaera tokodaii) [pid:46.0%25%2C q_cov:98.6%25%2C s_cov:98.2%25%2C Eval:5.6e-61],MGA_681
sequence1	MetaGeneAnnotator	CDS	759434	759760	.	-	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFDASNPTDDMNSIKEKEKKFFEIRPFVFILLNKSVFFSIIVVVNHPIKNPLNKTPEVPSFVIFPSINPVKIDKNSKKNGFKNKIFIYLHKKILIKRGIIPLFINLY;locus_tag=LOCUS_06760;note=MGA_682
sequence1	MetaGeneAnnotator	CDS	759714	760643	.	+	0	ID=MGA_683;product=YidE/YbjL duplication;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_207280515.1;translation=MILFISSVGLLASKDIIHVIKKYGLKFIFLGFLITSSGMFFTTILKKLFNANKYIFSGIFTGALTSSPGFASALETSKFHETQVGYGYALGYIPGVLVVVLSMYLLPKIFKINIEKELQNLKNDVKETQYNEKNFDFIAFSLIIIIGIIIGKIKFNFGVVKFSFGITGGVLMSSLFFGNLKQFLGMNFNMNTYILKNIKELGLLIFLSSVGLRYGYTSINSLNSKGILYIISAFIIGFLSLLIGFLFGRYVFKMNWIMLSGALCGGMTSTPGLGAAIDSTKSDDVTAGYGATYPFALIGMVIFVILLNN;locus_tag=LOCUS_06770;note=WP_207280515.1 YidE/YbjL duplication (Thermanaerovibrio acidaminovorans) [pid:40.4%25%2C q_cov:99.7%25%2C s_cov:84.4%25%2C Eval:4.3e-60],MGA_683
sequence1	MetaGeneAnnotator	CDS	760680	761771	.	-	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMIYLILIFVMLGLSSCIKIDIKLPDDTNFSDLTVNQRDNFIRYIYTAYNKGAGYDFDKLKSYADDANYKYDDNVLAFYKYLVGEYTLNDIKTRVPFDGTDKHYDERIITYIKSIITRFQTDVNNTTSTNWFIGTFNEKVPSMPSKYNSSFNYLNPELTTAYDKRTELINRVYDLLKYYYGSDSVYLFGEWFKEYFPTKSLSDTELKEYATYLVDCANAYTNTNLTLNRKQSTTSTFYKEKVIIKDVPVELLLATSIQESRLFPGSFRAEVINDNIYAVSFGLTHTLIDADFLYLSDSNQDIGDDSKGERNFDLLSYWYFGNNRNEETYFSDWDLMTVRGSFLYASTFLELIYQKYISFIK;locus_tag=LOCUS_06780;note=MGA_684
sequence1	MetaGeneAnnotator	CDS	761772	762320	.	-	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNETLKLIKFKNFYVEIVKGDITIEKTDAIVNAANEMLQHGGGLARLIAQKGGIIVERESNDFINSYGELEVGDVAVTTGGNLPAKHIIHAVGPVWFGGNKDEKKLLFNAITNSLKKAEDMNLTSIALPAVSCGIFRYPVELAVPVYKEACEEFDKTNPKSLKTIRFIVFDEGYDKVFLEVF;locus_tag=LOCUS_06790;note=WP_004081432.1 AAA family ATPase (Thermotoga maritima) [pid:44.3%25%2C q_cov:100.0%25%2C s_cov:30.6%25%2C Eval:2.8e-39%2C partial hit],MGA_685
sequence1	MetaGeneAnnotator	CDS	762313	762879	.	-	0	ID=MGA_686;product=thymidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083238.1;translation=MKTGKLVVIVGPMYSGKTSELIQFVEIYSLGKKKFKAFKPVIDDRYDDTHIVSHTNTKVKAFPITNPEEIKNKISGDESAVFIDEIQFFSENLAEVIQELIFNGIDVYCSGLDLTYKNNPFKTTSLIMSYADEVIKKKAVCHECGEYAGTISYKIVENGGEIDVGGFDKYIAVCRNCYVKLKGGNSYE;locus_tag=LOCUS_06800;EC_number=2.7.1.21;note=WP_004083238.1 thymidine kinase (Thermotoga maritima) [pid:60.6%25%2C q_cov:95.7%25%2C s_cov:97.8%25%2C Eval:4.5e-59],MGA_686
sequence1	MetaGeneAnnotator	CDS	762879	763568	.	-	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDLLTHIIFGNRMYKDIKNHKMFNLGLMGPDPFFYVVKDKNYKNAGDKLHNVKYMDFLKELNKISPDYAMGYFLHMFLDEQFHPKIFEVAGSGRKHKKFEVLMDAVYVRKYLNKSFKKLDILSLFPNKLDVDFIVTYDELLMDFYEINSSFKVAHENFIKVIKLLYNHYSLKSIIVYLLALVTFGKINYTNIYYFKEPNESILNKCGFDKLWEKAEKEFIKINERGIF;locus_tag=LOCUS_06810;note=MGA_687
sequence1	MetaGeneAnnotator	CDS	763568	764227	.	-	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDYVAFFDMDHTILTTYAGRLYFKNFYNEGYINRWEILKLVPYPFLYKLGLINMEKITRKVSKKYKGMNRKEIFDFAEETYQKLVKSYIRQSMLDEIEFHKKNNGNLVIISASPRNLCQPIKDNLGFDDLICTELEFKDDIFTGNLGVYCYEENKVTLAENYCKKNGYTLKNAYFYSDSITDMPLLEKVKYPVCVGPDKKLKKMALKRNWKILDGDKK;locus_tag=LOCUS_06820;note=WP_005083519.1 HAD-IB family hydrolase (Mycobacteroides abscessus) [pid:32.1%25%2C q_cov:95.4%25%2C s_cov:72.4%25%2C Eval:1.0e-29%2C partial hit],MGA_688
sequence1	MetaGeneAnnotator	CDS	764386	765033	.	+	0	ID=MGA_689;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005478721.1;translation=MNNTCKICGNKTEEFYDEQMKSYYYYCSNCEFISKAEESILSITEEKNRYNYHNNSIDDIKYVNYFKKFLDTSVLKYVKGKDGLDFGSGPSPVLSMILEKDYNFKMDIYDLFYAPKKVYIGKKYDLITCTEVIEHLKYPMKYFNLFKNLLNKYGILAIMTSFHPKSVEDFHKWYYKKDSTHISFFTENTMKIISKKTGLNLLFTDNKKYSIFNVR;locus_tag=LOCUS_06830;note=WP_005478721.1 class I SAM-dependent methyltransferase (Vibrio parahaemolyticus) [pid:33.3%25%2C q_cov:94.9%25%2C s_cov:95.3%25%2C Eval:8.7e-31],MGA_689
sequence1	MetaGeneAnnotator	CDS	765040	765267	.	+	0	ID=MGA_690;product=YdbC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986552.1;translation=MAELKFEIIETFGTLSESSKGWAKQLKKVSWNEREAKYDIREWSPDESKMSKGITLTKEELIKLKDILNGMDFNE;locus_tag=LOCUS_06840;note=WP_011986552.1 YdbC family protein (Clostridium botulinum) [pid:58.3%25%2C q_cov:96.0%25%2C s_cov:98.6%25%2C Eval:8.5e-21],MGA_690
sequence1	MetaGeneAnnotator	CDS	765260	765646	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNENEFFSTEYPKILEKINKNIYIYLFTKNTILISYFLFLSFIFLFLYLKTYVISFIFVSLSMPLFFLVKKISLNLDYKLNKLNLSLQKFIDLKMMYGKKVGRYLNENSFEKFFSDIKNELNKSNLKF;locus_tag=LOCUS_06850;note=MGA_691
sequence1	MetaGeneAnnotator	CDS	765669	767366	.	-	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNFLEIVVFYLISFLIIYTAFNTIKTDEIILKTNVKNSESIKKTTNYEYVGKETAVISGGYSGIYLFSLKDNKIIKQINTGNYVNSIKIIGSTLYLTDKDGLKIYNINKNSITLLNEYNTFGDALSLLVDKNQIYVGDGKNGIVVFELKPGGFLRLKKHIKINGIVTSMTKYKNNLFVVGPKIGIKIFNEKFNEVGSFTKLFSPIQILANDGKLYLLDRFLGFYTFNIESFFENKVEFKAISYSINSFAFYNNIIYFAASDGIYTLDNKMKKIISGDFSNTKIKIFDDYMYLTRYDKGLQIYDLNTLKLIEQYNKMDSVYLLKGINDLFFAVDDKKIYYMDKNFNILKKEELNGKIIKTNKNIFLLNDDKIIDLYNKKTYEVSALNILDLNETYYVNKEGAFKLKDNSKVLENLVSNILLINKKYYYVKNKKIYLNNKIMYESNKRIIESFYNEGIYILTEDGIDELNLQFKIEKSYNTETKVDKILFSKDKIFISIQDKLIVLNKELKKIKEINFKLPISDIEYYNNKVYISLLYEGIYIYDSDFKMIKKVDTFNAIDIETF;locus_tag=LOCUS_06860;note=MGA_692
sequence1	MetaGeneAnnotator	CDS	767416	767847	.	-	0	ID=MGA_693;product=flagellar export chaperone FliS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080180.1;translation=MYNQNNNTYFENTVRTATPAKLVEMLYSNAVERLEKSKTMIKEKNFTEANKQIIRVEDIINELNVSLDMEVGGEVSKNLRSLYNYMYRRLLEANVKKDIEIIEEVQGLIKDLLDTWKEAMKKSVNTLKEMSANTNKSKFDIQT;locus_tag=LOCUS_06870;gene=fliS;note=WP_004080180.1 flagellar export chaperone FliS (Thermotoga) [pid:57.1%25%2C q_cov:83.2%25%2C s_cov:86.9%25%2C Eval:4.6e-36],MGA_693
sequence1	MetaGeneAnnotator	CDS	767860	768462	.	-	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINVELRGIKNETLSVEPEKFQSFNDMITEYTNETEGILTYLKINDKEIPISYISELQNAHFEGGENIVLEFKPKKDVLMTLCDEALVYLNKVKENSESFSKELLLNTQEGQKMLSALSEGFQSLLKIIEQIEIFSNKKIYSDEDIEKIKKVIESMFKAQEEKDTLELSDIVDFDFEEILKLFEEIFEEGKRLLNESFN;locus_tag=LOCUS_06880;note=MGA_694
sequence1	MetaGeneAnnotator	CDS	768511	769722	.	-	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVYKKKNGDYFEIKPNFIKKILFNQNKSSDSDILEKYSFEVSLKTGDYVWYDNEFNLEKNTEFDKLKINMEYIPFILTLTRINSFLESDKKNMVSVLSTELDHQTQNIIDMESLIYSLNESTDITFLYLKKDGRYIEHHLLFSSYDYQNYFDLFVKFTKKQLLDFYKSLLKELNSFRSSILPEIIDKLTKEYGEASNAKEVSYNYLINKKDEIFNIYDVNLKRILEIDNASDELKEYINYLKFLKTRETREEDFISPEVELDFIIEDMDEIEDKMKEIFDENFDEEEDFIELFDELLSGNSKSIQFEIKDALDELKMFKDDVEKEDVEKEILLKLINYFGKDMILNQFEKLSKLFEFLNLEEDFINIYNVSEDKKINEYKQWYRNLFNDSKNIGKKVSKFKY;locus_tag=LOCUS_06890;note=MGA_695
sequence1	MetaGeneAnnotator	CDS	769733	770638	.	-	0	ID=MGA_696;product=MraY family glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080858.1;translation=MYALSMIFAIILTPLMILIAKKANIVDNPDENLKTHKKSIPYLGGVAVLFSIIPFFIFNISYILPAVLITFLGLWDDIKNVNSKVRLILEFILMGITIYMIYGYIHIVYFFLLMITGVAIINSVNMIDGMDGVCSGITAIALTFFAILGDNSLYYIVFALIGFLIYNKYPAKIFLGDAGSYLLGFTLFYSITSLTQKHGNGGYFISLIIGGVFATDFSFAILRRILNKKSPFSGDREHIYDKLNRRFNSSVPLTVFVLYLISITYGLISLFSWNFPIYGAIISIVTFLILGKILNLYGYDK;locus_tag=LOCUS_06900;note=WP_004080858.1 MraY family glycosyltransferase (Thermotoga) [pid:34.0%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:2.1e-40],MGA_696
sequence1	MetaGeneAnnotator	CDS	770643	772493	.	-	0	ID=MGA_697;product=polysaccharide biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081940.1;translation=MKYLTRRKIILSLVDISIFFISYILSLVLRFQFNMNEMDKYFSSILILPFIMILVYYLFGVYNSIWRFAKLTDLMVVFNSSIIGFLSSFVFVELLRRYVTDFFLLPFSISAMTALIGTFLIVWSRIFWFAKSNGYFKKKNISSKNILIIGAGEAGTEILNEFERHPEFGIVRGFLDDDKNKIGRSIHGYRVYDDTSNIMKYVKELEINEIIISIPSASSKEIKQIFNKIDNKKVLVKTLPSFYEILSNKLSLGFLRDVEISDLLGRKEVNVDFNQIKEYINKKNILITGAGGSIGSEICRQVCALNPKTLYILGRGENSIFKIKRELVERFPELKIEDIICDITNKERMESVFKKFKFDVVFHAAAHKHVFLMEENPTEAFRVNSLGTYELAKLADKYDVKKFIFISTDKAINPTSIMGTSKRFGEILIKSVAKNSKTNFGIVRFGNVLGSRGSVVPIFKEQIKKGGPVTVTHPKMKRYFMTIPEAVALVIQSGNFAKNGEVFVLDMEEPVLIDHLARELIRLSGYVPDQDIEIVYTGTKPGEKLYEELFLNEEDYEKTQNKRIYIARNSTVLKDTEGLVIELLKSIKNDDLDMLQTLIKKYIPDSTAVIRKNIAR;locus_tag=LOCUS_06910;note=WP_004081940.1 polysaccharide biosynthesis protein (Thermotoga maritima) [pid:45.9%25%2C q_cov:97.4%25%2C s_cov:98.3%25%2C Eval:6.1e-148],MGA_697
sequence1	MetaGeneAnnotator	CDS	772471	773736	.	-	0	ID=MGA_698;product=DegT/DnrJ/EryC1/StrS family aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582967.1;translation=MFVPLSKPYITNDEKKYVNNVLDSNYLALGPYLKKFEESFIEFTKSKYCVGVNSGTSALQLILKATGFTKNNGMIVTPFTFISSSNVAIYENGHPVFVDIDPYTYNISIEELKKLIKNGNKITKVPYNEIKSFMGVDIFGQPIDWDEVYKILPNNIDIIEDSCEALGSEYKGKKTGTFGIAGTFAFYPNKQITTGEGGVIITNNEEISKLCRSMANQGRGDSMEWLEHVRIGYNYRLDEMSAAMGYAQMKKINEILLLREKVADNYHNLFKDESRIILPKIEKYTTKMSWFVYVIRLDLNWISKFIKIPNWVKEFKVSEKIDKEEWKKLIYKIKEIHKLFLKKLNEKGVQSKNYFSPVHLQPFYKELYGYEYGDYPITELISSLTVAIPFYSNISIQEQEYVVLKIKEVLEEIENEISYKA;locus_tag=LOCUS_06920;note=WP_012582967.1 DegT/DnrJ/EryC1/StrS family aminotransferase (Dictyoglomus turgidum) [pid:42.0%25%2C q_cov:98.1%25%2C s_cov:99.2%25%2C Eval:2.5e-91],MGA_698
sequence1	MetaGeneAnnotator	CDS	773747	774583	.	-	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLKPFIILIALIFWYIPYLQFIGMAIILFVYHTLIKNRNEHIKKMKEIYNANNWDFPIKNIKMSYIPFILYIISALVIAFLSIDMTNQLIDINPSEYSKIVETYPLWKSITFIISLTVTWISYVFMINGIVKDQWHMQESELHNKIIKSRFIRLREGNVAMIFRIITLNFYEWLLLFNLIRETDMCYIANGTASGDYTKYVQIPKEEIKEDINTLIDNLYIKITNEIEKLNEDEKYSKIFSEVTALKKETAKKILQRLFDEEKINKEDYDRIKTFI;locus_tag=LOCUS_06930;note=MGA_699
sequence1	MetaGeneAnnotator	CDS	774594	775859	.	-	0	ID=MGA_700;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080372.1;translation=MAKYNRIKGTQDIYGEEMKYWSYIEETAKKVLKKYAFNEVRTPIIENTKLILRGVGETTDVVQKEMYTFEDKGGRSITLRPEGTAPIVRAYVENSMSSFGSPTKIFYMGPMFRYEKPQAGRYRQFHQIGAEIFGANTPMADAEIISMNYDFLRELGLKNFKIKINSIGCENCRAEYKNALKEFYEPLLPQLCEDCNKRFNTNIMRLLDCKKDLDKSKNAPSILDYLDEGCKEHFDKLKEYLDEFKIPYEVDSRIVRGLDYYNRTAFEIEHPMLGSQSAIGGGGRYDGLVSEIGGKETPSVGMAFGLERLVLALKAEKVEIPENDEIDVYIIYSGEGTQKEAIKIAKDLREKNLKIFLNISKRNFGGQMKHANKLNSKFAVIIGEDEVKNNIVSFKDLKTGEQIQVEKGWFINLITEKLENK;locus_tag=LOCUS_06940;gene=hisS;EC_number=6.1.1.21;note=WP_004080372.1 histidine--tRNA ligase (Thermotoga maritima) [pid:52.9%25%2C q_cov:98.8%25%2C s_cov:99.0%25%2C Eval:1.7e-132],MGA_700
sequence1	MetaGeneAnnotator	CDS	775959	776324	.	-	0	ID=MGA_701;product=S1 RNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082201.1;translation=MSEGIVQGTVVKVKVVDIKKFGAFVKVENSGEDGFVHISKVSKNYVKNITDFLEVGKVVEGKVIGKTKDGKLEISLKDIKNDAPVKDDNFEKRLSMFLKDSDRKISEFRRSRDKKRGGKKR;locus_tag=LOCUS_06950;note=WP_004082201.1 S1 RNA-binding domain-containing protein (Thermotoga) [pid:47.6%25%2C q_cov:80.2%25%2C s_cov:83.9%25%2C Eval:3.6e-19],MGA_701
sequence1	MetaGeneAnnotator	CDS	776511	776726	.	-	0	ID=MGA_702;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082200.1;translation=MKKGIHPEMKLITVKCACGAEHKIYSTVENMRLDVCSKCHPFYKGETGAQILDTEGRVQRFKNKYKKFLEN;locus_tag=LOCUS_06960;gene=rpmE;note=WP_004082200.1 50S ribosomal protein L31 (Thermotoga) [pid:70.1%25%2C q_cov:91.5%25%2C s_cov:94.4%25%2C Eval:1.1e-23],MGA_702
sequence1	MetaGeneAnnotator	CDS	776943	777680	.	+	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKTYIEINNKMKEIFFDVNSQEYKELLDKNLVKKNELNLKLFTKDKKVQDVWRYNYIPEKGVINNKTSDFNSKFNDKKIPLDIKNSIILLLESPHKDEYQKNNFIPIAPAQGATGRAIEKFKDRNSSKTLKYLTIEDLLKKTNIIEKSPILLVNPVQYQASLGSFTKKLNKNLRNNLWKSLFNELKNDFISRITIYKPLLIINGCTNDLKDEVNNCINTNKIINVPHPYNWSFGGIRNPIYLK;locus_tag=LOCUS_06970;note=MGA_703
sequence1	MetaGeneAnnotator	CDS	778117	778827	.	-	0	ID=MGA_704;product=tetratricopeptide repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582686.1;translation=MKKIFISLFFIILVSLNFTQDYQKLFLHANSIRSVEEMNSLIRILNTATKTSENLSILCQSLTELANWGIKDESERIKTYEKAIEYGKKAVKLNPKSYYANYVTGTAIGRLAQFKGIIESLFMLGDFDKYLKKALELNPNYSYTYIALGMRYRDVPWPLNNMNKSEEYLKKALELNPKYSNIHYELGILYEKINKKDLAKKEFEKVLTMDFHPDWIAQGKETIELVKLELKKLNEN;locus_tag=LOCUS_06980;note=WP_012582686.1 tetratricopeptide repeat protein (Dictyoglomus turgidum) [pid:45.1%25%2C q_cov:87.3%25%2C s_cov:86.9%25%2C Eval:2.8e-44],MGA_704
sequence1	MetaGeneAnnotator	CDS	778935	779942	.	+	0	ID=MGA_705;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000996539.1;translation=MSILITGGAGYIGSHTCVEFLNAGYDIVVVDNLSNSKKESLNRVEQITGKTLKFYHTDILNKTELEKVFEENNIEAVIHFAGLKAVGESVAIPLKYYHNNITGTLILNEVMQKYNVKKMVFSSSATVYGDPESVPISEDFPLHATNPYGRTKLMIEEILRDLYISDNDWSIALLRYFNPIGAHESGRIGEDPNGIPNNLMPYITQVAVGKREKLSVFGNDYNTHDGTGVRDYIHVVDLAKGHLKALEKIMKTKGIDAYNLGTGTGYSVLDVVKSFEKANNIKIPYIITKRRPGDIDKCYANPEKALKELGWKAEKNLEDMCRDSWNWQKNNPKGY;locus_tag=LOCUS_06990;gene=galE;EC_number=5.1.3.2;note=WP_000996539.1 UDP-glucose 4-epimerase GalE (Bacillus cereus) [pid:72.2%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:5.2e-147],MGA_705
sequence1	MetaGeneAnnotator	CDS	779971	780519	.	-	0	ID=MGA_706;product=GPR1/FUN34/YaaH family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023903.1;translation=MNKKANPAPLGLMGFGMTTVLLNLHNAGFLKLSVVIISMGIFYGGLAQVIAGIMEFKNENTFGALAFTSYGLFWLSLVGIWTLNGINMGPLADAKSVAWYLLLWGIFTLYMFIGTLKQNKTNQVIFGSLTILFFLLAAGDFTGISVIKTIAGYEGIFCGFSAIYGAMAQTLNEVYNKKVLPL;locus_tag=LOCUS_07000;note=WP_011023903.1 GPR1/FUN34/YaaH family transporter (Methanosarcina acetivorans) [pid:69.6%25%2C q_cov:97.8%25%2C s_cov:90.0%25%2C Eval:1.2e-61],MGA_706
sequence1	MetaGeneAnnotator	CDS	780621	783452	.	-	0	ID=MGA_707;product=BREX system P-loop protein BrxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065383.1;translation=MELKKEFLHDFSTHFEDVIKIQNADDIKELVNEYVITDNIKKNLVKFFNNFNKRVSGTWVSGFFGSGKSNFAKIIYNIFLNNGVFKKLFLEKVKNMKDLYTLVDKIEDDVLAVAIDLSTFAGSNKKISDILLIEFLKNIGYGGKLEWNEFQKDLFDFIKKDSMELINTDELSDIIEEYLKSSLNIKYKRVIFILDEVEHFITGNNERILELQGLLHSFDKYKNVHLLAISQSSLNDDKFSIIKDRFKTKLELTAEDIEYIVLERFLKKKDENYFKVIYKENSIDILLNTLDKFESFNENDVEESSKLFAKFYPFYPETIKLITEIYENSDLEKRNILYIFNSILNKEWKVGDIISIYEFYDFIVDFPLKENDLMKINLLKILKLTEKTTTFKNGIKTIELFKLLTNSIKYKNNKKEVEEKLNELKDENIVYKNGDIWKLLSKKQKEVLKIVKKMYEEKEFFRNRKKNLKKLISKSLPNDLSFKINEVQRTFNILIDGEEVKKTKDTEIRINIITKKEDIKKISIEDKYTAYVMININFQKDLEEYTALKMAENFEKDEYLEILISDLEKRILKKIKDALNDSKIFYYRYGEKKIKNFNEFIKKFVKNEMFETIYTSFINFKIKEEDIKKVFITDKRKLLQYNIENIEIPEGEIKNICEELKKSPYGWKEITTIFIISVLYKLGKIEIIGDTKSIERKASIAYLKKMSIKKIKEKELNIKELSALIYKLKSLGIIEKNNHMVESIDEISYYLNNFFIKETKRILIIKNHLMKYSSNKKIIEKTEEYIKYFSNLNSKLSEELNMKITALRYILNNFEEFKSKFLELKKYEKKISLFEKEKDKYNLFLENLIYEKNSVINDEQIIKIIKKAEALNFHKNDIDYFGFFKNECLVLWREYRDIYEKKIMELDKLNEEIFERKRLEELEISIKNKTYTWLLLLEHFLKK;locus_tag=LOCUS_07010;gene=brxC;note=WP_048065383.1 BREX system P-loop protein BrxC (Methanosarcina acetivorans) [pid:21.8%25%2C q_cov:97.9%25%2C s_cov:84.6%25%2C Eval:7.1e-21],MGA_707
sequence1	Aragorn:1.2.38	tRNA	783667	783742	.	-	.	ID=Aragorn_17;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_17
sequence1	Aragorn:1.2.38	tRNA	783782	783858	.	-	.	ID=Aragorn_18;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_18
sequence1	Aragorn:1.2.38	tRNA	783869	783944	.	-	.	ID=Aragorn_19;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_19
sequence1	Aragorn:1.2.38	tRNA	783954	784029	.	-	.	ID=Aragorn_20;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_20
sequence1	MetaGeneAnnotator	CDS	784183	785379	.	-	0	ID=MGA_708;product=multidrug efflux MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010921978.1;translation=MPKRMKNILWYSFLSSASWNMYQIIFNLYLRDLNMDNVFISGLMSLQLWGSAILGMILGMFGDKYGRKKMLLITSYISGLVILIRAIFPFETLLLWLAFFNGGLFASRMILLNTFIVEVTDHSNRAKAFGYNFGIMMGSGLIGNMIGGVMGDTFGLKNTLIVSSIIYILSTTTLLKVGDVKIKKKQKFSELFNFKTIPKNELHILKGYLLSTFLIGFGAGLFIHFGNLIFKDLFSMSPTMIGVAISIAQVGTALGSFASPYLSKKFGPLEYTLFLQFLVVPLILAFAFVREPYIFTGLYALRFSFMNMTIPVITTLVMSNLPSDKITTINSLNNLLNNSTRAIATAMFGFIVGTTNGYRNLFLISTVFYLLNFFVYLKFFYPLRKEKKTLNLYKIKKG;locus_tag=LOCUS_07020;note=WP_010921978.1 multidrug efflux MFS transporter (Streptococcus pyogenes) [pid:22.6%25%2C q_cov:94.5%25%2C s_cov:96.0%25%2C Eval:8.7e-14],MGA_708
sequence1	MetaGeneAnnotator	CDS	785578	786090	.	+	0	ID=MGA_709;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081583.1;translation=MDVKKYVRDVKDFPKEGIIFKDITPVLSNPEVFKFVIDGMIEDIKDWNFDTIIGPEARGFIFAAPLAYKMGKKFVPVRKPGKLPYKKISASYDLEYGSATLEMHIDAIEKGERVIIVDDVLATGGTTAAIVELVKKAGGIVEGVYNFAELSFLNPREKLNDIKVGSLIEY;locus_tag=LOCUS_07030;gene=apt;EC_number=2.4.2.7;note=WP_004081583.1 adenine phosphoribosyltransferase (Thermotoga maritima) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.3e-52],MGA_709
sequence1	MetaGeneAnnotator	CDS	786113	787486	.	+	0	ID=MGA_710;product=glucose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081585.1;translation=MKGIKFDFTNLFKPNVNSGVTEAEIDDYKEEITKIIENIFEEKPGFLDVPFTRKWTDSVLDIKNWVQKFESVVILGIGGSALGNQALQTALNPLNYNSMSKEERKSPKVFIIDNVDPDFVSSILDQINPKTTLFNVISKSGTTAEAMSNYLIARGLIDTYGLNPSKHLLFTTDPENGVLRKIAIEEDIRTLEIPQNVGGRFSVLTPVGLLSAMAGNIDIIDLFNGARDMQKILNNKNVWENPAALNALIHFILNKKGFSMSVMMPYSNRLYLLADWYRQLWAESIGKKVNLKGEVVNVGQTPIKALGATDQHSQVQLYNEGPNDKIITFLKLENFERDITIPSIHSDIEALKYLGGKKLSELLNTELTGTEYALVEHNRPNMKIIFPAINAYNIGQFLFMYEFSTAVMGSLLEINPYDQPGVELGKKVTYALMGRKGYEEMASDVNKKLSEKKKVII;locus_tag=LOCUS_07040;note=WP_004081585.1 glucose-6-phosphate isomerase (Thermotoga) [pid:58.8%25%2C q_cov:97.6%25%2C s_cov:98.9%25%2C Eval:8.2e-152],MGA_710
sequence1	MetaGeneAnnotator	CDS	787483	788085	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIGLTGPAGSGKSTVSNIIKENYKNVEIIDVDRVGHYVLTLSFVKQELKKVFGSDIFECYREISEKELLQKNISRKKLGQLVFSNKENLKKLNAIVHPVIFNEIKNNIKILLKKYDIIVIDAALLNEIGLSKLCNKIIYVTAPKELRIKRLVENRHLPLNTAQSIVKSQKNMLFEFFDYKIINDCDKQTLKKIVANILN;locus_tag=LOCUS_07050;note=WP_004081589.1 dephospho-CoA kinase (Thermotoga maritima) [pid:39.7%25%2C q_cov:75.5%25%2C s_cov:74.4%25%2C Eval:8.4e-22%2C partial hit],MGA_711
sequence1	MetaGeneAnnotator	CDS	788105	789397	.	+	0	ID=MGA_712;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081252.1;translation=MKKLLVVLLALLVVSIAFSDKVVLEFWHAMGGGLGETLETLVENFNKENPDIEIKPIYVGNYGALNQKLLSTITAYNQGSKDGLPVIAQSYSNWTAKFLFSKVIQDLNGYILDDPQMKKVWDTQVYDVFKDMTMWGDKIYAIPFNKSTYVYYYNTDLFDLYGIEPPKTYEDFMDTLNTLNEDIDGDGQIDQYGIGIRTTVDDFQTFLYGMNGKVLDYAGNGQYKIVLDKDLTIKTLEMLHNIKANDLAIMQGGYLNDPFGSGQIAAYMGTIAGKKYVDKSSRGKHGWNWAYLPSVDGKPHSPIAGTDLIMFNWGTKAQSDAAWRFMKYWLDPINQAYWAINSGYVPVRKDVVETEQWKKYVANDEKPVIALNTLKTAVADPKPAAWYDIRKEFGSIFTNYLNDQFGAEEAYNRMITSLKTMLDETNELAK;locus_tag=LOCUS_07060;note=WP_004081252.1 ABC transporter substrate-binding protein (Thermotoga maritima) [pid:42.0%25%2C q_cov:96.7%25%2C s_cov:97.9%25%2C Eval:4.4e-91],MGA_712
sequence1	MetaGeneAnnotator	CDS	789440	790219	.	-	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELIKECVSHLKNNKGKLADEFQHLVYITVHDKDDKFPYITYYIDEEGRYLKVFGPDSPKSVMSTMFNIVSKNTEKIEKDYVNIAENYGISVKTEIIGGICQSPFKVYAYKLEGNETLIKKLTFSEKIRGERYFSLYKYMTEEKVNFIVKNYKKWNSNVFFYPFNGEVNIVFLMPKKYSFSQKALATEIGSIFKDKIILKYENIQKTYKDPAMKINQRILSIFKVKVEDILKYNFLELYVDFIKKIDKIIEDIENINF;locus_tag=LOCUS_07070;note=MGA_713
sequence1	MetaGeneAnnotator	CDS	790222	791943	.	-	0	ID=MGA_714;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082969.1;translation=MLEREVLKDVPNKPGVYIYKNKKEKIIYVGKAKNLKKRVSSYFNKSNQLKSEKVFNIMKYAETIDYIVTTSEEEALILEGNLIFEYKPKYNVLLKDTKVYPYILVTNEKYPTLKYVRNKSERGKYFGPYSNVYFVKSVIEVLQRVYGIRNCERNVEKKSKPCFLYHLGMCYGPCYKEVDFQEYQKSVGKVIKFLNGDVESVKKYLEEAMKKYAKVLNFERAAQMRDTLFKLDKLFIPLGVEFKTSKNVDIIMYEDPIYVLLRVRRGYLISKLTFTLSDEINEFLKQFYIVRKNQLPIEIMTMYDESINESVLDLLKKHGLKRITTINKNNNIFKIAFKNLEEEIKRYTNLGNILKQAKEILSLKKIPQKIEGIDISHLQGMYTVASLISFEDGKPNKNNYRRYRLDEFKEPNDFESIRTVIKRRYSKHELPDLLFIDGGKGQVNSAVEALNEIGFTLNDVDVVGIAKEDERIVFPGDFNDLHLPLDHPVLRLLIYMRDETHRFAIGFNRKLRSKRFEKTKLDEIEGIGPKRKKLLIQEFGGLTGIKNATVEEIDKIIKNKKLSMRIKESFGGK;locus_tag=LOCUS_07080;gene=uvrC;note=WP_004082969.1 excinuclease ABC subunit UvrC (Thermotoga) [pid:44.2%25%2C q_cov:97.0%25%2C s_cov:97.1%25%2C Eval:1.2e-134],MGA_714
sequence1	MetaGeneAnnotator	CDS	791945	792472	.	-	0	ID=MGA_715;product=DUF501 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080407.1;translation=MGRFEISEKDLSVIEKQLNRKIINDIKVVKRCSYGYPQVIKNYPLKDKKPFPTLHWLSCPFLIEQVSKIEEVHSIKLFEKELMEDKTLQEKMDKAHNQEIKERLEILENEITSLPENMQKKLKTVGIGGIQNFKTIKCLHLHLASYLGGIDNPIGKKVWDSLNEKECSNCICGRE;locus_tag=LOCUS_07090;note=WP_004080407.1 DUF501 domain-containing protein (Thermotoga) [pid:47.6%25%2C q_cov:93.7%25%2C s_cov:93.5%25%2C Eval:8.8e-40],MGA_715
sequence1	MetaGeneAnnotator	CDS	792439	793284	.	-	0	ID=MGA_716;product=50S ribosomal protein L11 methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080406.1;translation=MKMKFHEYIFLLNKEMEDSIIDEFLTRNFDEYFIDYQVDEKLITLKFYMSYDNPDEELLKIIIEKFNLEILSHKIVEEKNWLKVWLDTLSPFEFVEGVWVNPFPEKKLKKDIVINIIPGTAFGTGLHNTTKLAGRMLQKTDCFQKDILDVGCGTGILSILSKKLGANKVVGVDYDPLAVEKAHETLEINDVNVEIKQSDYLSNVDGKFDILVSNMVAEILMGLLKDNKFDDVLKDNSFVILTGIMNEKEQMVKDEAKKHNLYPVERMEEDIWVGLKFQKKI;locus_tag=LOCUS_07100;note=WP_004080406.1 50S ribosomal protein L11 methyltransferase (Thermotoga) [pid:41.5%25%2C q_cov:98.6%25%2C s_cov:99.6%25%2C Eval:1.1e-46],MGA_716
sequence1	MetaGeneAnnotator	CDS	793451	794977	.	-	0	ID=MGA_717;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766109.1;translation=MKKLPIGVQDFKELITDYIYIDKTKYLYELITSGKFYFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRINLLDVATDNVERMKESLTKIIKLEGKRNGIEITETDYKFAFNELIIKLSQKERVVILVDEYEKPILDNINNKEKAEKYREILRDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELESNFKEHIKETAIEMKMEEKELLKNLKMYYNGFSFDGEDSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGIKRLGLREKYILDYPNIEVKNSFSKIILEANYGIREIEQIETTIYERIYEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDTIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEIYIIGININSEKRNINEYKIEKI;locus_tag=LOCUS_07110;note=WP_008766109.1 ATP-binding protein (Bacteroides) [pid:37.1%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.9e-83],MGA_717
sequence1	CRT:1.2	repeat_region	795319	798412	.	+	.	ID=CRT_4;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gtttttaaccctctaaggatagataaggac;note=CRT_4
sequence1	MetaGeneAnnotator	CDS	798916	799914	.	-	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFYNDTIKDIKNASLYYDKLSFRIQKNLKKDFEIIKEELGIKKNFDEKKRQEVSKEIADKVNPKLKEIQITKIRSDVVSNQKNSKLQIKKEERFTLNILKSVNESRILDEKKFSKIIYKENIKAIEFDGLFKKLKSIRIKMLRSLLNIQKKESITIIAKNTTPFLIGAGIPSMDEIGFYWNRNYGIPTIPGSAIKGAFRHYLETKNEFEEKQELKDLIKIIFGTQEESGKIEFLEAIPLNNPKIFEEYQTPHFGEYYSGKKPPNDVYNPNPLSYLSVGEDSEFRFDLIINGKKFDEQKIEKTRELFLEFLEIYGLGAKTSNGYGRFEEIKN;locus_tag=LOCUS_07120;note=WP_010865404.1 type III-B CRISPR module RAMP protein Cmr6 (Thermotoga maritima) [pid:37.7%25%2C q_cov:71.4%25%2C s_cov:92.2%25%2C Eval:2.1e-31%2C partial hit],MGA_718
sequence1	MetaGeneAnnotator	CDS	799931	800377	.	-	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIDKSVQELAKDCILNTLENCENFENKDKLLKAYKSTIKGLGSMIIQNGLYGTVIFYRSKMNPKSEKKDKEKNKKADEKKYIEYILDDLCAFFEEFYDFENIEKDNYNNFLEFLEKGNLKEFQDRILSFVGWYRRYADIFIEKDKD;locus_tag=LOCUS_07130;note=MGA_719
sequence1	MetaGeneAnnotator	CDS	800391	801239	.	-	0	ID=MGA_720;product=type III-B CRISPR module RAMP protein Cmr4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082339.1;translation=MSKNGKIGFLYAVSQLHAGKGFDSGVVDLPIQREVHTDFPIISGIKGAFRNEFEEVFKGDKDIKIFGSPKEKEKGTEDQSGSVSFSEAKIFLFPVRSITEGFVWITCPMILSRVNILFKMFGNKDLETKVSNLLKTIKSDKEYYSTNKTEINLEEYKVTPEYSKELVDFLNSIKKILPDETLQNKLKERVLIISDEDFRFFVKGSTEIMARIKIDETGTVDKKTGGLWYEEYLPQDTIMYFIVKTLLKDHGLDILTKETDKQFVNIGGKSTIGKGFTYIKYL;locus_tag=LOCUS_07140;gene=cmr4;note=WP_004082339.1 type III-B CRISPR module RAMP protein Cmr4 (Thermotoga) [pid:40.5%25%2C q_cov:97.5%25%2C s_cov:97.9%25%2C Eval:4.6e-50],MGA_720
sequence1	MetaGeneAnnotator	CDS	801263	802264	.	-	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLLLIKPLDWVAFRAAKSFSTSEDTHFPNLKTFLGAIYGNLYNFEEKSAKEISTLMKERKLDITGPFVFKQNNGETEIFFKKPAILKKEKESNETHSKKIYKAYIDENIKFKIGTKELNGLRYEKMNNLDDLNKNYITLKELEELKKGYVNIIDTEKNTPSNIPYKIERKIGIEIEKGKRYTKKGGLYSLNYFRFEENSGFCFFVEKDELKLLEKYNTIKLGTKGKLARLEIIEIETNIFDKVNDEEKILYTLTPSFIESGILPKNNENIIAIANYKPETIGFWNGVENKPGELMKVVPVGSCYYTKGEINTLTDKYDYYGFGKYIELKK;locus_tag=LOCUS_07150;note=MGA_721
sequence1	MetaGeneAnnotator	CDS	802264	804720	.	-	0	ID=MGA_722;product=type III-B CRISPR-associated protein Cas10/Cmr2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082341.1;translation=MAIKFWHRKINALLHDPVEKVYTIKTHEALQNKRISELNITPNKPKADVIASSIERIPLPNEQTNSDKQRVYVNSNEFYIIHPLTGEKVSKDILDKQLNKKDILSQSNKFYEDIKKYIEKEKLDVNDVKSAKKLYNYIWWYLPKSVEQSYLLPADTRVPDVSIIDHLDTTAAFSSVTTENYSIVMISIGPVQDFIAAGRKISDLRNGSYLLSYLTYQGIKYVGQNYGYDCIIFPSMRDNYFVAKDLGFYTKELEIDPAVASLPNVFSFIIPKSDVELVINKIKEWILLERDNIINFFLEKINNNTLNELKSNVSFELITEHGLSKEQITKEFKKQVKQFPTIVATVQNLENFNSLNMQYKDYTGIDLTPLKESFEKLENTYTVKDYQYYSYNSELLGIKSGIRKTTRDFIGYIEQNSNPGDEISGNEKALIKEITIYDDEEKTENISAITLIKRYLPNYLEKETLYEEASKSLKNTKKNTKDDITEISKDYNASILMMDGDKMGEWISGKKAPVLYQRLHKNAISRLERIDKKYLEKLEELQFITPSYQRTISRTLNEFSKLVPKIINNYKGTLIYAGGDDVLAILPSNKLAQAANDIRKAYSGVDNLELENLKFNKGYMYKDGKMISNMMGHRATMSAGLLTFNPSYNLKLALNKARELEKIAKSNYEVEMDKDNKQKKVDRDSFAISSIRGSGKIKIAKSKWDINIVPKKDIIETANSLISKLEENKKSEQAFISKLKYEYESLCFSNNKRILKDEEFIKKVVPFIIKERMNLGNLIEPTKKILNLCKNKNLELKDILDILEELEYSAKKPKRGGE;locus_tag=LOCUS_07160;gene=cas10;note=WP_004082341.1 type III-B CRISPR-associated protein Cas10/Cmr2 (Thermotoga) [pid:32.2%25%2C q_cov:90.5%25%2C s_cov:90.1%25%2C Eval:1.7e-100],MGA_722
sequence1	MetaGeneAnnotator	CDS	804732	806069	.	-	0	ID=MGA_723;product=type III-B CRISPR module RAMP protein Cmr1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082342.1;translation=MKKLDIEIKTISPMFSGRGDKKFALTPQSVRGVLRFWFRAILPRVVNIVDNNGNSKLKGEECFWNYKLLKDIESYIFGSTEIKSPFDVLVKYDKKDISDKQGKSLTNDKYNKYALYGQEDRYYLKENSKINIKFIIKKNISGLDKLLFYLLNLTSYLGGFGAKSRKGFGSFEIIKSNEYKIINTKSNLIKNLEEVLKEIIENMKKNYNNEKYIFEDKTLKKNFYDLNNIDYDIQNFTSSPTYPTLLSKKYVILESKNKFDTFLELYDYLYKPDPKTRYLNKDNSLKLNVGMYIKLKKVLRGKYVIKEGKIKSNEKLDEDSFRKGIYSIKNHENQSIQFVQSFLGLPINYKIGDRQFKGINSGNYTLSNSEGRKASQMFIKIYKENGKYRYRISLIRSKITNKNSFVNGKKIEDIKFNKGKNEFKVKGNENLKMVFDTLKNLKIVD;locus_tag=LOCUS_07170;gene=cmr1;note=WP_004082342.1 type III-B CRISPR module RAMP protein Cmr1 (unclassified Thermotoga) [pid:30.3%25%2C q_cov:98.4%25%2C s_cov:95.9%25%2C Eval:3.8e-29],MGA_723
sequence1	MetaGeneAnnotator	CDS	806090	806806	.	-	0	ID=MGA_724;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545251.1;translation=MRVKINLSGKNIVLPISYQYYLQGLFYNLVTKKFDYLHDEGIIVDSKTMKPFSYSKIFCKRYEVKDNSIYFGDEIWIYFSSPFEILLEEFLEKLTELNNIRIGNNFLNISSIRRLRYTFDNYALVKTLSPILVYEKVLRVNGERKLLRYNPKDPEFCEIIKYNMSTKGKALGINTETFNIIPQRINPTNKRVLKYKTTTFEAWEGTYKIYGNNEVLKLAFDWGLGLRNSQGFGMIETI;locus_tag=LOCUS_07180;gene=cas6;note=WP_012545251.1 CRISPR-associated endoribonuclease Cas6 (Thermodesulfovibrio) [pid:32.4%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:3.7e-28],MGA_724
sequence1	MetaGeneAnnotator	CDS	806892	807155	.	-	0	ID=MGA_725;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582991.1;translation=MYIVLMYDINTKRVGKVHKIIKQYLNWIQNSVFEGSITEKKFNELKRKLKIIIKENEDSIIYFETLTKKNLTFDITGIEKNKYEKFL;locus_tag=LOCUS_07190;gene=cas2;note=WP_012582991.1 CRISPR-associated endonuclease Cas2 (Dictyoglomus turgidum) [pid:49.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-19],MGA_725
sequence1	MetaGeneAnnotator	CDS	807202	807465	.	-	0	ID=MGA_726;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582991.1;translation=MYVILVYDINEKRVGKVYKVIKQYLNWIQNSVFEGSITEKKLNELKDRINSMTKANEDSVVYIKTTRKQDIFYNVIGLEKNKYEKIL;locus_tag=LOCUS_07200;gene=cas2;note=WP_012582991.1 CRISPR-associated endonuclease Cas2 (Dictyoglomus turgidum) [pid:47.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.7e-17],MGA_726
sequence1	MetaGeneAnnotator	CDS	807470	808444	.	-	0	ID=MGA_727;product=type I-B CRISPR-associated endonuclease Cas1b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582992.1;translation=MDNIYIFSNGELKRKNNTIEFITKERKKILPINNIQDIKVFSNVKFNDSFLHLLSKYKIVMHMFSYYKNYLGSYIPDNLNYEGKTLINQVNSYQIYEERINLVKMILFAAMNNMRSNFKLYKMKYDEEKIKNMILKLNEIESVDILMIIEAEFRRYYYSFFDKIINNDNFKFEKRLKRPPENEINSVISFGNSVFYSECVRTINNVGLFNSIGYLHSNDRKNALSLDISEIFKPLIVDRIVFDMFKENEFKKSDFENKKHGIYLNKSGKQKFIKSYDEKLSQTIYLKNLKKYVSYKELIGIDLYRLKKYINKKSTNYIPYMEEV;locus_tag=LOCUS_07210;gene=cas1b;note=WP_012582992.1 type I-B CRISPR-associated endonuclease Cas1b (Dictyoglomus turgidum) [pid:39.5%25%2C q_cov:98.8%25%2C s_cov:98.5%25%2C Eval:7.6e-63],MGA_727
sequence1	MetaGeneAnnotator	CDS	808545	809420	.	-	0	ID=MGA_728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVVLILFLLTTLLFFGEKTTNNSTSINYPYLLKTFENNDIKLKIYIDNVKNGIFNQTVLRLKILNLTNSVLKIVWDECTFTDNYNNNVVLIHENQKYISSDLHQIPSVILPNDTFNEIAVPKSHIYYYTNLSTNKYNNLFGLGSGWKIKSINSNIKNRKLLFTYMINDIKKNIIIKTTIPNTSDYLNYSDTKIEKIDIATLSFFTNKKLNKDGKIIGYSGYNLGIGYSERNYFEPLKYDAWNSYWYWGTLGLIVPYGGVGIEYINKDNSFSIGLFTIYVVPWFTMGFSF;locus_tag=LOCUS_07220;note=MGA_728
sequence1	MetaGeneAnnotator	CDS	809475	809894	.	-	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAVLVVLLLSSFLLVSCTKPLDKTLSNPSPLKIIGTKVSSETIYGITQKKFQVFVENISSKTIIAYKVDIKGYNSFDEQVTIDFVDTLKGIVQNINIKPSETYGYKTYWSSVYAGTVKYIKTEIVEVKFDDGTTWIK;locus_tag=LOCUS_07230;note=MGA_729
sequence1	MetaGeneAnnotator	CDS	810233	812029	.	-	0	ID=MGA_730;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIEDNMYFVDKSLLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKDLKIYKEKNIIEKHLNKYPVIYITFKDLKSNNLKKMHDLLAMELSSLYIDHKYVLDVLDEKEKSVYKSIISETADDAKYENSIRNLSKYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEENEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIRPYWMNTSGNYLIRKLIKEGTVNIKDSVEKLINGEEVECEIIETMVYGDLNLNSESAIWTLFLFSGYLKWTSKKRKNNITMYKVKIPNEEVKDFFVQTVRNMLRESNISIENMLLNLKVGRIKTFTDQFKDLTMNTLSYFDVSGKEPERFYHGLILGMSVGLKEEYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNRDEDKSLKDSAQNGLKQINEKKYEEEIKSYGINDIIKVAISFDKKEIEIVSNLDKDVELTEIEKIALNLLKNGADINLVSKSTGISLVTLKKIRKRNL;locus_tag=LOCUS_07240;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.7%25%2C q_cov:91.8%25%2C s_cov:99.1%25%2C Eval:2.4e-101],MGA_730
sequence1	MetaGeneAnnotator	CDS	812150	812338	.	-	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPAFLFFLVKVKTKIIMTKLCIGIMQIKIFKKNIVLSITKFLIKYNFKAYYKRNIIMVLDSS;locus_tag=LOCUS_07250;note=MGA_731
sequence1	MetaGeneAnnotator	CDS	812369	812731	.	-	0	ID=MGA_732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVVLIVLLSMFSFSNAISLAKNMETKIGTGLPTLGWATHNSEGNIIGYSGFNILLGYSSVNYFDELKINAWNPYWQWGTVMLLFPYVGIGTEYVADNGFFFDIGTFYFAPYVALGVNF;locus_tag=LOCUS_07260;note=MGA_732
sequence1	Aragorn:1.2.38	tRNA	812919	812994	.	+	.	ID=Aragorn_21;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_21
sequence1	MetaGeneAnnotator	CDS	813107	813364	.	+	0	ID=MGA_733;product=metal-sensitive transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003422948.1;translation=MSKKDIINRLRRVEGQVRGLQKMIEEERTCSDILTQLSAVSGALQKIGELTMKEYTKGCIMEYEQNHNEDLLNDLIETISKFKKI;locus_tag=LOCUS_07270;note=WP_003422948.1 metal-sensitive transcriptional regulator (Clostridioides difficile) [pid:40.7%25%2C q_cov:96.5%25%2C s_cov:88.7%25%2C Eval:2.8e-16],MGA_733
sequence1	MetaGeneAnnotator	CDS	813386	814663	.	+	0	ID=MGA_734;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080969.1;translation=MSRKVKKIISVFLIVGVAATSWVFGNSDKRSIEDIYYNQYREPIVRMLAYINQYYYGKDDVDYSKILDSLLKGMVDGIGDPFAWYFDARQTTENHIDETGKYGGLGITVRYDSPTKSIVIVSPMYGTPAEKAGLMANDYIISVDGSPVSETGYMKAIDRMRGKPGTPVKIKVIREGWKKAKEIEIVRALIETKTVKYTTFEKDSEKIGYIRLTNFGDKSDVEMNNALKDLSTKNINGLILDLRNNPGGLLHIAINIASMYIKNDVIVYLKYSDGSEETTTPIPGKYFDFLNGLPITVLVNKGSASASEILTGALKDNKIATIIGGTTYGKAAVQRPFTFPNGGEAWIPIGHYFTPNKIDIHLKGIEPNIKIDNPVKEVKSSIDIEKEKNEALNQTTNKVYLNFKNDLQLNKAIEVILEKLGEKVN;locus_tag=LOCUS_07280;note=WP_004080969.1 S41 family peptidase (Thermotoga) [pid:42.3%25%2C q_cov:96.9%25%2C s_cov:98.5%25%2C Eval:3.2e-86],MGA_734
sequence1	MetaGeneAnnotator	CDS	814681	815349	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFFVTLLVLSTSLYIVFANSKVQYMEIEKTPVLSFEGKINIQPYENRLKTIKNMSEFFYGLIDYNLFVGNIDYNFDKNIISIEPLIKDLYYDLKSLVISIDKNYKEEKKDIELYGLKLPYYQIKTKNFYIKLTPKILISDLSKINHNDLNYLRTRYFIFSEEDYKPYDFNKNFLNGLKDYGGVVLDEKLISKPAVAPLLDTLKGMGITVEKNLKIIRFKGE;locus_tag=LOCUS_07290;note=MGA_735
sequence1	MetaGeneAnnotator	CDS	815351	815737	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNNMLVDFYNSLFVPKKLLNSEKGSILIPFIIMGVYLISPNMNLKKLFLIFSLSFLSSGLRILFAKKYAYYSYLASSSTLLLFALNFYSISFFWNILLKTYIDIKEKNFYSFIIGTFFDIFLFWWLI;locus_tag=LOCUS_07300;note=MGA_736
sequence1	MetaGeneAnnotator	CDS	815734	818160	.	+	0	ID=MGA_737;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000808805.1;translation=MKDFYFNFTNFILKNSKKIILIVAVLTAILGYFSTKIGVDSNMFRMLPKNHPILKEYNKEQKLMDTNEIMVTVFYLNDNIKPLEIAQYFSDEMNKISSFSGFTTDINFLLSYGFLYLDNTSLIQSISDSVNNITKTISRSNALDFKTMQYLDKAIGNVYELENNLKKNNSENILKSYYIISPDKKIMLMGVSFTTPTSNLSFVSKIVPKTKSILKKINSKFNIKTGLTGSYITEYESNKSVSEDFKLTSVITILSILILFFISFGDIIVTLIVFASLGISFLLTMGITQIMFKELNIITNFMAAVVLGLGIDYGIHIVTRIINEIKSGNSFEKSLEITYETALLPLFFSLLTTVAVFLSLVIMGLPAFTEMAFISSIGLIVFFCIMLFFVPSVIYLIKNKLKINNFIEKINKVFKLLSIFIPNHSKKIKYIIYPFLVFFVIIGFYNTSNFFYTAPGLIPKNSESVIVGNDIVKHMGKVDLFDDLKYKISVDDDVDKIEQKLLSSGVIKNAQSLSDIIEKQIGDFSTLKSRVTDLSQMINNPLAVPILKKYNMYSDSLKLIEISAKSKDLYQFSLNSLDIIPSQFKSNFLIEDNGKKYMLLNIKPAFNLWKNNGIKIFYEKLGKDGNNVLNTTKTIYKLMKLVKEKFIAPVIIAFILIAFLTYISRKSFVETFQTFVGLLFVALSTFGIVYFFNIRMTFITMLTFPLIFGIGADGFIHIFHAIDEDKQHYWQTLKSVTLSFATSILSFLSFQVARGDLLKQFSLSMVIGILLTWIFTVILIPTIKFKTIKKFYKKLDKTLVNKKLSKNK;locus_tag=LOCUS_07310;note=WP_000808805.1 MMPL family transporter (Leptospira) [pid:20.5%25%2C q_cov:95.2%25%2C s_cov:90.9%25%2C Eval:3.1e-30],MGA_737
sequence1	Aragorn:1.2.38	tRNA	818228	818316	.	+	.	ID=Aragorn_22;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_22
sequence1	Aragorn:1.2.38	tRNA	818343	818419	.	+	.	ID=Aragorn_23;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_23
sequence1	Aragorn:1.2.38	tRNA	818425	818501	.	+	.	ID=Aragorn_24;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_24
sequence1	MetaGeneAnnotator	CDS	818536	818784	.	-	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENFNTDCPECIQCGFCCIQNPCYYGEWNDDYSSCNFLTENYLCSKYNEIYENEKNQEIKMFGSGCCLNFFNPMRIRKLKLK;locus_tag=LOCUS_07320;note=MGA_738
sequence1	MetaGeneAnnotator	CDS	818807	818959	.	-	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASFKFICFNTNKIIELKNIDFHKGIFLKDKNIIKIIINKDSIISPIFLK;locus_tag=LOCUS_07330;note=MGA_739
sequence1	MetaGeneAnnotator	CDS	818901	820013	.	+	0	ID=MGA_740;product=SLC13 family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003020830.1;translation=MFFSSIILLVLKQINLKEAILSINFEIIIFLIFMFIIGESMIQSGYIEHLSFIVFKHTKTTKSIVFNLIFIMGFMSAIMMNDTVAIIGTPLVLHLSKKFNIKSEILLFTLAFSVTTGSVFSPIGNPQNLIIAHYLNKPFITFIKFLFIPTIINLFFLYFIVLIFYHKDLNKKIIHISDPIKKNKLFFYSRISFILILLLTFIKIIFSFYGINFKLVYISIIASFPLISNFKFLIKKIDWKTIIFFISMFIVMKSVGNSGIFQTFISKNISIPLIMLLSIIVSQFISNVPLVTLFAPLLSISHIKLMALASGSTIAGNLLILGAASNIIILQVAQKNKESFNSFKFFKIGLIITIFNIITFLSFFAINKFI;locus_tag=LOCUS_07340;note=WP_003020830.1 SLC13 family permease (Francisella tularensis) [pid:41.4%25%2C q_cov:98.6%25%2C s_cov:92.7%25%2C Eval:3.5e-70],MGA_740
sequence1	MetaGeneAnnotator	CDS	820048	821757	.	+	0	ID=MGA_741;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEDLILENYYYVDKTKYIEVLENMPEKYISFLRPRKFGKSLWLDTISKYYDVKYSDKFDTIFKDLYIQKHPTPKKSSYHILEFNFSGLNTDSKEELKFDFNSEVYRKISKFISNYKLNIKLIENINEPSTLFRDFLNKYEELNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDYILQDMKFSYNGYMFNERASEKVYNSDMVLYFISEYNREKRKPKDVIDMNIASDYKKIQNLFKLGEVVGINNIDNEKEAIGNLLNEILMTDKTEIEELTRAFNLERKMEIDDVKTLLFYLGFLTIESKGFVMNLKIPNYSIKKIYSEYFLEMIKTRAKNYIDTGKIKIAIRKLLVDGNINSLASEIEDVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEIE;locus_tag=LOCUS_07350;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:39.2%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:4.9e-96],MGA_741
sequence1	MetaGeneAnnotator	CDS	821925	822197	.	+	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKRIRILKALAHSERLKIIEMLKKEPTCVCEMNEKSNFSQSNISQHLKILRDADLVKYTKDGNKVIYSLANEKLMEVINLITKISNEL;locus_tag=LOCUS_07360;note=WP_084785422.1 metalloregulator ArsR/SmtB family transcription factor (Moorella mulderi) [pid:40.5%25%2C q_cov:87.8%25%2C s_cov:73.8%25%2C Eval:3.2e-12%2C partial hit],MGA_742
sequence1	MetaGeneAnnotator	CDS	822283	823239	.	+	0	ID=MGA_743;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393683.1;translation=MFVWLDKLITLLVKNFFKLDVNTRVGSSVHFFFYDSIKIIILLSIMIFIISYIRSYFPPEKTKKILEKFSGISGNIMASLLGIVTPFCSCSSVPIFIGFIEAGIPLGVTFSFLITSPIVNEAAFAILLASFGWKIALLYVVSGVVIGVIGGIIIGKLNMEHHVEEYVYNIKMGNTEIEKLNQKQRLSFAWENVYDIVKRIWIFLLIGIGIGALIHGYAPAEFLARTAGPKNPFAVIVSTIVAVPLYSNALGTIPIAEALIGKGVGIGTALAFMMATTALSFPEGVLLRKVIKPKLIATFFIITSISIILTGYMFNVII;locus_tag=LOCUS_07370;note=WP_011393683.1 permease (Moorella thermoacetica) [pid:50.5%25%2C q_cov:98.7%25%2C s_cov:99.4%25%2C Eval:6.9e-85],MGA_743
sequence1	MetaGeneAnnotator	CDS	823269	823499	.	+	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKILGSGCPNCNRLEKNSIEALKELGKSVEVEHIRDYGEIMSYGVMRTPALVINEKVVIAGRVAKKDEIKDLLK;locus_tag=LOCUS_07380;note=WP_041272757.1 thioredoxin family protein (Desulfitobacterium hafniense) [pid:45.9%25%2C q_cov:97.4%25%2C s_cov:63.2%25%2C Eval:3.1e-15%2C partial hit],MGA_744
sequence1	Aragorn:1.2.38	tRNA	823555	823629	.	-	.	ID=Aragorn_25;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_25
sequence1	MetaGeneAnnotator	CDS	823684	824448	.	+	0	ID=MGA_745;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082451.1;translation=MSLSDPKILFENDEHKFIMLGMETGDEHGIYTNQYLILHKDEGVLLDPGGVHVFPKVLANVSEFINPDKITGIFYSHQDPDVSSGIALWSNVTNAKIYASNLWERFLPHFGVFDEKKFIALSDKGGNIPFKDGLKLEIVPAHFMHSVGNFNIYDPISKIFFSGDVGVGVVPPSERSIFVESFESYKKYIEGFHVRYMTSNKACKKYVDLLNKYDINILAPQHGSLYKDNDVKKFLNWLSGIKCGVDIIDKIYGM;locus_tag=LOCUS_07390;note=WP_004082451.1 MBL fold metallo-hydrolase (Thermotoga maritima) [pid:52.6%25%2C q_cov:97.6%25%2C s_cov:98.4%25%2C Eval:5.2e-79],MGA_745
sequence1	MetaGeneAnnotator	CDS	824454	825293	.	+	0	ID=MGA_746;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870403.1;translation=MGNQKELIKKLAVNTYHESVLTSFIDNLDSVLMERFRGLVVKADDVEKTSVESIENFTKISEELQSFIENGEVKSKIMAETNTKIIEKIESLGTSVDKIDSDIEVNINNISNVLERFNNVQEMTQNINNIAKQTNILSINASIEAARAGEAGKGFAVVAEEVKKLSFETNSSSKKIGESVKLLSKDVKNVLDNMNHLFDLFKVLSESSKESMQVMKENVEFINTLVSRLKNNTEVINNSTESLNISKDEINELVNSINSISTVLNTVLKMQSAIKNIKL;locus_tag=LOCUS_07400;note=WP_012870403.1 methyl-accepting chemotaxis protein (Thermanaerovibrio acidaminovorans) [pid:29.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-35],MGA_746
sequence1	MetaGeneAnnotator	CDS	825302	826516	.	+	0	ID=MGA_747;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048436.1;translation=MIVVIGGGASGLMAAISAAKLGAKVTILEKMNKPGKKILASGNGKCNYTNINTNINNYHGKDKKFIESIINNFNVNSTIEFFKQIGVYPKIDSEGRVYPFSLQASSVVDNLLYECKKHNVNIVCNAKVTNIKKKNNLYEVYYNDTKIKANSLIVSVGGKSSSKLGSDGSLFNTIKSLNHNFSPMYPAIVQLKLKGNFKEVKGVRVRGEVTLYDEKKLIAKEKGEQLFTDYGISGISVMNLSGYVHSLKKPILKLDFFPNFSLNELISLLLSRKKNMPHKTFKESFIGLLNSKLIHLIFKLSNIKDKKYSNVSIDEIKKISKILKESTFDIVGTKDFENSQVTAGGLLTSEINSKTLESKINKNLYFCGEVLDVYGDCGGYNLQWAWSSGYIAGKSAGGKYAKNK;locus_tag=LOCUS_07410;note=WP_012048436.1 NAD(P)/FAD-dependent oxidoreductase (Clostridium botulinum) [pid:42.0%25%2C q_cov:98.5%25%2C s_cov:99.0%25%2C Eval:2.0e-82],MGA_747
sequence1	MetaGeneAnnotator	CDS	826500	828080	.	+	0	ID=MGA_748;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048336.1;translation=MLRINNVKLPITHNDEDIKRYIAEKININKSSIKSIKIAKQSIDARKKREMIYFIYSIDFEVENENKIKTSLVTTSPNKNYEMPTVKNKPKLPPIIIGSGPAGLFTGLILAECGLNPIILERGKSVDARKKDINLFWNNGILNTESNVQFGEGGAGTFSDGKLTTLIKDKFGRIKKVLEEFVESGAPKDILYKNKPHIGTDILEVVVKNIRKKITKLGGTIKFQHKVTDLIIENNEAKGVIINNKEKLYSNDIVLAIGHSARDTFKMLYENNLLISQKPFSIGVRIEHLREMIDKSQYGKFFNHPKLGAADYKLSYRTKANRAVYTFCMCPGGQVIASSSEENMIVTNGMSKHARNLKNSNSAILVNVETKDFKSSHPLAGIEFQRYWESEAFKLSNSYKAPSQLFNDFLNNRKTKKFGEIKPSYIPGVALQDLNKCLPNFVSSSLKEGILIMNNKIHGFSDNNAILTGVETRSSSPIRIDRNEFCESTNTKNLYPCGEGAGYAGGITSSAVDGIRIAENIIKKYR;locus_tag=LOCUS_07420;note=WP_012048336.1 FAD-dependent oxidoreductase (Clostridium botulinum) [pid:53.1%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:1.4e-158],MGA_748
sequence1	MetaGeneAnnotator	CDS	828099	829310	.	-	0	ID=MGA_749;product=peptidase T;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963798.1;translation=MKDVVDRFLEYVKFHTTSNENSNYCPSTQGQIELAEYLKKELETMGLEEISLKDGYLMATLPSNIEKKVPTVGFIAHMDTSPDLTGENVKPKIIDYNGGTIKLNEEISMSPEEFESLNKYVGQKLIVTDGTTLLGADDKAGIAEILTAIEQIKESRIKHGKIRIGFTPDEEIGRGADKFDVNLFGADFAYTIDGGELGELESENFNAATATFEIRGKSIHPGTAKDKMINAALIAGELSTMFPETQTPQHTEKYEGFFHIVHIQGTCDSAKVIMIVRDHDKKLFEDKKELCRKNSELLNKKYGKGTIKLILKDSYYNMKEIIEKKPEIVEYAKKAMENVGVTPIIKPIRGGTDGARLSFMGLPCPNIFTGGHNYHGRYEYIPVESMKKAVSVIVELSKIVSEI;locus_tag=LOCUS_07430;gene=pepT;EC_number=3.4.11.4;note=WP_010963798.1 peptidase T (Clostridium) [pid:55.8%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:2.2e-129],MGA_749
sequence1	MetaGeneAnnotator	CDS	829359	830117	.	-	0	ID=MGA_750;product=HAD hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861281.1;translation=MFFSDLDRTLIYSNKFEINNEVLIEEKNGEAISYISSKTLFLLKKLCNKNLFVPVTTRTQEQFERISLFKTKYAIIENGAKILINGKIDKEWESHIFNSFKNQSTKSDMIFKEFEKYKGNWILKEKNVDDEFYYFIIDVNNIPENINNFFRFLKINNWNYSIQGRKMYFIPNFISKEKAVSYVVNKESIKKYFASGDSNLDLNMVLQATYNLIPLHAEINRVNGLNFTKKSGIKASEEILEKYIKLFKSIIN;locus_tag=LOCUS_07440;note=WP_011861281.1 HAD hydrolase family protein (Clostridioides difficile) [pid:33.7%25%2C q_cov:96.0%25%2C s_cov:95.8%25%2C Eval:1.0e-31],MGA_750
sequence1	MetaGeneAnnotator	CDS	830117	831127	.	-	0	ID=MGA_751;product=cysteine protease StiP family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861280.1;translation=MKELPTKERERLIQSGKKHYSEMLPIEYEPGESYKKLFFSSLKKYKEKIALFTGILSEKIVSIKGKDIVLVSLARAGTPIGILVKRYIKNKFNLSIPHYSISIIRDRGIDEVALNKIIKEHTNSKIVFIDGWTGKGTIKAVLKNACNDFNLKYKTDISDELAVLADPCGCAEMSGTKEDFLIPSSCLNSVVSGLVSRTVLNDFIKENEYHGAKFYKNLKEFDLSNYYIDEIEKEFIKVLNLKKNLSRDEVNWNGKKEVDRIEKEFKVTNRNFIKPGIGETTRVLLRRIPDIILVNNYKDEDLEHIFILAKEKKVKVIEYPLRGYKCCGIIKKTGDA;locus_tag=LOCUS_07450;note=WP_011861280.1 cysteine protease StiP family protein (Clostridioides difficile) [pid:55.4%25%2C q_cov:99.7%25%2C s_cov:93.6%25%2C Eval:7.4e-101],MGA_751
sequence1	MetaGeneAnnotator	CDS	831202	832416	.	-	0	ID=MGA_752;product=phosphoribosyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454526.1;translation=MKTSQAYYKINDNLKVKVMVRENPFQLNINDLFEMAARINKKRAFLFVSKVLGKHIPVSPQKSIQYGKLLGELYYKNVYPYLSKKEKIFLPKHNIFIGFAETATALGHSAFSIFENCSYIHTTREINLNKEKIFDFQEEHSHATNHFLYSNEKHFFDNEYAIVFIDDEITTGKTILNFIKEINKKYSRKEYHVLTILDWRNDENIKKYEEFEEKFNIKINVHSLIKGSIEVFGKFDDTYTEKRIKKEIKDVEVNFYELDEKIDHLTGKFGTNSILQKELDDLVLRVAKKIDDTSKRKLVLGTGEFMYIPMKVACNLSGNVKYHSTTRSPIIPMNKKEYAIKNKFYLKNIYDESIDEYIYNILENEYDSLYIMYEKKGNNKLLNETINELKTTGIKKINVCFFER;locus_tag=LOCUS_07460;note=WP_004454526.1 phosphoribosyltransferase family protein (Clostridioides difficile) [pid:35.3%25%2C q_cov:95.8%25%2C s_cov:97.8%25%2C Eval:2.5e-61],MGA_752
sequence1	MetaGeneAnnotator	CDS	832382	833533	.	-	0	ID=MGA_753;product=HpcH/HpaI aldolase/citrate lyase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011028308.1;translation=MKHFSHLTNKELEKIFYIKPKEINKFSKKEMLERALGATLYIPGNKKSIANIIMENKIPGLSSIVLCLEDAVGENEVKSAEKNLIKNLKELSNVKNVPLMFIRVRNPKHFQEFVDEYYNYLDNIIGFVFPKFDTTNAIEYFEVLKKLNVKNNNNFYGMPILETNRVLNKRFRYNEFDELLKIFKSYKEYLLNIRVGTTDLSGLYSLRRNQYTTVYDISLLRDFFGDVINYFKAENFIISGGVWEYFEKCKTNRILKPELRESPFIEHYGSKGKRIRKNILNDYNDILIKEVLLDKENGFLGKTVIYPTHVIIVNSMMPVMYEEYIDALEILKNDGEGVLKSNFNNKMNEIKPHFKWAEEIVKKSEIYGVFNEDENFTSLLQDK;locus_tag=LOCUS_07470;note=WP_011028308.1 HpcH/HpaI aldolase/citrate lyase family protein (Streptomyces) [pid:35.1%25%2C q_cov:99.2%25%2C s_cov:98.5%25%2C Eval:1.5e-68],MGA_753
sequence1	MetaGeneAnnotator	CDS	833667	834596	.	+	0	ID=MGA_754;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945412.1;translation=MCRINPRVDFAFKKLFGTESNKQLLIDLINSIVSEEDKVKDIEIKNPYNEKNFKNDKLSILDIKAVDQKGHWYNVEMQIIDQEYYDKRALYYWSRVYSGQLFAGINYDNLKKTISINILNFKCLEEENYHNVYKIVNMESKKEFIDHLEIHFIELEKYDEKMSTMLDRWVNFLKKADIYEKDKLPKELEEVESIKKAVELLDEMSLNYEERESYEARLKWLRDEEAAIKTAENKGFKKGLSKGIEQGIEQGIEQGIEQGIEQGIEQGIEQGIKQKSIETAKKMLTKGLDKKLISELTDLSIEEIKKLDK;locus_tag=LOCUS_07480;note=WP_015945412.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:34.9%25%2C q_cov:98.7%25%2C s_cov:96.9%25%2C Eval:7.9e-46],MGA_754
sequence1	MetaGeneAnnotator	CDS	834632	836200	.	-	0	ID=MGA_755;product=bifunctional aspartate carbamoyltransferase catalytic subunit/aspartate carbamoyltransferase regulatory subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082131.1;translation=MKNDFLGRSLGVINDFSVEEQLFLYQQTKRLKEKWRNKESLDEFRIKNKDIGIYIVFIESSTRTKESFINAARFHRNARVSIFDSSHSSFNKKESYADTFNMLTGYSDYSIFVIRSKLEGTCKWLEQSTSEFALRNGLAIPSFINGGDGKHEHPTQEILDEFSFLEQKKWDTSHIHIALVGDLLHGRTVHSKVNGLKIFKEVTVDLIAPNELQMPHHYIEKMKMNGFNVRIFSSIEEYLKQKNIADTWYFTRLQLERMGEDILEKEQFLRKSVTFQKQFLDFLPQNVKFYHPLPRHKLYPTIPTFLDKLPLNGWEQQAINGYWTRTTLLSMMGGVLKTDFDTSKKIQEKKDTFIESAKVHNNFVPNKKSGIKPVDNGTVIDHIAKGKSNEEIYETMVKIRKVLKIYDSDSADGIFVSSDRKNKGYISLPNKYLTEKEIKKLSAISPEVTVNIIKNQHVEEKYRIHLPPKVYGFSKLRCKNENCISHPNNGEGIKGSFIRNKNGELVCEYCETPHTFEEIWNV;locus_tag=LOCUS_07490;note=WP_004082131.1 bifunctional aspartate carbamoyltransferase catalytic subunit/aspartate carbamoyltransferase regulatory subunit (Thermotoga maritima) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-218],MGA_755
sequence1	MetaGeneAnnotator	CDS	836401	837183	.	+	0	ID=MGA_756;product=FAD binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434058.1;translation=MLNIKEYVVPKTLKEAHDLYMMRKDSELIGGGVFLRLSPRTINMGIDLSNTELDFIKNEENHIEIGGYTSFRKIEMSKCINENFKSIVTALKNVGGVQLRNMVTIGGSIYPKYGFSDLITVLLSLNTKVYLYDREENLDTFLTQKRERNILKKISIKKDVLKTSYQTLRNSKSDFGILNVAVSKFEKGFKITVGARPGIAKLAIDGMEFISSNINEKSIEKCSEIVANELSFDTDIRATKEYRKEMCKVLVKRGLKEVIL;locus_tag=LOCUS_07500;note=WP_003434058.1 FAD binding domain-containing protein (Clostridioides difficile) [pid:47.7%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.9e-60],MGA_756
sequence1	MetaGeneAnnotator	CDS	837180	837635	.	+	0	ID=MGA_757;product=2Fe-2S iron-sulfur cluster-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009902988.1;translation=MKINIKINNLNKTFNIDNYGISLLDLLRREGYKSVKKGCDTGTCGVCTVLLDGKPILSCSLLAIKANGHEVTTVEGVSEEAKIIAEYITAEGGDQCGFCGPGLVMAIMGLKNENLEINSESVKEYLAGNLCRCSGYEAQHRGIMKYLEVEK;locus_tag=LOCUS_07510;note=WP_009902988.1 2Fe-2S iron-sulfur cluster-binding protein (Clostridioides difficile) [pid:49.0%25%2C q_cov:93.4%25%2C s_cov:94.6%25%2C Eval:4.1e-36],MGA_757
sequence1	MetaGeneAnnotator	CDS	837632	839926	.	+	0	ID=MGA_758;product=molybdopterin-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897245.1;translation=MKEVKKSIPKVDGVGLLMGKPAYTNDLAPQDALIVKILRSPHPFAKIISINTDEALSIEGVECILTHKDFPKKIFTRAGQGYPEPSPYDKFVLDEYVRYVGDEVAAVAAINEEVAEKALKKIKVEYELFEPVLDFKKAKDSKIIHFEKEAHSMFEIGFNPERNIAASYNMNVGNVEEELKKCDVVVESKYYTQPQAHVMLEPMVATSFIDYMGRLNVITATQVPFHIRRILSNVLNLSINKIRVIKPRIGGGFGGKQAIHGEPYVAMVTLKTGKPAKIIYTRKEVFEATYSRHEMEFNIKIGADKDGLIKAIDVDVLSNTGAYGEHALTVFMVAGSKTLPLYNKVNAVRFGGDVVYTNLTPAGAYRGYGAIQGNFALESVIDELAEKLKISPVEIRTKNMIKEGETSPIFKIMGEGREGVEMNIQSCKLDYCVKRGMELIKWNEKYPKKAYGNKIRSVGMAIAMQGSGIADIDMGSAILKLNDDGSFNLLVGATDLGTGSDTILSQIAAETLGVSTDKIIPYSSDTDLTPFDTGAYASSTTYVSGNSVRIAAENMKKMILEEGSKNLGTDKVHFNGEEIIRDDNKNKISLKQLSELLYYSMNQKQLVADGSYVGKKSPPPYMASFVEIELDTETGKVEVINFVSVVDCGTPINPNLAKVQVEGALVQGIGMTLYEDINFSNGKMRNNTLMTYRIPDRRDVKKLTVEFAESYEPSGPYGAKSVGEIGIDTPPAAIANAIFNATGVRIRSLPITPEKVFKAMEMKK;locus_tag=LOCUS_07520;note=WP_009897245.1 molybdopterin-dependent oxidoreductase (Clostridioides difficile) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-229],MGA_758
sequence1	MetaGeneAnnotator	CDS	839923	841110	.	+	0	ID=MGA_759;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393494.1;translation=MKYKLKCISCGQTFEKDEVEYTCPKCGNRLGTLEVIYDYDSINIKKSDFEKNAPLWQFEKILPIEKNSYKTHLYVGGTPLYKFKNFDGVDLLIKYDGSNPTGSYKDRASAIAVTKAIEKNYDTIYCASTGNAASSLAGISAPTKLKTHIFLPASAPIAKISQLFVYGANVIAIDGSYDKAFDISLEIGNEKGWYCRNSAINPYLLEGKKTGALEIIVQNDFIVPEYIMVSVGDGTVISSLYKGFYDFYMTGITNKIPKIIGVQAENAASIKKAFEDGEPFKPHDLEAKTIADSISVGKPRDVIKACKYVKKSKGTFISVSDSEIIEAIGELAVKTGIFSEPAGAVPYAGFKKLNKNKFFNGSVCIVVTGNGLKDIKAVDSFVDLKVYKHKEDIKI;locus_tag=LOCUS_07530;EC_number=4.2.3.1;note=WP_011393494.1 threonine synthase (Moorella thermoacetica) [pid:43.7%25%2C q_cov:94.2%25%2C s_cov:91.8%25%2C Eval:4.3e-82],MGA_759
sequence1	MetaGeneAnnotator	CDS	841200	843818	.	+	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYDIIKLIENKKYNNALLEIEKINNNKWEKYNLKGLIYFYLNEFEKSKEEFEKGLKIDPINPDLLYNYSHVLISLEKELEAWKYLMRIKEKDWSIYDILGDIEFKNRSKTSAIKFYNKAYELNKKNEMAKKLLEQRKKIKKNIKVSFFCSPGLETFVKPIAREMAYEYNVNLIISNNPEEIKKEIKRSDIIWLEWGNEVANFVTNNVDLKDKKVICRIHGYEVFTDIPKQIKWDVIDHVFFVAEHKKDLFFKRFGNIINPKKISILRNGIDLNKFPYFPKKTPGKNLVIIGNINYRKGFEILLMAFKELIKKDDSYKLYVRGNFQDLRYKMAIETMIKEMSLEKHITFVPRIEDLGEWLKNMDFILSTSIEESFHSTVGEAMAIGLKPIIHAWKESRKIWPEENIFNDIDGFLNLILNADYNSEQYRKFIEDNYTFEKQISQIEKTFEKLEKDIKKDTYTFEEKKILRFTFSNSSEKKYIWYVMNEFEKFQYGGGERVIASFSREAKKYGYKIILISNNYSKKSLDIMKDINFKGEILIINTPLSEYPEDIEKIMDFEKELKNIKNIFPPELVIGHPVTTSLWLEKTKNKLNLNIKHYLTTIVNFFIGNPNKNIKFYKENTNNILFIDALTKEYLELKLGIKNYKPDSHYHYVGVPYFSINKLKNISLNNNFDDKIRIITYPRLVYTKSFLLNAVEDMAKLINNGYEFYVNIVGKGGFSNIMREIIKFHRVEKFIKIIPMEKIDFRFVSIHDLAINTGVSAIETSYLGIPTIHADTTLWFNFINGYTGYVNPRGILGKDFKLKDPTFDFYKYNTYFDIIKNILDKENPKRYLRNVSKDVRKNTIKDLDFYDEKQVFKNILKKSNLLKGELL;locus_tag=LOCUS_07540;note=WP_004080950.1 glycosyltransferase (Thermotoga maritima) [pid:33.9%25%2C q_cov:61.4%25%2C s_cov:54.7%25%2C Eval:4.1e-92%2C partial hit],MGA_760
sequence1	MetaGeneAnnotator	CDS	843815	844585	.	+	0	ID=MGA_761;product=glucose-1-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987009.1;translation=MKVVILAGGYGTRLEEETTRIPKPMIQIGRKPILWHIMKIYSYYGYNDFIICLGYKGYIIKEYFINYHKHMSDMTIDLSSGNIEIHNSYTENWKVTLVDTGLNTMTGGRIKKVKKYIGNETFMLTYGDGVGDVNIKKLVEFHRSHGRLATITVTQPIGRFGVLDIDNNNVVNSFIEKPKSDKSKINAGFFVLEPEVIDYIDDKHTAWENGPLEKLAREKNLKAYQHNGFWKPMDTLRDKHELENLWNLKKAPWKIW;locus_tag=LOCUS_07550;gene=rfbF;EC_number=2.7.7.33;note=WP_011987009.1 glucose-1-phosphate cytidylyltransferase (Clostridium botulinum) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-94],MGA_761
sequence1	MetaGeneAnnotator	CDS	844598	846115	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFEKPLFVFEMANNHQGSVEHGKRIIHKIKKVIKEFEDVFNFAFKFQYRDLDTFIHPDHKEDFSYKYIKRFAETRLSEEDFLELKKTVEENGFISMCTPFDEKSVERVISHNYDIIKIASASFTDWPLLEKITQYDKPVIASTAGSSLNDIRNVVYFFKHRNKELSIMHCVASYPTPKEKLELNQIDLLKKEFSDITIGFSTHEDPNNFDAIKMTIAKGAWIFEKHVGVETENIKLNAYSAKPEQIYKWLLSAKDAFIMNGIIGKRYEFPKAELESLHNLKRGIYAIRDIKKGENITLNDVFFSIPRQEQQYSANDMSKYKNFIAIENIKKNDPIEKNNVEIKDLYPEIKNYVKSILDIVKKSNVVIPENSLCELSHHYGLDKFNEYGATIIEIINREYCKKIIILLPGQKHPTHYHKQKEETFNVLYGDFTIKIDDKEKTYKPGDVIVVKRNKKHSFYSKKGAVIEEISTTHYKDDSYYDDEKVQSNKHRKTKIYLTEDILSY;locus_tag=LOCUS_07560;note=WP_010870578.1 N-acetylneuraminate synthase family protein (Methanocaldococcus jannaschii) [pid:31.7%25%2C q_cov:67.7%25%2C s_cov:95.0%25%2C Eval:2.8e-31%2C partial hit],MGA_762
sequence1	MetaGeneAnnotator	CDS	846126	847262	.	+	0	ID=MGA_763;product=FkbM family methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_144351381.1;translation=MNYKKELKKLFIKEYIPNNKKYSIHEIIKNKKIVLYGFGSGCITFFTIVINRYKNIKIDKIIDKNPSKKTYNNIPVIKPEELNIDIPENYVIIITIGKKEYYKEIVNTLKNLKLNNIIFVNDIYEYHLHFTNKEIEKKGFYFYLENKEKILKTFNYFKDDLSKKIFIKYLKTHIYKIPQVIPNGNIKNQYFPYDIKLNYNRFINCGAYNGDTIKQLNQKIGKVETIVCFEPDKNNYSKLIDYLNNNKENIAEYILTSPCGVYSENKILYFDEGNNTNSRVNKNGNVAIQVIKLDDVLLNYSPTLIQMDIEGSELEALYGAKKIIKENIPDLSICVYHTPEHMWEIPLFIKSLYGKYQLYLRNYTGYISETVLYAVKGE;locus_tag=LOCUS_07570;note=WP_144351381.1 FkbM family methyltransferase (Sporomusa termitida) [pid:27.8%25%2C q_cov:95.8%25%2C s_cov:89.3%25%2C Eval:6.2e-22],MGA_763
sequence1	MetaGeneAnnotator	CDS	847267	848538	.	+	0	ID=MGA_764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKPLKTNRGLNIKSLKKLVKNKEIYIWGTGQLGRSLKRMLNKNNINIFGFCDSNKNIENSNIDTSKVYSPEKIIIKAQKNEAFLILAAAQSRHEMEKICIDNNLNKNEDFISYIKLQRPEAIIEISGDCNLNCNFCPQGNLKLKKGIMNFYTYRKVLSKLMLDIPNLFNIQLSLWGEPLLNPEIDKIITLSEKYIPVSIQTNLQITKNIEKLIKSNPTQIIISVSGFDKNYSKYYDNASWDTFKNNVDFLYNLISLYKSKTQISFLFHLYKDNRNDYEKIKEYLKKYNFKVSPSWAYLNPYNHLLYYLKYGIINYKIKNVLNSLAWDFEKIIPIIKNEIGKPCLCQRLFPIINWDLSVLQCHLYYNKIHNNYLDIPYDELLKLRHNQQICKKCQKYGLHRLDIDILLRKYSEERILGRLENE;locus_tag=LOCUS_07580;note=WP_167827587.1 radical SAM protein (Pyrobaculum islandicum) [pid:23.4%25%2C q_cov:35.7%25%2C s_cov:45.1%25%2C Eval:8.5e-07%2C partial hit],MGA_764
sequence1	MetaGeneAnnotator	CDS	848531	849694	.	+	0	ID=MGA_765;product=iron-containing alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080839.1;translation=MNNFIFQNPTKIIFGKETIEKIGDELKKNNIKKVLIHYGGGSIKKNGVYDKVVISLKENNIEFIEVSGVKPNPRLSKVIEGIEFAKKNNVDGILAIGGGSVIDSAKAIAGGFFYDDYIWNAFATKNRFKKALPLFVILTLSATGSEMNGNAVITNEKTNQKWTTSGLALYPKVSIIDPTVQFSLPKKQTINGAVDAISHAMEFYFDGTKNNEIQLQLAESIIRTIITTTEILLGNPEDYDARANLVWSATLALNGLLSTGTKGGDWSSHELEHSLSALFDVSHGEGLAIIFPAWLKYNYNEHIERFDRFALKIFNIDTGNPSIDAKLGIETLIEWYKKIGQPTTLKEIGITENNIDKLVENATQKEYIGRLKRLSKEDIINIYKLAL;locus_tag=LOCUS_07590;EC_number=1.1.1.1;note=WP_004080839.1 iron-containing alcohol dehydrogenase (Thermotoga) [pid:57.0%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:5.6e-127],MGA_765
sequence1	MetaGeneAnnotator	CDS	849709	851001	.	+	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKQHSKVHVNYHIYTVKDAKEMFKNRDIYIWGAGQKGRGFLKALQRNGFNVKAFLDSSPLLIGTTYENIPILNPIDVLENKKLLNNAYILTASVDKKNKEMFKICESYDLKKGQDFINIQKFTPYYPVIEISGACNLKCISCPRGDSRNRFKKNGFMSIENYKKVIKKLIKEMPFLYLVDLYIWGDPLLHSDLDKIIKINNEYGIASGISTNLNYGKYLEKVIKAKPPQIRISVSGYGPEHYEITHTGGKWDVFYNNLLKLHDYIEKYKTNTIVEVYFHVNKINIGEYIKVKELCDNLNFRLNSTISMVFHDYALEYVETGKLPENAKKGTELMLVSLDEMLEDAKREKEKDCLLKRIVPVINWDLSVMPCCNYIYRKLADNYLEISFEEIIKLREEHPLCKTCQKHSLHRYFNPLYYIELVEKKLKNI;locus_tag=LOCUS_07600;note=WP_048146790.1 radical SAM protein (Pyrococcus abyssi) [pid:30.6%25%2C q_cov:43.5%25%2C s_cov:44.8%25%2C Eval:3.4e-11%2C partial hit],MGA_766
sequence1	MetaGeneAnnotator	CDS	851127	852449	.	+	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKQHSKVHVNYHIYTVKDAKEMFKNRDIYIWGAGQKGRGFLKALQRNGFNVKAFLDSSPLLIGTTYENIPILNPIDVLENKKLLNNAYILTASVDKKNKEMFKICESYDLKKGQDFINIQKFTPYYPVIEISGACNLKCISCPRGDSRNRFKKNGFMSIENYKKVIKKLIKEMPFLYLVDLYIWGEPLLNPDLSKIIKINNEYGIASGISTNLNYEKHLEKVIKSKPPQIRVSVSGYGPEHYEITHTGGKWDVFYNNLLKLHDYIEKYKTNTIVEVYFHVNKVNIAEYIKVKELCDNLGFRINLTISRVFHDYALEYVETGKLPENAKKGAELMLVSLDEMLEDAKREKEKDCLLKRIVPVINWDLSVMACCDYIYRKLEDNYLETSFEEIIKLREEHTLCKTCQKYALHRYSNPLYYTKFVEKKIKTYTKLSKDENNA;locus_tag=LOCUS_07610;note=WP_048146790.1 radical SAM protein (Pyrococcus abyssi) [pid:31.1%25%2C q_cov:42.5%25%2C s_cov:44.8%25%2C Eval:6.0e-11%2C partial hit],MGA_767
sequence1	MetaGeneAnnotator	CDS	852442	853560	.	+	0	ID=MGA_768;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545547.1;translation=MRKCRICGNETINLFKIENMPSRSQFFPTEEIINMDKPITLNIVQCSKCGLVQLDNEPVSYYKEVIRATSVSSKMKKFRLHQLKTFIEKYKLYKKKGIEIGCGNCDYLDILNELDIEIYGIEFSEKNIKICKEKNLKVFKGFIENEIYKIPKKPYDIFFIFNYLEHIPNPIIFLKGIWNNLTENGIGIIEVPNFNMILKEKMLSEFTIDHLSYFTKNTLELTLKLSGFEILEINEIWNDYILSAIVRKRNLINVEDFDNFKTILKKNIDDFIKENNDFAIWGAGHQALAIIAMTNLNKKCKFIIDSASFKQNKYTPATHIKIVSPEYLRKHNVKSILIMAGSYSDEIAQILKKEYPDIKNYILKQNKIIRNN;locus_tag=LOCUS_07620;note=WP_012545547.1 class I SAM-dependent methyltransferase (Thermodesulfovibrio) [pid:27.5%25%2C q_cov:94.4%25%2C s_cov:94.5%25%2C Eval:4.5e-25],MGA_768
sequence1	MetaGeneAnnotator	CDS	853590	854720	.	+	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKINYKVQKNESMKRNLLKETKPYVYEKILKFEEKVKKGESIAIIQFQYNYACNFNCAHCGISQLRKPEARSFTPKDVEELSRQADEMGLAHFVITGGEPLVFSDLDDVIRAIDPKKFYISLDTNGWFFDEEKAFHLKEIGVDKIQLSLDSLDEKEHDEFRRKQGSHERALRAIDAAKKAGLNIIIQTVVTKQRVHSQEFENFLKFLNSKDVGVFITYAKPVGNWEGNYDVLVTREDMEYVRNLEKKYNVFTHLTPGYGLDLGCIAVKRMISVTQYGEVMPCPYIHASLGNVFEEPLKDIIERGLNIKWFGKYVDTCLIAEDKHFIEEYDSKRIYGNKPLPVPWFKVFDENDFIKNEKELKAEKTKNGYLRWRK;locus_tag=LOCUS_07630;note=WP_048065913.1 radical SAM protein (Methanosarcina acetivorans) [pid:30.1%25%2C q_cov:66.8%25%2C s_cov:64.9%25%2C Eval:8.6e-24%2C partial hit],MGA_769
sequence1	MetaGeneAnnotator	CDS	854724	855767	.	+	0	ID=MGA_770;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_160648704.1;translation=MYKNPLSEDLDFIIKKLEKDIYKLKNENIFITGGTGFFGKWFLETLLYANEKLDLNIHIGILSRNPERFKKLYPHLNDEKFITFYKGDIRDFKFPEEKFSYIIHGASASAEGWFRGDSQISRFNIITDGTKRILDFAKNSKIKKFLYMSSGKVYGTHPIFYDKIPENYCGNLCLDDPNAALSIGKKSAEFLTLQYSKEYNFNVAIARGFAFVGPYLQLNLHYAIGNFIRDAINNKSIIIKGDGTPIRSYLYAADAIIWFLKILLNSKNMRIYNVGSEKDYTIKEIAEIVSKSVSPKVDIIIKKSKIDDNVDKYIPSVEKIKSELNVDEYTDIYTLIMKTIRFYKERG;locus_tag=LOCUS_07640;note=WP_160648704.1 NAD(P)-dependent oxidoreductase (Photobacterium alginatilyticum) [pid:41.2%25%2C q_cov:96.5%25%2C s_cov:96.4%25%2C Eval:2.1e-66],MGA_770
sequence1	MetaGeneAnnotator	CDS	855856	857547	.	+	0	ID=MGA_771;product=biosynthetic-type acetolactate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002470298.1;translation=MHLVDSLGKNKKLKYITNLNEQAVSISVESYAEATNNIAVGLVTTGPGGTNSITGVAAGWVDFIPMLMISGQVKRADMIGNSGVRQKGFQEIDIISLVKPITKYAVTVMNPEDIRYHLEKAVYLAKSGRPGPVWIDIPLDVQAAIIDEKNLKGFIPSEEKKNNNLEIAIEKVIELIKKSKRPVILAGNGIRLGNAEELFQSVIRKLNIPVLLTWKVIDFLDENDPLNFGRPGAIASRYANFIQQKSDLFISIGARLDTGQTAYNHKNFAPNAKKVIVDIDINEINKLNMDIELKIEANAYDFLEILNKKIQNITFEKKEKWINFCSELKNKYPIILEEYYKEKDFVNPYVLIDILSQKLTEKDAVIPGSSGICSEITMQSFKVKKGQRVYNNEGFGSMGFGLPASIAGTIALNRRTVCITGDGGIQMNIQELETLRRLNLNLKCFVLDNNGYGSIVNTQNNYFKGNYVGSNEESGLTLPSMEKLSKAYNLKFYEIKNNDYLIKYIDEILEYNGPVICNVKIPETFTTMPRTKSKVENEKIITLPMEDLWTYLDREEFNKIMSF;locus_tag=LOCUS_07650;gene=ilvB;EC_number=2.2.1.6;note=WP_002470298.1 biosynthetic-type acetolactate synthase large subunit (Staphylococcus) [pid:32.3%25%2C q_cov:94.0%25%2C s_cov:88.8%25%2C Eval:1.0e-66],MGA_771
sequence1	MetaGeneAnnotator	CDS	857558	858205	.	+	0	ID=MGA_772;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963740.1;translation=MSYKYLFFDMDGTLFDTSEGIIYSMKKAYELNNLKPLEENEIIKLIGPTLDEIMNMLFKEDSKLKIKVRNDFRQIYASKGVFKLQLFPKVIKTLEILFKRNKKMYIITSKPSIFAEQIIEKFNMSKYFQKIFGVPLEGKIPSKSKRLKYLIRELNIPVKESIIIGDTESDINAGKYNNMDIICVKFGFCKNHEYLKNSCSYIINSFDDIFNIVGE;locus_tag=LOCUS_07660;note=WP_010963740.1 HAD family hydrolase (Clostridium) [pid:32.2%25%2C q_cov:96.3%25%2C s_cov:95.8%25%2C Eval:5.3e-28],MGA_772
sequence1	MetaGeneAnnotator	CDS	858207	859295	.	+	0	ID=MGA_773;product=CDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202465.1;translation=MKNFYKNKKVLITGHTGFKGSWLTIWLLKMGAKVIGYALDPYTQKDNFVLSKLSEKIIDIRDDVRNYDNLKNTFEKYKPDIIFHMAAQPLVRLSYKMPRDTFETNIMGTVNVLEAFKNTEESKVLINITSDKCYENKEWIWGYRENDPMGGYDPYSASKGASEIVSNAYLKSFFNPEKFNKHKKAIATVRAGNVIGGGDWAKDRIIPDCIRALEKDIPIEIRNPNAIRPWQNVLEPLSGYLLLGTKLLKNPKKYSGSWNFGPHLNSIITVREIVEKVIENYGNGFWKDLSNNTQPHEAKLLNLDISKSKFYLNWEPTLNISETINLTIDWYKNYKKENVYELCMKQIKYFENKKTGRRTNNG;locus_tag=LOCUS_07670;gene=rfbG;EC_number=4.2.1.45;note=WP_011202465.1 CDP-glucose 4%2C6-dehydratase (Bacteroides fragilis) [pid:58.6%25%2C q_cov:97.2%25%2C s_cov:98.1%25%2C Eval:1.3e-122],MGA_773
sequence1	MetaGeneAnnotator	CDS	859288	860583	.	+	0	ID=MGA_774;product=lipopolysaccharide biosynthesis protein RfbH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000126347.1;translation=MDKLRKEILELTKKYAKNKIKKEFIPGKTTIPFARRVFDEEEYMNLVESSLDGWLTTGRFSEKFEYEFAKFFGIKSVSLVNSGSSANFLALTALTSKKLGERKIKQGDEIITVAAGFPTTVNPIIQNNAIPVFIDVDIPTYNIKASEIEKAITKKTKAIMIAHTLGNPFNLDEVMRVAKKYNLWVVEDVCDAVGSTYNGKLVGTFGDIATVSFYPAHHITMGEGGAVLTNNLQLEKIVKSFRDWGRDCYCEPGFSNTCGMRFKQQHGTLPFGYDHKYVYSHIGYNLKLTDMQAAVGVAQLKKLPEFIEKRKKNFKLLKEGLKQFEEYLILPEATSKSDPSWFGFPITVKENKKFSRWDIVTYLEENKIMTRMLFGGNLTRQPAYEDVNYRIHGELTNTDIIMNNTFFIGVYPGINDEMIEYIQKTFKNFIN;locus_tag=LOCUS_07680;gene=rfbH;note=WP_000126347.1 lipopolysaccharide biosynthesis protein RfbH (Salmonella) [pid:62.2%25%2C q_cov:99.3%25%2C s_cov:98.2%25%2C Eval:2.2e-159],MGA_774
sequence1	MetaGeneAnnotator	CDS	860710	861525	.	+	0	ID=MGA_775;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987021.1;translation=MRINHNLNAINAWRNLGHTNTMIGKSLEKLSSGLRINRAGDDAAGLAISEKMRAQIKGYDMATKNAQDGISLIQTAEGALTEVHSMLQRMREISVQAANDTNNTEDRNALKKEITQLQTEINRIGSTTKFNGKSLFAASQSFSLQIGPDKDTNLVLNVKSQAVTTGTLTISGISITSNSAAQGAIASIDNAIKVVSSLRAQFGAYQNRLEHTVNNLSVSSENLTAAESRIRDVDMAKEMMKFTKQQILLQSSNAMLAQANQAPQQVLSLLR;locus_tag=LOCUS_07690;note=WP_011987021.1 flagellin (Clostridium botulinum) [pid:59.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-78],MGA_775
sequence1	MetaGeneAnnotator	CDS	861573	862388	.	+	0	ID=MGA_776;product=flagellin Hag;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_166847803.1;translation=MRINHNLNAINAWRNLGHTNTMIGKSLEKLSSGLRINRAGDDAAGLAISEKMRAQIKGYDMATKNAQDGISLIQTAEGALTEVHSMLQRMREISVQAANDTNNTEDRNALKKEITQLQTEIDRIGSTTKFNGKSLFAASQSFSLQIGPDKDTNLVLNVKSQAVTTTKLGINSLAIDSNTNAQSAISSIDVAIKKVSSLRAQFGAYQNRLEHTVNNLSVSSENLTAAESRIRDVDMAKEMMKFTKQQILLQSSNAMLAQANQAPQQVLSLLR;locus_tag=LOCUS_07700;gene=hag;note=WP_166847803.1 flagellin Hag (Bacillus rugosus) [pid:60.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-81],MGA_776
sequence1	MetaGeneAnnotator	CDS	862436	863251	.	+	0	ID=MGA_777;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987022.1;translation=MRINHNLNAINAWRNLGHTNTMIGKSLEKLSSGLRINRAGDDAAGLAISEKMRAQIKGYDMATKNAQDGISLIQTAEGALTEVHSMLQRMREISVQAANDTNNTEDRNALKKEITQLQTEINRIGSTTKFNGKTLFTSTAAFSLQIGPDKDTNLVLKVSSQSITTTKLGIGSINIASNTSSQIAISNIDGAIKQISSLRAQFGAYQNRLEHTVNNLSVSSENLTAAESRIRDVDMAKEMMKFTKQQILLQSSNAMLAQANQAPQQVLSLLR;locus_tag=LOCUS_07710;note=WP_011987022.1 flagellin (Clostridium botulinum) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-79],MGA_777
sequence1	MetaGeneAnnotator	CDS	863319	865829	.	+	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISACLIVKNEEGNIERCLKSLKNEVDEIIIIDTGSKDNTVSLCKKYTNKIYFKEWKNNFSEARNYSIEKATGDWILIIDADEELYLKNVNLKAIVLEAHKNNYKVITPLNINYLSFDYSSYDEFNLPRLFLKNNIKYVRSVHNQPVYKGKEFYTSKIIIKHYGYLWTESLKIKKLKRSYPLILNEIDNFKNKNTETFIYYVGQKLKLDLISENNYIFLKDFYKYKDIIFKNADKSAMSIENIKDYIYIIQKYGKINEAEKNTKLFYSINNINPDIALIMANFYYKIKNYEKVIEYFEIFLNSLYLYYKNIDKITFSTMYNSILFKAFKMLFSSFTKSNKKIFINIKNEKLLFIYNNNNFSSLSELYFYFLLKDLNIENLNKPKLLKKDYIENIIDINFDKYAKKLNEKTKETLYYILLSYSIYYGNIQIIENNFFEYLENSFNSSDLAINLIFLEEIFNLINKNIFYKIILKKIGNDSKIWKFFEAFYYFRVGDRLKSLAFFNINKDIHKGSLRDSIKYKVIKDIEITNSLLIKHPYTLSSLEHNKNLYKNEKTFHNYLYKKIKSNTSLEFSTFINLLNYKSTKMSIINNYFDLYEKNRSLDILNNAMEIFNSLLNKKNIDIEELKIYLKNISTKFNNPYVITPHWALIYYNDFNKKNNSCFNPKDKIKKISIPAFNYNEDIEISFFNIWRENSFMYYKEKILSKKDNNILINYFKKDLEKLVDYFDNFIDFSNKTLLINTNNNYGIIGKNKYDFNISNYKNAIIFLPEILDFDIKEFIFNSLNVLDEILVITLKDIEECFDNPYTNYYIKNKIFFKNNFKLVFNNEKYNFFKK;locus_tag=LOCUS_07720;note=WP_004080948.1 glycosyltransferase (Thermotoga maritima) [pid:28.4%25%2C q_cov:57.3%25%2C s_cov:56.3%25%2C Eval:2.4e-41%2C partial hit],MGA_778
sequence1	MetaGeneAnnotator	CDS	865868	867370	.	-	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDSNSYMGMFQIGGLASGIDTKSIVEKLMEIETQPLKKVQTNFDELKYKQKSWTEINDKLQGFWDYMTTFSFQKNLIPKKAESADTDKVEATALSTSSNIDFYVKTTQLASSSYIKGTADSAITTASTLSDLSALDGDTLTFTVDGNAVTLNIKDDGTGDLKTTDTIQTLTDVINSKTDSNMIFEDGQVFVLNKNTGDKSLQIDSSNANILDKLFSTGTATTLTDVANGVTGSNANVEISFDGSTTHMTLTESSNNFNFNNVTLNIKSVDTSFTKISVSQDIDKSVEKIKEFVDKYNDVMNFLYDKLNENKVTDKAESDMTDEDKMKGLLKGDSNLENLFYKIKNIGYSQLNLVNNTNDYTSLYSIGVSSGDLEGNYSNTEKGLLSVDEEKLKEALNNNAHDVWNLFALNDLNNEEYGIGTQLKNYLWDTTKFGGYIDQISGTTGTIGVQMRSLAKEMVTMLDNVHKKEAYYNMKFSAMEQAINNMNSQGSYISQAFSK;locus_tag=LOCUS_07730;note=WP_004080294.1 flagellar filament capping protein FliD (Thermotoga maritima) [pid:32.8%25%2C q_cov:76.8%25%2C s_cov:59.4%25%2C Eval:2.6e-53%2C partial hit],MGA_779
sequence1	MetaGeneAnnotator	CDS	867500	868075	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFKGILFTPKDEFYSFKNFFHKNDDTIIIKDIEPEKLELTTSSGFVSYFLVEEFERVYGIKRYLKPDYRMKKYLKTMYVDYISDEIRELYGDYIEVISKYMGLGVVIESLNELIKTQDVISNYEFWIDDLAKNVEGKYREAVSQKITKFANIYLIKVYEKLFQKNIELLSIHSSEITYKILETSLIQKTF;locus_tag=LOCUS_07740;note=MGA_780
sequence1	MetaGeneAnnotator	CDS	868091	869638	.	+	0	ID=MGA_781;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKRFNTTGVCVPKKHYMVNIENKLNQIMNLIENGEYFTINKPRQFGKTTTMFLLEKKLKNKYTVISISFEGIGDVPFQNEEVFSETFLNLMKKSLSFTNKEVSEKIKDNKMSMSQLSEEITRINKLTNKKIVLMIDEVDKSSNNQLFLNFLGMLRTKYLEANKEKDYTFYSVILAGVHDVKSLKTHIRPNEEIKYNSPWNIAVDFDIDLAFNPDEISTMIVDYYKDRGYELNNVKHISEKLYYYTSGYPFLVSKLCQIIDEEMKVEKEWSDEILQDAVKIILKKQNTNFESLIKNLENNEDIYNLVYKIIIDGKEIKYNIDNPTINLCLMYGILKNKKGTLKVQNKIYEQRIYDYMASKIETSQNVDTERYNFRDNFIIGDKLNMELVLKKFQLFMKEQYSEKDVNFVERNGTLIFLAFIKPIINGKGFDFKEVQISEEKRLDVVITYSKYKYIIEMKKWYGEEYHKRGIKQLEQYLDINNQNKGYLVIFDTRKKSNKKQENIKIKNKEIFAVWV;locus_tag=LOCUS_07750;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:51.9%25%2C q_cov:95.5%25%2C s_cov:94.6%25%2C Eval:8.0e-143],MGA_781
sequence1	MetaGeneAnnotator	CDS	869658	871187	.	+	0	ID=MGA_782;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKRFNTTGVCVPKKHYMVNIENKLKQIMKLIENGEYFTINKPRQFGKTTTMFLLEKKLENEYTVISISFEGIGSIIMEDEKEFVQSFLEDITDSLNIKIDKKIIKTMKELSKTITKIAKASEKKIVLMIDEVDKSSNNQLFLNFLGMLRTKYLEANKGKDYTFYSIILAGVHDVKSLKTHIRPNEEIKYNSPWNIAVDFDIDLSFNSDEISTMIVDYYNDRGYELNNVKYISEKLYYYTSGYPFLVSKLCQIIDEEMKVEKEWTDEVLQDAVKIILKKQNTNFESLIKNLENNKKLYNFIFDLIINGMEYEYNKFEPIIHFAEIYGIIKDDNGKVKIQNKIYEQIIYNYMISKLSIASRQDFSRYNFRDNFIIGDKLNMELVLKKFQLFMKEQYSEKDVNFVERNGTLIFLAFIKPIINGKGFDFKEVQISEEKRLDVVITYSKYKYIIEMKKWYGEEYHKRGIKQLEQYLDINNQNKGYLVIFDTRKKSNKKQENIKIKNKEIFAVWV;locus_tag=LOCUS_07760;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:51.1%25%2C q_cov:95.5%25%2C s_cov:94.6%25%2C Eval:3.9e-142],MGA_782
sequence1	MetaGeneAnnotator	CDS	871207	872760	.	+	0	ID=MGA_783;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKRFNTTGVCVPKKHYMVNIENKLKQIMKLIENGEYFTINKPRQFGKTTTMFLLMKKLRKTNNYLPIKISFEGIGDMPFQNEEVFSKTFLSLIKRNLIFTDEEISEKIEIKKMSMNQLSEEITRINKLTNKKIVLMIDEVDKSSNNQLFLNFLGMLRTKYLNQIEEEDKSFYSIILAGVHDVKSLKTHIRPNEEIKYNSPWNIAVDFDIDLSFNSGEISTMIVDYYNDRGYELNNVKYISEKLYYYTSGYPFLVSKLCQIIDEEMKIKKEWTDEVLQDSVKIILKKQNTNFESLIKNLENNEDIYNLVYKIIIDGKEVKYNMYNPIINLCLMYGILKNENGTLKVQNKIYEQLIYDYMASKIETSQNVDTERYNFRDNFIIGDKLNMELVLKKFQLFMKEQYSEKDVNFVERNGTLIFLAFIKPIINGKGFDFKEVQISEEKRLDVVITYSKYKYIIEMKKWYGEEYHKRGIKQLEQYLDINNQNKGYLVIFDTRKKSNKKQENIKIKNKEIFAVWV;locus_tag=LOCUS_07770;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:52.2%25%2C q_cov:95.6%25%2C s_cov:94.6%25%2C Eval:1.5e-144],MGA_783
sequence1	MetaGeneAnnotator	CDS	872780	874327	.	+	0	ID=MGA_784;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKRFNTTGVCVPKKHYMVNIENKLKQIMKLIENGEYFTINKPRQFGKTTTMFLLEKKLKNKYTVISISFEGIGDMPFQNEEVFSETFLNLMKKSLSFTNKEVSEKIKDKKMSMSQLSEEITRINKLTNKKIVLMIDEVDKSSNNQLFLNFLGMLRTKYLESNKGKDYTFYSIILAGVHDVKSLKTHIRPNEEIKYNSPWNIAVDFDIDLSFNSDEISTMIVDYYNDRGYELNNVKYISEKLYYYTSGYPFLVSKLCQIIDEEMKVKKEWTDEVLQDAVKIILKKQNTNFESLIKNLENNKKLYNFIFDLIINGMEYEYNKFEPIIHFAEIYGIIKDDNGKVKIQNKIYEQIIYNYMISKLSIASRQDFSRYNFRDNFIIGDKLNMELVLKKFQLFMKEQYSEKDVNFVERNGTLIFLAFIKPIINGKGFDFKEVQISEEKRLDVVITYSKYKYIIEMKKWYGEEYHKRGIKQLEQYLDINNQNKGYLVIFDTRKKSNKKQENIKIKNKEIFAVWV;locus_tag=LOCUS_07780;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:51.0%25%2C q_cov:95.5%25%2C s_cov:94.6%25%2C Eval:2.0e-141],MGA_784
sequence1	MetaGeneAnnotator	CDS	874347	875876	.	+	0	ID=MGA_785;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKRFNTTGVCVPKKHYMVNIENKLKQIMKLIENGEYFTINKPRQFGKTTTMFLLEKKLENEYTVISISFEGIGSIIMEDEKEFVQSFLEDITDSLNIKIDKKIIKTMKELSKTITKIAKASEKKIVLMIDEVDKSSNNQLFLNFLGMLRTKYLEANKGKDYTFYSIILAGVHDVKSLKTHIRPNEEIKYNSPWNIAVDFDIDLSFNSDEISTMIVDYYNDRGYELNNVKYISEKLYYYTSGYPFLVSKLCQIIDEEMKVKKEWTDEVLQDAVKIILKKQNTNFESLIKNLENNEDIYNLVYKIIIDGKEVKYNIDNPTINLCLMYGILKNENGTLKVQNKIYEQRIYDYMASKIETSQNVDTERYNFRDNFIIGDKLNMELVLKKFQLFMKEQYSEKDVNFVERNGTLIFLAFIKPIINGKGFDFKEVQISEEKRLDVVITYGKYKYIIEMKKWYGEEYHKRGIKQLEQYLDINNQNKGYLVIFDTRKKSNKKQENIKIKNKEIFAVWV;locus_tag=LOCUS_07790;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:52.1%25%2C q_cov:95.5%25%2C s_cov:94.6%25%2C Eval:6.5e-145],MGA_785
sequence1	MetaGeneAnnotator	CDS	875903	876649	.	+	0	ID=MGA_786;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081995.1;translation=MSKKRMVAATVAYDGTEFFGFQGQPKFRTVQGEFELALQKIFKQKVISFGAGRTDTGVHAWGQIMAFKVPNEKMSIKNIKDAMNSVLPKDIYIREVKEVPENFSPRFHAKKRIYHYFIMPKRDPNIFLRNRVWWFPYDLDIHKMREGAKYFIGEHDFTSFKTGNDERNPVRTIEKIRIIKLNNGLILIRVEGISFLRRMVRNMVGTLVKVGTGTWEPEKIKEILEAKDRSQAPASAPGEGLYFYSVLF;locus_tag=LOCUS_07800;gene=truA;EC_number=5.4.99.12;note=WP_004081995.1 tRNA pseudouridine(38-40) synthase TruA (Thermotoga maritima) [pid:63.1%25%2C q_cov:98.4%25%2C s_cov:99.6%25%2C Eval:1.8e-89],MGA_786
sequence1	MetaGeneAnnotator	CDS	876544	877752	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTGKNKRNFRSKRQIASSSFSSWRRTLFLFCFILINLSIFSADRIGLVYNGPKFYFNDVLYTLYGYYDVSIPPITNEDKIEVSYKNNLFYINYKGNEVSCKLNELNDTFSKLLNRSLKSLIIIPDRSYITKNDATSTVSFELWNKKMKIPLLVNNIKYDYFLYPPLGKRLVHVPDRWINLKILGIKDTIKLNGKKLIAPLNLNIPPSIINIEYGMVNQKIDLTDYSSNTYVLNLQKQNLYKSINTKILNVFNLNSGIFLYGIPNSLWISNGEVKLTEDKFYCNYGELKNISGNVIFAYEKDNTVYIISSSGKFFTLGTKNISKDFGRSPLSIKVYKNYIEIKTFKLETYRVNFDGGIYKEGNVYNLFLDIPDTKPKKSYETNKYIVEINDNKVFIYKKNIN;locus_tag=LOCUS_07810;note=MGA_787
sequence1	MetaGeneAnnotator	CDS	877868	879655	.	+	0	ID=MGA_788;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGQSDFKTIIEEDMYFVDKSLLIKEVIESGNVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHALLAMELSRLYLKHKYVLDVLDNEEKIIYDKIMGREALDADYENCIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEEKEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIRPYWMNTSGNYLIRKLIKEGTVNIKDSVEKLINGEEVECEIIETMVYGDLNLNSESAIWTLFLFSGYLKWTSKKRKNNITMYKVKIPNEEVKDFFVQTVRNMLRESNISIDNMLLNLKVGRIKTFTDQFKDLTMNTLSYFDISGKEPERFYHGLILGMSVGLKEEYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNKDEDKSLKDSAKNGLKQINEKKYEEEIKSYGINNIIKVAISFDKKEIEIVSNLDKDVELTDIEKVAKNMIEKGLDVNMISELTGISVEKIKNMLN;locus_tag=LOCUS_07820;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.7%25%2C q_cov:92.3%25%2C s_cov:99.1%25%2C Eval:1.2e-100],MGA_788
sequence1	MetaGeneAnnotator	CDS	879779	880804	.	-	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFYLDAGISGIEKANQIIEDFKIWFRPSDKVSLIIFSCKKINFNEIKKAKNVKILGYLKFEELKKYYNKSVLLNEVINYKNGDMFRLFKLINPTPKDIDFENQPISIQYDINYDKNFSNKFSAYNKKQMETIKDIILKEKPTSILDAACGTGSNYYQLKDVVKDKKYIGIDFSRFNVIKAIDYYQNKNAKFYIGDMTNLKFKNDQFDLSFTESALPYVKDPLRALKELNRVSKKGFYAGFYTTKQNVEYFKYNKKTFCYELDTGATWKFYKETPNTFYLPKFKKVIELLKTMKNIDYRINEEDQFFSPLGIRTFTIFVYPKRWYEKYGETFKKYNNRPLM;locus_tag=LOCUS_07830;note=MGA_789
sequence1	Aragorn:1.2.38	tRNA	880853	880927	.	-	.	ID=Aragorn_26;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_26
sequence1	Aragorn:1.2.38	tRNA	880939	881023	.	-	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_27
sequence1	Aragorn:1.2.38	tRNA	881045	881120	.	-	.	ID=Aragorn_28;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_28
sequence1	MetaGeneAnnotator	CDS	881239	882480	.	-	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVSRKIILIIMNFLFSLFLIAFFLIITDGNFDATYIKSSSKYEAKDFIDYISSNKEVKKSGGIHYFKVIDENNIVFSKIHYLDKGLYGILGKGNGKNYIYTINLNGEVKQKLLVSGKNIDFYDFTYFDGSLIMVGKKEERPYILNISENGEKLWSKVYNTGGRFNVIKNNSNDFIIAGYISNEMKKQAYISEINVSGGIVWENTYGREDNEEINDFILEPNDIIAIGDTNSNPKKQYDILVLKYSREGIRLYSNTYGKETQNEYGLSAFSNGSLYVGGYVIPINQNTWKTFTLKTVKGIEEDGSIKAEWFEVRNVKKMSRIIEIKNINDKIYATGFCLDTWPDYDGFLRIIEKNSNFYYMGIYGSNKEERFYSFEEAKDGGIIMVGYQKNGDIVKPLVVKTNSNGRLPGYEK;locus_tag=LOCUS_07840;note=MGA_790
sequence1	MetaGeneAnnotator	CDS	882495	883904	.	-	0	ID=MGA_791;product=ribonuclease E/G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011943705.1;translation=MEKIIVCSSVGDEIRVALLEDYELTEIFFEDLEGEKSSGKIFCGRIENDVPSLEAFFVNIGMKKNGFLRYKDILGLKNEYKRGDMLIVQAKKDGNIRKGPLLSMHLNFPGKYIVYIPYGEGSIGISRKISIQNDRERLREIAEDLIYETEGIIFRTNSQSVDRETLEEELNLLRKKWHEVALKYKNTNKPLLLYSEDDFIGFLMRERLDTNVKRIVVDSKNLYNEIKKAIESTEYTPLIELVDKDAFAYMNVYNQMDDIFAKKINLRNGGTITIDKTEAMTVIDIDSAANVRGKNVEETSFKTNKEAAIEIARQLRLRNIAGIIIIDFIDMHTKNHHEEIIRVFSEEVKKDRARVTIVGFTGLGLLEVTRKRTTPSIDTMVFAPCPICHGTGRVAAPSIVFNRIIKDMEDSLKNMKEHNIKEVLINVYHNLSGYATPERKKELEKNNNVKIKFEFNWNDPNSYNMRFKK;locus_tag=LOCUS_07850;note=WP_011943705.1 ribonuclease E/G (Thermotoga petrophila) [pid:37.6%25%2C q_cov:95.9%25%2C s_cov:98.7%25%2C Eval:2.1e-86],MGA_791
sequence1	MetaGeneAnnotator	CDS	883981	884880	.	+	0	ID=MGA_792;product=GGDEF domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942049.1;translation=MEFELKYAKEILENIEDGVYILDNKRKILYWNKAAEKITGFKSEEVLGSSCKDNILMHIDENGVSLCMGMCPVAFTLADGRTRKTKVFLHHKKGHRVPVYIKVFPIKDENGNITGAVELFNDISEKEKIEIEAKVYKKMALTDKLTEIPNRAFIDMKLQEFYQESNKYGLDFGILFIDIDNFKNINDTYGHDFGDKILKMVSQSIFKNTRSSDFIGRWGGDEFIAIIRFVDKTLLYEIANRYLMMVKNSYLMINEKKISVNISIGGSLYENNTIDEIIKKADEALYYVKENGKANIKII;locus_tag=LOCUS_07860;note=WP_010942049.1 GGDEF domain-containing protein (Geobacter sulfurreducens) [pid:42.9%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:5.7e-70],MGA_792
sequence1	MetaGeneAnnotator	CDS	884897	886180	.	-	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFKYTFILISFLFLMSSCIPLSLFDPLITNEIIDGNFDKVIEFKEKVKNVKINGTVLSSFDGKNYTLSRTLFTKNNYLEYEYNGKIYKKTLNAVKPDLQLFIYACGDTTNSPLSEFLEDDINEIKNALMNVKRNILVTIIADFTENDKIINLYNMNGKFYRVETNPSEYGMNDEINSSNPDILYTYMEKFYIGNTFFLDLWNHGNAWEWESKQYLKTKAVIVESSSEFLKISDIKNVLKKFEETHKKIDVIGFDACSMAQLEIVYELSPYANYFVGSVNEEPGYGWNYNFLRYYDLSIEFMLSNLVAVYYDYYNSYSNLNYLTMTAIRLNDFKNFVSKNLVSIKPNDNDVVIFHSVISNADFCDSKFAVNGIENYIINSYYKEKNSTGLGILYKTSDMDLILDYKELDFYKDFKLWIEEKWKPF;locus_tag=LOCUS_07870;note=WP_012895909.1 clostripain-related cysteine peptidase (Thermotoga petrophila) [pid:31.6%25%2C q_cov:48.9%25%2C s_cov:53.0%25%2C Eval:3.4e-19%2C partial hit],MGA_793
sequence1	MetaGeneAnnotator	CDS	886214	887005	.	-	0	ID=MGA_794;product=energy-coupling factor transporter transmembrane protein EcfT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837717.1;translation=MFLDNVALGRYVEKKSFMHSLDPRVKLIGLFVLAIFSFSINSLYDSSLMIVYTLSLMILSKLSLKYYLKSLKSLWFIIVFAFVMQLFNSEGSTIFKFLFISITDKGLYYASIITFRILFAIMISSVLTLTTSPTSLAHAMEDVLRWFFVPKSFAHELSMVMTIAIRFIPVMASEADRIIKAQMSRGASFDDRKLSGKIKGVVSILIPLLVSALRRAEELSVAMEARGYNGWEGRTRFKKFDWKFRDTIFLISFILVGIFIIMY;locus_tag=LOCUS_07880;note=WP_011837717.1 energy-coupling factor transporter transmembrane protein EcfT (Streptococcus sanguinis) [pid:40.9%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:9.5e-55],MGA_794
sequence1	MetaGeneAnnotator	CDS	887130	887693	.	+	0	ID=MGA_795;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081616.1;translation=MSLNSPYLKEVKNKMEKTISHYEDELKKLRTGRPSPAIFEDIKVDYYGTPTQINQTSNVVVGEDRVISITPWDKGLLEKIEKAINASPLGLHAINDGNAVRVSFPAPTGEDRKKWVKVAKDMMEETKIALRNIRREDMKKVKEDQKKGEIPEDTAKKIEDEIQKILKEHEDKAEHVFHKKEKEILES;locus_tag=LOCUS_07890;gene=frr;note=WP_004081616.1 ribosome recycling factor (Thermotoga) [pid:58.8%25%2C q_cov:97.3%25%2C s_cov:98.4%25%2C Eval:1.4e-60],MGA_795
sequence1	MetaGeneAnnotator	CDS	887690	888403	.	+	0	ID=MGA_796;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081614.1;translation=MTNLKIPSHIGIIMDGNGRWAKMQNKKRIFGHEKGAEVAEKIIQYSTDIGVRYLTLYSFSTENWKRPKDEVNFLFKLFIKYLETRLRKIISKGVKMRFSGNLSELPQDVQKSCKKIQEISKDNKKLDLIMALNYGGRQEIINAANNAIKNGKSEITEDDISLNLYLPDVPDPDLIIRTSGEIRLSNFLLWQSAYSELYFTKKLWPDFTENDYLEAIKEYTKRDRRFGGIGSDENANR;locus_tag=LOCUS_07900;note=WP_004081614.1 isoprenyl transferase (Thermotoga maritima) [pid:53.5%25%2C q_cov:95.4%25%2C s_cov:98.7%25%2C Eval:8.7e-70],MGA_796
sequence1	MetaGeneAnnotator	CDS	888381	889238	.	+	0	ID=MGA_797;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081613.1;translation=MMRMPIGKKNLFIRASSGFIIGPVVVFSYLWYPTLLGLVTTIVMMASYEFIKMSNPKLCRKFRLFIAFLLGITSMVYGFSLEAEYSGILPFEAEFIFVIGFLLISLITIVRLKDINEAKELLSSSTFSLIYIAFFLSSNYLTQINYGAGMAILALTSVWAYDSFAYIFGLTFGKHKISPTYSPKKSWEGLFGGIFGTFLYIIIYDFFREIFGLHTLIDLEYVAAFAIMVGIVDTIGDLTESIFKRFYNVKDSSGILPGHGGMLDRIDGLLLVVPIWYFMLRLFWI;locus_tag=LOCUS_07910;gene=cdsA;EC_number=2.7.7.41;note=WP_004081613.1 phosphatidate cytidylyltransferase (Thermotoga maritima) [pid:39.2%25%2C q_cov:95.8%25%2C s_cov:97.0%25%2C Eval:6.3e-47],MGA_797
sequence1	MetaGeneAnnotator	CDS	889261	889650	.	+	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSKEGFTIVEVLLVLAVMALIASISIPAVNTVLSQAKATKIISDMRNIQSAVIQYSMYSSDASSLSMENLVKEEYLTNEIPNIQIKDETLQVEIYYNSNKPDIKYFKKIDPNIEEYDGKPSIRVLKK;locus_tag=LOCUS_07920;note=MGA_798
sequence1	MetaGeneAnnotator	CDS	889669	892272	.	+	0	ID=MGA_799;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081612.1;translation=MKYMTSDEIREKFLQFFEQKNHKKLPSSPLVPSDPQLMFTVAGMVPFKPIFWGKVEPTHTMITTCQKCIRTNDIENVGKTARHQTFFEMLGNFSFGEYFKKEAIPMAWEFLTKVLEMPEEKLWPSVYIEDNEAYEIWKKIVPEERIMKFDKSENWWGPVGPTGPCGPSSEIYFDTGFTDDCPDVENCTPACDCGRFVEIWNIVFTEYYAKEDGSFEPLARKNIDTGAGLERIVAAIQGVKTNFDTDLFKEIIEKIENTLNVKYGKNSKTDTSIKVIADHARAVSFIIAEGILPSNEGRGYVLRRILRRSIRHANLLGTKTAFFSKIIDSVIEKYEKIYPELIEKQDFIKKIVNAEEERFLQTLEKGLERLNNIIKKGKISGADAFELYDTYGFPFDITEEIAEEKNIPVDKDEYLKLMKEQKERARKATGNKEYAKSNKAYKKVGDDLKTTEFTGYNSLNETEKVLYIIKGEEIINEANENEEVELIFSKTPFYAEKGGQIADIGTIKNTQFEAQVKDVQIVYNEVISHKVIIKKGKIKVGDKVELTVDINNRNAIKRNHSATHLLHSALRNIVGNHIKQAGSYVSNERLRFDITHYESLTKEQIQAVETLVNEEILKATPVITEVKSLNDAKNENVIALFEEKYGNEVRIVKMGEFSKELCGGTHVSNTGEIGLFKILTETSVSAGIRRIEAITGLEALKFTQKQEKIINNLNSILNTSTEKVEEKVQSLLKTIKEKESTIKELEAKTATANLLSFIDKGIEIDGFKIVVGVLENVSKDIHRNATDTLLSKIKDGVVILFNKSDKLSFTVKVSKNALNKFHAGQIAKKIATHLGGGGGGRPDFAQAGGKDPSKIPEIIKNIQNFIK;locus_tag=LOCUS_07930;gene=alaS;EC_number=6.1.1.7;note=WP_004081612.1 alanine--tRNA ligase (Thermotoga maritima) [pid:52.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-262],MGA_799
sequence1	Barrnap:0.8	rRNA	892524	895430	.	-	.	ID=Barrnap_5;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00050;note=Barrnap_5
sequence1	Aragorn:1.2.38	tRNA	895482	895557	.	-	.	ID=Aragorn_29;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_29
sequence1	Barrnap:0.8	rRNA	895605	897127	.	-	.	ID=Barrnap_6;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00060;note=Barrnap_6
sequence1	MetaGeneAnnotator	CDS	897426	898811	.	+	0	ID=MGA_802;product=DegQ family serine endoprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081291.1;translation=MKKLLLLTTVVILSLNLFAFVNPNYESPVVNVVKEAAPAVVNIEASGKRTVATNPQFDDFFKRFFGGEIPGYQQEQEYTSLGTGFLFNKDGYILTNYHVVGGSDKITVTSVNGKKYKAKYIGGDNDLDIAVIKIDNKDNLPVLEIADSDNIEIGSWAIAIGNPLGFKNTVTVGVVSALNRKIEKPDGNGYYINLIQTDAAINPGNSGGPLLNIHAQVMGINTVIVNPQSGFVNLGFAIPINMAKRFADSIINGGKIEKAYLGVYMQPVTENLKNALGLKVDKGAYVSSVEKDSPADKNGIKKGDVIIKINNFKTDSAEELASIIKTFPAGTTVTVTLNRKGKEIKLEIPLGKRSSVVATAKKEYFGMSVRNLTSDDLSALRLPKDFHGVIVEEVNKGYAAQLGIKKDDVIYEAALNGREYQIKNVSDWNKIFSNLKKNSYVAFMVRRNNYSVTVSFYYRGE;locus_tag=LOCUS_07940;note=WP_004081291.1 DegQ family serine endoprotease (Thermotoga) [pid:52.4%25%2C q_cov:97.6%25%2C s_cov:97.8%25%2C Eval:8.3e-128],MGA_802
sequence1	MetaGeneAnnotator	CDS	898855	900171	.	-	0	ID=MGA_803;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082821.1;translation=MKRLFGTDGIRGIVNEELTIEVGVRLANSLAKIYAGRYETLLVASDTRNSAEMFEYAIATGAISAGMNVEICGVIPTPALAHLTKEKKAIGIMISASHNPSIYNGLKVFCEGFKIPDELEVDLENLILSKEMDYSPYGEIGKVKRSKLKNKYIDYIVDIFKGLKTKYKIAIDVGNGASGTVVESIFDKLEIKYDIYNNTPDGFNINEKCGSTVPETLSNIVKNDGYDLGILFDGDADRCLFINKNGNLIDGDKLIAINSFKQKEQNRLKNDTVVTTVMSNLGFEEYLKKHGIKLLRTQVGDKYVLEKMLEFGANIGGEQSGHIIFLDRSTTGDGIITALETLHTLSYFDKSIEELTSEISDYPQLLKNVSVKDKKSIMLDERIIKKIKKYENIEDFRVLIRPSGTEHKIRVMTEGKDQKLVNDVVDEFVELIERIDRE;locus_tag=LOCUS_07950;gene=glmM;EC_number=5.4.2.10;note=WP_004082821.1 phosphoglucosamine mutase (Thermotoga) [pid:43.2%25%2C q_cov:98.4%25%2C s_cov:99.1%25%2C Eval:2.5e-97],MGA_803
sequence1	MetaGeneAnnotator	CDS	900240	901427	.	-	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLVLITSILLAAYIFGAGFTIKPLFYTYGEGSDKKLVYSITPVLDLDVFKVGIGLNAYQKDIGGTFYYGSPTSESTDFINGLSLNFLEVDFDPFGARYGYMGKYTFGLGTMMYGYTNKLERAFDVRIGSKKSINLRGHIPFEINTWTPNFELKQSSSLYFSTINYGALSLFAAKNMGENLTHNDTVLGGGAYINILGMNLGGEGGIITTSSPSTETFGYMAGIGGSLDLGIIRFRALPILYMSKSTLLGYIDKDYENGNNYTKLLNQNKTRFGGIYELNIKYTNILTANARYNYDINGMLESFSNQRIYAWLNVKSPFEGYPFLLTGYYNRNMNDNEWLNNVIEKPFDAKTDMEYSISYEMADGLYISYVTFYDNTEDNFKNRVDITTSVEF;locus_tag=LOCUS_07960;note=MGA_804
sequence1	MetaGeneAnnotator	CDS	901424	902428	.	-	0	ID=MGA_805;product=galactose-1-phosphate uridylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080684.1;translation=MSELRKDPITRRWVIISTERAGRPNNYIKSEEVIENFCPFDYGNENTTPSEILSFRRPNTRPNTSGWWVRVVPNKFPALYKDAELKKSGHGMYDKITGFGYHEVIIETPEHNTSFSKMSDKQINEVIWAYLKRFVEIKKDKKVKYIQIFKNHGKEAGASLVHPHSQIIATPIVPYNILEELNGAENYYKFKDRCIYCDIIEQEIMEKDRVIQKTENFIAFEPYAARFPYETWILPLKHDSNFESIERDPNIIFELSSILHTVFKKFDKTLGNPPFNMVVHTAPFIEGIEKIFHWHIEIIPRLTNLAGFEWGTGFYINSVLPEKAAEDLRREEIL;locus_tag=LOCUS_07970;gene=galT;EC_number=2.7.7.12;note=WP_004080684.1 galactose-1-phosphate uridylyltransferase (Thermotoga) [pid:56.8%25%2C q_cov:98.5%25%2C s_cov:97.9%25%2C Eval:2.6e-114],MGA_805
sequence1	MetaGeneAnnotator	CDS	902434	903885	.	-	0	ID=MGA_806;product=glycogen synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080686.1;translation=MKVGYVSYEVAPFAKVGGLADVAGALPKYLEKIGEDVYVIMPFHSIIEKKFDTSKFTLEKEEMYPNSHSYNKPFSLYSYFLPNSNVKIYFIKNSDIFGKDVYEKEDERLALQSSYFSDGVLSVVKEFEKDTEVLNINDWQTAIISVYLKINYFEDSILGKISTVLTIHNLGYQGIFPPEMLEIIGLPTYLYNVDALEFYGNINYLKGGILFADIINTVSKTYSEEIQTAEYGYKLDGVLRIRSDKLYGIINGIDYEKYNPLNEKNIFSKINDYSGKIKNKLSLQKLLKLPQKEDVPIISLISRLVDQKGLDLVKEVSNYLLLYDVQLVILGTGQEGYENYFKKLQEKYPNKVSANIMFDEDLAFKIYAGSDMFLMPSKYEPCGLGQMYAMRYGTVPIVRYTGGLSDTVREYYNPNSGTGFGFYEYEPCKMLMAVSKALYQYKIKKDNWIKLFENIMKQDFSYENTAKQYKELYKMASSNKNRW;locus_tag=LOCUS_07980;note=WP_004080686.1 glycogen synthase (Thermotoga) [pid:53.6%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:4.7e-145],MGA_806
sequence1	MetaGeneAnnotator	CDS	903890	904513	.	-	0	ID=MGA_807;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008193116.1;translation=MKIDILVNGGNVWIPGSVQSSFSTIALLEFENKKILLEPGYLPSIMFLEEEMNKRNLRPDDITDLIISHVHLDHGYNSIFFKKSLVHVHESYSKKDYKKFGIIMGQAYDQMVKSWEGRVKTFKDGDLILGKIKVLHTPYHSKDHVSFIFDTENMGKVFFPGDICMNRIELYDIIRNLRTDKVADIMKENISNVDWILFTHDKPYKVR;locus_tag=LOCUS_07990;note=WP_008193116.1 MBL fold metallo-hydrolase (Thermotoga) [pid:41.5%25%2C q_cov:99.0%25%2C s_cov:97.6%25%2C Eval:2.5e-48],MGA_807
sequence1	MetaGeneAnnotator	CDS	904510	905121	.	-	0	ID=MGA_808;product=CBS and ACT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583302.1;translation=MYVNNWYSSRYKYVYFNNSIKTVIELMEKTKEVIIILREDNTIYNMINIDDYKFLIEKDEKTKLYEVYDPVEFFLYGDDMVEDAVHLMLENEIRVLPVVDTEMYPMGIFGFFEVLRAFKGILGMDEMGTKIMLILDDTPGKLEYILNVLSKENINILSLLTNKIDDKKRLITIKLNIKNVNLVSDILDDAKIDYETIFEEGLE;locus_tag=LOCUS_08000;note=WP_012583302.1 CBS and ACT domain-containing protein (Dictyoglomus turgidum) [pid:28.0%25%2C q_cov:79.3%25%2C s_cov:76.6%25%2C Eval:4.8e-12],MGA_808
sequence1	MetaGeneAnnotator	CDS	905199	905372	.	-	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEMSREDLLKRKKILELEKASVAKYMGPDEHDKSLEEEWEKINKELAEIEKKLAE;locus_tag=LOCUS_08010;note=MGA_809
sequence1	MetaGeneAnnotator	CDS	905457	906551	.	-	0	ID=MGA_810;product=UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583765.1;translation=MKIALIFGTRPEAIKMAPVYLKMKELGMDVKIIATAQHREMLDQVFEIFKIKPDYDLNIMKPNQQLSELTSRLIVSIDKILKKEKFDYILVHGDTTSTMAGSIAGFYNKIKVCHVEAGLRTNNIYNPYPEEMNRRITGTIATYHFAPTKRAKKNLLNEGINEKNIIITGNTVIDSLLWVEKNKKDEIEKIKEKYGLKGKKYILMTMHRRENWGDPMKNTLKAVKKYLKENSDMNLVFPVHLNPMVRKVVNEELKELKNVILIDPVEYLEFISLMDGCHYIMTDSGGIQEEAPSLGKPTVVLRKTTERPEALESGTALLAGTDFNDVYNTMKQLEGELYEKMSNTSNPFGNGKASKIICDFLNSL;locus_tag=LOCUS_08020;gene=wecB;EC_number=5.1.3.14;note=WP_012583765.1 UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing) (Dictyoglomus turgidum) [pid:52.6%25%2C q_cov:98.9%25%2C s_cov:94.8%25%2C Eval:1.7e-101],MGA_810
sequence1	MetaGeneAnnotator	CDS	906598	907083	.	-	0	ID=MGA_811;product=2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081151.1;translation=MLKVGFGYDVHPLIENRKLILGGVEIENKKGLDGHSDGDVFFHAVIDGLLGLCGMGSIGELFPETQEFKDANSYELLKKTYNEINKKFNLKINNIDSTIVSKSARISNVKEKIKENTSKALNISINQINVKGKSGNTLGVAGKDEGIEVYCIILANVDEIK;locus_tag=LOCUS_08030;gene=ispF;EC_number=4.6.1.12;note=WP_004081151.1 2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase (Thermotoga maritima) [pid:50.3%25%2C q_cov:93.8%25%2C s_cov:92.5%25%2C Eval:4.9e-36],MGA_811
sequence1	MetaGeneAnnotator	CDS	907085	908203	.	-	0	ID=MGA_812;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082966.1;translation=MTFEIEKKLLSDALEMASNAVAKKTTNPILSGIKIEAEGENIHFYATDLQTGFHKILKVKNALEEVSSFVVDQKIFSEIIKTLPGGVIKLTYDNGVLIVESGYSNFKLPTMDGKDFPDVIPNVVGNVLTLKRIEILKMIEKVIFCAIKDSDPLSRNLNGLYWDFRDGGYLNLVASDGYRLALSETHLEEENLPTSFLLSLKSMEELKSVLANSKSEEFKLNFDGSRTMFSFEEENIELVLNVVDAKYPNYPEFIPQAFKTKMTISTNEFLNTIKRVSIAAGKTEQIRINIEDVNITLMANSPDVGEAKEVIEVQKEGEDMLIAYSPRYLREAIEKLETSEFEFNISGDVNPTILKPIEDNSYMYLVMPTRWS;locus_tag=LOCUS_08040;gene=dnaN;EC_number=2.7.7.7;note=WP_004082966.1 DNA polymerase III subunit beta (Thermotoga) [pid:36.7%25%2C q_cov:97.0%25%2C s_cov:97.0%25%2C Eval:1.8e-66],MGA_812
sequence1	MetaGeneAnnotator	CDS	908305	910599	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFLLFFLITITLFFSTDTIISSYETSNIKGVVISPFDSYFTIMNENKYLKVYDFSKSLKNYLETSGKPNVLAWSSDEKYLFSGNINGTINIFNIKDSTFNFDISLTSQPIISLNINNKNLLFSSLDKSIYVYNIKDRKKIFSFKTIGIPYSVKFIDENNIIVGDSYETLYKINISNNEYKKIKINGYIKNIFYVDNEIHVFLTNGYIFIYDKNLNLINKRNLNLNIEKIFLSPDKNYYAILFSNNDVMIYSSKSFIIINRLTVDNLGFKIKDASWSSEWQYIYVTDGKDIYKINFPYGIRELFYKNLGVLIKRVIWKKNKIIYSDSNSNIGEINIETGIMEKFLSLKPFNYFDINNKYITTVDNSYIYFYSLDGVLLKSKKLSNSKLTVVKINPNSLYAVAGSIDGTGYIYNIDKNTFKTVKLHQKMIKDISFNKDGDFVAATAYDRTVSISDFPNITTTKRINDFNFNIWSIDWANTKNFIAVGGFEGVLEEWDPLFKTIIIKTGISAGSINDIKWSPDDRLIATSSENSNIYIWNSFTGEKVNVLNLNNEQPVKDIDWSNGGKYIISSENSNLMRLWNIDTKENIANILVYADGSFITYKNDGEYTTNIPEKNEKFYFYKNNPLSLFDVFYFKRINKLNLKEVEPPQLNVLSDFIVEKNNSSLLISFSDNNLVKKAQIGNDTFIINKKSYKLNYTINIENLTSDILNIMVFDDNGNKTEKNVHLSFKNIKLKVISKDVYIRNDSGKIIGVLTGSIKNFV;locus_tag=LOCUS_08050;note=MGA_813
sequence1	MetaGeneAnnotator	CDS	910839	911729	.	-	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKDVLGIYIGEIESSKFWLRVLNDLKNRGIKDILIASVDGLTGFPQAIKTAFPDTIVQRCIIHQIRNTLKYVSYKDRKELVNDLKKVYKAPNKDIAYSNLQDLKENKWTKYKLALESWEKHWETISPYFDYGDDVRKIMYTTNVIESLNRQYRKATKNKTSFPNDDALLKMLYLATINATKRWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_08060;note=WP_008761338.1 IS256 family transposase (Bacteroides) [pid:49.8%25%2C q_cov:97.6%25%2C s_cov:71.4%25%2C Eval:7.8e-88%2C partial hit],frameshifted%2C insertion/deletion at around 911782,MGA_814
sequence1	MetaGeneAnnotator	CDS	911780	912088	.	-	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEP;locus_tag=LOCUS_08070;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.3%25%2C q_cov:69.6%25%2C s_cov:17.9%25%2C Eval:3.5e-14%2C partial hit],frameshifted%2C insertion/deletion at around 911782,MGA_815
sequence1	MetaGeneAnnotator	CDS	912267	912962	.	-	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKSAFFEFRKNYLKKLFLSLLIPTVIIFIKSFDPIMTFEFVQIFMLLFSFFIFLYFISIISTNEFFLKTSKFVYTGLNLRKEVLIKKFLIMIFANIFTFLFFTLSTTLLRIIVYNISFDMMTILKNLVVFLFLGIFISTFNLFVSYITLNAIMSIIINLLLFFPEFYQILKMIPSKNKVISTIIYNIPFDISFMGFITLKYSFNNMLILLVFSTIFIIFSLIILEKRDLK;locus_tag=LOCUS_08080;note=MGA_816
sequence1	MetaGeneAnnotator	CDS	912974	913672	.	-	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIIKISFLDFYYMIKTRIFIILNILTVLAIFFISNTVLKKVGVSRISNVVAFCQYFLMVFFVSLAVAKDLLFKTSKFIFTGYFSRISVMFEKLMVVLLIGLFYGLLIYIITVVLTTLKYASFNFSYFLDQKALNYILISILYAFFVGSISLLMLSVKINGKNLLFINFFIFELNMWINEIYPAILKKVFEIPEKWIIFGNITLEQVLIISSVSISCYILSLLITEKVSLV;locus_tag=LOCUS_08090;note=MGA_817
sequence1	MetaGeneAnnotator	CDS	913665	914591	.	-	0	ID=MGA_818;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948473.1;translation=MENKNILEVVNVSKRYSQKKVLNDVNLSVKKGEIIGLVGPNGAGKTTLMSIIVGLINNYEGDIYIDGENIRKIKKKKQKQKLTGCIIETPGFYPHLTGYENLKLLSMYYGKVSKQEILDVISLLELENAMKKKVSKYSMGMKQRLGIAQTVLGNPKILVLDEPTNGLDPTIIPKIRDFIRYYAKEKNISTFISSHILSEIETICEKVLFLKNGVIVDRIDLENERNSKRKMFIFKTNKAEKLFEFFKSKNIFSKINEENRVIASLEEKDIELLIPEILSSGIVITEMKEYMEKLEDRFLRKMEGNLVD;locus_tag=LOCUS_08100;note=WP_011948473.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:42.4%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:4.3e-60],MGA_818
sequence1	MetaGeneAnnotator	CDS	914581	914760	.	-	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLKGIHLLDTVNTNIFYPDQIYEDGFMEDKINECTEEYLKCSFKYKKNIIKENFHGK;locus_tag=LOCUS_08110;note=MGA_819
sequence1	MetaGeneAnnotator	CDS	915384	916364	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNPKDGSYLNLFNTENFEQKFIPIKDFNAFFSSVESFNGKYCLNDYIKSKIYIINSKTGSLKTLELSYPGIMSRPTKDGKAYILSNIRLPGWKMPLILVDIENERIEKEVFVDNVVRSMPLFNSNDYQGDYFYFTNEESDITGNTFIERINIKTDAVEKFYDLGVPAYVANATININDKVYIVVGPSHVHDVEVLPENFKTNNIIVIGEDGKKEKVIPMPSSEFVFGKKTDDEDWFIGYSVSDGDNIYMSAFMYSDLEKGNSIIKYSISENKFYNLGGNNSVYEMRLYDNKLVLEDDSEGEYRISVIDTNKDEYVVKNKLINLY;locus_tag=LOCUS_08120;note=MGA_820
sequence1	MetaGeneAnnotator	CDS	916512	917786	.	-	0	ID=MGA_821;product=ArsB/NhaD family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080471.1;translation=MSMILVLTITVIAYYFIIFGKNIKKSIITLFLGVLLFVLHPVEGLNLENMGEIVSFETLGILLGMMIIVEILKESGAFTFTAVSAIKLSRYKFWPVMFLLMIIVIMFSAFLDNLVTIMIIAPIIFLVADTLEINPTPLILLSIYVDNIGGMSTLIGSPLNIVLGSVGKLDFTSFLIKMLPLTIITFITTMLIYKFNNKVDTKEYNKKLEKLKTMDASKTIQDKSEMIKGIVIFSIVLAGFMLHNTINIDIALIAMTGALVLMLLTKKGFEEMATVIDWDTMFFYGGLFAIAFSLEKVGVSQAIANMFMPLISTKILLLFAMLFAGAIAIPFLSAVPGTLIFAPVIKILIDNGAPFDLWYAYAIGANLGTNLTPLGAVQNIVGASLIFKQTGKEVSFGEYMQKALPTTLITTLIGAIYLVVITYI;locus_tag=LOCUS_08130;note=WP_004080471.1 ArsB/NhaD family transporter (Thermotoga) [pid:47.8%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:4.9e-111],MGA_821
sequence1	MetaGeneAnnotator	CDS	918029	918403	.	+	0	ID=MGA_822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPKKLKVFNLMEALVSEVVEEMFLMPNLDMCTCNRCKLDTLIMVLNKFPPKYSVTLKGKVFTELETLKTQYRADILRETLNAMEIVKNNPSHSYKKPAEKLTEDIDDFLDEIEQLINTNLNKR;locus_tag=LOCUS_08140;note=MGA_822
sequence1	MetaGeneAnnotator	CDS	918646	919974	.	+	0	ID=MGA_823;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081977.1;translation=MFENIQKKFSLAFKNLSGKGKISEKNIKDAVKEVKLSLLEADVNYKVVKNFIDSVKEKALGEKVLESLTPDQEFIRILKNELIELMGGKEPEKLVISRNPGYIMLVGLQGSGKTTSAAKLAKMYKEKGKKPLLVAADTYRPAAIDQLITLGTQIDVPVFSGDKVNARKIVKEAKNYAEKMLHDIVIIDTAGRLHIDDDMMKELEDIKNYIKPEEILMVVDSMMGQDAVRTAKDFNDRLELNGFIVTKLDGDSRGGVIISIRHVTGKPIKLAGTGEKIVALEPFYADRYAGRILGMGDVLSLIEKVESELDKEKAEKDAEKFMEGKFDLNDFLAQIKQIKKLGPLGNILEMMPGVPKENVDLKKGESEMKKMEAIINSMTIKERKNPKTLTFSRKKRVAAGSGTTLQDINKILKSYEQIKKMMKQVKKMGKRKFLGNMKKFGM;locus_tag=LOCUS_08150;gene=ffh;note=WP_004081977.1 signal recognition particle protein (Thermotoga) [pid:62.9%25%2C q_cov:96.6%25%2C s_cov:97.9%25%2C Eval:9.6e-150],MGA_823
sequence1	MetaGeneAnnotator	CDS	920028	920306	.	+	0	ID=MGA_824;product=30S ribosomal protein S16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081979.1;translation=MVKIRLNRMGRRHQAFYRIVVVDSHEKRSGRYLESLGYYNPINDNDLYKVNEEKAIEWLLKGAQPTATAKSILSKLGVMKKFDEMKYEKRRK;locus_tag=LOCUS_08160;gene=rpsP;note=WP_004081979.1 30S ribosomal protein S16 (Thermotoga) [pid:57.6%25%2C q_cov:100.0%25%2C s_cov:95.8%25%2C Eval:8.1e-27],MGA_824
sequence1	MetaGeneAnnotator	CDS	920310	920540	.	+	0	ID=MGA_825;product=KH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081981.1;translation=MKSLLENILKRIVKNPEDIMIIERDEETQKIFEISVNSGDVGQIIGKDGRTIKSINTILNAAKGIDGKKFVLKVLR;locus_tag=LOCUS_08170;note=WP_004081981.1 KH domain-containing protein (Thermotoga) [pid:56.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-18],MGA_825
sequence1	MetaGeneAnnotator	CDS	920545	921105	.	+	0	ID=MGA_826;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081983.1;translation=MKKLEDLLEGKVVIGKIVNHHGLNGEVKFFPYTNMKELIYNVSDVLLYNPEKKKFFFSKILNVRPLNKLKILQFRGIDTISSADKMKGFELYIEKEALPELEKDEYYLYELQNCSVYYEDDEFVGKVKDILQTGANEVLVVEKQVNRFENEEILIPVIKDFIVDMNKKDKKIIVKRMTYDESDDKH;locus_tag=LOCUS_08180;gene=rimM;note=WP_004081983.1 ribosome maturation factor RimM (Thermotoga) [pid:50.3%25%2C q_cov:96.2%25%2C s_cov:98.9%25%2C Eval:5.5e-46],MGA_826
sequence1	MetaGeneAnnotator	CDS	921080	921838	.	+	0	ID=MGA_827;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081985.1;translation=MMNQTINIKVVSIFPEMFSSLTSFGVIRKAIENSIVDFEAINLRDYTNDKHKVTDKPGYGGNNGMVMLADPFFQFYDDYCSKYEKPYVVMTSPQGRKFDNNVSKTLASKKNIVFFCGRYEGPDERVMSIVDDEISIGDFVVTGGELPAMIMIDSLLRFIPGVVGDKNSVINDSFYNGLLDYPHYTKPAELRNLKVPEVLLSGNHSNIEKYRKKESFLRTILKRPDLFLKRDLQKEDKKIIVEIIKELYESAQ;locus_tag=LOCUS_08190;gene=trmD;EC_number=2.1.1.228;note=WP_004081985.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Thermotoga) [pid:53.7%25%2C q_cov:96.8%25%2C s_cov:99.2%25%2C Eval:1.5e-75],MGA_827
sequence1	MetaGeneAnnotator	CDS	921828	922397	.	+	0	ID=MGA_828;product=SPOUT family RNA methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081987.1;translation=MLNKLYVALIHYPIVGKDDSIISTAVTNLDIHDISRSCRTYNIKKFFMVSNLSAQREIVKRVFRYWKEGFGKKHNPNRNDALSIAEIRKYLEDVIEEITEIEGKRPKLVFTSAKPREKEISFDEMKKVIREETAPILILYGTGWGMPEEIREICDYDLDPIRGKAEFNHLSVRAAVAISLDRLIGEETI;locus_tag=LOCUS_08200;note=WP_004081987.1 SPOUT family RNA methylase (Thermotoga) [pid:59.7%25%2C q_cov:98.4%25%2C s_cov:96.9%25%2C Eval:4.2e-65],MGA_828
sequence1	MetaGeneAnnotator	CDS	922428	922775	.	+	0	ID=MGA_829;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081989.1;translation=MDALVRAIEKNYMRDDLPTFRPGDTVKVYAKVIEGGRERIQAYEGIVLQIRGAGMGKTFTVRRIGADGIGVERVFPMHSPVIDKVEVTRKGKVRRAKIYYIRKIRGKIKIKQRRD;locus_tag=LOCUS_08210;gene=rplS;note=WP_004081989.1 50S ribosomal protein L19 (Thermotoga) [pid:64.8%25%2C q_cov:79.1%25%2C s_cov:79.1%25%2C Eval:1.2e-30],MGA_829
sequence1	MetaGeneAnnotator	CDS	922855	923823	.	+	0	ID=MGA_830;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081991.1;translation=MKENIEKKIKHETLDWLSAIIYAVIFGTIIRLFVFETMMVPTVSMVPTIEVGDRMFIEKVTYNYTKPKRGDIISFWTPFIDKSSQKKLRAFDKFMDFFAPKEFNGHVKYVKRLVGLPGDTIRLVPVKESFWKDLESGNLKEVPPWLDFIIKYYGEIKYVPDLIKSKVSQLEVNGKIPKGFENRYYLINAIFENENFYKYLAYPEKLKEEIYSSNVYFFYKGNFDNKLYIGKLNINFYKQQNNDNDYTTWYEKLIKNVDLSKAIFRDKDNYINIKIPKGYCFFMGDNTLESYDSRFFGLVPEKNIIGTPFLRIWPMKRFGTIK;locus_tag=LOCUS_08220;gene=lepB;EC_number=3.4.21.89;note=WP_004081991.1 signal peptidase I (Thermotoga maritima) [pid:36.0%25%2C q_cov:97.5%25%2C s_cov:98.7%25%2C Eval:3.5e-60],MGA_830
sequence1	Aragorn:1.2.38	tRNA	923846	923932	.	-	.	ID=Aragorn_30;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00300;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	923973	924677	.	+	0	ID=MGA_831;product=16S rRNA (guanine(527)-N(7))-methyltransferase RsmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015789.1;translation=MILNKNNVNFLQSYDIPKEKQEKLIEYTKMLIEYKSNLTSIKDINKAFEYHIIDSLTPFLKITLNGKRFVDVGTGGGVPGIPLAICYPDINFFLVESIKKKTNALKIFKDVLNLDNVFIFNSRIEEFANNHKDEFDYGTCRALARADVALEYTVPLIKKFGKVFLYKGPAFKEEEKLFADKASQILKVIQKKIIEYSLSDKKRFLIEYEKYDETPNKYPRKTGIPLKRPLGGKI;locus_tag=LOCUS_08230;gene=rsmG;EC_number=2.1.1.170;note=WP_011015789.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Fusobacterium nucleatum) [pid:38.7%25%2C q_cov:93.2%25%2C s_cov:94.0%25%2C Eval:5.8e-34],MGA_831
sequence1	MetaGeneAnnotator	CDS	924674	925447	.	+	0	ID=MGA_832;product=biotin/lipoate A/B protein ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000514081.1;translation=MIRLIVDDYHNGIWNMACDLAIANNVGNKKSPTTIRLYGWSSPTLSLGKHQKTNNINFEYLKEKNIEVVKRPTGGRAVLHDDEITYSFSASSKNIKLPSTVLGSYKIISKALIESLNLLNISCDVESKKKNTLSKDICYDASSMYEVTIKGKKFIGSAQYRNEKFILQHGSIPQKFNYIDYVNSFNLKNKEKMIEHLKNNVIDIYTVLNKKISLKELEETFKVGFEKIFEEEIVLDTLSNEEVNMIDDYCQKYEKII;locus_tag=LOCUS_08240;note=WP_000514081.1 biotin/lipoate A/B protein ligase family protein (Bacillus) [pid:34.8%25%2C q_cov:93.8%25%2C s_cov:91.0%25%2C Eval:3.8e-37],MGA_832
sequence1	MetaGeneAnnotator	CDS	925508	926671	.	-	0	ID=MGA_833;product=type III PLP-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082424.1;translation=MKLNELIRKAANILDTPFLVLDLSYVDKNYDRLKKSISNVEIYYAVKANSHNEILELLNNKGSSFDAASIGEIKKLLSIGVDPKKISFGNTIKKEKDIKFAWENGIELFAVDSEMEVEKISKNAPGAKVYGRIETSSNDADWPLSNKFGTDVDHVISILEYAYRKELIPYGVSFHVGSQSYNKHKWKEAILNASEVFEKLAEKGIYLKLLNLGGGMPVQHVKPIPEVEEIGEVINESIKEYLGWVDGLRVFTEPGRSMVGNAGIMASRVLLRSRKGTKSWVYLDVGVFHGLMETIENFRYEVVVDKKENHEKMIMTLAGPSCDSVDTIYDEVELPVDIDYGDIVYFINTGAYTIEYASPHFNGITPPVVYTIKELEIEVEKYLSKNI;locus_tag=LOCUS_08250;note=WP_004082424.1 type III PLP-dependent enzyme (Thermotoga) [pid:55.0%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:1.7e-115],MGA_833
sequence1	MetaGeneAnnotator	CDS	926892	927101	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDISTIIMDGFTNEQTLKIMRAIKSLEGMPEIIFATVTETSKKWTVEELIKELNLEHEEMKKYKENKK;locus_tag=LOCUS_08260;note=MGA_834
sequence1	MetaGeneAnnotator	CDS	927212	929377	.	+	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSSKLLLVVLSFALIPLFLVWGISYNMSKNALVTQTHSSIDTIASNFSEKVTNYYESFSKTIDSMAKLDFLSSMVKSMSRQFDEYENPTPFFRKAYVELNTNPKDPSKMLRLNDDLQNKLEEEFGDDAYGIFDYDLFHGQNHKIINDYVKVEGLDDFYLIDLKGRVVYSNKKGPAFARNLNKIPGNLRDLFYELKKEDKDHIHPILKDFTYSKSKKEVLEYYGIPIKKYAIDGYLIISKKVDALDSILNKKTNLGKSAKIYIILKDGTLMNDIKNLKKFQDKVDTSFIKGTNGIANYKSFDGNTVIGAYRKINAPGNEKYIVIEVNEKEALAFVYKLVQVNLIIIVSVIVFILILVTIFTKYLVKPVKTIQESVKAISNGDVSKKLVIKRKDEFGIIGRMFGDVQKTIIDIVEKIRGESKNIEINAEKIEEESNKNIDNSEVIKSSMQSIQANTESMAASVEETTASIEDVSTGAKSISAASADLSIKTSDIVEKIDNSKNEINSMMVSVDDIQVMMTRNNESIQNLSTKTISIKDITESIHKIAEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEESNIAAGKIEENIDYLVKDATSVAKESNKMTGNVTEITSSIKNIGTSLEGVLSAVTEISEMVENTAASSQQQGASLEQIDESMALINVSVQNVVKEINEVFNKIEEQLDSAKELGDLAVKLNNTIDSLNEFSSKFKLN;locus_tag=LOCUS_08270;note=WP_004081682.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:27.9%25%2C q_cov:51.2%25%2C s_cov:65.2%25%2C Eval:1.4e-42%2C partial hit],MGA_835
sequence1	MetaGeneAnnotator	CDS	929595	931382	.	+	0	ID=MGA_836;product=TIGR03960 family B12-binding radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080923.1;translation=MNISKFLFSTDVLHNVLKPGRYIGGEYNEIIKDKTKLKIAICFPDIYDIGMSHTGFQILYNLFNYYDSVSAERVFLPWIDMIEKMEKYKIPLYSLETYTPVKNFDLLGITLQYELSYPNILKILSMSDIPIYSKDRKEEDPIVLGGGPCSSNPEPVAPFFDAFFIGDGEEIVKNIVEVFNKFKSREQRLIELSKLKGIYVPKLNKPILKNGLLVHDKNKIINSIKLSDLNNFKFPINQIVSNIKIVHLRAIVEIMRGCNRGCRFCHAGMFYRPTRERSVENMEKIIYEILENTGFHEISLLSLSTLDYSMLNELIDRILPYLNEKHVSLSLPSSRVDKFSVELSSKLSSGRKAGLTFAPEAGSQKMRDIINKGIDEKEIFDVVKTAKENGWNRIKLYFMIGLPNETEEDVEEIVKLAKNLKKHSKLKEITVNISVFIPKPHTPFQYSKFEDLKSLKNKIKILYQLKKYKIRVNIQDPYQSYVEAIFALGDQNVSKILYDIVFEENSIFQQWDENFNFNSWARIFNKNEFDASKYLNGFNDILPWDFINTGVSKEFLKNEWEKSKNIEKTEDCRWSSCSMCGVCNKNLKVIVNKEQ;locus_tag=LOCUS_08280;note=WP_004080923.1 TIGR03960 family B12-binding radical SAM protein (Thermotoga maritima) [pid:45.4%25%2C q_cov:96.8%25%2C s_cov:96.8%25%2C Eval:2.0e-156],MGA_836
sequence1	MetaGeneAnnotator	CDS	931404	932837	.	-	0	ID=MGA_837;product=PLP-dependent aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965594.1;translation=MNFDFELKKRKDKNLYVQLYDGLKEMIINKKFKENQKLPAIRKIANFFKVNTSTVVKAYDLLEKEGFIYKKTGSGCFISNLEIKNKKEINDYDTKDFESFKYGQIQLHSNINFASSTPSINLFPIKNFKKVINKVLDRDGGEAFTYQETQGYYPLRDTISKSLKDKNINSSADRIQIVSGAQQAIDILSKILITPGDKIAVENPTYSGAISSFKNRGAIIQSFSIKNDGIDLNEFENFLKKNKIKFLYTMTNFHNPTGIKWSSKKKKTLLNLAIKYNFLILEDDCLSELYFYNKEPLSLKSLDTENKVIYIKSYSKIFMPGLRLGFIILPEKLYIPTLAVKYATDISSSGLNQRAFELYLKEGYWNNHIQTMKSLFKERFELMLDLILKYNMNLYAKPQGGLYFWLKTNIKIEKVYKKALKRGVSILPGSIFSLNNTSNYFRLSFATVEKNEIIKGMKILNDIINNDEEKKTYFPIV;locus_tag=LOCUS_08290;note=WP_010965594.1 PLP-dependent aminotransferase family protein (Clostridium) [pid:41.3%25%2C q_cov:94.1%25%2C s_cov:96.8%25%2C Eval:2.4e-93],MGA_837
sequence1	MetaGeneAnnotator	CDS	932959	933372	.	+	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSILLFFIIFISIFTFSASILTLETAFPTLDMARGTFGISYPFGGSLNFVSGVELPLLKGIVAENFNYSLDVGGILLPEAAANASLKVGTFGSKLFASIDTKNGTQFGILLRNWEGYFKIGLWIDPMTLFLGIEY;locus_tag=LOCUS_08300;note=MGA_838
sequence1	MetaGeneAnnotator	CDS	933521	936250	.	+	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENILGIIANENPTVLLKTVSLEIAEQLKKKINQETMIFVYESPRKVLKLLGKTFVADDIENYKIFLSYQKEVLNNLKDGKEQLYIFDDTNGFFANKKIFLYPIFSNDVFIGAIGLFEKCVRKNFIKEIFKPFAVIMKLVTESLIIEELKEKIGLSENMTQIIENTLDKNELIKMVLTEIKISLRALDIVYWKVEEDNLFKLDSLGEHIPKSMLSLNNSVEGKCLKDDKGFLIIGYDKLKNMELPFENKIKSSMYVPLKVDGEIIGVLALYNRMDENNYKTYKNFDELDLKFLVDASRRFCLALSRINYYNKIKTEIDKLTSLKSSHEALIKLQKEHLDKMNSLHKISQAVRSTYDKNNAIKITLLGLTSGRGLRYNRALYLERDRVRGFLIPKLWLGPNEDEDVENIWKEANRRSLKYGDLIQYLREESLQLPSNNKLTLKLENKLLAYKGHPVLERVVNKKQIIHVVPHMLKIKKEELEDIYDIIKCDEFLIFPITGKFDTKGVIIIDNKINNVPITNIDIEIIRLFQDSIGLAFEMIENYEELREKTKSLEEQKDLMDYYRRFKENIFQNLDVGIVVVDRNGKIVEWNKKSETIFSRPRENVIGSPINFLAEFVGDDIINTIDEIYETRESLKYPNYKLVMSNEEKIFDIQFSPLWNREIGVIEGVIIVFDDVTDIFVLHQEMERSEKLASMGEMTARIAHEIRNPLTVIGGFLNRMLKKQDNPEAVEKYSTIIKDELYRLEGIVSEILEFSRGKKLPKFEKVNLNDLIKDIVFMFEDFFAQKNIRLKLNYGMDPIEIYADRSRLKQVIINLVKNAIEVVEENGFIGIISGVEDLNAFFEVSNNGEPISHKNQEKLFLPFFTTKTHGTGLGLPICKKIIENEHSGKLFLVKSDEKETIFRVEIPLN;locus_tag=LOCUS_08310;note=WP_004081555.1 sensor histidine kinase (Thermotoga maritima) [pid:41.8%25%2C q_cov:65.6%25%2C s_cov:78.0%25%2C Eval:3.1e-135%2C partial hit],MGA_839
sequence1	MetaGeneAnnotator	CDS	936268	936624	.	+	0	ID=MGA_840;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081556.1;translation=MARILIVDDEDNIRMLIKEELEDSNFEIVDAPSAKKALQILSNDQEFDIVCTDIEMPDMNGLELAGEIRKKYPNKKIILLTAYSHYKSEMASWAADAYVVKSMDLTELKETINNLLKL;locus_tag=LOCUS_08320;note=WP_004081556.1 response regulator (Thermotoga maritima) [pid:56.9%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:3.4e-30],MGA_840
sequence1	MetaGeneAnnotator	CDS	936765	939509	.	+	0	ID=MGA_841;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081557.1;translation=MDYKDSLNLPKTSFKMKANLKQKEPEMLKKWDKMNIEKYVRENRKDAPKFLLHDGPPYANGDIHMGHALNKVLKDVVIKYKTMQGFNAPYVPGWDTHGLPIEHKVTTELGEKAEQLSKVQLRKICKDYALKQVKKQKKGFQRLGVRGEWENPYLTLIPEYEAGVLNVLKSLVESGNVYRNKKPIYWCSECQTALAEAEVEYHDHSSPSIFVKFELEKNTYIVIWTTTPWTLPANVAIALHEKFEYSKVKVNNEYWIMATELVDKVMKTAKIENYEIVEKFLGKEMEGKKAKHPFIDRDSLIVFADYVTLEDGTGCVHTAPGHGAEDYQTGLKYKLPVISPVDEKGFLTEEAGKYAGLKIWDANSVIIKDLEASGHLVAVQKIKHSYPHCWRCKSPIIFRATEQWFVSVDNAGLRQKVLDEIKEVNWIPEWGENRITSMIADRPDWCISRQRSWGIPIPAVRCVETGEVVLTTKMMDQFINIVSKEGTDAWFKKELSEIFPEGIDYDKGSTFEKMEDILDVWIDSGASFESVVNSREELNKFPVDLYLEGSDQHRGWFNSSIFLSVAKYGKAPYKSVLTHGFIKDESGKKMSKSIGNVISPQEIIDQYGADILRLWVSSADYRGDIKISFDILKQQAEVYRKFRNTIRFLLGNIADFSPKNDYVEYKDMEEIDKWALLKLNKLIETVTNYYESYEFYKVHQALNKFCTIDMSSIYLDIIKDRLYTESTKSKLRRSAQTAMYEIAIALTKMMAPILTFTGEEIYLNLPEEAKTFETVQLEKWPEIKEEYNDKKLEEKWNKLLEMREEIMKALEEKRKNKEIGHSLETKVVVEAKSKEYEEILKSFDTYFLADSIIASQFEIGKVENGFEGNIVKVKVTKAEGKKCERCWKIDTEVGNDSEYTDVCPRCAAVLKGER;locus_tag=LOCUS_08330;gene=ileS;EC_number=6.1.1.5;note=WP_004081557.1 isoleucine--tRNA ligase (Thermotoga maritima) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_841
sequence1	MetaGeneAnnotator	CDS	939573	940913	.	+	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKHIKNTFIFMDYQNQPVDPELIVQKIEEFGKMVGGKAYGHWSKYPATMFSFSRHGIELIERPEDGFANKKGNDIKLAVDAIETMFSLPHIEIFILVTGDADFVPLIKKLRTYGKDVVVISRSKNTSIDMQTSADSYIPYEDIVKSEKIDSTDTFEDIVDEVTRIMEEKNLTPDENIIKRILTGIKVNYINLGYSTFSSFVEDIKKRMTNTLFTDEELSEYEENYMRFLERLIVMKNIPLTVEKLEKIASSRHQWITKNSKYSLKNFIENMIESNKIKKNSLGILKVPAPRRWEIRYEKILPYPEIRVKFAKFIFNLFESKKVSNISEALHVSKENLNLTNKIIGSFGMALKFSGLFRGKDGSDYVSLKTPVSLIGDFEEFKEVLDTFFIKRILKDEDIHEKSLAKISKYVYNKEDTKYAKNGLKYLISKKEVKYEKPFYKYYK;locus_tag=LOCUS_08340;note=WP_015909278.1 NYN domain-containing protein (Chloroflexus aurantiacus) [pid:29.1%25%2C q_cov:32.7%25%2C s_cov:25.3%25%2C Eval:2.2e-16%2C partial hit],MGA_842
sequence1	MetaGeneAnnotator	CDS	940983	941255	.	+	0	ID=MGA_843;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003359333.1;translation=MNKKELVAALADRSGITKKESEAFINEFVNVVSETLEKGEAVKLVGFGTFEVVERSERKGVNPKTKESITIPAHKAPKFKAGTELKNRVK;locus_tag=LOCUS_08350;note=WP_003359333.1 HU family DNA-binding protein (Clostridium) [pid:58.4%25%2C q_cov:98.9%25%2C s_cov:96.7%25%2C Eval:4.0e-23],MGA_843
sequence1	MetaGeneAnnotator	CDS	941293	941715	.	-	0	ID=MGA_844;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865187.1;translation=MVDVLSFNIGDQEFAVDVDLIEVVTEIDDITPVPKSKHFINGLINLRGKIVSVSDITKILDIELPENHEYENILILKMNNEELGIFVDEVKNVLTVDNSNLENISNNITYKEKSNGIIKIDNRLIVYLNMFKVFDLENSL;locus_tag=LOCUS_08360;gene=cheW;note=WP_010865187.1 chemotaxis protein CheW (Thermotoga) [pid:42.9%25%2C q_cov:95.0%25%2C s_cov:87.4%25%2C Eval:2.1e-25],MGA_844
sequence1	MetaGeneAnnotator	CDS	941842	943407	.	-	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582639.1;translation=MKNYENSIIEILHTQGSFSKPFIKYGISLLKNCPLKKYLELRIFLWNSNDSEKNLKMIKEYEFFIKQNKNLYFKLMNEKLINLQRSKKKYESIIVYKWLKKNFKNISPKFRSIISISLFNYVAFSNFKVNKVRLWGEEIEINKTIKLFYLIGKSRESAKKELYEESLMYLNEAYIISKKIYHIPGILNSLNDYAWYSKKILIKNYKIIGRELFYILGYFKEKNEIKINILDTLDYVFDDFSKNKIELYLLINTLEKKNIPKKYIKLFKEAKKYELKTYINSYEIKEDLIIFFKENNYLKKGISKTTFFKIVNNKNKTIKSNTIKSILMKNPNIKIIDNIPYDFKNELYKIQIIKEYEKNKKIFKSLKSIKNKLMSTYSATLNRKKIFPNIIKNYDIFIKKDFKEIEKSIEYMFFVLKIIKSDEFTESRKDLFNKFIKKIKNKEKFLNSYLNSYEYEKNVMDIFIRNYVRYNIKWKIKLIPNKKIFKFIKVYGLNEQTANISLWYFENKEKFYFFKAIKNFL;locus_tag=LOCUS_08370;note=WP_012582639.1 hypothetical protein (Dictyoglomus turgidum) [pid:28.5%25%2C q_cov:96.2%25%2C s_cov:96.0%25%2C Eval:1.3e-39],MGA_845
sequence1	MetaGeneAnnotator	CDS	943567	943692	.	+	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFLMVILSVIFVSSCFADPSDIISPEEGTSPIVNNNY;locus_tag=LOCUS_08380;note=MGA_846
sequence1	MetaGeneAnnotator	CDS	943719	943847	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNLNKKLIKILAQKPINQKDISKKHDLLIKELKKIIKEKR;locus_tag=LOCUS_08390;note=MGA_847
sequence1	MetaGeneAnnotator	CDS	943887	944420	.	+	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYFFKNLDEKTRKYMLEEVELDIKKNFLYKSLRFNEIGNELYPQILKNAIEFGNEKTLEKNLLPEYFEDDKGKILKIGKYTSVLSTISNRVFSEYEFNKFYIRAILRRAIEENKEAVIYQAKKSFYYEDKKTKTIVGFSIKDPKSVLKSMRLGFKLESSLNLSSNQRYYGLSVELK;locus_tag=LOCUS_08400;note=MGA_848
sequence1	MetaGeneAnnotator	CDS	944548	945564	.	-	0	ID=MGA_849;product=ROK family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082680.1;translation=MNKSFKSSELKILNKRKILKHIFLNKQVTRKELANITGLSNSSITRIITELILDNYIISTQKINESKYGRKSEVLSINKEKMSALIVDIDIKTTMLGYGRFDGSVEILKTIPTLNDFKKFKEYMIKFIKLFNYNFEYISFSIPGIVDSNNKKIINTPNLGWKNLFYKDIKLKNVLLDNDSNLSMLAEKTFSKDMKNIENAIFILVKEGIGAGLLINNNLYRGKNYGAGEIGHNIIFNKNKEIPLEKTVDFQNNYNNTLKILAQNISHSINLLNLEKVILGGKILNLQNESINKLKEMIIDFTFKNNKILDIRTTNFNYVPASMIGACSNAVLNFINKI;locus_tag=LOCUS_08410;note=WP_004082680.1 ROK family transcriptional regulator (Thermotoga) [pid:33.3%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:2.1e-50],MGA_849
sequence1	MetaGeneAnnotator	CDS	945820	947805	.	+	0	ID=MGA_850;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948414.1;translation=MKSLKTKLILVFSLTVIIFLMIYSGISIFFVTKSVNEVSNEMASEILSNKSQLIDQWINSSIHYVDMISKNFKNIDIHNSDSINKLSLFNDEYSKKFEMLFISDENGDALIPSGSIVNISDREYFKKITQEKLNYYVSEALVSKATNNVIVVIAVPIKTSTGVGVFGATVLLDNLQKMVNDIEIMNKGYGWLIDQKGIFVQHENKDFIGKENALNLDSKYGYKGASEAIRKLLNGESGNDEVTLSNNKKAFIYYMPIKSANWGLGISILKSDLYEGTRKISNLLLIIGIIFALISIVVAYFVGMSIVNPVIYLSQQVEKFGSGDLTIRFKQKTNDEIGKMVASLGYMSNNLSSTIKSIKEASENILESSEELAANAEESTATNEELSARSNNITENAENAAINVENMAEAIHEISMAAQSVSEAAQELNDSANHTVKETKEGSDILSEVSKIVEVANEKSSNTEKVVKELADEAENIENIVETINSITEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEESKGATEKIAQILGELKNKSKIANSETIETAEMIKKVEKGSERLIEKFKNIEDKVSNMNNMIEGLSASSQQQSASTEEINASMSSVSKIINEITNGIKDVNEGINSQSESSQQVSASSEELEALSENLSEQIDKFKV;locus_tag=LOCUS_08420;note=WP_011948414.1 methyl-accepting chemotaxis protein (Clostridium botulinum) [pid:27.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-69],MGA_850
sequence1	MetaGeneAnnotator	CDS	947833	949455	.	-	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNFILFTLFIVSLYSTIYSEFFIINNTIIKGKILYANEFQCQIEVNGQVKKFPTNLVSNIGNNINDLLKNGILLKNNIKIYGNYSIFEVKKDIITFKSTDSVLNININDLISYSNSKNNENIIYIKKSVINYNKLNLNIEKGIISTNFGSISMDFNDLTKFEIGKYLISAEGLLYFLNSLKKEKNKFISSELNFTFDKIYSIINLKENKQIYEKENPYLVFKLPYNLKIENIIYSENSMYILGKDNLYIYDIHGFIKKIINVKYNTSIRIIDSHLIIFSDKKISFYDKKTLKLEKSLSLNFDKYINKIIEPLSNDTYLFGTLIDKNLFLYNFKKNNITFLNLNYIPHKIINNKDEKILLELNKIIFLNNNLEKIREINKEASLKNKIVFQNNKLYYFYTKINCYNKEKLLYSFDPKIDYRRNFLDNKDNLYLISKNTIKKFYFGKELWKKTFKEYIVDSFSTTNGIYVLFKNKYIVLNNTGKIIKTEYLKYKIDKFYGIIKDFIIYKQNNSLIFVKTNFLLNSWSIDNHYINKFHNAK;locus_tag=LOCUS_08430;note=MGA_851
sequence1	MetaGeneAnnotator	CDS	949596	950843	.	+	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINEMANLYSLGVYSSYFLNAINGQDNTLYSPPTMMNIFNNYYSNPSDMMNSITDIQKSAQNLSEAADTLSSYSSNSIFDTSSVETNSDSATATATGKVDKNSYTVNVSQLATNQVNKGNTINGSNLDFQSGHNFFTIEKDGQKYTFDTYVYGSSTNKSVLENIANDINNKDIGLTATLNEDTSGNIGLSIVTTDTGESSAFNIYDVSGNINQVGGFSNTTQNAQNAIYTVNNGNEQESESNTLQIDDNLTADVTKAGAFEITATANSEGVTSSVENFVNKLNDYLSTVEKNSEFISQNVQNSAQSIESVASTLSAIGINYNGSEFEITDKFYDLAKNPDNIESTVQPIVESVANEVKTTANTISESSTYSLSSALNSSGNYLNYTGGSIDSYISMYLNEIIMSSMGNSFNAYG;locus_tag=LOCUS_08440;note=WP_011268447.1 flagellar filament capping protein FliD (Pseudomonas syringae) [pid:24.2%25%2C q_cov:57.8%25%2C s_cov:52.2%25%2C Eval:9.8e-08%2C partial hit],MGA_852
sequence1	MetaGeneAnnotator	CDS	950880	951980	.	-	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIFFILIEIIYIITFSEIINDKTYLYKELYYGNNYINITPYPKINQKELKITKNYIYLNTNPFWIIYGKYRTNWSDLEHGVYLSDSLPYVNGIMGGYDTKVLKMIFGVYSFSPNLSSTESLIQKNGSIDQNSDRVGFEGYTSKYKTLIIHRLELKPLNTIRISFNELNLVGGKLPDIVDINPMGILHNTYGEGFSNAMLGVDFSFNPIKNYQLYCQFAMDDYMVPETEAGAENYKPTAFAYGLGNRFIFKINNFLISPKIEYYKVYTWMYNRWQELLKFTGKYNDIDIPMGFKYGNDMEGYLFGTDILNKKFNIKLLFEFYKKGEIDLNTPYNDPRKPESDKWEGPYGNTKNFIVISVFFVLK;locus_tag=LOCUS_08450;note=MGA_853
sequence1	MetaGeneAnnotator	CDS	951977	953302	.	-	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIMPLFFVLISTIYFSSARITTSKNFDYYFYNINTYDTPVYSNNTNEGIKNSFICYFPFKYENRIKNDFFMPKVRYENSSIKENLFRDIIIKNGDVFSFAFISSFKDTFFARFAPDLIMADTSYFLYPNMNFYNIDDFTKISVDFPRFSYLSLKEDSFEFILGRTQLSSGPLDYDLLLSNNAPYYDNMSLKVFFQNNIYYRFSMLSSVPFMSKEEYTYLFNHNIKEGYRNDFFNSLHLKNNNFEFSLNSLNHIGGKLPQLTDIFFKSNTGLFSINGKLSGYLNLYGEYAINYENYNSSFGIGIDKVFDFNSFKIRPYIEYYSVNKGIYKSTPYKSLFYRSIALSNKPGSRILFDYPFGFKYGENSNITTINLILGAKKGYFKIKYDFGNVEEKQLTSFDFLIKINLFYGNLEIGYTNLNFENIFSSFNINYTIKLDVGL;locus_tag=LOCUS_08460;note=MGA_854
sequence1	MetaGeneAnnotator	CDS	953352	954521	.	-	0	ID=MGA_855;product=TIGR00529 family membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081485.1;translation=MATLSILLGFLSLIITIKFFKKVYIGVFSALLTTAFIFFKPSFIVEGFIKTISGTSFYELIIIVTGIYLISDTMKISENSNKFAENIHSIFNSKQAIAFMPMFLGLLPMPGGAMFTAPMVKDIAEEKNIDNLTAASMNYWFRHLMEFFWILYPAVILFSSLTNIKITKILLINIPTGVFAFIGGWIFFKVGKIKFSGTLENWKNLLKSLIPIIAVMIGVILSIPGWIVVLVVSISYAIYYKNFSGLVKIKWEILILLLLVFSYKNFVELSGLSKSFVNELQSMGLSPWWIIILAPLTLGMITGITQAAFAVTMPLTVSLVTAGVLPLMAAGITTYYFSVVGVLLSPVHLCLLLTSDFFEVKMENMIKKILIPMIFSSFGYLLMMFILLK;locus_tag=LOCUS_08470;note=WP_004081485.1 TIGR00529 family membrane protein (Thermotoga maritima) [pid:34.6%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.2e-61],MGA_855
sequence1	MetaGeneAnnotator	CDS	954675	956366	.	+	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGSILFKLTLLSTLGIVTVVIALIILSTNSLNKYANAVINSTDQILTNDIETKNKKDANYLKSYGESIADYLGKISADPIWNFNTDLLNGYVENVIKLPNIVYAVVYDDSGSLLAGEKKGSNVISYKADIMYGDKKIGKVELGLDKNYLLTLQVENKKTKESLLSKFNKDSKDNISKAMIYQSIVALIIGAIIIIIIVLFILKIVKPLQKMNVLVKELSKGKGDLTVRLNIKTKDEIGVLASSFNDFIESLSELVKININSSKEIQNSSEYLAKTTLDQREYIKNVVEEMNIINQNSQNISASLEELNAGVADFSEGTQTVSESSKNLSNETQNVQKFIKNIGKTVEKTVKVMNNINKEMNNTVNSINNVNKYAQNIEDIVSTISSITEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEESKEATDNIAQILDSIKNGTQDAQKKVNVVLKDVGNAVETTNEISGEQEKVIELVSKMSDMANRNSQISQEQTTASNEMSQAIGTAATSVSDIVEKLDKISEDLNEINNEIEVLNNSSDKLKENANILVEQMNNFKV;locus_tag=LOCUS_08480;note=WP_004081682.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:33.1%25%2C q_cov:62.7%25%2C s_cov:62.5%25%2C Eval:1.4e-50%2C partial hit],MGA_856
sequence1	MetaGeneAnnotator	CDS	956403	957374	.	+	0	ID=MGA_857;product=DUF2804 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986244.1;translation=MKTLIKKRKKLCCENGNLNLETIGYEKYPHIISNLKGIRKKRFNFWTVKNDIFLFSIAIVDVDYTGKGILFFYDRVRKEYFEEVIEVPFAKNFKLSEFVYGNSSMKKGEYQISNEYIRNNAILKADTKKFKVDIEVKYPENVESLNLIVPWNNKKFHFTSKQNCLPAMGRINIEGRIYSFHIKNTLASFDYGRGIWPYKTFWNWASFSGFKDGEKFGINLGYGWTKGSGVNENCVFYDNKMYKLNDEVEFIYDKLDKEVIIKSSEVDIVFKTEYIREEKTNVVVLKSNLKQAIGSFSGIIKFKNKEIEFKDIFGIIEEHKARW;locus_tag=LOCUS_08490;note=WP_011986244.1 DUF2804 domain-containing protein (Clostridium botulinum) [pid:41.3%25%2C q_cov:96.9%25%2C s_cov:98.5%25%2C Eval:3.3e-66],MGA_857
sequence1	MetaGeneAnnotator	CDS	957406	958773	.	-	0	ID=MGA_858;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020392.1;translation=MNKNSKILGSESIWKLLIKLSLPATIGMMVQALYNLVDTIFVGRGVGTLGITGITLSFPVQMIVMAIAQMIGIGGASIISRALGEKNAQKAEKTMGNIFTLVILMSATISILGLIFINPLLSLLGTNSVSINAAKDYLSIILFGTIFFSFSMASNNIVRAEGNAKTAMYTMLISAGLNIILDPIFIFILHLGIKGAAIATVLSQATTALYLIYYFLSGKSSIKLHFKNFKLKSGIITEIMAIGSSAFVRQSAGSLLTIILNNILMVYGGVLYVAVYGLTNRLLMFVLMPLFGIAQGFQPIAGFNYGAKNYSRVKDVTKASIITTTILSSIGFFILILFPKQLLSVFTTDTNLILTASNVLKIIILFLPLIGIQIIGATMFQAIGKAFSSLILAMSRQIIFLIPLIYIMPIFFGINGVWISFPISDFLATLLTSILFYFQMKKFNTNSTLSKDINL;locus_tag=LOCUS_08500;note=WP_011020392.1 MATE family efflux transporter (Methanosarcina acetivorans) [pid:47.3%25%2C q_cov:96.9%25%2C s_cov:95.3%25%2C Eval:2.3e-114],MGA_858
sequence1	MetaGeneAnnotator	CDS	958766	959209	.	-	0	ID=MGA_859;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020238.1;translation=MNESFGKTISHISKKMYMYLNKNLEKYSISKGQIHFLMLLYRKGNGLTQEQISKFLDIDKANTTRALKKLIENGYVEKKRDEKDKRIFRVYLTDKGLNLKPKIKEILNELDQKLTFGITQKEIEQVLSTLEKVDKNLLKIQEGDICE;locus_tag=LOCUS_08510;note=WP_011020238.1 MarR family transcriptional regulator (Methanosarcina acetivorans) [pid:41.3%25%2C q_cov:93.9%25%2C s_cov:87.8%25%2C Eval:1.4e-25],MGA_859
sequence1	MetaGeneAnnotator	CDS	959340	959960	.	+	0	ID=MGA_860;product=HAD-IA family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001024248.1;translation=MKYKGFIWDLGGTLFDTYPGMVFAFKKALLDYNIAEKDINILEKIRISKKTGIEYFKKKYNLKNEFIKNVELYEKKINLKDRPPFPYIIEVLKYINENGGKNFIFTHRNKESVFQLLNFYDLKKYFFEIKSIEDGLKRKPNKEGYEYFKKKYNLKWIAIGDREIDIQAGINCKIDTVYFNIFGEKNILAKYSIKHFKEFYRILNDL;locus_tag=LOCUS_08520;note=WP_001024248.1 HAD-IA family hydrolase (Bacillus cereus) [pid:34.2%25%2C q_cov:96.6%25%2C s_cov:95.8%25%2C Eval:2.4e-27],MGA_860
sequence1	MetaGeneAnnotator	CDS	960032	961129	.	+	0	ID=MGA_861;product=ATP-dependent 6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459676.1;translation=MNKEIRKIALLTGGGDCPGLNAVIRAVTRTAILKHGYEVIGYKFGYRGLYNNDYIPMTTKTVSGILHKGGTILYSSNKDNLFDYQVEENGKMVKKDVSDVAVENLKREGVDVLVIMGGDGTLTSARDFARKGVNVIGIPKTIDNDLAATDLTFGFQSAVNVVTEALDRLHTTAESHHRVMILEVMGRNAGWIALHSGLAGSADVILIPEIPYDLDRVVNKIKQRSNSGKQFSIIVVAEGAKPKGGEVVVNKVVKDSPDPIRLGGIGNKLAADLEKRISDHEIRCTVLGHLQRGGNTSAFDRVLSTRYGVAAVDLIHNRDFGKMVALQGNKIVSVSLEDVIGTTKTVDPNGELVRVAQSIGVSFGD;locus_tag=LOCUS_08530;note=WP_011459676.1 ATP-dependent 6-phosphofructokinase (Desulfitobacterium hafniense) [pid:56.4%25%2C q_cov:99.2%25%2C s_cov:96.5%25%2C Eval:7.5e-110],MGA_861
sequence1	MetaGeneAnnotator	CDS	961369	961638	.	+	0	ID=MGA_862;product=co-chaperone GroES;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_024103730.1;translation=MMVKPLGNRLLIKPVVEEKKTAGGLVLPDSATEKPQKAVIVEVGTLDEDCTLKVGDKVIFAKYSGTEIKIEDEDHIIIDVDDVLAKVED;locus_tag=LOCUS_08540;gene=groES;note=WP_024103730.1 co-chaperone GroES (Thermotoga) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-24],MGA_862
sequence1	MetaGeneAnnotator	CDS	961658	963298	.	+	0	ID=MGA_863;product=chaperonin GroEL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081434.1;translation=MAKVLKFGEEARRSLENGVDTVANAVKITLGPKGRNVVLEKSWGSPTITNDGVSIAKEIEVKDKFENLGAQLVKEVASKTNDVAGDGTTTATVLAQAMIKEGLKNVAAGANPMLMKNGINEATKVAVEEVKSMSKKLKGKEDIAHVASISANNKEIGNIIAEAMDKVGEDGVITVEDSKTMDTFVEFTEGMQFDRGYISPYFVTNTDKMEVELKDPYILITDKKITSVKPLVPLLEKTAQAGKPLLIIAEDIEGEALSTLVLNKLRGTLESAAVKAPGFGDRRKAMLQDIAALTGGTVITEDLGLTLENTTIEDLGSAEVVRIGKDDTIIVSGKGDPKDIEERVKQIRAQIEATTSDYEKETLQERLAKLAGGVAVIKVGAATETELKEKKHRIEDALSATRAAVEEGIVAGGGIALLRTKKAVEKVVETLEGDEKIGAVTVFKSLDAPIRQIAKNAGVEGAIIVDKVLSNDSTSYGYDALNNEFVDMFEKGIIDPAKVTRSTLQNASSIASMLLTTEVLVADEPKEEAPAPDMGGAGMGGMPGMY;locus_tag=LOCUS_08550;gene=groL;note=WP_004081434.1 chaperonin GroEL (Thermotoga maritima) [pid:75.6%25%2C q_cov:96.7%25%2C s_cov:98.1%25%2C Eval:2.0e-232],MGA_863
sequence1	MetaGeneAnnotator	CDS	963367	964365	.	-	0	ID=MGA_864;product=nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943639.1;translation=MKEQIQKRLDSLTKPQGSLGKLEDIALKMGLIQGRIPKLPRKKAVYVFAGDHGVVEEDVSASPKEVTPQMVLNFLNGGAAINVFSRHTNSDVLVVDAGVNFYFKDNPGLIKKKVGYGTKNFTKERAMSIIEAKKSIEYGREIARHSIVNGVELAAIGDMGIGNTTTATAIACAFGIPLKDIIDIGTVITNEQLNNKKRAVEKAIELHKPFKDSIDVLSKVGSYCFGEMAGFLLECAENKIPVVLDGFPTTAAAMIAYKINPKIKNFIFAGHKSLVKGHSVILKSMELDPILDLNMRLGEGTGAVLSFSLIEAAIKMINEMETFESANVSKKE;locus_tag=LOCUS_08560;gene=cobT;EC_number=2.4.2.21;note=WP_010943639.1 nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase (Geobacter sulfurreducens) [pid:48.6%25%2C q_cov:98.5%25%2C s_cov:93.5%25%2C Eval:3.4e-82],MGA_864
sequence1	MetaGeneAnnotator	CDS	964642	966951	.	-	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGDKKRYFSFGKKVGVLLISMAILPAIITVLYFSFSVIQNSKESENTIKQSVNSLKETYKKSFDTYSNSVKKQISDYNNYIKSETKKIEKDISLKFENSYKKSFDNSLDTLNKVFSNYIFSQKNNIEKNGRLISSNELIKEKTSKKSISILDRYKILTPFINALEYNGIQLWIVNPKVATKKNRFDIKIKDKVYKVQRKAESYLPGYDKIKNINLNTFLTDIFKDYLSSDNKYPIIKTLTIEKIPYFLGVFPIVDPIAQSTINGFIVILNQFNYQKILEVSKLLNANIAIYSKNMNIIFSNMPSDILNISKEKINKKYILEKILNKNMRSVYSKINEFGGIYIQISKEFNSTTAQINIPLKTNIEIPKATIKDVKINIDLNIQNIIKNIIMWLIIIFILSIVISYFLGKNIGNHVKSITEKLTKISNGDLHFDDTKIFKVKDEFGVMAKELQNTAKSLKNLITNLIKDSNKLIESSNNVDQKSSELKNTQKSLENMLKQTKEIENIMNYTIDNLSESLEKLSESSENISSSNSNIHQISLNTIKLAENGEVLVKTITETSNNVSETMKDTVMNIEVFSKEVNKVSDFIEKITDIANQTNLLALNAAIEAARAGEAGKGFAVVAEEIRNLSEETSTTATGINYEMDKVNKNLKNVINEVMNSNENMNILNKKVYDFKNEFDKLKIYSNNLGSVVENLNIEVSEQKAIIETFKEISKKIKIETESSEKQIERTKQDIISETNSINSLMKQVEILNEVTKNLKEEINKFKL;locus_tag=LOCUS_08570;note=WP_010965839.1 methyl-accepting chemotaxis protein (Clostridium) [pid:27.3%25%2C q_cov:48.2%25%2C s_cov:55.5%25%2C Eval:9.3e-32%2C partial hit],MGA_865
sequence1	MetaGeneAnnotator	CDS	967003	968244	.	-	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFFFNVFLLYSLIILLTYISKTIALIAVVLLFLLEKKSFRRKLILLFIIPAFFFTPFKYKGEVGINGKIINKRDNQYTILTNSIYTKKWNKVRKTYTFYYNKFSIEPIYCGKDVYIHGTLENKLRVDYIAPGYKTTIFHLKDIAIKNIQKAVSNKDEQDILISSFMGGIKNKNLFKQTGTLHLFAVSGMHVYIIYFIFSFLISHVIYKRNLRILLVLPFLLLYLIFTGFSPSSVRAVLFLITINIFKLFDYYYEPLNILSFIGYLNLLLFPESILNPGFQMSYSATFMILLTLKYNPKHYELLIPISAFIGVLPFSILYFNSFSLLGILLTPLLSPIIAIIIFLDIILIIFPISFVGKIASFIAITTKSFLTLFCFIPSISLNEKIIPLILSSLILVFYIYFISSKKHTVKF;locus_tag=LOCUS_08580;note=WP_004082321.1 ComEC/Rec2 family competence protein (Thermotoga maritima) [pid:22.8%25%2C q_cov:63.2%25%2C s_cov:64.7%25%2C Eval:3.5e-13%2C partial hit],MGA_866
sequence1	MetaGeneAnnotator	CDS	968244	969128	.	-	0	ID=MGA_867;product=phosphate butyryltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869205.1;translation=MKDFKELIAMAKSKGKKRVVVVGAEDLEAVKAVSMAYDEGFVEPVLVGNVEKIKSNLKEVGKDFDIVEANGDIDASEKGVRLVSSGAADVLMKGLVKTAYLLKAALNKEWGLRTGSVLSHVAVLDTPALEKLVMVTDGGMIPYPTLEQKVAIINNSVKLAKSLGIETPKVGILAHVEVVNQDMQPTMDAAILTQMNRRGQIKGCIVDGPLALDNALSEKAAKIKKVSGEVAGHADILVAPDIMVGNVLGKSAIYIGGGNIAGLVLGAKAPIVIVSRADNSEAKLASLAMGCLNI;locus_tag=LOCUS_08590;gene=ptb;EC_number=2.3.1.19;note=WP_012869205.1 phosphate butyryltransferase (Thermanaerovibrio acidaminovorans) [pid:52.7%25%2C q_cov:98.0%25%2C s_cov:95.4%25%2C Eval:3.4e-75],MGA_867
sequence1	MetaGeneAnnotator	CDS	969232	970050	.	-	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRNLIFAFLIVIALLFTGCAKQQNKKILTPNGYESFSILDIADGDTIKVLDDGQPTSVRFIGIDTPETHVSSKPLGEYGTEAYYYTRKCVKVYSKDVVYLDFDQDKYGNYGRLLGYIYYKKDGKYHFLNEELLKNGLARPLFYDDSSKNKEIFIKAYEYAFEHKNGIFSKYNDNTIIKTPKQLTKKDIGKIRWIEFTVGNVGRSGSFYKIYSNENDFVVSIRQAEFNAFFKNFNLYELKGKKIRYFGEVWKEGSKYEILGRAKFEINVLN;locus_tag=LOCUS_08600;note=WP_000841351.1 thermonuclease family protein (Staphylococcus) [pid:36.4%25%2C q_cov:51.5%25%2C s_cov:75.7%25%2C Eval:7.9e-20%2C partial hit],MGA_868
sequence1	MetaGeneAnnotator	CDS	970330	971163	.	+	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLTLSVLVVAILMVFTGCLPKTKFGTATLKTIPELRTLIMNNKDTWTDFDAKDRLYETEGTVAYEYVSNSDSTKNYVYVVDDKGNGIKLSYLHKNEYENLFNVNDKIKIKGVPYYKTWDDPNVYELRMDISNYGTITVLEANHGIVLSSAKNQTSSLTGSNFANLIKFTGKYVDSDQFQNKNFTLANGDTIVIDSHSTIGTLTPNSTYTVTGVVGQSFGYRVFTSDASWTTLLEAAPPAPTPESTYTGIEKVKNDFLTNSASNTFKNIEGKLFI;locus_tag=LOCUS_08610;note=MGA_869
sequence1	MetaGeneAnnotator	CDS	971208	971657	.	+	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSISGINIGDKIKIDGEIYQDTYNHNFRFKNITSPSTTVSTGNTINYFTLDKELWSKNDWDTAVVWGQRIVKVKGTLKPIDGDNYNYEFTYTTSTGDATMLAYSKSIIDDANGGALTTTKDATLIGILEKYKNQWEIKPRTKDDVEF;locus_tag=LOCUS_08620;note=MGA_870
sequence1	MetaGeneAnnotator	CDS	971671	972792	.	+	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTILFLILTLFVVTIFARGTVMSVLGLYTLNLDDKNTFSNPFPILYFKSELAPNLELKFDYYLGLSPRYSFKVDENGEYDLPIPNHYSLNYTTRNLFLTVGNPKFKSYSYDFIKEDGFRIGGFKDDLATGIGGYLKAGILKLGGYYNLNYSYFETDESRKDGDDSYALMVGMDSRYQRLMGYLSKDKYGKLNLSIDGYHSFKVNRKTNYQFYYGAGYAVNATDDMQNDLTELSSIITTPKIIAGMRMYTKPVYVKGLFYYNLDTNGKNNYHIQVDGANDSPNGKTWLYDFKFGYQLQKPWTIEGFIRGNSKDEGILTDYITDYGATLIGDYFSITFAMKDANGRTDGNQNIVISFSTWNDFAFLDGALLGD;locus_tag=LOCUS_08630;note=MGA_871
sequence1	MetaGeneAnnotator	CDS	972869	973717	.	+	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLYTFFIILILVLSSCLPHSNNNEVLTGDVLFDNAHSQTAGNADWTITGGFSDFANDIKKIGLNVQQWGNDETGSSQRDDDAPITYDTLKNFKVYIIPEPNKPFTSQEQADIIKYINDGGSVFFISDHIRADRNNNGWDAVQIFNGFKRGTHTIENKNNYTDDFVGKLGFRFREVQYSQDPITNMKTHEITNGVTQVGMWAGSTLYIKDSNINGLVYLTNENSGPYVIAGTYGKGKFVAIGDSSPIDDGSGADSKLYDGYNDLDDAKLCMNIIKWLNK;locus_tag=LOCUS_08640;note=WP_000791479.1 DNA-binding protein (Bacillus thuringiensis) [pid:38.4%25%2C q_cov:87.9%25%2C s_cov:55.0%25%2C Eval:8.1e-47%2C partial hit],MGA_872
sequence1	MetaGeneAnnotator	CDS	973799	975802	.	+	0	ID=MGA_873;product=5'-nucleotidase C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001171063.1;translation=MLRKTLVFMLIIISVFVLADVQLQILATSDSHGRFLPYDYAVNSENNAGSLAQVYTVVKKLRAENPNTILIDVGDTIQDNSASLFINDAVNPMMLALNEIGYDVWVLGNHEFNYGIPALEKVMKQFKHPENLLGGNVYKPDGTRLAKPYTIIEKDGIKVGIIGMVTPNIKKWDASNLANYKVTNPIDETREAIKELKGKVDIIIATEHMALDDEYDVKGSGALDVIAANPEINVFVAAHAHVKIANEYYYKGKLYKENELTDEIKNNGTLIVEPYKWGRTISQVLINFKKENGKYVVESRSSKNIDMKAKHGNEVEVVPADKTLETELQPYNERAISYAEKVFGEMKGGNLVPDNTIKGSCIAKLQPNAMIDLINKTQMKYGERIAGRKIDVASAAVFREDSNIKEGKIANSDMALIYKYDNTLYVLEIKGKQLKEYMEWSAAYYNQFKDGDLTISFNPDIRGYNYDMFNGVKYEIDISKPAGHRIVNLRKMDGTPIKDTDVLTLAVNNYRANSQLLKPGAIFKDGEDLPKLLGKSTDVPEFVDGRIRDLLRKYIKEELNGVLTPKYDNNWKIIGYKWDPKYRAAAIKLINEGKINLIAAGRSSSNSVSVTKKDVDALTSSYMIKEGDTLSSIAKKVGSNYMYLAELNGISAPYVIHVYDELLIPKK;locus_tag=LOCUS_08650;note=WP_001171063.1 5'-nucleotidase C-terminal domain-containing protein (Bacillus) [pid:39.3%25%2C q_cov:90.9%25%2C s_cov:90.9%25%2C Eval:1.5e-120],MGA_873
sequence1	MetaGeneAnnotator	CDS	975849	976994	.	+	0	ID=MGA_874;product=YibE/F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680119.1;translation=MKKKPEIIVVLSVLFVSIFLMFYSPYEIMEKKKYQEITDYKYAKAKVLEIIEDTTKDKVKNDVSHMRYQKFKLEILTGPHKGEKYIINHAIEIIDVYYILVKEKDSIIISYTENDKNKIMTISLYEINREKYVYGIILIFFISLIIIAKIKGLKSSLTLFFTAIVIIKILLPMILMGYNPINLTIILCSFIALGTLLIIGGVNKKSFSAIIGTMGGLAISGIIAAIIGNLSRVSGLAGDSARMIKFLHRDLQLDFKGILFSAILIGALGAVMDVGLSIASALNEIVSVKPDISNKNLIKSGMNVGKDIVGSMSNTLILAYVGGALQLLILFLATKTHYIQLINIELISSEIITAVSGSIGLIWSVPLTILAFVLLRNKNKK;locus_tag=LOCUS_08660;note=WP_002680119.1 YibE/F family protein (Treponema denticola) [pid:41.5%25%2C q_cov:89.0%25%2C s_cov:89.3%25%2C Eval:2.0e-73],MGA_874
sequence1	MetaGeneAnnotator	CDS	977070	978608	.	+	0	ID=MGA_875;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055295205.1;translation=MKKLPIGVQDFKELITDYIYIDKTKYLYELITSGKFYFLSRPRRFGKSLTVSTLYYLFKGEKELFKGTYIYDKWEFKEYPVIKIDMSDNTLTTYEEFIKSLYDKINELYKEEELTPTTDDLPTMFGNLIKKLSQKYEERTVILIDEYESPILEHLNNKEEAEKVRRFLREFYKKIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLDKTYSQMLGYTQEELEENFKEHIKETAIEMKMEEKELLKNLKMYYNGFSFDGEDSVYNPFSILQFFKKRKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQSGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTVWKAIKEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDVIYIMEIKIDKSAEKALNQIKEMKYYEKYKEKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_08670;note=WP_055295205.1 ATP-binding protein (Bacteroides salyersiae) [pid:35.4%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:3.2e-83],MGA_875
sequence1	MetaGeneAnnotator	CDS	979087	979248	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLVGTLGIPNSVAGLLAGGIGAIATEGGMSAFINTVKNIIMSKGKAAAISW;locus_tag=LOCUS_08680;note=MGA_876
sequence1	MetaGeneAnnotator	CDS	979303	979527	.	+	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLVELLLIRLKNRVKIQFVKTSKIFKLLEKRCFEGMSIIFVSHMKEIQKNFSDRFFYFENNILREEKENVELF;locus_tag=LOCUS_08690;note=MGA_877
sequence1	MetaGeneAnnotator	CDS	979511	979729	.	+	0	ID=MGA_878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNFFKENKNYIIFFVILTVIFAVLFFIIKNDIYRLLSFIVYSVVGTLSFKFFSTAKAINTVKKGDINENKK;locus_tag=LOCUS_08700;note=MGA_878
sequence1	MetaGeneAnnotator	CDS	979713	980090	.	+	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKNDGCLTSFLVFIIVISGIALLINIIFINNPSSNLSVSHTLVMNNLILTSLQIVAALLMLMREKIGVYMYIFIGITNAIITFIFGKNLKMTLISIAFLMIPYIILYFLLRRNKKMNSAKNID;locus_tag=LOCUS_08710;note=MGA_879
sequence1	MetaGeneAnnotator	CDS	980180	981514	.	-	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMGMKTKRNIEKTFLYILVFIMIIFYIFPFVWSILSSITSNKYLFRENLGITFESGAVVNSVHGNTIANKANFKMKDIIKEVNGIKIKNSSQLINVLNKIDKNNPVEFKVKRKIRVIVVNGIEINYITNLKDVLNDYKETKEIEYMKMGNSLYINGARFEYSEKLINIVKTIQETKNANYQVKELNKIIPIKADLSSVKELKDKTNIIGLDIDDKRFTFSNYILVFSERPFLRYIWNSIIVAGTTTILSLIFGAFAGYSVARLKIPGKIAIMSLILAVSMFPQISILGGLFKILRNLNLINHYWGLIIPYIAINLPLTTWILQNFFRDLPASIEESAYIDGCSKFMTLWRIVIPLSIPAFVTTGLLTFIAAWNEFLFAFTFITETNMYTVPVAIAMFSGKSQYEVPWGQLMAASVIITVPLVIMVLVFQKKIVAGLTSGAVKG;locus_tag=LOCUS_08720;note=WP_011173998.1 carbohydrate ABC transporter permease (Thermus thermophilus) [pid:53.3%25%2C q_cov:51.1%25%2C s_cov:81.1%25%2C Eval:3.5e-67%2C partial hit],MGA_880
sequence1	MetaGeneAnnotator	CDS	981527	982420	.	-	0	ID=MGA_881;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173997.1;translation=MHSYKKKDVKLAFWLILPALIAILITAFFPLIQTIIDSFFKFSLRPDSIKKFVGIENYIKLFQDKRFVASFWNTLYFTAIAVSFEFFLGLITALILNASFKLRGLVRAAILIPWAIPTAISSQMWKWMYEDQYGFISHLLYNLGIIPQGTPILGTPGLAMNAIIAVDIWKTTPFMALLLLAGLQIIPSELYESARIDGANKWKQFTSITFPLLRPTIAVALIFRTLDSLRVFDVVYIMTKGALGTETMSVYNRHVLMDKIFSPKGYYGYGSAIAVVIFIIIGIFSLVYMKTMKLKMD;locus_tag=LOCUS_08730;note=WP_011173997.1 sugar ABC transporter permease (Thermus thermophilus) [pid:53.7%25%2C q_cov:90.9%25%2C s_cov:91.1%25%2C Eval:2.2e-74],MGA_881
sequence1	MetaGeneAnnotator	CDS	982482	983720	.	-	0	ID=MGA_882;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888077.1;translation=MRKTLSFIFILVLVVSAFSTTVTMAAGAVGKELEVLNAQIAVFEKANPDINIKIIPLQNESDSRHDNYANWLAAKVKTPTIFMVDVVWPAEFAPFFVDLTNDKDYFNIDKFLPGTVKSNTVNGRLVGIPWFTDAGLLYYRKDLLEKYGYKPPKTWYELLTIAKNISDKENINGFVWQGKRYEGLVCDAMEYIHSFGAEVIENGKVVLDDPDNLKKATQALWFMKGLIDEGVTPKGVTTYAEEESRRIFQNGDAVFMRNWPYAWSLANADDSVIKGKVGVMPLPMAPNGRHSATLGGWNLAINKYATDDEVMAAKKFIKFLTSYDQQVYKAVNSGQNPTLKAAYSDSKIKEANPFMVNLYDVFINAEPRPVTPVYSEVSDAIQRHVYDVLTGVKSARTALKELSDELRDIINY;locus_tag=LOCUS_08740;note=WP_010888077.1 ABC transporter substrate-binding protein (Deinococcus radiodurans) [pid:41.6%25%2C q_cov:95.4%25%2C s_cov:94.3%25%2C Eval:2.3e-81],MGA_882
sequence1	MetaGeneAnnotator	CDS	983946	984857	.	+	0	ID=MGA_883;product=carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963746.1;translation=MDIISCGEILIDMISKTYESSLRNVKDYEVHIGGSPSNIAINLSKQGFKSSIISKIGNDFFGRFIKENLEKNGVETSLLSVDENVNTDIVFVLKSKKSPDFYPYRSATLNMIDHNLPRTKIFHFSFWALSTEKNLKNTIKILNESKNAFIGFDPNYRKILDKTNKSIIDILKTILPKVNIIKPSEDDAESIFGKMNTKDYIKKFHELGAKNIILTLGKDGYIISNGKKEKKYTSYAKEVIDTTGAGDAFWSGFYIGILNNLNIFEASKLGNAFSAEKIKKVGAVIDLKSYKEIAKEYEIGGIL;locus_tag=LOCUS_08750;note=WP_010963746.1 carbohydrate kinase (Clostridium) [pid:33.3%25%2C q_cov:96.4%25%2C s_cov:98.4%25%2C Eval:1.9e-33],MGA_883
sequence1	MetaGeneAnnotator	CDS	984854	986248	.	+	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVAFLNPQGNFDEKDSHLTEHSDFGGQLIYVKEVAMALSKMGIDVDIITRKIEDEEWPEFSKSIDRYEGYNKLRIIRLPFGGKKFLNKEQLWDYIPQYVDEIIKFYGNKMPDFFTAHYGDGGYAGVLLKQKTGINFSFTGHSLGAQKLEKLGMNMKNFETMDKKYHFSKRISAERYSMKYASKIITSTNQERSEQYSHYLYRDSINVEDKKFKIIPPGVNLKIFNTELESLNLKLKDKKPHIILSSRLDEKKNHLNVVKAYASSKKLQDLSNLSIFLRNIENPYDLKNISEKERNILEPIISIIRENNIEDKVFFFDLKSQKDLAGAYRYFAQLNSVFSLTAFYEPFGLAPIEAAACGLAIVATKNGGPSEIFEDGSGVLVDPFDVEDIKIGLLNGIKNAEKYKELGRKRVLENYTWEKTAKNYLIAIEEGMKENININDQLELNSYSLIKSFLKLKMEENNE;locus_tag=LOCUS_08760;note=WP_007336886.1 HAD family hydrolase (Rhodopirellula baltica) [pid:32.2%25%2C q_cov:94.0%25%2C s_cov:58.4%25%2C Eval:1.7e-56%2C partial hit],MGA_884
sequence1	MetaGeneAnnotator	CDS	986241	987782	.	+	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIKDLWKGIYQSIDGFDELENFLNNEKKKKIKPIIWDENLVMYSLYVDLFSKDFNGMIEKLNYFEELGINVLWILPILSSPMNDQGFDISDFKYIRKDLGGNESFIEFIKKAHEKNIKIIFDVAINHTSIEHYWFKEARKSKTSKYRNYYIWNSNTNKYTKARLLFEGMESSNWTYNENTKDYYFHRFYKFQPDLNYKNPKVLIEMIKNLMYWREKGVDGFRMDAAPFLWKEEGTLCENLPQTHEILKIFRRSFDYVTEGTKFIAEANLEPKSVIEYFGDGDECNMAYNFPLMPKFYLAIKESNGNYIIDSLKELPNIPKGCKWLNFLRCHDELTLEFSSELERKKMNKYFLKEDLWKFRKGLGIAGRIYNMFDGDVKKILLIHSLMFSIDGVPIIYYGDEIGQENDLDFYNKMQNKTGYADARYLNRGMLNTEKLNLLKDKESDSYKIFNGIKNLIKLKKYSDVVLRYNFKDGVFISEMNNIISYNNLTNKKVSINGIKLNEYEYRWIKK;locus_tag=LOCUS_08770;note=WP_010942997.1 maltose alpha-D-glucosyltransferase (Geobacter sulfurreducens) [pid:42.4%25%2C q_cov:71.9%25%2C s_cov:33.8%25%2C Eval:1.8e-94%2C partial hit],MGA_885
sequence1	MetaGeneAnnotator	CDS	988347	988571	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLVGTLGIPNSVAGLVVGIISGASWTFLIISLVAGLLAGGIGAIATEGGMSAFINTVKNIIMSKGKAAAISW;locus_tag=LOCUS_08780;note=MGA_886
sequence1	MetaGeneAnnotator	CDS	988626	990398	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLVELLLIRLKNRVKIQFVKTSKIFKLLAKKGSFFAFFMIILFKIIISISMSLFLYKTFYYETHKVYWTSFIFLGLYFNAIVYGMVSYKRTYFPIDISILKSSPLEDRNIYLFVLIEEYVWHCLNSIEFYLSSFLFLLFINLHHLLFFTYIFILGLSSSFFIFVFFNILYGNYKISLIKNPIGIFRFILYGINSVLFFEFGVILTKFIYVPTMLYKKILFPNNKLSLSDNTLKILENSLINDWLNPIKEYFFYLFNSTIDISKEFYNFISLRYLIFLIFGIILFFMIKIFSPKYNKNIFIKSVEINKKDFLFIYVLTLKKVNSVFNNKNFLVEKELNIIKNSRWLVSPSFYSKIIANYDFYFMTGVIITNFKYINSIGYIISLILLFNVLLIFNQVTELRRDHLFIYTLSSEKRNINLVKLSGNSIDIVYKSKLNLMRLNLLVPSIITFFISLYLTIEKINFMNYNFYLCIITSIFTLVYMIWFAPISVLYIEPMFSRFDYKNTEELIDKRIEENIYEKILKIPRLILFTPVLLILYFNVFFNYLDKIKNFFPFIFLIYFVIISVTFNYFFNYIKEKGIKKVDGENIYV;locus_tag=LOCUS_08790;note=MGA_887
sequence1	MetaGeneAnnotator	CDS	990478	990906	.	+	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSKINYNTNIDPKKLFIMDVFVHNIFNLSLILIFGLITFGIVSSLMLLINGIYFGVTIHFIFLKYSFSLLFKGTFFHLFFELTAIFMTTAISFSFWDFFKKKEKDKKVVLSEIIIVFLISILLLFISAIIECKISSVLVRS;locus_tag=LOCUS_08800;note=MGA_888
sequence1	MetaGeneAnnotator	CDS	990912	991580	.	+	0	ID=MGA_889;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000570194.1;translation=MLPKLEVENLSFSYDNKTFILKNINLKVYPGESICIKGVNGCGKTTFLKILSGLINTKNIIKFNGKEIKNFKTYKKKISYIPDKPYLYEELTGKENINMIMHLWNENKKEYLKKISFLSNMFEIQKDLNTIVKNYSLGMKSKLYLIAMLARNTELMLLDEPLTTLDIKSRKNIENILYNKKKEGMSIIFVSHMKEIQKNFSDRFFYFENKILREEKENVELF;locus_tag=LOCUS_08810;note=WP_000570194.1 ABC transporter ATP-binding protein (Bacillus) [pid:31.8%25%2C q_cov:89.6%25%2C s_cov:83.4%25%2C Eval:1.8e-26],MGA_889
sequence1	MetaGeneAnnotator	CDS	991564	991782	.	+	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNFFKENKKYTIFFVILTVIFAVLFFIIKNDIYRFLSFIVYSVVGTLSFKFFSTAKAINTVKKGDINENKK;locus_tag=LOCUS_08820;note=MGA_890
sequence1	MetaGeneAnnotator	CDS	991766	992143	.	+	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKNDGCLTSFLVFIIVISGIALLINIIFINNPSLNLSVSHTLVMNNLILTSLQIVAALLMLMSEKIGVYMYIFIGITNAIITFIFGKNLKMTLISIAFLMIPYIILYFLLRRNKKMNSAKNID;locus_tag=LOCUS_08830;note=MGA_891
sequence1	MetaGeneAnnotator	CDS	992652	993653	.	+	0	ID=MGA_892;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083154.1;translation=MKKVFSFFVIFLVSLMTFSIGISDLFIEAQKTLGDYKISVMDFELANMDFERSKIESINKKTELMGNLNYFNATSSYLNSLNKFYTDVSNRLFNVINSELSVSMSEVQKNNAEIDYKNNKALFEKGLITEDTLTQSKISLNDVEIDLQNKNLNFENAMNDFTEASSMDYKSIEVKLYDPKKIFKTDEEYLSNNYSLKTTKISLEIAQYDLDNLPSNASEYDKKSYQIKVEKNKINLNSLKNTLIKTHKNTKNSITSTYNTLNNLKEKMKLKENDFMDAQSRYNKGLISEKELNTSKISFLSSKSSYYNTLKNYYNLIINYILDFNEKPEEVLN;locus_tag=LOCUS_08840;note=WP_004083154.1 TolC family protein (Thermotoga maritima) [pid:29.5%25%2C q_cov:94.6%25%2C s_cov:95.7%25%2C Eval:3.8e-41],MGA_892
sequence1	MetaGeneAnnotator	CDS	993650	994930	.	+	0	ID=MGA_893;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083147.1;translation=MKVKLTLLIISLLTVLSFSNFNDLYLRNLNTSTYLKSKESLDVSILSLNKKENFWSPYLSLNTGFGGISFDKDGLNKMNFSIKANFLELYGSTIGLTLPFSIDAKDNWKFDSDLKNLSLSFTRSLAKEPEVEMLNAKSNYYNSLYSFNNYKTSIFIKTIKDIFSKYYIINSLKLNKEELQIQKNKYNFETDEDKKESLNIQILQREKIINSYEVQLKSLSEIDESLYESTKKYVGNLVENSKESTIVNRYDLKAIKLSTKAKELQKNNWFLPYLPDMSINISISDINNFNWSISISFDYSIFDRGERLIAINSRKINSNEYSYEEALTTINNNINTLKDSIINSEIDIQISKINIKNALEDYNNKKKLSEKGFISKDDFNLFKVEYELKKLDLEKVNNDMLINKLNLLKEYGYFQNSEVIKVEKID;locus_tag=LOCUS_08850;note=WP_004083147.1 TolC family protein (Thermotoga maritima) [pid:31.0%25%2C q_cov:96.5%25%2C s_cov:97.1%25%2C Eval:1.7e-55],MGA_893
sequence1	MetaGeneAnnotator	CDS	994914	995966	.	+	0	ID=MGA_894;product=efflux RND transporter periplasmic adaptor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011203162.1;translation=MKKSIKWLIIIVTLVVLIFLIINALNIKKESGNVQTDKVSTALNNISVEYKVKKDNIGDYIEVSGNVTAETRRIISEVSGEVMDVYVENGEKIKKDQKMAKFEDIDYRINYLNKLNTYELAVNDGEKIKEIKKLQLDQAKKDLDNTILKSPVEGIISSVNISVGDVISRNFVSFTVVDNNSLKIEASIDEIDLPKIKVGMKAYVEFEQLHVKIPAKVSLINPVAVNAGGIVVIPIELKFEDNPLKYGIISGLTCNVKLITMELDNSIVIPVNSLIKGKDGNEYVFKKTSEGREKVPVITGQKTEKFVEIKNGLSEGDTVLIMPSKEEINRLKEKYATPNIRIGTGKRPKK;locus_tag=LOCUS_08860;note=WP_011203162.1 efflux RND transporter periplasmic adaptor subunit (Bacteroides fragilis) [pid:21.7%25%2C q_cov:84.0%25%2C s_cov:89.0%25%2C Eval:1.7e-10],MGA_894
sequence1	MetaGeneAnnotator	CDS	995963	996670	.	+	0	ID=MGA_895;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083143.1;translation=MKVMHLKDIWKIYQMGKIEVNALRGVSLEVNDGDFAIIIGPSGSGKSTLLHILGCLDRPTKGNVFVEDKEVSKMTDSQLAKIRNQKIGFVFQKFNLLGSMSALENVELPMIYAGKHLKERKKKAKELLELVGLGDRLNHKPNELSGGQQQRVAIARALANDPSFLLADEPTGNLDSKSGEEILEIFHTLHKMGKTLVIVTHDPEMVYEGNKTIKLFDGQIEKAEVRDFGNIKRNI;locus_tag=LOCUS_08870;note=WP_004083143.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:69.8%25%2C q_cov:95.7%25%2C s_cov:96.2%25%2C Eval:1.7e-86],MGA_895
sequence1	MetaGeneAnnotator	CDS	996645	997871	.	+	0	ID=MGA_896;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083141.1;translation=MEILRETYRSLFSNKLRTFLSMLGIIIGITSVITVMALGAGTTENITNSVSSLGSNVMIIFPGYSGGRGGKVASSMNYLEKSDAENIANYAEDVIRATPVLQSNFLVQNGNLNITSTIMAGNPELFNILNLNIDSGRSFVEDDYANVKNYAIIGYTTAESLFEGKNPIGEKIYLIQKNSKLFRKIPFEVIGVLKKAGSTLMFNTDKTIFIPYSTADARLFKTNGKASMILASGVSSEKSLEAQMEVDFILNNKFGDDTSYQIMSQDSMLEVIGQITGVMNFILIAIAAISLVVGGIGIMNIMLVSVSERTREIGVKMALGAGRKRILLEFLTESIAITFIAGLIGIILGSLLSAGISSLAANLNLKAIISLKSILIAFGVSASVGLFFGIYPANKASKLSPIEALRYE;locus_tag=LOCUS_08880;note=WP_004083141.1 ABC transporter permease (Thermotoga maritima) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-106],MGA_896
sequence1	MetaGeneAnnotator	CDS	997909	998091	.	-	0	ID=MGA_897;product=ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080635.1;translation=MKVFVEKETCIGCGVCENLCPDAFAIQDDGKAVAIEGASEAPCVQDAADSCPVQAIIIEE;locus_tag=LOCUS_08890;note=WP_004080635.1 ferredoxin (Thermotoga) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-17],MGA_897
sequence1	MetaGeneAnnotator	CDS	998160	999080	.	-	0	ID=MGA_898;product=hydroxypyruvate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081620.1;translation=MWLHINDPLAQDATDKLKELLPEIKITVEHYEPEVLKEKATEMDVLVVRSATKVTKDIIEAAPKLKIIGRAGMGLDNIDLETAKSKNIQVINTPGANSLSVAELVVGMILSLYRYTPRGTQGIKEGKWEKKQLKGLELTGKTLGIVGFGNIGKLLSKLVSGFGVKVLVFDVFDIPEEVLKEYNVEKVSLEEIYKNADIISLHVPKNDKTYHMISSKQFEAMKDGVVIINAARGGIVDEEALLKYLENGKVFGAGLDVYENEPPKGFLYEKLMNFNVVATPHIGATTKEAQWRVGMDLVDRLVKAIK;locus_tag=LOCUS_08900;EC_number=1.1.1.81;note=WP_004081620.1 hydroxypyruvate reductase (Thermotoga maritima) [pid:51.3%25%2C q_cov:99.0%25%2C s_cov:97.7%25%2C Eval:5.7e-81],MGA_898
sequence1	MetaGeneAnnotator	CDS	999082	1000230	.	-	0	ID=MGA_899;product=serine-pyruvate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081619.1;translation=MAKMIRKNYLMAPGPTPVPFDVLLAGAQDTIHHRTPQYVSIQKEALEGAKKLFVTENNVMLLSSSGTGAMEAAVANLVEKGDKVIVVSAGKFGERWALLCKKFESNMIEIKLNWGEAVAPEQIKEVLDANPDVKAVFTTLSETSTGVVHPVKEIAEIVKDTKAVMVVDTISGLLAQPLKMDEWNIDVVVTGVQKGFMMPPGVALISVSKKAEEVIKNCKSPRYYFDLNAYIKKYPDSPYTPPVNLGYQLKKAVEMLNEEGIENIWERHALMADATRAGVKAMGLELFAKRPGNVLTSVKVPEGIDGAKLVKDLRDNWGVTFAGGQDHVKGKIIRIAHLGYMSQFDVIVGLSALEMAFKKAGYNVELGSAVKAAEEVFLKAGV;locus_tag=LOCUS_08910;EC_number=2.6.1.51;note=WP_004081619.1 serine-pyruvate aminotransferase (Thermotoga maritima) [pid:62.5%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:2.8e-139],MGA_899
sequence1	MetaGeneAnnotator	CDS	1000376	1001803	.	-	0	ID=MGA_900;product=PleD family two-component system response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082745.1;translation=MLISNLNKKKVLIIDDSRTWRTILSDIFEKNEFLVQTAENGTIGYNLAFQFLPDLIITDVIMPGISGYVLCRLLRENELFSNTPIVILTGINENLDKFWAHESGASEFLSKNSDIEKNIYKFLEKNMDKISKNKKYALEGANQRIIDESDALHLVSKLMEGLLINSVIEIRFMELFKYILDFSSFNKQLFFYFNNIINLESIILYSSTQNMGTFLVNSKKKNFSNEYLKNKISTILEKPIIPSGYSFYGTVDKNSKDKINIENSYIYKNEKNSSFIVLENYEKFSKMELDKLSGLNTSFSILFMFLVNLIELRNESELDELTGLFTFKKLIRITDGLMSKAKRGKELFSLIMMDIDNFKIINDTYGHNFGNYVLKNIGSIIKENIRNYDLPFRYGGEEFLIILPSTKKEETYKVAERIRKDIEKLKLKDNVKVTVSIGITEYIEQENFQETIEESDKAMYISKKNGKNQTNYYKK;locus_tag=LOCUS_08920;note=WP_004082745.1 PleD family two-component system response regulator (Thermotoga maritima) [pid:31.1%25%2C q_cov:97.1%25%2C s_cov:99.1%25%2C Eval:5.5e-50],MGA_900
sequence1	Aragorn:1.2.38	tRNA	1001883	1001958	.	-	.	ID=Aragorn_31;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00310;note=Aragorn_31
sequence1	MetaGeneAnnotator	CDS	1002019	1002390	.	-	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSLLFLIIILSIFISIINFSNDTFYFISMLVVALTGFYGFFSNIKLWYHKSSHIIVSSLIGIILGGYELLKYGFGWLGVLTGNAPPALNIGIILFGTFSIFILYYEKKTLDKKKSDTLTKE;locus_tag=LOCUS_08930;note=MGA_901
sequence1	MetaGeneAnnotator	CDS	1002387	1004339	.	-	0	ID=MGA_902;product=ferrous iron transport protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065727.1;translation=MAFEVSIIGNPNVGKTSIFNLLTGTKQYVANWPGVTVEKKIGSYKFQNHEFRLIDLPGIYTLSAQSEDERVARDYFLNEAPDAIVVVADALNLERSMFLLMQLIEMNKPVILAINSIDEAEEKGKIINPEIISKTLNIPVVLTSAKKVKGITKLLQEIHKVSENTKNIRFELNYTKNINDFIYSFKNKISKYHEYNSYTSSWLAVNFIEFSGENFNYPKELLNSLKKEFNLKNLKEEYNNWKFNFISSLIKDCIVSNGRTWSTRDILDHVLTHRVLGLMIYVLALFLVFSLTFNVAAPLSDLMDLAISWLSDLTRNFIKIPWLSSLISDGIIGGVGGVLVFIPQIFALFFFMGFLEETGYLPRAAFLVDKLVRKFGLSGRSFMSIILGFGCSVPAIMSTKTISNKKERLSLILSIPFASCSARLPVYVVLISAFFSKHAAEVMLLLYSSSILLVLISAKILQVFVTQSKDIPFTIELPRFRMPTMKNLTFYTWHKGKHFLEKAGGIILIASIFIWFLSYFPNNGVDINKSFAASIGRFFEPVTLHLGWNWITNTALLFGVAAKEVVVSTYTTLLNSNSETLTNSLSAILTPRSAISLLFFILGYVPCFATLGTIKAETNSYKWPIFAFFYTTIVAYILANFVYFVGGMIL;locus_tag=LOCUS_08940;gene=feoB;note=WP_048065727.1 ferrous iron transport protein B (Methanosarcina acetivorans) [pid:36.3%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:5.3e-126],MGA_902
sequence1	MetaGeneAnnotator	CDS	1004329	1004565	.	-	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINKVISYIKEKKVNSLYQISEKFNLKNSEIEIIIPFLISNGINFSSIDKVKSVCSECPLANKCSKNKEKGGGGCGL;locus_tag=LOCUS_08950;note=MGA_903
sequence1	MetaGeneAnnotator	CDS	1004568	1005020	.	-	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIPLSSMTQGCSGKIVRYELDEDTKERLISMGLIIGKEIELVHISPFNDPFVYKIEDNKIMLRKSEASKIYVEISEEIIPLLNAKCGKYKVLSCNGGPFFLNKMKNNGIEPGNEIEVLENKGKITIKSLDKIFIIGKGQAKKIICKKEG;locus_tag=LOCUS_08960;note=MGA_904
sequence1	MetaGeneAnnotator	CDS	1005246	1006610	.	-	0	ID=MGA_905;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986715.1;translation=MYDFLIIGAGVIGTSIARELSKYNVNTCILEKTDDVSNGASKANSGIVHGGYAAKFGSLKGNLCFLGNQMFKSLNEELNFGYRKTGGLVLAFNANELKELNNLFENGKKFGLKNLKILEKKEILKIEPNINKEVMFALYCPDVGVTSPYEYTIALAENAIENGTELFLNSEVLAIKEYKDHFEVITKNKTFKTKYLINAAGVYADKISSMLGINTFKIIPRKGEYILFEKGTGSIVNNVIFQVPTKKGKGILVTSTYHGNLMIGPNAEEVENKENTKTSEEMLTYIIETAKKSVPFFDMKKKLKTFSGIRPTPNTGDFIIEESKERFINVAGIESPGLTSSPAIAKYVLEILKKSIHLEKKKNFNPYRKPIIKQKTLTPKELKNLINIKSSNEKIICRCEQVTEGEILDTLNRNIPIKTVKAIKMRTRAGMGRCQGAFCKPRVEEVIKKFIEKK;locus_tag=LOCUS_08970;note=WP_011986715.1 NAD(P)/FAD-dependent oxidoreductase (Clostridium botulinum) [pid:56.1%25%2C q_cov:97.4%25%2C s_cov:91.5%25%2C Eval:1.3e-138],MGA_905
sequence1	MetaGeneAnnotator	CDS	1006699	1007982	.	+	0	ID=MGA_906;product=ArsB/NhaD family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080628.1;translation=MKEIIVMITFFVVMYTIITHKINRTISAMLGALFLLIIKIFPDQLMAIEHYIDYNTIFLLIGMMLFVSVIKKSGIFSYIGIQTLKIFGKNGYMLFISLTILVGLISAFIDNVTTILVFIPITFAITDALKINYMPFILGEIFASNIGGTATIIGDPPNIMIASASGMSFIEFLGSQMPISVINLIVADIFLLIVFKKDLSKKIDHDFVKKFNPNESIQNKMHFFISSVLFLIVVVSFSFQHQIDIESSIIALSAGFIALVTMEEKNTEEILKEIEWESILFFMGLFLITGAMEEVGLLEDFSKILISFAGHSSRMFASFMLAISGLFSGFVDNIPFTATMIPVVRDLPTMNPEVFKNLDPIWFSLALGSCLGGNFTPIGASANILGLAMIKQFKKEEVKFSHFMLYGGAIVLMNIIFSEIYINLRYY;locus_tag=LOCUS_08980;note=WP_004080628.1 ArsB/NhaD family transporter (Thermotoga maritima) [pid:43.7%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:1.3e-103],MGA_906
sequence1	MetaGeneAnnotator	CDS	1007979	1008239	.	-	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESNDKKHNIMEDIIIDIFEEFMIFNPIDTKQRKIIIENVVKKWKPLYAKTKDEEIRLKLPILSQSFKTEVTKTIVEVLEQLKKEN;locus_tag=LOCUS_08990;note=MGA_907
sequence1	MetaGeneAnnotator	CDS	1008363	1008617	.	+	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFVLYTNDTCGVCKSLKPKIKALSEEKNIPLEVVNVEEERERASQKLIFTIPVLAFEHENKEYQRWVRVFSVNDVKNYLDRIL;locus_tag=LOCUS_09000;note=MGA_908
sequence1	MetaGeneAnnotator	CDS	1008640	1009236	.	-	0	ID=MGA_909;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003427435.1;translation=MYKPLDKSFYMQDGITVSKSLLGKILVRKINNKYILCKIVETEAYMGPEDKASHAYNNKRTKRTETMFKEGGCSYVYLIYGMYNCLNIVVNKKDIPQAVLIRAVEPLNYLNTIKTFRKIKSKRIYDLTNGPGKLCKALNIDKTFDGYDLIKGKELFIIDGSISNKIKESKRINIDYAEEYKNKLWRFYIEENKFVSKK;locus_tag=LOCUS_09010;note=WP_003427435.1 DNA-3-methyladenine glycosylase (Clostridioides difficile) [pid:49.3%25%2C q_cov:93.9%25%2C s_cov:100.0%25%2C Eval:1.4e-50],MGA_909
sequence1	MetaGeneAnnotator	CDS	1009229	1010722	.	-	0	ID=MGA_910;product=YifB family Mg chelatase-like AAA ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081420.1;translation=MKYSKIKTGSVNGFNVEETLVEIDINSRSTIQTFKIVGMPTTSILESEKRVISAIRNSGYNVPNGKIVSNLSPSNIRKEGTHFDLPIAVSLLEASSQIKKLDENFYLFGELGLNGEIRPVMGITLFLMSIKEKNKNAKFIIPRKNQEESSFIKNDVFTIDHLNDIERLYNSPETYIPKITKNSIKKHELDFSEIKGQMLVKRAAEIAASGFHNILMIGSPGSGKTMIARRIPSILPEMTKSEIIESTKIYSVSGYMNTVINNRPFRSPHHTASDVSIIGGGSNPKPGEISLSHNGVLFMDEFPEFKSNVIEGLRQPLEDGFVTITRSKGVAKYPAKFMLVAAQNPCPCGYYGDKEKECTCSMVQILNYNKKISGPILDRIDLKINVPRVKISELMSKSYSESSKKIKERVSRTSKIQINRQGKLNGKLSNSELKQFLNISEKAEDFLKNSALKLKLTARSVNRVLRVSRTVADSFESKTIEISHISEALNYRGNDIV;locus_tag=LOCUS_09020;note=WP_004081420.1 YifB family Mg chelatase-like AAA ATPase (Thermotoga) [pid:46.7%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:2.2e-129],MGA_910
sequence1	MetaGeneAnnotator	CDS	1010813	1012594	.	-	0	ID=MGA_911;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGQSDFKTIIEEDMYFVDKSLLIKEVIEGGNVLLITRPRRFGKTLSQSMMKYFFDITQNNEYLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHALLTMELSRLYLKHKYVLEVLDNEEKIIYDKIMGREALDADYENSIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLEVSTVLNELFNDKYGLTKEEVEETLKYYELEYEESEVIDWYNGYNFGGVEIYNPFSIVTLAKNKGKIRPYWMNTSGNYLVKQLIKQGSAELKDKIEKLINGEEIESTINETMVYGDLNNNLEESVWTLFLFSGYLKWTKNINHDYERYTLKIPNKEVKIFYNKTVVSMLEEERIKLNNILINLINGHIEEFKEDFQKLTMNTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAKNGLKQINEKRYEEDIKNYGINDIIKVSIAFDKKEVEIVSNLDKDVELTEIEKVAKNMLKKGLDVNMISELTGISVEKIKNIK;locus_tag=LOCUS_09030;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.1%25%2C q_cov:92.4%25%2C s_cov:99.1%25%2C Eval:2.5e-103],MGA_911
sequence1	MetaGeneAnnotator	CDS	1012628	1013266	.	-	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILSGIRTFSFVDYPKKISAVIYTGGCNFKCPWCHNWKIAYSNNYKKIPEDTIIKKLIDLKKRLNAVCITGGEPTINNDLFEFIQKIKQLDYEIKLDTNGTNPKMLEKLLKKDLINYVAMDIKSSPKNYEKLTNTKLNMDNIFKSIDILRKNSIDYEFRMTFVPNLSNQKDIEFFENFINQNEKGYITIANSTEIFKINKNVKLKTEKLIIR;locus_tag=LOCUS_09040;note=WP_011392958.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Moorella thermoacetica) [pid:40.0%25%2C q_cov:81.1%25%2C s_cov:73.9%25%2C Eval:6.8e-36%2C partial hit],MGA_912
sequence1	MetaGeneAnnotator	CDS	1013266	1015140	.	-	0	ID=MGA_913;product=ribonucleoside triphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584045.1;translation=MNKVINEYLSENDWKVKENSNMQYSLQGLNNHIHQEATKKYWLKEIYGKDSIIAKYHKNGLIHIHDLGSLSSYCVGWDLEELLKNGFNGVPNKISSGPANHLRTALGQIVNFLYTMQGEAAGAVAFSNFDTLLAPFIKYDKLDFKGIKQAMQEFIFNMNVPTRVGFQSPFSNITMDLVVPSTHKNKHIIIGGQEMKETYDEFQEEMNLINKAFIEIMLEGDYDGRPFSFPIPTYNITKDFNWESEVSTMIMNLTMKYGTPYFANYINSDMNPEDARSMCCRLKLDNRQVLSHMKELSFGFVNENKQDNENTEIKRRGGLFGANPLTGSIGVVTINIPRLMYLANGNKDKFYNLLDDVMETAKQSLEIKRKHIEEWTKNGLYPYTKIYLDSVYKLTGQYWANHFSTIGFIGMHEGLLNFGLKHGIIEEEGKNFAEDIMEYMLKKLNTFNKETGNLYNLEASPAEGTTYRLARIDKEEFGENIIQSGTKNVPYYTNSVHPPVKFFEDPFDLLEHQEGLQNKWTGGTVVHIFVGEKITDEEVLKEFIVTSFNNFTLPYMSITPTFSICPEHGYISGEHFKCPKCGKDSEVYSRVVGYYRPVQNWNEGKQQEYSERIQFSMNSEVLNI;locus_tag=LOCUS_09050;EC_number=1.17.4.2;note=WP_012584045.1 ribonucleoside triphosphate reductase (Dictyoglomus turgidum) [pid:59.3%25%2C q_cov:98.6%25%2C s_cov:96.5%25%2C Eval:6.9e-216],MGA_913
sequence1	MetaGeneAnnotator	CDS	1015285	1015527	.	+	0	ID=MGA_914;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057709.1;translation=MNREEILEKVKNVMVDSLDTDAEKVTLDASLTDDLEIDSLELVDLTMAFEEEFDIAIEDSELESIKTVKDIVDLFEKKSK;locus_tag=LOCUS_09060;gene=acpP;note=WP_011057709.1 acyl carrier protein (Thermosynechococcus vestitus) [pid:51.3%25%2C q_cov:97.5%25%2C s_cov:96.3%25%2C Eval:3.6e-16],MGA_914
sequence1	MetaGeneAnnotator	CDS	1015805	1018366	.	+	0	ID=MGA_915;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081021.1;translation=MKTLITTHANPDFDGFAASIAASLIYKNSIIVIAGNPSQNLKEFLQLYNLPYLNEKDFLKKYPNYELEVEKIVIVDTANINRIPVFIKEIIINNNDIKIDIYDHHPILRENNIIGNNYSKECGSAATIVLEKLLKEKNDFPDIYKTLFLIAIHEDTGNFIYTTTTYLDHIIAAELLKMGANLEEVEDFVSLEMTEDQKQIFDLLYNNISEFYVNDLNVYIAFAETEKFIGGLNIITHKIFETLTPDVLFSVVKMGKNIYIIARSKSDEIDLNVILKEFNGGGHKKAGAAKVKNGDANKIINDIRELMKKAFAPVLKAINIMSSPVRTVFENEKLEKIFEIMEQTGHSGLPVVSKNKLVGIVTKKDVEKAIKHKLKNAPVKAIMTKNLLVVDVFTPVSQIRKIMAESDVGRLPVLKDGVLIGIVTRSDILKATNGVFDFSINPIIEDHYDTFNIINLMKEKISNRVLNMLRLLGTYGTEFGVPVYVVGGFVRDLLLGVENLDIDLVVEGNGNEFGKYVADQLKIKYLSHEAFGTCSLFFKDGFKLDIATARTEYYEEPAKLPKVEISTIKKDLYRRDFSINAMAIKLNPEKFGLLLDFFGCKKDLDNGIIRALYSLSFVEDPTRILRAIRFEQRFNFKIDENTLDYMERTIENNYLEKVTGTRLREEIEKIIKEKSPINGIKRLGKLKIISHLFPYTYYTPTLENEIIKMFAFYDLLNKENKKYIENTNKFYILLYVILQYTSIDVLEFIRVKYGLPKNFVEKLVDVKNVFNKINKEDIKFSEIYELTKKFNNEQIIFLASKISDKMREHFYKYLKKLSNIKLPLNGKDLKKMGYVRNEIGIKLDELTKIELDK;locus_tag=LOCUS_09070;note=WP_004081021.1 CBS domain-containing protein (Thermotoga maritima) [pid:41.5%25%2C q_cov:99.5%25%2C s_cov:97.3%25%2C Eval:3.7e-186],MGA_915
sequence1	MetaGeneAnnotator	CDS	1018394	1018996	.	-	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKILMLLSVLLVFSYSFAAGITYTSSSNEQTELKLKTFLKDFITMQYKNTMRKDLSTNRVYDIIDGIIDASKIFKISPLMITAIIDTETNFRNIIGKMGEIGYMQIRPTTAKYIVDKYPESFEKAGYKTNDLNWIKKRLLIDPKYNILVGTAYLKHLLNYHDQNFYSAIGWYNGGGNEYYANKVIYKIAEITVTYPTI;locus_tag=LOCUS_09080;note=MGA_916
sequence1	MetaGeneAnnotator	CDS	1019000	1020445	.	-	0	ID=MGA_917;product=4-alpha-glucanotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083169.1;translation=MIFYELYLRSFFDGNGDGIGDFSGLNKKLDYFVNLGITHIWLLPIMKSPSFHGYTITDFYNTNPLYGNLEELKETLKNGHNKGLKFVLDIPVNHVSINHPWFQKALNGDKKYENYFIWSNDKTDINEKRHWGNNINIWHKVNDKYFYGLFGPGSPELNFENKNLWNEMKKIFSFWLEIGFDGFRLDAAKHIFDYNIKEMKFEYQHEKNISFWKEMISHIKSINPNSTIISEVWDDPKIVKKYNGIFEIGFNFPFSYDLKESLKRNSTKKFINGLKNSMENYLNEEKIITNSGNFLTNHDMTRLMSELKTIEKVKFSIAMLMTLPGNPFIYYGEELGMKGKLSNVDFTEDAEEPLQWYSCGYGIGQTEWKNIKFNKPYSGVSFEEQINNETSILNFLKSVIAFRKENDWISEAKIKILYSNKNMVKLSVFNRLNEFIIYYNFKSHEIKLDNFDTSKIIKIFGNFNKKNKSLEKYSILVLKGR;locus_tag=LOCUS_09090;gene=mgt;EC_number=2.4.1.25;note=WP_004083169.1 4-alpha-glucanotransferase (Thermotoga) [pid:38.8%25%2C q_cov:92.7%25%2C s_cov:96.6%25%2C Eval:7.8e-92],MGA_917
sequence1	MetaGeneAnnotator	CDS	1020499	1021584	.	+	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLSSYFILLSLTLFVIFISLFIFYFNSFKDDFEKESFDKYSKLISSTITFEIESKINFYKNKTLKEGIPVGPVKDFEFLDKTFGATTEIYNFEKENSEFILIYGIYSDISYKMRMNIEYILDEIVRELDINGKYIFIFNKKHFGDEEFLKRIKDDKLDFNKNRVEKYNNGYFFYDEIGKLKIKFLYYSKGMFSKTIKEKMWQMYIISMISFLLIVLLNNYFSISIRFKVSQILNEIYDFLNNPKKEINEHREFTEELKKIKKSILTKEERNSSFFKTYEELRYIYELTAQHNTLLIELMEFIEEFFEKDFSELKIENKFVKLEKSKKYENIDTEFYTIIKKNLIQLYEKIKKLKDNEQI;locus_tag=LOCUS_09100;note=MGA_918
sequence1	MetaGeneAnnotator	CDS	1021697	1024048	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFFISFLLVLLLIFSSCNTKTVILKASPKVQAPVGATSVSLSGFITDLENQIKQSLPIKIVNRNPLTFRYATDLINVSVSDFFSSDQINLDSFSKVLNQNFDVPLIPAPENLGDFSIPSVTIGSVPDIGINIVLPGITEAEGIEVNQHQTSSQTISTGLSGTEFVTATLKGNIEVNLTQNAFTNLDTEIYILKVTQGTNVLKTFNLLKGSNILDLSGITIEPKDLGISFEATLIGSNANVKIDENNPEILASITPHIALASISGAKITLKQDVNLTIPAILSSATFKSGSKLSLHSNEIQFKSVNGNFNIGSQTIPLSVTSGDLTADLSDATLTPSDNLNINASITADIPDASMSPMSASASLENIGFSNVVINNSDLDFHGNQTIPIPSVAKGIVDNIVIDSGKVTIEWKNTTPFVIKSKILSNVLGINESVNLDITNSGSHTINLSGKTLDFKTLDNIDFSYSASPTGYNGSTLSLSNVNPGDSYTFEATILFDGNAFNIGSITINATTIKGSLGDPMDLSFSDNDMADMLNKIQINKVPLTFVSTLNNVDMNGSVTIAASYTDTTGSSKTTNYNPITLGTSSTIDASDIINSHPKDLELGYSINIDSAVLNGTNQSIEAGVLLDLPFKFSVSQDTTITNDIKLSEGDILGRNEENAQDMKELLDGVMNENLVIHLGIMNTTGAKVKVQFIHDGAPVNFKINDQIVNGLLINNSEFKQNLAIDITNIFEQIKNTNPYPLSLRIILPEGVYNINADGKLDADLWVSIGADFKIPLHLNQ;locus_tag=LOCUS_09110;note=MGA_919
sequence1	MetaGeneAnnotator	CDS	1024064	1025293	.	+	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIVLLLISLSILSFSINEWNNEINPALLNETNRGFFDFIELGESFGLNISEPIYSIPELLKMRTQDVVTVDLNKIYNSLNKKDLILGILTNNEAHMKINLFGLKLGTYTNISGIGKINIPNKLLSIMVNGNEINKDYETFGKVDLKARVEAGLFLGLGRFGIKVGSFLPLLYSDERAGYKALFSTNLNDMSINGTVSAKIPVYSVLLPEQLENIENLDTDKLQNKLMNNSGTKIDIGYVVMSENKPSFGMSLNNLTISKATLDKKLFLNANYTVSASNIISGGEATTTSNFNFEKDSDVSFKVDAPTNFSMFMRVPLLFDFYPHFEYYFTGNNINWGIEAKTSLLWLFPLNISLDNTFGIWSTKVGIGVNIGLAEAFIQIGSASMDLKDALAFKGLSLKINMSLGF;locus_tag=LOCUS_09120;note=MGA_920
sequence1	MetaGeneAnnotator	CDS	1025367	1025621	.	+	0	ID=MGA_921;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902726.1;translation=MTREELFDKMKEVIVETLGVEEEDVKLDSSFVDDLDADSLELVDLTMALESELGVTIEDDEIESLKSVEDALKIVANKLNIDED;locus_tag=LOCUS_09130;gene=acpP;note=WP_005902726.1 acyl carrier protein (Fusobacterium) [pid:52.7%25%2C q_cov:86.9%25%2C s_cov:98.7%25%2C Eval:1.2e-14],MGA_921
sequence1	MetaGeneAnnotator	CDS	1025692	1027266	.	+	0	ID=MGA_922;product=CTP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080860.1;translation=MVKKHIIVTGGVLSGIGKGIVSASVGKIMKDSGINVNSLKLDPYLNVDAGTMNPNQHGEVFVTDDGYEADLDLGHYERFLGIPMKKFNNLTTGQVYKSIIEKERAGKYLGGTVQMVPHVTNEIKERIKSIDTDLLLIEVGGTVGDIEGEIFLEAIRQLSVEEGKENFMFIHVTFVPYLGVTNEFKTKPTQQSVQLLRKIGIQPDMLIIRTEKEIDQSSLEKVSLFGGVKSEYVINLPDLNNVYEVPEVIHKMGVQNLIAKKLNISITNNLNWNCPKTFKPLKIAMVGKYLGTDDAYKSILESIFLCGVKKPELLDAETLEEYDDEGVVSVLSKYDGIIIPGGFGKRGIEGKLKAIKFARENKVPILGICLGMQTMIIEFARNVMGYNGANSTEFDVDTKYPVVDMMEQQKNILQLGGTMRLGAQKTEVIKGSKLFDIYNKEIIDERHRHRYEANSDKFKEMFTTPEKNEDNKLIVGGKSDFVEEIELKDHPFFVGIQYHPEYKSKVGAPHPIFKAFTEAIINNL;locus_tag=LOCUS_09140;EC_number=6.3.4.2;note=WP_004080860.1 CTP synthase (Thermotoga) [pid:67.3%25%2C q_cov:97.7%25%2C s_cov:97.9%25%2C Eval:3.5e-210],MGA_922
sequence1	MetaGeneAnnotator	CDS	1027513	1029177	.	+	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKLKSIFQIFNQNEKILRYSVSVFDKEKFHQIIYYKENKFNDDYIGVEFNFSDELKKFIYNDNIYFYKGTIKLKNYFKDYWFLFENISEEYNELNIFVFKIYAPFINLKELLGIVVFFSKEEISEEIEILFQEINIELSEAFYIYRKKFLKINYTHQFLTSFIEILKSINTQLYYHSLGVADTATIIAESMGYSYDEIEFVRNCGLIHDIGKVWIPKSLIDKRGPLSKEEFELVKIHTDKLEEMLNMNTFMKKYVKVAKLHHERLDGSGYYGLKDDEIPEESRILAIADIFDALTHERSYRDAFTLEQSLAELEKMAKNKKIDKDILNVAIHVLPKVFSGDKISTPSNYLMEKSVYIQDIIKKENFIKGVIIGVHKDILNINIQDFQNIENGKIYLMTYENNDIEEKTKIKVLSTFENQITVRLETYKEIKENYVKILWYKDINITKLSSAISNFENINILNYPTFKVKMLMLGGNSITIELEELIINESDIILISFEAYDLKVRALCKVTLIKQEKDFIRATLDFFNMNDKQMRKIFQVIFKRQIELRLNF;locus_tag=LOCUS_09150;note=WP_012584035.1 transporter substrate-binding domain-containing protein (Dictyoglomus turgidum) [pid:36.7%25%2C q_cov:38.3%25%2C s_cov:34.0%25%2C Eval:5.4e-31%2C partial hit],MGA_923
sequence1	MetaGeneAnnotator	CDS	1029244	1030008	.	+	0	ID=MGA_924;product=acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080944.1;translation=MIKKFLFIGKNTKISDTVKFGYNVIIEDNVVIEKNVQIGHNIVIKEGTIIKAGSVIADNTVLGKEPFKASNSATTEKRKLEPLVIGEYVTIGANCVIYRGAKLEDGVFVGDLASIREDVVIGEKTIIGKGVTVENKTTIGKFVKIETEAYVTAISTVEDYCFIAPEVTFTNDNFLGRTEERKKYFKGPTIKKGARIGANATLLPGIVIGEDSLIAAGAVVTKNISPRKIYAGVPAKEFGNVPEEQLLKNQSYYK;locus_tag=LOCUS_09160;note=WP_004080944.1 acyltransferase (Thermotoga maritima) [pid:69.8%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:2.5e-97],MGA_924
sequence1	MetaGeneAnnotator	CDS	1030119	1031900	.	+	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRMILLSIIFIMFLLLNGCIATQNNDIRVSLSTVETKFITNKPITFNIKLNLPYGVKGSAASLIVTSVDSPDNDETTISATRVNSSEYIASYTPNKNGNYKFKAKFMGLGSTKEYESNEIIKYIRVSSEDFPKILNISINNNLNDVKVLNKDENYIFRAVVKPNVSPSLNISLDASAMNGLKIGIGTNQQNIQIVTDMNNIELGTLTTGIYEYLIQLYDSLNNNLAVFNEPQKIQFIVTNDLLSPTFDLDYTITKNKINLETYSNSIPFSVNFIEDKNLDNIGLYKTKISVDGTDVHNGLFQNGQSKDSAVINLSTGLHTVYLYAEDLAGNSDDKTYSVEVKKVDIKATVTPKNNSGDIIQSTDILNNDDFVFFDLNVYAETLESTPATYHYLLKNLTTNRILYDETFSNTLQKSVTTPATQIEEGENTIQLEVTVNGGDLVARSGAFIQVQDVTAPELYKAEMTIDSKVYKIYDKDNPSSIATITNSIIQNKTPSIKVYFRDKSAISYSKDISLYIDGNGTTDNFEQLSVDRNYVTDKSIAYTTTIDVISFGTGQYEFRIPGSSITDANGNIEKDKDGNVVDYSFTLNVVN;locus_tag=LOCUS_09170;note=MGA_925
sequence1	MetaGeneAnnotator	CDS	1031912	1037107	.	+	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLFILLFSFLFIFTGCFLDDKEPPKFIQMPELLNPIPEKAGDTLQVKLNVVDDTKITKIEFFKSGETTPFFTKIYDKSTIRDEILSSLMPYGETYYDVLIKVTDSSGNSSYRNLNKKFRTPDKSSPEILNVNLTQNLDKGINDYTLTSNINDIGSGLKQIRVFVDNATYNIQISDTKPTGVENYYYYTEKTGYSYSGLLNLELNSVGYGKHTIKIEAYDNTGKRTVSTREFMISPTSDTDLPVIEVNYPPYVEPGENYQITISASDASYIQKVKLNEMNFPISPSQPIVNKTITLKAPTEPTKKTFTAYAEDLFGKESSTKFDVFIAVNTPPVIKSFSIDTDNPSQDAPVTASFDIVDDIGLSTVRLYVDSTKIAEFGQESFQNNGRTLTKTATWTKASKGKHVMKLEVYDLHNKKSESSINIQTKDNTAPIISEVYIETLVGGNDTKKREIHSQPTFGVAFGDKIRFYANVSDAESDVKEVEFKVDGQNITTVRSTIRPNIFYSDELFDAAPTLASTILSIDVSATNTENIGTTITGNTLIIQDSVQEVYQPKIDSLIVNPILANLYDSVESRAEFADDGKLDEVKLEIKKIKSDGSIVSISDGVKPYTLDYPQGKTATLNVKWTATPAGTYVAIATAKNSLGITSTKNATFTVSGISLDIVNPADGKVFNLDDENTPINYEVKTMIGIQGTVTIIFDSDKDGDFSTNPATMTQIALSNPSLEFLSEYNTTVNKYTGQLLTTNSAVFPEPGRYRFRVDVESTEDKTIHSSSYTDITLRDMKLPVLEYLKIKSDGLTENFPDTQEVSSNGEKFYSGLDFSGNTNNTDIIFNLRVSDDGSINSVELKYDNETVALNKVESLGREDEYQGVLDKTKVKKGSKVINVTIMDSAQPNSNKVDYSFNMVGIELNKPTIESYDMALSGNSTSLTISKDDGATHEVPTGEGFNVTFSNTKLTDDTAVGRFKMILEDQFGNQTLIKQWDAAIDYPEVTEQNANTVFGSDLITSWNVPSDPGNYTILLEVDDKWYVETEGTSLKSYTEKLNRNVNDSNKILERIPITVIDYTPPAIELEVVGENTPDNIEMIKNTFAVSANIQDKYDEIKRETIVVKLQLADGTVKTFTPSTSKEGEKYITAAMTLNSSDIDGPGKLWIEFDTLKTKMHVVSKKIQVIVDQLPPQINEVTVEPRDSGNPSLGTIIVAHVGPDTVKEYDIKEVKMDLYSNGNLVNSFTAQHAGDVYFAETGDLASGDYTVKVKVTDYAGNVVNSTDKTITIEKEAPTLGNNWTHTGRQENKMAYKGADINNFSFTASDNDKLYQIIAGITKKGETDYKYYYQVNPDSKTANILESNLKENGSSYDLNSNLTDGDHVNIFITLVDNSSNGKTYKGYIYKDDTAPQAPILTNPTAAEIISENNVGDEKIVVDVTDNVGVRECQIVSLKDAADTVNIVENEQMQEGTGATDWVYTLSNLQSGLEDIFNLTVQATDLAGNAVNGVLKLKIDTKSPIINDFNIDATVPKSDDVYYVNAANTSKNFNWDITESNLNSVQILSDGIPHTVPASNVGNEAISQLISDIRLSEGTHSMRVKAIDKSSHESDSNTGKLTMVYDLTDPYLAEVKAMRSLTSTESTDIISADEVGKRISLSEDTIALKILFTETNFKYSTSNVVIKFGDDGATADATSDKINYSEVSDGGYKAIEVSSLDLSDGNDKQLDIEITDLAGNKVTKTLYIKK;locus_tag=LOCUS_09180;note=MGA_926
sequence1	MetaGeneAnnotator	CDS	1037225	1037785	.	+	0	ID=MGA_927;product=sigma-70 family RNA polymerase sigma factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082042.1;translation=MKNEEKFINKLKNKDKIAYNELYEKYTKKISGVLSHYVRQSEMDDAVQEVFLKIFKGIHNFKGESKLSTWIYRISVNVGKNYLKKYKNEKIQSMDLENDEKNTYFYQPISKINVSERIISELNYELILKIINKLKPDEKTLIMLREIEKISYKDIAHIMNIPIGTVKSRIFYTRKKLKNLLEKEKY;locus_tag=LOCUS_09190;note=WP_004082042.1 sigma-70 family RNA polymerase sigma factor (Thermotoga) [pid:43.9%25%2C q_cov:92.5%25%2C s_cov:91.5%25%2C Eval:6.5e-39],MGA_927
sequence1	MetaGeneAnnotator	CDS	1037815	1038264	.	+	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREIMSVIEVKDKYVYLLTQRAGECDSCELHGACSITGGPDLKIRAKRNENLELKEGDTVVVELPKVSITKMSFVVYGLPLIVFLSFTILFYLLGFGDVKSFLFGLTSMAITYTGIAIYDRKKLKDSYFPEIIDKINTPTTFKVINPNV;locus_tag=LOCUS_09200;note=MGA_928
sequence1	MetaGeneAnnotator	CDS	1038465	1039745	.	+	0	ID=MGA_929;product=glutamate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080520.1;translation=MSLYENAVRQFTKASKIMNLEPDLIDVLSKPKRELTVNFPVRMDDGSIKVFTGHRVQHNIARGPAKGGIRYHQNVTLDEVKALAFWMTWKCAVADIPYGGGKGGVTVDPRELSNGELERLSRRFFSEIQIIVGENKDVPAPDVNTNGQIMAWFMDTYSMNKGATTLGIVTGKPLEVGGSLGRPEATGRGVRICIEEGVEYLRKEGKINKANGELKVAIHGFGNVGSYTAVLTAEELGMKVVAVSDVTGGLYKEEGFTVEELKDLVEKTTERKTGLAEINPGFKTITNDEIFTLDVDVLVPGAIENVITEKNANEVKATLIVEAANGPITPEADEILQKKGIFIVPDFLANSGGVTVSYFEWVQGLQSFFWSLEDVRDALNKKMRNAFHSVIDTMKKYDLDIDMRSAAYIVAIERVATATRLRGIYP;locus_tag=LOCUS_09210;gene=gdhA;EC_number=1.4.1.3;note=WP_004080520.1 glutamate dehydrogenase (Thermotoga) [pid:61.9%25%2C q_cov:99.8%25%2C s_cov:99.0%25%2C Eval:1.0e-148],MGA_929
sequence1	MetaGeneAnnotator	CDS	1039775	1040653	.	-	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKALIYYGYPSCINEYYDINKAINSFKNYDLIVFPGSKRSFKSIEFESHEDHEKSKTIIKNLKNESFGYIACGNRDFDSHWTLKEINKLINLWKEMGVYGIFLDEFGNDYGNDDDRRKQIIDLVHENKLSVIMNVWNPDDVFKNLKTSTWKSDYYLLESFSFYANGEVTLYQTEEMIFERIIKLQEYKKKYDFQILGIDTFGFDFEIIKEEFLNTSLKLANFLSLDAYGVSKKDYHILDTKLIDFNLKNMNFNKTFKLKKSFGKYKRTDLKGKYIKWKNGKFGGIPIEIKI;locus_tag=LOCUS_09220;note=MGA_930
sequence1	MetaGeneAnnotator	CDS	1040747	1041733	.	+	0	ID=MGA_931;product=prolyl oligopeptidase family serine peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080211.1;translation=MKKYNKLMAFFIKSRHIFREIIVFVLFILSIFNGWIVIFYSFIIFSFIYIINILKRKLPLDVEYKGEKKTYTYKENLKLDIWYPENINEIHPVILFSHGGGWISGFRNQPNNVSWCKYLASNGFAVVSIDYRFGFKNSMKEILKDYTDSLEFLKTNANKLKLDKRNIVLMGLSAGGHLAMLYAAHNSYIKDKEKMAGIKGVVSYYTPADLNDLFEKNVKSLFSKFAVTTTLKGSPQKIKGEYIYYSPISWINCNMVPVLLVHGKEDDVVPFESMLKVVKKLKEKNIKHEVLVHKNGGHTFEFYMNDYHTVKIVKKTVAFIRACFKDEN;locus_tag=LOCUS_09230;note=WP_004080211.1 prolyl oligopeptidase family serine peptidase (Thermotoga maritima) [pid:43.8%25%2C q_cov:82.3%25%2C s_cov:87.3%25%2C Eval:1.3e-62],MGA_931
sequence1	MetaGeneAnnotator	CDS	1041723	1042727	.	+	0	ID=MGA_932;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080216.1;translation=MKIDFNYEKQKIKYISGYIFKGRHYRCDYIRFPTLYRNPAIGTETVEIYNYKPKEKSSASVLILHGLGSANIKFLLWMGSHLASVDINATILILPGNYTRVDNKSVSGRNYLWPQMNVMKQFWENSVVDVMSTIDFLEQENLWKKDNNCVLGYCLGGMVSTITSAFDKRIKDLILMTVGGHLPSIMYDSPATKFIRRLIKKGFKSDYNLSEPEKMFDIYEKQFQIVKYMTANEIITSNEIHPLFKIDPLSYAHLLDANRVTFIEAIFDRTLSRKSRKKLLKEFKKSNHYLIPIGHVSWLPFQYMLAQYIMNKLNIKDLKLKARLLEKQKIDEEF;locus_tag=LOCUS_09240;note=WP_004080216.1 alpha/beta hydrolase (Thermotoga maritima) [pid:36.5%25%2C q_cov:90.1%25%2C s_cov:95.5%25%2C Eval:5.5e-64],MGA_932
sequence1	MetaGeneAnnotator	CDS	1042740	1043048	.	+	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNFNEVNGRVQVKIIGDMDVMGATMNKNLFFEKLKQYEGKEFDIDMSKVNYIDSTGIGFLISVYREAKKLKSTLIFSNFNENVFKVLKMTNLDKALPIKY;locus_tag=LOCUS_09250;note=MGA_933
sequence1	MetaGeneAnnotator	CDS	1043199	1044692	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIFLFLTVSFLSFSVGIRPMLFEVNAKPGDTINEEIFLDPEMIDKNVNVELYQFIQNENGEFSFLKADKDVFPEINWINYENKILVPAGKNTISNVKIKVPLNAKPGTYNFILMMTPETVKAKTGISIVMRYAVRISLNVSGISRKKVELKNINIIPDQDKKPTIVATVLNSSDFDLKTSVNAIIRNIKGKIIEKIPLKTAYMMKNSKNEQKILSKNEVQFYGTSKYLVSAGEYRVDVFLNYDDNQKIYTSKIKIPKNVFSFASGKELALKLNPNFLSYKLYPGAAKTSAIRLENFSDFNTKVKVGGAEFPISKDKSMLKWISLKTKNPIILNAGRHTNLITTIRVPKNVEDGAYYGKLLLNSYTKDSTFLTQEIVNCEVLIGNTTTNATVLNYNYKEMNDSGSFSIKIKNTGDRYILPKATLNISNEKRESIGNFGLSSTSESRWLMNGESTILFGDTVKLEKGKYYFSINIYNSDEILTKYSGILDIGEKQ;locus_tag=LOCUS_09260;note=MGA_934
sequence1	MetaGeneAnnotator	CDS	1044689	1045813	.	+	0	ID=MGA_935;product=general secretion pathway protein GspD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080304.1;translation=MKKILSLLVLIVGTIIFSEPLITATFYNSQLTEALNEVAMQAEVTILTDEYVNGIISADFTDTPVASVLTTLLMPGGFSFKKINDKTYFVGLADPRSKTFSYLAEKKFIKLNYISPEDFIKLVPDSFLSYIKINYIDNGLIFYAPEEKIKYLTEIIKEVDKPQTDIKLNIYVLEVDKQYSSLLSGNLSTINQNLGDSFSYTNQTVSFSVNNLFQAQLKMFESENLANLVSNQSVYIKPGKTLNINILNNKNIVMNIDGKDSIKTVNNGISISILPTYYNKKIDLEISSEISKLLGVSGNSYDTTKSILQTKVSLNPNEMIMIANLDMNQFSDTKSGFPLLREIPILRFLFSNNLNSEGNKRLMIFVNAVGGEIK;locus_tag=LOCUS_09270;note=WP_004080304.1 general secretion pathway protein GspD (Thermotoga maritima) [pid:28.5%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.0e-45],MGA_935
sequence1	MetaGeneAnnotator	CDS	1045810	1046661	.	+	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFILIFLSIISLQVFANIYSYSIFIKRENKEITLFNISVIEGYTFKYSTNGIIESDFEITPVNTTKKVVTSKIKINSKTFLFENTVNSKLGEKKYLLKAKDLNNEKFEIYLIVNGIKNINFETKKEKNFNSIKYKSINNEVVFSTKLGKLYLNYSTLKTISIGFYYKNSLLKISSNGTEIKASIVDNTNIDNLKLNAEFYPIIYKDKKIMFAPEFNSKINYLIYDFLGIETNISMVDYNFTFSSGLFLNFNFNDIKVSSDLFYNILENKYSFEAKLEYIY;locus_tag=LOCUS_09280;note=MGA_936
sequence1	MetaGeneAnnotator	CDS	1046681	1047721	.	+	0	ID=MGA_937;product=BTAD domain-containing putative transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080300.1;translation=MIYANLFGVFTIKKNEKLIKNFGSRKAQELLKYLILNKNKKISTFDIYNIFWENFDEDSAKANLNSTLYLIRKKLGITKEELYTHYNYCTFSPKSFNTDMNDMLMFYEKAQGEEDVEMKIELLKKAVNLYKDELLSENIYDMWVEYKRQYIKKIYVDILSELADLFEEKNDLTRALKYLQKGFEYDKNRDDIWLKQIALNIKAENYIASQKLYNDYKELFGNSELSFIGNIKDMYTNKKENNVQVLQGATILCEEDFELLIALEKNKREKDFFVLELSFNKRSSFDNSLNILTKKIRKVDVIMTKKDKIYIMFREIKNKELAKDSIKEKIKSFLKNENYQLIEVED;locus_tag=LOCUS_09290;note=WP_004080300.1 BTAD domain-containing putative transcriptional regulator (Thermotoga maritima) [pid:29.1%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:9.0e-33],MGA_937
sequence1	MetaGeneAnnotator	CDS	1047843	1049825	.	+	0	ID=MGA_938;product=sodium-translocating pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583780.1;translation=MGIVYQLSGVIAGVIGMIFTVFLTFKVLEKEPGNEKMIEISKAIQVGAKAFLISEYKILYMIVGLFALFLGIANSWGMAIAFVFGATMSVLAGFFGMTIATRANTRTTHAAISSLGSALKVAFNGGAVMGMTVSSLGVFGLGLVFFISGEDTLIMSGYAMGASFVALFARVGGGIFTKAADVGADLVGKTEAGIPEDDPRNPAVIADNVGDNVGDVAGMGADLFESYVGSIFSASALGALAFSVKGAIFPFLVVSFGLISAIIGIIIVNLTVKSKEGIDPSKMLHFGTYIANIIELISVFILSKYIFGDFNSGVVILLGMIVGILIGSITEYYTAKNPIKKLAHTATSGAAPILINGMAIGMESTAIPVLLIAAATIVSYKLMGLFGIALSGVGMLSTLGITLAIDAYGPIADNAGGIAEMAHLDPEVRERTDLLDSVGNTTAAIGKGFAIGSAALTALALFASYINVTGIKSVNLTDSTVFIGALIGAMLPFLFSAFAMQAVGDSADIMVQEVRRQFKEIPGLMEGKNKPDYEKCVSIATKGALKKMILPSLLAVLSPILIYFVLGKTAVAGVLAGTTVAGVMLAIFMSNSGGAWDNAKKYIEANNFGGKGSMAHKASVIGDTVGDPFKDTAGPAINILIKLMSIVSIVIIPILIKFFE;locus_tag=LOCUS_09300;EC_number=3.6.1.1;note=WP_012583780.1 sodium-translocating pyrophosphatase (Dictyoglomus turgidum) [pid:53.9%25%2C q_cov:96.1%25%2C s_cov:96.7%25%2C Eval:6.3e-191],MGA_938
sequence1	MetaGeneAnnotator	CDS	1049868	1050359	.	-	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIGLVLVLSLLIVISFANQTTVSSNIPVNVTVLKHVVLELPTDASFDLTYDPEHTSDVSSDSVDFTVKSNYNYSITAEYNLPAGATPPSEINITDYYTITLDNNTGNAGVNNHTVTFAVDYSKMETDAETLSGKSDVWTYVEASSEAYAAGTVTLTVTAD;locus_tag=LOCUS_09310;note=MGA_939
sequence1	MetaGeneAnnotator	CDS	1050356	1051768	.	-	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKREVSVMYNIISSEIQKQINTFFLKYYNSGIKDYYVSILFFVINNSYEETNIEKYIKKTLFFINTNLGTNFKLTNNETEIKIGNSNEFYGYLDTGDFVDYSFLKVFSDIFYLSLKRVNLNKNYKETLNFSQFILDNIENIIIVLDEKKNIINYNLQALTHFGKKLINSKIFDLIGINKNIFNFENQLDKKEFDYFNYDYYYKIRISSYKNKKYIVDIYPQKIFDYLKSNVTTNNNFKFEESDLLINYSNELKKIFDSNVSITVYNFNKKIFFYSTKSSFSSKIKYLIELNENYKVYFEFDSIIKTNSTILKEIENTLNINFKVKRDALTTLYRKEKLFKEVQNVISNKKDALLMIIDINDFKNFNDKNGHIFGDIILKKFSEALISSFRNNDIICRLGGDEFGILMFGQYSGKEIKYINRINKKLKGVIEFSYGCSKINGTKDTLEEYFEEADKNMYLNKKTTKRREFS;locus_tag=LOCUS_09320;note=WP_011947948.1 sensor domain-containing diguanylate cyclase (Clostridium botulinum) [pid:26.4%25%2C q_cov:74.9%25%2C s_cov:94.7%25%2C Eval:3.2e-18%2C partial hit],MGA_940
sequence1	MetaGeneAnnotator	CDS	1051811	1052404	.	-	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFIILILSLLTISFANKPEDNGSINVNVTVLPHVTMSFNPSDQLLDSWKKINGVNEKVNEIDPSLRAVRYYATGVNAEIKTNTNIEIKSSFVVNPEAMDPSFYNPATGVVNPETITGGISVIEDSDEVGSYPLAISANEDPKVYTTITHDYDGTSGFNIQYSMNLKFTDDNWYKIKAGTVTIGHIEVIVNAVN;locus_tag=LOCUS_09330;note=MGA_941
sequence1	MetaGeneAnnotator	CDS	1052460	1052873	.	-	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIVLVLALVMVVAMGFAAQSTATGNIPVKVTVLPHVVVTPSVEAINVNYDPENKTLGDTSFSLEVKANFAYKVDIDFNSDSNEKLALVDENVYANQTGNDTWDYSVTFANNGDNFWLDNAADYTGTIVYTVSQQ;locus_tag=LOCUS_09340;note=MGA_942
sequence1	MetaGeneAnnotator	CDS	1053070	1053738	.	+	0	ID=MGA_943;product=cytochrome c biogenesis CcdA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080262.1;translation=MNLLQPSIGYITALGGGILSFFSPCVLPLIPIIFAILIPDINKTSIVIKRGIGFFLGLSIFFTILGVISGSIGFLFYSYKWVLNIIAGSITIFFGIVFLLDKQVFKGSKVNLNKFKDSSFISSFFMGFAVSIVWIPCSGPILGGILSMAATNTNIIKAAVLLFVYSLGISIPFLFFSGVISKIVSKVSLGEPKWQRYLKYIGGILLILIGVFILFGLFNKIF;locus_tag=LOCUS_09350;note=WP_004080262.1 cytochrome c biogenesis CcdA family protein (Thermotoga maritima) [pid:36.1%25%2C q_cov:98.2%25%2C s_cov:98.6%25%2C Eval:4.5e-33],MGA_943
sequence1	MetaGeneAnnotator	CDS	1053759	1054436	.	+	0	ID=MGA_944;product=thioredoxin fold domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080260.1;translation=MKKLLNFKFSIFVMLIISISIFSVPLNNFVLRNFNDAFTVSKITGKKVIIMFSSEECYYCKKFEEEILTNKDVQKWLRTEFVFAEITAKNDGTADFRNKKYTYPQLFGAFGVRGTPTFVFFEDEDNFLGSIPGYVEANTFENLLKYLLFKDNTKVQFQDFIKKDYGINIRKRSLNLNKKDIETLLKIDPNTKIYNKSYDDYTNVVVDNENNNYKNFIIIKEKSKK;locus_tag=LOCUS_09360;note=WP_004080260.1 thioredoxin fold domain-containing protein (Thermotoga maritima) [pid:36.1%25%2C q_cov:79.1%25%2C s_cov:79.5%25%2C Eval:7.1e-26],MGA_944
sequence1	MetaGeneAnnotator	CDS	1054597	1054752	.	+	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIFSFSNPKLSSQYEFIKIIKHSNDYKEVKEIAKLRRGNVKENTSNKVK;locus_tag=LOCUS_09370;note=MGA_945
sequence1	MetaGeneAnnotator	CDS	1054761	1055486	.	+	0	ID=MGA_946;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011942803.1;translation=MLENVITMSNFNLFINEEKILNDINLEIFSGETILLYGPRNSGKSALLRSFVHLNEELFNKVVGVGEIRFEDKDVRTIDKKLLRSLIIYSDTSFVENLNFLTLHEILQLSIGLKINEITTEHFDMLEKLNIAHYFSDLDMLKKYDNLSSWSMAEKISLITFISLARNPSVFMFDCILDHLDDFVLKDVKNLLLKIKEERTLIISTRNFSLFSDICDKVILLDKGSIKFHGSKDNFMINFPE;locus_tag=LOCUS_09380;note=WP_011942803.1 ABC transporter ATP-binding protein (Thermotoga sp. Xyl54) [pid:38.4%25%2C q_cov:96.3%25%2C s_cov:96.2%25%2C Eval:7.7e-37],MGA_946
sequence1	MetaGeneAnnotator	CDS	1055561	1056298	.	+	0	ID=MGA_947;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003102782.1;translation=MKKVLFLILGLLIFVSMFSRTVTFAAIDWPPFTGPTLDNYGFHSEISIAAMKKMGYEVKIEFVPWQRALNMVRSGKYDGLFTIYYSDERAQYYAFTDVVSTSNLVFFKKKGKDIPNNYKTFEDLKKYTFGVVRGYKNTDEFDKADYLMKENANNSEENLKKLIFGRIDILVDSKETILDLLNKKYQDFVGTLDIINPPLQTFNVYNAFSKAIPDYKKLVEDFNKGLQMIKKDGTYDKILKKHGMK;locus_tag=LOCUS_09390;note=WP_003102782.1 transporter substrate-binding domain-containing protein (Pseudomonas) [pid:32.1%25%2C q_cov:95.1%25%2C s_cov:78.8%25%2C Eval:7.2e-30],MGA_947
sequence1	MetaGeneAnnotator	CDS	1056320	1060084	.	-	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKNYYDLLGVSKNANTEEITNAYKKILSEYYDKLTELEQTEDSVDTEEYKEIIQEIQQAYTTLSDPDKKKTYDKYLELLSQHEEKQNKNIISKKNIAITLSVIASIFLFIFIFYSLKVTPQKIENTVKKGNLIKGTEMLIKLKDMNERYNALTTVTKFVFKDPQNVEFPTLLNNLILISEKFPDIDYKNRALILLSNKNFEIKNYKDAFYIIEKINQDNYKYVILNSIIDSKDFFNETYVYNRTIEFINSLKDEKLKTNIISDVSYSSFKEKKYEKLTDSIEKLYKDKEKYLAMEEVLSNFIRDGVYENYNILFSNYAKIAKDIKDKNISDKILVDLINNYIKLNDRVGAINLINDLSNDESKYALLLKTVKENNIQDIEKSNTFYDISLKVASSLKNSEYKRNAIKEILNKVSSNGDFDRSKSMSDLAQRYLKLGKIERALTLTYRIEDDDYRFDTLQLVIKEYIEKNKLDEALAIIESLKSNNFPKINPSIIVLYKYKIMSTLAQAYAVSKDFKKAVYLAEIVSKGSENSYITLSFIVEKYVEMKSFNEALEVIKMIKLDKDKSVQLNNVIGIYVKEKNYKNAENIFLKAIQSVDSMKNPAYKSKALINILNNYFKTSRFDIMNEIILNSLDSIKNINDDVEKLSALNYVFEKYMKVKIFTESDIIFSRYLDIVNSFEMYELKAKTLNTALDNYFEIKNFKNSNNFFSKALSILENFKVDTDKTQILQKIINKYMNIGNYEKSKEVFMEGFNVVNGIEKKSENILFLLNNYIKTNNLKINSEIFSKALDVVKTIKYSEEKYFTHEKVMQLYMNIKDFKNSDDVILKSLNTIENIEYSEYKFKALNTLIDRYIKIGNFTNNSLFFSKALNIAKNIKFDSDKSDFIIMILNKYQKTGYFENTKDIFVKSLEITNEILKINNKINTLNFILDKYLTINTNKDSKYIFIKAIEITGNIKDEEIKYKSLSGINNKYVSVGNKKDANLVFSASLNIANLIRNSYFKSMALQNISQNYVKLGNLNGAIEIINKMNDEKVKFESLNNIIENFYLSVNVNDQYKEYSSILLKTLSFIENKISDEFKPLALNSFMNKYMITGIYKDSDLIFSIILDTISPLKSKYDILNKTIDNYLKLKKFDKINDFFTKALSITNTLEKEEQKTAMLEKIINKYMITDKIKNSDSFFIKAFDVSYKIRNSEMKFNSINTIIDKIASTNSIKDTEKIYSKAVDVANSISDIDLKFSALTIIDITFEDLKK;locus_tag=LOCUS_09400;note=WP_012775428.1 molecular chaperone DnaJ (Streptococcus suis) [pid:42.9%25%2C q_cov:6.1%25%2C s_cov:18.0%25%2C Eval:5.0e-09%2C partial hit],MGA_948
sequence1	MetaGeneAnnotator	CDS	1060339	1061373	.	-	0	ID=MGA_949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKNNLEDRLFSIILIVSFILSFISIVGNILLHFPFYVNLKWMIFIILILYTFFKSQITYKIKEKFIFFFFVIFIMIPYGWFDSGGNQNNTIAYFFLILICISFLFYGKSRIFLIISLVSIFITLQFLGHYFPNLVKIYDEQNQFMDRIIQIPITLITSFLLLNQFSNEYRKEKTELKKANEKLKFYAQKDSLTALYNRRIYDEKLKEILNKKLSEKVTIFSILLDIDNFKKINDNFGHDTGDLAIKLVANELEKIFNKSFVTRWGGDEFAILYFDETNSLLEKINLLQKNIKNKSKKLNTKITLSIGITKIKTTDNEKTLLKRTDKALYLSKENGKDQYNIL;locus_tag=LOCUS_09410;note=WP_082861148.1 GGDEF domain-containing protein (Marinomonas aquimarina) [pid:35.9%25%2C q_cov:47.7%25%2C s_cov:36.5%25%2C Eval:7.1e-22%2C partial hit],MGA_949
sequence1	MetaGeneAnnotator	CDS	1061500	1063248	.	+	0	ID=MGA_950;product=M3 family oligoendopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942518.1;translation=MNWDLTFFYESPSSKKIKKDLDEFLNMAQELKNEYYNKLGNENLSPIELKIFFNKLEEFEQKGYYPSQYSNLLFASNTLDQEAQKLRAMVQDYFTKASIITSFWSPVLLKLSEEKLTELKESKELIQYKHVMEKLVDSKKHTLSEEAEKVMTALSSSSREAFGDLYGRLTNSYEFKFRIGEEVKTITGPQLRSMRLNPDPDIRSRAMKMFFERYEKDKITLEHTYNSIVKHYDTESKLRNFPEPNSMKNLKNEVNDEIVKMVMGVTTEKTPIVHSYYEWKAKQLKTDITLADIYAPLKSVNKEYDFESAKKIVLDSYYQFDKEFGDIAKSFFDENRIDSEIRKGKRGGAFCSYYIPNKKPFVLINYTGNMRDIMTLAHELGHGIHGTLSSKQNLLNYHTPLTMAEVASVFGEMLVMDKLLNELNEEDKKLFIASKIEDMFATMFRQNMFARFEVQAHKMIEENGMASWEELSDLYERELKIMFGNSVKITPEYKYEWASIPHIFNVPFYVYAYNYANLLVIALYEKYLEEGKDFVPKYKELLSSGGNDYPNILLEKLGIDITKKEFWEKGFDYVEKLIKEIM;locus_tag=LOCUS_09420;note=WP_010942518.1 M3 family oligoendopeptidase (Geobacter sulfurreducens) [pid:33.6%25%2C q_cov:99.5%25%2C s_cov:97.0%25%2C Eval:8.8e-101],MGA_950
sequence1	MetaGeneAnnotator	CDS	1063294	1064619	.	-	0	ID=MGA_951;product=NCS2 family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081255.1;translation=MDKFFKITESGSTIKKEIYGGILSFLMMAYIIIVNPAILVNAIPGAMGNVNIYNQFFGAIMVATILGGSIASIIMGLFSNYPFVLAPGMGLNAYFTYTVVLKLGMDWQMALGAVFIAGFIFMIVIITGVREIISKALPDSIKYAIVGGIGIFIAFLGLKNSGIIVSNQDTLIALGNIKNDEVLTSIFGLFLISILYVLKVPGSILIGIIGATIFGLFNGVTNFKGIIGPIPSLSPTFLKLKLEPSIFKNADFWIVVITFFFVDYFDTTGTIFGLARSKHTDETKDVPRASRAYMADATGSVIGALFGTSTITTVAESDAGILYGARTGLASIVAGGMMLLMLFFAPLATSIPTAATAPALIFIGSLMLKEIGKIKWNDSTEGLPAFLTIILMPLTYSIAMGLAFGIITYPILKLFSGKSKEVHWMSWILCFIFIVYLGFLK;locus_tag=LOCUS_09430;note=WP_004081255.1 NCS2 family permease (Thermotoga maritima) [pid:54.4%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:2.7e-136],MGA_951
sequence1	MetaGeneAnnotator	CDS	1064634	1066358	.	-	0	ID=MGA_952;product=adenine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964205.1;translation=MKIKDIIPVALGKELPDVLLKNLKLVNVFTGKIEKTNIALYRKRIAGIGDYQEGKKIIDLGGKYVIPGLIDAHMHLESSMLSPRQFAKIALKNGTTTVIADPHEITNVLGISGIEYMIKSTEGIPLNVYIAIPSAVPATGMETSGARLGPEDIVGFVDRYPRRVIALGEVMNFPGVLNCDPELLTKIEILRHKYKKIDGHSPFLSGKELNAYIDAFIRSDHECTTVQEALEKVGKGMQVFIREGTAAKNFDGLIDAVDEYNFPYFSFCTDDKDPKDILKEGHINYIVKKAIKHGLNPITAIRMATINTARHYNLRSMGAIAPGYKADILVVDDLSEFNISMVIKDSKVVVNNNKLVDPIEGVFNELPESVGKVILPKISVEDLKIKDKNKKIRVIEMFEGSLITKELHLEPKTKNGYIVADSERDIAKIAILERHTGSGYSLGFIKGLSVKNGAVGTTVGHDAHNIGIVGTDDEDMIIAAKELEKMNGGLVIVKNKKVIWKLGLPIAGLMTNENYKTVVETLENQEDALKKIGCEKDIFMTLAFVQLGVIPEIKITDRGIVNVAKQEFVSIYVE;locus_tag=LOCUS_09440;gene=ade;EC_number=3.5.4.2;note=WP_010964205.1 adenine deaminase (Clostridium) [pid:43.3%25%2C q_cov:98.8%25%2C s_cov:99.5%25%2C Eval:1.7e-128],MGA_952
sequence1	MetaGeneAnnotator	CDS	1066435	1068312	.	-	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYDRNKSIEDYEKALKLGKKEFLKSVSSAKGGYLNSLEEIIENAEILSEKNLGTIEIPLKKVIGTYYHSRSLSFSQNFYPLIERDTEFSSKWCNLLEIQYNEGIRDAIEVYEYLNWFYVVEGNKRVSVLKYLKAPTIMGNVKRIIPTYDKNDIEIKIYYSFLDFYEKTHINSIWFSKPKSFEILYDYMQEYKPESYIDLLDFEIYKSFLYEIYEPFRKIYKTFESSNNTVTTGDSFLKYLEEFGVSELNDEKELKKRVKKIIREMNYTEKTKQPSLLIPAFFNEEKLKVAFIYNSDIKESAWTYSHNLGRKYIEEKYKNQIITRRFEGITSTEEYEKLLKKLERENYSVIFSTSFDFILDEKLSKFHNVKFMYFSGYQTDKNVNTYFGRMYEPRFLSGIIAGSMTKSNKIGYVAPFGIPEVIMGIDAFALGVKTVNSNAIVNVGWTNEWHNKKYEKDVVKYLIKDKNCDVLSHHQDSTTVVEEGEKYGVYTIGYHHNMKKYAPNTMLTSVVWNWGIYYEKIIQNILKGSTFSFLDLFGNNKGIRKFWGGMDSGVVDIVTPSKLVNPQIKNLMKLLKASIINDDFQIFKGPIYDIDGTLKIKENLVIDDDELFEIDWFIDNIRLD;locus_tag=LOCUS_09450;note=WP_048064307.1 BMP family ABC transporter substrate-binding protein (Archaeoglobus fulgidus) [pid:42.9%25%2C q_cov:54.2%25%2C s_cov:87.1%25%2C Eval:2.0e-74%2C partial hit],MGA_953
sequence1	MetaGeneAnnotator	CDS	1068314	1069048	.	-	0	ID=MGA_954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKILAVSDVEKNLINKKKEKVDLLINCGDLSPGYTDYLINEFKVSFGVMIHGNHDKRYYKNSVYDEENLKFSNIYKGFLVLNYGYINLKNYINKNIKIAGFSGALSHGEKPFHFKEKDVKLIKNKLCSKVYGNKKIDFFISHTPPKLINTIKDYDDYHKPSYKLGRLFQKIFPNVWLYGHIHKNYTIDLLDFKINGKKISYLLNTVPYKFIDYDEELKRIIKIKDVTECKLKEVEFIKLLKEE;locus_tag=LOCUS_09460;note=MGA_954
sequence1	MetaGeneAnnotator	CDS	1069235	1070755	.	+	0	ID=MGA_955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METKKTFNLIKRTFIIIILIFIVFLIGVINIEKKAAINQITEMGKTITNNTSSMLKSWLSEQLKLLNTLSKDERIINACKYPDNPIFVKKANELLFSIYNNYEYYENLPLISTKKNLVILKNGNKIKINKGTFFTDTVNGKTIGKGGLNYSYISEIFNGKECFISEVYPSILRGNPIFVISKAVKDLSGNLVGIVLLSPKINYFTDKFINNIKVGKTGHLVLIDERPLLIAHPNKDFILNDSIQDKVNDVFKRIKNNETVFWDKFDNEKKLYISKKVDIDSNKIKYSWYIVFMINYNEILNKYLLSFLMILSTGIIIITLYAIEMKKLYNAIKSKTLSLEILSKTDPLTQLVNRRTLLNALSIESERFKRYGTVFSIILCDIDFFKDINDTFGHEAGDFVLKELSNIFLEETRDIDIIGRWGGEEFLLILPQTTEKDAKILAERIRNKIKEKNFIYRDKHLPLTMTFGISVYNDKNIEIDDLIRRADLALYEGKNSGRDTIKVYND;locus_tag=LOCUS_09470;note=WP_010938466.1 methyl-accepting chemotaxis protein (Desulfovibrio vulgaris) [pid:33.6%25%2C q_cov:58.1%25%2C s_cov:36.9%25%2C Eval:2.7e-42%2C partial hit],MGA_955
sequence1	MetaGeneAnnotator	CDS	1070781	1071221	.	-	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFGITLLLISILFVSCGAPRTADDLINTPGARDNSQYMEFRGEGIVDTTRFPNPAQAKLAAKEAALVDAQSKAIETIFGLKIEGGKTVQDFVLQNKNIDAQFQGYIRGLKEIGSGITEDGVAWVILRISKKDVEKILGVKLND;locus_tag=LOCUS_09480;note=MGA_956
sequence1	MetaGeneAnnotator	CDS	1071324	1072619	.	-	0	ID=MGA_957;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081235.1;translation=MKIAVIGFGAASIGFIKGMVDSGKIENSTIDVFERGKSIEKSGFGGLKYDGKIFVSKEMGGDLDVPLNIQREIVNYYLEKSNLAKKEGNKYIYSNELERGLSFKDEEFYKKFYSKGFQPIKSEFYHIGTDELGNTVNNIYQSFKSHKNINFFFDKNIKKIEKDENGAYVVIENKKIKYDKIIIGVGRSGHKLVNNLISNNKNLVLSNNMVDLGVRFELPNHIVEELNKKMYEFKVRLKTKTGYTVRTFCNNPSGEVTIEKYDDFVTVNGHANASYKTSNTNFAILVSHSFTNPFNDPIGYGTHMAKLSNILAGGEKVILQAYEDFKNTNRTKKLGRVEPTLNFNNYILGDLNLVFPRKTIDSIIDFMEKLNEVIPGITYADNLLYGVEVKFYGNKIDNNYFEDIKIIGDGSGWTRSITYASCHGYMVATSL;locus_tag=LOCUS_09490;note=WP_004081235.1 NAD(P)/FAD-dependent oxidoreductase (Thermotoga maritima) [pid:50.8%25%2C q_cov:99.8%25%2C s_cov:98.2%25%2C Eval:1.3e-122],MGA_957
sequence1	MetaGeneAnnotator	CDS	1072748	1073665	.	+	0	ID=MGA_958;product=AEC family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009893461.1;translation=MNYTNILNQVSVLFLLILTGYFTRKFNLLNDEKTKTLSDIVLNLTLPALIISSMQMDFSISVLIKSGNFILLSLIVYAVIFIFSITLPKLLKSNEKEIGVYKFSIMFSNVGFMGYPVVNAVFGKKALFYTAIYNLPFNLLIFTIGIMFLSKDIRLNKKIILNPGIISVLIGFTMFLFSIKLFTPIKMTIDMIGSVTTPISMMVIGSLLAKNKLNTIFTNWRIYIITFIRLFFVPFFIWIILKNIITDPLMLGISILISSMPVAANSAILAEEYEGNAELASKVVFISTFFSIITIPIIVKLFITN;locus_tag=LOCUS_09500;note=WP_009893461.1 AEC family transporter (Clostridioides difficile) [pid:46.1%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:8.7e-74],MGA_958
sequence1	MetaGeneAnnotator	CDS	1073979	1075511	.	-	0	ID=MGA_959;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055295205.1;translation=MKKLPIGVQDFKELITDYIYIDKTKYLYELITSGKFYFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRISLLDTTNDTEEELKDGLLRIIKREARKYGIKIESDHYKYAFDELIFELSRKERVVILVDEYEKPILDNINNKEKAERYREILRNFYVSIKSNDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQILGYTQEELERNFKEHIKETALEMNMKEKELLKNLKMYYNGFSFDGESSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQSGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKIILEANYELERGKIKEINKTIWKAIREKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASTGLNVTAEELTNLGRSDIVIEEDTIYIMEIKIDKSAEKALNQIKEIKYYEKYKGKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_09510;note=WP_055295205.1 ATP-binding protein (Bacteroides salyersiae) [pid:35.2%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:2.7e-82],MGA_959
sequence1	MetaGeneAnnotator	CDS	1075575	1076264	.	-	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKRRSSWLILFAFLLVITIIGFAEKNKLANMFYPKVIYRRKYCLEEWQINTKKENEYTQWKDVKPTNLKLLFIDINKNYNIKLEVNGSIDIAKKLGIAPSIKRNHSVNVSGQYTFKNPERKNYVWGYYYHIIEHKYNFIRWGYIIKQKFNYQKKVWENVEYEDIMDTSKSFSYTEFKYGGIWDMPEDEYRTKYYGKVSYFEHEYTSKWPNPKRTYEYVQTYYKKGW;locus_tag=LOCUS_09520;note=MGA_960
sequence1	MetaGeneAnnotator	CDS	1076496	1076993	.	-	0	ID=MGA_961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGIVGILNYALSKEIEGRNFYKEKSEKVKTKELKEVFTDLGEMEASHVEFIKNLISNYEKNNSLDIEVPEEDDSIFFKREKIDTITGKAEDLALDLTVLKMGYLIEEDFMNFYKNASEKIEDLEAKNVFNMLSKWEKVHRDVLYNLYKQLSDEYWDDMGFTPLY;locus_tag=LOCUS_09530;note=MGA_961
sequence1	MetaGeneAnnotator	CDS	1076996	1077454	.	-	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMTPELIKAEKNMKPGVIVSTGFLGEDNRHLSDIIESDEELINELNLKIPNLVEKMKYLLKEGEKGLGEPITIDKIFEVMVYEARGVIPCPFEDGVFKKINVKVKNKNSGKEILYSDLSIHLIEKHHFFQGKGSDFRLDPEKLKETLELEE;locus_tag=LOCUS_09540;note=MGA_962
sequence1	MetaGeneAnnotator	CDS	1077467	1078564	.	-	0	ID=MGA_963;product=NADH:ubiquinone reductase (Na(+)-transporting) subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002225565.1;translation=MNILTAPIIVAVLSAILATIIVIIDGIVNNYGEVTININGKKDLKVKGGSKLLTTLSEQKIFIPSACGGRGSCGMCKVKVISDVGPILPTEAPLLSKEEISKNIRLSCQIKIKSDIKIEIPEELFSVKKYKGKIVSIKDVTHDIKEVRIELPEEIEFKAGQYAQLIIPPYDKIKESVQRAYSIASKPSEKNIVEFLIRLVPKGIATTYVHTKLKENQNIDLIGPFGDFYVRETNADMICVAGGSGMAPIKSIIYDMYEKNIKDRNIWYFFGARSLKDLFYLEELRKIEKELPNFHFIPALSEPSPEDNWKGEVGLITDVLNKYLKENQNHKEGYLCGSPGMINACVNVMTKNGIKQEEIYYDNFA;locus_tag=LOCUS_09550;gene=nqrF;EC_number=7.2.1.1;note=WP_002225565.1 NADH:ubiquinone reductase (Na(+)-transporting) subunit F (Neisseria) [pid:36.7%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:8.6e-74],MGA_963
sequence1	MetaGeneAnnotator	CDS	1078574	1079167	.	-	0	ID=MGA_964;product=NADH:ubiquinone reductase (Na(+)-transporting) subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009873696.1;translation=MIPNINPFILFFAAIFTSNILLANFLGMCSFISVSKDEKSSNGLGIAVTFVMTITTTINWFVYKYILVPFKLEYLKYIVFIIVIAAIVQILEMLIERVSINLYMALGIFLPLITVNCAILGVALFMQLRNYSLIQTIFYGTGSGLGWWLAIVLLSSIRKKVDKAPVPPALKGPGITLITIGFMAMAFIGFSGMLNVQ;locus_tag=LOCUS_09560;gene=nqrE;EC_number=7.2.1.1;note=WP_009873696.1 NADH:ubiquinone reductase (Na(+)-transporting) subunit E (Chlamydia trachomatis) [pid:48.8%25%2C q_cov:95.9%25%2C s_cov:82.4%25%2C Eval:2.0e-47],MGA_964
sequence1	MetaGeneAnnotator	CDS	1079164	1079766	.	-	0	ID=MGA_965;product=NADH:ubiquinone reductase (Na(+)-transporting) subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000092895.1;translation=MSYGKVLKENLWSNNGVFVQILGICSTLAVTNNLTNTFIMTLGVVLVTGFSNFTVSSLKSFIPRKVRMIVQTLIIAFYVIIVDIILRAYLPEVSKSLGPYVGLIITNCIIMGRAEAFAQSNTPVISFWDGITAGLGYMYVLMTIAFFREILGFGTLFGIKILPDTFMKWTIMVMPPSAFFMLAIFIWIVKSKMLKEEVKK;locus_tag=LOCUS_09570;note=WP_000092895.1 NADH:ubiquinone reductase (Na(+)-transporting) subunit D (Vibrio) [pid:50.0%25%2C q_cov:95.5%25%2C s_cov:95.2%25%2C Eval:8.1e-49],MGA_965
sequence1	MetaGeneAnnotator	CDS	1079763	1080368	.	-	0	ID=MGA_966;product=Na(+)-translocating NADH-quinone reductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765873.1;translation=MKKDGKIYTIFFTFIVTFIFVFVLSLANDFTKNKVEKNKELFKIKSILNAMNIDYKDSEDAYKKFKNEIIVSKKNKAIIYKNKSENILAIEFNGNGLWGNINGIISVNKDLTRIIGIDFISHSETPGLGGRIDEEWFKEQFRAEKIINGKILMKVGGNGDKNKENGSFDSITGATRTSQSVEKIINDNLKTLSNILGVDKK;locus_tag=LOCUS_09580;note=WP_008765873.1 Na(+)-translocating NADH-quinone reductase subunit C (Bacteroides) [pid:25.2%25%2C q_cov:97.5%25%2C s_cov:99.1%25%2C Eval:2.7e-15],MGA_966
sequence1	MetaGeneAnnotator	CDS	1080365	1081243	.	-	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQKQPMMRKVIYSLIPIYLFSFYLYGLDLIRLSIFVFGFGIFTEYIMERKKKKKVSEAILVTNLLFVLSLPPKTPLWIASIGIVFGVLFAKEVYGGFGRNIFNPAIAGRLFIYIAFAGVMTSGWAELGFFNDVVTTATPLDLLRNGQNISLYKLFFGFRAGSMGEGSILLILLAAIYLIKTKTASWRIITSTFLSGLVLTSILFFIGIKSALPPISGLMSGSFMFVTIFMATDPITAPKKAKAQWFYGFIIGITAVLVRTFSLFSEGTSFGILMGNTFASLLDEYAKKVKS;locus_tag=LOCUS_09590;note=WP_011071348.1 NADH:ubiquinone reductase (Na(+)-transporting) subunit B (Shewanella oneidensis) [pid:37.7%25%2C q_cov:85.3%25%2C s_cov:64.4%25%2C Eval:1.8e-41%2C partial hit],MGA_967
sequence1	MetaGeneAnnotator	CDS	1081407	1082360	.	-	0	ID=MGA_968;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867172.1;translation=MHNFENVKHGGNVPLSWIDFSISVNPYKPNFLNSILNNSEKYVDKYLYYEELEEKLSNKLNVNAKLTAGTTESLYLLFSVFKGNLHIKDTSYGEYERVAKIFNKKIYKSKDPLKTLKKNDLIILNNPENPTGKYYSKDYVKDFIHKVLKKGGIPIIDDAFMDFVENIEDNWETTHTYENTIHLRTYTKSYGLPGIRVGYFIDPYNKMKKVKMPWSLGAIGVSFMEEILKDNRKFLKSSMKLIHMERKKFIQKLNIKTDVNFFLFKTKNKRSLIEKLSKNKMMIRDCTSFGLNNTVRIAIRTEEENIKLIDILLKSSV;locus_tag=LOCUS_09600;note=WP_010867172.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Pyrococcus abyssi) [pid:39.4%25%2C q_cov:95.9%25%2C s_cov:93.3%25%2C Eval:2.5e-58],MGA_968
sequence1	MetaGeneAnnotator	CDS	1082288	1083196	.	-	0	ID=MGA_969;product=adenosylcobinamide-phosphate synthase CbiB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249814.1;translation=MISFIAAIFLDILFGEPKPFFHPVVWCGTLTNFIDKKLKHNILNGVLLVSIVLIFSQLLVYFVNILPLIFSIILSIFFIKSSFSISSLYEHVKKCDTDDIKKLKHSVSMIVSRDTSSLKKEELYSAAIETLAENFVDGVVSPFFYYLLFGLNGIIFQRFSNTMDAMIGYHNEKYEKFGKFAARLDDVLNYIPARLSIFFFFLFNPKGVLNSVKKYGGIKLNGTWSMAAMAGLLNIKLEKKGFYSINPNKNFPNRLDLKKALTYYIFISLIIILMEVLLLCTTLKMLNMEEMFHFRGLIFQYL;locus_tag=LOCUS_09610;gene=cbiB;note=WP_011249814.1 adenosylcobinamide-phosphate synthase CbiB (Thermococcus kodakarensis) [pid:42.3%25%2C q_cov:93.0%25%2C s_cov:96.3%25%2C Eval:1.7e-53],MGA_969
sequence1	MetaGeneAnnotator	CDS	1083193	1084602	.	-	0	ID=MGA_970;product=cobyric acid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249805.1;translation=MGKPIMIVGTSSGAGKSLTVAAICRILTNKGFNVAPFKMQNMSLNSMVSIEGGEMSVAQYVQSIACKKPPSVVYNPILLKPENGKTYIIFKGEFVDKVKPGSYMMDKKMKYFNEGIKDLKKLLSENDYVIIEGAGSPVEINLKPYDITNMAVAKAVNADTIIVTDINRGGSFASIVGTMELLDENEKDLIKGFVFNKFFGSKDLLNDGFDYLEKRYGVKTLGVIPYFKHQIPEEDSMIEWEQKTGDLDIRIVKLPRISNFSDFMPLSWYNGIKYIDSANEVGGDILIIPGSKSTVEDLIWMKENGIYEKILNAHKNKTFIVGICGGFQMFSKKIFDNVESNKTVEGFGFIPYDTHFNEEKRSVNISGNVLFNNKKYEVSGYEIRHGETSIKENEFGTFDGKKSGYLSNKVLGTYLHGIFFNTKFTQEFLNYFRERKGLKHKDFSTISIDNEINNWANFVSKNINLEELL;locus_tag=LOCUS_09620;note=WP_011249805.1 cobyric acid synthase (Thermococcus kodakarensis) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.5e-140],MGA_970
sequence1	MetaGeneAnnotator	CDS	1084856	1085719	.	+	0	ID=MGA_971;product=metal ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082706.1;translation=MKKLILMIVLLFSMVAFSLNISTTIYPYYLVLKEIAPKDSINLIVEPGKSPHTYALTPKDMAKVYRSNIIIGNGLNAETFIEKLLSNLKKKNIEVLLCGDSIPKKELINVKNEGINPHIWLNPKFMYEYIIPNILEKLIILNPKEKNLYEKNSKKLIERLKKLDVYLLNLSNNINGSIYTFHPSFDYFAQRYGIKIAGIIETSPGVEPSAKQLKELSKNAKGVKAIFTEPQLNGKSARKISETLKINKGILDPIGSFEIKKIDELYINNMFEILKKVDFYEINKNKN;locus_tag=LOCUS_09630;note=WP_004082706.1 metal ABC transporter substrate-binding protein (Thermotoga maritima) [pid:30.9%25%2C q_cov:94.1%25%2C s_cov:97.0%25%2C Eval:6.4e-31],MGA_971
sequence1	MetaGeneAnnotator	CDS	1085694	1086071	.	+	0	ID=MGA_972;product=Fur family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082705.1;translation=MKLTKIRIELLNIFKNLNYPLSAEQIYEKVHERCNLSTIYRNLSYFEDKKIIRSMVFSDKIKYYYSGVGHFHFVYCNVCKNFEKINLCYEKEFENYLKNTLEFSVSDHVLYFEGVCKKCKNQKKL;locus_tag=LOCUS_09640;note=WP_004082705.1 Fur family transcriptional regulator (Thermotoga maritima) [pid:31.1%25%2C q_cov:97.6%25%2C s_cov:97.5%25%2C Eval:4.5e-14],MGA_972
sequence1	MetaGeneAnnotator	CDS	1086047	1086793	.	+	0	ID=MGA_973;product=metal ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082707.1;translation=MQKSKKIVMSVDQLNYKVENNEILRNISFNIYENEFVGIIGPNGAGKTTLIKILLNEIKEYQGKVNIYKKIGYVPQHDYFDKSFPIKAYEIVLMGMYKEIGIFKHYKKYHKEKVHELLKLLQIDYLYDRKVGKLSGGEYQRLMLARALASNPEILILDEPEAGVDKKGELLFYKTLKELNKNMTIIMVSHDLSMVFKETNKVMCLNHSLHCHKSTADMTADDLKKIYSESLEMLVHIDKPLKVVSKND;locus_tag=LOCUS_09650;note=WP_004082707.1 metal ABC transporter ATP-binding protein (Thermotoga maritima) [pid:50.0%25%2C q_cov:89.5%25%2C s_cov:90.8%25%2C Eval:4.1e-57],MGA_973
sequence1	MetaGeneAnnotator	CDS	1086786	1087604	.	+	0	ID=MGA_974;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_143485751.1;translation=MIEIFQYDFMIYAIIGSVLSGFSCAILSNFIVLKKMEFIGNGAAHTAFGGIALAILLGLNINLFGILTAIIFAVSIYFMGEKQKIQENSAIGMLLSLSMALGIIFLSLKKGYTPEITSYLFGDILMINKSDLNTLFVMLTIIILAVVLFNKELKFYTFNQRMAKIYGVPVNIINFLFLIIVSIVVVTSVKIVGIILITTLLITPGVMAKMWASTLNEMIVISSIFGIVSSFLGIIFSYFFNIPSGPSIVVTMFGFFVLSYILKLSINLLKKQ;locus_tag=LOCUS_09660;note=WP_143485751.1 metal ABC transporter permease (Methanothermobacter thermautotrophicus) [pid:32.4%25%2C q_cov:94.1%25%2C s_cov:96.2%25%2C Eval:8.4e-38],MGA_974
sequence1	MetaGeneAnnotator	CDS	1087637	1088227	.	-	0	ID=MGA_975;product=phosphate propanoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865105.1;translation=MKLKESGIVVGVSNRHLHLSQKDLEILFGKDHELKNIKDLKQPGQYAAEEVVTLVGPKGKMERVRVLGPVRKETQVEISKTDAFKLGVNPPVRDSGDLDGTPGIKIVGPKGEVELEKGLILAKRHIHMHTKDAEFYGVKDKDIVYVMCNTDGRKTIYGDVLIRVSEKYALEFHVDTDEANGAFLKTGDEIKIVEEL;locus_tag=LOCUS_09670;note=WP_010865105.1 phosphate propanoyltransferase (Thermotoga maritima) [pid:71.2%25%2C q_cov:97.4%25%2C s_cov:91.0%25%2C Eval:2.9e-75],MGA_975
sequence1	MetaGeneAnnotator	CDS	1088251	1089354	.	-	0	ID=MGA_976;product=ribosome biogenesis GTPase YqeH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080778.1;translation=MKCSGCGIEIQTKDKNKPGYLPENILQEKQITGEKITCQRCFKLKHYNQLLPITVKSDFYPQLDKVLKDFKNIIWVIDVMDFEGTFREDISKKLKEKNIMLLVNKIDLLPKTLPLAELKKWIFDRVKDKINIKIENIRMVSAKKKFGMNRIFRILNEKNIKKALIMGVTNVGKSSLINSFSHNDVTISSYPGTTLKMIKTKIKKYDIEIYDTPGIEPKDRVCDMFDIFTQVKIIPKKEISRKTFKVEPGRIIFISGLVKFKVLELAKEELRPVFLVFAPENISIHDTNKEKAKELINNRKVLYPPFENNFNFDEIEFETKKYTINEGYDLSIPGLGWISVRRGPLVIEITSPKNVKLYIRKSMVSPK;locus_tag=LOCUS_09680;gene=yqeH;note=WP_004080778.1 ribosome biogenesis GTPase YqeH (Thermotoga) [pid:42.7%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:6.6e-90],MGA_976
sequence1	MetaGeneAnnotator	CDS	1089344	1090423	.	-	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHTTGSFKYIPLPRENQPDIYSIDYKKLKKYGFKTLFFDYDFTVTVWKEKKLNKKTLELFERLLNDGFNIAIVTNANKKRVEHVEKILNGKISVYSKMRKPGVKKLKKVIKEMNAEINTTAIIGDLFMTDILAGNKLGLYTILINPYTYGLDHGFKKTMAIVSRVLYFLFFYTIGWFFRVMDLAVPNEFKKNIFEIDYEKIKNTNHKLIIFDFDNTLVPWHTSTLSKEVTELFKKIQNLDMNILIASNGGAYRFDEIKKELKKLNISVMNMSLKPLNFKLLNKIKEYDYKSNECVLIGDQLYTDIIAGNSCGIYTIKVDPLSKTEGKWTKFVRRFEKISIKMMRKKPTLLKEEKSNEM;locus_tag=LOCUS_09690;note=WP_003226126.1 YqeG family HAD IIIA-type phosphatase (Bacillus) [pid:34.3%25%2C q_cov:47.1%25%2C s_cov:96.5%25%2C Eval:7.6e-22%2C partial hit],MGA_977
sequence1	MetaGeneAnnotator	CDS	1090398	1090655	.	-	0	ID=MGA_978;product=DUF4911 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082801.1;translation=MEKLEKKIDMEYDVYLKINKEDVHLITYLLEAEDHVMSVRNRVENGYIKIIVPGGLVDEALTLINSLNEQVKLEVVKIEPHNGIV;locus_tag=LOCUS_09700;note=WP_004082801.1 DUF4911 domain-containing protein (Thermotoga) [pid:44.6%25%2C q_cov:87.1%25%2C s_cov:97.3%25%2C Eval:8.5e-13],MGA_978
sequence1	MetaGeneAnnotator	CDS	1090722	1092002	.	-	0	ID=MGA_979;product=PhoH family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081454.1;translation=MVKNYVLDTNTLIHDPKAIFNFQDNNVIIPFPVLEEIDKLKTRQDKVAKSARDVNRILDKLRKKGNLHSGIKLENGGILKIMTLNKNYDNEIPRYLGKSMDDFIIFYALYLQKTDPVKTIIVSKDLNLRVKADAMGIESQDYLTDKVDMELLPKGYISIKNEKLDIKKQKYIKDDILKDTELLPNMYINLNDILFRYKKSTNELIPLVVDLNTEIFGITPKNIEQVFAIDALLNPDIPFISLIGIAGTGKTLISIAAGLEMIFNLKLYKKILVSKPVIPMGKEIGFLPGNVEEKMKPWLQPIYDNLEFLFEGKGKKPDEFLMKKDILEIEVLSYIRGRSIPSQYMIIDEAQNLTPAEIKTIITRVGEGTKIILTGDPYQIDNPYLDASSNGLVYATNKFKNSELSSHVIMVKGERSNLATVAAKIL;locus_tag=LOCUS_09710;note=WP_004081454.1 PhoH family protein (Thermotoga maritima) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-129],MGA_979
sequence1	MetaGeneAnnotator	CDS	1092142	1092723	.	+	0	ID=MGA_980;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868826.1;translation=MDYIKKTYEFIKKEISFQEGSHNLDHTLRVLKNAVDIQKKEGGDYEIIVLSTLLHDIARNLELSGKISCHAEEGAKISKKFLREIGYEKYEEVAYCIKTHRYKKGIIPQTLEARILQDADRLDALGRIGVVRTLIHDSNRPLENSINHFYEKILKLKDTMNTKTAKNIAEKKHNIVLEFVKGLEEELNNKYTF;locus_tag=LOCUS_09720;note=WP_010868826.1 HD domain-containing protein (Pyrococcus abyssi) [pid:52.0%25%2C q_cov:87.6%25%2C s_cov:83.8%25%2C Eval:1.1e-42],MGA_980
sequence1	Aragorn:1.2.38	tRNA	1092831	1092907	.	+	.	ID=Aragorn_32;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00320;note=Aragorn_32
sequence1	Aragorn:1.2.38	tRNA	1092911	1092985	.	+	.	ID=Aragorn_33;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00330;note=Aragorn_33
sequence1	MetaGeneAnnotator	CDS	1093031	1093780	.	+	0	ID=MGA_981;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081594.1;translation=MKSYEYYDKISNEYDSMYEDVYWKLHNKLIREVIMEKVLNLEGEKALDIGCGTGIWTNLLKDIGFDVYAIDPSENMVNITQKRLKKNKNIKVGFIENIEFEETFDVILAIGDILSYAKDPLKGIEEVRKHLNKDGLFIGTVDNLTRFIQDAFIQKEFNLMKKMKREKSVQIGLSQKMSFDSKLYTVNELESTLNAFFNEVELKGIMVFPFENDVEMYKYSYEIYELEKVFMNDKNHINNAEHLMFICKK;locus_tag=LOCUS_09730;note=WP_004081594.1 class I SAM-dependent methyltransferase (Thermotoga maritima) [pid:33.6%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:1.1e-33],MGA_981
sequence1	MetaGeneAnnotator	CDS	1093777	1094409	.	+	0	ID=MGA_982;product=sigma-70 family RNA polymerase sigma factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081373.1;translation=MKRNIYMLRRMNIYKLIKYAQIGDNEAMGMILEKFEPMAKSVSAKYYGTWADFEDFVQVGFVGLIQAVYNYKETSNTKFSTFAYLNISSEIKSFITYLNRQKNKVLTEAIDIDNTLDDSSENGESFFETGEDEFKNILVSYIIDSSIETLKDDEKEMINLWRKGYSYSEISKKLKIKNKKIDNTIQKLKKILSKKESVYYKVQTFFGGGK;locus_tag=LOCUS_09740;note=WP_004081373.1 sigma-70 family RNA polymerase sigma factor (Thermotoga) [pid:38.3%25%2C q_cov:89.5%25%2C s_cov:96.9%25%2C Eval:1.2e-37],MGA_982
sequence1	MetaGeneAnnotator	CDS	1094406	1095017	.	+	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKIILFTIAIVAILLAIGTEIRMLNFKRSMEKQMNRLSEITNSKLSDVNKELNDLKVYFEPNGIVEKYIISNNFLKKNMDDLDKILTDFQSNSRTGYLQIYIIGSENVWCAFKNPEGKYIFQGNLNPGLNPEKFYFFKSPSINTKYTYTIDYCSSFKTGNMDKVYFLIQEPGQSRIKKHPEEKIENITKALNLYIPTITGK;locus_tag=LOCUS_09750;note=MGA_983
sequence1	MetaGeneAnnotator	CDS	1095161	1097653	.	+	0	ID=MGA_984;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082796.1;translation=MEKEYNPGSFEQKWRKKWEDEGIFKTPQYSEKEKFYNLIMFPYPSGTLHVGHVKNYVIGDVIARYKRMKGFNVLHPFGYDSFGLPAENAAIKNGNIHPETWTYKNIDIIRNQIKNLGISYDWDREIMTCSEDYYKWTQWLFVKFYEKGLAYKKKAAVNWCPSCNTVLANEQVVSGKCERCGTEVEMKQLEQWYFKITDYAEKLLQGIEKLDGWPENVKTMQKNWIGKSYGAEVEFKIENSNETFKVFTTRPDTLFGVTFMALAPESPLVETLTTKEQKEEVKNFMNRLSQQDKFKRIAEGAKKDGVFTGSYAINPVNGEKIPIYVANYILFEYGTGAIMAVPAHDQRDFEFAKEFDLPIRVVILPEGKDLNAKEMTEAHVAEGIMLNSGKFNGMKNKEALKEIAKWLEEEKIGKMTTQYKLRDWLISRQRYWGAPIPIVYCEKCGAVPVPEKDLPVKLPKNVEFDETGKSPLVGNKEFVETTCPVCGGKAKREVDTMDTFVDSSWYYLRYINPKMTDKIFDKKDVNNWLPVDQYIGGVEHAILHLLYSRFITKVLNDMELIDFDEPFTKLFTQGMIYKDGAKMSKSKGNVVSPEDIIKKYGTDALRTYILFIGPPEKDAEWNDSGIDGIYRFLNRVWNNYVKFIEKIRDIELNTVEVKTKEEKNLRRKLHQMIEKITRDIEGSFQFNTAISGMMEITNELSHYLKNVKEESWNLKLLKEVGRDFAIMISPIAPHLSEELWSLMGNNETILKAEWPKVDKKALEVDELKIIVQVNGKVRNTIMISPDEKEDKVKEIALNDERVKKFIEGKNIVKVIYVPKKLVSIVIKGDK;locus_tag=LOCUS_09760;gene=leuS;EC_number=6.1.1.4;note=WP_004082796.1 leucine--tRNA ligase (Thermotoga maritima) [pid:64.4%25%2C q_cov:99.3%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_984
sequence1	MetaGeneAnnotator	CDS	1097653	1098324	.	+	0	ID=MGA_985;product=redox-sensing transcriptional repressor Rex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082798.1;translation=MLKRSKIPKPTVKRLAVYFRCITKLSNDGIEKTSSKEIAERLSIKASQVRKDLSYFGEFGKRGVGYDIEKLSFKLREILGLEKLWNVAIVGSGNLGFAIANYSGLEANGFKVVSAFDIDEKKIGNVILPGVTIKRFSEFSKEIKEKDIEIAILTVPANVAQDVADKVIDNGIKGILNFCPVPLSAPENVSIEDVDFVISLKALTFEITSREQEKKEQEKRNNA;locus_tag=LOCUS_09770;note=WP_004082798.1 redox-sensing transcriptional repressor Rex (Thermotoga maritima) [pid:47.8%25%2C q_cov:91.9%25%2C s_cov:97.6%25%2C Eval:1.8e-53],MGA_985
sequence1	MetaGeneAnnotator	CDS	1098317	1098862	.	+	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNFKTHISSGVITFPVFYLLFLYLGKVITGYYFHFNAIQITLGFSLFILGSDFPDVDHQNALINKVFRILLLIFSVYYAFDNKMFFLKYIKLPFLFESTLILILSIVFGIVIGYIFNKTTKHRGIWHSIFMAIFWSILIYFLNYRSFAKVYYSISFLFGDILHLFLDKFFQEGKNGLKLK;locus_tag=LOCUS_09780;note=MGA_986
sequence1	MetaGeneAnnotator	CDS	1098903	1099169	.	+	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYLILFSFIAGLTLGIKGKLRFLKKYKPVTYITVLLLFFMGMDIGANKSLISQLPKIGLLAFFIAIFSIIGSILFTMIYEKARSDKK;locus_tag=LOCUS_09790;note=MGA_987
sequence1	MetaGeneAnnotator	CDS	1099166	1099741	.	+	0	ID=MGA_988;product=lysine exporter LysO family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948773.1;translation=MILLLSAVILGILFGLFSGFSISGNLITVLLMILVFTVGVDIGLEENILQKIKASIKTILIQSILTILGTLTFSGFVAFFTSLTVKEAIGAASGLGWYSLSGVMISGMYSPVLGAISFTSNVIREVLGILLIPIVSKFSELGAISIGGATSMDTLLGIISKNTNKKNTLVAFGQGVVLSITVPLLISIIFS;locus_tag=LOCUS_09800;note=WP_011948773.1 lysine exporter LysO family protein (Clostridium botulinum) [pid:37.9%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:1.4e-31],MGA_988
sequence1	MetaGeneAnnotator	CDS	1099935	1100183	.	+	0	ID=MGA_989;product=iron-only hydrogenase system regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079987.1;translation=MENKVAMISIAITDRKNSYLQVNEILHNFREKINLRVGYPMTEKNVAIIFIIFEGTTDEIGALNGKLGQLNGVKVKSHTLKI;locus_tag=LOCUS_09810;note=WP_004079987.1 iron-only hydrogenase system regulator (Thermotoga) [pid:54.3%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:9.5e-20],MGA_989
sequence1	MetaGeneAnnotator	CDS	1100195	1101619	.	+	0	ID=MGA_990;product=[FeFe] hydrogenase H-cluster radical SAM maturase HydG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079985.1;translation=MFYAKEIEEAEKLESFIPNDEILDLLENTKEPDKKYVREIIQKSLNKNRLEPVEVATLLNVKDEDLLEEIFEGARTLKEKIYGNRIVLFAPLYVGNECINDCQYCGFRTSNSEIYRNSLTMETLEKEVESLVDKGHKRLIMVYGEHPKYDANFIAKTVEKVYTVKKDRGEIRRVNINAAPLNIEEFKTVKDAGIGTYQIFQETYHLETYKKVHPRGPKSSFNWRLYGLDRAIKAGIDDVGIGALFGLYDWKFEVMGLLYHTIHFENTFGFGPHTISFPRLEPAINTPIAERPPHLVSDEDFKKLVAIIRLAVPYTGLILTAREPLEIRNEVIKFGVSQIDAGSSIGIGSYSHDDLENYKKSQFVLGDQRSLDEVIKELTDHGFIPSFCTGCYRLGRTGEHFMEFSVPGFVKRFCTPNAVTTLMEYVVDYASPETKKSCEIQIQRELDAMPESEMKQQLLKYIDMVKDGVRDVYF;locus_tag=LOCUS_09820;gene=hydG;note=WP_004079985.1 [FeFe] hydrogenase H-cluster radical SAM maturase HydG (Thermotoga) [pid:67.1%25%2C q_cov:98.7%25%2C s_cov:99.2%25%2C Eval:1.3e-187],MGA_990
sequence1	MetaGeneAnnotator	CDS	1101606	1101827	.	+	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTFDDLKNKIDYIYDTFSVKAYLTEKIKKRVSYIYGKGDGFNLSPTKVYEDEKYIVFVEASEELCKTIMNEW;locus_tag=LOCUS_09830;note=MGA_991
sequence1	MetaGeneAnnotator	CDS	1101870	1102928	.	+	0	ID=MGA_992;product=[FeFe] hydrogenase H-cluster radical SAM maturase HydE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079975.1;translation=MFSKIYENANKKIKCILDNFSKNETIEKEDIIYILNLKEVREREIIFQASEIIKNKYTSGYISVKGVIEFTNYCKKNCTYCGIRRENKNINRYRMSIEEIIETSKNAAKWGLDTIILQGGEDLFFTDDMMISIIKQIKKETKLPVSISIGERPLESYRKFKRAGAIRSLLKHEAINKKIFDEVHPDKDYENRINLLRYMNILGYVAGSGNIIGLPKQTIEDIADDIIFMRDEKIKMIGIGPLIPSKNTPLENYKIGSADITLNAYAATRFAIPRVQLPTTTALGTISEELQFKAFEAGCNVIMVNITPDIYRKNYNIYDNKRKVEFFETISKIKNLGFKLSPITEKAIIKSN;locus_tag=LOCUS_09840;gene=hydE;note=WP_004079975.1 [FeFe] hydrogenase H-cluster radical SAM maturase HydE (Thermotoga) [pid:41.8%25%2C q_cov:86.9%25%2C s_cov:87.4%25%2C Eval:1.8e-68],MGA_992
sequence1	MetaGeneAnnotator	CDS	1102940	1104142	.	+	0	ID=MGA_993;product=[FeFe] hydrogenase H-cluster maturation GTPase HydF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081521.1;translation=MGFGGYRNYVVIAGKRNVGKSSTVNAIMNQDISIVSDHPGTTTDPVYKAFELQPIGPVTFIDTPGIDDEGLLGEMRIKRAKKAFYKADVAVLIVDDLPNEHEFFIMKQFEDMNIPYLIAVNKIDEDKEDIVEYYKNNYDVKVMGFSAKNKINIDEFKKEIVNLIPEEKEISLLPDNIDGGDVVVMVIPIDLGAPKGRLIMPQIVAIRETLDKEAIAVATKERELRYTLDKFKELPKLVVTDSQAVMKVASDVPEEVPLTTFSVLEARHKGDLQTLVKGVKVVERLEDNDTVIIMEGCSHRPLTEDIGTVKIPRWLTNHTGKSLNFKFISGKEFPDPEELENAKLVIHCGGCTLTRKMMLRRIKTVTRLGIPIVNYGVLISYLHGVLERALEPFNEVCYED;locus_tag=LOCUS_09850;gene=hydF;note=WP_004081521.1 [FeFe] hydrogenase H-cluster maturation GTPase HydF (Thermotoga maritima) [pid:58.9%25%2C q_cov:97.8%25%2C s_cov:97.5%25%2C Eval:2.3e-139],MGA_993
sequence1	MetaGeneAnnotator	CDS	1104132	1105499	.	+	0	ID=MGA_994;product=aspartate ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081522.1;translation=MRIEEDFLGKKEIEDTYYGIHTIRATENFPRTNETFDEYFIESYFQIKKACTTLNNKLGYLSNEKSKAIKKACDEKFLYEYIIVDPLSGGAGTSVNMNVNEVIANRATELLGGKLGEYIVDPLQDVNMHQSTNDTFVTAGKMAVIKNLQTLVEKVILLQNEIQKKEKEYYSVKKIARTQLMDAVPILFGQTFGAWADALSRDRWRLYKVEERVRSINLGGTAVGNGVGAPRDYILKIVDELKKVSGVKIAKAENLIDNTQNLDVFVEVHGLLKALSVNLLKISNDIRLLGSGPNTSIGEIILPKIQGGSSIMPGKINPVIPEYVIQLCYSVFAHDSMITNCTANGTLELNHLSPTIVHHTLKSFKYLINSLESLTKYIKLIKVNEKKCRENLEKSTSLLTPLIEEFGHDELSKIIKSNDYVLKDIIKEVSKTFNLTEEEVIEKIDIQNITGLGKK;locus_tag=LOCUS_09860;note=WP_004081522.1 aspartate ammonia-lyase (Thermotoga maritima) [pid:61.3%25%2C q_cov:99.6%25%2C s_cov:99.3%25%2C Eval:8.1e-160],MGA_994
sequence1	MetaGeneAnnotator	CDS	1105584	1107557	.	+	0	ID=MGA_995;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965839.1;translation=MKLKWKNALMILMVILPFVIYVINLDLKSFGTTKNDVDKDLHLYTENVYTYFQNFVGNMCLFENYITESPVLINALENKNNERELADTIFKKITDAYTNLNYAYIGLEDGVYIIEPYWEIPSTYDPRARPWYTLAVENSGKAVVTDPYADASTGEVTMTIAKTVLKNGKLIGVFGLDLKMNEFVKLMKPDLPYKTAYSFVLNGKGITLFHVDPEKLGVDISNDDLFKKAVNEEGKIEYTYDKVKKLAYYKKDKDTGWIFYTVVDQKEVLASPMKHFYTSLIISIIIIVLVLIFGIYFANKFMSVPLKKLSEKIVEFGKGNLLVEFKANSKDEIGDMAHSLHDMSNNLRGIIKNIDEAGNKNDIAASDLSGVSEELSATAEELTAQMSSVKDNAENVAANVEEVSSGVQEVAASAQAISRSAQELSEAAEESSLAANEGSGLISDVQRIINEALTQSDQTNKEVNKLSENAANVENIVDTINSITEQTNLLALNAAIEAARAGEAGKGFAVVAEEIRKLAEESKNATEKIAVILGEIKTGTETTAGATEKIVNINKEIDGAMKGLIEKFEVIKERVDGMNSGIQNLTASSEQQSASAEEMSSAMDNVARIVSEISDQVSDASEAINNVSEGTQNITTNADELSILSKNLVNEVKKFKF;locus_tag=LOCUS_09870;note=WP_010965839.1 methyl-accepting chemotaxis protein (Clostridium) [pid:25.9%25%2C q_cov:89.6%25%2C s_cov:88.4%25%2C Eval:7.2e-62],MGA_995
sequence1	MetaGeneAnnotator	CDS	1107852	1109030	.	+	0	ID=MGA_996;product=DUF3798 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868876.1;translation=MKKVLLVLFVVFAALVSFSAFPFHIGVVTGTVSQSEDDLRGAEALIKEYGDVAHGGLIQHVTYPDNFMQEMETTISQIVGLADDPKIKAIIVNQAVPGTVEAFRRIREKRPEILLFCGAPAEDPVMISDVADLAINPDNVARGYLIIKAAQMLGAKKFMHISFPRHMSYELLSRRRDIMAEAAKDLGLEFINMGSPDPVSDIGIAGAQQFILEKVPAWLKEYGKDTAFFCTNDAHTEPLIKEVAELGGYFIEADLPSPTMGYPGALGITFTEDEKGNWPKILKKVENEVVKRGGAGRLGTWAYSFGYTTTAALGEYAIRVLTHDAELLNKDDIMDAFKKYTPGADWNGNYYVDADGVERDNFLMIYQDTYIFGKGFLGMTKLTVPEKYFNIK;locus_tag=LOCUS_09880;note=WP_012868876.1 DUF3798 domain-containing protein (Thermanaerovibrio acidaminovorans) [pid:70.3%25%2C q_cov:96.7%25%2C s_cov:95.5%25%2C Eval:6.9e-157],MGA_996
sequence1	MetaGeneAnnotator	CDS	1109078	1110673	.	+	0	ID=MGA_997;product=sugar ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868877.1;translation=MKEKKTLLTLEGVSKDFFGNVVLKNINLEVKEGEIIGLVGENGAGKSTMMKIIFGMDVIRETGGYGGKVKIYGKEVNFKSPFDALDAGIGMVHQEFSLIPGFTATENIVFNRESLKKSYLVDIFGERIKQIDREKIIERAKKAIKELGVVLDPNMLVSEMPVGHKQFTEIAREIERSNTKLLVLDEPTAVLTESEAKVLLKTIKKLSKQGIAIIFITHRLAEILEVCDKVVVLRDGNLIQEVETSKTNAKEITEWMIGRKLEKAEERDENKKFNETILKVEKLWVDMPGETVRDVSFEVKKGEIFGIGGLAGQGKLGIANGIMGLHAAGGKVEFKEKEIELNNPKSALSMGINFVSEDRRGVGLLLDEPIDFNIAFTAIQVKNDFLTKVFGLRLRDDEAISKNAQKYIEKLEIRCVSEKQKAKELSGGNQQKVCLAKAFTTEPELLFVSEPTRGIDVGAKKIVLDTLKEYNEKYGTTIVISSSELEELRSVSDRIAIVSEGKIAGILPAKTDSVEFGKLMLGEKDLEKVEK;locus_tag=LOCUS_09890;note=WP_012868877.1 sugar ABC transporter ATP-binding protein (Thermanaerovibrio acidaminovorans) [pid:61.2%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:1.5e-187],MGA_997
sequence1	MetaGeneAnnotator	CDS	1110670	1111716	.	+	0	ID=MGA_998;product=ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868878.1;translation=MKSNINTFIEKAGWPRIIIFLFLLSLYIIAPFVGVKLSTSISDTIIRFGMNGVLVLAMVPMVQAGTGLNFGLPLGIIAGLLGAITSIELKIGGFSGFLTALVIAIPIAAILGYGYGKLLNKVKGGEMMIATYVGFSSVAFMSMVWLLIPYKSPDMVWAYGGSGLRTTISVEKYWIHTLNNFLEIKIGETFIFPTGMLLFFAFMAFLVWLFFKTKAGTAMSAVGSNPEYAKASGVDIDKVRVQSVMFSTILGAIGIIVYEQSFGFIQLYMGPFYMAFPAVAAILIGGASVHKATITNVIIGTFLFQGILTMTPSVINNIIKTDMSEVMRIIVSNGMILYALTRREKGKA;locus_tag=LOCUS_09900;note=WP_012868878.1 ABC transporter (Thermanaerovibrio acidaminovorans) [pid:67.7%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.0e-137],MGA_998
sequence1	MetaGeneAnnotator	CDS	1111713	1112807	.	+	0	ID=MGA_999;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868879.1;translation=MSEKNNIKSFLTKNIVPVLFVGLLLFAVPASRYSGTYLIQQVITRLARNSFLVLSLIIPIIAGMGLNFGIVLGAMAGQIGLIFVTDWGIVGMHGMLLAMILSTPLSILLGILGGVVLNRAKGREMITSMILGFFINGVYQFIVLYTMGNVIPMTNNKIVLPRGYGIRNAIDLKGIRMVMDRMLEIKIGSITIPVLTFIVIGIMCLIIIWFRKTKLGQDMRAIGQNMEVARSAGIKVERTRILSIVISTVLAGYGQIIFLQNIGTMNTYNSHEQIGMFAIAAILIGGATAAKATIPNVFLGIMLFHTMFIVSPMAGKQLIGQAQLGEFFRVFVSYGIIAISLVLHEWRRHKEKEASRMQFRHTSE;locus_tag=LOCUS_09910;note=WP_012868879.1 ABC transporter permease (Thermanaerovibrio acidaminovorans) [pid:64.7%25%2C q_cov:98.1%25%2C s_cov:97.3%25%2C Eval:7.7e-131],MGA_999
sequence1	MetaGeneAnnotator	CDS	1112821	1113186	.	+	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGFLIKSTLIVVIIIFAIFLFIYGKEHKVYLDNKSITVNNVEYASYPSVTVKIDGKSTVVRSRRRKVLYAKGPYHKIIVEYTKDGTKTTIEKNLKLDLNGIVIVNLPELIDGYENWQQKK;locus_tag=LOCUS_09920;note=MGA_1000
sequence1	MetaGeneAnnotator	CDS	1113302	1113910	.	+	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSIITLVAVLIVFSVSSFANGYGYQQPQTNPNGVYGRKGGQNWNNQPMNMQMQQRGRRNNKRMNGERMNFGNKDAQIKNQEFIELLAEKYTPDTSNEWKTIFIDREKLIDTIRSDEKIQELREKVMYSQDQRKIQYFRSKFDNGNIEKMREYQNDLITAIKYDDSDMIKNILNKMLVLEKDMNTNIKNAYDEILKSIK;locus_tag=LOCUS_09930;note=MGA_1001
sequence1	MetaGeneAnnotator	CDS	1113994	1114656	.	+	0	ID=MGA_1002;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966925.1;translation=MSYKIYLVDDEEKLNNVLTSYLKNEGWIVKSFFNGKTALEVIEDKPDLWILDIMLPDIDGFELIKKIKEYDIKTPVIFISARDAQIDRVIGLDMGSDDYIPKPFLPRELIIRVKKLLERNYGNKKINLFPYTIDKKKRAVYYNGKEIDFTAKEFDLLILLSENNFAFSREQILDEVWGDDYFGSDRVVDDTIRRIRKKIPKINIETIYGFGYRMIKNEEK;locus_tag=LOCUS_09940;note=WP_010966925.1 response regulator transcription factor (Clostridium) [pid:56.8%25%2C q_cov:97.7%25%2C s_cov:98.7%25%2C Eval:1.4e-66],MGA_1002
sequence1	MetaGeneAnnotator	CDS	1114643	1115968	.	+	0	ID=MGA_1003;product=secretion stress-responsive two-component system sensor histidine kinase CssS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003228527.1;translation=MKKNNLSFQIWITFISIILVITIISSFLYIYTLKNYFKEEAFKTIENAQKFVLTKDINDMKNNLNNPELSQTLQDIRIVQHGIYIKDKNELRIKMMERPTVDKNILDKIKKIAFEQKESIKKYIITFENEDLFVVIRKINKNIYLTSFMWNTYKKEIENNLLLKVIIIIIGSFLGSIFFSIRFSKKLTLPLVKLKDSVNKISRYDWNEEVKVVRNDEIGELAITIEKMRKELIKKDKSQQESLQFISHELKTPVMIIRSYLQSIEDGIFPEGNLISSLKTIDEQTLRLERRIKDLLYFSKLDYLSKHENKKTTINIKNIIFDVIKSLNKPGGINFDLDLHDYFIEGNENQIKIVFENILDNQLRYANTKIKIKFIENKIIIFNDGEKIEEDTLKEIFKPFKKGKNGENGIGLSIVKRIIEIHGGTIEIINKEDGVEYEIKW;locus_tag=LOCUS_09950;gene=cssS;note=WP_003228527.1 secretion stress-responsive two-component system sensor histidine kinase CssS (Bacillus) [pid:35.4%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:9.2e-68],MGA_1003
sequence1	MetaGeneAnnotator	CDS	1115989	1117092	.	-	0	ID=MGA_1004;product=M20 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081868.1;translation=MKSPIELRHLLHQNPETSFNEVKTTKLLIESIEDLAKEYNIKLNVLTPLNTGLIVVYNPSFQNSYTLFRADIDALPIKEQTNCDFSSKNDNMHACGHDVHMSILYGFMKYIFENKIQKNFIFLFQPGEEGGGGAKLILDSKVLENFDIKNAYALHVTDEYSIGTIATTKGVLFASAMEIDIEFYGKAAHIAFPQDGLDSFKAARLFFNAVESLPKNPIEPFVFGIGKVKSGNVRNVISDYTKLEGSIRTLSMKKAEKFKNKLIKILNGIKDITNVDFKISIGSFYKEVINDDNMYNKQIDKIKNFKIIDCGYKMTGEDFGFIAEKYPSLMFWLGTGGKKVGLHSPKFLPNDDVIEIGINLFKNLINE;locus_tag=LOCUS_09960;note=WP_004081868.1 M20 family metallopeptidase (Thermotoga maritima) [pid:42.7%25%2C q_cov:98.1%25%2C s_cov:98.0%25%2C Eval:1.8e-79],MGA_1004
sequence1	MetaGeneAnnotator	CDS	1117089	1118222	.	-	0	ID=MGA_1005;product=acetylornithine transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905566.1;translation=MNLIKMYNNYNFKVTKAKGIYIYSNEEKYIDTFAGIGVMSFGHSYEPLNKVLKFKIDKYTHLSNFFIDKDAEYVAKKLINFTETDGKVFFTNSGTESTETALKAIKKVSSIKKNKIIYFKNGFHGRTTGALSITGFDKLKDQFLPLFQNTIELKFNDEKQFENYIENNSENVIAVYLEGVQGAGGVVPMTKEFAETIKNYHEKLKFILVCDEIQAGLGRTGKIFSYQHYNLNPDIVTVAKSLGGGLPLGAVLFLNQFQNILKKGDHGSTFAPNPISLAGAHFIVDNIENILSEVSEKGLYFIDKLKNIKSNNIKEIRGKGLMIGIELKNAQPNLRNKALKKNLLINILADKVIRLLPSFTIFYEEIDKICNILEEIL;locus_tag=LOCUS_09970;EC_number=2.6.1.11;note=WP_010905566.1 acetylornithine transaminase (Lactococcus) [pid:37.7%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:1.7e-64],MGA_1005
sequence1	MetaGeneAnnotator	CDS	1118219	1119403	.	-	0	ID=MGA_1006;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081873.1;translation=MNIIVQKYGGSSVSDKNKIIKVAKKIKQKVSLGFKLIVVVSAMGKTTDNLLNLAKEISKNPNPRELDMLLTTGEQMSVSLLTMALHEINIKAKSLNSFQAEINTLGNHNNAKIKDIKKDKIIKFLKENDVLVITGFQGINPNGDLTTLGRGGSDTSAVALAAALKSNCEIYSDYPIYTIDPKLYKNAKKINKITYDEMLEMASLGSNILHSRAVEIAKKFNVKLYCASTFSNEGGTYVISNTIENPVVTGMSLMKNQTRVNITNLPENHPLLHGIFENLSQKFNVDMISLISIDNKINVSLSIIEEEMKDFDKYLQKALQNIDNSKVSYEHGYVKLSVVGIGMKTEKGVASRFFKSLQNIPIKLVTTSEIKISCLIEKENTAKAIDCLVKEFDL;locus_tag=LOCUS_09980;EC_number=2.7.2.4;note=WP_004081873.1 aspartate kinase (Thermotoga maritima) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-111],MGA_1006
sequence1	MetaGeneAnnotator	CDS	1119411	1120100	.	-	0	ID=MGA_1007;product=2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081875.1;translation=MNSQEIINYITTSKKETPIKVYLKGSLKILLNNDNFFGNEYFGTLFCTLKEFELLKSKIIIKNYKIEIDRRNSAIPLSNLEKFNARIEPGALIREKVEIGDNAVIMMGAVLNIGAKIGKKTMIDMNAVIGGRAIIGENCHIGAGAVIAGVIEPPSAKPVIIGNNVLVGANAVVLEGVEIEDDTVVAAGAIVTTNVKKGTVVAGSPARVIKKIDETTKEKTKLIDDLRKL;locus_tag=LOCUS_09990;gene=dapD;note=WP_004081875.1 2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-acetyltransferase (Thermotoga) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:9.2e-69],MGA_1007
sequence1	MetaGeneAnnotator	CDS	1120097	1120750	.	-	0	ID=MGA_1008;product=4-hydroxy-tetrahydrodipicolinate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081877.1;translation=MKYGLIGINGRMGREIQNLFDENNHELVFSYDKNGEFFKENPDILIDFSLPKVFNTTIEYVKKYNTPLIIGTTDLDEKSFNVLKDISKKVPIVQSYNFSIGIQILLKLAKLTNDFLPNSDIEIIETHHRFKKDKPSGTAKMIKNELNKNINISSLRIGNIPGDHKIIFGTLGETIGISHRALSRRAFAEGVLKSALFLKKVSKSKIYTFSEVMEGKI;locus_tag=LOCUS_10000;gene=dapB;EC_number=1.17.1.8;note=WP_004081877.1 4-hydroxy-tetrahydrodipicolinate reductase (Thermotoga maritima) [pid:50.5%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:1.1e-57],MGA_1008
sequence1	MetaGeneAnnotator	CDS	1120747	1121619	.	-	0	ID=MGA_1009;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081879.1;translation=MFKGVGTAIITPFDSELNIDYVSLEKLINFQLKYVDALIVLGTTGEAPTITEKEREKLINFVIEKTNKKVPVIIGTGSNDTKKILKYNKISEKANADGLLIVTPYYNKTTQFGLKENYKYISERTSLPIILYNVPSRTGVNILPDTAIDIFNKNKNVIGIKEASGNISQINTLISKKPNNMLVYSGNDDQVIPIMSLGGDGVISVISNILPKIMKNLTTSILNNDYITAKDINKKYNELMNKLFIEVNPIPIKYAASKLNLCKNKLRLPLVSLSSENQKILDELLKEIKI;locus_tag=LOCUS_10010;gene=dapA;EC_number=4.3.3.7;note=WP_004081879.1 4-hydroxy-tetrahydrodipicolinate synthase (Thermotoga maritima) [pid:49.8%25%2C q_cov:99.0%25%2C s_cov:98.6%25%2C Eval:3.3e-75],MGA_1009
sequence1	MetaGeneAnnotator	CDS	1121612	1122835	.	-	0	ID=MGA_1010;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462285.1;translation=MNKIIPFSLNEIKKIKHDTPFYIYDEKGIISSLNELKNSFNWCKFKEFFAVKATPTPYILNLLKKNECGMDCSSLTELLLAQCIDSKDIMFTSNNTPMKEYQKAKELNAIINFDDIDHIDKFNKKFGMPKIASIRYTPNNIYGNKIIGFSENSKFGMPLEKLLIGYQKLKNLNVKIFGLHGMLVSNSLNEIEIIKNIELLFKTAKKIKDELNINLKFIDIGGGFGIPYNPKEEPLNLSLISKELKKLYKEILEKNNIFPEIYSENGRYVTGPHGYLITKVLHIKKSYKTYIGVDANMANLMRPGMYGAYHHITVLNNSKKLKKYDVVGSLCENNDKFAIDRELPEINEGDYLVIHDVGAHGHSMGFNYNGKLRSAEFIYSNNEFKLIRRAQTIEEYFSTIKGDDIYV;locus_tag=LOCUS_10020;gene=lysA;EC_number=4.1.1.20;note=WP_011462285.1 diaminopimelate decarboxylase (Desulfitobacterium hafniense) [pid:51.2%25%2C q_cov:97.8%25%2C s_cov:98.1%25%2C Eval:2.7e-111],MGA_1010
sequence1	MetaGeneAnnotator	CDS	1122828	1123799	.	-	0	ID=MGA_1011;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081884.1;translation=MKIGIVGATGEVGRTMVKVIEEMNINIKELHLFASKKSAGTHIKFKKNEIIVEELTEDSMKEKYDYLLFSAGSEISKKYALIAQNHGNIIIDNSSAFRQEKNIPLVIPEINYQKLKNYKGIIANPNCSTIQMLLALNKIHKQFQIKDIYVSTYQAVSGAGKKGMNELLFQQNGSKAVSHFPTIISNNVIPVIGDIEENGFTTEEMKMINETQKIFEDNSINIYPTAVRVPVLYGHSESILFKTNKKTTLNKVKELLENSENIIYTDELITPLKVESSNMTYVSRLRKMNDSFLIWVVADNVRVGAATNAVRILLKHKELNNIE;locus_tag=LOCUS_10030;EC_number=1.2.1.11;note=WP_004081884.1 aspartate-semialdehyde dehydrogenase (Thermotoga) [pid:59.9%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:4.7e-105],MGA_1011
sequence1	MetaGeneAnnotator	CDS	1124108	1124689	.	-	0	ID=MGA_1012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIEQVRNNWIEILKLLNSGKSYEEIVKIFENKSIYFDTRSLEKVKKEYDKLYEKEAEKEKKLKEYEKQTNEELMKKIKKLEKKMIEFEEKTNKKIIEIEYELAPEDKKDTSSNDYLEKTFKKPYRESILKENATFRIPKECRDILKKYCGNGIGKEKENGILNISRNEFITGLILEFDKNFKKNTSEKKSN;locus_tag=LOCUS_10040;note=MGA_1012
sequence1	MetaGeneAnnotator	CDS	1124890	1125162	.	+	0	ID=MGA_1013;product=metal-sensing transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966918.1;translation=MKHSKSLNVLKTAKGQIEASIRMIEDERYCIDISKQLLATIALLKKAHTQILKTHLETCVRDAAYSNNTSEIETKIKELEEVIEYINKPL;locus_tag=LOCUS_10050;note=WP_010966918.1 metal-sensing transcriptional repressor (Clostridium) [pid:50.0%25%2C q_cov:93.3%25%2C s_cov:88.6%25%2C Eval:1.6e-16],MGA_1013
sequence1	MetaGeneAnnotator	CDS	1125235	1127403	.	+	0	ID=MGA_1014;product=heavy metal translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083057.1;translation=MKEKNSTFAVKGMTCASCVRIVEKNLKKINGVKYVSVNLATEKAFIISDDSVNEEDFKKAVENAGYKMSKEIPTSDILEERFKSDFKNMKLALYITIPLMVLMIFNMSGVKIPYFEWIELFFGGFVVFFTGRKTLNGAKIAVTHFHANMDTLVSLGAIAAWITTVFAILGLNILSFGTIAAMLIGFQLTGRYIESKLKFKASKDIRSLLEMRVKNANLVIDEEIVSVPTETLKQKDIVIVRMGEKIPADGKIIEGKGSVDESMITGEPIPVEKNINAEVIGGTILNSGVIKVEVEKIGEDTFLSQMIKLIEEAQSSRVPIQGFADRVTMYFIPVVFFISLIGALIWYFNYDNLQSFLVSMSNVIPWVNPNAGALSTSIFVFVASIVIACPCALGLATPMALVAGSGVAARKGLIIKNGEAIQLAKDIDTLFLDKTGTITKGKPEVVETNISDDLFEIVASIEKNSVHPLAQAVVNYAKRKNSIKNYDFDSIEEISGSGVIGVLDNKKYYIGKSKDSNKYKNLMEKGHTVIEVSVDESVAGYISIFDPIKEDTIDAIKKIKNSGIQPIMLTGDNEITAKAVANSVGIDKFISGVKPHEKVKNIREYQINGKKVGMVGDGINDAAALKSADIGIAIGTGTDLAIESADIVIVKGKLSKVFDAIEISKVTFKKIRQNLFWAFFYNIIAIPLALSGILHPAIAEIAMTFSSINVIMNSSRINKIFK;locus_tag=LOCUS_10060;note=WP_004083057.1 heavy metal translocating P-type ATPase (Thermotoga maritima) [pid:53.2%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:6.4e-229],MGA_1014
sequence1	MetaGeneAnnotator	CDS	1127417	1127617	.	+	0	ID=MGA_1015;product=heavy-metal-associated domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083068.1;translation=MKYIFKVEDMTCNHCKMRIEKALSEAEDIKSFNVDLKNKIVEVDSELSENVIVSIIDEIGYTAIIK;locus_tag=LOCUS_10070;note=WP_004083068.1 heavy-metal-associated domain-containing protein (Thermotoga) [pid:42.6%25%2C q_cov:92.4%25%2C s_cov:88.1%25%2C Eval:5.3e-07],MGA_1015
sequence1	MetaGeneAnnotator	CDS	1127712	1128659	.	+	0	ID=MGA_1016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLFIIVVLFLSQVFQARTLKEIIDSGYLIIGIRNLRTSTIYQPENKENPGFCYELAKTYADYLNVKLKVHIVNLFSDYWKKDGELIFKSDKNVTPDIYNKVDIVADIITVTDKRKKYVNMIPFAENTELLFGRKESNIKKYEDLKGKKVLLLESMSFYTIFIDELKKRSIRYGFNKVYFEKDNSLHYFEKNNVFFKDKVNILLIPQDYTIPKFGFYYQVLLKNTDVSILDSFSFFPKWFNTYSLKENLKPLFPERDKIGYLSFCTSYETKELNKSLSNFISFMKKTDKYNLLFEKYIGIGYNDYKNILNVGD;locus_tag=LOCUS_10080;note=MGA_1016
sequence1	MetaGeneAnnotator	CDS	1128661	1130208	.	+	0	ID=MGA_1017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKHKIFKYTLSINLIIIIIISSLFLIFFISNLKRSTLNNIYLVNTSLNNSFEECFSYIEKTLKNILENNDTIFVFDNNPIISGYAKKTLNKKFNEIIDSKYCIENMSLIQNSKTIVGDYEENKTNFFIKNDTPYIQIEKVLQSDNNRKLLLLFNLKKFYENFINNLKDNKYYYLLIKTDNEFYNLNMNEMSKLENINNFLFLKDRFYSSSVTKNLEFNIIFSKNYINNLLFWIFFIFIFLFLFSILMLIIVSNKLSNNLVRSLNKFMVFSKSIGSRDFKQFIPNEDDEDEIKELSSAFNNMSKKIEIFTKNMEQLVAERTEEIEAQNEELETQNEELEKINKKLEETSVRDGLTGLYNRRYFNEKVEEDFELAKRNGMYFQMCIIDIDHFKNINDTYGHLIGDECIKSVTTILKENLKRYTDKAFRYGGEEFVFYDISNKNENFEKLLKKIRKEVEESKCIINELEIKVTISIGACIAKPKYEDIYEKFIKEADEALYDAKEKGRNRIILRKN;locus_tag=LOCUS_10090;note=WP_010879949.1 GGDEF domain-containing protein (Aquifex aeolicus) [pid:31.4%25%2C q_cov:56.7%25%2C s_cov:62.9%25%2C Eval:6.4e-31%2C partial hit],MGA_1017
sequence1	MetaGeneAnnotator	CDS	1130326	1130970	.	+	0	ID=MGA_1018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFLFLILTVTIISFSFNFGAGGSKIVYIPGVQIISPFTDTNFKIDDGVLCFGGEGHGGIFNDFYIGGDGFTGKKDFTVSGTSLTFSFEYGTFDIGRNLINIFDTIVLDAGFGIGTYSIRISRNLLGGDTINDFLTGHSSGVSSMKIDYYIASPYTSLYLHFTDFFALNVKARYIFGYTENGWIYSNGNKVDVDESNYLNTYNLGVSLLFGY;locus_tag=LOCUS_10100;note=MGA_1018
sequence1	MetaGeneAnnotator	CDS	1130997	1133387	.	-	0	ID=MGA_1019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILGPVSTNKSNSYIQIRDLFNLAKKYKFNTIILCEPHPKSWMKFIYFSKQYNIKPIILYKVHNTKYIIKNEQDILIAIKHYNKLKKDLNLEEIKFNLPTIFYPTKILKNLLKDDKNLSISEGHLNSEKLKIFENIKTNYNLNIFNINIPNFGGYQKLTELLNKKKYTEKELNRLKKELSLIKELNTSNYILTVKKIIDTAKQKNITIGPGRGSSVSSLVVKSLGITQINPLKYDLLFERFLNKYRKELPDIDIDIDAEKRNELIQELENVFGKYHVAQIRTTSTMKKKSVLKKLTELTKVKEIPNMTAPIRSKENLMKFKKLSKDKKILYNISYYLEGLETAESVHAAGIIISDKDLREYLPLEYRKIPVIEWDMNDLKLLNIEKFDLLSLDTISFMNKLNIEYHYENLNNKIVYENISKGLTKGIFQLDSKLGKILSQKIKPSNFEELILLLSINRPGPLESGMIDEYIEKSSPNYLKKLFPETNGVLIYQEQIMKLAQNTAKFTPEESDELRKALSKKNNEKLLPLKNKFIENTTLPEPQILFEKIENFAKYSFVKSHATAYAHISYWLAEKKFTNPEKFFLEYINSKGLDINIINECSILNIKIISPSIEYSTGIYKKNEILLPLHTIKGIGKNISKLLFNNKIKTLESFVEYCKKNNINKGIMENLIKSGSLDFINTNRKQMLRSLTKLIQGELYDLKEIQNSIFGNNEKEDKKVETTIEDKLLYDCETIGFPITALTIKKLSNTLIKKYYNNDQIHFNGYQIKNFLVDNSSIIEVKTYSKKAKRILTTL;locus_tag=LOCUS_10110;note=WP_004081505.1 DNA polymerase III subunit alpha (Thermotoga) [pid:34.6%25%2C q_cov:73.0%25%2C s_cov:66.2%25%2C Eval:5.6e-80%2C partial hit],MGA_1019
sequence1	MetaGeneAnnotator	CDS	1133392	1134297	.	-	0	ID=MGA_1020;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011943100.1;translation=MIEKIESKDSGKRLDLFIKSIVPDWISRTHIQKFIKDKKILINNKKSKPSYKLKENDIIYIDIPDKPEPVEVLAENIPLDIIYEDSDIIVVNKQPNLIVHPAYSIVSGTLVNALLYHCKDLKGIGGELRPGIVHRLDKNTSGTIVIAKNDIAMNSLAKQFKDRVTKKTYLALVKGHPQKEGKINAPIARHPTIRIKMSVVEDGKNSLTLYKNIKSFKDGSLMWITLKTGRTHQIRVHFKHIGHPLFGDEVYGKHDNELGIYRQMLHAFTLGFYHPRSEKWMRFVAKLPNDFKKAIITLNSR;locus_tag=LOCUS_10120;EC_number=5.4.99.-;note=WP_011943100.1 RluA family pseudouridine synthase (Thermotoga petrophila) [pid:56.8%25%2C q_cov:97.0%25%2C s_cov:95.2%25%2C Eval:9.7e-94],MGA_1020
sequence1	MetaGeneAnnotator	CDS	1134290	1134721	.	-	0	ID=MGA_1021;product=signal peptidase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000745687.1;translation=MTWIIPISIFLDQISKIWSRDFLSLNPINIWFIKLTYAQNTGMAFGMFKNNAFLLGIFSTSAICIALLFREWYLKKEKSKLFDLGINMVIGGALGNMYDRIRIGYVVDMVYVPHFAIFNVADSFVTIGGIILAIYFLWRSKHD;locus_tag=LOCUS_10130;gene=lspA;EC_number=3.4.23.36;note=WP_000745687.1 signal peptidase II (Streptococcus mitis) [pid:41.1%25%2C q_cov:93.7%25%2C s_cov:89.5%25%2C Eval:3.0e-19],MGA_1021
sequence1	MetaGeneAnnotator	CDS	1134725	1135537	.	-	0	ID=MGA_1022;product=protein-glutamate O-methyltransferase CheR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081502.1;translation=MNESLIYKSPYNDKDYEKLLKDLNTYFEVDLSGYKQHRVRRRIDMLMRKHSYKTYGEYMNNLRKDTKLWDEFLDKLTINVTEFFRNPEKWEYLKKEILPKLLKENPMKFRAWSAGCSTGEEPHTLSIVLDQINAPSSAKILAADFDKFVLKKAQEGIYDKRSLINFSPSDIDKYFMKLENGKFKVKPQYKTRITFKRLNLLMDTFDKNFDLIICRNVVIYFDTDAKDMLYRKFVDALKPGGVLFVGSTERIFNYRELGLKTIAPFFYQKV;locus_tag=LOCUS_10140;note=WP_004081502.1 protein-glutamate O-methyltransferase CheR (Thermotoga) [pid:51.5%25%2C q_cov:96.3%25%2C s_cov:91.5%25%2C Eval:1.7e-75],MGA_1022
sequence1	MetaGeneAnnotator	CDS	1135559	1136305	.	-	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIIFILFTIIITLSFSNNNSNKIFLVQDYGKTFKYSFDFKFKLEDIYSASINYEFKFINNTVETSKINDIIKYVEFSQPGFEITYRKLNSITSPDFFKKNFFGYTIVMDNYILLSLNDLYAGINFQKGLFHTSYWINTQNFENSEINIGINNNEIGIDLNLFNINKKITLYYKGLYITMLKDNYELYILNRDFNFYFNKKNNTLNINSKFFSINENKFNIRFPLIENIYLLYSNNGFGLSFYLKI;locus_tag=LOCUS_10150;note=MGA_1023
sequence1	MetaGeneAnnotator	CDS	1136361	1137110	.	-	0	ID=MGA_1024;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081500.1;translation=MSGHNKWSNIQHRKGAQDAKKSKIFTKLIRELTVAAREGGDPESNARLRSAIEKARDANMPKDKIETAIKKGTGELGGEELFELMYEGYGPEGVALIISVVTNNKNRSAQEVRHILSKHGGSLAESGAVAWNFEKKALITIPKEEIADMDEFMMEAIEAGAEDVDDSTDPVEITAAPDALGTVRDALKDKYTVKADLTYNPKTTVKLTGSPAEKLFKLLNALEENDDVQNVYGNEDIDDEEMERIAENM;locus_tag=LOCUS_10160;note=WP_004081500.1 YebC/PmpR family DNA-binding transcriptional regulator (Thermotoga) [pid:55.8%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:2.6e-75],MGA_1024
sequence1	MetaGeneAnnotator	CDS	1137128	1138528	.	-	0	ID=MGA_1025;product=PP2C family protein-serine/threonine phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081499.1;translation=MINIIDIYLKLNNILNIFKDDIKNISNEEISNRINTLIDNYIVEMNNYKSQIEETTMILQAQFEEISRTYEELTTILDISKLIFSVKDPRLTIDKIVNRLKDIVDFENVVIGEFNNSTLDLSFKPLFLELTTTGFETIPNLINYFYKEKNFKTILSETDPLNKSEKSILLIPIKSDVKIWGFVLLYGKKDNSFFLASDKKIMESVTEQLSFGFDTMDYLNDRIKQEKISNQLKFAKQIQESLLPHEIPKLKKIESSAFYRSAFDVGGDYYDLIKLDEDRLFGILADVSGKGVPAALIMSSVKAVLKSRIEKSESIEELAIYLNHYLSQNIPDDTFVTAIFILLNSKEKSVKIINAGHNNTPIFIDGEYKISKASGLPLGIIEENPLIVENYNYKDSFLFVTYTDGITEARNGAGDEFEYERLEKLIKQKTQENMDVIVKSIIEAVDDFVKEAPQHDDTTLLAIKSY;locus_tag=LOCUS_10170;note=WP_004081499.1 PP2C family protein-serine/threonine phosphatase (Thermotoga maritima) [pid:34.2%25%2C q_cov:93.6%25%2C s_cov:94.2%25%2C Eval:2.4e-66],MGA_1025
sequence1	MetaGeneAnnotator	CDS	1138530	1138889	.	-	0	ID=MGA_1026;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081498.1;translation=MKKVLVVDDSDVLRKIITFNLKTAGYEIYEATNGEEGYNKIKEIKPDVVCLDIMMPIMDGFTVLKKLKEENINIPIIVLTAKGGESDEVYAISLGAKKVMTKPFSPKLLLDTIKEIAGE;locus_tag=LOCUS_10180;note=WP_004081498.1 response regulator (Thermotoga) [pid:61.9%25%2C q_cov:97.5%25%2C s_cov:96.7%25%2C Eval:8.0e-35],MGA_1026
sequence1	MetaGeneAnnotator	CDS	1138913	1139458	.	-	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYLLKIKKHGKFIYTSHHDTNRAIEYTLRRLNCPMKFSKGYHPIPSFSFSPPIPLGYMVKELYIAVDTIKNFDFSNFNKKSPKGLTLMDAKIVDDKYTPVNEIKGYYITAYLSKNMYEKLLKINPEFSNLKAFKNKKNIFVIEYYRDIKNFHNILKDLKYEEYQREFVYLICKKTLLKNN;locus_tag=LOCUS_10190;note=MGA_1027
sequence1	MetaGeneAnnotator	CDS	1139515	1141605	.	+	0	ID=MGA_1028;product=transglycosylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080706.1;translation=MKSFISGFILTFISFLIIFFYTNSFYKNTKSIFFVNSNYNTYLFDDNEMILPTKYKYVKLENVPEELIYYLIWSEDRNFFEHFGVNPKAILRAFYINIKEKNFSQGGSTLTQQLAKTVYLSHEKTFKRKILDMMLAFFIERSYSKDEILEGYINSVYQGNDISGFGASSMRYFRKDIFELNTEEMLLLVGIINGPELYNPYRYPDRAKKQAIKLLYSIENNPFIKDKAKIEKRINEMTIYPLDYKKEYLNFIYQAKSEESKIGLKGGGYTIKTTFNKDVYESVTLNASTSSIVINNKNGKILSFWGSQYSNFMSLKQIGSNIKPFYYLLAIEKGYTPDTILPDKPINFGSWSPQNFDNKFRGEVKLKDALIHSLNVPSIYLATHIGNSPTESIDQIKNFLINNINLKGKYTSDLTLALGTLESNPYNMVRAFCIFPNYGLIPKIYSISEIYDRKGNLIYKKYPEIEKKVNISNETYSTMNQLLRGVIENGSGKKANVDGIDIHGKTGTAEYATWFTGFTGSKGVSVRVDGKGLLSTTSSVPVASRIIKNFIYIGNNFEVPLYINVKNVFQKTDFFDDPITFISKGFDVIQYLKYAKLKFNINELKLKINKVISQIEDLYPDIAKNLNEWKDKNLVDFLNNPFVFIQNGYDIDDYLNKMVWTEKLKDKLIKVKSQLEDLYPDIAKKIDLFLKLKEKK;locus_tag=LOCUS_10200;note=WP_004080706.1 transglycosylase domain-containing protein (Thermotoga) [pid:31.3%25%2C q_cov:89.5%25%2C s_cov:92.8%25%2C Eval:1.5e-86],MGA_1028
sequence1	MetaGeneAnnotator	CDS	1141605	1142384	.	+	0	ID=MGA_1029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLKKGKTLLKKNEVPKKFIYIKSGIVSDSKTKYSSNNFIGFIPFLLQIPIISSYKVVEDIEYEEYEKISDISEENMNFLLKDISKNYISLAYYGLTKKFPNPEEVFLCKSGKTEKEYAVEDDEDVIDFIDNFDFLMNVEEVEVPKKFDEFESLLKQYLQEFSIMKFVNLLKSALNEFEEEQWEPMLLELFDRIITMEDRALMLYVVYIAAMKFNDVKIINKFLKKNWEVLRFHGKNNWLDYAMSYMNNKIFLSEANK;locus_tag=LOCUS_10210;note=MGA_1029
sequence1	MetaGeneAnnotator	CDS	1142381	1142872	.	+	0	ID=MGA_1030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSLIENFGIKIDGVYKIKSGIAIGVIFSEDSSSIIMVYTKGDIIGIDKFYYNIGIIDYYGLDDFEYEIIQDTDFFSQLKNENESDKFEKMLKNQMLELLAFSNEKKEKVFYFCLKKIKMNSGKIKGIPKQFIDELKIDMGIENLINEEKIELVDDVYKIKQ;locus_tag=LOCUS_10220;note=MGA_1030
sequence1	MetaGeneAnnotator	CDS	1143006	1143320	.	+	0	ID=MGA_1031;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081746.1;translation=MYAIIDFGGKQYKVEEGQVLYTETVKGIEAGSEYVFDKVVFLKSEDGAKMGKPFVEGASVKAEVVEHGRDNKILVVKFRGRKMYRRRMGHRQNYTALKITKIVG;locus_tag=LOCUS_10230;gene=rplU;note=WP_004081746.1 50S ribosomal protein L21 (Thermotoga) [pid:51.0%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:2.8e-24],MGA_1031
sequence1	MetaGeneAnnotator	CDS	1143317	1143604	.	+	0	ID=MGA_1032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKAIFKGNEILVKGHAMYANVGQDIVCSAVSSITQFVAQILLEEKTANCEIKEGYLKIKIISNDEMTIKLVKYMKEALMGIEEDYPKHLKVEVK;locus_tag=LOCUS_10240;note=MGA_1032
sequence1	MetaGeneAnnotator	CDS	1143608	1143868	.	+	0	ID=MGA_1033;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081742.1;translation=MKMNLQLFAKSVDHNRHDSNPKYLGIKSPEGKFIKAGSIIVRQRGTKIHPGKNVGLGKDFTIFATADGKVKFFDKNNRKYVSIITE;locus_tag=LOCUS_10250;gene=rpmA;note=WP_004081742.1 50S ribosomal protein L27 (Thermotoga) [pid:61.3%25%2C q_cov:87.2%25%2C s_cov:90.4%25%2C Eval:4.5e-22],MGA_1033
sequence1	MetaGeneAnnotator	CDS	1143868	1144443	.	+	0	ID=MGA_1034;product=ECF transporter S component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081740.1;translation=MNSSKKLAISGIVAGLSFLLTFIEFPIFPAVGFLKFDPSDSLIALVVLLYGWIPAFFTLSVKSILFLLKAGSGGPIGILMGFSAGLAYISGLYFVKKSINEEKKIKSYFLYLITSLTVGLVMCFFNYFVALPFWLNDVKSIGDIAVQFKKQYYMDILTFFEFLMAFNFIKFTIDSIIAHFIYRKTKNILEK;locus_tag=LOCUS_10260;note=WP_004081740.1 ECF transporter S component (Thermotoga maritima) [pid:34.0%25%2C q_cov:99.5%25%2C s_cov:94.0%25%2C Eval:1.5e-20],MGA_1034
sequence1	MetaGeneAnnotator	CDS	1144459	1144905	.	+	0	ID=MGA_1035;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081738.1;translation=MASKMTQKTYVAKPTEIERKWYLVDAEGKTLGRLASQIAMILQGKTKPTYTSFIDTGDFVVVINAEKIHLTGKKLEQKIYYRHSNYPGGLKETKARHMLEKHPTRVIMHAVKGMLPKSILGKQMLKKLKVYAGPEHPHTAQKPEKIEL;locus_tag=LOCUS_10270;gene=rplM;note=WP_004081738.1 50S ribosomal protein L13 (Thermotoga) [pid:68.3%25%2C q_cov:95.9%25%2C s_cov:95.3%25%2C Eval:1.0e-52],MGA_1035
sequence1	MetaGeneAnnotator	CDS	1144921	1145328	.	+	0	ID=MGA_1036;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081735.1;translation=MAEFIDYYGTGRRKTSVARVHLRPGEGKIKINGKEYKDSVEYFNNNSVWKKHAMDPLVVTQNENKFDLVIRINGGGLSGQSGAVRLGIARALLQFDETLRPILKKEGMLTRDQRKVERKKVGFRKARKKMQFSKR;locus_tag=LOCUS_10280;gene=rpsI;note=WP_004081735.1 30S ribosomal protein S9 (Thermotoga maritima) [pid:71.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-50],MGA_1036
sequence1	MetaGeneAnnotator	CDS	1145401	1147107	.	+	0	ID=MGA_1037;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081732.1;translation=MKKYNDLKELTFELKEKLDIVDVISNYISVKKAGKNYTALCPFHAEDTPSFYIFPESKTYHCFGCKAHGDVINFIEKYEKIGFIEAVKKASKLAGIEFDFKEKKVSEEIKLNEEISKIYTEKLLNLSYKNKVWEYLKKRNINKDLVEEFEIGYSTGKEVENFLKSNLIDKDVAINAGLLNESREVFKNRLIIPIRDNNGLMAGFSGRLIENIDGPKYINTSENEYFKKSKILYLYYKNKEFIKQNDFAIIVEGYFDAISMYKYGFKNVVAVLGSTLTKNHAFDIMKLTKKIVTMFDNDDAGQRATISAIDTLQSKDFQIAVAKYKEKDPDELVKKYDKKYIAELLKDSYKFHEYIAETFLKKYDIKNDFGVEAYLKEMGIWYKKFNNAKRFEIANSFVKKISKEINKPEELIEKILNEISKTNNQMISEIKQNSKLIEKEIGYDLGKAFVYLWIKYPEYKKILKSFDATILSEQPLKEFLMYIKNDLDLSEILEQSSDKLSKIISEMWEKDLYIEPSEILFRIEKSFENLSLKNKILNLKEKLKTTKLPKERAEITSEIIAIYAKLKK;locus_tag=LOCUS_10290;gene=dnaG;note=WP_004081732.1 DNA primase (Thermotoga maritima) [pid:30.6%25%2C q_cov:98.6%25%2C s_cov:99.1%25%2C Eval:5.6e-76],MGA_1037
sequence1	MetaGeneAnnotator	CDS	1147125	1148366	.	+	0	ID=MGA_1038;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081730.1;translation=MAQVVKKGKENVAEIIKDLAEIEIVDDDKIKLKRRNVKKHRDVQSIIKKLKTQAKKNGNKLTYDEVDKCIPADTDEFNSEFIESIYVELEKSNIKIIENQISIDDEPIQSEEDVLKMFDSASMQMFDNMALNDPIKIYLKEIGRINLLTTRREKQLAMRAQKGDKHARDELIKANLRLVISIAKRYIGRGLSFLDLIQEGNIGLIKAVNKFDWRKGFKFSTYATWWIRQAITRAIADQARTIRIPVHMVETINRLNKIIREFLQDNGKYPTNEELAKLMDKSEDKINEILMAARETISADSPITGSDDDDSSIGDFLADDNIDHPEEAAVKMILREEIEKILDTLQPKEATVLKMRYGLLDGKIKTLEEVGQFFNVTRERIRQIEVKALRKLRHPSRSAQLKELRSMLGKKIF;locus_tag=LOCUS_10300;gene=rpoD;note=WP_004081730.1 RNA polymerase sigma factor RpoD (Thermotoga) [pid:62.1%25%2C q_cov:88.6%25%2C s_cov:89.4%25%2C Eval:2.7e-122],MGA_1038
sequence1	MetaGeneAnnotator	CDS	1148376	1150334	.	+	0	ID=MGA_1039;product=ATP-dependent helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080037.1;translation=MDEDIFELETNIPEFIKNELDSEQLEAVVNSRGRSLIIAGPGSGKTRVITYKIAYLMYNGINPKNILLVTFTRAAAKEMIERVKNVTNSDIEEMTAGTFHHVCNAILRRYAGKLGYKNNFTILDSEDAKDVLKIARNEYKENIGDRAQKLPKENVIMKIISYSKNTLKSLRESILEVSSNLIEYENDIEYIWQKYAEIKKDINAMDYDDILVNTAVLFRMNKEILQFISSKYRYVLVDEFQDTNKIQLEIVEALSSVHGNLIAVGDDSQSIYSFRGARFENVKEFMENSTLFKIQTNYRSTPEIVNLVNEMIPLNSVHKTLKSVRNSIDKPIIIETFDDLEQSEAVVKIIKEKLDEGLEPNEIAVLYRSHFLSMTLQQKLDSKKIPYRLLSGKRFIETAHIKDILSFLKIVQNPYDKISWTRALKLFPKIGSKTAVRVYENIFDSLNDNKNLEIGLETSLLKKNKNVLNFFVELFKNNTASDIIEYVFKNHYKEYSKLTFKDSRSRNMDIERFIEIADKYETLEKFLEEMTLSENIKVSSSRKEKEEKEVTLTTIHGSKGLEWKVVILISVNPGDFPNGMAIREKRIDEEERLFYVAITRAKNELYILKQVTGTVNPYMRNSFVFMKKENDFIKRIPNQYIKKLKTGYKRYF;locus_tag=LOCUS_10310;note=WP_004080037.1 ATP-dependent helicase (Thermotoga maritima) [pid:49.9%25%2C q_cov:95.7%25%2C s_cov:96.6%25%2C Eval:9.3e-171],MGA_1039
sequence1	MetaGeneAnnotator	CDS	1150560	1150940	.	+	0	ID=MGA_1040;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081846.1;translation=MPTINQLIRFGRKKMTSKSKSPALQGNPQKKGVCVRVSTTTPKKPNSALRKIARVRLSNGIEVTTYIPGEGHNLQEHSNVLIRGGRVKDLPGVRYRILRGTLDTAGVDGRMQSRSKYGTKRPKAKK;locus_tag=LOCUS_10320;gene=rpsL;note=WP_004081846.1 30S ribosomal protein S12 (Thermotoga) [pid:81.7%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.8e-55],MGA_1040
sequence1	MetaGeneAnnotator	CDS	1150955	1151422	.	+	0	ID=MGA_1041;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081843.1;translation=MRRKRAEKRPIEADPVYGNVLVTKLVNKVMQDGKKSKAQEIVYKSLEILKEKTGEEAMDALNKAVNNVRPLIEVRSRRIGGSTYQVPFEVAEERAISLALRWIVASARSKSGKPMVERLSNELLDAHKGTGASVKRKDDLHKMADANKAFAHYRW;locus_tag=LOCUS_10330;gene=rpsG;note=WP_004081843.1 30S ribosomal protein S7 (Thermotoga) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-51],MGA_1041
sequence1	MetaGeneAnnotator	CDS	1151440	1153530	.	+	0	ID=MGA_1042;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081841.1;translation=MKERKYTLNRTRNIGIIAHIDAGKTTTTERILYYTGKKHKIGSVDDGTATMDWMDQEKERGITITSAATTAFWKDHRINIIDTPGHVDFTVEVERSLRVLDGAVATFDAQVGVEPQSETVWRQADKYNVPRIAYMNKMDKIGADFLNAVQTMVDKLGANPVAMQIAIGAEADFAGVVDLIKMKALYWVNEDGSQMEYRDIPEELQSLAEEKREDLITAAAEFDEELMDLYLEGEEIPEDKLKAAIRKGTIEVKITPVFCGTSFKNKGVQPVLDAIIDYLPSPLDLPPVKAYDDRTKEFVRDVHPDENEPLMALAFKIMSDPFVGKLTFARVYSGKMEKGSYVLNTTKGKKERVSRLMFMHSDQREEVDYARAGDIVGIVGLKDTTTGDTLSLEGSEEILENLEFPDPVISVSIEPETKNDEQKLSKALNALTSEDPSLKAEVNPETAETILSGMGELHLEIIVDRIKREFGVNVKVGKPQVAYRETIKAKTDVEEKFVRQTGGKGQYGHVKMIVEPLPSDSEETFVFENKVVGGNIPREYIPAVENGIKESLQNGVLAGYPMVNVKVTLYDGSYHEVDSSEMAFKIAGSLAFKKAAKQCKPVLLEPIMKTDVTTPEEYMGDIIADLNSRRGRIEGFENVGNTNTRIIHALVPLSELFGYTTAMRSLSQGRATNSLHFDHYEEVPASVAEKIINKED;locus_tag=LOCUS_10340;gene=fusA;note=WP_004081841.1 elongation factor G (Thermotoga) [pid:65.0%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:7.5e-267],MGA_1042
sequence1	MetaGeneAnnotator	CDS	1153614	1154813	.	+	0	ID=MGA_1043;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081839.1;translation=MAKEKFVRNKTHMNIGTIGHIDHGKTTLTAAITKSLAKKGGADFTPFDMIDKAPEERARGITINVSHVEYETEKRHYAHIDCPGHADYIKNMITGAAQMDGAILVVAATDGVMPQTREHVLLARQVNVPALVVFLNKTDMVDDEELIDLVEMEVRELLSSYDFPGDDVPVIRGSALKALESDSTDDEWVNKIYELMDAVDSYFPDPERPIDKPFLLPIEDIFTITGRGTVVTGRIERGTIHPSDEVEMVGIGEETKKTVCTGVEMFRKLLDEGVAGDNVGCLLRGVDKDEVKRGQVLAKPGSVTPHKKFKAQVYVLKKDEGGRHTPFTKGYRPQFFIRTADVTGTLEEFDSGAEMVMPGDNIVMTIELIYPVAMEANMRFAVREGGRTVASGVVTEIIE;locus_tag=LOCUS_10350;gene=tuf;note=WP_004081839.1 elongation factor Tu (Thermotoga maritima) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-175],MGA_1043
sequence1	MetaGeneAnnotator	CDS	1154915	1155223	.	+	0	ID=MGA_1044;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081837.1;translation=MAKKFIKIKLKAYDHRLLDDSAKKIIEAVKEVDARVSGPIPLPVERTVYSVVKSPHKYAYSMEQFEKKVHKRVIFIYDASSETVTKLLKVNIPAGVAVDIKA;locus_tag=LOCUS_10360;gene=rpsJ;note=WP_004081837.1 30S ribosomal protein S10 (Thermotoga) [pid:60.4%25%2C q_cov:94.1%25%2C s_cov:94.1%25%2C Eval:1.9e-28],MGA_1044
sequence1	MetaGeneAnnotator	CDS	1155253	1155876	.	+	0	ID=MGA_1045;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081835.1;translation=MKGLIGRKVAMTRIYKDGKAIPVTVVKAGPCFVTQKKTKETDGYDAIQVGYEEIAERKLTKPLLGHLKKAEVKPLRILKEFRVENVDEYQLGQEINVSIFEENEKIDIIGTSKGRGYAGAMKRWNFGGGEVSHGSKFHRALASTGQHTYPARVLKGKKMHGHYGNKRTTVLNSQVVHIDAENNLIAVKGGVPGARGGLIIIREAVKK;locus_tag=LOCUS_10370;gene=rplC;note=WP_004081835.1 50S ribosomal protein L3 (Thermotoga) [pid:62.3%25%2C q_cov:98.6%25%2C s_cov:97.6%25%2C Eval:7.3e-72],MGA_1045
sequence1	MetaGeneAnnotator	CDS	1155914	1156579	.	+	0	ID=MGA_1046;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081834.1;translation=MAQLDMLNINGEKVGTVELREDIFGIEPNADLLFRYVDMQLANKRSGTASTKTRAEVRGGGRKPWAQKHLGRARAGSTRSPIFRHGGVTFGPKPRSYEKKLNKKMKRLALKSALSVRVSENNLMVLEDIKFDAPKTKTMKDIIKKIGVENKKTLFVLPKKSEEYKNVKLSARNLPKVKVLIADNPSQEKTNIDGLNVFDLINNEKVVITKAVVAKIEEVLG;locus_tag=LOCUS_10380;gene=rplD;note=WP_004081834.1 50S ribosomal protein L4 (Thermotoga) [pid:61.5%25%2C q_cov:100.0%25%2C s_cov:96.2%25%2C Eval:1.9e-76],MGA_1046
sequence1	MetaGeneAnnotator	CDS	1156579	1156875	.	+	0	ID=MGA_1047;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869926.1;translation=MEKVRAYDIIVKPILTEKTYTLMGEGKYTFEVSRDANKLEIREAAELLFNVKVIDVKTMNVKAKPKRLGRHEGYTRQWKKAIIKLADGYVIKELQGNM;locus_tag=LOCUS_10390;gene=rplW;note=WP_012869926.1 50S ribosomal protein L23 (Thermanaerovibrio acidaminovorans) [pid:54.9%25%2C q_cov:92.9%25%2C s_cov:92.9%25%2C Eval:9.0e-23],MGA_1047
sequence1	MetaGeneAnnotator	CDS	1156892	1157719	.	+	0	ID=MGA_1048;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081830.1;translation=MALKRYKPTTPSRRYMLTTDFSEITTNKPEKSLLAPLKKTGGRNNYGRVTLRFRGGGHKRRYRIIDFKRNKFDIPAKVVSIEYDPNRTANIALLVYADGEKRYILAPKGLKVGDKLLNGANAEIKVGNALPLENIPLGTLVHNIEFEPGRGGKIAKSAGTYAQLMAKEGRYALLKMPSGELRRVRMTCIATIGTVGNEDHKNEVHGKAGRRRWMGWKPHVRGMVMNPVDHPMGGGEGAAKCHLPQSPWGLPAKGYKTRRGKKSSDKFIVRRRKGR;locus_tag=LOCUS_10400;gene=rplB;note=WP_004081830.1 50S ribosomal protein L2 (Thermotoga maritima) [pid:75.1%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:1.6e-121],MGA_1048
sequence1	MetaGeneAnnotator	CDS	1157739	1158023	.	+	0	ID=MGA_1049;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081828.1;translation=MSRSLKKGPYVHPSLLKKIREMNEKGENKVLKTWSRASMILPEFVGHTIAVHNGMKHIPVYISEQMIGHRLGEFAPTRRFGGHVDKKAAKGKVR;locus_tag=LOCUS_10410;gene=rpsS;note=WP_004081828.1 30S ribosomal protein S19 (Thermotoga maritima) [pid:77.7%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:1.6e-38],MGA_1049
sequence1	MetaGeneAnnotator	CDS	1158040	1158474	.	+	0	ID=MGA_1050;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081826.1;translation=MASNISRVQDGRRVKKSVFHKIRKEAEAAKPRTSATAKAKNLRISPTKCRAVANGIRGKNVSEALQILMFSPKKSATLINKVLMSAIANAENNFGLKPENLFVKEIQINEGPRMKRMWPRSRGKADILQKRFSHITITVQDKNI;locus_tag=LOCUS_10420;gene=rplV;note=WP_004081826.1 50S ribosomal protein L22 (Thermotoga maritima) [pid:62.3%25%2C q_cov:90.3%25%2C s_cov:81.8%25%2C Eval:2.6e-42],MGA_1050
sequence1	MetaGeneAnnotator	CDS	1158491	1159123	.	+	0	ID=MGA_1051;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865350.1;translation=MGSKVHPTGFRVGISQPWKSTWFNENKYREYLHEDRKIREYVEDKYQRAGVSEVIISRPSDSMVKLEIFASRVGIIIGKKGSEIQKLREELSKIVNERAVKVFVQEVRNPYSSAKLIAEDVSNQLLRRISHKVAMKRAINNAMKRGVKGIKIMVSGRLGGADIARSETYMEGRLPLQTLKANLDYSTTEAQTKYGTTGIKVWIYKGDVQL;locus_tag=LOCUS_10430;gene=rpsC;note=WP_010865350.1 30S ribosomal protein S3 (Thermotoga maritima) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-64],MGA_1051
sequence1	MetaGeneAnnotator	CDS	1159144	1159569	.	+	0	ID=MGA_1052;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081822.1;translation=MLMPKKVKYRKSQRGSMNGMAKGGTNVHFGDLGLKSLEGAWITARQIEACRLAMVRTLKRNGKVYIKIFPDKSFTSKGIGTRLGKGKGDVDGWVAVVKPGKVLFEIGGVDPELAKKALNYAATKLPVRTKIVPRYQIGGEY;locus_tag=LOCUS_10440;gene=rplP;note=WP_004081822.1 50S ribosomal protein L16 (Thermotoga maritima) [pid:68.6%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:4.0e-53],MGA_1052
sequence1	MetaGeneAnnotator	CDS	1159569	1159769	.	+	0	ID=MGA_1053;product=50S ribosomal protein L29;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081820.1;translation=MKAAELKVLTDQELTQKLEDTKKKLFELRFQLELGQLKNTAQLKYVRRDIGRIKTILRERELGIRR;locus_tag=LOCUS_10450;gene=rpmC;note=WP_004081820.1 50S ribosomal protein L29 (Thermotoga) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-18],MGA_1053
sequence1	MetaGeneAnnotator	CDS	1159775	1160050	.	+	0	ID=MGA_1054;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081818.1;translation=MPRKVIVGTVISDKMDKTVTVEVKDFVKHPVYKKTIKRTKKYHAHDENNACKMGDIVEIEESRKYSKTTNFVVTKILNETPEAVEENGGEN;locus_tag=LOCUS_10460;gene=rpsQ;note=WP_004081818.1 30S ribosomal protein S17 (Thermotoga maritima) [pid:53.8%25%2C q_cov:97.8%25%2C s_cov:97.2%25%2C Eval:6.2e-24],MGA_1054
sequence1	MetaGeneAnnotator	CDS	1160050	1160418	.	+	0	ID=MGA_1055;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081816.1;translation=MVQLESYLRAADNSGAKVLKVIKVLGGFHRATGSVGDVVVCSVREAVPNTDIKKGQVVKAVIVRTHKEIGRSNGTYVRFDDNAAVLIDKNKMPLGTRVFGPVAREIRDAGYTKIASLAKEVW;locus_tag=LOCUS_10470;gene=rplN;note=WP_004081816.1 50S ribosomal protein L14 (Thermotoga maritima) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-46],MGA_1055
sequence1	MetaGeneAnnotator	CDS	1160436	1160753	.	+	0	ID=MGA_1056;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081814.1;translation=MKIKNGDTVKVISGKDKGKTGKVLRVIPKYNKVVVENINVVKKHQRPNQQMREGGIIEQPSPIYSSKVMVVCSSCGNATRVGYKKLEDGKKVRYCKKCGEIIDKA;locus_tag=LOCUS_10480;gene=rplX;note=WP_004081814.1 50S ribosomal protein L24 (Thermotoga maritima) [pid:73.1%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.4e-39],MGA_1056
sequence1	MetaGeneAnnotator	CDS	1160769	1161317	.	+	0	ID=MGA_1057;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081811.1;translation=MSEYIPLRDKYDNEVVEALMKEFGYKNKHQVPKIDKIVINMGMGEATRNKDIVVKHADELTKITGQKAVIVKAKKSVANFKLREGMPIGAKVTLRGKNMYNFLYKVVNIVLPKLRDFRGLPSDSFDGRGNYNFGLTEQVVFPELKPDEVKRVQGMDIAIVTTANTDDEAKKLLEFVGFPFKR;locus_tag=LOCUS_10490;gene=rplE;note=WP_004081811.1 50S ribosomal protein L5 (Thermotoga maritima) [pid:68.9%25%2C q_cov:98.9%25%2C s_cov:97.8%25%2C Eval:1.9e-72],MGA_1057
sequence1	MetaGeneAnnotator	CDS	1161338	1161523	.	+	0	ID=MGA_1058;product=type Z 30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081809.1;translation=MAKKAMVEKWKRGSKYKTREYNRCEVCGRPRAIYREFGLCRVCFRKMALEGKLPGVKKASW;locus_tag=LOCUS_10500;note=WP_004081809.1 type Z 30S ribosomal protein S14 (Thermotoga maritima) [pid:78.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-26],MGA_1058
sequence1	MetaGeneAnnotator	CDS	1161537	1161941	.	+	0	ID=MGA_1059;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081806.1;translation=MWSDPIADMLTRIRNANSVFKDTVEIPASNLKKSVLDILKREGYVSDYKFIEDGKQGVLKVNMKYKGDRRNREKVIDGIIRVSKSGRRVYVGTDKIPSVKGGLGIAIISTSKGILTDKEAREIGVGGEVICYVW;locus_tag=LOCUS_10510;gene=rpsH;note=WP_004081806.1 30S ribosomal protein S8 (Thermotoga maritima) [pid:73.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-55],MGA_1059
sequence1	MetaGeneAnnotator	CDS	1161957	1162511	.	+	0	ID=MGA_1060;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081804.1;translation=MSRIADRPTAIPEGVEIKVENNTVTVKGKNGELKLDFLPSVKVEIAENELRVLENENVRKRAADEKKITALRGTYTSLIRNMIIGVTEGFKKELEIVGIGYRASMQGNKLVMNLGYSHPIEYVAPEGINIEVPAPNKIVVKGSDKYLVGEVTAKLRRYRKPNAYSGKGVRYAGEVIVKKEGKKV;locus_tag=LOCUS_10520;gene=rplF;note=WP_004081804.1 50S ribosomal protein L6 (Thermotoga maritima) [pid:56.1%25%2C q_cov:92.9%25%2C s_cov:92.9%25%2C Eval:2.7e-53],MGA_1060
sequence1	MetaGeneAnnotator	CDS	1162534	1162896	.	+	0	ID=MGA_1061;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081803.1;translation=MIKKVDRDAKRRKRHLRIRRKLSGTSERPRLVVFRSEKHMYAQLVDDEAGKVITSASTIDKDVKIEKTWNVEAAKEIGKLIAEKAKAKGVTKVKFDRGGYQYHGRVKAVAEAAREAGLEL;locus_tag=LOCUS_10530;gene=rplR;note=WP_004081803.1 50S ribosomal protein L18 (Thermotoga) [pid:60.2%25%2C q_cov:75.8%25%2C s_cov:76.2%25%2C Eval:4.2e-28],MGA_1061
sequence1	MetaGeneAnnotator	CDS	1162914	1163447	.	+	0	ID=MGA_1062;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012896437.1;translation=MARNTKNSRTEVPQEFEEKLIDIKRVTKVTTGGKTISFRVTAVVGNKKGKVGVGIGNAREVPQAIRKSIQNAKKNLIEVPIKNGTIPHEIIGVQDASRVMLKPAGAGTGIIASSSVRAVVELAGVHNILTKALGSTNVLNLTKATLDGLKHLKSPKKIAELRDLTVKQVINGAHKEG;locus_tag=LOCUS_10540;gene=rpsE;note=WP_012896437.1 30S ribosomal protein S5 (Thermotoga petrophila) [pid:62.0%25%2C q_cov:92.1%25%2C s_cov:91.6%25%2C Eval:9.4e-53],MGA_1062
sequence1	MetaGeneAnnotator	CDS	1163450	1163632	.	+	0	ID=MGA_1063;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003720933.1;translation=MAKLKIKLVRGRAGKNKTQLSTLDALGLNKPNVEVIKEDNPQIRGMIRVVNHLVKVEELA;locus_tag=LOCUS_10550;gene=rpmD;note=WP_003720933.1 50S ribosomal protein L30 (Listeria) [pid:55.9%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:3.1e-10],MGA_1063
sequence1	MetaGeneAnnotator	CDS	1163648	1164103	.	+	0	ID=MGA_1064;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081797.1;translation=MLNIGDLKPTPGSRHSKKRLGRGPGTGLGKTSGRGHKGQGSRGKGKVRPAFEGGQTPLYRRTPKFGFSNVPFKKIFSEVNLSVLEEKFEANEEVTIEKLLERRIIKKVNDGVKILGNGELTKSLVVKANAFSASAKSKIEAAGGKAEVIND;locus_tag=LOCUS_10560;gene=rplO;note=WP_004081797.1 50S ribosomal protein L15 (Thermotoga maritima) [pid:66.2%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:1.9e-49],MGA_1064
sequence1	MetaGeneAnnotator	CDS	1164096	1165373	.	+	0	ID=MGA_1065;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081795.1;translation=MTKALGNIFKIPELRDRVLFTLLALIAFRIGIFIPIPGINQAAWTSALGGMQNSAAGGFINFFDVFAGGALKRFSIFVFSVTPYINASIILQLLSSVLPSLKEMLKEGESGRKKFASMTRKLTIIIALLQGFGLSISALNYRMQSIPSYIFIILATVSTIAGTMFLLWIGEMITEKGIGNGISVLIFAGIVSRYPGYAAQALIGLTPLEWIILLTIVVIIVVATVAVQTSERRINVQYAKRVVGNKIYGGASTYIPIKVNGGGVIPIIFASAIMTLPSMISRATANKIDDKIFGIGSALYLVIYGLLVFFFTYFYSSVVLDPNEVSDNIKNYGGFIPGIRPGKPTTKYITTVMTRVTFIGALFLVVLALLPYVIRGTAGVQIWIGGTSTLIAVGVALDILQQMESHMIARQYEGFMKKGKLRGRR;locus_tag=LOCUS_10570;gene=secY;note=WP_004081795.1 preprotein translocase subunit SecY (Thermotoga maritima) [pid:58.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-142],MGA_1065
sequence1	MetaGeneAnnotator	CDS	1165378	1166034	.	+	0	ID=MGA_1066;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878179.1;translation=MKVLLFGPPGAGKGTQAKIVAKKLEIPHISTGDLLRKTIRTGSKLGLQIKELLDKGEFVTDEMINSLVKETLLEYESFILDGYPRTLQQAEFLKKIFDEKNKKIDAAIFIDAPLDMLLKRITNRRVCPVCGRVYNLISHPPKKECICDDDGTQLVHRDDDKEDVVKERYNIYLERTAPVIEFYKKNYKIFTVDGSQDIEDVTKELFNILKGVSSNDNN;locus_tag=LOCUS_10580;EC_number=2.7.4.3;note=WP_010878179.1 adenylate kinase (Archaeoglobus fulgidus) [pid:50.7%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:2.1e-56],MGA_1066
sequence1	MetaGeneAnnotator	CDS	1166021	1166779	.	+	0	ID=MGA_1067;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081791.1;translation=MIIIKTEKEIEMMRRAGAKLARLLDDLILGVIKDGASAYDVEMFVLDYMKKINVIPTFKGYADFPYATCISVNEEVIHGFALKEKVFKNGDLVSIDCGLTYEGYIADSARTFIIGDVSEKEKKLVEVTKKSLYLGIEQAVPGNRIGDIGNAVQKYVEQHGFSVIRDFVGHGVGRKLHEDPQVPNFGRPNSGALLRKNMTIAIEPMVAMGNYEVEVLDDGWTTVTKDRSKAAHFEHSIVITENGPEILTSLNP;locus_tag=LOCUS_10590;gene=map;EC_number=3.4.11.18;note=WP_004081791.1 type I methionyl aminopeptidase (Thermotoga maritima) [pid:55.2%25%2C q_cov:98.4%25%2C s_cov:98.8%25%2C Eval:1.5e-75],MGA_1067
sequence1	MetaGeneAnnotator	CDS	1166793	1167044	.	+	0	ID=MGA_1068;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001029884.1;translation=MAKKDDVIVMQGKILESLPNANFKVELENGHVVLAHISGKMRKNFIRLLPGDKVTVEVSIYDLNRGRIVRREKIRRINPDEEN;locus_tag=LOCUS_10600;gene=infA;note=WP_001029884.1 translation initiation factor IF-1 (Bacilli) [pid:72.9%25%2C q_cov:84.3%25%2C s_cov:97.2%25%2C Eval:1.2e-22],MGA_1068
sequence1	MetaGeneAnnotator	CDS	1167196	1167561	.	+	0	ID=MGA_1069;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081785.1;translation=MARILGVEIPNNKKLFVALTYIYGIGTHRAYEILNDLGIDPDRKTMDLSDDEISKITHHINETYRVEGDLRQEINRNIKRLIEIHSYRGLRHKAGLPTRGQKTHANGRTRKGPRLTKIRKK;locus_tag=LOCUS_10610;gene=rpsM;note=WP_004081785.1 30S ribosomal protein S13 (Thermotoga) [pid:64.5%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:6.7e-42],MGA_1069
sequence1	MetaGeneAnnotator	CDS	1167579	1167965	.	+	0	ID=MGA_1070;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081783.1;translation=MAKRTATKNKKKKISIDKGVIRIHSNFNNTIVTLTDVRGNVVTWSSGGNVGYKGTKKGTPYASQLAADKVAKEAVKLGINKVDVTVKGPGSGRESAIRTIQAAGLTIDQIKDVTPIPHNGCRPKKKRF;locus_tag=LOCUS_10620;gene=rpsK;note=WP_004081783.1 30S ribosomal protein S11 (Thermotoga maritima) [pid:72.0%25%2C q_cov:92.2%25%2C s_cov:90.8%25%2C Eval:3.5e-46],MGA_1070
sequence1	MetaGeneAnnotator	CDS	1167998	1168627	.	+	0	ID=MGA_1071;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081780.1;translation=MARYTEALCKLCRREGFKMYLKGERCYTEKCAIAKRNFAPGQHGHNTKKMGQYAIQLRSKQALKRIYGMLEKQFRTYFKEAARREGQTGEVLMQLLESRLDNTVYQMGFAVNRRTARQIIRHGHVLVNGKKVNIPSYRLRSGDVVEIKEGSRSILQVKNGLELSNNRNLARTWLDVNTDQFKGTFVRLPKLEEMEVPVDLQAIIELYSK;locus_tag=LOCUS_10630;gene=rpsD;note=WP_004081780.1 30S ribosomal protein S4 (Thermotoga maritima) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-70],MGA_1071
sequence1	MetaGeneAnnotator	CDS	1168705	1169772	.	+	0	ID=MGA_1072;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081779.1;translation=MELYIKPETFEVVEERKDNEYNYAKFEMYPLEKGYAITMGNALRRVMLSTIPAFAIVGLRVPGKLHEFDTIEGITEDILEISLNLKKVQIKATDSKLLEKNEEFELVINKTGIKGEPVDILAGDIQTPTGLEIANPEYKIATLNSDNNVEMYLYARPGKGFVSARDIERTEEQKDVEYIYIDGAFSPVLKVNFLTENYRVGKVTDYDKLILEVWTKNNIEPLEALKRSTTILMDHFMFMSKYWKDSTGEESQEPIQDMGTGLEASEALADESAEIPGVSREILETSIDNLDLTKRAKNCLKRERINVIGELFKKTPEELMKIKNFGKKSLDEIRKELIDKFGLDYDKVFNERRSK;locus_tag=LOCUS_10640;EC_number=2.7.7.6;note=WP_004081779.1 DNA-directed RNA polymerase subunit alpha (Thermotoga maritima) [pid:48.0%25%2C q_cov:96.9%25%2C s_cov:98.5%25%2C Eval:8.3e-82],MGA_1072
sequence1	MetaGeneAnnotator	CDS	1169772	1170164	.	+	0	ID=MGA_1073;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081777.1;translation=MRHRVKTNKLNRYATHRKALLNNIARSIFEEGSIITTTAKAKTAKPLVEKLITKAIKANKGDATKKMALSREINRHFNDRKLVAKLVNEIAPKYMDRNGGYTRILKIGFRRGDASEMSLFQLLPVNEEEK;locus_tag=LOCUS_10650;gene=rplQ;note=WP_004081777.1 50S ribosomal protein L17 (Thermotoga) [pid:53.1%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:2.8e-32],MGA_1073
sequence1	MetaGeneAnnotator	CDS	1170282	1171574	.	+	0	ID=MGA_1074;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081775.1;translation=MDTKKDEIKAVKINVSQLNEMTRRQLYVLARKFSITEYSKMTNSELKFAILRKQTESIGYFLYEGILEVLPDGYGFLRNVDNSLLQGPDDVYVSKSQITRFNLFTGDVVTGQVRPPKQGEKYFALLRVEAVNYESPEKSKDRVSFKNLTPEYPDKKMKLEHKNSPVSSTIIELFSPIGFGQRGLIVAPPKAGKTILMKDIANSIAVNYPETKRYVLLIDERPEEVTDIKDTVNANVIAAPFDMNPKNQIKVAEMTLNHVKRLVEFGHDVVILMDSITRFSRAYNLFVPSSGKLLSGGVDPAALVYPKKFFGAARKIREGGSLTIIATALVETGSKMDEVIFEEFKGTGNMELVLSREIADERTFPAINIKPSGTRKEELLIPKEELKNIFVLRKIISKMNPKEALEFILNMLKKSKDKNGIMKAIEKQKN;locus_tag=LOCUS_10660;gene=rho;EC_number=3.6.4.-;note=WP_004081775.1 transcription termination factor Rho (Thermotoga maritima) [pid:59.5%25%2C q_cov:97.0%25%2C s_cov:97.7%25%2C Eval:1.1e-142],MGA_1074
sequence1	MetaGeneAnnotator	CDS	1171593	1172663	.	+	0	ID=MGA_1075;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869569.1;translation=MDLLKFKESIIEKLNEVEKKLSDPEVTSNPENLQKFGMEHTRLTSLKELYKKYDETKEDLEALNEMYNSGEVDELEYEMMKEENENSLKNIEFKILKMLIPKNDLDEKNIIMEIRGGAGGDEAGLFAAELMRMYIRYAEIKKWKYETIDIKENESGGIKTAVIKIKGRGVFGRLKYESGVHRVQRVPQTESSGRIHTSTATVAVLPEVTDIDIKINDKDLRIDTYRAGGAGGQHVNKTDSAVRITHMPSGIVVTCQNQRSQHQNKESAMNVLRAKLFEVEYEKQQSKMENARRGQIGSGDRSEKIRTYNFPQNRVTDHRIKYTSHRILEIMNGEIDEIIDKLTEYDLINKLENLEI;locus_tag=LOCUS_10670;gene=prfA;note=WP_012869569.1 peptide chain release factor 1 (Thermanaerovibrio acidaminovorans) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-98],MGA_1075
sequence1	MetaGeneAnnotator	CDS	1172686	1173150	.	+	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKLNMIYSTLFMISMLSGFNDISNIAFKKQSWIRVGSLSFLTIFLYFLIQLLFIIGIYIIENKLEKEEDTDTNILFFSAVMESIAIIFMMYFSKFNILYYIFINIIIIYFNNIILYKSLKINNLEINLKRVLKNCFFFSTFDYVEEILKKKI;locus_tag=LOCUS_10680;note=MGA_1076
sequence1	MetaGeneAnnotator	CDS	1173218	1175134	.	+	0	ID=MGA_1077;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080983.1;translation=MVKVTFPDGKIQEYDAGITPAEIAGSISEGLLRNSIGAKLNGELTDLNTPIETDTTLQIITLKDEEAPTIYRHTLAHIMAQAVTRLYKNVKLAIGPVIEDGFYYDFDMEERITEEDFTKIEAEMKKIVKENLKIERKVISKEEARELFKDEPYKLELINDIEDKTVSVYSQGKFFDLCRGPHLPSTKYVKHFKLLSVSGAYWRGNENNKMLQRIYATAFTKKEELENHLHMLEEAKKRDHRKLGPKLGLFMIDHEIAPGMAFFLPRGKIALEEMKNFSREIHKKYEYDEVETPQIMDVKLWHQSGHWDHYQENMYFTEKEDTTFAVKPMNCPGHILIYKSKVNSYRDLPIRMFEFGKVHRFERSGALHGLFRVRVFTQDDAHIFCTNDQVESEIIRVMSLINDTYSPFGFEYEAFLSTMPEDHMGDIETWRTAENALQKSLEDTGTKFKINEGDGAFYGPKIDFYVTDSLGRKWQCATIQLDFQMPERFDINYVDHNNEQVRPVMIHRAVFGSLERFFGVLIESYAGAFPTWMMPEQVSIVSVSEKYNEKANEFANKFKKAGIRVSVNTTDSTVGYKIREEQMKKVPYVIVFGEKEANNKEVINIRTRNGDTVENIDVDEFINVIKEEIKNRNLKLSY;locus_tag=LOCUS_10690;gene=thrS;EC_number=6.1.1.3;note=WP_004080983.1 threonine--tRNA ligase (Thermotoga maritima) [pid:60.3%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:8.0e-236],MGA_1077
sequence1	MetaGeneAnnotator	CDS	1175509	1176417	.	-	0	ID=MGA_1078;product=TIGR01212 family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081416.1;translation=MKDIYYRLITYNKNKYGAKVQRIPINAGFTCPNKTGEKGKGGCIFCDSTGSGFASLSSKTPINDQLNAMIERYNGRANMFMAYFQSNTNTYAPVHVLKKLYDSSLIDDRIKILDISTRPDCVSNDVLDLIASYKEKLDVFLEFGAESFNTNTLKLMNRGHTVSETLDAVLRAHKRKLDVVLHFILDFPTDTMEDIIEMAEISSILGVHGVKLHSLYIAENTKLGEMYKNDDFKPLTLNDYIERVITFLEHLSPNIVIHRLVSEPPKEGCLFGLWGLKKMKVFNMIENEMKKRNTYQGRLYKF;locus_tag=LOCUS_10700;note=WP_004081416.1 TIGR01212 family radical SAM protein (Thermotoga maritima) [pid:52.2%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:1.1e-89],MGA_1078
sequence1	MetaGeneAnnotator	CDS	1176418	1176897	.	-	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFKLIITFLSLLLILQISNFSKFNDYIEFNPFGYTIERNITMGGTILETKIDIKVTHIIMDLKKHDETYKLQMLNFKNIVNLMDFWYTFVNNYSDKITSAISAIPFVHGEFNSMYKGYILKAWFNGFDKTFFIITGTDKAGVEDLSYRIINFKINGD;locus_tag=LOCUS_10710;note=MGA_1079
sequence1	MetaGeneAnnotator	CDS	1176836	1178137	.	-	0	ID=MGA_1080;product=5-methylthioadenosine/S-adenosylhomocysteine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080626.1;translation=MIKIKKLLKNAFVLMSSDSNIEKMSILIEDDEIINLYKEHETIDEEDIKDTEIIDLKNKLIVPGFINTHAHTPMAYFRGVADDSPFKEWLFDNMLPREDLMNDEMAYYGSVVSLMEMASKGITTCVDMYMFTNSIAKAFYDIGMRGYISRGLAFDTQEGWEKRINENIDTYNKFNGKDKRIWIGFGPHAPYTVNNEKLKEVANLAKKYNTHVQIHLHEALWEKEQYSLSDIEKTGLFEIPTIAAHCVQVDERDIEVLSKNNVTVSHNPSSNLKLGNGIAPINEMLNENINVCLGTDGVASNNALDIMKEMYLASLLQKSKDGSDSIKTNEVLRMVWENGGFALNEKIGRLEPEFKADLVVIDLNFPEFYPLDTERLKSHLLFSANSRNVFATMVGGKWIYYNKKFLNIKEGEIYEKFQTHYNILESSFNSTNK;locus_tag=LOCUS_10720;gene=mtaD;EC_number=3.5.4.28;note=WP_004080626.1 5-methylthioadenosine/S-adenosylhomocysteine deaminase (Thermotoga maritima) [pid:48.6%25%2C q_cov:83.1%25%2C s_cov:86.9%25%2C Eval:9.2e-89],MGA_1080
sequence1	MetaGeneAnnotator	CDS	1178142	1178792	.	-	0	ID=MGA_1081;product=class II aldolase/adducin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460450.1;translation=MSILNEFIKTCRKIENSHLVAGTWGNISLKTKDGIIITPSGIPYSTLTIDDLCLIDFDGNLLKGKRKPSSEKLVHTNIYKNRDDVNAIIHTHSTFATVASITLKELPPIVEDAVMALGSPIKVAEYGFPGSLELANNIVSALNNKNGVVLKNHGQVAVGKSLDDAFLNAILLEKLAELYILSLNTHLNINIISSNDAKKLHDVYVNSYSKLKEQKK;locus_tag=LOCUS_10730;note=WP_011460450.1 class II aldolase/adducin family protein (Desulfitobacterium) [pid:51.4%25%2C q_cov:79.2%25%2C s_cov:81.6%25%2C Eval:9.4e-41],MGA_1081
sequence1	MetaGeneAnnotator	CDS	1178808	1180601	.	-	0	ID=MGA_1082;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGQSDFKTIIEEDMYFVDKSLLIKEVIESGNVLLITRPRRFGKTLSQSMMKYFFDITQNNEHIFKDLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHNLLISELSTLYIDHEYVFEVLNEREKDVYNKIMDREALDADYENSIRNLSKYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEESEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIRPYWMNTSGNYLIRKLIKEGTVNIKDSVEKLINGEEVECEIIETMVYGDLNLNSESAIWTLFLFSGYLKWTSKKRKNNITMYKVKIPNEEVKDFFVQTVRNMLRESNISIENMLLNLKVGRIKTFTDQFKDLTMNTLSYFDVSGKEPERFYHGLILGMSVGLKEEYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNKDEDKSLKDSAKNGLKQINEKRYEEEIKDHGINDIIKVSIAFDKKEVEIVSNLDKGIELTPEEKIAKNMIENGVDIEFISKMTNLSIEKINNLKNIL;locus_tag=LOCUS_10740;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.9%25%2C q_cov:92.0%25%2C s_cov:99.1%25%2C Eval:3.0e-104],MGA_1082
sequence1	MetaGeneAnnotator	CDS	1180631	1180816	.	+	0	ID=MGA_1083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSYIYLKKVSKPNLQNCKFRGKKIVYNKNVIKCDKIMSYTIQRGELHKKLPLGSFFLFN;locus_tag=LOCUS_10750;note=MGA_1083
sequence1	MetaGeneAnnotator	CDS	1181129	1182847	.	+	0	ID=MGA_1084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLVVLSVLTLVFLMISCTPNNVLFAPQVDFALKSLGAGGNQFPAGVDLPVNWSISTNVKDATFEFVVDLKKDDGTVILNEKTTNKDGYTIDKSKLVAGNTYKLKVTANDKKDKIIVESKVFTFTVVSSQITFETTEKIFGGPSYLAQYLGLNVPFKSNDGLAHVYEWALDVAANWNETASATEVTLTENNFENFPITSNGRKITDGVHVLYVRIKGNGLIHTFPFIFDTKGPSVTMFGSQRENNGYNVYGGSTPSGKVALLTYKVTDYTNPIINIGLMDYTNGFDNDARIVLPGKTNSKGYFGIKVPENISGTFVFKMLISNDTFKIMDLSGNELKLIALDDHYIPTGVEFNASDFNNFKLDHSYRVFMIADDGIYNETIDIKYFKLQERFADDKEPQIYLETDSATVDVNNPTFKVRVVTKNLKDYLSTDEHSVIEQDVYKSNGLNYLQIPFTFDSTATISGLTVNEFNSDYELGGTATVDATNNIFVYAEGFTSNSALNNSTGSATDVLAEFTVTLTGAATGTHNIKIPYESYLKLIDKDGKTIDGVKIDYKGVNVIVEKASSSSKK;locus_tag=LOCUS_10760;note=MGA_1084
sequence1	MetaGeneAnnotator	CDS	1182863	1184269	.	+	0	ID=MGA_1085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLTVLLVLLVTFMLAGVLEESNELANSINLTNVPWMAGVNQYFVDLQENTGISNLNSLNLKVNKYKFLPDSFISKKLNANKLTTNDDVLWSSKYVYSYNGDTLPSAFIQIHSPIKNQGSHGTCWAFSTIASLESAMLVQKSDLNPTDTASPVVDQDSTYDFSEQYMAYHDVDWDLLAATGYETMQEANTDVGGNVYFSSYNLIRYGYVDESAMPYSAYDGNKEISWNAKSNWNSTLKREVQKTIYLPGYKYNEQSYSDYINSIKEALKRYGALSVSYSVPNDFGVYIGGVYVPSDSFAKYTGGHAVTLVGWMDMATLKQQTYSGTTTTWVSSDATCVKWNDPITGKNVESTEFWLIKNSWGTSWGWDGYFLVPIATKEQFDNKEIERWMIENNSMYVPVYQKASTAVTDFDNDGDTDIDDYNALKTAIENYLKDKTYDAKYDISDPKDGRLDGNDMEMFFQKNK;locus_tag=LOCUS_10770;note=WP_157860128.1 lectin like domain-containing protein (Methanosarcina acetivorans) [pid:28.2%25%2C q_cov:61.5%25%2C s_cov:39.1%25%2C Eval:9.7e-15%2C partial hit],MGA_1085
sequence1	MetaGeneAnnotator	CDS	1184403	1184711	.	+	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEP;locus_tag=LOCUS_10780;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.3%25%2C q_cov:69.6%25%2C s_cov:17.9%25%2C Eval:3.5e-14%2C partial hit],frameshifted%2C insertion/deletion at around 1184708,MGA_1086
sequence1	MetaGeneAnnotator	CDS	1184762	1185652	.	+	0	ID=MGA_1087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKEVLGIYIGEIESSKFWLRVLNDLKNRGIKDILIASVDGLTGFPQAIKTAFPDTIVQRCIIHQIRNTLKYVSYKDRKELVNDLKKVYKAPNKDIAYSNLQDLKENKWTKYKLALESWEKHWETISPYFDYGDDVRKIMYTTNVIESLNRQYRKATKNKTSFPNDDALLKMLYLATINATKRWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_10790;note=WP_008761338.1 IS256 family transposase (Bacteroides) [pid:50.2%25%2C q_cov:97.6%25%2C s_cov:71.4%25%2C Eval:3.5e-88%2C partial hit],frameshifted%2C insertion/deletion at around 1184708,MGA_1087
sequence1	MetaGeneAnnotator	CDS	1186209	1187918	.	-	0	ID=MGA_1088;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEKIRAENFYYVDKTKYIEIIEDMPESYIFFLRPRKFGKSLWLDTMSKYYDIKYSDKFDTIFKDLYIQKHPTSKKSSYHILEFNFSGLNTDSKEELKFDFNAEVYRKISKFISNYKLNINLIENINEPSTLFRDFLNKYEELNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNKRASEKVYNSDMVLYFISEYNREKRKPEDVIDMNIASDYKKIQNLFKLGEVVGINNIDNEKEAIGNLLNEILMTDKTEIEELTRAFNLERKMEIDDVKTLLFYLGFLTIESKGFVMNLKIPNYSIKKIYSEYFLEMIKTRAKNYIDTGKIKIAIRKLLVDGNINSLANEIEDVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKIYQVKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVN;locus_tag=LOCUS_10800;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:38.2%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:2.1e-94],MGA_1088
sequence1	MetaGeneAnnotator	CDS	1187981	1189339	.	-	0	ID=MGA_1089;product=tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081141.1;translation=MKFHIKTFGCQMNVNESEIMKGLLTEEGLEWTENPAQADVILLNTCSVRKKAEDKMYGAIGMYGKYKEKNKNLILGVGGCSAEKERESILKKYHKVNFVFGTRNVVDIVNLVKRAKKERFYDFSDKLSEVSYQIPKIPNSKHHAWVTIQYGCNKYCTYCIVPYTRGLEKSRNFNDIINEVHDYAKKGFKEITYLGQNVDSYGKDFGDGTPKLDKLIQEAGKIKGLERIWFTTSYPSDITDSLIKTIANEPKAAKYFHLPVQAGSNKVLKEMNRRYTREYFFDLVRRVKENIIGVTTSSDIIVGFPGETDEDYEQTLDLIKRCRFEKVNVAEYSPREGTIAAKYKPDDIPKSIKNKRLMKILELQKQINHEENEKYAEKIVRVIQEGTTKQGIHYGRTINNKMVMFDSNDELNGKYIDVKVRRISAGPLYGEKITTELDHNFQSEDPTMKLFK;locus_tag=LOCUS_10810;gene=miaB;EC_number=2.8.4.3;note=WP_004081141.1 tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB (Thermotoga maritima) [pid:51.5%25%2C q_cov:96.5%25%2C s_cov:97.7%25%2C Eval:2.7e-131],MGA_1089
sequence1	MetaGeneAnnotator	CDS	1189393	1190163	.	-	0	ID=MGA_1090;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080936.1;translation=MSVVSMKQLLEAGAHFGHRTRRWEPRMKPYIFTERKGIHIIDLQKTLQSIEEAYEFIRNLSSEGKNILFVGTKKQAQQIVAEEAKRCGGFYVNNRWLGGLLTNFPTIKRRIAKLEELLEYVETEEFTKLPKKEQSAIKRNLEKLEKNLGGLRGMTKIPDVMFIIDPKKEEIAIKEANKLNIPVVSIVDTNCNPDPIDMVIPANDDAIRAVMLITSKMADAFIEGREGQMAEMAVVEAENANKESYEEVAEEVIDEE;locus_tag=LOCUS_10820;gene=rpsB;note=WP_004080936.1 30S ribosomal protein S2 (Thermotoga maritima) [pid:64.0%25%2C q_cov:94.5%25%2C s_cov:92.4%25%2C Eval:2.0e-86],MGA_1090
sequence1	MetaGeneAnnotator	CDS	1190254	1190595	.	-	0	ID=MGA_1091;product=ribosome silencing factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082754.1;translation=MKKNDDLNLVEGLKNLLDEKEGEDIVVLNMENTSLMLDYFVIVTGNSDTHTAALRDYVVKYFKDNERKIKSFDRERGFDWLTVDEGGIIVHIFTKEGREFYNLETLWNECPRV;locus_tag=LOCUS_10830;gene=rsfS;note=WP_004082754.1 ribosome silencing factor (Thermotoga) [pid:38.3%25%2C q_cov:94.7%25%2C s_cov:97.3%25%2C Eval:1.2e-19],MGA_1091
sequence1	MetaGeneAnnotator	CDS	1190598	1191575	.	-	0	ID=MGA_1092;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082759.1;translation=MKKIGIDLYGGDNAPESVIQGAIFALENKFLNNCELVIVGNKKDYSEKFNKFNNVSFIDAENTVDNHTKPTQALKMKTSSIYKGCELLKNKELDAFVSAGNTGALLSAGTFVAGRLKGIKRPALAVALPSKTTPKILIDAGANAEVKPEFFYDFAREGIAYADFMGIKNPKIAILNIGTEEGKGSTLVKNAANYLKEKNLNYVGFIEGRDVFTGDYDILITDGFTGNTVLKTIEGTAYYILSELKASIKKGGLFAKLGALMMKGSLYSLKTKLDYRQYGGTFFLGVNGILVKAHGSSDSEAIANALYVASEAAKKDIVSRITKEV;locus_tag=LOCUS_10840;gene=plsX;EC_number=2.3.1.274;note=WP_004082759.1 phosphate acyltransferase PlsX (Thermotoga) [pid:45.7%25%2C q_cov:99.4%25%2C s_cov:96.6%25%2C Eval:4.8e-73],MGA_1092
sequence1	MetaGeneAnnotator	CDS	1191577	1191759	.	-	0	ID=MGA_1093;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082761.1;translation=MAVPKQKTSRARTHRRKAKYYSAVKLNVVTCPNCGEPKLPHRVCLNCGYYGNKQILEIGE;locus_tag=LOCUS_10850;gene=rpmF;note=WP_004082761.1 50S ribosomal protein L32 (Thermotoga) [pid:65.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-19],MGA_1093
sequence1	MetaGeneAnnotator	CDS	1191772	1192326	.	-	0	ID=MGA_1094;product=DUF177 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082764.1;translation=MLNEHLKSKKLEIQIESFEKTFKNSIEITWDKIKLLSEDAKFLSPIKVEFNLKKLKNGIEVYGTVDTELELSCSRCLEKFNHKINGQFEAFYIKKEHMELNEKEELSDLENTIYYENSEIDLTERVIEAIILAVPDIPLCKNDCKGLCPICGENLNEHPDHNCEVEDIDPRFEKLKQLLDNNLD;locus_tag=LOCUS_10860;note=WP_004082764.1 DUF177 domain-containing protein (Thermotoga) [pid:45.6%25%2C q_cov:90.8%25%2C s_cov:93.4%25%2C Eval:8.2e-34],MGA_1094
sequence1	MetaGeneAnnotator	CDS	1192702	1193322	.	+	0	ID=MGA_1095;product=HAD-IA family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002295196.1;translation=MKNFIWDFDGTLFNTYPATINAMIKTLEEYGIKEDEKKIYDYTRKTLTYAIESLIKEHNLPREFIEKFWENSNNIPPHKNKPFEDAIKCCKLIKQNKKNNFIITHRDKRTLFNILNYYEATDIFIEIVSEANGFELKPSPESFLYLINKYNLKKEETLGIGDRELDILAGKNSGIKTCFMNHDLLNKTYEADFVINNFNEFIKKFC;locus_tag=LOCUS_10870;note=WP_002295196.1 HAD-IA family hydrolase (Enterococcus) [pid:38.4%25%2C q_cov:98.1%25%2C s_cov:96.1%25%2C Eval:2.7e-34],MGA_1095
sequence1	MetaGeneAnnotator	CDS	1193446	1193592	.	+	0	ID=MGA_1096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNKELINEKKSFKIIELYVMGFSNQHISRKLNVSLDLVKKITQKIK;locus_tag=LOCUS_10880;note=MGA_1096
sequence1	MetaGeneAnnotator	CDS	1193708	1194769	.	+	0	ID=MGA_1097;product=Xaa-Pro peptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356041.1;translation=MDRMNKAIENMQKNGIDQMLVTTTSDIFYLTGEWIDPGERFLGLLLNSNGDKKLFINKLFPVKTKNIKSFIYEDKENPIEIFSSHINKNKRLGIDKNWSAKFLIELMEKINIKVFNSSKVIEGMRVIKDAEEINKMRLSSQINDKAMKEVQKLIPNMMTEKMVARAVSNILEKLGAEGNSFEPIIAYGENAGEPHHISDKTKIKHGDSVIIDMGGVKDFYCSDMTRTIFFGAPKDEYKKIYNIVLEANLKGIEAVKPGNKFSDVDNAARSVIEKAGYGEYFTHRTGHNIGIDVHEWPNVSSDNDMELKPGMIFSVEPGIYLNGKVGVRIEDLVLVTKNGCEVLNSFDKSFNII;locus_tag=LOCUS_10890;note=WP_003356041.1 Xaa-Pro peptidase family protein (Clostridium) [pid:51.1%25%2C q_cov:99.7%25%2C s_cov:98.9%25%2C Eval:2.7e-101],MGA_1097
sequence1	MetaGeneAnnotator	CDS	1194810	1196963	.	-	0	ID=MGA_1098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKLIIFLIILVNLINFSSIKVGIYQNPPLSIINDNKIYGIFPELLNYIAKKENLDIEYITGTFSTLYTKLKENNINLLMPIAYNEERTNEIDYNNETIVSNWGVVITQKKNNILSIKDLNKKVVAVLKGDVYYNSNNGIKNLSKKFNINPYFIEKNTYYSIEKAVSNGSADAGVVNRYYLSYEVEDNSVLETNIIFDPYEIKIGFSKKFSKKNEIINIIDQNLYFMKENPNSNYYSILKKYENPNSKKISKLLYFIIIFSVLSFSFFTIVIILLKKIIVMKTKKLEKSLVIIQEQKEEIENSFEELQANNEELIKNHKELEKLNKVLEENQSELVEKYIELNTLNGELKKISEKERFQSTKFKNLILISSKFSTYLENDSEDDFLDTIFHSAKKILSSKFGLIYKINFNSIKILHNDGYSYDSSIPKSFLLNDAKIQLFDKNSIFSEFFIEESINSIISIPLFLKKKKIGGMFFSLSTEKNDDSSEIIDISLAIKELTEAFLSIKSNNDTFKVAYNNFAKKLAIVAEAYDENTGNHIERVGILSSFISEKLGMPKSFVKDIRNFAPLHDIGKIFIPNEILNKPGKLTEEEWNIMQKHTMYSIRLIGEDEYFKMALNIALYHHEKFDGSGYPFKLSGNEIPIEASIVSIVDVYDALRSKRSYKPPYNHKKALDIIINGDNRTNSKHFNPNILKTFLSIESDIETLYNEIYNTDENL;locus_tag=LOCUS_10900;note=WP_004082198.1 HD domain-containing protein (Thermotoga maritima) [pid:41.7%25%2C q_cov:33.8%25%2C s_cov:42.8%25%2C Eval:3.0e-53%2C partial hit],MGA_1098
sequence1	MetaGeneAnnotator	CDS	1197117	1197980	.	-	0	ID=MGA_1099;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357950.1;translation=MIGILCDSACDLPSIYLKKNFLEIAPLQVILNDKSYRDVVEITTPEVIEFMKKDIPKTSLPSYKDIEEKLNKLVEKGFKKIIALTISSNLSGTHNMFRNVINDFLKTNKDIEIELIDTLSISIGSGLILKKAMDMIEDNKSFEEIKNKLNSIIPNKSRVYYTIPTLKFLKAGGRIGKVSATIGDFLNIKPVISVNTDGIYYTVAKGRGMKKSINKMFEVFKEFVSEKTVESAAVYVSSSDALTTKLKNELIEKVKSIGINNIIEGTITSAMLVHTGEGLVGMSVIAN;locus_tag=LOCUS_10910;note=WP_002357950.1 DegV family protein (Enterococcus) [pid:37.1%25%2C q_cov:98.6%25%2C s_cov:96.5%25%2C Eval:1.4e-49],MGA_1099
sequence1	MetaGeneAnnotator	CDS	1198190	1198429	.	+	0	ID=MGA_1100;product=glutaredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080491.1;translation=MQHAKITVYSTPACPWCKRAKQYFKSLGLAFKDIDVSKDRKAAEKMVKKSGQMGVPVIEIGNKIIVGFDKAKIEKILQI;locus_tag=LOCUS_10920;note=WP_004080491.1 glutaredoxin family protein (Thermotoga) [pid:67.1%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:4.2e-28],MGA_1100
sequence1	MetaGeneAnnotator	CDS	1198475	1199011	.	-	0	ID=MGA_1101;product=ribosome-associated translation inhibitor RaiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000671185.1;translation=MDFKVFTKELELTPALKNYVEKRMTKVDKLLKRHSDLISPADFRISKEGGKYKTEITTHFKKLNNLIKVEEREGDLYECIDKVTDSFERKIKKLKDKLQTHEPTNNLVETFKFPEAIDEMPIVKRKRYDLSVMSGEEALLQAEMLGHNFFVFRNSETDEVNVVYKRNAENFGIIEFNS;locus_tag=LOCUS_10930;gene=raiA;note=WP_000671185.1 ribosome-associated translation inhibitor RaiA (Bacillus cereus) [pid:40.2%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:1.1e-29],MGA_1101
sequence1	MetaGeneAnnotator	CDS	1199129	1200349	.	-	0	ID=MGA_1102;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000690082.1;translation=MKIGEFSKKFNVKRDTIRYYIETGLLLPEKIRNQYIFDESCIKDMKEIIELKNLKFTISGIQKIFSLKRMTNLTDISDIDFYLSFFENKKQELLKEKEKIEKALNIIEEKISYINTSLKNKEKKIGIPLQFINYLVCPKCNKPLELNNATIKKNYIFTGELNCDCGYHAQINKGIIITPEADTSEIPEYEKKGKTLLNMYDQSLLTLMEKGGIWIYKRLFNIGVKNKVIMEIGTGLGRFVKNSMVNMGKDTLYIATEKSLDSLKTLKNSLELAGSNANIVFIAGDYTKCPIKSESIDIVIDYFGTRNYLLKNSFYPVEKVSNFLKKDGIWIGTFTYYENHAKSLKNYAEKTRNLLLFESIKNSFTKNSIKKLESSELGFSLKMGEIEKTHIPGDKLHVWAFLGKKI;locus_tag=LOCUS_10940;note=WP_000690082.1 methyltransferase domain-containing protein (Bacillus cereus) [pid:29.1%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:2.4e-51],MGA_1102
sequence1	MetaGeneAnnotator	CDS	1200661	1201146	.	+	0	ID=MGA_1103;product=Na+/H+ antiporter subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080108.1;translation=MKRFLSVFLVTYAIWITLTGFTSEEFLVGAIVAFTVSFATKDYLKFSFDAGFIVKVLKFVFLYTPLFVYKMIISNLDVAIRVIQPVIPLNPGFVKIKSDLKGDFGNLALLNSITLTPGTLSIDYEDGYMYIHWIDVKGSSEEEYKKEISQPFEKILGGIFK;locus_tag=LOCUS_10950;note=WP_004080108.1 Na+/H+ antiporter subunit E (Thermotoga) [pid:42.0%25%2C q_cov:97.5%25%2C s_cov:100.0%25%2C Eval:7.1e-35],MGA_1103
sequence1	MetaGeneAnnotator	CDS	1201143	1201394	.	+	0	ID=MGA_1104;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080106.1;translation=MMNFIVFGLIGLGLFFSILRLIIGPDVTDRIVSVDAINVIVTGTIVFIAHIFKSNLYLDIAIAYAALSFLETVIFARYLEAKK;locus_tag=LOCUS_10960;note=WP_004080106.1 cation:proton antiporter (Thermotoga) [pid:51.4%25%2C q_cov:84.3%25%2C s_cov:85.4%25%2C Eval:1.9e-15],MGA_1104
sequence1	MetaGeneAnnotator	CDS	1201391	1201720	.	+	0	ID=MGA_1105;product=monovalent cation/H(+) antiporter subunit G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080104.1;translation=MIILGNTLIIIGSIFYFLGGLGIFRMPDVFNRLQAGTKATTLGSFSLILGVGFANPQWLLKTLLIVVFLAITNPVGSSALARASYKRGVKTYKLKINEMKEPMGGENND;locus_tag=LOCUS_10970;gene=mnhG;note=WP_004080104.1 monovalent cation/H(+) antiporter subunit G (Thermotoga) [pid:61.5%25%2C q_cov:95.4%25%2C s_cov:95.3%25%2C Eval:1.1e-31],MGA_1105
sequence1	MetaGeneAnnotator	CDS	1201713	1201970	.	+	0	ID=MGA_1106;product=Na(+)/H(+) antiporter subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080102.1;translation=MTNMSIFELFIGLTMIVFAFLAIESKKIVNSIIYLSILSMFSVISFIFMRAPDVAITEAVVGSGLVSALFIVTLIMINKKVGDKK;locus_tag=LOCUS_10980;note=WP_004080102.1 Na(+)/H(+) antiporter subunit B (Thermotoga) [pid:47.4%25%2C q_cov:89.4%25%2C s_cov:95.0%25%2C Eval:2.9e-13],MGA_1106
sequence1	MetaGeneAnnotator	CDS	1201967	1202719	.	+	0	ID=MGA_1107;product=Na(+)/H(+) antiporter subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080100.1;translation=MKRLFAILLIVVMGIFIFSTLYSNNGKYNFSKFGESTLNGKVSEKFVNKSVNGENKEVKFGSENLETGSANLVTSVVVNYRAFDTLGEVTVLFLSALGVSVVLGGYKNRLKFKVEPNFILKIGSKVAVSIILITGFYIFIHGHLTPGGGFPGGAMIGSAVLLMFISNDEFRVKVKSFSALEGLSGSLFIILGLIGLSAGGFFLYNYMPMGKLGSLFSAGLIPVVYVLIGLKVGSELSNLISHFAREGENK;locus_tag=LOCUS_10990;note=WP_004080100.1 Na(+)/H(+) antiporter subunit B (Thermotoga) [pid:43.9%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:3.1e-52],MGA_1107
sequence1	MetaGeneAnnotator	CDS	1202716	1203051	.	+	0	ID=MGA_1108;product=NADH-quinone oxidoreductase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250172.1;translation=MIQYIFIILILIGIYGLLTQKNIIKLIVSLNVLEVGINLFIVSTGYISGGKAPIITSEVNKGFVDPLPQALVLTSIVIGVGVTALGLSFARKIYEEHGTLELDEIGGEDNE;locus_tag=LOCUS_11000;EC_number=1.6.5.9;note=WP_011250172.1 NADH-quinone oxidoreductase subunit K (Thermococcus kodakarensis) [pid:53.1%25%2C q_cov:87.4%25%2C s_cov:86.0%25%2C Eval:5.8e-25],MGA_1108
sequence1	MetaGeneAnnotator	CDS	1203044	1204462	.	+	0	ID=MGA_1109;product=complex I subunit 5 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080096.1;translation=MNNPVLLITLPLLFAFLSVIFKSAKKVFMFSGLLINILLLNFIEKGSYLIGGWKIPYGINLVLDNYSFAAVLIINTIFTISVLMSYKSIKNMETVLLVSLAGLNGVVLTGDLFNLFVFLEIAGIGAYILSSSTGKHIASFKYLMLGTFGINLFLFGIILFYSSTGSLNFIDIASKVSMMDNKLYLLAITMIFVGISVESKFMPFNSWAKEVYSNTDSLTAPIFAAVYASAMMFVFGRLFTSVFVTTGFIHNLLLFITISTFLFGEIIAFSEKKLRRMLTFSSVGQAGLISTLFLVGAQYPAVMQIYNNAMSKMVMFSIAGYIAIKYGKDKIEDLQGVFLNNKILGFGFSAAALSIVGLPLFYGFYVKLNILIEVFSKNVWLPALILFATLIEGIYYIRALVKLWNPGKEGEVSKPSLAKLKLTDTFNYAFIAVIVAAIIVFLGLYPDVLANFLNGTVESLKNYSGILTTGGM;locus_tag=LOCUS_11010;note=WP_004080096.1 complex I subunit 5 family protein (Thermotoga maritima) [pid:35.3%25%2C q_cov:96.2%25%2C s_cov:94.6%25%2C Eval:1.2e-65],MGA_1109
sequence1	MetaGeneAnnotator	CDS	1204464	1206302	.	+	0	ID=MGA_1110;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080094.1;translation=MFAQLMIYFMLFAVGTFFVSKINKKAGSYLTIIGSVAFLIYLYGFKDNAGEVYNLFSFGNFDISFVTSSYAWYFSMIMVLIYSMISFMNPFFIEKYSNPSAYNAFYLVSMAASVGMFYSKDFLTLFAFYEVAVWTSLFIIPMGKSRKASVIYYTMSSIGSLSLLYSIFLMYTKLGTFDIQEVGAQLVNIPQYGVLLFFLIILSGITKLGIFPFYTWLPAAHGSAPNTFSPILSGALVKIGGFISMITVAVLPFSKMFENHVKIMGYPFETYIIMILASISIVVGTLMAIKQDDAKKLIAYSTVSNSGYILLGISIASTTGFAGGMMHVLNHALASAAMFATIGAVYYRTGTTKMSELGGLIKRMPITFTAYLIAIISLAGIPPMSGFASKWLIFQALVSKGMMFTAIAAFFGSVGSFLYVFRPLSTVFLGQLSPKHNELKEVPFLMQIPMWIFSGLTIFYGIFPGKVLEYIGIIEEKVGIQKIHLEGTKIFTRTGMWDSAVIFWVFTFGFIIAAIIYFMHKKSKKVGLMDTYTSAEFIYDPERYHYAKDYYAPFERLYNTTLSVEKFFNSCVQKLSEFGGLLRTWFFNDNPVFTVFWVIVFITVITIWGGIL;locus_tag=LOCUS_11020;note=WP_004080094.1 proton-conducting transporter membrane subunit (Thermotoga) [pid:40.2%25%2C q_cov:98.7%25%2C s_cov:98.6%25%2C Eval:6.1e-132],MGA_1110
sequence1	MetaGeneAnnotator	CDS	1206299	1207210	.	+	0	ID=MGA_1111;product=respiratory chain complex I subunit 1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080087.1;translation=MTGYLIGILLLLIAFFWQVTVDGLQRKVTAKIQRRVGPPWYQNFMDIFKAFSKSSISHGIIYDFGVMMALGGTMATLVFMPFAGIVAFDRLDNFFVIVYLLAIGSLGMAMSAVGSGNPWASIGVMRALTQMVGYELPFIMVIFGMIFGYKTASISHIVQMQAGGFLYWNAVRMPLGVIVAFISLMGMLGKKPFDTPIAPAEIASGPLVEYGGKQLGMLILQHDFATFIEVSMFVNLFLGGGNIVSFLIKYFIVYTLANMISSVVGRFKIDQLVVFYYKYPLILALIQTAVIIFTGLGVKVWIA;locus_tag=LOCUS_11030;note=WP_004080087.1 respiratory chain complex I subunit 1 family protein (Thermotoga maritima) [pid:56.0%25%2C q_cov:93.1%25%2C s_cov:95.9%25%2C Eval:1.2e-91],MGA_1111
sequence1	MetaGeneAnnotator	CDS	1207198	1207776	.	+	0	ID=MGA_1112;product=NADH-quinone oxidoreductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080086.1;translation=MDSINETNIYSDDLNDSLTFFEKIQNIFRSKSVWMLHYCTGCGAIELPPTMTSRFDMERIGMAPMATPRQADVLLVTGYLSVKTLRRLLYTYEQMMDPKYVVGFGSCTLNGGVYYDSYATIKKLDHYLPVDLYIAGCMPRPEAVMSGFKKLMNMINKGEARGWKHYQENYDWYHRNQIHSLGEVYVKDEFHE;locus_tag=LOCUS_11040;note=WP_004080086.1 NADH-quinone oxidoreductase subunit B (Thermotoga) [pid:73.0%25%2C q_cov:90.6%25%2C s_cov:97.8%25%2C Eval:3.1e-79],MGA_1112
sequence1	MetaGeneAnnotator	CDS	1207760	1208272	.	+	0	ID=MGA_1113;product=NADH-quinone oxidoreductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080084.1;translation=MNSMNNIKEDISKRFENVIFEEVSKQQLSVDMKKDNIHSALAYLKSSGWDQLTFLTCVDWIEIKKFQLVYVLMNWDEGITINLRTEIDRDNPIMDSIISIFPGAEYYERDVHEFFGVNFPGNPNYEKDLFLEIWDDMPPMRKDFDPLAYSKRKFPDREYKAEFIPEGDEL;locus_tag=LOCUS_11050;note=WP_004080084.1 NADH-quinone oxidoreductase subunit C (Thermotoga) [pid:45.0%25%2C q_cov:98.2%25%2C s_cov:96.0%25%2C Eval:2.4e-39],MGA_1113
sequence1	MetaGeneAnnotator	CDS	1208269	1209378	.	+	0	ID=MGA_1114;product=NADH-quinone oxidoreductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080082.1;translation=MKELKLYLGPNHPGMHGNFSVHMYVEGDIIVKARPMPGMLHRGFEKLMERRLWMNNLALIPRICVVEPDINEMVYAMSIEKLARVEVPEKAHWIRMIILELARVANHLMAFGGIGGPTGLYTGPNWAIADRDLILDIFEEITGARVYHMYIVPGGVRKDLPEGIEEKISSFLDYLEKRMEDYKSLVLENKMIIKRTKDEIVLPLEVAKELGVTGIGLRSASGKAYDIRKVDPYARYDQVEFDVPTATYSDAYTRLGIKYQEIFQSIRILRQVLDKMPKTGSVRAKISSGNALRWRVPAGQVFSHIECARGEYGYYMVSNGKEMPYRVAVRGASYPQGMLGIEKYLPGTRLDDAAIWLDTMGVCAPEIDR;locus_tag=LOCUS_11060;EC_number=7.1.1.-;note=WP_004080082.1 NADH-quinone oxidoreductase subunit D (Thermotoga) [pid:64.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.8e-143],MGA_1114
sequence1	MetaGeneAnnotator	CDS	1209391	1211217	.	+	0	ID=MGA_1115;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080080.1;translation=MDVKKSFFAPAKAWKFLTKKPVTIPMKDVLDKPREASDRYRGFHTNDWDKCVGCGTCSRICPAEAINMIEFKELPDEEGSKPERPVFDYGRCTFCGLCVDICTTNSLNMSKEYVHMSPDPEKFFFVPKKDGIHKMEMKEGYTRDDTSELLDLERVEMEHLPAEKRKGSFLEIVKGFSKQQAIDEAARCVECGICTKTCPAHMDIPDYIRDVYNDDLETGLVDLYKTNPLPAVCGRMCTHKCETVCTVGTRGEPVSIRWLKRYIVDSVSPEEYIKILNQETIKKIDGKIAIVGAGPAGLSAAYYLRGLGYEVTVYEAKSRVGGVLNYGGPLYRMPDEAVEQDVNYIKEIGVKILTNTRVGKDIKFEELQNNFDVVFVSTGFTDGRKINLPGEDGEHFMTAMEILEIMKDYSRGIGEKPYIPNKMVVIGGGNVAFDVARTMLRLQNIERGNSEVHVCALETTLEQMPSDWDEKNEGTEEGLHIHPGWGPVEIIRKNGKIEKVKFRKVLSVFDDTGRFNPTYDDSQTMEIEADMVVESVGQVPDYTYLPESLKEKVEMVRGRIKTDENGRVVNLPWLYAGGDIVHGPDIIHGIADGHNAARSIDEYLRSKK;locus_tag=LOCUS_11070;note=WP_004080080.1 FAD-dependent oxidoreductase (Thermotoga) [pid:56.8%25%2C q_cov:99.5%25%2C s_cov:98.9%25%2C Eval:7.7e-212],MGA_1115
sequence1	MetaGeneAnnotator	CDS	1211354	1212883	.	+	0	ID=MGA_1116;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108010.1;translation=MKKLPIGVQDYKKIKEGNYTYIDKTKYILDLISSEAPIFLSRPRRFGKSLTVSTLYYLFKGKKDLFKGTYIYDKWEFKEYPVIRISLLDTTNDTEEELKDGLLRIIKREAKKYGINIESDHYKYAFDELIFELSRKERVVILVDEYEKPILDNINNKEKAERYREILRNFYVSIKSNDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELESNFKEHIKETAVEMKMEEKELLKNLKMYYNGFSFDGEDSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGIKRLGLREKYILDYPNIEVKNSFSKIILEANYGIRETEQIETTIYERIYEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDIIYIMEIKIDKSAEKALTQIKEMKYYEKYKGKEIYIVGININSEKRNIDEYKIEKI;locus_tag=LOCUS_11080;note=WP_011108010.1 ATP-binding protein (Bacteroides) [pid:36.1%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:4.6e-82],MGA_1116
sequence1	MetaGeneAnnotator	CDS	1213374	1213958	.	+	0	ID=MGA_1117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKLYYKIKKFFLSLTLLFAFVVFANIMTVLYVSKINNKNLKSEVLNYYIEKNVSYDDTSEYLQKTYYTCGPAALNYLLYLYGVNTTEEKLATLSKTNEKGTTLLNLKYAAERCGFKARGLKANFEYLKEIRKPVITYVKGNHYVVVEDITNKYVSLFDPDPEYGEIRIPIKIFKEAWNNIVLKINTKPLVMR;locus_tag=LOCUS_11090;note=WP_143485779.1 C39 family peptidase (Methanothermobacter thermautotrophicus) [pid:41.8%25%2C q_cov:69.1%25%2C s_cov:41.6%25%2C Eval:1.2e-17%2C partial hit],MGA_1117
sequence1	MetaGeneAnnotator	CDS	1213955	1215424	.	+	0	ID=MGA_1118;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545206.1;translation=MNIILLALSGLLVFLSYPPFDFGFLGYFALIPYFYVVKKNEKSLRYGFFEGTLIGTIIFLSILHIQSESILINILIFLLLVNIMGITFMIYTIIVKMIYNSLKVKIQKICMISLGWMVIEFITNKMLVGFTFYAGITQHNNDLMLYLSKYIGLYGISFVVVLINVIILESILKLKENKKLKKNDIKYIIFILGFFLAYFVFNSLNDIKNINGINIKKKETLKVRLIQGNITAKEYKKAEEKNKMKNIFEKYMNLSIKNNSSELIVWPETAVHRWIMRIPEYKNKIINIAKTNKINILFGTPDLEPNDEEYNSAFLISKTGKILGKYNKNYTVPFYENYFKKGKEIKPFEINNIKIGVEICFEAFFQNVSIELKQKGAGIIFLLSNNGLFGYSNIPYITSAFMQFRAVENNVYVAQLMNTGITQIINNNGKVLKKTKLFETKIINYEIPVIHKQTIYSKYGETTYYIITVLFLVIIIAMLLKIQIRRRKK;locus_tag=LOCUS_11100;gene=lnt;note=WP_012545206.1 apolipoprotein N-acyltransferase (Thermodesulfovibrio yellowstonii) [pid:27.5%25%2C q_cov:96.1%25%2C s_cov:92.6%25%2C Eval:3.1e-43],MGA_1118
sequence1	MetaGeneAnnotator	CDS	1215421	1216035	.	+	0	ID=MGA_1119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKRGISWLILFTFILTMMPMNAFATTKKDVSVKSMSDSQMSAVVGGVSPKKPSKPKPKIETRYFHGVTAGSAKIIYKGPEKIVSAAVDNMDYKNFLDYSFEVNESTTNEFTVSGEAEFLDFWKASGGYTHHKTKSYIGSFVAKIPPRHQGFIVKYKEKIEWSAYSKKIIYKDGVPDSEDNRKGTKINILDVYRAKYIKISY;locus_tag=LOCUS_11110;note=MGA_1119
sequence1	MetaGeneAnnotator	CDS	1216046	1217029	.	+	0	ID=MGA_1120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFGLIIFYNIVIFSQNLVLVNKFYIDSSKVDLNKYAGVIDGNIYSIEKINPLIIKSYNIYNGLTKEFLKYSKKVDISIIKYDYLKKPYYTEIFKIIDDKIYIISIGEKLYSLDTKTHEIKEFELENKEQILDYYVSLDTTKDKKDIFFISPNKNLDMILSHYNTNSGFIKNISTGFGVKKILVIKNNVFVINYDEFLKRLSISKFDMDLNKRTFINKKYDTGNCFELPIKIKQKKLYSNYIDDEVKVIKSKEYIVVMNEENFYIISTKVDENGFSKVLKIIPIKKIIDKKLSDLNNLILSSDNEYIYLFNKESYILYTIKLKL;locus_tag=LOCUS_11120;note=MGA_1120
sequence1	MetaGeneAnnotator	CDS	1217098	1218240	.	+	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSIIIFLVLLSISMFSNTVSFFKEYFLNYFQSNDKFSTTFAKKKTKNYENLNFSTYFDYPYDGTYSINLNSGIKINLFDYQQYLKKEIFNYEKNISLANIEARKMNYIFNYFLDYLEYLKTKNINEELKRVLNFINKNNLLNKNKIFYVRLKNEILENEYYCKKIKREKYNNIKNLFGYHILKDSFIKNSSNLNYIKKNIINNPDYSYNKNNEEIIKLKNNKEDFSVYFDLNYNYNNSWDSENTFNKNFSCSLNFEKSFEIFGISLKNHISIYPNKISANIFFIDYANKFLLNSNKLNNVLNEKIKDYYSYFQRLNILLTKLKNYNEVINIQELNTIKNFSEYIKLINEYYSTYSEIYRIYLGILMLGNSDFILDNLK;locus_tag=LOCUS_11130;note=MGA_1121
sequence1	MetaGeneAnnotator	CDS	1218311	1218442	.	+	0	ID=MGA_1122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLESVYRAKYFLKGPYHEKSYSISVEKPTRTNKYVKIYYKKGW;locus_tag=LOCUS_11140;note=MGA_1122
sequence1	MetaGeneAnnotator	CDS	1218517	1219554	.	+	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVFFIISIITIITQGEFVKYESISLNNKIDKEYKFNLRINKKKVIKRKDVDFISCKFDVNSKGEIYLGLYSEPSILKFLPEKKEYIKIENEIIPDYYSGGVTVVYLRVLPNDKVIVKSLDGIAILNNDKLEKFYEFPGTSVDDWAYDIVKKKKRSEIYFNPPITNDLHTDVVYIEKTKDGLIEFNQKTVYYYKIIGNNFYGDYKTIYEKKEKCKYSSDIILKSNSNKLYKVIWDNKERLLKILDVEKGTIKILDNYKYTATYDIDMIDDNFYILYENYDSEDSNRKDLKILKMDKNFNIIYDFSVMKQKYFYIPELKVKKINGKIFIYIKTKESIKILYEN;locus_tag=LOCUS_11150;note=MGA_1123
sequence1	MetaGeneAnnotator	CDS	1219578	1220780	.	+	0	ID=MGA_1124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIRIIIVLFIFLNSIIFGENLNYEKFDKAIKSMYLKEVKKTEDILNKYKMFFQNVSYNFGIDGDFSKLDFTTSQINLNWNIFSSGKNIAEMKINEVVNRIEELLDENKYFNKYISLRYEFFNRYQMQENLKLLNKYYDELLKITLPQNEIEKLKLEREKISTQIQKNDLKESFDNQNLNGFIFLILNKMQDVTFTYPKEYYEMKKLNELLNSYKLKDFKENYEYLIAKKEKEQNKYSKILTNNNEINFNLGANYDFKTNNYSLSFMMDYNYDVPFINFSGNGNYSNGHYNISSTINPVIKEQKKEENEKTLGEILAKVRDDYNKLLNQIEATENNLYIINLDIKISELEYEKNKEKKTDLEKILNERNIESTKLNYILNVVKYNLLVKTLIDTYYEKK;locus_tag=LOCUS_11160;note=MGA_1124
sequence1	MetaGeneAnnotator	CDS	1220997	1222355	.	-	0	ID=MGA_1125;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681233.1;translation=MARDLTKGSIIKELLLMSIPTMIGFSAQMIYDLVDMFWIGHISTAAQASVGIFATIFWVVEALNEIIGTSSISLISQSYGKKDYEKTNLAIEQTITFKFVVAIIGAISIALFLKPLMGSFAKKEVVDLGIKYGYIRLFFLPIMFSSFSVNTALRCIGDSKTPMYIMIFSSILNIILDPFLMFKTIPGTSIQGLNMGISGAAVSTIISQSIAFIIGFYLLFSGKRGIKPSIFKLLKLNFKMDKKLITIGLPNGLEVFARNLSMLVILKFVSLFGTTVVAAYAVGGRIFGFVFMPLMGLSMGASSIIGQSLGANLTTRAAKTAKLTASLASLITFTFMLLVFFKGEVLISFLNSDAQVILYGKEFMIFSSIGLIFVAYSFGLSSVFSASGYNLPFLFMSAGSRWLIQIPLLFIFIKILNLPLIWVWLSFAFGDFFEFLISIYFYTKGKWKKIRT;locus_tag=LOCUS_11170;note=WP_002681233.1 MATE family efflux transporter (Treponema denticola) [pid:42.3%25%2C q_cov:96.9%25%2C s_cov:94.2%25%2C Eval:2.3e-106],MGA_1125
sequence1	MetaGeneAnnotator	CDS	1222340	1223620	.	-	0	ID=MGA_1126;product=GTPase HflX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081386.1;translation=MEKTKEVFDGILVAVNKREKDFEKQIEELKLLCSNIDINILTEVIQKKEAPDKKTYLGKGKIEELKDALMAFKCNIAIFNDSLSSLQRKLLEKELKDIKILDRNEIILEIFSRNAKTTESKLQVELASLTYELPKLVGQGISLSRTGGGIGTRGPGETQLEYNRRTIKEKINTLKNKLESIKHTRTMKSKKRNASSTIKVSITGYTSAGKSTLLKALSDDENILVSQKLFSTLATISRKTKFNDGLQVIFSDTVGFIRKLPISLIESFKTTLEEINYSDVIIEVIDLSEEDYEDKKSVVNKTLNEVIIEPIPRIVVFNKIDLLTKEKLDHLKILHPEALFVSAKSKKTVQEFLNDLEKKLINLEVLVSKKLYLKFEHSWKIDKIRDQIGIKEKKQIDDGFEYELITKKEYLEKIKSMIGFELWQEI;locus_tag=LOCUS_11180;gene=hflX;note=WP_004081386.1 GTPase HflX (Thermotoga maritima) [pid:41.7%25%2C q_cov:95.8%25%2C s_cov:99.5%25%2C Eval:5.1e-84],MGA_1126
sequence1	MetaGeneAnnotator	CDS	1223635	1224024	.	-	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTTVWGKDENDNSVIDQIINKGKTVICTPKYWYDKEPEISKTKVGDLVAIYTKKGEHACNIEITEKYEIPFGQVTERIAKGELFNSIEEFKEFHKKIWSEELNKDWLAINDDTIIVVEHFKLHSIEN;locus_tag=LOCUS_11190;note=MGA_1127
sequence1	MetaGeneAnnotator	CDS	1224151	1224624	.	+	0	ID=MGA_1128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNITITAMLSVLVVVLFSFQMVIPPIGMIFSYLSVILLIEIKRNTETRYYLMSLITTSTLIVMLNDPFGWILYIFMLIPVSVGVIYEGYLKFLMLIPVEAGAYFMFKVFSVKGSPIDNFLGNIWYFLGIFFYIATYFFYKKAIIIFDVLKKRMYK;locus_tag=LOCUS_11200;note=MGA_1128
sequence1	MetaGeneAnnotator	CDS	1224640	1225098	.	+	0	ID=MGA_1129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSFYVVLFLVFTFLLISCSANINKENNLENSSSKVDNSKVDDSIINTVTFIIESYPSNTPENSNIYMMGDFNGWNPSDVFYRFEKNEEGEYILKVSMKSGTKINFKITRGTDDSVESDSFGDEISEREYKFSTDGDEVYISIEGWKDLGF;locus_tag=LOCUS_11210;note=WP_011249477.1 alpha/beta hydrolase-fold protein (Thermococcus kodakarensis) [pid:40.6%25%2C q_cov:66.4%25%2C s_cov:22.0%25%2C Eval:3.7e-16%2C partial hit],MGA_1129
sequence1	MetaGeneAnnotator	CDS	1225122	1225715	.	-	0	ID=MGA_1130;product=nicotinamidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868100.1;translation=MNMKTLIEKIKILNLFPINTAILCVDCQNSFTLRCSNELPVEETDEVWIKSINNFLKLAKKEKYKIFASKDDHPKDHISFKEWPMHCVKNTYGNKLFINYVDYIVKKGSLKETDSYSAFYENFEDTPNELDLLLKNNKIKNLIIFGLAGDICVLETIKSSIKKGYNTFVIKDFIKSVNKKDIDSILKENKIKTCKSI;locus_tag=LOCUS_11220;note=WP_010868100.1 nicotinamidase (Pyrococcus abyssi) [pid:30.6%25%2C q_cov:89.8%25%2C s_cov:96.7%25%2C Eval:1.5e-18],MGA_1130
sequence1	MetaGeneAnnotator	CDS	1225832	1226578	.	+	0	ID=MGA_1131;product=2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870165.1;translation=MYKLVLIRHGESQWNKENKFTGWTDVDLSEKGVEEAKEGGKVLKEEGFKFDIAYTSVLKRAIKTLNNVLEEMDLLWIPVYKSWRLNERHYGALQGLNKAETAKKHGEEQVKIWRRSYDIRPPVLELNDERHPALDPKYSALDTKMLPGAECLKDTVERFLPFWNDTIAPSIKEGKKVIIAAHGNSLRALVKYLDNMSDEEIISLNIPTGTPLVYELDENLNPIKKYYLGDQEKIKKAMESVANQGKAK;locus_tag=LOCUS_11230;gene=gpmA;EC_number=5.4.2.11;note=WP_012870165.1 2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase (Thermanaerovibrio acidaminovorans) [pid:70.2%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.1e-102],MGA_1131
sequence1	Aragorn:1.2.38	tRNA	1226618	1226693	.	-	.	ID=Aragorn_34;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00340;note=Aragorn_34
sequence1	Aragorn:1.2.38	tRNA	1226700	1226774	.	-	.	ID=Aragorn_35;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00350;note=Aragorn_35
sequence1	Aragorn:1.2.38	tRNA	1226779	1226854	.	-	.	ID=Aragorn_36;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00360;note=Aragorn_36
sequence1	MetaGeneAnnotator	CDS	1226923	1227816	.	-	0	ID=MGA_1132;product=riboflavin biosynthesis protein RibF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080749.1;translation=MYALTIGTFDGIHRGHKYILKKTLQIAKENNLKPLAIMLKYPIGKYLNGFDGLILPSWERKRLIEEMGFEVKIIEMKDVWHINHEDYLNHLIDIGTKYIVCGEDFKFGKGAMGDVSYLLTSGVKKGLIVEVLHDLKEMGNRVSSTLIRKNLKKGNIKESNKLLEKNWTVEGTVYEDRHVGFSLGFPTANINIREKEDIIFPKYGVYLTKGYIDGYSRILWGLTSVGIRPTYFEEIKIPKTETYFLDFFGDLYGKHIKLEFIDFLRTEEKFNDQIELIRKISKDEDNARALIESLTKN;locus_tag=LOCUS_11240;gene=ribF;EC_number=2.7.1.26%3B 2.7.7.2;note=WP_004080749.1 riboflavin biosynthesis protein RibF (Thermotoga) [pid:35.6%25%2C q_cov:98.0%25%2C s_cov:96.2%25%2C Eval:5.5e-41],MGA_1132
sequence1	MetaGeneAnnotator	CDS	1227842	1228753	.	-	0	ID=MGA_1133;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080766.1;translation=MKNGFLVIDKPKNVTSHDIVKEARILYNTKKVGHCGTLDPFATGVLVLAINKATKFLQFLISDNKTYRVKARLGIITDSYDITGNIIEKNEVPDLSKEFIIKTLKSFEGKSKQIPPIYCAKKINGKRLFKYARAGKTVDIPPIDINISNIKDIIVYENNEEIEFTVTVSSGTYIRTLINDIGKKIGCGATAIELRRLKSGIFSLEQSVKKMEKDSNFVPISKALNIPFIKVNNKDKVLNGIQIYKENILQFSKFEKNQYVKILDDEKNFIGVGKAERSSKFLKTLLRTPERNDRIIKLYKILK;locus_tag=LOCUS_11250;gene=truB;EC_number=5.4.99.25;note=WP_004080766.1 tRNA pseudouridine(55) synthase TruB (Thermotoga) [pid:41.7%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:6.4e-61],MGA_1133
sequence1	MetaGeneAnnotator	CDS	1228750	1229106	.	-	0	ID=MGA_1134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQFRRNMLESQILKLFTQTLSKIRNNEIQGKLISFTSVKLSRDKSFVDISVSALNEDVDEIVKVLNKLKGLFRKDMSQKIKMYKVPEVRFFKDKGLEDSIKIQKLLNEIKVEGDTEE;locus_tag=LOCUS_11260;note=MGA_1134
sequence1	MetaGeneAnnotator	CDS	1229106	1229987	.	-	0	ID=MGA_1135;product=HDOD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008193057.1;translation=MAISIRELSKKIEELPTPDFVVQRIISIASNPESGTKELNVAVLESPTLSAKILKMSNSAYYAIPRKITKLTQAINILGFKTVRNLAMSIFTVNSYFKKEYDYFNTEKFWKHLMGTGIAAELLSNYVNYPEKEEAFLSGMLHDLGKIAMAFVMPDIFEMVVKLSKHKKISFSQAEEMLQSFSHQQIGKILFENWNMSDIIIDTATFHDNPNENRHENTKTIVNIVHIANISVKTLFYGHSGSFEIPIPNEVAWNELSLTPQKYKKYLDNLKEKISESQDFMNLNNIIDVEEEK;locus_tag=LOCUS_11270;note=WP_008193057.1 HDOD domain-containing protein (Thermotoga) [pid:37.9%25%2C q_cov:95.6%25%2C s_cov:98.2%25%2C Eval:3.0e-55],MGA_1135
sequence1	MetaGeneAnnotator	CDS	1229989	1231458	.	-	0	ID=MGA_1136;product=GAF domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080773.1;translation=MIPDSNSSIFSNISNIIMQLSKAKDIESSYETLSKLTKTMIDFEDEYFFNIQNEKIFEVYKKDVSEDLKDIAKWAFKKRDVSIFPEEEGSYVIIPIGHNNNVDFVYIIFTKEEEFSNQFMVFLRIISFLMGNLFQNLKLYQEILNKNKTIEKNKNFLNTILNSSSDSIVVYDSNFSIQFKNENFNKAIESTELKEKILELSNLTFSSLSKQLIELEVDQKTYSIETLLFGFDNDKFVIAVIRDISGTKELEKLKKLDKMKMEFLSMISHELRTPLSAIKAYSETLIDSIEMMDTETLKEFMNTIYKESLHLEALLNDLLDFSKLELKSLKLQKEKIDINELLKEIIKSTEESAKSNNIKVIFEDNTKPIMGFIDKTRIRQVFLNLIQNAIKYFDSKKEKPEVNIKTTEDEKNIYVSIKDNGIGIDSKHHQKIFEKFYRVDTSLTYKVQGTGIGLSIVKDLIEMHGGSITIESSEGIGTEFKITIPKGVD;locus_tag=LOCUS_11280;note=WP_004080773.1 GAF domain-containing sensor histidine kinase (Thermotoga maritima) [pid:34.3%25%2C q_cov:99.2%25%2C s_cov:97.1%25%2C Eval:8.5e-78],MGA_1136
sequence1	MetaGeneAnnotator	CDS	1231559	1231990	.	-	0	ID=MGA_1137;product=DUF427 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_103017635.1;translation=MSENIKDYPDIPIVKKTNKTIKVIFNKKVIAETSDPLKVMQKNLFPVYYIPKKDFKLEYLKKIEKTTLCIYKGTAEYYNLIVDDKEAKACVYEYSKTKPGYEILSNYLSLYPAKVDEIFIDSEKVQKNIGAFTGGWVTSEIEY;locus_tag=LOCUS_11290;note=WP_103017635.1 DUF427 domain-containing protein (Salinibacter ruber) [pid:35.3%25%2C q_cov:97.2%25%2C s_cov:85.3%25%2C Eval:8.2e-25],MGA_1137
sequence1	MetaGeneAnnotator	CDS	1232183	1233532	.	+	0	ID=MGA_1138;product=magnesium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080209.1;translation=MKFAMAVDVKKLIEYGQLKFLKELLVEQEPATVLEMIKELPSEEILIVFRLLPKDTAAIVFTELETDEQLKLLSLFKEEKAKEIIENMDPDDRVELFDEMPANVVKKLLDYLSPEERKQTLTLLNFPEDSAGRIMTPYYLDVKANMTVERALEHIKKVGNTKETIYTLFAIDEDRKLSGVLELKDLIFSDSNTLIKELMNEDPIYVTVFQDREEVYQIMRDYDLLALPVTDSEKRLVGIVTIDDIVDVIEDEATEDIQKMAAVGVTESSYLHTSIWKLVKSRVFWLITLLVLESAVGFIIDGYSEVLQKITILAAFIPTINAMGGNTGGQISAIMIRSMAIGDVESSDMKKIFYKEMIIGIILGSILTVIMALRAFVSTQNIMIILSLSASLLIVILTSNLLGAFLPFFAKKIKIDPAVISGPLISTLMDLISMSVYFSVSTILLKNYL;locus_tag=LOCUS_11300;gene=mgtE;note=WP_004080209.1 magnesium transporter (Thermotoga) [pid:49.8%25%2C q_cov:98.0%25%2C s_cov:98.7%25%2C Eval:2.3e-122],MGA_1138
sequence1	MetaGeneAnnotator	CDS	1233579	1234817	.	-	0	ID=MGA_1139;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964893.1;translation=MTKTEKSWILYDWANSAYAVAIMTAILPIFFKDVAAKGVESSLATAYWGYTNTISTLIIAVLAPILGTIADYKNYKKRFFVFFLLLGVLSTMLLSTVSSGNWLQCILIYIFSIIGFSGANIFYDSFLTDVTTKEKMDWVSSNGFAWGYIGSTIPFILGIIIIQKPTIIGLSSATVATRVSFLITAVWWLVFSIPMLKNVKQVNYIEPSKTPIYDSFKRLYNTFKNIKQNKNIFLFLIAYFFYIDGVGTIIKMSSIYGRDVGIKSVDLLVILLVTQFVAFPFALLYGKLAKNFSPKIMLLLGITIYTGLTIFAFFLHNKTQFWILAMLVASSQGGIQALSRSFYGKLIPKEKSTEFFGFYNIFGKFAAILGPLLVGIFSQITGSSRFGVVSIAILFLIGGLLLLKTKSYEDLA;locus_tag=LOCUS_11310;note=WP_010964893.1 MFS transporter (Clostridium) [pid:55.1%25%2C q_cov:99.3%25%2C s_cov:96.7%25%2C Eval:9.7e-125],MGA_1139
sequence1	MetaGeneAnnotator	CDS	1234842	1235339	.	-	0	ID=MGA_1140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENVLKKVEEYMNKYPDSDFDDLEKFLNENFSKEEVSKYFEMMGDVLGGFNKVAENPVDALLDGPKEIFLNYDKAFVIEFPKEDRLRDLKVKEWAVWEKDVSEFEWKYDEDETCFIIEGEAEVRFDDKIVKFESGDLVKFKKGLSCTWKINKKIKKYYKFGNVEI;locus_tag=LOCUS_11320;note=WP_004080314.1 cupin domain-containing protein (Thermotoga maritima) [pid:48.8%25%2C q_cov:49.1%25%2C s_cov:92.1%25%2C Eval:5.7e-19%2C partial hit],MGA_1140
sequence1	MetaGeneAnnotator	CDS	1235423	1235719	.	-	0	ID=MGA_1141;product=flagellar hook-basal body complex protein FliE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081562.1;translation=MIEKINPISLQHPSLINKNPVQSSNNNDFSKMLKDAIDEVNSLQKNADTKAADYASGKITDVHQVIIAAEKASLSLKLTSEVTNKIVEAYKEITRMQL;locus_tag=LOCUS_11330;gene=fliE;note=WP_004081562.1 flagellar hook-basal body complex protein FliE (Thermotoga) [pid:46.4%25%2C q_cov:99.0%25%2C s_cov:95.7%25%2C Eval:6.0e-19],MGA_1141
sequence1	MetaGeneAnnotator	CDS	1235736	1236143	.	-	0	ID=MGA_1142;product=flagellar basal body rod protein FlgC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081561.1;translation=MEGLFKIMNIAASGMTAERFRTDIISQNLANAETTRTENGGPYQRKIVSFKEILDNETNYGGVKVSKLSKDTSPFKIVYDPNHPDADKNGYVKYPNVNVLREIVDMMNAQRAYELNASVVNTSKSMYNAALNIGR;locus_tag=LOCUS_11340;gene=flgC;note=WP_004081561.1 flagellar basal body rod protein FlgC (Thermotoga) [pid:57.8%25%2C q_cov:97.0%25%2C s_cov:96.4%25%2C Eval:5.7e-41],MGA_1142
sequence1	MetaGeneAnnotator	CDS	1236169	1236561	.	-	0	ID=MGA_1143;product=flagellar basal body rod protein FlgB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081560.1;translation=MFDNNFKILPKALDAYTQRQKAIAQNIANFDTPNYKRKYVSFENELQKALSDTDNLKLKTTDSRHINNTPSLEKVQAQTLIDKNKSNRNDGNNVDIDIETTEMVQNNLRYTTVSRLMTYVINRYNTAIKR;locus_tag=LOCUS_11350;gene=flgB;note=WP_004081560.1 flagellar basal body rod protein FlgB (Thermotoga) [pid:42.6%25%2C q_cov:99.2%25%2C s_cov:97.6%25%2C Eval:6.9e-23],MGA_1143
sequence1	MetaGeneAnnotator	CDS	1236631	1237662	.	+	0	ID=MGA_1144;product=polysaccharide pyruvyl transferase CsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583760.1;translation=MKKIFLVGYYGYNNFGDDLLLKSTFKILNEIGFNDTLIIPSEIDFLSKKMRNILKFNVEIINKYDIFSMKKNIKDSDLIIYGGGNLLQSETSLKSYYYYYEICKVAIKYNKKILFLSQGFGPLKHKTANKKLKKIMKYENLFGIYRDKVSYNYSKKYNKNSYFGMDIGPYSLNAYKNKKERKISLCLKNSYSNLKYLIDFLNIFSDYTITPLIINSNQDSITNYALVESIRKDTMNEVLFPYKDFNKIQEEIATSSLVISDRLHSSLASIFYETPVLTKLTKKNRRVLKSIDNKYNFFYNRLLDIPESYFRLLKYNFLETSETYKIRLNDTINLSKQIIQNVL;locus_tag=LOCUS_11360;gene=csaB;note=WP_012583760.1 polysaccharide pyruvyl transferase CsaB (Dictyoglomus turgidum) [pid:22.3%25%2C q_cov:98.5%25%2C s_cov:99.1%25%2C Eval:6.6e-12],MGA_1144
sequence1	MetaGeneAnnotator	CDS	1237643	1238638	.	-	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFNLSFSNDYFAEINTFPTGNRSFLIKSEKNLALVCDYDGKVTYVDIYNSEFGYFKYGLSRPTSAFFDGEYIYIVDSMKKEVQKISNITKKIIKKIKLDKSPWNIKVINNKLYITAEESLYILDKNLNIKSSYKLSVNSPYIITQNKEVFIPMYDNYINNTFKTKLLFFIPNSNQYIPNQVNIKNPVDIIKVNNIFYVVSKFEGKLYKITKYSQKEVADFNGVTRNIELFNDYIIGHSMKGGIYYYNLKTGKTTKILEDIPIIDITVSPDKNYIYAISHINNKLYIIKNMKVYQELNVSSYPIDVISPDNNIILVLTTDNGQLHLIRRFE;locus_tag=LOCUS_11370;note=MGA_1145
sequence1	MetaGeneAnnotator	CDS	1238835	1239458	.	+	0	ID=MGA_1146;product=uridine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010906081.1;translation=MVLVAIIGGSGAGKTSVSKSIVKHFNSRASLLSMDDYYKDLPPGVDPREFNFDDPKAFDFDLFKKHLKLLKKEKSIELPVYNMVTCRREQSITKKFLVTDLVIVEGILVLHDKELKNLFDFSVYIDAPSDERLIRRIERDTVERGRTIESILTQYRRFVAPSFKAFIEPQKYKCDIVLPDGVSNKTGMGIIIDAVERMLERNKQEGF;locus_tag=LOCUS_11380;gene=udk;EC_number=2.7.1.48;note=WP_010906081.1 uridine kinase (Lactococcus) [pid:37.8%25%2C q_cov:95.7%25%2C s_cov:97.1%25%2C Eval:6.1e-34],MGA_1146
sequence1	MetaGeneAnnotator	CDS	1239458	1241383	.	+	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYMLLVFSVLLVIIGYSINTKIVQEKYVGFIKAYNSDTKENHLINKFKDEMKNLGLYRYYRNNMVGSAEFVDRPTDIQTYLSMIHKSMTFNSDEEKLAFAGFLCYVQTDLAGGELSNEVIKSMPAYFVTVQDIYQNMQNEALLYIGNVIAYSMGLVETSPYTNIEKHKTNSKLENLDLYTYSGEKNELYDGIIKKNSVKLNTEIEKLANSGITGEDLEYEIDNLSSELLEDITKKNDEDLNSSVAMFIKEAKKGINLSYLRFIIYLAVILVGVKFFKKYLNYIILGVFGYEVFYLIFMYNFSKDIITSFFYGSFIVVAVAIMFFVKFFSAFGRDVKFVKRLINVSLFILLALLLFIPTYYSKDLTMKNTKSFHNSSFENQLLKDVLLYNHSVIHKNLTELTNSITTENSEAKNIYSNLLKKYINDSIENNIIESISNDYGVNIKNNINGLLLNKEKNYTKVSKDYAEAIDKFVKASELRMKNINNEIKTMKLNIERIEDYSDEQFLKLFKNNLDSYFMKNKLLVPVKKDIDESYTNFNAKDKLNIKAYNTDYGTKMLMIFFLGIVFWIVFEGKLIKWSSFGAMIISSVLMFIKPGTIEVLSQIKYPVLKSSEFSVNILYGIIMVLITILLTIKKGGSES;locus_tag=LOCUS_11390;note=MGA_1147
sequence1	MetaGeneAnnotator	CDS	1241380	1242477	.	+	0	ID=MGA_1148;product=BMP family ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082657.1;translation=MKKVLSMMLVLAFVVSSFALTVTMVSDTGGLGDKSFNDGTWAGVLRAKDELKANVKVLISKEQTDYVTNLSNAAKESDVVIAVGFMMTSALFDVAPQFPRTKFIGIDIAPSQGTTIPSNVALYLFKEQESAFLVGYLSASMTKTGKLGFIGGIEIPPVKRFEFGYRAGIKAYNEIHNKNVEAILGYAGGFGDVAKGKQMAMAQFAQGADIIFHAAGATGNGAFDAAKEKGLSFYGLDANATLKDIIDKYYEKGRGYFAVGVDSDQDYLAPGFGLASAMKRVDTAAFLGIKSSRSARSFKSGVHTLGLKENGVDISPMKYTKGMVSNSTFAELAYLSSLIKQGQVNVPDSEDGLASFDVTSVKFPF;locus_tag=LOCUS_11400;note=WP_004082657.1 BMP family ABC transporter substrate-binding protein (Thermotoga) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-110],MGA_1148
sequence1	MetaGeneAnnotator	CDS	1242590	1244179	.	+	0	ID=MGA_1149;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865052.1;translation=MSKGTDLMNYAVYMKEIVKRFPKVLANDHVNLEIKKGEIHALIGENGAGKSTLMNQLYGLYTPTSGDIFINGEKKVFNGPKDAINAGIGMVHQHFMLVDNLTVAENVVLGSEPKKGISFDLKKARREVQELSKRYGLKVDVDALIEDLPVGTQQRVEIIKTIYRGAEILILDEPTAVLTPQEIEELFEIMRKLRDDGKTIIFISHKLHEVMTICDNITVMRLGKVTGHVKVSETNEKELANMMVGREVILRVDKEEKVPGEKVVEIKNLWVKDNRQLDAVRGMNFEIRKGEVLGIAGVAGNGQTELVEALTGLRKKESGEYLYKGKDISHYTVKELRESNITHIPEDRFKYAMVKEYPNYYNMILGRHYKMPFARRGFLNNDIIQEYSQDLIKKFDVRPADASIKTGNLSGGNQQKVVIAREVSANPDFIVIAQPTRGLDVGAIEYVHKEILELRRKNVAVLLISMELEEVLSLSDRVLVMYEGGVTGEFKPGELTIEEVGLLMAGKKLSELRTIAETEAHAPHHGGDK;locus_tag=LOCUS_11410;note=WP_010865052.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:62.6%25%2C q_cov:95.7%25%2C s_cov:99.8%25%2C Eval:7.7e-189],MGA_1149
sequence1	MetaGeneAnnotator	CDS	1244179	1245249	.	+	0	ID=MGA_1150;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082660.1;translation=MAQKIKESKWMPILVPIVSVLVALLIASVIILIIGKNPLLAYLKLFEGAFVGRAAWADNITKMTSLLLTGLAVGFGFRAGVFNIGAEGQMAVGGMMAVMVGINMGNVSPVFAIPITIFAGMLGGAFWASIAGYLKAKTGAHEVITTIMLNWIAYHIGNYLVSGPLAVGQGVPKSPEIAKSAQLPPLMTIQASNVPSGILIAVVAAIVMYIILEKTTTGYEIKAVGYNAYSAEYGGISISKNIVLTMAISGALAGLAGAIEVMGVHHRIFGAFTSGRGFDGITIALIGQNNPIGIIFSSFLISSLRSGSNSMQLAGIPDDIVVIIQGVIIFFVAADRIVKTWITKASTKLAKEGEAK;locus_tag=LOCUS_11420;note=WP_004082660.1 ABC transporter permease (Thermotoga) [pid:60.0%25%2C q_cov:88.5%25%2C s_cov:91.6%25%2C Eval:1.2e-107],MGA_1150
sequence1	MetaGeneAnnotator	CDS	1245246	1246199	.	+	0	ID=MGA_1151;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082669.1;translation=MSWIEAIFATLASPLFYRLTILSALPLVFAAIGGVFSEKTGVTNIALEGIMKIGAFTSIVFAIKFDNPWLGLIMGMLAGVILAALHAYVSIEWSADQIVSATALILIAQGLVGFLMIPIFGHKGQTNLVAHKLPTVELPIIKDIPFIGAIFNDLSIFFYFAIIIIFASWYLIYKTPLGLRMRAVGENPKAADTLGVNVKKIRYFGVLMSGLLAGLGGVYIALGDIGQFIEDMPSGKGFIALAAMILGNWNPIGAMWASLLFGAAEAMNIQLQSMLTLPSEMKALLNLLPFVITIIIVGGFVGKTRAPAADGQPYEKE;locus_tag=LOCUS_11430;note=WP_004082669.1 ABC transporter permease (Thermotoga maritima) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.4e-98],MGA_1151
sequence1	MetaGeneAnnotator	CDS	1246296	1247252	.	+	0	ID=MGA_1152;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083050.1;translation=MEYRKLGKSGLKISELSLGSWITFGNQLDTENVKKCMKEAFNSGVNFFDNAEAYANGLSESLMGIALKEYRRTDLIVSTKIFWGGNGPNDRGLSRKHLLEGTWNSLKRLQLDYVDLIFCHRPDPDTPIEETVLAMDYIVRNGLAMYWGTSEWSYEELDKAFKVAKELNCIPPTMEQPQYNMFVREKVEHEFNLLYEKYGLGLTTWSPLASGILTGKYNESIPEDSRLHKFSGLKNNLKNNGLLSEKNIEKVKKLTKIAKDLDMKVSQLSLAWLLKNKNVSTVITGASRVEQVRENLKASELKNKLNDSIMEEINAIIY;locus_tag=LOCUS_11440;note=WP_004083050.1 aldo/keto reductase (Thermotoga) [pid:64.4%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:2.4e-122],MGA_1152
sequence1	MetaGeneAnnotator	CDS	1247337	1248023	.	+	0	ID=MGA_1153;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080647.1;translation=MKNSSVKDETIFDLKYFKKYGSIIGLDEAGRGPLAGPVFAAAVYVENENELKALKRIGADSKTLSEKEREKRYNEIIKNFKYSYYAASSELIDEMNIFKATQYAMKKCVEQLNSGYCLIDGKNFHFSFPFECIVKGDSKLSLIGAASIIAKVLRDKYMIKLSEKYPEYLFYKHKGYPTKEHVEKIKKYGIFNEYRLTFNPVKSMIINNEIQYNKNDFSKNTLMKLGVL;locus_tag=LOCUS_11450;EC_number=3.1.26.4;note=WP_004080647.1 ribonuclease HII (Thermotoga) [pid:43.6%25%2C q_cov:93.4%25%2C s_cov:88.7%25%2C Eval:1.0e-40],MGA_1153
sequence1	MetaGeneAnnotator	CDS	1248033	1248761	.	+	0	ID=MGA_1154;product=nucleoside triphosphate pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080649.1;translation=MNKEKAAKKFVELLEIMEILRSEEGCPWDRKQTHDTLKPYIIEEAYEVVESVNSKDYKELAEELGDVLLQIVFHAQVASENNNFEITDILDAINDKMIRRHPHVFGDAKEYSYEQWENLKSKEKNKEKFSKIGNYKKGIPPLLQLRRLFENSLAVGFDPFFEEDIFEKIIEDAERDNIKGVFEKIVYLSVKNNEDIDSILSNISKKYYNKFQIFENILGNKFNDIDKKEKKKIWDNLKEGEV;locus_tag=LOCUS_11460;gene=mazG;EC_number=3.6.1.9;note=WP_004080649.1 nucleoside triphosphate pyrophosphohydrolase (Thermotoga) [pid:41.3%25%2C q_cov:98.3%25%2C s_cov:98.8%25%2C Eval:4.7e-50],MGA_1154
sequence1	MetaGeneAnnotator	CDS	1248761	1249756	.	+	0	ID=MGA_1155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFLSLMVIITIVSFSTVKYMDFKDNTVVKVNNDKVNSELLNATSKSILILQDLKSKYGEFYNTLTGTATGIKFLNTYNKEQAMKLVNQYLFIQFVESKGINLNRDDLKKIYVQKVNDIFSKSNISPKDINLYLLSKGYSSKEVYVEDNYLKALYKKAINELYLKKYDEIPLKEDEIKSYYNKNSKAYVSKPKADLKVIKINNTDEASLTYKKIIDGYYTFDEVYNMFKDKNEAEKITVNLNDNDKVLAQVIKNASGYIFEPMKYGDHYEIIKIEKKYPSKNLSYEEAKNYVERDLKDPIVKKYFSEELQKEFDKFKKNSEIIFNEKMF;locus_tag=LOCUS_11470;note=MGA_1155
sequence1	MetaGeneAnnotator	CDS	1249768	1250070	.	+	0	ID=MGA_1156;product=metal-sulfur cluster assembly factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081479.1;translation=MITKEQVMSALEHVYDIEIGYDVVSLGLIYKVNIAENNDIYVEMTLTTPMCPMAGFMVQEAKDKLKEEIKEANNVFVELTFDPPWSPDMAKDEVRQVLGI;locus_tag=LOCUS_11480;note=WP_004081479.1 metal-sulfur cluster assembly factor (Thermotoga) [pid:50.5%25%2C q_cov:99.0%25%2C s_cov:96.1%25%2C Eval:5.6e-25],MGA_1156
sequence1	MetaGeneAnnotator	CDS	1250067	1250858	.	+	0	ID=MGA_1157;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081478.1;translation=MKLKDLINKTGDYDVSRFQLLKIISKIENKDMSYYLLNDDIKEGTIKKLLRVLNGYPLEYLINEVKFLNNKFYVDERVLIPRIETEDLVLYAKKTIEEENIKSIVDIGTGSGVIAISLKKYFPNMNVYAIDISEKALDVAKLNAKKLNVDINFYCGEYIEPIKDKISEIEMIVSNPPYVEESFKNNRLKYEPSIALYAGIDGQNFFKNLLKYEQLKGKIMLFETTEFNYKKTEEILKFFGNTKILKDSFDKKRFIEINNNNFI;locus_tag=LOCUS_11490;gene=prmC;EC_number=2.1.1.297;note=WP_004081478.1 peptide chain release factor N(5)-glutamine methyltransferase (Thermotoga maritima) [pid:37.1%25%2C q_cov:95.4%25%2C s_cov:90.4%25%2C Eval:2.1e-38],MGA_1157
sequence1	MetaGeneAnnotator	CDS	1251106	1251915	.	+	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLKLVSKKFKEKNIINLKNLKIGKDLIIIAGPCSVESEKQILQTALEVKKAGANILRGGAFKPRTSPYSFQGLGIKGLKLLKKAGKMFDMPIITELIDIRDINLIGEYSDIIQIGARNMQNFPLLKEVGKTNKPIMLKRGMNSTLEEFLCAAEYIMKEGNNKVFLCERGIRTFETYTRNTLDLSIIPSIKKESNLPIFVDPSHGTGLLSHIEPMSLAAIAAGADGLMIEVHINPEKALSDGFQAYPANEFKTLVDKIKRLYLTLNKK;locus_tag=LOCUS_11500;note=WP_012583420.1 3-deoxy-7-phosphoheptulonate synthase (Dictyoglomus turgidum) [pid:57.8%25%2C q_cov:90.7%25%2C s_cov:71.6%25%2C Eval:1.5e-79%2C partial hit],MGA_1158
sequence1	MetaGeneAnnotator	CDS	1251927	1252925	.	+	0	ID=MGA_1159;product=3-dehydroquinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583419.1;translation=MKTINIIKNSKIYVGESLENVHNYIKNKNIVVITDENIKKYYELPFEKIITLKPGEKTKKLKTIEEIAKKLIEYEVDRSSFLLGIGGGVVSDITGFVGSIYMRGLKYGFVSTTLLSQVDASIGGKNGVNFYKYKNILGTINQPEFVLSDLKMLKTLSDKEYRNGLSEVIKYGLILDKELLNFIEKNIEKLLMRDEKTLEYIVHTCSFLKSKIVNEDEKENGIRKILNFGHTFGHAIERIKNIKHGEAISVGMMRALQLSKKLNFISDNDIKRIEKLLKIFKLPTEINISTKELMILIKKDKKRSNDYIDFILLKKIGEYKIQKLKFKELEEL;locus_tag=LOCUS_11510;gene=aroB;EC_number=4.2.3.4;note=WP_012583419.1 3-dehydroquinate synthase (Dictyoglomus turgidum) [pid:40.1%25%2C q_cov:94.6%25%2C s_cov:91.3%25%2C Eval:2.1e-63],MGA_1159
sequence1	MetaGeneAnnotator	CDS	1252922	1254166	.	+	0	ID=MGA_1160;product=3-phosphoshikimate 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861345.1;translation=MIKILRSKINGSITVPSSKSIMQRAIAISLLSNRKIILKNISFCEDSNNSINVIKKFGKKIIIDENNIVIDGKIEGIPNEINCGESGLCVRMFTPIISLFSKKIKVNGKGSILKRPVGFFESTLKELGVGFKCNNNFLPLEVKGPIKFNKCLVDGSISSQFLTGLLIALPNKKNDTIVEVKNLKSKGYIDMTLKIMKDFGVNILNENYKKFFINGNQKYKRDFYTIEGDWSSAAYFLVAGAISESIEVHGLNINSKQPDKNIINILKEVGANVEVGNEVVKVKKNELRAFTYDSSDSPDLFPVLVVLAAFCEGKSIIYGVNRLLYKESNRAKVIFEEFSKIGIKINIDGNKMEVFKSEIKNGFINTHNDHRIAMAAAIAGINSNTNIILDNKECVNKSYKMFWDDYKKVGGKIE;locus_tag=LOCUS_11520;gene=aroA;EC_number=2.5.1.19;note=WP_011861345.1 3-phosphoshikimate 1-carboxyvinyltransferase (Clostridioides difficile) [pid:36.9%25%2C q_cov:99.8%25%2C s_cov:97.9%25%2C Eval:4.2e-67],MGA_1160
sequence1	MetaGeneAnnotator	CDS	1254159	1255139	.	+	0	ID=MGA_1161;product=chorismate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964214.1;translation=MNSFGTIFKVSIFGESHGVGVGVIIDGCPPGISLSKEDFIEDLRKRKSGTLGTTKRIEDDEPEFLSGIFKGKTTGAPITIFFKNKNIKSKDYDEFKNIPRPGHADFVAMKKYNNFNDYRGSGHFSGRLTLGLVAAGVIAKKIIKPICINAILIEVNGNKNIDEEIRRAIKLNDSVGGIVEVIGKNMMNGLGEPFFESVESKISSIIFSIPGIKGIEFGCGFNCTKMYGSQVNDAILNENGKTKTNNSGGINGGITNGNDLIFRVAVKPTSSISKIQETFNLKTKQMDNLQIKGRHDTCFALRVPVVLEAVTAIAITDFVLIKKGEE;locus_tag=LOCUS_11530;gene=aroC;EC_number=4.2.3.5;note=WP_010964214.1 chorismate synthase (Clostridium) [pid:42.9%25%2C q_cov:96.9%25%2C s_cov:98.9%25%2C Eval:5.0e-70],MGA_1161
sequence1	MetaGeneAnnotator	CDS	1255286	1256692	.	+	0	ID=MGA_1162;product=anthranilate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546555.1;translation=MVSIEKINFETINTDLILQNLKFIGVFEKDNYSIFVLEKAFELIKKKEKYFLKKEGKRKFIKTNKNYLEVLNEFRKFIPENEFKNYKNIPFGGIGYLGYEYFNEVEDIKFNKKYHDNLYDCNFIFGRTFLILDYLKKEILILSMKYLNETKSIDTKSNVKKVKKEVENILNKKNYSKKGNLTPYFYKIIQNESKNEFLSKINYIKKEIENGNLIQCVLSRNIKIKTNIPFLNLYKRLRKNNPSPYMFYFNFDDITLFGTSPESMVSVKDEIILVNPIAGTRKRGCTKFEDNLLIEDLLNDKKEQAEHLMLVDLARNDLGKVSQKNTVNVKEYMNIEKFESVIHIVSKVNGLLEKNKTSYDVIKATFPAGTVTGAPKLQSIKTIELLEKDRRGPYAGLIGFFDFYGNFDSCITIRSAVCKEDTIRLQAGAGIVYDSIPEKEYLETENKIKSLLKVIKEEVKKQDDTFIG;locus_tag=LOCUS_11540;gene=trpE;EC_number=4.1.3.27;note=WP_012546555.1 anthranilate synthase component I (Thermodesulfovibrio) [pid:37.8%25%2C q_cov:96.4%25%2C s_cov:95.6%25%2C Eval:1.4e-77],MGA_1162
sequence1	MetaGeneAnnotator	CDS	1256673	1258250	.	+	0	ID=MGA_1163;product=bifunctional anthranilate synthase component II/anthranilate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011943371.1;translation=MILLLDNYDSFTYNLYQLLINFDNDVRTFRSDKISIKEIKKLNPDYIVLSPGPGIPKDAGIFIDTVKTFIKNTPILGVCLGHQAILSAFNVPIVKAKNIFHGKIDTIRHNGKSVFNGIKNNIKVTRYHSLVAKESDIPNEFEVLAKSRDGEVMAIKHKKYKCVGVQFHPESVGTEGGINMLKNFFEEDINTNALIEKAMKKVLSFQESYKLMKNISIFNTAQIASILTIFNMRKVSYKELAGFAKVLKDNAEYFPKPNLNEKRLDVCGTGGSKMKTFNVSTISSIVLSALGVNIVKHGNRAVTSQSGSMDLLEKLGFNLDIDNEEAYDFYKKNNFTYLYAPKYHKIMKYVSETRKSLKFKTIFNLIGPLSNPAHATYQLIGVYDKKYLKQMCKALKYLGIKRAMVVSSKNGLDEISIFEPTYICELKDGKFYEYIFDFSNIDNYVKYEDIKYEDNQNNEKIALEILNGNDIKRAKIVCINAGAALYLYGKANSIKEGYYMALESIKNKKALKKLEKLVKVSDINV;locus_tag=LOCUS_11550;EC_number=2.4.2.18%3B 4.1.3.27;note=WP_011943371.1 bifunctional anthranilate synthase component II/anthranilate phosphoribosyltransferase (Thermotoga petrophila) [pid:38.8%25%2C q_cov:98.5%25%2C s_cov:97.8%25%2C Eval:2.7e-101],MGA_1163
sequence1	MetaGeneAnnotator	CDS	1258243	1259634	.	+	0	ID=MGA_1164;product=bifunctional indole-3-glycerol-phosphate synthase TrpC/phosphoribosylanthranilate isomerase TrpF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003022811.1;translation=MYDILKEIIDKRQIENVYPQKRTVPVLKPKNNLVIMEIKKSSPSKGKIKNFNILEQTNLYIENGVNCISVLTEKNFFGGSLNDLIKIKNKYPNILVLRKDFLTSKKDIEISYNVGADIILLITSLFIKEKNGLKKMKELKDYAEKLGMTCLIEIHSKKELNFALKLEPKLLGINSRDLNTFKIKKELPFELKKYIKKIKVIYESGINNYLDSFSIGVFGFNGILCGTSVIENKKRIPEIIKGFNDGKNNQNKFYKYMFNKIYLKKELVVKVCGLTNLKDTEFVIKKGANIVGFIMAKSLRQVNYEFLKNTALKIKNNMRALVITKEYLDQAIKAYNENLIDVVQVHGEFNENKLKKIKIPYYKAVNLKDKLQIKKSIFTLYDAFSENTYGGTGKTLSNELIKAIKEKESFLAIAGGINEKNIQKILKYTPNMIDLSSGLEKVPGKKDKEKVEKFFYEVKKWKK;locus_tag=LOCUS_11560;gene=trpCF;EC_number=4.1.1.48%3B 5.3.1.24;note=WP_003022811.1 bifunctional indole-3-glycerol-phosphate synthase TrpC/phosphoribosylanthranilate isomerase TrpF (Francisella tularensis) [pid:29.3%25%2C q_cov:89.2%25%2C s_cov:85.9%25%2C Eval:1.5e-31],MGA_1164
sequence1	MetaGeneAnnotator	CDS	1259622	1260845	.	+	0	ID=MGA_1165;product=tryptophan synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001105001.1;translation=MEKIEYYGVYGGTYIPEVLKSSIDELKENFYRYAEDKKFNEEYKNLLKTFVGRPTPLYYAENLTKKIGGAKIFFKLEGLANTGAHKINNSLGQALLAKKIGKKRIIAETGAGQHGVATAAVCAKLNLECEIFMGEVDIKRQRPNVFIMEQFGAKIHSVTNGTKTLKDAVNEALRYWTKRSFDTHYLIGSALGPAPYPQMVKFFQSIIGKEVKEQLRSENINKPDYMIACVGGGSNAIGFFSEYINDESVKLIGVEAGGKGIESNEHASKISGNGTVGIVQGYKSKFLQNNDGQILSTHSISAGLDYAGIGPELVYLNEIKRINFVNEKDDEVIKTFNFVTKNEGIVPALESTHAISYALKLASNLNKNKNIIVNISGIGNKDIFITAKLLDKTNWINFLKREVEENG;locus_tag=LOCUS_11570;gene=trpB;EC_number=4.2.1.20;note=WP_001105001.1 tryptophan synthase subunit beta (Bacillus) [pid:53.7%25%2C q_cov:92.9%25%2C s_cov:95.0%25%2C Eval:2.3e-118],MGA_1165
sequence1	MetaGeneAnnotator	CDS	1260838	1261590	.	+	0	ID=MGA_1166;product=tryptophan synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962671.1;translation=MDKKFLMTHLVCGYPNLKKTKDIIEAMNDGGAKYIEVQIPFSDPIADGPLIEDASKDAINNQITVKKCLDFISSLDEKLRKKIIIVTYANIIFKYGIENFVSKLSKLKLYGILIPDLLPEYDEGLSNFCNKYKIHNILIISKNTNLNRIKYLNKKGNGFFYVTARNGITGEKTIFNLETLNWLKKIKDIIIKPIALGFGINSKDQILKIKEFTDIVVVGSHFIKIINENKNCKKIYEVIRKETEKLVNFL;locus_tag=LOCUS_11580;gene=trpA;EC_number=4.2.1.20;note=WP_011962671.1 tryptophan synthase subunit alpha (Flavobacterium psychrophilum) [pid:33.0%25%2C q_cov:91.2%25%2C s_cov:90.9%25%2C Eval:2.0e-35],MGA_1166
sequence1	MetaGeneAnnotator	CDS	1261616	1262518	.	-	0	ID=MGA_1167;product=3-hydroxyacyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_027479748.1;translation=MEINNVMVAGAGVLGAQIAWQVAFNGFNVVVYDAFEKGLEGGKEFHKKFAKLFEEKKGATKEQIDSTLSRLSYTTNLEEAVKNADLVSESIPEVSEIKKTFYSNLSKVAPEKTIFTTNSSTMLPSMFANETKRPEKFLALHFANPVWDANIGEVMMHDKTDKKYFDIVLNFAKDIGMIPIPIYKEQPGYVLNSLLVPLLKAARTLIFKGISDPQSVDKTWMISTGAKIGPFGIIDMVGMDTVYNIALRNGTIGNDTESLKMAEYCKKNYIDKGKKGIKTGEGFYKYPNPAYQDPNFLINN;locus_tag=LOCUS_11590;EC_number=1.1.1.35;note=WP_027479748.1 3-hydroxyacyl-CoA dehydrogenase (Deinococcus radiodurans) [pid:52.2%25%2C q_cov:99.0%25%2C s_cov:99.7%25%2C Eval:1.8e-84],MGA_1167
sequence1	MetaGeneAnnotator	CDS	1262921	1265485	.	+	0	ID=MGA_1168;product=glycosyltransferase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941039.1;translation=MNFLSKVTAIPKLPERIKGLKVLSKNMWWTWNYDSQKLFEIIDLDLWISTNRNPVVFLKNVSQKKLDSVLNDEEFLNLYDYVMKTFENYMNTDDTWFNKTHKNYKGGEIAYFCAEYGIHESLPIYSGGLGILAGDHVKSASDIGIPYIGVGFLYRQGYFQQKINNEGWQESIYESYDFADLAVDPAKDKNGEEVYVDIDIAGKKVFVKVWELKVGRVKVYLLDTDIPQNDPDERWLTSRLYGGDQEMRIRQEMLLGIAGVRALRKLDINPSVWHMNEGHAAFLNLERMRELIQSNNLTFKEAIEVVRAGSIFTTHTPVPAGNDAFPLYLMDKYFGNYWPTLKATRPEFMQLGLEARPDGSEMFSMTILALSLAGRANGVSKLHGEVSRNLWKHVWNGIEAVEVPITHVTNGVHSETWIADDLQKLFKEEFGENWNNEIDDPDMWAKIEKISDKELWEKHQKLKLKLINHLHERLKTQRSRHGETVEELESIEDILDPKALTIGFARRFATYKRAILIFRDLQRLEKILNNPERPVQIIFAGKAHPADKPGQEFIKRIYEISRMEQFKNRIVIVENYDMNLARHLVSGVDIWLNNPRRPHEASGTSGEKAGMNGAMNFSVLDGWWVEGYNKKNGWAIGDNRDYTDLELQDNIDSVSMYNTLEKEIVPMYYDNRKEDIPVNWIKVMKESIRSVASFFNTSRMVKEYTQKLYMPAQVQNNKFVKDNFEVAKDFANWRDILERNWNSIKIKVTSNQDFSETLEVGKIIEIESEIYLPGIGPDSIEPEIVVAKLEDDKVISLKTYDLKMIKEIQQDTYLYRGSFEIEDRGQYGYNVRVSASHPYMPHRNYLMNLVKYPM;locus_tag=LOCUS_11600;note=WP_010941039.1 glycosyltransferase family 1 protein (Geobacter sulfurreducens) [pid:45.5%25%2C q_cov:97.8%25%2C s_cov:97.7%25%2C Eval:1.2e-229],MGA_1168
sequence1	MetaGeneAnnotator	CDS	1265550	1267640	.	-	0	ID=MGA_1169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEINSQVKINIPIKKNSNNVYSKKLQGKVVYSDNKLNIVNAGGKLYILDSNGKKLPEGSIVNLLFNTSNDLKELKNAIFTKALGNLTNNTLHIEIFKNLSFNIDISNIPNIQKSKLLMWISEFSESLKENFSKNNLENTNIEKLLENITPEKQKQVKGFIRSIIDEFSKSFLKSKLVHPSPNFIAKKVEQIIKNFISPKKEINKNSLNNNSLNTELLKKDTSKENNNTSLNKKNILENDNNEGIIKNKKLNKNLEKNILKNDDNSKQQINKKNTFEFTESKKQKIETFNEGKKILKEEINKTGKNIFKNNNIISNKDTKETKTNEYQKQNNIVLEKNKNNQNIFKKNIQQINNQNTNNQSIKTVNKSIINEKNILKNKNQLNEKIQDNKFLNINKKSNEEISKISIKENNIKKLKRLIRLPSFKKYKSIINKKNINLKKIIPHKNTTLVKNSKKYIIQKNVKFKKIINKQSSKNQSSKKKYIKQKLIQKNKIKIKNQKITTLKDKNFKLNLEQHLKKQNIVKTNTLKQKIFKNDSINERLNFEQVKKKDEEQVQTLFKKNILTLNKTMEKAVSAYKTMENSKNINDTSYMMFNMLGVPVFMSFKKGNEIHNNKENSSNYGKLRLVLPTETFGITDINMYISEKDVILKIGLDKNEEIFKSDLDKLSTNIEKLGYKLNSLNIYKNEKDITVKENIF;locus_tag=LOCUS_11610;note=MGA_1169
sequence1	MetaGeneAnnotator	CDS	1267673	1268167	.	-	0	ID=MGA_1170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIYEILKELNINYKKYDYDKNAKTCEEITNLLPKDMPGVRTKNLLLKIKKKDEYIMVMVDENKKVDLKKLSKKLQVKNLSFASEAQLKELFDIELGSLSYIAFLNYKKDNFKVIIDKEMWESNEEFDSHPNKLGTVLLLKKEDIIKIFKHAKVFPEYMEFEGK;locus_tag=LOCUS_11620;note=MGA_1170
sequence1	MetaGeneAnnotator	CDS	1268184	1271603	.	-	0	ID=MGA_1171;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680859.1;translation=MGKRIIFGKTWWGKKWVEAIKKIDMNTNRLPRGKTYANKKLVLEIKINKEFDIIAKVQGTRPKPYNEKISLKNFLTKEKNKIKELLNSRPDLSSQLIIGVMPEELLSILENEHIYLFPKSWKEIDSHCSCPDWANPCKHLAAVYYIIANEIDKDPFLIFEMHGLKKDELISFAKTNSNIQDKIFIPINTNEKIKEFKEPIVDFSSQIDNIIKMLPNETLFFNGNFNELLFNTVYETTINYIKNLKIKENKSTYFKDTSFKVIYSELNPIIKIKNNPFNKKSKLSFQDLYNNFESIPLTINNFDNEYSVFFKKILSFTYNLVLNKLFIPKPVSISNNEFYIKYNPLTYGLKEYIKYLISILPNNFIVTENESLTMKKDSSIEYIISLILKEIIKKACKDLTFDKLLNTFITDDIYNAEKFEEKQTFNALKNYFEPFYLKNIRYSLLIKIYPFIKDHYVMELYVQDKKDPLKEGIPLNKFLSLKKYEKFKIDIVKQIGFISSKSYDGAKILKNESVQITPKELSDFFTNTLPVLELFNVDIILPKEMKKILTPSAILQVKTDKNIKSYINLNELIKFEWKIALGDTTISYDEFLKLTKKSKGIIKFKDMYIKIEPEKLLKILKKIDEDININSQYELMSALLTEELNGIKLFFDDEVKKILENLKKPKNIRQPSSLNATLRTYQKKGYRWLYTNSENGFGCCLADDMGLGKTIQTISLLLKQKELKKLKSPALIICPTSLIGNWENELTKFAPLLKYHIYYGGARELKENVDVLITSYGLIRRDVENFKKINWSYIVIDEAQNIKNPNTKQTKSVKSLNGNKKIALTGTPIENKLLELWSIFDFLMPGYLGKNETFKNNVAKPIEKFNDISKMENLKKIITPFILRRLKTDKSIIKDLPEKIIFDQYVYLKPQQIALYKETLNLVDEILKSSGIEKKGMILKLITSLKQICNHPSQYLKSSEAESNDSGKTEKLISILNNILESNEKVLIFTQYKEMGIILEKLIKKELKTNSLFFYGSLSRKQRDQMVEDFQTKHQFPIMIISLKAGGTGLNLTNASHVIHYDLWWNPAVENQATDRAYRIGQKKNVIVHRMITKNTFEEKINEILKSKNELSKNILNFSEKWITEFSDKELKEIFKLKL;locus_tag=LOCUS_11630;note=WP_002680859.1 DEAD/DEAH box helicase (Treponema denticola) [pid:33.5%25%2C q_cov:99.5%25%2C s_cov:97.9%25%2C Eval:4.7e-176],MGA_1171
sequence1	MetaGeneAnnotator	CDS	1271634	1272329	.	-	0	ID=MGA_1172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFSHITIKVNDLSKSIEFYSKFGFNVLFKMDDQALIQNENVNILLRMFGENEISFYDENYVEKEVYNDPSGTKIEFSNKRIQKYNYPPTIAAKLIKADLKKVWDTFVNPNGWDEWFTNGMTMVLKEEGKMKIRWFDQTYGEEVLDEGIIHTLIEHNKIVFSWNKYGDIYKSMVTMRFFEAQIGGTWIYVEDENLVTNEEEFKIKLDCAVGWGEMLTLAKFWIEKGISIFK;locus_tag=LOCUS_11640;note=MGA_1172
sequence1	MetaGeneAnnotator	CDS	1272335	1273099	.	-	0	ID=MGA_1173;product=4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081581.1;translation=MILHAHSKVNLYLDVTKKRDDGFHDILTLFQTTPYYDEIDIEFNEYEIFSCNKKLNFSWKQNLIKKSIDLFKNETGYKFNLKIKLNKSLPMGGGIGGGSSDSAAILKFLGNEFNVSLNDLFIIGEKIGSDVPFLIKGGTAIAEGKGEKLTFLDELNLKIKIYPQNVSISTPEMYKEIDKSWNTLNRCGNPYKLYEALKQNNYYEIKNNMFNIFEQVVFKKYAKIKEKKSELIERNKNELIMMSGSGSTIFEIVR;locus_tag=LOCUS_11650;gene=ispE;EC_number=2.7.1.148;note=WP_004081581.1 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase (Thermotoga maritima) [pid:34.4%25%2C q_cov:98.4%25%2C s_cov:90.8%25%2C Eval:7.1e-36],MGA_1173
sequence1	MetaGeneAnnotator	CDS	1273099	1273695	.	-	0	ID=MGA_1174;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081580.1;translation=MEEMVWAVSAELLNKTVPNLQGFRKMLFKALEPLFNNAKFFKRSEAEYNEDFKQIIPYVVFTKEDKILVVKRTKKQTEKRLHEKLSIGIGGHINPIDDANHGEMTLLNGLNREINEELEINDLKKLEYQGLLYNDSNEVSRVHLGVVFKATVKDAKIKEKENFELSWMTVKELETHKEKLEEWSIITFDALKKYGELK;locus_tag=LOCUS_11660;note=WP_004081580.1 NUDIX domain-containing protein (Thermotoga maritima) [pid:39.8%25%2C q_cov:93.4%25%2C s_cov:92.5%25%2C Eval:5.3e-29],MGA_1174
sequence1	MetaGeneAnnotator	CDS	1273695	1274225	.	-	0	ID=MGA_1175;product=ATP-dependent protease subunit HslV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081403.1;translation=MELRGTTIIGVKRNGKTVIAGDGQVTLGNTVFKGTARKVRRLGNNKVVAGFAGSVADALSLFERFEIKYRAANGNLLKAAVELTKDWRMDKALRKLEAMLIVADNEHLLIISGTGEVIEPEENILAIGSGGPYAMAAAKALMRNTELDAEEIAKRSISIAGEICIYTNQNITVEVV;locus_tag=LOCUS_11670;gene=hslV;EC_number=3.4.25.2;note=WP_004081403.1 ATP-dependent protease subunit HslV (Thermotoga) [pid:67.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-64],MGA_1175
sequence1	MetaGeneAnnotator	CDS	1274227	1275111	.	-	0	ID=MGA_1176;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865083.1;translation=MKIAVLAGGTSNEKEISLLSAKNVLETLKELNYESELIDPTDKDFNKKIKEFDLIFNVLHGETGEDGKIQGYFELNKVPYTCSEQKTCVVCFDKFLFYELFKNKFKMPKTILTKNYIDPPFKFPIFIKPNTGGSSKGVYIVHNEVEYKEKLEKNIKIYTEVLIQEAIKGTEISISFLEKDNEFVVLPILEILPKNEFYDYEAKYKDGMTNFSIYESNKEINKKINNIKEEIFKILKLKDIFRIDAIILNDEVYVLELNTVPGLTKISDLPQSAKANNIEFNELIKIIIENHRRD;locus_tag=LOCUS_11680;EC_number=6.3.2.4;note=WP_010865083.1 D-alanine--D-alanine ligase (Thermotoga) [pid:38.0%25%2C q_cov:98.6%25%2C s_cov:97.0%25%2C Eval:3.6e-53],MGA_1176
sequence1	MetaGeneAnnotator	CDS	1275108	1277354	.	-	0	ID=MGA_1177;product=type I DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082962.1;translation=MPSKNSKYVVIVESPAKAKTIERYLGKDYEVIASKGHVRDLPPKKFGIDLKNNFEPEFEIMSGKDKVISSIKKTVKGKKVFLAADMDREGEAIAWHLSEILKLKKNEENRIIFTEITKNAINKAIKEPLKIDLKKVDAQLARRMLDRIVGYKISPLLWKIFKSGNTSAGRVQSATLKILIDKERKIFKFKPKTYFKISIQHNELKIPLVKENGKKLNAEKIDLEKKNEILEYLKDKEYFVKSVKNREAKRNPPMPFITSTLQQSAINMLGWSSKKTMKVAQGLYEGIETKEGHIAFITYMRTDSTRISDVAMKAANEHITKNYGKEFSGTYKSKKSKSKVQDAHEAIRPTNIEMTPQTAKSYLSGDNLRLYTLIWNRFMASQSTASKYDETTYNIFDNGERFEFQVSAKKRKFKGFEIFWKSSETEKKINLNKSGKVEPAKLNAEEAQTKPPARFSEASLVKELESNGIGRPSTYATIISTLITRNYIKRLEKNILIPTLTGFVVNDFLEKTFPDIIDSKFTASMENELDMVEHGEETSKQLLGEFYKDFGPTLKEISKKIKNAELNLNYKSTIKCEECNEEMNLMFGRYGMYLKCEKCEKTKKLPPYILGVTIKDKVYITEEIPTLASPEAQKTGEKCPKCGADLVLKSGRFGQFIACSNYPECKFTKSVPARGKCPECGGEVAKLKSKKGKLYYKCTECGAMFWNEPSNFKCKSCGKPLFYVYKNKKEMLFCPEEKQYFDIEEYKE;locus_tag=LOCUS_11690;gene=topA;EC_number=5.6.2.1;note=WP_004082962.1 type I DNA topoisomerase (Thermotoga) [pid:45.3%25%2C q_cov:85.0%25%2C s_cov:97.6%25%2C Eval:3.0e-152],MGA_1177
sequence1	MetaGeneAnnotator	CDS	1277356	1278390	.	-	0	ID=MGA_1178;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941783.1;translation=MSDGVNLGDLFERNNLINETLYVKDLKPNENITIEVKLISKRLQEARDGKKFLLMTLGDKTGVVRAVDRFHAEEFDSTIKIGSIINVTGKVVMFDNRLQLNVSRNEDSVILIKEEDINSEKFLNSNKNNINELQKKLLSFINSINDKKIKKLLEDIFINDEKIKKDFFNSPAAMTVHHAYKGGLIAHTLKVTELALKISETYKNVNKDVLIAGALLHDIGKIYEYEVKPYGIEKTSEGELFGHINIGSNLVMNKSKKIAGLKKEYLDEIIHIILSHHGEIEYGSPILPKTIESLIVHFADNIDSKIQQSIESMNNTLMIDNDASWTDFNKRMGRKFKINKQEEL;locus_tag=LOCUS_11700;note=WP_010941783.1 HD domain-containing protein (Geobacter sulfurreducens) [pid:30.7%25%2C q_cov:86.0%25%2C s_cov:76.8%25%2C Eval:2.0e-40],MGA_1178
sequence1	MetaGeneAnnotator	CDS	1278383	1279504	.	-	0	ID=MGA_1179;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003396112.1;translation=MKDRETFVLINIDNYINNLKYIEKITNSKVIPVLKANAYGHGKEILAKELKKEGYDLIAVAYLSEALEILKETKIQTLIFNYFNPQDLKELIEFSDYILPTITSVDFLKEAVEILKEDITKFKFHINYNTGMFRVGLSKNELKELITIIKENNIQIDGFYSHYATADDMDEFVHFQHKKYLEVLDILKEENISIRLKHMSNSAASLLFPEYSLDAVRPGIASYGMQPSNKKIIKELKPVLSFKSVIAKLNELNIGDTVGYGRTFKADKKMIAGIVPVGYADGYFRNLSNKAEMLVNGIRCKIIGRVSMDQIIIDVTNAKAKIGDEVVLIGKQKNEEITSEELANLSNTINYEITSKITNRVKRVYFRGGKYFE;locus_tag=LOCUS_11710;gene=alr;EC_number=5.1.1.1;note=WP_003396112.1 alanine racemase (Clostridium botulinum) [pid:39.4%25%2C q_cov:98.4%25%2C s_cov:95.5%25%2C Eval:4.3e-68],MGA_1179
sequence1	MetaGeneAnnotator	CDS	1279494	1279892	.	-	0	ID=MGA_1180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKHFRYSKLSYLKVIFITIILYVCGSILYNFFPNVIIAILSLIITFLYFGIMIRKYRKSPIIIDTKNKKIFINTKAYNEEYNEYSIKEIESFSFKKKKFKIVVKSNIYEFHTKIENIEELLNLIQGDENEG;locus_tag=LOCUS_11720;note=MGA_1180
sequence1	MetaGeneAnnotator	CDS	1280064	1281452	.	+	0	ID=MGA_1181;product=TldD/PmbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081003.1;translation=MLSKETVEKILSTLLKHGGDFAEVFVEDKYDNRIEMKDNKIQKINSGIEKGIGIRGFLGTKSVYAYTNDFTEDNLLKVAKRVGQVLGEVTMNNIVLNFDKTEVQNIHPIHFYPQDIKKNEKVNIMKIASESAKNYSDLIKQVVVNFWDYDQKILVANSEGVFKQDRRIRNRLMINSIAEFNGARESGFYGPGAGMGFEFFNILNPREAGERASRIASRMVKADYIEAGKMPVIISNEFGGVIFHEAVGHALEASSVAKGASVFSGKLGEKVASECVSAVDDPTIPNAWGSANIDDEGTETKRNLLIEKGILKSYMIDKLGGRRMNMESTGSSRRMNYKFAPTSRMSNTFILAGDYYPEEIISNTNNGLYAKSLGGGSVNPSTGEFNFAVNEGYLVENGKITKPVRGATLIGKGYEVIKKIDMVGNDVARGQGMCGAASGSIPADVGQPTIRVSEIVVGGRNK;locus_tag=LOCUS_11730;note=WP_004081003.1 TldD/PmbA family protein (Thermotoga maritima) [pid:66.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-183],MGA_1181
sequence1	MetaGeneAnnotator	CDS	1281449	1282759	.	+	0	ID=MGA_1182;product=TldD/PmbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081001.1;translation=MTYKEFKEKAFAYSKKIGIEACQINYQNNKNFSLSLGNGELEKYQDASSYKITLKVLKDGKIGSAFSESLEDAEKIVDEAYENLKLIDSEEINYFYDGKGKYLEMNTYSGKFEEMEVNKKLEFVNNIHKEISNDEKIAMVPMVVYQEIGIENKLSNTYGLDLENKMDGAFSYAMAVAKDTSPRSGVDYIVASDPSKLTLDFAKNVKKFAIEKIGSKSVKSGKYDVVFLNSAFSDVLGMFNHMLSAENIQKGLSPLKGKLNSKIGSNKLNIKDLAYYDGSISNTPFDSEGVPTKDKVILEDGILKTYLYDLKTAKKDKVEPTGNSISGRITYMNLFVEPGINSYEELLKKVNNGIVITEVEGMHSGANPISGDFSLGAQGLLIENGKIIRGVEQITISGNFLDMLSKVSEIGNDMKIGQNIVNPSVIIKQMDIAGNI;locus_tag=LOCUS_11740;note=WP_004081001.1 TldD/PmbA family protein (Thermotoga maritima) [pid:49.9%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:1.4e-124],MGA_1182
sequence1	MetaGeneAnnotator	CDS	1283174	1286062	.	-	0	ID=MGA_1183;product=type III restriction-modification system endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000033406.1;translation=MAGFNFEKNLEHQSQAVKSTVGVFNNVEIVKPQGINKEFVNPVFDTNTNFQYIHNIGDLQEQNSIERKGKGKSNIIDIMMETGTGKTYTYTKTIFELNKLYGIFKFIIVVPTLPIKAGTIDFLNSDSAREHFKEQYGKTLKLHIVESKKSKKPSMPSAVTSFVNARSVEKNKIQVLIINAGMINASSKDKKTGKQVLTLGKSYDKSLLDKYSVPFEAISSVKPFMIIDEPHKFDQNNKTWQNIQKMNPQFIIRYGATFKENENLIYILTAVDSFNRNLVKGVIGHITEFEMGKNVIVKFVNSDGKEASFKKNNIKKHFKITKNESLEKVHNAMTDLFIEKLNKSTVVLSNGLELKKGDKINPYSYAETLQETMIQKAIKYHFEKEKEYLTREVKIKPLTLFFIDNIEEYRNKDGYIRKAVEKYIKAEVEKLLKTETNEEYKAYLKKTLKDISKTHGGYFSKDNSENDELIEKEVNEILHDKQAILDLENPRRFIFSKWTLREGWDNPNIFQICKLRSSGSEISKLQEVGRGLRLPINQYGNRVKDEQFYLNYFVDFTENDFVEKLVNEINEKSGAISREDIPKKLTDKIIKQIVEKYKIDEDDLLEKLDNENVIKRNNDFKKNGFEYIKANYPLIFEGVDSNKVRKSTDKKKKIKVRVEKYAELKELWEKLNEKVVLEYKIENENEFQKLFVDFLQNYTPFEVEGVKERTEKIDIENDQVILKEEVAIYGNDITPISTIQYSEFLKLLSDSLNINLKTLHKSFLETKTDINKYLNQTTLRLFKQKFNDYLMYKALSKFQIGYQKVASSIHPTKFTNKDGKIKTEVNASDIGVFHSDEKVADNYFFDEIFFDSELEEENIKENIKEVIVFTKIPKNSIKIPVAGGKSYSPDFAYVLNFKNGKKKLYFIVETKNTNEESLRNEEIQKIKHAEKFFGDMVQIKFKTQFSNKKMANLIQETFDKNF;locus_tag=LOCUS_11750;note=WP_000033406.1 type III restriction-modification system endonuclease (Escherichia coli) [pid:49.4%25%2C q_cov:99.2%25%2C s_cov:99.5%25%2C Eval:4.0e-253],MGA_1183
sequence1	MetaGeneAnnotator	CDS	1286064	1287617	.	-	0	ID=MGA_1184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPRLYIAKQLLKDDGVIFVSIDDNEVAQLRILMDEIFGEENFIALAPRKTGAGSAATRSKSELRKLNDYVFIYKKSEFTFKPKLIGVKKFPLKDSFGKYLLAQFQASGSDATRSARPNMFYPIYELEDGTLTTIKKGKIKKIILPNKVNGEDGRWLWNADKFEKDNKRFIHYDNGKIQRKIYFDSSKDNNIYQVEKAWFEQYRNADGTKRFNYLFKPFKALFSNPKPIELIIHLINLINDNNEKNMYILDFFAGSGTTGDAVMQLNAEDNGNRKYILVQLPEEIDKKKNKTAYDFVKNELKIENPTIFDITKERLIRAGEKIQEENKDRPASSKKVKCEGYNGNGEHCPACKGKYTIKIEATKKKDLSNVDFGFKIFETIPNYEGVWENYLFKAEEFDPQLKLFDETELSDEDLKTLLITWKTYDGIPLTKNLKEIDLDGYTGYYFDTKLYLVNKGFTTKSLKRLLEEIDKKKDFNPASIIAFGYNFESKSLREIADNVKSYANKKQIDIDFIARY;locus_tag=LOCUS_11760;note=WP_000367546.1 site-specific DNA-methyltransferase (Escherichia coli) [pid:32.0%25%2C q_cov:99.8%25%2C s_cov:73.2%25%2C Eval:3.8e-60%2C partial hit],frameshifted%2C insertion/deletion at around 1287685,MGA_1184
sequence1	MetaGeneAnnotator	CDS	1287665	1288144	.	-	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKQQITNNIKVPNQNVEKLKKDFPQCFDKNGNFDFEKFKKELSKSEINFSKESYGMDWLGKSYAKLLASDEATTLLKEDEEWNKKQENKNSENLLIKGDNLEVLKHLSNAYYEKIKMIYIDPPYNTGSDGFVYQDDRKFTVEELSKLAGINEKKQKEF;locus_tag=LOCUS_11770;note=WP_000367546.1 site-specific DNA-methyltransferase (Escherichia coli) [pid:58.9%25%2C q_cov:98.7%25%2C s_cov:23.5%25%2C Eval:1.1e-48%2C partial hit],frameshifted%2C insertion/deletion at around 1287685,MGA_1185
sequence1	MetaGeneAnnotator	CDS	1288182	1289972	.	-	0	ID=MGA_1186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSQKYAVNQPLIETLINWVKSGEIAIPEIQRPFVWSSKKVRDLMDSLYQGYPIGYIIAWKNPNVKLKDGSLSEGKKILIDGQQRVTSLTAAIIGQKVVNKDYKKIKIQIAFNPLEEKFETLTPAIAKDKKWIDDVSTVFNGNLFDIVGDYLENNPDADKLKIQTVFQDLINIPKKQIGLIELSGDLDIEKVTEIFIRINSQGVELSQADFVMSKISSNETYGGNLLRKAIDYFSHLSKAPEYYSHIAENDTEFSKTDYFQKISWLKNENGDLYNPTYKDILRVAFTFKFNRGKLSDLVSLLSGRNFETREFEEEITKQSYDSLISGVKEFINETNFKRFLMIIKSAGFVDNRLIRSVNALNFAYILYLKLKEQKYNSALIEKYVKKWFVLTILTRRYSGSPESEFDFDIKNISQKDFGEYLKEIEDAQLSDAFWNAELIQRLNTSISTSPVFNVFLASQCYFNDKGFLSKDITVKNLIEQRGDVHHIFPRDLLKKKDLTRGQYNQIANYVYTQSEINIKIGNKPIEKYLQEVKEQCNGGELKYGGITEFSLLEDNFKQNAVPISIFEITMDDYQEFLIERRKLMAEKMRKYYEKI;locus_tag=LOCUS_11780;note=WP_083531262.1 DUF262 domain-containing protein (Pararhizobium antarcticum) [pid:28.6%25%2C q_cov:96.3%25%2C s_cov:74.6%25%2C Eval:4.6e-60%2C partial hit],MGA_1186
sequence1	MetaGeneAnnotator	CDS	1290458	1292002	.	+	0	ID=MGA_1187;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_055295205.1;translation=MKKLPIGVQDYKKIKEGNYTYIDKTKYILELISSEAPIFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIKIDMSDNTLTTYEEFIKSLYDKINELYKEEELTPTTDDLPTMFGNLIMKLSKKHEERVTILIDEYESPILEHLNNKEEAEKVRRFLREFYKKIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLDKTYSQMLGYTQEELEENFKEHIKETAIEMKMEEKELLKNLKMYYNGFSFDGEDSVYNPFSILQFFKKRKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQSGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTVWKAIKEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEFEDIIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEVYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_11790;note=WP_055295205.1 ATP-binding protein (Bacteroides salyersiae) [pid:34.5%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:2.1e-82],MGA_1187
sequence1	MetaGeneAnnotator	CDS	1292450	1293667	.	+	0	ID=MGA_1188;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELMVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPLIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARFHNWNAVISELAILFEERLKDYL;locus_tag=LOCUS_11800;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:44.9%25%2C q_cov:93.6%25%2C s_cov:95.7%25%2C Eval:6.8e-99],MGA_1188
sequence1	MetaGeneAnnotator	CDS	1293977	1294327	.	+	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLALEKLSKMNESCYSRLLNSTSVLYRDLVSSRIRMIEKFLSSHYLKPVYLILDETVIKKYGKYIGGLNKFYSTIENMVIKGVCFLQCLMYNKSKPEIQLKNGPGRKNESVKISVY;locus_tag=LOCUS_11810;note=MGA_1189
sequence1	MetaGeneAnnotator	CDS	1294739	1295425	.	-	0	ID=MGA_1190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPVIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTTS;locus_tag=LOCUS_11820;note=WP_011074430.1 IS256-like element ISSod4 family transposase (Shewanella oneidensis) [pid:46.5%25%2C q_cov:100.0%25%2C s_cov:57.0%25%2C Eval:1.2e-60%2C partial hit],internal stop codon at [1295461:1295463](-),frameshifted%2C insertion/deletion at around 1295448%2C1294746,MGA_1190
sequence1	MetaGeneAnnotator	CDS	1295461	1295760	.	-	0	ID=MGA_1191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELKVPRDRKGEYEPKIVPKY;locus_tag=LOCUS_11830;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:50.0%25%2C q_cov:76.8%25%2C s_cov:19.2%25%2C Eval:1.2e-14%2C partial hit],internal stop codon at [1295461:1295463](-),frameshifted%2C insertion/deletion at around 1295448,MGA_1191
sequence1	MetaGeneAnnotator	CDS	1295814	1296953	.	-	0	ID=MGA_1192;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELMVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPVIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTRKCKILSV;locus_tag=LOCUS_11840;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:45.3%25%2C q_cov:92.6%25%2C s_cov:88.6%25%2C Eval:3.7e-91],MGA_1192
sequence1	MetaGeneAnnotator	CDS	1297167	1297787	.	+	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCMDFVNGMYMFVYYVSIFTFFIMFSSIQSLRGEVENKSIKLYIPRCQSRSKIYIAKNISLSLMFIIITIIFYIITIILDYLFLIHRTDIALNVFWKSQDTESIIFFIISMLFYYLFLIQFAFFLSSFFNPLMSSILALITTILTFYLKVISYIQTLVLTYYLEKIMNSIKIQYNDIFLYFLLILIYGIIFNLLGIKKFKKLDVI;locus_tag=LOCUS_11850;note=MGA_1193
sequence1	MetaGeneAnnotator	CDS	1297787	1298410	.	+	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYNNEYNKKDKWLFFILLSFLPVFSALFLSILSLTLLNNLNLSVKSILSVLFSMGISMILLPSLLVKKRFKNSLKKFGLSITIEFFDIVFLILIFFIIMSFQIFYHSIDFFKTILFQTIVVAISEEFWARGILINYLNKIINSKFMILSISSFIFAFITHINNPIVDNLIWRFPMGFLLGYLYMKSGKLWIPIGLHLCNNMISLYI;locus_tag=LOCUS_11860;note=MGA_1194
sequence1	MetaGeneAnnotator	CDS	1298438	1298866	.	+	0	ID=MGA_1195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKFFMISIGIMYIIFTFVFIFYMKDINVLSLILICLIPSIISLIMYSLYYFFNSLDLKTNNQLTIFNGIIYSIFLGLILFLIKSNNLKEIIFNNSKFLESSTMTISQDKFPIINLLIFVLIIMIIQYFLGKFIINLKNKK;locus_tag=LOCUS_11870;note=MGA_1195
sequence1	MetaGeneAnnotator	CDS	1298900	1300609	.	+	0	ID=MGA_1196;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012547588.1;translation=MGISITVQNKDNDDKNNKINKNEKKLLSSMVIKPYFKNYILSFIISFFTAFGIISIVLLEKDLINFLTNKNYDMFFNIGYKLFFLSIGVSILVFIKTFVNNVSTEKIIVKLRNKFSEKLLTSKYTDLEKQQTGEIMTLFLNDIDLIKDYISKVFNDLLYQPIIFIISISFALFINWKLTVVSFLIIPISLIISLIVALPIKSYTFKQQNIIDKSNTIFSDAISGIDVLKAFQLESIFLSKFKKQISFFLKNYKKISFFDSLLFQMNIIIMFLPILILFAYGGFEIINNRLTLGELIAFMQFIILFITPLSFSTHYISSRNKAVVSIKRIKKILDLKEEQTGKKTNININYNPTIEFDNVSFKYTDEFIFNDLSFTINRGEKVVILGSSGSGKSTILKLLMGFYKVNKGKIKIFGEDINNYDIHELRKYVSIVPQDIFLFNESIRWNVKFSDFDNVTDEEIIQSMKKSQIISLINQKTRTLDTKISEFGNSLSGGEKQRLSIARGLSKSAEIFIFDESTSALDLETENKLLENIFSELKDKTIIFITHRKSILKWFDKKIIIENGRDLNE;locus_tag=LOCUS_11880;note=WP_012547588.1 ABC transporter ATP-binding protein (Dictyoglomus thermophilum) [pid:35.9%25%2C q_cov:91.7%25%2C s_cov:90.8%25%2C Eval:1.0e-93],MGA_1196
sequence1	MetaGeneAnnotator	CDS	1300602	1302290	.	+	0	ID=MGA_1197;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012547588.1;translation=MSKNSSVKFILSFMRKNGGNTFIFLAYWISVFFVASQNFFFNYYVAKGLQTSVDGMMQKDFSSFLGGFILVLRSFGILIIVMGIFSYINDYVVKKITSIIKEYFFKKVLRLKPFFDEKYTSGKIMTLYNSDIEKVESIYSNQILNLLMAIVGALGGAVIIFKLNKYIFIYIITIGIFNLILNYIFIKKMKVNSRNIQNTISKQTEHISNFLSGSYIIKAFNNENFFIKIFKNTTKKYFDFSKKRAKYDAGISFVNNASEYFEFAGLLIISGFFSLKGAISIGSVLLCVQLGRPIIDLFKALSSYFSNIQSILASTERISNILNLNDEEINEKEFFENNTKNFQETPYAIEFDNVSFSYNKDKYIFKDLSFKVKSGSKTLLVGNSGIGKSTILKILLKYHTNYSGNIFVFGKSLKDYDVHELRKLFSYVPQNSFLFNDSIFENIHYGNINKSSDEIIKVSKKVRSHEFIEKLPNKYETTLTNNGNTLSGGQKQRLAIARALLKDAPIFIFDEPTSSLNEKLKDKINSVIKNTMQNKTFFLISHEFNSEDYDEVITLDFNKVKI;locus_tag=LOCUS_11890;note=WP_012547588.1 ABC transporter ATP-binding protein (Dictyoglomus thermophilum) [pid:25.5%25%2C q_cov:98.2%25%2C s_cov:93.9%25%2C Eval:1.8e-55],MGA_1197
sequence1	MetaGeneAnnotator	CDS	1302406	1304241	.	-	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLLILLFQISFIYSQSIKIGYYNDYPLCFKKNKTESGFFVDILNYISKDTWNINWIYGNLNNLLEELKDGKIDILINIKDIKEREKNYIFFKESFFYNYGELATSKNINLSSIKLLENKKIGVMKNDIHYIGEKGFKNLLRDFNINSEFIEFNNYDEIVKALKKHIIFAGVFSNSFLTSNNTLKKTGIVFSPADLTIATSKKSKTGILFLNDIKNKFKLLKDNKNSYYYTIFSKYFPKKGNIYNLSQTLKQILFGIFLIIVFTFIFLLLKYKNKKKIIKILNNIDFLEKSFDLITSEKIDSFDFFTYIYLELKKLNLIDFLGLGFLDNNNLNFKLGLSKNKIIDYTLKKSAKTKNISWYSIDTNKSLYIPNILKWKDPDYTPRVQDKNFLNKSLTILSIPIKTKHNKGVILFEKTGENSYKKVDKSILNTIAKEIELSFKYKEILNQLHLEKEKYKNIALKDSLTGLYTKYFFYEWHYKKREKLKRTSEESILVVIDVDKFKQINDNYGHLTGDKVLKSISKIILNNIRKMDFATRFGGDEFLIVFENTNLNFIEERMQKIKNEVKHLNFNFKIDISYGIEKITSKESIEKSIKKADEKMYKMKQSR;locus_tag=LOCUS_11900;note=WP_004080592.1 GGDEF domain-containing protein (Thermotoga) [pid:42.9%25%2C q_cov:29.6%25%2C s_cov:42.3%25%2C Eval:7.6e-34%2C partial hit],MGA_1198
sequence1	MetaGeneAnnotator	CDS	1304428	1305777	.	+	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDFNNFDLFVIKLNKNGEIIYANDFATYLLKTTEEDLLNKNWFNNFLPNEVKKETFEYFKTIISGVNEMTKTHVNEILNSENEKIYVKFFNDVVKNKKNEIIEVISIGIDITEEIKTKKLKESMRKIYKALLDLYEISLNKKNYSEVFKYFLKEAISMIDGINAGSIFLKDNNKNFKCVAIYNYDFKDIKTLSFNEKYFERYKKFFIFNDYKNYYTKVKDKIKNYGIKSSISVPVFVDNEHVAHLFLDSFKGKNALSDLSLSLSKIVSNQLSIFLKRMKVEEKLNKLSMYDFLTDLPNRRYLDQNLGNIFSLAERNKFEIAFVYIDLNKFKCINDKYGHDIGDYVLKKFGKILKESLRKSDFTARLGGDEFLIVLNDVRKEFIEQTLSRLLNKENERINIDGDEFKISISCGVSIFPKDGKNFNTLLMKADKAMYKAKKSKKLYEFY;locus_tag=LOCUS_11910;note=WP_011947948.1 sensor domain-containing diguanylate cyclase (Clostridium botulinum) [pid:31.3%25%2C q_cov:68.4%25%2C s_cov:85.1%25%2C Eval:3.1e-31%2C partial hit],MGA_1199
sequence1	MetaGeneAnnotator	CDS	1305774	1306175	.	-	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKISEIPEKYIMFGIDINGKEDKVIKILKKNSNWKLLENKKDLDHGDVLLNRYENKILIGIALYNTTIQNEEIIIKTLLNILNTLTPTLESKEIAAIKTKKLFNDNIFGIKFEKIYELFKNHKLRFKLYEL;locus_tag=LOCUS_11920;note=MGA_1200
sequence1	MetaGeneAnnotator	CDS	1306219	1306848	.	+	0	ID=MGA_1201;product=phosphoserine phosphatase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000859193.1;translation=MIRLYITRHGETEWNIEKKFQGWGDSPLTKKGINQAKLLSERLKNIKFNAIYSSSLKRAYKTAEILKRDRKIEIKQMEDLKEINLGKWQGVNYESFNGIYSNELYLFWNKPHLYKNETGENFYEVKKRVKEVLNKIIKNHNEGNVLIVTHGIILKIIMSIYENIELKDLWKKTYCENTSLTIVEVNDNKFNILMTGDKSHLKGEEYAIK;locus_tag=LOCUS_11930;EC_number=3.1.3.3;note=WP_000859193.1 phosphoserine phosphatase 1 (Bacillus) [pid:40.2%25%2C q_cov:95.2%25%2C s_cov:98.0%25%2C Eval:2.8e-42],MGA_1201
sequence1	MetaGeneAnnotator	CDS	1306835	1308076	.	+	0	ID=MGA_1202;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963928.1;translation=MLSNKRAKELVNKYGTPLFVYSKDIILDKINELRENFLEKHDNTEAVYAGKAFLCKEMCRILKRENMSLDVVSGGELYTAMSVEFPENKIYFHGNNKTIEEIKTGVEYGVNFIVDNENELNNLIQITDNLNKKINILFRVSPGVEAHTHKYIITGNVDSKFGFQLNDYLLKVLKKAINSNTLNFMGFHFHIGSQLFDVSPYIEAIKKITEYAKRIKKELNYDIKILDVGGGFGIKYTDETEPKINFFTDKIMETVQNEFKSKELIIPKILIEPGRWLIGKAGMTLYKIGTIKEIPDVRKYVSVDGGMTDNIRPALYGSNYDAVVFNDLDKNEIEKITLAGKCCESGDILIKDIELPKLKTNDIIGVLSTGAYCYSMSSNYNKLPKPAVVMINGSEDKLIIKRQSYEKMIEDEL;locus_tag=LOCUS_11940;gene=lysA;EC_number=4.1.1.20;note=WP_010963928.1 diaminopimelate decarboxylase (Clostridium) [pid:48.5%25%2C q_cov:98.5%25%2C s_cov:94.9%25%2C Eval:3.8e-113],MGA_1202
sequence1	MetaGeneAnnotator	CDS	1308282	1309649	.	+	0	ID=MGA_1203;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_088854992.1;translation=MKFYNRKKEIDFFNKIKKTNKKVFIVLYGRRRIGKTTLIKKVFENEINTFYYFVEVKKEETLLKELSLSFSKGLYMNWYDLFLDLFKKYEYVIFDEFQNFFKINKEILYAFQHAWDENKDKTKLIILGSYVGMIKKIFTDEKMPLFGRNDYLLKIKEFSLKDTLLMLKDFGYSINESLEIYSITGGIPKYLWLFKEKNSLKTLINNLFIDEFSPLKEEAKNILITEFGSEHKSYFSILESLSGGMKSSSEISDISKIPQTNLPKYLNELNSIYEIISKEKSLFSKKSKDIKYMINDNFYNFYFQNIYKNFSLIEFVPEKALEKIYLNFNNYVGFQFEKICKKFIIENPNILGFIPEKIGKCWGKVPYKKNESYDIDIIVYNETNIVFGECKWTNKKVGLKVYDKLKLRSTFINCGNKNKKYIIFSKNGFLDEILNLKDESLLLFTPKDIKKIYNI;locus_tag=LOCUS_11950;note=WP_088854992.1 ATP-binding protein (Thermococcus siculi) [pid:34.7%25%2C q_cov:98.2%25%2C s_cov:97.2%25%2C Eval:1.3e-64],MGA_1203
sequence1	MetaGeneAnnotator	CDS	1309778	1310551	.	-	0	ID=MGA_1204;product=DUF368 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680113.1;translation=MFQDFFLGFLIGLANLVPGISGGTIAVISGKYEQLLTSVSDFISFKFNKKMLMFLLMLFLGAGVSVIGFSKVITYLFSNFEIYLVGTFVGLIFGGIVYLFKKINLKSKTNLLTIISSIIIFLIIFFMLPSTKANGNLNFFYLIFAGIIGAATMVLPGISGSSMLLIMGVYEPFIKAISEFDMTIILPVGIGVIIGLIFIVKLLDFLLKKNEQVVMSFLIGLTIAGTVKIFPHLNFLVIVFIFVGFYLGYIMEKIFQK;locus_tag=LOCUS_11960;note=WP_002680113.1 DUF368 domain-containing protein (Treponema denticola) [pid:33.2%25%2C q_cov:86.0%25%2C s_cov:91.7%25%2C Eval:2.3e-29],MGA_1204
sequence1	MetaGeneAnnotator	CDS	1310573	1311322	.	-	0	ID=MGA_1205;product=undecaprenyl-diphosphate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080690.1;translation=MQDFILGLVQGLTEFLPVSSSGHLTIFSKFMEINTNLPYFAVLHLATFFAVLFFVFKEVWLILKGIFTLNKDYLNLAGKLIVSTIPAVFFGLMFNSKIEEAFSSIKLVGIFLAITALMMLFSDRLNKNQKTMNTITWMDALLIGLIQAFAIFPGVSRSGSTLFAALLLGMKKEEAVKYSFLMSLPVTFGAGILEMQKITLNTSQYFGVIAAFLSGLLGLYLVKKIVINGKLKYFAYYCFTMAAIAIIFM;locus_tag=LOCUS_11970;note=WP_004080690.1 undecaprenyl-diphosphate phosphatase (Thermotoga) [pid:39.2%25%2C q_cov:98.4%25%2C s_cov:98.7%25%2C Eval:1.1e-44],MGA_1205
sequence1	MetaGeneAnnotator	CDS	1311438	1311962	.	+	0	ID=MGA_1206;product=phosphatase PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948131.1;translation=MDKAIIDFFQNFTTSNHFILNNIFIFFTKIGNLGMIWILISLLFLIFKSTRKIGIVSLLSLFFSFIISNLFLKHLIARPRPFTTYDLKILIPLPKDFSFPSGHASASFASAFGIFLSSNKKSLKWVVITLASLIAFSRIYLSVHYFIDVISGVGIGIFCGYLSIKIYEKIMKNK;locus_tag=LOCUS_11980;note=WP_011948131.1 phosphatase PAP2 family protein (Clostridium botulinum) [pid:36.5%25%2C q_cov:97.1%25%2C s_cov:94.9%25%2C Eval:3.4e-20],MGA_1206
sequence1	MetaGeneAnnotator	CDS	1312020	1312328	.	+	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITIKDIQLKNIMEDIVEDVYNDLLKTNLIKICNCPKCHADVLAIVLNNIKPKYVVTEKGEAIERTNELRDQIRVDVLEQLLKAVEIVSKNPHHNQNDVGLI;locus_tag=LOCUS_11990;note=MGA_1207
sequence1	MetaGeneAnnotator	CDS	1312325	1313671	.	-	0	ID=MGA_1208;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868529.1;translation=MKTKIDIFKVSIWESLLKLSWPIILANIFQAVYNITDTYFLGKLGSIEIAAPTISWPLIFIFISISGGFSMAGSSMVAQYTGMKRKELAEKSAAQTILTVTLISIITMLFGLFFSKSMLYYIGARDLTLEYSLKYFNIILISTPFLFFFEVNTAILRGWGNTFTPLILRFFSITLNIILDPIFIFVFKMGVEGAAIATLISKIIFSLYLMYEMFTGKYGFKIHLKDLKFDLRYIKKILLIGLPTSFGQSVTAMGFAIIMKVVSKFGTNVVTAYGIGNRVTNLIVMVSMGISGATSIMIGQFIGSNNKNKAIETLKKASILTFFSVFILSFFLFLYGKNVTSFFINEIEVINTGKIYFSMVSLSLPFFATMSIFLAAMNGTGHTVQTTIINLTRLWIIRIPLIKLMADYYGFIGIFYAMIISNILAMLLAYGFLKTDKWKIRLVKEYEN;locus_tag=LOCUS_12000;note=WP_010868529.1 MATE family efflux transporter (Pyrococcus abyssi) [pid:32.7%25%2C q_cov:97.8%25%2C s_cov:97.4%25%2C Eval:5.3e-71],MGA_1208
sequence1	MetaGeneAnnotator	CDS	1313760	1314695	.	+	0	ID=MGA_1209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKREYPEKSWSVSKMDIFESCKRKYYYSTYAQWNGWENDASTLSKKAYTLNKLGNVYSALGTYLHTMIKNNILGMNMDSNTIYLNILGSIKEDCKNSFYKKEEWLKSPKSINMLHEYYYGNGLDKSLGKKIAQRVKVCSENIFNSKTYNELKDTKSKIFELDEESFNFFKYKNTKLYAILDALYKIDDKIVIADWKTGKKDTAKHDIQMIIYVMYVLSEYKDINIEKIECVNEYLLTGESYVRTFTYDEIKNVQKYIDNSIEKIEEYLEDSEINKPKSMESFKANPGYSCKMCNFIEICDEGKKFLKIK;locus_tag=LOCUS_12010;note=MGA_1209
sequence1	MetaGeneAnnotator	CDS	1314718	1315017	.	-	0	ID=MGA_1210;product=anti-sigma factor antagonist;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002670686.1;translation=MRKEIRGNTARVYLDGRVDITNSSDLKKLLYELKDNGIRKIVIDMEELEYIDSSGLGRIFYFFADYKRDGGLMEIHNIVNENVKKVVEIVKLDKIIKIK;locus_tag=LOCUS_12020;note=WP_002670686.1 anti-sigma factor antagonist (Treponema denticola) [pid:33.0%25%2C q_cov:92.9%25%2C s_cov:83.0%25%2C Eval:1.8e-07],MGA_1210
sequence1	MetaGeneAnnotator	CDS	1315095	1317062	.	-	0	ID=MGA_1211;product=maltodextrin glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005482420.1;translation=MNGIYSDQTKLYLTPEEPIVGEKVKIRVRVPKYLGKVLGSVYVTPEKNIKKYRNIKMKLIKETELFVYFERSFIMPDRNIHYHFEIELLDKNQKIKYDAMGLVNKRSIHNFVLIPNFKTPEWSHGSIYYQIFVDRFNNGDKTNDPVNDEYIYDGKKIIKKEWNELPSQENGHREFYGGDLKGIMDKIDYLKDLGVETIYLNPIFVSPSPHKYDTQDYENIDPHFGKIVEDTEDIKEKYKVRTTFKSNLKASNSLFLDFVNTLHKNNIKIILDGVFNHCGSYHKWVDELNIYDDGVKNNKNSKYKENFYWNGENYEGWWGYSTLPKLNYSNIKLREYIANIGIKWVDNYKIDGWRLDVADDLGKSKEENIEFWKFFNKKIKSKNKDTIIFAEVYKSPLEWIEKKSWDSIMNYITCMDPVSYFLTGIEKHNDSINESLFMNSNEFIKSVTHALSQLPMNSKFIALNQLSNHDHSRWMTRTTRKIGRINTIGHEEAAKDIDLDVFKIGIMMMFTLPGSPGLYYGDEIGLAGWTDPDNRRPFPWNEVENNKILNFIKKIISIYKKNNALRKGSFEFLNNDGGYLSYGLWNDEKKYIVIINREEIEKNVNIPVWLLEINQGKANLLISNQETNQEELNFNNGNLNFIAPKKSAFIFELKY;locus_tag=LOCUS_12030;gene=malZ;EC_number=3.2.1.20;note=WP_005482420.1 maltodextrin glucosidase (Vibrio parahaemolyticus) [pid:30.6%25%2C q_cov:92.5%25%2C s_cov:93.3%25%2C Eval:6.9e-73],MGA_1211
sequence1	MetaGeneAnnotator	CDS	1317059	1318849	.	-	0	ID=MGA_1212;product=ABC-F family ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966001.1;translation=MLIRLEDIAHNFGTQELFFDVNLTVYEQDRIALIGQNGSGKTTLLNILSGEIEPTEGKIIRSNSLKESFLKQFRITNPELTLFDFVKEAVTDVEEVMIDKTVRSIVVGLGFDESQWTRKISTLSGGELTRLSLGKALAGNHNLLLLDEPTNHLDLYSIKWLQKYLKNYKGAIILISHDRDFLNGICNKYVEINNYKLWQFNGTYDKYIDQREKVIISTEARKKNLLKEIKRVENMIAMYRKFGTEKMVRQAIIRERTLKKLKEEYSEIEQLTQDRGIKIKIPEPTRTGHVVLKVENLNFSYEDKPLLNKISFDVMEGEKVSIIGKNGSGKSTLIKILSNKLKPLSGMYEWGYNIKVGYLDQVISSFDKSIDMLSETWKFVPDWPDYEVRKYLGRFGFYGDNVFKKIEDLSGGELTRLALAKIILTKPNVLVLDEPTNHLDIITVGVLEETLKEFKGAIILISHDERLIKNISNKFVFIKDGKSKVSKELNDFLEDIKNDSFKIEKRKKDTSNYAEIKKLKNRKKTLERRKLQIQNEANNTFERLDDLEKLMITHGNNYSKVMELMEEKEQLEKNLEKIELEEVEINEELNQMEDLI;locus_tag=LOCUS_12040;note=WP_010966001.1 ABC-F family ATP-binding cassette domain-containing protein (Clostridium) [pid:34.2%25%2C q_cov:92.1%25%2C s_cov:91.9%25%2C Eval:3.8e-91],MGA_1212
sequence1	MetaGeneAnnotator	CDS	1319154	1320179	.	+	0	ID=MGA_1213;product=cobalamin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082604.1;translation=MKKLLTILFVVVALVSFSLTVIDDIGRVVTFETSVNRVICAAPSISDFISNLNLKGKVVGVTDWDTSIGNEISYTVKKGDTLYSIMQKFGYSDARLNEIKKANNLKNNSLKIGMKLKLPLAEKIGNMVPLNIEKIVSLNPDVVFLTGGFQEPEVKKLEKYGIKAFVINPTSFNEILRDVSVIGTILGKSKEAEKLSSSLRAKVISIAKSNSNKKNKPRVMYAMVSNNVSTIWTAGTGSFTNEMIAYAGGLNLVAPYTGNNGWLSVGPEFVVNENPDAIIVPSYYPGDTSSKDKLMSAEQFKDVNAIKNGKIILIDGNKASQASPSLINVLEDLNKKIGELN;locus_tag=LOCUS_12050;note=WP_004082604.1 cobalamin-binding protein (Thermotoga maritima) [pid:33.6%25%2C q_cov:96.8%25%2C s_cov:95.3%25%2C Eval:8.8e-57],MGA_1213
sequence1	MetaGeneAnnotator	CDS	1320176	1321186	.	+	0	ID=MGA_1214;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082603.1;translation=MKKNLKGALPLFLFLMISSFILIIFFNSFGTVKLSFKDILLIFFNKNPNKIYTNIILNIRLPRVLGSFITGAILAISGNILQLIIQNPLADPYILGISSGASFGAVIYSALTMIYAIKLPFGMESTAFFFGVFSTILVFLIAKEGKKIPILSLILSGVIVSFLFNSITTLFTVMYWKNLIHVNIWLMGSTASLTWKDCYILLFVLFLQIITSLLFSKQLNVLSMGEHMAVYSGINPEKIKIILIGINVLAVSIAVSKTGIIGFVGLVIPHIVRKVTGPYSSVSTFYSLFVGGSFLAASDFVSRTIFAPTELPIGVVTSIIGAPVFIYILKRERKND;locus_tag=LOCUS_12060;note=WP_004082603.1 iron ABC transporter permease (Thermotoga maritima) [pid:41.1%25%2C q_cov:94.0%25%2C s_cov:96.9%25%2C Eval:6.5e-65],MGA_1214
sequence1	MetaGeneAnnotator	CDS	1321179	1321946	.	+	0	ID=MGA_1215;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681811.1;translation=MIKINNLNFSYGNGFNLNIEKLNIKAGEFVSIIGPNGSGKSTLLKILSGILKNFNGEILIKNKNIKNFNYKELAKTISIVPQEFNTIFKYDVESIISTSRVPYSKTFSFFETMEDKKIIEEAMKKTDTIKYKNKFFSNLSGGEKQRVMIARALAQKTKILFLDEFTSHLDPGHAQSLMNIVKENTQNGHTVVAVFHDINLASIYSKRLIIMLKGNVVCDGSPIDVITQENIKDIYNLDGSIIKHPKYNVPQIVFN;locus_tag=LOCUS_12070;note=WP_002681811.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:40.4%25%2C q_cov:97.6%25%2C s_cov:96.5%25%2C Eval:4.9e-45],MGA_1215
sequence1	MetaGeneAnnotator	CDS	1321978	1322586	.	-	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVFTFFISLLAMIVSIFNIILMIQILKKTDKNNELTSISFDEESNKLLARFQKITTTKLRALDNKIEIVDQLLKDVNESYSRLASILSEVEKINDEHFKNKIMNNKIIDSIKASDEKPLESQKINEILEKNDEIIKSENEEKIINKENNETTKNKYKEEIILDKKSMVLEYYHQGLTPQEIGKKLNIGIGEVMLFINLYNK;locus_tag=LOCUS_12080;note=MGA_1216
sequence1	MetaGeneAnnotator	CDS	1322596	1323192	.	-	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKNLKNKGINFTIMTILFIAAILILNLSIFKSGSYKYDILSKNIIFNINENGITSLKLTTTIKAQDKKSFNYLLNGYKRSDIEKSKGYEKIFNEKNNKNIYCKVLNYKSIINTSELNIFVEETMDLSGIINKNNNELIFNFPIKRLNIDANSNLYVYLPENWTLKESIPTPSKNLGTYLLWNNVGTIDFSKIVLNKK;locus_tag=LOCUS_12090;note=MGA_1217
sequence1	MetaGeneAnnotator	CDS	1323290	1324267	.	+	0	ID=MGA_1218;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081463.1;translation=MIVVSGSRPTGKLHLGHFMTIGKWLEFQNKADKSYFFVADWHALTSHRDDVNTIESSTLDLVRHYLAMGVDPKKSTIFVQSAIKEHAELYLLFSMLVSTTRLERMPTFKDMKENIKDKDLSTLGFLGYPVLQAADILTYMGDTVPVGEDQIYHVEFTREIARKFNNLYEEIFPEPEAYVASVPKLPGTDGRKMSKSYGNSIIIETEEKDMSKQIMQMKTDPARMRRTDPGDPEKCPVWDFHKAFTNSEEEKNWVINGCKTAEIGCIQCKKVLFKNMKEQLEPVWNNLKNISNDDAKKIILDGNEKARSVAEQTLKRVRNAMKLRW;locus_tag=LOCUS_12100;gene=trpS;EC_number=6.1.1.2;note=WP_004081463.1 tryptophan--tRNA ligase (Thermotoga maritima) [pid:59.5%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:4.6e-116],MGA_1218
sequence1	MetaGeneAnnotator	CDS	1324269	1324940	.	+	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLELDINIDIYSGSFQKLVELIKEKKISVRNIPVSKIADLFNEYIQKNKKNLKNVGEFMRLASYLTFLKSKELLPRSSKDNELRKHKDFLYNVIEDYELLKKTSNIIKNDFGTPRTKYIKIKNINTPNKENFSKQLELFFSEYISIQEKLEIIREVYTVEKAMEKLSTFDKISIYNLYEISEYNKLKFIVYFLGALTLVRNNIYKFESDTFIKAGEKIETTND;locus_tag=LOCUS_12110;note=MGA_1219
sequence1	MetaGeneAnnotator	CDS	1324921	1325469	.	+	0	ID=MGA_1220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQQMIEALIYSRQNGISIEEIMKILSLNETEVIDLIHEIQYHYTKTEHGVELIRNNNKYRFEIKSEIKALITPKPKRIDLTGSQFEILAILYLNGPSRSGEIERSRGKNSYFQLNRLMDYGLIKRIRKDERKIYYYTLTEKFYNWIPEDTLKKLEELKNVQITKNFTNDGDSSEKSSTDNL;locus_tag=LOCUS_12120;note=MGA_1220
sequence1	MetaGeneAnnotator	CDS	1325399	1326133	.	+	0	ID=MGA_1221;product=23S rRNA pseudouridine(2605) synthase RluB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000440556.1;translation=MYKLQKILQMMGIPRRKAAQITFDELVKVNGEVIKEPWFNVEDSDEIEYLNKKNLVSDIIKKSSKKSYYLFHKPVGVLTTMKDSYGRKTIRDILDENNITETLFHVGRLDLNTSGIIMLTNDGELANKLMHPSHEITKTYKALIKGNITREEIKQLESGIIIDDYKTRPAKIEKVIRKGSNHEITLTISEGKKRQIRRMFEALGHKVIKLKRTKFGPWSVSLVPYPGNILKLNESEINKIKGSD;locus_tag=LOCUS_12130;gene=rluB;EC_number=5.4.99.22;note=WP_000440556.1 23S rRNA pseudouridine(2605) synthase RluB (Bacillus) [pid:40.4%25%2C q_cov:98.8%25%2C s_cov:96.7%25%2C Eval:1.1e-43],MGA_1221
sequence1	MetaGeneAnnotator	CDS	1326286	1327359	.	+	0	ID=MGA_1222;product=glucose-1-phosphate thymidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080744.1;translation=MKAIVLCAGKGTRLRPLTFTNAKPLIPIANKPTIMYSLEKIREAGITEIGIIVNPDNKKDFVKVLGDGKDYGLDIKYIIQEEAKGLAHAVAISEEFIDGDDFLMYLGDNLINTDLAKFTTEFKEGNFDSFILLTPVEDPSRFGIAIMEGNNVIDVVEKPQNPPSNLAIVGVYVFKPIVFEAIKNIKPSWRNELEITDAIAWLIKNKGNTGAQVIYGWWKDTGKPEDLIEANRSILEKMKSKDIQGNIYENSVVQGNVKIGKGSKIIDSIVRGPVIIGENVTLSNAYVGPYTSIGNGVTVEDSEIENSIILDNATISSFKSRLDSSIIGSNAEIVSIEKNPKTIKLVIGDFGKIEIPR;locus_tag=LOCUS_12140;EC_number=2.7.7.24;note=WP_004080744.1 glucose-1-phosphate thymidylyltransferase (Thermotoga) [pid:56.5%25%2C q_cov:99.2%25%2C s_cov:99.4%25%2C Eval:5.0e-119],MGA_1222
sequence1	MetaGeneAnnotator	CDS	1327629	1328933	.	+	0	ID=MGA_1223;product=NCS2 family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081255.1;translation=MDKFFKISESGSTVKNEIFGGIATFLTMAYIIFVNPSILSSAIKVDGAYGALMVATILGGAVATLTMGLLANYPFALAPGMGLNAYFTYTVVMKMGVDWRVALGAVFIEGLIFILITLVGVRTYIANAIPHSIKIATSAGIGLFITFIGLKNAGIVVSDPATYLALGKITTPEALTTIIGLLIIAALYALRVPGSILIGILLATIFGAFVGITKFNGVFGPIPNIAPTFFKLKLTGASLIDPSFWVIVLTFFFVDFFDTTGTLMGLANSAGMTDKEGNLPRATKAYMADATGTSIGALFGTSTVTTYIESGAGIAQGARTGLASVVTAGLMLLMLFMSPLASSIPAAATAPALIFVGSLMIKNLKIIDWDDTTEGLPAFITLVMMPLTYSIATGITLGMIVYPIVKLFSGKAKDVHWLTWVLGFLFILYLIYLR;locus_tag=LOCUS_12150;note=WP_004081255.1 NCS2 family permease (Thermotoga maritima) [pid:63.2%25%2C q_cov:96.3%25%2C s_cov:96.8%25%2C Eval:2.9e-151],MGA_1223
sequence1	MetaGeneAnnotator	CDS	1329021	1329782	.	-	0	ID=MGA_1224;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001198755.1;translation=MKKIFLGFLLCSLILFNGMIFSVTASNLKIMTENFAPLNYEKDGKLQGIAVDLIGLMLKEMNSKLTVKDIQVLPWARGYKIALNEKNTCLFSTTRTKARENLFKWVGPIYQIKEGILAKKERNIKIKELKDILKYKTGTIIEDVGEQLLTENGIPLKSLERVGGTGAVDNSLKKLAAGRIDLFTYDELGSKWEMKILNIKPNDYEMVYILSTADLYYAFNKNTPDSIIKEFQNALDKLKKDGSYQKIVDKYLK;locus_tag=LOCUS_12160;note=WP_001198755.1 transporter substrate-binding domain-containing protein (Vibrio cholerae) [pid:41.4%25%2C q_cov:88.9%25%2C s_cov:88.8%25%2C Eval:1.6e-40],MGA_1224
sequence1	MetaGeneAnnotator	CDS	1330034	1331275	.	+	0	ID=MGA_1225;product=competence/damage-inducible protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966849.1;translation=MKAEIISVGTELLLGDIVNTNAQFISQKLSELGFDVYYQTTVGDNEERLKKAIKNAFERADLIITTGGLGPTKDDLTKETIAKYFNKKLILHNESFDKLKFFFKDKKMTENNKKQCYFPEGATIIQNKNGTAPGCIIEKNDKIAILLPGPPKEMKPMFLNTVFPYLKKQTNEILFSKILRVIGVGESEAETLIKSLIENQNNPTIAPYAKDGEMFFRITAKAKNKMEALELINPISKKIKDILKNNVYAEGNTPIEEVVAKLLIEKNLKISVAESCTGGMVSSKLINYPGISSVFLEGIVTYSNESKINRLNVSKKTLETYGAISKQVAKEMVEGIVKNSNSNIGLSTTGIAGPSGGTKEKPVGLVYIGIYINGKTIIKKLNLHGNREKIRSRTTKIILDQLRRELIKTKVHS;locus_tag=LOCUS_12170;note=WP_010966849.1 competence/damage-inducible protein A (Clostridium) [pid:59.7%25%2C q_cov:98.5%25%2C s_cov:99.5%25%2C Eval:5.5e-144],MGA_1225
sequence1	MetaGeneAnnotator	CDS	1331379	1332911	.	+	0	ID=MGA_1226;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766109.1;translation=MKKLPIGVQDFKELITNYIYIDKTKYLYELITSGKFYFLSRPRRFGKSLTVSTLYYLFKGEKELFKGTYIYDKWEFKEYPVIKIDMSDNTLTTYEEFIESLKDKINKIYKEEGITPTTKDLPTMFGNIIEDLNKKNKERTVILIDEYESPILEHLNNKEEAEKIRRFLREFYKKIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLDKTYAQMLGYTQEELESNFKEHIKETAVEMKMEEKELLKNLKMYYNGFSFDGESSVYNPFSILKFFKKREFENYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGIKRLGLRKKYILDYPNIEVKNSFSKIILEANYGIRETEQIETTIYERIYEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDVIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_12180;note=WP_008766109.1 ATP-binding protein (Bacteroides) [pid:34.7%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:3.9e-81],MGA_1226
sequence1	MetaGeneAnnotator	CDS	1333133	1333372	.	+	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDDSSPCVKVK;locus_tag=LOCUS_12190;note=MGA_1227
sequence1	MetaGeneAnnotator	CDS	1333416	1333625	.	-	0	ID=MGA_1228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFQLINKRYEKKSTIITTNQPFSKWANVFSDPTLANAILDRLIHHSHIVSIKGPSYRLKDKLIFNSKK;locus_tag=LOCUS_12200;note=WP_003899614.1 ATP-binding protein (Mycobacterium tuberculosis complex) [pid:50.0%25%2C q_cov:89.9%25%2C s_cov:25.0%25%2C Eval:2.8e-16%2C partial hit],MGA_1228
sequence1	MetaGeneAnnotator	CDS	1334670	1335224	.	-	0	ID=MGA_1229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKTPFSPFSYRDIIILFSGLMPLGVTGNFSDNSIRFERMDETLEFLLSSGIKPLNFYIVKIILPLLLGIIYSIISTIEMSTLLKYVFVDISIPLETLIIIPLCSAIIASNGGIISRLLFKSDVKAVNIETIFTLIILILPYIIVRPDLGGVNAISYMIIILFVFFSLIVLGIHQIKNKKVLDF;locus_tag=LOCUS_12210;note=MGA_1229
sequence1	MetaGeneAnnotator	CDS	1335264	1335458	.	-	0	ID=MGA_1230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLIYLPTMYLILLLEDRPKNFSMFFMFILLIIKKFEVSKIDTILAIFYKDLKYLKYQKREIY;locus_tag=LOCUS_12220;note=MGA_1230
sequence1	MetaGeneAnnotator	CDS	1335522	1335728	.	-	0	ID=MGA_1231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIFMFILLIFAISITFSSKFFNGMMLKEDLNFLFDKIKSTYPNPFLNTSVEKIYEMKQDLIEDFVE;locus_tag=LOCUS_12230;note=MGA_1231
sequence1	MetaGeneAnnotator	CDS	1336559	1337038	.	+	0	ID=MGA_1232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFDNIPKETSINKISQPSFFEGGEEAVLLIHGYTGTPHDMRYLGHMLHKAGFTVSIPRLPGHGTNSIDFQNSNWKDWLRKVTDEYIDLKYKYKEVYISGLSMGGVLTLILASKFKPKKIALAAPAIEAKNKKIKITPFLKYFIKKLIENIKKFMKMKI;locus_tag=LOCUS_12240;note=WP_002666565.1 alpha/beta fold hydrolase (Treponema denticola) [pid:54.8%25%2C q_cov:96.2%25%2C s_cov:59.6%25%2C Eval:2.6e-42%2C partial hit],frameshifted%2C insertion/deletion at around 1337017,MGA_1232
sequence1	MetaGeneAnnotator	CDS	1337437	1337871	.	+	0	ID=MGA_1233;product=ferritin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875797.1;translation=MYLAMASYFEEQNLPGFANWMRIQFQEEAHAFKFFDYLVERGGHVELEKIEKPKTTWENPIDAFNDVYAHEQFISKSINEIFKVAREENDYPTETFIHWFIMEQVEEEKNAKEILDRLSMIKDNIQPLFMLDSELAKRVFTPLV;locus_tag=LOCUS_12250;note=WP_010875797.1 ferritin (Methanothermobacter) [pid:49.7%25%2C q_cov:98.6%25%2C s_cov:83.6%25%2C Eval:1.1e-37],MGA_1233
sequence1	MetaGeneAnnotator	CDS	1338481	1339575	.	+	0	ID=MGA_1234;product=iron-containing alcohol dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080642.1;translation=MFSFFNPTRIFFGNDVIKDNFNYIDELGNKALIVTGKNSAKVSGALEDILSALKKLNKEWVIFDEIKENPTYDLIEKGKKVGLNENVDFVIGIGGGSPMDASKAISILIANDFLSVEELYNGDYDVALPIVEVPTTSGTGSEVTQYSVLTSMEGKKAGFSSEVNFPDVCFIDPKYTLKLSKALTLTTAIDALSHAVEGSISTKATDISDLMAKESIKLIKENLMNSLDNLDNIKYRENLSKASMLAGMVIAQTGTTLPHSLGYSVTVKYGVRHGIATAIFLPNVLKKIEKENPKKLNVLKNVFESLENFENFLNEVGIFNNLPKLKEEDIISFSNTVIKSSHVKVTPATFTVEDIKKLYLEVFE;locus_tag=LOCUS_12260;note=WP_004080642.1 iron-containing alcohol dehydrogenase family protein (Thermotoga maritima) [pid:42.8%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:4.4e-78],MGA_1234
sequence1	MetaGeneAnnotator	CDS	1339572	1340753	.	+	0	ID=MGA_1235;product=class I SAM-dependent rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082213.1;translation=MIVKLKKNIKSRVANGHPWIYENEIESVEGNPNPGDIVSVFRGSNFLGKGYYNQNSLIRVRILTRKNVEIDKEFFKDKIEKALNYRNLIYPNSNTYRLIFGESDGLPGLIIDKFDDYISMQINTLGIFLRKNYIVESLIELLNPKGIYEKDDERSSKIEKFEMTNKWIYKSGPELIPFTLNGITFFADTLGQKTGFFLDQRNNALETAKYSKDKTVLDAFTYTGNFGVHCLNAGAKHVTFVDYSERSLYVLEQTLKINNFDSSRYEIINANTFDYLRTLDSIGKLYDVTIIDPPSMAKSRKVKNGAIRGYKELNLRAMKITKSGGFLSTSSCTQIIYDEEFKKIIYSAGEDTKKILKVIFRGYQSPDHPINLNILETEYLKHMLIKVENIDNF;locus_tag=LOCUS_12270;note=WP_004082213.1 class I SAM-dependent rRNA methyltransferase (Thermotoga maritima) [pid:50.7%25%2C q_cov:97.2%25%2C s_cov:98.0%25%2C Eval:2.7e-108],MGA_1235
sequence1	MetaGeneAnnotator	CDS	1340768	1341442	.	+	0	ID=MGA_1236;product=zinc metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047881.1;translation=MFFYDSTLILLIPAFIFSVIAQMKVKSTFNKYSRKMSTMGESGASFARRMLDSMGLFDVKIENVNGYLSDHYDPTSKILRLSNATYNNKSVAAIGVAAHEVGHAIQHSKGYKPLALRSAVVPMANFGSNLSWLIFFGGFIFNAPLLLNIGIILFSFVVAFTLITLPVEFDASRRALKQLPMLGMPNSEVSMVKSVLTSAAMTYVAAAAVAILQLIRMILLSRRD;locus_tag=LOCUS_12280;note=WP_012047881.1 zinc metallopeptidase (Clostridium) [pid:51.8%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:1.1e-58],MGA_1236
sequence1	MetaGeneAnnotator	CDS	1341444	1342715	.	+	0	ID=MGA_1237;product=16S rRNA (cytosine(967)-C(5))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081860.1;translation=MVRSIAFKILKKFDKRYKVSIEDINIAKDILNDLQIRELKGMVWGTIRNLTKIDYILSKFVKNFNKNTPASKTILRLGVYQLLAGYDEHAVVYETVELAKNKKLKGFINAVLRKCIREIESMEFPENIKYSYPKWIYDYIKKNYSFYKEILEKHIYPSNLVLRVNTLKTNRKELSKLLQDKKWDVAETIHSSYAIEVLNLNEVPEYSNEYKNGYFYIQNESSQLVPIIMNPNENDMILDMCSAPGGKTTFISQLMNNKGKIIALDNDFDRISMVSENIKRLGILNTSTELISASEYKSSIKFDKILMDVPCSSIGTSSIHPEVILRTNKKDTLNYQKIQREIIKNSFNLIKKDGKVIYSTCTIFKEENTDNMKWISKNYNVEFIDFSKELKNMNVKYYYDGYGYYIIPDDTLIPFYICKYKVR;locus_tag=LOCUS_12290;EC_number=2.1.1.176;note=WP_004081860.1 16S rRNA (cytosine(967)-C(5))-methyltransferase (Thermotoga maritima) [pid:35.7%25%2C q_cov:98.3%25%2C s_cov:97.4%25%2C Eval:5.2e-73],MGA_1237
sequence1	MetaGeneAnnotator	CDS	1342734	1343765	.	+	0	ID=MGA_1238;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082231.1;translation=MKKNVLDFTFEELEGYITQKLEMKKFRATQIADWIYKKHIYEFDNMKNISKDDRYLLNENLYIGIPEIKAVQESKIDGTTKFLFELEDGSTVESVILFYPNRVSACISTQVGCALKCKFCSTGASGFVRDMTAGEIVSQILAMEEVKNININNIVYMGMGEPFLNYDNVIKSIKILNDKKMKCLGGRHITVSTSGIVEKIEELGDLPIEVRLSVSLHAPNNEIRDKIMPINNKYPIEQVIQGCKDYQEKTNKRVTMEYIMIRGLNDSEENARELAKLIQDLKVMVNLIPVNPNPAGYERPSKKFIDQFAKILIENGIDVTIRAEKGTDIDAACGQLRRRNEKK;locus_tag=LOCUS_12300;gene=rlmN;EC_number=2.1.1.192;note=WP_004082231.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Thermotoga) [pid:54.1%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:7.4e-104],MGA_1238
sequence1	MetaGeneAnnotator	CDS	1343778	1344281	.	+	0	ID=MGA_1239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFLKIIKSIFFFLSGCFVAAVAAFLFMTVWVNSAKVVEVPYIIGESEDIAIKALKEKHLQPNIEGTGNKVLYTEPGPGSKVKEGHHIIVQLRNIEKQKVPDLIGIPGEVAEQFLIEYKIPYIIQKIKTYQKRNNGIVISTEPEPGKTYGENKVKINIGIYEGVNE;locus_tag=LOCUS_12310;note=MGA_1239
sequence1	MetaGeneAnnotator	CDS	1344278	1345180	.	+	0	ID=MGA_1240;product=ribosome small subunit-dependent GTPase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865389.1;translation=MNWEKGIVMRFHSNTVSIMNTKTKKREECVLRGKFKKQKIRPIVGDYVEYTLNEQEEYGKIENILPRKNNLYRPKIANVDQAILVTTLKNPFVDALIVDKFLIQVEKMGIDCAIVVNKVDLLQTSEEKELLQLFLDTYSPLYTTLPVSSVTGENIDKLKIIFKDKISTMAGMSGVGKSSLLNSINTGLKLRVGEISDKLKRGKHTTTYTELLHFDFGGFIADTPGFSNLELRGFNKDEIRDYFIEFLEFSPYCGFSDCSHTVEPYCMIKEKYEMGEIASSRYEDYVFIYEELKKRGDKRW;locus_tag=LOCUS_12320;gene=rsgA;note=WP_010865389.1 ribosome small subunit-dependent GTPase A (Thermotoga maritima) [pid:51.0%25%2C q_cov:98.0%25%2C s_cov:98.3%25%2C Eval:3.5e-75],MGA_1240
sequence1	MetaGeneAnnotator	CDS	1345174	1345806	.	+	0	ID=MGA_1241;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964149.1;translation=MVKIFPSILAANFANLEKDLKNVENNVDGFHMDIMDGRFVPNISFGFPVLESLRKITNKYFDTHLMIVEPDNYIERFSKVSDSITVHYEATTHLHRTISQIKKFDCEAGVSLNPHTPVSLLEEILPYLDKVLIMSVNPGFGGQKFIETTYNKIRKLKDMNSNVEIMIDGGVNPNNIDKLVKAGASSFVVGSAVFKTSDPNKAIKEMRDIL;locus_tag=LOCUS_12330;gene=rpe;EC_number=5.1.3.1;note=WP_011964149.1 ribulose-phosphate 3-epimerase (Flavobacterium psychrophilum) [pid:54.7%25%2C q_cov:98.1%25%2C s_cov:96.8%25%2C Eval:2.5e-59],MGA_1241
sequence1	MetaGeneAnnotator	CDS	1345803	1346381	.	+	0	ID=MGA_1242;product=RdgB/HAM1 family non-canonical purine NTP pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082779.1;translation=MKAFLATSNKHKVEELNYISPNWIEVSPISDLFNEFNPEETGSTFIENSVIKAVTGGNKIKKIVLADDSGLCIESLDGFPGIKSSRFMEGRTYEEKMKAIFKMLEGKDRKAYFACAATYYNPMTNQLISYEGRVYGKISEVIRGHEGFGYDPFFIPDGYSETFGILGNNVKKEISHRARAFNGLFNILNKII;locus_tag=LOCUS_12340;gene=rdgB;note=WP_004082779.1 RdgB/HAM1 family non-canonical purine NTP pyrophosphatase (Thermotoga) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:95.9%25%2C Eval:2.4e-55],MGA_1242
sequence1	MetaGeneAnnotator	CDS	1346565	1347770	.	+	0	ID=MGA_1243;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023814.1;translation=MFNTGNTAFMLLATSLVMLMTPGLAFFYGGLVGRKNTLSIMMQSFVSLGVTTIMWFAVGYSLSFSGDVWGIIGNLNHAFLHGIKVTDVFSVNDNIPIIVFIAYQMMFAIITPALITGAFADRVKFKAYLVFLVFWQLLVYYPFTHMVWGGGFLQNWGVLDFAGGIVVHTTAGFAALASVLYVGKRKNRKMEPHSIPLVALGTALLWFGWYGFNAGSELKVDEITSIAFLNTDIAASFASITWLIIDWKRARKPKFLGFLTGAVAGLATITPAAGFVTLPVAALIGILAGIVCYLAVEVKVKRDWDDALDVWGVHGMGGFMGVIFLGLFATKSVNPNGANGLFYGGAGFFMKEIIAAVFAAVYAFVFTYIMLIIINKFTPVTVKKQEQEHLDESLHGEDAYI;locus_tag=LOCUS_12350;note=WP_011023814.1 ammonium transporter (Methanosarcina acetivorans) [pid:68.3%25%2C q_cov:99.8%25%2C s_cov:99.0%25%2C Eval:1.5e-159],MGA_1243
sequence1	MetaGeneAnnotator	CDS	1347881	1348285	.	+	0	ID=MGA_1244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFAKKEGEPFDIFEVSDETKYKIYQTLPYDGIEYIDFNVTKEYRIQLLKVVDVKDDFDVYISYNPDKEHVLKIMEEFSEKVLVLINKKDDEKHWFYNSVMHEMINQYKRFLKQNHINFIEEIESEKVVFILKK;locus_tag=LOCUS_12360;note=MGA_1244
sequence1	MetaGeneAnnotator	CDS	1348297	1349376	.	-	0	ID=MGA_1245;product=alanyl-tRNA editing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016455.1;translation=MTINILETIKYNDIYKIKVENFPFYPDGKGGQLGDRGTIKDANIIEVLKDYILIDKELKPGSYEYNIDLKNRIDIAQQHTAQHIISASFEQKYNYETKGFHMSKNYTTVDIDCSNLSDEKIKNIEDLSNNIIQKHIEVEKILIEKSEIEKYKLRKPLSSKVTGKVRLIKIGDFDINPCGGFHVNNTAEIGLIKIINKEKIKGNLTRIYYVAGKRALNDYNYKNTLLKSLSINLTTSIESLNERIKSLLEEKKELKKDLKKLSEEHAKLLSEFLIKNSKDNIIVYEENNDVAKNLIKYFKDFTYIFGKDGEYTITSNTIDCKELSKNIIQKYDVKGGGNKVRANLKGNIIIENILNILKK;locus_tag=LOCUS_12370;note=WP_011016455.1 alanyl-tRNA editing protein (Fusobacterium nucleatum) [pid:39.2%25%2C q_cov:93.0%25%2C s_cov:92.8%25%2C Eval:2.3e-63],MGA_1245
sequence1	MetaGeneAnnotator	CDS	1349394	1350323	.	-	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRERDVYYWQERSILKNLNSEWKEHIVFKIIDKDGYEGIGAATPESLYGETFKTTMAVIELLRRLTENFKDLGNLYDFEEQMNNLVKKDMASKTAVSLSICDYINNKKSLDISKMFFKKQKAENTTLQKIFWKKDLNILNIINKKNIKIEFLEKPSYKDVLETLKLCGNKNLWLDFRGKYNHYELRKLLKEIYTYNIIAIEQPVPPGREYHVSDFALDYAIFWDESIEKMEDILRINNIGTGFVLDITKFGGILNIKKALELSNLIGAETMLSTRIEHPQNLKWSKKIENSFDFIDIDINHYIEKTSK;locus_tag=LOCUS_12380;note=MGA_1246
sequence1	MetaGeneAnnotator	CDS	1350320	1350934	.	-	0	ID=MGA_1247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQINLFLSHLISDFAFSDVYSKDFLDKKNYYKHMIWAAVVFFIFNFDTNNLGKLFAVLAFLIHVALDFFRIKKGSTLLFETISSLSFLILSIPMNNYYLDSYISNPFQIYILGLLITTSIGSYIFRTFNILPKGKKDTTGTSERLAVFIFIMAHQYILALIAIIAGIIYKMLFEKRKDKEIIYSIIYGTALSFIWMLIMGGLK;locus_tag=LOCUS_12390;note=MGA_1247
sequence1	MetaGeneAnnotator	CDS	1350948	1351697	.	-	0	ID=MGA_1248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIYSVYLNTKNLILKEKIELLLRSNNIDVEFEDIFNSDFAIVDNVLRYAFPHIAIIDNVKSLENLPILKNETIDFILEDYSEKILKLKLQNAIYFVLARGSRGAFKQRVLKELDKIKRSGGSFSLAVISILDFNEREKQISQFSLDEVSKEILKLIKLSMRKSDDVLKISRKEFGVVLPFTELRNTETACERIKRRIKKLEKNLRGIKLAFGITEVVNPNESIETIMERLKKALYISEGNRGEISFL;locus_tag=LOCUS_12400;note=WP_004080164.1 diguanylate cyclase (Thermotoga maritima) [pid:24.9%25%2C q_cov:65.5%25%2C s_cov:26.9%25%2C Eval:3.9e-07%2C partial hit],MGA_1248
sequence1	MetaGeneAnnotator	CDS	1351717	1353003	.	-	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081492.1;translation=MKRLNPNVFKVPIDKIRNGYYTDKYFTRYVEVLKKDKINKKVLYQFFPREDATIVGIDEALAILRYGTGYYSDEEKALELFSKIMHLEREIQDAASKMNKEELLKKTAEKWDYRMLLDDMWVDKWDEINVKALNDGDEAKNMEPIMTIEGNPAFFGHLETVLLGVLSRASSTATSVKKVVKTSGGKPILFFSARFDHFWTQATDGYAALKAGAFGVSTDANADYWGIESAGTIPHALIAVYDGKTEDAAIAFDKHIDPHVNRMVLVDWDNDVIGTTFKVVKKFYKYITGKDFILGKTDPKEIIGEGKNKIWAVRFDTSGSLRDKSVIPRNESSLGVNPELVWKARQEFDKNGLNDLKIVVSGGFDANKISLFEKLNVPVDVYGVGSKLLKHKIDFTADIVEVDGKPCAKIGRRKSDHSRLNIINKIYW;locus_tag=LOCUS_12410;note=WP_004081492.1 hypothetical protein (Thermotoga) [pid:68.9%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:8.0e-178],MGA_1249
sequence1	MetaGeneAnnotator	CDS	1353000	1356530	.	-	0	ID=MGA_1250;product=chromosome segregation protein SMC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080167.1;translation=MELLNLTIDGFKSFAKPTSFELNKKIIAIVGPNGSGKSNIVDAIRWLLGEQSSKQMRIDDRTDVIFSGTEKLKPAKIAKVFLTLKNEKNEIFEIGKILDKNSGKYLLNNKTSTLKELHSIFSNGGVGKQFYSIISQGQVSDIVKSSPEDLRDLVLGIIDIGKYLKEKETSLKLLEKTSENLERLKDVLFETEKRLKNLSNRASRAKKHLSYTNELKNIGKKFYGAKKISIKLKIDSLKYLNEELSKEMKELLSKSFDAERAYMSLKQEIENVDKSLSQNGEIIENYRNRISLLEKEKNRISELLNNTNSKIVEHDWKIKTYTENLKKLELRYTEIKDLSEKYYNDMIKVKNKLEIITSEKNELDEKVSEQNKKISEFKAKLSQEKNLFTETNKKLSTSNKEITGKQERISYLNEEFKKLEKDIKNLSKEIQKIEDKLKISTDEEKTLKEIIIKEKNKQSIEFQELEKIKNELNYFFKEKQESEYKLEIIKNQVNSYDGYSKSIKEFFKRFKDEKNVIDVVANLIEVEEQFEEAISAAAGAKLQNIVINSSSEADKYINYMKRVGGRITFLPLDLMKGTYALNKNILKEAGVIDYLINIVEFDKKYIKVMQYTFSNILLVDELKTAITISKNGFKSTIVTLKGEVVYGSGAISGGKTRYDSSIILKRKREIEELKLKIEESIENINYYKDLEEQKSQKIKKLKLHLNSLEEELKELILKRNIESSNYKQLNNDLKNKKSSYDSILNRIETYKNELNELNKEINSLKVIQKEQEKNIKYYTEELSIFSENSTQYTEKMNKINFEILEKNSQLKNTEEKYYMYLNEKKSINHEINNLKNNIINNETEFKNLKSLLETYKKDFEKVQNSHKTLSEEISKIFDIMKNNRKGKVEKIDKLEELDKNRTNIKNKIQEIKDKKNKNDFDIKTLEQNIKFIVEKAKNIDLNEEEFEKEQLEEFEIKALENRIKDIEKALKNIGSVDLTVLKEYKEVRNDFEQKNIEKKDILDSIKKIKDSIDLLDETAEKEFFNFFNLLNEEFKKLVSKLFVNGYGELNLIGEGKDFEKGIQISVKKAGRRFQKLSLFSGGEKALIAIAFLFAMMNLNPSPFYILDEIDAPLDDINAGKIASLIHENSNKSQFLVITHNKLMMEIAEVFYGITMKQGITKVVPVNFKLLEKGVNS;locus_tag=LOCUS_12420;gene=smc;note=WP_004080167.1 chromosome segregation protein SMC (Thermotoga) [pid:28.7%25%2C q_cov:99.6%25%2C s_cov:99.9%25%2C Eval:5.6e-156],MGA_1250
sequence1	MetaGeneAnnotator	CDS	1356531	1357181	.	-	0	ID=MGA_1251;product=type-4 uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081422.1;translation=MFDKNFEIEYINKKISKCEKCSLHLSRNTTVPGEGNINSPIVFVGEGPGADEDATGHPFVGKAGQFLEKMLVNWSKLKKSDVYITNIVKCRPPKNRVPTTEEIKLCTPFLESQLIILKPKIIVALGSTSLKYFGINKKITAARGHFFDWKGNIKIFATFHPSYLIRNQSMEKNSPTWYASFDMKAIGWMYKAFNSGKTADEIVKVINERMKASGGV;locus_tag=LOCUS_12430;gene=tmung;EC_number=3.2.2.27;note=WP_004081422.1 type-4 uracil-DNA glycosylase (Thermotoga maritima) [pid:50.9%25%2C q_cov:79.2%25%2C s_cov:89.6%25%2C Eval:4.8e-45],MGA_1251
sequence1	MetaGeneAnnotator	CDS	1357193	1360678	.	-	0	ID=MGA_1252;product=LptF/LptG family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082254.1;translation=MIKLFKYLSKEMIGPFLMGLFGFIIFASVQLLYQLSEQIVSNRVSFSKLLLLLAYNLPYFISLGIPVGVLFSIFWLISRLSNDNEIIALQTLGIPLKKIVIPFIINSLILCIVTFMLLNSIVPISNFKAKQAIAKYIYKRAEALIEENQFVDVGDGRYLFVKQVDKEHGYLYDLLLYEVKYDSVSVYHAKKAKKEKDGWYMENGRLFKTDDEGYLKLDISFKKLKLDIKQDVDQFLRFAKSPNDMTTKEIKTKIDTFSKLGVDVASLNVAYQQKFADSFSPFVIALLGVSLSLFLNLKSKSWSVISTFILVVLYQGSGAWISALGKEKILNPILAPWIPNIIFIVSGISLFFLLDTKLSYKLIEPIKKFFILIVFFLFLTNTGFSENVYIDCNNINIKDNNITFESSITIKYKNSIVKADYGNALLDKKNKIINATLKGNITYKHEKTTVESSELTLNFEKDDTLFLNSYTVQKYKTKEKKEIDVRIWSDKLEKPTKKDFMIAHGTKLTTCKACQATTYYFYARKISIYPEKFLVARDVIVDLFGVPVFYFPFYFQNLSDEKDSPFKLSLNYGEDKLSIDISINYKFKNNTFIKYKQSILNDTKKNTFDQTSTFNYGFNINDYNFYLFSEIKNYNPGNFGFRIDFLNDKIFGKYSYLNYLYSPSSNENSVNLNVPTLLTQLGELNNIKSKFLWKNNKLYYINFLTVSSSKGLQKKYKRSNFGINKLNLNIETKTNLDSDIIEAWNNKKIDTYANANYNFFSHNTKLSGTLLYNTSVVATETVKNGLESKNSLKNSNILFKTNSKFFSSNLKLDNEINFDYSKDFFESGPYFYGKHVFNFSTSPNFNYSFSIFKAQNSLKYTKGFTPEATNNLYYIDYYQYKLPILKIFESYAKISRKYLANDFSNIHLKELSFKTSNSIDLFDLKFSALTDTSYDTTNEFHLEPNTTKVILRINNPNSSKRLINHETKFTYNHKEENPIDYTENIEKLSFSRNNFIKSSYKYYFNKKSFEESLPEIENSYKFSYKNYIALGDFNLKDKYNEYYFRLKLLENKTPFNLESIFDYKVDTNFLTSTLTYEKKEHNSIIESISTNFDYDINNNLFDFTKFKIEKRIICWTMLFEAELSLLPEFNLKKFTLKFYINDIPEKNVYYENTGSWGINLM;locus_tag=LOCUS_12440;note=WP_004082254.1 LptF/LptG family permease (Thermotoga maritima) [pid:28.0%25%2C q_cov:99.7%25%2C s_cov:99.6%25%2C Eval:1.4e-111],MGA_1252
sequence1	MetaGeneAnnotator	CDS	1360675	1361415	.	-	0	ID=MGA_1253;product=phosphate signaling complex protein PhoU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582863.1;translation=MKSIVSEYSHKKLIIYLNNVLKMGRLTQGMFFKLKDSYFEKDKNLSEEVIAQDDRLDFLESKLEADGMALIGASNFTGKFLKANLVGLKLIYVFEIMGDLCEEAAKLNVELLKMPQRINLNNFEDIFMQTQEMLSTSLRMFSDFINLEIKELTVSEVSEHFFEPAKNICILKQEVSSLLKAYKRSLYRSKDSIKSVNLHLIILTNIETFSDFATNISENVIWAIKGSRYKCRNNKLEYFFSLEDEI;locus_tag=LOCUS_12450;gene=phoU;note=WP_012582863.1 phosphate signaling complex protein PhoU (Dictyoglomus turgidum) [pid:24.1%25%2C q_cov:85.0%25%2C s_cov:90.4%25%2C Eval:1.9e-09],MGA_1253
sequence1	MetaGeneAnnotator	CDS	1361417	1362241	.	-	0	ID=MGA_1254;product=NAD(+)/NADH kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016268.1;translation=MKVLFFYNPNKVSLEHIKEHVIPLFKKYKIEILNIFTAGTEVTEKVALMADYYVVFGGDGTVLRVSELSADYSKPIIGINMGNLGFLTAYSETEIELAAKEISKESITFSERMMLECIIANKKFLALNDIVIQKSQPLRTINLDVLSSNNILYSFKGDGIIVSTPTGSTAYGLSAGGAIIDPNLNAIEIIPLSPHALNIRPFILSPEKKIVIKIKSDEMELAYVTADGDIIHRLELNTSLTITSSKKKVKLAQKLGDNFCNVLNYKLAFGRRFE;locus_tag=LOCUS_12460;note=WP_011016268.1 NAD(+)/NADH kinase (Fusobacterium) [pid:35.7%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:7.2e-37],MGA_1254
sequence1	MetaGeneAnnotator	CDS	1362246	1362542	.	-	0	ID=MGA_1255;product=YggT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082248.1;translation=MFVIANLIQAIAVILRIVIYTFEFSIIISSILSFLMPYPNKYKYALDSISNIILYPIRKYIPVVFAGLDFSPMIGLIVLVFFDNFLVNSLLELAYRLR;locus_tag=LOCUS_12470;note=WP_004082248.1 YggT family protein (Thermotoga) [pid:43.9%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:2.1e-16],MGA_1255
sequence1	MetaGeneAnnotator	CDS	1362545	1363240	.	-	0	ID=MGA_1256;product=YggS family pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082246.1;translation=MKKIIQKNYKAVLDEINETIYKYNRKNVKLIAVSKTFPKEFIEYCYESGQKLFGENKAQELKNKSEFFSNHKDIEWHFIGQLQTNKIKYIVPICEYIHSVYREKELIEIDKKAKKFNKKQKILIEINSGEDSKSGIAIEQFDYFYELSKKYENIIVSGLMTVPPYTQDKEKLKEIFNSLKNIRDKIYIKDTNFKELSFGMSNDFKIAIECGATFLRIGSKIFGNRNYGSGV;locus_tag=LOCUS_12480;note=WP_004082246.1 YggS family pyridoxal phosphate-dependent enzyme (Thermotoga maritima) [pid:43.8%25%2C q_cov:94.4%25%2C s_cov:97.4%25%2C Eval:7.1e-45],MGA_1256
sequence1	MetaGeneAnnotator	CDS	1363212	1364267	.	-	0	ID=MGA_1257;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082245.1;translation=MNEERILNPEELKDEASIISLRPKFLNEYIGQEKIKKRLSVFIDAAKMRKEHLDHIILAGPPGLGKTTMANVIANEMGANIQITSGPVLERAGDLAAILTNLNPGDILFIDEIHRLNRSIEEILYSAMEDYQLDIMIGKGPSARSIRVDLNPFTLIGATTRLGLLASPLRSRFGIILEMNFYPPEELKTIIERNSELLNMKISSDAAMIMGKCSRGTPRIANRLLKRVRDFTQVQKKDLIEVENVLETMKILEIDTQGLDEIDRRILKTIIENYKGGPVGINALASSLGLESDSISEVYEPYLLQNGFLIRTHRGRMVTNKAYELLNYEKNNSNLKLWEMDKNEKNNSKKL;locus_tag=LOCUS_12490;gene=ruvB;EC_number=3.6.4.12;note=WP_004082245.1 Holliday junction branch migration DNA helicase RuvB (Thermotoga maritima) [pid:63.8%25%2C q_cov:93.7%25%2C s_cov:98.5%25%2C Eval:2.1e-117],MGA_1257
sequence1	MetaGeneAnnotator	CDS	1364282	1365583	.	-	0	ID=MGA_1258;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870400.1;translation=MTPWISIKDLKAHIGERVEIRGWLRNKRTGGKISFLQLRDGTGFVQGVLEKSTIDEELYSKVKKLKIESSLIIRGTVKEDTRSTIGVEISIDEVEIIHANETDYPISNKEHGIDFLMEHRHLWLRSQRQFHILKVRNEIIKAMREFYLNRDFKLIDTPIFTGSIGESAGNTFSMEYFDYGDVYLAQTGQLYLEAACMAQGKVFNLGPTFRAEKSKTRRHLIEFWMNEAEVAYYTHEDNMKLQEDLVEYIVQKVIERAEENLIALGRDIDKLKNVKAPFPRITYTDAIKLLQEKGYDIKWGDDLGAEHETVLSSQQDKPLIVEKYPKDIKAFYMQPDPENPDVVLCDDMLAPEGYGEIVGASERIWEKDVLIERLKEKDLPIEDYQWYIDLREFGSVPHSGFGIGVERTVAWICGLNHIREAIPFARTLYRVYP;locus_tag=LOCUS_12500;gene=asnS;EC_number=6.1.1.22;note=WP_012870400.1 asparagine--tRNA ligase (Thermanaerovibrio acidaminovorans) [pid:55.1%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:2.0e-144],MGA_1258
sequence1	MetaGeneAnnotator	CDS	1365674	1366591	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNFPKIFIFKDTIQINLLKHIENISVKTAINITENKEDADVFLGKKPEIKNSVYMLINDNSVSLFIEDNEIQIFNSKNMYENIDLALIKGISISKNKNPLDLFDLKLKHKYKISKFLQGLVVTMEVEDTKTNMSHSQRVAYYCEKFAQFLNKTSEEIENIKELAMLHDIGRIGIEQLMLFTPTRINQFETWELEHTITGSIFLSSLDELWFAVPVVRGHHENWDGSGYPDGLKGEEIPYYARFIGIVDWFDIATHTATSEYEGILTPEEAIEYIEEKSGEIFDPELSKSFLKFIKDYLSKNVFI;locus_tag=LOCUS_12510;note=WP_004080985.1 HD-GYP domain-containing protein (Thermotoga) [pid:52.4%25%2C q_cov:60.3%25%2C s_cov:65.9%25%2C Eval:2.1e-51%2C partial hit],MGA_1259
sequence1	Aragorn:1.2.38	tRNA	1366715	1366789	.	+	.	ID=Aragorn_37;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00370;note=Aragorn_37
sequence1	MetaGeneAnnotator	CDS	1366949	1367791	.	+	0	ID=MGA_1260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLLHLLNKIAPLMELTLSVAHFNHKIRRESDYEEEFVKKECEILGIKFYSNSGDVIGYSNKNKIGIEEAARKLRYDFLFNTLNDISYNKIATAHQGGDLLETVIYRITRGSGIYGIGGLTPVNEKLTRPMLIVTLKDVLKYVTINNVKYVNDPSNLSVEYARNRIRHNVISELYKINSNVEENVLRLVETVWEYRNTVDIEFKKRVKFKENTYIFKLYEDIFDAEVLRKIFLINGTYPPNMEETKKILRMKSSGERFITPLKIVKKKDELFVRVEKKEE;locus_tag=LOCUS_12520;note=WP_010865151.1 tRNA lysidine(34) synthetase TilS (Thermotoga maritima) [pid:36.4%25%2C q_cov:81.4%25%2C s_cov:54.6%25%2C Eval:2.2e-36%2C partial hit],MGA_1260
sequence1	MetaGeneAnnotator	CDS	1367795	1369759	.	+	0	ID=MGA_1261;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081278.1;translation=MAEKNKNSNQKRLGIFFVYIVLAILIYVAVNNMVHTQDVKEVSYSQLVSMINEKQIMKLDIEDTGNVTAKTKDGLKYHVYAPSLLMDQQYVLALANDGIMVNYTKGLSSSWWLNLVGYIIPILFFVFIWYMMLKPMRGNGPQGMNFTKSPSRKYDPVKDKITFDDVAGVEEAKEELIDVVNFLKDPKGFNDLGARMPKGVLLVGPPGTGKTLIARAVAGEANVPFHFISGSDFVELFVGVGAARVRDLFNKAKENSPSIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQLLVEMDGFDTSTGVIIMAATNRPDILDKALLRPGRFDKKVIIDSPDLKGREEILKIHMRGKKIGKDVNAEVLARSTPGFVGADLENLINEAALLAARNKRPNINMEDCEEAIERVIAGPARKSRLVSAKEKEIIAYHELGHAIIGHLLPNSDPVHKVTIVPRGHQALGYTLQLPMEDKYLMSKTEIMDKIVTVLGGRASEEIVFDEITSGAGNDLKKATEYAKTMVCKLGMSTKIGPIAWGEEEGEVFLGRELTKMKNYSEETASQIDAEIKRIIIESYEKAKNILIKNREKLDLIAKYLLEVETLSGEELGNLLKKEISELEEFVEKELNDSKDKVELEKSDKEIKNNETLEEKVSLEKDVENS;locus_tag=LOCUS_12530;gene=ftsH;note=WP_004081278.1 ATP-dependent zinc metalloprotease FtsH (Thermotoga) [pid:57.0%25%2C q_cov:91.6%25%2C s_cov:98.7%25%2C Eval:2.1e-202],MGA_1261
sequence1	MetaGeneAnnotator	CDS	1369775	1370209	.	+	0	ID=MGA_1262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEILNSLKRKIGKEITFSFKVNDDSFLWSEDTKLLEYHALSTSALLEEVHRSGYLTLKEELSDGFTSVVFSTSLKHLKPTPYSFNVFIKLKIVNIKKNEVIFEGEAFDENEKIAEFKFSRIIISANYLKRKIHEKASKINGYQ;locus_tag=LOCUS_12540;note=MGA_1262
sequence1	MetaGeneAnnotator	CDS	1370233	1370961	.	+	0	ID=MGA_1263;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082164.1;translation=MAKKIIMIVEDDPAISEMLSINLSKEGYDVLTAGSADDALKTIEEKDVDFFIVDIMLPGSMDGFDFIRIVKSSEAHRATPVLILSAKDDAADKVAGLELGSDDYVTKPFNVRELLARIKSIFRRQTTASLMKEEGPKKISAKDLVIDTERLEVWVRNELVSLTPLEFDLLVFLAKNEGKVFNRDVLLDKLWGYDYYGDTRTVDVHIRRLRTKIEEDPSNPKYIITVRGKGYKFRDPGKEKNN;locus_tag=LOCUS_12550;note=WP_004082164.1 response regulator transcription factor (Thermotoga maritima) [pid:72.0%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:1.4e-94],MGA_1263
sequence1	MetaGeneAnnotator	CDS	1371012	1372298	.	+	0	ID=MGA_1264;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082162.1;translation=MILNTVLITIFLILFMSFIFLYKHFYITKNKYTKIKNEISKMFDISIKNPSDDFLLHQLSTNIKNLKERFNTEKYRRRNSYSILNSLSEGVVLLSLHSGDVVKVDFANEISKKIFTVDDYVGRSLAEIVDNHYLIDMVLKSFKKNKDIKDELLFYSPEKKYYDCKVKLTNIDDKYRIIILNDITKEKEIENLRREFLTTMSHELRTPLAVMNGYLETILMNSTFEKDIEKMLKIIEDESARLTRLVNDLIDLGKIEKNNISSSKFNKINLSDLIKKTYRFFRMLSEELNIKIVLEIEEDVYIYGEEDRILQVIYNILDNSLKFTALNKKEDNTIWIRLYKDKDTSEEVVFEVEDTGIGIPPKDIQKIFDMFYRVDKSRTRQITGFGLGLYIVKNILEMHKARVFLESEENNGTLFRINFKSLSNENKG;locus_tag=LOCUS_12560;note=WP_004082162.1 ATP-binding protein (Thermotoga maritima) [pid:37.5%25%2C q_cov:95.1%25%2C s_cov:97.3%25%2C Eval:5.0e-71],MGA_1264
sequence1	MetaGeneAnnotator	CDS	1372327	1373637	.	+	0	ID=MGA_1265;product=pyrimidine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082160.1;translation=MRAYDIIMKKRDGQENTKEEIKFMVEGYVKGEIPDYQVSAWLMAIFYNHMTAEERYELTMNMLKSGDTVDLSSIKGKKIDKHSTGGVGDKTTMALAPMVASLGLKVSKLSGRGLGHTGGTIDKLESIPGFKTSISPEEFVKNANEIGVVVAGQTANIAPADKKLYALRDATATVDEVSLISASIMSKKLAVMSDGIVLDVKTGSGAFMKTVEDSEKLAKAMVEIAKLNNRNAVAMVTNMNQPLGDNVGNALEVLEAIETVKGNGPKDFTELCYELAGNMLEVSGIMTYDEAKKKLEENIKDGTVANLMKKWIKAQGGDSNVVDNPEEVLTISKDIVDFKAKKDGYIYTIDTEKVGIASMVLGAGRAKKEDEIDNSVGIKILKKLGAKVSKGDIIAKLYVSKISNVESSLSLLKEAYEIKNEKPDSYNSKLIYSIVK;locus_tag=LOCUS_12570;EC_number=2.4.2.2;note=WP_004082160.1 pyrimidine-nucleoside phosphorylase (Thermotoga) [pid:59.5%25%2C q_cov:96.3%25%2C s_cov:96.8%25%2C Eval:2.2e-143],MGA_1265
sequence1	MetaGeneAnnotator	CDS	1373653	1375320	.	+	0	ID=MGA_1266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLVILTLILNIIIFSEKAVFLQEAKPPLYIESIKNLGNFYLNINDIIKGFDIKIFENKVRNVIILSYKDKILEVVSEENYSKIDFINKYKNSVIVYNKKIFVKEDVIKDFFNLSIHKEKDIIFLYDSTPKIKEFNFSSEKISLLLDKFISRESIKYSKVDDIVILTVSPVQNLKIIPSGIDYSYDSEKAYIKFKSSFDYDLEINKNKILLTMKNTNQSKNSLNTIKANTNYEEKVYKIKDSEYKVYSAKIDFNKFDLKIDTNRLGTYSDINTFFEEKKPYFSINASFFNPKNMEPVANLIKDNKLIYLSAQSYRPNFYITKDGSPNINYLKLEYQIYINNIPLWIKAINTNWKSEVKVYTSEYFGNISETQNDYLFYLVQDKKIISTEPIKPIDNQKLIVINKKYEKYFKDIKVGDSIEESIKNSLDVEIKELAGTGPFLINNEFSQEKMIEEKRAWDNDIIYGKRSRTILAIDNNNVVTFIVAEGNNSETLGLNYDDCKALLEKIGNFKKAVLLDGGSSTIFYYNGIIKNKRNENWRKYIPVFISSYKKSE;locus_tag=LOCUS_12580;note=MGA_1266
sequence1	MetaGeneAnnotator	CDS	1375342	1377411	.	+	0	ID=MGA_1267;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082156.1;translation=MGKLVPSKKRIVGLFGHHGCGKTTMMDAVLKDYSKADRIGQRYLDKDEVEKEKGATFSNHIVSVDYDDLRVTFFDTPGSAEFLGDIETALHSVDNVLIVINGVSGVEVTTERVWKVARRMHKPIMFFINQLDKEGADFERVASELKEIFEDGVKVVPFQVPIGKEDNFRGIVNLLNKKSYIYKDDKLGKSEEQDDIPEEAKEYFEKYHPELIEDIVENDEEALEKYFESGEEELNMQTLIKDLHEAYGHDQIVPVLVGSAEKNIGMDRILFAVKNFGKLTSEKFYETIEGKKIEADFEAPLSGLIVKNDVDPFVGKLTYIRITSGVLKTGDSFNIVDEEATERVSHIYLPRFDKDEEINEAKAGDIVVIPKLKSSKIGETIGSAEFSGKIKTPEYPEPMISKSIIPNSKKDIDKITNALSKLQESDPTFAWEYDSETGETVVNGIGTIHLEVMMEKLKKNFGIDFEIGKPKIAYRETIKKSTKSEFKHKKQTGGHGQYGHVRIEMIPLERGSGYVFEDKIVGGVIPKNFIPSVDKGIREALKKGIVAGYPVVDVKVTLYDGSTHDVDSSDIAFQIAARTAFKNGMKDAKPTLLEPIMHVEIIVPNEYTGGVMGEISSKRGRPMGMETISKGVDKINAEIPLAEMLDFSPKLSSITSGRGYFIMKFSHYMEVPNDIQKKIIEENESEVNA;locus_tag=LOCUS_12590;gene=fusA;note=WP_004082156.1 elongation factor G (Thermotoga) [pid:52.3%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:3.7e-202],MGA_1267
sequence1	MetaGeneAnnotator	CDS	1377561	1379093	.	+	0	ID=MGA_1268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRFCTSGPVDRETCYYAERPKIMEKALIYIESWRYFTVSAPRQTGKTTFLNDIVEKTKDKYLPIFISFESYGNKNIEQFLKTLTKDIIEDIEYRHNIKLEIETPKEIDEIRDIIMEIYEKTGKEVILMIDEFERFKNEELINDFLHVIRSIYHKKQLHKLRSLILISVGYLSGVLEDSASPFNIAEHIEVPYFTKEQVYNLLNQHESETKQNFEEEVKRLIWENAAGQPGLTNALANDLVEEKAKNKKIITKEHFEKTYFDFTKKYIQKNIENVISKAKKERDLIIKILFDPETMDFDISDERIKYLYLNGVIDEYNGKCCVKVPLYYKKLYGYFKPQINGEKKYMATFKDTTNEYIKEEGTLDLNKLIKRYTKYIKTRGAIMFKGRNYYEGVYQYNLDQFLSLYVEAANGKVYPETQVGGGRIDLLINFNNKEYLIEVKANITGNEYEKAKKQLIEYIKRKELKEGWLIVYSSEIDDFEYIIEEHEDKKLHIWLIKTNFESPSIKSNV;locus_tag=LOCUS_12600;note=MGA_1268
sequence1	MetaGeneAnnotator	CDS	1379158	1380045	.	-	0	ID=MGA_1269;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081271.1;translation=MDSKKKGIIFMWIAVILWGISFVGTKIVVEYIPPLTAGFFRFLLAAIALMLFFRKDIKYTKKEFFILSLTAFFGITAYFLFENSALQYTTATNSSLIISTTPMIYLIINDIIKKSFSHKIRYLGTFIALIGVSILVLNGKFILKLNPLGDTLMIGAVASWVLYTLFLEKLEHLNSNIVTRDINILGSIFFIPLVFLELKTSNTCPIFSLWLQPKIIIALIYLGVLSSALAYILWNQAIRLSGSRTVTNGIYFIPVVTVIADSIILKNYPNIYAIIGIILVLGGTVIAELKQKASY;locus_tag=LOCUS_12610;note=WP_004081271.1 DMT family transporter (Thermotoga) [pid:38.7%25%2C q_cov:94.6%25%2C s_cov:89.0%25%2C Eval:3.7e-53],MGA_1269
sequence1	MetaGeneAnnotator	CDS	1380055	1381104	.	-	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGWITLSRLKKMTKFLDYFCGNIEPMHRNIYFFYENGLKIYATDGCAKVMINFSREFLPFSGTAIVPIRYLKGLLRGTPKQSDDIIKIIINKEKMEFELENMTMNIDINRKEQNIELNKKFKVLSEGPLKEFIKALDFVSISANEGDNISIFSRNNKLYFSYSCNYYQLISSSFKTKSDFSFQIPYTTSRHLVKALSNFKDVNMNLGIKNNNLIFYIPGIFLNICYQSIEKPYNGLIKEHYIEKIIIETDEIKKALNKLYVAFSNNIAFLILNPQTSFIYKDENNSRISWKLPISTKNQYLVSIHIKKMRSILTRMNKKITLYLGKNEIVFVNKNFKSRFKVLEFKKL;locus_tag=LOCUS_12620;note=MGA_1270
sequence1	MetaGeneAnnotator	CDS	1381106	1385308	.	-	0	ID=MGA_1271;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081285.1;translation=MELKEFFLEYLGFIPLKINGNIDINKKECIVELHESKNSSFENYLKKLLMRITKKNVSIKQLGNNSLQFFVNNWNNLITGNQLERFLRLILPEIENEDTLILKTHSLLIKSKINMNKSIFEDFILKYTGKKLNYKIVIDEKLNPETETYSQNYYDNQMEYIEQQNYETPLKQTNTKLNNGNVIIGKNFKKIPIPLKNIPLSENTIIVVKGTVFHKEYNDKNKIVSIFITDKTDSIIIKAFKEKAEKIFNSISEGDSIKVEGSIFYDTYINDFAIMPFNLIKEKSNDERMDTYEEKRVELHMHSRLSTMDGILPIKDIVNQAAKWGHKAVAITDHGIVQSIPVFYDTAKKANIKPIFGTEAYVVDESVNIITLNSEDKLLDETDYVVFDFETTGLQPAVNEIIEIGAVKIKNGEVSETYHELIKPTVKLPEIITKITNITDEMLEDKKGIEEVLPSFLEFIEGTVLVAHNADFDYRFLREWVNKLYNKKFKMTYIDTLSMSKSLLNLSGYALNRVVKALKLDNFNHHRADEDARITALVFLELLKKAKNRGLEKLSELDNLKKLIDYKSLRPVHMTILVKNKIGLKNLYKLISNAHLKYFYRVPRILKSELNNLREGLLIGSGCQDGELSEAFLRSATKDELVEIAKFYDFIEIMPIDTVETKDPLTDDLKKDMYRTFYNISKELNLPSVMTGNVHYMESKDVKFRYALKVADKKRPMISNRYFRTTNEMIDEAIKIFEDKTIAEEIVIKNTNKIANLIEEIQPLKKVLTPPKIDGAEDMVRNLSMDTAHKIYGEPLPQIIVDRLNFELDAIINNGYSVLYLMAQKIVKKSNDDGYLVGSRGSVGSSLVATMMGITEVNPLAPHYICPECKYSEFITDGSYSSGYDLPDKKCPKCGSKLKKNGQSIPFATFMGFEGDKVPDIDLNFSGEYQTTAHKYVEEMFGVGHVFKAGTISTVAERTAYGYAKAFKEDMDKYNLDKFYGDVRSAELQRIASHITGVKRTTGQHPGGLMIVPKEYEVYDFTPIQRPANDQKSTVTTTHFDYHVIHDDLIKLDALGHDDPTFIRMLQDLTGIDPLDVPLDDKETISLFSGYSALKADLKKELDSNVGSFGIPEFGTPFVRRMLEDTMPKTFAELVRISGLSHGTDVWLGNAQTLIKEGKATLKDVISCRDDIMNYLIQKGNDPKKSFFIMEKVRKGKGLTPEEEKQMRDVKVPEWFINSCKKIKYLFPKAHATAYVSMAVRIAWFKVHEPLAFYATYFSVKGDEFNLAVIIKGKNAIKKRLMELKTMDLDVKKKSEKTVLEIALEMLLRGFEFKNVDLNNSDSKKFLIVDNGLLIPFLKIPQLGEKAAESIIVERQKKPFNSIQNLLSRTGLNKTNIETLKELGILKGLPETNQMSLFGG;locus_tag=LOCUS_12630;gene=polC;EC_number=2.7.7.7;note=WP_004081285.1 DNA polymerase III subunit alpha (Thermotoga maritima) [pid:53.7%25%2C q_cov:91.4%25%2C s_cov:93.3%25%2C Eval:0.0e+00],MGA_1271
sequence1	MetaGeneAnnotator	CDS	1385308	1385784	.	-	0	ID=MGA_1272;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081287.1;translation=MRILGIDPGYGRIGYGILDKVGNKFKMIKYGVIYTDKDLPLTKRLNQIYDKIIELIEEFNPDESSVEELFFFRNVTTAIQVGEARGVILLALEKSKVPIFEYTPYQIKQAVTGYGRAEKGQIQRTLKIFLNLEKTPTPDDAADALAAAFCHGNYGGRY;locus_tag=LOCUS_12640;gene=ruvC;EC_number=3.1.21.10;note=WP_004081287.1 crossover junction endodeoxyribonuclease RuvC (Thermotoga maritima) [pid:53.0%25%2C q_cov:95.6%25%2C s_cov:91.5%25%2C Eval:1.1e-42],MGA_1272
sequence1	MetaGeneAnnotator	CDS	1385937	1386569	.	+	0	ID=MGA_1273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKNLEFIKELNKKEITLKKGEILHNQNELIENLSILKEGSLKVVKYLTTGKEVLINNIKSGQIFGETLLFINEKYPAYIIAEENSIVIEINKNELLVLMKNEEFLVEYLKNISKKILNMTQKLEIFSMKDAKQRVAKYLLDLYEKNGNTITMKVSKVNIAKELGLTRETVSRILSNFIKEKIVYIEKNFIKILNIKEIENIIYETKNRD;locus_tag=LOCUS_12650;note=WP_011948381.1 Crp/Fnr family transcriptional regulator (Clostridium botulinum) [pid:33.1%25%2C q_cov:76.2%25%2C s_cov:71.2%25%2C Eval:1.1e-17%2C partial hit],MGA_1273
sequence1	MetaGeneAnnotator	CDS	1386637	1387113	.	+	0	ID=MGA_1274;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393698.1;translation=MNTIILISLAVILFIWSIIKSKKKTKASLKIAKGMFLGMVSELIGIMAIVALVLSYLPPDLIKKLLGNSNLFLSSIYGAVIGTITIIPAFIAFPLSKSLYESGANLVAIAAFITTLTMVGFATMPIEIEHFGKKFTFYRNFLSFVFALVVALGMAVIL;locus_tag=LOCUS_12660;note=WP_011393698.1 permease (Moorella thermoacetica) [pid:36.7%25%2C q_cov:98.7%25%2C s_cov:98.8%25%2C Eval:1.4e-24],MGA_1274
sequence1	MetaGeneAnnotator	CDS	1387110	1387787	.	+	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIKKNKILVVAIVLYVITFFYNRGIFNNSLIMTKNFLVEMLEIMPAIMIISGLINIWVPQEVIIKNFGKSSGLKGKLFSMLIGSFSAGPIYAAFPVAQSLYFKGASIANVVIIISSWAVTKWVMFMVESSFLGLKFALTRYALTIPMILIMGYIMEKLVHKEDMIEEKEEIKKIIEGSKEYYLQKLPQKNCGACGYGNCENFAIALSKKETNINKCVFLKSKN;locus_tag=LOCUS_12670;note=WP_011393699.1 permease (Moorella thermoacetica) [pid:39.1%25%2C q_cov:71.6%25%2C s_cov:89.4%25%2C Eval:4.0e-29%2C partial hit],MGA_1275
sequence1	MetaGeneAnnotator	CDS	1388012	1388803	.	+	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFFIMVLLVSVIFLGEDFRNIFQKSGTKLGFYLASKIGDSVVGILPFEGNDKEKSTLVSDIYSYYLMENNIKIVDRKELEKVIKEIKLSMLGITDIKNSNKLGNLISADYLLTGNIKKLGDIYYINIKVIKVSTGESIYTDSINFEDKEFITIKKVEEYFAERKYPSTALFRSALIPGWGQMYNDQPIKGGIFGISMIGSISLDLYFFNEYQKYLNSTNEEMYDKDLKKANDYNKYFLISFGTTIAIWIINMADAYINAK;locus_tag=LOCUS_12680;note=MGA_1276
sequence1	MetaGeneAnnotator	CDS	1388823	1397159	.	+	0	ID=MGA_1277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYIELTILFLIIVLTLTSCILKPTPGTIQGHINLKFSDQLDGTLIKIKGLNTTVKTDKDGNFMIKNLEPKDYTLQISRQDYEEKEIKVNVYTGNIVSVNTSLSFKFGKVLGSVSVLNDEDEINLNFINLDKKAKDLKNKILKGSNTFEYNLMPGKYNLVINSNKYSSYEKEITVVKDKKIELAPIILQSIMGIIEGKIIPQNVNGEDDLNSEKSNFSIKLYNKDTLKVETVTDKNGYFHLNYHEGTYTIKIVKKNYITQTIEVNIYKNKTNSLSNIKMFVGGENKGWIKGKVYLEDRKNNENSGIGIIFKPLNSENIVQTTITDKDGNYNSLLDVGKYEVEISKENYTSVSTQVNVEEYKISSLQSVELKRKSTLVEGYVKLPGSLDNSGAIVQIGDFSETTNKDGYYKIISKTGVQDIKVTKENYIAYSDKLNVLDLDKNKFDLILEPLKSSIEGFAKYNIESINNQEGITVTIEGTSLDLNNKEINVFFTTKTDKNGYYKIINVPFGKYKISYSAQGFSTVVLNNLEIYPNQKKTIEKIIFLEEIPTTGSVYGKAYLKNSKDMSGINVLAKKHNGPGYITVTDINGTYVFPKISSGIYDLEFSKFSYKTYVIKDVKVNIGDKINIKDSPILEKASGKIIGTVKLEGWNNSKDIKIELLGDYEKKLGYRLYTYTDENGNFELEAPVSQNYTGLRVYKNEDFEDYTYSDNFQTTETTPYKPIFEKTSDTPLILKAIKNTVKGKVTIANFTNNLNIEVELKSKTSDATYLTYTNKEGIFEFQHIPLGTYIQKSSFPQCGYVLSPVDVIPGNLVQTNDVTLFPNAGEVTGKVNLKNVTDNSKVSITLIPFDTNVEKMSYNTITNENGNYTFGSILHGKYKLIAKKDGWNENKIDSLEVKSFKTTTVPTLELSDTIPPIINKVLINGGSSTTDNTKVIITTFAKDVGSGLYQISISNDKNQENWMKYEYQKIYDLDSTEGEKTIYVKVKDNSENISEMKTASTSLIHLPNATNLTDYLHGKIVTKDTVITKAQSPYYVSDSILVNENVKLTIEAGVVLIFKNNTNIIINGFIEARGTNDEKIVFKPENIDDVFNLKVNSSSKDIQNKTMNKRNFLKSKNIFTSSLKDMINSEMKRTIKYLKDKQFKTVVDNKTIEISNNLKSKNLYNKINKEYSEEQTNTSNILENIDMEKGNLEIENGVIKNLTGNSLKILNYVEIYNSNLKILDCETGMVKLINSNILSSFNLSGYITDSNLVNSNNHNYALTNSYVKNSSLTGNFRINNSIVEDSSIEFSKNDYDNTYIQNSKISNSKISKLSDGMNENIRMNIASSILISNTIKDITIKITGTSMMNNENNFSYFSYIIYNNIFNEHTGIEIGTNKVLLAYNNFIGQIDFAIKLMDSAKNGNIESKNNYFGTDNIEQIKNKIYDYDDDPNFSLSRVNFEPYETKEINSISEIQEITSKELSGNLYLNYKLTKNNSPYVVTDNLSIFGKLIIEPGVEIKVNKDKKIDIYGSIEAGDVDKESINFYTNTGVMAKDMWYGITFYNTNEKSIKFENVIIDNTITGITLQNASVKLNKLTIKQTTTGIQTSGNSNLTLINSNVQNSTSNDIEFLGNTLKINDSKVNKLNLNGGNNNGSYQIEDSKFTSIVFMNSIYKNVYFKNINTQSLNMNYIYSNIKIENSIIGRLYNESISNGVLYVENSKINSFSSNHMWYNSKLIIKNNEINFFDALCDMNNNFEGKIIIQKNKFKNNFFIGMNTTDSKNQDGYDVDIFNNTFDYTNSQYQNGEGNVIINRLKYVSIHDNIFKNGVELKITNDKTTKIYDNTFKDNNYDTLIVDGELSMPEIYNNTFYGNNNYAVVVRKGLIAGFKNNYIALNFGGVKIENMSNNINLSENIIMMNRYLNLENNSNYKINLSDNFWGLYTEESIKETIMGSYEMESFKTKLIEEAGSSEKPDIGELLSYTNLKDYILNNDTLKEEDSPYLVTSDIDLNNMIFEGNIEIKISDGRKVIINKSKQKSGTLTFSSVYERNEASNITKVINNSKLNDFQINGISLENNNDIGTLLLNNGFVNGKGIIEQLNTSGTLNTVDVYKVMNADISTNFISNNSNFDTVNLKNVNNAEFNLGKILKLNTENVKTLKLNSESIENIVTTTVDNLYLNNVELNKAKISNAKYLESNSKIEESNFKDIESINLFNANVFKSTFDNSPVLLSNTKLFNNTIKNANIGLTIKEANDEDSVYIMKNVFDNNTEDIKSNVSNKINAQYNYFVSGTPNISGNIDVSNSLSETPNDEEVALNHEISGKIILNSVLKASDKDYKVTDNLIIIGRLRVEPGVNIKIKEGKKIEVRGSLIVEGTKEDNVFIKPDTSILIKDKWSGFDIKAGGTLTLKYAVTGYASTLINNFGTVNVENSKIKLNTIAFNQYENSSSSILNSKISSNDSVIKFSNNSEEFEFNIDNCNFYSNSSFIDIDNEGYSDKAKSYLNISNSKISSNSFEINRLNCKVQNTLIKTSNFNLNSSNFESDFSTITYIDNMSMNVYVGSDTSVVIKNSYLNTLNTSYSNNIIINAENSTFTNINFYREYNNKISIENCKVSNLQLDNFSGILNVNNGKIGHLRISGTIKGNINFNNILFEKIDENYNNLIEINSNYPIIFNNIHLNGNNKNTDGIFISNDAMIGFKNSIFENCSKAINIEKGALLYFDKNKIINNSYGIYIKEFPSEDVELQITNNEFNNTHYNIYNETKNKVIADDNYWNTLDETTIKNKIYNVVVSKWLSESPIN;locus_tag=LOCUS_12690;note=WP_022819412.1 hemagglutinin repeat-containing protein (Fusobacterium russii) [pid:22.2%25%2C q_cov:28.9%25%2C s_cov:26.8%25%2C Eval:9.2e-11%2C partial hit],MGA_1277
sequence1	MetaGeneAnnotator	CDS	1397425	1399914	.	+	0	ID=MGA_1278;product=adenosylcobalamin-dependent ribonucleoside-diphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082700.1;translation=MVSKELNDLLIRLENVKPSQNAYTILKDRYFLKDENREYLENDWDDIAKRVARHVASAEVLYTDDVEKIREIENIYYRLVLSRVFLPNSPTLFNSGKTMSRKIFTKEVKDMIYEDYKYIYDNKGKHNMLSACFVIPMEDSMEGIFNAVKNSAMIMKYGGGVGYDFSVLRPQGSSIAGTGGKSSGPISFMNVFNVSASTIEQGGARRAAQMAVMRYDHPNVLNFIHAKKNNDGKSVLNYFNISVNIDNPEEFLELVNEDGELSLIHGGKEFDKIKAKEMLKTISENAWKSGDPGLLFLGRHNKYYAMSEKTPVRATNPCGEEPLPPYGSCNLGSIDIAKLINDFDITRENEVFKEIVYWCTRFLDDVIDINVYPLKEIEEMSRAQRFIGLGIMGLADALYYKELPYDSNEGREFMAKVTAALAYYSHVSSSDLAKERGNFPEFENSKYPKAFIPFPMLKEDYMKQWNEKIIEHFNSEAIKYKRNVQTNTIAPTGSISNLADTSSGIEPNFMLAYIRYMTDKEGNKVPLPYINKVLLNKLNSHMTDDLEAEIIEKGSLKNINGISEELKRIFITSMDISPLDHVLAQNAIQSYLDASCSKTINMPNDVSVDDVYDIYKKALSLNLKGITIYRDGSLQTQVLTSNEKKEKVSFFVIDEKHKLRARPRKDTLRSVTRKFKADGNTVYITLAFDDTGEAIEIFLSDGTETAEVIGRLSSIALRAGVSSDEIMQQLTKVKGEYCVNLSSEIKKAIDDFENLWEKEDVDYKVLKTGVPMSKDDVEKFVHANDLKYEKGLYVDNDGNTYCPSCLTKNSLIMVEGCTSCKKCGWSKCS;locus_tag=LOCUS_12700;EC_number=1.17.4.1;note=WP_004082700.1 adenosylcobalamin-dependent ribonucleoside-diphosphate reductase (Thermotoga maritima) [pid:51.7%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:3.4e-245],MGA_1278
sequence1	MetaGeneAnnotator	CDS	1399971	1401455	.	+	0	ID=MGA_1279;product=carboxypeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398513.1;translation=MKKIEELKNEFRKISRYGHAIALIGWDLETGAPKKAVEKRAEVLGELSSYAFELSISEKIGKLIEESEKEELNEDDKALIRIVKKEYEKSKKIPPELMREFSIVTSNAQAAWEKARKEKDFNVFKPHLEKVVELTKKMADIIGYKENRYDALLDMYEPGLTVKDLNEIIKTLKDELVPFVSKLLNEGKKPNDSFMKGHFDNKKQENLSYVVLDKMGYDLESGRMDVAVHPFTTTIGPNDVRITTRYREDDFRDSFYSTVHEGGHALYEQGISEKYSDLPIGEAASMAIHESQSRFWENIVGRSLGFWKNFYPEVQKEFEQFKDVSVEDFYKAVNVVEKSLIRVDADEVTYNLHVMLRYEIEEALINDRIKVEDLPKIWNQKTKEYFGIEPKDDVEGVLQDVHWSHGSFGYFPSYMLGNLYSAQLYYKLKEEINFEEKLETGDFKEVLNWLRTNVHQYGSKYEPQDLIEKITGERLNPQYFMKYLKEKYSKIYNI;locus_tag=LOCUS_12710;gene=ypwA;EC_number=3.4.17.19;note=WP_004398513.1 carboxypeptidase (Bacillus) [pid:45.5%25%2C q_cov:98.8%25%2C s_cov:98.2%25%2C Eval:1.9e-133],MGA_1279
sequence1	MetaGeneAnnotator	CDS	1401534	1402181	.	-	0	ID=MGA_1280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLIILPILYILIIKLLYSFNINSILTYFIKIFTFIFIVYIVKKANLFKTIELNKKLKIKKIYFYLIAPVLGYGFYLFWKYFQEIIVIKNFYTKNELLLRVSSLFLVLKKAPYIGTTTFIMIISLIIFATIEEILMRKMVYGSLRKKSIVFAMILSSLIFTFAHTIDSYGQLTNIFLFGIFLSFFYEISGDIIVSILIHFTYNFSVLYPTIFK;locus_tag=LOCUS_12720;note=MGA_1280
sequence1	MetaGeneAnnotator	CDS	1402178	1402888	.	-	0	ID=MGA_1281;product=type II CAAX endopeptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948923.1;translation=MNIKAFFKKDYSLFLITLLYLVIMGLSRNLEIIFINNYVFYFFYYMFFVCIYLFRKNIKEKNIFLKPKLNKKYRILTYVFGAFIGFFILKLNNYLQCTFLQNSFFFEQNELMKHFSNFGLTFVHIQVKSNVFSETTLQRVLFLVIIAPIYEELIYRGIIFGFLKKKNIFLAFILSTLLFVSWHNFDTIAVFFNLFLAGFIYSLAYYFSGDLILSMVFHASYNLFCLLPSIMENIIK;locus_tag=LOCUS_12730;note=WP_011948923.1 type II CAAX endopeptidase family protein (Clostridium botulinum) [pid:25.4%25%2C q_cov:100.0%25%2C s_cov:79.9%25%2C Eval:6.5e-09],MGA_1281
sequence1	MetaGeneAnnotator	CDS	1403219	1403929	.	-	0	ID=MGA_1282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKIVFILTSLFVFVIILILIGFQCKNYIYTHYVFDLKGSLKNIIENKKMDIDLENFNDKKIVVITEKSCKTREKIKNYPEKIITKTKFENNLLNYALEKFIKNGISENIIDKNIKKEEIQIINKEDIHLLKSQASFEIRYIIFGRVMKKEKNKYVEAYRTKLGTYTLKNIDTINRYTRFFYLKYPKFVNELINPKTKVFSIYTDTIHDLKGNTNKTHLDDLQYNFETLLKIVRF;locus_tag=LOCUS_12740;note=MGA_1282
sequence1	MetaGeneAnnotator	CDS	1404617	1405423	.	+	0	ID=MGA_1283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKTIVSMVQMESIYGNIDKNIKKHEYFIKKAQLNNSDIICFPELSLTGYNSNHDLNLAQTIKGNIIKKMKNLSKKYSMNLLFGFIEKEKKFYYITHVFIDKRQNDFYYRKIQLGENEKKYYTSGDTLKVFEYKTSNNEIIKFGIGICYDMHFPEHTYIYAKNGADLIFSPHASFFNAKRRIEIWNKYLSTRAYDNRVFILACNNLFDNHHKGGGICGWDNEGNLLNSYNLPKDYILNFELNIDKTKNKKDKFLKDKKVLIYKKYF;locus_tag=LOCUS_12750;note=WP_012545979.1 NAD+ synthase (Thermodesulfovibrio yellowstonii) [pid:33.8%25%2C q_cov:77.6%25%2C s_cov:35.7%25%2C Eval:3.1e-16%2C partial hit],MGA_1283
sequence1	MetaGeneAnnotator	CDS	1405434	1405943	.	+	0	ID=MGA_1284;product=cob(I)yrinic acid a%2Cc-diamide adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948638.1;translation=MSYVQVYTGNGKGKTTASLGLSLRAVCAGKKVFMGQFIKTVDYSELKAMDFLPNFEIKRFGKSSFIFGKPTQEDIEAAKNGLRELEKKITSGNYDIVIMDEVNVAIHYNLLNVEEVINVLNNRAKNTEVVLTGRYAKNEIIEYADLVSEIKEVKHYYKTGVQARAGIEK;locus_tag=LOCUS_12760;gene=cobO;EC_number=2.5.1.17;note=WP_011948638.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Clostridium botulinum) [pid:63.3%25%2C q_cov:98.2%25%2C s_cov:96.0%25%2C Eval:2.7e-59],MGA_1284
sequence1	MetaGeneAnnotator	CDS	1405974	1406204	.	-	0	ID=MGA_1285;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081224.1;translation=MAFVRRRRRVRKCKMCSMKIDYIDYKDTNFLSDFVNERGKIVPKRINGNCAKHQRMVRQAIQRARHMALIPFTRDV;locus_tag=LOCUS_12770;gene=rpsR;note=WP_004081224.1 30S ribosomal protein S18 (Thermotoga maritima) [pid:54.1%25%2C q_cov:97.4%25%2C s_cov:98.7%25%2C Eval:5.9e-22],MGA_1285
sequence1	MetaGeneAnnotator	CDS	1406223	1406693	.	-	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAYNKVVLVGRLTRDPEIRSTVNGSTVANFSLAVNRQGKNDNTDFIRIVAFGKQAEFASNYLSKGQLILVEGSLHINKWTDKNDIRRETAEVWVSQMTFMESKKAHQENNMDIQVEDSYKKSNVKSIDDSNDLPDFDDPFSDLEGDLSSDENPF;locus_tag=LOCUS_12780;note=WP_004081225.1 single-stranded DNA-binding protein (Thermotoga maritima) [pid:40.8%25%2C q_cov:73.7%25%2C s_cov:88.7%25%2C Eval:2.0e-20%2C partial hit],MGA_1286
sequence1	MetaGeneAnnotator	CDS	1406700	1407080	.	-	0	ID=MGA_1287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKARYYETMIIVRPDLAEEARNEVVDKVKGWIEEKVGGTIETAERWGMRKLAYRTQKTNFTEGDYAYFIYKGEPEKVNVLDDLFHITAEVFRHQTFRREDLEKKAKKKESNITVEAPVTSEESAE;locus_tag=LOCUS_12790;note=MGA_1287
sequence1	MetaGeneAnnotator	CDS	1407251	1408285	.	+	0	ID=MGA_1288;product=potassium channel protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080445.1;translation=MFDEKKQIKKLTISISVILLIFLIGTFGYQLLEGWSFIDSLFFTVITMSTVGYSMPENISTITKFFTVGLIFSGLTVVLYAFSSLTSFIIEGEIFNLMGRRKMMKTINRMKEHTILIGAGKTANFVMLNLLKTNTDFVIIDIKEENIKKLIEEMSAYEVPYIIGDVKEENTLLYAGIMHAKNVILTLPSDVDNLYAALTIKTLNPNVSIVSKVNEPQNVKKLIYAGIDKIVLTSEIAGNRLAYLATKPNVVTFLDKVTRAGEVEYILEEIKVPETSWMLNKTLREIALPKLVDLIIIAINKKDNKYIFNPNANHKIENGDTVVVLGKEHKISDLKKIIKEENYI;locus_tag=LOCUS_12800;note=WP_004080445.1 potassium channel protein (Thermotoga maritima) [pid:42.6%25%2C q_cov:94.2%25%2C s_cov:96.7%25%2C Eval:1.3e-71],MGA_1288
sequence1	MetaGeneAnnotator	CDS	1408313	1408822	.	+	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010937679.1;translation=MENPFVLAMVEFAILGTAGEIAGTLLKKEKLNVVKVIHSAVTWAILGVIIKFMFAGFNGFVDTLTQHHYLPSGKFFSAFFKSFFTNALFGPWIIISHRFLDNLPKFKIPSNGLKGAMLTLLWFWLPAHTVTFMLPHTWQVTLAAVWSFVLGLILGFFANTKSKKSGEPV;locus_tag=LOCUS_12810;note=WP_010937679.1 hypothetical protein (Desulfovibrio vulgaris) [pid:30.3%25%2C q_cov:93.5%25%2C s_cov:83.5%25%2C Eval:8.6e-13],MGA_1289
sequence1	MetaGeneAnnotator	CDS	1408822	1410126	.	+	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFLFVLSLSLYSFSLNLNFNIGLTYNSTITDDIEFNLYHKTKKFDFVIDISFLNDNKYIFHEKNFYFGHYFLNNNDYIAYKNNNIKITAGIKDLEDEVDSPYSLFFSSKNISKPIFELDYNDELFFFKSRWIQLNKNSSQGYKDRGLDYKVYGIKLNDFKVGFQNIVLYDNRDFDYFYLFNPLPAYFTQEIRSSGNSMPWTENLNDNSIMGFFGSYNNKCLYSYLQILVDDFNMNRFFNPNGKQNPDKIAWSFGSVFSNDYGNFYFYNAGATKYTFNPYSSHSGYTLYPSDIYNDNHIIDYKDNYIGYYYGENSLSFLFGYKGNLNDYELSTSLEFVVSGSKSPNNPWGIISDNTVPTGTHFLDDSTLEKTFTYTSTISKKVFNTNLFLSFKYINTMNELKYDSTKKIFESIKGNDNTKFEISSYIKLQF;locus_tag=LOCUS_12820;note=WP_004081158.1 hypothetical protein (Thermotoga maritima) [pid:27.5%25%2C q_cov:70.3%25%2C s_cov:73.0%25%2C Eval:3.9e-23%2C partial hit],MGA_1290
sequence1	MetaGeneAnnotator	CDS	1410139	1410627	.	+	0	ID=MGA_1291;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434191.1;translation=MDNPIIVIEMEDGSKIKAELYPEIAPITVENFLKLIKEGFYDGLTFHRIIKGFVIQGGCPNGDGTGGPGYSIKGEFESNGVKNDLKHEKGILSMARAQDPNSAGSQFFIMLDSHPHLDGSYAAFGKVIEGMDVVDYIASVKTNYADMPLEPVRIKNITIEKE;locus_tag=LOCUS_12830;note=WP_003434191.1 peptidylprolyl isomerase (Clostridioides difficile) [pid:63.9%25%2C q_cov:97.5%25%2C s_cov:90.8%25%2C Eval:3.9e-57],MGA_1291
sequence1	MetaGeneAnnotator	CDS	1410681	1412465	.	-	0	ID=MGA_1292;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIDDNMYFVDKSMLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEYLFKDLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHALLTMELSRLYLKHKYVLEVLDNEEKIIYDKIMGREALDADYENSIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLEVSTVLNELFNDKYGLTKEEVEETLKYYELEYEENEVIDWYNGYNFGGVEIYNPFSIVTLAKNKGKIGPYWMNTSGNYLIRKLIKEGTVNIKDSIEKLLNGENIESKINETMVYGDLYLNSNESIWTLFLFSGYLKWIKETKEGYRRYTLAIPNKEVRMFYEDTVLLMLEEGNIQLDNILINLINGHIEEFKEDFQKMTMNTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKILLNSAQNGLKQINEKKYEEEIKSYGINDIIKISIAFDKKEVEIVSNLDKEVELTEIEKVAKNMLKKGLDKNMISELTGLSITEIVNLYK;locus_tag=LOCUS_12840;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.9%25%2C q_cov:92.3%25%2C s_cov:99.1%25%2C Eval:1.1e-98],MGA_1292
sequence1	MetaGeneAnnotator	CDS	1413179	1413583	.	-	0	ID=MGA_1293;product=biotin/lipoyl-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902663.1;translation=MIKKFNVKVNGKSYEVEVEEVSSQGTVPVQSVPVAAPVQKPAATPASAPTPKPAATPASAPTAGGHEVISPLPGAVVDILVSVGQSVSEGDKLIIIEAMKMENEIPAPVSGVIDKILVKKGDTVEGEQLLITIK;locus_tag=LOCUS_12850;note=WP_005902663.1 biotin/lipoyl-binding protein (Fusobacterium nucleatum) [pid:36.8%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:4.3e-17],MGA_1293
sequence1	MetaGeneAnnotator	CDS	1413602	1413949	.	-	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKVWFITIAGILTVFIILVILMLVVSLLRHFSKTEKKGAKKEINLPSSAPSKVVNKVEINSNDENEEIAAIMGAISAFMGNKNYVVKSIKPAKKSVFSNSRWGTVNPTVTWRTR;locus_tag=LOCUS_12860;note=MGA_1294
sequence1	MetaGeneAnnotator	CDS	1413964	1415520	.	-	0	ID=MGA_1295;product=acyl-CoA carboxylase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081020.1;translation=MADEKFVELLENFREKKSKLELGGGQARIDKQHSQGKLTARERIELLVDEGSFEEIDKFVKHRSTYLGLDKKTFPYDGVVTGFGTIKGKKVAVFSQDFTVQGGSLGEMHAKKIIKLQDLAMKFGVPVIGINDSAGARIQEAVDSLYGYGGIFYRNTLASGVIPQITVIAGPCAGGAVYSPAITDFIIMVEKTSQMFITGPNVIKAVTGEDVSKEGLGGAMVHNSKSGVAHLIAKSDEEAMEMTKKLMSYIPSNNLDPVEITEFDENYNLNEKIYDIVSPNPKKAYDVRDIINMTFDPETFFEIQPHFAKNMITGFARMGGKSVGIIANQPKIMAGALDIDASDKASRFIRFCDAFNIPIVTFVDTPGFLPGVSQEHGGIIRHGAKLLYAYSEATVPMITIILRKSYGGAYIAMASQHLGADFVFAWPISEIAVMGAEGAANVIFAKEIKNSENPEQTRKQRIEEYKEQFNNPYEVAGRGYIEDVIDPIDTRNVIMNSLFIAESKAEARPAKKHGNIPL;locus_tag=LOCUS_12870;note=WP_004081020.1 acyl-CoA carboxylase subunit beta (Thermotoga maritima) [pid:68.0%25%2C q_cov:98.3%25%2C s_cov:98.8%25%2C Eval:1.8e-206],MGA_1295
sequence1	MetaGeneAnnotator	CDS	1415533	1415934	.	-	0	ID=MGA_1296;product=methylmalonyl-CoA epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943915.1;translation=MKNKIDHIGIVVKSIDDALKFYNGLLGITPAGEEILEDRGLRVCFIEIGDTRIELLQPTREDSEVSKFLEKKGEGLHHVAYEVENVKEAIEKAKEIGLKPLSDEPKPGAHNTSVVFMHPKTTNGVLTELLQHN;locus_tag=LOCUS_12880;gene=mce;EC_number=5.1.99.1;note=WP_010943915.1 methylmalonyl-CoA epimerase (Geobacter sulfurreducens) [pid:48.9%25%2C q_cov:98.5%25%2C s_cov:97.8%25%2C Eval:9.6e-33],MGA_1296
sequence1	MetaGeneAnnotator	CDS	1415924	1416856	.	-	0	ID=MGA_1297;product=methylmalonyl Co-A mutase-associated GTPase MeaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011227730.1;translation=MSWENKFNSIIEKFKSGEIYALAKMVSLVEDNPDYAWEIISKLPKKEHKQIIGITGSPGAGKSTLTSKLVEKLAKKGEKIGVIAVDPSSSFSGGAFLGDRIRMRNITKSQNVYIRSVASRGSVGGLCDSIFDIVDVMESFGFDKIIIETVGAGQTEIEIVFVADTILLVMSPDSGDEIQMFKAGIMEIADGYVVNKTDLPEANGFMTQLKNTLMLEVESKSTRRVFGTSSVLNMGIEDIVSWFDEHYNSLINTGELNDRQIRRNKRRIRSNLLRILDKVVYNYDGKIEDLEFAKEKILRELCKEENNYEK;locus_tag=LOCUS_12890;gene=meaB;note=WP_011227730.1 methylmalonyl Co-A mutase-associated GTPase MeaB (Thermus thermophilus) [pid:44.7%25%2C q_cov:78.7%25%2C s_cov:78.1%25%2C Eval:9.3e-55],MGA_1297
sequence1	MetaGeneAnnotator	CDS	1416840	1417235	.	-	0	ID=MGA_1298;product=cobalamin B12-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942223.1;translation=MSRRIRVVIGKPGLDGHDRGAKVVSRALRDAGMEVIYTGIRQTPSEIVNTAIQEDADIIGLSILSGAHMKLCEKLLKLLKEKDINIPVFLGGIIPEDDIPVLKEIGIKEVFTPGTSLELINNKVKEIVLGE;locus_tag=LOCUS_12900;note=WP_010942223.1 cobalamin B12-binding domain-containing protein (Geobacter sulfurreducens) [pid:63.8%25%2C q_cov:96.2%25%2C s_cov:94.8%25%2C Eval:4.5e-38],MGA_1298
sequence1	MetaGeneAnnotator	CDS	1417249	1418928	.	-	0	ID=MGA_1299;product=methylmalonyl-CoA mutase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869041.1;translation=MFRDEELKKIKDERELWHEKVVKKAIERFPERKEFKTTYGDEIKRVYTPEDIEDLNYSEDLGFPGQYPFTRGVQPTMYRGRFWTMRQYAGFASAEESNERYKYLLSQGTMGLSVAFDLPTQIGYDSDDEMSEGEVGKVGVAIDSLADMEILFNEIPLDKVSVSMTINSTASVLLSMLIAVAEKQGVSPDKIRGTIQNDILKEYIARGTYVFPPKPSMKIIDDIFEYGSKNLPKFNLISISGYHIREAGANAVQEVAFTLADGIAYVESAIKAGLDPNVFGKNLSFFFNAHNNFIEEIAKFRAARKLWAKIMKERFGVTDKKAMALKFHTQTAGSTLTAQQPQNNIVRVALQALSAVMGGTQSLHTNSFDEALGLPTQKSATIALKTQQIIAYESGVTETIDPFAGSYVVERLTKDIEKKAMEYINKIDEMGGMVKAIEEGYVQKEILNSAYDAQLKIEKNESIIVGVNKFQLEGEEEPSEVLKIKKEVEERQVAKLKKLRETRDNEAVNKALEELKKAALNNENVMPYILNAVKVYATLGEITNLLRDIYGEYNESVLI;locus_tag=LOCUS_12910;note=WP_012869041.1 methylmalonyl-CoA mutase family protein (Thermanaerovibrio acidaminovorans) [pid:68.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-223],MGA_1299
sequence1	MetaGeneAnnotator	CDS	1419134	1419742	.	+	0	ID=MGA_1300;product=septum site-determining protein MinC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008193407.1;translation=MEDFISAKIIDGDIVFFFEKGHTQKDSLEFFEKKIDMMRSIFSLGDSFFIYLENEEQYNLIPKIAKLAISKGLRLAGSFFGELPESKKNKSEKEFNLSNTKIYRKHLRSGQTIDNPGDIIIFGNVKPGSEVNAGGSVIVFGKVEGIVKAGITNKKNSFVIASEMASPLLEIAGIPFYNYTWPATPVSIRIEKEKALVEPLEL;locus_tag=LOCUS_12920;gene=minC;note=WP_008193407.1 septum site-determining protein MinC (Thermotoga) [pid:27.9%25%2C q_cov:97.5%25%2C s_cov:95.7%25%2C Eval:1.2e-20],MGA_1300
sequence1	MetaGeneAnnotator	CDS	1419759	1420781	.	+	0	ID=MGA_1301;product=M20/M25/M40 family metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583052.1;translation=METKEVLKTLSNSFGVSSYEKNTFKVIKDILSKEFEKIKFETVGTDNLLVKFGTGKKKIAFFAHTDEIGVVISKIENEHFARISSIGGVDPRTLVAKRITFFKNGKETIGVVGMLAPHLQNAKTKKISPSFDELFIDFSISGGTKNISVGDVGSIEVEAMELNEKYITGKAIDNRAGVTTIIKALEYLQYYNFDGELYLSFNKGEEVGLVGAKGAAHYIKPDVAIIVDVTFGNDTIPGYETMKINEGPAILIGAAVHKKTYQKLVDIADENNIKYQIEVAPSRSGTETDIVQITNGGVATALLSVPILNMHSPVEVVSINDIEATAKLMAIFAAKEGRCK;locus_tag=LOCUS_12930;note=WP_012583052.1 M20/M25/M40 family metallo-hydrolase (Dictyoglomus turgidum) [pid:40.9%25%2C q_cov:99.1%25%2C s_cov:99.7%25%2C Eval:4.5e-69],MGA_1301
sequence1	MetaGeneAnnotator	CDS	1420778	1421809	.	+	0	ID=MGA_1302;product=M42 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080462.1;translation=MKKYLKNLTELHGAPGNEEKVREFIKNEIKDKVDEIYEDVMGNLITKIKGKSSEKKLMISAHMDEVGFLITKINEDGTFNISPSGGVDPRVVRAQRLLINGELPAIVNQTPIHLDHDIQKVQGYDSIKVFAGFTKKEEAKNKVKLGDMVTFDVKYYENEDFALCKAFDDRVGCSIMMDIIDNIKETNENPQYDTYFCFVTQEEAGLRGSGVAAEYVKPDVALVLEGTTAGDNPELEPEKWATHLNDGPVITFMHSGVVLKKEVYEEIIKTAKDLNIKYQYKMRTAGGTDAARFARTMYGIPSGVISVPCRYIHSANSIINLKDYERVYKLSNKLIMNGRIAEL;locus_tag=LOCUS_12940;note=WP_004080462.1 M42 family metallopeptidase (Thermotoga) [pid:50.7%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:3.3e-96],MGA_1302
sequence1	MetaGeneAnnotator	CDS	1421806	1422810	.	+	0	ID=MGA_1303;product=M42 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583050.1;translation=MKELVKKITEIYSPSGREHAVREFIINEIKDYVDEIKTDKLGNLIAIKKGTSGKTLLFDAHMDEIGLVVTHITDTGFLKVDAVGGVNPATLIGARVQFNGNTGIIGLEGETAKERMENSKSLSLDNLYVDMGVNKREEAEKLAPIGTFGTYIAHFEEIGDKWLSKAMDDRIACAALIQSAKEMKENKNTVIFAFTVQEEVGLVGSSVAAYEYDVDMAIAVDVTLALDTPKAFKRMEMKLGAGPCIKIKDAASISDINVVDFMKKAAENNKIPYQFEVLIFGGTNAASYQKTKSGIPSSTLSIATRYIHSPNELVSKKDVENSVKLLIAMANTKI;locus_tag=LOCUS_12950;note=WP_012583050.1 M42 family metallopeptidase (Dictyoglomus turgidum) [pid:53.8%25%2C q_cov:97.6%25%2C s_cov:96.7%25%2C Eval:9.9e-98],MGA_1303
sequence1	MetaGeneAnnotator	CDS	1422864	1423676	.	-	0	ID=MGA_1304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQPENKIILYFTIPITILILIVSSIGIWHQNLYFRETADWIAQCIGQDIANVFFMIPILLFSSIFIFKGNNLSKIIWLGAMLTNIYAFFIYCFGLHFNYLFLFYCAILGLSIYSVIYFVKIHLQENFKKWYIEKVPEKSVGIFLVIIASMFFLLWFSSDLPDSINNTPSIELQKLGLLVNVVHVLDYTFYLPLIFISGILIFRKKNLGYLLAPTMLVFAILTNINIISLTLVGYYRNIVQDLSLLFIISFITMICLVFFILMSKKLKSI;locus_tag=LOCUS_12960;note=MGA_1304
sequence1	MetaGeneAnnotator	CDS	1424221	1425168	.	+	0	ID=MGA_1305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVVGIIGFFVYNYFSTYIYYYFILAILISILESLDNTFQYSLIPDLVEKNYLYKANSLSAMFSNINGIVSPLLSFVVYNILNLKYMILAYGLINLFASLNLKRVKYVHKKPELKKEKIIKEWYNTFKYIYKEKEIFMCIFIGVIINLIFAPIPSTVLLKIGELNSNEVFGQSLFRTILSFGSFVGIFLVYKLDVKKYYKKYISFSFYVLLIINIFLVLYQNYYYTILLIFSNSIFVMFIMNSTGTYLQSSAKKEELSSIYAVRSTIYVIVVPTSQIISGIILEKFSLNFYFIYTTVLIFLVIILNVTLFHYKKM;locus_tag=LOCUS_12970;note=WP_004081535.1 MFS transporter (Thermotoga) [pid:21.3%25%2C q_cov:86.7%25%2C s_cov:70.0%25%2C Eval:1.4e-08%2C partial hit],MGA_1305
sequence1	MetaGeneAnnotator	CDS	1425233	1425955	.	-	0	ID=MGA_1306;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080267.1;translation=MKTKNKILEIKDLYVNYGAIKAIKGIDINVNKGEIVTLIGANGAGKTTTLDTIVSLVKAKSGVIKLGEEEITNVPSDKIIQKGIALSPEGRRIFSNLTVYENLLMGAYTRTDQEEIKKDFEWVYSLFPRLKERRKQKGGTLSGGEQQMLAIARALMSRPKILMLDEPSLGLAPLLVKEVFEIIKKINSEGTTVLLVEQNAKAALDVADYAYVLETGIITMEGPANEIANNPDVRAAYLGG;locus_tag=LOCUS_12980;note=WP_004080267.1 ABC transporter ATP-binding protein (Thermotoga) [pid:69.1%25%2C q_cov:97.1%25%2C s_cov:97.5%25%2C Eval:8.9e-86],MGA_1306
sequence1	MetaGeneAnnotator	CDS	1425952	1426833	.	-	0	ID=MGA_1307;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080269.1;translation=MAAILPFISSGQESVININHITMKFGGLTAVDNFYLDIKKGELVGLIGPNGAGKTTIFNMITGVYTPTIGEIYFEDVNITGLPANTITKLGIARTFQNIRLFHSMTVFENVLIAETTKFLDYKTKTLMATTNSLKGKDLFVKIQRQNWFWPAVLGTSKYKKELKKMKEDTMLLLERVGLAEYANYPATSLPYGKQRKLEIARALATAPKLLLLDEPAAGMNPQESIELMDFINQILNDFDLSILLIEHDMKVVMGVCQRLTVLDYGKIIAQGLPDEIKHNPEVIKAYLGDDAV;locus_tag=LOCUS_12990;note=WP_004080269.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:56.6%25%2C q_cov:94.9%25%2C s_cov:95.4%25%2C Eval:1.6e-80],MGA_1307
sequence1	MetaGeneAnnotator	CDS	1426833	1427924	.	-	0	ID=MGA_1308;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869389.1;translation=MNTYKLEKKTKVILNSTAIFIAIILMMWAQNSMSSYGLRILNLIAINAILAVSLNLINGITGIFSLGHIGFMAVGAYTASLLTLSVQQKQQVFFLEPLIWPFNSIQLDFFSATIIGGLVAAFFGLLIAVPALRLRDDYLAIATLGFSEIIRIFANYSVSLTNGALGLKGLPNYTNIWWSFSFLALTTWFIVKLTNSTYGKQLKAIRDDEIAARAMGINVKKLRVIAFVVGSFFAGIAGSLMAHLLTTIDPKMFMFVQPTSVNILVMIVLGGLGSTSGAIIGAIIITFLSEWLRFIEGDMNIFGHVFHGIPGMRMLIFSALMVILMIFYRKGIMGEKEITWDYLYNLIMKFKKKAPVEAKVGEE;locus_tag=LOCUS_13000;note=WP_012869389.1 branched-chain amino acid ABC transporter permease (Thermanaerovibrio acidaminovorans) [pid:47.2%25%2C q_cov:94.5%25%2C s_cov:98.3%25%2C Eval:4.1e-92],MGA_1308
sequence1	MetaGeneAnnotator	CDS	1427930	1428838	.	-	0	ID=MGA_1309;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080271.1;translation=MSIQNFLQYLMNGVSLGSLYALIAIGYTLVYGILRLINFAHGDIFMLGTYTAFYMITLLSIPWWISFPLAIIVTALIGFSVDKIAYKPLRNAPRVSALITAIGVSIFLESLGVVVFGGRPKAFSFRALHYPKELYKMVVIGGIRIQMLTFVIIIVTALLLLFLVWLIYRTKVGMAMRALSKDIPTTKLMGINADKIIGLTFALGSALAAAAGIMWAMKYPQIFPYMGIIPGLKAFIAAVFGGIGNVKGAMIGGFLLGMMEILIVGFFPQLAGLRDAFAFILLIVVLLVKPTGIMGEKIQVKV;locus_tag=LOCUS_13010;note=WP_004080271.1 branched-chain amino acid ABC transporter permease (Thermotoga) [pid:58.6%25%2C q_cov:98.3%25%2C s_cov:99.0%25%2C Eval:1.6e-96],MGA_1309
sequence1	MetaGeneAnnotator	CDS	1428887	1429993	.	-	0	ID=MGA_1310;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080272.1;translation=MKKFLVISFVILMFVVAFTEDVIKIGAYFPMTGGIAAFGQMTWQGIQLANEERPTVLGKKIQLILVDNKGDKVESANAVSRLIDQEHVVAILGAVASSDSLAGGAVAEAKRIPMVTSSSTNPLVTMNKDWIFRSCFIDPFQGLVGAKFAFNDLKAKKVVIFMDIAQDYCVGLANYFEKTFKGYKGTSVVREYYNTGDQDFSAQIINAMDQNPDLIYIPGYYSEIAIIARQLQDMGYTGKILAGDGAEAPELIKIGGDAVEGLYFTTHYNAEGPATPKAREYVKAYKTKYNKIPDSLGALGYDAYNMVIDAIEKAGSATPRNIRNALATLKSFEGVTGYITIKDGNAIKSAVIDQVKDGDFKFIKIINP;locus_tag=LOCUS_13020;note=WP_004080272.1 ABC transporter substrate-binding protein (Thermotoga maritima) [pid:52.0%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:1.5e-105],MGA_1310
sequence1	MetaGeneAnnotator	CDS	1430269	1431111	.	-	0	ID=MGA_1311;product=carboxylating nicotinate-nucleotide diphosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008194698.1;translation=MYFKEVELLINWIKRDAEYIDLASYGLKNQKASFEILFKSKNTIISGIKLIKEVLKEFDIKSEFYFKDGQEINTDKNIRIATLTGDAYNLLICERTVLNTFSIMSGIATKTYEFSKKLKETGYNTKIAATRKTIPGIGFLQKIAVLDGGGDTHRWSLSESIMLKDNHLNLYGGIESAINEVKKYKSFTKKIEVEVETQEQAMKAIEFDADIIMLDNFSSEEAKKVAKKIKDKNNKIIVEVSGGIRKNTFLKYADNNIDIISTGILTTEIEYKDFSMEVIK;locus_tag=LOCUS_13030;gene=nadC;EC_number=2.4.2.19;note=WP_008194698.1 carboxylating nicotinate-nucleotide diphosphorylase (Thermotoga) [pid:43.6%25%2C q_cov:98.2%25%2C s_cov:98.5%25%2C Eval:1.0e-57],MGA_1311
sequence1	MetaGeneAnnotator	CDS	1431117	1432037	.	-	0	ID=MGA_1312;product=quinolinate synthase NadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082140.1;translation=MTNEELMNEIIKLKEEKGYKILGHNYLIGDILDISDETGDSLALARKAMEMDADKIMFIGVDFMAETLKILNPEKRIFVPTRASECTMANSLDRETLIKFKEKYPNASVVLYVNSTAECKMEADCVCTSANAIEIVNNIDNDTILFGPDKNLASYVAEKTGKTIIPVPGDDGFCYVHDEFKKEEVLVAKEKYPNAKLITHPESPKEVRDLSEYIGGTGKMIKIPLTDDTKDYIIGTEAGMIHQLKKNHPDRNFYPLKNSAICIGMKKNTLKNLYEALKEDKHEIILSDEIMEKAVYSIENMFKVMG;locus_tag=LOCUS_13040;gene=nadA;EC_number=2.5.1.72;note=WP_004082140.1 quinolinate synthase NadA (Thermotoga) [pid:54.8%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:1.0e-93],MGA_1312
sequence1	MetaGeneAnnotator	CDS	1432039	1432797	.	-	0	ID=MGA_1313;product=aspartate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082138.1;translation=MKLFFIGGGNSTEIILEKLGSLVSKAYIFDTNNERMLELSNKFNNIESSDINKLKNLDVNYVVECASVEAVKSYAFDVLNLKKDFIILSTGAFADDEFRNKIMEKLENSENNIYIPSGAVGAVDIINATGEMINKITLTTRKPPKSLGVETDTEQIIFEGTSKEAIKKFPKNINVAVTLSVASGDFDKVFVRIIADPKVNRNIHTVEIDSEAGNYKLILENYPSKNPKTSYLAPLSVAGLLKKLTKKLKVGV;locus_tag=LOCUS_13050;gene=nadX;EC_number=1.4.1.21;note=WP_004082138.1 aspartate dehydrogenase (Thermotoga) [pid:40.8%25%2C q_cov:94.0%25%2C s_cov:94.2%25%2C Eval:2.9e-42],MGA_1313
sequence1	MetaGeneAnnotator	CDS	1432974	1433549	.	+	0	ID=MGA_1314;product=rubrerythrin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392800.1;translation=MKGLKGTETEKNLLKSFAGESQAKNRYTFFAKTAKKEGYEQISAIFQETALNEEQHAKTFFKFLEGGDVEITATYPAGKIGTTVENLKAAAAGEHEEFTELYPMFAEIAEKEGFKEIASKYRAIAKVEEAHEKRYLKLLKNIEENKVFEKDAVCIWKCRKCGYIHEGTSAPVVCPACGHPQGYFELKEYNY;locus_tag=LOCUS_13060;note=WP_011392800.1 rubrerythrin family protein (Moorella thermoacetica) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-68],MGA_1314
sequence1	MetaGeneAnnotator	CDS	1433869	1435695	.	+	0	ID=MGA_1315;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083187.1;translation=MGNKEYVVGIDLGTTYSAISWMKPDGNVEVIPNAEGKRTTPSIVAFSKEGDIIVGEPAKRQAVLNSEKTIRSIKRYMGSDHKVTIDGKDYTPQQISAFILKKLVRDAEAYLDGKIKKAVITCPAYFNDAQRQATKEAGEIAGLEVLRIINEPTAASIAFGMDKKAGDQKIVVYDLGGGTFDVSILEIGDDIIEVISTNGNNHLGGDDFDKRIMDWLMDEFKKENGVDLKNDKQALQRLKEAAETAKIELSSKMEAEINLPFITIVNGNPVHIEKKLTRAKFEELVRDLIESTRGPIENAMKDAGLTPNDIDEILFVGGSTRVPAVQKLVTGYFGKEPNKGVNPDEAVSVGAAVQGAIMTGKTDKDIVLVDVTPLSLGIEVKGGLMEPIIPRNSKIPIKKSKTFTTAVDFQPEVEIGVFQGERSIAKDNFFLGSFKLTGLPPAPRGVPQIEVTFDIDSNGIVNVSAKDLGTGKQQSTVVTGRHKLGKDDIDRMVKDAQQFEEQDKRKREEIEIKNQADDLCYQIEKLLNENGDKVPADTKSSLEDKVKDLRQAISEDNIGKIKILMEELKQESMKIGQQMYQGQGNNDSENTSNNDQEPSQDIKVEDAE;locus_tag=LOCUS_13070;gene=dnaK;note=WP_004083187.1 molecular chaperone DnaK (Thermotoga) [pid:68.5%25%2C q_cov:96.5%25%2C s_cov:99.2%25%2C Eval:2.4e-242],MGA_1315
sequence1	MetaGeneAnnotator	CDS	1435772	1436623	.	+	0	ID=MGA_1316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGITIKKLCILTLIISLTSFLFLFLLVFNNEKLSSFKSEVVQNDFKNFESYLDSEIRISNVLSSSLYNFSAITTLDFYLNKLSKTELIALKSHLDSNSENVNKFIKTYNIYDENVKSKFYLKKTELLYAFSSNKNLIYPFFDDTIEKDTTLTKTLLELTKNNYDTYISEKIYNDTLFFYVGKKLINHEKCKGYIILKSSYKLKPNIKFFDNINEVYSLLNINDLSNKIYKKDNLIFFIKNLKKENKDFYLIEYIKSDNTLSIIFLGLLLIIFIIMFYIKKIK;locus_tag=LOCUS_13080;note=MGA_1316
sequence1	MetaGeneAnnotator	CDS	1436705	1437829	.	+	0	ID=MGA_1317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582828.1;translation=MKVKVLIILSLILATFSFSNANLVWEKVLNEAGNQQIYYVKSTDSGVYLFGSSDETGYDENIVVLKLDSNDNITKNTLGGSFSDWSLWGFESLEKNIYVVGSSKSFGNDYDYYLKNLNGSELSIKSMGNDKATAGIDTKDAIYILGYSQEPKTLNMKGNLVKIDKLTNKVIWKKWLPFYKNGADVKPLSIEKTSDNNFIISGVVVDFFEGRTKFYLAKVNMNGEVIWNKIFTGKDYARGFEVKETNDGYIAVGYNGSWDKGWSDTYLVKLSKDGQIIWEKNFGNGLSTHAYSVKIAKNGNIYVVGYESKTIKNKDVLLLEYDSDGNELNHYLFGGKNNDVAYSMDIKDNFLYISGYTTSDKKDRDILILKYEIK;locus_tag=LOCUS_13090;note=WP_012582828.1 hypothetical protein (Dictyoglomus turgidum) [pid:24.5%25%2C q_cov:99.2%25%2C s_cov:86.2%25%2C Eval:2.4e-26],MGA_1317
sequence1	MetaGeneAnnotator	CDS	1437851	1439707	.	-	0	ID=MGA_1318;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082967.1;translation=MNFNEIYDIIVVGAGHAGIEAGHAAAKLGMKTLLLNINLDTVGWAPCNPAIGGPAKGVVTREIDVLGGVQAKVTDKAAINIRMLNTSKGIAVRALRAQIDKYKYSREMKKILENTKNLTLRYGIASKVIVDKNKVIGIETELGIKYGAKAVILTTGTYLKGKIFVGRNTFEAGRMGDLPSNSLSNSLRELGLEIGRFKTGTPARVRKNSIDFSKFEIQNTSTDPMAFSYFTEPKILSNDYPCYLSRTNLNTHDTIRNYIEFSPLYGDVKLIESKGPRYCPSIEDKVMKFGKNSHQIFIEPESKDSDEYYINGLSTSLPYEAQIKMIRSIPGLENAVIERPAYAVEYDYVNPLELKATLETRKIEGLYLAGQINGTSGYEEAAGQGLIAGINSVLKLKNKDPFILSRNESYIGILIDDLITKGVDEPYRLLTSRAEYRLLLRHDNAHLRLAKYGYKLGLISEEFYNKVLNLENKIKYNVDRLKKLNLKEEEINPILKQKNSSLIKATTKFGDILKRPEIRYEDLKELDNEVIEDKELVEQVEIELKYEGYFKKMIDEINKIKKLENEKIPENINYDEINNLAFEAREKLKKVRPISLGQASRIPGINPSDIINLSVYIK;locus_tag=LOCUS_13100;gene=mnmG;note=WP_004082967.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Thermotoga maritima) [pid:62.0%25%2C q_cov:99.4%25%2C s_cov:98.4%25%2C Eval:4.3e-226],MGA_1318
sequence1	MetaGeneAnnotator	CDS	1439875	1440348	.	+	0	ID=MGA_1319;product=YkvA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060792.1;translation=MKFDFDKEIKKYEHVSKKDFYEKIREQIFKWAKRDGKKNKLLNTIMLAPDLFYVLWKLSLDNNVPIKQKAKAILGLTYFILPVDFMPESLLGPIGYLDDIVATVLILNSLLNDVPQELIEKYWLGEEKILPTIQKILKSANELIGSGIFDLLKKIFK;locus_tag=LOCUS_13110;note=WP_048060792.1 YkvA family protein (Methanothermobacter) [pid:22.2%25%2C q_cov:86.0%25%2C s_cov:91.5%25%2C Eval:2.4e-08],MGA_1319
sequence1	MetaGeneAnnotator	CDS	1440555	1442339	.	-	0	ID=MGA_1320;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679750.1;translation=MNKKKINIFHVFVDIIKISPIKFFSQYFFSVLDAIFLGLTTYQMQKVFDSVIGINNKNLKNIIVELIYLTVFIIISEVSSGISEYFGEYYHDMTLKTLLKNLNLKIAKISPNFFNNSENRDFVNSAIVGAKSVRRVLNVIMDLLFLYLPYYLFIEIYLVSLNPILGISMLFIFFPVLFSQIIKKSYYEKLEENHAPLRRKKNIYSSYIKNKNYLKETRTLNAINYIFKLFNKTSNEYHNLRLIYQKKVNKIDSISKLMTIIGYIGVLGLTIYLIMKNEITIGTFAAVYISLSNLFGLMEEIFEYRLGDSIAVYGKVKKYINFLNLIENSKKNKRLKNIVEEIKSIELKNVSFTYPTGKEAIKNINLKIKKGDRIAVIGKNGAGKTTLSKLILGLYKPTSGEICYNEVPSSLLSLKSIRNKGTAVFQKFNRYKITLKENIAISNIKNKNEEDKIEDILNSVGINSLDKKFIKGLNTVLSKEFEGTELSGGQWQKVAIARGIFKNYDIIVLDEPTAALDPISENELYEKFEEISKNKIAIIITHRLASIKYCNKIIIMDNKKIVDVGEHSELLKNSVYYKKLWYSQSELYEKCDRI;locus_tag=LOCUS_13120;note=WP_002679750.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:28.6%25%2C q_cov:95.5%25%2C s_cov:96.6%25%2C Eval:6.6e-59],MGA_1320
sequence1	MetaGeneAnnotator	CDS	1442332	1444110	.	-	0	ID=MGA_1321;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963980.1;translation=MNKIKLIIKYILYSLKNAPLIFSVYSIIEVINYMTPAIKILVVAYFIDAAQVIIKTKTINSNFIYISILFFVLFFINYLINLISKELYVRLSKRVDFKFEGDIIKKSSKLKYEVLENHENYELIERIYENSENAITSALEEISSFFKIIVEIFSISIIILESSILISSIVFILLIFMAVVAYYSGEKEYDSYTKSMKFFRRAKVYDTMLNSEEMVDERVLFNYGNEIANEFENLYEKGRKIDIKITLKNIAKIKGLSFLMSLLAFGISASLLYILTFGKITSGMFISITGAVFNLIHPMSWTFSNIVKDIIKRINYMKDFENFMKFPEVRRKNSIKKINKKDVEKIEFKNVSFKYPNSNKWILKNLNFVLEKGKTYAFVGENGAGKTTIIKLMLGLYEDYEGEILINGKNQKNLSLEEWYEYFSVVYQDYVRYSISFEENIKMKDIKKCDDKLFDEVIKISEVKEVIEKLPEKEKTVLGYIESKGNNLSEGQWQKVAIARALYRNAPIQIFDEPTAALDPISERSIFEKFFSVPFKSMKILITHRLGGVKYTDIVLVFSNGEVIERGTHNELLDKRGVYYKMYEKQRRWYGE;locus_tag=LOCUS_13130;note=WP_010963980.1 ABC transporter ATP-binding protein (Clostridium) [pid:28.7%25%2C q_cov:98.6%25%2C s_cov:93.9%25%2C Eval:1.6e-60],MGA_1321
sequence1	MetaGeneAnnotator	CDS	1444400	1445440	.	-	0	ID=MGA_1322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIDNTFSFQTIVKNAYKRRIPLIATIELLTLCNLKCLHCYIPKHDNKGLEYSFILDLFEELKKLGTLETILTGGEIFLHPDIMEIIKKAREMGFRVTLLSNATLINDSQIEQLSKLYITEFSTTIFSLNEEINDKITGVKGSLKKILSNIMKMKNKGISLEIKTPIMQQNKYSYKYLQEFCNINDFLYSPNPTIMSKINGDSSPKDNSLDFNDLIEFNKNFNLNINVNRKNLKDKKNLDDVCPNTRYSLYIDSNKNVYPCNSFLYKVGDLKKQSLKDIWYNSSDLKFIYNLTNKELEECKNCDLENICNRCPGLAYSEDNDLFGCSSINKQNAKALKYIIDSERR;locus_tag=LOCUS_13140;note=WP_003242599.1 subtilosin maturase AlbA (Bacillus) [pid:31.5%25%2C q_cov:44.2%25%2C s_cov:34.8%25%2C Eval:1.2e-13%2C partial hit],MGA_1322
sequence1	MetaGeneAnnotator	CDS	1445440	1445724	.	-	0	ID=MGA_1323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKDLLKKEIKISKWISWQNYDDFVYIIDERTKFNILLEGVAVYFWKYLVILKSVPKLLETLKNKFYSTSSDTISKDLKKFINDLVIQEVIEVI;locus_tag=LOCUS_13150;note=MGA_1323
sequence1	MetaGeneAnnotator	CDS	1446302	1447837	.	-	0	ID=MGA_1324;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108010.1;translation=MKKLPIGIQDYKKIKEGNYTYIDKTKYILDLISSEAPIFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRISLLDTTNDTEEELKDGLLRIIKREARKYGIKIESDHYKYAFDELIFELSRKERVVILVDEYEKPILDNINNKEKAEKYREILRNFYVSIKSNDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQILGYTQEELERNFKEHIKETALEMNMKEKELLKNLKMYYNGFSFDGESSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQSGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKIILEANYELERGKIKEINKTIWKAIREKDMEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDVIYIMEIKIDKSAEKALNQIKEMKYYEKYKGKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_13160;note=WP_011108010.1 ATP-binding protein (Bacteroides) [pid:37.3%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:6.0e-82],MGA_1324
sequence1	MetaGeneAnnotator	CDS	1448108	1449718	.	-	0	ID=MGA_1325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVSLILVLTSVLVMFGFNGDLEYLYGYDISKDASTSFQGIKSNIVLENDTGNIYYKLSMDFFSLNAGKIPSDLNVTSNIPEELKPFASLTNYGVPAVPYFLYNINEAFADIYTDNFTIRAGRFVPQSGSSTFYSPSVLIAEKDMINPFETMKTMAIDGAMISGDIGDINANLIIAPKTYDDIPSLYYPVITEKTVTEFNTTVSEEFSKEIASTVKESILYTLNANNATKPLASLPINVNIDAKYNMNNEEYSNEDVDKLAFENMNAGSVLSTNIMGFDVRAGFVHDHYHFIVPETVNFGKIYFDSNALNTTVGATVNYQAGLISQGKANSFNINEDVSLINADSATVTNYRPYRNSFTFDLQGVSNFIDSISYHAEGAVVVPEKTTIKLNYETPDKDGKFVKNTADATIFNDVYVKTVAGLEYTQGEDLTIGAEFFNGLPNEEFKDKLSIGGDMYIKAKISNISFEGLGLVAFSKINDKYEPGYNGIAKISYKGIDNFEPTLSINYAYAENSDHTLKAMEKLNNVGFMLKVFF;locus_tag=LOCUS_13170;note=MGA_1325
sequence1	MetaGeneAnnotator	CDS	1449732	1450493	.	-	0	ID=MGA_1326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVVLTLSLLLVLAVSMFSITGKEVLDKVKDVHDNFKNEKSLVSMNLVDANGNSRERIFDMYLMKKGEDTLAMVRFNKPSEVKRITLLTLSDDEIYLYMPAYRKTKRISGGAKNGNFVGSDLKFSDISLLYNEQSGSYKANLLEEKDKMYKVEILPEDKDSDYGRIVAEIQKENMLITKVEFYNLKNEHIKTMVFSNIKNFDGHVLATHIELKDLKAKHSTILDIKTVDFDLPFTAKFFNKMSISKPVLKYR;locus_tag=LOCUS_13180;note=MGA_1326
sequence1	MetaGeneAnnotator	CDS	1450506	1453217	.	-	0	ID=MGA_1327;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010956752.1;translation=MRLNKKTSYLIITLFAVLTVFFGYQASKIEVSDDIKTYVPKNDPEKLIYDDVSEKFGLNTLILAGVSFDDVSKHMNLIDKVTEELKNTEGVDNVISVVNAPRINATDDGDISVGNLKSSFNFSNYDVKKMKEILLNDSMLKGKFVSSDGKASLIIIGLKNNADTRLAAKNIRKIFDNNKLNYHLLGTPTADIEIENLVKKNIEKLVPIVTLLVAFVLFLSFRTLTGVILPIMSVLLADIWTVGVMVLFNVMFNTTTAAVPIAIVGIGTAYAIHVINKYYEEAQKGISKADAVNETLKHVGGAVVLSALTTIAGFLSLLTADLRPVWQLGIFTSTGIAISLLSATLLVPAILMIIQPSPKNNSNEEGESKWLRKTTEFLVHNRVLSFSIVGVIIFIMILFIPNIKTDVQMENYLNPNTEFVQSSNFLRDNFGGNDYLFLDFKAKGKNTFRDFYFNRSIRDFENYAKTFDIATQSTSVGDVVAKLTEGFTGVEYIPGSNDALEQNYMLIEGSEGIDKVLKADENESISQIMVNTKSFSKVKESELKIKDFINSQIIKSYKIEDFDTNNDEHLKAYNHEIRQFIESRRGTYNEKVLNDFVNIKNMSDEELLKSTDNKTLFNMFNTYLKINELDEIDYQTFENVYNKKSSNEDLNEYFEYFVMDNVDQMRAKLAIKKLEKDNLKLNSKYLIELAQYVNDTQVPVIGGDRKIVFNITGIPVIANKVNDMIFDNQMKSMILAYILVFVLFILQMKSVTLGLFSLIPITLTIIANFGFMGITGIALNAATVTIASITIGAGIDYTIHYITRFKKEYKLSSNKFESAVKTSATAGRAIIINSLAVVLGFMAFGFSSIGILKDFGILTAVAMIIAPILTLTIFPMAMTMLSDKVLGKLTKKSILNKKAKENA;locus_tag=LOCUS_13190;note=WP_010956752.1 MMPL family transporter (Treponema denticola) [pid:26.3%25%2C q_cov:98.4%25%2C s_cov:96.1%25%2C Eval:1.2e-81],MGA_1327
sequence1	MetaGeneAnnotator	CDS	1453392	1454144	.	+	0	ID=MGA_1328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLLIKHLKNDEDAELFLKNVGLLKTKEKCPYCGSTEYYVIRRNHYKCKSCRREWSKYKGSIFENFRIKPLKFLKILEALSEGTVLKKISKDLNVSYNTVLKVRNLIREHVLKNILNVDELEENIFIGVNHVNHKIKLDYLKTIDFSLIKDNKVGKLGRIYFIHDYKNYELLIVISENTIPELDEKSRELILSKLKKELRVFVDDFTNKISSRKLVNNKTILYSIFLSLYINDKNTLHEIIFSAFQNIKK;locus_tag=LOCUS_13200;note=MGA_1328
sequence1	MetaGeneAnnotator	CDS	1454233	1455888	.	+	0	ID=MGA_1329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKNEFNELLENNKTLNEETAQKNKKILIFSAAGILIGITLILILINIFSVKKYTLTVKYNLSKINVEESFNRVFINLEGKNKISTEFKLNEDIKLLNIPEGTYKVKFFITDDNNIKYYYTEKEVNLNENKSIELNPIKSTIKYDIKEEWLNKDLKITLPENFDKYLVYELKNGIYKKINESTKNVVWFRNLDKNTSLKFSVIKNNYLYKYSDELKVNVNTKPNKPIILSPENGEAIKASSNFFFVWSCKDPNGDKLKYDLFLTTNGKEIQIAKDISSINFQYSNLKPGTDYTLKIIASDGNLTNFSSINFRTLLSQKKYTYMSKDNKLLIYSVLDTKNPKLIKTINLSGKVRTISENNNYLYILREKSGISIIDFHSPINATLKKNLELMDIESLKVNTKFLFTKFKDGRISVYSLKNPYKPEFLGFTEEKYYGTLNPKITYIKRDMNINVPIISSEYPIRIGLKNKVYVKNYTLVVGSEKAKSIINNNYTEVFENLRFIFSMYKTNDFTNKEKIPLIKNRLMNALNEMFKLDSSEGIKSIKLIISKVD;locus_tag=LOCUS_13210;note=MGA_1329
sequence1	MetaGeneAnnotator	CDS	1455916	1456281	.	-	0	ID=MGA_1330;product=NifB/NifX family molybdenum-iron cluster-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082362.1;translation=MKKLGIPLITNEGENSVISEHFGHAPYFGFVKIDGSNYEVEVIKNPMEEHGPGDIPNYMKENDVNVMIVRGIGGRAIDFFNSLGIEVYRGAAGTIKDLVNAYLKDEIEDKEYEVKEKHHHH;locus_tag=LOCUS_13220;note=WP_004082362.1 NifB/NifX family molybdenum-iron cluster-binding protein (Thermotoga) [pid:44.3%25%2C q_cov:86.0%25%2C s_cov:85.5%25%2C Eval:1.0e-21],MGA_1330
sequence1	MetaGeneAnnotator	CDS	1456498	1456785	.	+	0	ID=MGA_1331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFRDGTGPNGTGVNCSTRFERRGFGSGYGRGFGRNAGTGYGRGRGFGRGFRNYNNASGYGRGFGYRFETEKEYLEEEKKYLEEELKRINERLEK;locus_tag=LOCUS_13230;note=MGA_1331
sequence1	MetaGeneAnnotator	CDS	1456820	1457659	.	+	0	ID=MGA_1332;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079932.1;translation=MKIAVLSGKGGTGKTLVSTNFSNVISKSNTVQLFDCDVEEPNSHIFFDINYTKEREVKTLIPVVNNDVCIHCGKCAQSCQFGAISAFPTGTVVFESLCHGCGTCKDVCPVNAITEKEKSMGIIRFGKDKNKDISFGEGILNIGEPSGVRVIRELKLNFEKSDFIILDSPPGASCPVVETLRDMDYAILVTESTPFGLHDLKIAHEVVNEMKIKCGIVINRYDEKFKDIEEFALKNNIDILAKIPFDRQIAVEYSNGTLITDKFPKYHSLFEDIVKKVAK;locus_tag=LOCUS_13240;note=WP_004079932.1 ATP-binding protein (Thermotoga) [pid:57.8%25%2C q_cov:98.9%25%2C s_cov:97.5%25%2C Eval:9.6e-85],MGA_1332
sequence1	MetaGeneAnnotator	CDS	1457656	1458522	.	+	0	ID=MGA_1333;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079937.1;translation=MIKQIAVVSGKGGTGKTTLTGSLSVLFKNHVAADCDVDASNLSLILNPKTEKVYDYYGGKKAFINHEKCSGCGICKNVCRFEAIYKEKDKNLYSVDPFACEGCNRCVINCPENAIELLDNRSGEYYVSHSDIAVIHANLEPGEETSGGLVAEVRKKAIEIAEKEDNNYILIDGAPGIGCPATSSIAGVNYVIIVTEPTQSGVHDLKRIVDTVKHFKRNFSIVINKYDINNKISNEIEKFSKSENIEIFGKIPFDKTVVNAVVNGEPVVKYDCPATDAIKEIYKKILKV;locus_tag=LOCUS_13250;note=WP_004079937.1 ATP-binding protein (Thermotoga) [pid:55.2%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:1.2e-85],MGA_1333
sequence1	MetaGeneAnnotator	CDS	1458534	1458875	.	+	0	ID=MGA_1334;product=NifB/NifX family molybdenum-iron cluster-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545235.1;translation=MKIGLSAKSSSANAMVDDRFARGAVYVIYDTETKQYEFITPEELGAHGAGPKAIQLFAEKGVKVIVAPALGQNAYGAAQVAQIETYTQKNGTVEENINAYLNGTLEKITTPKG;locus_tag=LOCUS_13260;note=WP_012545235.1 NifB/NifX family molybdenum-iron cluster-binding protein (Thermodesulfovibrio yellowstonii) [pid:34.7%25%2C q_cov:88.5%25%2C s_cov:100.0%25%2C Eval:5.7e-09],MGA_1334
sequence1	MetaGeneAnnotator	CDS	1458881	1459198	.	+	0	ID=MGA_1335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVIGLNENGFINKGHFGHSNEYIIFEYENGNFTEIERRINPLVKEHKHAKVEEILEIVGDCEVWVAKNMGKMSMLKLKEKNYKPILVDTDIIEKALNKIKEML;locus_tag=LOCUS_13270;note=MGA_1335
sequence1	MetaGeneAnnotator	CDS	1459198	1459455	.	+	0	ID=MGA_1336;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079944.1;translation=MPWINEIECSKCLACVKSCPENAIKIKDNGFPYIDQNICIKCGKCFDACPKEVIRPNSENPSLRSGSGRGRGMGRNAKGFGKNNF;locus_tag=LOCUS_13280;note=WP_004079944.1 4Fe-4S binding protein (Thermotoga) [pid:56.0%25%2C q_cov:96.5%25%2C s_cov:83.2%25%2C Eval:7.5e-17],MGA_1336
sequence1	MetaGeneAnnotator	CDS	1459591	1460937	.	+	0	ID=MGA_1337;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083195.1;translation=MKYDIVVIGGSAAGLIAAMSSRKLYKDKKILVIKKTEMELVPCGIPYTFSTLGTVENDAMGIEAKFKAQNVDLLIDEVIDGDSKVKKVITKGGKEFEYDKLIIATGSTPFVPPIPGHDLENTFNVPKNAEYLKEMKKKLEGLKDVVILGGGFIGVEVADEIKKSGKNVTLIEALPDLLYLSFDTEFGTIAKEELKKDGIKVLTSMKAKEIVGNGKVEKVILENGEEIKADAVVFSTGYRPNVSLAEKFNLQLTKYGFIKTDAYMRTTEPDIFAVGDCAQHTDMFTGKSSKLMLASAAVYDARIAASNLCCLRAIRRNKGSLSVYSTLIGSIAFGAAGVNEKIANQEGFVVDSVTVETFDRHPGKFADATKTKVKLIFSKDSGIVLGAQMAGGKGVGEMINVISLAIQMNATVNDLFNMQIGTHPLLTAAPTTYPIPAAAELALIKMKK;locus_tag=LOCUS_13290;note=WP_004083195.1 FAD-dependent oxidoreductase (Thermotoga maritima) [pid:60.5%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:2.3e-151],MGA_1337
sequence1	MetaGeneAnnotator	CDS	1460983	1461891	.	+	0	ID=MGA_1338;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964929.1;translation=MIYKYVYGPVPSRRMGISLGISPIPKGYCSYSCIYCQLGRTKHMTIEKQEFFKVNDIVNELKNYLKEDISFDVITIVGEGEPTLYSKLGELINSIKQLTKKPVALITNGSLLSDYMKNADIILPSFDAFDEESFKKINRPFQKIKFNEMYETLKNFSKNYTGELWIELMLVKGLNDSKEQLLKMKELLKDIKYDKLYINVPVRPPAEEWVKIPDEKNIKMAVELLNGISIDQLISNNFFSEIKDDYEAILSIIKRHPMNQHEILTFLKTRNCKKIDEILSKLFNDEKIESIFYKGYTTFRIK;locus_tag=LOCUS_13300;note=WP_010964929.1 radical SAM protein (Clostridium) [pid:55.1%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:2.0e-94],MGA_1338
sequence1	MetaGeneAnnotator	CDS	1461985	1463694	.	+	0	ID=MGA_1339;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEDLILENYYYVDKTKYIEVLENMPEKYISFLRPRKFGKSLWLDTMSKYYDVKYSDKFDTIFKNMYIQKHPTPKKSSYHILKFNFSGLNTDSKEELKYGFKNKIFNSLNFFIKHYNLKIKLNIDLKEPADLLNNFINQYKELNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTESVIDKLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNERASEKVYNSDMVLYFISEYNREKRKPKDVIDMNIASDYKKIQNLFKLGEIVGINNIDNEKEAIGNLLNEILMTDKTEIEELTRAFNLERKMKVDDVKTLLFYLGFLTIESKGFVMNLKIPNYSIKKIYSEYFLEMIETRAKNYIDTGKIKIAIRKLLVDGNINSLASEIENVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVD;locus_tag=LOCUS_13310;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:38.8%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.2e-94],MGA_1339
sequence1	MetaGeneAnnotator	CDS	1463856	1464818	.	-	0	ID=MGA_1340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLLIMLLFISINSLSNEVLKPEIIYNSEVITEIVSINNNKCLLSTPNGLKIFDLKTKKISDFLKNLKSNIAFNYLSNISFDGKYYYIREYSSKNLTRIYLYSIDKKLLKTFEYKTGNYLIMSKTGKYLLKRELNNYSIINTLTQKKVQTFKNLNIIPRFIVSPDKNFIIFSDYSSNPSKTFLYIYNLKNGNFIKKITINDFVYSLNIFPYINFYKDEFYILAKDNLYIFNLKTYTLKTKLLKSKNNFCASYFVSNNNIYIQNNYDILVFDKKNKKLIKKLRINNYESLYDQIIISKDENYLIGIKFQESRVKLYKLK;locus_tag=LOCUS_13320;note=MGA_1340
sequence1	MetaGeneAnnotator	CDS	1464815	1465654	.	-	0	ID=MGA_1341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSFIVLMLILIIFLISSCTKSNIKKEIKESNIKEKYFTEEIFYTLNFKPIKSDIYDETGKIIKIKYFDNNFKLMNYNKVGILLFFSKSNEAKGYISITIKRKYGGKISDKHKTGKFKFFNAILENAKNAAALSLKNNLLSYGISLTIDEILNSLHIKNLGKSWADNYIIRKKDIAVFYAKIIWANNYGIIKTSNPYTDTIETRYWKEIFKTNYREYTFSINKNNIEYDTEKTGKYSEPVKEIEENSGIFWDSTKLREKAELNYKIYLAKIGFIGELQ;locus_tag=LOCUS_13330;note=MGA_1341
sequence1	MetaGeneAnnotator	CDS	1466142	1468511	.	-	0	ID=MGA_1342;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082420.1;translation=MRLSIEDIEIKIPDVSFDNTSEIDINSYEDCVIQENAYDIVNMALKIKEKNSNIFVVGPVGTGRRDMIKNLLTKISLKEKIPPDIAYSYNFENPKKPKMLKFPHGKAKEFKKKLEFLVESSFQALKNGMQSNEYLEKMTELEKEYMDKRKQLWTELKEKAKELNYVIEFTNGGIVSLPIIDGKKISSEEYEKLSKEKQKEFEENSPKLRILIENVMNKIATLDKKYREQLKNMQKYWASFSINKIFENIEKEYEKYSDIIDYLKSLKNDISINFVEITSDNDDVIKYFKKKYSINIVIDNYYLQGSPVVEELSPTYSSLIGRVEYYSNMGALQTDFSMIKSGSFYKANGGYLILDAEKVLRKPFVWDAIKRTLLLEQIKIENVESAEGYSNIQTLEPEPLSFNSKIILIGEEWIYDMLSVYDNDFKKFFTIKAQFEYENKIDEFSINKFSTFVAKVVKEKNIQHLTKKAVIELLKYSCRINSNNKKFSLKYGDIKNLIIEATYFAEKYDHRPYTNSEDIKEAIKHREKMFSFHKKHFFEMIKDNIYKLDVQGEKIGQLNGLTVIQTVDYTFGHPVKITAKFYKSDGERIIDIHRATEMSGKIHKKSTFIFENFFKSKFSNFLENGFTASLNFEQVYSMIDGDSATLAETIALMSAIGNIPIKQNIAITGSMNQNGEVQPVGGLIQKIEGFYDICKILGFNGNQGVIIPYQNINDLVLKEELMKDLEDEKFKIWTIKHIDEAVEILSGLKPGKETKTKKFTKNSFYYNVTEGLKQLSSKSTNKNKSQKKK;locus_tag=LOCUS_13340;note=WP_004082420.1 ATP-binding protein (Thermotoga) [pid:40.9%25%2C q_cov:95.6%25%2C s_cov:94.5%25%2C Eval:4.3e-173],MGA_1342
sequence1	MetaGeneAnnotator	CDS	1468652	1469329	.	-	0	ID=MGA_1343;product=2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860629.1;translation=MISTIIVAAGSGSRMNKSIPKQFLKIKNKSILEITTSIFENSELIDNIIIVANKKFFKKTELEVIKFKKVFKIIPGGKTRQESVFKGLKILKQLNPSIVLIHDVARPFISNILIKKLITKAKEKNSAIPILKENSTISLSTKNKIEKFLDRNQVYQHQTPQAFDFKKLFEAYTKFEKNLSDFTDDASIFFANKNEVYTIEGEKNNIKITTNEDLLFAKFLYDLKK;locus_tag=LOCUS_13350;gene=ispD;EC_number=2.7.7.60;note=WP_011860629.1 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Clostridioides difficile) [pid:38.2%25%2C q_cov:100.0%25%2C s_cov:95.4%25%2C Eval:7.1e-34],MGA_1343
sequence1	MetaGeneAnnotator	CDS	1469442	1470749	.	+	0	ID=MGA_1344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKWIIFVLIFMIFFYVLFVYLYEKNSIDENNKMVKQYANTLELSLWAIDDESIKKIVDTIISSKKVSYIKIYDESTNIIYKKQKKVNKIPFITREKNFITSINHNDVFLGKIEVTYINTNNLIYLYVFLLLLLFYFIIHLNFKFFQNNLKLKFEIKKRIKIENELQKTYKDLNIAYNNLKVAQSQLIETEKMAALGNLVAGVAHEINTPVGISLTAVSLIKEKSKEIKSEYASNKIKKSEFEEFLNIIAESSLIAESNLNKAAKLVKSFKNVAVDRMSEEKRRFNLKSYIEDVLLSLHTKYKHKNIKINIDIDDKIFINSYPGLFSQIITNFVINSILHGFEKRNSGVINIFAERKGNKLKLIYEDNGIGIKKENMKKIFEPFYTTKRGKGGSGLGLNIVYNIVTQKFNGNITCESNNGTKFIIFIPLGAEKND;locus_tag=LOCUS_13360;note=WP_223294599.1 sensor histidine kinase (Desulfovibrio) [pid:41.8%25%2C q_cov:65.5%25%2C s_cov:30.8%25%2C Eval:4.3e-62%2C partial hit],MGA_1344
sequence1	MetaGeneAnnotator	CDS	1470742	1472268	.	+	0	ID=MGA_1345;product=DUF3369 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011705467.1;translation=MTDFLKIEDDIKNEVVNTNKYWKVLIIDDDEDVHTITKMVLKDLKFENKKLKFLDAYSNAEARKILLDNDDIAVALIDVVMEKENSGLELIKFIRETLKNKYIRLLIRTGQPGEAPEERIIQEYDINDYKEKTELTSKKLYTTMIASIRAYKDIMDINYNKIGFENIINSTKLIFEENKINDFIKVVFKEMNKILCIKDKNCFKDNNGFSAIRLDNNYILIEVIGEFKSYLGKPYTFIEDKKVIEVFENMKKNLYIYENKIFFKLNYEYRDSFVFYIEYCFPLKEIDKKFIEMYYSEVVALFNNLNLVLEIEETQKEIIYTLGEVVEGRSNETGYHVRRVAEYSKILALGCGLSEEEANKIKMAAPMHDVGKVAIPDKILLKPGKLNEEEFKIMKTHAQLGYELLKKSKRNILQISATIAHEHHERWDGSGYPLGLKGEEISIYGRIVSIVDVFDALISDRVYRKAMDLETAKKIIRDGSGKNFDPKLVEIFFNNFDKILKIKGSFKD;locus_tag=LOCUS_13370;note=WP_011705467.1 DUF3369 domain-containing protein (Aeromonas) [pid:41.7%25%2C q_cov:99.2%25%2C s_cov:97.8%25%2C Eval:6.5e-113],MGA_1345
sequence1	MetaGeneAnnotator	CDS	1472280	1473281	.	+	0	ID=MGA_1346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNLIFSDEDDFPKLEEKPWKILIADDDHSIHAMTKLVVNDIIFENKKIQCFSAYSGKETLDILNNNEDIALVLLDVIMEEEDTGLKVVKQIRENLKNKKVRIILRTGQPGQAPEKMVVSKYDINDYKTKTELTVQKMYTTIIAALRAYKELEIIENSKKALCGVIEASIRLFESKSIKNFASELLKELSYLLEINKGIIINTSGMVFENNEDNYEILACSGEYEKNNVLEIKKLEDEVKEKIKMALKNNKSYFYDNEYIGYFKTETGKINLVYLNSESEFSELDKKAIEIFSRSVAVGYDNIYYNQKIIKEQKEKINKLNEYIEKNIKKSL;locus_tag=LOCUS_13380;note=WP_223294598.1 response regulator (Desulfovibrio) [pid:40.2%25%2C q_cov:97.9%25%2C s_cov:64.4%25%2C Eval:2.8e-68%2C partial hit],MGA_1346
sequence1	MetaGeneAnnotator	CDS	1473370	1474305	.	+	0	ID=MGA_1347;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081773.1;translation=MRIAGIDLGGTEIKAGLVNESGILKKVSTSTEVEKGSEKIVENIVKTIKMLGEKVEAIGIGSPGSIDRKNGIVRYSPNFPQWHDFELGKKVYELTGKKVFIENDANAFTLGEWYYGNAKGCNDFICLTFGTGVGSGVVINKKMLFGKDGIGAELGHIIVSSDGPMCGCGNRGCLESYASAKSVARMAKELVLKHNNSSLLNRVKDINEIESKHVFEEAKNGDFISKYVVEKITDLIAKAISGYIHIFNPEKIILGGGMSKAGNELLNPIIEKTDMYVMKSFKNTYKIELSNLVEDAGILGAASCAIYGMEE;locus_tag=LOCUS_13390;note=WP_004081773.1 ROK family protein (Thermotoga maritima) [pid:50.7%25%2C q_cov:97.4%25%2C s_cov:97.5%25%2C Eval:2.1e-86],MGA_1347
sequence1	MetaGeneAnnotator	CDS	1474310	1474990	.	+	0	ID=MGA_1348;product=rhomboid family intramembrane serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081273.1;translation=MKKTLTNYMITMNIVVFILMIIFGGFSALWGTSSRALLLFGAQYGPLVSNGQWFRTITSMFVHGGLLHIFFNMYALFYFGNIVESVYGKHKYFAVYILSGVMGNLLTQLMMPNAVSVGASGAIFGLIGLLFGSGFRHDTPRMLKPMVGTALLPIIIINIFLGFTVSSINNLAHIGGLAAGFTFGWLTPVTFTKTSIKIWKYAYYAALGLIVAAYSLLIFFTIIMLI;locus_tag=LOCUS_13400;note=WP_004081273.1 rhomboid family intramembrane serine protease (Thermotoga maritima) [pid:42.5%25%2C q_cov:96.5%25%2C s_cov:93.2%25%2C Eval:9.6e-47],MGA_1348
sequence1	MetaGeneAnnotator	CDS	1475009	1476505	.	+	0	ID=MGA_1349;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081938.1;translation=MEKLYYKVSRDPIQSEIFLYPLEIVISDTQAMQRLRYLSQLAGAEYVYPSATHTRFSHSLGVMHLSGVYSQHIYPENHSKFRILRLAGLLHDIGHGPYSHQFDDAVYKKMGYKDGHDEYREKILKTKLIEEIIEEYKNLNDPRTKNDFFKDLALTINKEVNEENLKESIEQLINMVLEVYEGEYTGSIDFNIVQGPLGADRLDFVLRDSYYAGTRHFGTGAVDRLIRNTEIFEDGKICYSIKVIDDIYSSLFARFMMYKNVYFHKTSRAADQMLQEILKYAYDILHLKERVENLDTFITLTDEKIINEIELIYDILYGENLMSLPVSPEWVENSEKIANAHNLINRLKKRDLWKIIVEIPFSMTGVDPSVVSVSVAQNILNKIKENLQNKMKEDIKKEDKEEITYILNNFDYLFKIDTPYKLSVVHPSEFLASDVFIKDTNGDILGFDEVYERYPALKLLESNLIQIVRIYIKEDKRELLKKYNIVPQFSNTKTTTRW;locus_tag=LOCUS_13410;note=WP_004081938.1 HD domain-containing protein (Thermotoga maritima) [pid:50.0%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:6.3e-137],MGA_1349
sequence1	MetaGeneAnnotator	CDS	1476508	1477374	.	+	0	ID=MGA_1350;product=Hsp33 family molecular chaperone HslO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081604.1;translation=MGKVYQTSVYNGRVRLVALDTTDIVKYLQKIHDLSPLSSVVLGRVATASLLLGSYMSENEKVTVVFNGDGPAGSVAAESGSDFKVRAYIDNKHLNTFINEKGKFDVAKAIGKGMLYVTRDLRLREPVTSNIEIISGEIAEDIAMYLNHSEQVPSAVSLGVLTDKDGIKSAGGFMLQILDQTLEEEKIKKIENIFLSLPSISTYIAENNKLEYLLDAFGEKDYLNVYESKFECSCNKEITSKALLHLNVEELEELKEKGQAEVTCNWCSKRYIFNKEEIQKIISEKLEG;locus_tag=LOCUS_13420;gene=hslO;note=WP_004081604.1 Hsp33 family molecular chaperone HslO (Thermotoga) [pid:42.1%25%2C q_cov:98.6%25%2C s_cov:98.3%25%2C Eval:2.9e-63],MGA_1350
sequence1	MetaGeneAnnotator	CDS	1477376	1478704	.	+	0	ID=MGA_1351;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079969.1;translation=MLKSLIGKNTIQEYVGKIEEKNKELNAVLRIEKVTGNKDGKYYGIPFLVKDNIQIEGTKLTCGSKILKNYNSVYTATAMKKLLDAGFSVIGKTNMDEFAMGSSNENSAYGPVKNPLDTEKIPGGSSGGSAAAVAAGMAPFAIGTDTGGSVRQPASFCEIVGYKPSYGMISRYGVVAFGSSLDQIGVLSTTVEDAATVVEIMKGKDEKDSTTVEHSTNLTSFFGEDIKGKKIAVPKIIYSEGVDKKILEEFENAVNLLKENGAIVEEIDIPELKYAVSIYYIIAPSEASSNLSRFDGVRYGLRKNEKGLSDLYNKTRDEGFGIEVKRRILMGTYTLSSAYYDAYFSKASKVRKLMSDKINNVLENYDLILTPTSPTLPPKIGEELTPLEYYLMDIFTIPANLVGLPAISVPFNKIGIQFIGKRLKDEEMLAVADAFEKKVGVH;locus_tag=LOCUS_13430;gene=gatA;note=WP_004079969.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Thermotoga maritima) [pid:55.7%25%2C q_cov:91.9%25%2C s_cov:87.1%25%2C Eval:1.3e-130],MGA_1351
sequence1	MetaGeneAnnotator	CDS	1478704	1480137	.	+	0	ID=MGA_1352;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079967.1;translation=MFKPVIGLEIHAQLMTKTKAFCSCSADHFETEPNKNICPVCTGHPGALPVLNEKAIELAVRAGLAINGEINLYSKFDRKNYFYPDLTKGYQITQYFKPIITNGKLNVMGKDVRINRIHMEEDTGKMVHLGEEIHSSKESLIDYNRAGVPLIEIVTEPDIESAEQARAFMEKLRDILRYAEISTGDMEKGALRCDANVSVKNLETGEWSNKVEVKNINSFKFVEKAIKYEIERITEEMKNGNEIIQETRRWDSVKNATFSMRKKEGEADYRYFPEADLPPLIITKEFIENVKKTLPELPDEKSKRFVKEYKIPEYDAELLSSNKELSNYYEECARKVKDGKFVSNWIMTEVLRIMKEKNDNIFNLKLKPDHYLELKTLIESGKISTKIAKEIFPEMYDTGKMPSEIVKEKGLEQIDDDSMLYDLVEKLISENPKNVEKYKSGKTNIAGFFVGQVMKQTKGKANPAKLNNIVKELLDKQ;locus_tag=LOCUS_13440;gene=gatB;note=WP_004079967.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Thermotoga maritima) [pid:61.1%25%2C q_cov:99.4%25%2C s_cov:99.2%25%2C Eval:1.2e-172],MGA_1352
sequence1	MetaGeneAnnotator	CDS	1480257	1481054	.	+	0	ID=MGA_1353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIVILIIVILNVLSFSNFLTAEEYAKGEMLFEQPLEAITLVGNISLDKNLNIENFNYGYGVNLGNNGLIMGIFSRYSGTQTLNLEYIGFKNYNFYMNFLFKDWKYFYGFGSSYNIDLYRNMKLKLLFQGNYYEQQIQTLNLGTSLKIGFLELMVGQSNINLKEKTDLPFNLKKEINFGISLDFNQLTISGAAKYDFYINEFSNYNISFKIYPFKKFKNDYYSYNLKRQEIELEKEKELTKRTVAVLGITALVGITALVMIFK;locus_tag=LOCUS_13450;note=MGA_1353
sequence1	MetaGeneAnnotator	CDS	1481136	1483304	.	+	0	ID=MGA_1354;product=glycoside hydrolase family 31 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582587.1;translation=MTSYKITKITNKFSFGNPFNTNAVINNYLNLKKIKKNMPFFEVKNENDTIKLTYKMNNKDKIYGLGEMMGGLNKRGKKYKTYSNDVPIHTPDLENLYGNHPFLIVDGVETFGFFIDFPGKIEFDIGFEKYDTLEIKLKNNFDIYIFEGKKDEIIKEYLKLTGSPMSLPKWAFGYQQSRWSYPDKKSIKEIAKKFREYKIPCDAIYMDIDYMKDYKIFTIDKEKFTNFEKFVNEMKNEGFKLVPIIDPGVKIEKNYEVYEEGIKNNYFCKDEKGNDFTAAVWPGLTHFPDFLNEKVRKWWGDLYKNFNDMGIRAYWNDMNEPAIFYTPERLKEAFEVVKNVKNNDNLGIDVFKAKDSFVNMPNNIKDYKSFYHNVDGENILHDEVHNLYGFNMARATAEGLKRLDNNKRYFLLSRSSYSGQQRFSAIWMGDNMSWWEHMLYHIRMMLNLNITGFFYTGADIGGFGGNTSEDLVIRWMQLGAFTPLFRNHSAFGTRHQEPWEFSEKARNIMKDIIELRYAFIPYSYSEYMMSIEKLKPFISPMFLKYEEERIKEIEDQYMYGESLMIAPIITQNATGRYVHLPENKWLFWNASKYNERKLKVYNPGDYYVKADLFEIPLFIKENSIIVLTKPQNYIGEKEIEKLNVIAFVTEKSEYTYYEDDGETYNYKDGDYAKLKIEIAKDNTEYKIVIEKDESEDYKLKIKELNFEIYDKIGNVFTKKMEI;locus_tag=LOCUS_13460;note=WP_012582587.1 glycoside hydrolase family 31 protein (Dictyoglomus turgidum) [pid:38.8%25%2C q_cov:95.6%25%2C s_cov:89.7%25%2C Eval:4.1e-143],MGA_1354
sequence1	MetaGeneAnnotator	CDS	1483318	1483842	.	-	0	ID=MGA_1355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENSNKSNNIIKNFFIEFIILIIAIILMILNPNKALSGIMYALKMFFTLFPIIISVAFLTGFISEIIPKKTIAKIIGKESGIKGKSLGAFFGMFMVGPTYAFYPFFKELIDKGASVGVIATTIGSWAIKIQWLPFALGILGAKFVLLLNFFILIYSFIIGFIMDFFFNLKKHR;locus_tag=LOCUS_13470;note=WP_038966159.1 permease (Bradyrhizobium diazoefficiens) [pid:28.3%25%2C q_cov:62.1%25%2C s_cov:54.2%25%2C Eval:3.0e-08%2C partial hit],MGA_1355
sequence1	MetaGeneAnnotator	CDS	1483839	1484327	.	-	0	ID=MGA_1356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNFVIGLIFFALVLILYLIFFKKDPIKIKKAAKKGSKNLIQNSIRIFSVFLILGILQSFLSKESVGNFLLNFSNIKGIFSGIITGALMMGPPATGYPIGQYLLENNATISLVSAFLLSWVMLGIISLSLEFKYLGKKFTLLRNFFALIAIFFIALVMEGLL;locus_tag=LOCUS_13480;note=MGA_1356
sequence1	Barrnap:0.8	rRNA	1484705	1486227	.	+	.	ID=Barrnap_7;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00070;note=Barrnap_7
sequence1	Aragorn:1.2.38	tRNA	1486275	1486350	.	+	.	ID=Aragorn_38;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00380;note=Aragorn_38
sequence1	Barrnap:0.8	rRNA	1486402	1489308	.	+	.	ID=Barrnap_8;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00080;note=Barrnap_8
sequence1	MetaGeneAnnotator	CDS	1489582	1490586	.	-	0	ID=MGA_1359;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868911.1;translation=MKKFTEKLLIIFVLIISLVSLIKIIYPFINDQDENIIYNSVQKINNSTTTDDFSFVVMGDNKNSISTFSKIIKDVNNDDSIKFIINTGDMVFDGNPIKYSFFIKQIKTLNKPFLPVCGNHDVADGGTDKYNMLFGPLYYSFNTKNSYFIVLNNSNEENIDLWQMKWLIKKLNESKKFDHTFIFMHVPIFDPRVKMENQPGHSMKNLNNAKKLMSILKSYKIDKIFFGHIHGYYKGNFEGIPYIVTGGGGAELVGSNKNHDFYHYIKVTVKNNDVTYDVHKLNSPDFNFIDRVGAFLWLYLYAFIAINYWAIIFALSTLLILIIYLKNIKSKNNK;locus_tag=LOCUS_13490;note=WP_012868911.1 metallophosphoesterase (Thermanaerovibrio acidaminovorans) [pid:27.8%25%2C q_cov:75.4%25%2C s_cov:88.1%25%2C Eval:6.1e-31],MGA_1359
sequence1	MetaGeneAnnotator	CDS	1490607	1491506	.	-	0	ID=MGA_1360;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000442797.1;translation=MNTNEINLSNSGLILSKIVHGMMRLNTWNYTKKELLKLIEKDIDIGVTTFDHADIYGNYTCEKIFGEVLKDKKDLRRRIQIITKCGIVLSKKNHIKYYDTSKEHIIKSVETSLKNLNTDYIDLLLIHRPDPLMNPNKVAEAFNELKRDGKVLHFGVSNFTSQQFKMIESRLNFPLITNQIEVSPYNLSNFKNDEINFLMKKRVNPMAWSPNAGGLLFKPNDEKSKKLNNVLNEVAKELNLNSIDKVIYAWILNHPAGILPIIGSGKVERLKIAIDSLNIKLTKEQWFKIYTTSLGHNVY;locus_tag=LOCUS_13500;note=WP_000442797.1 aldo/keto reductase (Bacillus thuringiensis) [pid:53.8%25%2C q_cov:95.7%25%2C s_cov:96.7%25%2C Eval:7.9e-88],MGA_1360
sequence1	MetaGeneAnnotator	CDS	1491493	1491945	.	-	0	ID=MGA_1361;product=YaiI/YqxD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001832102.1;translation=MRILVDGDACPVKNIIIEIAKKYNIEVIIFASTDHNINIDYAKIIKVAPGRDSVDLVLINSSKEKDIVITNDYGLASLALSKKTIPISFSGIIFNEFNIDSFLMSRYLGAKSRRSGKNIKGPSKRTKEDDIKFKNSFLTIIKRGIKNEYK;locus_tag=LOCUS_13510;note=WP_001832102.1 YaiI/YqxD family protein (Staphylococcus) [pid:42.4%25%2C q_cov:94.0%25%2C s_cov:96.6%25%2C Eval:7.9e-24],MGA_1361
sequence1	MetaGeneAnnotator	CDS	1491942	1492514	.	-	0	ID=MGA_1362;product=HutD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904290.1;translation=MIKLTEKNKLKISKWSGGKTTELKIYPENSIYEKRNFLWRVSTATVETEKSNFTKLLKIKRILMILEGKIKLIHENHYEKILSQYEKDSFMGDWETKSFGKVTDFNLMLSKNFDGDIKKIIFKNKSISKKLEKKNTYIFYSKNGRFDFYIENKKYTLNSENTLEITDFDGKIIIEKYEQSTLIYAKVFKV;locus_tag=LOCUS_13520;note=WP_005904290.1 HutD family protein (Fusobacterium nucleatum) [pid:38.3%25%2C q_cov:90.5%25%2C s_cov:95.1%25%2C Eval:6.9e-23],MGA_1362
sequence1	MetaGeneAnnotator	CDS	1492927	1493466	.	-	0	ID=MGA_1363;product=phosphoribosylglycinamide formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080015.1;translation=MKKIIVLASGNGSNFEALKNENINITHLICNKKNAYVIERAKKLKVPYTIISEKNKIIYNKKLFEKLKNLKFDLIVLAGYMKILPPEIVNYYKNKIVNIHPSLLPAFPGTHSIEKAYNYGVKYTGVTIHYVDEGMDTGKIIEQEIIKIDYTKNIDALETQIHIIEHKIYPKIIKKLLNI;locus_tag=LOCUS_13530;gene=purN;EC_number=2.1.2.2;note=WP_004080015.1 phosphoribosylglycinamide formyltransferase (Thermotoga) [pid:54.1%25%2C q_cov:97.8%25%2C s_cov:85.9%25%2C Eval:2.3e-46],MGA_1363
sequence1	MetaGeneAnnotator	CDS	1493463	1494422	.	-	0	ID=MGA_1364;product=phosphoribosylformylglycinamidine cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545739.1;translation=MDYKKSGVNIDNADKMLENISEELGENKGLYGGTFPIYKYLKDYNEPVLVSSTDGVGTKMMLLEEEKQWNTAAIDLIAMNLNDLVCMGAKPLFFMDYYATGKLNPIDASNFVKELSKELKKLDCQLIGGETAELPGIFSKGKVDVDGFVVGIVEKNEILSKEKVKENDILIAIKSNGVHSNGFSLVRKLLEEKKLKYSKKIIAPTKLIVKQTLKIKNYIHAAAHITGGGIEGNLIRIIPEGLTAKINMNWNLPEIFDEIREAGVNIDDMLKTFNMGITIIYAVSKENEKIVLDELKNMGEDPIILGKVEKGSIGVEIIR;locus_tag=LOCUS_13540;gene=purM;EC_number=6.3.3.1;note=WP_012545739.1 phosphoribosylformylglycinamidine cyclo-ligase (Thermodesulfovibrio yellowstonii) [pid:42.3%25%2C q_cov:96.9%25%2C s_cov:96.5%25%2C Eval:8.8e-64],MGA_1364
sequence1	MetaGeneAnnotator	CDS	1494422	1495777	.	-	0	ID=MGA_1365;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964701.1;translation=MLMEECGVFGVFLKNEANVSPYIVEGLIALQHRGQEAAGIACSNFKKIELYKKSGTVSQVFNDKVLNEITGTLGIGHVRYSTKGGSSADNAQPFLIKYKNEYFSIAHNGQIENAEKVKRELEKNGTIFMTGSDTELILHILVGKLKTPPHKWTLEEISSIIFENIKPSYSLLILFEDRIIAIRDKKGYRPLSIYEDEYGHYISSEDCGFKFLNPNYKKIREIKPGEAVEISKYEVKSIQHETNEYKHCFFEHVYFARPDSNVFGRNVHLMRERLGQQCAIENPVDADIVVPVMESGFSGALGYSKISGIPIELGLMKNRYIGRTFINPGQTNREIGVRRKLSPIIQVIKNKRIVLIDDSIVRGTTMKRIVDMLKEAGANEVHVRIASPAVKDTCSWGVDIPNKKDLIAQKNIEDIKSEIHADSLGYVSLNGVKEILGSEYKNYCFFCFGGK;locus_tag=LOCUS_13550;gene=purF;EC_number=2.4.2.14;note=WP_010964701.1 amidophosphoribosyltransferase (Clostridium) [pid:46.3%25%2C q_cov:99.1%25%2C s_cov:92.8%25%2C Eval:7.6e-110],MGA_1365
sequence1	MetaGeneAnnotator	CDS	1495781	1497952	.	-	0	ID=MGA_1366;product=phosphoribosylformylglycinamidine synthase subunit PurL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244429.1;translation=MQKTINPEVLSTQLGLNSYEYKLIKERLGREPNELEVYLFSAQWSEHCGYKHSKTLIKTLPITIEDENAGYVKIDDTAIVFKVESHNHPSAVEPYQGAATGIGGIVRDVLAMGARPIALLDSLRFGPLTDPKSKHLFEGVVSGISGYGNSIGVPTVAGETSFDETYSTNPLINVMCVGTAKEDELTSSKSAQHNKLFAYVGSKTGRDGIHGASFASKELSGEDERSSVQVGDPFSEKNLIEATLEIAALQGVLACQDMGAAGFLSSSSEMADKGNLGCILNLENVPVREENMQPWEIMLSESQERMLFLIEPGWEAEVERIAKKYFLDFAIVGKTTYEKKMKLYMNEKELCNVPIKLLVNAPQLYVKSEVPGYFYVHRARKYPEITTNSRRILLDLLKHPNITNKKWVFEQYDYKVGTNTVITPGKADASVLWIKGNHKGIAVTIDGNGLYTFLDPYEGSRNIVYEAARNLIAVGAKPLGITDNMNFGNPENSTVRWQFEQSIKGIGSACRELETPVTGGNVSFYNESETEAIYPTPVIGMVGEVSDLKKTMTMDFKFPSDKVYLVGKTIMNKEFIGGSLYLKMNGFIGGTIDRVRTLFELGLHKVILNLIDKNLVNMVHDVSDGGLAVAIAESCITGNLGFNGKIGESIEEYFGENQSRFIVSVPAEKTNLFEELVTEMKMEFTELGTVMPFEYGYNAGFGSIHLNELKDSYYNTLQKIMED;locus_tag=LOCUS_13560;gene=purL;EC_number=6.3.5.3;note=WP_003244429.1 phosphoribosylformylglycinamidine synthase subunit PurL (Bacillus) [pid:48.9%25%2C q_cov:93.8%25%2C s_cov:92.6%25%2C Eval:2.2e-176],MGA_1366
sequence1	MetaGeneAnnotator	CDS	1497936	1498607	.	-	0	ID=MGA_1367;product=phosphoribosylformylglycinamidine synthase subunit PurQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000666779.1;translation=MIKAGIIVFPGSNCDRDAEFALNSCGFETEYIWHDYDNILKYDFIFIPGGFSYGDYLRAGALAKFSPVMKHVEKFAIEKKGLIMGVCNGFQILTETGMLPGALSKNTSLKFICKDVDVNVESFETPFTKYIEKKKLRLPIAHSEGNFKIEKKDIELIKDKVAFKYVENPNGSYEDIAGIFNKNLNILGMMPHPERNSVKTLGNGDGAYIFLSIRRYLEDAKNN;locus_tag=LOCUS_13570;gene=purQ;EC_number=3.5.1.2%3B 6.3.5.3;note=WP_000666779.1 phosphoribosylformylglycinamidine synthase subunit PurQ (Bacillus) [pid:51.9%25%2C q_cov:95.1%25%2C s_cov:94.7%25%2C Eval:4.1e-58],MGA_1367
sequence1	MetaGeneAnnotator	CDS	1498604	1498867	.	-	0	ID=MGA_1368;product=phosphoribosylformylglycinamidine synthase subunit PurS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933007.1;translation=MKSFKFEVLISLKKGILDPQGSATEKVLKRLNYPVNSVRFGKNIELTVNEETEEKALKIVNEIADKLLSNPVLEKYEIKLLSTEVLA;locus_tag=LOCUS_13580;gene=purS;EC_number=6.3.5.3;note=WP_010933007.1 phosphoribosylformylglycinamidine synthase subunit PurS (Chlorobaculum tepidum) [pid:38.8%25%2C q_cov:90.8%25%2C s_cov:95.2%25%2C Eval:1.4e-10],MGA_1368
sequence1	MetaGeneAnnotator	CDS	1498864	1499568	.	-	0	ID=MGA_1369;product=phosphoribosylaminoimidazolesuccinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003420966.1;translation=MNVNELKFIYEGKAKKLFEYENNVLIYYKDDVTAFNGEKKDNLIGKGKINKKISVFMFELMEKNNVKTHFIKDIDETTFLAKKVEIMPLEVIVRNYTAGSFCKRYGIEKGKKLKMPLVEFSLKNDDLGDPMISDDAIIALDICSKKDLEHIKNEALKINNILNNYFKQFDILLVDFKVEFGKNNNEILLADEISPDTCRFWDKNTMESLDKDVYREGKGDLVDTYTALIRRINL;locus_tag=LOCUS_13590;EC_number=6.3.2.6;note=WP_003420966.1 phosphoribosylaminoimidazolesuccinocarboxamide synthase (Clostridioides difficile) [pid:50.9%25%2C q_cov:96.2%25%2C s_cov:98.3%25%2C Eval:2.2e-65],MGA_1369
sequence1	MetaGeneAnnotator	CDS	1499570	1499977	.	-	0	ID=MGA_1370;product=AIR carboxylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021394.1;translation=MQKVLIVAGSESDRGFVNQALELFDGWNIEYEFKIFSAHRNLKELQSFLETLSKDFKVIIGVAGLSAALPGVIASISSLPVIGVPHDVGPLNGVDAILSMAMMPKGVPVATMGIGNHGMKNAAYLAKRILDLGRN;locus_tag=LOCUS_13600;note=WP_011021394.1 AIR carboxylase family protein (Methanosarcina acetivorans) [pid:50.4%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.4e-26],MGA_1370
sequence1	MetaGeneAnnotator	CDS	1500212	1501405	.	-	0	ID=MGA_1371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILLIVILFSIFSFGEITKEYLNNFEYSQLIKSNDDLLKIIGYYKLYFKFGFTGNKIKAEKLFYSFQKNYNNEKDIAIIDLIKSLDTFSQIEMLKPIKTLTNLDNKYNNDLIKILRLEYIYKDWKRSGDPKIAKEIMNTLNYLKEKYGETVFYSYYYSLFNIESRLYGIRSLAYKELKNGILNFKKSMILKELFLTGARKESEISFIPSEVQKNDESLYLNIAKEYIDSNRNNAYVLLSIEEFYLKNNLYQQAKKLLKNLKQSNKVNKVLPRFYELLGDYSLNIDDKVSFYEKSLKLLNKNYDLWGKFGLAVYKQDPVKNKTLARIALNNATDAPNQPQEVYDLLKKLRNDMKLHLFLTVILPIILVFIVGITMLLLYEKRNKKKQREMMLKGD;locus_tag=LOCUS_13610;note=MGA_1371
sequence1	MetaGeneAnnotator	CDS	1501563	1503284	.	-	0	ID=MGA_1372;product=FAD-binding oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681003.1;translation=MSYKGFEPNWYEKKPPEKSYRSLFRWGKWNEYKHPNENLYKLMKKTFKVTDEDFKKYKNIGLEEVPDNHPINLNSEQIKTIESIVGKENIKKDTYTRAGVSYGKTMLDALRMREKIIENIPDIVVYPRNKEDIKELVNYCNKELIPVYVFGGGSSVCRGLEAVKGGITLDMRKHMNKVIKFNEKNQTITVQPGMQGPELEKILNDAVNLFNAKIPYTCGHFPQSFEYSSVGGWVVTRGAGQNSTYFGKIEDIVLSQEYVTPAGIIKTGEFPAQSTGPDVDQIMMGSEGTFGVLTEVTLKVFKYMPENHQKFSFIFKNWEDAKEAAREIMQGQFGFPSVFRLSDPEESDVALKLYGVEGTFLDKMISARGYKQGERCLMLGFTEGEKNFSKLVKKNIKKICKKHGAMYTTGYITKSWEKGRFKDPYLREDLGDFGIMIDTLECTVNWENLEEVHTGVREYCHSRPDTICMTHMSHFYPQGVNLYFIFIAKMDTIEEYVDYQHGILDNIQKYGATMSHHHGIGKMIAPWLEGQIGKNQMEIFKTLKKHFDSNNIMNPGGTLGLDLKEEEKKFIKQ;locus_tag=LOCUS_13620;note=WP_002681003.1 FAD-binding oxidoreductase (Treponema denticola) [pid:58.9%25%2C q_cov:99.0%25%2C s_cov:96.8%25%2C Eval:1.5e-206],MGA_1372
sequence1	MetaGeneAnnotator	CDS	1503295	1504839	.	-	0	ID=MGA_1373;product=FGGY-family carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681001.1;translation=MILTIDCGTQSIRAALINENGNIVAIEKKEFTPYYSENPGWAEQSADVYWKNLCNATKDLKEKNINLFEKVKGVVVTTLRDTAVCLDKEGNPLRPIILWLDQRKSQSIYKPSKKHKLMFSVVGMTRTINIIRHNSKANWIKENEPEIWKKTYKYAQVSGFFHHKLTGNFIESIASQIGHLPFDYKNKKWTKSNSSWKWEVFGVEKEKLMKLINPTEIIGYITKKAEIETGIKKGIPVIAGGSDKGCETLANGCTNPKRVSLSFGTTATAQISTKNYFEPLRFMPSYPAVIPNYYNPEIEIFRGYWMISWFKKEFAEKELKLAKELNISPEKLLNEHLNKVPPGSHGLILQPYWGPHVKTPDAKGAVIGFGDIHTRSHLYKAIIEGINYALMDGVEKLEKKSKVKIKEVIVGGGGSQSDAICQITADMFGKPVKKIHTHEASSLGAAIIGFVSTGTYKNFEEAINHMIKYKKTFIPNKKNHEIYKNLFEKVYKKIYPSIKNLYSEIQTITGYPEL;locus_tag=LOCUS_13630;note=WP_002681001.1 FGGY-family carbohydrate kinase (Treponema denticola) [pid:43.4%25%2C q_cov:99.6%25%2C s_cov:98.3%25%2C Eval:1.7e-124],MGA_1373
sequence1	MetaGeneAnnotator	CDS	1504842	1505192	.	-	0	ID=MGA_1374;product=DUF1667 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964634.1;translation=MNLTCIVCPNGCMLEVSKKNSEIIVSGNLCKRGYDFAVNELNNPVRTICTTVRTTYKNMSRLPVRTSGEVPKPLIFDIMSVINKVVINEPVSIGDIIIENVLNTGVDIIATSKLGE;locus_tag=LOCUS_13640;note=WP_010964634.1 DUF1667 domain-containing protein (Clostridium) [pid:47.4%25%2C q_cov:98.3%25%2C s_cov:95.7%25%2C Eval:7.4e-25],MGA_1374
sequence1	MetaGeneAnnotator	CDS	1505192	1506421	.	-	0	ID=MGA_1375;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680998.1;translation=MYDVVVIGGGPAGLAAAVSAEKNGAKTLIIERENKIGGILKQCIHDGFGLLKFHEKLSGPEYAYRYIEMAKNIETLTSTFVTSVKKINDTFHFNLVTKDGLLKVTSKSLILSTGCRERTAKQIFIHGTRPAGVYTAGTAQYFVNIMGYLPGKKTVILGSGDIGLIMARRLTLEGAEVLGVYEAKSTPSGLQRNIAQCLDDFNIPLHLSKTVTKVLGTERVEGVIVSSLDETMKILPNTEEFIECDSLILSVGLIPENEVAESLNITLDPSTKGPYVDDFLMSVDSKGVFSCGNALHVNDLVDYVSESGEIAGKNAANYSKNFEKNSIKEKVSIKKGNNILYVVPQYVSKESKEFILYFRVNKVMKNKTVIIKDTENIIFKKKYLFLKPPEMEKIVLKINNPSQLKLEVI;locus_tag=LOCUS_13650;note=WP_002680998.1 FAD-dependent oxidoreductase (Treponema denticola) [pid:55.2%25%2C q_cov:96.6%25%2C s_cov:90.4%25%2C Eval:3.2e-120],MGA_1375
sequence1	MetaGeneAnnotator	CDS	1506414	1508120	.	-	0	ID=MGA_1376;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_044971525.1;translation=MLKKIQKKLTKKISKDIICSEENGAIKLEGEVNTWNKVYLSGKIAANSSYRGVINKLKVKNLNLPSISKPLLKDTKLQNKKVDVLIIGGGIIGCSIARELSKWKIKTLLVDKEYDLAVHTSSRNDGMIHPGIAPRPGSKKAIYNSRGNKMYTKLAKELDIEFNRTGSLILYDKWYLKFALPLLKIRAHENKVRMKFLNKKELKKREKYISAEIEGGVIFPDAGIVSPYKTTIAFGESAAINDVEFSLDTIVTNIITENNEIKYVETNRGKLYPKIVINAAGVFSDEIAEMAGDRFFTIHPRKGEIALLDKKKGHMLYSILSKPSLNFKSTTKGGGLVKTVEGNILAGPTAIEQPFKEDYTTTPEGLNAIINKHLKNIKGIRKTDIITYFSGIRASTYKEDFIIEKSQKINNLVHAAGIQSPGFASAPAIAEDISKITIDILKEKTRVVKKENWIPKRKKILTLKDMTFEERNKLIHKNPNYGEIICRCEEISKGEIIDAIHSPIPATTVDGIKKRVRAGMGRCQGGFCAPLVIKILNEELSKDILEITKKGKDSYMVVEETKRDDKNV;locus_tag=LOCUS_13660;note=WP_044971525.1 NAD(P)/FAD-dependent oxidoreductase (Treponema denticola) [pid:45.5%25%2C q_cov:96.1%25%2C s_cov:93.1%25%2C Eval:2.7e-131],MGA_1376
sequence1	MetaGeneAnnotator	CDS	1508349	1509056	.	+	0	ID=MGA_1377;product=phosphonate metabolism transcriptional regulator PhnF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002194085.1;translation=MQLPLYIEISENLKNFILDGNIKIGEKIPGDFELMKQYQVSRDTIRKAIKVLVDDGYLIRRPGKGTFLCRRRKVDSIEKIISFSSELIARGYVPSTKLIKFKEINATPEISEMLKCNQNEDIYLIERIRYASKLPIAFETTYLLKKIVGEIKKNELLDSMYEFLSREKNIEFIKMVQEIKPKMLDSKVAKMMKVDIMPVIHLSRIIYTKNNMPFFALSFLLRGDNYSMKNEVILK;locus_tag=LOCUS_13670;gene=phnF;note=WP_002194085.1 phosphonate metabolism transcriptional regulator PhnF (Bacillus) [pid:34.8%25%2C q_cov:94.9%25%2C s_cov:92.2%25%2C Eval:1.5e-34],MGA_1377
sequence1	MetaGeneAnnotator	CDS	1509073	1509417	.	+	0	ID=MGA_1378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLFKLLISALIIVFVSEFSKKFSWIGGLIASLPLISIISIFWLYNDTKDIVKVTNLSLNIFWFVIPSLIFFIMLPFFLKYFPFYLSMIFSSIITIIFYIIFSYIISKIGVKI;locus_tag=LOCUS_13680;note=MGA_1378
sequence1	MetaGeneAnnotator	CDS	1509414	1509809	.	+	0	ID=MGA_1379;product=DUF123 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868537.1;translation=MNSGTYLLLVEIERDIEVKIKRKEIKIKKGKYLYVGSAMKNLHQRVGRHISFKEGDYKKHWHIDSLLENGKVLFSIIIPDGIYKEEKFSKKFNNNFNSIKNFGATDLKTDSNLFIIENTKKFFEFLNEILV;locus_tag=LOCUS_13690;note=WP_010868537.1 DUF123 domain-containing protein (Pyrococcus abyssi) [pid:37.4%25%2C q_cov:87.8%25%2C s_cov:77.8%25%2C Eval:3.8e-13],MGA_1379
sequence1	MetaGeneAnnotator	CDS	1509811	1510215	.	-	0	ID=MGA_1380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNLLIIDDEEDIRTVLKEYINEEFENINVELSKNADEAFYLFENTNFHIVFLDIVMPGMDSFEFLKKIKSQNSFTQIIIITGNSDLNKIINAFENGADDYLTKPFDINTINEIIINTQKKLKRWSDLFKDAL;locus_tag=LOCUS_13700;note=WP_003723595.1 response regulator transcription factor (Listeria monocytogenes) [pid:31.4%25%2C q_cov:90.3%25%2C s_cov:48.3%25%2C Eval:5.8e-14%2C partial hit],MGA_1380
sequence1	MetaGeneAnnotator	CDS	1510220	1511488	.	-	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIDSLSIAIAIFNENGNLLYTNKKFKTLKFIDKNKFEVFIKNKIQSNVINKEFNFNNYTLKITSYENNYIVEFLKFTKTFKTPQIRFEVLETIRISAMEKLEPLKFLEKLIKIFINSNLFNFLEVILDEKNKVKVGKSTNNVKIKNINTEEFSIKLKYNSDIPSIHGEEIIVNSFLNMFTLYNIFFNECKRMKVYDEKLLDSEKFSLAGQMMMGMLHEINNPLTIGIMNTEMILKNEKYYSIDRIKKISNQFYRIKDIIDIFRGAFKKENILSVFKLNDAILKANNFLFNNNQKKFILDIEKSKNVNIKGDANKIIISLINLFSNALDAIKNNKDGVIQISTFKYRKNVVLKISDNGIGMSKDVLNNIFNPFFTTKQKYGLGHGLFFVSSVCITHNIKISVISKENYGTTFTLIFPIEE;locus_tag=LOCUS_13710;note=WP_011861320.1 transporter substrate-binding domain-containing protein (Clostridioides difficile) [pid:29.3%25%2C q_cov:72.0%25%2C s_cov:46.7%25%2C Eval:6.1e-21%2C partial hit],MGA_1381
sequence1	MetaGeneAnnotator	CDS	1511492	1511803	.	-	0	ID=MGA_1382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEITFGSELKIKILRILSKKGKVRFSEIKNSLKSGAGSTKASLDSLIKNNVVTAIEEGPRKKYFIISDYYKNILKELFDFEEKIENQKLKKDMLKNFFNIEE;locus_tag=LOCUS_13720;note=MGA_1382
sequence1	MetaGeneAnnotator	CDS	1511947	1512300	.	+	0	ID=MGA_1383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRILVVEDDFVSREIMKEIIEKNVYFAKSGKEGYDIFIKNYNKNKFDLIFLDVMMPEMNGLTLLKKIRSYETDFKTKIIMISALDDIKTIKEAKKIGCDDYIIKPIEPNEIREIIGG;locus_tag=LOCUS_13730;note=WP_003356525.1 Na-translocating system protein MpsC family protein (Clostridium) [pid:40.7%25%2C q_cov:98.3%25%2C s_cov:42.4%25%2C Eval:1.6e-16%2C partial hit],MGA_1383
sequence1	MetaGeneAnnotator	CDS	1512304	1512690	.	+	0	ID=MGA_1384;product=methylglyoxal synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230640.1;translation=MINVALIAHDKKKLDLVMFTREWKKVFSKCNLYATNSTGTLIEEKVGLKITKFKSGPYGGDLQIGALITSDDIDFVIFLRDPLTAQPHEPDVSALLRVCDVHNIPLATNLATAEGLVLEIEKKLIKES;locus_tag=LOCUS_13740;gene=mgsA;EC_number=4.2.3.3;note=WP_003230640.1 methylglyoxal synthase (Bacillus) [pid:60.3%25%2C q_cov:94.5%25%2C s_cov:88.3%25%2C Eval:3.8e-37],MGA_1384
sequence1	MetaGeneAnnotator	CDS	1512821	1513129	.	+	0	ID=MGA_1385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEP;locus_tag=LOCUS_13750;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.3%25%2C q_cov:69.6%25%2C s_cov:17.9%25%2C Eval:3.5e-14%2C partial hit],frameshifted%2C insertion/deletion at around 1513126,MGA_1385
sequence1	MetaGeneAnnotator	CDS	1513180	1514070	.	+	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKDVLGIYIGEIESSKFWLRVLNDLKNRGIKDILIASVDGLTGFPQAIKTAFPDTIVQRCIIHQIRNTLKYVSYKDRKELVNDLKKVYKAPNKDIAYSNLQDLKENKWTKYKLALESWEKHWETISPYFDYGDDVRKIMYTTNVIESLNRQYRKATKNKTSFPNDDALLKMLYLATINATKRWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_13760;note=WP_008761338.1 IS256 family transposase (Bacteroides) [pid:49.8%25%2C q_cov:97.6%25%2C s_cov:71.4%25%2C Eval:7.8e-88%2C partial hit],frameshifted%2C insertion/deletion at around 1513126,MGA_1386
sequence1	MetaGeneAnnotator	CDS	1514719	1515936	.	+	0	ID=MGA_1387;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELKVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPVIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARFHNWNAVISELAILFEDRLKDYL;locus_tag=LOCUS_13770;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:45.1%25%2C q_cov:93.6%25%2C s_cov:95.7%25%2C Eval:1.8e-99],MGA_1387
sequence1	MetaGeneAnnotator	CDS	1516171	1516776	.	-	0	ID=MGA_1388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFNKVEKIIDEPTKIGDTLFILKKGSIKETDMKKLEKKWLGKDNLDFDIALKDITINGTQYSKVSKTNQSYKTGELLELLSKYGKGTNEYNKIKNDLIKYYTGYKEFDAEYKNNKNKYNSYGEYVLEKLEDVVNFAKRNDIPVWQLDKVATITGGEAAYGSKNNNNNEDVKMVAKTLIERYFDERTEKMGMGFKYFGSL;locus_tag=LOCUS_13780;note=MGA_1388
sequence1	MetaGeneAnnotator	CDS	1517151	1517837	.	-	0	ID=MGA_1389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDEEKRILADTLDNRFYNKTDEYKKFLILNKNRHLIGSSSLSETNGYEKYGSAKIEFLVTYYKRQISVGRYEEEKINKGLTVLGAKKLLNFVKAYIDSSKAFNNIGGDLSGGAIYFESKSKFKSLEYDEVDYTKNQQIEKMIYGKEMNKLDIKITSTGNKTILKNNTFTNEMANNNKNIYFKIFNNTEGMESLTKNKAIEIFGNYEKRLMIKNLKTQYTTNIKLQMN;locus_tag=LOCUS_13790;note=MGA_1389
sequence1	MetaGeneAnnotator	CDS	1518429	1518629	.	-	0	ID=MGA_1390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTCKWYIVCPMNRYNKLSLVNDEVINQYCKGNWKECIRYQKEEAGIYHEDYMMPDGTINYDLKNK;locus_tag=LOCUS_13800;note=MGA_1390
sequence1	MetaGeneAnnotator	CDS	1518631	1519047	.	-	0	ID=MGA_1391;product=secondary thiamine-phosphate synthase enzyme YjbQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943269.1;translation=MKSYRKELWFNTKNRREFINITPQIEECLRESGIKEGLLLCNAMHITASVFINDDESGLHQDFENWLEKLAPEKPYSQYNHNGFEDNADAHLKRQIMGREVVVAITDGKLDFGPWEQIFYGEFDGKRKKRVLVKIIGE;locus_tag=LOCUS_13810;note=WP_010943269.1 secondary thiamine-phosphate synthase enzyme YjbQ (Geobacter sulfurreducens) [pid:81.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-65],MGA_1391
sequence1	MetaGeneAnnotator	CDS	1519044	1520288	.	-	0	ID=MGA_1392;product=phosphoribosylamine--glycine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047939.1;translation=MNIMILGSGGREHALAWNFSQSEKVNKIFCVPGNAGTAFENKCENLTLKDTELIDFAKKNVDITFVGPEQPLVDGIVDEFKKNKLKIFGPSKNGAKLEASKGFSKEFMKKYGVQTAKYEIFESYENALEYLKNSKFPIVIKADGLAAGKGVFIAETFKLGKDFLCEIMKKNKFGEAGKKVVIEEFLQGFEASIFALTDGENIKIITSAKDHKKILDGEKGLNTGGMGAICPHPQLTTEILQKFETKIMIPTLNGIKHEDMEYNGVLFFGIIVQSEEPYLLEYNVRFGDPETQAIMPLLETNMLEISEKTIENKIDKLKIKLKNNSSCCIVAVSNGYPETYEKGYKINLKNNIESKIFYAGTSFKDNELITSGGRVLSVVSTEETLEKAIKKAYNDIKEISFEGIYYRKDIGGIS;locus_tag=LOCUS_13820;gene=purD;EC_number=6.3.4.13;note=WP_012047939.1 phosphoribosylamine--glycine ligase (Clostridium botulinum) [pid:55.4%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:2.1e-127],MGA_1392
sequence1	MetaGeneAnnotator	CDS	1520299	1521795	.	-	0	ID=MGA_1393;product=bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003385254.1;translation=MKRALISTYYKDGIIEFSKFLESKGVEILSTGGTYKLLKENEIKVLKVSDITKFPEIMDGRVKTLHPKIHGGILARRGKDEKIMAELNIPQIDMVIVNLYPFFEKVNEGLKLEELIEFIDIGGPTMIRSAAKNFKDVVVITDNNDFELIEKELNDGEISQDTRLKLAAKAFNLTAAYDSAISEYLNNLTGNNFPKYHTISYEKKINLRYGENPHQSAAFYTKTIKNGIFNNFEQLNGKPLSYNNLRDADIAWKVVSSFEEIVCCGLKHNTPCGVAKGNNVYDAYVKAYECDPISIFGGIAASNTKIDAKTAKKMSEIFLEIIMAPEYDEDALEILKKKKNLRVLKMFSKANEKFEGVTVDGGILVQETDKELFNELKTVTETKINSDMMDDLIFAYKVVKFTKSNAIVVVKDGQAIGIGGGQVNRIWAAQQALERAGDGVILASDAFFPFDDVVKEAAKYNIKAIIQPGGSIRDKDSIKACNENKIAMVFTGMRHFKH;locus_tag=LOCUS_13830;gene=purH;EC_number=2.1.2.3%3B 3.5.4.10;note=WP_003385254.1 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase (Clostridium botulinum) [pid:63.1%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.3e-182],MGA_1393
sequence1	MetaGeneAnnotator	CDS	1522027	1523736	.	+	0	ID=MGA_1394;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEDLILENYYYVDKTKYIEVLENMPEKYISFLRPRKFGKSLWLDTISKYYDVKYSDKFDTIFKDLYIQKHPTPKKSSYHILEFNFSGLNTDSKEELKYGFKDEIYEKLDTFIYKYNLNITLDKSKNEPSELFREFINKYNKQNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNERASKKIYNSDMVLYFISEYNREKRKPKDVIDMNIASDYKKIQNLFKLGEVVGINNIDNEKEAIGNLLNEILMTDKTEIEELTRAFNLERKMEIDDVKTLLFYLGFLTIESKGFVMNLKIPNYSIKKIYSEYFLEMIKTRAKNYIDTGKIKIAIRKLLVDGNINSLASEIEDVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVD;locus_tag=LOCUS_13840;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:38.8%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.2e-94],MGA_1394
sequence1	MetaGeneAnnotator	CDS	1524230	1525939	.	+	0	ID=MGA_1395;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEDLILENYYYVDKTKYIEVLENMPEKYISFLRPRKFGKSLWLDTMSKYYDVKYSNEFDTIFKDLYIQKHSTPKKNSYHILEFNFSGLNTDSKEVLKYGFKNKVFNSLNFFIKHYNLKIKLNTDLKEPADLLSNFINQYKEQNLKIKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNKRASQKVYNSDMVLYFISEYNREKRKPEDVIDMNIASDYKKIQNLFKLGEVVGINNIDNEKEAIGNLLNEILMTDKTEIEELTRAFNLERKMEIDDVKTLLFYLGFLTIESKGFVMNLKIPNYSIKKIYSEYFLEMIKTRAKNYIDTGKIKIAIRKLLVDGNINSLANEIEDVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVE;locus_tag=LOCUS_13850;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:38.7%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:5.1e-93],MGA_1395
sequence1	MetaGeneAnnotator	CDS	1526531	1528978	.	-	0	ID=MGA_1396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVITLFLILLMSIFMFSGIYYTPPANMKHIKTKNFDFIFEDGLDYLVQELNEEAENLYSEYSNFYETNAGSITVYLLDDVDFVNSFADIVHNVIRLYIVPPNSNIGLGKNISNWIKFVFSHELNHIFYGNAVFNPLLKTIPFSSVKKTLNFLIYEPSYLHEGLSVFMESKHFGGRYEDTLFNTYVRSEVISNKFPRYYLNTKRDSNNFTIAGFNYTYGALITKKIKEYYSEDTLKKIIIYMNSNYFTTISTSFKAVTKDNWYDFLLKIKNEYIKDKEDKLSKGYTMLWNKTNNSYHKTSNLRTDGKYFYYIKNSPNEINGLYKENELIKNNVSKFDISNDGKIIYLDTSNEYGKYLNKLYLKCTCPIKDTLIDTRVIEFGFVDNSKIVYSKTEKGLIGLFEYDLKNNSIKKIIEYGKYSINSITGNNGKIYFSMSRNNQTDIYVYDGKLIQITNDKYNEINLFLYNDELFYSADYDGIYNIRSLNLKTNKIKTYTKYYTGGFNPVIINNKLYHLFYDYNGYHLTFKNLEETKEEKTIEILNKAIETKQKFDFTKIKDKKDYIDMPTDLFGFPYVLNTPNSTDSYYYGLFLMFNNKSRNITGTFDINSLQTTTLSFNFDYYINHNISIKLTDFLNKPTFYFDYGISNTFDINLKNKMYIQPVLNVEFKNIDLNSVYFNTAFINNPYTINDFQMYDFGMNLSLNSNLLNNTLEYKMILNKPFFIFNSKITPRIVYEGLYTASLSVGTTFEIPLIDLNLYFNDGKTGINNLNLTVDNSYDFTNKKYSISLLITIGERMFYQDIPISIPIYKYNKSF;locus_tag=LOCUS_13860;note=MGA_1396
sequence1	MetaGeneAnnotator	CDS	1529049	1530296	.	-	0	ID=MGA_1397;product=FprA family A-type flavoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986928.1;translation=MDGTRSIKLENGVYWNGILNPLLRVFDVIMKTEYGTSYNSYLVKGKEKYAVIDGSHDKFIDLYMEKLSNLINGDFSKIEYIIVNHTEPDHSGAIFKLLELNPNITIVSTAPAKKFLEEIVNGPFNHLLATEDLEIDLGGKTLNFIMSPYWHWPDTMFTYLKEDKMLFTCDGFGAHFADERMFIDKLDEKTYAKYLEAMFYYYVHIMGPFKENTRKTLEKIKNLDIKTLAPSHGPIHRGEFINKHIDLYKEWAKKDEHGIPRVLILYVSAYGNTEKLAKAMAEGIKEAGGEVELFDMVEVPENEKLDVLVSKQEWADGILYGSPTINNDALMYIWEAIGLLAVVNERKNKVYSAFGSYGWSGEAVKFLTERLKMMRLKTFEDIPPIKVKFYPTEEDLKNSKEYGKSFLEFIRKNKK;locus_tag=LOCUS_13870;note=WP_011986928.1 FprA family A-type flavoprotein (Clostridium botulinum) [pid:42.7%25%2C q_cov:97.6%25%2C s_cov:99.5%25%2C Eval:5.1e-89],MGA_1397
sequence1	MetaGeneAnnotator	CDS	1530397	1530558	.	-	0	ID=MGA_1398;product=rubredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081114.1;translation=MKKYRCTVCGYIYDPEIGDPDNEIKAGTSFNDLPDDWVCPLCGVGKDDFEVVE;locus_tag=LOCUS_13880;note=WP_004081114.1 rubredoxin (Thermotoga) [pid:75.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-20],MGA_1398
sequence1	MetaGeneAnnotator	CDS	1530562	1530921	.	-	0	ID=MGA_1399;product=class II SORL domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081116.1;translation=MKFGEVIKSADFKTEKHAPVIEAPEKIKSEELFEVEVSVGKEIPHPNTIEHHIKWIDLYIQYDEDPNTLHIGRYNFGPSINEPIIKTKIKLAKSGKLIAVSYCNKHGVWENSKEIKVEV;locus_tag=LOCUS_13890;note=WP_004081116.1 class II SORL domain-containing protein (Thermotoga) [pid:53.1%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:8.0e-35],MGA_1399
sequence1	MetaGeneAnnotator	CDS	1530935	1531444	.	-	0	ID=MGA_1400;product=rubrerythrin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249478.1;translation=MVKRPMVRQFLEDAFAGESKAHMKYLIFAENAEKSGNINLAKMWRAIAHAEFTHARNHFKALGYLGTNGENLKASLDGENFEIEEMYPAYNVVSELQNEKEALRSIHFAIEAEKIHSSMYKDAIEKIEKNDDLDEKEIYICNVCGYTTEDSLPEKCPVCGAGKDNFVKF;locus_tag=LOCUS_13900;note=WP_011249478.1 rubrerythrin family protein (Thermococcus kodakarensis) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:1.0e-58],MGA_1400
sequence1	MetaGeneAnnotator	CDS	1531578	1532414	.	-	0	ID=MGA_1401;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905879.1;translation=MKKVVIITGGSSGIGKSTVLKLLENNFTVYTGARNIDKMKDIEKKGAKISFLDVTQEETMKKFVEKVISKEKRIDILINNAGYGSYGAVEDVPIEEAKRQFEVNLFGLARMTQLVLPIMRQQRSGKIINISSVGGKIWMPMGTWYHASKHAVEGFTDCLRNEIKQFGINAILIEPGAINTSWGKITVDNLRKRSENGAYKKIANIIADSFYNIYEVKKSGLSSDKVAEVIIKSIKSNKPKARYAVPFQAKMLLFLRRLLNDNTFDSLLLKFFKIPKKF;locus_tag=LOCUS_13910;note=WP_010905879.1 oxidoreductase (Lactococcus) [pid:49.6%25%2C q_cov:92.8%25%2C s_cov:95.2%25%2C Eval:2.0e-66],MGA_1401
sequence1	MetaGeneAnnotator	CDS	1532607	1533899	.	+	0	ID=MGA_1402;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080298.1;translation=MKKWLVVLVVVFSVFMFSKTTVEFWHAMSGDRIALIQSMAEDFMKLHPDIVIKAQYTGSYRDTLNKLTTSIKSGKSPNLVQVYDIGTRAMIDGDVALPMQDMIDKDPNFDSALFLDQVLNYYRVNGKLYSMPFNSSNAVLFYNKTLFKKAGLDPNKPPKTYEELIDYSRKLAKIGVAGLTWPTHSWFFEQLLAAQDALFTDNNNGRTGKAENAVFNSEAGRKIFQLLDTMTKENLIINTKREDWSGARQIFLSGKAAMVLFSTSDAKAFYEMGKENGYDVGAAFLPVPKGSAKGGVIIGGGSLWMIKGHSNAENNATWEFVKFMAEPAQQIKWHLGTGYFPVRKDAIEQLLDSNFYSKNPVYLGTIMQLLMSKQDYSTMGAVIGVFPQARDQIETAFEKVINNQEDYKKALEEAEKSVTESIKEYNDLYN;locus_tag=LOCUS_13920;note=WP_004080298.1 ABC transporter substrate-binding protein (Thermotoga maritima) [pid:57.2%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:8.1e-146],MGA_1402
sequence1	MetaGeneAnnotator	CDS	1533953	1534825	.	+	0	ID=MGA_1403;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080296.1;translation=MKIRKFTPYILLIPTFIIITIFIYIPTVYSFRLSFFRQSPFGNREIYVGIKNFTKLFTDPNYYRAFGINILYALITVTATIFFAFLLAQLLNQKIPGTRFFRLFIFSPYAISPAIAGVLWSFLLNPVVGHINYVFMKLFGLHVEWLTQTPFAFISIVMASIWKMLPFSLIFYLAGLQSIPDSLIESSLIDGANLWTRMWKIKFPLLSPITFYLVIMTLTSSMFSSFGIIDIMTKGGPVGSTTTLIYKLYLDAFAYQKTGLAAAQSIIMFLIMGIVTYIYFKNVEKNVHYQ;locus_tag=LOCUS_13930;note=WP_004080296.1 sugar ABC transporter permease (Thermotoga maritima) [pid:64.3%25%2C q_cov:93.8%25%2C s_cov:94.4%25%2C Eval:1.2e-101],MGA_1403
sequence1	MetaGeneAnnotator	CDS	1534835	1535674	.	+	0	ID=MGA_1404;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080295.1;translation=MKLSTKKKMSFITSEVLLVIISLIVMLPVILAISMSFMKPEEVFSFPPKLIPSTLHIQNYIEAMQLVDFKRMLLNSTIIAFFITLGKLITGTLAGYAFASFNFKGKKISFGLLFITLFLPAETVMVLPLFLIVKNFGWVNTFWALIIPFTASATNAFLMRQHFMTIPKELEDAAKIDGATSMEYFWKILIPLSKPMIGGAALINFVYAWNLYLWPLIVTMEDKMKTVQIGVKMLIDGQGSNNWGVIMAGTIIALVPTLLIFFAIQNVFVKSLVSSGLKG;locus_tag=LOCUS_13940;note=WP_004080295.1 carbohydrate ABC transporter permease (Thermotoga maritima) [pid:65.0%25%2C q_cov:98.2%25%2C s_cov:99.3%25%2C Eval:2.9e-105],MGA_1404
sequence1	MetaGeneAnnotator	CDS	1535762	1539250	.	-	0	ID=MGA_1405;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948228.1;translation=MKPLLLEIEGLNSFQEKQVINFEELTKYGFFGIFGKTGSGKSTILDAIVLSLYGIIPRNTKEFINSSSQKTAVNYTFAIGENKYRIEREFKRNKNGILSHKCSVKNLNKQITIAENTSEAKKVIKDIIGLNDKDFLRCVVLPQGKFNELLTQTKGTERAEMLQRIFMLEKYGDKLYNELKNKKNDLLSNINELNGELNAYENINEEKLKFLENELLKINKEKESIQKELTSIAFEKYQKLWNNQNKLFEEEKKLIELLKNKDKIELYKKQIILAKKAINIKPNILEYEKLNEIFMKKNEYLNDLKNKIIEKENEFNKINKNYKLALREKESNYEYLIKYIEKLKDGLIFEENNKTNKTKKNKLEKELNKIIENKQILLDKSKNINNDINSNSKLLKTLIQKKENIKEIIKPEVKEILLKLLEINKEKNKIKIELNNTQTKKEELENDLYKNNNLIKELNKENESMNVEIKKLENEKASLSNEINYEKLQEFYEKLKKSENQLNDIEEKKLKLKNLKSALEKLENEKSNYYLLQKDIVNSLEENEKILNKINEINIKNLYAKIAKTLKENEPCPVCGSKHHDNPAKFEEIIDIDIKNEENIKNIIKELNFKKEDIVKKEAVLNTKINLIKNDIKPLNDLLNEFNLKKLNENYRKSNDLYENQKKINQKNNLKIENLKIKIKRKNEDFINLKEKISSTNQKLRNLKDLISEKNEHIKELNIELKKKSNEYNSRNKLIKIENPHKKFEEIKNSEKIYKKLEDEINKLNEIFTLKKEENENITKEIYNLDIRKTELTSKITSLKEDIEITTNKLNSITKNPSLKNELKNTKNKLKEFIEKEKNLKEELEKSFNFLNDLKNKYSSEKSTLNNLSSQIKNKDEFLKNLLKETPFKDKDDIKKYYLDTEEINKLEIIVENYKKDLTIINGTLENLKNELNGKSITEKEYQEIKTKKDTLNIHLEKIKKEEFLLKNKINENIEKIKIKNSLLKKLKIYIQKKDIYEELSKLFEGKKFVKFISSMQMNHITRDASQRLKKITNERYALEIDNESNFIIRDDGNGGTRRDPKSLSGGETFLASLSLALALSSQIQLKGKIPLEFFFLDEGFGTLDNELLDTVMNSLEKLRNEKLSVGIISHIDELKDRVPTKLLITSANPGNNGSKVKIEHS;locus_tag=LOCUS_13950;note=WP_011948228.1 AAA family ATPase (Clostridium botulinum) [pid:30.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-134],MGA_1405
sequence1	MetaGeneAnnotator	CDS	1539252	1540457	.	-	0	ID=MGA_1406;product=exonuclease SbcCD subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948227.1;translation=MKILHTADWHLGKMLEGYSRINEQREFINEFIEIVKRKNPDLIIIAGDIFDTYNPPSEAEYLFNYAIKNISEEGKRAVIIIAGNHDSPERLESIKPLANEFGVLIFGTPKSKTEYTYYKGFSVINSEESYIEILKDNEKAAIIALPYPSEKRLNEIFEKKINDKDFQKTYSERIGELFNNLSKKYFKKDTINILVSHFFVNGGSSTESERNIELGGIYTINPEHLPKNADYIALGHLHNQQKVSKHKNAFFSGSPIQYSKSESNHIKGVLFVEIQKNKKVNIEKIMLKNYKPIEIWKTNSIDEAINLCKKNSEKNVWAYLEIKTKNPLTGEEIKELKKYKKDLLEIKPIFTDILKEKTEQEFEKTYTDLELFKMYYKSINNIEPKNELVQTFLELINKVGE;locus_tag=LOCUS_13960;note=WP_011948227.1 exonuclease SbcCD subunit D (Clostridium botulinum) [pid:49.4%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:8.5e-110],MGA_1406
sequence1	MetaGeneAnnotator	CDS	1540527	1541153	.	+	0	ID=MGA_1407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNNILNFFKQKKIRIHIEGNIGCGKTTLANALFEKLNADELILEEFENNPYLPLLYQKKDVGFQTEMFFLVSRFKQYKNELQNKFIISDYDMLKNKIFAEITIKDENEKDKFLKIYDILNEEIRSPDVLIYIDINTEVAIQRIKKRSRSIEKIIEKDYLEVVNNSYKKYFKKQKNYIKIDGNTFNVFEEKELNELILKIKKFVEKN;locus_tag=LOCUS_13970;note=WP_011962567.1 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase (Flavobacterium psychrophilum) [pid:36.7%25%2C q_cov:88.5%25%2C s_cov:51.1%25%2C Eval:4.3e-27%2C partial hit],MGA_1407
sequence1	MetaGeneAnnotator	CDS	1541234	1542385	.	+	0	ID=MGA_1408;product=amidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865390.1;translation=MNLLIKNVNIYSISSEPFVGDVYIENGKIEKVGKDLKYDVETIDATGKFLLPGFVDPHSHIGLFEEGVDGIHQDGNEMTDPVTPQVRAIDAFVTNDPSIKRALAGGVTTVMIVPGSGNLIGGQGAIIKFRSNIIDEMIVKEPAGLKMALGENPKRVYNSKNKMPSTRLGNAAVIREYFIKVRNYINKKEEVIKEGKIFKDIDIKMEIGEKVLKREIPARIHAHRKDDILTAIRLSEEFDFDLVIEHATESYKIADYIAKKKIPVILGPLFGFRTKLELKDMTYESVKIINENNILAGIMCDHPVIHLEHANIHAGTALRYGANEEDILKMLTINGAKILKLEDKIGTIEEGKDADIVIWSHHPFDLRAKAEKVFIEGKKVFEI;locus_tag=LOCUS_13980;note=WP_010865390.1 amidohydrolase (Thermotoga maritima) [pid:62.0%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:2.6e-140],MGA_1408
sequence1	MetaGeneAnnotator	CDS	1542411	1543052	.	-	0	ID=MGA_1409;product=pyroglutamyl-peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015794.1;translation=MKVLITGFDPFGNESINPAFEAIKLLPNKVLNSNIIKLELPTIFNKSIEILEKKIIEIDPDIIICVGQAGGRFKITVERVAINIDDARIKDNAGNQPIDEPIFKNGENAYFSNLPIKSIVENIKKNKIPASISNSAGSFVCNHIMYGLLYLINTKFKNKKGGFIHVPYIPEQVLNKSNMPSMSLENISKSLLIAIKTSITVKKDIKTIEGSII;locus_tag=LOCUS_13990;gene=pcp;EC_number=3.4.19.3;note=WP_011015794.1 pyroglutamyl-peptidase I (Fusobacterium nucleatum) [pid:59.2%25%2C q_cov:99.1%25%2C s_cov:98.6%25%2C Eval:5.5e-70],MGA_1409
sequence1	MetaGeneAnnotator	CDS	1543057	1543233	.	-	0	ID=MGA_1410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMRDKSYFTISIYIAIAIIISAFLLYIAFKIFIYVLPLALIIFLVFKARDYFQNKRR;locus_tag=LOCUS_14000;note=MGA_1410
sequence1	MetaGeneAnnotator	CDS	1543249	1543578	.	-	0	ID=MGA_1411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEFVDFLNNYVSYIAQLFAIVVITVAMFKSIYLFFKDSVLKNESMASMSESRMEMGHAFSLALSFLIGASILKTTFAPTWDDIGKLAAIIALRTILNYTLTKNLNKNY;locus_tag=LOCUS_14010;note=WP_041222525.1 DUF1622 domain-containing protein (Deinococcus proteolyticus) [pid:34.1%25%2C q_cov:77.1%25%2C s_cov:72.6%25%2C Eval:2.5e-09%2C partial hit],MGA_1411
sequence1	MetaGeneAnnotator	CDS	1543645	1544403	.	-	0	ID=MGA_1412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTKRIIYSGLMIALVFVATFSIKIPIPGLGYVHPGDSMIFVAAILFGWKVGALAGGLGSAMSDLVGGYGIYVIPTLIIKAIMGAIVGYFAHDLKNNKKTGIIINSISMIIWIIFGGTLNTVLSNLKNNATDSLMKTLEVTNVQELQNKISNVQTPLFWAIILIPIVAILISFIFRNKDSKLFSFSNIIGMTIAGLWMVFGYYFAEVIIYHSWITPIFGIPWNILQFITGIILAFIIVLGIKNINKNKENL;locus_tag=LOCUS_14020;note=WP_011251052.1 ECF transporter S component (Thermococcus kodakarensis) [pid:38.7%25%2C q_cov:46.8%25%2C s_cov:53.3%25%2C Eval:2.0e-14%2C partial hit],MGA_1412
sequence1	MetaGeneAnnotator	CDS	1544424	1545632	.	-	0	ID=MGA_1413;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627649.1;translation=MKKAELLAPAGNFEKLQTVLNFGADAAYMGGKLFNLRALAGNFDEDELEKAVKYAHSLNKKVYVTLNVIAHNAELELMPEYVKYLEKIGVDGVIVADLGVFELVKEHSNLTINVSTQASNTNWRSVRMWKKLGAKRVILAREVSLKELHEIRNKVPDVELEVFIHGAMCMSISGRCLLSNYLTGRDANRGACAQPCRWKYHLVEETRPGQYFPIQEDEHGTYIMNSKDLCTIEFLDKILDVGLDSLKIEGRMKGIYYAATTVKMYREAIDNYYGGNFKYNKNWLEELGTISHRNYTSGFYFKKPGKEDHNYDTSGYKHTHILVGKVLKKLDNGNYLIEARNKLEVGDTVDLIKKQGENIKIKIPEMINYKTGEIINKANPNMLIEMKFDEELSCFDLMRKKQ;locus_tag=LOCUS_14030;note=WP_201627649.1 U32 family peptidase (Fusobacterium canifelinum) [pid:61.6%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:3.3e-146],MGA_1413
sequence1	MetaGeneAnnotator	CDS	1545821	1546255	.	-	0	ID=MGA_1414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELILSLFFILILTIFFFKLIFKIIIGFFLLFLKFPLFFIAFFIILFFLTKSKFKNFKYRTYQNTNYQKYYQNKNNFQNNSSQKYDYYCNIMGVSRNFTKEELKQKFREKTKLYHPDKNSENKEYYEEKYKEIIEAYEELSKAR;locus_tag=LOCUS_14040;note=MGA_1414
sequence1	MetaGeneAnnotator	CDS	1546268	1546999	.	-	0	ID=MGA_1415;product=Nif3-like dinuclear metal center hexameric protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261499.1;translation=MNIFEAENYLNKILKVETFNDFCHNGIQIEGTHEVKKIAIGVSFNEEFLNEAIKQNCQMMLVHHGIFGKNFFKLTGFQKKRIEKVIKNDMTLMGYHLPLDSHEEYGNNISILKKLNLLNPVPFNFGFIGNYEEKISFEEFKNNLKKVFENQELKIYKNNDFVKKVCIISGDSANTIELLENKVDTFISGETKEYSKAYAQELKINFINAGHYSTETFGVKNLAKLLEEKFNVKTVFIDIYNEI;locus_tag=LOCUS_14050;note=WP_011261499.1 Nif3-like dinuclear metal center hexameric protein (Aliivibrio fischeri) [pid:37.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-40],MGA_1415
sequence1	MetaGeneAnnotator	CDS	1547004	1547489	.	-	0	ID=MGA_1416;product=adenosine-specific kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082847.1;translation=MELKVIDFNLPKDANVILGQSHFIKTVEDLYETIVTTNSNIKFGVAFNEASGPCLVRYDGNDEELIQSAIENIKNIGAGHTFTIVMKNGFPINILNQIKNVQEVTHIYAATANPLQVIIAETNLGRGIMGVIDGYSPKGVEDEKAKKEKYDFLRNITGYKR;locus_tag=LOCUS_14060;note=WP_004082847.1 adenosine-specific kinase (Thermotoga) [pid:67.1%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:3.1e-62],MGA_1416
sequence1	MetaGeneAnnotator	CDS	1547562	1548518	.	-	0	ID=MGA_1417;product=SufD family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081655.1;translation=MIEKNQSKEFEYISKAYEKSGGDVSKLLSKDIVSIIISGNKILGRNTVEGIDLKSEIKDNFVKVIFTAKDGVKLKKQIHLCVGYLEKFGEQHLEYEFNIGNDCSLNFLSHCTFPAAKDILHEMTANLKIGENSKVSFEDIHFHNEEGLVTLDTKYYANVGKNSVYDSRFKLVKTRIGNMKVLMDVNLEENAKTYLETKVKAKKDDRLEVNEIIRLTGTKSSGIAKSYVIAQDESYAKIVNEAYGDGDYSVGHIECTEIVDGNKVDVQTIPLLRVRNELSELTHEASVGRINPGQLETLMSKGLSEDEATELIIKGVLV;locus_tag=LOCUS_14070;note=WP_004081655.1 SufD family Fe-S cluster assembly protein (Thermotoga) [pid:47.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.9e-82],MGA_1417
sequence1	MetaGeneAnnotator	CDS	1548515	1549255	.	-	0	ID=MGA_1418;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081657.1;translation=MLELKEISFYANERKILENVTYNFEEGKSYAVLGNNGVGKSSLSKIIMGLEGYKNKHGGLLYFNNIDITEMSVSERAKLGITMAWQEPVRFEGIGVKDYLTLGGKYKKTEKELTDILKEVGLNPFYLHRNVDKTLSGGERKRIEMASILILKPKLVILDEPDSGIDMMSNAIIENVINKTKANGGTTISITHREEIALIADKALLLCGGKIHKEGDPEVVSFVYKSMCDTCSHINAPIEDIEVNLK;locus_tag=LOCUS_14080;note=WP_004081657.1 ABC transporter ATP-binding protein (Thermotoga) [pid:53.4%25%2C q_cov:96.3%25%2C s_cov:97.5%25%2C Eval:4.3e-67],MGA_1418
sequence1	MetaGeneAnnotator	CDS	1549269	1549736	.	-	0	ID=MGA_1419;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583662.1;translation=MIKVIVIGPLKSKFIINGVNQYLKWVQPYHKTELIQINLSGNLNNMTAKEYKDKDYKKFSKYISQDTINIVLDERGKLISSIEFSKKIESFYLSGKKHINFFIGGPLGHDKRMYNHANLLLGLSKMTFTHEMAVLLTLEQIYRANKIIKNEKYHY;locus_tag=LOCUS_14090;note=WP_012583662.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Dictyoglomus turgidum) [pid:39.6%25%2C q_cov:98.7%25%2C s_cov:98.0%25%2C Eval:1.5e-20],MGA_1419
sequence1	MetaGeneAnnotator	CDS	1549749	1550582	.	-	0	ID=MGA_1420;product=FtsW/RodA/SpoVE family cell cycle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865212.1;translation=MLGFVLIKGNVIYGAKRWISVGPFSLQPSEFYKVIEILFLSYALSSKTNKSYYIVSLLILFSSILIFKEPDLGTTLIVLSLWFIITFISGKHERLWKITFFSGLTISPFSLLFMKSYQLARITGFLNPNKNASGISYNTVQSMRAIGSGGLFGNGYMNGYMNLGNYVPEDHSDFIISVIGEELGFIGIFIVILLYSLLIWRMYIGYKKSNDDFWKYFYILSAFLIFFHVFENIGMNMGIMPVTGIPLPFLTAGGSPMLSFSILLGIATKGLMINKNT;locus_tag=LOCUS_14100;note=WP_010865212.1 FtsW/RodA/SpoVE family cell cycle protein (Thermotoga maritima) [pid:39.4%25%2C q_cov:98.6%25%2C s_cov:79.7%25%2C Eval:4.4e-50],MGA_1420
sequence1	MetaGeneAnnotator	CDS	1550647	1550844	.	+	0	ID=MGA_1421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYNINPIDENINCLSTIDSLGVFSVALLTEKKPIIISNKYTINTINSICFILSRESLDFNKDN;locus_tag=LOCUS_14110;note=MGA_1421
sequence1	MetaGeneAnnotator	CDS	1550899	1551633	.	+	0	ID=MGA_1422;product=Rossmann-like and DUF2520 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082242.1;translation=MKVNLIGPGKVGRSVLNYFYKNGYEKGLIIEKNKIDYKNFLFEGIILIGVPDDIIPNICYNLKKSSFKNVEALIHFSGFVDSSCFKDLSSKYKFSLHPNQSFNKVKDISNITWGIDGIDEKSINYAKKLVNMFNGRSLIIPKGEKNAYHLAAVIASNFSYALNFMSNKIYDSLNIKEREHLIDLAINSLNNIKEKGLKESLTGPVARKDTNTIAEERDAFNKYFGDKVCVYDFFVDLLKKISEN;locus_tag=LOCUS_14120;note=WP_004082242.1 Rossmann-like and DUF2520 domain-containing protein (Thermotoga maritima) [pid:34.7%25%2C q_cov:100.0%25%2C s_cov:96.2%25%2C Eval:5.5e-30],MGA_1422
sequence1	MetaGeneAnnotator	CDS	1551654	1552454	.	+	0	ID=MGA_1423;product=3-methyl-2-oxobutanoate hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082243.1;translation=MLSISKILKKKNKEKITMITAYDAPSARIAYDAKIDMILVGDSIANTIYGYKDTLKIELEDMIKHAQSVKRGATDAFVVGDLPFLSYQVSTEQAIENAGKMLKYSGVNAIKLEGGSFVCDKVFKIVNSGIPVMGHIGFTPQSYNQIGIRSRGKNDIEAERLIEDAKKLEDAGAFSIVLEMVTEDVAKKITESISIPTIGIGSGKYCDGQVLVWHDLLGMNPDFSPKFSKKYLDGYGIIKEAIKNYIKDVKSEKFPSEENTFKRKLV;locus_tag=LOCUS_14130;gene=panB;EC_number=2.1.2.11;note=WP_004082243.1 3-methyl-2-oxobutanoate hydroxymethyltransferase (Thermotoga maritima) [pid:58.4%25%2C q_cov:95.5%25%2C s_cov:94.1%25%2C Eval:9.3e-82],MGA_1423
sequence1	MetaGeneAnnotator	CDS	1552451	1553182	.	+	0	ID=MGA_1424;product=biotin--[acetyl-CoA-carboxylase] ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082910.1;translation=MIGDRTVFFQKINSTNTYLKENYQKFPSESVVWAEEQTSSYGRRGNSWTSSKGGLWFSTIFKPKKRPMNPWHYVRLYSLTIYDIITKYNVNCKIKWPNDILIDNKKVCGILSEAIYKGKNIEAIIVGVGLNVNNKIDGDLKNIGISLSEITSREFNLKKLLSEINHKAYYTYYLKYLKDKSVSVITKKWISALNIKINDEVKIKKVDGNIIYGKIKRINPDYIEITDENFEDKIMYAGEISVR;locus_tag=LOCUS_14140;EC_number=6.3.4.15;note=WP_004082910.1 biotin--[acetyl-CoA-carboxylase] ligase (Thermotoga maritima) [pid:40.9%25%2C q_cov:97.5%25%2C s_cov:98.3%25%2C Eval:1.1e-43],MGA_1424
sequence1	MetaGeneAnnotator	CDS	1553204	1553725	.	+	0	ID=MGA_1425;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082875.1;translation=MDIENIKVLISEEELDNKIRELGKNITQHYKPMTDEIVAICVLKGSINFFSDLVKRIDMNVFYNFIQVSSYSGTNTTGKIKVKSWLEESLEGKHVLIVEDIVDTGNTLKYVIKYIERQKPASIEVASIVVKDVHEHGIDVKFPGFTIGDYFIIGYGLDYDQSYRNIPFIGYVE;locus_tag=LOCUS_14150;gene=hpt;EC_number=2.4.2.8;note=WP_004082875.1 hypoxanthine phosphoribosyltransferase (Thermotoga) [pid:53.8%25%2C q_cov:97.1%25%2C s_cov:99.4%25%2C Eval:4.9e-51],MGA_1425
sequence1	MetaGeneAnnotator	CDS	1553742	1554575	.	+	0	ID=MGA_1426;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_174269896.1;translation=MRMSIVEYKERVKKSVDFINEKIGKKPEVAIVLGTGLHLISESLKNPIHIPYSEIPEFPISTAPGHKGELIFGEISGKFVMLMNGRFHYYEGYTMKEVTFPIRVMQELDVKTLIVTNAAGGMNPNFSRGVPCIITDHINFFGDNPLIGQNNDEWGPRFPDMSEVYTKSLIEETLRSAKKLEIPVFTGVYLGITGPTFETPSELRMMRNFGADLVGMSTVPEVIVARHAGMNVLGISAVTDMAIAEGLEPVTEDEVIKIAEQTGLNMAKIIIDVLERI;locus_tag=LOCUS_14160;EC_number=2.4.2.1;note=WP_174269896.1 purine-nucleoside phosphorylase (Thermotoga) [pid:64.7%25%2C q_cov:99.3%25%2C s_cov:93.9%25%2C Eval:2.5e-101],MGA_1426
sequence1	MetaGeneAnnotator	CDS	1554588	1555571	.	+	0	ID=MGA_1427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNFLLFIIVIIFSIVHFSFDYLTLFKSPGLSFSYSYFNNNEINFSFRYGGKYKIMNSSELLKKVWSQDRTLIGGQMKVESSNYTHAISPSKAMGLFQIKYPTGNDIYVLNLFEPYDNLKGALEYHGYLRKLFDNEKKQIAAYHEGPGTIKNNGMTKNGELYYNKVKLAQKEYKNSPVFSPLILDFNGKMYGKNIEYNLDLSLAYEKIEIYFGNSGNIEKTNNNIIFKNNGINFSIVYCPTTILSFGFGNNYGLIRLGLPWQNFIIKYLNSPEFTYYYGDQYFYFLNIKDKNIKIGVGLNVYNLKFSLNYNLSGVYGLQIGLRGAS;locus_tag=LOCUS_14170;note=MGA_1427
sequence1	MetaGeneAnnotator	CDS	1555571	1557127	.	+	0	ID=MGA_1428;product=flagellar basal-body MS-ring/collar protein FliF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082905.1;translation=MQDFINNFLEWWKNLNKKNKVIYSLTISVSIIIIIILFFIISAPKYKFLISGVSETSSGSIIQKLEELNIPYKVTSGGSIYVAKTDPNALRMKLATNGSLGGSVKGYELLKDQGFGTTSYDKQVNYQIALEGELSRSISTLNGVQNARVHLVIPPKTYYNPGQEVKPKASVLVMLNPGTTLSKEQIRGIIQLVSGAVQGLTADNIKVVDNFSRDLSSSVISDGSVGFASTKFQLKKEIEDYYSEKIQKNLQAVFGFGNIVVISEVELNWQKLEEQQKQLVPTNKTNGIILSQQTEQEQSKNYDNSANGVPGTTSNIPPFSNQTTNGNTSSDYLKSKTITNYDVGEIIKKTTEDKNGEISKKSFTVFIDFKNANITENDTIKKQIQEAISTATGVETKLVSIVPLKFNRQIENMRSKIEEEQKNKQRLTVLIFIFMLVVIFATLTMFMFVKYSKKKKVYNLVEQRKRKLEDRVKEVVGEVEEEVEEYNPAVETQRKIENIVDTRIEDVVEIIKIWMNSQ;locus_tag=LOCUS_14180;gene=fliF;note=WP_004082905.1 flagellar basal-body MS-ring/collar protein FliF (Thermotoga maritima) [pid:36.9%25%2C q_cov:97.1%25%2C s_cov:95.9%25%2C Eval:2.7e-98],MGA_1428
sequence1	MetaGeneAnnotator	CDS	1557154	1558164	.	+	0	ID=MGA_1429;product=flagellar motor switch protein FliG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082903.1;translation=MSKEPELTGLRKSAILLILMGHERAGRVLKKLNDSQVEQLTLEVANMGQVDEAIKNTVTSEFFELAKIKEFINKGGVDYAKELLEEAFGPEKAIEIIEKLVSNLQVKPFDFLRKIDVSQMVNVLQNEHPQTISLVLCYLPPSTSSQIIAGLPETLQVDVLKRISIMNSATPDIVKEIESKMKDRLSTFTVQTFSQVGGIEVSAEIMNNIDRVVQKNIFDRMSERDPKLSEEIRKRMFVFEDLVKLDNRAIQRINREIDTKDLTIALKGASEELKEIIFSNMSKRAAQMIKEELEFMGPVRVKDVDEAQQRIVNIVRKLEEAGEIIIGGGGGEELIV;locus_tag=LOCUS_14190;gene=fliG;note=WP_004082903.1 flagellar motor switch protein FliG (Thermotoga maritima) [pid:56.2%25%2C q_cov:93.8%25%2C s_cov:94.0%25%2C Eval:7.9e-103],MGA_1429
sequence1	MetaGeneAnnotator	CDS	1558157	1558852	.	+	0	ID=MGA_1430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNKRIIHNQYVVLDSPKDINIEKDHVINDSEEKDTAEQIIKEAEKRAEQIIKEAEKRAEQIIEETRKKVEEDKQEIIKEFKINLEKQQEEYIVNASKSIENVIKNIDLYAEKYIGIANEFIVEAIKTILKKYIKEEIFNKPQWINEVLMEVRDKINSFKQIVLKMNSKMVQNYGYLFENIKSDSFIIKEDNTLNENQINVETEVGTYEIFPENYINEIVKSLEDSFNEST;locus_tag=LOCUS_14200;note=MGA_1430
sequence1	MetaGeneAnnotator	CDS	1558839	1560170	.	+	0	ID=MGA_1431;product=flagellar protein export ATPase FliI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082899.1;translation=MKALDFEKVLSIFKEKINKKEILSLEGKVVRIVGVTIEAIGPDAAVGDLCSIKLKDKNEALAEMVGFSDNRTLLMPFEEINGLYVGASVKKKDERVSVKVGENILGKVLDGLGRPIDGNSIKSKEEKSIYDSPPNPLIRKRIDSPLSVGVRAIDGMMTLGKGQRISIMAGSGVGKSTLLGMIARNTEADINIIGLIGERGREVREFIERDLGEDGLKKSVVIVSTSDQPALMRVKALYTATTMAEYFRDKGKNVLLMVDSLTRWAMAQREIGLSIGEPPATRGYTPSVFANLPKILERAGNSSVGTMTGIYTVLVEGDDMNDPIGDAVRGIVDGHIVLSRKLADSAHYPAIDILSSVSRLMSSVSSKEHLEAMRKIKDLYATYKEAKDLIEVGAYKSGMNKKIDASILEIENINNFLTQGVNEYDSFDNIVNKLITISNRCNI;locus_tag=LOCUS_14210;gene=fliI;note=WP_004082899.1 flagellar protein export ATPase FliI (Thermotoga maritima) [pid:58.5%25%2C q_cov:96.8%25%2C s_cov:97.9%25%2C Eval:1.2e-147],MGA_1431
sequence1	MetaGeneAnnotator	CDS	1560199	1561563	.	+	0	ID=MGA_1432;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081251.1;translation=MGIPAEWTILIVTLSIAFLLFLTQKVSKKVLSRGKYRKVKESTEAYLYLLPSMVVLAIFVFWPVIYSFILSFYKWDFQNQANPIFIGLKNYTKLFTLKHSIDISFNTAFFNTLLVLMTYIFLMHWIFDIKKIKENTYRKMIISMSLLGIIGVFLSNLLFIAAVIISLIMVFLYTYLSAKKFAYNTNDKLMGRLILFAIVYTISVKIGVVEIINFLNAAKEESDFIKSIWNTSYYVLLSTPITIFLALLIALLLNRKLFGKTVFRTIYFIPFVTSVVAVSLVWQWIFNDNGLLNYILGFFGLQKTLWLKDAKYTIPTVAIISIWKLVGYYSVIFLSGLQNIDKSYYEAAEVDGANTWHQFKFITWPLLSPTTFFILIVSMIGAFKVFSEIFVLYSGMPGPYNNSGLTVVYYIYDKFYSEQRMGEASAAAYVLFGIILMFTFIQIKAGKNKVHYDN;locus_tag=LOCUS_14220;note=WP_004081251.1 sugar ABC transporter permease (Thermotoga maritima) [pid:50.4%25%2C q_cov:91.6%25%2C s_cov:98.6%25%2C Eval:6.7e-114],MGA_1432
sequence1	MetaGeneAnnotator	CDS	1561578	1563809	.	+	0	ID=MGA_1433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKKFWKTISSTFIYLLVAGGAVVMILPFAWMIMTSLKTDGEVNSWPPSWITKNFKSENIVNVIPESSTFSSKGTLSLAEFRTLSKKIEYNPYKVNYFIDDDPLRRGVVTLKINNLTYTDNEKLKVLMNKIFEYLNVNDVRKDLKTKIIDKDLTSENFEKIYFSLFSKEDGYYKKTNIIKNILLDLNKSSKFLEILEQKNINRLPQFRLKSNMTQEEKDEINSSKDKFKSYIISLNDKIKKVSKDIEEYSKGLGIIKFETSKSIELELKNLSNNFIKYNDKILSKTNLLMSKNIYNKVNENILTLNFYNEFFTLYKKIQNKNVNDFVVKFVIPQKKDMYNNIISNIKISDFPKYFKDKVIELASVSKILKLKDNVVNYYENSIINEIKNNYIRNSDELSKIIEILRTLSKNNANLSNANLYISKNDLSLLNKNIKGKEEEFLQTLNKRREYDSLFEKFGTFFENNISKAKILEGNDYIKEVLFKNNSNIVFYTKNMYSSWLFDEKPEVKVKYTFSQVIANIFQNYVDAWNAAPFSKYYANTVLMASMTTILEIIFASMAAFAFAKFNFFGKNFIFSLFLATMMVPGEVMLVPNYITISRFQWIDTYYALIVPWIVSVFAIFLLRQQFMTIPNDLWDAAKIDGSSSWRFLWTVMVPLSKPSIVTGALLKFVGSWNAFLWVLIVTKTPEMRTLAVGLQTFRSESGDIYNLMMAASTFSVLPIVIIFILLQKYFVAGISRSGLKG;locus_tag=LOCUS_14230;note=WP_004081242.1 carbohydrate ABC transporter permease (Thermotoga maritima) [pid:40.9%25%2C q_cov:70.5%25%2C s_cov:95.2%25%2C Eval:1.6e-97%2C partial hit],MGA_1433
sequence1	MetaGeneAnnotator	CDS	1563819	1564181	.	+	0	ID=MGA_1434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYISLNNGNIENNKKNKKSYKPRKLSVVFLAIILIFLIFQIFRMINTYNELQLKYSEQSKKLKAVNKIYIEKLKILENLKDKLSERGVGINGKSIYEVDIHNVAQTSQATSTKSTTPSN;locus_tag=LOCUS_14240;note=MGA_1434
sequence1	MetaGeneAnnotator	CDS	1564093	1564872	.	+	0	ID=MGA_1435;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081397.1;translation=MENQSMKWIFTTSHKPAKQQVLKAQHLATKYSGRYISRRHVGKYIDEKGFYFVVEKDMSLSAKWKGGSFFYHPSISKIKMKTYTKTGHDFLIESIAPSSDDKVLDLTMGLGSEALLIANFAKEVIGVEGAFPTYLVVKEGLKNYKYKENWMIKASKKIKIINNNYKNYIRLFKDNSIDIVYCDPMFENPNYKSSSLNPLRRFAVYDLLTQEDINEMVRISKKRVIIKARDIDSIWNRIKVEKKMGSKRSGIIFGVIEKK;locus_tag=LOCUS_14250;EC_number=2.1.1.-;note=WP_004081397.1 class I SAM-dependent methyltransferase (Thermotoga maritima) [pid:47.6%25%2C q_cov:97.3%25%2C s_cov:98.8%25%2C Eval:4.9e-64],MGA_1435
sequence1	MetaGeneAnnotator	CDS	1564869	1565798	.	+	0	ID=MGA_1436;product=tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081395.1;translation=MKIPIITGPTAVGKTNIVLKLAKKMNAEIVCMDSRQIYKKINIGTAKPTPDEMKIVDHHLFDFVELENNYSAYDYRKDALETIKKIMKKNKTPMLVGGTGLYIDALIKGFLNVSSDYGLRTYLKKLEFSNHGILRSILKDIDPESYMKIHENDLKRTIRALEIYIKTGKKMSYFFNKKINDNYYEYVIIVLDRDRKELHDRINLRTEKMLENKFIDEVRNILLTLKTKNLNSLNTIGYKEVIEYLEGKINYDTMVHLIKRNTRRYARRQIIYFRKLQGAHWLNISNLTEKEIIEKILNIYGGKKDAREI;locus_tag=LOCUS_14260;gene=miaA;EC_number=2.5.1.75;note=WP_004081395.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Thermotoga maritima) [pid:50.2%25%2C q_cov:95.8%25%2C s_cov:96.7%25%2C Eval:8.9e-82],MGA_1436
sequence1	MetaGeneAnnotator	CDS	1565782	1566015	.	+	0	ID=MGA_1437;product=RNA chaperone Hfq;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081393.1;translation=MPEKFNLQDRFLNILRINKTEVKIYFDGGFQISGYIKSFDNFTVLIEKNGQQSLVYKHAIKMLTPTKYVKLFQLNEE;locus_tag=LOCUS_14270;gene=hfq;note=WP_004081393.1 RNA chaperone Hfq (Thermotoga maritima) [pid:59.7%25%2C q_cov:100.0%25%2C s_cov:85.6%25%2C Eval:2.2e-21],MGA_1437
sequence1	MetaGeneAnnotator	CDS	1566069	1567052	.	+	0	ID=MGA_1438;product=M23 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082174.1;translation=MKKIILLMFIVIVSVFVFSEIFMVPIKGSYITSSFGEYRNTGNNPHFHLGVDFSTFNRENIDVYASAQGNLYKIWINDPVYGNTIFLKHDDLSLITDYAHLNSFSEKINKYVDIIKKEFGDKKRMEIVFPDNSVNIKTGEIIALSGSTGEAEAPHLHFEVREEINGTEMIRNPLEYLEYKENRKKTLELLSVRVNGKYIDINNSDLNTIEFSGDYPKIDVRVRERLGNNTVIMVKSVSISLDNSLMYKIDFSSLPESVGYKPQPVYGYGSTSSIYWLKMYSIESLYPIKDNNWSQLIGSDKSSYKGEIVLEDFWGNKKVYNFNFIKN;locus_tag=LOCUS_14280;note=WP_004082174.1 M23 family metallopeptidase (Thermotoga) [pid:33.6%25%2C q_cov:94.5%25%2C s_cov:96.0%25%2C Eval:3.0e-43],MGA_1438
sequence1	MetaGeneAnnotator	CDS	1567174	1568382	.	+	0	ID=MGA_1439;product=methionine adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082170.1;translation=MYKRLFTSESVTEGHPDKVADQISDAILDAILEKESEENRINARVAVETLVTTGTAFIAGEIRTSAYVDVPKIVRKTIKEIGYDRAKYGFDADTCGVIVSIDEQSSDIAMGVDESLEIKQNGDGKDPYEHIGAGDQGIMFGYATNETEEYMPMPIVYAHKLAQRLTKVRKNKILDFLRPDGKTQVTIEYDENNKPVAIDTVLISTQHDPNVTREEIEKALIEHVINPVMPKELMKKDTKILVNPTGRFVLGGPHADTGLTGRKIIVDTYGGWVPHGGGAFSGKDPSKVDRSAHYMARYVAKNVVAAGLADELMIQLGYAIGVAEPVSLLIDTKGTAKVEEEKLKKVITEIFDFRPGAIIKHLDLLQPVYKKTAAYGHFGRDDFEFTWEKLDKVNELKAAFGI;locus_tag=LOCUS_14290;gene=metK;EC_number=2.5.1.6;note=WP_004082170.1 methionine adenosyltransferase (Thermotoga) [pid:73.2%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:3.6e-169],MGA_1439
sequence1	MetaGeneAnnotator	CDS	1568403	1568690	.	+	0	ID=MGA_1440;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082168.1;translation=MPNVKSAKKRVKTNEKRRIINRSYKTKFKNSIKKVVLAMEKKVEREEVLNLLSNAFKAIDKAASKGVIHKNQAARRKSRIHIKVKKYLGETAENN;locus_tag=LOCUS_14300;gene=rpsT;note=WP_004082168.1 30S ribosomal protein S20 (Thermotoga) [pid:62.5%25%2C q_cov:92.6%25%2C s_cov:91.7%25%2C Eval:1.1e-23],MGA_1440
sequence1	MetaGeneAnnotator	CDS	1568751	1569686	.	+	0	ID=MGA_1441;product=tRNA (guanosine(46)-N7)-methyltransferase TrmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080637.1;translation=MKYLKYSIDPRKEKNVPINWEKIFEKKGELYVEIGFGGGEYMAEMAKKNPEANFIGFETSLTACDRAQKKFYNYNLNNVKIINHDARFCIRELFADNTISKIIVNFPCPWPKKKHESRRIFVEKFRKTLSSVLMINGSMELATDVEWYAKEVYENFKLDDHFEVEEIVENFNRPIKTRYEKKWEEDNRNKYLVKIKKIKNGNENRIILEENDMPHRHIKDINIEKITELLNKKFQFENETFVIREIFESKIKERYVLKVFTSDDDFTQDFFVNIVKREEEWLIKLEQITTPYRTPAVKYAINKIAEEIEVK;locus_tag=LOCUS_14310;gene=trmB;EC_number=2.1.1.33;note=WP_004080637.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Thermotoga maritima) [pid:42.9%25%2C q_cov:99.0%25%2C s_cov:98.1%25%2C Eval:1.6e-78],MGA_1441
sequence1	MetaGeneAnnotator	CDS	1569688	1570662	.	+	0	ID=MGA_1442;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986847.1;translation=MKIAIIGSGSWGSAMAKLLSINGHNVKIWTTDKNVYNNILNGENPTYLPGISLPKSIKPMFDLDKTVEDVDIIVLAIPSQAMREVVAKIKNRNAIFVSLAKGLEIKTGKLMNEIIKDELGNVKYCALSGPSHAEEVARDIPTSIVASGEKKVVEIIQKEFSNVSFRVYTNEDLKGVELCGAVKNVYAIASGVIDGIGGWDNTKAALITRSLVEISRFVEALGGKKETIMGLAGIGDLIVTCTSQHSRNRHVGEFIGKGYSLENILNDLKMVAEGVYTAKALYNNFKKEQIEMPIAEKVYKVLYEKINPKEAIEDLMNRKLKSEN;locus_tag=LOCUS_14320;EC_number=1.1.1.94;note=WP_011986847.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Clostridium botulinum) [pid:49.1%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:1.6e-81],MGA_1442
sequence1	MetaGeneAnnotator	CDS	1570674	1571099	.	+	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVNLEQIINVIMGKLETLEMSLEDVKFRTNIALRVLRKNDLLKEEIINEAVKDEFKALLEMEGNSEIDLPEEKITEVSKGILNWVDNDLIEMKNKMKEYEEKMREMLEKENGPDISIAPPELLNQLDGMNKNKGNGKIIL;locus_tag=LOCUS_14330;note=MGA_1443
sequence1	MetaGeneAnnotator	CDS	1571121	1571621	.	-	0	ID=MGA_1444;product=transcription repressor NadR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963338.1;translation=MDKEKRQKKIIEILSLKTKPISGTVLAKKFNVTRQVIVKDIAILKAQGILIRSNSRGYYINKSNKLIKSIAVKHSNELIEKELYTIVKCGGKILDVTIEHPVYGEITGIIDVETIEEINDFISKLKTSKPLSSINDGVHLHKIEVDNEKQFNCILNNLKELNILLN;locus_tag=LOCUS_14340;note=WP_010963338.1 transcription repressor NadR (Clostridium) [pid:45.8%25%2C q_cov:89.8%25%2C s_cov:89.5%25%2C Eval:3.9e-31],MGA_1444
sequence1	MetaGeneAnnotator	CDS	1571622	1572893	.	-	0	ID=MGA_1445;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082050.1;translation=MTLDALIEKIISKNQRKFMLFITALGWAFVASGIMVLPFTQKMIMNEWHLSRVFATTLSSSTFIGMFLGALIAGLISDFIGRKNASLLFLIIASTFSVLTGFSSNPTLFIIFRIISGFGFGGLLPALNTYLTEFLNTSIRGKYLVLLESSWALGSIMIALFHIIIGRNFGWKYDYMFLSIGLIPFLIILYLPESPKYLLLKNKNKKFEKLFKYTLNEKIIFPKSTKSSIKNLFEKKYLSKTLNVWLLWFVMSFGYYGVFIWFKGILAQKGISIIKTDWYLFYMYLAQLPGYLLAAFLIEKIGRRKSILLFTFGTGISSILFAFANTNVTVLLYSMVVSIFCMGAWGLTYAYTPELYPTSFRGTANGTSGSITRLSGFLAPYYTAYFLEKNNIMIGLIGISLLFFITGTLNYIFLPETLNKEVN;locus_tag=LOCUS_14350;note=WP_004082050.1 MFS transporter (Thermotoga) [pid:40.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.5e-99],MGA_1445
sequence1	MetaGeneAnnotator	CDS	1573041	1573652	.	+	0	ID=MGA_1446;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083173.1;translation=MRNFNEEARIIIKNYPYYHENRDPYVVLVSTVLSQRTTDENKDLATNKIFKKYKNVFEISNLIPEDLYELVKPAGMYKQKSERIIKLSKIIVEKYNGKVPNTIESLIELPGVGRKTANVVLYVAFDIPALAVDTHVHRIANRLKWINTKKPEESEFELMKILKKELWGPINGSMVSFGKQTCKPINTKCLECPLKNICPSNKY;locus_tag=LOCUS_14360;gene=nth;note=WP_004083173.1 endonuclease III (Thermotoga) [pid:59.1%25%2C q_cov:95.1%25%2C s_cov:90.6%25%2C Eval:4.9e-65],MGA_1446
sequence1	MetaGeneAnnotator	CDS	1573716	1575767	.	+	0	ID=MGA_1447;product=chemotaxis protein CheA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081040.1;translation=MGDMDVYLSVFLEEARENIQNLNDALMAIENDPEDAERINEIFRIMHTLKGMAGTLGFNELAKLCHTMENTLDKVRNNQMKINEVLIDLLFKGLDTLEESLDNISEGGNGHTDSVSDLTKSFNDLLEGKSPSVSEKVVAEENKEENKEESNNEKEGEFYSLELDDITKDALKDVYNKAIEKDLNFFYVRIKLEEGIQLKLARAYMIFHKFEELGCEIVFSNPSTEDIENEKFDLILEFGVVVKAGREELAGAIKSISEIESILVDNFTIETINGKEEVEEENKEPKNVPVSKKSETKPKKKIMTSQSIRVNITKLDDLMNLMAELVISKSRIAETMKKYTIKEIDESLSQLSRITLNLQSIVMNIRMVPIAFVFNRFPRLVRDIAKDLKKEINFIMEGEETELDRTVVDEIGDPLVHLIRNSLDHGIEMPEERIKKGKSKVGTINLSARHEGNNVIIEIKDDGKGLDREKILKKAIEKGLVDADSAHNIKDDEVYNLIFLPGFSTMDKATELSGRGVGMDVVKSTIEGAKGTVLIDSVKDKGTTITIVLPLTLAIITALKVMINGYVYAIPIANIDTTQKVTDGELRIVQDREVFLLRGEVIPIVRMRKVFNLTSEHKTEDENVVIIETGNKKYGVIVDKLLGQDDIVIKSLGSLLSDVKEFSGGAILGDGRIALILDVASLF;locus_tag=LOCUS_14370;gene=cheA;note=WP_004081040.1 chemotaxis protein CheA (Thermotoga maritima) [pid:51.7%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:8.5e-199],MGA_1447
sequence1	MetaGeneAnnotator	CDS	1575799	1576164	.	+	0	ID=MGA_1448;product=chemotaxis protein CheY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081049.1;translation=MGKSILITDDAAFMRMILKDIVTKGGYEVVGEASNGQESVEKYKELSPDFVTMDITMPVMDGIQAIKEIKSVDPNAKIIVCSAMGQQAMVIEAIQAGAKDFIVKPFQPNRVIEALQKIEQG;locus_tag=LOCUS_14380;gene=cheY;note=WP_004081049.1 chemotaxis protein CheY (Thermotoga) [pid:79.2%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:3.0e-50],MGA_1448
sequence1	MetaGeneAnnotator	CDS	1576168	1576554	.	+	0	ID=MGA_1449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEYATNTSTSTTNIGGGSLLFSGVFSVIFLTFILIIFIILYFFLIKHMRGGKKNNSIGILKKYYIDNNFYIGILKIFNEYYMVLFGNSSSEIIKKMSFEEVNEIIGDGQKFFNTFTNFLSKEKDKGE;locus_tag=LOCUS_14390;note=MGA_1449
sequence1	MetaGeneAnnotator	CDS	1576547	1577302	.	+	0	ID=MGA_1450;product=flagellar type III secretion system pore protein FliP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081051.1;translation=MNKKKLLATLFFIFLSIVSYTEDVIPGISININQNNTGTLTPTLLIILIISVLSIAPGLLMMLTSFTRIVIVMGFLRQAIGTRQAPPNQVLVSIALLLTIMIMYPTFNNVYEKAIVPYNNGTIGYEKAFENTWTEFKTFMLREITYHKNQDDIYMLASSLKVKIKDIKDTPFQILVPAFALSELEIAFKMGILIYLPFIIVDMVVASVLLSMGMMMIPPILISLPFKLLLFVIINGWDLLMGSLINSFAGG;locus_tag=LOCUS_14400;gene=fliP;note=WP_004081051.1 flagellar type III secretion system pore protein FliP (Thermotoga) [pid:46.8%25%2C q_cov:98.0%25%2C s_cov:99.2%25%2C Eval:8.4e-66],MGA_1450
sequence1	MetaGeneAnnotator	CDS	1577306	1577572	.	+	0	ID=MGA_1451;product=flagellar biosynthesis protein FliQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081052.1;translation=MTEEVIVEIFTNGISIFLSIITPILLISLAVGLIISIFQAVTQIHEQTLVFAPKIIITFLAVLFLFGWMMQKLGDFAYELFTKYLGMI;locus_tag=LOCUS_14410;gene=fliQ;note=WP_004081052.1 flagellar biosynthesis protein FliQ (Thermotoga) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-22],MGA_1451
sequence1	MetaGeneAnnotator	CDS	1577573	1578340	.	+	0	ID=MGA_1452;product=flagellar biosynthetic protein FliR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865219.1;translation=MEFLNVKLWVFFFVFIRLLGVTLFIPYFSMNLVPKPVKIFILIFLSYIVAIGLNDTFPIDGNFLMIVYLFIVNFLVGMIIGIIMHIIFYAVELAGQFFGIQMGFALANVLDPMYNTQVSIMSELGFLLSTFVFFIFKGHIWLYMLTIEMFKKIPSVFIFNGKDLGIFVSKISEVFVMGVQLSLPVTAFMIFTTLSLGIVNRLIPQLNAFIVGMPLKIIVGFLIFMAVIQVWQEYFTKTFFELYHWLEKTLIIVVK;locus_tag=LOCUS_14420;gene=fliR;note=WP_010865219.1 flagellar biosynthetic protein FliR (Thermotoga) [pid:31.2%25%2C q_cov:92.2%25%2C s_cov:91.1%25%2C Eval:1.1e-28],MGA_1452
sequence1	MetaGeneAnnotator	CDS	1578262	1579401	.	+	0	ID=MGA_1453;product=flagellar biosynthesis protein FlhB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008193133.1;translation=MARIFYKNIFRTVSLARKNTYNSCKIKINLQLFADPDKTEQPTPRKLQKAREEGNIPQSKEFNMAVTFLSLSALLLIFSGTIATDLSNILRDYLSLNVDKVDINILSYGLLKHTDLWVKVMMFFVVAALISLLLGMIQTQFLFTFKSLKFDLSKIDPIKGFKNLFSLKSFMEFLKNLIKIIIAGYFGYSIYIEKQPYISKLASVPVLEGVRFISNMIIEVLFKMGLALLILSLFDFWFQRFDYKRNLKMSKKEIKDESKDIEGNPEIKKKQREFMMKIVMSRMMQQVPSSDVIITNPTHYAVAIKYDAEKMSAPKVVAKGVDEVAFRIRDIASENYIPIVQKPPLARELYATTEINEEIPDNLYKAVAEVLAYVYNQTK;locus_tag=LOCUS_14430;gene=flhB;note=WP_008193133.1 flagellar biosynthesis protein FlhB (Thermotoga) [pid:41.4%25%2C q_cov:93.7%25%2C s_cov:94.1%25%2C Eval:4.4e-76],MGA_1453
sequence1	MetaGeneAnnotator	CDS	1579410	1581503	.	+	0	ID=MGA_1454;product=flagellar biosynthesis protein FlhA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080658.1;translation=MNLKNIDTFVSVLIVGLVVLMVIPIPTYLLDFLQFLNLSISILILLSTLYIKRALDISSFPSLLLVTTLFRLSLNISSTRLILLNGKNFSGKVVRAFGDFVVGGNYVVGIVIFLILVLIQFLVITKGSERISEVAARFTLDAMPGKQMSIDADLSSGIIGEEEAKIKREDVRREADFYGAMDGASKFVRGDAIAGLIITIINILGGLLIGMFQQGLPASEAFSTYTLLTVGDGLVSQLPALLISTSAGMIVSRSASKENFGTDVIAQLTADKKVNILMGAMVLSIGIFTPLPAMPALIIGGGIILLSYLELRNEKKELSYQTGGGIYTPSEEKVEEQVSTKGRISPPLTTPEEVSEIIQNDTIEIDIGYGLIALADPSQGGDLLDRITIVRKQIAYELGIVISPVRIRDSVLLSSNEYIIKLKGVEIGRFELMPERLLAINSGMASEAIAGVQTQEPSFGLNAYWIDETLKDEAITKGYTVVDSPSVFATHLSEMIKKYAHEIVGVKELEILIDGLRVKNATIVDTLIPTLLKIHELKAVIEGLLFEKISIRNMPVIFEYLVEAADKYGKDNEKLIEHVRIGIGRQICEGLKSSDGQLHVIALDASVERKILDSIIDGEEGRYLGLEPEYMNILIEKISKALEEIMMKGYSPTLICSKSIRFLLSNVVLRYVQNVSIIAYEEVPGDIALSVEGVLTI;locus_tag=LOCUS_14440;gene=flhA;note=WP_004080658.1 flagellar biosynthesis protein FlhA (Thermotoga) [pid:52.4%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.8e-202],MGA_1454
sequence1	MetaGeneAnnotator	CDS	1581519	1582859	.	+	0	ID=MGA_1455;product=flagellar biosynthesis protein FlhF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986949.1;translation=MKVKKYVVENISEAMEKIRTEFGDDAYILNTKKIKKGGFLGLGGKKYLEVTVLSEEEKKLPKQNNTPSFENEEKLYSLKGIVERNKRLDKRIAKERKQEIPTNTASYGNQLMELIKEQRKVSMTIDKDAKEYYDNKQIKKDEFQHFIKNSDNKIIEKKSKLETKKIETKSEISELKNMIQSLSKKINGKNDYYQEFFRTLKFNDISEKLAEEICNEVEDINFDENWKNNKLLKEKVQKKLLENLKIKNIPLKGRIILIGPTGVGKTTTLAKLAAIMKKEGKKVAIITIDTYRIAAADQLKIYADIMGIPAYVCYTPEDLKITLESLNMFDTVLIDTAGRSHKNSLQLNELKVFIDTINPEYRMLVASANMRTSDLINMYESFSPSNPDSIIITKIDETSYFGQMFSIINHSNLPISFITNGQKVPDDILIPDINYLVNKLIEGVFK;locus_tag=LOCUS_14450;gene=flhF;note=WP_011986949.1 flagellar biosynthesis protein FlhF (Clostridium botulinum) [pid:35.3%25%2C q_cov:96.0%25%2C s_cov:95.3%25%2C Eval:3.3e-57],MGA_1455
sequence1	MetaGeneAnnotator	CDS	1582856	1583719	.	+	0	ID=MGA_1456;product=MinD/ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080662.1;translation=MSNKLNEDQATELRKQFENVDTKIIAITGGKGGVGKSLFSVNISTELAKRGKKVLLFDSDAGFANASILFGKTIKNTFGDYISGKITLNECIQSSKYGVNVITTGFDFKDWKMFQNGFDEMMMEELMTLSNGHDYVIIDIGAGYSEKLKQFYKFSDKIYLITVPEPTAIVNAYTLIKALSYLDVQGELDIIINQIRTESEIKTVEDVLKKTVKNFLGKEISNFYYVMYEKNIRESIKRQIPYIVYKSNSKMGEIISNIVDDILNINIKNKKINFKRKLKNLFGIGGI;locus_tag=LOCUS_14460;note=WP_004080662.1 MinD/ParA family protein (Thermotoga) [pid:33.7%25%2C q_cov:96.9%25%2C s_cov:99.3%25%2C Eval:8.1e-42],MGA_1456
sequence1	MetaGeneAnnotator	CDS	1583721	1584299	.	+	0	ID=MGA_1457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKDFIFIVLKLALHRGNFIDIKSKTEEIKTKIVEFKNNKLTVIKKSLDVKIDEIINIEIFYNGLFKLIGKCVKVTDDYITFNIENDFQYITKRRNFRIPIFLPVIINEKYKGVLVDFNGKNIISITLFSNLINKSEKINIKFLNINGIIMIGEIILKRDEIFNLERIVVKLDEKESSSTIEIFQKVFSNYL;locus_tag=LOCUS_14470;note=MGA_1457
sequence1	MetaGeneAnnotator	CDS	1584314	1585006	.	+	0	ID=MGA_1458;product=flagellar brake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080664.1;translation=MADFIEKVYAKSNIAPNLPAELDINEEFFKGKYKTIIHDYNSLNNTADIGYPIYKGAYIKIPMNVNMKVRIFSKTSVFLFKSKVIGKGEEGNIKFLTITVPSIIFKVQRRQFVRIPIILEGNFFIKKEYDELEIPPKYKFVTKDFSAGGISMVSKKKLNSGEEILINLRLNEKINIENFEARIIREIGTTDFGETIYGVKFLNVDSMLEKDFVKFIFRYEIEASKKNKKI;locus_tag=LOCUS_14480;note=WP_004080664.1 flagellar brake protein (Thermotoga) [pid:33.9%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:1.2e-31],MGA_1458
sequence1	MetaGeneAnnotator	CDS	1585021	1585653	.	+	0	ID=MGA_1459;product=CheY-P phosphatase CheC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080665.1;translation=MSIYDRIDKVRLDALKEMGNIGAGNSATSISMMIDKKVDINVPEVKVLSLSDLWKVFKDPEEIVAGSMIGVGGDLDGAILFLMGTDSIKNMLEMMMLPKPEDLTQLDEITRSAIGEMGNIMCSSYVVALSNFTGLNIHSLPPNVVVDMITAIISEVSLLTTEGDDYIILIETDITLEDISKNIPGYIIYIPDQASLKKVLSKIGLGIDDE;locus_tag=LOCUS_14490;gene=cheC;note=WP_004080665.1 CheY-P phosphatase CheC (Thermotoga maritima) [pid:43.6%25%2C q_cov:95.2%25%2C s_cov:98.5%25%2C Eval:1.8e-44],MGA_1459
sequence1	MetaGeneAnnotator	CDS	1585646	1586131	.	+	0	ID=MGA_1460;product=chemoreceptor glutamine deamidase CheD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080666.1;translation=MSKKIIGIGEYASVKGEEVIVTLGLGSCVGVCIRDKTKKVGGMVHVMLPDSGGKPSPKPGKYADTGIDLVLDEMKKNGSSLTTLEAKIAGGASMFGNTSKTMDIGKRNALAVKAKLKEKGIRIIAEDTGGNRARSIEYNPSNGELLIKKVGGGEKVELYKI;locus_tag=LOCUS_14500;note=WP_004080666.1 chemoreceptor glutamine deamidase CheD (Thermotoga) [pid:61.0%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:1.6e-47],MGA_1460
sequence1	MetaGeneAnnotator	CDS	1586145	1586840	.	+	0	ID=MGA_1461;product=FliA/WhiG family RNA polymerase sigma factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080667.1;translation=MKYKMNTDQVVKNFLPKIKMIALNLISGLPASVEIDDLIQEGVIGLLQAYGRYDAHNESGAQFYTYAMRRIRGAMFDYLRKIDWLPKEIRHLIKGYETLISTSEEFLTDKEIKEKLKINQKELNKIKLFLRKSQILKLDYYLTEDSDEYMFDGTSEEYDPEIIAYKSILKDKLKEKIENLKEKEKLLLSLYYEKGLTFKEIGEIMNVSESRISQIHSKLLIILRKQLKEGE;locus_tag=LOCUS_14510;note=WP_004080667.1 FliA/WhiG family RNA polymerase sigma factor (Thermotoga maritima) [pid:39.2%25%2C q_cov:96.1%25%2C s_cov:95.9%25%2C Eval:4.6e-36],MGA_1461
sequence1	MetaGeneAnnotator	CDS	1586842	1587150	.	+	0	ID=MGA_1462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLHDLQVLLTKEVDVANQVQAINSSTSSAKMVELVKQVQQFERNMKMVKDGEKSENNIIDDQKQKQSKQNKKEFNKKENNLKENEKEVIDEYRGHIIDLHL;locus_tag=LOCUS_14520;note=MGA_1462
sequence1	MetaGeneAnnotator	CDS	1587171	1587668	.	+	0	ID=MGA_1463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080669.1;translation=MIGYFSIYRSDDEKYAGGILSMNEKGLPVSFKYTTPIKPNKIQKIIYGKNLKSYLASEIIGKQLINIVKDLDMIFVNDTEILDFIQTDKLMVHLNLTYEPLEEYLKEKEGCISSGENRSIKLTFSKEPGEELFKKISELNEFFDLFEPFQRLNEALKYICSSEEK;locus_tag=LOCUS_14530;note=WP_004080669.1 hypothetical protein (Thermotoga) [pid:37.2%25%2C q_cov:93.9%25%2C s_cov:95.0%25%2C Eval:1.0e-23],MGA_1463
sequence1	MetaGeneAnnotator	CDS	1587647	1588330	.	+	0	ID=MGA_1464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFGRKIILNDYDIDFYYKIKNDKFNNMKIADIKESSPQFVLVDFCEKIEPKIISNKFKSFVDFEIKELNSNLEIKILELNNFENILNNIEKMKTVIKEEKFKFDFEVLEIQKLHTKIKEENKINIKIKEKKLEKKIIKKPVKKLKKNISKEYILQLLKELLKEENVSIHDMAFLAFYREVPYGKIKYEWNDKNLNCYLLENNIIYLDAVVFINKNNNEKYLKFIRR;locus_tag=LOCUS_14540;note=MGA_1464
sequence1	MetaGeneAnnotator	CDS	1588333	1591221	.	+	0	ID=MGA_1465;product=transcription-repair coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081728.1;translation=MFNIKNLINKIDKNKNNVIIIPEYSKFEVEDEVLYYPDSDIFPFEEFDISSEIKSKRLKTLYELKNKKNNIIITTLHAITRYTIPLKHYYIKRIENNFEDILYELGYTYKNEVREFGEYSKRGFIRDIFLPISNNPIRIELFDNDIERINLFDSFTQKSIKNVSYFDLIPGSEVYRFKENIELVENRINRIQKNLKTDDEVSIEALYSIPGIFHKDKNTLFSYLENNTDFYLINKKDILKSFSEKEKENIEVCDTNLKKAIYKEFSGISIDFLKDLKYKEYKVNFKNNVILKKEKVKYDMEEIPLIDWEDLKENDYVVHSDYGIGLYKGIKTKETILGIREYIIVEYSNSSRVFVPVERLDKLSKFIGDTSKIKISNLSGKRWQSKKKKVEKNIREKLNELKEIYAKRENSKGISLIGDKELEEKFVNTFSHIETADQIRSINEVKKDLESLKPMDRLLVGDAGFGKTEIAMRAAFKAVVSNYQTLLLAPTTILAKQHYQTFKERMDPFGVNIELITRYKTISEKENLYKKIKNGNVDIIIGTHSLFSKKIDVKNLGLVIIDEEQKFGVLQKEKFKKIQIGVNILMMSATPIPRTMYKSMSGLQEISTISTPPFGRIPIQTYVGLYSKKIVRKALLREKSRSGQSIFIHNRVQDIENIYSELKSIVPELKVKYVHGRMKKSKFIDIINDFYSNKIDVLLATTIIENGIDVPNANTLIVDDSFRYGISQLYQIKGRVGRTNKRAFAYFMYRNQLLNEDSKKRLESIKRFNEPGSGLKLALRDLEIRGYGDLLGLEQKGHINTIGLHLYKNILEKIMLEEKVTDDEKINLEFTDIIGIKGNMIIPENYINNSIERMRIYRRISICKSENEVISIKNEIEDRFGRLPKEIKTLFDYAIVRVKATKLKIEKIEIGNGYILFKYNKGAIPKIENFLKHSKSKFHSKTNEIICYGTDDEIKFLNKVLR;locus_tag=LOCUS_14550;gene=mfd;note=WP_004081728.1 transcription-repair coupling factor (Thermotoga maritima) [pid:38.9%25%2C q_cov:98.2%25%2C s_cov:99.6%25%2C Eval:7.6e-196],MGA_1465
sequence1	MetaGeneAnnotator	CDS	1591225	1592568	.	+	0	ID=MGA_1466;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082971.1;translation=MIYDTIAAISTPNGTGALSIIRVSGKDIIKIIDKILKKKNFESKKMYYGWIYDNDEKVDEVTWVYHKSPNSYTGEEMLEIFGHGGKLITYKVYKTILKNGARPAVEGEFSKRAVLNGKMDLIKAESINDVIHANTEYALKASFKQLSENLSKKINNIKEKLLNVAARIEVEMDYPDDFEEDNYDLEKKLISIKEDSEKILKNSDNGIIAVQGLKVTIVGKPNSGKSTLLNALLKKDRAIVTDIPGTTRDTIEESLNIKGIYLKIIDTAGIRETKDIVEKIGVEKSKKSIDESDLILFVVDGTNKISKEDKEIYEYIQKKNKKRIILINKKDDVNFKEDLLNKFNKEIVLKISAKNQNVSELEDKIYEMYYKDLDIKDPTLITERQKYTFEEALENINSAIKGISQEIPNDIIMYDIKNSIKKIMELTGEDYTEELLNKMFSNFCVGK;locus_tag=LOCUS_14560;gene=mnmE;note=WP_004082971.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Thermotoga) [pid:43.5%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:8.3e-101],MGA_1466
sequence1	MetaGeneAnnotator	CDS	1592586	1593311	.	+	0	ID=MGA_1467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIIPIILGLIPLTQFFVKGWLFFGVSLITFIIGYNLFKRSSSKEFLSYSISILLSQTICTLFNISNTAIFVYLLITAILFFIGSLDLKIVDNLKNFLKENKVNLKEWEFEMCYFGYGQVQAKEDIEHFESAVIGIGKEGIAFNVKMAKNNEFKKFIKYNEINDYGMYKKQKKQDYYGYAPKIRDMFLPSKDITTLHKPYLDTYILTIQTGEEIYSFYENVKIIENLVKIIEENINGGNV;locus_tag=LOCUS_14570;note=MGA_1467
sequence1	MetaGeneAnnotator	CDS	1593308	1594486	.	+	0	ID=MGA_1468;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080339.1;translation=MKKTLKISKFEIKKIFRNRGIFLLMIIFPIIVAYLGAEFYPEKLVQNYKVAVYNEDNSFLGRFGFLFLKQFFKWENAKEIKNKTQLKEVIREKEFDSILVIPKGFMGNLKDYKETKLYLIPNPDKLQDSMAIYTVFNALFKELSGIPDIAGGSTTEFLLKGGITVDKNRKKPKLEVLVPDLNDGTTKKTNSIDLGFQEIFAPTISVIMVLLFSMIGVGNSIAHTKESGLFDIYRANGLKTYQFIGIKFNAYLVLGIVASFISWYMYRLFGVASQGNEFYVILIILSTVFAFTAFGILISSFVKNERSAAFLLTVTTGAMIVFGDVLLPIPSSSIVKNVSYAFPIKYAVDAWRKVSILGLGMKDIKLELLILILFGIISLIISNYVIGIVEKK;locus_tag=LOCUS_14580;note=WP_004080339.1 ABC transporter permease (Thermotoga maritima) [pid:22.2%25%2C q_cov:89.5%25%2C s_cov:85.8%25%2C Eval:1.6e-20],MGA_1468
sequence1	MetaGeneAnnotator	CDS	1594483	1595757	.	+	0	ID=MGA_1469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKSLAVSISFEIALSATIFLFIIILISKDWWEMIYLPIIYIFFKILVYFSVEKKLYSIINRATSKKYGRIYSGIFRELEELIGGYKTIIDRERNDFKDYYSRFNTIFNNINFGILFINNEMRVESINKKFNELFHFINVKPGMLFFDILKQSNIKFPLITGRYEVYSKKMRKNFNVSVNKKEDYIIIIFDDITDIKKMKKSLELSKNFSRMGEIIGDISHGLKTPVARVKMAYQMYSMFKDKESFETLGKEIDNLNTFTKSTIELFKEENIKMKLEEIDLESFIKVIEREYKKNYSNICFEFVTKEKILKVNKTLFSSFLKNLIQNSIDSIHEKYIIKNFNPKIKILIKKKKDKIKILFYDNGKGMDKYTIENYLKPYYTTKKNGSGMGSIFIEKFIVMYNGNIEIKSIVEKMTLIKVEING;locus_tag=LOCUS_14590;note=WP_012546003.1 ATP-binding protein (Thermodesulfovibrio) [pid:25.2%25%2C q_cov:50.5%25%2C s_cov:51.2%25%2C Eval:1.2e-13%2C partial hit],MGA_1469
sequence1	MetaGeneAnnotator	CDS	1595763	1597079	.	+	0	ID=MGA_1470;product=sigma-54 dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675346.1;translation=MRKILIVEDDISIGSMLKKFIESKDIEVEIAENGMKAKHISKKFFPDIILLDLKLPDIYGFDLIGDIKQYTKEIIIITAHGDIDDAVRATKMGVYDFFEKPIDFIKLGTSIENIYKMLDLKEKVENKKKNSNKIIGNSNAIRSLKLKIKKIAEKNISVLLLGESGTGKEVLARSIHNLSKRKKFVAVNCGAIPEELFESELFGYEKGSFTGADTAKPGKIEMADGGTLFLDEIGDLPKNMQVKLLRVLETKEVERIGSTKSKKVDIRIIAATNRKFDEMIKNGQFRDDLFFRISVIELIIPPLRERKEDIPELANYFVMNANEDLETNVKEISKEVLDSLVNYEWPGNIRELRNIIYAMVALSDGNILTCDMLPVKLKNINKNKEFLKIPLGLNLEEVEKIYIEETLKKIGNNKTQAAKMLGISKVTLFAKLKKWKEE;locus_tag=LOCUS_14600;note=WP_002675346.1 sigma-54 dependent transcriptional regulator (Treponema) [pid:41.1%25%2C q_cov:99.3%25%2C s_cov:93.9%25%2C Eval:3.8e-90],MGA_1470
sequence1	MetaGeneAnnotator	CDS	1597083	1597709	.	+	0	ID=MGA_1471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENELIEYKSILKNIEIIYKIKRSEFIGNSFYVKSEIDAKEKIKEISFKYKNATHNCWAYKIGKNFNYSDNGEPSGTAGKPILGSIEKYDLNNILIIVTRYFGGIKLGVRGLIDAYSETAEKTIISSKIAKYKKSTLYRIKAEYSKYSEIERMLKRYDGWNIKKQTFSDYVVFEILINDNENIFNILKNKSKEMLKIGIEEIPTEVKV;locus_tag=LOCUS_14610;note=WP_004082229.1 IMPACT family protein (Thermotoga maritima) [pid:46.1%25%2C q_cov:72.1%25%2C s_cov:79.6%25%2C Eval:2.3e-33%2C partial hit],MGA_1471
sequence1	MetaGeneAnnotator	CDS	1597706	1599046	.	+	0	ID=MGA_1472;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081077.1;translation=MNLSLYRKYRPKTFDEIYGQKHVKKYFENAILKNEISHAYIFNGPRGTGKTSVARILAKVLNCENLEEYNPCNKCSHCVSINEGSYMDVIELDAASNRGIDEIRQIRDSANYRPVSGKYKVYIIDEFHMLTREAFNALLKTLEEPPEHVIFILATTNLEKVPETIISRSQLINFKNIGYEDIKNMIKYVSNSESIEIEESAINIISKKAKGGMRDALSLLEQVMKFSDNKITLEDTINVLGLFDETFVLDFVNAIYSGNIDKILEISESLFSMGKEPEILLEQSIELIFETIKENLKMIKIMEKLSEILKEIKFNENKRLMFDVSVLALTYKYVKKEDNALKELEKDFLNPQNEEGLISSILKYYTEGQKENLAIYYVIKSSQIKESEGKIEFIFDYNKKLEYDMFHKYENEIKITISLFSNDTVDVIATYKGNNEKKESLNSIFN;locus_tag=LOCUS_14620;gene=dnaX;EC_number=2.7.7.7;note=WP_004081077.1 DNA polymerase III subunit gamma/tau (Thermotoga) [pid:44.0%25%2C q_cov:98.2%25%2C s_cov:97.1%25%2C Eval:3.0e-103],MGA_1472
sequence1	MetaGeneAnnotator	CDS	1599057	1599851	.	+	0	ID=MGA_1473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYIVIAMYSEALPIIKNFNLKKENNVYIGENIRLIITGIGKINSAIETTKLLMKYKPKENDIIINLGTCGTKLKKYKDGDIFLCNKILDHDSKKIYYLDMLLSTEFKEGSIETFSKVVTEKNEVKENLVDMESSGFYKAAINFFEQHKIFLLKIVSDHLTDDISKEEIIDFIEMNIEKIKNFIDKVKNIEIKEIFTKEEKIYIEKICEDLNFSVTQKRKIINTFKYSKLKNGKIFKLPNLIDIPKNKVERKKIFEKLEQELLK;locus_tag=LOCUS_14630;note=WP_011016733.1 spore photoproduct lyase (Fusobacterium nucleatum) [pid:39.2%25%2C q_cov:98.5%25%2C s_cov:43.7%25%2C Eval:2.5e-39%2C partial hit],frameshifted%2C insertion/deletion at around 1599830,MGA_1473
sequence1	MetaGeneAnnotator	CDS	1599820	1600821	.	+	0	ID=MGA_1474;product=deoxyribodipyrimidine photo-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582848.1;translation=MKSLNKNYLNKYFSHIYIEKEAYNYKITEYILNKFNKASKILINNYKEIFNRNKQNFIMQKKSPKLILAVKKNNLIYKGAEVCHDFNNENFYYTSSIFNCVYNCKYCYLGGMYTSANIVIFVNIEDYFKKIKKLENPYISISYDTDLMAFENIYPFTKKWIEFASKNKDIKLEIRTKSSNFKSIKDMVPQQNVILGWTVSPQEIIDKFEKQTPSLDLRIESINEAINKGWIPRLSIDPILKIDEFERIYSEFIEYLFQKIPANKIKDLSIGVFRMPLDYLKRMRKSSDNFIVYYPYENINGVYTYSKEEKSYMINYVKKELNKYIDKEKVFEI;locus_tag=LOCUS_14640;note=WP_012582848.1 deoxyribodipyrimidine photo-lyase (Dictyoglomus turgidum) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-93],MGA_1474
sequence1	MetaGeneAnnotator	CDS	1600818	1601507	.	+	0	ID=MGA_1475;product=SDR family NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016734.1;translation=MKSVILTGASSGIGFETAKVLIENNYKVYGFGRDFSKIEYEDKNFIKITCDITNVHLLNNEIKKIIKKDNNIKVLINNAGFGLFGMHEELNIKELEKMIDTNLKVPIILSKLLLRSLKKNNGYIINVSSVTAFHNAPKGAAYSATKAGLTHFSESLFEEVRKYGVKVISINPDITKTNFYNNLNFKYVEDKNFYIDPKEIANIINFILNQNSIITQVTVRPQKNKIEKK;locus_tag=LOCUS_14650;note=WP_011016734.1 SDR family NAD(P)-dependent oxidoreductase (Fusobacterium nucleatum) [pid:48.5%25%2C q_cov:99.6%25%2C s_cov:97.9%25%2C Eval:5.8e-55],MGA_1475
sequence1	MetaGeneAnnotator	CDS	1601518	1602384	.	+	0	ID=MGA_1476;product=pyridoxamine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964930.1;translation=MTGVKKVAAIHDLSGFGRCSLTVIIPTLSTLGIQVCPIPTAILSTHTDGFGNDFSFVDLTDSMKEYIKHWKTLNLKFDGIYSGFLGSENQIEIISDFIDKFKTKNTLVVIDPVMADNGELYQTMSNSMVEKMKKLIKKANIITPNFTEACYLLNETYKEKIEIKEIKNWLIRLTNEGPEIAIITSIPIEREKNTVIAYSKNDKRFWMISSEQIPAFYPGTGDIFSSIVTGRILNGDSLPVAIDRAVIFIKNAIKESFGFDYPHREGILLEKVLNNLNLPYTNSNYKLI;locus_tag=LOCUS_14660;EC_number=2.7.1.35;note=WP_010964930.1 pyridoxamine kinase (Clostridium) [pid:60.6%25%2C q_cov:99.0%25%2C s_cov:98.6%25%2C Eval:1.2e-98],MGA_1476
sequence1	MetaGeneAnnotator	CDS	1602399	1603202	.	+	0	ID=MGA_1477;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582910.1;translation=MNFTILCNDEKNEDFFSEHGFSILIEKDNKKLLFDTGHTDVYMKNAKKLNLDLNEVDAIVLSHGHYDHAGGINYLLKEESKFKVYIHEKTMQKKYSKDIFKGIDFTKLSNYKNLIKIKNKKMQIIKDIYVFGPVEMKNDFEEPSKDFFVIEKNKKIRDFFEDELNIVIDTNEGLILITGCAHRGIVNIATDTIKEFKKDIKLIIGGFHLKDADSTKINKVIEELNKLNIKSIMPCHCTGNRALKLFEKKFNNEVKKCNTTIIPKKDV;locus_tag=LOCUS_14670;note=WP_012582910.1 MBL fold metallo-hydrolase (Dictyoglomus turgidum) [pid:47.4%25%2C q_cov:92.9%25%2C s_cov:95.0%25%2C Eval:2.4e-69],MGA_1477
sequence1	MetaGeneAnnotator	CDS	1603229	1604017	.	-	0	ID=MGA_1478;product=peptidoglycan editing factor PgeF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001209022.1;translation=MFELIKNKDIKYFKITEFETYGIKAIFSTKISGFSNYSKNSLNLGLNTNDSFKNVEKNFYKFFNYNNIDIKNVVPADQVHKDNIAIINSYHKTSNFLFNKNKKNTDAIITNEKDIVLISFYADCVPLYFCDKKNKIIGLAHSGWKGTILEIGRKVIEKMNYAYNSNPKDILVGIGPSIGPNNFEVSLDVAIKFKKYKTVKKIKNKYFVDLWLTNYIILQNAGILKNNIIMSNLDTYENKELFFSYRRDKGNTGRMISCIYFD;locus_tag=LOCUS_14680;gene=pgeF;note=WP_001209022.1 peptidoglycan editing factor PgeF (Bacillus) [pid:37.8%25%2C q_cov:92.7%25%2C s_cov:91.2%25%2C Eval:4.9e-35],MGA_1478
sequence1	MetaGeneAnnotator	CDS	1604091	1605071	.	+	0	ID=MGA_1479;product=NAD-dependent epimerase/dehydratase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011141745.1;translation=MISITGATGHIGNVLVRKLVNSEEKIRAITAPFDNTPSLKDVDVEVIKADVTNYEQIYNALKGSDIVFHLAAIISIMPGMKQKVFNVNVNGTKNVIKACFELGISKLIYTSSVHALEEPVKGSNIDETLCFDPKKTSGIYGKSKAVAALEVQKAIKKGLNAVIICPTGVIGPYDFKLSEMGSMIFDTMNKKMKMCVNGSFDFVDVRDIVNGEIEAMKKGKNGNVYILSGHKINFYDLVNEIKKIENLDYKTVFLPKSLTNIISWFSPFYYKLFKKIPRFTPYTMHTISRNYTFSFENAKNELNYFPQPLEKTLKDTIDWFKKNYNT;locus_tag=LOCUS_14690;note=WP_011141745.1 NAD-dependent epimerase/dehydratase family protein (Gloeobacter violaceus) [pid:28.2%25%2C q_cov:98.8%25%2C s_cov:95.0%25%2C Eval:9.5e-37],MGA_1479
sequence1	MetaGeneAnnotator	CDS	1605096	1607234	.	-	0	ID=MGA_1480;product=Tex family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009895217.1;translation=MEILKTITKEMNLNEKQVKNTIELLNEGNTVPFISRYRKEVTNNLDETQIRKIEELFKYYTNLEKYKETVLKSIEEQGKLTDSLKEKIINTSKMSELEDIYLPYKKRKKTNADKAIEAGLEPLVNKIFLEKIDLSIFEKFTVENYETVEKVREGVKFIIGQIFSHDTDIRKKLRIYYEKYGKILSNKKKKFKEEKTKYDMYDNFSQNIKDIQNYRVLAINRGESEGILNINLEVEKNYIENLFKEYLKGYEPNDKIIREGLEYGFKNMLNPSIEKEVRNSLTSKAEESAIELFSKNLGELLLTPPLKNKRILAIDPGFRTGCKVVALDESGKFLEYNTIFPVPPKNDFIGAEKTVLSMIKKHDLNLIVIGNGTASRETQQFIVDTIKKHNLKLRYLFANEAGASVYSASKVAKEEFPDFDVTVRGAISIGRRIQDPLAELVKIDPKAIGVGQYQHDVNQKLLKEKLENTVESVVNNVGVNLNTASPSLLKYISGISSTVAKNILKYREENGAYTQRKELLKVKGFGKKGFEQAAGFLRIFDGKNPLEITGIHPESYDVAKNLINEIGYEVKDILDSTKISKIRNKLDNIDIKEYSKKLNIGEYTLNDIIKELKKPGRDLRDDMPQPILQEDILKFEDLKEGMTLQGKITNITDFGAFVDLGIKESGLIHKSKLSTKFVKHPSDIVSINEIVNVEIIEIDKELKRIKLKKIEK;locus_tag=LOCUS_14700;note=WP_009895217.1 Tex family protein (Clostridioides difficile) [pid:47.4%25%2C q_cov:97.3%25%2C s_cov:97.5%25%2C Eval:3.2e-188],MGA_1480
sequence1	MetaGeneAnnotator	CDS	1607468	1608985	.	+	0	ID=MGA_1481;product=glutamine-hydrolyzing GMP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082366.1;translation=MKKILVIDFGSQYTQLLARRIREIGVYSEVVQFDEKIDLKEIEGIILSGGPDSVYAKDAPQIPNYVFDLKKPVLGVCYGMQSITKYFNGKVKKEKVSEYGRTEIEIKNNSKLFENLPKKFNTWMSHGDSVVEVPNGAKIIAKTSNNIIASFEYENYYAIQFHPEVRHTEFGNNIIENFVVNICGISNTWSLQDFITQKIEEIRKKVGNDKAIIALSGGVDSSVAAVLMHKAIGNNLKAVFVDHALLRLNEENDVRSIFKEIMGLDLTVVNARERFLTKLKNVSEPEKKRKIIGEEFIRVFEEESKKFSDAKYLIQGTIYSDVIESAASGKKTAKIKSHHNVGGLPEDINFEIIEPLRNLFKDEVRNVGEILGIPKHILYRHPFPGPGLAIRIIEDITEEKLEILKKVDNIFIETLRDTGWYNKVWQAFAVLTPIKTVGVVGDERSYEYVVSLRSVDSVEGMTADWSRIPFEVLDKASRRITNEVKGVGRVVYDITSKPPSTIEWE;locus_tag=LOCUS_14710;gene=guaA;EC_number=6.3.5.2;note=WP_004082366.1 glutamine-hydrolyzing GMP synthase (Thermotoga) [pid:62.0%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:1.2e-183],MGA_1481
sequence1	MetaGeneAnnotator	CDS	1609087	1609638	.	+	0	ID=MGA_1482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKNFHDTFVKNSISEGFIHDDHIHPVILMWIEFTEESKRSFLNLIKKNDEEYAEEMEDYLKDYDINTVIVPVYFPFEAHDDEELNNFLNFLTEISNITKVHSYSVLSEISLHDDDVDMDNITEEDEENFEFHPSIFSEGEDGKCYMDVLDYESHKKIEDLSGEFDCKDEYILDLRLPIFKK;locus_tag=LOCUS_14720;note=MGA_1482
sequence1	MetaGeneAnnotator	CDS	1609779	1610459	.	-	0	ID=MGA_1483;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865275.1;translation=MHPYLNQISKINLFKSLSLDTIEQHIFKDSIIKSFEKGEVIKGRGDCLNHMIVLLFGKIQTEIVDFNGKIFVIEQIKAPFVPAIGFIFSKVSLPMDIIAVEKTTILFIKKEEIFSLLMKNKEFLEIFLENIGNKVNFLSNKLQINTLKTIREKIFYYLIQLYNQQMSDKIVLQNSLEELSQLFGIARPSLSRVFSDLEKEGIILKKKNEIKILNKDYISNLFENKK;locus_tag=LOCUS_14730;note=WP_010865275.1 Crp/Fnr family transcriptional regulator (Thermotoga maritima) [pid:38.6%25%2C q_cov:81.0%25%2C s_cov:90.5%25%2C Eval:5.9e-28],MGA_1483
sequence1	MetaGeneAnnotator	CDS	1610551	1611741	.	+	0	ID=MGA_1484;product=DUF438 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583929.1;translation=MSELFNNEEYLKNLIKRLGNEDNEELKKELKSTIKSLSPEVIAKVEQELIDKDGITVDEIQSVCDIHLDLFKDFTNVEKIEVEKDHPIFILMREHDYILKTVEKIREISKNVYKKNNIKEAFDDFMKLNKNIENIEAAEKYFLKEENVLFAYLEKHGIEQPPRVMWKEHNQIRNFRNKLLKLKDNRDFEDAKKSLYEISLNLNELFTHHVQKEHSVLFPTALNLINDEEWKEIRNQFDEIGYFCYFPKAIEKKDEKESGVLDDKIKLPSGEFTIEELINMFNTLPMDITFVDKNNRVKYFSETKDRIFVRSRAIIGRKVQNCHPANSVEIVNKIVNDFKTGKKDKADFWLRVGEKYVYLRYFAVRNKNNEYLGTVEVTQDIEPIQEIKGEKRIYDE;locus_tag=LOCUS_14740;note=WP_012583929.1 DUF438 domain-containing protein (Dictyoglomus turgidum) [pid:43.6%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:4.3e-98],MGA_1484
sequence1	MetaGeneAnnotator	CDS	1611814	1613472	.	+	0	ID=MGA_1485;product=hydroxylamine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272545.1;translation=MSMFCYQCQETAGNKGCTVRGVCGKTEDVANMQDLLMYVMKGISIYSTKARELGIENEEVNKFIYNGLFMTITNANFDKQRFVDYVKEGLKLREEIKKQLETAGGKIEGTLPDCATWYAEKEEEFERKSYSPEVSVLATENEDVRSLRELITYGLKGLAAYLEHAVNLGFEDKDLYKFVQEALAKTTDDTLTVDELVALTLETGKYGVNAMALLDKANTETYGNPEVTKVNIGVGTNPGILISGHDLKDIEDLLKQTEGTGIDVYTHGEMLPAHYYPAFKKYKHFVGNYGNAWWKQTEEFETFNGPILFTTNCIVPPKKDASYADRVFTTGAAGYPGSKHIPDREPGEMKDFSEIIEMAKKCKPPVEIEKGEIVGGFAHNQVVALADKVVDAVKTGAIKKFFVMAGCDGRMKSRSYYTEFAEKLPKDTVILTAGCAKYRYNKLNLGDIGGIPRVLDAGQCNDSYSLAVIALKLKEIFELNDINELPIAYNIAWYEQKAVIVLLALLYLGVKNIHLGPTLPAFLSPNVANVLVKNFGIAGIGKVEDDIELFLS;locus_tag=LOCUS_14750;gene=hcp;EC_number=1.7.99.1;note=WP_041272545.1 hydroxylamine reductase (Desulfitobacterium hafniense) [pid:72.1%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:8.0e-237],MGA_1485
sequence1	MetaGeneAnnotator	CDS	1614194	1615444	.	-	0	ID=MGA_1486;product=amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896806.1;translation=MDKKIIKGNFIFSKNLNNLSFLENTHLLINDGKILDIFKEVPTKYKNLNILDFKNKIIIPPFVDLHLHAPQYAMRGLGMDKELLDWLNTYTFKEENKFKDIGYAKRIYNEFAKDLIKHGTLRAVIFATIHKKSTEILFEVLEKYGLETYVGKVNMDRNCPEFLKENTEKSLKETEELILNYKNNKKSKPIITPRFAPTSTQKLLKGLGELAIKYNIPIQSHLSENQKEVKWVKELYNHNYSEVYNENNLFGQTPTLMAHCIYLTKKGIELMKNNRVIAVHCPQSNVNLASGIMPVRTLLNEGLNIGLGSDIGAGHSIAIKRSMVMAIELSKLIYKDNKNLKPLSTEEVFFMATKGSDFFGKIGEFNVDFSFDALIIDDSNLGTTELTLKERLQRFIYIGDDRNIIKRYLNGKEINF;locus_tag=LOCUS_14760;note=WP_009896806.1 amidohydrolase family protein (Clostridioides difficile) [pid:52.2%25%2C q_cov:98.8%25%2C s_cov:98.3%25%2C Eval:1.2e-125],MGA_1486
sequence1	MetaGeneAnnotator	CDS	1615578	1615988	.	-	0	ID=MGA_1487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDAVNYFNNGYTCSQAIVKTFKNEFNIDEKILEAISYGFGGGMGKSGNICGAVSGGIMVIGMRNMNEKKDIVYKKVNKFISEFKKINGETSCTKLLEFSNELSEEEEKNKFKKKICTNCIKSTVELLNSQLILTK;locus_tag=LOCUS_14770;note=WP_003358709.1 C-GCAxxG-C-C family protein (Clostridium) [pid:38.0%25%2C q_cov:66.2%25%2C s_cov:59.3%25%2C Eval:5.4e-07%2C partial hit],MGA_1487
sequence1	MetaGeneAnnotator	CDS	1615985	1617316	.	-	0	ID=MGA_1488;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005479328.1;translation=MLKKMYIKEILLISFPLIIQNTFRMFLGTTDKIFVGQLGEKSLAAVGGANQLFSLFIIVFFSFSSGLTILASQYKGSKNNKKLEEIISTSFFISLIFGVFLLITLETYSKSFLSWIKIKEDTLTLANNYFKIIIPSVFVLLFSSNCASIFNAFKKNKFSMIATIVSMITNIFLDYLLIFVFNFGIKGAAYATLISRILEFLILFIFLIYIMKVEKIKLKIYVNMSSLKNLVNISLPMSIDGAVWQFATTVNTAIIFKIGVSEAAIFEVIKIFQTIVLTPISAIAGASIGIIGNELGKNKKENAKSISINTIFISFIIVTILISNVMIFKNQIFSLFNLKQTTIQEGKKILNIIIFLVYAQTLNIIFPFILRSGGDTWSILGITIFGFWIIQIPISLLFAFTLHLGITGLMYAMLLAEIFKGTLFLLRYLKWKWMKNITIEVKK;locus_tag=LOCUS_14780;note=WP_005479328.1 MATE family efflux transporter (Vibrio parahaemolyticus) [pid:24.1%25%2C q_cov:98.4%25%2C s_cov:96.5%25%2C Eval:1.3e-32],MGA_1488
sequence1	MetaGeneAnnotator	CDS	1617413	1618267	.	+	0	ID=MGA_1489;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005783550.1;translation=MKEKLKVFKSYFIITLGVFINSIGWTAFLIPAKIVGGGLYGVSSLINFSTGFPVGLSYLLMNIILILIAIKTLGGGFGIKTIYGIITSSFFISIFENIFKQPLVDDRFLVAIIGGILSGAGVAIYFTQGASTGGTDIIAMIINKYRDVSPGRSMFFMNLAIISSSYFLFHSIEKIIYGIVVMAVSSYSLDMILEGSKQSAQVMIFSEKYKEIAEKISTEIRRGVTVLEGYGWYTKNKRNVLMIVIRKKEVPMIMYAIKSIDKDAFISIGNVMGVYGKGFEKIRR;locus_tag=LOCUS_14790;note=WP_005783550.1 YitT family protein (Bacteroides) [pid:39.5%25%2C q_cov:98.2%25%2C s_cov:96.0%25%2C Eval:2.5e-59],MGA_1489
sequence1	MetaGeneAnnotator	CDS	1618270	1618800	.	+	0	ID=MGA_1490;product=chromate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082365.1;translation=MFELFFSFFKISAMTLGGGYAMVPVMIKFLEKKGWMSEKEFMEILTIAQSLPGPIAFNTSRLVGEKLKGTKGAIVCSVAVIIPPFFVIIFASYLFNKFSQNIYVKYYLKGIYAAALGLIFGIVIKIFKNQKWNFLKIILLIIGVLSILFNNNFVLPVFVLMVVLNYIYENGRVKND;locus_tag=LOCUS_14800;note=WP_004082365.1 chromate transporter (Thermotoga) [pid:42.8%25%2C q_cov:94.3%25%2C s_cov:97.1%25%2C Eval:7.1e-37],MGA_1490
sequence1	MetaGeneAnnotator	CDS	1618793	1619314	.	+	0	ID=MGA_1491;product=chromate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082364.1;translation=MIKMLLIFFKIGFLSFGGGWTTVGLIREDLISNGYMTLDIFSNAISISQMTPGPIAINLATYVGYINFGFWGALLNTIFFLIPPILILYFFRLLQNNILKMNRNILMNSLKLGTAILISMTLISFLKPLFKEFDYRVVLIALTSYFLFNKTKINPAYTILLSGFVGIILFNFL;locus_tag=LOCUS_14810;note=WP_004082364.1 chromate transporter (Thermotoga) [pid:39.6%25%2C q_cov:97.7%25%2C s_cov:98.8%25%2C Eval:2.6e-28],MGA_1491
sequence1	MetaGeneAnnotator	CDS	1619343	1620047	.	-	0	ID=MGA_1492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546359.1;translation=MPTFSERYKYIKENQIPYDKISKKLRNRLWNKIYPLLENEKLTKKILDDFFKINLYEFKENSIEFINNEFKKLEFHEVYSLIEFILKNHNYDLIKFKDSINKIFIEEKAQYRITGKQIVKLISSHEMKEIDKVFETEDLFLPVRKNIFKGLDSYLNHSYENSIDCSLKAIEEVCKIVFHKEGTLNTLIDEIPINTNYKLFFKNLSINLSYEDARLMLVTCSAFVNYIISKFWIN;locus_tag=LOCUS_14820;note=WP_012546359.1 hypothetical protein (Thermodesulfovibrio yellowstonii) [pid:31.8%25%2C q_cov:98.3%25%2C s_cov:97.2%25%2C Eval:4.6e-23],MGA_1492
sequence1	MetaGeneAnnotator	CDS	1620152	1620658	.	+	0	ID=MGA_1493;product=biotin transporter BioY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583029.1;translation=MDYKNISKVGVFTALLVVASWLVIPLPFGVPFSLQPLAVFIIVYMLKKNAWKSILTYLLLGTLGLPVFAGFSGGIAKLIGPTGGFLFGFLLASLLVFIPKINDILLGFLEIIIIYFMGIVWFKLYKDMSFFIAFKLLVPPFILWDIIKLFIAYSITKAVEKRLQIENA;locus_tag=LOCUS_14830;note=WP_012583029.1 biotin transporter BioY (Dictyoglomus turgidum) [pid:35.3%25%2C q_cov:97.6%25%2C s_cov:97.7%25%2C Eval:4.2e-20],MGA_1493
sequence1	MetaGeneAnnotator	CDS	1620683	1621477	.	-	0	ID=MGA_1494;product=nitrilase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868514.1;translation=MINISIVQFKPKLFKIKENVDTAINLIKNEKTDLFLFPELAFSGYSFSKNEEVKEVSENPKINKGYAFNKFKDFCIKNNVNIVYGFVEEDRNKFYNSSILIKKDGSFKIYRKTHLFYNEKKFFSNGNTGFFIENIKGVNIGLAICFDWFFPESFRTLSLMGADIILHSANLVMPYCQNANITRSLENRVYIATANTWGEEINNKIKNTFTGMSQLTDPFGNIIKRFPPQKNIVETFFIDEKLSRNKNINEKNNIFEDRKIQFYK;locus_tag=LOCUS_14840;EC_number=3.5.5.1;note=WP_010868514.1 nitrilase (Pyrococcus abyssi) [pid:38.7%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:5.8e-44],MGA_1494
sequence1	MetaGeneAnnotator	CDS	1621474	1622037	.	-	0	ID=MGA_1495;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941797.1;translation=MIIIKKILRQNILSIRKSISKTKYDELSKTINKKLLNLLSNFDYKTIALYYPIKKEVNSLDLIKNQLLNQKEVYLPKILNNQMNFFKLSSMKELKKGAYNIPEPISLETKNEIDIYIIPGIAFSKTMYRLGYGGGFYDRYFSINKKTKLIAPCFELQLLEELPYEEHDITIDYIVTEKNILKGSLNL;locus_tag=LOCUS_14850;EC_number=6.3.3.2;note=WP_010941797.1 5-formyltetrahydrofolate cyclo-ligase (Geobacter sulfurreducens) [pid:34.3%25%2C q_cov:94.7%25%2C s_cov:96.8%25%2C Eval:1.4e-25],MGA_1495
sequence1	MetaGeneAnnotator	CDS	1622155	1622355	.	+	0	ID=MGA_1496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKVTGIANIPFQIKSYKVKNKIEYKKSTFKDTKSTFDFGVYVQKGSKLILKKFINKGDKLDILI;locus_tag=LOCUS_14860;note=MGA_1496
sequence1	MetaGeneAnnotator	CDS	1622368	1623195	.	+	0	ID=MGA_1497;product=PHP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870266.1;translation=MLIDMHSHSTFSDGTYTPQQLIEMAVEKKLEIYSITDHDNIGAQEFAINFSKEKKLNYVTGVEISCEFSSMLDILGYRIDIKNIKLNKVLNEIQDFRENRNVYMIEKLKKIGIEISMNELKQVAGSKIIGRPHFARVMVNKNYVKSFEEAFEKYLGDGKPGNVPKKKIKPLEAIELIRNAGGYPVIAHPRYLNLNKDRFEQFLKEMKKNGLWGLETYYSKNTVSENKYYYEIAKKYELIPTAGSDFHGLNKPDIKIGMEVTEEITNNIKKYFWGE;locus_tag=LOCUS_14870;note=WP_012870266.1 PHP domain-containing protein (Thermanaerovibrio acidaminovorans) [pid:36.5%25%2C q_cov:94.5%25%2C s_cov:94.5%25%2C Eval:8.3e-49],MGA_1497
sequence1	MetaGeneAnnotator	CDS	1623198	1623926	.	+	0	ID=MGA_1498;product=glycerophosphodiester phosphodiesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867390.1;translation=MSDNYPIIVLGHRGFRKLYPENTLIAYQKAIEFGADGVELDVRLSKDGSCVIMHDDNLERITGIEGKLKDIEYKEIRKIKLPMNQHIPTLEMVYSKLPEDTLINVEIKEVEASYTAYQIVKSFNAIERTLFSSFEKDAIIKIRELDDKAYVSYLIEEKEKLDEVFDLHAKINLYSVNLPAAGIKLVGLDNYKLYVSKLKEYDIKTILWNFDEISDVKKLKGYYDAIITDNVEDIVNELENNY;locus_tag=LOCUS_14880;note=WP_010867390.1 glycerophosphodiester phosphodiesterase family protein (Pyrococcus abyssi) [pid:40.1%25%2C q_cov:95.9%25%2C s_cov:94.0%25%2C Eval:4.5e-45],MGA_1498
sequence1	MetaGeneAnnotator	CDS	1623938	1625005	.	+	0	ID=MGA_1499;product=lysine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082040.1;translation=MYPKMYIYKNRIKENAIALKNICSKKNIKISGVTKVLCGNPEVAEALKEAGIDFIGDSRISNIKKMKNFGINTEFMLLRIPMISEIEELIKYVDITLISELETLKKISEQSIKYNKIQKVIYMVDVGDLREGVWYESAINEIEEALTIKNIKVIGIGTNLGCFGGVIPTKENMNLLVSIKNKIEEKNNIKFELISGGNTAALPLIENNELPNEINNFRLGESIICGTDVTNNKKVLGARQDTVILEAEIIELKEKPSIPVGKIGFDAFGRVPHFEDKGIRTKAILAIGEQDISPSGLYPLDEDIEVLHSSSDHTIVDLTNSKNNYKIGDTIKFKMSYGCMLKASTSQYVEKIVIK;locus_tag=LOCUS_14890;EC_number=5.1.1.12%3B 5.1.1.5;note=WP_004082040.1 lysine racemase (Thermotoga) [pid:46.6%25%2C q_cov:99.2%25%2C s_cov:98.3%25%2C Eval:9.5e-94],MGA_1499
sequence1	MetaGeneAnnotator	CDS	1624998	1625204	.	-	0	ID=MGA_1500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLNILFFFFVLFFLISISYFHKSTKEARKFDSKNKTLIRENDKKGILFLGISLIILLLEFIIDKFI;locus_tag=LOCUS_14900;note=MGA_1500
sequence1	MetaGeneAnnotator	CDS	1625259	1626635	.	+	0	ID=MGA_1501;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082256.1;translation=MKTLDLIPPNSLEAEESVIGSVFLDSEVLNDILEEIRWEDFYYEPNKMIFKIFETLFEKGDPVDVVTVIEKLRVLNLLEKVGGEEGIIRLAQAVPTTANVIYYSRIVKEKALLRNLVKASSEIVEAVRTIGDAQEILEYAEKRIFSIAEARATRTYDSIPNIIHGVIDQIVETKEKAEKGGIGLVTGISTGFNTLDRLTSGLHPSDLIIIAARPSMGKSSFAMNLATNVALKSDKAVAIFSLEMSKEQLTNRILCSDAGVDLQKVRTGQISDEEWKKITHSAGKLMKSKLIFDDEPGLDSRTLRAKARRMKREYGIDVLIIDYLQLMSGGKRSSESRQQEISEISRSLKLIARELNITVIALSQLSRAVEQREDKRPRLSDLRESGAIEQDADIVMFLYREAYYKRKKEGDQGKLILNQIHDSELIIGKQRNGPIGTVILKFNPVIATFMDIDWKHEE;locus_tag=LOCUS_14910;gene=dnaB;EC_number=3.6.4.12;note=WP_004082256.1 replicative DNA helicase (Thermotoga) [pid:53.2%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:5.5e-132],MGA_1501
sequence1	MetaGeneAnnotator	CDS	1626640	1628817	.	+	0	ID=MGA_1502;product=ribonuclease R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081010.1;translation=MNIEKKLLEIIKEEELIQKEIIKRFGKITNEEKKEVRKTLKDLYKKDVVYKDQKNRYHIKTEHKVVGTIEFTRRGTMAFVTGKSGEEVAITIENAGNAMHGDRVLIEKIGKWRDLDSGKVVKILKRGTKTLVGQVQKKKSTCFVIPIESKINSDFYIPKKYEKNVKNGQIVKIEVIKYKTKVKNPEAKVIEILGNENEPKIDLPIVLAKHDLPEPKKFKENVMNEARSIPNKIIKKDLKGRKDFRNDLIFTIDGDTAKDFDDAVGIKKLDNGNYELGVHIADVSNYVKENKPLDLEAYRRGTSVYLIDTVIPMLPHELSDWICSLVENEERLTMSLIMEINKNGDIVSSNIYNGVIKSKKRLTYKKVNLILNNEADEKLEKEIGWLRPQFELMKELMEILRENRKKRGSILDIESGEIYFEFDEKGFVKDIIPVERGISEVIIEEFMIKANEVIASYFFDKELPFIYRVHANPDPQLLIQLKNYLDIIGVKVDLPNKITSNVLQEILNNTKNHPLSKSIQKLLVRTMKRAIYSDENIGHFGLGSSAYTHFTSPIRRYPDLIVHRMLKKYIKNNYKLTKEDIEKYRKILPEIAEQSSKNERNANEAEWDLYDMKKAEYMQSHLSEEFEVFITGITKFGFFVEIPEKMINGLVHVSELKDDYYNYREKDNMLIGEKTKRILKVGDKLKVKAVKVNKLKAEIDFIPILEKKLNKPKKNRKNKKSKKRR;locus_tag=LOCUS_14920;gene=rnr;note=WP_004081010.1 ribonuclease R (Thermotoga) [pid:52.7%25%2C q_cov:95.3%25%2C s_cov:96.8%25%2C Eval:6.5e-205],MGA_1502
sequence1	MetaGeneAnnotator	CDS	1628839	1629294	.	+	0	ID=MGA_1503;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080743.1;translation=MKVLLKKDVAKIGKKGEIINVSDGYGRNFLIPKGYAVIAGEGELKHFNTLKKNEEKKKKNIKIKNEKLVETIEKNTYVIKVNSGENGKLFGAVTAADVAKRIEEISKVKFDKKWFDEKINIKEIGKFKFKIKLSQGVRGFVVVDIVPIDKK;locus_tag=LOCUS_14930;gene=rplI;note=WP_004080743.1 50S ribosomal protein L9 (Thermotoga) [pid:40.7%25%2C q_cov:96.0%25%2C s_cov:97.3%25%2C Eval:2.3e-26],MGA_1503
sequence1	MetaGeneAnnotator	CDS	1629306	1630127	.	+	0	ID=MGA_1504;product=ribonuclease Z;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080741.1;translation=MEFIIKSKALYSTWVFYKPNRVLFDCGEGISTILGNKIYGIENIFLTHSHIDHIAGLWGFVNTRNNAMGSREKDLNIYYPKGSRQIKEYLSFILKMNSRLRYTLNIQELEITDEVKISENRIMKPFKTRHSPGEISYGYRILEKRKKLKNEYRNFSQEDIIRIKKEKKIFEEYYGNILTISGDTQPISPEYAKNADILLHECTFMIDADRKIRNHTTLTELKKLIEEAKPKKLIVYHVSGRYNRMIKKVEKQLILDYPDIDVKVINTEKTYEF;locus_tag=LOCUS_14940;gene=rnz;EC_number=3.1.26.11;note=WP_004080741.1 ribonuclease Z (Thermotoga) [pid:43.0%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.1e-69],MGA_1504
sequence1	MetaGeneAnnotator	CDS	1630140	1630574	.	+	0	ID=MGA_1505;product=NfeD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437174.1;translation=MEQWGMWIILAIIFAVAELLTPSFFFLWFAIGSSISAITSIFVESITINIILFLITSFLLWISTRKIVKKLYKSGDKRNLYQEELNGKKGSVILVNKDEEYILVKVEGEEWKAHCDEINKMKIGDKVEVIKRESNILKVKKEEM;locus_tag=LOCUS_14950;note=WP_003437174.1 NfeD family protein (Clostridioides difficile) [pid:38.7%25%2C q_cov:94.4%25%2C s_cov:91.2%25%2C Eval:6.4e-17],MGA_1505
sequence1	MetaGeneAnnotator	CDS	1630575	1631495	.	+	0	ID=MGA_1506;product=SPFH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080738.1;translation=MFLLIIVAVFLILIVASSLKIVRPYEKALVERLGKFHREIGPGLNIIVPFLERITKVDMREMLIDVPPQEVITKDNVIVTVDAVIYYQVMEAFKVIYNVGEFTIASVKLAQTNLRNLIGELELDQTLTSRERINTKLREILDEATDKWGIKVTRVEIKKIDPPKDIMEAMSRQMKAERLKRAVILESEGYRQSQILKAEGDKQSAILKAEGQAEAIKRVAEGQKYKLKTEAEGQAEAIQNVFNAIHEGNPTKDLIAVKYLDALRDISNGQATKVFLPYEVSGVLGSISTMIEAAKTDVFKKEKKEK;locus_tag=LOCUS_14960;note=WP_004080738.1 SPFH domain-containing protein (Thermotoga) [pid:69.1%25%2C q_cov:94.1%25%2C s_cov:94.4%25%2C Eval:2.7e-115],MGA_1506
sequence1	MetaGeneAnnotator	CDS	1631500	1632012	.	+	0	ID=MGA_1507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISVLINGLAIILAFYIIKIYTLNNKELPMFLKYFGNYLIAGSFLILFYIYGHKKMNTVHFLSFLILLVYYIRQFNVTRKKFHENFRSMVMSFGYTRKTYFKSFLSKKLIKSGIESFFYANAMYILFQTLSKNIYEELNGIKLIIIFLLLILASYIDSFNEEKIYKNVK;locus_tag=LOCUS_14970;note=MGA_1507
sequence1	MetaGeneAnnotator	CDS	1632090	1632761	.	+	0	ID=MGA_1508;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080736.1;translation=MERLLDENTAKQVKEVLNEMEGSVKCLLFKGDNEYSQVTEQLLKEVSEVNDKIVIESYDINDPLAEEFDIDKELTPAMVMLNSKGEDLGVKFYGIPSGHEFSTLLQELIAMSKGGKTEFSEDAVSKLSSIDKKLRIRAFITPTCPYCPKAVLAAQQTAMINENILGEMVEANEFGPLSMKHGVSSVPHTVIEVFENGEWVVKNEFVGAYPEPNFVEEILKAVE;locus_tag=LOCUS_14980;note=WP_004080736.1 thioredoxin family protein (Thermotoga) [pid:41.0%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:1.4e-45],MGA_1508
sequence1	MetaGeneAnnotator	CDS	1632816	1633772	.	+	0	ID=MGA_1509;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080734.1;translation=MFFDMGSAGKKSELKEYYDMIIIGGGPGGVAAAIYAVQGGVKPLIIEKALDGGQMNLTEKIENYPGFSSIEGSELAEKFGEHAKEFGVEFNYSTVIKIEDKGNEKLVYTDDGNVIKTKVIIIATGANPRPAGVKGEKEFTNKGISYCATCDGHFFKDQKVAVIGGGNTAVEEALYLSKIAKEVVIIHRRDKLRADKIYQERAFNTSNISFRWDSVIEEIKGDIKVRSLVLKNKKTNELTEELFDGIFIFIGLEPAVDFLNGIVELNESKYIKVDKHMQTNVKGIYAVGDVIEKELRQVVTSVAEGAIAASHAVREYFN;locus_tag=LOCUS_14990;gene=trxB;EC_number=1.8.1.9;note=WP_004080734.1 thioredoxin-disulfide reductase (Thermotoga) [pid:48.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.4e-85],MGA_1509
sequence1	MetaGeneAnnotator	CDS	1633893	1635350	.	+	0	ID=MGA_1510;product=IMP dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081543.1;translation=MREALTFDDVLLVPQYSEIVPTKVNTTTNLIKNIKIKVPFISAAMDTVTESEMAKAMAREGGVGIIHKNMSIERQAHQVAKVKRAENGVIFDPITISPNTKVYEAEKLMKEYKIGGFPVVDKKGKLLGILTNRDIRFERNSKKLVKELMTPYKKLIVAGTHIGLKKAKEILHENKIEKLPIVDENGKIEGLITIKDVMAVIEHPNATRDSKGRLVVGGAIGISDGLERSRALIQEDVDFLVLDSAHGHSKNIIETLKKIKNEYPNIPIMAGNIATKKAAKDLIEAGADAIKVGIGPGSICTTRIIAGIGVPQLTAIMDVFEIAKEHNIPVIADGGIRYSGDIVKALVAGAKSVMIGSIFAGTDEAPGETIIYGGRKFKTYRGMGSIGAMEKGSKDRYFQSEIEESEKLVPEGVEGMVPYKGGVKDIIYQLLGGLKAGMGYNGAETIEKLRENSEFIKITPASMQESHPHDISITKESPNYSYFQK;locus_tag=LOCUS_15000;gene=guaB;EC_number=1.1.1.205;note=WP_004081543.1 IMP dehydrogenase (Thermotoga) [pid:64.2%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:4.2e-186],MGA_1510
sequence1	MetaGeneAnnotator	CDS	1635409	1636692	.	-	0	ID=MGA_1511;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081862.1;translation=MNVLGLIVEYNPFHNGHLYHLNSAKKIVSPDYTVAVMSGNFVQRGEPAIINKFSRTETALNMGIDIVFELPFVYATQSAGTFANGSIGVLERTNVVTDIVFGSESSNIEYLKKISNVLITQKKEYTNLLKYYLKKGLSFPNARKEALKKFFDNDTDIEKIVEKSNDILGIEYLNNLNYYNSKIIPHTIQRHGSDYNDSEFKGKLSSATAIRKLIFENKISKIENSVPKKTLEILKREISKGNGPINLEKMREIILYKLRLSEREDITDILDIKEGLDKRFIEYSKRSKDINDLLKKVKSKRFTYTRVKRSMLNILFDLKDYEYKKYAEYGPQYLRVLGFNKKGQKLLNIIKKKSKYPIITTPSQYYQIYKKLIKDLKNEDKKYDSIPEIFLEQIKYDFKASNIYSLLYQNKISSSYEEDMIKKVIML;locus_tag=LOCUS_15010;note=WP_004081862.1 nucleotidyltransferase (Thermotoga maritima) [pid:46.6%25%2C q_cov:96.5%25%2C s_cov:97.1%25%2C Eval:8.4e-103],MGA_1511
sequence1	MetaGeneAnnotator	CDS	1636704	1637801	.	-	0	ID=MGA_1512;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949032.1;translation=MLQVGLVGLPNVGKSTLFNALSKKMVPSDNYPFCTIEPNIAIVEYEDERVDYISKIYNSQKTVKPSIEFVDIAGLVKGASKGEGLGNKFLDNISKVDAIAHIVRAFDDDNISHVSGTIDPIFDAEVVDLELIQKDIDTIDKRYEKTFKLARTGNKDAKYECSLLEDLKKHLETSNPSRTFKETRTDKDIEIIKSLFLITEKPVIYVANVDEEGLTKDNEYVIKLKEYAKNKNANFYKISAKLEMDLIELDDEEKEIFMEEFNIKGNLIDNFVKLCKDTLNLITFITGTENESKSWNVLKGITAYDAAGKIHTDIQSGFIKAEVINFEELKSIGSFKDAKEKGKVSIEGKDYVLKEGDCVYFHFHV;locus_tag=LOCUS_15020;gene=ychF;note=WP_011949032.1 redox-regulated ATPase YchF (Clostridium botulinum) [pid:49.9%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:5.9e-99],MGA_1512
sequence1	MetaGeneAnnotator	CDS	1637948	1638604	.	+	0	ID=MGA_1513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDFLKKIVSKDILYKNMKVEFEINGVMYSGVYKGKSENFNSNTDYEIIFSDEDLSTYKVSEYSKMRFYSKLSVFLFKTQIHEIKKVEDKTLIFFKIPPKVYRVKRRADIRVDVCQNVFFYLKEEFEKFHNPDRNYFLSIDFSVGGLYIRSKKNLKINEKILINFNLGSGYNIKNYESKVVRKGYDEGKEYLYGIMFMKKLNWLMNVSLYKTLLKFKK;locus_tag=LOCUS_15030;note=MGA_1513
sequence1	MetaGeneAnnotator	CDS	1638736	1638966	.	+	0	ID=MGA_1514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIENVEFFKAEMIKQILENEGINPIIKSTSMIGSEYMGYGIRKDLYINEKFFEQAKKILNDLEISNKKEDQNV;locus_tag=LOCUS_15040;note=MGA_1514
sequence1	MetaGeneAnnotator	CDS	1638959	1640068	.	+	0	ID=MGA_1515;product=glycine cleavage system aminomethyltransferase GcvT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460676.1;translation=MSELKMTPLHEEHIKAGAKMIEFGGWDMPVWYTSLIQEHKMVRESVGIFDVSHMGEIEVKGKEARKFVDYLITNNVEVINTGDIVYSPMCNENGGIVDDLLAYKFSEEYIFLVVNASNTEKDFNWILKQSKDFDVEVKNLSKEYGQIAFQGPKAEELLMNITNAPLTEMGFYTFVEADVAGIKSIVSRTGYTGEDGFEIYLPAEYTSKVWQELMKLAKEVNGGPAGLGCRDTLRFEAVYMLYGNDINDETTPLEAGLKWAVDLNKEFIGKEPILKMKEEGLPRRLKGIEILSKVPARHNYKIYSGDEEIGYITSGSKSISTDRNLALGYLKKGFTKVGTEIEIEVRNKRVKAQVIKTPFYRGSVKSKKK;locus_tag=LOCUS_15050;gene=gcvT;EC_number=2.1.2.10;note=WP_011460676.1 glycine cleavage system aminomethyltransferase GcvT (Desulfitobacterium hafniense) [pid:48.3%25%2C q_cov:97.8%25%2C s_cov:99.2%25%2C Eval:2.8e-104],MGA_1515
sequence1	MetaGeneAnnotator	CDS	1640085	1641428	.	+	0	ID=MGA_1516;product=aminomethyl-transferring glycine dehydrogenase subunit GcvPA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082888.1;translation=MSNFSYLPHTEEEIKEMLKTIGVDSLEELYKDVPQLYKEELNIPKSKSEIEVKREIKEMASLNADISEYGMFRGAGVYNHYIPSLVPQIAGKRSFLTAYTPYQAEVSQGTLQMMFEFQTMIAELTGMEVSNASMYDGASAMAEAILMSARVNKKNKTLIAETIHPEYMEVAKTYVEPQGFSIETIKHTDSGKIDINDLKSKLNDDINSVIIGYPNFYGVIENIKKIKEILPQKVMLIVVANPMALGILEAPGKLGADIVVGDGQPLGNPMAFGGPSFGFFAVNKKDVRKMPGRIIGETVDEDGKRAFAMILQTREQHIRRAKATSNICSNHAHNTLLASIYMTIMGKEGFSEVSEQNYHKAHYLAKKLIETEKFEMAFSGEFFNEFVVKSKIPVDELNKKLFEEKMIGPLHLTKFYKEKENYALFCATELTTKEDIDYLVSFVEGLI;locus_tag=LOCUS_15060;gene=gcvPA;EC_number=1.4.4.2;note=WP_004082888.1 aminomethyl-transferring glycine dehydrogenase subunit GcvPA (Thermotoga maritima) [pid:50.5%25%2C q_cov:98.0%25%2C s_cov:98.9%25%2C Eval:3.6e-128],MGA_1516
sequence1	MetaGeneAnnotator	CDS	1641425	1642852	.	+	0	ID=MGA_1517;product=aminomethyl-transferring glycine dehydrogenase subunit GcvPB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948420.1;translation=MKLIFEKSTKGRKGFRLPRLDVPKQELPKNLLRQEKAELPEVFEMDVVRHFESLEKINHSIDRGFYPLGSCTMKYNPFINEEMASLSGFVNLHPYVEEKDAQGALELMYNLQKSLGEITGMDAVTLQPAAGAHGELTGMLIIRKYIEDKGLTHKTKVIVPDSAHGTNPASATMAGFKAVEVKSTDKGRVDIEEYKKLMDDDVAAIMLTNPNTVGLFESDILEIAKLAHEHGALLYYDGANLNAIMGMVRPGDMGFDVVHMNLHKTFSTPHGMGGPGSGPVGVKEYLKDYLPKPIVEKNENGLYELNYDIPKSIGRVRSLYGNFLVLVRAYTYISTMGSDGLKKSSEYAVLNANYMRVKLMNSMKMAYDEICKHEFVVEGTFLKEYGLKTTDFAKRMLDYGIHPSTIYFPLIVKEAMMFEPTETESKETLDEVIEVMLKIVDEAKNTPEKLHNAPFTTPVRRLDELKANKDIKVKY;locus_tag=LOCUS_15070;gene=gcvPB;EC_number=1.4.4.2;note=WP_011948420.1 aminomethyl-transferring glycine dehydrogenase subunit GcvPB (Clostridium botulinum) [pid:61.7%25%2C q_cov:98.1%25%2C s_cov:96.9%25%2C Eval:1.6e-169],MGA_1517
sequence1	MetaGeneAnnotator	CDS	1642888	1643301	.	-	0	ID=MGA_1518;product=transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008760530.1;translation=MFKTREQIVETLKRNKIHPTPNRVLIAEIILNATNHPSTDEIHLTLTKRGKNISFTSVYNIIKVLQKANLIKELKYSERSRFDPNLKPHSHFICEICGKVYDVDGEQNISVPNEIMGMKVNEVEVIYRGICNNCKSN;locus_tag=LOCUS_15080;note=WP_008760530.1 transcriptional repressor (Bacteroides) [pid:33.6%25%2C q_cov:91.2%25%2C s_cov:90.1%25%2C Eval:7.5e-17],MGA_1518
sequence1	MetaGeneAnnotator	CDS	1643629	1644597	.	+	0	ID=MGA_1519;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082880.1;translation=MKEIKRIGLITSGGDAPGMNAAIRSVVRTAESKGIEVYAFLRGYAGILDKEYKVLKFSDVGGIMEKGGTILRTARVLEFKLPEVRKEAADILRELKIEALVVIGGEGSLTGAKLLMEEQDIPVVGIPGSIDNDIPQTDMCIGVDTCLNTTIEAMQKLKDTASSHERAFIVEVMGRGSGYIALMSALSVGAEAVIIPETPVDFKAIAERIWEERQRGKVNSIIVVAEGAASAYTVARHLENRIGFETRITILGHIVRGGSPSAFDRILASRMGYEAIKSIVEGEYGVMIALSRSNMIRVPIESVLSEKKELDMEILKLAKILS;locus_tag=LOCUS_15090;gene=pfkA;EC_number=2.7.1.11;note=WP_004082880.1 6-phosphofructokinase (Thermotoga) [pid:64.9%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:6.1e-113],MGA_1519
sequence1	MetaGeneAnnotator	CDS	1644675	1646093	.	+	0	ID=MGA_1520;product=pyruvate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436250.1;translation=MKKTRIVCTLGPVTESEEILGELMDIGMNVARLNTSHGDPEEHFTRVQRVQKIRKAKGIPIAILLDLEGPKMRTTNFKTDEVELIEGNEFILTSEDIVGDETIVGLTYKRLPEDVKSGDLILLNDGKVKLEVIESNGIQIRTKIINGGIVTHRRGINVPGVDIQLPGLTEKDKSYIEYGVKWNVDYMAQSFVRKADDIRETKEILAKLGAPDMPVIAKIETLQALDNLEEIIDAADGVMVARGDLGVEIPVQQVPVVQKRIISMANAKSKPVITATQMLETMIENPVPTRAEATDIANAIMDGTDAVMLSAETSVGKHPLEAVKVMSNIAIETEKYLWKYSRMFNFVTTEGKDEVTNAITKSAVEMAIELNIHTIVATTYRGYTVRALSRFRKDLNIIAASPREETFNRMALVWGVTPVIMTKFIDTDSMLENVSNIVKSLNLNKKGDKIIVTAGIPYGFAGTTNLIKVHEV;locus_tag=LOCUS_15100;gene=pyk;EC_number=2.7.1.40;note=WP_003436250.1 pyruvate kinase (Clostridioides difficile) [pid:48.3%25%2C q_cov:100.0%25%2C s_cov:80.2%25%2C Eval:7.5e-124],MGA_1520
sequence1	MetaGeneAnnotator	CDS	1646181	1647584	.	+	0	ID=MGA_1521;product=ATP-dependent protease ATPase subunit HslU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081401.1;translation=MVLDKLTPKEIVAQLNKYIIGQNIAKKQVSIALRNRIRRLKLEENMRKEVIPKNILMIGPTGVGKTEIARRLAQIAKAPFIKVEATRFTEVGYVGKNVESMIKELMDVSVNLVRTEMMEKVEELAKKMVEQRIVEALVPASKKQNSNANFMEMFQMFNQQGNYQNQKKETIEEPEIKRRREEIYEQLKKGELENIEIEIELEEDSTPMFAGMGSEFEDMGMQIGEMFSNLMPKKKKKRKMKVSEARKILQPIEAEKLIDKEKMIQEGIERAQSRGIIFIDEIDKITAKGSGAGPDVSREGVQRDLLPIVEGTNVMTKYGQVKTDYILFIAAGAFHMAKPSDLIPELQGRFPVRVELQDLTEDDFIKILVEPENAIIKQYKALLLTDDVELEFSEDGIKEIAKISFELNEKVENIGARRLYTVVEKVLEEVSYEAPSSTAWKVVVNSEYVKAKLGDIVKDENLREYVL;locus_tag=LOCUS_15110;gene=hslU;note=WP_004081401.1 ATP-dependent protease ATPase subunit HslU (Thermotoga) [pid:61.4%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:3.5e-158],MGA_1521
sequence1	MetaGeneAnnotator	CDS	1647593	1648213	.	+	0	ID=MGA_1522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSEHVDILIIEENESIINLYKKMLMNILNDEYSIKILKNNKEISNFFDNTNNFKNKISLIISESSIEGVEIIEKLGDIKSMFPRVCVYIMSNDVNIEKLKKALKYGVSDWIEKPITPDEFYEVVHKSIYRGTSFESKIRDIEKEIDNFNVENEIEYYKLENRLGKLLGENPSRYETHYLLGKLYEKKGIKTLSIKHYKASEALKN;locus_tag=LOCUS_15120;note=MGA_1522
sequence1	MetaGeneAnnotator	CDS	1648222	1648656	.	+	0	ID=MGA_1523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKYIIVIGCGRLGSELAVKFSQNHSVVVIDKNEKAFSRLVNKNFTGFTMTVDTNDMDALKKAKLDKADIVYIVTPDDNLNFMLAYGIKMIKKEINKEDLRIVARVNDPMKKDLFQRAKLELFCPIENSANQIFADFKGADEL;locus_tag=LOCUS_15130;note=WP_003973145.1 TrkA family potassium uptake protein (Streptomyces) [pid:28.2%25%2C q_cov:90.3%25%2C s_cov:56.1%25%2C Eval:3.2e-08%2C partial hit],MGA_1523
sequence1	MetaGeneAnnotator	CDS	1648653	1649330	.	+	0	ID=MGA_1524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKIFYIFEGKTLAYALAKKLLLLGNSVYYVSKNPESIEILDGLKVYHSSLELIQHDPTDINWIDNFEMTKDIGAVILLSEDDAQNFVISWILRQKYDTLKILSLVNHVENKFVFDDINIINILPTLWMEKVIESTLKYEDITDFFNPYVDKLSILEMTISKNDKSCNKPLKELRPPENSIVGVIIKKNGEIMVPQGNTIIEEEDKLIVFSIKEQVQKVKDALK;locus_tag=LOCUS_15140;note=MGA_1524
sequence1	MetaGeneAnnotator	CDS	1649342	1650886	.	+	0	ID=MGA_1525;product=TrkH family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080375.1;translation=MSDYKYYLKLRYKTILKNTASMLFALSLLIFLVGSISIFYGDFKTFNSFFMTTITTAGFGLILMLFSIGEKSKIINVQDAVMIIFFVWTFSIFFSSLPFVYYGMLNIHQAIFESTSGWTTTGLTMISNVEIIPKTFLLWRSIMQYIGGAGFALIMVIVAGSTGVGLYQAEGRTDNIVPNLRGSAKIITLIYVSWAILGIVLLMLISKLPFFEAFNHTLTALATGGFSTKNASVGAFNNLSMDIIIMILMIAGGTGFGVHYAFLLMTKNFYKNIKDYKSKKISKLKLKDRISSEPYLKNPEPKTMYFLLFISIILIFLFMGKSLYGVGNGLRHSAFQAISALTGTGFSTVSFLKWNPFGILVMIILMILGGMMDSTSGGLKLYRVYVIIKVIKLQILNFFKPQGTKFHVEVYKGVSKKFINESTFKDVIAVIFMYFLIFFIGVFTLLGYGYNLQDSMFEYSSALSAVGLSVGITSPTAPLGVIWIETIGMYLGRLEFFVIYYAIIKLIKDLKEFI;locus_tag=LOCUS_15150;note=WP_004080375.1 TrkH family potassium uptake protein (Thermotoga) [pid:42.1%25%2C q_cov:97.9%25%2C s_cov:97.0%25%2C Eval:3.6e-111],MGA_1525
sequence1	MetaGeneAnnotator	CDS	1650961	1652217	.	+	0	ID=MGA_1526;product=alkaline phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258527.1;translation=MINKNSIIAVESSIIKNNFIKPMYESYCFSNIPGTIMKNFGINNNRTLPNDIFGNIDQKNKKIVFLFLDAFGWNFLNENKEKIPFLNELVENGVLSKLTSQFPSTTSAHVTTAYSSLQVGESGVYEWNYYDPTADEVITPLLNALALDWDTKLIDLGIPSDKLYPNKNIFIELKKMGVTSRIFQSVETSTGAYSDFMLKGAIKEPYESLEDGLENLMNCINSNEKGYYFFYYSNIDHTAHKYGPKSEEVKEVIKNFFKVLEGYFKQIKENNETLFLFTADHGMANIDLETPYYLNLEIPELNNYTEVNKKGKPIIRCGSYRDVFLYIKDENLEEVYDLLKEKLSNTAEVFKTSDMIKEKFFGNVSERFLERVGNIVILPYENKSVWWYEEGKFSIELPGMHGGLSKEEMEIPLLLYKK;locus_tag=LOCUS_15160;note=WP_012258527.1 alkaline phosphatase family protein (Chloroflexus aurantiacus) [pid:27.3%25%2C q_cov:97.8%25%2C s_cov:97.9%25%2C Eval:5.2e-49],MGA_1526
sequence1	MetaGeneAnnotator	CDS	1652409	1654535	.	+	0	ID=MGA_1527;product=bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080997.1;translation=MSDILNYIKEIEDILNRNLTEKEMKKLMDAYELAEKSHEGQMRDSGEPFFEHPKAVSKILANFKMDIDTLAAGLLHDVVEDCDVPIEKIKSKFGEDVAKIVDGVTKISNLKLNERLNKKDMKSIEKIETIRKMLMAMSSDLRVIIVKLSDRLHNMRTLNFVPRKKQLIKSQETLRIYAPIAHRLGIHKIKAELENLSFYYLYPDTYTDLENKIKNKLSDREESIEEYKKYIKKELEKHKIKAKVVGRSKHLYSIWEKMIRKGKPFEEIYDFIALRVITENANQCYATLGIIHSIWPPIPGRIKDYIATPKFNGYRSLHTTVITNRGEPLEIQIRDIEMHEEAEFGLAAHWAYKQGVSPKKIKFLNNLMELHKDIAQSAFDMNDIENSLESSEIFVFTPRGEIIHLPKGATPIDFAYAIHTDVGNHFAGAKINGKIVPMTYKIQNGEIIEIIINRNFQGPSIDWLKYAKSPRTRTKIKKYYRQKNEKNLIDKGKNKFRELAKKINLSMEEMLEYLNEDTFYLKYNIKNEEDLYIKIALEDVSIKNIRKIFEPSEDKKIINPRNSQKIKKPSVIIDGVDGVESYFAKCCLPVPGDEIIGIISKRGIGIHRINCKNIRGIQEEKKVDVHWSNEETTSFNAVLNIDIFEKNTMNKVRSVIKEEKGYIEKFEIIKHGEVISTKLRIKVINIEHLIRITNKIMEINGVYTVRRA;locus_tag=LOCUS_15170;note=WP_004080997.1 bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase (Thermotoga maritima) [pid:44.6%25%2C q_cov:98.9%25%2C s_cov:97.6%25%2C Eval:5.8e-174],MGA_1527
sequence1	MetaGeneAnnotator	CDS	1654537	1654989	.	+	0	ID=MGA_1528;product=D-aminoacyl-tRNA deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080996.1;translation=MRAVIQRVLNASVAVDEKTVGSIKNGILVLLGISPEDTEKDIKWLADKILGLRIFEDEQEKMNKSLLDINGELLIISQFTLYGDCRKGKRPSFTLSAKPELAKKMYDKFVNYIINNYDIKVETGIFQADMKVSLVNDGPVTFMLDSTKLF;locus_tag=LOCUS_15180;gene=dtd;EC_number=3.1.1.96;note=WP_004080996.1 D-aminoacyl-tRNA deacylase (Thermotoga maritima) [pid:62.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-49],MGA_1528
sequence1	MetaGeneAnnotator	CDS	1655004	1655198	.	+	0	ID=MGA_1529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKETEVTVFVYKEEPFEVHISEEGLNYGINEKNIHKIYTGYEKPPKGIVVKFKMPDGSKKYIRE;locus_tag=LOCUS_15190;note=MGA_1529
sequence1	MetaGeneAnnotator	CDS	1655242	1656327	.	-	0	ID=MGA_1530;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002671534.1;translation=MGIGKFLLELTNLFTIYRWNNRPGIIRFTEADNAFHTTTLSLFAMNDLNAEDTINMVHNKIIKEIPKIILSDVSLETKNKIKSINPTIWNDVINESYKDLNLILDNENLSKKLFIEKNINEEINKTTDLVKLLVSKKEVELNERVFPEYYSLPKKEIDEEIKKINTNFSKKVFSISDYLLNSTIRLNTMIRWNKNHRNVRSSVSSHSFYVLITAYILALNNDVNGELLKEIMIASILHDIPEAFTGDVITPTKRKVKGLESLIGKVEDTFVDEWSTLNPNINEIMKKYKNYMLEPFNKEYGRYVRSADLLAAMNECAAEIITGNQDDIFRKAFFTSKKELKIISPYDLSDILDEIEYNTFK;locus_tag=LOCUS_15200;note=WP_002671534.1 HD domain-containing protein (Treponema) [pid:24.5%25%2C q_cov:88.4%25%2C s_cov:89.7%25%2C Eval:1.4e-12],MGA_1530
sequence1	MetaGeneAnnotator	CDS	1656550	1658037	.	+	0	ID=MGA_1531;product=glycerol kinase GlpK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259133.1;translation=MKEYVGAIDQGTTSTRFIVFNKMGEIVGVDQLEHEQIYPESGWVEHNPLEIWEKTQKVIVGGLSNAGITMHDLAAVGITNQRETTILWNKKTGKPYYNAIVWQDVRTREFCKTLNSVEKIKKLTGLPINTYFSASKINWILNNVKGIKEDIKKGEVLFGNIDTWIIWNLTGGVDGGIHVTDVTNASRTLLMNINTLKWDEELLKIFDIPKNILPEIKASSEIYGTSSGLLEGVPVSGDLGDQQAALFGQLCFEKGDVKNTYGTGCFMLLNTGEKPVFSNNGLLTTVGYKLKNEKAVYCLEGSVAIAGALVQWLRDNLGIIKKSSDIEKLANKVENNGGIYFVPAFSGLFAPYWRDDARGTIVGMTRYVNKNHIARASLEATAYQTKDVLNAMENESKIKIKTLKVDGGMVVNDLLMQFQSDILNVPVIKPKVSETTALGAAYAAGLAVNFWNGKEELKKNWNKDKEWNPNMIDEDRKNFYLNWKKAVDKSMNWID;locus_tag=LOCUS_15210;gene=glpK;EC_number=2.7.1.30;note=WP_012259133.1 glycerol kinase GlpK (Chloroflexus aurantiacus) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-186],MGA_1531
sequence1	MetaGeneAnnotator	CDS	1658049	1659335	.	-	0	ID=MGA_1532;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545054.1;translation=MTIFEKIRIIYPKIIGIKINNKIIGIQSKNFEKLTINNKNLILFIENNTSLSDFEKKSLKVMLKNSDLNDIRNIKIDISKFFNIIKILNKQYKLENLLKKIEESLCNLLGSEGSSILLYNKEKKVLNFFITSGGASGKIETIDVPIDNSVAGYIFKNEKTFVANNTEELPFHFKKTDKKSGFTTKNIIGTPIIFHDEIIGVLESVNKENGFTEEDKNIIEVFSKIISNKLLNSRLYKEISDTTKSIILSFATAIDLRDNYTHLHSQNVTGYGVAIAKEMGHSDDFIESIEIAGLVHDIGKIGIPDEILNKKGKLTSQEFEIIKSHTIMGADILSEVEFINDKILCGPLEHHEKLDGSGYPYGKKEEELSEIGKILAIADIYDALTTKRSYKEPWPVEKAINLLRENQETKYYKKAIDALERYLQKKSA;locus_tag=LOCUS_15220;note=WP_012545054.1 HD domain-containing protein (Thermodesulfovibrio) [pid:36.1%25%2C q_cov:81.3%25%2C s_cov:96.4%25%2C Eval:2.5e-62],MGA_1532
sequence1	MetaGeneAnnotator	CDS	1659348	1661390	.	-	0	ID=MGA_1533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLGFIFLLSLSIFSFSYMNISLDSTTIQIGSSASITINTDAQTIFADVDFGGFNNPDIIFDGEPVKDGKANLIYLAPFTPTEATITFTTDTGESTSQKINITNNVLKGNKISLKVVKLSGPNLYKEKGNDVWNPLNPNIELTEGDEVLVAEKGYLKLSGPNEINIDISENTQMLFSVLREVDKKIDFRYKLKKGVTYNSINKKLLPGSKFIITDNQDVAAGVRGTRFSFESGEKCVVRVYDGVVQVAAQNKSWNINPNNMFIADPITGKNSFDKVDIPEEKFIKQIEKKPEQTTPPKENKEQPKENKETTPQTETKVNNVQFGTIQKDGINYFVYSFSPEFTFGGLSLGIGFSAYQKELGGTLYFGAPSEILSDNILSAITLTRLGMDFGTIYFNYGKSSLYTMAMGMLVNRYYIPYSNIFDVGFRMGGIETFIHIPYEIKKLYPFDVSQSSSMYIANLKSDISGNKLDLNYIYEQNDTSAHFNHAVALAFYRNIFNFKTGIEVDGLMTDKGLGYGGLAGIFFDLPPFLQLTAGLSYSGDNFTPQFIDSNYEYLKNNNKLTVPNNPYGLGIIGNANMIFGDLMKSEISYKKFFNESYDVLSGSLAINIQNAMESLPNLTISGEYMNKNVTSLLDSDTYLKIAAFYPIMGTNGVNLIYSYDAEQGKIVYSVLFENSPF;locus_tag=LOCUS_15230;note=MGA_1533
sequence1	MetaGeneAnnotator	CDS	1661387	1662037	.	-	0	ID=MGA_1534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYFFYFLLSHFIGDYFLQTNFIARYKNSKISVLLLHVSLIYLSMLIIIFPKNITNHILILSLTGIHLLIDTFKFKYKNKKFFKGSHYYLFDQILHLTSLMIISYFFKPQSFFFPQKYALIISLGLFNAYFIGILSSFIFNDITKYTKDKLGYILRFSIPFMLNPFLILSSVPVYSYIYYKHYKKSTNKSLEEVLFSLYWSYLITLLIIITSEVKL;locus_tag=LOCUS_15240;note=MGA_1534
sequence1	MetaGeneAnnotator	CDS	1662034	1663320	.	-	0	ID=MGA_1535;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545957.1;translation=MISEIIDFIKTMNENNFCIEYKINKFNNSNKINCKKEEMIGYFEYENNNFISFYKIPKDYSQHILVLDELIKKHLNEALISNEDLNKLSEITNSISPKVNIEETVQLIMKKLCKILDFNGAFFLLKSKENYLSLKHFIGIKPTNKNVKISIDNSVSGLALKKKTIISLNNPKKHPLFAHGVLKNKINNIIYFPIFEENGDMYGVISIINKKSENISIKDMFLSIMLNEIIASIMEVSLRENKLKFMLLGTLKALLKAQNSRIKKSPEEHLRIKEYVLKMADKLNLNSSDKWILELSSYIYDIGMIGLPNALFTNSNKLSTEEYETVKKHVEFGYQLAEKMQSLPNKLKKIILYHHERWNGSGYPNGLKEDKIPLLAQIIGICDTYVAMTENRAYRKKYSKQDALKKLKENSGILFNPILVDTLSEVIS;locus_tag=LOCUS_15250;note=WP_012545957.1 HD domain-containing protein (Thermodesulfovibrio) [pid:28.4%25%2C q_cov:79.0%25%2C s_cov:94.4%25%2C Eval:7.8e-32],MGA_1535
sequence1	MetaGeneAnnotator	CDS	1663321	1665210	.	-	0	ID=MGA_1536;product=adenylate/guanylate cyclase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164924872.1;translation=MFVIFNITRFEWLEIFELKSLDIRYKIRGEKTIPSNIVIAAIDEKSINHMEFGKYKDGWPWQRRFFGKAVQNIFLDGAKVIGFDISFTSNDESNKKNDLYFASILRKYPNVVIGSYNLSKNSYEKAFDDFKKYLNTNLYYLNYSLGIKNPTYRNNLLPKTNYKFVPSIPEYSQIVPTCVFTVGNPDSDGIFRNIPLFFKEQWAEENNYGDVFLPNMDLMIFNKYIKNKKININLKTLTIEMGKETIPVDENGIFQIYFYGIGNKIFKKISFIDILNNNFPKETFKNKIVLFGYTTSSVGLYDLRPTPFNNNEAGVFIHANTIQNLINHDYLKRLNPLWRIFILIFTLILSLIMLSFKKSINKIFAFLVPIVFIIISYYSFINKIWIDTFYIFFANIVLITIESILSFISEYKERRKLKGFLSKYVPDTVVNNLIKNKSLNLGGEVTDVVVLFSDIQGFTEKSEKLNADEVLAFLNKYLTALSEVIRNDYNGTIDKFIGDAIMSIFGAPVKYGDEIERALNCAIDMKKRLKKLNEELDLPFELKNGIGIHYGNAIIGNLGAPFRMDYTAIGDTVNTASRVESLTRKTKDEILVTESIFKNAKGFEFEYRGEFSVKGKSKPLKIYALKGRL;locus_tag=LOCUS_15260;note=WP_164924872.1 adenylate/guanylate cyclase domain-containing protein (Thermodesulfovibrio yellowstonii) [pid:31.1%25%2C q_cov:98.7%25%2C s_cov:86.4%25%2C Eval:7.7e-66],MGA_1536
sequence1	MetaGeneAnnotator	CDS	1665394	1666515	.	+	0	ID=MGA_1537;product=1-deoxy-D-xylulose-5-phosphate reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080699.1;translation=MKKIFITGITGSIGIQTLDVVRTLKNFEIVGGSIYSNWEKLKKIIDEFHLKYVAVVKDGEFPKEYNGCKVLVGKRSVERAIELSSPDITIVATSGASGIKHTIQAIKSSKRIGLANKESIVCGGNLVLDLAKKFNTEIIPVDSEHSAIYQLLLGEKEVEKIILTASGGALRDYPVEKLKAVKPSEVLKHPNWNMGKRITVDSATMLNKGLEIIEAYYLFKTKNIEAFINRNSHIHSMVKFKDGVIKMHFGTPTMKIPIAYSLTYPERIYKFDIPNLFDEKIEFEKIDFQRYTLIKTAYEILGNQKLHIAYNAADEVFVELFLNEKISFLEINKGISETLSKIEKENIKISSFEDVFKIDELSRNIAKELGGNY;locus_tag=LOCUS_15270;gene=dxr;EC_number=1.1.1.267;note=WP_004080699.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Thermotoga) [pid:47.0%25%2C q_cov:90.1%25%2C s_cov:88.6%25%2C Eval:3.6e-75],MGA_1537
sequence1	MetaGeneAnnotator	CDS	1666515	1668026	.	+	0	ID=MGA_1538;product=site-2 protease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080697.1;translation=MSLIIFFLILTFIVVVHEFGHFLFSRLFGVKVEEFAVGFGPAFFKIKGKKTTFRFNVFPLGGYVRLAGEDELSEDKVSDDPELLINKKPWQKFLIALAGPAFSILLGYFLYAYIGSFYGFNITKIQAVSKDMPAYSAGIESGDKILKVNGKYAFDPMVLNLSLKSGKSVSVELLKKNGLLKKVNVTPKLSQEQNSIILNKFKGNIGNELKGLNGSLEYSKVLKRMEIGDPIELKTEDGILKGFLENSTISPRRYMIGIAYAYASNIISKDTTPFLKGDKIISIDDKPINLPYDMNSTLLSRLYDSMAELNLEKNDIEISFEKNKITKVLMHKDFINIKVIRNNKEFTFSIDKNKLESLTKQGAIVIQKNIYKLKPSESISASIQWTNTLLNTMIDFVVRLFSGKENVKQLTSIVGVGVMVDEARKEGIQQLLSLIALITLNLGIINLLPLPALDGGRIVFSLIEMITRKKINPKIEAIIHTVGFFILFAFGIYIIFQDIFRFF;locus_tag=LOCUS_15280;note=WP_004080697.1 site-2 protease family protein (Thermotoga) [pid:35.5%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:1.6e-79],MGA_1538
sequence1	MetaGeneAnnotator	CDS	1668040	1669086	.	+	0	ID=MGA_1539;product=flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080695.1;translation=MYSRKEVKVGNVYIGGNHPISIQSMTNTNTADVEKTVKQIINLSNAGAELVRVSVRTLEDINPLKEILKNTNIPLIADIHFDYRVAIESIKAGISKIRLNPGNIGSKEKVKEVVKVAKEYKIPIRVGANSGSIDKNFIKLDRWKAIAESALEEVKLLENEEFNDIVISLKSSDARETYLANKYVKEKVDYPLHVGITEAGVYEDSLILSSAGIGSMLLNNIGDTIRISMAGDPIKEVIAAKKLLTLLGLKKGIRVIACPTCARTEYNVEETALYIKSIVEDFEVKKDYTIAVMGCVVNGPGEASHADLAIAGSKNKLALYKKGKLLNMVNKENIKEEILKIIKESFGD;locus_tag=LOCUS_15290;gene=ispG;EC_number=1.17.7.1;note=WP_004080695.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Thermotoga) [pid:52.8%25%2C q_cov:98.0%25%2C s_cov:97.7%25%2C Eval:8.6e-92],MGA_1539
sequence1	MetaGeneAnnotator	CDS	1669088	1669555	.	+	0	ID=MGA_1540;product=YaaR family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082145.1;translation=MFINPMGDNNKPNNSKKSKKIKKKGTKSIHKTAENSGFFDILTNTEYEISEKELKKLVDSILDLGNRFVRSPTQRNLKEYKRSIKEYLKKIEKSIYKVREGLNLDDDIPRLHIIAEVVDQKIQSITDAIMNKEKDTLFYASKVEEINGLLLDLYR;locus_tag=LOCUS_15300;note=WP_004082145.1 YaaR family protein (Thermotoga) [pid:43.6%25%2C q_cov:85.8%25%2C s_cov:87.5%25%2C Eval:3.2e-26],MGA_1540
sequence1	MetaGeneAnnotator	CDS	1669564	1670550	.	+	0	ID=MGA_1541;product=DNA polymerase III subunit delta' C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435878.1;translation=MKILNLNNYKGTSLCIVSDFNELNRIFVMESLNNVKNFNKLDLLDIKPKNGNIKISQIRELQEFLSYKPNYSDKKIVIINNIHSMKLESANAMLKIIEEPPNYAIVIGTTNNWNNVINTIKSRMLKVNVSISSDLYEQLKNKFKDNIRYVKLFIKYDYGIANYILSNTKEEVNDIIENYIIDEKDFEFYLKTLTFENNEKNNMIKTFAYFKILKYLFNLKEIDFIDKLDEINSIKNDVEKLSFLKNISKLSSILIRDTLVSKMTSKWKYMWNLNLIEFLGIENYKFDVSCALDTLTYFNGIINSRVSNYNFNMEIYTHFIRLRQIYKK;locus_tag=LOCUS_15310;note=WP_003435878.1 DNA polymerase III subunit delta' C-terminal domain-containing protein (Clostridioides difficile) [pid:30.8%25%2C q_cov:80.8%25%2C s_cov:92.0%25%2C Eval:9.9e-18],MGA_1541
sequence1	MetaGeneAnnotator	CDS	1670560	1671399	.	+	0	ID=MGA_1542;product=stage 0 sporulation family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080919.1;translation=MIDLTAEVYGVELSHLEKIYYFSYMGDETLNVGDMVIINSDMGEDFGKIVLGPKSMSFENIGYEPNSIIRKVNDEDMEVLKNNENDAKEVTEFTKIKAKELKLKMRVLYSRYNLNRTKLVIYFGADARVDFRDLVKELAKEYRLRIELRQIGIRDEVKIKGSLGLCGQIACCARYKREFDSIKMELAKTQQMMINTAKISGRCGKLLCCLKYENDFYEEILKDVPYENTTIEYEGKPARVVTVNVFLKEVTLQLIKDNQPILLKIPFEYFKSINKNDKD;locus_tag=LOCUS_15320;note=WP_004080919.1 stage 0 sporulation family protein (Thermotoga maritima) [pid:46.7%25%2C q_cov:96.8%25%2C s_cov:98.9%25%2C Eval:1.9e-69],MGA_1542
sequence1	MetaGeneAnnotator	CDS	1671412	1673301	.	+	0	ID=MGA_1543;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082308.1;translation=MKKSISELKKLSKICRGDILKMTYVSKSGHPGGSMSSIDIYLSVFNRANMNPEKPFDVNRDKTIISHGHTSPGVYAALGRLGFFNIEEALAGFRHPGSIFEGHVTRGIPGIEWSTGNLGQGLSAGVGMALAAKKLNNNSRVYVLSSDGESPKGQIAEARRTAKKENLNNLTVIVDYNDIQISGRARDVLYVDIASEYKSAGWNIIEIDGHNFEQINAALESAENYKLGPTAIIAKTIIGKDVSFMENRHEYHGSPLNETELEKALKELNVENDVKKYIEMRNKLTLERDSHNYNNVKLDVNTGKPIMYTRETTTDNRSAWGNAVADLAVLNKDKFPVVTIDCDLKPSVKLAKFEKVNPEGYVQIGIQEHNAATIGGAMSTCGVLTFFTDFGVFGLDEVFNQQRLNDINHTNFNTAITHCGIDVGEDGKTHHAINYIGLVRNMYNTQLIVPADPNQTDRAIRYAASHEGNVITAMGRSKIPVILNENGEIFFNENYEFEYGKADIFRKGKGLTIFTYGSFANMAVNAADELKKEGINISVVNLSTPLSINVEEIKEFIEDNIVITYEDHNVNSGIANELSKLIVENGLKVKKIINMGVNEYAPSGSIKYLLKYFGMDVESLIKKIKELMK;locus_tag=LOCUS_15330;EC_number=2.2.1.1;note=WP_004082308.1 transketolase (Thermotoga maritima) [pid:54.9%25%2C q_cov:99.2%25%2C s_cov:98.0%25%2C Eval:1.7e-201],MGA_1543
sequence1	MetaGeneAnnotator	CDS	1673298	1674041	.	+	0	ID=MGA_1544;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080335.1;translation=MKDNSIKMTKMEEKKINKMIKEMNLPDSINKTLLFVSLCHTSYVFEKENKGRKINSNERLEFLGDSVLELIISEFLYNNYSLSEGDMSKIRATVGSELILAEAALEINLNKYIFLGLGEDKHGGREKHSILSDAMESHIASIYLSLGFDFTKDYVLNILNKYIKKAIKGELFLDYKTRLQEITQEVFKVLPEYKIMNSEGPSHYKYYKIAVIVKEKVYGIGEGHSKKIAEQLAAKKACERLTKNEEN;locus_tag=LOCUS_15340;gene=rnc;EC_number=3.1.26.3;note=WP_004080335.1 ribonuclease III (Thermotoga maritima) [pid:42.9%25%2C q_cov:91.5%25%2C s_cov:96.2%25%2C Eval:1.0e-44],MGA_1544
sequence1	MetaGeneAnnotator	CDS	1674028	1674843	.	+	0	ID=MGA_1545;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868330.1;translation=MKKIKLINLKKTKSISVTGEYCYLNCNHCNKHYLKDMKKINDIEDLIKNGYTSFLMSGGMNEEIKVPAYNFSKQLLKIKEKYGIKYNFHTGFIKEEEIEKIKNIADTISYDLVGNKQTMIDVYKINKFKEMWETFELLLKNNLKVKPHITIGLNGGKLTHENDALKKLKNYKDYIDEIIFIVFIPTKGSFFENNNPPELDKVIEIIKTTKKEFSNHTITLGCMQPKGSYRLNLQLKAIDYVDKLVQPVNSVIKECIKRNYDIEYGDECCAF;locus_tag=LOCUS_15350;note=WP_010868330.1 radical SAM protein (Pyrococcus abyssi) [pid:39.0%25%2C q_cov:95.6%25%2C s_cov:95.3%25%2C Eval:8.8e-43],MGA_1545
sequence1	MetaGeneAnnotator	CDS	1674833	1675765	.	+	0	ID=MGA_1546;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082677.1;translation=MPFEPSYIKLYKNGELHKRRDELYKKLTECDLCPINCKVNRKNNIGFCLANDKIKISEYVLYPGEEPPLTGSTGAGGVFFSGCNMKCIYCQNFKFSQEGNGKYISVKKLKEIFLELQNEKKASNLDLITATPYLPFIFDALIMAIEEGFKLPIVWNTSSYEKQDTLKYLKDVVDIYLADIRYTSNIIGKKYSKVDNYWTNSKKSLIEMYNQISNDFIIENNILKRGIILRILVLPNNIRQAKEALKFIKYDLSEDLHISLMDQYVPVYKARETKELSRFLKREEYDEVVELMKNLELKNGWIQHHKLLGD;locus_tag=LOCUS_15360;note=WP_004082677.1 radical SAM protein (Thermotoga) [pid:47.7%25%2C q_cov:90.6%25%2C s_cov:85.9%25%2C Eval:5.1e-69],MGA_1546
sequence1	MetaGeneAnnotator	CDS	1675774	1677414	.	+	0	ID=MGA_1547;product=sigma-54-dependent Fis family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110368.1;translation=MTTEELIKNIIDQLQEGVIAIDEYEKIIFINKSAKDILELDNKEKILGKNVIDVVPNTRLHDILRTGEREIDRLQNLGNKVIITSRTPIKNDENEVIAAVAVFRDVTSIQKLAEEVTNLKEIEALLTSIIDYTSDAISVADQEGRVIMVNRAYTKITGLTPREVIGKPATIDIAEGESLHIRCAKEKKPLFNVKLKVVEGKKDVIASVTPIFVKNEFRGSVAVIHDISELKRLGNELEATKRMLKKEKAKYSFEDIVAKSLIMQNSIKQAQKAAQSKVNVLLVGEYGVGKEVMAQAIHNSSRRKDNPFLRINFSLLTKEKQIDLLFGENSYIYNADKGTLYLENVHLASFETQEKLLKLLKENEFDSRYFDIKPDVKFIFSTTENLRTLVTLGKFSRELYYKISVVTIKIPPLRERKEDIPLMAKQKLHYLNQKYGRIIYDFTEDAIKKLMNYNWGGNIRELENIIDRSLLNMDPEDKIVTSSHIPDITENNDKTYEKLKDALEEYEKKIIIETLEVCHGNKTETAKKLGITVRNLYYKLDRYGIK;locus_tag=LOCUS_15370;note=WP_011110368.1 sigma-54-dependent Fis family transcriptional regulator (Bacillus cereus) [pid:39.5%25%2C q_cov:97.8%25%2C s_cov:81.2%25%2C Eval:3.7e-109],MGA_1547
sequence1	MetaGeneAnnotator	CDS	1677428	1677877	.	+	0	ID=MGA_1548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIFNLQRLMDLRKKFEEMAKDEFKKKVKERIEVEEQIEQIDKKIDGFVSSFNNELTYSVSPMRFKQLIEYREYLKKERVKLIKLYQIKLREEESAREDYLEAKKEKDILDKLKQRKLENYNYEMKLSEIKELDEIAQKMYVQKNKEK;locus_tag=LOCUS_15380;note=MGA_1548
sequence1	MetaGeneAnnotator	CDS	1677918	1678355	.	+	0	ID=MGA_1549;product=chromate resistance protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004201060.1;translation=MRWVTRAHVHVDRVACPWLIKRFVDVNAEIFYVARDLVMDIAKKENAIPFDVKDVELGHKDGHCTFISILDKYNLNDPALRALGEVVNAADTGKIESNPYAPGLEAIARGFSLMFPDDYENLEKQFKVYDALYAVLKLEMAKKSK;locus_tag=LOCUS_15390;note=WP_004201060.1 chromate resistance protein (Burkholderia) [pid:53.0%25%2C q_cov:92.4%25%2C s_cov:94.4%25%2C Eval:1.1e-32],MGA_1549
sequence1	MetaGeneAnnotator	CDS	1678365	1679567	.	+	0	ID=MGA_1550;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869075.1;translation=MNNKKINLKNFFAINNSIFSMLIMVMLVGMGEKMSERFLPIYLLALGGSTVSIAFLNGMDNLLSALYSFPGGYLSNKIGYKNSLIVFTLIAMIGYALVIIFPTWQIVILAAFLFISWTAISLPAVMSLVSNVVPKNKRAMGVSIHSLVRRIPMALGPIVGGSLMSIYGTIKGMRIAFIIALIFAFISIIIVYFFVEDKQKNKESIKFLDMLKNIKGNLKILLISDILIRFAEQIPYAFVVVWVVENNGLTTIDFGILTTIEMITSVIIYIPVAYFADKNSKKPFVLTTFIFFTLFPLVLIFSKSFKILIFAFIIRGLKEFGEPTRKSMIMDFSPEDEKAGTFGIYYLIRDVIVSIAVFMSAFLWNISPVVNFLVAFLFGLLGTIYFAIFGKDYKNLINNK;locus_tag=LOCUS_15400;note=WP_012869075.1 MFS transporter (Thermanaerovibrio acidaminovorans) [pid:55.4%25%2C q_cov:95.5%25%2C s_cov:97.0%25%2C Eval:8.5e-118],MGA_1550
sequence1	MetaGeneAnnotator	CDS	1679586	1680941	.	-	0	ID=MGA_1551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLQKYNGDISKIDFLDLMMLDISGNIHHVSIPKGYISKKIFNEGIGFDASNFGFAHVNKSDMVAIPDMDTAFLEIKDEFNILHVLCNVEDPFTGNIFEQYPRNIVKLTQKYLKDNNIADDAKMLVELEMYVFDNVEYSTSEDHSYYSLESEEGLGDNYNLSPRMGLKKGYHGLYPKEKYFSFRNNVVSTLEKANIPVKYHHHEVGLAQLEIELNFMSLLKVADNVSLAKWIIKNIANEMGLYVTFMPKPMYKMPGNGMHVHQFLEKNGESIFTGDALHGLSETALYYTCGLLDHSLTGSLLAFTNPSTNSFRRLVPGYEAPISATFAKGSRSAAIRIPGYLKGKDIRIEYRTGDATANIYYMASAMVLAGVDGINKKESPVDKGYHSAEEKSDMIFPLNLEKVLEGLEKDKEYLLKVFPEGLIKDWIKLKKEEAAYVYNAPTPQEFELYF;locus_tag=LOCUS_15410;note=WP_012870277.1 glutamine synthetase beta-grasp domain-containing protein (Thermanaerovibrio acidaminovorans) [pid:58.5%25%2C q_cov:66.7%25%2C s_cov:86.5%25%2C Eval:3.1e-103%2C partial hit],MGA_1551
sequence1	MetaGeneAnnotator	CDS	1681078	1681926	.	-	0	ID=MGA_1552;product=pantoate--beta-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080408.1;translation=MKVIKNISEMKKISKKLVLDKKSIGFVPTMGYLHEGHLSLVEKARSENDIVIVSIFVNPTQFSPNEDLDKYPRDLERDENLLKPYNVDYIFNPEPNEMYPENYSTYVEETILSKGLCGASRPTHFRGVTTIVNRLFNIVKPTKAYFGQKDAQQFRVLRKMVRDLNMDVELVEMPIIREKDGLAKSSRNIYLNEEERKQALSLSNSLSLAEKSIKNGITNVKELISMMEKNFKNYPLAKIDYIEIREEDELKPLIDVKNKKIIIALAVYFGKTRLIDNKIINC;locus_tag=LOCUS_15420;gene=panC;note=WP_004080408.1 pantoate--beta-alanine ligase (Thermotoga maritima) [pid:59.6%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:7.5e-93],MGA_1552
sequence1	MetaGeneAnnotator	CDS	1681944	1682855	.	-	0	ID=MGA_1553;product=endo alpha-1%2C4 polygalactosaminidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870998.1;translation=MIKISKTLFVFFITLSIFTFSFNSKKLYVPFIYQLTDINLNKITNYYTPKFLVIDYSKDGSDEKKFTYTEIKTLKTLNIKPLAYLSIGEAEDYRYYWKNSWYDDLPDWIDNENPRWTGNYKVKYWDKSWKKIIFNYLDKIISQGFSGVYLDIIDGYYYFSEKGYNTEKIAHEMIKFVIEIAEYARKKNKNFLIVPQNGESILKYDYNNKYLNTISGLGVEDLFYYKTNKNSKKYVESRLNYILKIKNSGKFILVTDYVYNPISPNKNIILNFINLCKKYNFLGYPANINQELNNISNALKYYK;locus_tag=LOCUS_15430;note=WP_010870998.1 endo alpha-1%2C4 polygalactosaminidase (Methanocaldococcus jannaschii) [pid:45.8%25%2C q_cov:92.7%25%2C s_cov:81.8%25%2C Eval:1.2e-70],MGA_1553
sequence1	MetaGeneAnnotator	CDS	1682996	1684003	.	+	0	ID=MGA_1554;product=L-threonylcarbamoyladenylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979575.1;translation=MTKIFNIDSLNLNNDKLKEAGLALKNGKTVIFPTETVYGLGANGLDETAIKKIYKAKGRPSDNPLILHLSNVEDIKKYAYINEELLNKIKKITPGPITFVLIKKEIVPDIVTANRETVAIRIPAHPIARELIKNAGVPIAAPSANISGKPSLTRSKDVIEEMNNRVDYIITSDDPDFGLESTVIDLTKKNVVLLRPGPISPEKLKDIFGKIEVPDFIYGKKEADIAIAPGMKYRHYSPEKPVILVKDFSKDFKNDIKNFKKPVFFILKENLKFIKNDGFDYEIIDKNYFEFAVKLFALLRKYDKTHDAIIIESLKDEGIGIAIMNRLRKAASKII;locus_tag=LOCUS_15440;EC_number=2.7.7.87;note=WP_010979575.1 L-threonylcarbamoyladenylate synthase (Sulfurisphaera tokodaii) [pid:48.2%25%2C q_cov:98.8%25%2C s_cov:95.2%25%2C Eval:1.1e-75],MGA_1554
sequence1	MetaGeneAnnotator	CDS	1684015	1684788	.	+	0	ID=MGA_1555;product=type III pantothenate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080709.1;translation=MELLFDVGNTHTVVGYCNNNDFKIWRIGTKNIESEDELFSKLYNIFKFNKINMEEIKDVGISSVVPSKNFIFQNFVRKYFNTELCFVNAQTKVLKIQYLVDYPNEVGADRISNIIASKKEYGNNVIAIDFGTAITIDVLKEGNFIGGSIIPGFKTSMLALFSNTAKLPQVELKVPKYSIGKNTIDNIQIGVLKTTLFGIERIIEEIKRETNTDYKIVTTGGMGKSLKKFSKSFENYDSNLTLKGILYYLKEIKRGEK;locus_tag=LOCUS_15450;EC_number=2.7.1.33;note=WP_004080709.1 type III pantothenate kinase (Thermotoga) [pid:41.8%25%2C q_cov:96.5%25%2C s_cov:98.4%25%2C Eval:2.7e-46],MGA_1555
sequence1	MetaGeneAnnotator	CDS	1684785	1686137	.	+	0	ID=MGA_1556;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080708.1;translation=MNFLLVNPWIYDSAAYDFWLKPIGLLYVGSVLKKLGHNVELIDMLDRHDEELIKIKEPKDKKYGTGKFYNVEIEKPEILKNIPRKFKRYGLPEDLFIKKLLKQKERGIDGIFVSVTLTYWYYGGLKTIEKIRGIFPNTPIFLGGMYSNIYPIHAKKIFSKYNVKVCNGTGLSPIRKALSTYKENVPEFNWFEELMPAYELYTSKLPYVVITSSIGCPYNCSYCVTPRMWKYQYKSVDSIEKMINKIINEKNVKDIVFFDDAFLLHKDLKKLLKMLAKYNVRYHLPNGIHAHRVNKEIAELMAAADFRTIKLGYETSDPDLQKKSGGKVTNQDLINAVKYLTDAGISNEEIGAYIISNLPGQSVKSVKDAVDFCINLRIIPTVNEFTPIPQTPDYDSLIENGIIPDEVDPLLFNNTLIPYWWEKGMNINEVFDLKLYLKNKKKVLFNGQRT;locus_tag=LOCUS_15460;note=WP_004080708.1 radical SAM protein (Thermotoga) [pid:41.6%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:2.7e-99],MGA_1556
sequence1	MetaGeneAnnotator	CDS	1686121	1686462	.	+	0	ID=MGA_1557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKELDNIINELEKIEIKLDLFYKKGDFVSYNNALDFRFKLLKKLQIYNEEKRVKEIIQKIIKKDEIRKDGIKEKMNNIKKQQVNLQTGKRAIKNGYYNIQEGLRRKKIDKSG;locus_tag=LOCUS_15470;note=MGA_1557
sequence1	MetaGeneAnnotator	CDS	1686467	1688386	.	+	0	ID=MGA_1558;product=amylo-alpha-1%2C6-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064995.1;translation=MAELKNLSEIEYLVSNGLGGTSSSSAIQLNSRRHHSILSISLNPPVDRRILVSRISEKVYCDEKTYLLSTLKTANGFIEKGYENIVSYNFYGYPSWKFKVGKNLLKKELLMLKNRNIVLIVYENVFGEDLDIEIIPYFNDRDIHSNTLPGQLTLNKTVMKSNYLELKTNFLNTIFLKTNGTLKNFEHTLHNVFYDVENKRGLFAYEEIYSNVKINAHMKKGDKVYIVFSGNESIENINIESEIKKEKERLNSFKINKVKTINKLQIASDTFLSKRKSTEKLTILAGYPWFTDWGRDTMIAIEGLLIENKKFNEAKEVFETFLMNLKNGLIPNVFDDYSGKPGGYNTVDGTLWMFYALYKYYEATNDLEFIKKHYDKLIEIIKYHVNGTDYNIHMTEDGLIYAGNKETQLTWMDVRVENWTVTPRYGKTVEINALWYNTLKIMEFFSSLIKVDFEYDLLSEKVKKTFNDTFWNVEKKCLYDCVNEFEKDSSIRPNQIFAVSLPFSILEKKKEKSIVNKVFEELYTPYGLRTLSPNDPRYIGIYTGDRWTRDGSYHQGNVWPWLLGHFYEAFLKINNYDLESKTIVKELLYPVSIRINDEWGGTIPEILEGNWPHEKRGCFSQAWSVSEILRIMKKIDFTE;locus_tag=LOCUS_15480;note=WP_048064995.1 amylo-alpha-1%2C6-glucosidase (Methanosarcina acetivorans) [pid:37.1%25%2C q_cov:97.0%25%2C s_cov:95.3%25%2C Eval:2.5e-112],MGA_1558
sequence1	MetaGeneAnnotator	CDS	1688447	1688704	.	+	0	ID=MGA_1559;product=type II toxin-antitoxin system Phd/YefM family antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079961.1;translation=MNLNRLKFFSVAEAKAKFSRVIEESKKDNIIITKNGKPEVIMMDYKKFVKMIEFLDEVKDLTMLEIEDVEKYKEIKEFFETFDNL;locus_tag=LOCUS_15490;note=WP_004079961.1 type II toxin-antitoxin system Phd/YefM family antitoxin (Thermotoga) [pid:48.8%25%2C q_cov:98.8%25%2C s_cov:96.6%25%2C Eval:2.5e-20],MGA_1559
sequence1	MetaGeneAnnotator	CDS	1688718	1689818	.	+	0	ID=MGA_1560;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079960.1;translation=MADVLLKDVNKIYPNGFHAVKDANFEIKDKEFVVLLGPSGCGKTTTLRMIAGLEDISGGTVKIAEKVVNDIEPKDRDIAMVFQNYALYPHMTIYDNMAFGLKLRKTPKEEIDKRVKNAAKILDIEHLLDRKPKQLSGGQRQRVAVGRAIVRDPKVFLFDEPLSNLDAKLRVQMRSELKKLHLRLNATIVYVTHDQVEAMTMADKIVIMKDGHIQQIGNPFDVYHHPNNVFVAGFIGTPAMNFLNMKVTEKDGKIILTEDKIVFEVPDEYKENLKEYIGKEVIFGIRPEDIYDQKYYNGNHTNEVEATIEVAEPLGAETLLHIVISGQSITAKVDPKTVVKSGEKLTFVFDLDKMHAFDKETQQAIF;locus_tag=LOCUS_15500;gene=ugpC;note=WP_004079960.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Thermotoga maritima) [pid:66.7%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:7.7e-139],MGA_1560
sequence1	MetaGeneAnnotator	CDS	1690019	1690774	.	+	0	ID=MGA_1561;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545251.1;translation=MIIKITFKPKDNATVDLPVHYNRPLQGMFYSLMDFMEEKTPRLFTFSRIYPEDNFKVENKRLKFNGNFVVYFTSPIEKINNSIINILSKKNIFRVEKNYFELVNFKIIEKNISNNLLIKTLSPITTYISVNLPSGNRYTHYFTPYSTDFKVLIEENLKRKAELVGIDTKNMEFNIEPYGITEKNEKILFYKGVIVKGWTGYYKISGSKTLVDFALNSGIGAKNSQGFGMIVPIDEFEDVTIEDEDEFIIIK;locus_tag=LOCUS_15510;gene=cas6;note=WP_012545251.1 CRISPR-associated endoribonuclease Cas6 (Thermodesulfovibrio) [pid:35.4%25%2C q_cov:84.5%25%2C s_cov:91.8%25%2C Eval:8.8e-31],MGA_1561
sequence1	MetaGeneAnnotator	CDS	1690947	1692146	.	+	0	ID=MGA_1562;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947630.1;translation=MKNAIYAQSGGVTSVINASAYGVIKKSLDSNLINKVFVGINGINGVLNKEFIVIDSADKEINNLKYTPSAAFGSCRKKLTDEETIKKVFKIFEENNIGYFFYNGGNDSMDTANKINDYAIKTGYDLKVIGIPKTIDNDLIETDHTPGFGSAAKYLAISMLEGSLDVKSMCADSTKVFVMETMGRHAGWLAASTALANLNNNFGPHIILLPEVPFDENKILNKIENIINKHGYCSITVSEGIQDKNGKFLSDKGFTDAFGNKQLGNAGVLISDIIHNNMKLKVHTAIPDYLQRSGRHISSLSDVKEAINCGMMAVKYALDGESGYMVTINRVSNIPYYVEYGKVKLSKIANGTKYMPKDFISEDGLYITDKFIRYAKPLIEGEYYPIYENGIPIYSKFNI;locus_tag=LOCUS_15520;note=WP_010947630.1 6-phosphofructokinase (Legionella pneumophila) [pid:51.1%25%2C q_cov:98.7%25%2C s_cov:95.9%25%2C Eval:3.6e-108],MGA_1562
sequence1	MetaGeneAnnotator	CDS	1692166	1693356	.	-	0	ID=MGA_1563;product=D-alanyl-D-alanine carboxypeptidase/D-alanyl-D-alanine-endopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011201838.1;translation=MKKIILIIIIILTINLFFSKQIKTQNLTNINSDKIVNLLKTFNGFVGFEMRSLDGEKIINYNSNKLFIPASITKLFTCFSALESYNKYYTFKTKVYFDEKPTSYYRGNIYIKGFGNPVLTPLKYKYLLNAAISNNSIKKIYGNIIFDYSYYKENGFGKGWMWDDPQPQIAALNIWQENHEAFKYKTDFQLKDYITYLTTSYLQEIGINFYGEVKYDIVPNQLKPVYIHYSPTLNKILKQMLEKSDNQIAEQLFRNLGTINGTGKIDDSIEYEKNLIEKTFKTSNFILKDGCGLSMYNLLSPSLINDLIQYILNKYNSLFYDILATPYEDSTLKNRFNFTVWGKTGTLYSDSAISGILQASSGNRYIFTLIENNFPFHYSKAKEFENKILTTIYKIY;locus_tag=LOCUS_15530;gene=dacB;EC_number=3.4.16.4;note=WP_011201838.1 D-alanyl-D-alanine carboxypeptidase/D-alanyl-D-alanine-endopeptidase (Bacteroides fragilis) [pid:24.6%25%2C q_cov:86.6%25%2C s_cov:90.0%25%2C Eval:2.3e-14],MGA_1563
sequence1	MetaGeneAnnotator	CDS	1693362	1694471	.	-	0	ID=MGA_1564;product=class I SAM-dependent RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003423769.1;translation=MKALALCTIGLEKVVANEIKRMGYKVIDSKSGMIFFETDLEGIYKVNISSRVVERLMIVLKEFRAYDFDDLYNEIFSIDWKKYLYKDTNITIDKMSSKYSRLYGLSAMQSVAQKAIYESLKKSYNLDDWTEKKYNINVRVYTYKDKVTVALDTSGEPLHKRGYRKLISDAPIKETLAAGLIILSGWKRKYPLYDPFCGSGTIPIEALMYAMDYAPGLKRKFGINNLKIHNKELFEKTREFYKNKIRTDIDVNIIGSDIDPEIIRVAKTNLNELNLEKHITFTTKDFTKIENELENGFIITNPPYGERLNTNDEIDILYKKMKKLKVIFPNWKYNFITTYSNFDKYFEMKSNKRKKIQNGKLETYFYMYG;locus_tag=LOCUS_15540;note=WP_003423769.1 class I SAM-dependent RNA methyltransferase (Clostridioides difficile) [pid:42.8%25%2C q_cov:98.1%25%2C s_cov:95.0%25%2C Eval:3.8e-77],MGA_1564
sequence1	MetaGeneAnnotator	CDS	1694468	1695061	.	-	0	ID=MGA_1565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYQKKSTKKKLEKLIEYSKIELVEQGFSKFNLNKVINSSGISKATFYKNYKSKQNFILIVIKNIIDEFVTPLKEFLNAINDIEEIINLIENYNLDPQKLLKEYPIKDLFYNHETAKFINEYYYKTFENIILEKIIISQKNGTIRNDVDPKFIFEFLTSIIKGIGHMIEDDDFKKIVDNYKKLILSALKTNEVEK;locus_tag=LOCUS_15550;note=MGA_1565
sequence1	MetaGeneAnnotator	CDS	1695154	1697196	.	+	0	ID=MGA_1566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLYFCVIFIGLATFSLDLKVGTYSDFPNSFYTNENTGVFTEILKDIANEKGWNLTIYNDTKEKINNMFFNNRLDIIYPTLVDSNFIIKDSMKIFTNSESIISIFDLKNKWIGVKKNSIFYKQIKDILNKNNVRCIFSEYESYDEIFKELKNKKIDIAVVSKNAGLILANKYNFIESRLNFSEFKFGIIAKDKTIQENINDYIIKIKENPNSIYYKTLKKYFNKKNNFILIEKDIYIYSFFIFAIIVLFFSRKKHIKKNKKILKLKETLEKELYDIKKSLENLEIEKQKLSTTFSTDKKAKESLKSIIDINSNISEYMNIDEDLFLTDLFRTSLNLLGADYGSIQKFEKNKWKFVDSIGHDINILKNLDLDRSYSVRSNEIKKINNIMKENESNMPLNVLKDLKEATKKIKTTLYIPFFVNQEKVAAITYDIKENSKKDFFGYDITISRAFKEIGESILKIKRQNKEFRNAYIKFANKLAIVSEAHDDVTGNHIYRVGILSEFIAEKMGLNYEFVEEIKNFAPLHDVGKIFIPIGILNKKGRLTRDEFDIIKKHTTEARKILEDNKYFKTALNIALCHHEKFNGGGYPYGIRGSDIPIEAQIVALADIYDALRSERPYKKGFSHKKATEIILEGDGRIKPEHFNPKVLEVFRMYNSEFEEIYDSNAGEKSKRKFFIF;locus_tag=LOCUS_15560;note=WP_004082198.1 HD domain-containing protein (Thermotoga maritima) [pid:47.3%25%2C q_cov:32.6%25%2C s_cov:39.3%25%2C Eval:2.5e-57%2C partial hit],MGA_1566
sequence1	MetaGeneAnnotator	CDS	1697423	1697617	.	+	0	ID=MGA_1567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIFNGREEDIEKSNFYDLLEKYNIDEKKVVLILNNEILKKEDYKNNLNENDKIEVITVVGGG;locus_tag=LOCUS_15570;note=MGA_1567
sequence1	MetaGeneAnnotator	CDS	1697617	1698384	.	+	0	ID=MGA_1568;product=thiazole synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393165.1;translation=MEPLKIYGEEISNRFFMGSGKFASYEQMKKALDFGNIDVITVAMRRASRDGLNESLIDYVGNSKVIVNTSGARTAEEALLIAKVGKELLKSDWVKIEIINDAKYLMPDNQETIKACKLLSENGFKVFPYMYPDLYDAKKMVENGAKVIMPLGSPIGTNKGFKTKELVRILLNEIDAKIVIDAGIGKPSHAAQAMEFGCDAVLANTAVSIADDPVKMAKAFSLSVEAGRLGYLAGLAEEKEIAQASSPLFDFIGRN;locus_tag=LOCUS_15580;note=WP_011393165.1 thiazole synthase (Moorella thermoacetica) [pid:52.8%25%2C q_cov:98.4%25%2C s_cov:98.8%25%2C Eval:2.6e-70],MGA_1568
sequence1	MetaGeneAnnotator	CDS	1698386	1699453	.	+	0	ID=MGA_1569;product=2-iminoacetate synthase ThiH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584005.1;translation=MFSDIVDEVYNYVLKSQNKEFDKKILKKDSFLAGDIFSLIHSNSLEIMAKRVLKNNKKFFGNVVYLYAPLYISNYCRNICTYCGFKSTNNIKRKKLNINQILKEANFLYKMGIEHVLVLTGEDHINSSFDYIYNTVKNLKKLFKEVSIETYSLNEQQYKKLVEIGLIGVTMYQETYSKGVYGKVHIFGLKSNYKKRLDTIEYAIKAGVREISIGALLGLNDPYIEVPMMIYHMDYLLKKYPNVEYSISFPRIKNALNVQNDFYNINDIDFIKFILSAKLIFPRVHINISTRESFEMRNALIGVATKMSAGSSTSVGGYTINNDSEQFSIEDSRSVKEFRTYIESRNFKPTTVNWF;locus_tag=LOCUS_15590;gene=thiH;note=WP_012584005.1 2-iminoacetate synthase ThiH (Dictyoglomus turgidum) [pid:42.7%25%2C q_cov:99.7%25%2C s_cov:98.4%25%2C Eval:1.5e-75],MGA_1569
sequence1	MetaGeneAnnotator	CDS	1699469	1700776	.	+	0	ID=MGA_1570;product=phosphomethylpyrimidine synthase ThiC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080892.1;translation=MTQYEQAIKGEITSEMIKAAIYEKCDPELIRKRIANGTAVLPKNKKHDIKMHRVVGKGFFTKVNINIGTSQGYMNIEEELKKLKISEKYGADSIMDLSTWGNLKEIRRRIIQNSNIMVGTVPVYDAASKAFQNNKKVIDFEVNDFMQMVKDHAEEGVDFMTIHAGITKTTIEKLKRTNRIAKIVSRGGSIIAGWMLKNSKENPFYEHFDEVLKICKEYDVTISLGDGLRPGSLHDATDDLQIDELLRLGELVDKCRNYGVQVMVEGPGHVPLDEIETNMIIQKKLCKNAPFYVLGPIVTDIAPGYDHITSAIGGALAASKGADFLCAVTPAEHLRLPTIEDIKEGLIATKIAAHSADIVKNKKVMEFDNQMSIARSKFDWERQFEYALDPDKAKEFYNERKAEDKKMCSMCGPLCAMKITEDYLNEGNVEKLLIE;locus_tag=LOCUS_15600;gene=thiC;EC_number=4.1.99.17;note=WP_004080892.1 phosphomethylpyrimidine synthase ThiC (Thermotoga) [pid:56.1%25%2C q_cov:97.2%25%2C s_cov:99.8%25%2C Eval:6.1e-141],MGA_1570
sequence1	MetaGeneAnnotator	CDS	1700786	1701973	.	+	0	ID=MGA_1571;product=thiamine-phosphate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080887.1;translation=MLIFSGFDPSSGAGLLQDVAITKMFGIKAKSIISANTLQTENEFKKLNFNETLEEFNLFKKFNTIKVGMANSNQLKILRNTYKDAKIIWNPILKTSTNYKIISAEEVINGSKYVDLLIMNSDEAKETGIKEDIIITGGHLNEENIMVTYNNKKFYSKKYNKALHGTGCVFSTLIASHIHLGYTIEEAIKMSLKYIDMFIKNSNTYVETEEHTMQWHRKYIIDTLWEIKDKIILLGKYTIPEVGQNIVYALPNATEQEHVGKFPGRIHKLGNEINFIHEPAFFGTSHMARAVIATMKYFPWIRSAMNVIYNPEFIKKAKEKGYSVYHLDRYKEPEELRKIEGLSIPYGLSDIYNETNKPVDFVWDEGFPGKEAMIRVFGRDPKEIINKVKDVVFND;locus_tag=LOCUS_15610;note=WP_004080887.1 thiamine-phosphate synthase family protein (Thermotoga) [pid:38.5%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:2.4e-80],MGA_1571
sequence1	MetaGeneAnnotator	CDS	1701966	1702874	.	+	0	ID=MGA_1572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDIEYFDRQLKYIGLNKMKEIFNTKISIKDDLSQKILKNCGFNIIDLEENTHGFTIKLIENNITVSFNKYKEIEKTVDIPKEICSALISTLIVSNLLFNTKQISIPHFKFNLEAKNAVVIGAGGLGNPVSYVLNKNKIPFCIIDKDIVEKSNLSRQFLFDKKDIKKYKSKAIKDKLNYCIESKEIELTEKNLDILNKYEIIYSCVDNLKTRYILSDFCKKNNKTFIDSGVAGSICTIYKNIDLNKIMNTDDKNALNTCNTGILPTTAILGGFLQAYSLNNNFSMIFVDFSIGKVLSVKNIN;locus_tag=LOCUS_15620;note=WP_011393468.1 molybdopterin-synthase adenylyltransferase MoeB (Moorella thermoacetica) [pid:35.7%25%2C q_cov:39.4%25%2C s_cov:46.8%25%2C Eval:2.9e-13%2C partial hit],MGA_1572
sequence1	MetaGeneAnnotator	CDS	1702917	1703873	.	-	0	ID=MGA_1573;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_062822608.1;translation=MNINPLVDFAFKVIFGSEKNKDILIDFLNALLKEENKKIESLDILNPYTEKTAINDKLSILDIKAKLDNGTYVNIEVQLINEKNMIKRTLYYWGKMYTEQLKKGKSYISLERTITINILNFNLLKTKKYHSIYRLKDIKENTELTDVMEVHFVELPKIETEEANLNDKLIEWLLFLKEPENTNMEVITMKNKEIKKAMTVLEFINSDRIAKELYEAREKELMDKIDQQLYAEEVGMKKGFQKGLKKGIEKGIEKGIEKGIEKGIKQEKLIISKKLLKKKFGNKIDNLISKLDTLSIEKLDEIISNIFDLTIEDLEKKF;locus_tag=LOCUS_15630;note=WP_062822608.1 Rpn family recombination-promoting nuclease/putative transposase (Bacillus cereus group) [pid:41.8%25%2C q_cov:75.2%25%2C s_cov:76.8%25%2C Eval:1.8e-48],MGA_1573
sequence1	MetaGeneAnnotator	CDS	1704012	1704773	.	+	0	ID=MGA_1574;product=flavodoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022466.1;translation=MKIIAINSSRRKGNTYRLLKNVFVELFKINIEVEIINLGDYNIHPCSGCELCIKKDICPHKDDVENIINKLKNADGVIISSPVYIENVSGTLKTLFDRLCKWYHRPTMIGKPVLIISTTAGSGLKSTMNYIEKVAVSWGMKPCGKIGRKISDKNLIKNKEIKEFISTLKNNSRNKVTLNRAIRFQIQKVVANNLLEIDKNYWAKNNLNDKDYFYDAKMGLLTKLISKQFGKFLTKKILENKEKVKNKKQTIAN;locus_tag=LOCUS_15640;note=WP_011022466.1 flavodoxin family protein (Methanosarcina acetivorans) [pid:29.5%25%2C q_cov:81.0%25%2C s_cov:94.6%25%2C Eval:4.3e-17],MGA_1574
sequence1	MetaGeneAnnotator	CDS	1704792	1705745	.	-	0	ID=MGA_1575;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948255.1;translation=MLTTEFTFKGKDGKSINAVKWEPKLNNNPKIIIQISHGMAEHKDRYSDFAKILINQGMVVYANDHRGHGKTAKNEDELGYFDDNNGWDKVVEDMHELTLKIKNDYPETPIVLLGHSMGSFLTRTYIQKFGNEINGVILSGTTYSSNLKTTFGLIVTKREIKKIGKKGKSYKLDKLSFGSFNKQFQPNKTEFDWLSRDEENVKKYIDDPHCGFVCTAGFFKDLLYGISIINNIEYVKNTPKELPIFIISGEKDPVGENTKGVLKVLNLFKKAGLKNVKHKFYKDARHEILNEINKNEVYSDIINWLNSEILKKNKVLS;locus_tag=LOCUS_15650;note=WP_011948255.1 alpha/beta hydrolase (Clostridium botulinum) [pid:47.5%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:3.8e-83],MGA_1575
sequence1	MetaGeneAnnotator	CDS	1705911	1706573	.	+	0	ID=MGA_1576;product=DtxR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582916.1;translation=MVLSESSENYLIAIYEKELNENITRIKDLTKILKVKHSSVIEAIKKLKLAEYVNYEKRGYIKLTQKGICKAQNIYKNRVAIRSFLINVLNLDPVEAQDISCKMEHFKSKKLIKTMESLEHFFDENKQIKKQYIDFTIKWLRNISEVNLTLEQIKIGNKVKVVEVIGDEATKKKLMVMGITSGVEIEVKEIAPLGDPIKLKVRGYNLSLRKSEAKNIIVSK;locus_tag=LOCUS_15660;note=WP_012582916.1 DtxR family transcriptional regulator (Dictyoglomus turgidum) [pid:38.5%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:2.2e-32],MGA_1576
sequence1	MetaGeneAnnotator	CDS	1706656	1706874	.	+	0	ID=MGA_1577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLSFARKGIFYVKKINVGKFGKRKLSKMAIIEGIKIEVLFENFGGPIPIIVKNAKYAIGHGIASKIEVVEA;locus_tag=LOCUS_15670;note=MGA_1577
sequence1	MetaGeneAnnotator	CDS	1706928	1707161	.	+	0	ID=MGA_1578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILSKCKPGTVGTVVKLNGTMHLNQRLTSMGITSGIKIEVKKTAPLGDPVELKVRGYNLSLRKSEANIIEIDIGDGF;locus_tag=LOCUS_15680;note=WP_002287797.1 ferrous iron transport protein A (Bacteria) [pid:52.2%25%2C q_cov:89.6%25%2C s_cov:43.9%25%2C Eval:1.7e-13%2C partial hit],MGA_1578
sequence1	MetaGeneAnnotator	CDS	1707161	1709137	.	+	0	ID=MGA_1579;product=ferrous iron transport protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582918.1;translation=MSKIALCGNPNSGKTSIFNALTGTRQHVGNWPGVTVEKKEGHYTYNQEKIKVVDLPGTYCLTANSIDERIARNFIVEEMPDTTIVIIDQTNIERNLYLVTEILEMRKNVILVFNMSDEAEKLGIKIDYNGLKKEFGVPIIKTIATKKEGLNELKSEIKRMEKNIKKPNKIEYSQKFEIFVQKIENELLNAGVKKGDLRWKTLKLIEGDIEIRENINSGTLTKIDLIISELQRAFKNDPGIVVSEERYKYIAKIVKKYVKRPKETIRLSDKIDKIITSKLFGLPIFAFIMWLMFQLTYSLGNIFLDMIDGWFGTFAENISAAMQTAGINSLFTSFVTDGLIGGVGSVLVFVPNIFFLFLFISFLGDIGYMSRAAFVMDRIMSSIGLNGKAFIPMVLGFGCSIPAIMATRTLESKKDRIITTLVVPFMSCSARYPVYLIFASIFFPKHAGTVIFSMYMIGIVIAIISSKIFSKKLFNEENTSFIMELPPYRLPTFTETLGEALKRTWLFIKKAGTFIFAAVIIIWIMASLPSGVEYAGENSFIGIIGKIIAPIFKPLGFGFWQVAVAILFGFLAKEVVVGTLGTLFGGEELLSNVLPQYFNAASAFSLMVFVLLYFPCIAAIGAMKREIGKKWTLFQILFSTGIAYITALIAYRIGLFFI;locus_tag=LOCUS_15690;gene=feoB;note=WP_012582918.1 ferrous iron transport protein B (Dictyoglomus turgidum) [pid:46.1%25%2C q_cov:99.5%25%2C s_cov:98.8%25%2C Eval:2.6e-165],MGA_1579
sequence1	MetaGeneAnnotator	CDS	1709160	1709465	.	+	0	ID=MGA_1580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCVAIIGGIKGIENKYKTLLKKHGIKKYKIFNTMVPDFQKKIKNVDALILFTNTVSHKLSTVSSKICKKNNICIKRTHSSSLNKLDEKIKEIKLKLNNKHK;locus_tag=LOCUS_15700;note=WP_009890712.1 DUF2325 domain-containing protein (Clostridioides) [pid:37.0%25%2C q_cov:80.2%25%2C s_cov:71.4%25%2C Eval:1.4e-07%2C partial hit],MGA_1580
sequence1	MetaGeneAnnotator	CDS	1709478	1710245	.	-	0	ID=MGA_1581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLNNYIKKEATEIFKHLSKDILLKETLFSTNKKYYKLMHRANLLFSIINFIPLISAIININIPYIFGYSIYIFGLYLVWIFEWATGFLIFEEIKTFTIIQIALHSFFGLYLDFYGKYDHFDDFLHLSGGMWLAFIIFPIILSLELSFSRQKIPTLILKVNFYTFSVALSMGTIWEIFEFTSDLIFKNFPGYRLAQENSLFDTMTDLIYDSFGAVFGIILFWHLLKRLNKNRNMYDLLEKIGLSLRNFIDNKHK;locus_tag=LOCUS_15710;note=WP_010989535.1 hypothetical protein (Listeria monocytogenes) [pid:33.6%25%2C q_cov:47.5%25%2C s_cov:52.5%25%2C Eval:4.4e-09%2C partial hit],MGA_1581
sequence1	MetaGeneAnnotator	CDS	1710294	1711004	.	-	0	ID=MGA_1582;product=metallophosphoesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829921.1;translation=MKSVKIAIFTDIHGNLPALDSILNKIKNENYDFIYNLGDTIAIGPFSKECIDKISKIKNLKMVKGNHEDYFLSNMNPVPQNMSKGEIIHQKWVIEQLNNENKEFLKSLPYTINENFYGVNLFFTHYARKNNKFKKLNNDYNLLNELFENNNSDIIFYGHNHCFSDIKINKTRYINPGSLGCTKSSFTTFTSIEIYKNKEIKVTHHKIFYNKNYVLKELTNREVPERNFIKKVFFNS;locus_tag=LOCUS_15720;note=WP_001829921.1 metallophosphoesterase family protein (Staphylococcus) [pid:30.5%25%2C q_cov:97.5%25%2C s_cov:99.6%25%2C Eval:2.4e-27],MGA_1582
sequence1	MetaGeneAnnotator	CDS	1711017	1711709	.	-	0	ID=MGA_1583;product=M48 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948163.1;translation=MYEFYYKDQIIKYKLIKKNKKNLSIIIKENEVIVYSPIYLNIDLVQKILYKKADWIIKKLELNNYKREKNYENGEFFLYLGQEYTLNIIYGDKTNIKLFNNYLNLYINKKIKNINKKNIIELWYKNNSLNLFNKKVAYYNNFFKQNINEIRINDLKSAWGICYPKKRKITFNWKLIMAPIEIIDYVIVHEMCHLIHPNHSNNFWNEVSNYIKDYKIKRKWLKENGNRLFL;locus_tag=LOCUS_15730;note=WP_011948163.1 M48 family metallopeptidase (Clostridium botulinum) [pid:33.5%25%2C q_cov:90.4%25%2C s_cov:90.5%25%2C Eval:2.9e-30],MGA_1583
sequence1	MetaGeneAnnotator	CDS	1711876	1714650	.	+	0	ID=MGA_1584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIRNNISSTINNSDFQKKLSNIKKLSTGLKINNDKNLQINLSKNYLNNKSNLDQLSDFIQINQNALSKKDILNKNTYSLNLKQSDLNNAFQFSTNLSLFNTDTKNLEKKLFETKQLINNSKYSNLSTEDIKNKLTQNISSENMNDINNILKDLKGNSTTTRKFLEGALSLIAGNSDQIGEYLKATENLQENNYNSDELNKFFDTTKNISLNKQNKVEDFLSLFNDTEIYKNKDTTKKFLDISNTYSSLYEGQQALASVFYTTKKLFNGNIDNSALNNFLNFVNQNKYSITDILPQLGTTLTELDTNTQRKNIINTTNTLKNDYLDEKVINKFLQKVVEWKNDSNLENVVNTITKLDNPEKAEFLVAYQNIKDNTSLKSNFLTTLTKVQNYENKTNIVSVTPFLAYSAALSKEDTNTLSNYMNDVNNFVNDNNNNTAIPNTTNYAIAGISTYMNDTGDVSASSFATPLNLGQPNEKTGVFSQTIKILKNPFEDTNADTAQISITVNYNELITGGDLESVAEAVVTGGTKTAAKQIAKEIVKAGVKKAIGYIWDEYGKEIENTIKNNVVEKNKTLSDLQNSLNELKDGNNSVTVESIANEYNLTNEEVYLLENANDFASRYGLSLEDFTNFDPKNISDLNSNLQGFSGDLQKDLLTWGFQIAHDYIMGSDSVPEKEEDISINNVNMDFSKKYTDSSTTTTTTTSNNGKFVDFSKGYAESSKETKFAVDLIYAGLNQGVSASNNLTLGVTYTDKNGIEQTETKNVINGDPFDFAFGIFDYSNGRKTFNFNVPLTNEANDFTITLNGKAISTVTTYGWASSTIKGSIEKVEINTNGQRYTGIDDINQLLPTNSDIPEEIKNPEPDTNNLYSKIKSSINNINYKYKEIQNIDFKNEYENMLKHQQIMVSSNYLLQQASTPGSVLNLLQ;locus_tag=LOCUS_15740;note=MGA_1584
sequence1	MetaGeneAnnotator	CDS	1714720	1715433	.	-	0	ID=MGA_1585;product=DNA alkylation repair protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005783729.1;translation=MNCTVELVTELKNNTNIEKAKHSKQFFKSFPGGYGEGDMFLGITVPIQRKIAKKYYKFCTLKDIEVLLNNEFHEIRLTALFILTYKLEKSDNNEEIKKIVDLYINKISKVNNWDLVDSSAPKILGPYFLNKDKSLLYNYANSNNLWKQRISIITTQYFIKNNQFQDTLNISKILLNHSHDLIHKAVGWMLREIGNRNFEVEFNFLKDHYKNMPRTMLRYAIEKFDKELRVKFLKGKI;locus_tag=LOCUS_15750;note=WP_005783729.1 DNA alkylation repair protein (Bacteroides) [pid:45.4%25%2C q_cov:96.6%25%2C s_cov:97.8%25%2C Eval:4.5e-50],MGA_1585
sequence1	MetaGeneAnnotator	CDS	1715523	1715747	.	+	0	ID=MGA_1586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKFLDQMKITKLATDYEGKILIYIEKNKKITTKELKKLFNIKDTRAKEILKELMNKNLIERKGKGRNTHYILK;locus_tag=LOCUS_15760;note=MGA_1586
sequence1	MetaGeneAnnotator	CDS	1715767	1716357	.	-	0	ID=MGA_1587;product=site-specific integrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459363.1;translation=MNYVDPIKDVKIINKIKRLMLKHEKIKEYALFVVGINSGLRISDILLLKWDDVLDDSDNITDKLRIKEKKTGKTKVFPLNTAAKEALNKLKKQLKNIEYDEHIFKSNSNRTKSKASPWRRQYVWDFLQTYAQLAGFTGNIGTHTLRKTFGYHAYTNGVSLELIQKIFNHSSPGITLRYIGITQQEIDDVYLNIINL;locus_tag=LOCUS_15770;note=WP_011459363.1 site-specific integrase (Desulfitobacterium hafniense) [pid:46.1%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:4.8e-38],MGA_1587
sequence1	MetaGeneAnnotator	CDS	1716852	1718018	.	-	0	ID=MGA_1588;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015646113.1;translation=MENEKIRYIISNLYDEPLKDKKYMINRKNDLNYINKIIYYQPLGVYGICGETGVGKTTTLNFIDESNLKKFNILISEKESKESIIIDFLYKLSLLTLKESKSKKSKNIANEAKEFILNEKTKNMEYSTGTNAIIKVNYSKNLTEYKRYNIYTIQEYLEKLVNVLINEFKRVLIIIDELDKEKKEEILIILDSLKHILNKRELIVFISLPFSIYREYTNDRMKWNKTGNLENIFKDMIFLKPLKNIDISQMILKRLEKYPEFISPDSLKEIADYSEGNPRDALWITQQIILNNTEKNIIDLKTTKEEIKKIVRQYFKINKTLTENQKILIKEISNKSDTKNNIVKKLEKQGLKKQTVYTYINRLKDENIIKEKDGIFYIPKKILYALDI;locus_tag=LOCUS_15780;note=WP_015646113.1 AAA family ATPase (Thermotoga maritima) [pid:32.8%25%2C q_cov:94.3%25%2C s_cov:95.1%25%2C Eval:3.4e-63],MGA_1588
sequence1	MetaGeneAnnotator	CDS	1718116	1719039	.	-	0	ID=MGA_1589;product=pseudouridine-5'-phosphate glycosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948816.1;translation=MNLTEYLDFSDEVMQGIKENKAIVALESTIISHGMPYPQNVETAKNVESIIRDLGAVPATIAIINGRIKIGLNEEDLEFMGKEKNILKASRRDLPVIISKKLNAATTVASTMICANLAGIKVFVTGGTGGVHRGGENSFDISADLQELAKTNVAVVSAGAKSILDLNLTMEYLETFGVPVIGFGTDELPAFYSRKSGIKANYKLDTPKEVAEMLKVKWDLGLEGGAIIANPIPEEYSMDSKIINKAIEDALDEADEKGITGKEVTPFLLSKIKDLTEGKSLKSNIQLVYNNAKVGAKIAIELHKISD;locus_tag=LOCUS_15790;note=WP_011948816.1 pseudouridine-5'-phosphate glycosidase (Clostridium botulinum) [pid:67.2%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:1.1e-116],MGA_1589
sequence1	MetaGeneAnnotator	CDS	1719036	1719950	.	-	0	ID=MGA_1590;product=PfkB family carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948815.1;translation=MRLIISVIGGINVDIKGFSKNIIMKNSNPGNIKFSCGGVARNIAENLGRLNIPVKLFGIVGNDFFGNYVIKETKKYGVNTNFIETIKNKQTGIYLSIVDNKDMLVSISDMNSIDHLNKEYIDKNEKNIFNSKYIILDTNLNEEILKYIVYKNIHYKRTLILNTVSIQKAKKIYNIKNNIQYIITNLYEFNSFFNKDIKNIEELKEIKNYDSLCDIIITLGENGIFDLKNKKHYKSLKANIKDANGAGDAFLSGFVYGLYNNKSIDESILFGQCTSVITLESENSVSEILSKDVLDNKFYREVVK;locus_tag=LOCUS_15800;note=WP_011948815.1 PfkB family carbohydrate kinase (Clostridium botulinum) [pid:35.3%25%2C q_cov:96.4%25%2C s_cov:81.6%25%2C Eval:5.1e-42],MGA_1590
sequence1	MetaGeneAnnotator	CDS	1720026	1720895	.	+	0	ID=MGA_1591;product=LysR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000421907.1;translation=MDLLQLKYFRELAYSQHMTELAENLHISQPSLSMTIAKLEDELGIKLFDRVNRKIILNDYGRIFLNHVDVIFNELSYALEEINELKNMENKKIILATTGTTFLTNIIIDFLESNSEITIKQSLVAYEKITELLEKGVIDFAITHPLLNNKNIESKVLIEDDILVVVPKNHPLAHKKAVRLEELKNEHFINLTEHYDFRKLTDSMFERSGFKPNIIIEGEFTLIERMLKSGLGISIIPRTLLNLYPNFPAKTLKILDQNEKWSIGFSWLKNKYMNENSKKFRDFVLNYYK;locus_tag=LOCUS_15810;note=WP_000421907.1 LysR family transcriptional regulator (Bacillus) [pid:39.4%25%2C q_cov:99.7%25%2C s_cov:98.3%25%2C Eval:4.9e-55],MGA_1591
sequence1	MetaGeneAnnotator	CDS	1720927	1722627	.	-	0	ID=MGA_1592;product=oleate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262036.1;translation=MGSYQKINPKKPKNIEERKAYLIGGGIASLAAAAYLIKDGHMPGKNINILEQGNIFGGAMDGAGDAENGYVARGGREMEEHYECTWELFGMVPSLEDPSKTVLDEFKELNDIDPNFSNCRVIANRGEKLDFSTLGLSENHVKQLTKLFLATEEALGATTVEQFFDKSFLETDMWLYWRSMFAFEEWHSVVEMKRYMHRFIHLMPGMSKMDGLVFTKYNQYDSMILPLQKWLESQDVVFNKKTQVTDLDIEEINGKKVVLGIHLTRDGKEKFIKTTADDLVFFTNGSMTENSTLGSMDKAPVLNRELGPVWKLWKKIAEKDPLFGKPEVFCSDVDKTKWESFTITAKGPKMKELIEKYAERKIMPHRTVTGGIITIKDSNWLMSVTVNRQPQFKNQPEDVIVLWAYALFPDNKGDFINKKMSECTGKELLQELLYHFGIDEKDMQEYIDSSIVIPAMMPYITSQFMPRVKGDRPDVVPESSKNLAFLGQYAEIPNDCVFTVEYSVRSAIMAVYKLLELEKNPPEIYPSQYDIRVMANATKAMYSGRPLPGEFIIKKLLKDTSMDGLI;locus_tag=LOCUS_15820;EC_number=4.2.1.53;note=WP_002262036.1 oleate hydratase (Streptococcus mutans) [pid:45.9%25%2C q_cov:98.8%25%2C s_cov:96.6%25%2C Eval:8.4e-149],MGA_1592
sequence1	MetaGeneAnnotator	CDS	1722875	1723780	.	-	0	ID=MGA_1593;product=alpha/beta fold hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080469.1;translation=MNFMYFVKNYSYSPSIIEENDRKTILKSNYPCEFKESSKIVLYKYNANSNKTLLFIHGLGTNNLKYLKWFPEQFAKNGYNAAMMILPYHFERTPEGYKSGELFLSTTKNEVLRSRFEHSIVDALTSINYLKNTFSNNIYLMGFSFGGFVSLMSAAINNEIKGLSLAVTGGNFYYITWKSFVTKTLRVQYEENKECNPKRCYEIHQKYDEYINSLSNSNIEIDKAPMPCFEYDPSTFAKFIKSPTINFRALFDIFIPKKSTMDLYNRLQCKKELYSIPSGHLTSYLFKKRIFNKTITFFNNI;locus_tag=LOCUS_15830;note=WP_004080469.1 alpha/beta fold hydrolase (Thermotoga) [pid:32.8%25%2C q_cov:87.4%25%2C s_cov:93.3%25%2C Eval:3.8e-37],MGA_1593
sequence1	MetaGeneAnnotator	CDS	1723781	1724980	.	-	0	ID=MGA_1594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSEIKVLKKDVTLYEKGQKVDKLYFIKDGIIEIEINDEIKKQDSGSVGEWALLKIPAVETVRALKGAKIVSVSPENLLKMKEYGKLLLKIFKSITFRLNFVDEIISPNISPGNAMETFSNIYKGYTFRENDFILHYRIMKKYYRENKLEDAAKELEKIDVRKLDLDMHDELEIWKSILKYKLNPQFGKEYLHRVYSKDSKKRLSYNYFETLVNKENNAFYDLYGKYGLHVPKKTVLIVEGDRAKDIGYLLLKGGVKVARFSEGEENILAVILNGEFFGEATLFNERKRQATVFSDKPFDVIEFSKETLSETFEKSPEFGLKLIQNQLKRIVNTLKMDSILKLDPYNRINELFNNFYTRFINANMTINELSRFANVKISDVIDVTLKRNMKIDPEGHIK;locus_tag=LOCUS_15840;note=WP_005647998.1 cAMP-activated global transcriptional regulator CRP (Haemophilus) [pid:33.1%25%2C q_cov:31.1%25%2C s_cov:56.2%25%2C Eval:3.6e-07%2C partial hit],MGA_1594
sequence1	MetaGeneAnnotator	CDS	1725064	1725426	.	-	0	ID=MGA_1595;product=PadR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080625.1;translation=MRQQRNCRGLGGKGWWLSSIILLLIAEKPSYGYELVERLKEFGITLIGNGNMGRIYTFLSDFETNDLITFNWDTTYSPPRKIYTITDKGLEFLSEIKKEMDGLKNTIEIYEKKYNTIAQN;locus_tag=LOCUS_15850;note=WP_004080625.1 PadR family transcriptional regulator (Thermotoga) [pid:49.6%25%2C q_cov:95.8%25%2C s_cov:97.5%25%2C Eval:1.5e-25],MGA_1595
sequence1	MetaGeneAnnotator	CDS	1725559	1727277	.	-	0	ID=MGA_1596;product=M3 family oligoendopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080599.1;translation=MYTDEKIVKPKRKFFPEDINLNSFETVKGIFEKLLDEEINSTEELLEFIKKVSEFNNILSEEMAWKYINMTRFADKEEYSKDFNTFYANVVSPSNKYDFEINKKIYNNKYFKNLPEDFELMKKIIANEIEMFREENIPLQIKENELTTKYAEIMSKLTVEFDGKEMTLIQLGKYLKDPDRNIREKAWRVGAEKINEKAKELNNLFDELKKIRIKIAKNAGFDNYRDYMHKAKGRFDYTPEDLIEFHNSVEKVVLPVLKDLNNKKAKKLNVEKLRPWDTTVDPDGKILKPFETTEEFINSAIKILHNVKPEFGENLNKMKNSGFLDLENRKGKAPGGYNYPLSETGAPFIFMNAIGMQGDVRTLLHESGHAMHSFSMNWIPYSYYHQTPSEVAELASMSMELLTLDYLNEYYTDKEDIKKAVLEQFERSLDVLPWVMTVDAFQHWIYLNPDHTADERTNYFKDLMDRFNTDIDWTNLDEEKGNRWLRQLHIFEVPFYYIEYAMSQLGALAIYKNFKENGKKAVEQYEAFLKLGYTKPVSELYRAAGIKFDFSEKYIGELMEFMKKEIEKAESL;locus_tag=LOCUS_15860;note=WP_004080599.1 M3 family oligoendopeptidase (Thermotoga) [pid:52.5%25%2C q_cov:95.6%25%2C s_cov:99.5%25%2C Eval:2.8e-168],MGA_1596
sequence1	MetaGeneAnnotator	CDS	1727379	1728197	.	-	0	ID=MGA_1597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYLSRFNISHTYVEGNDIIEIKNAIKPNTKIIYLESPTTFTFKLQNLKEISTLSKKHGIKTIIDNTWATPIFQNPIDYGIDIVIHSASKYLGGHSDLVAGIIIGKKEDIRKIFETEFQNIGTVPDPFVAWLILRGLRTLHIRMERHYKSSMEIVNFLKKHKKVESVLYPFDKDYKQIQLAKKQMRGGSGLLSFKLKTRDLNKIIKFTNSINFFKRAVSWGGYESLIIPYAVTLKENELSNNENISLIRIHVGLENTELLMNDLNNALKNI;locus_tag=LOCUS_15870;note=WP_004079973.1 bifunctional L-alanine/L-glutamate racemase (Thermotoga) [pid:46.9%25%2C q_cov:99.3%25%2C s_cov:70.2%25%2C Eval:2.1e-65%2C partial hit],MGA_1597
sequence1	MetaGeneAnnotator	CDS	1728664	1729407	.	+	0	ID=MGA_1598;product=metallophosphoesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080979.1;translation=MIASISDIHGCYEQLKKILNQLSKFKIEKTIFLGDYIDRGTKVKETLDLILDYSKTNKSIFLQGNHENMAIDFLYKKNLYNEGVWFKNGAKETLNSLCNSYNNDYIKHIDKKYIFFLKSLENNIYYEYSNYIFVHGGIRDFKLNIEEQDLNCKKENAIKKHYSYLWVREDFLKQEKPYKNKVIIHGHTPVFYLTNYGIKPKNIYESYYKYSKDQDLISIDIDTGCVYGYSLSALLIENNNYYNISIQ;locus_tag=LOCUS_15880;note=WP_004080979.1 metallophosphoesterase family protein (Thermotoga maritima) [pid:33.2%25%2C q_cov:98.8%25%2C s_cov:96.7%25%2C Eval:3.2e-33],MGA_1598
sequence1	MetaGeneAnnotator	CDS	1729474	1730343	.	+	0	ID=MGA_1599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFFIFIFFSIIIFSNKQIKWFITNYPPAFIINKNNDFKGFEFNTLNNLIKKLNHYDITYYQTSLSRALTDMKNKKNVCALFLFKTPEREKFLYYSLPYRVTLPNGIIIRKSDKNKFKKYFDKNNKIKLESLLKERSLTLGINKKISYSKEIDDIIQKYINKPNIFLLTRENYIENLLKLLNLNRIDYFIGYAESINYLSKKLNMKDEFIYIPISEVNKKIFSILYITAPKNEFGKKIIDEVNKIILKTNFVEDAANYYKKWLDKSSINEFEKIYKIFLKQYLNKK;locus_tag=LOCUS_15890;note=MGA_1599
sequence1	MetaGeneAnnotator	CDS	1730372	1732090	.	-	0	ID=MGA_1600;product=phospho-sugar mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003396540.1;translation=MNYMERYKSWLKDKNIDEKTKEELKKISDEKEIQDRFYKDLEFGTAGLRGKLGAGTNRMNIYTVSKATQGFANFINKQSKEYAERGVAIAHDSRHMSKEFALDTALIFAANGIKAFLFEDLRPTPELSFSILHLKTAGGIVITASHNPKEYNGYKAYWEDGAQITSKIADPLTEEINNVNDFSTIKRISKEEAIEKGLLKIIGKEIDDIYIEKVKKLSITDDVDKDLCVVYTPLNGTGNKPVRRVLKERGFLNVHVVPEQENPDPDFTTVGYPNPEDTKAFKYSINLGKSVDADLLVATDPDCDRLAIMVKHNNEYVSFSGNQTGAILIKYIIDGLKGKNALPKNGAIIKSIVTGDLGKRIGQENGITTFETLTGFKNICGKENEITKNGEYELIFGYEESIGFKAGDFVKDKDAVISSMLLVEAAAYYKKRGKTLKDVLDGLFEEFGYYLENNFSIILEGIEGQERIKRIMKEYRNLYPKEFSGIKMIKYIDYLEMKEHDLVNNSEKETDVPKSNVLRYFFEDGSWYALRPSGTEPKLKVYIYSIGKTMEDAKEKLNAIKEKMMEIIDSVE;locus_tag=LOCUS_15900;note=WP_003396540.1 phospho-sugar mutase (Clostridium botulinum) [pid:63.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-218],MGA_1600
sequence1	MetaGeneAnnotator	CDS	1732317	1733597	.	+	0	ID=MGA_1601;product=ArsB/NhaD family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080471.1;translation=MSTLLVLAITFVTYFFIIFTRKIKKSIITFFLASLLFIFKPVEGFTLENLSHIVSFETLGILLGMTIIVEILKESGFFTYFAVKTIKASKYKFWIVLFLLMGIVIIFSAFLDNVVTILFIAPIIFLVADTLEVDPTPLMMLTIVMDNIGGMGTLIGSPVNIIIGTTSGIDFTKFLVTMGPITLLAFVASFFIFKIQNKIDTKSYNKKLEKLKEMDENKAITNKSMAIKGVVIFFIALMGFLTHESTHIPIAVVATSSALVLMLLTNKDFEEMAHEIDWDTLFFYSALFAVSYALSEIGAIDILANLFMPLMNTPMLLMLVFMFVSAMVMPFLNSVPGTLVLAPVVSVLVNKGAPFELWFAFAMGANLGTNLTPLGAVQNFVVVGLLKKDANVDISFSKYMKYGYIHVIVSLIIAVAYLFFHYYVMA;locus_tag=LOCUS_15910;note=WP_004080471.1 ArsB/NhaD family transporter (Thermotoga) [pid:43.4%25%2C q_cov:98.4%25%2C s_cov:99.0%25%2C Eval:7.1e-102],MGA_1601
sequence1	MetaGeneAnnotator	CDS	1733610	1733870	.	+	0	ID=MGA_1602;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023836.1;translation=MNEELKIFKALADETRLKIIKILLKGEHCVCKIVPHTNRSQSTVSNQLSKLENLGIVKSKRDGRRICYYIVNDKIEKILNIFKKGV;locus_tag=LOCUS_15920;note=WP_011023836.1 metalloregulator ArsR/SmtB family transcription factor (Methanosarcina acetivorans) [pid:46.3%25%2C q_cov:95.3%25%2C s_cov:95.3%25%2C Eval:1.1e-15],MGA_1602
sequence1	MetaGeneAnnotator	CDS	1733873	1734658	.	+	0	ID=MGA_1603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSITSFLIVIFVVGFVTGGLKIRFDRFFAILMLMTVAGKGIRSAIDLFLWVIMLGSLYIILENQEKIKKMPKAALIKFFTFIPIMTFFSSLLGSYLNSLSSNKFLTITLGILALLYGLRMIFIHFKDHEMDHKDPKPGFVKFCGFFGPIISGFSIGFIGTSLKSLKLPLAIKSGKMNAKQVYLGNTMTAFFSSLFAIMWHYIFTPSMEAFDSYIYAISLWASIHFVYDLTNVFFKDKWRKGFQIFIGIALVLVSFKIFSM;locus_tag=LOCUS_15930;note=MGA_1603
sequence1	MetaGeneAnnotator	CDS	1734853	1735881	.	+	0	ID=MGA_1604;product=arsenic resistance protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080192.1;translation=MEVIKKLTFNIKKYLIFFTLTFLSIGWILGANFSKFAATNKSIFSNVIVFFVFFMIYPMMINMDWKKITKLFKDPKAILLSLLYNYLITPVIAYILMRLFLHNDELALGFMLVMLIPVSSSSIGYTGIVKGSVEVATIAQTINFILIPILAPIYLSIIAHGSKITIPMNSILKSMFYVIILPIILGYITRVIIISKVGEKGLKRAKPLIGLITLVSMLGVIFFIFFLKGHMLVSKWNLLIILGFLTIIYLIIALVFETWFNKRAGLTYEEHMGIVFLSTGKNNGTAVAIATLAFSPLVAIPAAILPIFQIIFMIFYVKLENKIKKYFEKNTKINYTRKYEEE;locus_tag=LOCUS_15940;note=WP_004080192.1 arsenic resistance protein (Thermotoga maritima) [pid:28.0%25%2C q_cov:96.5%25%2C s_cov:100.0%25%2C Eval:3.1e-38],MGA_1604
sequence1	MetaGeneAnnotator	CDS	1735883	1736290	.	+	0	ID=MGA_1605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQKFVLETTLHPEESVSLHKARGLETKISVNTEGKHTHAHTPVETVIGALGSCLIINTQRFFKAKELNFKDIKMTLNGYRDPSIPKLVKIEYFMKIETNETINLDELKEFISKKSTTYRTLEDSVEIVGEIEKI;locus_tag=LOCUS_15950;note=MGA_1605
sequence1	MetaGeneAnnotator	CDS	1736546	1736785	.	+	0	ID=MGA_1606;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080581.1;translation=MAKYEVTKTLDVMGEVCPVPDVETKRAMKKMKPGEILEVLIDYPMSKERIPEAVKKMGNEVLEIEESGSSEWKIYIKIK;locus_tag=LOCUS_15960;note=WP_004080581.1 sulfurtransferase TusA family protein (Thermotoga) [pid:84.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-33],MGA_1606
sequence1	MetaGeneAnnotator	CDS	1736806	1737798	.	+	0	ID=MGA_1607;product=YeeE/YedE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080582.1;translation=MEWSGLIIGLIFGVILQKGRVCFNSAFRDVLMFKDNYLMKLAALTLALESIVFVLFAQFGWMTMNPKPLNWGANIVGGFIFGLGMVLAGGCASGVTYRVGEGMTTAWFAAVFYGLTGYATKHGAFNWWLKLFGQSIKTTNDSQYFVEKSGPTLSSVLHLNQWIVVAIFVGLMLWYVFGTKTTERPTKLGFKTASILIALLAGFAFITSTASGRHYGMGITGGWINLFDGFLNKKPLNWEGLEILGIIVGAGITAKLAGEFKLRMPKNPITYLQVMIGGFLMGLGAVTAGGCNVGHFLTGVPQLAISSIVASIFFILGNWTMAWLLYRERD;locus_tag=LOCUS_15970;note=WP_004080582.1 YeeE/YedE family protein (Thermotoga) [pid:64.9%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:1.2e-124],MGA_1607
sequence1	MetaGeneAnnotator	CDS	1737815	1738171	.	+	0	ID=MGA_1608;product=DsrE/DsrF/TusD sulfur relay family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080583.1;translation=MKIAIQAMVQPYTYQDLDSIIKIADAALDKGHEVTIFLFCDAALASNKQIKPVRSDRNLPKILETMIKEKGLKVDICGICMDYRGITTDMIIEGSRASGLPELAELVYNSDRFISFMA;locus_tag=LOCUS_15980;note=WP_004080583.1 DsrE/DsrF/TusD sulfur relay family protein (Thermotoga) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-40],MGA_1608
sequence1	MetaGeneAnnotator	CDS	1738180	1738542	.	+	0	ID=MGA_1609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080584.1;translation=MDKKVLFVVYQSPVGSLWTNEGFRTAFGMYGEDIEPSLLVLEAASTSLSKNTAPEKMGLLPIKIVHRFVKRYETEVFGVEEHLEKYGVKKENIDENFNAKLLKENELNEFFHSFDSVIFM;locus_tag=LOCUS_15990;note=WP_004080584.1 hypothetical protein (Thermotoga) [pid:63.6%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:6.3e-40],MGA_1609
sequence1	MetaGeneAnnotator	CDS	1738552	1738821	.	+	0	ID=MGA_1610;product=sulfurtransferase complex subunit TusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080586.1;translation=MALVLVKYGLDNPAERIKLSNTKDEDTIVFIQNGIFWTRTAEINSIKGKKVAIKDDFICRGYDESEAKVPLIDYSNFIDIVEKEEKFIG;locus_tag=LOCUS_16000;gene=tusB;note=WP_004080586.1 sulfurtransferase complex subunit TusB (Thermotoga) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-23],MGA_1610
sequence1	MetaGeneAnnotator	CDS	1738873	1739463	.	+	0	ID=MGA_1611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYKKLNVQTLDLTDLFKILTNQARLEILVLLKDSCSTLNEMIEKLSMDKSTIYRHLRYLKNRSLIISYEKDGVERYDLSCKLVYDLIESGIQILSNLKNIKSYSYNNLKIFSNEIKNIEEINVDKFIDLCGEVCPVPDVTARKEIKKLKKGQVLLVIVDYPLSKERIPKIIESDGNEILAIVDDSLSTKIYIRRN;locus_tag=LOCUS_16010;note=WP_004080581.1 sulfurtransferase TusA family protein (Thermotoga) [pid:47.2%25%2C q_cov:36.2%25%2C s_cov:91.1%25%2C Eval:3.4e-12%2C partial hit],MGA_1611
sequence1	MetaGeneAnnotator	CDS	1739468	1740835	.	+	0	ID=MGA_1612;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083198.1;translation=MFDAIVIGGGPGGYVSAIRLSQLGKKVAIIEKKAFGGTCTNVGCIPTKAMLTSAHLYSEIIEKSKKFGIEVENVNYNFKNIMKHMEKIVTSSKKGVEFLMKKNKITVYNGTAEILNKNTVKIKETNENLETKNLILAHGSVPVMFPPFDKVEGLWTSDDVFSLEKLPESILIIGGGVIGIEFSTFFSTLGKKVYVIELADHILPTEDLDVANEVKKVIKKNGVSIYEKHKVLGVEKNETSYITKILNSETNEEISIETEKVLMAVGRKPNITDDIKNLGVNIERGVISNDEMKTNIENVYAVGDIKGKIMLAHVAMFEGIVAAHNIAGEKKLMDYSAVPSIIFSNPEVASTGLREKDLDKEKVIVSKFPLSANPRARTLEERYGFVKIIADKETKKILGMSVVSPNATDMIMEGVISVRNNMNIENLVDSIHPHPTLTESFLGALEGLEGMAIHL;locus_tag=LOCUS_16020;gene=lpdA;EC_number=1.8.1.4;note=WP_004083198.1 dihydrolipoyl dehydrogenase (Thermotoga maritima) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-159],MGA_1612
sequence1	MetaGeneAnnotator	CDS	1740854	1741195	.	+	0	ID=MGA_1613;product=glycine cleavage system protein GcvH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865076.1;translation=MKKYSETHEYAIIDEKIATIGISINAADELGDITFIELPEVGKEVKSGDVLCTLESVKSAGDVYTPLTGKVIEVNKALEEKPELMNDDPEDEGWICKIEFSAKEEIDNLKDSD;locus_tag=LOCUS_16030;gene=gcvH;note=WP_010865076.1 glycine cleavage system protein GcvH (Thermotoga maritima) [pid:53.2%25%2C q_cov:98.2%25%2C s_cov:89.5%25%2C Eval:2.0e-33],MGA_1613
sequence1	MetaGeneAnnotator	CDS	1741307	1741726	.	+	0	ID=MGA_1614;product=ferredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082361.1;translation=MAVPNDVPAIGKDALGREVKDLTKVSWWGLNRKEVEWFPKIDLDKCAGCGICFVSCGRRVFDFDASLEKPIVAQPYNCMVGCQTCANLCPTSAISFPDSKEIKKMVSKNNVVKKAFEKIQPLLKKDNLSEKEIKITPNE;locus_tag=LOCUS_16040;note=WP_004082361.1 ferredoxin family protein (Thermotoga) [pid:65.7%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:3.6e-51],MGA_1614
sequence1	MetaGeneAnnotator	CDS	1741749	1742651	.	-	0	ID=MGA_1615;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048053764.1;translation=MAHHHSHGEINSKNLIITMFLNFSITVAEIIGGIFSGSLSLLSDALHNLSDGFSVIITYIALKLSKKKHTEKMTFGYKRAEILAALFNASVLVIVSIFLFKEAYLKFINPEPINGGVMIWVALIGLIANTLSVILLSKNAKDSVNIKSTYLHLLSDALSSVGVVIGGIMIYYFKIYWIDPLLTALIGAYVIKESFEILNETLKILMQATPEEINVKELEDKINKIKEVENIHHLHIWRLSEHDIHAEFHIKLKDDVKLSEADIIREKISKLAHDSFDIEHTTIQMEYKQRESVGLIKNNE;locus_tag=LOCUS_16050;note=WP_048053764.1 cation diffusion facilitator family transporter (Thermococcus kodakarensis) [pid:48.6%25%2C q_cov:95.3%25%2C s_cov:94.0%25%2C Eval:1.7e-74],MGA_1615
sequence1	MetaGeneAnnotator	CDS	1742653	1742964	.	-	0	ID=MGA_1616;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948232.1;translation=MIIIKENIKEHDYYVDIAEFFSAFADPTRLKILHVLLDGEKCVQKISTLLELNQSTCSHQLKLLKQYKLVKARREGKFIRYSLDDEHIEKIIKIGDEHVKGDD;locus_tag=LOCUS_16060;note=WP_011948232.1 metalloregulator ArsR/SmtB family transcription factor (Clostridium) [pid:43.8%25%2C q_cov:93.2%25%2C s_cov:79.3%25%2C Eval:8.0e-19],MGA_1616
sequence1	MetaGeneAnnotator	CDS	1742969	1743676	.	-	0	ID=MGA_1617;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933393.1;translation=MLILTLFGIPISQAATAGQFILFSAAFAAMIIFHKKKVVIWSLAFLIGGLSATSAFLGGYFSHFFTPVTLKLTFSVLLIISGIIMLIPVAEKNITSKNKKIGYWTIKSKDNNYLINLWLIIPITILIGFTSGMVGVSGGSFLVPLMVLGCSVPMYVAVGTASPLIMVTAFTGFLGHLFQGDFNAVLSISLAIIAIFGGVIGGKLALKSRPKNLKKIFAYTNWLAAVLMLGNIFLR;locus_tag=LOCUS_16070;note=WP_010933393.1 sulfite exporter TauE/SafE family protein (Chlorobaculum tepidum) [pid:45.6%25%2C q_cov:97.0%25%2C s_cov:86.3%25%2C Eval:1.7e-54],MGA_1617
sequence1	MetaGeneAnnotator	CDS	1743757	1744299	.	-	0	ID=MGA_1618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVYCPTMTPFASEILKNVSDEVEFIKVPSAAQALSMLKYNEADSVLIGRSAKQRELSEDTKELRLKNGYTLAFKDKEMIYEEELKDLSVLTYLNENDLNDFKDTFKEIKYLSSLKECLKFKLDIPILVDWQDFREDFQLLIPVNDDGKVMKFRAPVLYYKKRTEDILKIKNMFNGENE;locus_tag=LOCUS_16080;note=MGA_1618
sequence1	MetaGeneAnnotator	CDS	1744492	1745259	.	+	0	ID=MGA_1619;product=metallophosphoesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082427.1;translation=MKIAFISDIHGNIEALNSILNDIEKQNIDKIYSLGDLVGYGPNPNEVVEKIRELKIQSVMGNYDDAVGNEKESCGCTYNPGRETEVGDESISWTIKNTSSENKNFLKNLPKKLHIEFEGLKILLVHGSPLNELLEYVKPNIEVNRLNELVNSVNEDIIINGHTHISMEKNINGKTVYNAGSVGRTKEGIPEAVYLIIDINNGVYSHEFRRIKYDTKKTCEKIINTGLPIELALVIALGSTYNMGNSKKRSIKFKL;locus_tag=LOCUS_16090;note=WP_004082427.1 metallophosphoesterase family protein (Thermotoga) [pid:57.9%25%2C q_cov:96.9%25%2C s_cov:97.2%25%2C Eval:1.4e-84],MGA_1619
sequence1	MetaGeneAnnotator	CDS	1745284	1746018	.	-	0	ID=MGA_1620;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015646122.1;translation=MFKKELKDNRLKLIITFFVFLTMFLFLYFMQQKTYEIFNSNTSLREMFNSNQDYESYKENLKDYSIYIKTQWYIKNIGQFIPFLGILLSFSIFTKEFTKKTISIFLLRIGRKNFFNYKFFSNLIFSIILILFIDLFPFFGILQNKILHSSIFFEYFLGHVTAFLIFYSFTIFISLLTNEQSKTLIISFFVLVFFTSVSIFGIKELSIYYFISNPFFSIWYTILLLFLSIIFYLISLRLFLKKEL;locus_tag=LOCUS_16100;note=WP_015646122.1 ABC transporter permease subunit (Thermotoga maritima) [pid:26.3%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.0e-23],MGA_1620
sequence1	MetaGeneAnnotator	CDS	1746011	1746841	.	-	0	ID=MGA_1621;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080933.1;translation=MSLIEVKSLKKMYKFGKRTLKKISFNIEEGEILSIIGPNGAGKTTILKSLLKLIKSGGEIKYKNNKITENDIINDFSYLPEDKVLYENYTPNEFIKLINNIDKKFNLKKALEYLDNFKIDKNIKLKKMSAGKKVLFYFIITISRNSNVYLFDEPTIFLDSITKKKILEEILKLSYDNKTIIFTTQILSEVEFISSKVLILNNGKIVEFDYIDKIKSRYIGLLTSNDLKDFISKKNIVNNEYLYIVDKKKYDTSLFKTEDLTFETIYEELIGGHENV;locus_tag=LOCUS_16110;note=WP_004080933.1 ABC transporter ATP-binding protein (Thermotoga) [pid:37.3%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:4.0e-43],MGA_1621
sequence1	MetaGeneAnnotator	CDS	1746838	1746960	.	-	0	ID=MGA_1622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIEVKSLKKMYKYRIKRSGIDKEKIINFIEEYLEGDSK;locus_tag=LOCUS_16120;note=MGA_1622
sequence1	MetaGeneAnnotator	CDS	1746957	1747325	.	-	0	ID=MGA_1623;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080932.1;translation=MWFKINYSLPKPVYEQIKDRIKDLILSGKIIEGEYLPSIRVLAESIKVNLNTVARAYRELEFEKIITAKKGKGYVVNKINEELIEVEIFNELKIILNRIKRSGIDKEKIINFIEEYLEGDSK;locus_tag=LOCUS_16130;note=WP_004080932.1 GntR family transcriptional regulator (Thermotoga) [pid:53.3%25%2C q_cov:98.4%25%2C s_cov:99.2%25%2C Eval:1.5e-30],MGA_1623
sequence1	MetaGeneAnnotator	CDS	1747434	1748000	.	+	0	ID=MGA_1624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRINSVNEYPLNHLNFKNSKKSKKTKISVTSVSIKKEEIEIEKFNDYSNLKPKEVKSKEAWKVLKNKYGNIFLKVKEYVDYLVKKQNGIKVKEPDLSEIKDELSKEDWSAEGVANRIIEFAKSISGGDKSKIKLLKDAIEQGFNEAKKELGSLPEVSQKTHDLVMKKLDEWENEKNTEDKENSNGKNN;locus_tag=LOCUS_16140;note=WP_010941688.1 hypothetical protein (Geobacter sulfurreducens) [pid:36.9%25%2C q_cov:56.9%25%2C s_cov:60.0%25%2C Eval:1.1e-12%2C partial hit],MGA_1624
sequence1	MetaGeneAnnotator	CDS	1747984	1748817	.	+	0	ID=MGA_1625;product=NAD(+) synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081153.1;translation=MEKIIEFIKNTVNKYGYKGAVIGISGGIDSAVVAGLCKKAIGKENIFALLLPEKDSSKNTLKDSIDVCNFYDLDYKIKKISPILKKMGVYSLEPSSTLIPRNIKEKYVMNKWTNEKDTYIQDLKNEGDSEFLKGLAYYRAKHRVRMCMLYLEAEQRNYAVIGTTNKTELKTGFYVKYGDDSVDIEPIMHLYKTEVYELSKKLNIPKHIINKSPSPDLIPGITDEFAMGLTYKNIDRILKKIENNETLETENKKEVERVKEILKWADYRKIKNINFKI;locus_tag=LOCUS_16150;gene=nadE;EC_number=6.3.1.5;note=WP_004081153.1 NAD(+) synthase (Thermotoga maritima) [pid:55.8%25%2C q_cov:98.9%25%2C s_cov:98.2%25%2C Eval:4.4e-90],MGA_1625
sequence1	MetaGeneAnnotator	CDS	1748856	1750661	.	+	0	ID=MGA_1626;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGQSDFKTIIEEDMYFVDKSMLIKEVIESGNVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKDLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLSMELSSLYIDHKYVLEVLNEEEKSVYKSITSETADDAKYENSIRNLSKYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEENEVINWYNGYNFGGVEIYNPFSIINLVDEKKIRPYWMNTSGNYLVKQLIKQGSAELKDKIEKLINGEEIESTINETMVYGDLNNNLEESVWTLFLFSGYLKWTKNINHDYERYTLKIPNKEVKIFYNKTVVSMLEEERIKLNNILINLINGHIEEFKEDFQKLTMNTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAKNGLKQINEKRYEEDIKNYGINDIIKVSIAFDKKEVEIVSNLDKKVELTDMEKVAKELLKNGVDIEIISKTTKLSIEKIKKLTSKNRRICKD;locus_tag=LOCUS_16160;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.5%25%2C q_cov:91.0%25%2C s_cov:99.1%25%2C Eval:1.1e-106],MGA_1626
sequence1	MetaGeneAnnotator	CDS	1750889	1751755	.	-	0	ID=MGA_1627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTRDISDQIMDLYGFEVSAELVSKITNKLMPVIKDWQERPLHEIYTFVFLDAIYFNVREDGRIVKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARFHNWNAVISELAILFEDRLKDYL;locus_tag=LOCUS_16170;note=WP_011074430.1 IS256-like element ISSod4 family transposase (Shewanella oneidensis) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:72.0%25%2C Eval:2.6e-80%2C partial hit],internal stop codon at [1751807:1751809](-),MGA_1627
sequence1	MetaGeneAnnotator	CDS	1751832	1752032	.	-	0	ID=MGA_1628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDRVKGTSRQEGRI;locus_tag=LOCUS_16180;note=MGA_1628
sequence1	MetaGeneAnnotator	CDS	1752188	1752475	.	-	0	ID=MGA_1629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYTQNEKIKQVDEKTLVVGVDIAKKTHYARTFDNRGIEYGKVIKFKSNRDGFEDFKKQIKEIAKKEGKEKIIIGIEPTGHYWCILQVKNKPNYN;locus_tag=LOCUS_16190;note=MGA_1629
sequence1	MetaGeneAnnotator	CDS	1752933	1754732	.	+	0	ID=MGA_1630;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIEDNMYFVDKSLLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHALLTMELSRLYTKHEYVFEILSEKEKIVFKEIMLETADDAKYENCIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKISTVLNELFNDKYGLTKEEVEETLKYYELEYEEKEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIGPYWMNTSGNYLIRKLIKEGTVNIKDNVEKLINGEEVECEIIETMVYGDLNLNSESAIWTLFLFSGYLKWTSKKRQNNITTYKVKIPNEEVKDFFVQTVRNMLRESNISIENMLLNLKVGRIKTFTDQFKDLTMNTLSYFDVSGKEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNRDEDKSLKDSAKNGLKQINEKKYEEEIKNYGINDIIKVSIAFDKKEVEIVSNLDKDVELTPEERMAKELLKNGVDIEIISKTTKLSVEKIKKLTSKNRP;locus_tag=LOCUS_16200;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.1%25%2C q_cov:91.7%25%2C s_cov:99.1%25%2C Eval:1.2e-97],MGA_1630
sequence1	MetaGeneAnnotator	CDS	1755199	1756050	.	+	0	ID=MGA_1631;product=sulfide/dihydroorotate dehydrogenase-like FAD/NAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986284.1;translation=MYKIISNKKLAENIHEMIIEAPRVAHSAKPGQFIILIIDKKGERIPLTIADYDKEKGTVNIVVQAIGYSTKKLVSLKENEYIKDFAGPLGNESEFVHEDIEILKNKRIVFVGGGVGSAPIYPQVKWFSERNIKTDVILGFKNKDFIILKEEFEKLNCNLHICTDDGSYGFKGLVTNKLQDMLDNEEIDEVITIGPMIMMKFVSKLTKKYNIKTIASLNTIMLDGTGMCGGCRVSIGGKVKFTCVDGPEFDAHLINFDEAMNRQTTFSDIEKKHSCRLDGAING;locus_tag=LOCUS_16210;note=WP_011986284.1 sulfide/dihydroorotate dehydrogenase-like FAD/NAD-binding protein (Clostridium botulinum) [pid:63.4%25%2C q_cov:98.2%25%2C s_cov:94.6%25%2C Eval:2.6e-101],MGA_1631
sequence1	MetaGeneAnnotator	CDS	1756043	1757425	.	+	0	ID=MGA_1632;product=NADPH-dependent glutamate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986285.1;translation=MDKRIKMTEQDPNVRKNNFFEVSLGYTEDEAVEEAKRCLNCKNPRCVPKCPVAIDIPGFIQEVKKRNFKKAYEILTKYTSLPAVCGRVCPQEIQCESTCILGIKGEPVAIGNLERFVADWAIKNNIEIKNTIEKNGHKVAIVGSGPAGLACAGDLSKMGYDVTIFEALQEAGGVLTYGIPEFRLPKDKIVKTEINKLKKLGVKIETDVIIGRTITIDELIEEEKFEAVFIGSGAGLPRFMNIPGENTKGVFSANEFLTRTNLMKAYLEDYETPIKVGKRVVVVGGGNVAMDAARTALRLGSEVHIVYRRSEKELPAREAEVHHAKEEGIQFHLLTNPVEILADENDWVKGVKCIKMELGEPDESGRRRPIEIKGSEYIIDAETVIMAIGTTPNPLITSTTKDIEINKKQCIVADEDGKTTKDKVFAGGDIVTGAATVILAMGSGKKAAKAIDKMIRKNNS;locus_tag=LOCUS_16220;gene=gltA;EC_number=1.4.1.13;note=WP_011986285.1 NADPH-dependent glutamate synthase (Clostridium botulinum) [pid:71.3%25%2C q_cov:98.9%25%2C s_cov:99.1%25%2C Eval:1.8e-191],MGA_1632
sequence1	MetaGeneAnnotator	CDS	1757477	1758778	.	-	0	ID=MGA_1633;product=M18 family aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963927.1;translation=MNTEIKFAKELIDFIYESPTAFHAVKNVKNILLNSNFKELKENEKWNLKKEGKYFVTKNDSALIAFIVGTDEIGNSGFKLIGAHTDSPSFRIKPSPEIIVEKTYMKLNTEVYGGPILNTWMDRPLALAGRVTLKSENILNPNTKLININKPIMIIPNLAIHMNRKVNEGVELNKQKDLLPLLSMVNEKLEKENYLLNIIAKELEINPEEIIDFDLFLYEYEKGCIMGVNNEFISSPRLDDLAMVHAGIEAIKVAKPTKATNVMVCFDNEEVGSTTKQGANSDMLANILERITIALGGNREDFFRALSNSYIISADNAHAIHPNMPEKHDPTNKPVINKGPVIKINANQSYTTDSNSSAVYEMLCKNAGVPYQKFVNRSDVRGGSTIGPISSTHLNIRSIDIGNPQLAMHSIRELSGVLDHTYVKKSFDEFYKI;locus_tag=LOCUS_16230;note=WP_010963927.1 M18 family aminopeptidase (Clostridium) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-167],MGA_1633
sequence1	MetaGeneAnnotator	CDS	1758826	1759854	.	-	0	ID=MGA_1634;product=M42 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680378.1;translation=MKKYINYAVNKIEELCKTPSPTGYTIKAQEYLKNEFKKIGYEATTSNKGSVIVDLGGKGDKLVLAAHIDTLGAMVRSIKGNGRLRLTKLGGFPENNIESENCIIHTRNGKEYTGTIQLVNPAVHVNREVGTMKRNDTTVEVVIDEIVKNKEDVEKLGIKVGDFISFDPRTIVTESGFIKSRHLDDKASAGILIALAKYIKENAVQLNKKVCLIFTNYEEVGHGGSAGIPEDTKEMISVDMGAVGDDLTTDEFKVSICAKDSGGPYNYELTTNLINIAEKLKLNYAVDIYPYYGSDVEATLRAGYDIKHGLIGPGVFASHGYERTHKEGIENTFKLILNYIQQ;locus_tag=LOCUS_16240;note=WP_002680378.1 M42 family metallopeptidase (Treponema denticola) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:8.7e-105],MGA_1634
sequence1	MetaGeneAnnotator	CDS	1759851	1760660	.	-	0	ID=MGA_1635;product=bifunctional 5%2C10-methylenetetrahydrofolate dehydrogenase/5%2C10-methenyltetrahydrofolate cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082313.1;translation=MKIDVLPVIEKIKKEIKEHREKLNRKPKLISITDDYTGATKAYLKSQKRIAKEYDVDFEIIETENLIETIKKYNEDKNVDGIFVARPTKTIKFIEVAKILNPAKDVEGVTPYNMGMNFYGVEEFVPCTAESAVKILEQTEELKSKKVAVIGRSITVGKPLAIMLENYGRDCTVNILNSKTKNMQEITKNSDIVIVAIGKANYVNMDFLKEGTTVIDVGINVVDGKLTGDVSKEVEKYCSVTPVPGGVGSVTSAILMRNVFRAAIKGGKI;locus_tag=LOCUS_16250;note=WP_004082313.1 bifunctional 5%2C10-methylenetetrahydrofolate dehydrogenase/5%2C10-methenyltetrahydrofolate cyclohydrolase (Thermotoga maritima) [pid:47.4%25%2C q_cov:97.8%25%2C s_cov:98.2%25%2C Eval:2.4e-61],MGA_1635
sequence1	MetaGeneAnnotator	CDS	1760671	1762338	.	-	0	ID=MGA_1636;product=formate--tetrahydrofolate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865397.1;translation=MLTDIEIARKAKLEKIDNIAEKLNIPEEYYNNYGKHIAKISNHYMKELKDKKDGKLILVTAITPTPAGEGKTTTSIGLSMALNKLEKKSIVALREPSLGPVMGIKGGAAGGGYSQVLPMEDINLHFTGDIHAITTAHNLVSAVLDAHIKYGNKLNIDTTRILWKRAMDMNDRALRNIVIGLGGKANGVTREDGFIITAASEVMAVLCLAESITDLKKKLASIVIARNLKGEPVTIGDLKIEGSLALVLKDAINPNLVQTIENTPALIHGGPFANIAHGTNSMMATKMALKMTDYVVTEAGFGADLGAEKFLDFVSPTFKLHPDTVVLVATIRALKYHGGQKLDTISEENLETLNKGLENLKVHIENLKKFGVPVVVAINKFATDTEKEIQIVKDYAENLGSKASINTSFADGSSGAIELAKEVIESVEKENNYKPLYTLENTLEEKLEILSKEIYRAGTLELTPTAKSKIKFLRKYGYDNLPLIVAKTQSSISDDKKKLGAPNGYKFTVRDFELSAGAGFIVALAGEIMRMPGLGKIPNAVNLDIDKDGIIKGLS;locus_tag=LOCUS_16260;EC_number=6.3.4.3;note=WP_010865397.1 formate--tetrahydrofolate ligase (Thermotoga maritima) [pid:60.0%25%2C q_cov:97.8%25%2C s_cov:100.0%25%2C Eval:1.1e-185],MGA_1636
sequence1	MetaGeneAnnotator	CDS	1762496	1763281	.	-	0	ID=MGA_1637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011706989.1;translation=MKKILILILFIVLFNFSFSIDFKNIVINITDDGAEWPPYIYYERINGEKTNKITGFTVEVIKKIFEAENIKYTITLLPWKRALKEVEIGKKYQMILNASYNEDRAKKFYFSKPFYYTHPYYFYNKKLHPNGLDIKKLNDFKNYRINGVLGYNYELYGLNKKNVDTTAKNFLGAIKQIQANYYDLFPEAFEVLYGYFILNDLDFEKEQIGYKPIQWLKPTTFYAIFTKNSFGLELKKIFDKGLEKLKESGEYDKILDKYIKY;locus_tag=LOCUS_16270;note=WP_011706989.1 hypothetical protein (Aeromonas hydrophila) [pid:26.6%25%2C q_cov:87.4%25%2C s_cov:87.2%25%2C Eval:7.7e-17],MGA_1637
sequence1	MetaGeneAnnotator	CDS	1763299	1765422	.	-	0	ID=MGA_1638;product=glycogen debranching protein GlgX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680950.1;translation=MVKDFKVHRGYPVFGATVDSKGVNFCIFSRNGKKVTLEIYENFYDDVPIFKYTLNERKFKTGDTWHIYVENAKANMYYGWRIDGEYDPEKGNRFNYKKLLLDPYAKAISGTYDFDDPSMYGYKKDSKFKDLEISDINSSKSSCKSIIIDDSSYDWEDDEHPRTPFNDTIIYEMHVRLFTMNPNSEVEYRGTFDGIIEKIDHLKKLGITAIELLPIFEFNPSANTRINPLTGERLEDVWGYNPINFFSVTGNYTHGLRLGEQVFQFKDFVKTMHKNGIEVILDVVYNHTGEGNEMGPTLSFRGIDNSIYYILEKNKRYYANYSGTGNTLNCSHLVVKEMILESLRYWVTEMHVDGFRFDLAAVLGRDSKGNWIGDVSLLKDIADDPILSGSKLIAEGWDAAGGYFVGEFPTGWAEWNGKFRDTVRRFIKGDNGTVSDLATRIAGSPDLFWKEGRTTYSSVNFITAHDGFTMWDLVSYNYKKNIENGENNRDGMNENDSYNHGYEGETDDPAIIKLRKRQIKNFIVTLMVSQGVPMILMGDEVCKTQHGNNNAYCQDNHKNWIDWRRKDKFNDIYNFFVKMIDFRKKHHSLRRVHFFTGRDFTGNGIADVTWHGVKPYNPDFNENSHSLAFLISGEDFAEKYKKKDNDIYVVLNSYHEPLTFEIPEIKGKKWYRVVDTYNENDFLDDPIVLNSTKYIVKEKSSIILISK;locus_tag=LOCUS_16280;gene=glgX;note=WP_002680950.1 glycogen debranching protein GlgX (Treponema denticola) [pid:45.9%25%2C q_cov:98.0%25%2C s_cov:97.6%25%2C Eval:1.1e-177],MGA_1638
sequence1	MetaGeneAnnotator	CDS	1765595	1765879	.	+	0	ID=MGA_1639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082172.1;translation=MFNFFKKKNKKSIFKSEGNTLYISIKCDKCGTEFNSHLRKGYDLITDYSTGNFFINKEYICPKCYSKIKLNAVFNGKYQLNSLEIIGGKIQNEE;locus_tag=LOCUS_16290;note=WP_004082172.1 hypothetical protein (Thermotoga maritima) [pid:40.9%25%2C q_cov:91.5%25%2C s_cov:80.6%25%2C Eval:1.6e-11],MGA_1639
sequence1	MetaGeneAnnotator	CDS	1765869	1766363	.	+	0	ID=MGA_1640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDTSIQEFEYRPVRPFIQIPEKVLMYILQLTPSSFSKVYLYLYNISYGAGYNKTFMYTSVREIAKNLNISIGRVHNAITYFKKIGAIEKIVSKAVIGTKFLVNVPEFSSAKGLWFFTKPEKVRYLMMKEKLITEDKIVMSKIKRYKSQKENQKIELFDKKNN;locus_tag=LOCUS_16300;note=MGA_1640
sequence1	MetaGeneAnnotator	CDS	1766407	1767267	.	+	0	ID=MGA_1641;product=type II CAAX endopeptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948612.1;translation=MKKNFLITKQVILPTSFGILLIPLSQLISSLVYLLPLPKEITSILFGIVYIIISYSSIKLYCNKILYISPNSCYINKPKIYIKWLIVGILLPIIVSFVFLSSSGELIKNTMNTRGFINIILTAIFILGFSTGVVEEMIFRGLIMKVFEKQWGKTISIIVPSIIFSVLHIIGHNLNIIDIILLCIAGTTVGIMFSLIVYESNSIWASAIVHGLWNIIIIGNILSISTTHNKNAIFSYKLSSTFQFFTGGSFGIEASIISVLGYIAVIIFSLYSIKKKYKLTQKILEK;locus_tag=LOCUS_16310;note=WP_011948612.1 type II CAAX endopeptidase family protein (Clostridium botulinum) [pid:45.6%25%2C q_cov:95.8%25%2C s_cov:97.1%25%2C Eval:7.7e-61],MGA_1641
sequence1	MetaGeneAnnotator	CDS	1767622	1769151	.	-	0	ID=MGA_1642;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986679.1;translation=MKRFNTTGVCVPKKHYMVNTENKLKQIMKLIENGEYFTINKPRQFGKTTTMFLLEKKLENKYTVISISFEGIGSIIMEDEKEFVQSFLEDITDSLNIKIDKKIIKTMKELSKIITKIAKASEKKIVLMIDEVDKSSNNQLFLNFLGMLRTKYLEANKGKDYTFYSIILAGVHDVKSLKTHIRPNEEIKYNSPWNIAVDFDIDLSFNSDEISTMIVDYYNDRGYELNNVKYISEKLYYYTSGYPFLVSKLCQIIDEEMMVEKEWTDEVLQDAVKIILKKQNTNFESLIKNLENNEDIYNLVYKIIIDGKEVKYNMYNPIINLCLMYGILKNENGTLKVQNKIYEQLIYDYMASKIETSQNVDTERYNFRDNFIIGDKLNMELVLKKFQLFMKEQYSEKDMNFVERNGTLIFLAFIKPIINGKGFDFKEVQVSEEKRLDVVITYGKYKYIIEMKKWYGEEYHKRGIKQLEHYLEINNQNKGYLVIFDTRKKSNKKQDNIKIKNKEIFVVWV;locus_tag=LOCUS_16320;note=WP_011986679.1 AAA family ATPase (Clostridium botulinum) [pid:52.1%25%2C q_cov:95.5%25%2C s_cov:94.6%25%2C Eval:1.3e-145],MGA_1642
sequence1	MetaGeneAnnotator	CDS	1769166	1769771	.	-	0	ID=MGA_1643;product=histidine phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081572.1;translation=MNIYIVRHGESEHNKAGIWQGLLDGELSEVGIEQARKLSNKLQNEKIDAIYSSKLKRAMKTADIIAEKHNLKVERYKEFNECKIELWNGYSINDVFTKFSSEFEEWANNPWTIIEGVESMGNLQKRVVEKFLKIVKKHSEEDTILIVSHGLALRTIIHWIFEMPLNKYRKIHLYNTSLTKIKYEKDTFSIEFLNDTSHLTK;locus_tag=LOCUS_16330;note=WP_004081572.1 histidine phosphatase family protein (Thermotoga maritima) [pid:42.3%25%2C q_cov:99.0%25%2C s_cov:98.5%25%2C Eval:1.8e-40],MGA_1643
sequence1	MetaGeneAnnotator	CDS	1769841	1770548	.	-	0	ID=MGA_1644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEYLKQNMKNLYGNKGLSFLKNLNQIISKIEKIKKYKYIKDFKTLSFNYVGLFEKDNEKYAIKIFVPNDEIYGEVFALKNKNLVEIIEYDKNLYCLIEKYAGNKMLLDLNDNKKETEIAAKLLKKLYIKKEYYNDKKLKNIKDMSKNIINFYDILSKDIDKNIIDESIQLFNSLKYEDLYLIHGDFHHFNILINSSPIIIDPKGYLGNIYYEISNYMRNNLKENKEYEIMESLI;locus_tag=LOCUS_16340;note=MGA_1644
sequence1	MetaGeneAnnotator	CDS	1770571	1771584	.	-	0	ID=MGA_1645;product=3-deoxy-7-phosphoheptulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083125.1;translation=MIIFLKNNCENNELEKLKNTIKSMNLKFKLYNHGERNIIELIGEDRYFSKERFETFTCVEKVVKILKPYYLVSKEYKNETIIKFNDFEIKNNNFTIIAGPCSIEDRDMTFEIAHFLKENGIKIMRGGAFKPRTSPYSFQGNGMKALEYLKEASEKYNLLTVSEAVGIDVLKEIKNYVDIVQVGSRNSQNFELLKNLGSINKPVLLKRGFMNTIEEFLQSAEYIALRGNKNIILCERGIRTFENQTRNTLDISAFPLIKLNSNLPIISDPSHAAGRRDIIPTLAKASMASGANGIIVEIHPNPEKALSDGKQSLNFKEFQSMVKELINLSSALNIKIN;locus_tag=LOCUS_16350;gene=aroF;EC_number=2.5.1.54;note=WP_004083125.1 3-deoxy-7-phosphoheptulonate synthase (Thermotoga) [pid:58.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-111],MGA_1645
sequence1	MetaGeneAnnotator	CDS	1771586	1771927	.	-	0	ID=MGA_1646;product=chorismate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009924600.1;translation=MIAIRGATSIEKNESKHIKEKTIELYDKIMKENDIKKILSIIVSVTSDITEINPVTIIRENFKLKKVALLCVQEAQFKNSKNGIIRFLIHCESNTNNFVFLHDARELRPDLEE;locus_tag=LOCUS_16360;gene=aroH;EC_number=5.4.99.5;note=WP_009924600.1 chorismate mutase (Listeria monocytogenes) [pid:36.4%25%2C q_cov:98.2%25%2C s_cov:95.2%25%2C Eval:4.2e-12],MGA_1646
sequence1	MetaGeneAnnotator	CDS	1772044	1773024	.	-	0	ID=MGA_1647;product=glycoside hydrolase family 130 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005786056.1;translation=MSNLNIPWEDKPLNCDDTIWRYSKNPIIERNAIKNSNSIFNSAVISYENEFVGIFRCDNKCREMNIHFGSSKDGINWKIKDKPIEFKSANSSDEEVGISSYKYDPRLCKIENRYYITWCNGYHGPTIGVGYTDDFKTFYQTENAFLPFNRNGVLFPKKINGKFAMLSRPSDNGHTQFGDIFYSESPDLIHWGKHRHVMGTTNINTSPWQSTKIGAGPVPIETKEGWLLIYHGVLTSCNGYVYHMGAAILDKETPWKVLYRSRPYLLSPQKQYECVGDVPNVVFPCATLHDKKTGKIAIYYGAADTVTCLAFSTIQDIIDFTKNNSL;locus_tag=LOCUS_16370;note=WP_005786056.1 glycoside hydrolase family 130 protein (Bacteroides) [pid:65.4%25%2C q_cov:98.5%25%2C s_cov:95.8%25%2C Eval:4.6e-132],MGA_1647
sequence1	MetaGeneAnnotator	CDS	1773024	1776152	.	-	0	ID=MGA_1648;product=alpha-mannosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989870.1;translation=MYFTVEKIKKYVEEIKKHIYEKIIDLEIMEYINIGVNNLGLDYVKNKTWKEFNIGNRWGNKDEIYWFRKTIKFPNDWSKDNVALYFNLGKGDLGGLSGTESLIYINEKPVQGLDINHSEVFLKPEWIINEKIIIHIKAFSGINNKNNLFSEAKLVKINRVTEDFYFRSLTVLQTVLELDKNSFDRKNLIEFLDKSFKVIDFRKTGTKEFYDSITKANELLEEFLKNYKSNEKNKPKVVAIGHSHIDVAWLWRLKHTREKASRTFSTVNHLMNQYEEYQFVQSQPQLYDYIKKDYPEIYENIKKRIKEGKWEVTGGMWVEADCNVPSGESLVRQFLFGQKFMKEEFDIRSKILWLPDVFGYSWALPQIIKKSGCEYFMTTKISWSQFNKPEYDTFNWRGIDGTEILTHFITTPDEHGAHFYTYNGLLTPKSVKGLWDNYSQKDINDELLIAFGWGDGGGGPTKEMIETGKKIKEMPSIPDIEFGKAEPFFKRLDERVKEKYKLPTVDGELYLEFHRGTYTSQGKTKRNNRKSEILLHNVEVFNTLSSIELNNIYPQEKINEGWKILLRNQFHDILPGSSIHEVYEDSQMEFEKLFNLEETLLNKVLQEISDNINIKGNKLIVFNSLSWIRSGEIFIKFNDEFKNKVFVDENNEIAYSKIIGNIIKINVENIPAMGYKTYKIVDGKNESIKNYLKYENDTIENKFYIIKLNKNGQIISLFDKEAYREVLPKGKKANVLQTFEDRPMMFDAWDIDIYYREKVYEINNLVNKKVIENGPDRIVINFEYEFLNSKLSQNMIVYSDKRRIDFETKVNWNEHQVLLKALFPVDVRTTKATYEIQFGNVERNTHWNTSWDYAKFETVAQKWVDLSERNYGVSLLNDCKYGHDIKDNNMRITLIKSGIEPDKMADNGNHEFVYSIMPHVGDWFDANTTKEAFELNYPLIAKTTNKSGNLTSIKSFIEVEETSVILDTVKKSEDENAFILRFYEYSNANDTVKVKLNSNIKILEECNLLEEKEKNVEFNKNIFEFTIKPFEIKTFKVYLEKV;locus_tag=LOCUS_16380;note=WP_010989870.1 alpha-mannosidase (Listeria monocytogenes) [pid:44.9%25%2C q_cov:94.9%25%2C s_cov:94.7%25%2C Eval:1.2e-247],MGA_1648
sequence1	MetaGeneAnnotator	CDS	1776177	1777277	.	-	0	ID=MGA_1649;product=arabinose utilization transcriptional regulator AraR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243070.1;translation=MEQSNKPLYIKIKEYILKNINNGTFKPGEVIPTERSLSENLKVSRQTIRKAIQELVYAGYLYRVQGAGTFVFDKSINSDKKNNHIGVLLNNCSDEFESKILNGIEKALEEKGFSITFMNSNENYKKEAENIHKLKHEGVAGMIIMPAEDQKDSNAISDLKEEQFPFVLVDRRLQGCETDVVMSDNIDGTFKATNHLIDRGHHKIAFIKNRYSITSTIEDRITGYKKAMKNFGFEDEEILLYSYNEYKKTEDQIYEELYKYITENKITGIVALNDYVALHIVKMSRIKNIKIPEDLSVVGFDDKEIVKHLEVPLTTVAQYPKNIGYQAGNLLIKKIEIKNNDELDSKIIHQIYYPTKLIIRNSTKNL;locus_tag=LOCUS_16390;gene=araR;note=WP_003243070.1 arabinose utilization transcriptional regulator AraR (Bacillus) [pid:31.4%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:6.3e-40],MGA_1649
sequence1	MetaGeneAnnotator	CDS	1777547	1779442	.	+	0	ID=MGA_1650;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584050.1;translation=MSKKRLKIFLSFLFMLFMVNSIFGSYSESPMLMERVKNGDLPSVDNRLPIHPKVVKVREEIGKYGGTLHISKGNEMRALLVENTIESTGPIPVFDEKLVEGNVIESWKVMDNGKKFLFTIRKGLKWSDGYPVTTEDVRFTLEDIYSNKNITRIFPDWLVKGGEKVKLNIIDKYTFELDFKEPYGLFLLQLQSIARGSYHFFINPSHYLKKFHAKYTSMDKLKPLLEKEKLDEKSWGKLFQRKWQSSPWNHRKDIGYPVLDPYVVVEKPSDNVTIFERNPYYFKVDEKGNQLPYIDKVRYESISNQELMNMKIMSGELDFTINTSLGDLALYKANEEKGKYNTVLVPIKSINTKACYFPNLTYEDKTWRKIMRNPEFRHALSLAINRDEINELVYYGFGTPSQACDAPGSPFVEKSFRNAYIKYDPKKAEEILDKIGLSKKDKDGWRIGPDGKPFTINIEFFQVNPSLVPTTELVASYWKDIGIKTEMKVIDGGLWYQRQGANKTTMSVWHEDASRPGNPFFFFVPYEMINWGPAWRTWFTTNGKEGEEPPLEVKKLFEYYNKFTSTISNKERIEFGKKILKSQSENLWVIGTVNNIPIPVIINKHLKNVVNGLDPQWGPSMEEQYFFDNVK;locus_tag=LOCUS_16400;note=WP_012584050.1 ABC transporter substrate-binding protein (Dictyoglomus turgidum) [pid:37.0%25%2C q_cov:98.1%25%2C s_cov:98.9%25%2C Eval:7.0e-107],MGA_1650
sequence1	MetaGeneAnnotator	CDS	1779515	1780519	.	+	0	ID=MGA_1651;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584054.1;translation=MITYIIKRILQIIPILIAISIISFIVIELPPGDFLTSKIAQLTKEGGTVSETELNNLRVSYGLDKPVVQRYFIWIWKIISRGDFGRSFKWNKPVFEVIGERLMLTVIISITTLIFVWVVAIPIGVLSATRQYSIFDYGATFIGFIGLAVPNFLLALILMFISYKYFGVTITGLFSQEYADSAWNFGKFLDMMKHIWVPVVVIGTSGTAGIIRTLRGCLLDELKKQYVVTARAKGLSERKILFKYPVRIALNPLISTIGWVLPGIISGDAIVANVLNLPTTGTVLLESLQFQDMYLAASFVLLLSFLTVIGTLISDILLALTDPRIRYERNEKNV;locus_tag=LOCUS_16410;note=WP_012584054.1 ABC transporter permease (Dictyoglomus turgidum) [pid:60.5%25%2C q_cov:92.5%25%2C s_cov:94.2%25%2C Eval:3.6e-108],MGA_1651
sequence1	MetaGeneAnnotator	CDS	1780749	1781615	.	+	0	ID=MGA_1652;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082547.1;translation=MRPFVYGYNKKLDMKTFKRTYEVNKTKKYKIYFFVKGEKYKLWNLFKTDIHLFGTKKGHIFLFGTDRLGRDLFSRVVFGACISLTIGLIGVFLTFVIGVTLGSISGYYGGIADTIIQRMIDVLISIPQIPLWMALAAAMPRNWPILKVYFSIVIILSLVGWGGLARVVRGKFLSLRNEEFIMAAKYAGASDFWIITKHMIPSFMSYIIVSITLSIPGMILGETGLSFLGLGLQPPAVSWGVLLQDAQNLSALAYHPWLLLPGLFVIITVLMFNFLGDGLRDAADPYSK;locus_tag=LOCUS_16420;note=WP_004082547.1 ABC transporter permease (Thermotoga) [pid:68.7%25%2C q_cov:98.6%25%2C s_cov:78.5%25%2C Eval:7.2e-115],MGA_1652
sequence1	MetaGeneAnnotator	CDS	1781633	1781974	.	+	0	ID=MGA_1653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFFYLMFLILIMIFVFISKVFFELSINKFIVEKHKHLEYILETKNPPNIWLKNTKNVQKKCLKKLTNLIKYLQSSKLVDSEESRKKMLLKLNKIQKNWMKKEYFKQINIKDD;locus_tag=LOCUS_16430;note=MGA_1653
sequence1	MetaGeneAnnotator	CDS	1781976	1782986	.	+	0	ID=MGA_1654;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082546.1;translation=MNNKLLEVKNLKTYFETDQGTVKAVDGINFFIEKQKTVGIVGESGSGKTVTAQSIIQIMPWPGKIIDGEVLFYKNEKEIIDLAKLDPKGKIIREIRGKEIGYIFQEPMTALSPIHTVGSQIIEAIRIHNSMLTKKEARKKAITLLKNVGIPSPEKKINDYTFQLSGGMRQRVMIAMALSCNPKLLIADEPTTAIDVTLQAQIIKLLKDLQKKYEMSILIITHDLAVIAEMADEVIVMYLGKIVESGTVFDIFDNPKHPYTKALLKSIPNKTSKKYLDTIKGMVPDAFSIPNGCEFEPRCEFSIKGKCNKYKPPIIEIKKGQFVRCFLYEKACEENE;locus_tag=LOCUS_16440;note=WP_004082546.1 ABC transporter ATP-binding protein (Thermotoga) [pid:56.1%25%2C q_cov:96.7%25%2C s_cov:97.9%25%2C Eval:2.5e-104],MGA_1654
sequence1	MetaGeneAnnotator	CDS	1782979	1783977	.	+	0	ID=MGA_1655;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080424.1;translation=MNKENILEVKNLKTYFPIRGGIFNRVINHVKAVNGVNFELLKNETLGIVGESGCGKSTLIKTIMRGVHASEGKILFNNGNNKIDILELNKKELKSIRKNIQMIFQDPFSSLSPRMTVRNIIVEPLKINKNIKDNKKLDEIAINLLKDVGLNPKYLQRYPHAFSGGQRQRIGVARALSLKPKLLLADEPTSALDVSVQSQLLNLLTKLKEKYELSMIFISHDLSVVEHISDRMAVMYVGNIVEIGDVKEIFNKPTHPYTRALLSAVPIANPHKRNHKELLEGEVADPANLPSGCPFHPRCKYKKDICIHQKPDLKPLKSNENKKVACHFANEL;locus_tag=LOCUS_16450;note=WP_004080424.1 ATP-binding cassette domain-containing protein (Thermotoga) [pid:58.0%25%2C q_cov:98.5%25%2C s_cov:97.1%25%2C Eval:1.4e-107],MGA_1655
sequence1	MetaGeneAnnotator	CDS	1783996	1787865	.	+	0	ID=MGA_1656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYIRKTVIVVFLLLVSISIFSQQPYSSYWFPETLLNWSPENDADSDFNRGIIPLSERQVGEIVNKNAKGEAKLTVLSIMHPTTSKNPSEGSNKFNIYTFNYWQYVDKLVMWGGSASEGIIVAPSADVINAAHKNGVKVLGTIFFPPKKYGGQLKWYKDFIKKDGVLLFEKFLMADKLIQVADYYGFDGWFINQETDGVSQEDANTMKEFIQYFENHKKPNMEIMWYDAMTENGKIDWQNALNEKNDGFLKVSDSIFLNFWWKDMDSTRSYAKKIGVDPYTIFAGIDTQANGYNTTVHWDGIFPKEETPKVSLGIYCPNWTYSSSKNQEEFYKKASRYWIGENNDPSNTESKSNWKGLANYFPAKTPIVKLPFVTNFNTGNGHSFSVDGKLLSTKDWNNRSLQDILPTWRWIINGNPLKIDFDWTDAYYGGSSLKISGNLKDETTIKLYKTNLKVNKNTQLTIINKANTLGVAEIGIKLKDKTEPIYFVLNENKSSWNKKVISLSNYESKIITEILLKFKTNNEIKNYEFNLGRIAITNNEKNLIETPNNLKITKIDFINGIYANIRLKWKNNQKNLLYQIYREKINGEREYLGSTYNNVFFVSNLNRLSASENKTNLIVIPVNKLYERGKESIVSFDWVAYPKPKADFYVDKTFIAPGDTIQFQNKSKVYDEVKWFFSGGKPLITKEENPKVTYAKEGEYRVTIIAKNAVGKDTLVKEKYITVSKNAKKEMEVVSLTAEATANGNVPTETPKMALDGKKKTKWCAIGKEPHELYVTLEKEQKIGKFIVKHAEFGGESPDYNTKDFYISISKDGKTWKKVVDIKGNKDAITEHLIEPTRTKYIKLTVTKATQGGDTAARIYEFQVLAEKNAFENYALNKKAIASGNVPAEYPALCFDDKVKNNSKWCAIGKEPHWIMVDLGQIEIIDKFIIKHAEEGGENPEWNTKDFYIEVSNDKKTWKKIIDIKGNKKGVTEYLIKPIKARYAKLTVTKATQGGDTAARIYEFQVLGYKTHKLNKAAGKEAIASGCVSTETPNLAVDRDNKTKWCAVGKEPHWILIDLKDIIAINKFIIKHAQAGGESAEYNTKDFYIEVSNDKKTWKKVVDIKGNKKGITENIIKPVEARYVKLTVTKATQGGDTATRIYELEVQGKVVKKYVEEPKILFKASGSNPGETPDLIMDNEIRTKWCAVGKEPHWILIEFKKPRTIKEFTIKHAQAGGEDAKYNTKDYYIEVSIDGKTWKKVVDVKNNTKAITKDAIKPVEAKYVKLTVTKATQGEDTAVRIYELEIN;locus_tag=LOCUS_16460;note=WP_011100911.1 discoidin domain-containing protein (Lactiplantibacillus) [pid:40.2%25%2C q_cov:65.4%25%2C s_cov:94.0%25%2C Eval:1.5e-186%2C partial hit],MGA_1656
sequence1	MetaGeneAnnotator	CDS	1787936	1788349	.	-	0	ID=MGA_1657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKVKKISKINSIIFFVIWIIIMLLGADKPPPKGFLIVVFILYIQSAILEIYSNFLIPKLINKEKNLFLKNTMYWSLFGSITWFILSIFPNLLFREKINIYFNLILFLVILIISIINSFIYYFFNKIIIKNNKNFI;locus_tag=LOCUS_16470;note=MGA_1657
sequence1	MetaGeneAnnotator	CDS	1788369	1789121	.	-	0	ID=MGA_1658;product=hydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941404.1;translation=MFFDIIKNRIEQKNRTSKYPKKEIELPKNYRGLPKINTNCSIEIVEKCADVCPQDAINIENKTIDLRKCTFCGLCEKVSNGKFVTFTRNFEMASTKSEKLILNGEVENLKVSTNKSFKKMFGRSLQLRVVSAGGCNACEADINVLNTPFYDLSRFGIQFVASPRHADGLLITGPVTKNMEYALKKAYKDIPDPKIIIASGSCALSGGPFRNNIEQINGVENILKVDLFVPGCPPHPLTLLSAILDFFGIK;locus_tag=LOCUS_16480;note=WP_010941404.1 hydrogenase (Geobacter sulfurreducens) [pid:49.2%25%2C q_cov:96.0%25%2C s_cov:95.2%25%2C Eval:1.2e-61],MGA_1658
sequence1	MetaGeneAnnotator	CDS	1789138	1790646	.	-	0	ID=MGA_1659;product=NADH-quinone oxidoreductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941403.1;translation=MNKNFINIENTKKINLSEVPLSTFDDFYNEIEILMAKNAKVIQYFAFEMNNKVMLIIILRTEMLWIGLCEAPNEYESLTKKYEQFNEYEREIAEQFSIKPIGHPWFKSLRYHKNYVGKKDLFNNDYEKVIPGNYPFYKMEGEEVHQVAVGPIHAGVIEPGHFRFNCVGEKVYNLEIQHGYQHRGIEKQLENVKLKKIPTIIESISGDSTIVHSISYSEAIEEMMNIKINENEKLLRLISLELERIANHIGDLGALSGDIAFLTVSSYYGRIRGEFLNILLEISGNRFGRGLIRPGTENMISEQQKNNFIKKIKQLEKEIINVGDMFFSQAGVLSRLEDTGIVEKNIAEKINMVGIVGRASGINYDVRRFFPNESWKKIKLEEIIETSGDAMARAMIRYKETKESLKIVQNLLKKIKSIDSKVVIQNFKLPKETLILTLQEGWRGELSHCIITNKDGKIIRYKIKDPSFNNWKGLEIAVRNEGIYDFPLCNKSFNLSYSGFDL;locus_tag=LOCUS_16490;EC_number=1.6.5.9;note=WP_010941403.1 NADH-quinone oxidoreductase subunit C (Geobacter sulfurreducens) [pid:37.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-99],MGA_1659
sequence1	MetaGeneAnnotator	CDS	1790643	1792058	.	-	0	ID=MGA_1660;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941402.1;translation=MIELIVIVPFIIGILIFFVKESKILLPITGIIHFTLTMLSWGGFLKPMFNKYVFLSSDGMIVLLITSFLFLIISFYTVFYLKEVKYENEKIFNAFMILFLASMSSVAISDNLILFWISVEATTITSAPLIFIHKSKTSIEAAWKYVIICSVGIALALLGTFLIAIARDEANLKIALSFTELYKNPSLLKMEWLKAGFVFILIGYGTKMGLAPMHTWLPDAHSEAASPASALLSGALLNTAFLGIFKITKVLKVTEAGTFAEMSLIILGLLSMLIAAVFILKQVDYKRMLAYSSVENMGIIAFGAGIGGIAAYGAIFHLIHHALIKSSLFLSAGNVLISYETKLIEKIGNMVKFLPKTFIAMFLGTVAILGFPPFGLFFSEFLIIVGSIKKGKYVAVSLFVFSLILIVAGFIKYMLKMYYDKTEYEPKIKENNWRVYPQYILLSTSFIITFFQFNQLLELINKAVEVFGGAL;locus_tag=LOCUS_16500;note=WP_010941402.1 proton-conducting transporter membrane subunit (Geobacter sulfurreducens) [pid:34.2%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:1.9e-71],MGA_1660
sequence1	MetaGeneAnnotator	CDS	1792062	1792694	.	-	0	ID=MGA_1661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILNLLLMIILFSLIFSLNSSRLRILIYTIFLQGSLVSLVPIFIEEKITITTIVFAFIPFLVKGIIIPTMLIKVLDKVIMKKELEPIVGYHASIFISVLIIVFSFVIQNKISFPISNNLLGVTAIATILSGMFLLIARRKTITQVIGYLMLENGIYLIGSMLINKSSYIVEFGILLDILVGVMIMVVILQQINIKFETINTIKLKNLKE;locus_tag=LOCUS_16510;note=MGA_1661
sequence1	MetaGeneAnnotator	CDS	1792691	1793605	.	-	0	ID=MGA_1662;product=NADH-quinone oxidoreductase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941400.1;translation=MKSIILFILTIFLSPLFSGIILKTKAFFSGKKGPSIFINYYTLKKLLFNKGSVYSSTTTFIFKIGPIISFTVALIALMFFPIAGFNSILSFNGDIVFIIYLMGLSRFFTIISAMDTGSSFEGMGGSREGYYSALAELTLFMSIISLVNMNGYSSFMNILNFNKNIWSDYGLSLILIIISLFMILLTENSRVPVDDPKTHLELTMIHEVMVLDHSGPDLGFIHFGANLKLMFYAAFIAKLLMFFSFNNFYLDTIIFYGIIFLIYVFIGVIESLIPRFKFEKVPKFILTSFSLSILANILVKGFLK;locus_tag=LOCUS_16520;EC_number=1.6.5.9;note=WP_010941400.1 NADH-quinone oxidoreductase subunit H (Geobacter sulfurreducens) [pid:42.0%25%2C q_cov:96.1%25%2C s_cov:96.7%25%2C Eval:5.3e-63],MGA_1662
sequence1	MetaGeneAnnotator	CDS	1793602	1795563	.	-	0	ID=MGA_1663;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941395.1;translation=MDIFFMSIFLILIGGTLPLFLTKKFNVMKFFSIGLISFGTIISLIESIFLLVKFNGNINFSYLKLPYFPIEFQINELSLFFISIISLIGFLSIIYSFSYLNNEKKSKNIAINYFFYSLLVISMMTVVLSNNLITFAFNWEIMSLSSFFLVIFEYNKEKVRRAGHMYFIFTHIGGMFIFASFGLIYAYTNSFSFDGISSLPENIKLIAFILSLIGFGSKAGLIPIHIWLPHAHPIAPSHVSAIMSGVMIKIGIYGILKMYLLLNTSITLIPYIVISIGVISGILGVVYALGQHNLKKLLAYHSVENIGIITMGIGVGMLGVTIKNPIITLLGFSGGLLHILNHSIFKSLLFLGAGSILHQTGIESIEEMGGFLKKMKVTSITFLIGSLAIAGLPPFNGFVSEFLIYFGVFNGMNLSNFPYVFSLIVILSLVMIGGLAIMCFTKVIGVVFLGTPKTNKAKNAKESNYFILIPMIILTIFCIFIGIFPSVFINNVFNIVNSFKLTQKVNIDLKIASNITFSSTLFIISLLIIYLIRKYFYKNKKIKNSTTWDCGYGYPTSKMQYTGSSYAHEILNFYKPFIKVEESIDEIKGIFPKGTMYESKTIDVSEYLIKKYIVNPILFISNKLRWIQHGDVHGYIAYIFIALTLFLIMGVIK;locus_tag=LOCUS_16530;note=WP_010941395.1 proton-conducting transporter membrane subunit (Geobacter sulfurreducens) [pid:35.1%25%2C q_cov:94.5%25%2C s_cov:93.4%25%2C Eval:1.1e-102],MGA_1663
sequence1	MetaGeneAnnotator	CDS	1795839	1798196	.	-	0	ID=MGA_1664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKSFKNKIIFISITLLFLALIIELFISFYGIKKLADNSEKELKIGMQNIYKEYYTNYLNSASNLIESKIKNIFENQAIAGSILQEYFDNNEDFKEITKTMIKNDYSKDKLKFNGRWYQNDSTQNTVVLVQRYCLNKDNSIRDDVLQQIHDTSILNLVLPAIYNNSSNLLWIYFSGRKNGSFMRIYPWNDVGNAMDKVYPAHTDVPNWEAFNPGLVEQFEEKRKNNSNLPLKDFSIIKGPTQDGGTGKIIMTLNYPIWDKARKKFEGSLSVDVTIQQIIDYIKEFKVVKNGFGFISQSNGNVFAINDMGIKTLGLKGEKESTIYGKKGVGYNPMKRYFKDSKYESIKNLSLTSSSAKTVFKNIVINNKKYILVMKNLNSFNTWNKNKGFYKESWTLGFFLPEESLYQTLVNSQNTINSSTQNILKYQTTIIVILVFIIGIILYYVLSKSTKNLEYLVDATQSISKGNYDFKLDIKSKDEFGKLGSSFNKMKDEIKESFKKIETQNAELKKLNDELEFKVLERTKSLNNLLEKYQKTQKQLVETEKMASLGKIVAGVAHEINTPLGISVTTVSHLKDKTKSLEKDFLNNELKKSTFENYIKDTLEISDITMFNLRRASELIQKFKKVSVETSNDIKTNFNLKDYINNTILILNKKLKQKNIEVLIKGKNIELKGYPGDWYQIINNLIMNSIIHGFENKKNGKISISFEEIENNIELIYIDNGSGIEKEIIDKIFEPFFTTKMGKGGSGLGLNLIYNLVTQKMKGSIKCESEIGKGVKFIINIPKNI;locus_tag=LOCUS_16540;note=WP_223294599.1 sensor histidine kinase (Desulfovibrio) [pid:37.8%25%2C q_cov:37.3%25%2C s_cov:31.9%25%2C Eval:2.2e-57%2C partial hit],MGA_1664
sequence1	MetaGeneAnnotator	CDS	1798290	1798982	.	+	0	ID=MGA_1665;product=YjjG family noncanonical pyrimidine nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963481.1;translation=MFKNIKMIYFDLDHTLWDFEKNSRVCLGILYDKYLLKSNIDKNYFIDVYEKNNDILWEMYRKREIEVSKLKLKRFENTLDELNYPYENNLIKKLNENYINLLAEQDKTFDGTHEVLKYLKSKYEIGIITNGFKEIQFKKLKSANLDNFFKIIITSDSIGIPKPDKKIFDYAAKLSGFNHNEILYIGDDLQTDVISSKKAGFESIWFNYKKKNTSEDVFQIHSLLELLNLL;locus_tag=LOCUS_16550;note=WP_011963481.1 YjjG family noncanonical pyrimidine nucleotidase (Flavobacterium psychrophilum) [pid:37.1%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.1e-40],MGA_1665
sequence1	MetaGeneAnnotator	CDS	1798969	1799436	.	-	0	ID=MGA_1666;product=6%2C7-dimethyl-8-ribityllumazine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003358088.1;translation=MNIFEGNYKLSNEKVGIVISRFNSNITTELLEGAKDCLIRHGLNEKNIDVYYVPGSFEVPFLVKQLVKTKKYNGLIALSAVIRGETYHFEVVSNEISKGISQINLTSDIPITFGVITADTVEQALNRAGIKSGNKGFDAAMALVEMMNLNKIIKD;locus_tag=LOCUS_16560;gene=ribE;EC_number=2.5.1.78;note=WP_003358088.1 6%2C7-dimethyl-8-ribityllumazine synthase (Clostridium botulinum) [pid:52.3%25%2C q_cov:98.7%25%2C s_cov:99.4%25%2C Eval:2.6e-44],MGA_1666
sequence1	MetaGeneAnnotator	CDS	1799446	1800630	.	-	0	ID=MGA_1667;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_004082372.1;translation=MSMDINSIKKNFENNKPIIILDKSREVEGDLIFPSEIINSEVINFMISKGKGLLCTVADEKLLIERGFFKLPSNNLDKHNTNYFIPIDYKLSNTGISSFERAKTIEMLAQNNNINLFSYPGHVQLLGGIGINNRKGHTEASLELVEFIGYKRFSTIIEILDENGDSHNFEYINQLSKEYDIPIIDIEDIYIESMKRKQFVFKVSEAKLPTELGVFKIVGFKNLLDNKEHFLIYSGDIFDGDPVKVRVHSECVTGDVLKSKKCDCGSQLYNAMNEIKQRGILIYLRQEGRNIGITNKIKAYALQDDGVDTYDANEIIGLPPDGRDYAIAAQMLKAMNINDIILLSNNEDKKNQLMKYGINVKKMEKLFGKLTVENKFYLKTKMERFNHKLNEFLK;locus_tag=LOCUS_16570;note=WP_004082372.1 bifunctional 3%2C4-dihydroxy-2-butanone-4-phosphate synthase/GTP cyclohydrolase II (Thermotoga) [pid:49.4%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.7e-110],MGA_1667
sequence1	MetaGeneAnnotator	CDS	1800614	1801177	.	-	0	ID=MGA_1668;product=riboflavin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082373.1;translation=MFTGIVEYVEEMFIKGRNVYIKNPYSDIVLGESIALNGVCLTVEKIENNYLIFGIGEETLNRTNLKVSKKVNIERALKVGSRLGGHFVLGHVDGTVKFIDKQLQRGSYLFQFSNVKENWAIVEKGSITLNGISLTVAKKSLDTFFVQIIPHTIENTNLKYLLKNEKVNYEIDVFARYIKGGKNEYGY;locus_tag=LOCUS_16580;EC_number=2.5.1.9;note=WP_004082373.1 riboflavin synthase (Thermotoga) [pid:55.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-53],MGA_1668
sequence1	MetaGeneAnnotator	CDS	1801158	1802198	.	-	0	ID=MGA_1669;product=bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249379.1;translation=MNYMDLAINESLKGIGKVNPNPLVGAVIVKNNKILSTGYHEFFGGRHAEVVAIDNAKEKGYSIKNSEMYVTLEPCSHYGKTPPCADRIIKEGIKKVYVGLKDPNPLVGGKGIKKLKDAGIYVEVGLMKEKIKGINRVFLTYIVQKRPYVHLKLALTLDGFIANKDGNSKWISNESSRKIVHEMRNFYSSILVGAGTILKDNPSLNVRLTKKIRNPLKIILDKHGLTANKNLNIYNEGENIIFTSSNEKWNFKNTEIIYTDKLNIKDILKELYNRHIDSVLVEGGSKVASEFIEYADRISLFYSSKIFGRGISPFENLKNEKNLKTLSIKNIDNNILWELENVYWNS;locus_tag=LOCUS_16590;gene=ribD;EC_number=1.1.1.193%3B 3.5.4.26;note=WP_011249379.1 bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD (Thermococcus kodakarensis) [pid:50.4%25%2C q_cov:95.4%25%2C s_cov:94.1%25%2C Eval:4.9e-87],MGA_1669
sequence1	MetaGeneAnnotator	CDS	1802451	1802822	.	+	0	ID=MGA_1670;product=fluoride efflux transporter CrcB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082466.1;translation=MNLLYIGTGGFIGAILRYSISKFINQKFPFSSIPYGTLLVNIIGAFILAYLMSLSIHKIEFSKEFILFFGTGMLGAFTTFSTFMYESISMIENNNLLFSAIYVSVSIIAGIFSSYFGYILGRS;locus_tag=LOCUS_16600;gene=crcB;note=WP_004082466.1 fluoride efflux transporter CrcB (Thermotoga) [pid:50.8%25%2C q_cov:99.2%25%2C s_cov:95.3%25%2C Eval:1.9e-28],MGA_1670
sequence1	MetaGeneAnnotator	CDS	1802825	1803139	.	+	0	ID=MGA_1671;product=DUF190 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082468.1;translation=MKLLKIYLGEKDNHGHKRMYEKIMELAYNEGLKGITVYKGIAGFGEKHHIHKSDFFTLSEDLPIIIEIIDKKEKIINFQKIIANLKFDGIMFTQPIENYEEYKK;locus_tag=LOCUS_16610;note=WP_004082468.1 DUF190 domain-containing protein (Thermotoga) [pid:56.2%25%2C q_cov:92.3%25%2C s_cov:94.1%25%2C Eval:8.0e-27],MGA_1671
sequence1	MetaGeneAnnotator	CDS	1803166	1803477	.	+	0	ID=MGA_1672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNNKKINLLCNKIIKFIEKCINKYEFYILNEKTYQTTLKIALKNLNLSQKQLKMVSMITKCKIEDYIFQNYSTTIQQNYVLVYKNLTKRVLKIKKIYYIKDY;locus_tag=LOCUS_16620;note=MGA_1672
sequence1	MetaGeneAnnotator	CDS	1803603	1804469	.	-	0	ID=MGA_1673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFIFKNYIIVLSSEVIAINILDRIQKSLNYIEENLYEDIKIDKVAEEAFMSVSLFYKLFSKIIGTTLKDYIRKRRLSLSKKDLIETKQSILEIALKYQYETYESYSRSFKKLFGISPKKYRESTKNVDEYNVFQKINLIYGGVNMNEEKIKEKINLFSNGFIFDFDIDNFSLINKNYGRKMGDIVLIEVPVRINKVLENNNIKEEVIRIDADEFALILKGKDEELIKIISNEIINSMKEPINFEGTTLNVTVSVGITKFSNDTFVIEKVRKAMIEAKNNGRNQFNII;locus_tag=LOCUS_16630;note=WP_011459161.1 AraC family transcriptional regulator (Desulfitobacterium hafniense) [pid:41.0%25%2C q_cov:34.7%25%2C s_cov:77.5%25%2C Eval:3.9e-20%2C partial hit],MGA_1673
sequence1	MetaGeneAnnotator	CDS	1804625	1804897	.	+	0	ID=MGA_1674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSQNIKKNYVFSFFMNFNVTSAIWMIYLASIGFNQFHIGLFMSIASIFSALCAAYTHKIEKIISEKLLLKYIPLIMSLTVWGIALSKVA;locus_tag=LOCUS_16640;note=MGA_1674
sequence1	MetaGeneAnnotator	CDS	1805151	1806041	.	-	0	ID=MGA_1675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKEVLGIYIGEIESSKFWLRVLNDLKNRGIKDILIASVDGLTGFPQAIKTAFPDTIVQRCIIHQIRNTLKYVSYKDRKELVNDLKKVYKAPNKDIAYSNLQDLKENKWTKYKLALESWEKHWETISPYFDYGDDVRKIMYTTNVIESLNRQYRKATKNKTSFPNDDALLKMLYLATINATKRWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_16650;note=WP_008761338.1 IS256 family transposase (Bacteroides) [pid:50.2%25%2C q_cov:97.6%25%2C s_cov:71.4%25%2C Eval:3.5e-88%2C partial hit],frameshifted%2C insertion/deletion at around 1806094,MGA_1675
sequence1	MetaGeneAnnotator	CDS	1806092	1806400	.	-	0	ID=MGA_1676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEP;locus_tag=LOCUS_16660;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.3%25%2C q_cov:69.6%25%2C s_cov:17.9%25%2C Eval:3.5e-14%2C partial hit],frameshifted%2C insertion/deletion at around 1806094,MGA_1676
sequence1	MetaGeneAnnotator	CDS	1806797	1808089	.	-	0	ID=MGA_1677;product=metallopeptidase TldD-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963553.1;translation=MIDKIKNILNSYNEIKDWKIIEKNSSSKELFFIRKELDMNRATKTHEIILTIYRDFEENEKKYKGHSTTNIHPTMTEEEIKTNIEDAYFSAKFVKNEYYPLAMPKENKNTLSNKFNEKSMEEWIPILTKEIFKNDKYKDGWINSAELFLTKNKIRLLNSNGIDVEYEKYDGMLEFIVNWKGNEEIELFEIINFSDYVEDFISSKIKEKFEIAKYRAIAQSTPSVKDIPVLLTGSSVRNLFDYYVEQSNAAMVYQQYSNFKVGESIQGDKINGDKINITLDPLMKNSTRANLYDEDGIPLEKVELIKNGKLKRYSGNLRYSHYLNIEPTGNINNVVVECGNKTLDELKKEPHLELIEFSGFDVDTLTGDFGSEIRFGWYYDGKNKLPITGGSISGNLKEVQNEMYLSKEYQQINNFIGPKSIKIFNVSISG;locus_tag=LOCUS_16670;note=WP_010963553.1 metallopeptidase TldD-related protein (Clostridium) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.3e-119],MGA_1677
sequence1	MetaGeneAnnotator	CDS	1808089	1809516	.	-	0	ID=MGA_1678;product=TldD/PmbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963552.1;translation=MKVKKSDFLDSKIDLLKKIIDNLSNDFEYVSILGTDSIGKSYKVSSKEIGVSDGMWNERGFVARVYNGKNYTEYSFNELSENNFNDIIESIKKEALNINKLNIDEISISTYPIIDEEKIKDEFYGDVKILPEEMKTNEIIEKLSKIKAEAFKLSDKLIDLKLNFDWEKVSKIFISKNKELKQSYIWSQAYVVPILKKEDEIKYSFKAFSGLKGLEIIDEMEDNYEKAIRHTENLLNAKKIKPGVYDVICSPEISGLIAHEAFGHGVEMDMFVKNRAKAQEYLNKEVASKLVNMHDGAKSANHVSSYLFDDEGTIGTDTKIIENGILKRGISDLLSALKLGTKPTGNGKRESYKRKAYARMTNTFFAPGDSSFEEMLSSIKEGIYLVDEMSGMEDPKNWGIQCMILSAIEIKDGKLTDNIYSPIILTGYVPELLKNISMVSKDLKLSGSGACGKGYKEWVKVSAGGPYIKTKARLG;locus_tag=LOCUS_16680;note=WP_010963552.1 TldD/PmbA family protein (Clostridium) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.6e-160],MGA_1678
sequence1	MetaGeneAnnotator	CDS	1809540	1810499	.	-	0	ID=MGA_1679;product=glyoxylate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249634.1;translation=MKISITYKIPEKGINLLKEKYDVWTNEEDRALTKEELKKLASESDGMLTMLSDKIDKEVIDAGKNKLKIIANYAVGYNNIDFNYAKKSGIEVTNTPDVLTETTADLAWALMMAVSRRIVESDNFVREGRFNGWKPELFLGNDIYGKTLGVIGFGRIGQAFARRAKGFNMKVFYYKRNRLPSEKEKELGVEYLDLNELLKNSDFVSLHTPLTENTYHLLNKERLNLMKKTAYLINTARGPVVDEKYLVKILKENKIAGAGLDVYENEPKLTEGLKELKNVVLAPHIGSGTIETRNNMAEMAAKGIIKALNGEKPFNSVFK;locus_tag=LOCUS_16690;gene=gyaR;EC_number=1.1.1.26;note=WP_011249634.1 glyoxylate reductase (Thermococcus kodakarensis) [pid:56.0%25%2C q_cov:97.8%25%2C s_cov:94.3%25%2C Eval:3.7e-94],MGA_1679
sequence1	MetaGeneAnnotator	CDS	1810739	1811758	.	+	0	ID=MGA_1680;product=ketoacyl-ACP synthase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583306.1;translation=MNIGIIGIGTYIPSTFITSKELSLETDIPEEVILEKFGIIKKPIAGPRDTTTHMAIEAAKKAIKNAGINPKEIDLIIWNGSQHKDYQNWLAGLKVADEIGATNAWSFDMEAMCGSMMAGIDVAKSLMLTHKNIKTVLLVSGYRNNDFINLKEKSTTFMIDLASGGSALIMKKNSNKNLILESSFKGDGSFSEDCIIPVGGSKNWPLQKEDVAKNYFVVKDIEKFKTKLKEKTMSNFFLVIKEALKKSGNLTYKDIDYLAILHLKKSAHDAILNELNLNENQTTYLNNYGHMGQNDQVLSLELGLKERKIKDGDIVVLVGAGIGFVWASTVIKWGKGDVI;locus_tag=LOCUS_16700;note=WP_012583306.1 ketoacyl-ACP synthase III (Dictyoglomus turgidum) [pid:30.9%25%2C q_cov:98.2%25%2C s_cov:99.1%25%2C Eval:1.1e-30],MGA_1680
sequence1	MetaGeneAnnotator	CDS	1811758	1812489	.	+	0	ID=MGA_1681;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898376.1;translation=MKNKVCVVTGGAQGIGKAIVENFINEGAKIVYALDTNEKLLKDLEIQNKNVIGYVLNVLDRDAIKIFVDEVKNKYGKIDVLVNNAGITKDGLIQKMSEEDWNMVVDVNLKGVFNMTQEIVKIMLDNSFGSIVNMASIVGEVGNIGQTNYAATKGGVIAMTKTWAKEFARKGQNIRVNAVAPGFIKTPMTEKIPKKVIESIKSKIILKRMGEAFEIANAVTFLSSEKSSYITGHVLDVNGGTIL;locus_tag=LOCUS_16710;gene=fabG;EC_number=1.1.1.100;note=WP_005898376.1 3-oxoacyl-[acyl-carrier-protein] reductase (Fusobacterium nucleatum) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:2.0e-69],MGA_1681
sequence1	MetaGeneAnnotator	CDS	1812509	1813822	.	+	0	ID=MGA_1682;product=acetyl-CoA hydrolase/transferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901990.1;translation=MWKELYNKKLKNINEIMKKLPKKCIIVTGLAATESQGLLENLNKFKDHFEYVKIITCLNMKEYAFTFEKNNEGKFENHTWFMSDPTRKVKKQNINTVDFIPNNLHMASHDKLSSIKEEQLPIIFWGTVTPMHEKNGYFNLGISNVYEMDILENAEKVILEVNEKMPWIHGETQIHINQIDFIFENTWELPTLNIVEPKNLESKIAKNIASLINNGSTIQIGIGGIPNAIAKLLKDKKDLGIHTEMFTESMIELFENGVITNMKKNLWKGKFVCTFALGSKKMYEWLDNNPGIQLMRGNYVNDPYIIAKNDNMISINTAISIDLTGQVCSEGFGTKQFSGTGGQLDTHRGAIKSKNGKGIIALKSTAKNETISTIVPVLPLGSPVTVPRQDLDYVATEYGVVHLRGKSIKQRVENLISISHPKFKNDLRKKAKEYGYL;locus_tag=LOCUS_16720;note=WP_005901990.1 acetyl-CoA hydrolase/transferase family protein (Fusobacterium nucleatum) [pid:41.4%25%2C q_cov:98.9%25%2C s_cov:98.2%25%2C Eval:3.4e-83],MGA_1682
sequence1	MetaGeneAnnotator	CDS	1813835	1815037	.	+	0	ID=MGA_1683;product=acetyl-CoA C-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903642.1;translation=MRKVYIVEAKRTAVGSFGGALKDLTASELGAIAIKEVIKDVDPKNINQVVVGNVLQAGQGMGPARQASIKAGIPVEVPAYTINMICGSGMKAIMLAANEIKLGADLVVAAGMESMSNAPYNLPSKSRFGSKFGDMKVTDHMIREGLWDVFNDYHMGVTAENLVEKYGITREEMDELSAMSQNRAEEAIKAGKFKDEIIPVEIKTRKGTVTVDTDEYPRFGTTAEKLAKLRPAFKKDGTVTAGNSSGINDGASAMLLASEEAVKKYNLKPIAEIAAYDQGGVDPAYMGMGPVAAISNLFEKYTEYELKDMELLELNEAFAAQSLANIKALTEKYNLTKEWFTERTNVNGGAIAIGHPIGASGNRITVTLIHEMKKRNSNVGLASLCIGGGMGTAIVIKNIK;locus_tag=LOCUS_16730;note=WP_005903642.1 acetyl-CoA C-acetyltransferase (Fusobacterium nucleatum) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-136],MGA_1683
sequence1	MetaGeneAnnotator	CDS	1815050	1816204	.	+	0	ID=MGA_1684;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010937886.1;translation=MKKLLFIFIIFTLNLNIFGTITDNEIKVGSFQALSGPVAFIGQPMTNGMKAYFNYINDNGGIYGRKINFIVADDQFNPAKTTVEVKRLVENDKVFAIVGGLGTPGCLAVMKYLNDSKIPFVYQGSGSSLLAIPPKKYIFPVQPNYTLEGNIVINHLIKDKHAKKIAIVYRNADDGKEFLNSAKKALEKNGMEPVVNIAINPTANDFSTEMTKLIAARPDSIAVMLFNPQTINFVKQAKQYGLKNQNYILTYANADITFIKYAGSAAENVEAMAWVDVDFSNTDLQVFKIYQKYYKELPNAYAIAGMIAAETFVEGLKRAGINLTTENFIMGMESIHKWNGVAAHEITYDKLNNENSRMGKESMYVLKVKNGIWVKASDWINYSK;locus_tag=LOCUS_16740;note=WP_010937886.1 ABC transporter substrate-binding protein (Desulfovibrio) [pid:24.3%25%2C q_cov:91.4%25%2C s_cov:83.7%25%2C Eval:6.1e-33],MGA_1684
sequence1	MetaGeneAnnotator	CDS	1816255	1817016	.	+	0	ID=MGA_1685;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680286.1;translation=MLNIKDITVKFGGLKALENLSFTIQKNTIHSLIGPNGAGKTTLFNVITRIIKPNKGNILFNNESLLNLKSNEIIYKGITRTFQNLQLFNYMNVYENILSGYVHTFNKNSFNDKKLKLKAYDVILEISELLQIKNRLFSYPYQLSYGILKRVEIARAIVSKPSLILFDEPAAGLNNQETSEILSILNLLKSKGKTILLVEHDMSLVMKVSDEITVINFGKKIAEGAPNEISLNEEVINVYLGGGKNVKKNIRNK;locus_tag=LOCUS_16750;note=WP_002680286.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:44.0%25%2C q_cov:95.3%25%2C s_cov:96.9%25%2C Eval:8.3e-53],MGA_1685
sequence1	MetaGeneAnnotator	CDS	1816988	1817692	.	+	0	ID=MGA_1686;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012027478.1;translation=MLKKILEINNLMVNYGQVKAVKNISFEVNKGEIVSILGSNGAGKTSTLFGIMNVVKNKGRIKFKGINISNIPTYKRVKSGLILCPENRRVFYELSVEENLKMGAFIRGNIKKNLKKVYDLFPKLYDRKKQNAGSLSGGEQQMLAIGRSLMGDPELFMLDEPSLGLAPIITDEIFNILLKLKKEGISILLVEQNAIKSLEISDRAYILENGKIIQSENAKELLNNKKIKKAYIGM;locus_tag=LOCUS_16760;note=WP_012027478.1 ABC transporter ATP-binding protein (Streptococcus suis) [pid:52.8%25%2C q_cov:97.9%25%2C s_cov:98.7%25%2C Eval:2.4e-64],MGA_1686
sequence1	MetaGeneAnnotator	CDS	1817702	1818583	.	+	0	ID=MGA_1687;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011090656.1;translation=MLILQSVILGIPQGALYGLMAIGISLIFKTVGVMNFSHGHAGMIGAYVAFSLYLITNNFFVSIILAIIFGFSLGLLIEKFLMRPIKHLSHGAMLIITLGLLMVFEGLAIMIWGTEFKVLPEIISLPPVILNLKENILVMPGNDIFISIIAIFISLSLTIFLKFTKIGTAIRARSQDEIGSDVVGINVNLVDSIVWGIGISISVIVAILISPKTYVNPNMMVNMQLYGFTAGVIGGFSSFFGAIIGGLILGILEKIVGMYISPDYQLSIILLLIILVLVFKPTGLFGKRSEGRV;locus_tag=LOCUS_16770;note=WP_011090656.1 branched-chain amino acid ABC transporter permease (Bradyrhizobium diazoefficiens) [pid:26.1%25%2C q_cov:96.6%25%2C s_cov:96.2%25%2C Eval:9.6e-30],MGA_1687
sequence1	MetaGeneAnnotator	CDS	1818585	1820294	.	+	0	ID=MGA_1688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIYTLLIGLSLGLIFSSKPFILLIFSSILIFSIVSQGLNILSGYTGQISIGHGAFMAIGAYTSTFLSINFNTPFILNLLIVIILSSILGIIIGMPALRLKGFYLAIATMAFGISIQELISSFSFLGGHIGIRNIPKIFNNDFGMFILNLIFYTLCIYVSDLIVNSTIGIKYKMVRDSEVAAKAYGISISKIKVHAFVVSSIYGGIAGSLYAHTIGYISPTDFGLNTSLNLLAIIVIGGMASSYGSLIGSIIIIGLPFLFSRTMIPMSFIFGILLIIFVLFIPNGIFYGILKGYYNFFELPFIYFIKKYHKKYKKVNKFVEINNKKIHYYENGEGIPIVMIHGNFASLNWFNQVNTIENFKIYSLDLPNFGLSDRINEFSIDTYSNYVKEFIITLKIKNPIIVGHSLGGAIAMNLILKNPNLSQNLILINSSSIDGLKTPEENYPILNLYKNNFSLFKKALKSIMPEMQNKKLLNELVKDGLLMKSECFIENARALEKYNYLKLKNKFNGKMLYLYGKKDTIVSTTMAKKTTDFFNGKLKIIDHVGHSLILEDPNLFITILKDFYKE;locus_tag=LOCUS_16780;note=WP_011948215.1 branched-chain amino acid ABC transporter permease (Clostridium botulinum) [pid:34.1%25%2C q_cov:45.7%25%2C s_cov:85.0%25%2C Eval:1.9e-39%2C partial hit],MGA_1688
sequence1	MetaGeneAnnotator	CDS	1820298	1821416	.	+	0	ID=MGA_1689;product=TetR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005888272.1;translation=MNKKNTKDKIIDSAIELFSKKWFETVSVAEICRNAGVSNGVIYRYFKNKKVIFEYLLNLLLEYIEEITSTLQGNTSSEKLQDFSEKLFKIAIEKKSLVTIFREGQFRFPEYEEKLRNIYMKTLSDIFNKKISEVEYLYLLSPMRFVNIRYAYNALKTPIDNLKKYLLNGFFDYKLNDLEKLFSKPKFIKYKKDNKTKSKLLDSGIKLFGENGYFNVGIYDITKEAGFSVGTFYLLFDSKDEFLEEIVKIIGKKARDFLNTNQIDSLNPLEKIIRNIYNFILFFKKYHNYYLILREAEFVVNKEVVEYYNFYEKMYKKLFESFNYKDNILLANIFVGYNHYIGIESIFSKNIPSIKIFLKQFSKYLSNGIKHI;locus_tag=LOCUS_16790;note=WP_005888272.1 TetR family transcriptional regulator (Fusobacterium nucleatum) [pid:32.1%25%2C q_cov:98.9%25%2C s_cov:99.7%25%2C Eval:3.7e-56],MGA_1689
sequence1	MetaGeneAnnotator	CDS	1821511	1822293	.	-	0	ID=MGA_1690;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869263.1;translation=MLSKNKKINYEIHGSGKPLVLLNGIMMNTLSWVEHVKILEKYFTVITYDMRDQGMSLHEEKKYDISIHVNDLNELIGELNLKKINLLGLSYGGMVSQLFTLKFPEKVDKLILSNTVDYVDNYLKVLGQLWIQAAKLYDGEKFFDIALPIIYSRNFYNNNYDWLMSRRKIFKDYLNKDWYDGFIRLAESNKEFDVRNKIETIKSDTLILAGDEDIITPLNIMKNMNKKIKNSTLKVFNETGHGMFLEKMNEYLNICIKFIK;locus_tag=LOCUS_16800;note=WP_012869263.1 alpha/beta hydrolase (Thermanaerovibrio acidaminovorans) [pid:25.3%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:2.0e-17],MGA_1690
sequence1	MetaGeneAnnotator	CDS	1822890	1823204	.	+	0	ID=MGA_1691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKLTLKHLLTTCMGLLLLFLIKILEVPVLTSDVIGFFVMLISIDISMNLIKMKYNINDKFFINIAEVLRAIISIVFFWYYPPMYFSFIGAIYGKKIFKYLNE;locus_tag=LOCUS_16810;note=MGA_1691
sequence1	MetaGeneAnnotator	CDS	1823397	1824719	.	-	0	ID=MGA_1692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIGYHILIKFFKDGNIENNWKKEEYLKFEKNSIEGDLQGIIEKLDYLQDLGIDLIYLGPIYESKTTHGYDTINYYKIASHLSSKEENKRNEVLKKLLIESHKRGIKVILDLVLNHASKNYDMKSIKNFNVKTEPPQSIQEKRWQTLFQFWNISDIETRKFLIDVGKYWLENFDVDGFRLDHALGIERSFWKEFSKEMKKIKSDVILLGEVWDDVADEEENYELIKKFKSFENEKIFTSLFDFFIYDVLKDVFIEKNKSLKDFYKMISKSNELNDTHFNLTYFVENHDVPRFIDLCKNKEIFFNVMKVLMVITGNVMLEYGNEIALAGDKNFEWFHESGRVPMKFKKNWNLKEIETFNLIKKLIKIRKENKELSDGSYELIYSSDDSILFKKKLNKKETFVLITFKTFKADYEFEDLISNEKEINIFEPGVYYLKRVHFF;locus_tag=LOCUS_16820;note=WP_009897348.1 glycoside hydrolase family 13 protein (Clostridioides difficile) [pid:32.8%25%2C q_cov:88.6%25%2C s_cov:63.8%25%2C Eval:1.4e-47%2C partial hit],MGA_1692
sequence1	MetaGeneAnnotator	CDS	1824887	1825669	.	+	0	ID=MGA_1693;product=mechanosensitive ion channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081973.1;translation=MNWLKLDIIIDYSIRIGASLLLLFLTKVVSNVLYNAITKNIKLKYKNSTKSLINLASYTFSVFIIISILFKDFMPFLTGMGISGIIVGLAVKEPVSNFICGILIMMNKIFLENEAVEINDVSGTIEEITLNHVLIKTWDGKLAYIPNNIVWSSKIIHYWPENIRRNELIIGISYESNIQKALSIINETLKNFDIVDDENHSTMILFDSFNSSSIDFNIKFWVKKEDFFTLKMNLAKKLKEEFDKNGIEIPYQKIDLKILK;locus_tag=LOCUS_16830;note=WP_004081973.1 mechanosensitive ion channel family protein (Thermotoga) [pid:36.7%25%2C q_cov:91.9%25%2C s_cov:92.2%25%2C Eval:1.7e-48],MGA_1693
sequence1	MetaGeneAnnotator	CDS	1825710	1827317	.	-	0	ID=MGA_1694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIALSISFVILLILVYIGYLFLPINYTVDKIQNKNFKIEKYGNIKVVYLSGNYEEIGYQHGLALKDDIHSMELKLKNIMKDTNFFENIAIRYTLKSYFKNIPVKYKKEMAEISKASKVSLDTIILLNVYDEIYNLYGCTNAAIWGKNTENGEIIHGRNLDYMYVESIWDSNVLFVYDIKDENGFLSLNFPGIIGVLTGTNDKGISLGSMTSESVNESSSGIPTGILYRMILEKSNNVDDVEKILRSTKRTIGNNLMIGSKKDKKAVVFEFDSKYLEKIENDNIITSTNHFTKLKNKKLDYLKDTKTRKEEAYSKLNHEKLSAKDMIDVLRFREGDNPICKWGTVQSVVFLPTSSQIYVAANDSPYAPTGRYFKFKYENNQLSYLKTVDYIDDYLDYISYISKENLKSGKWKKEKILSILNSFLKYKDIKNVWKKQDIIFYLDDVGLKNEAQKYIKDVIDYMNDNKIKYENSKNKKDYSEVKENYIYSLMVLTQVYNERKEYEKVRKYANIGLNIENSYEDEFFKSILTSTNKK;locus_tag=LOCUS_16840;note=WP_012582756.1 acyl-CoA--6-aminopenicillanic acid acyl-transferase (Dictyoglomus turgidum) [pid:27.3%25%2C q_cov:61.9%25%2C s_cov:90.5%25%2C Eval:2.2e-26%2C partial hit],MGA_1694
sequence1	MetaGeneAnnotator	CDS	1827435	1828010	.	-	0	ID=MGA_1695;product=fatty acid metabolism transcriptional regulator FadR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003229547.1;translation=MEKIKTYDKIIFSAFEEFSNSGYNGTSINQIIKKANVSKGALYHYFKSKEDLFLKTIEFFSKQIMNGFSEYIPLTLEDIKNFGFESLKMYKENIQIQKFTLEVMIESSRNNSVKMKLNDLMNMFMNLFENLFKEYKKMGLLKKDTDTKLISQKTFILLDSLGLYISFDFKIEYEKIWNDFIDNELSRYWTK;locus_tag=LOCUS_16850;gene=fadR;note=WP_003229547.1 fatty acid metabolism transcriptional regulator FadR (Bacillus) [pid:21.9%25%2C q_cov:94.8%25%2C s_cov:94.3%25%2C Eval:8.9e-10],MGA_1695
sequence1	MetaGeneAnnotator	CDS	1828012	1830537	.	-	0	ID=MGA_1696;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085792.1;translation=MNKFANFIIKNHKRIILVSIVLTVVMSFFITKLIIKPGMIDLLPANNSYVKVYNKASKTFNGIDSIIVGINGNEKDIINYINNVSEKIKTLEDTDNVISKMPLEFISKNLILFSNDLEQEYLKQILTSDSLVSFFHALNKSFEEPKKGYKIDNQSKKQFKSIIKNLTVLLNSINENKNIEKNTKNFLLGSEYMISNDGKMGIFIINPSIDSNDIFKIVNFVNTVEKIIKENALKYNVKADITGTYVISRDEMETSDRDMAVSTIVSLILILIIFILGFKIFRYTILSVVPLLIGILWSLGLTYFLIGSLNIMTMMMASILMGLGIDYSIHIISIFLEYRNEGYNIEDSIRQIYLKSVRGIISGSVTTAIGFGLFAFSSFPAFKEFGIVLSLGIISILIASILILPSLLMIYGNKFKQSKSYNININIKKIRLPALIITIVLLVLSFYKIGNVSFETNMMKIEAKGLKSLELNQKLIEKFELSSDNTIFINDSLEDARRLKKQLTKLETVSMIDSIVDYIPEKTLQNSRLNYSKAIKNYNSQIEKIDISKLRKELSLLNVNLLKSSLALRALKENKLADSLLNLMKSNIVNKISKQSSLTLLNAEKKINSVLFNIKNNLNTKNFITINSIPENIKENYYNNGLYLTTVYPSGDIWKYDFQKKYFNDLNKIKDKEVSGTGLIFLKVIELSGKEGGKILIATIIAIYFVLLLDLRNFKYSIIATLPMILSVIILLGIMGWFNIKFNVVNIIAFPLIIGIGVDDGIHLIHRYKIEKSLSKALKSTGKAITLTTLTTVAAFGSFMLAKYRGFVGLGLIFTIGITLSYLITIFTVTSIISYIDKVGE;locus_tag=LOCUS_16860;note=WP_011085792.1 MMPL family transporter (Bradyrhizobium) [pid:20.0%25%2C q_cov:95.6%25%2C s_cov:95.1%25%2C Eval:1.2e-24],MGA_1696
sequence1	MetaGeneAnnotator	CDS	1830534	1831055	.	-	0	ID=MGA_1697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDTLEMFSGAVVGPMKRILLKKGFNPIGAYEFKMPSNFLSKKEINNKKIKGSLSQVETYISSIINNKSKWGRNPILSDLLYYLVSNKVVWKVISKYISPKVDENKCVSCGLCEKICPVNNITVDKYPVFNDSCQACMRCITYCPSDAISTKKNDKNFYKALPIQKIISGGVK;locus_tag=LOCUS_16870;note=WP_011861832.1 EFR1 family ferrodoxin (Clostridioides difficile) [pid:34.8%25%2C q_cov:74.6%25%2C s_cov:54.2%25%2C Eval:1.2e-12%2C partial hit],MGA_1697
sequence1	MetaGeneAnnotator	CDS	1831426	1833276	.	-	0	ID=MGA_1698;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986472.1;translation=MSEKTQRRRGGFGHGPGGIMRGGEKAKNFKKTMKQLIAYLSPFKFSFIIVFIFAVLSTIFTIVGPKILGKATTKLFEGIMGKITGTGNGIDFAYIGNIILLLAGLYLISALFSYIQGWIMSSVSMKVTYKLRKEISEKINRLPLKYFDKTTQGEVLSRITNDVDTVSQTLNQSLTQLITSFTAVVGVLIMMLSISWQMTLIALAIIPVSFMLIIGIIKQSQKYFKQQQDYLGHVNGHIEEMYGGHIIMKTFNGEEKSIKKFDKYNNVLYGAAWKSQFLSGLMMPIMSFVGNLGYVAISVLGGYLASKKALEVGDIQAFIQYVRSFTQPITQLANISNILQQTAASSERVFEFLDEEEEIEEIKNPAKIPEVHTGVEFKNVHFGYTDKIVIKNFSTSVKAGQRIAIVGPTGAGKTTIVKLLMRFYDVNDGEILVDGNNIKNYKRNDLRSLFGMVLQDTWLYNGSIMDNIRYGRLDATNEEVIKAAKMAHVDSFVHNLPKGYDMILNEETSNISQGEKQLITIARAILADPKILILDEATSSVDTRTEVKIQKAMNNLMKDRTSFIIAHRLSTIRDADLILVMNEGDIVEQGKHKELLTRKGFYANLYNSQFENAEIS;locus_tag=LOCUS_16880;note=WP_011986472.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:66.1%25%2C q_cov:97.4%25%2C s_cov:97.1%25%2C Eval:1.2e-231],MGA_1698
sequence1	MetaGeneAnnotator	CDS	1833273	1835495	.	-	0	ID=MGA_1699;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986473.1;translation=MTKLFRYLKPFAFIILLAILFVSVRSLSDLALPDYMSKIVNVGIQQNGIENSVPIAIRKSTVDKLSLFLSTNEKKELSKNYIYIDKTKKEYAIYLKKYPILKKEPIYVLKNNDSKTLEPLKKIFGKGFLAIEGIEKLKENEKDGFIDLNGTKIPAKLNIYSFLSFLPETQRIEMANSMNEKFTSLGDNMVNQAAVSYLKKEYDAVGINTSKLQSKYIINTGLFMLLLSLLSGISTILVGFLAAKTAAGVAKNLRRDVFSKVQKFSNAEFDKFSTSSLITRTTNDITQIQQVVFMIIRILFYAPIIGIGGVFKALQKSASMSWIIALAVLVLLGLILIVFSVAFPKFKIVQKLIDKLNLVARENLSGLMVIRAFNTQKFEEKRFDKANLDLTNVSLFVNRIMVVMMPAMMLIMNGVSILIVWVGAHQIANSSMQVGDMMAFMQYAMQIIFSFLMLAIMFIMVPRASVSGQRIAKVLETDASIKDPENPKNLDEAKGEIEFKNVSFKYNGAEENMLKNITFKAKPKQTTAIVGSTGSGKTTLINLILRFYDATEGEILIDGINIKDLKQSELRKQIGYVPQKGILFSGTIKSNLKYANENSTDEDIVKTAKIAQAMEFIEKSPKKFDTEISQGGSNVSGGQKQRLSIARTILKKPKIYIFDDSFSALDFKTAAQLKRDLKEETKNSTVIIVAQRISTVKNSDQIIVLDEGKIVGIGTHDYLMKNCVPYQEIALSQLSREELA;locus_tag=LOCUS_16890;note=WP_011986473.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:55.2%25%2C q_cov:99.9%25%2C s_cov:99.7%25%2C Eval:3.5e-238],MGA_1699
sequence1	MetaGeneAnnotator	CDS	1835501	1835908	.	-	0	ID=MGA_1700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDWKIYYEEMKSKTNYTIDYPICGGAGECITACPRGKEIWKFKTMKVSLMGIDKRIRKRPVMIHPELCLNCNSCIMACPTGALRNKEKTIKSRFFSVFYNTLRLPFKKKYNLKFLSTEEHKKAFLENNKKLGKE;locus_tag=LOCUS_16900;note=MGA_1700
sequence1	MetaGeneAnnotator	CDS	1835924	1836361	.	-	0	ID=MGA_1701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEVEKGIKAVKYLKNIMNHMRNKIKQNFEEFNLTGPQGMLIGTLAKHKKMKISDLSKELGLSNSTISGIVDRLEKQKMVERIRSEKDRRVVYVTITKDFQKEFQKSFENIEKNFEIMMNNASSEDINSILDGLEKLEKLLKTEE;locus_tag=LOCUS_16910;note=WP_010942998.1 MarR family transcriptional regulator (Geobacter sulfurreducens) [pid:34.2%25%2C q_cov:82.8%25%2C s_cov:69.4%25%2C Eval:3.4e-13%2C partial hit],MGA_1701
sequence1	MetaGeneAnnotator	CDS	1836781	1838607	.	+	0	ID=MGA_1702;product=glutamine--fructose-6-phosphate transaminase (isomerizing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048324.1;translation=MCGIVGYIGNKNAREVLIDGLDKLEYRGYDSAGMALLSEEELKVRKFKGRLSVLKENVEKENLYGNVGIGHTRWATHGEPSDVNSHPHTSENNNIAVIHNGIIENYIQLKEWLIKEHDIKFKSETDTEVIAHLINHFYNGDLLDAVYKAIDKMEGAYAIGVLCKQEPDKIIAVRKDSPLIVGIGKEENFIASDIPALLKYTRNVYLIENGEVVVLTKNDIKIYNELRQEVKREVYKVNWDVESAKKDGFEHFMMKEINEQPKGVHETLFRRLKEDKVYIDGIKITKKDLERINKIYIVACGTAYHAGLVAKRAIENFAKIPVYVDVASEFRYSDPFVDKNTLFIAVSQSGETLDTLAALREAKRKGARVLSVVNVVGSSVARESDDVFYTWAGPEIAVASTKAFTTQLIALYLIALHMGITNEKLTEKRYFEIIKELKVLPEKIEKILKNTKQIQELADNNFNNNSIFFMGRGIDVDISMEASLKLKEISYINSFAIPAGELKHGTIALVEKGTLVIAISTQKRLTEKMISNIKEVKARGAKVIVVTLESNKDVVKVADDVIYIPETLDILTPVLSIIPMQIFAYYVSIARGNDVDKPRNLAKSVTVE;locus_tag=LOCUS_16920;gene=glmS;EC_number=2.6.1.16;note=WP_012048324.1 glutamine--fructose-6-phosphate transaminase (isomerizing) (Clostridium botulinum) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-227],MGA_1702
sequence1	MetaGeneAnnotator	CDS	1839521	1839991	.	+	0	ID=MGA_1703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKLLILLFVLSFTIFTFSFQLSGSYLLELSGYERTFYGTNVILGDKDIIGLEFGVFLPPDTIETGELTYLQPTTFLLAQLPLNNFKFFTGISPIFQYYKSEFSLYSYTMYLTKAGLSLYLGPIVLTGGINTIIDLSFQQTFGIYGVYGELGLRF;locus_tag=LOCUS_16930;note=MGA_1703
sequence1	MetaGeneAnnotator	CDS	1840008	1841375	.	+	0	ID=MGA_1704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYIYIAVLSILLILTLFSCQKIDPLLGNSDISGISVLNDSNNHENIKISIEGLENGFSPIDAISTISATLSDKNGNFSLENIPAGNYIIKAEKNGYFPTKKFINVEDNKEITLDSTLVLYPLSDYGTLNGNVKYIDKSDNTGILLEIRTPKGEPLPDMYTFSDKNGNYSFEFVPVGNYVIYAHDPSKNSKYSADAAPILIENLKNTVAPNLILRKASEHVVIFRDIAAWGASDAIPNILKDMDFTEGTGLHQYEIKNSTDMNNLSSFNTSWSIIIEGDQTTDFYNIYKENSNKFDTFVRNGGTLFWIACDNGWNSGDFTGTLPGGITWRDTYDSYNDLVNKTHPLLEGFPFDRSLEGNYASHGGFDNLKNANIENLVVFIKEHTTSEQYPTYIEYRYGNGRVVSSTTPLEFYINHSDYDNDWYILLLRRSIEYVFNLPLSPVNINPPAYTLSN;locus_tag=LOCUS_16940;note=WP_012583007.1 hypothetical protein (Dictyoglomus turgidum) [pid:41.8%25%2C q_cov:70.5%25%2C s_cov:85.8%25%2C Eval:5.0e-69%2C partial hit],MGA_1704
sequence1	MetaGeneAnnotator	CDS	1841625	1842371	.	+	0	ID=MGA_1705;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080881.1;translation=MLKAIKLVKEFGNYKAVNEVTLNIKKGEIYGFLGPNGAGKTTTIRMLTGTLKPTSGDVEILNLNLFNNELEIKRRIGVVPDEPKMYENLKGFEYIEFIMGIYKLNKDETKKRFDEICDAFEIDYLNNYIGDFSHGMKQKLMVASVLMRKPEVIFLDEPTVGLDARSAKILKELLHKYRDEGMTIFLTTHILEIAEKMCDRIGIIKEGRMLAEGTIEELRNSTENKGSLEDIFLELTGDDSIEDVIKEL;locus_tag=LOCUS_16950;note=WP_004080881.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-85],MGA_1705
sequence1	MetaGeneAnnotator	CDS	1842386	1843975	.	+	0	ID=MGA_1706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080878.1;translation=MSDLSLLIKYSFQNKSRYSKKKKNGKERKPTNPIISIILTLSISATLGLILAPIYYYAFKNSAIPLTKFGIQSTYNFVDIIFSSTYIGLGIMFLMTFSSYLVVNLYDGDMTELFLTMPIKRSTIFLSAAIDSLILSGMPLGMLIPLSIVHAIILKGSIIASILSITLFVYLLGILALIISMLLSLFIGKTAAKRTAMLMSFGSLLIYIISTNLISKIKTTDPKVFVDGIKGALNFILFPAFPHTQMINGINGNYSSIAIMIIFSIIFTFVFYYFSNKMDFGMKSKKSSKKIKNIKISGMPLLKKDLKLLSRDSQSIFMIFYPIALSAIFFFTGNNSITFISIMFIIIAAFYSAYLTIIMLAEDTKIWPLPRLFPVKISTIVNRKIIIPVTIFMLEYFAVLIFLGIKDKLDISGIFFIVPMLIIMFYSSIFGARLFLKNPKRDTKQKNILSTKEIFMLEGVSMGYSLIIFVLLTFEQMLIKHGPFWIFKNIPIIFSHLIFLGIPIILILFILSKTRKEMNKIKKLIESWE;locus_tag=LOCUS_16960;note=WP_004080878.1 hypothetical protein (Thermotoga maritima) [pid:22.7%25%2C q_cov:84.5%25%2C s_cov:90.4%25%2C Eval:6.0e-16],MGA_1706
sequence1	MetaGeneAnnotator	CDS	1843982	1844704	.	-	0	ID=MGA_1707;product=TIGR03915 family putative DNA repair protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016780.1;translation=MIYQYDGSFEGLMSLFYYLIRKKIIPQNINNEDNSLLNSAFISTDFENSKKLILYLKKNYPTVLEKIFYAFLSEIKGFEKSSFEFLILTLSKKMDPSNLFSYTYVKDINVYYKKVTNDAHRYLGLIRFKELKDGTFFSSIKPIYNVIPLLTPHFINRFKNEKFILHDIKRRYIVMYDKKVEFMQVKNLNLSDEYHQNEIKFQNLWKTYHKYTAIEERYNLKLQNKFIPNRFWKYLIENRG;locus_tag=LOCUS_16970;note=WP_011016780.1 TIGR03915 family putative DNA repair protein (Fusobacterium nucleatum) [pid:37.7%25%2C q_cov:98.3%25%2C s_cov:98.4%25%2C Eval:2.7e-34],MGA_1707
sequence1	MetaGeneAnnotator	CDS	1844705	1845943	.	-	0	ID=MGA_1708;product=putative DNA modification/repair radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016781.1;translation=MDLNEKLKILSSSAKYDVSCSSSGSERLNIDGIGNTEKSGICHSWAADGRCISLLKVLYTNYCKFDCAYCINRKSNNIKRTTFSPEELVNLTLSFYKRNYIEGLFLSSGIIKSANYTMEKMFIVVKKLREKNFNGYIHLKAIPGADKELIRKAGFYADRMSVNIELPTQKSLAVLAPDKSKENILKPMKYIGSNALVSISERKKFKTAPSFVPAGQSTQMIIGASPDSDKTIINLSEKLYKNFNLKRVYYSAFIKVNTDSKLPQKNASLLREHRLYQADWLLRYYKFSANEILDENEPFLNEKLDPKSMWAIRNFNLFPIEVNKAPYEMLIRVPGIGINSALKIIKTRKYENINFEILKKIRVVLKRAKYFITCNGKFQGYIFKDPKNLKNVLSSKNKSIPLFLKNIPERTY;locus_tag=LOCUS_16980;note=WP_011016781.1 putative DNA modification/repair radical SAM protein (Fusobacterium nucleatum) [pid:58.2%25%2C q_cov:97.8%25%2C s_cov:98.1%25%2C Eval:6.1e-135],MGA_1708
sequence1	MetaGeneAnnotator	CDS	1846071	1847291	.	+	0	ID=MGA_1709;product=adenosylhomocysteinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082805.1;translation=MNLELGRKKIKWVEKYMKVVNYLRDMYINEKPFNGVKVAMSIHLEAKTAYLATILKQLGADVAITGSNPLTTQPEVAEALKEYGIHVYAEKTLDEDIYWKNMDKVLEFNPNIIIDDGADLGIRLIEKFPEKIENLWGICEETTTGVKRYKALYNDGKLSVPLIAINDSYMKYLFDNRYGTGQSTWDGIIRSTNITVTGKNVVVGGYGWCGRGIAMRAKGLGANVIITEIDPIKANEAIMDGFRVMKMNEACKIGDIFVTATGDIDIITEKQFLNMKDGVILANSGHFDVEVKVADLEKIKVEKKEVRPGVEEYVLPNGKSVFLLGKGRLVNLTNADGHPIEIMDLSFALQLEGAKYIMENYKNMDISIKPIPYDIDKKVASIKLKTIGIEIDTLSEDQKNYLNSWK;locus_tag=LOCUS_16990;EC_number=3.13.2.1;note=WP_004082805.1 adenosylhomocysteinase (Thermotoga) [pid:58.9%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:1.8e-136],MGA_1709
sequence1	MetaGeneAnnotator	CDS	1847429	1848340	.	-	0	ID=MGA_1710;product=NosD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065269.1;translation=MKNKYFIFLLIIISVLGFSTDIKVGCVNSKYKTIQEALNNAKIGDTIILEKGTYRENVIITKDVNIKGEDDVLIQPKNNDKSVFKIYDSSNVNISNIKITSPGTGINIINAGVHLNNVEIYSSKDAIFGYLFNNDFSMENSKLSGKTKKSENGKEIYISNSGIHLFRNNMTTIKNNKISDYANAIIISTSMHTESKIINNSIKYCVNGVVFLGDINSNIFDNEIINIYNYAVSLNGKIYADIEDNKIDSENYNLFLNDGKTCLCSKMIFSGKIVGKNNVIIKNEDLLGKYTLPNNFYIIKNAF;locus_tag=LOCUS_17000;note=WP_048065269.1 NosD domain-containing protein (Methanosarcina acetivorans) [pid:27.0%25%2C q_cov:84.2%25%2C s_cov:76.8%25%2C Eval:1.9e-12],MGA_1710
sequence1	MetaGeneAnnotator	CDS	1848591	1848716	.	-	0	ID=MGA_1711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKTKKRTSWLIFFTFLLTMISMNVFANFNGVIDQSVMIVF;locus_tag=LOCUS_17010;note=MGA_1711
sequence1	MetaGeneAnnotator	CDS	1849242	1851032	.	+	0	ID=MGA_1712;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGQSDFKTIIEEDMYFVDKSLLIKEVIESGNVLLITRPRRFGKTLSQSMMKYFFDITQNNEYLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLISELSTLYIDHKYVLNVLDEEEKLVYKSITLKKANDSEYENSIRNLSKYMERYYSKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLEVSTVLNELFNDKYGLTKEEVEETLKYYELEYEEDEVINWYNGYNFGGVEIYNPFSIVTLAKNKGKIRPYWMNTSGNFLVKQLIKQGSAELKDKIEKLINGEEIESTINETMVYGDLNNNLEESVWTLFLFSGYLKWTKNINHDYERYTLKIPNKEVKIFYNKTVVSMLEEERIKFDNMLLNLKVGRIKTFTDQFKDLTMNTLSYFDVSGKEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKYNRDEDKSLKDSAKNGLNQINEKKYEEEIKSYGINNIIKVSIAFDKKEVEIISNLDKGIELTPEEKIAKEMIKKGLDINMISELTGISIEKLKNMLNK;locus_tag=LOCUS_17020;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.9%25%2C q_cov:92.1%25%2C s_cov:99.1%25%2C Eval:7.5e-103],MGA_1712
sequence1	MetaGeneAnnotator	CDS	1851213	1852922	.	-	0	ID=MGA_1713;product=NADH-dependent [FeFe] hydrogenase%2C group A6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393219.1;translation=MKVTINNQIFEFDEELSILEATKKAHIKVPTLCYNEKLAPYGSCRLCSVEVEGKKTLMPSCVTKIKDGMNIKTHSEKVRRVRKIIMELIISSHSISCDLNCLNCPRADNCEIREVAQEIGVINIRIPPIPKEELIDNSSFSIVREPSKCIVCNRCVRKCSEVQNVNILTIANKGPNTHVTTYMDRGMGNVDCTNCGQCILECPSGALHEVYHIDSVWKAIEDPEKHVVVQTAPAVRVAISEEFNEKPGSTTTGQLVSGLKLLGFDKVFDTNFAADLTIMEEGTEFIKRFKSNKNLPIFTSCSPGWIKFLEHNYPEFIPNLSTCKSPQQMFGSIVKSFYAEKMRIDKENIIVVSIMPCTAKKYERTRPELKGDVDYVLTTRELGKMFKEAGIDLLNLPESKYDDPLGKSSGAAVLFGATGGVMEAALRTAYEVLTGQELESLDFNVVRGIKGIKEATITIGTHKLNIAIANGLGNARKLLEMIKSGEKTYQFVEFMACPGGCIGGGGQPIPTNDETILERMTAIYDIDRELKIRKSHENPAVQELYKEFLGEPNSELAHKLLHTTYIARN;locus_tag=LOCUS_17030;note=WP_011393219.1 NADH-dependent [FeFe] hydrogenase%2C group A6 (Moorella thermoacetica) [pid:54.5%25%2C q_cov:99.8%25%2C s_cov:99.0%25%2C Eval:1.4e-183],MGA_1713
sequence1	MetaGeneAnnotator	CDS	1852919	1854133	.	-	0	ID=MGA_1714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIFLKKDQNKNLYNYEFLGLKKSLKLSPEKIIEKIKKSGLRGRGGAGFPTGIKWEYGYSIKSDVKFIICNGDEGEPGTFKDRFLMENMPFKVIEGIIISGYATNSNYGYIYIRGEYEKAIKKIKETIELMYEKNLLGKNILNSNFNFDLKLVRGAGAYVCGDETSLINSIEGERGRSRIKPPLPIESGLYKKPTIVNNVESLSAAAEIMKYENNPYTTLGTSESRGTKLISLSGDINNPGVYEIEFGKMTIKEIINEFGGGMKIGNIGFVIPGGIATQALSESELNILYTYEDISNSGSSLGSGGMIVVSNQRNYLEIIKNVSDFFKNETCGTCFPCREGNRNINKILENFNNNKKINSKDIKIINEIKEAIGLAARCGFGQSSVNLIASILEKFYIEKVKI;locus_tag=LOCUS_17040;note=WP_012584033.1 NADH-quinone oxidoreductase subunit NuoF (Dictyoglomus turgidum) [pid:40.6%25%2C q_cov:95.8%25%2C s_cov:71.0%25%2C Eval:6.8e-83%2C partial hit],MGA_1714
sequence1	MetaGeneAnnotator	CDS	1854144	1854563	.	-	0	ID=MGA_1715;product=NADH-quinone oxidoreductase subunit NuoE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011343661.1;translation=MEKFFQKELLEELRDIQDAYGYIPEKEILRISKERSIPKANLFGTISFYSMLYTKPTGKYIIRLCDSVSCRLNGSNAVLNSIKDYLKIGSGETSNDLKFTLEVVECLGHCGEGPVMIINSTVYNYLTPEKAVNILQSLD;locus_tag=LOCUS_17050;gene=nuoE;EC_number=1.6.5.9;note=WP_011343661.1 NADH-quinone oxidoreductase subunit NuoE (Carboxydothermus) [pid:40.2%25%2C q_cov:91.4%25%2C s_cov:78.9%25%2C Eval:3.4e-25],MGA_1715
sequence1	MetaGeneAnnotator	CDS	1854833	1856572	.	-	0	ID=MGA_1716;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081378.1;translation=MKKLLFVFIALISSILFFAEDVEWLVVDVDGGVPGNTLFLGTTSGPKTLNPATSQETSSNDIISLFLDSMLQQDQYGFVTQPALAKSWKYEKTSEGGVSYYFTLRKGLKWSDGEPLTIDDVIFTFEKIYFKNDMTPNGNDSYLDSEKNLPIIEKVDNYTVKFTYKTLVRNGNGIFGGTSILPKHIFKDHVSSSDALAQTWTVDQLKSVVASGPFILKDYKEGVRIVLEKNPNYYAKSKDGIRLPYLDKIIYTILPNNQTELLRFKAGDLDLMGITANDYPTLKAGEEEGNYKTIVGELNPGPSFIAFNFNAPEKYKRAWFRDSEFRKAVSFALDRNSVVDNMLNGMGAAVFSREVPDSKYYDEETINRMHYKYSLSKAKSILRKAGYVLKNGKLFDKFGNQVTFSIETNVSTEVWVDIANILKDSLQKLGIDVIFTPIQFNTLVQKIITTGQWDAVILRLSGDTPDPAAENVWTLKGGLHFWNFSPETKEFVDKEDYFVPDYEKRIDEIMVQQKTLLDDEKLTKLFKEFNNILAEEQVLIYTFAQNYLVAVNNKVHLYTKKPNPYIKSTYRIYAIWKEN;locus_tag=LOCUS_17060;note=WP_004081378.1 ABC transporter substrate-binding protein (Thermotoga maritima) [pid:39.5%25%2C q_cov:96.0%25%2C s_cov:96.2%25%2C Eval:1.4e-117],MGA_1716
sequence1	MetaGeneAnnotator	CDS	1856692	1857621	.	-	0	ID=MGA_1717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELINKLFIKKLIMITVLLFSSIILSNTKSFEFSLSEIKKINIESNISNINIYYSEKNSLICFYENELNIFPDILFKKDFDLINLTETLNKNNPFFLLKKFVFNSNQNNNSLKSGTFTVMTNKKDDAIFVSYKGNIKLKKIFTNYRLIAKNTIGNIFPFSISSKNIYLENVNGKILSNNFISNGELEIKNDRGDIDLKNFSNTVFSKIINKEGNIKLTASVNKMYIKNVFGNISLYLKKFNKCEINQSFGTTLIVLNKNQKYDYEIQAPNIIFFNKNYTKKLNIKNGNNKLKIFSKNTVIIQDISNLD;locus_tag=LOCUS_17070;note=MGA_1717
sequence1	MetaGeneAnnotator	CDS	1857627	1858283	.	-	0	ID=MGA_1718;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963498.1;translation=MIKVMIVDDQTLVREGISMLLSLCHDIELVAEASNGEEALNLIEEKKPDVILMDIKMPIMNGVKATKIIKVKYPNIKILILTTFKDDEFIFEALKNGADGYILKDVKSDKIIESIKTVYSGNLLLHSEIANKVIKELGNKSKNTKENKLEINGPYESLTSREVEIAQLISIGKSNKEISQLLFITEGTVKNHITRILSKLQIRDRTQLALYVQKVMNG;locus_tag=LOCUS_17080;note=WP_010963498.1 response regulator (Clostridium) [pid:46.8%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:4.0e-55],MGA_1718
sequence1	MetaGeneAnnotator	CDS	1858280	1859428	.	-	0	ID=MGA_1719;product=sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965551.1;translation=MKKKIFFSIKFLILILVILTLYTNFIYFIGKFFLYTTFLIIVFINDILRTSYFLKKKIIYFSSISFSLLSITYISTFVNGDAIFLFYLYLYEFIIINKNKKYLLLHIFLYVFMSTKELMNYTDFNFITLWKNYGFSILTNYIIYFLIIFALITLKNQYHERKKAEKLNVELKKSLKTIADLSIEKERNRIAQEMHDSIGHKLSALIMRLDYIEKIIDIDAKKAKEHILKSQEISRSTMKSLREAVYALKENEQFYSLSDSINKLIKNIKIENIEIDFKYSKEINNIDLDIQNIIYKTVMESLTNSIKHGKPSKINLNILKNNNEITLNIKDNGIGCLNIQKSTGLNGIEERIKKVNGQVIFNSLNKEGFETKIVIPLMEGLK;locus_tag=LOCUS_17090;note=WP_010965551.1 sensor histidine kinase (Clostridium acetobutylicum) [pid:27.7%25%2C q_cov:94.8%25%2C s_cov:95.5%25%2C Eval:3.1e-37],MGA_1719
sequence1	MetaGeneAnnotator	CDS	1859697	1861532	.	+	0	ID=MGA_1720;product=molecular chaperone HtpG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016311.1;translation=MSTKMNFQTETKKLLDLMIHSIYTNKEIFLRELISNSSDAIDKIRFESLKNPEILNGDNKFEIKLELKDNKLIIEDNGIGMSYDEVIENIGTIARSGTKKFIEELKKEENNTNDLIGQFGVGFYSAFMVAEKVTLETKKYNEREGVIWKSEGNGEFTIDKTEKNNRGTKITLELRKDIEDEIKLDEDKIKELIKKYSNYIKYPIKMEIEKEGKKELEILNSMESLWMKNKKDIKKEEYDEFYKETFHDWIDPFEIIHTKAEGSIEYTALLFIPSKLPIDYYSKNYKRGIQLYSKNVFIMEKYEDLLPEYLGFIKGLVDSPDFSLNISRELLQQSRQLQIVKKNIEKKVLNTLENILKKDQKRYIEFWEQFGRSIKSGIYENLTNKEKLENLLIFKSSFEKDYTTLNSYIERMKEDQKYIYFASGENVESIEKLPQLEAVLDNGYEVLYFNDSIDEFLVQMMREFKGKEFKSISSNDLNLKNEEEVKKLEKENGSLLEEIKEILKEKVSEVKLSSRLKTSPVCIVTGNMGISTNMEKILKELDQLPFKADKVLEINPNHDLFKTMEELHRNGEKEKLRDYSELLYNQALILEGLKPENPTELVNLISKLITK;locus_tag=LOCUS_17100;gene=htpG;note=WP_011016311.1 molecular chaperone HtpG (Fusobacterium nucleatum) [pid:51.1%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.2e-167],MGA_1720
sequence1	MetaGeneAnnotator	CDS	1861711	1862346	.	+	0	ID=MGA_1721;product=lactate utilization protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082766.1;translation=MDFYKWKYLNIGERLVTKLKNLKHDAYLVENKNEVVPLLKKLMPENSKVGVGGSVTLSECNVLEFLRNEKFNFLDRYSVKTEEEKTEIYYENFKTDFFLCSANAITMDGKIVQLDGNGTRVAPMIWGPKNVIIVAGMNKVVEDLNEAELRLKFISPMNAKRVNAKTPCSRIGECIDCESHDRICIHKTILETGVRQPGRFKIILVAEKLGF;locus_tag=LOCUS_17110;note=WP_004082766.1 lactate utilization protein (Thermotoga) [pid:46.9%25%2C q_cov:99.1%25%2C s_cov:97.2%25%2C Eval:1.2e-56],MGA_1721
sequence1	MetaGeneAnnotator	CDS	1862361	1862738	.	+	0	ID=MGA_1722;product=aspartate 1-decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287876.1;translation=MFKIMLKGKIHRAIVNEKNINYEGSITIDPELMELAGMEEFEKVQIVDINNGKRFETYIIKGEYGKREIGLNGAAARMCELGDQVIIMSYALYEKNEVPNPKIVVVDNNNNPKTTKNSETPNTFC;locus_tag=LOCUS_17120;EC_number=4.1.1.11;note=WP_002287876.1 aspartate 1-decarboxylase (Bacteria) [pid:54.7%25%2C q_cov:92.0%25%2C s_cov:89.3%25%2C Eval:8.4e-29],MGA_1722
sequence1	MetaGeneAnnotator	CDS	1862760	1863023	.	-	0	ID=MGA_1723;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_011392518.1;translation=MKKKAVALRYKKGKDTAPEVIAKGVGEIADKIISVAKEEKIPIIEDEYAAEEFYGVDINVEIPPEMYKIAAEILAYVYSIDKKNKKG;locus_tag=LOCUS_17130;note=WP_011392518.1 EscU/YscU/HrcU family type III secretion system export apparatus switch protein (Moorella thermoacetica) [pid:50.0%25%2C q_cov:96.6%25%2C s_cov:89.4%25%2C Eval:8.8e-18],MGA_1723
sequence1	MetaGeneAnnotator	CDS	1863023	1863790	.	-	0	ID=MGA_1724;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003130766.1;translation=MKKILLFLFLIVFYVFFIEPSLIVVKKNINFIKKDIKENIKIVDISDLHITNYYFFHDIVLNKIKKIKPDIILYTGDTLKKSSDENSIHKFFLKLNKIAPVYAIYGNWDYYDIKKLNSAYNGTNISIVDGITKEIYIKKNKFLITGLPMYYPLKNFEYDKNAFNIYLTHIPSNVFKNKKVLKYADIIFSGHTHGGQVTIPFVTNFILREYMGNYYIKSMYKIENTKLYVNTGLGSWYHARFLTFPEITVLNIRGE;locus_tag=LOCUS_17140;note=WP_003130766.1 metallophosphoesterase (Lactococcus) [pid:30.7%25%2C q_cov:94.1%25%2C s_cov:92.1%25%2C Eval:1.2e-19],MGA_1724
sequence1	MetaGeneAnnotator	CDS	1863952	1865028	.	+	0	ID=MGA_1725;product=tetratricopeptide repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082211.1;translation=MENIVNVNINGESIAISTQTPFPLMLSEYLYEGDFDLMMADLNNKKEFIEECKKVKFLMDNLPGLTSSFITTPFIFNNFITYFDEFNIKATDLNHVSLNGLFDIVLDRADRKDFDLVKKIIEFMLKIDKNFAPAYELYGSILIEEGDFNKGTEYLETSIKLEPWNVAALSELGETYFNLGEYDNAAKIWKKEINLSPDNYVTYFMLTDAYIEAKKLTKAAHVLEKFLNRFPKSILGKYELSGLYEKLSRTLEASELKDEIMKSVPVYSSDIEVWTKIMFEKNQFKKVQEFLEKYIENKKDHDHFKLLLVVPYIKSGKVEEAKKIYDEMKNKYKWYLYGLKEIMEKYIDKNLLEEMETK;locus_tag=LOCUS_17150;note=WP_004082211.1 tetratricopeptide repeat protein (Thermotoga maritima) [pid:37.5%25%2C q_cov:96.6%25%2C s_cov:96.4%25%2C Eval:1.1e-73],MGA_1725
sequence1	MetaGeneAnnotator	CDS	1865025	1865504	.	+	0	ID=MGA_1726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLNKFMWCLIGTTIFINIILTLNNKWYDIIVLNSLLFAGIYDFFKFIIPDTTILIIIGVSIFNFNFLSFISSIIMFFITFYFWKNKKMGFGDVKLLTAISLFYGNNSFIILILSIISVFIINIKEKEKKVPFGFYIFIGSIIFYLYEVIKCFFIK;locus_tag=LOCUS_17160;note=MGA_1726
sequence1	MetaGeneAnnotator	CDS	1865486	1866259	.	+	0	ID=MGA_1727;product=YdcF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881298.1;translation=MFFYKVIGSFFEIPGIFVLLCILMFIYYLKKEKKIRKFLLFITLIIYIISSGWFSKIFIPILENQYSPFIFEGKSFENEKGLIVILGGGVISNTPNNNLGELSDSSMQRVYNGYLMYKNLNFPIIVTGGTLDKTDNIPEAFKMKEVLLKMGVKPSDVYLETSARNTYENAKFTSEIAKKLNKEKIYLVTSAIHMKRSYEIFKKYINKNTKLIPVPVNYLVSRTSINWYDFLPKIDSLKATSYAFHELLGILFEKIFS;locus_tag=LOCUS_17170;note=WP_010881298.1 YdcF family protein (Aquifex aeolicus) [pid:38.0%25%2C q_cov:99.2%25%2C s_cov:98.3%25%2C Eval:5.2e-34],MGA_1727
sequence1	Aragorn:1.2.38	tRNA	1866315	1866391	.	+	.	ID=Aragorn_39;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00390;note=Aragorn_39
sequence1	MetaGeneAnnotator	CDS	1866440	1867198	.	+	0	ID=MGA_1728;product=shikimate 5-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083132.1;translation=MKKFCLIQYPPKDSMSKIIFSNYFNKHKLPYIYEDISIPKNLFEKNINKILLTYDGINITIPYKEKIIKFIKINDSAKKIGAVNCIYKNIGYNTDYLGFINSLNNLNMPKNITLIGAGGVSRAIIFGLYKIGVKKITLINRTIEKAFNLKKIFNYIDIDVMPLTSLNKIIKKTDFLINATSIGMQGETFNLKNNSIKIFYDTIYYETPLQKFFKNQNTTVINGKKMWFYQAIENLKLWNIYEKSFFDFFDTL;locus_tag=LOCUS_17180;gene=aroE;EC_number=1.1.1.25;note=WP_004083132.1 shikimate 5-dehydrogenase (Thermotoga maritima) [pid:38.7%25%2C q_cov:96.8%25%2C s_cov:96.0%25%2C Eval:1.3e-50],MGA_1728
sequence1	MetaGeneAnnotator	CDS	1867298	1868635	.	+	0	ID=MGA_1729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKINIIFYILIILFFIFFEFLNKQNSYILFITSLIMTITTFLSFFYIYILTKKINNKNKNLELKNLNKKLNASFLKINNLSKKLKQLTELTRDLGNNNMELDDFCNELLETAHNFIPQSNYGSISLIKNGEWNFISTIGHNINLLKTLKFNVYEINPKEGIQIININKRNKNLKKEIKEKLFLATQPTKETLASYIKLNETLALNISLDISKENKLNFDDTSIELMESFSNITKSFFNQKLSHDNIKEAYYEFANKLAIISEGYDEDTGNHVKRVSILSGFIAEKIGLNSKKVNDIKKFAQLHDIGKIFTPKEILNKKTSLTPQEWEELKKHTINSKKLLNGKYFKTALNIALYHHEKYDGTGYPFGLSKNLIPIEAQIVGIVDVYDALRSKRSYKEAFDHNKVLNIILKGDGRTNPKHFNPVLLKIFTKYERKIEELYNELK;locus_tag=LOCUS_17190;note=WP_004082198.1 HD domain-containing protein (Thermotoga maritima) [pid:46.5%25%2C q_cov:60.4%25%2C s_cov:49.9%25%2C Eval:9.3e-60%2C partial hit],MGA_1729
sequence1	MetaGeneAnnotator	CDS	1868657	1869151	.	+	0	ID=MGA_1730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKKIFLIGMMGCGKTTLGKKLSNILNLPFIDIDSEIEKKEKKSIENIFKENGETYFRTLEKKTLKEINYFYTSGIISTGGGIILDDENFNILKNEYTIFLYVSISELKKRLEKDTKRPLLKNKNIINIWEERKSLYNSFKKVNLSGLTINSSLEKLLKEIIN;locus_tag=LOCUS_17200;note=WP_004083135.1 bifunctional shikimate kinase AroK/3-dehydroquinate synthase AroB (Thermotoga) [pid:40.8%25%2C q_cov:88.4%25%2C s_cov:29.5%25%2C Eval:5.3e-25%2C partial hit],MGA_1730
sequence1	MetaGeneAnnotator	CDS	1869230	1869604	.	+	0	ID=MGA_1731;product=RidA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868364.1;translation=MKKIHNPEGVPQPIGPYSISNIFENLIFLSGQLPVENGELIKGDIKKETELIIKNIKTILETAGSSLDCVLKTTVFLKNMDDFGDMNEIYGKYFKNNPPARSAIQVAKLPKDSDIEIELIAYKK;locus_tag=LOCUS_17210;note=WP_010868364.1 RidA family protein (Pyrococcus abyssi) [pid:52.0%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:1.4e-31],MGA_1731
sequence1	MetaGeneAnnotator	CDS	1869627	1870463	.	-	0	ID=MGA_1732;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082238.1;translation=MVRAFFALLMVTFLWGSTFPFIKMAVNGESVYLYLSLRFWLAGILSMFLWKKHSLKYGLIIGIFISLGQITQTIGLTLTTASKSGFITSLYIVLVPVFAYLIEKEKPTLMQIIAFPISILGSYFLSGGVKGFNVGDILTVLCAVFYALSVVYITKYSKIVPESSLLSYQFIAVAIMNTALAFTSPGGKVSIPLILVVIYTAVFSTIIATLFQSKYQKILGNNMSAFVFIGEPIFAAFFAFLILKETLSVKQFLGASIMIISLIIGTIPSKNKEKITPI;locus_tag=LOCUS_17220;note=WP_004082238.1 DMT family transporter (Thermotoga maritima) [pid:47.9%25%2C q_cov:96.0%25%2C s_cov:92.7%25%2C Eval:6.9e-67],MGA_1732
sequence1	MetaGeneAnnotator	CDS	1870476	1870895	.	-	0	ID=MGA_1733;product=type II 3-dehydroquinate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083137.1;translation=MILIINGPNLNMLGRRPISVYGDGSYDDLKELLNEWSEINKIDIEIFQSNIEGKIIDRIHQLNYDGLIINPGAYTHYSYAIRDALEILSIPKIEVHISNIYVREEFRKNSVISEVCNGKITGLGFKGYLLALEYLKEKI;locus_tag=LOCUS_17230;gene=aroQ;EC_number=4.2.1.10;note=WP_004083137.1 type II 3-dehydroquinate dehydratase (Thermotoga maritima) [pid:62.3%25%2C q_cov:99.3%25%2C s_cov:95.8%25%2C Eval:2.1e-51],MGA_1733
sequence1	MetaGeneAnnotator	CDS	1870907	1873060	.	-	0	ID=MGA_1734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISIGIFILFIFIRVFSYNLNVGTYENYPISFTKDNNVKGIFSDILNFISEKEHWNINYTIKPQKNIMKELEDGNLDIAFAFGYSLERSKIFNYNTIPIISDWGEVYTNYKEDITSFKEFSNKSVGVMKSDIFYEGKNGIKNLLNGFGIKCNYIEYDTYDEIMIALSKNIIDIGIVPRIYGLMNEKKYNIKDTTLMFYPIELFFIFSKNVDNSIINTIDMYLKKMKYDSNSIYYSILDKYLQKNAKNKVPMWIYIIIISSVMIIFILFFIVYLLKKIVSKKTKKIKDQKEEIEASYEEMQAQNEQLKSNNLELENMYNEMEKSKKKLEEKYNEITSLNNILDISLKSEEFEHKRFKKLLEINSKISDFLKRENDFLLSEMLKISINVINSDYGSVYKFVGNKWIFVDAIGHDIGILKTLDLDKKYVFDVYNVEVVENIERYNTEIPKSTLEKLKKGIKKSRYTLLIPLIVNGEKIAGISFDNKEKKFTNEDIEIAKAFKTLSETILKQKKYENNFKKSYVNFANKLAMVAEAHDEITGNHIERVGILSEFIAKKMNLNEEMVIKIRNFSPLHDVGKIFIPLNILNKKGKLSDEEWNKMKKHTLYARKLLEDNEYFKVALNIALYHHEKYDGTGYPFNLIGDNIPIEAQIVSIVDVYDALRSNRPYKEAFSHEKTFQILVNGDGRTQPSHFNPEILKIFINYEKEIESIYNQIFKN;locus_tag=LOCUS_17240;note=WP_004082198.1 HD domain-containing protein (Thermotoga maritima) [pid:50.2%25%2C q_cov:30.5%25%2C s_cov:38.8%25%2C Eval:6.3e-59%2C partial hit],MGA_1734
sequence1	MetaGeneAnnotator	CDS	1873215	1873895	.	+	0	ID=MGA_1735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKWWMFLIVGLMTSFLFFPDITGKTTYPTTLYNYHENLQIFSNNVEISFDSSTDKLYLPKNLIIKKINNTLSISTPLNTKQTYKIIIGSKRSFKKIQINSGKININGTLKSNSFKLIGSGIELNTKFYGKSLYINGADVKILGNYFCNELQINATSIKSNVSLNIKSININSFDFSGTIKYSKINTNSQLKISSKGYLNIFIPKNSNNLLKITKNKIIINTKKY;locus_tag=LOCUS_17250;note=MGA_1735
sequence1	MetaGeneAnnotator	CDS	1873921	1874193	.	-	0	ID=MGA_1736;product=acylphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966115.1;translation=MILKLKVYGRVQGVGYRYFIKNIALKLNISGYVKNLPDGSVEILAKSDEKNLSSFKAFVIKGNGFSRVEDIEEKILDKLENNINEFVVKY;locus_tag=LOCUS_17260;note=WP_010966115.1 acylphosphatase (Clostridium) [pid:49.4%25%2C q_cov:85.6%25%2C s_cov:84.6%25%2C Eval:9.9e-14],MGA_1736
sequence1	MetaGeneAnnotator	CDS	1874190	1874552	.	-	0	ID=MGA_1737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNFTKELQEIIELKQIVDAYKSYISGKGKVPIQELYLDEKLKKTLMSVLEEEKGFLIKNNDISLDEKNFDIDAGDLFQIIEKFKEMGFETEYIFSKNLNEMFIKVKKVKEPGSSLGGFE;locus_tag=LOCUS_17270;note=MGA_1737
sequence1	MetaGeneAnnotator	CDS	1874817	1875641	.	+	0	ID=MGA_1738;product=phosphate ABC transporter substrate-binding protein PstS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079990.1;translation=MKKTFLIILLALTISTLFSKTLIIKGSNTVFPIAQLWIEELKKENSNFTATLEGAGSSTGIAALFNGTTDIADSSRWLKNKEIKKMQDEDKYFIPIVVGYDGIAIITNPKLNINNLSKGTLKKIYTGKIIMWNQVNPNLPKKRIVIYSRNTASGTYETFEKKVLDSERLAPWVKMVESTQFEIDSVATNPYAIAYVGVGYVTDKVKVVTVENIIPSKINILTSKYPISRPLYVFIDASKGYPETGIIKEYITFGLSKKGQELVEKAGYVAAYGF;locus_tag=LOCUS_17280;note=WP_004079990.1 phosphate ABC transporter substrate-binding protein PstS (Thermotoga maritima) [pid:68.1%25%2C q_cov:98.2%25%2C s_cov:98.5%25%2C Eval:6.4e-102],MGA_1738
sequence1	MetaGeneAnnotator	CDS	1875658	1876521	.	+	0	ID=MGA_1739;product=PstC family ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079995.1;translation=MYRELKHRINTFFIYTFALTGIIMLISIFIFIVKESLPALKNFGADLFLNFDWYPTSDPASYGLLTMLFDSLIITFLSSVIVLPLGYIIAFFMNNYSKNNEKKILKYSVELLSGVPSVIIGMFLLIYISPWMLNIGAWSQENLLLGSVGLVIISLPYTSSLMEEAMDSVDKSLKESSLALGATKFTTGFKIISRASMSGILNSSILTINRIIGETMIVLMAAGGANMIPTNILDPVRTLTAAIASEMGEVELGSIHYSSLFVAGLILLIISIILTTISKKISRSFKV;locus_tag=LOCUS_17290;note=WP_004079995.1 PstC family ABC transporter permease (Thermotoga) [pid:53.6%25%2C q_cov:91.6%25%2C s_cov:95.6%25%2C Eval:4.8e-79],MGA_1739
sequence1	MetaGeneAnnotator	CDS	1876518	1877354	.	+	0	ID=MGA_1740;product=phosphate ABC transporter permease PstA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079997.1;translation=MKKDLIISIIFRVISYFVFSVILSLFTVIIFSGIKNFSLDFFFQFPKDMMTAGGIFPAILGSFLLLILTLIISIPIGILTGIFLSEYGNNILGSFLDISITSLSGVPSIVFGLFGLSFFSIGLNLKTSIISGSLTLAVMTLPIIASTVKEAISSVPNFLRESSMALGAKKTETIFKVIVPAAKTRITTSVLIGSGKIIGETAPILLTGAVFYSTRLPHSLKEPVMTLTTHIYNISMAYGENAQWMAKSTASFLMLFILLIYGIAFNLRRKMNGKHNNF;locus_tag=LOCUS_17300;gene=pstA;note=WP_004079997.1 phosphate ABC transporter permease PstA (Thermotoga) [pid:54.3%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:3.0e-86],MGA_1740
sequence1	MetaGeneAnnotator	CDS	1877332	1878087	.	+	0	ID=MGA_1741;product=phosphate ABC transporter ATP-binding protein PstB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079999.1;translation=MENIITFKNFNSFYGNKQVLKDININFKRNKISAIIGPSGCGKSTLLRSINRMNDEVSSYKTTGELIYENKSIYDKNLDLTIFRKKVGMVFQKPVPFPMSIYENVSFGLKIHGIKDKRKIDKIVEKSLKGAALWNEVKDELNKSAYSLSGGQQQRLCIARAIAIDPEVILLDEPTSALDPIATQKIERLIEELSERYTIIIVTHNLAQAIRISNYMYFMYQGELIESGLTSNIIKAPKIKLTEDYLNGRIG;locus_tag=LOCUS_17310;gene=pstB;EC_number=7.3.2.1;note=WP_004079999.1 phosphate ABC transporter ATP-binding protein PstB (Thermotoga) [pid:64.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-93],MGA_1741
sequence1	MetaGeneAnnotator	CDS	1878098	1878760	.	+	0	ID=MGA_1742;product=phosphate signaling complex protein PhoU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080001.1;translation=MTELHHFENELLMLKADISKMLSLVLESYEMSIESLETYNIKLAKRVLLLDDNIDDLNRNIEESVYQIIARYNPLAKNLRYAMTMAKFSSNLERIGDLSCNIAQKTIKFSNENIKCELTEEIRKIIGISLQMIKDTFKAFGEKNIELAIKTWKTDNKIDDLEKLIYNDVFKKIKSKELNEELIVPFILITRDIERIADHCTNLCEEIVYIETSKELTTFL;locus_tag=LOCUS_17320;gene=phoU;note=WP_004080001.1 phosphate signaling complex protein PhoU (Thermotoga) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:94.8%25%2C Eval:8.5e-61],MGA_1742
sequence1	MetaGeneAnnotator	CDS	1878773	1879438	.	+	0	ID=MGA_1743;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080003.1;translation=MASILIVEDDKDIRDILKTYLKIENYDIYESETILDAKNIINKNNIDIILLDIMLPDGESIDDLPNIRSKNPDTGIIIISAKNTDRDKIFGIELGADDYITKPFNPREVIARTRSLLKRLKKHDVILKYKNLELLPDSFSVKKNNLLIELTSKEFEILYLLSSNPEKIFSRNNIIEKVWYGDEYITDRVIDVHISMIRSKIGKSWIKTVRNIGYKFNKNGE;locus_tag=LOCUS_17330;note=WP_004080003.1 response regulator transcription factor (Thermotoga) [pid:50.9%25%2C q_cov:98.6%25%2C s_cov:96.0%25%2C Eval:2.0e-65],MGA_1743
sequence1	MetaGeneAnnotator	CDS	1879440	1880393	.	+	0	ID=MGA_1744;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080004.1;translation=MEYLNYISEGFIKIKNIKVLFANKNAQDLGFYKNKNLLSIFTFNSIDELMKSILNNQKFECETTIHFFNGKNKFCKIFYIPNDTIIIKDKTESEIIKKVKADFISSISHEIRTPLTVAKGNTQILLDFLDNKKFESNIKTINKALSKIERIIEQLTLLSMAEFGNYTLKTQIFSPNEVYEDVINDLEKKIKEKNIKLIYVCNTEILNGDKFIIYTLIRNLVSNAIKYSFKNSSIKVEIKSNKIIVSDTGIGIKDNEKNRIFERFYRGSEASKIAKGSGLGLSIVKYLCELSNYKIKFDSKWNVGSIFEIYLKKQDKI;locus_tag=LOCUS_17340;note=WP_004080004.1 HAMP domain-containing sensor histidine kinase (Thermotoga) [pid:39.2%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:2.5e-63],MGA_1744
sequence1	MetaGeneAnnotator	CDS	1880423	1882159	.	-	0	ID=MGA_1745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLLFLIILVFPVLIFSFKDSFEYRLGAFLKNKINEYNVPGLVCSYVRNGKVKDTYSYGFSNLESNIKINSEETLFKLNDLTEIFNSYLFLKLKEDGKVDLNIPIKDYSDINNEVSLFNLLTHTTGYDFSKIGIDKKINLKNFLIEYKPKKLYSSSKFVLPTFYDKALSEYLISYLMKENYIQILNKEIFSKLNMENTFYDYPLPLYVRANKAIGYDRNNKSLINEKNSFMYFNKGYTTINDFNKFLIEILNPKKLKFDIIKNFFSEKINEYSFVRTFALNERKINEIKFYYLNSSSKGFSSSLIVIPSKNIGFSLFYNKNMPELYDDFLDFIVENFVYLKPVEIKKMPFENDIIGTYLNLNIPNKTSEKFYYLNNGNNKVVLKKLRDNKLRILNQNKVYDYLSLDNNNTFFNLDKKSIIKISNEKNSKILYLKDKIYKKLKWYENPDYYNFGTLIGEIILILILIFLIFKYIKNLKHINELNFEIIFDSIIFIECIFILFFTVEFFKTNYFVSGLNGFASLIPFLVLIISFFQFVFTIISLKKNYLTFMGIILYILSTVDSLIFISFFKYYNFL;locus_tag=LOCUS_17350;note=WP_010919966.1 serine hydrolase domain-containing protein (Caulobacter vibrioides) [pid:24.1%25%2C q_cov:29.2%25%2C s_cov:27.0%25%2C Eval:1.3e-08%2C partial hit],MGA_1745
sequence1	MetaGeneAnnotator	CDS	1882244	1883308	.	-	0	ID=MGA_1746;product=nitronate monooxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582795.1;translation=MIVIKLNIGGLVPKIPLIQGGMAVGVSLDNLAAAVANEGGIGIIGTAGIGMLIDGYQKKFKEANIESLKKVIRSAKEKTNGIIGVNIMVALTDYADMVKTAIKEKVDVIISGAGLPLQLPSFLEEGTKTKLIPVVSSVKAARVIFKRWLKKYNYIPDAFIVEGPKAGGHLGYNKEDLENPEYALEKSIEDVVLFSKEIEEKYGKIVPVIAAGGIDTSDQVKKFFKLGASGIQVGTPFITTKECDADIKFKETIINSKKEDITIIKSPVGLPGRAVKNKFLEDVENGMKKPFKCAYHCIKTCNFKEAPYCIAEALMNAARGDLENGFAFSGANGYKINKITTVKEVINNLFKEGI;locus_tag=LOCUS_17360;note=WP_012582795.1 nitronate monooxygenase (Dictyoglomus turgidum) [pid:60.2%25%2C q_cov:98.0%25%2C s_cov:97.2%25%2C Eval:2.8e-122],MGA_1746
sequence1	MetaGeneAnnotator	CDS	1883393	1883908	.	-	0	ID=MGA_1747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKDIDFLKNISIFNDLREDEIKKIISILKIIKYKTGEIIINEGEIGDTMFVFKEGKVQISHQITLKLGSSWGEAEKSMAILDGSTIGFFGEMSLLTGAPRSATIKAITDCTLYKIEKNDFERFAKRNPIIAYSIMEKIAKVLSNRIVGMNDNILKLTTALSIALSKRKK;locus_tag=LOCUS_17370;note=WP_012584159.1 Crp/Fnr family transcriptional regulator (Dictyoglomus turgidum) [pid:34.5%25%2C q_cov:86.5%25%2C s_cov:60.0%25%2C Eval:2.6e-12%2C partial hit],MGA_1747
sequence1	MetaGeneAnnotator	CDS	1883919	1885076	.	-	0	ID=MGA_1748;product=potassium channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675897.1;translation=MKKIKEYYRKIKFYLKTFLSEPVNKILLIIFGGLALTVYIIYLIEVNKNPEIKSFFDSIWWFFITVTTVGYGDIVPKTVMGKVISIIIILIGVVLVSILSGTVASILVELRLKERKGLGKVNFSGHVTILGWNQHLERVIKSLGEFAGKNFNIVIVNDMTETEFEELKYKFIDIKLKFIKGDFTKENVLKRANIKNCKYVILLADTYNDKSMDKCDEKTLLSIINIRALNRNTKIYAEVVKEKKAKVVLNAGADDVVINGELNHVFLGSLIYSPSYPKLFKELLNSKIKLESIPKNFIGENFNSLFQFYKEKQGKLIIGILRIKKGLTIDDLLSNDSAIDKFIKNKFEEADENFFEDTKEEYEVIINLKDDYVITKKDTSCFVID;locus_tag=LOCUS_17380;note=WP_002675897.1 potassium channel family protein (Treponema) [pid:26.8%25%2C q_cov:94.0%25%2C s_cov:85.6%25%2C Eval:7.5e-31],MGA_1748
sequence1	MetaGeneAnnotator	CDS	1885244	1886476	.	+	0	ID=MGA_1749;product=ATP-dependent Clp protease ATP-binding subunit ClpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082752.1;translation=MKEKFCSFCGKPSTETEALIAGPNGIYICDECVTLFDDLIEESKTKKMFEKGNTTKKLPKPSEIKSELDKYVMGQESVKKIISVAVYNHYKRIFSSKKIEDIELEKSNVLMIGPTGTGKTLIAKTLARILDVPFAIADATSLTEAGYVGEDVENVLVRLLQECNYDVSKAEKGIIYIDEIDKIAKKSQNVSITRDVSGEGVQQALLKIIEGTLANVPPQGGRKHPNQQFLKIDTSNILFIAGGAFDGLVDIIKQRTQKSSMGFEAQIKEKSKERPGEVLKHISSDDLVHYGLIPEFIGRLPVITTLYDLNEEDLVKIMTKPKNAILKQYEKILELDEIKLKITEKAKLEIAKKALKEGTGARALKSIFETAMLDIMFEAPDLTGKISEIIIDENVILKNEPAKYIEIKSA;locus_tag=LOCUS_17390;gene=clpX;note=WP_004082752.1 ATP-dependent Clp protease ATP-binding subunit ClpX (Thermotoga maritima) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-147],MGA_1749
sequence1	MetaGeneAnnotator	CDS	1886486	1887478	.	+	0	ID=MGA_1750;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082750.1;translation=MEPIILGIETSCDETSVCLLKGKDKILSNIVVSQIDIHKVFGGVVPEVAARKHIDFMYKITKQAFKEAEITTEDINAIAVTYGPGLVGALLIGLNFAKALSISLNKPLIKVNHLMGHIYANFIEYPNLKPPFIVLLVSGGHTMILKANDYMDFEIIGQTRDDAAGEAFDKVSRMLDFGYPGGPIIDSYAKKGKDIYKFPKPLYNNGYDFSFSGLKTSVLYFMKDNPNAKKEDIAASFQNALVDTLVHKVTKYAIKNKINDIVIAGGVAANSSLRKKLSEFSSKLNIYYPSIEICTDNAAMIARAGYEKYIRNIFSDLNVDAAPNLSLKEL;locus_tag=LOCUS_17400;gene=tsaD;EC_number=2.3.1.234;note=WP_004082750.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Thermotoga maritima) [pid:51.7%25%2C q_cov:97.9%25%2C s_cov:99.4%25%2C Eval:2.1e-92],MGA_1750
sequence1	MetaGeneAnnotator	CDS	1887479	1888381	.	+	0	ID=MGA_1751;product=tRNA dihydrouridine synthase DusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048374.1;translation=MLFLDKKIILAPMADYSDFPFREICRKHGANFTYTEMISADAIYKNIKKSFEYLPMKKEKNIGIQLFGSSVISITEAAKIIEDRGDWIDINAGCPVKKVVKKGAGSALLTNHKNLFEIVYGLKKVVKKPVGVKIRIGYDKINVFETAKIIEDAGADYLIIHGRLQSQLYSGTSNRELIREVKERVNIPVGASGDVFSFEDVTNYMKVYNADFVLAARGTIGNPWFFENKIPSIEERIETIIKHLELSIKYYKNEIFAIKKFKKILIAYLKGLPNSRQLKEKIVLINDFNKIKEILLKANF;locus_tag=LOCUS_17410;gene=dusB;EC_number=1.3.1.-;note=WP_012048374.1 tRNA dihydrouridine synthase DusB (Clostridium botulinum) [pid:36.7%25%2C q_cov:98.7%25%2C s_cov:96.0%25%2C Eval:1.6e-48],MGA_1751
sequence1	MetaGeneAnnotator	CDS	1888391	1888741	.	-	0	ID=MGA_1752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRDVGKINNNINSLNNSANETKINNPKKENSNNTKNINISQDNVVDILKNKLEKVKKIFNSDAKFEINKDADMIVVKIVDKDSKEVIRQIPPEVSVKLAKALNDVEGILFDEKA;locus_tag=LOCUS_17420;note=WP_004080293.1 flagellar protein FlaG (Thermotoga) [pid:47.8%25%2C q_cov:59.5%25%2C s_cov:59.0%25%2C Eval:3.4e-14%2C partial hit],MGA_1752
sequence1	MetaGeneAnnotator	CDS	1888816	1892790	.	-	0	ID=MGA_1753;product=diguanylate cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082035.1;translation=MKYKIIRVLNEFEYATDYLVTYNEKLYRLRKLMSISNIDLGILSRYENDLKRFSSNGLLIPEYINLNSKNPELFYSYHYEKPVKWNISKKEMIMITSYFLGMMDALVHNLNFIPVYIDLRNIMIDEKGNGYFIAPIFKNMDSVNVFYNEKRTEEGLIRVINELLKKIKLSYINSSNRLAEFYREIEFKDIKCVSEYYTIFLKYFSNVNSVKPREPQFINRKKELDFFRKIAIENNYKEILLYGEQRIGKTSFIKTLFNQLEYTENFFTSFVRTKEELIEFLKIFLRKNNVKFKKSRTNRYNYLNIVDIIELMNNLKDIKIAIAVDEFQDIDDEFLEVLKIIKKLDINFNLFFVYITHDELKINDFNIENKVKLPTLKLNEASEMIISMLSKDIYDKNKDFINFIFNISGGLPGNIEEIIYELNRKEVVYFRHANWNIDMSKINVNNYYSFIEEKLYNIEDKLKEIISYLSILGNNFKKSDIEILERYLNIKVDIESILESGIILFENDYYRFFNIIYRNKFYDMIDEELKSKIHIYISEKTKNFETKIFHLKESKNTKKITYEYIKQMRKNFREWKNIKIINKLYKDLESLNIKNYTALTIYTQFLIISENLKELEKYLDLLKEKRWMRIYYYMALMQYNPKKVFKEVNYIIKNEKLTEYEEMNFYYILLNYVLEYGENNEEMDEIFKSIEKKYIKHKNNINFVKLYLKSLIEYSFKYRNKQEKMEKITEKGLIIAKEHKLNRFIITFYMNLSTIEVDNVALSEMYLKEALKVINESNDFSRLAAPYFNIAYNNLYKANIDEFFENINEAIKYAKISNNIRYEILGDFFKSLYYFYIEDYDNVTFDKLKKDEENMSEREKRIYIIYYLSYKAYLAVVKKDLKTAKQLLEKSKEYNELINTTYLLILFIERSPKKIENIFNKLFVSNINLEESLYLLYYKFTKNKKLSTLFEEKAFRLMKKYKEQGLNLSLGMVYEGLFKFYIEKNELMKAFKYYRLAVQLYKNAGIKSKIHKLEKYFYSKTKLYKLRNTKEERINEKSRFYGELFGISTKIISLDNIQEILDSIKNFFKKKFPISDVFVGVKSEIFEVESNYGKIDIKEQDFFRLEPFEMNYFSKFKDFTIIYYLKNENLSVDMNFLEEIFDSLLILDNFLSGALYRIIHLENSIQDYLTGSYTRRYLYLRLEEEFEKLQREESMNLSISLYDIDNFKNINDKYGHKMGDSVLKFIVKTVKENMRNFDILGRYGGEEFVIIFPNTNVEYAYEIIERIKNKIEEETEKELGIKVTASFGITSYNKDIKNYKELIEIADKASYESKRKGKNTITIL;locus_tag=LOCUS_17430;EC_number=2.7.7.65;note=WP_004082035.1 diguanylate cyclase (Thermotoga maritima) [pid:23.1%25%2C q_cov:96.1%25%2C s_cov:95.3%25%2C Eval:5.7e-56],MGA_1753
sequence1	MetaGeneAnnotator	CDS	1892832	1894046	.	-	0	ID=MGA_1754;product=inorganic phosphate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048053767.1;translation=MTIVLIIGLGIGFLMSMAIGANDVANSMATAVGAKAITPKQAVIIAGVLEFVGATFFGRQVTETIRKGIVNLEMLSDPKTVIIGSMAALIGATLWLIIATYFSWPVSTTHSIVGGMVGYGIAAGGFAVVNWNRVLMISLSWVISPLIGLLIAFIMFKLISATTLHGENLDKKVRIWIPIYLGLAFFTIGLSFIVKALHASITLKAILYAIIIGIVFALLSFIYVVVSSKKKYKDSNQYVESIFRKAQVVTSCYVALAHGANDVANAIGPVAAIYAAVVTGTVGAKAEIPRYILAMGGLGIAIGVAIWGSRVMKTVGKDITELNNSRGFAIDFATATTVLGASNLGMPISSTHTVVGSVMGVGFARGIGSVNLGIIKEIILSWFLTVPAAAGVGYLMFKVLQFFF;locus_tag=LOCUS_17440;note=WP_048053767.1 inorganic phosphate transporter (Thermococcus kodakarensis) [pid:55.5%25%2C q_cov:96.5%25%2C s_cov:96.5%25%2C Eval:2.0e-119],MGA_1754
sequence1	MetaGeneAnnotator	CDS	1894058	1894726	.	-	0	ID=MGA_1755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIWRKMFQKFNPINELIEHAKLVEKASDYLPELFKKYFNNEDISSLVKIIDNLEDDADDIKKNIRQNLKKGYMYRFERVEILEFVSLQDKIIDDIEDIAKMMELNYVEIDDKIKKDIFEIVDEVENMLDLFKRSVKYLLNILESDFSKRTVSVEKTDIQELKWYEKDIDNKIYPFGKWLYAQKNTMNAVDIFFLRNLILKLSQIADVSQNVSDRIQILINE;locus_tag=LOCUS_17450;note=MGA_1755
sequence1	MetaGeneAnnotator	CDS	1894755	1895774	.	-	0	ID=MGA_1756;product=tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081288.1;translation=MNNLYDLESYNYELPEELIAQTPVEPRDSSRLMVINKENKTIKHEVFKNIVEYLNEGDLIVVNNTKVIPARLYGYKETGAKIEILLLEKLSNENNWKALVRPGNKIKKGNVLIFSDKLKAKVIEHLKDGSRILEFIGEDIWREINNIGEMPLPPYIHKKLENKNRYQTKYAKIEGAVAAPTAGLHFTPNLLNNLKEKGIDIEEVTLHVGLGTFRPVNTKDIRDHDIHEEYYSISKELISKIEETKKNGKRVIAVGTTVVRTLESYAKTNKLSGNTNIYIYPPYDFKIVDALITNFHLPKSSLLMLVSAFAEYNFTLKFYNEAVKEKYRFFSFGDSMFIY;locus_tag=LOCUS_17460;gene=queA;EC_number=2.4.99.17;note=WP_004081288.1 tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA (Thermotoga maritima) [pid:55.5%25%2C q_cov:97.9%25%2C s_cov:99.1%25%2C Eval:5.5e-104],MGA_1756
sequence1	MetaGeneAnnotator	CDS	1895767	1896768	.	-	0	ID=MGA_1757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIQTILNILNSSDFKNHSINSNKRINIASHYLRNPKDLTERKMFYIYRILGKNAERKISRHLLHDFQFLIMHVLKKTSEGRFNDIQKFFKLNDEDIQMIKFLMFPDKFPPGGYIEGLKKYGVEFYNSKIILKKLKIKNFKEIYSLMTYVPLDETSPLIQKILDEILSINVLKTKKSYFLKVKDMFESLDEYSKKLIEIQLLNISYYHYRLITSKKVNGVLIDGSNVVRYKNKNSIDMITELLDSLYMQDTVFFPAIIVFDKNIEYILNQEGKDILKSLSDSKRILYESPADNLILYLASKSNYFIISNDKFRDNKMKVNKEKLIEIRRFFNE;locus_tag=LOCUS_17470;note=MGA_1757
sequence1	MetaGeneAnnotator	CDS	1896771	1897847	.	-	0	ID=MGA_1758;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393954.1;translation=MKIGIFGLPMTGKTTIFSLLTNTPYDGSFKMEAEEKNALIKDPRITKLSKMFNPKKTTYTTLNFVDIPSFDASADKKEKIKILQMIQGVDALLFIIRSFKNENVPFPDKSETVQQQLETLRSELLLRDLEVVENKLERIELQKKKKKPTADDIKEEKILNIVKEELENENFSSKIDLSDDDKKIISSLSLFTLKPIIVVANVDEEQFSRGYEGKNDIVNECKNQDFAYIEISGKIESDLIELDEDEKEIFMEEIGIDSPGIDRLSKIVYDHIGLISFFTVGTDEVRAWTINKGYTMKKAAGRIHSALEKNFIKAECMKYEDLIRLGTEEEVKKAGLWKLAGKDEIVEDGDILAIRANA;locus_tag=LOCUS_17480;gene=ychF;note=WP_011393954.1 redox-regulated ATPase YchF (Moorella thermoacetica) [pid:36.0%25%2C q_cov:98.9%25%2C s_cov:98.3%25%2C Eval:1.8e-60],MGA_1758
sequence1	MetaGeneAnnotator	CDS	1897860	1898414	.	-	0	ID=MGA_1759;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003434423.1;translation=MTLVLLYKVKKTCTKFQIFNDTIKLFIVMNFVMEALKIFIRKIDEKKMNNIAYNIAKNLFEGAKVLLYGDLGSGKTTFVKSMTKFFSKDIRVTSPTFAVVKVYDTIPKIHHADLYRIADPYEIEYIDLFHDENAIYFIEWAEYLEYLTPKERLEIRIKYNKDIRYRDVEINGFGQKYENILNKI;locus_tag=LOCUS_17490;gene=tsaE;note=WP_003434423.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Clostridioides difficile) [pid:34.4%25%2C q_cov:80.4%25%2C s_cov:97.3%25%2C Eval:2.2e-18],MGA_1759
sequence1	MetaGeneAnnotator	CDS	1898582	1899829	.	+	0	ID=MGA_1760;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083122.1;translation=MNKLQKKNFSLFILGQLVSVLGSGIQMIALPLFILDLTGSGAKMGLFATISMVPALITSPFAGVLGDRLNRKYIMILMDYVRGFIILFLAILTFYGKMSISILFISQVFISIFDSLFESSTVAMIPDLVGKEDLMRASSLSQSFISTSKILGPVLGGVIYGLFGMKWIFIINGLSFIFSAFSEMFITYKKTTNLSSKINFNVIFKDLKASVIYIFKNNSLKNLMFFAIILNFLLNPLFVVLIPYTFRKVVGFSAQQYGLLETTWTIGILLGNLILGIFFSKNSKSSNNLLKYGFLGMVSFNLIFSFFLIPKSINTFSIWQMFFISGSILCLMGISNAFVNTPIGVYFQKIIPNEQRSKIFSVIGVLFQIATPFGMIIIGYLVDGVPVHWIFISISFIILLISILFLKKLSTMNFE;locus_tag=LOCUS_17500;note=WP_004083122.1 MFS transporter (Thermotoga) [pid:38.0%25%2C q_cov:97.3%25%2C s_cov:96.6%25%2C Eval:2.8e-79],MGA_1760
sequence1	MetaGeneAnnotator	CDS	1899956	1901665	.	+	0	ID=MGA_1761;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKVPYGLQNFEDLILENYYYVDKTKYIEVLENMPEKYISFLRPRKFGKSLWLDTMSNYYDIKYSDKFDTIFKDLYIQKHPTPKKSSYHILEFNFSGLNTDSKEELKYGFKNKVFNSLNFFIKHYNLKIKLNIDLKEPADLLNNFINQYKELNLKTKIYLLIDEYDHFANELLSFKLDEFKNIVSKTGFVRKFYEVIKEGTRSVIDRLFITGVAPITLDSLTSGFNISKNMSTTLELNEMMGFTESEVKDILKEYQINDDILQDMKFSYNGYMFNERASEKVYNSDMVLYFISEYNREKRKPKDVIDMNIASDYKKIQNLFKLGEIVGINTEKDSHEVVNELLNEILLNSKTEIEVLTQAFNMERKLDIKDIKTLLFYLGFLTFEKENFYTYLKIPNYSMKKLYSEYFVESIEDRAKSYINTEKLELAVKRIVIDGNINPFANEIENVLKKLSDRDFQSFSEKHIKMLLFSYLILTPWAYVKSEYPVEGGYIDLAMFKRYEEVPYNAIIELKYIKKKDYTEKVYQEKIKEAVNQIKRYEKTINKEFNGPLKKVVMVFVGRELKYLDEVD;locus_tag=LOCUS_17510;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:38.1%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:5.4e-95],MGA_1761
sequence1	MetaGeneAnnotator	CDS	1902073	1902900	.	-	0	ID=MGA_1762;product=sirohydrochlorin cobaltochelatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948636.1;translation=MKKKFLILLIVGVFILGIAKKGILVVSFGTSNKDTRKVTIEAIESRIQKEFPEYEVRQAFTSKMIIRIIKKREGKVIDTTEEALAKMQKEGFNEVLVQPLHFLNGLEYNEMLDMVNEYKDKFKKIEVGTPLLTSTDDYFKVAEALKSQLPILTRNDAVVLMGHGTSHYTNATYPAFERTLEDTDVRGVYVGTVEGYPTLKDVIKKLKRDRIKKVILMPFMVVAGVHAHDDMAGETKDSWKNILEKEGFKVEIYMHGLGENKGIQDIYIQHLKNIM;locus_tag=LOCUS_17520;note=WP_011948636.1 sirohydrochlorin cobaltochelatase (Clostridium botulinum) [pid:49.8%25%2C q_cov:92.0%25%2C s_cov:97.3%25%2C Eval:4.0e-67],MGA_1762
sequence1	MetaGeneAnnotator	CDS	1902897	1904153	.	-	0	ID=MGA_1763;product=cobyrinate a%2Cc-diamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948610.1;translation=MLTNSGKTTFTLGLLQYLKSENKKVCSFKIGPDFIDPIYHEKILDKKSKSLDSYFLNSKKLKEHFYKESKNSDYIVIEGVMGLLDGLNDGRGSTDSIGSILDIPILLLVESMPSIKTMAAMIDGVIKHSKSKIVGIIITKSKSEIVFNMQKEEIEKITNIKYIKRFEYDNSLKIPSKHLGLDTDFFNIKEIALKSYEKIKSINIESIFKELNQVYDSVNVIKGNKSIAISRDEAFLFYYPENIEWLKNNGFKIKYFSPLNDKKLPEADVYYFTGGYPEVYAKKLEKNKSMLIDVYEKCASGKKIIAECGGFMYLSKEIEGHKMVGFINGKTFMSNKIQGRFGYEKIKILNECFFKKNTVIKGHEFHYSYMELNENENALEVIKKSNNKIYKVGIIKENVLASYTHFYFSSILEGGINI;locus_tag=LOCUS_17530;note=WP_011948610.1 cobyrinate a%2Cc-diamide synthase (Clostridium botulinum) [pid:36.5%25%2C q_cov:97.1%25%2C s_cov:94.8%25%2C Eval:5.2e-65],MGA_1763
sequence1	MetaGeneAnnotator	CDS	1904173	1905090	.	-	0	ID=MGA_1764;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868809.1;translation=MKKVLTLFMSILVISVFGLEIIDDAGYKIVFDKPFKRIISLYGAHTEVLYGLGLDKEIIGVSKHESYPPEALKKPTFSYRDDAEKFISANPDLVILRPAFYKRYGSLIKKLKDYGITVVALQPLQYKDLFNYWKKIGVLTGKEKNSKRMIDNFKIELKKIQDIVKNIPKAERKNIFFESGHKKFLTCAPNSMADTVLKTIGVGNIAKDAILTGSTVAQYKKEMILDKAKKIDFYIAQKGAMNKITLDKIYKESGFEAIKAIKEKHVYIIDEKIVSRPTPRLILGMKKLGEIIYPKYFKNLEVKNY;locus_tag=LOCUS_17540;note=WP_012868809.1 ABC transporter substrate-binding protein (Thermanaerovibrio acidaminovorans) [pid:25.7%25%2C q_cov:95.1%25%2C s_cov:97.7%25%2C Eval:1.7e-21],MGA_1764
sequence1	MetaGeneAnnotator	CDS	1905103	1905864	.	-	0	ID=MGA_1765;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002851136.1;translation=MINVKNLNLKIENKKILKNINLNINKKGFYGILGPNGSGKTTLLDVLTGIRNDFNGTVKLFNKSISNLTKKEIAKKVSLVPQSFEILFPFSIFEIIEMGRYPHKNRFEGLKKYDLKVIEKVLKDMDLFEIKEQNVMTLSGGEKQRIIFARALVQETELLFLDESTSNLDLYYTHTLLKLVKEKVNNNNLTVISVFHDFNLASMYCDEIFLMKDGEIKKHGITKDVLTPENIFDIFKIKTSILNHKNKKILIPI;locus_tag=LOCUS_17550;note=WP_002851136.1 ABC transporter ATP-binding protein (Campylobacter) [pid:39.4%25%2C q_cov:90.9%25%2C s_cov:89.1%25%2C Eval:1.4e-44],MGA_1765
sequence1	MetaGeneAnnotator	CDS	1905861	1906874	.	-	0	ID=MGA_1766;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460055.1;translation=MKNKKYYYFLSIGIIILILTVIFYTGMGYIKISFSKVLKIILETLLRTSKKDMFWYVIIQVRLPRILSSIIAGTALSLSGVIFQSSLLNPLADPYTLGISSGASFGAAISILCGFNFFGIATIPFFAFIFSLMTLFLVIRLGTYQRRLSSVSLILSGIIVSAFFSAGLSLIKYLSNEEVSSIIFWLMGSFSSRTWAEVLILFLFTFIGFIITILYSNELNIISLGEKNANSLGVNTNKIRILLLINASLMSSIVVSINGIIGFVGLIVPHLIRIIIGTDNRKLIVLSSIWGAIILSTADNITRAILPIELPIGVLTSLIGAPFFLIIFRKKMRRNVF;locus_tag=LOCUS_17560;note=WP_011460055.1 iron ABC transporter permease (Desulfitobacterium) [pid:39.3%25%2C q_cov:97.9%25%2C s_cov:97.7%25%2C Eval:5.2e-62],MGA_1766
sequence1	MetaGeneAnnotator	CDS	1906871	1907581	.	-	0	ID=MGA_1767;product=precorrin-6A reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437730.1;translation=MSFLVLGGTSTSREFCLKTTLKNYTLTLTSNPIVKYPCEFKVSKIKNMFFDKKIIVEFKNNEKINDIDMIIDFTHPHAMNISNLLKNIPENLLIRYQRKPITNGMTYFDMVHKIKENKFKKILSLLGANGSLKVIDELNKIKYFPEIIIRSIKKVEGFEHIKFDPNKIDNELNEIIKFYKPDLIIFKDSGKEGKTDKKIKFCLKNKIPFFVIKMPLKEYGRIYYSLENILKVVDNL;locus_tag=LOCUS_17570;gene=cobK;EC_number=1.3.1.54;note=WP_003437730.1 precorrin-6A reductase (Clostridioides difficile) [pid:27.5%25%2C q_cov:97.5%25%2C s_cov:98.8%25%2C Eval:5.0e-09],MGA_1767
sequence1	MetaGeneAnnotator	CDS	1907578	1908291	.	-	0	ID=MGA_1768;product=precorrin-3B C(17)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681809.1;translation=MKLFVVGIGPGKIEYMSNYAIDVLKKVDYIVGYTKYIDRIKKYFNEKNFIHTGMRKEVERVKHAVGKVNEGYNVAIVSSGDSGVYGMASLAISLCENVEIVPGITAANSAAALLGAPLTLDFAVISMSDILVEWEKIVMRATYFAKSGVTTVIYNPISKIRKHQLKKVFEIFKKERNEFYIGIVKNAFLPNQRSYYIKSTSNIDWINDIDMMSIVFFCDENTIEKNNKIYVPRGYKQ;locus_tag=LOCUS_17580;gene=cobJ;EC_number=2.1.1.131;note=WP_002681809.1 precorrin-3B C(17)-methyltransferase (Treponema denticola) [pid:44.1%25%2C q_cov:99.2%25%2C s_cov:98.3%25%2C Eval:2.0e-45],MGA_1768
sequence1	MetaGeneAnnotator	CDS	1908288	1909265	.	-	0	ID=MGA_1769;product=cobalt-precorrin 5A hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948632.1;translation=MKYALITVRKIKNIKNFFPYAVLIEGENLKEKILKGFKYYNAIIFIGSIGIITRYLKLMSKSKLFDPAIVVLDEKLRYCIPLLSSHFGGALDLSLRIEKEIKSISVITTATDTQNLIGIDLFARRNNLIVDKKENIKLINSKLLNEKKISVNLPNYFELPKYYITSEKADVCYESGGKILNLIPKDLVLGIGFHKNENADYIYKKYLELIDVKFRNRIQILVSHEKKWNTKVFHEFSRKINVTHTKGYNNFELQKAIDKLNIDKENIVKKHMGISEICRPACFLASNNMEELITIKDKNIKFSIFRIQKYWKNPYLEEDIPEVIK;locus_tag=LOCUS_17590;gene=cbiG;EC_number=3.7.1.12;note=WP_011948632.1 cobalt-precorrin 5A hydrolase (Clostridium botulinum) [pid:34.9%25%2C q_cov:79.1%25%2C s_cov:77.1%25%2C Eval:1.0e-27],MGA_1769
sequence1	MetaGeneAnnotator	CDS	1909262	1909981	.	-	0	ID=MGA_1770;product=precorrin-4 C(11)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948631.1;translation=MIYIVGSGPGDPELITVKGMNLLKKADVVLYTGSTVSKEVLIWCKNNSLKVDSASLTLEEIIDILVNNHNKNKIIVRLHSGDPTVYGAIEEEIKLLLERDIKVKVIPGVGAHVAFAAELGIEMTLPEVVQSILITRLSGRTKVPEDLDVLLSQQPTTAIYLSSTMQEEVLKLLKKYYPKDSILYVGHKITRKEQKIEFKKLSEWEKIDFPNSLSLFLIRKNGEKRSKLYDPNFTHRDRR;locus_tag=LOCUS_17600;gene=cobM;EC_number=2.1.1.133;note=WP_011948631.1 precorrin-4 C(11)-methyltransferase (Clostridium botulinum) [pid:41.9%25%2C q_cov:99.6%25%2C s_cov:96.9%25%2C Eval:8.9e-46],MGA_1770
sequence1	MetaGeneAnnotator	CDS	1909978	1911177	.	-	0	ID=MGA_1771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYIIGTQINEYEKMSVEAINIIKNSDFFVGFKHSLSTARKINEFAKYRELEIRDSLLNERITEMIEELRKYKNSVLCVAGNPLIFSYAKKIMEKLNKDEYVILPTPSSVIYLCAKHKIWVNDMVLVSGHNAEDILTPQTETIKYLNAGKPVGYFVKNLDDYYNLMKRLKNINCRVYGGYELGTKKEYLFSFIPNEFIQLKKGRLILFIKPLEKNFFNMFPKNEELNVKNIPVSRDWSRALIINSMNLKYDQIVWDLGSGSGATSIWISSLLGNKGRVYSIEKNIERYEKLNENVSIYPNIITINNSYENVVDKIPSPDLIHFGGGINFESIKKVINSIKRGTNFVGAITTIESLNVFSKIDNIEYEIEMYTKSKSKKIGEKTTFIGEHVLYIIKGVKV;locus_tag=LOCUS_17610;note=WP_011140381.1 bifunctional cobalt-precorrin-7 (C(5))-methyltransferase/cobalt-precorrin-6B (C(15))-methyltransferase (Gloeobacter violaceus) [pid:22.7%25%2C q_cov:62.9%25%2C s_cov:63.6%25%2C Eval:7.2e-08%2C partial hit],MGA_1771
sequence1	MetaGeneAnnotator	CDS	1911174	1912250	.	-	0	ID=MGA_1772;product=cobalt-precorrin-5B (C(1))-methyltransferase CbiD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964686.1;translation=MNWYINVNGKKLRRGFTTGTAATAALKASVLWQITGNIPKFVDLLLPNGFNIKIRIENGKIINNKYFCMVKKDSGDDIDITNNSIIFSASVFKKKGYKFFSAGGVGIITKDGLKIKKGEPAINPVPRKMMIDVLKSFNINGSDIYVGVENGKELAKQTFNKRLGIVNGISIIGTSGMIEPMSEEAWKNSLLPQMDVIRKEYEEIVFVLGGRGESNYKKNFGDKKNIVLCGNYFGFSIKEAKKRKFNKIHISGSFQKIIKLAAGNFNTDSRVSGSMNEILALYTIIYMKKYDENIISSILKLNPVSQIIDFYEKNKIDYNGIFKLIVNAIIKKLKEFQDAEYRVTLFYKTNVLQDGGYK;locus_tag=LOCUS_17620;gene=cbiD;EC_number=2.1.1.195;note=WP_010964686.1 cobalt-precorrin-5B (C(1))-methyltransferase CbiD (Clostridium) [pid:37.0%25%2C q_cov:95.0%25%2C s_cov:93.6%25%2C Eval:8.5e-50],MGA_1772
sequence1	MetaGeneAnnotator	CDS	1912234	1912845	.	-	0	ID=MGA_1773;product=precorrin-8X methylmutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948611.1;translation=MLNPKEIENKSFKIIENLMRERGSLKNFSGPKLSVVKRVIHTTGDPKIGESLYFSNNFYEGFKKAFKKRVIVTDVKMVAAGISKRIFKDLKVETYISDKDVSEKAKSMKVSRSYISMEKALNNNYKLFAIGNAPTALRKLIEYKDIDFIVGVPVGFVGAAEWKNELIKSKIPCITLPGRQGGSNIAAAIINALMKELKSELVY;locus_tag=LOCUS_17630;EC_number=5.4.99.61;note=WP_011948611.1 precorrin-8X methylmutase (Clostridium botulinum) [pid:44.2%25%2C q_cov:94.1%25%2C s_cov:93.8%25%2C Eval:9.9e-34],MGA_1773
sequence1	Barrnap:0.8	rRNA	1913553	1916459	.	-	.	ID=Barrnap_9;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00090;note=Barrnap_9
sequence1	Aragorn:1.2.38	tRNA	1916511	1916586	.	-	.	ID=Aragorn_40;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00400;note=Aragorn_40
sequence1	Barrnap:0.8	rRNA	1916634	1918156	.	-	.	ID=Barrnap_10;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00100;note=Barrnap_10
sequence1	MetaGeneAnnotator	CDS	1918422	1919537	.	-	0	ID=MGA_1776;product=GTP pyrophosphokinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_051618796.1;translation=MEEKTIELLLNKYDEMKPIYEAFTKHMDSLIRSILKQNGFTDEPGGGINFIKSRVKSKKSFEKKLRKKSYKYNLLEDVTDMTGIRIVAYLESDVNKISKVLHEEFNIDEENSVDKRKILEADKFGYKSVHYVVSLDEKRLSLPENSLYRNLKAEIQIRSTLQHAWAEIEHDISYKSRRYVPYEIKREFARLAGLLEIADREFENIKVNFDKYIENLPNRLKNDPENVMIDELSLETYIKTDKDFNDFETKLLDKIGSASTGFINLPLLRDILKNIDIRTIKDLKDEFEKIKDEILNFIYVWKNQITTDMSNPYLSQFLNQNTFYKGESLYYMVIVYAFKYKKFNLKNFLNPQSIMGYFEDELEKNNLPNKI;locus_tag=LOCUS_17640;note=WP_051618796.1 GTP pyrophosphokinase family protein (Deinococcus radiodurans) [pid:33.2%25%2C q_cov:77.6%25%2C s_cov:75.0%25%2C Eval:5.4e-39],MGA_1776
sequence1	MetaGeneAnnotator	CDS	1919600	1920307	.	-	0	ID=MGA_1777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKILDKVYKIMNEVYPEHYNDNFISNKQIYIEKFDKVFEEIEIIYNEKDKYNLHWAYKNAQEKFNEAFFDIMDEHIKPEISKYKDKIQDEQILRIKKISLKMKKKLKRRFEIFSIASSFVFFIDVLFSIILILIISKLTNQGKSIINSATLSSLFIAFMAFSKITINKFLISPKVKKFGWNMYKKSINKYKKILAVLISILISIEDSISKDMGKDEIKLILKKVISLKNKKLK;locus_tag=LOCUS_17650;note=MGA_1777
sequence1	MetaGeneAnnotator	CDS	1920439	1921197	.	+	0	ID=MGA_1778;product=ZIP family metal transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082259.1;translation=MTGSQIFWYGSIASLIAGLATSIGAIPVFFFKKQLSEKSLDAFLGFAAGIMLAATMFSLIVPSINTGGITITVIGIIAGAVVLELFDTFSPHEHFLKGHEGPNIDVVKKVWLFVIAITLHNFPEGMAVGVSFGGGMIKNGIVVALAIGIQNIPEGTATAVSFLKAGYSKKQAFWWSFLTGVVEPIGGILGAALVVIMAPALPLFLSFAAGAMLYVISDEIIPETHSHGYERIATFSLIFGFLLMMVLDNALG;locus_tag=LOCUS_17660;note=WP_004082259.1 ZIP family metal transporter (Thermotoga) [pid:53.3%25%2C q_cov:96.4%25%2C s_cov:98.4%25%2C Eval:1.2e-67],MGA_1778
sequence1	MetaGeneAnnotator	CDS	1921573	1922826	.	-	0	ID=MGA_1779;product=adenylosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880823.1;translation=MKRLAIVGSQWGDEGKGKVVNYFSEKFEWVVRFSGGANAGHTIYYKGKKYVNHLLPSINPGNYSKGFLGAGMVIDLEQLIKELKVMEEDFPGISNRFYIDLEAFIVLPWHKEEDELLESMRREPIGTTKRGIGPAYTDKVSREGIKLYHIFDDKLLKQRLEDIFYLKNNIYSGRLKSNAKDVYNYLLKQREELKNLKVNYESAIDMSKVFRNSTVLFEGAQGVLLDLDFGTYPFVTSAACMAHGVSSVGFSTFELDEVYGVLKAYTTRVGSGPFPTEIKGELGEKIAKLGNEFGATTGRARSVGWLDLPALRYAKIRSGLTGFVITKADILNGFDEIKVCTGYEINGEIKEIPSSSYDFSKAKPVYETLPGWKDTNDVNFLKYMAFIEEKTGVKIHYISYGPKTEEMCSKNDLIMNM;locus_tag=LOCUS_17670;EC_number=6.3.4.4;note=WP_010880823.1 adenylosuccinate synthase (Aquifex aeolicus) [pid:45.9%25%2C q_cov:97.4%25%2C s_cov:96.5%25%2C Eval:2.8e-95],MGA_1779
sequence1	MetaGeneAnnotator	CDS	1922842	1924134	.	-	0	ID=MGA_1780;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080360.1;translation=MIERYSLSPIKDIWGLKEQYQRWLEVEVAVVRAFEEKNEAPKGTVDKILEKANINVEKILDIEKVVDHDVIAFIKGVTENMGDEARYFHKGLTSSDVVDTAWALAMKRAGELILEKLEKYADSLKKLAIKHKYTVTVGRSHGIHAEPTSFGLKILSFLAETERNIERLKTSIKSISTGKISGAVGNYANISPEIETLALSYLGLTPAKVSTQVVPRDLHSEFFNTLALMGAGIERMATEIRHLQKTEVLEAQEPFKKGQRGSSAMPHKKNPIICERLTGMARMLRSYTVSGFENITLWHERDISHSSVERVFVPDACMTAYYMLEKSIYLIDNLIVYENRMKETFEKSYNLVYSQRVMLGLVEKGVSREVAYKTVQENALKAWDERRDFKTYIMNDDRITDKINKEEIEKFFSNDYYLKNIDKIYERFGL;locus_tag=LOCUS_17680;gene=purB;EC_number=4.3.2.2;note=WP_004080360.1 adenylosuccinate lyase (Thermotoga maritima) [pid:54.7%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:6.6e-140],MGA_1780
sequence1	MetaGeneAnnotator	CDS	1924152	1924589	.	-	0	ID=MGA_1781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYQIVFLIINSIGGFFVVNKLFWIIGIGVNILTGLLVYKNKIEEKTIGMFLFTSILISFFGFFRGFDMNYFYALMNVSSLLITFFKLLNKKVFSLLSWTLNGIALGYFLAQARDQKTGIIIGLIIIALGVKDTYSKKAKDILNP;locus_tag=LOCUS_17690;note=MGA_1781
sequence1	MetaGeneAnnotator	CDS	1924678	1925463	.	-	0	ID=MGA_1782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNNKKIMDKFFSYLILIMIVLSFQRKFYYFEDLFYINGINLFFLAFIVFIYSSTIISMIKEYKNKNFIRSILLVPFEKFTSLYFSIIITDIFFGKMFVIRNLRWAFEASIEFFTFKNISIPFFYTQIFQLTVTAIIFDILYKIIHKLLLNLFIQEKVDNYSIQNEKETLLKDVTKEVYDEKLYKINLLKEKVVFGELYKKINNSVNEIINNNDMTLTQKFNKLDYIENFIKDYLKDVNKYEFNISKKEQIRKKFLKKYKF;locus_tag=LOCUS_17700;note=MGA_1782
sequence1	MetaGeneAnnotator	CDS	1925610	1926047	.	-	0	ID=MGA_1783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIGIVFYSKTGNTRSIIERLEKELKKNDHMVKVFSIKEDQSFEKIDIEKYDAFIFGTPVHAFSVSEPMKNYLNQISTLKDKKIFFIATQALPYEWMGGKRTIKQMKKICESKDGIICESGIINWPNSNRDKKIIKVINKLNKSL;locus_tag=LOCUS_17710;note=MGA_1783
sequence1	MetaGeneAnnotator	CDS	1926248	1927696	.	+	0	ID=MGA_1784;product=NAD(P)H-hydrate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865220.1;translation=MENIFETNVLDSNEAKVMDKLTIESGIMEETLMEQAAFAIADVASSFSPKKILCVAGTGNNGGDCIAAGRILHNKGYNVEIYIYGKNQSNGFKKQLLIAENYGLKIKYNKDFSDEYDLIIDGLIGIGLNGEVRSSIKTVIEKINSSNAKVISEDIPSGISSDTGEVMGDAVHADITITFGNLKIGQILYPGREFSGKLKIAELSFKKFISNRKIITPDIIKVPNRKKDSHKYDYGNVLILAGSSKYPGAPILTALGAQRIGAGLVTLITPGDSSKILSFEPSIIYSSLNKNNFEKNDLKKLNDEIERANVIILGPGMTEDSIEFVVELIKKQGRTKNIVLDAESIQAIKEFESLSENILITPHVGEMKKIFKNLKNNIFELERFSKQKKCIIMLKSSITTITDGEKTFFNLLGSSSLSKGGSGDLLSGIVGGLIAQGLDTINACITGSYIMYKTAKELSNEYTEYFITPKLISENLYIGFKL;locus_tag=LOCUS_17720;note=WP_010865220.1 NAD(P)H-hydrate dehydratase (Thermotoga maritima) [pid:35.1%25%2C q_cov:90.2%25%2C s_cov:93.1%25%2C Eval:2.9e-70],MGA_1784
sequence1	MetaGeneAnnotator	CDS	1927707	1928795	.	+	0	ID=MGA_1785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRFLTTQKIKQKLNLTQKQIRLINLLQKDFMELEKTVDDFINENAFINFKSYDEVYIPQSKIEYIYENIKEPEDVLSEIKLIFLSIVEKKYEDSAEALTSYIDSNGVLKVDKNDFIKEFNLSKKEYENLLNTLKRLGPTGFCEETLEKALILREKNNENGTPLGSYSSSARYLTKKVDIYFFIVNNELKYEIEEPNLPSLNKDYLESLKKTNDSKVIKYINNEIERYNELNSLLKKRRELCNSIANLLIKTNYNFIKKKEKIIPLGIRDTAKKFEMSASTISRFVNTKGVQLPDGLNVPLNIFFNTKDTQKNEKEKVVNFIKEHMKTSDQKLSEMIKKELNIKISRRTVNKYKNEIKKEK;locus_tag=LOCUS_17730;note=WP_011462176.1 RNA polymerase factor sigma-54 (Desulfitobacterium hafniense) [pid:23.4%25%2C q_cov:72.1%25%2C s_cov:67.7%25%2C Eval:4.9e-13%2C partial hit],MGA_1785
sequence1	MetaGeneAnnotator	CDS	1928792	1929436	.	+	0	ID=MGA_1786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIVYIISGGENRSSLEFYKSMILKSKKTIACDSGIKVFKKLNIPPDYLIGDMDSSSSEDIKWAKNNNVEVLSFPSEKDELDTELGLILAKKLNAKKVVISCATGSRIDQVIGSIYLLGEYHVLNAIIEEEDLIVGTVSSKTELPSISGESWSILQLGNVLGLTLKGFKYNLENYDLNTLKPLGVSNEAIKDKVSISLKSGIVAYIRWIGRKV;locus_tag=LOCUS_17740;note=WP_010865218.1 thiamine diphosphokinase (Thermotoga maritima) [pid:39.1%25%2C q_cov:74.8%25%2C s_cov:90.2%25%2C Eval:7.1e-25%2C partial hit],MGA_1786
sequence1	MetaGeneAnnotator	CDS	1929455	1929931	.	+	0	ID=MGA_1787;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082922.1;translation=MWLLISDTHDNLDKLKKLPNIIKKNSIKTIFHCGDFISPFTLKFFMYENVDFYGVFGNNDGERVILSQKSNVSIVPGPRFLEINNKKIYMMHEPYSLKAAKNSKLYDYIFFGHTHEKFHEQMNNTQIINPGEGSGWLTNQATYVIINPENNKIEFKVL;locus_tag=LOCUS_17750;note=WP_004082922.1 metallophosphoesterase (Thermotoga maritima) [pid:40.9%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:1.8e-32],MGA_1787
sequence1	MetaGeneAnnotator	CDS	1929943	1932327	.	+	0	ID=MGA_1788;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082110.1;translation=MSEKKTIEDFIEKVNKDTIPNKLPAIATRTRMITYPNSVSPMYIGREKSLKALELALSKHNNYIFLISQKDIEVEEPNVKDLFRVGVVARIVQLSKTPSGDYKIIVEGIKRAKIKKTISKEKYFMFDLELMDSKIKENKLVTALARKVKHLFQKYLELTKKFPQEALFTIEETNDPEILSDLVASVLPIELNEKQEILETLNTKKRLEQELEILTREIELLEIEEKLEKEVRENIEKTQKEYYLKEKLSVIQKQLNGEADEEIVELKNKINEKKLPDEAKEKALKELERLSKMSTYSPEANVIRTYLDWILEFPWYEKTEDTLKINQAKKVLESNHSGLEEPKERILEYLAVRKLSKNTKTPILCFVGAPGVGKTTLGKSIAQALGRKFGRISLGGIRDESEIRGHRRTYVGAMPGRIVQTLRKVKVINPVIVLDEIDKMNTSFQGDPAAALLEVLDPEQNTAFVDHYFELPIDLSDTIFVTTANVIHTVPPALRDRMEIIYISGYTNIEKLKIAKKHILPQLLKEHGLDDEKISITSNALKNIISDYTREAGVRILKQQISKLLRKSALKYTSTNEKVKITNKNLSEFLGPKPFFSSEKNEKPEVGVVTGLAWTAYGGTTLEVEVITIPGKGKLISTGQLGDVMKESTQIALNLSRKIIEEIDEKLLEKFDKKDFHIHFPEGAVPKDGPSAGVTITTALISSISKKKVRNDIAMTGEITLRGKVLPIGGVKEKVISAYRAGIYEVILPEANKKDVEKIPEEVMKKMKINFAKTIDDVLNIALIGGLECVSKEC;locus_tag=LOCUS_17760;gene=lon;EC_number=3.4.21.53;note=WP_004082110.1 endopeptidase La (Thermotoga maritima) [pid:51.6%25%2C q_cov:98.2%25%2C s_cov:98.3%25%2C Eval:5.0e-230],MGA_1788
sequence1	MetaGeneAnnotator	CDS	1932308	1932892	.	+	0	ID=MGA_1789;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081764.1;translation=MLVKSAELVKMVHNIDHLPEPMNGEIAFAGRSNVGKSSLLNRLMTKKEARVSSKPGKTRSINYYLINKKYYYVDLPGYGFASVSKTEKEKWENLMEGYFTGREELQMVFVLIDHRHPPQKMDHMMVSWLKDLRVPFTIVLTKMDKLKKNERMKMFNTIKSELSYYGNYTYFQTSSEKGEGINELNKYISMIIGN;locus_tag=LOCUS_17770;gene=yihA;note=WP_004081764.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Thermotoga maritima) [pid:55.2%25%2C q_cov:99.0%25%2C s_cov:98.5%25%2C Eval:5.5e-55],MGA_1789
sequence1	MetaGeneAnnotator	CDS	1932921	1934126	.	+	0	ID=MGA_1790;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439456.1;translation=MNKMYDIIILGTGPAGLFTAANIKNKKILILEKNSTPAKKLLISGSGQCNITHDGSMEDFITHYNNKNYAKKVLYRFTNEELISYFNNKGLKFILNKNGKYFPKSLKSQDILNILLNELGNNIKIKYNEFIEKITKKEDTFILKSKNKTYKAKNIIIATGGKSYPMLGTTGDGYKIAASFGHKIITPKPALAPFKIKDYYFSDLPGLSFNGAISIKKNKKKIKKYGDLLLTHVGISGPLILDFSRYVNDGDTITISFLNFKNSEEFLEELNKKIIQNSSKKIFSILKEFNLPERFIKKMFELLKIKNSLAQNISKDSKNKISNFLMNNEMIVEKLFDFNQAMVTSGGICTKEVNHKTLESKLVKGLFFAGEVLDIDGDTGGYNIQFAMSCGKIISENFSRK;locus_tag=LOCUS_17780;note=WP_003439456.1 NAD(P)/FAD-dependent oxidoreductase (Clostridioides difficile) [pid:34.9%25%2C q_cov:96.8%25%2C s_cov:98.3%25%2C Eval:2.8e-60],MGA_1790
sequence1	MetaGeneAnnotator	CDS	1934282	1934629	.	-	0	ID=MGA_1791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTIILTTIILISFLLFLDFYTKLIEQKYESKEIALQMSKDYLENNINSLITKLELYKFYKNKDANKVAIMNGINKKNIKYTIIFKVNLFDKNDKTEKIYIFLDKYYNLLKIKY;locus_tag=LOCUS_17790;note=MGA_1791
sequence1	MetaGeneAnnotator	CDS	1934654	1935277	.	-	0	ID=MGA_1792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIFFLFILIIGVNFSSDGGEVKKENGVWNFVTVDKKSKNLYREIPFGSNKEYVKKHLNEDFNYEDESTLGYESKILNIPSEAYFKFNKDKFWRVEFNSKAIHYTAKYWFKDYKTVKNVITQKYGAPSKDMEMYENVFYRNNPDYSLENGFLTLYTIWNLENIRIVITMGTYNEKIHMNIYYDSKEFLDKNLKNMYVYDFIDIN;locus_tag=LOCUS_17800;note=MGA_1792
sequence1	MetaGeneAnnotator	CDS	1935389	1935910	.	+	0	ID=MGA_1793;product=cob(I)yrinic acid a%2Cc-diamide adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249996.1;translation=MSISTKTGDNGYTNLWSGERISKDDLRVDTYGTIDELNSFLGEAFHYLKSFENKRILSNIQKTLFRVGGEIASKSKIFTKPIEENDVEYLTSLVKKFEDTISLKGFIIPGKTLSSSKLDVCRTIARRSERLIIKLSNVEKINNNLQKYINRLSDLLFMMARFEEYLEDKIEYL;locus_tag=LOCUS_17810;EC_number=2.5.1.17;note=WP_011249996.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Thermococcus kodakarensis) [pid:46.8%25%2C q_cov:98.8%25%2C s_cov:98.2%25%2C Eval:1.3e-35],MGA_1793
sequence1	MetaGeneAnnotator	CDS	1935897	1936472	.	+	0	ID=MGA_1794;product=bis(5'-nucleosyl)-tetraphosphatase (symmetrical) YqeK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082149.1;translation=MNTYENIIENLNKILPLLVKEQRLNHIYAVNSYALKLAKIFNLNPLKISIASLAHDLFRDFSFDLQLKIAKKYNIKISNEEKKHPILLHGKNSALYMKKRYNISNDIFNAIYYHTSGSPQLNDLGKVLVISDSAEETRSYPEVNKLRNLSLNSIEEAYKFVIKNKITYAISKRLIILEETVNTWNKYIMEV;locus_tag=LOCUS_17820;gene=yqeK;EC_number=3.6.1.41;note=WP_004082149.1 bis(5'-nucleosyl)-tetraphosphatase (symmetrical) YqeK (Thermotoga) [pid:39.7%25%2C q_cov:95.8%25%2C s_cov:92.9%25%2C Eval:2.0e-38],MGA_1794
sequence1	MetaGeneAnnotator	CDS	1936476	1937174	.	+	0	ID=MGA_1795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIYLSNRRKSSKKWPLFLIIILILVIGFFGVKYYMAENASETKYSKLTYTFSYKDNLYFIRVLNDSKKIFMVKTIDNITFPDSFLTLSKNNLQDTTNNFLRGFNLQSDLNYYINLNDDLIKSFINKIGSNKSGINGFFEGLMYRNSSIFDFLTVDSYYNLIKKYDRSTNLTSPAVYVLLKSFSKYSINNFDKLTLKPLFDKPIKITIDDKIYYRNYLNEENFKRLKEILE;locus_tag=LOCUS_17830;note=MGA_1795
sequence1	MetaGeneAnnotator	CDS	1937309	1938331	.	+	0	ID=MGA_1796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMDSNNTENISRTDTIILASVKKDKILLMPIPRDLLLNIKGKDRRINSIYELYGKEELLKTVSNLTNLKIDNYIIFNYSIFKDIGDILSPVSIYVEKDMIYDDFHQNLHIELKKGKNDLDGTKLLYYVRFRHDDFGDIGRIQRQKKALYALMNSIKKQGFQTLLKTLNTVLKNTINTFSFPDILKLYSSSKSANIEFIEFPYKLKDNYAVVDNSQLLKTQYYLKNFKKQENKLQKWIIFTKSYTNYNYSFYSFVFSKFNKSGYKIKTIDNKVDFFNNTKNYVFIKNIKVKDEILNDLKNSFNKDFIILNDKKKYFETINFLVKNHIDTINYDAVVILGE;locus_tag=LOCUS_17840;note=WP_193325875.1 LCP family protein (Thermotoga petrophila) [pid:35.5%25%2C q_cov:65.6%25%2C s_cov:55.2%25%2C Eval:5.9e-29%2C partial hit],MGA_1796
sequence1	MetaGeneAnnotator	CDS	1938324	1939412	.	+	0	ID=MGA_1797;product=lipoprotein-releasing ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_025862413.1;translation=MNNYINKAINTVVKGFLKKAKKNFNFSFFSILIGVWGLIVITSVINGFDTVLIKSITNFYPHLTINGKYKEKLPNELYHFEFNLNNSMISKNGKYDFIQLLELDNTEFYDSLIISGNSKNGVVIGNELAKKLYLKVGNTLNLFELHGFLPISKNYTVSGIFKSGVYQFDSKIAFLKDTSKKKFTGIILKDPKKAFNLKEKYLKNYSSLTWKESNSSLTKTVEVDSLFAFLITLFVFLMSGFSISNSITFSIITRKREIGIFKSLGMTSNQISKIFIREGLIISTYGYLSGLFLGLITSLIISFLKIPLPKGIFYVDYLPISININIVFISLLVTFITVYIFSFFTTRKILKFDTLEALKNGE;locus_tag=LOCUS_17850;note=WP_025862413.1 lipoprotein-releasing ABC transporter permease subunit (Legionella pneumophila) [pid:23.8%25%2C q_cov:86.5%25%2C s_cov:88.9%25%2C Eval:1.7e-21],MGA_1797
sequence1	MetaGeneAnnotator	CDS	1939402	1940022	.	+	0	ID=MGA_1798;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003384767.1;translation=MENNLFEIKNLYHSYDGKNNVLNNINLKIEKNKIISLFGPSGSGKSTLLYIIGNLLTQSSGKVIYNFENIQKNMGFVFQNFNLINELTIFENCKIAQNIRGYEDINEILELSKNVQISELLNKYPNELSTGQLQRASILRSIVGNTKLILCDEPTGALDSKNKENIMNIFSSLKGKKTIFIVSHDDIVKSYSDKIYYIFDGSIKEA;locus_tag=LOCUS_17860;note=WP_003384767.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:44.6%25%2C q_cov:86.9%25%2C s_cov:82.3%25%2C Eval:2.7e-34],MGA_1798
sequence1	MetaGeneAnnotator	CDS	1940024	1940464	.	+	0	ID=MGA_1799;product=nucleoside-diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846241.1;translation=MREFAMIKPNAVRRGIVGEVISKLEKKGLKIIGMKLLKMTSSQSKELYKEHVGKDFYEKLIEFSLSGPVVALVIEGPRAIEITRHIVGKTDPLKAMPGSIRGTYGLSVRKNVIHASDSEKNAERELKIFFDENELLNYELDYENDL;locus_tag=LOCUS_17870;gene=ndk;EC_number=2.7.4.6;note=WP_052846241.1 nucleoside-diphosphate kinase (Sulfurisphaera) [pid:52.7%25%2C q_cov:88.4%25%2C s_cov:87.8%25%2C Eval:9.4e-35],MGA_1799
sequence1	MetaGeneAnnotator	CDS	1940477	1941634	.	+	0	ID=MGA_1800;product=class I SAM-dependent rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016848.1;translation=MLIIKLNPGKEKKIKNGYPWIFSDEIKSIDGEKKVGEICNIFSNDYEFIGKGFYSNTNIAVRVITLKDEEINYELFKKKIEKAIKKRVDFNDSYRLIHGEADGLPGLIADKYNDFIVIQFRNVGMENYKKEILESIIELLKPSGIYERSDFETSTKEPIKRNIGVLYGIEPPEKLIIKEHEIKYYVDIKKGQKTGFFFDQRDSRLFFRSLIKKDSLVLDGYTFTGGFAFNAALTGAKKVIALDKDKESIEMARKNAELNNIKNIDFIETRYENYIKNYTGEKFDVIVLDPPSLIKKKQERRKGVEIFKSITELSIDHLKTGGILGICSCAFQADISLLIESTRRAYFALGKDIQVVGLTFQSLDHPWIIQIPESNYLKCLWFKIY;locus_tag=LOCUS_17880;note=WP_011016848.1 class I SAM-dependent rRNA methyltransferase (Fusobacterium nucleatum) [pid:41.5%25%2C q_cov:97.4%25%2C s_cov:96.9%25%2C Eval:4.2e-82],MGA_1800
sequence1	MetaGeneAnnotator	CDS	1941647	1942759	.	+	0	ID=MGA_1801;product=glucose-1-phosphate adenylyltransferase subunit GlgD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082940.1;translation=MKVLGLILSGSKHNNLEKLTKKRTSAAVPIFGKYRAIDFTLSNMVNSGINKVGVLTQYNPRSLMDHLGSGKEWNLDKKRGGLFILQPFLSVEEHIMHYRGTADAIHQNMTLLRRADEDFVLIGSGDHIYNIDYRKLYKHHIRNGADITLLTKNNDGEYDFKDYGQPIIKDNKVIDFKEKSENKVSDKIFLGVYFMNKALLMDLLYSSVPNGEYDLLSIILQNLKKLRVLSYDFQGYWKNIKKSLTEYYNINMDILNPKIKKELFFNQRKIYTKIKDYAPPKININANVSNSFIADGSIINGIIKNSIISRGVTIKAGTIIENSIILQDSIIEEGCIIKKVIMDKNTTIREGRVLESHNNEIIVVEKGSVL;locus_tag=LOCUS_17890;gene=glgD;EC_number=2.7.7.27;note=WP_004082940.1 glucose-1-phosphate adenylyltransferase subunit GlgD (Thermotoga) [pid:57.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-122],MGA_1801
sequence1	MetaGeneAnnotator	CDS	1942775	1944037	.	+	0	ID=MGA_1802;product=glucose-1-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082942.1;translation=MKVLALILAGGQGTRLGVITNNLAKPAVPFGGKYRIIDFALSNCVNSNINMVGVVTQYMPHQLVEHLGIGKPWDLDIKDGGLYILSPFLSRSDKSWFKGTADAVYQNIEFIDKYNPDFILILSGDHVYKMDYNDIIDYHIERASDCTIACMEVPKSEASRFGIMVTDPFYKITEFQEKPKNPKGTLASLGIYVFNWNFLREKLIEDAQDPNSENDFGKNIIPKILNENKNMYAYNYEGYWRDVGTLTSYLECNQEILGPLPALDLHDKYWKIYTQSLELPPAYISNKAKINKSIVCEGSEVYGEVENSVIFQGVLIEENVKIKNSVIMNNVKICKNSTLENVIIGEKSIIGENVKIGIGEYKESKINPKVYNSNISVIGFETEIPNNFVIGKNCVIDNFFKKDEFKTLTLDSGEGLLKEV;locus_tag=LOCUS_17900;EC_number=2.7.7.27;note=WP_004082942.1 glucose-1-phosphate adenylyltransferase (Thermotoga maritima) [pid:58.3%25%2C q_cov:97.9%25%2C s_cov:97.4%25%2C Eval:9.6e-144],MGA_1802
sequence1	MetaGeneAnnotator	CDS	1944051	1945016	.	+	0	ID=MGA_1803;product=DUF4899 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082943.1;translation=MDFYAIKFMATSTLTSETFVGYLFGKKKQEPTFNVAVLTKNKLSQYKLPDIKKEYINFKSDIDLLSYNLSKDKKAATLNRQFKAYFFTTLKKYGLDIISTKLFLATQDGDPFVLKAIISDILQDWGSDTNIKLIAEKFNYEDLTWISSAIRNGDEGSYEYLKRADVVDAVEVFPVIDPLDGYPIIKLDVGDPIYVLEISNKDTKKVKTSIEGSLISKELIPGSDYMFLKVDLGDGLIGKTVIQKNLKVSIDNYKLEYSRKKREEMLEEDHEKIIGDIAEEILGRKPFNNTKMSSADIILIFSFSIIGILFIILLGLWLGAF;locus_tag=LOCUS_17910;note=WP_004082943.1 DUF4899 domain-containing protein (Thermotoga) [pid:27.5%25%2C q_cov:84.4%25%2C s_cov:86.5%25%2C Eval:2.8e-25],MGA_1803
sequence1	MetaGeneAnnotator	CDS	1945016	1945294	.	+	0	ID=MGA_1804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIFNSIVAIIIFILSLSSLFFTNEILKFLSYKKSIYQKSLNHINELERIQGLSLDSFLKQEKIKRTITTKSATLYIFEKYGYELLYVKED;locus_tag=LOCUS_17920;note=MGA_1804
sequence1	MetaGeneAnnotator	CDS	1945301	1946179	.	+	0	ID=MGA_1805;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865078.1;translation=MKLSYATAVKLGLKNGKINFEMPTAYIMIGEKCIYNCAFCSQAREATTPKDHLSRVTWPTFELSQIKEKLKNNSFKRICLQVVSSKGYEIELKEALEFFKDIKIPISISIRPKNIEEVKELFNKYNVDKVGISIDAVNENLFNKIRNGNYQRQMSILRDCANIFLHKITTHVIVGLGETDKDIVKFMLEMKRLNVTTSLFAFTPIQGTPLENLSRPSLERYRSIQYVREIINNYEVDITKFDFNPDDSLKSMPNLYIDKEEAKKTSGCPWCTRPYYNDTPKKVYNIPEVRKI;locus_tag=LOCUS_17930;note=WP_010865078.1 radical SAM protein (Thermotoga maritima) [pid:44.6%25%2C q_cov:97.9%25%2C s_cov:98.2%25%2C Eval:1.1e-62],MGA_1805
sequence1	MetaGeneAnnotator	CDS	1946193	1947518	.	+	0	ID=MGA_1806;product=electron transport complex subunit RsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082948.1;translation=MGLLTFKGGVHPPHKKKFSENEAIKILPLPEKVYVYTAHSIGAPAKPIVEVGDKVKTGQKIAEAGGFISANLHSPVTGTVVEFTKLVNAASGLKSDVIVIEREGEDQWELLEKTDDHTKLKPEEIVARVKEAGIVGLGGAMFPSHVKLSIPKGKKAESLIINAAECEPYITIDYRMMLEKTSEVLKGIEIIMHTIGVEKAYVGIEDNKSKAISHMKEAVKNSSIEIVPLKTKYPQGAEKQLINAVTGKEVPSGGLPIDIGAVVFNVSTAYAIYDAIYNGKALVESGISLTGEGVKKPGNFWFRVGTKVSELLDYVGIIEEDKIDRVLYGGPMMGISLPDTELPTFKGNNAITVMTKDVAPNKETMPCIRCSSCVSVCPIGLQPYLMKKLADTRKYDDLTNNNLMDCIECGACSYTCPSGIDLTKSFKTAKKVVRAMKQRRG;locus_tag=LOCUS_17940;gene=rsxC;note=WP_004082948.1 electron transport complex subunit RsxC (Thermotoga) [pid:51.9%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:3.2e-129],MGA_1806
sequence1	MetaGeneAnnotator	CDS	1947520	1948500	.	+	0	ID=MGA_1807;product=RnfABCDGE type electron transport complex subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082949.1;translation=MKFKNLSAPHLRTKDTTRQVMIDVLISLTPAIAVSTWVFGLRALYIMMFSMISAEVLDFFIVRVLKKQKNYKPDFSASVTGLLFGMNMSMAVHWWHMLIGIAFAIIVAKHAFGGLGQNIFNPAEIGRVFMLISFPTVMTTWYKPFANMSASVDTITTATPLALLKEYGANKSLSNFSYMDMFLGKIPGSIGEVSALALLIGFAYLVYKKRIKLMIPISIFSTVLIISSIFYFVNPTRFGTPLFHLLAGGMIIGALFMATDMVTSPMTIKGQIVFGIGIGVIALTIRYFGAYPEGVSFSIVIMNALVPLIDLWMKPRVFGTSKKGAK;locus_tag=LOCUS_17950;note=WP_004082949.1 RnfABCDGE type electron transport complex subunit D (Thermotoga) [pid:54.0%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:2.8e-97],MGA_1807
sequence1	MetaGeneAnnotator	CDS	1948502	1949194	.	+	0	ID=MGA_1808;product=RnfABCDGE type electron transport complex subunit G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082950.1;translation=MKDYIKTGLVLMIYMVIAGFLVAFVYNAVTPAINNAEFNAKLKAIKTVLTDANTQKLLVEKIPQNEEELNKFIWQKNSDLLYKDEKSNKIYSPAFKFISGNKEIYVLTISGVGFGGDVTSVVSFVKENGKTSLNKIEVINYSQETPGLGANIAEDSVKERFYSIPYSGLKSGLKVDKDSGVKINANEKEKFSAQGIVITSDIMTGATITPRGVVSSINAAVKYLTEKGVM;locus_tag=LOCUS_17960;note=WP_004082950.1 RnfABCDGE type electron transport complex subunit G (Thermotoga) [pid:43.0%25%2C q_cov:98.3%25%2C s_cov:98.7%25%2C Eval:1.0e-43],MGA_1808
sequence1	MetaGeneAnnotator	CDS	1949196	1949807	.	+	0	ID=MGA_1809;product=electron transport complex subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082951.1;translation=MADIKNLTSGLAKNNPIFVQVLGMCPTLATTTNAKNGLGMGLAAAAVLVMSNIVISLIKKLVPDKIRIPVYIVVIASFVSMIDLLMHGYTYDLWKTLGLFIPLIVVNCIILGRAEAFASKNGVLDSIYDAIGMGLGFTAALVILGSVRELLGNGTIFNINIWGSGLKMYVFILPPGAFIALGLILATFNYIGIKKSKKAGAKK;locus_tag=LOCUS_17970;note=WP_004082951.1 electron transport complex subunit E (Thermotoga) [pid:70.0%25%2C q_cov:93.6%25%2C s_cov:94.0%25%2C Eval:1.4e-72],MGA_1809
sequence1	MetaGeneAnnotator	CDS	1949804	1950382	.	+	0	ID=MGA_1810;product=electron transport complex subunit RsxA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082952.1;translation=MTKLFLIFLSATLVNNFVLSRFLGICPFIGVSKKLDSAAGMSMAVVFVMTMAGIISWILNLLLVATGLEFLRVIVFILVIAVLVQFVEFFIKKTSPSLYEALGIYLPLITTNCAVLGVALINIQTNYNIIETTVNSFASALGFGMALMIFAAIRERLDLSSIPKPFQGTAIALITAGLLSLSFMGFSGLVRL;locus_tag=LOCUS_17980;gene=rsxA;note=WP_004082952.1 electron transport complex subunit RsxA (Thermotoga) [pid:61.1%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:1.6e-62],MGA_1810
sequence1	MetaGeneAnnotator	CDS	1950401	1950748	.	+	0	ID=MGA_1811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTIINAVLLLGILGFASGAFLAFAAKKFEVKEDVRKILAEAVLPGANCGACGFPGCSGFASGFVKGTATADGCLPGKRTGVPEKLKKINAMSDEELEKLFEENNNDIDAIKKAL;locus_tag=LOCUS_17990;note=WP_004082953.1 RnfABCDGE type electron transport complex subunit B (Thermotoga) [pid:53.0%25%2C q_cov:57.4%25%2C s_cov:68.0%25%2C Eval:4.1e-15%2C partial hit],MGA_1811
sequence1	MetaGeneAnnotator	CDS	1950777	1952408	.	-	0	ID=MGA_1812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLSKKTFLLIFSILLLFLFKPDFKNIKLFQTIIVLVITYFTDNIIIKYKKIRLITNAIGFLIAFYFGKEYIIIASLVIIFRIKKKSYENNLKKFLVYFIMYYLSANLALMITKNIYLELFLFLSFSILINQIFFDLKKFDKKIFITEYVYFLSLLPAMYIQISNNDLILKSFIIFQNIIYLSFYYFIIRLKNKKIIENYRNKKIKKFNKVLLEYSKLLNTSTKSIEHIICETLKIVNDVFGYKYILFSKLNYETGLIERISNYGISNEMYENIKNKEVTLQELKKILKKENKYENSYFIPKLNNDSEFKGFDLEKESIEDIDSELEIKWNNKDLLLITVNDDIGRLWGYMSCDAPIDGMRPTKEDLEMLSVLGGILSIIISNRKKYNYVKKLSERDALTGAYNFLKIVDDMNKSNKKDIFSIAFFDMDNFKKINDSYGHLYGDQILKSIVKIIKNHIRSTDSVYRYGGDEFVVIFNNLTKYKATNIVKRIQENLSKLHEGATFSVGIADSSEAKMKDLIELADKRAYFAKKKGKNRIIYKR;locus_tag=LOCUS_18000;note=WP_010880121.1 GGDEF domain-containing protein (Aquifex aeolicus) [pid:36.3%25%2C q_cov:30.0%25%2C s_cov:52.7%25%2C Eval:6.8e-23%2C partial hit],MGA_1812
sequence1	MetaGeneAnnotator	CDS	1952539	1954083	.	-	0	ID=MGA_1813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVIIFLIFSFMAFSESFEYSITSNESRIGTSTVNFDEFKFNENTLTELQIGKTFVKYESYTQYNESWYFKNYKLDIFVNGYKQGTLISKYDNGMIISTFNGSKLKNIKIKDPIILDNNIIGHFFIFNKMNNLKNKNIKLFIPSLLLSPRTEKYVIIDSDFTESDSFYKLKTLNSVLEIKFNDKTLESVFDTIKKVKIFLNGKDMKKNVLEKEITFKSNNFTLYGSLMYPQKLKQKNPAVILIHGSGPNDRDETLVINKKIYKPFLEISKELSKNGFIVLRYDKRSYTILQKKLKNFDNLSVKDFVDDARAGIDFLNTLDEVDKNNIFILGHSQGASFLPLIIKNKNIKGAIAISPGLLNIFDQMEYQLKYQLDYIKALKNDEKYKQTIDLIEKYLEEIEDANKKFKDDSLKNDDVILGQKAKVFIDWVKFQPDPYKDIFSINIPLLILNGTQDLKTPKELLESKESSLKENKNITIEYLENTTHEMLNNITMNFNDEIIKNILNWVNNLN;locus_tag=LOCUS_18010;note=WP_012582879.1 DUF3887 domain-containing protein (Dictyoglomus turgidum) [pid:29.0%25%2C q_cov:67.7%25%2C s_cov:81.4%25%2C Eval:3.3e-27%2C partial hit],MGA_1813
sequence1	MetaGeneAnnotator	CDS	1954605	1956290	.	+	0	ID=MGA_1814;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080066.1;translation=MKKILTIVIIVLLSSVLLSQEFDRKTTFVAGGALWDVPSNWNPFVPWDAVSGTVGLVYETLFEYDTLNNSMKPFLAEDGKWISDNEYLLKLRKGIKWTDGVDFTSKDVYFTFDVGRKNEEAPISYVWKWLKEIKVIDNYTLKFIFSEPRYSEWNTMLYDQGIIPEHIWSKKTAEEVINTDNKNPIGTGSYKYEVATNDKMVWIRNDNWWGKDVFGKLPAPKRIVIPLIYSNNVALGMLMKGELDLSNFFLPGIPKVKSFYNLTTWYEGKPYMLPGDSATLYLNTHKKYLNNTDFRKAIAYAINRDMIIKNVFEYQSQKANPSGLLPIDSWMKYYNKEVNKKYGFDFNKEKAKSLLKKLGFKDINHDGFLEDKDGKKVSFEIIVPSGWTDWMEAIKIISKNLQDIGIKADAKFPDEGVYWDDLTKGDFDMAINNYGNEASSTPWTYWNSVMNYRINQDVVEDGNFGRYNNPKLFKMIKDFNTKKLGSTESYEIASLIEEEMLKNMPVIPLWFNGLWYQASSDYWTNWPTEKNPVGYPCSWSGYWSRGGIDMLLNLKPSNHEE;locus_tag=LOCUS_18020;note=WP_004080066.1 ABC transporter substrate-binding protein (Thermotoga) [pid:47.8%25%2C q_cov:98.9%25%2C s_cov:99.6%25%2C Eval:4.5e-163],MGA_1814
sequence1	MetaGeneAnnotator	CDS	1956351	1957343	.	+	0	ID=MGA_1815;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080068.1;translation=MQNKYFRKKIIIYLITFFFAVTLNWLIPRFMPGDPMSLLMAKLHGLNEGKAALKSFFLDSFGLNKSFFEQYLDFWKALFTGDFGVSIYLYPKPVIEIISKAAIYDIVLLLPAVILSWIFGNKLGAISGVNKKIDNILMPIFYFLTSSPYFWFAVILVYVLGVVMGLFPINGAYSSTMLPSFSFSFIIDFFKHWILPFLSLFSVMLGGWAIGMRNMIIYEMGSNYSKYMEALGSSKKLIRKYAFRNAELPQVTGLALSLGTIIAGNLTTQIVFSYPGLGYTLLKAILNQDYFLVQGCFLFIIIGVLLANFLVDILYMFIDPRVRYSYSGEV;locus_tag=LOCUS_18030;note=WP_004080068.1 ABC transporter permease (Thermotoga) [pid:62.7%25%2C q_cov:99.1%25%2C s_cov:99.4%25%2C Eval:4.5e-127],MGA_1815
sequence1	MetaGeneAnnotator	CDS	1957346	1958212	.	+	0	ID=MGA_1816;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080070.1;translation=MNLKEKLKNHDNWYYALKNKKVIIGFSIFLFFLILALLAPILTKFDYEEIAGAPYSSPSLEHLMGTTIFGRDVFTQVLYGLRSTFFVGLVGGTIALVIGVLLGFISGYKSGTLLDEGLMMLTNILLVIPVIAILIILSAYLPYRGILVQSIIIGITSWPWSARAVRAQTLAIKNKEFVNLSRISSVPTLKIIIEDIASNMFSYVFMVYILQFAGAILTAVGLDFIGLGPTRGISLGLIMQNAVNWNALPLGLWWWAILPGLILTVLVTSLYFINTGLDEVFNPKLREM;locus_tag=LOCUS_18040;note=WP_004080070.1 ABC transporter permease (Thermotoga) [pid:59.1%25%2C q_cov:95.5%25%2C s_cov:97.5%25%2C Eval:3.8e-92],MGA_1816
sequence1	MetaGeneAnnotator	CDS	1958215	1959195	.	+	0	ID=MGA_1817;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080073.1;translation=MSKNILNVNDLKVYYKTLKGYVKALDGISFKVNEKEILGVAGESGCGKTTLGHSLILLKKPMKYISGEANLLNKDLMKLNAKEMNKTRFKDISIIPQAAMDSFSPTKKIKDFIKDLVEEHGIKADENFFEKVKKRFKMVNLSLDVLNRYSIELSGGMKQRVILVISTLLDPKLLIADEITSALDVSSQKFVAKMLSNFRDEKIVDSIIFITHDLSILYQIADKIMIMYAGHIAEIASSEDIIFNPKHPYTKALISSLPKIGTRFENEKLDGIEGTPPNLLNFGNGCRFRFRCPYAFDKCEKEAPPKTIISNDHEVYCWLNVGDKNE;locus_tag=LOCUS_18050;note=WP_004080073.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:59.6%25%2C q_cov:98.5%25%2C s_cov:97.9%25%2C Eval:7.4e-106],MGA_1817
sequence1	MetaGeneAnnotator	CDS	1959188	1960105	.	+	0	ID=MGA_1818;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080075.1;translation=MNEVILEVKNLCKDFTLGVFSKEVKSAVKNVSFEVKKGEIISLIGESGSGKTTIGRMILKLLKPSKGKIIFKDKDITEIKSKKEKKDYYLKVQGIFQDPFSSFNSLYKVDRIFNMIFNSYFPHEEKKDGKIKKALNDVGLKPESVLNKYPHQLSGGQLQRLLIARALLMNVDLLIADELISMLDASTRIGVLNLLGKLSKENGMSVIFITHDLSLGYYLSDTTLIMYKGKLVEKGSTEKIYKNPVHPYTKMLLNSIPDIGFKWKKEEKFLPEKIEIEVNNFYKKNINKDTELEVEKNHKVIVNGR;locus_tag=LOCUS_18060;note=WP_004080075.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:53.1%25%2C q_cov:97.4%25%2C s_cov:97.5%25%2C Eval:1.9e-89],MGA_1818
sequence1	MetaGeneAnnotator	CDS	1960110	1961600	.	+	0	ID=MGA_1819;product=beta-galactosidase BgaS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868057.1;translation=MNFNKDFLFGASMSGFQFEMGSEKDIDNKSDWYVWTHNAANMNAGFVSGDYPEYGTNYWNQYEEDHILMKELGLKIIRIGIEWSRIFPKNTFDVKAEVKYDNNDIIDINVNDKTLEEMDKIANHDNLNHYIKILKNAKENGLKVMIDYSHFTLPIWIHDCININRNRKGIMGWASKEFVIEFSKYAAYITKKLDEYVDYYATMNEPQIIASGGYLIPSTGFIPAIYSLDVYLEAIKRQSEAHARAYDNAKKYTEKPIGMIYSFSWATPYKKEDEEIIENARYFYNYHFMDTITKGLVDDELTGKQRFRKDLEKRIDFIGVNYYTRTMVRKSEPIFEKEILNFEEMSGYGYDCEKSGFTANHTPSTDMGWEIYPEGLKGNLLLLKDRYNLPMIITENGIADKFDKLRSAFLISHLIKINEAIQDGANIFGYMHWSITDNYEWSSGFEKRFGLIQVDFKTKLRSPRPSYYVYKEIIEKREITEAMKGLTILPYNYLKK;locus_tag=LOCUS_18070;gene=bgaS;EC_number=3.2.1.23;note=WP_010868057.1 beta-galactosidase BgaS (Pyrococcus abyssi) [pid:40.3%25%2C q_cov:95.6%25%2C s_cov:95.2%25%2C Eval:1.5e-101],MGA_1819
sequence1	MetaGeneAnnotator	CDS	1961611	1962612	.	+	0	ID=MGA_1820;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080078.1;translation=MPTLREISRLTGLSISTMSRVLNGSINVSEKTRTKVLKALKKYNYTQSDTIKKGLKKAIGVLVPDLQGDHYSLIAEGIESILIKNNYEMLLTTMNQIISREAQAFKEMSTRRVDGIILCTSSDDDNLIKRYIDKILPIVTVDRGKSDIKIDTVGIDNYNSAKEAAKYLYKKGHRKILFIEGPEEIYSCILRKKAFEDFFIRKNNVEIHFKKSNFGIQNGYNSVKNFIKENGINFTAIFFIDDWTALGGLKVLKELNIKCPKEVSIMGFDDSEFSPYLDPALTTVKQPTKEIGIQAAQLLLERVEGKSTSKVKRKIFLPTEIIERDSVIDISKK;locus_tag=LOCUS_18080;note=WP_004080078.1 LacI family DNA-binding transcriptional regulator (Thermotoga) [pid:42.7%25%2C q_cov:98.2%25%2C s_cov:99.1%25%2C Eval:1.1e-72],MGA_1820
sequence1	MetaGeneAnnotator	CDS	1962632	1963891	.	+	0	ID=MGA_1821;product=glycosyl hydrolase family 8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_191316782.1;translation=MKKFFILIVLTMEMISLSIPFPNHTKYSENIIKPSIYTQNQLDDQVYKYYQKWKNRYLTKVSKKDQMYINWNYLKRDWVEPQNAVTVSEAHGYGMLIFSIIGDKDKQAHQIYDAMFNFFKAHPSSINPNLMAWQQINNNGKIVDTEDNDSAIDGDLDIALSLIIADKQWGSNGKINYKKEALNMINAIMESEVNHEDWILQLGDWAHNDKDYMYSTRSSDFILNTISTFIKYDDKNSKKWEKVYNKIIKISNFIFNNYSKETGLLPDFLVKNSNGDYIPSQSNFLEDENDGNYNWNACRDPWRLSLDIILGNKNNELYTQLQTMNTWIEKKTNLNPSKINPGYYLNGNKIIRDWEGTDISFVAPFAVSAMINKNNQKWLNKLWDFMLYDDETSFEDIEYFPNTIRMLVMLIISGNWPKL;locus_tag=LOCUS_18090;note=WP_191316782.1 glycosyl hydrolase family 8 (Amycolatopsis bullii) [pid:39.3%25%2C q_cov:93.6%25%2C s_cov:92.0%25%2C Eval:6.1e-66],MGA_1821
sequence1	MetaGeneAnnotator	CDS	1963985	1965769	.	+	0	ID=MGA_1822;product=aminopeptidase P family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462045.1;translation=MINERIKKLRMLMKKNNIQAYIIPTSDYHQSEYVADFFKSRAWISGFTGSAGIVVITKESSGLWTDGRYFIQAEKQLKNSEIKLFKMNEPEVPTYEEWLLKELKEGDTIGFDAKCFSIEQVKKLKDKIKYKKLKVYAEKDLINEIWINRPKLPQENIFIHNIKYAGKSFKEKLIEVKRNMKDFDYYILSSLDDIAWLFNLRGNDVKNNPVFLAYSIISKEETYLFIDKNKLDNTVYNYLNENKIIIKKYDEIYTFINSLEKNKRYIFDLQKTNYKIYLSLNKPEKILEEKNITTYLKAIKNNIEIKNIKKCHIKDGVAMVKFLYWIEKNINKEKITEISATEKLESFRKEQEDFFEISFDTIAAYKDHAAMMHYKAEENTQYELKNEGFFLVDSGGQYFDGTTDITRTISLGNLTNEEMYDYTLTLKGNLSLSKIKFLYGTTGSNLDILARQPLWNEGIDYKCGTGHGVGYFLNVHEGPQQFRPIPNTIVLEPGMIITNEPGVYKEGKHGIRIENELLVVEDKETEFGKFLKFEIITYCPIDLKGVKTSMLSSEEINYLNDYHEEVYKKLSPFLNEEEKKWLKEKTEPIGEKNE;locus_tag=LOCUS_18100;note=WP_011462045.1 aminopeptidase P family protein (Desulfitobacterium hafniense) [pid:51.9%25%2C q_cov:98.3%25%2C s_cov:99.2%25%2C Eval:3.3e-175],MGA_1822
sequence1	MetaGeneAnnotator	CDS	1965762	1966409	.	+	0	ID=MGA_1823;product=diphthine--ammonia ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546873.1;translation=MNKKIVCSWSGGKDSCFALYKMKQNGWIPYKLFTMFKEDGERSRSHALPISVLSEQAKSMNIELEKENATWDNYEKIFIKKLINYKKEGIENIVFGDIDLEQHKEWEKMVCKKANLNAHLPLWKLNRKSLPIDFIKSGFKATIIAVKDSILDKSFLGKELNEQLINKLIDNNIDPSAEGGEFHTIVTDGPLFNYKIKLDFKEIVSFSGYSFLKTN;locus_tag=LOCUS_18110;EC_number=6.3.1.14;note=WP_012546873.1 diphthine--ammonia ligase (Thermodesulfovibrio) [pid:39.3%25%2C q_cov:97.7%25%2C s_cov:96.3%25%2C Eval:3.3e-38],MGA_1823
sequence1	MetaGeneAnnotator	CDS	1966427	1967506	.	-	0	ID=MGA_1824;product=N-acetylglucosamine-6-phosphate deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080848.1;translation=MILKNCLIVDPLDGEYTGEVLIEKNIIKKITQKTLSYDKILMPGFIDTHTHGYNGIDTMNATKEEFKKWSLLNFKNGVTTFFPTTVTASNKNLLKVLDTVEKINDTSIKGVHLEGPFINKEKMGAQNPDYIRIFTNEELNELMRPIVKIMTISPELNDISAFNDVKLSIGHSNGKYEDFKNAFKKGINRITHFPNALRPLHHREIGGMGSGLYFDFNLELICDGYHTSPEFIDMVYKIKGADKLFLITDSISATNLNDGTYTLGDLNVFVKDNKATLKNGTIAGSTLKFIDAVKNFKKFTNCTLQELSKVSSYNAAKDLKLEKIGRIKEEFYANIVVLDKNLNILKTIFNGIDQNISTY;locus_tag=LOCUS_18120;gene=nagA;EC_number=3.5.1.25;note=WP_004080848.1 N-acetylglucosamine-6-phosphate deacetylase (Thermotoga maritima) [pid:48.2%25%2C q_cov:97.8%25%2C s_cov:98.1%25%2C Eval:8.8e-87],MGA_1824
sequence1	MetaGeneAnnotator	CDS	1967503	1968411	.	-	0	ID=MGA_1825;product=SIS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080849.1;translation=MKTLEEILKIPKLLNKKISFELNKEKKYLFVGCGSSYNIGLTVSEVMKKNGYSANVKTGGNIVLFDNENYDEAILITRTGTSTETVNSAKNLKKKNIHTIGITCGKDTDIVKNTDESFVFDFANEESVVMTGSFVYILNFLLNGIKEFDLSEDSKKVLDESIKKIDKLNLKNYDHFVFLGFNENYGISKEGALKLQEMALARCEFHEPLEYRHGPKSTLTNKTLVIFNTTGTEMEKSLEEELIKMGARVLTIGEKKEINIKNLSGFETPLRIIPIQYLGYKLAILKGLNPDNPKNLSKSVIL;locus_tag=LOCUS_18130;note=WP_004080849.1 SIS domain-containing protein (Thermotoga maritima) [pid:40.7%25%2C q_cov:92.7%25%2C s_cov:88.8%25%2C Eval:6.4e-45],MGA_1825
sequence1	MetaGeneAnnotator	CDS	1968408	1969238	.	-	0	ID=MGA_1826;product=BadF/BadG/BcrA/BcrD ATPase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861264.1;translation=MKILGIDGGGSNLRYCINNKKAVLKFGVNLTAETSEFLTKKFSELKKITGKVDKIVASLSGVENEKIKEKTYNILKNVFEINNIILKNDIEALVEVTNEKKFAVIICGTGINVMGIDKINNKRYQNGGWGYLFGDIGSGFWLSLRSIQEYLKYKDNLRNYDEIFESLEKYFKLSKTSDILNLLSEDNFKTKIASFTPVLLNEKSKLIDDLVNEGTNILANRCKIVLKRINSNILYLHGGTFKSKYFYDTFVDKFEEDIIFKFTTKNLECLLAGGML;locus_tag=LOCUS_18140;note=WP_011861264.1 BadF/BadG/BcrA/BcrD ATPase family protein (Clostridioides difficile) [pid:23.0%25%2C q_cov:96.4%25%2C s_cov:90.5%25%2C Eval:2.1e-15],MGA_1826
sequence1	MetaGeneAnnotator	CDS	1969235	1969957	.	-	0	ID=MGA_1827;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861086.1;translation=MTKDPLYLSVYKKIKSDLINNKYKKGDKIPKELELCETYNVSRLTVRRALDELVREGLLKRVKGTGTFFNGFKTEEVLTRLSSFTDESIKNGFSSKSIVLENTLITIPEELIPVFNLPINSKILKLKRIRYRNEEPYAIETAYLNLAADIRLLNILDEDMNKKSLYSILINEYKLSLKYAEETIEVTQLSLEESKYLEQKKNSPAALRRQITKLDNGICIEYVVAVYRADKYKFKVVKNF;locus_tag=LOCUS_18150;note=WP_011861086.1 GntR family transcriptional regulator (Clostridioides difficile) [pid:29.7%25%2C q_cov:96.7%25%2C s_cov:94.6%25%2C Eval:7.9e-26],MGA_1827
sequence1	MetaGeneAnnotator	CDS	1970279	1971346	.	+	0	ID=MGA_1828;product=ROK family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080854.1;translation=MLKIKNKTQHSILKYIWLKDTFTRQELSEKLNVDRSTISRNLEVLMKQNLVLKNGETSSSKKGGRKTNLLSLNKNSFYIIGISITGKEVYSILTNIKGEIIDSFSISGHINNRNIDKNIYKIIDQYLNNYENIVGICLAMPGIVDSQKGIIILSDELNLKNYSLKSILEEKYNIFVYIENDANAGAAAYLLHSKLKISNLIYFIFFFPNNLINLEGLGAGIIINKKLYNGSNSAAGEIKFNKYELNFSITLDDIKNYENSKKKELVDSFLNIISEKIVQMSSFLDPEKIILGGDITLFSKKMKNYFISNICSKLNKKNKFIVIDTGEIKTVAVGTVTAFLNEVMNNFEFISKIQN;locus_tag=LOCUS_18160;note=WP_004080854.1 ROK family transcriptional regulator (Thermotoga) [pid:33.3%25%2C q_cov:97.5%25%2C s_cov:98.0%25%2C Eval:3.3e-46],MGA_1828
sequence1	MetaGeneAnnotator	CDS	1971363	1972574	.	+	0	ID=MGA_1829;product=sugar ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003733127.1;translation=MKTKLLIFVLVIFSVLSFSKTKIVLWQFMMGDDVSKNILAGFEKENPDIDVEVVQLSWANGFDKIVTAFAANAAPDVLELGNTWVANFAKQGVLFDMSNTMKNNPEIVGWNQSEFNGKYWGVPWLLGTRAMYYNIDLFTKAGLDPTNPPKTWDEMLEAAKKIDALGSDIHGVAMASGEPYSPWQEWFLPAVWGNRGRVISKDLKKATFNSIEVQEAAKFYKDLSKYALKTKISDLQAAFGEGKIGMWITGSGAISQLSSTYPNTNFYVSYVPKPSNYRGFSASFAGGEILTISNQSKKKYAAVKLINYLTRPEVAMKITKRVPAIFPSNSKASNDPWFEDNPMSLIFFKQNATAVPVPPHPKWGDIQTEVTSAIEEIILNNEDINKTLDKYNKKIQEILDNSK;locus_tag=LOCUS_18170;note=WP_003733127.1 sugar ABC transporter substrate-binding protein (Listeria monocytogenes) [pid:27.4%25%2C q_cov:93.3%25%2C s_cov:91.1%25%2C Eval:1.6e-36],MGA_1829
sequence1	MetaGeneAnnotator	CDS	1972627	1973499	.	+	0	ID=MGA_1830;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003546228.1;translation=MKSKTKQRLTILFFLSPWLISFLIFGLYPILFSIYVSFTKYSGINPTMEFVGLKNYIHAFQDETFLIALKNTFIFVIGTIPFTIGIAVLIAILLNTYKKGSGIFKAGFFLPSVISMVVISMIWIYLYSSNGFFNTIISFLGMHVDQRSFLANQKTALISIMIMDVWAAFGYYVILVFAGLQNIPDSVYEAAKIDGANPRQVAFKITLPMLKPTLFFVISINTIRSFQIFSEIYTMTGGGPQNATQTVVHYLYQVSFNKFQMGYGSAISYILFIIIMTITLVQKRVLRSDY;locus_tag=LOCUS_18180;note=WP_003546228.1 sugar ABC transporter permease (Lactobacillus acidophilus) [pid:38.3%25%2C q_cov:98.3%25%2C s_cov:96.9%25%2C Eval:5.5e-54],MGA_1830
sequence1	MetaGeneAnnotator	CDS	1973499	1974713	.	+	0	ID=MGA_1831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVKKINLILLSILLIFSMIPLFMMIMTSLISQGDLFHIVKEKTLLDFELNPMFLRNKMSVIGKYKIINSPYSKGIEISSNNTSGLILKVRDKDMNTINSIDFYINAKDIKSFDILLKDIDDNQQKISYNLMNNYKWEKISLKLNLKKYNNIDIKHISKIELLFNSNNPIQIDEVKMSYKFPTLYNFIKVWKENDFARYILNSSLVSILSVAGNLLFCTMVAYVFARKNFKGKEILFAIVLGTMMIPPQITIIPIFILMSKLHWINTYQALILPSIVTPFGIFLMRQYIEQLPKELDQAAYVDGANDFQIFTKIILPLSGPALAVLGINSFISSWNDLYYPLVLTNTPEMRTVQVGLAMFQKLNQVSWPILMAASTIAAVPVIIIFLIFQKKIISGLVDGAVKS;locus_tag=LOCUS_18190;note=WP_198405945.1 carbohydrate ABC transporter permease (Thermostichus lividus) [pid:41.9%25%2C q_cov:55.0%25%2C s_cov:81.9%25%2C Eval:4.6e-47%2C partial hit],MGA_1831
sequence1	MetaGeneAnnotator	CDS	1974732	1976084	.	+	0	ID=MGA_1832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFDIRGIVEGFYGKPWTHQERKDLIKFMEKNNYNLYIYAPKADTYHRFNWGKKYPSSFMEEFKDLIIEGKKSNIDVSIAISPGLSLKYSNNDQLLKLKEKFETFINIGVKTICLFLDDIPTNLQYEEDKNKYNDLADAQQDFTNKLYNELSNKIEKFIFCPTHYHGEVGDYQKKLGKTLNSEIEIIWTGPEVCSEKIPLNDSEKISKAFKRKVLYWDNYPVNDSTMVSEMHLGPYIGRDKNLFKNSKGFLINPMNQAYASMITLGAISEYLNNPESYDPDISLRNSISRLTNLKNELYEFSKVNVQSPLNKENTYTKNFINTFNKLYENSSSKGIEYLKNESKKIFKIYSKLMSLQKKLKENLIPWLKNYKNSGFLIEKISELIELSQPLIHEKFNNEDINKLRKKILEVENLLKLCIELDTKVYGEDLIKFALIHLKNAKGFIKLNIF;locus_tag=LOCUS_18200;note=WP_011109237.1 beta-N-acetylglucosaminidase domain-containing protein (Bacteroides) [pid:30.8%25%2C q_cov:84.7%25%2C s_cov:52.6%25%2C Eval:4.2e-44%2C partial hit],MGA_1832
sequence1	MetaGeneAnnotator	CDS	1976338	1977552	.	+	0	ID=MGA_1833;product=arginine deiminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003385506.1;translation=MKINVYSEIGKLRRVLLHRPGKELENLAPRYLADLLFDDIPYLKKAQEEHDAFANLLRENGVEVKYVTDLFVEAMDSQNNKLDFVKEFLDLSEINNQYIREALIEMLTSMSTREMVDKLIAGVRTNELKLKQDIFSVKVRKAKLGIPFFLNPMPNLYFQRDPAATIGKGITINKMRTPARRREAMLMEYVINNHPEYKGTPKYYEKDCPYALEGGDVLVLNKKTLAVGISQRTDPEALEALANNIFHKYGDSFESILGFLIPESRAYMHLDTVFTMLDYDKFVVHPKLEGIIKIFVLRKEDKGYSVSEESGELSEILKRHLELEKATVIRCGDSDEIAAEREQWNDGSNALAIAPGKIIVYDRNYVTNRLFKEAGIEILEIPSSELSRGRGGPRCMSMPLFREE;locus_tag=LOCUS_18210;gene=arcA;EC_number=3.5.3.6;note=WP_003385506.1 arginine deiminase (Clostridium) [pid:52.2%25%2C q_cov:99.3%25%2C s_cov:98.3%25%2C Eval:7.2e-117],MGA_1833
sequence1	MetaGeneAnnotator	CDS	1977642	1978634	.	+	0	ID=MGA_1834;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861433.1;translation=MSVNLRGRHFLTLKEYTPEEIRYLLDLSMDLKAKKRAGIKGNLLEGKNIVLIFEKSSTRTRCAFEVGAYDEGANVTYLTNSQMGKKETIEDTAKVLGRFYDGIEFRGFKQETVETLAKYAGVPVWNGLTDLYHPTQILADFLTVKEHVAKPLNKVKFVFVGDARNNMGNSLMIGAAKTGMDFVALAPKSLWPSEELVNEMKEVAKETGATITLTENVDDVKGADVIYTDVWVSMGEEDKFEERINLLKDYQVNMEMIKKTENDDVIFLHCLPSFHDKNTVVGKDIFEKFGLESMEVTDEVFRSRHSKVFDEAENRMHTIKAVMVATIGNL;locus_tag=LOCUS_18220;gene=argF;EC_number=2.1.3.3;note=WP_011861433.1 ornithine carbamoyltransferase (Clostridioides difficile) [pid:74.7%25%2C q_cov:98.8%25%2C s_cov:96.5%25%2C Eval:8.4e-142],MGA_1834
sequence1	MetaGeneAnnotator	CDS	1978646	1979977	.	+	0	ID=MGA_1835;product=dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861407.1;translation=MNINTDIYKDKLIDSLKKLISIPSVLDENDSNYPFGKNINDALNETLKLCTTLGFKTYRDENGYYGYAEIGQGEELIGILGHLDVVPAGELSNWKFPPFECTVHNEKLYGRGTQDDKGPLLSAIYGTKALMDSGFNFKKRVRFIFGVDEENLWRGINKYLEKEETPSVGFTPDSVFPLIYAEKGLLQATLSSKTNTNIFLDGGKALNAVPDKIIYSSEKIDELEKELKILNYNYSRKNDEIIIHGKSAHASTPQHGINAISRLCIALKNIGIESNTINFIANEIKETYNGELIIPNCEDDVSGKLTINIGRIFINSEKEELGMDIRIPVTIKKETVVNKIKEKASLYGLDYNEYDYLDSIYIPKDHFLIKTLRKVYEEETGLDSTPLTSGGATYARAIKNCVAFGAIFPDSAETEHQPNEYIEIKDLVKCMNIYSKAIFELAK;locus_tag=LOCUS_18230;note=WP_011861407.1 dipeptidase (Clostridioides difficile) [pid:59.6%25%2C q_cov:96.8%25%2C s_cov:95.8%25%2C Eval:1.3e-146],MGA_1835
sequence1	MetaGeneAnnotator	CDS	1979999	1981414	.	+	0	ID=MGA_1836;product=YfcC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011706444.1;translation=MKKFKMPTAYTILMIIIAIVAIMTWVVPTGNYDYVDPNASKLQPIPGTYHSVPKNPQGIGAIIKAPIDGFYDAVDVALFVIVIGGFLGVVMKTGAVDAGIASVTKKLKGREKLMIPILMILFGLGGTTFGMCEETIAFYPLIIPVFIAAGYDAITAVAVIMLGAGVGVLASTVNPFATGIASGFANISLGEGIGLRLFMLIVGEAITIFYVMKYAKKVKQDPSKSLVADMFDKNKEHFLHAKSENDFPELNGRRKAVLWIFAATFIVMVYGVIPFSDIGITAIPTLYWWFGELTTLFFVSAVIIGIVYGMKEEELVGAFINGARDLLGVAIIIGVARGITIVMNNGNITDTILHLGEGSLAKLSSSVFAIVTYLFYLPLSFLIPSTSGLATLSMPIMAPLGDFAHVSRDIIITAYQSANGILNLFTPTSAVVMGGLAIARVPYGTWLKFLWKLLAILFVFSILSLVIGVAL;locus_tag=LOCUS_18240;note=WP_011706444.1 YfcC family protein (Aeromonas) [pid:48.1%25%2C q_cov:99.8%25%2C s_cov:98.0%25%2C Eval:6.8e-133],MGA_1836
sequence1	MetaGeneAnnotator	CDS	1981459	1983705	.	-	0	ID=MGA_1837;product=outer membrane protein assembly factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081518.1;translation=MKKFLLIVFLTFIFITSFSITKLTDIKFSNDISYAATKVDKILKDYEIQKDHLVGDIDIQLALKQINELGYFTSLNYKLDEKTGVLNIEITPNPIVKDIKVEILGDGLVDKKDILSNITLKKDIPLNITDYKNSGKNIQRLYNSKGYVYISINSNIKLNSNKLTIEATKVNNKEYKNGTLVFEIKEYSLWDIELQGDMKKLNKEKIKNELGFEFRKEYNNKFFLFRPDVKETYLSIQKYYQIMNKLKQLEYFDENTKMGFKEINIKENKGGELLLVFSGKPKQIIDKDIKIKNVVFKGNNSIDNFKLKESISLFMKKETISNIDLLNALDNLKKVYLDNGYLYVNITPIIENNIITFKFDEMKVGKVEISKEATAKTQDYIINSFVKIKEGNVLNQKDLRNTYTSFTGSGFYSKLDILPKEDGDKIDIILKPKESTKLRKFMFGGTWTPLENKQWYEGFSFTTDLKMPNPFGYGQTFGLNVKLNPVSNQYEAGFDYNVIKLFSSNVDMGFNSKYMYLPSGKYESTFGSTITNQISVGISPRFKISDFSYITTSMAYNDYTKEDNSKYSDFTASTGFLYNKLDGLYRVYNGEYLSLDVMGGINVIEPSKKYLGGNIETKYFTTFQKFTLGTRVKVGYVNDPSNLKSFYSIGGMYTVRGYDFGTLNADSQLLMNAELSYELSTQTIPIDLFIFGDYGNAKDDPSKLLEDSIWSFGTGLKLTIPMLGQVRFEYSWDKNLVGKYTFGFGQVF;locus_tag=LOCUS_18250;note=WP_004081518.1 outer membrane protein assembly factor (Thermotoga maritima) [pid:25.3%25%2C q_cov:90.0%25%2C s_cov:90.3%25%2C Eval:3.9e-59],MGA_1837
sequence1	MetaGeneAnnotator	CDS	1983705	1984259	.	-	0	ID=MGA_1838;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865378.1;translation=MATLKTIADHISDICENAVASHSKKCELYIEEDKTNIKFIIKDYGKGMDEDDIKKALDPFFTTKKERKKKFGVGLPFLKFSTELTGGYLKLQSKKDEGTIVEALFNKTNIDCQPVGDISMCIFSVIYIDPNVDWYIKRTFNNESYDLNTEKLKELYEDIYFKPTFMNEIKQMLKTLETEIKEEN;locus_tag=LOCUS_18260;note=WP_010865378.1 ATP-binding protein (Thermotoga) [pid:39.9%25%2C q_cov:96.7%25%2C s_cov:94.6%25%2C Eval:1.4e-33],MGA_1838
sequence1	MetaGeneAnnotator	CDS	1984247	1984972	.	-	0	ID=MGA_1839;product=PHP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865325.1;translation=MAIFKCSFHNHTVLSPCGEITMTPEVYLDVLQKIGIDWISITDHNSAKNVLVFSDILSKNGIKVIFGIEVQTIEEVHILVYFKNINELLEFSKKIEESLIIKKYDPEKLGYQILLNENGEFKKIIETPYYGSSSKYSIDNIYIMARKYETLIVPAHIFRSFGLIKQLGIPPKLEFDAVEVKSEKEMMKAKKLGFKRFIFGNDAHFPQELNMIACNVDASSRTFEELKKSIYNNKVIPIWQR;locus_tag=LOCUS_18270;note=WP_010865325.1 PHP domain-containing protein (Thermotoga) [pid:33.9%25%2C q_cov:95.4%25%2C s_cov:95.7%25%2C Eval:1.3e-28],MGA_1839
sequence1	MetaGeneAnnotator	CDS	1984972	1985301	.	-	0	ID=MGA_1840;product=DRTGG domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081549.1;translation=MKLKKIIDELNLESITNFNDEDINSGHVGDLLSEVMGNAPEDSIWITHQSHQNIIAVAEVVGARAIILPENEEYMEETIKIAKEKNIVLLKSKKSAFELAGSLYNLLRE;locus_tag=LOCUS_18280;note=WP_004081549.1 DRTGG domain-containing protein (Thermotoga) [pid:43.4%25%2C q_cov:97.2%25%2C s_cov:97.2%25%2C Eval:1.1e-20],MGA_1840
sequence1	MetaGeneAnnotator	CDS	1985298	1986236	.	-	0	ID=MGA_1841;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081550.1;translation=MNKTVDKLVELLSNVFSNTKIKEIMSTPPIVVTEETKIKYAKEIMRIKGISGMPVVNKKLELIGILSIEDLIKVFENGGIESRVLNWMTKEPFYLSEEDTIRDFLDFNQEKKFGRYPVLNRDKKVVGVVTKLDIMEWLFKKLGHIYIHDERRKRVLENEFKSIIINEKKSGADFSYEINYNSIESIGMAATKLKKFLLSKEIDSKLTRKISIATYEAEANVVIHSGSTGHIYCYIKEDFIKIYVEDFGKGIECIDKAMKEGYSTASETIREKGFGAGMGLPNMKRFSNKMTVVSSPDKGLKVEMIFFRGDKK;locus_tag=LOCUS_18290;note=WP_004081550.1 CBS domain-containing protein (Thermotoga) [pid:49.0%25%2C q_cov:97.4%25%2C s_cov:95.0%25%2C Eval:1.0e-77],MGA_1841
sequence1	MetaGeneAnnotator	CDS	1986233	1986619	.	-	0	ID=MGA_1842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMIALKIIEISKLLKAKKIYLTPNVENFKIKYAGAGDLMSDVLAFSKEDMLLITGLVSPQTITTAAVIGAKVILFVRGKKISDKVIEMAKDLDISILKTDLSMYVACSMLFNNGIKDAMGTDLGIEI;locus_tag=LOCUS_18300;note=WP_004081551.1 DRTGG domain-containing protein (Thermotoga) [pid:47.3%25%2C q_cov:71.1%25%2C s_cov:78.4%25%2C Eval:4.0e-18%2C partial hit],MGA_1842
sequence1	MetaGeneAnnotator	CDS	1986591	1987304	.	-	0	ID=MGA_1843;product=FAD-dependent thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081517.1;translation=MKSEEINLLDSGFVKLIDFMGDDNAAIRAARVSYAGEMKNDERDKKLLFYLMEHGHHSPFEHITFTFHIKTPIFVARQWFRHRIGMSYNEISRRYTSKYAEEFYIPEQVRTQNTQNKQSSDIIKDKEITEEAIKIFKKSYELAYKNYKKLLEMGIAREMARMVLPVGQYTQFYMTTNVRALMHFLNLRADSHAQLEIQEYALAMAKIFKEKCPWTYEAFLKYNYTGDLLGNDSIENN;locus_tag=LOCUS_18310;gene=thyX;EC_number=2.1.1.148;note=WP_004081517.1 FAD-dependent thymidylate synthase (Thermotoga) [pid:58.2%25%2C q_cov:94.9%25%2C s_cov:97.3%25%2C Eval:8.7e-70],MGA_1843
sequence1	MetaGeneAnnotator	CDS	1987294	1988460	.	-	0	ID=MGA_1844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLIIMISISNFSNLNDFLNNFDEEIIINSENKEMNILGLYLKYWKTGYEDYKTTANIMRSELYKNFSADESVLLNILSETIPFDYFKPQKDLEEALNIYNNSIILNSMYIYFAYTDWEKSRNLIKLKKINGAISKIEQLKGKTPFTSYYHSLILWNSKIYQNKNEAYNELKAMYINHKDNQKILELLIKFCYSLNKLDEIISYSELYKNFSKKDNKILLLIAKTYQKNKNYKKSRDLIQNIINNTNKNNVLASSYEILGDMASTTSQKINYYRLSLKNDPKNPTVLEKLGRTYYTGNEKNLNLARIYLSKSLTFDPNQEKTYKMLISIQKKYRIYAFFSYVLPLFLISVLLIFILIHKKNEKEIIVEKIGEKINVKNEIMRSEKNEE;locus_tag=LOCUS_18320;note=MGA_1844
sequence1	MetaGeneAnnotator	CDS	1988472	1989845	.	-	0	ID=MGA_1845;product=FapA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080991.1;translation=MAIINVKVSSDNMVASINLIDDAKKLDMSDIENALKENNIVSGIRYDIISEIIAEPKYSVDLPIAYGHAPKVGENGGIKLLAKKKRQNMEKKYIDLRERTNIISIEKDEIIAEIISPTQGEVGMDVYGNEIEGLFGKELKFKLGKNVINKEGKIIAQYAGELIYKKEIDGSIFIDVSRVYTVDGDVDYSTGNIRFPGKVTVNGNVKPGFTIEAEGDIEIKGVVESATLISEETITVSGIKGAGKGIIKAKNVIANYIENANIETNNNIEVKQSIINSNLKSGNSIIVTGKNSRILGGVLNAMIKIEADIMGSERTVKTHLEVGVDPHINEEITIVKSQIAIDLENLKKLSLILKGIMKLKEEGKMDKNKLEQYKKTLQTAKNLKNNLEENEKKLNELQEIIDNSENKGLINVRQIVYPGVEIYIHKRTFFPSKALTKTVFYLSDNQIMIRGYNESNL;locus_tag=LOCUS_18330;note=WP_004080991.1 FapA family protein (Thermotoga maritima) [pid:36.5%25%2C q_cov:98.5%25%2C s_cov:99.3%25%2C Eval:3.0e-69],MGA_1845
sequence1	MetaGeneAnnotator	CDS	1989860	1990264	.	-	0	ID=MGA_1846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFFKITIPSKNIYIKLLRHALKNFLYLCNFKNDEEIFMMELALNESVANVIEHTYSYNEEKLIDIEFLFDGKELIIKIRDYGKKIDVSKVKHRPLEEYRDGGLGVYIIEQVFGKPIWEDIEIGNLMILKKDIF;locus_tag=LOCUS_18340;note=WP_012256948.1 anti-sigma factor antagonist (Chloroflexus aurantiacus) [pid:29.8%25%2C q_cov:73.9%25%2C s_cov:41.8%25%2C Eval:8.1e-08%2C partial hit],MGA_1846
sequence1	MetaGeneAnnotator	CDS	1990278	1991072	.	-	0	ID=MGA_1847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFLHVCCAPDLTISYKRLIELGYTPTTYFYNPNIHPKSEYEKRLNAYYQLKEIWNFKEIKAEYNIKKFFDNLDLNKRCESCIEHRIIQTAKIAQKNGFKQFTTTLLASPRKSHEMIIKCGKKAEKLYNIEFKYFNFRENSGISKAAKMCRTLNIYRQNYCGCSYSIFEAKQITKKSKEQKFNELKHLIGEEKAKQLFYLFKKDILKVPEDLSYIYLKKYGLKLIKLLKPRIILMKKEIANELNINKSGRKKVNGWRGKFIIW;locus_tag=LOCUS_18350;note=WP_004080995.1 epoxyqueuosine reductase QueH (Thermotoga maritima) [pid:41.5%25%2C q_cov:64.8%25%2C s_cov:93.7%25%2C Eval:9.6e-31%2C partial hit],MGA_1847
sequence1	MetaGeneAnnotator	CDS	1991069	1991566	.	-	0	ID=MGA_1848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFYVIIVLLVLLIGYVNFKINIPKNMEDTENKINIQTSSIHELIKVPGIGYSKANDIILYREKIGFHALEDLKNVSGIGEKTFEKIKKYFYLEKKEYIFEKQKININNDSIDKLKLLPGVGEKTAKKIINYRNIKKFKNFEDLKKVGLSEKETIKLKGLIEF;locus_tag=LOCUS_18360;note=WP_004080456.1 ComEA family DNA-binding protein (Thermotoga maritima) [pid:44.4%25%2C q_cov:78.8%25%2C s_cov:74.6%25%2C Eval:5.5e-22%2C partial hit],MGA_1848
sequence1	MetaGeneAnnotator	CDS	1991563	1992315	.	-	0	ID=MGA_1849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNSFLKITIVLVFILPLITLLLTVYTIYLKVQIKDLSISINDLKTNVIKEEITSNLKENITLPEINPKKTNLKYEIKELNFENLLNGSSGSLKLYNLGAVKVFNDKIKAFSKAVEAYEKNINYYIFMYKDKYYLYRRDYKLINSDDYKIVDEKQYIYTVQLRYFASDQAQAFVTATTLKKAGFPAFIMTRNYANSTEKNFTLLSGLFFEKKEAEDYMNNINETEIKDLIGLSVKDRFIRGIYFSGEKN;locus_tag=LOCUS_18370;note=MGA_1849
sequence1	MetaGeneAnnotator	CDS	1992308	1993315	.	-	0	ID=MGA_1850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLKNLILSKNIKSDINVFIKENFHEKIIDNYDEKEDVLFIVDTKLRNFLKIKNNIKFIKGGEEAKYLDKYLDLCQTIEKNKFNIVIGIGGGSLMDLIGYTLNTLNHNIKKIILIPTTLTSMIFPPISGFFGIDMNFKRDYLKVFGYVNEVYIDQSFLSLLSKQSLKKQFFCSYILGTYFDSNLSKLSLHYSKNFDNTDLEEFLINSIKNSMKFYKDNYEIPGYNLIKYFIKNPIEINNKFFEIYSSIFLLLSYISYIEGLISLEEFKMILNDTNEFGVFNKKIILNMKNNYINDYVTDIIPGKNKNTLKYFSVNEINIYIDDFINFIRGEKVG;locus_tag=LOCUS_18380;note=MGA_1850
sequence1	MetaGeneAnnotator	CDS	1993320	1994291	.	-	0	ID=MGA_1851;product=histone deacetylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259275.1;translation=MKIVYDPRHMFYNPKSEFDRIKMVENPETPIRVEEIIKVLKLKYEDSFVKSRDFPRSYLYLAHDPDYITWLKAKSKTLKDGEEYFPKVFGYDRIFDNGTPILNNSFEMAWISIKNALTGAQIIYENSDDIVYVGTRPPGHHAGLSMGGGYCYFNNTAVAAKYLQTKTNGFVAILDLDFHHGNGTQEIFYQDVSTLFISIHGNPSNNYPYISGYEWEIGENEGKGYNFNFPLEDGIGGTIYQRVLEKSLLEIESFDPDYLLISFGSDTHKDDPLGTFNLNKRDYEEIGRMINQITIPKLILQEGGYNPIANAEAVNSLLSGLLR;locus_tag=LOCUS_18390;note=WP_012259275.1 histone deacetylase family protein (Chloroflexus aurantiacus) [pid:37.2%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:2.1e-49],MGA_1851
sequence1	MetaGeneAnnotator	CDS	1994297	1994734	.	-	0	ID=MGA_1852;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080405.1;translation=MKIAIGSDHAGFDMKEIIINYLKENNHEVVDMGAYSTESVDYPDFAEKVGKAVVNKEVDYGILMCGTGIGISIAANKVKGVRAALCFYPTMAELSRKHNNANVLVMAGRLMGYDVAKWTVDKFLSTEFEGGRHQRRIDKISKIEE;locus_tag=LOCUS_18400;gene=rpiB;EC_number=5.3.1.6;note=WP_004080405.1 ribose 5-phosphate isomerase B (Thermotoga) [pid:60.1%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:1.6e-47],MGA_1852
sequence1	MetaGeneAnnotator	CDS	1994745	1995038	.	-	0	ID=MGA_1853;product=anti-sigma F factor antagonist;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003357811.1;translation=MEIVLNEVEGKKIIKISGEIDMSNIKEVKEKILDLKLSEMILDFKDVSYLDSSGIGMLISLHKTAQLKSGSLEIINIEEKIRKLFEMVGLDKILNIK;locus_tag=LOCUS_18410;gene=spoIIAA;note=WP_003357811.1 anti-sigma F factor antagonist (Clostridium) [pid:35.0%25%2C q_cov:99.0%25%2C s_cov:90.1%25%2C Eval:1.1e-12],MGA_1853
sequence1	MetaGeneAnnotator	CDS	1995066	1995683	.	-	0	ID=MGA_1854;product=transcriptional repressor LexA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080401.1;translation=MKKLTSKQSLVLEFIKDYISKNSYAPSVRDVMKHFNFKSPRAAHKHLITLEEKGYIERNNVSRGIKLTSKSGEIFTSEKVVPVVGKIAAGAAIEAIENIIDTVPLSSNYFSKNNEYFALLVEGTSMIEAHIMSGDYVIIKKQDFAKNNDIVVALIDGNYATLKKFRKKDDIIHLIPENKNMNIIKVEPDRLQIQGVMVGLIRMFE;locus_tag=LOCUS_18420;gene=lexA;EC_number=3.4.21.88;note=WP_004080401.1 transcriptional repressor LexA (Thermotoga) [pid:40.6%25%2C q_cov:98.5%25%2C s_cov:99.0%25%2C Eval:2.0e-34],MGA_1854
sequence1	MetaGeneAnnotator	CDS	1995683	1998154	.	-	0	ID=MGA_1855;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080399.1;translation=MSENNEEMLEKHLVDRRFTDEMKESYLLYSLSVIVSRAIPDARDGLKPVQRRILYSMDELGLKHTSAYKKSARIIGEVMGKYHPHGDASIYDALVRMAQDFSMRYQLVNGQGNFGSIDRDPPAAMRYTEAKMQTISEYMLQDIEKDTVAFNDNFDGSLREPEVLPTRLPNLLMNGVSGIAVGMATSIPPHNLRELVGGFKYLIDNPEATVPDLMQYIKGPDLPTGGIIVDGERIRDFYETGRGKFTTRAKYEIVENKNKSAIVVTEIPYNVSKIDIIEQIVAYVKRMRDMKKDSGISDLRDESDRRGMRLVIELKRNANQNRIINDLLKHTSLQSTFSIQMNVIDNKKPSLMNLKGLMNAFINHRVEVVTRRTNYELKKAEKRAHIVEGLIKAVQGIDTVIEIIRNSDNPQDALKNLQETIGVSAEQAKAISEMRLISLSKLEINKLTDELKDLNEKIKWANEVLENTDKKMEIIKSELDEIDKKFGDDRRTEITFNLSNLKSNEELIEDEDIVIVLSQYGYIMAVPSTEYKVQGRGGKGVKGLKISDNDNVLDVIFARRKSKLMIITSAGKAYQLPAYEIELAAKNRKGKHVANYVSLSDGEKIKTVVPIGLDGDYDKFVMFFTKKGKVKKTSLREFANARKSGIKALNLKEDDEVVDALIISNDSEEVLIVTKRGMALKFSSSDARAMGRTAGGVIAIKLKSKDEVVNAVKIDNNKKLLIVTENGYAKRAKFSSYRLQSRGGIGLKTIKDINKIGNIVAALSVEENQNLLSFSKNGKAIRVPISSINTLGRVTQGVITVRLDKGDLISSVIIVNAEEEEEI;locus_tag=LOCUS_18430;gene=gyrA;EC_number=5.6.2.2;note=WP_004080399.1 DNA gyrase subunit A (Thermotoga) [pid:50.2%25%2C q_cov:97.6%25%2C s_cov:99.3%25%2C Eval:2.2e-225],MGA_1855
sequence1	MetaGeneAnnotator	CDS	1998170	2000092	.	-	0	ID=MGA_1856;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080396.1;translation=MKKFYVTTPIYYVNSEPHIGSAYTTIVADIVARYKRMMGYDVFFLTGTDEHGQKVMQSAELKGISPKEFADELSNKFRVLWEEMGITNDYFVRTTDEQHEKTVQKIVKKLKDNGDIYKGKYEGNYCISCESFFNDDEVILKDGKKLCPDCGKELKWVEEENYFFKLSKYNDALLKLYEENPEFVEPEFRKNEMLSLLKKGLNDISITRTTFNWGIPVPDDPKHVVYVWVDALINYISAIGYEESEKFKKYWPADVHFIGKEINRFHSLIWPAILMAANIELPKKIFAHGWLTVNGEKISKSKGNAVDPRILMNAYGKDAIRYYLLRDITFGRDGDFSEDNLITRYNADLANDLSNLVHRTLSMLDKYFDGIILEPDKIEKVDDELHTLIEKNSKKYFEFMDKYQFTHALEALWEIIRFSNKYIDLTEPWKLGKDESKKDRLSTVMYNLADSIRNISILVSPIMPETSEKILKKLNYNKDHINFENIKNGGLHTGVKISRGEPVFQRLDMEKWEKVIKTNNEIKEEKNNENVIELIEINDFKKVQLKVAKVITAEPIPKSKKLLKLMLNDGSKENRQILAGISKFYKPEDLIGKNIIIVANLKPAKLMGQISNGMLLAAKNGDDLTILTTDKNIEPGSIIS;locus_tag=LOCUS_18440;gene=metG;EC_number=6.1.1.10;note=WP_004080396.1 methionine--tRNA ligase (Thermotoga maritima) [pid:56.9%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:5.6e-221],MGA_1856
sequence1	MetaGeneAnnotator	CDS	2000192	2000698	.	-	0	ID=MGA_1857;product=cob(I)yrinic acid a%2Cc-diamide adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948638.1;translation=MFVHVYTGNGKGKTTAALGLALRAIGAGKKVFIGQFVKNMDYSEINSLKLLPNNKIEKYGVSCFIDRNPEKKDYEAAKNGLKRIKEILSTNEYDIVVLDEINIAMYFKLISVEEVLKVLKERNKNIEVILTGRYAPKELIEYADLVSDIKEVKHYYNKGILSRKGIDK;locus_tag=LOCUS_18450;gene=cobO;EC_number=2.5.1.17;note=WP_011948638.1 cob(I)yrinic acid a%2Cc-diamide adenosyltransferase (Clostridium botulinum) [pid:53.6%25%2C q_cov:98.8%25%2C s_cov:96.0%25%2C Eval:8.1e-48],MGA_1857
sequence1	MetaGeneAnnotator	CDS	2000709	2001269	.	-	0	ID=MGA_1858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKYFQRLYKYDDENNNYIIEVSLNNYEEVYDDWDPSPFKKRDIEEEFNYFIMNSSKDIPLKYGLTIVLYLPESKKDDKKEKTLKTAYLNFYNYINERIKDKLLKLYRKIFYSFFFSIFLLIMSMFILKDVNNMFFKLVREGFSIGGWVFLWEAFTDFFWTRNDIISEYKIYKRLNEAKINFVYK;locus_tag=LOCUS_18460;note=MGA_1858
sequence1	MetaGeneAnnotator	CDS	2001274	2001669	.	-	0	ID=MGA_1859;product=PaaI family thioesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546098.1;translation=MELNNNSMSFAWGKENEKGLKLDIDFKEGKSNTKFSLNKSFCGWADVIHGGIIATILDEVMAWSVISLDKRVVTAEMNIKYKKPLYSNTEYKAFGEIIENKKRVFKTYGKIVDTNGKILAESYGTYMAFKG;locus_tag=LOCUS_18470;note=WP_012546098.1 PaaI family thioesterase (Thermodesulfovibrio yellowstonii) [pid:35.4%25%2C q_cov:86.3%25%2C s_cov:85.6%25%2C Eval:1.2e-14],MGA_1859
sequence1	MetaGeneAnnotator	CDS	2001683	2001910	.	-	0	ID=MGA_1860;product=DUF2164 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356897.1;translation=MKEIKLNKDQKRELLDKIKVFFLEERDEELGDLSAEIVLDFFLKELGDVIYNKAIDDAHSLMQDIIEDILSLQRI;locus_tag=LOCUS_18480;note=WP_003356897.1 DUF2164 domain-containing protein (Clostridium botulinum) [pid:49.3%25%2C q_cov:94.7%25%2C s_cov:91.0%25%2C Eval:3.5e-14],MGA_1860
sequence1	MetaGeneAnnotator	CDS	2001888	2003708	.	-	0	ID=MGA_1861;product=glycerophosphodiester phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948830.1;translation=MKNNKKEKYLEIKKVLNIFFKNIYLYISYEIIFKIMSFFIILPIFNGITNYVISKTSSKLFFNNDTFKFFISFQGIITTIILGIIAFIFIYVENAGLIIITYQKKLNELINIKSAIINSLKKLKNTMSLGILQLLLYFLLIVPFLGFGMVPTLIDEYELPTFIEDYIFNNGITTLIYIFVFLFSINYLIKWIFAIHVVVLEDKNFSNSLKRSKELVKGSFWKILGVMLFWQFVILFIIILIIILGVLLITLISGFFGENSIVFEGIEYIFTSLSISSTFLISIFTVPLNMIVITDLYFKRLKSIKNSEFEIKKFKVYNSKFELDKFIKKHIKIVVFILILTIFFMGNYTFSMEKVNFNSKVYVNAHRGDYLSAPENTISAIKVAVKNKADFAEIDVRLTKDNIVVLSHDSSLKRVADKNITVENSFYKDLKDINVGEDYEFDEKIPTLEEVIEYAKNKIKLNIEIKIKNHDYKLVDEVIKLIKKYKFEHECIITSLDYNALKRVKVLYPVLKTGLIMYVKLGKMEPILKNKNIDVFSMEESQIDKRVIETIHKYNKKIFVWTVNDEESMDLFINLGVDGIITDYTDLLVKKIKEYKEHKDERNKIK;locus_tag=LOCUS_18490;note=WP_011948830.1 glycerophosphodiester phosphodiesterase (Clostridium botulinum) [pid:35.4%25%2C q_cov:98.0%25%2C s_cov:95.2%25%2C Eval:6.4e-102],MGA_1861
sequence1	MetaGeneAnnotator	CDS	2003785	2004924	.	-	0	ID=MGA_1862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFLKVFLFLLFILTLVSCSVQKAEIVLPENQFDEFLSSNKDNEKYIFIGFDSEYDDSEKVFYENKFLESLIKNNYSVLDRNDLKDILNEHKLQLTGIVNNENIKETGSLTGADILIKGNFSNFNGKKMLSIYFIDIKTSRIKSFHNFTFESNNIIKVNDKNNIQNEAKTNNKEKKYKYKTFNMKVFLEDNSFESFQKVMRTFQKLLISKYGKSVYLKPEYKNTFIDVKINYNENIELKDLKNTVKILEIKPKISFAIGKMINGKPQYRANFKIQNKIIKLDFRLIDKINIEKDKNTNKNFVLITFNKFGENIVSKLTSKNIGNYFFILLNNKIISKIRIIEPVKRTARINNLNEEKELILRFLYQLNDLKIKKVIYN;locus_tag=LOCUS_18500;note=MGA_1862
sequence1	MetaGeneAnnotator	CDS	2004938	2006104	.	-	0	ID=MGA_1863;product=iron-containing alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080839.1;translation=MENFTYLNPTKIVFGKDTVKDIGKNLYKFGSKKVLLLYGKGSIKKNGVYDTVVNSLKEKNIDFVEVSGVKPNPVLTKVHEAIKIAREQEIDGILAVGGGSVIDSAKAIAAGFYYDGDVWDFFEGKAKPYKGLPIFTVLTISATGSEMNSGGVITNEKENKKWAFGSPLVYPKVSIIDPTVQYSLPRNQTINGGIDAMTHVFELYFDKTKNNDIMDEVSEGIIRTVMKHIPVLLKDPKNYESRANLAWSATLALNRINGTGRQGGDWSSHMIEHSLSAFYDVSHGAGLAVIAPAWMKYVYKEDISKWVRFAEKIFNIHDGTDEEKALKGIDKLIEFYKKIGAPTTLKKLNIIEDDLEKIANNAALLCPMGNMKKLEKDDVLNILKIAYE;locus_tag=LOCUS_18510;EC_number=1.1.1.1;note=WP_004080839.1 iron-containing alcohol dehydrogenase (Thermotoga) [pid:54.9%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.7e-123],MGA_1863
sequence1	MetaGeneAnnotator	CDS	2006104	2006547	.	-	0	ID=MGA_1864;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000074962.1;translation=MYKNRHDVLHMIHSINTIISKNIESKMKKYCEKGLVTSHSEILEYLYKNEKATMKDISRFTGRDKSTITSLIKKLSSGGYVEKVSDDKDKRKTYVKLTEKSKRLKQLFLDISSKLDNQTFSGLTDEETNILHILLNKMYKNLEREEK;locus_tag=LOCUS_18520;note=WP_000074962.1 MarR family transcriptional regulator (Leptospira) [pid:35.5%25%2C q_cov:93.9%25%2C s_cov:91.4%25%2C Eval:1.4e-17],MGA_1864
sequence1	MetaGeneAnnotator	CDS	2006730	2007935	.	+	0	ID=MGA_1865;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880484.1;translation=MKLKKFLLIFILISAIFFSNYPNNEQYKKSVLNMINIINNKYYGTPNYSKILDSLLNGMIEGLGDKFAWYLDPEKVKKDNEYYSSQYAGIGAMIKYNKEEKVLVVAPMLYSPAEKSGLKVGDKIISLDGSTVSELGWKQAEKKILGKPNTYITLKIKRNTWKNPKAFKIKRSLIKVPTVKYKTFEKNSKKFLYIKLTKFANNSAIEMQKALEKFKDKKFDGFILDLRGNLGGLVRISIDIASMLMKNKVITHIKYSNGYNETKRTISEKYFYFLNNVPKIILVNKNTASSAEILTGAFKDNNAATILGTKTYGKAAIQSTYKFKNGGEIKLPVGHYFTPKNYDINLKGIIPDIIVDYEEKLTSKISEAEKYRALYCTTTNVFLDFKNDLQLNKAIEILSEK;locus_tag=LOCUS_18530;note=WP_010880484.1 S41 family peptidase (Aquifex aeolicus) [pid:33.5%25%2C q_cov:93.5%25%2C s_cov:90.0%25%2C Eval:2.4e-51],MGA_1865
sequence1	MetaGeneAnnotator	CDS	2007944	2008771	.	-	0	ID=MGA_1866;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082238.1;translation=MKKNYIALLMAAVIMGSTFPIQKLGLINISPLQYIIFRFGIASLISFFIFGYGKFLESFFLGLVLSFSYITQIIGLTYTTSSKSGFIVSQYVVLVPIFSYFLEREKISKNQLISFLLSIVGSYLLTGGIAGFNFGDMLMFLCAIGFSLHIVLITKFSKVVEEKKLLFFQFFTVTIISVFLSFVFKIKYVFNFTSLNSILYVGTIGTVLVIFLQLKYQKKVGSNLTVLLFLAQPIVSSFLSILILHEEFTIIQVFGAFLLMLAVVISTLKLSQKNV;locus_tag=LOCUS_18540;note=WP_004082238.1 DMT family transporter (Thermotoga maritima) [pid:45.4%25%2C q_cov:97.8%25%2C s_cov:93.1%25%2C Eval:1.7e-62],MGA_1866
sequence1	MetaGeneAnnotator	CDS	2008768	2009919	.	-	0	ID=MGA_1867;product=multidrug efflux MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011254190.1;translation=MNKNVKRYLFMSSIPAFSFITILISPMFANKLGLSVYEAGMVFSIVYGVQSILTFLIGKLFEKRSPNYGITIGRTLFGIGNLVLAYSFNFKLYLFAQILIGSFDMFFPLLSMYERAIISPKNRNKFYTLLPIISEGVKAVLFIPMLFFIDYDKTPITFYRTVFLIVFLLNLVYSLFMLKVFPKVKNGNELTKSHSLNHNPNKRKYLTVLLNQILFFSNFGFGSYLIISYYVKESLNGDTKIMLIYEIIFSLIVLSSIFWRKHIKMNAEKTLIIGTFIMSFFYFLLMFKSWTTFFLSHAVLAIGFTLWISAKEPLKQEYAPKEFGRWEGFFNGIQIFSKIFTPILAGFIASKFSYSMVFLISFLVLLSNTVITLFGFKYKGRVL;locus_tag=LOCUS_18550;note=WP_011254190.1 multidrug efflux MFS transporter (Lactobacillus acidophilus) [pid:22.5%25%2C q_cov:94.8%25%2C s_cov:92.8%25%2C Eval:8.8e-08],MGA_1867
sequence1	MetaGeneAnnotator	CDS	2010148	2011674	.	-	0	ID=MGA_1868;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766109.1;translation=MKKLPIGVQDYKELITDYIYVDKTKYLHELITSGKFYFLSRPRRFGKSLTISTLYYLFKGEKDLFEGTYIYDKWEFKEYPVIRINLLDVSTENEQSFKYGLLEIIKEEAERYGITIENTNYKYAFNELIIKLSQKERVVILVDEYEKPILDNINNKEKAEKYREILRDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELESNFKEHIKETAIEMNMEEKELLKNLKMYYNGFSFDGENSVYNPFSILRFFNEMEFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGIKRLGLRKKYILDYPNIEVKNSFSKIILEANYGIRETEQIETTIYERIYEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEENVIYIMEIKIDKSAEKVLNQIKEMKYYEKYKEKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_18560;note=WP_008766109.1 ATP-binding protein (Bacteroides) [pid:34.7%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:6.6e-81],MGA_1868
sequence1	MetaGeneAnnotator	CDS	2011945	2012400	.	+	0	ID=MGA_1869;product=methylated-DNA--[protein]-cysteine S-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966535.1;translation=MDKIYLKSILGPIKIEGKNEKITKVSFINEYIEINESPEYLKECKKQLEEYFLGKRKEFEVELELSGTDFQIKVWKELLKIPYGKTITYKELAKKVENPKGYRAVGNANNKNKIAIIIPCHRVILSNGGLGGYEGGIEKKSYLIDFEKSID;locus_tag=LOCUS_18570;note=WP_010966535.1 methylated-DNA--[protein]-cysteine S-methyltransferase (Clostridium) [pid:44.4%25%2C q_cov:95.4%25%2C s_cov:92.9%25%2C Eval:4.0e-31],MGA_1869
sequence1	MetaGeneAnnotator	CDS	2012453	2013043	.	+	0	ID=MGA_1870;product=aminodeoxychorismate/anthranilate synthase component II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861216.1;translation=MILMIDNYDSFTYNLVQYLNMLNEEVKVFRNDKITLNEIEKLNPEMIVISPGPCTPNEAGISLDVIKNFKNKLPILGICLGHQAIAQSFGAKIIKAKEPVHGKVHSISHKNIGVFKDLKNPLKVTRYHSLIVERKTLPNCFEITAETKIGEIMALKHKKYPIESVQFHPEAILTENGIELLNNFLLFAKKWRIEND;locus_tag=LOCUS_18580;note=WP_011861216.1 aminodeoxychorismate/anthranilate synthase component II (Clostridioides difficile) [pid:64.2%25%2C q_cov:96.9%25%2C s_cov:97.9%25%2C Eval:1.7e-67],MGA_1870
sequence1	MetaGeneAnnotator	CDS	2013036	2014382	.	+	0	ID=MGA_1871;product=aminodeoxychorismate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438631.1;translation=MIKEINSNYNPFEIFSIFKNEDYVFFLDSGMEHNGMGRYSFIGSKPFLTISSKNTKIKINKNGIETNTTGNSFDTLKKLLNEYKIENDTDLPFIGGAVGYLGYELYHQIEEINSKAIDDVNIPDMFFGFYDTVIIIDNLKKKKYISSIFDDENKIISIENKIKNNKPFDEKSSDKKDVEFISNFSKTNYIKAIKKIKEYIKNGDIYQANMTQRFECELNKTPFELYKKLRTINPAPFAAYINIKEAQIVSSSPERFIKIKDKKIETRPIKGTMPRGKNEKEDKKNKFSLINSEKDHAELLMIVDLERNDLGKVSKIGTVKVTELFKLEEYATVFHLVSTITGEMKENISVVDVLKATFPGGSITGAPKIRSIEIIDELETTTRNIYTGSIGYIGFDGNSDFNIVIRTILCKNNKAYFQVGGGITWDSNSEAEYQETLDKGKALMEALK;locus_tag=LOCUS_18590;gene=pabB;EC_number=2.6.1.85;note=WP_003438631.1 aminodeoxychorismate synthase component I (Clostridioides difficile) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:2.1e-136],MGA_1871
sequence1	MetaGeneAnnotator	CDS	2014382	2015197	.	+	0	ID=MGA_1872;product=aminotransferase class IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015795.1;translation=MYMYNGNLVNKELSLGYQYGYGVFETIKVLNGKLIFFKEHTERLFEGCSKLEINFKYTLNELFHISKNFLNKTNFKNGSLKLIVSKNKDSSDLLITLNNKIYTKSQYEKGFKIKISSIKKSETSILSKIKSLNYMENIYCLNKAKAAGYDETIFLNSKNYICEGTISNIFFIKNKKLYTPSLKNGLLNGIIRSKIIEICRQNSIDITEGNYTLEDLLKADEIFLTNSLMGVMPVLKVNNVNFKNFTEYNFFKNKIKLYESLNENFGGLNNG;locus_tag=LOCUS_18600;note=WP_011015795.1 aminotransferase class IV (Fusobacterium nucleatum) [pid:40.3%25%2C q_cov:91.1%25%2C s_cov:94.0%25%2C Eval:1.9e-37],MGA_1872
sequence1	MetaGeneAnnotator	CDS	2015190	2015753	.	+	0	ID=MGA_1873;product=GTP cyclohydrolase I FolE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003429416.1;translation=MDKERIKKAVKEILIAIGEDPEREGLIDTPRRIADMYEEIFSGLKQDPGEHLKVFFQAEEHEELVIVKDIPFYSMCEHHFAPFVGKAHVGYLPKGGRLTGLSKLARVVETVAKRPQLQERITTTVADTIMEKLQPYGVIVIVEAEHMCMSMRGVKKPGSKTVTSAVRGVFKNDQKSRAEAMSLILGR;locus_tag=LOCUS_18610;gene=folE;EC_number=3.5.4.16;note=WP_003429416.1 GTP cyclohydrolase I FolE (Clostridioides) [pid:76.6%25%2C q_cov:98.4%25%2C s_cov:96.8%25%2C Eval:2.2e-79],MGA_1873
sequence1	MetaGeneAnnotator	CDS	2015758	2016606	.	+	0	ID=MGA_1874;product=dihydropteroate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438639.1;translation=MRRIDYKFHRKINVKMKNTDFNFGTKTYIMGILNVTPDSFSDGGDFVDLEKSIEHAKKMEKDGADIIDIGGESTRPGSKEVSSNEEINRVIPVLKKLINEINIPISIDTSKAIVAEEALKCGAHMINDVWGLQKDSNMANVVAKYNVPICIMHNQNDTEYKKDIIEEIIDFLKISINIALNAGIKKENIILDPGIGFGKTPEQNMEVMARLGELNDLGYPILLGTSRKSMIGKILDLPPKERVEGTIATSVMGIIQGIDILRVHDVKENIRAIKVTDAIVRK;locus_tag=LOCUS_18620;gene=folP;EC_number=2.5.1.15;note=WP_003438639.1 dihydropteroate synthase (Clostridioides difficile) [pid:65.6%25%2C q_cov:92.9%25%2C s_cov:99.6%25%2C Eval:2.9e-97],MGA_1874
sequence1	MetaGeneAnnotator	CDS	2016608	2016982	.	+	0	ID=MGA_1875;product=dihydroneopterin aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861219.1;translation=MDKIIMKNLGFYGYHGVLKEENKLGQKFFIDVEMYLNLEKAGKTDDVNDTISYAETYKVVKKIVENENHNLLEKIAQRICNELFKDFEKIDEIKVKIRKPEAPVHGIYDYFGIEIRRKRNEIIS;locus_tag=LOCUS_18630;gene=folB;EC_number=4.1.2.25;note=WP_011861219.1 dihydroneopterin aldolase (Clostridioides difficile) [pid:61.2%25%2C q_cov:97.6%25%2C s_cov:100.0%25%2C Eval:1.6e-40],MGA_1875
sequence1	MetaGeneAnnotator	CDS	2016966	2017439	.	+	0	ID=MGA_1876;product=2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438641.1;translation=MKSYLSLGSNMGNTKKNIDSALQKLQQDSKINITKKSSYYKTEPVGYKNQEWFLNIVIEIETTYTPYELLKKCNEIEKDLKRKRIIRWGPRTIDIDILLYENFTSNDKKLTVPHPRMTERGFVMIPLFEIVPEIKINNKPIKTYMKKFDEDVIKIKD;locus_tag=LOCUS_18640;gene=folK;EC_number=2.7.6.3;note=WP_003438641.1 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase (Clostridioides difficile) [pid:47.9%25%2C q_cov:91.7%25%2C s_cov:85.7%25%2C Eval:1.9e-37],MGA_1876
sequence1	CRT:1.2	repeat_region	2017906	2018994	.	+	.	ID=CRT_5;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gtctgaatgctactcttccctgtaagggataataac;note=CRT_5
sequence1	MetaGeneAnnotator	CDS	2019254	2021044	.	+	0	ID=MGA_1877;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIDDNMYFVDKSMLIKEIIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEYIFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLAMELSRLYLKHKYVLEVLDNEEKIIYDKIMGREALDADYENSIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEEKEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIRPYWMNTSGNYLIRKLIKEGTVNIKDNVERLINGEEVECEIIETMVYGDLNLNSESAIWTLFLFSGYLKWTSKKRKNNITMYKVKIPNEEVKDFFVQTVRNMLRESNININNILLNLINGYIEEFKEDFQKLTMNTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAKNGLKQINEKKYEEEIKNYGINDIIKVSIAFDKKEVEIVSNLDKDVELTEMEKVAKGMLKKGLDINMISELTNIPIEKIKNLYDHL;locus_tag=LOCUS_18650;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.6%25%2C q_cov:91.9%25%2C s_cov:99.1%25%2C Eval:5.9e-100],MGA_1877
sequence1	MetaGeneAnnotator	CDS	2021537	2021803	.	+	0	ID=MGA_1878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIVMVFITAASLLFMISIWILRIRKMIIELSKGKFIEFFKLLLTVSIDISIFMLTLLIVGKTMFGLQVSAILNVTTSFLIKSLLFKK;locus_tag=LOCUS_18660;note=MGA_1878
sequence1	MetaGeneAnnotator	CDS	2021868	2022119	.	+	0	ID=MGA_1879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQIKLSKTAEKSLNKYGINRKKIIDVIKFGKFYYYKNYRVYYIPKKKTTAYKNLEKYKNLFVVLSDLKVINIIKTSKLKILN;locus_tag=LOCUS_18670;note=MGA_1879
sequence1	MetaGeneAnnotator	CDS	2022135	2022572	.	+	0	ID=MGA_1880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIVNFKNKSKKSTPIILDTNSIINNINNCKNLITTYNNVIIPFMCIEELEKLKTSPKTHYAAQKAIKFLEKFYKLNKIKFINSFPNLLPIEYQELNPDNLILSVCINYKKENPIFITSDKLLKIKAKALDINTYDINEIFIIY;locus_tag=LOCUS_18680;note=MGA_1880
sequence1	MetaGeneAnnotator	CDS	2022712	2025273	.	-	0	ID=MGA_1881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTENKCKYLIFKDDEEKLKKLKENAVKKIGIIQWYTDKNIKLILEKQSTGILKYWIENEKSIKIKHDLIEKLKDSKLIVKVKYVIKKDPEIILYEYLTPFNLNYSKNINYMLEIEKKNKICSFEFFEEYEINRYEKISEDDINEYNDKILSTNTINNLLKQYNNDNKNSNELFLDVINYVNNKLLNDVTVIMPCGQAITGNRKNEKTGNTVFDNLKSLKKLDYENSKLTPELQTIYLLKEKGFNIKKIILLLNEPYENIKKNIVEELDLTFQNDLNKIYYYLTYTFKKFFKGVEIEYRKLNFNPDDYKTSSTTFKEIWDIMDGIFEKEKNNEIIIDVAPGVKYLGIILSFYSMFNQKNFYYKYERQHNLVKIPQFGIDWDYNYIDESYSILKAYKDSENKEMFDLSDLLSFPDILYKIMKISNEGIISFFPLEKIFDKLKEKREMPFGYGEKYLHLLKNNNLKAYLKDGIIKKWSTMWMGDQIPETVEHSQRHSKRLMEFTVNLINTLSESIFLNVDNLEEEYNNDISYKDLLYFIFGVALNIHDLGHTYPKYFVDGKTYYLDSLPSLVRDLHNELTLQLIDNKEYDILAEIKPFSSNSKTLKEIFGDKTEEVKEAIKMICKYHRGYLEVEEDLNSKDKEKNFIKPLKIKTDKLINIYNPMNNKLKKIVIHLAKWIKFIDGTDVQADRIITDSYHKNRIERTKNEIFYLIDKTKEFEFYKVYKTDLENIKKYLKEENYKDLDNTAKRLENNIYDNIDKITFELEIIDKIAFKARQFNHFTKHSRVSAIYPTWFEDNSKDEKILHIKIIENKNLKNEKDSSVDFIEEIKEDIKKEFENAYISKEKNITKIIFD;locus_tag=LOCUS_18690;note=MGA_1881
sequence1	MetaGeneAnnotator	CDS	2026197	2026661	.	+	0	ID=MGA_1882;product=anaerobic ribonucleoside-triphosphate reductase activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003393280.1;translation=MLEIAGYIEESLTDGPGIRSVVFFQGCSRNCKDCHNKSINEKGKGKKITINECFNMIKKISNNKKITISGGEPLEQYNNLLKLTKKLYENKYDICIYTGNNLKEIPKELLYYINYIKVGYFDNKKTNVELNYYGSKNQKFYKIEKGEKICLKEI;locus_tag=LOCUS_18700;gene=nrdG;note=WP_003393280.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Clostridium botulinum) [pid:33.8%25%2C q_cov:93.5%25%2C s_cov:90.1%25%2C Eval:3.8e-19],MGA_1882
sequence1	MetaGeneAnnotator	CDS	2026643	2028298	.	+	0	ID=MGA_1883;product=anaerobic ribonucleoside triphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964522.1;translation=MSKRNLANTKDNSINLILEKSIDYQKNYILKSIIPLNLSKNHKNKNFWIHDLEYYDISHNCIGLNIKTLIKKDNKNISFEKALKLLYKKIVEITNIQSGGIGIINFDTDMAYYLKNETKKEISYHINDFFNKLNLPIRKGCEKPYVTLNFGLDTSEKGRLISNVLLEEFEKGNDENEPYIFPNLVFKIKNGINYNEKDINYDLLIRALKTTSKCMIPTYMNCDSQINKRVDSKEIGIMGCRSRIVNNIFGKSTSINRGNIASVTINLIKLAINSNNNKILFYKELNNLMEESKELLIHRLNKVSNSNMNEYFSNNKIYIDYDKDYYNMLKNGTLSIGFIGLWESLAILKNEKIKTINFIENNYNEAIQIIKFMHNKINQFTNKNKLNFSLLATSGEGISGIFPESDKKIKNLSTLQKSIITKGYYNNSFHIPVELHTKISNKIKYEGNFHKYCTGGSISYVELKEIPTNNIEALKEIIQLFYINDCNYFGINFPLDKCKDCNYINKIDKSCPKCGSTNIIKLRRVSGYLSEENKFASGKKKELKNRKNHSL;locus_tag=LOCUS_18710;EC_number=1.17.4.2;note=WP_010964522.1 anaerobic ribonucleoside triphosphate reductase (Clostridium) [pid:32.3%25%2C q_cov:98.5%25%2C s_cov:82.4%25%2C Eval:5.4e-76],MGA_1883
sequence1	CRT:1.2	repeat_region	2028600	2029919	.	+	.	ID=CRT_6;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gtctgaatgctactcttccctgaaagggataataac;note=CRT_6
sequence1	MetaGeneAnnotator	CDS	2030143	2030490	.	+	0	ID=MGA_1884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSGWKKCPNCGEEVRDYNRKCFNCGWIFYKKKCPRCGKYMDDSTKECPRCGWYFYWNEYIGEDDGCYENYEDDNDYEENYENDWDFLTDLASDVSGIDSDYIGNAGDILDDYGY;locus_tag=LOCUS_18720;note=MGA_1884
sequence1	MetaGeneAnnotator	CDS	2030709	2031470	.	+	0	ID=MGA_1885;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011105161.1;translation=MKNSILVRTEDLINNPTPRIPICLCLDTSGSMDALSGNFKLTGKTCFKDGKEWNVATGGVTRLSKLQDGLEIFYNAIKTDEIASASAEICIVEFNDNANCILDFANIKRQKIPNLKTSGNTAMGKGVNLALDLLEKRKEEYREKGVDYYQPWLVLMTDGEPNGNPKELSRAIERTRKMIENRKLTIFPIGIGDEAGMETLQKFSPNRQPLKLKGLKFKEFFTWLSQSVSRTSQSMPGEKIQLDIEKIKSWGEL;locus_tag=LOCUS_18730;note=WP_011105161.1 VWA domain-containing protein (Pseudomonas syringae group) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-56],MGA_1885
sequence1	MetaGeneAnnotator	CDS	2031512	2031703	.	+	0	ID=MGA_1886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLKELFFINYFIKMSNNTLKIQIGGVLKMFEFFIGIVLGTLFSENLKIFIKKISTSNDEKSN;locus_tag=LOCUS_18740;note=MGA_1886
sequence1	MetaGeneAnnotator	CDS	2031909	2032250	.	+	0	ID=MGA_1887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVIVKLASFGVLGMVILAMLATSGLAGAAAISTTLSTLGGPAGMAGGMLVLASAPVIVNYLDNYGIDYAMKKLMREYKKKGYSKYELRHEISKLWITKGFKEKLYYYVDTLY;locus_tag=LOCUS_18750;note=MGA_1887
sequence1	MetaGeneAnnotator	CDS	2032328	2032732	.	+	0	ID=MGA_1888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHIKVDASYKNKKASIGVYIKNKGKKIKNRFQCKSKSSSEAELLAIYFGIKYVIKNNLKNIRIYTDNESNYKLIIGESHTNIDYMKKLIKEITNLLKGTSIEIMYISRKFNKEADKIASKRRKIKYYNTKISV;locus_tag=LOCUS_18760;note=MGA_1888
sequence1	MetaGeneAnnotator	CDS	2032835	2034538	.	+	0	ID=MGA_1889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKEISINLNIDIKKLLFELNKIGIFILNPNKELSNSQITLIKKYISKDKNEKKQNKELKKIVKRHKIFIDTSSILDKNFEIFCNQIEPLLLKYKKKIIIIPKVFNELYNYLENEQLKEKVKKNIKILSKLREKNLIEIRVETRNNFVDNVFFIQFSKYRLKHKLLLITQDKKLSNSIIKLNKIKSPKENNVRVMKISNNGILYDFKELNNYQSNSNKKKSNETKIKITNVPNDIIPIKNIPSIGSNVYTDFGEKIKLISKISSGGEGTVYKTNTNYVCKIYKKEKITIRKFEKLKLMIKKSLNYNGICWPHKIIFNNSGEFVGYLMPMAFGKELKRMYFIEPKKKLINWKKIDAVNLAITILEKINYLHSNNIILGDINPMNILVVNPKEVYFVDTDSYQIERFPCPVGTIEFTPPELQGKNFGNIIRTLKNEYFAIAILLFMLMLPGKHPYSQKGGEDIKKNIKNMNFPYTFMKQTNKVAPEGMWVFIWSHLTYALKEKFFNIFNKNGKYSHLKTRLNTKQWLNEMEKYKLFLENNSKIVDKMSLNMFPTRYKKLGNLIYKNNK;locus_tag=LOCUS_18770;note=WP_046463617.1 hypothetical protein (Pseudomonas syringae group genomosp. 3) [pid:39.9%25%2C q_cov:58.7%25%2C s_cov:48.7%25%2C Eval:1.2e-67%2C partial hit],MGA_1889
sequence1	MetaGeneAnnotator	CDS	2034550	2035233	.	+	0	ID=MGA_1890;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011105161.1;translation=MNKNLLLKAEELVDNPNSRIPICLCLDVSSSMEGEPINELNEGIKLFYRNIYDDEIARAAAELAIVTFGGEAYFEKDFSSIDIQKIPILKTFGNTPLGEGVNLALNLLEKRKEKYKEKGIDYYQPWLVLMTDGMPNGDENELKKAIKRTQNMVNNKKLTIFPIAIGQYADIKVLNSLSPKRVPLKLKDLNFKKFFEWLSKSVSITSQSNPGDKIKLDVEEIKGWAEL;locus_tag=LOCUS_18780;note=WP_011105161.1 VWA domain-containing protein (Pseudomonas syringae group) [pid:51.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-60],MGA_1890
sequence1	MetaGeneAnnotator	CDS	2035279	2036283	.	+	0	ID=MGA_1891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWKTITYEVQGRSHKTKDIPCQDKTYSNYENNVHVIALADGAGSAKFSHYGAEIAVKTISNFLNNNFDNLIRNNDALKVKIELINTLNKKLKEKAQELSCELKSLASTLLVTAIKEDHFIIIHLGDGTIGVIKNNKLMVVSTPANGEYINSTIFTTTKNSFKYIKLFKGKTKDISGFILMSDGTANSFYSNKKKELSNATKKIINWSVLLPKNNMKQLIEETFNNLIINNTYDDCSVAIITNEKHKSNIYNTFQIHEKKEFYDIKTKDPKIYLKKIKANENLLKELYKKQINILELAKKFHIKKRYLKKKLNKFSNLGLIKKENKKYKLQIQIK;locus_tag=LOCUS_18790;note=WP_011105162.1 PP2C family serine/threonine-protein phosphatase (Pseudomonas syringae group genomosp. 3) [pid:31.6%25%2C q_cov:69.8%25%2C s_cov:91.2%25%2C Eval:2.7e-31%2C partial hit],MGA_1891
sequence1	MetaGeneAnnotator	CDS	2036656	2037432	.	+	0	ID=MGA_1892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELKAKNNGIISTYSGQKIHGLFFKLLKEANKELADTIHNNTLSKAFTISTFLNEKIGTPIEFRKGKKYYFRVTFLSDEVYEIFLTKLYKNRLLRKSIKVGDIYFLINRIFFNESENEWANTFNIENIIAKDNFKSVIKLKFITPTLFKIGDKYLKEPDVEKIFNGLLKKFNLYNEIKIDDSIKNKFLDIKIKNKNIKPKKVYLTKFFIEGFIGEVEFEIPKEIVKIVNILLEFSFYSGIGYKTTMGFGQVKILKEG;locus_tag=LOCUS_18800;note=MGA_1892
sequence1	MetaGeneAnnotator	CDS	2037435	2039066	.	+	0	ID=MGA_1893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGWLKKAVKYEEEFKFKEALNIYKKKEKKLKIEDGSLIRYGTLLYEFQMYNDAKRIYEKIIKLAPNKLEHKEMLAKIYENLNKTTKAVELYKELNIKDKVQTLIDKENFNNPNLKIIKKFIELFNGREDVISFQYENGYRPIRRPLNTKDVYNHFKGKRTLGIYQLKKDNTIKFAAYDIDIKKAYHKTSEENKNNEKLKDITHQLIDKLNNLNFNTYVEWSGNKGYHIWIFFETPVQSYKVKCVMEYLLNQIQTQEEIGVEIFPKQSNIGEGLGNLIKVPLGLHQKTKNKCLFVNKDTLTPIKNQIKYLMNIEYTNYDIIKELYNECSSDFVYKTIVKSKTKKANKNTIKNVIRKEINNNTQNDDIKKIITNCTIIKQIIKKIENEAYITEEEEKIFVESLIKIKDSKNFIEEMLKKTINFSAIRLDLLMKKEKNIPITCEEIKKTILNKELHLNLEKCNCKFLTTYNSPYSIIYDIDKLFLEKVEINDIVKKIMEKNSQKYEIEKEIKSLKKMILKIMGEKTEINFDLGIIKKDGNDVNIII;locus_tag=LOCUS_18810;note=WP_005808733.1 DEAD/DEAH box helicase family protein (Desulfitobacterium hafniense) [pid:27.9%25%2C q_cov:42.2%25%2C s_cov:25.8%25%2C Eval:6.0e-11%2C partial hit],MGA_1893
sequence1	MetaGeneAnnotator	CDS	2039077	2040081	.	+	0	ID=MGA_1894;product=type I-C CRISPR-associated endonuclease Cas1c;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_080011780.1;translation=MIIYIIEQGAILSKKQGKIIVSKNGEKINEIPIKKIDKINIMGNINITTPAINYFLDNNIEVIFMTRYGRYRGKLYKEEYKNVLLRLKQYEKSFDETFKLKMAKSIVKGKLKNYYDFLLKKQKYLLKGEISQEIATIRSIIERTTNAKNIDSVRGYEGMASKAYFNAFKNLIKNKNFKFEKRISHPPKDEINSILSFGYSFLYNELLAAINIVGLDPYFGNLHTVAISKKSLLFDMVEEFRNIIIDDFVLKLINRNEIKINHFSKQKDIIHFTEDGIKIFISKYENLLASKMKYHLDEEENYIRIIFEKQMRHYARVILGDEEEYIPFFRKEID;locus_tag=LOCUS_18820;gene=cas1c;note=WP_080011780.1 type I-C CRISPR-associated endonuclease Cas1c (Leptospira interrogans) [pid:32.8%25%2C q_cov:97.3%25%2C s_cov:99.4%25%2C Eval:1.9e-40],MGA_1894
sequence1	MetaGeneAnnotator	CDS	2040083	2040361	.	+	0	ID=MGA_1895;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259224.1;translation=MFYVVSYDITDNKKRNKIIKYLESYGVRVQYSVFEAELNETQLNSLKRNLKKSINLNEDTIRIYPLCSECRKKIETIGIDKGSYYKKDFLIV;locus_tag=LOCUS_18830;gene=cas2;note=WP_012259224.1 CRISPR-associated endonuclease Cas2 (Chloroflexus aurantiacus) [pid:44.3%25%2C q_cov:85.9%25%2C s_cov:84.9%25%2C Eval:1.5e-12],MGA_1895
sequence1	MetaGeneAnnotator	CDS	2040373	2042304	.	+	0	ID=MGA_1896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLNLFKIIIPKEVKRIYFYKKEISPEIFAKNLKRVNNIKFTYSNDLIWVELPNIKLEIKPKEVMQYKIEKEEVLTVQKDEKLFLKMIYSYVQKLFLDNEFYHKNGNEYISLKDKFELKSNKNIMCHKAYKVKIYKIDDEYYLSINPKFVFLSKLNALESQEKGVYLFNTKSGKTFPYISSIDNKLTIELKNGDLRIVNYPENYYFNYSSKEAEFLGFSKEIYTINKEKFNIELKEISSKLNFLKDILDIKNKYEIPWDNRKYLDINYIFKNGTSKNAKDMFKYSFYKNEKDIKILFFFNSEKQFFRARNILKELFSNKNSIFYNSIKQLGFNTISYVKNKETNKSIFFYDEETYEIKDKSFIENLGIEDNYIGITFLDNFLGNIELLMNKMPKNIIFQPVLMKNINSMKPFIIKSFVYKLAKFLPGNTPFIINNLKEYKEDLFIGLDMSHDNISKKTHFSITAVENNGNILYLNRIKELQLNEKIKLDLFEKEYINIINKYETKHKKLPKRIFLYRDGIYLENIERIKNIVEYKEIKGTFIEVNKNSNINSTYDLKDNIIKISNEIYVYFPKTMHKQKGIELKIIYNNVKIENEKIAFQGFMLSKLYYSTPYSNIKLPYPIHITNKVALNDLEWKLYIPYFE;locus_tag=LOCUS_18840;note=MGA_1896
sequence1	CRT:1.2	repeat_region	2042619	2044007	.	+	.	ID=CRT_7;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gtctgaatgctactcttccctgaaagggataataac;note=CRT_7
sequence1	MetaGeneAnnotator	CDS	2044213	2044356	.	+	0	ID=MGA_1897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLLIDLIIKFIKILLIFYPENDVISLTSQHFNVSEDFIRSIMNNKF;locus_tag=LOCUS_18850;note=MGA_1897
sequence1	MetaGeneAnnotator	CDS	2044477	2046264	.	+	0	ID=MGA_1898;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIEDNMYFVDKSLLIKEVIENGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLISELSTLYIDHEYVLKVLNEREKDVFNKIMDREALDADYENSIRNLSKYMERYYGKKVIILIDEYDTPIQQAYLYGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEESEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIGPYWMNTSGNYLIRKLIKEGTVNIKDSIEKLLNGEKVESKINETMVYGDLHINSNESIWTLFLFSGYLKWIKETKEGYRRYTLAIPNKEVRMFYEDTVLLMLEEENIQLDNILINLINGHIEEFKEDFQKLTMNTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAKNGLKQINEKKYEEEIKNYGINDIIKVSIAFDKKEVEIVSNLNKDVELTEIEKVAKNMIEKGLDINMISELTGISIEKLKNMYDHL;locus_tag=LOCUS_18860;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.2%25%2C q_cov:91.9%25%2C s_cov:99.1%25%2C Eval:1.8e-101],MGA_1898
sequence1	MetaGeneAnnotator	CDS	2046496	2047257	.	+	0	ID=MGA_1899;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011105161.1;translation=MGNNLLIRTKDLINNPTPRIPICLCLDTSGSMDAVSGNFKLTGETCFEDGKNWNIVTGGVTRLSKLQDGLKIFYNAIKADEIASASAEICIVEFNNNANCILDFANIKRQKIPNLKAFGNTAMGKGVNLALDLLEKRKKEYKEKGVDYYQPWLVLMTDGEPNGNTKELSKAIERTRKMIENKKLTIFPIGIGDEAGMETLQKFSPNRKPLKLKDLKFQEFFTWLSQSVSRTSQSSPGEKIQLDIEEIKSWGEL;locus_tag=LOCUS_18870;note=WP_011105161.1 VWA domain-containing protein (Pseudomonas syringae group) [pid:46.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-55],MGA_1899
sequence1	MetaGeneAnnotator	CDS	2047304	2047441	.	+	0	ID=MGA_1900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEFIIGIVIGTLFSEPIKELTKSFFNYYDKKANEKKNEETNENQ;locus_tag=LOCUS_18880;note=MGA_1900
sequence1	MetaGeneAnnotator	CDS	2047542	2047676	.	+	0	ID=MGA_1901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIIASIIALLLGVFYTGIIKTILIIVAIIFVLNIFLKLKRFF;locus_tag=LOCUS_18890;note=MGA_1901
sequence1	MetaGeneAnnotator	CDS	2048284	2048469	.	+	0	ID=MGA_1902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIFKKNINPEKLFKYYKKLFPKLKSEMILKLVNKHIDLYGNEESKRNFEIFQNNKSKKEN;locus_tag=LOCUS_18900;note=MGA_1902
sequence1	MetaGeneAnnotator	CDS	2048579	2048854	.	+	0	ID=MGA_1903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKSIKNVLAIIVIIVFIYFIAKEPGSPTKYNGIWFFRTTKIIDNQESMIERQERTIRRLWGVIGLNLFITGYFIIKPKENKIENKKINH;locus_tag=LOCUS_18910;note=MGA_1903
sequence1	MetaGeneAnnotator	CDS	2049176	2050090	.	+	0	ID=MGA_1904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLEDVLERIANSLEEISNSLKTTSNINTQNIILKKEIIKKEENIIEIPRKNEIEEFLNSKNIQIKTLKTEKNEDVLDNIAYFMGEKYENIEPILKLLKRNINNSGYIDIDMQDFTQRSISDITNLCNRLYELTFLSFYKYKKSPKYNLTAKVNKIPEAINFLNGEWFERYLKLKVIKSLEMNKQNKKIKYSYIKNPQIILPNGDDFELDLMFKIDDEIFWIEAKTGEYQNSLKKYSKIKKMLNLKRKNVFVVLTKNLEDRMKSALSTMFDVNVINIKEFENIFLNNVLNLNEHVIDEKIINI;locus_tag=LOCUS_18920;note=MGA_1904
sequence1	MetaGeneAnnotator	CDS	2050200	2051420	.	+	0	ID=MGA_1905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNTMIATTGASLVRNLQRDETFKDITDYKEIAKKLNSLDLEGRRRSCAEINSIENIIDKGYLEDRKNLYFFISDTQMGEKIGMILKEYFKISSKYGFENVEINTVKKLTDTNSEDFKRYGLRNLVKDIARINQKHYANMIINATGGYKAQIAFALAIGQGMNIPVYYMFERFPTVIQMPPLPLSFDSTLYANYSKIFQLLEDIPLLPYEKNFDYDENGDLLPKQKEFLKKYISEDEIDLFQSYLLKGNVKSLYEQLDEKLKPLFDIERIDKEKIISLNAMGQAFVESATFYFNREKEITLKQRKNTNIILESSKKEGHSLEMILKNNVEKILNKVDFIERARVVKFSDKNKNGGFRVKVLGDELNLILNSNEGITHFNIETTARNNVELQKAKIILEDYLNKNWK;locus_tag=LOCUS_18930;note=MGA_1905
sequence1	MetaGeneAnnotator	CDS	2051445	2052614	.	+	0	ID=MGA_1906;product=type III-B CRISPR module RAMP protein Cmr1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082342.1;translation=MQLLKLTLETTSPMFNGRDNNFVLLPQSIRGVMRYWFRACIPRTINIGRNYENLKKIEEDLFGSTERKSSFDVIVESNYQQSISKSIAGNVFSDFKYGIYGAESKRYLKEGTKINLTFVIKRNIDDLDYLLYYLMYLISNIGGIGMKSRNGFGSFLIIKKDEKYQKPSGFVDTLKKIDVIMQKYAEKLNLPLGGTIFNEIPDFPTLTKSNYKGYTSKQRFVNIQQLFKFLYKADIENPGAYIHLKKKYLRGAHTKRDSFVRSIKAIERSRPERIEYKQALLGLPINYRIMSGHHGNIRGGNYTLSGDERKASPVYISVHRILDEKKTIKYIYKIFIIKSKMSSNNNLKFKKKGEKITLNGYFNFDFKDIEKNLVKANLIKEVKKIEHKK;locus_tag=LOCUS_18940;gene=cmr1;note=WP_004082342.1 type III-B CRISPR module RAMP protein Cmr1 (unclassified Thermotoga) [pid:26.6%25%2C q_cov:100.0%25%2C s_cov:97.5%25%2C Eval:4.8e-25],MGA_1906
sequence1	MetaGeneAnnotator	CDS	2052598	2054970	.	+	0	ID=MGA_1907;product=type III-B CRISPR-associated protein Cas10/Cmr2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082341.1;translation=MSTKNDFWIKKINAIMYTPIEKVFINTDHEELQKNRLKRINIEYIKSKSESLANTADKVLLPNKNEIKVDFNNDELLYIHPLSGNKLKNEYKEFVKNINDKKEWEIYLNDLSKMNLKSNELYHKLWWDLPNVLKYSYMYPADTKIPDNSIIDHLDTTAAMSNSENISILMLSIGPVQEFIAAGRKIIDLKTGSYLLSYLTYKGIKYIGENYGYDSIIFPSMRENYFLSKDHNFELSKEVDPSIASLPNVFTAILPTNDIEKIVKEVENEIKNEMKKISNYIKENIIKFGYNEKKREMNEKIKLKNWNELWDKQVEQFPVIIAVHQDISSSNIIDEHVDYTNENIAKEVENAFKNVINTKEINKTTFFGFASELIGIKSAIRKATRNFIQLKEEFEETGDDISANNKALVYYKFIDEDKNIKTEKLSALSTIKRYFYRYLEEKTIYKNASRKIRKVESIEEITKEYNMAILMMDGDKMGEWISGRKEEIPNFLDRMHPKVQKELEKIDKNYYEFLKNTKYVIPSYQRTVSRTLNNFTKFVSKIVSKYNGYLIYAGGDDVLAIFPSNTVLQAANDLRKVYSGSSLNEKITIKNKEYTFKDGWAFENGIPVYNMMGENATMSAGILIANPKYNLKLALDEARKLEKIAKNNGRNSFALGSVRGTGKFSYTVSKWEDKKDILKRVINFFETYSKEENKRSIKRLSSKLKNEYISLSKDKDIQVLSTEEYINYVVPFALKKRMELKDTTIKNIKEILNDFNELIKKEGGNFIEILNIFDEVEHALKKRDKRGEKN;locus_tag=LOCUS_18950;gene=cas10;note=WP_004082341.1 type III-B CRISPR-associated protein Cas10/Cmr2 (Thermotoga) [pid:33.8%25%2C q_cov:95.3%25%2C s_cov:95.4%25%2C Eval:8.8e-102],MGA_1907
sequence1	MetaGeneAnnotator	CDS	2054967	2055947	.	+	0	ID=MGA_1908;product=type III-B CRISPR module-associated protein Cmr3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082340.1;translation=MKKRLLLVKPLDWLAFRTSRTFSSSGDTQFPNTKTFYGAIYAELYRKNILTPKEIKDKIKMKKLDLTGPFLFEKNDEIKILFRTPSILKYNEDTKETLMGYIDEKIKYEVDGKELNGIRYKSMKNIKELENYYITLKELEKIKNGELIENKKPIELPYRIERKVGIELETGKRKTKKGMLYSLSYYRFKENSGFCFFIENDEEEILKDIKTIHLGTKGKIAELEIIEIETNLFNKVETTQKMAILLTPAYFEKGVMPKENKNLIGISNYKPETIGYWDRETNKPSELFKVVPSGSTYIFKEEIPKYLTDDYDHYGFGKYIEIKGGN;locus_tag=LOCUS_18960;gene=cmr3;note=WP_004082340.1 type III-B CRISPR module-associated protein Cmr3 (Thermotoga) [pid:26.9%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:4.3e-29],MGA_1908
sequence1	MetaGeneAnnotator	CDS	2055949	2056770	.	+	0	ID=MGA_1909;product=type III-B CRISPR module RAMP protein Cmr4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082339.1;translation=MKGKVAFLYSVTQLHAGKGFDSGVVDLPIQREEATGFPIVSGIKGAIRNEIKWGSDEKDIFGAMPDNKNEDLAGTIAFSEAKIFLFPLRSISHGFVWVTCPMVLSRLKTAFKLTNNNKIEEKISTVLKNFKNEELSTFNSSQVNIEEFLVTPKYSKELKEFLEELKEITPDEYLSDKLINTTVLLSDKDFMFFVKNSTEVMARIKINKEKGVTEQGALWYEEYLPNDTVMYFIVKEILEKNTLEKLEEKLNDNFINVGGKATIGKGFAYIKVI;locus_tag=LOCUS_18970;gene=cmr4;note=WP_004082339.1 type III-B CRISPR module RAMP protein Cmr4 (Thermotoga) [pid:40.6%25%2C q_cov:98.9%25%2C s_cov:98.6%25%2C Eval:5.1e-51],MGA_1909
sequence1	MetaGeneAnnotator	CDS	2056783	2057160	.	+	0	ID=MGA_1910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTDFSIQKCAKERIIMRKDKSYASTYRSLIKGLGSQIIQNGLYGTLVFLDAKNKEHHKAVSEDIIYFLKESNIYTTNDHIYDFLEKENNLMLAQDKVLEFVGWYRRFADIFIRNDKNTGSDNS;locus_tag=LOCUS_18980;note=MGA_1910
sequence1	MetaGeneAnnotator	CDS	2057157	2058134	.	+	0	ID=MGA_1911;product=type III-B CRISPR module RAMP protein Cmr6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865404.1;translation=MKYFNQETKIIKNPSLYYDKKVYNMKNYIEKESEELEKIIREINPGRDEFDLYEHSSRINRSRKHKTFLKISSFPNIRDRKNFRREKNKFTKEQKFTLELLKDAEKERLSKKSLEITRKTYKKVLEEYNLNKFDLSKPLNSLNIVRERFIYSLIKNGKEVVSIKKKLQTPMLIGIGIPSIDEIGFYWNRNYGIPTIPGSTFKGAFSTYFKDLEMNEIKDEIFGTQESSGKVIFLECIPTDKIELIKEIQTPHFGKYYTENKAPNDIYNPIPLSYMSVNSGTEFRFDIIIESSNEKLKEILNEHLELFLKYYGIGSKTSMGYGRFK;locus_tag=LOCUS_18990;gene=cmr6;note=WP_010865404.1 type III-B CRISPR module RAMP protein Cmr6 (Thermotoga maritima) [pid:34.1%25%2C q_cov:75.7%25%2C s_cov:97.5%25%2C Eval:2.0e-31],MGA_1911
sequence1	MetaGeneAnnotator	CDS	2058247	2058873	.	+	0	ID=MGA_1912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNWYNNEYYYVKKLYNIIMKKKGYILHVTEYENLKSIIKEKGIYSVNNLKWKKIYPKYITDNLSKKLDKKNNTNDYVKVAFDESYNMFSAKIYYKKLKNPVIIKIDPIILLEKSFKLSNTNSTSNYAKIGNCSEILDLLDFDIIYERYGIREKNKNYIKSKKQAEILIKDKVDYKYIKEIILPYEKDNIKSFNIKLKKANIYNLLNV;locus_tag=LOCUS_19000;note=MGA_1912
sequence1	MetaGeneAnnotator	CDS	2058886	2059572	.	+	0	ID=MGA_1913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_205180329.1;translation=MAKRLIFIVYPLEKKEVEFEWNPGFSIVQKRKNIESLHKNAKKIGINKILEISSKSESQLGIQLSAFNLKIRTSKGRFHLENIFQSSKVFENGGPYNDILYLTSKDAKKDERLKSSGKLRYFKFDGEKWDLIPITAFYDYLYFNALLESNIDFDLLLEYEAFSDIEFNHKKSYNCQAEALSKFMNLYKNHKIPKKYFNEKSISKNNFFKLMNYDKKTKDTLNKTYLLF;locus_tag=LOCUS_19010;note=WP_205180329.1 hypothetical protein (Bacillaceae) [pid:51.5%25%2C q_cov:82.5%25%2C s_cov:80.6%25%2C Eval:2.1e-49],MGA_1913
sequence1	MetaGeneAnnotator	CDS	2059672	2063916	.	+	0	ID=MGA_1914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFNTLKSEKLEEILKNFFNYVEINLKDINPKLSNKVKKSKFKFNNERNLFNESIEIGKLYDIEFIYDEKSTSIFKDIAILFPDENGYYYSGSKKLYSPFVIFDKYLTKEDEEETVEENEETVKINEDKKINTEIDFDNSLIIPGYFLAIFSTFLRIVNAKRKKNKDENDLLGNSINKLIKTTGVWLYKYDVKIKKKIKSIYVKIPVFFEPYDLNYIEKYTNPRKVVYPNEKVNEKLRLPNKTHIGIVDMLETPESKKIGLTLSLIDSENLKYDFKNFKFKRDNENILSFATKQIPFILHSDGARILMGSKNLKQAVKVKDAEKPLISTGNEKDFIGVNALTIYGLFKGFNFEDGIVVSESFAKKMETTLIEESKYIIKDTIPLDKNPKIESNKWIYNAGEKKLVIEWEKKEGDWVYFNDIIATVKNNKEIRYEGKYPAQIKNIPKTPVYPYKNYQNNILIEIRIQYSVKKELNIGDKLMGRHGNKGTVSKIIPDNEMPKVFFNNEYKSAEIILSPLGVVSRMNLGQLYEVHASMAQKHSDFKKYENGIDPLKTAYEDKDEILESLKKIGADEYGRFKVEYEKYTWYLTAGYQYIVRLDHCVKDKIHFSAIAKEGILSYQPLKGKSRNGGQKFGEMEFWSMYSYNNEKLVTLFSEKNLNNKYNKGNNIYSKYPESYFKKLINGFDIDYKINKNLKSEFFCTKNKNKELLEFLNIYQKNEVENYYQYLVLKKIINKLTKKDIQKYILLLLKEQIKKELKKELKNKVKFELDKIMKKIDEPLKEFVVDNFKTNEHIIKILKNNISNEDTLNNLESILNKNYEEKIFKNIEKEKAILTNKLKKYLFVKNGYLKKLVIARRLHYSGRTVITPQPLTYIKEFDLKMDIDTVLLPIEFGIEFIDIQNKNILKAKKGDNKKRIEIAKELNKKVLEEEKYVLLNRQPSLFRHSIQSFKARFWNNYTIGLPINVCEGFNADFDGDTMAVYYPTEQEINEIEKMLPSKNPLKISEGELSYSIDQDMIYGLFLLTNKSKSSIKKDYVKKIRKLLENKEYKKIKEMINKEILNEALKKATEENLTLSIFEIDNNTESMKKIRNSKCRGNDEQYIQLNQKIKDISDDKGFVHGINKEIYFNPEKGIAKRARRTLMDKKLHVADAGYFTRVLVEFLGTIKTKKEIDDFIEYEIDLNELKEGKYGKEKFLYRYIKYNNKKILLTPNELEKLPNKFILLSPKVIEINNNYFVSSKYCGKDISTLNDFTNDYIGITAGQVLGERGTQLSMETFHSGSKSLPMATVKTIIFKEAFKKDTYFDFLKSLDNNEEIKEKMGINKDKDKDKFSLLEKINPNSIYFELLYNFAQYLKKEKNIDSIKKYLSNIDIRGPLTCMSFESGLNVLEKIELNKEYIETQPRIKYAFFRSDENE;locus_tag=LOCUS_19020;note=WP_012546627.1 DNA-directed RNA polymerase subunit beta (Thermodesulfovibrio yellowstonii) [pid:34.6%25%2C q_cov:15.9%25%2C s_cov:16.9%25%2C Eval:2.2e-29%2C partial hit],MGA_1914
sequence1	MetaGeneAnnotator	CDS	2063909	2064712	.	+	0	ID=MGA_1915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKIHLQQKQKNQFLTKTKKTDFNYININGSSIEEQEEEINEDDYSNTEISKKAKEERNLETEIDIPKKTITFKLLKTDEEYVLINLGSIKIKDDKIGKYESLKEIFKSFLVIEKVTPEKLNGLAIDSRNKNEKYFMLDRDFITYKNIELLDGCAYPLSNLTKKKKKEEKNEIEKNRKFRKFILDNKKLIEEFLNKKDKKDKKISLDEFIKLLSNWIFFEDKEEDNIRKKKAKEKKAKKLELDIKDYSESKVVLNTLNEYMILGGF;locus_tag=LOCUS_19030;note=MGA_1915
sequence1	MetaGeneAnnotator	CDS	2064712	2066010	.	+	0	ID=MGA_1916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYIEEEYEDLIKPIKNYLKKQFKSKEENIDISKFFTKEFNKCTIYIGNIDKYNKYKEEFKEIEPKKIILIIDKYLEKNILENFFNYNIIGVFRKNKLNTEYEEIGKLEKLLKNEIRKLTYTKLEKEDKFYIKRIAYKNIKNWKFNPEFDNIEEFYRKRKYISIFLDITMQKFSRQIRTILNDFYEFKENYENTKEKTFNVFPTLLIEGETGTGKSLIADIISDNLLFGETAYKFSLVNIEKNLIDSELFGYKKGAFTGADKDKPGRIVSHKEELIFLDEISEIPIETQTKLLLYFDDNKVLPEGSDGEPEYAPAFIICATNKNIKEEINKGNFRSDLYHRFKYKIKIPSLRERKEDIRFLINFILLNPFINKYDKENKIYKVDKISLEAIEKLENYDYPGNFRELESILREALNIAYFEKQDIILPKHINI;locus_tag=LOCUS_19040;note=WP_012546113.1 sigma-54 dependent transcriptional regulator (Thermodesulfovibrio) [pid:38.0%25%2C q_cov:60.9%25%2C s_cov:61.7%25%2C Eval:1.1e-36%2C partial hit],MGA_1916
sequence1	CRT:1.2	repeat_region	2066244	2067177	.	+	.	ID=CRT_8;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gtctgaaagatactcttccctgaaagggataataac;note=CRT_8
sequence1	MetaGeneAnnotator	CDS	2067401	2067748	.	+	0	ID=MGA_1917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSGWKKCPNCGEEVRDYNRKCFNCGWIFYKKKCPRCGKYMDDSTKECPKCGWYFYWNEYIGEDDGCYENYEDDNDYEENYENDWDFLTDLASDVSGIDSDYIGNAGDILDDYGY;locus_tag=LOCUS_19050;note=MGA_1917
sequence1	MetaGeneAnnotator	CDS	2067898	2068569	.	+	0	ID=MGA_1918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFKVLGGIVIGAGAVAIAPFTGGGSVLVAGITLAKSLAGAEAVAVGAAVIGAAGAVISDMDNDNKINSAYKKGIEQGKSENLSEMENLKSKLKKASKRFKEYKEFENYLLACYAVGISVACCDGDFSDAKKNTLEEFIQGVSFKNYPITFEKTIQILYNNPPTFDEAMTFVKKSNATDLCVFTDIIDIIIASDNVDRYKERKYREDWENFISAYIRSDCNE;locus_tag=LOCUS_19060;note=MGA_1918
sequence1	MetaGeneAnnotator	CDS	2068562	2070142	.	+	0	ID=MGA_1919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNRTDRFFKRKEKLQNKKELYIPTDRELVIQLKNSNVDTEKVNKIFEMQNEKFDFSSNDEMKSSANEILAEIRGNFDQEKFDNLIFSLKEKVLDSIIKPFGLEKILFEDKDGGNITTEHNFKKGITSTEFDNKKYNEWQKNKNNKFDRKPYEKDFSNKRKEIFNSVNKLKDGYTGKEIPKDGRSHLDHITSAHEIEITSTNNLYLTKEKRIDMANSNKNLTMTDSSLNQSKNNHDLMVWSTKTNSKNNKITNTEKYDLDIELVNKNYNESKKHINKTVRNAKIKKNGTELLTTGGREGIKMGLQQSLGILIKEFTEALFVEIKDIYRNGLKNGRLDKTFLEAIKDRLQRISKKVLSKWKDLVSTFKDGVISGFFSNLITYIINTFLSTGKRFVRIIREGFFSLLKAIKILIMPPKGFTFKQAAHEATKLISTGVIVSGGILIEEGVEKFLQTIPGLNIFAQIISPVIIGIITGLLSVLTIYFLDKIDLFKVNEEAKHEFVMNKLEKRIEEVLEESDNLYSVFEVS;locus_tag=LOCUS_19070;note=MGA_1919
sequence1	MetaGeneAnnotator	CDS	2070569	2071483	.	+	0	ID=MGA_1920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLENVLERIANSLEEISNSLKITSNYNTQNIILKKEIIKNEENIIEIPRKNEIEEFLNSKNIQIKTLKPEKNEEILDNIAYFMGENFESIEPILKLLKRNINSSNYINLDMKDFTQRSISDITNLCNRLYELTFLSSYIYKKSPKYNLTAKVNKIPEAINFLNGEWFERYLKLKVIKSLEMNKQNKKIKYSYIKNPQIILPNGDDFELDLMFKIDDEIFWIEAKTGEYQNSLKKYSKIKKMLNLKRKNVFVVLTKNLEDRMKSALSTMFDMNVINIKEFENKFLNNVLNLNEHVIDEKIINI;locus_tag=LOCUS_19080;note=MGA_1920
sequence1	MetaGeneAnnotator	CDS	2071596	2072024	.	+	0	ID=MGA_1921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKKNKKTNLPTKTSKNISVGIPLNFTQVITEIINASLDYQKIKEEEKTKRYMIENQTKIKIEEIRAKRDIFMKYIEENYKERYRVYDKFFNILELGLEKNNTQAIEAALNGIIAQIRTNPFEGFHDFKNKLSDENYTAEF;locus_tag=LOCUS_19090;note=MGA_1921
sequence1	MetaGeneAnnotator	CDS	2072051	2073217	.	+	0	ID=MGA_1922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLPFILAALGITGFSVGVASLDEMEEAKKKKEQASNSYEDKKKHFHKVENKIDRKANRLTNLKRGVYKNSISRFLRLYSYFQNINENKPNLNNKIPTFREINELDYQRKTFINETDAIIKAINGGALVSLGTYGIMNIMGTETLSILSGAAIGESIAGTIGSVLLGSVLLGPALAIGGIILSSESSKAMTEAIEYENNVKKANEKINNSIEFLYAIGRRIKEFNYVINKLNESLIKSMNEVENIHQKLSNKYKYKNIPIRYKEYDLTEVEKIKIYNMFIIAKALKEVLETPIINKSGNISKKSKKVVSNMKSALNTTINNYKRINNTTIKKTNNNNNNYNKSFEKKPTIVKSMSIKDKNKNNLIIKKNNKNTLQTNSNTHIISYTKL;locus_tag=LOCUS_19100;note=MGA_1922
sequence1	CRT:1.2	repeat_region	2073521	2074982	.	+	.	ID=CRT_9;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=gtctgaatgctactcttccctgaaagggataataac;note=CRT_9
sequence1	MetaGeneAnnotator	CDS	2075178	2076965	.	+	0	ID=MGA_1923;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIEDNMYFVDKSLLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEHLFKALKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHDLLISELSTLYIDHKYVLDVLDEEEKSVYKSITSKKANDSEYENSIRNLSKYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYDLEYEESEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIGPYWMNTSGNYLIRKLIKEGTVNIKDSIEKLLNGEKVESKINETMVYGDLHINSNESIWTLFLFSGYLKWIKETKEGYRRYTLAIPNKEVRMFYEDTVLLMLEEENIQLDNILINLINGHIEEFKEDFQKLTMNTLSYFDVSGEEPERFYHGLILGMSVGLKEKYIIKSNRETWLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAQNGLKQINEKKYEEEIKNYGINDIIKVSIAFDKKEVEIVSNLDKDTELTEMEKVAKGMLEKKLDINMISELTGIPIEKLKNMYNHL;locus_tag=LOCUS_19110;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:38.2%25%2C q_cov:91.9%25%2C s_cov:99.1%25%2C Eval:3.0e-104],MGA_1923
sequence1	MetaGeneAnnotator	CDS	2077429	2078973	.	+	0	ID=MGA_1924;product=IS21-like element IS1326 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001324342.1;translation=MIRLGQKREIIILYFRENKSEISRKTGINRKTVNKYINEYEDALKEFEKVESKKSKEEIIEIITGKPKYKVSNRKPRKVTEELRIKIEELVKANELKRQKGLRKQTMPVTQMYEIIRDEGYEISIGTIYNIVKKFNTKRTKEAYIKQRYNPGEIVEFDWGEVKLEINGINKKFQMAVFTFAYSNYRYALLYEKQNMESFIDSHVRFFEHIGGINKTIVYDNMKVAIRKFVGHNDRELTDDLTKLSLYYKFDIRFCNVRKPNEKGHVEKSVNVLKQRAFSIKDKFKNIDDANEFLSSRVKYLNENMKNTSNISPLKLLKEEKEYLICKPPKYEYSIIKEVYVDKYSTITLNNCHYSVPVEYTNKWLKVKLYPEKIIIYDEKPIATHKRLYGNNMWKIEINHYLSLLKRKPGALHSSLALHQVPQKIKKIYNNYFTTKPKEFINLLEYMYKNNLRINDIEETIEKLERISPKDISATKIKILYENKINNNQKNKYQGTIEEYSRKQLLHLKELIKS;locus_tag=LOCUS_19120;gene=istA;note=WP_001324342.1 IS21-like element IS1326 family transposase (Bacteria) [pid:26.2%25%2C q_cov:80.7%25%2C s_cov:79.3%25%2C Eval:4.2e-35],MGA_1924
sequence1	MetaGeneAnnotator	CDS	2078970	2079701	.	+	0	ID=MGA_1925;product=IS21-like element helper ATPase IstB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010974232.1;translation=MKNNKNKIYEEIEFYSKELKLSKLKIHFKEYIKDANNTEISYESFLYEILKKEYERLLDSRLKSRIRTANFSQKKYIEDLEKEYLPEDARKKLKVLSTLEFIQTNQNVILSGNPGTGKTHIAIGLGMKACMKGFKVLFTTIPLLITQLKESRSNKTLRAFQSKFGKYDLVICDELGYISFDKEGAELLFSLLSLRATRKSTVITTNLSFDRWEEIFNDPVLSAAMIDRLTHRAYMANMNIVID;locus_tag=LOCUS_19130;gene=istB;note=WP_010974232.1 IS21-like element helper ATPase IstB (Agrobacterium tumefaciens complex) [pid:35.1%25%2C q_cov:92.6%25%2C s_cov:89.3%25%2C Eval:3.5e-37],MGA_1925
sequence1	MetaGeneAnnotator	CDS	2080145	2080486	.	+	0	ID=MGA_1926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVIVKLASFGVLGMVILAMLATSGLAGAAAISTTLSTLGGPAGMAGGMLVLASAPVIVNYLDNYGIDYAMKKLMREYKKKGYSKYELRHEISKLWITKGFKEKLYYYVDTLY;locus_tag=LOCUS_19140;note=MGA_1926
sequence1	MetaGeneAnnotator	CDS	2080563	2080697	.	+	0	ID=MGA_1927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEFIIGIVIGTLFSEQIKELTKHFFKYYDKKINEKKNEEKKED;locus_tag=LOCUS_19150;note=MGA_1927
sequence1	MetaGeneAnnotator	CDS	2080800	2081069	.	+	0	ID=MGA_1928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFIIISTIILMLFSSCTNLYLAETTKNQSIVIENQTKMIESLLIFLILALFIIIFLIVSLKIIKGEKSNEIQKNSTNEKEIYKKNN;locus_tag=LOCUS_19160;note=MGA_1928
sequence1	MetaGeneAnnotator	CDS	2081110	2081238	.	+	0	ID=MGA_1929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIEIDVYMMMLLLTGKTKEEAIKITAKHFNVSENFIIENE;locus_tag=LOCUS_19170;note=MGA_1929
sequence1	MetaGeneAnnotator	CDS	2081312	2084044	.	-	0	ID=MGA_1930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEREKKFYILKNTSIIDNLKDNCIEKVGIIQWYTKIKDEFEERIRLNIRLLNDGYSYEWIKTIKKETNKLNEREEIEESIDYSLEKDLMDKPCIAKIRYVVKKDPEIIIDEYLFQDNINYNVVDKYDLNKIYIVEVEEKSKKNIDLDNEAKKIFGKKLKLIDKNDEEKLKNKSIANIFKFDKEKKILNITDIKFFIENRLKGKVDVFLSLGLSLKSNINNPKKNIFDEIKKMFKDKNYYNREALIESSAEIGTLISLKESGFDINTVYTYVSNPFIDEKFDVEYLENTDKNFRKNYSSFFDTEINDFNQKEYFFNENRRRFPSVYPFFYKICKDILNIKNIEYISNDYDSNDSNKSKTLFVDTWDVLNKLYQSSNNLIFDIGPGNKLFSIIVSLYALFNKKEFYYKFETGDIFKFPEIGIDWDYQYLDELYNIINNYRNKEEFNKIYKYLPKNIQSLYYKNREELKEFFPVELILKSYKERRNMPFGYGESYLKFIKNNELYDYIKYGIFNKWTHMWIGDLIPETVEHSQRHSKRLMEMTVKIIRVIGERNFLPKVELDKEYVEGINYRDLFYFLFGVALNVHDLGHTYSKFKLKSREDFYVDAFPSLVRDLHNELTLNLIDDESFDILAINNKFSDKSKTLQDLFGNKSKEIINAIKYICKYHRGYLPIDDKLEKCDKEYVKIFDIDYSPLAKVVENIKDDNLKKIIIHSARWIKFIDGTDVQNDRIVTKSYHEMKKQRTAFDIMININRFLNDSKNIDTIYEEFETNFKLMNENLKLKNKNYKEIEEKAKSLEKKLYNKLKEYIKDKNEINLNRLGQVNKILFKARQFPHFDKHFAVNSVFPTWFEWSDKKDVMTIHFKLIKNPEFEGEKKYIKNDITNEVKKDITDELENANITINNKKLKIEFD;locus_tag=LOCUS_19180;note=MGA_1930
sequence1	MetaGeneAnnotator	CDS	2084166	2085314	.	-	0	ID=MGA_1931;product=L-threonine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261808.1;translation=MGYKFFMPTMSLMGKGCLNEAGDAIVENGFKKALIVTDKVLEEIKLVNKLTDMLEGKKIDYVVYSGAQPNPTISNVENGLKMLKENNCDFVMSFGGGSPHDCAKGIALVAKNGGSIKDYEGVNKSKLPQLPLIAVNTTAGTASEMTMFAIITDEERHVKMAIVDKHTTPIIAVNDPELMMEMPKSLTAATGMDALTHAIEAYVSTAATPVTDASALHAITLISKYLKKAVDNGQDVEARDKMAYAEFLAGMAFNNASLGYVHAMAHQLGGFYDLPHGVCNAILLPHVQKYNSQVSANRLKDVAKAMGVDVSNLNAEEGAKKALEEIKKLSKSVGIPSGLKEIGVKEKDIKTLSENALKDACGFTNPKQATLEEIMNIYKEAL;locus_tag=LOCUS_19190;gene=yiaY;EC_number=1.1.1.103;note=WP_011261808.1 L-threonine dehydrogenase (Aliivibrio fischeri) [pid:70.6%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:3.1e-154],MGA_1931
sequence1	MetaGeneAnnotator	CDS	2085465	2086298	.	+	0	ID=MGA_1932;product=AraC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_112904003.1;translation=MNSFNRKLEMNDGLETKYMKVLYYDFNSYYKGSYKSYEYPRLCTILEGEKRVTINSNEKFIYNKDQFILLPSNSSVEMEIQKPTKAFVLEISNELIHNISNQISIKFNVEQKEVSLFKSKVNLIDDVLNKIHNVFLQNTKNKEFLLDLYAQEITYSLLTNELSNSLLCHENTLIQKAISKMKNDFLNNLTVNDLANYLSMSTSNFSTYFKKCTGISPNNYLKNLKLNEAKKRLLNESVTDVAYDLGYENISYFIKIFKEKFGITPKQFQLKDFNLKF;locus_tag=LOCUS_19200;note=WP_112904003.1 AraC family transcriptional regulator (Salinibacter ruber) [pid:24.0%25%2C q_cov:81.6%25%2C s_cov:80.9%25%2C Eval:9.7e-13],MGA_1932
sequence1	MetaGeneAnnotator	CDS	2086282	2087025	.	-	0	ID=MGA_1933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSVIIIVFFIIAFLFFLFININKKNVKNVSFFNMDNNNNNYPDILELDYKDSNNFRLWYSSILIAILKKDIKLPKNYQDCAGLVRFVYKETLKKHNNDWINQSNYKGPIFNDIKKYNYPDIPYIKSKLFKIKEELKTNNFSTYASARYIIEFNMNYVSKDIIFAKNGDILAFFHPEDTDFPYHLMIYFKNTKNKYVIYHTGPINSNNKGEIRVVKINDLSLVDPTWRVNKDNKYFLGIYKFKILN;locus_tag=LOCUS_19210;note=WP_004080576.1 DUF1175 domain-containing protein (Thermotoga) [pid:42.3%25%2C q_cov:84.2%25%2C s_cov:67.3%25%2C Eval:1.7e-47%2C partial hit],MGA_1933
sequence1	MetaGeneAnnotator	CDS	2087148	2088848	.	+	0	ID=MGA_1934;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016438.1;translation=MINIKLIENILQEILVETVSKLYGKENAEKLFIQETNNPTFGDYQTNYAMINAKVFKKNPRLIAQEIVDNLEKNDVIEKVEIAGPGFINIFLKKSFIENYVLSTGKEKIDFNRDISGDIVIDYSSPNIAKPMHIGHLRSTVIGDAIKRIYTFVGYNVIGDNHLGDWGTQFGKLIVAYERWLDKENYEKNPINELERIYVEFEKKSAENPELLDIARAELKKLQDGDEKNRKLWKEFIDVSMSEYNKIYDRMYIKFDTYYGESFYHDKMGKIIELLKEKNIAEKDQGALVVKFPEESHIPVALVQKSDGAFLYTTSDLACIDFRRKKYNVDRLIYVTDDRQQLHFKQVFAITDMLGWDVKKEHVYFGLMRFADGVFSTRKGNVIKLQDLLDRAKEKVLDILKERNPNDENIDEKAEIIAIGAVKYGDLSQNRTSEVIFDWNKTLSFNANSSVYLQYTYARIQSIFRKANIDKLSNNLSLTTEAEEKLAKTLIKFPEAVLRAADAYKPNLLTDYLFDLAQTFNSFYSSTPILKSTDIELNSRLILCEKTAHILKEGLNLLGIKVLNEM;locus_tag=LOCUS_19220;gene=argS;EC_number=6.1.1.19;note=WP_011016438.1 arginine--tRNA ligase (Fusobacterium nucleatum) [pid:53.1%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:6.2e-176],MGA_1934
sequence1	MetaGeneAnnotator	CDS	2088926	2090095	.	-	0	ID=MGA_1935;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257795.1;translation=MFNEIGTLLKKNIREYGMYIALAIIMLIFSVLTNGLFLSARNISNLFNQMGYIAVLAVGMTLVIVIRHIDLSVGFGSGFLGAAAAILLMNHNVPVLPTVIIVTLLGIAMWLVIGFLVSYIGIPSFVVTLAGMMVFRGALLVSTEKSGTIIILNDTFNIIGNGYIPDFFHGEYIHITTLLIGVLIVLFYIYSDIKSRNNKMKYNFEVLSVPVFIVKLILMSSIIMYVFWILANYNGLSWTVVIVLIVTLIYHIFTTKTALGRHIYAVGGNPEAAKLSGISLNKITLFVFGSMGFLTALSGILYASRFQSATPTAGASFELDAIAAAFVGGASAAGGVGKVTNSIVGAIVMASLINGMNLIGVGISYQYIIRGAVLVAAVIFDIKTRSKAS;locus_tag=LOCUS_19230;gene=gguB;note=WP_012257795.1 sugar ABC transporter permease (Chloroflexus aurantiacus) [pid:56.8%25%2C q_cov:97.7%25%2C s_cov:94.6%25%2C Eval:4.8e-118],MGA_1935
sequence1	MetaGeneAnnotator	CDS	2090108	2091628	.	-	0	ID=MGA_1936;product=sugar ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257794.1;translation=MSEYILEMKNITKEFPGVKALDKVNFKVKKGEIHCLIGENGSGKSTLMKVLSGFHKYGSYDGEIIFEGEKQQFNSIYDSEKIGIITIYQELALIPELTIYENIFLGHEIKNKGMIDWNKTTSESEKVLKKLGYELDTSKKIKDFGVGIQQIIEIAKALSKNVKLLVLDEPTSSLNETDSENLLRIVKELKKQGITSILISHKLNEILEVADTITILRDGLTIKTIENNENITENEIIKHMVGREITDIYPKRDSNIGEKLFEVKNWKAFDTKNERYVVKSANFNVKKGEIVGIAGLIGAGRTELAHSIFGNPDDYKISGELYFEGEKRNFKSTSDAIKTGIAYVSEDRKGNGLILDFDIKTNITVANLKKIIKNKMFVNENEEVIVAQDYRKSLKIKSYSIEQKVLNLSGGNQQKVSLAKWLFVSPKLLILDEPTRGIDVGAKHEIYSIMNELVKEGMSIIMISSELPEVLGMSDRVYVMSGGKITGELSKEEATQEKIMVLAVDY;locus_tag=LOCUS_19240;gene=gguA;note=WP_012257794.1 sugar ABC transporter ATP-binding protein (Chloroflexus aurantiacus) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-177],MGA_1936
sequence1	MetaGeneAnnotator	CDS	2091686	2092747	.	-	0	ID=MGA_1937;product=sugar ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257793.1;translation=MKKVLLALLAIFAVTIFSVDVGIVLPTKDEPRWVQDEARFKSALNDTNYSVEVLFSQGSSAKERQNVEALLSKGIKVLIICPQDAVAAAGTVNLAKKAGVEVISYDRLVTNTNSVDYYVTFDSVEVGRAQGRFLVDHASGKNNPLYLYAGALSDNNAFLFFQGAWEVLQPKIADGTFRIINSTEAQNLKNKKNLSREETSKIINQITTDWSFTVARRKAEDNLTRARRTDKGNVFILAPNDGTARAIADAFKQDRDVKSYYVTGQDAEKASIQYIISGKQSMTVFKDVRLLVKDAINVAQFLLKGVKLITPQAYDNGSKMVPAIQSEIQVVTKDNVKKILIDSKYYKDSDFRW;locus_tag=LOCUS_19250;gene=chvE;note=WP_012257793.1 sugar ABC transporter substrate-binding protein (Chloroflexus aurantiacus) [pid:67.1%25%2C q_cov:93.8%25%2C s_cov:85.5%25%2C Eval:8.7e-124],MGA_1937
sequence1	MetaGeneAnnotator	CDS	2092995	2094971	.	+	0	ID=MGA_1938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKKRFILIIIIFVILPTILTIFNKTYITKYIFNELSGYTKEKIDDFGFELVNKIYPTALNNFFEYNNSLKSFSKNILNNQRLIDYATYGLINTLNIHINELLTSSSADGIIIIIDNKKRIKVGNFPEINVIENGYFEDNENIYMISGTSKNNVQVYASMKLDKYFLNSLNLSSISIISIIGKKHKIFQNDNFYIDFKLNNNYVNSGKYKYPSKSEKLSKDITFVLSFNVSQLNLIQNKIKDVFFQNISSNLNTSLLIWILISPLLIYFALFYFGKNIETVELSIKSIKKIAKGNFNVKINVKNLENNRYKDLVNSINTLSKNLNYMHKELEKNIDTLKNEKNTLKYLVNNLHEGIIFFDLDGSIKVKNKFGEEVLNKIGKEELKKSTNKIYSLKIKNEQKLIEVSRNFLDAALLILIRDISLEKEMNDLYSLNEKLVEKEKFGRIAAHEIRNPLNSMYLNLQYLNLEFEENKKISEISNLIIEQIKIIDSVVEEWSSRAIMESEEKEININSVISQILNLLKYKLLENSIEVVFSKSNKNILIKANPQRLNQLFYNIINNAVEALENKNNSKKILINVSNVKNKILIDVEDNGIGIPKEYQKNLFKKPFTTKKYGNGIGLFIVHSIVKELNGDIKIISSKKGTKVTLNFENKEKTL;locus_tag=LOCUS_19260;note=WP_010889816.1 ATP-binding protein (Borreliella burgdorferi) [pid:30.6%25%2C q_cov:53.0%25%2C s_cov:97.6%25%2C Eval:6.5e-31%2C partial hit],MGA_1938
sequence1	MetaGeneAnnotator	CDS	2094968	2096344	.	+	0	ID=MGA_1939;product=sigma-54 dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880700.1;translation=MKNILIIEDDKNSAQILKQFLEKKEYNVNAFHNLKSLEKVDLNNYDLILLDMILPDGKGTEKIKDLINLNPYLKIIIMTGFGDVKDAVYSMKSGAFDFIKKPIDLKRLMFLIEKAYEEISLEKENKKLRYIVQESIKKDFVIGKSDIMKNIIYIVNKVTETDANLLITGETGVGKEVFTRYIQKFSQRKDKPFITINCAAIPKDLVESELFGYEKGAFTGADKFKLGKFELADKGTLFLDEIGELPLQMQSKLLRVLENGVFERVGGTKEIKTDVRIIAATNRNLEEEVKKGNFRMDLFYRLNIINIVIPPLRERKQDIPIFIEFFNKKYSQKYNKPEISFSKDSYNILNSYDWPGNIREVRNFMERIFIIFDTSKQIKKQEIESLLAKKLKAKNSKEELLKSDNFSLMKLEEIEKNVILKTLEIFSGNKTKTAKSLGISLRTLQYKLKKYENTLGEK;locus_tag=LOCUS_19270;note=WP_010880700.1 sigma-54 dependent transcriptional regulator (Aquifex aeolicus) [pid:45.8%25%2C q_cov:98.0%25%2C s_cov:99.1%25%2C Eval:7.3e-100],MGA_1939
sequence1	MetaGeneAnnotator	CDS	2096344	2097543	.	+	0	ID=MGA_1940;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_180947114.1;translation=MKKYIFILIIIISYSIIFSVNFLYMYQAGYQPEDLINYLNSQNATNINITFKIYEEMHENIKISENLDSPLYDVALVDLIWIPELAKNHMLYPLDNLINKKYLEDIPKNIFNQFKYNNKIWAFPYLTNIQHFFVNKEILKKAGFNEAPKTLEEMEHQAKVIKEKGILEYPIVDSWTNEEVLMCEFTWLLGAFGGKYYENNSLKVNTKEAINALSFMKRLLDEKLINPLSLEFKEDDVLNVFINGDAAFTTNWTYQSRYMEDSRYSKIIKKGSLELIPVSNKTNKKTVSVSGFQGLAILKNSKNIKGSIEAIKLFTKKEFFKKFNYEIPLYKSMYTDYSKEKYYNEKKLTELQNIVNRPSLVKYNEFSKILRRYIYMALKGLISPKEALNKAQKEIEGMN;locus_tag=LOCUS_19280;note=WP_180947114.1 ABC transporter substrate-binding protein (Gardnerella vaginalis) [pid:24.3%25%2C q_cov:90.0%25%2C s_cov:88.9%25%2C Eval:2.3e-14],MGA_1940
sequence1	MetaGeneAnnotator	CDS	2097719	2098027	.	+	0	ID=MGA_1941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRKKEEKEESNIEKLARLIARDPEVNTIKDVYEKIKELVGPLIQGMLEAELEDELGYGKYDKENKKTDNSRNGYSSKRVRTSVGEMELKIPRDRKGEYEP;locus_tag=LOCUS_19290;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:49.3%25%2C q_cov:69.6%25%2C s_cov:17.9%25%2C Eval:3.5e-14%2C partial hit],frameshifted%2C insertion/deletion at around 2098024,MGA_1941
sequence1	MetaGeneAnnotator	CDS	2098078	2098968	.	+	0	ID=MGA_1942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLGLSTKDIVKNVEDIYGVELSAEMISKITNKILPEIREWQSRPLEEIYTFMFMDGIVFKVKDDGEIIKKTAYVVLGVNIDGFKEVLGIYIGEIESSKFWLRVLNDLKNRGIKDILIASVDGLTGFPQAIKTAFPDTIVQRCIIHQIRNTLKYVSYKDRKELVNDLKKVYKAPNKDIAYSNLQDLKENKWTKYKLALESWEKHWETISPYFDYGDDVRKIMYTTNVIESLNRQYRKATKNKTSFPNDDALLKMLYLATINATKRWTARYRNWSNVLNELSIFFNERITKYIYNS;locus_tag=LOCUS_19300;note=WP_008761338.1 IS256 family transposase (Bacteroides) [pid:50.2%25%2C q_cov:97.6%25%2C s_cov:71.4%25%2C Eval:3.5e-88%2C partial hit],frameshifted%2C insertion/deletion at around 2098024,MGA_1942
sequence1	MetaGeneAnnotator	CDS	2099616	2099744	.	-	0	ID=MGA_1943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKELNQGRSKSRELTLEEKYENLKVELEYLKMENELLKKL;locus_tag=LOCUS_19310;note=MGA_1943
sequence1	MetaGeneAnnotator	CDS	2100322	2101047	.	-	0	ID=MGA_1944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDNFNRIINIKNLMLKDIIFNQKPFMLGIAFSLFACIAFQFDSDPNPTLALYMSLMVLFTNFIGKSCSSEEKDNIYNYLKAIPIRKTDIVLAKYLNSILVILITFLLYFLASIILPLFGINSLMIGLNLSILLISIYILYCSIYLFIFFKYNYSSAQNTVLIVFILMFIILKFFKNKAKIHLVGILRIDLIYIVILMSLVLFLISYKLSSKYFISKSNKDSIKSSFNLKIKSILERMGLS;locus_tag=LOCUS_19320;note=MGA_1944
sequence1	MetaGeneAnnotator	CDS	2101097	2101972	.	-	0	ID=MGA_1945;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047975.1;translation=MNQSYILEIKGLRKEYSKFTLNNINVELEKGSIMGFIGPNGAGKSTTIKSILNIISYDSGEIIINGINSKDNEVSTKEIIGYVGDETSLYSQNYAKSVYKFIRRFYKNWDDEVFNSLIRKFNLNLDKKVKEFSKGMKAQFMLALSLSHHAKLFILDEPTSGLDPVIRAEILDIIFNTVKEEGASVFFSSHITEDIQKIADSVTYINNGNILLSDKKVNILSNYKQVDFNQDISCEFEKKLTFYRNKKLIIHKSKIEEVINLAKSYNIDSRKIEFTTPLLDEILLNLIKKQN;locus_tag=LOCUS_19330;note=WP_012047975.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:49.8%25%2C q_cov:82.8%25%2C s_cov:84.6%25%2C Eval:8.5e-63],MGA_1945
sequence1	MetaGeneAnnotator	CDS	2102132	2103343	.	-	0	ID=MGA_1946;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583464.1;translation=MINNNFNVHNLKKDIFTTVWEKVNDVYPLFYERKINWHEIRNRYKEKINNVNSFPDLYDILNNMLLQLRDPHTKIYSSYTNNEKLPPLIFTFKENDLYVYYTLNNSPTIKPGMKVSKIDGLSIEKHMEKMRYKINFTSLNMRNNAFESELIKYIKSKSVNIEVIGHNDKASIHNISPIDNPILVNKKLSNNISTLEIKYCNSRIIDNIGYIKIHNFSNKKVISDFQEEVYKCKGCASFIIDIRSNSGGLIDVAKEITSMLSMQEKVILYKISRKKNVKGYKYEKPKPIVIRPKNSIKYKKLAILCNEKTSSSAEYILLNTLIHSSNNIKVFGTKTAGFAHEATRYTLFDKSILQVTTSKYLDKNKVLLKEDGISPDYIVKISIDDLIKGRDTVLDCAIEFCTK;locus_tag=LOCUS_19340;note=WP_012583464.1 S41 family peptidase (Dictyoglomus turgidum) [pid:25.7%25%2C q_cov:90.3%25%2C s_cov:84.4%25%2C Eval:1.9e-16],MGA_1946
sequence1	MetaGeneAnnotator	CDS	2103359	2104615	.	-	0	ID=MGA_1947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYFRLNMGSFLIKGKEYGAIYDTLTGNIIRITKHNYEVLESCENNNDIDELNKEDFLFLEKLYELNVGMFYSKPIYIEKLSIYDDGVKERFSKYSYIIKNLFIEFTNRCNLECKFCNEDDEVVFRKTGCKKWKLKGEIIDIDKILDIISQAKKLGCESLYLIGGEPFMFINKIKKITNYSHSIGINNITIFTNGTILDDNILAFLKKNNVNLIVQILGSSDNVYKAITKKEKLASKIYDNVISLAKNNINYSLSILINSFNENEIEEIIKKYNSVIDRTKIRIDYIYPNKSNKYHSEKYKELMYSKEKTLSKISLIQFLTNRYKHNCYGNQIAITGDGEVIPCIMSRKLVLGNIRENKLVNILRNSNYKELYKLTKDKIDKCKNCELRYGCFDCRALESNADNNLLGIKYCKYADNY;locus_tag=LOCUS_19350;note=WP_048053053.1 radical SAM protein (Pyrococcus horikoshii) [pid:39.3%25%2C q_cov:21.3%25%2C s_cov:29.0%25%2C Eval:7.6e-16%2C partial hit],MGA_1947
sequence1	MetaGeneAnnotator	CDS	2104859	2105293	.	+	0	ID=MGA_1948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVGIDVSKDKLDYFLENSIKGIVDNSIDGYEKLVSIFKDKDVAFALESTGIYSKNIFIFLKSHGFNDLFFVAPANVSNTRKILNWAKTDKLDSKIIQKTALKFPENLTPFVSKDSFFESLRELTRSRYHISHQLVQKKLILLN;locus_tag=LOCUS_19360;note=MGA_1948
sequence1	MetaGeneAnnotator	CDS	2105389	2105748	.	+	0	ID=MGA_1949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIDDLFNLVAFLSKRKLGIDFAKKLKSIVTKIYRSILNDFNTANFNIALAFDRVKLLNSQIKRIDKQLENFFNRINTTLILSQVFLLFYLFLLFLKLLILIIFLQIPNFLLTQGYVGI;locus_tag=LOCUS_19370;note=MGA_1949
sequence1	MetaGeneAnnotator	CDS	2106211	2107503	.	-	0	ID=MGA_1950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIPRSMLLPTSENVFNDMLMRTSISQLYIIVTEDCNLRCKYCIFSDNYPHTHGYSSQKMTFEIAKKAIDYYLDLYKEKQAYGLGSNPVISFYGGEPLLEFNLIKEIVKYAKELNDNFEFYITTNGTIMNDEIINFLISNSVKITVSLDGYKENHDRNRVFINNKRSFDVIIKNLTKLQEEKEKRGSNQPISFNCCYDNYTDMVKVVDFFSHARLGGAATFYAQISPYDTSYYDHCDDLNKKGFIKENIDTKNQSIKKLLEEYKEKLSKNEKVPEPLKFLFTSMFYIKNAPRGQQGPLGNACIPGSKIAVAPDGNYYLCEKMNETHPIGNVNDGLEWYKIQKIIKDYLEIIEKNCSNCNVKRLCECCYVHLNMNGDGVFKFNKEFCKENKEGIPLMLKTLYSLLEKIPNALSFNDNEKANLSKDFTLLEL;locus_tag=LOCUS_19380;note=WP_011860654.1 Cys-rich peptide radical SAM maturase CcpM (Clostridioides difficile) [pid:30.9%25%2C q_cov:81.9%25%2C s_cov:73.8%25%2C Eval:6.4e-42%2C partial hit],MGA_1950
sequence1	MetaGeneAnnotator	CDS	2107830	2109047	.	-	0	ID=MGA_1951;product=IS256 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085938409.1;translation=MGNVLQEIIKEMVRKGEIRTIKDIKELTKSLTGNLIQEVLEAELEDELGYGKYDREKKNTENSRNGYRKKNLKSSSGMIELMVPRDRKGEYEPKIVPKYSNDISEIEEKIISLYARGMTTRDISDQIMDLYGFEVSAELVSKITNKLMPLIKDWQERPLHEIYTFVFLDAIYFNVREDGRIGKKAAYVIIGVDIDGIKDVLGIYVGEVESAKFWMGVLNNLKNRGVKDILVASIDGLSGFEQAINATFPQTMIQRCIIHQIRNTLKYVPHKDRKEFAKDLKTIYTALDEKTGYDNLTNVINKWGDKYYASLRSWEKNWHLLSTFFQFSDGVRKIMYTTNIIESLNRQFRKATKTKSIFPNDDAVLKSLYLTTKNVTKKWTARFHNWNAVISELAILFEDRLKDYL;locus_tag=LOCUS_19390;note=WP_085938409.1 IS256 family transposase (Desulfitobacterium dehalogenans) [pid:45.1%25%2C q_cov:93.6%25%2C s_cov:95.7%25%2C Eval:1.5e-98],MGA_1951
sequence1	MetaGeneAnnotator	CDS	2109708	2111243	.	-	0	ID=MGA_1952;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766109.1;translation=MKKLPIGVQDYKKIKEGNYTYIDKTKYILELISSEAPIFLSRPRRFGKSLTISTLYYLFKGEKDLFKETYIYDKWEFKEYPVIRINLLDVATDNVERMKESLTKIIKLEGKRNGIEITETDYKFAFNELIIKLSKKERVVILVDEYEKPILDNINNKEKAEKYREILKDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELERNFKEHIKETALEMNMKEKELLKNLKMYYNGFSFDGEDSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQSGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTIWKAIKEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTIIASAGLNVTAEELTNLGRSDIVIEEDIIYIMEIKIDKSAEKALTQIKEMKYYEKYKGKEIYIVGININSEKRNIDEYKIEKI;locus_tag=LOCUS_19400;note=WP_008766109.1 ATP-binding protein (Bacteroides) [pid:35.5%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:2.3e-81],MGA_1952
sequence1	MetaGeneAnnotator	CDS	2112133	2112870	.	-	0	ID=MGA_1953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKYGIVLENTSWYKNVIKLFNSDLNYEIKEFTLYYDYQKILRIKYKDICEFYVITGSGASNAASNSEFLINFNIDVLLRIGTVGALTNTLKIGDVVNIIAGIKGDGVTKYYLPDQIPAMANIKLFKSLSSYLESKLTIVEGIVFTTAARFKENIEYLKKVVQYNVIGIEMETAAIFGVGLDKKIPTGSLCVVSDLPINDQQNNPGIMNKRNYDIVENKFRKLFLEIIKWGSLVDIENINYKWE;locus_tag=LOCUS_19410;note=WP_011073958.1 nucleoside phosphorylase (Shewanella oneidensis) [pid:27.1%25%2C q_cov:68.6%25%2C s_cov:69.7%25%2C Eval:1.4e-09%2C partial hit],MGA_1953
sequence1	MetaGeneAnnotator	CDS	2113051	2113551	.	-	0	ID=MGA_1954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVNYSYFIKNIINNKDITVFSDENTTSMNPFIVGKVKLIVSNCRMSDLKIGDICVIIFDTGELVCHRIIFCSENQIVTKGDNGLHYDWATYKKDLVGKVKKIFYDSYYLDMENSRNCLLNIIMVVLSKLKITKKQYINLYQKIKNNIIFFLQKIITKLYKKSLIN;locus_tag=LOCUS_19420;note=MGA_1954
sequence1	MetaGeneAnnotator	CDS	2113624	2113785	.	-	0	ID=MGA_1955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEYKNLDMIIKFDEKDKKAILLKNNNEIIMDIKQIIGSIVIFREILEKIKDK;locus_tag=LOCUS_19430;note=MGA_1955
sequence1	MetaGeneAnnotator	CDS	2113772	2114260	.	-	0	ID=MGA_1956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWNNLYDVRNKFYSRKSIRNYLNFKLSQEMINILIDIGFSGPVSGGLKCVFIKEINNIEEKHICYKGTYYQKHVLEAPHIFLIGCDDSIIESKYSGEYVSTFSCQNSVVAAQNIIMAAHEIELGTCFIGSIRKNIIIKYLKLEKGYNPWCILCLGVGDNVGI;locus_tag=LOCUS_19440;note=MGA_1956
sequence1	MetaGeneAnnotator	CDS	2114236	2115057	.	-	0	ID=MGA_1957;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846403.1;translation=MFSKIYIFLKKELLFLIRYPMQFIFEIILPVINMLPAIFLSIYLMSSNHIQSFEKSTGTKNYFVFISIGIVFSIFNSIQEQTGYQLSKEMWMGTLEQIWITPIKKINLILGWIFFSFIKALLYTISSAIILKFIFIYLNINFNVYNLPLFILSVLLLLATSICGGIIMCSITLSIKQVDSFVFLITGVIPLLSGITFPISVLPPKIQIISKILPTTYVFDLIRYSILKSNTIFEPIEELILVLFFIIILMIVSVIIFKLLKRRVEKCGTIYMM;locus_tag=LOCUS_19450;note=WP_052846403.1 ABC transporter permease (Sulfurisphaera tokodaii) [pid:23.2%25%2C q_cov:89.7%25%2C s_cov:89.6%25%2C Eval:4.2e-13],MGA_1957
sequence1	MetaGeneAnnotator	CDS	2115050	2115817	.	-	0	ID=MGA_1958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHILIAAKSEFLILKRYPLNLFYTIIATLFFLLPLFYITKTYNVEQQQYLWMLSGGVFWMYISQALWVIGLSLRKEQEIGTLEQIFLSPTNLIFIMIGKSLITLGINSLTLSIGVLLIKYIFNCHINFLIIFIIPIISIPAIFGFAYIISGMVIKFKEIFAFLQVLVGLLFIFSGISQPIKFLPYKLGGISKFIVFEKMIYIFRQAIIDSPTFSEISNDLIYIGVYGLILNIIAIFIFYYFRKRVLKNGDGLYV;locus_tag=LOCUS_19460;note=MGA_1958
sequence1	MetaGeneAnnotator	CDS	2115834	2116784	.	-	0	ID=MGA_1959;product=daunorubicin resistance protein DrrA family ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867543.1;translation=MEDIISCKNIHKSYIKKKWFKTVKRNNVLKNLNIKIKKGEVYGLLGLNGAGKTTLIRIITGILVPDNGTVELFKMTYNESEKEIKSKLGVVMGGDRSLYWKLSAEENLEFFGTLYNVPKKKLKENIQLYLDYVGLSKYKKNLVETYSKGMKQRLLIAKSLISDPEVLILDEPTVGLDIQVAFEYRNLLKKLNEDLNLTILLTTHYLHEAEELCSRVGILKGGSIIEEGTIDYLKKRNKMEEIIEFKLKSKIEYNLKKKISNIGVIKELIVDNSFSYRVKTSSLYVEQIIDLLSSQGKLLYLEVKGITLEDIVSNYF;locus_tag=LOCUS_19470;note=WP_010867543.1 daunorubicin resistance protein DrrA family ABC transporter ATP-binding protein (Pyrococcus abyssi) [pid:42.1%25%2C q_cov:97.2%25%2C s_cov:95.6%25%2C Eval:1.1e-58],MGA_1959
sequence1	MetaGeneAnnotator	CDS	2117056	2117889	.	-	0	ID=MGA_1960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQPVSCEWNITNYCNLKCSFCSMNSEHYKDFENLNTIKIKEVAKKIKEVGCLYVSLSGGEPMSHPMFFDIIKELRKKNLEVTISTNGTLINSYNIKKLEKLKVKWIQISLHGNQANVNDKIMGKNVYNTIKKNIELIKQSNIGISVASVMTTENKISIKKLHEELKRENIPHIIRKQMLVGRAALIEKELNISKKIKIEKNNKRCGYFFAIAVNGDIQPCGEFKIKLGNIFKDNLVKIWKNNPMLRMCSKDSGCLAEIYENDESFRMQINETIKKF;locus_tag=LOCUS_19480;note=WP_011022974.1 12%2C18-didecarboxysiroheme deacetylase (Methanosarcina acetivorans) [pid:28.7%25%2C q_cov:62.5%25%2C s_cov:43.1%25%2C Eval:3.6e-15%2C partial hit],MGA_1960
sequence1	MetaGeneAnnotator	CDS	2117873	2118925	.	-	0	ID=MGA_1961;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978063.1;translation=MNKIFSSPLFVCWDATYKCNLNCLHCCFGSNNKKNNELTTLEAKKMFDELSDLKVISFQFAGGEPMIRKDFFELAEYICKKNIITTVATNGLYIDKITSKKMKNIGIQGIQISLDGVNEKNHEYIRGKNTFSRTIEAIKHLVRVKIPVSVATLVYKKNIEDIYKLINFLNSIGVKNMRLQFLLPQGNAINNLKELFISPNKIKEIIEKLYNHPLVVQNKFNLILPCFVPSIIGTKQIKTNKSLFLTNNCGAGTCNVNINPFGDVTACGILTDEKWICGNIRENTLKNIWSKSDGFSIWRKDIKLNGKCNYCDLLDDCKGGCRASAYLSTGDINASDPLCWKGVNLNETTC;locus_tag=LOCUS_19490;note=WP_010978063.1 radical SAM protein (Sulfurisphaera tokodaii) [pid:32.6%25%2C q_cov:94.0%25%2C s_cov:88.3%25%2C Eval:2.3e-44],MGA_1961
sequence1	MetaGeneAnnotator	CDS	2119022	2119159	.	-	0	ID=MGA_1962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKDNLIYREDDAVIFDTEKGILIELNESANEIIKRLNKTEKKL;locus_tag=LOCUS_19500;note=MGA_1962
sequence1	MetaGeneAnnotator	CDS	2119413	2119691	.	-	0	ID=MGA_1963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDSLISQIKKKCCGIDNRTVYINSDGGVYPCNLLINEKLKHGNIREKNFRDIWLYNNHKIFLKIKVNFIFVIKIKYLCAQIKLKKEVRKR;locus_tag=LOCUS_19510;note=MGA_1963
sequence1	MetaGeneAnnotator	CDS	2119985	2120140	.	-	0	ID=MGA_1964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKYEKRQKIFLLENLQKNNLSAKKKKKKTKHLFNIKSDIMLVLVYKKQT;locus_tag=LOCUS_19520;note=MGA_1964
sequence1	MetaGeneAnnotator	CDS	2120504	2120683	.	-	0	ID=MGA_1965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKIKPGIKKKNGSRRKKEVSKKFKQSNNKKNEQQKNYHLIKNEMRSVLGIFKRSNIK;locus_tag=LOCUS_19530;note=MGA_1965
sequence1	MetaGeneAnnotator	CDS	2121083	2122618	.	-	0	ID=MGA_1966;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008769461.1;translation=MKKLPIGVQDYKKIKEGNYTYIDKTKYILDLISSEAPIFLSRPRRFGKSLTISTLYYLFKGEKDLFKETYIYDKWEFKEYPVIRINLLDVATDNVERMKESLTKIIKLEGKRNGIEITETDYKFAFNELIIKLSKKERVVILVDEYEKPILDNINNKEKAEKYREILRDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLDKAYAQMLGYTQEELESNFKEHIKETALEMKMEEKELLKNLKMYYNGFSFDGKNSVYNPFSILQFFKKREFENYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSKLDFSTREIEEANASIFFTQAGYLTFKGKEQYGMEYEYLLDYPNIEVKNSFSKMILEANYELERGKIKEINKTIWKAIKEKDIEEIIKEIKRIISAIPYNLHKKEESYYHSLIYTIIASAGLNVTAEELTNLGRSDIVIEEDTIYIMEIKIDKSAEKALNQIKEMKYYEKYKEKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_19540;note=WP_008769461.1 ATP-binding protein (Bacteroides fragilis) [pid:33.8%25%2C q_cov:99.4%25%2C s_cov:99.6%25%2C Eval:4.5e-77],MGA_1966
sequence1	MetaGeneAnnotator	CDS	2122884	2124788	.	-	0	ID=MGA_1967;product=S9 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016921.1;translation=MEKLTLDEFTKFKYISTLKFSPDGEKICFVQHEADMKKNGYNSYLWIYNNERLYKLTSFGKEKNYLWLDDENILFPSMREENNDKDKKRTIFYKINVNGGEAIKDFEVEEKITGIKRINDDKFLITVIMEEESEKDYKVFDEIPFWINGQGFSNKKRNTLCIYDKKTSKIEKITERYENVGGYDILNEKIVFVSNTYENKMEKYNEIKLYDIKNKKIETIISVSNKLNFSKPFLIDDETIIVPASDMKLYGINENKKFYKINIKTKDIKCITPNFDASLWNSVGTDSRFGGNEMMIKKNEHIYFVSTQEYYSKLFKINKEGKIEKVIDEEGTVDGYDIFDEKVVFTGLKGLKLQELYLNGKQITSFNTWVLEKSLSIPEKIEIESNGDKIVGWIMKPIDFDENKKYSAILDIHGGPKTVYSDIYYHEMQYWTNRDYVVFYCNPHGSDGRGNEFADIRGKYGTIDFEDIMNFTKYVVEKYTFIDKEKIGVTGGSYGGFMTNWIIGNTDFFKAAASQRSISNWISMGMTTDIGYYFAEDQMDTNPWNGFEKMWNQSPLKFADKAKTPTLFIHSDEDYRCYMPEAIQMFTALKYHGVESKFVLFHGENHELSRGGKPEHRIRRLKEITEWMDKYLKK;locus_tag=LOCUS_19550;note=WP_011016921.1 S9 family peptidase (Fusobacterium nucleatum) [pid:49.3%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:6.2e-180],MGA_1967
sequence1	MetaGeneAnnotator	CDS	2124974	2127238	.	+	0	ID=MGA_1968;product=glycoside hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000738105.1;translation=MKKTILFFFLLISAFVFSKVYILQNSHLKFSINTNNMEITAEKNGNYEIISSGKTNFIPQKLLVSKNKLSFETKNEKIIFELKDSYLSVLIEANKVETYEFLKLNGNAYTLPMQEGKYIPAYDSDWIKFLDGNIEKGSEFLSMQFLASNYKNFSSLFIIENIFNNNIKFYNENKKLKISVSHDFTSLNIKDKLQYRIYILENSSEKIAKTYKKYILEKNKFISLNKKIENNKNIKKMFGAPHIYLWSDEILIPQNIKNWKLFKQKVKDDLNSKDYNLTKHLLNIFKKNKIEDSKEALNNFNLLLKEKWIYTYLKNTICTSINKALYLRDFYNDKLSKYMNEEVKNINSMSLTQIYKINKEILYNAYKEYLYPIKNWGNGASDYILNELWNSGIKKAWFGLSDWKTGIMNSEFIKNAVDKGYVIGTYDSYHSIHEPGKELWNTAKFEDKTLYYKATIQNKEGKYLTGFLKKGRKLNPTLALNAVKNRVDKILNTGVKFNSWFLDCDGAGEFFEDYAHNTSEKMDMDARLKRIDLLSKKGLIVGTEKGNDYSSKNIIFSHGMESFVMDWSDKDLRKNQKSKYYLGKYWAAIGTPFRYSKEVPLKPIHKKIYYNQKYNLPLFQLVYHDSVISSYHWEMGSLKAPEEDINNMLREMLYCIPPLYHLDRVLWKKYKNTIINHINVWSKLHKKLANVEMTNFKILSNDKLVQMTEFKDKTKIIANFSLKNYIYKDTKIPPKSVLLCIENNKVLYSPKLYF;locus_tag=LOCUS_19560;note=WP_000738105.1 glycoside hydrolase (Bacillales) [pid:38.5%25%2C q_cov:95.6%25%2C s_cov:94.0%25%2C Eval:7.6e-156],MGA_1968
sequence1	MetaGeneAnnotator	CDS	2127303	2127737	.	+	0	ID=MGA_1969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIFFIIILLFLSLNFSYTIKAGIEISGHIFPYIGISYKLNNFEVEGDFATIAAPYENGIIVLYEPILKLKYYTDFAINLEGNFRIINVSIENRRLFLTGGGLGCNLFDGKFNLSILTELILPFSASKEFKPVPFLSLDYTF;locus_tag=LOCUS_19570;note=MGA_1969
sequence1	MetaGeneAnnotator	CDS	2127747	2128400	.	+	0	ID=MGA_1970;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000865972.1;translation=MKVLIVEDEEKIRWIIKDYLIEENFEISEANDGEQALDLFYKNKYNLIILDWMLPKIEGIDVCKEIRKSSNVPIIMLTAKNLDNDQIKGFKNGADEYITKPFNPNLLVLRVKNLIKRCYGEELIKIKNLMIDFNSKKIFKDKVEIKLAPKEFLLLWYFYKNKNITLSREKILNDVWGFDYFGDERTVDYHVKELRKKLGKELIKTRRNFGYIFEVSK;locus_tag=LOCUS_19580;note=WP_000865972.1 response regulator transcription factor (Bacillus) [pid:47.7%25%2C q_cov:98.6%25%2C s_cov:98.1%25%2C Eval:6.1e-56],MGA_1970
sequence1	MetaGeneAnnotator	CDS	2128397	2129779	.	+	0	ID=MGA_1971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKTKNFLLINFLLIFIFFSIYFFINIFLEKYYIYEKTKKSINILNELIKDEKKSEILSDSETTINIFEYVDNEDLFNDRLRLGFHDKKLFLVKIWVIQKNIDKIKNGETYIQYYKQPKLKTTTIITIKLYKNKVISVAVSLASMKDTISLFNKFYLFALIITLILSSIGINIYTNNLVNKIQKIKNAAKKISNLNFSEKIKLNTNDELQELSESINSLSKKLEVSINKLKKQINYHEVLNEKQQNFISNAGHELKTPVTIIEGYAHAIKDNIKNDKKRTFYSEIIVEESEKLKDIINTFLDFSSINNDEIIFYHFNIYEVILNVIKKYSLDLEEKNIQINLLIDKGTVVYGNPKKLEQVFDNLLSNALSFTNNVITISTKKQNNKIMFFIFNDGEQIPVEKINDIWTPFYKIKTLKNRKYGGTGLGLSIVAEILKKHNSNFGVNNLNNGVEFYFSLYT;locus_tag=LOCUS_19590;note=WP_010965729.1 HAMP domain-containing sensor histidine kinase (Clostridium) [pid:34.6%25%2C q_cov:77.6%25%2C s_cov:74.2%25%2C Eval:1.4e-58%2C partial hit],MGA_1971
sequence1	Aragorn:1.2.38	tRNA	2129859	2129935	.	-	.	ID=Aragorn_41;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00410;note=Aragorn_41
sequence1	Aragorn:1.2.38	tRNA	2129954	2130043	.	-	.	ID=Aragorn_42;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00420;note=Aragorn_42
sequence1	MetaGeneAnnotator	CDS	2130075	2131262	.	-	0	ID=MGA_1972;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940860.1;translation=MEVQRFKKNIKVYVLFRFFISMLIIGPILTPYMLFKGLNYSQIMLLQSIAAISVFVFEVPTGAIADKISRKVSLVMSGFFIALGTLFYIVFSSFYLFAIAEILFGIGLTFASGADSAILYESLDKLGRKKDYQYFEGHASFYIFIGQAFGSILSGFLYKINPYAPWWISIVNVLIASLIAFSFTEPSKNKSKHKYLIHVFKSFNIAFKTPRILWAIVFSAIIGFTFKSSFWLYQPYFKSVNIDVMWYGVIFFFFNIIAVFSSKILVKRYYDKRPRKVLIRLLILLSITFILPAIFIFPFMVIVLSLQQILRGLYPPTLKFYINHQIKNEYRATVLSLVSLVANLSFAIFSPFVGMSLDSFGMKTTYIWMGTVTVGGILVLTKLRKIQKNKKILDK;locus_tag=LOCUS_19600;note=WP_010940860.1 MFS transporter (Geobacter sulfurreducens) [pid:27.0%25%2C q_cov:91.1%25%2C s_cov:90.5%25%2C Eval:2.0e-31],MGA_1972
sequence1	MetaGeneAnnotator	CDS	2131481	2133454	.	+	0	ID=MGA_1973;product=fructose-1%2C6-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948262.1;translation=MRSIEYLKLLSKEYPNIASVSSEIINLQAILNLPKATEHFLTDLHGEDEAFDHVIRTASGVLKRKIDDIFGDHLHEEDKKQLGVLIFYPEQKLKELHEKNITTPNWYKITLNRVINICKVISSKYTRSKVRKALPKDFAYIIEELLHLKNTQLNKEGYYNNIINTIIEIGRADDFIIQISYLIQRLAVDKLHIVGDIFDRGNGAHKIIERLIKHHDCDIQWGNHDILWIGAALGHPALVATAVRITLRYANLSILEDSYGINLRPLLTFAMNTYKGDPCEEFMPRVDKNLFNESEKYMIAQMHKAISIIQFKVEEKIMNEYPELHINNIDYLENINYEKGTIKLNNTVYSLTSNNFPTIDPKNPLNLTKEESDVLNNLIKNFTESEKLKSHIYFLINKGSMYLKTNGNLLFHGCIPMNEEGNFEEVEINGRKYKGRALLDKFDVYVRKSYFHKNENNKYLKWLWYLWRGEKSPLFGKNKMSTFERYFIKNKETHKEIKNSYYTLREKEEIALKVLDEFDLDEKGYIINGHTPVKVKKGESPIKANGRLLVIDGGFCRAYQNTTGIAGYTLIFNSYGLVLNSHKKFEGTKKAIIEGQDIISSTNVLKKAERLKVKNTDIGKELIKEVEDLKELLEAYKNGVLKEKEKKFNISKLLNSI;locus_tag=LOCUS_19610;note=WP_011948262.1 fructose-1%2C6-bisphosphatase (Clostridium botulinum) [pid:56.9%25%2C q_cov:98.0%25%2C s_cov:97.2%25%2C Eval:3.6e-215],MGA_1973
sequence1	MetaGeneAnnotator	CDS	2133479	2134777	.	-	0	ID=MGA_1974;product=phosphopyruvate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080719.1;translation=MELFYDEIVEVKAREVLDSRGNPTIEAEVILASGATGSAIVPSGASTGIYEALELRDGDKSRYMGKGVLKAVENVNDIIAKEVLGLNVFDQALIDKVMIDLDGTENKDKLGANAILSVSMAVARAAADSLGIPLYKYLGGPNAKVIPSPMMNIVNGGQHADNSLDIQEFMIMPLGFPTFREALRAGSEIFHTLKKILKENGLATSVGDEGGFAPNLNSNEEGLQYIMKAIEAAGYKPGEEVFIALDSAASEFYNSDTKKYSVDGKELTSEELADYYAGLIEKYPIINLEDPFDQDDWDGYKNLTAKVGHKAQIVGDDLYVTNVKRLRKGIETKATNSILIKLNQIGSVTETLDTIELAMKNNMTAVISHRSGEAEDAFIADLAVATNAGFIKTGSLSRTDRILKYNQLLRIEEQLGEVSEYRGKDAFYSLNK;locus_tag=LOCUS_19620;gene=eno;EC_number=4.2.1.11;note=WP_004080719.1 phosphopyruvate hydratase (Thermotoga) [pid:72.7%25%2C q_cov:99.1%25%2C s_cov:99.8%25%2C Eval:1.3e-180],MGA_1974
sequence1	MetaGeneAnnotator	CDS	2134802	2135509	.	-	0	ID=MGA_1975;product=UMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082051.1;translation=MYRNVLLKLSGEVLSGEGSKGFNLDALKYMAEEIKKISQHGLNIGMVVGAGNIFRGKELPGMTNSIADHIGMMGTVMNALFIKDYFEKSGIKTVVVSQIVNLPSVRSIHYDDIDLYFNSGYVVIFAGGTSNPFFTTDTAAALRSVEMKADILVKATKVDGIYDKDPKRFTDAVKYDTITYEEAISKNIKVMDTEAFAICQRYNMPIIVLDFFKKDNLLNAVMQNKVGTKVVPNRS;locus_tag=LOCUS_19630;gene=pyrH;EC_number=2.7.4.22;note=WP_004082051.1 UMP kinase (Thermotoga) [pid:53.7%25%2C q_cov:97.4%25%2C s_cov:99.1%25%2C Eval:2.8e-68],MGA_1975
sequence1	MetaGeneAnnotator	CDS	2135561	2136148	.	-	0	ID=MGA_1976;product=translation elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583563.1;translation=MAVTVEMIKKLREATGAGMMDCKKALVETDGNLDAAIDYLRKKGAAKAAKKADRTTGEGIVYSYIHHNEKIGVLLTLSCETDFVARTEDFHAIAKKIALQIAAMNPRWLSREDVPEEIINKEKEIYAEELKNSGKPEHIISKITENKLEKFYEENCLLEQVHYEEKKKISDMITEGIAKIGENIKVAEFTRYQIG;locus_tag=LOCUS_19640;gene=tsf;note=WP_012583563.1 translation elongation factor Ts (Dictyoglomus turgidum) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:3.4e-60],MGA_1976
sequence1	MetaGeneAnnotator	CDS	2136249	2136728	.	-	0	ID=MGA_1977;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245283.1;translation=MKEVAVYPGSFDPITKGHINIVERAAKHFDKVIILVLMNVNKNYTFSLEERIELTKKCVSHIDNVEVQSYSGLLVNYAKENNIKSVIRGLRAVTDFEYELQMANANRSLYKSLEIFFLMTDTEYSFVSSSMIKEVARFKGDISMWVSKEVEVALAKKFE;locus_tag=LOCUS_19650;gene=coaD;EC_number=2.7.7.3;note=WP_003245283.1 pantetheine-phosphate adenylyltransferase (Bacillus) [pid:51.3%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:2.6e-42],MGA_1977
sequence1	MetaGeneAnnotator	CDS	2136731	2137822	.	-	0	ID=MGA_1978;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081405.1;translation=MPKAIMLMSGGVDSSVAAYLLKKEGYEIIGIHFKTVEDIIFSLIPEKKKVCCSPSDTNDALKVSNDIGLDDFKVISIKEEFKEKIIKYFIEEYSKGKTPNPCMLCNRYFKFGKAFDIMKELNADIVVSGHYVISEFSEKHNTYVIKKGIDEYKDQSYFLSMVKKEYLDKMYFPLGKLKKEEIRKIALNLGLTVAKKPDSQELCFIPDNNYVRYLKDAGLKIKEGNVLNLNGEVIGTHSGYTNYTIGQRTGIKYFKNASSKLYVYKLNSEKNEVTVAPKEKLYFTQMIVNKLNMFVEIEDKNVLCKIRKRNEEKKVKVIKINKNELKVIFEEPVFAITPGQFATFYDEDGIVLGSGIIQKYLED;locus_tag=LOCUS_19660;gene=mnmA;EC_number=2.8.1.13;note=WP_004081405.1 tRNA 2-thiouridine(34) synthase MnmA (Thermotoga maritima) [pid:42.9%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:1.4e-76],MGA_1978
sequence1	MetaGeneAnnotator	CDS	2137785	2138252	.	-	0	ID=MGA_1979;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868963.1;translation=MSLTVKSSYALRALYELSILNKKGKKKVSIAELSKNQEIPRDFLEKIFSELRDAGILLSIRGRYGGYVLLKKPSELKISEIVNILDKPLQSYKCVGGECSMEVKCAVEFVWKRAYNTMMMELSKITLQDIIDHGQKMINGGTDIAKSNNVDEWRC;locus_tag=LOCUS_19670;note=WP_012868963.1 Rrf2 family transcriptional regulator (Thermanaerovibrio acidaminovorans) [pid:40.3%25%2C q_cov:81.9%25%2C s_cov:87.0%25%2C Eval:9.8e-20],MGA_1979
sequence1	MetaGeneAnnotator	CDS	2138254	2140008	.	-	0	ID=MGA_1980;product=peptidoglycan DD-metalloendopeptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081297.1;translation=MKKAYILILLITILIFTGCTTLKKDPSLPENQLSEINTNLKNLNDKIKILEDKVNYISKKVEENSDYNDNTKTNINSLKENFDIVDKRLRIMEGFIYDGKSVNNNSKNNIEERVKKLEDSLDKIATSLSGDSTKVNLETITNKIKNIYSENESIIDNLNKLSEKISYLESSYKNSDKYLMENGNLKEFISNEINSEISKMDFSKYVKDVVELKTEQEFSKLYYENKKEEIQKIETLTKKVDVLQDNIKNLSNEFEMVSSNPAHSLDEKYTTQIQEIEKKINTALFSMGNSEIQKLFQNKSELNYIVKSGDTLSEISYAYGLGYSGIEILKSANNLKNAGSIRVGQRIKIPVGNIEKYIKWPLKTTRIIDYDRIVVKFGERTVGGITAGIGILPKSSERIYPILPGKIIETGKDAKGTYYVKIDHGNSIVSVISNLYVLYTKIGKWVGSTDSLGSVKKDKLVMIELWKEGEPRDPLKLFFKLAGQYKATYYTEWDDKHIYSPTFRVTKSGKIPKNFETIAADPKKLPIGTVVYIPQFSKLPNSGFFVVEDIGSSIKGNRIDIYINDVRNADIKKDVTLYIVGQEG;locus_tag=LOCUS_19680;note=WP_004081297.1 peptidoglycan DD-metalloendopeptidase family protein (Thermotoga) [pid:28.1%25%2C q_cov:95.4%25%2C s_cov:95.1%25%2C Eval:1.3e-51],MGA_1980
sequence1	MetaGeneAnnotator	CDS	2140005	2140670	.	-	0	ID=MGA_1981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANFYKEITTCPICKTEFTYAKIMSSAIKVKSYDQDLKPNYVDYNPLMFSIITCTNCKFTYNEKDKDKIKNNISPKKFELINKYLSNITEEDIFKIDNSENKSPEFYKQQLVMGSEIYSILKKPFEVAKLLLKLAWHYRDIDDERRELKILNNVLKISTMYFEEAYTDDDTIFALFYSGYISYRFGNLNDAARYLDRLNSKYKNARSPYIRASKELRGELK;locus_tag=LOCUS_19690;note=WP_011948004.1 DUF2225 domain-containing protein (Clostridium) [pid:24.2%25%2C q_cov:90.5%25%2C s_cov:71.1%25%2C Eval:4.5e-09%2C partial hit],MGA_1981
sequence1	MetaGeneAnnotator	CDS	2140674	2141579	.	-	0	ID=MGA_1982;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081293.1;translation=MGIFDKFKKGLEKARNTFFGSIKTIFAGKTLDDETLEELEEILVMSDMGVEVTQKILKELKEFYKKSDDSDPLILLRDIMEENLTNEPINLNPTKKPYVILVVGVNGNGKTTTIAKLANQYIKNGKSVVLAAGDTFRAAAIEQLKHWGEKIGAEVIAHEHGSDAAAVAFDAVKHAKAKGKDVVLIDTAGRLHNKSNLMEELKKIKRVVQKELPEGIDETLLILDGTTGQNGIVQAKAFKETVDITGIVITKLDGTAKGGIAFAIDHDLNIPIRMIGVGEKEDDLQPFVPHEYCDALLGLEE;locus_tag=LOCUS_19700;gene=ftsY;note=WP_004081293.1 signal recognition particle-docking protein FtsY (Thermotoga) [pid:58.7%25%2C q_cov:98.7%25%2C s_cov:99.3%25%2C Eval:2.8e-93],MGA_1982
sequence1	MetaGeneAnnotator	CDS	2141900	2142277	.	+	0	ID=MGA_1983;product=DUF2089 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966283.1;translation=MIEKKRLSTCPACGGRLKITRYKCERCGTEISGDFKLEDFASLTNEQMLFLKIFIKNRGNLSELQKEMNISYPTAKARLEDLVSALGYRREEDNRIKTFEILEKIERGEITPEEAKEILKKNKKR;locus_tag=LOCUS_19710;note=WP_010966283.1 DUF2089 family protein (Clostridium) [pid:42.0%25%2C q_cov:93.6%25%2C s_cov:90.8%25%2C Eval:3.9e-26],MGA_1983
sequence1	MetaGeneAnnotator	CDS	2142305	2143237	.	+	0	ID=MGA_1984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIINMIPLKNLEIEAPKINLDLNVKKGDSLQLEFDDDNELNIENYSNSDTNIIKFQNKKEDFFTNFLGSFISGKNIDCVLTIPPEVKSISIKSTNGDVYMSDLNIDYLYTKLTTGDIEIKDCSIDVLEQKIITGDLSIKNTKILDFISKVTTGDVSIKNSDLNRIEVSLITGDIHLDSLSENFNKSTLKVITGDAELYIKGTDPVYLEKKLTPYSASLKTNIPTINGYGNNRNLEIKATASTVRLIGKKSNDTKINLGKNDTEIMSEEEKKIIDLLKQGKISREFALELLIELGYDSNSGETFLKKRDI;locus_tag=LOCUS_19720;note=MGA_1984
sequence1	MetaGeneAnnotator	CDS	2143250	2143747	.	+	0	ID=MGA_1985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFSITLMILGILLLMIVFSGYSMNIWSIFEFILGILLISTSFFHKNSNFHLIYKDKIVRDKNMIKNTLEEAEEEISSENEMPEFAKKIATKTIGVVKDHLLPNEKKRILKYLIFGFLSGTILILDSFSLFGLNFNFWQIILVIFSSYLIGLGISNIIFGGEKK;locus_tag=LOCUS_19730;note=MGA_1985
sequence1	MetaGeneAnnotator	CDS	2143744	2144682	.	+	0	ID=MGA_1986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNGLISILIGILILLNIVFKIELGLNSTLLIIFSLIFLIDGLNFKKMKGERFGSLIFGIFLILEAFKIIPILSFWQIILVLIASYMIGHGLYSAFYSGTFLFSTKNDMPKEFKIPYNKLDKEISLNIDADWTKINLNSNNIEHALIAKYISNSKIYNMSLNNDENIITFKNKINVTSPKIPERAKVRLQLNKNILYHLNSDLNVADVFYDFRETNIKDTYISATASKIVIIPIDKSDSTMDINLEISSLTIKLPRNIGLILTHSGDLNFKTFEGLIKTESGSYISSNYDNSEYICHLTISSDVSKLNVVII;locus_tag=LOCUS_19740;note=MGA_1986
sequence1	MetaGeneAnnotator	CDS	2144710	2145996	.	-	0	ID=MGA_1987;product=putative aminohydrolase SsnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861868.1;translation=MILKNCKILTGTLGEIIENGAVYIKEEKIVDVGETEEILKKYPDEKSKDLDGKIILPGLSNPYTSFYINELSMLYKLINSKFPPYEKFSKIVGYSEKLVEKEQLFEYIIKLGGYKSMINGITSTIVSIPYSKNISKVNELCNSIGIKIKPSPVFLTERGVPRAYRDDLINNKEISSITLLGAWGLEEEDYEFLKKFINSGKRVRIVIIDFKQEERYCKLKHGKDLLSVFKENNILSKHIDIIFAGNVNSEIIDFFSSKSVRLIKSLRAELSELEKTPDLLDMLGRGMKVSIGTGTTDYSIFDEAKTLLVNEKSSNKAKSNIVYNEVERTIFMNNYLFTSEEFGVQLGKIAPGKEADITILNSRTGVFQFETKTPFTEISFKIGSELEVFGTITSGKIAMWDRKPKIANVKEIRKIQKKINKFVNEIEL;locus_tag=LOCUS_19750;gene=ssnA;note=WP_011861868.1 putative aminohydrolase SsnA (Clostridioides difficile) [pid:22.2%25%2C q_cov:93.5%25%2C s_cov:93.0%25%2C Eval:6.9e-12],MGA_1987
sequence1	MetaGeneAnnotator	CDS	2146019	2146723	.	-	0	ID=MGA_1988;product=WecB/TagA/CpsF family glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080843.1;translation=MIKKVNFNEIDIITGKNNDILEFILNQKTKEKIWITTLNALMYMEYLKKSDYNKAIKESTFSIPDGFGIVKLLKKYDIFTEKCSGIETMKEICKNSKDGIYLLGSKENNVNNAAKNLKKLFNTNIVGVHHGYFSINDEEKIISDINSSKAKFLFVGMGIPKQELFIMRNYEKLNIDFIMGVGGSIDVFAGKVKRAPAFFQKFGLEWLYRMICEPKRLKKFPDLVKFYLKIYMKK;locus_tag=LOCUS_19760;note=WP_004080843.1 WecB/TagA/CpsF family glycosyltransferase (Thermotoga maritima) [pid:35.3%25%2C q_cov:99.6%25%2C s_cov:97.5%25%2C Eval:3.0e-38],MGA_1988
sequence1	MetaGeneAnnotator	CDS	2146993	2148258	.	+	0	ID=MGA_1989;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679366.1;translation=MEKQILSEDKNIKRILVKIPSDEVKKTEDYIVREVNKEYSFEGFRKGKAPKQIIKIRLGENFNNWLNDTLLEKAVQDIEKEEKFLFSPTVESTANENGNVEFEILVHAYPKLLNTKFEEIVVEAPKSDKVVEKFIEDKIKTLLESNAIVEPKEGKAELNDFIRVKYTVLNEEGKELQKDKENEYVLYEDDKRPMVTKLVGKEKGDVVEYEKEYENKKYKYIVTLEEVYNRTIPELTDEFLREIGSEFNSISELKAKYEEEGKEVFSKWNDDFVRNYIIGEIPAKTEVDLSEETKEFYVKSYMESMEKEGKLEEELAKYDNDKEKLIEEVKKTAERWVKELVVVDTLTKEHNLEVKEEEIMESIKAIAQMWYMPVERAKETIYSNQKLLNDVVWDVLKSKVADIIKEKVTIKEVEEKEEETK;locus_tag=LOCUS_19770;gene=tig;EC_number=5.2.1.8;note=WP_002679366.1 trigger factor (Treponema denticola) [pid:24.7%25%2C q_cov:91.4%25%2C s_cov:90.9%25%2C Eval:1.0e-28],MGA_1989
sequence1	Aragorn:1.2.38	tRNA	2148327	2148403	.	+	.	ID=Aragorn_43;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00430;note=Aragorn_43
sequence1	Aragorn:1.2.38	tRNA	2148442	2148516	.	+	.	ID=Aragorn_44;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00440;note=Aragorn_44
sequence1	MetaGeneAnnotator	CDS	2148599	2148778	.	-	0	ID=MGA_1990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRLKMINLFKYMEWMEIELDNWKLKKDAPDYVKKEWEKYKKIDELKKIDIDIKNKNTP;locus_tag=LOCUS_19780;note=MGA_1990
sequence1	MetaGeneAnnotator	CDS	2148917	2149198	.	-	0	ID=MGA_1991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEIDALIYAKRYYSAIIGYEEDPYYTEDAAYFRKMAIIKLRKLKDPKNKKEIKLILKNTDNILRREKKKLIDRLSRISSMDRKELKYLERI;locus_tag=LOCUS_19790;note=MGA_1991
sequence1	MetaGeneAnnotator	CDS	2149471	2151438	.	-	0	ID=MGA_1992;product=bifunctional phosphoglycerate kinase/triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081072.1;translation=MSKMTVRDIDLKGKKVIMRVDFNVPLKDGKITDETRIKAALSTIKYVLEKGAKVILLSHLGRPKGEVKPEFSLKPVANRLNELLDGKVSFIDKTRGEEVEKAVESLEEGKVLVIENTRFEKGETKNNEELAKYWASLADIHVNDAFGTAHRAHASNVGIASNIPSFAGFLMEKEIKFIGGVNDNPEKPYSVILGGVKVSDKIGVINNLLEKADNIFIGGAMMFTFLKAMGKEIGSSLFEEDKLDLAKSLLKKAEEKGVNFILPVDTVIAQELKAGVETKVVKIEDGIEKGWMGLDIGPETVKLFKEKMANSKTIVWNGPMGVFEIDEFSNGTKSVAEMIVEFTEKGTTSVIGGGDSAAAAEKFGLAKKFSHVSTGGGASLEYLEGKKLPGIEAIVSKKKVTDKRYILAGNWKMNKTTTETAEFLAKLSGKIGNKSSYDVVVCTPAVSLQKAVDIVSSTNIKIGAENMHYEDKGAFTGEISSHMLKDINVEYVVLGHSERRDIFGETDELINKKIIKALKEELNPIFCIGEHLEEREKDLTFNVIERQIKEGFNSINAEDAKKVIIAYEPIWAIGTGKVATPAQAQEVHAYIRSLLAKMYDEETANSISILYGGSVKPNNYFGLFTKKDIDGGLVGGASLTEAFVELAEIMDLVIE;locus_tag=LOCUS_19800;EC_number=2.7.2.3;note=WP_004081072.1 bifunctional phosphoglycerate kinase/triose-phosphate isomerase (Thermotoga maritima) [pid:67.0%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.0e-257],MGA_1992
sequence1	MetaGeneAnnotator	CDS	2151492	2152511	.	-	0	ID=MGA_1993;product=type I glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421962.1;translation=MAVKVAINGFGRIGRLAFRLMFDNPEFEIVALNDLTDAKTLALLLKYDSSQGKFPGTVEAGENAIIVNGKEIKILAEKNPADLPWGEMGVDVVLECTGFFVQKDKAALHLQAGAKKVVISAPAKGDVPTVVYNVNHDILSGEEDIISGASCTTNCLAPVAKVLNDKFGIVKGIMTTVHSYTNDQNTLDAPHRKGDMRRARAAGVNLVPTTTGAAKAVGLVLPELKGKLDGMAMRIPTPTGSLVDLVVELKKNVTVEEINAAMKEASETNLKDTLGYTEDPIVLTDIVGITYGSYFDAQLTKIVESDGKQMIKVVSWYDNEMSYTAQLVRLVKHFATLIK;locus_tag=LOCUS_19810;gene=gap;note=WP_003421962.1 type I glyceraldehyde-3-phosphate dehydrogenase (Clostridioides) [pid:67.8%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:9.1e-131],MGA_1993
sequence1	MetaGeneAnnotator	CDS	2152656	2153048	.	-	0	ID=MGA_1994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKIKSIGGRSLKGGKSKKPSMAHLLQEAQKTQSAMEEEMAKLETQLADMTVEATSGGGVVKVVANGNLRIKDIIISDELEDEDIEIVKDMIMAATNEAIEKASNLKEEESNKVSEKYLGGLQSMGLGF;locus_tag=LOCUS_19820;note=WP_012546807.1 YbaB/EbfC family nucleoid-associated protein (Thermodesulfovibrio) [pid:38.8%25%2C q_cov:74.6%25%2C s_cov:82.5%25%2C Eval:3.0e-10%2C partial hit],MGA_1994
sequence1	MetaGeneAnnotator	CDS	2153143	2153658	.	-	0	ID=MGA_1995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKYFFFRFFPFFSHIFSLEYREYPTSNFDFDPGFGANMNQMGSSFISAMWVFMVTIFVIVFITYVISLWKIFSDNNIQGWKALIPIYNIYVLLKMLDMSGWWLILYLIDFGYITSVLINYKLVKKYEKILPFIVGLEILPFIFYPILAFSNKTQKHFKTYRENDDIDDEL;locus_tag=LOCUS_19830;note=MGA_1995
sequence1	MetaGeneAnnotator	CDS	2153837	2155453	.	+	0	ID=MGA_1996;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082048.1;translation=MKAIIIDGYVDEPAVLGVPPYISPYVRYAAGALRYHGIEVDYYTIDKIREKNLWQSFNSYEYLIIIAGTTVPGHYLGGTPINLNEIKKIFELNKEPLRVIGGPITKGYTITGGKKAISLKDFIEENVEYIVEGDIEKFLFDYPVSDEFDLNSKSSYELIDKIAPYGAGIIKMHERYPNVMLEIEVSKGCDRKTGFCSFCTEPILHGMYRERSLNGIINEMKALNANGATNFRFGRSANFLAYGITFNNGNPNPEIFNELYSEVSNFCNVLHTDNANPEFIVNNEKEAKKILEIISNKNTSGDILSFGIETFDDEVAKLNNIALNSEKALKAIRIVNEIGSKRDKNGIPKLLPGINLLYGLIGETKNTYNKNKEYLNKILNENLLLRRINVRQVMMFPGTLLSKKLNKIKINKKEFIKFKEFMDVYNNQMIKKVFPEGAILKDLFVEEVKGNISFSRQIATYPILAGIKKKKELLEKFDGIVVNHGSRSLTVLEYPFDFKNLSVEELSSINGIGKKTAEKIYLTKSLKDIKNEILKNKL;locus_tag=LOCUS_19840;note=WP_004082048.1 radical SAM protein (Thermotoga maritima) [pid:46.1%25%2C q_cov:99.1%25%2C s_cov:96.7%25%2C Eval:1.4e-137],MGA_1996
sequence1	MetaGeneAnnotator	CDS	2155484	2157265	.	-	0	ID=MGA_1997;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898122.1;translation=MKKRLPIGRSDFKSLIDDNMYFVDKSMLIKEVIESGDVLLITRPRRFGKTLSQSMMKYFFDITQNNEYLFKNLKIYKEKNIIEKHLNKHPVIYITFKDLKSNNLKKMHALLTMELSRLYTKHEYVFEILSEKEKIVFKEIMLETADDAKYENCIRSLSEYMERYYGKKVIILIDEYDTPIQQAYLHGYYDEIISLIGNLFGMALKDNVYLEKAVLTGITRVSKESIFTGVNNLKVSTVLNELFNDKYGLTKEEVEETLKYYELEYEESEVIDWYNGYNFGGVEIYNPFSIINLVDEKKIRPYWMNTSGNYLVKQLIKQGSAELKDKIEKLINGEEIESTINETMVYGDLNNNLEESVWTLFLFSGYLKWTKNINHDYERYTLKIPNKEVKIFYNKTVVSMLEEERIKLNNILINLINGHIEEFKEDFQKLTMNTLSYFDVNGEEPERFYHGLILGMSVGLKEEYIIKSNRETGLGRADVILIPKDKTDKGIIIEFKKFYKNEKTLLNSAQNGLKQINEKRYEEDIKNYGINDIIKVSIAFDKKEVEIVSNLDKDVELTPEEKIAKELLKNGVDIEIISRTTNLSIEKIKNMLN;locus_tag=LOCUS_19850;note=WP_005898122.1 AAA family ATPase (Fusobacterium nucleatum) [pid:37.3%25%2C q_cov:92.2%25%2C s_cov:99.1%25%2C Eval:1.5e-103],MGA_1997
sequence1	MetaGeneAnnotator	CDS	2157414	2159006	.	+	0	ID=MGA_1998;product=DNA repair protein RecN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003547931.1;translation=MLISLSIKNFGLFREAHVNFDEKFNILTGESGAGKSMFISAIKALTTGNIPSNMKNNDGSISAYFTVESIKDILNKYIDIEDNELIISANFSLKKTLFRINGTIVPKSTIKTVGKYLIEIHSQDSNVIFRDSSYQNKLIFNILRKKFTNDFKKYDNLFNEYLKLNKKLKKLPSDPSEVYRKIDLLKYQIDEIKVVNPKIGEDDELTEHFNALNNVELIKNNVYENLSILKDSEINVYNLVGDIVYNINKVSKYGFNTEADLALSIQEEVNELYSMLESKLFELDVDKDELQLISEKLNNIIELKRKYGPTIEDIIEKYETMKKDLLEYQELQKIMDKIKPQIKDLKEKMKIESEFIINKSMKYLKKLKINIENNLKDLNMPHAEIDFYFEKKTEPDINSFYSCELLLKTTPQSDFLKLNKIASGGEMSRILLAMEEVIGKNHYVDTMLFDEVDSGVGPRMADTVGKKLNELSSKKQIITITHMPQVANFGTKHFKIQKNKENNSVYSKIIELKNVDREKEIKDMYGNIVY;locus_tag=LOCUS_19860;gene=recN;note=WP_003547931.1 DNA repair protein RecN (Lactobacillus acidophilus) [pid:27.7%25%2C q_cov:98.9%25%2C s_cov:95.7%25%2C Eval:2.2e-66],MGA_1998
sequence1	MetaGeneAnnotator	CDS	2159021	2159638	.	+	0	ID=MGA_1999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKEDIIQKIVEEKGIEAIPNLVKLLEDSDPDTRELARDVIGVMGESANEYLFEDFKKRFDKNLEDDMVMLYLAEILSQNGYKEIIPYLERMINNYTDERAFPIIVEHLWRLTKEERYLDILTTFLDDDDAVQEIAIMGISHVPTKKGIDVLVDKYNNSKENSSRALILDSILQIIINDFKLVPYLQEKDREIANKLRWHWETFK;locus_tag=LOCUS_19870;note=MGA_1999
sequence1	Aragorn:1.2.38	tmRNA	2159685	2160038	.	+	.	ID=Aragorn_45;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_45
sequence1	MetaGeneAnnotator	CDS	2160072	2161499	.	-	0	ID=MGA_2000;product=PleD family two-component system response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082745.1;translation=MQKKILIVDDSKVWREFLKDSLENKGHIVEVANDGIEGINKAFDFLPEVIITDYVMPKMNGIQLCRFIRSYNTFKSAGVILLTASEDTLNSFWSLRSGVDLFIKKSSDNKKMLNEILNFLENNFNVEWSRELYKYRKEPFGELVDILEETLKFEIINKEILKLSNYINDDEYMMRRIFMILKELIDFENFYLMILTSSSGRIYAFSSNNSKINQKILKNKLFYLLQKPITPSEWVYKGNMFEEKILREPANLVSFPIVHESNEIGLISFENPKQKNELYDFYGSIAENLGILIYSINTFIEYKMASEIDSLTKLYNKKKILSKLSEYIHLLKREYIELSVAMFDIDDFKKINDTHGHLIGDLVLKNIGKIIKNSLRESDFAGRYGGEEFFILLPYTNVELAGNISQRILKNIESFDWEKEINKKINITISGGISSVKKGDLITTIIETADKNLYKAKRAGKNRIFIEGIEKQKSC;locus_tag=LOCUS_19880;note=WP_004082745.1 PleD family two-component system response regulator (Thermotoga maritima) [pid:35.2%25%2C q_cov:97.7%25%2C s_cov:99.8%25%2C Eval:2.7e-73],MGA_2000
sequence1	MetaGeneAnnotator	CDS	2161621	2162586	.	+	0	ID=MGA_2001;product=D-2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584039.1;translation=MIFLFRHILNDYWKTKINYLENKYKLKIITDENVDISKVDALIGGTISKEELKKAKNLKIIFVPYSGVNILPSNEIIEKKIIVANAKGNGKIVAERAIALALSLLGRIPEFHNDLSRGIWHGFTIGEKPNTSWTSIREKKCGILGTGSIGGYIAKYLKPFECKTIGFKKNINNKVENFDELSNDINYVVNKSDIIFVALPLTEKTRNLISEDILYKMKGKYLINVGRGPIVNEKALYESIKNNILAGAAIDVWYDYPNKENKYKIPSKYPIHTFKNVIVSPHVAGFNEESVRYSIDWTIENIESYINTGKPKNIVDMKEKY;locus_tag=LOCUS_19890;note=WP_012584039.1 D-2-hydroxyacid dehydrogenase (Dictyoglomus turgidum) [pid:33.4%25%2C q_cov:95.3%25%2C s_cov:97.1%25%2C Eval:6.6e-35],MGA_2001
sequence1	MetaGeneAnnotator	CDS	2162641	2163570	.	-	0	ID=MGA_2002;product=GAF domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081407.1;translation=MRSVFRDITDNFFEILSYKKEEWNKFWHIYKIKVPYVELYQKKNELSDEKILNKLFSYGRKYLDEMFWYKFENAEKVKTEIIKMVGKNVQKYNLQRGDYTVRIIGLTGDKPYEFVDTYAGTIILIDYLYFYKNKEKTTIKEIMDKAILDFIENNEVNEKKANFWITYDEIKKVVYDNKNKNIAMKKIVKILDKRFDYFDWTGFYLVENNELKLGEFIGEPTEHKKIKFGEGICGQAAETQKTFVVKDVNKESNYLSCSPKTKSEIVVPIFGKNNSIVGEIDIDSHKVNAFDDGDKEFLENIAILLKKYF;locus_tag=LOCUS_19900;note=WP_004081407.1 GAF domain-containing protein (Thermotoga maritima) [pid:38.6%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:2.7e-54],MGA_2002
sequence1	Aragorn:1.2.38	tRNA	2163616	2163702	.	-	.	ID=Aragorn_46;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00450;note=Aragorn_46
sequence1	MetaGeneAnnotator	CDS	2163767	2164978	.	-	0	ID=MGA_2003;product=PD40 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080629.1;translation=MKKYIVFFILLFSVFMYAQSMVKNMMLITIHDKQWITNRVAKKISELSEYMYNTKIIEKTPYGYITDDSTEVWENINIEADVYLNITSDASTNKIRAYGSFKNGTFDLSSDIKDTEEWVEYFSGKTLEKIAENRFLYDKTWDVLQLTYWKGVDEYPIYSNGKLYFISDRYSGNREINIINFKTGYQTTIQLELSSEYFPDVSPNGKYVVFQTSMFGKWDIVLYNTETSEFKRISPEGLNAYSPYFYDDSLILFSMGTKENKNIMEIWIYDILNDEVKQITNDKTIMKFRPIKWNKNKIAFYGQDLKNADLNIYYIDNEKIKTLLNGEYNQADSWSDGSNLLLYSQFQFGNFRIFSYDNKNIKNLTYMISDDCYYPSFSPDKKFVFFGVYYKDKEPDIFVIRRN;locus_tag=LOCUS_19910;note=WP_004080629.1 PD40 domain-containing protein (Thermotoga maritima) [pid:28.8%25%2C q_cov:96.3%25%2C s_cov:97.2%25%2C Eval:1.1e-29],MGA_2003
sequence1	MetaGeneAnnotator	CDS	2164980	2165417	.	-	0	ID=MGA_2004;product=GatB/YqeY domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013245774.1;translation=MLKEKLMEDLKKFMKEKNQIALNTVKLLRSEIKKAEIDTQKELNDDEIIKIIKKQVKMRNESIKQFKDAGRNDLVVNEEKEIAFLKNYLPEEMSEEEIKNIISSIIKEMNATPKQFGLVMKTAIQKIGNQADGSIISKIVKEILG;locus_tag=LOCUS_19920;note=WP_013245774.1 GatB/YqeY domain-containing protein (Lacticaseibacillus paracasei) [pid:35.3%25%2C q_cov:93.1%25%2C s_cov:94.4%25%2C Eval:2.4e-19],MGA_2004
sequence1	MetaGeneAnnotator	CDS	2165440	2167431	.	-	0	ID=MGA_2005;product=NAD-dependent DNA ligase LigA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082648.1;translation=MSVPAKLREKYEKLKKEIEEHNYRYYIKSDPIISDTQYDKIFKELITLEENFPELKTQDSPTQRVGGIIVNEFKKVEHTLPMLSLDNTYNEKDIIDFNQKIIKNFPNVKYYCELKIDGVSISLKYKKGKLIQALTRGDGIFGEDVTQNIKTIRSIPLNLNEKIDIEVRGEVFMPINEFKRINEEREIEGLNIFANPRNSAAGTLKLLDSSKVSKRRLDAFIYYILFPNNYNLKTQEEAMIFLKKLGFKINEHNKICKNENELIDYWIYWSNNRKNLDYDIDGAVAKVNEFSMQRELGETSRAPRWAIAFKFKAERKLTQIKNIKLQVGSSGIITPVAEFEAIQLEGSTVKKASLHNFEYIKERDIREKDFVYVEKAGGIIPQVVGVKIEKRTGEEKIILEPQKCPECGGKTGKINPSEVAIRCLNPLCPAKLIRILENFVSRDGMNIEGLGPKLIERMVKSKLISDPSDLYYLNSFKLATLGSGIGIKTINNLLSEIEKSKDSDLENLLFALGIPLVGIKNAKNLAIKFKSIDKIQTSTLHELMEVEGIGEDMARSIKEFFNQEDVKKILLKLKNANVNTVYKKEVKEGKLSGYIVSQTGELKNMNRREFSKYVESKGGIFSNNVTKKTKILVVGENPGSKLEKAKKFGISIMLEEEFFKNYN;locus_tag=LOCUS_19930;gene=ligA;EC_number=6.5.1.2;note=WP_004082648.1 NAD-dependent DNA ligase LigA (Thermotoga maritima) [pid:54.4%25%2C q_cov:99.2%25%2C s_cov:95.8%25%2C Eval:3.9e-209],MGA_2005
sequence1	MetaGeneAnnotator	CDS	2167433	2167789	.	-	0	ID=MGA_2006;product=4'-phosphopantetheinyl transferase superfamily protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183283.1;translation=MILGIGTDIVKISRLNIKLLNKILTESEREICKNYAINRKLEFAAGRFAVKESLTKAFKIFIPMDKISVLKDDNEVPYLSKETHKYLKNKFGNVNINISISHEKEYAIAMVIVEKLED;locus_tag=LOCUS_19940;note=WP_011183283.1 4'-phosphopantetheinyl transferase superfamily protein (Mesoplasma florum) [pid:40.2%25%2C q_cov:94.9%25%2C s_cov:96.4%25%2C Eval:7.1e-12],MGA_2006
sequence1	MetaGeneAnnotator	CDS	2167786	2169852	.	-	0	ID=MGA_2007;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079959.1;translation=MIFSLDVGTRTLVGVIADYDENENLIIKHTSIREHESRAMVDGQIHDVQKVAKGVTKVKKELEEKLGEKLEDVAVALAGRFLITTTGEHIADISSTRYIDNSLVKTFEIEAVKDATQKLNENNGMYCVGYSVLYYELDDEWIKRLEGQRGTKASVKVIAAFLPKNVVEAMISVLELNDLKPAHITLEPIAAINLVVPEDLRNLNIVMVDVGAGTSDIAVSNEGTIVGYGMVPMAGDEITDSITKKLLIDFKAAEEIKKHLHEKEKFIYKDILDFEQEITKKEVLEIIEPVINNITTNIADRILELNGKPPVAVMVVGGGGKVPGFKEKLGEKLGLPKNRIALKDLKSLNTIKFEGEKELVGSEFITPVGIANVALKNEGNVFTSVYINGKTVNMMMVGTNLTVLQVLLQDGYSLSQLIGKPSPAITYEVNGELTIKKGNMGKEAPISVNDRPASLKTKINSGDRITIGTPKDGEPLILKVKDVINPIKYFLNGKPQKIYPKIIVNNKESNIDTIIKDGDKITLEKIYLKNVTNSSNKTIYFTIDGIPYEIPSNTVILKNGEVLKDDYEIKNMDSFEIEKVDLPVIGDFIDVDVKKRAIDFNGKTIFLPEEECLIKVGNKIIDKNKKISEGENYIIEKIEKNPTIIDLLAHLSIDTRTITSFEIYINGKKVESFMQTLPPNSSVRFNYK;locus_tag=LOCUS_19950;note=WP_004079959.1 cell division protein FtsA (Thermotoga maritima) [pid:39.0%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:4.7e-120],MGA_2007
sequence1	MetaGeneAnnotator	CDS	2169855	2172050	.	-	0	ID=MGA_2008;product=endonuclease MutS2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079958.1;translation=MLNIDQIKIEIDISISFFNLFNTGKYIDLRGLPDITETLEKIELNSLVEIKEYRNIANFLNQIYDIFSKNKQNFDKNIEEQFSHFIYHREYVSMLYKTISIDGEIEDNATLSLFTIRKNINRIKNKTSGTLSSLINKFGKYLSIDRPIIRNERQCLAVKSEYRSRVKGMFVGKSDSGSTFFIEPEKLIELNEELLKLKSDEKTEISKIISHINFETVKRLKSIKNNIKVISYIDSMIGKANYAINNKGIYVTPSEQDKKIFFNGLRHPLIPKSEVIPLNLKLNEEGMIITGPNTGGKTVTLKSIGLAFLLSHAGFPILSYEAKLPYIKNIFTDIGDSQSVTQNLSTFSSHLKNLKIILDEANEYSLILIDELGTGTDPIEGAALGRAIIKRLLNKNSILFITSHLSEIKTYSIEEKRLETASMSFDVQTLRPTYKILIGVPGASHAIEISRRMGFDEELLRDAQNNIGEEYIKSEHLFSKMANSFETIEEEKNKIKMKKYEIEQLKKQYEKKYQKLKNKEVEKLDNETLKLKNEIRFLKNEVYNIMSDIKHASNQKNTDSLKKNLKKLEDISNKIEILNKKNEVKNSYTIKVGMDVKAPGGTIGRVISIKKNKAEIKIENSPINLTYNINELIPTKKKEKINKVTSFSNSSTKIPEIDLRGFTVAESIPEIENLISDMLFSNFNKGYIIHGKGTGKLSLGIWEYLRNCKEIKSFRVGKPNEGGTGVTVVEV;locus_tag=LOCUS_19960;gene=mutS2;note=WP_004079958.1 endonuclease MutS2 (Thermotoga maritima) [pid:34.1%25%2C q_cov:97.3%25%2C s_cov:93.0%25%2C Eval:9.1e-114],MGA_2008
sequence1	MetaGeneAnnotator	CDS	2172155	2172688	.	-	0	ID=MGA_2009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLFIIISFTIFNFSKIFFNYSYEVTQSATSAITNFDTNLKADYIGGRISYLVPTEDSNEIYFGPYFGFFYNNFKDTMLNLYNPKIGTISYSLGLNVVYKGKIIENINYSIIAYGGVHSEDNLVSFSTEVLVGGGLNIGIFHLSSSYETRYYKSNDDYTIINYIPVFLGVELQF;locus_tag=LOCUS_19970;note=MGA_2009
sequence1	MetaGeneAnnotator	CDS	2172685	2174508	.	-	0	ID=MGA_2010;product=1-deoxy-D-xylulose-5-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082316.1;translation=MKDYKKEKMLYNATRKMNYKQLDGFAKNIRKYIYNIVSKGNGHLASNLGVVELTLAMYRTFNPEEDVIIWDTSHQAYVHKLLTGRWGAFKTLRKLNGISGFTNINESRTDRFIAGHAATSIAAGIGYALGDKVLEKSRSIVTVIGDGAFTSGMALESLNQLKYQKTNIKIILNSNDMAISNNVGTLSTLFSKIRVKKSYNTIKKYIKESLNDSEIGQDLELILKKLRNGMKYSIYSEPAGFFEDMGIKYYGPVDGHNIKELELFMKCLKNYNNGPAVLQVLTTKGKGIEKAEKNPSKFHGMSIKKEGLSYSKIVGKTLSILKDYRYLAFTAAMTSGTGLDELKKEAPEKMIDMGITEPSIVTTAAALSLTGILPIVDIYSTFLQRAYDSLIHDVSLQSLPVLFLLDRAGLVGEDGPTHHGIFDIAYLRPIPNIEVLTPLDGFDLANMIYTSIVKEINKPRFIRFPKEYYLGKEEDLFKSLKEVNYNWKYLKKSNSNIYALAVGTLSKTVYKALKDYEVNIIGVRSIKPIDNNIMNEINKNASIVITYEEGILQGGFNEEIKNKKVYAYGIKDFVTHGTREELLKICELDLVSIKTNFEKILERVNLS;locus_tag=LOCUS_19980;gene=dxs;EC_number=2.2.1.7;note=WP_004082316.1 1-deoxy-D-xylulose-5-phosphate synthase (Thermotoga maritima) [pid:47.0%25%2C q_cov:95.7%25%2C s_cov:96.5%25%2C Eval:4.3e-146],MGA_2010
sequence1	MetaGeneAnnotator	CDS	2174495	2174908	.	-	0	ID=MGA_2011;product=transcription antitermination factor NusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082311.1;translation=MPVPKRKIREAVIESIFQLNFFEIKLDELIENLNDICKEKKINMEEPLIYVKYIKENLSSIDKIIEDNLKNWSFDRIGNVEKSVLRLAIYEILEKKETPIKVIIDEAIELSKKYSEETSGKFVNGILDRIARKYERL;locus_tag=LOCUS_19990;gene=nusB;note=WP_004082311.1 transcription antitermination factor NusB (Thermotoga) [pid:47.4%25%2C q_cov:97.8%25%2C s_cov:94.4%25%2C Eval:7.2e-28],MGA_2011
sequence1	MetaGeneAnnotator	CDS	2174913	2175305	.	-	0	ID=MGA_2012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKEENNFGQINISETVLKNIAYKSLEKFLKEEKIYNLKIEKDLPKNIKIGKNEDQSITVTVKTAAKYGENIVEFSKKLQELIKNELEKMADVYVTNIEVIVESLEYPITEELEQSIIETKEYEEKTEE;locus_tag=LOCUS_20000;note=MGA_2012
sequence1	MetaGeneAnnotator	CDS	2175354	2177804	.	-	0	ID=MGA_2013;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082235.1;translation=MASLTPMIRQYLEIKEQYKDAVLLFRLGDFYETFFEDAKRVSDILQIVLTNRNGHPMAGIPYHALDNYLKKLLENGLKVAICEQLENPEDAKGIIKREVTRIITPGTIIEENMLDEINSFSLLIKKNDDRKYIVSIFDFSTGEVYLDSFEFNESELIDFIISSNFVQILLSEELKDLSKKIKEINNKIYIESLDEWYFSKNYKNQLEESYGSIDFNILGFSKDELITFSAVLKYLEVTQFSKVKHFKIPKRLKTLEYMYIDSNTVTNLGLIPSNETKGKTLYDILKKTKTPMGNRLLREYLLRPLIDKNVIENRLNNVEIMYKDRLLMNELKEYLSYIRDIDRISTRISLLKATPSDILALKTSLNAIPYIYELLESSELSNFFEDINLLQNIKEKINNTLFENANNDVGKGFVIKEGVSKELDEYRNLSFDIDKILKEIENKEKEKTGITKLKVGRNKIYGFYVEVSKTQANLVPEYYIRRQTLTNNERFIFEELKDLEKKMIIAEDKIRKIEKKLYLELLEWLNSYTQKIKKLSDKISELDVLRSFAEISVLNNYVRPTFTENKKSKIMQGRHPVVEKFSKEYTSNDFDIDNENFFIILTGPNMSGKSTYLRQVGIISVMAQIGCFVPAKKALLPIYDRIFTRIGARDDIITGKSTFLMEMLEMSTILNNATKNSLVLLDEVGRGTSTLDGISVAWAISEYIFQVIGSISIFATHYTELTMMADIYEGVTTKRVKVLETENGVIFLHKIEDGVSDNSYGIEVAKLAGFPIDIITRSKEVLDLISNKIDLENNLKKMKNVKKKRYKVPKGQIKIF;locus_tag=LOCUS_20010;gene=mutS;note=WP_004082235.1 DNA mismatch repair protein MutS (Thermotoga maritima) [pid:44.6%25%2C q_cov:95.6%25%2C s_cov:96.6%25%2C Eval:1.8e-190],MGA_2013
sequence1	MetaGeneAnnotator	CDS	2177851	2178450	.	-	0	ID=MGA_2014;product=ATP-dependent Clp endopeptidase proteolytic subunit ClpP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081059.1;translation=MSIPMPVVVESNGRYERSYDIYSRLLKDRIIFIGSPIEETIANVVVAQLLFLESQDPEKDIYIYINSPGGSVTDGLAIYDTMQYIKPDVSTICIGQAASMGAVLLSGGTKGKRFALPNSRVMIHQIAGGAEGVATDVQIRLNEMQRLKKILYDILSFHTGQTYKKIEKDCDRDNFMSAEEAVKYGLIDKVIGSRKEIEK;locus_tag=LOCUS_20020;gene=clpP;EC_number=3.4.21.92;note=WP_004081059.1 ATP-dependent Clp endopeptidase proteolytic subunit ClpP (Thermotoga) [pid:70.2%25%2C q_cov:96.0%25%2C s_cov:94.1%25%2C Eval:6.5e-75],MGA_2014
sequence1	MetaGeneAnnotator	CDS	2178447	2178737	.	-	0	ID=MGA_2015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIPITKDSYLVAERIHSVIPEEFLQFRKIKKIFQENDVLAQLEKKPIKGGIKLIDITYGKSVETVIFMDSGHMVLTSVNANKIIDKVKKGRRNEL;locus_tag=LOCUS_20030;note=MGA_2015
sequence1	MetaGeneAnnotator	CDS	2178862	2179824	.	+	0	ID=MGA_2016;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080721.1;translation=MNDDNRNKLVNRAAYAGIIGNTFLAILKLFIGIFTGSLAILADGIDTTTDIATSFLTLIAAKISNKPPDKSHPYGHEKIETIITKLLSLVIIFAGYNLLIKSIKNIITPEFKINNLILVLITASISVIIKYFLFKYKLKIGKKINSPSSIADAMNMKNDVLISLSVLIGITIYYFTGIKILDPIIALLVSLMIFKVGFETFFEASNDLMDGSKNLGKIYLDIVNVVDKYEDIKNPHKIRVRKSGFVFFVDMHLEINGEKTINEAHSIIMKIEKEIKQLNVYIKDITIHVEPIGNNEKECFGYDENLIKRTFGNEEENNGI;locus_tag=LOCUS_20040;note=WP_004080721.1 cation diffusion facilitator family transporter (Thermotoga maritima) [pid:43.4%25%2C q_cov:92.5%25%2C s_cov:97.1%25%2C Eval:3.2e-74],MGA_2016
sequence1	MetaGeneAnnotator	CDS	2179814	2181139	.	+	0	ID=MGA_2017;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082646.1;translation=MEFDFLDEARIYVKAGRGGNGSVNFRREKYVPKGGPDGGDGGNGGNVIIKSVLTKNTLIDFKFKKKFVAEDGVAGTRKKQFGRNGKDTIIEVPVGTMIYDEDTEELIADLTYPEQYVVIARGGKGGKGNAKFANSKMQAPKIAEKGIEGEERNIKFILKLIADIGIVGFPNVGKSTLISKISNAKPKIANYHFTTLKPNLGVVKVGEGNSFVVADIPGLIEGAHEGTGLGDKFLRHIERCHVIVHIVDISGIEGRDPIDDYYKIRKELENFSEILASKKEIIVANKLDLITEEETQKKLKEFTEKTGKEIFEISAYTGYNTDKLISKMWNLISKDRIEYIKRIQKFLKTQPERVKLKVEPVNIPIDFKIKIEVVKWSKDTYEVTGSSVEKLLNKYNIMQEDSKRKIIHLLEENGMDRALLSAGIKEGDTVYIGDLAFEYIP;locus_tag=LOCUS_20050;gene=obgE;note=WP_004082646.1 GTPase ObgE (Thermotoga maritima) [pid:50.1%25%2C q_cov:98.9%25%2C s_cov:98.2%25%2C Eval:3.7e-117],MGA_2017
sequence1	MetaGeneAnnotator	CDS	2181152	2181709	.	+	0	ID=MGA_2018;product=nicotinate (nicotinamide) nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865050.1;translation=MIVLFGGTFNPPHIAHKIIAEVAYDELKPSRFLIIPASVPPHKTNNFIVDFNIRYNWLKKVFSSKFEISNIENKLPKPSYSFQTIEYFSKKDKVILLIGEDSLLNFKKWYKWEEILKKCTLAVYPRFFKNKINTDIPYIKINSPLIDISSTTIRNRITQKKTINGMVEDKIKDEIIKVYTYFTQI;locus_tag=LOCUS_20060;gene=nadD;note=WP_010865050.1 nicotinate (nicotinamide) nucleotide adenylyltransferase (Thermotoga maritima) [pid:38.4%25%2C q_cov:96.2%25%2C s_cov:91.7%25%2C Eval:3.2e-30],MGA_2018
sequence1	Aragorn:1.2.38	tRNA	2181780	2181868	.	+	.	ID=Aragorn_47;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00460;note=Aragorn_47
sequence1	MetaGeneAnnotator	CDS	2181931	2183316	.	-	0	ID=MGA_2019;product=aldehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001021210.1;translation=MNNKELQNMLLEMKEYFFIGKTKDVNFRIEQLKKLKKSIIKYTDEIIVALEKDLGRHKYETYAAEIGTVLKSINYSIKNIKKWSKVKKVKTPLHLFSAKSYINPEPYGVVLIIGPFNYPFNLLIEPMIGAITAGNTVVIKPSEDTPNVSKVINKIISENYDFNYIRVVEGEKEIVSNLINMKFDFIFFTGSVKVGKIIMEAASKNLTPVTLELGGKSPCIVDKTANIKVSAKRIAWGKCFNAGQTCVAPDYLIIHKSVKEQFIKEFKQAISNFYGHEIEKSKDYARIINEKQMNRLIKIIEEDKSKVIFGGEYNLKEKYISPTLLNNVNWNDASMKDEIFGPLLPILEYENIEDVSKIINERPKPLAVYIFSESKNNQKYIIENTSSGGFGINETVSHFTSHYMPFGGVGNSGLGSYHGEASFRQFSHFKSILNKSTKINLNVQFPPYTEKKFKLVKKILK;locus_tag=LOCUS_20070;note=WP_001021210.1 aldehyde dehydrogenase (Staphylococcus) [pid:50.6%25%2C q_cov:96.1%25%2C s_cov:96.5%25%2C Eval:7.3e-132],MGA_2019
sequence1	MetaGeneAnnotator	CDS	2183403	2184245	.	-	0	ID=MGA_2020;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080182.1;translation=MEYKNLVEASLMTVVNLVNEVFKDYIVPVHWTIQSFEKDIVENSISLENSFVAYDKNEPIGFSIVSVRGERGRIDSIGLLKKYRGTGISSEILTRTMETLKWKGIRDVVLEVEENEKRAVKFYQKHNFKLKRKLESLKYNIKKSEDPEYKYLPEDGKWVHDMAVSALNNLHRKPNWQREPKTLGLSEGRYIVEKIVSKGFAIGYIVWGTNEDNAFIVDISPIADETKYYDIFKDALKRIASEKNKVIMVSVPSDDLLNKVAKELNFEPFLIQWEMEKKIH;locus_tag=LOCUS_20080;note=WP_004080182.1 GNAT family N-acetyltransferase (Thermotoga maritima) [pid:40.6%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:9.4e-56],MGA_2020
sequence1	MetaGeneAnnotator	CDS	2184372	2185253	.	+	0	ID=MGA_2021;product=L-serine ammonia-lyase%2C iron-sulfur-dependent%2C subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002671221.1;translation=MFTKFKELIDLSNSSGQPLHEVVKEWEMLENGTDPIQIEKNSELLVEEMIKSYKHKIENLNEKSITGWTGFNTKIYFERMKNKKSLFNNLLSKAILVALATSENNASMGRIVACPTAGSSGVIPGVLVSLHEEKNIDIKTLGKSLLIAGAVGEFIRRRGSLAGAVGGCQAEIGSATAMGAAAIVYAIDGNPDKVSNAAALSMKFLMGLVCDPVGGFVEIPCVKRNPAGSILAFTAAELALSGVKSAIPFDEVADAMGKVGRSLSEDLRETGKGGIAATKTGKKLLNDFINNKI;locus_tag=LOCUS_20090;gene=sdaAA;EC_number=4.3.1.17;note=WP_002671221.1 L-serine ammonia-lyase%2C iron-sulfur-dependent%2C subunit alpha (Treponema) [pid:42.3%25%2C q_cov:99.7%25%2C s_cov:98.3%25%2C Eval:6.4e-58],MGA_2021
sequence1	MetaGeneAnnotator	CDS	2185221	2186936	.	-	0	ID=MGA_2022;product=penicillin-binding transpeptidase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081264.1;translation=MKNHRITLIFIIIFFSFSLLLVRSFYLQIIKWKDFRIEVQDLSTRIIKQNAKRGNIYDRNGKLLAWNERIYKITNLSDEINADTEKKIRLILNKFNIDTDSIIDKLNFQKSINLNINSTTAKKLSSIRTLLIEEKYIRKYAHKSLYHITGYVDNEGNPRSGLELTLNDKLKGEDGYKIVNITPSGRIKNIIEKTIPISGNDVYLTLDLDIQEKIYTYLSENNKPGAVVVSNPNNGEIIAMVSYPSPDPNDFSKGLTNLKFQRILNDNKKPMYNRAIYQNYPPGSVIKPFLALSALELGISPEATINSTGKYQLKNSKGYVIGTFKDWWPLGHGITNMIKAIRVSANSYFYWLGETIGIDAINKKVKEYKLIEKTDIDLPGEKSGFFPSKEWKEKVFKEPWYPGNTLNVFIGQGNVKATPLEMLRFYNILATRGKYYQFHLFNIQKDLFNKIQEQYIPKIRDAYNINEEYLDNVLEGMKEVTTYMGNYEGDSANEGTAYEGFKGFPYVVAGKTGTAEVSGGKKPHAWFAGFFPADKPKYSIIVFLENAGYGPHIAVPLARKSLDFIINKVIK;locus_tag=LOCUS_20100;note=WP_004081264.1 penicillin-binding transpeptidase domain-containing protein (Thermotoga maritima) [pid:37.5%25%2C q_cov:98.6%25%2C s_cov:96.4%25%2C Eval:1.4e-98],MGA_2022
sequence1	MetaGeneAnnotator	CDS	2186923	2187330	.	-	0	ID=MGA_2023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLLFFLFTIASSSWDRWLGQYLFFSYPIVSVYLKNLDFNEKTKNMYAFLYTLIYFSLKYDVGLYAIIFLVIYIIIDTIFINIQKNFISTIAYTIPSTLFLCSIKWTPIPLIITLSIIIILYFINMRLIINEKS;locus_tag=LOCUS_20110;note=MGA_2023
sequence1	MetaGeneAnnotator	CDS	2187333	2187986	.	-	0	ID=MGA_2024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNKIFYLNIFIVLTIMINIYKPIGNIVQWVSYPFNYVFSKLQEEILIRDSRAESLKNILSIISSNKIQLKKGENLKFSIPYGIILKEEYKYLIVHSNEKVSKNSFVIDDEGNLIGFSEKTYSNRIIVKKLGWGTNEIFGEIGGYDVLIKEDNGNLFVELPQKINEKILTITLPYYIDTINKKKVILTGKIISKYGEMYLFKPLKFKGILAYFLEE;locus_tag=LOCUS_20120;note=MGA_2024
sequence1	MetaGeneAnnotator	CDS	2187990	2189000	.	-	0	ID=MGA_2025;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865154.1;translation=MRTYLGIDLGTANTLVYSKGKGIIINEPSVIAIERDKGEALSVGIEAKKMIGKTPSNIIAIRPLKDGVIADYDIALAMLKYFIKNAVGGFSILKPLVVVGIPTEATEVERQALREAALDGGAGKVYLIEEAMATAIGAGLNVEEPSGNMIVDIGGGTTEIAVISLGSIVLSKSIRVAGDELDEHIVEYIKNEHNILVGERTAEQIKMEVGNTFECDEYDNLSIEVIGLDILSGLPKRVNITGKEIRTAIKNPVSKIVENIKNAVESTPPELLSDIVNKGIFLAGGGAMIKGIKELIEKETLIRVVIADEPLTCVARGAGMALDNIKILENISKTRR;locus_tag=LOCUS_20130;note=WP_010865154.1 rod shape-determining protein (Thermotoga) [pid:57.7%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:1.2e-111],MGA_2025
sequence1	MetaGeneAnnotator	CDS	2189174	2189710	.	+	0	ID=MGA_2026;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865177.1;translation=MKIGKKLKSLRIMKNMTQEELAVRSDLTRGFISQLERDLTSPTLENLDMILHALGTDLKEFFSKFDSVEKIVYKKEDRIPIYDTPKGVKEELLMTATDPKKIEPSFLYLKPMSKTKEENYHEGIEFGYVIEGNIMLYLDGISYKVKEEESFFFTSNKKHFIKNTSKKNCAKVLWIEIF;locus_tag=LOCUS_20140;note=WP_010865177.1 cupin domain-containing protein (Thermotoga maritima) [pid:54.8%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:3.6e-52],MGA_2026
sequence1	MetaGeneAnnotator	CDS	2189724	2190122	.	+	0	ID=MGA_2027;product=adenosylmethionine decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081137.1;translation=MAISLGKHLIAEFFECNKDILDNVEKIEYHMKKATIETGATIVTSTFHRFLPHGVSGAVIVSESHLAIHTWPEYGYASIDLYTCGDHVDPWKAFEYLKEAFSSSRTQVSEHFRGLYSEIGIAENSPHKVEVK;locus_tag=LOCUS_20150;gene=speD;EC_number=4.1.1.50;note=WP_004081137.1 adenosylmethionine decarboxylase (Thermotoga maritima) [pid:68.8%25%2C q_cov:97.0%25%2C s_cov:98.5%25%2C Eval:1.0e-50],MGA_2027
sequence1	MetaGeneAnnotator	CDS	2190122	2190973	.	+	0	ID=MGA_2028;product=polyamine aminopropyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081139.1;translation=MNHLRFEEYNIGNNSGIFFTIDKFLYSTQSKYQRIDVFETPEFGRVFTLDGLTMTRESDEFIYHEMITHVPMFIHPNPKNVLIIGGGDGGTSREVLKHPSVENVIMCEIDSDVVNVAKEFLPTTSCEFDNPKLKIICEDGSKLIKKYKDYFDVIIIDSTDPTEGQGGLLFTEEFYKDCYEAMTENGVFSAETEDPFLHKKWLKLAYNRISNVFNVSNLYMGYVPQYPPGTWTWTFASKGLDPIKDFNPEKIKAFESELKYYNESIHIASFALPNFVKELINIK;locus_tag=LOCUS_20160;gene=speE;EC_number=2.5.1.16;note=WP_004081139.1 polyamine aminopropyltransferase (Thermotoga maritima) [pid:61.4%25%2C q_cov:98.9%25%2C s_cov:95.6%25%2C Eval:5.9e-106],MGA_2028
sequence1	MetaGeneAnnotator	CDS	2191025	2191972	.	-	0	ID=MGA_2029;product=Rpn family recombination-promoting nuclease/putative transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814609.1;translation=MCRINPRVDFAFKKLFGTESNKQLLIDLINSIVSEEDKVKDIEIKNPYNEKNFKNDKLSILDIKAVDQKGHWYNVEMQIIDQEYYDKRALYYWSRVYSGQLFAGINYDNLKKTISINILNFKCLEEENYHNVYKIVNMESKKEFIDHLEIHFIELEKYDEKMSTMLDRWVNFLKKADIYEKDKLPKELEEVESIKKAVELLDEMSLNYEERESYEARLKWLRDEEAAIKTAENKGFKKGLSKGIEQGIEQGIEQGIEQGIEQGIEQGIEQGIEQGIEQGKMEIAKSLLDILDIKTIAEKTGLTEEIIKKLKNTDS;locus_tag=LOCUS_20170;note=WP_005814609.1 Rpn family recombination-promoting nuclease/putative transposase (Desulfitobacterium hafniense) [pid:34.2%25%2C q_cov:98.1%25%2C s_cov:96.4%25%2C Eval:1.2e-41],MGA_2029
sequence1	MetaGeneAnnotator	CDS	2192004	2192687	.	-	0	ID=MGA_2030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKEEKENTIKNFLSILGIMAVIYLLSFFAWQRYELHLKNKIHYPYVQLRDSGYTTVKYYPYKFKNTSIEINLTNKINIYNISTKYGNGEIKTFDSRYFIFENSNFSIIAYPSYEYRGLEYKAFSKKKVLNFIIIPTEEKLNNIFEILETLIKDKKNELIKGENNLIITGKTACIKYEDETYTIPEEVLKVFKSKNYYYFYVLENKFNKVYIANKTQEKIYEIILL;locus_tag=LOCUS_20180;note=MGA_2030
sequence1	MetaGeneAnnotator	CDS	2192689	2194425	.	-	0	ID=MGA_2031;product=NAD+ synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080010.1;translation=MRVRIAISQINQIVGNYEENYKKIITSIEEAHNNKSDIIIFPELTLNGYPPEDLILKTQYLKKSKLYINKIIEYSKNKNILIAFGAVDWDVETYNSAFIVYNGQLISKYKKMFLPNYSVFDEKRYFIAGNTPTMIEFNDIKIGITICEDIWVPNGPALALAQNGANIILNLSASPFFKGKQSSKLEMLKTRASELSCWIAYCNLIGGQDEVVFDGGSAILNPYGEIMQQAPLFEETILYYDVDPYETTRANLREGKRKHYNNSVYNNIKIKSINHEVCKKEKLDQKNENLPDIYTQMYMAIKCGIKDYVKKNGFSKVVLGLSGGMDSAIVASIAVDALGKDNVFGIMMPSQYSSEGSIDDSKALAENLGIKTTIVPIKDIFDSFMEKLNKDFEGTEFNTTEENIQARIRGVINMAFSNKFGYMVLATGNKSESAVGYSTLYGDMAGGFSPIKDLYKTEVYKVAEKYNELHKSEIIPKNIFTKAPSAELRPDQKDQDSLPDYDTLDAILFRYIDREMSFDEIVEDNYDKNLVKFVIRLVDLNEYKRRQAAPGIKLTERSFGKDRRMPITNGYKVWKEGV;locus_tag=LOCUS_20190;EC_number=6.3.5.1;note=WP_004080010.1 NAD+ synthase (Thermotoga) [pid:46.9%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:4.0e-154],MGA_2031
sequence1	MetaGeneAnnotator	CDS	2194425	2195327	.	-	0	ID=MGA_2032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLMNMKKLKFNVFFLLIAINSYTQIFYSGEILQDFVKNKIDSSNNIEVVTLTINKEILSKLKDKNYTIYAESTLNNSPMIILDKNKDGYLHEKFMIFDNKSILFGTGNFTESGLKNDFNVFIYTKDIKIVNLFNLELNNFKRGLYGIKKEKIDKKINSKEFGNVEFITSPSETIYKKIIKELNTAKKSINIFTFSFTDPFLLKELEKISSKNIKIKILYDDWNEKYLSSIKYMKGIELKKRNDIHAKIIVIDSKTLIIGSYNYTYRARAKNDEYILIIKNRIISEKINKKFQNMFRGE;locus_tag=LOCUS_20200;note=WP_000014586.1 phospholipase D family protein (Enterobacteriaceae) [pid:28.3%25%2C q_cov:37.3%25%2C s_cov:65.6%25%2C Eval:1.7e-10%2C partial hit],MGA_2032
sequence1	MetaGeneAnnotator	CDS	2195290	2196117	.	-	0	ID=MGA_2033;product=ribosome biogenesis GTPase YlqF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080928.1;translation=MWYPGHIAKTKRAIKDNIKAVSAVIELVDSRIPYSSRAYEYASLFRDKKKIIIFNKYDICEIEKTKKWIKIYENKGYIVKTVSLKSINIKNFLKKNIANEIPEKFNERRALVVGAPNVGKSTFINSLKGKKTTSVGNTPGITRGVQWINVDSKTKIMDTPGILFPELYNKSIAYKLILAGCLKAEDDEADDAAFFAFDYLKENNPKILENSVENGSKLENAYEFIENFAKKRNFLKKGGIGDYQRGLKTWLKEISDGKLGRITYEIPDEYEEIKV;locus_tag=LOCUS_20210;gene=ylqF;note=WP_004080928.1 ribosome biogenesis GTPase YlqF (Thermotoga) [pid:38.3%25%2C q_cov:99.3%25%2C s_cov:96.6%25%2C Eval:1.1e-48],MGA_2033
sequence1	MetaGeneAnnotator	CDS	2196117	2197619	.	-	0	ID=MGA_2034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGIGFKLNRMMQNESISGNILAFTYSTIISAGPWIITSFTLYLLLSKNFFLSAFKIIANISNFFGISLIKTNAFEKIINDYFSVALVYSFVFSTLITGGVLMVISRVISDNIYLKKYDNIFSDTLNIIFFTNIIASFLAIIFFIFNPNSPLDFKLSFIYLLVSLCTLWISAVSAVSTDDYGKYLIGFAISGFSSLIFAFIFGYNYGYSGSIFGYGLGISAGSSYMLYIIGNNFGFSFNFDFTWFNGFKKYWTNLLIGTFYYFALWIDDLMTWYSNYGRGFKNIQGFRLSFIYDSPMFVAYFSTIPTMAMFVLVLETYFYKKYKTFYNTIIEGGSYTEIEYAKKDMITEMKSNISMVIKFQLIITVILFLINEILDIMGMVTISSLILRIAVVGAFLNGVYLMITLLLLYFDFRKEVIYLHFMTFLINLISTPIILNIYGINGMGYGYTIAFLVGTYLGYNLLLKKLDKIIQIEFNRQKTSMPKGYVVEYEDIKKYVEEK;locus_tag=LOCUS_20220;note=WP_005902578.1 exopolysaccharide Pel transporter PelG (Fusobacterium nucleatum) [pid:27.0%25%2C q_cov:94.4%25%2C s_cov:58.7%25%2C Eval:8.3e-36%2C partial hit],MGA_2034
sequence1	MetaGeneAnnotator	CDS	2197607	2199022	.	-	0	ID=MGA_2035;product=GT4 family glycosyltransferase PelF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081634.1;translation=MLRVGILFEGTFPYVRGGVSSWGKTLMSGLDDIEFTVIHVGANPERRLPKYKFSKNIKDFFEFFIFSDYTYNKPPLTDSIVKEISDNIIYPFEEKYMSSKLYEILKRNNNIDFTKMFQMNSYWDAILSMYKKFIPYENFNYYYWNTRSMLIPFLNSLTIDIPECDVYHSVTTGYAGLIALMASLRYKKPFIITEHGIYHRERQLELLRSKWVKDEYRMSWIKLFNTISALTYNSASLVTTLFYKNQQVEKELCYDHSKLELIPNGVDYKKFASIQKIKNDIFTIGLVGRVVEIKDIKTALKAIKVVSESIKIKFYVLGPTDEEPDYFNECLEMINVLELEGIVEFTGNVNVLEWYSKLDLVLLSSVSEGQPLVLLEAMSVGIPCIATDVGACSEIINGSGVDDVEGKCGYIVKSKDFMDMAKKIINIFEDEKFYKNASIIGKKRVEKKYNLPQMLENYRNAYKMVVEKWQE;locus_tag=LOCUS_20230;gene=pelF;note=WP_004081634.1 GT4 family glycosyltransferase PelF (Thermotoga maritima) [pid:38.6%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:5.1e-96],MGA_2035
sequence1	MetaGeneAnnotator	CDS	2199022	2199687	.	-	0	ID=MGA_2036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDYKDKILIFILKPKNLTFILMIIIILVIALTGKNLKPNLTAREASILSRDEVTLMQDKNNHENLIKKLENSMTSQRNVERYSAKYIQTLKEYRNILIYIKKEKFKGFLEDISAEIEETDIKLINFFKLNISYLMDGYNYYTSEQKNILLKEIAISSQDENILKFLYKKLSWKEKGEFLIYLKFYNKEVKELKEDFLLKAKNNIQDNLYESFKNILSGD;locus_tag=LOCUS_20240;note=MGA_2036
sequence1	MetaGeneAnnotator	CDS	2199684	2200607	.	-	0	ID=MGA_2037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNLKVSLLLISFVFGFMSLIFFFERDFNTVFFIFFSMYFIFYIISGIKLLEILALFLFFPYFPLIKVFSILQKEKKYVEYKIEKPIYSISKSIKTDVVDTTPLSVLSKYGDTTQKKSSVRLLVELIKSEKINVSESLNVLKTLQEDDHPDVVMYASDAMTELENFFIRKIESLKKKLDSPNNIISYTNYIKYYLLSGMVGGNIKKRMLLNAKKLLKNKINLFPTRVDLIEQYVFFVELSGENSLLIIEDFYNNFPVQNLLELLIITSIKYRNYSVLKKFANIFIKNDYKTENEVIQYLFESGGIL;locus_tag=LOCUS_20250;note=MGA_2037
sequence1	MetaGeneAnnotator	CDS	2200600	2201805	.	-	0	ID=MGA_2038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSTILLFIDLFFIKSSAAYVDIFPNPYLIIVIYAASRYGTVFGFIDAFINIIYMFISILTYYGSIDEISKSLDKLDLFKYPIIYLIMAFIFGILKDIENIRSLNLKNQVKEREQIIDDLNKLIEEHQNAIDNLKEKLTIEDKGVSMLVEKLRNVHINKLEDVYNEGVELISNFIGAETVSIYNLEQNGFLRLKVRKGKGLLRNSLMPDDSIVIKYAIKNDVANINVMFLTDEESKIDFEPSMVSVIKSLDKIIGLVVVENIDVNKLNKNTESYLRIVSDWLSSMLSSSLAINKELEVVMKNEDGTIKNNYYEKFLEDYLTRWNKFKMPFSYLKIKVNLKIRKKIISSKRAMDIVFEGEENEKLQFIFGICDKIGLEKIIERFKDIYGDDVEILERGSYSE;locus_tag=LOCUS_20260;note=MGA_2038
sequence1	MetaGeneAnnotator	CDS	2201894	2202850	.	+	0	ID=MGA_2039;product=PhoH family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081850.1;translation=MKYNIKVNIPNGIEPVEILGVHNNKVRYIKKYFDVEIKYENLNILINSNKKEELKTVEKIIKEVLDVILLKKTIEWSEFIYIVSKQVQKNSMSMKNIVNTTINGVKISAKTEGQAKYIENLKKYDMLFSIGPAGTGKTYLAVAMAVKSLKMGEVQRIILTRPAVEAGEKLGFLPGTLYDKIDPYLKPLYDSLMDFIGTENLIQYKEKGIIEIVPLAYMRGRTLNNSYVILDEAQNSTYQQMKMFLTRIGFNSKVVVTGDITQIDLEKKKESGLLAITKILKDIEEIKITYLNKNDVVRNPMVKKIIQAYEIYENKKEN;locus_tag=LOCUS_20270;note=WP_004081850.1 PhoH family protein (Thermotoga) [pid:53.3%25%2C q_cov:98.4%25%2C s_cov:96.9%25%2C Eval:9.0e-93],MGA_2039
sequence1	MetaGeneAnnotator	CDS	2202852	2204240	.	+	0	ID=MGA_2040;product=HD family phosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081852.1;translation=MIKLIKFLKLSEIKIPNYREQIFRGLLFIFLSIIAEFFLWKQITFSFQIIFNTVFLSLWIFVIELIMSYKRLFKLHRKNYWGAFLTPLIINILINLFIFKYVNIFAVSGILSTLMITMLIDFESGIISAITFSIFFGGIFGFDIKYMILLFIPSAIVAYFSKGINRRVEIIFPFFISSIIQILLTYIFKYKHTTEDIFLLIGSNFINTLITMGILPFIEYITRVYSNIGLLELGNLNNPLLKKLTLRAPGTYYHSMIISNIAESAAEAIGGNSTLARVGSYFHDIGKIWKPIYFTENQKSENPHNNISPKLSSLILNNHIVYGIELAKKNRLPILIEDMIAQHQGTRIKQYFFKKYYDETGIYDKEMFKYPGPIPQFKESAILMFCDVTEAMSRSLKEITPSILNEKLDKLLESLFAEGQLDDCGLTLREFKKMKGQIIRTMLEMNHKRIKYPKIEVDKLRS;locus_tag=LOCUS_20280;note=WP_004081852.1 HD family phosphohydrolase (Thermotoga maritima) [pid:34.3%25%2C q_cov:90.0%25%2C s_cov:91.3%25%2C Eval:4.8e-67],MGA_2040
sequence1	MetaGeneAnnotator	CDS	2204246	2204674	.	+	0	ID=MGA_2041;product=rRNA maturation RNase YbeY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016624.1;translation=MKINIINEQEKIINEELIKHITKYIIEKEFKDGDFELNILITKNERIKEYNENYRHKTGPTDVLSFEYGLNEQIIGDIVISTEQIEKQAPTFNNTFEEEFYYNIIHGILHILGYDHETNEEDKKIMFEKQDKYFKKLVERGE;locus_tag=LOCUS_20290;gene=ybeY;note=WP_011016624.1 rRNA maturation RNase YbeY (Fusobacterium nucleatum) [pid:46.8%25%2C q_cov:83.1%25%2C s_cov:77.2%25%2C Eval:2.3e-24],MGA_2041
sequence1	MetaGeneAnnotator	CDS	2204677	2205915	.	+	0	ID=MGA_2042;product=DUF1015 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001063044.1;translation=MSIVRPFKGLRPTGEKVESFACPPYDVLEDSEVKEIVSKKPESFLKVTRAEVEFPEGTDPHSDEVYKRAGENLKNFEKEGIIFQDETPAYYLYRETWRGQSQTGLFATVSVDEYDKGLIKKHELTRQDKEDDRTRHITLLGAQSGPVFLTFKSKETIKNILSEMLEKYDKEYDLTDENEVRHELWVVNNEEDVKKIQESFSDIEKLYIADGHHRAAAASRTQKLMKEKNSNHVGNEEYNYFLAAIFPHDELRVLDYNRVVKDLNGLSKDEFIEKISENFEITETKETPYSPKELHTYGMYLDKKWYILKPKTVDESDPVKALDVYILQNYLLDPILGIKNPRKDSRIHFLGGIRGIGVLEEWVDNKDWKVAFSMHPTPLEQLIDVADADKVMPPKSTWFEPKLRSGLVIHKI;locus_tag=LOCUS_20300;note=WP_001063044.1 DUF1015 family protein (Bacillus cereus group) [pid:48.1%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.4e-118],MGA_2042
sequence1	MetaGeneAnnotator	CDS	2205967	2206494	.	+	0	ID=MGA_2043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSYTFNLKEKSEKINTIKNKETFDFSEFRNFNHDSYGFKREWKTLSSHNDVEYVKRIINPHYPYMLSSYKDIPQKNSKYSNYLIYMDFGKYKYEKNFIEFFDLELDIIITKDLKYTLLDMDELLESFLKRKIPFFELETVLINMEKLMNDFNKYGPLNTLKELYNKKVIEWLID;locus_tag=LOCUS_20310;note=MGA_2043
sequence1	MetaGeneAnnotator	CDS	2206516	2209344	.	-	0	ID=MGA_2044;product=excinuclease ABC subunit UvrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081486.1;translation=MDFINVRGAREHNLKNIDVKIPKNKITVISGLSGSGKSTLAMNTIYAEGQRRYLESVSSYARQFLGNLNKPDVESIEGLSPAIAIEQKSVSHNPRSTVGTVTEIYDYIRVLFARVGKAYCPSCGTKLERSTVDEIVDNIYINFEEDSRIYIFSPIAKEKKGEFKKEIESMKLSGYKKVEVDGILYELEDLTELKKTKRHNINLLIDRMKLKKDNFERLYESIELALKEGNGFVNIREMNIDEKTLKSMDFSEMLACPKCGYSFPEITPKLFSFNSPHGACTECHGLGFKLEVEPSYVFDFNKSIDEGAILTMGKDTYMAEMMKQIIEFYGEASNKKLSELPEEVLNKLMYGTKEKISFDVSTENGKHYVFKRKFEGLLKWYERRYKQTESPDMRSWMENNVMVQRTCNSCNGKRLNKDALNVRIGKYNLHDITNMPLNKLNNLLNKLEFSDFEKEIIDELLLEIKKRVTFLVDVGLGYISLSRTSSTLSGGESQRVRLATQIGSGLTGVTYVLDEPTIGLHSRDNDRLIKTLKKLKDLGNTVIIVEHDEEVIKSSDYLVDLGPKAGVNGGEVVYQGSTKRVLNAPGKSLTAQYVSGKRKVEIFEKNRVDLNKSIKILGAKHNNLKDIDVEIPLGKLVVVTGVSGSGKSSLIMDTLYPALLKKLRKTRARHGDFKDIIGLENLDNIISIDQSPIGRTPRSNPATYTKIFDTIRDVFSQTPEARIRGYTKGRFSFNVKGGRCEACAGHGVIKIDMQFLSDVYVTCDVCKGKRYNKETLKVTYKGKNISDILNMTVDEAADFFKNISSIKKTLNLLQEVGLGYIKLGQPATTLSGGEAQRIKLTSELKKRDTGRTIYILDEPTTGLHFEDVRKLISVLNLLVEKGNTVIIIEHNLDIIKNADYIIDLGPEGGEDGGEIIAVGTPQEIIKNQKSYTGKYLKELIIK;locus_tag=LOCUS_20320;gene=uvrA;EC_number=3.1.25.-;note=WP_004081486.1 excinuclease ABC subunit UvrA (Thermotoga maritima) [pid:60.3%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_2044
sequence1	MetaGeneAnnotator	CDS	2209437	2209952	.	-	0	ID=MGA_2045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLVTIYMFIIINIFSICFVNPLVPITPTVPNIKPGQISVRVKIKPCRYFMMQVIYDKTCPWGLNTTINYDKDDKDKDKVFKDKVKLYMYSNVNFNLKITTDYDGPGNFYLKDRYHEYKFNSNKSIDFILRKGVYNSNIEYRFSYKNKEFYDIKSGEYNGKIYVTMYPD;locus_tag=LOCUS_20330;note=MGA_2045
sequence1	MetaGeneAnnotator	CDS	2210041	2210925	.	-	0	ID=MGA_2046;product=cysteine synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865179.1;translation=MIINAIGTTPLITLSNIIDPGKIFIKLEKNNVAGSVKDRPAYFMISEAEKSGNLKNKVIIEPTSGNTGIALAAIGKSKGYRVILTMPESMSIERRKVLKAYGAELVLTPAEKGMKGAIDKAISLTKEYDAFMPNQFENPNNPLSHELTTGPEILKQMSFNMDAFVAGVGTGGTISGVGRVLRKYFQNCVKIVAVEPKNSSVISGNNPGKHNIQGIGAGFIPRNLDISLIDNIVQVEDDEAFEMKKRLAKEEGLFLGISSAANVVASLRVLENMNENSRIVTISPDSGDKYLSLI;locus_tag=LOCUS_20340;gene=cysK;EC_number=2.5.1.47;note=WP_010865179.1 cysteine synthase A (Thermotoga maritima) [pid:61.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-97],MGA_2046
sequence1	MetaGeneAnnotator	CDS	2210937	2211533	.	-	0	ID=MGA_2047;product=serine O-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081107.1;translation=MIKIIKDFFHIFRSINKDLNEFIKKDPIATSKLKIFFISTSLHGLISYRFYSFFHKYKIYILSYPLYVLSKILYSMDIHPSAQIDAGVVIDHGIGVVIGETAKIGSGTLIYHGVTLGAKKVMKGKRHPEIGKNVTIGAGAKVLGNIIIGDDVVIGSNSVVLMDIPRKSLVVGIPAKIKKFNCNASKMFALSENTNFVI;locus_tag=LOCUS_20350;gene=cysE;EC_number=2.3.1.30;note=WP_004081107.1 serine O-acetyltransferase (Thermotoga maritima) [pid:51.7%25%2C q_cov:89.9%25%2C s_cov:80.9%25%2C Eval:8.5e-51],MGA_2047
sequence1	MetaGeneAnnotator	CDS	2211879	2213426	.	+	0	ID=MGA_2048;product=type I restriction-modification system subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000199604.1;translation=MSSTAQRAELQSQIWKIANDVRGSVDGWDFKQYVLGTLFYRFISENFANYIEGDDENINYAELSDDVITPEIKDDAIKTKGYFIYPSQLFINIAKTANTNENLNTDLADIFSSIENSANGYPSELDIKGLFADFDTTSNRLGNTVKDKNSRLAAVIKGVAELNFGKFEENNIDLFGDAYEFLISNYAANAGKSGGEFFTPQCVSKLIAKLATHKQETINKIYDPACGSGSLLLQAKKQFDEHIIQEGFYGQEINHTTYNLARMNMFLHNINYDKFNIALGNTLIDPQFEDEKPFDAIVSNPPYSIKWIGKDDPTLINDERFAPAGVLAPKSKADFAFILHSLHYLSSKGRAAIVTFPGIFYRGGVEKKIRQYLVDNNFVETVISLAPNLFFGTSIAVNILVLSKHKTDNKIQFIDVSGEDFYKKETNNNKLTDEHIEKIIETFDSKEDIKHISKSVDYEKIVEEDYTLSVSSYVEPKDTREVIDIKELNKEIKSTVEKIDKLRSEIDKIVEEIEA;locus_tag=LOCUS_20360;EC_number=2.1.1.72;note=WP_000199604.1 type I restriction-modification system subunit M (Leptospira interrogans) [pid:79.6%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:5.6e-237],MGA_2048
sequence1	MetaGeneAnnotator	CDS	2213545	2214402	.	+	0	ID=MGA_2049;product=RhuM family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011201977.1;translation=MEDLIKTVNIKDTIFTFRGKQVMIDRDLASLYQAETKRINEQVKRNIERFPNDFRFQLTSNEKNELVAKCDRLENLKHSSSLPYAFTEQGVSMLSAVLKSKVAVEVSVNIMRAFVEMKQIMLSNASLFQRIDRTEKILLEHKEKFEKIFKYLEGDKPPIQRVFFDGEIWDAYEFINKLLRSAKKEVTLIDNYIDDTVLTLLKEYPKLTVTIITKKIDKKLNLDLEKYNSQYKNLKVKTSNKYHDRFLIIDEMVYHIGESLKDLGKKVFGFSKMNIDKELLGVEND;locus_tag=LOCUS_20370;gene=rhuM;note=WP_011201977.1 RhuM family protein (Bacteroides fragilis) [pid:35.4%25%2C q_cov:91.2%25%2C s_cov:92.6%25%2C Eval:7.5e-32],MGA_2049
sequence1	MetaGeneAnnotator	CDS	2214395	2215624	.	+	0	ID=MGA_2050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKNFMEKLLNGVEVEWRTLEEVAELKRGRVMSKTYLAENAGDYPVYSSQTLNNGMIGKITSYDFDGEYINWTTDGANAGTVFHRNGKFSITNVCGLITIKNEKKLSYKFLYFWLSIEAKKYVYSGMGNPKLMSNQMAKVKIPIPPLHVQKEIVRILDTFTELTAELTAELTARKKQYEYYRDKLLTPIEDNGKWFLNGKEVEWKKIEDIFYLKNGYTPSKSKKEYWKNGDIPWFRMEDLRKNGNILNNSIQHVHKSGIKGNLFPANSIIMATTATIGEHALVTVDYLSNQRFTNFTLKDELCERLCMKFVYYYFFIIDEKAKQSVNKSSFPSVQMGQLRKWEIPIPPLEKQKEIVEILDKFEALTTSISEGLPREIELRQKQYEYYRNMLLNFPGLRWNKGGNNKYD;locus_tag=LOCUS_20380;note=WP_176672796.1 restriction endonuclease subunit S (Bisgaardia hudsonensis) [pid:60.7%25%2C q_cov:47.7%25%2C s_cov:30.1%25%2C Eval:7.0e-67%2C partial hit],MGA_2050
sequence1	MetaGeneAnnotator	CDS	2215617	2218709	.	+	0	ID=MGA_2051;product=type I restriction endonuclease subunit R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000141537.1;translation=MTNYKPIAESNNFIVLDKYKKIEQDGTGYQTEPDLERELIQDLENQGYDYLKDLTTPEKMLANVRLQLETLNKVKFSEGEWLRFVEEYLDKPSDNIIDKTRKIHNDYIYDFVFDDGHIQNIYLVNKKTISKNKLQVISQFEQTGTHKNRYDVTILVNGLPLVQIELKKRGVAIREAFNQIHRYSKESFNSENSLFKYLQLFVISNGTDSRYFANTTKRDKNSFDFTMNWAKSDNSLIKDLKDFTATFFQKNTILKILLHYSVFDTNDTLLIMRPYQIAATERILWKIKSSHLAKKWSTTESGGYIWHTTGSGKTLTSFKAARLATELDFIDKVFFVVDRKDLDYQTMKEYQRFSPDSVNGSENTAGLKRNIEKDDNKIIVTTIQKLNNLIKKESDLSIYNKQVVFIFDEAHRSQFGEAQKNIKKKFKKFYQFGFTGTPIFPENALGSETTASVFGRELHSYVITHAIRDEKVLKFKVDYNNVRPKFKNLETEQDEKKLSAAENKEALLHPERIKEISEYILKNFKIKTHRNASGKGFNAMFAVSSVDAAKLYYESLNNLQKGSNKPLKIATIFSFAANEDQNSIGEIIDETFEPSAMDSSAKEFLTLAINDYNAMFKTNYSVDSKQFQNYYRDLSNRVKRKEIDLLIVVGMFLTGFDAPMLNTLFVDKNLRYHGLIQAFSRTNRIYDSTKTFGNIVTFRDLEKATIDAITLFGKENTKNIILEKSYKEYMEGFTDIITGKARRGYIDIVKELQERFPNVENITTEEDKKEFVKLFGEYLKIENILQNYDDFTKLKELQSTDNNFYINEEDASDFYVSEENIPYVQNIKIPEERVIQDYRSTYNDIRDWLHSERVEKAKESSSVDWDDVVFEVELLKSKEINLDYILELIFEKNKKTKDKKLLVEDIKRLIRSSVGNRAKESLIVNFINNNDLDEIQDKASIIDSFFLFAQKEQKREAEKLINTEKLNEEAAKRYILNSLKKEYASENGTELNSILPKMSPLNPQYLTKKQSVFQKIAAFVEKFKGIGGKI;locus_tag=LOCUS_20390;note=WP_000141537.1 type I restriction endonuclease subunit R (Leptospira interrogans) [pid:77.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_2051
sequence1	MetaGeneAnnotator	CDS	2219493	2219828	.	+	0	ID=MGA_2052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGYTYILKCSDGSYYTGSTNDLQKRLIQHQDGNGANYTRKRLPVKLVYYEEYSRVDEAFYREKQIQGWSRKKKEALINGCPELLPELVKNQRQTKKYSSTGLGGKKQSSH;locus_tag=LOCUS_20400;note=WP_000349604.1 GIY-YIG nuclease family protein (Streptococcus mitis) [pid:46.1%25%2C q_cov:68.5%25%2C s_cov:77.6%25%2C Eval:5.4e-15%2C partial hit],MGA_2052
sequence1	MetaGeneAnnotator	CDS	2220004	2220969	.	+	0	ID=MGA_2053;product=ATP-dependent sacrificial sulfur transferase LarE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080410.1;translation=MFTIKIIEEIKEDIKQVVGNKKLYIAFSGGLDSTVVALLAKDALPKSQITLVNVCFGAYSYSKGLEAVLSLSNQMNLNLFFVSGESEQETLMYHGPNCNQCTKSIKIEKVKEFAYKGIVASGANQSDSWGKTKIKIMNNIYSPLVMLNKIQIKEILSYYGFTIPKIGENIGREGCKFKHLLKMAVNTQYHSRADVISNEVIHDVLDFYEFKREIANVKIIGPLSKNIAIINIKPLPPQNIINDIVKLLEKESTIDEVVVANKPMKLKISASPGISNNKESSYWIKTGRLQPEFAVPIEVEWLPSKNNKLRTFSVIDYEFIK;locus_tag=LOCUS_20410;note=WP_004080410.1 ATP-dependent sacrificial sulfur transferase LarE (Thermotoga maritima) [pid:52.9%25%2C q_cov:91.9%25%2C s_cov:97.4%25%2C Eval:6.8e-88],MGA_2053
sequence1	MetaGeneAnnotator	CDS	2221388	2224021	.	-	0	ID=MGA_2054;product=PAS domain S-box protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_235044884.1;translation=MINIILLLTLIVLLFDILIRIIFFKNIISSDFDGRIILKQKDNKLIISSCNEYAELLFGEKIKNKNILNYLKINIEKNMKYSKVKDIYFSKTKKWAYGVIYKINFNKFVLILSDITDEKEKENKIRKEQKRMNLAMSASNEGIWEWDLEKNEFNFNKTIEKVLDYNIIELKEKFKDWKSLFSPKDLKKISQKVDACVNNKTDDFTCEIQIKMKNGTLKWIEARGKVIERTQNLKAIRIIGTLSDISKRKNFEKEKEKLLEITQKLFELSPDFILIVDFNQNIVKVSQSILDTFEYKEEELLNKNIKYFLKDSDLITVENTHNKILEGNFINNTKIYMKKKNGTYLPLRISAKASKELKLIFGVGRDVSAEELTLKKLQMAAKKEAEASKLKTNFLANMSHEIRTPLSAIIGAIELLSEYNYTNEQEELINILRSSSDTLLELINNILDLSKIESGHLSFEFIDFSPSIMFENIENIFRPLANKKGINFYLENNMSKKYNLKSDPTRLKQVLVNLISNAIKFTSEGSVSLSINELESNEKTVKLEFKVKDTGIGIPKEKINTIFESFNQADNSITRKFGGTGLGLAISKKIIEKLGGKIIVESVLNAGSTFKFVLEIEKSNKFIEKDNTLNIDTIKSSEITILIAEDNDINQKILKMMLKDKNFNIHMASDGEEAVSLISKIPFDLILMDVQMPKLNGFEATKEIRKHNKNIPIIALTANAMKGYKEVCIKNGMNDYLVKPISKRALFNIILKYASLKKQSINNFKNIHIEDNFENRIERSGLDKESFREIFSEFITNYKPILSEIKNALLERNFKKLEEISHSLKSSVGYLGTKKSFYLAHQLEICGKTFNLKKAQYYLNALEEELQKMQVEFYQNF;locus_tag=LOCUS_20420;note=WP_235044884.1 PAS domain S-box protein (Geobacter sulfurreducens) [pid:30.2%25%2C q_cov:85.4%25%2C s_cov:75.8%25%2C Eval:4.9e-85],MGA_2054
sequence1	MetaGeneAnnotator	CDS	2224463	2225566	.	+	0	ID=MGA_2055;product=peptide chain release factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082004.1;translation=MIDYEVKVKIDGLKNKFKDLKNLFNIEKSRNRVKELEKIMTDPNFWNDSKKAESVSRESQHLKNEIGDFEALANLFDDLDAAIELTEEDSSMESQIFETLNEIEKKIKAFELSMLLSGKYDNNNVFLSIHPGAGGTESQDWASMLYRMYVRWCEKNKMKVETIDYLDGDEAGIKSVTIKISGPYAYGKLKYESGVHRLVRISPFDSNGRRHTSFTSVNVVPELNEDVEIEIRTEDLRIDTYRAGGAGGQHVNKTDSAVRLTHLPTGIVVACQNERSQHQNKATAMSMLKARLYEMEMRKKMEEKMQLMGDVKNISWGNQIRSYVLYPYQMVKDHRTSYETSDTDGVLDGTIDGFIESELLYFAELSR;locus_tag=LOCUS_20430;gene=prfB;note=WP_004082004.1 peptide chain release factor 2 (Thermotoga) [pid:56.8%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.7e-122],MGA_2055
sequence1	MetaGeneAnnotator	CDS	2225605	2226492	.	+	0	ID=MGA_2056;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080729.1;translation=MREYKDYHKSIMVNEVLDYLITVEDGIYVDCTAGEGGHSKAIYEKCNGKARVISVDVDYEVLGIAEKRLKELSYKIDFFKAPYQEIDIVLAGLGVKKVNGFFMDLGVSTFQLKGVGRGFTFMKDEPLDMRMDLEADKTAHYVVNEYSEQELSKIIFEYGEEFRFSRKIAKRIVQARPLNTTFELVEAIKSAFPYSEIRKRKRHFATKTFQAIRIEVNGEFNNIKTALNKFGNYLEVGGRVVVLSFHSLEDKIIKTFFKNDERFNLLTKKPLIPSEEEIKNNPRARSTKLRAAEKK;locus_tag=LOCUS_20440;gene=rsmH;EC_number=2.1.1.199;note=WP_004080729.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Thermotoga) [pid:58.8%25%2C q_cov:99.7%25%2C s_cov:98.0%25%2C Eval:7.8e-96],MGA_2056
sequence1	MetaGeneAnnotator	CDS	2226517	2226777	.	+	0	ID=MGA_2057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTKSIRIEKTEVKTIDLTFWSILFMILIAVVVWISLFLNFGKNVESYRESLAVSQKKINGTEQKIVQLNDEIAKITQILNSYEGK;locus_tag=LOCUS_20450;note=MGA_2057
sequence1	MetaGeneAnnotator	CDS	2226781	2228460	.	+	0	ID=MGA_2058;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080731.1;translation=MKLKKYILLLLLSMLYLTIIFFGVFFNYKVIENSKDININNKNMATLVDCKGNFIVYNKKMYEAWIDLSFLRRQKKFKEYEHLLLSKYTQDEIKDKKFLKWGKFYTKKEAEDNLGVLRKFSKIYETQDRIYNDLFSLSQLIGKYDKTNYGIEKYLYNNKLLETQKEQNLSIDLTLQRILYEELKKTVKEKNASGAVALIMNTKTGEIKASVSIYPWNMGYMGYIEPGSTLKPMIYAMAIDENIIKPYETFKWSYQYTPKNTNIKIKESEYFDLGTMDIKTALAHSSNVAIAKVMEKILNTYSQEWLYNSLLKMGFGKKTNIEFSGEIDGVLKNPDEWKSITPYQIAIGQGIGVTPIQLITAFNAIVNNGYYVYPTFFKNKKVFGRQIYSERTSKKLLDWMRYTTILGTAKDAYKEGLLIGGKTGTAQKALKGIGYTKEDYYSLFEGYYPSINPEYTFLIIVDDPKGEYYGGEVAAPIITNVFYNYSKRKEVYNYLGYYFKGVLPNLINFDMEEAKALLINLGYNFNKIIITGSGTKVTYQYPNPGTLLKDTQYIELRSD;locus_tag=LOCUS_20460;note=WP_004080731.1 penicillin-binding protein (Thermotoga) [pid:33.0%25%2C q_cov:94.8%25%2C s_cov:95.0%25%2C Eval:4.1e-71],MGA_2058
sequence1	MetaGeneAnnotator	CDS	2228462	2229418	.	+	0	ID=MGA_2059;product=DNA polymerase III subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082816.1;translation=MKKILIYGDSLIKKELIIKKFFTNNNFEKLSKENYTFEKINTLLSTRGMFTKKKDILIENFDDFKTSQKKEITSLLNNEILTDGILIVSSKKEIKNINFDEKKKAFLPKPWEEDKWIKFINELAEPKKIKNEASEYLLSLLGNNDLYLYGEIKKLKIYSNEFITFNDVVEIGSNFSKSNLEDFFYYLSSKKINEVIKHFKNISNNDFDSIMFNSFAFKYFFDLYKVISFVEKKNKYTWPEVEKIKNETKVNSQRVRNFLGINFKNDKIKKINLVKLYEIKELRNILIEIEKIDRKLKIGADHRVIFLDFFEKVCRYEN;locus_tag=LOCUS_20470;gene=holA;EC_number=2.7.7.7;note=WP_004082816.1 DNA polymerase III subunit delta (Thermotoga maritima) [pid:31.0%25%2C q_cov:98.4%25%2C s_cov:96.3%25%2C Eval:7.7e-36],MGA_2059
sequence1	MetaGeneAnnotator	CDS	2229408	2230346	.	+	0	ID=MGA_2060;product=elongation factor P maturation arginine rhamnosyltransferase EarP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016605.1;translation=MKIDIFCTVIDNYGDAGYTLRMAMALRSLKTSLKIRIYTDYKELFLKLKPKFINDIDILSFNEIKKYEASDVCIGMFQYFPNDFFINKINKNSKKFIVIDYFTSESWADEVNGNNCLHNGLNIPCEFYVPGLSNKSLGVLTYTSAMKKTKVNNNIYLYTPEKLKTFIDLNDSILWSGNINNIKKMNFKTQDIFDSYILGAKYNWIRGEDSFQLALWSGIPFFWEAYPQKNEIKKLKIDAFLNFMKPFLDEFYQSYYNIILYINNFKKTSIKESYLFINNNYNDFKNKFMNLNQYFLNRKSFQKNLIKIIEIL;locus_tag=LOCUS_20480;gene=earP;note=WP_011016605.1 elongation factor P maturation arginine rhamnosyltransferase EarP (Fusobacterium nucleatum) [pid:29.0%25%2C q_cov:97.8%25%2C s_cov:93.1%25%2C Eval:7.5e-28],MGA_2060
sequence1	MetaGeneAnnotator	CDS	2230386	2230943	.	+	0	ID=MGA_2061;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897833.1;translation=MITAAELKPGYVVKINGKLYTVLKAKYNWSGRNEATVTLKMKNIENNSMLDTVMKGGEKLEDIQLDHREMQFIYTSGDYYAFMDNETYEQIEVLKDELGDIVNFLAEDGIVIVSFYEERPVAFSLPKNVILEVTYTEPGERGDTVGNTLKPATLSTGYEVGVPLFINIGDKIVIDTRTGEYASRA;locus_tag=LOCUS_20490;gene=efp;note=WP_005897833.1 elongation factor P (Fusobacterium) [pid:48.4%25%2C q_cov:99.5%25%2C s_cov:98.4%25%2C Eval:1.6e-42],MGA_2061
sequence1	MetaGeneAnnotator	CDS	2231011	2231937	.	-	0	ID=MGA_2062;product=DUF5655 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005693981.1;translation=MALFELKNDKKIDEIKEKEFKLEKELQEVCEINMEKLLGIKFIKSEFAVENYRFDTLGYDEENKAFVIIEYKRGQNYSVIDQGYAYLATMLNNKAEFILEYNEKFDNSLKKIDIDWSQSKVIFISQNFNKFQKDTINFKDLPIELYEIKQFENNILYFNEIKGNRITNSISNILSKDEKVQKVISEIKTYTLEDSLSSGSKEIIELFKIFSDKIEQMIPDIEVEPKKIYIAFKKNKKNIVDFKLQKKNLKIWLNISKGNLEDSRNIFNDVSQKGHHGNGDYETTINDDENLEYILSLIKQVYKKNFNK;locus_tag=LOCUS_20500;note=WP_005693981.1 DUF5655 domain-containing protein (Haemophilus influenzae) [pid:49.8%25%2C q_cov:92.5%25%2C s_cov:94.0%25%2C Eval:1.4e-74],MGA_2062
sequence1	MetaGeneAnnotator	CDS	2232192	2233424	.	+	0	ID=MGA_2063;product=ATP/GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016983.1;translation=MLIQFNFKNFKSYKNEVSLDLSATSIKDHEYNLIHDKNEEKFLKIAAIYGPNAGGKSNIIEAFRFMRYWVLSSFKEAGERKGIPLKCFAFDEKFKNGKSEFEVFFKEKGYEYQYGFLIDDSKVYEEWLYKRDFRGKNKYNIIFERKENNIKSSKFLKKVVSITENIINGSTLFLSFLGNINVKEIKNVFDWFREIKVINFGDSFSELIYETNSELKRRYKDKKYIKGLVEFLKSIDIDIEDIMVKERISNNKKTSILYSKHYDNKKKLIELPFDEESDGTKKMLLLYNIFYDVFKNGETIFIDELDSKLHPILMRKVIAMFHDEKVNKNNSQLIFTTHNVVLLTKDLFRRDEIWFAEKKSKESKLYSLVEFKVNGKKVRNDASYDKDYLKGKYGAIPIVKDFYFRAEKNE;locus_tag=LOCUS_20510;note=WP_011016983.1 ATP/GTP-binding protein (Fusobacterium nucleatum) [pid:38.6%25%2C q_cov:98.8%25%2C s_cov:99.8%25%2C Eval:1.7e-65],MGA_2063
sequence1	MetaGeneAnnotator	CDS	2233417	2234106	.	+	0	ID=MGA_2064;product=RloB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016982.1;translation=MSSRKRKKRIRKENIRNENIVRYLIACEGKETEVNYFEGIKKKFEEKGLLRRDSTVFDLKKYNFEIKGVERGTDELLKEVNRYINRNSNIYDNIWLVFDKDNFSDESFNYTIEQSKNNGYSVAWSNKCFELWFLLYFEYNDSNLNCKNYIEKLDTNVKKNINEKGYKKNRKDMFEILERYSGWKKAYKNAEKLVNKFKNEKSYAKKAPYTTVYYLVKELCEIIEKQDKK;locus_tag=LOCUS_20520;note=WP_011016982.1 RloB family protein (Fusobacterium nucleatum) [pid:31.0%25%2C q_cov:88.2%25%2C s_cov:88.3%25%2C Eval:8.1e-17],MGA_2064
sequence1	MetaGeneAnnotator	CDS	2234168	2235166	.	-	0	ID=MGA_2065;product=bifunctional 5%2C10-methylenetetrahydrofolate dehydrogenase/5%2C10-methenyltetrahydrofolate cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183064.1;translation=MQNKLFSIKTIIDMFDKPIFKKNIELYKNNNINPKIVCIITSDDLGSLSYSKGINNICKEFNIDFENFYAYSRHELTDIINSCNKNESINGIITLYPIDFGKDTHFMNLVSFEKDIEGLNNKYLGYLMQHEKFQDEYGLRKLIIPPTAKGILYVLKRYNRIFESHMKTFGKYPDTVKENPFNLNGKKVTIINDSLAVGRSLALMFLNENASVRVCQKYTDYKDILNFVSNSDIIISAVPSKKFIIPTNSIKENSIIFDVSFTGNFEYPSIYEKVYKISPMWKLVKKGNRINDMTLHRLISNLFYLTNRNLPEKDLIELKNFENSIIPKKEMD;locus_tag=LOCUS_20530;note=WP_011183064.1 bifunctional 5%2C10-methylenetetrahydrofolate dehydrogenase/5%2C10-methenyltetrahydrofolate cyclohydrolase (Mesoplasma florum) [pid:26.8%25%2C q_cov:86.4%25%2C s_cov:91.6%25%2C Eval:1.5e-16],MGA_2065
sequence1	MetaGeneAnnotator	CDS	2235167	2236378	.	-	0	ID=MGA_2066;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSDIYFKSFKEMAELSSIITGTESEKDFFKKLLSAAIKSIPEAECGSIWKINGSLYKGMVGYCYDDSISKVEIPIEESYIYKTLEKDEIIEVKNIENAKMKPQELYSDKSNKFTKSVTTLIVPLKIHKKIVGHIYIDNFLIKSFSEESKRILQVFSNFASTFLTLKASRDKEREANELNSVYWSFITHELRTPLTSALGYAEYILRNRDIEEKELRIHVKKIYASSKHMNSLINDISTFNKLNRENKISIEKINFKQIMFESVSIVEPLTSPDVELNIKYEANIPEFIETDTTKFTQILVNIIGNAIKYTDYGYVDVKVSYDKNKKLFIIHVEDSGPGIPKDKLEDIFKPFIRLSKDKPGSGLGLAIVKKTIKLLGGDLNIVSEVGYGTKFTIKIPHSLKVF;locus_tag=LOCUS_20540;note=WP_164922188.1 ATP-binding protein (Rhodopirellula baltica) [pid:32.9%25%2C q_cov:58.6%25%2C s_cov:31.0%25%2C Eval:7.2e-32%2C partial hit],MGA_2066
sequence1	MetaGeneAnnotator	CDS	2236407	2238116	.	-	0	ID=MGA_2067;product=YgiQ family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083105.1;translation=MFDIPTTREEMNKLGIKQLDVILVSGDAFVDHPSFGTAIIARVLKDIANLKVGIICQPDWKTSKDITRLGEPKYFFGVTSGNMDSMVANYTASRRKRKTDEYTPNADFGKRPDRATIVYSNLIKQNFKGIPVILGGIEASLRRISHYDWWQNKVKKSFLLDSKADLLVYGMGEKTILQVADIFKNGGNIDDCKKLRGVVFWKSKLPKNNFKYKSLPSFEEVSNSKEKYMEMFKIFQNENDPLNSDGLIQKHDNRFVIQNPPQKYLTTKEMDMIYDLPYTKKVHPYYKKMGYVKALDTVKTSITSHRGCYGECSFCAITLHQGRTIQSRSIESILNEIKKMTADSSFNGIISDIGGPTANMYGHDCSKKIEHGACKNKRCIGIKTCNLLKPNHSKYIELLKKARKIKGIKKIFVASGIRLDLIFEDKIYGMDFLKELINHHISGRMKIAPEHASKKVLNLMNKPDFSITEKFIETFKKLNKESGKKQFFSAYIIAAHPGSTLEDEKYLKKRLNKSFGFTPNQVQIFTPTPSTKSTTMYYTEKDPNTNKKIFVEKNEKKRKIHKEIVVKYN;locus_tag=LOCUS_20550;note=WP_004083105.1 YgiQ family radical SAM protein (Thermotoga) [pid:51.7%25%2C q_cov:98.9%25%2C s_cov:98.1%25%2C Eval:4.3e-169],MGA_2067
sequence1	MetaGeneAnnotator	CDS	2238284	2239810	.	+	0	ID=MGA_2068;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766109.1;translation=MKKLPIGVQDYKELITDYIYIDKTKYLHELITSGKFYFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRISLLDTTNDTEEELKDGLLRIIKREAKKYGINIESDHYKYAFDELIFELSRKERVVILVDEYEKPILDNINNKEKAERYREILRNFYVSIKSNDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELESNFKEHIKETAIEMKMEEKELLKNLKMYYNGFSFDGENSVYNPFSILRFFNERKFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGIKRLGLREKYILDYPNIEVKNSFSKIILEANYGIRETEQIETTIYERIYEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEEDTIYIMEIKIDKSAEKALNQIKEMKYYEKYKEKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_20560;note=WP_008766109.1 ATP-binding protein (Bacteroides) [pid:35.4%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.9e-80],MGA_2068
sequence1	MetaGeneAnnotator	CDS	2240545	2240832	.	+	0	ID=MGA_2069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSFVVLMLVLMTFSVFAVSPKRDQSIHASNPVINSGLFNEKLNTPKMPTNIIVNSLEKNSINKVGEIGQTTGMGRLMVVAWRIGKKGVVGTVK;locus_tag=LOCUS_20570;note=MGA_2069
sequence1	MetaGeneAnnotator	CDS	2241133	2242011	.	+	0	ID=MGA_2070;product=type II CAAX endopeptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011181548.1;translation=MNVRKFENIKAREFLSMYIVTTGLNHLYFYRKSLKEEIFFLIISQMLILMWFLYKIKKNKIYIKNFFKTNGKKYKKKDTIKFVTATSFIWIVYLTVFMLIALMYIMITGNDIHFPNDIHFTNKVEPNILNSGLLNLIYTIAQSLIISPILEEFIFRGIMINRFSLKWNVKKAVIISSIIFGLIHVNKINIITATIYGLIIGIVYVNTKSLKLPMLIHFFVNFITLIIDFIPDDTSIEDITIFKSDIIFILLIVVPISIYILKTIIKFLKNNSLSKVKNVPLEMEEFDYELNQ;locus_tag=LOCUS_20580;note=WP_011181548.1 type II CAAX endopeptidase family protein (Bacillus) [pid:23.0%25%2C q_cov:94.2%25%2C s_cov:93.0%25%2C Eval:3.8e-18],MGA_2070
sequence1	MetaGeneAnnotator	CDS	2242298	2244019	.	+	0	ID=MGA_2071;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081418.1;translation=MRFSKLYAPTLKEVPSDADIKSMELLIRGGFIRKVASGVYSYLPLGWKVIRKIENIVREEVNAIGAQEMLMPVVQPAELWKQTGRWDDYGPEMMKLTDRHNRSFTLGPTHEEMITHIVKNELISYKQLPTTLYQIATKYRDEIRPRFGVLRAREFIMKDAYSFHTSEESLDETYNDFYKAYEKILNRMDVEFVAVEADTGAIGGSNSHEFQVLAESGESTIFYCSECGYYATDEKAESGTKFEKTIEEMKDLKIVDTPNQKTIEEISKFLNTTPQNTIKSILLKGKEGWVLALIRGDYEINLSKIRTVANDQTLDLGEPGEIWNKFNVEIGFIGPIGIKDVKIIADYSIKTINNGVTGALEQDKHYINVNEGRDFNVDIYSDIRIISENEPCPKCGASLKSKKGIEVGQVFKLGTKYSEKMNGVYADENGRPKPYIMGCYGWGISRTLGAIVEQLHDENGIKWPKAIAPFEVIVINAAKTPEALQKSEEIYNELLKKGYDAALDDRKVSPGFKFKDSDLMGIPLKIVVGRSFKEGNVELKLRNEKDGEILKADTESILEKVEEKLNNYKPIKK;locus_tag=LOCUS_20590;EC_number=6.1.1.15;note=WP_004081418.1 proline--tRNA ligase (Thermotoga maritima) [pid:59.5%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:3.7e-200],MGA_2071
sequence1	MetaGeneAnnotator	CDS	2244158	2245942	.	-	0	ID=MGA_2072;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582944.1;translation=MAKNAIKQDEFLKHRSKFEIIMRLANYMKPFKLSVFTITVFMIFVMAINLLNPYLLKVAIDKYIKANDIYGLLKIGMIMIGLNFFALIISKLRVTMMGKMTNRIVVNIRRELYSHIQKLSFSFFDDRPVGKILARVIGDVKSLEQFFSNSVKQFIPEILRIVFVTIIMFSMNFKLALVSISILPLLFIGLFTIEILSRKRWDLFRKKKSNLNAYTHENFSGIRVVQSFVAEEKAINSYNNFVDEMTNSFIKAVKLQDLFWGMVQLSWGLGMVIVYFYSVKMIDEKSITIGTLVAFTWYISMFWRPIMNIANFYNTLVTSFSAADRIFEILEIEPNIKDYSTNKMKKINGEVEFKNVSFEYETGIPVLHKVNFKVNAGEVIALVGPTGAGKTTIINLLSRFYDVTSGKILVDGVDIKTVELESFRSQMGIMLQDTFLFSESIKENIKYGKLNATDEEIIKVAKIVGIHDYIMSLEKGYDTNVNERGTRLSVGQRQLISLARALLADPKILILDEATSNIDTHTEKLVQEGIKKLLKNRTSFVIAHRLSTIRDADRIMYIDKGKIVESGTHDELIEKRGYYYNLYMSQFEFIAKGV;locus_tag=LOCUS_20600;note=WP_012582944.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum) [pid:55.1%25%2C q_cov:98.3%25%2C s_cov:97.8%25%2C Eval:1.3e-192],MGA_2072
sequence1	MetaGeneAnnotator	CDS	2245942	2247669	.	-	0	ID=MGA_2073;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582943.1;translation=MKKIFKYLKKYKLLIFFAFFCMIAGIILDMINPYLMKIMVDDVLIGNKRNLLKTVLLGIAGISLSRALLGYLREFTFDYIGGKVQGNIRKDLFKHIQSLHFGFFDKMNTGELMSRIGNDIDNIWSLVGFGMGLLIENILYFITASSIIFFLNWKLALISLLTTPLIAYLAFEFEKKIGEAFEKISDQNAEINTTAQENISGVRLVKAFTREKYEIKKFLTMNEKNYDLNVEKLRIWGRYFPLIEFLSDLSVVLVVVFGGMMVIGEKLSIGTLISFSQYIWMLIWPMREIGWLFNMFSESKASAKKINKIFDTKPEIFLNKETNNLNKETFKGHVIFKNVSFKYEDEYILKNINLEAKPGNTIAIMGPTGSGKTTLINLISRFYEVSEGEITFDGYNVKDIPLNILRKNIANVFQDNFLFSESVKENIKFVNKNESINEAIKLSCSNFVYNLKEKENTIIGERGIGLSGGQKQRLTIARAFNKNSKVLILDDATSALDMDTEFELLKNLKKLPNKVTTFIIGHRISAVKNADEIIFIENGEIVERGTHDELLQKKGKYYEIYEQQFKDFKEIKEVL;locus_tag=LOCUS_20610;note=WP_012582943.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum) [pid:49.8%25%2C q_cov:98.4%25%2C s_cov:98.6%25%2C Eval:1.7e-157],MGA_2073
sequence1	MetaGeneAnnotator	CDS	2247653	2247787	.	-	0	ID=MGA_2074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGVIFMKKDVFEVIDIFTKEFDVDIIDNTKNKKDTVIKNEKNF;locus_tag=LOCUS_20620;note=MGA_2074
sequence1	MetaGeneAnnotator	CDS	2248322	2248813	.	-	0	ID=MGA_2075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYTISFNMNEFISSISECSEKTSPLLNGHMKRVSFLSYLIGKKLNMNKKGLKKLIISSLIHDIGIISNYDAKQIFNFIFEKNSKHVEIAYLLLKDINFFKEYSNIIRFHHENWNYGKNNYPYESMIISVADKFDLLFYESSKLNTNYEEFKNILETYTTFNE;locus_tag=LOCUS_20630;note=WP_012048260.1 HD domain-containing protein (Clostridium botulinum) [pid:29.0%25%2C q_cov:81.6%25%2C s_cov:32.7%25%2C Eval:3.1e-09%2C partial hit],MGA_2075
sequence1	MetaGeneAnnotator	CDS	2248892	2250190	.	-	0	ID=MGA_2076;product=ArsB/NhaD family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986138.1;translation=MDLSISKILIIGIFFVTYYLIIFGKTNKSVVAFSMGLLAALVKVSKNIKVSKIGDFIDFNTLGILLGMMIVVGILKTTGVFQAIAGYIVKKSKGNVISIFILTLIAVAVLSSMLDNVTTLLLFSPVILLICQEAEIKPEYFLFPMIFAANIGGTATMIGDPPNILVASASNKGFIEFLSVMILPTLLIFSLTLLFFLFKYKELKNATPEKFEKLLQIEPSKAITDKKLLYKGLLIFSMVIFGFIIHEYLDYEASLIALTGGAVMLLVSKKNFEEIAGDVEWNTLFFFVGLFTIVKALEDTNVITDITRIISSFSNHPLITLILVLWISGILAAFIGAVPVVTIFIPIIQKLILINPYGNELWWALALGASLGGNGTISGAASNMVIVGIIETNFKRKIKFFDFMKIGIIISLIGLIVSTFYLILRVKILKFL;locus_tag=LOCUS_20640;note=WP_011986138.1 ArsB/NhaD family transporter (Clostridium botulinum) [pid:40.1%25%2C q_cov:95.4%25%2C s_cov:97.6%25%2C Eval:1.2e-75],MGA_2076
sequence1	MetaGeneAnnotator	CDS	2250195	2250659	.	-	0	ID=MGA_2077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFLKNKIAYTSLIVVTFYMIFILSRFLRIAPTIISILLPLGMFYLNKKNSIIYTVSLIFLIFISGFIIESIGIFVFFFVPILIYKFNLPKFIYIVYTFLLYALLPFYKLYIPLKNNILLISLYVIYYIFIMYYPILLNYLKKDIDKFLNKWG;locus_tag=LOCUS_20650;note=MGA_2077
sequence1	MetaGeneAnnotator	CDS	2250644	2250865	.	-	0	ID=MGA_2078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKKTLMEEGNFKKLFSEYNKNKELKEDINKFREGYYGYRRNDCGDCLQCIGSIACADSLCECMGGDLCSCF;locus_tag=LOCUS_20660;note=MGA_2078
sequence1	MetaGeneAnnotator	CDS	2250804	2251682	.	-	0	ID=MGA_2079;product=DUF5685 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963968.1;translation=MYGYISLYFKPNDEERKKYLYYYCGICHSLKKNFGNIYRPTIIKEVVLFAMMNEEYKDISEFRCTWMHFGKRYKPNNLSILDKYSYLNMLIIYGKLLDYKFEGTPIPNNYIKKLKNKLLKEFDEQLIEEYEFYLKKQDKIEKKLLDLDEYAKPSQELTKIMMKNYFKDIEDTVPISIGMLIYLVDSIYDFKKDLKKKKFNAIRASFNVKKIENLKNEEKKRILFTYDICAKEIIENSDKLSKFNKYLVKKLLTFSFQFHRIEITKILMGVDKNENKKNIDGRGKLQKIILRI;locus_tag=LOCUS_20670;note=WP_010963968.1 DUF5685 family protein (Clostridium) [pid:28.2%25%2C q_cov:87.0%25%2C s_cov:96.1%25%2C Eval:1.6e-21],MGA_2079
sequence1	MetaGeneAnnotator	CDS	2251682	2252878	.	-	0	ID=MGA_2080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYITKSPKEWEEYDKNKNNNNNNYKKMRKMTSFIIIAISLMVILFTIFGDNFLPQRFDMKIIDGFNFTLLTKDTYYYPEFLDIKVKMQNIKKQTNSFTLKNFTFIIINKDDGNVLYNFVYNKEVKNKINTYVNQTIYDLTKEKKISNIKKGNYEIRVSFKLNEKDVVLTKEFYYSHDLKLNLYPYKDFFLSTENPKIGLEIFNQTNETEAKEIKGILKVIKKDKEIYKENINFGSISLNPMTNKVLNIELKTKLNEGTYTITFETPAFEKMLITILNITKKIDYTSSKLYLSNLSLPIIEKGQTLYYIAKLNNRNKENRGIEIKQMIIKVYYNDEIIYKYIKVNPVRVYLPSFGTKGIFDLEKTKKIKLDKAGTYNVEFIALINGKTFNKKQKIEVK;locus_tag=LOCUS_20680;note=MGA_2080
sequence1	MetaGeneAnnotator	CDS	2252875	2253945	.	-	0	ID=MGA_2081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLWNKKKKEKYKISEKESFSDLFYRDKEYLQDEGIFFHIFFENLDKRISDFHFESNDNNVKIKIRYSGKLIDYKTIKKAEYLRFINIVLIHCKKDIIRNNYNVDGSFNLNGFNYRVSMMDSFFGVSTVIRRLRNIEDINIEFNNNLLKKVFENTQKKSKTILFSGPTGSGKSTTMLYIVNKLKSEYKIHTIENPIEYIIPEIVQIPIKTDDESEMILKYILRQDPEIIVAGEIRDKNFAKLIFNASTTGHTVYASIHSDSVFSALNRLINLVENKKNIVDSIDIIINQKLKPKNCTNCQGTGCKKCYYTGRDGVEPNFEYMILNKKIKEDIINGISIIELENKYKNILVGGAL;locus_tag=LOCUS_20690;note=WP_002864463.1 GspE/PulE family protein (Campylobacter) [pid:32.5%25%2C q_cov:88.5%25%2C s_cov:64.4%25%2C Eval:1.5e-35%2C partial hit],MGA_2081
sequence1	MetaGeneAnnotator	CDS	2253923	2255026	.	-	0	ID=MGA_2082;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080800.1;translation=MPFELEDTKQQPLFKKKAKYTIKVIGVGGAGNNAVKRMVEKGIDDVELIAANTDVQVLELNPAPYKIQLGEKLTRGLGAGGNPVQGKESAIESLEKIKEYLENTDLLFITAGFGGGTGTGAAPVIAKLATEMNILTVAIVTTPFHFEGTTRDKIASEGIKELKNNVDSLIKISNDRLIDPNENKPIDEIFAEADEVLYQAITGISNLITKPGLINVDFADVKSVLKGKGSAMLGIGYGKGENKAEEAVRKALESKILDNPVKNCTAVLVNISGKNPTVQELKTISNKLKDSAIDDANMKSGISIVDLPEDEIKVTIIASGYDRFSEENTYEDNIYEQPALYRYFGKSIVTDEISKVEKILHEEESME;locus_tag=LOCUS_20700;gene=ftsZ;note=WP_004080800.1 cell division protein FtsZ (Thermotoga) [pid:52.2%25%2C q_cov:86.6%25%2C s_cov:90.6%25%2C Eval:4.9e-85],MGA_2082
sequence1	MetaGeneAnnotator	CDS	2255043	2256323	.	-	0	ID=MGA_2083;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_034098846.1;translation=MAKNYLIGLDIGSFKTKGILFEEENKHYRVLSYGSKKTSGITGGELKDIEKITETIRSLINDLTKDLSKKSKSIELITGYSTNELYISSENFTVEYTEKTEIVQKELEKIKNSVVKKYSEDKKMILDISFTKFIVDDKIVSNPIAFTAQKSLTVSLNVVWASENSFVTLSSAFKKIVSDNKLPAFDTTLSMAYAATTSQDRENGITFLDFGYRACRAIVFKDGIPSMFHTFPYGIKYVLKDITTVLKTTEAEANRLLIEHAVCLKDTKVTKKIDFNTVSKPDMAHCTQNLLNKIVYARVREIISRFNGELSKKRFGRSNEFGGLQGGVIYCGGGSQIKNIENTIQELMGDNFRKGQLSLEIFKNVPEELNKKMEYLSVFGLIERNENMKINEGNVENTKEINTAKKNKKGFGNAFKSIFKKLVNED;locus_tag=LOCUS_20710;gene=ftsA;note=WP_034098846.1 cell division protein FtsA (Flavobacterium psychrophilum) [pid:22.5%25%2C q_cov:89.0%25%2C s_cov:81.0%25%2C Eval:1.1e-17],MGA_2083
sequence1	MetaGeneAnnotator	CDS	2256338	2256802	.	-	0	ID=MGA_2084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFYLKTFILKMFLIFFYIFSLSLILPPHNNEDAIYLKEKDIKPYAMYSIKKLNRYFFYNVKNEVVYLYDTIIPGIPEIIFSNDLKDEKKIILNFYNLNNIIKIDFQKKEIFCYNKIRIKFYKLGDLIFLFGEQDILSGLNPGTYTVIDKKIIK;locus_tag=LOCUS_20720;note=MGA_2084
sequence1	MetaGeneAnnotator	CDS	2256803	2258728	.	-	0	ID=MGA_2085;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080806.1;translation=MSEKQYSGNEIKILKGLEPVRMRPGMYIGSTSKAGLNHLVYEIVDNSVDEHINGYCDEIDIKIHSDDSIEVMDNGRGIPVDIHPTEGKSTLEVVMTVLHAGGKFDKKAYKVSGGLHGVGASVVNALSEYMETRVYKDGNIYFQRYKRGIPENDVQIIGKTDRTGTHQKFRPDPEIFEEGDVAVESYSIQNRLREIAFLNSNLKINFSDEKKQIKELFHFSGGLEEFLEYEIKKRKKIKISPPIYINGTYMHKKDEMEMQVEVEFCYTNSDEAQIISFVNNIRTIDGGEHESGFKLCLTRTMNEYAKKLNIIKEKDPNFTGEDVREGILAIIHVKMANPIFEGQTKGKLGSKYARDAVNQVVNEKLTLYLDSHNKECKTMLDRIQFASKKRLAAKKARESIKRKSVFENSTLPGKLADCTSKDPNVSEIFIVEGDSAGGNAKQARDRYYQAILPLRGKILNTEKTDFLRLLKSEQIMNIVTALGTSIGEEFNPEKLRYGKIIIMTDADVDGMHIRTLLLTFFFRYARELVENGNVYIAQPPLYRFEVDKKHFYLYTENELEKLKAQYSGKKIKVQRYKGLGEMNPDQLWETTMDIKTRKMLKIKIEDLEMVDETIDVLMGSDPSLRRNFIEENAHRVKELDV;locus_tag=LOCUS_20730;gene=gyrB;EC_number=5.6.2.2;note=WP_004080806.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Thermotoga maritima) [pid:57.2%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:3.8e-209],MGA_2085
sequence1	MetaGeneAnnotator	CDS	2258732	2259025	.	-	0	ID=MGA_2086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDFIKDILKSLSKKDKIIKKIYNTSSIEDIWNNVIEKKLKKYTKIENYETKNKILIVSCNKNIVMQEILFKKNEIIKIINEQLNEEIVVDIKVIRR;locus_tag=LOCUS_20740;note=MGA_2086
sequence1	MetaGeneAnnotator	CDS	2259027	2259845	.	-	0	ID=MGA_2087;product=aminotransferase class IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080810.1;translation=MFYNGIEWSEYPLISADDDGFVRGYSIYEVFRTYSKQFFALSKNYLRLKKSSDFLGIEIPSFEKILEILEQAKKLHSFQEYRFKLYVTPYTASIKSFYLFVEEIKDDKELIDEGVVLNIARERKPHAPVVPYYVKTPLNGFTRYLNKKYDYYYDSIVLNEFGYVTECTYSNIFFVNSGVLITPYLSAGVLPGITRENVIELSKNLSIEVEERNVELWELLSAEEVFITHTSRGIVPVKRIYPHFTFSVPGIVTDTLLQNWSDFIKDYPEEKI;locus_tag=LOCUS_20750;note=WP_004080810.1 aminotransferase class IV (Thermotoga maritima) [pid:39.9%25%2C q_cov:89.7%25%2C s_cov:87.9%25%2C Eval:3.2e-37],MGA_2087
sequence1	MetaGeneAnnotator	CDS	2259835	2261115	.	-	0	ID=MGA_2088;product=tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080813.1;translation=MKKISLITFGCKMNQAETQKISEVFEDLGFSTCFDEKDGKSDFYFINTCTVTSEAERKIRQLIRRIKRKNNSSKIIAGGCYVHTDAESILKSGADLILGNHEKKEIQKYYNKTGIFLDKSYWLKEDKVIVPERSYGNRTRIFLPIEEGCLNACSYCRIIFARGTKIRSLTIHDVLNNIKKYINTGYKEIVLTGINMEYFGYGLNENLEKLLFQIEKNFSKEDVRIRLTSLYPDSINENISKLLNESNIFEKHVHFSMQHISSNILKNMGRRYSERTIYKSVEMLRKYNELFSITADLIVGFPGETNKDFEILLKGVNDLKLLKTHSFRFSPRPFTKAERMKKQIPSEIKKQRIKILNKESLKTSKKYLENFQNKKVKVLFESKENNFYCGYDEYYIYHYSKDVLQKGFNNTIIKSVIPEGVVSNVL;locus_tag=LOCUS_20760;gene=mtaB;note=WP_004080813.1 tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB (Thermotoga maritima) [pid:36.0%25%2C q_cov:99.3%25%2C s_cov:96.8%25%2C Eval:3.8e-71],MGA_2088
sequence1	MetaGeneAnnotator	CDS	2261118	2261567	.	-	0	ID=MGA_2089;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080815.1;translation=MKATDIMERDLTAIMSDETVKRFIMICQRHGISALPVVNDDYKLVGYLSESGIISSSLPGYLQLMESSAFIPDSQQFFKGLKNIINKPVSEFMIENPHKVYVDDTALHVADIMIKNKLKLIPVIDQEERLVGIIRRIDLLSKAAKGENI;locus_tag=LOCUS_20770;note=WP_004080815.1 CBS domain-containing protein (Thermotoga maritima) [pid:39.5%25%2C q_cov:98.7%25%2C s_cov:98.0%25%2C Eval:6.8e-28],MGA_2089
sequence1	MetaGeneAnnotator	CDS	2261584	2262549	.	-	0	ID=MGA_2090;product=1-phosphofructokinase family hexose kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080817.1;translation=MKYDLLSVTMNPSLDREVVVDNFKTDQLFRINNPSNSVMDPGGKGINVSLMLSTLGINSISTGFLGGFIGKVIQKGLSSVNEITTNFVYTRESTRENIEILDTLNNTITEINSMGPFITEEDYDHFLKRYRSTISLTENVLISGSIPPGVPINSYSKLLEIAKSENKRTFLEAIGPHFDQAIRENCADVVRVDLRKRTSRVLGSKLEKIEDFIETGKEILNYGAKLVIMSFHIVGDVVITNDGIWLFTVKEEIDNSHLLGTGDAFMAGIIYYLLKNELNYFEAAKYGMASAISSARYIGKILGNEDEVKNDLGKFEIKRLD;locus_tag=LOCUS_20780;note=WP_004080817.1 1-phosphofructokinase family hexose kinase (Thermotoga) [pid:42.0%25%2C q_cov:98.4%25%2C s_cov:99.4%25%2C Eval:4.4e-71],MGA_2090
sequence1	MetaGeneAnnotator	CDS	2262621	2264063	.	-	0	ID=MGA_2091;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080829.1;translation=MSLMDSMKNMMMKQVSKLVTNVVRKSDVEQLAKLFWTLSKFTKEPTKSGIVKLAKGAENHDPMLVNWAELFKKSSPKQVEKIINNLIINEFAIGEKVRQEKMHEHKVVLPKLAIISPTYACNLRCVGCYSALYGHKYQLSKDELFDTIRQFNDLGIYFFIITGGEPFVYPHLFEMLEEFDDSFFMIYTNSTLINEEKAKRLSELGNATLAISVEGFEEMTDWRRGKGVFKQIQNAWNLLTKYGVVYGASVTATSKNHDLIISDEFWDFLKDNGNAFSWVFQFMPVGKDATMDLVPSAEQRLERFRKLEELRLGGKFAFVADFWNHGFLTHGCLAAGSKYLHINAKGFAEPCVFQQFAVDNIRDKTVLEILKSPFFEAYKRTIPYSDNLFRPCPIIDNPKVFRSMVNKFNAIPQHPGSERTITDLAPELDKLAADWKVYADKLWIDEGYSEKWPSKRGVYNYETRMRRYENHEEKLALDKK;locus_tag=LOCUS_20790;note=WP_004080829.1 radical SAM protein (Thermotoga) [pid:67.3%25%2C q_cov:98.8%25%2C s_cov:98.3%25%2C Eval:4.7e-198],MGA_2091
sequence1	MetaGeneAnnotator	CDS	2264088	2264660	.	-	0	ID=MGA_2092;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANMKKEKKLLKKKLIAEKAIELITEKGLNNFTMQDVAQKCNVSKGTLYLYYKNKNSLIISAFGILVEKLKKTFIYETKDVSIPQKADFILNTYSEILNKFPSKDLMKILEILISSIHDEEMMEELTNIFSTYYSQTLDFFETVFGSRQKSLLIHAMFDGLAIYKALGVNFCKDDIENDFKEMILKIYKK;locus_tag=LOCUS_20800;note=MGA_2092
sequence1	MetaGeneAnnotator	CDS	2264954	2265697	.	+	0	ID=MGA_2093;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082209.1;translation=MKFIHFFNSLFFTLVFFVGFLFYVGIYGEIVYLIYLIKLKKNKKEALEFLKKRAVVFSKATFKFTNCPVNLIGKENIPDNGPYVIVGNHQSLMDGPLVIGFIAPVIFILKKQNMKVPFISKFFKALDFIPVDRDDPRSGAITLRTFAKELKVNKSIISVFPEGTRTNNGEVGKFKEGSLSVPYKFNIQILPIVIDGTFNMMKKNRLLLNPTKINLKVLKPLQPKDFESEKILSDYIRDLIIKNKNNL;locus_tag=LOCUS_20810;note=WP_004082209.1 lysophospholipid acyltransferase family protein (Thermotoga maritima) [pid:34.2%25%2C q_cov:91.1%25%2C s_cov:89.9%25%2C Eval:3.2e-33],MGA_2093
sequence1	MetaGeneAnnotator	CDS	2265721	2266944	.	+	0	ID=MGA_2094;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082210.1;translation=MDLILVKTNEIALKNKNKKFFEKQLIYNIKSKLSSRYTIIKKFNRIYLKPRANVIIEENDFKLLKKVFGIHAFSPVYKVEKNIEDIFEKALYIAKKISNKDNKTFKIITKRSDKKFYLESQEISAKTGEFILNNLPNLKVKMKNYDFSINIEVRDEGAFLYSESITAYGGLPVGVSSKGSLLLSGGIDSPVAAMLMLKRGMVLNAINFMSPPYTGKKSLDKIIKIASKISEYSIMPFYLYSIPFTKVQLAIKDSNAERYSIILQRRSMMRIASKISQITDTKVLITGESLGQVASQTVENALSISDASKRLIFRPLIGFDKEETIQLSKKYDLYNLSILPYEDSCTVFVPTRPATKSKIDILRNLEEKIPNLEELEKEVINSSEKFEFIDGELKKIEDFVKIKGGVF;locus_tag=LOCUS_20820;gene=thiI;EC_number=2.8.1.4;note=WP_004082210.1 tRNA 4-thiouridine(8) synthase ThiI (Thermotoga maritima) [pid:38.0%25%2C q_cov:95.8%25%2C s_cov:100.0%25%2C Eval:5.1e-70],MGA_2094
sequence1	MetaGeneAnnotator	CDS	2266976	2267827	.	+	0	ID=MGA_2095;product=polyprenyl synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082783.1;translation=MENFKKEFNNYIKLYFENNNIENKYFRESLFYSMINGGKRLRPWIINEIGKFLDIDKNILLDIGLAVEILHTSSLIHDDLPSIDNSNLRRGKLSNHMRFDVHTAILSGDYGFIVPNKIILNLPIEDNLKIKVLDMFLSTSLKLFSGEMNDVAFEKYSLNPTLDEIIKMYEYKTGVMFGFSFAAPFLIVNDSKKAKKFYEVGVKFGLAFQLFDDLKDLKGNSKILGKDVNKDINKLTALKLLGVTKTEEKSNEFFNSCIKTLNEYKMNNFSEKLISLKKLIQER;locus_tag=LOCUS_20830;note=WP_004082783.1 polyprenyl synthetase family protein (Thermotoga maritima) [pid:37.5%25%2C q_cov:90.5%25%2C s_cov:91.5%25%2C Eval:6.9e-46],MGA_2095
sequence1	MetaGeneAnnotator	CDS	2267837	2270308	.	+	0	ID=MGA_2096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPKKEKKIKKSKKDKKENLDKKKKLSFDFIKKIKLYLNRLKFKLTRKNIIIMSIGLIFVIGLIIGINYLNSMVKQKEQAHQKILSQDLKVIIPDGAFPSKKTFDIVELSKDSIEYQNLVSMANFTGKIYYVKPSDGKEESSLKPIIVRYKIPKKLYFGDNYTNFSLAYANDDDPPIISEFSGCRIVKDGNDYYIEAETFHLSKIGLIQKSPKEASYGLRTLVEKPPSIKNDIILVGGSDLNFSGYLSNTKTATDPYGKNLWSVLFPDRTIWKYNYPMVETKSKLYYDSFLAFLMRTGQNSYIEFEAKRLAQELKRLPNRTFDIIAHGVGGLIARMAIESDPDIKNVQNIVLISTPNKGTNIANPLFFNVLYGKNISDLSKTFGINERTMVSIEHNVNFYIEQINSYYKEIMPNSYVLKKLDSFGLRKDIHYMAIAGSVTGLNESIKGSILERFYPEFLHGDGIVTIDSALNDKFEKNLLFKKSFFEIYTDPKILDSIKLFLNSKVDKIVIKPFENDNFIETYKEKELAEKKELAKSYNFFKVPNSYSEKTFILKNNDYGVLKEDYIKIQKLKNKLFLETPNGVYNDKFEKILNVKVLGGIIYNGRYFISAPDGIYATDETGGVFVKVSNSLITSNEAYYLPNNGLITVFNEDMYSSVYLDNSLISNKFLFKKIKIIDKDVYFVFNNKISIINNGKLLTVLNKEDLINKGLNNFGDFIDFVPYKKQLFILTSDYKLIMYDTEYFKTQIIGNQDIGRLSLFLNNDTLLVFGKTTLTKINLKDRIFNGDYQKFKNEIEDVYFDNKTFYFITKTLRGNLLWDGKIN;locus_tag=LOCUS_20840;note=WP_004082785.1 alpha/beta hydrolase (Thermotoga maritima) [pid:30.6%25%2C q_cov:74.2%25%2C s_cov:77.7%25%2C Eval:2.5e-67%2C partial hit],MGA_2096
sequence1	MetaGeneAnnotator	CDS	2270287	2271504	.	+	0	ID=MGA_2097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGWKNKLVLFLIIILFVISFGNYQTAYNYYLSGIKAYRAGSYKMSETLLEKALSISSKIEQDIPEIKLYIGIDAFHNEEYEKAKIYLSQFPDNALALEILKNIKENNLTEKLNFDSFKLDKSQPTPQSTDTKKEKFNFVSFIMITLIVFLLSALSGFLVFFVIKKFGFMNSTVEVLSNNENEDNNFQNIKNISIEEVINLKLDNVENIWNKSKALKKLLNEVEGNPQQNLENDEDIENMDKNISQNLEETTNTKELSSKIDESLKDANIDELENLLDELEGNIENKEEVPEIDNSTDLLSENVEEDDDEEREKFLKEKQEVEEKLKTVETAIEPDKTMKKNYESFLKEETSEFEKEAYLANGFNSIVEDIEKDNTNNGSKVYSKIQLEKMFKTLFFELNNEENIL;locus_tag=LOCUS_20850;note=MGA_2097
sequence1	MetaGeneAnnotator	CDS	2271544	2271696	.	-	0	ID=MGA_2098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAINKPYHLVSKTPNLNKIGLKYHSPEKLFGRINIEINKKIEIIVINILK;locus_tag=LOCUS_20860;note=MGA_2098
sequence1	MetaGeneAnnotator	CDS	2271704	2272405	.	+	0	ID=MGA_2099;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082778.1;translation=MLAVSIAEKQAKKEKILENDFFGAIIFGIIFGIIGARLYYVTFNWNYFSQYPTEIIKTWHGGMAIHGGVLGSILAAYIYTKRKKCSMKFLQSLDLFTFVLPLAQAIGRWGNFMNHEAYGGPTELPWKMFIALKDRMPGYESYSYFHPTFLYESILDLSIFLFLLYYIRNKRNSFGEVTALYLILYSIGRGFIETLRTDSLMIFGMKTAVLISFILSIIGIVMFIYIKKKENKK;locus_tag=LOCUS_20870;gene=lgt;EC_number=2.5.1.145;note=WP_004082778.1 prolipoprotein diacylglyceryl transferase (Thermotoga) [pid:48.5%25%2C q_cov:100.0%25%2C s_cov:79.2%25%2C Eval:1.4e-59],frameshifted%2C insertion/deletion at around 2271617,MGA_2099
sequence1	MetaGeneAnnotator	CDS	2272402	2272914	.	+	0	ID=MGA_2100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIALVQYKSKKDFYENNVTLENFIDILSDMNIQILILSGNFSGNINKEEFEDLKEVLSAISEYNDITIIGTIKLNGTLKTLIQVPYNELTVLEKTNYELTMNKKVLNIINPNIKIDEHIKEDKINIISTVILNEEFNNTIIALPENSKININNSQKTGGNLEGYIVFKV;locus_tag=LOCUS_20880;note=MGA_2100
sequence1	MetaGeneAnnotator	CDS	2272886	2273692	.	+	0	ID=MGA_2101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDILFLKFRLLFIIIFILIFFPITIIVSDKDSIKLYSTGINLIVLNTKDTFKSNTFFFYKKIPYFNYAIINFKNSFLRFSNEKFLIQKQSKYNSAYVYFNKKFYKYKNFYSDKKWILSTVDSISNILKKLSIPTQNLFFVYTENRSFHINPNVMFVNSKKDIAHEYSHYYFGNLIEHSSKDTWHEILCETNSLLYLKRNNMEEYLNEANLKTIGYYKFPYGKNILEFIKRFNYNFDKIIDFESFLTKNFKKLNDKKFNSILKKEEFK;locus_tag=LOCUS_20890;note=MGA_2101
sequence1	MetaGeneAnnotator	CDS	2273689	2274372	.	+	0	ID=MGA_2102;product=metal-dependent hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080208.1;translation=MKLTYLGHSVLLIEGSINAIIDPFITGNPQCTVSLDSIKKLDYIFVTHGHGDHFGDTIELAKKTGATVVCNYEIGLYLQMNGVENIHSMHIGGSKSFEFGSVKLINALHGSSIFDGKNIIYAGNPCGFLLEIDNKKIYHAGDTGLTLDMKLLEKYSIDVAFLPIGGNYVMDIEDAATAAFFIKPKLVVPIHYNTWSIINADANLFKSKVESLKINCKIMSPSTYMEV;locus_tag=LOCUS_20900;note=WP_004080208.1 metal-dependent hydrolase (Thermotoga) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-78],MGA_2102
sequence1	MetaGeneAnnotator	CDS	2274377	2275543	.	+	0	ID=MGA_2103;product=alkaline phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_080510938.1;translation=MKKIPILLLILFLYSNVFSYKYIFLFIADGLGTNHINLANIYSEYKYKKTLNMEKLNNLSLMTSYNKVMDTSAVMTSIMSFNQTNNGNINIDYNGNNIFPITYYLKDSGYKIALITTKKLTSASPASAYAHSTFNNNKNISNQLLNSNIDLLIGGGRVDLPNSINNFEYKLHIPNTPSLKPELIVTSYSDMPYFIDKRKSMNVMLNYALKKFNNNKFFILIDSSKIANASIAHDTYAMINELIDFDNSISSAIEFSKKHIKDTLIIVCGSHEAGGLSLGDGFINIKNIDIQKYSYEKIYKIMKDSKNFYEFSKKFSFPIDLKKEYDLSKNSTTYLNPLTKKVLNYVNKISGIKWSTYGYTVNYVPVFSNYNYKNIIKSTELLWILYSF;locus_tag=LOCUS_20910;note=WP_080510938.1 alkaline phosphatase (Desulfitobacterium hafniense) [pid:24.5%25%2C q_cov:89.7%25%2C s_cov:84.3%25%2C Eval:1.4e-21],MGA_2103
sequence1	MetaGeneAnnotator	CDS	2275856	2278471	.	+	0	ID=MGA_2104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKKDIKLPYDIGLILSFLIVLPFFIIPKWVYEFSTQKHMFFALFFTALFISYLFTKRNKVINIEYTPVHIFFSFFGISTLLSLISVAIENPIYLRVSVETSLYTILIISVSFLITKKFGEKFKYIEYALFALLITGTIIAIDGLLNKLFGFDIFFGKIGDPNARIALRTTIGNPNFVSDYLAQLLPIAVYFTLKKDSNLFIRFYGLFNIFIMYWVILFAQTRSVYMGLFAGMIVALVSVLISYKNQESKEYLKSKKFIYYFITIIIIFIFLFGMFNIKSPFNKSGEVNASSRFVAMANGSSWDERTLSWMAAIKQFQDKNHPQHIIIGGGIDTYPVYALYYMKDVQKENPERFLYAWNNFKRAHNDYLQVLGETGLIGFFSILGIIISLLFIFFKSIKQEKNFNKMLLFSLFAWIATITIVHSATEFPMHMHPNIMVTLFVLSVAVSKQFNTIKIKKINTLYVLIPIILIGIVVSYLKVLSTASEVYFKYGNNEYSKLDQYYEISNTKIPQVLNNINAQINTYKNQLKNYSPFSEQFKKINEAISSLESRKNTLKREQINYFNNAKNSYLKSKEYFLKSLDMNPAFGKSAFYLAQFFTKYPFRYEEVNYNSLPDIFELKRPEYRYIINEFKGSIDLMPFTSNKLRDTVKDIYNLAYNEETKNIILSIQTTLDEIDELEYAYTSFNEKNAYRLISKYHLVIIEKLNILKSKVKDSKKIDILLDNELKEFFHWYDEAIKLLPGAWNRFPEWENIYSEYIKLNMILLNSRIYNQSILYNKILEITKQDGMANYYMALKFRGIPDVSLELLDSLYLASSTEYKDKLINAIINNYKDVYNYYLDQKNKNSNLYINYKQRIDKFIVTYSHYLNKR;locus_tag=LOCUS_20920;note=WP_004080857.1 O-antigen ligase (Thermotoga maritima) [pid:30.7%25%2C q_cov:84.2%25%2C s_cov:71.1%25%2C Eval:1.2e-91%2C partial hit],MGA_2104
sequence1	MetaGeneAnnotator	CDS	2278478	2278717	.	+	0	ID=MGA_2105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKITTFLLILSISIFLITFICYYKITRVSNNSLEKYYINLMSVNKAKKFIKKGDLEQIKINGYIIKLDNEKIVVKKED;locus_tag=LOCUS_20930;note=MGA_2105
sequence1	MetaGeneAnnotator	CDS	2278719	2279600	.	+	0	ID=MGA_2106;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964266.1;translation=MPKRAILIDSGCAVTDEILKKYNAELIGMNVVLDEKTFIDGITITKDEYYSKIFDVNEFHTSQPSIGSIVKIYQDLKDKGFDEIVDIHFSSKMSGLINTCEMARNMVEDIKIHIIDTESISIGAYLIAEKIMELLQTKSFEEVEKLLPEIKKSSYMQFSVPTLKYLIKNGRIGKAQGLAGTILNIKPILGVEDGFIAPIAKIRGMNKVYLTMKNNAIKFIKDRPNNVKIYIIHSLEKNKEQMLKAYNLFMEDFSKLGIKDYRVIEGRISPTVASHSGPEVFGLAVYGEKEPIK;locus_tag=LOCUS_20940;note=WP_010964266.1 DegV family protein (Clostridium) [pid:31.7%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:1.4e-33],MGA_2106
sequence1	MetaGeneAnnotator	CDS	2279597	2281918	.	+	0	ID=MGA_2107;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008193905.1;translation=MMHIEEILNEYEYILDLKEKNIKKWEEIFPAFYSISKINTKTLKDNNMLEDIKKLLGYVKPLAVLPEERKIKRFKELKTALNKLKNKYLIDSFEKPEKKINLFTDIKFLKHVGEKRANSLRNIGLSNLYTTFFYLPRDYEDRRKIKKIINTKDGEFSLISGKIVNFEELRINKGLTIINYSVEDSTGVIILSFFNQKFVKDKLKRGLEFAFYGKVEYSYGRRQMKSPEFFEISSLKKEILPIYPLTNGISQQVIRKIFKQTIPQVYYYEEYIPKPLIEKYSILNINERIKGIHFPKSFYHKKLAYESMKYEEIILFESALLLSKKSSKQKKFGISKKISGELLKKYLKILPFKPTEAQIRSHNEIRKDLISKSPMNRMLQGDVGSGKTVVSEFAIIDNFEAGYQSAMMVPTSVLAKQQFLKIQKNLKNIGINVALLLGETKNKEKKEIKEKLANGKIDLIIGTHALIQDDVVFSKLGLIIIDEQHRFGVNQRLKLINKGISPDILVMTATPIPRTLALTIYGDLDISIIDQMPKGRKKVKTVLSTDSNLKNIYRFIHQEIDQGNQAFFIYPLVEESEVLDLKAAKDMYEKLKLEFNNVALLHGKMKSEEKNNIMEKFSSKEISILVSTTVVEVGVDIPDATVIVIEHADRFGLSQLHQLRGRVGRSKKQSYCFLITGNNIPETTKNKLFEFSNTFDGFKVSEIDLSWRGPGKFFGTQQHGIHEFKFTDIVEDMLLLDKIRKELESNQESYFDEKLKKEILKRYGKKLNLINAI;locus_tag=LOCUS_20950;gene=recG;EC_number=3.6.4.12;note=WP_008193905.1 ATP-dependent DNA helicase RecG (Thermotoga) [pid:43.9%25%2C q_cov:94.8%25%2C s_cov:96.9%25%2C Eval:9.3e-173],MGA_2107
sequence1	MetaGeneAnnotator	CDS	2281929	2282486	.	+	0	ID=MGA_2108;product=RsmD family RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869855.1;translation=MALKIETGTMRGQTYETVNDKRTRYTPGKLKQILMNIFDFQEVNLLEVFGGSGGFSFEAISNGASSSTIIEVNSKTVSSIIKNLNKLKISNKVQVIKNDFRKAIPKLKNSEKKFNIVFADPPFNLGFCNDFLEILDKNHEIIISGGYIILERSKRENYNLNLKNFVLDESRNYGEITLDIFKKIK;locus_tag=LOCUS_20960;note=WP_012869855.1 RsmD family RNA methyltransferase (Thermanaerovibrio acidaminovorans) [pid:32.9%25%2C q_cov:84.9%25%2C s_cov:86.4%25%2C Eval:9.4e-14],MGA_2108
sequence1	MetaGeneAnnotator	CDS	2282641	2282985	.	+	0	ID=MGA_2109;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965540.1;translation=MEEKCCLSDTPEMINKIRESLPNEEILFDLSDLFKIFGDSTRIKIISLLFKGEFCVQVISKILEISRSAISHQLRILRQSKLVKYRKEGKIVFYSLNDEHIKNIFNIGLEHIQE;locus_tag=LOCUS_20970;note=WP_010965540.1 metalloregulator ArsR/SmtB family transcription factor (Clostridium) [pid:65.0%25%2C q_cov:90.4%25%2C s_cov:84.4%25%2C Eval:3.9e-34],MGA_2109
sequence1	MetaGeneAnnotator	CDS	2282999	2285065	.	+	0	ID=MGA_2110;product=heavy metal translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459352.1;translation=MEKQKIKLEGLDCANCASKIEKQIKELADVKSVNLNFITKIITIESKNDKFEDVESIVKKLEPHVNLYKEEEKEEKKNEIRNETIRFSIALIFFISGWFFTTQNISIYLFLISYVISGYKVIWKSIKNILNKNFFDENFLMSIATIGAISIKEFPEATGVMIFYEIGELFQSIAINKSRKSITSLMDIRPDFANKFDGEKTKIINPEELKIGDIILVKPGEKVPVDGIIFEGKTKVNTLALTGESIPKSLKENDEILSGYINESNTIKVKVSKLFSDSTVSKILEMVENASSKKAQTEKFITKFAKYYTPIVVFSAIVIAFITPIFLGNFNDWFYRGLLFLVISCPCALVVSIPLGYFAGIGALSKNGVLVKGGNYIEALKNLTKVVFDKTGTLTHGVFEVSKVVAFNVKEKNIIKFAAYAEEYSNHPIAKSIKTYYKNKININLISSHEEIPGHGVKANIDGFEIFVGNEKLMKKFNIKYDKISEFGTVIHVAINNKYSGYIVIADKIKNESKETIAKLKKLSIKTIMLTGDNEKVAKYVANELGIDYYYSELLPNDKVIKLENELNFTNTVAFVGDGINDAPVLTRADVGISMGGLGSDAAIEASDVVIMDDKIDKIITSIKISKRTSKIIWQNIIFVLLIKIVFLVLGALGIATMWEAIFADVGVALLAILNAMRINKKEVIYKI;locus_tag=LOCUS_20980;note=WP_011459352.1 heavy metal translocating P-type ATPase (Desulfitobacterium hafniense) [pid:51.6%25%2C q_cov:98.4%25%2C s_cov:89.0%25%2C Eval:2.8e-197],MGA_2110
sequence1	MetaGeneAnnotator	CDS	2285237	2286598	.	-	0	ID=MGA_2111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKRTISIFLFLIFSFALSFSNDVYLQWRKIDSQYYFEKNNTTYIQLNYVAEKFGKVVKTDEDLVIIKHDKWKVFLFPKNKMCIINSMESFKFSDEDINIVDKKVYLTPQVISKVMNLDLISNAKGYYLNVPVAKIESINTIFGKSNARTIIELSEDANVEVYPLVNAYGYLIKIKGAEVPDSIYYHEYNNKVKYIKAYHFSETEVWVKIVLNYKSELKKTFESKRVILDFYFPELTRPVLVIDPGHGGHDSGAVGFNKLYEKTVALEVAKKVKDLLANEDIDVYLTRTKDEFIELYDRAMFANNKDADLFISIHLNSYPDDRTVNGSEIYYFDFSKSSYARRIAWKENLDSKKDKPIIETWVKDKESSIEESKKFANILENEIKRNNITDRGIHSAEFAVLAYTRCPAVLYELDFLSNKTVEQKFKYGTDYVKKFAGIIKESVLKYFKEKK;locus_tag=LOCUS_20990;note=WP_011405209.1 N-acetylmuramoyl-L-alanine amidase (Salinibacter ruber) [pid:37.3%25%2C q_cov:45.7%25%2C s_cov:50.7%25%2C Eval:4.0e-26%2C partial hit],MGA_2111
sequence1	MetaGeneAnnotator	CDS	2286598	2287434	.	-	0	ID=MGA_2112;product=M23 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083253.1;translation=MKRLIVLIIVLCGGIGFSEAGYYYKVQKNDSIIKISEKTKISVPVLIDRNPEIVYQKYLNLNQKLFIPKENIFYYEVKPGDSLNYIAIKFFTHPDLILKVNYIKDKNFLKVGQKLKIPYKIIGLCYNKNQTIGWPIIGYVSSPYGYRMHPIYKKIKFHTGIDIVASKGTPIIAANSGKVIYAGESGGYGKHIKVLLNNKIYLYGHLSEINVCKGYIVKKGEIIGKVGSTGISTGPHLHFEIDNFKDNKSMDPMMFLDKNKNKAYNIKSDEYKMYMGGE;locus_tag=LOCUS_21000;note=WP_004083253.1 M23 family metallopeptidase (Thermotoga maritima) [pid:45.7%25%2C q_cov:84.2%25%2C s_cov:84.9%25%2C Eval:1.2e-50],MGA_2112
sequence1	MetaGeneAnnotator	CDS	2287453	2288502	.	-	0	ID=MGA_2113;product=chemotaxis response regulator protein-glutamate methylesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083251.1;translation=MDEIKVLVVDDSAFMRMVLKDIIDKQPDMKVIGMAKDGLEAVEKVEKLKPDVVTLDVEMPKLNGFEALKIIMKKTPTRVIMVSSLTSRDAAITIECLENGALDFIQKPAGSTSWTFRQVQDDLLQKIHEAIKVSINVLAKPQKSITTRKKRESVGTVGKKILLIASSTGGPRSLDKVVPLLPEKIGVPVIIVQHMPAGFTKSLANRLNKISELTVKEAEEGDVLEKDTVYIAPGNFHLGLKKSGTKVSLYLDSSEKINNVRPAADFTFDSAAEIYKQNIVSVVLTGMGRDGTKGAFKIKHYGGKIIAESKETCVVYGMPKAIVEEGYADYILPNTKIADKIVDILEGKE;locus_tag=LOCUS_21010;note=WP_004083251.1 chemotaxis response regulator protein-glutamate methylesterase (Thermotoga maritima) [pid:65.3%25%2C q_cov:98.0%25%2C s_cov:98.5%25%2C Eval:6.6e-124],MGA_2113
sequence1	MetaGeneAnnotator	CDS	2288495	2288950	.	-	0	ID=MGA_2114;product=diacylglycerol kinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011943146.1;translation=MMKRIIGTKKFKDSLKFAINGLFEVHKTQRNFRIQTFIGLIALITALFLDLNGVKLLWISFAVMLVLLMEALNTVIEKVLDYLHPDYSEIIGIIKDISAAVVLIASVFSIVIGTIIFGESIFKINPKYGIIIAIAFLVFIKFFSRGGKNNG;locus_tag=LOCUS_21020;EC_number=2.7.1.-;note=WP_011943146.1 diacylglycerol kinase family protein (Thermotoga) [pid:41.2%25%2C q_cov:86.8%25%2C s_cov:81.9%25%2C Eval:6.9e-23],MGA_2114
sequence1	MetaGeneAnnotator	CDS	2288947	2289558	.	-	0	ID=MGA_2115;product=2-oxoacid:ferredoxin oxidoreductase subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496537.1;translation=MNLSISKPFSVRFAGEAGQGNIMMGHVFANALVKEGYNVVQTLHYGARVRGGLSYTDVLFDKVPIDFPKAETFDILYVMHDVAVPQVEHLKKNSLVFYDDEFVKKLPQTVSRKTKKVIKVSASKIAYNEIGNINVSNMVGLGILASVTGILSLDVLISTMKENVKENYYEMDEKALNLGYEFTKKTYKIRSGEKVTKLGRNFE;locus_tag=LOCUS_21030;note=WP_064496537.1 2-oxoacid:ferredoxin oxidoreductase subunit gamma (Methanocaldococcus jannaschii) [pid:30.7%25%2C q_cov:86.2%25%2C s_cov:97.2%25%2C Eval:3.9e-14],MGA_2115
sequence1	MetaGeneAnnotator	CDS	2289558	2290385	.	-	0	ID=MGA_2116;product=2-oxoacid:ferredoxin oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083245.1;translation=MPSAKYYEYLRKDRLPHVWCPGCGNGIILKSFLEAASNLNLDKNKVAVVSGIGCSSRSTGYLDFNTMHTLHGRAVAFATGVKLARPDLEVIAMGGDGDMLAIGGNHFIHACRRNMDLTIIIFNNNIYGMTGGQYSPTTPSESLASTAPYGNIENQFNAVELAIASGATYVARSTVFHFMQSAKYIENAIKHKGVSVVEIVTNCHTYFGRYNKMPKPAQLHQYFKDNGIMLSKAEKMSEEELKGKIVIGEFKNIEKEGYLENYQKLQNKFAIGGDK;locus_tag=LOCUS_21040;note=WP_004083245.1 2-oxoacid:ferredoxin oxidoreductase subunit beta (Thermotoga) [pid:61.2%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:4.1e-96],MGA_2116
sequence1	MetaGeneAnnotator	CDS	2290429	2291559	.	-	0	ID=MGA_2117;product=radical SAM family heme chaperone HemW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080203.1;translation=MQNCSIYIHIPFCKSKCYYCDYNSIVNTNYFEQYFKALNNEIELYKNNNFLIKTIYIGGGTPSFVDSKYIKNIFYKINEIFNMDLKEFTIEVNPESVEELKLIDYKEIGINRISMGIQSSSNKILKTVNRIHTLEKARKSYYTLKKYFKNINLDFILGLPFETEKTIINNLNLIKELNPQHISYYLFDSSHETPLMKKIEKKELTLPNSEFLEDMLDIIYIDLKKMNYNRYEISSWSKDNNFSIHNKVYWKNENYIGFGVSAGSHISKKRYVNTDSILKYINSLNKNKMEYEYYHKNDEKKDFIETIFMGLRLLEGISIKTLKERYSEKLVINFINKLTAIQSELISIDETLKLTEKGLNLSNRVFENLIEIGENI;locus_tag=LOCUS_21050;gene=hemW;note=WP_004080203.1 radical SAM family heme chaperone HemW (Thermotoga) [pid:40.5%25%2C q_cov:97.6%25%2C s_cov:97.3%25%2C Eval:9.3e-79],MGA_2117
sequence1	MetaGeneAnnotator	CDS	2291546	2292349	.	-	0	ID=MGA_2118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKLYIFFLLLLFSISLFSTNYNLNLEVLKVKPLKLSFNANDNAINFRISIEEKEPFLKEQNLFFKKIKVKTGEQNFSFFLDIPTYNSEMGIGFKYNTYNSILLGIIKYDYFNTFNFKSNNYYIFQGFNTYFSIPTITIGSFNNFFLNINSEVYSFSRIGFKLQRFLELPLFLNFGRNFETGIQVLSFDKYYSTGIFGGISYNKNKIYVLGDISTKLNLLKKDFIVGFGLMYNEEYKYRIYLISDTKNFPIYIYFNECGGGIFAEL;locus_tag=LOCUS_21060;note=MGA_2118
sequence1	MetaGeneAnnotator	CDS	2292513	2292887	.	+	0	ID=MGA_2119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIIIGLLLLFSIIILYFGSVSFYNFRFLIKPRFSTPVYSGYVDNFVYIRKYVNGNNSMLMVKNTNKNFIVVLYFKHYNQKRIITYSDSAQLDFPDIATPIIVVYKQTGFLISYPISSYTLN;locus_tag=LOCUS_21070;note=MGA_2119
sequence1	MetaGeneAnnotator	CDS	2292964	2296338	.	+	0	ID=MGA_2120;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680859.1;translation=MFEETHIKTWWGKKWINFLSLFDKDDLKKNRGLEYTKNVVDIKINKNKILSKVSGRYKVPYEQTIIFKQFTISEKNKIKSILKNNKDLNLQLYINKFPEELYSIIKNNGIDLFPNSLEDLILKCNCVDLNKPCKHLIAVFYKLTEEIDKNPFLLFEFHGIKKSDLFSIDYNEDIFKYSSLNVKLLKERPKERNISNKKIESYLSLLQTHPSFYKEDFKKILLNTYDDISYKLNNNLMINEEIKYNMTDFKIHISFSKIRPKFYSNIDSKTIKSIFKKNISFESIFNVFHELNLSDFKEDSKYTSFLKQCLAFSYKLSILKAYLPEIFTINNNEFIINYTPNRTIKYVDDYLNYLSYIAPKDILLDENNNELNTYLATEFIVSMFLKEIINKYSKNFNDKLLNVFFKKKIFKVEKYFEKNIFLSIKNWLLPLFLKDSIFSILLFVEKINKRKYYLSMNIKNKINENVYTLKDFENSIVINQYKNELYNQLGIIASYSETISKLIRDKRDKILINLDELSELVIYSENDLKLLGIKIILNFKPNKIVVPKLLLRLSSQEDILDFEKINFNYTIKIDDIEITLNEFKRNFKNINGLVCFNEKNVLVTQENYFSILEKTKKQSTKNIIINILSKDYYGVPIIPDNKIKNFIDNLKKIPKLNIPNTLNGTLRPYQITGFNWLYNNLKKGFNVCIADDMGLGKTIQVITTILKLKEENNIKNQTLVICPTTIVGNWYKEFEKFSPSLKVHIFHGNNRELNDSDVIITTYGTLRRDSHKLSKKWSLIILDEAQNIKNPLTAQSKSVKHLNSIFKIAMTGTPIENKLLELWSIFDFLMPNFLGNKNYFLKNYAIPIEKQNNTEKQNKLKNIIEPFLLRRLKTDKNIINDLPEKNIYNEFIFLKEKQELLYKNVIKILDKNIYHSYGIERKGLILKLLTNLKQICNHPSNFTKEENYDIELSGKSERTIELVEKIVSKNEKVLIFTQYIEMAKILKKMLSIKNINSLFFYGGLSRKKRDFIVDNFQNNKNQKVMIVSLKAGGTGLNLIAANHVIHYDMWWNPAVENQATDRVFRIGQKKNVSVYRFITLGTFEEKINHMLEKKQKLAESIISPGEKWITSLSNKELQEFFKLF;locus_tag=LOCUS_21080;note=WP_002680859.1 DEAD/DEAH box helicase (Treponema denticola) [pid:31.7%25%2C q_cov:99.8%25%2C s_cov:98.1%25%2C Eval:1.1e-145],MGA_2120
sequence1	MetaGeneAnnotator	CDS	2296353	2298389	.	+	0	ID=MGA_2121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSKRPICIVENDDNDFEHVKNELKKSSLSNEILRFKKTEEMLDFLKNEEIKPALILTALRFPGMNGIEFMKIAKKENLLDDIKVIVLTSADENLRLESKNEGFIGFIKKPFVLNVLYNLLRTFTSNKFLERNKVDDILKDISTTFNNKILKSLIAIKTNKVYTQLSFFDGYSNSIVLEYKGISFRLKNKIYDTLKNQKIFSDTFSINDVKNKFWWMISNLPKNAYIYIRKIEFENKDTGLILFITKEKMDSELNKKIDEKLYELSASMYTQKNDFEQKVYMGKAILNLAKTTTAYDPYIYLHSVRMADLSAILALLYGFDNERISFVKNCGMIHDLGNIFVSKRVLNKPGILTDSEFKEVQSHTSKLEELLSDNEFLNDYVEVAKLHHERLDGSGYYGLKMNDIPIESQILAIADIYDALTHDRPYRKAESIEKTLKILNSMAKDGKINKEIVKILENLVPIFEKTSYNLNLTSLLRNNKKIFIENPFKENSLIDGKIEKLTGGFAYIKLEEVPQLKIGNSITLYSNLDGIIEKFECKILNIKEDGFIVLVKTTEYESKIIKTMWAKKINLFKLESGIKRMDQIEISEYTLNARMSMFGANQLSFTTTENLFNLKDKLMIDFDAYGENIVIFGEIKRIESEENLVRYWVKYLNMTEDKIATINRTLFKRKLEILLYL;locus_tag=LOCUS_21090;note=WP_004082215.1 HD-GYP domain-containing protein (Thermotoga maritima) [pid:31.8%25%2C q_cov:34.5%25%2C s_cov:42.8%25%2C Eval:1.5e-25%2C partial hit],MGA_2121
sequence1	MetaGeneAnnotator	CDS	2298401	2299759	.	+	0	ID=MGA_2122;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083198.1;translation=MSTVIIGGGPGGYVAAIRLSQLGEKVILIEKDNLGGTCTNLGCIPAKAMLSASHLYSEIIEKSKKFGIKYENLSYETKGIMKHKNKSVTMSKKGIEFLMKKNKIEVKKGTAKVLDKNNVLVKETNEKIHCENIILANGSIPAIFQPFSNVEGIWTSDDIFKMKNIPESITIIGGGVIGLEFATFFSSLGKKVYIVELADHIAPFEDADVADEIKKVLKRKKVEIYEKFKVTSVEKNENGYISKLSNAEGEIELISEKVLLSVGRKPNISEDLINLGLDIERGIKTNKKMRTNIENVYAIGDIRAQIMLAHVASFEGIVAAHNIANKELEMDYSAIPSIVFTNPEIASVGVKEKDVNKDDVIVSKFPVSANGRARTMEEKDGFIKIIADKKTSKILGVTIISPSATDMIMEGVLAVKHGLTIEQLANSVHPHPTLTESVLGAIEGLEGLAIHI;locus_tag=LOCUS_21100;gene=lpdA;EC_number=1.8.1.4;note=WP_004083198.1 dihydrolipoyl dehydrogenase (Thermotoga maritima) [pid:61.9%25%2C q_cov:99.3%25%2C s_cov:99.1%25%2C Eval:7.8e-163],MGA_2122
sequence1	MetaGeneAnnotator	CDS	2299791	2300378	.	-	0	ID=MGA_2123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSILLFFISLTVFLLILSSCSAPKPNNFMLPGTKEYIGTTGNLEGTWNVIEYNDKNENFLKNFEKATLTFDFKNKVLKLEATVPKEYIESSLKDWKAKWPDLKVTSYKVIINATCSISNSGEIIYVDEQKVSVEIKGSGENLESYIQMENGKAMIPFGNPISLKKLDSQFNFKLSGKTLHLSSFSGYNILLKK;locus_tag=LOCUS_21110;note=MGA_2123
sequence1	MetaGeneAnnotator	CDS	2300614	2301081	.	-	0	ID=MGA_2124;product=dCMP deaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962633.1;translation=MDKINKWDTIYMNMTRELAKGSHCTRVKVGAMIVKDGRIISTGINGTPKGYKNCDDVFNSVKIKELGDKYYEKHHDFSEKYEIHAEQNALLFLARNGGAGIEGSTIYVTHSPCIHCAKMIANSGIKRVIFYNLYDRNQDGIEFLKELGLEVKQLK;locus_tag=LOCUS_21120;note=WP_011962633.1 dCMP deaminase family protein (Flavobacterium psychrophilum) [pid:39.9%25%2C q_cov:98.7%25%2C s_cov:95.1%25%2C Eval:3.5e-25],MGA_2124
sequence1	MetaGeneAnnotator	CDS	2301093	2302283	.	-	0	ID=MGA_2125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFMEKGIIFFVLLVSTILLSKNYTFFFKDCVINYIEFSGNEFEIPSDQEIFWISNVQNWQIKNKNNDYSFSFKIINLDDYKDYYMEKIEDNIFSLKSTQIIIFYNNQLNRWCETNKSNLKYLSKKESIVFDKDIKGWIGLKSKGTWDFIYEMYNDGTFNKNIELNGSILGESNVYLINQKLNTSINSSERLMRSLNSVPKIYQDVFTLNIGMLNTKNKINYINLKSYDILSFSDDYIINLNNVQTSAEIIRTIENTDYNGMGIDIVNGKILIHEIFDDKSFAIKKVLINNFSNGENIKIDLGKSWNIKYKLNKTKDTFISSSRTRFIEYTLIINNYSNEEKKISIEMKQPGLELINYDNNYFKNNSSIGSIELKGKMKMNSQQKIKLSIKIQN;locus_tag=LOCUS_21130;note=MGA_2125
sequence1	MetaGeneAnnotator	CDS	2302383	2302736	.	+	0	ID=MGA_2126;product=carboxymuconolactone decarboxylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082088.1;translation=MNFDEFNKFRSEMNEKILSNGTLNTKRFFNLDGAVYKEGEIPSKYKELMGLVASMVLRCEGCIDYHIGQCIEFGVTDKEFFEAFDIALIVGGSIVIPHLREAVKYLETIRNNNKKNV;locus_tag=LOCUS_21140;note=WP_004082088.1 carboxymuconolactone decarboxylase family protein (Thermotoga maritima) [pid:62.3%25%2C q_cov:97.4%25%2C s_cov:94.2%25%2C Eval:4.1e-36],MGA_2126
sequence1	MetaGeneAnnotator	CDS	2302757	2303155	.	-	0	ID=MGA_2127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIVIFLINFIILSAYSIHYSNEFKIKKYLNPFLKKHNFNFEKICILEADNLNEFTVITKLPYSYTAGAYIQNKDEKDYIVILPIYILKKKGIFEKTIVHEMLHHYLTKYFKMPGPYQEQFIKNYLKKF;locus_tag=LOCUS_21150;note=WP_004080578.1 hypothetical protein (Thermotoga) [pid:38.0%25%2C q_cov:53.8%25%2C s_cov:43.3%25%2C Eval:1.4e-07%2C partial hit],MGA_2127
sequence1	MetaGeneAnnotator	CDS	2303155	2307597	.	-	0	ID=MGA_2128;product=alpha-2-macroglobulin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865234.1;translation=MKKSINFIIFILFITINYAYVYISGNNVILPNQKIKIIGNNENQIMMKVYKIIYPEKIFLEGYPLEKVSKRFVMDKIITGKKIEYSFKISEPGYYFITFEKNNKIISSGQVMVTNVDFINIYDGKNLFVKTYDSNGNNVKADIYLITDKIEKFSNISELKMKIMNLKKIVVKYKNSYRFTRVYKIWKSYKDNPVKIITDRNIYKPGQTVKFKILSFLKNNNVYNLSNIQKISYKIKDPSNIDIKTNEIETKNGMYDGSVFISKDAPLGYYNIELTCNNEKYYYGFYVQDYEKPEYKINISSDKTEYYLNDTINFKINLEYYNGNPVGNAKIAFYIYANNYPNSQLAFSGINYTNEKGVLNIPVKINKKIEGDYTLKIITIDENQRQLKDEFSVKVYSGNYKITSDKGYYTSLPNKDITISGTVTDRKNIFQNGTIKLFTEDSTLISTAQVLNGRYTIKANFKKEKYYNLKLLYKNSEKSLNIYISNNVKVQKKLINNFKKMGNEITFDVSRIKGNGVFILSGNNLYDIKIFNEKNTSYTFKLPKNTLERNLFLNAIIFTKNGIYKDSKEIDLNKINSLKYNYTLKLEKNLYKPKENIKLSIDAEQDGIFLLNVVDESLYAISKDNTRLLESLYPKLYSPSILINTGNSYIYFPYSAKYFDIEQSHKFASYKKSEEVKVNTREYFPETALWLTVKTKNKHAEINFKNPDTLTTWRITSYGISNEKMQKQSIKYKTNLDFYIRPILPNFAIKGDTINFDIVVYNSLEKEITIPYKNISKNIINIYPESGQVTVSAKSNKVIHLQMKAINIGKEIIEFDYDKDIVKLPFEVKSQNLINEKIDLINTKSGYLVKKGSYYREFSIDSLIDDTLNYLSNYPYRCSEQTISTSYPLLIAYKNGYTVKNMDIIAKQAIQRLYKYQATDGGWGWWNYDSSNPELTAYVMEGIYELNKNYYISKSVINKGLEFLKKHINSGYIYYVLKLYGININYKPITIYDKVYYAFFNDTLSYVLNDIEEINDIAFLKYKDNNYYYSNVDINSALLKLLLKKDPNNPIIMKIFKYLIMQKKSYSWYSTKENARMLELLIKFKDNFKFGKEDIFKKAQEDTLIKNKYIEIKSVENINSNINNGIDLEKNLYKKINIPVSKDNKIQYVDAFININEKIIPTKVDFIETKFIVKNNLIIIKNNYEKGDWIIEPNLKIGYDGNFVYINNLKFKNIKEIQKTKDYIYLLNDDLIEYNTQTNKYKTILKNVYSFSILNNNPIAIIKLNEKFYVYFKDVYKKIDKYYNIDTLNNKIYLFRNNTYEYDFKENTLKKLFPVSGDKIININKNSITLNNIKFQGNENFIGAKNGSYKVTFENKKINLKNGDILKISLNLSSIIPNYINVEDRLPGNVQILKRYQEKVLQDNNKFYSYWYDAWDYWYSGREFRKDRVSFFSNGYTNGKFYYYFKFINSGKIKILPAFGSTMYWSGTYGTSKEYNLEVQ;locus_tag=LOCUS_21160;note=WP_010865234.1 alpha-2-macroglobulin (Thermotoga maritima) [pid:26.6%25%2C q_cov:98.7%25%2C s_cov:98.2%25%2C Eval:7.2e-148],MGA_2128
sequence1	MetaGeneAnnotator	CDS	2307790	2309718	.	+	0	ID=MGA_2129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDRKKAEYILKSKFKIEKFYEEQWKTINYLLNNEKVLLIQKTGYGKSLCYQFPSIIFDGVTIVFSPLKALMRDQIKSATNAGIPVETINSDRNETDNYLAIEKAKNGEIKILYISPERMEDSNWLEIIKEIKISMIVIDEAHCISVWGHDFRPAYRRIIELVKLLPESIPVLALTATATKKVQNDIHTQIGGKSKIIRGDLLRENLVLNVVSVKNEHEKMVFIKQILNRVPGTGIIYTGTTSNAELFSKWFKFNGINSVYYHSKLKSSDKYTIERKLINNTVKCVVATNSLGMGIDKSDIRFIIHTQIPSSPIHYYQEIGRAGRDGKKAWIFLMYNEKDKKLQESFIESSKPSVTKYNKVIKKLKEEPLKLSDLMKSFRIKEVQLKTILSDLIEQKIIRKNSKSYYEYIPNSNVFDEMAIEKLRERKYLELNSMINYALTNKCRMNFLRNYLDDKTTEVCNNCDNDRKIKYAVKINDDENKKIFDFFDLLYPQIKVDTKNDILNNGVAFFKDSKKINYIIKNKEDFPYYMVLNLAKAFKSKFDNEDFDMALYVPNEDEIYIKRFSAKLGKVLNIPVKYYLKLSKYGFECTRSYEFVGKKILIIDAVYKKNTINLIANLLKRLGAKKVIPLTIAIGEDETFE;locus_tag=LOCUS_21170;note=WP_015942936.1 RecQ family ATP-dependent DNA helicase (Desulfitobacterium hafniense) [pid:39.1%25%2C q_cov:69.8%25%2C s_cov:66.3%25%2C Eval:2.0e-85%2C partial hit],MGA_2129
sequence1	MetaGeneAnnotator	CDS	2309711	2310430	.	+	0	ID=MGA_2130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNELVYFMAFSKIKSITLEKRNKIIYFLYNYNYTLKDFFEKECIWKSKFKLNEEETKELKETKNKLANFTFILEKIENDGYEIIPCTSKHFPVRFQRIPLKFRPILIFIKGNKELLKHKLYYIYGKNKKYEYIIKNSGDNILINNEFTQNKCIHMIDIDTFEISKEEYKLYSNNEILIIGNNDFPYYIISDYIFFIEVPNLNFYIPKEPILFIDNDLNFKQSKFTQIKILKNKLIRV;locus_tag=LOCUS_21180;note=MGA_2130
sequence1	MetaGeneAnnotator	CDS	2310655	2311200	.	-	0	ID=MGA_2131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFERYNINIDIKRLKKNELQKKAVICYAENEDDEVLMLERIKEPFFGKLVAPGGKVEKNESIEQAAKREYFEETGVKLDNLELKLITVETGPEYYNWILFIFKSTIKKFTPKYCNEGVLKWIKKENLKKENLSNIDKKIIPYIFEKNGIFFIEIEYDKDKNDKILNIEKIKNFYEVDN;locus_tag=LOCUS_21190;note=WP_001190080.1 8-oxo-dGTP diphosphatase (Bacillus) [pid:30.8%25%2C q_cov:70.7%25%2C s_cov:85.5%25%2C Eval:2.3e-09%2C partial hit],MGA_2131
sequence1	MetaGeneAnnotator	CDS	2311211	2311918	.	-	0	ID=MGA_2132;product=adenosylcobinamide-GDP ribazoletransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948521.1;translation=MFKDIFVAFGSISKIPVPIVKNINLKRSTIYFPLVGVLASLINYLTFFLLKNILTLEQLSASIMIIYYYLFQYFHFDGFVDIIDGFGAQIRSKEERIKIMKDSRTGAFALLFGILYLIIYYSFLKEFILGCFFAPIFSRLSMVYLISISKPAKKEGLGSLYFPFKKKYTFYSTLITFLIIPFGYKFVILGILIAFFSAYIMKVNSYKKINGITGDVIGATCLISEILYLILLKFI;locus_tag=LOCUS_21200;gene=cobS;EC_number=2.7.8.26;note=WP_011948521.1 adenosylcobinamide-GDP ribazoletransferase (Clostridium botulinum) [pid:28.8%25%2C q_cov:91.9%25%2C s_cov:91.9%25%2C Eval:1.3e-22],MGA_2132
sequence1	MetaGeneAnnotator	CDS	2311911	2312558	.	-	0	ID=MGA_2133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGVTSWQVPGNYLENIKIFKDNVDFTELLVYTWNDEVKELLDKEIPEILKIMKISIHLPTDSLDNCLKAIHYFKNIDVFALTIHPFGDIKEFKKVFEEGKNLYGEKLCIENLEDGNFNKYYRAISALKPSITMDYGHLLMLEEKPDSFYRRYENLIKEIHYHGVKNSKGHTLPDENQFNVFLKFLKKFKIKLPICIELFKLEDTLSVVKKLKNV;locus_tag=LOCUS_21210;note=MGA_2133
sequence1	MetaGeneAnnotator	CDS	2312555	2313079	.	-	0	ID=MGA_2134;product=bifunctional adenosylcobinamide kinase/adenosylcobinamide-phosphate guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010938306.1;translation=MKIVLITGGQACGKSTYAQKLAEMEKKPRVYIATARPYDEEIKEKIRKHVEMRKNNFITIEESVDLSSALLKEKAEVVLIDCLTMWTSNILLDNENNYEEIIEKELLKLKDTLKKISKKTKKVIFVTNEVGWGIIPSNKLSRIYVNLLGRVNKFIASISDEVYMMMSGIEVKIK;locus_tag=LOCUS_21220;gene=cobU;EC_number=2.7.1.156%3B 2.7.7.62;note=WP_010938306.1 bifunctional adenosylcobinamide kinase/adenosylcobinamide-phosphate guanylyltransferase (Desulfovibrio vulgaris) [pid:34.1%25%2C q_cov:100.0%25%2C s_cov:95.5%25%2C Eval:5.7e-23],MGA_2134
sequence1	MetaGeneAnnotator	CDS	2313083	2313808	.	-	0	ID=MGA_2135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460554.1;translation=MNFTKKINTFRDISIFKKENTYFVFAVDSVGAIGEKENDKLNIPVKISAKYNMRVCLNEIYSVGVKPEVVFSIVSNEWNETGKNIYSGILSELKENNLESIEVNGSTEENFKTSMTAFGLTVMGTSNKLYFRNTKKGDKVYLIGLPRVGKEVLKNEKDNLNPLMIEEIFKNHKIGDFLPCGSKGISNELKILEKENNLKVNIIEMYDIDFNKSAGPATCGIFTSSENIILNNVKFIGRMEE;locus_tag=LOCUS_21230;note=WP_011460554.1 hypothetical protein (Desulfitobacterium hafniense) [pid:35.0%25%2C q_cov:95.9%25%2C s_cov:93.4%25%2C Eval:2.6e-32],MGA_2135
sequence1	MetaGeneAnnotator	CDS	2313786	2314271	.	-	0	ID=MGA_2136;product=ECF transporter S component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391735.1;translation=MKKVSKITLVGIFVAFSFVLSFIKLPSPFGSVALDSFPGFFLATFSPLLGGVVALLGHFFTSWNSGFPFGFYHIFIAIEMLLITWIFGNLYLKNKIIAIIIGVFLNGIISPLTVIPLIGLKAVISFIPFLIFASFINIIFAFITNLGVQKYPKVGELYEKN;locus_tag=LOCUS_21240;note=WP_011391735.1 ECF transporter S component (Moorella thermoacetica) [pid:31.4%25%2C q_cov:84.5%25%2C s_cov:76.1%25%2C Eval:1.7e-12],MGA_2136
sequence1	MetaGeneAnnotator	CDS	2314478	2316010	.	+	0	ID=MGA_2137;product=histidine ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016650.1;translation=MKKLFIDGKSLNIEDFINVARNHYEVHLTEEAKEKMQKSRDVVEKIVENEKPVYGINTGFGKFCNVKISKEESKNLQKNLIMSHACGVGNPLKEDAVRGIMLLRANALANGFSGIRISTVETLLEMLNKNVIPVIPEKGSLGASGDLAPLAHMVLVMLGMGEAYYKNERLSGKEAMKKANIKTIELEGKEGLALINGTQVMTSIGALAIYDSKILLKTTDIAISMTSEALEGITDAYDSLVHEVRNQTGQIITAENLRRILNGSKNTTKQGEKRVQDAYTLRCVPQIHGASKDAFNYVNNVINNEINAVTDNPIIFPDEDKIISAGNFHGQPVALAMDFLAIAISEMANVSERRIERLVNTEHSKLPAFLVKDGGVNSGFMIAQYAAAALVSENKVLAHPASVDSIPSSANQEDHVSMGTIASRKAREIIYNASRVLAIELIAAVQAIDLRGGKEKLSPATKSVYNLIRKNISYWEKDREMYPDINNAAELILNNSIVKEVENIIGEIKI;locus_tag=LOCUS_21250;gene=hutH;EC_number=4.3.1.3;note=WP_011016650.1 histidine ammonia-lyase (Fusobacterium nucleatum) [pid:59.9%25%2C q_cov:99.4%25%2C s_cov:98.6%25%2C Eval:4.2e-168],MGA_2137
sequence1	MetaGeneAnnotator	CDS	2316035	2316463	.	-	0	ID=MGA_2138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTYAMIIKAKSENEAYSNAKKASLRYGESSVSSCINYKNDKNFFEETVNTMMSMYKGLKEANENMIKRVEGKVPEDDFILNQMKENLKRFNLGNYAFPEEWKVVYYDGYDFNHIDEDKYWETVKKEVSEDELYLTIIDTSK;locus_tag=LOCUS_21260;note=MGA_2138
sequence1	MetaGeneAnnotator	CDS	2316501	2317988	.	-	0	ID=MGA_2139;product=phosphoenolpyruvate carboxykinase (ATP);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813680.1;translation=MLSTKIVHVNSSRAYLIEQAIKKGEAKLLSNGTINTITEPYTGRSPRDKFVVIDEITKDKINWNSINQPFSKYKYVDLRNDLKEHIENTEEIYIENGYAGAEERYKLKVKIITTSPIQALTFKNLVINAKEDFKESDMNIYSSPEFSADKKLHGTNSDAFIILNPTDHEVIIGKTRYAGEIKKSIFSYMNYFLPLHGIFSMHCSANTDLNGENPALFFGLSGTGKTTLSLDENRLMVGDDEHGWHDEGIFNIEGGSYAKIIGVSEDNGKEIYDTLKFGVFTENVVHSDKRLPDYLDSSITENTRASIPLSFFGNTVKKDGIAGHPKTIFFLSADAFGILPPISELNEDQIFKYFMLGYTAKLAGTERGVKNPTATFSEGFAKPFLPLKPEVYGKMLVKMVKKHGSKVFLVNTGWIGGPYGIGSRIKLRYTKRLVDAAINNEFEEFEVFEPLNLKIPTNCKEVPSNILNPRNTWENPEEYDASANKLYTIFKKNFV;locus_tag=LOCUS_21270;gene=pckA;EC_number=4.1.1.49;note=WP_005813680.1 phosphoenolpyruvate carboxykinase (ATP) (Desulfitobacterium hafniense) [pid:46.2%25%2C q_cov:99.0%25%2C s_cov:96.3%25%2C Eval:4.1e-128],MGA_2139
sequence1	MetaGeneAnnotator	CDS	2318195	2319934	.	-	0	ID=MGA_2140;product=NADH-dependent [FeFe] hydrogenase%2C group A6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868906.1;translation=MPKVIVNNIEVEVAENATVLDAVKKTGGYVPTLCYMNLEEIGIENKPASCRVCVVEVEGRRNLAPSCATPVFEGMKISTHSRRAVNARRTVVQLLLSDHPNDCLKCPKNGECDLQDLAAELNIVRNPYIGKKSTYDKDISSAIIRDPSKCVMCRKCETACNVFQTVGVLSAVDRGFEATVKPSFDLPLEETACTFCGQCVAVCPTGALSERSYIDEVWNEIEDPKKHVVVQTAPAVRVAIAEEFGYEPGTISTGKLVGALRALGFDAVFDTNFAADLTIMEEGTEFIHRLKNGGFMPMLTSCCPGWVKFLEHQFPGLTQMPSTAKSPQQMFGAIAKTYYAKKVNKDPKEELKVVSIMPCLAKKYEAGRPEINSSEEYQDVDYSLTTRELAKMIKEAGLNFDNIPEEEYDSPLGESTGAADIFGRTGGVAEAALRTAYEVLTGETLEEVEFKDLHGYEGTRFAEVEINGKPIKIAVAFGLGNVRKLLDDICKKKIELHLIEVMACPGGCVGGGGQPYHHGDLSIIKKRAEALNNVDRNKKVRKSHENESIKTLYKEFLGEPGSEKAHHLLHTHYVKREWM;locus_tag=LOCUS_21280;note=WP_012868906.1 NADH-dependent [FeFe] hydrogenase%2C group A6 (Thermanaerovibrio acidaminovorans) [pid:58.2%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:3.3e-188],MGA_2140
sequence1	MetaGeneAnnotator	CDS	2319952	2321775	.	-	0	ID=MGA_2141;product=NADH-quinone oxidoreductase subunit NuoF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986412.1;translation=MANYKQYILVCGGTGCTSSGSNDIIDIFNEKLEKNNLNKDIQVVRTGCFGFCEQGPIVKVLPDNTFYVKVEEKDVEEIINEHVIKGRRVERLLYVEPEKNEKIEESPKMPFYKKQVRVALRNAGSINPEDINEYVANDGYIALAKALTEMSRDEVVKTVLDSGLRGRGGGGFPTGLKWNFAKKANGDIKYVICNADEGDPGAFMDRSVLEGDPHAVLEGMALAGYAIGASKGFIYIRAEYPLAVHRLEIAIKQAKELGFLGENIFGTDFSFDIEIRLGAGAFVCGEETALIHSIEGYRGEPTTKPPFPANSGLFNKPTLINNVETYANVAIIVLKGADWYRSFGTDKSPGTKVFALAGAINNVGLVEVPMGTTLSRSSYGNNFKRNCFCEIGGGIRNNGKFKAVQTGGPSGGCIPAAYLDTPIDFDNLMALGSMMGSGGMIVMDESTCMVDVSKFYLTFTVEESCGKCTPCRIGNVRLLETLEKITSGRGKPEDLEKLETLGKVIKDTSLCGLGQTAPNPILSTMHYFRNEYEAHVNERTCPAGACKNLIKFEIDPEKCVGCTACARVCPVEAIKGEIKKPHQIDQEKCIKCGACYATCRFGAITKS;locus_tag=LOCUS_21290;note=WP_011986412.1 NADH-quinone oxidoreductase subunit NuoF (Clostridium botulinum) [pid:64.3%25%2C q_cov:97.9%25%2C s_cov:92.4%25%2C Eval:3.9e-232],MGA_2141
sequence1	MetaGeneAnnotator	CDS	2321790	2322185	.	-	0	ID=MGA_2142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082448.1;translation=MAKIKSLEDLLKMKETAKKNLTIRNAANDENKIILKVAMGTCGIAAGAKETFNALVEEIAKKGLENVVVVQTGCMGYCHAEPTVEVNEVGKEPVLYGNIKANRASEIIEKHILNNELLQDSIIGETHQRAE;locus_tag=LOCUS_21300;note=WP_004082448.1 hypothetical protein (Thermotoga) [pid:49.6%25%2C q_cov:93.9%25%2C s_cov:96.0%25%2C Eval:2.2e-29],MGA_2142
sequence1	MetaGeneAnnotator	CDS	2322199	2322717	.	-	0	ID=MGA_2143;product=NADH-quinone oxidoreductase subunit NuoE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766748.1;translation=MSDMLETQLKQVEAYIDSLGVENKSEEERRSYLINCLHKAQDLIGYLPVEVQKLIAKKLKVHTSQVYGVVTFYNFFSMKPKGKYPISVCLGTACYVRGSGDLVDELKKVLGIEEGETTEDGLFSLHTVRCVGACGLAPVVMIGDKVHGRLKKSDMKKLIDEYRAKDKEAETI;locus_tag=LOCUS_21310;gene=nuoE;EC_number=1.6.5.9;note=WP_008766748.1 NADH-quinone oxidoreductase subunit NuoE (Bacteroides) [pid:69.0%25%2C q_cov:75.0%25%2C s_cov:81.6%25%2C Eval:1.5e-47],MGA_2143
sequence1	MetaGeneAnnotator	CDS	2323135	2324895	.	-	0	ID=MGA_2144;product=phosphoenolpyruvate carboxykinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948795.1;translation=MRSIIIKGDVSFNANSQLLNSNIFKLLIGEIIEDSEKKKNSLMPFFDLFLVDTDVVDTLKKYDINAIIQLLLILTKNKIEEVDGSPYYCFPKLGNKKDLLVKFVENLFNLWRNKHRFIVKEDKFTHNRFERIFKQMVLVKTNSDLKSLVLSMYRQILINISDTRLKILRQLPGGAQVGFIVDTPNVKQKAKINAEWLYKMEHVWSFVFEPPVIFYTKSNKRRGLFKLKEKGILDKIKLNPQNWFVFPIHVCKKLIHVVVNKEYLALAAGLGNLFELASFEIVNNVKPDGIYILGMDKNFFEEDDDYNGVIYHEKDGTYVGIVGDDPSIDYFGYMKKVILTIHNLIVIDENRLPIHGALAEIKLRNGKKANVMIMGDSGAGKSETLDALNRLHKNVSEVNILIDDMGSLDILKTGEIVAYGTETGAFVRLDDLQPGYAYSAMDRSIFMNPNEINARIIVPYSNYSEIIKPTKIDYFFYANNYEKVKENEKAIEFFDSSESAYEIFSKGARMAKGTTSEKGLTYSYFANPFGAIQKKQQHDKTAKIYLKSMISSGVKVGQIKTQLGIAGFEKDGPYNAAQELLNLINN;locus_tag=LOCUS_21320;note=WP_011948795.1 phosphoenolpyruvate carboxykinase (Clostridium botulinum) [pid:39.1%25%2C q_cov:97.1%25%2C s_cov:95.3%25%2C Eval:1.2e-108],MGA_2144
sequence1	MetaGeneAnnotator	CDS	2324909	2325157	.	-	0	ID=MGA_2145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKILKLKKSEIQKLSLKELISILESINSYFESNQENTDIELSLDLYKKSMEIMTYAKKKMILIKEEKEKIDEMYKNIISEE;locus_tag=LOCUS_21330;note=MGA_2145
sequence1	MetaGeneAnnotator	CDS	2325161	2326537	.	-	0	ID=MGA_2146;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011475809.1;translation=MFFQEKILEFKTLSELLDYLTNFYKRSEIYNTSVIITGDITSAKKSKNGDLYLEISQRDKNTNYSLTVFFSKLMIPYLLKRLNLNNERELLNKKWKIEGTLQLWKYNAKFVLNGSSIIPFGNSEIDKKKKEILLKLKKENLINKNQNSLLDLEPIKKIAIITSPTAAGYGDFKKNIQYAKNIPIIHLYSSSMQGAKTVPNILKALSKIKKSKINYDVVVITRGGGSKSDLIYFDNFNLGKEIALFKIPILSAIGHEQDTTIPDYTSWKRYSTPTEVSRDIVNQINYFNDILLNLEKNLKVSFNFFFNIFEQNTVKNFKSNSNYLFKEIINYNKKINNISTFIKLNLERSTKEIVLPKVNFLKNFFHKDIEKEIKNLNKIFIKNDKYFSTNILMVENKFTKVFSKLTENSPFSAFLSGGAVVKKSKKIIKSIDELEVNDEVDILFKDGNAKAKIKQKEV;locus_tag=LOCUS_21340;gene=xseA;EC_number=3.1.11.6;note=WP_011475809.1 exodeoxyribonuclease VII large subunit (Ligilactobacillus salivarius) [pid:24.7%25%2C q_cov:97.2%25%2C s_cov:97.5%25%2C Eval:4.2e-23],MGA_2146
sequence1	MetaGeneAnnotator	CDS	2326512	2327189	.	-	0	ID=MGA_2147;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081030.1;translation=MSKLYLIGTPIGNMEDMSPRAIRILKESDVIFTEDKRVTLKLINKLEIGQKELFTFNQTNAERVLEKAFELIVKNNVCSLVSDAGMPVISDPGSHLVKKCRENNVKIDVVPGPSAPLTALAASGFPGSKFLFHGFIPRDKNRRRLFRDIVDLPYLHIFFDSPNRILKTLKDIKNIMGNREIFLAREMTKIHQEFFKGTVDEAISFFESKDSIKGEFTVVLSGKNS;locus_tag=LOCUS_21350;gene=rsmI;EC_number=2.1.1.198;note=WP_004081030.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Thermotoga) [pid:53.4%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:6.6e-64],MGA_2147
sequence1	MetaGeneAnnotator	CDS	2327182	2327703	.	-	0	ID=MGA_2148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKEKKYILNEKNFKRLIKNAIKYSVIIQWYNEKNERIRVEILNNEELWTKNIKIPLNELKRIEKEYKISKPNMDSLKDFKVVIKKRYYLFFDPEIIIDEILNPKNSIKYKNYEKIRYLLEIEEKSKRIDSFDNYIKNKFDFLPKAANFSNYFLSEKCNISPEELLVEGKNV;locus_tag=LOCUS_21360;note=MGA_2148
sequence1	MetaGeneAnnotator	CDS	2327806	2328273	.	+	0	ID=MGA_2149;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081017.1;translation=MSTEIKIVTFNLGNEKFALDIMKIDTVAEYEDVTVIPHVADYVEGVINFRKEFVLPLINMRKKFKLPDFEDKSKCKILIIKQEDRKIGIMIDDVKEVKNISSDSIEETPAVGGMNNIRFISGIARLDNEMLIILDMDKLLTAEEKMELDSLVKKI;locus_tag=LOCUS_21370;note=WP_004081017.1 chemotaxis protein CheW (Thermotoga maritima) [pid:39.2%25%2C q_cov:95.5%25%2C s_cov:98.0%25%2C Eval:1.9e-31],MGA_2149
sequence1	MetaGeneAnnotator	CDS	2328318	2329316	.	+	0	ID=MGA_2150;product=YbhN family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966298.1;translation=MKKSKYLNGFIFSVIITTLIISSFTITSGVKQNIKELKNFSIKFAFFSMFIIILKWFVETLILKLSLFDERKKISFFKLFKIIILGQFFSYLTPFYTGGQPLQVYYLSKEKINPSVATASILYKSMFFQIVMVLMGFIGLQYSSHLNNYIFIILISGILLNGFVVFLILFFSLNKELSKKTVKKTTLFLKKIKILKNPQKHMEEIMNKVEEFVNFFKKNSKNYVSLFSIFILSIIQLLLYVFTSMIILNGFGIKLNLDLFFRSLILDVGSSVVPTPGTSGGAEGFYYLIFSNKASIYVLNTSVLIWRLSTYYFVLFIGSLFFLISKKNRRST;locus_tag=LOCUS_21380;note=WP_010966298.1 YbhN family protein (Clostridium) [pid:26.3%25%2C q_cov:93.1%25%2C s_cov:93.8%25%2C Eval:6.7e-30],MGA_2150
sequence1	MetaGeneAnnotator	CDS	2329316	2329672	.	+	0	ID=MGA_2151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKISELKDMSYKIWEKNKDKWSPLNPQEARNTFLWMIEEIGETIQILKKRGESEIMENTFVREKFIEEMSDIIFYFTKIMLSYNISAEEFSKIYIKKFEKNMIRDYEKEHMNMFKD;locus_tag=LOCUS_21390;note=MGA_2151
sequence1	MetaGeneAnnotator	CDS	2329677	2330264	.	+	0	ID=MGA_2152;product=CoA pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435254.1;translation=MEIIKKIKNFKNETIGIKNHYSILIPLIKKNNEYFLLYELRSSTLKNQPSEISFPGGKVEENESYKECAIRETYEEIGVKKENINILNKGDDFYSPFGFLIHSYICTINTNDFKINKAEVEKLLFVPINHLKLQKPELYNVNIIAKPNLFPYNRIPNGKKYKWKKGTYNVYFYKYNKYYIWGLTAFFTKKLIEKL;locus_tag=LOCUS_21400;note=WP_003435254.1 CoA pyrophosphatase (Clostridioides difficile) [pid:45.4%25%2C q_cov:92.3%25%2C s_cov:90.6%25%2C Eval:6.2e-38],MGA_2152
sequence1	MetaGeneAnnotator	CDS	2330345	2331925	.	+	0	ID=MGA_2153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLTLNTFVLKNFKINFIIFTILVILIIFLSIFLGFEKMYETKASESANEIVKTFNFFINKKINFIFDILSSKTMTFRKYPANLDENTIISIITNNKLKTKDGYIDLSNWINDKKLYKIDSGIFFNKHTLKILRKEQDDNYLYAEICLDKILDLLNFKKDETFYLCNSENIILLSNNNSTIGKNIENWKNNTMFLIPKLFNKYVFFIKKEIPNDLYFVYTVSLNSFFKFLFFILFGILITISIIFFKFYNTISSKISFIVDYISEFSMELSKFDKNIAIKETINIKNSNIIELDKINTVYINLIENLQSYSEELSEKYLELNKLNKELYTRNSQILLSLSKGIELKDKYTLGHSKGVLELTKYMMNQLNLKKDTNFMQQVEIGCILHDIGKIFIPDEILNKPGKLSKDEFKEIKKHPQYGYELLKPISNLQISKNIIKYHHENWNGSGYPEGLNKNEIPLEAQIVAYADMYDAIRNKRVYHNELSKEESIKLIKSVQGIKLNPDLFNAFLKAVEIYEKNREEIKK;locus_tag=LOCUS_21410;note=WP_000975381.1 HD-GYP domain-containing protein (Bacillus) [pid:39.9%25%2C q_cov:37.6%25%2C s_cov:52.7%25%2C Eval:8.0e-37%2C partial hit],MGA_2153
sequence1	MetaGeneAnnotator	CDS	2331922	2332902	.	+	0	ID=MGA_2154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLILLISVFIIISIFVFLPKKKTIAVFNLFTNDLESYPREAIETAIKNGIGKNFKIVYIPYDSVEREEVRSIFKTSLNKYKFKYFIHATSSTIFSYIDDIVKEKKIFGIGSTVTSPKVIGKNPYFYSISISDDLQSKLIAKEISKSSTSVLIIKSDKNSVYINTYINLFLKNFNGKYEITNYQNINLNNKINAVLLLLEPKNAALAVQKIKNIYPNALIYGSDYIDNEQFREYGGSSIKGTKIFLLYNRDYAKKTIKDNKYLNTSFINTYDSYSFLTYLINKYHSPENISKNIRGETFTGLGGKFKINKQGFTEREPSFLIIK;locus_tag=LOCUS_21420;note=MGA_2154
sequence1	MetaGeneAnnotator	CDS	2332907	2333590	.	-	0	ID=MGA_2155;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081068.1;translation=MIEVLKKKFIEIDNVYRKLKIKAPSKTHMPNHASSFLILTSTIKNNMKVIEFGSGTGHVSICLSKLYNINITGIELQKDLFTSSIKNAAINDSKVNFINDDVKNIKKYFLAESFDYIISNPPHYSGGIISKNVDRKTARTLEKNTLINFLDSTKYLLKNKKICNFVIHPSIFTDFINIAKSKKLEPQEMYIGYGKKDGEAQLISIIMRKNGGTNFKIHPPIYLISSN;locus_tag=LOCUS_21430;note=WP_004081068.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Thermotoga) [pid:33.8%25%2C q_cov:92.5%25%2C s_cov:97.2%25%2C Eval:2.8e-30],MGA_2155
sequence1	MetaGeneAnnotator	CDS	2333583	2335310	.	-	0	ID=MGA_2156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFFVLSFLILLFLLVSCSQSIKYKINIPNLKVSKNFPLAIKTNFNYSKIKMSIDSSPVNFIASPEGFYIKNLENGLHKLKVEFLDNKDSLITDVSTELFYDSILPKIQDINKEIENGKLKIKFKIDSSDYAYSNIYLNEVFEGTTKDSSITIPLIKNSGNIKVKLKVFDKLKNESETSFMLDTSKDSTPVILSDTLKLNLFSNLNILTKDDWDKSLKTFIYNDSKYLYPYEILSTDSTQSTVIVFDSSRNYSKKLMNISFDTKIPNVVKNTTILLSNKDTLFSWETDPNIQSYVVEHYEDKWGWKPFLETELSFAEVKNNDIMFVRKKTKNGTLGFPSTPIYRFSSNINFYSASTIENIKNSTYLLKINSPFFVPFDFLIEKGKTLFVESGSEIRFSNNARMIIKGTLFIMEGIEKSKLSGKGTIYLDGGTIIMFDTDIESINIEGRGNVIFIQNSNFLNKSIINLKSITRFCSYYNKLKDVNINLNNSSGVYFYNTKMNDLKISNVAETLIEGSIFNSINTKIKSRILFENSNVNIFYLDTFSYLYSHNSIIKDLKKNSYSIFVKRSDRID;locus_tag=LOCUS_21440;note=MGA_2156
sequence1	MetaGeneAnnotator	CDS	2335307	2336158	.	-	0	ID=MGA_2157;product=protease modulator HflC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082369.1;translation=MKKIISIIILIVAIFFLFSSFYIVNQTQQAVVLRFGQIQKIKSNPGLGFKTPFVDNVVKFEKRIMLYDIKPEKVITSDKKTIVVDTYALWKITDAKKFMESMNSVSRALTRIDDVVYSHVRDIIAKYNFTQILSIKRKEILNEITSRSRNSLKDFGIYVQDVRVKRTDLPPENTQSVYNRMKAERYSIAELIRAEGQREAQKTRAEADKQVKIILSDAQKKSEIIKGTADASVITILANAFEEDKDFFELTKITDMYKNSFKDSILVIPQDSPILKYFKEVNK;locus_tag=LOCUS_21450;note=WP_004082369.1 protease modulator HflC (Thermotoga) [pid:58.5%25%2C q_cov:95.4%25%2C s_cov:95.1%25%2C Eval:1.2e-87],MGA_2157
sequence1	MetaGeneAnnotator	CDS	2336155	2337132	.	-	0	ID=MGA_2158;product=FtsH protease activity modulator HflK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082368.1;translation=MSEFEVFDSESPKKSNKKTKLFLWITIVVVILLYISTGIFQVGPSKVALIQTFGKYSYSKGPGIGLHLPFPFQTHIIYDIRSLKKREIGFRTTFYNGKTDYIDVPGESNMITGDENILSIQAAVQYRISDPVKLYFNLIKYDDLVKLTTESVLRERVALSKIDAVLTTERDKIAMETAEEVQKILNSYNAGINIENVYLQDVAPPKDVVEAFVDVNNAKQDKEKLINESQKYANDVIPRSQGQAEQILKDAEGYAYEKVALATGEAARFKSILKEYEISKEITKKRLILDAIDAMIKNSKLKIVSESGNTLKLLNLDTVLKEATK;locus_tag=LOCUS_21460;gene=hflK;note=WP_004082368.1 FtsH protease activity modulator HflK (Thermotoga) [pid:50.2%25%2C q_cov:92.3%25%2C s_cov:97.7%25%2C Eval:1.3e-86],MGA_2158
sequence1	MetaGeneAnnotator	CDS	2337213	2338445	.	+	0	ID=MGA_2159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDQKPLYEILRPKNLNEIFGNNKLKTLLKNWIKNEVVKSFILYGDPGCGKTSIINAFLNEVSNYYDLYKISGAMEGSKTLKNIIKSEKTLFSKPKILFVDEIHRLNKAEQDVLLLSVEKGEIILLGSTTENPAISINPALLSRVLTFKIEQLNKTDFQSLFEKIENYYNIKINNEIRNVLYNYSYDIRRIINIIEAVFESGIKDITIDSLTPFIDKINSYNTNDKYSYISAYIKSIRGSDPDAAILYLAYMLESGEDPIYIARRMVISASEDIGLSDPNALNIAISALNAVEKIGYPECYYALAQATIYLSVTSKSNSVGIAYNKAKKIIKEKNIKIPKHLINSINKNHKKQGFGIGYKYPHDFNGFVKQNYMPIGLENYVFYNPQKNAVEKKIEEKLKKLWENKKKYD;locus_tag=LOCUS_21470;note=WP_004081432.1 AAA family ATPase (Thermotoga maritima) [pid:40.3%25%2C q_cov:93.9%25%2C s_cov:64.6%25%2C Eval:1.3e-76%2C partial hit],MGA_2159
sequence1	MetaGeneAnnotator	CDS	2338498	2338722	.	-	0	ID=MGA_2160;product=RNA-binding S4 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966486.1;translation=MRLDKFLMNSKIVKRRVLAHDLCEGGKVKKNEKILKPSYKLKENDLITIELANRVITIKIKENTSFEILKEHRK;locus_tag=LOCUS_21480;note=WP_010966486.1 RNA-binding S4 domain-containing protein (Clostridium) [pid:39.2%25%2C q_cov:100.0%25%2C s_cov:88.1%25%2C Eval:5.2e-10],MGA_2160
sequence1	MetaGeneAnnotator	CDS	2338886	2339914	.	+	0	ID=MGA_2161;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008192160.1;translation=MNEPVLVVKDLKTYFDIAEGTVKAVNGVSFVLHKNEALGVVGETGSGKSVTMKSIMGMIKKPGYIVDGSQILFNTNEFSHDGSMEQVNLAKLSQKAFTRIRGKHIGMVFQDPMASLNPMYTVADQMIETIVYHQDVTPEEARKIAIELLKKVGLPNPEQRIDDYPFQFSGGQRQRIIIAIGLSCNPEVLVADEPTTALDVTIQAQILELMKDLQKEYQTGMIYITHDLSVVAEIADKVMVMYGGNQMELADVNTIFDRPMHPYTHALLSCIPRHDAKNEELNPIPGQPPIMLNPPALCPFLPRCPRATERCKKEWPELTEIEENHFIRCFNPVITKKTEDDK;locus_tag=LOCUS_21490;note=WP_008192160.1 ABC transporter ATP-binding protein (Thermotoga petrophila) [pid:59.3%25%2C q_cov:96.2%25%2C s_cov:96.1%25%2C Eval:8.9e-110],MGA_2161
sequence1	MetaGeneAnnotator	CDS	2339914	2341065	.	+	0	ID=MGA_2162;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081380.1;translation=MLLRVDNLKKYFPMKHGFIIERTVGYVKAVDGVSFSIDSGETYGLVGESGCGKTTIGKTIIRLHDPTFGKIYLEDKETAHYFMKHNEAKSFLKTEYVEVAKDLKKKYKTNALDQIPEYQRKYFKKIYDEGEDAFYNEMMHNLHEKRAYFRKNVGMVFQDPTSSLNPRMTVGQTLIEPMLFHKVVTSKQKAKNIAMDLLEKVGLKRYHVDRYPHQFSGGQRQRIAIARAIVLKPKLIILDEPTSALDVSVQAQIIALLKDLQKELNAGFVFISHDLGVVRFISSYVGVMYLGRMAEFGNSDEIFDNPKHPYSEALLNSAPIPDPHKRRDRKQFIIKGQIPSPINRPSGCFFSPRCKYVKAECKKSFPNYYDVGENHKVGCFLYK;locus_tag=LOCUS_21500;note=WP_004081380.1 ATP-binding cassette domain-containing protein (Thermotoga maritima) [pid:52.9%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:1.8e-122],MGA_2162
sequence1	MetaGeneAnnotator	CDS	2341096	2342847	.	+	0	ID=MGA_2163;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081378.1;translation=MKKLLVLFVVVFAALAMFADDVEWLVENVSGGQRGGTLYLTTTDGPKTLNSYQAQETSSTDILAWLFDSAMQSNNKGITSLQAMAKSFSVEETQSGTFTGVKYTFTLRKGLKWSDGVPITADDFVFTAEKIAFVNEMTANGNGAYLDDKDNLPVVKKVDDYTVTFTYEKSKFRQGYTMLGGMTIFPKHYFADKVDTPEHFKQTWTVDQIDKLVTSGPFILSEYKEGVRLVLKRNPYYYAKSKDGVQLPYLDEVVYNIVPNTNTELLKFEAGESDIFAPNAKDFPQIKSEASEKGWNVVVGGPALGSQFIAFNFNAPDKYKRAWFRNVNFRKAIAFAFDKQSIIDNLYNGLGVPLYGPTSSSSGFYDPEVENLGYRFSISKAKRYLKKAGFTWNADGKLVDKDGNIVKYTLSTNVGNNVREEIGNILSDSLAKLGIEVVFRPIAFNTLVQKLFGGDWDSIIIGLTGGVDLGDGWNVNRLDGGLHFWNYSPESQKWVDKDDYFVPDYEKRIDEIFKEQAVTLNQDKLKELFNEYQMLVAQNQILVYTVAQNYLVAYKKSVHIFNPTPSPAAPTLWKRYCIWKETK;locus_tag=LOCUS_21510;note=WP_004081378.1 ABC transporter substrate-binding protein (Thermotoga maritima) [pid:43.2%25%2C q_cov:97.6%25%2C s_cov:97.9%25%2C Eval:8.2e-131],MGA_2163
sequence1	MetaGeneAnnotator	CDS	2342906	2343877	.	+	0	ID=MGA_2164;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081376.1;translation=MLKYILRRLLFSIPVLIGASFIAFLIIALAPGDFLDQQRMNPTIKQEKIHQLEKEYGLDKNVFIRYGLWIKNVLKGNWGYSFSYKMPVWNILGGRLEATLLLSITTFIFSWGIGIPLGIYSALHQYTVSDQFLTVFGFIGISIPTFFFSLLWLFMSAKTHWFPVGGMISNSFDNLPWWKQIGDYFWHVIGPMVTLGYASLASTMRIMRGQLLDEMNKEYVQFVEAKGMPRKTKIYKHALRNAINPIVTALGYTLAGLLGGSLITENIFGWPGMGSLMLQALNMQDQFLVMANLMLSAFLLIIGNLVADILLAAVDPRVRFRLS;locus_tag=LOCUS_21520;note=WP_004081376.1 ABC transporter permease (Thermotoga) [pid:50.6%25%2C q_cov:99.1%25%2C s_cov:99.7%25%2C Eval:4.0e-96],MGA_2164
sequence1	MetaGeneAnnotator	CDS	2343891	2345570	.	+	0	ID=MGA_2165;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081374.1;translation=MNPDKNKINNDTKNKENEKEDVFEQEFLSTPQLVWRIIKKHKLGVISMWVLAILYFFAIFADFFSPMDPYKNHIEYRFMHSTKMHSTNLITGEKTKRYVNLYTLERDPVTRKGTFVEATHFDKLKAINSDNGKEETYQLGKYSETFNSTITEMYFNYYIVNKAVTKDGQEILLDKKSVNDQILLPISLFEKDKQATAPVRDKDGFLKPNFSNFLTGNEVLYKEDKRDIAIDEAKSNWKYGSKIKDKDIVKINKYFKLDYIYVGTDNFDEVDIYPADIQGVTFKRYDVKFFIKSWDYKLLGFIPTNVHFIGVEKTKLPSLKDYISNDGIFYLWGADKFGRDMLSRLLYGSRVSLSIGFVGILITFTIGLFFGGAAGYYGGWVDEGLMRFTEILMSLPSFYLLIALGALLPGDLSPALRYMLIIVILSFISWPGMARVIRGMTLGMKSSEFIEAAVALGYPGRRIIWKHMIPNTMTYIIVSATMAIPSYIIGEASLSFLGLGITEPSSSWGLMLSQAQSLEALTNYPWLLIPGLLIFITALSFNLFGDALRDALDPRALGH;locus_tag=LOCUS_21530;note=WP_004081374.1 ABC transporter permease (Thermotoga) [pid:41.9%25%2C q_cov:95.9%25%2C s_cov:97.3%25%2C Eval:5.3e-103],MGA_2165
sequence1	MetaGeneAnnotator	CDS	2345606	2347933	.	-	0	ID=MGA_2166;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073766.1;translation=MSLKKFFYFIFPSVIVISLILSMLFMFFAQVKVKNFIVEKQKRDIINQTKTIINLENKKAEVSLITLMQNEKVKELFYEQKRDELYNYLKSYYSTIKNDFYMSTLHFHNKDITSFLRWHSPEKYGDSLTWRNMLVEANKSKKRLDGIEVGKAGLVIRSIIPVFFKNEFIGTSEIGITISKEFLKSIIGDNICYVPYDYSGKRIDKYIIEDDDFSKLIKKDKLDKLINGEEKEINFIKKNFLYVTILIKDYTGKNVGVLITKDNITSLNLIFNNVRKSLIIVFLIIIFVSIYLFIIIGRNIVKKAKDIQYISNNVENNNLIIKVKVNENSKNEITHSVSKLNNAIKNLRKMFLNTINNLKENVVVFRNTEILLTSENKKIKKIGEKIYDSKENIHSISSSIEEVNSGVEEISAGATSIEKTSQNIVFITKELTNFSEKSNEFVKIINDNMNHLSNLSSEFVITVDELFNKTNNIADIVNTINTITEQTNLLSLNAAIEAASAGEAGKGFAVVADEIRKLAGKSKIATEKIETILNDIKNNIVIVDKKTKEINKNVIDSTNKTDTLFEQIKNITDKTIEVNDEMVNLAAVSQQQSASTVEISQSMDNSTKQLFEITEIFDELYENMKELIVIFDKITENSKKYEEISYERYSENNKKYTLYTNLDLINEIENMKESHINYLKEVENILKTKRLKNLEINPKYCNFGIFYNSYKINSLYKEEWKKIGDIHNLIHNETEKILKYILEDNINEAKRIYENIKNKKEELFQILNELIKKLK;locus_tag=LOCUS_21540;note=WP_011073766.1 methyl-accepting chemotaxis protein (Shewanella oneidensis) [pid:20.9%25%2C q_cov:77.7%25%2C s_cov:94.0%25%2C Eval:1.5e-37],MGA_2166
sequence1	MetaGeneAnnotator	CDS	2348373	2349452	.	+	0	ID=MGA_2167;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002485025.1;translation=MHVHLRSPGYEYKETLETGLKAAVHGGITTIGMMPNTNPTIDTLELIKNLNEQIKKINLSNVLFIPALTKNRDGKELVNISEIQNYAVGFSDDGSPINNTNLMLKALKILKKPIIDHCEVTGLNGSMREGVYSNLYKIKGIPDISETIMAFRDIEVSRNTGAHIHIAHISTKRTVKIIRDAKKQGINITCEATHNHFLFKDIDVKNANYKVNPPLPTQEDLEELINGIKDGTIDILITDHAPHSKEEKERNIENSPFGISGLETFLSGILMISKKHSIPLKKLINMVTHNPAKIFNLKNVGDIKEGYNADLTIFDTNKNWKVTEETLYSKGKNTPFLNMNIPGVVEKTIINGVIKYEEG;locus_tag=LOCUS_21550;EC_number=3.5.2.3;note=WP_002485025.1 dihydroorotase (Staphylococcus epidermidis) [pid:42.2%25%2C q_cov:99.7%25%2C s_cov:86.1%25%2C Eval:2.2e-74],MGA_2167
sequence1	MetaGeneAnnotator	CDS	2349454	2350158	.	+	0	ID=MGA_2168;product=dihydroorotate dehydrogenase electron transfer subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583922.1;translation=MEGKIILKKISKEYCILKVKLTEDMNILPGQFVMLSHPLKKELSKPFSVMDFEDGVLTFFVKIVGKFSKLLSELKENDILNIKGPLGVPYINKIDKNLKYVLVGGGCGAVSLIYFKKIYPNLVENELYGFKNSSIRKIFEHKSLFIDEESGNPLDKLDTILKEKNGIIFCGSKGMQKALLNKYPNKKIYMSLEENMGCGEGMCKGCPVMTTNGVKMVCKDGPLFDSKEVLEWKD;locus_tag=LOCUS_21560;note=WP_012583922.1 dihydroorotate dehydrogenase electron transfer subunit (Dictyoglomus turgidum) [pid:30.7%25%2C q_cov:97.4%25%2C s_cov:96.4%25%2C Eval:6.6e-22],MGA_2168
sequence1	MetaGeneAnnotator	CDS	2350146	2351051	.	+	0	ID=MGA_2169;product=dihydroorotate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048207.1;translation=MERLKTKVCGITFNNPVITASGPSGNGEELNKLIDISKLGGFTSKTITLNSKIGNPPPRIINVDGGMLNSIGLQNDGYIEFKKNTVPFLESLNTNIIASLGGYDSQEFEIMIKELNSTKIKAFELNLSCPNVSKGGAVISQNPNLVYEVVKNAKKISKKPIFVKFGIENVDELVENTVAAGADGVTLINCIKGMKIDINTGKTILKRKIGGLSGPAIKPIALATVYKIKNKYPDLSIIGMGGIMNFEDALEFMMAGASLVGIGTGVMIDHEIPVNIIKNLNNFLLKKNKKLDEIFSSAQEV;locus_tag=LOCUS_21570;EC_number=1.3.1.14;note=WP_012048207.1 dihydroorotate dehydrogenase (Clostridium botulinum) [pid:41.4%25%2C q_cov:96.7%25%2C s_cov:98.3%25%2C Eval:4.3e-57],MGA_2169
sequence1	MetaGeneAnnotator	CDS	2351053	2351835	.	+	0	ID=MGA_2170;product=orotidine-5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202194.1;translation=MFYEKYLKMREKNNSVLIVGLDSDTNKFNSKFSKDAIGIFEFNKYIIEQTNEYVCGYKPNIAFYEKHGYKGIQALEKTVEYIKKYTELPIIIDAKRGDIGNTAAAYAEAFFKYLKVDSITINPYMGMETINPYIELENSHVFVLGLTSNKGAKDFELENDLYLKVIKNVNEYNKKFKDKIGIVVGATNDEHIEKITKNSGNMVYLIPGIGAQGGSIEKLFKGLNGYKNIVINSSRGIIFSEDPKKSAKELKENLNKARGL;locus_tag=LOCUS_21580;gene=pyrF;EC_number=4.1.1.23;note=WP_011202194.1 orotidine-5'-phosphate decarboxylase (Bacteroides fragilis) [pid:45.0%25%2C q_cov:93.8%25%2C s_cov:93.4%25%2C Eval:7.4e-52],MGA_2170
sequence1	MetaGeneAnnotator	CDS	2351835	2352401	.	+	0	ID=MGA_2171;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583288.1;translation=MDIMNILLETKALLKGHFLLSSGLHSDTYVQCAQVLKYPNYAEEFGKEIANKVNVDVDIVVSPAMGGLIIGHEVASSLKVPFIFTERNDESTMVFRRNFNIEKGQKVLVVEDVITTGKSTKEVVKLIEEKGGIVVGTACIINRSNEVKINKKDPIYLLKVDAKTYTKEECPMCKKGSTPIKPGSRKKI;locus_tag=LOCUS_21590;gene=pyrE;EC_number=2.4.2.10;note=WP_012583288.1 orotate phosphoribosyltransferase (Dictyoglomus turgidum) [pid:50.3%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:3.3e-46],MGA_2171
sequence1	MetaGeneAnnotator	CDS	2352468	2353406	.	+	0	ID=MGA_2172;product=5'-nucleotidase%2C lipoprotein e(P4) family;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000782748.1;translation=MKKGLSILLIVIFALSVFASTEFYVVKSGDTVSKISQTTGVSVNDIISFNNLNKNGLIKVGQKLRLVPAYTKKDLNEQMVMALNWYQTSGEMKALSYQAFNVAKMIYDNDMKNNTSTEKRAVIVDIDETIFNNSPADAEHIGKDTSYPTGWKEWCEAAVAKALPGAVDFLNYVVKNGGDVYYISNRSDSLKEATIKNLKAEGFPEADVEHVLLKTTTSDKGPRREIVEKDHRVVLLMGDNLNDFTSMYRHKSLEERNSIVDQDKDKFGIKFVVLPNPIYGDWEGAIYNGNWGMNPSEKNKARKDHIIKYEGK;locus_tag=LOCUS_21600;note=WP_000782748.1 5'-nucleotidase%2C lipoprotein e(P4) family (Bacillus) [pid:44.6%25%2C q_cov:77.2%25%2C s_cov:87.3%25%2C Eval:1.7e-56],MGA_2172
sequence1	MetaGeneAnnotator	CDS	2353536	2354255	.	+	0	ID=MGA_2173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLAVKKELTDQLRFGIPSEEFMKEIIEECEVKEDSNVCILSSDNGFLTYTMMNRAKSIHLFEEHESVLNQLMTKLGSKNTSYYKFDKNFTLEDNSMDFVFININEYNHDIYKECNRVLKNNGKIILFYINEKKYEDIIIGGENLTLGENSNELNTILNNMGFEKNFEKSLRTYKIHLLDDDSKVEEEHHECSCNHEEDHSCSCGGEEEEHSCSGCGHNHIPENAKQAEVEIKVIIAKK;locus_tag=LOCUS_21610;note=MGA_2173
sequence1	MetaGeneAnnotator	CDS	2354252	2354713	.	+	0	ID=MGA_2174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILVLSDLHIPTRCKFEKLLTLNMNEYSHIIVTGDITDEDTYFYLNSQNAILHAVYGNMDDYYLKSILPEKKIIKINDKKIGIIHGHQTGRGYTEGLINKFENLDLMIYGHSHVKDLRKIGKTLVLNPGAFCDRKYAEIIINDKINIKMKVA;locus_tag=LOCUS_21620;note=WP_010878302.1 metallophosphoesterase (Archaeoglobus fulgidus) [pid:32.6%25%2C q_cov:85.6%25%2C s_cov:73.0%25%2C Eval:2.8e-11%2C partial hit],MGA_2174
sequence1	MetaGeneAnnotator	CDS	2354927	2356930	.	-	0	ID=MGA_2175;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964227.1;translation=MFKNSLVLKISIPVVIFLILMMSTMGIMSIKNAKKLYLETFNEQAIERSDEVKELLQSLFAQFYGPIQMATGELNALYFFDQQSVEDTLDYVREPFKTIKGMYFASEESGDLYGKGDFKVNGDPRKTFWYKEAVESKKTTVIPPYYDKTRKVPILSFVSPIYNEDGKLMGVLLSELSLKKIFETLSNVKFGKSGYLTIVDNTNKLIIYKDLTLIGMDISKPTSKNTDMNKAFKELSSNLKTKKQFTYSIGEKNILATVDYSKELKWYIIFNLEENEIDSAFNYVKNNLIIIVVTSLIVILLILIISLKISLKPIKNKIVPSMNKFSKGDLTFELNVKSKDEIGSIAKTINETRESLKVLLLEIKNSSTDVEMSSGKLKNMAQELDSLTIQISTSLDQMSQANTNMAGDIDNISNKVSRIYGSMEEISNQSNDYQSVLKSTFSGIEGVGNKIMNTSNKIKTVADEFEEINTSTKELISHTKTIEGIIDTVLTISEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAEGSKNAAEQIAEILSTVTKSINNVSQMINKEHGHVETSSNELLNVSKETKEAISKIGSVQTWINDIIVEFNTTTQSLMSIEKDVDSLAAVSEENAATSEEISAIAKELNISSKSLNTSSEELKDLSSTLIANINKFKIN;locus_tag=LOCUS_21630;note=WP_010964227.1 methyl-accepting chemotaxis protein (Clostridium) [pid:28.6%25%2C q_cov:99.6%25%2C s_cov:98.2%25%2C Eval:2.3e-63],MGA_2175
sequence1	MetaGeneAnnotator	CDS	2357131	2358528	.	+	0	ID=MGA_2176;product=aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083171.1;translation=MDYKELQKKLSMKKEQVWKNIEFKVIDDYAKGYKTFIDSSKTERKAVKYSIKELEKNNFKPLDYYEKLGKLENGDKVYFVNRDKSLFAIKINGKIKDGINLVGAHLDAPRIDLKPEPIFEDTEIAMAKTHYYGGIKKYQWLNIPLELHGVIIKKDGTPIEVSIGDKEDDPIFVISDLLPHLDRNTKPIREAIDAEKLNVLLGTISITYDEEIKDGTKLNILNILNEKYGIIEEDFISAELEIVPAFNARDVGFDRSLIAAYGHDDRICSYTGLTALIESSPDGKSPALLLIDKEEIGSDSNTGAKNHFWIPVLKKLLKLQNEDVVIAIEDTLQNSTLLSADVAAALDPNYKDAHDPLNAPKLGYGIVIAKYTGVRGKGGTNDANAEVVGKLRKVLNDNNVSWQTGELGRTDLGGGGTIAKFFAEKNLDVIDAGVALLGMHAPYEIASKADLYETYRAYKVFMEKY;locus_tag=LOCUS_21640;EC_number=3.4.11.-;note=WP_004083171.1 aminopeptidase (Thermotoga) [pid:52.2%25%2C q_cov:97.8%25%2C s_cov:99.8%25%2C Eval:2.9e-136],MGA_2176
sequence1	MetaGeneAnnotator	CDS	2358528	2359094	.	+	0	ID=MGA_2177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFAGDPINAIEFLNEDINLIFSTSSWSYDQGEVIFIMNKRSINLFNNNKHYLLNKKNREIQISNFKINFGYIEDVLNFNYYFYNQLIKTDLIIFKFEISTLNNLEKIYKHVQSNIRKVHIPVMIFYFYKKKIYISYIVSNNENMFVFKDAIYAYINLEKKEIMYTYGRYKKELKEALINFKSRIYR;locus_tag=LOCUS_21650;note=MGA_2177
sequence1	MetaGeneAnnotator	CDS	2359091	2359756	.	+	0	ID=MGA_2178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIKYFFLKNKIKKILKNINFKESELKKINLYILNNLKGQTFFDQIEIGLKNGCILYFYETTKKLQKTKLQELAEILSVFGIYLIIKYKNLFVKIYENKITVINTETPFKDREIQIKTNKLSFIFNTEMNNPALISLIKFKKLDILITDEKNEKKCKDLANNDIIYIFNKDKIIFPDIINENSIKLKKILKIETKNLKKLQKNFSNTNEDLLNSILKYL;locus_tag=LOCUS_21660;note=MGA_2178
sequence1	MetaGeneAnnotator	CDS	2359751	2360728	.	-	0	ID=MGA_2179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAYIVSNPNSYLKIKKYLEKLNFFSLINFYSEDIEDKKENFIIFCENSEKEVIESIKNKYIFSPILILFEKEINEYLYEYMFDEYLYLTESIEKSKIKINNLFLKKKFEIASNHIFEAEKLLLSKERINLIQKIEEDKFLFINFLVGILEVIYESKYKNLSFHAHNVGHLSGILAEEEGLKARQVTYIEWAGFFHDLYIIFSEDKSKSMLDHIKFSNKKKDLTVLFEINKNIFENDIYDILIDFFSNNLVKMNKLSKFIQYSEIIDLKVFDLINKNYKLSSNDVDKQLKDLIKNIPFEDIKSTFEKSKKRILSYYSKIVRNLNS;locus_tag=LOCUS_21670;note=MGA_2179
sequence1	MetaGeneAnnotator	CDS	2360776	2361174	.	-	0	ID=MGA_2180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLKIVTPNGIFKELDVEYAEFTTVDGSMGVLTDRLPIVSRLKVSSLLVKDKEENNHVFAINGGVLEMDGKELIILTTDAENPEDIDVDTAMKAIETAKNQLKQSNDTIEKTKLNAEIEKNIVRINVAKTK;locus_tag=LOCUS_21680;note=WP_004082057.1 F0F1 ATP synthase subunit epsilon (Thermotoga) [pid:43.2%25%2C q_cov:72.0%25%2C s_cov:87.0%25%2C Eval:1.5e-14%2C partial hit],MGA_2180
sequence1	MetaGeneAnnotator	CDS	2361190	2362599	.	-	0	ID=MGA_2181;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082059.1;translation=MEMNKGKIVSIIGPVVDIKFEEGQLPEIYDALEVMNPYTNTKLVLEVEQLIGDNTVRCVGMDSTDGLKRGLEVTHTGSSIKVPVGKGSLGRMFNLLGNPIDEKGEVTDVEYWPIHRDAPSLEDQNTEIEILETGLKCIDLLAPFPKGGKVGFFGGAGVGKTVLVMELIRSIAIEHHGLSVFAGVGERTREGNDLWLEMNESGVIGNTALVFGQMNEPPGARFRVPLTALTMAEYFRDAEKKDVLLFIDNIFRFVQAGSEVSALLGRMPSAVGYQPTLASDMGQLQERITSTKNGSITSVQAVYVPADDITDPAPATTFSHLEATIVLSRKRAELALYPAVDPLDSNSKILDPNVVGEKHYEVARNVQEVLQRYKDLQDIIAILGIEELSEEDKLIVNRARKIERFLTQPTFVAEKFSNIPGAYVKLEDTINGFAEILSGKYDHISENAFYMVGTIEDMLEKAKSMGIKV;locus_tag=LOCUS_21690;gene=atpD;EC_number=7.1.2.2;note=WP_004082059.1 F0F1 ATP synthase subunit beta (Thermotoga) [pid:74.9%25%2C q_cov:98.5%25%2C s_cov:98.7%25%2C Eval:3.5e-198],MGA_2181
sequence1	MetaGeneAnnotator	CDS	2362620	2363456	.	-	0	ID=MGA_2182;product=ATP synthase F1 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082062.1;translation=MSRGKLRLIKRRIESTTSTMQITRAMQMVASARLSKVQKKINSIQEYASYAERIISKIEPDYDSPLVKPGDGTLIVVVSTDMGLCGSFTGDISSHAIKEANNCSDFKGFLVIGTKGEIEIKNYGDILLSRTKLYDIPTSDNAEYILDDILNIVNSKKAGKVKIVYGELKNALIQRPKTIDLLPIKYESKLDTRYEYEPAPEILFKEASYLYMLSQVYRYMYETKVSELYARQNAMKNATENAKNLIDDLTLDYNKLRQSSITTELIEIVNGAQALQEQ;locus_tag=LOCUS_21700;gene=atpG;EC_number=7.1.2.2;note=WP_004082062.1 ATP synthase F1 subunit gamma (Thermotoga) [pid:41.5%25%2C q_cov:96.8%25%2C s_cov:97.8%25%2C Eval:4.0e-51],MGA_2182
sequence1	MetaGeneAnnotator	CDS	2363471	2364988	.	-	0	ID=MGA_2183;product=F0F1 ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082064.1;translation=MRVNPDEITKVIEERIKSYESGEIKEVGWVIQVGDGIARAYGMKEIVANELVEIKTENNDIVYGIAMNLEEDNVGIITLGDYKKIKEGDRVIRTKKVIEIPVGESLLGRVVNPLGLPLDGKGEIKTETFYPIERKATGVITRKPVDTPLQTGLKSIDSLIPIGRGQRELIIGDRQTGKTAIAIDTIINQKGTGVKCVYVAIGQKSSVVARIIKKLEEAGAMDYTTVVVASAADSASLQYLAPYAGASIGEYFMFNKQDALVVYDDLSKHAAAYREVSLLLRRPPGREAYPGDVFYLHSRLLERAANLEENYGGGSLTALPIIETQANDISAYIPTNVISITDGQIYLESSLFYAGFRPAVNVGLSVSRVGGSAQTKAMKKVAGSLKLELAQYRELESFAQFATDLDESTKKQLIRGEKLQELLKQPQYSPMTVSEQVVLLFAGSKGYLDDLPVTSIQKFEKEFLGFLKTQKTSLMNELEEKKVLSDELNKDLTQALDEFKKMFKA;locus_tag=LOCUS_21710;gene=atpA;EC_number=7.1.2.2;note=WP_004082064.1 F0F1 ATP synthase subunit alpha (Thermotoga) [pid:69.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.8e-200],MGA_2183
sequence1	MetaGeneAnnotator	CDS	2364994	2365548	.	-	0	ID=MGA_2184;product=ATP synthase F1 subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596896.1;translation=MKVSYSLATRYTNALIALLVSNEKLEDLDKYISGIKKINAKIENDDALKDIVFSPLLPKKYISDSLVKVSELNDEIFEKFIYAIVQKKRQSLLKAIEIILERYSYELKKLIEVDVMLSDKISEELLENIKNVLKKKTGRNISLKEVINEDLIGGLQLIIDDKLFDYSVKGYLESIERLYASSRG;locus_tag=LOCUS_21720;gene=atpH;EC_number=7.1.2.2;note=WP_004596896.1 ATP synthase F1 subunit delta (Rickettsia prowazekii) [pid:28.2%25%2C q_cov:86.4%25%2C s_cov:88.5%25%2C Eval:1.7e-10],MGA_2184
sequence1	MetaGeneAnnotator	CDS	2365545	2366039	.	-	0	ID=MGA_2185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFNMTSIVNLIGFTAFMITLYYMLYKPYFEMTDKRRAEIEKNLNEAEKLRIDAQEKKKLSEEELLKVREQRESLIKNAEMEAKKIVESAKEIAEKEKGNIIKKAEMEANEIKEKAMKEMQSKVVSLSIAISGMILKEQLDKQANQKMVQRAIDLFEKRGENL;locus_tag=LOCUS_21730;note=MGA_2185
sequence1	MetaGeneAnnotator	CDS	2366071	2366349	.	-	0	ID=MGA_2186;product=F0F1 ATP synthase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082074.1;translation=MDLLKTLADNAGTLGIGLYFLGKFIGAGLAMGIGAIGPGVGEGNVGAHAMDSIARQPEMAGTITSRMLLAMAVTESTGLYSLVIAFIILFAM;locus_tag=LOCUS_21740;note=WP_004082074.1 F0F1 ATP synthase subunit C (Thermotoga) [pid:58.3%25%2C q_cov:91.3%25%2C s_cov:98.8%25%2C Eval:1.3e-21],MGA_2186
sequence1	MetaGeneAnnotator	CDS	2366398	2367234	.	-	0	ID=MGA_2187;product=F0F1 ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082076.1;translation=MSNEKDNKLKKIIISFFSLYVVLGIVNVIMSKEGLKEMLDGVGQRWIYKFGDGFWGQINPMTLIISAAIMIIVVLFFSTVKFERIPGRKQSIVELVLDYFWELVEDTIPDKRFRRATFVIATTLFFYILVSNLLGGMPGISVVPKSSGLSLELFTDTWYTPTSDLNVNVTYAVMVLIISHIFAIRSKGIKNWLKMFIDPTPLMLPMNLIGEIAKPVSHSLRLFGNIMGGGILVLILSSMLKYFVLPVFLWGFFGWFVGLIQAFVFSLLAIAYIGALLE;locus_tag=LOCUS_21750;gene=atpB;EC_number=7.1.2.2;note=WP_004082076.1 F0F1 ATP synthase subunit A (Thermotoga) [pid:55.6%25%2C q_cov:97.5%25%2C s_cov:97.9%25%2C Eval:3.5e-79],MGA_2187
sequence1	MetaGeneAnnotator	CDS	2367252	2367587	.	-	0	ID=MGA_2188;product=ATP synthase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865371.1;translation=MTKLEITLREMIKKTILLTIIEVSISFFIYKFNSFWILYGSIGTISALLLMSTDIKKMAFYKKIPNGYFVRYAIYAFILFTAALVSKIALILSFIGLINLKIVPFITNKNL;locus_tag=LOCUS_21760;note=WP_010865371.1 ATP synthase subunit I (Thermotoga) [pid:33.6%25%2C q_cov:95.5%25%2C s_cov:94.8%25%2C Eval:7.1e-07],MGA_2188
sequence1	MetaGeneAnnotator	CDS	2367523	2367801	.	-	0	ID=MGA_2189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNDLKTFGQINLVIFFGIVVITNIFVGFGIGYFIYTLTNNKLWLIIMLFLGMISGLYNGIKELLKEAKKYDEIGNNSKRDDKKDDSSNDN;locus_tag=LOCUS_21770;note=MGA_2189
sequence1	MetaGeneAnnotator	CDS	2368536	2368787	.	+	0	ID=MGA_2190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVIITGIYLLDEKLNIKNKIDGINLKNIERTNNDIDDAKKVWEDSFKHSSPYEDKNFDLKRTSKGKNNFAHDFYKISNKDIK;locus_tag=LOCUS_21780;note=MGA_2190
sequence1	MetaGeneAnnotator	CDS	2368795	2369694	.	+	0	ID=MGA_2191;product=ankyrin repeat domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016207.1;translation=MKNKITVLFIVIFNIFSFSNSINDLFNAVCNQNIEEVKIILENKNLNLNYRNEDYRTVLDTSSINNYFDTFKVIYNSGLELTKETMISAYGYAIYYNSYNIVKYILDNYGTYDYTNFLPDDSAVNLSIIRKNFEITELLLERNVKYNDEAIVLAAKENNFELIKYFVNAGISVNTNGWHEYTPLYYAIKNKNYEMTEYLIKNGADTNAISWENETILDIAIYTGLDFVKLLVENKCNLNQMGKYYPPLTKAIISRKKNTAEYLLEKGADVTLKDKTGKAVYDYVKGKPNLMKILKSYLQ;locus_tag=LOCUS_21790;note=WP_011016207.1 ankyrin repeat domain-containing protein (Fusobacterium nucleatum) [pid:24.8%25%2C q_cov:81.3%25%2C s_cov:77.3%25%2C Eval:2.5e-09],MGA_2191
sequence1	MetaGeneAnnotator	CDS	2369702	2369938	.	-	0	ID=MGA_2192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKQRREYFVTFCYFLEKFGNTNDTLIMYKKTYELKIDNPWLNFLFYNYYGKTDDSGEFKRCITLQESINYNKKLPRE;locus_tag=LOCUS_21800;note=MGA_2192
sequence1	MetaGeneAnnotator	CDS	2370166	2370687	.	+	0	ID=MGA_2193;product=AmmeMemoRadiSam system protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081947.1;translation=MFGEHPYVKWAIKVIENYIKNGIKINIDNNLPEELFIRKAGCFVTLHNSDGSLRGCIGTIEPVYENLAKEIRENAISAATTDPRFPAVSINELEDIQVTVDILSQLEYVEDTEELDPSYYGIVVESGWRRGVLLPDLEGIDSIEKQIKVAKMKAGIYGNEPLDIYKFSVERLY;locus_tag=LOCUS_21810;gene=amrA;note=WP_004081947.1 AmmeMemoRadiSam system protein A (Thermotoga) [pid:60.5%25%2C q_cov:98.8%25%2C s_cov:98.9%25%2C Eval:2.1e-54],MGA_2193
sequence1	MetaGeneAnnotator	CDS	2370689	2371684	.	+	0	ID=MGA_2194;product=AmmeMemoRadiSam system radical SAM enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081949.1;translation=MKKILSFYKATNESIKCELCPNECLLKNGQTGLCKTIKNIDNKLYSLNYEEISSISIDPIEKKPIFHYHPGDKVLSIGSWGCNLKCPFCQNFEISQFKPNYLSKVKANEIPLIINEKNVNGIAYTYSEPLSCYEYVYESCVQVKKYNENYYNILVTNGFINEYPFEKLLNYIDAVNIDLKTFNSKNYMKYLKGNLKNVLNSIELAFQKDIHVELTTLIVPKISDNLHDLEEEFKWISHLSKNIPLHISKYYPIFKYNESKTSRSLLIKIYEMAKKYLNYVYIGNLWEEKYESTFCPNCGNLLIKRNGYKIQKINLDEHGGCKTCGQKIIKY;locus_tag=LOCUS_21820;gene=amrS;note=WP_004081949.1 AmmeMemoRadiSam system radical SAM enzyme (Thermotoga) [pid:51.1%25%2C q_cov:97.9%25%2C s_cov:97.0%25%2C Eval:2.3e-94],MGA_2194
sequence1	MetaGeneAnnotator	CDS	2371657	2372694	.	+	0	ID=MGA_2195;product=FAD:protein FMN transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081951.1;translation=MWSKNNKVLKTIFSIAFLVSVSLILFLILSKPKPQYKERIVSTLGTIVKLYISGEKVSTDTLLDISEKELQRLNQKFSANVKGSIVYKLNKNDEVECDEEALFLFQAALNTAKISGDAFDPTIRPLMKLWGFDDVNSPKKVPSKEAIKNALQYVNYRYVKIDQKNNKVYLLKKGVEIDLGGIAKGYAVDKVIERIKGIDPNATGFIDAGGDIGIIGPKYGNLPWVIGIRDPFKKGMYSSIGTLYLYSGAVATSGNYERFFIKDGIRYHHLIDPKTGYPSNKSVSSTVIAKKVMTADAFATTLFILGYNNPSLEYFTNFGIQAYIISPTGEGTKTSGFDYFMEKGR;locus_tag=LOCUS_21830;note=WP_004081951.1 FAD:protein FMN transferase (Thermotoga) [pid:41.0%25%2C q_cov:95.4%25%2C s_cov:94.3%25%2C Eval:1.2e-64],MGA_2195
sequence1	MetaGeneAnnotator	CDS	2372691	2373065	.	+	0	ID=MGA_2196;product=NusG domain II-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416526.1;translation=MTFLKKGDLYFILAGILFLISLYIFQNLNNYSIEGAKVFLNGKNIFNITKDGTYTIKNESGNILMHVEYKNKMVRALDSTCKLKVCIDTGWVNNASQDIICIPNKIVIKPIGKKKKNGVDLITW;locus_tag=LOCUS_21840;note=WP_003416526.1 NusG domain II-containing protein (Clostridioides) [pid:27.4%25%2C q_cov:96.8%25%2C s_cov:99.2%25%2C Eval:8.2e-08],MGA_2196
sequence1	MetaGeneAnnotator	CDS	2373059	2373562	.	+	0	ID=MGA_2197;product=Gx transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081957.1;translation=MVKSKKISYLAILSAISSAIYYFESFLPMPIPVPGARWGFSNFPVLLGIVKNMSFSNIIYMILIKSIMGSMFTGKLFTPTFWMGITGSLIGSIFMFYASKIKKFGIVGISEIGAFVNNSVQIIVAGIFIIHSKGIFWYYPFMVGTGFLTAFINASIVKITIRSVEFE;locus_tag=LOCUS_21850;note=WP_004081957.1 Gx transporter family protein (Thermotoga) [pid:36.6%25%2C q_cov:85.0%25%2C s_cov:75.7%25%2C Eval:9.1e-20],MGA_2197
sequence1	MetaGeneAnnotator	CDS	2373555	2374109	.	+	0	ID=MGA_2198;product=Maf family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001226290.1;translation=MNKYNIILGSGSPRRYELLKLLFNNFEVKVSNTVEKYSSKKPENIVVELSELKSNSIKISNDKLLITADTIVVLNEKIIGKPNNFEDAFHMLKSLSGKKHEVFTGVTIRTLNKKRCFYEKTEVFFNNLTDSIIKFYLSTYEPFDKAGSYGIQDFGAVFINKIIGDYYNVMGLPISRLFFELQSF;locus_tag=LOCUS_21860;note=WP_001226290.1 Maf family protein (Bacillus cereus) [pid:50.8%25%2C q_cov:97.3%25%2C s_cov:94.8%25%2C Eval:2.0e-40],MGA_2198
sequence1	MetaGeneAnnotator	CDS	2374157	2374822	.	+	0	ID=MGA_2199;product=DNA repair protein RadC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865362.1;translation=MLPREKLIKYGVEKLTNDELLAVILRSGIKGKNVFELSKELLKKYKTLTKLEQASFEELSSIKGIGKVKSINLKASLEFGKRYHLYKMKEKKVSINSPEDVYRVSENMIYYDREVVKVISLDSKLNIINSNEVSQGTANASIAHPRDIFKCAIKNNAISIVLVHNHPSGNPEPSKKDFDLTNKINEAGTLLGIKLNDHVIIGNNSYYSFNLQKKVYINERE;locus_tag=LOCUS_21870;gene=radC;note=WP_010865362.1 DNA repair protein RadC (Thermotoga) [pid:46.7%25%2C q_cov:94.6%25%2C s_cov:94.1%25%2C Eval:7.3e-52],MGA_2199
sequence1	MetaGeneAnnotator	CDS	2374809	2376011	.	+	0	ID=MGA_2200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENDKLEAIYKLKKEMEKDLKKKGGKIKSEEETEKKRTIYKPDKVLSGINIPFEKIKTWFDINLYDIEISDEKLSFYFESKLTNKSPGYFYNQFGLMHLLRNDYEKAEKFFLLGKDIESKFNYGVLKVFRKDEDALVYAKEIVNKYPQTGYPYLLLSLYFISVNNFDGAYKFLTTANKFLNYSFISLALSIYKKDFIASKAYLSKCFLENKAKKTITLLDYYMTLFGTDIDKRLSIFSSIRRENTPCAKCIETIQSKKGHETPEYCAFSQRINSILFLNESSKSYIFEKLDLNFINFFNANLKEEANKVYQSMIKIYGELDILFIPGSTNKMGLKTLEFITETTKYKMTLKGPDYYTELKTILKSLKNNYHKDFDFIINVPFYESLRLLFGWRTCKRLY;locus_tag=LOCUS_21880;note=MGA_2200
sequence1	MetaGeneAnnotator	CDS	2376025	2376783	.	+	0	ID=MGA_2201;product=deoxyribose-phosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081965.1;translation=MDLKRLEESIEKEIKKVNESFNYSEKNIELKPENIARYIDHTLLKATATPKDIEKLCEEAKENDFFSVCVNPAYASLAKEKLNGSNSKVAVVIGFPLGANDKTVKAFETRAALDDGADEFDMVINIGMLKAKKYDYVFEDIKSVVDEADGKTVKVIIETCYLTKEEKIAACVLSKLAGATFVKTSTGFGTGGATPEDVALMKFVVGNDLKVKASGGVRSFEDAKKVIAAGAERIGASAGIKIINGEVSKENY;locus_tag=LOCUS_21890;gene=deoC;EC_number=4.1.2.4;note=WP_004081965.1 deoxyribose-phosphate aldolase (Thermotoga maritima) [pid:59.6%25%2C q_cov:95.2%25%2C s_cov:96.8%25%2C Eval:2.8e-77],MGA_2201
sequence1	MetaGeneAnnotator	CDS	2376942	2377910	.	+	0	ID=MGA_2202;product=thiamine ABC transporter substrate binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146675.1;translation=MKKGILVIMSILIVISVFSTTLTVYTYESLNWVEDKVLKEFESMYGCDVNLVKLGDGGSVLSRLLLEKKNSKADVVVGLDQSLSVKAIKEGILEKYTPINISKINNKDLILNDYTVPYDYGGIAFVYNPKTLKTVPTSFEDLTKLNKKIIIQDPRTSSTGQSFLLWTIAVYGDNWQDFWKRLKPAILTVAPGWDESFSKFEAGEAPIMVSYATDGAYSYQYYKSTKYKAFIPKEGAYVQIETASIIKNTKNEELAKRFIEFLLMNNFQKEIPLNQWMFPVTNTTLPESFKYAIIPEKIVSVDSEKISKNMETWLEQWEKIMY;locus_tag=LOCUS_21900;note=WP_048146675.1 thiamine ABC transporter substrate binding subunit (Pyrococcus abyssi) [pid:44.5%25%2C q_cov:93.2%25%2C s_cov:87.7%25%2C Eval:2.0e-71],MGA_2202
sequence1	MetaGeneAnnotator	CDS	2378098	2378271	.	-	0	ID=MGA_2203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFRLYITFKFIPILDKRPFPEYSIEKAIIADIGGKKKGINNEFSITLESIFLFLDT;locus_tag=LOCUS_21910;note=MGA_2203
sequence1	MetaGeneAnnotator	CDS	2378344	2378568	.	-	0	ID=MGA_2204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFIDPLNVVEIATSKVEYLIPPNERTIAKLVKQYVKTRKKPLVIDGIIIGKSILKNFCNLLAPSILTVSSIF;locus_tag=LOCUS_21920;note=MGA_2204
sequence1	MetaGeneAnnotator	CDS	2378555	2379436	.	+	0	ID=MGA_2205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSKALTYAMIQFIVLTIINIFLSKTEEYQIEYQDFKIKKTNIFLFIFSLMYIIFEYSIVIVGILASIYNFYESKFDISGILNLFSKKINSKYHIIESIINSLSLSFITSIITVLFSYYILKKYSKFTNILITSTIGISSAFLAMGLVYLNILFSINYFYLLTIGYFLITVPICISFMHSHFLSFDRTIEEAAKLDGANKLQLLYYIDFPLMFPILLSSFLQIFTIIFGEFTIAYTMQINNSYPLVSLVNYTLSSSRLYKESSALSSLNILIIFFIFYISKIFSKKTKDDFK;locus_tag=LOCUS_21930;note=WP_003722383.1 sugar ABC transporter permease (Listeria) [pid:22.0%25%2C q_cov:66.2%25%2C s_cov:72.4%25%2C Eval:6.7e-07%2C partial hit],MGA_2205
sequence1	MetaGeneAnnotator	CDS	2379454	2380143	.	-	0	ID=MGA_2206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEFDDFEKFLNDILNKNPELGNFNLDFLKNINPDELEDIIEKLKEASAKFKEADDKITEKVLKKLNFEIKDLKINFDTYLNTIATFPFALAIGEEALENNHDSGVLKGNFFGKKVEFSYNNVFEMVSIKKAVAMEISKLIRKNFLLFLNFKDELNQYITEKVNTYIRLYNLEDFIEVTDIKEFNMVVRVKSKKYNTFKELMDQDMELFEKVNFFKAYLITEFSIAIIE;locus_tag=LOCUS_21940;note=MGA_2206
sequence1	MetaGeneAnnotator	CDS	2380224	2380781	.	-	0	ID=MGA_2207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEILKDNNTYCVLDTETTGLSPQNGDKLVEIAVYKIKILEDNINFIIKDKFITLLNPERNIPFYASKIHGIRDKHVENSPKFFEIQEEFLNFINNCVLVIQNARFDLKFLNFEISNEQYIKNQILDTMKMSHRVFKGERKHNLDIICKRLNINTNVSRHRAEGDVILTSQAFVKMRKYIIENNN;locus_tag=LOCUS_21950;note=WP_004597036.1 DNA polymerase III subunit epsilon (Rickettsia prowazekii) [pid:39.0%25%2C q_cov:88.6%25%2C s_cov:72.1%25%2C Eval:3.4e-24%2C partial hit],MGA_2207
sequence1	MetaGeneAnnotator	CDS	2381017	2382549	.	+	0	ID=MGA_2208;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008766109.1;translation=MKKLPIGVQNYKKIKEGNYTYIDKTKYILDLISSEAPIFLSRPRRFGKSLTISTLYYLFKGEKDLFKGTYIYDKWEFKEYPVIRINLLDVATDNVERMKESLTKIIKLEGKRNGIEITETDYKFAFNELIIKLSKKERVVILVDEYEKPILDNINNKEKAEKYREILRDFYVSIKSKDEYIKFVFMTGITKFTKTGVFSALNNLNDISLNKKYAQMLGYTQEELESNFKEHIKETAIEMNMEEKELLKNLKMYYNGFSFDGENSVYNPFSILRFFNEMEFQNYWFESGSPSFLYEYIKGKKIRYEDLVKYPVSELDFSTREIEEANASIFFTQAGYLTFKGIKRLGLRKKYILDYPNIEVKNSFSKIILEANYGIRETEQIETTIYERIYEKDIEGIIKEIKRIISAIPYNLHKKEESYYHSLIYTILASAGLNVTAEELTNLGRSDIVIEFEDVIYIMEIKIDKSAKKALNQIKEMKYYEKYKGKEIYIIGININSEKRNIDEYKIEKI;locus_tag=LOCUS_21960;note=WP_008766109.1 ATP-binding protein (Bacteroides) [pid:34.9%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:6.0e-82],MGA_2208
sequence1	MetaGeneAnnotator	CDS	2383020	2384027	.	+	0	ID=MGA_2209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSFVIMIFLILLIVFFVSSCTKNITNSVQKNDKEITLNESSHLESETFYTLDFTKIKTDYYTKKGILKLTEYYNKNGEIVLSKNFINNKILINKFNFKNNLYKISKGISNYKILPDFISNNQNNIVKTKNTQPVIFKVISISIYQSTSNNIESKTWTDKGLISNSSKILSNLISAANYAADLFFKKSIPGYILGSAANLLIDSTANQYIVFTKFGYTDFKSGKGKVLTYFRDPNGQRTVLDKKAPQYVRFYSEIAIRNYYDLFKDEYMNLKAHYKDSSGIECTKMKSYKNSDIQVAKNKESSTFNKYHNNSYLRNYVKTRYEIDLANSGVIVQ;locus_tag=LOCUS_21970;note=MGA_2209
sequence1	MetaGeneAnnotator	CDS	2384024	2385028	.	+	0	ID=MGA_2210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYIILLIILLLFIVIFFNYYNNQNHFSKEITFENIFEYKNIDNITLKDTYIDESFGCSDIQFYLNEFFNKERQESIFLILNYDISKNEYFLSLKFSDLRDKKILNFILEGKNLYIKKNLKDIFYLNDFDKNVFYFKTSYKNINKLVLKNKLILKLIYNEKNKNIEYKAVKNFESRKNIFNFEVNHHFPYNTKNIDAYFELSKVLMKLKDKKNIKLENAIAYFYSLIKYKKVLEKNKFILSKEDMDKINLLILNIKGGKYIKNFSQITWNSFYKFEDYLNNLFDTACNKLDNLLCSIEDITYNLITDHEGKIVINFFWKKTKKVGEFVFTVK;locus_tag=LOCUS_21980;note=MGA_2210
sequence1	MetaGeneAnnotator	CDS	2385231	2386001	.	+	0	ID=MGA_2211;product=alpha/beta fold hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002666565.1;translation=MFFDNIPKETSVNKISQPSFFEGGENAVLLIHGYTGTPHDMRYLGHMLHKAGFTVSIPRLPGHGTNSVDFQNSNWKDWLRKVTDEYVDLKYKYEEVYISGLSMGGVLTLILASKFKPKKIVLAAPAIEAKNKKIKITPFLKYFIKKTDRKYKEVHEDENLNKLAKEYWHYNWINKAADLRKLQKISLKCLSEVEADTLTILSKTDGSVPLNVGDIIDEKINSKNKKKIILEKSSHVLVNDIKREYVAQEIIKWFKN;locus_tag=LOCUS_21990;note=WP_002666565.1 alpha/beta fold hydrolase (Treponema denticola) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-63],MGA_2211
sequence1	MetaGeneAnnotator	CDS	2386017	2386523	.	+	0	ID=MGA_2212;product=ferritin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875797.1;translation=MALSEKIEKMFNEQINKEFYSAYLYLAMASYFEEQNLPGFANWMRIQFQEEEAHAFKFFDYLVERSGHIELEKIEKPKITWKNPLDAFNDVYAHEQFISKSINEIFKVAREENDYPTETFIHWFIMEQVEEEKNAKEILDRLSMIKDNIQPLFMLDSELAKRVFTPPV;locus_tag=LOCUS_22000;note=WP_010875797.1 ferritin (Methanothermobacter) [pid:47.9%25%2C q_cov:98.2%25%2C s_cov:96.5%25%2C Eval:3.2e-44],MGA_2212
sequence1	MetaGeneAnnotator	CDS	2386550	2387023	.	-	0	ID=MGA_2213;product=thioredoxin-dependent thiol peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582794.1;translation=MKYFKYDIGNKLSFNLIDSNSNEISSNDFIGKWLILYFYPKDNTKGCTTEAIDFTNSLEEFKKLNAEVVGVSPDEPKKHIKFIEKHNLKVTLLSAENEVLNEVGVWQMKKMYGREYYGVMRTTVILNPNGVIEYVWEKVKVSNHIKEVLNKLIELQK;locus_tag=LOCUS_22010;gene=bcp;EC_number=1.11.1.24;note=WP_012582794.1 thioredoxin-dependent thiol peroxidase (Dictyoglomus turgidum) [pid:47.6%25%2C q_cov:90.4%25%2C s_cov:92.9%25%2C Eval:6.0e-36],MGA_2213
sequence1	MetaGeneAnnotator	CDS	2387081	2387725	.	-	0	ID=MGA_2214;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545081.1;translation=MENTMPLLGERFPELKVNTTLGVKNLPEDYKGKWFVLFSHPGDFTPVCTTEFIGFAKKSEEFKKLNTELIGLSIDQVFSHIKWIEWIKDNMKVEIPFPVIADDMGNVAKKLGMIHPGKGTNTVRAVFIVDDKGITRLIMYYPQEVGRSVDEVLRALKALQLSDKNKVAMPENWPNNEIIGDKVIVPPASDYETAMERRNNSEEGFDWWFKVKKL;locus_tag=LOCUS_22020;EC_number=1.11.1.24;note=WP_012545081.1 peroxiredoxin (Thermodesulfovibrio) [pid:66.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-85],MGA_2214
sequence1	Barrnap:0.8	rRNA	2388184	2391090	.	-	.	ID=Barrnap_11;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00110;note=Barrnap_11
sequence1	Aragorn:1.2.38	tRNA	2391133	2391209	.	-	.	ID=Aragorn_48;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00470;note=Aragorn_48
sequence1	Barrnap:0.8	rRNA	2391250	2392772	.	-	.	ID=Barrnap_12;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00120;note=Barrnap_12
sequence1	MetaGeneAnnotator	CDS	2393554	2394705	.	+	0	ID=MGA_2217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYYWISLTNDCNFSCEYCYQKKKAKTIMNEYTAERIIDLLNLNDSIELIHFFGGEPFMNFPIMNKIVSNLNVNVEKFSITTNLSLLNNDYINFLENYNFNLLLSIDGNKQSHNMGRKTLTNKDTFDNVFKNLKILSKSNISKNISIAKTLTIKNYKNLYDDFLFFNNLGFNTNVNVDMNLKESKESFDIEILKENIKKIISFVMNNDCIDFWNIKEYINVYNNFKLGKKYKNTLSSCTNKENSIISISENGNLYPCHFLYEYDNQGYFPQNIFSFNNIKDIESTFKESFIKNYYFKNLSEYEILKIVESEINSKNCNYCKYIDFCSDKIVDSAKESCFYKRYNLRNNYNSIEKNTLCFQKLFFDSISELLKEGEKNLYNCL;locus_tag=LOCUS_22030;note=WP_012545100.1 radical SAM protein (Thermodesulfovibrio yellowstonii) [pid:36.9%25%2C q_cov:33.4%25%2C s_cov:29.9%25%2C Eval:8.0e-17%2C partial hit],MGA_2217
sequence1	MetaGeneAnnotator	CDS	2394677	2395483	.	+	0	ID=MGA_2218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYTTVYSDNISLDISIINYFKANDIQFIYRNNCFFLRENDFKKYSKINYEFDLPDNLKFIKDKLDDCTLKNFKKKSDFYIHNYTNFDSESIFYSLTNNYKRIYFKKNPLLSDYKKIDELKIKSKFEFPKSKFFSDGIYKIVYFKGNLVSNPNSILTNIFSFYEDKDYEKYFSIMMNYEIYSNYIIYYFIFHYGYDELNTKNIEIYLKNFSEFVNYNKKNPLKNFKHNDMNNAFEKKYLSEYTNSKNLNNIEYLKTITFCSGDINE;locus_tag=LOCUS_22040;note=MGA_2218
sequence1	MetaGeneAnnotator	CDS	2395476	2397077	.	+	0	ID=MGA_2219;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083354.1;translation=MNKSIKIFFHKNKKKGAILLLFLTFNLFSSFFISEKTKILMNKNFLISENTSILKLLIIIVFIYLILLLTNVFISYISHKLLYSGIKNLRNYMLSKIIDTKFEYFIKNKIGNIWGDFINSTNRVSSFYKSLILLPINIIQSIVYFYIITKSSSKIGILLLLLSLPIILFFTFFLGKKIKFHENKVLNIYRNLYGESIETFSAIKQIKLLKTKKFFTERFNKMHSLMNDEIIKTAVYSETWTSILNIFINILPILIVTITILLKNEPISQGNIIILYTFVPIFINSIKEIYNLYLSFLGITPYIKSMNDILNLEKEYSGSLILKNVNSIEFKNFSYNYDKKKIYIPDLKINSSEKVMILGESGRGKSTLFNCLIGLFSSYNGEILISNLEKKHYDINSLREKIILLSQDRVIFEGSLEKNLFFNEDNFNKNDLKRILKIVKLEKFYKNNNRNLNKDKISGGEKARINLAQAILKKPDVLLLDEVLSSLDEKMEKDILENLIKEYPNMCIVVISHRLKNSNLFDKVIDLNNKYVY;locus_tag=LOCUS_22050;note=WP_004083354.1 ABC transporter ATP-binding protein (Thermotogaceae) [pid:25.2%25%2C q_cov:94.0%25%2C s_cov:90.2%25%2C Eval:5.1e-39],MGA_2219
sequence1	MetaGeneAnnotator	CDS	2397176	2398969	.	-	0	ID=MGA_2220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLIIIALLLISINIFSATIQAIDGNILKKITVISIKDGKAEIESRFTGKITIPLDNIVYISFDDVSKDMEGILISNYNLSGYVKEYNAESNEATVVTTSGEFFITDPSVIKFWNIRQNTIKEETKKDYSSKNYNIKIEKNTFYKGEIENIKNGNIQFNVKELGTEIIPIDNINILYRDTIDKIPDGNILLTNGILFKFKDLKYENENLEITLPFGIFNTNMKYVKSFAGFSKEISKMPYYFILNDEVRFYADIKRFNDKTITLKTAFQEHEISNDIITTFLKMPINKKMIIATSDDIVYGDYTNQNENYILKSSLNEKKITDVKIINKEKTEFLSKTSDPIYTLKINSEIKDFNVQNNKIYIMQNNMIKVFSISELKELESIDSKIKLPIEIKYINNDYITYNFFGELYYSKNEKNQKFDNQISYINCQNKKNFYVALKNGELYSFDIENNDVKKVFDYKEDIKLIQDNYVVTKFGKIYSNGKKIKDFNINLKKALKYKNFLYLLDFNNNVYIYNLDNNELKTISSKEQIIDLNVSEEYIFVSYKNSISILNKSSEEESKKIKIDKKIFKTTIYNKYLIIMSEDEMFLYKIFEN;locus_tag=LOCUS_22060;note=MGA_2220
sequence1	MetaGeneAnnotator	CDS	2398966	2400366	.	-	0	ID=MGA_2221;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080330.1;translation=MFLLSSLLPISFGILAYIFNKKHKIFAIFSYIIEFYILIFSKFGTIIPGKWNPINGIELLYNYEIKVILLSIFLFSLINYIRIIKKYGSEFTFLWLILNGVINSFFMSRDFFNLYVHLELISMIVFLLIPLDRTEKRIWASLKYMIMSGVALNFYLIGVGIWYSVSGTLNIIEIQNYTMPIFAQTFIVTGLLIKTGSFFLGGWLPDAHAEAMKGISPILSGIVVELGYFILYYINGSFDNKIKRMLVYYAVIATIVSSIFTYFQNNFKRYLAYSTMTQMGYALLVICLKPELFPYFFIYHLFSKGFLFFIAEDLHMEKMNEKKIEVSLDTFILTALLLFNMSGIYPSTLYFIKKAIHSPIIFEINAFIFGLYFIKLLNGMKINFKIKPLKIYMFFSFFIFYFLSYNYYVFDLKKVLISYVMFIFAFVFHKILKKFNGEKFNIYKFEDTIIYQMIFVVFLMLMEVLK;locus_tag=LOCUS_22070;note=WP_004080330.1 cation:proton antiporter (Thermotoga maritima) [pid:25.6%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:5.1e-40],MGA_2221
sequence1	MetaGeneAnnotator	CDS	2400371	2400709	.	-	0	ID=MGA_2222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTYELFSIFICFIGLSGVILKKDIILKLMNLGVFQGGVVLFFVSLAYKGKAPMITEGVTKYSDPLIHSFLLTVVVIGFANLALILVFSMILSNKLKTYRIDELEKKINKGR;locus_tag=LOCUS_22080;note=MGA_2222
sequence1	MetaGeneAnnotator	CDS	2400725	2401408	.	-	0	ID=MGA_2223;product=Na(+)/H(+) antiporter subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080316.1;translation=MKKIIVFLLLLISFLLLLINLKTGNAISVYTAEEIKLENTSKNMVSAIVLDYRMLDTFFEVLVFTLAITGVSYYLKKLPEVKDFEFEKESGIVEIITPILFQLLALLAFYAVVTGHVGTGGGFSAGVILGTALLGVTFVKPIEDIERVFKKSKIEKYKYLTPLIIVIYGMLGKIWGGEFFCNFPILGNYGHLFSGGSAIFLNFLIGIEVFAGTWTILYKFIKHRGML;locus_tag=LOCUS_22090;note=WP_004080316.1 Na(+)/H(+) antiporter subunit B (Thermotoga) [pid:31.3%25%2C q_cov:85.5%25%2C s_cov:87.5%25%2C Eval:1.6e-17],MGA_2223
sequence1	MetaGeneAnnotator	CDS	2401405	2402172	.	-	0	ID=MGA_2224;product=Na(+)/H(+) antiporter subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080317.1;translation=MTITIYFLFLILIVISFYILFQKKHINTLLAYGSFGIALSGIFFIMNAPEVAIVEITIGSAFVFFIYLIALKKTATLKVLYVETPYLIEIKKGNLYGFEYYILDTFLKKRGYEAEYIKVDPEKSLSKLKKNGDILIGGIVVEDKIEGIHVSETHLPTKILKIGNSLKTTHGILYNNLEQKMINELKKDFVIDVIRYKHLMYKGKKFDDIEEVKKTGYKIIFNEKNAFLIKDFNEYINEIKENEKLYNELVRRYIG;locus_tag=LOCUS_22100;note=WP_004080317.1 Na(+)/H(+) antiporter subunit B (Thermotoga) [pid:21.5%25%2C q_cov:96.1%25%2C s_cov:94.6%25%2C Eval:1.3e-13],MGA_2224
sequence1	MetaGeneAnnotator	CDS	2402169	2402453	.	-	0	ID=MGA_2225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIADILIIFGLFLFITGSLGFFTMKDIFSQIQAVGISDTVGLFTIVIAFIIKYPEEIGRLLLIGILTLILNPVISHVIAQGASESGLKIGGKEK;locus_tag=LOCUS_22110;note=MGA_2225
sequence1	MetaGeneAnnotator	CDS	2402443	2402709	.	-	0	ID=MGA_2226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENILEILLMIPIILTMTKLIVGPTSWDRLLAYASFSTKIVILMIFYTFISEQLILLDMIIVVLILNIWGILITTRFLKKVVLKDDS;locus_tag=LOCUS_22120;note=MGA_2226
sequence1	MetaGeneAnnotator	CDS	2402706	2403128	.	-	0	ID=MGA_2227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYIFLFSIWLLLMGDFSDLSITLGVFSVLITLYLTKVFFNKKIVGTVEIFISAVGIVVEMYKNTFKFIPLIYGKHYSGISYLDVKNKSKIEKAAIANCITLTPKTLFLKEEDNKLLIHKVARTNEEAHSKDGIWDGELF;locus_tag=LOCUS_22130;note=MGA_2227
sequence1	MetaGeneAnnotator	CDS	2403133	2404098	.	-	0	ID=MGA_2228;product=bifunctional oligoribonuclease/PAP phosphatase NrnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082036.1;translation=MIDEVIKEINRADTILVAGHIMPDGDDVSSICSLVMGLEKYGKKVIGAIDDEIPGYLEELPILKEKIRDFDCVKNTPADLIIIVDASSPDRVGRIQELFEYKRIVVIDHHATNLNFGHVNWVDATSASTAQLVFKLNQKLGVKYDEELATINLLGVATDTGFFKYSNTNAQVFEDVSKLVSFGGNISYITNAILENKPIENVLLFKDVIENLKFKKDKKIAYTYVSLDMLKKYNILPKNTPPFVGDLRSLKGVEVAIVFNEHEKNVFHTSMRSKKYFDVSEVALHFGGGGHVRAAGFSKESDNIEKLMEEVTDYIAEKMEK;locus_tag=LOCUS_22140;note=WP_004082036.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Thermotoga) [pid:47.8%25%2C q_cov:99.7%25%2C s_cov:94.9%25%2C Eval:9.1e-85],MGA_2228
sequence1	MetaGeneAnnotator	CDS	2404110	2404919	.	-	0	ID=MGA_2229;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965364.1;translation=MVGRVKKAVEYILEKIEEKPIIGLILGSGLGYIADKIENKKEIKYEDIPYFPNSTVSGHEGKLIIGNLEGIPVIALKGRFHAYEGHKLSKIIFPVYVMKELGVRGLILTNAAGGINRTFKPGDIVANTDFINFAINPLIGPNDEELGPRFPSMAKPIDKKWFERIKINCFENGIEIKEGTYIWMLGPTYETPAEIKMAANFGADLVGMSTVPEVIAANHTGIKVVSFSAVTNMAAGILPKPLNHKEVIEVADKIKDKFELVVKTSIKLF;locus_tag=LOCUS_22150;EC_number=2.4.2.1;note=WP_010965364.1 purine-nucleoside phosphorylase (Clostridium) [pid:54.4%25%2C q_cov:95.9%25%2C s_cov:95.6%25%2C Eval:1.3e-78],MGA_2229
sequence1	MetaGeneAnnotator	CDS	2404932	2405591	.	-	0	ID=MGA_2230;product=DtxR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582916.1;translation=MKKISESLENYLRAIYILHIDGKIPRIRDISKMLEVRDASAFDAIKRLENMDYVSHEKYGYIDLTEKGLAEAESVYRKYITLIDFFVNILNISKEQSYKLSCGVEHHMTEDFYVSLEAMMIFLKRNPIEYRKLKDFIKKYKKEMPHVFRKTLEELNVGEESEIINISCNNEKKEQIFKLGLFPGINFLVKSKNETSIELEINSKTIRVLLEDAMYVIVK;locus_tag=LOCUS_22160;note=WP_012582916.1 DtxR family transcriptional regulator (Dictyoglomus turgidum) [pid:34.4%25%2C q_cov:82.6%25%2C s_cov:79.2%25%2C Eval:3.2e-20],MGA_2230
sequence1	MetaGeneAnnotator	CDS	2405575	2406618	.	-	0	ID=MGA_2231;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963797.1;translation=MIFKDVDKLETWKYILASDIPSLKLKKGTIIDSSNKYLLLKNGIFTVPVLKNRAADVAVIDEKKVEKSYMDMKDLWKKLDSEDKVIDKKVEDMSEEITESVLKNFKEVLYLPLKKLKDYDEYTYTHSLNVGMVASLIGAEFGLDKKELKNLTLAGLLHDVGKSKIKYEILNAPRRLTTEEFNEIKKHVVYGKELCIKNHILDEDLIDGILHHHERYDGKGYVEGMKEKNISLFARLLTISDVFDALTSKRVYKKSWNYYRVISHIIQNSNKMFDPELVTLLIKIFGLYPPGTIVKLNDFRVGTVVASQKGNDIQPIVQIEDKVIDLKSEKKYIVDVVDEVENYEENI;locus_tag=LOCUS_22170;note=WP_010963797.1 HD-GYP domain-containing protein (Clostridium) [pid:33.5%25%2C q_cov:87.9%25%2C s_cov:88.0%25%2C Eval:1.8e-44],MGA_2231
sequence1	MetaGeneAnnotator	CDS	2406618	2407640	.	-	0	ID=MGA_2232;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963797.1;translation=MKKIKIRNLKPGLILAENLTKDSIILLTQGTVVTEKDIERLKRYKVDELYIYDEDDFQKESNIKIEFKEIPPVIESKKYNAWNEQFDKVLDITKIQEDTSELNDMVEDIYSTFLEKDEIFLNLFHSIGDKALQSHSINTSIISSIISIHLKMPKIFSDQLLKLSLIHDMGYAFIDKRIVFDYEETQSKYVKSHLISGYKAFENLKKQLSKEVVNSIIAHHERYDGNGILMGLKGEKISPLIRIMQIGDAYDSLIEIKKTPYEAMSYLLKNSGKIFDPYYVSTFFSIAGLYPTGTKVLLNNNEVGVVMKKGKAAVFPIINLNGHIIETGPKSGVYIKEVIG;locus_tag=LOCUS_22180;note=WP_010963797.1 HD-GYP domain-containing protein (Clostridium) [pid:27.3%25%2C q_cov:91.8%25%2C s_cov:89.2%25%2C Eval:9.7e-24],MGA_2232
sequence1	MetaGeneAnnotator	CDS	2407657	2408880	.	-	0	ID=MGA_2233;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460386.1;translation=MYKLHKLNSGMDLILINRDSMRSAAVLFCVKAGSVHEIDENSGVSHFIEHTVFRKTKNRDIIEIKKPIEEIGGTINAFTSRNITVFYSKVPEKEVELAIDTLSDITFHASLDEEDIEKERSIILEEIAMYEDDPVDNAFENLFKNVYDENFGRPILGSKKNVKAFNHKKVYEYYEKYYVPQNTVAVVSGKFNEKEIIEKFESIKCLRNGEKNTFKSPILKQENVFVKKTKRDLNQVYIINGFEAPAKNSKLYFPTLVLNTLLGSGMSSLLFTDIREKTGLVYEIATDYNAYSKSGLFVIFAATSEDKQEKFENKLKNILETIIERKDIKEWVEYGKKRISGKLTLDIESNVSMGMNSLDLYLSYNRIVNIDEIIENISKVTVEDVKKVAKTIFFNKKYVSILKPETD;locus_tag=LOCUS_22190;note=WP_011460386.1 pitrilysin family protein (Desulfitobacterium hafniense) [pid:34.6%25%2C q_cov:98.8%25%2C s_cov:94.6%25%2C Eval:3.3e-61],MGA_2233
sequence1	MetaGeneAnnotator	CDS	2408883	2411015	.	-	0	ID=MGA_2234;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081541.1;translation=MKIWEKELFGKKLRIEYGKMAKQSLGSILLIYGESSLLVTANASEEEKPGIDFFPLTVEFKEKFYAVGKIPGGFIKRESRPSEEAILSSRLIDRPIRPLFPKSFHNEVQVINTVFSMRNEDYIDTWGITGSSIALNLSPIPFKGIVAGVRVGYVNGEYIAFPTEEQMKNSKIDIVVAGTKDAVTMVEGEALEASEEEMVKALTFSHNAIKEIIEFQEEIISEVSIEKWEVKEPEIPEEMINAFMNTVNNDMIKECMLKEGKKNKDKAIKEYKKELFSNFIENNESWDEEYINENMSFIKEAFEERFKKVMRRMIIEENKRADGRTVDQIRPITCEVGLIPRVHGSSLFTRGETQSLGIITLGMQSDVQHVDTIFSNEEKKFMLHYNFPPFCTGEVKPLRGPARREIGHGHLAERSHKNLIPSEEEFPYTIRSVSEVLESNGSSSMATVCSTSLALMDAGVPIKKHVAGAAMGLIFEEDGYVVLTDILGMEDHLGDMDFKVTGTRDGITAFQMDVKVEKVNEEIMTVALDKAKKAREHILNLMYDTISEPRKELSQYVPYVKITKVPVDKIGEIIGPGGRVVKDINKKFEVETDINDEGLVKVVGFDREKVKAAINYVDGIIKVVKTGEHYEGTIKKIEKFGLFVEVLPGKTGLLHVSNYNKNVKYNIGDKIKVEVLRVEGANKFQLKEEGFVKKPYKKPEEKKDEKDGGN;locus_tag=LOCUS_22200;gene=pnp;EC_number=2.7.7.8;note=WP_004081541.1 polyribonucleotide nucleotidyltransferase (Thermotoga) [pid:57.3%25%2C q_cov:96.8%25%2C s_cov:97.5%25%2C Eval:1.2e-224],MGA_2234
sequence1	MetaGeneAnnotator	CDS	2411098	2411373	.	-	0	ID=MGA_2235;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081540.1;translation=MSRGIEEERKQEIIKEFRINEKDTGSVEVQIALLTARIKHLTEHLKTHPKDFHTRRGLMSMVGKRRKMLKYLKREKTELYSEIIKKLGIRG;locus_tag=LOCUS_22210;gene=rpsO;note=WP_004081540.1 30S ribosomal protein S15 (Thermotoga sp. 38H-to) [pid:76.8%25%2C q_cov:90.1%25%2C s_cov:91.1%25%2C Eval:1.8e-31],MGA_2235
sequence1	MetaGeneAnnotator	CDS	2411494	2412528	.	-	0	ID=MGA_2236;product=membrane-bound lytic murein transglycosylase MltC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000976289.1;translation=MKKYLIFIFLITFIFNFSEISQWERQIEQTEKLWKDQQDKTNKEWDKYYQLVQSKWNENKRKIEAIWGKIEDYTAKKWIEYSYDKKTYSVVNFDEQNGGYIEIKTILNKNDSINKAKSNIKTQYNKISSERDKSTGQPILKDIAPKSISVDKVEVENKGDKKVYKVKVPLEKNFILKKAKEYIPIIKKYAKEAKIPAELVMAIVHTESSFNPKAYSKIGAYGMMQLMPKYGAADGYYYYYGKRKFVRIDDLYKAELNIKYGAGYLNILTNQYMKVVTDNTKRHYLAIASYNHGPTNVLNLMKKYNVNKMSVKDVYNLIKTKTHPETANYIDRILSREKEYKKYF;locus_tag=LOCUS_22220;gene=mltC;EC_number=4.2.2.-;note=WP_000976289.1 membrane-bound lytic murein transglycosylase MltC (Salmonella) [pid:26.7%25%2C q_cov:87.5%25%2C s_cov:92.0%25%2C Eval:2.9e-23],MGA_2236
sequence1	MetaGeneAnnotator	CDS	2412528	2412968	.	-	0	ID=MGA_2237;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082236.1;translation=MNVSTVSFLFKDFDLFQKAYEIRKTVFIDEQKVSPQEELDGLDAGCIHFLIFLEEKAIGTGRLRYINANTMKVERIAILKEFRKNGYGIDLMKAIEEKAKIMKIKNLTMNAQLYAKKFYERLGYKADGEVFEEAGIKHIKMTKEVI;locus_tag=LOCUS_22230;EC_number=2.3.1.-;note=WP_004082236.1 GNAT family N-acetyltransferase (Thermotoga maritima) [pid:45.0%25%2C q_cov:95.9%25%2C s_cov:97.2%25%2C Eval:2.0e-29],MGA_2237
sequence1	MetaGeneAnnotator	CDS	2413447	2414127	.	-	0	ID=MGA_2238;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073325.1;translation=MTNGEWAPYLSEKLKYYGFFSRVVTDSFKNVGIKVEYGFFPWKRSYVLAENGSWDGSLGWSRNEEREKSFYYSDPVIELKDFLFYKKDKKIKFESYEDLRGKTIGIVIGYYYGKEFEKAQKAGIFKVDQSTSDEINLKKLLAGRIDCTILTYDIAMDILKNKFKKEEIEQITNTKKPTKVSPYYLILNKKDKNNENIIKLFNKGLKQLKESGKYDQYLKEMYEGKY;locus_tag=LOCUS_22240;note=WP_011073325.1 transporter substrate-binding domain-containing protein (Shewanella oneidensis) [pid:27.4%25%2C q_cov:95.1%25%2C s_cov:79.5%25%2C Eval:3.2e-18],MGA_2238
sequence1	MetaGeneAnnotator	CDS	2414247	2414996	.	-	0	ID=MGA_2239;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_223294658.1;translation=MKKIMILLILILNILIFSEKTIRITNGEWTPYLSKKLKYYGVASRIVTDAFKNVNIKVEYGFFPWKRSYKLAKIGEWDGSIGWSYNEERGKDFYFSMPFLDLKDVLFFKKSGKTKFESYEDLIGKTIGTVIGFYYGEEFEKAKKLKIFKIDEAKSDEINFKKLLAGRVDFIVESYYVGLSILRKNFTKEEIEQIGISKKVVRVGHYSLILNKKDENHKKIIELFNKGLKQLKESGKYDQYLKEMYENKY;locus_tag=LOCUS_22250;note=WP_223294658.1 transporter substrate-binding domain-containing protein (Desulfovibrio) [pid:25.2%25%2C q_cov:92.0%25%2C s_cov:85.2%25%2C Eval:1.8e-12],MGA_2239
sequence1	MetaGeneAnnotator	CDS	2415163	2416113	.	+	0	ID=MGA_2240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNSNKLNKNFFEKIEKELIFNFNEDKFIKLLNQYPKEQSKILNNIANSIEQGIVLIEKDKFIFVNNSFCNLIGYTKNQLTHMKIWKVINSNYKEIVIKHKELRKKKIKSMYEIKIIDINKKDIPVLITGIPVCTSKNPDLFFGLITDLRNQEHIEKLLLKHSTYDDLTGVYNYKSGFDILERVFKYSKRYKKKFTLCFMDTDNLKKINDKFGHSTGDTFLKDFINVIQDSIRESDFIIRVGGDEFLLVLTDANLDTTQLVFERIQKNLNLFNKTSTKYKLSFSYGFSEFNNQSIKEMIIEADNNMYKMKKQKRFK;locus_tag=LOCUS_22260;note=WP_003358707.1 GGDEF domain-containing protein (Clostridium) [pid:40.4%25%2C q_cov:53.2%25%2C s_cov:93.4%25%2C Eval:6.9e-29%2C partial hit],MGA_2240
sequence1	MetaGeneAnnotator	CDS	2416192	2417025	.	+	0	ID=MGA_2241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEFERIKFRNFILYFFIFAVCLEILFEHFNINTENSILFNFFTDIFTLFWLLIKFKKNNIIVKDQYKISENKFEKKYILKLTISLIAISIMFSFLQDFIISFFHFPSLYNDKDLVNFYMKKRQPLEELFFAFNLIIFVPFVEELFFRFFLINRFALKWGIKKAVILSSTMFALMHPNFFGTFLFAIAVSIIYLETKSLKLNTFIHMLNNLTAYIFLKILFISNLFVYLLIPIFILIIFYSSKFLYSFFSTYRLSKYDKEFSKKINEEISQAKYDKL;locus_tag=LOCUS_22270;note=WP_000558802.1 CPBP family glutamic-type intramembrane protease (Bacillus cereus group) [pid:30.5%25%2C q_cov:76.5%25%2C s_cov:62.9%25%2C Eval:3.9e-22%2C partial hit],MGA_2241
sequence1	MetaGeneAnnotator	CDS	2417070	2418173	.	-	0	ID=MGA_2242;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_166479973.1;translation=MTIYIAFTHFLADFLNSFFKPLGPYFIEKYGIDSRTFTSSIALIGAFSSIVQIFFGLYFDRKKRDGLYVVLLVFLEIIIISLTGFVNGFYLLIMMIFLMRLTNSAFHPIGASFAGRHNKGNHVALFSVFGALGAAVGPVVITLFMKNYEFSKVYIIAIISFMILLIPASKIWKYEKKEVSEKTIPKLKDTMVLLPVFLLVATRGFIMNIFHTFVPIFVNLKGSSMVMGGVILSIGLIAGMFTNYFGAYLREKSGIKVINLIGFLGMGVFGLLFYFSENDFLRILSFMSFDIFGFLTMSANLVEAQVLMPKNKSFASSIAMGFSWSIGGFIASGYSAIFGNNVPFVIFSVSIISIVVAFLFPILKYKK;locus_tag=LOCUS_22280;note=WP_166479973.1 MFS transporter (Deinococcus radiodurans) [pid:22.9%25%2C q_cov:87.7%25%2C s_cov:81.5%25%2C Eval:3.1e-15],MGA_2242
sequence1	MetaGeneAnnotator	CDS	2418320	2419186	.	-	0	ID=MGA_2243;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005811761.1;translation=MIGIVCDSATDLPQELIKKYEINVVFLKIILGEKSYKDIIEINEEEVLKYMENSFAKTSLPSYTEIEEVFLEMINKGYDEIIAINISSGLSGTYNLFNMVARDIMNKHKSVKIKVIDSLSVSIGTGLMVLKAAEMNKNGESFDKIVSTIESIAKEKKSDGGYTIPTLKYLKAGGRISHLKATIASVLHMKPVISVDTYGKYFTVSKARGMKNAVNNLYEYFKTFTNGKEIEKVAIYRSGELQRTINFVNELKEKVEKFYDKEILIGKVSSAMTVHAGAGLVCIVGLVK;locus_tag=LOCUS_22290;note=WP_005811761.1 DegV family protein (Desulfitobacterium) [pid:36.5%25%2C q_cov:97.2%25%2C s_cov:92.2%25%2C Eval:2.5e-43],MGA_2243
sequence1	MetaGeneAnnotator	CDS	2419268	2423467	.	-	0	ID=MGA_2244;product=2-hydroxyacyl-CoA dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948786.1;translation=MLGIDLGSATAKVVLLNKNFNIEHKKYVRHNGKIKEVLISELEELKKKVGNKKLSISITGTAGMGLANRNDFSFVQEVIAISKAIKLLYKEAHTLIELGGEDAKIILFEEGKIPEMRMNGSCAGGTGSFIDQMSVLLNVDPLELNELAKKSNKTLYIASRCGVFAKTDVQALLNRGESKEDIAKAVFLAVANQTITTLLSGADIREKVIFAGGPLTFLSELRKSFHETLKLNENKFILPDNSEVLVAVGAALYSENNDKQYTIDEIINKIKSEKKVERTIRTLEPLFTDKDEYENFKMRHSNLNLKYLDEKEKKEKKNLYIGIDAGSTTTKLIMIDDKNNIIDSFYKNNFGSPLNVAVEGLKKFKKYIKNNNLKAVFSTGYGEEFISKALNLDGGIVETMAHFVSGQSFNDKLSFIVDVGGQDIKAIKIENKIITDIRLNEACSSGTGSFIETFAKNLNMTLDEFVEKAINAKFPVDLGTRCSVFMNSKVKEALKDGVDVGDIAAGLAYSVVKNALYKVIKLKNVDELGDNIFVQGGTFKNDAVLRAFEKITGKNVYRLNISEYMGAFGAAIYARNLYKSREDYKTKFNIESINNIEYKKQFIQCKGCGNNCNITKFVFDNNNIFYTGNKCEKYFSNKKVQKDKESINFFKEKEKMIFEIDENYEYDKNKPVIGIPRMLSIYEHFQFFYNLFKNLGFKVVLSDRTTQKLYYKGLRTVSADNICFPAKISNGHVLNLIDKKVDRIFIPTIIFEKTEGNDAKNAYNCPIVTGYGEVLKRNIKTNIPIDTPSLSFKYEKGLEENLFKYVNKFGINRKEFKNAYILAKKKEEKLLLNLKLMAKDVIEEAQKNKKILVIVLGRPYHMDPMVNAGVMDLIYELGAYGITESDIPELYEMNLDGVLPLTQWSYHNRLYLASKWIAKQKYDKVLALQLNSFGCGPDAVVVDEVKSLVESGGKIFTVLKIDEMSNIGAAKIRIRSAFEALNNTKGINLVKKRKNVKPYTKDDQRKTILVPKFSKLYSALYEGVMYNLGYKLKTIMNQNKEAIDEGLKYVNNDMCYPAVVVIGDVIKALKSGDVDPKNTVVGLSQTGGQCRASNYVPLLKKALIDAGFEDTPVISIGTNASVEGLKINLIKLLKYSVIAFSIGDSLLKLKLATAPYERHSGETNRVFSQLLSEIKEQMFNEKPSKKMMKRFLIKAVNEFNKIEVNMPKKRNRIGLVGEIYMKTNCFVNNEIIKRLENDGYEVIVPTFLKFLEYDFYSKQYNKREKIENDNKMYLTKAVIKNTIDHYRNISEKILSNFIRYIPESKLGKTIKSNNNILPLSLQFGEGWLLANEIGDMAREGIKNIISLQPFGCISNHIIAKGIYRELKDKLDVNLLLLDYESGTSEINIINRLKLFLETK;locus_tag=LOCUS_22300;note=WP_011948786.1 2-hydroxyacyl-CoA dehydratase (Clostridium botulinum) [pid:42.8%25%2C q_cov:99.9%25%2C s_cov:97.9%25%2C Eval:0.0e+00],MGA_2244
sequence1	MetaGeneAnnotator	CDS	2423504	2424112	.	-	0	ID=MGA_2245;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010938652.1;translation=MYKIISNVYDILLYLPLISIRLKVKKIIKTLGVKSIIDICCGTGNQLKMLKRSGYDDLTGIDLSENMLKVANRGKYKLKCQQQDATKLSFKDDNFDLGIISLALHEKPLEVQNLVLNEAKRVIKKDGYLIVVDYMFDKHAFILGVLEIFIVEAMVGGDHFRNFRKFIKNGGLESITKDKFEKINEYKFHFGGTRCFVLKNIK;locus_tag=LOCUS_22310;note=WP_010938652.1 methyltransferase domain-containing protein (Desulfovibrio) [pid:35.4%25%2C q_cov:86.1%25%2C s_cov:80.3%25%2C Eval:4.7e-20],MGA_2245
sequence1	MetaGeneAnnotator	CDS	2424314	2425165	.	-	0	ID=MGA_2246;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865102.1;translation=MIKLGAHFGISKGFANVPEVMNEIGANAFQIFVHSPRTWKIKQLNVIDVENFKNKIKKMKIDKESMLVHSGYLINLASPKDEGWKKSIDTMIEEIKITASLGIKYFNVHPGSHLSEGEDFGIDRVANALDIIIEQIKDFDIMILLENVAKKGGNIGYKINQLGDIIKRTNYKEKIGITYDTCHGFDSNYDIRTKDGMDNLLFEINEYVGIDKLKMIHLNDSKFDLGAGKDRHEIIGKGFIGEEGFKNFFKYEKVLNTALLLETPGTDEDHRKEIAYIKKAIAQ;locus_tag=LOCUS_22320;note=WP_010865102.1 deoxyribonuclease IV (Thermotoga maritima) [pid:49.5%25%2C q_cov:99.3%25%2C s_cov:97.2%25%2C Eval:2.9e-76],MGA_2246
sequence1	MetaGeneAnnotator	CDS	2425173	2426519	.	-	0	ID=MGA_2247;product=GlmL-related ornithine degradation protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009895468.1;translation=MTVDLLIAEIGSTTTVVTAFDKINTEKPIVVGQGEHYTTVFEGDVTIGIERAIKEIEKKLNINLKWNKFLASSSAAGGLKMTVHGLVYDMTVKAAKEAALGAGAVLKYATAGKMRKTHLENILAIEPKLILLAGGVDYGEEETVLHNAELINELPIDVPVIYSGNCAVADEVKNILKDKKVIITENVYPKVDQLNVKPARMAIQEVFSEHIIHAPGMEKIQNMTDDEIIPTPGAVMLTTELLAEMYEDVLTVDIGGATTDVDSVTEGDPKVQKIMLAPEPISKRTVEGDMGLFVNAHNVLDMIGEEEIKKEFSDYEELKKNLSPYPKTERQEKFAAFIAKYCFTNGIRRHAGRKKHLYGPNGRQEIASGKDLTAVKHIFGTGGILTRSKFRKEIMESFLEANFPNELLPNKKVKFAYDKNYIFAALGVLSTVDKETAKKILEIDIESI;locus_tag=LOCUS_22330;note=WP_009895468.1 GlmL-related ornithine degradation protein (Clostridioides difficile) [pid:49.7%25%2C q_cov:98.4%25%2C s_cov:95.3%25%2C Eval:6.1e-120],MGA_2247
sequence1	MetaGeneAnnotator	CDS	2426525	2427682	.	-	0	ID=MGA_2248;product=aspartate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080007.1;translation=MNFSKKVLEVTPSITLELNSKAIELEKQGIDIVKLTAGEPDFPTPNSIIEAAYKAMKEGKTKYTNSSGIIELRKKISEYIKGRTNIEYKTNQIVVSNGGKQALYNVLLALLNEKDEVIIFDPCWVSYEAQIKIAGGNTVHVSLKEENNFLPTEEQLRKAITSKTKAILINSPNNPTGTVYPLETLKMIAKLSKEYGFYVISDEVYELLVYEGKHYSIVNIDNMIERTIIINALSKTWSMTGWRVGYCVGPEDLIKQVSKIQSHTTSNINTPAQYAALAAFDVKDEVEKMYTSFKERKEYVSKELKRIGLKFVEPAGAFYFFINIKEFGIKDTDFAKQLLDEVKLAVVPGSGFFKDGFIRISFATSKENLKKALERLESFVNKLRG;locus_tag=LOCUS_22340;gene=aspC;EC_number=2.6.1.1;note=WP_004080007.1 aspartate aminotransferase (Thermotoga maritima) [pid:49.7%25%2C q_cov:98.2%25%2C s_cov:98.9%25%2C Eval:5.8e-100],MGA_2248
sequence1	MetaGeneAnnotator	CDS	2428056	2428268	.	+	0	ID=MGA_2249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKRKNFSIKKHFVLNENVNFEQLFNSDPYFAEKIAVLYRELKEKDMDIKNFEIDINSTNNEMTIKIPI;locus_tag=LOCUS_22350;note=MGA_2249
sequence1	MetaGeneAnnotator	CDS	2428317	2429585	.	-	0	ID=MGA_2250;product=glycoside hydrolase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582847.1;translation=MRDIVFSENFMWGVSTSSHQIEGNNKNSDWYEWENEKGRIKDNTYSDPGCDSEHNFDRDLRMIKDINMNTYRFSIEWAKIQPNEDTFDEEYIEMYDSFIKNLLENNIKPIVTLFHFSLPKWFSKKGGFQESSNLDYFYKYIEKMIKKFGNKVKYYTIINEPVVYAYQSYVEGIWPPGKRNEDEAMKILKNLLYVYDTSYQIIKKINPDTKVSIAKHTAVYKPYRSSNIFDQIAYKKVMKYFDHSFIDSILEGQIKKPIGKNEKYSFNSDFDFLGINYYTKRYIKYSKNKIIIENRNDMLSDIGWPVYPEGIEEVLKRFKRYKKPIIITENGIADSQDRYRTMYILRTLYEIANSIKEGIDVKGYMHWSLMDNFEWSEGRSMRFGLYKTDYSNMNFYLRNSGKIYATIAQENKIIESNMMFIK;locus_tag=LOCUS_22360;note=WP_012582847.1 glycoside hydrolase family 1 protein (Dictyoglomus turgidum) [pid:40.0%25%2C q_cov:97.4%25%2C s_cov:97.1%25%2C Eval:1.8e-94],MGA_2250
sequence1	Aragorn:1.2.38	tRNA	2429662	2429751	.	-	.	ID=Aragorn_49;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00480;note=Aragorn_49
sequence1	MetaGeneAnnotator	CDS	2429839	2431422	.	-	0	ID=MGA_2251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAFLILMFSILSLIVYSMTIEEVRSQKQLDGVEFEGIVTVEPGLYDINHIFLQDETGGVDIYTKSIDLTKMNIKRGYKVKVNGYVWEHKGNLEIVVDPDNPKNKIEIISKEKKIINPISVKTDDINKEKYEGKLIKVSGKITKIEGQDFLMDDGSGEGMVWIREGTGIDTTIFRKGIKIEVTGIQGQYLSKRELWPRDKKDIIAEDLYPPKVRYYSMEDDKTVLVMFNEPILRNLKANKTVRILKNSVEKVEYLTDSIIKITAKNPINNQKIIFRLLQDLNGNKLNMSSISVSYEKNKKIKNVLFDAAHAQKAGNADWVTDGAFSDFGDKVKELGMNFYSEKLKITKELLEFFGILILPEPNAPYTKEEINAIINFVKNGGGIFIISDHGHSDRNGNGWDSVRIFNEFVDKFGFEFVGDNLEEAPLAHILSDEITKGIKKIGLWNGSSIKVLKKDVKVLIRTSENKPFMIKTNFEKGSVIAIGDSSPFDDGTGDAGDMLHNGWKWGDDSKLAENVLKYIFNELNK;locus_tag=LOCUS_22370;note=WP_002456758.1 hypothetical protein (Staphylococcus) [pid:28.2%25%2C q_cov:42.3%25%2C s_cov:56.4%25%2C Eval:1.4e-20%2C partial hit],MGA_2251
sequence1	MetaGeneAnnotator	CDS	2431525	2432646	.	-	0	ID=MGA_2252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIHTKFLFFIFILISIYSFSFENFIEEWRYENRNINDNKIVASLMAKDTYIFFENVEQTQNMNIITFSKEGKKIKEVKLNDFLLINVEKKENGYVLFGKYNFEGKNYASIYLLNNELNIIKKNYYFIDGYTPIKMLYKENNIVVFCDKYDGKNSIFKEIIYDEMLNEKSTFENIEKGFIKINDVDTYNDTFYITGWKDNTDSKLDMYISVRTIENKVLWTKTFGGKSDDKGYKIKIYDNSIIIGGTNESYNEKNNKDIWILRLSNEGNIIWSKLYDSGFLDEINDIKIKDQKIYITGYSITTKNDEDSYILKLNLKGEKDYLDLSNFLGTDIGNSLIIDDKKLILSGFFVSSKNSEETTGIDSLIILLNRK;locus_tag=LOCUS_22380;note=WP_012582823.1 lipoprotein (Dictyoglomus turgidum) [pid:24.7%25%2C q_cov:50.4%25%2C s_cov:47.6%25%2C Eval:1.7e-08%2C partial hit],MGA_2252
sequence1	MetaGeneAnnotator	CDS	2432731	2433390	.	+	0	ID=MGA_2253;product=L-serine ammonia-lyase%2C iron-sulfur-dependent subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963992.1;translation=MSILDVIGPVIVGPSSSHTAGAAKIGKFCHNYLGGLPDSVEFILHGSFGSTYFGHGTDKALVGGILGFDVSDLRIKNSFEIAKELNLKYSFSSDDLGDVHPNTVRVILEKNNSLYKIEAASIGAGEILITEIDGVKVNLSGKSPTLVIINKDEHGSLSSILNIISSTGINVANLSLTRISLILEEATCVIELDDIPEKCLIERLKQSEFVISCRYISKI;locus_tag=LOCUS_22390;gene=sdaAB;EC_number=4.3.1.17;note=WP_010963992.1 L-serine ammonia-lyase%2C iron-sulfur-dependent subunit beta (Clostridium) [pid:44.1%25%2C q_cov:99.5%25%2C s_cov:96.5%25%2C Eval:4.2e-44],MGA_2253
sequence1	MetaGeneAnnotator	CDS	2433409	2434545	.	-	0	ID=MGA_2254;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246697.1;translation=MVYIYTNIFILAMLITVLGRYKNLLKTYILKKQVKLEKPKNFVSVIVPVWNEEVVIEKTLINILNSTYENLEVIVLDDNSKDSTYDIVKNMTQKYKNLFLYKKQGKQGKPESLNEAVKYSNGDIILFLDADSLIEKDYIENYVKLFSKEKIEMIFTDFEPYNYQNKIIFEYQRLYFEVVKNLFYSNLFSKMIFMGNGLFIRKETLEKELPFDKNSLVDDFHMALKLKKSKIKEYFIIEPKVKIQYATNFKDLWNQHTRWYIGGIKEAISFIKSGNYSMLLTFIIGLFIVFSPFLFVVLDYFYKLKLIKYFVMPIYFSIWSVIVSSYIFNLKSINLNIFKIIFIVIPCLICTQHINMIFSLFKSIKKNIKWYKVKRTKI;locus_tag=LOCUS_22400;note=WP_003246697.1 glycosyltransferase family 2 protein (Bacillus) [pid:27.6%25%2C q_cov:89.7%25%2C s_cov:87.4%25%2C Eval:4.3e-23],MGA_2254
sequence1	MetaGeneAnnotator	CDS	2434548	2436419	.	-	0	ID=MGA_2255;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861409.1;translation=MRIHKLSDETIMKIAAGEVITGTYAVVKELIENSIDSNATAINVEIIDGGKSLIKVIDNGIGMNEEEIKYAVQPHTTSKINKIDDLYNLETYGFRGEALSSICRVSRMKITSRTNNEELATMISFIGGKEVNKKKVSASVGTQIEIEDLFFNIPARRKFLKSSSAEGRMVTEIIEKFILSSDTSIVYKRENKEIYNISKDYTLKEKFKILFPELKDNDLIILNKNYNWLKINGIISNPKITRFNRSAQIFFVNGRYVKSGDLFSVFERAYGEMLETRRHPYGVLFIDVNPREVDVNVHPQKLEVKFSDASKLLKLLKTSIREELDNQTEFKLEFYEDNEVKEDIKNTKDSNELEDYRFYENKIKENVEQKETTYNNFLNNDFSIEDSNKKYFNQEKSTFKYNTEQKKLNWENLNESPKSTLKNISKNQIFISNTKDVDDYRIVGIIFKRYIILEFKNKIKLIDFHAAHERVIFEKLKKQFFDKKINTKLLLNPIKIKLDELRKETLKNNIENLKKLGIEIEKKEDVFYIKGVPAEFKIENIENTVFELLDNFRLEGIENMNKIYDNAIATMSCRAAVKTGDNIVGIETLIQNLMDMKLLTCPHGRPIAMDIDLNKLDTYFERK;locus_tag=LOCUS_22410;gene=mutL;note=WP_011861409.1 DNA mismatch repair endonuclease MutL (Clostridioides difficile) [pid:33.5%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:1.1e-93],MGA_2255
sequence1	MetaGeneAnnotator	CDS	2436419	2437147	.	-	0	ID=MGA_2256;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082265.1;translation=MYAYGRNVLKEILNAKYSIKKVYFTNSKNIDSELKKLIKKVSELGISHIFLDNEKLEELVETTKHQGVIIDIGREFNYADLNVLNSVDHEPLIVILDQISDPHNFGAVIRSAVASGVDAIIIPKNNSVEVTSTVIKVSAGQIFKLPIIKVTNLSRTIDELKKKNIWVYSADMKGTPYYELDMTYGTCIVMGNEGKGVRENVKKHSDGIVSIPMNNNVDSLNVSVSCGIILFEAKKQRDIRSK;locus_tag=LOCUS_22420;gene=rlmB;note=WP_004082265.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Thermotoga maritima) [pid:50.0%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:3.3e-64],MGA_2256
sequence1	MetaGeneAnnotator	CDS	2437120	2437551	.	-	0	ID=MGA_2257;product=Mini-ribonuclease 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082263.1;translation=MDKFKDLKKLFTFLDLADFREIPIDNFAYIGDAVIALRYKMKVLEDGRKKTRKINDDSINFISAKAHSKFIDKVLDKFSEEEFGVYKRALNSKGAKKRGNDLNYRKSTGFEAVVGYLFLKERYDRLLKIFEVIESCMHTEETY;locus_tag=LOCUS_22430;note=WP_004082263.1 Mini-ribonuclease 3 (Thermotoga maritima) [pid:38.4%25%2C q_cov:87.4%25%2C s_cov:86.4%25%2C Eval:4.8e-17],MGA_2257
sequence1	MetaGeneAnnotator	CDS	2437562	2438668	.	-	0	ID=MGA_2258;product=UDP-galactopyranose mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965468.1;translation=MYDILIVGAGLAGATSARIFAEKGKKVLVVEQHKHVAGHCHDYKNEHGITVHTYGPHIFHTTNKKVWDFLNKFTDFNFYQHKVLSYANGDLIPFPINRDTLCKVYGIEIGANEVREFLNKEVEKSKYNNPPKNFKDAVVSQVGERLYEMFFKNYTIKQWERDPEELSAEIAKRIPVRENRDDRYFADKYQGIPLHGYTKMVENILDHENIAVLTGEDYFNIKDMFKPELTVYTGELDKFFDYKYGKLEYRSLDLKFKTLDQKEYQPVATVNYPNDYDWTRITEFKHFLNEKSDKTTVCFEYPKSEGEPYYIVMTEENMNKKDKYMEQVNKLEKTGKYLFIGRLAEYKYYNMDQVINAAFEKVEKYLIK;locus_tag=LOCUS_22440;gene=glf;EC_number=5.4.99.9;note=WP_010965468.1 UDP-galactopyranose mutase (Clostridium) [pid:51.9%25%2C q_cov:98.9%25%2C s_cov:99.4%25%2C Eval:6.4e-109],MGA_2258
sequence1	MetaGeneAnnotator	CDS	2438676	2439566	.	-	0	ID=MGA_2259;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011254560.1;translation=MKVAGLIVTFNRKKLLVDTINSMLEQTRRPDKIIIVNNASTDGTDEILKNYEEKNKCIEVVTLNENLGGSGGFYAGIKHIYDKQEYDWIWLMDDDALPAKNSLETLIAYYESLSEKKKRKIGVLQNKRILDRKKFDEINGKSFELTAKKRKVGTFVGYFIKTEVVGKIGFPEKDFFIYSDDVEYTNRVWKMGYRVETVIGSYIFHPVWTTQLDYILKKKELNLPLWKIYYIFRNPFLMYKNNEFVKFFLKLYFKLDMKMWKRINPETVPFAKKGLEDGLNCVYGKIVKPGQKEIKE;locus_tag=LOCUS_22450;note=WP_011254560.1 glycosyltransferase family 2 protein (Lactobacillus acidophilus) [pid:35.2%25%2C q_cov:80.4%25%2C s_cov:80.5%25%2C Eval:5.2e-31],MGA_2259
sequence1	MetaGeneAnnotator	CDS	2439532	2440611	.	-	0	ID=MGA_2260;product=TIGR00374 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010865127.1;translation=MNNNNNNNNNNNDNPFENKKKYLINIVLVIIIGLLTNISMAFFSDFKSIISILKNANYLIVLKAFLIYSLIYLIDVFRTKLVLRSMNFKIKFKDALYNSVSGYFIANLTPMASGGQPYQIYHLTKLGVDSKTSTNIIFSRLIEFLIFSTVTVLIFLKKILEIMNGEFLGSKVLIIGLIASMGITIFILSIFINPKIIYRTLHFLNKIFRFKRGKKLLENLENWTDELRESISFLWKERFLIVLIDFALGVLSAVFQTYAFFVVLTSLTGKNFDFFSLFLIFILLNFVIYYVPTPGSSGGVEGIYNMVLVGFVGTPHYVTAAIFLWRFTTYYLQIAFQIIVLLISRRKMNESSRVDSNLQ;locus_tag=LOCUS_22460;note=WP_010865127.1 TIGR00374 family protein (Thermotoga maritima) [pid:32.7%25%2C q_cov:81.6%25%2C s_cov:94.3%25%2C Eval:6.8e-39],MGA_2260
sequence1	MetaGeneAnnotator	CDS	2440618	2441772	.	-	0	ID=MGA_2261;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675474.1;translation=MNIGIFTDTYVPQVNGVVTVIRNLEKGLKEKGHNVYIFTVEHPEAMPMDNVFRLPSIKFIWEPQHRLGVPVSPTITKKVKKLNLDIIHSHTEFSLLTYAKYISKKLKIPTVHTTHTFYEEYLHYVPLFEKVSKFYLKKEMKKICDRQRAVIAPSNKIKNVLLGYDVSKPIEVVPNGIDLSKFYNPEVENIDEKVKIFKKNFGIKDNEKVLVFVGRIAQEKSIDKLLENMKVLNEKRKDIKLLLIGDGPEKHALQKYASKLGIDDKVIFAGYLKWPIEISIAYRASNIFMSASHSEVHPMTFIEAIASGLPVVAYDDPSIDEMILNEVNGYKYKDKSQMWEGVIKILDDEEKRKEMSKKAVEISKNYSMEVFVERMIKVYEKYLR;locus_tag=LOCUS_22470;note=WP_002675474.1 glycosyltransferase family 4 protein (Treponema) [pid:36.4%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:2.6e-68],MGA_2261
sequence1	MetaGeneAnnotator	CDS	2441946	2442998	.	-	0	ID=MGA_2262;product=S-methyl-5-thioribose-1-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080652.1;translation=MGTLKGMSMEWTGDTLILIDQRYIPVEELYVECKTFEEAAVGIKDMIVRGAPAIGATAGFGYTLGSFQFETLTKKDYMDKMKEVKEVLAATRPTAVNLFWALDRMEKKMNDVIKNNDLKEVSKILEKEALLIAEEDIKINKEMGKNGAELLKDGDTVLTHCNAGALATVDYGTALGVIRAAIESGKNIKVYADETRPYLQGARLTVWELMQDNIDTTLISDNMAGWVMKQGKINAVIVGADRIAANGDTANKIGTYSVSILAKKHGIPMYIAAPLSTIDLNTPTGEEIPIEERSHNEVRFCHKSKMVLDNVKVFNPAFDVTPNELITAIITEKGVVKPPFKENLRKLFED;locus_tag=LOCUS_22480;gene=mtnA;EC_number=5.3.1.23;note=WP_004080652.1 S-methyl-5-thioribose-1-phosphate isomerase (Thermotoga) [pid:64.2%25%2C q_cov:98.9%25%2C s_cov:99.1%25%2C Eval:3.3e-123],MGA_2262
sequence1	MetaGeneAnnotator	CDS	2443012	2444658	.	-	0	ID=MGA_2263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFSIVFLLILMSMNFSIDFKDSYFKVKYNLYFNQDGIDSENDFKMYFHTREMKYDFLKEPKFVVNLDFKYLYSTNSKYYLYLNFGKLDIKFQNFQLSLVTDYYKNGEIRLYPYILTKNWYVYYKDLNGKYRENLNNFFMGTENEDFDLKNIIKNDEFGISQDATFNRNRYTFKVSYNNKTLKTEGGKFSTSSDEKKYDEFKDGSKQEITIDGSNATIKTYVYGSIENNIRSNKFEYNVEEYYGNLNFSFKTGFLKGFRSNSSVYYKADTSAVYNSEIISANYNLITQELSDESTTSTTTITSGTDFINYKYKSIEKEMNLYYLTDTYYNLTIIPMRGIIVKPHVNLYYKKMWYGVNTLGYDHYMKKRYEFKGLGLLTKEASTINAGLDLFYVTKDFSLYALNNYYVKLNSIKEKELSDAFYLNLNGRYTLRPVIFKTDFKMYEENGTTDVTLMPELQIKYGVFNFDLKRYYDYQYKKDESIDFSNITKTFEGKIYMKKNDINFGLAFYDGKYRRYGDPYFKNFNEKDDKINWYIYFKILKYLDL;locus_tag=LOCUS_22490;note=MGA_2263
sequence1	MetaGeneAnnotator	CDS	2444716	2446209	.	-	0	ID=MGA_2264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAVMLITVFAVAAFAGITATGPSLTTAIEGSATFGLIFDETGLDLYLNNGIQYQAYWGFSVSIDAVASDNATLTLALGGSMQEGSDYVGASLYSATYEDNLLKAYYNNGAYGDTLNKYFLGNQLDGDGNPTEALGTRYLTVNLKDLNADLLYITLDNKESKHSTETGEMLWADVFGAKKSLDVSVGTLNLSAAMWAAEAGSRNIDVDAGATSTPTTAGTTIGYAAGFEFAGANDLDGLTVNGAYGMMAKNSGMGFDASYSKDINLTSAPTMTVTPHVSMKYRKDVANLPLAHQDYTSDASCANGGVDFKAEMNKTTLEVYDTVTYAMADSSLSYKYGVKLTDTTVDLANVYVNVEKTDGSEAATPFTFTAKLNGSTTMDNLSFDYFVQVMDLGNANVAFDALSDLTKKYMAYEANLTYTMDKVEMTASVYNYAKDSDGNYSVISEVSKPVYELGVNYKPNSILTLGGHLGNESNWGDFAAIHWYLSAFASYSF;locus_tag=LOCUS_22500;note=MGA_2264
sequence1	MetaGeneAnnotator	CDS	2446332	2447069	.	-	0	ID=MGA_2265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLISLIVVLVVAIAAFSLGFKDVTEDYWAYDYVTNLTEKGIIPTDEDSFNGFQPLTRADASVWLTRLLTYVENSPMIAKYEDIQRVENLLKATNMKSEELAKQLEGIPEFEQRITRNILKLKYDSFGQIDELNSKIKELDKKIDGVDQGWKKYEDLLKSVQASYNDVKMAAYRGKNMANSLTEDLLDLQDQLDEATTDMASLSSKVEETNKKVTTLEGKTDHTMIWIGIAVAAALGVAGIIVK;locus_tag=LOCUS_22510;note=MGA_2265
sequence1	MetaGeneAnnotator	CDS	2447165	2448244	.	-	0	ID=MGA_2266;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081488.1;translation=MRVKFGADPSRPDLHLGHAVVMKKLRDFQKLGHKIVLIIGDFTARIGDPTGKSKTRPMLSKEEVFENAKTYEEQVFKILDPKMTEIRFNGEWLDKMNFEDVIRLAAKYTVARMLERDDFNKRYKENQSISVAEFLYPLAQGHDSVAIEADVELGGSDQLFNFLVARKLQEEAGMKPQVVVTLPLLEGTDGHNKMSKSLDNYIAFTDEPKDMFGKVMSIPDTLIIKYMKLLTDLNYKEYEKEMNDGVNPRDIKMILGKEIVKMFYNEEKANYAEQEFINVFRKKDLPDEIPELETLKEINIVELVFKTKFGSKSEIKRLIKQGGIKLNNEKITDFTTTLTLSDGDILKVGKRKFFKIKIC;locus_tag=LOCUS_22520;gene=tyrS;EC_number=6.1.1.1;note=WP_004081488.1 tyrosine--tRNA ligase (Thermotoga maritima) [pid:62.9%25%2C q_cov:99.2%25%2C s_cov:90.0%25%2C Eval:7.6e-131],MGA_2266
sequence1	MetaGeneAnnotator	CDS	2448359	2448598	.	-	0	ID=MGA_2267;product=preprotein translocase subunit SecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081487.1;translation=MSALGIIFVIVHVILSLGLIYFALQRMQKNSELGGAFGGGAANTQFGREKGFDPAAKLAMWFGIFFMISCFVTTIFLTR;locus_tag=LOCUS_22530;gene=secG;note=WP_004081487.1 preprotein translocase subunit SecG (Thermotoga) [pid:50.0%25%2C q_cov:91.1%25%2C s_cov:94.7%25%2C Eval:2.0e-14],MGA_2267
sequence1	MetaGeneAnnotator	CDS	2448843	2449829	.	+	0	ID=MGA_2268;product=substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228214.1;translation=MINKEPTIKDVARLANVGITTVSRVLNNSGKVHEKTREKILRIIEEIGYVPNMNARFLSSKRSYSLSFVAPDVGTKFFGIMYTEMEKRLSLNNYRLIYFPLIDDFSLQMIKRKTDIIYHTDAVFLASIPVKNIFKDKIPTKKLILMDSKDERFDSVYVDNYKIGQMAAKYLLKNSDKNTEFYLITFKEFKNEFNSGVFEKRGQGFIDTIGKEKVKVFYGDLRWNGGYKACEKLFKTKKEKKIAVFTISDIIGYGAKIFFDKNEYIPNKDYNLISTDDLPQSKIIGLTTIRQPIAMMAKQACELFFSHLNGRKEVENIELESKLIKRES;locus_tag=LOCUS_22540;note=WP_011228214.1 substrate-binding domain-containing protein (Thermus thermophilus) [pid:31.5%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:4.7e-36],MGA_2268
sequence1	MetaGeneAnnotator	CDS	2449841	2452411	.	+	0	ID=MGA_2269;product=type I pullulanase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082389.1;translation=MKKKFFMVLVFSLLLNVIFASQFKPLAPSITSKSKTTVIIHYNRPDGNYEKWNLWIWPKAPVGLDGKRYLFTGKDNFGKYAIINFDDKYTKIGFIVRTDKWEKDVSIDRFIDIPKNGIAEIWVLSDTEKFYTDPQKIDLGPKVKSIIIDSLDSIKVNLTKGLNVKTWKNKIKVLSGNTELKIDSVVKTDPTDISTTTSITINLSNKITDVSKLLTVKIRGFTSNNYGIMRNVLDNEIFRYEKNDLGLTYTKEKATFKVWSPVSSKVELILYDDFYSNKNKKFPMKKNKEGVWELSINGDLEGKSYLYELTSYGEKHLTPDIYSKAVTLNSQRSAIINLNKTNIKWRKRPILNDPVDSIIYETHVKDFTLNKNSGVTNKGKYIGLVEENTSYNGYKTGLEHLKELGITHIHLMPFQDIGSLDENNFSQYGWGYDPKLYFVPDGLYSTNPKDPYTRIKEVKEMVNTLHKNGIRLIMDVVYNHTFQIGKDSPFDQTVPYYYYRTNSTGKYINGSGCGNSIATERYMVRKYILDSLKYWINNYHVDGFRFDLLGMFDKETVELISKELHKELPSILLYGEPWTGGGKLRFGKGDQKNLNIAVFNDDVRNAIRGSVSVVKLKGFGLGGFGKETRIKRGIVGSIEYNSLIRSWTNSPQETINYVSNHDNNTLWDKNALALGLKPWKNKISEKDLNLLKQSQKFSNAIILTMQGIPFLSGGVEFCRSKEGNGNPYNIEKPNIFDWSLKEKNYDVFKYYKDLISLRKDHPAFKLTNSKDIKNSITFFKSPKKVVSFEINYEKDSWKDIIVIYNANLDKTIEFNLPNGVWNLVVNGNTVNMNSIKNMKNNIEVTPLSIYILYKNN;locus_tag=LOCUS_22550;gene=pulA;EC_number=3.2.1.41;note=WP_004082389.1 type I pullulanase (Thermotoga) [pid:45.7%25%2C q_cov:99.8%25%2C s_cov:99.9%25%2C Eval:9.0e-209],MGA_2269
sequence1	MetaGeneAnnotator	CDS	2452528	2454354	.	+	0	ID=MGA_2270;product=translation elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082094.1;translation=MYNPELIRNISIIAHIDHGKTTLVDRILELTHSIDERKMKDQYLDMMDIERERGITIKSQPVKIYFNSKDGNKYEINIIDTPGHVDFTYEVSRSLAACEGAVLLVDASQGVEAQTVTNTYLAIENDLEIIAALNKIDLPNANPEETMLELDDLIGLDVDSIKTISGKTGEGVEELLETIVSKIPPPTSKGTSKDKLKALIFDAIYDRYKGIIINTRVFSGTIKKGDKIKLMATGKDYEVIELGIFHPEMTESDSLSAGEVGYIVAGIKNIEEAKVGDTITSSLDPISKPLEGYQEVKPMVYAGLYPGVPDYYEELRKALDKLKLNDASFSFIPENSPAMGFGFRCGFLGLLHMEVIRERIEREFELAVILTAPSVVYKAKLRNSEIVEINNPAEYPEPDSIDKVFEPYAKLEIITPPEYMGNLINLAQVEKRGEFLSVSNAGKNRVVLHFEIPLAELIFDFFDKMKAISRGYASMDYEFLDYRQSDLIKVKILVNKEPVDALSFIAHKSKAYETARKVVDKLQDLIPKHQFEIPVQGYADGRIIARSTIKAFRKDVLAKCYGGDITRKMKLLEKQKAGKKKMREIGNVNIPQDAFLALLRINDEDTKK;locus_tag=LOCUS_22560;gene=lepA;EC_number=3.6.5.n1;note=WP_004082094.1 translation elongation factor 4 (Thermotoga maritima) [pid:67.9%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:6.4e-243],MGA_2270
sequence1	MetaGeneAnnotator	CDS	2454355	2454543	.	-	0	ID=MGA_2271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIAKPATHSETLYTKSQLVLLAFALVTVFAVKTHTSTINFVFSKTLYIKMKNFSNIKITGN;locus_tag=LOCUS_22570;note=MGA_2271
sequence1	MetaGeneAnnotator	CDS	2454446	2454805	.	+	0	ID=MGA_2272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAKTVTNAKANNTNWLFVYRVSLWVAGFAILIIFSPLWKSIPSLNQPLLLAIPVFLAAISKEWLLGLLLTVVRGTGYFGMAPKGIEMLWITFTLLIIFSWGIYTFFFDSKRFLKIKRK;locus_tag=LOCUS_22580;note=MGA_2272
sequence1	MetaGeneAnnotator	CDS	2454821	2456785	.	-	0	ID=MGA_2273;product=excinuclease ABC subunit UvrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082307.1;translation=MYKLKSKFKPQGDQPEAIKKLVENINMGIKYNTLLGVTGSGKTYTMAKIIEETKRPALILSPNKILAVQLYREFKEFFPENRVEFFVSYYDYYQPEAYLPTRDMYIEKTADINDVLMKMRLSTLKSILTRKDVIVVSSVSAIYASGNPADFAETNLYLKVGEEYNRRKILEKLSKMQYTRKEDDFAGGTYRLKGEILDIFPPYDDFGIRVEFFDNEVESIKSFEILNKTTIEKFDKITLYPAKEFITSEKKIMNALSSIEEELNQRINFFKENGKLLEAQRIEQRVRQDIEFLEVMGYCKGIENYSRFFDGRNPGDTPSTLLDYFEKDFITFIDESHIAIPQIRAMYRGDHARKKNLIEYGFRLPAAFDNRPLRFDEFMEKTNQTVYVSATPGPFELEISDSIVEQIIRPTGLLDPEVVVKPTEGQIDDFIEELNKVIKRNERSLAVVLTKKDAEMLSEHLNLIGIKSAYLHSELDTLERTEVVKKLRNGDIDVVVGINLLREGLDLPEVSLVVIMDADREGFLRSETTLIQTIGRAARNVNGKVLLYADKVTKAMKFAIDETNRRRKLQKEFNEKNNIIPKSIIKELPKDIFETYKETIKENEFIFEVAEDTSMEDYIALLEEEMYKAASELNYERAAEYRDEINKVKKQYKK;locus_tag=LOCUS_22590;gene=uvrB;EC_number=3.1.25.-;note=WP_004082307.1 excinuclease ABC subunit UvrB (Thermotoga maritima) [pid:62.3%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:2.3e-246],MGA_2273
sequence1	MetaGeneAnnotator	CDS	2456790	2457443	.	-	0	ID=MGA_2274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKGIIFDLYGTLIDASSLFKKVAFELSDETNIDPLIIENRIYELYDDIFKNYYLNEFKSERYYYGKLFKKLKEEISFISSIEEIIDFMYESFSKLPLYADVTYLNELRQNGYKIIILSNADSSFVKEGLINNRLFYNELIISEEVKFYKPSKEIFDIALSKSNLRTSEVLFVGDNLDTDIKGGVNAGIKSILIDRDNKYKYALKIKNLYELKKYME;locus_tag=LOCUS_22600;note=WP_011948701.1 YjjG family noncanonical pyrimidine nucleotidase (Clostridium botulinum) [pid:35.2%25%2C q_cov:55.3%25%2C s_cov:53.3%25%2C Eval:6.0e-11%2C partial hit],MGA_2274
sequence1	MetaGeneAnnotator	CDS	2457534	2462471	.	-	0	ID=MGA_2275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKVSSFQRKIAKIKVGLTSPEKVLEWSNGEVKKPETLNHRTSKPEKDGLFCEKIFGPTKDYECACGKYKGKKYEGTVCERCGVRVESKESRRRRMGHIELATPVSHIWFLKSSPSILSIILGTSVKDLENIIYYGSKRVIERSYLTLANENSEETEDLDLDYYPGEILYQREYDIYSQYMDMAVEPAIRISRIKGLPTTEVSGTVELETEMTHTEREITWVKVKAEDGTIRKYPLFEGVTLMVEDGQEIEAGTALADRFLFEEDYLTHQEYTIFSDYYPGRIEIERDIERDTPIVVISEIDKRFSKRIGKKVGDILLEDEARAYEEVMRILNSKVKYQREEIIGTTLSEDIFVNGKKYEKGIEIDQEFLDEMIDYGIKDVLVITNENEEKKLQINLYEEFEASYGAEAVRKLLQELDLEVLKAKLENELEKLDKRSQKALKLLKRLKVVKDFLKSGNKPEWMIIKILPIIPPDLRPLIQIDGGRFAATDLNDLYRKVINRNNRLKKLMDMEAPEIIVRNEKRILQQAVDSLIYNGRVGKAMTDRSKRPLRSLTDLLKGKKGRFRRNLLGKRVDYSGRAVITVGPDLEIHECGLPKKMALELFKPFVLAELLKDSNVASKNARKLKKTIIEKEMPQAWEILEEVIKGHPVMLNRAPTLHRISIQAFIPKLIEGNAIRLHPLVCPPFNADFDGDQMAVHVPLSAVAQAEAKFLMLSRYNIISPANGKPVSMPAKDIIIGSYYLTTHDPVEFNKLKVPKKYSDLNKKGYIKNIFSDNLHAEYAHEFSKVTTAGVFYNKDKFSWSRAKLTLHNTIAFRKNDKLIKTTIGKIRFNEALPEDLRDYEAKIGKKSIKKLIFNTFKKYGIDKTADILDEVKTFGFHYATISGLTVSIRDVLVSDKRQEIIKNSEEKVFEIEQMYEEGYLTDNERYKEIVHIWENTTKDVTDVTADEYMKPENVFNPIWMMVDSGARGNIDQLKQLAGMRGLMADPSGKIIEVPIKSNFKKGLSELEFFTSTHGSRKGSADTALRTSTAGYLTRRLVDVAQSITITENDCGTHRGVEAEELWSDGSKIEDLSDLLFGRVLAKDVLDPVTDKIIEKDGKKYLRNMMLDEIDGTFLSNYNRTINVFEEKELKVKNINENVYYELLEDLEVENEVILEKGERLTVDVVKELTLHNIKSIKVKEYKAVNFIHIGESLKVKDENDKEIELLKYQEKIDIKTAKLLEKFNIKTVEVRPSIYIRSVLTCEAGNGLCAKCYGMDLASHKPVNIGESVGVIAAQSIGEPGTQLTMRTFHTGGIATASDITQGLPRAEELFEARKKTKGPDGTFSKIKGIIKAIDREESKKSTVLRFVVESLNGDTEVYDADFRTKPVVNVGSKVLPGERLTSGNIKPRKVLDELGVDAVSNYLLKEIKKIYAEQGVEIHDKHFEIIIKQMLNKVEITDSGDTDFMPGDLLSYNRARKINEQILYENSKISENRELVLGKKLAKRVIIEINEDTDEEKIFNVGEIVTKEMLNEMIKIKVKEIEVFESYEEDINEKEEIVLTGVKKTYLITPRSTIKYERKLLRITKASLEKEGWLSAASFQQTVQILTEAAIEGKMDYLKGLKENVIVGQPIPAGTGLKIYSENDFETVTKISQETETTEQAG;locus_tag=LOCUS_22610;note=WP_004081507.1 DNA-directed RNA polymerase subunit beta' (Thermotoga) [pid:49.8%25%2C q_cov:77.6%25%2C s_cov:74.7%25%2C Eval:0.0e+00%2C partial hit],MGA_2275
sequence1	MetaGeneAnnotator	CDS	2462532	2466092	.	-	0	ID=MGA_2276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTRTLKVGNRERVFFGKVQEDFAIYDDLIKIQKESFNEFLRTGLMESIKKHMPMKVPIKITGKKTKEVIVNFSGIKYEDPKITEIECKLKNLSYSGRTFLKVQITDTSTGETIEKDDVFLCNIPYMTDRGIFIINGAERVIVSQLVRSPGIYFVKEEEKDSNKELFISHFLPVKGAWLEIMFNPNPGKEILQIRIDRKRKFNFFLFLKAIGYENDLDILDLFPVDLELSSEVDIESYLDSMVLSDMNFQELDELEPPRTSIRGMRLQEAMPYLEKYGIEKVRVAHRVSQITLDKMKKRYEKEGPLTSLEAYKEMYIKLRPTEIPKGQKAKEEIDNMYFVDDKFDFSEIGRKKIQTRLKDVYIRYLKEVENRDLGEDEEKIEYPISNRTIDKLDIIISARHLLELEKNLEFLDTRDHLGNKRVRAVGELMQIEFEKAFSKMLQHIPEKITMAQDLNKINPQSLINSRAIITAFHQFFATSQLSQFMDQVNPLSELTHKRRLSAIGPGGLKREHAKFEVRDVHHSHYGRMCPIETPEGANIGLITSLAILAKTDEFGFLKTPYYKVKKGRVLSDEPIYLSADEEEVYKIAPASVERNEKGYLVPEYVEIRHLGKVTFVHREDVEYIALVPKQIASVSASLIPFLEHDDANRALMGSNMQRQAVPLLYTDAPYVGTGVEWLAARDSGYLSLAKHKGIVEFVDGSKIIVQRTDDKDNPLKDKYGNLLKDEYILSKYVRSNQDMCINQRPLVHLGQKVEKRQPLSDGPSTEMGELALGKNILVAFLPWEGYNFEDAIVVSEELLEKDSFTSVHIEVYETKAMDTQLGPEEITADIPNVKKELLKNLDERGIVRIGAYVSSGDILVGKVTPRGESETSPEEKLIKSVFGDRGRDVKDSSLTLHHGIEGRVIDVQVFTRDDIPNLEIGVNTYVKVYIATKKTLLAGDKLSGRHGNKGVVSNILHKEDMPFLPDGTPIQMMLSPLGVPSRMNIGQVLELHLGWIANLSNRYFATPIFDGASEEEIMNELHKLRKENGLELGETDENITGKIILRDGRTGVPFDYPVDIGYMYMLRLAHIAKDKIHARATGPYSLIHQQPLGGKAHFGGQRFGEMEVWALEAYGAAHTLTEMLTYKSDDIRGRNDVYKAILKAENLPEPGIPESFKVLVKELQGLMLDIRLYDEDGNELDVDKL;locus_tag=LOCUS_22620;note=WP_004081508.1 DNA-directed RNA polymerase subunit beta (Thermotoga maritima) [pid:57.6%25%2C q_cov:79.0%25%2C s_cov:74.7%25%2C Eval:6.6e-314%2C partial hit],MGA_2276
sequence1	MetaGeneAnnotator	CDS	2466322	2466699	.	-	0	ID=MGA_2277;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003357259.1;translation=MTKEELITAIKEMKVADLAELVKALEEEFGVSASAPMMAMPVAGAAGAAAAEEKTEFDVILTSFGSAKIKVIKAVREITGLGLKEAKDLVEKAGPANKIKEGISKDEAEELKKKLEEAGAEVEVK;locus_tag=LOCUS_22630;gene=rplL;note=WP_003357259.1 50S ribosomal protein L7/L12 (Clostridium) [pid:57.5%25%2C q_cov:84.8%25%2C s_cov:84.6%25%2C Eval:1.1e-23],MGA_2277
sequence1	MetaGeneAnnotator	CDS	2466727	2467275	.	-	0	ID=MGA_2278;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081510.1;translation=MLTKAKKVELLDELAVVLKESSIVAFTDFKGVPVSDSNEMRTEIFKKFEGGANYKVTRNSLIKTAIKKAELNVEDFEEILKGSTGIFYVKEGDPIEGLKLLTDFAKKHKDLPIIKGGLLEGKVFTAEEAIELSKLPSKQELLATLVGSLNAPISGIVNVLAGTVRSLVNVLSAIKDEKEKSE;locus_tag=LOCUS_22640;gene=rplJ;note=WP_004081510.1 50S ribosomal protein L10 (Thermotoga) [pid:46.4%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:1.2e-40],MGA_2278
sequence1	MetaGeneAnnotator	CDS	2467442	2468140	.	-	0	ID=MGA_2279;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081511.1;translation=MRRGKKYLEAKKLVDSLKLYSIDEAVELVKKVAYSKFDDSVEVHVQLGIDSTKSDQNVRNTVSLPHGTGKDVKVLVFATGEKAEEAKAAGADYVGSDELADKIVKEAWSDFDVAIATPDMMRVVGKLGRFLGPRGLMPSPKAGTVTADVTAAVKEFKAGRLEVRNDKTGNVHFPAGKKSFDNEKLKENIISGLEQLSKLKPSSSKGKFIKKVSIAPTMGPGVKLDTTGMDIV;locus_tag=LOCUS_22650;gene=rplA;note=WP_004081511.1 50S ribosomal protein L1 (Thermotoga) [pid:61.6%25%2C q_cov:96.6%25%2C s_cov:96.1%25%2C Eval:5.8e-79],MGA_2279
sequence1	MetaGeneAnnotator	CDS	2468157	2468585	.	-	0	ID=MGA_2280;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081512.1;translation=MAKKLTRVIKLQLQAAKATPAPPVGPALGQVGVNLMEFCKKFNAATADKAGTLLPVEISVYEDRSFTFVVKTPPASFLIKKALGLKSAASNPGKEIAGKIKKSQVKEIAEIKMPDLNARDIDAAMKIIEGTARQMGIEVIEG;locus_tag=LOCUS_22660;gene=rplK;note=WP_004081512.1 50S ribosomal protein L11 (Thermotoga) [pid:68.1%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:1.5e-52],MGA_2280
sequence1	MetaGeneAnnotator	CDS	2468707	2469768	.	-	0	ID=MGA_2281;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081513.1;translation=MRKEWYVLQAYSGMENKVKEMIQEKAKMHGIQNYFGKILIPEVEEINYSNKKGDRFFVSPNAEIFIKKGKDVKKNDLIAEEPATLVKHSGEIIESKNYRKIIVETNDKKYSKTFLIPERAGIIPGIRVGKNVKPGTPFTKDFSYESDVDGEVGAVIKVKRLVVETTDGENDVYVVPLKLFNSKVFKVGTTVNKDEKLASGEQYFAKSSGRIEIKEHSMRKEIKIIKTSRVKLFPGYIFIEMIHLKESEKLIQSIPYVSTFLNVGGKPIKLNRKEIRVLLRTSGEEEYKEKKVKMRSDYSLDEHVKIISGPFEFFTGKIKELNLQKQEVTVSVTMFGRETEVELSLSEIEKILD;locus_tag=LOCUS_22670;gene=nusG;note=WP_004081513.1 transcription termination/antitermination protein NusG (Thermotoga) [pid:48.4%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:1.6e-93],MGA_2281
sequence1	MetaGeneAnnotator	CDS	2469795	2470022	.	-	0	ID=MGA_2282;product=preprotein translocase subunit SecE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003728078.1;translation=MSKFWVFLSSVMQEARKVNWPSRKELLNSTAVVLVIIVFIALYLMLVDFGMLNFFQKLVYPLLLGGASATLPPGK;locus_tag=LOCUS_22680;gene=secE;note=WP_003728078.1 preprotein translocase subunit SecE (Listeria monocytogenes) [pid:40.7%25%2C q_cov:78.7%25%2C s_cov:100.0%25%2C Eval:7.0e-07],MGA_2282
sequence1	MetaGeneAnnotator	CDS	2470091	2470255	.	-	0	ID=MGA_2283;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081515.1;translation=MAAKNQIVHFSLKCTECGTRNYYKVKNRNVKEKFEMKKYCPKCNKHTLHKESKI;locus_tag=LOCUS_22690;gene=rpmG;note=WP_004081515.1 50S ribosomal protein L33 (Thermotoga) [pid:52.2%25%2C q_cov:85.2%25%2C s_cov:93.9%25%2C Eval:1.2e-11],MGA_2283
sequence1	Aragorn:1.2.38	tRNA	2470292	2470378	.	-	.	ID=Aragorn_50;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00490;note=Aragorn_50
sequence1	Aragorn:1.2.38	tRNA	2470392	2470467	.	-	.	ID=Aragorn_51;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00500;note=Aragorn_51
sequence1	MetaGeneAnnotator	CDS	2470592	2471428	.	-	0	ID=MGA_2284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKFLIFSILLISFFTINYGDIFNNPHIQKNLDRLLMVQFVSREEYANGRGLNLNNYILINKPGENKDKLLGVLAIGDMIYPLLYESFAENNNGLFPEINFNDVRTILNESSNCYAYRIVRTFFDLTFPNDIVPRGIAKNLLKALFAYTYVNVDISVDTITQIDQRKNIGNTITYLYAKNSPYDPYLNWNSNTITLRRGTFPTIATGVRKIKQIYNYRKKELHIENLFPIISWDIWSGFYRFPELELYSNMYIPSNLEPGNHVVVLDIKVFPQTAF;locus_tag=LOCUS_22700;note=MGA_2284
sequence1	MetaGeneAnnotator	CDS	2471684	2474173	.	+	0	ID=MGA_2285;product=ATP-dependent Clp protease ATP-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082850.1;translation=MFDNFTERAAKVFIEAQNEAKNMGHPYVGTEHILLGLLKVGGKYLDIIFKEFDISYNKMKNEITGVVGVNSSQGIIGSPQPTPRAKRIIELAYDESELMGSTRIDAEHLLLGICRESEGIASHILKRLGIKLSEMKQKLSELMLKSNTEDINSLNSNEESEERMRQKQTALRQLEDFGTNLTEKAWKNKLDPIIGRNTEIKRVMEILARRKKNNPVLIGEAGVGKSAIIEGLAIKIASGDVPEILKTKTIFSLDITSLVAGTKYRGEFEKRMKKLIQVLEKTDDIILFVDELHMIVEAGAAEGSSMDAANVLKPALANGTITLIGATTSSEYRKFIEKDPALERRFQKIYVSEPTIDEAIEILNGIKIKYEEHHKVKYTEDAIKAAVNLSVRYITDRYLPDKAIDVIDEAGAKSRLAILTLTKKLKSDLSNIELLEKEKEINLSNNNFDEVEILKKKIEKLRKKYNTAYNKWRKDAETKIIDISEENIAEVIAHWTGVPLKKLETSEMERLLNLEAVLHERVVGQEEAIVSVSKAIRRSRSGLKDPKRPTGVFMFLGPTGVGKTELAKTLAEYMFGNDSSLIRIDMSEYMEKFNVSRLVGAPPGYVGYDEGGQLTEQVRRRPYSVVLLDEIEKAHQDVFNILLQIMDEGRLTDSQGRTVDFRNTIIIMTSNLGSEHINKSKRTLGFVENESAEQQYKDIKGQVMSAIKKEFKPEFINRLDDVVVFHPLNKEEIKDIIKIQIKELSSRMSENNMSLKLNDKSLEYLLEKGYDPIFGARPLKRAIQKYLEDPLSEKILQGKFKVGDKINVSEKNGKLIFRKTVSKSKVAKI;locus_tag=LOCUS_22710;note=WP_004082850.1 ATP-dependent Clp protease ATP-binding subunit (Thermotoga) [pid:58.0%25%2C q_cov:99.9%25%2C s_cov:100.0%25%2C Eval:1.0e-281],MGA_2285
sequence1	MetaGeneAnnotator	CDS	2474170	2475501	.	+	0	ID=MGA_2286;product=DNA repair protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583831.1;translation=MKKKQKYYVCNECGYESLKWFAKCPECESFGTAVEFSESKEENNSTKAEISFLEDSIEIPQKIQLSNLEMNELLNGGIVQGGVYLLSGEPGIGKSTLLAQITSQINDFLIYVSGEESKEQVIRRFKRLNIKKENLGLIFENDIESIIKTIKTRKEKPKILFIDSIQTMKSKDFDSIPGSIIQVRECTRKLTNFAKKNNISVILVGHVNKEGAIAGPKVLEHIVDSVIQFELEKSSGLRMLRVSKNRFGPTDNVLLFEMTNKGLKTIENISEYFISEYSNEPGNTLTMIKEGNKIIPIEIQVLVSKPVYGSPRRVTSGVPIDRVLMIIAVLSKKMKLPLESKDIFVNTSGGFKLNDSGIDAAIAISMLSSLFDKPTPSPTIAIGEIGLDGKLRTVHMLDKRIEFAKKIGIDSILVPKHKNSYKKILEIKNISEFINLFKGDNND;locus_tag=LOCUS_22720;gene=radA;note=WP_012583831.1 DNA repair protein RadA (Dictyoglomus turgidum) [pid:43.7%25%2C q_cov:97.5%25%2C s_cov:96.7%25%2C Eval:3.7e-101],MGA_2286
sequence1	MetaGeneAnnotator	CDS	2475494	2476579	.	+	0	ID=MGA_2287;product=DNA integrity scanning diadenylate cyclase DisA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082863.1;translation=MIETSMESILNLLAPGKPLRKGIDRVLEANLGALIFLSSKTEEYLNEGLIQLGFKIDSDFQPEKIYELAKMDGAIILNTEATKILYANVQLNPDRSIPSTETGMRHRTAEKISMQTGDIAIAVSKRRNIVSVFYKWSKNELLPESVLFARLNQEITIAQRYKQSFLEQVEFLNIEETKKKISLSDVTETLSKGLLTIMITKGTDKYMRELGEVSGSAKLEYDEILKSISKIVGSIIMDYHSEDLKYQKAEEAIELFEDIKTEDLVNQFIIAKKIGYDVSSDDELEEKMLTPRGYRILYSTKLPSQAIKNVIETFKTLSSLMEASFEDLTDVSGIGKRRADTIMGLLYRKKKGAEDEDTFKQ;locus_tag=LOCUS_22730;gene=disA;EC_number=2.7.7.85;note=WP_004082863.1 DNA integrity scanning diadenylate cyclase DisA (Thermotoga) [pid:39.0%25%2C q_cov:96.7%25%2C s_cov:99.1%25%2C Eval:7.7e-67],MGA_2287
sequence1	MetaGeneAnnotator	CDS	2476557	2477006	.	+	0	ID=MGA_2288;product=SsrA-binding protein SmpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011943280.1;translation=MKILSNNKKAYHDYFILKEYEAGIELFGSEVKSIKEGRCNLKDGYCKIKNREVFLYNIHVSPYTNASIFNHDPERPRKLLMHKYEILKIHNKIKEEGLTLIPLKLYLKNGLIKIEIGLAKGKKIYDKRETSAKKDFERKIKKNLKYTNL;locus_tag=LOCUS_22740;gene=smpB;note=WP_011943280.1 SsrA-binding protein SmpB (Thermotoga) [pid:52.0%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.0e-44],MGA_2288
sequence1	MetaGeneAnnotator	CDS	2477019	2477924	.	+	0	ID=MGA_2289;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867784.1;translation=MKAIETKNLSKKFGELYAVKNVSLDIEKGKIFGLLGPNGAGKSTIMKMLSTLMLPTSGSIKVLGHDIKTSKQKIRSLISLVSDYTVLEDDLTPIENLEMFAEISNVKNYSKKVKDLIEDFGLGIYKGKLTKYLSSGNKQKLNIARALIKEPKILLLDEPTNAIDVETSRFIREYIIEENVKSEMTILISSHYIWEVEQLATEVGVIINGNIIIKEKTNDLINKFNSMFGIYELTFKKEKFENVLNNLKKQKDILTIKPITKEKIIIEVSNKDFNIKDMNLRKITPSLEDIYSYIVKNKKVK;locus_tag=LOCUS_22750;note=WP_010867784.1 ATP-binding cassette domain-containing protein (Pyrococcus abyssi) [pid:34.4%25%2C q_cov:97.7%25%2C s_cov:92.4%25%2C Eval:8.6e-42],MGA_2289
sequence1	MetaGeneAnnotator	CDS	2477932	2478612	.	+	0	ID=MGA_2290;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082968.1;translation=MRLDKYISNAKIGTRREVKALIKSGKVKVNEKIIKKSDYKVTNEIIEVNNNIITPHKKIYIMFNKPKGILSANKDYKRKTVFDLIKHPYVNELSIAGRLDLDVHGLLLLSNDGTFIHKVISPKKNVYKTYEIIFEGVFTEEKKKRLESGIKLNEFTTKPAIVSLLSKNKLELKILEGKFHQVKRMIASIDLKLIDLKRTSIGSLKVDIPEGTYRELKEFEYLSFLK;locus_tag=LOCUS_22760;note=WP_004082968.1 pseudouridine synthase (Thermotoga maritima) [pid:41.1%25%2C q_cov:97.3%25%2C s_cov:92.9%25%2C Eval:1.2e-41],MGA_2290
sequence1	MetaGeneAnnotator	CDS	2478666	2479100	.	+	0	ID=MGA_2291;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081029.1;translation=MKKKSKDIEKIFRTICFNIKVGGRRVLKDFDISSAQFDVLQMLYFKGPKRLSDISKKLGVTKSTTTGIVKRLENQGLLERKQSDDDKRVFVISIKDPGKKIIDKVINERKKLMKKVIADMNYDSYFIEKLEDFSKKLQEVTNDV;locus_tag=LOCUS_22770;note=WP_004081029.1 MarR family transcriptional regulator (Thermotoga) [pid:45.5%25%2C q_cov:91.7%25%2C s_cov:90.9%25%2C Eval:2.4e-27],MGA_2291
sequence1	MetaGeneAnnotator	CDS	2479090	2480712	.	+	0	ID=MGA_2292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMFKKFFLLFFISIFSFLTIFAYNVEINSIKNSYVYIDNVYNTKSDTGKNILNLNGHHTLKIIKDGYTDFIKDLDINKDLKINAYQIPLSNILINSNLSKINIWYNWNNEKKEVILNSGESLKVPYTIKKIYIAKKGYNEKEINIELKPFSSTVLNIHLNSLQKCLIKTTPSNVKVYSNGTYIGTTPIELDKNYKNLILKKEEYVDYSIDELLNSEYNINLKKGKKLSINSNISDAIVIINKKYTGTTPFSKTLPVDNYFIEVKKLGYDSKYLNVDLSNNLNLSINLKKSLKKITLLNTENYEFNIDGKTIKGLNEILFDNKNHLLKIKNGDSIYSILIDEKTPEVLDFNKVGVLNVFSIKNDFAKVFDKIKNLPTQFFINMISERSTVTLKTTQNYYNLIINKGKYGNIFTEKNIGGIFVSSNINNTSYYLDGEYIGTNPFMYGLKAGTHEIEAKNGNKIKKEQLNIKNNNVYYTNFIFDEKVPVRLYTSKKIKINNIEINKTPYYFYLNKGANYIEVNNKKIVVFIYGPQSINIDDIL;locus_tag=LOCUS_22780;note=MGA_2292
sequence1	MetaGeneAnnotator	CDS	2480726	2482750	.	+	0	ID=MGA_2293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNVLILTIVLISIFIFSEPTIKDLKPSSPTYPHVIRMIENQIMTVDNQARFNGANPIIKYDLAVFGSKFLDYFKGKYGVKIKEFEDRLSILENMNLDKRISTLETSFYNYSEKSILIENNIDEINKKINDILMVIDPSSSINSNNAVFTEIENKAQKIAQKVALEELKRVSDTTLATVNEFSDRLSKFEQSVQDLNNKYDKSIEYLNTIIVSNEEKSRNELKNYVNQKLNIEIDALKASMRNIANSEVGYLNATLDATFSNLDSRINKLETNSNQKIDSYINGIDSRLLNLEAKINSIANFNSENIKTNTTGEILKIKTDIEVLRNTLNTLETSLKNLNNQNEYNKSYIDSFNLKEEYYTKKINEIEKKYDNLVSNLIFQSKKVDGIMFEMSKISTSNNINIDNSSLNERVASLERFFSNYSDEIKKVDIYSNDIDKTLNEFQTIKDQFKANNSKIENINNSFDTINTKIDSLSKILNIDSQKLKDIKNLYDVNEKILNNQNIIENLNKKSSNNEMSIIDLSQRLKTIENEINSFNVNTGKMDELNKSYGELLQEYYKIKSNVIFSINPDKMKDEITSTVENKIAIELANNNQKIMDLSKKIETLSTNSNNSEELTYNKKIEDNKSKLNKLEEEIKMLKKPQEVSFISSLTSGLIGVGVGAAITWILLSSGL;locus_tag=LOCUS_22790;note=WP_010966023.1 SMC family ATPase (Clostridium) [pid:18.7%25%2C q_cov:74.0%25%2C s_cov:39.2%25%2C Eval:9.5e-09%2C partial hit],MGA_2293
sequence1	MetaGeneAnnotator	CDS	2482761	2483540	.	+	0	ID=MGA_2294;product=patatin-like phospholipase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081026.1;translation=MRYGLALGSGGIRGVAHPALIERLMNKRNINFDVVTGCSAGAVTAALFALEGPNKIMNKFEIVMNKYSKKLDELSKDLSSKINIFAKLLASKGIAKNDIVYDFLTDLYGNKKFSDCKIKLGVVSVDINSGKLQEITEGYIVDAVMASSNVPGAFVPQRLGGMNLIDGGVLNEVPVELARKLGAEYVIANHVSPIELRTKFKDGMDYMSYIDNFKIDRITKNSLKKADEYYEYKGKYMWFEFNKYMKVYEEGKELYGDIK;locus_tag=LOCUS_22800;note=WP_004081026.1 patatin-like phospholipase family protein (Thermotoga maritima) [pid:36.3%25%2C q_cov:98.5%25%2C s_cov:96.9%25%2C Eval:6.2e-35],MGA_2294
sequence1	MetaGeneAnnotator	CDS	2483537	2484310	.	+	0	ID=MGA_2295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIAIGDLLEGLYWNSGVLEGLIKSKKSFNLYTSGTGSLIGIFYGMYGETFFGRLKTFLLEKENHLKKIFNINKIYSNRYSQASMLLKLGGGKLELYNQKDLKTYLNSYFKDLKIKDLKNKVNFEVFNIKTGKSCYLKEETKLSDVLLMELAISPFYKYYEYNDGFYIASSKLGFVPIDVPNDTLYTSYEYKICLENPKNASEILLKSSFLLAKKNFEIITENHNTIIPFKVSENPFNIQTFFDGVKAIQNYLEENK;locus_tag=LOCUS_22810;note=MGA_2295
sequence1	MetaGeneAnnotator	CDS	2484307	2484948	.	+	0	ID=MGA_2296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLYIILFILITLSTFSGTFRVKAENMFGSDKYYVLKGNAEIKKDNITINTNEATISLVDDDWRNLESLNTKIKTDTFEASSNKIKFDMKTEKGVLNGKVITIIKVDDSSLSIYCDSMNIDNKNKKYSGISDTLIEIYKDDYIIKTKKFEYNETSKKLILTGDVNIKNDVKKMSMKSQKAIFNTDTNEVTGENVSITLKIKDEEKNNTQDTK;locus_tag=LOCUS_22820;note=MGA_2296
sequence1	MetaGeneAnnotator	CDS	2484981	2486255	.	+	0	ID=MGA_2297;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081577.1;translation=MLDIKYVRNNYEEIKDILIKRNADTKLLDELIPLDEKRRNLLKKVEVLRAERNNNSKKVSKLKKEGKNEEANKIIVNGKKIGEDIKKIEEEMKEIDEKYMQKLLYIPNIFEKDTPIGKDDNDNIELRKWGEPRKFKFEPKPHWDLGTNLNLIDFDRAAKLSGSRFAVLKGQIAKLERALINFMLNLHTIEHGYTEVLPPFMVTRETITATGQLPKFEEDLYNTKPDDMFLIPTAEVTLVGLRRNEVIENKDLPAKYVAYTPCFRREAGSYGRDVRGIIRQHQFDKVELVWHTKPETSEQDLETLTSQAEKVLQLLKLPYRVVRLCSGDLGFSAMKTYDIEVWLPSYNSYKEISSCSTTGDFQARRANIKFRDKDNKLKYVHTLNGSGLAVGRTLVAIMENYQLEDGRIEVPEVLRPFMGMDVIG;locus_tag=LOCUS_22830;gene=serS;EC_number=6.1.1.11;note=WP_004081577.1 serine--tRNA ligase (Thermotoga maritima) [pid:59.0%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:7.4e-144],MGA_2297
sequence1	MetaGeneAnnotator	CDS	2486255	2486950	.	+	0	ID=MGA_2298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNAFYGKLKNNSIYLDKNETSHLKIVRKNIGDTIDVFTGDGNIYNCIIESIKKKESILSIINTIKFKKEFNPNINLYVGMSKWEKMREIIEKAVELRVNSINIFKGKKSQLSYKNIEKFKKIIIEACKQSYLPLFPNLNFIEFQEIPIIDSIVFDFNNTYDFKSEIKKINKSINLIFGPDMGFSNEEKQFFSEKNFKITNLGNTVFRIETAVTYVLSTINYEFNRLNPIK;locus_tag=LOCUS_22840;note=MGA_2298
sequence1	MetaGeneAnnotator	CDS	2487123	2487791	.	+	0	ID=MGA_2299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEKKKGGIKTIIIFFIIGLVVAVALLFVGYISFEFNRLSYMNLNLKSDWRSYLAYLTKDIPYVNKMVKYEYLKVGDPILLQTKLIEEKQKAIEDEKKKLEAQKKEMQKLLEKITKDSSDLILKKEEVQKLSSEYEKKINDYNNYNNRVKKIAEWLSSSTPSKIIKALQQSQVKIDLIVDALYILQPSIVGELLDAMSEVNPDKAAQIISKLGEKGSGSSGN;locus_tag=LOCUS_22850;note=WP_004081101.1 hypothetical protein (Thermotoga maritima) [pid:28.4%25%2C q_cov:87.4%25%2C s_cov:63.2%25%2C Eval:6.3e-19%2C partial hit],MGA_2299
sequence1	MetaGeneAnnotator	CDS	2487781	2489499	.	+	0	ID=MGA_2300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METSLLIKNIPIPKENIKAIKNNEKKDDFNKVLNKTKSNKKIVNHHIPKKNKPYEEDAIKTPVLLKKIIIPKKSKITLIDEESKNILKTTKKQNKNGTITSITKEINEILKAINDTLNLKITKKSMIKKLKKLFPNKDISLKKIVEKNGSISNLIEVSDKNKKILIPINKKENLKNIEKKFILIKHLPIAKSKNNKKISPTNNILTNTKKLKNNNLKEKTSIKEVKDKFKIKNNSEKNTIYFVIPKDLTQNNSLNKALNIDISKGKNIPNNFITNKKIQIQKNTNLKKIFLKISKNTNFNKQKKLKNETTLNFIKNDLLKNNSFNSSILTLKNYKFKSLETPKRSIEKDLKTNNLKIDTLNFNNSNINKKNIKLSNLNNVNSHNKKISSNENIKIKKMPLSINKFKIKHEIPQINLNLSKSNNKISNENIKILPKQPIQNIPLEKFNTKVEEVLNKNITQNMLKESISMKITPPEIGKINVEIIKNGKAVTINILTETENAKNTLSKTLHSLVGNLRDNGYNPVTVKVDSQQKEDLMQQEKDDQQNQQEQKKREEKEKTNTFESLLRGEENA;locus_tag=LOCUS_22860;note=MGA_2300
sequence1	MetaGeneAnnotator	CDS	2489492	2490154	.	+	0	ID=MGA_2301;product=flagellar hook assembly protein FlgD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081097.1;translation=MLDEMNGIYMGTLQAQRSKAPKKSLDKEAFLQLLVTQLQNQDPTNSMDTKDMLAQMSQLSTTEQIMNMSTSFQNMIDSQMNMNKMQAASIVGKNVVVENNEVNLIDGKSENIYFKVDEESPIVVEIYDSNGKVVKREDMGIKSAGGYPYLWDGKDNNGVSMADGSYKIKVFSYLNGQKTEISPIDGGKAQAVQFLDNKYYVIVNNKKYPISSIKEISEDA;locus_tag=LOCUS_22870;note=WP_004081097.1 flagellar hook assembly protein FlgD (Thermotoga maritima) [pid:43.4%25%2C q_cov:99.5%25%2C s_cov:98.7%25%2C Eval:8.0e-51],MGA_2301
sequence1	MetaGeneAnnotator	CDS	2490170	2492611	.	+	0	ID=MGA_2302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMRAMYSGITGLKNFQTEMDIVGNNIANVNTTGFKASRITFQTTLLQTLKAGKASEGALGGTNPIQIGLGSKISSVDKVMSQGSFQNTGKKTDLAIQGDGFFVLSDGEANYFTRAGNFTLDKTGYLVNPASGFKLQGWSAKLSNTGQRYVDTNDPIGDVKISTGLVMPAKQTSAITLAHNLNTDVGLQETTMEITSKLGTKLPVKMTFSRDMKSEYRDRYVYKWNAKLVEPGDKMKFLDEASGKSDLDELNGYLELDESGNVINWVTYKGDTTNAATDTKFKILDVGGDLKTSTGADVTLTTTKSGGGAGSGATFSGNIKVTKSDGSEVYYNPADIKMDWNGTDYKITLSDVEGTNVVFDYTPADSKISTLNSDFGSTKFALANKYSIPTSNGSVTLDGTKITAKDSSDIDVTNKISDFNLSYNSASKTVTINATIDGKQLTFTNTDTNPIENPNDLATTFSSGGYTIDLSSALSGTDSLNDFSINGYNLSGFSLSGENSDTVDNFSGTYYSVREVIQPPSGGNIKLVDVSNPQNFAVVDYSNPTVSTSTLVYDALGKDYNVYTKFTKIDTNTWYWKAELADGTPLYKLNSDGTRDTSGAIAEGVIAFDGNGSIAATKWRIKDDGSIDTNITDATNGSAGFWFDPSQTGAALNPTVTPSSTAGAGPVNVEIKFNEITQFSSPHSIQVTDQDGNAQGTLDAFAINEVGDIVGTFTNGRTDKLGKVSLGVFNNPAGLLEIGNSMYAQSSNSGLAQIGVAGVGGRGTLIPGALEMSNVDLAEEFTNMIVAQRGFQATSRIITTSDAILNELVNMKR;locus_tag=LOCUS_22880;note=WP_000986372.1 flagellar hook protein FlgE (Leptospira) [pid:41.6%25%2C q_cov:31.6%25%2C s_cov:58.8%25%2C Eval:1.3e-52%2C partial hit],MGA_2302
sequence1	MetaGeneAnnotator	CDS	2492626	2492820	.	+	0	ID=MGA_2303;product=flagellar FlbD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870069.1;translation=MIELSKLNNIKFIINCEQIEKIESRPDTTITMMNGHFYVVKESIEEVIEKVIKYKRSFYLQKGD;locus_tag=LOCUS_22890;note=WP_012870069.1 flagellar FlbD family protein (Thermanaerovibrio acidaminovorans) [pid:46.0%25%2C q_cov:98.4%25%2C s_cov:88.7%25%2C Eval:1.6e-11],MGA_2303
sequence1	MetaGeneAnnotator	CDS	2492824	2493600	.	+	0	ID=MGA_2304;product=motility protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081090.1;translation=MDISSLAGIVLALVAFMLGVGANIGDMIDPTSIFITVVGSIGATLIAHPKDKSFKIVNIMMSAIKNPTIDNLGTLRTLYSFAEKARRDGMIALEEDIPSIDDEFIKDGLRAAVDGTDPEEIRKILEIKMELFEEDDGANAAVLDSWGAFAPAFGMIGTLVGLVLLLKTLNDPTTLGPKMSVALITTLYGALVANIFALPMAEKLKKRTSKFVNQKRMSMEGILSIVQGENPRLMEEKLKAFLSAEERKAYEAEKGENA;locus_tag=LOCUS_22900;note=WP_004081090.1 motility protein A (Thermotoga maritima) [pid:54.4%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:9.4e-76],MGA_2304
sequence1	MetaGeneAnnotator	CDS	2493613	2494485	.	+	0	ID=MGA_2305;product=flagellar motor protein MotB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081088.1;translation=MAKKQECPAGSPAWMATFSDMNQLLMTFFIALFAMSSISPGKFQQMAQSFNNVFEGKPIGVLVGGKSIQDEPLITENNGVKQDLMKIINDERFKGKITIKETDRGTIISLKDMSYFKQGSAELTALAKSILAEIGTIIIEHTTNEIEIYGFTDDSAVTPNNIYPSNWHLGAARAASVAYFFTNELKKRRMLERIGEVKTGNFDIDYFYNPDRFFPISVGDRDIKKEITNLKSELESQKSIYTTKFQTGEITAVDLKEKEKELNKNYENELERLRKIYRRIDILILRQRIR;locus_tag=LOCUS_22910;note=WP_004081088.1 flagellar motor protein MotB (Thermotoga maritima) [pid:52.0%25%2C q_cov:92.8%25%2C s_cov:92.7%25%2C Eval:8.4e-79],MGA_2305
sequence1	MetaGeneAnnotator	CDS	2494501	2495028	.	+	0	ID=MGA_2306;product=flagellar basal body-associated FliL family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081086.1;translation=MADEEQKLPEQKEKKPLNPILLIIIGAVLMLIIAGGVSFFMVKLLGSNIPSQENKANTSTLRAPVISKAELIKDGSREPVMLKGGREVAVISALEFKVGSEECGSTIGANKVEIKDAIRMLFLNKTRAEVTTQQGMELLRKQIKDAVNEITGYTGERENLGVRSVNIIIMTIQQQ;locus_tag=LOCUS_22920;note=WP_004081086.1 flagellar basal body-associated FliL family protein (Thermotoga) [pid:42.2%25%2C q_cov:84.0%25%2C s_cov:84.6%25%2C Eval:2.5e-26],MGA_2306
sequence1	MetaGeneAnnotator	CDS	2495042	2496109	.	+	0	ID=MGA_2307;product=flagellar motor switch protein FliM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081085.1;translation=MADTLSQEEIDQLLNSIGDEEQTDGESVQPIIEEKKVREYNFRRPTKFSREQSRTLQLIHENFARELSTYLSGRCRTYVEVRYASLDQITFSEFQQSLTSPTYISIFSTDVLSGNSILQIGLDVGYVIIDTLLGGPGTAIDELRAPTEIETSILRKESNVMLRSLSKSWSIIADFDISLEKVETNPQFVQIAPPNEMIVLITLSITIKDTQGFINLCFPSSTLEPISDKLSTRMWQQVFKKSEMSHKNLENLLMLSKLKLSAVLGKSKLYLNDILNLSIGDVIRLDSFYEDPIDLNVQNTPIFKVKVGTNKGFYAVKIEEENEALLEKIIIEKNIKEATNNKNNKKTDGGVENVG;locus_tag=LOCUS_22930;gene=fliM;note=WP_004081085.1 flagellar motor switch protein FliM (Thermotoga maritima) [pid:46.9%25%2C q_cov:89.0%25%2C s_cov:96.0%25%2C Eval:1.9e-73],MGA_2307
sequence1	MetaGeneAnnotator	CDS	2496099	2497259	.	+	0	ID=MGA_2308;product=flagellar motor switch phosphatase FliY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081083.1;translation=MLGDEFLSQEELDSLLNGLNEEPSIDNSLLDMMGEVGNISMGAGATTMSTLLRRKVNITSPETSLVKFKDIKEKFNGNQLVITIQYKKGLEGLNSFVLPENVALIIANLMMGGDGNIDETQSLDEISMSAVGEAMNQMMGSSSTAISEFIKTPVDISPPEVGIIDFSNKDTQFPPIESDADADIISVKFNMDIEGLSSTTFWQFIPAKFAKHIEELMKKVMAGDDSEQSTQQPVQQQPVQQTQQPMQQPMQQPMQQPMQQMQQPSGFSQNVIQQGSGVNVNPVNFGAISGNQTIPNENVDMSKLQLLLDVPLEVTVELGNTSMSLREVLQLHQGSMLQLDKLAGEPLDIYANGKLIARGEVVVIEESFGVRITEIVSLDERLRSLK;locus_tag=LOCUS_22940;gene=fliY;note=WP_004081083.1 flagellar motor switch phosphatase FliY (Thermotoga maritima) [pid:43.9%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:1.2e-81],MGA_2308
sequence1	MetaGeneAnnotator	CDS	2497256	2497894	.	+	0	ID=MGA_2309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKKLLLLLFLIIILIHGFSINYFEKYISSFTSLKNFSIKIKIDFEITDKKNILTTMSVINNRFYIFNVKKPELFSGIVYVYDLYTNNLYTKVKNSYDFSSDLNLFTSEIPNIMNILTSIFEPTKFKESTIKIRNSLISIYEPKDKIALKLFLGIDYAKFKVYLKNPMNDIYFFDRFEILNSTEKQKAIITISQITQLNDKEASNILNNYLP;locus_tag=LOCUS_22950;note=MGA_2309
sequence1	MetaGeneAnnotator	CDS	2497882	2498613	.	-	0	ID=MGA_2310;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081082.1;translation=MLEQYNNIHVFWFENGASNVTFLETKNELIAFDSSFYGSKFDEMTNIMEEKTSKKLKKVFITHFHPDHSFGCLTSKKNFEIIMNIKTFSNLNNLTSKYLEDVSEISGYNCTNIKNKLNLKNIEIFEDTFFKVIEDTIISGKNVGGHTNDSTIYMLKPLNYLISGDLVFSRVHTEFLNENIDLWIKILKRLQTMNINKISPGHGIPGDIKLIKNQIEYLNSYKKNRNLKNLYYDYVLSEIVQGR;locus_tag=LOCUS_22960;note=WP_004081082.1 MBL fold metallo-hydrolase (Thermotoga) [pid:29.9%25%2C q_cov:88.9%25%2C s_cov:83.3%25%2C Eval:1.1e-17],MGA_2310
sequence1	MetaGeneAnnotator	CDS	2498745	2500469	.	+	0	ID=MGA_2311;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080006.1;translation=MLLKEFYKKEWWRYLLGILVLLVVDYIQVIIPQKIGQIFDILNTNSSMDYLKILISSILFLAFGLVLGRFLWRIFIFGSARLFQYKTIDKMFSRIITLDQNFFDKWRTGDLMTRFTSDTQMARRLTGNAVIMLVDTTFMTILTIYKMNQEVSWKLTLVSILPLPFIALVSLILGKLIHKKFIELQESTSDLSNITEESIAGMNVIKVFSNHKTIQKLFEKKAKRNYDAQISLIKVWGFMFPVIMFLGALATILVFRYGGEMVITKQITLGNFIATNQYVGMLVWPMMAFGWLVNIIQRGKTSVKRIEEVLEQKSSIEDPKYISKNFNGVIKIKNLTFKYPETERNVLKNISLDINSGEMVAFVGKIGSGKSTLSKLITKLYKVKNDSIFIDDVDINKLNSKFIRDNIAYVPQDTFLFSMPIKDNIMFSNTDSSKNYKKYTKIANVHEDINALDKGYDTQVGERGVSLSGGQRQRVTIARALAKDSKMIILDDCLSAVDTETEEKIIKNLREEIKNRTILVISHRLKAVKEADKIFVFEDGTIIEQGNHEELINLNGTYYSMYQKQLIEEKLKEE;locus_tag=LOCUS_22970;note=WP_004080006.1 ABC transporter ATP-binding protein (Thermotoga) [pid:45.7%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:8.9e-146],MGA_2311
sequence1	MetaGeneAnnotator	CDS	2500473	2502404	.	+	0	ID=MGA_2312;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082511.1;translation=MASSYENILKEENEKGLSDRHTFKKLWEYIKKYKLILVIAFVSLFFSTIIDLNIPRIIKFGIDNVISSEKTYIKNKDNTFIESEKGDYKLTYTDNSYYFIKDNTKIKASENQVQKDQKTKIDKLSFFTIIVLLILILQLFTNYGQVYFSNLLGQKVVYDIRKKMFEQINKTKFEFFTKNPSGKITTRVVNDTQNLSDFFTDVMTSLIKDIAIIVGVIYFMFVYLNVKLSLYTMITFPIVLISMFLFKTLDRKAYNKVRTRISALNSYLAENISGSLVTKLFNQEQRKKDEFQSMNKKLHKARMQQLLIYAIFRPAMNLLYYLTISTILWVGSKEIKNDFISFGTLYAFIAYIDMFFKPLFDIAEKYDIMQNAFSSAGKIFKIMDEEKEDIGKGQIKTLKNGNIEFDNIKFSYSHDNNYVLKGVTFNIKDNERVSIVGETGSGKSTIIKLMNGLYKFNEGNIKIGNENLYEYDLNYLRKKIAVVPQDVYLFTGNIIENIRLFNENISIEQVKSAAKMVYAEEIIKKFPDAYETKILERGSTLSAGEKQLIALARAVIFNSKIIILDEATANIDVETEHLIQKALNDLSKTTTIVSIAHRLSTVKNSERIIVIHKGLAVEEGTHQDLLNKKGIYYDLYRLQFENI;locus_tag=LOCUS_22980;note=WP_004082511.1 ABC transporter ATP-binding protein (Thermotoga maritima) [pid:41.1%25%2C q_cov:96.3%25%2C s_cov:99.1%25%2C Eval:4.3e-136],MGA_2312
##FASTA
>sequence1
TTACATAAAAAAAACACTATTAAATGGTGTTTTTTTTATGTTCTTTTTTTTGTAATATTTTTTACTTCCATATATAGTAGTTTTATAATTTTAACATAATAAAAATCATCTTATATAAAAAATTTTTTATAAAAATCTTATAATAATCATTTTATTTTTTTCATATTTTTTTTAATTTATAAGTATGTTTTAAAAAAAATATGAATTTTATATGTATAATAATCAACGATAATATTTTCAAATATAATATTATTTCAAATACTAAAAATAAAAAAATATAATATTTACAAATTAAATTATAAAAAAATAATTAAAAGCGTTTTTAATAAAGCATTATATTCAAAATATTCTGAAATAGTTTTATAAAGTAAATTTAATAGAGTTAATAGAAAGTTTTCTTGATTAAGCTCTCATATTATGATAAGCTATATATTGCGAGAGGTGAATGGGATGAATAATGATGAATTACTTGAACAATTAAGATTAAAATTATCAAGAGAAACTTGGAAGAGCTGGCTTTCTACAAGTAAAATACTTGATATTAAAAAAAATGAAGTTATTATAGGATTAGGAAATATTTTTTTAAAAGAAGCTGTTGAGAAAAAATTTGGAAAGGTTATTAAAGATACCCTTTCAGATATTTTAAAAAGAGATGTATCGGTTTCTTTTACAGATATAAAGATAGATAATTCCAAAAAAATCAATAAAGGTCCTATGATAAAAACAAGACCTTTGAAATTATCTGAATTTAATACTGAATTTGTATTTGAATCATTTGTTGTTGGACATTCAAATAGAATGGCTTATTATTCTGCTCAAGAAGTTGCTCAAAGTCCTGGTAAGTTTAATCCATTATTTATATATGGTGACGTAGGTCTTGGAAAAACCCATCTTTTGCACGCAATTGCAAATCATATGTTGGAACATTCTCCAGATTTAAGAGTCAAATACTTAACAGCTGAAGACTTTATGAATGAAATGATGAAAGCTATAAGATCTAAAGATATGGATAATTTTAGAGAAAAATTTAGAAAATCTGTTGATGTTTTTTTAATTGATGATGTTCAATTTTTAATAGGAAAAAACTCTGTACAAACTGAATTATTTCATACATTTAATTCGCTTTTTAATTCTGGAAAGCAAGTTGTAATTTGTTCTGATAGAACCCCTGAAGAATTAGCTACATTTCATCCAAGATTAATAAGTCGTTTTGAAATGGGGTTAGTTGTCAATATAGAAGAACCTGATGCAGGAACAAGATACTTAATTGCAAAAAAAATGGCACATATGATATCTCTTCAATTAAGCGATGATGTTGCTCATTACCTTGCAGAACATGTGGATAGAAATTTAAGACGTATGAGAGGGGCAATTATGAACCTAATGCTCCATACTAAAATAACTGGAAAACCTGCAAATATGGAAACTGCAAGAAAAATTGTAGACTCTATAATAAGAATGAATGATGAAAAAAGAAAATATAATTCAAAAGAAGCTTTTGAAACAATAAAAATAAATACTCTTGTAAACAGTGTTTTACAGGAATATGATATTGAAAGAAAAGAACTTTACTCTTCATCTAGAAAAAAGAAAATATCAGAAGCACGTCAAATACTTGCTTATATGCTTAAAATTTATGGGAAAATGAATGTAAAAGACATTTCAAAAATGCTTAAAAGAAATCATTCAACTATAAGTCAATCTATAAAGAAAATTGATCAATCTTTAGTTTTAGGAAACAAACTTATAAAATCAAAATTAGACAATATAAAAAATAAAATGGAACAAGAAAAAACAGATATGAATGTAATATAACTTAAAGGCGGTTTTTCCGCCTTTTTTGTTATTTCTAATAGGAATTAATTATATATAAATAAAGCTATTTATCTTTATTTTATATTTAAAATATGAAATTTATAACATTGAAATTTTTTTCATTATGATTTAAACTATATATGATGTAAAAATTTTTTGAAAAACTAAGGAGTGATACAATGAGAGCAGTTGTAAAGAAAGAACCAGGAAAAAGCTTTGTACTTGAAGATGTAAAAGAACCTAAAATTGTTAACTCTAAAGATGTTAAATTAAAAATACTAAAAGTATCTGTTTGTGGTACTGATCTACATATATGGAAATGGGATGAATGGTCTCAAAATAGAATAAAACCACCTCAAATAAATGGTCATGAATGTGTTGGTGAAGTTGTTGAAATAGGTAAAGAAGTTAAAGGAGTAAAAGTTGGAGATATAGTTACTTGTGAAACACATATTCCTTGTGGTGTATGTTATCAATGCAAAACAGGAAACATGCATGTATGTAAAGATATGCAAATTCTTGGTGTAGATAGAGATGGTGTATGGGCTGAATATGCTGTAGTTCCAGAAGTTGTTGTATGGAAAGTAGATAAAAAAATTCCTTTAAAATATGTTTCTGTAATGGAACCTCTTGGAAATGCAATTTTCACAGCAACATCTTTTGATTTAAGAGGAAAATATGTTTTAATAACAGGAGCTGGACCAATAGGAGCTATGGCTATAAATGTTGCTCAAGTTTCAGGAGCAGCTGCTGTAATAGTTAGTGAAGTATCAGAGTATAGAATAAATATGGCAAAAGAACTTGGTGCTGATTTAGTAATCAATCCAATGAAGCAAGATTTAATTGAAGAAGTAAATAAATTTACAGATGGTCATGGTGCTGATGTATTACTTGAAATGTCTGGTAATGTTAAAGCGTTAAACGATGGAATAAACGCTGTTAGAAATGCTGGTGAAGTTGCTGTACTTGCAGTTTATAAAGGAAATACTATATCTTTTGAAATGAATACTGCAGTTTTTAAAAACTTAACTATAAAAGCTGTTACCGGAAGAAAAATGTTTGAAACATGGCATATAGCAAGTCAATGGTTAAAATACAATAGATTAAAGTTAGATAAAATAGTTACTCACGAATTTGATTTATCTGAATTTGAAAAAGCACTTCAATTAATGAACGAAGGAAAAAGTGGTAAAATAGTATTGAATGTAGCAAAATAATTCTATTGAAATAAGGAGGGATAGCATGAACTTTTATGAAAATTTAAAAAATGAAATGGAAGAATTAAAAGAAAAAGGTTTACTTGTAACAGTAAAAACATTAGAAACAGCACAAGGAGCCTGGTTAAATATCGAAGGTAAAAAAGTATTAAATATGTGTTCAAATAATTATTTGAATTTTTGTAATAGAGAAGAACTAAAAAAAGAAGCTATAAAAGCTGTTGAAAAATGGGGAGTAGGTCCTGGTGCAGTTAGATCAATAGCAGGTACATTAACTATCCACAATGAACTTGAAAAAGAATTAGCTGAATTTAAAGGCGTAGAAGCAACTTTGGTTGTTCAATCTGGATTTAATGCCAATCAAGCTGTTATTCCTGCAATAGTAAAAAAAGGTGATGCAATACTTTCAGATGAATTAAACCATGCAAGTATAATAGATGGTGTAAGGCTATCAAAAGCAACCAAATACGTTTGGAAACACAAAGACGCTAAGGACCTTGAATTAAAATTAAAAGAAGCTAAAGAAAATGGAGCAAATACAATGCTCGTTATTACAGATGGAGTATTCAGTATGGACGGTGATTTAGCACCATTACCTGAACTCGTTGAAGTATGTGAAAAACATGGAGCACTTTTAATGGTTGATGATGCTCACGGTGAAGGTGTTCTTGGTAAAAACGGAAGAGGTATAGTTGATCATTATGGTTTACATGGAAGAGTAGATATAGAAGTTGGTACACTATCTAAAGCATTTGGTTTAGTTGGTGGATTTATTGCAGGTAAAAAAGTTTTAATTGACTATTTAAAACAAAAGGCAAGACCTTTCTTATTCTCAAGTTCATTATCTCCAGCAGAAGCTGGTGCTGGTATAGCTGCTGTAAAATTACTTAAAGATTCTGGAGAACCTGTAGAAAAATTATGGGATAATGGAAATTACTTTAAAGGTAAAATGAAAGAATTAGGTTTTGATATAGGACAAAGCGAAACACCTATAACTCCTGTAATGCTTTATGAAGCAAAGGTTGCTAAAGAATTTTCTAAAAAATTATTTGAAGAAGGAATTTTTGCAACTTCAATAGGATTCCCAACAGTTCCAAAAGGAAAAGCAAGAATTAGAGTTATGATTAGTGCTTCCCACACAAAAGAAGATTTAGATTTTGCAATAGAAAAATTTGAAAAAATTGGAAAAGAATTAAATATAATAAAATAAAACCGCTTAGCGGTTTTATTTTATTTTTTCAAGTATAGATATATTTTCAATATGATAAGTATTAGGAAACATATCAAAAGGTTGTACTGATTTTATTTTAAAACCAAGTTTTTCAAATTCACTCAAATCTCTTGCAAAAGTAGAAGGATCACAGGATATATATACAACTCCTTCTCTTATTTTTCTTGAAATCAATTCAACACCTTCTATTCCTATACCTGCACGTGGAGGATCTATTATTAAATAATCATAACTTTTACTATTTTTTAAAAATTTAATAGCATCAAGAGCATCAAAATCAATATTTTTTATATTATTTAATTTAGCATTTTCTTTTGCTGAATTTATTGAAGTTTTAGAAACTTCAATTCCTTTTATATTTTTAAATTTTTTTGAAAAATACAATCCAAACAATCCTACTCCACAGTACAAGTCTAAAAGACTTTTATTATTAGTATTTTGTGTATTCAAATATTCATTAACATAATCTAACATTTTTTGAGTTACATTATAATTATTTTGAAAAAAAGAAGTTGGTAAAACTTTATACTTTATACCATTAAATTTTTCTTCTAAAAACTCATTACCATACCAAACATTGTACTTACCACTTAAAATAACTTTATTATTTGGATTTACAAGATGTATAAGACTACTTATATTCAATTTTAAAAGCTCATTTTTTAACTCTTCTTTTTTATTAAAATTTTCTTTTGAAGTAACTAAAATCATCATTATTTTATTATTTATATTATTTTTTCTTAAAACTAAAGAACGCAAAATCCCCTTTTTATTTTTAGAATTATAAACTTGAATATTTAATTTATTTACAATTATTTTTACTTTATTTCTTAATTCATCAAATTCTTTTGGAGAAATTGGACAACTCTTTAAATCTACAATTTCATTAGAACTTTTCTTTTTCAACCCTAAAATAACTTCATTATTATAAGAAAATCCAAATTCCATCTTTGCTCTATAATTATAAACAAAATCAGAAGCAATAATATCATTAACCTTTATATCTAACTTTCCTATACGTTTTAACTGTTCCTCAACAATATTTGTTTTTGAAGTTAATTGATGTTTATAATCATAATCTAACCACTGACATCCACCACATTTTTGAAAATGTTCACACTTTGAATTAATTCTATATGGTGATCTCTCTTTTATACTATTAACCTTTGCAAAAATTGTTTTTTTCTTTCTTTTTATTTCATCAACTTCAACTACTTCTTCTGGATATCCGTCATCAATTAAGTAAATTTTTTCATTATCTTTAGAAAATCCATAACCACCATAAACTAACTTTTCAATTTTTAAACTCATACTATATACTCCTTAAATATGGATTATTTATTAAAATCTTTTCAACACTTGTCATTGGACCATGTCCGGGTGCAATTATAGTATCTTCTGGTATATTTTTTAAATAATCTTTTAAAATTTTTAATGATTCAAACATGTGTTTTTCAGAAGAACCAGGAAAGTCTGTCCTTCCAATAGAATCAGTAAACAATGTATCCCCTGTAAATAAATAATTTTCTATTTTTATTGCACAAGAACCCATTGTGTGACCAGGTGTATGAATAACTTCAAAAAATTTAGTAATATCTTTACATTCAATATCAAATTCTATTTTTTTATTTATAAGTGAAGATAAGTTCTTTTTATAATCTTTTAACAATTCACAATCATTTGGATGAATATATACATATTCAAGTTTTAAAAATTTTAATCCAAGAATATGATCAAAGTGCCCATGAGTTAAAAGAATATCAACAGGTTCTTTTATCAACTTTGTAAAATCACTTGCTGGATCTATCACAATTTTTTTGTTTATTATATACGTGTTAGTTTGAAATGTATCTGATACTATTTTTTCTACAATCATTGTACCACCTCGATTTAATTATACTATAAAATTTTTAAAGTTGTTATTGACATAAAATAAATAATATAGTATAATAAAAGTGAGTAATTACTTATTTTTGATAAAATATTATTTTGGAGGTATTTATGGCTTTTAAAAACTTTACAAATATAAAGCAATTTGATTTTCAAATTAATAGAATACTAACTTATGGAGAAAAAGCTTGCAATGAAAAAGAAGTGTATGAAGCTGCAAAAGAAATAAAAGATATGAAATCTTGGTTTAAAGTATGGAATAAATTAGGCAAAATTGCAGAACATGAAAAAAGATACTTACATGCAGCATTTTATTACAGACTTGCTGAATTTTTTTTAATTGAAAAAGATGTGAATAAGGAAAAAATGTATAATTTATCCATACATAATTTTAATAAAGTCATAGACAATGATAAGAATGTGAAAAAATTTTTTGTACCCTATAAAAATTCACAAATGAAAACACTTGTTTTTAATTCTAAAATTGAAAAAGGAAAAATAATAGCTTTTGGTGGATATGATTCTTTTATAGAAGAATTTTATCTTTCAATAAAAGAAATATCAGAAAAAGGTTATACAGTTTATCTTTTTGAAGGTCCTGGTCAAGGATTAACGCTAAAAAACGGGATATATTTTGAATATAATTGGGAAAATTCTTTGAGCGCTGTATTGAATTATTTCAATTTAAATGATGTTTTTGTTATTGGAATATCTTGGGGTGGATATTTTTCATTGAGAGCTGCAGCATTTGAAAAAAGAATAAAAAAAGTAATAGCATATGATATTTTATATGATGGTTTTGACTGTATGATACATCCATTTCCAAAAATTTTTAGATATTTAATAAAATTCCTATTTTTTACAAAACAAAAAAATATACTAAATTTTATTTTAAACAAAGCAATGAAAAAAGAATTAATTTTAAATTGGGCAATAGCTCATGGAATGTATATAACTGGAACAAACTCTCCTTATGATTTTTATAAAAATTTAAAAAAACATACTCTCAAAAATATATCAAAAAAAATAAAATGTGATGTTTTATTACTTGCAGGAGAAGAAGATCATTATATTCCATTGAATCACTATCATATTTTAATGAAAAAGTTAAAATATGCAAAAAATCTTACAGGAAAAATTTTTACAAAGGCTGAAGGTGGTGAACAGCATTGTCAAGTTGGGAATCATGAAATAGCTATTGATTATATGATTGATTGGTTGGAATCTTAAATATAGTATAATATGAGTATTCTCAAAGAGAGGTGAAATATGAAAAAATCAGAATTAACAAAACAAAAAATATTAAAAGCATCAATAGAATTATTTTCAGAAAAAGGATTTGCTTCAACAAGAACACTTGAAATAGCAAAAAAAGCTGGAGTTTCTGAAGGAACTATATTTAAATATTTTGAAAAGAAAAAAGATATTTTACATGCAGTAGTATCTGAATCTATTGATGTTTTTATAAAAGAATTTGCGGTTTCAGATTTAAAAGAAACTATAAAAAATTTTTCAAAAAAAGATATAAAAATTATTTTAAAAGAAATAATAATGGAAAGATTATCTTTTTTTAACAAATATTCAAAGTATTTAAAAATAATTTTTAATGAAATTCAATATGATGAAATTTTAAAAGAAAAAGTTATAAAATCTATTTTTAATGAATTTAAAAGTAATGCAAATGAAGTTTATGGAATAGGGTTAAAACGAGGAGAATTTAAAAATATAGATTCTTATGTAGCTGTAAGATCTTTTATAGGAATGATTTTAATGCTTTTATTTCAAAAATTATATTTAAAAAGTGAAAATTTTGAAAAAGAAATAGATACTGTAATAGAAATATTTTTAAACGGGGTGAAAATATGAATTTTTTTGAAAAGTATACAAACTTTATTAAAAAACATCAAAAATTAGTTTTTATTTTTATGTTATTATTAATAATACTATCAATTTGGGGTATTTTTAAAATTAAAATAAACACTGATTTTACTTTATTTATGCCTAAACATTCATCCTATAAAAAAAGATATGATGAAATGAATAAAACTTTTGGTACATCTGAACAAATGATGTTTTTATTAGAGTATGATAAAAACTTAAGAACTATTGAAGGAATTAAAAAACTTAGAGATATACAAAATAAAATGGAAAAAATAACTGGAGTATCAATGGTTATTGGTCCCACACCAGAAAAAATACCAGTTGGTTTAACCTTAAAAGATGTTAGTAAAGTAAATAAAAAAGATTTAAATTTAATACTAAAATATATTGATAATATGGATATAATGAAAAGTTTAGTACAAAAAGATTCAAAAAATTATGCTTCATTTACAGTCATGGTAAATGAAAGTTCAAAACCATTGAATGCATTAAAAAATATTGAAAAAATGTTAGATATTGAAAAAGTCAAATATTATGTTTCAGGAGATACTTACTTACAAACAAAAGTTTTTGATTATCTTTTAAAAATTCTTTTAATAATACCTCCATTATCTATTATAATAATTTTTGCTACTTTTAAGGCTAGAATTAGATCTTTAAAAGCTACTATATTTTCAGTTTTTCCAGCTGGAATTGGTGCATTATTAACCCTTGGATTTCTTGGTTGGTTCATTGGTGAAATATCAGTAATGACTGTTCTAGTACCAATTTTCGTAATAGTATTAGGAAGTGCTGATGGACTTCATTTTATGTCACATTATATAGAATATTATAGAAATTCAAAAAATAAAGAGTTATCAATCTCTAAAACATTAAAAGCTGTTGGAGTACCAATGATAATGACAACTCTTACAACAATGATTGGTTTTTTATCAATGTTAGTTATTCAATCTGATGCAATAAAACAACTTGGTATGGCATCTAGCATTGGAGTTTTCTTAGCTGGAATTGCAACTTGGATATTTTTACCATTAATTATATTTAAAAATAAAAAAATTACTATACCAGAACCTAAAGTATCAAAAGTAACTACCTTTCTAAAAAAATTACAAGGAAAAAACTCCATAATAATAACTTTAATTTTAATTATAATTTCAATACCAGGAATATTAAAGTTACAAACTAACTTTAATATGCTAACTATGTATAAAAAAAGCACTGAGGTTAGAAAAGGTATAGATAAAATTTCTGAAGTAACTGGTGGTTCATTACCTATCTTTTTAACTTATAAAACTAATGAAGATATATTAAGTACAAATTTTTCAAATGAAATATTATTACTTGAAAAAGAACTAAAAGAAAGTGGAAATATTTTAAAAGCTGTATCCTATTATGACATTTTATCAGTAATGAATAATTTTATATATGGAAAAAAAGAATACCCTCAAAATTCATTTACTGCAAAAATATTATATAGTTTAGCATCATCTCAAAATAAATCTTTAAAAAATTTTATACTACCTTCACAAAAAACAGGAAAAATAATACTTTTTCCAAAAAATTTAAAAAGCAAAACTTTGAAAAATATAGAAACTTTAATAAACAAAAATGATGAAAAAACAACTTACACACTATCAGGAATTCCTTTAATAATGGATGAAATGAATAGAAGAATAATCCCTGATCAGCTTAGTTCTTTAATATTAGCAACCGTACTTGTATTTATAATGATTTTAATAACTCAGAAAAATTTCTTTATAGCTTTATTTTCAATAATACCAATATCAGTTACATTGTTGAGTTTATTTGGAATAATGGGATACACTGGTATTGATTTAAGTATAATAACGAGTATAATGTCAAGTTTGACTATAGGTGTTGGTATAGATTATGCTATACATTACTCTGGACTTTATAGACATTTTAAACAATTAAATGCTGAAAATCCAGCTGATGAAGCTTTTAATTATGTATCTACACCAATATTAGCAAATGCATTTGGACTTGCTTTTGGTTTTTCATCTATGATTTTTTCACCATTACAAATTCATACATACTTAGTTATTTTAATGTGGACAACAATGGTTGTAAGTTCTGTTTTAAGTTTAACCTTACTTCCAACCTTAGTAAAAAAATTAAAGTGAGCTAAGCTCACTTTAATTACTTTATATTTGCAATTTCCATATAATTTTCAACTGGAACTAATATTAAAGATGCATATTGATCAGAAGAAATTTCTATATTATCTTCTATGGAAAAAATTCTATTTTTACTATCCATAACATATAATTCCATATCTTCAAAATTATCTAATTTTTCCATAAATTTTTTTATTTCTATATTTTCGTTTTTTTCATAATTATAAGAAGATATAATTATCCTATCATCATAACAAAAAATTTTATTTGGACATATTAAACTTTCATTATTTCCTATATCTTCTTTTCCATTTACTACAACAAAATAAAATTCATTAAAACATTCTTTGTCTAAACTTTCACAAATTTTGTTGATAAATTCTACTTTTTTCATAAAATTCCCCCTTTTTACAAAAAGTTATTTAATTCACTTATATTATATACAAATAATATTTCTTTTTATTTTCGTGTATGTGAAAATAAGATTGTGATTTTTTACTCATGAAATAAAATAAGAATTAACATAAGTTAATTCTTATTTTATTCAAAAAAATCTCCAATTTTTAATTTTCTTCCATTTATTGCATCGAAAGTACTTATTGTTTTTTTACCTGGAAATTTTATTTTCCCTATTTTTATTGCACTATCAATTGTTTTTACAATTATTCCCGTTTTATCAAAACTCAATATTGTTCCTGGTTTTTCTTTACTTTCTTTGTTTAAAATTTCAGCAGAAAATAATTTAACTATTTGGTTATTAATAGTTGCTTTAACTCCAGGAATAGGATCATAGGCTCTTATTTTATTAAAAATAATTCTGCTTTCTTTATGAAAATCTAATATTAAATCATTATTTGTAATTTTCGAAGCATAAGTAGCTTTTGAATCATCTTGTTCTTGTAAGTTTATATTATTTAAATTACTTAAAAATTCCACTATCATCTTACTTGATAACTCCGCAAGTTTATCATGCACTGTTTCAAGATTATCAGAATTTTCTATACTTATTTTTTCAATCATTGCAACTGGACCTGCATCTAAAGCTTCAACAATTTTAAATATACTTATACCTGTTTCAGATTCTCCATTTTCAATCGCCCTTTGAATTGGAGCAGCACCTCTATACTTTGGAAGAATTGAAGCATGTATATTCCAACAACCCATTTTTGGAAGATCTATAACTTGTTTTTTTAATATTTTTCCATAAGCTACTGTTATTACTATATCTGGATTTAGTTCTTCTAAACTTTTAAAACCATTACCAACATTAACAGATTTAGGTTGAAATACTGGAATATTATTTTCAATAGCTAATTTTTTTACCGGAGTTGGAAGTAACTTTTTTCCTCTTCCTTTTGGTTTATCTGGTTGAGAAAAAACTCCAATTATATTATAATTATTTTCTATTAAGCTTTTTAATACTATAGTGGCAAAATCTGGAGTTCCCATAAAAACTATTCTTAAATCTTTCATAACTTTACTTCTCCTAATTCTTTTGCTTTCTTTTTTCCTTCTTTTCCCAATCTCAATAACTCTTTTTTTAACTTTGCTTTTTGTACTACAGACAATCTATCTGTAAATAAAATTCCATTTAAATGATCTGTTTCATGTTGAAATACTCTTGCTGTATATCCATGTAATTCTTCTTCAACTACATTCCCTTCCACATCTTGATAACGAACCTTTATTCCTTCTTTTCTAATTACATGAGCATAAACATTTGGTATACTCAAACAACCTTCTTCAAAATCAATATCTTCTCCTAAAAACCCAAGTATTTCTGGATTAATAACAGCTTTTTTTCCATTTTCTTCACCATCATCCATAACAAAAAATCTCAAAGATATTCCAGCTTGTGGTGCTGCAAGTCCAACACCATCCCATTTATACATTTTTTCAAAAAAATCTGTTATTATAGTTTTAAAATTTTCATCAAAAATAACAACTTCTTTAGCTTTTTTTCTTAAAATTGGATCACCTATTATTCTTATTTCAAGATTCATACTTTACCTCCAATATATCTTTTAATTCTTTCATATAATCCTTTTTTGTTAAAAAAACTGTTAATGGTGTTATTGAAACATAGTTTTCATTTACTGCTAAGTAATCTGAATTATTGTTATTATCATCTTCAACTACATTACCAAGCATCCAATAATATGTATTGCCAAATGGATCCTTTCTTGCTTCAAAGTAATCATCATAACGTCTTTTACTTTGTCTTGTTATTTTAATTCCTTTTATTTCATCATAAGATATACTTGGTACATTTATATTTAAAGTAGTAAATTCTGGTACAGTTTTAAAATCAAATTTTTCTATTATATCCAATATTATTTTTGCTGCTGTTTCATAATTTGGATTAGTAAAATCTGCACTCGATACAGCTATTGAAGGGTATCCATTCATTGCACCTTCTATTGCAGCCGATACAGTACCAGAATATAAAACATCAGTTCCAAGATTTGGACCTCTATTTATTCCACTTATTACTAAATCTATATTTATGTCTTTATGTATAGCTTCTAAACCAAGTTTAACACAATCTGCTGGAGTTCCATTAACAGCCTTACCAAATAATTTGTTATTTACCATAACATCTTTTGCCCATAAAGGATTTCTAACAGTTATAGCGTGTCCTGTTGCACTTCTTTCAACATCGGGCGCAACTACAAAAACATTATGATCTTTTTCTAAAAAACTTTTTAAAATGGAAATTCCTGGAGCCATAATTCCATCATCATTTGATATTAAAATATTCATTTAAGCACCTCCAATCATATTTTAACATCTTTCTTTTATATTGTTTTTAAATATTTTTTACTTTTAGAATTTTATAAAATATTATTTGTTAATTAATATTAAAAAACTTTAAAAACATCATTAGAAATTATGTTACTCATTTTTTACTTTTAGAACATAAGAATTAACTAATGTATATAAAAAAGTGATATAATATGATATAATAAGGCTTATATAAATTGGAGGGATAAAATGGCTGAAGAATTAATTTTTAAAAGACAAGATAAGTATCATTTTTTTACTAAAACAAAGAATGGATTTGAAATACATACAGATTCAAAAGTTGGAAATGGTTATGAACAAACTGCAGCAACTCCAATGAATCATCTTTTAGCTGGTCTAGCTGGTTGTACAGGAATAGATGTTGTAATGATACTTGAAAAAATGCATGTTGAATTAGATGACTTTCAAATAAGATTACAATATGATAGAAAGGAAACACATCCAAAAATATATACAAACATAAAGATAATATATGAATTTACTGGTAAAGACTTACCAATGGATAAATTAGAAAAAGCAGTGAATTTATCTCAAAATAAATATTGTTCAGCTTCTGCTATTTTCAAAGAAAGCGCAGAAGTAACACATGAGATAATAATCAAGGAGGCGTAGTATGGCTGGTGTTAATAACATTAATCTTGTTATAGAAAAAGCAAATGACAGATTAAAGAACGTAAAAAAAACAATAGTAGTAATGAGTGGTAAAGGTGGAGTTGGAAAATCAACAGTTGCAGTAAACTTAGCTGTTTCTCTTGCTCTTGAAGGTAGAAAAGTAGGATTATTAGATGTTGATTTACACGGTCCTGATGTTGCAAGAATGCTTGGAGGACGTGAAGAATATCCTTATCAAGTTGGAGAAGAAGTTATGCCTCCAGAAGTAAATGGGATAAAATTTATTTCCATGTCACACTTTTTAAAAGATCAAAGTAATCCTGTTGTATGGAGAGGTCCATTAAAAACAGGCGCAATAATGCAATTTGTTAGTGATATTTCATGGGGAGAATTAGATTATTTAGTAGTTGATTGTCCTCCAGGTACAGGAGATGAATCATTAACAATATTCCAAAATTTCAAAAATATTCAAGGTGCAGTCATAGTTACAACTCCTTCTGACGTTTCTCAAGACGATGTTGAAAAAGCAATTAACTTTGTAAAAATGATGAAACACGAAACATTAGGTCTTGTTGAAAATATGTCTTACTTTGTATGTGATGAATGTAAGAAAAAGCATTATATTTTTGGAAAAGGTGGAGCAAAAAAGCTTGCTGAAAAATATAACTTAGAAGTATTACAAGAAATACCATTAAATGCTTCACTTAGAGAAAATATGGATAATGGAAAACCTGCAGCATACTTTGGAACTCCTGAAATGGTTGCACCATTTACTCAACTTGCTAAAAAAATAATAGCCAAATCAGAAATATAAATAAACAAAAAAAGATGATTTTAAATCATCTTTTTTTGTTTATTTATATTGAATATTTTTACTTTTCAAACCCATAACATTATGTTATAATAAATTATTTTTTATTATGGTATAATTAATAGATATAAATACTTTATATAAATTAGGGGGTAAAAATGAAAAAGAAAATATTTATTTTATTGATTATAATTATTAGTATATTTAGTTTTTCAGGAGTTTTTGCTGATATAAATCCTCCAAAAAGTATTGGAGCAGGTTTTGAAGATGAAAATAATTATATAAAATTATCAACTGAATCAATTTCATTTTCTTATAAAAAGGAAGTTCTAAAAAGAATAGAACCTTTTTTTAGTATAAATTTAAATTTAAACAATCCATTAAAAAATAATGATATTCAGGCTGGTATTAATTTAAATTATGAACCATTCAATATTGGCATTGGTATGTGGAACTCTTTTACTGAAACTGCTTCACCAACTTATGCTGGATATGCTGGTGCAAGTATACTATTGAACTTTAAGTTTGAAAAAATTATAATTGGTAGTAACTTTACATTTAAAATGTTGAATGTTGTATTAGATGAAAATGGATTAAATTATTATTTTAAAGCTTTTCCCGAAGATTTAGCTCAAATGAGAGGATTTTCTGCTTATTTTGGATATAATTTTTTTAAAAATGAAAACCTAGATATTAGTTTTTATATGAATTTTATGGGAAATTATTCTATAATTCCTGGTGGACTTGTATTTTATAAATTAAATGATGCTTATTCATTTGATTTAAAAGTAGAAATTTGGAGGTAAAAATGAAAAAAAATAGAGAAGAAGAAAGAGAAGAAGTTGTTGATTTATTTAGTTCAGATGAATTATACAACTTAAAAGTCGATGAAGTAATAAAAATATTAAATGAAAGGGAAAAAAATTCAAAACCAATAGAAGAAGAAAAAGAAAAAATTTTTGAACATTACTATACAGAAAATCCTACATCTGAATTGACTATAAAAGAATTAACTTTTGTATTACATAATTCTCATATTTACAAATTAAAAGCTCCTTCTGGTGTTTACGGGAAAAAGAGAATTGATAGGGCCTCTGCATTGTTAATAGAAAATGTAGAAATAACTGGAAAAAAACTTTTAGATATAGGTTGTGGATATGGAGTAATAGGAATTGTTTTAAAAAAAGAAAATCCAAACATAGAAGTCTTTATGAGTGATATAAATAATAGAGCAGTTCAATTCACAAAAATAAATGCAAAAGACAATAATGCAAATGTTGAAGTAAGATCAGGATATTTATTTGAACCTTGGAAAGATGAAAAATTTGATATGATAATATCTAATCCCCCAATAGTTGCCGGTAAACATGTATGGATGAAATTAATTGAAGATGGATTCAAACATTTAAATACCGAAGGAACAATGCAACTCGTTGCATTTCATAATAAAGGTGGAAAAAGAATAAAAGAATATATGAAAAATATATTTGGAAATGTTACTGATGTTGTAAAATCTGGTGGTGCTAGAGTATATAAATCAGTAAAGGAAGATTAAAATGATTTTAAAATGTGAAAATATAAATTACAATTACGGAAAAAGAAAAGTTATAAATAATGTTTCTCTTGGTATAAAAAAAGGTCAATTTACAGGAATAGTTGGAGATAATGGCAGTGGAAAATCAACTTTAATGAAGATACTTTCCGGAATACTATTTGATTATAATGGAAAAGTTTTTTTTGAAAATGAAGAACTAAATGAAAAAAACAGAATAAAAATTGGATACATCTTTCAAAATCCCGAAAATCAAATAGTTGGAGTTACAATAGAAGAAGATGTAGCTTTTGGAATGGAAAATATGGGTGTACCAAGAAAAGAAATGATAAAAAAAATACAATGGGCTTTGAGTATTGTTGGAATGTCTGGATTTGAAAAAAGAGACCCTAACACTCTTTCAGGTGGACAAAAACAAAGACTTGCAATAGCTTCTATTCTTGCAATGGATCCAGAAGTAATATTCATGGATGAACCAACTACTATGCTTGACCCAGTTGGTAGGCTTGAAGTTTACACTGTAATAAAAAAACTTGTAGAACTGAAAAAAACAGTTGTTATAGCCTCTCATCATTCACAAGATTTAAGGGATGTAGAAAGAATCATAGCTCTGAAAAATGGAAAAATAATCTTTGATGGAAATAAAAATAACTTTTATAAAACAAATAAATTAAATATAGAAGAACCAATAGAAATAAGAACAAAAAAAATATTACATATGAATTATGAAGAGTTGGTGAATAAACTTGCCGATAGAACTTGAGAACGTTAGCTTTAGTTATGGAATAAACACACCCTTTGAAAAAAAAGCCTTAAATGAAGTTAATTTAAAAATAAATGAAGGAGAGCTATGGTTATTTATTGGACATACTGGTTCTGGAAAGAGTACACTTTTAAATACTTTAAATGGGTTAATAATTCCAAATGGAAAAGTTACTGTAGATACCCTTCAAACAAATAATAAAAATACTAATATGAAAGAACTTAGAAAAAAAGTTGGAATAATATTTCAATATCCAGAATCTCAATTTTTTTTACCAACAATAGCTGAAGAAATTCTTTATGCACCTAAAAATTTTGATGTTGATTTGAAAAAAGAAGAAATAAAATTTTATATGGATATAGTTGGATTACCTTATGATTACTTAAATAGAAGTCCTTTTAGTTTATCTGGTGGAGAAATGAGAAAAGTAGCAATAATATCTGTTTTATCATATAATCCAAAATACATCATCTTTGATGAACCAACAGTTGGACTAGATTATTCAACAAGAAAATCTGTTTTTAATACAGTAAAAAAATTAAACAATATGGGAAAGACTATAATTTTATCAACACATTGGATAAGTGAATTCTTAGAATTAAAACCATTAGTTGCAATCATGAAAAACTCAAACTTAATTTTTAAAGGAAAGTTTGATGATTTTATAAAGTTAGATCAAAACTTTCTTTCTGAAGCAGGAATAATTTTTGATGAAAAATTAGAGCTATATAAAAAAGCTTTATTAAAAAATGACAAATTAAAGGATAAAATAGCAATGTTATAATAATAAGAGTTAAAAGCCTCTGTTTTACTTTTTATAAGGCGATTAGCTCTTGTTTTTTTTTATCTTTTAATATATATTAATTTAGAAACTAAAAACTAAATTATGGAGGGAGTTCTGTGAGCACTAAAATAAAATCAAACAGTGTAAAAAAAAGAAATATTCATTTTGATTTAGAACCATTCATATTCTTAACAATATTTCTTGCAATCTTTATTCCACTTGGTAATGTAATGGGGGGAAGTAATTTATTTAAAACCCTTATGGCAACGGCTCATGATTTACTTTTAAATACTGTATTTTTTATAATGGCTGTTGCAGTCCTTACAGGGGCTCTCGGTGCACTTTTTTCAGAGTTTGGTGTAGTATACTTATTGAATAAAATATTAAAGCCACTTATGAAACCTTTGTATAAATTGCCTGGTGCAGCTTCACTTGGTATTTTAACTACTTATCTTTCAGATAATCCCGCTATCTTATCCTTATCAAAAGATAAAGAATTTATAAAATACTTTGAAAGATGGCAAGTTCCTCTCTTGTGTAACATGGGAACAGCATTTGGAATGGGATTAATTGTAACAACATTTATGATAGCTCAATCGTCTGCTCTTGGTGAAAATCTTGTTTTACCTGTACTTATTGGAAATATTGGAGCAATTGTTGGAAGTGTTATAAGCGTTAGAATCTTTTCTATGTTTACTAAAAAGTTTTATGGTGAAGAAGGAGAATTTGAAAATACAACAGTTAGCTGGAGAAAAGTTAGAGAAGGAAATGCTGGTTCAAGATTTTTAGATGCCTTACTTGAAGGTGGGAAAACAGGCGTAGACTTAGGTCTTTCAATAATACCTGGAGTTTTAATCATTTCAACATTTGTAATGATAGTAACTTATGGACCTTCTGATCCAAATATTGGATATCAAGGCTTAGCTTATGAAGGCGTACCTGTTTTACCTTGGGTTTTTGGTAAAATTTCAGGAGTTTTAGAATTTTTATTTGGATTTCATTCAGCTAAATTAATAGCCTTTCCATTAACTTCACTTGGATCAACAGGCGCAGCAATGGCTTTAATACCTTCATTCATAAAAGAAGGTATTCTAACTGGAAATGATGTAGCTGTATTTACTGCACTTGGTATGACTTGGAGTGGATATCTATCAACTCATATAGCAATGATGGATACACTTGGTGCAAGAAAATTAGCAAGCAAAGCAATACTTTCTCATACAATAGCTGGACTTTGTGCTGGTATAATAACTCATTATATGTACGTCTTATTTTTATAAAAATATGTCAAAATATTTTATTTTTTGTACGTTTTATATAAATTTTAACTCAAAAAAGCAAGAAGAAAAACTTCTTGCTTTTTTTATGATATAATTTTAATAACAAAAAACATAAGAGGAGGGGAAAAAATGAAAAAATATTTTATTATTTTCTTAGTTTTAATACTATCTTTAATTTATTTTTCTAAAGATATGAGAAAAACACTTATAGTTTATACTAAAGGTTACTCCGATTCAACTGCTCTTTTAGAATCCGCTGTTGATGAAAAAATAATAAATATGGGTAAATACAGATTAATTACAAGAGATGATATGATTTTTAAAGAAATTCAATTACAACTCCAAGGTGTTGTTGAAGGAAAAGGAGACTTAAAACAATTAAAAGCTGATGCCCTTATTTACATTGAAGTTTTAGATACCTTTTATCAACAACAAGAAAGTTATGATAAAACAAGTAAATGGTGGGAATATGAAATTACAGCAAAGTATAAATTAATAGACATTCAAACTGGACAAGTATTAGAAAATAAGTTGTATAAAGGAACTGGACAACAAAATATTACAAAATATAAAACTTCTCAAGAAGCTTTAAGAGATGCTAAATATGAAGCTATAAATGATGCTTCTTCAAGTATAATCTCAAAATTAAACACTCTATTTATATTAAGAGGAAATATATTAAATCAAGCTCCAAATGGTTATTTATTAGTTGATCTTGGAAGAAATCATGGAGTTTATAAAAATATGGTTTTTCAATTTGAAAAAAGTTACGATGTTTATGGTGATTCTTATAAAATAAAAGATGGAAAATTAATAGTTAAAGACATATTAGACAACAAAGCTTTTTTAAAACCTGTTGAACTCCCAACAAAATTTAAAATATCTGAAAAAGGGATAACTGTTGTAGAAAATCCAAGTATGAGTCCAGAAAGAATGAGATTTAATATTCATTATACAAACTTAAATACAAATTATCATGGTGGCGGAATTGATTTTGCATTAGATAATTATGAAGGATTTTATAGTAAATTCGGATTAGATTTCAATATTATTAGTAAAAATATTTTTTATTCAAACATGAATTTTGCTTTAGGTTATATGATTTATGCTGGACCAGTTGAAATTACACCAGATGTTTCTTTTGAATTTCAAGGAATGTTGTCTTCTGATGCTTCATCAATGTCATTTGACATAGTTCCAGAAGTAAATATGGGACTTGGAATTACAAATAATATTAATCTATACTTGAATAGTGGATATATTTTTAATATTTATTCAATGGAAGAAATGGGATTAAGTTTAATAAATGGATTAAGAATAAAAGGTGGTATTGAATTTAAATTTTAAAAAACAAAAATTGAAGCAGCCATTGGCTGCTTCAATTTAATTCTTTTATTAATTCTGGAATAACTTCATATAAATCCCCAACTATACCATAATCTGCAACTTTAAATATAGGTGCATACTTATCTTTATTTATTGCAATAATACATTCAGAATCTTTCATTCCAGCAATATGCTGTATCGCTCCAGAAATTCCACAAGCAATATAAATTTTTGGTCTAACTGTTTTTCCAGTTTGACCTACTTGATGACTTGAATCAATCCATTCAGAATCAACAACAGCTCTTGAAGCACCAACTACTCCATTTAATTTTTCAGCTAATTTTTCAATTAATTTAAAACCTTCTGGTTTTCCAAGTCCTCTACCACCCGCAACAACTATTTCAGCCTCTGTTATATCAAGAGTTGTTGACTTTTGTTTTATTACTTTTAAAACTTCTGTTCTTATATCCTTACAACAAATATTTGCATTTATTTTTATTATTTCACCATTATTTTCATTATTTATTTCAGCTTTTTTCATAACACCTGGTCTAACTGTTGCCATTTGAGGTCTATGCTTAGGACAAATTATTGTAGCCATTATATTTCCACCAAATGCTGGTCTTGTTTGAAGTAATTTCTTATCCTCATCAACTTCTAAAATAGTACAATCAGCAGTTAAACCTGTATCAATCTTTGCAGAAATTCTTGGAGCTAAGTCTCTTCCAATATGTGTTGCTCCTATTAAAAAAACTTCTGGCTTTTTTTCATTTATTAAATTAGATATTACTCTCGAATAACCATCTGTTGTATAATTTTTTAATAAAACATCTTCAATTAAATAAACCTTTTTCGCACCATATTTTATTAATTCATCACATAAAAACTCTACATTATCTCCAACTAAAACAGCACAAAGATTAGAATTCATTTTTTCTGAAATTTTTTTCCCTTCACCAAGAAGTTCATAAACAACAGGCATTAATTTGTTATCTCTTTGTTCTGCAAATACCCACACATCTTTATATTCTTTTATAGTTATTTCATTAATTAAAGGCATAAATTGTTCCTCCTTAAATAAAGTGTTTTTCTTTTAATTCATTTACAACATCTTTTACCATTTCTTCAATTGTTCCACTCACCATCTTACCCTCACCTTTTGGTTCAGGCGTAAATGACTTTTTTACTTGCGTTGGTGAACCTTTTAATCCAATATATCTTTCATCTATATCTATATCCTCAAAAGTTAAAACCTTTATATTGTCTTTTGCACAAACATCAACTACTCTTCCAATATGCATGTACCTTGGTTTATTTATTTGTTTTATAGTTGTTAATAAAACTGGTGAACTTACTTTTATTACTTCATAACCATCTTCTAATTCTCTTTCAACTATAAATTCATTATCCATATATTCAATATTCTTTACATAAGTTATTTGTGGAATATTTAATTTTTCTGCTATTTGAGGACCAACTTGAGCTGTATCCCCATCTATTGCCTGCCTTCCAGCAAATATAATATCAAAATAACCTAATTTTTTAATTGCTGCTGTTAAAGTTGTTGATGTTGCCCATGTATCAGCACCACCAAATTTTCTATCGCTCAAAAGAAATCCTTCATCTGCTCCCATTGCTATTGCTTCTTCAATAACCTCTTTTGCTTGTATTGGACCCATTGATAAAACAGTAACCTTTGCATTAAATTTATCTTTTAACTTTAAAGCTTCTTCAAGAGCAGCTTTATCATCATAATTCATTATACTTGGAACACCAGTTCTTATTAAAGTTCCTTTAACTGGATCTATTTTTAATTCTGTAGTATCTGGTACTTGCTTTATACAAACTAGTATATTCATACTCATCCTCCTTATTTTAAAACATTTGCTGAAATTACCATTTTTTGAACTTCAGAAGTACCTTCATAAATTTCAGTTATCTTAGCATCTCTCATCATTCTTTCAACACAATAATCTTTTGTATAACCATATCCACCATGTAATTGAACGGCTTTTGTTGTAACTTCCATAGCAACTTCCGCAGCAAACAACTTTGCCATTGCAGCTTCTACTGAATAAGATTTACCTTTTTCTTTATTATTTGCAGCTTTATAAACTAAAATTCTTGCTGCCTCTATCTTCGTCTTCATTTCTGCTATATTAAATTGAACACCTTGAAACTTAGCTATAGGTCTTCCAAATTGTTCTCTTTGCTTTATATACTTAACTGTTTCATCAAATGCTCCTTGAGCTATACCAAGAGCTTGTGCCGCAATCCCAATACGTCCACCATCAAGAGTTTGCATTGCAATTTTAAACCCTTTATTTAATGACCCGAGAAGATTATTTTTAGGTATCTTAGCATCTCTAAATATTAATTCAGCCGTTGCAGAACCTCTTATTCCCATTTTATGTTCTATTTTCCCTATTTCAAAACCAATTGTGCTTCTATCAACAATAAATGCAGATATACCTCTAGTTCCTTTTGAAGGATCTGTCATTGCAAATACAATATAAGTATCTGCTTGTCCACCATTAGTTATAAAAATTTTTGAACCATTTAAAATCCAATAATCACCATCATCAATTGCTTTTGTTTGTTGTGCCCCTGCATCCGTTCCAGCATTTGGTTCAGTTAAAGCAAAAGCTCCTAATTTTTCTCCACAAGCAAGAGGCTTTAGATATTTTTCTTTTTGTTCTTCTGTTCCAAATTTATATATAGGCCAACAAGCAAGAGAGTTATGTGCAGAACAAATAACTCCAGTAGTTGCACAATATCTAGATAATTCTTCAACCGTTATTGCATAACTAAGTTCATCTGCACCTGCCCCATTATATTTTTTTGAAATTGTCATTCCAAGTAATCCATACTTTTTTAAAAGTTCATAACTTTCTGTTGGAAATCTTCCAGTTTCATCTATTTCTGCAGCTCTAGATTTTATATCTTTTTCTGTTAATTCTCTAACCATTTGCCTTATCATTTTTTGTTGTTTTGTTAATTCAAAGTTCAATTAAAATTACCTCCTATTTGTGATTTTTTTAACTTTAATATTATAAATTGCGTGCAAAAAAACTATATCAATTTTTTGTTAAAACAAAATAAAGATTGTAAAATGATATCGTGAAATTTTTTTCATATCTAACATAAAATATTTTATATCTAAAAAATAAAAAAGATATGAAAAATTTTTCATATCTTTTTAAGAACTTATTATTTAATAATAACATAACTTTATACTTTTTATTAATTTAATTCATAATCAAATTTTTTCATTTCAAGTGGTACATTTCTTACTTTTGATAAAGAATTGTTCTTTAAAAATTTTATTATTGACCTTAAAATATAAATGTTTATTGGAGTACCAATTAAAAGTATAAAAATTATATCACTCTTAAAAATAGTTACATCTTCAATTGATGTATCATCTGATATAAATTCGCTAATAATTACCACAAGATTAACAAAAAAACGGATTAACATTGATAATTTAAGTCTCTATGTATTAACAATATTATTTTCATAATCTCTACGAATTAATAGCTAAAAAATTAATGGCTAAAATAGTTAGCAATTGAAGTAAAATTATGTTTAAAAACTGTAAGAAAATTACAAAATAAATATTTTTTGTTCTTTTTAAACTGTAATACATAAATATTGAAATTAAATAACTAATAATAAAATCTAAGAGTATGATTGGATCATTTAAATCTTTATCTGATAAATAAGGATAAAAAAGTTTTTGTGAATAAAAAAAACCATAAATTGTGTCTATAAGTGCTTGAGCTGTGTAAACAAAAAAATCTTTATTATATACTTTGCTTAAACTTTTAGGAATAACGATTCTAAAGGTTAATTCTTCTGACACTGAAAGTAATATTAATAAAATAACGAAACTGCCTTTGAAATAATTTAATAAAGAGTTTTCATTTTGAAATTTTTTTAAATAAACTATCAATGTAATAGTTATTAATGAAAGGAAAATATACATACAAACTCTAATTAATTTATTCCCTTTATTAAAAAGTTTAAAAGATGAAAAATTAAAATATTCTTTTAAACTATTATAATTAAAAACTATGTATACAATATCAAAAATTAAATAAAGCAAATAAAATGATTTTGGTGAGACCATAAAAAAATTTGTGTAAATAAAAAAATAAAACCTTCTTCTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTTTTAAAATGGCAAGAAGAAAAAAAGAAGAAAAAGAAGAAAGCAACATTGAAAAATTAGCAAGATTAATAGCAAGGGATCCAGAGGTAAACACAATAAAAGATGTATATGAAAAGATAAAAGAATTAGTGGGACCGTTAATACAAGGGATGTTAGAAGCAGAATTAGAAGATGAATTAGGTTATGGGAAATATGATAAAGAAAACAAGAAAACAGATAATTCTAGAAATGGGTACAGTTCAAAAAGAGTAAGAACAAGTGTTGGAGAAATGGAATTAAAAATACCTAGAGATAGAAAAGGTGAATATGAGCCATAGTACCAAAGTATAAAAAAGATATCTCAGATATTGAAAATAATAGGTATGTACGGTTTAGGATTAAGTACAAAAGATATGAACGTAGAGGACATATATGGTGTAGAATTATCAACAGAAATGATAAGTAAAATAACTAATAAAATATTACATGAAATTAGAAAATGACAAAGCAGGCCAAGAAATATACACTTTTATGTTTATGGATGGAATAGTGTTTAAAGTAAAAGATGATGGAGAAATAATAAAAAAGACTGCATATGTAGTACTTGGTGTAAATATAGATGGATTTAAAGAAGTACTTGGTATATATAGGTGGGGAATGTCAAGTAAAATGTGTAAACAGTAAATTAAAAATCAGAAAAGTTACGAAAACGAGACTGAAATCTGGGATCAATATCAAGTTGATTTCTAACAAGAGCCCAGTTAGGAACAGGTCTAGAATTCCATTTAGAATAAAGTTCATTAATACGTAAAAAAATCAATTTAAAGAGAGCCTTTTCATTAGGGAATGCACCTTTTTTTACAACTTTTCTAAAAGAAGAGTTAACAGACTCAATAGGATTAGTAGTATACATAATTTTTCTAACAGCACTGCCAAAATCAAATAATTGTTCAACAAAGTGGAAATTTCTCTCCCAAACAGAAACAGCTCCAGGATATTGAGACCAAGCAACTTTAAAAAGTTCAAATTCTGATTGAGCAGTTTTAAGATTAGGAGCAGTATAAAATTTTTTAATACTAGAGGTAAAAGATTTATAGAATTTAGATGGAATATACTTTAAAGAATTACGAATAAGATGAACAATACATCTTTGAACAATAACATTAGGAAAAATAGATTTGGCGCCATCTTCGAGACCAGAAACGCCATCCATAGAAATAAAGAAAATATCTTCAACACCTCTAGCCTTTAATTCATCAAAAATTTGCATCCATTTGTGTTTACTTTCAGATTCATTAAGCCAAATACCTAAAATATCTTTAATGCCATTAGCATCATAAGCTAAAGCAGTATATAAAGCATAATTTTTAACTTCATAATCTTTTCTAATAGTAACATACATACAATCAACAAAAACAAAAGTATAAAGTTTTTTTAAAGGTCTATTTTGCCGAGAGTGTAAAATATTAAGTGTATAAGGAAAAAAAGATACAGATCTGGTGGTAAAATAAAACCAGAGGAGGTACGAAAAATGGGAAATGTACTACAGGAAATAATAAAGAAAATGGTAAGAAAAGGAGAAATCCGAACAATAAAGGATATAAAGGAGTTAACAAAATCACTGACAGGAAATCTGATCCAAGAAGTACTGGAAGCAGAACTCGAAGACGAGCTGGGCTATGGCAAGTATGACAGAGAAAAGAAAAATACAGAAAATTCAAGAAATGGCTACAAGAAGAAGAATTTAAAGAGTAGTAGCGGTATGATAGAGTTAAAGGTACCTCGAGACAGGAAGGGAGAATATGAACCCAAAATAGTTCCAAAGTATTCGAATGATATTTCAGAGATAGAGGAAAAAATAATAAGTTTGTACGCAAGAGGAATGACCACCAGGGATATATCTGATCAGATAATGGATTTGTACGGATTTGAAGTATCAGCTGAACTGGTGAGCAAGATAACAAATAAGCTTATGCCAGTAATAAAAGACTGGCAGGAAAGGCCATTACACGAAATATACACCTTCGTTTTCTTGGATGCAATATACTTCAACGTTAGAGAAGACGGAAGGATAGGAAAGAAGGCTGCTTATGTAATAATAGGTGTTGACATAGACGGAATTAAAGATGTGCTCGGGATATATGTTGGTGAAGTAGAAAGTGCCAAGTTTTGGATGGGAGTACTTAACAACCTCAAAAACAGAGGAGTTAAGGACATACTTGTAGCTTCAATAGAGGGTCTTTCTGGATTTGAGCAGGCTATAAATGCAACCTTCCCGCAAACTATGATACAAAGGTGCATAATCCACCAGATTAGAAACACCCTGAAATATGTTCCTCACAAGGATAGGAAAGAGTTCGCAAAGGATTTAAAGACAATCTATACAGCACTGGATGAAAAGACAGGCTATGATAATCTAACCAATGTAATAAACAAATGGGGAGACAAGTATTACGCTTCATTGAGGAGCTGGGAGAAAAATTGGCACCTATTATCCACCTTCTTTCAGTTCTCAGACGGGGTAAGGAAGATTATGTACACCACGAACATCATAGAGTCACTTAACAGGCAATTCAGGAAGGCTACCAAGACCAAATCAATATTCCCTAATGACGATGCTGTCCTTAAAAGTTTATACCTTACTACCAAAAACGTGACAAAAAAATGGACAGCACGTTATAGAAACTGGAGCAATGTCCTAAACGAATTATCCATCTTTTTTAATGAAAGAATTACAAAATATATCTATAATTCCTAACATAAATATACTTTGTAACTTAACAAAAAATACCTATAACACACAAAAATGAATATTAAATATTATAATGCTATACCTTGCAATAAAAAGTTGCAAAAGGCTATTTATTACAAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCATATTTCTTTATAGTCGATAATTCTTAGAGACCATAAAAAAATTTGTGTAAATAAAAAAATGAAAAACCTTCTTCTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTTTTAAAATGGCAAGAAGAAAAAAAGAAGAAAAAGAAGAAAGCAACATTGAAAAATTAGCAAGATTAATAGCAAGGGATCCAGAGGTAAACACAATAAAAGATGTATATGAAAAGATAAAAGAATTAGTGGGACCGTTAATACAAGGGATGTTAGAAGCAGAATTAGAAGATGAATTAGGTTATGGGAAATATGATAAAGAAAACAAGAAAACAGATAATTCTAGAAATGGGTACAGTTCAAAAAGAGTAAGAACAAGTGTTGGAGAAATGGAATTAAAAATACCTAGAGATAGAAAAGGTGAATATGAGCCATAGTACCAAAGTATAAAAAAGATATCTCAGATATTGAAGGTAGAATAATAGGTATGTACGGTTTAGGATTAAGCACAAAAGATATAGTAAAGAACGTAGAGGACATATATGGTGTAGAATTATCAGCGGAAATGATAAGTAAAATAACTAATAAAATATTACCTGAAATCAGAGAATGGCAAAGCAGACCTTTAGAAGAAATATATACTTTTATGTTTATGGATGGAATAGTGTTTAAAGTAAAAGATGATGGTGAAATAATAAAAAAGACTGCATATGTTGTACTTGGTGTAAATATAGATGGATTTAAAGAAGTACTTGGTATATATATAGGTGAAATAGAATCATCAAAATTTTGGTTAAGAGTATTAAATGATTTAAAAAATAGAGGAATAAAAGATATATTAATAGCTTCTGTAGATGGATTAACAGGTTTCCCACAAGCAATAAAAACTGCTTTCCCAGATACTATAGTACAAAGATGTATAATACATCAAATAAGAAATACATTAAAATATGTTAGTTACAAAGATAGAAAAGAACTTGTTAATGATTTAAAAAAAGTATATAAAGCACCAAATAAAGATATTGCTTATTCAAACTTACAAGATTTGAAAGAAAACAAATGGACAAAATACAAATTAGCATTAGAAAGTTGGGAAAAACATTGGGAAACAATATCCCCTTATTTTGATTATGGCGATGATGTAAGAAAAATAATGTACACAACAAATGTAATAGAATCATTAAATAGACAATATAGAAAAGCAACAAAAAATAAAACATCATTTCCAAATGACGATGCATTATTGAAAATGCTTTATTTAGCAACAATAAATGCAACAAAAAGATGGACAGCTCGTTATAGAAATTGGAGCAATGTCCTAAACGAATTATCCATCTTTTTTAATGAAAGAATTACAAAATATATCTATAATTCCTAACATAAATATACTTTGTAACATAACAAAAAATACCTATAACACACAAAAATGAATATTAAATATTATAATGCTATACCTTGCAATAAAAAGTTGCAAAAGGCTATTTATTACAAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCATATTTCTTTATAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAGAGCCGTTTACACAAAATTTTTTATGCTACCAATTTTTCCTGAAACGTGGTTTTATTCAGCGTTTTATTTTTTTGGCCCATTTTTCAATTGTAATTTGGCTTATTCTTCACTTGCAAAATACACATATCAAAATAAAATGAAGCTTTCGCCTCATTTTATTAATTTCAGTAATTTTTCTTCATTTTTTTGTTAAACCCACTATCCTATTTTTATTTATTTTTTAGAATTAAATAAACTTTCAATTTCTTCTGGACTCATAACATTATTTTCTTTTCTATACTCTTCTAATAATTCTAATACACCTTTTTTATTTTTTGTATTTTGTTTATTTTCAGATTTATTATTAGGTTTATTCATGGAAAATATTTTCATAGATTCTGATGGTTTTAAAAGTTTAATATTAGTATTTTTTTGAAATTCATTTAAACTTTCTTCACTTATAAAAGTTTCATTATCTTTAAAAACTGTTTTTAATTTATCTTCTGAAACCCATTTTAAAACCATATAACTCGATACACCTGTAATTTTTGCTACTTCATCAACTGTATATAATTTCATTTTTTTCCTCCCTTTTTTAAGCTTCTTCACTTTGGATTTGTATATTCTTTACATTTCCTAATATATTAAAAATTAAGAAAAATAAGAGATTGATTGTACCGAAAATTAGTAATCCATAACTTATATTTATTTTATCAAAAACTATTGAATAAAGTAAAATACTACCTGTAGTTAAAATTTTTTGTAATAAATTTCTTACTGAAAAGACTCTTCCTAAAAATTCATTTTCTGTATTTTTTTGAATAAATACATTTATTGGAATATTTCTTAAAACAATAGCAAAACCAAATATTGAAGTAACAATACAAACTATTGGAAAAATAATAAAATTATACTTTGATACATTAAATGATGTTAAAAATGCTAATACAAAAAAAGATAAAGTTTGAATTAATATACTGTTTTTTACTGAATTTGAGTTTTTTATTTTTTTTACTATAATACTACCTGTTAAGGTTCCAACAGCTAACAAAGAAGATACCAACCCAAAATATTTTAAATCCATTTTTAAAGTATCTTTAATTAATATAGGATAAACTATAGTAAATAATGGTCTTAATAATATAATAAAAGTAGTAACTAAAAACACATAATATCTAATAGATTTATTATTATTCACATACTTTAATCCTTCAAAATAATCATTAAAAATATTTTTTATTTTTAATTTCTTTTGTGCATTTAAGTGTTTATATTTTATAAACATTTCTATTATAGCAGAAGCTATAAAGGATATTCCATTGAATAAAAATATGTATTTAATCCCTATTGTTGCATATAAAAAACCTCCAATTGCTGGAGAAATAATTACATTTATACTGAATAAGGTAACCATTGAAGATGTTGCTTTTAATAAATAATCTTTACTTACTATATTAGGAAGCATAGCAGATGTTGACACACTATATATATTCCCAAATATTCCTAATAATGTTGCAAAAGCTGTATAAGTATATATATTTATATTATTTTTTGAAATTAAAAATCCAAGAATTAAAAATATAGAACCATTTAAAATATCCAAAATAACCATTAGTTTTTTTCTATTAAACTTATCACTAATTACTCCGGATATTGGAAGAAAAATAATATTTATTACGGATAGGTATAAAAAGAATAATCCCATCTTTTTTACGGAACCAGTTAAAGATAAAATAAATAATGAAACTATGGCAGATTGCATTCCATCTCCAAAAAGAGATATAAATCTTCCAACTGTATAAAGTAAAAAGTTTTTTTTGTCGCTCATTTTTTATTGACTCTCCCTCTATAAAATATGATTAAATCAATTTTTTAGAATAATCCAAAGAAATTAAAAAAAGTAAAAAAATACAAAAAAGAATAAAAAAGAGCCATTAAGTATTCAAATTATAGAATATTTTTAAATTGATAAACTCCAGATATGGTATTACTTACCATCAATTATATTAATATTAGGTCTAAATATGAACCATACTTCGACAAGCTCAGTAACCACTTAAATCTCAGGTGGCGTACCCTCCCATATCTCGCTGGCTCTTGGCCAAAATTCCTTCGTTCTGCCTATCCTTGAGGTGGTTTGTCGGCTCTGCTCCTTTGCTGGGTCGTACCCTTATGGATAAATTTATGCCGACTTGACTCACTTTTAATTTCTAATTTATTTTTACCTATTTTATTTTTAGGCTGCTAAGAAACTTTGTCTTTTAGGTCCTTTTATATCCTTTAATAATTTCTCTGGATCGTACTCCTTTTTTTTCGTCATTAATGTGTATATTATTCTTATTAACTTTCCCATTAACGCTACTAATGATTGTTTCTTTTTCAATGGATTTGTTTTTCTCGTTGTATAATATCTATGCAATAACTTAAATTCCTTGTTCTGTGCTACTAATGGTAGAATGCTTTTAAATAAAAGACTTCTGAGCCTTTTTCTTCCTCTTTTGCTTATCTTTGTTTCTCCTTTGTGTTTTCCTGAACTATTTTCTCTTAGATTCAGTCCTGCTAATTTTATTATTTGTTTTGCATGGTCAAATCTTTTTATTTCTCCTACTTCTGCTATGAATCCAGATATTGTTATTATTCCTATACCTTTTATACTTAAAGCTTTTTCTACTCCAGATATTTTGTATACTTTTCTTTTTAGTTTTTCTTCTAGCTCTGCTTTTTCTTCTTCTAACATTTTATATTCTTGTATTAGCTTTTTTATCTCATACTTTGCCATTTCAAGTCCATTGGTTAATCCAGTTGTTTCTTTTGCTGCTTCTATTAAACTTTTTGCTCTTTTTATCCCTACCGCTCTTTTTATTTCTTTTTGCCATATTTCTACTATTTCTTCAGCGCTTAATTTTATTATTTCTATCGGTATACTAAGTTCTTCCAGCGTTATTATTGATGCTTTTCCATATATTCCTTTAAATACTGTTTTATATTCTGGAAAATATATTGCCACCCATCTTTGTATCCTGTTTTTTACTACTAATAGTTTTTTGTTTATTGTTTCTCTTATATCATATGCTTTTCTTATCTCTGCATATATTCCTTCTGGCATATATGGTATCGCATATCTTCCATCTTTCACTAACATTGCTATTGTTTTTGGATCCTTTCGGTCGCTTTTACTTGGCGTATTATCATCCAGTTCCTTTGCTCTTTTTACATGGTATGGGTTTACTTGTACTAATTTCATTCCTCTTTTATTTACATAATTCGCTAGGGTATACCAGTAGTGTCCTGTTGGTTCTATCCCTATTATTATTTTCTCTCTTCCTGTTATTTCGGCTATTTCTTTTATTTGTTTTTTAAACGCTTCAAATCCGTCTCTATTTGATTTGAACTTTATTACTTTTCCGTATTCTATCCCTCTATTGTCAAATGTCCTTGCATAATGCGTTTCTTTTGCTATGTCTACTCCTACTACTAATGTTTTTTCATCCACTTGCTTTATTTTTTCATTTTGTGTATAATTCATTTGAGGTTCCTCCCTTTTTGTAAAATATTTGTAGTTTTGTCTCTACATTTTATATTTTACGGGGAGGTTCCTTTTTTTTCAACTCCTATTTTTTTTACTTACAGGAATGCTCCTTTCAGTATATTAGTTAATAGATCAACTTAAACTTTCAAAAAACAGATTAAGTCTTTCTTTAATATTATATTTAAAAGTAAAACAATCATTAGAATTGTTTTTCATTTTTTCAGAAGGGCATCCTCCTCGGCAAAGGGGTAATAAGTTACATTCTTTACATTTACTATCTAAAAAATAATCATACGCTAACCATTTAGCATTTTTATCAAAATCAATACCTTTTATTATATTACCAATAGAATCTTCTTTTTTTCCTATTTGCATTGGACATTTATATAAATCTCCAGCAGGATCTATAATATAAAAATTATTATTCATTCCAGTACAGTATCCATTTCCTTCTAATAAAGATGTTGCTAATTTAAACTTTCTTTTCATAATCTTTCTCATCAAATTAATCTCTAAATCAGAAACTTCTGTTGTTTTATAACACAATTGTTCATTAATAGGGTTTGGATCTTTAATAATACTAAAATATATGAATATCTTATCTTTTAAACCTTCTTCTTCTAAATAATCTAGAAGGTTATCAAAATAATTAACATTATTTTTATCTAAATTAACTCTAACAATAACATTAATAATATCATTTATTTCTTTAATATTTTGAATTATTTTATCAAAACTACCTTTTCCATTTATATGCGGTCTATTTTTATCATGAATTTTCTTAGTTCCATCTAATGTTATTTGTGCTTTTTTAACATGATACTTAGCTAATTTTTTTGCTACTTCTTTATTTAATAAATACCCATTAGAAATAATGGAGGCTTCAAAGGTTATATCTTTAGATATATTAGATAATATATTTTCAGAAATTTGTTCAATAGCTTTTATATTTAATAATGGTTCTCCACCATACCAATCAATTTTTATTTTATTCAATGTTTTTGATTTAGATAATATAAAATCAGAAATAGAATTTTGAATATTTTCAGTCATAAATGAATTATTTAATCCTTTTTCATAACAATACCAACAATCAAAGTTACATGAAAAAGTAGTTGCTATTACTAAAGATAAATTATCTGTAGAATATCTTTCTAATTTATCGAGAGCCTTTATTCTATTAATTTCATTAATAGAATTTTCAATGACCATCTCTTGTTTAATTAATCCATTTAGTAATTCAATATTATCTGTAGTTCCAGTTAGTTTTATATTATTAAAATCATTAATAAATCTATTTTCTATTAAAACTATACCTCTATTCAATGAATTAAATATTAATAAATCATTTTCAATTTCTTTTGTAATATTAAACATAGATAATTTATATTTTTTCATACTTACTCCTTTATTATTTTTTTAAAACAAAGCCGGCTTTTGTTTTTTTTACCTTTATTATGAAAAATATTTTGTGAAAATAATCTTCAATATTTTTAAAGTAATATTTTTAAGTTGTTCTACTTATATTTTTAATATTACAAGAAAAAACTTTATATGTAATCAATATATCTTTGTGTTTGTTTTTTGTAAATTAACACAAATATTATAGCAAAAAAAAAAAAAAAAAATCAACTATTTTTAGTATACTAATTAATATTTTTACCTAAATATAATGTTTTTTGATTAATTTATATCATTTATTTTATTTTTTTATGTTATTAAATTTATATTAACTATTAATATTTGTGAATTTGAATTTTATATTTTTTATAATGTTATTATTAATTATTTTCATGATAAAAATTTATGAAACTTTATTAAATATTAATTTTTTATAAATATTTTAATTTAACTTTTCATTATTAATGAAATATTAATATCAAAAATTTCGGTGTTTTATTTTTTCACTATTTTCCATCGTTACTTTTACACTTTTTATGGATAGTATTTTTAAAAGTTATGAGTTTTTTTATAAAAAAATATCCCAGCAATGCTGGGATTATATTTTTTCTATTTTGTATTCGTCTATGTTTCTTTTTTCTGAGTTTATGTTTATTCCTATTATATAAATTTCTTTCCCTTTGTACTTTTCATAGTACTTCATTTCTTTTATTTGATTTAAGGCTTTTTCTGCACTTTTGTCTATCTTTATTTCCATTATGTATATAGTGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTCAGTCCCGCTGATGCAAGTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTATGCAAGTTGTATGGTATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCATATATTCTTTCATATATTGTGGTTTCTATTTGTTCTATTTCTCTTATTCCATAGTTTGCTTCTAATATTATCTTTGAAAAGCTGTTCTTTACTTCTATATTTGGATAGTCTAATATGTACTTTTCCCTCAATCCTAATCTTTTTATTCCTTTAAAGGTCAAGTATCCTGCTTGTGTAAAGAATATACTTGCATTTGCTTCTTCTATTTCTCGGGTTGAAAAATCGAGTTCGCTCACTGGATACTTCACTAAGTCTTCATATCTTATCTTCTTCCCTTTTATGTATTCGTACAAAAATGATGGTGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTCATTAAAAAACCTTAATATTGAAAATGGATTGTATACAGAACTTTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTCCATCTTCATCTCAACCGCTGTTTCTTTTATATGCTCTTTAAAGTTACTTTCTAACTCTTCTTGTGTGTATCCCAACATCTGTGCATATTTTTTATTCAACGATATATCATTTAAGTTGTTCAATGCAGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCATCTTTTGATTTTATTTTTTTATAGAACTCTCTTAAAAATCTTCTTACTTTTTCTGCTTCTTCTTTGTTATTCATATGTTCTAATATTGGTGATTCATATTCATCTACTAGTATTACCGTTCTTTCTTCATACTTTTGGCTTAATTTCTTTATTAAATTTCCAAACATTGTTGGTAAATCATCTGTTGTTGGTTTCAAACTTTCTTCTTTATATAATTCGTTTATTTTATTATACAATGATTTTATAAATTCTTCATATGTTGTTAATGTATTATCTGACATATCTATTTTTATTACTGGATACTCTTTAAACTCCCATTTATCATATATGTATGTTCCTTTAAATAAATCTTTCTTTCCTTTAAATAGATAGTACAGTGTTGATACTGTTAAACTCTTACCAAATCTTCTTGGGCGTGATAAAAAGATTGGTGCTTCTGAACTTATTAAATCTAATATATACTTTGTTTTATCTATATATGTATAATTTCCTTCTTTTATTTTTTTATAGTCTTGTACTCCTATTGGTAGCTTTTTCATTTTTATCACCTCTAATTTTTATTATACCATATGTATTTTTTTAAATTGATTTTTTTTATATAAAAAATATCCCAGCACTCGCTGGGATTATATTTTTTGAATACATATTTCATTTGTCTATATTCACACACTAATATTACTATCTTTTTTATTATTTCATTACTTTTTTTCATAGTAAGTATCTATCAGTGTTTTTACCAATAAATTGTATTTAACAACATTTAAAATATAATTCAATTTTGTACTTTCTATATTTCTTTCATTCAAAATTTTTTCTAAATCTGTCTTTTTTTCTTTATTTTTTTCATATTCTAATTCAGATATTTTTATGTCTAAATTTATTATGTATAAATTATTTTCTGTTGCTTCTATTTGGTTGAGAAGTTTATTGTAATCATCTCGTACTTTAGCTAAAATTTCACCTAAAGTTTTTTCATTTTCTTCTTTTTTTTGTTCTTTTATAACTGGATTTATTGTACTGGAAATGTTATAATGTCCATTTGAATAATTACCATTTCCTGAAAAGTTTATAAAAGGTACATCATAATTATAATCCATCATAAATGATAGAGAATAATTATTTGTTTTAAAATCATAATTTGCTCCTAAGTTAAAGTTTATTTCATTGTTATTTGTTAATATTTTACTATATTTATTTTGTTCTTTTTCTTTCTTTGCTATTAAGTACTCATAGTTCTCTTTAAAGTCTTTTAATTTGTAACTATTCAATAATTCATTTAATTTTTTCATTTCATAATATTCTTTTGGATATGTAAAAGTAACATCCTGCATCTTATTTAAAATTAAAAATATGAAACCATTCAAATTTTGATTATCAAAAGATTCTTTTAAATCATTTTTTTGAATTTGTGTACTTATTTTTTCTCTTTCTAATTTTAGTTTTTCTATTTCATTTTGTGGTAGTGTTATCTTTAATAATTCATCATAATACTTATTTAATAACTTTAAGTTTTCTTGCATCTGATACCTATTAAAAAACTCATATCTCAAGGATATGTATTTATTAAAATACTTATTTTCATCTAATAATTCTTCTATTCTATTAACAACTTCATTTATCTTCATTTCTGCTATATTCTTACCACTTGAAAAAATATTCCAATTCAAATTGATTTGTGATGTAGTAAAATCAAGTTTACTAAAATCTCCATCTATTCCAAAATTATACGAAACATTTTGAAAAAACATTTTATACTTGTTCAATATGTCTTCAGTCTTTTTAACTTCTTTTAGATACATAGACTTAATTGCTTTGTCAAATTTTTCATAATTTAAATTTTCTCCAAATATAATACTATTCAAAAAAATAAACAAGACTATTATTATTCGTATTTTACTCATTAAAGTTCTCCCTTTTTAAATTTCTAATTTTCATAAAGAATTTTTATGCTTTCTTTAGTTTTTATGTATATAAATATTTTTCCATTAATCTTTTTTACTTTAAGCTCAGGAATATAAAAATATTTTTGTTTCATTACACTAAAATCATAAATTATGTTAAAATTCTTATCCATTTTTAATATTTTCAAATCCTTACGATTTGAATCCTCACTATCATAATTTTCATATAATATATAAAAATTATCATCTATCATATCAATATCATATGTAGCTGTATACTTATAATTATCCAATATTTTAATAGTTCCTTTCTCTACATCTAATATTTTCAAAAGTCTTTCTTTGTTGTCCCAAATAACTTTATATAATTTATTTGAATTACTTTTTAAAATTATATCCGATGAATATTTACATTTTTCTTTTTTTTCATAAATAGTTTTATAATCTCCATAAAAATTATTTCCAATTATTTTATAATAATAAACCGTCTTTTGATTAAATTCTATCAATCCATCTTTTGTTTTTTCAATATACACAACATCTGTATGAAGATCATTTGTTATAGGTGGATTAAAATAAATTTCAGACCTTTTTTTCTTTTTGACAATATCATATGCCCAATCATCTACTGAGGTTCCAGGAAATTCATAAAACTTTTCTAACTTATCATTATTTAATATTGCTATACCATCTAAAGATTTAACTATAACCTTATCATTTGGTAGAACCCTTAAATATACAACAGTAACACCACCACTATAATAATCAGGTATTATTTCATTTTCTATCTTTATATACTCTTTTTTTTCAGGTAAGAACTTTAAAATACTTGGTTCACTATACAGCCCTAAATAAATTTCACCTTTGCTATTTACATCAAATTTACATGAAATAAAATCTACATCTTTTCTTTTAATAACCTTTTTTTTATTTATTCTTAAATTAAATTTGTATTCTTTATCTATTTTATTATTAAGAGATATGGATTCATATTTAACAAATTCTCCTTGTGTAATTATAGTAATTATTGAAATAATAAAAAATACTAAAATTTTTTTCATCTAATTTCTCACCTCTTTTTTTATATTAATATGATTCAACATAAAGGCGCTTTATTATAAAGCACCTTCATTATTTACCATCCTTTCTTATAATAAATTTTAACATATTTATTTGTTCTCGTTGGTTTCTCAACAGAAATACTATAACTCTTTTCGTGGTAAGGACCTTTTAAAAAGTATTTTGCTCTATACACACTTTCTAACATACAATCAAGTCCACCATATCCAAAATCCATATAAGTGAATGATTTACCAGTATCTATTATTTTCTTTTATTTATTTTAAATTATCTAAAATAAAATCTGAATTTCCAAGCATTAAAATTCCTAAATATATCCTATAAATTTCAGAATATGTACTATAATATTCATTAATTAATTTTATATATTCAGAAAAATTTTTAATAGTATTTAATTCTTGGATATTAATTACTTCATTATAATTTTTTAATTTTGTGAGTAAAATATTTAGTCTTTGAAAATATGAATAATAATCTTTTATTTTTTCATTTAAAACATTATTCAACTTATTTGAGTTTAATAAAAATTTATTTGCATAATCTATAAAAAAAATATTTGCTGAGATTTTATTTGGATAAATAGAAATATGATTTTTTAAGGATATTCCAAATATTTCAAAAGATTTTTCAAAATTCAAAGAGCATGAAAAATTTTTATTAAATGTGTTCTCAGAATCCCAGGAATTATTATAATTATAATTCAAATCAAAATATACAGAAAAATCTTCTTTATTATTTTTAAGTTTAATTATTTCTTCATTATTTTTATTATAAGAATAATCTGGATTATTAATGATATTTTTTTTTATGTAATTAAGATTTGAACTATTTTTTATAAAACTATCTTTTAAAATATGATAACCAAATAAATTCTTAATATTGTTATATTTTTCTCTTTTTATTTTTTTGCAATAATATTCATTTTCAAGTATTTCGTTTTTTAATCTAACATAAAATATTTTATTCTTGTTTAAGAGATTATTCTTATTTATAAAGTTTAATACTCTTTTTAATTCTTCGTTTATATTTTTTGTTTTTAAATATTCAAGATAATCTAAAAAATAATTAAAAATATAATTCATTTTTCTTGCTTCAATATTAGCTAAAGATATATTTTTTTCGTAATTAAAAATTTCTTTTTTTAAATACTGTTGATAATCGAAAAGATTAATTTTTATACCAGAATTTAAATTTATTGAATATGTGCCATCATATGGATAATCAAAATATGTAGAAAAATTTAAATTTTCATAATTTTTTGTCTTTTTTTTTGCAAAAGTTGTTGAAAATTTATCATTACTTTGAAAATAATTCAGAAAATATTCTTTAAAAAAAGAAACTGTATTAGAAAACATACTAATAGACAAAAGGACTAAAAAAATAATAATTGATTTTTTCATAAAACCCTCCAATAATTCTGTATTTATATTTTGTTTTTCAAACTACAAAATAGGGATAACTCCCTATTTTATAGTTTTAATTTAATTGTATAAAGAATATAACTTTCTTTGTTAAATAAATATATATATTCATTATCAGAACTTAATATTAAATTGTTTAAATCACTTAATTTTTTATCAATAATTTTTTCTATCGGAATTATCTTTAATACTTTTGAAAAACCATTCTCATCTACTTTTGTACTTATAATATAGAAATTTTCTTCATTCATAACTACTATATATTCTTTTGATTTTATAACTTTTACTTCATCATCAATATAATTGCTATATAATTTTTTTTGTTTAATTTTTATAGGTAATTCAAAACAATTTCCAGTATCATATTTCTTATTGATGAAAGTTCTTTTATTTAAATCCATATCAAATTTTGATATACTTAGGCGTTTCAAAAACTCATCATAATTTATTACAAATACATTATTTTTTATAACTAAAATTTTTTTTACACCAAAACCAGTTGAAATATTTTTTATAAAACCTGAATTAGTATTATAATGTGATAGGATCATATCTAAATTTTTATTAGGACTAATAAAAAATATATCTTTTTTATCTTTAGTTGTATCTAAAGATACGTAATAATCAAGAATTTGCTCTTTATTTTCTAATTCAAACTCTTTTATTTCATGTGTTTTTGTGTCTAAACTATATAATTTTTCACCAATACTTATTATATAAATTTTATCATCAATTATTTTAAAAATTTCTGTATAGTAAGGTTTTTTTAAGTAGTCATATTTTATTATTGAAATATCTACTTTTTTAGAATATTTTAAAAATTCTTTTGTAAGTCCATTATAAATATTATAAGATTTTATTATCAATGGATTAATTTTTTCTATTGAATAAATATTTCCATCAATAACTCCTGCATATTTATTCAAATCAACTTTTGATGAATCTATATAAAATTTATTTACTAAAACCAAATTCTGTGAAAAAATGACAATGTTATAAAATATTATTAATCCAAATAAAAGTTTTTTCATTTTATCTCCTCTAATAACTAATCTTTATATATTTAGCTCTATATACATCTAAAATATTTATTTTAGTTCCCTTTCGATTATCTTCACTATCAGGCACTCCATCTTTGTAAATTATCTTTTTAGAATAGGCGCTCCATTCAATTTTTTCTTTATATTTAACAATAAATCCTTGATGACGTGGTGGGATTTTTGCTACAAAACTTCCAATATAACTTTTAGTTTTATGGTGAGTATATCCTCCACTGGCCTTCCAAAAATCAAGGAACTCAGCTTCTCCTGAAACTGTAAATTCATTGGTAGTAGATTCATTGACTTCAAATGAATAATCCAAAAAATTTTTATAATCCATATTATCTACTGCTGCAGAAACAATTTTTTCTGGTCCTTTATAAATTATTTTTGCACTTCCAGCAGTAACTCCATGAAAATACCTTGTTTCTATTTTTGGTTTTGGTTTAGAAGGTTTTTTTGGACTCACCCCCCCAACAACGGCAGACATTTGTGAATCTGACATGCTATTTACTGATACATTCTTTGTTGCAAAGGCGTTCATTGGCATCATGGTCAATATAAAGGTGAATAATATTAACCATGATATTCCTCTTTTTGTTTTTTTCACTTTTTTCTCCTCCTCATTTGTATTTTTAATAGCATAGCTATTATGATCACTAAAAATAATATAGTTATAATATGTTGTTTCTCCATACTTAGAATAAATTGTTTGTATATTACTGGTATTTCATAATTAATTATTTTTGTTTCAAATAGTTTTGTCTTTTTTAAAACTTTTCCATTGTTGTTTATTATTTGGGTTATTCCAGTATTCATTAATTGTGCTACATATACGTTATTTTCTGCTGCTCTAAACTGCATGAATGCTGATGTTATGTATGGTATATTTGAATATCCAAAAAGTCCATTGTTTGATAATAAAAATATTATTCCTGCACCTTTTTGTTTTAATTCAGTTGAAACATTTTGAAAAAATGCTTCAAAACATATTTCTACTCCTATTTTTATATTGTTTATTTCAAATGGGTTTATTTCCTTTCCTTTTTTAAAATAGTTTTCATAAAATGGTACTGTATAGTTTTTATTGTACTTTCCTAATATTTTTCCTGTTTTTGAAATTAAAAATGCACTGTTGTATTCTTCATCGTTTGGTTCAAGGTCTGGTGTTCCAAATAATATATTAATTTTATTTGTTTTTGCTATGTTTATTATTTTATTTTTGTATTCTGGTATTCTCATTATCCATCTATGCACTGCTGTTTCTGGCCATACTATTAATTCTGATGAATTGTTTTTTATACTTAGATTCATATATTTTTCAAAAATGTTTTTCATTTTATTTTTTTCTTCTGCTTTTTTGTATTCTTTTGCTGTAATGTTTCCTTGTATTAGTCTTACTTTTAATGTTTCTTTCTTTTTTATATTTATTCCATTTATATTTTTTATATCATTCAAACTATTAAATACAAAATATGCAAGAAAAAATCCCAATATAAAGATTATGTATTTAATATCATTTTTTTTGAGTTTTTTATTTTCCTTTAATTTCAAAATACTTTCTAATAATATTACATTTATTAAAACAACAACAAAAGATATTCCATACAATCCTATATATTTAGATAAATACAACATTAAGTCATTGTTGTGTTGAGTTATTCCTGCATAAAATGTAAATCCTACTAACATTTTATTGGTAATAAATTCTATGACCATCCATCCTAAAGAAATCATACATATTTTTTGTATTTTTACTTTTAAACTATTATAAATCATCTTTACAATAATTGTATAAATCATAAAAGTAATTCCCATTATATTAACTAATAAAAGAAAGATTAAAATATTAATTAAAATACTTTCACTTTGAATATGTAATATTGATAAAAAAATAATTGTTCCAATTAATGTTCCTTCAAAAAATCCATACCTTAAACTTTTTTCATTTTTCTTCACTACATAAAAATATGGAATTAACGCAAAGTATCCTAAAAATCCAAAATCAAATGGTGGGTAACTTAAGAATACTAATAATCCGCTTAATGCTAATAATATTATATTCATCTCATCACCAAAGGTTTTGTGTTTATTTTTAACACTATATTGTTCCAAGCTTCTTTAAAGATTTTTATTGGAATTCGTATTTCACCATACTCTGGGTCTGGATCAAATAAACTAACATATTTATTTGTTATGTCTTCAACTACAACGTAGTGGTTTCCTTTTACATATGTAATAACTGGTTTTCTTATTTCTTTTAAGTATTCAAAGTTAGCTTTGAGCCCTCTTGCTTTAAAACCACATCTTTCAGCTGCATACTTTAAATTAAGTAGTGTAGTTCCTTTTTCATTTGTTTTAGATAATGTAGCTAATTTTTCTTCTGTAGTATTCACTCCATATAAGTACAATAAATAGTTCAATGCAGCTGGTCCACAGGTATAATATGTTTTTTGTAAATATTCACTTGTATCATCATAACTAACATTTTTTTCTATATAATAATTAAGAACTTCTGATTTTAAATTTTTATTATTTATTTTAGACACATACAACATAGTCATTATATTTGCAAACACAACAAAAGCAAACAATAAAGTTAAACTCAAAAAAAATTTTTTAATCTTATAATATAATTTATTCTTCATAACTCTCTCCTCATATGTTTTATATTTATAAAAAAATATTAAATAATAATTAAATGATAGTTCATTAAATAAATTAAAACAAATTATTTTTTTATTTATGTCATAAACATTATATCAAAAAAAAAAAAAAAAAAATCAACTATTTTTACTAAACAAATAAACATTTTTACCTAAATATAATGCTTTTTTGATTAATTTATATCATTTATTTTATTTTTTTATTTTATTAATTTTATATTAAATATTAATATTTGTGAATTTAAATTTTATATTTTTTATAATGTTATTATTAATCATTTTTATTATAAAAGTTTGTGAAACTTTATTAAATATTTATTTTTTATAAATATTTTAATTTAACATTTCATTATTAACACAATATCAACTTCAAAAATTTGAATGGCGAATGTTTTATTTTTTCACTATTTTCCATCGTTACTTTCACGCTTTTTATGAGTTTTTATAAAAAAATATCCCAGCACCCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTTCTCTTTTCTGAGTTTATGTTTATTCCTACTATATAAATTTCTTTCCCTTTGTATTTTTCATAGTACTTCATTTCTTTTATTTGGGTTAAGGCTTTTTCTGCACTTTTATCTATCTTTATTTCCATTATGTATATGATGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTCAGTCCTGCTGATGCTAGTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTGTGCAAGTTGTATGGTATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCTTTTATTGCTTTCCATATCGTTTTATTTATTTCTTTTATTTTTCCTCTTTCAAGTTCATAGTTTGCTTCTAATATCATCTTTGAAAAACTGTTCTTTACTTCTATGTTTGGATAGTCTAATAAATATTCATATTCCATTCCATACTGTTCTTTTCCTTTAAAGGTTAAGTATCCTGCTTGTGTAAAGAATATGCTTGCATTTGCTTCTTCTATTTCTCGGGTTGAAAAGTCTAACTCGCTTACTGGATACTTCACTAAGTCTTCATATCTTATCTTTTTTCCTTTTATGTATTCATACAAGAATGATGGTGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTTTTTGAAAAATTGTAGTATTGAAAATGGATTGTATACAGAATTCTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTCCATTTTCATCTCACTTGCTGTTTCTTTTATGTGTTCTTTAAAGTTTTTTTCTAATTCTTCTTGTGTGTATCCCAACATCTGTGCGTATGTTTTATCTAATGATATATCATTTAAGTTGTTCAATGCTGAAAACACTCCTGTTTTTGTAAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCGTCTTTTGATTTTATACTCACATAAAAGTCTCTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTTTTGATAGTTTTATTATCATTTCATTGAATGCAAACTTGTAGTCTGTTTCTGTTATTTCTATTCCATTTCTTTTTCCTTCTAACTTTATTATTTTTGTTAGACTTTCTTTCATTCTTTCCACATTATCTGTTGCTACGTCTAAAAGGTTTATCCTTATTACTGGATATTCTTTGAACTCCCATTTATCGTATATATACGTTCCTTTAAATAAATCTTTTTCTCCTTTAAACAGATAGTACAGTGTTGATATCGTTAAACTTTTTCCAAATCTTCTCGGACGAGATAAAAAATAAAATTTTCCACTTGTTATTAATTCATGTAAATATTTTGTTTTGTCTATGTATATATAATCTGTTATTAATTCTTTAAAGTCTTGTACTCCTATTGGTAGCTTTTTCATTTTTATCACCTCTAATTTTTATTATACCATATGTATTTTTTTAAATTGATTTTTTTATATAAAAAATATCCCAGCACCCGCTGGGATATTTTTTGAATACATATTTCATTTGTCTATATTCACACACTAATATTACTATCTTTTTTATTATTTCATTACTTTTTTTCATAGTAAGTATCTATCAGTGTTTTTACCAATAAATTGTATTTAACAACATTTAAAATATAATTCAATTTTGTACTTTCTATATTTCTTTCATTCAAAATTTTTTCTAAATCTGTCTTTTTTTCTTTATTTTTTTCATATTCTAATTCAGATATTTTTATGTCTAAATTTATTATGTATAAATTATTTTCTGTTGCTTCTATTTGGTTGAGAAGTTTATTGTAATCATCTCGTACTTTAGCTAAAATTTCACCTAAAGTTTTTTCATTTTCTTCTTTTTTTTGTTCTTTTATAACTGGATTTATTGTACTGGAAATGTTATAATGTCCATTTGAATAATTACCATTTCCTGAAAAGTTTATAAAAGGTACATCATAATTATAATCCATCATAAATGATAGAGAATAATTATTTGTTTTAAAATCATAATTTGCTCCTAAGTTAAAGTTTATTTCATTGTTATTTGTTAATATTTTACTATATTTATTTTGTTCTTTTTCTTTCTTTGCTATTAAGTACTCATAGTTCTCTTTAAAGTCTTTTAATTTGTAACTATTCAATAATTCATTTAATTTTTTCATTTCATAATATTCTTTTGGATATGTAAAAGTAACATCCTGCATCTTATTTAAAATTAAAAATATGAAACCATTCAAATTTTGATTATCAAAAGATTCTTTTAAATCATTTTTTTGAATTTTTGTACTTATTTTTTCTCTTTCTAATTTTAGTTTTTCTATTTCATTTTGTGGTGGTGTTATCTTTATTAATTTATCATAATACTTATTTAATATCTTTAAATTTTCTTGCATTTGATACATATTAAAAAACTCATATCTCAATGATATGTATTTATTAAAATACTTATTTTTATCTAATAATTCTTCTATTCTATTAACAACTTCATTTATCTTCATTTCTGTTATATTCTTACCACTTGAAAAAATATTCCAATTCAAATTGATTTGTGATGTAGTAAAATCAAGTTTACTAAAATCTCCATCTATTCCAAAATTATACGAAACATTTGGAAAAAACATTTTATACTTGTTCAATATGTCTTCCGTTCTTTTAAATTCTTTTAGATACATAGACTTAATTGCTTTGTCAAATTTTTCATAATTTAAATTTTCTCCAAATAGAAAAGCATTTATTAAAATAATAAATAATACTATCATTATCTTTTTTGTTTTATTCATTAAACTCATTCTCCTTTTTTAATTCTCTTTGAATACATCTACTTCAGAAGTATAACTCAAAAACACATAATTATTATTTTTTAATTTTTTAACTCTAAAACCCTTTGTAGCATTATCATAAGAAGTACTTTTAAGTGATTTATAAGATTTTGTAATATTGGTCTTTGAATTCCATTTAAATATATAATTAACAAAAATTTTAGCATAATCATGTAATTCTTTTTTTCCCGTTAAAAAATAAAAATTATTTTTATCTAACATATCAAAATCTAAAATTTCATATTCTTTGTACTTTTCTGTTAAATTTGTAATTAATTCAGCTTTTCCAAATTTATTTATTTTATATAAATAAAAAGCTTTATTTTTTTCTATTAATGCATATAAATATTTATAATCTGTTCTTAATTGGATTACTTTATATTCTCCTTCTAATATTTTTATTTCTTCTAATTTTAAAGTATCGTATCCTAACTTATTTTTTTCATAATACGTAATTTTATTTATTTTAGAATCAGCTAATCCATAAACATCTTTTAATGAATCATTTTGAAAAAAATATATTTTTTCTATTAAAGGCTCCATATCAGAAATTCTATTTTTAGATAAATCAAAATTTTCCCATTTAGATTTTGGCTCTTTACTATAAAGATTATTATATAAATCATAAAATGTTTTTAATTTATAGGCTGTAGCCAAACTTGGATCAACTGTTTTATAATATAATGTGAAAGAATCAACACCTAAATTTAATGAAAATTTAGATAAACCATTGCTTGTAGCAATGTATATATTTTCCTTTTTATCATAATTTATTCCACTAAAATACATTGGAACATAAAAATATGGTTGTAAATCTTCTTTAATAAACGTTGTAATATCATTGAAAATATCTATGGTCACTAATCCTCTTTTACTTGAAGTGACTATTTTTTTATTTCCTTTATATTTTTCAATATAATTATAATAACAATAAAAAGTTATAGTTCCACTATCACTAACATCAAAATAATTTGTTCTATAATTGTCAGAATGATATTCATTCACTAAGTTTAATTTTAATTTTTCAGAAAATAAAATTCCTGTTATTAAAACTACTAAAATTATCAAGAATATTTGTTTATTTTTCACTTTATCAACTCCTTCTATTGAATTTTTATATTTTTTATTAAATTAATTTAACCACAAATAAATTAAATTTAAAAAATGTATTTATCTTTAAAAAATATATTATAAATTAAATGAATTTTTATACCAAATTATATTTAAATAAAGATAAATACAAAATATTATTTAATTATTTAATTTTAAAATCTTGTCCAAGCTGTACTAAAGGAGTTAACATTTATTTTATGTGGATAATAGGAAACTGAAAATTCTGGGTGTATACTTAAAAAAGGAGCTTTTGTATATAATATAGTAACTACTACACTATCTATTATACCATCTAATTCACGTTTCTTATAACTTCCTGCTGATTCAATAGTATGCCAAGAATCAATAACTTTTGTTCCAGATTCATCTAATTTTTGGTGTAAAAACCAAACAGAAACATTACCATCTTCACAATTATATCGTGATTTATAATAGGCTGTTCCTGTAGAATACGGTGGTATAGTGAAAGTTTCACCACATCTTACTGTTTTTGTTTTTTGCATTGCAGCATTAACTCCTAAGCCAAGCTTTCCATAAGTAAAATCCATTGATAAATTTCCAGTTATACCACTCGTGAAAGCATAAGAAGTTGTATGATAAATGGATAAAGTTGCCTTCTCAGGTCCTGTTGAAATAACCTCCGCATCAGCAACCTTTTTAATTGTTTCAAGCTGGTATGTAGTATAATTTTTTTGCCATTTTATCGCTGATTTTTCTATGATGTAATTTGGCTTAGAACCGCCACCGCCACCACCGGTTCCAACAACGGCAGACATTTGTGAATCCGACATACTTTTTACTGATACATCTTTTTTAATTGTTGCAAAGGCGTTCATTGGCATCATGGTCAATATAAAGGTAAATAATATTAACCATGATATTCCTCTTTTTGTTTTTTTCACTTTTTTCTCCTCCTCATTTGTATTTTTAATAGCATAGCTATTATAATCACTAAAAATAATATAGTTATAATATAATAGGTTGTTTCTCCATACTTAGAATAAATTGTTTGTTTGTATATTACTGGTATTTCATAATTAATTATTTTTGTTTCAAATAGTTTTGTCTTTTTTAAAACTTTTCCATTGTTGTTTATTATTTGGGTTATTCCAGTATTCATTAATTGTGCTACATATACGTTATTTTCTGCTGCTCTAAACTGCATGAATGCTGATGTTATGTATGGTATATTTGAATATCCAAAAAGTCCATTGTTTGATAATAAAAATATTATTCCTGCTCCTTTTTGTTTTAATTCAGTTGAAACATTTTGAAAAAATGCTTCAAAACATATTTCTACTCCTATTTTTATATTGTTTATTTCAAATGGTCTTATTTCCTTTCCTTTTTTAAAATAGCTTTCATAAAATGGTACTGTATAGTTTTTATTGTACTTTCCTAATATTTTTCCTGTTTTTGAAATTAAAAATGCACTGTTGTATTCTTCATCGTTTGGTTCAAGGTCTGGTGTTCCAAATAATATATTAATTTTATTTGTTTTTGCTATGTTTATTATTTTATTTTTGTATTCTGGTATTCTCATTATCCATCTATGCACTGCTGTTTCTGGCCATACTATTAATTCTGATGAATTCTCTTTTATACTTAGATTCATATATTTTTCAAAAATGTTTTTCATTTTATTTTTTTCTTCTGCTTTTTTGTATTCTTTTGCTGTAATGTTTCCTTGTATTAGTCTTACTTTTAATGTTTCTTTCTTTTTTATGTTTATTCCATTTATATTTTTTATATCATTCGAACTATTAAATACAAAATATGCAAGAAAAAATCCCAATATAAAGATTATGTATTTAATATCATTTTTTTTGAGTTTTTTATTTTCCTTTAATTTCAAAATACTTTCTAATATTATTACATTTATTAAAACAACAACAAAAGATATTCCATACAATCCTATATATTTAGATAAATACAACATTAAGTCATTGTTGTGTTGAGTTATTCCTACATAAAATGTAAATCCTACTAACATTTTATTGGTAATAAATTCTATGACCATCCATCCTAAAGAAATCATACATATTTTTTGTATTTTTACTTTTAAACTATTATAAATCATCTTTACAATAATTGTATAAATCATAAAAGTAATTCCCATTATATTAACTAATAAAAGAAAGATTAAAATATTAATTAAAATACTTTCACTTTGAATATGTAATATTGATAAAAAAATAATTGTTCCAATTAATGTTCCTTCAAAAAATCCATACCTTAAACTTTTTTCATTTTTCTTCACTACATAAAAATATGGAATTAACGCAAAGTATCCTAAAAATCCAAAATCAAATGGTGGGTAACTTAAGAATACTAATAATCCGCTTTTTCTATATAATAATTAAGAATTTCTGATTTTAAATTTTTATTATTTATCTTTGACACATACAACACAGTCATTATATTTGCAAACACAACAAAAGCAAACAATAAAGTTAAACTCAAAAAAATTTTTTTAATCTTATAATATAATTTATTCTTCATAACTCTCTCCTCATATGTTTTATATTTATAAAAAAATATTAAATAATAATTAAATGATAGTTCATTAAATAAATTAAAACAAATTATTTTTTTATTTATGTCATAAACATTATATCAAAAAAAAAAAAATCAACTATTTTTACTAAACAAATAAACATTTTTACCTAAATATAATGTTTTTTTGATTAATTTATATCATTTATTTTATTTTTTTATTTTATTAATTTTATATTAAATATTAATATTTGTGAATTTAAATTTTATATTTTTTATAATGTTATTATTAATCATTTTTATTATAAAAGTTTGTGAAACTTTATTAAATATTTATTTTTTATAAATATTTTAATTTAACATTTCATTATTAACACAATATCAACTTCAAAAATTTGAATGGCGAATGTTTTATTTTTTCACTATTTTCCATCGTTACTTTCACGCTTTTTATGAGTTTTTATAAAAAAATATCCCAGCACCCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTTCTCTTTTCTGAGTTTATGTTTATTCCTACTATATAAATTTCTTTCCCTTTGTATTTTTCATAGTACTTCATTTCTTTTATTTGGGTTAAGGCTTTTTCTGCACTTTTATCTATCTTTATTTCCATTATGTATATGATGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTCAGTCCTGCTGATGCTAGTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTGTGCAAGTTGTATGGTATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCTTTTATTGCTTTCCATATCGTTTTATTTATTTCTTTTATTTTTCCTCTTTCAAGTTCATAGTTTGCTTCTAATATCATCTTTGAAAAACTGTTCTTTACTTCTATGTTTGGATAGTCTAATAAATATTCATATTCCATTCCATACTGTTCTTTTCCTTTAAAGGTTAAGTATCCTGCTTGTGTAAAGAATATGCTTGCATTTGCTTCTTCTATTTCTCGGGTTGAAAAGTCTAACTCGCTTACTGGATACTTCACTAAGTCTTCATATCTTATCTTTTTTCCTTTTATGTATTCATACAAGAATGATGGTGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTTTTTGAAAAATTGTAGTATTGAAAATGGATTGTATACAGAATTCTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTCCATTTTCATCTCACTTGCTGTTTCTTTTATGTGTTCTTTAAAGTTTTTTTCTAATTCTTCTTGTGTGTATCCCAACATCTGTGCGTATGTTTTATCTAATGATATATCATTTAAGTTGTTCAATGCTGAAAACACTCCTGTTTTTGTAAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCATCTTTTGATTTTATACTCACATAAAAGTCTCTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTTGGGATAGTTTTATTATTAGTTCATTAAATGCATATTTATAGTTTGTATTTTCTATTGTTATTCCATATCTTTCCGCTTCTGTTTTTATTATTTCTAATAAGCCATACTTAAAACTTTGTTCATTTTCTGTTGAGACATCCAATAAACTTATTCTTATCACTGGATACTCTTTGAACTCCCATTTATCGTATATATACGTTCCTTTAAATAAGTCTTTTTCTCCTTTAAAAAGATAGTAAAGTGTTGATATCGTTAAACTTTTTCCAAATCTTCTTGGACGTGATAAAAAGATTGGTGCTTCTGAACTTATTAATTCTAATATATACTTTGTTTTATCTATATATGTATAATTTCCTTCTTTTATTTTTTTATAGTCTTGTACTCCTATTGGTAGCTTTTTCATCTTTATCACCTCTAATTTTTATTATACCATAATTTTTTATACTACTTTTTAAGTTATTTAAAAATAAAAAGCTATTATAAGATAAAAAAACCTCCTGATATTATCAGGAGGTTTTTTTATCTTAATTTTAATCCTTTATTAAAAGCTTTTATATTTATTTCTACAAATTTAGGTTTCACAAGATTTTTTATAGCATTTTCCCAATCAATATTACTTAAATTCATTTCTTTTACAAGTGCTCCAAGCATCACTATATTTTGAACCTTTACATTTCCAAGTTCTAAGGCAACTTCATGTGCATTTAAAACCAAAGTGTCTACTTTTTCTTTTAATTCTTCTATAATATTTTTTGGATACTTTGCAGTTCCAGCTAAAATAGGTGCTGAACCTATTGCATAATCATTAACTACTAACTTTCCTTCTGGTTTTAAATACTCTATCCATCTCATTGCTTCCATTTTTTCAAATGAAATTAATATATCCGCTTCACCTTTCCCTATTATTGGTGAATAAACTTTTTCGCCATATCTAACTTGAGTTGTAACTGATCCACCTCTTTGAGCCATCCCATGAACTTCAGACATTTTAACGTCATAACCATCATTTATAAGTGCTGTTGATAAAATTTTTGAAGTTAAAATTATTCCTTGTCCACCTACTCCAACTAAAAGTATATTTTTTGTCATATTATTCACCCACCTTTTTTATTGCATCAAATGGACAAACTTGAGCACAAACAGAACATCCTACACATGTATCTTGATCTATTATAGATCCTATTTTTTCATCAAATGATATTGAAGGACAGCCTATATTTAAACACATCTTACATTTTTTACATTTATCAGAATCAACATAATACTTTTGTGGTTTTAGTTCAAACTGTTGCATATCTATTTCTGTGAATTTTTTTAGAGCACATGGCCATTTTGTTATTATTACAGATGGTTCTGTTAATTCCATTGCTTCATTTATAGAATCTTTTACTTCCTTTAAGTTGTTTGGATTTATCGTTCTTATATGTTTTATTCCAACTGCTTTACAAATAGCTTCTATATCTATTATTTCTGCTTTTTCTCCCATTAAAGTATATCCAGTACCTGGGTTTTCTTGATGACCTGTCATAGCAGTTATTCTATTGTCTAAAATTATTATTGTTGCATTACTCTTGTTGTATACTATATCTATTAATCCAGTTATTCCAGAATGGAAGAACGTTGAATCTCCAACTACACCAAATACTTTTTTCTTGGTTCCTGCTTGTTCAAAAGCTTTTATAAAACCGTGAGCTGCTGAAACTCCAGCTCCCATACAAACAACTGAATCCATAGCATTTAAAGGTTCTGCAGATCCAAGTGTATAACATCCTATATCTCCTGTTATTACAACATCTTTCTTTTTACCTAATTCATAAAATAAACCTCTATGAGGACATCCAGAACAAAGTGTTGGTGGTCTTGAAACTACTTTTTCTTTATTTTGTTCTACTATTTTTGATTTTTCACCAAGTAATGCTTCTCTTATTATATCTGGATTTAATTCAAGTGTAATAGGAATTTTTTCTTTACCAATTACATTAATTCCCATGGCTTTTATTTCTGTTTCTAAAAACGGTTCATTTTCTTCAATTACATATAATTTTTTTACCTTACTTGAAAATTCTTTTATCATTTTTTTAGGTAAAGGATATGTAAATCCCAATTTCAAATAAGATGCCTTATCTCCAAATACTTCTTTTGCATATTGATAAGAAATACCTGAAGTAATTATACCAATTTCTTCTGTATTCCATTCTTCTTTATTTAAAAATGTATTGTTAGCATATTCTTCTAATTTCTTTAATTTTTCTTCAAGTTCTATATGATGAACTCTTGCTCTTGCTGGGGTTGCAACAAATTTTGGAATATTTCTTGAATATGGTTTTATTTCAACATTTTTTCTTTCTCCAAGTTCAACTAAGCTTTTACTATGACAAACTCTTGTTGTAAGTCTAAACAAAACTGGCACATCATATTTTTCACTTATTTCATATGCTTCCATTGTAAAATCTTTTGCTTCCTGACTATCTGATGGTTCTATTAAAGGCATCTTGGCATGTCTTGCATAATACCTATTATCTTGTTCATTTTGAGAAGAATGCATTCCCGGATCATCTGCAGTTACTATTACACATCCTCCATTTACACCTAAGTAAGCATAAGTAAACATTGGATCAGCAGCAACGTTCATTCCAACGTGTTTCATAGCAGATAAACTTCTTGCTCCAGCCATTGAAGCACCAACTGCTACTTCTACAGCAACTTTTTCATTAGGTGTCCATTCTGAATATATTTCTTTATATTTTGCAATATTTTCAAGTATTTCCGTACTTGGAGTACCTGGATATGCTGCAGCAACATGTACTCCTGCTTCATATGCTCCTCGAGCAACAGCTTCATTACCAGTTAAAAGCTTTTTCATTTTCTTATCTCCTTTCTTTTTTAATATTCAATTTTATTATAGCTTATTTAACATTAAAAAAACATCTGCTTAAAGCAGATATTTTTTTGTTTAAATAGATATAATTGCTAAAAATTAAATAATATAACTAATTTTTAAATGAAAAAAAATTCAGTGAATTTTTTTTCATACTTTAAATAATTTTTTTGCATTTAAGAATAATATTTCTTTTAATGGTTCAATATCTATTTGTTTAATTTCTGAAATTTTTTCATAAACATACTGTATATATAACGGATTATTTCTCTTTCCTCTATATGGAACCGGTGGTAAAAATGGTGAATCAGTTTCTGGTAAAATTTTATCTATTGGAGTGTATTTTAATACTTCTCTCAATTCTTGATTTTTTGGATAAGTTATTGGACCATCAAAACCTAAATATAATCCCATATCTAAAAATTTTTTTGCATTTTTTCTATCAGAAGAATAGCAATGAACTACGCCTCCCATTTCTGGTATATTATGTGTTTTTAAAAAATCAATTGCTTCAGTGTAAGCATCTCTAATATGCATTATTATTGGTATATTATTTTTATTTGCAATATATAATTGTTTTTCAAATCCTATATATTGATCTTTTTTATCAGTATCCCAATGAAAGTCTAATCCTATTTCTCCAATTGCTATAACTTTTTTATTTTCTATTAATTTTTCAATTTCATCATAATCATCATGTTTTAAGTTTTCAGTTTCTGTTGGATGTATTCCAACAGAACAATAAATATTTTTTACTTTTTTAGATAATTCAATAGTTTTTTTTGAAGATTTTAAATCTATACCTACTTCAAATAAAAACTCAAACTTTTCAGACAATTCTTTTATTAATTCTTCTCTTTCATTATCAAAATGTTCTAAGGTTAAATGACAATGTGTATCTATAAGCTTCAAAGTACACCTCCAATAATATCTTTTTATATTTACTAGTATTATACCATATTCACATAAATCATTAAGATTTTTAATCAATATTAATATTTTGACAATTTTTTAATATTAAAAACAAGTTTTTTTGATAAAATCTTTTGTTAATGAATTATTTTAGTTTTTTTATGATAAAATAATAATAGGAGAGTGAAGTATGAAATCTTTTGTTTTTGATTTAGATGGAACATTATTAAATTCTAATATAGAAATAACTCAAAATACTATAAATTCTTTAAAAAAACTAAAAGAACAAGGAACTTCTATAATTATAGCAACTGGAAGAATGTACAGTTCTATGATGTATATTATAGAAAAATATCTACCTTTTTTAAAGGGTTACTCTCCACTAATTGCATATAATGGAGCTTATGTTTTAGACAAAAATAAAAATATCTTATATGAAAGTACAATAGAAAATAAAATAGCTTGTAAATGTATTAAATTTTTAAGAAATGAAAATATTCATAGACAAGCTTATATAAATGATGTTTTAATTGTTGAAGAAGATAACAATGAGATTAAATCATACTCAAAACATGCCTCTATTAAGTATGTTGTTGTTAAAGATTTAATAGACGAAATAAACAAAAGAAACAATGTAATAAAATTATTAGCAATAGGAAAAGAAAATATAATTTTAGAACTTCAAAAAAAATTGAAGAAAAACTTTGAAAAAGACTTAAATATAATACAATCTTTTAAAACATATCTTGATTTAGTTCATAAAAACACTTCAAAAGGGGCAGCATTAAAAAAAGTATTTGAATACTATAATTTAAGCTTTGATAATACGTATATCTTTGGAGATTCACAAAATGATATTTCTATGCTTAATCTTACTAAAAATAGTTTTGTTTTAAATAATGCGTCTAATGAAGTAAAAAAACATGCAAAATATGTTATTCCTTCAAATGATGAGGATGGTGTTTCTTTTGCAATTGAAAAAATTCTTTCTTCTAATAGTTTTACTTATAGTAATTAATGAATTTTCATCATACCCTATTTTAAGCGAGAATAAAATAATTGGTCATATCTATACAGATCTTAAAGCTAATATAAATAAAAATGAATTAAACGGATACATACTGTCTTTAAATCAAATAGATCCCGAATTATGTTATCTTGCAATAGGATCCGTTAATAATTTTGAATTAATAGAAAATTTATTTTTAGATATAGGAACAGAATTAAAAAATAAAAACTTTGATTTTGTTATTTTTGGAAACTTAAAAACATTAAACAAAGAAACAACTGATTATTTAAATTACATAGGAAAATCTCCTTATCTCATTTCTGAAGTTTTATATAGAATGATTAGAGGTTTTGAAACAGCTGGAATTGTTCCAGTTTTAAAAATAACTTCTGATGATGATACAAAAGTAAAAAATTCTTTAAAAAATAGAGCTGGTGCCATATATACTTACTCTGAAGAAATAAATAATCTTGATATGTACTTAAAAAATAATAATGTATATTTAAAAAAAGATAGAATTTTAAGATTACCATGGAAAACAGAAACTTCTTTTTTAAAAGATTCAATAAAATCTATATATGAAAACAGTATCATATTATCTGGTTGGAGAAAAGATAATTCAAAGTTATTGTATAGAAAAATAAATTTTACAGAAACTAAAATGATTACTTATTTTTCTCATTCGGTAGAAAGTTTAGCTAAAGAAGTTTTAGACGGAAAAAAACTTGCAACTGGAAAAATAACATGGTAAAGGGGGAATTTTAGTGGAAAAAAAAATAGAGGAATTAGAAGAAAAAATAAAAAAATTAGAAGAAGAAATTATTGGTTATAAAAATAGAGAACAAGAAATGGAATTTTTAATAGAACAATATAATTCATTAGTTAAAGATGAATTTGATTCTTTTGATGAATTTGTAATGAATCTTGTAACAAGAAAAATAATAGATGAAAACACAAGAGTTTATTCAAAAGAATTTTTTGAAAAATTATTTTCTATTTATTACCAAAAAGCATTTGAAATGGATAAAGAATGTGGAATTATAACTATAAGACTTCCGTACTTTGATAAAGTAAGTGGAGAAGAAAAAAAAGTAGTAGAAAGAGAAATTGGAAAAATTTTAAGAGAAAGCGTAAGAATTCCTTTAGACATAATTGCACGTTATTCAAATGTTAGTTTTGTAATACTTCTAACAGATATTACTAAAGATGTTTTTGATACTATTTCTGAAAGAATTAAAAAAAGACTTACAACTTTAACTGATTACAGCAATAATTTTAAAATGAAAAGATATTATATACCTGTTGATGACGTTAAAACAGAAGATATTTTAAATGATTTAAGGTAATTGGAGGAGATTATGGAAAGTTTGAGAATAGATAATACTGGTAAATTAATTGTCTCAGGTATGCAACAAGCCAATGGCATTTTAGAAATTTCAGGAGCTAAAAATTCTGTTTTACCGATAATGGCTGCTTGTATTTTAACTGACGAAAAAATAATTTTAAGAAACGTTCCAGACATATCAGATGTAAATACTATGATTGAAATACTTGAAAGTTCTGGAAAAACAGTAAATAGAGTTAAAGATACTTTATATATTGAAAAATCCGAAAAAATAAACTCTGAAATCCCTTATGAACCCGTTAGAAAGATGCGTGCTTCCTTTAATGTTTATGGACCATTAACTGTTATAAACAAAATATCAAAAGTAGCTCTTCCTGGTGGATGTTCTTTGGGTGCAAGACCTGTAAACTTCCATATTGATGGATTAATGAAACTAGGAATAGAAAGTAAAATAGAACATGGATTTGTATATGGTAAAATAAAACCTATAGAAAAATCAGAAGTTCATATAAGTTTAGATTTTCCAAGCGTTGGAGCAACCGAACATATATTGACAACTGCAACTTTAATTGATGGAGTTAAAACAATAATAAATAATTGCGCTATGGAACCTGAAATTGATGATCTTGCAAACTTTTTAAATAAAATGGGAGCTAATATAGAAGGCATTGGAACTTCAAAAATAATAATTCATGGTGTTAAAAAATTACACGGAATTGATTATAAAGTTATCCCTGACAGAATAGAAGCAGGTACTTTTATAATAATGGGAGCTTTAATAGGAAAAAATTTAACAATAAAGAATATAAATGCTGAACACCTTGAAAGTTTATTTTCAAAATTGGATGAAATGAATATAGAATATAATTTAAAAGGAAATGAAGTTAAAATATCTTCTTCATTAAATAAAAAATTAAATGCCACAATAATAGATACAGCTCCTTATCCTGGATTTCCAACAGATTTGCAATCTCAAATGATGGTACTTTGTTCTTTAATCGATGGAAGAACAACCATAAAAGAAAATATTTTTAGTAATAGACTTTCTATAATAGATGAATTGAACAGAATGGGAGCTAATATAAAAGCTGAGAATAATAACTTAGCAATAGTAGATGGCGTTAGATTTTTAAGTGGGGCACCAGTTCAAGCAACAGATTTAAGATCTTCTGCAGCTTTATTATTAGCTGCACTCGTTGCTGAAGGTGAAACAATAATAAACAATGTAGATCATATATTTAGAGGTTATGAAAAAATTGAAGAAAAATTAAAAAATGTTGGAATAAAAATTGAATATTATGAATAAAAAAAATAACGATTAAATCGTTATTTTTTTTATTCATATATTAATTCGTCTAAATATTTTTCATAATAAAGTTTTATAATTTCTTCTATATTAATTAGGCTTTTATTTAAATAAACTTTTGAATATTCCGAATATACTTCAAATATTTTTCCCATTATTATAACAACTTTATCTGAATAACTAATTGACTTTTTATAATAAATATTTTTTAATATTTCTTTTTTCACTTTTTTTAAAAATTGTTGGAATTTTATTTCTTTTAACTCAAATAATGTTTTTTGGCATACTATTATCAAATTAAAATTCATTTTATTTCTTATATTATCTATTAATCCACTATTTTTTTCAATATCTACTGGATAAGTTTTTATTATTTTAAACCCTGATTCAATAATAGGTATAATAATTGAAACCCAACCATCTATACTATTATTATTGTAGGTTAAAACCATATAAGAATTATTTTTTAATACTCTTCTTCCTTCTAAAAAAACATGCTTTAATTCTTTTATATAATCATCTTTTTTATAATTTCTACTCTTATTAACTACTATTTCTTTATCTTTTTTTAAAGAATCATTTTTAAAATAAATATATTCATTATTTAATAAAATTCTTTGCCAAACATAAAAAAATTCTGAAAGTTCTGAATAATTAATCGATGAAAAATAAGGTGGATCAGTAATAATATAATCTATAGACTCATCTGGAAGTTCTTTCATATTTTTTGAAGAATTACAAATTAAAAAAGTATTTTTATCTTTCAAATCTTCAAAATTTTTAGCAAATATTGCATTTATTTTTTCTTTTTCTAAAAATATTTTTTCATTCTTATTATAATTTTTTTCAAAAATATTATAATTAAATTCTTTTGCTTTTATATAATTTTGAAAAAATTTTTTAAAGGTCCCCGATCCAACTTTTGCTCCCCACATATTATTTTCAACACTAATTACAATAGGAGCAAAGTGATGATCACCAAATAGAGGTTCACTTTTATTATAATCTTTTTGAAAAGAACAAAATGCATTATTAGAATTTAAAAAGTTTGAAAACAAACATAAAAATTGTTCTCTTATTTTTACGTTTCTTATTTCTTTTATATTTTTTAATAATAATGAATGAAAGTATAATTGACTTTCATAAAACATATCTTTCCAATAAAAATAATTATGATTAAATAGTCTTTTTGTTTCATCTCCATAAGGAATTTTTTGATTTGGAATAAAATCAAAATCTATATTAAATTTTTCTGAAAAATGCTTAATATCATCATTATCTGGTATTTTTATTTTTCTTTCTTTATTATCATAATATTCAATGGCAATTATTTCATTTTCTACATCTTTTTGATCTCTTAAATTAAAAATATTTCCACATTCACAAGTTACTTTTCCTCTTTTATAATTTCCTAAAAATGAATTAAATTTTATTCCACAATTTTTACAAGTTACTATTTCATCATTTGACTTTATTAAAGAACCACAATTTTTACATATGGTATAATTAATAAAGTTTTTTCTCTTTATATTAGTTAATCTATATGTTGGAAAAATTTTTATTTCTTTTCCACATTTACTACATTTTGTTTTTTTTGATCTAAATAAATAAATTACGTCACACAATTCTCCATTTTCATTTTTAATTTTATAATAATTACTAATTTCTTTACCTACTTCAAGTTCAATTTTATTAAAAGTTTTTTTTAATTCTTCAATTTCAACGGATTCTAATTCACACTTTGTTATAAACCAAGAAACTGGATTTATATCATATCCTACAATTTTTCCTCCCATTCTCAAAACATTTATTGGAATTGTGCCTCCACCAAAAAATGGATCTAAGACAATTTTATTCTTTAATAACATTTCATTATTTAAATAAAAAGATTTTTCAACATTTTTATTCATTAAAGAAAGCAAGATCCCACGTATTAATGAATCTGTTTTTCTTGAAAACCATTTATGAACAGAATAAATAGGTTTTCTATGAACTACTTCCTTTTTAGAAATATCTGATATAAATTTATACGGAAAATCATTCAATTTATTTTGACTCCTTAACAAAGTTTTTAGAAGCAATAATTAACAATAAGGTTCCTGAAAGTATAAAAATTATATTTATAAACCAAAATACCAATATATTCATGCTTTCTACACCCGCTACATATCTTATTATATCAACAACATATTTTACTGGTAATATATAAGAAAGCCACCTCAAATATCCTGGAATAAATGAAATTGGAAAGTATATACCTGCAAAAAACATCATAATTGTAAATAAAATAGATGATGCTGTATTTGCACTTTCAGTTTCTTTAAATAATACTAAAATTAAAATACCAACCCCCATCATTCCTATTGTTGTTGATAATCCAACTATAATTAATAAAAACCAATTAAATTGAAAGGATAAATTAAACCACATTTTTCCTAATATTATTATAAAAAATATAGATGCAAAATTCAAAATTAATTTATTAAAAGATGCAGAAATTACAAATTGATATGGTTTTACTGGAGCAACCATAAATCTCTTTATTATTCCTAGCTTTTTATATCTTCCAAAAACATTTATCACAGAAAACATTCCACCAGAAAGTATTGAAATAGCTATTATTCCTGTTAACAAATATTCCATTGGATTTGTTTGAGTTTTCCCTAATTTAATTAGTTTTTCATCAACACTTATATAATCTTTTTTTAATTTCAATAAGTATTTTTTTACTCCACTATTTGCTCCATACTTTATCCACTGAATATTTGAATTCATATTTGAAACATAATAATATTTAACTTCATTATTGTTCATATAGATTCCATAATCAACTTTATTATTATTAACTGCTTCTTTTAATTTTTCTTCATTTTCATAAATTAAAATCTTGTTTGGTTTAAAGTAATTTTTTACATCATCGTTTATAGTTCCAGAAATACCATAAGTATAAGTTTTAACTATATTATTTTGAGTAAATAAAAAACCAAAAATCACTAAAAACAAAACTGGAAAAAACAAAGTAAAAAAAACTTCAATTTTGTTTTTAAAGGTTTCAAGAAAAAAAACTTTTATCATTGTTTTAAAAGATTTATTCATATTTCATCACCCTTTTATAATTTATAGAAAATGTAACTATCCCAATAACAAACCATATTGCAGGTATAAGATAATTGATACCTCCAACACTTTTTCCTTCTAATAAGTTTCTCATACCGTCAACTAAATAAGTTGCAGGATTAAAATATACATACCACCTTATAAACCAAGGCGTTGTTTTTACACTAAAATATAAACCACTCAAAAATATTGTCATTTGATAAGCTACATTTGAAACAACTGAAATTGTAGAAATTTTTTTAAAAAATGATGCAAACAATAATCCAAAAGAAAGAGCTGTTATAGCACTATAAATTAAAAAAATTATAAATTGAATAGAATAAATTACATTAGTAACTTTTAATAAATATGCTTCAAAATAAAATAATGAAATTGACAGTATTAAAACTAAAAAATTTGATAAACCAAATGCAAAAAAATAATGATAGGACTTTATGGGTGATGTGTTTAATTTTTTTATAATACCACTTTCAACGTCTGTTATTATACCAATTGGCATATTAAAAATTGAAATAGTCAAGATCGACATCATTAAAATACCTGGAAATAAAAAATCTTTATATTTGAGTGATTTTTTTAGGTTTATTGCTTCTTCTGAAGAATTTACTTTAAACTCTTTTCCTTTATTTGCAATTCTAACATTCATTTCATCTACAATAGATTTAAAAATATTTTTAGAAAAAATAGAATCATTGCCAGGATAATAATAAAATTCAATGGATGGTACTTTAACCAAATTAAAAACCATATTCAAATTTAAACTGTTAAAATTTTTTGGAAATACTATAAAACTATCTATTTTCTTTTCTTTTATTAAATTTATTCCTTCATTTTTAGACTTTAAAGTCGAAAATTTTATCATATTTGATTTAGAAATTTCTTTGAATGTACCTTCAAATATTTGTTCAGCCATGCCAGTTAAATTTTCTTCATAATAAACACCAATTTTTAAATTTGTATTCATGTCTCCATTTTGAACTCCACTAAAAAGAGCATTAAAAAATAAAAAGAAAACTGCTGGAAAAACTATAGACCAAAAAACTATCTCAAATTGTCTAAAATTATCCGTTATCATTGTTTTTGTTAAAGAAAATAATTTCATACATCCATCCCCCTATTCTCTAAGTGTTCTTCCAGTAAGTTGTAAAAAAACATCTTCTAAATTTGGTTTTCTTATGGATATATCTTCTATTTTATGCCCTTTTTCTTTTGAATATTCAAGAATTTTTATTATATCACTTTCTACATCATTTGTCTCTAACTCATAAAATCCATTTATATTTTTTAAATCTAACATATCAATTTTAATATTTTTTTCTGAATAAAATGTAATAACCGACTTCATTTTAGTATTTTCAATCAATTCTTTTACTGTACCTTTTAATATAATTTTTCCGTGGTCAATTATATAAATCATATCTGCAAGTTTTTCAGCTTCTTCCATGTAATGCGTTGTAAGAATTATTGTTTTTCCATTCTTTTTCAATTCAATTATTGCATCCCATAAATTTCTTCTTGCTTGTGGATCAAGACCTGTTGTTGGTTCATCTAAAAATACTATTTCTGGATCATTAACAACAGCTGTTGCAAGTGCAACTCTTTGCAATTGCCCACCAGAAAGATTTTTTATTCTTGATTTCTTTTTTTCTATTAAATTAAATTTTTTCAAAAGTTCATTTACATCAACAGTTTTTTTATACAAACCAGAAAAAGCTTTTAAGGTTTCGTGAACAGTTAAATTAGTAAAAAAATTAGTACTCTGAAGCTGAACTCCAATTTTTTCCTTTATTTTTTCATCAACAACATTAATTTTTTCTCCAAAATAGTAAATTTCTCCAGAAGTTGGAACTCTTAGTCCTTCAAGAGTTTCTACTGTTGTAGTTTTTCCTGCTCCATTTGGTCCCAATATAGCTACAACATACCCCTTTTTTACTTCAATATTTATTCCATCAACAGCTTTTATACCTTTATAATATTTTTTTAAATTTTTAACCTCTATTATATTCATAAAAATCCCCTCCTTATAAAATATTTTAACACAAAAACTAAAAAAATTTATTTATTTTGATATTATGGTATATTTAGTAATAAAATATATAAATTTAACCGAAAAAAGAAAAAACTTTATTTTATATTTTAATTTTTTATATAATTTTATAAAAAATTAAAATTTATACAATAAATTTTATATAAAAATAAAAAAAATTAAAATATCTCTTGACTTTTTTAAAAAAATAATGTACAATATTATTGAATTTAAATTTTATTATAAAAAACTAAAAAAAGGAGGGGTTTTTATGAAAAAATATAAAGAAAAAAGATGTACATCATACTCTGAAGGTTTTGATAGAATCGTAGAATTAAAAGATTACTTTAATTATATTATTAAATTTTAATTAATTTTTTTAAACATGATGCCCTCACCCTAATTCATGTTTTAAACTAAAAAAAAGATTCCTTAAAAGGAATCTTTTTTTATTTTTCCATTACTTCTATTCTATTTCTTCCGTTTTCCTTTGCTTTATAAAGTTGTTCATCTACATATAACAATAAAGTTGATAATTCAATTTTTCTATTTGTAAAAATAACTCCCAAACTAACTGTAACTCTCAAAGAATTATTATTAACAATTATTGGAAAATCAGAAATATTTTTTAATATTTTTTCACTGACTTCCATTAATCTTTGTTTTGATATATTTGGTAATATTATAACAAATTCTTCTCCGCCATATCTACCTAAAATATCTGTTTTTCTTATACAACTTTGAATTCTTTCAACAATAATTTTTAATACTATATCTCCTATTAAATGTCCATAAGTATCATTAATTTTTTTAAAATAATCAATATCCACCATTATGGAACTATAATTTTTATATTTATTACTTTCTACAATTTTTTCAGTTTCCTTAAAAAAAGCATACCTATTATAAATTCCTGTAAGGCTATCTATTTTTGATAATTTTTCTGTTTTTAAAAATAATTTGTTATTTTCTATAATTACTCCTCCATAATTCATAAATTCATTTAGTATTTTAACTTCTTCTTTTGTATATTGTGACTTTTTTAATGAAAATAAGATTATTTTTCCATTTTTTATTTTAAAAAGATAAACAGTTTTATATAAAGTATTTTCTATATAAAAATCATTTAAAATACAACTTTCTTTATTATTATCAAAAACTTTATTTAATAAATAATTAAAATCTATAATTTTTTCTTTAAAATTTTTAGAAATATAAGTATTATTATCTTCTAAATAAATTATTCCTCCATCTAACTCTAATTCATTTATTAATTGATCTAATAATTTTTCGGGTATTTTTTCATTCTTTATCTCTGTTAGAATTTTAGAAACTTTATGAAGTTTCAACAAAAAATTTTTCATTTTTTGATTTAATTCTTTTTCTCTTCTTATTATATTAATTTTATTTCCTAATGATAAAGAAAGTAAAATAACTTCTAATGTAGATCCTATTTTAGGAAAATAAATAGTTAAAATATTTGTTGGAATAATCTTTAAAGCTGCTAAAATATTTATAAAAATACCTAAAACAAAAAAAAACCAAGCATATGTAAAAAGTTTTATTGTTAAAGTTTTCATCTTTAATTTTATCATTAAAAATGACAATAAAAACACGCTAATCAATCCAGAAATAGTAGCAATATTTGTACTCAAGGTAGAGCTTAAAAATAATGAAATAAAAAGCATAATTGAGAAAATTTGTATAGAAAAAATAAATATTTTATTTAAAGATTTTTTTATTTTTGATAAATTTATAAACTTTTTTACAAATAAAAGATAAAAGATTATAGTTAAAAATATAAAAAACGAGTTTGAATGTTCAAACCACCATATATTTTTTGAAAAAATATCATTTGTAAGTCCATCCCAAACTAATTGCATCATTACAAAATTAAATAAATAAAGTATATAATAAAAATATGAAATATTTTTGGTTGAGATAAAAATAAAAAAGTTATATAAAATCATTGATATTATTATCCCATAATACAAACCTAAAACTATGTTTTCATTTATTTTTTTATAAAAAAAATCGTTTTTTTCCAAAACTTTTATAGGAACAGTCATATAACTACTTGTTTTTACTTTTATTAATATATTTGTTTTTTTACTTTCTATTTTAACTGGAAAAACAAATGTATTAACCTTTAAAGGTTTAGAATCATAACCTCTATTAATTCCTGTTTTTATACATGTTTTTATAGAATTGTTTTCTATTACATAAAAGTCAATATAAGATAATTGTGGTTTATTTATTTCAACAAAAAATTCTTTGTTTTTTTCATAATTTTCTAAAGAAAAAAAATACCAATAAGAAGAATTAGTTAAACCAAAAGTTGTTTGATTTAACACTTTTTTATCCATTTTCAAAACTTCTAATGGAGTATATAAATCCTTTTTATCTTCTACATAATAAATTTGTGTAAAAGAAAAACTTGATATAATTAAAATTATAATAAAAAATATAATCTTTTTATAACTCAATGATAACTTCCTTATCAAAAGAACCTTTTAATAATGAAATATTACCATAAGAAGAAAAATCTTTTGGCATATATGAATTTATAACTTTTTTAGTGCCTAATAATCCCATTTTTATATAAGATTCAGCAATCAATTCACTGCAGGTATAATTATCTTTTTTTGATGGTAAGTTAAATATTTTTCCTTCAAAAACTTCCCAAATCATTTTTAATTCGCCTGGATTGGGTATTCCATAAACATTATAAAATAATTTGTATAAATCATCTAACATTTCAGATGTTCTTTTCAAATTTAATTTTCTAAAAGAATAAATCGGTGGTTTATATGGAGTTACATCATTTCCATATGATTTTAATCTTTTATAAAGTTCAACTAATTTTGGACCTTTTTTATGATCATCAAATAAAACATCTTTTAAATTAGTTAAAGATGTTGATTCCCATAAAAAAGGTTCTGAAATCTCATCAAACTTAACTACCATTGCAACATGTGACCAAGGACATTCTTCTAATTTTTCTACAAGTTTACTCATTTCATACTGCCCACTAAATAGTATTAAATCCCCTGTTTCCATAATTTTTTTTACTTCATTATATTTCATAAAATCCCCCCTATCAAAAGTTATTATACTATAATAAAAATTTTTTATCAATAAGTAAAAGAGTAGAAGCTTATGCTTCTACTCTTTTACTTATTATATCTTTTGTATCTCTTGCTATCATTAATTCTTCATTTGTTGGTACTATTAATACTTTTACCTTTGAATTTTCTGATGAAATAATTGCCTCACTTGAATTTAATTTTACATTCTTTTCTTGATCTAATTCAACTCCAAAAATCTTTAACCTATTGCAAACATGACGTCTTATAGAAGTTGAATTTTCTCCAACACCTGCTGTAAAAATAATTGCATCTACTCCTCCAAGTGCAGTTGCATAAGCTCCTATATACTTTGCAATTCTATAAACATATACGTCTATTGCAAATTTACAGTGTTCATCGCCCTTGCTTTTTGCTTCTCTAATATCTCTCATATCATTACTCAAATAATTAGAAAGGCCATACATTCCACTTTTTTTATTTAAAATATTATCAACTTCATCAGGAGTATAACCTTTTCTTATTAAATAAATAGGAATTGAAGGATCAATATCTCCACTTCTTGTACCCATAACAACACCTTCAAGTGGTGTAAATCCCATTGATGTATCAATTACTTTTCCTCCATCAATTGCAGCTATTGAAGCTCCATTACCTAAATGAACAGTTATTATTTTTAGTTCTTTTATATTTTTATTCAAAATTTCAGCTGCTCTTTGAGAAACAAATCTATGACTCGTACCATGAAATCCATATCTTCTTATTTTATACTTATGATATATCTCATAAGGTATTGGATATAAGTAAGCTTCTGGAGGCATTGTTTGATGAAAAGCAGTATCAAAAACTCCAACCATAGGTACACCTGGTAATAATTTCTCAGCAGCTTCAATCCCTAAAAGATTTGGAGGATTATGAAGAGGTGCAAGTTCTATATTTTCTTCAAGTGCTTTTTTCACTTCATTAGTTATCAAAACGGATGAAGCAAATTTTTCTCCCCCATGTACTACTCTATGACCAACAGCAACAATTTCTTTAATATCCTTTAAACAACCAAATTCATTATTAATTATTAATTTTAAAACCTCATTCAAAGCTTTTTCATGATCCTTTATTTCAATGACTTCTTCATGTTTTTTCCCATCGATCTTATGAATTATTTTTGCATCTTTTCCACCTATTCTTTCAACTAAACCCTTACACAAAAGTTTTTCATCTTTCATGTTCAATATTTGATACTTTAAAGAAGAACTTCCAGTGTTGATAACAAGAATTTTCATTTTATTTCCTCCCATATATTTTAAATATAGAAACTCATATTTTTAATATTTTTTTAATAAAATTCGGAGGTTTAACTTATTTTTTTCAAGATGAAAAAAAACGGTATCCTATTAGGATACCGTCAAATTTTTCCTACAGAATCAAGAACTTCCATTCTGTCCATTATAACTTTTTTTGTATATTCTTTTGCTGTTGCAAAGTATTTCCTTGGATCAAATTCTTTTGGATTATTATTTAAAAATTCTCTTAAACCTGCAATGTATGCCATTCTTAAATCTGTATCTGTATTTACCTTATTTATTCCATATTTAACTGTTTCTTTTAATATATCAGAAGGAACGCCTTTTGAACCTCCAAAATCTGCACCGTTTGCTTCTGCAATTTTTACCATTTCTTGAACTACACTTGACGCACCATGAAGAACAAGAGGTATTTTTGTAAGTTCTTTAACTTCCTTTAATCTATCAAAATCTAACTTTGCTGTTCCTTTAAATTTAAATGCACCATGTGATGTTCCTATTGCTGGAGCTAAAAAATCAACTTTTGTTTCTTCAACAAATCTTTTTGCTTCATTAGGATCTACAAGAACAGAATGTTCAGCTACAACATCGTCTTCTATACCTGCAAGTTGACCTAATTCTGCTTCAACAGAAACATTTGCAGCATGTGCTATTCTAACAATATCTTTTGTTATTGCAATATTTTCTTCTAAAGGTGAATGAGAAGCATCGATCATAACTGAAGAATATCCAGCTTGTATACAAGCCATTATGTTTTCTAATTTTGAACCATGATCAAGATTTAGTGCAACTGGAATTTCTACAGAATCTGCAAATTCCCTAACCATTTTTACAAATAATCTTGCACCTCTATAAACATCACCATCACCTGCATACTTTAAAGCACCTTGTGAAGTTTGAATAATAACAGGTGATTTTTTTTCAACACCAGCTTCAATTATTGCATGAATAAACTCTAAATTATTTACATTAAAAGCTCCAACTCCATATCCTTCTTTGTTTGCCTTATCTAGTATAACCTTTGTATTTACATATGCCACGAGTTTTCCCTCCCTCGTAAAACTAAATTCATTTATATTATACCATATTTTTAAATTCTTTCAATTCTTTTTAAATCGATTTATTCATCTTTAAAGATATTTCTTTTGTAATGACAGTAAGATTTCTTCCCTGTTTTTTCATAATACTTTTGATGATAATCTTCTGCTTGCCAAAATTCTTTAGCCTTTTCAAGTTTGGTGGCAACATCATATCCTTTCTTTTTAAGAAAAGAAATTATGTTTTCTGCTATTTGTTTCTGTTCTTCATTGATATAAAAAATTGAACTTCTATACTGTTCTCCAATGTCTACACCTTGTCTATTAATTTGTGTGAAATCATGAATATCAAAAAATATTTTTAATATTTGTTCATAAGTAATTTTTTCTTTATCATAAATTAATTCTATAGCTTCAGCATGACCTGTAAACCCATAGCATACTTGTTCATAAGTTGGATTAGGTGTTTTTCCACCTGTATATCCAACTCTTGTATCAATTATTCCTTCATAATTTTTTAATAAATCTTCAACTCCCCAAAAACATCCTGCTGCTAAAATAGCTTTATCGTATTTTTTTTCATTTTTCATAAAATCATTCCTTTCATAAAACTCCACACTAATAGTGTGGAGTTTTTATTTTTAAATTATATTTTAAACATATTCATAAGATCATTATCAATTTCAAAATTTAATATATCATTTTCAATTAGAAGTGAATAAAATTGATTTATTTTTTTAGTTAATTCTTCTCCTTCAACATATTTAAAAGTTACTCTATTTAAAAATTCTTCAACATTTTCAATATTTGCTCTCATCATATCAAAAGAAAGTTTTGCTGCTTCTTTTTTATTTTTATTCACCCATTCAATACTATTTTTTAATTCATCTAATACAACTTTGGATATTTCTGGATATTTTCTAACAAACTCTCCTTTAAATATAACTCCTGCATTTGGAAATAACCCAAAATTATTATTTATTTCATTCCAAAGTTTACCATAAGATAATTCTGAATATTTAATATTATTATTTTTTAATGTTTTTATAGCAAACCCTGCTTCAGGCTCTCTAAGTAATACAGTATCCACTTTTCCATTAATAAAATCATTCATAATTTGTTTAGGTCTTCCAAAAGGTTTACCAAACACAAATTCAAAATCATTTACATCAAATCCTTTTGATTGTATTAAATACTTTGTTATTTTAGCTGGTGGTGCATCTTCAAATAAAGGTAAATAAAGTTTTTTACCTTTTAAATCTTCTATTGACTTTGCTTTATACCCTCTTGTTAAAATAGAAAAATTATCCCAAACAAATACAACTGGCATCTTTACATCCATACCTTTAAATTTTGAAGCTGTTATTAATGCAGAAAAACTTATATCTGCTTTCCCATTTACAATCCAACCCAAATGTTTTTCTGTTTCTTCCCAAACTTTTAACTCTTTTATATTTACTGCATTTTTAATTTTTTTAGACTGTAAAAGTTTCATAATTATAGGATAACCAACTGGTGTTGCTGATTGTATTGTAATAGTAGGTTTATTTGAGTTTTCATTTTTTTCTTCTTCTTCAATTGTTTTTTTAAAATAAACCCAAACTTCAAATTCACTTTTAATTTCTGTTTTATGATCAAATCCCATTCCATTTAACATATTTATCAAAGGGGTTGGTTCAAAGGTTTGAACTAATATAAACTCTTCACCTGGTTTTATGCTATAGGCTTTTTTAATTATTACATCAAATGGATCAACTTGCATAGTTCTAACATCTAAAATATTAAGATTATCTTTATTGCTCTTATTAAAAACAGATACTCTATATTCAAATTTGTTTATTTTTTTTACATTGTACAAATATTTTAACTCTTCAATATTTTTTATAAAAGGATCTATTACAAACTCTCCTTCAAATACAAATCCTTCACCACGTTTTAAATTTTTTAATTTATTTAAAACATTTTCAATACTTTCAAAATTATTATTTTCTACTTTTAAAACTTCATTTTCATCCCAAAATATATCTGTATTATTAAATTTTTCTTCATTAAATTCTTTTATACATTCTGGAAATTTTTTTGACAATTCTTTTACTAAACCTAATTCTTCATTTAAAGTATGTAAGATTTCACACAAAGATATCTTTGTCATTTTAGAAGCATTTTCAAAAGTTGCAAATTTTGCAAGAGTATTCCACATAAACGGTGTTTGCATCTTTTTAAACTTTGGAGATAGTTCAATTAATTTTTCTTTTAACTTTGGATGTTTTTCAAGAGTTTCTTTTACATTAGAACTGCCAGTTATTAATTCAATATTTTTTATTTCAATAGCATTTGTTGGGCATGATTTTAATGCTTTAATTGATTTAGTTTCCTCTGTTTCATTTTCTGGTTGTTTATAAACTATAGCTTTTCCATCTATTATTTTAAAATTTTCTTCAGCAACTCTTTCACATGCTCTACAAGCTATACATTTCTCTTTTAAAACTTTAAACTTTTCCATTTTAAACACTCCTTTATCCAGATAATTTTTATCGTATATAAAAATTATATATTATTTTCATATAAAAATCCGTATCATATGTTACACTTTTTAATAGTAAAAATAAATAATTTTTGTTATAATCAGTTAGCTTAACTAATAATTATATTGAGGTGATTTATGTCAAAAAAATACTTTAAAGTATTGAAAATCGCTTTACCTGCTGTTGGAGAAATGCTTTTATATATGCTCGTTTTTGTATCAGACACAGCCTTTATAGGTCATTGGGGCGGGAATGATGCAGTAAGTGCTGTTGGATTGAGTACAGAACTAATATATACTATTACAGGTATAATAATAACAATAGGGTTGAGTACTGCAATAACAACTATGGTTGCTCAAAGTTATGGAGCTAAAAAAATAAATACAGTTGAAAAATACTTATCTTCTGGTTTTTTCTTCGGCTTTTTCATATCATTAATTGTATCAACCTTTATTTTTTTATTTAGTAAAAATATATTAATTATTTTAGGAGCTAAAAAAATTGTATTATCCTATGGACTTTCTTACACAAAAATAGTAGCTTTTGGATCAGTATTTCAAATGTTAGTTTCATTACTTAGCTCAGGCTTAAGAGGAATAGGAAATACTTTTATGTCAATGATTTCAGCATTAATTATAAACACTATAAATATAATTTTAGACTGGATTTTTATTTTTGGCAAGTTTGGATTTCCTGAAATGGGAGTTAAAGGTGCTGCCATTGCAACCTCTCTTGCAGCAATTATTGGATTTTTATTTTTAGTATTTTATTATGTATTTTTTTCAAAAGTAAAAATCAGATTTAAATATATAAAAAATTTAAACAAAAAATATATTTTAAAATTATTTTATCTTGCAGTTCCTTCTGGGCTTCAAGAAGGAGCTTTTAGCTTAGCAAGATTATTATCTGTTTCTTGGGTATTGAGTGGTCTTGGAAAATTATCTGCTTCCACTAATCAAATAGTTACAACAATAGAAAGCATATCTTTTATGCCAGGTTGGGGATTTAGTGTTGCAGCAACTGCTTTAGTTGGTCAAATGATTGGAGCTAAGGACTATAAAAAAGCTAAAGAGTACGCAAATATTTCTGCATTAATGGGAACTGTAATAATGAGTTTTTTTGGAATATTGTTTATATTAATTCCAAAACTTTTTATGAATTTTTTTATAACAGATCCAAAAACAATAGAACTTGGAGTACTATGCTTAATAGTAACAGCTTTTGAACAACCAACAATGGCAATAAGTATGATTTATGGTGGATCTTTAAAAGGAGCTGGAGATACAAAAACGCCTTTTAAGGTATCTTTATTTACTAATTGGGGAATAAGGCTTCCTTTAATATTTATTATAATCTTTATTTTAAAATTAAATCTAGTTTATGTCTGGGGAGCAATGGTTATACAATGGTTTATAGATGCACTATTAAAATATAATTTCTTTAAAAATTTTTTATCCTCAAAAATAAAATTAAATATATAACAATTACACAAACAACTAAATTTGTTTCAATTTTACACACTCCTACTATTTTGGTAATTTACATATAAAAAATTTTTTTATATACTTTATATGTTATCAAAATGAACTGAAAGGAGTTGTAAAATATGGGAAACTATCAAAGAATAAATCCAAAAAAACCAGAAGGTATTGAAACTAAAAAAGCTTATTTAGTTGGTTCTGGAATAGGAGCACTTTCAGCAGCTTTTTATTTAATTCGTGATGGACATATGGATGGAAAAAATATAACAATATTAGAAAGAAAAAACATTAATGGTGGTGCTTTAGACGGAGCAGGAAATGCAGAAGAAGGATATGTTATTCGTGGTGGAAGAGAAATGGAAGCTCATTATGAATGTACTTGGGATATGTTTGGAGATATTCCATCTTTAAAAAGACCTGGTAGAACTATTTTAGATGAATTTCACGAAATAAATGTTTGGGATCCAAATGAGTCAGTTTGTAGATTACTTCATAACAGAGGTGAAAGAGCAGATTCTTCTACTTTAGGCTTAGAAGAAAAACACATTAAACAATTAACAAAACTTTCTTTAGCAACTGAAGAAGCACTTGGAAATATTACTGTAAAACAATTTTTTGATCCATCATTTTTTGAAACAAATATGTGGTTATTTTGGAGAAGTATGTTTGCTTTTGAAACATGGCATAGTGTTGTAGAAATGAAAAGATATATGCAAAGATTTATTCATTTATTACCTGGTATGAATAAATTAAAAGGCATATTATTCTCTGAATACAATCAATATGATTCATTTGTTTTACCTTTGTTAAGTTGGTTAAAAGAACGTGGAGTTAAATTTGAAAATGAAACATTGGTTACTGATTTAGATATGGATATAACTGATTCCGAAAAAGTAGTTACAGGTATACATATTATAAAAAATGGAAAAGAAGAAATAATAAAAACTACAAGAAATGACTTAGTTTTTGTTACCAATGGTTCAATGACAGAAAATTCAACAATTGGAAGTATGAATAAAGCTCCAGAACTCAATAGAGAACCTGGACCAGTTTGGAATTTATGGAAAAACATTGCAAAAAAAGACAAAGCTTTTGGAAACCCTGAAGTTTTTTGTGGTAATATAGACAAAACCAAATGGGAATCATTTACTATGACATTCAAAGATTCTAAAATGGAAGATGTTTTGAAAAAATTAACAGGTAATGATCCTCGTTCAGGAAGAGGTATTACTGGAAGTGTTGTAACTTTTAAAGATTCAAACTGGGGAATGAGTTTTACTGGCAGTAGACAACCACATTTTGCAAATCAACCAGACAATGTAATCGTATTGTGGGCATATGGATTATTCCCAGATAATGAAGGAGACTTTATAAAGAAAAAAATGAGTGAATGTACAGGAGAAGAATTATTAAGAGAAGTTTTGTACCACTTAAACGTTGAAGGCGAATTAATGGAAGAAATTGTTGATAGTGCAATAGTAATTCCAGTAATGATGCCATACATCACAAGTCAATTCATGCCAAGAGTAAAGGGAGACAGACCTGATGTTGTTCCAGAAGGTAGTGTTAATTTAGCATTTTTAGGACAATTTGCAGAAATAAAAGATGATTGTGTATTTACAGTTGAATACTCTGTTCGTTCTGCAATCATGGGTGTATATAAATTATTAAATCTTGAAAAAGAAGTACCAGAAATTTATCCAAGTCAATATGATGTTAGAGCACTTACAGCAGCTACAAAAACATTGTATAGCGGAAAACCTTTACCAGGCGAACCTATAATAAAAAAATTAATAAAAGATACAACATTAGAAGGATTAATTTAAAAAATAAAAAGAGAAATCATTTATTTGGTTTCTCTTTTTCATATTTTAATAAAGCTCTATAAAGATCTCCATCTAATATTTTAGTTAAATTATCTACTATTTCTTTTGGATCTTCTTCCATATGTTCCTTAACCCAATCAATAATTGTATTAGTAAGTGCTATTTTATAAAATTTTGCTACATATTTTTTATCTTTTTCAGTTATATTCATATCTTTTGAAAGTTCATTTATAACCCCAAAAATAAGTTTATATACGCTTTCATCCAAATGATTTTCTAAATGATCTCTATCAATTGAATTATATGCATTTAAAACTATTTTTTTATTTTCACGTAAATAATAAAGTATTTTTAAAAAACCCTTTTGCCAAGTTTCATAAGTTCTATTTTTTCCAAGAACATTAAGTATTTCCGTTTTAAAAGTCCATTCTAAAAGATCATATATATCATGAAAATAATAATATAAAGTTCTTCTGTTTAATCCACATTCTTTAACAACATCATTAACCGTTATTTTAGATAATGGTATTGTTTGCATTAGTTTTTTTAATGATTCAGATAAAGCTTTTTGTGTAAGTTTAGACATATATGTTCCTCCTAGTATCAATTTTAAACTAATTATAAAATAAAAAATCACCATTATAATTAATAGTATTATGTTATAATAACATTAATTATAATGAAAGAGGGTAATATAAATTGAATTCAAAAAAATTTTTAGGATGGGCATATCTTTTTATAACAATTTTCTTTTTTAGTACTATTGAAGTAGCTACTAAACCTTTTTTAAATATTTTCAATCCTTTTCAAATAACTTTTTTAAGATTTTTTATTGGTGGACTATTTATTTTATTATATCTTTTTTTAACAAAACAAATTAAAAATTTTCAATTTTCATTCAAAAATTTAATGTTGATGTGTTTTATAGGAAGTTTAAATTCTTTACTTTCAATGTCTTTATTACAGTTTTCTATAAAATTTTCAAATGCTTCAACTGCAGCAATTTTAATAAGTGCAAACCCAATTTTTGTTTTAATATTAGCATCAATTATTCTAAATGAAAAAATAACTTTAAAAAAAATTATTTCTCTAATAGTTGGTATAATTGGCATTATAATAATATTACTTTCTAATAATACTGGAGATAGTTATTTAGGCCTTTTATTTGGACTTCTATCTACATTCAGCTTTGCTTTTTATACAGTAATGGTAAAAAGATATTTATCAAATATTCCTTCAAATATTTTTGTAGCTTTTTCTTTTTTAATGTCTTCAATACCTTTTTATATAGTATTAAAAATATTAAAAATACCTGTATTTGAATTCAATGGAAACTTTCAAATTTATTTGATGTTATTTTATATAAGTATATTTGTTACTGGTATAGCTTATATTACCTTCTTTAAAGCATTAACTATCTTAGATGCTTCTTTAGGTTCTTTTTCTTTTTTATTAAAACCTGTAATTTCAACAATACTAGCTTATTATTTTTTAAATGAAGTTCCAAATAAATTAAAATTAATTGGAACTATATTTGTTGTTTTATCTGTTGGGATTTTAGCTTTAAAATTCCAACAAAAAAATAACTAAAAAATATTTTACTAAATTTAAATTTTTTTATAAATTTTTATATTCTTTTTATCAAAATCAAACTAAATATCTCTTTATATGATATCATAACATGATACCATATAAAGAGGTGATTTATATGAAAAAATTTGTTCTTTTTATTTTTTTATTTATCAACATTTTTGTTTTTTCAAATCCTTTAGAAGATACATTTAAATTTTTAAATGTAAAATACGATCCAAAAGAAATAAATACATCAAATAATTTTGAAGTATTATCAATAAAAGATATTAACTCTAATGAATGTTTTATAAAAATACATTGGAATATAAAAAATATTTTTTTATCTGGGACAAGAGTTTTATTGAACAATGGAAATGGCTTTAAAATTATTAAAAGCTTATCAGCTTTTCAAAATTCTGTAAGTATAAAAGTTTTGAAAAACAAAAAAAATAGTTTCATAATTCAAAATTATGACAAAGATGGAAGTATCTACAATAGTACAATAAAAGACGTTTATATTTTCTACAACAATGAAAAAAACAAAATTATTTCATATAAAAATAAAAAGTTTTTAATATATAAAAATTTATTTGAAAAAAATAAAAATACTTTAATTTATTTTGGAAAAAAAGAAGAAGATTTTTTAGAAATAAACGCATTAAACTTAAAATCAAACTCAATAGTTTTCCCAATAGGATACACATCAGATTCAACAATTGCTTCTTTTGTAAAAGAACGAACTAAAGTTTCATTTATTAATAGCAATATATCATTTAACTTTGAAACGAAATATCCACTCATTTCTCCAGAAATAACTAAAAGTGGATTTCACGAAATATTTCCAATAATACCAGCATCATACATATCAAAAAAATTAAATTTAAACTTCAATTCAATAAATATAAGATTGTTTTATAAAAATGAATTTAAAGATGAAAGTTATTCTGAACTTTGGAAAGTAAAACCAAAATTTTCAAGACAAACTTATGAAGAAGAAGCTATGATTTTACACAAAAAAATATCTGGTATAAGATATGGTTATAGAATTCCAGAAAAATCTATAAATACTGAAGTTTATAATAAAAAAAGGAAAGCTATAATTTTTGTTCACGGAATTCAAATAAATAGATATTTAGAAAATTTTTTTAAAGAAAAATTTCCTTGGAGAACTTTACAACGGTTTGGAACCTTTAATAATTTCTTTAGATATATATACGAAAATGATGAAAAATTTAAAAATTTTGATTTTTACGAATTTATTTATGATTCTCATACCATGACAGCAAAAGAATTTGGAAAAAAACTTTATGAATTAATGGAAAAAGGAAAGTTTAAAGATTATAAAGAACTTTATTTTATATCTCACAGCATGGGAGGATTAGTTACTAGATATGCACTTAATTTTTCAAATTATACGAATATAGTTAATATAATAAATATAGATGCAGTTAATTATGGCTCATCTTTACAAAATCTAATAGAACTTTTTGCTTATAAATCTTTTGATGAAAAAATTGATGAAAATATAGAAAGTGCTATTAAAATATTAGAAAATTCATTAAATGATACTATTTCTCAAAAAAAATTAAATTTAGATAATGAGTTAAAAATATTATTTAAAACTTATCCATACTTAATACCAGCAATTCTTTCTGAATATAATATATTAGATACTTTTAATGGAGGATATTCTATACGAAGTTCAAATACTAAAAAATTAAATAAATTAAATAATACACTTTTTAAAAAGAATTTATTTACACCTTCAAAAGACATAATTAATTTAAATAAAAATGATAAATACTTAAATAAATTACTCTTAATTTATTCAAAAATTGATGATTATGATCCAATAGTTACATTTAACTTTTCTCACTCAGTTTTAGAATTTTTTGGAAGAATAACAAATTCATCTAAATATGAAATAGAAAATGATGGAGCAGTTACAGTTGCCAGTCAAATGATGTATGGATATAATGTAAGAAGAGATTCAAATTATATAAATGGAAGAAATCACGAAACTTTTTTTAATGATTATAAAATGATAACAGAATTACTAAATAAATATGTTTTAATTAATTATTAAATTATGTTATAATAAAAAAAAGGTGGGGATTAATATTGAACTCTAATGAAAATATTAATGCAATTTACTATTCAGTAAAAATTTCTTTTGAAAAAAATATAAATAAAAATAAAAATTTTAATGAAAGTATTTATACTTTAATGAATACTCTAAAAAATAAAAACAATGAAGATATATTAAATATGATTATTTTAAAATTTAATAAAACTTTTAATATAAAAATTAATTCAAAAAAAAATATGTTTAAAAACAAATCACAATATATAATTTCTAATAAAGTTTATAAAAATATAACTTCTTCTAGAAATAAAATAAATACACTTCAAATAAATTCTCAAAATGTACTGAATAACAAAATTTTAAAAAAAAAGCATACATTAAAAAATGAAAAAAGTAATTTAAAAACATGTTTTTATTATTTAAATACTAAATTTGATAAAAACAAACCTCTCCCTAAAATCATAATTAAAGATTATTCTACATTATTAAAAAAGCGAATGAACTCTAAAAGTTTGTTTGTTTTATATGGTACATTAAATAATAAAATTAATACATATATACAAAATGAATTAAAAAATAAAAAAGAAAAAAATAAAAATATTTTAAAAAATTCAAGGCTATATATAAATAAAAATTTTCAAAATATACAAATAAAAAATTATGAAGAAATAAATTTAAAAACTGAATATTGCTTAAAAAGCATGAAAATAAATTTAAATAATATCATGAATAATACTTCTTTAATTTTAAAAAATAAAATTTTAAATTCAGAAATGATGTTAGCGGAAATTGGTTTATTTAAATTCGAAATAACTAATAGTTCCATATTTAAAATTAATTGCTTTATAGTAAATAAAAAATATGACAATATAAAAAATATAACAAAAGATATTTTAAGCTTAATAAAAACAAAAGAGCTATCTGAAAAAAACAAAGAAAAAATAATAAATTCATTGGAGGGATTTGTAAATGCATGAAAATTTAAAAGAAATAATAGAATTAGAAAAATCTGATTTAATAGATTTGAAGTTTAAAGAAATAGTAAATTATATGAAAACAATTGAAGAATATTTTAAAGAAAGTAGTGAAGACGAATTAGAAGAAGCAATAATGCTTTACGAAAAACTTCAAGAATTATATGTTGTTGCAAATAGAAAATTAGAAGAACTTGAAGCTAAGAAAAAAGCAATTGATAAAAAAATAAACTTTCAAAATAAATAAAAATGGCTTGCAAATGCAAGCCATAATTGATTATTATGCAGATGTTACGTTAGAAGCTTGTGGTCCTTTTTCGCCGTCTACTACGTCAAATTGAACTTCTTGATTTTCTTCTAAAGTTCTAAAACCATCCATTGTTATTGCTGAAAAATGTACGAATACGTCTTTTCCATCTTCTGCTGTAATAAATCCAAATCCTTTTTTTGCGTCAAACCATTTAACTGTACCTTTCATACTTTCACCTCGAAAATTAAAATTTGCTACGCTTATATAATACCATATATGATTCGTTTTCTTATTTCTTTTTAGTTAACTTATGATTAACCTTAAAGTTTATTTTTTTTAACTCATTAAGTATTTAGAAATTTAATTTCAATAAAAAAAAAGATGCACTAAGTGCATCTTTTCAATTATTATTCAGCTGTTCTTACGTTAGAAGCTTGTGGTCCTTTTTCGCCGTCTACTACGTCAAATTCAACTTTTTGGTTTTCTTCTAAAGTTTTGAAACCATCCATTGTTATTGCTGAAAAATGTACGAATACATCTTTTCCATCGTCAGAAGTAATAAATCCAAATCCTTTTTTTGCGTCAAACCATTTAACTGTACCTTTCATACTTTCACCTCGAAAATTAAAATTTGTTACGTCTATATGATACCACAATGATTATCAAAATTAAATTACAAAAAGATTAATTTTTTATTAAAATAATTTACTTTCTATTTGGTTTTATAGAATTAACAACTTGATTAACTAAAGGTTTTAACTCTTTTTTTGAAAGAGATTTTGCATACTCTGCATTCAACATTTCTTTAAACCATTTTTCTGTATTAGACTTTGGAAATAGCTTATTATCTTTTACTAAAGGATTATCATTCATTGAATTTAATACCTTAGCAAATAATTCGGAAACAAATGCTTCTGCAGCTTTTTTTTCATTCATTCCCTTTGTATCATAAGATAAATTATATACAGGGCCTATCATATTACATCACCACAACTTCACCGTAAATATAACCGGCTTTAGATAAGTTTTGTATTATAGCTATAATATCTTGAGGAGTTGCTCCAGATGCCTTTAAAGCTGCAATTACATTATCTATAGTTGCAGGATTACCATTTATACTACCATCATTTACACTAATTACAAAATTTCCATAACTCAACGAAAAATCAGCTAATTTTACTTTTCCACCAAGAACTATGGTTCCCGTTTTTTCATTTATTATTATTTGTGCCTTTACATCTGGTTGTACTTCAATTTCTTCTATTAAAGCTAAGAAAGATACTACATCATCATAAAAAACATCTGGAATCTTTATTTTTATAGATGATGAATCCATTGCTTTTGAAATTTTATCTGAAAAGGTTACATTAATAGCCATTGAAACTCTTGCCGCTGTAGAAAAATCAGGATGTTTCAAATTTAAAGTTATAGTATTATTCGAAACAATATTTGCTGGAATTTCTTTTTCAACAATAGCTCCTTGTGGAATATAACCTGAAACTTTGTATTTTTTTTGAAGATTTGTACTCTTTACTTCAGCACCACCAGTTAAAACATTACCTTGAGCAACAGCATATACATTATTATCTGCACCGTATAATGGTGTTTGAATTAAAACACCATTTTCTATTGATTTTGAATCTCCAACAGCAGATACAGTTACATCAAGTTTCATTCCTTCTTTATAAAAAGATGGAATATCAGCTGTTATTATTACAACTGCAGTATTTTTAGAGGTGATTTGATTTTTTATTTGCATTCCAAGATTTTTAAATAAGTTATTTAACATTTCAGACGGAATATTTCCAGAATCTCCAGTTCCATTTAAACCTGTTACTATTCCTATTCCAAATAGTTGATTATCTCTTGCACCTCTAAAATCAGAAATATCTTTTATTCTAACATTTGCAAAAGATAGTATAGATACAATTAATATCAATACTAAAATTATTTTTTTCAAAACACACCTCCATTAATAAAATACATTAGCTATACCAGAAAGAATCCAAGATATCCAAGAAGGCTCTTTTGGATCTTGTTGAAATATTATATCTCCAGCATACCAAATTTTTGCATTTGCAATCTTTGAAGATTCTATGTATCCATCATTTATAGAGTCCTTAGCAAAGTCTCCTTCTATTATCATCTTTTTCCTTTGATTATCAATTTTTATTTCTTTTTCACCACGTATAGTATATATATTTTTATCAATTTTTGTAATTTTTGCTGTAATATACAAACTTACATTTGCTTTTGTAGAAGATTTAACTTTATTATTAGAAACTTTCAAAGATGATGGATCTGTTGATCCTAAAGGTAAAAATTTTGTCAAGTCTGTTCCACCTATATTTTTAACAATGGAACCTAATGTATCAATGGTAGTTGATTTATAACCTGGAATATTATCATCCATTGAAAGTGTTGGTGATTCTCTTACTATAACTGTAATAAAATCTCCAACTGAATAATTTTTATTATTTGAAACAATAGAAGTTTTTGAAGATTTATTCCACAATGAATCTGAAAAAGAAATAGTAGTCAAAATAATTATTATTATTATTAAAAAAATTTTTTTCAATTTACATCACTCCCAAGATTTATTAAAAGATATGGTCCTTCTTTTAATAAGCCAGTAACTACTTTTTTTGTTTGAGTATTTTTAACAGAAATAATTTCGCCGTAATTAGCATCTTTTAAAACAATTCCCCAACTTTTAACTACGACTCCGTTATATTTAACTACAATTGTTATAGTATTTCCTGCTAATACATCTGGAATTACTTTTAAAAAATTTTTATTTATTATTTCATTTTTTAATCCATTTTTTATTAATTTAAATTTTCCTTCTTTAAATTCTTTCAAATACAACGGTTGAAAATTTAAAGATAATATATTTACAGTACTCTCTTTTGTATCTTCTAATTTTAAAATTTCATTTCTTAAAATATCTTTTGAAAACAAAAGAATTTTTTTTTCTTCAGAAATTTTAACTGATACATTAAAATAATGTTTTTGATTGTTTTTTAAATAAGAAGCAGAAATATACAATGTATTTCCGCTTCTAAATATTCTATTTATTGTTGGAGTAGAAGAAACAGTTATTTTTTTTTCTATTTTCAACACTCTAAAATTTTTATTATAATTGTTTACTGTATTTATTATAAATTCATTAAAATTAAAGTTTGTTTTTTTTATTACATCAGATACTTCTTTTATAACTTTTATTGTATTAGAATTAAAGCTTAATTGATAGTCCTTATAATAAATACTTAAAAATCCTTTCAATATCTTCTCTAATTCTTCTTTTTGATAAATTTTATAATTATTAATATAACATATAGTTCTATCATATTGAATATCTTGAAAAATATCTTTAAGAGAAAATCTATTATCATTTGTAATAACAGTAGAAGGAACAGTAAATACTGTTTTAGCATATATTAAAGAAATAAAAAAGATAAAAGTAATAAAAAAAACTTTAATTTTCATTTTATCTCTTCAATGAAGCAACTGTTCTAAGCATCTCATCAGCAGAAGTTATTGCTTTTGAATTCATATCATAAGCTCTTTGAGAAATTATCATGTTAACCATTTCTTTTACTGCCTCAACATTAGATTTTTCAAGATATCCTTGTTGTAAAGCTCCATATCCATCTTGACCAGATACACCTTCTATAGGAGCTCCAGATGCTTGTGTTTCAAGATAAATATTATTTCCTGTAGGTTCAAGACCTGCTGGATTTACAAATCTTACAAGTGTTAAATTACCTAAATTTTGTATAGTACCATCACCAAGTTTTACACTTATTATTCCGTCTGGTGATATACTCAATCCAGATGCACTTTGAGGGATTGTTATATTTGGTACTACTAAAAGTCCATTGCTTGTAGTCAATCTGCCATTTGCATCTCTTTTAAACGAACCGTCTCTTGTATATCCTATCTTTCCATCTTGTAACTGTACTTGAAAAAAACCATCTCCAGTTATTGCTATATCTGTAGAATTTCCAGTTTCTTCTAAGTTCCCCATAGTAAACAATCTATTTGTTGCAGCAAGTCGTGTACCATGTCCTATATACAAACCTGTTGGAAGTGTTGAATCTTGAGCAGTTGGAGTTCCCGCCTCTTTTACTGCTTGATACAACAAATCTTGAAATTCTGCTCTCATTGATTTATAACCAGTTGTATCTACATTTGATAAATTATTTGATATAATATCTAACTTTTTTTGTTCAGCATTCATTCCTGAAGCTGCTGTATAAAGAGATGTTATCATTATTACCCCTCCTATTATGTTCTTGTTATTTCAATTGCTTTTGCATTCAAAGAATCTTGAGACTGAACAGCTTTTTGTAATATTTCAAACTCTCTGTTTGCACTTATCATATTAACCATTTCTTTGAGGGTATCAACATTAGATTTTTCAACATATCCTTGTTTTATTTTGGAGATTGTATCTTTTACTTCAGTTCCAATAAAATAATTTGTACCTTTTTTTGATAAATTCTTCAATTCAACAATACCTATTTTATTGGATGTGTTATTAATATTTCCATTTTCATTAATTTCAAGGTTCTTTTGAACTCTTATAGGATTATTAGTTTCATCTAAAATTTTATTTCCATTATTATCAACTAAATATCCATCAGCTGAGAGTTTAAATTCTCCATCTCGTGTATAAAAAATATCTTTTCCAGATTGAACTTTAAAAAAACCTTTACCTAAAATTGCCATATCAAAATTGTTATTGGTTTCAACTAATTTTCCTTGTGTCATTTCGGGAACAACTTTATCTAATACTACTGCTGTTTCTGTTTTTCCAATACCAATTCCTTTTTGTGAATTTTTAGGAAAAGAATAAAATTCTTTTTCCAAAATGGCTTTAAAAAGAGACGTGTCTTTTTTATAACCATTCGTATTGACGTTGGCAAGATTGTTAGAAATTGAGTTCAATCTTTGAAGAGAATTCAACATTCCCATTCCAGCACTATAGATACCCCTCATATTACTACCTCCACATTCAGTCTACAGAAACTCTATTTAATAATTCTATATTATCTAGTAGAATTCCTGTACCTTTTGCAACAGTAAGATGAGGTTCTTCTGTAACCTTTGTTTTTACGCCTGTTTTTTCAAATATTAATTTATCTAATCCTCGAATTTTAGATGCCCCACCAGCAAGAATTATTCCATTTTTCATAACATCAGCTGCTAATTCTGGAGGAGTTTTTTCAAGTACATTTTTTATTTTTGATATTATTTCACCTAATACAGATTTTATTGCTTTAAATACATCATCTGAATTTATTATTAATGATGAAGGTAATCCAGTTTTTATATTTTGTCCAGTTATTTCTAATTCAATATTTTCCTCCATTGAATAAGCTTTTCCAATTTCTTTTTTTAATTGTTCAGCAGTTGCTTCACCTATTGAAAATCTATATTGTTTTTTTATGTACTTAATTATTTCATTATCCATTGCTTGACCAGCAACTTTTATTGATTCTCTCATAACACTTCCACCCAAACTTATTACTGCTATATCTGTTGTTCCTCCACCTAAATCAACAACCATATGTCCATTTGGTTTTGTAATATCTATTTCAGTTCCAATAGCAGCAGCAACAGGTTCTAAAACTAAATACGCTTTTGAAGCTCCAACCTTTTCGGCAGCTTCTTTAACAGCTCTTCTTTCAACATCTGTTGTTAAAGCTGGAATTCCTATAACAAAAATCGGTTTAGAAAATGAAATACCTTTTTTTGCTTTTTTTAAAAAATACCTCAAAACATCTTCTATTATTTCTGGTGTGTTTATAACTCCATCTTGAACTGGTCTTATTATTTCAATTTCATCGGGAGTTTTTCCAAGCATTTCTTTTGCTTCGTGACCTATTGCAATAATTTGACCTTTTTTCTTATCTATTGCTACAACAGATGGTTCTTCAATAAAAATACCTTCTGTTCTTGAATATACAACAAAAGTTGCTGTTCCCAAATCAATTCCGAGATCGTGTTTAGCCATTTTTTTACCTCCCCGATTTTAGTTGGTGTGCCAGGCGGGATTTGAACCCGCATTTCTGGATCCGGAGTCCAACGCTTTATCCAATTAAGCTACAGGCACATTTTTTCATTGTATTTTAAATCGATATTTTTTTCTTCACTACAAATTAAAACATCATATTCTTCTAAATCTTTTTCTATATTAATACTTTTTATTCCTTGTGAAAAGTAATACCAAAATATCCAAGGATCTTTTGTAAAAATATAAAAATTTTCTATGTCTTTAATATTTTTTATTGCCGTTTCATATACCAGTGTTTTTTTTGATTTTATTTGATGCACAATATTATACACTTTTTTTTCTTTTAATTCAATACCAGCATTTTTGTTTGCAAGGTACACAGATAAAATTAATGAACTACTATTCTGATCTTTAGTTTTTTTTATTTTTTTTGATTTAACAACACCTTTTAATTCTGTAAAAAGTGTTTTTGAAGTTAACCTTTCATCTATAAAAATTATCTTGCACCCATAAGTAGTCTTAACTTCTATAGCAGATTTTATGACATTGTATGTTTGATTTGAAAACCTACCAGACATAGATAATGGCAATCCATATACTATTATTGTATCTTTATTTACTCCTTCTTTTTTGAAAAAAGTAATTAATTCATTATTTAATACCGTCTTATAAGGTGATGCAATATTAAAAACTGCATTTGCTATTCCACACTTTTTTTGTCCGTGATCTATACCAAGTATTTTCATCTTTTTAATAGCTCCCAAATTATGTCTTTATCCATTTTTATTTTTTCATACAAAATACCTTCAAGAATATCTTTGACTTTTATTTCATCTTTTGATGAAACAACTAAAATAGGTGAGCAGCTTTCTAAAACAGATTTAGGTGCAGGATAAATTTTAGAAAATATTTTATTTTCATCTAATATAGATTTCACATCTATTATATTCATATTTTTAATAATTAATGCTAAATCTAAATCTAAAGTAGTTCTCAAATATTTCATCTCCTAATTTCTGTTATATTTGTTTTTAACATTTGCATAAATTTTTTCGTATCTACATCCTTAAAAAAATCAATCGTTTCTTTTATTATCCAATTGTCTAAAATACTTTCTTTTATTTTTATACTCTTATGAAGAAGTTTTAAATCAAATTCATCTAAAACCTCATATTTACCAGATGAATTTAAAATCAATCCAGAATCAATTAGTTCATCTAATACTATTTTCCCTATTTCTCTGTCATCTTTAAATAAATTTTTTATAATATCAGTTTCTTTCAAATCAGGATTATTTTTTATAAAATCAAAAGATTGTTTCAAAATATTTTGTGATGGATACTCTTTTGCATACTCATAATTCAATCTCATTTTAAATTTATTATCATAAGCTAAAACTATATTCACATGATAATTATTTACATTCCAGTTTGAAACCAAATCAATTAATTCAAGTCGTGTTTTTGGTGGTTCTAATAATATAAAAACTGGTTTTTTATCACTAATTTTCATACCTAAACCATTATTTGAATATGAAGTAATGAGTATATTAGAGGATGTTTTTTTCAATTTTTCTCTTAACATTAATTTTTTTGAAAACTCTATATCTTCATTAAATATTTTTATTGTTTCTTCGGGAATATTTAATTTTTCAACGATAAAATTTTTTATAAGTTCTTGTTTTTTTCTGTTGTTTATAACAATGATTTTTTTATTATATGAATTCAAATAATCCTTTAATACTTCATTTAACTTCTTTTTTTCTTTTATAATTTCAAAGTTTGATTGATTGATATTTGATATTAATACTTTATAACCTGCAACTTTTAAAAATTCTTTTAAAGTTTCATGATATATTGATCCTAATATTGATATATTATCTTCTTTATAATTTAAAAATTTTCTAAACTCAGAGTATTCTTTTATAGACTTTACCGCTGGGTGTGCAACTGAATAGAATGGTTCGTCTACAATAAAATCAAATTTATTTCCCGTAAACATTTTTAAATTTTTAAAAAAAGATGGAACGGTTATAAATATAATATTTTTTTCATTCAAATTTTTTATACTAAGTTTACTTTTTTTATTATAACAAATTATCGTTGGTGAAATATAAGAAGATATTATATTATAAGTATGTTTTAAATTAACATGAGAAGATCCAACAATAATAATCTTTTTATTTTTATTTAAAGATTCTACTATTTTTTTCATTATAACTGCATACTTTACCTTACTTGGTAAAAACATAGCAACTTTTTTACTATTTAAATTATTTATAATAGCTTTGATTTTCGATACCTTTGAAATTTCTTCATTTAACAATGAATTAACATCAAATTCATTTAATGACAAGTACTTATTATTTTTTTCTATTAAAGATAAATCTTTTAAATAAAACTTTAAAAATGTTCTTTTAGAATTAAACGCTGGTTCTTCTCTAAAATTTCCAACAGCATCTATATTTATGCTTGTTGGTCCATTAAATCTTATATCTTTTAACTTTTGAGAAAGTCCATACCCTATAGTATCCATAATATAATCTTTATCTCTTGATTTTCCAGCAAAACTTTCAACCGCTGTTCCAAAAAATTTTAAATTTTCAATATGCATATTTTTAATAAAAAAAGTTGGTTCAGGGTTTTTATAACCATAAGGTTCAAGTTTTTTTATATCATCAAAAAAATTTGACCAAATTTTATCTATTTCTGAATCAATTGAAACTTCAAGAGTTGGTTTACTATCTCCATAAATTTCTTTATAAGCATTATTTACCGCTATCCTTAATTCTTCTATTTTTGAAGAGTATGTAGTAAAGCCAGCTGCAAGTTCATGACCACCAAATTCTTTAAAAACACCTTTTTCAGATGCTCGTTTAAAAATTTCTATTAAATTAATTCCTTGTGGACTTCTTGAAGATCCTTTTCCAAATTCGCCTTCTTTTGATATCATCAACACAGGTTTATTAAATTGAGCAGACAATTTTGAAGCAACAATCCCTAAAACACCCAAATGCCAATTTTCACCACTTAAAACTATTACTTTATCGTTTTTTAATTTTGGATTAACATCCATAAGGCTCAACGCAAATAAATAAATTTCTTTTTCTTTTGCTTGCCTTTTAGTATTGAGTTTTAAAAGTGCTAATACATACTTATTTATTTCTTCTTTATCTTTTGAAATAAGCAAATTAAAGGCAGTAACTGCATCTGCCATTCTTCCAGCTGCATTTATTTTTGGTGCAACCTTATAAGCTATTATATTTGATTTTATTTCCGAATTAGATACTTTTAATTCTTTTAAAAGTCCATTTAACCCTGGCAAAGGATTGGTTTTCAATTTTTCTATCCCAAGTTTAACAAAGTATCTATTTTCTGATAATAAAGGCACTATATCAGCAATAGTTCCCACTGCAACAAGATCTATATAATCATAGGGATTAAAATTAGATTTTATTTTTGATGAAATAGCCAAAAGTAATTTAAAAGCAACTCCTACTCCAGCTAATCCCCTAAATGGATAACTCGTATCTCTTCTCTTTGGATTAATAACAGCATCTGCTGGTGGAAGTACTTCTTGTTGTTCGTGATGATCTGTAACTATTACTTTCATACCTAAATTTTTAGCATATTTAACTTCTACAATCGAAGTTATCCCACAATCAACTGTAATAATGTTATTAAACCCATTATTTTTAAACTCTTCAATAGCTTCAACATTTAAACTATATCCTTCTTCTAATCTACTTGGAATATATGCTTCAACATCATAACCTAAATCTCTTAAACCCAAATAAAGAGTAGATGCGGCAGTCACCCCATCTACATCATAATCTCCAAAAACTACTATTTTTTCTTTTTTTGATAAAATATTCAATAATAAATCAACAGCTTTATCCATATCTTTTAATTTGAATGGATCAATAACATCTTTTTCAGATGGATTCAAAAATTTTATTGCTTCTTCTGTATTAGTAATACCTCTTGATACCATTAACTTAGCTAAAAACTCACTGACTTTAGCTCCATTAGAAATACTTCGAGAAACTTTTAAATTTCTCTCATAATTAGGATCATTTGTATCCCAAAAGATCCTCCATATACTTTTCACTTTTAAGAAGCTCCTTCCTTATTTTTTTTATTTTTATTATATTATACATTAAGATTTTTAAATTTTCAAAACAAAACAAAAAAAATAAAAATTTATATATTTTATAAAAGCAAAAAGTATATTATTTTAATTATTACTTTTTTATTTTATATTTTAAAACAATGGTTGAATCATTTAATTTTTTTATTTCTTCAAGAATCAAAGGAATATCTTTTTTTATATCTTTAAATAAAGTTATTTTACCATTTATTAACCATGGTTCAATAGTTAAATATATATAATCTATGAGATTTTTTTCTAAAAACAAAGAATTTATAGTACTTCCTCCTATTAAAAATACTTCAGAATAATTTTTTAAAGACTTTAAAATATTTTCTGGACTATCATTAATAAACTTTAAATTTTTTAAATTTTTATACTTTTGTGGATTTTTAGTCATAACTATATTTAATCTTTCAGGAAGAGCTTTCCCTATTGTTTCAAAAGTTTTTCTTCCCATTATTACAACTCCAGATTTTTTAGTTAAAGTAGAAAAAAACTTTAAGTCTTCTTTAGTATTCCAATACGGCTTTTCAATTTCTGTTTTTGAAATAATTCCATTTATACTTGAAACCATGATTAAATTTAAAATCATATTTTTGCCCCCAATGTTTTCATAATTTTACAATTAATTATAACATTTCATGGTATAATTTTAAACGAAATGTGATTTAAATTTTTAGGAGGTTTAAAATGAAGAAAATTGCTATAGTAACAACAGGCGGAACAATTGCCATGACACAAGATCCTAATTTAGGGGTTGTACCTTCAGAAAAAATAAATCAAAAGTTAAATGACATACCCTATTTAAAAAATATTGCAAAAACAGAATTAATAGAATTTGCAAATAAACCAAGTCCCCACATAACCCCAAAAGACATGTTGGAACTTTCAAAATTAGTAAAAAAATTAATAAAAAACAAAGAATATGATGGAGTAGTAATAACACATGGTACAGATACTTTAGAAGAAACAGCTTATTTTTTAGATTTAACTATTGATACTGTTAAACCCGTAGTTTTAACAGCAGCTATGCGAAATTTAAGTGAACCATCAGCTGATGGGCCCATGAATTTAATTGCATCTGTAAGAGTTGCAAGTTTAGAAAAATCTGCCGACAATGGTGTTTTAGTCTGTTTAAATGATGAAATACATGCTGCTCGTGAAGTAACTAAAACTTATACAAGTAACGTTGCAACTTTTGATTCTCCAGGATATGGGCCACTTGGAATAGTTGATGAAGACACAGTTGTTTTTTTTAGAAGAACATTAGAAAGAATGCACATTGAAGCAGATGCAATAAATGATAAAGTAGCCTTAATAAAAACTTATACAGGAGATAATGGAGAAACATTAAAACATCTTCCAAAAATGGGATATAGCGCTGTTGTTGTAGAAGGATTTGGAAGAGGAAATGTTCCGCCTGCTGTTGGAAATGTTTTAAAAGAACTTGTAAAACAAAATTTCCCTGTAGTAGTTGTTTCAAGATGTTTTAAAGGTAGAGTTTTGGGTGTTTATGGCTACGATGGAGGAGGAGCTGATTTAAAAAAACATGGAATAATTTTAGGACAAGAAGTTTCTGGTCAAAAAGCACGAATAAAAATGATGGTAGTTTTAGCAAAAACAAAAGAAATAAATGTTATTAGAGATTATTTTGAGTTTCAAAATAAATAAGTGAGGTGTTTTCATGACCAAAAATGCAAAAAGTTCAATTTATACTGGTATTTATTTAGCATTATTTTTTTCAATAGCTTTAATATCTATGCAAGTTTTTTCAATAATTGTATTTTCAATAGGTTCAATTTTAATAATAGATTTATTTGCAAAAATAATACAAAAATTTTTTAAACTCCCAAGGAAACTTTCAATATTATTTTCATTATTAGCATTATTTATTTTTATAGGTTTAGTTGTAGGGTTGTTAATACCAACTGTCATACATGAAGTTTCAAATTTTTTAAATTTTTTAGAAAGTTTTTTTAACAATAAAGAATGGAAAAAACTTTTCAATAACTCATTTCCTCAACTAGAAAACAATATATCTGAATTTCTTTCAGGATTACAACCTAAATTATTTGAATTTTTAAACTATATAGCACTTCAAATACCTAATGTTGGTCAAAAAGCTGGAAGTTTTATATTTTATTTATTTTTATTAACTATATATGGAAGTTTTTTCTTTGATACCTTTAAAAACAAGCTTTTATTTATGTTTCCTAAATCAATAAGGAAAAACACTCTTTTATTTTGGAAAGATTTATACATAGATTTAGAAACTTTCGTTGTATCTACTGTTTTTGCAGCAATATTTGTTGGAGGTGCAGCTTTTGTTGCTACTAATATAATTGGAATAAAATACTCTTTAATTTTGAGTGTTTGGGCAGCTTTAACTAATTTCATTCCTGTAGTTGGTGTAATTTTTGAATTTATTCCTTTAATAATAGTTGGTATATCAAGCGGAATTACCAAAATGCTAATATTATTAATTGTAATGATAATAATACATGCAACTGCATTTGTATTTTTCTTGTATGTATTAAAAGGAAAAACAAGGATAAACTCTGTAGCTGTTATAGTATCAATTTTAATTTTTGGATACATATTTGGATTAATTGGCCCATTAATAGCTGTCCCAATAGGTATTTTACTTAGAACATATTGGAACCATTTTATTTCTCCCTACTTAGAAAGGAGTTAAATAATTGAAAAAAATAATACTTATATTTTTAATAATTTTTTCTATACAAATATTTTCAATTACTTTAGAAAATATATACAATCTATCAAAAAATTCTTCTACACTAGATAAATCTTGGAAAGAATTAGTTTTATATATTCAAAAAAATGGATCAAATCAACAATTAGAAAGATATGGCGAAATTATTTCTGCCAAAAAATATTTGTATAACAAATATAAAAATTTTAAATTCATAAACACAATAATCTCAGAAGATTTAAAAGAATTTTTAATTGGTATAGGAATAATTGATTTTAACTTTTCTGAAGAAGACACAAAAAAAATATTATATATATTCAAAAATTTACCAAAAACAATTCAAAATATACTTGAAAGTGGCAAAATGGAAGAAATAAATTTAAAGTATTCTTATAAAATAAAAGGTTTAAACTCTTATGTAAATCAAAAATCTGATGATTTATTTTTAAAATATTTAATTGATAAAACTATACAAAACCCACCTTTTTTTGATAAAGATATGCAAAACTTTGTTAATACATTCATTTCTAAATCGCACATCATAAAAATGAATGAAATAATAGAAAGTTCAAGGTATTATATACAAGAAAAAGATTTTATGGGGGGTTATAATTTATTAAAGTTCTTATATGAAAAAAATTATATTTCAGATAAAAATTTAAAACAGTATTATAAATTAAAAACATACTTTGAACTTAAAAATAAATTATCAACATACGCAAGTACAGTCTATACATTTGAAAATCAAGAAATAGAAAAATATACATATGATGTTTTAAGTCTCATAAACTCCGTTTCTAATTTAACTTTATCAAAAAAAATGTTAGAAGATATTTTATACTCAATTGTAAAAGTCTTAAATACAAGAATAGAAAAATTAGATAAAAAGTTAAATGTCGATTTTTCAAATATACAAATAAACAATTTAAACGAAGAACTCTCAAATGAAATAATAAAATTAAAACTCAAGCTAAACTATTCAAAAGATATTATAAAAAACGCTTCTAATAATAAAACAGAAAAAAGCAACAAAATAAAAACAAACTTTTTTATTGAATATTTATTTATCTTTTTAGTTATAATAACATTAATAATATTAATGTTATTATTTGAACTTTTCCCTTCTGAAAAAAAAGTTGAATTTCTATGTAAAATAGGAATGGGAAAGTATGGACTTAGACTTACTGAAAAATTAATATTAAAAAATCCAAATTATTATAAATATTATATATTGCTAGCAACAGTATACGAAGTCATTGGAGATTTTGAAAAATCAATATCTGCTTATAAAACAGCCACTAACTTAAAAAAGAAATCTGGAGGTAACGAATAATGAATACACTTATAATTAGCTCATCTTCAAAAGAAATATTTATTTTAATAACTAAAAATAAAAAAATATATTTAAAAACTATTACTGGAAAAGGAAGTGGATCAAAAATAGCTCCTGTTATAAAAAAGATGATAGATGAATTGAACATAAATATAAATGATTTTAATGAATTCGCAATCGATATCGGACCTGGATCTTTTACAGGAATAAGAATAAGTATAGCTTTTTTACAAGGTTTAATGATAAATAGTAACAAAAAAATAAAAACATTTTATTCAACAGATTTAATAAATATTTCTTTTGAAAAAGAAGTAAAAAAAAGAATGGTTTTAAAAAGAGCAAGAGAAGACGCAGCATACGTCTCACTATATGAAAACAAAAAAAGATTATTTGGTCCTAAAATGATATCTGCAGAAGAATTAAAAAAATACGAAGATTATGCCTTACTTGGTGATGAATCATTATACTTTAAAGAAAAATATAATCTTAAAAATGAATATTACGAAGTAAAAATAAATTATACAAAAATTTTAGAATTATTAGAAAATAGTAATTCTGTTGAAATTAAAGATTTAAAACCGCTTTATCTTCAAAAACCAATTGCTGTAGAAGTATGGGAAAAGAAAAACAATAAAAAAATGCCAGAAAAAAATTGGAATTAAAATAAGGATTCGCTGAATCCTTATTTTAAAAATCTATTTCTATTTCATCTATAAACTTGTCATACTTTTTTATAAGTTCTTTTTCTTTTGTTAAATTTTTTAATGTATCAAATACTTTTTTATCTAACTTATTTTTTTCTACCATATCTTCAATTATTCCAAGTGCTTTTTCAACAGACATTCCTTCCCTATACGGTCTATCTTCTCTAAGCGCCACATACATATCAGCAATTTGCAAAATTCTTGCTCCAATAGACAATTGAGATGCGCTTAAGCCCCATGGATAACCACTTCCATCTAATTTTTCATGATGCTGCGATGCAATTAAAACTATTTCTTTTAAAGAACAAAAGTTTTCAAAAATTCTAAATGTTTCTCCAACATGCTTTCTCATAATATTCATTTCATAATAACTTAAACCACCTTCTTTGTGTAAAATATATAAAGGTGTTTTTATTTTTCCTATGTCATGCATCAATCCTGCCATATACAATAAGTTTGCATCATAGTCATCAAGCATTTCCTTTGCTATTTCTTTTGCCACATTAGATACTGAAACAGTATGATTTAATGTATATGGTGATCTAAAATCTATAATCATTGAAATTAACTTTAAAAAATCCATGAATTCATAAAGAGTTAAACTTATATCTACATTAAAATACCTTTTTAAATTTAAGTTTCCATCAAAAAGATATAAATAATTCATATCATCATTTATAATGTTTTTTATTGAAGTTTTAAAAAATCCACAATTATCTATAAATTCATCCATTTTTTCCATACCAATTTCTGGGCTTTCTAAATTTACTCTATAAATAACAGATAACTTATCGGCAACATGAAATATTTTTGAAAGCATTTTTACTTCATCACTTTCATATATTAATTCATTATCTTCTTTATGATGATTTTCTATTGCAGTTAAATAATCATGTGGTATAAATCTTTTAAAATATTTTAACACTGATGCAGATAAATACGAATGAAAATTCTTTTTATCTAATTCTTCAATACTTGCCAGTGTTTTATAATTTAAAATATAATCTTTATCAATATCTATATTTTCTAAAATGATTTCTTTTAACAAAAATCCAATATCATGCATTAATCCACAAAAATAAACTATTGATTTCGAAAACTTTCCCGGTGCAAGCTCTTCTGCTATCGATACAGAAAGTTTAGCTACATCAATAGAATGTTCTAAAAAATCTGAAAATTCATTTATTCTAAGATTTTGAAATATTTTTATTAAATCAGTTAATTTATATTCAAACATATGTACCTCCATTTTATATATATTATATTATTTTATTTTAAAAAAGATATATTTTCTTAACTATATATTATAATTATACACTATTTATCAAAAAAATAAGCATTTGACTTTTTGTTGTTATAGTGTTATAATTTTGTAGAACACTATGAAACAAATATTTTTGAAAAAAATCGGAGGTGTATTATGGATAATATAACTAAAAAATATTCTATCGTTTTCAATTTACTCATTGCAATTTTAATTGCTTTTATTGGATTGTTGATTTCAAACTTTTTTTTGAGGGGCTTAATCTTGATAGGTGCATTAATTTTTTTTGGAAAAAATTTCATCAGATTAAAAACGCTTTACTATACTCTAATAATTTCTTTTGTAATAGTTCCTTTTTTTATTGCAATATCAATTAATCCTCTCATAAAACCTTTTTCTAATATTAAAAATTTCAATTGGTTTATTTATTCAAATACAGAAGTTTTAAAACCCGATAAATATATTGAAGGAAGTAAAAATTTAGAAATAAAATGTACTTCAGTAGAAATTAAATTTGATGACACTACAGAAAAGTTGTATATTCCTTCTAAAATCAAAGTATTAAAAGTTGGAAATACAACAAAATTAGAGTATAAAAAAATAAATTCAAAGATAATAATAACTATTGGAACAAAAAATAAATATTCTTCTTTTAAATTAAATACCGTTCACTCTAATTTAAATGGCAATTTAAACTCAGATAAAATAGAGATAAATGATGTACACATGGAATTAAATTCAACTTTAAAGGCAGATTCTATTATATTAAAAGGTGTTCATTCAGAATTATCCGGAAGTATAATTTCAAAAAACTTATTAGTTTCATGTGTTCATTTAGAAATATATTCCACTTTAAATTCAAATGATATTAAAATAAACGGCACTTCAATAAAATTTAATTCTGTAATTGAAAGAGGAGATAATCTATACATAAATGGAACATCAATAAATGCTAAAATAAATTATACAAAACCTTGGGAAAATGCTTATCACTTAAATATAAATGGTACTTCAGGAAATATAGTTATCAATGAACCAAAAGATAACACTGGAAATTTAATCATTGAAAGTTCAGGGAGTCTTTCAATTAAAAGGAATAGTAATGTTTACTAAAATAGATAAACACAGTGGTATTCCTGCTTATATACAAATTATGAATCAAATAAAAAAAGAAATTTATTTAGGTTATTTAAAAACCAATGAAAAACTCCCAACAATACGTGAAATGCAAAAAATATTTTCTGTAAATATAAATACAGTATCAAGAGCCTTAGAAAAATTATCTTTAGAAGGACTAATTGAATCTCAACATGGAGTAGGATACTTTGTTCGTAATAACGCACCAATAGATGAAAATTTTATAACTTTAATAAAAACACTCGTAAAAAAATTAAAAAACAACAAAATGTCTCTTGATACAGCAATACTAATATTTGAGGAGGTATGGAAAAATGAACAACATGATCAATAAATTAGAAGCATACTTTATGAAAGAATTTTTTGAAAAAAATGGAAAATTAATTGTTTTTTTTCTATTAATGCTCATACCAAACTATGAATCAAAAACTATTTTTTTATTTTTATTTTCAGTTTCATTCTTAAGCTCTGACATATATCATGGAAGGTATTCCACACTTGGAGCACTTCCGTTTTCAAGAATAGAAATTTTTGTTTCTGCATATACATTTTTAATCTCAATAGTATTTGTATCTCAATTATTAGCTGGAACTCTTGGAATGCTTTCTTTAACTGATACAATTACTAATTTACTTATTCCATCACTAATATTTGTAACTGCTTATTTTTCAATATCAATGATATTTGTTCAAAATTCTTTGAACAATTTGGTATTTCCATTATTAATATTTTTTGCCGATGGAATATTAAGCTCTTTGCCAAACAACATCTTCAAAAACATAAGCCCTTTTATTCAAGAAAACACACTGTACTCTTTGATATTTGCTTTTATTCTATTGATAATAGCAGGATATCTTTTTATTGAAAAGGGGGTGCAAAAATGATAAATGTTATCAAGGTAAACAAAAGTTTTAAGAATAATCCTGTTTTAAACAACATAACCTTTCATGTAAAAAAAGGAGAAATATTCTCTTTAATAGGTCCAAATGGTGCAGGAAAAACAACAACTTTGAGATGTATATATGACGAACTCACACCAAACAGTGGAGAAATAAAGATAATGGATCAACATATAAGTTCAAAGTTAAAAGAAAAAATAGCAGTTATGCCAGAAGATAGATTTACTTTTAAAAAATTTACAGGAACACAATACTTAAAAATTTGGAAACTTTTATATACAAACTTTGATTTAGAAGTTTTCAATAAATTTTTAATTCATTATAAATTCAATATGGAACAAACAATAGAAACTTATTCTATGGGTATGAAAACATTGTTTTACCTTGCTTTGACAATAGCGAGTAATGCTGATTTATTGATACTAGACGAACCAACTCAAAATTTGGATCCAGTTATAAGATACGATATATTGAATATATTAAAAAATTACGCAATAGAAAAAGGTAAAACAATAATATTATCTTCACATGAAATATATGAACTTGAAGAAATTTCTGATTCTTTTGCAATAGTAACTGAAGGAAAGGTTTTATACACAGATACGATAGACAACGCAAAAGAAACTCACAGAATATTAAACAAAGGAGAAAAAGTAGAAGGAGAAGTAATATCTTCTGTAAATGAAGAAATTCTTGTAAAAACAACTGAAAATATAGGAAGATATCCAAATTTTAAAGAAATTTCAATAGGCTATTTAAAACAAAACAAAACATTTACTCCTTTTGAGTCAACATCAAAAAAATTAATCTAATAAAAAACTAATTCATAAGATAGCTTATGAATTAGTTTTTTATTTATTAAATATTTTTTTAGTTTAAACTAAAAAAATTGTTACATAAAATGCTTGACTTTTGTTTGATTTCAAACTATAATATAAGTGTATGGAAGTAAAAATAAAAAACAAGATAATTAATATCCTATTTGTAACTATTTAATAAAAACAAAAAAATTTTTAAATTAATGTGATTAAATTATCAATAAAGTTTTTTATCAAACTTTTTTGGAGGTGAGATAATGGAAAAAGAAAACAGAAGATTTATAGCTTATGATGAAGATTACGAAATAATAAAAGACCAATATAAAGACTTAGATTTAAAGTATGATGAAGAAGGCAACTATTGGTATATATAAAAAGCACACCTAAAGGTGTGCTTTTTATACTTTATTATACATTTTTTCATATATTTCATTTATTTTATCTCCATAGTATTCCATTATTTTCAATATTTTTTGATTAAAATGTTCAGGTTTAGTTTTATCATCACCAAAAATTAAAATATTCATAACTTCTTCATGCGTTAATTCTTTTTTATATGGTCTTTTTGATCTGAGTGCATCGTATATATCGGCTATACTAACTATTTGAGCTTCTATTGGAATATCATTACCCTTTTTCCCAAAAGGATATCCACTTCCATCAAATTTTTCATGATGATAAAGTGCCATATTTAAAGCTACTTTAAAATGTTCATCGTCTCCAATTAATTTTTTTGCATAAACTGTATGCTTCTTCATTTCTTCCCATTCTTCAGAAGTTAACTTACCTTCTTTTTTTAACACAGTAGTTGGAATAAAAATTTTTCCAACATCATGAAGGGGAGCGAAGTTTCCGATTTCTTCGATCATTTGAACATTTAACTTAAGTTTTCTTGCTATAAATTCCGAAATTTTTCCAACTCTATAAATATGATTACCCGTAATATCATCATAAGCATCTGCTATCATAGCAAGCTTATTTGCAAAGTTTAAATATGTATTTTTTAAAGAATTATTATACCTCTTTACTGTAAGAAATACACTTGCAATTTCTTTAAAAGCTTTAGCAATTTCTAAATCTTCATTAGAAAATACAGAAATTGAATTAATATCTAAGTCAAATGACATTCCACCAACTTTTATTCCATTAGAATAAAGAGGTATTATTATAGAATTTTTCATTGTTCTGGTTGCTTCATTAAATTTTTTAGAAATATCTTTTGGTAATCTTCTCTCCTTATTTTCAAGTAAATAATTAATTATTTCAACATCATCACTTTCAATAAAGTATTCCCTTTTTAAATTTAATTTTTTTAATTTTTTTATATCATGCCCTATTGCATCTACAAATTTCCAGTCTTTCCCACTATATCTATATACACTTCCATAATCAGCTCCAATAGCACTAACAGCAACATTTAATAGTTTAGATAAAAATAATTCATCTCTTTGTTTTAAAGATTCAGAAATATTTTTTACAATTCCAATTAAATTAATAAACCTATCTTTTTCTACTCTCGAAGCTATTAGAGCATCTTCAAGTTCTTTGTTAGTTTCTTCAAGCTCTTGATTTTGATCTTTTATTTTTTTATTGGCTTTATAAACTTCCGTCATATCTATTGAAACACCAAGAACTGTAGGTTTATTAGTAAGATAACTTTCAAATGGCATTTTTATTGTATTAAAAATTTTTTTGTCTCCAATTGGGCTTGTTAAAGTTCTTTCATATGATTTTATCTGTTTTGATTTTATAACTTCTATATTATCAATTAAAAATTGATTCAATTCATCTTTAGATATCTTCGAATGAACTTCTTGATGGTACTTATTTTCAAGATCTTCAACGGTTGTTCCATAAAAATCAGCATATGCTTTGTTTACAACTAAAAACTTACCATCAATATCTTTTATATATATATAATGAGGAACAAGATCTATTATACTTCTAAGTTCTTTTTGCTTTTCTTCAAGTTCTAAGTTTGTAACTCGCAATTCTTCTTCTTGTGCCATTAATTCTTCATGAGTAGCCTCTAATTGTTCATAAGCTTCTGATAAACTTTGTGTCCTTTTTTCAACTTCTTTTTTTAATTTTTTAGAATAAAATACAAGACTAAATAATAAAATAATTACCATAAAAATAATATAAAACAAGATATTTCTTACATTTTCTGGTATTTTAAAAATAACATTTTTAGAAATGTTATTTCCAATAGATGTATAATAAATTGATTTTTTATCTTTTTTCATACTTATTAATTCAGCATCTATTGAATCTATAAGTTTTTTATCAATATCATTTCTAAACATAAATTTTATATTTATAGGACTAAAAATAATATTTGTCTTTTTTATATCATAATTACTTTCAATTATTTTTCCGCTTAATCTTCCTATTACTCCAGCATCTACCTTTTTTCTTTGTAATAAATCAAAAATTTCTTGATAATTTTCAACACCTATTAATTCTGCTTCTATATTGAATCTTTTTAAAATATTTTTTAAACCATTTTCTCCTTCGAAATACACATCAGTTTTCATATAAGCTATTTTTTTATTGTTCAAATCCATTATGGAGTTTATATTTGATTTTTTTGAAGTGTATAATACTCCCCAATCTGGTATATAAACTTCAGAATTGAACTTAAAAAATTTAGCTCTTTCTGGTGTATAAGCCATATTAGCAAGAATGTCTATTTTTCTTTTTTTTAATTTATCCATCAAATCTCTTTGAGATGAATAAACAAATTCAATATTAATATTTAAATTTTTTTCGATTTCTTTAAAAAAATCTATAGTTGCACCCGTTTTACCATTTAATACTAAAGGTGGATATTCATAAATCCCAACTTTCAATGAAAATGATAAAATATTTAAAATAATTAAGATAAAAATAAAAATTTTATTTTTCATAAACTTCTCCTTTAAAAAAGATCTCTTACATTAATCATAACTAATTGTTATTTTTCTTAATTATAATACATTTTACATTTTTTTACAAATAGATAAAAATAATTTATTGAAACTTTAAGTTAATAATTTGTTTCTTAATTATACGATTAAAAATAAATACATTATATTTTTTATCAAAAGTTATTTAGAAATAAAATTGTATAAATAACACTTTATTTTATACGAAAAATTAATTTTTTATTGTGTTTTATAATATTCAAAAAATTGATAATTTAATAAAAATTAAAAATAAAAATTGTTTGTACCTTCAAAACAAATTGTATTGTATAATTTTAAAATTTAAACACTATTGACAATACAATTTTTTTATGAGATAATACAATTAACAATACAATTTTTAAAAAGGAGGATTTTTCATGGAAAATATAAACGAAAGATACAGAATAAATAAGAACCTTGCTCAAATGTTAAAAGGTGGAGTAATAATGGATGTTACAAATGTAGAACAAGCAAAAATAGCAGAAGAAGCTGGTGCGGTTGCAGTAATGGCGCTTGAAAGAGTTCCTGCAGATATTAGAAAACAAGGTGGAGTGGCCAGAATGTCTGATCCAAAAATGATAAAAGAAATAGTAGATGCTGTATCTATTCCTGTTATGGCAAAGGTTAGAATAGGACATTTTGTTGAAGCTCAATTACTCGAAGCTATAGGAATCGATTTTATAGACGAAAGTGAAGTATTGACACCAGCTGATGAAGATTTTCATATAGATAAAACGTCTTTCAAAATACCATTTGTTTGTGGTGCAAGAAACCTTGGAGAAGCATTAAGACGTATAGGCGAAGGCGCTGCAATGATTAGAACAAAAGGGGAAGCTGGTACTGGAAATGTTGTTGAAGCTGTAAGACATATGAGAACTATAAGTGCAGAAATGAAAAGATTAACAACTTTATCAAAAGAACAACTAATGGCAGAAGTAAAAAAAATACAAGCACCATACGATTTAATAATGTACGTTGCAAAAAATGGGAAATTACCCGTTGTAAACTTTGCAGCTGGTGGAATTGCAACTCCTGCTGATGCTGCCTTAATGATGCAACTTGGCTGTGATGGAGTTTTTGTTGGTTCAGGAATTTTCAAATCGGAAGATCCTGCAAAAAGAGCTAAAGCTATTGTTGAAGCAACAACCCACTTCAACAATCCAGAACTAATTGCAAAAGTTTCAGAAAATTTAGGCGAACCAATGTATGGTCTTGATATAAATGAAATACCAAAAGAACAAATATTAGCTGATAGAGGATGGTAATATGAAAAAAGTAGGTGTTCTTGATTTACAAGGTGGTGTTGAAGAACATATAAATTTATTGGATAAAATTGATAATGTTGAAAGCATAAGAATAAAAAAAGCAGAACAAATAGATAGTATAGATGCATTAATTCTTCCTGGTGGCGAAAGTACAACTATGAGTAAATTAATAAAAAAATACAATCTTTCTGAAAAAATTAAAAATTTTAAAGGTCCAATTTGGGGAACTTGTGCTGGTTTAATACTACTTTCTAAAAAAATAGAAAACGATGAAAAAACAGAAACACTAAAACTTTTAGATATAACAGTAAAAAGAAATGCATTTGGAAGTCAACTAAACAGTTTTATAAAAAAAGAAAAAATTTCTGTTTTACAATATCCATTTGAAATGGTTTTTATTAGAGCTCCTATAATATCAAAAACAAATAACAATGTGGAAATAATCGCAAAAACAAATGATAAAATAGTAGGTATAAAACAAGGAAATATAATAGGAACATCTTTTCATCCTGAATTAACTAATGATAAATCATTTCATGAATATTTTTTAAGTTTAATAAAATGAGAGCAAAAGCTCTCATTTTATTATAATAAAGTACTTGGTGGATTTACATAAACTTTTATATTCCTAAAATTTTTTAAAACATTTCTTAAACTTTCTATATTTATATTACCTCTCAATATTATTTGTTTTCTGTATTTATTTTTTATCCTTGAAATTATTGGATCAACTGGTCCCATAATTTCTCTTGTAATTTCTTTTACTTCATTAAAAATTTCTCTTGAAATTTTTTCACAATTTTTTTTATCTTCTTCATAAACCATTATAATAATCATATCAGAAAATGGTGGATATCTAAATTCTTTTCTTTCTTTTATTTCATGGTTTAAAATCATAGTATAATCATGATTTTTTGCAGCTTTATACAACTCTTCTTCTGGTTTAAATGTTTGAATTAAAACTTTTCCTCTTTCTTTTCTTCCTGAACGTCCACCAACTTGTAAAATTAAAGCTCCAGTAGATTCATATGCGGAGTAATCTGGAAAGTTTGAATATCTATCAGAATCGAGGACAACAACCAAATGTAAGTCTTCTATATCCAAACCTTTTGTTATCATCTTTGTTCCTACTATTATTTTTTTTCCAGGTTCTTTCATATAATTAAAGGTTTTCTTAAGTTCTTCATAACTTCTAATAACTGTTCTATCAACTCTTAAAATTACTTCTGATGGAAATAGTTTCATTAATTCATTGACTACTCTTTCAGTTCCATATCCACGGCTTTGAAGATTCACATTTCCACAATTTGGACAAACACTTGGAACTTTTTCTTCTTTTCCACAATAATGACACTTTAATTTCATATCATTTTTGTGAAAAGTTAAAGATACATCACATTCACTGCATTTAAAAATATATCCACAATCTGGACACATAATATAATTTGCATATCCTCTTGTCGGTGTAAAAATTATTATTTTTTTATCTTTCTCTAAAGTTTTTTTTATTTCTTTTATCACTTTTTTACTAAATATCCAGCTTATTTTTTCTTCTTCTTTCATATTTATTATTTCCACTTCTGGCATCTTAGAAAATATTCTTTTTTCTATTTTTTCCATATAAAATTCATTGTTAATAGCTCTATAATAATCTTTTACTCTTGGAGTAGCCGAAGCTAATACTAATTTTATATTCTCTATTTTACTTCTAATGAAAGCAGCTTCAACTCCATCATAAATAGTTCCTTCACTTTGATAATAAGAAGTATCGTGTTCTTCATCCATTATTATCATACCAAGTTCTTTAACTGGTATGAACAAAGCACTTCTTGTACCAACAATTATATCTGTTTTTCCATTTATCGAATCATACCATGTTTTTAATTTTTCAGAGCTTGTTAAAGATGAATGATACAACGAAACATTGTATTCAGCAAATCTATTTTTTATTCTATTCACTAATTGTGGAGTTAGAGAAATTTCTGGTATTGTTATTAATATCTTTTTCCCATTTTCTAAAAGTGGTTTTGCAATTTCGAAAAAAACTTCTGTTTTTCCACTTCCTGTAACTCCATAAAGTAAATGTGGTTTATCATTTAACGCATTTATTTCATTAACAACTTTTTGTTGTTCATCAGAAAGAATTATTTTTTTATATTGATAAATTTGAGATTCATTTACTTCACAAATTATATTTTTTTTCATTAATGTTTTTAAAACAGTAGTTCCATGTTTTAATATACCTAATTCATAAAGTTCTTTTTCATTTATAATATCTTTCATATTTAAGTAGTTAACAACTGACATCGCTGTATTAGATATTTTTATTTTCATAATTTCTTCAATACTTTTATTTAATTTAAAAAAACTTTCTTTTTTTTCTTTTGTTCTTTTTATATGAAGTTCTAACTTTACAATTCCATTTTTAGATAATTCTCTAATCTTTTTATTTGCTACACTCTTACTTTTAAAATTTTTATAAAATTCATTTAAAAAGATTGGTTTTTGAAATGGTGCTAATGGACTAATTGGAACTACTTTTAATTTATACATATCAGAAGAAATAGGAGGAAAAAATAATTTTGAAGCTTCTCCAAGAGAAATAGCAAAATTTTTAGATATTTCTTCTATTATTTTTATATGTTTAAAAGTAATTAAAGGTAGTTCATCAATTATAAACTCTATTTCTTTAACTTTAAATTCAGGTATTTTTTCAACTTTTTTATAAATTAAAGCTGGTATCATTTTATTTCTTAAGTTTATCATTACTCTTTGTCCAACTTCAAGTTTTAATTCTGTTGAATATGTATAATAATCTAAATTTGTAAAAGGTATTACTTCATAATAATTCATTTTCTACTCCTTGTATAAAATCATAATGCTGCGTGGATTTGCATAATTAATTTTTGTATATTCATTTCCTGTAAGTATATCTTTGTACTTACCATCTAATGAAAGATCTATCTTAGTTTTTATTTTCTTTGAGTTTGTTATTATAATAACCTTATCCTCATTAAAAACTCTTTCAAAAACAATTGTACTTATTTTAGTTTTTAAAACTTTATAACTTCCTTCTCTTAAAGCTTTATGATTTTTTCTAAATTCAATTAATTTTTTATAATAATTAAATATATCCATATTCCATTTAGTTTTATCCCAAGTAAAAGGTTTTCTACAAAATGGATCGTCACCGCCGGTCATTCCTATTTCATCACCATAATATATTACAGGTGCACCAACAAATGTCATTTGTAATCCAACTGCTATCTTTAAAGACCATAAGTTTTCATGAAGCATAGTAAATATTCTTTCAGTATCATGCGATCCCAACATATTCCATAAACTATTTAAAACTTGAGGTGGATATTTATTTAAATAAGAATTAGTTGTATTAACAAAATTTCTTGCATTCCCTCCATTTGCATATGATATTGCTGAATCCCTAAAGATATAATTCATAACGCTATCAAAAGAAGGGTCTTTAAAATAATCTGAAGCATCTTTCCAATATTCACCAACAATTAAAGCATCTTTATTTGTATTTTTTATTGCAGGATAAATAAAATTAGACCAAAAAGATGTTTGAATTTGATCAACTGCATCCAATCTCCATCCATCTATACCAAACGACATCCATTTTCCTAAAACTTCATCAAAATATCCTCTTACTTGAGAATTGTTTATATTTAATTTTGGTAAATCTGAATAGTTCCACCAACATTCATAATTATCTGCAGATTTTATTATAGGAAACTTTTTTATAAAGTACCAATCTAAGTAATTTGATTTTTTTTGCTTTTCAAAATTTTCTTTCATTGCAAAAAAATCAGATCCAGTATGATTAAAAACACCATCTAAAATTATTTTTATATTTTCTTTTTTAAACGTATTTATTAAATCTTTAAAGACTTTTTCTGTTCCAAAGTGTGGATCTATCTTTAAATAATCTTTAGTATCATATTTATGCGTAGAATCCGCTTCAAAAATAGGATTAAAGTAAATTCCTTCTATACCCAATTCTTTTAAATATTCCTTAGAATCTATAACTCCCTGCAAATCTCCACCAAAAAAATCAAACAATAATTGATTTCTATTATATGGCCCATTCCAATTTTGTGTTGAAACATAGTCATTTGTTTTATCTCCATTTTTAAATCTTTCAGGAAATATCTGATAATAAATTCTTCCTTTTGACCAAGTTGGTACATCAAAGTATTTTATTTGTGGATGTTTAAAATCAAATGTAAAAAAAGAATCATTGTATCCAAACTTTATTTTTTCTCCATCTTTTATATAAAATAAATACTTTAACTTATCTGATTTTGTAAAAATATGAAAAACATATTTGTCTTTATCTTTTAAACTATAAAAATTTTTTTCTACTTTATCTGCATTTGAGATTAAACTAACATCTTCAACATCACTTTTATCAAACTCAATAGATAAATATATTTCACCTGATTTTACAGGATTTATATACTTTCGTGATACATCAAAGTAAATATCTTTTATCTTTGAATCGCCTTTTTGAGGAATATACATCTCTTCAACTTTTCTAATATTATACAATTTTCCATCATATTCTTCGTAATTTGTATTTAAAGGATCTAGTATTTCTTTTCCATCTACTATATATCTATAAAAATACTTTCCTACTTTCAAATCTATTTCATACTTCCATATTCCCGTTGTTGTTTTTTTAAAGTTCTTTTCTTCAAAGTTTGTAAAATTTCCAATTATTTTAACCATACTTGCATCTTTAGTATAAAAAAATGCAACCTTATTACTAAATATAAAGGTTGATAAAAAAATCATGAATAAAGTTAAAAATTTTTTCATATTTCCCTCCCCCATTTTATTATCATCTTTAATTTTATCATAAAACTTCGATTTCTTTGTATAATATTAAATATACTATTTTCATACATAAATTTTAACAAAATATAATTTTATAATATATCAAAAAATGAAGAGAGTACAACTCCCTTCATTTTTATCATTCAACAAATTAAAAAATTCTTATTATTTTTAAAATTTTACTCATTCAACTTCATCAAGATACTTTAGCTCTCTACCAACAAATACCATCACTACTTTTTTTAATGGCCCATTGAACTCTTTGTTTATGGTTTTTTCATACCTCTTTATTTGATTTACTGCTTCTTTTATCTTTTCTTGATATACTTTTTCTGTATAGTCTTTCTTTTTTATGTATTTTAATTCTATTATTGCATTGTAGGGTACTTCTTCATATCTTTTAAACATTGCTAAGTCTATGTATCCACCTTCTACTGGATACTCGCTTTTAACGTATGCCCATGGTGTTAAGATTAAATAACTAAACAATAGCATCTTTATGTGCTTTTCACTAAAGCTTTGAAAGTCTCTGTCTGATAGTTTTTTCAATACATTTTCTATTTCATTTGCAAATGGGTTTATGTTTCCATCTATTACTATCCTTTTTACTGCAAGTTCTAACTTTTCAGTATTTATATAACTCTTTGCTCTATCTTCTATTGATTCTACAAAGTACTCTGAATATAACTTTTTCATTGAATAGTTTGGTATCTTTAAGTATGTATAGAAGTTTTCTTTTTCAAAGGTTAAAAATCCTAAATAAAAGAGTAAGGTTTTTATATCTTTTATATCGAGTTTTCTTTCCATGTTAAAAGCTTGAGTTAATACTTCAATTTCTGTTTTTGAGTTTAATAGTATTTCATTCAAAAGTTCATTTACAACTTCATGACTATCTTTTTCTGTATTTATTCCAACGATTTCACCAAGTTTAAATAAATTTTGAATCTTTTTATAGTCACTTGCTATGTTCATATCTATTACATCTTTTGGTTTTCTTTTTTCTCTGTTGTATTCAGAGATGAAGTATAAGACCATATCGCTGTTGTAAACCTTTTCACTTGCACGTTCATTAAACATGTATCCATTGTAGCTAAACTTCATGTCTTGTAAAATATCATCATTTATTTGATACTCTTTTAGAATATCTTTGACTTCACTTTCAGTAAATCCCATCATTTCATTTAATTCTAAGGTTGTTGACATGTTTTTTGAGATGTTGAATCCACTCGTTAAACTATCTAAGGTTATTGGCGCTACTCCTGTTATGAATAGTCTGTCTATAACTGATCGTGTTCCTTCTTTTATGACTTCGTAGAACTTTCTAACAAATCCTGTTTTACTGACGATATTTTTGAATTCATCGAGTTTAAAACTCAAAAGTTCATTTGCAAAGTGGTCGTATTCGTCTATTAATAAGTAGATTTTTGTTTTTAAGTTTAATTCTTTATACTGATTTATAAATGTTCTCAAAAGAGTTGAAGGCTCTTTTATAGAATTATTTAATTTTATATTTAAGTTATATCTATTAATAAAACTTGATAATTTTTCATAAACTTCTGAATTAAAGTCAAATTTCAACTCTTCTTTACTGTCTGTATTCAATCCAGAAAAATTAAACTCTAAAATATGATAACTACTCTTTTTAGGTGTTGGATGTTTTTGAATGTACAAGTCTTTAAAGATAGTATCAAACTTATCTGAATACTTAACATCATAGTATTTACTCATAGTGTCGAGCCACAAACTCTTACCAAACTTTCTTGGTCTTAAAAATGATATATATTTTTCCGGCATATTTTCTAATACTTCTATATATTTAGTTTTATCTACATAATAATAATTTTCCAATATTAAATCTTCAAAATTTTGAAGTCCATATGGCACTTTTTTCATTTTGATCACCTCTATTTTATTATACACTAAAGATTTTCAAAAAATAAATGTATGGTTTCTAAAGAAACCATACATTTATTTAATATAATTTTGTTTATAAATCTACATAAAAAATCTTTGAGATAATTCCTTTAAAAAATAAACAACATGTTCTTCTGCTTCTTTTGAAGCTTTTTTGGAATCTCTATCTTTAATAGCTTGAGCTATTAAGATTACCGACTCTATATACCAAGTGCTATCAGAAACTACATACTGTATATATTGTAAAAATCTTTCTGTAATTATATTTAAATTTTCTAAGTATTCTATTAGCATTGAGTTTCTGGATGCATCTCTTGTTAACTTATGAAATAATTGATCCAATTCAATATACTTTTTATAATCTTTTTTAGGATTTAATTTTTTCAACTCTTCTATGACTTTTAACATTTCTTCAACTTCTTCATCAGTTGCCCTTTCAGCCGCTAATGAAGCTGCTAAAGCTTCTAAATACATCTTTATTTCATATGTGTTTTTTATTTTTTTTATATCTATTTGTGAAACATACGTTCCTTTTCTTGGAATTATTTCTACTAATTCTTTTTCTGCTAATTTCAATAAAGCTTCTCTAACAGGAGTTCTAGACACATCAAACTCTTGTGCTAATTCTTTTTCATTAATTATTTCTCCTGGTTTCATAGTTAACTCAATTATTCTTCTTTCTAATTCTTTGTAAATAGAGTCATTTTTTTTCAATAAAATTCATCCTTTCATGGAAGAATCCAGTTTTTTCTCATTTTTTCCCATTTTTTATCTCTTAATTCTTTGATCTTATTTAAATCTTTTTCTTTAAGATGTTTGAATCTTCCTTGTTTTAATAAATAATCTTCAATTGGTTTAAAGTCTTTTGGATTTTTATTTAACTTAAATTCTTCATTTTCATACTCAGCTAAATACCATAATCCAGTTTCAACAGCATTTCTTGCAATTTCAATTGACTTATTTTCTGGTATACCCCATCCAGTAGGACAAGATGCATAAATATGAATATAAGATGTTCCATTTATATTTTTTGCTTTAGTTAATTTATTTATAAAATCTTGTGGATATGCAATACTTGCTGTTGCAGCATACTCTATACCATGAGCAGCAACAATTTCAAACATGTTTTTCTTTGGTCTAATAGATCCAGGCAAATTTTCACCAGCAGGTGTAGTCGTAGTTTTAGCTCCATAAGGAGTCAATCCACTTTTTTGTATACCAGTATTCATATAAGCCTCATTATCATAACAAATATATATTACATTATCGTTTCTATCAATAGCGCCTGAAAGAGCTTGAAACCCTATATCTGCAGTCCCACCATCTCCTGCAAATCCAACTACTTGATAGTCTTTTACACCCAAAGCTTTTAGTCCAGCATTCATACCAGACATAACAGCAGCAGTTGATGCAAATGGAGTTATAATAGAATTATTTTTAAAGGCCATTTGAGGATAAATAAACCCAACTGCCGACATACATCCTGCTGGTAATGCTGAAAAAGCACCAGGTCCTAACACTTTTAATGCAAGTCTAACTGCTAAACTACCTCCACATCCAGCACAAGCATAATGTCCGTAAAAAAATTCTTCATCTGTAATTGTTCTTGGATTTACTGGCTTTATATTATTCATACATTAACCCCCTTATACTCTTGCCTTTAAATTTACAAATTGTACTCTATCTATCTTTTTTCCATTATGAGCATCTATTAATTTTAAAATAATATCTTCTATATCTTCTTTTGATATATCTCTTCCACCCATTCCACCTAAAAAATTATATATTTGTGGTTGATTTTCAAGTTTAGATAAAGCAGAAGATACATTTGTAAATACAGTTCCTTCATAACCAAAAGACACGTCCTTTTCAAGGACACCCAATACTTTTGCTTTTGAAGATATTTTTTGTAACTCTTCTTCTGGAAAAGGTCTTAAGTATCTCAATTTAATCAATCCAACTTTTTGACCATTTTTTCTTAGCTTATCAATAACTACTCTTGCTGTTCCTGTTATACTACCAACAGTCAACAATAATACTTCTGCATCTGTTGTTTTGTATTCTTCAATTAAACCATCATAATATCTTCCAAACATGTCTCCATACTCTTTATCAACTTCTTCTATTACTTTCTTTGCATTCAACATTGCAACATGCTGTTTATATTTAAACTCCATATTGTGTTCTGGTGAAGTTGAAAAACACAAACTCTTTGGATCATTTATATCCATTTTAACTATACTATCTATAGGAGGTAAAAATTCATCTACCTTTTCTTGATTTGGAAGATTTATTAATTCATATGTATGAGTTAATACAAAACCATCTAAATTTACCATCATTGGAGTTAAAACATCTTTATTTTCTGCTATTTTATATGCTTGAATTATCATATCTAAAGCTTCTTGAGCATCTTCAACATAAACTTGAATCCATCCTGAATCTAATTGAGACAATGAATCCCTTTGATCTCCATATATACTCCAAGGTACTGCTATTGATCTATTTGCATTCATCATTACTATTGGAAACCTTGCACCAGAAACATAATGCATAACTTCACTCATATACAACAATCCTTGTGATGACGTAGCAGTAAAAGCTCTTGCACCAACAGAACTAACGCCCATTGCTGCAGCCATTGCAGAATGTTCTGATTCAACATGTAAAAACTCTGCCTTTAAAGATTTATCCTCAACCATTTCTGATAATCTTTCAACTACAATCGTTTGAGGTGTAATAGGGTATGCCGATATAACATGTGGTCTTGCCAACCTAACTCCCATTGCAACTGCTTCATCTCCTGAAACAAATTTTTTCATCATTCTTCACCTTCCTTGACCATAGTTATTGCATTTACTCTACATTCATTTGCACATACACCACAACCTTTACAAAAATCATAGTCTACATCAACTTTATTTTCGGATTTATAAATAACTCCATCTGGACAAAAAATATAACAATTCAAACAATTAACGCAAACATCTTTATTTATTACTGGTTTAAAGGTTCTCCAACCAGAATTTTTTTTAACCAATTGGCCAGATGGAACAGTTGTTCCTACAGGAAAATCATCTATATGTTCTGGATTCTTAAACTCTATTATTTTTGGCCTATTCTCTTTATAGTTCATTATCTCACCGCCTTTTTTATTTCATTATAAGCAATTTCTAATATTTTTATATTTTTTTCTATTAAAGACTCTTTCATTTCACTCTTTATAGCATTTTTTGCAGATTCCAAAGAAACAACTTCAGAAGCACCTATTAGTGCTCCAAGCATAGCAGTATTAGTTATTGGCCTTTTTAATATATTCAACGCCATTGTAGTTGCATCAATTGCATACACTTCATAATCATTAAAAATTGTATATTTAGATGCATCTTTTGTATTTATAATAATTTTTGCTCCTTTTTTAATACCATTAAGAATATCCTTATTAATTAAAGTTTCATCTAAAATAATTACATAATCTGATTCTTTTACTTCACTTCTATCAAAAATTTTTGTATCATCTATCTTTGTAAAACCCAATACAGGAGCTCCTCTTCTTTCTGGTCCAAAACTTGGAAAAGATAAAGAGTATTTATTTTCAAATAATGCTGCAGCAGAACCTAAAAGTCTTGCAGCAGTAAAACTACCTTGTCCACCTCTTCCGTGCCACCTTACTTCAATCATAATCTTTACCTCCCGATACATTATTTTTATTTTCATATGATATATATGTGATATATCACTAATATATTTAAAATATATCATAATTTTATTTATATAAATAATCCAAAAAAATTTAAATAAAAGAAATTATAAACGGTAAGATTAAATATTTAGTGATTAAAGTAAAAAATTATATAATTAAAAGCAAGAAAGATTTTAATTGAAAAGAACAAGATTATATATAGAGAAGATAAGTAATATTTTTAGAAGTAGTATACGATTATGATTTTGATAAAACAAAATATAAAAAATAAAAAGACACTCTAAGAATGCCTTTTTTGTATAATTTTTCTATAAAAAATCTATTAACGAACAGAAAATTTATATTCCAAAAATTTATATTCCAATATGGTTTGATTATTATAGATAGAAACGTTGGAGGAAATAATATTGAAACTTATTTATATTCCAATATGGTTTGATTATTATAAAAAAGAATTTGGCTATTATTTAATCCGATTTCACATTTATATTCCAATATGGTTTGATTATTATCAAAAGTAAAGGTTTTGCAATTAGTGAACAAATTTTATTTATATTCCAATATGGTTTGATTATTATTCTTAAAGCGTCTATCCAATGATTATTTTTGTCCTCATTTATATTCCAATATGGTTTGATTATTATAAAGATACTTTACATGACAATGAATTAAAATTATTGATTTATATTCCAATATGGTTTGATTATTATTCAGATGCACCATTTATTTTAATATGAAATATTTTATTTATATTCCAATATGGTTTGATTATTATAAATCCAGCTTCTTTTAAATCATTATATAATTTTAAATTTATATTCCAATATGGTTTGATTATTATTTTTGGCAGATAAACCAGCAATTATGAAAATAACTACATTTATATTCCAATATGGTTTGATTATTATGAATTAGACCAAGTTTTACCTGGAAATATTGTTGATATTTATATTCCAATATGGTTTGATTATTATTAATGAATGAAGACTATTTACATGTAGAAATGTATTTATTTATATTCCAATATGGTTTGATTATTATGAAGAACTTCAAATGTATTTCACAATACCCCAGCAGATTTATATTCCAATATGGTTTGATTATTATTTGCTCTATTGCTCTGTTTAATGCTTTTTTATCTGAATTTATATTCCAATATGGTTTGATTATTATACGTAATTTTAAAATTTATATTATATCTTAATTATAACTTGCTTATCTGTTGATTTATTCAAAATCCAATGTTTTATTTATTAATAAAATTTACATAAGAACATTTTTTATAGTATTAGCTATTTTTAGAATCTGTCTATTACAGGTGTTTATTTGCTTAGTTAAGTTCAACAGATTTTTTAAATAAAATTATCTTCCTCTACTTTTCCCAAATATTTTCCTATACCTTTTTCTTTACTATAGTCATAATTTAATATATATAACTTTTTATATTTATTTATTTCAATATTTTCTACTAAATTTAATTTTATATTATTTGATTTAATCATATATGATGGTATATTAACTGAATATTTTTTTATATCTTCAATCAAATTATTAATCTCTATAAACCTTTTTTTATTTTCATAATCTTTCTTTAAATTTGTTATTTTGCTATATTTTTCTTCTATTATATCACTATATTTATTATATATAGTTTTTGGAATAATTGTACAATTATCTATTTCTCTTAAATTAATATACTTTTTTTCAACACTTCCTTTTTCAATCTCATTCCAATAATTTAAATAATTTTTTATATTTTTAAAATATTCTGTTTCTTTTAATTTCTCAGTATTAAAGATGCTTTTTATCATTTTCTGTTTATCTTCTTCTGAAATATACTTATTATCATATTTAAATATTTCTTCTTTTGAATACTCAAATATTTCTCTATCAATAAATTCTTTTATATTTGTACCAGAAGGAGAATTTTTTTCATTTCCTATAAATATATTCACATTATTAAAACCTTCTTTTAATTCTCTTTTTCTGTAACATCTTCCCATTCTTTGAAAAAGACTATTCAAATCTAATAATTCTGTATAAAGAATATCAAAATCAATATCTAAACTTGCTTCAACTATAGATGTTGAAATAAATATATATTTTCCATTCTTTTGTTTATTTCCAACTTTTATTATTAAATCTTCTTTTTCTTTTCTATCTTTATTTATAAATCTACTATGCAATAACTCAATATTATATTCAGAATACTCTTCACTTTTACTTATTAAATCATATATTTCTTGAGATTTTTTTATAGTATTTGCAATAATTAATACTTTTTCTTTGCTTTTATTTATTTTTAAATTTAAAATATCTTCTTTAAATACTTTAATCTTATGTCTTTTCTTATTTGACAAAAACATATTTTCAGATAATTCTATGTTTATATTATAATTTTTCATTAAATCATATATAAAAGGAGGAAAAGTTGCTGTTATAATGCTAAATTTACCTCCAATTTTATCAATATATTTTAAAGCTATTATCAAATAAGCTAACATTTTAGAATTATACATTTGAATTTCATCAATAATAATTTTTGAATATGATAAATGTGCTAAGTCATACTCATATCCGTTATATTTAAAAATAAATTTTATTATTTGATCCAAAGTTGTTATTGTAAGTGGTAAACTTTTATTTTTTGTCAAATTATAATAATCTTCATCAAATTTATATGAACTTGCATCTTTTAATAATTCACTTAAAGTATCTGAATGTAACAATCCTACTTTTTCTTTTTTTAACTTAATCTTATTTAACAATCTTCTATAAATACTATTTATAGATACTTTTACAGGTAAAGTAAAATAACCTTTATTTTTTCCTATCCATAATAATCCTGCTTCTGTTTTTCCATATCCAGTAGAAGCTATAACTACAATATTTTTATTTTCATTTGCTTTCATATATTCTTGCAAATCATTCAAATTTGAATTATATTCTTTTTTTAAAAATTTAATTACATAATCTGATAAAGGTTCTGGAGAAATTTCAATTGGCAGGCCTGCACTTGCAGAATAATCTATTTTATTTAATAATCCTTTATGTAAAATATATTCATATAATATATCTTCTCCATAATCTTCAATTTGATTTTCAATAGGTTTAGAAACAAAACGACCTATTGATGGATTAAATTTCAGCTTCTCTTTATCTATTGCAAAAATATAATCTTTTATTAAATTTTGAATTTCTTCTTTATAATCTTTAAATAAATTAATTAAATTTTCTGGTTCTTCTCTTTCATGGTGCCAATATATACTTTGATAAATTATTATTAAATATTTATTTATTTCCTGTTCATTATAGTTTTTGCTTTCTAATAATTTTTTAATTTTTTTCTTCGGTAAGAAACATGGACTTAAAAAATTATGTGGTATTTCTTTCATATCTTTAAAATTATCTTCTATATAATTACCTATCTTAGTTTGAAATTTTGGGTTTATCTTTCCTAAATCATGATATTTACAAATAACATAAAGAATATCCCAATCAATATTCTTTATGTTAGGATATATTTCTTTTAGTAAGTTTAAATTATCTAATAGTTTTTCTGTATGCTCTTCAATAGTTTCCTTTGGATTACTTTTTGCATAGTAAAATTCAATCACCTTCTTTTACGCATTAAAAATAAAATAATTATCTTCATCTAAATAAATATTACTATCTTCAAAAATACCTGTATTTATTTTAGACGCATGGTAAACATCTATTTTGTTCCATTTTCTTATAAAAACATTTTTCTTTATTTTTTGTAATTTATAATCTTTATTTATTTTATATTTGGTTGAATTTGTACTAATATCTCCAATTTCAAAATTTTTTACAGGAATATAAGCATCATGTTCTAAATTAAAATCTTCTTCAAGATCTTTTTTTTCAATATTAACTATTTTTATTTCATTAATTTGTACCAAATCTTCCCATCTTCCCAATGATAAATAAGTGTCCGGATATTTTATTTTATTGTAAATATACTCTATTTCTTCTTGGCTTTCTGGAATTATGTGTATAATAAGATTTAAATCAACAAGTAATTCTGCTGTTGATATACCCTTTGTAATTCCTAATTCGTTTTCTTTATATGAATTTGATTTTTTATCATATTTTGAGTATGGAACCTTCAATTGATGTCTTCCTTTTTCAAAAGAAGTACAAGCAAATTCATATCTAGTCCAAAGATCATTTATTTTAGAATGATGATCACCTTGAACACTTATTTGCATTTCATGATATTCACTATAACCACAAGCTACATGAACCATACCTATTATTGTTGAATATGGAGGTAAAGGATAAGTTTCTTTTAATTGAAAGCTTGTTGGTTTTTTAAAATTAACCATATTTTGATAAGCTTTTATTCTAATAGCTTTTTTATTCATTTTTACCTCCTTTTATTTACTTAATATAATAATCTTTTACTTCTTTTTTTATTTCTTCAAAAAATTCACCTATTTTCTTAGCATTTAATTTTTCTTTTATATCATAACCATTATTAAATTTACTTTCAATAACTCCAACTTTAGTTTTATTTTCAACTTCTTCATCATATGTATAAATATTTCTTATTGTATCTATATCAAAATTTCCATCTTTTAAAATCAATCTATTATGAAAAAATGGATTTTTTATATTATATACTCCCCCTATTGCAAGTATTGGAGATAAATTTTCTCTTCTTCCACGTATGTCTCTATATAAAAATTTTATAGTATCTAGTAAATTGCAAACTCTATTTGATTTTTCAGAATTATCTATTTCAATATTTTCTACTTTATCTATACCTATTTTATCTAAATCAATAGTAATAGTATATGTATAATAAGATTTATGTATTTCACTTTGAGCTAAATTAGAACCCTTTTTTTTATTTTCATTTTGCATATTATATCTATCTAATAATCCTTTATTAGATAAAAAATCTAAATCTAAAGAGAATGGTTCTAATGCAATAGCATTACTTAATCTAACTACAGCAGACCTTGTTTTAGAATCTTCACCTTTTAAAGTTTTCATATATCCAAAAAAATCTATCTCTGGATATTCATCTATATGAGCATCTGGAGCATATTGTATAACTTCTTTATCTAAAGATAATTTTGTAGTATCATAACCACATTGATTTATAATATTATATCTTAATGCTTGCCTTGAAATATATGTATAGCTTTCACCTTGAGAACGAGTTAATTTTTTTAATGATGAAACATTGCCAATTCCTTCACCATAATTAGCACTTTCAGCTTCTATAATAAAAGATATAGTTAATCCTTTTTTATCCATTATTAATTTCCCCCTTTATCAATATTTTCTTTTTTTGTTGATTGAATACCTAAAATAAAAGCATATCCAATAGTTTGTAATGATTCTACATTTTTATTACATTCAAGAATTATACTTGGAATCTCTTTTCCTAAATACATATAACTATTAATTATTGTGTCTAAAAATAAATTTTTATTTTTAGTTTTTAATGAATTTAATAATTTATAAGTAATTCCATTTATTTTATTTTCAGAATTTTTTTGTTTATAATATTGTTTAAATTCTTCACCTTTAAACTTAGCCATAGTAATTAACTTTTCGTTCATTCCTCTTTCCCCCTTTGTATTTAAAAAAGTATTATTTATATATATAAGATTAATTAAAAAATCTTTTATAATACCATCATTTCTAAACTGTATATTCATAGATTCATTTATTAAATTAAATAGTAACGAATTATTATATAAATTATTTATAGTAGCATCGTATAAACTAATATAATCATCATTTGAAACTTTAATATATTTATTTATAATAAATTCTAATCTCTTTTTTTCTTTTTTTAATACATTAATCATAGATTTAGATAAAATATTAAAAGTATAAGGTCTTAAAGAATTTTCTTTATCAAATTTTATAATTTGTATATTTTCTAATTCTAATCTTTTTTTGTTTATTTCTACGCTTTCTAAAGAATTAAGAATATTTCTATAAGTAAAGTTTTCTAAATCAAAATAAGAATGTATTCCCTCATCTTTTTTAAAAGAAATATTATTACTTTCAACTAATGATTTAAAATTATTATTTTTATTTATATATATACCTTTTCCATAATAATTATTAAAACCTGCTGGAACACATGCATAAACCAAATTGCATACAGGACATATATAAGAAGTATTATTAAAATTCCAAAAATGAGAACTTTTTCTATTTTGATCTACACCAATTTTATTAATCCATACCAAATCAAATGATTCTGGCTTTGATAATTTTGTTATTTTTCTATCACAAACACAACAATTATATTTAGCTTTACTTATATCTTTTTTTAAATAATTTAAAGTTGTATCTACAAAATCATTTTTAAATTGAAGAAAATGATCATTCTTATTATTTTGTTTATGTAAAATACTAATATTGTTCCAAAAATTATTTATTATATTATAAATTACGTCCTTAGAACATAAGTATTTTTTTACTACTTTTTCTTTTAACTTACTATTAATTAAAATAAGAGATTCAACTGTTTCTTTTATGACTTTTAATTTTTCTTCATCTGTATCATTTTTTTTAAATTTTATTTTTTTTAATTTTTTTCCTTCTTCAAAAAAATCAATATCTAAATCTTTTAATAAAGGATACGTGTTTGAATAAGAATTTGAAGTTAGTTTTTTCTTCAATAAACCTATATAATCGTTTATATCTCCTATAAATTCACTATTTTCTTTAAAGTACTTTTCTTCAAAATTATTCAAATAATTTGATAAACTTTCAAATTTATTATAAGGTAAAATATATTGATATTTATCCATAAAATATTCAAAATATTTCTCTTCAAAGTTATCTAATTCTTCAATATCAAATTCAAATCCATTATTATTTTTTTTTAAAGAACTTGCATTACTATGATTTAAAATATTATAAAGTCCAACTAATCCTGCATTATATAGCCAATCATTCATTTCTAATCTTATAGTACTTATTATTAACACCCCCTTTTTATAAAATTTCTACTAATCCAAATCCATTACTTCTTTTACTTCCAATTCCAGATTTATATAAATAATCTAATATCATTTCATTCCCTTTTACTTTGATCACACCTAACGTAACAGGAATTTTAGCAGAATAATTTAAAACTATTGTCTTCTTAAAATTAACTATATCTATTTTGAGATTATCTACATATTTAACTAAATTATTATATTCTGATTTTAATAAAGTATATTTAATATTTTCTTTTAAAATATTAATTGATTCTTTATTGTCCAAAGTATAATAAAAATCTTTATTATCTTTTTTTTCATGTTTTCTTATTATAACTGGACTCATGATTTTAAAATATATTTCATTCTTATTTATCCATTTTTCTTTTTCTAAACTTATATTAAATAAAGTCATAGAATTAGAATTAGGTAAAGGGAATTTTTGGGTTTTCATGTTTAAAATAGAATTATAAAAATTAATTGCAAATTCATTATCAAACGAACTTAAAACCATAAAAAATTTATTATTTTCCATCTTAATTTTTTGGTTTTCAAATTTACATTTTCCAAAATTTATACCAAAAGAAAAATGTTTTTGTATAGAATCTTTTTCATTATAATATTTTTTTAAAATACTAACATCTTTTTCTGTAAAACTCTTTTTTATAAAACTCATAAAAATCCGTCTATAATCTAAAGGCATTTCTTTATTTTCTAATTCAAAAAATAATCTAAACCTCATTTTTTTCACCTCACTTTCATTTTGATTTTTCTTTTATTAATAGTATAATTTTATTATAATGTAAATGATTATTTTTTTTTCAGAAATTAATATAAATAAAACATTTTAAAAATCCTATTTTAATATTACCATATTTATATAATATTTTCAATATAAAACTTGAATTTATCTAATGTTTTTTAGGTGGTGACGAAAAATAAAAAATTTGTCTGGAATGCATATATATTACTTTAATATTTGCAAGAGAAAGCTTTGGCTTTTTTCTCATAATTTAAATTTTGAAGATGAAAACATTAATGTAAAAATAGGTAAAATAATAGAAGAAGAATCCTATAGCAATCAAAAGAAAAATTATCTTATAGACAATATAAACATAGATTATATAAAAAGAAATAAAACAATACATGAAATAAAAAAAAGCAATTCATTTGAAGAAGCTAATATTATGCAAATTAAATATTATTTGTATATATTAACAAAATATGGATTAAATGATATAAAAGGTATATTAGAATATCCAAAGTTATATATAAGAAAAGAAATAAATTTAGATAAAAATGATTATATTATAATTGAAAAACAAATATATGAAATATATAAAATAATAAATAATAAAAAAATACCTAATGTAATAAAAGATAACAAAATATGTAAAAAATGTGCATATTATGAATATTGCTATATATAAGAGGTGATTTTATGAAAAGGTCTTATTATTTATTTTCTAACGGAGAATTAAAACGAAGAGATAATTCATTAATTATAAAAAATACTCGAACATCAAAATATATTCCAGTAGAAGATGTAAATCAAATATATGTATTTGGAGAAATATCTTTTAATTCAAAACTTACTAATTTTTTATTTCAAAATAACATAACTGTACATTTTTTTAATTACTATGGATATTATTCGGGAAGTTTTTATCCAAGAGAAAATTTATTGTCTGGTGATGTTCACTTAAAGCAAGCTGTAAATCATTTAAACTTTCACAAAAGATTATTAATTGCAAAAGAATTTATAAATTCAGCAAGTTTTAATATAAGCAGAAATTTAAAATATTATAATAGAAAAGGTATTACTCTAGAATTTCAAATAAAAGAAATAGATTTTTTAAGAAAGAAAATTAATAATGTAAATTCAATTGAAGAATTGATGGGAATAGAAGGTAATATAAGAAAAATATATTATTCTACATGGGATTTTTTTATAAATCAAAATATAAATTTCAAAAAAAGAGAAAAACACCCTCCAAAAAACTGGATAAATTCATTAATTTCATTTATAAATTCATTAATATATACTACAACTCTCACCGAAATATATCATACTCATTTAGATCCTACTATAAGTTTTTTACACTCTCCAAGTGAAAGAAGATATAGCTTAAGTTTAGATATATCAGAAATATTCAAACCTATTGTTGGAGATAGATTGATATTTTCGTTATTAAATAAAAATATGATAACACATGAATCTTTTATAGAAGAGTTTAATCATATAATATTAAAAGACTCTGCAAAAAAAATTATATTAAAAGAATTTGATGAAAGATTAAAACAAACAATAAAACACAAAAAACTTAATAAAAAAGTATCTTATAGAAGATTATTTAGATTAGAATGTTATAAATTAGAAAAACACGTAACAGAAGATACAAAATATGAAGGATTCAAAATATGGTGGTGATAAATATTGTATGTAATATTAATTTATGATATAAACATAGAAGAAGATAATAAAAAGGGTCAAAGAATATTAAATAATTCATTTAAAATATGTAAAAAATATTTAAATCATGTACAAAAATCTGTTTTTGAAGGAGAAATAGACAAAGCTCAACTTGAAAAGCTTCATGCTGAATTAAATAGATATATAAGAAAAGATTTAGACTCAGTAATAATATTTAAAAGTAATAATCCTAGATGGCTAATGAAAGATTTTTGGGGAATTAAAGAAGATAAGACATCTAATTTCTTTTAATCTTTTAACTTTTGTTTATATATAAACTACATAAATATATCAAAAAACTGCTCTCAATTATGAGAGCAGTTCGTTATATGAATACATGTATGCTGACTGGTAGCCCCACGGGGAATCGAACCCCGATTCTCGGACTGAGAATCCGATGGATTAACCGTTATCCTATGGGGCCATATTTACAACTATTATTATAACATATAAAATATTCTTTGTAAAGATATTTTTTTACTACTAAAAAAATATTACTTGACAAAATATTTTTTTTATGCTAAAATTTAGAAAATTAATTAACGATAACAAGGGTGGTTAATATGAAATATTTTTCATTAATTGCAAAAATTAAATCAAATGTACAATTTAATAATAATAATAATTTACAGCGTCGGCAATGACACGCTGTCTGTTTTGACATATAATTGCCGATGCTTAATAAGCATCGGTTTTTTATTTATACCCGGGTATTTGAAGTAATCCCCAAAATTACTTCAAATAAATATCAAAGTTGGGGCTTTGATATAAAATTAAGGGAGGAATCAATATGAAAAAAGTAGATAGTTTAGAATTAGTAAAAAAATATACTGATGGAAATTTTTTTAAAGATGTAACTTTTATACAAAGTCAAATTTTGAAAAGTGTAAGGCATGTTTTAGATGAAAAAGGTTTTATTGAAATTTTACCTGTAATTATTTCACCAATGACTGATCCACTAAACCATCCAGTTTTTAATGCTGATATTAATTATTATGGAAAAACATATTCTATAACTAAATCTATGATTCTTCATAAGCAAATAAGTACACTTGTTCATGAAAAAATTTATTCTGTTTCTCCAAATTTAAGACTCGAAACTGAAGAAAATTATGACAGTGGAAGACATCTTGTTGAATTTGTTCAAATCGATATGGAAAAACTTGGAGCAACTCGTGATGAAATAATGGATATTATGGAAGAAGCTATAAAGTATACTGTTAATACATTAAAAGATAGTTACCCAGAAATAATTGAAAAATATCATCCATCACTTGATTTTTTGAATAAACCTTTTAAGAAAATAACTGTAAAAGAAGCTAAAAGTACTTATGGAGAAGATTATGAAAAAATACTTTCAAAAAAATCAAAAGAACCATTTTGGCTCATTGACATGCCTTTACTTGAAAGAGAATTTTATGATAAACAAGATATGAAAAATCCAGATGTTCTTCTTGATTTTGATTTAATCTTTCCTGAAGGTTTTGGAGAAGGTATTTCCGGTGGTGAAAGAGAACATGAATATGATCAAATAATAAAAAGAATGGATTTAAAGAGAACTTCATCAAAAATGTTTGAAGAATATTTAAGTTTAGCAAAAGAAGGTATATTAAAACCAACCGCTGGTTGTGGTATAGGTGTTGAAAGATTTACAAGATATATACTTGGTTTAGATCATGTTGAAAACGCAAGACTTTTTGCAAAAGCTCCAGGAAGATATTCTATTTAATTTAAAAAAACAGAAACTTCATTTTAACTTATGATACCCAATAATAGATTATAGTTTATTTATTACGGGGAATAAGGAGGGTGTTTTATGACCAGAGAGGAAATTTTAAAAAAAATAGTCGAAGAAAAAATAAAATTTATAAGGCTTCAAATTACCGATATAAACGGTATGTTAAAAAATGTGGAGATTCCAGCAGATGAAATAGAAAGAGCCTTAGATGGGAAGGTTATGTTTGATGGTTCTTCCATTGAGGGAATGGCAAGAATAGATGAATCAGATATGTATCTCATTCCTGACCTTTCTACATTCACAATTCTTCCATGGACATTGGAAAATGGAAAGGTTGGAAGATTTGTTTGTGATGTTTATAAACCAGATGGCAAACCTTATGAAGGTGATCCTAGGTCTGTTTTAAAAAGAATAGTAAAAAAATTAAGAGATGAAGAGTATATTGGATATGCTGGACCAGAACCAGAATTTTTTATTCTTCCAAGAGATGAAAAAGGAAATCCAAAACTCGAGTTGATGGATAAAGGTGGTTACTTTGATTTACTTCCAATAGGTCATGGAGAAGAAACTAGAAAAATGATTGTTGAAGCACTTGAAGAAATGGGATTAAATGTTGAAGCATCTCATCATGAAGTAGCTCCATCACAACATGAAATTGATTTTACATATGATAAAATTTTGGAAACAGCAGACAATATACAAACATTTAAACTTGTTGTTAAAACAATTTCTTTACTTAGAGGTATGCATGCAACTTTTATGCCTAAACCTTTTTTTGGAATAAATGGTTCTGGAATGCATTGTAACATGAGTTTATTTAAAAATGACGAAAATATTTTTTATGATAAAAACAAGAAATACGAATTGAGTCAAGAGTTGCAGTACTTTATTGGAGGTATATTTGAACATATAAACTCTATAACCGCAATAGCAAATCCTACTATAAATTCTTATAAAAGATTAGTTCCAGGATATGAAGCTCCAATTAATGTTGCATGGGCTGCTTCTAACAGAACAGCTTTGATTAGAGTTCCTGCTTCACGAGGAAAGGGTACAAGGATTGAATTAAGGAGTCCTGATCCAACAGCCAATCCTTATCTTCTTTTTTCTGTTATTTTTGCTTCTGGTTTAAAAGGAGTTAAAGAAAAAATTCTTCCACCAGAACCTGTTGTTGAAAATATATATAAAATGAAAGAAGATAAAAAGATGGAACTTGGCATAAAAAAACTTCCAAGTTCATTAAAAGAATCTCTTGAATGCTTAAAAAATGATGAATTTATAAAAGATGTTTTAGGAGAACATATTTTTAAAAAATTTATTGAAATAAAAGAAAAAGAATGTAGACTTTTTGATGCAGCAGTTACTGATTGGGAAACAAATAAATATCTTGGAATATTATAAATAGAAATAGCTTAGCTATTTCTATTTTTTATTTATTAATTAAAAATATGTTGAAAACAAAAATTAAAATAAAAATGGTATAATAAAATAAAAAAATTAGGAGGTTTTTATATGAATATAAAAAGAGCAATAATTTCTGTTTATAACAAAAACGGCTTAGAAAAATTTGCAAGATTTTTATATGAAAATAATGTTGAAATAATAAGTACAGGTGGAACAGCAAATTATTTAGAAGAAAAAGGTATAAAAGTTACTAAAATGTCTGATTATACAAAATTTCCAGAAATTTTAAATGGAAGAGTTAAATCTTTGCATCCAAAATTATTTGGTGGTGTTCTTGCTGTTGATGGTAATAAAAATCAAGAAAAAGAAATCATCGAATATGATATACCAAAAGTTGATATGGTTGTTGTTAATTTTTATCCTTTTGATGAAGTAGCAAGAAATACAACAAATGAAAAAGAACTTTTAGAAAATATAGATATTGGCGGATTTGCACTTTTAAGAGCTGCTGCAAAAAATTATAGAGATGTAATTCCAGTTGTTGATCCTGAAGATTACAACACTATAATAGACAGCATTGAAGAATGTGGAGATTTTCCACTTCATAATAGAAGAAAGTTATCTCTTAAAGCTTTTTATTCTTGTTCAAAATATGATTCTAATATACACAAAGTTTTTTCAGAATTATTTGCCTCAGAAAAGTATGAACATGAATTTTTTGAAATTTTAGGAATGCTTAGATATGGTTCTAATCCATTGCAAGAAGGTACTTTATTAAAATTTGTTAATGGCGAAAGCTTGTTTGATAATGTTATTAATTTAACCACACATAAATCTCCAACCTTAAGAATTTTAAAAGATGTAAAATTATTATATAGTGTTGCTGTAAAGACTAAAGGTAATTTATTGGCTTTTTCTAAAAAAGGAGTTTTTGTTTTTGCTTATTTAAATCCATCAAATGAGGATATTAAAAAGTTTTATGGTATGTTAGATCAATTAAGAGGTGGAATTGTTTATACAGAAGATGTTGAAATGGTTAAAAAATTAAAAAATAGTAAATTAGATGGTATAATCACTTCTTCTGAACCAAATATTGATCATTTTCTTGGTTATAAACCAATGATTTTTAAAATAAATAAAAAAGAAATAAATATGAATTATGAATACTTTGTAGATGGAGATTTAGTTGTAAAACAAGAGTATAAAAAAATTGAAGCTGATTTACCTGATGTTGAAACTATTGGATTTGAAGTGGCAAAGTTACACCGTTCTGATACAATAGTATATGTAAAAAATAATAAAATTTATTCAGGAGTACAAAATGCTTTAAACAGGAAAGTAGCCTTAAAAGTTCTTGAAGAAATAGTTGAAGAAGCTGGCGATACTTTTGAAAAAGGAACTTTGATATTTGACTCTCCAGTTAACAGTGATTTTGTAATAAAAAAAATTATTGAATGGAAGATAGAAAAAATTGTTGTTCCTCCAGCACTACCAAAGGATGAAAAATATATTGAAACAATAAATAATCATGAAGTTAATGTAGTTGTAACTAGCAGAAGATACCATAGGTATTGATTTTTTTGATAAATGTGATATAATGTTTTAGGATCAATTACAAGTGGTTGGGTCCCGCGCAACGAATACCTACGAACCTGGTCAGGACCGGAAGGTAGCAGCCATAAGTGGTGTTTTTCGTGTGCCGCGGGTAGCTCAGCCACCTTGTTTATTTTAAAGACACTATATAAATTTATTTTGTGATGCTAAAAAATACTTTAATCCTTTCTTTTTAGCATTATACATTGCTATATCTCCTTCTAAAATCAAACTATCTACCGTGTTTGCATCTTTTGGAAAAATAGCAATACCAAAGTTTCCTGAAACATTTATTTTATTATCTTCAAAAAATATATCTTTTTCTACTTCTTTTATAGCCCTTTCAACAAAATCTATATAATTCTTACAATTATACAAAGAAATAATAAATTCATCCCCACCAATTCTTGAAATTAAATCACTTTTTCTAAGTATTTTTTTTAATCTTTTACTTACAGTTTTTAAAACCAAATCTCCTGCTTTATGTCCATACTTGTCATTTGCATTTTTAAACTTTTTTAAATCCATATAAAGTAAACAAATTTTCTTTTGTTCTCTTTTAGCTAATGAAATCATTTTTTCAAATTCTAATTCAAACATTCTCCTGTTTGGAAGCTTGGTAAGAGTATCATGATTTGCTGCATATTTTAAGTATTCTTCGATTTTCTTTCTTCTAAGCAAAGCAGATAATTGATTAGAAAAAATTTTAGCAATTTCTATTGAATTTTGATTAAAAGCATCTTCAGATTCAAAATTATCTAAGTTTATAAAAATTAATATTTCATTTTCAATAATTATTGGTATAAAAAGTGTAGATTTTATTTTTTTTGTTTTTCCATTTTTATCTAAAATATCAAAATTTTTTTTATTAAGAGTTTGTTTATTGGCTGAATGAATTTTTTTTATTATTTTTATTTTTATATCTTCTCCTTGTATTAATTCATTTGCTTTAAAAGTTATCTTAGAAAGTTCCTTAAAATTATATCCAAAACATGAAACATACTTATATTCTTCACCTGCTTTCATTAAAATACTTCCAGCTTGAGCACCAGGTATTATCTCTACTCCTTTTTTTATTAAATAATCATATGATGGTTCATTTTCTATTTTTAAAAGATAATTTGTCAAATCACTTATTTCTTTTAAAGATCTCTTTTGCAAATTAATAGATTCCATTATCTTTTTTTGATTATTTCCTTGAAAAATCAAAATAATAATAATAGTAAAAATAACAGCCATAACATAAATTATTATATCAAAAGATGAAAAAACTCTCTTATATTTTAGATTATAAACAAAATTTTTATTAGAAAAAGCTATTCTTATTCTCTTTAAATCAATTTTATTGAGTATATATTCAGAATTTACTTTTATTAAAACTACTCTATTTTTTATAAATTTATCCTTAAAATCATCTGATATCTTAAAAATAAAAATTAAGTCTTTATTATCACTTGTAATTTCATAATTTTTTTTAGGTGGAATTTTATCAATTATTTTAAAAAATAAAACACTTTTATATGTTTTTTTTAAATCCTTTATAATTTTATTTATATCTTCAACATCATTATTTAATACTGCATTATACATTTCATCCCATTGAAAATATCCTGAAACTAATGATTCCGCAAAAAAATTCGCTTGACTAATATAGGATTTTTTTATTTCATTTAATTCATTTTCAAAGTAAATATTGTCAATAACATAACTAAAAAAAATCAAAATTATTACAGTCAATATATATGGTTTAGCCTTTTTTAAATAGTTTGTTTTTTTCATACTATCAACTCCAATATTATTTTAATTTAAAATATTTTTATATACTCTCAAAAAATTATTTCCAAGTATTAATTTTATTTCTTTATCATTATATCCGTGTTCTAATAGTTTTTCTATAAACTTTCCTATATCTTCATGACCTTTTATAACATCAAAAGTTTTTGAATTTTCATTTCTAAACATATCACAAAAATCAAAACCAATTCCAACATGTTCAATACCAACCAAATTAACAATATAATCAACATGATCTATAAAAGTATCAATAGACGGATTTGAATTTGATATAAAAATACTGTTTCCATTCATTCCTATTACACCATCTCTTTCTGCAATAGCCTTTATTTGTTCATCTGTTAAATTTCTCATAGAAGAAGATAAAGTCCTAACATTTGAATGTGATGCAATTATGGGAGTTTTTGAAAAATTTATAATATCCCAAAACCCTTGATCATTTATATGACTAACATCAATAATCATATTCATTTTTTCCATTTTTTTTATTAATTCAACTCCAAAATCTGTTAATCCACCTTTTTTACCTTCTACTTTTTTATCAAAATGACATCCATCTGCAGCATAATTTCTTCTACTCCAAGTAATTCCTGCCATTCTCACACCAAGTTCATAAAAAATATCTAATAAATTCAAATCATTTCCTATTGGTTCTACACCTTCAAAAGAAAGTAGTATTCCTATTTTATCTTTTTTTATTGTATTCATTATATCATCATAATTTTTACACAATATAACCTTATTATTTGATTCTTTTATTTCTTGATAAAGAGCGCTTATTTGTAATAAAGCTCTCTTTAATCCCTGTTCTGGTAAGAATTTATTATCTATAAATATTGAAGATACAATTATATTTATTCCACCTTTTTTAAACTTTTTCAAATAATCGCTTTCTATTATATTTATTCTTCCATTTTCTCTTTTTCTAAGAACATCCATTAATAAATCAAAATGCGCATCTATTATTATGGAATTTTTTTGAATCTCTTTTACTTTATTTTTTATATTCATAAAAATACACCTCCATATAAATTATAACATTTTTATCAAATAGAAACTTATTTTTAACAAAATAATGTTATTCTTTTTTTGAACGTTGTTCAAAAAAATATCCATGGAGGAATTTTATGCCTAAAATTATTAAAAAACCACTTGATATTATATTTAAAACATCTCAAATTATTATAAATAATGAAGGAATAAATAGTTTGAGTATTAGAAAAATTGCAAAAGAATCTGGAATTTCAATTGGAACGATTTATAATTATTTTGAAAACAAAGATGCTTTAATAATAAAATTAATGGAACAGTATTGGAAAGAAAGTATATATTTGTTAAATGAAAAAAAATATTTAAACCAAGAAAAATTTTTAGATGATTTATATGAAGTTTTATGTACTTATCAAAAAACTTATAAAGATTTTTGGAAAAATAATTCATTAAATAATATTCCTCAAATCAGATCTTCTATGATAAAAAAAGTAATTACATTAATTTCTAATAAAACAAAGCTAAAAAATCCTGAATTCATACTTCAAAATTTAATGGCAACTGCAACTTGGAATTTTATAGAATATTCAAAATTAAAAAAAATACTTTTAAATAAGGAAGGTGTATAAAAATGTTATTATCAGCAATCATAACTATAGTATTAGCTCTCATTTTTTATTCTTGGGGAGTTTGGGGAGAGAAATTAAAAGGTAGATTAACAAAAAAATTCTTAATTTTATTTTGGATTGGTCTATTTTTTGATACTACAGGAACAACTTTAATGTCTATGATTTCAGAACATCCACAACCATTTCATAAAATAACTGGATTACTTGCAATATTTTTAATGTTAATTCATGCATTGTGGGGAAGTGTTGTTTTTATAAAAAATAATGAAACTTGGATAAAAAATTTCCATAAATTTAGTTTATTTGTTTGGCTTATGTGGTTAATTCCATTTTTAAGTGGTATGATTTTTGGTGCAAGTGCTAATTAATAATATTTAATTCTACAACATTTTTGAAAAAATTTTTTTATTGGAGTATAATATATTTATAAGAGTGTATTATACGAGGTGATAAAAATGGATGATGTAAAAATAAAATCTTATAAAACTTTTGATCTTTGGCTAAATAATGTTGATGATTCTTTAAAAAATGAATTACTCACTATAAAATCTAATGAAAATGAATTAATAGATAGATTTTATAAAGATTTGGAATTTGGAACAGGTGGAATGCGAGGAAAAATAGGTATAGGTAGTAACAGAATGAACTTTTATACTGTAGCAAGAGCTTCACAAGGTTTTGCAAATTACTTAAAAAAAATAAAAGATTTTCCTTCAATAGTAATAGCTTATGATACAAGGAATAAGTCTGATTATTTTGCAAAAAATGCAGCACAAGTATTTGCAGCAAATGGAATAAATGTATATTTATTTTCTGAACCAACAGCAACACCTATTTTATCTTACGCTGTAAGATATCTTAAAGCTGATGGTGGAATAGTTATTACTGCTAGCCACAATCCAGCAGAATATAATGGGTATAAAGTATATACTTCAAATGGTGTCCAAGCAGTACCAAATATCGCTGAAAAAATAATTGAAGAAGTGAATAAACTAGACTATTTTAAAGATATAAACATTATAAAATATGAAGAAGGTATAAACAATGAAAAAATAATTGAATTAGATAATGAAGTATACAATAATTATATAGATGAAGTTGAAGGTTATGTTCGTACATTAGTTCCAGAAATAAACAATAATTTAAAAATAGTGTATACCCCTTTGCATGGTACTGGATTCAAACCAGTTTCTGAAATTTTAAAAAAATTAGATTTTAATATTGAAATAGTTGAAGAACAAGCAAAAAGAGATATAAATTTTTCTACAGTAAAATCACCAAATCCTGAAGAAAAAGAAGCCTTTAAACTTGGACTAAGTCTCGCAAAAAAAAGTAATGCTGATATTGTTTTAGCAACAGATCCAGATTCAGATAGAATTGGAGTTTTCGAAAAATATAATAATGATTATATTTCTTTTAATGGAAACGAAATGGGAATTATGCTTTCACATTTTATTCTTTCAAAATTAAAGTTACACAACTTATTACCTCAAAATGGAATAATAGTAAAAACTATTGTTTCTACAGATATGATTAAGCCAATTGCTCAACATTTTAATGTATCAGTTGATGAAACACTAACGGGATTCAAATTTATAGGAGAAAAAATAGAAGAATATAAATTCAATAGAAAAAATAAATTTATTTTTGGATTCGAAGAAAGTTATGGATACTTAGCAAATGAACATGCAAGAGATAAAGATGCTGTAATTGCTTCAGCTTTAATTTCTGTTATGGCTTCAGAATTAAAAAAAGAAGAAAAAACTTTGAAGATGTACTTAAATGAATTGTATGAAAAATATGGATATTATAAAGAAAAATTAATGACTTTTACCTTTGAAGGATATTCTGGAGCTCAAAAAATAAGAAATATTATGGAAAAAATAAAAAATGAACCTCCAATAAAAATAAGTTCTTTTAGACTTTTAGAAACTATTGATTATAACAAAGGACACAATAATCTTCCAAAATCCAATGTAATAGAATTAAGATATGGAAGTATAAAGTTAATAGCAAGGCCTTCAGGAACAGAGCCAAAGATAAAGTTTTATATACTAGTTAATTCTGATTCTGAAGAAAAAGCTCTTAATTTAATTTCCGATGTAGAATTAATTATTTTTAACTTAATAAATTAAAAAGAAGTGTTCTTAGAACACTTCTTTTTTCAATTATTTTAGTTTTACTTTAAATTCTCCTGGAAAATGACAAGAAACAAAATGATCTGGACTAATTTCTTTTAATGGTGGTTCTTTTTTAGAACAAATATCTTTTGCTATTGGACATCTTGTATGAAATCTACATCCTGAAGGAGGATTTAATGGACTTGGAACATCTCCTTGTAAAATAACTCTTTCTTTCTTGTATTCTGGATCTGGCATAGGAATAGCTGACATCAAAGATACTGTGTATGGATGTAATGGATTATCAAACAGTTCTTCTTTTGAAGTCAATTCAGCTATTTTACCAAGATACATTACAGCAATTCTATCACTTATATGCTTAACAACAGCAAGATCATGTGCAATAAAAACATATGTAAGATTAAATTCTTTTTGTAAATCATACATTAAATTTAAAATTTGTGATTGTACAGAAACGTCTAAAGCAGATACCGCTTCATCAGCAACTATTAACTTTGGTTTTAAAGCAAGTGCTCTTGCAATTCCTACTCTTTGCCTTTGACCACCTGAAAATTGATGAGGATATCTATATAAATATTCTCTTGATAAACCAACTTTTTCCAATAAATCTCCAACTATTTCAGTTGCTTCTTTTGAATCAGCAATTCCATGAGTAATCATACCTTCGGCAATTATATTTTTAATTCTCATACGAGGATTCAATGATGAATAAGGATCTTGAAAAATTATTTGAGCATTTTTTCTAAAGAAAAGTCTTTTTTCATGTATATTAGATAACATTTCTTCATGTAAACCATGATATCCATCTTTAAAATATATTTTTGCATATTTTTTATCAACATCTTTTTCAAGTGTTTCTATTACTTTTTTTTCATTTCCTAATTTGTTTTTTAATTCATCAAATCTTTCAACATAAGTTTTCTTTATATATTTTTTTGATTCAAAAGAATTCATAAACCATGGTGTTGTATCATGCCCTTCTATCAAAATTCTTCCTGAAGTTGGATTTAAAAGTCTTAAAATTGACATACCACTCGTACTTTTTCCACATCCAGATTCTCCAACTAATCCTAATGTTTCACCTTCATATACCTTAAAAGATATATCATCAACCGCTTTTACTTGTGCAACTACTCTTTTAAAAACTCCTGCTTTTACGGGGAAGTATTTTTTTAAATTTTCAACTTCAAGTAAAATCTTTTTTTCAGCCATTATTTATTCTCCCCCTTTACCTTTTGAATTTCTTTAACCAATTTATCAACATGCCAACATCTAACTATATGACCATTTTCAATTTCTTCTAATTCAGGTTGTTGTTTTTTACATTTTTCATCTGCTAAAAAACATCTATTTGAAAATTTACATCCCTTTGGAAAGTTTAAAGGAGTTGGAACATTTCCTGGAATTGCCCAAAGTCTTTCAACATCTTCTTCTATCTTTGGGATTGAATTCATTAATCCCCATGTATATGGATGCTTTGTTTTTTTAAAAACAGTTATTATATCACTACTTTCAACAACTTCACCACCATACATAACAACTGCTCTATCAGATATTTCAGCAACAACACCAAGATCATGTGTTATAAAAATAATAGCCATACCATATTCTTTTTGCAAATCTTTCATTAATTCAAGAATTTGTGCTTGTATAGTAACATCAAGTGCTGTTGTAGGTTCATCTGCTATTAAAACTTCAGGATTACAAGAAAGTGCCATAGCAATCATAGCTCTTTGTCTCATACCTCCAGAAAGTTCATGTGGATATTGATCAACTCTCTCTTCTGGTTCAGGTATTCCAACTTTTCTTAAAAGTTCAATAGCTCTATTTTTAGCTTCATTCCCTTTTAAATTCATATGAAGTTCCATCATTTCCATCATTTGTTCTCCTATTGTAAAAACAGGATTTAATGCTGTCATTGGTTCTTGGAAAATCATAGAAATTTCATTACCTCTAACGTGTCTCATTTCTTTATCAGAAAATTTTGTTATATCTTTTCCTTTATATATAATTTCTCCTTCTGGAATAAATCCATTTTCATCCAAAAGTCTCATTATACTCAATGATGTAACTGATTTACCTGATCCAGATTCACCAACAATAGATAATGTTTCACCTGGATATAAATCAAAAGATAATCCATTTACAGCTTTTACAATTCCGTCTTCAGTTTTAAAATATGTTTTTAAATTTCTAACCTTTAAGATTGGTTCATCTTTTTTTGTCGACATAACAAACCTCCTTACATTCTGAGTTTTGGATCAAAGATGTCTCTCAATGCATCACCAACAAGATTCCATGCAAGAACAAAAAGAACCATTGCTATACCTGGATAGGTTATTGTATACCAATATTGTAATGCATTACTTCCACCACCAAGCATCCAATCTCTTGCATAAGTTAAAACAGAACCCCAGTCAGCATAACCTTGAGGAGCACCAACACCAAGAAAACTCAAACCAGCAGCTGTTATAACCATTGAACCAATTCTCATAGAAGCCTGTACAACTACAGGGAAAATTGTATTTGGTAATATATGTTTAACTATTATTTTTGCATCAGATACTCCAAGTGCTTTTGCAGCAAGTACATATTGTTCATTTTTTGTTTGTAAAATATTACCTCTTATAAGCCTTGCAGTTCCCATCCAACCAAACACAACGAGTGCAATCATAACTTTATCCAATCCTGTTCCAAGAATTGTAGTTAATACCATTGCAGCAAGTAAAAATGGAATAGACATAAAAATATCTGTAATTCTCATTAATACTTCATCTATCCAGCCACCAAAATAAGCAGAAATAGATCCTATAAATAAACCTATTATTGTTCCAGAAATAACAACAATTAATCCAATTTTAAATCCTGTTCTAACTCCCCAAATAACTCCATAATATATATCTTTACCATTACTAACTCCAAAAGGGTGATCTTTTGAAGGTGGTTCAGGTTTTGATGAAAGTGTTACATTAGGCATTAAATATGGATCAAAATTTATGGATTTTACATAACTTTTATAAAGCTCATTGTATATCTTATGAGCATCACTTTCAAAATTTTTTGAATTACTTAATTGTTCTATTCTTGATTTTTCCTTTGAAGCTTCTTTTTTCTTTGTTTCATAAGTCTTTACCAATGAATTTAATTCATTAATAACTTTTTTATCTCCACTGTTTAATTGATCAACATAACTTTGATCAATTATATATTCATCTGCAAGACTTAATAAAAATTCAGAAAAATCTTTCTTTGATAATTTATTGCTTTTATATTTAATTAATTTATCTTTTAAATCCATTATAGTATCATAATCAGTTAAATAAAAATCATATGATAATTCATAATAAGATTGAAAAGAATCCAATATATCTTGTTTTTTATCTTCTGTATAATTTGCTAAATAATTTGAAATATCTTCTAAATCTGAATCATTAGGTATTGAAACAGGTGCAAGAACAGGTGCCAATATTCCTATTATTATAAAACCAATTAATAAAAATAAACCAAACATGGCAGATGGATTTTTATAAAATTTTCTCAGCATTCTTTTTATTTCTTCATTATTCATCAATTCTCACCTACCCTAATCTAATTCTTGGATCTACAATTGCATAGACTATATCAATAACAAGATTACCAAAAACGAGTATTCCAGAAGAGAACAATAGACTACCCATTATTGAACCATAATCTAATTGTTGTGCAGCTTGTGCTGCAAATCTACCTATTCCTGGTCTGTTAAAAACAGTTTCAACTATAACAGCACCACCAAGAAGACCTATAACCATTTGACCAGCAACTGTAGTAACAGGAATTAAAGCATTTTTCTTTGCATGTTTGTTAATAACAACATTTTCAGAAAGTCCTTTTGCTCTTGCTGTTCTTATATAATCTTTCCTTAAAACTTCAAGCATAGAAGCTCTTGTAATTCTAAGAAGATAAGCCCACCATAAATAAGCCATTGTTAATATAGGTCCTATGAGATGTCTCAATGCATCCCAAAAAATGTCAAGTCTCCCATTCAATAATCCATCTATAGTTAATAATTTCGTATATCTATGAAATTCAGGAGAAGCTACTACTGCTTCTGCATTAACTCCAAGTTTTCCAGGTGGGAACCATCCCAATCCTACATAAAAAATCATTAATATTAATAAACCAAAGACAAAATCAGGCAGCGACCAACCAATCAATGCAAAAATTCTTATTGAATGATCAGCAAATTTATTATGATGAACTGCCGCTTTTATTCCGAGCCAAATACCACCTGCAATTATAGGAAGTATTGCATAAAGTGCTAGTTCTACTGTATATGGAAATCTTTCTAAAATGGCTTTTGAAACTTTATCTTTACCAACAATTGACCATCCTAAATCTCCATGTAAAATTCCATTTAACCATACTCCATATCTAATATACCATGGATCATTTAATCCATACTTCTCTTTTACAGCTTCCATTTCAGCTGGAGACATTTTATCAATTGCATTTGCATCCACATAAGCTGAAAGAAGTTGATCTGAACCAAGAAGTTGCATAATAGAAAAAACAATTAAAGTTACCCCAAGCATTATTAGTGGTAACAAAAGCAACCTCCTAATGATATATGACGTCAAAACTTTTCACCTCCGGTTAATGTTTTATTAACTTGAAAAAGAAAATAAGGAAGGGGCTACCGCCCCTCCCTTAAGTATTTAATTTTTATTATTTATCTGATTTATAAAGTGGATAATAATTAGTACCTGGCCATATTGGATTTCTTACCCAACCTTTAACCCATTTTCTTTGTACTCTTGAACCATATGGTTGATAAAGTGGCATACTTACAGCATATTTATTTACAAATTTTTGAATTTGTTCATAAAGTTTTTGTCTTACAGATGGATCAGGATGTTTTGCTGCATCTTCAATCATTTTATTTAATGATTTTGCACCAAAATCTGGTTGTGGTTTATTTGCAAATTCTGCAAAGTTAGCACCATAGTATGATCCATAATCTCCATTGCTATCATAATATGTAAAGATGAAGTTATGTGGATCAGGATAATCAGCTAACCAACCAATTATATAAACTGGCATTTTTCCATTTTTTCTTGCATCAAGGAATGTTGGCCATTGAACACCTTTAACTTCACAATCAAATTTAGGATTGATTTTCTTTAAATTATCTCTTAAAATTTCTGCTGATTTTTGTCTTGCTTTGTTACCTGTGTTGTAAAGAATGGTCATCTTGAATCCTCTTTGCCATAATTTACCTCTATATGCTCTCTTGAAATATTTTGTTGCTAATTTAAGATCAAATTTAAATTTAGGTAGATTATCATTGTATCCCAAGAATCCTTGTGGAAGAACTGTTGGTGTTTGATAACCTTCACCATCTAATACTTCTTTTATAAATGCTTGATAATCAAATGAGTAAGCAAAACCAAGTCTTACATTTTGATCTTCAAAGAAGTTAGTTGGTATACCTTGTCCATCAAATTTACCAGAACCTATATATTTAGAATCTGCTTTTACACTCCAATTAAATGAAAGAGCTGTAATTGATACTGATGAAAGACCTCTTTTAACAAATACATCTGGATTTTGTTCTACTTGTGAAAGGAATTCTGCAGGAGTTGAAATTTGATCTGCTTCACCTTTTTCAAGCATAGCCTTTCTTGTACTCCATTCATCGATACCAGCAATTATAACTTTTTTAAGTTTTGCAGGTGTTCTCCAATAATTATCATTTCTTACAAGAGTAACTCTTTGTTGTGTTCTATCCCATGATTCTAACATGAAAGGACCTGTTCCATTTGTTTTTGCATAAAGTGGAGAATCTTCTTTTTTCCAATCGTGATACTTCCACCATCCGTCAGGATTTCCATCCCATAAACCTATACTTGCACTCCATTCTTTATCAAGAATAGCTCCCCAAGAAGAACCTTGTGCAATTATATTTAAAAATGCTGCAAATGGAGCTGCTAAATGAATATAAACATCGTCGCCTTTAACTTCTACAACAGGATCTATAACATCTTTATAAAAGTTAATTAATGTATCTTTATATTTTGGTAAAATATTACCTTTAGCATCAAACATATCTTTATATGCAACACCTGCATATTTTTTTACCATTGATTCAACATCATATGTTCCTGAACCAAATAAAGCTTCAAAAACCATCCATAAAGGACCTGCACTTGGATCTGCTAATAAAGCTCTTTCAAAAGTATATTCTACGTCTGAAGGAGTTAAATCATTTCCATTGTGGAATTTAACGCCTTTTCTTATATGGAAAACATAAGTTTTACCATCATCTTTTAAATATCCATTGTCAACTGATGGAACTTCTGTTGAAAGTCTTGGTAAAAACTTAGACATACTTTCTCCATCGTATTCAACAAGGTTTTCATAAACATTAAAAATAACTTCACTACTAGCCGTATCATAAGCTTGATGTACGTCTAATGTATCCGGTTCACCTATTGTTGCATTAAAATAAGTGTCTGGATTAACAACATTAGAAAAAACAGCAGTAACCATGAGTAATGCCGTTAAAAGAACAAAAAGTTTCTTCATCCGTTTTCCCCCCTTAGAGAATTTTTTGAAAAAACATGAATTTGATTGAATAAAATGTTAAGTGTAATTAACTTAACTAACTTTCAAACCATACAGAGATATTCTACCATAATATTTCTAAAAATGCAAGTAAGTTAATTTAATTTTACGATTATTAATTATTAAAGAGAAAATGTTTCTTTTTAATCAATAAACGTCTTTAAAAGCCTTTGAAAAATTTAATATTTTAACATATATCAAAAAAGAACTGTAATTAACTTATGATTACACTATAATTAACTCATAGTACCGAAGTAATACAAAAAAAGAGTTCAGCAATTTTACTAAACTCTTTTTTTTAATTCATTCATTATTATATTTTTATATTTCATATTAATTTTAATTGAATTGTTATTTTTAAAAACAAGTTTTTCTTTTCCTTTTGGTGCATTTCTCGAAAGAGCACTAACAAGTGCTGATACAGATTTTTTATTTTTTAAATTCAATTTTTTTAATAATTCTTCTGTTGTTGTTAATTCTACTTCACATAAAAATATTAAAAACTTAAGGGTTAATGGTTTTAGTTTTTTTAAATAAGAATTAATTTCGTCTTCTTCCCATAAATTTTTTGAATTTGAAAAAATTGAAGCTATTGCTTCTGCTCTTAATTCTATATCATTAGATAAAATATTAAATATCAATTCTGTATTTGGTTCTGAAAGCTCTGCTATTTCTATCAAAAATTCTAATGCTTTCGAAGTTAATTCAATAGATATTTTTTTTTCACCGTACATTAATTCTTTGTCTTTATAAACCATATTTAATTTATTAAAAAAACTACTCATTAACATTTCTAATAAATAATTTTGAACTTCAAAATTTTCTAATTCTTTTATAGAAGAATATATTTCTTTAAAATCCAATACTGTTTTTAAATTATTGAATATTGATTCTTCTAATTTCTTTCTATTTTCATTTTTTAATAATTCTTTACCCAAAAATTTATAAAGAGTTTCTAGTGTTTTCTTATACATAATAAAAAACCTCCATGTTTTGTTGTATAATTAAAGTAGTATTTTTTAGTTGTAAAATACAAACAACTTGTATATGATATTATACACTATGTATTTTTAAAAATTGATTTGGAGGAAAAAATGTTAAAACAATTAATAGTTGATGAAAAAAATTATTATAAAAGGTTAGATAAATTTATAAGAAATAATCTTTCAGAAATAAAATTAGGGGCTATATATAAATCTTTTAGAAAAGGAAATATAAAAGTTAATGGAAAAAGAATTAAAAAAAATGATTATGAAATAAAAATAGGAGATATCATTTCAATATATTATAATGAAAAAAATGAAGATATTATAAGACCAGAAAAACCAGAAATGAAAGCAAGACCACTTAAATTCGATATCATATATGAAAATAACGATTTCATTGTAATAAATAAACCTCCAAAAGTTTCTATGCATCCTGGAACAGGCGAACAAATGGTAACTATAATAGAAGGATTGCAATATTATGCTAAAAATTCAAATAATCCTTTCGAACCCCATCTTGTTCATAGATTAGATAAATTAACTTCTGGAACTTTGGTTATTGCAAAGAATAAAATGGTTTCTCGTGATTTAAGTTCTTTAATCTCAGGAAGAAAAGCAGATAAGTATTATAAAACTTTAGTTTTTGGAAAATTAAAACCAAAAGGAACTTTAAACTCTTTAATTAATGAAAAAAATGCAAAATTAACTTATTCTTTAATTGATGAATTAAATCTTCCCGAAGGTACTTTTTCTTATATAGACGTTCATCTTTTAACAGGTAGAAAACATCAAATAAGAGTTCAGTTTTCAAATATTGGACACCCAATTATTGGCGATGATCTTTATGGAAATAAAGAAATCAATAAAATATTTAGAAAAAAATATGGTTTAAAGAGATTTTTTTTACATGCATACAATTTAAAATTTGATTATAAAAATAAAAAATATGATTTTTATGCTCCTCTTTATTCTGATTTAGAAAAAGTTTTTGAAAATATAAAAAGGATTAAATAATGAAAAAAAAATATATAATAATTATTTCTATAGTATTTGTGTCTTTTTTTTCGTTTTACTCTTTATTTATAGATATAAGTGATACAAAATACTTTTCATTTGTTGAACCTAAAAAAGTTCAATTAAATAATTACGTTTATTATAAGTACAATAATTATGTTTTTTTAAAAGATTTTAATAGTATTTCAAAAAAAAATGACTTACAATTTTTAAATAAATTAATAAAAAATAATGATATAATATTTATAGTAGAATTTTCTGACTTTGATAAATATTTCAGTAAAATAAAGAATGAAACCGCTTTAGATCTAAATAAATTTAAATATTGTCATTATATAAAAGTAAAAGAAATAGAAAAATACGATGATGAAATAATAGTACAAAGATTCCATAGAGCTTTAAAAGAGCGAAGAATAAAGGTTTTTTGGATACCAAACACATTAAGAAAAGATGAATTAACACTTAAAATTAAAAATAATTTAAAATATGAAAAACCAATAAATGATTTATCTTATTTTTCACCAAATCATTTAATAAAATATATTTTTTTTCTTTTAATATTCTTTAATATATATATTTATTTACCTTTTTTTTCAATAATTTATTTAATTTCTTTATTATTATTTAAATCATGGTCTTATGTTACAGCTGCAACTATTTTTTCATTCATTGTATATTATAAAATTTCTAAAAAAAATGTTTTAAAGGTAGTTTTTTCTTCTATTTTTTTTGGAATTATGGTATACTTCAGTGGATATGATTATTTATTAATAAACAAATTAAACTCTTTAAGAGGTATAAAAGTACTATTAATAGCTTTACTTTCATTTGAAATAATAAACCAATTAAAAAATTTTAAGTTAAAGAATTTAAAAAAATTTGATCTTATTACTATATTACTTATAATGTTTTTTTCTATTATATACATATTAAGAAGTGGAAACTGGAGTTATGTTAGTAACTTTGAAAGAAAAATGCGAGATATTATAGAAAAGATATTTATAGCAAGACCAAGAACAAAAGAACTTTTATCATACCCTTTTTATTATCTAAATAATACGGGAATAATAGTTTCTTTTTTTAGAACATTGTTAATAGTGTCAATTTTAGATACTTTCCTGCATTTTCATACACCACTTTACTTAGGGATTTTAAGAACTTTAAATGGTTTATTCATTTATTTGTTCACATTTTTTGTTTTTGAACTTATAAAATATTTTAGAGGTGGAAAATGAAGTACTCTGTTGAAGATTTAAATATTGAAAAACTCAAAAATGCTATGGAATTTGTAAAGTCAATAGTAAATGATAATAATTTAATATTTAAACTACAAATGGCTGTCGACGAAATAGGTAGTAATTCTTTTAAATATGGAAAAAAAAGCAAATTACACATTTATTTTAATAATGAAGAAATACATTTACAAGTAGAAAATTCTGGTAATCCTATACCAAAAGAATATCTCGAATTAAATGATGACAATTTTTTCTTGTCTCAATCTTTATCAAGAGGCGGAGGTTTGGGACTTCATATAATAAAAAATTTATGTGATGATTTTAATTATATAAGAAAAGAAGAAAAAAATATTATCTCTATAAAATTTAAAAAATAGCAACGAAATCGTTGCTATTTTTTATTTATTATTATAAGCTTTAATTCCTTCAGCAAGAATATAACATGCTCTTCTTAATTTTGATGGTTCTAAAACATATGCTATTCTTAATTCTTGAAGTCCTGCTCCTTCAGTAGCATAAAATCCATTTAAAGGTGCTACCATAACAGTTTCTCCATCTATATCAAAATCATTCAACATAAATTTTATAAATTCTTCTGTATTATCTACTGGTACTTTAACTGAAACATAAAATGATCCTTTTGGTTTCTCAAAAGATAATCCTTCAATTTTAGAAAGTTCCTCATAAACAATATCTCTTCTCTTCATATATTCTTTTTTTACATTTTCCATATATTCTTCAGAAATATTATTCAATATTCCTACAGTTCCATACTGTTCAACAACAGGCGAACAAAGTCTTGATTGTGCAAATTTCATTACTTGTGAATACAATTCTTTATTCTTAGTTGCAAAAACCCCAATTCTCATTCCACATCCACTGTATCTTTTTGAAATACTATCAACAACTATAAATCTTTCTTTATCCTCAAATTCCATTATAGAAACATGTTTTGTTCCATCAAAAGTAAATTCCTTATACACTTCATCTGATATAATGTATAAGTCATGTTTTTTTGCAAAATCAACTATTCTTTGCAATTCTTCTCGAGTATAAACCGCACCTGTTGGATTTGATGGATTTGAAAATATAATTGCTTTAGTTTTTGAAGTTACAACCTTTTCAAATTCCTCAGTTGGTGGAACTGCATATCCATTTTCAGGAACAGCCCTAACTGGTAAAAGTTTTACATTTAACATTTCAGCAAAACCTTTATAATTAGCATAAAATGGTTCTATTACTATAACTTCATCATTTGGATCTGAAATAGCAGCAAGAGAAAAAACAATTGCTTCACTTCCACCTGTTGTTATAATTATATCTTCAGGATCAAAATCTATGTTCATTTTTTTATAATAATTAGAAAAAGCTTCTCTCAATTCTATTATACCTGCAGAATGAGAGTATGCAATTACTTTTGATGGAAGATTACTTATAGTACTAAAAAATTCTTTTGGAGTTTCTAAATCAGGTTGTCCTATATTCAAATGATAAACTTTTTTCCCAGCTTTTTTGGCTTTTTCTGCAAAAGGAATCAACTTTCTTATTGGTGATTCTTGCATATTTAAAACTCTTTCTGAAAACTTCATAAACTCACCTCTCAAATTATATTTTTTCATTATGAATGATACAACTATTTTATAAAAAAAACAATTATTAAAACATTCGATTTAAGTAAAATAAACCTAATTTATAGTAAGTAATGCTTAATAACTCAAATATAATAAAAATTTTTTTATTAATAAGTTTCACATTAATTTTTATATAAATAAAAGTAATTATTTACACACAAAAATTTTATAATTATTACAAAAACAAATTTTTTATAAATATTATCTTGTTTTTTGTTAAAAAATAATTTAAAATATTGCAAAAATATTTAAAAATGTGTTATTATATTATTACCCCAGTTAATTTTAGGGAAAAGTTATGTAAATTTTCGGAGGGATAAGTATGGTAGATGGAGTTATACTCGCTGGTGGTTATTCTAAAAGAACAGGTGTTATGAAAATGTCTTTAAAATTAAACAGTAAAACTGTTATTCAACACACTGTTGAATCAATGATAAATGTTTGTGAAAATATAATCGTTGTTTGCGGATACAAAGCAGAAGAAGTTTATGACTTAGTAAAATCATATAAAAAAGTTCAAGTTTATTATAATAAAAATTATCCTAAAGGCATGTTTACTTCAGTAAAAGAAGGTATAAAACATGTAAAAAATGACAGATTTTTTTTAACTCCAGGAGATTATCCAAAATTAAATAAAAATATATATGAAACTTTATTAAAATATAAAGAAAATATAGTAATACCTGCATTTGGAAATAAAAAAGGACACCCTGTATTAATGAATAGTTCTTTGATTTCAGATATTCTATTAGAACCAGATACATTATCATTAAATTATTTTATAAACAAAAGAGAATATAGAATTGTAGAAATAAATGATGACTCAATTATAAATGATATAGATACATTAGAAGATTATGAAAATATAAAAAAATACTTTAAAGGGGGTGAGTAAATGAAAATAAGTGACTCTGTAAATAGAATAGACAATAAGGAAAAAATTTCAGGTAAAGCAAAATACATTGATGATATTAATTTCCCATCACTTTATTATGCTTCAACTCTACGATCAAGTATATCTCATGGAAAAATTTTAAATATAAAAATCCCAATTCTACCTGAAAATTACTTCATAATAGATAAAAATGATATTCCAGGAAAAAATATTGTAAAGATAATAAAAGAAGATATGCCTTTTTTAGCTGAAGATGAAGTTAATTATATAGGTGAACCGATTTTACTCATTGCTGGTCCTGACAAAGAAGAAGTTAATAAAATAAAAAATGCCATAGAAGTATCTTATAAATCATTAAAAGCTGATTTTGAAGGTAAAGAAATAATTGAAAAGTATAGTTTTGAAAGTGGAGATATAAAAAAAACATTTGATGAAAGTGATGAAATTTTTGAAAGAACCTATAAAACTGGATATCAAGAACAAATCTATCTAGAAACACAAGGAATGATAGGAAACATTGAAAATAATCAAATCACTGTTTATGGATCTATGCAATGTCCATATTATGTAAAAAATGCTCTTGATCAATTAATGAATTCTGATACAAGAGTAATCCAAACAACAACCGGAGGAGCTTTTGGAGGAAAAGAAGAGTTTCCATCTTTAATAGCTGGGCATGCAGCACTTGCTGCTTTAAAAACAAAACATCCTGTAAAAATTGTTTATGATAGAGCAGAAGATATTATATGTACAACAAAAAGACATCCATCTAAAATTATTATAAAAACATCTTTAAAAAATAAAAAAATTACAGGTATAGATGTTGATATATCTTTAAATGCTGGTGCGTACGCTGGATTATCCGAAGTAGTACTTCAAAGAGCTATGTTTGCCGCAATTGGTGTATACAATATAAAAAACTTAAGGGTAAAAGGAAAAGCTTTAAAAACTAATACAGTTCCAAATGGAGCATTTAGAGGATTTGGAGCACCTCAGGCTTTTTTTGCAATAGAAACACATATGAATAATATTGCAATGTATTTAAATAAAAACCCACTTGATTTAAAAACGGAATACTTATTGAAAACAAGTGATTCAACATCAACTGGTGGAATTTTTAGAGATGAAATAAAACTACCAGAAATGATTAAAAAAATAACGCAAGAATCAAAATATTATAAAAAATATGAAGAATTTAAAAATAAAAAAAATAAAGGAATTGGAATTTCACTATTTTTTCATGGTGGCGGATTTACGGGAAGTGGAGAACGGGACATAATAAAAGCAACTGTAAAATTGGAAAAAAACAAAGATAAAATAGAAATTTTAGTATCAAATGTTGAAATGGGGCAAGGGCTTCAAACAACTTTTAGAAAGATAGTTGCTCATGCTTTAAATAAATCTTATCATGAAATAACATTTAAAAATCCAGATACATTAAAAGTTCCTGATTCTGGTCCAACAGTTGCTTCAAGAAGTATTATGGTAGTTGGAAAATTATTAAAAGATGCTGCTGATGAGTTAAAAAATAATTTAGATAAAGAAGTTATAACTATTGAAAAACATTATAAACAGCCAAATTATATAAAATGGGATCAAGAAAAAATGAAAGGTGATGCTTATCCAACTTATTCGTGGGGAATTGACATAGTTGAAGTTGAAATAGATGATATAACTGCAGAAGTTGAAATAAATAATATTTGGACTATTAACGATGTTGGAATAGCAATAGATAACAAAATAATAAAAGGACAAATAGAAGGCGGAATAGTTCAAGGTTTAGGTTATTCTTACTTAGAAGTAATGAACATAAAAAATGGAAAAATACTGCAAAATAACCTAACCAATTATATAGTTCCAACTTCAAAAGATTTCCCAAAAATACACAGTAGTTTAATAGAAAATCCTTATATTGAAGGTCCTTATGGTGCAAAAGCAGCTGGTGAACTCCCATTAGTTGGAGCAGCACCTGCATTTGTTGGAGCTGTGCAGAATGCTTTAAATAAAGAATTTTATGAAATTCCTTTAACACCAGAAAAAATAATGGAAGTGATGCATAATGAAAATTAATTTTATATTAGATAAAAAAGAAATAACATTAGATGTAAATCCTTTAAAAAGATTATTAGATGTTTTACGAGATTTAAAAGTTACAGGAGTAAAAGAAGGCTGTGGCGAAGGTGAATGTGGAGCATGTGCAGTATTAATAAATGGAAAGTTAGTTAATTCTTGTATGGTAGCAGTTGGTAATATCCAAAATAAAACTATAACAACCATTGAAGGCTACAAAACAAATAAAAAATATAAAATAATAGAAGAAGCTTTTGAAGAAGCAGGAGCCGTTCAATGTGGATTTTGTACACCAGGGATGGTAATAGCAACAGAAGCGTTGCTTTCAAAAAATCCAACACCAACAGAAGAAGAAATTAGAGAAGGGATATCTGGAAACATTTGTCGTTGTACAGGATACAATATGATAGTCGATGGAATAAAATTAGCCTCCAAAAGAGGTGAAAATTTATGGAAATAGCTTATAAACCAAAAACTTTAGAAGAAGCTTTAAAAATTAAAAATGATTTAAATTGTACTGTATACGCTGGTGGAACAGACTTAATGGTTAAATACAAAAATTTATCTATTCCAAATATTAAAAATACTGTTATTTTTATCTCTGATTTAAAAGAATTAAAGAATATAAAAATAAATGAAAAAATTGAAATAGGAGCATGTGTAACTCAATCAGAATTAATACATTCTAATCTTCCAAACATAATAAAAAATATCTCTTCTCAAATATCATCACCAGCAATAAGAAACTTAGGAACTATTGGCGGGAATATATGTAATGCTTCTCCAGCTGGTGATTTATTACCATTATTATATTCTTTAGATTCTAAACTTACTCTTCAATCTTATGATTCAATACAAGAAGTTTTAATTTATGATTTTATTATTTCACCAGGAAAGATAAAATTAAAAGAAAATGAGATTTTAACAAAAATATCCTTTAAAAACATTAATTTTAATAATATTTATTACAAAAAAGTAGGTACAAGAAAATCAAATGCTCTATCAAAAATTTCTTTTCTAGGATTAGCCAATATAAATAATGAAAATAAAATTGAAGATATTAGAATTTCTTTTGGAGCAGTTGGTCCAACCGTTATTAGAAATAAAGAATTAGAAAATTCTTTAATAAATAAAAAAGTAAATGACTTAAGAATAAATAGAATTTTAAATTCTTATTCAGAAGTAATAAAACCAATAGATGATTTAAGATCAACATCAAAATATAGAAAAACCGTATCTTTGAACTTATTAGAAAATTTTTTAAGGGGGTTGGTAAGATGAAAAAATTTTTTTATGTACTTTTTTTTGGAGCTCTTTGGGGATTAACTGAAGCAACTCTTGGTTATGGATTACATTTTATTTCTGTTTTTATTCCTGGTATAGCGGGTTTTGTAATGTTTGCTTTTGCTTTTTTATTTATGAATATGGCATACAAAAAAACAAAAAATCTTTTTACAGTGATTGAAGTTTCAATGGTAGCTGCTTCTATAAAATTATTGGATTTAGCACTTCCAATTCATCCAATAAAGGCTATAAATCCAGCAATCTCAATTTTATTTGAAGGATTAGCCGTATTTACATTTCTTTATTTATTCAAAAACAAAAAAAGTTTTACTAGCATATTTACAATGAGCATGTCTTGGAGAGTAGCTTTTGTACTATTATCTTTTATTGAAATCCCTCTTAATGCTCCTAATTTCGTAATAAGTAAAAACTTAATTGAAATAATGAACTTTTTAATAATTGACTCTTTAATAAATTCAATAATAATATATGCATTTATGAAAAAAATAAAATTACCTGAATTTAAAAGAATTAAAAATATGAAAATTACTCCAGCTCTTTCTTTAGTCATTCTTTCAGTTGCGATGTTAGCAGAATTGAATTTGAGATAAGGGGTGAATAAATGCAAATATACGAAGAACTTTTAAATCTTAAAAAAAAAGGTGAAAATGGAATTTTGATAACAGTAGTAGAAAAAGATGGATTTGGTCCAGCAACACCTGGAATAAAAATGTTGGTAACAAAAAACAAAAGAATTGGTACTGTTGGTGGTGGTTCACTTGAAGAATTTGCTTATAAAAAAGCACTGGACCTTTTAAAAAATAAAAAAAATGAACTACACAAATATGCATTAAATGAAGAAAATAAAGTAATTGAAAACACTGGAATGGTATGTGGTGGAAATGTAACTTTATTTTATGAATATATTGGTAGCGGAGAAAAGCTTTATATCTTTGGTGCTGGCCATGTTGGAAAAGCATTGACATACCATATAAATCCATTAAATTATTTTGTAACCGTAATAGATGAAAGAGATGGAATATTTAATGATTTCCCAAATATAAACAAAACTATAAATTCTACAGTATCTGATTTTTTTAAAAACAATATTATTGAAGATAATAGTTATATAGTTATTTCCACACCATCTCACGCTCATGATTATGAGGTTTTAAAAAATGTTTATTTAAACTCTAAACCAAAGTATATTGGTATGCTTGCATCAGATACAAAAGCAAATTTAATGGTGAAAAAACTAAAAGATGAAGTATCAAATGCAGATTTATCAATACTTCATACACCAGTTGGTTTAGATATCGGTGGCCCAACACCCCACGAAATAGCAATTTCAATAATATCAGAAATACAATCAATAAAATATCAAAAAAAACAAATAAAGAAGATGAGAAAAATTTGGTAAATATAATAAGTGGCGAAATAAACTCTGGAAAAACAACAAAATTAATAAATATCTTTAAAACAACTGGGGGTGATGGGTTTGCAGCTATAAAAGTTTACAAAAACAATGAATTTTATGGCTACAATCTCACTAGACTTTCAAACAATGAAATTATACCCTTCATATCAATTGATAAGTTTGATGATGAACTTTTTAAATTAAGTCGATTTAGTTTTTCAAAAAAAGGTTTTATTTTCGCAAATAAAATTATAGATGAAACATTAATTAACAAAAAAACTCTCTACATAGACGAAATAGGTCCTCTTGAATTATCAAAAAAAGGATTTTATACGAGTTTCAAAAAAGCTTTAAAGAAAAATATAGAAATTTATGTATGTATTAGAAGTTCTTGTATACAAAATGTTATAAAAGAATTTAAAATAAAAAATTATAAAATAATTACGGAGGTAATAAAATGAAAACACCAATAATAGGTCCTACTTTTGAAGAAATGCTTCATCCTTGGAAAATTGATCCTGAATTAAGAAAAAGAGCAATAGAAATGAAAGATAAAGATCCTCTTCATCCCATTAATTTATACAATATAACTTGGAGAGATAAAGATGATGAAATTTATTATTTTGAAATGCCAAAAGAACTAACTGGTGTAAAAGCAAATATAATCGTTTTATATGCAAAAGATTTTCCATCTGGAAGTCATAAAGTTGGTGCAACTTACTCTGTCCTTGCAGAAAAAACCGTAACTCATGAAGTAGATCCTTCTACTCATAAATTAATATGGCCATCAACTGGAAATTATGGAATCGGCGGAGCATGGGTTAGTAGTAGAATGAATTATAATTCATTAGTATTATTACCTGAACTCATGAGTAAAGAAAGATTTGACATAATAAGAAGTTATGGTTCTGATGTAATAGCAACCCCTGGTTGTGAGTCAAATGTAAAAGAAATTTACGATAAGAGCAAAGAATTAAAAACAAAAGACCCAGAACATGTTAGAATATTAAATCAATTTGAAGAATTTGGAAATTATAGATTTCACTATCACGTAACAGGAAATACAATGGCAGAACTTGTAAAAGAAAAGAAAATAGGAAACGAAAGAGTTGCTGCTGTAGTTCTTGGAGTTGGTTCTGCTGGAACAATTGCATGTGGAGATAGACTAAAACAGTTATTTCCTGAAACAAAGATAGTTGCAATGGAACCTATTCAATGCCCTACAATCTCTTTAAATGGATATGGTGGACATGACATACAAGGAATAGGAGATAAACATGTAACTTGGATACACAATGTAATGAATATGGATGCTACCGTACTCGTTGATGATATGGATAGTAAAAAAATGCTTCAAGTAATGACAGATCCTGTTGGAATAGAGTATTTAAAACAATCATTAAAGGAAAAAGATATTAAAAATATATCTACTAAACTTGGTATTTCAGGTGTAGCAAATATAATAGCAGCTATAAAAATGGCAAAATTTTACAATATGAAAGAAGATGAAAATATCTTTGTAGTTGCAACTGACAGTATAGAAAGATATCACTCAGTTATGAAACAATTAGACGATGAATTTGGAAAGTTAACTACGAGTGAAGCAAAATCAAGAACTGAAAGAATTTGTTTGTTTGCAGAACCATCACATGTATTTGAAGGAACAAAATATAACAGAGAAAGATGGCATAATTTAAAATACTTTACATGGATAGAACAACAAAATAAAACCATAGAAGAAATAAATGCACAAAAAGATCAAAAATATTGGGAAGAACAACAAAATAAAGTTTTTGAAATGGATGAAAAGATAAAAGAATACAGAGAAAAAAATGCTGAACGTTTGCATAAAGTAATGTATGAGGTGGAAAAATGAGCAAAGCACTCGATTTAGCAAAAAAATATGAATCTGAAATTGTTCAATTCATGAGTAATTTAATAAGAGCAAAGAGTTATTCTGCAGATGAAAGTGCTGTAATAGAAGTTATAAAAAAAGAAATGGAAAAAGTAGGTTTTGATGAAATAAAAACTGATGGACTTGGAAATATAATTGGAAAAATAGGAAATGGAAAAAAGATAATAGCCATAGATGGACACATAGATACTGTAGAAGTAGGAAATGAAAACTTATGGGATAGAGAACCTTTTAGTGGAGAAAATGATGCTGAATATGTTTATGGAAGAGGAGCATCAGATCAAAAAGCTGGCATTTGTTCTGCAGTATATGGTATGAAGATATTAAAAGAATTAAACTTAATGGATGACTTCACTGTATATGTAACTGGAACAGTTATGGAAGAAGATTGTGATGGAATGTGTTGGAGATATTTAATTGAAAAAGAAAAGTTAAAACCAGATTTTGTTGTTATAACAGAACCTACTTCTCTAAATATTTACAGAGGTCACCGTGGTCGTATTGAACTCCGAATTAAAACTACTGGTATATCTGCTCATGCTAGTGCACCTGAACGTGGAGAAAATGCAATATACAAAATGGCTAAAGTAATAAATGAAATTGAAAAATTAAATGAAGAGTTAAAACCTCATCCATTTCTTGGAAAAGGAACAGTAGTTGTTAGTCAAATATTTTTCAAATCACCATCTCAAAATGCAGTACCAGATGAATGTCAAATACAACTTGATAGAAGAATAACCCCATATGATACAAAAGAAAGTATATTTAAAGAATTAAATACTGCTATAAAACGTTCTGGTGTAAAAGCTGAAATAATTGAATTAGAATACAGTAGACCTTCTTATAAAGGCATAAAATATCCCGTAGAAAAATTTTTCCCTGCATGGGAAATTGATGAAAGTTCTCCTATAATACAAGCTGGAATTAAAACATATATAAAAACTTTTGAAGAAGATCCAGTTGTTGATAAATGGACTTTTAGCACAAACGGAACAGTAACAGCAGGTGTTTATAATATTCCAACAATAGGATTTGGTCCAGGAGAAGAAAAGTATGCTCATGCACCAAATGAAAAGGTTGAAATAGAACATTTAGTTAAAGCAGCAGCATTTTATGCTAATTTTCCAAAAACACTCATTAATATGATACCTTAACTGTAAAACTAAAATATTGTTTTAATCATATTTAATATAAGGAGGAATAACATGTCAACATTCTTTAGAGGAAGACATTTTATAACAACGCAAGACTTTACAAATGAAGAATTAAATATAATGTTAGATTTAGCAAAAGATTTAAAAATTAAATTTTCATATGGAGAACAAACACCATATCTTTTATATAAAACTCTATTTTTAATGTTTTTTGATCAATCAACAAGGACAAGAAACAGTATGCAAGCTGGAATAGCTCAACTTGGCGGTGATGGTATCTTCTTATCTCCTGATAAAATGCAAGTTTCTCATGGTGAAGTAGCTAAAGATACAGGAGTTATACTATCCCGTTTTGGTGATGGTATAGGAATTAGGCACTGTACTTATGGTGAAGGAAACAAATACTTAAATGCAATAGCTAAAAACTCAAAAGCCCCTTTAATGAACTTACAGGATGATATATACCATCCATTTCAAGTAATGGCTGATTTAATGACTATGAGAGAAAGATTTGGTAATAATCTAAAGGGATTAAAAGTAGGAATAAGTTGGGGCTACGCAGAAAGTCATTTAAAACCATTGTCTGTACCTCAATCACAAATATTATTATTTACAAGGTTTGGAATGGATGTAACTCTTGCATATCCAAAAGGTTTTGATTTAATGCCAGATATAGTAAAAACTGCAAAACAAAACGCTGAAAATCATGGTGGAAAATTAAATATAACTAACAACATGGATGATGCTTTTGTAGATGCACACGTTGTATTCCCTAAAAATTGGGGCGGATTCTTTATTTCCGATAAAGAAGAAGAAATAAGAGCTGAACAAGCAAAACACAAAGATTGGAAGTGCACAGAAGAAAAAATGAAACTTTTAGACAAGAGTGGTGTATTCATGCACGCACTACCTGCTGATAGAGGAAATGAAGTTGAAGATTCTGTAATAGATGGTCCACGCTCAATAGTTTATGATGAAGCCGAAAATAGACTTCATACAGCAAAAGCAATTATGACCCTATTAATGGGTGGTAGATACTAAAATGTTTGATCTTGCCATCTTACATGGAAAAGTTTATATAAACAATGAATTTAAAGAATTAAACATTTATATAAAAGATGGAAAAATTTCAGCACTTTCAAATGAACTTCTCTTTTCAAAAGAAAAATACAATGCTAAAAATATGTATGTTTTGCCTGGATTTATTGATCCTCATGTTCACTTTGAACTCACTGTTGGAAATCATACATCAATTGATACTTTTGAAAGTGGTTCAATCTCCGCTGTTTATGGCGGAGTAACCACTTTCATTGATTTTTTAGATCCAATAAATAAAGTTGAAAATTTAGAAAAAGCCTTTAAAATCAGAAATACTCTTGCAAAAAAAAGTATCATTGATTATTCCTTTCATACAACTATTTTCAACCCTAAAAGTTCTCCAATGGACTTAGTAAAAAAATCAAAAACTTTAGGTATTCCAAGCATAAAGTTATTTACTACATACGGCGAAAGACAAACTTATGACGATTATATATATGAATTATTAAAAATATCTTCCAAAGAAAAAATAAACGTGATGATACATTCTGAAAATGATACCTTAATAAAAAAAGGAAGAAATATAATAGCTGAGCATGCAAAATCACGTCCAGAAATTTCTGAAATAACAGAAATAATAAAACTATCACAAATGGCAGAATATACAAATGGTAGACTATATATAGTTCACACAACTTGTGGAACGAGTGTTGAAAAGTTAAAAAAATGTTATTCAAAAATATTAAATAAAACTTTATTTATTGAAAGCTGCCCTCATTACTTTTATTTCAATTCTGAAGTATATAACTCAAATAAAGGAAATCTTTATACCATGACACCTCCTCTTCGAAATGAACTTGAAGTTGAAAAATTAAAACAAAATATAGATAATATATACACAATAGGGACAGACCATTGTCCATTTACTTTAAAAGAAAAAATGACTTCCTTTACAGACTTAATACCTATGGGTATTGGTGGAATCGAACATTCATTTGTTTTAATGTATTCAATGTTTGGAGAAAAAATAATAAATAAATTCACCATAAACCCTGCAAAAGTTCATGGATTATATCCCAAAAAAGGAATACTTTTACCAGGAAGTGATGCCGATATTGTTATTTTCAATCCAAATGAAGAAAGTATAATTAAAAGCACTCATTCACTTTGTGACTATGAAATATATCAAAATATAAAAGTAAAAGGTAAAATAATGAGTGTACTTTCAAATGGTAAGTTTATACTTAAAGAAAATAAATTTATTAAAACAAAAGGAAGTTTTATAGAAAGGAAGATATTATGAAGGCAATAATAAATGCAAACATATATGATTATGAAAACTACTTTGAAAATATGTACATTCTTTATGATAAAAAAATAATAGAAATTGATAAAATGAAAAATTTTAATAAAAATTGTGATATTATCGATGCCAAAAACTCTATTGTAATGCCTGGTTTTGTAAACTCACATACACACATTTATTCTACTTTTGCAAGAGGCTTAAATATTCCTTTTAACCCAGAAACATTCAAAGAATTATTAGAACAATTATGGTGGAAATTAGACTCAAAATTAACTCTTGAAAGCATATATTACAGTGGATTAATTAGCTCAAATGAATTTATAAAAAATGGAGTAACAACAATAATAGATCACCATGCAAGTGGTGAAATAACAAACTCTTTAAACACTTTAAAAAAAGCTATTTGTGATAAATCTGGATTGAGAGGTATTTTTTGCTTTGAAACAAGTGATAGATTCGATGTTGATAAATGTATTGAAGAAAATATAGAATTTTCTAAAAACAATTCTGAAAAATGTTCAGGAATATTTGGAATGCATGCATCAATAACTTTATCAGACAACACCTTAAAAAAAATATCTAATCTTACAAATTTACCCATACACATTCATGTTGCAGAAAGTTTAGAAGACGAAGATGATTGTATAAAAAATCATCAAATGAGAATAATTGAAAGATTAAAAAAATATGATTTAATAAAAAATAACTCAATACTTGCTCACTGCATACATATAGATGAAAACGAAGCTAATTTAATAAAAAAATCAAACTCTTATATAGTTTTAAATCCAACTTCAAATATGAATAATGGTGTTGGACTTCCTGATATTCAAATGCTGCAAAAAAGAGGTATTCCTTTAATGCTTGGGAATGATGGACTTGGATATAATTTCGCAAAGGATATACAAACACTTTTATTTTCAATGAAACATAAATATTTAAATCCACTTGCCTTTTCTATAGATGATTTAAAAAAAATAATAAATACAAACTTTGAATATGCTTCAAAAATACTAAAAATAAAACTTGGAAAAATAAAAAAAGATTATGTTTCAGATTTTTTAATTGTTCCTTATAATTCACCAACTCCTATGACAAAAGAAAATGCAGATGGTCACATCTTTTATGGTGTATTTGATAATTTTAGACCTAAAACAGTAATTTGTAATGGAAAAATTTTAAAAACAAACAATGAAATATATAATGAATCAAAAAAAGTATCACAAAAATTATGGAATAAAATACAGGGGTGATTTTATGAATTTAAAAACATCTATTTGTGGAATAGACTTAAAAAATCCTCTAATGCCTGCCTCAGGTCCATTGACTGGAGACTTTGAAAAGATGAATTTTCTTTATAAAAGTGGTGTTGGAGCAATGGTTACAAAAACTATATCAATAAAAGGTGCTGAAGTTATAAGACCTTGTATATATGGCGAAAAAAATTTTATAATGAACAATGAACTTTGGTCAGAGTATTCTTATAAAAAATGGATACATGAAATACTCCCAAAAGCAAAAAAAGAGTTTGATATTCCTTTAATTGTAAGCGCCGGATATACAAAAGAAGATATGGAATTTTTAATACCAAAATTAGATGAATTTGCAGATATATTTGAAATATCAACTCATTATGTTGGAAAAGACTTAAATAAAATATCAGAAATAGTTAAAACTATAAGAAAATACACAAAAAAACCACTTTTCATAAAAATGAGTCCACACATACCAGAACCAATAGAATTTGTTAAAAAAATAATGGAAAGTGGTGCTAATGGTGTTGTTGCAATAAATTCACTTGGACCAACAATGAAAATAGATTTAGAAACAAGAAGCACATTATTAGGAAATAAAGACGGTTTTGCCTGGACTTCTGGTCCTGTAATAAAACCACTATCTCTTGCTCTTATACACGAAATTCATAAAAATGTTCCAAATGCTGTAATTATAGGAACAGGTGGTGTAGAAAAAGCTGAAGATATTATTGAATTTTTACTAGCTGGTGCATCTGGTGTTCAAATGCTTTCATCAGCACTAATAAAAGGTAAGGACTTATATAAAAAAATAATAAATTCTTTACCAAAAAAACTTGAAAAATATGGTTTTTCATCAATAGAACACGTAATTGAAAGTAAAATATTAACCAGAACACCTACCTTTACTCCAAATCACCCAAAAATAGATAATGAAAAATGCACATTATGTAAATTATGTGAAAATGTTTGTCCATACTTTGCAATTACAGTAAATGAAAAAGTAATAGTTGATAACAAAAAATGTTTTGGCTGTGGTTTATGTGAATCAAGATGTCCAACAAAAGCAATAAGTAATGTTCTATAGGGCATTACTTATTGCTTTTGAATTAAAAAATAAAATTTCTCTTTTTCACTAACCTTTTTTTATAAATTGGAATTATTCTAACTTTTCATTAAAAATCTTTACTTTTTTTAGTAGACATTTTTTTACATTAATGATAAAATTAAAATGAAAGCAAAAAAATATTCTGGGAGGTAAGCTCTATGAAAAGAATTGCCATTTTAAATGTTGGTGGAGATTGTCCAGGTTTAAACGCAGTTATTCGTGCACTAATTGTTAAAGGTGCAGAAGAAGATATAGAAGTAATAGGTGTATACGATGGATTTAAAGGTCTTGTAAATGATAAGATGTTTATCATGACAAAGGAACACGTTTCTGGAAAACTTCCTGAAGGTGGAATTATACTAGGTTCTTCTAAATATGATCCAACTAAAAACGCTGAAGATCTTGAGAAATTAAAGGAAAATGTAAAAAAGTATCAAATAACCTCTTTAATTTTATTAACAGGTCACACTGGAGCTGGTATAGCCTTAAAATTAAAAGATGAAGGTGTACCTTCTGTTATAATTCCAGCTACAATAGACAATGATTTAAAATGGACAGATTTAAGTATTGGTTTTCTAACAGCACTTCAAACTGTAGTTACTTCACTTGATTTTTTACATTCAACAGCAAATGCTGGTCATAGAGTAATAGTTGTTGAAGTTGGTGGAGATGAAGCTGGTTGGCTTGCTACTATTGGTGGAATGTCTGGAGGAGCTGACTATATAATAACTCCAGAAGTACTTCCTGATCCTAAAGATATGCTTGCAAATATAAAAAAGAGATATGATGTTGGTAAAAAATTCTCTATAATTGTTGTAGAAGAAAAAGCTGAACTTCCTGAAGAAATTAAAAATGTTTCTGGTTCAGATAATAAACTTGTTTCACCTTCTGAATTAGTAATGGAATACATAAAAGAGAATGTTTCAGATGAAATAGATTGTAGAATAGTAAATCTAGGTTATATGCAAAGAGGAGGATCTCCTGCAGCTTTTGATAGATTCCTTGCTTTTAAATTTGGTTGTGGAGCTGTTAAAGCTGTTAAAGAAGGAAAAACTAATGTTGCTCTTGGTCTTCATGGATATGAAGTAACTGAAATTCCTTACACAGAAGAAATCCTAGAAAATAAAACTGTTAAACCAGAAATTTATGAAATGGCAAAACTTTTCTTTTAAAAAATAAAATAAAACAGGCTAAAGCCTGTTTTATTTTATTTTTTTTCTCTTTTTTAAATATAAACCTCTTATAACTTCAAGTTCTTTTTTATACATTTCATCTTTAAAATTTTCATAAGAATTATTACTATGAGCCCATTTTCCATAAACGTACATTAAAGTTATCTCAGCATATATATTTCTACCTATATAAATTCTATTACCTTGTTGTTTTGTTGTAGCTAAAACAAACTGTGTATGATGAACATATCCAACATCTAAATTTACCTTTCTTTTACCATCAATTGCAAACTTTTCTTCAATTTTATTTGTAATTAATTTTGCATCTGCTAAAAAGGCTGGCGATGCCATTAATTCTAAACTGATCATTCTTCCTTCAACTACAATATTTTTACCCATCTCTTCATTATAGTAGTCTGTAAATCTTTGAAAATCTAATGGTTTTGAAATATAATCAATTTTTCCAAAATGTTTTTTTATTTCTTCAATAACTCCTGTTTCGTTAAGCCAATAATCAGAATTACCAGCTGTAAATGCGTGAATTACATAATTCACCATTTCACTTTTTTTTAACTTTCCCACTTAAAACCACCTCAAAATTTTCTAATTTTATTCTGTATACTTCAAATGGTGTTTTTAATTCAACTATACCATTATTATTTTCTACTTTAATTTTATCATCTACACTTAGTTTAACTAATAGAGATTTTTCCGAAGATAAAAGTTTATTATTTAATTTTATATCTTTTTTACTTAAATTTTTTATATAAACATCAAAGGTTTTTCCATTTCTTATTTTACTATATAATAGAGCATCTTTAGATACTAGAAACAAAAAAATCCCATTCAAAAATATTAGAAACCAAAGAAATATTAAATAAATAACAGCTTTTTTGTTTACAGTTTTATCTTCAACAATACTTTCTTTTTTTTCAATAAACGTTATTTTTTCGTCTAAAATTTCCTCAAGCCTTTTTGATATATCTTTTAATGAAGTTCGAGAATATCCTGTATAATCTTCATTTAAAATTTTTTGAAAAGAATACATTGAAATTTTTAACTCTTTTGCAATTTCTTTAATATCAAGATTTTTTGATTTTATTAAGTAAGATATATTTTTATTAAAGGTTCCTTTCATCTTATCAACTCCCACTATATTTTACCATATAATTAAAAATATTTTTATTAAAAATTTTTATACAAAAGAATATTATTAATAGAAACAGTTTATTAAAAATAAAAAGCATAAAATATGTTTATATTAATTTTAATTAATACTTTTTTAACAAACTTGACTTAAAAGAAATATTATAATATAATTTAAATAATTTTATTCATTTCAAAAAAGGGGGAATATTTATGGCAAGACAAAGATGGAATTCGAGATGGGCCTTCGTGCTTGCTGCTGTTGGTTCTGCAGCTGGCTTAGGAAATGCTTGGAGATTTCCTTACATGGCTTATTCAAATGGGGGAGGAGCTTTTTACATTCCTTACTTTATTGCTTTATTCGTAGCAGGTATACCTTTATTAATGGCAGAGTTTGGAATGGGACAAGGATTACAGGCTAGTGCACCAAAAGTAATGCGAAGTGCAGGAAAAGGATTTGAAATGATTGGTTGGTGGGCTGTTTTTTCTGGAGCAATAATTACTTTTTATTATAATGTTATTATGGGATGGATATTTAATTATCTTATAAAATCAACAACTGTTGCTTGGAAAAATAATCCTTCAGATTATTTTTTTAATAGCTTTTTAAAAATTAGTAGTGGTCCTGGAGAAATAGGTGCTTTAAGATGGGCAATAGTTATTGGACTTGCAGTTACATGGTTATGGATTTATTTAATTTTAAGAAAAGGAACAGATAGTGTTGGAAAAACTGTTGCTTGGACTGTACCTTTACCTATAATTTTATTACTTGTTTTAGGTTTACGTGGTATAACCTTAAATGGTGCTGGAGAAGGACTAAACTATTTATTTTCACCTGATTTTTCGAAGTTAGCTGATGTAAAAGTTTGGGCAGCAGCTTTTGGACAAATATTTTTTTCTTTAAGTTTAGCTTTTGGTGTTATGATAACCTATGGAAGTTACAATTCTAAAAAAAGTGATGTTGCAAATAACACTGTAATAACAGCACTTGGAAATTCTGCAACTTCTTTTTTAGCTGGAATAGCTGTTTTCTCTGTTTTAGGTTACATGGCTACAATTCAAGGTGTAGGTGTAGATAAAGTTGTTTCTCAAGGAATTGGTTTAGCATTCGTTGTTTATCCAAAAGCTATATCTCTTTTACCTGGAGGAGTTTTTGTTCAAGCTATATTTGGATTTTTATTCTTTGTAATGCTATTGACTTTAGGAATAGATTCTGCCTTTTCATTAGTAGAAGCAATAGAAGCATCTATTTCTGATAAATTTAAAGTTGGAAAGAAAAAATTTCTAATTACAATGTCTATAATTGGTTTTATATTTGGTCTTTTATTTGCAACTCAAGGAGGACTCTATTGGTTAGATATAATAGATCATTTTATAGGAAATTATGCGCTCTTAATTGTTGGAATTTTTGAATCCTTAATATTTGGATGGATAATAGGAGCAGAAAAATTAAGAACTTATATAAATAATGTATCTGAAATAAAAATTGGTAAATGGTTTACTTTCTTTATAAAATACTTAATTCCAATAATATTAATTTGGATTTTAACAACGTCAGCTATAGATGAATTCAAAAAACCATATGGTGGATATCCTATTTGGTCTATATTAACAGGTTTTTCAGTTTTTGTATTCGTTCCTATATTAGGATTTATTTTTAGTTTAATAAAAGAAAAGAACAAAGACTTTGTTATAAAAGAAATAAATTTTGACGTAGAAGACTAAGGAGGGATATAATGAGTGCATCTGCTATAGTTTTTATGATAATTGTTGGGACTGTCCTTTTTGGTGGTCTTGGATGGTCACTAAGTGTAGCTTATAAAAAACAAAATAAAAAATAATTACACTAAATAAAAAAAAAACGATTTCTGAATTAGAAATCGTTTTTTTTATTTAAAATTTAATATACTTTAGATTTTTTTAACCATCCAATTACAAGAGGACTTGCAATATAAAGTGATGAATAAGTACCTACAATAACACCAAAAGTTAATCCAAAAGCAAATGGTGCAATTGATCTTCCACCAATTAACAACATCAAAAACACAACTGCAAATGTTGTTATAGATGTATTTAATGATCTTACAATAACTTCGTTTATACTATTATTTACAATTTCAGAGATATCTTTACCTCTCATTTTTTTCATATTTTCTCTTATTCTATCATAAACAACTATTGTATCATTTAGCGAATATCCTGCAAGCGTTAAAAACGCAGCTATTGCTGAAACATTTATTTCTATATTAAATAATGAATATAAACCTACAACAATTATTATATCATGAGCAAGTGCAACAAGTGCTCCTACACCAAAAGAAAATTTAAATCTAAGAGATATATAACCCAATAATAATACGAGAGATATTAATACAGCATACCAAGCAAAAGTTTTAATTTCTTCAGCTGCTGCACCTGATACATCATTAAATTGTAATTTTTCAAAGTTATTATCTCCAAATCCTTTTTTCAAAGAAGCTAAAAAGTTTTCCTTTTGATCTGTATTAAATGAATCCTTAATTGTTATAGTAAACAAAAATTTATTTTCTTGACCTTTTAAAGGTTTTAATTCAACAATTTTTGCTGTTGCATAATCACTTTTTATACTTTTTAAAACATTTCTTATTTCTGATATTTCAACCTTTTTATCTAATGATGCAGTTAATTCTGTTCCTCCTGCAAAGTCTATACCAAAGTTAAACCCTTTTGTAAATGATAATATTAGAGCTATTACAATTAGTATAGAAGAAAGGGTTATGAAAAATTTTCTCTTTCCTACGAAATCTATATTCATATTAGTTTTCCCCCTTTACTTCTTTTACAAGTTTTTCAGATTTTACATTGTGAGAAGTTGATTCTAATATAATTCTTGAAACAACAAGATTAGTAAATAAACTTCCTATAACTCCAATTATAAGAGTAATAGCAAATCCTCTAACTGCACCTGTTGTAAAGTAATAAAGAACCACACCAGCAATTATAGTTGTTAAATTAGCATCAAATAATGTCCAAAAGGCTTTTTCAAATCCAAATTTAACAGCCGTCAATGGTGGTCTACCAAGTCTTAATTCTTCTTTTATTCTTTCATATATAATAACATTTCCATCAACTGTTGTACCAAAAGTTAAAATTATACCTGCAATACCTGGTAAGGTTAATATTGCACCTGTCCAACTTAAAAATCCCATCAATAACAATGAGTTATATATCAAAGCAATATCGGCAACAACACCCATCCATTTATAGAATATTACCATATAAATCATAACGAGTATTAAACCAAATAAACCTGCTTTAATTATAGTTTCAACTATATCTCTTCCAAGTGTTGGTCCAAGTGATCTTTCTTGAAATTTTATTAAATCAACAGGAAGATTTCCACCTTTTATTAAAGCAGAATCATTTTTTGCTTCTTCAAGTGTTGATATTCCCTCAATAATAGCTGCACCTGAAGTAATTTGTGTATTAACAACAGGAGCAATTACTACTCTATCATCAAGAATTATAGCTAACTGTTTATTTACTAAATTTCCAGTTGCTAATGAAAATTTCTTAGCTCCTTCTGAACCAAAGTTTAAATTTATTAAAAACCCTGCATTTCTTGTATTAACAGATGGTTTTGCATCAACTAAATCTGCACCTGTAATTTCAAAAGGATTTTCTCCAAATTCAAAAACTTTTTTTACTTTGTACCACTTTGTTGCATTATCTTTATCTTGAACATAATCATATAAGTCTATCTTATTACCATCAATTTCCATAGTTCTATTTCTTAAAAGTGTTGGTTTTACATCTGAAACTTTAGTATCGAGTACTTCTGCAAAATAAAGTTTACCTTTACTACCAATTAATTTTTCTGCTTTTGCTGTATCTGAAATTCCTGGAATTTCTACTCTTACTCTTATTTTACCATTGCTAACTACTTTTGCTACTGATGCTTCAGTATATCCAGCAATATCCAATCTCTTTCTTAAAACGAGTATAACATTGTCAATAATATCTTGTGCTTTTGCTGTACTATCAACTTTTAAATCATACTCTAAAGAGCTTCCCCCTTGAATATCGAGACCAAGTTTTATCTTGGAAAGAACCTTACTCATTCCACTATACTTGGCAGAATCTTTTCCCGGAATAATCATTCCAAGAAGGGCTACAAGTATAATGACTATTGAAAAAATCAAACGAACTTTTCTTGCTTTCACCTAATGAAACCCCCTTATAATAAATTTTGAAATTATTATTTCTCTTCTTTTATATCATCTTTTTTTGTATCTTCAGAAGCTTTACTAATAACAGTTCCTACAGCATTTTTAGTAATGTCTAGTTCTGTTTTTTCAGCTGTTCTTATTCTTATTTTATCAGAATTTACAGATACAACTTTTCCAATTATTCCAGATGAAGTTAAAACTTTATCTCCTTTTTTTATTTGAGATAACATTTGTTTATGTTTCTTTTCTTGCCTTTTTTGAGGTAATATCAACATAACATACATTAAAACAAATAGTATTATTATAAACCATATACTACCAAATCCACTACTTGCTGCTGCACCGGTTGTTGTTGGAGCACTTGCAGTAGGAGCAGTTCCTCCAGCAGCACCAAAATTAACAAAATTTAATATGTTTTCAAACATAACTTACACCTCCAAAAAAATTTTTCTTAATTTTAAATATACACTTAAGAATTATAACACAATTTAATGTAAATTTCATCTTTTTTATTAATTTATAAGTAAAAAAAAACCTCCTAATAAATTAGGAGGTTTCATGGCGGGGACGACGAGACTCGAACTCGCGGCCACAGGTGTGACAGACCCGCATGCTAACCAACTGCACCACGTCCCCGCGTTTACGTGAATTATTTTAACAGATTTCTGGTAATTTGTAAATATATTTAAAGTTAAAAAAATGTTACATTTTTATTTTTCTTAATTATTGATAAATTTTTTTAATTTATTAGCTTCACTGTTTATTTTTTAATATTTGATTTTTATTTTTCCTTAGAGTATAATAAAAGTGAATTTTATATTTTGGGAAGTGATTTATGAAACTTTATATAAGCGATTTACACATTGGAAATGGAAGTTCTAAAGATGATTTTGTTTATGATGAAAATTTAATTTATATATTAAAAAATATGAAGTTTAATGAACTATTTTTTGTTGGTGATATTTTTGAATTAATAGCTGGAAACAATACTTCTTTACTCAATACGGCAAAAGAGTATATAGATAATTTTAATGTATCAGAATTAAAAAATGTGTACAATAAGCATCAACAACTTTTTGATACAATTAATAAAATATCTAAAAAGTCTAAAATTAGATATATTATTGGAAATCATGATTATTATATATTTCACAATGAAAAATTACAACAAACAATAAAAGATTTTATGGGAAATATAGAATTCTTTCCTTATTATTATGATAAAAAATGTAAAATATTTATCATTCATGGTAATCAATTCGATCCAATGAATAGATTTGCAATTGACAAAGAAAATAATATTTTACCTTCTTTTGGTGAATATATGATGAAGTATATGGAAGAAAATTTTGATTCTACAGTCAATGATATTCTTCCAGATGAATTAATTTCTGATTATGATAATATTTCACCTATACTGGATGTTTTTCAATGGTTAGATTATATAAACGAAAGGTACAACTTAAAATGTAACTTAAAATCTTTGTGGTCTGAAAATTTTATAAACTTTGTAAGAACACCTCAAATAAAAAAATGGTTAAAGGTAAGTTTCCCAAAATACTCAATATTAACTAATGTTTTTGTAAATAAAATTGGTGGAATGAAATTTGGAGAATTTTTAGTTAGAACAATAATGTTATTTAGAGGTTTTAAAAAAACAAATTCACTTTTATTACAATCAAAAAAACTATTATTAGATGATTTTTATATTCCTAAAAAAAATTTAATTGGATATACAGATAAATCTATTAGATTAGACTCAAAAGATATAAATGGTATTATCATGGGTCACAATCATCAACCCACACACAAAATATTAAAAAATGCTTACACAAAAAAATTTTATGCTAATACAGGTGCATGGAAACATATAGTTTCTAAAAATTTTGGGATAAATGAAAATGAATTTATAAGAAAAAATGTAATATCTTATCTTTGTATAGAAGAAAATTTAAAAGTAAAACTCTATACTGAAGAAAGTTATTTTGGAGGTGGAAAATGAAAAAATTTTTAATTGTTAGCATTATTTTAATTGTTTCAGTATCTATTTTCTCAATGAGTTTTTACAATCCTATAGGTCCAACTTTATTACCTGCTGCTGGACTATATATAGCTCCACCAAAAGATTTAAAAACCAACTTATGGAGAACGCTTGATGAAGCTCAAACAATTGTTTTAAAAGAACAAGCTGATTTTATAGTTTTACCAGTAGCTTATGGAATACAATTAATAAATAAGGGTGCAAATTATAAGCTTGCTGGAGTATCTTTGTGGAAAACTTTTTATCTTGTTTCTTCACAAAACATAAAAGATGTAAAACAACTTGAAGGTAAAAGAGTTTTAACTATACATGGACCAGGTCAAACTGCAGATTTAATTTTAAAAATGGTAAAAAAAGAAATGAACTTGAATTTTGATATAGTATACGTAAAAAGTGGTGCAGATATAATTCAACTTCTTGCAAGTAACAAAGAAAGTATAGCTGTACTTCCAGAACCATTTGTATCTTTAGCAGAAGTAAAAACTAAAGGAAAAATAAGTCCAAAATTAGATATACAAAGTATTTATTATAAGGTTTCAAAAAGTATCAACAAGATTCCTATTGCAGGACTTTTTATAAAAAACTCAATAAATGTATCTACTGCAAATGAAATTATAAACGCTTACAGAAAATCAACAAATGATTTTTTCATAAATAACACCAATGAAGCCATAGATTTTGTTGTTAAATCAATGGGAGGAAAGATGCCCAAACCTGTAATTGAAAAAGCTGCAAAACGTTCTGAAATAATATACAAAACAGATATTGGAAATGTTTTAAATTATTTAAAAATATTAAAAAAGTTTAATTTTATAGATAATTATTCTAAAGATATGTTGTACTTAAAATAACCTTTTCAACACTATACAAACATTGTTTTTTACACAGAATCTATATTTTTGTAATAATTTTGATGGTTATTGATTTTTTCTATTTATAAAAATATGGTATCATTTCTTGATTATAAAAAATATTTACGTATTTACTTTAGAAATGGGAGGGAAAAGAATGACTAAAAAATATGTTTACTCTTGGGGTAACGGAGAAGCTGAAGGTAGTTCAAAAATGAAACATCTTTTAGGAGGTAAAGGAGCTAATCTTGCTGAAATGGCATCATTAGGATTCCCTACTCCAGGTGGATTTACAATCACAACTGAAATGTGTGATTACTATTGGAAAAATGGTAAAGTTTTTCCTCAAGAATTAAAAGCTGAAGTTGATGCAGCTATTGAAAAATTAGAAAAAATATCTGGTAAAAGATTTGGAGACAATGAAAATCCATTATTAGTATCTGTTAGATCAGGTGCTGCAGTTTCAATGCCAGGTATGATGGATACTATATTAAACCTTGGTTTAAATGATGTTTCTGTTAAAGCTTTAGCAAAATTATCAAACAATGAAAGATTTGCTTATGATTCATATAGAAGATTTATGCAAATGTTTGGTGACGTTGCTCTTGGAATTGAACATGCTAAATTTGAAGAAAAATTAAATATAGTAAAAAGAGAAAAAGGCGTTACAGGAGATCTCGAACTTGATGCAGAAGATTTAAAGAAAGTTGTTGAACTTTATAAAGAAGCTTATAAAGAAGCAGGATTAGACTTTCCACAAGATCCAAAGAAACAAATGTGGGCTGCTATTGAAGCTGTTTTTGGAAGTTGGAATAACGAAAGAGCTATAAAATATAGAGCTATAAATGGTATTAAAGAAGGAGAATTACTTGGAACAGCTGTAAATGTTCAAATGATGGCATTTGGTAATATGGGAGAAGATTCTGGAACTGGAGTTGCTTTCACAAGAAACCCTAATACTGGAGAAAAGAAATTTTATGGTGAATATTTATTAAACGCACAAGGTGAAGACGTTGTTGCTGGTATAAGAACTCCAGAACCAATGGAAAAATTAAATGAAGTTAATCCTGAAGTTTACAAACAATTATGTGATATAATGACAAAACTTGAAAATCATTTTAGAGATATGCAAGATATTGAATTTACAATGGAAAAAGGTAAATTATATTTATTACAAACAAGAACAGGAAAAAGAACTTCTGCTGCTGCAGTTAAAATAGCTGTAGACATGTTAAAAGAAGGATTAATAACAGAAGAAGAAGCAGTTATGAGAGTTAAACCTGCCGATATTGAAAAACTTCTTCACCCTATGTTTGATGCAGAAGAACTTAAAAAAGCTCAATATATGGGTAAAGGATTACCTGCTTCTCCAGGTGCTGCAACAGGTATGGCTATATTTAGTGCAGATAAAGCTGAAGAAAAAGCTGAAGAAGGTATTCCAGTTATTCTTGTAAGACCAGAAACATCTCCAGAAGATGTTGGTGGAATGAATGCTGCAGAAGGTATCTTAACAGCAACAGGAGGTATGACTTCACATGCTGCAGTTGTTGCAAGAGGTATGGGTAAAACTGCAATAGTTGGAGCTGCAAACTTAGAAATAGATGAAAATGCTAAAACTGCTACAATAAATGGCGTTACTATAAAAGAAAATGATTGGGTATCATTAGATGGAAACGAAGGTAAATATTATGCTGGTAAAGTAAAAACAATAAAACCTCAAGGTTTACACGGAGATATAGCTGAATTATTAGAAGTTGCAGATAAATTAGCAGATCTTGGAGTTAGAGCAAATGCCGATATACCAAGAGATGCAAAAGTAGCAAGAGAATTTGGTGCAAAAGGAATTGGACTTTGTAGAACAGAACATATGTTCTTTGATGAAGCAAGAATAATGAAGATGAGAACTATGATTGTTTCTAAAACTGTAGAACAAAGAGAAGCTGCTCTTTCCGAATTACTTCCATTCCAAAAAGCAGACTTTAAAGGTTTATTTGAAGCAATGGAAGGATATGGAGTTACTATAAGATACTTGGATCCACCTCTTCATGAATTTTTACCAAATGATGAAGAACAAATGAAAGAAATTGCTCCTCAACTCGGTATATCTGTTGAAGAATTAAAAGAAATAGTTGAAAATTTACATGAATTCAATCCAATGATGGGTCATAGAGGTTGTAGACTTTCTATAACTTATCCTGAAATTGCAGTTATGCAAACAAAAGCTGTTATAGGTGCTGCTATTGAAGTAGCAAAAGAAGGTAAAAAAGTTAGACCAGAAATCATGATTCCACTTGTTGGAAAAGTTGATGAATTAAAATTCTTAAGAGAATTAGTTGAAAAAACAGCAAATGAATTAATAAAAGAATCAGGAATTGACCTTGAATACAAAGTTGGTACTATGATAGAAGTTCCAAGAGCTGCTGCTACTGCAGATCAAATTGCACAACAAGCAGATTTCTTTAGCTTTGGTACAAATGATTTAACTCAATTAACACTTGGTTTCTCAAGAGATGATTATGGTAAGTTCATAAAAGAATACATAAAAGAAGGAATTTATGAATCAGATCCATTCCAACACATTGATAGAAGAGGTGTTGGTAGAATGATTAAGATGGCTCTTAATGATGGTAGAGAAGTTAATCCATTATTAAAAACAGGAGTTTGTGGTGAACATGGTGGAGATCCTGAATCAATTGAATTCTGTCACTTAGTTGGTTTAGACTATGTTTCATGTTCTCCATATAGAGTTCCAGTTGCAAGACTCGCTGCTGCTCAAGCTGCAGTTACATACAAAAGAAGAAAAAGAGTTAATGATTAATAAATAATCTTAAAGCGGGGAGTTTATCCCCGCTTTTTATAAATTATTTACAATATACCCCGATATGCTTATATAATTAAACTTGAAAAATTTTTCATGGTGAATTATAATATTTTTAGCTTTTAAAATAACTAAGGAGGAAGAGGCATGACATCCCCATCCGTAAAAAAAATTATTTTTATTCTTATGTTCATGTTGGTAACATTTTCACTTTTTGCAGATACTCCTAATGTTCCTGCAAAAAACAACGTTAATACAACATCGGTAGTTACTACTAGTAATACTACTGAAGAAAACGGTTTAATTTTATTTTTAAAAAACAACGGCTTTGCAAAACTAACTTGGAAACACATAGTTATGATCTTAATCGGTATCTTGGTAATATGGGTTGCAATATCTAAAGATGCAGAACCTTTATTACTTGTATCCTTGGGGTTTGGTATGATTTTGGCAAATATTCCACCAGAAGTTACAGGATTTTTATCTCCGCCAACATCTGTTTCACCAGGAGGATTAATTTATTATATAAAACAAGGTATGCTTTTAGGTATATATCCTCCATTAATCTTTTTAGGATTAGGAGCTATGACAGACTTTTCTTATCTTATTGCAAATCCAATATTATTCTTACTCGGAGCTGCTGCTCAAGTTGGAATATTTGTAACCTTTATCATTGCTAATTTAATTGGATTTAATATGTTTGAAGCTGCTTCAATTTCAATTATTGGTGGTGCAGATGGTCCTACATCTATTTATCTTGCATCAAGATTTGCTCCTCAAATATTATCAATAATTGCTGTTGCAGCGTATTCATATATTGCTTTAATACCAATTATTCAACCACCTATTTCAAAATTTTGGACAACAAAAGCAGAAAGAAAAATAAGAATGAAAAAATTAAGAGTTGTTTCTCAAAGAGAAAAAATAATTTTTCCAATATTAACGACTCTTGTTGTAACCTTAATAGTTCCACAGGCAATTTCTTTAGTTGGTATGTTAATGCTTGGTAATCTTTTAAAAGAAAGTGGAAGAACTGCAAGGCTTGCCGAAGCAGCTTCAAGGTATATACTCGATGTGAGTACAATACTTTTAATGTTATCTGTTGGAGCTTCTGCAACTGCAGATAAATTCTTGACACCAGCATTTTTAAAAATATTATTCTTAGGTGCTGCTGCATTTATAGTTGCCCTTTCATCTGGTATTTTAGTTGCTAAGTTTATGAATTTATTCTTAAAAAACAAAATAAATCCTTTAATAGGAGCAGCAGGAGTTTCTGCTGTACCTGATGCAGCAAGAGTTGCTCAGCATGTTGCACAAGAAGACGATCCTGGAAACTTTATATTAATGCATGCAATGGGTCCAAATGTTGCTGGTGTTATAGGATCAGCAGTTGCCGCTGGTATTTTTATAAACATGATACACTAATTATCGCATTTGCGAATTAATTTGGAGGTGCTGTTATGCCATCCGTGAAAAAAAATTTCAAGGTGGAAATAAACTATGAGTACTGTAAAAAATGTGGATTATGTTACTGGATATGTCCTACAAAAACAATAATTGCAGGAGAATATGGAAAACCTGAAGTTCCAGATCATGCTAAATGTATTGGATGTTTACAATGTGAAAAAATATGTCCTGATTTTGCAATAAATGTTATTGAGGATGGTGAAAAATAATGGGTAAAGTACACTTTATGTCTGGAAATGAAGCTTGTGCTCATGCTGCCATAAAAGCAGGATGTAGATTTTTTGGAGGTTATCCTATTACACCATCAACAGAAGTGGCAGAAACACTAGCTAGAGAACTCCCAAAAGTTGGAGGAACATTTATTCAAATGGAAGATGAAATTGCAAGTGCCGCTTCAATAATTGGAGCTTCTCTTGCTGGAGCAAAATCTATGACAGCAACTAGTGGTCCAGGTTTTTCCTTAATGCAAGAAGCATTTGGATACGCAGTTATGACTGAAACGCCTTGTGTCTTTGTAGATGTAATGAGAGGTGGTCCTTCAACAGGACTTCCAACAAAACCATCTCAAGGAGATATTATGCAAGTTAGATGGGGAACACATGGAGATCATCAAATAATTGTCCTTTATCCTTCAACAGTTGAAGAAGTATACAAATATACAATTACTGCTTTCAATTATGCTGAAAAATATAGAACACCTGTAATATTATTAATGGATGAAACTCTTGGTCATATGCGTGAAAGTTTTTATATAGATTATGAAGATGAGTATCCTGAAGTTATAGAAAGAATTAAAGATGTAGAATTAGAAGAAGAAGATGTTTTTCATCCATTTGATGTTGATGAAAACAGTGAAATTTCACCTTTAATGGAAATGGGAAAATCAAGATTCCACGTATCTGGTTTAGTACACGATGAAACAGGATTCCCTGTTGGAACATCTCCTGAAATTGCTGATAAAGCTATAAGACACTTAGATTCAAAAATAAGATTGTATGCTGAAGAAATAGCTATATACGATGAATATATGTTGACCGATGCTGAAATAGTTGTTGTTGCTTATGGATCCACAGCAAGAGCCGCTTTAAGAGCTGTTAAAATGGCAAGAGGAGATAAAATACCTGTTGGATTGTTTAAACCAATTACAATATGGCCATTACCTTCTTCAAGAATTAAAAATTTATTTAAAAATGCTCAAGCATTGATAGTTCCAGAACTAAATATGGGACAGTATGTTCAAGAACTTTCCAAATTAAATAAAGGAAACAAGTATATAGAGTCATTAACAAAAGTAAATGGTGAATTAATAACTCCAGAAGAAATTTTAAACTCTATAATAAAAGTTTGGATACAAATAACAGAAATGTAAAATTATATTTTGAAAAATCAATCCCTTAGGGTATAATATACCCAGGGGATTTTTTTATTTTAATGAGGTGAGTTATGTTTTTAGAGAAAAATTTAAAAAAATATGAAGATAAAATTAGAAAAATTTTTATTGAACCTGAGTTAAATTATATATTTTCTGAAATGGATAAAAATATATATTATGAGTTCAATACAGATATTTATATTCATGAAAATACTGAACAAGTACCTTTAAATATATATAAAATCTTAAAACTTGCTGAACACTATAACCTTTTTAAAATACATAATATAAATATTGTCAAAGAAAAAGAAAAACAATCTATAAGTATAATAAGAAATAATGGAAATTTAATAACTTTGAACTATACTTTAATGAATACTAACTTTAATAATATTTTATTGCATATAATTAAAAATTCAAGTAATACTTTTTCTTCTTTATTAATAAACATATTTTTAAAAAGTAGTAGAATTTCACATATATTATTGAATTCAAGAGTAATAATTGAAGAATCATTAAAACATGGTGTAGGTAAAGAAAAAATAATATACGCAATACTTACAGGTATAACAACTGAATTTGGTGCTGGATTTGATAGAGCTATTTTATTTAAAAAATATGGAAGCGAATACAAAGTGTATAGAGCATGTGGTCAAAAATCTTTTGAAGAAAATAAAAAAATAAAAGAAAATTATTTGAATTTAAATCAAACATTAAAACAATTTTTAAATAATTTTGATAAAGCCAAGCCTTTTGGATCTTTAGAAGTTATATTAAAAAATTTTACTTTAAAAGAAGAAGATATAAAGTATAAATATTTATTTGAAGATTCACTAAAACAAAATAATGCTGTTAAATTACCAATAAGTTCTTTGAGTAAAAACTTAATAAATAATTTAGATTTAATGGGTGAAATAGCAATGATTCCATTAAACTTTGAAAATAGTCAATATGGATTTATTTTATGTGATAATAGATATAATAATACGCCTATATCAGACGAACAATTATATGCACTTGATTATTTAGGAAAACAAGGGTCTATAATTTTAGAAACTAAAATTTCTCATGAAGCTTTAAAATTCGAAGCAGAAACAGATAGTTTAACAGGACTTGGTAATAGAAACAGTTATGAAAAGTATATTCAAAGATTATCTATTTCTGGAGAAAAACATATTGGTATTGCAATGATTGATTTAGATAATTTTAAAATAGTTAATGATACTTTTGGTCATAAAGCTGGAGATGAACTATTAATAAAATTTTCAAAAATAATAAAAGAAGAACTTAGAAAAACCGATTATGCATTCAGATATGGTGGAGATGAATTTACCCTATTTTTTAAAGATATAGACAGTGAAATGCTTAAATTAAAATTACAAAACATTGAAAAAATTTATTATGAAAAAACTAAAAAAACTTTTTCTGCTGGTGGATTAATAATGAAATATGATATTTATGATGAAATAAAAAATGTAGACGAACTTTTATATAAATCAAAAAATTCAGGTAAAGGCAAAATATCTATGCGATTTTGATTTTTTATTAAAATATGGTAAAATATACATTGAAGTCTTAACAAAAAAAGGAGGAATGTCCCGGATATGGAAATCTTAAAAGTCAGTCATAAATCAGCACCAAATAAAGTAGCTGGAGCAATTGCTGGAGTTTTAAGTAAAACAGGAGAAGTTGAAATACAATCCATAGGTGCTGGAGCAGTCAATCAAGCTGTTAAGGCAATAGCAATTGCAAAAAGATTTATTGAAAATGATGGAAAAGAACTTTATGTTATTCCTGGATTTGTAGAAGTTAAAGTTGGTGAAGAAGAAAGAACCGGGATAAAGTTTAAAGTATATATAGAAAGCGAAGAAAAATCTGAATGATTGATGAAAAAACTATACAAGAAATAATTGCCGCGTGCACAAGCGATGCGCGGCTTTTTTCTATTATTGAAGATTTAAAAACTAAAACTAAAGAAGAAAGATTTGTTATTAGAAAAAAAGCTTCTATAATTCTATCAAAGGTTAATGGAATTGAAAAAGAAGCTTTAAAATTTTATTATATCATTACGGAAGATGGGGTTATTGAAGAAATACTTAGGAGGTTAAAACGTGGAAAAACCTAAAACAGTTGGAGGACAAGCTGTAATTGAAGGAGTTATGATGAAAGGAATTCATACAGTTGTCGCCGTAAAAAAAGAAAATGGAAAAGTAGCTGTAAAAAAATTAAAGGATAAATCTTGGGGGTTAATAGAAAAAATTCCTTTTATAAGAGGATTTTTTATATTATTGCATGCAATGATAATAGGAATGAATGCATTATCTTATTCTGCATCAGTCTCTGGCGAAGAAGATGAGGAATTCACAAAAAAAGATATGATACTATCAATATTATTTGCATTTTTGGTTGCTGGACTTGGATTTGGAGCGCTTCCAGTACTCTTAACAAAACCATTTAAAATAGAATCTGAATTTTGGTTTGCATTAATTGAAGGCATAATAAGAGCATTTTTAGTAATAGGATATATATGGGCAATTTCATTAATGAAAGATGTTAAAAGAGTTTTTGAATATCACGGTGCAGAACATAAGAGTGTTTTTACTTATGAACAAAACGAACCACTTGAAGTTAAATATGCAAAAAAATATACAACATTGCATCCAAGATGTGGTACAAGCTTTATGATAATTACTGTTTTTGCTTCAATAATAGTATTTGCTGCATTTGGAGCTTTGGGATATAATTCGTTATTAATAAAAGTTTTATCAAGAATATTATTATTACCTTTAGTTGCAAGTTTAGCTTATGAGTTTCAAAGATTTACAGCAAATATAATAACAACTCCATTAGGTAAAATATTGGCTTATCCTGGATTAATGCTACAAAAAATAACAACATCCGAACCAGATGAACAACAATTAAAAATAGGTTTAATATCTTTAAAATATGCGCTTAAAGAAGATTTTGATGGAGAAATAGAAGTTGATATAAACGACTAGCTTTTAGCTAGTCGTTTTTTTCTTAAAAATCTAATTTTTCTTTTATTCTAGACAAATAACTTCTTCCTATTTTTAATGATGTTTTATTCTTATCACATAATTCAAGGGTATAATCTCTTAAAAACCATTTTTTTAATTTTTTTACTTTATCAACAGAAACTATATAACTCTTATGTATTCTCAAAAATTTACTAGAATCAAGTATTTTTTCTAAATTTTTTAAACTTTGATCAAAATAAAATTCTCTATCATAAGTACACAAAAAAGTATACTTGTCTTGTGCTTTAAAATAATACACTTCTTCGTGTGGAATTATCAATATTTCATCTCCATCTTTAACTGAAAATCTTTCTTTTATATTTTCTTCTTTTATCATATTCTTTATTTTTTCTAATATATTATTTTTATCTCTTTCTTTTGCTCTATCAATTGATTTTTTTAATCTTTCATAATTTGTAGGTTTCAATAAATAATCAATTGCATTTTCTTCAAATGCTTTAACAGCATATTCATCATAAGCTGTTAAAAATATTATCATTGGAGAATATGTTAGTTTTTTTATAACTTCAAATCCATTTAATTCTGGTAAATTTATATCTAAAAATACCAAATCAGGTTTATTTTTTTTTATACTATGAACTGCACTTTTTCCATCCATGACTTTATCAATAATTTCTATATCATTAAATTTTTTTAAAAGCATTTCAAGCCTTGAAATTGCTGGTAACTCATCTTCAACTATTATACATCTCACATTAAATCACCTCTTTTGGAAAAGTAATTTTTACAGTTGTACCATTTGAAGTAGAATTAATTTTTACATTACTTTTATCTTTAAATAGTAATTTTAATCGTTCTTTTACGCTTTTTATACCAAATCCATTTAATTCTCCTTCAAATCCAACACCATTATCTTTGACAACAATATTAATTTTATTTTCTATATTCATAGCTTCTATAAATATTTTACCACCATTTTTTTTCTTTGATATTCCATGAATAACTGAATTTTCAACAATTGGTTCAATTATTAATGGAGGAATCAAATTATTTTTTATACTTTCATCAATTATAATTTCATATTCTAATCTATCTCCCATTCTTATTTTTTCAATATCAAGATATTTTTTTATTAATTCAAATTCTTCTTCTAAAGTTTGGAATTTTTTATCTGATGAATATAATATTTTCCTATATATACCAGAAAGATTTATAACAACTTCTTCAACTTTTTTTGGAGAAGAATAAGCTAAATCAAGTATAGAATTTAAAGTATTGAATAAAAAATGTGGATTTATTTTAGATTGTAAAGCTGCTAATTCTGATTTCAGCATATTTTCTTTTAGTTTATTATTTTCTATAATTTTTTTAGTTATTTCTTTTTTCAATTTATAGTAAAATAAATATAAAAATATAGTTCCAAGTATTAAAACACCATTTATCAACAAAAGTATCCCTTGAAAAAAACCTACTTTTAAAAACATGCCTGGAAAAATTATACTAGTTAAAACAGAAAATGTTTGAAATCCAATATATATACTCAACATAAAAATGGAAAATAAAATCAAATTATTTATTATTTTAGAATCTATGCTCTTTTTTAAAAATTTTTTATATAAGTAATAGAGCATAAAAAATGAAAAACTCAAAGAATTACTTAAAATCAACGAAATTCCCAAAGTTATAATAAAATGTTCATATGAAGAAACTAATATCGCTATAAAAACAGAAAATAAAACTCCAATTATTTGAGTAATAATAAATATTTTTAAAAATTGATTTTTTATTAACTTCATTTTTTATTCACCAAACTTTTCATACGTTCCTTTGAAAGTTGTGAATAAAACGATTCTTTATATTTTTTAACTATTTTTTCATATAGTTCATATGCTCTTTTATAATCTTTTTTTAATTCTTTTAAATCTGCTAATTTAAATAAAATTTCTGCGTTATTATCAATTAAAAGCTGAGAATCATAATTAGAATTATTTAAAATATATTCATAGTCTGATATTGAAGTATCAACACAAAATGGAAAATCTTTCAACTCATAAAGAGCATTTGCTCTTATATAATGAAAACTAATGCTGTAAGGATCATTTTTTACAGCATCAGACATTTCAGAATATCCAGAATAAACATACCATAACTTTATTGGAATAAACCATTGTTCTTTTCCAATTTTTAATAAAACACGTCCATATAAAAGTTGTGCCTTTGGAATATACGAAATATTAAGAATATTCTTATATATATTTTTTGCTCTTGAAAAAGATTCAAAACTCCCATTTTCTCCAAGATATTCATACAATCTTGCTAAATCAAACATTTTTTGAGTATCATTTGGATATTTTTCTAAGTAATCTTCATACTTTTTTATTTGTTCTTTTATAACAATAATATCCGTATATGAATACAAAAAAACTGGAATGATTAACAAAAAAATAAAAATAATTTTTTTCATATTAGTTCTCCATATGAAACTCATTTTTTAAATTTAATATATAATGCTGCAAGTGGCGGTAAAGTTATATTTATTGATTGATCTCTTCCATGAAATTTAACATTTTCTGTTTTTATTTCATGAATATTATCTACATTACTTCCCCAATATCCTTCCCAATCTGTATTCATTATTTCAACATATGTACCTTTTTTAGGTACACCTATTCTATAGTTATATCTTGGAACTGGTGTAAAATTAAATATACAAACAGTAAATTCGTTTTCATCTCTTGACTTTCTAATAAAACTTAAAACACTGTTTTCACTATCATTAAAGTCTATCCATTCAAACCCTTCATTAAAACTATCTAATTCGTATAATTCTTTATTTTCTTTATAAATTTTATTTAAATCTTTTACAAAATTTTGCATTTTTCTATGTGATTCATATTGTAAAAGATTCCAATCTAATTGTTTTTTACAATCCCATTCATTTCTTTGAGCAAACTCTGATCCCATAAAAATTAATTTTTTACCAGGATGAGAATACATATAAGCATATAAAAGCCTTAAATTTGCAAATTTTTGCCAATCATCTCCAGGCATTTTTTCTAATAAACTTTTCTTTCCATAAACTACTTCATCATGAGATAAAGACAAAATAAATTTTTCAGAAAAAGCATAAACCATTGAAAATGTTATTTCATTTTGAGCATACTTTCTGTATATGGGATCTTTTTTAAAATATTCTAAAGTATCGTGCATCCATCCCATATTCCATTTAAATGTATAACCAAGTCCATTATTTTCAACATCTCTTGTTACACCATCAAAGGAAGTTGATTCTTCTGCTATCATTAATACTCCTGGATGATACTTTTTCATAATAGAGTTTAAATACTTCATAAACTCAATTGCTTCAAGATTTTCTCTTCCACCATATTTATTTGGTATCCATTCTCCATCTTTTCTACTATAATCTAAATATAACATAGAAGCTACTGCATCAACTCGTAATCCATCAAAATGAAATTTTTCAACCCAATACAATGCATTAGAAATTAAAAAATTTTTTACTTCATTTCTTCCATAATTAAATATATAAGTTCCCCAATCTATATGTTCACCCAATCTTGGATCGATATGTTCATACAATCCTGTTCCATCAAATCTACCAAGTGCATGAGCATCCTTTGGAAAATGTCCTGGAACCCAATCTAAAATCACCCCTATATTATTTTCATGAAACTTATCTATTAAATATTTAAGATGTTCTGGTCTTCCAAATCTACTTGTTGGAGCATAATATCCTGTTACTTGATATCCCCAAGATTCATCTAAAGGATGTTCTTCTATTGACATAAACTCTACATGTGTAAATCCTTGCTCTTTTACATAATTAACTAATTTTTCTGATAATTCTAAATAAGATAAAAATTTATTTTCTTCATTTCTAACCCAAGATCCTAAATGAACCTCATAAGTCGAAATTGGTTTTGCTTCCCAATTATTTTCTTTTCTAAGTTTAATCCATTTTTTATCATTCCATTTATATTTAGTCGTATAAACAATAGAAGCATTTGATGGTCTTACTTCATTATAAAATGCATAAGGATCTGTTTTTAAAAGAATTTCATTATTTTGAGCTTTTATTTCAAATTTATATAAATCGCCTTCTTTTATTCCAGGTATAAATATCTCCCAAACACCAGAACTTCCTAAAACTCTCATTTGATGAACCCTTCCATCCCAATTATTAAAATTACCAATCACACTAACCCTTTTAGCAGAAGGAGCCCATACTGAAAATAATACACCTGAAATTCTATTTATAGTTAATTTATGAGCTCCAAGTTTTTCATAAATTTTATGATGATTTCCTTCATTAAATAAATATAAATCATATTCTGTTATTTGAGGTAAAAAAGAATATGGATCTCTTAATGTCCATTTATTTTTATTTATTCCTGTAAATTCAAATTTATACTTAAAAAATTCTTTTGCTTGAAATACCTTTTCAAATAAACCATTTTCATTTATTTTTTCAAGATAAAATCTCTTATCTTTTGAAACCAATCTTACTTTTTCTGCGTCTGGTTTAAAAACTCTTACAACCATTTCATTTTTATTTAATTTATGCATACCTAAATATTTAAATGGATCATGACAATCAGCATTTATTATTTTTTTTATTTCATCATCTGTTAACAAACTCATTAAAAACCCCTCCCAAAAATTTATTCTACTAATAAATTATATAACAAATTAAAGAAAAAAACAAATAGCCGATTATAATCGGCTATCATTGTTTTATTTCAACTGTCATCTGCGTAAATGACTGATTTATTATATTGATTTTATTTTTGAAATAAGGTTTTAATATTCTAATATAAAAATCTTCTGGTTGTAAAAAAGTATTGGTAACTACATCAACATATCCATCTTCAAATGATTTAGATCCAATATCTATTATTCCTGCTGATTTTTTTAAGTAAGAAATAAAATCAGCATATTGATCATAGTTCATTTTATTAATAAATAATTCCATAGGTAATCCATTTGCTAATTGATTCATCCAATCTTTTATTATTAACTTTGATATTTCATCACCTGATACCAATGATGCATCTTCAACTGCTTTTTTTACTGCTATCATTGAAGAAATATCTGAAGCACCTCTTTCATCACTATATGAAGATATTATTTTTCCTGTTTGAGTCCAATAAACTTTAAAATTAACCTTTGCTCTAGCGCCAAGCAATCCATAAACCTCACCTGTAGATTCTCCATAAAGCTCACCTGTTAAAAGAACATCAACTCCATATTTTTTTAAAGATTTTGCCAATTGTGGTATATCCTTTTGTTTCGTTTTTATAATTTCATTTAATCTTTCCGTATCATAAACATCAAATCCATATTCTTTTAATTTTGATAAAAGAGCAATTTCTGCACTTCTATCCTCAAAAGATAAAGAACCTTTATATGCTTTACTTGGAAGCCATACTCCAACTTTAGGTTTGTTCATTTTTCTAATTATATAAAAAAAGTCATCATCTGGTATATTTTTACTAACTGTAAACTCAATTTCAACCTTATAATAATCGCTTTGATAAGGTCCTTTACTTAAAATATTTTCACTTTTTATATAACCAAGAGTTTTAGTAAATATTGACTTATCAACAAGAGTAAAGTTTGAAACTTTTTTTTCACCATAAAGTTTAAAACCAACTGATTGTTGTAAAGCTTTTAATCTTGCATCTGTTTCTGCAGAATTGTAATCATATCCTATTCCCTCAACAGTTATTTTTATTGTATCATCAACTTTTGATTGTGGTGTTGAAAAAGATTGATAATAAGGTATTTCAGATTGTTGTGGACTACATGATACAAAAAATAATAATGCTATTAAAGTTATCAACAAATATAATTTTTTCATACTTTCCCTCCCATCGAATACACACCATCTACATTTTGTAAATGACCAGATATTTCAAGTTTCATTAATATTGATAAAATTTTTGATATTTCAAAATTACTATTTTCATATAAAAGTTCTACAGTATTTTTACCATCATTTATTAAATTAATTATACTACATTCTTCAACAGAAAAATTATTTATTTTGACAAGTTGTTCAATATTAAAGGTTTTCTGTATTTCTTCAAGAGAATATATTGGCTTTGCTCCCATATATATAAGATAATTTGTTCCATATGAATTAATTCTATTGATATCTCCTGGAAGTGCATAAACTTCTCTGCCAAAATCCATTGCATAATTTGCAGTTATTAAAGAACCACTTTTTTTTGCTGCTTCAATAACTATTGTTGATTTTGAAAGTCCTGCTATTATTCTATTTCTATAAGGAAATGTATACTTTGCAGGTTTTGTTCCTGGAAAATATTCAGAAATAATTAATCCTTGATTAGAAATTTTATTGTATAAATGCATATTAGCTTTTGGATATATAATATCAACTCCACAACCTAAAACTGCAATAGTCTTTTTAGAATTCATATGAGCTATAGAATCAATACCAAAAGCCATACCACTAACTATAGTATAATTATTTATTTCATTTGTTATTAAAGAACACATTTTTTTACCATATTCAGTAGGTTTTCTTGTTCCAACTACTGATACAGTATTTGTTTTTAACAAAGAAATATCTCCAATATAATAAAGGATTACAGGTGGATCTGGTATTTCTTTTAAAAGTTCTGGATATTCATCATCAAAATAAGTTATTATACCTATATTTTTTTTTGACAAAATATCATATAAATATTTCTTTTTTTCATTAAAATCTTCTTTAAAAGGCAATAAATTCTTTTCAAAAGCCTCTATAAGTTCTTCATTACTCAATTTATATACTTCTCTTAAAGTTATTAAATCAATTGTGTTCAAAATTTTCTCCCCCAAAATAATTAAATAATTTAATTATATCTATTCAATTTCATCAAGATACTTCAACTCTCTTCCAACAAAGACCATCACTACTTTTTTTAATGGCCCATTGAACTCTTTGTTTATAGTTTTTTCATACCTCTTTATTTGATTTACTGCTTCTTTTATCTTTACTTGATATATTTTTTCTGTATAGTCTTTCTTTTTTATGTATTTTAACTCTATTATTGCATTGTATGGCACTTCTTCGTATCTTTTAAACATTGCTAAGTCTATGTATCCACCTTCTACTGGATACTCGCTTTTAACGTATGCCCATGGTGTTAAGATTAAATAACTAAACAGTAGCATCTTTATGTGCTTTTCACTAAAGCTTTGAAAGTCTCTGTCTGATAGTTTTTTTAATACATCTTCTATTTCATTTGCCAACGAGTTTATATTTCCATCTACTAATAACTTTCTTATTGCTATCTTTATCTTTCCTGTATCTATATAGTTTTTTGCTCTTGTTTTTATCATTTCTAAGAAGTATTCTGAGTATATCTTTTTTATTGAATAGTTTGGTATTTTTAAGTTCATCACAAATCCTTTTGATTCTATTGTTAAAAAGCCTAAATAAAAGAGTAAGGTTTTAACATCGTCTATTTCCATCTTTCTTTCAAGGTTAAATGCTCTTGTTAACTCTTCTATTTCTGTTTTGTCTGTCATTAATATTTCATTTAAAAGGTTTCCTATTGCTTCTTTTTCATTATCTATATTATTTATTCCAACAACTTCACCAAGTTTAAATAAATTTTGAATCTTTTTATAATCACTTGCTATGTTCATATCTATTACATCTTCTGGTTTTCTTTTTTCTCTATTGTATTCAGAAATGAAGTATAAGACCATATCGCTGTTGTAAACCTTTTCACTTGCACGTTTATTGAACATGTATCCATTGTAGCTAAACTTCATGTCTTGTAAAATATCATCATTTATTTGATACTCTTTGAGAATATCTTTGACTTCACTTTCAGTGAATCCCATCATTTCATTTAACTCTAAGGTTGTTGACATGTTTTTTGAGATGTTGAATCCACTCGTTAAACTATCTAAGGTTATTGGTGCTACTCCTGTTATGAATAGTCTGTCTATAACAGATCGTGTTCCTTCTTTTATTACTTCATAAAATTTTCTAACAAAACCTGTTTTACTGACGATATTTTTAAATTCATCGAGTTTAAAACTCAAAAGTTCATTTGCAAAGTGGTCGTATTCGTCTATTAATAAGTATATTTTTGTTTTTAAATTTTGTTTATTATATTTGTTTATAAATTCTTTAAAAAGTTCTGAAGGTTCATTTTTACTTTTGTCTAATGTAATATTTAAGTTGTACTTATATATAAAAGTATCTAACTTTTCATAAATTTCATCTTTAAATCCAAATTTCAACTCTTCTTTACTGTCTGTATTCAAACCAGAAAAATTAAACTCTAAAATATGATAACTATTCTTTTTAGGTGTTGGATGTTTTTGTATGTACAGGTCTTTAAAGATAGTATCAAACTTATCTGAATACTTAATATCGTAGTATTTACTCATAGTGTCAAGCCACAAACTCTTACCAAACTTTCTTGGCCTTAAAAAGAAGATGTATGATTCTGGCATATCTTCAATTATTTCTATATACTTAGTTTTATCTACATAGTAAAAATTTTCAGTTCGTATTTTTTCAAAGTTTTGAAGTCCATATGGCACTTTTTTCATTTCAATCACCTCTTCTTAATATTATAACATACAAAAGTTTTATAGATTAAAAAAATACAAAATACTAAGAAAAAACTTCAAATTTTTCTGAGAAAATATTTTTTACCATTCTTTATTTTTCTTATTTTTTTCCCTCATCCTAAAATGGTAAGTAAATGTTTTCGAAGACTTGAAATTTTTAGGAAATTTGCATTTGAAAAAGAAGGTTGGAAAAACACGACGTTTTGGAAAGTTCTGGTTCACATGGACGTGAACTCTGAACGTGCCTTCTTTTTCTTGCTAATTTGCGTTTAGAAAATTTCTTCTGAGAAAATATTTTTTACCATTCTTTATCTCTTTTATTTTTTCACTATTTTCTATCGTTACGTTCACGCATTTTATGAGTAATTACATAATATTAAACAATAAAACAAAACGGCCTAAAGGCCGTTTTGTTTTATTGTTAGTTATTCTTCATCTGCTGAATTTGGAATTACACATATAAATTCTAAATCATCTTCTCCAATATTTATAAGTTGATGTTCAACATTTCCAGGAACAAAAATATAATTACCAGCTTCAACTACTTGATATTCTTCGCCATTAAAAACATTAGCTTTACCTTTTAAAATAAAAATTTCATGTTCCCAATGGTGAGAATGTTTTGGAGAATTACCATTAGGAGCAACCGTAAACAATCTCATTACAAAGTTTGGTGCACCCAATTTACTTCCTATTAAAACTCTTTTTTTTACATTTTTTACTGTATCATTGTTAATAAATAAAGGTTCAATATCATACGCTTTTCCTACAGTTGCTTTTTTCATAATTAAGCCCCCTTTGGAGTATACTCTTCTCTACATATTACTACTTTTCTATAAGGTTCAAATCCAACAGATTTAGTAATTAAATTAGGATAATGTCTTTTTACATATTCATGAACCATTTTTCTTTCAAAAGAAAACATTGGAGCAAGTTCTATTTCTTCTTCACCAGATAAAAGTTTTTTTATTGAATTTTCTGTTATTTCTTCTATCTTCTTTCTTCTCTTTTTTCTATAATCTCCTATATCTAATTTAATATCTACCTTAGTACTAGTCATTCTATTTACATATATCATTATTAAATGCTGTAATGCACCAAGGGTTCTTCCATGCTTACCGATTAAATTCCCAAGACCTTCGCCATTTAAAAATATAATAATAGTTTTACCATAAATTTTTATTGAAGAAGTTATACCTTCATCAAAACTTTTTGTTATTTCTTTTAAAAACTCACTTATTTGATTTAATAAATAAGTTTCATTTAAATATGCTTCTATTATTGCAGGTTTACTACCTATTCTTAAAAATCCTTTAACTTCTTTTTGTATTAAAGTATAAGAAATTTCTTCTTCTTTAACTTTAAAAATTTCTTTAGCTTCTTTTAGCGCCGTTTCAAGATTTTTAGATGTTATTTGCTTTGACTGTATCTTTATCACTCGTTTCATGCCCCCTTATGCCTTTCTTTTTATAGGTTTTGGTCCAAGTCCAAAAAGCTCTCTTAAAGTAATACCTTTAATTCCATATCTTTTATGAGTTATATAAGTAAGAACAACTTGTATTAAAGCTGTAGTTGTATAATAAATAAACAATCCTGTTGGAAATCCAATAAACATAAATTGGAATACAACACTCATTATTATTTGTTGCCAAGCCATTTTAGCATCATTAGCACTCCATAAACCAGTTACAATGTATGCAAGAGAAGTTACCAATACTAAAATTATATTTTGAGAAAATCCTCCTTGTGAAAGATCAGACCAAAATAAAAACTTAGGATTGTATGCAAAACTTTCCCCAAAATAATATATAACGCTGTACAACAAGAAAAATACTGGCATTTGTACTAATAAAGGTAAACAACCGCTTGCTGGATTATATCCTTTTTCTTTATATAAATTCATCATTGCTTCTTGTTGTTTTTGTGGATTTGAATATTTTTTCTTTAACTTTTCTATTTCAGGTTGTAATTGTTTCATCATTATCATGGACTTCATTTGTTTATGATACAAAGGATAAAGAATAACTCTTATAATTAAAGTAAAGATTATTATTGCCCATCCAAAGTTTCCTGTCCATTGTTTAAGCATGTATAAAAAGTCTACAAAAAAGTAATATATATTAGAAGACCAATTTAGTGCACCTACATCTTGTAATAATGCTTTAATACTTTTATTGGTTTCATCATCGAAAACACTTTTAATAAAAGTAAGTTTCATTGGTCCCATATAAACCTTTGAAATAGAGTTACCAGAAACGTTATATAAAAGTCCATCTTCTATTTTTTTATTTGTACTAAATACCAAAACAGATTTCAAACTAACCTTTGCTGAATATGGTTTTGGTAAGTAAGATACGAGTTGATTTTTAGATGTTCTTATTTTATCAGCATATGAAATAGTTGGAATTTTTACTAAACCTTTAACATTATCAAATTCAATATCAAAGTGAAAGTATGTATCATTGTAAAATTTATATTTTTTATATCCACCGTTTTTAAAGAAAAAAGTAAATTCAACATATTTTTTATCTTCAGAAATATTGTATTCACTTCTTACAGGTAAAATTTCCATTTTTGTTTCTGGATTTATTAAGTCAAAACTATCATTTGCATATTCAAATAATTCAACAACCTTTTTTGTTCTTGATTCCACAATTGAATAATTTTTTATGTGCCCAAATTCGTCCATATTAAAGTTATAAAGTTTTAACTCTACATTTGTAATTTTTGAAGCATTTTCAGTAATTTTTATTTCAGGTAAAGCATATACAAAAACAGATAGGATAATTAATCCTATTATTATGAGTTGTTTTTTCAATTTTTTGCACTCCCTTTATTCTTTTGAGTATTATTTTTAATAAAAAATTCAAATTTTTCTGGTACAGGATCATTTCCTCCAGGATTAAACGGATGACAACGGAGTATTCGTCTGAAACCCAAATAAAGACCTTTTAATGAACCAAAACGAGAAACCGCTTCATAAGTATAAGCGGAACATGTTGGTGAAAATCTACAAGATGGTGGCTTTAAAGGTGAAATAAACTTTCTATAAAAAGTTATTAATAAAAGAATTATTTTCTTCATTTTATTTTGCTCATTATATCAAAAAAGATTTCTTTGAACTCTTCAAATGTCATATCTTTAAATTTTTTAGATAAACTCTTTCTTGGAATAAAAAGCATAATATTACTATTAAAAGTATCTTTATTTGTTCTATAAAGTTCTCTTACATAACGTTTTAATCTATTTCTAACATATGCTTTTCCAAACTTTCTTTTAACAGATATGGCAATTTTAGGAGTAGAACTCTTTTTATACACAACAACAAAATATCTGCTAACAGCTCTTTCTCCATCATTAAATAATTCTTCAAAATCTTTTCTGAGTTTCAGACGCTCGCGTTTTTTAAAAGTTTGCATTAAACAGTTAAACTCTTTCTTCCCTTTGCTCTTCTTCTTCTAAGAACGTTTCTTCCTCCTGATGTAGCCTTTCTTGCTCTAAAACCATGTGTTCTTGCTCTCTTAATTCTTGATGGTTGATATGTTCTTTTCATAATGCGACCTCCTATCCATATTTTTATCAAATCTATTCTTAATTATACACATAAAGGTATTGATATGTCAATAAAAATACGTTACAAAATTGTTCAAAATAACAAAAATTAATCTTTTATATCCTTTTATACTTATCTTTTATACCTTAAATATCAATTGCAATTATACTTTAACATAAAATTTTTTTTTAAAAAGTACTGTTTAAAGTTAAAGAGTATAATATAAAAGAAATTCTTTATTATTTGATATTTTGATGAGGTGAATATATGAAAGCAGAATATGAATGTATTGGTTGTATTATAAAACATACACAATCTTTAATAGAAAAAGCTGACAAAACAAATAAAATTTCAAGCGAAAAAAAATTTGAAGATTATAAAAAAGTTATTTCTGATTTAATTAAAAATCTTGAATATGGAAAAAGACCTATTGAACTTTCTGTTTCACAGTACGATTCTATATATGAATTATATGGGAAACAAGATTTTTTTATAAATGAAAAAACTAATGCCAATCAAATTTTTTTAGAAATGTATGATGATTTATTTTATTTCATAATGAATTCAGAAAATCCATTGAAAACAGCCGCCAAACTTTCCGCAATTTCAAACATTATAGATTATGGAGTTAAAAATTCCTTTGGGGAATTAGAATTCGAAATAGAAACTATGGCAAAAAAAAGAAAGTTTGCAATAGATGATTTTAAAAGTTTCAATGAAAAATTAAAAACTGCAAAAAAAATACTCTTTATTCATGATAATGCAGGAGAAATAGTTTTAGATAAACTATTTATTAAAACAATTAAAAAATTTTATCCAGACATAATTATATATTCTGCAGTTAGAAGCGCTCCAATAATAAATGATGCAACTTTAAAGGATACTGATGAAATTAATTTAAAAGAACTTTCTATACCAATTGAATCTGGAAGTGTTTATCCTGGAACAATATTTGAAAAAACAAATGAAACTTTTAAAAATATTTTTGAAAAATCTGATATAATTATATCAAAGGGACAAGGGAATTTTGAAGGATTAAATAAGACTTGCGAAAAAATATATTTTATATTAACAGCAAAGTGTTCTGTTGTATCTCAAGAATTAAATGTAAAAGTTGGAGAATTTGTATTTAAAAGAGATGTAGTTATATAAATTCAACCAAATCAAAGGAGGGGGTAGTATTGAAAAAGCTACTTAGTTTAATTACTGTTTTAATGATGATTAGTGCAATATTTGCTGCACCAGTTCATCTCGTTATTTTCCATATTAATGACACTCACGGACATGCATGGCCTTATTCTGAGTATCACAATCCTGATATAGGTGGTTTTGCAAGAATTGCAACTATAGTTAATGAACAAAGAGCAGAAATCGAAAAAGAAGGCGGACATGTATTGTTCTTACACGCAGGAGATGCAAACACAGGTGTTCCTGAATCAGATCAGTTAAAAGCCGTACCTGATTTTGCAATGTTGCATTACATGGGTGTAGATGCTATGGCACTTGGAAACCATGAATTTGATAATGATTTACAAACACTTGAAATGCAACAAAGAGTTGCTCATTTTCCATTTTTGAGCTCTAACTTTGTTGATAAAAATTTATTTCCAATATTTAAACCTTATTTAATTAAAAACTTTGGTGATTTAAAGGTTGGAATAATTGGTGTAACAACAGAACAAACAAACGTTTTAGAACCACTTCATCTTGGAACAAATAGATTTGAAAGTGCAGAAGAAGCTGTCAAAGATTATTTGCCCGAAGTAAAATCTAAATCAGATATAGTTATTGTACTTGGTCATTTAGGATACGGTGTTAGACCTAATCTTCCTGTTGGTTATACAACTTCTGACGAACTTGCAAAAAAAGTTGAAGGAATAAGCGTTATAATAGATGGTCATTCACACACAGTTATTGAACCACCAAAATATATAAATAATACAATAGTAGCACAAGCTGGTGAATGGGGTAAATACGTTGGAAGAATAGACCTTTGGATTGATAAAGGAAGAGTTACAAAATGGGAAGGCAAATTAATTCCTGTTAACTTAAAAAAATATAATGGTAAAGATGAAAATGGTAAAGCACTTTATACAAACTTAAACCCTGTAGAAGAAGATCCATTCATAAAAATGATTGCTGATTCTTATTACAATATGGGATCAGAAAAATTAAATGAAGTTATTGGTGAAACCAAGATAAATCTTGATGGTGAAAGACAAGATGTAAGAAGTAAAGAAACAAATTTAGCACATTTAATAACAGATGCAACACTTGAAAAAACAAATGCAGACTTTGCATTTACAAATGGTGGAGGAATAAGAGCTTCTATAAAACCTGGTAAAATAACTTATAGAGATATATTAACAGTTCTTCCTTTTGGAAATACAGTTTATGTAGTTAAATTAACAGGAAAAGATGTTATGGATGTTTTAAATTACGCAGTCACCATTCCTGCTGGTCAAGGAGCTCACATGCACGTTTCAGGAATAACCTACGATGTTGTAAATGGAAAACCTACTAATGTTATGATAAAAGGTAAACCATTAGATATGAATAAAACATATAATGTAGTTACAAATAATTATGTTGCAGCTGGTGGAGACGGTTATAAAATGTTAAAAGGTAAAAATGGTTACGATACAGGATTTGTTCTTGCTGATGTTGTAAAAGATTATATAAAAGAACTTGGAACAATCAAAAACTATGATAGTAAAAATAGAATCAATGTAAAATAATAAAAAATGGCGAACTAAAGTTCGCCATTTTTTATTTTATTATAAAACTAATTTCTAATTTGTCGTTTTCTTTGTAATTAATATTTATTAATCCACCAAAATTTCCTTCAATTCCATATCCTGAAAATAATTTAGATAAATCAAAAAAAGCAAAAGCTAAATTAGCACTTCCTATTTTTTCTGACAACATGTTAAATAAAGTATTTTCAGATAATTTTTTATAACCTTTAATTAAATCTTTGTATTCTTTTGGAGTACCTTGATAAATATATAATTCCTCATTATCTTTCCAGAGATTCAAATCAGTTGTTACTTTTTTCTTTTCACCTATATTTTCAGGATCATCAATCATAGTTTCTATTGACATAGTTATTTCATTGTCATTTACTTTTTTATACTTAATAGAATTATCTTCAAGTAAAGGTATAATATCTTTTATAGTGTTTTTAGTATTAATCTTTATATATTCTTTTCCATTAAATTCCATACTATCAGAATTAAGTTCCACATTACCTCCAAGTTCTATTCCATTTGAAGAACTTAATAGTTTTTGTACTAAATCAAAATCTCCAAAATTTTTTATAATACTTTTTAAAGAGCTTAAATCTGTAGGTATATATCCTGAAACTATCATATAAGTACCTGGAAATTTATAATTATCTAAAGGCTTTATAAAATTAGTATTTGTAATTCCAGAAGAAACTGCACCATTAGATTTTCCTATTAAATATCCGTCTTTAACGTATGCATAACCATTACCTTTCATTTTTGAAGAGTTAAGCACATAATAAAATCCATTTTCAATATTTTGTTGATTAATAGAAACACCTTTTTTAGCTTCTTTATAAAGATCTTTATCCATAACAAAAACAACATAATTTTCTTTTTCTACAATATCAATGGAAACTCCACTTTCTTTAAGTGAACTTATTAAAATTTTATTTATATAATCTATAAATTTTTTTGAATCTTTAAATGGACCCATAACAACTCCAAAATGATAAGTTTCATTAGATGGTTCAACAATAAATCCTGCTAAATCTACATTTTGTAATAAATCATAAAAAGCTGATGATTCAACTTCAGAAGAAGTCATATACATTTCTGCATAACTCGAAAGCATAATTTCAAGATTTATTGGATCTAAAAAAATACTCTTTAATGATGGAATTGTTTTTAAACTTTCATAAGATTTTGTAAGATTTTTAACGTAAAAAAATGCTTTTGAATTAGATGGAACATACTGTAAAACATTTGAAAAAGATACTATTGAAAATAATGCTACTAAAAGTACTATCGTTATTTTTTTCATATCTTACCTCCTATTATTTTGATTTCATTTATATTTTATCATACTTATCTTAAAAATAACAAAAATAAGCCCGAAGGCTTATTTTTGTTATCATTTATAATTTAAAAAACTTTATTTGAGAAATAAGAAGCTTTGACATTTCAAGCAGTTCTCCTGCATTTGCCGTTATGTTTTGTGTTCCTTCTGATACATTGTTTATTGCTTCGCTTGCATCTGATACTTGATCACTTATCTCTGATACTATTCTTGCCACATTGTCCATTGCTGAACTCATCTCTTCAGCTGATGCACTTTGCTGTTCTGAACTTGCTGTTAGATTTTGTATTCCACTGTTCATTCCATCTACTCTTTCTTTTATTACTTCGAACTTTTCTGTTAGTTCTTTCATTGATCCATTTATTTTTTTAGTTATATTTACTATCTTTTCTGTTGCTCCTGCTGTTGTTTCTGTTCCTGTTTTTATTTCTCCTAAAATTACTGCTATCTTTTCTGTTGCATTCTTTGATTCTTCGGCTAACTTTCTTATTTCTTCGGCTACTACTGCAAACCCTTTGCCTGCTTCTCCTGCTCTTGCTGCTTCTATTGCTGCATTTAATGCCAATAAGTTTGTTTGTTCTGTTATACTGTTTATTGTATCTACTATGTTCTCTACGTTTGCTGCATTTTCCGAGAGCTTATTTACTTCTTTGTTCGTTTGATCTGATTGCGTTAATGCTTCATTTATTATCCTTTGTACATCACTTATTAATCCAGATCCTTCATTTGCTGCTATTGATGATTCTTCCGCTGCTTCACTCAACTCTTGTGCTGAACGCGATATTGCTTGTGCACTTGCTGCTACTTCTTGTACTCCTGAACTTACCTCTTCTACATTTGCTGCTACATTTTCTGCATTGTCTTTTACTGAACTCATTTGTGCTGTTAATTCTTCGGCTGTTGCACTCAATTCTTCTGATACACTTGATAATTCTGATGATGCCCTTTCTGTATTACTTCCTGATTTATCTATACTCATTATTATTTCTCTTAATTTTTCTGTCATCCTTTTTAGCGCTTTTGACATCTGTCCTATTTCATCTTTTGATTCATATTCAAACTTTTCATTTATTTCTCCATTTCCAAACTTTTCTATCTTTTCACTCATTTCTTTTAGTGGTTTTGTTATCATCTTTGATAAGAAGTATAATACCATTACTAATACTATTATTGATAATGTTACTGCTATTGTAAAGTTTATTATTAATCTTCTTACTGGAGTTGTCGCTACATCCTTATCATCTACTACTGTATAAAATATCCAATTTGTTCCATTCATCTTTTGATAATATGCTGTCTTTTTTACTTTATTGTATACATAACTTATAACCCCACTATTTGATGTTGCTTTTTTATATAGTTCATTCGAGGATATATCAACACCTATTTTTGTTGCATCTTTGTGTAAAAGCGTTATTCCTTTTTCATTTAAAACATATGAATATTGACTTTTATACATATGTGATTCATTTAATTTTGTTACAAGTTCATTCATAGTTAAATCAAGACCAACTACTCCAACTACTTCTCCATTTTTTATTATTGCCTTTGCTACTGTTATTAACATTTCTCCAGAACTAGCATCTGCATATGGATCTGTTATTACTATTTCTCCGTTCTTTTCTAATGCTGCTTTATACCATGGTCTCACTCTTGGATCATATGTTGCTGGTAATTCTTGATCTGGTTTAATCAACATTGTTCCATCTGGTAATCCCATATATACACTTTGTATTTCACTGTAATTATCTACAACATTTTGAAAGGTTTTTAACATCCATTTTCTTTCTCCATATTTATTTTCATATGCTCCTAATACATTTGTATCTCCATTTAAAAAATTTGCTATATTCCCTACATTATTAAAAAATGCTTCAAAACTATTAACTATATTTGTATTTGATAACATAATGTCATGTTTTGCTTTTTTAAAAGCAGTTTGATATGATGCCACATTATTGTACATTATTAATATAAAAAATACAGTTATAGTACCAACTATAAAACTTATCAACTTTCCTTTTAACTTCATAATATCTGCCTCCTATGATAACTGTTTTATTGCATCTTCAATGGTAGGATAAATAGAAACAATTCTATCTGTTCTTGTCATTTTAAATAAATTTTCAACTTCTTTTCTCATACCAGTTATTACAAGCTCTTTGTGATTTTTATGAATATCTTTAAACAATGCTATTATTGATCCCAAACCAGAACTATCTATATATGGAACATCTGTAGTATCAAAAATAATTATTTTTTCTTTTAATTCATTTATTTTTTCTCTTGCTTCTTCTTTAAAGTTTAAGCTATGATAAACATCAAGTTCTCCATGACCCTTAATTATTAAAAAATTTCCTTTTTCTTCAAATTCTAATTTAAAGTACATAAAATTCCCCCTTTCTACTTTTATAAAAAAATTTTATAATGTATATACAAATTATACCACATTATTCATATACATATAACTTTTTATTTAAAATTAATTCTTTTTATTATAAAAATATAAGGCACATAAGAAAATTCTTATGTGCCTTATATTTAATTTATAATTTAAAAAACTTTATTTGAGAAATAAGAAGCTTTGACATTTCAAGCAGTTCTCCTGCATTTGCCGTTATGTTTTGTGTTCCTTCTGATACATTGTTTATTGCTTCGCTTGCATCTGATACTTGATCACTTATCTCTGATACTATTCTTGCCACATTGTCCATTGCTGAACTCATCTCTTCAGCTGATGCACTTTGCTGTTCTGAGCTTGCTGTTAAGTTTTGTATTCCACTGTTCATTCCATCTACTCTTTCTTTTATTACTTCGAACTTTTCTGTTAGTTCTTTCATTGATCCATTTATTTTTTTAGTTATATTTACTATCTTTTCTGTTGCTCCTGCTGTTGTTTCTGTTCCTGTTTTTATTTCTCCTAAAATTACTGCTATCTTTTCTGTTGCATTCTTTGATTCTTCGGCTAACTTTCTTATTTCTTCGGCTACTACTGCAAACCCTTTGCCTGCTTCTCCTGCTCTTGCTGCTTCTATTGCTGCATTTAATGCCAATAAGTTTGTTTGTTCTGTTATACTGTTTATTGTATCTACTATGTTCTCTACATTTGCTGCATTTTCCGAGAGCTTATTTACTTCTTTGTTCGTTTGATCTGATTGCGTTAATGCTTCATTTATTATCCTTTGTACATCACTTATTAATCCTGATCCTTCATTTGCTGCTATTGATGATTCTTCCGCTGCTTCACTCAACTCTTGTGCTGAACGCGATATTGCTTGTGCACTTGCTGCTACTTCTTGTACTCCTGAACTTACCTCTTCTACATTTGCTGCTACATTTTCTGCATTGTCTTTTACTGAACTCATTTGTGCTGTTAATTCTTCGGCTGTTGCACTCAATTCTTCTGATACACTTGATAATTCTGATGATGCCCTTTCTGTATTACTTCCTGATTTATCTATACTCATTATTATTTCTCTTAATTTTTCTGTCATCCTTTTTAGCGCTTTTGACATCTGTCCTATTTCATCTTTTGATTCATATTCAAACTTTTCATTTATTTCTCCATTTCCAAACCTTTCTATCTTCTCACTCATTTCTTTTAATGGTTTTGTTATCATCTTTGATAAAAAGTATAATACCATTACTAATACTATTATTGATAATGTTACTGCTATTGTAAAGTTTATTATTAATCTTCTTACTGGAGTTGCCGCTACATCCTTATCATCTACTACTGTATAAAATATCCAATTTGTTCCATTCATCTTTTGATAATATGCTGTCTTTTTTACTTTATTGTATACATAACTTATAACCCCACTATTTGATGTTGCTTTTTTATATAATTCAGTCGTAGACATGTCTTTACCTATCTTTGTTGCATCTTTGTGTAAAAGCGTTATTCCTTTTTCATTTAAAACATATGAATATTGGCTTTTATATATACGTGATTCATTTAATTTTGTTACAAGTTCATTCATATTCAAATCAAGTCCAATTACTCCAACTACTTCTCCATTTTTTATTATTGCTTTTGTTACTGTTATTAACATTTCTCCAGAACTTGAATCTGCATATGGATCTGTTATTACTATTTCTCCGTTCTTTTCTAATGCATCTTTATACCATGGTCTCACTCTTGGATCATAATCACTACTTACTGGTGGTGGAGTTGTTATCATTGTTCCATCTGGTAATCCCATATATACAAATTCTATTTCAGCATAATTATCTACAATATTTTGAAAGGTTTTTAACATCCATTTTCTTTCTTCATACTTATTTTCATATGCCCCTAGTACATTTGCATCTCCATTTAAAAAATTTGCTATATTTCCTACATTATTAAAAAATGCTTCAAAACTATTAACTATATTTGTATTTGATAACATAATGTCATGTTTTGCTTTTTTAAAAGCAGTTTGATATGATGCCACATTATTGTACATTATTAATATAAAAAATACAGTTATAGTACCAACTATAAAACTTATCAACTTTCCTTTTAACTTCATAATATCTGCCTCCTATAATAACTATTTGTTTTTTTTAATAATTAGTATATCACATATTCTTTTATAAATCAATATTTACTTTAGGTTTATTAATTTTTTCAAATGGATTATTATCAAATTCTAAATATCCAATTTTAAAATTTCGTTCAAAGTTATCAATAACTTTAGGAAAGTAAATCATAGTATTCAATATATACTTTAAAGGTAATCCAAGTTTATTCAAAGTTATTATATCCCTATACCAATCTGGAACTTCTATTGGTGAATCTGATGAAAAAAATAAAGGAATACTTTTATTGTATATATCAAAAAATCTATAAGTTAAATTTTCCCTTTTTCCCAATCTTTTATTCAATATTGATTTATCTGATTCAATAAATGCTGGTTGCATATCTAAAATTATATTTAATTTTTTAATTTTTTTTAATTGCTCATCGTGTAAAATAGAGGCATGTATTATTCTGTGTATATTTTTTGGTTTAACATCAGAAAAAACATTTAATATATTTTCAATAGCTTCATCTCCTATTGCATGTAAAGCTAAATGTAAATTATTATTTTCACAAAAAATTAAAACTTTTTTTAATTCTTCTAAATCCCATACAAACTCTCCTTTTGTATTAAAATCATTATATTCATTAATTAAATATGCCGTTCTTCCCCCTAATGAACCATCTGTATATACTTTTACACTTTTATACTTATTAAAGTACCCACTGTTGTAGTAATCTATTAATTCATTATAATTATTTACTGCAACTTTTTCAAAAATCTTTATTTTATCACCATCAATCATATTCTTTATACCATGTAAATCATCAGAATGAATATAACCATATCCCTTTTTTAAAAGATACTCTTCAGCAACTTTTAAATCTTCATTTATATCAGTATAATATCCAAGTTTTTGATAAACAAGTTCTAAAGATTGTTCTGTTATTCTTCCTGTTTTATAATCAATATACTCTTCATAATTAGAAAAATCAATTAATTCAAAAACCTTAGAATTAATTACTGCAACATGCCCACATCTTCTAATTAAAAATACTGGAACATTGCTTATTTCATCTAAATATTCCTTTGTTGGATTAGCAAATTCTTCTGACCAACCTCTTAATATTATTTTCTTTTCATCTTTTTTGTTTAAGATAATATTTTTTATTTCTTTTAATGATTTACCTTCTAAGTTTGGATTTCTTAATTTTTCCCCAAGTCCCAAAAGATGCATATGAGTATCTGTTATAAGAGGGGTAATATATTTATTAGAATTTACTTTAGTATTTATATAATGAAAAATTCCATCGTTTTTTAATTTATACATTATTCCACCACCAAAAAATATTCTCTGTAAATATTTTTATCTACAGAGAATATTAATTATATTACTATTTTTTATTGTTTTGCTGCTTCCATACCAGCTTTTATAGCTTGCATATTTAAATCTATGAACTTTGCTTTCTTTCCTGTTAGTTTATGTTCAAGTGCATGTTTTATTGAATCAAGAGAAACTGCCTTTGTAGCTTCTAAATATGCACCAAACATAACCATATTTTGTACCTTTAAAAATCCTAATTTTTCTGCTATTTCATTTGCTGGAACTTTTATTACTTTAATATCTTTTCTTGTTGGTTCTCTATCTATAACTGAAGAATTTAAGATCAATATACCATCTTTTACTAAATCTTTTTCAAACTTATACATTGAAGGTATATTAAATGCAATTACTTCATTTGGTGTATCAATAACAGGTGAAGCAATATATTCATCTGAAACAACTACTGTACAGTTTGCAGTTCCACCTCTCATTTCAGGACCATAAGATGGTAAAAAAGTTGAAAATTTATTATCCATCATTCCTGAAAAAGCTAAAAGTTGTCCGAAAAGCATAACTCCCTGTCCACCAAAACCAGCTGCTATTACGCCATGGTAACTCATTTAGCTTCACCTACCTTGTCTATAAAAGTTCCAAGAGGATATTCTTTTACTAAGTTTTCTTCAAGCCATTTATTTGCTTCAACAGGTGAAACGCCCCAGTTTGTAGGACATGTTGAAAGTATTTCAACCATACCGAAACCATCACCATTTAATTGTGCTTCAAATGCCTTTTTTATTGCAGCTTTTGTTTTTTTAACATCCATAGGTGTATTCACCTTTGTTCTTGCAAGATATGCTACACCATCTAATTCCTTTATTACTTCAGACATATGAATTGGATGTCCTTCTACTTCTGCTCTTCTTCCATATGGAGAAGTTGTTGTTTTCATACCAAGTAATGTTGTTGGTGCCATTTGTCCACCAGTCATTCCATAAATGGCATTATTTACAAAGATTGTTGTTATCTTTTCGCCTCTATTTGCAGCATGAATTATTTCAGCTGTACCAATAGCAGCCAAATCTCCATCTCCTTGATATGTAAATACTACTTTATCAGGAGTTGCTCTTTTCATTCCTGTTGCAACTGCAGGTGCTCTACCATGTGCAGCAACAGTTCCATCTAATTCAAAAAATTCATATCCAAAAACTGAACATCCAACTGGTGAAACCATTAATGTTTTACCTTGTATTCCAAGTTCATCTATAACTTCTGCAACGAGTCTATGAATTATACCATGATGACAGCCTGGACAATATGTAAACTCTTTACCATTAAGTGCTTTAGGCCCTTTAAATTTTTCTACGTAAGGCATTATTTTTACCTCCCTTAAACGAGTTCCTTGAGTTTGTTTAAAATTTCGGTTGGTGTTGGAACAACTCCACCCATTCTTCCATAAAATTCAACTGGTTTTTTACCATTTACAGAAAGTTTTACATCTTCAACCATTTGTCCTGCACTCATTTCTACTGTAAAGAATAACTTTGCTTGATCAGTAAATTTTGAAAGTGCTTCATATGGATATGGCCATAATGTTATTGGTCTAAATACTCCAGCTTTAATACCTTGTTCTCTTGCCATTTTTGCAACTGATTTTGCAATTCTACCTATTGTTCCATAAGCTACAATTACAACATCTGCATCTTCAAGCATATATTCTTCATGCATTTGTTCATTTTCAATTATTTTTTTATAAGTTGCTTGATATCTTTCATTCATTTCTTCAAGACCATATGGATCTATGTTAAAAGAAGTTACTTTATGAGCTTCTCTTCCTTCATTTCCTGTCATTGCCCAACTACTGTGATCTGGAAGTGTATTTAAATCAACAAAATCAGGAAATTCTACTGGTTCCATCATTTGACCTAAAAGACCATCAGCTAAAAGCATTGATACAACTCTATACTTATCAGCAACGTCAAAAGCTTTTGAAGTTAATTCAACAGCTTCTTGTAAAGATTCTGGACCATAAACTACCATTCTATAGTCTCCGTGTCCTCCACCTTTTGTTGCTTGGAAGTAATCACATTGACCTGGTTGTATATCTCCAAGACCTGGTCCACCTCTAACAACATTTACAAAAACTGCTGGTAATTCAGCTCCAGCTATATATGAAACTCCTTCTTGCATCAAAGAAAAACCTGGTGATGATGTAGAAGTAAATACTCTTCTTCCTGTACATGCTGCACCATAAATCATATTTACTGCTGCTACTTCTGATTCAGCTTGTAAAAAAGTTCCTTCTACTTCTGGTAATCTTCTTGCCATATATTCTGTTAATTCACTTTGTGGTGTTATTGGATAACCATAGTAAAGTCTACAACCAGCTCTTATAGCAGCTTCACCAATTGCTTCTGTTCCTTTAACCATTACTTTTTCAGCCATATTGTTCCAGCCTCCTTATTATTTTGCTAAAGTTTTTACTGTAATACAAACATCAGGACACATACTGTAGCAGAAACCACATCCTATACATGCTTCTTGATTTTTAACTTCTGCTGGATGATAACTTTTTGAATTATAACTTTCTGAAAATCCAAGAACTTGTTTTGGACATGCATTTATACAAAGTCCACAACCTTTACATCTTTCTTGATCAATTTCAACGAGGTTTTTAAACTCCATTGACCTTACCTCCTTTTAATTTAATCCCAGATTTTATTCATGAATCTGTTAATTAAAAATTTTGGGTATTTAGTATTTATTTTTTCTGATATTCTTTCATCTACTGATGTAAAAACTACTGGTATTCCTATTTCTTCTGATACTTCACTTAAAATCTTTTCACCTTCATCTACAATCTCTTGTGTTGTATCATTCATAACATTAGGATTTGCAACTATATAATTAACTTCAACTCTAGCCTTTGCAGATAACCTTTTTATGTGTCCAATTATTTTTTCTTTAGTATCTGTAAAAGGTCTTTTTGTATTCACTACAAAGTATGTTGCAACATCAGCTTTTTTTATAAAATTATTCAAAGATCCAAGAACAATTGCTCCATCATCATTTCCGCCAACATCTAAAACAGTTTTAAATTCTGGATTATTTATATATCCACCAATTCTTGGAGAAATTATTGGAACGTCAGCATACATATATTTTACTGGTGGAGTAATAACCTCTATTCCTTTACTCTCTAAATTATCTTTTTCATCACGAGTTCTAAAGTATGGACTTATAGTATCAACATCAGCTATTGCAACCTTTTCATTATGTTCTTTTAATTTTAAAGCTGTATTCAAAGCTATCTCTGTTTTACCAGAACCAAACATTCCAATAAAAACATGTACTTTATGTTTTTCAAACATTTTAACACCTTCAATATGTATTTATTTTTTGAACTCCTTTTAATGCTCTAAAAGCAGACATTGCAAGAGCTCTTTCTTCATCTCCACCTGGGAAAGTATAAACAGGAGCTATAAACTCTACTCTTTCACTTATCCATGGAACCATCATATCTTTATCATAAGCTAATCCACCCGTTAAGGCAATTCCATCTACTTCAAAGTTCATTGCTGCTGCAAATTTTCCTATCCATTTTGCAACTTGAAATGCCATAGCAGAATAAATTAATTTTGCTTTTTCATCACCTTTTACAATTTTTTCTTGTACTTCTCTTCCATCATTTGTATTCAAATAAGCTACAAAACCACCTTTACCTTTTATTAATTTTTTTACTTCATCTAACGTATACTTACCTGAATAGCATAAATCAATTAAGCCAGTTAAAGGTAATGTTCCTGCTCTTTCTGGAGTAAATGGACCATCTCCATCAAGTGCATTGTTTACATCTACAACCTTACCTTTTTTATGAGCTCCAACTGAAATTCCTCCACCCATATGTACTATAATTAAGTTTGAATCTTCATAATCTTTTCCTAATTTTTCTGCCAATTGTCTTCCAATTTCTTTTTGATTTAATGCATGGAAAATAGATTTTCTTGGAAAATCTGGATGCCCTGAAAATCTTGCTATATCCATCATTTCATCAACAACCACAGGATCAGCTATAAAAGATTGTATTTCAACTTCTTTTGCAAGTTCATAAGCAATTAAACCACCAAGATTAGATGCATGTTCACCATACTTACCAGATTTTAAATCTTTTAACATATCTTCATTTACTGAATATATTCCACCAGGAATTGGCTTTAAAAGCCCTCCTCTTCCTATTATAGCAGAAAAACTTGATAGTGGATAACCAGCTTTATTTAAAAAATTTTCTATTACTTTTTTTCTAAACTCATATTGATCAGTTATTTTTTCAAAAGGTTCTATTTCAGCAGATGTATGTCTAACTGTTTCATTTAAAACTTCGTTTTCATCTTCAAATATTGCCAACTTTGTTGAAGTAGAACCTGGATTTATAACAAGAATTCTGAACATTTAACTTCCTCCTTACGCCATCAAAACAGAAATGGCTATTGAATTTAATTTTGCTTCATCAGAATCAGCTCTTGAAGTTAAAACAACTGGCTTTTTACCTCCAAGAATTGTACTTGCTACTTTAGAATTTCCTAAAAATACCATTGATTTATAGAAAATATTTCCAGCTTCTATTTGTGGCATTATTATTATGTCTGCATCTCCAGCAACATCACTAACTATCCCTTTGTGTTCTGCTGCTTCCTTTGAAATCGCGTTATCCATTGCAAATGGTCCATCTACAATACAACCTTTTATTTGATTTCTTCTGTTCATTTGAGTTATTATTGCAGCATCAGTTGTTGCTACCATTTTAGTATTTACTTGTTCAACTGCTCCAACTATTGCTACTTTTGGAGTTTCGATACCTATCTTATGTGCAACTGCTACAGCATTATTTACTTCATCTATTTTTTGTTGTAACGTTGGAGCTATTAGCATACCTGCATCACTAACAATCAATAATTTATGATAAGTTGGAATTTCAAAAACACTAACAAGATTCATTGTATTTTTTGTTCTTAAACCATACTCTTCTTTTAAAAATACAGATAATAATTCTCCAGTAGTACACTTACCCTTCATAGGCAAATCAGTTTCACCTTTAGATACAGATTCAACTGCATTTTTTATTGCTTCTTTTTTATTTTTATAATCTCTTATTTCAAAGTTTGAAAGATTTATATTTTCCTTTTTTGCTATTTTTTCTATTTCTTCTTTATCTCCAAATAATACCGCATTACATATTCCATTTTCAACTGCATTGTTTACTGCTTTTAAAACAACTTCATCTTGAGCAACAGCTACAGCAATTTTCTTTTTTGGTTCTATCTTCTTTGCCATTTCAAATATATCTTGTAATTCCATCATCTTTTCCTCCATTCTATTGGGGATTCAATGTTTTTTTCTGCTCTATAAGCACCTTCTGCTAAAGCTTCCATTTCAAATGAACCTGGATAAACCATTATTAAACCTATCTTTGAAATTCTTTCTTTTATCTTATTAATAAAAATTTCACTGTTAGCTAATCCACCTGTTATTATTATGGCATCAATTTTTCCTTTTAAAACAGTAGCCATTGCACCTATTTCCTTTGAAATCTGATAAGTCATACCTTCTATTACTTTTTTTGCATTTTCATCGTTTTCTGTAAGTTTTAAAGCTTCTCTTAAATCATTTGTCTTCAAATATCCAACGAGTCCACCTTTCCCTACATATCTTTTTCTCATTTCTCTTTTTTCATATTTTCTTGAAAAAGCTACCTTAGCTATATCTCCAACTGGAAGCTCTCCACTTCTTTCTGGACTAAATGGACCTTCATCATTTGCATTATTTACATCTATCATTTTTCCCTTTTCTTGTGCACCAACTGAAATTCCTCCACCAAGATGTACTATTACAAAATTACAATCTTCATACTTTTTGTTTAATTCCTCTGATGCTCTTCTTGCAACCATTTTCATATTTAAAGCATGAAATAAACTCTTTCTTTCGAGTTGAGGAATACCAGATATTCTTGCTTCCGGTACAAATTCGTCAACAGAAACTGGATCAGTTATATAAACTGGTATACCATCAGCTACTTCATAGGCAATAACAGCAGCAAGATTTGATGCATGTTCAACTGGAGTTTCATTCTTTAAATAATTTACCATTTCTTCTGTAACTTTATAAGTTCCACTACTCAAAGGAGGAAGTATTCCACCTCTTGCTGCAATTGTATCAAAATCTTTTATTTTGTATCCATTTTCTTCTGCAAATTCAACAATTGCTTTTTTTCTCATATCAATTTGTTCCATTATATGATCATATTTTGAAATTTCCTCTGAACTATGTTCAAGAGTTTTTGTAATTTTTAATTCTTTATCTTCAAAGATTGCTACCTTTGTCGAAGTAGAACCGGGATTTATTACCAATATTTTCATCATCATCCCTCCTATATTTCTAAGCCTTTTTCTTTAGCATATCTATCTATTGTTTTTCTAAGTCTATCCATACCTTCTTTTATTTTTTCTTTTGTTGGCAAACAAAATGAAAGTCTCATTGTATTATTGTCTGGTTCATCAACATAAAATGCTGTACCTGGTATATAGAGAATTTTTTCTTCTTTTGCTATTTCAAACATTTCAAGTGTATCAAAACCTTCTGGAAGAGTTATCCATGTAAACAATCCCCCTTCAGGATTTATCCATTTTATTCCTTTTATATCTCCAAGTTTTTCTTCTACTAACTTCATCATTAAGTTTTTCTTTTCTCTATATATTTCAATTGTTGGTTGTATACCTTCTATTAAATCAAATCTTTCAAGGTATCTTGCACCTATTCTTTGAGTTAAAGCAGGAGTACACAAATCGGCAGCTTGTTTTGCCATTGAAATTCTTTTAACCATATCTTTTGGTCCAACAACAAGACCTAATCTTAAACCAGGAGATAAAACTTTTGAAAATGTATTTAACAAAATAGTTCTTTCTGGTGCCATTGAATATATACTTGGTAATTTTTCACCCTCAAACCTTAATGCACCATAAGGATCATCTTCAACTATTATAAAATCATATTTATTTGCAAGTTCTACAACCTTTTTTCTTTTTTCAATTCCCATTGTTACTCCAGCAGGATTATGGAAATTACTTATTACATATAAAAATTTAAACTTCTCTATATTTCCTTCTTTATTTAATTTTTCAAGTTCTTTTTCTAAGTAATCTAAATCCATTCCATCTTCTAAAAGAGGAACATTTATAAACTTAGGATCTCTTTGTTGAAAGGCACTAGCTGCACCAAGATAAATAGGTCTGCTAACCCCACAATAACTTTCTTCATCTAAAAAAGTTATTCCCAATAAATAAAGTGCTTGTTGTGATCCAACAGTTATCAATAAGTTGTCTACATCTAAATTATCTATGTTTTCATGTTTTTTCAATAACTTTATGTACTGTTCTTTTAATATGTTATCTCCACCAGTTGAACCATACTGTAAAGTAACTCTGTGTTCATTTTCTATAACTTCTGAAGCTATCTTTGCTATTTCATGTCTAGGAAAGGTATCTGGATCAGGAACTCCACCACCAAATGAAATCATTTCAGGATCTTTTAAATCTAAAAGCTCTCTAATTAAACTAGATTTTATCCTTTTAGAAACCTTTGATAATTTTTTTTCAAGTTCCATAATGTAACCTCCTTATATATTTTTTGTATATATCAATTATATTCTATACTTTTTATTTTTTTTTTCCAAAAGGTGTTTGAGAAGTATATACACAATTATGAATAATTAAGAGTAATTATAGTATATATGAAAAAAATTTCATGAAATTATTTTCAATATCTAATATATTATACCAAATAATTATTAAAATTCAGATATTATTGAATATAGCTAAATAAAGACGATTTTTTTTAAAATCCTTTGTTTTTTTTATAACATAAGATTTTGCTAATAAAAAATAATATTATATAATCAAAAAAAACAACAAGGAGGTTTAAAACATGTGGGAAGATATAAAAACAACAGACCCTGAAATTTATGACATAGTTAATCGTGAATTAGACAGACAAGAGTATGGTTTAGAATTAATAGCTTCTGAAAATTTTGCTTCAAAAGCAGTTATTGAAGCTATGGGAAGTATGCTCACAAATAAATATGCTGAAGGATATCCAAAAAAAAGATACTATGGTGGATGTGAAATAGTTGATGAAGCTGAAACTCTTGCAAGAAATAGGGCAAAAGAACTATTTAATGCAAAATGGGTTAACGTACAACCTCATTCTGGATCACAAGCTAATATGGGAGCTTACTTTGCCTTAATAGAACCTGGTGATACAATAATGGGTATGTCATTATCTCATGGTGGACATTTAACTCATGGCGCTTCAGTTAATTTTTCTGGTCAAATATACAAAGTAGTATCATACGGTGTAAATCCTGATACAGAAGTAATAGATTACGATGAAGTTGAAAGAATTGCAAAGGAAAACAATCCAAAAGTAATAGTTGCTGGTGGAAGTGCTTATGCAAGAATAATAGACTTTAAAAGATTTAGAGAAATTGCAGATTCAGTTGGAGCTTATTTAATGGTTGACATGGCTCATTTTGCAGGCCTTGTTGCTGCAGGAATTTATCCTAATCCTCTTGAATACGCTGATGTTGTTACAACAACAACACATAAAACATTAAGAGGTCCAAGAGGCGGAATGATTTTAACAAATGATAAAGAACTTTATAAAAAAATAAATAAAGCAATATTCCCTGGTATTCAAGGCGGACCTTTAATGCATGTAATAGCAGCAAAAGCAGTTGCTTTTAAAGAAGCGCTTTCAGATGATTTTAAAACTTATCAAAAACAAGTTGTAAAAAATGCAAAAAAATTAGCAGAAGAATTAGAAAAAAATGGTTTAAGAATAGTTTCTGGTGGAACAGATTCACATTTAATGCTCGTTGATTTGACAGATATTGATGTGACAGGTAAAGCATTAGAAAAAGCACTTGTTCAATGCCATATAACAGTAAATAAAAATACAATACCAAAAGAAACAAGATCTCCATTTGTAACTTCTGGTATAAGAGTTGGAACACCTGCATTAACAACAAGAGGAATGAAAGAAAACGAAATGGTTAAAGTTGCTGAATTAATTGCTAAAGTAGCTAAAAATGTAAAAGATGAAGAAGGAACCATAGATGAAACAATAAAAAATGAAGTAATAGCAGATGTAAAAGAACTTTGTAAACAGTTTCCTCTTTACTTATAATCTTTACTTATAAAATGTATTTCAAAAAAAGGGCCTAATAGCCCTTTTTTTATGGTCTTAAAATAAATATTTATAATAAAAATATTTATAACAAATATATCAAACATCTTATACTCTTTTTCATTTTGTAATATTTGTGGTAAATTTCTTTTAAATAAAAGTGGTAATATTGTTGTGGCTAAATAAAAAAATGGGAGGTAGCATAAATGAAAATACTTGTTATCAACGCTGGTAGTTCTTCTATTAAGTATCAACTTTTAAACATGGACACAGAAGAAGTATTATCAATGGGACTTGTAGAAAGAATTGGAATAGAAGGATCAAGAATTGTTCATAGAGTAAATGGAGAAAAACACATAATTGAAAAAGAAATTCAAGATCATGAAGTTGGATTAAAATATGTTTTATCACTATTCACTGATAGTAAATATGGAGTTTTAAAATCTTTAGAAGAAATAGATGCTGTTGGACATAGAGTCGTTCATGGTGGAGAAAAATTTGCTTCATCAGTTAGAATAAATGACGATGTTTTAAATACAATGGAAATGTTATCTTTCCTTGCACCACTACACAATCCAGCAAATATAATGGGAATTAAAGCTGCAACAGAATTATTACCAAATGTTCCACACATTGGAGTTTTTGATACAGCATTCCATCAAAGTATGCCAGAAAAATCATACTTATATGCTATACCATACGAATACTATGAAAAATATAAAGTTAGAAGATATGGCTTCCACGGAACAAGTCATAGATATGTTGCACAAAGAACTGCAGAAATTCTTGGAAAAGATGTAAAAGATTTAAAAATAATTTCATGCCATATAGGTAATGGAGCTTCAATTGCAGCAATAGATGGTGGAAAATCAGTTGATACTTCTATGGGATTCACACCACTTGAAGGACTTGCAATGGGAACAAGATCTGGTGATATTGATCCTGCAATAGTTGATTTTTTAATAAAAGAAGAAGGATTAACCTCAAAAGAAGTAATTACTATATTGAATAAAAAATCAGGTATGCTTGGTCTAACTAAAAAATATTCTGATATGAGAGATATTGAAGACAATGCTATTGCTGGTGATAAAGTTTGTAGAACAGCATTTGACATTTATGAATACAAAATCGCAAAATACATTGGATCTTATGCTGCATCAATGAATGGAGTAGATGCAATAGTATTTACTGCTGGAGTTGGTGAAAATTCACCAATTATGAGAGAAGAAATTGCAGAAAATTATTTAGGTTATCTTGGTATAAATATAAACAAAGAAAAGAACAATGTACGTGGAAAAGAAACTATTGTTTCAACAGAAGATTCTAAGATTAAATTAATGGTTGTTCCAACAAATGAAGAATTAATGATTGCAAGAGATACAAAAGAAATAGTAGAAAAGAATTTAGATGAATTAAAACTATAATAGTAAAAAGCTGTTCAAATGAACAGCTTTTTTTATATTTCATACAATGGAATTATGTTTATAACTGGTTCTTCATATGGATGAACCTGCTTTATTGCCTTTACTGTATCTTTTAAAAACTCTCCTTTACAAATAGCCTCAACTTTTATTTCATCTGCAAAACAAAGTTTACCAATTTCACCTAAATAAGGGTTTGTTCCTTCAAGAGGCCTCCACATACTTTTTACCTTTGAATAAGAAATACAATTATCATAGTTCCCATACTTACAAGCACCTGTATTATTCATTGCAATTCTCAATTCATTTAAAAATTTTTCTGGAATAAAAACTTCAATTTTATAAATATTATCCATAAAAAACACCTCAACTTTTTATTATTTATAATAATTTTTATCTAATATTTTTTAATTTTTAGTCGATAAAATTATATCATAGGAGGTGACCTTATGGATGTAGCAGCTTTAGCAAGTAACTTAAAAATGATGGATACTGGAATGAAAATAAGCACCTCTGTAACAAAAAAAGCTATGGATACAACAAATCTTGTTGGTGATATGATACTTGAAAATATTCAAAAATCAACAGTTGATGTATCTATGGCAAAAGATCCAAATCTCGGAAACTATATAGATCTCCGAGTATAAAAAAATGAGGCTTTAAGCCTCATTTTTTTATATGTAAGATTTATATATTTTTTCCATTCTTTTTAAATAATTTTCCAAATCTTTTTCTGATTCAATAAATGGGTTTTCTTTTATTATTTTTTTTACACTAATCCCTCTTTTTTTCATAAAATAAACCTTTCTAACATTTTCATAAGTTCCATAGGCATTTAAAAAAAGAATAAAACTCATTTCAGCAATAGCATTACGTTTACTTTTCATACTATCCCCCCTTTTTGTTCTTTTTTAAGAACTAAAAGTACCAAAAAAAGATTTTACATAAAAATTATATCATAAAAAAAATAAAAATGCAACAAATTAAAATTTGTTGCATTTTTATTTTTTTATACTTTTATAAATTTTCTTTTATTATTTCTCTAACCTTTTCTGCAAGTTCTGGTGTTTTCTTTTTATCTTCAGATGAAACTTCTATTGGTTTTCCAACAACAACCTTTACATTTGCTTTTCTAACTTCAACTTTATTTTTAGGCATAATATCTATACTTCCAGATATAGTAACTGGAACAATTGGAACTCCAGAATTAGTTGCAAGTTTAAAACTTCCTGGTTTAAACTCTCCAATTTTACCATCATGACTTCTCGTTCCTTCTGGAAAGACCATCAATGAATGTCCATTCTTTAAAATTTTTATTCCATCATTTATAGACTTCACCGCATTTCTAACATTCGATCTATCCATAAAAACACAATGAATGTATCTCATCCAAGTACTCAAAATAGGAATCTTTTCCATTTCTTTTTTTGCAATAAAACCCAAAGGTTTATTCAAATACCCCAAAAAAATAGGAATATCAAAATTACTCTGATGATTAGAAACAAACAACACAGGACCATCTGGAATATTTTCAAGCCCCTTAACTTCAATCTTACTTCCAGTTAATTTAAAAGCAGTTTTTGCAAACATAGTAACTTGTTTTGTTATAAACTTTTGTTTTGTTTCTCCTCTTAAAAACTTAGATATCAATATGAGTATAAGAGAATAAATAAGATACAAAACAATTCCTAAAGCCGTAAAAAAAGTTCTCATCTAAATTCCTCCATTTTAAAATTAAAATTTTTTCAATACATTATACTATAAAATTGTTAAAATATTTCTGTTATAATTTAATAGGAATTAATTTTATTAATCTTGGAGGAAGTATATGGCATTAATTTGGATTTCAATAAGAATTATACTACTTGGATATGAAAGAATTGCTGGAAAAAAAATTGCAACCAATGAGCACGCGCTAATATCTTCTTGGGGGTTTTTTACTTTTTCTCTTTTAGTTATGTTTCCATTTTTTAAAGATTTAAACTTAAATATTTTTACAATTTCATTAATTAGTGGTAGTATCTATACAATTTCATTTTTTCTTTATGTATATGCTCTATCTATCGAAGATGCTTCAATTATAGCTCCACTTTATAATATGAATGTTGTATTTTTAATTTTAACTACTTTTTTATTTTTATCTGAATCAATAACTCTTTCAAAAATTTTAGGAAGCTTATTAATGATTTATGGAGTATCTTTCTTAAAAAAAGACATAAATATAATTGAATCTTATAAAAACCTATTTAAAAGCAAAGGTGCTATTGCAATGATTGTATCTTCATTTTTAATGGCAATAGGAAGAACACTTGATGGATTTTTTGCAAAAAACATGAACACTACTGGATATTCTGTTGGAATATATACAGTTGTAAGTTTAGAATTATTTGTTTTTAGTTTAATTAAATTTAAAAGTTTAAAACCTCACATAAATTTAATTAAAAACAAATATAAAGATTTAATTTCAGGAGGAATTAGCAATTCTTATTCTTATATAGCACTTTTAAATGCTTTCAAATATATTGACGTAAGTATAGCAGAACCTGTTTCAATGCTTTCCACATTGGTAACTGCTATAATTGCAAAAGTTGTATTTAAAGAAAAAATCTCTGTAAGACTAGCAGGAATTTTAATTCTAATACTTGGAGCATTTGTTATATATAAATAAAAAGGGCGGCATAAGCCGCCAAAAAAAGGATGAGGTTTTTGTTTAATTGATTATATTATATCCTCTAAAACTTAAAATAAACTTAAGGAGCAAAGCATGGATGATTTTATAAAAGAATATAAAAGAAGAAAAGATTTGTATGGTCTAAAAGATCATGAAATAGCAAAAAAATTGAGTACAGGAATAAAAAACATACACAGATTTGAAAAAGGAAACTACAATCCATCATATAAATTTTTATCAACATTAACTAAAATTATGGGGGGAAACTTAAAAATTTTATTTGACGACAAAAATACAATTTCATTTTCCAATGAAGTAGTAAATTGGTTTGAAAGCATTTCAAAAAAAACAAATGAATCCTATGATGAAATAGCAAAAAATATGTTAAAAGGATTATTTTTCATTCAAAGGGGAAAAAGTTTAAAAGAGGCTTTAAAAGAAAATTATGAAGTATATAAAAATGTCTTTGAAAGTTTAGAAGATACTCTATTAGTAGATACTCATATAAAAAGAGAAGACGTAAAAGATTATTTATATCTTTTAAAAAACTGCACTATAGACTCAATAATTAAAGAAAAATTTGAATTTAAGCTAAAAAATCATTTTGATTCTTATACCTTTGAAAAATCAAAATCAACACTAACTTCAAATAAAATAACTTTTTCATGCACAATAAACCTATTAAATAAAGAAGAAATAGTTGGACACATAAAAACATCTTATAAAATACTCTTGAATTTAAACTCAAAAAAAATCAAAGACATCTTAAAAAATAAAATGCTAAAAGACTCTTATAAAAATAAAATCATCACAAAAGAAATACTTCCAGAAATCAAAAAAAGTATAAATGTCTTGTTAGAAAATTTCTAACAAGACATTTATTATGTTTAATAATCAACTTTTACTTCAGGAAGTAATCTCAACCACTCTTGACTTAGTTTCCCATATAGTTTTAATTCATTCCATTCTTTTTCTCCTAAATATTTCTTCAACATTTTTTGAAAATCAATAAACCATTCTTTTGTATCATCAGCTACACAATAATCTATTAAATTCGTAACCTTATTAAATTGCAAAGCAACTTCTTTTTCTTTTTCTTTTTTTTCTTTATCTTTAAAAAATATAATATTATTATCATAATATTTTAAATACAATTCATATTCATAATTTATTATTGGAACAACTAGTCTATCAAAAACTTCATATCTTGCTATACTGTCTAACTTTTTAAAATACAAACTACTCAAATCAATATATTTTAATGTTTTCTGTATTTTTTCTTTATTTTTAGAATAATCTGAAGATAAAAATTCTTTATATTTTTCTAATTCTTCTTTCATAAAAAAATAAAATTTTTTTATCTTTTTATATTCTTTTATCATCAAAAACCATGTATCTGAATATGGATTTTCAAAAAAATTATCTATTATTTTATGTTCTGTTACTTTAATATACTTATGTTGATTGAGTTTATATAAACTATTATTTAGTTTAAAAAAATTACCAATAACACTTCCATCTTTTTTTAAAACAGATGGTATCCATGTTGATATATTATTTAATGTTTTTTTCCAAGGTAAATCCCATCCAAATATTCCTTCATAAAGTGCTGCCCAAGTATAATTCAAGAGTATATATGTATTAAAATCTTCTTCAGTTACTTCATAATCTTCTTCCATCATTTTTGAATACAATTTTTTTAAAGCATCCTTTGTTATTATTATAATTTCATCTATAGAATTCGATTCTTTTATATCAGAATAATATTGATAAAATATTTCTGTATCAACATCAGAGTGTTTATTTTCATCATAATACCATGGAACTTCACTACCGCCATTATTATCAAAAGTATCATATATCTCTTTTTGTATATCTTCCATATTTTTCCATGGATCATTTGAAAATATCAGTATAGAAATCATTAAACTCACTAGTATTAAAAAAAACTTCTTCATAATTATCACCTCAACTAATAGTCAAATATTGTCTTTTTATCTTTATAATGTTCCTCTAAATCAAATATTGTTTTTTTATCTTTGTAATGATCTTCTAAATCAAATATCGTCTTTTTATCTTTGTAATGATCTTCTAAATCAAATATCGTCTTTTTATTTTTATAATGATCTTCTAAATCAAATATTGTTCGTCTTCTTTGAACACTCAAAGGTAAATTCCCAATTATATCTTCCATAAAAAAATAATTTTTTTTATCCAATCTTTTATAAGTTTCTATTGCTTTATTAATAATTAAGTCACCTGCAATTGCAACAGCAATAACTGTAAATCCTGTTGGAGTAGCCCCCAATATTACTGCACAATACGAAAATAATCCTGAAAAAGATGATTTTAATATATTTTCACCATTTTCTTTTAGAAATTCTTCTGAATTTATGCTCTTATCTATAAAAAAATCATAAACTGTATTAACTTCATTGAAAACAAATGTAGCAATACCATAATTCAAAGCTGCTCCAGTTGCTGCTGTTAATGCATATTTTTTACCAATTTTTTGCATTATGGCCTCAGAAGTATATAGAGAAATTCCTGTTTTTGAACTATCTTTAATTACATTTTTTAAAGCCTCATCAATTTCTTCTTCATTCTTATAAACTTTATAAGAATGAAATAATCCCGAAATTATTCCAGAAAGCAAAGCTCCCTTAGCTGCAGTTTTTATATTAAGATACTTATTAATTTTATTTGAACTATTCATCATTTTTTTTAAATTAGTATAAACTTTTATATTTTTTTCTTGAAATTCCTTAGAAAAAATATCTTCTAAAGAACTTCCTAAGTTTACTTTTTTTATAAATTTAGTTATTAAAATACTCTGTTCTTTTTCTGATAAATTTTTTGGTATATCCTTTAAATACTTTCTAAAATCTGTAGTAAGATTTGAATTTTTACCAAATAAAGTTTCAAAATTTTTTAAAATATCCTTCTTTAAATTATTTATATCAGATAATGGTTCTATTATCTTATCTTCATAATCTTTTAAAATGTGATGATCATATATTAATCCAGCTAAAGATTTTGCAAGTTTTTTATCTGTAACTCCTGTTTTTTCCATAACTATATTTGTCATTTTATCTGTTATTTTTTTCCATTCTAATACGATTTTCTCTTTAGAAACTCCATTTTTAATTAATTCTTTTAAATATTCATTTTTATTAAAGGGTATGCTTCCAGAAAAACCCCAATGTCCAAAGTTTCTATGCCCAAATTTTCCAAATTTTGTACTTATATCTTTAAACGGATTACTATTTATATTATCTATTAAATTACTTATTTCTGTAAATGTTAATCTAATATTTTTATTTTTTCCAGTATAAAAGCCAAAATCTTCTAATCCTGCTTTAGCATGTTCTGAAGCACTTGGTAATGAAAAAAAAGAAAGACTTAATATAAGAAATATCATTACAAATATTTTTTTCATACCCACACTTCCTTTTTATATACTATTTATTAATTAAAAAATTTGAATTTACAATATAATAATACCATATTTTTAATAAAAATAAAATACTTTTTTAAGTTATTTTAATATTTTCGTAAATATTTTTTTTTTATAAAAACAAAACAATAAATTTGATTAACTAATTTTATTACTTTATGAAATAATAATTTGTCATGGTAAAAAGGCATTAAAAAAATGTTGATACCTTAAATTACCTATTCAGTATGATATAATAAAATGAGGTGATTAAAATGAAAAAAAGACTTCCAATAGGAAGAAGTGACTTTAAATCTTTAATTGAAGATAACATGTATTTTGTAGATAAAAGTTTGTTAATCAAAGAAGTTATTGAAAGTGGCGATGTTTTATTAATAACAAGGCCAAGAAGGTTTGGGAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAACAACGAACACCTCTTTAAAGATTTAAAAATACATAAAGAAAAGAACATAATAGAAAAACATTTAAATAAACATCCTGTTATATACATCACCTTTAAAGATTTAAAGTCTAATAACTTAAAAAAGATGCATGCTTTATTAACTATGGAACTTTCAACTTTATACATTGATCACGAATATGTTTTTGAAGTATTAAATGAAAGGGAAAAAGATGTATACAATAAAATAATGGATAGAGAAGCTTTAGATGCAGATTATGAAAATTCTATAAGAAACTTATCAAAGTATATGGAAAGATACTATGGTAAAAAGGTAATAATATTAATAGATGAATACGATACTCCCATTCAACAAGCTTACTTACATGGTTACTATGATGAAATAATATCTTTAATTGGTAACTTATTTGGCATGGCATTAAAAGATAATGTATACCTTGAAAAAGCAGTTCTTACTGGTATAACAAGAGTATCAAAAGAAAGCATCTTTACTGGTGTGAATAATTTAGAAGTTTCTACTGTATTGAATGAACTATTCAATGATAAGTATGGTTTAACTAAAGAAGAAGTTGAAGAAACACTTAAGTATTATGAACTTGAATATGAAGAAAAAGAAGTTATAGATTGGTACAATGGTTATAACTTTGGTGGTGTTGAAATTTACAATCCTTTTTCTATAGTAACTCTTGCAAAGAATAGAGGGAAAATAAGGCCATACTGGATGAATACTAGTGGGAATTATTTAATAAGAAAGTTAATAAAAGAAGGAACTGTTAATATAAAAGATAGTGTAGAAAAATTAATAAACGGAGAAGAAGTAGAGTGCGAAATAATAGAAACAATGGTTTATGGTGATTTAAACTTAAATAGTGAAAGTGCAATTTGGACATTATTTTTATTTAGTGGTTACTTAAAGTGGACGAGTAAAAAAAGACAAAACAATATAACAACATACAAGGTAAAGATACCAAATGAAGAAGTAAAAGATTTTTTTGTACAAACAGTTAGAAATATGTTGAGAGAATCAAATATAAGTATCGATAATATGCTTTTGAATTTAAAAGTAGGAAGAATAAAGACATTTACAGACCAATTTAAAGATTTAACGATGAATACATTGAGTTATTTTGATGTTAGCGGAAAGGAACCAGAAAGGTTCTATCATGGATTGATACTTGGAATGAGTGTTGGATTAAAAGAAAAATACATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCTGATGTTATATTAATTCCAAAAGATAAAACAGATAAAGGAATAATAATAGAGTTCAAAAAGTACAATAAAGACGAAGATAAAAGTTTAAAAGACAGTGCTAAAAATGGATTAAAACAAATAAATGAAAAGAGGTATGAAGAAGAGATAAAAAATTATGGAATAAATGACATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAGGTTGAAATTGTTAGTAATTTGGATAAAGATATTGAATTAACGCCTGAAGAAAAAATAGCAAAAAGCATGCTGGAAAAAGGATTAGATGTAAATATGATTTCAGAATTAACAGGCATTTCAATAGAAAACCTTAAAAGTATACATAATAAATTATAATTTAAAAGTTAGTATATAAATAAAAAAATAAAATCCTCTTCTTGGAATAGATAGACAAAATCAAGAAGAGGATTTTACATAAAAAATTACGTGCTACCAACTATTCTTTTTTATTTATAAATTATTTTATATTTTCTTTTTTGCTAAATTTGCAGCAACTAAATTTATATCCCAAACTGGTGAAAATGGTGGTGCATAGGCTAAATCCATATTTCTTAAATCGTCTACTGTTCCATTTTTATACAAAAGCGGTGTTATTGCATTCAATCTTGCAAAAACTTCTCCACCAACATACTGTGCACCCAATATTCTTCCTGTACTTTTTTCTACTGTCATAGTCATATGAATTTTTTTAGATCCAGAGTAATAATGTGCTTTACTTCCAGATTTTACATAAACTTTAATTGCATCAAATCCACTTTCTAATGCTTCTGAAAGTGAAAATCCAGTCTTAGCAAATTCAACATCTTCATACTTAGTTATCAAAGAACCAACTACACCTTCAAAACTTTCTTTCACATCACAAATATTTTTACCTGCAACTCTTCCTTGTTTATTTGCTGTTGTTCCAAGTGGAATATACACATCTTTTTTAGTAATATAATTTTTAACACTTGCACAGTCCCCAGCTGAATAAACATCTTTTATATTTGTCTGAGATTTTTCATTCACTACAATTGCACCATTTTTCAGCATTTCAAGATCTGTTCCTTTTAAAAATCCCGTATTTGGTCTAACTCCTATTGCAACAACAACTATATCTGCATCATAGTTTTTATTTTTTGTAATTACTTTTATTCCATTATCAAAAGTTATATCTTCTACCATTGTATTGAATTCAACCTTTAAACTTTTTGTTGTCATATCTTTAAATGCATTTAAAAGTTCATCTTCCATACCTCTTAAAAGTTTATCAGTTCCTTCTATTACAGTCACATCTATACCATGTTTTTTTAAAGCTTCTGCACTTTCAATTCCTATGTATCCTCCACCTATTACTATACCTTTTTTAGGATTATTCTCATTTATAAAGTCAAGCATAGTTCTTGCATCAGTTGGATTTCTTAATTTAAAAACACCATTTCCAGTATAAGTAAATTTTGGCATTATCGGACTTGCTCCAGTTGAAATTACTAAATTTTTATATTCAACTTCAAATTCATCATTTTCATTTTTTACATAAACTTTTTTATTATCAAAATTAACCTTATAAACTTCATGATTTATAAATACATCAGCACCTTTTTTTTCTTTAAAAATTTCTGGTGTAAAACCTATAACTGATTCAGGACTTTTTACTTCACCAGATACCGAATACGGTAATCCACAGCCACCATATGAAATATAAGGTTCTTTTTGAAAGATACAAACTGACATATCAGACTTAATTCTTTTTATTGTAGCTGCTGCACTGGTACCAGCTGCAACTCCACCTATTACTACGACATCATATTTTAAATTAGACATTTGATTTAGCTACCCTTATGAGTAACCTTTTTCACCTCTCTTTTTATAATTTATAATTTTTCACCTTTTCACAAATCGAATTCATTATATTATACATCAAGAAAAGTGAATTTCAAACTAAAAATTTCTGTATAAAGATAATTATTAATACCCTTATTAAACTCCTTCTTTCTCATTTGTATGGTATAATTGTATTAACAATATAATAATTGGAGATGGTTTTTATGAAAAAACTACCAATAGGAATCGATGACTTTAAAAAGATTATTACTGAAAATTATTTATACATAGATAAAACAAAGTACATATACGATCTCGTTGATTTAGGGGTTCCTACCTTTTTATCAAGGCCAAGAAGATTTGGTAAGAGTTTGACTTTATCTACCTTGTATTATCTATTTAAAGGTGAAAAAGAGTTATTCAAAGATACCTTCATTTATGATAAATGGGAATTTAAAGAGTATCCTATTATTAGGATTAACTTATTAGATGCCGTTTATGATGATATTGATAGATTTAAAAAGAGTTTAACTAATATCATAAGAGAAAATGCCATTAATTATGGTATTGATCTTGTTGAAGATGACTATAAGTTTGCTTTTAGTGAATTGGTATTAAAACTTTCAAAAAGAGATAAGGTTGTTGTTTTAATCGATGAATATGAAAGACCTGTTCTTCACAATATAAACAATAAAAGAGTTGCTGAAAAGATGAGAGATATTCTTCAAGACTTTTATGTAATTGTAAAGTCTAAAGGTCAATTCATAAAGTTTGTATTCATGACAGGAATTACTAAGTTTACAAAGATGGGTGTATTTTCTTCTTTAAATAATTTAAGAGATATAAGTATCTCTAAACAATACTCTCAAATGTTTGGATATACTCAACAAGAATTAGAAATTCATTTTAATAACTACATTGAAATGACAAAAGATGTATTAAATCTTTCAAGAGTTGACCTTTTGAAAAAAATAAAAAAATATTACAATGGTTTTTCTTTCGATGGTGAACAGTTCGTATACAATCCTTATTCTGTTTTAAACTTTTTTTCTGAAAAAAAGTTCAGCAATTACTGGTTTGAAAGTGGATCACCAACATTTTTATATGAATATATAAAAGGAAAAGATATTACTTATGATGAATTAACGAAGGTTACTGTAAGTGAACTTGACTTTTCTACAAGAGAGATTGAAAATGCTCGTCCTAGAATTTTTTTTATTCAATCTGGTTATTTAACCTTTAAAGGTATTGATAAATATAATAAATATATAATCGACTATCCAAACTTAGAGGTAAAAAATAGTTTTTCAAAACTTTTACTTGAAGCTAATTATGATATAAGAGAAGATATATTAAACAATAGTGAAGCCATTTTTAAAAATGCTTTTTTTGAAAACAACATAGATAACGTAATAGATGAAATAAAAAGAATAATAGCAAGTGTACCTTATAATTTGCACAAAAAAGAAGAGAGTTATTATCATTCATTGATATACACCATATTGGCAGCAAGCGGTTTAAACGTTAGAGCCGAAGAGCTTTCTTTTAATGGTAGAAGTGATTTAATTGTTGAGTTTGATAACTTTCTTTATGTCATTGAATTAAAAAAAGATAAGTCTCCTGATTTTGCCCTTGAACAAATTAAAGAAAAAGGTTATTACAAACCTTACGTTGATAAGTATGATATTTATTTAATTGGCATAAACATCAACTCTGATAAAAAAAATATTGAATCATTTAAAGTTGAAAAGATTTAACTACTATAAAAAATAGGATAGTTTTAAACTATCCTATTTTTTAATTTTTTAAATTATTTTTTACTAAATATATAATTATTTTAAAATTTAATGCAGTAATTGACTTTCTATGTTTCTACTGTACTCCTTACAATTTTCTAATAAATCTTTATGACTTCCTTTAGAAAGCACTTTCCCATCATTAATTATTATTATATTTTCTGCTTTTTTAATTGTTGAAAGTCTATGTGAAATAATAATAATTGTAGGAATTATTTTTGAAATAGAATCAAAGATTTTTTCCTCTGTTTTTGAATCAATAGCATTGGTTGATTCATCTAAAATGAGTAAATCGGGTTTTCTTATTATAGCTCTTGCTATTGTTATTCTTTGTTTTTGACCATCAGATAAATTTGATCCATTTTCACCAAGAACTGTTTTCATTCCATCTTCAAGCTCTGGTAAAAAATCATTTATACACGAATATTCAATAGCTTTTTTTATATCTTTTTCACTAAAAGTATCTCCAAAAAAAATATTTTCTTTTAATGTATCATTTAAAATGAATTCATTTTGAGAAACGTATAATATTTTCTTATGCAAAGAATTAATATCATATTCTTTTATATTTTTATTATTTATGAAGATGTTTCCAGAAAAATCTTTATAGAACAATGGCAGAAGATTCAGCAAGGTACTCTTACCACTTCCACTTTCACCAACAATACTGTATTTGTTATTAGAAACAATATTTAAATTAATATTTTTTATTATTTCTTTATCTTCATAAGAAAAGGATATATTTTTTAATTCAATATTTTTTATTGATTCCAATAAGTCATTTCCATTATGTTCATCTTCTGGTAAGTTGTATATTTCTTCAATTCTTTTTAAAGTTTCTTTGCTTTTCTTTACTGAAATAACTATATTGCTTAACATTTGTATTGGATGGTTAAGCCATCCAATATACGAATAAAAAGCTATTAGAGTACCTAATGAAATTTCTTTTCTTTGAACTAAAAGTCCACCAATACCTAATATTAAAATTGGTATTAAATTATATATAAAACTAATAAATTCATCTTGAGCTCTTGTATAAAAAATTAATTTATTTTTTGCATTTTTATCTTTAATACTATCATCTTCAAATTGATTCAAAAAATGATCTTTTTTAGAAAAACCTATTATAGTTTTAAAACCACTAAGTTTTTCTCTAAAACTTTCTATCAAAACAGAATTTGTCTTTCTTTCGTTTATTGAAGAATTTTTTATCTTTTTATCAAAAAGTTTCGATGTAATATAAAAAAGAGGTAATGTTGAATAAGCAATAATTGCAAGTTTGTAACTAAAACTAAATAACAAAAATGCTGCTGATATAAGTTGTAAAATATTTGCAAATATTACTAAGTAAACAATAGATATTGTCTGAGATAACTCATCAGTATCTTGCAAAACTCGAGATAAAATATCTCCACTAGTATATTTTTTTAAATCTTTTAGAGATAATTTAAATATTTTTTTAAATAATGAAACCTTTTCTTTTGATGAAATATTATTAATTGTTTTGTATAAAAGATTATTTGAGAAAAAATTTATTAATCTTTCTACAACAACTATACCCAACAATAAAAATACATATGATAATATTATTTTAATATCTTTATTAAGTATATTATCAATAAATTGTTTTATTACAATGGGTCTTATTAATGGAAATAACACAGCTATTACAGTAGGTATAAGTAAAAAAAATTGTATTTTTATATATTTTTTTGAATATTTAAAAATATTTGCAAATGATTTATTTTTCAAAATTAATCCCCCTATAACTTTAATATATTTTTTAGCACAATTATATTATAACTCATTCCATTTGACTTTACTTTTTTATGCATGCTATAATAGCTTATATAAGATGGTTTCAAACGACAATTTTTCTTAAAAATTGTAACATTGCATTTTTTTGTTTATAACGTCCCATTTGAAGTAGGAGGAAACAACTTATGAATGAATTTTGTCTCAAGATTTTTAATATAGCTTCTCAATATGGTTCCTATAGAAAACCTTTTTTAAATAGGGTTATTTTTTATAATAAAATAAACAATGGTTGGAATAGTTTATTTAAATCTTTTTTATTTAGTTAAAATAATAATTTTGAAAGTTTACTTTTAGAAAGAAATATATTTTTTGAAAATTATTTAAATTTAGAAAGTAAAGAAAGATACGTAATAGACACTTTTATAAGAAATTATTCAAGATATGATTTTGATTTTTCTATTTAATTAAAAATTTTTGATAAATTAAAAGATTTTACAAATAAGTATAAATTAAAAAAAACACCAACGATATTATCTTTTTGGTGTTTTTCAAAATCTTCTGAAAGGGTTATTTTATTAAATATTTTAAAAAAATTATAAACACTTTGACTTGCATTATAAGTTTTTTATATCATACTAAAATCTCTTCTCATTATTTTTTTAAAATAAACGTATCCCAAACCTATTGCAGGCGTATACTTTTTTACATTTAAGAGATTTTCAAGTGTAATATATTCTGAAAAATTCATTTCTTTATATATTTCTTTTAATATATTATTTATACCATACCCTGTAGCAAATAAAGTTATATTATTATCCAGATTATTTTTTTTCATAATTTTATTTATTTTAAATTTTATTGTATTTTTTATTTCTTCGTATATATATTTAATTATTATATTTATTTCTTCTTTGCTTAAAAAATTTTTATCTGAAGCAATCAATTGACATATTTTATTTTCAATCTCTAATTTATTAATAAATTTAATATTAGAAGAATAATTTAAATGTTTATTGTATGGTATCATATCAAGATAATAAAAAATATCTCCAGTTTTTAGAATAGGTTCAGCTATTATTGGAACATCAAAATTTTTGTATGGAACAGTTTTTATTACACTTTGTAATATCGTTCTTACCATACCTAAATAATTAACTTCACCATCTATTAATCTCATTATATTATTCTTATTATTTTCTTTTTCTAAAATAGGAATTATATCTGTGGAAGTAGATCCCATATCAATTATTATACCTTTTCTATCTTTACATAATTCTCTTGTTATAGCCCAATTATAACATTCAGTATATCGTTCAAAATCTAAAATTTCTATATTAATTAATCTATCTGGAGTAAACATAAAAATTTCTCCTTTAAATACTTCTTTTAAAATTGAAGCTATTTTTTTCACACCTTCTTTATTATTTTCATAAATTAAAGAAGCTGTTTGTGTAAATAGTATTTTATCAATTGAATTTTTTGAAGTTATTTTAAATATCTCTTTTTTCAAAAACAACTCAAATACATTTAAATTATTGTTTAAAATATTTAATTCGTCATATTCTTTAATTTCTATTTTGTTAGATTGAAAACTAAATATACAATATTTCAAATTTGCTCCACCAATATCTAAAGTTAATATTTCCATTTTAATTTTCTCCTTTTTTATTATTCAATATACCAGTTTATAAATTTATATAAATAAACAAAAGATATTAAAACAAATAAACTTAAAACAAATAAATTAATGAAAAATGCTCCATTAAAAATGTTATTAAAAATACTTTCAAATAAATTAACTGCATATGTTGTTGGAAATAAATAACTTATCCATAAAAAAATTTTTGGAAATTTTTCTGTTGGAATTATTGTTGGCGTAAAAAATACCATAAAAAATACTACTGCATTTCCAATTATATTTGAATGTATTGGAGTTTTACTTTTCAATCCTATAAACACACCCAAACCAACAAAAGACAACGAAGAGATTATAAAGGCTATTATAACTGTAAATAATACTTTTTGAATTTCTATATTTATTCCAAGTATTAATTTAGTAAAAATTAAAGTTGCTATTGATGCTGGCAAATAACTTATTGCTGATGAAAAAATCAAAGCTAAAATAAAATTTATTTTTTTTATTGGTAATCCTATAAAATAATTTATACTTTCGTCATATTTCATTTGAGCAAGTCTTGAACACAACATGAGCATCAATGGCATTACCATACTTATTACAACATTTCCAGATATCAAATGTATTGCTTGAATTTTATTATAATTATTCCAAAATACTTTTATAAAAAGAATTAAACCAATAGGAGCTACCATTCCAAATATCATTTGAAAAATCCATATTACTCTAACTTCTGAAAAAATAATAATAAATAAATAATAAAACTCTTTTAAATTTTCAAATATCTTTTTTATCATTTTTTTAAATCCTCTTTTATAAAGTTTTTCCTATAATTTTTTAAAAAAAATAAATATGAATCTTCTAAATTTGTATTCAATACTTTTATATCTTTTAATTTTTCTTTTCCTATTTCTTTGTTCAAATAATCCATTGACTCAAATATTTTTTTCTCTTCAATATAAATACTTGTGTAGCCAAATTCATTTATAGAAAAATTTTTAAAATAATTTTCTATTTTCGGAATTTTATCTTTGTGTATAAAAAATTTTATTTTATAATCTCCTCCCATAAGTGCTATATAATTTTTTGGAGTATCTAATTTTAATAAACTACCATCATATATTATGGCAACTCTATCTGCTATTTTTTCTATTTCAAATATATTATGTGAAACAAGTATTATGGTATATCCATATTTCAACTTTAATCTATGAACAAAATCAATTAATAAAGCCTTTTTTTCTGGATCTAAATTATTTGTTGGTTCATCTAAAACTAATATTTTAGAATCAGAAACAAGTGAAACAGCTAAATTTACTATTTGTTTTTGTCCACCAGACATATTTTCTATTTCTTTGTTAAAAACTGTATTCAAATCTAATTCTTTTTTCAATAATTCAATTTTTTCTTTTATTCTATTTTTAGTCATTTTATTCAATTTTCCAGTATAGTATAATGCTTCTCTTGTTTTTAAACCTCTCAACACAAAATTTGATTGAGATTGATAACATAGATTTTTTCTTATTAAGTTAGGATTTAAAGAAATATCTTCTTTATTAAAATATATTTTCCCAGAAGTTGGTTTTAAAAAACCAACTATTTGTTTAATCAAAGTAGTTTTTCCAGCTCCATTTGGTCCTAAAATACCTAAAATTTCCCCTTTTTTTATATCTAAAGAAATATTTTTATTTGCTGCTATTCCATTTTTATAAATTTTTGTTATGTTTTTCGCTTCTATAATTTTATCCATTTTCCCACTCTTTTTTCTTATTATTCTTATAATTTTTTATAAAATAAATATAATTTGCCATATTTATAACTGAATGTATCAATATAGTAGGAATAATACTATTAAAAATTAAAAAATATATTCCCAAAATCATTGCTATCAAAAATAAAAAAATATATTGATAAAAGTTATAAAATTTATGTTGAAACATAAATATTATAGAAGAAATAATTACAGCTATGTATGAATTAAATATTTTTATTAAAATTGATATTAAAATTCCACGATATAATATTTCTTCTAATATTGGAATAAAAATAATTCCTTTAAATAAATAAAGATAAATAGATTTTTTTGATATATTTTTAAATAAATATTTATAATTATTATTTTTCAATTCAAGTAAATAATTAATTATAAAAAAAATCAATGAATTTATAAAAAATAAAAAAAAATCTTTTTTTGAATAATTAAAATTATTTATATTTAATAAATCTACTCTTGTTACCATAAGATAAATAAAAATAAAAATAACACTAATTTCTTGTTTCACTAAAATCACCTTACCTATAAAATGTTCCTCATTAAAATGAGGAACATGAAAAAATTAATATCCTTGACCACATCCACATTCAGAAGATGCTTTAGCTAAAAATACAGGTTTTTCATAAACTTTTTCTACTTTTTTTACTTCTGGTTTTTCGTACATTTTCTCACCTCCTTTTTTATAAATTCCAGCAATATGGGTCAGGATAATCATATGAATTATAATAACCATAGGTCATTCCTTTACATCCCCCCATACAAATATTAAGATGTTCACAATTATTACATTTTTTATTCAAATTTTGAATACTTCTAAATTCTCTAAGATTTTTAGAGTATAACCAAATATCTATAAAATTTTTTTCTCTAATATTTCCTGAAACTAAGCTTCTATCTCCTATAAATTGGCATGGATGTACATTCCCATCAGCTTCAATTACACACGAACTAATTCCAGCGGGGCAAAAAAGATCTTTTCTTTCTTTTTTTAATAAAAAACAAAATCCATCATCTTCAGAAATATATATTTTCTTTTCATATTTTTTAGACAAATTTAAAATTTTATAAGAAAATTCTTTTGATTTTTTTAAATCAAGCATATTTAACTTACTTTCTAAGCCACGACCAGTTGGGATATATTTTACAGCTAAAAAAGATTTAGCCCCATTTTTTATAGATAAGTTAATAACATCTTCAATTTCATTATAATTATTATTCGTAACTGTCATACCTGTAGTAACTTTAATTCCATTATTTGAAAGAAATTTTATAGCATTTAATGCTTTATTAAAACTACCATTTACTCGTCTAAAGCTATCATGTTTTTCTTTATTTGAAGAATCCAAACTAATTTGTACTCCAGATATTTTATACTCTGATAATTTTTTTGCAATTTTTTCATTTATTAATAATCCATTGGTTGCAATTTTTACCAATATTTTTTTTTGATTTAAATAATCTATTAATTCAAAAATAGATTTCCTTAAAAATGGTTCACCGCCTGTCAAAACTACACTAAATACATTTATTTCGCTAAGATGATCTATTAATCTAAAAATTTCATCATCAGTTAATTCATTTTTTAAAGATTTATTTGATGAATTAGCACAATGTAAACAATTTAAATTGCAATTTCTTGTTAATTCTATAAAAACATTATCTGGTACATTTTTAAAATTAGGTAATCTTAAATAATTCAAAATTTTTTCACCTCAAAGTTTTTTAAAAAAGGATCTTTTTTCAATACATTATATTTTTCAAATGCTGCGCTTAAACATCCCATTCTTTTACCTCTTAAATTCAAAAAAACTTTACTATTCCAAATATCAAATACATTGTTTTCTATTAAAGAACCCACTTTTAAAGGTATTGAAGGACAAAGTAATACATCTCCTTTTGGATTTATTGCAAAAAAAGAGTTAGATGCTGGACAAGGTCTATTTTTTCCTTCATTAATAAATAAAAATAATGGATCTTCTATATAGAGTTCAATACTTTTTTCATATTTTATTTTATATTCATAAAGTTTTTTTAAAATTTCATAATATTCATATTTATCAAGAGCATACTTATAACTATTTTTGTTATACTTTACATATCTAAAAGTTGTCCAGTTTTTCGCACCCAAATTAATTGATAATTTTATAATTTCTTCTAAGCTCATATAATTATTTTTATTAATTGTAGTAGCAATAGAAGTTGTAATATTAGTTTTAGAAATTTTTTCTATTACAGAGCAAACTTTCTCAAAATTAGAATTTTTTCCTCTAAGACTTTCATGTTCAAATTTATTCTTTCCATCAAGACTAATCCTTATAGAATCAACTTTGTATTCTTGTAATTTTTCTATGATCTTATCATCTAATAAAAGTCCATTTGTATTTATGTGGACAAAAATATTATTTTTTTTTGCAATTTCTATTAATGAAAATAAATTTGTATTTAAAAAAGGCTCGCCACCAGTAAAGATTATTTTAAAAATCCCTGCATCAATTATTTTATTCATTATTAATTTTAATTTATCAAAAGATAATGGATTTTTTAAATTTTGACTTGAACTATTAGAATAACAATGATTACATTTTAAATTACAACTATAAGTTAATCCCCAATTAATTTCTGTAGGAGCAAAATTATTAATCATTTAAATTTTTTCCTCAATAATTTTTTCATTTAATAAATTCATTAAAAATTCTATTACATCAGATTTAATAATATTTTTATCAATTTTATATTCTTGATTTATTATATTAATAATTTCGTTAACTGTATAATCACCATTACAAAGTTCCCAGATAAAAGCGCCAACATTATTAAGAGTATATAATTCATTTTCTTTCATAAATAAAATACTATCAACTTCTTTTCTCCATTTTATGTCTTTATTTCTAACAAATTTTTGATTTAACATAAAATTCCCCCTTTCTTCATGACCAAATACTTTATTTTCCTAAATCAACAATTTTATTAATACTATCTGTTTGATTAGTTGATGGTAAAGGATCTGAAAATGCCATTCCTCCAAATGCAATAATTGCTATAACTATGAATATAATCTTTTTCATTTTTAACACCTCCTCTTTAGCTTATTTAAATTATACCTCAATTTATTTGATTTCACTTTATTGCGTGTGCTATAATGGTTTATATAAGATGATTTTAGACGACAATTTTTCTTAAAAATTGTAACATTGCATTTTTTTGTTTATAACGTCCCATTTGAAGTAGGAGGAAACAACTTATGAATGAATTTTGTCTCAAGATTTTTAATATAGCTTCTCAATATGGTTCTTATGGAAGACCTTTTTTAAATAGGTTTATTTTTTATAATAAAATAAATAACGGTTGGGATAGTTTATTTAAATCTTTTTTATTTAGTTGGGATAATAATTTTGAAAGTTCCCTTTTAGAAATTAATAATGGTATTAAAAATTGCAAATCTAACACTCTTTATTATTTATTGCTGTCTAAAAAAATATCCTGTTTAATTCGTTTAAATAAATTTAATGAATCTAAAAAATTGTATATGATTTTAAAAAAGAACTTAAGAAATATTCCTGAATTTTCTAGGAATATTGTTTTTTCTACATTATTAAACTGTGAATCTATTTTAAATATAAATAAAAACACAAGACTTTGGTCCAAAAAATATGAAGAAGATTTTTCTACAAAATTATTTGTAACTATTGGTAATGCTAGAAAAAATATTATAAATAATAATTTTAATGAAGGATGGAAAAATTTTCAAACTGCTTATGAGTTGGCAAAAAAAATACGACATCCTGTTGGTTTAATAACTGTTTTAAATGATTATAGTTGGTTTTTAAAAGATTTTGATGAAAGAAAAGCAAAAGAACTTTCAATTGAATTGATGTATTACTATTCATATTTTTTTGAAGATTTAACTACATGGTTTGGAGTTTACGACACTTTTTTTGAAGTTCATAAAAATGATTTTTATTTTTTATTTTGGAATTTTAATGAATTAAGCTTTATATTCAATTTATTATCTAAAGAAGATAAAGAAAAATATAAATACTTTAAACTGTATGAAGGCAAATTTAAAATAAAATTATCTAAATATAATAATACAAAATTTTTAAAAGATTATTTAAGTCAATATTTTTCTAATTTTTTTAAAGCATCAAAATTAACAAATATTTCTTATAAAAGATTAAAAGATTTGTTTAATAATAAAACAAAAAAAATTAAAGGCAATACTATTCAAAAATTTATATTAGGATTTAAAATAACTCCAAATACAAATGCACCTTTTCCAATTTTAAATGAATACTTGAAACTATTAATAGATAAAAAATTTATTGAATCTTTAAATACTTTTTCTAAGTTAAACCATACTAATAAAAAAATGGTGTTTATTACAACTTATGTATCTATTTTAGATAAAAAGAATTCTAATTTAAAAAAGTTATACAATAATTTGAATACTATAAATACATTAAATCTTGATTATGATTTAAAACTATTTGTTATTAACATGATTAATCCAAACAATATTTTAAAAGGAAGAATAGACTTAGTCTATCATTTTTTTAAAAAATTCACTATAAAAAAAAGAAAGTTATTTTTTGAAAATTATTTAAATTTAGAAAGTAAAGAAAAATACGTAATAGACACTTTTATAAGAAATTATTCAAGATATGATTTTAATTTTTCTATTAAGTTAAAAATTTTTGATGAATTAAAAGAATTTACAAATAAGTATAAATTAAAAAAAACACCAACGATATTATCTTTTTGGTGTTTTTCAAAATCTTCTGAAAGGAGAGTTTTATTAAACATTTTAAAAAAATTATAAGTATTTTATTAAAAATATATTATTTAATTCGAATATTAAGATGAATCTAAAATTTTATTATTTATCTACTTTTAATCATTTTTCTATCTTACATGAGAATAACTTTATCAAAATCAAATAATTGTAGTGAAAGTTTATTATTTATAATAATTATATATTACTTAATGATATTAAAAATTCTTCATTATTTAGTTCAATATATTTTATTAAAGAATTCATTACTAATTATTTTAAAAATCTAATACTTTTTTATTTTTTATCTGATGAATCCCCAATACAATCAAAGAAAAAAACACAAATAGTATTATAATCATGTAAATAATAGCATTGATGCCACCCAAATCTGGTCTCACTATTATATAAGGTAAAATTAATATTATTAGTGTAAATATCGCTTCTATATTTACAGCTTTAACGTCTGATTTAAAAAGTAATCGTGAAATAATACCTCCATTTGATCCTATAATTGCTGAACATAATGGTATTATTATTAACGTTTCTAATGGAATACTTATATCGACAAAAACATACTTTAATAATGTGCTCATTTCAATTGTAGAAATAATTGAATATATCATCCCCAATAAAAGTGGTAAAATTATTTTTCCTATATAAAAATTCAATGGTTTTATTCCAGAGGATAATAAAAATTCTAATGTTTCATCCATTCTTTCAAAGCTTATGGAGTTACCAGAAAAACTACCAGCTACACCCAAAGGCATTAGTCCTGAAAATAAAATTACACTAGTTCTAAAAAAATATCCCACTAATGAAAAAGGAGTTTTAGGCATAAATAAAAGTGCTGGAAAAATAAAAATACTTGCTATAGACCAATAAATTTCTCTTTTTTGATACTTTAAATACTTTAAATCCTTATAAAAAATTGCCAATATTGTATCTATTTTACTCACCTCATATTTCTTAGTTTTATTTCTTTGTCTTAAAATATTTTATATTTATTAAATCTTTGTATTGTAAAAATCATTATAATACAAATCATTATTATCATATACATTATTAAGAGTAAAGTCTTTATCAAACTTATTGGATAAAAAATAATGAATCCAAATATAAATACTGTAGCACTAATAAAATAACTCATATAATAACTTTTGTCCATTTTTAAAGTTAATAAAAAGGTCATTGTAGCATTCAATACTCCAAACAATATTGGAATAGCGAAAAATAAAATAAGATTAATTTCAATTTTTGGGAAATAATTAAAAAGATTAATTATATATATACAGCAAATATTATATATTGTAATGATTAATGAAACTATTATTGGTAAGATTATTTTTCCTACAAATATATTTTTTCTTTTTAATCCTATACTCAAAAGTGTTTCTAATGTTTTTTTGTTTTTTTCTTCTTGAACTGAATTATATGTAATAAAAACTGAGTATATTCCTATTATAAATAAAATAAACATTAAAAATATTAAAAAATTTTTAGGCCTATTTTCTAATAATAAAATCAAATACATTATTGGTAAATATATTAATTTTAACACCATAGAACGTTTTTTATTTACTGAAATAAATTCTTGAAATTCTTTATAAAAAATTGTTATTATTTCATTCAACAAAATCTTCCTCCTCATCATAATTGGTGGTAAGAGAAAGATAAAATTCTTTAAAGTCTTTAAACTCTTTATTTTTTTCACCTTGATATACAAATTCACCTTCATTCAATATTTTTATTTCTGTACACAAGTCGTGTATCAAGCTCAGGTCATGTGAAGTAATAATTATTGTCGTACCATTTTCATTTAATTCTTTTAATATATTGACTATAATATTTATACTCTCTGGGTCTATTCCATTTAATGCTTCATCTATCAATAACAATTTTGGAGAACCTATTAATGCAGATGCTAATCCTAATCTTTTTTTCATTCCATTTGAAAAATCATATGCTTTATCATGAATCCTTTTTGATAGTTTCAATTTTTTTAAAAGTATTTTTATTTTTTTATCATATTCATCTTTACTCAATCCTATAATTTTTGCTCTAAATACTAAATTTTCATATGCTGTTAATCTTTCATAAATTGATGCTCCTGAAGGAATATAAGCTACTTGTTTTTTATAATCAGTTATCATATCTTGATTAATTATAATCTTTCCTTCACTTGGTAATATTAAGTTAGATATCAATCTATATATGGTCGTTTTTCCAGCTCCATTGTGTCCAATTAAACCTGTTATTTCATTACTTGGAAACTCTACTGTTAAATCATTTAATACTTCAACTTTATTTTTGTAATTGAATGAAACTTTTTCAAATTTTATCATTTCTTCTCCTTTATTTTTTTATATTTTTTTACTTTATCAATCTTAATAATCTTTTATTTTTATAAAATATATTGTGAAAATATTCTTAAACAAAAACAATAATTTACATATGTATTTAATAATTTTATTTTTTGTAAACTAACGTAAATATTATATCACTTTTTATATTAACTAAAAATTTTTATTTTTTTACAAATCTATTTAAATCATTATTTACTTTTCTAAAGTTCTTTTATTCACACATATTACTTTTAGAAATCTTGATTTTTTTTATTTTTTGTGTTAAAATTAAATTAAGATACTTTATGTTAATTTAATATCAAAAATAAATTCAAATAATCAACTTAAATTTTATAATTTTTTTTTTGAAATATGATATAATCATGTTTTTATGATACAATTATATTTTTGGGAGCTGATATAGTGAAACCTTTAAAAACTATTATTTCAAATGTTTATTTTAAAATAATATATATCTTTTCTATTTTCTTATTCTTCTTTTTTATAATAATAACTATTTTGTTTTCTTATGAATATGAATTAAAAATTAAAAATACTGAACTTGCATTAAACTATACATTTGAAAGTGTTAATAATGAAATAAAAAATTATGAAACAGCTGTTTATAATATTCTTCAAAATTTTTTAACATCAAAAAATACTTTAAAACCACAAACAGAAAAAATTTATTTAAATAAATTAAAAAATATCAAAACTACCTTAAAAGTAATTAATTTAAACTACTATTTTATAAATGAAAAAGGAATAGTATATGATACAGATTATTCAACGGATTTAAATTTAGATCTCTCGATATTTAAAAATTTTTGGAAAGAAATTTCTTCTATAAAAGTAGGCGAAACTCTGATTAAATCAATCACTTTTGAAACCTTGACTGGTAAAACACGATTATACGGATATACCAAACTTTCAAATGGGAGTATTTTTGAAATTGGAATTTTATTTGAAAATTTTAATACTTATTTCAATAAAAAGTTATTTAATAACCCTTATTTAAAAAATGAACATTTTAAAGTTAAAACATATATTGGATCAATAAGTTTATTTGAAAAAAAATATCCTAAAGAAAAATATCTTTATTTAAAAAATTCTTTAAAATCAACAGTAATATTAAATACTAAATTATTCGAAAAAACTTATTATATAGGAAAATCTTTTGGTACTTCAAACTATTTTATAGAATTTACACTTGTATTTAAAAGATTAAAATATATTTTTTATTTAATTATTTTTGCCACTTTAATATTTTTAATATTCACTATTTTAATGTACAACTATATTAAAAATAAAATAAAAATTAATATTACAAAACCAACAAAACAGTTATCAAATAATATGAAAAATTTTGTTCTTACAAATACAATTGGAGAAGATATAAAGACAAATATTTCAGAAATTTTTAATATTTATATAAATTATAAAAAAATGGCAACTGAAATAATTGAAAATAAAGAAGAAATGTTGGCAACAAACGAAGAGTTAGAAGCTTCTTATCAAAAACTATATGAAAAAAATAATGAATTAGAAAATTCTTATAAAAAATTAGAAGAACTAAATAAAACTTTAGATTTAAAAGTAGCAGAAAAAACAAAAGAAATACTTAATTCCAAAGAAAAAATTATGCAAGCAGAAAAATTATCTTCTTTAAGTTTCTTAATAATGGAAATTGCTCATCAATTAAATACGCCTATTGGAGTAAGTATAACAGGAACTTCATTTATGTTAGAACAATTAGAAGAAAAAATAAAAAAATGTGATAGTTCCTTAAAGAAAGATCTTTTGGACTGGAATAACACTATAAATATCGTTTTAAAAAACTTATTAAAAAGCGCCAATATTTTAAATACATTTAAGAATATTTCTACAACAAAAAGTGACGAACTTTTAAGTATTTTTGATATAAAAACATTAATTATTAATACTTTAAATTTTTTTGATTTAAAAGATATTAAAGTTATGACAGAAATACCTAAAATGAACATTAAAGGGTATCCAGGAGTTTTAAAACAAATATTTACAATTTTAATTACAAATACACTTGAATATGCTTTTCCCAATAATACTTTTGACAAAAAAATTATAAAAGTTAATGTAAAGAAAAAAGATGATAAATTATTAATAGAATACAGTGATAATGGAATTGGAATAAATGAAGATACTTTAAAAAAAATATTTGAACCCTATTATACAACTTCAAAAAATAAAGATGGTCTTGGATTATATATAGTATATAATTTAGTAAAAAATACTTTAAATGGCGAAATAATATGTGAAAGCCATATTAATCAAGGAACCTTATTTAAAATAAAATTTTAAGTATATTTGTAAATAAATACCCCTTTAAAAGGGGTATTTATTTTTTATAATTTTAAATTTTTTTATTGAATAAAATTTAATTGTTCTTGAGTTAAATAACCTGCTGATGTATCGTAATAATCTGTCCATTCATCAACAATGTTAATATCTTCAAATCCATAATTTATAAAATCATTTCTTACTTTTATATTGTTCAAAACATTAGTCAAAAATTTTGAAGTTTTATTATCATCAATAATGCTTCCATTTGAATCTTTAATAACAAATCTTTGTTCGCTCTTATTTATATACATCTTATTATTACTATTTATAAAAATTGTATTTTTAGAGAGTCTAACACCAAAATAATTTTGAAAATTTTTCTTACTTGAATTTCTAGCTACAATCAAAAATCCTTTTGATTTTAAAATACCTGAAAGTGAAATTTCTATTGGTGTATAAAGAGTTCCGTCAGTACGTTTTCTATCTAATACAAGTTTACATCCATTAAGATTTATGCTTTCAGAAGTATTATTATAAAATTCAATATATTCATAATTATAATCATAAGCATCTACTACTTCTGTAAGATATAATTTTTTGTTGGTAAATGGTTGAAGCGTAGTAAATGAAATAATTGATGATTCTTTTTCATTATTTCCATAATATACAGAAACTTTAATATAATAAGTTGTATTTGAATTCAAATTATTTAGAGTATAAGAAGTAGCATTTTCCCCTAATTCAACGGTTTTTATAAAATTCACATTGTCTGTTGAAAGATAGATTCTATAACCTAATTCTGATTGGCTATTATCACTCCACATTAATTTTGCACTATTGGTATTAATAGAACTTACTGTTAAATTATTTGGAGCATTTATTCCTTCCGATGAAGAATTTTGGTTGAACCATCTTATTACATTACTAGCAAAAGTTCTGTTATCATATTCAAAATATCCACTGTATTTATCTGTTGTACCATCTCCTCGCGTTCCATCATTAAACATAGAACTATCTCCACATGAAACAAACTTACCTTTCCCATATGTTCCAGCAATGATATAAGGACCAGCTGAAGTTGTTGAAGTATAGACAACCCCATTTATAGTATTTGAAATCATATAATGAGTACTTCCATTCCAAACAGCAACTTGAGAAACATTTGTTGTTATTGAATGTGTTCTAATATCTGTAACTGGTGCTTGATAAACATTGTTTTCCTCATATCTAAATCCAAGTCTTCCTACAAAATCATCTGTGTAACTGTTTTTGCTATCTATTGTATGTGTTCCTTTTTTAAATCCATTGAATATTTCGACTGCATCCCAGCCATCTGCATTTCTATCAGCGCCTTCATGATCACTAATAAAGAAGACATTTCCACCATCATTAATATACTGTATTATTGCATCTTGTTCTGCTTTTGTGAAAGGAATATTTGGTTCAGGAATTATGTAAGCAAAATAATTTTTTAATACATCATAAGTGATTTTGGCATCATCATCTATTTGACCAGAACCACTTTCATCGTTTCCCCATTCTTCAACGGTGTATCCAAGTAATTTTATATCATCTGCAAGTGTTGAATAACCACCTCTTATGGTCCAATCTGCATTTCCTGCTGTTTGTGAATGAGCATTGTCAAATAATACTTTTTGAGAAATACTTCGAGTCATTAAAAATTCTTTAGAACTCTTTACTTCATTAAATTTTGTACACGATGCAAACAAAAACACTAAAAAAAGTACAACAACAGTGAAAAATTTTTTCATAACCAAACCCCCTGCAATATTTTAGATTTTTCAGTTAACATATCAAGCATAAATGTATTAACTGAAATTTTGCTTACTTAAGATTTAATTATAACATTTTTTTAACTTTATTTTCAACTTAAGCTGGTTAAAGTTATTTAACAAATTTTTCAAGTAGAAAAAATAATATGAAATTTTATCTTGTTTTTGCAAAGGTCAATCCAATGGTATTTGTGTTTAATAATTCTATTGCTGTATTCATACTTGCACCACTTGTATAAACATCATCTATTATTATAATATTTTTGGGTACTTTTTTTATTATTTCAAAGTTTACAGAATTTAATCTTTCATTTTGTGTCATTTCTGCATGTCTTTTTTTGCTTTTATTTATTAATAATTCTTTTAATTCAAAATCAAAATATTTTGCAAAGTGTTTTGCTATTTCTTTAGCTGGTATAAAACCTTTTTCATAATAACTTTTTTTATTTGAAGGAATAAATGTAACTGTATAAACTTCTTCTGGAATTTTTAAATCTATAAATAATTTACAAAGCATCTCACCCATTATTTTTGAAAATGATGGGTGAGATGCATATTTATACATTTTTATCATTTTTGATGATTTATAATAGTGTGTACAATGATATATATTATTACTAGAACGCACTGGTTCATACATATCATTTATACACTTTGTGCATATTCTTTTTGTTGTAGGTTTTCCACACAAAAAACATTTACTTTCAAATATTGTTGAAAAAATTTTTTTATAAATTGGTAACCATCTCTGCATTTAATTTTAAAAGTGCATTTAAAGCGGCTAATTTTAAGTCTCCACGCTCATTTGGATCCTTTAATATGTTGTAAGGAATTTCCCAATATTGTTTTGCTTTAAAGTATTTTAATGTGTTTAATGCATTTTTTCTTACAGTTGTTGGATATTTTTTATCTCCAGATATTTGAGCAATTTCTGGTACAAAATTTTCCAATTTTAATTTTTTTATTATTCTTATCCCTGTATTTATTCTTTTTGAAGATAAGGATTCTAAAAATGATGGAACATGATCCATTAGTTTATAGTCTTGAAAGTATGCCAAATAAGTTGCACTTCCAAGAACATAATCATCATCTATTTTTTTCAATAAATCTCTTGAAAAGTCTACATAAGACATATCATCTTTTTCTGAAGCTAACTTTAGTCCAAAACTTATTAATTTTGGGTCTTTTTCGTTTATAAAAGTTTCTATTATCCAAGATGGTAAATTTTCACTTCCACAAACTTTTTTTATAGTTTTTACAAGCTCTATTAATATTTCATTGTCTTTTTCTTCATTTATTTTATTTTCCACAAAACTTTTTATTATATCACATGGTATTGTTGCCATAAACTTTATTATCATTATTTGTGTTTGTTTTTCACACTCTGGATAAACTTCTTTTATTAAATTAAAGAATGTAATTGAATCGTTTGATTCAAAATATCTTGCCATTGCCATTTTTTTTACTGCTAATTGTACATCTTTTGACTTTATAGTTTCCGATATATTTTCAAGTGCATATATGAGTTGCTGTATTTTTATGTATGGATCATCTTTTAAAAGAGTTAATATTTTTTCACTTTCTTCTGGGTAAAATTCTAAAAAACTTACTAATAATTGATACCTAACCGTTGGATCAGGATCTGTTGTATGACTAAAAATATAATCAATAGGTTCATAACCAGAAGTTATATACATTTTTATTGCTTCTCTTCTCAATGATGGGGCTAAATCTTTAGTTGCTGCTTTTAATTGATTTTCTTCTAATAAATTCATTTTTTCAAGATATTTTAATGATGCTAATCTAACTCCCGCATCTGAATCATTAAGATAATCTTTTATTATTGGTGTATCTATTTTTAACTTAGTTAATTCTTGTATAGCTCTTGACTTAAAAGCTGGATAAGGTGAATCTAACATATCAAAAAAAACCTTTGCATTTTCTGACTTTATTTTTTCTTGAAGTAATTTATATGTTTCTATTATTTCACTGGCCATTTTTTTCCTCCTGAATAGCTATTTTTAATATATCTTTTCCAAATCCTATACTTAAAAAATTTTTTTCATAATTAAATTTTGTAATGTTATCTCCTATATATGTAATCCCAACAGTTCCATAATTATTTTTATACCTATATAATTTTTTTGAATATTTATTGTATTTTAATCCTGTTTTTTCTCCATTATTATTAGAAATAATCATATATTCATTATAATAATAAAGATTTTTAATTTCATTTTTTGTTATCCTAATTGTTTCCATTATAGAATTTTCTTTTATATTTAAATCCACTATATCATTCATGACTTTTTTTAAAATAAAGACAGTCCTTGCGAAAGTTGCAAGGACCGCTAAAGTCATTATTGAAATTATTAATAATTCAAAAACAGTTTCAATCAAAATAAATCCATTTTTCATTATTATCTTACCGGAGTTGATATATATATTGAAAAATCTTTTCTGTCTTTTGTAAATCTAAATTCTATCTTTATATCATCAATAAAATTTTGTGGCTTTGGTATTGTTACTCCAGCTTTTAATATTAAATAGTCTGCTAAATCCAAACTTACATTTTCTTGTAATGGATATCCAAAATAGAGTTTACCAAAAAATAATGACTCCTCATACTTAAATCCTGCATAAATAAAAGGTAAACTTCTTTCTTTTGTTCCAGTTGGATTATCATTGAACCATATAATGCCACCTTCAACATTTATATTATTATTTATTTTAGATATTAAAACTGATATATCCGTTATTGTAGTTAATTTTACTTGCGTTGTAAAATCTGGATACATGTCAAAAGCAAAGTCAAATGTTTTTGAATTAAATCCAAAATTCAAAGCAACATTTGATTTTTTATCTGTCAATACAGAAATTCCAGTATTAATATTTATACTAAAGGAAATTATTCCAATTAAAAGTAAAAAAATAATAATTATTTTTTTCATATTATCACTTTAAGTCTGTTCTCACTGAATCAAGGTTTTCTTGATTTTTTACAAAAGTAGTACCTTCTTCCATTTCTTTCATAGCCTTTGTTACATAATCTCTTGACTTTTTAGTTTGTTCTAATTCTTCTGTATTTTTTAAAACTTCGGCTCTTTTAGCAGCTATTATTGGTACTACATATTTTAAACCAATTTTACCCATTATTTTATCGTAATTAAATCCTAATTTCATTAGCTCACCTCTCATTAAACGTTTGTTTAAAAAATTTATACTTTCCAAGATGCTGTCCTATTCTATTTATATTCAATTGTTCTGCTATTATTATAGAAATCAATTGATTTATTGATTCATTTAAATTTTGATTAACTATTAAATAATCAAAATCATAAATTTTTGAAAGTTCCCAGTGAGCATCTTCTAATCTTTTAGTCAAATCTTTATGATTTTCTGTTCCTCTTCCTTCTAATCTTCTTCTTAGCTCTTCATAAGATGGTGGAGCAATAAATATTAAAACAGTATCATCAGCCATTACTTTTTTTATATTTAAAGCACCTTGAACATCAACATCTAAAACTATATTGTATCCTTCAGCCAATTTATTTTTTATTTCTTCTTTACCAGTTCCATAATAATATCCATGAACTTCTGCACACTCTAAAAATTCATTATTTTTTTCCATTTTTTTAAACTGTTCTTCTGATATAAAATTATAGTCTATTCCATCTTTTTCTCCAGGTCTCATAGCTCTTGTTGTATATGAAACCGAAAAAGTAAATCCATCCACTACATTTAGAGCCTTTTTTATCATTGAAGATTTTCCAGCTCCCGATGGACCGCTTACAACGTAGAGAATTCCTTTCATCCGTTAAACGCCTCTTTACGTATTCTTTCTAAAGCTTTTTCTATATCATAAAAATTTTGAGTAAATCTATTTGTTATTGTTTCAGGTTGAATTGCACTTGCTATTACATGACCAGAATCAGTTATAACAAAAGCTCTTGTTTTTCTTCCATGATTAACTTCAAGAAGTTTCCCTTGTGATTCTGCTACATCTCTCAATCTTTTTAATGGTTGTGACCCTGGATTAACTATGGCAATTACTCTATCTCCTACAACTACATTACCAAATCCTATATTTATTAAACCGTACATAAAAACACCTCCAGTTTTTTATTTATTAATATATTTTATTAATGTATATTTTGAACTTGTTCCCTAATTTTATTTATTAAAACTCTTCCTTCAACTGAATAGTTTGTTATATCTGTCATTTTAGATTTCGAAGCTATTGTATTAAACTCTCTATGCATTTCTTGTGAAAGAAAATCAAGATTCTGACCTTTTACTTCATCTTTAGAATTTATAATTGTTCTTACCTTTTTTATATGACTTTTTAATCTATCTATTTCTTCTGAAATATCAGCTCTTTCTGCTGTTAATACAACTTCAAGCTCTAATCTTTCTTCATTTATTTTTTCTTTTGAAGTTAAAACTTGTTCTATATTATTCATTAATCTTTCTCTATAGATATCTTTTATTTTACCTGCATCTATTTCAAGTTTGCTTACTAAATCTTCAACTTGATTCATATATTCAGTAATTACTGTTTTTAAGTTTTCACCTTCTGAATATTGAAATTCCTTTACTTTTTCAACTGTTTCTCCTAATACTTCTTTTAATCCTCCCCAAACCTCTTCAAGAGATTTTTCGTTTATTTTTACTTTTATTACATCTCTAAATTTTGTTAAAATATCAAGGTTTGGTTTGTCTGGTAAATTTAATTCTTCTGCAACTTTATTTAAAGCTTCATTATAAGATTTAGCTAATCCCATATCTATTTCTACAAAATCTGATGGATTCAAAAATCTTATATCAACAAAAACATTTATATTTCCTCTTTTAAATTGTTTTTTTAAATAATTTTGAACATTCAATTCAAGTGGTGAAAATATTCCTGCAAGTGATGTTTTTAAATTTAAATACTTTCCATTCAAAGATTTTATTTCAACAGTATAGTTATAGTTGCCTATAATCTTTTCTATTCTTCCATAACCAGTCATACTTCTCATATTTTTTCCCTCCAAGTTTATTATACACTAAAATTTTTAAAATTTCAAAAAATTTAATACATTTTTTAGTTTCTTTAAGAAATACTGTGCCTCTTCCATTGTATTCGTGTGAGATAGGCTAATTCGCAACATTGCTTTTGAATCTGTTTCAGAATATCCCAATTCTTTTAATACTCTACTTCCAGAAACGCCTTTGCTAGAACATGCCGCTGATGTAGAAATGTATATTCCTTCATCTGATAAAGCATTTACTATTACATCTCCTCTTGTTTTAGGAAAAAAGGCAGCTAATGTATTTGGAACAGAGTTATCAATTGGAGTTATTATCTTTGCTCCCATACTTTCCATTTCACTCTTTATATAATTTCTTATTTCTTCTATTTTTTTCATTTTAATTAAGTTTTCAAATGCTTTTTTCAAAGCCAATGCAGTTCCTACTATTCCAGGAACATTTTGTGTTCCGCCTCTCATTCCTCTTTCCTGACTTCCGCCAGTAATAATTGGAAAAATTCTTGTTCTTTCTTTTTTATATAAAATACCTACTCCTTTTGGACCATGAAACTTATGAGCAGAAAATGATGCTAAATCACAATTTAAATCTTTTAATTTAAAGTCCATTTTCCCAACTATTTGAACACAATCAACATGAAAATAAGCTTTTGGTGATTTTTCTTTTATCAAATTAGAGATTTCTTTTATTGGTTGAATAGTTCCAGTTTCATTATTAGCAGCCATTATACTAACAAGAATTGTATCTTCTCTTAAAGATTTTTTTATTTCTTCTAAAGAAATAACTCCATCTTTGTTTGCATTTACATAAGTAATTTCAAATCCTTCTTTTTCAAGCGTTTTTAATGTGTTTATTGTTGCACTATGCTCAATTTTAGAAGTTATTATATGTTTTCCATATTTTTCATTTGCTTTTGCAACTCCACGCAATGCCCAATTGATTGATTCAGTTGCACACGAAGTAAAATAAATTTCAAATGGTAAAACGCCAAAAAGTTTTGCTATACTATTTCTTGATTCTTCAACTGCATCTTCTGATTCAATTCCAAATTCATGTATTGAATTTGGATTTGCATATCTTTCAGTCATATATTTATAAATCAAATCTGCAACTTCTTTATCAACTTGAGTCGTTGCATTATTATCAAAATAAATCATTTTTCTCTCCTTTCTTATTTTTTCCATCCTTTTTTTACTTTGAAATTTTTTAAATATTCTAACATACTACACAACTTTAAATATTGACAGTATTCGCATTCATAGTATTTTTCTCCAGTTTTTCTATTTCCATATTTCTCTGAAGTTTCTTCTAAAAACCTTTTTATTTCTCTATCTTTTATTGAAATAGGGTCAAAGTTTGATTCTTCAATATTTGATAATATTTTCTCAAACCAATTTTCATACTCTTTTAAATCTAAGGCAAGAAATTGTTTGCTATTACCTTTTTTCTTTATTATAAACATATCTTTTTGTATTTTTATAAACTTATCTCCCATTTTTCCAGATCCATCTAATGGTTGAAACTTTAAATAAACATCTTTATTCTTTAAATCAAACTCTTTTGAATTTTCTAAAACCTTATAGTATAAAAATAATTGTTCACTTTGAAATGATGCTTTATTTTTATAATCAATAATAGAATAAGCTTCTGGTTTTAAATTATCTTCAAATTGATCCATTAAATATATATAATTTCCATTAGTTTTATCAATTCTATCAATTCTAGCCTCAGCCTTTAACTTATATTTTCCAATTTTTATATTAGTTTCTTCAAAGTATTCTGTTTTTAAAACATCAGAATAGTTTAACTTTAATTTTTTACCCATGTTTATATAATCTTTTAAAATTTCACCTATTGATTCATACAATTCCTCAGATATCTTTTCTATTTCAACTTCTTTTATTGCAGAATATTTTTCAAGTCCTTCAGTAATCATTTCTTTCCAAATTTCTTCAATAATATTTGAAAGTTCATTAATTAATTTTTCTCTATTCAAATATAAATTATCCATATGATCATAATATGGATATTCTCCAAATAAAGTTTTCATAGCAGCATGTTTTATCAATCCTTCAGAAAAGATATTAAAATCTTTATCTCCTCTTATTTTAGCTATGTAAGATAAATAATATCTAAATGGACAGTCAACATAAGTTGAAACTTTGTTATGACTTATAGTTCCAATTTTAGTTTTTTCATTTATTTTCCATTTATTATTTTTTATGTTTTCTTTTAAATTTTTTACTTCTTTGGTTAAATTAAAATCTTTATTTTGAAGTATATAATACATATCCTTTTCTAATTCAGAAAAAATTTCATCCGCATCTTTTGGAATAACTTCTTTTTTTTCTCCATACATTTTTACTTCTTTTATATCAAAATATTTGAAAAATTCTTTTTCATATGGTGAAGATAAAATAGGTTCTCCATCAAGAGTAGAAATAGGTGTAGAAAAAATTATATTTTCTGAAAAAATCATTGATATAAACAAACTTCTTCTATGCATTTTTTCTGATATTTTCAAACTTTCATTAGCTATATTCATTGAAGTTAAAAAGGGATTAATACTCACTTTAGGGTAATTATTTTCAGTAAAATCAATAAAATATTTGTATTTTTTATTAACAAATCTTGAATCGCTCAAATTCATTATTTCAATTGTATTTGAATACTTTTCTGAACTTCTAAATTTTTCTATTTCACATAAATCATTTATTATTCTATAAAATTTAGAAATATTTATTTTTTTATCCCCAATAATTTTTTCAAGAGTTCTTTCAGTTTTTATCAACATTTTAGAAAACTCTTTTAAAGCTATTATTTCAGAATTTATAACTTCAAAATTTTCATATTTTTTCAAAGTTTTTATTTCTAAAATTTCCTCTTCTTCCCATTTTTTTAAAAACTCTCTATAAGTTGATACATTAAAGTTTTTTGAAGATTCTTCTATTTCTTTAAGTAGTTTGAAAAGATCTTCGGACACTCTCAACAATTCATTTAATGTTTCCAATTCTCTTTTAACTCTTTCTGATTCTTCTGTGTTTTTTATCGAATATTTAAGTTTATTTATTTCATCTTCAAAAGCTGAATTCCATTCGTCTTTTCTTTTTTTTAAAGATGATTTAGAACTATAAAAAAGATTTAATTTTTTTAAATATTTTTCAAATTCATCAATATTTATATTGATTTTACCACAATATCCACTTTCAATCATTGCAAGCATATCTTCTATTTCATATCCTCTAACCACAGTTTTCAATGGTTGTAATAAAATAGAAACTATTCTACTTTGAGATAAAGGATTATCATCTTTAAATCTATGAGGAACATTTATTTCATCAAAATAATCACTAAACATCTTGGCTGTCATTGCATCAGAAACAACTACCCCTATTTCTTCTGGTTGAATTCCAACTAAAATTTTTTTCTTTATATCTTTAGATATTTTTTCAACTTCTAAAACAATGTCAGAAGTTCTATAAATTGAAATATTCTTTTCTTTAAATACATCTTTTAATAAAATTTGCTTTCTTTTAGAAACTTTAATTTTATCATCCATAAATTTATAAAAACCTTTTAAAGATTCAAAACTTCTATCTTTAAGCATTTCCCAAGCATATATATGTGAATTTTCAAAAGAATCAACTAATTTTTCTAATACTTTTGAAGTTACAGGAGATATATCAAAAAAACCAGATATTACTATATTTTTCCCTAATTTATCTTTAAAGTTAGTATAAAACCATTTATAAATACTAATAGAATCATAATTTTGCCCTATATTAATTTCATCATTAAATTTTTTATTTAAAATATTTTCTAATGATTCTTCTAATTTCTTATATAGTTTATAAAAATTAGTATTAGTTTCCATATTTTCTAAGTTTAAATAAACATTAGAGTAAGTTAAAGCTTTTTTATCTTCAATCTTATTTATTTCCCATTTTTTTTCAAAGATATCTAATATATACTCTGTTGATTTTGTAGATTTAGAAAGTACATTTACATACTTTGAAAATTCCACATCATTTTTTTCTCTTTCTATTAAATCTTCTATTTCTTTTTCAATGTATATCTTTAAAAAATCTCTATCAATTATAATTGAAGTTGGATTATAAACTTTAAAAATTTCCGTTATGTATTGATTTATAACTCTAAATCCATCTCTATTTATTGTTTTATTAAGTTTTTTTGCAACTCTATCTGCAACTTGTTTAACATAAAAACCAGAAGGTCCTATAAAAAGAAAATTTAAAGGATCTTTTTCATATAATTTTTTAACTTTTTCTGCAACTTCATCAAAATGAGTATTTTTTAATTCAAAAAAATCAAAATTTATCATAGCTAACTTACTCACCTTCTTTTTAAATGCTAATATATTTTACCATATTTATTTGAATTTAAGCAGAATTTATTAGTTAATCCTTAAAAATTAAACATTAAAAAGAAAATTTAACTTAAATGATATGAATTTTTTTTCATTTTATATGTTATAATATCGTGGAAGTTTCATAAATTATAAAAAAGGGGGCTTATTCATGAAAAAGTATACAAAGACACATGAATTCGTTTCTGTTGATGGAAATGTGGCAACTGTAGGAATTTCAAATCATGCAGCAGAAGAACTTGGAGATATAACTTACGTTGACTTACCAGAAGTTGGAACAGAATTATCAAAAGGAGATACATTATGTTCTGTTGAATCAGTTAAATCAGCAGCTGATGTTTACGCTCCTATAAGTGGAAAAATCGTTGAAATTAATGAAGAATTAGATGCTACTCCTGAAATTATCAATGAAGATGCAGAAGGAAAAGGTTGGATTGTAAAAATCGAACTTTCTAATACTTCTGAACTAGATGAATTATCTGATACCGATGCAGAATAAATAAAAAAAGAGTGTTTAAAACACTCTTTTTTTATTCTTCTATAATTTGATTTTCTTCATTCTTAAATTCATCATCTTTTAATTCTTCATTTAATTCTTCATTCTTTTCTTCTTCAGTTTTTTCTGGTCTCACCCATATATTTGTTTTTCTTTTATCATCATATATAAATTGAATATCTTCTGGAATTTTTATAGTATCTGCGTATTTTGTAATCACTTCAACTATTAAATCTTTAGGCAAAGAGGTTATAAACCATATATCAGATAAATATACTCTATTATTTTTTCTAACTGCAGATTTAAAAACAGCACTTTCTATTGCTTTCAAAAATATAGTGAGAGGTTCTTCTTTTTCAAAACCTTTTCCAGTGTTTTCTCCAAAAACTTGAGACATACTTCACCTCCTCATCTTTCTCTAAGTGAAACTTCAATATTGTTTAGTTTTTTCAACATTTTATTTTCAACTCTATTTACATCTTCATCAGTTAAAGTCCTATCTGATGCTCTATAAGTAATAGTTATAGTAATACTTATTTTATCTTCATCCATATTTTTTCCTTTGTATATATCAAATATACTTATTTTTTCTATTATCTTTCCTGATTTATTTATAATTTCCTCAATTTCACTGAATGCAACTTTTATTGGAACTATAAAAGAATATTCTCTCTTTATTGCTGGATATTCATAATTTTTATTTTCTTTTGTTAAAGGTACCTTTAATTCAAATAACTTTGATAAATCTAATTCACCAATATAAACTGGTGCTTTTATTCCATAAAACTTTTTAGCATAGTCTTTATCCACTAATCCTATAAAACCTACTTTTTCTTTATCAACAAAAATTTCTGCAGTTTGAGAATAAGACATACCTTCTATTTCTACTCTTTTATACTCTGGAATTATATTTAATTCTTTAAATAATGTATCAACAGCTCCCTTTAAAGTATAATAAGAAACTTCTCTCTTATCCGTAAAATCATCTGGGTTTTCTCTTCCAGTTGCACCAATAGATAAGTGTAAGGTTTCTTTTATCTTACTTTCTAAGCTTTCATCTTTTGAATAAACATTTGCAATTTCAAAAAACTTTACATCTCTATTCTGATTTCTAAAGTTGTATGAAATACTTTCAAGAACTCCATAAGAAACTAAAGGTCTCATATATTCATATTCGGCTGAAAGTGGATTTAATAATTTTATTTCTGATTTTTCCATCCACATTTTTTCAATATTCATAAAAGAGTACGTCATTATTTCATTGTATCCAGTGCTTCTCACGATATTAGAAACTTCATCTTTAAAAGATACAACTGCACCCTTTGTACCTGCTTTCATTACTGTTTCTGGAAAAGATGATTCAATATTATGATAACCATAAATTCTTCCCACTTCTTCAACAATATCTATTTCTATTGAAAGATCATGTCTATTTGTTGGTACAGTAACAACCCATCCAAATTCTGTTGTTTGATATTTAAATTCAAATGAATCGTATATCTTTTCCACTTCTTCTTTTGATATTTCAACACCAAGCCTATCTTTTATATATTCATATCTAGCCTTTATAGTTTTTGGTTCTATAATATTTGGATAAACATCTACCATTTTGCCATCTGATTTTCCATTTGCAAGTTCAGATATGAGTTTTACCAACCTTCCCATAACAAACTCTGCATCATTTGGATCTACACCTCTTTCAAATCTAAAAGATGCATCTGTTTGAAGTTTATGATATTTTGATGTTTTTCTTGTATTTACAGGATCAAAATGAGCTACTTCTAATAAAATTCTTTTTGTGTTTTCATTTATTCCACTGAGTTCTCCACCCATAACTCCACCAAGTGCTAATATTTTTTCACCATCTGTTATTAAAGTTTCTGTTCCGTTTAATTCATATTTTTTTTCATCTAAAAGTAAAACCTTCGTCCCTTTTTCGCCTTTTTTTACAACTATTTGATTTCCAATTAAATCCATATCAAACGCATGTACTGGATGACCTGTTTCAAGCATAACATAATTTGTTATATCTACTATATTATTTATACTTCTTATACCAGCAGATGCCAATCTTCTAACTAACCATATTGGAGAAGGTCCAATCTTTATATCTGTCATTATAGCTGCTGTATATCTATTACAGTCTGTTGTTTCCAACTTTATAGGAAATACATCTGTTTTTTCAAGTTTTGTATATTCTGGTAATTTAAAATCTGTACCAGCATTTATTGTTTCTAACTCTTTTGCCACACCAACATATGAAAGTAAATCTGGTCTATTTGCAAAAACTTCTATTTCAATAACTTTATCATTTATTTTAAAGTATTCTAAAAAATCTGTACCAGGCTTTACATCTTCATTTATTTTATAAACACCATGAGCATTTTCTTCAAGCTCAAACTCTTCAAGAGAACAAAACATTCCTTGAGAAAAAACTCCACGCATCTTTCTCGATTTTATCTTAAAGTTATCTTTTAAAACAGCCCCATCAACAGCAACTGGAACTGTATGACCTGGTTTTATACTCAAATCGTTAGTTACAATTATTATAGGTTCTTCTTCACCAACATCAACTGTACAAACCTGTAGTCTATCTGCATCTGGATGACCTTCTGTTTTTAATATCTTACCAACCTTTACTTTTTTTACACCCTTTGCTATTTCATCAACCGTTTCAACATTCGTTGTATGTTGTTTTATCTTATTTACAATTCCAGTTTCATCTTCTTTTAACTTTATATAATCACTAATCCATTCCATTGATAATCTCATTCAAATCACTCCTAATCTATGAATCTTATATCATTTTTATAAAGTTCTCTCATATTAGAAATACCATACTTCAACATAGCAATCCTTTCAACACCTACACCAAAAGCAAAACCTTGCCACTTTTCAGGATCATATCCAACATTTTCAAGAACCTTTGGATGAACTAATCCTGCACCAAGTACTTCTATCCAACCAGTTCCTTTACAAACATTACAACCTTTTCCACCACAGTTCATACAACTTACATCTACTTCAAATCCAGGTTCTACAAATGGAAAATAACTTGGTCTTAAAAGAACTTTTGTATCTTCATTATCAAATATTTTTTTAGTCAATTGTTCTAAAAACATCTTTAAGTTTCCAACAGTAACCTTCTTATCTATAAACAAACATTCAAGCTGATGAAACATAGCTGAATGAGTTGCATCTATTTCATCTTTTCTATAAGTTCTACCAGAAGAAATTATTGCAAGTGGTGGTTCCTCTTTCAACATAGTCCTTATTTGAACTGCTGAAGTATGAGTTCTCAATAAAAGATCATCTTCTAAATAAAATGTATCTTGCATTTCTCTTGCTGGATGCCATTCTGGAGTGTTTAAAGCATCAAAATTAAACCAAGGTTCCTCAATTTCTGGACCTTCTACAACAGTAAAACCAAATTGCGTAAAAATTTCATATATATCTCTTATTGTTTTTGCTATCAAATGTTCTTTTCCAAAACTTCTCTCTGCACCATGAGCCGTAACATCAACCCAATTTTTTAACTCTTCTTGTTTTTTTATTTCTTTTTTTATTTCATCTAACTTCCCATTCAATAATCTTTCTATTTCTTGTTTTAATTCATTAACTTGCATTCCATATTCTTTCTTTTTTTCTGGTTCTATTCTGCCAATGTTTTTCATTAAGGCTGTTATTTGACCTTTTTTACCAAAGTACTGTGCTTTTATATTTTGAACTTCTTGAATTGTCGAAAGAGATTGAAGCTTTTCTTTTAATTCTTCAATCATTGTTGTCTTGTCTATCATTTTCAATTACCTCCCCGGTTTTTTCATCTTTACTTTTTTCTTTTATAAAGTTATATTTTTTTAATAATATTAAAGATACAATTAAATTTATTATCATTGAAACTATAAATATAAAATAAGTATCATTTACAAAAGGAATAAAAACTAATATTATTAAACTCATAGCTCTAAAAATTTTATTTTGAAAAATATTTTCTATAAAAACTATTGAAACTCCTATAAAAAAAGGAATAGATATTGTTGAATAATCAAAAAAATATGAAGTTAAATAAATAAAAAAAGATAAAATTGAAAACATAAATATTGGAATTATAAATTGTTTTTTATACTTAAAACTCAATAAAAAATATTTTTTTGAAGAAAAAGGTCTATAAACAAATCCTAAAATAGCTATAAATATTGCAAAAATAAAATAATAAACATCTTTTGTAATTTCAAAAACTCTTGATCTTTTTAATGTATCACTTTCTATAAAAGTAGGAACTATAACTTTTTTTTCTAAAACAGAAATATTTGAAGCAATTATTTTTAAATCTGGAAGTATTTTTCTAAAGTACTCAGTATTTTTAGGTATATAAACTAACATCTTACCATCACTATATTTTATAACAGCTTTTGCATATTCTGGCATGCTATTCATTTCAACAAGTTTTTCCTTGTTAAAAAGTACTTTACCTATATATATAATTTTTTCATTCTCAAAAATTTTATTAGAAATATCATTTAAAAAATATATTAATAAAAAATATATAATAAAAATAAAAAATACTTTTTTTATTTTCACTCTTCTCCTCCCCTCAATAAAACTTTTCATTGTTTTCTTCAATATTTATTTTTGTCTTTTTAATTCTAATATCAAATAATTTTGCTTTTATTTCTTCTTCAATATCATCATAAATTTTTCCAGTATTTATATCTTCATAGAAAAGTCCATTTTCTAAATAAATTTCATTTTCTTTTTCATCCAATAAAGTATCTACTGTAGCTTCAAATAATTCAGAAGAATTACTTATAACAAGAACAGCACCTTCTTTTTTATAATCTTCAATAAGTTTAGATATCTCATAAAGTTCTTTTTTATTAACTTCTTCAACAGTAGCAAAAATAAAAACTAAGTGTCGCCTCTGAGGTTTATTCTTTAAAATATTTAAAATACTATCTTCCCATAACTCTGGAGAAACTATGTGAGTAAACGTTCTACCTATCCATGTTGATTTATCTAAAACAAGATTATTTATAGTAACCTTTTCTGCAAATTTCTGTGGTTCACAAATTAACTTAAAAAAATTTTTTGAAAGTTTTTTTACATTTTCTGTATAAATTCCTAAACAATTTCCTTTTTCTAATGTTATTTCTGGAAATTCAATACTTGGATTTAAAATTCTCAGAATAACATTGTTTACTTCAGACATTATTATTCCTCCTGTTTTTTCTCAATTCATTTACAATTTCCAAAGTATTAAAATCATAAACCTTTGATGAATTAATAGTAGAATATCTATCTTTGCCAACATATAAAGAAGGATTAAAATTATTATTTAAATTTTCATGAACTTCAATAACTTCACCAACTACAAAATCATGATCTCCAACATTAATAATATTATTTAATACACATTCAAATGAAAAATAACCTCTTACATATGGAGTTTTTATTTTATTTGATTTAACAATTTCAATATTTAAATTTTTTATTTTATCAAATTCTCTACCAGAAATCCTTCCAATTTGTTCTATCATTTTAGAATCTTCAAAATTATAAAAAGTAACAGAATACTCTTTATACTTTGTTAAAAAATCATAGGTATATCTCGTTTTTTTTATTGCAAAACCGAATAAAGTTGGATTAATAGACAGTGGCGTACTCCACGCAACAGTCATTATATTATAATTTTTTTCATCTCCAGCCATAACAGTACACACGGGAAGAGCAATATTTCTATAAAAACTTTTTATATCCATAAAAGCACCTCTTTAAGAATATACATTTTTTATACATACTTTCTATTATACATTAATAAAATTAAATTTTCAAAACAATAATTAAATTATATACTTAAAATCAATGTAAAAATGATTTGATATAATGAATGTGAATATTATTTTATTATTTTATTGGAGGTGTAGTATGAAAATATTTTTAGACACGGCAAATATTGAACAAATTAAAGAAGCACAAAAATTAGGAATAATTGATGGAGTTACAACAAACCCTACATTAGTTTCTAAAGAAAATGCAGTTTTTGAAGAAAGAATATCAGAAATTTGTGAAGTTGTAAAAGGACCTGTAAGTGCAGAAGTTACTTCAAGCAACGCTGAAGGAATGATTGAAGAAGCTAGAAAATTAGCAAAAATTAGTGAACATGTAGTTGTTAAAATACCAATGACTCAAGAAGGAATAAAAGCTGTTAAAGTCCTTTCTGCTGAAGGAATAAAAACAAATGTGACTTTAGTTTTTAGCGCATTACAAGCTATATTAGCAGCAAAAGCAGGCGCAACATATGTTAGTCCTTTTATAGGAAGATTAGATGATATAGGACATATGGGAATGGAATTAATTGAACAAATAGTACAAATTTTTAAAAATTATGATTATAAAACAGAAATAATTGTTGCAAGTGTAAGACACCCCGAACACGTTCTTGAAGCTGCAATAGTTGGTGGAGATATAGTAACCGTACCATTTGCTGTTATTGAAAAAATGTTTAAACATCCAATGACAGACTTAGGACTAGAAAGATTCAATGCTGATTGGAAAAAATATCAAGAATATATGAGTAAAAAATAAAATTTTAATATAATAATTATTAAACCTTTAAAACAAGTGAGTTTCAACTTTTGAAACTCACTTGTTTTTTTGAAAACATAAAAAATTTTTTTATTTTATTTCTATTATTTTAGTAGCTATATTTTCTATAAAATACCTATCATGTTCTATAAAAATCATAGTTGGTTCATACTTTAATATTGCTTTTTCGAGTTTTAATCTGGTTGGTATATCTATATAATTAAGTGGTTCATCCCAAATTAAAACAGTAACTGGATCTACTATACTCAAACATAAATCAATTTTCTTTTTTTCACCATCACTAAATTCTTTTGCTTGTTTATCAAGTATTTCACCCCTCACTTCAAAATTTCCAAGAATTTGTCTAAATTTATTTTCATTTATTTGCTTTTTTTGAATATATTCATATAATGTTGTATCTTCCCAATTTGATACTTGTTCTACTCTTGAAAAATTTATGAATTTAGGTTTATATATATTTCCGCTTTTAATATTAATTTCATTAAAAATAGCCTTTAATAATGTTGTTTTTCCACTTCCATTTTTTCCAAAAATAGCTATTCTTTCTTTTTTGTATAGTGTAAGATTAAAGTTTTTTAAAATAGTATTATTTCCATATTCAACATTTAAATTATAAATTTGAAGTAATTTATTTGGAATTTTATTTGAATTAAATATTTTTAATTCATAATTTTTTTCTACATTTTTTAAAAGTCCTTTTTGTTCTTCAATATTTTTTTGAATATTTAACTCAAAATTTTTTGACATTTTCATTAATTTTTTTGCTTTACCCCCAACATAGCCTTTGTCTATAATACTTGTATCTGGATGGTATTTTTTAAATTTATCTTTTTCTCGATTATTAGCCCAAACTTTTGATCTAATCAAGGCTTCTTTTAAATTTTTTACTTTTTTCTCTATTTTTTCATTCTTTTTCTTTTCAAAATCTTCTTCTAATTTTAAGTTGTATTCTAATTCGCTATAATTTGTATTTAATAATTTTACATTAGATTTATTAATTGATATTATATGGTCTATACAAAGATCTAAAAAATACCTATCATGAGAAACAACTAAAAAATTTTTCTTTTTAGAAAGATACTTTCCTAGTTGTTCTCTTGAACTTATATCAAGATGATTTGTTGGTTCATCTATGAGCAAATAATTATCTTTTCTTAAAAACATTGCTATTATCATTATCTTAGTTTTTTCTCCACTACTCAATGTTTCATATGGTCTTTTTAATAGTTCTAACTTTAATCCCATTTTATTAAATTCTTTTTCAATTAATGTATCTATAATAAATCCATTTAAAAATGTATATTTTTCTAAAACTTCACCGTATTCATTTATATTTTTATTTTGTAATAAATAATCCATCTTTTTTTCCATATCTGAAAATGGGGCTATTAAATTTTTTAGAATATCATATGTTAATGTATATTTTTTTTCAATTTTAAATGGAAAATAACTAACTTTAATTGGAATATTTATTTCTCCAATGCTTGGTTCTAAATCTCTTTTTAAAAGTTTTAATAAAGTAGTTTTTCCCCTACCATTTTTTCCAACTAAACCACATTTCCATTCAACATTTATTGTAAGATTCAAATTTTGAAATATGAGTTTATACGGTGATGTATAATAAAAAGATAAATTATTTAATTTTATATTAGCCATAGTTAATCACTCCTTTTAAAATAAGAATTAACTAACTACGGTTAATCACTATTTCCCGTAGTTAGTATTAAAGATTAATTTTATTATTCATGGGATTACCTCCTTTATTTGATTTTTATACTATTTTTTTAAACTCTAAAATATTTATAAAGATGCTAAATCACAATTATTTTTCCAAATTACTGACTTTGTCATTGATAATTGTATAATATTCATCTTCTAAAGCATTAATTTTATTATGTATATTTATCTTCATCAAAAAAATTAATCTATTTCATTATAACATATTTCATTTGATTTCAAAATTTTACGTATTATATAATATTTTATATAAAATGATTTTAGACGATATTTTTTCTTAAAAATTGTAACATTGAATTTTTTTATTTATAATGTCCTAATTCCAACCATTTCCATCTTAATGTGTTTCATGTAGTACTATGACCTCTACTAAATTCTACTAGTTCAACTAAATACCACTGCATATACTGCTATCTCTAAGTCATTATTTGTATGAGATATAAATATAAAAGATTGTTAAATTCAAGATTAAAAAGTTAGATAAGAACAGTAAATTTTTTATAAAAAAATATATTCAAAACTTAGAAATAAAATATTTAATGATCTTGTAATATTTGTTGCTATAATCGATAAATTAACTTATAGAGATTATATTGTTAATATAAACATAGTCATGATTAAAATAAAAGAAGAGTTGATAAAATCTTTGAATTGTGATTGAATGGATACATAAAAAAATTAGAGAAAATATAATACAAATATAAAAATTCCATGTGTTATAATAAAACTGAGGTGATCAAAATGAAAAAGGTTCCATATGGACTTCAAAACTTTGAAAAAATACGAACTGAAAATTTTTACTATGTAGATAAAACTAAGTATATAGAAATAATTGAAGATATGCCAGAATCATACATCTTCTTTTTAAGACCAAGAAAGTTTGGAAAAAGTTTGTGGCTTGACACTATGAGTAAATACTATGATGTTAAGTATTCAGATAAGTTTGATACTATCTTTAAAGACTTGTACATTCAAAAACATCCAACACCTAAAAAGAGTAGTTATCATATTTTAGAGTTTAATTTTTCTGGATTGAATACAGATAGTAAAGAAGAGTTGAAATTTGACTTTAATTCAGAAGTTTTTGAAAAATTATCAAGTTTTATTAATAGATATAACTTAAATATAAAATTAAATAATTCTATAAAAGAGCCTTCAACTCTTTTGAGAACATTTATAAATCAGTATAAAGAACTAAACTTAAAAACAAAAATATACTTATTAATAGATGAATACGACCACTTTGCAAATGAACTTTTGAGTTTTAAACTCGATGAATTTAAAAATATCGTCAGTAAAACAGGTTTTGTTAGAAAGTTTTATGAAGTAATAAAAGAAGGGACACGATCTGTTATAGATAGATTATTCATAACAGGAGTAGCACCAATAACCTTAGATAGTTTAACGAGTGGATTCAACATCTCAAAAAACATGTCAACAACCTTAGAGTTAAATGAAATGATGGGATTTACTGAAAGTGAAGTCAAAGATATTCTCAAAGAGTATCAAATAAATGATGATATTTTACAAGATATGAAGTTTAGCTACAATGGATACATGTTTAATGAACGTGCAAGTGAAAAGGTTTACAACAGCGATATGGTCTTATACTTCATCTCTGAATACAATAGAGAAAAAAGAAAACCAAAAGATGTAATAGATATGAACATAGCAAGTGATTATAAAAAGATTCAAAATTTATTTAAACTTGGTGAAGTTGTTGGAATAAATAATATAGATAATGAAAAAGAAGCAATAGGAAACCTTTTAAATGAAATATTGATGACAGATAAAACAGAAATAGAAGAGTTAACAAGAGCATTTAACCTTGAAAGGAAGATGGAAATAGATGATGTTAAAACCTTACTCTTTTATTTAGGCTTTTTAACAATAGAATCAAAAGGATTTGTGATGAACTTAAAGATACCAAACTATTCAATAAAAAAGATATACTCAGAATACTTCTTAGAAATGATAAAAACAAGAGCAAAAAACTATATAGATACAGGAAAAATAAAGATAGCAATAAGAAAGTTGTTGGTAGATGGAAATATAAACTCGTTGGCAAGTGAAATAGAAAGTGTATTAAAAAAACTATCAGACAGAGACTTTCAAAGCTTTAGTGAAAAACACATAAAGATGCTGCTGTTTAGTTATTTAATCTTAACCCCCTGGGCATACGTTAAAAGCGAGTATCCAGTAGAAGGTGGATACATAGACTTAGCAATGTTTAAAAGATACGAAGAAGTACCCTACAATGCAATAATAGAGTTAAAATACATAAAAAAGAAAGACTATACAGAAAAAGTATATCAAGAAAAGATAAAAGAAGCAGTAAATCAAATAAAGAGATATGAAAAAACTATAAACAAAGAGTTCAACGGACCATTAAAAAAAGTAGTAATGATCTTTGTTGGCAGAGAGTTAAAACATCTTGATGAGGTTGAATAAAAAATATTTTTTAATATTTTTTTCTCTGAAAATTTAGTTCTTTTAATATCATTATAGTAAATTTCATTTTCATTTAATATTCTAGATATTAAATATGTTAATATAGTTTTTTTTACCATTATCTCCTTTAATTCCAATTATATCATTTTTATTAACTTCAAAAGTTAAATTATTTAATTTTTTTCATTTAAAATAAAAAATTATATACTATTATAAAATTTTTTAATATTACTATCAAATTCCTTGTATATATTTATCTATTGTATTTTTAATAACGCTATGTAAAAATATATATTATATAATATAATTAAATATAAATTTAGATAAAAGGGGGAAAAAATGAATAATAATAATGACTTAACATTTTTTACAAATGAAAAAGGAAAAACACTTGCAGATAGATTTAGAAAAATACTAATGAATAATACTCAATTTTTTGATGTTTTAGTAGGGTACTTTAGGACAAGTGGTTTTTATGAAATGTATGAAGCTTTGGAAGGTGTTGAAAAAATAAGAATTTTAGTTGGATTAAATGTAGATAAAAAAACTGTAGAATTATTAGAAGCTTCAAAAGATATAGAATATTTATCTACAAATGAAATAAAGAAAAATTTTAATAAAATAGTAAAAAAAGAAATGGATAATTCAGAAGATAAAATTGATATAGAAAAAGGTATTAAAAAATTTATAGAGTTTATACAAGATGAAAAATTAGAAATGAGAATTTATCCTGATGAACCACTACATGCTAAAGTTTATATTATAAGAAAAAATGAAAAAAAATCAGAAGATTTTGGAAAATTAATAACAGGTTCCAGTAATTTTTCACATAGTGGACTCAAAGGAAACCTTGAATTTAATGTAGAATTAAAAAATAAAAGTGATGTAGAATATGCTTTGGAAAAATTTGAAAAATTATGGGAAAAAGGTATAGATATTACAAAAGATTATATTGAAACAATAACTAAAAAAACTTGGATTAGAGAAGATATAACTCCATATGAGTTATATTTAAAATTTTTATATGAATATTTTTATGATGAAATTAATGATGATAAAATAAAATTTAAAGGTGAAATGCTACCAGAGGGATTTAAAAAATTTCAATATCAAATAGATGCTGTAAATCAAGCTAAAAAAATATTAAATAAATATAATGGAGTATTTTTAGCAGATGTAGTTGGACTAGGTAAGACATATATTGCAACTCTTTTAGCAAAAGAATTAAAAGGTGGAAGAAAATTAATTATATGTCCACCTGTATTAGTAAGTTATTGGGAAAAAACACTTGTTGATTTTGGGGTATCTGCCACAGTAAAATCTTTAGGAAAATTAGAGGATATTTTAGAAAATTATGAAAATGATTATTTTAAATATGTTTTTATTGATGAAGCTCATAGATTTAGAAATGATGGTACTTCTAATTATGCAAAATTACATGAGATTTGTTTAAATAAAAAAATTATCCTTATATCAGCCACACCACAAAATAATTACTCTACAGATATTTTAAATTTAATAAAACTTTTTCAACCTAAAAATAATTCAAATATTATAGAAGGCCAACCAAATATAGAAAACTTTTTTATGAAAATGTTAAACAATGAAAAAAAATCAAAAAAATTATACAAAAACAATTCTACAGAAGAAAATAAAAACAAATTTGAAAAAATAATTAAGAAAAATTCAGCAGAAATTAGAGATAAAGTTTTAAGAAAAATCATGGTTAGAAGAGTAAGAAGTGAAATAGAAAAATACTATAAAGAAGATATGGAAAAACAAGGTTTAACTTTTCCAAAGATAGGAACGCCTGAGCAAATAATATATAAATTTGATGATGAAATAGATAAATTATTTGATGGCATATTATATTTAATCAATAATTTAACTTATTCAAGGTATAAAACATTAACATATTTATTAAATCCAACAGAAGAAGAAAAAACATTAATCTCTGGACAATTAAATTTAAAAGGATTTATGAAAGTTTTATTGATAAAAAGACTTGAAAGTAGTTTTTATGCTTTTTCTAAATCCGTATTAAGATTTAAAGAATCATATATAAATTTTATTAAAATGTATAATTCTGGAAAAATATATATTAGTAAAAAATATGATATATATGAATTATTAAATGATGAGGAAGAAGAAAAAATCATAGAATTAATAAACGATGGACAAATAAAATATTATACTCCAGATAATTTTAATGAAAGTTTTATTAAAGATTTAGAAAAAGATTTAGAAATACTTGAAGAAATGAATAGAAATATTAAAAAAATAAATTCAGACCCAAAATTGGATTATTTTATTACTGAATTGAACAATAATAATATTTTAAAAAATTCAAAAAAAATTATATTTACAGAATCAAAAGAAACAGCAGAATATTTAAAAATTCAATTACAAAATAAATTAAATAAAAACGTAATAGTATTTACAGGAAGCTCGAGTTTAGTATTAAAAGATATAATAATAGAAAATTTTGATCCAAATATTCCAAAAAATAAACAAAAAAATGATATAGAAATACTTATAACAACTGATGTATTAGCAGAAGGAATAAATCTACATAGAGCAAATATTTTAATAAACTATGATTTACCTTGGAATCCTACTAGAATTATGCAAAGAATAGGAAGGATAAATAGAGTAGGAACTAATTTTGATAAAATACATGTATTTAATTTTTTCCCTACAAGAAAATCAAATGAACATATCTCTTTAAAAGAAAATATTATTTCAAAATTACAATCATTTCATAATACTTTTGGTGAGGATTCAAAATTTCTTACAGAAGATGAAGAAATAAATTCTTTTGAATTTTCAGGAGAAAAATTATATGAAGCATTGAATAAAAATTTAAGTTTAGATGAAGAAAATTGGGACGATTCCGAATTAGAATATTTAAAAATAATAAGAGATATAAGAGATAATAATGAAGAATTATTTTTAAAAATTAAAAATTTACCTAAAAAAAGTAGATCTTCAAAATGTAATAATTTAGGCAAAGAAAATGTTGTTAGTTTTATACGCGATGGAGAATTAAAAAGAATATATATTTGTAATTCTGATTTTAATGGTAGAGAACTTACTTTTTTTGAAGGAGTAAAAATATTAAAATGCCAAAAAGATGAACCTAAAATCAAAATAAATGATAACTTTTTTGATATGTTAAATTGGAATAAAGAATATTTTAAAATCAAAAAAGAAGAAAATATTAAAAAAACACCAATAAAAAAAATAGGAAATGATGCAAAGTTTTTAAAATTAATTAAAGGATTTGAAAATTATAAAAAGACCTTTAGTGGAAAAGAAGAAAAAAGATTTTATAAAATAAAAGAATTATTTGAAAATGGATATTTATCTAAAGAGATAATAAAAAATATTAATAATGAAATAGAAAAATTATTGAAAAAAGAAACTAATCCTCATAAATTATTAGATATTGTTTTTGAAATAATACCTGATAGTTATAAAAATATTGAAAAAACAGACGTAAAAAATAGTACAAGTAAAATAGAAGTTATTTTATCAGAATATATTAATTAAAGAGGTGAAAAATGAAACAAATAAAACAAAAAAGAAATGAAATCATAAAAAAATTAGTAAGTAATAGATTTAATATAGAAATTTTTAAACAATTTACTGCAAGAGTTATAAATACTACAGTAAGAAATAGAACTATTCAAAAGGAACCAAAAGAATATACAGAATATATAGAATATTACCAAATTGTAGAAGATTATGAAGATAAAGAAGGAAAAAAAATATATGTAATTGCTGTAAAAACAAAAGATAAATTAGATAATGGTAATACTATTGATCCAACAAAAGCAAGAACAAAACAAAGAAATTTTGTTGCAAACTTATTAAAGGGAAATGATAAAATTCCTATGCATGATGCAGCATTAGTTAGTTTTTATAATGATGTATCAAATTCTTGGAGATTATCTTTTATAAAACTTGATTATTCATTTACTTTTGAAGGTATAAAAGAAAAATTAACTCCAGCCAAAAGATATTCGTATATTTTAGGAAAAAATGAAGCTACACATACAGCAGAAAAACAATTAAATCAATTAGTTAAAAATAATGAAGAAGCAACATTAGAACAACTTGAAAATATATTCCAAATAGAAAAAGTAACAAAGGAATTTTTTGATAAATATAAAGAAAAATATCTTGAGTTAAAAGAACATTTAGAAAAAGATAAAGAATTTGTACAAGAAGCATTAAAACACACTGAAAAAGTTGAGGAGTTTTCAGAGGAATTTTCTAAAAAATTGATGGGACAATTAGCATTTTTATATTTTTTACAAAAAAAAGGCTGGCTTGGAGTAAAGGCTATTCATGAAAAGTTGAATAAAGAACAATTTGAAGATATTTTGAAAAATAAAACTCCATCTGAAAAAGAATTATTAAATAACCTCTATAAAAGAATAAATAAAAATGAATATAAAAGTCAAAAAGAAGTAATAGAAAATTTAGATGATAATGAATTAGATATAATAATGAATTGTTTTAAAAATACTCCATTTGAAGGTAAATGGGGAGATGGAGAAAAAAATTTTGTAAGAAAGTTATTTGAACACCACAAAAGATTTACTACTAATAAAAATTTCTTTAATGATTATTTAGAATATTTATTTTACGAAGCTTTAAATACATATAGAGGAGAAAATCAATATTATAAAAAATTTAATTGTAAAATTCCTTTTTTAAATGGAGGATTATTTGAACCCTATGAAGGATATGATTGGAAAACAACAAATTTTCATATTCCAGATACAATTTTTTCAAATGAAAAAGAAGAAGGTATTTTAGATATATTTGATAGATATAATTTTACAATAGCAGAGAATGAACCATATGAAACAGAAATAGCAGTTGATCCTGAAATGTTAGGAAAAGTATTTGAAAATTTACTTGATGTAAAAGATAGAAAATTTAAAGGTGCTTTTTATACTCCAAGAGAAATTGTATATTATATGTGTAAAGAGTCTTTAATTAACTATCTTGATAATGAGATAGAAGAAGTAGAAAGAGAAAAATTTGAAGAATTATTACAAATTGGAGAATTTGTAAAAGAATATGACACACACATTTTTGAAATGGAATATAAAAATGGTAAAAAAGTAAAAGATGAAGAATGGGGAATACACATAAGCATTTTTAAAAATATACATAAAATAGATAAAGCATTAAAAAATGTAAAAATTGCAGATCCTGCAATAGGTTCTGGAGCATTTCCTCTTGGAATGCTTATTGAAATTGTAAAAGTAAGAAATGTATTAACAGAATATTTTATTATACATGAATATTTTAGATTAAAAAAAGATAATAAATTAGATGAATTTTGGAATATTAAAGATAAACTATTAATAGAACGTTCGTTATATAATTTGAAAATCGAAACAATAAAAAATAGTTTATTTGGAGTAGATATAGAGCCTAGTGCAGTAGAAATAGCAAAACTTAGATTATGGTTATCAATAGTTGTTGATAGTGAAAACAATAATATAAATCCATTACCAAACCTTGATTTTAATTTAATGGTTGGAAACTCTTTATTAGATGAATTTGAAGGAATAAATCTTTTTGATGAAAAACTTTTAAATAAGGAATATAAAAAAAAGGATAAAATAATTAATCCAAAACTTTTTTATACTGACTTTGAAGAAAAACAAAGAGATATTTTATCGAATATTAAAGCTTTACATAAAAATTTTTTTATCGAAAAAAATTCATTAAAGAAAAAACAAATAAAAGAATCGCTAAACTCTTTGGAATGGGAATTAATAAAATTTACTTTGAGTGAAAGTGGAAATAAAGATAAAATAAAAGAACTTGAAAAATTACAAAAAGAAAAAAGAAAACCTTATTTTTTATGGAAACTTGAATTTGCAGAAGTTTTTAAAGAAAAAGGAGGATTTGATATTGTTATTGGAAATCCACCTTATATTGGAGAAAGAAAGAATAAAAAAATATTTATTCCTGTTCAAAATAGTAATTTTGGAAAAAAATATTATATAGGAAAAATGGATTTTTGGTATTTTTTTACTTCTTTAGGTTTAAATATTTTAAAAAACAAAGGGACTCTTAATTTTATAGCACCTAATAACTGGTTAACTACATTCGGTGGTAAAAAAATGAGAAATCATATAATGAAAGATGGCATAATTAAACAATTTATAAATTTTGGTGACTATATGGTTTTTGAAAATGCTGCTCAACAAACAATGATATTTTTGATAGAAAAAGATAATAAAAGCAAAGAATATATTGTCGATTATAGAGAAGTTTTAGATAAAAATATAGAAAAAAATGAATTGAATTTATTTTTAGGAAAAAATAAAAATAAAAAATTTAAATATTATTCATCTAAAATTTCTAAAAATAATTTTAAAAAAGATGATAACATTAAACTTTTAGATAATAAAACTTATATAATTATTAATAAAATTAAGAAAAATAAAAATATATATTTAAAAAAGAATGAAATCGCACAAGGAATAGTTGTACCACAAGATTTTTTAAACAAAAAAAATGCAAATATTTTAAATTTAAAAAAAGGAAGCGGAATATTTGTATTAACAAATAATGAATTAAAAAATTTAAATTTAAGTGAAAATGAAATAAATACATTAATAAGACCATATTATACAACAAATGAAATTAAAAAATACTATACAAACAATAAAAATAAATTTTGGATCATTTATACAAAGCCTAATATTAATAATAAGATTAATAAATTTCCAAATATAAAAAAACATTTAGATTTATTTTTATCAATAAATACATCAGATAATAAACCTTATGGATTACATAGATCTAGAAACGAAAACTTTTTTAAAGGAGAAAAAATTATATCATTAAGGAAATGTTCAAAACCTACATTTTCTTTTAATAATTTTGATTGTTATATTTCACAATCATTTTTTTCAATAAAAACAATAAGAATAAATTTAAAATATTTAACTGGAATTTTAAATTCAAAACTTATTGAATTTTGGTTAAGAAACATGGGAAAAATGCAAGGAAATACTTATCAAATTGATAAAGAACCATTAATGAATATTCCAATAAAAGTAAAAAATTCAAATCAAAAAATATTTATTAAAATAGTAAACCAAATAATAGAATTAAAAAAACAAAAGAAAGATACAACAGAATTAGAAAATAAAATTGATGAAATGGTTTATGACTTATATGAATTAACAGAAGAAGAAAAAGAAATAGTACGTAATTTTAATAATTAAAAAATGAAATATTTTTAAAAATTATTTATAATAATGAAAATAAACATTTGTATTGAACAACAAATAAAATAAAAAATATACAAAACTTTATAAAATAGAAGCGGCTAAGCCGCTTCTTTATTTTTTGTTAAATATATAATAATTTTAAAAAAAAAAAAGAGTCAACCGAAAGGTTGACTCAAAAAGAATGGCGGGACAAAAACCTACTCTTGCACACACGAAGTGTACTACCATCGGCAGATAAAGGCTTAACGGCCAGGTTCGGAATGGATCTGGGTGGTTCCCCTTACCTTATCCTCGTCCCAAATTATTCACTCACTAGTGCATAAGAAAGTTTGTCCAAAGCCTCGGGTTATTAGTACCACTCGACTCAATACATCACTGCACTTACATCTGTGGCCTATCTATGTTCTAGTCTCGAACTACCCTTACCTCATAAATGAGCGGGAAGCCTTATCTTGGAGCCCGTTTCCCGCTTAGATGCTTTCAGCGGTTATCGGTCATGTACTTAGCTACTCAGCTCCTGCCATTTGCCTGACAGCTGATTCACCAGCGGTACACTCACTCCGGTCCTCTCGTACTAAGAGCAACCCTCCTCAAGCTTCCTACGCCCGCAGCAGATAGGGACCGAACTGTCTTACGACGTTCTGAACCCAGCTCACGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGGACCGACTTCAGCCCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACAACGCCGTCGATATGAACTCTCGAGCGTCATTAGCCTGTTATCCCCAGGGTAACTTTTATCCGTTGATCGACCGCGCTTCCACTCGCCTCGGCCGGGTCACTAGGACCATGTTTCCATTCTGCTCGACCTGTCAGTCTCGCAGTCAAGCCGGCTTTTGCCCTTGCACTCACCGGTGGATTTCCAACCCACCTGAGCCGACCTTCGTACGCCTCCGTTACTCTTTAGGAGGCAACCGCCCCAGTCAAACTGCCCACCTAACGCTGTCCGGCTCATGCTCTTCACATTCCACCGTTAGTAAATCATTATAATGAGGGTGGTATCCCAACGTCGGCTCTAGAAAACCTTGCGATCTTCCTTCTTCGCCTCCCACCTATCCTGTACACATTATAACCATTTACAACGTCAGGCTACAGTAAAACTCCATGGGGTCTTTCCGTCTAACTGCGGGTTGTGGGCATCTTCACCCACTCTGTAATTTCGCCGGATCCTCTGTTGAGACAGCTCCCAGATCGTTACGCCATTCATGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGGCTTCGTTTCGTAGCTCTCACCACTCCACTTAACCTTCCGGCACTGGGCAGGCGTCAGTCCATATACTTCCACTTTTTGTGTTCGCATAGACCTGTGTTTTTGGTAAACAGTCGCCTGGGACTTTCCACTTCGACTCTCAATCGCATTTTGCAACACCATCAAGAGCACCCCTTCTCCCGAAGTTACGGGGCTATTTTGCCTAGTTCCTTAACAGAGGTTATTCCGCTCCCCTTAGTTTTCTCAACCCGTCTACCTGTGTCGGTTTACGGAACGGTCAGTATTTCTCTCAAGCGATATACGAGGCTTTTCTTGGCAGTGTGACTCCTCCCCGTTAGACTTACGTCCTTCCCTTCACAGCTTTTCCTCCACAAGCGGTTTTCCCTACTCGTTTCTTCGGCTTTACTGCTTAGAAGACCTTGCAACTTGGTCTCGGCGATTCACCTCCTGCGTCCCCCCTTATATCTCGTTCATACTGGTACAGGACTCTTTACCTGTTTCCCATCGATTACCCCTTTCGGGTTCACCTTAGGCTCCGACTTACCCTGGGTGGACGACCCTTCCCCAGGTACCCTTAGACTTTCGGGGTGAATGATTCTCACATTCATTTCGCTACTCATGCCCGCATCCGCTCTTGTGTCTCGTCCAGCAAACCTTCCAGTTTACCTTCTCCCTACTACACAATGCTCTCCTACCAATTGGATTACTCCAATTCCGCAGCTTCGGTGTATGGCTTTAGCTCCGTTACATTTTCGGCGCATTGTTCTTCAACCAGTGAGCTGTTACGCACTCTTTAAAGGGTGGCTGCTTCTAAGCCAACCTCCTGGCTGTCTTCAGAACTTCACTACCTTTCACACTTAGCCATTTCTTCGGAACCTTAGCTGGCGGTCTGGGCTGTTTCCCTTTCGACCACGGAGCTTATCCCCCGTAGTCTGTCTCCCGACTATTCAGTATTGGTATTCGGAGTTTGACTGATTTCTGAGGTCGCCCCCATACGTCAATCAGTGCTCTACCCCCAACACTTTCTTTGTCGAGGCCGTGCCTACACACGTTTCGGAGAGAACCAGCTATCACCCAGTTCGATTAGCTTTTCACTGCTATCCACATGTCATCCGAAGATTTTTCACTACCTACCGGTTCGGTCCTCCACTTAGTTTTACCTAACTTTCAACCTGCACATGGATAGATCACTGGGCTTCGGGTCTATCGCATTTGACTTTCGCTCTTTTAAAACTCGGTTTCCCTTCGGCTTCGTCTCTTTCGACTTAACCTCGCCATATACGATAACTCGCGGGCACATTAATCAAAAGGCACACGGTCACTTCCGCTCCCGTTTCCTGTAGGCATACAGTTTCAGGTTCTCTTTCACTCCCCTCACGGGGTCCTTTTCACCTTTCCCTCACGGTACTATTCGCTATCGGTCGACCAGGAGTATTTAGCCTTGGAGAGTGGTCTCCCCTGATTCACGCAGGATTCCTCGTGTCCCACGCTACTTGGGATCAGCTTCGATTAGTTTACGAGTTTTCGTCTACAGGACTTTCACCTTCTTTGGTTTATCTTCCCATATACTTCGACTTCCTCTTTACCTATTCCCTCTATTTACAGTTCGAGTTAAGCTGTCCCTCTACCCCAAATTGACAACGGCTGTACCCTTTTACATCAATTTGGTTTGGGCTCTTCCCTTTTCGCTCGCCACTACTCAGGGAATCTCTTTGATTTCTTTTCCTCCAGCTACTATGATGTTTCACTTCGCTGGGTTCGCCTCCCTTTCGGGCTCTTCCGGGTTTCCCCATTCGGACATCTACGGTTCTTCGATTGCTTGCTTCTCCCCGTAGCTTTTCGCAGCTTGCCACGTCCTTCTTCGCCTCTGGTCGCCTAGGCATCCCCTGTATGCCCTTTTTACTTTGGACTTTCTTTCTTATGCACTTGTCAATGAACTTTGTGATCTGGTGGGCCAGGGAGGATTTGAACCTCCGACCTCACGCTTATCAGGCGTGCGCTCTGACCACCTGAGCTACTAGCCCATCTCACTCAATAATGGATAGAGGTAGTTGTTCTCCTTAGAAAGGAGGTGATCCAGGCGCACCTTCCGGTACACCTACCTTGTTACGACTTCGCCCCCCTCACTAGCTCCACCCTCGATGCATCCGTTCCTTGCGGTTACAGCATCCATCTTCGGGCGTTTCCAACTCGGGTGGCGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAGTTTGGCTGACCTGCGATTACTAGCGATTCCGGTTTCATGCAGGCGGGTTTCAGCCTGCAATCCGAATTGAGGTACAGTTTGTGAGATTTGCTCCACTTCTCAGCTTCGCTTCCCTCTGTCCGTACCATTGTAGCACGTGTGTCGCCCAGAACATAAGGGGCACGCTTACCTGACGTCATCCCCTCCTTCCTCCGTCTCGTCGACGGCTGTCCCATTAGAGTAGCCCATCTTCACATGCTGGCAACTAATGGCAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACGGCCGTGCACCACCTGTGTGAGACTCCTTTCTTGCGAAAGTTAGTAGTATCTCTACTACCTTATCTCCATGTCAATTCCTGGTAAGGTTCTTCGGTTAGCTTCGAATTAAACCACATGCTCCACCGCTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATCCTTGCGGACGTACTCCCCAGGCGGTTCACTTATCGCGTTTGCTTCAGCACGGAACTTTGACATCCCACACCTAGTGAACATCGTTTACGGCTAGGACTACCCGGGTATCTAATCCGGTTCGCTCCCCTAGCTTTCGAACCTCAGCGTCAGGATTACTCCAGAAAACCGACTTCTCCACTGGCCTTCTTACCAATATCTACGGATTTCACCCCTACTCTGGTAATTCCGTCTTCCTCTAGTATCCTCAAGTTATACAGTTTCAAGCGCTGTTCCACCGTTGAGCAGTGACATTTCACACCTGACTTACATAACCGCCTACGTTCCCTTTACGCCCAGTGATTCCGGGCAACGCTCGCCCCCTACGTCTTACCGCGGCTGCTGGCACGTAGTTAGCCGGGGCTTTTCTTTACATACCTTCCTTGTACTGTCCCCAGTACTTTATATTCTGTAAATTCAGAAGTTTACATCCCGAAGGACTTCTTCCTTCACGCGGCATCGCTGGATCAGACTTCCGTCCATTGTCCAAAATTCCCCACTGCTGCCTCCCGTAGGAGTAGGGTCCGTCTCTCAGTTCCCTTGTGGCCGTTCGTGCTCTCACACCGGCTACCCGTCGTCGGCTTGGTGATCTTTTACTTCACCAACTACCTGATGGGACGCAGGCTCGTCCTTTGGCGCTTCTCTTCCTTTCCTCTCTCGAGCTTATCCGGTTTTACCTACAGTTTCCCATAGCTATCCCAGTCCAAAGGGTTGATTCCTACGCGTTACTCACCCGTTCGCCACTAATACTCTCCACCGAAGTGGATTTCTTCGTTCGACTTGCATGTGTTAGGCGTGCCGCCAGCGTTCACCCTGAGCCAGGATCAAACCCTCCATTCGAATGGTTTGATTCTCACTCTAGTTCTTTCTTACTAGCGTCCTTTTCTTTCGAAAAGTTTTATTTTACTACCTCTATCCATTTTTCAATGAGCTTCTTTCTCCTTCGCTTGCTTTTCCCTCAGCGACTCAATCATTCTATCACTTTCTCCTTCTTTTGTCAATTACATTTCTTTTAACCTTTTTTCAACGTCGTGTTAATTGAATGAGAAGTTAGTTAGTTGGTTGGGTTGGAGTTTAAAATTTAGTGAATGCAAAATCAAAATAACATCCTTTCAACAAACCCTCGTCCCCTCAAAGGGACATTTTTTGCATTTATAAAGATAAATTTAATTTTGTATCTTTTTATATTTTAATTTTATATTATAATAAAAAATTAATTCTATAATAGTAATTACAATGAGTATAAAACTTTCATAAAAAAATGAATTAATTATAGAGTTATTGTTAAATACAAAAAAATTATATTCAAGTACAATAAAAATAAGAAATTGAACAATGTATCCAAAAAAAGATGGTAAAAAGAATCTAATTTTTAGCCTTTTTAACATATTTTTCAATTGTTTGTTTTTTGAAATACCCAGTTTATACATATTTATAATAATTTTTTCATTTTTTTTCATTTCTCTTATTGAATAAAAGTATATTTGAAACATTGAAGATATAAAGACTATAAAACCTGTTAATAATATTATAAATACATCATATAAAAAAATATTTTTCCTTTTTTGATATAAAAACAATAACCTTTTTAAGATTACATCATTTGTAATATAAGAATTTAGATTATTATTTATGTTTATAACTTTTATCCAGTCTTCTATTTTTATTGGATAGTTATTCACGATCTTGTATTTTTGTATTTTAAAATTATTTTTTAAAAATTGAAAACTATCTTTTTTTATTACATAAACATCTCTCAAAAATTTATCTTCTAATTCTATTATCTTTTTTACTTCATATACTTTGTTTTTTATTTTTAAATAACTATTTTTTTTAAAATAGTACAAATCACTTATTTTTGGATAATCTTCTTCTGATATCAATATAAACTTTTTATCTATTATTACTGATAAATCTTTAAATTTTTCTTTTGAAAATACTTTTTTATCATTTAATACCGCTTTTAAATAACCCTCAAAATTTATTGAAGCAACTTTAAAATTTTTATATGCATAAGAAAATAGAAATAACGATATAAAGATAACTAAAAATATTGAAAATAAAAAAAATTTATAGTCTTTTATTTTTTTCATTTTTATTTTTAGTAAAAAAATAGAATTAATCGATATCAAAAAAATAAAAAAAGTTATAATAAATGTTTTAATTTCTAACTTCATATTATTTTGTAAAAAGAGAATTGATTTTGTAATAGAAAAAAATAATTTTAAAAAAATTATACCTTCCATTATTCCCCAAAGTATCGTAATTATATTTATTATAAAAAATTCCATATAAAATATTTTCCACATAAATTTTTTTGTAAAACCCAATTTATAAAATTTCTCTATATTTTTTTTTCTAATGTCTTTAATTAAATTTTGTATAATTTTATTAAATATAATAAAATAAGCAACTATAATTATTAATGAATATTTTAATAGAGATGAAGTTGTTTCTATTTTTATGTTCATATTTAAATTTAAAAATATAAAAAAAATCATTATTAATGTACTTATAGGCCAAAAGTATGAAAAATAAATATTTTTTTCATTTATAATATTTTTTAAAATTATATTTCTATAAAATTTCCTGTTCCATATCATTAATTTCACCTTCTAATATAACCAAACAATCAAATATTCTATCTAAAAAATGTCTTCTTGACTCTTTTTTATATATATCCATAATTATTTTCCCATCATTTAAAAAGACTACTCTATTACAATAACTAGCAACAAAAGGATCATGCGTTGCCATTAAAAATGTATCATTTCTTATATTATTTAATTTTAAAACATACTCAATAAATTTTTTAGAAGAATTAGAATCAAGATTACCAGTTGGTTCATCTGCAAGTATTAAATCTTGATTATTTATAAATGCTCTACAAGCTGCAACTTTCTGTCTTTCACCAAATGAAAGTTCTTTTGGATATTTATTTAAAAATTTATTTATTCCAAAGTATTCAGATAATTTTTTTATTTCATTAGTATCATTTCTTAATAAACTTATATTTTCATATATTGTAAAATAATCTATAAGCATATCTTCTTGAAATATTAATCCTATATTGTTTCTTCTATAAGTTGCCCTTTCTTCTGAATTCATTTTAAAAATATTTTTATCTTTTACCCATACTTCTCCAGATGTTGGTGTATCTATACCAGATATCATGCTAAATAATGTAGTTTTCCCACATCCAGATGGCCCCATTATTGCAACAACTTGTCCACTTTCTATTTCTAAATTTATACCGTTTAATGCCCTTGTTCCTTCAAAATTTTTATGTGCACCATAAACTTTATATAAATTTTTTATTTTAATCTTTTTCATTTTTAAAACCTACTTCCTTTTTATAACTTATAATGATTTTTGTCCCTTTTCCCAATTTAGATTCAATATTTATTTTTGCTCCTATTTTTTCAGATATGAGTTTGCATGTATAAAGACCTATTCCAGAAGAATTCAAAAAATCCTTTCCATTTTCTCCTGTAAAAAATGGTTCAAAAACTCTATTTATATCATATTCTGGAATTCCTATTCCATTATCTTCAATTTCTAAAATTATATCTTCTTTTTCTTTTAATCTAAAAATAACTTTTTTGCTTTTTTTATTTTTATCAGAATATTTTATAGCATTATTTATAACTTGTTCTATTAAAAATCTATTCCATTTTTTATCAACTATTATATTTATTTTATTATTTCCATTTATTTCAGGATATACTTCATTATGAATAAATTGTGCACTTTTTTCTTTTACTATATCAATTATTTCATCATAAAAATTATACTTTTGAGGATCAAAATCTCTTGTAAATTCATTTAATCTCATTATATTTAAAAGGTGATTTAATAAATTTTTAATACGTTCATTTTCTTCTTTTATTTCATTTATAAATTCATACTCTTCATTTTCTTGAAGTATCAAATCTATAACTGAAACGGGTGTCTTTAAATTGTGAATCCATTGTGAAATAAAAAAATTTTTTTGTTCATTTTCAGTTTTAATTTTTGATATTTCACCAAATGCCGAAATATTAACGAGTTCTATTGTATCTAAAATATTTTTTTGTTCTTTTGTATAACTTTTTATTTTATAATATCTATTTTTAGAAGTTCTCAACATGTGCAAGTTGAAAATATAATATCTTATAAAATCTATTAAAAAAAATATTACTAGAATATAACTAGACATAATAAGTGGATAAACTATATCTATTTTTTTTGTTTCTGCACTAAAATAAATTGAAATTAGTATTGTTGAAAAATAATATAATATTATAAAATATTTTCTATCTAAAAAATAATTGCTTATTATTTTTAATTTCATTTTTCTTCCTCTTCATAGTTTGAATTCAAAGTATATCCCTTTTTTCTTATAGTTTTAATAAAATTTTTAATGCCAAAAGTTTTTAATTTATTTCTAAGTCTCGTTAAATTTACATTCAATGTATTTTCATCAACAAAATCTCCATTTTTCCAAATACTTTCCAGTATTTCATCCCTATTAACTGTTTCTTCTTGTTTTTCAAATAATTTCCACAATATTTGAAATTCTGTTTTACTTAAATTTATTTTTTTATCTTCAAAATATAACAACATCTTATCTGCACTCAATTTAAACTTCTTGTATTTCAAAGTAACTTCATCAAAACTACTATACCTTCTAAAAATTGCATTTATTTTTGCAATTAAAACTTGATAATTAAATGGTTTAATTATATAATCATCTCCACCTAATTCCATTCCTAAAACTTGTTCTTTAGGATCAATCCTTGCAGTTAAAAATATTATTGGAACCTTTGAAACTTTTCTTATATTTCTACAAAGATAAAATCCATCGTTGTATGGAAGATTTACATCCATTATAACTAAATCCGGATTTATTTTCTTAAACTCTTCTTCTATTTTTCTAAAATCAAAAACAGTGTAAACTTCATATCTATTTTTCCTCAAATAAACACTTAAATGAGTTGCTAATTTCTTATCATCTTCAATCAAATAAAGTTTTTTCATACTATTCCCCCAATTATTTTTTCTAATTGGATTATAACATTTTAACTCAAAAAAATAAAAAGCCAAATGGCTTTTTATTTTATTTTTATGAGACCCAACCCTTTAAGGTAATTTTTAGCAACAAATTCAGGTTCATAACCCAACACATCAACTAAATAGTTTAATCTTATCATTATATCTTCATTTATATACATTGTAAGTGGCTTCAATTGGATTATAAAAGCAAGTTTTGAATTTTTAATATTTTTCCGTGAACAAATTCCATTTTTTAGAAAATTTGAACAGCGAATGTTTTATTTTTTACTATTTTCCATCATTACATTCACGTATTTTATAAGTAATCTAATATTAATTATACAATATTTTATAAAAATAAAAAAGAACTTAAATAGATGAATTTCATCTATTTAAATTCTTTTTCTAAAACTTTTAAAGCTGCTGTATTTAAAAAATTCCATGGTTTGTTATAATGTGGTTGAAAAAAGAAATCAACAAATGCAAGCTCTTCTATTGTCATATGTTTTTGTATACAAATAGATAAAGTATTAATTGATTGTGTTAAATCGGCATCTGATATTATTTGAGCTCCAAGTATTCTATGTGATTCTTTTTCATATACTAATTTCAAAGTTAATTTATAATATGTTGGCATAAATTCCGGTCTATTATTTTCATTTATAATTACAGTATCAAAATTTATATTATTTTCTTTTGCTAAAACTTCTGTTAATCCAGTAGAAGCTATATTATGATTGTATATTTTTATTCCAGATGTACCTTGAGTTCCCATATACTTTATTTTATTTTCATATAAATTCATAGCAACAAGAGTTCCCATTCTAACGGCATTAGTTGCTAGTGGAATATATTTATGCGTGTTTGTAGGATTATACTTTACTGCACAAGAATCACCTGCTGCAAGTATATCTTTATTACTTGTTTTCATATATTCATCTACTATTATAGCTCCATCATCAGTCATATTTAATTTATTTTCAAATAACTTTGTACTTGGTTTAAATCCAATACACAGTATAACAAGATCTGTTTTATATTCATTTTTATCTGTTATCACTTTATTTACTTTGTTGTTTTCTCCAATAAATTCTTGAACCTTTTCATTTAAAGCTAAATTTATTTTATTTTCTAAAAGTTTATTTTCAGCAATATCTGTAATTTCTTTATCTAAATACTTACTCAGTATTCTATCTTGCATATCTATTAAAGTTACTTTTTTCCCCATTCTTTCAAATGCTTCAACTAATTCAACACCAATATATCCAGCGCCTATAACTACTATATTTTGAGCTATCTTAGCTTTTTCAATTATCACATTTGAATGTTGAAAATTTTTTGAAAGAAGTATATTTTCCATTTTTATGCCCTTTATATTTGGAACAATTGGCCAAGATCCAGTTGTAACTATTAATTTATCATAATAATCTTCAAATACTTTATTTGTTTCTAAATCTTTTACTTTTATCTTATGATTATTCACATCTACATCTATTACTTCGTGTTTCATTTTTGCATTGATTCCCATTTCTTTTAATTGTTTTGGTGAAGAATAAAACAAACCATTTCTATCCTTAACAACACCTTCTATATACAATGCTATACCACAAGATAAAAAAGAAATATTATCATTTTTTTCATATACAGTAATATCTATATCTGGATATAATTTTTTAGCATTAAGCGCAGCTGCTGTTCCCGCATGAGTACAACCTATAATTATTGTCTTCATATAAATTCCTCCATTTTTATTTTCAAGTGAAAAAAAACACTTTTAATTGAAACAAAAAACATCTTATTTACAATTCAATTGTACAATAAAAATATTATAATGTCAAGTATTATTTTAAACTGATTTTATTTTGTTACTTTTTTACTATTAACTACTTTTTATTCTGTATTTGATTTTTAATTATTCTTAGAGTATAATTTTTTATAAAGAAAATTAAGAAAAAAATTCAAGGAGGCGACTTTATGATACCATCAGAAATAAAGTATTTATCAAAAAAAATAATGGAATCAAATGAAATACCACTTTTATGGGGACATTTTGGAGTTGGAAAAACAGATATAGCTAAAGAAATAGCCAAAGAAACAGGGAGAGATTTAATAATTTTAGTAATTTCTCAAATGGAGCCAGGAGATTTAATAGGTATGCCTTCAAAAAGCACTAATAAAACAATATTTTTAAAACCTGATTGGTGGCCTGAAAATCCAAATACAATAATAATGATAGACGAAATAAACAGAGCACATCGTTCTATAAGAAATGCAATAATGCAACTTTTAGTTGATAGAAGAATTCATAATCATGTTTTACCAAAAGATACTTGGATAATGGCAGCTGCAAACCCACCAGATGAAGAGTATGATCAAGTAGATTTGATAACAGATCCTGCATTCATGTCAAGATTTTTTCACTTGACCTTAAATGCAAATGTAAATGATTGGACAAAGTGGGCAAAAGAAGAAAAAGTTAAAGATGAAGTAATTGATTTCATAAATAATTATCCAGAATATATGACTCCAGATCATATAGTATCAATGAAATTAGACTTAAGACCAAGTCCAAGAAGTTGGTTTAAATTCTCTAATGTATTAAAAAATCTTTCTGAAAATGATATTAAAAAGTATGGTTATTCCCTTGGAGCATCTATACTCGGTGCAGATGCAACAAATGCTTTTTTTAATCATTTAAATAATAAAAAGACTCTACCAACTGCACAAGAACTATTAATTGAAGGAAAGTTCTTTGAAAGATTAAATGATTTAAATACAGAAGAAAAAGTTAGTTTAATCTTAAGGATAAATAATTATATAGAAAAATTAGAAGAAAATGAAATGATACAAATAATAGATAATTCAGAACATAAAATAATTGCAAAAAATATAAAATCAATATCAAAATATATTCCAAAAGATTCCATATTTTCAGTTTTAAGAAACTTAGATAATTTAATTGAAAAAAGCACTGGAGTAAAAAAAGCATTTTATGATAAATTACTTGAAGAATTATCAATTTCTTTAAGTGAAGAAAAATGGTTGGAGGAACTATGAAAGATATAGTTGAAAAGGCATGGATAGAACTTGCAAAGGAAAGTGTATTTTTTTCATACATTAGAATGCACTTTGAAAATATTCCAACTGAAAATATAAGAACAACAAAGTTATCTATAACTTCTTCTGGTAACTTTAGACTTTTATACAATCCAAGAAGATTAAAGTCGTATGGAATACGTTTCACAAAAGCTTTAATAAAACATGAAATTTATCATATAATATTTGGTCACATCTTTATAAAACCTAAAAAAAGGGAAAAAGGTATTTGGGGACTTGCAATGGATGCTTCCATAAATCAATACATAAAAGAATTAGACTCTCTTTCAGAACCATTAGATGTTTTTTTGTTAGAGGGTCATGGAACAGACAACGAAACTTTGTTTGTAACAGCACCAATTAATATGTTGAATAAAACAGCAGAAGAATACTTCACATATGCTATGGATATAATAGAAAAAAGCAACTTCATAGATATGGAAGAAGTAAATGATTCCTCTCCTGACTCACATGAATTTGAAAGTGAATTACCAGAAGAAATAACCTTTGATATAATAAGCGAAGTTGTAACTCAAGCCTATGACAAATCTGCTGGTAATGAACCAAATGGAATTGAACTTGCAATTTCAATAATGGCTAAAAAAAATAAATTTGATTGGAAAACACTAATAAGAAGATTTTTTGGTAGTTCAGTAATTGTAGATAAATATAGAACGCAAATGAGACCAAATAGAAGATACGATGATCAACCTGGTTGGAGAACAGAAAGAGGTCCTAAAATTGCTGTAATAGTAGATACAAGTGGTTCTATAATTGAAGAAGAATTCAATGATTTTTTCAGTGAAATAGAAGATATAGCAAGAGTATCTGGTGGAAAAATAAGTTTAATTCAAGCTGATGAAAATGTTCAATCAGTACTTCAATATTCAAAAGGAAAATGGAGAGATACGGTTTTAAAAGGAAAAGGATCAACAGATTTGCAACCTGCCGTTGACTACGTTGAAGAAAACTTAAGACCTGAAGGAATTATTGTATTTACTGATGGATGGGTTGAAGTTCCAAATATAAATAGGCGATGTTTTTTTGTTCTCTCAAAAAAGCACAATCCAGAATTTTTTTCTCAAGTTATAGACATATATGGAAATAAAAAAATAGTAACTTTGTGAGGTGTAGTTTATGCCAATAGATGGACTTGTAATACATAAATTAATAAATGAAATAAACACTGAAACTACTGGAATGACTATTAAAAACATTTATCAACCAGTTAATCATCAATTATTAATAAAGCTAAATAAAAAAAATATACTTTTTTCACTCAGAAATCCAGCCTATATAGTATTATTAAATGAAAAACCTGATGTTCCTGATTCTCCTCAAAACTTTTCTTTACTTTTAAGAAAAAAAATAAAAGGTGGAAAGATTGTTAATGTAAAACAAATGGGTTTGGATAGAATTGGATACATTGAAATAAAAAACCGCAATGAGCTTGGAGATTTAAAAATTTTTAAATTATACTTTGAATTAATGGGTAAATCAAACTTAATCTTGGTAAATGATGAAAATAAAATTATTGATGCTTTAAAAAAATCAACCGATTCTATGAGAAGTATTTTACCTGGAGCTAAGTACATACCTTATTACGATGATTCAAAAGCATTGATATTTGATGATATTAACTTACTTGATTTTCCATTCATGGGGTTTTCTAAAAAATCTGAAGAAATATTGAGAAAAATAGGTATAGAAAAAGCTCGTAATCAGATTAAAAATAATACTGTATACTATTTTAAAGATTTAGAAAAACCAGATGTTTCTTCCATAACTCCTGAAAATTATATATATGAAGAATTAAGCCCTTCAGAAGGTATTTTAAAGCTCTTTGAAGAAAGAACTAAAAAATCTAAAATTATTGAAACAAAGAAAAAACTTGAAAAAATAGTAATTAAAAATATAGAAAAAAATGAGCGTACAAAGAATAATCTTTTAAAAGATATATCTAAAGAAGAAAAACTTCCAGAAATGATAAAAAAAGGTGAATTACTTCAATCATACTTATATACTGCAAAAAGGGGAGATAAATTCATAGAAGTAACGGATTGGGAAAGTGGTAAAAAAGTAAAAATAGAATTAAATCCATTAAAAAATCCAACTACTAACTTAGAAAAATACTTTAAAAAAATCAAAAAAACAAAAACAATGGTAGAGTTTTCAAAAAATAGAATTAAGAAATTTATAAAAGAACTCGAATACCTGTATCAACTTTGGGAAACTATAGATTCAAGTGAAGACATTGAAACTCTTGAAGAAATTCACGAAGAGATGTTTTTAGTTGGACTGATAAAATCTAAGAAAAAGAGAAAAATAAAAAAAGTAAAGAATTCATATAGACATTTTGAATACATGAATTTTGAAATATATGTAGGAAAAAACAACAAGCAAAATGATGAACTAACTAAAAACGCATATAAAGAAGACATATGGCTACACACTCAAGGAATACCTGGATCCCACACAATAATAAAATCAGCTGGAAAAGAAGTTCCACTTAAAGTAATTGAATACGCTGCTTCATTAGCTGCAACTTTTTCAAGAGCAAAGTTGTCTTCAAATGTTGCTGTAGATTACACTCAAAGAAAAAACGTTTGGAAACCAGGTGGTGCAAAACCTGGTATGGTTTTATATAAAAACTACAAAACTATAATAACCAACCCCATTTTAAAATTAATAAAAAATATTTAAAATAGTAGATTATTTCCAATAATCTACTATTTTTTCCAAAAAAACGCATAAAAAGTTGTATAATTTAATAAATAGGAGGTGAATTTTATGATAGTAACAGAAAACTTAAAAAAAATATATAATACTGGCGACTTAGAAGTTGACGCTTTAAATGGTATAAATCTAAAAATTGAAGAAGGAAAAATAGTTTCCATACTTGGACCATCAGGTTCTGGAAAATCAACATTATTAAATTGCTTATCTGGAATAGATAGACCAACAGAAGGGAAAATTAAAGTTGCAGGTATTGAAATAACTGAATTAAAAGATAATGAACTTACTTCATTTAGATCAAAAAACATGGGGTTCATCTTTCAATCTTATAATTTAATACCAGTATTAAATTCTGTTGAAAACGTTGAATTACCTTTATTAATAAATGGAGAAAATGAAAAAACATCAAGAAAAAAAGCTTTAGAAATGTTGCAACAAGTTGGACTTTCTAAAAGAAGCAAAAGTTTTCCTTCCATGTTAAGTGGTGGAGAATCACAAAGAGTTGCAATTGCTCGTGCCTTAGTAACTACTCCAAAAATAGTTTGGGCTGATGAACCAACTGGAGCACTTGATACAAAAACAAGTATGGAAATAATGAATTTAATAGTTAAATTAAATAAAGAAAATGCACAAACCTTTGTAATAGTAACTCATGATATAAGAATAACAGAGTATTCAAGTAAAATTTTTGAAATGGATAGTGGAAAAATTATATCTGAAAGGTAGGTGAAATTCATGATCAACTACTTAATCATAATAGCTACAATTTTAATATTCATATTCTTTATATTAAATAGAAAAAATATTATAATGAAAATGGCTTTTAGAAATATCTTCAGAAAAAAGACAGAAGCTTTTTTAATGGTATTAGGGTCTATGATTGGTATGGCTTTTATAATAGGGGCTCTTGGTATAAATGATTCTTTTAATAATTATGTTTATGAAAATATAGAAAAATATTTTGGAGAAGTAGATGAAGTACTCTTTTCTGGAACTGGTATAAAAGAAAAAAGTATTAAACCCTTTCTTGAAGAATTAAAAGAAAAAAAATTAATTGATGGAGTTATACCAATATATCAAACAACTTATCCTATTTCAAAAAAAGGAAATTTAAAGTCATTAAAACTTTCTGAAATAAAACAAGTGGGATTTGTTGGAATGGACTATTCAAAATTAAAAAATTTCGGTAGTACTAAAATTAATATTCCAGATGAATTTTTAGATTTAAAGGATAATGAAGCAATAATAACAAAAGATCTATCAAAAACATTAAATATAAAAGTAGGGGATTCAATTGAAGTTATTCAAGGTAAAGATACATTATCCTTTCTATTTCCAAAAACTTATAAAGTTAAAAAAATTGTAGATTTAAAAGGAATATTAAATTATAGAGGACGTCACGCTGAAGGAGTTAATGGTTCTGTTTTTTTAACTTTAAATTCTGCAAGACAAGGTAAAAAATTCCCAACAGGTACTTACACAGATTTTTTGATATCCAACACTGGTGGAATAATTGAAGGGAATTCTCATACTAAAGAAATTAAAAAAATATACAATAAATATAAAAATTTACCTTCTATAACTTATTCAAAAGACAATCAAATACAAAAATTATCTGGTGGAGAAATTGCTGCTATATTTATATTTTTTAGTGGTTTTGCAATAATTTCTGGTGGTATTTTAATTATAAATATGTACTCTATGATGGTAGATGAAAGAAAAAGAGAATTAGGTATTTTAAGAGCTATTGGTGTACAAAAAACTGGAATAAGAAATATTATTTTTTATGAAAGTATCTTATATACATTATTTTCTGTTCCAATAGGAATATTTACTGGTATTTTTTTGTCTAAGTTTACCTTTAGTAATATTGCAGAAGTTAGTTCTTCAATAGCGTCTTCAAATATCGTACAATCTATACCAACATTTAATTCATATCATATAACTTTAAACTCAATTTATATTGGGGTACTTCTTGGAATTATAATTCCAATATCTATAACTTACTTTTATACACTAATAATAAGCAAATTAAATGTAGTAGAAGCTATAAAAAATATTAAAAATATTAGAGAAAAAAACTCTCTATTTAATTATATTTTGTTTTTTATACTGTCTATTGCTTTTTTATTTATAAACATTAATTATGTACGCTACACATCTATTTCATTTTTAATTTTATTATTTCCATATATATTAAAAAAGAAAAACAACTTGCTTAAAAGTATAACTCCTTTAATAACTTTATTATTACCATTTTTATTCAAAAGTGATGAAATACTTATGCTCAGCAGTAAAAGTATATTGATTTTAATATCTATTATTTTACTTACAATAAATAATTTTATTATTTTTGAGAAAATATTTTTAAGCATAAAAATTAAAAAAATGATTCCAATATTAAAAATCGCTTTAACCTATCCTATGAGAGAAAAAAAGAAAACTGGATTAATTGTTTCATTGTATGGTATAGTAATCTTTGTAATAGTAGTAGTAACAATTTTACCTTACTTACAAACTCAAAAATTAGCTTTAGAAAAAGATTCTTTATTTGCTGGATTTGATGGTGTTGTAGTAGAAATGCCTGGTGGATTTATACCAATTAAACTTAATTCTAAAGAATTAAATTCTTTAGACAGTATTAAAACAGCTGGAGAATTTTATATGCTAACAGCAGGAAAAAACAATATTGAAATACCTCTAATATTTGGTTCAAACGAATTTTTTTCATTCAATAAATTAAAAATAAAAGATAAAATACCAGAATTATCAAACAAAACAGACAGAGAAATTTGGAACTTTATTTATAACAATACTGGATTTGCAATAGTTCCTCAAAATTATATCGATGGAATGAACGATATTAAGTTAGAACTTGGAAAAACTTACTCTTTCAATTTAAATAAAATAACCTTTATTCCAGGATCAAAACCAGAATCACAAAGTACTGGAAAAGGAGCTGTGTCTTTTAAGATTGCTGCCATAATTTCAAATGTAAGCGATACACTTGCCATAGGTCCTTTACTAAGTGTTAAAAATTTAAACATTCAAAACTTTAAAAATGATGGAATACATGGATATTATTTTGCACTTTCAAACAACAAAAATGCTAAAAAAGATTTAACAAAATATCTTAAACAAAAAAATCAATTTTTTATATTTGTAGATGATATAATAGACATTGGATTAAAGGTAACAAGTGGAATTGTAAAAATAATTAATTCATTCTTGTATTTTGGTTTAATTGTTGGTATACTTTCAATATCTATAACAACTATAAAATCTGTAGAAGAAAGGAAAAGAATAATAGGAATGATGAAAGCTATTGGATATACCAATAATATGATTTTTGGTGTTTTTTTTATAGAATCAACTTTTGTTATATTGACTGGTATTATCATTGGTATAGTATCTGGAATAATAACAAGCTATCAAATATATAAAGTATTTTTTTCTAACTTATCATTTAAATTACCTATGAAATCATTGCTTTTAATGGGATTAATATTTTATATAATTTCAATAATATTCACGTTTTTCCCAGCAAGAAAGGCTTCAAAAATTTCACCAGCAGAATCAATGAAAGTTATGGATTAAGGGGGTTAATATGGCTTATCTTTTAACATTAATTTCAGGTATTTTAACTGGTTTAGCAATGCCTGGAAATCTGTTTTCGTTTTTTATTTGGGGTTCTGTAGTTTTTTATTTAAAAAACATGTCAGAATCAACCAAAACATATCAAAGACTTTTGCACACAATAATATATTCAAATTCACTTTTAGCTACTACACTATGGTGGCAAATGCCTGTTTTAACAAAAAACATACCAGAAGTTTTAAACCACTATCCACCAATATTTGGATTTTTAGGCTTTATTGGAGAAATATTTTTATTATCTTTACCATATTTATTGATATGGATATTATCTGAACTATATCATAGAAAGTATAGAAAAGTTAATTATATTTCTTTAATGTTTTTTTATGCCTTTTCATATACTGCAGCAGAAGCATTAAGAGAAATGGGAGACCTTGCCGTTACTGGAGGTTCTTTAGGCTATGCTTTATATAATCATATTGGATTACTTCAAATAGCTTCTATTTTTGGTTATTTGGGATTAACCTTTATAATAATATTAGTAAATTCAGCTATAGCATTTGATGATTCCAGAGATAAAATAATAAAAGGAATATTAATTTTTTCTGCAATATATGCAATCAATTTTTCTATTGAAAGATTTATACCTATAACAGAAAATAGCAAAACTTTTAAAATAACAGCAATACAAACAAACGTTCCTCAGGAGATAAAGTATAATGCTAACACTTGGAAAAGCTATACTCTTTTTTCTGATTTACTTCAAAGAGCCAAAGATGAAAAAAGTTCTTTAATAATTTTACCTGAATCAACTTTTATGGAAGATATACAAGACACTAATGTATCAGAAGCACTAAAAATAAATATTAAAACTATAAAAAAACCCGTTTTAATGGGATATCCAAAAAAAACTGAAACAGATTATTATAACACAGCTTGGCTTTACGATAAAGAAGGACAAATTAAAGAAACATATGACAAAATAAAATTAACTCCTTTTGCTGAATTTTTGCCTTATGAAGCTATATTTAACAAATTCAAAATATTTAAATTATTTGTATTTTATACACCTGGTAGTGAATTTAAAACATTCAATGTAAATAATACTAAATTTGGTGTACAAATATGTTTTGAAACTTATTTTCCAGAGGTATCTATACAAGAAACAAAAAAAGGTGCTGAATTTTTAACTGCAATAACAAATGATGGATGGTTTAATACTCAAACAGCTTTAATTCAACATTTTACCCAAAGTATTTTTAGAGCTGTTGAAACAAGAAGAGATTTTTTACAAGTATCCAATACAGGAATAACTGCAATGGTAGATAAGTATGGAAGAATTAAAAAAGTTTATTCTGAGCACAAAGAAGTTATAGATACAGTTTCAGTAAATTTAAATAAAAAAACAAGTATCTATTCTAATATAAGTGGTGTATTTAAAGCATTGCTATTCATAGGAGCTTTAATATTATCAATAGTATAGATTCAATAATAAAGGTCAGTTCAATGAACTGACCTTTATTTTACTATGCCAATATTATCTCTATGAATTAATTCATCATAAGAATAATAACCAAGTATTTTTTCAAATTCAGAACTCTTTTTACCAATAATTTTTACTGTTTCAATATATGAATAATTTATAATTCCTTTTCCAATTTTATCTTCATTTTCATCATAAATATCTACAACATCACCTTTTTCAAAACTCCCATAAACTTTAATTACTCCTATTGATAACAAACTTTTATTTTCTTCCAAAGCTTCTTTAGCTCCACTATTTATAAATACCCTTCCTTTGCTTTTAGATAAAAAAATTATCCAGGCTTTTCTATTTTTAATTTTTTTCTTAGGAAAAAACATAGTTCCACAACTTTCATTATTTATAAAATAATCAATATTCTCAAGTTTTTTGCCATTGCATATACATGTTTTTATACCAGAATTAGAAGATAATTTTGCTGAATCAATCTTTGAATTTATACCTCCACTACCATAAGAAGTTTTTTTCATAGATAAAATAGAACTTTCATCTTTAAACTCTTTCATTATTTTTTTTTCATCATTATAAACTCCATCAACAGAGGTCATTAACATTAAACCATCTGCATTCCACCCAATTGAAAACATTGCAGACAACATATCATTATCACCAAACATTATCTCTTCTGTTGAAATACTATCATTTTCATTTATTATAGGTAATATATTTAATTGATTTAAACCTATTAAAGTGTTTTTTAAATTTAAAAATCTTTTTCTATTAGTAAAATCATCTTTTGTTAAAAGAATTTGAGATATTTTTTGACCAAAAAAATTAAAGGCATTTTCATATATTTTCATCATTTGAACTTGACCTATTGAACAAATAGCTTGTTTTTGTAAAAGTGTTTTTGCTCTCGAAAGATTTAAATAATTCAATCCAGCTGCATTTGCTCCAGACGATATTAAGATTACCTTTATTCCTCTTTTATATAAATTTGAAATTTTTCTACTCAATTCTATTATATAAGTTTTATTTATTTCGCCATCTTTTATTAAAAGGTTACTTCCAACTTTTATAACTATTCTTTTTATATTTGTTTTTTTCATACTATCTCCTCGAATCATAATTACCAAATATTATATACTTGTACGTTGTTAATTCCTTTAATCCAACAGGTCCTCTCGCATGTAATTTTTGTGTACTTATACCCATTTCTGCTCCCATTTCAAATTCTCCACCATCTGTAAATCTTGTAGAAGCGTTAATGTATACGGCAGCAGAATCTATTTCATTTACAAATTTCATTCCATTTAAATAGTTTTCTGTTAATATCGATTCAGAATGAGAAGTTGAATATTTTTTTATATGTGAGATTGCTTCATTAATATTTTCTACAACTTTTATAGAAATAATTAAATCAAGATATTCAGTAGTCCAATCTTTATCTGTTGCACTTTCAACTTCAATAATTTTTTTTACTTCATTACATCCTCTAATTAGTACATTTTTTTCTAAAAGTTTATCTTTTAATTTTGGTAATATTTTTTTTGCAATATTTTTATGTATTAAAACAGTTTCAACTGTATTACACGTTCCAGGACGTTGTGTTTTAGCATTATCAATAATTTCTATAGATTTTTCTATATTAGCACTTTCATCAACAAAAATATGACATATTCCCGTACCAGTTTCTAAAACAGGAATTTTTGAAGTTTCAATTACAAAATCTATTAAATCTTTTCCTCCTCTTGGTATTATTAAATCTATATACTTATTCAATGTCAACATTTCATTTACTATGCTTCTATTAGTATCTTCAATTATTTGCACACTATCTGTAGGAATTAAAGAATTTTTCAAACCTTCTTTTATAGCTTTAACTATTGCTAAATTTGAATTTATAGCATCAGATCCGCCTCTTAATAATAGTGTATTTCCCGATTTAATAGCTAAAATACTTGCCTCAAGTGTAACATTTGGTCTTGATTCATAAATAATACCTATTAATCCTATTGGTATTCGCACCTTACTTATTCTAATTCCATCTTTTCTTAAAAAAGAATCATAAATTTCTCCTATAGGATCTTTTAACTCAATTATTTCTTTACATGCTTTAATCATTCCATTTATTCTTTTAGAATTTAATTTTAACCTATCAATCAAAGAAGACTTAATTCCTTTTTTTATAGCTATTTGAACATCTTTATCATTTTCTTTTAAAATATATTTTTCGTTTTTTTTCAAAGCTTCAGCTATTCTTAAAATTGCTTCATTTTTTTCATTTGCGTTTTTTAACTTTAATATTTCAAAAGCTTTTTTTAGTTTCTCAACTTTTTCTAAAAGTTCTTCCATAAGAATCACTCCTTACATATTATTCATCTTTTGATACGATTCATAAATACCTTCCATAATTGTTCCTTTTATTCCTCTTTTTTCCATAGAATAAAGTCCTTGTATCGTAACCCCACCAGGAGACGAAACCATTTGTCTTAATGCTGAAAATTCTATTTTTTCTTCTTCTAAAAGTTTAATTGTTCCTTTTAGCGTTTCAAAAAATATTTCTTTTGCTACTTTTGGCTTTATACCTATATTTACAGCACCATCAATAAAACTCTCAACGATTAAAGAGATAAACGCTGGACTGCTACTACTTAAAATAGTAAAAGCATTTAAATTTGCTTCTGTTATTTCTACAATTTTCCCAAGTGAAGATAATAAGTTTATTATTTTTTCTTTTAACTTATTATTTATCGTATCATTAAAGGTTACTGAAGTAACTCCATTTCCTGTTTTAGAAAGTATTGTAGGCATTATTCTTATTATTCCATCTTTTCCTGTTTTTTCTTGAATTTCTTTTAAATCTTTTCCTGCCACTGTACTAATAATTATTTTATTAAAAATTTGTGTTTTTCTTATTTCATACAACACTTCATCTATATTTTGTGGTTTTACTGCTAAAAAAATGATATCTGATTTATTATAAACTTCTTTAACAGTATCACAAATATTTAAATTATTCATTCCTTTATATTTTTCTAACTTTTCCTTAGTTCTATTTACAACATAAAAAGAATCTGCCCTTAATTTTTCTAATAACATTCCACCTATTGTTCCAACACCAATTATTCCTATATTCATCTCACACCTCCATTTATATAAAAAAAATCCACATTATTTATAAAATAATGTGGTCTTTTACTGTTTCATAAGTTTAAATACAAAAAACTTATGGTATCAAATAAAATACCACATGCTTTTCGGATTATTCATTTTTTTTATAATCAATTTTTTTATAAATAAATTCATAATCTCACTTCCTCAACAATTTTCTTAATTTTATCACATACTCTCATCTTTGTCAACGATAAAGAAACTAAAGATTCAAAAATTTGTTATTTTTTAAAAAAAAATGTATAATATTAATAGTAAAAGTATTGGGGGATTGTTTATGAAAAAATTTTTAACAATACTTATATTATTTTTTTCTATAATTTCATTTTCTATAAAAATTGGATATTATGAAAATTATCCATTGTGTTTTAATGACAATGGCAAACCTTCTGGTATTTTTGTTGAAATAATAGATTATATTGGAAAAGGAAATAATATAAAGATAAATTGGATTTACGATACATTTCCTAATTTATTAAAAAAAATAAAAAATAATGAAATAGATATAATTACTTCAGTTTCTATCCTAAATGAAAGAAAAGAGTTTTTAAACTATCCAGAACAATATATAACAAATGAATGGTCTGAATTAATTTCATATAAAAATATTTTTAAAATATCAGATTTAAATAATAAAAAAATAGGAGTTTTAAAAAACGATGTTTGTTATATTGGAAATAAAGGTTTAAAAAATATAAAAGACTCATTCAATATAAAAATGGAATTTATAGAATTTACTATTTTTGATAATCTTTTAAAAGCTTTAAAAGATAAGAAAATAGATGTTGGATTAATTCCACAAAGTATATATAAAAAAAACAATTTTCTTAACATATCTCCAATTTTAATGTTTCCAGTAAATTTAACTATTGCTTCATCAAAAAAAGACGAACATAAAAACTTTTTATCTTTATTTGATAAAACAATTAAAAAATTAAAAAAAGATAAAACTTCAATGTATTATATTACTTTACAAAAGTATAGAAATATTTTTGTGAAAAGCAATAAAATACCAACATATTTAATCTTTATATTCATATTTTTTATAGCAGTATTTTTATTAATAATTTTCCATTTTTATAAATTAAAAAATACAAGAGAATTTTTAAAGTTAAAAACTATAATTGATCAAATTCCATTGGGAATCTTGTTGCATGACAAAAAAAATATATATTATCAAAATAAATTATTTTATAATATTTCAAAAGAAAAATTAGATTCTTTAGACACTTTACTCAAAAAATTAAATTTAAATGAAGAATTTAAAGAAAAATTATTTAACACTTCAAATAAAAATAATGAATTATTTCAAAAAATTAATGGTATTTACTATAAAATAATAACAATACATCTATATTCAAAAAACAAAGATCTTTCTTTCACTCTTTTTGAAAACTTAAATGAACTTGTAAAAACTGAAAAAAAAATAATGAATAAAGTAGATATAGATATATTAGAAAAAGTTTTTGATTTAATGAACTCTGAAAATTATGATTATGAAATCTTTATTGAAAATTTATTCAAAAGTATATTAAAAAAAAATATAGCAGATTTTTTTGGACTTGGAATATTAGATGATCAAAAATTAAATTTAAATATTGGAATGCCTGATGGCAGAATAAATAAAATAAAGTTAATCAGAGAAGAAAAAACAGTGTCTTGGTTTGTTTTAAACAAAAATACTAAACTCTATATACCAAATAATTTAGAATGGCATGAAGATGATTATTCTATAAAAGTAGCTGATAAATCTCTTGTTGGAAAACCTTCTACACTATATATTTGTCCAATAGAATTAAAAAATACAAGAGGTATAGTTATATTTGGAAAGATAGGAATCGATAAATATTCTGAAGAAGATTTACACCTTTTAAACATACTTCTAAAACAAATTTCTTTTGCAGTAAATTATCGAACCTTGTCAAAAAAATTTTATGAAGAAAAAGAACATTATAAAAAAATGGCTCTATTTGATACTTTAACAAACCTTTATACAAGATACTTTTTTAATGGATGGATCTTAAATCATTATGAAAAATTAAAAAGAAATAATCAAACTTCAACGGTTGTTATGATAGATGTTGATAATTTTAAATTTATTAATGATAAGTATGGTCACATAGTTGGAGATGAAGTATTAAAAAGTATTGCTAAAGTAATTTTAAATAATATTAGAAGTTCTGATTTAGCTTCAAGATTTGGTGGAGATGAATTTATAATAGTATTTGATAATTTTGATTTCAAACAAACAAAAGAAAGAATGAATTTAATTCAAACAAAATTATCTAAATTAAATTTTGATTTTAAAATAACTATATCCTGTGGAATTTCAGTTATAACAAATGAAAAAGATTGGTTGGAAACTTTGAAAGAAGCGGATAAAAAAATGTATAAAATGAAAAATTCAAAAAAATAAAACACTCCCAAAAATTTGGAAGTGTTTTATTTTTTATTTTTTAACCTTTATTCTTTTATGTTTTTTTATTTTTTTATTTTCGGATTCTTTTCCTAAAACTGATACATCACTATGATTAAAATTCAGTTTTGAAGCTTCTTTTCTTGCCATTTCAGCTTCTTTTTGAGGATCTATTTTTACAATTCTCATTAAGTAAGCAACTGTATCATCATATATTTCGTCAACTAAGTGTTCAAACATATGATAAGATTCTCTCTTAAATTCAAGAACAGGATTCTTTTGTCCATAAGCTCTAAGTCCAACAGCATCTTTCAATGCTTCTATTGAATCTAAATGATTTCTCCATCTTTCATCTATTATTCTCAACATTATATACTTTGAAATTTGTGTAAATTCTTCTCCAAACTCTTCTTTTTTACTATTGTATTTTTCCCAAAGAAGATCTTGTATTTCATTTTTTGCATCTTCAACAGTTTCAAATTCTTTTCTCAACTCTATCATATATGCTTCTAATTTTGTTTTTAAATATTTAACATCAATTTTTTCTTCTCTTTCATTCCATGATGCTTCAACTAATCTATCAACAACATCTTCAAATATTTCTTTCAAATGTTCATCATAATTTCCTTGCTTTAATATCCAATCTCTATGACCATAAATTGAAATTCTTTGACTATCCATTGCTGAATCCAATTCATAAAGTCTCTTTCTAATAGAAAAGTTTATTCCTTCTATTTTCTTTTGAGAATCTCTTATTATTTTGGTTAAAAGCCCGTGTTCTATTGGAACTCCTTCTTCTATCTTTAAAGTATTCATTATTCCTTTTAATTTTTCTCCACCAAAAAGCCTCAAGATATCATCTTCAAAAGATAAGAAAAATCTTGATTCTCCTGGATCTCCTTGTCTTCCAGATCTACCAATAAGTTGGTTATCTATTCTTCTACTTTCATGTCTTTCAGTTCCTAAAACAAATAATCCACCTACTTCTTTTACACCTTCACCAAGTTTTATATCAGTTCCTCTACCTGCCATATTAGTTGCTATGGTAACAGAATTTAACTCACCTGCTTTTGCAACTATTTCTGCTTCTCTTACTTGATTTTCAGGTTTAGCATTTAAAACTTCATGAGTAATTCCCTTCTTTTTTAATAAAGAACTTAAATATTCTGAACTTTCAATGGATGCCGTTCCCACAAGTAATGGTTGACCTAATTTATGCCTTTCTTCAATAACTTTAACAGCTTCTGCATACTTCTCTTTTTTAGTTTTATAAATTAAATCATTTTTATCCTTTCTTATAACTGGTTTATTGGTTGGAATAACTATAACTTCACAATTATAAATTGTTCTAAATTCATCTTCTTCTGTTTTTGCCGTTCCAGTCATTCCAGCAAGTTTGTCATACATTCTAAAATAATTTTGAAAAGTTACAGTTGCATAAGTTACGGACTCTTCTTTTATTTTTACATTTTCTTTAGCTTCTATTGATTGATGAAGTCCTTCAGAATATCTTCTTCCTGGAAGAAGTCTACCAGTAAAATCATCTACAATTACAACTTCTCCATCTTGAACTATATAATCTTTATCTCTTATAAAAAATAATTTTGCTTTCAAAGCATTCATTATATGGTATAAATACTTTATATTTTTTGGATCATATAAGTTTTCTACTCCTATTAATTTTTCAGCTTTTGCTATTCCTTCTTCTGTTAGAGAAACTGTTTTATGTTTTTCTTCCATTGTATAATCTTTTTCAAGTTCAAATTTATTAATCATTGTTGAAAACTTTTTATACAAATGTGAAGGAGTATCAGATGGTCCAGAAATAATCAAAGGAGTCCTTGCTTCATCTATTAAAATAGAATCAGCTTCATCAACTATGGCAAAATAATGACCTCTTTGAGATTTGTTTTCAATTTCATAAACTAAATTATCTCTTAAATAATCAAAGCCAAATTCATTTGCAGTACCATAAGTTATATTACACTTATAAGCATTTTTTCTTTCTTCGCTATCCATACCAGAATATATAAATCCAACACTCATTCCAAGAAATTCATAAACTGGCCCCATCCATTTCGCATCTCTTTGAGCAAGATAATCATTGTGTGTTGCAAGATGTACATTTCCACCAGTAAGAGCATTCAAATAAACTGGCAAAGTTGCAACTAAAGTTTTACCTTCACCAGTTTTCATTTCTGCTACATTACCTTCATGTAAAGCAATTCCACCTATTAATTGAACATCAAAATGTCTCATACCCAATACTCTTTTAGATGCTTCACGTACTGTTGCAAAACCTTCAACTAATAAATCATCGAGAGTTTCACCTTTATCTAGTCTTTCTTTAAATTCGATAGTTTTATTTTTTAATTGCTCGTCTGAAAGTTTTTCAAATTCCTTTTCAATATCATTTATTTTATTTGCTATCTTTTGGTACTTTTTTATAATTCTTTTATTTTTATCAAAAAATATCATCTTATCCTCCTACTTTATAGTTACATTAACTATATAATTTTTTTCTTTTTTAAAAAATGAAACATTTACAAAAGAATTAATCGATCCATAAAAATTTTTTTCTATATAGTTTACTAAATCTATCATTAAAACTCTTTCAAGGTTTTTCCTATTTTTTAAAGCTTTATAACTATTTAACAATTTAAATCTTGGAGATTCTCCAAAGTATATTTTCATTCTTGATGGTTTAATAGTTGATATTAAAAAATCTTCATCATTATAATATACATAAATTTGTGTTCCAGCTTTTGAATATGTAAATTCATAATAATAATAAGTACCTATCTTACCACTCTTCATTCTTCTCTTATTGGCTATTATACTTAGTTTGTTTTTGTTAAGATTTGCTTGTATAAAAAGTGTTATATCATTTAAATTTGAAATATTTCTTGATGTAATTGTTAAAAATTCTTTTGAATCAATACTCTCAGTAAGTTCTTCCAAAGCTTTAGAAGAATCTTCATCCATAGGTACAAAAAATTCTCTTATATAATTTAAAAACTTATTTTTTTGTAAAAGAAATATATCTAATACTTCACCAAAAATTTTTTTATCCTTTAAAATATCTATATCAAAAGTTGTTTTACTTTCAAAATTCTTTTCTAAAGTTGTAAATGTCGCTGAAAAACTTTTGTCATATTCATTTCCAACAAAATACCAATCTTTTTTTTCATTTAAAAAATTATTTATCTTTCCAGATACTATATACTTTGAATTTGATACAGGTTTTTGATCACCAATCCACATTTCAGAGGAATCTTTTGATATCTTTAAGTTTTTTATATTAAATATATTAAATACGTCTTTTAAAACATTTATCTTTGTATTTCCAATATAAATAGAAGATGATGTTTTTAAAAGGTCGTTTAAAAAATGTATATAATTTGGATTTAAAAGATATTCATAGTTCATACTTTTATTAGTAAAAAATTCAACTGGTGAATTTAAAAAAATATTTAAATCAGTAGAATTAGAAGTAATACTTTTACTTAAAACTTCCAAAGTATACTCCATTCCCATACCTTCTTTAGAATTTATATAACGAAAGAGAGGAACTTTATTTATTACTTCATCATAAAATCCTCTTAAACTCTTTATTTTTATATAATTTTCATTAGAATATCCTATAACAACTGAAATAATTAAAAAAACTAAAGATATTTTTATTTTCATTTTTTTTCACCAAAAACTACTTTTTTTATTTTTAATTTGTCATTTGAACTCTTTGTCTTAGTAAACAATATTAAATATTCTGTGTTTCCACTTCCACCTTTAATTGGAGATTTTATTAATTTAGAAGCAAAAATATTATTCTTAGAAAAATATTCAATTATTTCATTTATCATTTTAACATGAATATTTTTATCCTTTGCAATACCTTTTATTATATTTTCTCTACCAACTTCAAATTGAGGTTTTATTAAAGCAATTATTTTACCATTTTTTTTCAAATTATTATTAAAAGTATCAATCATTTTTTTTATAGAAATAAAAGACACATCACAAGTTATTATATCTACTTTTTCATTTAAAATTAAGTTTCTTGCATTTGTATTTTCCATAATAACAACATTTTTATTATTTCTTATTTTATTATGAAGCTGCATAGTTCCAACATCAACAGCATAAACTTTTTTAGCTTTATTTTCTAAAAGTACCTGCGTAAATCCGCCTGTAGAAGCTCCAATATCCATACAAATTTTCTTTTCAATATTTATATTGAACTTTTTTATAGCTTCTAATAATTTTAAAGCTCCTCTTCCAACATAATTTAAAGTTCCAGTTATTTTTATAATATCCTTTTCCGTCACAAGAAACGAAGGTTTTTTTATAACTTTTTCATTTACAAATACATAGCCTTCTTTTATTAATATTTGTGCTCTTTGCCTTGATTCTTCAAGATTATTTTTTACGATATACTTATCGAGTCTTTCTTTTATCTTATTTCACCTCATTAACTATCAAAATTGATTTTTCTTAATAATTCAATATAATCAAATTCTTTTTTATCTAAATAAAATTTTTCTTCATCATTAAAACTTATATTATTTATTAAATATTTCTTGTTAGACTTTTTATAACCAATAAAATTTGATTTATACGCCATAGGAATTGACAATTCATTGAATTTTATTTTAGTTAAAATTAATTTTGCTATATGACTTCTTACTAAATCACCAAAACTTTGATGATAAGGTCCTGCAACAACATTATTTATTTCATCACCATACAAACAAAGTCCCATTCTTATAACTTTTTTTCCTTCTCTTTCAAGTATAACTGTCATTTTCGCTACTTTTTCAACCGCCCTATCAATGGATTCGGGAATATATGTATTCTTTTTATACATAATTTCAAGAGTACTATTTTTTAAAATAACAGAAGGATGAATTCTAAAAAAATCGGCTTTAGTTTTTGAAGCTATTTCAGCAGATTTTATATCTTTCTCATAAGAAGAGTTTAGAAGTCCTGTCATGAGATGCAATCCATACTTAACATTATATTTATCTAACACATTTATTGCATTGTAAACGTCATTTAAATCATGTGGTCTATTTGCACTCTTTAAAACGTCTTCAAAAAATGATTGAACACCAACCTCAATAACCGAAATATCAAAATCTTTTAATATTTCAAACTTCTTATCATTTATCTCTTCTGGAGAAGTAGAAAACCTTATTCCAGAAACCAAACCATCATTTATTTTTTTTTGTGCCCAATTCAAATAGAACTTCATTAATTCATCTTTAATTCCAGTAAAAGTAGATCCATAAAATGCAATATAAACATTATTTTTTTCTTTAAAATAAGAACTATATCTATTAAACTCTTTTTCTAATTCATTTAAATCAGGATATTTTTTTATTCCAGTTGCAGAATATTCATTACAAAACACACAGCGTTTCTTACATCCAGCATGTGGAATAAATATTGGTATAATATACTCTCTCGACATTTTACTCTTCACCTTTTTCTACATAAACTTCCGTTCCTAAATCACATAAAAATTCAACTTCTTCTACATCTTTATTAAGCATTCTTATACATCCATGAGAAATTCTTTTACCTATTTCCCAAGGTTTAGTCGTACCATGAATACCATACTGTTTTTCAGAAAGTTGAAGCCATCTACTTCCTATTCCATTTATAATAGAACCAGGCTTTATATATTCACCATACCAATAAAGAGCTGGTTCCTTTTCTTGATACATAATTTTATAATATCCAGGTGGAGTAGAGTCACTTCTTCCAACTGCAACAGGATATACTTTCAATAAAGTACTTCCATAATACATTTTCATTAAATTTTTCGCCATATTTATTTTAAGTTGGATTGGACTTTCAAAGTATTTAACTCTTCCAATTATTAAAGGTTGTCCAACATAAATTTTTGAAGGGTCTTTTATATTATTTAACTTTACTATTTCTCCAGGATTTATTTTATATTCATCTGCAATTTTGTATATACTTTCACCTTTTTTTACAATATGAAATCCAACTTTTTTTTCTTTAGCCATAGGTTTAAGTATTTTTTCTGAAAAAACATAATTTTTTATTTTTAAAACTTTAGTATCTATTGAACTTATAAAACCAAATCTATTTTTAAACTCTATATGTATTTTATGAAATCCTTCATTACTTTTAAAAAATTCATCTTTTAATTCTTCTATTGAGCTTACATTTTTCTCATCAAAATCAAAACTATAATAACTTAATTTCGCATTTGCCTCATATGAAATATGATAATTAATTCCATTTTCTTCAATAGTTGAAACAACTAAAAACTTTATTTTTGGAATAAAATCAGATGTATTAAAAAAATTCATAAACGTATCTATTTTTTTATTTCCAATAACATCCATTCCTTTTATAAAAATGGAAAAAAAAGTTTCTGGTTTATCTTTTAAAGATATAAAAAAATTATACTTTTTATTTGTTCTTTTTAGTAAATCCACATGCTTTTGAAAATCCCCATAAAAAACTATTACCGATGGTTTTTCCACCGGTATAAATTTACAACTCAAATTTATATTAACTAACTGCTTTTCTTCATCATAATCCACTATTGAAATAGAAAAATTATTTGGAAAACTTACTAGAGATATAATTACAAATAGCAACACTAATATCTCTTTTACTACTTTTTTCAACATGTTTTTCACCATCTTTTGAAATCAAAACAACTTCATTTTGATTGCTATCAAAACCTATATCTTTTCTTGATACATCATTAGAAACGATTATATCAGCATTTTTATTTATCAATTTTTTATTTGCATACTCAATAACATCGTTGGTTTCTGCTGCAAAACCTACTGTTATTTGAGTATTATTTTTTATCTTTCCAAGTTCCTTTAATATATCTGGATTTTTTTCTAATTCAATGATAAGGTTCTCACTACTTTTTTTTATTTTTTTATTTGAATAGTTTTTTACTTTGTAATCACTAACAGCAGCTGCCATTATTGCAATGTCTGCTTCTTTAAAAAACTTTAAGGTTAATTTAAACATCTCATCAACTGATTCAACACTAAAAAATTTTTTTACTAAAAATGGAGGTTTTAACTTTGTTGGACCGGAAATTAAGTATACTTCAGCTCCCCTTGCAGCTAATTCTCTTGCAAGTTCATATCCCATTTTTCCACTTGATCGATTTGTAATACTTCTGACTGGATCTATTGGTTCAATTGTAGGTCCAGCAGTTATTACAACCTTTTTCCCTTCATAATCTTTTGGAGCAAGAACTCCATCTATAAATTCTAAAATATTTTCATTATCTGGATAACGTCCTTTACCAACTTCTCCACATGCAAGGTGACCTTCATCTGGAAACATTATCTTCCAGCCCATTTCTTCTAATCCTTTTAAGTTTCTTAAGTTTGCCTTATTTTCAAACATTCTTGTATTCATTGTAGCAACAATTATTTTTTCTTCCTTATCAAATGCAGAAGCAGTTGCCGTTAAAAGATTATCAGCAAATCCTGCATTTAATTTTGCTATTGTATTTGTAGTTGCAGGAGCTACAACAAACACATCAGCATCTGCCGAAAGTGATGTATGAGGTATCCATCCACCATTTACATCATTTTTTATACTGGTATAAACATTACAATCCCCTACAGCAGAAAAAACCGTTTTATCTATTAATTTTTCAGCATTTGGAGTTAATATTATATTTAATCCAACATCTAATTTTCTTAATTTAGAAGCTAAATCAACGGCTTTATAAAGAGCTATTCCACTACTAACTCCCAAAAGAACATTTTTATTTTTTAAATAAGGATAATTCATTATAGATTCTCCTTTATTAGTTTATTCAAATTATATCATACATTTTCTAAAATTTTTTTAAGTCTTTTTATAACTCTCCTTTTTCCCAAAACAACTATACTTTCATAAAGTCCTGGCGTAACTAAAGCACCAAGCAATGCACCTCTTACAGATTGATAAGTATTTTTTTTACCAGTTATTTTTAAATCAGCTAAGCTTTGCATTGTATTTTCTATTTTTTCTATATCATATTCCGAACTTTCAAGTTTTTTTATTGCTTCACTTATAAGTAATTTAAACCAATCTTTCTTAGTATACTTTAAATATTTTTCTTCATAATTAAACTCTTCATCATAAAAATTCTTTGAAAATTCATGAAGTTGTTTTAAAGTACTAACCTTTTGCCTTGATATATCAATTACCTCTTTTATATAATTATCAGAAGCATTAATTTTTATATTATTTATTGAACACCAATTCATATAATGGGTAAAGATTTCATCTAAAGGTTTATTTCTTAAATGTTCAGAATTTATCCACATCAATTTTTTATAGTCAAAAACAACAGCTTTATTTGAAACTTTAGTTATATCAAACTCATCAATCTTATCTTTAAAATCAAAAACTTGTTCTTCTGTAGACCAACCAAGAACAGCCAAATAATTTATTAAAGCTGATGGTAAATATCCTTCTTCTTTAAAATAAGCAACAGAAGTTCCACCATGTCTTTTTGATAAAGGAGACTTATCTTCTCCAATAATTAAAGGAATATGAGCAAATTTTGGTTTTTCAAAGTTAAGAGCTTCATACAACATAATTTGTTTTGGTGTATTAGAAAGATGATCCTCACCTCTAAATATATGCGTTATATTCATCAAATAATCATCTACAACTACTGTAAAGTTGTACATTGGAACTCCATTCGATCGAAAAATAACAAAATCATTATAAGTGTTACTATCAAATATCATTTTACCTTTTATTAAATCATCAAAAATTATTTTTTTATTTTTTTCAACTTTAAAATTTACTGTTATTGAATATCCTTTATTATAATACTCCTTTGGATATTCATAACTTTTTTTTATAATTTGTGTATTATCTTCTTTAGAATAAATAGCATAATATGCTTTTTTTTCATCTATTAATTTATTAATATACTTTTTATAAATATCGAATCTTTCACTTTGTCTATAAGGTCCATACTCTCCACCTTTATCAGGACCTTCATCATAATCAATTCCACACCACTTAAAATCATTTAATATAATATCTTCATACTCTTTTTTAGATCTTTCAATATCAGTATCTTCTATTCTTAAAATAAATTTGCCATTATTTTTTTTAGAATAATACCAATTAAATAAAGCAGTTCTTACTCCACCAACATGTAAATATCCAGTTGGGCTCGGTGCAAATCTTACTCTAGTCACTCAATTCACCTTCAATTTCTTTTAATAATGCTTCCATTTCATTTAAATCTTTTGCCACCTTAACCTCAATCATCTTTCTATTATCTAAATATTTTCCATCTATTAAAATTTTTTCTGCAATTTCTGTCCATCCACCTGTTCCTTTTAACAAAATTAAAGGTTTTTTATAAGCATAAGCACCAACAAGTTCCAATGCTGTACCAATTTCCCCGCCAATACTAACAACAGCATCAACACTCTTTAACAAAACAAATGAACGCATAGAAAAATCTAATCCCGTTTTTATTTCAAGATCAAGATACTCATTTCCATTTTCTTCCCAAGGCATAACCCCTATAACCTTACCACCATTTTTTTTAGCTCCTTCAGAAACTAAATCCATTATTCCATCTCTACCGCCATTATACATAATCCAATTGTTCTTTGCTATAACCTTACCAACTTCTATACAAATTTTCTTTAATGATTTTACTGGTTCTAATTCTTTATTTCCAGAGTAGCCTATTACTCCAACATTCATCAAATTCACCATCCAAGATAATTTTCTTTAACTTCCTTAAGCTCAAGAACTTCAGAAGGTTTACCATGAGCTATAACATTACCCTTATGCATAACATATAAGTCATCTACAACTTCAGCAAGTTCATCTACATTGTGATCTGTTATTATAACTGAAATTCCACTTTTAGCAAGCTTTGCAATTATACTTTGTATATCTTTTACTGTTATTGGATCTATCCCAACAAAAGGTTCATCTAAAAGAATTACCTTAGGATCTATTAAAAGAGTTCTTGCTATTTCAAGTCTTCTCTTTTCACCACCAGATAAAGAATCTGATAATTGATGTAAAAGAGACTCTATTCCAAACTCCTTTGAAATATTTTTTATTTTTTTTTCTTTATCTTTTATTTTTAATAAATCTGATATCATATACAAATTATCTCTTACAGTAGCATTACGAAAAACAGAAGGTTCTTGAGGGAGATATGCCATTCCCTTAAGAGCTCTTCTGTGTATTGGTAAATGAGTTATTTTTTCTCCATCCAAATAAACCTGTCCATTATTTGGAACAACTAAACCCAATATTGATTTAAAAAGTGTTGTTTTACCAGCTCCATTTGGCCCCAAAAGTCCAGTTACTTTTCCTGAAGTAGCTACAAAATCAACATTTTTTAAAACTTCTTTTTTTCCATATCTTTTAAATATTTTTTCGCATTTAACAATTGAATCCATTTATTTTTTATTCTCAGTTGTATTTTTTTCAGTATTTACTTCTTCATTAACCATTTTTAAAATAGTATCTGTTATATCAACCTTTTCGCTTGCAAATATAACAGAAGATTCAAATAAAATTAAATCATAATTATTGTCTTGTGCATACTTTTGAATAAAAGTTTTTAATTCTGAAATTAAACCATTAGATTTTGTAGTATATTCTTTTTGTATAGCAGTATTATAACCATTTACTTTTACTTGAACTTCTTGATACTTTTTTTGTAAGTCTTCTTTTGATGCACCATTTTTTTCCATAGTTTGTAATTCTTCTTTCATTTTTTCAATTTTATTTTGATAATATGCCATATCATTTTTATATTTATCTTGAAGATCTGTCCACTTATAATAACTCTTAGTTACCTTTTCAAGATTTACAAAACCAATCTTCAATTCGTTTGAAAACGACATTACAACACCCATTAATAAAACCATACTCATTAAAACTATTTTTTTCATACTCCACCTCCAATTTATTTTCCTATTAATTATACTCGAAATTCCTTAAAATTTCAATAAAAAATTTATTCTAACTTAAAAATTATATAGACTTAAATACTTTAAAATCTTTATTTTAAAAATGTTATATTTTTTGTTAATCTTTTTATGATAAAATATATTAATAAGTTAAACAAACAAAGGAGGATTAATTTTGATTCTTGATGAAAATATATTAAAGATTCTAGATTTAGAAGAACCAAGCATACAAGAATTAAGACATATATCAAAAAAATTAAATATAAAGTTAAGAAGATCAATGAAGAAAAAAACTATAATAAAAGAAATACAAAAAGAATTAAGAAAATTAGAACAAGAAGGATTAATACATACAAATAAAAATAAAAACATATTAGATTTTGCTACAAACACATACTATGACAAAGATTCATTAAAAAACATGTATGTAAACGCAAGTCTAATATATGTTTATTGGTCTTTTTCTAAAGAAACAATCAATGTTTTAAAAAATAAAAAAGAAAAAAACTTTTTTTTAAGAATTTTTGAAAACGATCCCTTAGAAAATCTAATAAGAATATTAGAAACTCCTGTAGATATATTTAAAACAAAAAAACTTTATATTAATGTAAAACCAAATTCAACATATTACTCAGAAATAGGATACAAAGAAAAAACAACTACTTTTGTATCAATATTAACTTCAAATAAAATTAATACTCCAAAAAATTATCCATCACACAATAAAGATGAATTATGGTTAGACTTAAAAACAAAAAACATTAAAACAATAAAAAGCAAAGAATATGATTTAATAATAGAAAAAATAAATCCAATTTATTCTATAAACAATAATGCTGCCAGTAGCTCTTTTTTATGGACAGGATATGATAATATATGAAAGGAAAATTTTTATTAGTACTTCATGCACATCTTCCATATATTAGACATCCAAACTTTGATGACTTTATGGAAGAACATTGGTTATTCGAAGCAATAAATGAAACTTACATACCGCTATTAAAAGTTTTTGATTCTTTAGATAAAAAGAATATAGATTTTAAATTAACTTTAAGCATAACTCCACCTTTAATGGAAATGCTCGTTTCTAAAAACTTAAATAAAAAATTTTTAAATTATATGCACAATTTAATAGATTTAAGCAAAAAAGAAATAGAAAAAACTAAAACTGAAGATCCAAGAAAACACAAAATGGCTAAATATTATAATAAACTATTCAATGAAAATCTAAAACTTTATTTAGATAAATTTAATCAAAATATACTTCAAGGCTTTAAAGAATTTCAAGAAAAAGGTTACATTGAAATGGTAACATGTAATGGAACTCATGGGTTTTTACCAACCATGATAGAATATCCTGCAGCTATACGTGCTCAAATAAAAACTGGAATAAACACTTATAAAAAATATTTCAATGAAGCGCCAAATGGAATTTGGTTAGCTGAATGTGGTTATTTTAAAGGATTAGATAAATATTTATCAGAAGAAAATTTAAAATATTTTTTTGTTGATTCACACGCTTTTTGGTATTCTGAAATTCCAGCAAGATACAATGTTTACAGACCGATAATAACTCCAAATAATATTTTTGCATTTGCAAGAGATCCAGAATCAAGCGAACAAATTTGGAGTGCAGATATTGGGTATCCTGGAGATTCAAGATACAGAGATTTTTATAGAGATATAGGTTTTGACAGAGAATATTCATATATAAAACCATACATAGATAAAAGCGGTATAAGAAGTAACACTGGAATAAAGTATTACAAGATAACAGATAAAACACTTAATTCAAACGAAAAAGATTATTATGATATAGACGAATCAATGCAAGCTGTTGTTCAACATGCAAAAGACTTTGTTAATAAAAAAACAATACAAATAGAAAATATGCAAAACTTTGAAGAAGAGCCCATAATAGTTGCTCCATTTGATGCAGAATTATTTGGTCATTGGTGGTATGAAGGACCTATGTTTTTAGAAAAATTATTTGAAGAAATTTCAAAATCAAATTTATTAAGTACCTCAATACCAACTGAAATAATTAAAAGTTCAAAAAAAATACAAATTTTAGAACCTGCTCCGTCTACTTGGGGAAAAAATGGTTACAATGAAGTTTGGATAAATGATTCTAATGATTGGATCTACCCTTATTTAAATGAAATGATTGAAAAAATGATTAAATATGCAAAAAGCAAAAGTAATATTTCAAAAATAGAAGAAAGAACATTAAATCAAATGGCAAGAGAATTACTACTTGCTCAATCGAGTGATTGGGCTTTTATAATGTCAACAAATACAACAGTTGAATATGCCAAAAACAGATTTCAAACTCATGTAAAAAGATTCTTTGAACTTGAAGAAATGATTAAAAACAAAACTATAAACGAAGAAACACTATCAAAATATGAGTGGTTAGACAAAATCTTTAAAAATATGGACTTTAGGATATACAGAAACAACGAATTCGCAATTTGAAAGGAGGGCATAATCGTGCCAGAAAAATATTTCGAAGTAAGATGGCATGGAAGAGCTGGTCAAGGAGCAAAATCAGCTTCTCAATTCTTAGCTGAAGCAGTAGTTGAAGCAGGAAAGTTCGCAACTTCATTCCCAGAATATGGAGCAGAAAGAGCTGGTGCTCCTATGAAAGCTTTCAACAGAATAGCTGAAGTACCTATTAGATTAAGAAACAACGTTCAGCATCCTGATGTTGTTTTAGTTGTAGATGACACACTTCTTGGAAATCCAGAAATAACTGATGGATTAAAAGAAGAAAAGATACTCGTTGTCAACACTGTAAAAACACCAGAAGAAGTAAAAAAAATTACAGGTTTTAATGGGAAAATCGCTACAATAGAAGCAACTAACATTGCTTTAGAAGAAATAGGAAGAGGTATACCAAACACAGTTATGATTGGTGCTCTTGTAAAATTAACAGATATTGTTCCACTTGATGTAGTAAAAACTAAAATAAATCATGCTTTTGCAAAGAAATTTTCAAAAGAAATTGTTGATGCAAACATGAGAGCTGTTGATAGAGGACATCAGGAGGTGAAAATCAATGGCTGACCTTAAAAATTGGAAAGAAGTACCAATCGGTGGTGTTGTTGATAAACCTGCATCAGCAAGAGAATATCACACTGGTACATGGAGAGTAATGAGACCTGTTGTAAATAAAGACAAATGTATAAATTGTATGCAATGTTGGTTATACTGCCCTGATATGGCAATAGGTGGTAAAACATCAACCGAAACTAAAAATGGTATGGAAATGACAGGATTTGACCTTAACTATTGTAAAGGTTGTGGTACTTGTGCTGCAATTTGTCCTGTTAAAGCAATAGAAATGAAACCAGAAACTGAATTTGAAAAGTAAGGAGGTTAAAAATAATGCCTGTTAGACTAGAAACTACGGGTGCTGCTGCTGTTGCTCATGCAATGAGACAAATAAACCCAGATGTTGTTGCAGCATACCCAATAACTCCTCAAACACCAATAGTACAATATTATGCTGATTTTGTAGCAGACGGTGTAGTAGATACAATGACAATACCTGTTGAATCAGAACATTCTGCAATGAGTGCTACAGTTGGTTCGGCTGCTGCTGGAGCAAGAACAATGACAGCTACTGCTGCAAATGGTCTTGCACTTATGGCAGAAATAGTATATATAGCTGCATCTTATAGACTTCCAATAGTAATGCCAGTTGTAAACAGAGCACTTTCTGGACCTATAAATATTCACTGTGATCACTCTGATGCTATGCTTGTAAGAGATTCTGGATGGTTACAATTATTCTGTGAAAACCATCAAGAAGCTTATGATATGACTTTAATAGCTTGTAAAATAGCTGAAAAAGAAGAAGTTCTTCTTCCAACAATGGTTAATTTAGATGGATTTATAACATCACACGGTGCAGATTCATTTGAAATGCTTGATGATGACGTTGCAAAAAAATTCGTTGGAGAATGGGAACCAAAATACCCACTAGTAAATGTTGCAAAACCAGTTACTCACGGTTCATTAGACTTATTTGATTACTACTATGAACATCACAGACAACAAGAAGAAGCTATGCAAAATGCTTATAAATTGTTACCTGAAGTATTTGCAGAATTTGAAAAAATATCTGGAAGAAAATACGATTATTTAGATCTATACAAAGTTGAAGATGCAGAATATGTTATGGTTGTTTTAAATTCAACAGCATCTACAGCTAAATATGTTGTTGATGAATTAAGAGAAAAGGGAATAAAAGCTGGACTCATTAAACCATGGGTTTTCACACCATTCCCTAAGAAACAATTCCAACAAGCACTCAATGGTAAAAAGGCAGTAGTAGTTCTAGATAGAGCTATGTCTTTTGGTAAAGAAGCACCATTGTACTCACTTGTTAAATCATCACTTTATGAAGTTGCAGTAAGACCAACCATGGGATCTTATGTTTATGGTTTAGGTGGAAGAGACGTAACTCCTGAAATGATTCACGAAGCATTTGAAGCAGCTATTTCAGGAAACCTTATTACCGACGAACAAAGATACCTCGGTTTAAGAGATTAATGGAGGTGGATGAAGGTGCCTTTAAACGTTAAACAATTAGTAGAATATGTTGAAAAAAATGACTGGCCATTTACGCAAGGACACAGATTATGTCCAGGATGTAATGCGCCAATGGTAGCAAAATGGGCAACTTTAACAGCTAAAGCTCTCGGTTATGAACCGGTTGTTGGTGCTGCAACAGGTTGTCTCGAAGTTTCTTCTACAATTTATCCATATACAGCTTGGAATGTTCCTTATATACATAATGCATTTGAAAATGTTGCAGCAACCATATCTGGTGCTCAAACAGCTTACGAATCATTAAAACATAGAGGAAAAATAAAATCAGAAAAACCACTTAAATTCATTGCTTTTGGTGGAGATGGTGGAACTTATGATATAGGTTTACAATCATTATCTGGAGCAATTGAAAGAGGACATGACTTTGTTTATGTTCTTTATGATAACGAAGGATACATGAATACAGGTAACCAAAGATCAGGTTCAACACCAACAGGTGCTCAAACAACAACAGAACCAGTTGGTAAAGTTAAACCAGGAAAAGTTCAATTTAAAAAATCATTATTAGACATAATTGCTGGACATGAAGGCGTTTATGCAGCATCTGCTTCAACATCTGAACCACTTGATTTCATGAAAAAAATGGAAAAAGCACTTGAATTTAAAGGACCAGCTTTTATAGCTGTACTTGCTCCTTGTGTTAGATTCTGGAGAATTCCAGAAAGTACTGGACCAGCAGTAACTAAACTTGCTGTTGAAACAAAATATTGGCCACTTTGGGAATATGATAGAGGAGTTTACAAAGTAACTAAAAAACCAAGAAACTTTAAACCAATTAGAGAATACATAGAAAAAATTGGTAAGTTTAAACAATTATTAAAAACAGATCATGCTGATGAAGTTATTGATCAAATGCAAGAATACGTTGATGCTAAATGGGAAAGACTTTTAGCTCTTGAAGAAATATCTCAAGATAAACCTTTGAGAAAGTAATTTAAACCACGCCTTTGGCGTGGTTTTTAATTTCCAAAATATATTTTTAAGCTTTATTTAAGAGAAAAAATATATAATTAAATGTTTTAACACAAAATTCTATTTTTTGTGATAAAATAAATAGATATACTAACATAGGGAGATTGGAGGAGGAAACACATGAGAGATTGGTTTGTAAAACACGAAAAAGTTATTTCATTTTTAATAGTGGCTTTTTTCGTAATAGGTACAGTAGCATGGAGTATAAGCGCTTATATTTCAACTGGTGCAACTAAAGCAAAATCTGTTAATACACCAACAAAACAAAACGCAGTAGCTGTTTTAGAAAAGGATGGTAAGGAACTAGACTACCCATATTGGGTTATGAAAACTGAATTAGATGCTGAATATAAAACAAGAAAATCACAGTTAGAACAACAGTATCATCAACAAATAGATCCTGTTTTTGATGCACTTGGATTAAAATATTCTTTGGTAAATCAGATTGCAGATTTTGATATTGTTAAATACTTCGCAGAAAAAAATCATTTAATGCCAACAAAAAACGAAGTCAAAAAAGAATTAGAAAATCAAGTTAATTCTTACATAGCTTCTTTGAAAAACAATCAAGAAAATTGGGATAAAATTATTAAATACTATGGAAGCGAAAAAAAGGTAAGAGATCTTTTGACTAATGGACAAGATTCAAGAGTAGAAAGCAACTTAATATACAACAGAGTTCTTTCAAAAGTTGCAACAGTAACAAGAGCAGAAGGACTCAAAAAAATAACAGAAGATTTTGATAAAATAAAAGCAGAAAATGAACAAGTTAATGCACAACACATACTTGTATCAGATGAAGCAACTGCTTTAAAAATTAAAAAAATGATAGACAATAAAGAAATAAGCTTTGAAGATGCTGCTGCTAAATACTCTAAAGACACATCAAATGCAACATCTGGTGGAAACCTAGGTTATTTTGGAAGAAATAAAATGGTAAAAGAATTTGAAGATGCTGCATTTGCTGCAACACCTGGAGTTGTAGTTGGACCTGTAAAAACTCAATTTGGATATCATTTAATAAAAGTAAATGACAAAAAGGTTTTTAATAAACCAGAAGATGTTTTCTTATACACAGATGTTTATAGTAAAATAGAACAAGATTTACAAAATACAAAATTTAAAGATTGGCTAAAAAAATATAAAGAAGATGAAAAATTCTCAGTAAAATACCTTGACAATAAATATGAATTTATGGTAGAATTATCTTCTGCTGCAACAGATGATACAAAAATTTCAAAGTTAATTGATGAATTAACTCCAGCAATATTTGGAGATGACAACGAAGTATTACCAGAAGCTGATGTAGAACTACTTGGATTATATGCAACATTATTAAAAGCACACGGAAATAATGTTAATAATAATCTTTTAGAAGTAAAAAGATTTATTTCTCTACAAGATACAGATAAATCTGTAATAGCTCTTGGTATGGATACTATAAATAAAAAAATATCTGAAATTGAAGCTAAAATAAAAGAAAATCCTAATGATTCAACATTATCAAAAGAAAAATTCAAATACACTGATGCAAAATCATTTATAGAAGCAAAAGAAGCTGTTTCTAAAATGAATATAAGTACAGTTGAAGAAGCAAAAACTGAAAAAGAAAAACTACAAAAAAACTTTGATTCTATACAAGATAAAAACTTAAAAGTATTAAAAGATTTATTCTATGAATATCCTACTTCTAATAAAGTAGTTCAAGAATACTATCAAATTAACCCAAGCGACTTAAATGCAGTTGTACAATATACAAAACTTGAATTCAACGGTTTAAAACAATATATGGGATACTTGAGTGCTGATATGATAAAACAATATTTCCAAAAACAATTTACTGAAATATATGTTAATATTAGTAATGTAATTGCTTCACCAAAAGCATCTACAAAAAACAAATTAGATGCCATAGACTTAGGTATTGATTTCGCAACAACATTAAAAGATAATAATTTAAAATTAGACTATTTAAAGAAAGCAAAAGAAATAGACGCTAACTACTACAAAGACATAGATAAAATGATAGCAGAAACAGAAAAAGCTATTTCAAATGAAGCATCCAGCATGAAAAAATAAAGCAAGATAAGGAAGAAAAATTTAGATAAAAAAATGCCGGGCAAAGCCCGGCTTTTGTTTCTCAAAAAAAAGAGAATAAAAAATGGCTGGGACGGTAGGATTCGAACCTACGGAATAACGGAGTCAAAGTCCGTCGCCTTACCGCTTGGCCACGTCCCAGCGCATACGTAAGTAATTATAACATACAATATTCATTCTGTCAATAGTTAAGGGGGTATAAAACGTGAAAATAAAGTTAAGAAATCTTGAAGAAAAAAAAGTATATGAAATTCCTGAAGGTAGTACATTTGGAGTACTTGCAAAAAAACACGAATTAGAAACAGGAAGAACTGTTTTTGCAGTAAAATACAACAACAACATTAAGGAACTATTTAAAATTCCAAACGAAGATGGAATAATTGAGTTTTTGGATCTATCTACATCAGATGGAGTTAAAATTTATCAAAGAGGTCTTTTATTTTTACTAGAAATAGCTTTAAAAGAATTAAACAAAAATGAAAATCTTTATGTTCAATCATCTATTGGAAATGGACTATACTGTGAATTTGAAACTAAAAATCCTAGTGAAGATTTCATAAATAAATTAAAAGAAAAAATGAATGAATTAATTGAACAAAACCTTCCATTCAAAAAAGAAAACATAGAAAAATTTAAGGCTATAAAAATGTTTAAAGATGCTGGAAAAGATGATAAAGCACTTTTATTTAAGTTTAGAAAAAAATCAACAGTAAATATTTATAGTATAAAAAAATACTTTAATTATTTTTATGGATACATGCCTGAATCTACAGGAACTTTAAAAAAATTTGACTTAATAAAACAAGGTAATGGAATTGTTTTATTGCAACCAAATCAAGAATCACCCGATGAAGTGCCAGAATATAGACATTTAGAAAAATTATCTTCTACATTTAAAGAATACACACAATGGCTAAAAATAATGGAAATAAAAACAGTAGGGGAATTGAATGAATTAATATCACATGGAAAAGAATCTGCCGTTGAATTAATAAGAGTTGCCGATGCACTTCATGAAAAAAAATATGCAATGATAGCAGATGAAATAATTAAAAATGATAAAATAAAATTAATATTAATAGCTGGTCCATCTTCATCTGGAAAAACAACAAGTGCAAAAAGAATAGCCTTACAATTAAAAGTAAATGGAATAAAAACAATACCTATTTCACTCGATGATTACTTTGTAGAACGTGATAAAACACCAAGAGATGAAAATGGGGACTACGATTTTGAATCAATAAATGCTTTAGATTTGGAACTTTTTAATCAAAATATGATGGATTTATTTGAAGGAAAAGAAGTTACACTACCAAAATACAACTTTGTAACTGGTAAAAGAGAATGGCATCAAAAAACACTAAAATTAGAAAAAGGACAAATTTTAATAGTAGAAGGAATTCACGGATTAAACGAAAAATTAACAAATAAAATTCCAAGAGAATGGAAGTTTAAAATTTATGTAAGTGCTTTAACTCAAATGAACCTTGATGATGTAAATAGAATTCCAACAACCGATACAAGATTGATAAGAAGAATAGTAAGAGATTTTAATTTTAGAGGTCATAGTGCACTTGATACATTGAAGATGTGGCCAAGTGTAAGAAAAGGTGAAGAAGAAAATATTTTCCCTTATCAAGAAGAAGCAGATATTATGTTTAATTCACATCTCGCATATGAATTAGCTGTTTTAAAAATTTTTGCCGAACCACTACTATTACAAGTAGATAATACTGTACCAGAATACTCTGAAGCAAAAAGACTATTAAGATTTTTAGATTATTTCTTACCAATAACTGAACTTGAAGAAATACCTAAAAAATCTGTAATAAGAGAATTTATAGGAAGATCAGAGTCTGTAAAGATTAGTGTGTATTAGATATATCTGGTAGCATATAAATATTGGAAAACAACGACAAAAATCTTAAAAAAATGTAGTTATTAGAAAATGAAAAAAATGTTCCTGAATAGTATGAATTAAATAAGGCAAAATTGGTAAAACCAACCTTTTACAGTAAAAAACTGCAATGACTGAAAGGGCGACAACCCATCTCCCGAGAGTGTAAAATATTAAGTTTTTTAGGATTACAAGCTACTTTCAGAGGTAGTCTTTAAGACGTTCCTCGAAAAGGATGGCCAGTTCGGAAATAACAGCGTTCCAGTTGTGAAACCGTGCTGTCCATTTTTTTGTCACGTTTTTGGTAGTAAGGTATAAACTTTTAAGGACAGCATCGTCATTAGGGAATATTGATTTGGTCTTGGTAGCCTTCCTGAATTGCCTGTTAAGTGACTCTATGATGTTCGTGGTGTACATAATCTTCCTTACCCCGTCTGAGAACTGAAAGAAGGTGGATAATAGGTGCCAATTTTTCTCCCAGCTCCTCAATGAAGCGTAATACTTGTCTCCCCATTTGTTTATTACATTGGTTAGATTATCATAGCCTGTCTTTTCATCCAGTGCTGTATAGATTGTCTTTAAGTCCTTTGCGAACTCTTTCCTGTCCTTGTGAGGAACATATTTCAGGGTGTTTCTAATCTGGTGGATTATGCACCTTTGTATCATAGTTTGCGGGAAGGTTGCATTTATAGCCTGCTCGAATCCAGAAAGACCATCTATTGAAGCTACAAGTATGTCCTTAACTCCTCTGTTTTTGAGGTTGTTAAGTACTCCCATCCAAAACTTGGCACTTTCTACTTCACCAACATATATCCCGAGCACATCTTTAATTCCATCTATGTCAACACCTATTATTACATAAGCAGCCTTCTTTACTATCCTTCCGTCCTCTCTAACGTTGAAGTATATTGCATCCAAGAAAACGAAGGTGTATATTTCGTGTAATGGCCTTTCTTGCCAGTCTTTTATTAATGGCATAAGCTTATTTGTTATTTTGCTCACCAGTTCAGCTGATACTTCAAATCCGTACAAATCCATTATCTGATCAGATATATCCCTGGTGGTCATTCCTCTTGCGTACAAACTTATTATTTTTTCCTCTATCTCTGAAATATCATTCGAATACTTTGGAACTATTTTGGGTTCATATTCTCCCTTTCTGTCTCGAGGTACCATTAATTCTATCATACCGCTACTACTCTTTAAATTCTTCTTCCTGTAGCCATTTCTTGAATTTTCTGTATTTTTCTTTTCTCTGTCATACTTTCCATAGCCCAGCTCGTCTTCGAGTTCCGCTTCCAGTACTTCCTGGATCAGATTTCCTGTCAGTGATTTTGTTAATTCCTTTATATCCTTTATTGTTCGGATTTCTCCTTTTCTTACCATTTCCTTTATTATTTCCTGTAGTACATTTCCCATTTTTCGTACCTCCTCTGGTTTTATTTTACCACCAGATCTGTATCTTTTTTTCCTTATACACTTAATATTTTACACTCTCGAAGATCAACCTTTGAATATTAATAATATAAAGGCAGTAACTGCCTTTATATTATTAAATTATCTTTTTCTTTTAAATACATACGTCTTCCATTTGTTTTTTTATCCCATTCTAAAATTTTATCCATATCTTCTTTTGTTAAAATTTCATTTTTTAACAATTCATTAGGAACATTTTGACTAAATGGACAACTTGAAATACAAACACCACAATCTGTTCCCAATTTCTTCCACACTTTAAAGCAGTTTTCTTGAGAAAAGTTAAACTCTTTATCTTTTAAAGACTTATCAGATATAGCACGTCCCAAACAATTTTTTGAACACTTTTTACATAAATCACAAAACTCTTTTAATCCAAATAACTTTTTTTCATCTTCTAGAAGCTGCAAATCAGTAGTTACAACTCCCAATCTTATTCTACTTCCATACTTTTTATTAGTTAAAAGTCCATTTCTTCCAACTTCACCCAATCCAGCATCTTCTGCAACTCTTGGTGCAATAATTAAATAATTACCATCCATATGATTTCTTGCAGGATAACCAAGCTCTCTTATATAATAGCTCAATTGCATACCAATAATTGCAGCTTTAACATAACCTTGAGTTACGGTTATAGCTTCTTCAACATTTGGTGCTCTATTAATTAAATTTTTTTCCATTTCAACTGCAAAAACTATTCCATATTTATGTTTATGATACTCTTTTATTTTTTCACCATAATGCCCATTTCTCCCTCTGTAAGAATAATAATGATAATCTTCCATCTTTGTAATACCAATTTCAACAGCTCCAAAGTACTTACCTAATTTTTTTATTGCTTTTGTTATTTTTTCAGGCGAAACATTTACTTTTTCTTCTGAACACTTTCCATTCACTAAATGTTTTATATCTGCTAAAAATTTAAAATTAGAATTTCCTAAAGGAGTAAAAACCTCATCATAAGTTGTAGTTTCTTTTGAACCAAAATCTGGCATATTTCTAAATTCATCGTCTATTATCTTTTTATCTGGATTTCTAAAATAATAATCATTATATTCCTTACCATTAAAATCATAACTCATTCTTGCAAACATAGTATCTCTTTCGTCAATTTTCTTCATATTCCCTCCTAAATATCATTTATTATCCTTTAATGGGATATAAAATATTACAGTTGTTCCAGAACCATAAGTGCTTTTTATAGTTATTTCTCCATTTAAATAATTAACCATACTTTTACATAAATAAAGTCCTAATCCTGTTCCTGAATATTTTTTTGAAAAAGAATTATCAATTTGATTGAATCTTTTAAATAATAATTTTAAATTTTCTTCTTTTATTCCTATACCAGTATCTGAAACTTCAAAAAATAATTTTTTTTCTTTTTTATACAGTCTTAAAATTATTACACCTTTTTCAGTAAATTTTACTGCATTTCCAATTAAATTAATTAAAATTCTTTCTATTTTCTTCATATCTGAAGTAATATATTGAGGTATGTTTTTTTCAGTAATTATGTTAAAAGATATTTTTTTCCCATTTAATAATCCTTTGGTTATTTTTTCAATTTTTAATAATAAGGTATTTAAATAAAAAAGGCTTTCTACTCTTTCCATCTTTCCAGCTTCCAGCTTTGATATGTCCAAAATATCATTTATCATTGAAAGTAAATGATTTCCACTTTCTCTTATTATTTCTATAAACTCCAAATCTTTTTTTGAAAGATTTTTATTTTTATTTTCTAGTAAAATAGATGAAATTCCAAGTATTGCATTCATTGGTGTTCTAAATTCATGACTCATATTTGCAATAAACATACTCTTTGCTTTACTTGCATTTTCTGCATCTTTTTTTGCTTTTAATAATTTTTTTTCTATAATTTTCCTTTCATTTATATCTCTAATCAATGCTTGAATATAGTTTTGGTCATTTAAAGTTAGTTTATTTAAACTAATTTCACAATAAAATTCACGTCCATTTGTATCTTTATGAACCCATTCAAAATAACAGCTTCCTTCATTTAAAGCTTTTGTTATATAATAAGCTCCTTTTTCAATAGAATTTTTTCCATCAGGTTGTTTTTCAGGTGAAAATTCCATAGGAGTTTTTCCATAAATTTTTTTTGACGTAGTTTTAAATAAGGTTAATATCTTATCATTAAAATCTATTATTTTATTTTCTTTTAAAATTAAAATACCATCATTTGCGGTTTTAAATAAAGTCTTATATCTCTTTTCTGATTTTTTTAATTCATTTTTTATATTAGATAAATCTTTTAAACTCCTTGCATAATATATATAACCTGTTTTTTCCTTATTCTCATTATATAAATCTGAAACAGACATCAATATTGGTATTTTTTTATTTGTAGAAGTTTTTAGTAAAAATTTTTCGGCTATTATTTTATAATTATTGTCAAATTTTGCATTTGCTTTTTCAAAAAAAATATTTTTTATATTTGTATAAATAATATCTTTTCTTTTAAAACCAGTTTCTTTTATTAATTTATTATTTACTCTTTGTATTATATTATCATTATCCGTTATTATCAAAAAATCTGTAAATGATTCCAAGATTTCAGAAGATGTTTTTTCATAACTAAAATAAAAAATATTGTACTTTAACATTCCATAAAGTATAAAACAATTTCCAATTATCATAAATAAAGAAAATAATTCAGGACTTTTTATATTAAAAGCAGGAAATAAAAAATCAGTTATTACACCTATTATCAAAGGTAAATTTAAACCCAACAAAATATACTTTGAGTGTTTTTCATATTTTGTCTTTTTTTGTATTTTAAAAGTTTCTATTGAAAGATATGAAATAAAAAATATTAATATTAAAGCCCACAAAATCATTATTACATTAAAAACATTAAATTCTTTAAATATATATCTCCAACCCCATGAATATTTAATTGGATTTATTATTATAGATTCATTAAAAATTCCATAAATAGAAAATATAAAGGCTGAAATATACGTAAAAATATAAATAAATTTCTTTTCTTTAAATATAATTCTCCCTGAATAAACTAAAGAAAAATGTAATGAAAGAGCTATAATAAAAGGCCAAAAAGAAACAACTTTTAACATTGATTGAGCAGTATAATAATTATTAGTGCTTCGCATAATAAATTCCGTTATATTCCAAATACTCTCAAAAAAGCATGCTATTGCAAATAATATATTTAAAATATTTTTAGAATTTCTAAGATAAACTAGAAACCCTGTTATTGTAACTGTAAAAAATGATATTAAAGATATATAAGAAAAAACAAACATTTTATCTCCTTCTTTGTAGTTTGATTTTAAAAAAAGTTTGTTATAATTGAATTAGAAAGAAAGGTGAAAGAATGAAAAAATTTCTAATTCTAAGTTTATTGATTTTAAGTATAGTAGCATACTCATTAACTAATGATGAAATTAGATATATTGCAACAGCCTATAATAAAGGATTTTCAAGGAGTATTGAAGAAATAAAAAAATACTCGATGAAAGAAAATTATTTATACGACGATTTTATACTTAATTATTATAATTATTTTTTAGGAAAAATGGAATTAAAAGATGTATTAAAATCCAAAACAATAATTTCAGACAAACCTTTTATACCAACAAAAACATATTTAAAAAGATCTATTGAATTTAAAACTTATTTAAATAATATAATAGATAAAAACAAAAACATTATCTATGAAAAAATTCCAATTCTTAATAAAAAAAGTAAAAAATTAAATCCAACAATTATTAAAAAGTTTAAAAAAAGAGAAATATTAAAAGAAAGGGTTTATAAACTTTTAAAAGCTTATAAAATAAATATGAATGATTTAAATAATTATGCAGAAGCTATCGTTGATTATACTTATACTTATTTAAATTCAAATATAACATTTTATAGAAAATATAATATATCTTCTAATTTTTTTAAAGAAAAAATTGTAGTAAAAGATATACCTGTTGAGCTTTTATTGTCTTTCATGGTAGCAGAATCAAGATTAAGACCTTATAGCTATAGAATAGAAATAAAAAATGATAAAATTTATGCATTTTCAATAGGTTTTACACATATATTAGTTGATGCAGATTTTGCTTATATATCAAATGTTAATGATAAATTTGGAAATAATAAATTTGATATGTATAACTTTAATTTATTATCTTCACTATATTTTGGAAATGAAAAAAACAAAGAAAACTATTTATCTGATATAGATTTAATAACTTTACGAGGTTCAATCTTATATGCTTCTGTCCTTTTACAATTAATATATGAAAAAATTGTACTTTAATATAAAAATATTAGAAGAGTCTTTACCCTTCTAATATTTTTATATAAATTCTTCTATTTCTTGGACCATCAAACTCACAAAAGTAAATACCTTGCCATATTCCAAGCAAAGGTTTTCCATCATTTATTATTATTTGTTGTGAACATCCAAATAAAGATGATTTTATATGTGCATCAGAATTTCCTTCTAAATGTTTAAATCCATGATTTAAAGGTATTTTTTCATTTAAAAACTTTATTATATCTGTCTTAACATCCGGATCCGCATTCTCATTTATTGTAATTGCAGCAGTTGTATGTGTTGTAAAAACAATACATACACCATTCTTTACTCTAGATTTTATAATAGATTCATTTACCATATCTGTTATATTTATCAATTCTTCTCTTTTGTGAGTAATAACAGGATATTCATAAACCATAATTAATTTCGTCCTTCATAAAAAATATTTGCAACTAAAGTAACTGAACTCCCATCTTTTGTTATATGAACCTTCACATCATTCTTTTCAACATTTAAATTTCTATAAGCATAATCTTTTATATATTCAACCATATAATTTATTTCATCACTTTTATTTTCCATAGTTCTTGTAGTACCTCTTGTAGTCCTTACAAAAGAATTTAATCTTTTAACAGCAACATCTCTACTTTTTTCTTTTCTTGAAAAAAATCCCATCATTTCACCTTCTTCCTATCATTTTCTTGAGAAATGAAAAGAAGCCTTCTGTATCAACATTATTATTTTTTATATCTTCTTCAATTGGAACATCTTCTCCAGAGATTCTCAAAGCAATATTATTAAAGTTTATAGCTACTGATTTAGAAGAGTCTAATGCAATAGGTTTTCCTTCATTAGTAGAAATAATTATTTCTTCACTATCTGGAATTATCCCTATTAAATTAATTGCAAGAGCTTCTTTAATATCATCTGGAGATAACATTTCCTTTTTTTCAACCATTTTAGGTTTTATTCTATTCACAATTAATGAAATATTGTTATCATTAAAGCCTTCATTTTCTAAAAGACCTATAACTCTATCAGCATCACTTATAGCAGTTAAATCTGGAGTTGTAACCACTATTGCATGTTGAGCTGCTTTTATTGAATTTGAAAACCCTCTTTCAATACCAGCAGGAGAATCTATAAGTATATAATCAAACATTTTTGTTAATTCATCAACAATTTTAACCATATCTTCTGGTTCAACCATATTTTTATTTGCAACTTGAGAAGAAGCCAATAAATTTAAATTTTTTACTGTTTTATGTTTTACAAGAGTATCTTTTACTTTTTTATTTCCATTAACTATATCTATTATTGTATAGACAATTCTATTTTCAAGACCAAGAACTAAATCTAAGTTTTTTAATCCTATATCAGCATCAATAACACATACTTTAAATCCCTTTTGTGCAAGAGATACACCTATATTTGCTGTTGTAGTTGTTTTCCCCACACCGCCCTTACCGGAAGTAACAACTATAATTTTAGATTGTTTCATTTCATTCCCCCCAATTTTTGAGCTATCCTGTCTATCATAATAAATACTTCTCACACATATATAATATCACAAAAAGGTAATAATAAAGCATTAAAATACAAAAACATTTGTTGATTTTAACATAAAATTAAAACCAACAAATATTTTTTTAATACTCTATTTCTTTATTTTTAAATATAATCATAGATACATACATTATAGTTAAAGAAATTAATATTATAATAAATGAATTTAATACAAAAACATGCCCTTTAGAAACAGTTTCATTTAAAGAAAAATATTTAAAAATTGTAAAATTTCTAATCCAACTCATACTATCAATTGCAAAACCAAGCATATCTGAAAAATACATAAAAACAAATAAACCTATTGATATTGATTGAGTTAATATAGTTTTTTGAAATAAAACGGATAACAAAACAGCAATAGAACCAAAAAACATTTCTATTACAAATAAATAAAGAGCAAATCCATTTATTATATTTATATTATATTCATAATGTACAAATGATTTAAATAATAAAAAATTTGCAATACCAAAGATAAAAAAATAAACTAAATAAAAAAATATCAAAGAAAAAGATTTTATTAAAAATATTTTTAATCGAGAATAAGGTTTTATCAAAAGATACTCAATAGTCTTTTTTTGATATTCATATGCAAACATATTTGATGCAATTAAAACAGAAAATATTCCTGTTAATATGTAAGCCATAGTCATACCTTTAGTACTAAAAAATCCTTCTGGAGTAAAAAATGTATCTGTATTCGTTCCAAAAGATTTTAATAAAAACTTTGGCATACTATCCATAAATTTTTTTAAAGAATCAGAATCTTGTAAAATCCCATCTATAAAAGGAACAAAAAGTAAAGAAAACATTATTAAAACAGAACCCCATATAAAAAAACTTTTTAAATTATACTTTAATTCTTTTTTAAATAAATTCATTATTTTTCATCCCCTTTAAATTAAAATATTTTTCTTTTCAAAGATTTTTAATGATATGTACATTATTATAAAAGATATAAGTATTATCACAATAGAATTATTTAAATAAATTTTATGATTTTTAACTGTTTCAATTAATGGCATATAATGAAATATACTAAGTTTTGCAAGTGGTTCTATTGATTTAATTTCAGATACAGTTGTTTCTCCAAAATACATTATAAAAAGAATTCCCAAAGATAATGTTGTTGTTAAGTTTGACTTTTGAAATAAAATAGAAAATAAAACTCCAAGAGCACCAAAAAATAACTCTACGGTAAAAACATATAAACCAAAACCTAAAAGGATATTTTTATCATATTCACTACTAACAAAAACGCTAAAGAGATATAAAGTACTAAAATTAAAAATAAGATTTAAAATTATTATATTAGAAATCAATACTAAATATTTTTGAATAAAAATTTTTACCCTTGAAAAAGGTTTTATAAGTAAATATTCGATAGTTTTATTTTCAAATTCCTTTGCAAATAAACTTCCTGAAAGAGTAGCAGAAAATAAACCTGTTAATATAAAAATAAAGCTCATACCTTCAGAACCAAAAAAACCTTCTGGAGTACTGAAAGATTCTGTATCTATATTAAATGATTTTAAAAAAATTTTTGGAAGTTTATTCAACATTTTTACCATTTGACCACTATCTGATAGTATTTTTTCTGTAAAAGGTATATATAGTAATGAAAAAGAAAAAATTATTATTGACCATATTAAAAGACTTCTAAAATTATATTTAAAATCTTTTTTAAATAAATTCATTTAATTCACCACCTCACTTATAATATTTTAAAAATAATTCTTCAAGATCCGGTTTCTTTATTTCTATATCTTCAAAATTAAAGTTTGAAAGTTCTTTTATAAAAAAATGAATATCTTTTGTTTTCACTAAAAACTCTTTTGCATTATTTTTTTCTGTAAACTTAAAATTATTCAATGTATCATTTAAACCATAAACAGTTATTACTCTACTTGAAATATCTCTTAAATCATCTATTGCACCAGACTTTATTACCTTACCTTCTTTTATCATTGCAAAGTTATTACAAAGTTTTTCTATTTCAGAAAGTATATGTGATGAAAATAATATAGCACATCCCATTTTCTTATGATCTTTAATTAAACTATAAAATTTTTGTTGTACTAAAGGATCAAGACCACTTGTTGGTTCATCCAAAATCAAGTACTTTGGTTTATGTACAAGAGCTTGAAGAATAGCAACCTTTTTTTTATTTCCAAGTGAAAGTTCTTTAAACTTTTTATTTATATCTATACCCAATAATTCTATTATTTCTTTTTCATATTTAACATCCACATTATCATAAAAATTTCTATTGAATTTTAAAAACTCCTTTATTTTCATATCCCCATAAAAATTAACCTCCCCTGGAATATACCCTATATCCTTTTTTACTTTATTTATATCTTCAGGCAATTTAAATCCATTTATTTTTGCTTCACCAGCATCTTCACTTAAAAAACCTGTTAAAATTCTAATAGTTGTTGTTTTACCCGCACCATTAGGACCTATCAATCCAAAAATTTCACCCTCTTTAATCTCAATTGAAACATCTTCTATTCCCCTATTTTTTCCATAATACTTTTTTAAATTACTAATTTTTATCATTTTGCTCCCTCCTTCTTATTCCATTTTCAATCATATACATTATTTTATTTGTTAAATCTGCAATTTCATTAAAATCTTTTATATCTTTTTCTTTTGCATACTCAGAAACTGATGATAAAACCTTGGAAATGAAGAAAATTAACAAATCAATATCTAAATTTTCATCAATTAATCCATCATTCACTGCATTTTTAATTGGAACACTTAAAAATTCATACATATTTATTTTTAAATTATTAATTATCTTATTTATAAAATTAGTATCTTCATTCATCATTTTAAGACCTATTTCAGCATATTTTGGATATTCTGAAATCATTTTTAAAGAAGACTCAATAGATAATTGTATAATTTCAAATATATTTTTTTTAGAAAAATCATTTATATTATTTTGTATATATTTTATTTTTACCTTTCCTATTTCTTCTATAATATAAATATATATATCTTCCTTATTCTCAAAATATTGATAAAAACTTCCTTTTGGTATTTTGGCAACTTGTATTATTCTATTTATACTTGAATTTGAAAAAGAATATTTAGAAAATTCTTCAATTGCAGCATTTTTTATTCTTTCTTGCTTTTCTAAAGATAAGTTAAAAAATGTTTGTTTTGGCAAAATTATCATCTCCCTTAATGACCAAAAAGTCATATGACTTTTTGGTCATATAATAACTCTTTTGTATTTCTTAAATATTAACAAAATATTTGTTTTGTGATAAAATATAAATATAACAAAAATGGGAGGTCAATCTATGTATAAAAAACAAATTAAAAAGAAAAGTTTAAAATTATTTTTTGAAATATTTATATTATCTTCAATTATACTTTCATTTATAGTGTTTTTCACATACAAAGTTCGTATGAATAATTATATTAATATACTATTAGAAAATGAAAAAAATAAAATTTCACTTCAAAATGAATTTATAAAAGTTTTTATGGAAGATTTAACAAAAGACTTAAATTTTTTATCTTATAGTGAAATTCCTTATAGAGCATCTTATCTCAATAAAAATATTTCTTCTTTAAAAAATTCACAATTAGAAATCATTAATTTTTCAAAGTATAAAAAGGTTTATGATCAAATAAGATTTATCGATTTAAATGGAAACGAACAAATGAGAGTTAATTATAATAATGGAAACATAAAAGTTTTAAAAAAAGATGAGCTACAAAACAAATCTCATAGATATTATTTTAAAGATATGAAATATATAAAAAAAGATGAAATTTATGTTTCTTATTTTGATTTGAATGTTGAAAAAAAAGAAATTGAAGTACCTTATAAACCAACAATAAGATTTTTACAACCATATTATTATGATGGAGAAAAAATTGGTTACATAGTTTTAAACTATATTGGAAATAATTTTATAGAAGAATTTAAAAATATAAGAAAAAGAATGTATTTATTAGATGAAGATGGATACTTTTTAATAACTCCAAATAAAGAAGATGAATGGGGATTTATGTTTGGAGAAAAAGATAAAACATTTAAAAACTATTATCCAGAAGTTTCAAAAGAAGTTTTTTCAAAAAAAAGTGGAACTATAAAATTTAAAAATATAATCTATGTATTTAATACAATAGATTTAAAATTATTTTCAAATATAAAAAATAAAACAACATGGAAAGTTGTTTCATACATAAAAAATGATGATTATAAAAAAATAAGTAATAATTTATTTTTTAATACCTTAATATTATATATATTTATGATAATAATAATACTTATTGTTTCATATATTATAACAAGGTATAATTATCAAAAATTATACAATGAAGAATTAATAAAAGAATATGCAACATATGATGAACTTACTCATTTATACAATAGAAGAATTGTAATGAATTTTTTAAATGAATTAATAAAATTATCTAATAGAGAACATAATAAATTTTGTGTTTGTTTTGCCGATGTTAATAATTTAAAAAAAGTAAATGATACTCTTGGTCATGATTATGGTGATGATTTAATAAAAACAGTTGCAAGAATACTTAAAGAAACTGTTCGTGAAGTAGATATAGTAGGAAGAATTGGTGGAGATGAATTTTTAATTTTATTTCCAAAATGTGATAAAGAAAATGCTGAAAAAATTTGGAATAGAATAAACAAAAAGTTTGAAGAAATAAATTCAACCAATGAAAAAAAATTTAAAGTTGTCGTTGCTCATGGTATAGAAGAATATCAAAATAAAATGAATATTAATGAATTAATAAAAATAGCTGACCAAAAAATGTATGAAGATAAAAAAAGATTAAAAAGCAATCAAAATAAACTCTAATTATTTTTTATATATTCTTTTAAATATAAGCTTAAATTTATTTTTTGTGTAGTTTTTTCAAAAAAATAAAAATATTATTTTTTTGAAAAAGCATAAAATCTTTTATTTAAAATAGTTTTATAAATTAAATATCATTATCTTTAAAAAATTTTGAAGTTTCAACTAAGTTAAATTCTTATGCTGGAAAAGATTGGATTAAAGGTGAATATGTTGTAAAATATAAAAATTCTTTTCCACAAACAAGAGGTTTAAATGTAGAAGTTTTAAAAACAAACAAATTAGACAACAGCTATAAACTCTCTGTTATAAAAGCAGATGAACAAACTGTAAAAAGCTTAAAAAATAATTCAAATATTGAATATATAGAACCAAACTATGTATATAAAGCTTTTTCAGTAACTCCAAATGATTCTTATTATACATATCAATGGCATTACAACACAATAGATCTTCCAAAAGCATGGGAGATTTCAAAAGGTGAAAATGTCATAGTTGCAGTAGTAGATACTGGAGTTAGTTTAACACACCCTGATCTTAAAGGAATATTTGTAACTGGTCATGATTTTGTTGATAATGACTCTGATCCTACTGATCCTGCAAAAGATGAAAGTCATGGTACTCATGTAACAGGTACTATAGCAGCTCTTACAAACAATTCAAATGGTGTATCAGGTGTAGCTTGGGGTGGTTACGGAATAAAAATAATGCCTATAAGAGTTTTAGGTGCAGATGGTTCAGGTTCGCTTGACAATGTTGCTTTAGGTATTAGATATGCTGCAGATCATGGTGCAAACATAATAAATATGAGTCTTGGTGGAGGAGCTAACGCTCAAACATTAGCAGATGCAGTTAAGTATGCTCATGATAAAGGTGTAACAATAGTTACTGCTTCAGGTAATGACAATGGATCAATTTCTTATCCAGCAAAATACCCTGAAACTATAGCTGTTGGTTCTGTAAGATATGATTTAAAAAGAGCATGGTATTCAAATTATGGACCAGAATTAGATGTTGTTGCTCCAGGTGGAGATACACAAGTTGATCAAAATAATGATGGCTATGCTGATGGTGTTTTAAGTACAACTTGGAAACCAGATACTGGAGACACATATGTTTTCATGCAAGGTACATCAATGGCATCACCACACGTAGCTGGAGTAGCAGCTTTATTATACGCTCACGGTATAAAAAATCCAGAAGATATTAGAAATGTACTAAGAAATAGTGCAACTGATTTAGGAGATACTGGATATGATAATTACTATGGCGCAGGTTTAATTAATGCTTATAATGCTCTTACATATAATGATAATGGAAATGGTGGAAATGGTGGAGGTAGCACACCACCAACAACAGCTAAATTAAAAGCTTTTGTTTTAGGTTATGATTATTGGCAAGGTGGTTATGTAGTAATAAGTGATACACAAGAAGTTGTAAACGGTCATTATCAATTAAATGAAGTTCAAACAGGTTATACATCTTATGTATGTGTATGGCAAGATAATAATAATAATGGAAAAATAGATTCAGGAGATTATTGGGGATATGATGGAAGTTACAATTTCAAAGCAAACCAAAATTATAATGTTAATTTGACGGCAACTATAAAACCTTAAAACTCCGGGAGACGTGAATATTTTATATTCACGTCTTTTTTTAAGTTTCTTTTAAGTTCCAAAGAGTATTATTTAAGTAACTTGGAGGTGATTACATGAAAAAAACTTTAATGTTTATTATGGCACTTGCTATAATTGCTGGAGTTTCTAATGTAAAAGATTTAAACTTATCAAATAATGATATTCCAAAAACAGTTAATCAATTAGAACTATAAAAAATATATACCGATTACTTTTTTCATAAATATATACTCCCCAAAAAACAACCTTCAAACCAATGGTTTGAAGGTTGTTTTTTATTTTTTTATTTTAAATTCATCCAATATTTTCCCCTCAACATTTTTATAAACAAGTTTATCAGCATCTAAAAGTTGAGATACGGCCTTTACAGTAAAACTTAATGTATTTGATGTAGCTTCAACTTGTACAAAATGAGTATAATCTATTATATCTTTTTTTATCCATGGTAAAGGTGTAGCAGTATGAATTGTATCTAAAGGAGCTCCTCCACCTCCAGTTGTAATAAACACTATTCCATCTTTTTCATATCTTTCATAAGCATGTATATGACCATTCATTACAGCATCAACCTCATATTGTTTAAATATTGGCATCCAATACTTTATTAATTCATTTCCATCTTCTTTATTTTCTGCCATAGGTCCATATTGTTGAGACGTTGTCCAGAATGGGTGATGAAAAAATACAATTTTAAAAGTTTTATTTGTTGAATTCAAATCATTTTTCAACCAATTAATTTGAGCTTTAAAAGCCGTATCATTAGGTGAAATATTTGAATCAATCATGGTAAAATGAACACTTCCATAATCAAATGAATACCATCTTCTATTATAATCTCCTCCACCATTTGGTAAATCAAATGCTCTATAATAAAAAATATTGTTATATTCATGATTTCCAAGAGTTGGATAATAAGCCGTATAAGGAGCTAAAGGTTCTAATGCCCAAAAAAACTTTATCCAATCTTTTTCATAATTACCTTTTTCAACTAAATCTCCAGTATTTATAACAAAATCCGGATTTGTTTTTGACATTGAAATAACAACTTCTTTATGTTTTTTTTCATAACTCCTAGTATCTCCATAAACATCAAAAACAAATTTTTGTGGTTTTTCACTAAAAGTTTTAAAATAATAAATTGAACTTTCAAGAGGTTTTGTATATTTATTTCCAACAAATACCATATATTCATATTTTTTATTTGGTTTTAAACCAGTTATTCTTATATGATGCACATTTGTAGTATAATTTGTTTTATATCTTCCAACTTCTTTTTGATTATCATAAACAACTACAGTTGCAAGATCTGGATATAAAAGTTTGAAATTAACTATAACTCCATCTGTGTTTTTCGCAGTTAAAAATGGTTTATATAAAAATTCATTTTCTTTTTTTATATTTATATTTAAAGATGTTTTTTCATTTAACGAAATCTTTTCAAAGTTTAAAGTTCCAAAAACTGGCATTACATAATAATTATCTTTAGGAAGATTAAACGATACATCTCCATTTTCATTTGTATATCCAGTTGAAATTATATTCCCTTTAAAATCTACTACTTCTGTTAAAATATCTCTTGCAGGAATTGTATTCCTCAATTTTATACTGACTGTATAAGTTTTACTTTCATTCAATAATTCTTTTTGAAAATTTGATATACTTTTATCAATCTTAATAAATCTTGAAATTGTTGTTGTTTCATTTGGTTTTAGCTTTTGATATTTTGGAGTTATTGCAGTTGTATTTTTTATATTTATTATTTTAAATATCTTAGTTGAATTATAAGAATCATAATATAAAGCAACATTATTCTCTTGAATCATAAAGTTATTTTTACCATTAAACTTTTTAGATACAAAGTAAGGCATAGAAGAAGTATAATCTAAAATATCTGTAAACTTTAAAAATTGTTGTTTTTTAGAAATATTTTTAATTTTAGAAACAACAAAAATTGTGTTTTTATTTAACGTATAAGTTGTTTCAATGGAATATTTTGAACCGAGTTGTGTTAAAGCAACTCCATTATTTATAAACTTTAAATCTGTATTTTTTAATGTTTCTCCAGATATAAAATATCTCATCACATCTAAAGTATCGTACTTATACTTTTGTGAAAATACATCAATAATTCTACCTGAATTTTTATTATTTAAACCGCCAACAATAAAACCAACTTCATCATTTTCTACAAGAATATCACCTTTATTTGCGTCTGTTGATCCATATAACTTCAAATTTTTATCTACAACTTTTACCATTGAAAAAACATTAATGAATAATAACATCATTGTAAACAATAAAAATATTTTTTTCACTTCAAACACCCCTTTCGAATTAATATATAATTATACTATATTTTAAAAAAAAATAAAAATTTTAATCAAACTTTTTTATAATTCTTAAAAATTTTTTTTGATCATTTTCATTAAAACACCAAAAAGCTGTAATAGCAGTTTTCTTTTTTAATTTAAAAGTTTTACAAAATTCATCTAAATATTTATTTGTTTCAATACTAAAAGAATTTTTTAAATATCTTGAATAATTCCTAATAAAAATATCCATTATTTTTTTATCTTTTTCTTTTAATTCTAAATAATTATTTATAAATTTTTTTAATTTATCATCTTTTAAAGAATAGAGAAATATTTTTGCTAACTTTTTTCTTCCTTCATATATACAATGAGAGTTTTCTATAGACTCTATTATAAATAATTTTAATTTTAGATTTTCTTGAATTAATTCAATATTATTATTTAAAATGTCATTTATTATATTTTTTATATTTTTACTTATAAAAGGATAATTTTTCTTTCTATTTTCCTTTGACATATAATTTGATAATACTTTTATAATAAAAGTATTATCAAAATTTAATTTTAACTTATAATTCTTTATATTTAATTTCTTTAATTCATTTATAATTTCAAATGGAAGATTATTATTATATTTTATATTTAAACTCAAAATTAATTTTTGTAATGTTTTTGAATTTATTTTTTCTGTTTTATTATCCAGTATAGAATAAAAAGTTTTATTTGAAATTCCTGTTTTTTTATAAGCATTATGTATATTTTTTATATTATTTTTAATAAAATTTTTTAAAGTACTATTATTTTTATAAGACGATGTATTTAAAGAATAATAATTTTCATTAATATATTTTTTATAAAAAACTTCATCTATTTCATAAACAAATGAAGTTAAATAAAAAAATTTATTTTCATTATTGTGTTTTAAAACATGAATATACGTATCTATATACATTTCTATATCTTTAAAACTTTCAATATAATATCCTATATAATACATTAAATAATTTACAAACTTATACGAAATTTTGGGATGATCATAAGCTAAATACCATGAAACATTATTCAAAATTATTAAAATTGCACTAACATGTGGAATTTTAACAGATGTTTTTAACATCTTTAAATATGTAGATATTGCTTTTTTTATTTTATTTTCAGAAGTTAATTTTCTAGCTCTTCCTATATTTATAAAAATATAAGAAGATTCATCTAAAGTATAACTTTTACCCCATAATCTAATAGTTTTTGAAGTTTCAATAGATGCCTCAAAACTAAAAAAACCTCCAACCAAAGTATTCCTTGAAAGTGGAGGTATTTTATGCATTTCAGACTTTAATCTTTGATATAATATAGAAGCTTTTTTAACATTTACTTTTTTTAAATAAAATAAATACTCTCCCAACAATAAATATTTAACATTCTTATCATTACATAAATCTAAAGCTTTTATAATAAAATTTTTAAACTCATCATCATTTTTTAATTCTAAAGCTCTTATATAAAATAAAATATTCTCATTTTTTGTCGTTTTTTTAGTATAATTTATTAATGGTTTTGAATAAGAACCATACTTTGATACCATTTCCAAAAATCTATAATCTCTTTTTTCCATTTTTTCTCCTTTACAAAATTACATAAGATAATTTAGGTTCAAAATCAAATTTTTGTACCTTTAAATTATTAAATGAGCCAAACTTTTCCATTATTGCAACAGTTTCACCTGGCCATAAATTATTATTTGTTTCATCAAAAACAACTATCCCACCCTTTACTACTCTTGGAAACAAATATTCTAACGCTATCTTTGTTGGTTCATATAAATCAAAATCAAGGTACAATAAAGAAATAACTAAATGTTTATTATTCTCAACATACTCTGGTATAGTTTTTATTGCATCACCTTTAATTAATTCAACCTTTGGAAAGTTACTTAAATATCTATTCATATTATAAAGTTCCATTAATTCATTCATTTCTTCATAAACATCATAATTCGGCTTTAATCCCTTGGGTTTTAAATTTTTATTTTTTATATCTTCTCTAACTTTATCATTTTCATGAATACTTGGAAATCCTTCAAAAGTATCAAATCCAATTACCTTTCTATACAATGCATATGGTTCAAAAATAGTAGAAAATTTTGCCCAACTCATTACTCCACCACCATGATAAACACCACATTCCACTATATTACCTTTTACATTTTGAATTTTTTTAAACAATTCATATCTTGCAAGAAAACGTGCTAAAGTTTGTCTTCTTGTATACTTAGGAAAGTTATCAAATTTTTTAGTTATATTTGCTTTATACTTAAAAAAAAGATCATCTAAAGTCATAATTCACCTACTCAACAATATTTTATTTTTTATTAATTTAATTTTATATTTTATAAATTTTCTATTTCTTCCATTGACAAACCAGTCACTTGAATTATTTGTTCTTTTGTTAATCCCATTTCTTTTAATTTTTTTGCTGTTTCTATAGATTTTAACTTTAATTCATACTCTAAATCTTTTCTTTCATTATTTTCTTCTTTATCTAAATTACTAACAATTTCAACTTCTTTTTTATCAAAAGCTATTGAAACTTTTATTATGTCATTTATTCCATAACTTTTTATCTCTTCTTCATATTTCTTTTCATTTATCTGTTTTAATCCATTTTGAGCACTATTTAATAGTGTTTTTTCATTTTTATAGAACTTTTTAAACTCTATTATTATTCCTTTATCTGTTTTATCTTTTGGTATTAAAACAACATCTGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATATACTTTTCTTTCAAACCAACGCTCATTCCAAGTATCAGTCCATGATAGAACCTTTCTGGTTCTTCTCCGCTAACATCAAAGTAACTCAATGTGTTCATAGTTAGTTTTTGAAAGTCTTCTTTAAACTCTTCTATATGTCCATTTATTAAGTTTATTAGTATGTTATCTAATTGTATATTTCCTTCTTCAAGCATTAATAATACTGTATCTTCATAAAACATTCTTACTTCTTTATTTGGAATAGCAAGTGTGTATCTTCTATAACCTTCTTTTGTTTCTTTAATCCATTTTAAGTAACCACTAAATAAAAATAATGTCCATATTGATTCATTTGAATTTAAGTATAAATCACCATAAACCATAGTTTCATTTATTTTACTTTCAATTTCTTCACCATTTATTAATTTTTCTATTTTATCTTTTAATTCAGCACTTCCTTCTTTTATTAACTTTCTTATTAAATAATTTCCACTCGTATTCATCCAATACAGACCTATCTTTTTTTCATCTACTAAATTTATTATAGAAAAAGGATTGTAAATTTCAACACCGCCAAAGTTATAACCATTGTACCAATCTATAACTTCTTTTTCTTCATATTCAAGCTCATAATACTTAAGTGTTTCTTCAACTTCTTCTTTTGTAAATCCATACTTATCATTTAATAAATTACTCAGTACGATTGAAACTTCAATATTATTTAATCCAGAAAATATACTTCCTTTTGTTACACCAGTTATACCTGTTAACACTGCTTTTTCAAGGTATACGTTATCTTTTAACGCAGAGGAAAATAAGTTTCCAATTAAAGGAGTTATTTCATCATAGTATCCATACAAATATGCTTGTTTTATAGGAATATCACATTCATCTATTAATATTATTACCTTTTTACCATAGTATCTTTCCATGTACTTTGATAAGTTTCTTATAGAGTTTTCATAATCTGCATCTAAAGCTTCTCTATCCATTATTTTATCATATATAATTTTTTCTTCATTATCTAAAACATCTAAAACATACTTATGATCAATGTACAAAGTTGAAAGTTCAGAAATTAATAAATCATGCATCTTTTTTAAGTTGTTAGATTTTAAATCTTTAAAGGTGATGTATATAACAGGATGTTTGTTCAAATGTTTTTCTATTATGTTCTTTTCTTTGTATATCTTTAAGTTTTTAAAGAGGTAATCGTTATTTTGAGTAATATCAAAAAAGTACTTCATCATAGATTGACTGAGAGTTTTCCCAAACCTTCTTGGTCTTGTTATTAATAAAACATTCCCACTTTCAATAACTTCTTTGATTAACAAACTTTTATCTACAAAATACATATCTTCTTCTATTATAGTTTTAAAATCACTTTGTCCTATTGGCAATCGTTTCATAGAATCATCTCCTCAATTCTAATTCTTTATATTTTATTATATCAAAATTACTTTAAAATATAAAAAACAGGATTTCATCCTGTTTTTTTTAGAATTTATTATATTTTTTTATTTATTTCTTCACCAACAAACAAACTGATTCCACATGAGGAGTGTGTGGAAACATGTCTACTATGTGTAAATCTTCTATTGAATAAAAATTTTCTAAAGCTTTTAAATCTTGTGCTAAGGTTTCTGGATTACAAGATACATATATTATTTTTTTAAACGATTGTCTTTTTATAAATGAAATAACCTTTGGATTGAGTCCTGCACGTGGTGGATCAAAAACAACAAAATCTGGTTTTGGAAGTTCTTTTATTTTGTCTTTAACATCTCCACATAAAAACTCAACATTGTTTATATTATTCATTTCAGCATTTAATTTTGCCATTTTAACTGCTTCTTCAACTAATTCAACTGCATACACTTTTTTTACATACTTTGATAATAATGAAGCTATTGTTCCCGTTCCAGAATACAAGTCATAAGCAACATCTGCATTTTCAACGTATTTCATAGCTGTTGAATACAATACTTCAGCCCCATGCGTATTCGTTTGAAAGAATGAAAATGGTCCAACCTTAAAACTTAAATCAAGAACCTTTTCATGAAAAAACATATCTCCAAAGATTACTTCAAGTTTATCAGCTTTTAAAACATTTCCTTTTGAGGTTGTTTTACTGTGCAAAATGGATACTATCTTTCCATTTAATTTTAAATTTTTTAATTCTTCTGCCCATAATTGTATATCGCCATCATTTTCATCGGTAAAATCAGTTGCTATATTTATCAATATTTCATTTGTATTTATACCTTTTCTTACAGATAAATGCCTTAAATATCCTGTATGTTTTCTATAATTTCTGAAAGTATAATCTCTTGAAGAAAAAAATTCTTTTGTACAAACAACTATCTTATTAAAGTCATCATCAACAAGTTTACAATCTGGTGTATAAAAAACATCGAACTTTTTTTTCCTACCTCTAAAACCAACAATAAGTGGTGCATCCTTTGCTTCATTTCCAAAAGTATACTCCATTTTATTCCTATAAGCATATATTTCTGGAGAACCAATTATTCCATGGTATCTTTTTGGAGATAGCTTTAAATTTTCAAATATTTTTAATACTTTATCCTCTTTTTCCTTTAATTGATTTTCATAATCTATATCAAGTTTTGAACAAGCACCACATCTTCCATATGCTGAACATAAATCCATTAATTATCCACCTCATCTTTTATAGTATTAACTTTAAGTATTTTTAAATTCATTGAATTATTTTTTAAAGTATTTCCACTTATATAAAAAGAAGTATTCATTTTTGATAAACTTGTTATTTCAAAATTTTCGTATTTTTTTACCAAAGATAAGGTACCTTCATTTACGTTAAGCGTATAAATTATACCGTTTTTCATATTATTTTCTTCTCTATACCCATATAAATATATAGTTCCATCTATATTTTTTATACCGTTTATCTTTTCATTATAATTTGATTTTATTCTTACAGAACTTCCAAATCCATTTTTTGAACTTATTTTTACATAACAATGATTTACTGTATCAGAATAATTTTCATAAAAAATATATATTGTATTTTTATACTTGAAAAATCCAACTGGTTTATCATCATTTGAATCTCCGTAAGTATTAGACCATACTTCTTTTCCATAATAATTCAATTTTATTCCATAAACATCATATCCACCATATCCAAATGATTTCGTCATTCCTACTACTAAAAATCCGTTATCTTTAGTTGGAAGGACATCAGTTAATATTTCTATACTCTTTCCTCCAAAAGTGTTTATCCAAATTCTTGTACCTTCATTTGTATATTTGGTTAAGAAAATATCTGATAATCTATTATTTACAAAAATATTTCCTCCCATAATATAATTATTTTCATCTATATTTTTTACAATAATTCCACTATCTCTTCCGATATCTCCATAATTTGTTTCATAATTTACAGTACCATCTGTTGTAGTATTTACCATATAAGCATTTCCATTTAATCCAACTGATGTTGTATCTCCAACCAATATTATATTTGTTGATACAGTAGAATCGTGAGTTATAATTGCATCTTTAAAAAATTCTGTTTTTGGACCACCAAAAGTCATTTCTTTTTTAGGTTCTAAATATTTATTAAATATCCATAACTTTGCATTCCAATCATTTTTTTCTTCATATCCATACATATAAAAATTATCATTATCAGCAATTGCTCCATAAGAATATTGATCATATGGTTTTATAAATTCTTTTACAATGTTAAAAAAAGTTGTTTTAAAGGTTTTAACATAAATAAATTTTTTATACTTTAAAGGTTTTAACTTTAAGGTATAAGTTTTTTCTTCATCTAAATTAAGGGTTGTAGTTGTTCCCACAATTGTTGTTAAAGAAGAATCTTTTGTTTCTAACAACATTACAAACTTTTTTATCTTTGATGAGTTTATTTCTAAATTAAATTTTCTTGTGTTTATGTTTTCTTTTAAATTTGTTTGTATCTTTATTTTATTATTTTCAAATAAAGATTTTAATAGTTTATTTGCATAAATTATTGTTTTATTTATTTCTTTATTATTCTTTAAAGTGTTAATTACTTTGTTTATCGTTTGAGTTGATAATTCTGATGTTTTTATAGTATCTGTTGAAATGTTAGTGATTGAACTATTTAATGTAATTTTAGTTGAAACATTTGTATTTGAACTATTTTTTGTGGTATCTGTTGAAATATTAGTAGTTGAGCTATTTAATGTAATTTTAGTTGAAACATTTGTATTTGAACTATTTTTTGTGGTATCTGTTGGAATGCTGATTTTTAAATCACTATCTACATCTTTTATGTAGTCAAAGAAATCATAAAATTCAATGTACTTTGTTACATAATCTTTTATACCAACAAGAACAGAATTTTTATAAACTCTTGGTTTTGATACTATTTTTAAAGAATTAATAGATCCATAGTACCAAAGTGTTTTTCCAGATATATCATAAGACTTTATACTTTCACCAAACACTATATACTCTTTTTTATTTATTGGAACAAAGTAATCTATTTTTTGATTTAAAGTTTTAGAACTTTGTATTTGCAAATTAGAATCAAAAAATATCAATGTTCTATCTCCAGATATTATTACTGAAGTTCCTAAAAAATCAAAAATTTTTCTTTTTAAAGAATCATATTTAATTTGAAAATCATATTTAGAAATTATTTCAAAGTTTGGATTATATAAAGTCAATCCATTATTCGTCATTACCAATATATTATTATTTTGAAATAATTTTAAAGAATCTACATATTTGCCATTTAAATTATAAACATTTTTTTTAATGTTATTTTTTAAAAGATAACAGTAATTTTCTGTAAATACATATATTTTATCTTTTACCTTTATAATTTTTTTTGCATTTAAATCAGATATTTTTTCAATGTTATCATCATATATTTGATATATTCCATTTTTAGATAAAATAAAATTATCTTGAATTTTTATAAAAGTATCATTGAATTTTTTTAATAATTCTTCATTTAATTTAAAATCTAATATAGAAAAAGTATTATTGAATAGTACATATATTTTATCTTTTATTGAAACATCAATAATTTTATCTTTATATTTTTTTGTAAAAATTACATTTTTATCTTTTATTATATCAATTGAAGTCTCTTTAATTCCTATAAACATGTCTTTTATTTTAAAAACATTTTTATAATTTCCAAAAAAAATCCAAGAAATATCTCCTTTTTTCAAGTTTCTTGTTTTAAACTTAAAAATATTACTTTCAATTTTATTATCTTCATAGTAACCAATTACTTTCCAATAATATGTTGTATTAGGTTCTAAAACATCTCCTGCATAAAAGTTAGAATAAGTCTTTTCAAGCTTAATGTTTTTATTTAAATCAGAAATATCTTTTGATAAAAATAAATCGTACTTGATATCTAATTTTTCATCTATATTCCATCTAAATATACTTTTTATATCAACATTTTTATCATTATTTTTTGGAGAAATTACTTGTATAGATACTCCATATATAAAGGTAGAAAACAATACAAAAAGTATTAACCCTAACTTTTTCATATAAAACACTCCTAAAAGTCTATTACGACTAAAAATCTAAGTAATTCTTTTATTTTATCATCATTAAATTCAGAGTCTAATATTTCTTGTAAGCTCAAATTCAATGTCATACCAGAAATTAAAACCTTTAAAGCATCTTCAAAACTTTTAATTTTTATTTCTAATAAAGTATCAAAGTCCATAAAATAACTTTCGTATTCAGAAAGTACTTTAGCAAATTTAAAGCTTAAGTCTTTAATTTCTTCAATAGTATTTTGAACAAAAACTTCAACAGTAGAATTTTCTCCAAATATTCTATCTTGATAAATTCTCAACAAAATTCTTCCAAAAGCAATTCCAAGTCCATCCTTCCATAAATATTTAGACAATACAGTTGAAATTCTTTCAGATAATCCATAGTTAAATCCCGATAAAAGCAATGAGTTTGTTATTATTTCTAAACCATTTGGCATCATTTTTGAATCAGTATTTTTTTCTTTTAACCATCCTATATGTGTTCCATTAAATTTATTTTCTTTTAGTTTTTCTGCTAAAAGTTCTGGTATTAATATACCTTCTTCATTGAAGCTTTCAAATATAGATTTTTCAATATCTTTATTTACATTTTTTTCTAACTTTTCTACAAATTGTTCTATATTTTGTAATCTATAAGGTAAAGATAAAAATAAACCTTCTGTATTTAAAAATGATAAATCTTTTATTGCCTCTTCAATATTTCCAGAAGAAAGTTCAAAAATCATTTTAAATGTTTTATAATTATTTTTCAAATCTTCATTTTCATTATAGAGTTTAAAAAATAATTCTTCATCTTCCATTATAGTTGATAACTTTAATAATGTAATCCTTATTAATTCTTTGTTTTTATCAGTTGCAAGTTCAAAAGCTTTCTTTTCGGTTTCAAAAGCTAAAATATATTCACCAATATTTTTATATTCTAAAGATAATTCATGAAATATATAATCTTTTTTATTTAACTCAGCAGCTTTTTCAAGGGCTTTAATAGCATCTCTATGTCTTCCCAATTTTGAAAGTGCATAAGCATAATTATAATATAGTTCAAAGTTTTTTGAATCTAATTTAAGAGCTTTTTCATGAAAATTCACAGAATCAATAAATCTTTGTATTTGATTAAAAATAACCCCAATTCTTTGATAAGCTGGTATAAAATTCTTATCCATATCTAAGCATTTTTTTAAATATTCAAGCGCTTCAGTAAATCTACCATTTTCGGCATAAACATCCGCTATCTTCAAATTAGGTAGAACAAATTCTCTATTCACATCTATTGCTTTTTGATAATATTCAAACGCTTCATCGTAAATTTTTCTTTCAAACATTAAATTGCCAAGTTCATAGTAAGAATAAGCAAAGTTACCATTCATTGAAATTGATTGTTTAAATTCAAATTCAGAAAGTTCAACTTCCTTTATTTTTTTCAAATACAAAGCGTTATAAAAATGATATCTATAATCATAAGAAGTTTCTTTTGCTTTTTCAAGATATTTTTTTGCCAAAGTTAAATCTTTTTCAAGATTCATTTTAAAAGCTTCAAAATAATAAAAAACTAAATATGATCTATAATAATCATCTTTTGAAACTTCGTTTGCAGCCTCAAGTCCCCTTAATATTATATCTAAAGGTAGTTTGTTTGTTTTACTTGCTTTTTGAAAATCTTCAAGTAAAACTGGTAATTTTATTGGTAAATTATGTAATTTAGCATAATCTGGTTTTAAATCTATATATATTATTGAATATTTTGGTTTCATGTGCACCTCCATTAAAATGAATATTCATAATTTAGATTAAATTTCAAATCTTGTTTTTCTTCTTTTATTGTCCATCCATCCCATACAGAATTATAGGTTGTTGTTCCTATACCGCCTTTAAAAATTCCAAAGTTTGTTTTTAATTCACCATACAATTTAAACTGAAGTTTTATATCCTTATAATAGTACACTTGTAAAAGCGGATAAATTCTTAAATTATCTAAATAAAAATTATAAGCAATATTAGAAAAACCCCATAGCTCATCTGCATAATTTATATAAGCATATATTTCTGGAATCCAATTTATTGTAAAGTATAAAGTTAATCCTTTTTTTAAAAAATCCACATTAAAATAATAGTAATAAGTATTCATTCCTTCTTTAACTATAGACTTTGTTGCAAGATAATATGGCTCTGAATAATTATAATATCCAAAATTTAAAGACAAATCATTATTTCCTGCATAAAAGATTAATAGTGGAGATTTTTTTTCTTTTTCAGGACAAAGATAATTTAAATCTGCCTGTTTAGAAGATGACCAAAGCATTCCAACTTTAAAATCATTACCCACAACAGTATATAAGGAACCAACGTTTAATGGATTGTCATAAGCACGATATTCTATATCAAACAAACCATCATAATTAAAAAAATAAACTGGAATAATCTCATAATTTTCTTTTGAAACTTTATCAGCACCAGAATAATCTCTTATTGAAAAAAAATACTTTTTTTCAAAAAAATTCGTATAATACTTTAAATAATACCCTCTCCCAGTCATTAATGTATTTTTATAACCAAGATTTAAAGTTTCATTTCCAAGAAAACCCATAAAACTCATATAAGCATATGGAGTTTTTGAATATCCAAAATCATAATTAGATTTAAAAGTAAAATATGGAGATATTAAGTTTATATTTCCAAAAATTGATGTATCATAAAAATAATCTAAATCATTTTTTTCAACATAAGCAGTTATTTTATTAGTATTTTCAAGAACATAATATGTATTTGCAAAGCTATTTGGGTTACTGATTTTTCCATTGATGATATAAATTATATTTTTATTGTTTTTTTGAAATATAGTTTTTTCTAAAATTTTATTATTTTTTTTCAAATAATAAAACGAATATATTCCATCTTTTGGAAGTGGAATATAACACTTTAATTTTCCATTTATATAAAAAAAATCATAATTTTTATCTTCAAAGACCAATTGAATATTTTCTGAAGTATCTCTTCCTGTTATAACAAAATTTAAATATCCATTTTTTATATAAACACTTGAGAATGATAAACAAATTATTAATATGAATATAAAGACCAATACTTTTTTCATTTTACCACATCCTTAAAGGCTATCTTTTTAGATAAAAAATAAAAAAATCCAATGCACATACCTAAAAAGCCAGCATACATATCTTTTATATCAAAAACATGATACTTTGAAAAAGATTGTAAGTATTCTGTAATTATAGGCAATGATAAATAACTAAGTGTAGTAAGTATTTTTAAATAAAATTTTTTAAGTTCACTAACAGCCATGAAAGTTAAATCAGCACCTATAAAATAAGCTATAAAATGTATTATTTTATCTTCACCTTTAAAATCAGAGTAATTTACTATAGGTTTTGAAACAGATAAATATATTATTAAAGCAATATATATTAATGTGGAAAAAATCCAAAAGTACTTTTCTTTTTTCAATAGAATCACCTCAAGTTTTAACTTAAAAGGCACATCAAAGATGTGCCTTTTTAAATTTTTCTATAAGTTTCTGTTTTATCATTATCTTTTTTTAAATGAATTATTCTATCATAAGTTTCTTTAGCCATCTTTTCAATTAAGACTTTTAAATCACTATTATTCCAATCTTCTTTTATTATTTCTAAAAGTTCATCAGAAATAATAAAATGTTTTTCTGAACTTTCATCAAAATAAATATCAGTTAAAATGTTTTTTGATAAATCCGAATAAATACTTTTTAAAAGTATCGATACATGTTTATTAAAAAGTTTTGGGATCTCATAAATGTTTTTTTGTAAGTTTAAATCATTATGAAAAGCTCCATGTAAATCATTAAAATACTTAACAAAAGACTTCATAAAAATCCCTCCTTAAAATTTAATTTTTCAAAGGATATGTTGATGTTTTAAAAAATTCTTCTTTAAATTCTCTAAACCTATCTTCTTCTATAGCTTTTCTCATAGCTTTTACAAATGAAATATTAAAATGAAGATTGTGAATACTAATTAATGTTTTTGCAAGTAATTCATCTCTTTTGTATAGATGTTTTATATAACCTCTAGAATGATTTTGACAAGCATAACATGTACAACCTTCTTCAATAGGTTTATCATCAAATGTCATCTTTGAATTTTTTAAATTTAGTTTGCCTTTCCAAGTTAAAGCAGTTCCATGCCTTCCCATTCTTGTAGGCAATACACAATCAAACATATCCATTCCATTTTCCACAGACAAAAGCATCATTGTTGGAGATCCTATTCCCATTATATATCTTGGTTTATCTTGTGGAAGCTTATTTGCAAACTCTTTTAAAACTTTTTCAGATTCTTGATAAGGTTCTCCAACAGCTAAACCACCAAGAGCATAACCATCAAAAGGTATGGAAATTATTTGTTCTAAACTTCTTTGTCTCAAATCTGAATAAAGTCCCCCTTGCACTATTCCAAATAATGCTTGATCATCTCTATTATGAGCTTCATAAGAACGTTTAGCCCATCTAAATGTTCTATCTACAGATTCTTTAAAATAATTATAATCAGTAATTTTGGTATCAACACATTCATCAAATGCCATTGCTATATCAGAACCTATTGTTTGTTGTATTTCCATTGACTTTTCTGGACTAATCATTATTGTTGAACCATCTAATGGAGATTTAAAGGTTACACCTTCTTCTGTTATTTTTCTCCCTTTCAATGAAAAAACTTGAAATCCACCAGAATCAGTTAAAAGAGGTTTTTTCCAATTCATAAAGTTATGAATTCCATTAAAATGATTTAAAACTTCAAGACCGGGTCTTAAAAACAAATGAAATGCATTTGCCAATATTATTTCTGATCCAACTTCTTCAATCATTCTTCCAGTTAAACCTTTTACCGTTGCATTAGTTCCAACAGGCATAAAAACTGGTGTTTCAATAATTCCTCTTTTAGTATGTATACGACCGCGTCTAGCTCCAGTATACTTATCTACGTGTAATAATTCATATCTTATTTTATTCATTTAATTCCTCCAAATAAATTTTGCCAATACTATTTATTAATTATAACATAATCAAGTTATATATTTGTGAAATTTTCAAAAAAATACGTATGAATTTATTAGAAAAGATGGAGTACTTTTAATTAAAAAATTAAAGTATTTTTTAATGTTATTAAAATGTTGTATAATATTTATAGTGGAGGTGAAACAAAATTGAAAATAAAAAATAAAATATTATTATCAATAATCTTAATTGTTTTATTTATATCCATTGCTTATGAAACAATATTTTATATAAATGAAAAAAAAGATACAAATAATGAATTCATTAAAAACTCAGAATTAAGCATTAAATTAATTGATAATGCAATAAACTTTTTTATTGAAGGAAAAAAAGCAGATGTTTCATCTTTATCTTCCATAATTAAAGAAACAAAAGTATCATCGACAACAATGAATTTATTTAAAAATTATGTTAATAATCATAAAAATACAACTTTTGCTTTTTTTGGAAGCTCAAATGGTGAATATTTAGAGTATCCAATACCCAAATTAAGTAAAGATTATGATCCAAGAGTAAGGCCATGGTACTTAAAAGCTATAAATAGCAGTGATGTTGAAATAATAGATCCTTACTTAACCTTAGCAAGTAAAGAATTAATGGTTAGTATAGTAAAAAATGTTAATAATTTAGGCGTTGTGGGAATAGGAGTTAGTTTAAAAAATTTTTATTTATTATTAAAAACCATTAATACTTTTAAAGATACTTACTTAATATTATTAGATGAAAAAAATAGAATTTTAATAAACACTTACAATAATTCTAACATACTCAAAGATGTTTCTACCCTTTCAAAAGATCTTAATTTAAAAAAAGAATCTGCTCTTATAGATAATAATGAATATTTAGTTCTTAAAAAAAATTCTCAATTCTTAAATTGGAAATATATTATCTTTAGTAATAAAAGTATAATATACAAAAAAATATTAAACTTTAATAAAAATCTTTTAATTATGTTTACTTTATTTTTTATAATTTCAATATATTACGCTGAAATAACAAGTAAAAGTATAACAAAACCTTTGGAGAATTTATCAAAAAAAATAAAATTGATAAAAAATAATAATTTTGATATTACTTTTGATATTAATAGTGAAGGTGAAATTGGTACAATAGAAAGATCATTGGGAATGATGACTATTTCAATAAAAAAATTATTAAACGAAGTTGAACAAAAAAATGAAAAACTTGAAAAGTTAAATCAAGAAATCTTAAATTCAAATGAAGAGCTCTCAGATTTAAATACAGAATTAGAAAGTATGTATATAAAAACCGAAGAGTTAAATACTATATTTGAAAAACTAATTTCTATAATTTCTCAAATAAATTCAAACGTTCATGAAGAAGAAATTTTTTCAGATTTATTAACACTTGCAATAGATATAATTCCAAATGCAGATACAGGAAGTATAGCTCTTTTAACAGATAAGTTTGAATTTGTTGCAGCTGTTGGACACAACTTAAAAGAATTACAAAAGATTGAATTAAAAAAAGAATACATGATAAAAGTTAAGGATATTACTATAATAAAAGATGTAAACTATAAAAATATAAATATTATGCCAAAAGAAGTATTTGAAAAGTTTAAAAAAGCCACAAAGGAAATAAGTGAATCCTTAATTTCTCCAATTTATGTTGGAGAAACTTATATAGGAAACTTATCTGTAGATATTTTAAAAGGAAGTAATAAACACTTTGGAAATGATTCGAAAAGAATTATGAAAGCATTATCTACTATTTCTTCTTCCATTTTAACAGTTAAAAATTACAGTAAAATACAAGGAAAATTACATTCTCAAATAATATATTCATTAATAAAAATACTTGAAATATATGATCCTTATACAAAAGGACACTCTGAATTTGTTGCAAAATATTCATTTGAAGTTGCTAAAAAACTCAACTTAAATATGGAAAAATGTAAAAAAATATATTGGGCTGGACTTTTACACGATATAGGAAAGATATTTGTTCCAAGTACTATTTTAAATAAAACTTCAAAATTAACCAATGAAGAGTTTGAAGAAATTAAAAAACATCCAATATCTGGATATGAAATTTTAAAAACTTCAGAAGAACTTGAAGAAATAGCAAAAATAGTTCTTCATCATCATGAAAGATATGACGGTAAGGGATATCCATATGGATTATTGGAAAAAGATATTCCAATAGAATCAAGAATAATAACGGTTGTTGATACTTGGAATGCAATGACAAGTAATAGACCTTATAGAGAGGCCTTAAATATTGAATATGCTATAAAAGAATTGCAAAAAAATAGAGGAACACAGTTTGATGCAAATTTAGTTGATGTTTTTTTAGATATAATTTTAAATAATGAACAATTTGAGTAAATTGTTACTATTAAATTTTTAAATTCTTTGTTTTTTTTTACTTAACTTGTATGATATAATTATTTTGTATGTTAATACAAGGGGGTATTGGGATGAATTTAAGGGGAAAATTTTCACTTTTGATGATAACAATGATATTTTTTTCATTGTTAATTATCACATTTTTTGTAGTAAGAATAAGTAGTAATTCATTAACTTCCAGTTATGCAGATAAAATGACAGCAGTAGTTTCCAAAACACATGATACTCTTCATGGTTTTTTTGAAAGTTTAGAATCAGAATTAAAATTATATTCAGAACTTGAAAATATTAAGCAAGCAATTTTTGATTTTGAAGACTCTTATGTAACTATAGTTGATACTTATGGAAAAGATGGGTTAGTTGAAAAATTTAAAAGAGCCTATATTACAAAGAATCCATTTAAACCTAAAAACAAACTTGATACTATAGATGATTCTAAAATAACAGATGATGAAAGAGATCAATTATTACTTTACGATATTAATCATAGTACATATCAACCTTTCTTGAGAAAAGTAATAAATAAAATGGGGTATGGAGATATTCTGCTTTTAAACAAAGAAGGCGTAATACTATATACAGTAAATAAAAATACAGACTTAATAAAAAGTGTTACCAATGAATTAAAAAATACTAACTTGGCAAAACTATACAATATATTAAAAAAGTCTAATGATAATAATGTACACATGGTTGATTATGAAACATATTCACCAACGGGTAATCCTGAAATGTTTGCTGGTATATCTTTAAAAAATGACGATGGAGAATTACAAGGATACTTAATAATTGAAGAACATATAGAAAAGATAAACAATATTTTAACAAGTACTATAGGACTTGGGGAAACAGGAGAAACTTATATAGTTGGTACTGACAAATTAATGAGAAGTAATTCGAGATTTTCAAAAGAACCAACAATATTAAAAACAAAGATAGAAACTGAACCTATTGAAAAAGCCTTTAATAAGCAAGAAGGTTGGATGATAACCAAAAATTATAGAAATGAAAAAGTAATAAGCAGTTATAAAAACTTTAAACACTTTGAAATTAATTGGGCATTAATTGGTGAAGTTACCTTAAAAGAAGCAAATAAAGGAAGTTCTAATATAATAAGATTGACAGTAATTATTTTAATAATAGAATTAATTATAGCATTTATTTTATCTTACTTTTTTACTAGAAAAATGACAAAACCACTCGAAGAATTAGTTAAAAATATAGATGATTTTGGTGAAGGAGATCTTACAATAATACCAAAAGTTAAAACAAAAGATGAAATAGGTAAAATGGCAAATTCAATAAAAAATATGTCTGAAAACTTAAGAGAAGCTCTATTGAAAATAAAAGAATCATCTTTAAAACTTCAAAAAAATTCACAAGTACTATCTGATGTATCATTAGAATCGGCAGAAATGGGTAAAAAACTTGCAGAACAAAGTAAAATAATAGAAAACAACTCTGAAAATGTTGCAGCAAATGTTCAAGAAGTAAGTGCGGGTGTAAATGAAGTTTCAATGGCAGCACAAAATGTTTCTGAATCTGCAAGAGAGCTTTCTGAATTGGCAGGAGAAACTAATGAAGATGCTGAAAATGGCTATACATCATTAACAAATGTTGTAAATGTGGTTAATGAAGCTATTGAACAAACAAATTCTGCAAAAACAACGGTAAATGAACTTGTAGAAAATGCAAAAAATATTGGAGAAGTCGTTGATGCAATAAATACCATAACAGAACAAACAAATTTATTGGCATTAAACGCTGCTATTGAAGCAGCAAGAGCTGGAGAAGCTGGTAAAGGATTTGCTGTTGTTGCAGACGAAATAAGAAAACTTGCTGAAGAATCTAAAAAAGCTACAGAAAAAATAAGTGTTATATTAGAAGATACTAAAAAAATGTCGCTTAACGTAAATAATGTAACTTCAAAAACATCTGATATGATGAACAAAGCTGGAATAGATATAGAAAGTGTAGTAACAAAGTTTGAAAAGATTAAAAATAGTGTAGATCAAATGGGAATGATGATAGAAACATTAACTGCAAATTCTGAAGAACAAAGTGCAAGTTCTGAAGAAATGGGCGCTGCAATGAGCAAAGTTAGCGATATTATTATGGATATAAACAATCAAATAAAAAGCTCAGGTGATTTAATAGATCTTCAATCTGATGGTGCAGAAAAAGTTAATGAAAATGCCAAAGAACTTTCAAATCTTTCTGAAGAATTAATGGAAAACATAAAAAAATTCAAACTATAAAATAAAAACACCGCTTAGCGGTGTTTTTATTTTATATACTCTTTATACATATTCAAATATTGTTCAACAGAAATAGTTTCAGGTCTTGATTTTGAATCAATTCCACAGCTCTCTAAAAAATATTCTACATCATCTATTATTGACTTTAAATTATTTCTTATAGTTTTTCTTCTTTGCGAAAAACAAATATGAATAAATTTAAAAAAATCTTTTGAATCTACATTATACTTATTGTGCTTAGTTAATTTCAAAACAACTGAATCTATCTTTGGATTTGGAATAAAAGCCGACTTAGGAACATCTAAAAGTTTTTTTACATCACAAAAATATTGAACAAAAACACTCAATGGACTATAATTTTTTCCAGAAGTTGCAATTATTCTTTCTCCAAATTCTTTTTGAACCATTAAAGAAGCTTGAACAAAATTTGGGGTTTCTATAAAAATCTTTTCAAGAATTGGTGAAGAAATATTGTAAGGAATATTTGCAATATAAGCTATTTTTTTATCTTTGTATGGTGTTAAATCAGCTTTTAAAAAATCACCAAAAATTATTTCAACATTTTTATTTTTAAAACGTTCTTCTAATAAAGATTTTAAAGTTGTATCTATTTCATATGCAATAACTTTTAAACCTGTTTTTTCTAATTCTTCTGTTAATGTTCCAGCACCTGGACCTATTTCAATTATATAATCTACATCTTTTATTTCTGATTTTTTGACTATTTTTTTTGTATATAAATCAGAAGATAAAAAATTTTGACCATACTTCTTTTTTAAAATTATTTGATACTCTTTTAACCATTCAGATGTTTTTTTCAATTTTTTCCTCCGTTGTTTTAAACTTTAAAATTTTTTTTATTTTATTTATAATTTTTTAATACTAAAATAAAAAAATTAATGTTACTTTTAATTAATAATTAATAAAGTCAATTAGTTGTATAATTAAAATAACTATTTTTATTATATATTGTAGCAAAATTTTATTACTGGAGGTTTAAAAAATGAAAGATATATTAATAATTGGATATATGCATCCAAAATATGATAAAAGAACATATAGAACTGTGAGTACATTATCTCAAGAGTACAAAATATATTATCAATATTGGACAAATGATGAAAAAGAAATAGAATATGAAGAAAATAATATTGTTTATATACCAGTATATTATAAGAAAAATATTCAAGCTCATCCATTTATTAAATTAAAAAATAGAAAAAACATAGATTTAAAAATAATAGAAATAATGAAAAGAAAAAAGTATGACACCATATATTTTCATCATTTTTTAGCTAGATTTCCAGTCAAATCATTTAAAATAGCAAAAAAACAATGTAATCAAATAGTATATGATTTACATGAATATCATCCAGAAAATTTTTTATCAGCAATGAAAGGAATAAAAAGAAAAATGAAAATATCAATAATGACAAAAATTTTCAAAAAACAATTAAATATAGTAGATAAGGTAATATATGTTTCTCAAGGAATAAAAGATTATATGGATAATAATAATTATGATTTAAAACATCCGTATATAATAGTTCCAAATTATGCAATTTCATCATTAAAAGTCAAAAAAATAGAAGAAAGAGATAAAAGAATAGCTTTTTTAGGAAAAGTACCAAGAGATTTAGATGAAGAAAAAGAAATATTAAAAAGATTGAATAATTTAGGATATGAAATAGCATTAATAGGTATTGACGAAATAAAAGATAAAGCTTTATCTTTTATAAAACCTATGGGATTTTTGCCTTATGAAAAAATGCTGGAAGAAACATCAAAATGCATGTTTACATTTTTATCATTTGGTATAGTACAACCAGTAAATCATATATACTGCATGCCAAATAAATATTTTGATTCAATAGGAGCAGGAGTTCCAATAATTTTAGCTGATAAATTTATTACTATGCAAAATATGACAAAAAAATACAAAAACGGAATAATAATAAACATAAATAATCCAGATGAATCAATAGAAAAAATAAAAAAATTAAGTACAAAAGAAAACTACAATGAACTATTGAAAAATATAGAAAAATATCAAAATGAATTTATTTGGAATCAAAAACAAAAACAAAAATTAATAGATTTTATAAAAAAATAACAACTCTTTGAGTATAGGTAGCATAAGTAGAATGTAATTTGGTAGCATGTAAAATTTTGTGTAAATAAAAAAAACAAAACCATCCTTTACAAATAATTATATTTTAAATATTATTAAATTTTAAGATATCTAAATAAATATTATAAATTTTATTAGATAGAATATTCCAATCAAAATTTAAGGATCTTTCTAAAATTTTATTAATTTTTATTTCATTTAAATTTATATTTAAAATTTCTTTAGAAAAATCATAAATTAGAGAATTTGTTTAATGTAATTGATAGAACTATGTATTCTTTTTCTATTATAAAATGATTCTATGTATTCAAATATTTTTATTTTTGCTTTTTCAAAGTTTTTATAGTTATATATATATAAATATATATATTTCTTCTTTTTTGATTATTAAATGAAATGATTCTATTTTTGTATTGTTATATTGTGTTCCTAAATCACTATGGAATATTATTCTTTGTGTTTTGCGTAAAAATTTATTTTGGTCAAAAAAAGAAAAATAAATGTTGATGAAGAATTGTAATTTTTAGTAAAATTGCAAACGAAAAAATTTCTTTTTGAGAAAATTATGGTTTTTGGTTTTTATCTTTTAAAATCAAAATCAAAAACAAACATCCCTCCGACAAACCCTCGTCCCCTCAAGGGGACATTTATAAATATGTTCTTTATCTCTCCTACACTTCATCGGTCCTTCTATGGAACATTTGTAAAGAAAATTCATCATAATTCTGATTCGTTAGTTTTTTCAAAGGAATACTTTTAGTTATTATTAAGCAATAAATCAACAATTTTTTTACCTGCATCGGCATTTCCATATACATTCTTTGGATAGACTTCTTTGAAGTTTAAAAATGTTTTTTCATATAAATTATTTTCATTTGCCAAAACATTCCATTTTACTTCTATTAATTCTCTCCATCCAGTGTCTGGCATTACTACAATTGCTCTTTTTTTTGCAAAGTATGCTTCTTTTTGCAGTCCTCCTGAATCTGTTATTACTTTCCAAGAATTTTTTACAAGACCCATTAAATTTAAATAATCAATTGGTTCAATTACTACAACTTCTTTTAAATATTTTTTTAGTTTAAATTCTTTTATTCTTGCTTTTGTTCTTGGATGAATAGTGAATACTATCTTTTTTTCTTCACTTATTTTTTCTACTTGTTTTAAGATTTTTTCTAATTTTTCTTTTTTATCTACATTAAAATCTCTGTGCATTGTCATTAATATATACTCATCTTTTTTTAAATTCAATTCATTGAATTTATCATATTTAAAGTCTTTTTCCATCATTTTGTACAAGTCATACATAACATCTCCTACAAAGTGTACTCCATTTTTTATATTTTCTTTTTTTAAGTTTTCTACACTTTGTTTTGATGCACAAAAAAGCATATTTGATATTCTATCTGTAAGAACTCTATTTATTTCTTCTGGCATATCTTTTGGTTCTTGTCTTATTCCAGCTTCTACATGAACTACAGGGATTTTCATTTTACTTGCTACTATTGCTCCTGCAAGTGTAGTATTTGTATCTCCATAAACTAATATCATATCTGGCTTTTCTTTTTCAACTATTTTTTCAAACTCTATCATTATTTTCCCTGTCATTTCTCCATGTTTTCCAGATCCTATATTCATATTGTAGTCTGGTTGAGTTATTCCAAGTGTTTGAAAAAATATATCAGACATATTTTTATCATAGTGTTGTCCTGAATGTACTATGATTTCTTGTATGTTTGTTTTTTTTATTTCTTTGTTTATTATTGCTTCTTTTATAAATTGTGGCCTTGCTCCTATTAAGCTTATTATTTTCATTTTTTTACCTCTTCATAAAAATTTTTTATAATAATTCCATTGACCAATATCAGTCATTTTATTATTACTCTTATAAACAGATATCTTCATTTCTTCTTCAAAGTTTTTATAGATATATATATTTCTTCTTTTTTGATTATTAAACGAAGTGATTTTGTTTTTGTATTGTCATGCAGTATTCCTTTTTTACTGTATTTAGTCCTTTATCCATTTTTTAACATAAATATTCTATTATTTTATTTTTGTACATATCTATTACACTCGCCAAATACATACTCCTTGAAAATTTTAATATTTTACATATCATTTTTATTGAGTAATATTTTTTATATTTTTCTATGAATTTTACTATTTCACTTGTTGTTTTCGTACAAATATGGCTGTAACTTTTTTAATATTTCATTTTTTCATATTTTTTTTACTAAATGTACTTTCTGATACAGGTTTTATTTCTTTTATCCCATTGTATATTGTTATTGCACTTATGTCATATTCGTTGCTTAATCCATACACTTTTTTCCAATTTTATGTAATTTTACTATTTGTTCTTTAAATTCATCACTATATCTTTTTCCATTTCTACTCATTTGGGTCACCTTCTTTATATTTTTATTATACTATTTTTTGTTAACTTTTTGGTGCCCACTTTTTTTGGTTAGATCCAATCCATTTATTATCATTTAAGTAATTTTTTATTTAATTTTATTGTAATAAAAATATACATAAAGAAATAAAAACATCCTTCGATTATGGAAAACAAAAGATTTGGATTAAAGAACAATCTCACTATAAAAAAACTAACTGTGCTTATCCCTAAAAAAATTAGAGGTATTGTATAATTAATTTTATTAATTAAAATATATTTTAATTTAAAAATTCTAGATTTATAGGCTAAATAAAATAGAAGTATAAAATTAGACAATGTTGTGGTAAAAGCTGCGGCATAATAACCGAATTTTGGAATGAAAATAAAGTTTAAAATTATATTAATAATAGTAGCAAAAATATAACCTCTTAGTACATACTTTATGTTAGTAAACTTTAATTTTACTTCAAAAAAAGTATTTATTCCCATAAAAAATGTACCAAATACTACAAATGGAATTATAGTATAACCAATTCTGAATTTTTCTCCCAGCAATATAAAAGCAACTTCTTTTGAATATAACGAGACAAATAAGACTATTGGAAAAATAAATAAAATATACTTTGGAATTAGATTTTCATAATGTTTATCAATGTTTTTTATATCATTTTCTAACTTGTCATATATAAAAGGATTAAAAGTATTAAAAAATACTCCTATTAATAAGAATACACTTCTATTGCTTATATTATAAACTCTATCGTATATACCAAGTTCTGATAAATCTCTAAATATTTTTAATATATATCTGTCTCCACTTGATAACAAATATTGGGTTATTATAGTTAAACCACTTGCAATTCCAAATAAAAACATTTCTTTTAGTATTTTCTTCTCATTCAATAGAATTTTAAATGGTTTTATTTCAGTTGTATTTTTTCCTATGTATAATAAAAAGGTTAAAAAGAATGGAAAATTTGATAATATTTGTGAAAAATAAAAAGCTTCTATTCTCCAAGAAAACTTAAAAGTCAATAATAACATAATAACGAAATTTATATATGCAACACTTGAACTAAAGAAAACATATTTAAAAGCTTTACCTTCTAATCTTAATATAATTAAATAATATCCAACAAAACCACCAGTTAATAAAGCTATATTTTTCAATAGTAATAAAATCATATATTCATTTAAAGAAGGTATTAAATAAGTTATTAAAAATCCAGAAATTATTAGAATAAAACAATTTATAAAGAATATTGATATTATTATATTTAATAGTTTTGATAATTCATTTTTATTTTTAAATTTATTATAATATCTCCACAAACAGCTTGATATCCAAGATATAAAAAAAACATTTATATAACTATAAGTTATATTTATTAATCCTAAAATACCATATTCATCAGGCGTAAAATATCTTGTAAAAATAGGAGAAGATAAAAAACCTATAAACATAGGAAATAATGAACCAATAAAATATGTCATTATATCTTTTACATTTTTTTTCACTTTATTCCTCCTAAAATTTATAAGATAAATAACAATCTTTTTCATTTAATAAAAGTTTAGTTTTACAATATTTTTTAGAATCTTTTTTTATTCTGGTTAAAAGTTTAATACCTTCACTATTATTTAAAATTATGGGTGAAAATATATACTCTTTTTTAGATAATATTGGATAAATTTTTATTTCAGAAATTTTATTTTTATTTAATTCAATAGTTGAAACTAAATTATTTCCCCAATTTTTTGAGTTATATCCAAAAATAAAATTACCTAAAGAATAAATTATAGGTTTATTATTATATATTTCAAATCCTTTTGGTACATGAGAATGACCACCTATTAATACATCAGCCCCATAATCTATAATTTTTCTAGCTATTTTTTGTTCTTCTTTATGAATTAAAGTTTTATTTTCTAATACAAAATGCAAATACACAAAAACATAATCTGAGATTTTTTTAGCTCTATTTATATCTTTTTTTATTAATTTTGAATATAAAGGTAAAATACCAGAATTATTTTCCCTTGCTAAACCATAAAAATTCCTATTACAATGATCGGTATAAGCTAAAAAAGTTATTTTTATACCTTTTTTTTCAATTGTTTTTAAAGTTCTAGCATTGGATAAATTCCATCCACCACCAATATATCTGATATTATTATTTTCTAAATTTTTTAAAGTTTCTTCAAATCCTATTTCTCCATTGTCAAACATATGATTGTTTGCAATTGAAACTAAACTAATATCTAAATCTTTTATATAATTCAAATATTTTATCTCACTATTAAAATCTCCAACATGTCTACCTTTATTTGAAATGGGGGTTTCTAAATTGAAAAAAGAGATATCTGCTTCTTTAAAAAATTGTTTCATATGTTCAAAAGGATTAATGTCTCTTATTTGTATATTAGTATTATACAAAATCTGTTCATTAGAATATTCTTTTAATTTTATATCTTTAAACATATAATTGTAATATAATTTATAATTTATATTGAGTTTATTTAAAATTTTAGATAAAAAAATTTTAAATAATTTTTCTTCTTTTTCTCTTATCATAAAATTTTTTGCTTCACCTTTTAATAAAGAAAAAGAAACATCTCCAGCTAAATTAATTTTCATATTATAACTCCTTTATATAATTCATAAAAGCTTCTAAACTCATTAAAACGGATAGATCATATAAATAAAATTTTCTTTTTTGATTAAACAAATTTTCTAATAAATAATTTTTATTAATAATATTCTCATTATTAATAATATTTTTAGTTTTGCCATAAATTAATTTTTTATTCTTTTTTATTAAATTAAAAGGATAAGTGTTATATTGAGATTTTAAGTTATATTTATTGGCAAAGCCATTACAAATAAATCTTTTTTTATTATAAAATTTAGAATTAAAAATATAATTATTATTTTTATCTAATTTTATATTGCCTCTTTGATCTACTAAAATTTTAGATAAATCTTTTAATTCATCAATAAATAAATACTTATACATGGAATTAATATAAACCATTTGATTTTTGAATAATTTTTTATTTAAACTAAACATTAATTCAAAAAATTCATTTTCATAATTAGGGTATAAGGGAATTGAATGTAGAGAATAAAAATTATAGTTTCTAGTGGCATAATTCCTTTCTCTATTCAATATAGACCACTTAACGTATTCAGAAGCTAAATCATTATTTTTATCCAATTGTTCATATATTCTATCAAATAATTTTTTATTTAAAGCATCATTAAATTCTATTTTAGTATATTTTTCTATATCTTCATTAGATAAAATAGTAGAAGTAGATTTTATTAAATAGTTAGTTAATTTTTCAAAAGAGTTTAATTTTTCTAATTCATCTTTATATAATAATCCCAATATAAAACCATTATCTCCAGTAAGTAAATAATCTATACTTTCTTTATTATGAAGATTAGAAATTTTAGAAAAACCAAATCCTTGAAAGTAATAAGTTTTAAATCCGATTTTTTCAATTATTTTTGAAATTTCTTCTTCGTTATAATAATCATTTATAAAGTTATCATCTAAATAATAATAACTATTTTTCAATTTATACTTTTTGTTTATAGTGTTTGCTATTTTCATATCTTCACAATACTTTGTTCCAAAAGTAAAGTTTATCAAATTATTTGCATTATTATTTTTTAAAAGCATACCTAAAATATATCTTGAGTCTAATCCACCCGTTAAATTTAAACCTATTTTTTTATTTTTAAAAATTTTATCATATCTTTTAAATATTTTTTCCATAGAATTAAATATTTCTTTTTCAGCAAACTCTTTATCATTTATTTTTTCTTTAATTTTATAATCATACCATATTTCTTCATCTATAATATTATTTTGTATTTTGTAAATTCTTCCAGGTTGAACTTCAAATATATTTTTTAATAGAGTGTACTTTCCACTTACAAAACGATATTTTAAAAATTCAACAATACTTATATCATCAAATTCTTTAATATTCAAATAATTTCTAAGTTTCCAAAAGTCTTCTGAAATATAAATATTTGATTCTATTTTATAATAAAAAAGTTGTGGAAAACTTATTTTATCATTAAATATAATTATATTTTTATTAACTTTATCTAGAGTTAAACACAAAAAAACACCGTTTAACTCTCTGATTAAATTTTCTATATTTTCTATATTTTTAACTAAAAAATTAGCAGCTTCATTTTTTATATAAAAGTCATCATTATAAAAAAAGTATCCTTCAAAGTAGATAAAATATTTATCTGTTTCTATTAATTTATTTTTATCTATAATATCAAAATTATTTTTTTCTAATTTTATAAGCATTATATTACTCCTTTATATTATCAATATAAGCTTTAGCCATTAATTCCTGAGTATAATTATTAATTGTATCATATGAATTTAATAAAATTTTATTTATTTCATTAAAACCACTTTCAAATAAACTGTTTAAAACATTAATCATTTCTTGTGTATTTCTAGGTTTTACTAAAAAACCATTATAATTATTTTTAATAATACCATCAATACCCCAACCTTTAGCTCCAATGATAATATTAGCTTTAGCCATAGCTTCTAAAAAAGCAAGCCCAAAAGTTTCTGGAGCAGATGCCATTATAAACACATCTGATTTTTTCATATATTCAAGACCTACAAATCTATCCTTCATACCTAAAAATTTAACTTTATCTTTTAAATTTAATTCATCAACTAAATTTTCAAGATATTCCCTTTCTTCACCATCCCCAATTATAGTATAATTCCAATTTTTATATTTTAAATTAGCTAAAGCCTTTAAATTAATATCTATATTTTTTAATTTTTGTAATAAAGATACAGTTATAAAATTTATTTTATCTTTATTTTTCCAAAAATCTATTTTATTATAAAAAAAATCTTTCGATTCAATTTCATTTTTATCTATACCAGAATTTGCTATAAAAGTTTTATTTTTAAATTGAGGGTATTTTTCTATAAGTCTATTCTGTATAGATTTAGATCGGCAAGCTATTTTTTTTGCTTTAGTGAATATTTCGATATATTTTTTATTGTATTCTTTTAAGTCACTATTATGAATTCCTACTATAAAATCAGCATTAAATCTATCAGCTATCTTATAACCCCAAGAAAATGCAGGAGATAAATGACATATGACTTTATCAGGATTAAATTTAATATTCTCTAATTTTTTTATAATATTTTTAGTGAAAAATATTCCTAATTTAGGTATTCTATATACAGGAACATTATAAATAGTTATGTTATCTATAATAACTTTTTTTTCATAATGTACTTTTTTTCTTGCTGGAATAAAATAAGGCCTAAAAACAATTACTTCATTATTTTTATTCCATTCTGTAATAAAGTTATGTAAAGCATAACTTATTTCTTTAATAGAATGATTTTTGTATGCCGGGTACAAACTTGTTATCATAAGTATTTTCATATCAAGACCTACCTAATATGTATTTTATTAATGATTTTAAATAATAATTAAAATCAGCAGTATAAATACTAAAATATTGCTTTTGAATAGTACCAAACTTTCTAAAATTAGATTCAATACTTTCAATCATAGATCCTTCAAAATCAAAGTATCTTACTTTACTGCTGTAATATTTAATAGCTTCCCATTGAAGTAAATTTTGAGAACTATACTTTCTAAATTTAGGATCAGAACCACTCATTAAATAATATACAGCTTTATTATCTTGAATATAAAAGTTCATGGCATGAATGTTTCCTTTTTCATCAATAGTTTTAAAAATTTTAATATTATTTTTTAAATTAGTATAAATTTTTTCTACATATTCAAAAGAATAAGGAATATTCATACTTTGCCTACTAAAAGTCATTTTATTAAATTTATAAAATTCTTTAATATCAAAAGATTCAACTACTTTAATATTATTTTTTTTAGCTTTTTTTATAGTATTTCTAGTATTTTGATCTAATTCTTTCCAAATATTGTCAATTCCTTTTTCAAAATCAATTACATAAGTATATCTAGTAGTTTGTTTAAATCCTTGCCAATAAAATGGCAACCAATTATCAAAATGCCAATCAAAATTCATATAGAAAGATTTATATTTTCCTTTTATCTCATTTAAAAATTCATATATTATCTTTTTTTCCTTTTCTAATCTTTTATTATATTTCATATTTTCAAAATTATCAAATAAAACGCCTAATTTTTGAGTTAATTTAGGCATTTTAATATTTTTGCTATTAATAAAAGGTAAGGGGAGTCCAGCTATTACATTTCTATTTTCTTCATATGTAAGTATTTTAAAATCATTATTAGTTACCGTTTTTATCCATTCATAAGAGCAAAATATACTTCCTTGATTGGAATTTTGAACAAAATTATTCCATTTGTTTTTTTCAGATTCTTTTAATAACCTTACCATCATTAATTGTTTTCTCCTTTTACCAAATTATCTGCAGAAATACATTTTAATTCTTTTTTTATAGAATATTTTATGGTTTCTTCATATACCCATTCCCAATCTTTCCAGGTTATATTGTAAAATGATGTGTTATGCCATAAAAATGTAAATACTCCATTATATTTTTTTATTTTGTTTATAATTTCTTTTATTTTCTCAAAGCCTTCTTTAGATGTTAAATTCATGTATTTTTGGCTTTGTAAAGTTCCTTCCATTATTATCAAAGGTATTTCAATTATATTATATTCTTTTCCTTTATCAAAATTAAATGGTTTAAAGGGTTTACATGTTCCAAATCGAAATCCTACCCTATCTGCATAACCACCTGTACTATCTAATTTTATTCCTGCTTTTTCATATATATCAAAACTTTTTTTTATATCAAACATTAAATAATGAGATCGACCTTTATCAATTTTTGAATTAAAAATATTTTTCAATTTTTCTATATCTTTTTCCATTCTATTTTTATTTAAATATTCAGCATCATAATGTATACCTACATTTCCGTTTATTTTATTTATTTCTTTTTCTAATTTTTTTAAATATTTTTTCTTTTTTGTTGGATCATAACCACCACCAAATTTTTTTCCTTGAATATCTGGTATAAAGAAAAATGTTCCTGTTGTACCATATTTTTTATGAATAGATATTAAGTTTTCTACTGAACAAGGGTCACTATTTATAATTTTTTTTATTAATTTATCAAAAAATAACTTTATATCTTTTCTTTTTAATATATCCCCTCCCAAATTTTTAATAAAATTAAATCCTTTAAGTAATCCTAAAAAATCTATATCATGAGTAATAAAAATTTTTGTATTATTTTGTTTATAATTTAAATTCAATTCTTTTCTAATTTTTTCTACTATAATTTCCACAACTGGTTCTTCTAAAATTTCTTTTTTAAATTGAAAACTTTCAATTGCAGGAAATCTTCCAATTTTATCCTTTAATTCTGAATGTGTGTATTCCCAATATCCTGATAAAAAGAAAAATATCGTACTTATATAATCATTTTTAAAAGAAAAATTATTAAAATCATTTAATAATTCTTCATCATTTTTATTCCAAAATTCATAAATATTAAATTTCAATTCATTATTTAAAATATATGAATTTTTCAAGATACTAATATTTATATTTTCAACAAAAATTTCATTTAAATAATTTTCTATATATGATTTTATATCAACTTTATTCAAATAAATCACCTTTTATAATATTTATTATTGGTTTCATTTTTACATTCCAAGATAAATTATTTTTTGCATATTCTCTCATTTCTTCGGGATAGTTTTTATTTTTTATAGATTCATAAAAGTTTAAAATATCTTTTATATTGACAGGTTTTTCAGTTTTTGAAATTTTATAAGTATATTTGAAATTTTTTGAAAAATCATCATCATCTGAAGCTATAATAAAAGGTATTCCACGAGCACAATATTCTCTATTTTTTAAAGCACTATCTTTTTTTAATCCCTTTCTATGATTTGCTAAACTTCCTATTCCTATATCTGCTTTTTCAAATATTTCATCTAATTCTTTTCCAATTTTTATTTCATGAAATTTTATATATTTTTTTAAAGCTAACTTTTCAACCAAATTCTTTAAGTTTAAAAATTCATTTCCCATACCAACTATGTGGAAGTAAACTTCTTTTTGTGGTTTTGTTTTGTAGTATTCGTATAATCCTGTTATTATTCTATCATATCCATGCCATTTGGAGATATTTGCAACACCTATTAAATTTATTTTATTTATATTTTTTGTTTTTTGATGCAAAGGTAGCTTTTCTATATCTATTCCATTGTTTATATTTATACATGGAATACCCTTTATTTTTTTATGATTAGAAAAAGTCACTATATAATCAACATATTTTTTTAAATTAAAGTTATTCAATGATTCTATTGATTTAATTACAAATGCTTTTAATGATTTATCTTCATTTTTAAATGGATATGTTGGCAGTTCTAAAAAAACTTTCCTATTTTCTTTTTTTTGTTTTTTTAAAAAACTTATAAAATTAGGATCAGTAGATGGATATCTTATATATAAAATATCAATATTATGGTTCATTGTGTAATTATTTAATATTTTATACATTTTCATTCTTTTTTCCACATTGTTTTTAAATGTAGAAAGCACTGTTTTTTTCTCTTCATTTAAAAGCATCATTTTAAAATCTTCAAAATAAACTAAAGATGTTTTTATTTTATTTTTTTTAAAAACTTTAATTTGTGATTGTATTTTATTTTTTACGCCTTTAAACTCATTGTTATTTAAATTATAATGTGTAAAATAAAGTAAATTCATAATACCTCCAACCAATACTCTATACTGATATTACCATCAAAATCATTTCAAATAAAAATATAAAGAAATATGAATATTTATACTTTAATATAAAGTCAAATGAAAGAGTATTTTCTTTTATTATAAATATGGTTAAAAATAAGAGTATTATAGCTCTTTGTCTTATATCCGCACTTCCATAAATCAATAAATAAACTAAAAATGTTCCTAAACTCATTCCTAAACTGTACAATGATTCTGATTTCAAAGCACTTATGTTTAAATATTCTTTTATATTTATAAAAAACATTATTATTAAATATGGTAGTATGAGATAGTAAATTAAATGTAGTACAAAAAATATTATGTTGTGTTCTTTTAAAAATGGTTGTACAAAAAAATTTTGTGAGTATAAATATCTAAGTGGTGTTGGTCCAAAAATTATTTTTATTGGTGATAAAATACTAAATCCAGTTGTTCCTGTGGAAGATGTAGCATTCCATGTAGATAAAACAGCCATTATATACTTAAAGTTTAAAAGAAAAATTAATCCAGCAAGACTCAACATCAAACCTATAATAATAAAATTCTTTTTTTTGCTGTTTTGTTTCAAATGAACAAATGGGATAATCGATAAAAATATAAAGAATTTATAAAATGGTCTTATATCTTTCATAATTAAAATACTAAAAGCTATTATTATTGCTTGCATTATTTTATTTTTTATATTTTGAATTAAAAATATAGTTAATAGAATTACTATTATTAAGTAGTTGTCTTTTAAAAAGTTTATATTTGTAAAAAATAGTGTGTGATTAAAGTAAATTGTAAAAAAGAAGATATTATTTAAGTCTTTAAATATCAAAATAAGCAACAAAAAAATAATGTTGCTTTGAGTAATTAAGGCTAAAACAGCATCTTTAAATGGATATATTAAATATCTTAAGAACATTGGATATTGATAAAAAGTTTTATTTGTCATATCTTCAAAAGGAAGATTAAACGTACTAAAGTATAATTTAGTATCAGAAGTTTTAAAGGCTATTTGAAAAAGTGCTTCATACGAATTTATATTCATTAAGTAAATCATTATTACTATTAGTAAATTAAAAAGTATAAAATGGTTTAATTTATTGTATTTGATAGATACAATAAAAGAAAGAGTTATTAATAAAATACCAAACATTTTTTTAGCTCCACTTTTTTAATGTAGTAAAACAAATATAATGTTAATTTAAAACTTTTTCAAGTTGTATTCTCTTCTAAATATTCAATAGTTCTTTCATTTTTCTTATTCCATAATCAAAGTTATATTTTGTTTTGTATTCAAAGTAGTTAATTTTATTTTTATATAGTTCTTTTATTTTTTGGTTCATTTCTTCTTTATTTTTACAGAGCTGAATTTTATTTAATAAATATTTGTTAACTTCTATATTATAGGCTAAACAAGCTTTATTATAGTTTATAGCTTCTATTAAAGCCATTGGCATCATTTCTTTTCCTGATGTAAAGAGGTATAAATCACTTGCTATTAAATATTTTTCAACATCTTCAACTCTTCCGAGCCAAATAATATTATTTGTTTTGTTTTTTAATATAGATCTTTCTTCACCATCACCTAAAATTAAAAATTTTATCTTGGGATTTTTTTCTGCAAAATACAGTATGTGAGACAAATTTTTTCCTTTTTTGAATGTTCCAGAAAACATGGCTATATAATCATCATCTTTTAAGTTCAATTCTTTTCTAATTTTATTTTTTATTTTTTCATATTCTTCTTTTTTATATCTGTTTATATTGAAATTTTGAAAAAAAATCACTGGTATTTTTATGTATTTATTTATTAAATTTTCTGTAATTGGAGTTATTTGTATAAATCCATTGCAAATATAGTTTATTATTTTTGACAGTCTTTTAAATTTTTTTTCATCATATTCTAAATGTTGTAAGTAATATATTTTTGGTTTATTTATTTTAAAAAAGTATTTTATAAATATTTTAATTAGGTTTCTATTTGTGTGTATAATTAAAACATCATTTTTATTTATTTTATTCAGTTTAGTTTTATAATTTATTTTATAATTTTTTAGTTTATTTATAAAGTTATTATCTTGATTTTTTGCAATTAAATAATTTTCTATGTTGAGTTTATTTAAAATTCTTGCATAGTTGAAGGCAACATTTTCTCCGCCACCAAATCTAAACTTATCCAGTAGTTGATAAACTTTACTCATTTAAAGCTCCTTCAATATTTCTAAAATTGTACGATTAAAAACATCTAAAGAAAATTCTTGGCGTACTTTTTGATATCCATTTATTCCATATTCATTTTTATTTTTTATACAAATTTTAACAGCTTCAGCAATAGCTTTTGATGATTTTGGTTCAATAACTTTTCCGTTAAATCCATCAACGTTATAAAATGAAGTTCCTGTACCGAGTTCTGTTGTTATTATTGGCAATTTGTTTGCCATAGCTTCAAGCGAAACTATTCCATATGCTTCTGATTTTAGTATTGATGGAAGAACAAAAACATCAGATGAATTGTATACACTTTTTAATTCTCCATTAGAAAGATTTTCCAGCATTAGAACTCTTTCCTTTAAATCATTTTCTTTTATTTGTTCTTTTATTTTATTTTTTAATTTTCCACTTCCAACAATTATTAATCCATAGCTTTTATCTAAATACTTTAAAGAGTCTATTAAATAATTAATTCCTTTGTATTTGACAAATCTTCCAACAAATAAAATTTTATTTTTAAAGTTAAAATTTTTAAAGTCATAAAGTTTATCTGTTTCAAATTCACCATGATTAACACAAAGTGGGAGTATTTTAGTTTTATCTTCATATTTTTTTAAATTTTTAGATGATTTTACATAATTTGGCGATGTTCCTATTATTACATCAGCTTTATTTAATACTTTATCAGTCATTTTGTTATAAATTTTTGTTATTAACCCATTGTACCCAATTAAATCACTATGATAAAATATTATAATTTTTGCATTCCCTTTATATTTTAAAAGAGCATATTCTGCTATTGGATTTGGATAATGAAAAATTAAAACATCTGAATCTTTACACAAATTATTAAATATTTTTAAAAACTTTATAGAAATTGGAGCAGGTCCAATCTTTAATTCCTTAAATCTAATAATATCAACATTATTTATAATACCAGATTTATGTTTTTTTCCATCAAAAGATATAACCTTTGATACATAGCCATCTTTTGCAAGTACTTCAGCTATATCTTTGGTTACTTTTTCTATTCCACCTTTTGTTGGATAATAATATTTTCCTATGGAGGTTATTACTTTTTTAGTATTTTCCATTCTTTTTATCCTTCCAAAACACAATTAAATGTTTTTTGTTTACTTGATTTTCAAAAAAATCTTTATTCATTTCATTTGCAATTACTAATATTTTATCAAATTCATCTTTTAATAAATTATAGTCATTATTAAAATTATCAAAAATAATGAAAACTTTATTTTTTTTGCTAATAAATTCTCTATATTTTTCTAATTTTATTGCATAAGAATCTTCTTTTTGTATTGTAAATAAGTTAAATTTATTTTTTATCATTTCTTCTTTAAACATATTTTTTAACTCTGAATTTTTTATAACACATCCAATAGAAATATAATCCTTTGAAATAATTTCACTCACAAGTTTATCTACACTGTTGTTTAAAATTATATAATCTTCGTTATACAATTCTTCTAAAGTTGATGTATATTTTATTTTTTTAGAAAATGAGTCTTTCAAATATATTATTAAGTATGCAAAAAACACAGAAATAAAGATACTCAAAATTAAAGTTCTTTTTTTACTTGGATATACTGAATAAGGAGGTATGAATGCTTCATTGACAATTACAAATTTACTTTCTTTTATATTTTTATTTAATTTATATTTTTCAATAGTTTCCAAGTATGCATTGTATTTGTATTGTAAAAAATTTTTTTGTTTTAATAATTCAAAATACTCAATGTACAAAGGCGTTCTTTTTTGTATTTTTTCATTTATTACTTTCAATAAGTTTTGATTTACTTCTTTTAAAATATCTACATTTTCTAAGAAAGTGAGGTCTTCTACATATTGATTATATTTATTTTTATCTATTACTGCCAACAAATTGATTTTATTTTTTGTTATTGTACTTATTTTGTTTTTTAAATTATTTTCATATACATTTATTGATGTTTCCAATTCATTTATTTTAGGAGAGTTTGGACTATTTATTTTCAATATTTCTAATTCTAATTTTTGTTTAGTTATAGTTGATTTTAAATCTTTTATTCCACTAAAATTAGAGTTATAAAGCATTACATTTTGTAATTCTGGATTCATATTTTTGATGTTTTTTTCAATATTATTTTTTTCTAATTGTTTTTCGATTTTTGTTTTTTCAATTTCAAAGAGTTTTGAATAAACTTCAAAGTATTGTTTAGTGAGGTTATCTTTTTCAAATGTATCTAAAATCTTATTATCTACTTGAAATTTTATAATCTTTTGATTTATGCTTTCAAAATCAATAGATATTTTATTAAATTCTTCTTCCATTTTTTTTATTTTATTTTCCATTTTTTTATCTTCTAAAATAATAGAATATTCATTGTAGTATTTGTACAAATCCTTTACTATTTTATAAGCATAAACATCATTAAAAAATCTGACTTTTATTTCAAAATAATTGACTGTATTTGGGATTTTAGCTGCTTCTATTATTCCTCTTATATATTCTATTGTGTTTCTTTCTTTATATTCAACTCCCTTTAATTTTTCTATGAAAGTCCTATTGTCGTTTAAATACTTTATTAGTTTTAAGTCTTCTATAGTTTTTTTTATTACATAGTCAGATTTTATTATATTAGCTTCATCATCTATTGCAGAATTTCCTTCACCAAGCCCCAGTAAAGATAATGATGAATTATTACTTAAATCAACTTCATTATTTTTTAAAACCATAGTTTGTGAAGCTTCCCAAAATTTTCTTGTGTTTTTATAGTATAAAAACATAAAAGCATAAAAACTTAAAAATAATATTAGAAATAACTTATAATTTCTTTTGAAAATATTAAAGTATTTATTAAAAAATTTTTTTAATGAATTATCTTCCATGTTTTCCTCCATCATCTTGCACCTTTCATACCAATCATTGTTTCAAATGTTTTCAACATTATTTGAAGGTCCAACATTAAATTTCTATTTTTAATATAATATAAATCATACTCTGTTTTTTTTATATAATCTTTAATTGTTGATGTATGTTTATAGTTTATTTGTGCCCATCCTGTTATTCCAGGTTTTAACTTTAAACGTTTTGAATAAAATGGAATCTTACCATTCATTTTCAAATGAAATTCTTCCATTTCAGGCCTTGAACCAACTATAGACATATCACCTTTTAAAACATTTATAAACTGTAAAGATTCATCTAATCTTGTAAATCTTATAAACTTTCCTATCTTCAAAACTCTCTTTTCAATTTCACCATTTGGATTATTTTTATCTATTTTTGCCTCTTTTAATGACCTAAACTTTATCATTTTAAAGGATTTTTCATCTTTTCCTATACGTTTTTGTTCAAAAATAATTGGTAAACCATCTTCAATTAATATAAAAAAAGATATTATTAACATAAACGGCGAAAAAAGTATCATTAATACAACACTTATTATTATATCTATAATTCTTTTAGAAGGAGATTCAAGAGGATTATTGAGTGTAACTTCATAATATTCTGAAAATTTACTTAAAACTTCAATTGGTATTCTTTTTAAATAATATTCACAAAGATTTGGAAGGTATTCAACGTTTTCTCCATTTCTTTTTATTTTAGGGTCAACTATTAGAAGATTATCATAATCTTCAGTATCAACAAATTTTATTTTATTCATTGTTTTTTTTTCTATTTCACTTAAAATATTTTCAATTCCTTTTGAATCTCCAAGAATTAAAAATTTTTTTATATTTGCATGTTTAGTATAAATTTTATACTCTATTAAGTGTAAAAGAGATAAAGCAAATGTATTAAAAATAAATAAATATATAAGCATGTATCTGTTTATAAAGTTTTCTAATGCAAAATAAAATATCAGTGTACCAACATATCCTATTATGGTTCCAATGGCATTTCTAATTAAATTAGAGTTGTAATTGATCATATTTTCATTGTCATAAACTCTAAATGCATAAAATCCTAAAAATACAATAAACGCAACGAAAAATGCCACTGTAAATGGCACTTTTAATAAGATTAAAAAAATAGTTATAATCAAAATATCTATTATTTTTATATACTTTCTCATGATTTTCTCCTTTTTAAAAGAAATCATACAACCTTTTATACAAAAACTATTTTATCAGAAAAGTATTAAATAATATTTAATTGTATGATAATATGCAATAATTTAAATACTAACTGTACAATTTACACTTTGAAATAAAAGAAAAGGAATGAGTTAACTCATTCCTTTTCTTTTATTTCAAAATCAGCATCTTCATCAATTTCAATTTCTTTTTCAGCTTCTTCCCATGCCTTTGAAACAGCTTCATACTCTTTTTCGTCTTCTATCGAATCTAAGAAAAAATCTTCTCCATCTTGAATAACCTTAAAAGCAACGCTATCTCCAAGAACAATTTCTTCAGCATTTTCTTCAGGAAAAGCTTCATCACAAATCCAATACTTTGTTCCATTTAACTCAATTTCGTCAACATACATAAAGTGATATTCATTTCCATCTTCACCTGTTAAAGTAAAAAATTCTATATTTTCCATTATACTACCTCCAGTCATATTTTAACCATTATCTCATTTTTAAATTTAATTTTTATTTCAATACAGTAAAAAAAAGGAGGCATTAGCCTCCAATTTTACATTACTCTATTTTTTAATTCTGTACCAGCCTTAAACTTAGGTACTTTTTTAGCTGGAATTATAATAGTTTCTTTAGTTTGAGGATTAATACCTTTTCTTTCTTCTCTTTTAACAACTTCAAAAGTTCCAAAACCAACTAATTTTACACTTTCTCCTTTTTCGAGACTTTCAGAAACAATATCAACAAAATCATTCAAAAATTTTTCTGCATCCTTTTTTGAAACATTTAATTTTTCAGAAATAGCAGAAACAAGACTCTTTTTGTTCATATATACACCCCCCTATGAAATGTTATCATATTCTCTTAATTTTACCATAAAATCTTTTGTTAATCAAGTTTTTATATAACCATTATTTTTATTCAAAAATTTTTTATTAATGAGCTATTGATTCTTAAACTTATCAAAATTATGATATAATATTAATACAAAAATATTATATAAAAAAAGGGGGAATCAATATGAAAAAAGATAGTTTGTATATTAAACTTGGAATTCCAATTATTTTATTTGTTTTATTAGCTTTAACTACATATTTGTCAACACTGTACATTACAAAAATGCAGTCTGCAGATGGTTTAGTTATTAACCTTGCAGGAAGGCAAAGAATGTTATCTCAAAGAATGACAAAAGAAGCTTTAACCTTTTCAAAATTTAAAAAAGAAGAAGATAAAACAGATTTATTAAATACATTAAAAGTATTTGATACAACATTAACTTCACTAAAAGATGGCGGAGAGGCACCATTTGATTTAGCTTGGAAAAAAATGGTAAACTTACCAAAAGCTCCAGAAAAAGTAAAACTTCAACTTGAAACTGTTAAAAATATTTGGGATAATTTTTATAATAAAATGCATGATTTTTTAGACAAAGACTCTGAAGAAAGTTTAGTCTATTTAATAAATAATAACTTAAGTTTACTAATAGAGATGAATAAGGCAGTTACTTTATTTCAAGAAGAATCTGAAAAAAAGGTTGTTTTAATGAAAAGTATGCAATTAATAATTTTTATAATAAGCTTACTATTAGGTACCTATGCAATTTATATGTTGAGAAAATCTTTATCTCCTTTAAAAAGTCTTGAAAAAATTGCCGAAGGAGATTTAACTGTAAAATCAAGCATAGAGACTAATGATGAAATAGGTATTATAGCACAAAAAATGTATATGTTAGTTGGAGAAAAACTAAGACCAACCTTTGAATTTATAAAAGAAAATTTAGAAAAAATTAAAGTTCACTCTGATGAAGTTTCTAGTAGTGCACAAGAGTCTAATGCTATAACCGAAGAGTTTAAAGCAGCATTTGATATGATGTCAGAAGAAGCAGAAGTAATGAAAAATGAAACGGATAACACTAATGATGCTGTAAGTGAAATATCTCGTTCAACAGATGAAGTTGCAAATTCAGCAATTGAATTAGCAAATGTTGCAGGAACATTAGAAGATGCAACAAACAATGGAAAAGAAGTTATGGCTAACTTAGAAAGTGCTGTTAATAATGCAAAAAATGAAACATTAAAAACTATAGATGAAGTTAAAGAATTAGAAAAATATGCAAGTAACATAACAGAAGTAATTGAACAGGTTTCAAATATAGCAGATCAAACAAACTTATTAGCTTTAAATGCTGCTATAGAAGCAGCAAGAGCTGGAGAAGCTGGAAAAGGATTTGCTGTTGTTGCAGATGAAATAAGAAAACTTGCTGAAGAAACAAGAAATGCAACAGAAGAAATTTCTGAAATATTGGGATCTATAAAATCAAATGTAGACAAATCAACAGATCAAATCTTTACAGTAAAAGAAACCGTAGAAAAAGTAACGGATCATTCAAAAACATTAGAAAAAGAATTAAACAACATATTAAATCAAACATCTGTTGTTTCTGAAAAATCGCAAACATTGGCAGCATCTGCTGAAGAACAAAACGCTTCATCGCAAGCTATATCTCAATCATTTGAAAATGTAAATGATTCATTAAATAAATACTTTGACAATGTAAGAAATATGAGAGAATCAAGCAATGATATACAAAACACGGCAGATAACTTAGCAAATATAGCTTCTGACTTGCAATTAAGTGTAGATAATTTAAATGATTCTATTTCAAAATTTAAATTTTAAAAATTAAAAAAGTCGCTTAAGCGACTTTTTTAATTATCTCCACCAAAAAAACTACCAAGTATATTTTTTCCAATTCCATCTATACCCTTTGTTTCTCCTTTATTAGATCTTACTCCAGCACTAATTCTATCTGCAAGTCTTGAAAAAGGTAAACTTTGTAAATAAACAGCACCTGGTCCAGTTAACCTTGCTAAAAACACACCTTCTCCACCAAATAAAGCGTTAGTAAAACCACCAACAAATTGTATATCATACTTTACATTTCTTTCAAACCCAACTATACAACCTGTATCAACTCTCAAACTTTCTCCAGGATGAAGTATTTTTTTTATAATAGTTCCACCAGCATGAATAAATGCCAAACCATCTCCTTCAAGTCTTTGAAGAATAAACCCTTCTCCGCCAAATAAACCAGCACCTATCTTCTTTGTAAATTCAACACCTATTTCAATACCTTTAGCTGCACATAAAAAACTATCTTTTTGACAAATAAATTGTCCATTAAATTTACTCAAATCTATTGGAATTATCTTACCTGGATAAGGTGCACCAAAAGCCACATGTCCTTTTCCATTACCTTTATAGTAAAAATTTGTTATAAAAAAACTTTCACCAGTAACCATTCTTTTTAATCCACTGAATATTCCTCCGCCAGTATTAGTTTGCATTTCAATACCATCTTCCATATACATCATGGCACCAGCTTCAGCCCTAACACCTTCACCATAATCTAACTCAATTTCTACAAGTTGCATATCATCACCATAAATCTTATAATCAATAACATCAGCCATATTTTCCCCTCCTTTTTTAGTTTAATTCTACCATAAACAAAATAAAAAAAGCAAAGAATAAATATTCTTTGCTTTTTTTTTATTATAACTTAATTTAATTCAACTTCTACGCCTAACATAAAAGGCCATGGGAAAAAATGAGGCGTAATTTTAATATCTGTTTTTTCCGTAGATTCAAATATGAAAGTAAAACCAAAAATAGGATTTAAATAAAGGTCTCCAAGTAAATTAATACCAAAGCCAGCTTTTTGAGCAGCAGTTAATGCTTTAGTATCATAAAAATAATAATTTGCACTTAATCCTGTTTCGAATGCAGGAATAACGTCATAACCAAAAAAATTAAGTTTTAAAAATGTTGTACCAATTGCGGCCTTTGCTTCTCCACTCAAATAATAAGAACCAAAACTAAGATTAGTATCATCAAGTAAAACTGAGCCATCAAAACCTACATAATTTATTCCACCATCAAAAATATATTGTATATCAGTAAGAGGCAAGTTTAATTTTGTATATTCTTCTCCAAGAATACTATCTAAAGATAAATATTCTTTAACTCCGCCATAAGCATTCCATCCTTCAAACCCAAAAAAAATGTCACTCCAACCATTTCCTCCAACTATTAAATTAGAAAAGCTTGTTAAAGATAAAATGGCAACAAATAAAACTAATAAGTATTTCTTCATAAAACCACTCCTTTGTCAAATAAATATAAGTTTTTATTAATAAAATACAACTTACTTAAAGAATACCATACACACGTATACAAAAAGTAAACGTTTTCTTAACAATATAATAAAAAAATAGTTGACTTAATTATTTAAGTCAACTATTTTTTATAAGTTTTTTATACTTTAAATTTTTCTACTAAACTATCTAATTCATTTGAAATTTGAGATAATTCTTCAGCCATACCTACTATTTCAACACTAGAATCAGCAACAGCCTTAATTTCTTCTTTTGTATTTTTAATACTAGAACTAACTGTAGAAACATTATCGCTTGCTTGATTCATTGCTGCGGCCATTTCTTCAGCTGCTGCACTTTGTTCTTCTGCACTAGCTGCAAGATTAGTAACCATAGAACTCATTTCTTTCATAGAATTTTTTATATTTTCAAAACCAATTGCAACTTCATTAGATTGATTTCCAACCTTTTCAATTATATCCTTTAATCCAAGAGATTTTTCTCCTACAACCTTTGTATCATTTTTTATGTTGCCCAAAAGTTCTGAAATGCTTTCAGTTGCTGTTTTAGTTTCTTCAGCAAGTTTTCTTATTTCATCAGCAACAACAGCAAAACCTTTTCCTGCTTCTCCTGCTCTTGCTGCTTCTATAGCTGCATTTAAAGCTAATAAGTTTGTTTGCTCTGCAATAGTAACTATTGCATCAACTATTCCTTCAATATTTGCTGATTCATCTTGTAATTTTTTAACTGTACTATAATTATCTTCGGCGTTATCTACTGCATTTTTTGCAATATCTTTAATTTCTCTTATTTTTTTCTCACCAGTTTCTATGTTGTTTTCAACTTCATCATTTTTATCTGCAAGTGAAGTAGCTGCAGAACTAACAACTTGTGCAGAAGTTGCAACTTCATCAACAGATGCAGTAGTTTCTTCAATAGCAGCTGCCGTATTTTCAGCAGCTTCAGTTACCTTTTCTGAATCTGCAAAAGCTTCTTCAGTTGTTGCATTTAATTCTTCAGACAATGCTGCCATATTAGCAGAATTTTTTTCTGTTTTTTGAGATTTTTCTTTTATTTCGATAACTATCTTGTGTAAATTTTTTCTCATACTTTCAAGTGATTCTTGCAATATTCCCATTTCATCATTCTTATCTTTTTTTAATTCTTTATTTAAAACACCATTTGAAATTTCCTTTGAAAATTCAACAATAGTATTTAAAGGTTTCTTTATCATATTTCTAAACAAGAAATAAATAATTAATGAAACAATAATTATTGAGAATATAGAAATCCAAATAGTTATAGAAATACTCTTTCTAACAGCCGCATACATTTCATCTTCATATGCAGCAAGAACAACATAATAATCTCCAATATTTTTTACATAAGCAATTTTTTTAACTGGTTTTGTTTGTCCAGGTTTTGGATAATAGTAAGAAAAAAATCCATTTTTAACATCTTTTACTATATCAAACACTTTTTTTCCAGTTTTATCATCAACTGCAGAACTTTTTTTACCAATACTTTCTTTTTTATAATACATTACAAATTTACCATCTTTATCATAAACAATTGGATAAGAACTGTTACCTAAGGTTGGATTTGAATAAAGCATTTTATAAAGCTGATCATCTGATTCTTTTTTTAATTGAGCCATATTTTTATCTATATTATCAATATAAACACCTGTTCCAATATACCAATTCCATTCAGGAACATATAAACCAACACTCAATTTTGGAAAAACTTGATCATCTGGCATACCAGGTTTTGGCCAATAATAAACACTTGATCCATCACCAATTCCATTAAACTTATCTTTTGCAGCTTTTACAATATTTCTTATAACATAATTTCCATTTTTGTCTTTTAAATCATACAAACTCTTACCTTCAAGAGATGGTTTTGCCGCATGAAATACAGTCACACTTTTTTCTGTAAAACCAAAAAGATAACCTTCTCCATTATCATATTTTAAAAGCTTAACATCATTTTTAGCTGCTTCTTGAGCTTCTTTTCTTGTCATTTTTCCAGATTTTTCAAGTTGTATATACTTTTCAATAATATCTTTTGCCATTTCATCAATACTCGTTAATCTTAAAACTTGATCTTTTATAGCTTCTTCTCTTAATTTTGCTATTTTAGAATCATTTGTTAAAATTATGTTTGTAATTTTATCAACAGATTTTTCCATTATTTTATTTTTTATTAAGTCATTGGAAAGATTTGTTATCTCCCTTGCAGAAAAAAATCCAATTACTGAAAACGAAACTATCAACACCAAAGACATCAGTAATATAAACTTAAAACTCAAACTTTTAAATCTCATAAATAACTCCTCCTTTTATTAATCATAATTAAATATATTATACACTATTTAATAATCGTTTTAGTAAAATTAACGTAAATAAAATAAACATAGGTAAAACGTAAGAATATAATATATTTATGCTTCCTATTAAGGCCATTGAATTAACTATTATTAATTGACCTATACCAGTTGAACCATAAACTAAACCGCTAAAGAGACCAACTTCTCTATTAGATAATTTTGAATTAGAAAACTTTTGTACTGATGGAAAAATTGGTCCTAAAAATATTCCAGTGGAAATAAAAAACAAATAGTTATGTGTAAATAATAATAAAATAATACTCAATGCAGAAAAGAAAGAGAAAATAGAAATAGTTTTTAACAAACCAATTTTTTTATTAATTTTTTCTGTTAAAATTCTTGCAAAAGTAAAGACAATCCAAAAACCACTCAAAATTAATGAAGCATTTTCCTTGGTAATATTAAACTTATTAAATAATGTACCACTCCAAGTTACATATCCAATTTCAACACCAGCATACAATACAAAAATAATTAAAGAAATATAAACAAATTTTCTTGACAATATTTTTAAAGCTTCTCGAAATCTTATAGCTTCATATTTTGTATTTTTCATAGTATTAGTTAATAAAACATAAAAAAACAGAACAATTAAAAGAACAGAATAAACAGCATAAATAGTTCTAAAATCTATATTATACTTTAATAAAAAAGCTATAAAAACAGGAGCTAAAATACCTCCAAATCCAAAGCAAGCATGAAAAAAACCATAATTTTGATATTTTTCATCTAAATGAGCAAAAAAAGAGGTTAATGTTGTAAAAGCCGTACCCATAGAAACTCCAATAAAAAATATTCCAAATAAAATCATCAAAAAAGAAGAAGAAATTGCAAAAATACTAGTTCCAATAACTCCAAAAATAATGGTTATTAAAAGAGAAGATTTCAAACCAAGTTGTGCAATAATCATAGCTCCAATAAAATTAGAAAGCATACTTCCAACAGTACTTAAAGTTGGAACAAAAGACAGCTCAATAATAGAAACATTAAAGGTACTTTTAATAGAAGTCATAATTGGAGCAAGTGTATTTACTAATATAGAAAATAATAATAAAGATAAAAAAACAAAGTTTCTTTTTTTCAATTCCATAAAAATACCTCCATTTTTATTAATTGGAAATTATTTAATAAAAAAAATCCCGGCTTTGCCGGGAACTGTATTAATTATAACATGATAATTAATTTTTGTAAAGATATTTTTAGTTAATTTAATTTAACTTTTATCATAACTGGATTATGATCAGTATATACAAAGTTCAAATTATAACCATTTATACTCTCAACTACTATATTGGGTGAAGTTAAAAAACTATCAATTATTGTAGTATAATTTTTTCCAGGAGTATAAGGTATATCATCATTTCGTATTGAAGGTGTTTTTATATCATAATTCCATTTCCAGCCTTTGTCTGGCCAATCTTTTGATATTTCAATAATCCAAGAAGGAATTTTTTGTTCGCTTTTAAAGTTATTTAAAGGTACTCCTGGTGGAACCATATTCCAATCTCCACCTATGATTACATAATTCCCTTTTTTATACTCACTCAATAATTTATCTTTTAAGAATCCCATTTGAGTTTTTCTCAAACTTCCATCATCAAAAGCAGAGTTATGAGTATTAATTATTACTAACTCTTTATCTTTATAAGGAAATCTCCATTCCTGTATACATCTATCAAGTTGAACCAATTTTATAGGCCATCCATATTCACCAGGAAGGGCATAACGTGTAGCAGAAGATGGTGTATACTTACCCAAAGTAAATAATCCAGAAAGAACTTTTCCCATTGGATCTGATAAAGGCACTGGAACATAAGGGTTTTTATAATTAACAGCAAAAGAATATGCATAATTATTTAAAGCTTTTGCTATTTCTTTTGATTCGTCTATATGATAAGAACGTTTTGAATTTTTATCTACTTCTTGTAATAAATAAAAATCAGCATTGTGAGTAGATATAAAATTGAGTATTCCTTTCAAATTTCTTTCTACATTTTCTTTTTTAGGATTAGATTGAGTTCCACCATCCATAAAAAAATCAATTTCTTTACCCATACCCATATAACCCAAGTTCCAAGTCATTAAAGTAAGTTCATTTTTATCAATGGATTTTCCATTTGAAGTAACATTTAATTTTATTACTTTATTTGGTTTGAAATCCACAGCTGTATAAAAACCAAAAAACGCAATAACCGCAACAACAAGTATAGATAAAATCCAAAGTGATACTTTTAAAACTTTTTTCATATAACTCCCCCTTTGAAATATATTGAAACTTAAATTCTATTACTCAGTTATAATAATTAATATAATTTAATAAAAAAATAAATAAAAATATTTTTTTATTTACCATTATATCACATTTATTAATTTTTGTTTTCAAAAAAAACATTAATATTACAAATTAATTAGCTTTGCATACTTATTTTATTTATGTACCTAAAATTACATTGAATATTTTATTTTTATTGCTTCAAATTAATTATAAAATATTTATATTTCTTTATTATTAAATAAAAAATTGATAAAAAAAGCAAAATGTTGTATAATGTAAAATGAGAAAAATAATATATTTTAATAATTAAAACGAGGTGATTAAAAAAAATGTCGGTAAAGATAATAACAGATAGTACATCGTATATTCCCGAAAACATAAAAAAAGAATTAGATATTTCAATATTATCATTAAATATTTCTTTTGATACAGAAGAATACAAAGAAATTGAATTGAAAAATGAAACATTTTATAAAAAAATGGAAGAATATGATGAGTTACCAAAATCTTCGCAACCTTCTATAAAAGATTTTTACACAGCTTTTGAAGAAATAGTAATAGCAGGCCATGAAATAGTTGGAGTTTTTTTATCATCTAAAATGAGTGGAACATATTCAACAGCATTAATGGTAAAAAATATGATACTTGAAAACTACCCAGAAGCAAAGATAGAAATAGTAGATTCAACATCAAACTCAATGCAACTTGGATTTGCAGCAATAACTGGTGCAAAACTTGCAAAAGAAGGAAAAAATATTGAAGAAATAGTATCAGAAATAAATAAAAATATAAAAAGAAGCAAATTTATATTCATACCAGACGATTTCAAGTATTTGAAAAAAGGAGGAAGAGTAGGAACTGCACAAGCAATTATAGGATCTGTGCTAAAAATAAAACCAATATTGACAGTAATAAATGGAAAAACAGCCGTTTTAGAAAAAATCAGAACTAGAAAAAAAGCAATTGAAAAGATGATAGATATTTTTGCAAAAGACATTGAAAAATATGGATTTGGAGACGCAGTTGTACATCATATTAACTGTGAAGAAGAAGCATTGAAATTAGCAGACTTATTAAAAGAAACGACTGGAAAAATAATTAAAATAGTTCCAATAGGTCCAGTAATAGGAACACATGTTGGACCTGGATCAATAGGAATAGCCTACTTTACTAAAGAAACATTAAATTCATGAATAAAAAAATATATGCCGTAAAAAAAGGTAGAAAAACTGGATTATTTAGTAGTTGGAAAGAATGTGAAGAACAAACAAAAGGCTATTCAGGAGCAATATATAAAAGTTTTACAAATAAAGAAGAAGCAGAAAAATATTTACAAAATTCTTCTTTAAATAAAAAAACTAAAAATGTTGATATTAAAAATACAATAATAGCATACATAGACGGAAGTTTTAATTCAAAAACAAAAGAATACTCAGCGGGAATAGTAATGTTTTATAATAACACAAAAAAAACCTTTAAATACAAAGATAAAGATCCAAAATTTTCAAAAATGAGAAATGTTGCAGGAGAAATAATGGCATCACAATTAATAATGCAATATGCAGTAAAGAATCATGTAAAAAACTTAGAAATATACTATGATTATGAAGGAATAGAAAAATGGTGTACTGATGAATGGAAAGCAAATAAAACAGGCACAAAACTATACAAAAAATATTATGACCAAATAAAAGATAAAGTAAATATAAAATTCATAAAAGTACAAGCACATACAGGAAACAAATATAATGAAGAAGCTGATAAACTTGCAAAAAGTGCTTTAGGGTTACTTTAAAAATAATTGATAAATAAAAAGCCAAACTAAGTTTGGCTTTTTATCTACGCATTAAACCTATTGAATAATATATTATTATTAAAGAATATGCAATATAAGCTATAGATGGAAAATAAAATAATTTATTTAAACCTATTGAAGTTTTACCAAACAAACTAACTCCGAACCAATTTAATGAATATTTAACTATTAAAAAGGTGATTAAACCAGTCATTACAAAACCAAGCAAAAAAATAAAAAAACCATACAACTTATATTTTTTATTTGCAACTCTTTCAAGAGAGTAAATATGTAAAAGAATACCAAAAACTAAAATAGGTATGTTTATTATTATTAAATTTTTAAAATCTAAAGTAAATTGAGTTCCAATTAATTGAGTTAATTCTTCTCTAAAAATTTGAACAATACCACTGAACAATAAAACTATTGTAGAAACTAATATATTTAAGGTCCCTAAAAACATTTCAAAATAAACAGAAGATGGCTTTGCTATTTTATTTATCTTAACATCACCCATATTTTCTTCATTCATTCTTACACCCCCACAATATATTATATCACTTAAAAACAATGTATTCAATTGTAGGAACTAAACTGTAAACCTAAATTTTTTCAGAATTAAATATATTTTTATTATACTTAGAAGAAAAAAATAAAACAAACCAAGTAGTTAAAACTACGCCCTTTAAAATGCTACTAATGCTAATACTCCACCAAAAACCAGTAACATCTTTTGTTATATACTCAGCCAAAAGAACACCAAAAGGAATTCTTAAACCAGTAAAAAGTATACTAACAACAGTTGGAGGAATAGTTTTACCAAAGCCATTAAAAGCTCCTTGAGTAGAAATCTCTAAAGTCATAAAAACTTGAGAAATTGCCAATATTTTTAAATATTTAAAACCAAGATCTATAGCACTTTGCTCTGGAATAAAAAAAGAAAAAATTTGTTTTCCAAAAAACATAAAAGCAAAGGTTGCAGATAAACCAACAATAAAACTCAAAGTTATAGTAGACAAATAACCCTTTTTTATTCTATTTATTTTTCCAGCACCATAATTTTGACCCGTAAACGTGCCAAGAGCTGTTGAAAAACCTGAAGCAGTCATCCAAGAAACAGATTCAATCTTAGCTCCAACACTTTGAACAGCAACAGGTAAAGCACCATACTTTGAAATCATAGTAGAAATTATCATAGAAAAAGTTGCAAACAAAGAACTATTTAAAGTTATTGGAAACCCTATTTTAATAATTTTTTTAAAATTACTAAGGTTAAATTTAAAGACCAAACTCTCTTTAAACTTTTTAAAATCAATTAAAAATACTATTAAAACAATTAATTGAGAAAAAACAGTAGCAATAGCAGCACCAGTTTCTCTAAAATTAAAGTTTAAAATTAAAATTGGATCTAAAATCATATTCACAATTAATCCAATGCCATTTACTAAAAAAGGAATTTTACTATTACCAAGACCATTATAAACACCAGAAAAAGTTGGATTTAAAAATGTAAATAAAATTCCAAAAGAAATTATTCTAAGATAATTTACAGACATAGAAAAAATACTCTTATCTTCAAATTGAAAAATTGAAATTAAATCATTTGCAAAAAAATACAAAAAAACAGAATAAAAAACTCCCAAAACAAAAGCCAAAAATAAAGAAGAAATAATATATTCAAATGCCTTTTTCTTATTTTTTGCACCTATTGATTGAGAAACAGTTACCTCTGCACCAACTTTAGTCATCATAACTATTGCATTTGCAAACCAAATAAAAAAACCAGCAACACCAACAGCAGCAACAACAGAACTACCAACCCTTCCAAGCCACATCATATCTGTCATATTATAAGCCATTTGAAAAAACGACGTAGCCATTATTGGAAGTGCTAATTTTGTTAATTTTTTTAATATACTACCTTCAGTTAAATTCAACTCCATTAAATTCACCTCATGTTTCCTATTAAAAAGAACGCCATAAGGCGTTCTTATTTTATTTCAACAGTATATTTTGATTTTAACTCTTGAGATTTTTTCAAGTAAACTTCACTTTGTTTCATATTCAACATTTGTTTTGTAATACCTTCTTTAACCTCTTCAAAAGAACTCATTTCTTTATCCTTTTTATCTGTTACCTTTATTATATGATAACCAAATTGAGTTTTAACAGGATTACTTATTTCATTTAATTCCATATTAAAAACAGCTGAATCAAATTCTGGAACCATTTGACCTCTTCCAAAGTAGCCAAGATCTCCACCTTGAGCCTTTGAAGGACAACTTGAATATTTTTTAGCTGCATCTGCAAAATCAGTACCATTTTTTAATTCCTCTAAAATTTCATTTGCTTTTTCTTCAGAATCAATTAAAATATGACTTGCCTTAACGCTTTCAGGCTTTACAAAAGCAGCTTTATTTTCTTCATAATACTTCTTAACTTCATCATCAGAAACAGTTATAGGATTTAAAAGTTTACCAATTGCATATTGTTTTAAAATATCTTTTTTTACAACATCTAAGTTTATTTTAAAATCTTCTTCTTCATCTAATTTTTGATCAATTGCATCTAAATAAATTAATTCTTGATTTATAAGCTCATCTAATAATTGTTTTTTACCTTCTGGTGTCATGAAAGGTGCAGATCTTTGAGGACCAAGCTTTGCAATTAAATCATTTACAGCTCTTTCTGTTATTTCTTTACCATTTACAACAGCTAATACTTTATCAGACATTTTTTTAACTCCTTTTATTTTGAATTATTAAAAGTCTAACATATAAAAATTAATTATTTTAAAATAGAACTTAACAACTTCATTTTTTATTCATTAAACAACATAAAAATAAATACAAATAAAATGAGAAACACTTCCAGCTAAAACAAAAAGATGCCAAACAGAATGGAAATAAGGTATTTTTTTAACTATATAAAAAGCAGTACCAGCTGTATAAAAAAGCCCACCAATTATTAGCCATATCAATCCCCAAAAAGGTAAATTACTTACAACAGGTTTTAAAACAAAAACAACCATCCACCCCATAGAAAGATAAATTAATGTTGAAAGAACAACCATTTTCTTTTTTATAAAAATCTCTTTTAATATTCCAAAAATGGCAATACTCCATATAATAGCAAACACCCTCCAACCAAGATCTCCACCAATAGTTATTAAAGTAAAAGGAGTATAAGTACCAGCGATTAACAAAAAAATTGAAGAATGATCAAAGATTTTAAAAACAGACTTAGCCTTTTTATTTGGTATAGCATGATAAAGCGTTGAAAACAAATACAGAGTAAAAAGAGTTAAACTATAAACCAAAGCGCTAGCCGCATGCAAGGTGTTTCCTTTAAGAAAGGAACTTACAAGCAATAATATTAAAGCTATTAAACTCAATAAAGCACCAACTCCATGAGTTATACTATTAAAAATTTCCTCACCAATTGAATAATCTCTTTTTTTCATAAAATCCCTCCCATAAAAATAACTATTATATTTTTTATAAATACTTTTTTTAATTATATCATTAAATTAAAAATAAAAATAATTAGCAATTATAAGTAACAAGTAATAAACAAAATAGTATCAAATAAATTTATTATAACTATAATTATTTATTAAAAATAATTATAATAAATTTTATAATTCGTATTAGCAACTTGACATATAGAGTGCTAATGTGCTATCATATAGGTGTAAATGAAAGAAACACAAAAATAAAACGATAAAAACAAAAAGATGGAGGTGTTATGTATGAGTTTATTAAAAGTTTATAACGACGATTTTTTCAAAAAACCATTTGAATTATTTGAAGAATTTGACAATCTATTAAATGCAGCTCCAACAAGAGACATGAAAATAGACATATATGAAGATGAAAAAAGTTTAAACATTGAAGCAGAACTTCCTGGAGTAACAAAAAAAGACATAAAAATAAACTTAGAAGACAACGTATTGAGCATAAGATGTGATAAAAAAGAAGAAAAAGAAGAAAAAGGAAAAAATTATTTCAGAAGAGAAAGAGTATTTGGAACCTTTGAAAGAAGCTTTAAACTACCTGAAAATGTAGATGTAGAAAAAATAGATGCAAACTTTGAAAATGGAATTTTAAAATTAAACATACCAAAAAAAGAAAAACAAAATAACTCAAAAGAAATCGTTATAAAATAAACTGCGCTTAGCGCAGTTTATTTTTTTGTATACAAAGTCCAAAATCTATTAAATTCCTTTGTAAAAGAATGAGAAACATCTTGACTATGAATAATTAAAGCATTCTCATCATTTTTAAATTGAGCAGAATTCGTAAAATTATAAGAACCAGTAACGGTTATAGAATTATCTATTATCATAACTTTATGATGAAAAGTTCTTGGATTTTTATCTAAAACTGGATTTAAACTTTTAATAAAAGAGTAAACAGACCACGAACTCTTAGCTTGAAATGTTTCCATAATGATTCTTATCTTTAAACCTCTATTTTTTGCATCTAAAAGAGCATTTGCAATTTCTTTATCAGTAAAAGTAAACATCATAATATCTATACTCTGTTGAGCACTATTTATCAATTGAACTAATCTATCCTTTAAATCATCTTCGGGCATAAAAAATGGTTCTATTAAACCAGAATTAGTCTTTACTTTAACAAAACTCTTTATATTATCATCATACTTTCCAAACATCTTTTTATTAAATTGTTCATTAAATTCCTCCATATAATCTTGTGCAAGTTCATTATTAAACACAATAAACATATTATTAGAATTAGAATTTATACCAGTTTCAGTTAAGTTTGTACTACCAGTAACAACACAATAACCATCTATAACACCAAACTTATTATGCATATATGCACTATTCATATCATAAATAATAGGTATATTATTATTTGGTAATTTAAAATCAGTTTTTGTATTTCTATTTCCAGATTCAATTACAACTCTTACATCAACCCCTCTATTTTTTGCAGAAATTAAAGCATTTACAATATCAACATTATCTAAATCATAAACAGAAAGATAAATAAATTTCTTAGCACCATTTATAAGATTCAAAAAATAAGATAAGTTTTTATTATTTCTATCTTGTGTTGAAATATCATAAAATAAAACTGTTGAATCATTTGTGTTTTTTGAAATACCTATTTTCCATTTATTCAATCCAATATCAAAAGAATATTCAGAGACACTATTATCTGCTCTAAAAAAAAGTTCATTATTTTGTTCATACATACCTGGAATATGGCCGATAATATTATCAGTAAGACCATTTATCCATAGATAATCTCCATTTGACAAATTTAAGTTATAATCAGATAAAAAGACAAGAATAGGCAATGTTAAAATAATTAAAATACTTAAAAACTTTCTCATACTAACCCTCCAAAAATAAATTTTTTCAATAAATTTTTTTCACCTTCATTATTATATAGTATCTTCAACAAAAAATCTAATTTGCATTTGTTTTAAAATTGTAGTAAAATATTAATGAAGTATATAGTTTATTATTAAAAATCCTTAATATGGGTAAGGAGTGATGTTTATGAAAAAATTATTGGTATTGATGATCGTTGTTATTTCAGTTTTTGCTTTTTCTGTACAACTATCAGGAGCATTTAGATTTATGCCTAATGGCGACACCTATCCTGATGGAACACCAAAAGGAGCAAATGGATTTAGAATTTCTAACTTAGACTCGTTTATAGGATTATCTATTGAAGGTTATATGCCTAATGACCCTCGCCATCCAGATTTTTTAGAATTTAATGCATTTGTACTAGGTGTATTAAAACTTGGAATAATAGATGTTTATGGTGGAGTTTCACCAATCTTACTATTCAATCTTCAAGACCCAAGCACAACAGAAACAACACCATCTGGCGGATTATACCATTCATTAAACCCATTTGTATTAAAAGGTGGAGCTGAATTAAACTTAGGTGCAATTAATATAATCGGAGAAGCATACTTTGTAACTAATGATAAATTCAGACACTTTGATCAATTAGGATACGCACTTGGTGTAGGATTAACATTTTAACTTAAATAAAAAATAAAGGCGAAAGCCTTTATTTTTTATTTATAGCTACAATAGCCTCTGCAACTTTATCAGAAATACCTTCATCAAAAGCTTTAGGCAATATATTATCTTCATTCAAATCATCAACCATAGAAGCAATAGCCTCTGCAGCAGCAACCTTCATATCATCACTTATTTGAGACCGTATTTTTAAAGCTCCTTTAAAAATTCCAGGAAAAGCAAGAACATTATTAACTTGATTTGGAAAATCAGAACGTCCAGTTCCAATAACTTTAGCTCCAGCCTTTTTAGCCAAATCAGGCATTATTTCTGGTGTTGGATTTGCCATAGCAAAGATAATAGCATCTTTATTCATTGATTTAACCATATCTTCAGTAACTATATTTGGAGCAGAAACTCCAATAAATATATCTGATTTTTTTATTGCATCCTTTAAACTACCACTCAATTCTTTTGTGTTTGTCATTAAAGCCAATTCTTTTTGATGATCATTAACAGCCGTTTTAGGCGTTAAAATACCTTGTTTATCACAAACCATTATATTTTTAAAACCATACTTTAAAAGCAGTTTTGTAATAGCAGTTCCAGCAGCACCAGCACCATTAACAACCACTCTTACATCTGTATTTTTATTAACAACCTTTAAAGCATTGATTATACCAGCAAGAACTATAATAGCAGTTCCATGTTGATCATCATGAAAAACAGGAATATTCAACTCTTTTTTTAATCTTTCCTCTATTTCAAAACAACGAGGAGCAGAAATATCCTCAAGATTAATTCCACCAAAACCAGGAGAAATCAACTTAATTGTTTTAATTATTTCATCTACATCTTTTGTATCCAAACAAATTGGAATAGCATTAATCCCAGCAAACTCCTTAAATAAAACACACTTACCTTCCATAACTGGAAGAGCAGCCTTTGGACCAATATCTCCAAGACCAAGAACAGCTGTTCCATCAGTTATTACAGCAACTGTATTTCCCTTCATTGTATACTTATAAACATCATCATTGTTTTGATAAATCTTTTTACAAGGCTCTGCAACACCCGGAGTATATGCAATTGCCAAATCATGAGAATTGTTAACCTTTGACTTTGAAACTACCTCTAACTTACCTTTCCATTCTTCATGTTTTTTTAAAGAAAGTTCCTTAATATCCATATTTTCACATCCTCATTTAAAGATACTATTACCATTACTATCTATTGCAACAAGAAGTGGAAAATCAACCACCTCTAAAAGCTGTATAGCCTCTGTACCCAAATCATTAAAAGCTAAAACCTTTCTTTTAATAACCTTTTTTGCCATTACTGCAGCAGAACCACTTGGAGTTACAAAGTATACCCTTTTATATTTTTTACACATACTTATTGCAACAGAACTTCTCTTTCCCTTACCAATAGTACCAAGAACTCCAAGAGAAAACACCATATCAAGAAAAGGATCCATTCTATTACTCGTTGTTGGCCCAATAGAACCAACAGGGAACCCATCTAAACTCTTTGCAGGACCCGCATAAAATATTATTTTTTTATTTAAATCAACAGGAAGTTTTTTATTATCATCCATTAACTCTTTTAAACGTTTGTGAGCAGCATCACGCATTACAATTAATTCACCACTATAACTTATTTCATCCCAAATCTTTAAAGACTCAATATTCAAAACAAACTTCCCCCTTTCTGCAAAGATAACAATCAACAGAAATAGCAAGCGGCAACGTTGCTATATGAGTTGGAAAGTAATTTATATGAACAGAATGAACAGAACTACCTTTTCCAAGACCTTGAAAGCCTATCTTTAATTCATTTAATTCCTTTATTAATTTATTTTCAAGATTTGCATAAAGTTCATTAGAATTTCTTTCATTAAAATCTTTTAAAAGAGCCATTTTAGACAAAATAATAGCCTTATCTGAACTTCCACCAACACCAATACCAACATGAAGTGGAGGACAACTCTTTGCACCATTTTCTTTAATAAAAGATTTAACTATCTCCACAACATCTTCTTTTGTACTAGAAGGCTTCAACATAAAAAGAGCAGTATTATTTTCGCTTCCTCCACCCTTTATTAAAAACTTTATTTTTAAAGTACTATCATTAGTTTGAAACAAATGAACAATTGCTGGAGTATTATTATTTAAGTTTTTTCTTTCAAACAAAGGATCATTAACAGTTGAATATCTAAAAGGATTTTTAGTATAAACCTCTTCAACACAATTATTTAAAAAATCATTTATATTCTCATTAAAACAAAGATCTTTACCAACAAAAACAAAAAATTCAACCATTCCAGTATCTTGACACAAAGGCATACCAGTATCCTTTGAAACAGAGTAGTTTTCTTTTAAAGTATTGCAAAACAAACCTGAATAATTATCCACCTTTTCTTTAACCTTTGAGTTTATAAGAACATTTGCATTCTTAATAGCTTCAATTAATTCATTTTTTATACTATTTAAATCAACACTCTCCATAAAATCACCCTTTCAATAATTAAATAAAACAAGAGCAAAGCTCTTGTTTTATTTAATATATACGTAAACCATATTTTTAATAGACTTTTTAGCTTCAACAACATGATCTATATTTGTTTCTTTTTCTTTTACTAAAATTATATTAACATCTAAAATATTTTTATACAAAATATAATCTTCAGATTCAAAATCTATAAAGCTCAAAATATTTTTATCTTTTCCCTTAACCTCATCAAAAACTTTTATCTTATCTGAAATTGTATGAGTATCATAAAAATCATAATCATTATTTACTTCATACAACTTATTATAAACAAATCTACCAATCTTATGAATTTCAGGATCACTAGACAAAGAAATAATACCAATATTATTTCCACCATGCTGATAAATATAATTTGCAAGTTTATTAACTTCTTTTTTACTCATTTTAATTTCAGGAACACCAAACAAAGCTTCAAATTCGTTTATATCTTTAATTGTTTTATCCGAAGATTCTTTTAAAAATACTCCAAGAATACCCAAGAAAATTCCCAAAACAATACCAATGGCAAGAGTTAACTTTTTATTTGGTGCAACAGGCTTTAAAGGAACATAAACAGGAGAAACAACATCAAACTTTTGCTGATACAAACTCTTTTTCATTTTTTCAGATTCAACAAGGTTCAAAAGAGAGTTATACTTTGTTTCAAGTATCTTTTGATTCTTTTTCAATTCATAATATTTATACAAAATAGGAGACTTTTTAGAAATTTCAGCATCAATCATGCTTAAAATTTTTTTATTTACATTTTTTAAAACATCAAACATTTCAAGTTGAGTCTTTGTACTTATATAATCATTAAAAGTGTTTTTATCCGTTGCTGCAAGAAAGTTTAAGTTGTTTGAAAGAACCTTATTTAAAGAAGTTTTAAAATCGTTTTCTTGAACAGATATAACAGCATTTAATTCATCAATTTTTGGAGAGTTTGGCTGAGTTAGCTTTAAAGTTTCTAAGGTCATCTTATTTTTTTCTAAAGAAACCTTTAAATTATTCAATGCCGAAACAGAGTTAACAGCCAAATATTCTTTCATATCTGGATTCAACTTCAATAAATTTGATTCAATAGCCTTTAACTTCATTTCTAATTGAGACTTTTGAGAATCAAGCTTTAATAAGTTCATATAAGTTGTTGCATAATAACTAATCATTGGATCATTTTGAACTTGACTACTTGTTATCTTATTTTTTATCTGATAATCCATTATTTCTTTATTTATTAAATCAAATTGAGTTTCTGTATCATTAAATAATTTATTTATTCCACTCATGTATTCTGCATTATTTTTATAATAATTATCTTCTGAATACTTCATATAATGTTTATAAAGCAAAGAAACAACAGAAGCAGCAAAGGTTGGATCACTATTTTTATAAGAAATATTCAAAAGGCTTGTATCTTTAACATTATTAATGCTTATATCTTCTTTTAATTTATCTATAAAATCTCTTTCAGTATAAGTAATTCCTCTAAGTTTTGTTAAAAATCCTTTATTTTCATTTGCCTTTTCAACCATATTTAAATCTTTTATTACTTCTTTTAAAACTTCATCGGACTTCATCTTTTCTATTTCTGTTGAAAGAGAAGAGTTTCCACCTGTTGAAATACCCGCTAAAGAAGCTAAACCACTCAAACTACCAAGTGAAAAAGAAGAACCGCTACTTCCCTTATACTCAATAGTTTGTTTAACCTCATAAACAGGCTTTGCAAAAGCAAACAAATAAATTAAAGTTAAAACAAAAGTAGAAATTAAAATTATCCAAAAAAACTTACTTCTTCTTTTAAAAATTCTTAAAATGTCTGAAAGACTCAACTCCATTTCTTGTTCTTCCATAAAAATCCTCCTAATTTATCTTTATTTTTTGTATTGAATTTTTTTATTAATTACTCTTATGATTATTTATAGTTATTATTTTTCATATTAACTTTTTTATTTTACCATAAAAAATAAAAAAATAAAACACAAACAACAAAGTTTAAACATAAAAAATAAAACGTTTTAAAGACTTGAAAGGTGTAATCAAATCCTCACCTTTAAGTTGTAAATAAAAATTTACACAAATTCAATAATAAAAATGGATATTATAAGTGGACGTCCAAAAAACTAAAAAGAGGAGATGAAAATCATGGCAAAAAATCTATTGAAAAAAAGTGGAAAAGTAGCATACACAGAAACAATAAACGGAAAGGAAAAAAGAACAACAAAAACTTACAATCTCTACACAGATGATGACACATTAATAAAACAAGCCTTAGATGAAGTAGTAAATCTTTCCTCAAACAAAAATGCTTTTTATGCATACAGAGAGGATTATGAAATAATTTAAAGATTAACAAAAATAATAAAAAATAATTAAACTAAGGAGGAGATTTTAATGAAAAAACTTACAATGAAATTTTATGATGTGAATGCAAAGAAAAATTACACAGTAAACATATCTGACTTTGATGATACAAAAACTCAAGAAGAAATACAAGCATCAATGGATAAAATGATTGGAGTTCTTGTTCCAACAACAGCAGCAAAAGATGAAGCTTTAATAACCGATACCAATAAAACAGAAGTATTCAACTTAATAGAAAACTAATGGACATATTAACAGGAATAATACCAACCTTGGTTAAGATGATAGAACATCCAGGAAATGGTGAAATAAAAAAGGAAATAGTAATGAATGCAACAAAAGAAGTTTTAAAAGTAAATAATTTGTATAATCCATTATTAGATGCAGCAATATCAGCAATGATAGACGGCATAGCAGGGTTATTAAAAAATTAACATTGCGGGGCAAAAAATGCCCCGCACTTTTTGCTTAAAAAAACAAATTTATGGTATACTTATGTATATATAGATAAAAATAAGTTTAATAGTATTTTTTTTCACATATACTAATTTTACAGTTTAGCCTATAGGTATTGTTAAAAAAACAAAATCAAAAGGGGGAGATTTTATGCTGAATCAAAAAAGATTCACAGATGAACAATTGGTTCAAATGATTCAAAATGAAAAAACACCAAAAAGATTGAAGGAAAAGGCAAAAGAAACATTATTTAACAAGTACATAGGAATGCTAAAAAACAAAACAAAAAAACTCTGTGAAAACTGTTCAACAGATTTTGATGGAACATATCAATCATTATGTTATTTATTCAACCTTGCAATTAAAACATTTAAAATGAAAGGACAATTCAAAGGATATTCAAGCAGATATATAGACCTAAAGGTTATGAATGACATAGGAAAACAAAAAACAAAACTACCCTATGTTGGAAAAGAAAGCCCATTTTATATACGAAATTGGGATAAAGTTTATTTTTATGAAGAAACATCAGAAGTTTATAACAGAGAGTAAGTTAAATCCTCCACTTTGTGGAGGATTTTTATATTAATATACAAATAATGACAATTAAATAATAACATAGTCAATTAAACATTTAAAATTACCCTTTTATCTAAGATTATAAAAATTAATAAAAAATGTATTATAATAATAGTACGTTTATTATTTTTTTCAACAGCTTAATAAATCAATCGCACGATATATTAATAATAAAATAATTTTTGGTAAAAAAAATTAACAAGGTTGATTTTCACAAGTTTATATGCTAAAATAATCAATGGTTGATTGAAAGTCTTTTATATGATAAAATATATAATGATTGTGAAAATAGAATGGGGGACATTATGAGAAAAGCTATAAAGTTACTAGACATGCTTATCATACTTTTATTCAATATATATGCAATGGCTTTGCCAATTTGGTTATCATTAATAATAACAGCAGCATTATTCATAGGGCTATATGCATTTAGAACATATGACAGTGAAAACATGAAATCAATAAATGAAAATTTAATAAGAACAACAGTTGGAACAATAATAGGTTATATAATAATATTGCTCGTTTATGTATTTATTGAAAAATATATAAACAGATATATATTCTTATATAACCTATTATTTGTTATGATAACAATACCTGTTCTTCACAAAATAGAATACATTTTATATTCAAAACACTTTCCAGTAAAAAGATATCTTGTAATAGGAAGAAAAAATGAAATAGGAAAAATATTAGACGAAATAACAAAAAAATCAATGAACAAACTACAATTTGTAGAATATATAAACCCTTCACCAGTAAGACTTGAAAAGTTAATGACAGAAAATTATGAAGAAAAAAATCCATTATACTTTTTCAACTTAAAAAAAGAAAAAGAAACAGCAAAAAACAACTTCAACGCAATAATAATAACCGATCCAAAATTAGAAGACTTAGTAAAACCGCAACTTCAAGAATACAAAAAAAGAAATATACCAATAGAGTACCTTCCAAACATAGCAGAAAACTATTTAAAAAGAATACCACTTGAAGTAGCAGAAAAGTTTAAAGAATATTATGAAGTTATCTTTCAAAATGTTAAAGAATCGCCAGCAAAACGGATTGGAGACATTATAATATCCTCTGTTTTATTTGCTGTTTTTTCACCGTTTATGCTTATAATTTCTTTTTTTACACTATTTGAAGACGGAAAGCCAATTGTTTTTTCTCAAAAAAGAGTTGGAAAAAACGAACAATTATTCAAAATGCACAAGTTTAGATCATTAAAAAATCAACCAATAAACAAAGAAAATCCAAATGCTGGAATAGAACAAAGAGTATTAAAAATAGGGAAAATAACAAGAAAATTAAGAATAGATGAAACGCTACAGTTTTTTAATGTTTTAATTGGAAATATGTCTATAGTTGGTTCAAGACCAGAAATGCAAGAGTTTCACAATCAAATGAAGGGAAAAATACTATTTTATCCAAAAAGACTTTTATTAAACCCTGGAATAACAGGCTGGGCACAAATAAACTATAAGCATACAACAACTTTAGAAGATTACAAAAAAAAGACAGAATATGATTTATATTACATAAAAAACAGAACATCGATAATGGACTTACAAATAATGCTAAAAACAGCAGAAACGATGTTGGGAATGAGAGGTTCTAGATAGTGAAGAAATATGAATTACCAATGATTAGTATTATAATACCTTTGTTAAACGAGGAAAAACACATAAAAAAATTATTGAAGTCAATAGATGATCAAACCTATCCTAAAGAAAAAATTGAATTAATTTTAGTTGATGGAAATTCTAGTGATAATACAGTAAAAATCATAAACACAGAAAAACAAAAAAGAAAATATGATATTTTATTATTAAATAATCCAAAAAAATTAACACCGATTTCTATGAATATTGGAATAAAAAGAGCTAAAGGTTCATATATAGTAAGACTAGATGCACATGCCACATATAATAAAGAATATATATATGAAGGAATTATTGAAATGATAAATAATGATTCTTTAATATCAGTTGGGGGATATTGGTATACAACACCTGTTTTTGAAACTAAGAGAAGTAAGGTAATTTCAAAAATTTTTAATTCATACTTAGGATCTGGTTTTTCAAAATATAGAATGAATAAATTAAATAAAGCAAAAAACAAAATAGTTGATACAGTTCCTTATGGAATATTTAGAAAAGAACAATTAATTAAAGTAAATGGTTATAATGAAAAATTAATAAGAGGGCAAGATATAGATTTATTTTATAGATTAAAAAAAATTTTTAATGGTAAAATTAAAATTTTAAAAAATATGAAAATTTATTATAAACTTAAATCTACAAACGCTATTGAGCTTTATAAAAGGCAATTTAAACAGGGAATATGGCTTTTTAATAGAAAAGAGGGAATATTATTTAGACATTATTTTCCTTTATTAGCTGGAATTATAGGTTTAATTTTATTTTTTATTAATTTAAAAATTTATATATATGTTTTGTTATTTTATTTTTTTATTTGTTCAATATCATATTTAATTGAAATAGATAATATAATAGAAATATTTTTGTTGCCTTATGCGCTTTATTCATACTTTATGAACCACTTAGGTTTTTTTTTGGGAGTGATAAAATCATTTTTAAAATTATTAAAAAAATAAGGAGCTTTCATAACATGAAAATAACAATAGCAGGAACAGGATATGTGGGATTATCATTAGCTATATTACTTGCACAACATAATGAAGTAACAGCATTAGATATAATTAAAGAAAAAGTAGAAATGATTAATAATAAAATTTCTCCAATTAAGGATAAAGAAATAGAAGAATATCTAAAAACAAAAAAATTAAACTTAAAAGCAACTTTAGATAAAAATGAAGCATATAAAAATGCTGAAATAGTAATAATAGCAACACCAACTAATTATGATGAAGAAAAAAATTATTTTGATACATCAACAGTAGAAAAAGTAATAGAAGATGTTTTAGAGATAAATCCAAATGCTTTAATGATAATAAAATCAACTATTCCAGTTGGATATACAAATAGTATAAAAGGAAAGTATGAAATAGAAAATATTATATTTTCACCAGAATTTTTAAGAGAAGGAAAAGCTTTGTATGACAACTTATATCCATCAAGAATAGTAATTGGTGAACAAAGCGAAAGAGCAAAAACATTTGCAAATCTATTAATTGAGGGAGCAATAAAAAAAGATATACCAGTATTGTATACTAATGAAACAGAAGCAGAAGCCATAAAACTATTTGCAAATACCTACTTAGCAATGAGAGTATCTTTTTTTAATGAATTAGATACATATGCAGAAATAAGAGGATTAGATACTAAACAAATAATAGAAGGAATAGGACTTGATCCAAGAATTGGAAATCATTATAACAATCCATCATTTGGATATGGAGGATATTGTTTACCAAAAGATACAAAACAATTACTTGCAAATTATGAAAATGTCCCAAATAATATAATAAAAGCAATAGTAGATGCAAATACAACAAGAAAAGATCATATAGCAAACATGATAATAAAAAGAAAACCAAAAATAGTTGGAGTATATAGATTAACTATGAAAACCAACTCTGATAACTTTAGACAATCATCTATTCAAGGAGTAATGAAAAGAATAAAAGCAAAAGGAATAGAAGTGATAGTATATGAACCAACTCTAAAAGAAACTAAATTTTTTAATTCAAGAGTTATAAATAATTTAGATGAATTTAAAAACTTATCTGATGTAATAATATCAAATAGAATGCATGAAGAACTTAATGATGTAATTGAAAAAATCTATACTAGAGATTTATATAAAAGGGATTGATATTGTGAAAATTGTAAAATATAAAAGTGGTTTTGGAAATCAACTATTTTGACAATAATTTATTTTGAATGGGTAAAAAACAGTTTTAAATTAAATGAAAATTTTATTTTTAGAGACAAATATAGTTTTGATTCTCAAGAATTATAGTTAATGATTTTATATAAGAATTCTATAATAGATAAGAGTAAAATTCATTGGTGTGGAGCTTAGCTAAGAAATCATAACAAATAAAATTGAGATAGTCCCTAAAAAGTGAGTTGTGAATAATACAAATATTGGCATAGCACCAAATAATTGGATTAAATTTTAAGTAAAGAGAGGTATTTGTATGAAAAAAGCATTAATAACAGGTATTACAGGACAAGATGGTTCCTATTTAGCAGAATTTCTTTTAGAAAAAGGATATGAAGTCCATGGAATAATAAGAAGAAGTTCAAGCTTTAATACAGGAAGAATAGAACATTTATATATAGATGAATTAATAAAAGATATGCATAAAGAGAGAAAGGTAAAACTTCATTATGGAGATATGACAGATTCAACAAATTTAATAAGATTAATAAGAGAAATAGAACCAGATGAAATATATAATCTTGCAGCACAATCACATGTTCAAGTTTCTTTTGAAGTTCCAGAGTATACAGCAGATACAGATGGTATAGGAACATTAAGATTATTAGAAGCAGTAAGATTTTTGGGATTTGAGCAAAAAACAAGAATATACCAAGCATCAACATCAGAATTATTTGGAAAAGTTCAAGAAATCCCACAAAAAGAAACAACTCCATTTTATCCAAGAAGTCCTTATGCTGTAGCAAAATTATATGGATATTGGATAATAAAAAATTATAGAGAAGCATACAATATGTTTGCAGTAAACGGAATATTATTCAATCATGAATCCGAAAGAAGAGGCGAAACATTTGTAACAAGAAAAATAACATTGGCAGCTTCAAGAATAAAATTAAGAAAACAAGAAAAATTATATTTAGGAAACTTGGATGCAAAAAGAGATTGGGGATATGCTAAAGATTATGTTGAGTGTATGTGGTTGATGTTACAATACGACAAACCAGAAGATTTTGTAATAGCAACAGGAGAAATGCATACAGTAAGAGAATTTACAACACTTGCTTTTAAAGAAGTTGGAATAGAACTTGATTGGCAAGGAAATGGAATAAATGAAAAAGGAATAGATAAAGCAACAGGAAAAGTATTAGTTGAAGTAGATCCAAAATATTTTAGACCAACAGAAGTAGAACAACTTTTAGGTGATCCAACAAAGGCAAAAACTTTGTTAGGATGGAATCCAACAAAAACTTCTTTTAAAGAACTTATAAAAATAATGGTAAAATCAGATATGGAGTTAGTAAAAAAAGAAGATAAAAGTACAAGAAGTTTTGACTAAAAAATATTGTTTTTAATACTGAGGTGAAATAATGGAAAAAAATTCAAAAATATATGTTGCTGGTCACAGAGGATTGGTTGGATCTGCAATAATTAGAAAACTAAAATCAGATGGTTATACTAATATAATAACAAAAACGCACAAAGAATTAGATTTAACAAATCAACAAGAAACAAGAGAATTTTTTGAACAAGAAAAGCCAGAATATGTATTTTTAGCAGCAGCTAAAGTAGGTGGAATATTGGCTAATGATACATACAAGGCTGATTTTATATATCAAAATATAATGATAGCTTCAAATGTAATTGAAGCATCATATAAGTATGGTGTAAAAAAACTATTAAATCTTGGATCATCTTGTATATATCCAAAATATGCAAAACAACCAATGAAAGAAGAAGAATTATTAACAGGAGAACTTGAATCAACAAATGAACCTTATGCAATAGCAAAAATATCTGCAATAAAAATGTGTAGATACTTTAATGAACAATATGGAACAAATTTTATAAGTGTAATGCCAACAAATTTGTATGGTCCAAATGATAATTTTAATTTAGAAACAGCACATGTTTTACCCGCATTAATTAGAAAATTTTATTTAGGAAAGTTATTAGAAGAAGAAAAATATGATAAAATAATAGAAAATATAAAAAAGTATAAAATAGGATTTAATCTAGATAAAGAAATAGATTTTGATAATAAAGATTCTATACTAAAAGTATTAAAAAAAGTTGGGGTAACAAAAGAAGCAATAACTTTATGGGGAAGTGGAGAAATATATAGAGAATTTTTATATGTAGAAGATATGGCTGATGCATGTGTATACTTAATGAAAAATATAGAAGCCAAAGAAATGAAAAAAGTATCTCTAGACTACTTCGTAAATATAGGAACTGGAAAAGATATAAAAATAAAAGAATTATCAAATTTAATAAAAGAAATTATTGAATACAATGGAGAAACAATCTATGATAAAACAAAACCAGATGGAACACCTAAAAAATTACTTGATGTATCTAAATTAAATTCTTTGGGTTGGAAACATAATATAGAGTTAGAAAAAGGTGTGAAGTTAATTTATGATTGGTTTAGAGGGAGATAAAGATTTTATAAAAAATAAAATTTTAAAGTTCTTTAATTATGATAAAACCACATAGTTGGATATACAAATAGTATAAAAGGGAAATATGAAATAGAAAATAGTATGTTTTCGCCAGAGTTTTTAAGAGAAGGAAAAACTTTGTATGACAATTTATACCCATTAAGAATAGTAATTGGTGAACAAAGTAAAAGAGCAAAAATATTTAAACATATCAAACAAAATAATAAAAGCAATAGTAGATGCAAATACAACACGAAAAGAGACCATATAGCAGATATGATACTAAAAAGAAAACCAAAAACAGTTAGAGTGTATAGATTAACTATGAAAACAAATTCTGATAACTTTAGACAATCATCTATTCAAGGAGAGAAATCAATGAATAAAAAAGAACAATTAAAACAAGAAATATTAGAAAAAACAAAAGAATATTATAATTTAGTTCATAAAAACAAAAGAAAATTTATACCTGGAGAAACTTTTATTAACTATGGAGGACGTTTTTTTGATGAAAACGAAGTAATTAATTTGGTGGATTCATCATTAGAATTTTGGTTGACATCTGGGCATTGGGCAGAAGAATTTGAAGAAAAATTTGCAAGATATCTTAATATAAAATATTGTTCTTTGACAAATTCAGGTTCATCTGCAAATCTTTTAGCTTTTATGGCATTAACCTCTCCTAAGCTAGGGGAGAAAAGAATAAAAAAAGGCGATGAAGTAATTACTGTAGCAGCAGGTTTTCCAACAACAGTAACTCCTATAATTCAATATGGAGCAATACCAGTATTTGTAGATGTAGAGTTACCATCATACAATATAGATGTTACAGAATTAGAAAAAGCATTATCCAATAAAACCAAAGCTATAATGGTTGCTCATACCTTAGGAAATCCATTTAACTTAAAAGAAGTGAAAGAATTTTGTGATAAAAATAAATTATGGTTAATAGAAGATAATTGTGATGCTCTTGGTTCAGAATACTTTATAGATGGTGAATGGAAAAAAACTGGAACAATAGGGGATATAGGAACTTCAAGCTTTTATCCTCCACATCATATGACTATGGGAGAAGGTGGAGCTGTATATACAAATAATTCACTTTTAAATAGACTAATTAATTCTTTTAGAGACTGGGGAAGAGATTGTTGGTGTAAAAGTGGAGTGGATAATACTTGTAATCATAGGTTTAGTAAACAATATGGAGAATTACCTTTAGGATATGACCATAAATATGTATATTCTCATTTTGGGTATAATTTGAAAGCTACAGATATGCAAGCATCAATTGGAGTAGCTCAATTAAATAAGTTAGAAAATATTGTTAATAGAAGGAGATATAATTGGAAGAAATTAAATGAAGGATTAAAATCAGTTTCTGATGTGTTAATATTACCAGAAGCAGAAGCAAATTCCAATCCAAGTTGGTTTGGATTTATAATATCTGTGAAAGAAAATAACAATATAACAAGAAAAGGATTGGTAGAGTTTTTAGAAAAAAATAAAATTCAAACTAGAAATTTATTTGCAGGAAATTTAATAAAACATCCAGCATTTGATGAAATGAGAAAAACAAATACTGGATATAAACAAATTGGGAACTTAAAAAACACAGATTTTATTATGAAAAATACTTTTTGGATAGGTGTTTATCCTGGTATAACAGATGAGATGTTAGACTATATGATATTAAAAATAAAAGAATATATTAAAATTAATAAATAAAAGGGGGTCTTTATGAAAGTAGTACTTTTAGCAGGTGGATTTGGGACTAGATTAAGTGAAGAAACTGTAAACATACCTAAACCAATGGTAAGAATAGGAGACAAACCCATATTATGGCATATAATGAAGACTTATTCAGAATATGGATATAATGAATTTATTGTTTGTTTAGGATACAAAGGTTATGTAATAAAAGAATGGTTTGCAAATTATATGTTACATACAAGTGATGTAACGATTGATGTAAAAAGTAATAGTGTAGAAGTTCATAATAATAAAGCGGAACCTTGGAAAGTAACATTGATAGAAACAGGTCAAAATACAATGACGGGTGGTAGAATTAAAAGAATAAAAGAATATACAAAAAAAGAACCGTTTATGCTAACGTATGGAGATGGTGTTGCTGATATTAACATAGAAGAGCTTGTAAAACATCATCAAAAATCAGGAAAAGCTTTAACTGTTACAGCATATAAACCAAAAGGCAAATTTGGATCTTTGGAAATTAATGAAAATAATGATGTTACTGCTTTTACAGAAAAACCAGCAGGAGATGGAATGTGGATAAATGCTGGATATTTTGTATGTGAACCAGAAGTATTTGATTACATAAAAAATGGAGATAGTACTATATTTGAGAGAGAACCTCTTGAAAATATAGCAAAAGATGGGAAAATGACATCTTTTAAGCATGAAGGTTTTTGGAAACCTATGGATACGTTAAGAGATAATATAGAATTGAACGAAATGTGGGATAAAAATAAAGCTCCTTGGAAAATTTGGAATGATTAGAAATTAATGTTATTTTAATGGAGGATTTTAATGAATTTATTTAATAATATATATAAAGAGAAACGAGTATTAGTTACTGGTCATACAGGTTTCAAAGGTTCTTGGCTTACTATTTGGCTTAAAGAACTTGGTGCAGAAGTTATAGGATATGCGCTTGATCCATATACAGTTAAAGATAATTTTGTATTATCTAAGCTTTCTGATAAAATAGTAGATATTAGAGGGGATATTAGAGATAAAAAAAAATTGGAGAAAGTATTTAATGAATACAAACCTCAAATTGTATTTCATTTGGCAGCACAGCCATTAGTGAGATTGTCATATGAAATTCCTGTAGAAACGTATGAAGTAAATGTAATGGGAACGATTAATATAATGGAGTGCATAAGAAAAACTCCCGAAACTAAAGTTGGAATAATGATAACAACAGATAAATGTTATGAAAATAGAGAACAAATATGGGGATATAGAGAAAATGAAGCTATGGGTGGATATGATCCTTATTCTTCATCTAAAGGGGCAGCAGAAATTGCAATAAGTTCATGGAGAAGATCGTTTTTCAATACAAAAGATTATGAAAAACATGGTAAGGCTATTGCGAGTGTAAGAGCAGGTAATGTAATAGGTGGTGGAGATTGGGCAAGAGATAGAATAATACCTGATTGTATAAGAGCTTTGGAAAAAGGAAACCCTATTGAAATAAGAAATCCAAAAGCAATAAGACCTTGGGAACATGTTTTGGAACCATTAAGTGGATATTTATTATTAGGAGAAAAGTTATTAAAAAATCCTAAAAAATATGCAGAGGGATGGAATTTTGGACCAACTCTTGATTCTATAGTTTCTGTATGGGAAATAGGTAAAAAAGTAATCAAAAACTATGGTAATGGAGAATTAAAAGATATATCTAATTCGACTGCAGTACATGAAGCAAAGTTACTTGCACTTGATATATCAAAATCAAGATTTAAACTTGGTTGGAAGCCAACTTTAAATATAGATGAAACAATAGAGATGACAGTAGAGTGGTATAGAGAATATAAGAATAGAAGTGTGTATAACATGTGTGTAGAACAAATAGAAAAGTTTATAAACAAATAAATAAATGCATATTTAAAATGTATAAAATTAGTTTTTTTAGTAATGAAATGTTAGATAATTTTACATTTATTAAAAACAAATGTAATTAAAGGAGAAGATTATGGAAAAAATTTTAATTACAGGTGGTTTTGGGTTTATTGGTAAGAACCTAATAGAGTATTTATCTAAGCAATATAAAATTGTGGTTATTGATAAATATGTTGATGAACAATTTATAAAAAAATATAATGAAATAAAATATTATGAATATAATTTTTTTGAAAATGATAATATAAAACTAATAATAAGTGATGAAGATCCAGATTATATTATTAATCTTATTTCTATTGTAACTGCTGAAAGGAATATGGATATATTTAATGATATGATACAGGCAAATATTAATATATTTTTGAAACTTTATGAAGCATCAAAAGCTCTAAAAAAATTAAAATTATTTTTGCATTTTGGTTCTGGAGAAGAATATGGCAATATAAAAGCTCCATTTAATGAAAATAACAGAGAATATCCTAATTCACCATATGCTTTAGCCAAACAAATTACTACTAATACTGCTATGATGCTAAATAAAAATTATAATTTTCCAATAGCAGTTGTTAGACCTGGTAATTTATTTGGAAAATACCAAGAAAAAAATAAATTTATTACTTATATTATAAATCAATTACTTGATAATAACAAAATAGAAACAACTTTAGGAGAGCAAAAGAGAGATTTTATTTATGCTTCAGATTTTGCAAATGGAATTAGTTTAATTTTAAAAAAATATGATAATTTTTTAGGTGAAATAGTTAATTTATCGTCAGGTAAAAGTATTTCTTTGAAAAAAATCATACTATTTTGTAAAGATTATATTAAATCGGATTCAGAAATAGAATTTGGAAAAATTCCTTATAGAGAAAATGAAATAATGGATTTTGAATTGGATATAAGTAAATTTAAAAATAGAATAGGGCAATATTTTAATATAGATATCAAAGAAGGGCTAAAAAAGTATATAGAATTATTGAAAGGAGAAAATAAATGAAATATTTGATAAATGGAGGTTGTGGATTTTTAGGTTCTAATATGGCTGCACATTATATAAAAAATGGAAATGAAGTTATAGTTTTTGATAATATGTATAGGTTTGGAACAGAAAAAAATCTTGACTGGTTAAATTCGTTAAAAGGAAATTTTAAATTTATAAAAGGTGATGTTAGAAATATATATGAAATAGGTAAAGTTATTCAAGAAGAAAAACCAGATATAATATTTCATTTTGCAGGTCAAGTTGCTATGACAACCTCAATAGAAAATCCATATATGGATTTTGAAATAAATGTAAAAGGAACTATAAATGTACTTGAGAGTGTAAGAAAATACTCGCCAGAGACAATTGTTTGTTTTTCATCGACTAATAAGGTTTATGGAGATTTAAAATATTTGAATTTTGAGGAAAAAAATTTAAGATATGTATCTAAAGATTACCCAAATGGATTTGATGAGACAATATCTTTAGAATTTCATTCGCCTTATGGATGTTCAAAAGGGAGTGCAGATCAATATATGCTTGATTATGCGAGAATATTTGGATTAAAAACAATAGTTTTTAGACATTCATCTATTTTCGGTGGAAGACAATTTGCTACAAAAGATCAAGGTTGGGTAGGATGGTTTTGCCAGAAAGCTTATGAAATAAAAAAAGGAATAGCAGAAGAACCATTTACTATATCTGGAAATGGGAAACAAGTAAGAGATATATTATTTGGAACGGATTTAATAGAGTGTTATGAGTTAGCTATAGAAAATATTGATAAAACAAAAGGCCAAGTTTATAACATTGGTGGAGGAATGAAAAATAGCTTTTCACTACTTGAATTATTTAAAGAACTTGAAAAAAATCTTGATATAAAAATGGAATATAGAAAATTGCCATGGCGTGAATCAGATCAAAAAGTGTTTGTTGCTGATATTTCAAAAGCTAAAAAAGATTTTGATTGGGAACCAAAGGTAAATAAATATGATGGATTGAAAAGAATGTACGAATGGGTGGAAAAAATAAATGATGTAAAAATAAAATAGGAAATAAAAAATGATTGAATTAGTGATAGTGACAGGTTGTTTTAAATAGTTTTATAATTAAAGAGTTGATAAGAAAAAATATAAATGTAACAATTTTATAAAAGCTGAATGCAAGTAGAAATAGACTAATAAAAGAAATTGAATTATTAAAAGTTTATTATATCGAATAAGCTAATAATGAAATAAAATATAGATATAAATTTAGAGGTATTTTTAATTTCAGAAAAATCATTAATAATAGGTAAAAATTATATAAAATTTGAAGAAGATAGAAAATAAATATTTGTATAAGAATACAGTTGAAAGGAGTATTATTAATTTGGAAATAAAAAAAGGAAAAGTATCTATATGTATAACAACGTATAATAGGCCTAAGTTATTAAGAGAATTATTAGAAAGTATTCTTATTCAGAGTTATCAAAATTTTGAGATAATAATAACTGACAATTCTAATAATACAGATACAAAGGAAATGGTAAAAAAAATAAATTCAAATAAAATAAAATATATCAAAAATGATAGAAATATAGGAATGGGAAAAAATGCATTAAAAGCATTTAGCTATGTTGATGGAGAATTTATGACATTTACTCCAGATGATGATTTGTGGAATGATAAAACTAAAATTGAAAAGCAAGTTAAAGTATTAAATCAATATAAAAATATTAATATTGTTTATTCAAATGCTAATTCAATTGATTATAATGGAAATCTTCTAGATGAATTTACTTCTATTTACGATGGAGATGAATTTAAGTTTTTAAAAGGTGAAGAATTACTTCCTGGAAATGAAACAAATTATTTTTTAAATATACTAACAGCGATGTTAAGAAGTGAAAAATTATTAAATATATTTAAAGAAAGTTATCACTATAATTCTGAAGAATATCTTTGTTATTATATTGGAGCAACTGAAGAAGAAATAGGATTTATAAGTAAGAAATTAGTGTCGTTAAGAGAAGCAGAGCATTACAGAGAAGTAGAAAAAAAAGGTAAAATATTAGATTGGAAGAAAGCTAAAGATATAAGAATAAAACAGATATTGGGAATATTTTCAACATTAATCAATCTTCATCCAGAAACTTGTGATAAGCTTGAAACTCAAAAGGTTGAATTATTTTTAGGGAAACATATTATAAGAACGGCAATTCAGAGTAAAAATATATTTTTAATTTTAAAAACAATATTTAGTGTATATTTATTTTTTGAAGAATTTTCTCTTATAAAAGCTTTTAAATTAAAAAATAATAAAAAGAAAAGTTTTGGATAGATCAGGAAAATAACTGGTAATCAGCTAAACAAGATAATTTTTTTTGTTGCTAATTGATGTGAAATATGATATCTAGAACGAGTAAATTCTCTAAGAGATTCAAATCGTCTAATTTATCATTTTTAGGCCAATTAAGAATCTTTCTGGTATTAAAAACATCAGAAGGCGCAAAAAAAAATAATTCATTAAACCCATGAGCTTTAAGAAAAACAAAAATATTTTTAGAATAAATACCAGTAGATTCTAAAGCAAAAGAAATGTCCTTATCTTTGAAAATAGAAACAAGTTTCTCATAACCATCAATAGAATTATCAACAATACCTTTGATAGAATTATCAAAAAAATAATCAAGTTTATCTTTTGAAACATCAATACCAACAAACAACATAGAAACACAACCTTTCAGATTAAAATTATAACTCTGGGTATATAAGAAAAGAGTCTCGTTGTATGTAAGAGCTAAAGCTCATTCTCCGGTAACAATTCAACTTATATACCAAAGTTAGTCAGACTTTTTTGGGCACTTTACATGCAAAAGGTGACGGAATTACTATAGTTAAATAATAACTCAGAGTTAGAATACTTTTTTTAAAATAAATATCAAATTTATTAATTATAAGAAAATATTATACACGAAGGAGTGAAGGGATTGAATAAATCAAAACCGTTAGTTAGCATTTTGATCCCAGTTTATAATAGAGAGAAAATTATATTAGAAACAATACAAAGTGCAAAAAATCAAACATATCAGAATATTGAAATAATTATAGTAGATAATTGTAGTACAGATGCAACTTATGAAGTAGTTTATGATGAGGCACGAAAAGATAGCCGTATAAAAGTTTTTCAAAATGAAGAGAACTTAGGACCAGTTAAAAATTTGAAAAAATGTTTAGAACATTCTAAAGGAGAATATATAAAAATATTATGGTCAGATGATCAAATATTGAAAGACTATATTGAAAAAACCTTACCATTTTTAATGAATGATATGGAAATTGGTTTTGTTTATACTTCCACTATTATTTACTTTGAAACTGGAAAAAAAAGAAAAGCTTACAGATTTGGAGAAACTGGAGAATATGAAACTAAAGCTTTTATTAAAGCTCATTTATTTGGAGAAAAGCACGTTCCAGTATCTCCTGGTAATGCTTTATTTAGAAGAAAAGATATTGAAAAAAATCTATTAATTGATATTAACAATCCTAAAAAATTAGATTTTTCAAGATATGGTGCAGGAAATGATCTTTTAATTTTTCTTTTTACAGCAGCTTCTTATTCAAAATTTGGTTTTATTGATGAAAATTTGTCGTTTTTTAGGGCTCATAAAAATTCTTTTTCAATAAGTTATGATTTGGACGAATATTATACTTATTCAAAAGTTTATTTTCTAAATAATATATTTAAATATAAAAAAGATCGAGAAGTATATTTTCAATATTTGTATTGCCTAAAGAAAAAATATAGATATATGATTGAAGAAGAGCAAAAAAATAAACTTTTGTTTTTTAAATGTAAATATTTGTTTATCTATTTATTTAAAAAATTTATACAAAAATTAAATAAAAAAATAAGGAGAAAATGATTTGAAAAATAAAATCATGCATGATACAAAATGGAATATAATAGATTTCGTAACTAGTTTTATAATAACTTTTATAAACATTAAAGTTTTAACAAATGGTTTAGGAATAGAAGGATATGGATTTTATTCACTTTTTATTGGACTTATTGCGACATTTGGTTTGGTTGATATTGGAATGGGAATGGCTGTTTCAAAATATTTGAGCGAGTTTATTGGGGAAAAAAAATATAAAGATGTAAACCAAGTTATTGAAATAGGGATATTGTTTTATTTAACTTTAGGAATAATAGTATTAATTATTACTATTATTTTTAAAGAAAACATTATTAATTTTCTGAATTTATCTGGCTTTTATTATAAATTAGGATTGAAATTAATAGTATTATTGCCAATTTTAATGACTTTAAATTTCATAATTCAGATATTAAATAATATATTAGTTGCATTTGAAAAATGGAAAATAATATCAAAAATTAATATTATTTTTAAAGTAATAAATTTTTTAGGAATATTATATATAATGTTTAACTTAAAACAAAAAATACTTAAAATTTTTGTATTAATATTAAATATTTTTATAGTTAAATTGATAGTTTCTATAATTATAATAAAAAGAAATTATAATTTTTTTGAGTTAACAAAAATAAGAAAAAATTTATTTTTTAAAATAATAAATTTTTTGAAGTATAGTTTACTTCAATATTTATTTTCAATTTTATTAGGACATTTGGATAATTTGATTATAGCTAAATTTATTAATCTAAAAACAGTTGGAGTTTATCAGATTAGTTTGAAAGTTATGAATTATTTATATTCTTTTTTAATAAATATATTTAAAATTATTTTTCCTAAAATATCAAAAATGCATGGGAAAAAAAATTTATTTAAAATAAATCAATATATAAAAAAAAATTTATTTATATGTGAAACAATAAGTATAGTTCTTTCTTTATTTACAATTGTTACATGGAAATTTTTTATAGGAGCATATTTAGGATCAAAAATAGCAAATAGCACTTATATTTATATTTTAGTTTTTTTAGTATTTTTAATAATAAGAGCTCCAGAAGTGATTTATTATTACTATTTTAATGCTATAGCAAGACCAAAGGTATTTGCTTATTCAAGTGTAATTGAAGGATTTTCTAATTTTGCTTTATATATTCTATTAATACCTAAATATGGGGCGTTAGGAATAATATTAGGACATATTATATCTAAATTATTTGGGGTTATATTCTTTTTTATCTATTCAAAAAAATTAAAAGAGTATTAAGGAGACGAAAAGATTGCTAATTATTAAGAATTTTTATAACATATATAATAGAGTATTAAAAAAGCAGATAAAAAAAAATATATTTAAAACAAAATATAAAAAAAATGTATTAATTTCATATATTATAGATCCTTTTATAAATAAAGAAAAAAATATAAAACATTCAAATTGGAAAGAATCTAGGATTATAGCAAAACTATTTTCAAATCATGAGTATAATGTAGATGTTGTACATTATGATTATTTTAAAAAAATTAATTATTCTAAATATGATTTAATTTTTGGTTTTGGAGATTTATATGAAAAAAGCTTTTATGTGGAAGATTTTAAAGGAAAAAGAATATACTATGCGACAGGAGCACATGTTAATTTTCAAAATAATGCCGAATTATTAAGATTATTAAATTTAAAAAAACGTAAAAATAAAACATTAAGACCAAGAAGAATTGTTGAGAAAAACTGGAGTTGCTCTACAGTATTATCGGATGCAATATTTTGCATTGGAAATGATTGGACTATATCAACTTATAGTAATTATTTTAAAGAGAGAATTATGAAAATTCCAGTATCATTAGGAGATTTTTCATTTGAAAAAATAGAGAAAAAAGATATCGGTACTGCAAAAAAAAATTTTTTATGGTTGGGTAGTACTGGATTGGTGCATAAAGGATTAGATTTATGTATTGAGGCGTTTAGTAAAACTAAAGATTTAAATTTACATATATGTGGGGCATTTGAGGAAGATTTTTTTGAGGTATATAAGAATGAGCTGAAAAAAGAGAATATTAATTATTATGGTTTTTTGGATATTAATTCTTCTAAGTTTAAAGAAATAATCAGTAAATGTTCTTATTTAATATATCCTACATCCTCTGAAGGACAAGCTGGTTCAGTTATTATTGCGATGGCAAATGGATTAATACCAATAGCAACAAAAGAATGTGGAATAGATATAGATAAATATGGAATATTAATTGATGATATTAGTATAAATAAAATTATTGAAATAATTAAAAATGTTTCAATATATAGTGAAAAAAAAATAGAGAAAATGTCAAGTTTATCGTATGACTACATAAAAAATAATCATACAATTGAAAAATTTGAAAAAATTTTTGATGAAAGCTTAAAATATTTTTTTAAAGAGGAATAATGTTGAAAAACAATTTTATTTAGTATTATTACAATATGTTACAATAGTGAGGGCATAATTGAAAAAAAATTAGAATTAGTATTAAATCAAACTTATAAAAATATATTTTTAATTTTAAAAACAATATTTAGTGTATATTTATTTTTTGAAGAATTTTCTCTTATAAAAGCTTTTAAATTAAAAAATAATAAAAAGAAAAGTTTTGGATAAATTTTAGTAAAGTAACATTCCTGTAAGTAAAAAAAATAGGAGTTGAAAAAAAGGAACCTCCCAGTAAAATATAAAATGTAGAGCAAAACTACAAATATTTTACAAAAAGGGAGGAACCTCAAATGAATTATACACAAAATGAAAAAATAAAGCAAGTAGATGAAAAAACATTGGTAGTAGGAGTAGATATAGCAAAGGAAACACATTACGCAAGAACATTTGATAATAGAGGAATAGAGTACGGGAAAGTAATAAAATTCAACTCAACGAGAGAAGGATTTGAAAGTTTTGAAAAACAAATAAAAGAAATAGCCGAAATAATAGGAAGAGAGAAAATAATAATAGGAATAGAACTAACAGGGCATTATTGGTATACATTAGCAAATTATGTAAACAAAAAAGAAATGATGTTAGTACAAGTAAATCCATATCATGTAAAAAGGGCAAAGGAATTAGAGTGCACCAAGTAAAAGTGATAGAAAAGATCCAAAAACAATAGCGATGTTAGTGAAAGATGGAAGATATGCAATACCATATATACCAAGAGGAATATATGCAGAGATAAGAAAAGCATATGATATAAGAGAAACAATAAACAAAAAACTATTAGTAGTAAAAAACAGGATACAAAGATGGGTGGCAATATATTTTCCAGAATATAAAACAGTATTTAAAGGAATATATGGAAAAGCATCAATAATAACACTAGAGGAACTCAGTATACCGCTAGAAATAATAAAATTAAATGCTGAAGAAATAGTAGAAATATGGCAAAAAGGAATAAAAAGAGCGGTAGGGATAAAAAGAGCAAAAAGTTTAATAGAAGCAGCAAAAGAGACAATAGGGATAAAAGATGGATTTTCAATGGTAAGAAATTAAAGGATTAATAGAAGAATATAAAAAATTAGAAAATGATTTAAAAGAAATACAAGAAAAATTGAGTACGATGGTATATACAATACCAAGAATAGAAAATGCACTCAGTATAAAAGGTGTAGGGATAATAACCATTTCAGGATTTATCGCAGAAGTAGGAGATATTAAAAGATTCAATCATCCAAAACAAATAATAAAATTAGCTGGATTAAATTTGAAAGAAACTAGCTCAATGAGGTAAAATTACAATAAATAAAAGGGGAAGAAAGAGATTGAGAAGTTTATTGTTTAAAGCAATACTTCCAATAGTAGCAACAAATAATGAATTTAAATTAATGCATAACTATTATACAACAAGAGTCAAAAATCCATTGAAAAAGAAGCAATCATTGATAGCGTTAATGGGTAAATTAATAAAAATAATATATACGTTAATAACAAAAAAATAAAATATGATCCAAAAAACTAATAAATGATGTGCATGGAAACAAAAAAACACAACTTATAGATGCATAAAAAAAGTATAAATATCATTAACTAAAAAGTGAGTTAAGTCGGCATAAATTTATCCATACTTCGACAATCTCAGTAACCATAAGGGTACGACCCAGCAAAGGAGCAGAGCCGACAAACCACCTCAAGGATAAGCAGAACGAAGGAATTTTGGCCATTGAGTCAGTGAGATATGGGAGGGTAAGCTACCTGAGATAATGTGGTTACTGAGCTTGTCGAAGTATGGTTGATACTATGACCTAATATTAATTTATTAATGGTAATTACTACCATATCCATAATTTACTAATTTTTTGAAATACCAAAAATTCTTTTATTGTTTGTTATTTTAGTGCATTTTTTTATTGTTTGTATTTCTATGCATTTTCATGAAATATTGGTTTAATCATATTTTATAGAGGGAGTTATGAGAATAATATGTATTTAGTATATGGAATGAATTTTATAAGTTATTATATAGGAAAAATCGGGATTGCTGATTTAGTATTGATATTGTTATGTTTTTTTAGTTTATATAAAATAAGCTACATAAAAATACAAAAAAAAGATATATATGTTTTTTTCTTTTTGTTTATTAATTTTATGGTTTTCATAATTAATGTGGACGAAAAATATCTAGCAATAGATAAGTTTTTTTTTGCTTATATGAAGTTAATAATATATTTTATGTCCTACCTAATTATTCCAAATTATTTATCAAAAGATATAAAACAATTTAATAAAATAATAATTAATTCATTAAATTTCATATGTATATATGGATTGTATCAATTTATAGCGCATTACTTAAATATTGGATTACCATATGGACTAGATACAAGTATGATTTCATATGGAATATTTAGAATTAGAAGTATTTTTAGAGAGCCATCATTATTCTTATTTCCAGTAATGATGTACTTATATTTGATAGTAAGTGGAGAAAAATTAAGCAAAAAAAATCATATTATTATAATATCAGCTTTTATTTTATCATTTTCTTTAACTATTTATGGATTATTATTTATGGGAATATTTACTGTTATAGCAATGAAAAAGCTAAAATTAAAATATAAATCTTTGGTTTATGTGAGTATAGTTATTTTTTCAATAGTTTTATATTTTTCTGTACCTTTAGTTCAAAATCACATAAGGAATTTGATAGTATTACATCCTTCTTCTTCAACAACTCGATTAGTAGGAGGAATTATATTTGCACTGAAAACACCGTATTATGGAGTAGGAATAGGAAATTTAGAAAATTACTATAACATAAAAATGAATAATGTAATAATAAAATTATTTACCACAGGAGGAGCTGTTAATAATATTATAGCAGTAATAAAAATTGTTTCTGGTTATTTAGGGTTATTCGTATTTATTTGGTATTTAATAAAAAAATATTCGAAAGTTTGTAAAGATTATTTGATTATTTTATTTGTATCATTTTTTACATGGGGAAATTTTAATTCAGCAGGTTCTTTCTTTTTTTTAATTATGTTAGAAATATTGAGAATTAATAGAAAGGAGAAAATAAAATATGAGAAATGTATTGGTAAGTGTAATAACTGTTAGTTTTAATAGTATAAAGACGATAAAAGATACTTTTGAATCAATTTTACTTCAAAATTATAAAAATATTGAGTATATTGTAATAGATGGAAAGTCTAATGATGGTACTGTGGAAATAATAGAAAGCTACAAAGAAAAGTTCATGAATAAAGGAATTAGTTTTAAATGGGTTAGTGAAGAGGATAAAGGAATCTATGATGCGATGAACAAAGGAATAAAAATGGCAATAGGGGAATTAATAGGAATTATTAATAGTGATGATTGGTACGAAAAAGATATAATTGAAAAGATTGTGAATGTGTATGATAAACATAATAAACCTGATATTATTCATGGTAATTTAAAGATATATTCAGAAAGAATGATTTACAAAGAGACAAGATATCCTAAAGATAAATATTGGAAATTGTGGGAAGGAATGATAATAAAACATCCGACTTGTTTTATTAAAAAATCTTTATATGAAAAAATAGGATTATACAATACTAAATATAAAATATCTTCAGACTATGATTTTTTACTTCGTGCGTATATAAATAAAGCAAGAATAGTATATTTTAATAATATAATTTCTCATATGAGACTTGGTGGAGTAAGTAATGAATTTTTAAAGGATTCTTGGGTTGAAGTTGAGAGAATTGCAATTAAAAACGGATTAAGTAAAATTATGGCAAAATATTATTTTTATAAAAAAATATTAATAAGAAAAATAAAAAAGATGGTGAAAAAATGTGCGTTGAAATATTAATGTCAACTTTAAATAAAAGATCAATAAAGGATTTATTTTTAAAAGAAAAAAATATTAATAGAAATATTGTTATTATTAATCAAACAAATCGAAAAGGCAACTATATAGATGGAAAAAATAATATTAGGATGTTGAATTATAATGAAATGGGAACTTCAATTAGTAAAAATAGAGCAATAAATAATGCTAATTGTAATCTTTGTATACTAGCTGATGATGATATTTTTTACGTTAAAAATTATGATGAGATTATAGAAAATCAATTTAGTAAAAATCTGGATGCTGATGTACTTACGTTTCAGATAAAAACTCCAGAAAATAAATTATATAAAAATTATATAAAAAAAGAAATGTGGCATACAAAAAGAACAATAACAAAAGTATCAATGATTGAAATAGCTTTTAGAAGGAATAGAATTTTAGAGAAAAATATTAAATTTGATCTTGATTTTGGAATAAATTGTAGATATAAAAACGGAGAAGAAAATATATTTCTTATGGATTGTATAAAGGAAGGATTAAAGATAAAATATATTCCTATACCAATTGTAATACATCCAGATGAAAGTTCAGGGAAGATAATTGATGAAAAAGGATTATTTGCAAGAGGTGCATTATTTTTTAGGTTATTTAGATATAAAGCGTTATTAGTAAATTTAGTTTTTATTTTAAAAAAATATAAAATGATAAATCAAAAATTATCAATATTAAATGCAATAAAAGCAATTTATAAAGGAACTTTTGATTATATAAAATTAATAAAAATGAGGAAAAAAATTTGAATCAAATTTATGATAATTGGGAAATGATTATAGTTGATGATTACTCAACAGACAATGGAGTAAAAATTGTATAAGAATAAGAAAGATAATAGAATTAAATTAATAAAATTGGAAAAAAATAGTGATGCAACAGTATCAAGAAATATTGCTATAAAAGAAGCGAATGGTAAATATATAGCATTTTTAGATAGTAATGATTTATGGAAGAAAACAATTATGAATTTACTTTTACTAAATATCAACTAATTAAAGAGAATGGAAAAAAACTAGATAAATATATAGAGGTTCCAAAAACATTAAATTATAAGCCGGTATTATTAAAAAATCCTATAGTGTAATATATAATGCTGAAAAATTGGGTAATTTATATAGTCCTTAATTAGAAAAAGATAGGATTATGCTTTGTGACTAAAAATTTTAAAAAAATGTGTGGTGGGGAATGGATTAAATGAAAATTTGGATTATTATAGATTAAGAAAAAGTTCTATTTCTTCAAATAAAATAGATTTAATAAAATATCAATGAAAACTATATAGAGAAATTGAAAACATTAAAATAATAATAGAAGGAATAGTATTATGTTAGATTGTCCATTTGTAGATAAAGATATAGAAGTGTATTTAATCCACAAAAAAATAAATTTATAATAAATATGGACTATTTAATTTGAATTATAAAATAGCAACTGATTATGAAATAATCTTTGACTTTTATTGAAACATAAAATATCAATACAATTTTTAGATAAGTATATTATAAAAATGCGAATTGGAGTAGAAAGCAATCAAAGTATTAAAAATATTATAAAAGTAAACATGGAATGTTATAAAGCGTGGAAAGATAGTGGAAGGATAATGGATTAAAAGTTTCAAGCTTCTTTAGTATAAAAAAATAATGCTTATTTGAATTTAAATTGAAAGGAATAATTTTTGCGGGTGGTAGTGGAAACGAGGCTTTATCCTGTAACTAAAGCTATATCAAAACAGATACCCCCTATTTATGACAAGCCTATGATCTATTATCCTTTATCTGTATTTATGCGCAAGGATAAATGAGAATTTAATTATATCAACTCAAAAGGATTTGCCTATATTTGAAGAATTATAGGCAAAGAGTTTATTGAAAATGATGCTTATGTTTTAATATTAGGAAATAATATATTTTATGGACATGGATTTACTGGTATGATAAAAGAAGTAGTTAACATAAAGAAAGGGGCTACTATATTTGGATACTATGTAAACAATCCAAGAGAGTTTGGTATAGTGGAATTTGATGAAAATAACAATGTAATTTCATTGGAAGAAAAACCAGAAAATCAAAAATCAAACTATGCAGTACCTGGATTATATTATTATGATAATAGTGTAATTCAAAGAGCAAAAAAATTAACTCCATCTGCAAGAGAAGAAATAGAGATAACAGATCTAAATAGAGAATATTTAAATGAAGGTAAATTAAAAGTAGAATTACTTGGAAGAGGATTTGCATGGCTTGATACTGGAACATATGATGGGCTATCAAATGCAAATGAATTTGTAAGAACAATACAAAAAAGAACTGGATTATATATATCTTGTCTTGAAGAAATAGCTTATAAAAACAAATGGATAAGTAAAGAACAATTAATAAAATTAGGAAAAGAAATGGAAAAAACAGAATACGGTCAATATATTTTGAATATTGCGGGTGAAGTCAAATGACAATATTAGTAACAGGAGTAGCAGGATTTATAGGAAGTAACTTTTTGCATTATTATTTATCTAAGTATAAAGATAGAAAGGTAATAGGTGTAGATAGTTTAACTTATGCTGGAAACTTGGAAAATATAAGTGGTTTAATGAATAATAAAAATTTTGAATTTATAAAAGCAGATATAACGGATGCACAAAAAATAAATGAAATATTTGAAAAGTATGAAATAGATGGAGTAATAAACTTTGCAGCAGAAAGCCATGTAGATAGATCAATTCATGATCCACAAATATTTTTAAAAACAAACATACTAGGAACACAAACTCTTCTTGATGCTTGTAAAAAGAGTTGGTACAAAGATGGAAGATGGAGTAAAGATAAAAAGTATCTTCAAATATCAACGGATGAAGTTTATGGAGCATTGGGAAAAACTGGATACTTTACAGAAGAAACACCTCTTGATCCCCACAGTCCTTATTCTGCAAGTAAAGCAAGTGCGGATTTAATAGTAAAAGCTTATTATGATACTTATAAAATGCCTATGAATATAACAAGATGTTCAAATAATTATGGTCCTTATCAATTTCCAGAAAAGTTAATACCATTAATGATAAATAATGCATTAAATCATAAAGAGTTACCAATATATGGTGATGGAAAACAAATAAGAGATTGGCTTCATGTTTTTGATACTTGTATTGCAATAGATTTAGTATTTGAAAAAGCAGAAGTAGGGCAAGTGTATAATATAGGTGGACACAATGAAAAAGAAAATATATTTATAGTAAATAAAATAATAGAAACACTCAGAGAAAAAACTGGTGATGAAAAGATAAATGAATCTTTAATAAAACACGTAGAAGATAGACTCGGTCATGATAGACGTTATGGAATAGATCCATCTAAGATAAAAAGAGATTTAGGTTGGGAACCAACAATAATGTTTGAAGAAGGAATAGTAAAAACAATAGAATGGTATTTGAATAATCAAGATTGGATGAAGTCTGTAATCTCTGGTGATTATTTGGAGTTTTATGAAAAGAATTATAAGTAATTAATAATTTTATGAATAGAGGTATAAATTTGTGAATGGTAAAGAAGAAAATAAAAAAGATTTTTTAAAAAGATTGGCAGGATTTTCAATAGGGCCAATTGTTGGTGCTTTGTTAGGGTTTATAAGCGTTCCCATTCAAACGTGGTTGATTGATCCTTCTCAATTGGGAAAGACTGCTATGTATTCCATGGCTTTTGGATTGACTTCTTTGTTTATTTATCTTGGAATTGATCAATCTTTTGTTAGAGAATATAATGTTGAAAAGGATAAAAAAAATTTGTTGTGGAATAGCTTTTTAATTCCATTTATTTTTTCAATAATAATAATGTTTGTTTATATATTTTTTTATGAAAGTATTTCTAAATTATTATTTAATTCAATTGAAAGATATATAATAAGAATATTGGCTTTTTCACTGCCTTTTGCCGTTGTTTTTAGATTCAATACGTTGATAATAAGAATGAAAGAAAAGGCAAGGTTATTTTCTTTCATACAAATAACGAACAGACTCATTGGATTAATTTTATTAATAATAATTCTTTTATTTTTTAATAAAAACTTTAAAGGTATTATACAAGCGCAGTTTTACACTTTAATCTTATCTGCAGTCATAACAACTTTTATAAATATAGATGATTGGAAGTATAAATTCAAATTAAATAAAGTATTAGTAAAAAAGATAGTTTTGTTTGGTCTTCCATTAATTCCAACGTCAATAATGATGTGGATATTAAATTCAATGGATAAGATAGCGCTTAGAACGTGGGCAGATTTTAATTCTATTGGTTTATATTCAGCGGCATTTAAGATAGCTGGTATTGTAGGAATAGTTCAGCAGGCCTTTGCAACCTTTTGGGCACCAACCGTGTACAGATGGTATGAAAATAATGTTTCAACAAAAAAGTATGAAATGGTGAGTAATAAATTAAACAGTATTTTAACTACATTATTTGCATTCATTGTTTTATTTAAAAATCAAATAATAATGATTTTATCTCCAGAGTATAAAAGTGCAGCAATAATAGTTCCGTTTTTAATGTTTTATCCAATTATGTATACTTTATCTGAAACAACTCAAATGGGTATAGGTTTTACAAGAAAAACACATTATAATATATTAATAACTATTGTAGCAAGTGGAATGAATGTTGTTGGGAACTTTATTTTAGTTCCAAAGTATGGAGCTGTTGGTGCTTCTGTTTCTACTGGTTTGTCTTATATTGTCTTTTTTTGGTTAAGAACTTTTATTTCAAGATTTTTATGGAAAAAGTTTGATATAAAAAAGCATGCAATATCTATATTTTTAATGATTATTATGGCTTTTTTTTCGGTTATTTACAACAATTTTTTTATTGATTTATTTTTATTTATGATTATTATTGTTTATAATATAAAAGATATTCTTTGGGGTTTTAGTTTGATAAAAGGAATTTTAATAAAAAATAAAAAGTAAAATTTAAAAAGCCCAATGACTTTGTCATTGGTTTTTTTATTTATGTTTTTAAATTAATATTGAGTGATTATTATTGTTTAGTTTTATTAAAAAATTAAATAATTAACTAAATTTAAGAAATTTATGATTAAAATTTGGAATTTTAAATAAAAAGTAGTAATATTGTAGTGTTATTGTAATTTTTAAAATACAATAATATCATTATAAAAGGAGGGTTTTTTATGGAATTAAAATGTGAATATTGTAAAAAAGAATTATTGAAAAAAGGTACTTTATCTTTTTATGGGAAAAAAGATACTAGAACTGTTTCAGAAATAAGAGTAACTCATACTGGAACTTGTGATAAAAGCATGGAAGAAAAAATGGTAAAAAATAATTTTATTAATCTTGGAAATTTAGGCTTAAATGAATTTTATGATAAAGACAAAGTATTTATTACATTGTTAGATATATTAGAAAGAGTTGTAGTTAGTGGATTAAAAATAGAAGTTCAAGCATTTAATAAATTAAGAGAAATAGTAGAATTTTTAAATCATTAAATATTAATATTTTAAAAAAATAGTTATATAAAAAGTAAAAAAAGAGGCTACTTAAATAAATATATTTTTTATCCTCTATATTTTCTTTCGATGAGTTCAGTTGTTTTTCTCATCGAAAGTTTTTTTGGAATTTATTTCAAAATATAATATTATTTTTTTATGATCATTGAGTTTGTTTGTTTAAATGTGGTTATTGATTTTGTTAAAATAAAAAAATATGAGAAATTCTATAAAAAACAGGATGAAATCCTGTTTTTTATATTTTAAAGTAGATTTGATATAATAGCATATAAAGAATTAGAAATGAGGAGATGATTCTATGAAACGACTGCCAATAGGACAAAGTGATTTTAAAACTATAATAGAAGAAGATATGTACTTTGTAGATAAAAGTTTGTTAATTAAAGAAGTTATTGAAAGTGGTAATGTTTTATTAATAACAAGGCCAAGAAGGTTTGGGAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAATAACGATTACCTCTTTAAAAACTTAAAGATATACAAAGAAAAGAACATAATAGAAAAACATTTGAACAAACATCCTGTTATATACATCACCTTTAAAGATTTAAAGTCTAATAACTTAAAAAAAATGCATGACTTATTAGCTATGGAACTTTCAAGGTTGTATATAAAACATGAATATGTTTTAAAAGTATTAAATAAAAGAGAAAAAGCTGTATTCAATAAAATAATGGATAGAGAAGCTTTAGATGCTGATTATGAAAACTGTATAAGAAGTTTATCTGAATATATGGAAAGATATTATGGTAAAAAGGTAATAATATTAATAGATGAATATGATACTCCCATTCAACAAGCTTATTTACATGGATACTATGATGAAATAATATCTTTAATTGGTAACTTATTTGGAATGGCTTTAAAAGATAACGTATACCTTGAAAAGGCAGTTCTTACTGGTATAACAAGAGTTTCTAAAGAAAGTATCTTTACTGGTGTGAATAACTTAAAGGTTTCTACTGTATTGAATGAACTATTCAATGATAAATATGGATTAACTAAAGAAGAAGTAGAAGAAACATTGAAGTATTATGAACTTGAATATGAAGAAGATGAAGTTATAGATTGGTACAATGGATATAACTTTGGTGGTGTTGAAATTTACAATCCTTTTTCTATAATAAACTTAGTAGATGAAAAAAAGATAGGTCCATACTGGATGAATACGAGTGGAAATTATTTAATAAGAAAGCTAATAAAAGAAGGAACTGTTAATATAAAAGATAGTATAGAAAAACTTTTGAATGGAGAAAAGATTGAAAGTAAAATAAATGAAACTATGGTTTATGGTGATTTGCACATAAATTCAAATGAATCAATATGGACATTATTTTTATTTAGTGGTTACTTAAAGTGGATAAAAGAAACAAAAGAAGGTTATAGAAGATACACACTTGCTATTCCAAACAAAGAAGTAAGAATGTTTTATGAAGATACAGTATTATTAATGTTTGAAGAAGAAAATATACAATTAGATAATATACTAATAAACTTAATAAATGGACATATAGAAGAGTTTAAAGAAGACTTTCAAAAACTAACTATGAACACATTGAGTTACTTTGATGTAAGTGGAGAAGAACCAGAAAGGTTTTATCATGGATTAATACTTGGAATGAGTGTTGGCTTAAAAGAAAAGTACATAATAAAGAGTAATAGAGAAACAGGGCTTGGAAGAGCAGATGTTATTTTAATTCCAAAAGATAAAACAGATAAAGGAATAATAATAGAGTTTAAAAAATTTTATAAAAATGAAAAGACACTATTAAATAGCGCTCAAAATGGATTAAAACAAATAAATGAAAAAAGGTATGAAGAAGAGATAAAAAATTATGGAATAAATGACATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAGGTTGAAATTGTTAGTAATTTGGATAAAGAAGAAGAAAATAATGAAAGAAAAGATTTAGAGTATGAATTAAAGTTAAAATCTATAGAAACAGCAAAAAAATTAAAAGAAATGGGATTAACAAAAGAACAAATAATTCAAGCAACTGGTTTGTCTATAGAAGAAATAAATATATTGTATAAATAACACAAACTATTAAAAAAAGAAAAAATGGATTCATAAATAAAGGATGGTTTTCGATGTGAAATAAAGTTCCCTTCGACAAGCACATGGAACGAGAAAAGAAGATAGGGACCTACTCCTACGACACGCTTAGAGGTGGGAAGAAAGTTATAAAAATGAGGTGCTAAAAGTGAAAAAATTACCCATAGGAAAACAAGATTTAAAAAATATAATATTAAATGAATATATGTATATAGATAAAACAAAATATATTTATGAATTAGCAAGATCAGATGTGCCAATATTTATATCAAGGCCAAGAAGATTTGGAAAGAGTCTAACCATATCAACATTGTATTATTTATTTAAAGGAGAAAAAGAATTATTTAAAAGATTATATATATATATGATAAATGGGAATGGAAAGGATATCCTGTAATTAGGCTTAGTATGAGTGAAATGTCGATAAAAAATGAAGAGGAATTAGAATATGGAATATTATTAAGATTAAGATTAAGAGAAATAGGAAAAGAATATGGAGTAGAAATTAATGAAACAATAATAAAGTATGCTTTTTCTGAACTAATCCAAAAGTTATCAAGGAAAGAAAAAGTAGTAGTGTTAATAGATGAATATGATAGACCAATATTGAATCACATGAATGATGGAAAAGCAGAAGTAATGAGAAATATATTAAGAGAATTTTATGTAGTAATAAAAGATTCTGATCCATATTTAAGGTTTGCAATATTAACTGGAATAACAAAATTAACCAAAACAGGAATATTTTCATCATTAAATAATTTAAATGATGTAACTATAAATAAAAAGTATTCACAAATGATGGAGATAACCCAAGAAGAGTTAAAAGAAGGTTTCAAAGATCATATAGAAGAAACAACAAAAGAATTGAATTTAAATAGAAAAGAGTTATTAGAAAAGATAAAAGAACATTACAATGGATTTTCCTTTGATGGAATAAAAAGTGTGTACAATCCATATTCATTATTAAAGTTTTTTGATGTTCAAGAATTTAAGAATTATTGGATAGAAAGTGGAACTCCTCAATACTTAATAGAATATATTAAAAAACACAAGGTACAAACAGAAGAAATAATAGGAGAATATGTAACAGAAACGAGTTTAACAACTTATGAAATAGAAAATGCTCCTCCAATAGTATACTTAATACAATCTGGATATTTGACTTTTAAAGAAAAACATGAATATTTGGGATACAAGGTGGATTATCCCAACAAAGAAATAAAAGAAAGTATGTCAGAATTATTATTAACAGGAACATATGAAATAGAAGAAAATGCACATGTAAGAAAAATATAATATTAGCACTGGAAGAAAAAAAGATAGAAAAAGTAATAGAAGAAATGAAATTAATAATATCAAAGATACCATATAATTTATTTGAAGAAACAGAAAGATGGTATCACAGCATAATATTAACGATATTATGGTCGTGTGGATTAAATGTAAGAGGAGAGGTATTAGGGAATTTGGGAAAAAGTGATATAGAAATAGAGTATAGAGGAGAGGTATACATAATAGAATTAAAAAAAGCAAAACCAGAAGTGTGTATACAACAAATAAAAGAAAAAAATATAAAAGTGCAAAGATAGTGGGTATAGAAATAGATACAAAACAAAGAAATATAACAAATTATATAGTTGAGGAAATACATTGAAAATATAAGTAAAACAGATTAAAAATATTGCTTTAAAATTATTAAAGATTAATAAAAATATGAAAAGGGTAATAACCCTGTCAAAGAAATATTTTGGAGGTGAATAAAGATGTGTAGAATAAACCCAAGAGTAGATTTTGCATTCAAAAAGTTATTTGGAACTGAATCAAATAAACAATTATTAATAGATTTAATAAATTCAATAGTATCAGAAGAAGATAAAGTAAAAGACATAGAAATAAAAAATCCATACAATGAAAAAAACTTTAAAAATGATAAACTTTCAATATTAGATATAAAAGCAGTAGATCAAAAGGGACATTGGTACAATGTAGAAATGCAGATAATAGATCAAGAATATTATGATAAAAGAGCACTGTATTACTGGTCAAGAGTCTATTCAGGACAACTTTTTGCAGGAATAAACTATGATAATTTGAAAAAAACTATTAGTATAAACATATTAAACTTTAAATGTTTAGAAGAAGAAAATTACCATAATGTATATAAAATAGTAAATATGGAAAGCAAAAAAGAATTCATTGATCATTTAGAAATACATTTTATTGAGCTAGAAAAGTATGATGAAAAAATGAGTACCATGTTAGATAGATGGGTAAATTTTCTAAAAAAAGCGGATATATATGAAAAAGATAAATTACCAAAAGAATTAGAAGAAGTAGAAAGTATAAAAAAAGCTGTAGAATTATTGGATGAAATGTCATTAAATTATGAAGAACGAGAAAGCTATGAAGCAAGATTAAAGTGGCTTCGTGATGAAGAAGCTGCAATAAAAACAGCTGAAAATAAAGGTTTTAAAAAAGGTTTAACAAAAGGTATTGAACAGGGAATCGAACAAGGGATCGAACAAGGCATTGAACAAGGTGTTAAAAAAGGAAAACTTGAAATGGCAAAAAAAATGATAAATAAAGGTTTAGATAAAAACATAATATCCGAACTTACTGGTTTGTCTATGGAAGAAATAAATATATTGTATAAATAAACCCTTAAATAAACTATTAAAACAAAGAAAAAAAGGCTTCATAATAAAGGATTGTTTTCGATGTAGAATAAAGTCTTAAAAATATTTGATTCGGTCATTGAGCTTGTCGAAATGCGAAATGACAGATTAAAAATTAAAAAATATAATAAACTCTATAAAAAACAGGATGAAATCCTGTTTTTTATATTTTAAAGTAGATTTGATATAATAGTGTAAAAGATATAATTAGAAATGAGGAGATGATTCTATGAAACGATTGCCAATAGGACAAAGTGATTTTAAAACTATAATAGAAGAAGATATGTACTTTGTAGATAAAAGTTTGTTAATTAAAGAAGTTATTGAAAGTGGTAATGTTTTATTAATAACAAGGCCAAGAAGGTTTGGGAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAATAACGATTACCTCTTTAAAAACTTAAAGATATACAAAGAAAAGAACATAATAGAAAAACATTTGAACAAACATCCTGTTATATACATCACCTTTAAAGATTTAAAATCTAACAACTTAAAAAAGATGCATGATTTATTAATTTCTGAACTTTCAACTTTGTATATTGATCATAAGTATGTTTTAGATGTTTTAGATAATGAAGAAAAAATTATATATGATAAAATAATGGATAGAGAAGCTTTAGATGCAGATTATGAAAACTCTATAAGAAACTTATCAAAGTACATGGAAAGATACTATGGTAAAAAGGTAATAATATTAATAGATGAATGTGATATTCCTATAAAACAAGCATATTTGTATGGATACTATGATGAAATAACTCCTTTAATTGGAAACTTATTTTCCTCTGCGTTAAAAGATAACGTATACCTTGAAAAAGCAGTGTTAACAGGTATAACTGGTGTAACAAAAGAAAGTATATTTTCTGGATTAAATAATATTGAAGTTTCAATCGTACTGAGTAATTTATTAAATGATAAGTATGGATTTACAAAAGAAGAAGTTGAAGAAACACTTAAGTATTATGAGCTTGAATATGAAGAAAAAGAAGTTATAGATTGGTACAATGGTTATAACTTTGGCGGTGTTGAAATTTACAATCCTTTTTCTATAATAAATTTAGTAGATGAAAAAAAGATAGGTCCGTATTGGATGAATACGAGTGGAAATTATTTAATAAGAAAGTTAATAAAAGAAGGAAGTGCTGAATTAAAAGATAAAATAGAAAAATTAATAAATGGAGAAGAAGTAGAGTGCGAAATAATAGAAACTATGGTTTATGGTGATTTAAACTTAAATAGTGAAAGCGCAATTTGGACATTATTTTTATTTAGTGGTTACTTAAAGTGGACGAGTAAAAAAAGAAAAAACAATATAACAATGTACAAAGTAAAGATACCAAATGAAGAAGTAAAAGATTTTTTTGTACAAACAGTTAGAAATATGTTGAGAGAATCGAATATAAGTATTGAAAATATGCTTTTGAATTTAAAAGTAGGAAGAATAAAAACCTTTACAGACCAATTTAAAGATTTAACGATGAACACATTGAGTTATTTTGATGTTAGCGGAAAGGAACCAGAAAGATTTTATCATGGACTAATACTTGGAATGAGTGTTGGTTTAAAAGAAAAGTACATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCTGATGTTATTTTAATTCCAAAAGATAAAACAGATAAAGGAATAATTATTGAGTTTAAAAAGTACAATAGAGATGAAGATAAAAGTTTAAAAGACAGTGCAAAAAATGGACTAAAACAAATAAATGAAAAGAAGTATGAAGAAGAGATAAAAAGTTATGGAATAAATGATATTATAAAAGTTTCAATAGTTTTTGATAAAAAAGAGGTTGAAATTGTTAGTAATTTAGATAAAGATGTTGAATTAACAGAGATAGAAAAAGTAGCAAAGAATATGCTTGAAAATGGAGTTGATATAGAATTTATATCTAAAATGACAAATTTGTCTATTGAAAAGATAAAAAATATAAAAAATATTTTATAAATTTTGGAGAATAAAAATGTATTTTTAAAAATATTGGCATAATTTTCAATAGGGCCAATTGTTGGTGCTTTTTTAGGGTTTATAAGCGTTCCTTTCAAACGTGGTTGATTGATTCTTCTCAATTAAAGCTTCTATGTATTCCGTGGCTTTTGGATTGATTTCTTTGTTTATTTATCTTGGAACCAAGCTTTTATTAGAGAATATAATATTGAAAAAGATAAAAAAAACAAAACACAAGAGTGAATTACTCTTGTGTTTTATTATATCTCGAATTTTTCTTTAAATTCATCTTTTTTAAATACATAATAAGCATGAAATAAAATTTTATTCATTTTTTCAAAGCATTCCTTTGTTGGTTTTTCAGAAAAAATTAAATATCCTTCATAAACTTCTATATTTTCAATGTAAGCATGAAAATATACTCCGTATTTATCTCCAAATGAATAAACTTTTGCAGTTTGATCGTCTGCTCCATCAAAGTTATATTTTTCTACTTCATTTGGTATATTATATCCAATATGTTTAAAAAATTTTTCACTGTACATAGAATCTCTAAATAAAATAGGGTTTTTTTGATAAATAATAGTTCCTTCTAAAAATTGACTTTTCTTTACAACATCTATTATTTCATTTGCTTTTTCATGTTGATTAAATATAAAGTTTATATCTTTGGCATGAAAGGTTACTATTGATTTCATTTTATCACTCCTCTATCCAATTTCCATTTCTAAATATTGGTTCTATTTTTCCATCTTTTGTTATTCCATCTATATTCATAGAATCACTTCCTATCATGAAGTCAACATGTGTCATGCTTGTGTTTGCACCTTTTTCTTCTAATTCTTTTCTTGTCATATTAGGTCCATTTTTTAAACATAAAGGATATGCTGCACCTATTGCCAAATGACAAGATGCATTTTCATCAAACAATGTATTGTAAAAGATTATGTTTGAGTTTGAAATTGGTGAGTTTTGAGGAACTAAAGCAACTTCACCTATATAATGTGATCCTTCATCTGTTTCTATTAATTTTTTCAATGTTTCATATCCATTCTTTGCAGAAAAATCTATTATTTTTCCATCTTTAAAGGTTAATGTGAATTTTTCTATTAAATTTCCACCATAATTTAATGGTTTTGTTGAAGTAACAGTTCCATTTATTCCTGTTTTTAATGGAAGAGTAAATATTTCTTCTGTTGGCATATTTGGAATAAAGTATACTCCTTTTTCTGTTGTCAATCCTCCACCAACCCACACATGATCTTCTGGCAATTCTATTTTTAAATCTGTTCCTGGAGCTTTGTAATGAAGAAACTTATAGTTTTTTGAGTTCATCATTGCAATTTTATTTTTTAATGTTCCTATATGCTTTTTCCACTCTGATACAGGATCTTCAGTATTTACTCTTGTTACTTCAAATATTTTTTTCCATAGTTTTTCTTCATCTGTTGTTCCAAAAACTTTTTTACTCCATTCTTTTGTTGGAACGGATACTACTGCCCAGCTAACCTTTCCTTTTTGTGTATATTCTCTAAATTTATTCATGGCTTTTGCTGCAGCTTTATTTGCATTGGCAATTTTTTGTGGATCTACATCTTTTAATAAATCTGGGTTTGATGCCGATATTGATAAAAATGCAGCATTTTGTTTTGCAAATTCTTCAAATCCTTTTGCTTTCCACATTGGAAATTCATTAAAGGCTTCATCTGGTGCCATTTTATATTTTGTATAAGTTATTTCTTCATCATGCCATTCAATATGCACATTTTTCGCACCATTTTCATATGCTTTTTTTACAACTTCTCTTACAAAATCAACTGCTACTATCGGTGCATTTACAACTAATGTTTGATCTTTTTGTATATTAATAGCTGTTCTAACTGATAATTCTGCATATTTTTCTAATAATTCTTTAAAATTTTCCATAACTCACCCCATTTATAATTATTATATATATAATTATACATCAAATATTTGGTTTTTAAGTATAAAAAAAAGCCTTTCTTTGAAAGGCTTTTTAAAATCCAACTTTTGATAATATTACTTCTTCTAATTCTCTTGTTTTTTCTTCTAAGTCTTTTACTTCTTTTGAATATTTTTCAACAAAGTCATCGTCTTTTATAGAGTCAAGGTTTATTTTTACATTGTATAATGCTCCTAAAACTGCTGTTCTTGCAAGCATTGCAGAAACTGCTCCATCTGTTATTGCATTTTTGTTTCCTTTTTCAACAACCACTTCTGCAAGTTTCATAACTTCAAAACAACTTTTTGCAACATCAAATGGTACTTCTGCTGCTTTTTTCATTGAAGTTTGAATTGCTTCTTTTCTTTTTGCTTTTTCTTCATCTGTTGATTTTGGCATTCCAAAAGCTTTCATAACTAAATCAAATGCTTCTGAATCTTTTTCAATGTCTTTTAAAAGTTTATCTTTTAATTCATCTGCTTTTATCTTTATTTCTTTTATTTCTTCTTCTACTTCGGCATATTTTTTCTTCCCAATCGTTAGTCCTGAAACCATTGAGGATAGTGCTGCTGCTGTAGATCCAGCCATTGCAGATACACTTCCACCTCCTGGAACGGGATCAGATGAAGCTACTTTGTCAATAAATTCATTTAATTTCATTTCTTCAAACACTTTTATCCCTCCTCACTATACCATCTTTTATAACTGTTTCAATTATATTTACACCTGTATGATATGGTAAAAATTTATAAGATGGATATTCTAATATTATTATATCAGCTTTTTTGCCTTTATCTATACTTCCAATTTCTTTTTCTAATCCAAGTGCTGCTGCTCCATTAATTGTTAATGCCGTTATAGTTTCTTCTATTGTCATATTCATATAGATCGTTGCTAAAGATATCAATAGTGGTATTGAGTTTGAAAAACATGATCCAGGATTCATATCTGTTGCAAGTGCAACACTACATCCAGAGTCTATCATTTTTCTTGCATTTGCAAAGTTTTCTTTTAAACTAAATGCTGTTAATGGTAATAGTGTTGCTATTGTAGAGCTGTTTGCAAGTTTTTCAATTCCCGCATCAGATGTTTGTAATAAATGATCGGCAGATACTGCATTTATTTCAGCAGCTAATTTTGCTCCGCCAAGTTCAACTATTTCATCTGCGTGTATTTTAGATTTTAATCCATATTTTTGTGCTTCAAGTAATATTTTTTTTGATTGTTCTACTGTGAATACATTTTTTTCACAAAAAACATCACAAAACTTTGCCAAGTTTTCCTCTTTTACCTTTGGCAACATTTCTTTTATGAGTTTTTCTACGTATTCATCTGATTTACCTTTATATTCTTTTGGTATTGAATGTGCTCCTAAAAATGTTGGAATCACATCAATTGAATGGATTTCATTTAATTTTTTCATTACTCTTAATTGTTTTAATTCTGTTTCTAAGTTTAATCCATATCCACTTTTTCCTTCTACTGTAGTAACTCCAAAGTTCATCATTGAATCTAAACGTTTTTTACCTAGATTTACTAATTCTTCTTCTGTTGTGTTTCTTGTGTGTTTAACAGAACTTGCAATTCCTCCGCCTTTTTCCATTATTTCCATATAGGTTTGACCTTTCAATCTCCAATCAAACTCTTCTTCTCTATATCCACCAAATACAAAGTGTGTGTGTGAATCTACAAATCCGGGAAGAACACTCTTCCCGGTTGCATCTATAACTTTATATTCTTTTTCATCTACTTTTATGTTTGTTCCAATGTCTGTTATTATACCATTTTCAATTACTATTGTTCCATTTTTTATAACTTTAATATCGTTCATTTCTTTTCCTTTTTTAGAACTATATCCGGAACACGTTACTATTTCTGCAGCATTTTTTATTAAAAGTTTCATTATTATTCCATTATCCTTGATTCAAGTATTTGGTCGGTTGAGAAGTTTTCTATTCCAAGATAATATTCAGCAACATCAATGAGTGCCATCATTGGAACGAGTCCTATTATTTCAGTTCCTACTATACTAACGCCCCATCTTTTTGCTTCAAATTTTATCATTTCAAATGATTGATAGAGTGATGTTTTTGAAAAGTCTGTCATGTTCATTGAAATTTGAACTATATTTCTATCTTTTAATTCAACTCCCATTGCTTTTACGTATCTTAATCCTCCACCTATGTATCTTACTTTTTTTGCTATTTTATCTGCTATTGATAAGTCATTTGTATTTAGGTTTACGTTAAATGCAACGAGTGGTGGTCTTGCTCCTATTGCTACTACTCCTGCTGTAGGGTGTATCTTTTCTTCTCCAAAATCTGGATGCCATTTTTCTTCTTTTACCTTTTCAGCCATTCCTTCAAATTGACCTTTTCTTATTTTAGAAAGGTTTTGTCTGTGTTTTGCACTTGCTGATTTTTCATACAAAAATACAGGTAATTGATATTTTTCCCAAACTTCTTTTGCAACTTCTTTTGAAAGTTCTATACATTCTTCTGTTGTTGCATTTTTTATTGGTATGAAAGGTACAACGTCTGTTGCTCCCATTCTTGGGTGTTGCCCATGATGTTTTGTCATATCTATTTCTTTTATTGCAACTCCTATTGCTTCAATTACTGCTTTTTTCAATGGTTCTGGTTCTCCAACTACTGTTACAACTGATCTGTTGTGATCTGGATCAGATGAGTAATCTAATAGTTTTACTCCTTCTTTTCCTCTAAATGCATCTACTATTTTTTCTACTTTTTTTAAGTCTTGTCCTTCACTAAAGTTTGGTACACATTCTATTATTTTATTCATTTTATCTCTCCTTTTTATAAATCAAAGTCTTTCATTACTTTGTTTATTAAATCTTGATTTGGTATGTATGGTATTGTTATGTGATTTTCTGTATATGTTTTATTGTATTCAATACATGTTTCTATTGAGTTTTCATTTCTTGCCCAGTTTCTTCTTGCTACTCCTCCCATAACATCCCATGGAATTGACATTTTTAATATGTTGTCTACTCTTTCACTTCCATCTAAAACCATTCCAAATCCACCATTTATTGCTTTTCCAATTCCTACTCCTCCACCATTGTGAAGTGCAACTAAGCTCATTCCTCTTGCAGCATTTCCTGCAAAACATTGTGTTGCCATATCTGCCATTATATTTGATCCATCTTTTATGTTTGATGTTTCTCTGTATGGTGAGTCAGTTCCACCTGTATCATGATGATCTCTTCCAAGCATTATAGGTCCAACTTCTCCATTTCTAACCATTTCATTGAATTTTAATGCTATGTTCATTCTTCCTATTGCATCTTGATATAGTATTCTTGCTTGTGTTCCAACTACCAATTTATTTTTTTCAGCATCTCTTATCCAAACCCAGTTATCTCTGTCTTGACTTCTTCTATTTGGATCTATTAAGTCCATAGCTGCTTTATCTGTTTTTCTTAAATCTTCAGGGTTTCCTGATAAACAAACCCATCTAAATGGTCCATATCCGTAATCAAAGAGCATTGGTCCCATTATATCTTCAACGTATGATGGAAAGATAAATCCTTCGGTTGTATCTACTCCATTTTTAGTTATTGTTTTATCTCCTGCATCATAAACTGCTCTCATGAAACTATTTCCATAATCAAAGAAATAAGATCCTTTATCTACAAGTCTTTTTATTACATGATAATGTCTTATTAAACTTTCATCGACTTTTTTTCTGAACTCTTCTTTATTTTCTGCAAGCATTTTTGTTCTTTCATCAAATGTCAACCCAGCTGGGCAGTATCCTCCATCATATGGTGCATGACATGAGGTTTGATCTGATAATAAATCTATGTGTATATTATTTTTGTCTGCATATTCTAATAAGTCTACTACATTTCCATAGTAAGCTATTGCTATACTTTTTTCATTTTTTTGATATTCTTTAGCTATTTTAAATGCTTCTTCGCAGTTGTCTGTTACCTTTGAGATCCATCCTTGATCGAGTCTTGTTTGTATTCTTGATCTATCAACTTCTGCTATTATTCCAACTCCATTTGCAATTTCAATTGATTTTCCTTGAGCACCACTCATTCCTCCAAGTCCTGAAGTTACATATAACTTTCCTTTTAAATCTCCATCTTGAGGTATACCCAATTTTAATCTTCCTGCGTTTAACAATGTGTTGAATGTACCATGAACTATTCCTTGCGGTCCTATATACATCCATCCGCCTGCTGTCATTTGTCCATAGTTTGCAACACCCATTGCTTGAGCTTTTATCCAATTTTCTTGATCGTCAAACATTCCAACCATTAATGCATTTGTTATTATTACTCTTGGTGCTAATTTGTGTGATTTAAAGAGTCCAAGTGGGTGTCCTGATTCTATAACTAAGGTTTGTTCATCTGTCATTACTTCTAAGTATTTTTTTATTAATCTGTATTGCATCCAGTTTTGACATACTTGACCAGTTTCACCATAAGTAACTAATTCATATGGATAAAGTGCCACATCAAAATCTAAGTTGTTGTCTATCATTACTTGAAATGCTTTACCTTCTATTGTGTTTCCTTTATATTCATCAATAGGCTTTCCATATAATTTTCCTGCTGGTCTGTATCTGTATCCATAAATTCTTCCTCTTGTCATGAGTTCTTCCATAAATTCTGGTGCTAATACTTCATGCAATTCTTCTGGAACATATCTTAAAGCATTTTTTAAAGCAATTTCTATTTCTTTTTTTGTTAATGTCAACTCTCTTTTTGGTGCTCTTCTTATTCCTTCTTCAAACTTTGGATATTCTGGAAGTACATTGTCTAATTTTATAGTCATAGCTTTTGAAATATCACTATTCATACTATTTCCCCCTTTTTTTATTTATATTTTTATTATATCATTCATTGAATAAACCTGTAAAATTATGTTTTAACCAATTAATAGTATTTAGCCTTTTTTGATTAAACAAATCATTATTTTACTAAAACTACCATGATTTATACTACAAAAAAACATATTTTTATATCTATAATTGTTAAAAGATAGTAATATTGATAATTAATGCAAAAAATTTTAAAAATTGAAATAGATGGCGATTAATCCTTTTAGAAAGTAATTAATGGGGTTATACTCGTTTAAAATACATTAATGTGGGGTAGAAAATATATTATTAAAAATGTTATTATTTTATTATACAAACAAACACAGAGGGAGGTTTTATTATGTATAGAGTTGCCGTATGGGGCTTCGGTGCAATGGGTAGTGGAATCGTTAGAAACATTATAAGTAAATATGAATTAAAACTCGTTGGAGTTCACGATGCAAGAGTAGATTATATTGGAAAAGATGTTGGTACATTATTAGGTTTAGAAGAAGTAGGCGTTAAAGTTCATGATAATCCTATGAAAATGATCGATGAAACTAATCCTGATTTAGTTGTTATTGCAACAAACTCTTTTGTAAGTGTTGTAAAGGATCAAATTTTATCTGTAGTAAAGAAAAATGTAAATGTAGTGACAATAGCAGAAGAAATGGCTCACTCTTTTTATACACATCCAGAAGAATCACTTGAAATTGATAACACAGCAAGAAGACACGGAGTTACTGTTTTAGGAACTGGTGTTAATCCTGGATTTGTTTTAGATACATTGGTAATTGCTTTAACTGGAGCATCATTAAATGTTAAAAAGATAAAAGCTGCAAGAATAAATGATCTTTCACCATTTGGACCAACTGTTATGCAAACACAAGGCGTTGGTACAACTGTTGAAGAATTTGAAAAAGGTATAAATGATGGTTCAATTGTTGGACATATAGGATTTGAACAATCAATTCACATGATCGCTGATGCTATGGGTTGGCACATAGATAGAATTGAACAAGAAAGAAAACCAATAGTTTCAAATGTATACAGAGAAACAAAGTATGTAAAGGTTGAAAAAGGCATGGTTGCTGGATGTAATCACACTGCAAAGGCTTATATGGGTGATGAATGTGTAATTGAACTTGAACATCCTCAACAAGTTCTTCCTGAACTTGAAGATGTAAATACAGGAGATTACATTTGGGTAGAAGGAAATCCTGATCTTTCACTTTCTATAAAACCTGAAATTCCTGGTGGAAAAGGAACTATGGCAATAGCAACTAATATGATTCCTGCAGTAATAGAATCAGAAGCTGGATTAATGACTATGTCCGATCTTCCTGTTCCAAGAGCTTTAATAGGCGAACTTTATTAAAAAATAATGGGTCGGGAAACCGACCCTTTTTTAAAATAGTGAGGTGAAAAAAATGAGTGCAAAAAAAGGTGATTGGGTACAAATACACTTCATTGCATTAAAACCTGAAGAAAGATCACCAAGACTTCCTGAAGATACTAAAAAAGTTCCTCTTGAAATAAAAATAAAGGGATTTCTTGAAAATGATTCAGCTAATATAGGAGATATAGTTAAGATAAAAACAAATGTTGGAAGAGTTGTTGAAGGTAAATTAATTTCCATAAATCCTGTTTATGAACATAACTTTGGCGAACCTGTTCCAGAACTTTTAAAAATTTCAAATCAGTTATGGGACATTTTAGAAGGTGATTCAAAATGAATACTTATGAAGAAGTAATGGCAAGAAAAAATAAAATAATGAAAAAGTCTGTTGGAGTGGATTATTCAAAGTATGAACAAGAAGGCATTGCTTTTGATTATGAAAAAATGATGAAAGATGCTGGATATACTATTGAAGAAATGAGAAAAATACAAAGTGAAACTGGTGTTGGTAATACACCTTTAGTTGAACTTAAAAATATAAATAAATTAATAAAAAAACTTGCTCCAAAAGGAAAAGGTGCAAGAATTTTTGTAAAGGATGAAGAAAAAAATCCTTCTGGATCATTTAAAGATAGAAGAGCATCTATAAGTGCTTATAGAGCAAAAGAACTTGGTTATAAGGGCGTAATGGCTGCCACAAGTGGAAATTATGGAGCTGCTGTTGCTTCACAAGCTGCTAAAAGAGGTTTGCGTTCTATAATAGTGCAAGAAGCTTTTGATTCAAGAGGTGTTGGTCAACCAGAAATACTTGAAAAAACAAGAGCCTGTGAAGCTTATGGTTCTGAAGTTGTTCAAATGTCTGTTGGACCTGAATTATTTTATTATTTTTTACTATTATTAGATGAAACAGGATATTTTAATGCATCTCTTTACACTCCTTTTGGAATTAAAGGTGTAGAAACTCTTGGATATGAAATAGCAATACAATGTAAAGAATTAACAGGAAAGTTCCCAGATGCAGTTGTTTCAACTCATGCTGGTGGCGGAATAACAACAGGAACAGCAAGAGGTTTACAAATGGCTGGAGCAAACAATACAAAAGTTATTGGGGCTAGTGTTGATTTGAGTGGTTTACACATGGCTTCCGATACTGCATTCAATAAAAAATCTTTTACAACTGGGCATACAGGTTTTGGAATACCTTTTGCAACCTTCCCAGATAGATCAGATGTTCCAAGAAATGCTGCAAGAGTTTTAAGATATATGGATAGATATTTATTAGTAACTCAAGGAGAAGTATTCTATATGACTGAAGCACTTGCAAATATTGAAGGTATGCAAAGAGGTCCTGCAGGAAACACATCTTTAACAGCTGCTTTTGCTCTTGCTATGGAAATGAATGAGGATGAGGTAATAGTTGTAAATGAAACAGAATATACAGGAGCAGGAAAGTTACCTTCAGCTCAATTAACTTTTGCAAAGAAAAATGGTATAGAAATAAAAGTAGGAGATCCTGTTAAAGAAGATAAACCTGGTGAAAAAATAGTAATACCAGAACATCCATCAATGATAAAATACATAGAATATCCTATGGAAAAACTCAAAAAATCTTACTTAAAGAACTTAATAAAGATGGAAAATAAAACAGAATTTTCTGATTTTGAATATGAATACCTTGAAAAAGAATTAAAAGCAGATAAAAAAACCATTGAAAATTATATAAATGAACTAAAATAAAAACACACAACACACACGAACAGGAGGTAAAAAATGAAAGAAAGAATTGATGATTTTAAAGAAAGATCAAAACATCTTCAAAATATGACAGATGAACAACTTGAAAAATACTTTTGGGAATTAGTTGAAAAAACTGTAAATCCAATGGTAGAACTTGCAGAAAAACATACAACAAAATCAATAGAAAGATCTGTACTTTTAAGAATGGGGTTCAATTCATTACAAGCAGCTGCTCTTGTTGACAAAATCTTTGAAAAGAACTTACTTTCAAAAGGAGCAGGACATGTAATATGGAAAGTAGCAAAAAATAATAACCTTGATGTAATTGAAGCAGGGAAACAAATGATAGAAGGAAAGTATTGGGAAGAAGCTGTTGAACTTTTCAAAGGGGGCGAAAAATAATGGATTTAAAACCAAATGAAAAGTTAGATGTAAATGAAATATTAAAAGATTTAGAAAGTTACGTTCCCCGAAGAAAAGGATGGGCATGGAGAAAACATGTTGATGAAGCAAAAAAACATGATTTTACATACTATCAAACATCTGAAGATTTAAAAAACTCTGTTCCACTACCATCTGCTCATTACTTTGGAAATATTGATCCACAACCAGATGAAGTAATAACTTCAGAAATAGCTTCTGGAAAGTTTGAAGAAGACATAAGAAGAATGAGAATGGCTGCATGGCATGGTGCAGATCATATAATGGTTATAAGAACACTTGGTCAAAGCCATATTGATGGTTTAATAGAAGGAACACCTGAAGGTATAGGTGGAATACCAATAACAAGAAAACAATTGAGAGCTTCAAGAAAAGCTTGTGATTTAATAGAAGATGAAATTGGTAGACCTATTAATTTTCACAGTTATGTTTCTGGAGTTGCTGGCCCTGAAATAGCTGTATTATTTGCTGAAGAAGGAGTAAACGCAGCTCATCAAGATCCACAATACAATGTTTTATACAGAGGAATTAATCCTATAAGATCATTTGTTGATGCAGCTGCTGCAAAACATGTAATGGCATCTGTTGATATGCTTCAAATAGATGGTGCTCATAATGCAAACGCTTCTGCAAAAAAGGCTTGGAATGTTATGCCTGAATTAATAGTTCAACATGGTATAAACTGTATGTTTTCTGTTAAAGCTGGTATGAAAAAAGATTTAATATCTTTATCAACAGTTCCACCAACAACAGTTCCATCACCAGAGTTTAGAATGAATTTAATCTATGCATTGACCTTAAGAGAAGTTATGAGAGATTATAAGTTTAGAGCACAAATGAATACAAGATATATAGAAGCTGATTTATTTGATGCAACAAGAATTCATACATTGAATACAGTCCTTTCAAGATTAACTTCAGCAGATATACAATCAACTATTACACCAGATGAAGGTAGAAATGTTCCATGGCATATAAATTCTATAAGAGGTGTAGAAACTGCTAAACATGCTTTAATATCTCTTGATGGAATCAAAAAATATGTAAAGATAGATGAAGAAGCTGTAAGACCTGAAATAAGAGAATTAAAGATGAGAGCAATATTAATGCTTGAAGAAATTCAAGAAATGGGTGGATACTTTGAAGCTGTTGAAGATGGTATTTTTGTAGACAATGGTAACTATCCAGAAAGACACGGAGACGGCATTAAAAGGCCTAAGAATGGCGGTATAGGTGCAGGAACAATTGTTCCAAGAGATGAAGATTACTTTGCACCTGTTTCAGCACATTTTGGATACAATAAATTACCTGAAGGTATAGAAAAACCAGAAGATGCTATTGGCGGAGATACGCTTCATAAACCAGAAAAAATACAATATATAGATGAACTTGATGAAAATGACAATGTAAACACAAGACTAAAAGAAGTAAATGAAAATAGAGCAAAAGGTTTAATAAAACCAGAAGTTGAATGGAGTTATGATGGAGTAATTCAACTCGATATGACAATACCAGATACACCAGAATACGCTGAAGCTGCAGCAATTGAAATATGTAAAAAAATGAACCTTGAAGAAATTCAAGTTATAAGTAAAACCGTACTTCATCCAACGGAAGGTACATACGTTGAATTGAGGGCAAAGGTTCCATTCTTTGTAAAAAGAGATGAATTAACCTTACCTAAAAAACCAGATTTACTCGAAGAAGATGTATTGTTTGATTTCTTTAAAAAGCATCCAACAAAAGTAGTAGCAGGAACTGTAGGAAATGATGAACACAACGTTGGTATGAGAGAAATACTTGATATAAAACATGGTGGAATTGAAAAGTATGGAGTTAAATACACATATCTTGGAACATCTGTTCCTCCTGAAAAAATGATTGACGCTGCAATAGAAACAGGTGCAAGTGCAATACTTGCTTCATTTATAGTAACACACAGCGATGTTCATGTAGAAAATATGAAAAAACTTCATGAACTTGCAATTGAAAAAGGTATAAGAGATAAAGTTTTAATAATAGTAGGTGGAACACAATTAAATAATGATATAGCCGTAGAAAATCATATGGATGCTGGATTTGGAAGAGGAACAAAAGGAATTCACGTTGCAACTTATTTATGTAAACAATTACAAAAATAAAAGCGAGCTTATGCTCGCTTTTTTTACTCAACTTCATCAAGATACTTTAGCTCTCTACCAACAAAGACCATCACTACTTTTTTTAATGGACCATTGAACTCTTTGTTTATGGTTTTTTCATACCTCTTTATTTGATTTACTGCTTCTTTTATCTTTTCTTGATATACTTTTTCTGTATAGTCTTTCTTTTTTATGTATTTTAATTCTATTATTGCATTGTAGGGTACTTCTTCATATCTTTTAAACATTGCTAAGTCTATGTATCCACCTTCTACTGGATACTCGCTTTTAACGTATGCCCATGGTGTTAAGATTAAATAACTGAATAGTAGCCTCTTTATGTGCTTTTCACTAAAGCTTTGAAAGTCTCTGTCTGATAGCTTTTTCAATACATTTTCTATTTCATTTGCAAATGGGTTTATGTTTCCATCTATTACTATCCTTTTTACTGCAAGTTCTAACTTTTCTGTATTTATATAACTCTTTGCTCTATCTTCTATTGATTCTACAAAGTACTCTGAATATAACTTTTTCATTGAATAGTTTGGTATCTTTAAGTATGTATAGAAGTTTTCTTTTTCAAAGGTTAAAAATCCTAAATAAAAGAGTAAGGTTTTTATATCTTTTATATCGAGTTTTCTTTCCATGTTAAAAGCTTGAGTTAATACTTCAATTTCTGTTTTTGAGTTTAATAGTATTTCATTCAAAAGTTCATTTACAACTTCATGACTATCTTTTTCTGTATTTATTCCAACGATTTCACCAAGTTTAAATAAATTTTGAATCTTTTTATAGTCACTTGCTATGTTCATATCTATTACATCTTTTGGTTTTCTTTTTTCTCTGTTGTATTCAGAGATGAAGTATAAGACCATATCGCTGTTGTAAACCTTTTCACTTGCACGTTCATTGAACATGTATCCATTGTAGCTAAACTTCATGTCTTGTAAAATATCATCATTTATTTGATACTCTTTGAGAATATCTTTGACTTCACTTTCAGTAAATCCCATCATTTCATTTAACTCTAAGGTTGTTGACATGTTTTTTGAGATGTTGAATCCACTCGTTAAACTATCTAAGGTTATTGGCGCTACTCCTGTTATGAATAGTCTGTCTATAACTGATCGTGTTCCTTCTTTTATTACTTCATAAAACTTTCTAACAAAACCTGTTTTACTGACGATATTTTTAAATTCATCGAGTTTAAAACTTAAAAGTTCATTTGCAAAGTGGTCGTATTCGTCTATTAATAAGTAGATTTTTGTTTTTAAGTTTAATTCTTTGTATTGATTTATAAAATTATTTAATAAATCAGCAGGTTCTTTTAAATCTATATTTAATTTTATTTTTAAATTATAATGTTTAATAAAAAAATTCAAACTATTAAAAACCTTATTTTTAAATCCATACTTTAATTCTTCTTTACTGTCTGTATTTAATCCAGAAAAATTAAACTCTAAAATATGATAACTATTTTTTTTAGGTGTTGGATGTTTTTGTATGTATAAGTCTTTAAAGATAGTATCAAACTTATCTGAATACTTAACATCATAGTATTTACTCATAGTGTCAAGCCACAAACTTTTACCAAATTTTCTTGGCCTTAAAAATAATATATAGGATTCAGGCATATCTTCAAGTGTTTCTATATACTTAGTTTTATCTACATAGTAAAAATTTTCAGTTTGTATTTTTTCAAAGTTTTGAAGTCCATACGGTACTTTTTTCATTTTGATCACCTCTGTTTTATTATAACATATCATATTAAATAAATTTCTTTTCAAAGTAATGAAGCAATTTGGAAGGACTAACAAATATTATTTTAATACTAATTTTTATAAATTTTTTAGAATCTCGTTTGTAATAGTATAAATATAAATATAAATGGTGATTTTTTTAATCACCATTTTTTATATTTTACCCAACTTCATCAAGATACTTTAACTCTCTGCCAACAAATACCATCACTACTTTTTTTAATGGCCCATTGAACTCTTTGTTTATGGTTTTTTCATACCTCTTTATTTGATTTACTGCTTCTTTTATCTTTTCTTGATATACTTTTTCTGTATAGTCTTTCTTTTTTATGTATTTTAATTCTATTATTGCATTGTAGGGTACTTCTTCATATCTTTTAAACATTGCTAAGTCTATGTATCCACCTTCTACTGGATACTCGCTTTTAACGTATGCCCATGGTGTTAAGATTAAATAACTAAACAGTAGCATCTTTATGTGCTTTTCACTAAAGCTTTGAAAGTCTCTGTCTGATAGCTTTTTCAATACATTTTCTATTTCATTTGCAAATGGGTTTATGTTTCCATCTATTACTATCCTTTTTACTGCAAGTTCTAACTTTTCTGTATTTATATAACTCTTTGCTCTATCTTCTATTGATTCTACAAAGTACTCTGAATATAACTTTTTCATTGAATAGTTTGGTATCTTTAAGTATGTATAGAAGTTTTCTTTTTCAAAGGTTAAAAATCCTAAATAAAAGAGTAAGGTTTTTATATCTTTTATATCGAGTTTTCTTTCCATGTTAAAAGCTTGAGTTAATACTTCAATTTCTGTTTTTGAGTTTAATAGTATTTCATTCAAAAGTTCATTTACAACTTCATGACTATCTTTTTCTGTATTTATTCCAACGATTTCACCAAGTTTAAATAAATTTTGTATTTTTTTATAATCACTTGCTATGTTCATATCTATTACATCTTTTGGTTTTCTCTTTTCTCTGTTGTATTCAGAAATGAAGTATAAGACCATATCGCTGTTGTAAACCTTTTCACTTGCACGTTCATTAAACATGTATCCATTGTAGCTAAACTTCATATCTTGTAAAATATCATCATTTATTTGATACTCTTTGAGAATATCTTTGACTTCACTTTCAGTAAATCCCATCATTTCATTTAACTCTAAGGTTGTTGACATGTTTTTTGAGATGTTGAATCCACTCGTTAAACTATCTAAGGTTATTGGCGCTACTCCTGTTATGAATAGTCTGTCTATAACAGATCGTGTTCCTTCTTTTATTACTTCATAAAATTTTCTAACAAAACCTGTTTTACTGACGATATTTTTGAATTCATCGAGTTTAAAACTCAAAAGTTCATTTGCAAAGTGGTCGTATTCGTCTATTAATAAGTAGATTTTTGTTTTTAAGTTTAATTCTTTATACTGATTTATAAATGTTCTCAAAAGAGTTGAAGGCTCTTTTATAGAATTATTTAATTTTATATTTAAGTTATATCTATTAATAAAACTTGATAATTTTTCATAAACTTCTGAATTAAAGTCAAATTTCAACTCTTCTTTACTGTCTGTATTCAATCCAGAAAAATTAAACTCTAAAATATGATAACTACTCTTTTTAGGTGTTGGATGTTTTTGAATGTACAAGTCTTTAAAGATAGTATCAAACTTATCTGAATACTTAACATCATAGTATTTACTCATAGTGTCGAGCCACAAACTCTTTCCAAATTTTCTTGGCCTTAAAAATAATATATAGGATTCAGGCATATCTTCAAGTGTTTCTATATACTTAGTTTTATCTACATAGTAAAAATTTTCAGTTTGTATTTTTTCAAAGTTTTGAAGACCATATGGTACTTTTTTCATTTCAATCACCTCAGTTTTATTATAGCGCATTTGTTAAATTATAGGATATACTATTAAAAAAACACGAGTTTACTCGTGTTTTTTTAATATAAACTAAAACTTGTAGATATTCCAATTACTATTGAAAGTGGAAATATTGTATTCTCCATAAATGTATTTTCGTTAATTTGAAAACCGCCTATTAAACTTATACCTTTAAAAAACAGAAAATCACTTTTAAATTTTTCAACACCATATAAATTAACATTAAACTTTGTATCATCTAAATTTGATCCTTTATATTTTTCAAGCATAAAACCATCTAATATTAAAAACTTTTGATTTTTTTCATCTTCATCAAATAAATAAGAAAAACTCATCGTCCCTTTATAATTATCTATAATATAATTATCTATAATACCTATATCCTTACCATACGATGCTCCAAACTGGAATTTAAAAGTATTTATAGGAATTCCTATATGCATAAAATAATTATACGTATAATTCCAAATCACTGAATAACCTATATTAAAGTCTATTGGAAATATTTTTGAGTCATTCATACCTAATTTTAAATAAAACCCATTTTCCGAAGTTGAAATTCCAACTTCTGCAATTCCAAATAATCCCATTCTAATTGAATTTAAAGGATATGATATAGTTATTTCTGCTTTTCCTTCTTCTAAAATAGATGAATCTGAACAAATTGAAGGATAATAATTTGAAAAAGCTATAGTTACAAAAATTAAAGCCCAAAATACTAACATCTTTTTTAACATTTGTATCTCCTCCTTTTTTATAACATTAAAATTATAACATTTTTTTTTATTTTTTCTCATTATTTTTTTATTTTTAGTATATATAAAAAGTGTTCCCTGTTCTTTTCTGACACTTCTTTATTTCGTGTCTATTTTACAGGGAACACTTTAATATTAATCTTCTTTTTTATAAAGATTTTTCCAACACTTCACTATTTAAAATTTCATCTTTTATTTTATCTTTATCTTTCCAATTTTTAGCTATGTATACAAATGGTGTGTCTGCTGCTGCAACTATCCACTTTATTACATAAGTTGAAATTAATATTTGCATTAGTACAGAAAACTTAAAGCTTCCCCAAAATGCTATTACTGTAAATACTGCTGAATCTATTAATTGACTTATCATAGTAGATGCATTGTTTCTAATCCATATAAATTTTTTTGCTGGAAATTTATTTCTCCAAAATTCATATGCCCAAACATCATGATGTTGAGAAATCCAATAAGCACTTAAACTTGCAATCATTATTCTTGGCATAAATCCAAAAATAGTTTTAATACTTTCATTTCCAAAATCTTCTGCACTTGGAACAAAATAAATTGCTAAATTCATCAATACTGTCATTGAAATTACGGCAAAAAAGCCTATTTTAACAGCTCTTTTTGCTTCTTTTTTTCCATAATTTTCAGATAAAATATCTGTTACTAAAAATGATGTTGCATAAATAATGTTTCCAAGTGTCGCTGTCATTCCAAAAAGATGTATCGTTTTTAAAACTTGAATATTTGCCAATATAGTAGCAATTGGAACCCAAATATATAGTCCAGCTTTACCCCACATTTTATAGGCAAATAAAATAGCTCCAAAATTTATAAGGAGCATAACAAACCATAGCATTTCGTTCACAATGAACACCTCCGTGTTTTTTTTAAGCGGGTGCCACGACCGCCGAACTTAATTAAACCAAATTTTGATTTAATTAAAATATACATTTTGTAAAGATTAAATTATTTAATTAAATAAAAATTCTAAATCTTTTTTTGAAAAGTCTGTACTTTTTACAAATTCTCCATAAAGATCTTTCTTCTCTTTCTTTAATTTTAATATTTTTTCTTCTACACTTCCTTTTGATATATATTTATATACAAATACTTTTTTGGTTTGTCCTATTCTATGTGCTCTATCCGTTGCTTGGTTTTCAACTGCTGGATTCCACCATGGATCAAAATGAATAACATAATCTGCACTGGTTATATTTAATCCTGTTCCTCCTGCTTTTAAACTTACGAGCATTATTTTTGTATTTGCATTATTGTTATATTTATCAACTATTTCATTTCTATTCTTTGTTTTACCTGTAATAATTTCATAGCTTATTTCTTCTAAATTTAGATACTCTTCTATGAGTTTTAGCATTTTAACAAATTGAGAAAATATAATTATTTTATGGTTTGAATTTATAATTTTATATATAAAATTTTTTAATTCCTCAAACTTTCCAGATTTTCCTTTATACTCTTTTAAAACTAATTTTGGGTGCAAAGATATTTGTCTTAATCTTGTTAAGGCTTCAAATAGTAAAATTTTATTATTTGTATTTACTGTATTTTTTATAGTGTTTAACATTGAAAAATATACATCTTTTTGATCTTCAGTCATATCTACATAAACAGTTTCTTCTACTTTTGTAGGCAATTCTTTTAAAACTTCTTCTTTTGTTCTTCTAATAATAAAGGGTTTTATTTTATCTTTTATACTTTGAGTTCCCTTTTCTGTTTTTAATAATTCAATAAATTCTTTTTTAGTTCCTAAATAATTTGGCATTAAAAAATCAAAAATACTATATATATCTAAAATTGAGTTTTCTATTGGAGTTCCTGTTAAAGCTAACTTATGTTTTGCTCTTAATTTTTTTACTGATTTTGCAGTTTTAGTATAAGAATTTTTTATATATTGAGCTTCATCTAATACAATATACTCAAAAGTTTTTTCTAAAAGATCTAAACTATTTCTAACCGTTCCATAAGTTGTTATAATAATGTCAGAATTATCTATTATTTTATCTTTTCCAGAATATAAAGTATAGCTCATATTTGAAAATTTATTTATTTCATTAATCCAATTGTGTAAAACTGAATTTGGAACTATTATTAAATTTTGTTGTTTTACGGTACTCAATAATGCTATTGTTTGAAAGGTTTTTCCAAGCCCCATATCATCAGCTAATATTCCATTTAAATTGTATTCTTTTAAAAATCTTAAAAAGTTATATCCTTTTTTTTGATATCCTCTTAATTCATACTTTAAATTTAATTCATTAGTGTAATCTTTTATTGTTTCAAAGTTTTTTAATTTTTCTATAAACTCTAATCCATCTCCAACGCATTCTTCTTGAAATTCAAATAAATTTAAAGCGTTTATTTTTTTATCCATTTTTATCTTTTTAGATAATTTTTTTATCTTTTCTGGAATTTGTATTATACTTCCGTCTTTTAAAACTATATACTTTTTATTTTTTGAAGTGTTTAACATATTTGTTATACTATTATTTTTATAAATTATATCTGTTTCAAACCATTCTTTTTGTTTTATAGTATTAAATAGTATTTTTGGGTTTTTTATTATTTTTATATCTTTACTATACAATACTTTAATGTTTTTAGGCAGATTTTTCATAGTGTTTTCTATAAAATCTACAAACTTATCTGCACTCCAATAGGTTTCTCCATTTTCATTTAAATTCACAGAATTGTATTTTAAAATATCTAAACTTCTTTTTTTTAAATTGGTTTCTATTTCATTTAAACTATGTTCTTTATTTGAATATTCAATCTTTAATTTAACTTTAAATTTATTTTCTAATTTAAAGATATATAATTTTAATTGAGGATTTAAATAACTAATATCTATATCACTATCTTCAAAATCAAATTTTATACCTATTTTGCTTAATGGAATATAATATTTTTCTATAAATTTTTCTTTTTCTATCTTTAATTCAAATTTATTAAATTTTTTTAAATTTATTGGTTCTTGTATATTTTTTATTATTCTAAAATAACCATTATTATCTAAAATTGCCATATCATTACGAGAATTAAAGTATTTTTTATATAAAACTTCTCCATTTTCATCTTTAAATATTCCTTTTATAGAATAAGTTGATTTATTCCCAATTACTTTAAATACAAAGTTTACTTCTGTATCCCAAAACAATTCTTTTTTTTCAAAAAGAATCTTTTCTTGTAAATCATACAAACTAGAAAATGAAAGTAAATATAAATTTTTATTATCAAAAACTTTAGTATAGCTTATTTTTTTTATACTTAAAAAATAAGGGTTTATTGTTTTAGCTTTAACAAATTCATTAGGATTGAAGTTAAAAAACTTATATGATTTATTGTTTTTTGCTTTTATTAATGGTTTTAAAATCATTTGATCATTGTATTCAAAGATACCAAACTTTTCTATTTCATCATACTTTTCATTTTTAACTATTAGTTCATCTAAAATATTGTTTTCTCTTTCAACATTAAATTCATATTTATTTTTAACATCTAATAAAGCACCTATTGCATGAGAACATAAACCTATATTTTTCTTATGATATCCACATCCACATTCAAATGAAAAATTACCATTTTTTTCGATCTTACAATTTATTTTATAATCAATATTTTCACTTGAAAACTTTGAATTTATAAAAGCAATTTCTTTTGAAAAAGCTATCATAGTGCTAAAAATATTGTTTTTTTGATAATAAATTATTCCTTTATTATACTCTTCGTCTACACATTCATTCAAAATATTATTTATAATAAATTTAAAATTAGAATTTTCCATACAATCACCTTGTTTAAATAAAAGCAGAGCCTAAAGCTCTGCTTTTATTTCTGTAATATATTTTTTTATTTCATCTTTAACCTTAGAACTCAAAGAATCTTCATTTAATAAGCTTTCAAAAATAGTTTTTATTTGTTTTAATTTTTCAATATCCTTAGATTTTAAATCTTTTATTTTACTGTATATTAATTTTGTATATTCAAACTTTATATAAGGATCTTTTGGATATTTTTTAAAGATTGTACTTATTATTTCAGCAGAATTTTCAGTATCTTCATTTTTCTTATAAAGTTTTATTAAAAAATCTCTTTTAATTTTTTCTAACTCACTTATGTACTCATCTATTTTTTTCATTTCGGTTTTGATTTCTTCAATTGTTTTAAAAGTATAAAATTCAGAATAATAGAGTAAATCATTCAATATATCTTCTTTTTCAACGGCTTTTTGAACATTTATAGTAGAATCATCTGTTGATTCTATTTTTTTTAATTTTTCAATTTCTTTATCGATTTCTTCTTTATTTTTTCCAAAGTATTCTGGATATTTTTTTATTTCATTATAATACACAGTTAGATCTTGTTTATAAGATAAACGATCTTTTAAAATATATTCAGATAATTTATCATAAGATAAATACCATTCATCTGGTATATCTTTTTCAGTTTTTAATTTTTCTCTATAAAGTGTTTCTAATGCATTTTTTTCTTTAAAATCTTTTGCTTTATCAACTCTGTATTCTATAATTAATGGTTTATAATATACAGTAAAATCATAATTATCTCTATATTTTTTAAACCAATTTGAAACTTTATCTTGAGTTATTATTTCTTTTATTTTATTAACTGCATACTGATCCTTTAAAATATCTTCTTTAGTTTGCATTAAAATTTTATCTTCTAAAAGAAGAAGTCCATATTTATCTTCTATTTTAATTGGTCCTAAAACTTCATTAGGTGTTGAATTTATAGTCAATGAAAAGAGAGGTTGATATTTTTTTGTATTTCTATCTATCCAACCAATTTCTCCACCATTTTTAGATAATTCATCTTCAGAGTATTTTTTTGCTGCATCTTCAAAAGTAATCTTTTTATCCAATATTTCCTTTTTTATACTCAATATAGAAGCTTCATTTGAAATTGTTATTAATTTTAATTTTATCCTATCATAACCATTTTTTATATCATAAAAATTATCTTTTATATATTTATCTAATTCTTCATTTTTTATTTCATCAAAAAAAACTTTTTTTACTTTTGTTATAATTTCATTTTTCCACATTTGAACCTTCAAATAATTATAAAAATCATCAAGTGTTCCGTATATTTTCAAAACATTTTCATTATTTTTATATTTATTAAACATTTCTTGTGCATTATTTTTTATAGATGTTGAATCAATAGTTATATTCTTATCATTGAGATATTTATCAATTACAAGAAAATCAATTAATCCTTTTATTATTGAATATTCAGTATTAGCTTTTTCAAAAAATTCTTTATTTGAAGAACTAAGGTATTCACTTTTTAAAGTTTCAAAATCTATAAAATATTTTTCATAAATTTTTCCATCTTTAGAAGTAAGATAGGAAACTGGCTCTGAAAAGCCTATAGCTACAAATATTAAAATATAAAAACCCAACAATACCCTTTTCATTAATTCACTTCCTCTCAAAAATTAATACCCCAAAGATATTTTACCATAAAAAATGAAATAAAATACACAATATTAATATAATCTACTTGATTTATAAATTTCATTTATGTTATAATTTAATAAAATTAATATTCGGTGTAATAAACCGGGGGCAGAAATGCCACCGAGTTTTATTTTAAGGAGTGATTTAATGGATACTATAAAAGAAAAAATTTTTAAAAAAGCTGAAGAATTTGCCAAAGAAATGAACTTAGAAATATTTGATATAAAAATAAATAAAACCAAAAGAAAAAATAGAGTTGAAATAATTATTGATAAATTAGAAAAATATGTCGGCATAGAAGATTGTAGAAAGTTTTCAGTTAAAATTGAACCTTGGTTTGATGAAGAAGATCTTTTTAATGGAAGTTATGATTTAATTGTTAGTTCCCCTGGATTAGACAGACCTCTAAGAGGTATAAATGATTATAAAAGATTTAAAGGTAAATTAGCAAAATTTTATTTTATTGAAAAAGTTGGAAACAAAACAAGTTTAATTGCATTCATTGAAGATATACTCGATGATGAATTACTTTTAAAAACTAAAAATAATAAAAAATATAATATAAAAATAAAAAATATAAAAAATTCAAATTTAGAAATAGATTTTTAATGGAGGAATAATTATGAATATAAATTTACTAGATGCACTTGATACTTTTGAAAAAGAAAAAGGAATAAAAAGAGAAGTTTTAATTGAAATCATTCAAAAATCAATAAAAAGCGCCTATAAAAAAAATTATGGTACAAAAAATGTAGAAGTTGAAATAGATAAAAGCTTAACTTCTATAAGTGTTTATCAAATTTGGCATATTGTAGAAAACGTAGAAGACCCCACAGAAGAAATTTCTTTAGAAGAAGCTAAAAAAATATCTTCTAAAGCAGAAATTGGTGGAGAAATTAGAAAAAAAGTAAACTTAAAAAAAGATTTTAAAAGAATTGCTGCTCAAACTGCAAAACAAGTTATATTACAAAATATAAAAGAATTAGAAAAAAATGCTTTATATGATAGATATGCACCTTTAAAAAACAAATTAACAAGTGCAGAAGTTATGAAAGTAACAGAACAATATGCAGAAATAAGAATTGGAAAGTTAGAAACAAAATTACCAGAAAAAGAAATGATTCCAGGAGAAATTTTAAAACAAGGAGATTTAATCAAAGTTCACATAAAAGATATTCAAAAAACAACCAAAGGACCAAAAATAATGGTTAGTAGAGTAACTAATGAATTAATAATAGAACTTTTAAAAAGTATTGTTCCTGAAGTAGAAAAAGGTATTGTAGAAATAGTAAAAATATATAGAGAACCTGGTATAAGATCAAAAATAGCTGTTATAAGTCATAGTAAAGAAATTGATCCAGTTGGATCTTGTATTGGAGAAAACAGCATGAGAATATCAGAACTATTAAATGAGGTTAAAAATGAAAAAATAGATATAATAGAATATTCAGAAGATATCACTCAATTTATAAAAAATGCTCTTGCTCCTGCAGAAGTTGTTAATGTTGAAATAAATGAAAATGAAAAAAGTGCAATTGTATACGTTCCTAAAACACAATTTTCTCTTGCAATAGGAAAAGGTGGTCAGACTGCAAGAACAGCAGCTAAAATTACAGGATGGAAAATTGATATACATACAGTTTAATTTATTTATTGTTTTAACTTAAATTTAATTTTATATCAAACGATTAATAAAAAAGAGCAAAGACAATTTAATATTATTTAAACAGTAATTAAATATTATGGTGTTATATTTAGTCTGGTTGAGAGGTTTTTGGAATATTTTTTAGGAGGGGAATTTTATGTCAAATCAAGATTTATTAAAAAATACTTTAAAAAACAGAAAACAGAGAATGACGGCTCAAAGAGAATTAATATTAAGAATTTTTATGGAATCAAATGGAAAAGCAATGAATATAGATGATGTTTTTATGGAAATAAGAAAAAAAAGAAATCATAGAACAAGTAAAATGACAGTAAAAAGAGCAATAGATCTTTTAGTTGAATTAAATATCTTAAACGAAGTAAACTATGAAGATGAAGGAACAAAATATGAATATATTTTTAAAGAAAAAAATATGGAAAATATAATTTTTGTCTGTGAAAATTGTAATAAAGCTACATCTTTTTCAATTCCAAAAGAAAAAATTTTATCATTACTACCAGAAGATATAAAAGGATTTCAAATAAAAAATACAATGATAAAAATAACAGGTTACTGTCCAGAATGTTCAAAAGCTTTAATAGAAGATGTAAAAGAAACTATAATTAAATAATAAATAAAAAACACGATTTTAAATCGTGTTTTTTTTAATTTCAAATTTTTTAACTTAGTAAAGGGGGATAAAAATGGATCGAAATGAAGCAATTTTAAAAGTAAAAAAACATATACAAACAGAAAATTTAGTAACTCATTCATTAGCAGTTGGAGCTATTATGAAAGAGCTTGGAGAAAAATTAAATAAAGATTCTAACATATGGGAAGTAACAGGTATACTTCATGATTTAGATTATGAAGAAACAAAAGAAAATCCAGATATTCATGCTATAAAAACTGTGGAAATATTAAAAGATCAAATCACTCCTGAAATGAAAGATGCAATTCTTGCACACAATGAAAAAAAAGAATTAGAAACTGACATTGAATTTGCATTGTATGCATCCGATCAATTATCTGGATTAATTACAGCTGCTGTTTATGTAAGACCTTCAAAAAGCATTAATGATTTAACTGTAAAATCATTAAAGAAAAAATTTAAAGACAAAGCTTTTGCAAGAGGAGCTAATAGAGAACATATCAAGCAAATTGAAAAATTAGGATTAGAGTTAAATGAGTTTTTTGAAATTGGTATATCTGGAATGAAAAAAATTTCTAATGAGTTGGGTTTATAACCATGAAAATAATATCTTGGAATGTAAATGGAATTAGAGCAATATTGAAAAAAAATTTAATTGAATTTTTAGAAGTTCAAAATCCAGACATTCTTTGTATACAAGAAACAAAAGCTCACGAAGAACAACTAACAAAAAAATTTTTGTCTTATGGAGATTGGTATAAATATTTTTTTTCTGCTCAAAAAAAAGGATACAGCGGAGTTGCTACCTTTACCAAAATAAAACCAATTGAAGTCTTGAATGGTTTTAATATAGATAAATTTGATAGTGAAGGAAGAGTTTTAATTACAGAATTTAATGAGTTTTCTTTATTTAATATTTACTTTCCAAATGGAAAATCAAAAAAAGAACGTTTAGAATACAAAATGGAGTTTTATAATTATCTATTAGATTATTTAAAAGAGTATAAGAAAAAACAAAAAAATATAATTATATGCGGAGATGTAAATACTGCCCATACAGAAATAGATTTAGCTCGTCCAAAAGAAAACTCAAAAGTTTCTGGTTTTTTACCTATTGAAAGAGAATGGATAGATAAATTATTAGAAAGTGGATTTGTTGATTTTTTTAGAAAATTTAATAAAAATCCTAATAATTATACCTGGTGGGATTACAAAACAAGAGCACGCGAAAGAAATGTAGGATGGAGAATTGATTACTTCTTTGTTAGCAAAGATTTTGAAAAAAATATAAAAAATGCTTATATCCTTCCAGAAATTATGGGGTCTGATCATTGCCCAATAGTATTAGAAATAAAATAGCAGAGAAATATTCTCTGCTATTTTTTATTCTTCTTCTTCAATTACTACTTCTCTATTTTTTAAATTTTTTGCAAGTGCCATAAATGCCCCTATTAGAAGCCATGCTGTTAATAACATTATTATAACTGATAATGTTATTAAAAGACCATTTTTCATACCAATAAATTTATTTAAATTAATAAACATTGCCCAAATAGTCATTATTAACATAAATACCATTGGAATAAATGTAACCAATATATTTTTACCTTTACTTGATAGATAAACTGTTGCAATTAATAAAGCAAGTGCTGCCAACAATTGATTTAAAGCACCAAACATAGGCCATAAAATTAAAGCACCTTTTCCGCCTGGTTGTAAGAATGTCAATATAGCTGCAAGGATTACCACTATACCAGTTGAAATAAATCTATTATCAAATGGCTTCATAACTTTTCCATCTTTTTTCTTCATTATTTCTTGGAAAGAGAATCTTTGAATTCTTGTTGCAGAATCTAATGTTGTTCCAGCAAAAGAAACTACAAAAACTGCCATTATTGACATACCTAAATCTTTTGGTATACCAATTGAAGTCATCAAATTAGCTGCACCAACGATTACAGCTTCTAATTTTGCTCCAAGACCAGCTGCTCCAGCCCATGAAGCGTAATGAGAAGCATAAGCTGCAGAACCAGTAAGTAAAGTTCCATCTTTACTAGCCAATCCCATTCCTAGTCCACCACCAATGGCAATTAATACAATTGTTGCTAAAACACCTTCAAGAATCATTCCACCATATCCTATTGCAAGAGTATCTTTTTCTTTATCAACTTGTTTAACAGTTGTTCCAGAAGCTGCCAATGAATGGAAACCAGATATTGCACCACAAGCTATTGTTATAAACAAAATAGGCATTAAGTTTGGAATATCTGTTCCAGCAGCTTTAGCTGCTTCATTAACAACTGGAGCAGTCATTTGTGGATGTGCAAAAACAACACCTAATACTAACAATCCCATAGCTATTAAAAGTTCATGAGAATTTATATAATCTCTTGGTTGTAATAAAGTTTGAACTGGTAATGTTGAAGCTATAAAAACATAACCAAACAATATTACTGCCCATGTAATGATTTGTGCATTAGCAGAACCTGGAAGAGATATTGGAATATATAAACCCAAGAAAATTGTAACATACATTAAAACAACAGCAATTATTGAATATAAAGTATCACTCTTTCCTTTTTTAATCTCATAACCAAGCCACATTGCAATTGGAATTTCCATCCAAACTGGAAATACTGATTGTGGATATTTAACAAATAATATACCCATTATCATAGCAAATATAGCTAAAACAATCCACAATAAAAATTGAATTATAAATTGAAAAGCATACTTTGTTGAAGGACTAATCAAATTTCCTGTTAAATCTCCTAATGTTCTTCCTTGATTTCTTGCAGAAATTATAAGTGCAGAAAAATCATGAACAGCACCCATAAAAATTGAACCAAAGAAAATCCATAAAAGAGCTGGTCCCCAACCCCAAATAATACCGATTGCAGGTCCAACAATTGGTCCAGTTCCAGCAATTGTTGTAAAATGATGTCCAAGAACTATATGTTTTTTAGTTGGAACAAAATCAACACCATCTTCAAATTCATGTGCAGGCATTTTGTTCTTGTTTGTTAATTGGAAAATCTTATGACCTATAAACTTACCATAAAACTGATATGCAACAATGTAACCCAAAAAAGTTATTACCATGAGCAACAAACTATTCATAAGCATACCTCCCCGTATGATTTTAGTTACATTTCAATACTATATAATGTTACACAAAAAAAAAACTTAAAAATCACAAAATGACCTTTTTTATGCGTAAGAGGACAAAAAATTAGTGTATTAAAACAAAAAAAAAGAGTCAACCGAAAAGGTTGACTCAAAGAAAAGTGGCGGGACAAAAACCTACTCTTGCACACACGAAGTGTACTACCATCGGCAGATAAAGGCTTAACGGCCAGGTTCGGAATGGTTCTGGGTGGTTCCCCTTACCTTATCCTCGTCCCAAATTATTCACTCACTAGTGCATAAGAAAGTTTGTCCAAAGCCTCGGGTTATTAGTACCACTCGACTCAATACATCACTGCACTTACATCTGTGGCCTATCTATGTTCTAGTCTCGAACTACCCTTACCTCATAAATGAGCGGGAAGCCTTATCTTGGAGCCCGTTTCCCGCTTAGATGCTTTCAGCGGTTATCGGTCATGTACTTAGCTACTCAGCTCCTGCCATTTGCCTGACAGCTGATTCACCAGCGGTACACTCACTCCGGTCCTCTCGTACTAAGAGCAACCCTCCTCAAGCTTCCTACGCCCGCAGCAGATAGGGACCGAACTGTCTTACGACGTTCTGAACCCAGCTCACGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGGACCGACTTCAGCCCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACAACGCCGTCGATATGAACTCTCGAGCGTCATTAGCCTGTTATCCCCAGGGTAACTTTTATCCGTTGATCGACCGCGCTTCCACTCGCCTCGGCCGGGTCACTAGGACCATGTTTCCATTCTGCTCGACCTGTCAGTCTCGCAGTCAAGCCGGCTTTTGCCCTTGCACTCACCGGTGGATTTCCAACCCACCTGAGCCGACCTTCGTACGCCTCCGTTACTCTTTAGGAGGCAACCGCCCCAGTCAAACTGCCCACCTAACGCTGTCCGGCTCATGCTCTTCACATTCCACCGTTAGTAAATCATTATAATGAGGGTGGTATCCCAACGTCGGCTCTAGAAAACCTTGCGATCTTCCTTCTTCGCCTCCCACCTATCCTGTACACATTATAACCATTTACAACGTCAGGCTACAGTAAAACTCCATGGGGTCTTTCCGTCTAACTGCGGGTTGTGGGCATCTTCACCCACTCTGTAATTTCGCCGGATCCTCTGTTGAGACAGCTCCCAGATCGTTACGCCATTCATGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGGCTTCGTTTCGTAGCTCTCACCACTCCACTTAACCTTCCGGCACTGGGCAGGCGTCAGTCCATATACTTCCACTTTTTGTGTTCGCATAGACCTGTGTTTTTGGTAAACAGTCGCCTGGGACTTTCCACTTCGACTCTCAATCGCATTTTGCAACACCATCAAGAGCACCCCTTCTCCCGAAGTTACGGGGCTATTTTGCCTAGTTCCTTAACAGAGGTTATTCCGCTCCCCTTAGTTTTCTCAACCCGTCTACCTGTGTCGGTTTACGGAACGGTCAGTATTTCTCTCAAGCGATATACGAGGCTTTTCTTGGCAGTGTGACTCCTCCCCGTTAGACTTACGTCCTTCCCATCACAGTTTTTCCTCCACAAGCGGTTTTCCCTACTCGTTTCTTCGGCTTTACTGCTTAGAAGACCTTGCAACTTGGTCTCGGTGATTCACCTCCTGCGTCCCCCCTTATATCTCGTTCATACTGGTACAGGACTCTTTACCTGTTTCCCATCGATTACCCCTTTCGGGTTCACCTTAGGCTCCGACTTACCCTGGGTGGACGACCCTTCCCCAGGTACCCTTAGACTTTCGGGGTGAATGATTCTCACATTCATTTCGCTACTCATGCCCGCATCCGCTCTTGTGTCTCGTCCAGCAAACCTTCCAGTTTACCTTCTCCCTACTACACAATGCTCTCCTACCAATTGGATTACTCCAATTCCGCAGCTTCGGTGTATGGCTTTAGCTCCGTTACATTTTCGGCGCATTGTTCTTCAACCAGTGAGCTGTTACGCACTCTTTAAAGGGTGGCTGCTTCTAAGCCAACCTCCTGGCTGTCTTCAGAACTTCACTACCTTTCACACTTAGCCATTTCTTCGGAACCTTAGCTGGCGGTCTGGGCTGTTTCCCTTTCGACCACGGAGCTTATCCCCCGTAGTCTGTCTCCCGACTATTCAGTATTGGTATTCGGAGTTTGACTGATTTCTGAGGTCGCCCCCATACGTCAATCAGTGCTCTACCCCCAATACTTTCTTTGTCGAGGCCGTGCCTACACACGTTTCGGAGAGAACCAGCTATCACCCAGTTCGATTAGCTTTTCACTGCTATCCACATGTCATCCGAAGATTTTTCACTACCTACCGGTTCGGTCCTCCACTTAGTTTTACCTAACTTTCAACCTGCACATGGATAGATCACTGGGCTTCGGGTCTATCGCATTTGACTTTCGCTCTTTTAAAACTCGGTTTCCCTTCGGCTTCGTCTCTTTCGACTTAACCTCGCCATATACGATAACTCGCGGGCACATTAATCAAAAGGCACACGGTCACTTCCGCTCCCGTTTCCTGTAGGCATACAGTTTCAGGTTCTCTTTCACTCCCCTCACGGGGTCCTTTTCACCTTTCCCTCACGGTACTATTCGCTATCGGTCGACCAGGAGTATTTAGCCTTGGAGAGTGGTCTCCCCTGATTCACGCAGGATTCCTCGTGTCCCACGCTACTTGGGATCAGCTTCGATTAGTTTACGAGTTTTCGTCTACAGGACTTTCACCTTCTTTGGTTTATCTTCCCATATACTTCGACTTCCTCTTTACCTATTCCCTCTATTTACAGTTCGAGTTAAGCTGTCCCTCTACCCCAAATTGACAACGGCTGTACCCTTTTACATCAATTTGGTTTGGGCTTTTCCCTTTTCGCTCGCCACTACTCAGGGAATCTCTTTGATTTCTTTTCCTCCAGCTACTATGATGTTTCACTTCGCTGGGTTCGCCTCCCTTTCGGGCTCTTCCGGGTTTCCCCATTCGGATATCTACGGTTCTTCGATTGCTTGCTTCTCCCCGTAGCTTTTCGCAGCTTGCCACGTCCTTCTTCGCCTCTGGTCGCCTAGGCATCCCCTGTATGCCCTTTTTACTTTGGACTTTCTTTCTTATGCACTTGTCAATGAACTTTTCTGAATGATTTCTTTGGTGGAGTGAAGGGGGCTCGAACCCCTGGCCTTCTGCTTGCAAAGCAGATGCTCTCCCAACTGAGCTACCACCCCGTTCTTTTGCTCACTCAATAATGGATAGAGGTAGTTGTTCTCCTTAGAAAGGAGGTGATCCAGGCGCACCTTCCGGTACACCTACCTTGTTACGACTTCGCCCCCCTCACTAGCTCCACCCTCGATGCATCCGTTCCTTGCGGTTACAGCATCCATCTTCGGGCGTTTCCAACTCGGGTGGCGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAGTTTGGCTGACCTGCGATTACTAGCGATTCCGGTTTCATGCAGGCGGGTTTCAGCCTGCAATCCGAATTGAGGTACAGTTTGTGAGATTTGCTCCACTTCTCAGCTTCGCTTCCCTCTGTCCGTACCATTGTAGCACGTGTGTCGCCCAGAACATAAGGGGCACGCTTACCTGACGTCATCCCCTCCTTCCTCCGTCTCGTCGACGGCTGTCCCATTAGAGTAGCCCATCTCTACATGCTGGCAACTAATGGCAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACGGCCGTGCACCACCTGTGTGAGACTCCTTTCTTGCGAAAGTTAGTAGTATCTCTACTACCTTATCTCCATGTCAATTCCTGGTAAGGTTCTTCGGTTAGCTTCGAATTAAACCACATGCTCCACCGCTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATCCTTGCGGACGTACTCCCCAGGCGGTTCACTTATCGCGTTTGCTTCAGCACGGAACTTTGACATCCCACACCTAGTGAACATCGTTTACGGCTAGGACTACCCGGGTATCTAATCCGGTTCGCTCCCCTAGCTTTCGAACCTCAGCGTCAGGATTACTCCAGAAAACCGACTTCTCCACTGGCCTTCTTACCAATATCTACGGATTTCACCCCTACTCTGGTAATTCCGTCTTCCTCTAGTATCCTCAAGTTATACAGTTTCAAGCGCTGTTCCACCGTTGAGCAGTGACATTTCACACCTGACTTACATAACCGCCTACGTTCCCTTTACGCCCAGTGATTCCGGGCAACGCTCGCCCCCTACGTCTTACCGCGGCTGCTGGCACGTAGTTAGCCGGGGCTTTTCTTTACATACCTTCCTTGTACTGTCCCCAGTACTTTATATTCTGTAAATTCAGAAGTTTACATCCCGAAGGACTTCTTCCTTCACGCGGCATCGCTGGATCAGACTTCCGTCCATTGTCCAAAATTCCCCACTGCTGCCTCCCGTAGGAGTAGGGTCCGTCTCTCAGTTCCCTTGTGGCCGTTCGTGCTCTCACACCGGCTACCCGTCGTCGGCTTGGTGATCTTTTACTTCACCAACTACCTGATGGGACGCAGGCTCGTCCTTTGGCGCTTCTCTTCCTTTCCTCTCTCGAGCTTATCCGGTTTTACCTACAGTTTCCCATAGCTATCCCAGTCCAAAGGGTTGATTCCTACGCGTTACTCACCCGTTCGCCACTAATACTCTCCACCGAAGTGGATTTCTTCGTTCGACTTGCATGTGTTAGGCGTGCCGCCAGCGTTCACCCTGAGCCAGGATCAAACCCTCCATTCGAATGGTTTGATTCTCACTCTAGTTCTTTCTTACTAGCGTCCTTTTCTTTCGAAAAGTTTTATTTTACTACCTCTATCCATTTTTCAATGAGCTTCTTTCTCCTTCGCTTGCTTTTCCCTCAGCGACTCAATCATTCTATCACTTTCTCCTTCTTTTGTCAATTACATTTCTTTTAACCTTTTTTCAACGTCGTGTTAATCCATCAATCTCTTTTTAATAGAGTTTTTTCATTTACATATTCATATTTTTTTATTTTTAATTCAATATGAAATAAAACCTTAAAGAAAAATGTAAATGCACCTTACTTTTTTCTATTTAAATATGTTATAATAATAGTAAAATATGAAATAAGGAGTGTTGTTTAGTGAATAAAGAAGATAAAATACTTGGGTTAATTGGTTTTTCATCAAGAACCCGAAGTTTTGTTTTTGGTAAAGATGGAATTAGATCTTATATCAAAAGTTTACAAAATAAAAAAGTTGTAATTATTGCTTCAGATACTGGAAAAAGTACAAAGGATGATACTATTAAAAGATGTGAATCTTTTAATGTTCCTTGTGTTGTTTTGAAAACAAAAACTAAGGAAGATCTTTCAAATGCACTTGGTAAAACTGAAGTGAGTATAGTTGGAATAGAAGACGAAAATATAGTTAAAGGTATTTTAGACCTAGTTGGGGGTGATGCTTAATGTCAAAAACCCGTGTTTACGAATTAGCAAAAGAATTGAATATAAGTACAAAAGAATTAATGAATTATTTAGAAAAAGAACTTGGTTTAGAAATAAAAAGCCATATGAGTACATTAGATGAAGATTCAATAGAAACAATAAAAGAATTTTATAATTCTACAAAAAAGAAATCTAATGATAATAAAAAAAAGATTCCTAATAAAAATAATTCAAAAGTTATCTCTAATAAAAACAAAATAATAAAAAATGAAGTAAAAGAAAATAAAGAGATAAAAGAAGCTAAAAATGAAACAAAAAAGGAATCAAGTAAAGAAGATAATATAAAAGAAATAATTTTATCTTCTAATGAATTAAAACTAGATTTATTAGCAAAAAAATTACATAAAAATCAAGGCGATTTAATAAAAAGTATGTTTATGAAAGGAATTATGATAAAACCTAATCAAGATTTAAACATAGAAATAGCTGAAGAAATTGCTATGAATTTCAACTATATTTTAACAATAAATGATGATGAACAAACTAAACCTACTGAAACAAAACAAGAAAAGGATATATTAAAAGAAAGATGGGAAAAAATTTATTCTGAAAAGAAAGATAAATTTAAAGACAGAGCTCCTGTTGTAACGGTAATGGGGCACGTTGATCATGGTAAAACTACTTTACTAGATCACATAAGAAAAACACAGGTTGCCGATAAAGAAGCTGGTGGAATTACTCAATCTATCGGAGCTTATCAAACTGTTTATAATGGAAAAAAGATTACTTTTATTGATACACCTGGACACGAAGCTTTTACTGAAATGAGAGCAAGAGGAGCTCAATCAACTGATATAGTAATACTAATTGTTGCTGCGGATGATGGTGTAATGCCTCAAACTATAGAAGCTTATAACCATGCAAAAGATGCTGGTGTTCCAATAATAGTTGCTATAAACAAAGTTGATAAACCAAATGCAAATGTTGAATTAACTAAACAACAATTAGTAGCAAAGTTAAACTTAATTCCAGAAGATTGGGGTGGAGATGCAATAACTGTTCCTATATCAGCAAAATCTGGGATGGGTGTTGATGATTTATTAGAAATGGTTTTATTAGTTTCTGAAATGCAAGAAATAAAATGTTATCCAAAAGGAAATGCTAGAGCTATAATAATAGAGAGTAAATTAGATAAATTTCTTGGACCTGTTGCTACAGTAATTGTAAAAGATGGAATATTAAAAAATGGAGATTTTTTTGTTGCTGGAAGTACTTTTGGAAAGGTTCGTAGATTAATAGATAGCAATGGTAAAACTATAAAACAAGCCGGTCCATCTACTCCTGTACAAATTTTAGGTTTTGATGAAGTACCAAGTATGCATTCAATATTATATGCTGTAAATACTTTAGATGAAGCAAGAGAAATTTCTTCCATTGCAAAAGAAAAAGAAGAGTCTAAATCTAAGCAAAAAAAACATGTAAAATTAGAAGATTTTATGAATATGATGAAAGAAAATCAAAAGAAAATATTAAATATAATATTAAAAGCTGGTACATATGGTGAAATAGAAGCTTTAAAAAATTCAATTTCAAAATTAAAAAATTCAGATATTGATATAGAAATAGTTCATGCTGGAATTGGTGCTATAACAACAAGTGATGTTATGCTTGCTTCTGCTTCAAATGCTGTTATTTTAGGTTTTAGAGTAAAAGCAGATTCTAAAACTTTAAAAATGGCTGATAAAGAAGAAATTCAAATAAAAAGATATGATATAATCTTTAACTTAATTGATGAATTAAAAAAAGCTCTTCAAGGTATGCTTGAACCTGAAGAAAAAGAAGAAATAACTGGTAGTGGAAAAATAAAAGAAGTATTTAAAATAAAGAAGGTTGGTAACATAGCCGGTATTCAATTAACGGATGGTTATGTTTCTGCAGAAGGAAGAGTTAGAATTTATAGAGAAGGTAAATTAATTCAAGATGTAGAAATAGAAACTCTTCAACATTATAAAGATATAGTTAAATCTGTTAGTGCTCCACAAGAATGTGGAATAAAATTTGTAAACTTTAATGACTTTAATTCTGGTGATGAGTTAGAATTTTATAAATATATTCAAATTGAAAGAACATTGAACTTTAATTCTAAAAAATAAAACCCCATTTGGGGTTTTATTTTTAATGGAGGATACTTATGATATTTGGAATAGGTATATTTATACTTATATGGTATATAGCAAGTCTTTTTTATAATCCAATTATTTTACCAGATCCATTTTTAACTCTTCATACTCTTTTTAATTTAATGATGAATCAATCTTTTTGGATACAATTTTTTGATACATTATTAAAGAGTTTGCTTGGATTCACTTTAAGTATTTTAATTGGAGTACCTATTGGTTTTGCTTCTGGAATAAATAAAAAATTTAAGAGTTTCATTAGACCTATTATAATGCTTTTTCAGGGTGCACCTATTGTATCTTACATTGCAATAATAATGCTTTGGTTTGGTATTGGATTTTATACACCTATGTTTGTTGCCTTTATAGTTATATTTCCAACTATCGTTTTAAATGTATCTCAAGGAATTGAATCAACTGATAAAAAACTTTTAGAAATGGCTAAAGTTTATAATATAAAAAAAAGTGATACTATAAAATTTATTTATCTTGGATCCGTTTTTCCATTTATTATTTCAACTTTGAAAATAGTTTCTGGAACTCTTTGGAAAGCAACTGTAGTTGGAGAATTTTTAGGTGGTAGTAGAGGCTTAGGATATGCTCTTTCTATTTCTAAAATATCTTTAAATACAGATGAAGTATTTGCCTATACTTTATTTTTAATAATAGTTGGAATAATTTTTGAAAGATTAATTTTAAAAATTAATTTTAAGTTGAAACTTCCAGAAAAAAAGTGTATTGAAAAAACTAGAGAAATTTATAAAATAACTCCAGCTTCAATTAAAATACAAAATTTAAAAAAGAGTTTCAACACTGAAATTATCTCTAATTTTTCTACTTTAATTGATCAATCTGAAACATTTGCTATAATAGGTGATTCAGGATCTGGAAAAACAACCATTTTAAATATTTTATCTAATTTAATTCCAAAAACTTCTGGAACAATTGAAAAAAATTTTAAAAGGTTAGCTTATATATTTCAAGAAGATAGATTGATACCTTGGATGAATGTAGAAGATAACATAAAAATAGTAAATCAAAATATTTCAAAAGAGGTTTTTGTAGAAACTTTAAAAACTTTAAAAATATATGATAAAATAAAAAGCTTTCCACATGAACTTTCTGGAGGAATGAAAAAAAGAGTTAATATAGCAAGAGCTTTAATATACTTTCCAGATATAATATTAATGGATGAACCTTTTTCATCATTAGATATAAAGATAAAACATGAAATAATCTTAGATTTTTTAAAATTAAAAGAAAAGTATAAATTTTCCATAATAATTGTTTCTCATGATCCTTATGAACTTTCTATGTTAGCTGATAGTACTGTATTTCTTTATGGCACACCTTCTATTTCTTCAGAAAAAACAACTTATAAAAAAGCTATAAATAGAAATAAAAAAGAAAATGAATTAATTTACTTAGAAATAAAAAATAAAATATTAGGAGAAGAATATGAAAAATATTAAAAATATAATCTTTGATATTGATGGAACATTGGTAAATACAAAAAAAGTTACTATACCAGCTTTTAAAAAAACTCTTGAATCTTTAGATAAAGATGGATTTAAAGTAAAAGTAAATTCAAATGAAATTATGAAATACATAGGATATACAATAGACAATATCTTTAAAAATATATTTAAGTCTGATGATAAAGTTTTAATTGAAAAAGCTATACATTACTTAGATATTTATGAAGAAGAATTTTTATCAAAAACAAATGAAATCTTTTTTGATGGTGTGTTTGATGTTTTATCTTATCTAAAATCTAAAAATAAAAATATTTATCTTTTATCTAATTGTAATAAAAAATATTTAAACATCGTCTTAGAAAAAGGCTTAAATGAATTTATTGATTCACCTCATTGTTCTGAAATGTATAATTGGAAAGAAAAAGATTATGTTATATCAACTTTTATAAAAAAAACAAATAGCAAAAGCTTTGTAATGATTGGTGATAGGCACAAAGATATTGAAGCTGCAAAAGCTAATAATATAAAATCAATAGGTTGTAATTATGGATATGGGAATAAAGAAGTTGAAAAAGCTGATGTAATAATTCATAATATAAAAGATATTATAAATATTTTTTAGTTATATTTCCTTATTTTAGATAATGTTGTTACATAAATACACTTAATATTTATACATATTAAATATGAATAAGTTATAATAAGTTGAAATTATTTCAGATTATGTACTTCAACTATTTTTATTCGGCTTTATTCCTATGTAAAGACTAAATTCTGATTAAAATCAAAAAAATTTTTTAAACATCTGATTCGTGTTGTTTCATATTGTTTAAGTTATTTAATATAAAAAAGTACATAATCCGAGAAAACCCAAATGAAAGGAAGTTTTGAAATGTCAAAATTTGAAGATCTCGGTTTATCCGAAACAACGTTAAAAGCATTAAAGAAAAAAGGATTTGAAGAACCAACTCCAATACAAGAAAAAACAATTCCTGTTTTATTAAAAGGCGAAGTTGATTTAATCGGTCAAGCTCAAACAGGTACTGGTAAAACAGCAGCTTTTGGTTTACCTTTAATTGAAAAATTAACACCTGGTGCAAAACATGTGCAAGCTTTAATACTTGCTCCAACAAGAGAACTTGCTGTTCAAGTAGCAGAAGAAATAAACTCTTTAAAAGGAAGAAGTAAGTTAAGTATACTTCCAATTTATGGTGGAGCATCAATTGAAAGGCAATTAAACGCTTTAAGAAGAGGCGTTGATATTGTTGTAGGAACACCTGGTAGAGTAATAGATCATATAAAAAGAAAGAGTTTAAAACTTGAAAACATATCTTATTTCATTTTAGATGAAGCTGATGAAATGTTAAATATGGGATTCATAGACGATATGGAAGAAATTTTTAAACATACAAATCCAGATAAAAGAGTTTTATTATTTTCTGCAACAATGCCTAAACCTATATTAGGTCTTGCAAAAAAATATATGAAAAATTTTGAAATTATAAAAGTAAAAAAAGAGCAATTAACAACCAATCTTACAGATCAAATATACTTTGAAGTTAATGAAAGTGATAAATTTGAAGCTCTTTGTAGAATAATTGATATAGAAAAAGATTTTTATGGTTTAGTTTTCTGTAGAACAAAATTAGATGTTGATAGAGTTGCTTTAAAATTGACTGAACGTGGATATAATGCTGAAGGTATACATGGAGATATTTCACAGTATCAAAGGGAAAGAATTTTAAAAAAATTCAAAGATAAAAGAGCTCATATCTTAGTTGCAACAGATGTTGCAGCAAGAGGTTTAGATATAAATGATTTAACCCATGTAATTAACTATTCCCTTCCACAAGATCCAGAATCTTATGTTCATAGAATTGGAAGAACAGGAAGAGCTGGTAAAGAAGGAACCGCTATAACTTTTGTAACACCTTCTGAATATAGAAAATTAATATTTATAAAAAGAGTTGCAAATACTAATATAAGAAAAGAAAAGGTACCTGGTATAAAAGAAATTATTAAAACTAAAAAAGAAAGAATAAAGAATGAAATTTTAGATATAGTTAAAAATTCAAATGCTTCTGAATATGAAAATTTAGCAAAAGAATTATTAAATATTTCAGATCCAGTACAAGCAATTTCTGCTCTTTTAAAACATGCTTATCAAAGTGAATTGGATACTGCAAATTATAATGAAATAAGTGAAGTTTCTATAAATACTAAAGGAAAAACAAGATTATTTGTTGCTCTTGGTAAAAAAGATGAAATGGATATCAAAAAATTATTAAAGTTTATCAAAGATAAAACTGATGTTGATACTAAAAAAATTAGAGATGTTAGAATTTTTGAAAACTTCTCATTTATATCTGTTCCTTTCGAAGAAGCTGAAATTATAATCGATACATTTAAAAGAAAAAAGAGAGGAAGAAGACCTCTTGTAGAAAAAGCAAAAGAAAGAAAATCTAAATAATAATAAAAGTAGGTAGTATGTAAAATTTTACACACTACCTATTTTTTTATTTACACAAAATTTTTTATGGTCTCGTTGCAAAAGGTTATTTATTACAAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCTTATTTCATTAGAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAAAGGCACAAAATTTTACACGCTACCTTTACAAAATTTATTTTCTTCCTGTGTGTTCTATGTTTTGTCTAAACATTGGCCATGAAGACTCTGAAACTCCTTTACATTTTGATGTTATCGCGTACAAATTGTTATCCACACTTCCTACGTATATCGTCCCATCTTGCCCTATCGCTGGACTGGATCCTATATCATTCTCTGTTTCATACCTCTACATAAAAACGATATATTGGTGACTCGAATACCCTGCCTTTATCTGATTTTGCTGCTACTTTCCAATAATATATTCCTTTTTCATTTATTTCTCCTAAATTATAACTATTTTCTGTTTGAGCTTCTGATACTTTTAATAAGTTATCTTTTTCTGTTCCAAAGTACACGTCATAGGTTAAATTTCCTCCATTAACACTTATTGCTTCCCATTTTAATCCAACTAATCCTTTGTCTATACTCTTATAATTTTCTGGGTTTATTGAAAGTATCTTGGGTATTGTGTTTCCTCTTTTTACTACTCTAAATCCTAAATCTTTGTACTTATATGTTTTTGTATTCATATTTCTATTTGATACTCTTACATACTTTGAACTTTTAAACCAGCTTCCTCCTTTTTTATATTAAAAATATTTTTTTATCTTGATTTATTCTTTAGTTTTACTTTTAAATATTAATATATCAAAGGTGTTTTTATTTTTCTTTATTTTTTGTACATTTACACAATTAACACATTTTATAACACTTACAATAACATATTGCGAATAACTCATTATTATATCATTTTTCTTTTCAATAAACAAGAGAACCATACGTTGTATAGTTCTCGACTTATTTTACATTATATTTTATTTATATCATAATTGATTACTCATATTTTTTATTTTTTCAATAGATAACTTTGTTGTTTTAGAAATAATTTCTATATCAACTCCATTTTTTAATAGTTCTTTTGCCATTCTTTCTTCTGGAGTTACTTCAACATCTTTATCCAAATTACTAACGATTTCAACCTCTTTTTTATCAAAAGCTATTGAAACTTTTATTATATCATTTATTCCATAACTTTTTATCTCTTCTTCATACTTCTTTTCATTTATTTGTTTTAATCCATTTTGTGCACTGTTTAATAGTGTTTTTTCATTTTTATAAAACTTTTTAAACTCTATTATTATTCCTTTATCTGTTTTATCTTTTGGTATTAAAATAACATCTGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATGTACTCTTCTTTCAAACCAACGCTCATTCCAAGTATTAGTCCATGATAAAATCTTTCTGGTTCTTCTCCACTAACATCAAAGTAACTCAATGTATTAATAGTTAGTTTTTGAAAGTCTTCTTTAAACTCTTCTATGTATCCATTTATTAGGTTCAATAGTATATTATTAATGTTTATATTTGATTCTCTCAACATATTTCTAACTGTTTGTACAAAAAAATCTTTTACTTCTTCATTTGGTATCTTTACTTTATACATTGTTATATTATTTTTTCTTTTTTTACTCGTCCACTTTAAGTAACCACTAAATAAAAATAATGTCCAAATTGCACTTTCACTATTTAAGTTTAAATCACCATAAACCATAGTTTCTATTATTTCACACTCTACTTCTTCTCCATTTATTAATTTTTCTACATTATCTTTTATATTAACAGTTCCTTCTTTTATTAGCTTTCTTATTAAATAATTTCCACTCGTATTCATCCAATATGGTCTTATTTTCCCTTTATTCTTTGCAAGAGTTACTATAGAAAAAGGATTGTATATTTCAACACCACCAAAGTTATAACCATTGTACCAGTCTATAACTTCATTTTCTTCGTATTCAAGTTCATAATACTTCAATACTTCTTCTACTTCTTCTTTAGTTAAACCATACTTATCATTGAATAGTTCATTTAATACAGTAGAAACTTCTAAATTATTCACACCAGTAAAGATACTTTCTTTAGAAACTCTTGTTATTCCAGTAAGAACTGCTTTTTCAAGGTATACATTATCTTTTAATGCCATGCCAAATAAATTACCTATTAAAGATATTATTTCATCATAATAACCATGTAAATAAGCTTGTTGAATGGGAGTGTCGTATTCATCTATTAATATTATTACTTTTTTATCATAGTATCTTTCCATATATTCTGATAAACTTCTTATACAATTTTCATAATCAGCATCTAAAGCTTCTCTACCCATTATTTTATTGTATACATCTTTTTCCCTTTCATTTAATACTTCAAAAACATATTCATGTTTTATATACAACCTTGAAAGCTCCATAGCTAATAAATCATGCATTTTTTTTAAGTTATTAGACTTTAAATCCTTAAAGGTGATGTATATAACGGGGTGTTTATTTAAATGTTTTTCTATTATGTTTTTTTCTTTGTATATATTTAAATCTTTAAAGAGGTATTCATTGTTTTGAGTAATATCAAAAAAGTACTTCATCATAGATTGACTAAGAGTTTTCCCGAACCTTCTTGGTCTTGTTATTAATAAAACATCTCCACTTTCAATAACTTCTTTGATTAACATACTTTTATCTACAAAATACATATTATCTTCAATTAAAGATTTAAAGTCACTTCTTCCTATTGGCAATCGTTTCATAGAATCATCTCCTCATTTCTAATTCTTTATATACTATTATATCAAAATTACTTTAAAATATTAAAAAATACATTAATTCTTAATAAGAAAAAATTTAAAATGCTTGACTTCTTTACAATCGAGAAATCAAGCATATAGATAATCTAATTTTCATTTAACTTAGATTATCTATCAGTAGGTATCTTATCTGTATGATTTTTTATATAGAAAAAAATTGTTTTGCTATTTCAACAGCTTTTTGTGCATCTTTAACATAATAATCTGCTTTTATCATATCAGTATATTTTTGATTTAAGACTGCTCCTCCAACCATAATTTTACAATCTAATTTATTCTTACGTATTTCTTTAATTATATATTCCATACTTTTAACTGTTGTTGTCATCAAAGCGCTTAGTCCAACTAATCTTATATTTTCTTTTTTTATACTTTCTATTATTTTTTGTGCTGGTACATCTTTACCTAAATCTACTATTTCGTATCCATAGTTTTCAAGTATAACTTTTACTATATTTTTTCCTATATCATGAACATCACCTTGAACAGTTGCCAAAAGTATTTTTTTTCCAACTTTTTTTTCTTCTCCTGACTTTAATATTATTTCTTTTATTAATTCAAATGATTTTTTTACAGTTTCTGCAGATCTTATAAGTTGAGGTAAAAATATTTCTTCTTTTTCATATCGTTGTCCAACTATATCCAATGCTGGAATTAAAAATTCATTTATTATTTCCATAGATTTTTTTTCTTTTAGCAAAATTTTTGTTGCTTCAATTGCTTCATCTTTTAAACCATCAATTATTATTTGTTTTAAATCTATTTCTTTTTGCATTTTAATTTCTTTATTTAATTTTTTTTGTATAACTTTTGAATACTTTTCTATAAATTTCTCTGATTGTTTATCTTGATTTGATAAAACTTTATATGAATAGATTATTTCTTTTATTTCTTCTTTTTTAGGATTTAATATTGGTGCATCAACTCCAGCTGTTAAAGCCATTGCTAAAAATGTTTTATTTAATATGCTTCTATTTGGAAGGCCAAAAGATACATTACTTATTCCCAAAGTTGTTTTAACATTAAATTTTTCTTTAACCATTCTAACAGCTTTTATTGTTTCCATAACATCTTCTTGTTGTGCTGATGCTGTTAAAACTAAACAATCTATCAATATATTTTTTTTATGTATTCCATATTTTTGAGCTGTTTTTATAATTTTTTCTGCAACTTCAACTCTTTCTTCTGCCTTTTTAGGTATCCCTCTTTCATCTAAGGTCAGTCCTACTACACATGCTCCATACTTTTTTACTATTGGAAATATTTTTTCCATACTTTCTTTTTTACCATTTACAGAGTTTATTAATGGTTTACCATTATAAATTCTAACTGCATGTTCTATTACTTTTGGATCTGAACTATCAATTTGAAGTGGTAATCCCATTACTGATTGTATTTCTTTTATAACTTTTATCATAATTTCTTCTTCGTTTATTTCGGGAAGTCCCACATTAACATCTAAAATATCTGCGCCTTCTTCTTTTTGATTTATTGCTTCTTTTATTATATAATCTAAGTTTTTATCTCTTAATGCTTGTTTAAACTTCTTTTTTCCTGTTGGATTTATTCTTTCCCCTATTATTTTTAAAGTTTCACCTATCTTTACAGTTTTTGAATATGATGAAACTGCCGTGAATTCTTTTTCTTTTATTTTTTTTGGTTTTACTGTTTTTAATTCTTTTGTCATTAATTTTATAAATCTTTCATCTGTACCACAACATCCTCCTATTATCTGTGCACCCATTTCAACTATTTTTTTCATGTGAGTTAAAAATTCTTTTGGAGTAATCTTATACTTTGTTTCACCATTTTCTATTTCTGGTAATCCAGCATTTGGTTGAACCATAACAGGTATTGATGAATATTTTATAATTTTTTCTACTATTGGTATAGCTTCTTTTGGTCCAACAGAACAGTTTAATCCTAGTGCATCTACATCAAGTCCTTCTAAAACATTTACCATTGTCAATGGATCTGTTCCAGTAAATGTTCTTCCATCTTCTGTAAAAGTCATTGTACAAAAAACAGGTAATTTTGTATTTTCTTTTGCAGCAAGTATTGCTGCTTTTGCTTCATATAAATCTGATATTGTTTCTATTAAAATTAAGTCTGCACCTGCTTTTTCTCCAGCTATCATTTGTCTTTTAAACATATTATATGCTTCTTCAAACTTCAATGTTCCTGATGGTTCTAATAATCTTCCTATTGGTCCTATATCAAGTGCAACATATTGTACTCCAGTTGCACTCTTTGCTATTTTTACAGCTGATTCAACAATTTCTTCAACAGTATACTCGGTTCTTTTTAATTTAAATTCACTTGCACCAAAAGTATTTGTTGTTATTATTTGTGCACCTGACCTTATATATAGTTCATGTATTTCTTTTATAATATTTGGGTTTGTAATATTTAATGTTTCTGGTAATGTTCCAAGTTTTAATCCTTTTTTTTGTAATTGCGTACCCATTGCACCATCAAAAAATAAAAGCTCATTTTTTATTCTTTCTTTAATATGCACATGAACCACCCTTTCTTTTAAAACTACAATTTAACTTACATCCATCGCAACCATATATATTTGCAACACTATTTTCTTTTTGTAATCCAATAATTGCAGTTACTGATTTTTCAGGTATTAATACATTATTTTCTGTAACATCCAATCCTATTTTTTTCCTTGTATCTAAAATATTTACTATTTCTTGTTGAACTTCTATTGAAAAATCTCCATATCCTGGACTGTATCTTGGAGTTATATAATATGGATACATTTCTTTTTCTATAATACTTTGAACTTCATCACAACTTTTTTCAACATAAACAGAAGCACAAGCATTAAAAATAACTGCTTTAGTCATATCTTTTAATTGATAATAACGTAGTTTTTTATCAATTTCAAATCCTATAGTAACTGCCATAATTGCACATTTGTCTGATGCTCTTAAATGAGTTTTTATATTTTCACCTTTTAATAAAACCTCTGTTCCACTTAATAGTATTCCTTCTTTTAATTTTTCTAAATCAAAAATTTTAAATGTATATCTGTAAATAGAAGTGTTTTTTACTTCTTCAATACTTTTATCTATTAAAAAATCTAATTTATTATCTATTTTTTGATTTTTGTACCCTAAATACCTTAACACTTCTTTTTTAAACTCCAATTTTATTCCTCCATTTTTATATTGATTTTTAATATAGATGTTATTCTTTTTACAATTTCTTTTGCTATTTTAGATTTATTCATAACATATAAGTGAATCCCATCAACTCCAGTTGTTAAAAGATCTATAATTTGATCACATGCATATGTAACTCCTGCATCAATTAATGCTTCTTTATTATTTTCGTATTTATTCATTATTTTTATAAATTTTTCTGGTATATTTACTCCACACATAGATACTATTTTTTCAACTTGTTTTTTATTTACTACTGGCATTATACCTGCTTGAAGTGGTATATTTATATTTCTATTTTTTAATTTTTCTCTAAAATCATAAAAATATTTATTATCAAAAAATAATTGTGTTATTAAAAAATCCGTTCCTGCATTTACTTTTTTATTTAAATAATATAAATCTAAACTTTTATTTCTTGCTTCTATATGTCCTTCAGGATAACAAGCTGCACCTATACTAAACTTCTTTTTTTTAGATATGTATCTTATTAAGTCTTCAGCATAATTAAATTCTTTTTTTATATTTTTATCGTTTGGAATATCTCCACGTAATGCCAGCACATTAGATATGTTGTTTTCTATCAATTGATTTAATATTTCATCTATTTCTTTTTTACTCGAATTTATACATGTTAAATGAGAAAGAGGTTCAATTTTATATTCTCTTTTTATAAAAGAAGAAATTTCTACTGTTTTATTGTTTTTTATACTACCCGACGCCCCATAAGTAACACTTATATAATCAGGATTCAATTGTGCAAGTTCATCTATTGTTTTATATATTGTTTTTATATTTGATTCTTTTTTTGGTGGAAATATTTCAAAAGATATAACTGGTTTCTTTTCTTTAAAAATATCTTTTATGTACATAAATATCACCTCTCTATTTCTATTTTACCCCAACTTCCAAGAGTATTATCAACTATTATTAAAATTCCTATAATATTTTTTATAGAAGTTGCAAATTTTATTCCTTTTTTTATATCTTCTTTTGTTTTAATAATATTTCCAATTGCTGTTGCCGTTGCATCAGCAAGTAATGTGTCTTCAGATAAAACTACCACTGCATCTGATTTTCCAAAACTCAAAGAATGTCCAAACGTTCCAGAAGATGTACATATTCCAAGTTTTTCATAATTTGGTTTTATCTTTAAAGATAGTTTATTAGAAAATTTAGATTTTCCAGCATATATTTTAATCTTTCTTTCCTTTTTTGTTTTTAAAAATATATCTCCGCCATTTTCAATTATTACTTCATCTGTATACTTTAAAAGTTCTATACCAACATATTCTGAAATTGCACCAGCAATCGCAGCCATTGGTCCAACATTAGTTAATTTACTGACTTTAATCATATGCTTTACTATTTTACTAGCATTTTCTTTTTCTACTATTGGTACTAAACTTTTATAAAATTCTATATTTTTAGCTGAATAATTTATTATTTCTTCTCTATATTTTTTTACCATTTTTTTTGTTATCTTAGACAAATCTTTTTTTGCAGAAATAAACAAGTCTGTTTCAAATTCCATTACTCTAAAATTTGTCATATCCTGACTTTTCATTTTTTCTCTATAATCTCTTACTTCATACAAATCAATCATCTTCTTTCATTTTTTTTACTTTTTTATCTAATGGAAATACTTCAAGTGGTTTAGTTAATAAAAAGTTTCCATTTTTTATTTCATCTTTTAATTCATTTGCAATTTTTCTAGCTTTTTTTAAATTAGATATTGATGCAGTTCTAACTTCTTTTCCATTTATTTTCACCATACCACTTTGAAGTTGTTTATAATTTACCTTTTTTATTTTTTTACCACTACTATAGTCAATAATATTTGTTTGTATTTCTTCATTTTTTATTGTTGTATATTTTAAAATTTCTTCATTTAAGATTGGAATTGGTATTCCAATACCAATAAACATTGATATTCCATAATTTTTAAAAATTACAGGTTGTATATATTCTTTATTCATTTTTTTTAAATCTCCTATAACCGCTAATGTTCCTGCAGGTGTAATTGGCACTCCTCTTTCATTTCTTTCTGCAGAAGAATTAAATTGTGTACCCATCCAACTTACATATCCTTGAGTTCCTGCTAAAAATATCTTTGTTCCTATTCCTATCGTTTTATAGTATGGATCATTTAATAGTGGACTTAACTCTCCTGTTGTACTATAGTTTATATTACCCATATTTGGTCTTAAAGTTCCCATATACGTATAAATTTTTTTATCTGAAGCGTTTGTTGCCGCATTATAATTTTGATAAACATTTCTTGGATTAAATAAATAAGCTTCATTTATATCTTCTTTTGTTATGTATGTATCAACATGTTTTTTTGGATAACAATCAGTTCCATTTGAAGTTGCTTCTAAATGTATTTTTTTCCCAGATATTAAGTCATGTATTACGTGTGCTCCACCATATTTTTTATTTTTACTCTCTTGAGATGCCCCAATATATGAATCAACTGCAGCTAATCCAGAATATGCTTCTACACCATTCAAATAAGTTTTTTGCATTCTTATTGGCGGATTTGAATGTCCAAAATTTAAAAATGCTCCACTTGAACACATTGGCCCAAAGGTTGCTGTAGTAACAACATCCACATACTCTGCAGTTTTTTCAATTCCAATTTCTTCAACTATATCTATAATTTCTTCTGCTGTTACAACAACAGCTTCACCTTTTGAAATTTTTTCATTTATCTCTTCATAAGTTTTCATACTTCTCAACCTCCTTATTTTTTTCAATTAACTTTTCGTGTAATTTTTTTAAACCAATTTCTGAGTGTTCTTTTGAAACAATACAAGAAATTTTTATTTCTGAGCATGAAACCATGTCTATTGGTATTTTTTCATTTGATAATACTTCAAAAACTTTTGCTGCAATTCCAGGATTAGACTTTATTCCATATCCTATTACAGATATTTTTGAAACACTTTCATTAAACTCCACATTTTTTGCTTTTAATTTTTCCTTTATCTTATTACTTACACATAATGCTTTCTCAAAATCATTCTTACTTAAGGTAAAAGATATATCTATTTCATCTTTTACTTTGTTTTCTACAATTAAATCTATGTTTATACCTTCATTTGCAATTTCCTTAAATATAGTATTTAAAACATTTATAGAGTAAGGTATTCCTTTTATTGAAATTTTTGATTCGTTTTTTGATAATGTAATTCCTTTTATTATAGGTTTTTCCATATTTTTAACCCCTCCAACAATAGTTCCTATTTCTTCTGTAAATGAAGATCTTAAATGTATCTTTAAATTATTTTTTGCAGCTAATTCAACACATCTTCCATGAAGAACTTTTGCTCCAGAATCAGCCATTTCAAGCATTTCTTCATAAGAAATTTTTTGTATTTTTTTTGCATTATTTACTATTCTTGGATCTGAAGTATAAACTCCATTAACATCTGTACATATATCTACCTCCTTTAATCCTAAAGCTGCAGCAACTGCTGTTGCTGTGATATCTGATCCACCTCTTCCTAAAGTCGTTATTTCATTTTTTTTGGTAACTCCTTGAAAACCTGCTAAAATTACTACATTATCTTTTTCTAATTCTTTTTTTATTCTTTTTATATTTATTTTTTTTATTTTTGCTTTATTGTAATTCTCGTTTGTTAAAATACTCGCCTGCCAACCTGTAAATGAGATGGATTTTTCTCCTAAATTTTGTATTGCCATCGATAATAAAGATATAGATACTTGTTCACCAACAGATAAAATCATATCTAATTCTCGTTTTGATGGTGTTTTTGAAATTTTTTTTGCCTTTTCTAAAAGATCATTAGTCATTCCAGCAGGAGCAGAAACAACAACAATTATTTTATTTTTTTTCTTTAATTCAACTACTTTTTTTGCTATCTTTTCTATTCTTTCAACTGTTGCAACTGATGTTCCTCCATACTTTTTTACTATAATATTCATTCTTCCCTCCTAAAAAAAAAATCGGTTGTGAATTTATCTTCACAACCGATTTAAAGCTCTATTATGTCAATTTATATAACAAAAGACATGGGCATAAAAATCGGTTATGCCACACATCCACATATTCATATTTATTTTCTTTACTATTTTTATTACATTCATATAAATTCCTCCATAAAAAAATGTCTCTTTCATTTGAAAGAGACAATATTTTTTATTATCTTTCATTTCAAATGAAATGCTGGATTTAGCACCACACAAAAATTGCAGGTTGCTGAAAGGTCATAGGGCCAGTCCCTCACTTTCTCTTGATAATTTTATTTAATTTTCAAAATAATACCACAAAAATATTTTTTTGTCAACTGTGTTTTTTTATAATTTAATACTTTATTATTTATACCTTTTTATCAATTCTTTTAGTCCTGAATCAGTATTTCCTTCACCTATAGCACCAAATTTCCATTCATTATTATGTCTATAAAGTTCAGCTACTACTAAAGATGTTTTATTAGAATAATCATCACTTAAATTATATTTAAGTAATTCTTTTTTTCCTTCAATATCTACTAATCTTATGAAAGCATTTTTTATCATTCCAAAGTGTTGTTTTCTTCTAACACAATCATATATATTTACAACAAATACCAATCTGCTTATATCACTTGGAACTCTTGATAAATCAACAAATATTTGTTCATCGTCGCCTTCTCCTTCTCCTGTTAAGTTATCTCCTTGATGAATAACACTATTTGCTTTATCATTTAAATTTCCAAAGTAAACTAAATCAGAGTTACTTTGCAACTTATCATTTTTCAACATTAAAACTGATGCATCGCAGTCTATATCTTGATTTTCTTTAAAAAGTGATTTAAAAAAACCTTTTGCACTTTGTTCAACAGGATCCCAACCAAGGCCCACCATTATTTTAGATAAGCCTGCATAATCCTTAGATAAATTTATTTTTTGTCCTTTTGTGAGATTTATACTCATAATATCATCTCCTATACATCAAGTCCATAGTTTTTTACAAGTGCTGCTAAACCACCTGAAAATCCACTTCCTACTGCATTGAATTTCCATTCATTATTGTGTTTGTAAATTTCACAAATAACTAAAGCAGTTTCTACAGAAAAATCTTCTGTTAAATCATATCTTAAATATTCTTCGTTTGTATCTTGATTTACTATTCTAACAAAGGCATTTGATACTTGACCAAAGTTTTGTTTTCTTTGATCTGCTTCAAAGATAGTTACTGTTATAGCAATTTTTTCGATATTTGAAGGGATTTTTTCAAAATCTATTAAGATTTCTTCATCGTCTCCTTCTCCTTCTCCAGTTCTATTATCTCCTGTATGAATAACTGCTCCACTTGGATGTTTTAAATTATTATAAAAAACAAAATCAGTTTCTGATGTTGCTTTTCCATTTGCATCTAATAAAAAAGCTGATGCATCTAAATCAAAGTCAAATCCTCCATCATATTTATTTGTATCCCATCCAAGTCCTACTATAACTTTTTTTATTCCTGTTCCTTTTGTCAAATCTACTTTTTCACCTTTTTTTAAACTAATAGCCATTTTTTTACCCCCTTTTTTATCCATTTATTGCTTTTATGACAACATAAACTATAAAAAGCAAATAAACTATGCCCATTATCCCTGCATCTTTTTTATGCATTCCTTTTTTCTTCAATAATAAAATTCCAGTTGTAAACATTGAAATTAATAAAAATCCAAACATACCTGCATTTTGAGATAGTTGAACTTCTATAGTTCTTCCTGCTATAACCATTGGTATTCCAAGTCCAACACATATGTCAAAGATATTTGATCCAACAGCATTTGAGATAGCTCCATCAGCATCACCTTTTTTAGCAGATTTAACTGATAGTAATGTATCTGGTATAGATGTTGCTGCTGCTATAACAACAACAGAAACAATAAATGGTGGAACATGTATTGTATTTGATATAACTAAAGCTGAAGCAATTATTGCATCAATTGATATCCAAATAATAGCCATTGCAACAACTATCCAAAATGTTATTAACAAATAGCTCATATCTTCTTCTAATTCTTCTTGTTCTTCTTGATTATTTCTAAAATCTTTAGTTTGAAGATATAAAACATATATATATGCAGAATATATTAGTAATAATATTAAACCTGTATAAATGTTAAAGTATCCAATATATGTAAAAATAAATAATGTAACTATTGATATTAAATAAAAAATCATATCTCTATAAACATATTGAGCTTTTACTTTCAAATTTAAATCAATTCCTTTAAATGCTAATATACTAACAAGAGGTATTAATAATATATTAAATATTCCAGACCCTGCAATAGTGGCAACTCCAACATCATTAAATTTATGATATAAAAGAACAGCTATCATTGCTGTTGCAAATTCTGGAAAGGATGAAGCTATTGCATCAAATGTTGCCCCACGAACAGAAGTTGGGATATTTAACTTTAATCCTGTAATATGTAAAACATCTCCTAATTTATCTGATGCTACACTAACTAAATAACTCATTACAACTAATACTGGTAAAGCAATCCAAATATTTGTTATCCACTCAAACATAAAAGTATCCTCCTAATTTTATATTATTTTTTTTAAGCATCAAGTCCATAATTTTTCACAAGTGTTTCTAAACCACCTGAAAATCCACTTCCTACTGCATTGAATTTCCATTCATTATTGTGTTTATAAATTTCACAAATAACTAAAACTGTTTCTATTGAAAAATCTTCACTTAAATCATACCTTAAATATTCTTCATTTGTATCTTGATTTATTACTCTAACAAAGGCATTTGATACTTGTCCAAAGTTTTGTTTTCTTGTTTCTGCATCGTGTATTGTTACAGCTATAGAAATTTTTTCGATATTCGAAGGAATTTTTTCAAAATCTATTAAGATTTGTTCATCATCTCCTTCTCCTTCTCCAGTTTTATTATCTCCTGTATGAATAACTGCTCCACTTGGATGTTTTAAATTATTATAAAATATGAAATCAGAATCTGATGTTGCTTTTCCATTCGCATCTAATAAAAATACTGAAGCATCTAAATCAAAGTCAAATCCTCCATCATATTTATTTGTATCCCATCCAAGTCCTACTATAACTTTTTTTATTCCTGTTCCTTTTGTTAAATTTATTTTTTCCCCTTTTTTTAAATTTATAGACATTTTTTCTCCTCCTTTGAAAAAATTAAATTTTTTTATTTTTTTTTATAAAACTAAAAATATTATACCTCAAAATTAAAAAAATTAAAAATTTTTTAGTTACAAATTAATTAATATGCTTGATTAATTAATTAATTTACTATTGTTTTCCTAAAAAAATGTGATATACTAATAATGAATTAATTTTATAAAAAATAAAATTTTAAATCTTTATATTAAAATGAGGTATTAAAAATGCTTAATATAGAAAGAATTATTATTTCAAAATCAAAAAAATCAAATAACTTATTAGAAGATTTAAAAATCAACATAACAAAAAGAGTTGACTATTATTATCATAAATCTTTATTTGTTCCAGTTTATTTTTATAGAATTGTGGGAAATGAAAAAACATTAAATTACATCAAAAATTCCTTAAATGATAAAAAATATATACTAATACAAGCAAAATCTTTTAAACAAGATGATAATCTTTTATCTTTAATAAAAAATACATACAATGAAAATATTAATATGTTTTTCAAATCTATAAAAAATACCAACTTTTTCAATATAACAAATACTAAAATTTTAAATGATAGTATTGCAATCGCTTTTTATAAAACATTGAAACTTTATGAAAAGAAAAATAATAATATTACTAAAATAAAAAACTTTTCTTATAAAATGCTCTTAAAGATAAAAGAATATTCTAAAGACATTTGTATTGATGAAGATAACACTAAAATTTTATACTATGGAAATATAAAAGAACATGATATATACTTTTTATACTTTTTATTTGAAATAGGATGTGATATCTTATATATAAATGAAAATGACAATGAATTTGAAAAATTTGATTTTATAAATGAAATATCAAATAAAACTACTATACAAGTTCCAACAAATTTTAAGCTTCAATCAAATAAAATACATAATGAATCAAATATAAATAAACTTCCATTAAATACTTTTCATACAGATGATATAATAACAACCTTAAAAAAATCTGATGATATTTTTAGTGATTTTTTTCTTCCTCTATCAAAAAGACATAATTATGTAAATGGTGAAAAAATTATTCTACCTGTATTTTTTTATAGATATATAGGAATTAAGGATAATGAAGTTGATTTTAATAATGAATTATTTCATTTTGATAAGAAATTATTAGAATATGGAAGTAAATATATAAAATTTATAAATAAAATACCATTTAATCCTCAATTTATGCCTAATTTAAATTGGATGAGTCTAAAAACTTCTGAAGAAATTGTACAATATTTAAATCAAAATTCTGCTTTCTTTCAATTAGAAGATAAAAAATATAAGTTAAAATTGTTATCTTCATTTAAAGAAATTCTATATTTATTTTTAATAGAAGAAAATAATCCATCCAAGATTAAAAATTTTGTATTTAAATTTATTTCTTGGATAAATGAATATTTACCAAACCTAATATCAAACTTTGATTATGCCAATAAATTAAATAAAGTTATAATCAATCCTAAAATTTTATATTATGGTGAAATAAAAAAACATGAATTTTATTTTTTGATATTTCTATCAAAAATGGGATCAGATATTCTTTATATAAACAAATTAAAAGATGTTACATATGATCTAAACAATAAATATTCAATTCCATTCTTATTAGAAAAAAGATGTGAAAATACTCCTTTTCCACAAAAAGAAGTAATAACTAGAAAAGAAACAACTGCGTATAAAGCTTCAGAAGAAATAGGAATGATAATACACAATGAAGAAGATGGTGTTTATAAACCTTGGCAATTTCAAAATTATTATCCAAAAGCTGTAACTTTAAAAACAACTTATGATGAATTAAAAATCTTATGGAATAATGAATCGAGAATGAGAACAGGTTTTAAAGTATTTAATAAAAATATTTATATACCAAACATTTTTGCTAAAATAAGTGGAACTCATGAACAAATAAATGATTATTGGTCTGATTTATCTTCTTTTTTAACAGAAAACACTTTGTTTTTTGAAGAAGTTCCTTTTACAAAAATAACTTATACAAAACAAGAACTTTATAAAAGTGCTTTTTTATTTAAAGATAATAAAATAAATAAAGAAGAATTATTAAATTATGAATTTTATAAGTTTGGATATTTAAATACAGGCGTTCAATCTTCTATTATAAATAAAATAGAAGAATTAATAGAACTTAATCCATTTAAAGAAACAATGACTATGGAACTTAAGCTAAAAATATTAGTTACAATTTTAGAATTACCTAAAGAAATAGTTAGAATGATTCAAAACTTTGATTATCCATTTATTCCACCTAAAATTGTAATTTATGATAATACAGAAAAGATGTTTAGCATTGAAGATTCTATTATCATATCTTTTCTAAACTTATTTGGATTTGATATTTTAATACTAACTCCAACTGGATACAATAACATAGAACAAAAAATTAAAACACAGTATTATGATATTCATAAAATTGGTAAAAATATCTTCGATTTAAACTTACCAGATTTAAAAAAATTAAAAAAACAGAAAAAATCAATTTGGTCTATTTTTTCAAAAAAATAAGGAGGAAAAAAAATGGCTGATGAATTTAAAATTGAAAATGAAAACATTGAAGAAGTAAAAAATGAAATAGAGTTAAAAGTAAAAAATTCTCCAGAAGTACAAGCTATATCTTCACAAATAGATTTTAAAAATGTTGAATCAATATTGACCTTCGGAAAAGAAACTGCTGAAGAAATATCAAAATTTGCAGATAAAATTTTGAATTCTATTGAAACAACAAAAATAGAAGATTCTGGAACGCTTTTAGTTCAATTAAACAAGATCATGGATAAGTTCGATATAAAGGATTTTAATGATGCTGAAAAAAAGCAAGGTTTATTAAAAAAATTATTTAAAAAAGCAGAAAAAACTATTGATGGGTTATTAAAAAAATACCATACAATGGGTGGAGAAGTTGATAAAGTATATATTCAATTAAAAGAATATGAAAATGAAATTACTCAAAGTAATAGAATGCTTGAAGAAATGTTCAATAAAAATATGGAATATTATGAAACTCTAGAAAAATACATTCAAGCTGGTCATATTGTTGTTGAAAGATTAAAAAGTGAAATATTACCTCAACTTGAAGAAAAAACCAAATCAGGAGAACAAATAGATCAAGTAAATTATTCTAATGGTTTACAGGTTCTTGAAATGATGGAACAAAGAATTTATGATCTTGAACTTGCAAAAAGTGTCGCTCTCCAAACTATGCCACAAATAAAATTAATTCAAAAAGGTAATTATAATTTAATAAGAAAAATAAACTCTGCATTCATAATAACCATTCCTATTTTTAAACAAGGATTAAACCAAGCAATAACTCTTAAAAGGCAAAAAATTCAAGCACAAGCAATGGCAGCGCTTGATGAAAAAACAAATGAACTTTTATTGAGAAACGCTCAAAATACGGCTATGCAATCAAAAATGACTGCACAACTTGCAGGTAGTAGTTCTATAAAATTAGAAACATTAGAAGAAACTTGGAAAACTATAATGAAAGGCATTGATGAAACTCGTGAAATTCAAGAAAATCTAAAACAAGAAAGAATAAATGGTACCAAAAAACTTCATGAACTTCAAAACGAATATAATAATAAGATAAAAAAATAATGGATAGTCTTAGACTATCCATTATTTTATAAAAGTTAATTTATTTAAATTATATTTAATTCCTTTCTCGGGTATCGGAGATAATTTTAATAAATTTTCATCAATAGTTTTTAATTTTTCTATTCGTTTTAAATCTTTGTCTGTTTTAAACCGTTTTAATTCTAATTGCTTAATTTCTGGTTTGATATAAACTTTTGAAATTAACTGAAATGTTCCTGAATTTAACCTTGAAAAAAGCAGAAATACTGTATCAATTTTCCAAATAATAGGTGCATTTTTATACAGTTTTTTATGTGATTTTATATAATCTGTAATTAAATATTTTTCTATTGATTTTCCAGTAAAAGAACTAAAAAAATCATCTGTTATACCTACTTTTTCAAGATCCAACATTATTCTTGTTGAAAGCGGTTTAATCTTTTCTTTAGTTTTTTCTACATCTAAAAAACCATATTCTGATTCCTTAAGAATCTTTTTTATTGAATGATCTATTGCAAGAAACAAATATTCTTGTACTCTGTATCTTGATAAAACATTACCTTTAATACTTTCTTCAAAAATTATTAAAGGGTTTAGTTTTAATTCAGTAGAAACTTTTTTTATTTGATTATCATAATCTATCTTCCAACGTTTATAATAAGATTTAAGTATTTTATCTTCAGTGTTTATTTTTTTAGTTTCTACTTTTAATGCTTCTATGTATGAATCTATATATTTTTGTAGTTTTTCAACTTCACTTTCTTCTATTTTAAATTCTTTTAAATAAGTTTTTGTCAATATATCCTTTAACTTAAGCAAATGATTTGTATGATTTTTATTTATCTTTAGCCATCCAACTGGTGTACTCATTTCTTTTAATACCAATTTAATATCTTTTTCATTTAAATTATAGAGTTCAAAAATAAGTTTATCTGCTATACTTTCAAATAAAGTCAAATATGTATCTAAAGAATCCCTTTTCTTTATAAAGTTTTTTATTCTCTTTACAGTATCCGTTTCTGTAATTAATGGCAATTGATTACATTGTAATTGATGTAATGGTGATCCTTTATAATGTAGTTCTATTGGATATATATCTAAGTTTTGTTTTTTTATTATTATTAATATTTTTCCTAATAAATCTAAAAATTTTGTTTTATCTATATCTTCAATTATATTTTTATGTATTGGAAGTTTTTTTAAATCTCCAACTTCTAAATCCACACTTCCTGCAATAAATTTATATAAAAACCTTCCAAAAGTACTATTTAAAATAGTTAAAATTCTAAATTTTAACTTTTCTTTTTTAAAAAATATAGAACTTCCTTTACAATCAAACATGAAATTTTTTGGTAAATATCTAAAAGTAGAACCTTTAGAAGTTGTCATTGAATAAGTTATCCCTTCTCTAAAGTAATACTGTCTACTTGGCAATTTATTTCCACTTTTTTTCAAAAGCTCTTTATTTTTATCATCATAAGCTATTACCCACCATAAATTACCATACCACATATTGTATGGTCCACCTTTAGAATAAGGTATCCATTTTTTATTTATTTCTTCTTTGGCTACTTCCCAATTGTATCTTAAAAACCTTTTATTATCTCCTGTTGCTATTCCTTGTCTTACATCAGCTATATCTTTTAATTGTAGATTAGAAAATATATTTAACAATTTTTGATTCATCCAATAAGCAAATGGAAATCCTGGAATCTTCTTAAAATTATTGTTGTCTATATAATAAACATTTCTTGAATATTCAAAATTTTTATTTTTCCATATATAAAATAATTTTTCTTTTTTATTCTTACTTTTTGTTAAATCTATATAAGTACCATGATTTAACTCTGATTTTTCCATTATATAAGCAGCAGTATCAACAAGTGCATCATTAAATACTCCACCAAGGCCAAATTGAACAAACATTCTTATATTCATATTGTTTAATATAAATTCACGTGTTTTTTGATAACTCGATATAAACATAAAAGTTTGTGGTGTAATCATTCCAAGTAATCCTTCATCTTTTAAAAAATCATAGTTCTTTTTTATAAAACAAGTATATAAATTTTTTTTAAAGTTTGTATACAATGAAAAAATCTTTTCTTTTAAATCTTTACTATAATTTGATGAATCAGTATATGGAGGATTTGATAAAACTATATCAAATTTTTGTTCAAATATTGTATTTTTTTGAAGACTTCCCAAGTCATCTGAAATACTATGTATATTAAAATTTAAAGTTTCAAAACAATTGTTTTCTAATGCTTTCAATTTTAAAATTAATTTTGTTGTTTGAATGGCTCTTTTATCTACATCTAAACCAAATAAATTATTTTCAATTATTAATTTTGAAGCATCTTCTGAGGATATTCCGTTTTCTTCATACATTTCAATTAATCTATCATAAGATTTTATTAAAAAATGTCCACTACCACAAGCTGGATCTAAAATACTTATATTTGATAAATCTTTATACTCTCTGTTCTTTTTAGGGATTATATTATACTTTTCTTTTAAATGTGTATACTTATTTATTTCAGAATAATAAGTTGTTAGTGTATTATCCACTAAAAATTCAATTATCCATTCAGGCGTATAAAATTGCGATTGAATTGCTATACTTTTATTATTTTCACGTACATCATCATTATAATATTGATAACACCATCCTAAAATATCATCTTTATTCCAATCTTTTACTAAATTTAATTCATTCATTATTTTTTTTAAAGCATATCCAGATAGAGAAATTTCTGGTTTTAAAAAAAATTCAGGTATTTTTTGATAAAGTTCATTAAAAGCTACTTGAAATACTTCATAATAAAGTTCCTCTGAATTTTTTTTTAAGTTCATTTTTTTTGATATTTTTTCATATATTAAAGAATCAGTTGATGTATATTCTTCACTTATTAAAAATTTTTCTTGCATAATTTTTAAAGCTACAATAGAGTTAAAGTGTGTAAATACCAATTCTTCAATATCTTTTATCTTTAATTTTTTTAAAGCTATTGAACTTTTTAAATCATTTTGTATAATAGATTTTATTTTTATAATAGTATTTGATAAGTTTTTATACATTATTCCTCCATTTTATAATGAATTTATATTTTTCCTCTGTATTATACCCCAAGAAAAATTTTTTTCAAAATCATTTATATTAAAAATATAAAATATTTCTTTTTTGTTTAAGCTTTTGACTTTAACATATCATTTGTTTTATAATATATATATAATATAGGTTAGATTATTTTATTCTTTGAGGTGATTGATATTAAAAAATACACAACTATTTTATTTTTAATTTTTGGAATTTTTATTTTTTCAAAAAACATTCTAATTTTAAATTCATATAGCTATGACTATACTTGGACAAAAAATATTACTTGGGGAATTTTAGATACACTTAATGAAAAATACAGTACATACATAGAATATATGGATACTAAAAGAAACAATTCTGATGAATATTATAAAAAATTATTTGATCTTTATTATATGAAATATAAAGATAAAAAAATAGATCTTGTTATTGCTTCAGATGATAATGCATATAACTTTATTGAAAAGTATGGAAAAAAATTTTTAATAAATATACCAGTAGTGTTTTGTGGAATAAATTACATACAAAAAACAAATATAAATAGTTCTAAAAACTTTTATGGAATAGGAGAATATGAAGATATTGATGGAACAATAAACATTGCTTTAAGCTTACACTCAAAAATCAAAAATATTTATTTTTTAATAGATGACTTTACTCAATCTGGAAAAATAATGTTTCAAGAATTAAATGATAATATAAACAAATATACTACAAAGTACAACAAAAATTTTGAAATAATTAAAGTTAATCATTTACAAGAATCTATTAAAAAAATAAGAACCTTAAAAGATGGAATAATAATTATTCAAGCATTTTTGAAAGATGCAAATGAAAATATCTTAAGCTTAGAAAAATCTCTAGAAATAATTGAAAAAAACTCAAAATTACCTATTTATGGCATGCTTTATTCTTATTTAGGTCATGGAATTGTTGGTGGAGTTTTAACAAGCGGATACTATCAGGGAGTTGAAGCAGCAAAAATATCAAAAAAACTTTTAACAAATCAAAAAGTTAGCAAAGAAGATATTTTGAAAGCAACGATAAATAGTAATCAAATATTTTTTGATTATAATCAAATGAAAAAATTTAATATATCAAAAAAACTGTTACCTAAAAAATCAATTTTAATAAATAATACACAATCATTTTTTGAAAAGTATAAAAAAGTTATTTTAATATACTTTTTTTCAATTACTATTTTAACTTCAATAATATTATTTTTAATTATAAATATTTATAAAAGAAAAAAAGCAGAAAATATTATTCAAAAACAAAATATGGAATTAGAAAGTAGCTATGAAGAACTTGAAGCTCAACATGAAGAACTTGAAGCTACACAAGAAGAGTTAACAAAAAATTATAAAAAAATCAAATCTGAAAAACAAAAAAATATAGAAATAAATGATAAATTAAATAAAATAATAGAAGTAACAGAAAAATTTAGTAAAATGAATACAACCTTTGATGAATTTTGTAATACTTTATTAAAAGCAGCCATTGCCTTAATACCAGAAGCTGATTATGGAAGTATTTCAATTATGGAAAAGGATAAATGGAACTATATTGCAACTGTAGGTCATGATTTAAATATTTTAAAAACTTTAGATTTAAAACCCGAATATGCATTGCAAATTAATGGAACTCAAGATATTAAAAGTTTTGAAGATTTCCACTTAGGAAATATGCCACAAAACATTAAAGAAAAGTTATACAAAGCTTCAAAACCTATAAAAGAAAGTCTAATGACAAAAATAAATATAGAAGAAAAAACACTTTGGATATGTCTTGATATAGATAAAAAAAGTATTAAAACTTTTAAAAGTTATTCAAAAGAAATAATAAATACCTTTATATATCTTGCAGAAAAGTTCATGCGATTAAATTTAAGAATGGATAAAGTTAAGAGTGCTTACTTAGATTTTTCTCAAAAACTTGCAACAATTGCAGAAGCACACGATGATTGTACTGGAAAACACGTAATTAGAGTAGGTGCTTTATCTGAATTAATAGCAAAAAAATATGGATTAAATAATGATAAAGTTCAAGATATAAAAAACTTTGCACCACTACATGATGTTGGAAAAATATTTGTATCCAATGAAATACTAACAAAAAATACTAAATTATCTAAAGAAGAATGGGAAGAAATGAAAAAACACACAATACACGCAAAAAGACTTTTAACAGGAGAATACTTTGAAATAGCATTAAAAATAGCATTAAACCATCATGAAAGATATGATGGAAGTGGTTATCCTATGGGTTTAAAAGGAAACGAAATACCTATAGAGGCTCAAATAGTTAGTATTGCTGATGTATACGATGCTTTACGTTCAGATAGACCTTATAAAAAAGCCTTTACTCACGAAGAAACTTTAAACATACTATTAATTGGAGATGGAAGAACATCTCCAAAACATTTTAATCCTAAAATTTTAAAAATATTTGAAGAAAATCATAAAGAAATTAAAACTTTATTCGACAAAATAAATAAAAACTAAATTTAAGGAGGAACCACAATGAACATAGAAACTTTATCAAAAAGAAGAAATGAATTATTAAAAACCTTACCAAATAATTCGATTGTAGTATTATTCTCTGGAAGAGAAAAGTTTAAAACTGCTGATGAACTTTATACATTTTCTCCAAACAGAAACTTTTTTTACTTTACAAATATAGAGCAGTCTGATGTTGCAATGATATTAATTAAAGAAAATGATAAAACTTCAGAATTTTTATTTATTGAAAAAAATGATCCTATAAAATCAAGATGGATTGGAGAAAAAATAAAACCAGAAGAAGCACAAAAAATTTCTGGAATAAAAAATATTAGATTTTTAGATACATTCAATGACTTTTTAAATCAACAAATACAAAAAAATGAAAATATATACTTTGATCTTGAAAGACAAAGTTGGAATAAAGGTAAAAGTGAAGCAGAAGAATTTGCTTTAGAATTAAAAAATAAATTTCCACATGTGAAAATAAACAATATATACAATAATATTTCTCAATTAAGAATGATCAAAGATGAAGAAGAAATAAAAAATATTAAAAAAGCAATTTCAATAACAAAATTAGGTATAGAAAATATGATAAAAAATGCTAAACCAAATATGATGGAATATGAATTAGAAGCTTACTTTGACTTTTCATTGATCTCAAATGGCATAAGGGAAAAAGCCTTTCATACAATAACTGCATCTGGAAAAAATGCAACTGTCTTACACTATTCTCAAAATAATTGTAAAGCAGAAGATAAAACACTAGTTTTATTAGATTTAGGTGCTGCTTACAATCATTATAGTGCTGATATAAGTAGAACATTTCCTGTAAACGGAAAGTTCACACAAAGACAAAAAGATGTGTATAACGCTGTTTTAAAAGCTCAAAAAGAAGTTGAAAAAAATGCTAAACCAGGAGTTACTTTAATTGAACTAAATGAAATAGCAAAAAAAGTTTTATCCAAAGAATGTAAAAGTTTAGGCTTAATAGAAAAAGATGATGAACTTATAAAATATTATTTTCATGGAGTATCTCATCATTTAGGGTTAGATACACACGATGTTGGAGATAGAAGTTTACCATTGCAAAAAGGAATGGTAATAACAAATGAACCAGGTCTTTATATTGAAGAAGAAGGTATTGGAATAAGAATAGAAGATGATTTATTAATAACAGAAAATGGATGTGAAGTTTTATCTAAAGAAATAATAAAAGAAGTAAGTGATATAGAAAACTTTATGGAGAACTGAAATTATGATTATAAAAAAAATAACGGACAATCCAAATAGAAATTTTTTTATCTCAGCATCAGCTGGAACTGGAAAAACATATACATTAACTCAATACTATATGAGTATACTTGAAAAAAATAAAGATTCAAATATAATTGATAAAATATTGGCCGTTACTTTTACAAATAAAGCTGCAGGAGAAATGCGCGAAAGAATAACTGAAAGTATTTATGAAAAAATGAATGCTGCAAAAACAAATAAAGAATATGAATATTGGAATGAAGTAAAAATAAGTTTATCTGGAGCTTGGATAAAAACTATAGATAGTTTTTGTTCAAGAATTTTAAAAGATAATAATGTTTTAATAGGTGTAGATCCAAACTTTACAATGATAAGTGAGTTTAAAAAAGAAAATGAAATAGAAAGAGCAGTTTATTATACTCTTAAAGTTATTTTAGAAACTTATGAAAATATTGATCCTGATTTGATAAATTTATCAACAGACAGAAAAAACAATGTAGAAAAAATACTTTTAGAGTTCAAAAAAGATAAAGAATTTAAGAAAATAGTAAAAGAATTTTTGAAAAATGAAGGTATTAAAAAATTTGAAGAATTATTAAAAGAAATGGTTAGAAATTGGCGTCTTGAAATGAAAAGAGCTATTGTAGAAACTATGGAACTTTCAGAAAATGGAGACTTATATACAAATTTTTTAAAACTTTTAAAAAATGCTTCATATATTGCATCTGAATTTTATGAATCATTAACTATTGATCAATTTAAATATGATTTTAAAGGTATTTTAGAAAAAACAATATTAACCTTAGAAAATAATAACATACTAAAAAAGTATCAAAATAAATTTAAGTACATTATTGTTGATGAATATCAAGATACAAATTATCTTCAAAAAGAAATATTTGACAAACTGCATCATGAAAATAATTATTTATTCTATGTTGGAGATAGAAAACAATCCATATATAGATTTAGAGGTGCAGATGTATCAGTTTTTTCAAAAACCGAAAATGAATTTAAAAACAAAAATTATATAGTTGAAAGTTTAAATACAAATAGACGTTCAAACAGTGAAATTGTAAGTTATATAAATAAGCTTTCAAAAGATGTTTTATTTGAAAAAAATAATATATATATGGATGATGTTGAAAGTGAACTATTCGAAAGTATATGCTTTAAAGAAATAGATGAGTGTAATTATGAAATAAAAGAAAATAAAAATATTACGCCAAATCTTTTAAAAGATGATAATAAAAGAATAAAATATATATACGCTACTCCTGAAAAAGATAATAAAGAATTAAGAGTAAAAAAAGAAGCAGAAACAATAATCAAAACTATAAAAAATCTTTTAAATAAAGAAATGACATTTAGAAAAAGAAAAAATGGAAAAATAATATTTGAAACAAGAAAAATAAAACCTGGTGATATAGCCTTATTATTAAAACAATTAAGTGGCTATGAAGAAATTTTAAAAAATGAATTTCAAAAAAATAATATTCCCTATTATATAGTAGGAGGAAAATCATTTTATTATAAACCTGAAGTTCAAGCTGTTTTTAGTGCTTTAAGCGCTGTTCAAAACCCTTATAATGATTATGAATTTATAAAATATATGATGTCTTTAATTGGTGGAATGACATTAAATCAATTACACACCTTAATAAAAAATAAAAAAAATTCATTATTTGAAACCTTTGAAACTATTGAATTTTCTTCTGAAAGATTAAATAGAGCCTATTTAGTATTAAAAAAATATAGAAATTTAAGATATTATATGAAACCTACAGATATATTAAAAGGTATAATAAAAGAAACTAAGTATTTAGTATACTTAATGGCTCTAGATAATTCTGAATCGGCTATTTCTAATGTAAAAAAATTAATTACAGGGTCACAACAATATGATTCAATAGCAAATACCTTTTCTGAACTTGTAAAGTTACTAAAAAAATCTACAGAAGTTGATGAGAAAGAAGCTGTTTTAGAAGATGAAAAATCTAATAGTGTAAAAATAATGACAATACACAAATCAAAAGGTCTAGAATTTCCTATAGTTTTACTTGGTGGGTTGCATAATAAAATAGACAAAAAAATAATTAAAAATATTGATTTTTCATTACCAAATTCAAATGGTGAAAGATATTATTTACTAAAAAATGTTATGAAAAATACCTTAAATGAAAGCTCTAATTATATATTAAAATGGTTTAAAAATAATGATTTTTTAGAAAAAACAGAAACAAATAGATTAATCTATGTAGCAACAACAAGAGCTAAAGAAATGTTAATACCTATTTTAATAAATACAAAAAGTAACTCTTATAATAATTATTTTTTTAATTATAAATATGATAATATAGATAAAATAAATGAAATTGATTTAAAAGATATTAAAATAAACAATAAAATTGAAGAAATAATTTTCAAAGATATACCTAAAAATAATCTAAAAAACTTAAAAAACTTAGCTTATAAACAATATATTGCACCAACTTATTTAATAAATGAACCAAAAGAAAGTGAAGAAAAATTCTTAAAAAATATTGGAATAAGCTACAAAAAATATTTTAAACAAAGTGTTTTTTCAGACGAAGAATTAATGTTTAGAGGTTCACAATTACATTTAAAGTTACAGAGTGCACCATCTTTAATTCATTTAAAAAAATTAATAGATAAAGAAAAAAATAGAAATTATGATTATTTACCTCCTAAATTTGATGAATTAAACATAGTAAAAAAAGCTTTTGGAAAAAATGAAATAGTAAAAACTGAATGGAGATTAGTAAAAAAAATTGAAATCAATAATAAAGAATACATGTTATTTGGAATACCTGACAGAGTTTTAATAAACAATGGAAATATAGAAGTTATAGATTATAAATTTTCTGATCTTTTAAATAAAAATAAAATTAAAGATTATATATTTCAACTTCAATTTTATATGTATCTTTTAAAAGATTTTGGATATCCTAAAAAAGGCTATATTCTTAGTATTAAAGAAACCAAAGAACCTATAGAAGTAACTTATAATAATGATATTGAACTTGAAATAATTAATAAAATAAAAAAATTACAGATTTAATCTGTAATTTTTTTATTTTATTATTTTTTTATTTATTATAAATAAATATATATAAGAAATATTAAACACTACTTTTTAATTAATCACATGATTAATTAAAAACAATTTATTTTAGTTAACTTTAAAGAAACATAATATAAATATTATAAATGTATAATTAATATTAGACAAAATTCTTTGGAGGTGAAAAAATGAATAGCTTAAAATGGAGAATGGTCTTTATAATTGGAACTCTTGTAACTGCCATTTTATTAATATCTGGATCAATATCAGTTATTTATTTAAGAAATCAAACAATATCTCAATTAGAAACTAATTCAAAAGAAGTTTTAAAAAGTCAAGCAAAATATGTTGAAATGTGGTTTAATGAAAAAATAGATACATTAAATAATATGGCTAATGCTGAATTTAAAAACACAAATTTTAATGAAAAAGATAATGTTCAAAAGCTAAAAAGAGAGTACAATGTTAATAAAAAATTTTTTGAAATGTTTTTTGTTGCAAGAAAAGATGGTTTTTCTTATACAAATTTAGATGGAGTAACTGCAAACGTAGCTGATAGACAGTACTTTAAAGAAATAATGTCTGGAAAAAATTATGCCATCTCAGGAATGTTAATATCTAGAGCCACACAAAATCCAATCATAGTTGTAGCTGTTCCAATAAAAGATAACTCTGGAAAAACAATTGGAATGATTGGAGGAACAGTTCTTTTAGATAGTTTTCAAAGTCTTATAAACGGTCTTAAAATATCAAACTTAGGTTATGGTTGGGCAATAGATAATACAGGTTTAGTAATTGCACATAAAGATAAAAGTTCTATAGGAAAGGTTAATATAATTAATGCCGATAAAGATTTTGGATATAATGGCTTAACCAATATTTATAACAGATTAAAAAAAGGCGAAATAAATCTGGAAGAAGTAACATTACCTGACAAAAGTCAAGCATTTATAGCTTTTTCTCCAATAGGAAAAACAGGATTTTCTTTTGGAGTAACTATAGATAAAAATTCTATGTTAAAAAATGTATACACTATGATAAAATACTTTATAATAATAATAGCTGCATTTTTATTTATAGGTATATTTTCTGCATACTTAATTGGAAATGCTGTTTCTAAACCTATAATAGAACTTTCAAAAGAAATAGAAAAACTAGGCGATGGAATATTAGATGTTAATATTGAAAATATTAGAAAAGATGAAATAGGTAAAATGCAAGAATCACTTTTAAAAACAACTCAAAAATTAAAATCAATGGTAAAACAAATATTGGGAATATCTATGAATGTTAATAGTTCTTCTACTGAATTATCAGCAACTTCAGAAGAAGCCTCTGCAACTAATCAAGAAATTTCTGCACAAGCAGATCAAATAAATGAAAGCACACAAAGTGTATCAGCTTCCTTGCAAGAAATGGGAGCAAATATAGAAGAAATAACTTCTGCTTCAAATAATCTTGTTTCATTTATAAATAATGTCGTTGAAGAATCTAATGGAATGAAAAAAAATGCAGAAATAGGAAAAACAAATATAAAGAATATAGAAGATGTTATAGCTAAAATTTCTGAAGAAATGCTTGAAAGTTCAAAAATGTCAAATAAATTGTATGAAAAATCAGCAAATATAATGCAAATAGTTGAAACAATAAACAATATTACTGAACAAACAAACTTGTTGGCATTAAATGCTGCAATAGAAGCTGCAAGAGCCGGAGAAGCCGGAAAAGGATTTGCTGTTGTTGCTGATGAAATAAGAAAGTTGGCAGAAGAAAGCAGAAGTGCCACAGAAGATATTTCTCAAATTTTATCCGAAGTCTTTGATTCTATTAAAAATTTAAACAAAAAATCAGAAGAAATTAGTGAAGTTGCAATAAATGCAAAAGATAATGAAGAAGATGCAGCACATAGCGTTGAACAAATAATGGATGAAATAGAAAAAATAGTAGATAGAGTTGGAGAAATTTCAATAGCTATAAATCAACAAAATTCAAGTACAAATGAAATATTATCGGCTGTAAATGTATCTGTATCTTCCATTGAAAATATATCAGAAGAAGTAAATGAACTTTCAGAAGCAATAAAAGTTCAAGTCAATGTAGCTCAAAATGTTGGAGAAAATAGCATGGATTTATCAGAACTATCAAAAAAATTAGAAGATCAATTAGAAAAAACTTTCAAATTAAAAGAAGAAGAAAAAGAAGAAATTTTAAAAACTTTAAGCTTAAAAGTAAAAGCTTAAACTCAATAAAAAACATAAAGAACATTTTGTAAATATTGTATTAATGTGATACAATATTTATGGAGGTGATTTTAATGCTTGATGTTAAAGTAATAAATGCTGTAATTGAAGCTTTAACTGGAACATTTAAAGCGGCTTCTAAAACTACTATTAGTTTAGGAAAGCCCCAAATGCTTAGAGATATTGGTGATTCATTTCAAATAATAACAACAATTGGATTCAATGGTGTTCTTGAAGGAAACTTAATATACTCTATGCCTGAAGATGTTGCTGTAAGTATTGTAACTAATATGATGGGTGGAATGATGCAAATTGATAAAATAGATGATATGGCTCTCAGCGCTATCGGTGAACTTGCAAATATGATATCTGGTGCAATTGCTATATCACTTGAAAAAACTGGATTTCCAATAAATATAACTCCTCCTTCTGTTTTAAATGGAGAAAAAATATCTGTAAGTGTTCATGGAACAATTTTAAAGTTTCCTGGTAAACTCCTTGATGATAAAGAAATGGATGTATTTTTAGTTGTTAAATAAAAAAAGATGGCTATGCCATCTTTTTTTGTTATTTATTATTGAGATATTAATGTTCCTGTTTTACCTTCAATACCTTCTTTAGCTTTTTCAAGAGAGGTTATTAAAGCTTTTCTTCCTTTTTTTGATTTTGCAAACTTAACAGCTGCAGTTACTTTTGGAAGCATTGAACCAGGTGCAAAATGTCCTTCATTCATATACTTTTCTGCTTCTTCAACAGATAAATCACTTAACCATTTTTCATTTTCTTTTCCATAATTTATAGCTACCTTTTCAACAGCAGTTAAAATAATTAAGTAATCTGCATCCAAAATTTCTGCCATTTTTTCACTTGCAAAATCTTTATCTATTACTGCTGGAACGCCTATTAATGAGTTACCTTCTTGAACAACAGGAATTCCACCCCCACCAACAGTAATAACTATATGATCATTTTTTACTAAATCCATAACGGCTTCTTTTTCAGCAACATCAACAGGAATTGGAGAAGGAACAACTCTTCTATAACCTCTTCCAGCATCTTCAACCATTGTATAACCTCTTGTTTCTTTCAATACTTCAGCTTCTTCTTTTGTATAAAACGCTCCAACTGGTTTTGTTGGTTTTTCAAATGCTTTATCATTTTTATCTACAATAACTTGTGTAATTATAGTGGCAACTGGTTTCTTTATACCTCTATTCAAAAGTTCTTCTCTTAATGCATTTTGCAAATGATATCCTATATAACCTTGACTCATAGCTCCACATTCTGGAAATGGCATTGCAGGAGTTCCTGCATCTGATTTTGATGAAACTTCCATAGCAAGATTTATCATACCAACTTGTGGACCATTTCCATGGGCAATAACAACTTCATGACCTGCTTCTATTAAATCTGCAATAGGTTTTGCTGTGTGTTTAACCAATTTTAATTGTTCTTCTGGTGTTTTTCCCAAAGCATTTCCACCGAGTGCAACGACTATTTTATCTTTCATAATTATATTCCTCCTTATAGATTTCCAATAGTAGCAACCATAACAGCTTTAATGGTATGCATTCTATTTTCAGCTTCATCAAAAACCTTAGAATGTCTACTTCTAAATACTTCATCAGTAACTTCCATTGATTCAAGACCAAATTTTTCGAATATATCTTTACCTACAACTGTATTTTTATCATGGAATGAAGGTAAACAGTGTAAGAAGATAACATCATCATTTTCTGTTTTCTTTATCATTTCCATATTAACTTGATAATCTTTTAATAAATTAATTCTTTCTTCAAATTTGTCTTCTTCTCCCATTGAAACCCATACATCTGTATAGATAACATCTGCTCCTTTTACATCATCTACATTTTCTGTTAATGTTATTGTTGCTCCTGTTTCCTTTGCTACTTCTTTCATTTCATTTACAAGTTCTTCACTTGGCCATAATGATTTTGGTGCCAATGCAACAAAGTCCATTCCTGTTTTTGCTGCTCCTATCATTAATGAGTTTCCCATATTGTTTCTTGCATCTCCTACGAATACAAATTTTACTTTATTTAATGGTTTTGCTACATGTTCTTTTACTGTTAAAAAGTCTGCTAAGATTTGTGTTGGGTGGTATAAATCTGTTAACCCATTCCATACTGGTACTCCTGCATATTTTGCCAATGTTTCTACTGTTTCTTGTTTGAATCCTCTAAATTCTATTCCATCATAGAATCTTCCTAATACTTTTGCTGTATCTTCTATTGTTTCTTTCTTTCCCATTTGACTATTTGTTAAGTAAGTTACATTTGCTCCTTCATCATATGCTCCTACTTCAAATGCACATCTTGTTCTTGTTGATGACTTTTCAAATATTAATACTATATTTTTTCCTTCTAATAAGTTTCCTTTTATTCCTGCTCTTTTTTTTGCTTTTAAGTCCATTGATAAATCCAATAAGTATCTTATTTCCTCTGGTGTATATTCTTTTAATGTTAAAAAGTGTCTTCCTCTTAAGTTTACTGACATTGTATCCTTCCTCCTTCACTTTTTTTGTTGTGTTTTATTTTCAATATTTTTTATTTTAATTTTTGAGTTTTTAATGTTTGAGAACTATATTATTCTTCTCTAAATAGTGGCATACTCATACATCTTGGACCTCCACGTCCTCTTGAGAGTTCGCTTGATGGGATTTCGAGTATTTCTATTCCTGCTTCTTTAAATAATCTGTTGGTTACATAATTTCTATCATAAACTATTATCTTACCTGGAGCTATTGCCAATGCATTTGATCCATCATTCCATTGTTCTCTTTCTGCTGCTATTTCATCTGAGTCTCCACATCTTATTACCGTTGCTTTTTCTAATTCTAAGTGTCTTTTCAATATTTCTGATAGTTCTCCACTTTCTTCTGATACTGAATATCCTTTATCTTCTTTTCTCAATACAAATATTTTTATTATTCCTTCTAACTTTGGATGTACTACAAATTTGTCATAATCCAACATTGTAAATACTGTATCTAAGTGCATGTATGCTCTTGATTCTGGTATTAAAAATCCCAATATGCTTTCAAATGAATCTCCATATTTATGAAATATGTTGTTTGCTAATGCTTCTAGTGCTTCTGGATCTGTTCTTTGAGATATTCCAACTGCCAATGTCTTTTTGTTTAATACTAATACATCTCCACCTTCTAATGCGTATGGACAATCTTTTTCATAATACTTTGGTGTTCCTTTGTATTCTGGATGATTATTTATTACATATTCCATTAACATTGCTTCTCTTCTTCTTGCTGGTGTTCTCATTTTATTTATTGTTATTCCTTTTCCTATTGTTGCTGCTGGATCTCTTTGAAAGTATAAGTTTGGCATTGGATTTAAAAAGAAGGGTATTCCTAACTTGGCTTTTCTTACCTTTACTGAAAATATATCTTGTTTTAACTTCAATTCATTTGTTCTTACTCCTGCTATTAACTTGTCTACCATTTCTCTTGTACTCATTGAAGTTAACATCTCTATTAATGCTTCTCTTATATATTGATTGTTTATTTCTGATAGGTCTAAAAATTCTTTTACAAAGTCAAGTTTGTTATTTTGTGAGTCCATGGCTTCTACGAATAGATCTGTTACATACTTTACTTCTACGCCATTTTCTCTTAGAAGGTTGGCAAATGCATCGTGTTCCTCTTGTGCCTTTTTTAGGTAGGGTATATCATCAAACAGAAGATCTGCTAAGTAGCGTGGGGCTAAATTTTCTAATTCTTTTCCTGGCCGATGTAATAACACTCTCCGTAATTTCCCTATTTCACTATATACATTTATTTTCATATTATTTCCCCCTTACTAAAATAATTAAGTAACTTATTAAAGTCTCTTAAGTAATTTCATTATATTATTTAATTAAATAAAACACAACCTTATTTTTAGTCGTTTATAAAAAACTATTAGTAATAAAAAGACTTTTTTTAAAAAAATTTAAATTAAGCATAAAAACAATTAGAACATAAATTAAATATTATTTTTTAATAAAAATAATATTTAATTTATGTATATATTGTATTATCTTATGTTTAAAAATTTTAAATTTTCAAAAATAAAGCTTTGTTAAATAAAGAAATATTAATTTTAATATACTTTATATCATATTTTATATATTATATGATATAAAGTGTTTTATCTATTATTTTTTAATATAAAAGTAATATCATTTACATTAGTACCTGTTGGTCCAGTAAAAATTAAAGAATTTATTTTTTTTAAAGCATTGTAAGAATCATTATTTTTTAAAATTTTTTTCACATCAATATTTAATTCTTTCAAATTTTTTAAACTATTTCCATCAACAATTCCTCCTGCTGCATCTGTTGGTCCATCTGTTCCATCAGATGAAAATGAAGCAATAATCGTATCTTTAACTCCAGAAATATTTAATGCAGCAGTTAATGCTATTTCTTGATTCCTTCCACCTTTTCCGTTTCCTTTTACTTTAACAGTAGTTTCTCCTCCAAATATCAAACAAGTTGGTTCTTTTGACTCAAAATCTTTTGCTATATTTCCTATGAATTTTCCAGTTTCATCTGCATCTCCATTCATGCTTTTAACCATTATAATTGATTTATATCCAAGTAATTCTGAATTTTTTTTAACACTTTCACAAAATTTATTTATATCTCCTATTATGTGAGTTTCAATATTTTTTAATTTTTTAGGTGTTTCTATTTTTAAAGTTTCTAATATTTTTTTTGATATTTTTATATTATATTTTTCTATTATATTGAAAGCATCATTAGATGTAGTAAAATCTGGATATGCTGGTCCTGATGCTATTGTACTCAAATCATTTCCTAAAACATCAGATAATACAAGCGTCATTATCTTTGATTTCGTTAATTTTGCAAATTTCCCACCTTTTACCTTAGATAAATGTTTTCTAACTGTATTTATTTCTCTTATGTCTGCTCCTGATTTTAATAATTGTAAGTTTATTTCTTGCAACTCCTTTAAACTTATATTTTTTTCGGGTATTTCAAAAAGAGATGATCCTCCACCCGAAACTAAAAATAATAAAGTATCTTCTTCTTTTAAATTTGATGCAAATTCAATAGCTTTTTTAGTTGCTTTTATGGTATTTTCATCTGAAATTGGATGTCCTGCTTCATAAATATCAAAATTTTTAATACTTCCTTTTGAATGTTTATATTTAGTAATAATAATTCCTTTTTTTATTTTAGGTAATACTTTAAGTGCAGAATTAGCCATTTCCCATGCTGCTTTTCCTATTGCTAATGTATAAATATTCCCTTCAAATTTTTTATCTTTTAAAAAGTTTTCTACAGAAACATTTGGTAATACATCATTTATTGAATTTTTTATTATATTTAAAGCATCTTTTTTCATTTTAAAATCTCCTTTTTTAAATCTTTAAAAAGATTTTTCCACAATATTCTAAATTCAAAGTATTTTGGTGATAATTCTTTTGCTCTTAACTTTGCATAGTTAATAAATTCTTTAACTTCATTTTTTTCTAAAATATTTAATAATTTTTCTTCTGCATCTTTAAAATTTTTTTCTTCAAAAAACTCCCCAGGATATGGTTTTAGCTTTTCTATATCTATAGAATTTAATTCCTCAATATTTTTTGAATATTCAATCTTTTCTTTTTCATAAAAAAATCTCAAAATATCTTGTTTTAATTTACAAACATTAATTTTATTGCTTTCATTATATTCGGGAGGTAAATGAATTATATTTAAACTTTTATCTAAAAAAAAGGATAATCCTTCCATTTTTGCATTTATTAAATAATCTATATCTTCACCTCTTGTATTGTAAGGATCAAAAGATACTTTTTCAATAGTATTTCTGTGTAAAACCATGTTTCCACCAAAAATAATAGGTGTTTTTACTAAATTTCCAAATTTTTTATCTAATAATTCATAAGTTTTGTCCATAAGTTTTATTTTATTATCAAAAATATTGTTAGTATTTTTATCTTCAAAGCTTAATCTGTGATTACCTTGTTTATCTAAATAATATCCAGCAATACCTAACACAAGTTCATTATTATAATATTTTCCTATATACTTTGTTGCTTGAATTAAATAATTTTTAGGAATTATTTCATCATCATCTATTCCTATTTCACTACCTTCTATATAAGGAATTAATAATTGTAAATTTCTTATATTATTATAATTATTTAAATTTATTTCTTCTAAAATCTTTATATGACCGAGTTTTCTTATTTTTTCTTTTAAATCTTTTAAATTACTATAAGAAAATTGTTTTATTTTTAAAGTTTTTTCAAACTTAGAAATTATTTTTTGTACTTTTTTTCTACTTCATATGATAATTCTTTATGTGTTGAAGCAGTTATAACTAAAATATCAAAGTTATAATATTCAATTTTTTTTAAGCTTTCAAGCGTTCTTTCTAAAGTTCCATCAAAATCTAAAGGAGTTGGATGATCAAAGATAGTATTAGAATCTTTTTTATTGGAAGGAAGTGTCCAATAAGTTGGAACAACTATAGTTACTTTTTTCATTTTAAAACCTCCATACTTTTTAAAAAAGGTGAACTAAAGTTCACCTTTTATCCACATATATTCATATGGTTTTATCTTAAATTCATTTTTTGTTTTTTCATCATTTATAAGGTTTATTCCTAATTTAAAGTACTTAGATAAATTTAATTTAATGCTTTCATTTGTAAAGTTATGTAAAATAAAAAAGTTTCCTCTTTTTATTGCAAATACTTTATCATTAATTTCTAAAATTTCTTGTTCAGCTAATGGTGAAAATTCTTTATTATTATTTCTTATTTTTAACATTTTTATCATTCCATAAAAAACCTTATGTCTTAAAGAATTTTCCTCATTTAATTCTAATCTTAATGTATCATAATTTAATTTTTCTCTATTTATACTTCTATTTATTTTTGTTATTTTTACACCTTCATTCCAATTTCGAGATCCAAGCAAACTATGTATATATATACCTGGAATTCCTTTAAGTGCTATTGCGATTGAATATGCACCTAAAAATTTTTTTATGTTTTCTTCTAATTCAATATCTTTTTCATATAAAGCATCAAAATAATTTATATTCATTTCATATGGTTCTTTTGTTCCATCAGCATTATTTTTATAAGAAACTAATCCTTCATTTTCTAATGTATTTAAAACCATCTTTTTTATTTCTTCAGAATTTAATATACCTTTTACAGGCATTAATCCTATACCATCGTGCGATGCTAAAAAATTAAAAAATGTAGTTTCATTGGATTTATATTCTAATTCCTTTGCCCATCTTGTTATATATTTAGAATTTTGCGATAAAAAACTATATAAAACTAAAGGAGGTAATGTGAAGTTATAAACCATGTGTGCTTCATTATAACCATTTCCAAAGTAACTAACATTATCTTGGTGAGGAACATTTGTTTCAGTTACTATTTTACAATCTCCTATTTTTTCTAAAATTTCTCTCAATAATTGTATAAATAAATGAGTATTAGGATGATGTATGCAATTAGTACCTATTTCTTTCCATAAAAAACCAATTGCATCAAATCTTATTAATTTTGCTCCATTTTTTACGTATAACATTAAAATTTCAAGTATTTCAATAAATACTTTTTCATTTTTATAATTTAAATCTATTTGATCTTTACTAAATGTAGTCCAAATTTTTTTAATTCTATTTGAAGTTTTATATTCATTTAAAAGAGGTAATGCCCTTGGTCTAAAAACTTTAGATAAGTCTTTTGAATCTTCAACTTCTATAAAATAATTTTCAAATTTTTTGTTTCCTTTTAAAAACTCTTCAAACCACAAACTTTTTGCTGATATATGATTTATTACAGCATCAAACATTAATTTATAATTTTCTGAAAGAATTTTTATATCTTCCCAATTTCCAAGTTCTGGATTAACTTTTTTATAATCTATAACAGAAAATCCATCATCAGAAGAATATGGAAAAAACGGTAATAAATGCACTGTATTTATACTATTTTTTATATACTCATTTAAAAATTTATATAATGTTTTAAGTGGAGCTTCATTTTCTTTTTTTATGGAATCTCCATAAGTAATTAATATAGTGTCTTTTTCATTAAACTTTTCTTTTTTTATATTATTCAACGCATATTTCTTTATTAATTTTTTTATATTTTCATACAAAAATTTTGAATTTTTAGGATATAAAATTTCCAACTTTTTTTCTATGGAGTTCACAAAACACCTCCTTAAAACCTTTTTGGTCTTATTACCTTACTCAACTCCTCAAAATGTTTATTATGATTTTTTTTCATTAGCATTGCATTGTACAAAATATCCATTAAAAATACTTCTCCTATCCTACTTTCAATAAACTCATTTTCATGTGGAGAAGCTACTGTATATAAAGCTTTTTTTACTATTTTACTTAATGGTGAATTAACTCCAGATGTAATACCAATAGTATAAGCTCCAGCATCATTTGCTATTTCTGTTGATTTATAAGTATCTCTTATAAATCCAGAATGACTTATTGTAAAAACTGTATCATTTGAGGTCAAAGATGCACTAACCATAACCTGTATGTGAGGATCAGAATAAGCAACAGCTGAATATCCTAAACTTGAGAACTTAATTGCAATATCTTCAGCAATAGGAGCCGATCTTCCAACAGCAAAAAATATTAATCTATTACTTATTAATATTCTATCTATTATTTCGTTTATTGTATCGATATCTAAATTTTTATAAATAGTATTTATCGTTGAGATTGTTTTATTAAAGTAAGATTCATAAACATTACTACTCTTTTCTATTGTTGATTCTGAGCTCATCTCTCTAACTAACTCTAATTTAAATTGCTGATATCCATCAAATCCAGCTTTTCTAACTAATCTATACACAGTTGTTTCACTAACTCCAGACCATTTTGAAAGTTCAGTTATACTATAATGTATAGTATCATCTGGTCTTTCTATTATATAATCAGCAGCTTTTTTTTCTGATTTTGTAAGTGAACTATAAATACCTTTAAGTTTGTTGATTACCATAAATATCCCTCTTTTCTTTAATGAAGTATGTAATTATTATACAACAAACTTACTCCTTTACTCCACCAGTTGTCAATCCACCAGCAAGATATTTTTCCATAGTCATAAATAATATTATTACAGGAACAGCTGTTAAAACTGATGCCGCCATCATTTTTGTCCAAATTGCATGTTCAGAATTAAAAATTTCATTTAATCCTATTGGTAAAGTATGAAATTCTGGATAAGGTCTAATAAAGATTGATGCAAATAAATATTCATTCCACCCTATCATAAAAGCATAAATAAATACAGTTACTATAGCTGGAAGAGATAATGGAATTATTATCTTATATATTACCTTTAATCTTGAACAACCATCTATTATAGCAGCTTCTTCAATTGTTTCTGGAATAGTTCTAAAATAATTACCAAGCATATAAAGAGAAACTGGTAATGTTTGTACTATATAAATTACAAATAAAGAAAGCATTCCTTTTATTCCAGAATTAGTCATACCCATCTTTACAAATATTTGATAAAGAGGAACTGCCAATATAGTTCCACCAAATAAATAAACTAATAAAACACCTCTTTGTATGTAGCTTCTTCCAGAAAATTCTATTCTACTAAAGGCATATGCTCCAAAAATAGAAATTATAACACTTATTAAAGCACTTATTCCTGCAAGTAATAAACTATTTTTAAAAAACCTAAGAAATGGAAAAGAGTTCTTTTTTCTTTTAGAATATATTTTTTCCAAAACTTTTTTCTTTTGTTCTTCTGGCATGTTTTTTACTAAATCTAAAAGTTGTTTATCTTCATTTGAAAGTTCTTCACGAATTGATTTTTTTAACCCCAATAATTCTTCATAAGCATTCAATGTCGGTCTTTTTGGTATTAATCCCTTATCAAAAGCATCTGTATCGTACCTAAAAGATACAGATACCATCCATAAAAATGGATAAATAACAAAAGTAACCAATAAAACTATTAAAAACCAAAAGAAAAAAGTTCTTATAAATGATTTTTTCTTTACCATTTCAACACCTTCTTCACGTAAAAACCTATTAAACTAAACATTACTACAAATAATATAGTTGCAATAGAAGCCGCAACTCCTTGTTGTGGAAGTCCTGAAAAAGCCTTTTCATAAATATATATTGGTAATGTATTGGCAAATTTTGACATTAAATAAACTTCATCGAATTTATAAAAGTTCCATATTCCTCTAAGCAATGCTATAGATCCTATTACAAAATAAAGCTCTGGAAGAGTTATATTTAAAAATTTTTGCCAAGATGAAGCTCCATCTAATTCAGCTGCTTCATAATAATCATCTGATATGGATTGTAATCTTGAAAGAATCATTAAATATACAAATGGAAAATTTCTCCAAATATTAAAAATAGATACAACAATAAATGCATTGTTTGGATCGTTTATCATATCTGTTCCTGAATTAAATCCAAAAATAGATAAAAATTGTACTAGTGGACCATCAATTGGTAAGAATACATACTTCCAAGAAAACACAATTGCAATTAATGGTGTTACATATGGAAAGAGTAATAATCCACGTACAATACTTCTACCAGGAAATTTTTTATTCATTAAAAGTGCTACCCCAAGACCAAGCAATATGCTTCCCATAACTGTTATCAAAGTAAAAGCTACTGTTGTTCCAAATGATTTCCAAAAGGATAAATCAGATAAAACATTTAAATAATTTTGTATTCCAACAAATGTGTTTTTTTCTCCAAAATTTAATGATACTTTAAAAAAACTTAAGTATATATTATATAGTACTGGATATAAAATTAAAAATCCTATTAAAATTAATGTTGGAGAAATTAACTTCCACCCAAAAGTTTCTTCTTTCCTTTTTAAACTTGTATATTTAACCATAAAATTCCTCCTCAAATTATCTTGAGAATATATAAATTAATTAAAAGATGGGGTTTCCCCCATCATTATTACTTACCCAAAACTCTTTTTGCTTCCTTTTGTGCCCATTCTGCAGTTTGTTGTGGAGTCCAATTATTTGCAAACATATAATTTATAGCTTTTCCAATTACAAAGTTAGCAGAAAGTTTACTCATATCAGAAATAACTTTTCCGTTAACAAATTCAAATCTTTCAACACTGTCTAAAGCACCAACAATTTCAGAAATTTTTTCTTTTCCATACCTTGATAAAATTGGATTATCTAAAAATTCAGAACTTTCAGCAACACTCTTTCTTGTTGGATTCATTCCACCTGGTGCCATATGTAACCAATAAACATAGTTCTTTGGTGTCATTAAAAATTTTACAAATTTTTCTACTTCTTCTGTATTATTTGAAGTTTTTAATATTCCTAATCCAACCATTTGACCATAAGATGTTGGTCTTATATTAATCATTTTATTTGCAAAACCAGTATTTAAAACAAGTTTTGGATCAAATGAGTTAATTCTACTCTTTTGTACATCTTCAACTGCTATATCATCCATTATGTATGTTGAATAAAAAATCATAGAAGCTTCTCCAGCAAGATAACCTTTCAATGCATCTAAAACTGTTGTATAACCAGGTTTTGCATATTTATTTAATTCTTTATAGAATCTAAATGCTTCTATCATTGCTTTAGAAGTAAAGGTTATATTTCCATTTTCATCAATAGGTCTTGCACCATTTGCCAAAGCTATTTCTGTAAAAACTTGTTCTGCATAAGAATCAGCTTTTTTTGGTAAAATTAATCCATAAACACCTTTTGCTGGATTATTTAAAGATTTTGCAGCTGTTAAAATATTATGCCAACTTAAAGGATATCCTAAATCTTTACCATCAAACCAATCTTTTCTATACCATATACCTTGTACCCAAGCATGAAATGGTATTCCAAAATTACTTTTACCATTACTCAATAATCTAGAAGCACCTGGATAAACATCTCCAAAGTCTTTTATTATTTTTGATGTTAAATCTTCATTCATATAGCCACTACTTGCTAAAAGTAATAAAGGTTCAATTCCACCTTCTAATAAATCTGGTAATGTTCCTGAATTTTTTGCTACAGGAATTTGTTTCAAGAGATCATTTTCTTGTATTGGAACAACTTTAACCTCTATACCTGTTTGAGCTTCAAATATTGTTGCAAGAGCATTTATCCTTTGTTGTCTATCAGATTCTGTTTCTGTAGTCCAAAATGTTATAGTTTTTGAAAATACAAACAATGAAATCGAAAGAACAATAATTAAAACAATTAACTTTTTCATACTTCCCCCTCCTATGTTGAGATTATTTTTTTCTTTTTTTTAAAAAAACAGAAAGTTTTCTTCAAAATTATAGAATATAAAAAATTTTTTTCAAAATCTGTTTTAATATATTTATATCAAATTAATAACAATTAAGAATAATTAATTAATAAAATATCAAAAATATTAATATATTATTTTTAATAATAATTTTTCTAATGTTTGGTATGAATAATATTTTTTTCCCAAATTAAAATTATTTTGAACTATATCATTATACTTGTTTTTATCATACAATATTGAAATAATTTCATTTGACGCCTTAATTAAAGTATTTTCATTAACTTCATAAAGATCCTTTTTATTTTTTCTTGCATTATCTCCAAGACTAACATACTTAAAACCATTTTTGGCTATATCTTCTTTAAATACTGGATATTCATACATTAATATTGGTTTCATAGCAAATAATGCTTCTAAAAATTGATTTCCAAAACCCTCTAGTATACTTGGATAAGTTACAAAATCTGAAATTGCATAAAAATCCCACAAAGAATACTTTTTATCTTTTCTAATATCTTCACATATGTCATTTGCAAACAACAAATTAACATTTTTTTGTTCAGCTTGCGCTTTTAATAAATTTGTATATTCAAATTCTTCTTGTAAACCCGGTAATAAAAGATAAATTTTTGAATCTTTATCAAATTTTTTTCCATTGTATAAAGTTCCTTGTTTAGCTTTTTTTTGCACCAAACTCAATGTATCAATCGCAAGTTCTATACCTTTTCTTTTAACTACTCTTGTAGCTTGTAAAAATACAATATCATTTTCTTTTATTCCTAATTTTGAATAAATATTTTTATTGTATAAATCAACCTTCCAAAGTTTTTTATCAAAGTCAAATACATTTGGTACAATATAAGAATTAACTTTTTTCTTATTGTATAAATTTTTTTGAGCAATTGAATTAATCACTATATGTTTTATTTTTAATGGTGGAAAAAACTCATTCAAAAGTTCTTTAACATATTCAGACGTTGGATTTTTATAATAATCTCTTTCCCAATAAAAATCATGATGATGTGCATAAACTTTTATTTTATTTTCATGACAAAATTCCCATAAAGCTTTTGCTGCAGAAAGATTATGACCTAAAGACCAAATATTATTTACAACTATTAAATCAAAATCCTTTAATAGTTTTAATTGTTTTTTTATTTCATTAGAAAGTTTATTTATTTCTTTTTCAAGTTTATCTTCACTCCAATCATCCAAACTTATATAGCTTTTCTTTTTTATTATTTCATTACTTTCTTCACTATATGCTAATAGAGGAATTTGTATTCCACTTGCATTTCCCATTTCTCCACCAATTAAAAAAACTTCATTTCCCATGCTTTCAAGAACATTTTTCCATTTATTCATTTCAAGTGAAACTCCATCTGTTTCCCCAACTCTATAATGTAAAAGACCAATCTTCATAAATCACCTCCTGTATATTTTTTTCTTTTTTTAAAATAAAAAGAAAACTTTCTTTTTATTATAGCACTTTTCATATGGTATAATCAATTGATATCTAAAAATATTGGAGGACAGCATGGTACACCAAATGAAATTAATAGAAGAAATGTTTGAAAAAATAAAAAACAAAGAAAAAAAAGTTGAAATTAGACTATTTGATGAAAAAAGACAAAAAATAAAAGAAGGTGACATTATTATTTTTTCAAAATTACCCAAATTAAATGAAACTTTAAAAGTCAAGGTATTTAATTTGAAAAAATTTAATACTTTTAAAGAAATGTTTAAAACTCTTCCAAAAGATATTTATGGATATAAAGATATTTCTTTAGAAAAATTTTTAAGTATGATATATGAGATATATTCAATAAAACAAGAAAAAAAGTATGGAGTGCTTGTAATTGAAATTTCAAACTTATAACTATGTAAATTACCTTTTAATATTAAAGTTATCTTAATATAATTGAATTGAATAATTTACATTTGTGTTTTTTTTTTTACATAAAAAAATTATTATTTAATAAATGAGACATTAAAAGGTGAGGTGATTTTTATGAAAAAAGTACTTGTATTTTTAATGGTATTAATTGGAATTACAGTTTTATGGGCTGATAATACTCCAACATTAGTTAACAACTATGCAGAGTTTTCAAATGATGCAACAACACTTGCTGCTAAAGTTAAAGTTTTTGTTGATCAATGGTATAGTGCAACCTTTAAACCTACACAGTCTTTAACCTTTACTAGTGCAGGAAACTGGGATGGCGGAGATCATTTAGGTGAAGGTTTAGGAACATTTTCAATACAATCAAATGGTGAAGTATTAATGAAAGTAAAAATAGATCCATCTGAAACAACATCAGATATTTATTCAGCTATTTCAGCTTTAAGATTAATACATAATAATGATAAAGATAATCCTTTAACAGAAACAAATCCAAAAGAAATTGCTTTTACTCTTTCTCAAGATGATGCTTTGTCAACAAATGTTTATGATATAAGAGCAGATTTCAATATTGATAGCAAATTAAAAGCAACAGGAAATGATAATTACGTAATATTTTATGTTGTTGATTTTCAACCAAATAATAGATTACCATGATCTTCATAAAAACATGGGGCTTTTTAAGCCCCTTTTGTTTTACTATAATAAAAATATGATAAAATATAAAAGACAAAATAAATTTAAGGGGGTTTTTTAATGAAAAAATTATTAGTTTTTTTAGTAATTTTTAGCTCTATATTATCATTTAGTTTCATGGTTCAACCACTTGTTCAAAATATTGAAGCAAAACCCGGAGAAGAAGTTGAAGTACAATATGTTATGTCAAATACAACTAAAGTAAAAGAAGATATAAATTTAAATATTACTGGTGTTTTTATAAATGAAAAAAAAGATGGATGGGTATTAGATCAAAATTATTCAAGATCTGCTGCAAACTGGATAGAATATAATCCAAATATAACGCTTTTACCAAATGAAAAAACAACACAAAAATTTAAAGTTAAAGTTCCTTTTGGAACTGCAGGAAGCTACTTTGCTGCATTTAACTTTTCTTCAAATGCTCCTGTTACTTCTGGTCAAGTTGCATACAAAATGAATTTTTTAACTGTAGTACAAATATTAGTTAGTGGACAAGGAAGCAAAGAAAAGATAACTGTATCTTCTGCAACACCAACCTTAATAAAAGAAAATGGAGAATTACTTGGTATAAATTTAGACTTAGATGTAAAGAACCCTAGTGATTGGGTTTCTTCTGTTTGGGGAAGAATCGATGTTAAATCAGATCAATTAAGAAAAATATTGGCATCAATAGATATTCCAGAAGAAAATGGTACCTTTGTATCTCCTAAAAAGGGCAAATCTTTAAACTATAAAATAAATAAATTATTACCACCTGGTGATTATAAAATACAAATGGCTTTAAGTTATGGTTATCATAAATATTATTTTGGAAAAACAACTTATGAAAGTACCTTTACAGTTCCAGCTGAAATTGAAAAAAATAGAAAATCTCTATTTTTAAGTACTGATTTAAAAGAACTTTACACAAAAATAGAAAAAAGAAATTCATCTAGAGGTTTACAAGTAAATCCTAAAAATCTCACATTAAATATTTTAAATAATGATTATGTAGAAGCTATAGTTACTCCAAGAATAAATGCTACTTTCAATCCAAAAGGATCTGATAATAACTTTAATAGATTAATAAATCCAAAATTTGTTCAAATAAGACCTTTAAGAGATATAAGAGCAAGACCTTACACAGAAAGAGGTAATTCTTTAAGAATTATGGCTGATTATAGAAGAGCAAATTTAGAAAATTTAAAAGGTGAGTACTATGGAAGTCTTGAATTATCTGCAAAAGGTGAATTAAAAGATAAAACATTAACTAAAAACTTAACTGTACCAATTATAATTGACTTTGGAGATAACACATATAAATTTAATTCAAATGCCACATTTGAAGCGTCTACTTTACTTATAAATGTAGAAAATAAAGGAAATTCAAGAGTTAAATTTGATGCCTCAATATTTGTAATGAATTCAAAAACTGGAGAAAAAATAGGTGATGACATAAACTTAAAAAACTTAATTGTATATCCTAATTGTTCTTATACATTAAAACAAGATATAAATAAAATAGGTGATGCAGATAAAATAATTATAAAATACAAATATTTAGATGGATTTGATACAAATGGAAATCAATTATATTCTGAAAAAACATCTGAAATAAAAATAAAATAATGGGGTGAACTCATTGAAAAAAATTTTAATAAAAAGGCTTTTAATACTTTTAATTTTAATTATATTTTCTACCTTTAATTTTGCAAATGCAAATTTATATAGTGTTTCTTTATTTCAAGAAGATTTAAGAACAGCAATAAGTAATCTTGCTTATGATACGGGAACTACAATAATAATGGATCCTAAAATCGCTGGATTTGTAACTTTAGATGCTGTTGATAAACCATTAGAAACTTTATTGGATATGATTTTAATGCCTTTTGGTTATGCTTGGAAAAGAATTGATGATTATATATTGGTTGGAGTTCCCGATCCTTCAAGCGGAACTTCCATCCATTTAAATGATACTTATGTAATGAAAACAAGATATTTAACTCCAAAAAGTTTAATGCAACTTTTACCAAGATATTTTCAAAATTTTGTGTCATACAGTGAACAAGATAGGAATTTTGTAGTTATAAATGCTCCACCTAAAATTGCTGGAACTATTGCAAATACTATAAGAAAAATAGATATGGGAAGAGCAGAACTTTCAATAGAGGTTAAAGTTGTTCAAATAGATACAGAAGAATTCAAAAAATGGAATATATCAAAACTTGAAATAACTCAACCTTATGATAGAGGAAATGGTTATAATAATAGCCCTCATACACAACTTTCAGATAAATCTCTTGATTTTCTTGCAAATTTAAATGGAGTAGACTATGGATTAATCATAGACAAAGCAATTTCAGAAGGGCATGGAGAAGTTGTTTCAAACTCTAAAATAAATGTTATATCTGGTGAAAACAGTACATTATCTGGAAAATTAGTACAGTCAACAAATGATCAAAAGGTAGTTGGAGAGTATTCTGGTTTTGAATTAAGTCTTTCTCCATATTTAATGTCTGGAAAAAAAGTAAGATTAAATGCAACTGTATTATTAAAAGATAAAAGAAGTGTTGAAAATGATTCTTATCTTGAAAATAAGATACAATCAACTTTTGTTTTGGATCTTGAAGAAGAAGGTACAATAGCAGCTTTTAATTATTCAACAGTAGTTCAAAAAAGTATTGGAATACCATTTTTATCTGATATTCCAGGTATTGGTTCTTTATTTAAAACAAGTATAGATAAAAAAACAGATCAACAAATAATCTTCTTAGTTAAATGCTATGCATCTGGTGGTGAAATACAATGATAATAAAATTAAAAAAACAATTTATAATCTTTTTTATTTTAATATTAATTCCAATGTATATATTTTCTTCATCTAAAATAATAGATATAAATTTCTATGAAACTCCTTTAAAAGATGCAATACAAAGCATAGCAGATGGTAGTAATTCTATTATAATAATTGGCCCTGAAGTTAAGGGAAGAGTTACGCTTTCAGTAAGAGGTTTAAGTGTTGATAGTGCTTTAGAATTAATTCTTTATGGAACGACTTATGACTACAAAAAAATATCTGAAGGTATTTATGTTGTAGGAACATTAGAGGCTCAAAATAATATTTCGATGTACTTAAATCAACCTAATATAATTAAATTAAAGTACATAACAACCGAAAATATAAAAAATGTTTTATCTCAATATGGAGAACGTGTAAAGTATATAGATGGAGCAGACTTTATAGTTGTATATGGTAATGATAAAATAGCAAAAAAAATTACTGATACAATAGAAAAATTTGATAAACTCGGTAATGAATATATCTTTTTGTACAATATTTACTCATTAACTCAAAGTGCCTATCAAGCTATACAACAATTAAACTACTATGATTTTCCTGTAAAGTTTGAAAACTCATTGAATTTCTTGCAAAAAAACTTTACTCGTCTAACAAGAATAGAGCAAACTGGTTTTATAGAAACTACAAACTATGCAAAGTTTTCAATTGGTATAGATTTTAGTAAGTTAAATGGTCAAATTGCTATAGAAAATAATTTATATTCTTTAAAAACATCTATAACAACTCAAGATTCAACTGTCTTAAATTCATTTTCTTCAACTCAAAAAGTTGGAGATACTATATATGCAGCATACAATATAAATGGAGCCTTTTATTTAATTGTTTATAATTTATTACCTGAAATTCAAACATCTTTAACTAAACCAGTTGGAACTTATGCCAAAGTAAATACAGGAATTGAATATACAAATAAATTATTATATACTGCAGGCTTAAGCATAAGTGACAAATATGTACAATTTAGTTATGATTTCAATAAAGATTTTAAAATTTTATTTAAAAGTGATATTGTTTCGGGAATAAATGGTGAAATGGAAGCTTCATTAGATGAAAATTCAAAATTAAATACAAAAATTTCATTTATAGAAGAACAAAAATTTGATCCATTTTTTATGCTTGGAAAGGTATCTTTGGGAACTTCATTAACTATAAAAAATAATGAACTTTCTCCAGAACTTTCAAATCTTGGATATAATCTTGGACTTTATTGGGGATTTATGAAAGATGTTTCTATAATAAAATATATTAATTTTGGAATTGGTTTTGATTTAAATTATGATTTTAATAAATTTAATATACTTCCTGAATTTTTAGTAAAAAACAAACTCAGTTTTGATAAAACTTTAATGTATTTAAACTTCAAAATAAATAAAAATCTTAATTATGACATCAATGGTTATGTGAGTTTTGAATTCTAAGACGGCTTCTGCCGTCTTTTTTTGAAAGGAGTAATATATGTATAATATTTTAATAGTAGAAGATGATGCGTCTATTGCAAGGTTACTTGAATTAGAGTTACAACATGAAGGTTATAAAACATTAATTGCAAAAGATGGTGAAGAAGCTGTTGAGTTTTATGGAAATTTTAAGCCTGACGTGATATTATTAGACGTAATGCTTCCAATAAGGAATGGCTTCGAAATTGCAGAAATAATAAGAAATTATGATAAAGATGTTGGAATAATAATGTTAACTGCAAAAGGCGAGTTAGAAGATAAGGTAAATGGTTTAAAAAATGCAGATGATTATATAGTAAAACCTTTTGAAGTTGAAGAAGTTTTTGCAAGAATAGAATCTTTATTAAGACGCCTTGGAAAAACAAAAAATAGTATAAAAGCTGGAGATATAGAATTATTTCCAGAAAGAATGCAAGTTTTTATAAAAGGCAAAGAACTTCATTTAAGTTTAACTGAATTCAATATTTTAAAAACATTATTATTGAATAAAAATATCGTTGTTTCAAAAGAAAAAATTTTAGAAGAAGTTTGGGGATATGAAGATGAAAACCTAAATATAGTTGAGGTTTATGTTAATTATCTTAGAAAAAAACTTGGAGATTATGGAAAAAAAATAAAAACTGTGAGAGGTGTTGGATACGTTATCAGAGAAGATTAAATCTAGTGCTGTTTTAAATCAAGCAATATTTTTTACTATTATGGTTTTTATTATAATAACCATAATAACTTTTTCTATGAAAATTCTAGTATCAACAACAGCATTGCATGGATACTCAAAAGCTTTAATTAATCAAATAAATCCAAATAAAATACTAAAAAATGATGAAACTGATATATTTTCAAAATTTTTAGAAAATACAGATATAATAAAACGAAGTTTTATGGAAAATAAAATAGTAATATTGGATAACAAATTAATTAATGATCCTTACAAAATAATAGATGAAAACTTTAGAATACCTGGAACACCAGTAGCAATTAAAAAAAATGGAATATACTACATATTTGTAGGTTTACGACTATTTGACAACTCAAAGATGATAGTTGGAGGACCTTCACTTGAATTCACTGCAGTTATGGGAGCTTTTAATTATATATCAATTATAATATTAATATTTGGATTAATATTTTCAATAATAATTTCATATTTATTAGCAAAAAAATCTTTGAGTCCAACTATAAAAATTTCAAAAAAACTCTCTAAAATTAATATAGAAAATTTAGAAAGAGTTCCAGAACAAAAAACTATTGAATTTCAAGTATTAGCAAATCGATTAAACTCTATGTTAGACAGAATCGAACAAGGATATGAAATTCAAAAACAATTTGTTTCAGATGTTTCCCATGAACTAAGAACACCTTTGACAACATTAAATGGTTATATTAAAATGTTAAAGCGTTGGGGAAAAAATGATGAAAAATTATTAGAAGAATCAATAGAAAAAATTGAAACATCAACCAATTATTTAAAATCTATGATAGAAAAACTTCTAATTTTATCTAAACCAGACTTTAATCCTGAAATATCTATTTTTAATATTTCAGATGCAATTAAAGAAGTTTTAAAACTATATAACACTCAAGAAAGAAAATTTATAGAAAAAGGAACATCCTTTAATGTAGAAACATCCTTTGAATACTTAATTATAATACTTAAAACATTAATAGAAAATGCAGTAAAATATTCGGAAAAAGAAATAGAAATAATTTATGATAAAAATTCAATAATTATTAAAGATTTTGGTATTGGTATACCAGAAGATAAAGTTGAACATATATTTGAAAGATTTTATCAAGCTGATACTTCAAGAAAAGATTTTGGGCACGGATTAGGTCTTTCAATAGCAAAAAAATTATGTGAAAAATTAAATATCAAAATTGTAGCAAACTCAAAAATAAATGAAGGAAGTTCATTTAAACTTATGTTTGGAGGAAAAAATAGTGAAAATTGATATGGAATATACCTTAAACTATTTAAAAGAAATAATGAAAGTACATAGTCCATCTGGAGATACAGAAAAAGGCATAAAAAATGTAGAAGAAGAGTTTGATAAACTTAAAATATCTCATAAAAGAACTAAAAAAGGGGCTATTATAGCAACAATAAAAGGAAAAGATGATGAACATCATAAAACTATATCAGCTCATATAGATACACTTGGAGCCATGGTTAAAGAAATAAAAAATAACGGAAGATTAAAAATGGCGCAAATAGGAGGTTTTTCTTGGACTTCTGTTGAAGGAGAAAATGTTATAGTAAAAACATTAAATGGAGAAGAATATACAGGAACAATTTTATTTGATAAACAATCTGTACATATACATGGAATGATTCCTCGTGAAACAATTAGATCTGATGAAAATATGGAAATAAGATTAGATGAAGACGTAAAAAATAAAGATGACGTTTTAAAATTAGGAATTAATGTTGGAGACTTTGTTTACTGCGAAACAAGAACTACTATTACAAAAAATGGTTATATAAAATCAAGATATTTAGATGATAAAGCCGCCGTTGCAATAATTATGGGCATTTGTAAGTATATTAAGGATAATAATATAGAACCAAAATATACAACTCACTTTTTTATAAGTAATTATGAAGAAGTTGGTCATGGAATATCTGCTATTCCAGAAAAAACTGATGAATTTATTGCAATAGACATAGGAACGGTTGGACTCGGTCAAAACTCTGATGAATTTTCTGTTTGTATTTCAGCAAGAGATACATCGGGACCTTATGACTTTTCATTTAGAAAAAAATTACAAAAAATATGTGAAAAAAACAATATACAATATAAAGTAGACATGTATAATAGATATGGTTCTGATGCAAGCAAACTAGTTCATCAAGGTGTTGATGTAAATTATGCACTCCTTGGGCCTGGTGTAGATGCTACACATCATTATGAAAGAACTCATATAAAATCTTTAGATAATACTGCTAAACTCTTATTAAACTATATCGTTTAATTTAAATTAGAAGGTTTACACGTAATATAATCTTAGCAAATTAAAAATTATATAAATTTTAAAATAATTCATCTCATTTTATTACATGTATATATTACAAATAAATAATAAATTTAGAATTAAGGCATTTAGGAATTTGGTGAAAATCCAAAACGGTCCAGCCACCGTAACTGAGAACGAACACTACAAAATACCACTGAGAAATCGGGAAGGTGTAGTTAGTAGAATGATACAGAAGTCGGGAGACCTGTCTTAATTCAATTTTTATCTCAATTTCTTGGTTTGAATTGAGAAAAATTTTTATATGGAGGTATATTATGAAAAAAATTATTTTTAAAGAGTATTTTTTTGCAACTATTGGAGCTTTATTAACTGCATTTGGACTTGCTGTATTCTTAATGCCACATGATATAGCTTGTGGTGGAGCAAATGGTCTTGCAATTGTTTTAAACAGTGTAATTCATGTTCCAGTTGGTATATTGATGTATGGTGTCAATATTATTCTATTTATCCTTTCATTTATTTTTATAGGAAAAGAGTTTGGAGCAAAAAGTATATATTGTACTTTTATTCTTAACTTTTTTGTTGATATGTTTGATAGAATACTCCCTATACCAAAATACACTGGAAATGATATGTTTTTAGCTGTATTTTTTGGAGTTGTTATATCTGCTGCAGGTATGGCAATTACTTTTTCACAAAATGCATCAACAGGTGGAACTGACATAATTGCTAAAATATTTAATAAATATTTTGGACTTTCACTTGGTATAGGTCTTTTAATGTCTGATTTAATTATAGGTCTTCTTGCAGGAATTGCATATGATCCAACAGTTGGAATGTATTCTATTGTATCAGTTATTATAAATGGCTTAACAGTTGATTTCATTATTAGAGGAATAACAACAGATGTTACAATGATGATAATATCTGAAAAGAAAAAAGAAATATTAGAATATATCTTAAAAGATTTAGATAGAGGTGCATCACTTATAAACGCTGAAGGAGCTTATTCTGGACAAAAAAAACAATTTATATATGTAGCTTTAAGTAGAAGAGAAAAAAATGAAATGATACATAAAATTCAATCGATTGATCCAGATGCTTTCATAACTGTACAACCAATTTCTACGGTAATTGGATATGGTTTTAAAAACTTCAAACAAGTAATATAATTTTTTAATTTTTATCTTATACGACAAAAATATGCAAATTTGATAAATCAATTTGCATATTTTTTTATACTAAAAATTATTAAAAAATAGTAATAGTTGACAAAAAATTAAAAAAATGATATCATTCACTTAGTGAATGAATAATCGAGGTGTAATATGTTTAAATTTGAAGAATATTCTTTTTTTAATCCATCACCAAACTTTAGAGAAATGGTTCTTTTACAAATAATATCAAAGGATTCTAATGTATCTCAAGAAATACTTGCAAAAAATGCTGGAATAGCGCCGTCAATGGTAAATAGATACTTAAAAGAGTTTGAAGAAAAAAAGTACATAAACAAAGTTGGAAAAACGAGAAGAAGTATGCAGTATAAATTGACTGAAGATGGAATAAAGAGATTACAGTTTTTAATAGTTTCTTATACCAGCGAAGTATCGAAGATGTATGCAGAAACAAAAATATCTTTTGATGGTGTTTTATATCAAATAAAAAATAAATCTTTAAAGAACATATATTTATACGGTGCAGGTGTTGTTGGAGGAATACTTTTAAAAGTTTTAAATAGTGAAAACATAGAAATAAAAGGCTTTATAGATGAATCACCATTAAAAATAGGAGAAAAACTTTACAATATAAAAATTTTTTCTCCAGAATCAATGAAAAATAAAAATTATGATGCAATTATAATAGCTTCATTTAGACATTATGAAGAAATATTGAAAAAAGCAAAAAACTTTGGATTAAAAAATATACAAATTTTTAAAATAGACAATGAAGGAAAGGTTTCATTGAAGGAGGCTTAAATATGAAAGTACCACTTTTTGATATGACAAGGCAGTATGAAAAAATAAGAACTGAAGTTTTAAATACAATTGATGAGATTTTTAAAAGCGGAAAGGTTGTTCTTGGAAAACATGTAAAAAATTTAGAAGAAAATATAGAAAAATATATGAATGTTAAAAATGCAATTGGTGTTGCAAATGGTTCAGATGCACTTGTTATTGCTGTAAAAGCTTTAAATTTAAATCCTGGTGATTATGTAATAACAACACCTTACACATTTTTTGCAACTGCAAGTTGTATAGTTAGAAATGGATTAACTCCAATCTTTGTGGATATAGAAGAAAAATATTATAACATAGATTTAAATGAAGTAGAAAGAATTTTAAAAACACATCCACAAAAAGAAAAAATAAAGGCAATAATACCTGTTCATTTATTTGGAAAAACAGTTGATATGAAGAAGTTATTAGAACTCAAAGAAAAGTATAATTTAAAAGTAATAGAAGATACTGCACAAGCAATAGGAGCTGTTTGGTACGATGGAGACAAAAAGATATATGCAGGAACTGCAAGTGAGTTTGGAACTATATCATTTTTTCCAACAAAAAATCTTGGTGGATATGGTGATGGTGGAATGATTGTATCAAACAATGACGAACTCTCTCAAAAAGCAAAGTATTTGAGAGTTCACGGAGCATCAAAAAAGTACTATCATGATGAAGTTGGATTTAATTCAAGACTTGATGAAGTACAAGCAGCTATACTTGACATAAAATTAAAACAGTTAGATGAATACATAGAAAAAAGAATAAATGTAGCAAAAATATACAAAAAGCTATTTACAGAAAATGGACTAAATGAATACATAGAGTATCCAGAAGTATTTAAAGATAGAACGCACGTTTATCATCAATATGTTATAACTTTAAAGAGTGGAAATAGAGATGAACTATTTAAACATTTAAAAGAAAACGAAATTGGAACTTCAATATATTATCCAAAAGGACTTCATCTTCAAAAATGTTTTGAAGATCTCGGATATAAAGAAGGAGATTTTCCTATTACAGAAAAAGCGTGTAAAACAACAATAGCTCTTCCAATATTTCCAGAATTAACAGAAAAAGAGCAAGAACATGTTGTAAAAACAATAAAAAATTATTTTAAGGGGGAATAAAAGTGGCATTAATAGATAAAATAAATGATAAAACAGCAAAACTTGGAGTAATAGGTCTTGGATATGTTGGACTACCTCTTGCAGTAGAAAAAGCAAAGGCTGGATACAATGTAATTGGATTTGATGTTCAAGAAAGTAAAGTTAAGATGGTAAATGAAGGTATTAATTATATAGGTGATGTTGTAGACAGTGAATTAAAAGATTTAGTAAAAAATGGAAAAATAAAAGCAAGCACAAATTTTGATGAACTTGAAAGTTGTGATGCTGTTATGATATGTGTGCCAACACCACTCGATAAATTTAAACAACCAGATTTAACTTATGTTGAAGCATCAACAAGAGAAGTTGCAAAGAGAATTCACAAAGAAATGCTCGTTGTTTTAGAAAGTACAACTTATCCTGGAACAACTGAAGAAGTTATGCAACCAATACTTGAAGAAAGTGGATTAAAAGCAGGAGAAGATTTTTATCTTGCATTCAGTCCAGAAAGAGTGGATCCAGGAAATATAAGATTTAAAACTAAAAATACTCCTAAAGTAGTAGGAGGTGTATCAGAAGCTTCAACAAAAGTTGCAAAAGCTTTATATGAAAGTATATTAGATGCAGAAGTATTCTGTGTTTCTTCACCAAAAGAAGCTGAAATGGCAAAGATACTTGAAAATTCTTTTAGAATAGTAAATATAGCCTTTATAAATGAAATGGCAATAGTTGCAAAAAAAATGGGAATAAACTTGTGGGAAGTAATAGATGCAGCTGCAACAAAACCATTTGGATTCATGCCATTCTATCCAGGTCCAGGAGTTGGCGGTCACTGTATACCAATAGATCCATTTTATTTGACTTATAAAGCAAGAGAATACGATTATCATACAAGAATAATTGAGATGTCTGGAGAAATAAATGATTATATGCCAGAATACGTTGTAGAAAGAGTAATGGACTTGTTGAATGAAAATAAAAAGTGTATGAATGGCGCAAAGATAGTAATGCTTGGTATAGCATATAAAAATGATATAGATGATATGAGAGAATCTCCAGCATTAAAGGTTTTAGAACATCTTGAAAAGAAAAGAGCAGATGTTACAGTAGTTGACCCTTGGGTAGCTGAATTTAAATGGAATGGAGATACTGTAAAAACAGTTGAATTAACAGAAGAATTATTAAAAAATGCTGATGCAGTAGTTGTAACTACAGGTCACACAAATATAGACTACGACTTTGTTGCAAAAAATGCTAAAATAATCTTTGATACAAAAAATATAATGAAAAATGTAAAAGAAAATAGAGAAAAGATAGTTATATTATAGGGGGAAAAACATGCTAAGATGGGCAATAATAGGTTGTGGAAGAATAGCAACTAAAAAACATACAGAAGCAATAATAAACAATAAAGAAAATATAGAGTTAGTAGCTGTTGCAGATATAATAGAAGAAAGAGCAGAAACCCTTGCAAATATAATAAAAGATGCTGGACTAAAAAAACCAGAAATTTATACAGATTACAATGAAATATTAAAAAGAAAAGATATAGATGGAGTATCAATAACAACAGAAAGCGGAAAACACTATGAAATAGCAATGAAAGCTATGAACAATGAAAAACACGTTTTAACAGAAAAGCCTATGGCACTATCTACAAAACACATGGATGAAATGATAAAACTTTCAAAAGAAAAAAATTTAAAACTGGGAGTATGTTTTCAAAATAGATTCAATCCTCCCGTACAAGAACTTAGAAAGAAAATTGAAAATGGTGATTTTGGTGAGTTATTTCATGGTCAAATATCTATTAGATGGAATAGAAATAAAGATTATTATGAACAAGCAAAATGGAGAGGAACATGGGAGATGGATGGAGGAACTCTCATGAATCAATGTACTCATGGAATAGATTTACTAATATGGACCTTTGGTGGAGAAATAGAATCCATAACAGGAAGAATAGAAAACTTCAATCATGATTACAATGAAGCAGAAGATTTTGGAAGTGCAATAGTAAAATTTAAAAATGGTGGAGTTGGAATAATAGAAGGAACAGCAAATGTTTATCCAAAAAACTTAAATGAAACTTTATCGGTATTTGGTGAAAAAGGAAGCGTTGTTATAGGTGGTCTTGCAGTAAACAAAATAGAAACTTGGAAGTTTGAAAATGAAGATGGACATCCTTATCAATCATTGCCAGATCCAGATACTGTATATGGTGCAGGACACATTCCACTTTACAAAGATTTCATTGAAGCAATCAATGAAAATAGAAAACCATATGTTAGTGGAGAAGATGGGAAAAAAGCAGTTGAAGCTGTATTAGCAATTTATAAATCATCAAAAACAGGAAAGACTATAAACTTTCCATTTGAATTTTCATCAATAGAAATGAAAAAATAACAGACGTTGTCTGTTATTTTTTTTACTTATATCTATTATAAACTTGTTTATTATTATTCAATTACTCAATTGTGTTATAATAAAACAGAGGTGATCAAAATGAAAAAAGTACCATATGGACTTCAAAATTTTAAAAAAATACGAACTGAAAATTTTTACTATGTAGATAAAACTAAGTATATAGAAATAATTGAAGATATGCCAGAATCATATATATTATTTTTAAGGCCAAGAAAGTTTGGTAAAAGTTTGTGGCTCGACACTATGAGTAAGTACTACGATGTTAAGTACTCAGATGAGTTTGATACTATCTTTAAAGACTTATACATACAAAAACATCCAACACCTAAAAAAAATAGTTATCATATTTTAGAGTTTAATTTTTCTGGATTGAATACAGACAGTAAAGAAGAGTTGAAGTATGGATTTAAAGATGAAATTTATGAAAAATTAGATACTTTTATATATAAGTACAACTTAAATATTACATTAGACAAAAGTAAAAATGAACCTTCAGAACTTTTTAGAGAGTTTATAAACAAATATAACAAACTAAACTTAAAAACAAAAATATACTTATTAATAGATGAATACGACCACTTTGCAAATGAACTTTTGAGTTTTAAACTCGATGAATTTAAAAATATCGTCAGTAAAACAGGTTTTGTTAGAAAGTTTTATGAAGTAATAAAAGAAGGAACACGATCTGTTATAGACAGACTATTCATAACAGGAGTAGCACCAATAACCTTAGATAGTTTAACGAGTGGATTCAACATCTCAAAAAACATGTCAACAACTTTAGAATTAAATGAAATGATGGGATTCACTGAAAGTGAAGTCAAAGATATTCTGAAAGAATATCAAATAAATGATGATATTTTACAAGATATGAAGTTTAGCTACAATGGATACATGTTCAATAAACATGCAAAAAAAAAGGTTTATAACAGTGATATGGTCTTATACTTCATCTCTGAATACAACAGAGAAAAGAGAAAACCAGAAGATATAATAGATATGAATATAGCAAGTGACTATAAAAAAATACAAAATTTATTTAAACTTGGTGAAATCGTTGGAATAAATACAGAAAAAAATAGCCATGAAGTTGTAAATGAACTTTTGAATGAAATACTATTAAACTCAAAAACAGAAATAGAAGTATTAACACAAGCCTTTAACATGGAAAGAAAACTCGATATAAAAGATATAAAAACCTTACTCTTTTATTTAGGATTTTTAACCTTTGAAAAAGAAAACTTTTATACATACTTAAAGATACCAAACTATTCAATGAAAAAGTTATATTCAGAGTACTTTGTAGAATCAATAGAAGATAGAGCAAAGAGTTATATAAATACAGAAAAGTTAGAACTTGCAGTAAAAAGGATAGTAATAGATGGAAACATAAACCCATTTGCAAATGAAATAGAAAATGTATTGAAAAAACTATCAGACAGAGACTTTCAAAGCTTTAGTGAAAAACATATAAAGATGCTACTGTTTAGTTATTTAATCTTAACCCCCTGGGCATACGTTAAAAGCGAGTATCCAGTAGAAAGTGGATACATAGATTTAGCAATGTTTAAAAGATACGAAGAAGTACCCTACAATGCAATAATAGAATTAAAATACATAAAAAAGAAAGACTATACAGAAAAAATATATCAAGAAAAGATAAAAGAAGCAGTAAATCAAATAAAGAGATATGAAAAAACCATAAACAAAGAGTTCAATGGGCCATTAAAAAAAGTAGTGATGGTCTTTGTTGGAAGAGAATTAAAGTATCTTGATGAAGTTGAATAAATAACTCCTTATTATGGCACAATGTTGCTTTATACAATATAGTAAAAAAATAAGGAGGCTAATAATATGAAATTAAATGAAAAAATAGCAATTATAACTGGTGCATCAAGAGGTATAGGTTACGAAATAGCCAAAAAATTTGTAGAAAATGGTGCAAAAGTAATAGCTTTTGATGTTAATGAAGAAGGATTAAAGCAAGCAAAAAACACTTTAAATAATTACTATCCATATGTTGTTGATGTTACTGATTCTAAAAAAATAGATGAAACAGTAAAAAAAATTAACTCTGAATTTGGAAAAATAGATATATTAGTAAATAATGCCGGTGTAACTAAAGATACACTTCTTGTAATGATGAAAGAAGAAAACTTTGACTTTGTAGTCAATATAAACTTAAAAGGTGTTTTTTTAGTTACTAAATCTGTGGCAAAAGTTATGAGAAAACAAAAATCAGGAAATATAATAAATATTTCAAGTATAGTTGGAATTGAAGGAAACATAGGACAAACTAACTATGCTGCAACTAAAGCAGGGGTTATTGGAATGACAAAAACATGGGCAAAAGAAATGACTATGCGAGGTGAAAATGTTAGAGTTAATGCAATTGCTCCTGGATTCATACAAACTGCTATGACAGATAAATTAAAAGATGAAATGAAAGAAGCAGCAATAAATAGAATGTGTATAAAAAGACTTGGAACAGCAGAAGATATATCAAAAACAGCATTATTTTTAGCTTCTGATGATTCAGCTTATATAACAGGTCAAGTAATTAGAGTTGATGGTGGAATAACTTTATAATTTTTATGGTATAATTTTTACGTGAGAGAAAGAGGAGGTAAAAATTATGGTAGACATAAAAATTGTAAATGCTGTTTTATCATCTTTAACTGCAACTTTTAAAGCAGCAGCAAAAAGTGTTGTTAAACTTCAAAAACCTGAATTAGTAAAAGATATTGGAGAAACAAGAGCAATAGTATCTACAATTGGTTTTAATGGCGTTCTTGAAGGAAATGTTATTTATACACTTTCAGAAGATACAGCAAAAGGCATTGTTGGTAATATGATGGGTGGAATGATGGAAATCACAGAAATAGATGAACTTGCTTTGAGTGCCATTGGTGAGCTTGGAAATATGATTTCAGGTGCAATAGCAATTTCTCTTGAAAAAATTGGCTATCCAATAAATATAACTCCACCTTCTGTTGTACGTGGTGCTGATATGACAGTTAGTGTTAATGGAAGTATTTTAAAGTTTTCTGGTTTCATTGAAGAAACAAAAGAAATAGATGTTTATATGGTTATAAAATAATAATAAACTACTACATTTTTTATATGTAGTAGTTTTTTTATTAAATAGTAAAACTACTTTTAAAGTATAATAATGCTCCATTTTCATAATTATAAGATTTAAAATTAAATCCATTTTTTTCAAAAATTGATTCCAACTTTTTTTCAGAATATAAAGTACCATTAATTTTACTATTTCGATAATTTTTTTCTGGTACAGGAACAACACCTATAAATACACCTTTATCTTTCAAAACTCTTTTAATTTCTGTTAAGACTTTATCTAAGTCATTAAAAAAATTTATAGCCAAATTACACAAACACACATCAAATTTATCATCTTCAAAAGGTAATTCTGAAGCATTTGCAAGATACAGTTCAAAATTTTGAAAACCATTTACATTTAAATTTTTAATAGCATTTTTTAATAATCCTTTACTAATATCTATACCATAATAAAAATTTGATTTATTTAAAAACTTAGATATAGAAGCATTTCCACATGCCAAATCTAAAATAATAAAATTATCAAATTTTTTAAGTTCAGAGTTAAAAAAATCATAATGTTTTTCAAGAGAACTACCAAATTTTTTAGGAAACACTGATTTTTTCATTATATTATCATAAAAAAAAGAAAAAAGATCTCCAAGCCACGGTTTGTATTTTAACAACTTGTTAGATTTATAAATATAATTAATATTACCTTTCTTAACAACTTCAAAATTCATAATCTCACTCCCTATTTTTTTAAATAAGCTATGGAATTACATATAATTTCACGTTTCACCTTCAAGAGTGTATCTTTTCTAATTCAAATTGTACTCTTCGGGCTATCTCGTGTCAAGATACATGCAAATACAAAAACTGAGTTTGTATGTTTATTATTAAATTTTGAAAAAACACAAAAAAGTGATAAAATATTAAACTATACACATTATTTTTTATGGGAGGTTATCTTAGTGATTTATTTTTTAATTCCAGCTATATTTTTGGGTTGGTCTTTAGGTTCAAATGATGCAGCAAATCTTTTTGGTCCACCAGTTTCAAGTGGTATAATTAAGTATAAACATGCTATAATTATAGCTTCAATATTTGTAGTTCTAGGAGCAATAATTGGTGGAGCTGCAGGTCTTAAAACCATTGGTGGACTTACTGATATAAATCTTAGAGAATCATCTATATCATTATTTGGTGCTGCATTAACAGTTACTTTTATGACTTTTTTAGGATTACCAGTTTCAACTTCTCAAGCAGTTGTTGGTTCTTTAGTTGGTGTTGGAATGCTTAGAGGATCTGTTGATTTGAGTAAATTAATAAAAGTTGTAATATCTTGGGTTGGTACGCCGATTGGTGCTTTAATAATTGCATTTTTTGCTTATAAAATTGTTTCATATTTTTTTAGACAATTTTTAAGTGTACAAAAACAAGATATCTTCATAATAGTTGGTACTTGGGCTGTTGGAATATATGGATCATATTCACTTGGTGCAAATAATGTTGCAAACGTAACTGGAGCACTAGTTGGAAGAAATGAATTATTTACAATTCCATTAATGGCTACTATTGGTGGTCTTTCAATAGCTTTTGGTATACTAACTTTTAGCAAAAGAGTTATGATGACTGTTGGAAAAGGAATCATAGAACTAGATCACTTTTCTTCAATGATTACAATTTTTGCTGCATCAGCAACAGTTTGGATTTATTCATTAATAGGTGTCCCTGTAAGTAGTTCACAATCAATAGTTGGTGCTATTATAGGTATAGGCTTTGCAACTGGTACAAAGACAGTCGATAAAAAAGCAATATTTAAAATTGTATCTGGCTGGGTTTCAACGCCAGTTCTTTCAGGTATAATATCAGTGATAGTAACATTAATTATGGAGGTGATTTTATGAAATTTTTCTTTGGAAAAAAAGAAGAACATATAATAGAAATGTTTAAAAAGCATTTAGATCTTGTAGATGAAGGTATAAAACTTTTAACTGAACTGTCTGAAACTTATATGGAAGGAAAATGCATAGAAGAATTAACAGAAAAAGTTAGATCAAAAGAACAAGAAGCAGATTTATTAAGAAGAGATGTTGAAACTGTAATGTATAAAGGTGCCTTTTTACCAAACTTTAGAGGAGACTTACTTGGTATAATAGAAAGTGTTGATAAAGTAATAAACAAAGCTGAAACAGTTGCAGATATTTTTTATATACAAAAACCACGCATACCAGAAGATTTTAAAATAGAAATAGTAAAACAAATGGGAAAGGTGGATCAAACTTATTTAGCATTAAGAGAAGCCATTAAACAAATGTTTGAAAATGTTGAAAAAGTTCCTGAACTAATAAAAAATGTTGAAGTTTATGAACATGAAGAAGATGTTGTTGAAAAAGGGTTGATAAAAAAAATATTTGAATCTGATATGGAACTTGCAGAAAAAATTCATTTAAAAGAATTAATTTTAAATATAGGAGACATTGCAGATAGAGCAGAAGATTCATCAGATAGAGTAGAAATAGTAATGTTAAAAAGAAGCATATAAAAAAATAGGGCTAAGCCCTATTTTTTTAATGTATAATTTATATATAATCATGCACGGAGGATAAAATGTTTGATATTTTAAAAACAAATATAAATGGAGTATATATATTAAAACCTAAAGTATTTAAAGATAATAGAGGTTTTTTTATGGAAAGTTGGAATAAAAAAGATTTTTTTAATATTGGAATAAAAAAAGACTTTGTACAAGATAATCATGTCCAAAGTAAAAAAGGAGTTTTAAGAGGACTTCATTTTCAAACAAAACATAAACAAGGTAAATTAATAAGATGTATTAATGGAAAAATATATGATATCTCTGTTGATTTAAGAAAAAATTCAAAAACATTTGGTAAATATTTTAGTGTTTTATTATCAGATAAAAATAAAAATATGCTTTATATACCAGAAGAATTTGCCCATGGATATCTTGTTTTGTCAGATAAAACAGAAATTTTATACAAAACAACAGACTATTATTATCCAGAGTATGAATCTGGAATAATTTGGAATGATAAAACTTTAAATATTAATTGGAACTTAGATAAATATAAAATTAAAAAAAGTGAATTGATATTATCGAGTAAAGATCAAAAATTACCTGATTTTAATGAATATTTGAAAATATATTAAATATATTCTGAATATTATTAATGTAATAATATGTTATACTATACGATATATGAGGTGAAAAAAATAAAAATATTAATAACAGGTTCAAATGGGCAACTTGGAGTTGAGTTTCAAAAATTTTTTGAAAAAATTAATATAAATTATATTGCAGTTCCTCATAAGAAATTAGATATAACAAATATATCCAATTTGTATGAAGTATTAAAAAATAAAAATATAACTCATATTTTAAACTGTGCATCATACAATGATGTTGATAAAGCAGAAAAAAATTCAAAGCTTGCTTATAAAACAAACGCTCTTGGAGTAAAAAACTTATCTTTAATATCTAATAAAATAAATGCTAAACTTATACACTTTTCAACAGATTATGTCTTTGATGGAAGTAAAAATAATCCATACAACATATTTGATACTCCAAACCCAATAAATGAATATGGAAAAAGTAAGTTGATAGGAGAAAAATATTTAAAAAAATTGTCAAAAAATTATCTTTTAATAAGAACATCTTGGCTTTTTGGCGGAAATAAAAATTTTATAAAAAAAGTTTTGGAGTGGAGTAAAAAAGAAGAAATTCGTGTATCTTACAATGAAGTTAGTTCACCAACATATACTTTGGATTTAGTCAAAGTTACATTTTTTCTTATAAAACAAAAAAGTTTTGGAACTTATCACATAACTAATACACCAACTAATAGATATGAATGGGCAAAATTTATATTAAATAAAATAAAATACACTGGAAAAATTGTTAAAGTAAAAAAAGAAGTTTTTAACTTACCTGCAAAAAGACCAAATTATTCAGTTTTACTCAATAATCATGAAGTAAAAATATCAACGTGGCAAAAATCTACAAATAATTATTTGAGGTGCATATTATGAAATTTAAGAAAGATAAACAGTACTATAAGTTTTGTATGTATGGCTTTTTTAAAAACTTAAGATTTTTTGAACCATTTTTAATACTATTTTTTTTAGAAAAAGGATTAAATTACTTTCAAATAGGAATACTTTATGCAATTAGAGAAATTTCAACTAATATATTAGAAATTCCAACAGGTATAGTTGCTGACTCAATTGGAAGAAGACGAACAATGATCTCTTCTTTTTCTTCTTACATAATATCCTTTATCTTTTTTTATTTATCAAAAAGTTATTGGCTTTTTATCTTAGGAATGGTATTTTTTTCTTTTGGAGAAGCCTTTAGAACTGGAACACACAAAGCTATGATTTTTGAATACTTAAAAATTAAAGGATGGGAAGACTATAAAGTTGATTATTATGGACACACAAGATCATCTTCACAGTTTGGATCAGCTGTTTCATCATTAATAGCTGCTTCAATTGTATTTTTTAGTAAAAACTATAGTTTAATATTTTTATTTTCAATAATTCCATACATAATGGATTTATTATTAATGATGACTTACCCTAAAGAATTAGATGGTGAATTAAAAACATTTGATGAGAAAAAATTAAAAAATAATTTTAAAAAGGTAATAAAAGATTTTATATTATCATTTAAAGATATTAAATTACTAAAAGCCGTTTTAAACAGTTCTATTTATACTGGTTACTATAAAGCAGTTAAAGATTATTTACAACCTGTTTTAAAATCATTTGCACTCACACTCCCTTTGTTTTTAACATTTAAAAATGAACAAAGAGAATCTTTAATAATAGGAGTTGTTTACTTTGTAATTTTTATTTTTACTGCATTTGCAGCAAGGTTTTCTGGAAAGTTTGCAAAGATATTTTCATCTTTTTCGAAACCACTTAATATCACTTTGATAATTGGACTTAGTTCTGGAATAGTAGCTGGTTTATTTTATGATATTGATTTAAGAATTTTATCTATAGTTTTTTATTTATTGATTTATATGCTTGAGAATCTTAGAAAACCACTTGGTGTTGCTTATATTAGTTCATCATTAAACAAAGACATTTTAGCTACTATTTTATCTGCTTCATCTCAAATGAGTACTATAATTGTTGCTTTATCTTCTATAATTCTTGGATTTTGTGCAGATGTTTTTGGACCTGGTAATGCTATAATAATTCTTTCAGCTTTATTATTAATTTTTACTCCTTTGTTTTTAATAAAAGAAAAAAAATAATAACTGTTTAATAATTAAACCACTGAAAAGGGAGGTCTTTTATGATAAAAGTAAAAGAGTATATAAAAAACGAAGTAAAAGAAGCATATGGCTGTACGGAGCCCGCTTCAGTTGCTTTAACTGTTGCTCGGGCATGTCAAGAAACAGATGAAAAGGTAGAAAATATATTTATTGAAACGAGTAAAAGTATATACAAAAATGGAATGGCTGTTAAAATTCCTGGAACTAATGGTCAAAGAGGCAATATAATTGCAGCAGCATTGGGAAGCAAATTAAACAACATAAGTTTAGAAATTTTTAAAGGATGTACTTCAAATATAGTAAAAGAAGCCTTAAAAATGGTTAATGAAAAAAAAGTATCTGTGAAATGCTTATATGAAAAAAGTGGAGTTTATACAAAGGCAACAATAAAAACTAAAAACCATGAAATTATTACAATAAGTGAAGGAAAACATGATTTTATAAGTTTGGTTTTAAAAGATGGAAAAGAAATATATAAAAATGAATATATAGAAGAAGATTCAATTAAATACTTTGAACTAAAAGATGGAATTGTTGATGAAATATTAAATTCTTTAAAAACACTTGATGAAAATGATTTAAATTTTATAACAAAAGGAATAGAAATGAATTTAGATGCAGCAAATAAATGTATAAAAGAAGAAATACCAGGTCATGAACTTTTAAAAAATTTTGAAGACTGTGATATGAATGAAATAAGAAAATGTGCCATGGCTGCATCAGCAGCAAGAATGGATGGCGCTTTTGTTCCAATTATGAGTAGTGGTGGAAGTGGAAATCAAGGAATAGTAACTACAGTTCCAGTTGGTATTTTAGGAAAAAACTTAAAAAAATCAAAAAAAGAAATAGCAAAAGCAGCAGTAATAGCTCATTTAATTTCTGGTTATATAAAAGATAAAGTTGGAAAGTTAGCTCCAATTTGTGGAGCATTTTTTTCTGCAGGAGCTGGTGCAGCAGGAGCTTTAACTTGGCTAATGGGAGGAAATATAGGACAAATCGAACAAGCAATTGAAACTATGCTTTCAAATACAACAGGAATTATGTGTGATGGAGCCAAAGAAAGCTGTGCATTTAGAGTTGGAACTGCCGTTGCAGAAGCACACGCTGCAGCAATAATGGTCTTAAAGAAAACTCATGTGGCGTGTTCAGAAGGATTTATTGATTGTTCTCTTGAAAAAACAATAGATAATGTTGTTAAAATAAATAAGGCCTTTGAAAATTTAGACAATACATTAATAAAAATTATAGAAGAAAGGTATTAATCAACGTGAGTTCTCAATGAGAACTCACGTTGATTCTGTTTGAAATTTTAACATTATATTCATTATATTTTTATGTTATAATATATATTATAGTAAATAAATTATATTAATTAAACTCGGAGATGATAAAATGAAAAAATTTTTCATACTAATATTTTTATTAATTTTAATAAATAGCTTCTCATTAAAGATAAGGGCTGGAACATATTCAAATATACCAGTTTCATTTGAAGAAAATGATGGAAAAATAGTTGGTATTTTTTCAGAAATACTAAATTATATTGCAAAAAAAGAAGGATGGAACATAGAATATACTTTACTTCCTCAAAATATACAAATGAAAAGACTTTTAGATGGAAAAATAGATTTATCATTTGCATATGGAATTACAGAAGAAAGAAAAAAATTCTATGAATATAATAAAGTTTTTGTAATGAATGACTGGGCTACTGTTTATACAAACTTATCTGATAAAGATTTAAATTATTTTTCTATGCAAAATAAAAAAGTTGGAGTTATGAAAACTGACATTTATTATGATGGACCTGTAGGAATCAAAAATATACTTAAAAATTTTGAAGTTAAATGTAATTTTGTTGAATATGATACTTATGAAGATATTTTTAAAGCTCTTGAAAAAAAAGAAATTAACTTTGGTGTAGTTTCAAGATTATATGGAGTAATGAGTCAAAAAAAATATAATGTAAATGCTACAGCTATGATTTTTAACCCAATTAACTTATATTTTTTATTTAAAAAAGATGCACCAATAAACAAGAAAATAATTCCTATATTAGATAAATATTTATTTGAATTAAAAAATAAAAATGATTCTTTTTATTATAAAATAATAAATAAGTATATAGAATCAACTGTTTCAAATAAAATACCAATTTGGATTTATTATATCTTTGGATTTATTCTTTCTGTAATAATAATTCTTATAATAACAGTTTACTTTATGAAAAAAATAATAAATAAAAAAACTAAAGATGCTTTAAAACAAAAAGAAGAAGTAGAAGCTGCCTATGAAGAACTTCAAGCTTATAATGAAGAATTAACTGCTAATCAATCTGAATTAGAAGATTTATATGAATTTTCTGAAAAAGAAAAAGAAAAATTTAAAAAATTATTAGAAATAAACTCTAAAATTCCACAGTATATTAATTTAAACGATTCAGTATTTATTTCTGAACTTTTAAATGTATCAATTAAAATATTAGATGGAAATTATGGTATTGCATTTAAATTAGATAATGATTGTTTATATTTTTTAAGTGCTTTTGGTCATGAAATTAATAATTTTAAAGATTTAAAATTAAAAAATTTTTTTAATCGATTAGAAATAACCAAATTAAAAAATATAAAAAGAATGATAAAAGAAAATACTCCTCAAGAAAATAAAGACAAAATAAATGGATACATACTTGAAACAGAATATTCTATTATAATACCTTTTGTTATTGAAGGAAAAACTAATTTTATAATCACCATAGATAAAATAAAAGGTGACTTTGAAAAAGACTTTTTAGAAATTTCACGAGCTTTAAGAGGATTCATTGAAACCTTATTAAAAGTAAAATCACAAAATCAAGAATTCAGAAGCTCTTACACAAACTTTGCAAATAGACTTGCCATGATTGCAGAAGCACACGATGATATAACAGGGAATCACATAAATAGAGTTGGTGTTTTATCTGAATTTATTGCACAAAAATTAAACTTAAGCAATGATTTAATATTTGAAATTAAAAATTTTGCACCACTTCACGATGTTGGAAAAATATTTATTCCAAATGACATATTAGGAAAAAAAGGACCTTTAACAAAAGATGAATGGGAAATTATGAAAAAACATACAGTTTATGCAAGAAGACTTCTAGGAAAAAATAAATATTTTCAAACTGCATTAAATATAGCTCTTTATCATCATGAAAAATACAATGGTAATGGCTATCCATTTGGTATACAAGGAGAAGAAATACCAATTGAAGCTGCTATAGTTTCCGTAGTCGATGTTTATGATGCTTTAAGATCAAAAAGACCTTATAAAAAAGAAATGAAACATGAAGAAGCAATGAAAATAATATTTGAAGGAGATGAAAGAACTAATCCATCAGATTTTAATCCAAAAATTTTAAGAATATTTGAAGAAAATTCAGATGAAATAAAAATAATATATAATTATTTATTAAAAAACAAATAGGAGTGAAAATAATGCAAATAAACTATAAAATATTTGAAAATATTATAAAGAGCATGGAACTTGGAATATATATACTAGATTGGAAAAAAGAAATAGTTTATTGGAATAAAGGTGCAGAAAAGATAACAGGTATAACAAAGGATGAAATAGTTGGAAATAAATTTAAAGAAGAACTTCTAAAGTATTCTGATAAAAATGGAAATTTTTTAAATACTCTTGAAACACCTTCTATGAAAACAATTGCTGATGGAAGAGAAAGAATAGAAAAACTTTACATTCAAATAAAAAACAAAGAAAGAATTCCTATAGAAGTTCAAGTTTATCCATTAAAAAATGAAGAAAATCAAATTATTGGCGCATTTGAAGTTTTTATAGATATATCTGAAGAAGAAAGATTAAAAGAAGAATATGAAAAATTAAAAAGAGATGCTTTTATAGATGATTTAACCGGAATACCAAATAAAAAATATATAAACAAAAAATTAAGAGAGTTATATGATGATTACAAAAGATATAAATTAGATTTTTCTGTATTATTCTTAAAAATTAAAAATTTTAACTCTTTAGTAGAAAAAAATGGTAAAGTTTTTTCAGAAAAAGCTTTAAAACAAGTTGCTAAAAAGATTTCTTCAATTACAAGATCATCTGATTTTTTTGGATTTTGGGAAGGAAATACTTTTATATTGATACTTAGATTTGTAAATAATACGCAAGTTTTAGAAATAGCAAATAGATTTAATTCTAATCTTAAAAATATTGAAATTGATGAAACTAAGTTAGAATTTTTATTTGGTGGAAGTATAATTACAGAAGAAGATACTATAGAAACACTTTTAGAAAAAGCAGAAAAAAAATTACTAGAATCTGAAACAGATAAATATGAAAATATAAAATTATAAAAATTTACGGAGGGATTTTTTTGAAAAAATTTTTATTTATCTTTTTTATGCTAATTTCATTACTTTCTTTTTCAAGATATACGCTAAACATGCATGTTTATGGTGATATTCCAAAAGATTTATTTAATTCAGTAATAAATGATATAAGAGCTTTTGTAACCTCTTCAAATAGATTCATTGTTTTAGGAGAGGTAAACAAAAAAGAAATATCAACAGAATTAATTCTTTCTAGTATTTTTAACAATGATAAAGATAATAACTTAATAAAATCATCTGATTTAAATTTAAGCATAAAAGTTTTTAATTATAGCCTTTCAAATCAAGAAACTTCATTTAACTATATATTAAACAATAATAGTGGTAATTTTATTAATAAAAATGGAGTTTATATAAAAGTAATTGTTGGAAATTATTACAAATATGATGTTAAAACAAATAGTTATATACAAGACGAATATGGTAAGTATGTAAAAGCAACAAATGAAAAGTTCTATGTTGCTTCTAATTTTTATTCTTTTTTTCCACATAAAGTAAAAAAAACAAAACTATCTTATGATATTTCTGTCACTTTAACAAACACTAATGATAATAAAATTCTTTATAGCAAAACTATAAAAAATGCAAAAACTATTACAACAGAAAACTATGGATATTCAAGTTTATATAAGAGTTTTTTTAAAAAACAAAATCCTAAAATAGCTGTTTATAACAATAATGAAGTTGGTTATGCTATAAGTAATAGCTTAAAATATATTTTTCCCATAAAAGCAAATGTTATAGATATTGACAAAACAAATGTTTATTTATCTGTTGGTGAAGATGAAGGTATTTTAAAAGGATATATATTTAAAGCTGAAAATAATGGAAAAAAAGCTTATTTAAAGGTTGAAAATGTAAACGCAAATACATCAGAAACTAAAATAATAAATATAGATTATGGAATGAACTTTAAATATAATATGCCAGTAAAAGAAGCTTTTTCTCTTCCTTTTATAAGTCCTTTTATTTTTCAACTTTCTTATGAATTTGAACCAACCTTTGGTATTGGTTTAAGAAACTATGATATATATGGAACAACAACAGCTTATTGTATTGCAAACTTTAATTTTAAATTCAATATAAAACAAATTGAATGTGGTTTTTCTTTATACAAAAATAAAAATTTAAATTTCTATTTGAGAAGTGGTATCAATAGTTTAAATATATTTGGTGGAATTGAATTAGATATTTTAAATCATTTTGGTCTATTTATTGATTATTCAAATGACTTTAATTACGGAGCTAAAATATTTTTCTAGGAGGATTAGTGTGAAAAAAATAATACTTTTAATGTTTTTAATTTTTTCTATACTTACATATTCTAAAACAATAGCTGAATTTATTGAAATAAACAGAGAAACAAATATAAACTTTGATGAAATATCAAAAATTCTTGAAAATAAGTTTGGTAATTTTACTTTTGTTAAAAGGCAAATATCCTACAACTCTAAACTCACATTTAATATTTTTAAAAATCCTAATATAGCTGATTATGGAATTTATATAAAAATAAACAATATAAAAAAAGAAGAAAAAATAACTAAAAATGTTTTATTTATAAGAAATGATAATTCTGGAACTTATGTTTATTTTAAAAATATTTATGTTCCAATAACAAGTAAAAAAAGATACGATTATGATGGTAAAAACTATTTTTTAAGTAAAAATGGAAAGTATATATATTTAGATAACTATCTTTGGGCAAAAAATGAAGAAGATAAGTTTATTGAATTCTCTGGTTATTACAAAAAAGAACTTAAAACTATAAAAACATATAAATACTCTTTAAATGGTATATATGAACTTGTTGACTTTAAAACTAGCTTTGTCGTGTCTTCTGGATCCTTAAACACATCATCATCAAACAAAGAAACATTAATAAAGTCTAGCTTAAATAAAATAAACTTTAATTTTAAAAAATTCTATAATGAAAAACCTAAAATAGCTTTATACATATCTAAAAATGGTTATGAAAGTATAGAAAATAAGCTTTATGACTATATAAGAACAAATTTTGAAAATGATGGAAGATATGCAGTTTTAGATAGAAATAATTTAGATAAATTATTTGAAGAAAAAAAACTAGATATGATAACAAAAAACACAAATAAAGTTGCTTCAAATTTTAAGAATGTTGAATACATAATTCTCTTACAGGTTAATATGTATAAAAAAGAAAAATATTCAACATATAATGAATATAATTTTTTAAATAATGTATACGGTGAATATAGTAATAATTATAAACTGGATGTAGGTACATACTACAACGAAGTTAAAAATAAAGATAAAATAACTTATACTCCATCTGCAACAGGAATTTATGTTAAAACCATAAAAACTCCTTGGGATAGAAAACCTAAATATCTAAATATAAAAAATTTTTATACTAAAATTGGAAATGTTGACTTAAAAGAAGACATAATATTAAATTATACTTATAGAATAATAGATTTAAAAACCGCAACACTTTTAGGTGAAAAAACAAATTCAATAAATAAAGATTTGTACTTATCAAAACCAACAAATTTTTATGGAGGAATAGAAAGTGATATTGAAAGCACTGCAATAAATTCTATTGTATACAATATTTCAAAAGATATGTCTTATAATATTATGACTATTTTTCCAATAAGAACAACTGTAAATAAAGTTATAAACAACGAAGTTTTTATAAATAGTGGTTTGAACTACGGAGTTCTACCATTTAGTATATATAGAATTATAGATAAATACAAAACAATTGGTCAAGTTAGAGTTGTACTCCCCATGCTAAAAGAATCAAAAACAAAAATTATTTCATTAAAAGATAAAAACTCTATTCCAAAATCAGGAGATCTTGCTTATGAAGACTTTTATTTTATAAAACCTCTAGGATTTTCTATTGGTATTAATTCATGTGGTTTGGAAAATTTTGGTTTTGAATTTAAATATCGTTTTTTTAATATATACAATGAAACTAAAAGTTTTATTTCTTTTATAAACTCTTATAATATTCAAAATATTACAGATGAATTTAATGAAATATATAAAAAATATGAAACTAATTTTAATTTGAGTTTAGGCTTTAATTTGTTTTCTACAAATTATTTAAATGTTTTTGCTGGTGGTGGAATTATTTATTTTCTTGATAAAAGCAGTTTAAACATTTATCCAATGTTAGAAATAAATAGTTTAAAAAAAGATAAAAACTTTTCAATTTATTTTAGAGTTTCTTATACAAATAATACTATTGAAGAATTAGTTGGTTTTGAAACAGACTTTTAGTTAAAAAACAGTAAACAAAGAATATCTCATTAACTTAAGTTTTACTTTTATTTAATAATCATTTAAATTTTATGTTTTTTCATTAACATAATAAAGATAAAATTTTAATGAAAATATAAGTTGAATAAAGGAGGAGTTTTTATGAAAAAAATTATTGGTTTAGTGGCAGTATTAATGATGTTAGTTATGAGTTTTGGTGCTTATCCATATTGGCATGGTTTAAATGATCCTGCTTATACACATGCTGTAAATGGTAATGTTAATTTAAATAATAAAACTGTAGATGTTATGGTTTATCAATGGATTTCAGCAACATTTGTTTCAAGAGAAACATTTAGAACAGTTCGTGGAGCAAAAGACCTTCAAGGAAATCCTTTAACAGATGGTATTTTAATAACAAAGCCTGGTATAGTTAATGATGTTCTTCTTGGTGGAATTGCACTTTATTCAAATGGTAATGTTGATATAACAGTAGGAGCAACATCAAATTACGCACCAGCAGGAAAAACAAATATGAACGATAAAATTAGAAATTTAAAATTAAAAACATATAATTCTATAAATAATAGTGTAGTTAAGTTTACAAAATCAATAGTAGATGCTGATCCTCTTGCTGGTTATACACTTAGTAATCAAAATAATATTGCAAAAGTTTCAAATCTTATAGGTAATAGAAATAATGGAACTTATGGACCAGAATTTGCTATACTTGCTGATATAAATGTTCCAAATAATTTTGGACCTGGTGACGATTATGTTATTTCACTTGATATTTCAGTTGCACCAAAAACAAAATTCTAAAAAATAATAAAAAAATGGTTGAGTTTTAACTCAACCATTTTTTTATTTAAAATCTTTGAGATTTATAATGATTAATCTTACCATCATAATTTACAGATATAACATCAATTCTTGTTTCTGAAAACTCTATATTAGAATTTTGTATAAAAATTTGAGCAACTTGAGAAATTTTTAATAATTTTTTTCTATTAGCTCTATAAGCTGGATCAGATAATTTATCTGTACCTCCTTTTACTTCAACAAAAATAAGAACATCATCTTTTTTACAGATGATGTCAATTTCTCCAAATTTAATTTTAAAGTTTCTTTTTAATATTTTATACTTATTCTTTTTTAAATAAGTACAAGCTATATCTTCATATACTTTTCCATTAGCCATGTATACTTGGTATTTTTAATAGATCATTTTTTATTTCTGGAAATTCATTTTTTATTTTTTCTGTATTTTCAAATAATACAGGATCATCTTTATGAACTACTGTTTTAAGTTCATTTGAAATTGGTGAATACATCTCTTCAACATTATCTACATTTATTTCATCTAATTGAGACATGTATTCAAGTAGGTTTGATAAATCTTTTTCAATAACCTTTTCCTCTTCTTCTGTTAATTCAATATTTGCTAATTTCTCAAGTTTTTTAATATCACTTTTTAACATATTATCCTCCTTTATGTTGTTAATTCAACAATTATTTTATCATCGTCAAAAGTTAAATTTTTTAATACTATATTTTTGGTTATAAGATTTTCTGGAACATAAACAGCCATCATGCTTGAAGTTATTTTTATATTTTGAGGCAAAGATTTTGTATTTATCTTATCAAGAGGTAAATTGTGTTCAAACATATAAGTACCATTTAAATAATAAGGTTTTTCTTTTATCTTTATGTAATACTTAAACATTAAAGCATTTATCTTTATTGTATCATTTTCAAAAATTAATTTTGTTGTTGAATTAAATAAAAGTTTTAAAAATGGAGATTTGTTTTTTAATGTTTCTGAAATTATTTTTTTTAGTGTTTTGGAGTCTATTTTAAAGTAAGCATCTTTCATTATATCAACTCCTAATCATATAAAATATTTAAATTTAAATTTTTATTATCTAGCTTAAACTCATAAAATTTTAGATTTTTAAGAGTACCTTTAATTGATTCATCTAATTTCAAATTATTAAAATTTATTGTTATTTCATCATCATTGGATGAAATAGAATTAGTAACTTCTGTTACTATTAAAAATAATCCTTCTAATATTTTTTTTAAACTCTCATCTCCACCAAAAACAAATCTTAAACTCCCTGATGCTAAACTGTTTGGAGTCTCTAATATTTTTACATTAGATTTAAAATTCACACTTTTTCCAAAAACATCAAATTCACTTTTAAAAATCAGTCCATCTTTTACAAGTTCTATGTTTAAATTTTTAATTTCCTTGATATTTGTTGTTTTTATAATGTTTTTAAACACACCATTAATAAAATCCTCCGATACTTTAAGCTCGATCCCCTCCATTTTTCATCCTCCCAAAATTAATAATATCACTATAAATTATACCACTTTTTGTTATATTTGTGTGATAAAATATATAATAAAAGATTATTTTTTAATAACTGGAGGAATAAAAATGATACTTGGAATAATGAGCGACACACATGGATCTTTATCTTATTTTAATAAAGCTTTAAAAGTTTTAAACAAAGTAGATAGATACATTCATTTAGGTGATTTTTTATATCATGGACCAAGGAATCCATTACCCGATGGATATAATCCAAAAGAATTGGCAAAAGAATTAAAAAAATTAAAATACTCTTATGTTACTGGTAACTGTGATGCACAAATAGATAATTATGTTTTAGATCTTCCAGAAGTAAAACCATATTCAATGGAAAGTTATGAAAATTTTAAAATTTTAATGACCCATGGTTTTACCCCAACAATAGAAGAAGCTATTGAACTTGCAAATAAAAATAACTGTGATATTTTAATACACGGACACACGCATATTTCAAAGATAGAAAAAAGAAATAACTTAATAATTTTTAATCCTGGTTCAACAGCTCTTCCAAAAGAAAATACCCCAAATAGTGTTGGAAAAATCACTATAAATAATAACACTATGATATTAGAACTTATCGATCTTGAAACCGGAAACATATATAAGAGGAAGGAGATAAGTAAGTGAATGAAACTAAAAGTTTAAAATTTCTTATTATTTTACCATTTTTAAGTGTTTTTTTTCAGGTTGGTATACTTTCATCTGGGCCTCAATTACAACAAATGTATGGAAATTCTTTTTACACAAGTACTTTTATAGCAATAACCCCATTAATAACTATGATTTTTGGATCTTTATGGGGACCTATATTAAAAACTCTTGGTGAAAAGAAAACATTTGGTGTAGCCTTATTAGGATGGATTTTATCTTTAATATTGATTACAATATTTCTATCAAATCCTATATTAGGTATAATTTTTAGAGGCATGCAGGGGATATTTGATGCAGTATTTTTTTCTATAGCACTTGCTGGTGTTTCAAAATCATCAATTGAAGGTAATTTAAAAGCAAAGTACTATGGAGCAATAGAATTTATGGCAAGTTTTGGATCTATAATGGGACCTTTAATTATAGGAACAGGTTTTGTTTTTAATCCAAAATATGTTCTTCTTTTAGTAATTATTATTGTTTCGCTATATGCAATACTTGGATATAACATTATTAAAAACATAAAAATAGATACTGTTGAAACTAAAAAAGGAAAATTTTCTCCAAAGATATTTTTAGCTACTTTTTTTGGAATTGTAATCTTATCTACCATAGTTAGTAATCAAGCTGTATTACCAGGATTTGGAGAAAATTCTTTTAACTCTCCAATAGTTGGAAAATTTCTTGTTTCAATATTTGGAACATTTATAATGCTTGGAAACATGTTGAAACACAAAATAAAAGGGGTTAAATACTGGATTCCAATGATAGCTTCTGTTATGTTGTTTATTGCATATATATTCATAAACTTTGTATTTGTATATCTTTTATTCACAATGATAACAGGGTTCTTATTGGGTCTTTCATTAACTATGAGTAGTGAATATGCATCTAAGCTATCAAAGGGTTTTGAAGAAACTGGTATGACTGTTTATTCTTCATTGAGAATAAGTGGAAATTTCTTAGGTCCGTATCTTGCAGGAATGTTTACACACTCAAACTTAATAATAATAATGAGTGTACTAACATTAGCTTCAACAGGATTTTTAAAGGTTTCTAAAGAATAAGGGGGAATATTTATGGAAGAGTTGAATCAGGTTACTAAGTTTATTTCAAATTATTATGATGTTTTAATATCTTCATGGTATGTTTTGTTTCCAATAGCAGCATTTTTTGTATTTTTTTCAAAACTATCATCAAAAATATCAATATTTTTAATTGGTATGTATATGTCATATACTATTTTAATACCTTACGCAATGAAGTTAGAACAAATAAAAAATTTATTAGAAAAGTATACAGATTATAAATTTATGATCTTTTTAATCGTTAGTATTATATTTGGTATTATCTTTTATAGTTTAGTTAAAGTAGCAATAATAATAAGTGGTTTTACAATGGGTGGTTTACTTGGATTTGCACTTGGAAATTTCTTAGTCTCATCAAATCCAGAATTTTTAACAAAATTACCATTTGATAGCTCTTATATCCCTTGGATGGGACTTGTAATTATAGGTCTTATAGTAGCCTTTATTATCTCCAAAGACTTTGAAAAAATGATAGCAGCTCTTTCTGTAATCTTTGGATCTTTAATGATGAGTTTTTATACATTATTTTTGCTTGAAAAATACTCTTCTTTAAAAATTGGAGATAATACAATTTTAATGAGTCTTGAAAGTATAAGTAGACCAGAAACAATAACATTTTTAGGTTGTTTTATTGTTTATATGGCAATTGGCTTCTTTTTTATAATGAGAAAAGGAAAATAAAAAATGGATTTAGTAAAAGAATTGTTTAACATAAAACCAGAATGTAATACTTTAGTGGAAAATAGATTTAAAGAATTTGAAAATCTTGGAAAAAATGGAAGTGAAGAAGATTTATTTTCTGAATTATCCTTTTGTGTTTTAACTGCAAACTGGAGTGCTAAAGGTGGAATACGTGCTCAAAAAGAAATTGGAAATGGCTTTATAAATTTATCTGAAGAAAAATTAATTGAAGCCTTAAAAAGTGTTGGCCACAGATTTCCAAAAGCACGAGCTAAATATATTGTCAGCAACAGATGGATAATTGGAAATTTAAAAGCTTTAATAAAAAAAGATCCTTTTGAAGCAAGAGAATATATTGTTAAAAATATTAAAGGTATAAGTTGGAAAGAATCTAGTCATTTTTTAAGAAATTGTGGTATTTCTAACCTTGCTATTTTAGACAAACACATAATGAGATTGATGATAAAAGCAGGTCTTTTAAATGAATTACCAAAATCTGGTTGGTCAAAGAAAAAGTATATTGAAATAGAAGAAAAATTAAGACCAATTTCAAAAAAATTTGAAGAACCTATTGGCAAGTTAGACTTGTATATGTGGTTTATGGCTAAAAAATCTGTAGACAAATAATTTTGACAATTATTTAACATTGAATAAAAATATTAGTGATAAAATTCGTTGTAAAGGAGGGATGCAAATGCCAATATACAGATACGAATGTACAGAATGTGGTCATGATTTTACGGTAATGCACTCTATGAATGAAACACCAAATATAAAATGTGAAAAATGTGGAGCACCTGCAAAAAGAATAATAGGAAAGGTTGGCATTTCATTTAAAGGATCAGGTTACTATATAAATGATTCTAAAAAAACCGCCTCTACCAAATAATAAATTAACTTAAAAGAAACATCCTTTTTCTTGACAAAAAGATTCAATTATTGTATAATATTCACGTTGTGGGCTATTAGCTCAGCTGGTAGAGCGGCTGACTCTTAATCAGTAGGCCGCAGGTTCGAATCCTGCATGGCCCACCATAATACTTTTAAAAGCGGAAGTCACCCAAAGTTCTTCCCACCCCGGGCAAATGAGCCGTCAGAGGTTTTTTAATAAAAATAAAATTATTTACATAGAAAACGGGTGGCATAATGCCACCCGTTTTTAATTAATATAAGGATGGTGATACCAATAGCCAAAGACGGTGCTATTAGGAATGATTCAATTAGAGCAAGAGAGGTACTTTTAATAGATGATAAAGGCGAAAAAAAAGGAGTAGTTTCAACAAGAGAAGCATTAAGACTCGCTAATGAAGCAAATCTTGATCTTGTACTTGTTTCACCAAATGCAAGACCACCAGTTGCTAAAATAATGGATTACGGAAAGTTCAAATATGAAAAAGAAAAGAAGGAAAAAGAAACTAAGAAAAAACAAAAAAAGCAATTAGTTAAAGAAATGAAGTTTAGACTTAGAATTGATGAACACGATTTCATGACAAAAGTAAATAGAATCAGAACTTTTATAAATGCAGGAAACAAAGTTAGAGCAGTAATAATGTTTCTTGGAAGAGATATTATGTTTAAAGATAGAGGAAAAGATTTAATTGAAAGAATAATAAAAGAAACAGCTGATATAGCTAAAGTAAGTAGAAACATAAAAGTTGCTGGAAGAGATATGGATATATATCTTGAACCATTAGAAGAAAAACCTAAAAAGGAGGATTAACAATGGCTAAAATAAAAGTTAAAACAAAGAGTGCTATGAAAAAAAGATATAAAGTAACTGGTTCTGGTAAAATTGTAAGATACAGAAGAAGCCACACAGGACACAATTCAGGATTTAAATCAAATACAAAAATGAGAAGATTACAAAAACAAACAGAATTAACTAAAACATTGTTAAAACAAACAGAAAGAGCTATGGGTCGCGCTTAAATAAAAAATAGGAAGGAGAGATAATAAATGAGAGTAAAAAGAGCCGTTACTGCAAGAAAAAAGAAAAAATTTTATTTGAAAAAAGCTAAAGGATACCGTGGAGCATTAAGTAGAAGATATGTGCTTGCAAAACAGCAATTTTATAGATCAGGTGTAAAGGCTTACGCAGGAAGAAAAGATAAAAAAGGTGATTTTAGAAGATTGTGGATCACAAGAATTAATGCAGCTGCAAGACTTCAAGATATGAAATACAATGAATTAATTCATGGTTTAAAACTTGCTAATGCAAATATAAATAGAAAAATGCTTGCTGAATTAGCAGTAAGTGATATTGAAGCATTTAACGCTTATGTTGCACTTGCAAAAGAAGCATTGAATAAATAATATAAAATAAAAAAACAAACTCAAAATTTTTGAGTTTGTTTTTTTATTTTAAGCTATTATATAATTTATCTATTTCATTATGATACCTTTTAAAAACTTCTAAAATTAATGGATTAAAATCCGTTGGTTTTGTTCTATTGTCTCCATTTACAAGGATATTACAAACTTCTTCATGTGAAAAAGCTTTTTTATATGGTCTTTCAGAACGTAAAGCATCATAAACATCTGCAAAAGATACTATTTGAGCCTCTATTGGTATTTGATCTCCAATCTTTCCAAATGGATATCCTTTTCCATTGTATTTTTCATGATGATACATTGCAATATTTCTTGCTACTTTATATTCCTCTCCATCACCAATTAACTTTCCACCATCAATTGGATGTTTTTTTATTATTTCAAACTCATCATTAGTTAGCTTTCCAGGTTTTCTTAAAATTTCTATTGGAGTTAATATTTTTCCAATATCATGAAGCGGGGCAAAGTACTTTATATCTTTAATAAAATCATCATTTAAATTTAATTTTTTTGCTATAAATTCAGAAAGAGAGGCAACTCTATCTATATGATTTCCAGTATCATCATCATAACTTTCAGCTATTTTAGACAATTGCTTTGAAAAATAATAGTTTTCTTCTTTTAATTTTTTGTTCTTTTTTTCTATTTCATTATAACTATTTTCAAGAGCTTCATTCATTGCTTGTAATTCTTCTGTGTATGCAGATATTTCTTGAGTCATTTCAGTAAAACCTTTTGAAAGATTAATTAATTCATATGGTGATTTTTTATTTAATTTTATTTCAGCAATAGCAGTTAAATCTTTTTCTTCAGTATACTTTTTTATAGACTTTGAAATACTTTCAATTGATTTAATTAAAGGATTCGAAACTCTATGTGCAACAATTAATCCTATTATTAAAGATACAAAAATTGCAATTACAAATGAAAAATATATTGGTATCATATCTTTATATATTATTTTTTTATTAAAATCAACTTTTATTATTAAGTCATTTTCAATTGGTAAAAAATAAGTTTCTTTAAAATCATTTTTAAGTATTATTTGTTCATTGTTTTTTAAAGAACTTATTTGATTATCATTTAATTCTAAATCATAATTAAAAAAATCATCAAACTTATATACTTTTATACTTTCTATTACATCATATTGCTTTGTTAAAAGATCAGTAAATTTTTGAGTATTTTTTAAAAAAAACTCATCATTTCCAAGTTTTACTTCTAATCCAAAGATATATTTATCTAAATTTAAAAAAGAATACTTACTATCAGTACTATCTAATGTATCAGTTATCCTTTTTGAATTAGTATTATTATTTATTAACTTTAATAAATTGTTTTTTAAATCTATGTATTTATCACTATTCATTTCGGAATGATATAAAACATTTTTCTTATCATCAAATAATATGTATTCTATTTTTGGAATTGGAAGTTTCAATTTTTCAAAAACATTTTTTAAATCGTCAAAAATATACTTTCCTTTTTCCAAATCTTGCGATTGAATAGTATAATTTTTTTCATACAAATTATTTATATTATCAAAAATGCTATTTATAGCTAAATTATACTTATTTTCTGAACTCTTAGAACCTTTTGTAGAAATTCCAAATATTTCCATTATACTTGAAATTGCCAAATCTTTTTTTTGATTGTAGTTTTTTTCAATTAAATTTCTTGTTAATATATTAGATAAGAAAAAAAGAATAAGAGCTACAGAAAGTAGTGACATTATTACTATTTGAAAAATAGAAAATCTAATACCTCTTTTTATTTTAAAATTCATATTATTTCACCTCAAATAAATTATAACATATTTTAAGGTTATATAATATTTAAAACTAAGCACATTGTGCTTAGTTTTAAATATAAATTATTAATTTAATTTAAATTGCTTTACAATAGCTGCTAATCTATCAGAAAGCTCTAATGTTTTAGTAGTTTCAGAAGTTATTGTTTCTATATTTGCAGTATGTTCTTCAGTTGCAGCAGTTATTTCTTGAACCGATCCATTTACTTTAACAGAATTATCTGAAAGTTCAGTCATTGCATTAGCTATTTCATCGACTGAAGCGGTTTGTTCTTGAACAGCTGCTGCAATACTCTCTAACTTTGCCGTTATATCTTTAACAGATTTAAGAATCTTTTTTAAATTTTTACCAGCTTCATTTGATAAATCAGATCCTTCTTCAACTTTTTTATTTACTAAATTTGAAACATTCATTGCTTCATTCGATACTTTAATTATTCCTTCAACAACTATTTTAATTTCATCTGCAGCTTTTCTACTTTCTTCAGCTAAAACTCTAACTTCTTCTGCAACAACTGCAAATCCTTTTCCTGCTTCTCCTGCTCTTGCTGCTTCTATAGCTGCATTCAATGATAAAAGATTTGTTTGTTCTGCTATACTTGCTACAGTTTCTACAAAGTTACTTATTTTAGCTGAACTATCATTAAATTCTTTAACAACAGTTTCTATTTCTTTTGTAACTTCAGTTATTTCAACCATTTTATCTATAGATTTTTTAACTGTATTACCAGCTTCTTCTGCTTCCTCTGTTGAATCATGACCAAATTGCGCAGCTTCTGTAGCTTCATCTGCAATTAACTTGGTTGCTGATGAGATTTCTTCAATTGAAGCTGTTGTTTCTTGTATTGCTGCAGTTATACTCTCTATTTCAGTAGATATTTCTGCAGTTGCAGTAGTTGTTTCTTGAGTTGCTTCTGCTGTTGATTCTAAAGTTTCATTTATATCTTTCATTGAATTTTTTAAATTTATACTTTCTTCTTTTATATTTTTCATATCTTTTACTAATTGATTATGCATTGTTTTAAAAATATTTATTAATTGACCAAGTTCACTCTTATCTTTTGTTTTTGGAATTTTTACATTGTAATTTCTTTCTGATAAATGCTTAGCATAATTCATTAATATAATTAAAGTATTTGCAAGAGATCTTATTAAAATCCAAGATATAGTAATTCCAATAAAAAAAGATATTATAATAATATAAATTCCTATTTTTTTAGAATTTTTAATAATATTTTCATTTTTATTACCAAAGTCATCTACTGACTTTTCTATTGCTATTTGAAGTTTACTAAATGCTGAAATTGCATCATTGCCAACTTTTTTAAAATTTTTTACATTATTTTTTATTTCTTCAACAGATTTATATGTTTTTAAAAGAGATAAATATGTATTTATTTTATTTATTGCTTCTTTCTTTAAAGTTTCATCTTTATTTTCTATATTTAATCTTGATATATCTTCTATTAATTTTTTCATTTTTTCTTCAGCATTTGTTTTTAAAGCAATATCATTAAAAGCCAAGTATTCCGCTATAAGTTTTCTACTTTCCATAAATACTGTAGAATAATTACCTATATTTTTTAAGTTTTTCATATAAACAGAGGTTAATTTATCCTCATTTTTTAAAACGGTAGAGAAAAAATTGTTAGACATCACAAAGAAAATAAGCTGTAAAAGTATTAATACACTCACTAATAAAAAAACTTTAGTTTTTATCTTCATTTTTTTCCCTCCTTCAACATTAATTATATTAAGTAATACAAAATGATTATAACATAAAAATATTTTATATGTCAAATAAATAATATTTATGTTAATTTTTAAATTCTTTTTTTTTATTATATTGTATTTAAAATTAAAAAACTATTTTATTTTATATTTGTTTTTATAATATTTTTGTTTGTAATTTTTTAATTATAAAAATTTTTTTCTAAATATAAATGTATTATAATTTTAAAATAAAAGAGATTTTTTAAACTAAATAGCAATATTATTGTTTATTTATTAAAAAACTTAAGTTTAATTGTTTGTAAAAATTATTAAGATATGATTAAATTTATTTAGTAAGGTTTACAAATAATATATGTGTATCGGGGGGATGGCCTTGAGAATACAACAACATCCAATTTTAAAATTTAAAAAAGAAAATCGGGTGAACTTTTTATTTGAAGGTAAAGAAGTTTATGGATATGAAGGTGAAACAATTGCAGCGTCTTTACACGCATTAGGTATTTGGGAGTATGGAGAAGGAGCACATTCACATACACCAAGAGGTTTATTTTGTGCTATTGGACACTGTTCTTCTTGTTTAATGAAAGTAGATGGAGTACCAAATACAAGAATTTGTGTAACTAAAATTAAAGAAGGAATGATTGTTGAAAAACAACATCCAAGGGGGAGTCTATAATGATTGATACTGATGTTTTAATCATTGGTGGAGGTCCCGCTGGAATTTCTGCAGCAATTTCTGCTGGTGAAAATAATCTTGATGTAACTCTTATAGAAGAAAAAGATATCTTAGGAGGTCAATTAGTAAAACAAACGCATAGATTTTTTGGTTCTAAAGAAGAACATGCAGGAACAAGAGGTTTTGACATATCTAATGAATTAAATCAAAAAATAAGAGATCTAAAAAATATAAAAGTTATGCTTGAAGCTACTGCAATGGGTGTTTATGAAGATGGAATAGTCACTGTTCTTCATGAAGAACATATGAAAAAAATAAATCCCAAAAAAATTATTATGGCAACAGGTGCATTTGAAAAATTTCTTGCATTTGAAAATAATCATTTACCTGGTATTTTTGGTGCTGGTGCAGTGCAAACTTTAATGAATCTTTATGGAATATTACCTGGAAAAAAAGTATTAATGATTGGTTCAGGAAATATTGGTCTAATAGTTTCTTATCAACTTGCTCAAGCTGGTGTAGATGTTGTTGGAGTAATAGAAGCTTCTCAAAATATTGGTGGTTATATGGTTCATGCATCAAAATTAAGAAGAATGGGAATACCAATTCTAACAGGTCATACAATAAAAAAAGCTCTTGGAAAAAATAAAGTAGAAGGAGCAATAATATATGAACTCGATAAAAATTGGAATGAAGTAAAAAATTCAGAGAAAAAAATAGAATGTGATGTCATATGTATTTCTGTTGGATTGAGTCCAATGATAGATTTATTTAGTCAGGCTGGTTGTAAAACAAAGTATATTGGAGAACTTGGAGGAAATATACCTTTGAGAAATGAAAATATGCAAACTACAAATCCAAATATATATGTTGCTGGAGATGTTGATGGAATAGAAGAAGCAACAGCAGCTATGCTTGAAGGAGAAATAGCGGGTTTAAATGCAGTATTTTCAATAACAAAAAATAATGCATTAAATAAAAAAATAAAAGAAAAAAAAGAAAGTTTAAATAGTCTAAGAGCAGGACCAACAGGAGAAAAAATAAGAAAAGGGCTTTTAAAAATGAATTTTGATGTTAAAGTAGAACATCAAAATAATACTAAAATAGAAATAAATATTTTAAAAAAAACGGGTGTAGCTTCAAAAGAAATTATAAATGAAAAGCTTCCATCTGAAGAAAGATTAAATAAAGGCCCTGCAGCCATATTTGAATGTTTTCAAAAGATACCTTGTAATCCATGTGTTCATAGTTGTCCATATGGAGCTGTAATACCTTTTAAAGATATAAATGATATTCCATACGTAGATTATGATAAATGTGTTGGATGTGGTATTTGTATAAGTTCTTGTCCAGGACTTGCAATTTTTGTAGTCAATAAAAATTATACAAAAAATACATCAACAATAAGCTTACCATATGAATTTTTACCGAAACCAGAACCAAACGATACAGTTGATGTTTTAAATAGAAAAGGCGAAAAAATATGTAAAGGTAAGATTATAAGGGTTTTAGATGGAAAAAAACAAGATCATACAACTGTAATCACAGTTGAAATTCCAAAAGAATTTCACATGGAAGCACGAAACATAAAGGTGGCGATTTCATGAATGATGATAATATAATAGTTTGTAGATGCGAAGATATAACTATGAAAGAAATTAGAGATGCAATAAAAGAAGGTTTTACAACTTTAGAAGAAATAAAAAGAGTATTGAGAGCCGGTATGGGACCATGTCAAGGAAAAACCTGTGGTCCAATAATAGCAAGAGAAATCGTAAAAATGACTGGAAAATCAATGGAAGAAGTAATGACTCAAAAACTAAGACCCCCATTTGGTGGAATAACTTTTAAAGAAGTGATTAATGATGAATAAAGCATATGTAGTAATAATAGGAGGAGGAGTAACTGGATGTTCAATAGCTTATAACTTAGCTAAAAAAGGCATTAAAGATATTATTGTACTTGAAAGAAAGTACTTATCATATGGTGCAACTGGAAGATGTGGAGCTGGAATTAGACAACAATGGGGAACGCATCAAAATTGTATTTTATCAACAGAGAGCATAAAAATATTTGAAAATATGAATGAAATTCTACAAACAAAAAGAGATATCGAATTAAAACAAAAAGGTTATTTACTGTTAGCATATTCAGAAAAAGAATTAAAACAATTCAAAAAAAATATAGAAATTCAACACGAGCATAACATTCCTTCAACATTAGTAACACCAGAAGAAGCAAAAGAAATTGTACCAATGCTCAATACAGAAAATATTATAGGTGGAGCATTTTGTCCAACTGATGGACATGCAAATCCTTTTCTTGTAAATCAAGCATATGCTGACGCAGCAAAACGACTTGGAGTTAAGTTTATAAAAGCAGAAGCACTTGGAATAAAGAAAAAAGAAAGTAAAATAATTGGTGTAGAAACAAATAAAGGATTTATAGAAACAACACGTGTTGTAAATGCAGCAGGCTCTTGGTCTAAAGAAATAGGAAGTATGGTTGGAATTGATTTGCCAGTTTATTCTGAAGTTCATGAAATACTTGCAACAGAACCTGTAAAACCAATTTTAAATCCTATGGTTATGTCATTTTCACATAATTTTTATTGTCAGCAAACACCACATGGATCTTTTATCATGGGAATGAGTCCAATTGAAAAAGTAAAAGATGTTTCATGGCAATTTTTAGAAAGGATGACAAAAAAGATTTCAACACTATTACCGCCAACAAAAAATCTTAGAATAGTTAGACAATGGTCAGGATACTATAATATTTCTCCAGACAAACAGCCAATAGTCTGTGAATCAGAAGAAATAGAAGGCTTTTATATGGCAATAGGATTCAGTGGACATGGATTTATGTTATCACCAGCAGTTGGAATTTTAATGTCAAATATAATATTAAAAGAAAAATTACAATGGGATGTAACTCTTGATATAGGAAGATTTAAAAGAAAAGAAATTATAGAAGAACCATCAGTAGTTTAAAAAACAGGAGGGATAAAATGAATTCAATTAATTTGTATGAAATGCCAAAAAATGAACCAATCTTAGGATACTTACCAGGTAGTAAAGAAAAAAAAGAATTAAAAGAAAAGTTAAAAGAACTTGAAAACAAAGTAATAGAAATTCCTGCAATAATAGGCGGAAAAGAAATAAAAACCGGAAATACAAAAGATATATTCATGCCACACGATTTAACTCATAAAATAGCAACTGTTCACATGCTTGGTGAAGAAGAAGTTAAAATGGCAATAGAAAGTGCTATGAATGCTAAAAAGATTTGGGATAAGTACACATGGCAAGATAGAGTTTCTATCTTTAGAAGAGCAGCAGAACTACTATCAACAACATGGAGAAGTACATTAAATGCTGCAACAATGATGTGCCAAAGTAAAAATGTTTTTCAAGCAGAAATAGATTCAGCATGCGAATTAATAGACTTTTTTAACTTTAATTCTTATTATTTAACACAACTATATAAAGATCAACCAATATCACCAAAAGGAATATGGAATAGAGTAGAATATAGACCACTTGAAGGCTTTGTTTTTGCAGTAACTCCTTTTAACTTTTCATCAATAGGAGGAAACCTACCAACGGCACCAGCAATTATGGGAAATACAGTTCTTTGGAAACCCGCAAGAACACAGTTATATTCAGCATACTTTACAATGAAATTATTAATAGAAGCAGGCGTTCCTGAAGGTGTAATTAACTTTTTACCTGTTTCAGGTTCAATAGTTGGAGAAGTAGTATTAAAACATCCTGATCTTGCAGGAATTCACTTTACAGGTTCAACGGGAACATTCCAATATATGTGGAGAACCGTAGGAGAAAATATTTCTAATTATAAAGCATATCCAAGAATAGTTGGAGAAACTGGTGGAAAAGACTTTATGGTTGTTCACAAATCTGCGGAAAAAAATGAAGTTCTTACAGCTTTAATAAGAGGTTCCTTTGAATATCAAGGACAAAAATGTTCAGCACTCTCAAGAGCATACATTCCAGAAAGTATGTGGAATGAAATAAAAGATGAATTAATAGAAAAAACTGATAATTTAAAAATGGGAAATCCTGAAGACTTTACTAATTTTATAAATGCAGTAATTGATAAGGCATCATTTGATAAAATAAACTCTTATATAAAACATGCAAAAGATAGCAGTGATGCAGAAATTATTGCAGGAGGAAAATCAGATGATACAAAGGGATACTTTATAAGGCCAACAATAATAAAAACAACAAACCCTCATTTTAAAACTATGGAAGAAGAAATATTTGGCCCTGTATTAACAATATACGTTTATTCAGATGAAAAATATGAAGAAACACTAGAACTATGTGATAAAACATCAATATATGGATTAACAGGAGCCGTTTTTGCAAAAGATAGAAATGCAATATTACTTGCCAATGAAAAGTTAGTAAACGCAGCTGGAAACTTCTATATAAATGATAAACCAACAGGAGCAGTAGTTGGTCAGCAACCATTTGGTGGAGCAAGAGCCTCTGGAACAAATGATAAAGCAGGAAGTGCCATGAACTTATTGAGATGGACATCTATGCGATCTGTAAAAGAAAACTTTAATCCTCCTAAAAGTTATGAATATGGATTCATGCAAGAAAAATAAATAACTTTAAAAACAGGATAATTCAAAGAATTATCCTGTTTTGTTTATTATTAAATAAAAATTTTGGAAAAAATATCAGTTAAAGTTATTTTTAAGAGACCATAAAAAGTTGCAAAAGGCTATTTATTACAAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCTTATTTCTTTATAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAGAGCCGTTTACACAAAATTTTTTATGCTACCTCTCATTTTCGTAACTTTTCTGATTTTTAATTTACTGTTTACATATTTTATTTGACATTCCCTTTCTTTTTTTTATTTTTTTAAGTCTTGTACTCCTATTGGTAGTTTTTTCATTTTTATTCTATCAATTGTTTTTGATTTTTAATTTGTTTATCTCTGGTAGTATCTTGTTCATTATTTTACGTATCATTTTTGATAATAATATAACTCAATGATATATCAACTTAAATATAAATGTTTACTACATAAAAAATTTATTACTTCATCATTGTGAGAAATAATAATGCATGTTTTATCTTTTAATTCTTTTTTTAAATATATTAATATTTTTTCCTTTGTATTTTTATCTACTTCTTCTAATGGTTCATCTAATATTATAAAATCTTTTTTACTCAGTATAGTTCTTGCAAGTAATATTCTTGATTTTTCTCCACCAGATATATTTTTCCCATTTGATTGTAATTTATAATTTAAATCAAAATATTCTAATGACATTTTTTTTAGTATTTTTAAAACTTCTTCTTTGCTTATATTTCTACCCATATTTATATTTTCATAAATAGTATTTTCAAATATATATGAATCTTGAGATAGTATAGTCATACAATTCAAAATGCTTTTTTGTGATATTTCTTTTATATTCTTGTTATTTATGTATATTGTTCCCAATTTTGCTTCTATTTCTTTAATTATCAACGAAATAATTGTAGATTTTCCACTCCCTGAAGGAGCAATAATTCCAAGTTTATCATATTTTTCTATATACATATTAAAATTATTTAAAATATTTTTATCCTCAATATTTATGCTAATGTTATTTAGAGATATAGTATTAATATCTTTTATTTCATATATTTTTTCATTACTTTTAGTATTTGTTTCACTATATAATATATCTACTGCTACAAAGCTATTTCTAATATCACTAATTATTGAATTTAAATACATTATTGGTTCTGATATCATTTTAGAATAAACGACCAATATAATCAATGTTCCAATTGTTATTTCCTTATTTATTACTAAATTTAAAGAAAAAACAAATATAAATAATTCATAAATTACTCTTGAATAATCTAAAATCATAAAAAAATTAATAAAATCTCTGGATAATATCTTAACTTTTTTTCTTTTTATTTTATCATATAAAGTATAGTTCCTTTTATTTTCTTTATTAAAAGCAAAATAATTTATTATTTCTATTTTTCCATTTATCGTATCCTCAGTATCATCAAAATATGTCATATATCCTTTTTCAACATTACTTATATTTTTTAAATAATAGTTATTTGCATATTTAAATATAAAAAATGAAACTGTTATAATGAAAAAAGTAGAAAAACCTATTATATAATTTAAATTAAACATGATAATACTTATTATTATTAACCTAAATAAACTAATAAAGCTAGTCATACTTTCTAAACTAAATATAGATATAAAACTATCTATTTTAGTAGTTAAAATATCACTGTAATATTCTGTTCCATTTTTATTAAAATTATAAAAATTTTTATTTAATATATTATATAATAATTTCTTTAATACATTTCCACTTGCTTTTAATTTTAGTATAGAACTTTTATATTCAAAATATGATTTTAAAAAAAAACATAATATAGTTAAGCTTGCCCATAAAATTATATTTTTAATAGAAATTAATTTATTACTCTGAATTATATCTATTATATTTTTATATACTAAAGGAATTGTTAGCATTATTAAATTTACAATCATATAAAATATCAGTATAAACATTAATTGAATAATCAATTTTTTATCTATCTTTTTTATTAAAAATTTTAATTTATACATTTTTATCACAACCTATTAAAACTTTTTTATTTAATTCAATTTTTTTATTTCCTAAACTCAATACATCTTTATCATGGCTTATAATAATAACTGTTTTATGTTTAATATATTCTTTCATAAATAATATTAATTCATCTTTTAAAGATTTATCAATACCTCTAAGTGGTTCATCTAATATTATAACTTCTGGGTCATATACAATTAATCTTGCTAAAGCTACTCTCATTTTTTCTCCACCAGATAAAAAATTTCCACTCTTACCGACTGTATAATCTAAGTTATAGTTATTCTTTTCAAACCATGTTTTTAATCCACAATATTTAAGAATTTTTATTATTTCTTCGTTTTCAACTTTCATATCTGATAACAATATATTATCTTTTATAGATCTATTAAATATATAAAAATCTTGACTAAAAACACCTATTTTAACGTTTTTTTCTATACTTATTTTTCCGGAATCTGGATTTAATATACCTAATATTAAATTTATTAAAGTTGTTTTTCCAACACCACTTTTTCCATAAATAGAAATTTTATCACCTTTATTAATTTTTAAATTGAAATTTTTAAATATATTCTTTTCTTTATATTTAAAACTTATATTATCTATATTTATATATTTAAATTCATTTTTTTGTTCGTAATAACTCTTATTTAAATTTATTTTACTTTTATCAAAAATATAAAGTATTTTTTTCATATGATTTGGAAATGACTGCAACCATTTTATATTTTCATAAATATATGTAGCTTTTGTACTTACTATTGTTAAAAACTGTGTTATTAAAATAGTTGTACCAAATGAATACTTTCCTTTTATGAATAAAAGGAAAGCTATTGATGTACACAGTATTTCTGAAATTGAATTTATAAAATTTAGTGTGTTAGAAATTATAAAATCACGTTTTTTATATTTATTAAATTCATTTTTATATACATTATAATTATCTATAATTTCTTTGGATACTTTAGAATAATAATTAAAGTATTTAATATCTTTTTGTCCTTTTAAATTAGTATTTAAAATAGAATAAAAATGTCTATATTTTTCTTGCGCTTTATTATAATAAGGTATTACATTTTTTTCTCTATATAAATTAATTAATATGTTTAATATAGAAGATATTAATATAATAATTGACATAGTAAGAGAATAATAAGCAAGTATAATAAAAACAGCAATTGCATTAAAAATTTCTGCTGGTAATGTATACAAAAAATCTAAAAATAATACAGAAATTTGTTTCATATCATTTTTTAATATACTCATCCAATATCCAGATTCTTTATCTTTATAGTCTTTATTATTTAATAATAGTATACTTTTATATATTTTATTATTGAACATTTGAATGAGTGATTCTTTAACCTTTATATTTATTAAACTCATTATTTTTATTGATAAATATCCTAATATTGTTAATGATACATATAAATATATTTTATGACTATTGTATTGATTTTTTTCTATAACATCTATGATTTTTCCATACAAAAATGGTAAAATAATAAATATTGATACATTAATTATAGAAACAATCATATAAAATATATAATAAAATTTTATCTTCTTTGGAAAATAATTCCATAATTTTTTAAACAAAATAAAAAATTCTTTCAAAGTTTTCTCCTCCAAATGTTCTAATAACTTAATATTTCTTTTATATTGCTTTCTATATAACTATATACTATTTCTTTGCATTTATCATTTTTATAAATATTTTCTTCATAACCTTCTATCATTCTCTTTCTTTGATCTGGACATAAACCTTTGCAATATCTCAAAAATTCACATGAAAGGCATTCCCCTTCATTAACTGTTAACAAAGATGCTTTTTCTACATAATCTAATCTATTTTTATTTCTTGATATTATTTTAAAATCATTATCAATAATTTCTTTTAATGTAGTATAAGCTTTATCTTTTTCATAAACATAATTCCAACATTTATAAACATTTCCAAAAATATCTATAACTAAATCATCATTATCACATTCAGCACTACAAAAAGCATTGACTCCATTATTTGATATTATTGGTTCTAAAAATTTATATTTAAATAATTTATGGGTAAAATTATTTTTTATGTCTTTAAACTCATAATTAGTATATGAATATTCACTTCCAAAAACTCTAGATAAATCAATAAACAAATATTTACCAACAAATTTACTAAATTTTTTATTTATAGTATCTATTAAATTATTTACTTGTTTAAAATTTTCTTTATCAATATTTATTCTAATAACTGTCTCAATTTTATTAGAAATTAATTTTTCTATATTATTTAAAATTTGATTATAAGTTCCTTTATTACTTTTTAATTTTCTACGATGATTATGCATATCTTTTTCACCATCTAGAGTGATTTGAATATAACTTGTATTGTATTTTTTTAATTCGCTTATGAATTTATCATTTATTAAATATCCATTTGAAATAATTATATTATTAAATTCTATATCTTTTTCTTTTCCTAACTCATAATATTCTTTATTAATTTTGTTAATAAAATCGTATTCTAATGTTGGTTCTCCACCATACCATACAATTGTTATTTTTTTTAAATTATTATTTTTTATTTTATTATTAATATAATCACTCAAATTTTTTCTAAATTCATTTTTTGTTTTTTCATTAACATTAATATAATTATTTAAATTTTCTTTTTCAAAACAATAAGTACAAGAAAAATTACATTTATTTGTAACAGCAATATCTATTTTTAAAGAATCACTTTTTAAATGTTTACTAATTAAATAATTATTTCTATTATTAAAATAAAAATTATTGTATTCATTTTTATCAATTATAAATCCGTTTTTTCTTAAAATATTAACTTCTTCATTCGAAAGTTTCTTTATATTTTTATTTTTTAAATGTTCATATGAATTTTTATCTAATTTTATTAAAGCACCATTTTCAGTATTTAAAATATAATAATTATTTTTTAAATAAAAAAAAGCCTTATTTTTTGTTAAAAACATATTTTTTCTCCTTTATTTAATATTTAGGAGAAGCACAAAGCTCCTCCTATTTAGTTATCTGTCTATTACTTTTCTACAAGGACCCAAATGAGAACATGGTCCGCATCCCATTGGAACATAAGCTCCTTTATCCGATTTTTCTGCTTTTATAATTACTTTCATACAAAATCCTCCCTTCTCATTTATTTAAAACAAAGCCGGCTTTTGTTTTTTTTATCTTTATTATGAAAAATATTTTATAAAAATAATCTTTAATATTTTTAAGTTATTTTACTTATATTTCCAGTATTACAAAAAACTTTATATGTATTTAATGTATCTTTGTGTTTGCTTTTTGTAAATTAGCACAAATATTATAGCAAAAAAAAAAAAAAAAAATCAACTATTTTTAGTGCACTAATTAATATTTTTACCTAAATATAATGTTTTTTTGATTAATTTATATCATTTATTTTTTTTTTTTATGTTATTAAATTTATATTAACTATTAATATTTGTGAATTTAAATTTTATATTTTTTATAATGTTATTATTAATCATTTTTATTATAAAAGTTTGTGAAATTCCATTAAAATATTTTTTTTATAAATATTTTGATTTAATTTTTTATTATTGATGAAATATTAATATAAAAAATTTAAGTGTTTTTTTACTTTGATTTTTAACTATTTTTCATCATTACTTTCACACTTTTATGGATAATATCTTTAAAAGTTATGAGTTTTTATAAAAAAATATCCCAGCATCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTTCTTTTTTCTGAGTTTATGTTTATTCCTATTATATAAACTTCTTTCCCTTTGTACTTTTCATAGTACTTCATTTCTTTTATTTGATTTAAGGCTTTTTCTGCACTCTTGTCTATCTTTATTTCCATTATGTATATGATGTCTTCTTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTCAATCCCGCTGATGCGAGTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTGTGCAAGTTGTATGGGATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCTTTTATTGCTTTCCATATTGTTTTGTTTATTTCTTTTATTTTTCCTCTTTCAAGTTCATAGTTTGCTTCTAATATCATCTTTGAAAAGCTATTCTTTACTTCTATGTTTGGATAGTCTAATAGGTATTCATATTCCATTCCATATTGTTCTTTTCCTTTAAAAGTCAAATATCCTGCTTGTGTAAAGAATATACTTGCATTTGCTTCTTCTATTTCTCGGGTTGAAAAATCGAGTTCGCTCACTGGATACTTCACTAAGTCTTCGTATCTTATCTTCTTTCCTTTTATATATTCATACAAAAATGATGGTGAGCCACTTTCAAACCAATAGTTTTGAAACTTCTTTTTTTTAAAAAATTGTAGTATTGAAAATGGATTGTATACACTATTTTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTCCATCTTCATTTCAATTGCTGTTTCTTTTATGTGTTCTTTAAAGTTACTTTCTAACTCTTCTTGTGTGTATCCCAACATCTGTGCGTATGTTTTATCTAATGATATATCATTTAAGTTGTTCAATGCTGAAAATACTCCTGTTTTTGTGAATTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCGTCTTTTGATTTTATTTTTTTATAGAACTCTCTTAAAAATCTTCTTATTTTTTCTGCTTCTTCTTTATTGTTTAGATGTTCTAATATTGGTGATTCATATTCATCTATTAGTATTACTGTTCTTTCTTTATTTTTTTTATTTAAATCTTCTATTATATTTCCAAACATCGTTGGTAAATCTTTTGTTGTTGGTGTTATTCCTTCTTCTTTATATATTTTATTTATTTTATCTTTTAATGATTCTATAAATTCTTCATATGTGGTTAATGTATTATCTGACATATCTATTTTTATCACTGGATATTCTTTGAACTCCCATTTGTCGTATATGTATGTACCCTTAAATAATTCTTTTTCTCCTTTAAACAGATAGTACAGTGTTGATACCGTTAAGCTCTTTCCAAACCTTCTTGGTCGAGATAAAAAATAAAATTTTCCATTTGTTACTAATTCATGTAAATATTTTGTTTTATCTATGTATATATAATCTGTTATTAACTCTTTAAAGTTTTGTACTCCTATTGGTAGTTTTTTCATTTTTATCACCTCTAATTTTTATTATACCATATGTTTTTATAGTACTATCTCTCATTATAATTTGATTTCTTAAAACTTCATATAATTTTTTTTATTGTTCACTCAAAAAACAAAAAAAGTATCCTGTAAATTTTACAGGATACTTTTTATTGTATTGTATATTCCATTCCTTGTGGGGTGTCTTTTAATATAATTCCAACTTTCTTTAACTCTTCTCTTATGTAATCTGACATTTCATAATTTTTTTCTTTTTTTGCTTTTTTTTAATTTTTTGATACTTCTTTTTTCCTTCCTGGCCCATTTTTCAATTGTATTCCTGGCTTACTTTTATTATACATTAAACAAAATACGTTTTTTAGAAAATTTGAATGGCGAATGTTTTATTTTTTCACTATTTTCCATCGTTACTTTCACGCTTTTTATGAGTTTTTATAAAAAAATATCCCAGCACCCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTTCTTTTTTCTGAGTTTATGTTTATTCCTATTATGTAAATTTCTTTTCCTTTGTACTTTTCATAGTACTTCATTTCTTTTATTTGATTTAAGGCTTTTTCTGCACTCTTGTCTATCTTTATTTCCATTATGTATATAGTGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAACTCTTCTGCTGTTACGTTCAGTCCTGCTGATGCTAGTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTGTGCAAGTTGTATGGTATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCATATATTCTTTCATATATTGTGGTTTCTATTTGTTCTATTTCTCTTATTCCATAGTTTGCTTCTAATATTATCTTTGAAAAGCTGTTCTTTACTTCTATATTTGGATAGTCTAATATGTACTTTTCCCTCAATCCTAATCTTTTTATTCCTTTAAAGGTCAAGTATCCTGCTTGTGTAAAGAATATACTTGCATTTGCTTCTTCTATTTCTCGTGTTGAAAAATCAAGTTCGCTCACCGGATACTTCACTAAGTCTTCATATCTTATCTTCTTTCCTTTTATGTATTCATACAAGAATGATGGTGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTCATTAAAAAATCTTAATATTGAAAATGGATTGTATACACTATCTTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTCCATCTTCATTTCAATTGCTGTTTCTTTTATGTGCTCTTTAAAGTTACTTTCTAACTCTTCTTGTGTGTACCCCAACATCTGTGCGTATTTTTTATTCAACGATATATCATTTAAGTTGTTCAATGCAGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCATCTTTTGATTTTATTTTTTTATAGAACTCTCTTAAAAATCTTCTTATTTTTTCTGCTTCTTCTTTATTGTTCATATGTTCTAATATTGGTGATTCATATTCATCTATTAATATTACTGTTCTTTCTTTATTTTTTTTATTTAAATCTTCTATTATATTTCCAAACATTGTTGGTAAATCTTTTGTTGTTGAGGTTAGTCCTTCTTCTTTATATATTTTATTTATCTTATCTTTTAATGATTCTATAAATTCTTCATATGTTGTTAATGTGTTATCTGACATATCTATTTTTATTACTGGGTATTCTTTGAACTCCCATTTGTCGTATATGTATGTACCCTTAAATAATTCTTTTTCTCCTTTAAACAGATAGTACAGTGTTGATACCGTTAAGCTCTTTCCAAATCTTCTTGGGCGTGATAAAAAATAAAATTTTCCACTTGTTATTAATTCATATAAATATTTTGTTTTATCTATGTATATATAATTTGTTATTAACTCTTTAAAGTCTTGTACTCCTATTGGCAACTTCTTCACTTTTATCACCTCTAATTTCATTATACCATATGTTTTTTTTATATTTATAGTACTATTTCTTATTATGATTTCATCATTTTCAAATTAAATAAAATTTCATATGATTTTTTTCTTTTTATTTTATCATATAAAGTATAGTTCCTTTTATTTTCTTTATTAAAAGCAAAATAATTTATTATTTCTATTTTTCCATTTATCGTATCCTCAGTATCATCAAAATATATCATATATCCTTTTTCAACATTACTTATATTTTTTAAATAATAGTTATTTGCATATTTAAATATAAAAAATGAAACTGTTATAATGAAAAAAGTAGAAAAACCTATTATATAATTTAAATTAAACATGATAATACTTATTATTATTAACCTAAATAAACTAATAAAGCTATTCATACTTTCTAAATTAAATATAGATATAAAACTATCTATTTTAGTAGTTAAAACATCACTGTAATATTCTGTTCCTTCAGGAAGGCTACCAAGACCAAATCAATATTCCCTAATGACGATGCTGTTCTTAAAAGTTTATACCTTACTACCAAAAACGTGACAAAAAAATGGACAGCACGGTTTCACAACTGGAACGCTGTTATTTCCGAACAGTCCATCCTTTTCGAGGATCGTCTTAAAAACTACCTCTGAAAGTAGCTTGTAATCCTTAAAAACTCTATACTTTGTACCGGGCAGATGGGTTGTCGCCCTTACTTTGTACCGGGCAGATGGGTTGTCGCCCTTACTTTGTACCGGGCAGATGGGTTGTCGCCCTTTCAGTCATTGCAGTTTTTTACTGTAAAAGGGTGGTTTTACCAATTTTGCCTTATTTAATTCATACTATTCAGGAACATTTTTTTCATTTTCTAATAACTACATTTTTTTAAGATTTTTGTCGTTGTTTTCCAATATTTATATGCTACCAGATATATCTAATACACACTAATCTTTACAGACTCATTTTCTTAATACTCTCAAATTATACCTTTTCTATTTTGTATTCGTCTATATTTCTTTTTTCTGAGTTTATGTTTATTCCTATTATGTAAATTTCTTTTCCTTTGTACTTTTCATAGTACTTCATTTCTTTTATTTGATTTAAGGCTTTTTCTGCACTTTTATCTATCTTTATTTCCATTATGTATATAGTGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTTAGTCCTGTTGATGCGAGTATTGTGTATATCAATGAATGATAGTAGCTTTCTTCTTTTTTGTGTAAGTTGTATGGTATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCTTTTATTGATCTCCACATCGTTTTATTTATTTCTTTTATTTTTCCTCTTTCAAGTTCATAGTTTGCTTCTAATATCATCTTTGAAAAGCTGTTCTTTACTTCTATATTTGGATAATCTAATAAATATTCATATTCCATTCCATATTGTTCTTTTCCTTTAAAGGTCAAGTATCCTGCTTGTGTAAAGAATATGCTTGCATTTGCTTCTTCTATTTCTCGTGTTGAAAAATCGAGTTCGCTCACTGGATACTTCACTAAGTCTTCATATCTTATCTTCTTCCCTTTTATGTATTCGTACAAAAATGATGGTGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTCATTAAAAAACCTTAATATTGAAAATGGATTGTATACAGAATTCTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAATTCTTTTTCTTCCATCTTCATTTCAATTGCTGTTTCTTTTATATGCTCTTTAAAGTTACTTTCCAACTCTTCTTGTGTGTATCCCAACATCTGTGCGTATTTTTTATTCAATGATATATCATTTAAGTTGTTTAATGCAGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCATCTTTTGACTTTATGCTCACATAAAAGTCTCTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTTGGGATAGTTTTATTATTAATTCATTGAATGCATATTTATAGTTTGTGTTTTCTATTGTTATTCCATATCTTTTCGCTTCTTCTTTTATTATTTCTAACAAGCCATACTTAAAACTTTGTTCGTTCTCTGTTGAGACATCCAACAAATTTATTCTTATCACTGGATACTCTTTGAATTCCCATTTATCGTATATGTATGTTCCTTTAAATAAGTCTTTTTCCCCTTTAAATAGATAGTACAGTGTTGATATCGTTAAACTCTTTCCAAACCTTCTTGGTCGAGATAAAAAATTAAATTTTCCACTTGTTATTAATTCATGTAAATATTTTGTTTTGTCTATGTATATATAATCTGTTATTAATTCTTTAAAGTCTTGTACTCCTATTGGTAGTTTTTTCATCTTTATCACCTCTAATTTCATTATACCATATGTTTTTTTAATTATATTTATAGTACTGTCTCTTATTATAGTTTCATTACTTTTTAAATCGTATTTATATTTTTTTTTACGCAGCTATAAGCTGTGTTTTTTATTTCATTATTTTTGATCTAAATATTTTTTATATTTTTATGAGACTATATTTCAATTTTTTGTATTTTCTATAATTATTTATGTATTTTGCAAGTGAAGAATAAGCCAAATTACAATTAAAAAATGGGCCAAAAAAATAAAACGCTGAATAAAACCACGTTTCAGGAAACATTAAGAGTTTGTTAATATTATAATCTCTCCAATCTTTCTATATGTTTAATGTATAATAAAAAAGATAGTCTTCCGTATCAATTGAAAAATCAAAAAATAATTGATAGAATACATAAAAATGAAAGAAAAAAAGTAAAAAATTATGTAATCTGACATTTCATAATTTTTTCTTTTTTTCTTGTGTTTATTAGTACTTCCATTACTTTATCCATTTTTGAATCATTTGTTGTTACTTCGTTTTTTTCAAATATTCCTAATATTAGTCCCATTTCATTTTTTATTAAATAGTAGTTTTCTTTTATTTGTTGTTCATTTTTTTGTTATTGCTTTGTTTAAATTTTTTTTATACTTCTTTTTTTCTTCTTGACCCATTTTTCTTTTTTATTCCTGACTTAATTTTTTTATACATTAAACAGTTCCATGTGGGGATGCTTATATTATGTCTTAATATTTATGGTTTATAAATGTCCCCTTGAGGGGACGCGGTTTTATCGGTGGGGTGTGGAGCTTTCTAATTTTCTATATACTAATAAACAGCGAATATAACAACAAACAACATCCCTCCGTCCTTCGGACTCGCCCCTTCAAAGGGGCACTTTTCTTTGGTAAAGACACACTGCTTTACATGAAATTTTAAAGGTGAAGTTTTCCATGGTATCCTCTCATCTTTTAAAAGGAGTATTTTTTCCTTCCTGGCCCATTTTTCTATTGTATTTCTGGCTTACTTTTATTATACATTAAACAATTATTTATATAAAACGATTTTAAACGATAACTTTTATTTAAAATATACTATCTATAAAAAATAGAGTTGATATTTCACTGACAAGCAAGCTCACATGCTGGGCGCACTAAAAAAAGTATCCTGTAAATTTTACAGGATACTTTTTATTGTATTGTATATTCCATTCCTTGTGGGGTGTCTTTTAATATAATTCCAACTTTCTTTAACTCTTCTCTTATGTAATCTGACATTTCATAATTTTTTTCTTTTTTTGCTTTTTTTCTTGTGTTTATTATTACTTCCATTACTTTATCCATTTTTGAATCATTTGTTGTTACTTCGTTTTTTTCAAATATTCCTAATACTGGTCCCATTTCATTTTTTATTAAATGGTAGTTTTCTTTTATTTGTTGTTCGTTTTTTTCTGTTATTGCTTTGTTTAAATTTTTTGATACTTCAAAGATTTTTGCTATTACTTTTGGTGTATTAAAATCTTCTGATAATGCTTCTTTCATATTGTTTATTGTTTGTTTCATGTACTCTGTATTTTTTATAAATGGTACTGTTCCATTAAAGTATTTTTCTGCTTCTATTAAAGAGTTTTGTACTCTTGTAACTGATTTTTTTTGTTCTTCTAATCCTTCTTTTGTGAAGTCTAATGGTGTTCTATAGTGTTTGCTCAATATAAATACTTTTGTTGTATCTGCTCCAAATTCTTTTACTACATCTCTTATTAGCCATATATTTCCTATTGATTTAGACATTTTATCTCCTGATACTTTTATCATTCCATTGTGCATCCAATAATTTGCAAATTCTTTTCCATGTCTTGCCATTGATTGAGCTCTTTCATTTTCATGGTGTGGAAATACTAAATCATTTCCTCCTGCATGTATATCAAATGTTTCTCCAAGTAATTCTCCTGACATAACAGAACATTCTATATGCCATCCTGGTCTTCCATTTCCCCATGGGCTTTCCCATGCAGGTTCTCCTGGTTTAGCATTTTTCCACAATGCAAAGTCAAGTGGGTCTTTTTTTATATCTGATACTTCTATTCTTGCACCAGATTTCATATCGTCTATATTTCTGTGCGATAATTTTCCATAGTCTTTAAATTTTCTTACTTCAAAGTATACATCACCATTTGATTCGTATGCGTATCCTTTTTTTATCAAGTCTTCTATGAATTTTATTATTTCTTGTACATAATTTGTTGTTTTTGGATGAAAGTTTGATGCTCTTATATTTAAATTTTGTGCATCTTTCCAATATTGAGTTATGTATCTTTCGCTCACTTCTTCAAATGGTACATTTTCTTCTATTGCTTTGTTTATTATTTTGTCGTCTATATCTGTAAAGTTTTGTACCATTGTTACTTTGTATCCTGTGTATTCTAAAAATCTTCTAAATGCATCAAATACTATCATTGGTCTTCCATTTCCAACATGGATCAAGTTATAAACTGTTGGTCCACATACATACATCTTTACTTCTTTTTCTTTTATTGGTTTAAATTCAACTAATTCACCTTTTAAAGTGTCGTATATTTTCATAAATTCACCACTCTTTCGAGTCTTTCTATTACTCTTGCTCTTCCTATTAAGTGTATTGATTTTACTAAGTCTGGTCCATGAAATTCATTTGTTATGCTCTTTCTAAGTGCCATATAAAATGGTTTTTTTGCTGGTTTTGCTTCTTTCATTGCTATTTTTAAGTTTTCAAGTACTGTTTTTTCTGTCCATTCTTCATCATTTATAAATTTTTCAAGTGCTATTTTTATCGATTGTTTAACATTTTCTGCATTTAAGTATTCTAAAAATTCTTGATTTGTTTCGTCTATTTCAAAGTCTTTTATCAATATTGATAGTTCTTCTGGTACTTTTTGTAATTCTTCAACTGATGTTTTTATTAATTCAAAGGCTTCGAGCAACCATTTTTTATTGTCTTTACATTGTTCTTCAGTCAACAATTTTGATTCTGTTATGAATGGTATGGATAGTTCATACAATTTTTCAACGTTTGTTTTTCTTATGTAATTTGCATTCATCCATTTCATTTTTACTTCATCAAATACTGCTGGTGATGAATTTACTCTGTCTAAATCAAATTTTTCTATCATTTCAGATAATTCTACTATTTCTTTTCCTTCTGGATGTGACCATCCAAGTAAGGCTAAGTAATTTACTACTGATTCAGGTAAGTATCCTCTATATTTAAATTCTTCAACTGATGTCGCACCATGTCTTTTTGAGAGTCTTTTTCCATCTGTTCCGAGTATCATTGATACGTGAGCAAATTGTGGAAGAGGCATTTCAAATGCTTCATATATTGCAACTTGACGAAGTGTATTTGATAAGTGATCGTCTCCTCTTATTACATGACTTATTTGCATCAACATGTCGTCTATTACAACGGCATAATTATATGTTGGAAGTCCATTACTTCTCATAAGAACAAAGTCTCCTATTGCTCCTTTTTTGAATGTAACGTCTCCTTTTATTAAATCTTTTATTGAATAATCTTTTCTTGGCATTTTAAAAAATACTACTGGTTTTAATCCTTTTTCTTCAAATTCTTTTCTTCTTTCAGGTGTATCATACTTTGATATTTCTTCATATGAATAGTGTGGCGGTTTACCTGCTGCGAGAAGTTCTTCTTTTATTTTATCTAATTCTTCAGAGTATGCATATGCTTCATATGCTTTTCCTGATTCTATTAATTCTTTTGTTTTTTGTTTGTATATTTCTGTTCTTTCACTTTGTCTGTAAGGTCCAACTTCTCCTCCAACTTGTGGTCCTTCATCCCAATCTAATCCAAGCCATTTTAACGCTTTTATCAATTGTTCTTCTGATTCTTTTGTTGATCTTTCTATATCTGTATCTTCTATTCTTAAAATAAATTTTCCACCATTTTTTCTTGCAAATAAATAATTAAATAAGGCTGTTCTTGCACCTCCAACATGTAAATATCCTGTTGGGCTTGGTGCAAATCTTGTTCTTATCATTTTTATATTCCTCCCATTAATTTTGCTCTTGTATAAGCTGTTATTGTTTTTGCATCTGTTATTGTACCATCTTTTATTTGCTCTTCAAATTCATTTATTTTAAGTTTTTTTACATTTATAAATTCATCATCATCCGTATTCATCGTACCATCTTTCAAATTTTTTGCCATATATAAATGTATTATTTCATTTGAAAATCCTGGTGTTGTGTATATGTATCCTAAATATATCCATTCATCTGCTTTTTTTCCTATTTCTTCTTCTAATTCCCTTTTTCCACATTCTAAAGGATCTTCATTTGGTGTATCAAATTTTCCTGCTGGTATTTCAATTAAGTTTTTTCTTATAGGAAATCTGTGTTGTTCAACTAAGTATACATTTTCATCTTCTATTGGTAAGATAGCAACTGCTCCTGGATGAACTACTAATTCTCTTGTTGTATGTTTTCCATCTGGAAGTTCTACGGTATACTTTCTAACGTCCAATAATCTTCCTTTAAATATTTTTTCTTCAGTTAATTCTTTTTCTATTAATTTCATTTTAAATCTCCTTTTTTACAGCAAAAATAGTTATATCATCATCTGGTTTTTTACTTTCTATAAAATGCTCAAATTCTTCTTTTATTTTATTTATAATTATTTTTGGAGTTTTTTCTTGAATATTTTTTATTAATTTAATTATCATTTCCATTGTGAATTCTTTGTTATTCTCATTTACCGCTTCTATTAAACCATCCGTATACAATAAAATTATATCATCTTTTTGAAAATCATATATTTTTTCAACTATTTCTTCTTCGTTTATCAAGTTCATTCCAAGTGGAAAATTTCCTTCGTTTATAACTTTTATTTTATCTGAAATCAACAAAGGTTCTCTATGTCCAAAATTACATATATTTGCTTTATTGTTTTCTATCTTTACAAATATCGCTGTAAAGTATGCTCCATCTGATAAATTAAAAAATTTTCCATCATCTAATTTTTTTCCAAGTATTTTTAAATCTGTTATTCCGGTTGAAACAAGATTTTCTATTTGTTGTTTTATTAAAAGAGATAGCATTGCAGATGCTGCACCATGTCCTGATACATCTATAACATAAAAAATTGCTCCGCTTTCTATTGGTATTAATCCAAACATATCTCCAGAAACATTAAAAGATGGTTTGAAACACCAATCCATTGAAAGTCCATCTACTTTTTTTGTTTTTGGAAGCATTTCTATTTGAACCTTTTGAGCCATTAATAAATCTTCATTTACTTTTTTTATATATTCTCTCAATTCATTTTGAACATTGTATAAACCTGCATGTGTATTTATTCTTGCTATTACTTCTTTTATTTCTGATGGTTTTGTTATATAATCGATTCCACCAACATCAAATCCTTTTGCTTTATCTTCTGCATCGGTTAAAGCACTTAAAAATATAACTGGTATTCTTTTGGTTGATTCTTCTTTTTTTAACATTTTACACACTTCATAACCATCAAGTTCTGGCATCATTATATCTAAAAGTATTACATTTGGTTTTTCTTCTTTACAGAGTTTAAAACCTTCCATTCCATTTTCCGCTTCAAAAACTTCAAACTTTGGAAGGTTTTCTTCAATTATTGTTTTTATAAACATCCTATTTATAGAAGAATCATCTATAACTACTATTTTATTTTTTTTCATTTAAATCATCACCGTTAAATCCATATGGAAGTAACTCTTTTGATGTTGTTTCCTTTATATCTCCTTGTAAGTTTGTAAGTACAACTTCATAATCTCCAAATTCATATATAACTTGCCTACATGCACCACATGGACTTACTGGTCCTTCTGTATCCGCAACTACAACTAATCCTTTATATTTTCTTTTTCCTGCTGCATTTGCAGAAAAAATAGCATTTCTTTCTGCACATATAGAAAGTCCATAAGAAGCATTTTCAACATTACACCCAACAAAGATTTCATTATCTTCTGTTAATAATGCTGCACCAACTTTAAAATTAGAATATGGAGCGTAGGCATTTTCTCTTGCTTTCAAAGCTTTTTCATATAAAGTATTAAATATTTTTTTATCCAATTTCTTCATCTCCCTTGTTTTTACTTCTTATAGAAACTTTAACTTTATCTATTTTATTAACTGTAACTGAAATAACTTCAAATTCAAAGTTATCATAACTAATTTTTTCTCCTGGTTTTGGGAATCTTTCTAACTGTTCTAATAAAAAGCCACTTATTGTTTCAAAATCTGTTTCAGGCATTTCTTCATCGAGTTCACGTTCTATATCGTTTATTGGTGTAGAACCATTTACAAGTAATGTATTATCATCTATTCTGGTTATATTTGATTCTTCTATTACGTCATCGTATTCATCTAATATTTCTCCAGTCAGTTCTTCTATTACATCTTCAAGAGTAACAAGCCCAGCTGTTCCACCATATTCATCAACAACTATTGCCATATGTATTCTATTTGAAAGAAAATTTTTTAAAACATCTTTTATTTTCATAGTTACTGGAACAAAGTATGGTTTATGAGCTATGGTTAATATATTTTTTGCTTTTAATTCTTCTTTTTCTTCTTCTATTATTTTAAAGATATCTTTTGCATAACATATTCCAACAATTGTATCTAATGATTCTCTATAAATTGGAAACCTTGAATATCCTTCTTCATTTATTAATGAAACTAATTCCATTATATTTTCATCATCTTCCATTGCAACTATATCAACACGAGGTGTCATTATTTCTTTAACAGATGTATCTCTCATTTCTAAACTTCTTTGCATTAAATATTTTTCATCTTTTTCTATTATTCCTTCTTCATGACCTATATCTAAATAACTCATTATTTCATTTTCTGTTATAAATGGTGCTTCATTTATTGTGGAACCTCCAAAAATTCTTATTACTAAATTTGATACTCTTACTAATATCCATGCTATTGGTCTTAAAATATAATTTAATATATTTATTATTTTAAATGAAAATTCAAAAAATTTTACTGTATTTTGTCTTGCATAAACTTTTGGAGTTATTTCACCAAATATTAGTATTAGGAGTGTTATAAATCCTGTTGCTATTCCAATTGCTAATCCTTGAGAGTTTGGAAATAATTTCGTTATAAAAACAGTTGTTAATGAAGCTGCCAAAATATTAACTATATTGTTCATTATCAAAATTGTTGTTAAAACTTGATTTGGTTTTTTCAAAAATTTTTCTATTTGATTTTTTTTCTTTTCATCATCTTCATTTTCAACATAATCTTTTAATTTATGTTTACTCATTGCAGTCATTGCTGTTTCAGATGCTGAAAAAAATCCAGATAATAACAATAAAATTATAACTTCAACTAATGATATTAACACTCCGGTACTACCAGATGGGTCATCCACGACCGTACACCTCTCTTTTTTTATTTGTTTTATGAAATTTTTTTAAATCCATAACCAAGTGCTTCTTTATTTTCAAGTATTACTGTAAAAGCTTTAGAATCAATTTCATTTAATAATGATTTTAATTCTCCTATTTCTGATTTAAAAATTGTAAGCATAATTACATTTTTTTCTTTATTGGTATATGTTCCAACACCTTTTAAATAAGTTACCCCTCTATCTAATTTTTCATATATTCCATCTTTTATTTTATCATATTTATCACTTATAATCAAAACAGTACGTGTGGAACTTAATCCATCTATAACACCATCTATAGTCTTTGCAACTATAAAAATAGCTATAAGTCCATACATTGGTAAAATTGGATTTATAAAAAATGCAGTCATTGTAACTATGGCATCTGCTATCATCAAACCAGAACCTACTGTCATATGAAAATATTTATTTAATATCATAGCAATTATGTCTGTTCCGCCAGTAGTTGCTCCACGCCATATAACAAGTCCAAGACCTACACCACTTATAATAGATCCATAAACACTTGCCATTAAAACCATATCTATTGAATTAGTAGTTTCTATAGTTTTTAATATATTTTGCAAGCTGTATACATGTTCCATTATCCAAATAAAAAAAGATAATAGAACTGAAGAATATATACTTTTTACTCCAAATCCAAGACCCAATAGTTTAAATCCAAGTAAAAATAACACTATATTGTATATTAAAATTTGTATACTTAAATCCCAACCAAAAAGGGCTTTCATTCCTATTGAAAGCCCACTAACTCCACCAGCAACTATATTAAATGGATCTAAAAATAAAACTATTCCCAATGCAGTTAAAAAAGTTCCAAAGGTAATTATTGTATAATCTAAAAAATTTTTTTTTGACACCTTTGTCACCACCTATTATATTTCAATTTTTTTTGCCTTTGCAAGTTCTTTTAATATTTTCTTTTCCTTTAATGATGGCTTATCTATTTTCACATTTAATTTAACGTATATATCTCCACGGCGTCTTCCATTAAATGTTGGCAATCCTTGATTTTTTAACCTTATTATAGTTCCAGGATTTGTACCTTCATTTATTTTTTCTATTATATCTCCTTCTAAAGTTGGTACTTTAATCTTTCCACCAAGAGCTGCTGTTACATAATCAATTGTTACTTCTGTTTCAAGATTTGCACCTTTTCTTATAAATTTATTGTTTGGTTTTACATTTATATGAAGTATTAAACTTCCATCTTGTCCACCATTTTTTCCAGCATGCCCTTTTCCTCTTACTCTAAATACATATCCATCTTCTACACCCGCTGGAATTGTTATATCTAATTTTTCTTTTTTTACTGTTTTTCCTTTTCCGTTACATACATCACATTTTTCTTCTATTATTTTTCCTGTTCCACCACAAGTTGGACAAGGATATGTCTTTACAAAAGTACCAAAGAATGATCGTTGTTCTTCATGTATAGTTCCTTCTCCATGACATCTTGGACACGTTTTAAAAGCAGTTCCATTTTTTGCTCCTGTTCCATTACATGAAGTACATGTTTGATATCTTGAATATTCTAATTTTTTCTTAATATCATACAAAACATCTTTTAGCTCTAAATTTATGGTAGCGTGTATATCTTGTCCTCTTTCAGCTCTACTTTCTTCTCTTGCAGAACTTCTTCCTCCACCTCCAAAAAAGGTATCAAATATATCTGAAAATGGATTTCCTGAGTCTCCTCCACCTCCAAAAAAGTCTTGAAATATATCTTCAAAACCTCCTGCTTGTCCACCATTAGGCATTCCACCTTCTGGAACAAATCCAAATCTATCATATAATTTTTTCTTTTCTGGATTACTTAAAACTTCATAAGCCTCTTGTATTTCTTTAAATTTTTCTTCTGCTATATGTTTGTTTTCCATATGTCTATCTGGATGCCATTCTTTAACTAATTTTCTATATGCTTTTTTAATTTCTTCTGGTGAAGCGCTTTTATCTATATTTAAAATTTTATAATAATCTTTTTTTTCCATTAGTTTTCACCTTCTTTGTTTGCCTCATTATTCGATTCTTTACTCACATTTTCGTTCTTTTCTATTTTTTCATTTTCTTCTTTTTTTATTTTTGGTTTCACTGCAACCACAACTTTAGCTGGTTCTACAACAATATTATTTAATTTATAACCAACGCTTTGAACATCATAAACATGATATTCATTTACTTCAGTAGTTTCAAATTTTTCAATAACTTCATGTTCAAATGGATCAAATTGACTTCCTTTTTCTGGCGAAATAAACTTCAAACCTGATTTTTCAAAAGCATTTACAAAATCTCTATAAACCATTTCTATTGCTTTTCCAAATTCTGGAGAATCTTTATATTTTAAAGATATACTCAATTTTTGAAATGGATTAATTAATTGTTTTATTACTGATTCTTTTGATTTTTTTTCAATATCTCTTTTTTCTCTTTCAACATAATCTTTATAATTTTCAAAATCAGATTTTAAACTAACTGCAGCATCTCTATACTTTAATTTTTCTTCATTTGATTTTTCTACTTCAGAAATTAACGTTTCATTTTGCTTTTTTATTTCATCTAGCTCTTTTTTTATTTGTTTTAAAGATACTTCTTTTTTCTTGCTTTCTTTTTTTGATTTTTTTTCTTCTTTCTTTACTTCTTTACTTTCTTCTTTTTTTATTTCTTGATCCTTCATTTCGTTTTTATTTTGTTTTTTTGGCATAAAAAAACACCTCCATATATTTTTATTTTTATTATTTTTATTTTTTTTTAAAAAAAGCTTTTATTATTAAAGATTTTTTGATATAATTTCAGAGAATCTAGATACATATTCTTTTAACACTTTATAAACTTTTTCATAGTTTTTATATTTGTCAGTTATTAATAATACTCTACCAATAGAATTTGAAGATAGACTATATGAAGTATTAAAAAATGAAAAATTTTTTAATGCTCTAGCATTTAAGTCATCTCCAAAGAATATATTTATGTCATTTGAAAACTCTATTTTATCAAATATTTTATCTTTAATTTCATCATTTTCAACCATCATTGTTAAGCTTTCTATGCTCTCAATGTTGTTTTTACAATGAGAAATTATTTTTTCAAGACCAGTTACATGATACTTATTCCTTGAAAATTCATTTAATAAACTATTAATCATTGAAAACATATTTTTTATTCTAATATCATCAGTTTTATACGATTCTGAATTTACAGCACTCAATAATTCTTGAATTGATTTTCCTGATAATCCTTTATTTAACATTTTTTCTAATTCAGAAGAAATAGGAAGTCCATATTTTTCAACTGTTCTTGAAATAGTCATACCAAGATTTGTTAAAAAGGTTACAACATAATGAGACTCTGTTAAAGGGGTTACAACACATCTTGTTATAAAAACATACCTAGGATTTGGATATTCAAAAATAATCATACCTTCTAATATTTCCGAAACTATTTTAGACATGTTTTCTATCATTATGTTTAAGTCATAAAATTTATATTCCTTTGGTATGTCTAACATTTTTTCTGTTTTAGAGTAAACATCTTTTACAATTTCAAAATATAATTCTAAAGCACGATCAGATGGTATTCTTCCACCACTCGTGTGTTGTTGATAAATGTACTTTAATCTTTGAAGTTTTTGCATATCATTTCTTATAGTTGCACTACTTGCTTTTACTCTAGAGTATTTTAATACATCATCAGAACTAACTGGTTTTTTATATTTAATATAAATATCTACTATACTAAGTAAAATATCTTTTTGCCTTTGGCTTAATACAATACCCATAATTATCACTCCTTTTTTTTGAGTGCTAATTATATGATACCAATAAAAATTATCATTGTCAAATAAAAATGTTGTCAAATAATAAAATTAGAGTTAAAATATATGTTGGAATATAAAAAATGGGGGGAATCAAATGACTATTAGTAAAATTTTGGGATTATTAAAAAATGAAATAATAAAAAGCTCTATTAATCTCCCAGAAAATTTTGAAATAACATCTATAAAAGATAACTGTGAAAATGTAGAAAAAAACGATGTTTTTGTTGCAATAAAAGGGGAGATTTTTGATGGACATGATTTTATTCAAACATCTTATAAAAGGGGAGCTGTTTTATTTATAGTTGAAAGTGATAAAAATATTCCTGAGAAAGCTTCTTACATAAAAGTAAAAAATACAAGAAAGGCTTTATCAGAAATTGCTTTTAATTTCAGTAATATAAATTCTGATAATTTTAAAATTTTTGGTGTTACTGGAACTAACGGAAAGTCAACAACTGTATCTTTAATTCATCATCTATTAAGAGAATCAAAGAAAACATCTACTTTAATAGGAACTGTTGAAATAAAAATAAATGATGAAGTAATTGATGAACCATACAATACAACACCTGGTTCTTTAAAATTAGCTTCTATTTTAAAAGAAAGCAAAGAAAAAAATGTTGAATTTATTAATATGGAAGTTTCTTCACATTCAATAGAACAAAAAAGAGTTGAAAATATAAAGTTTGATATAATAGCTTATACTAACATAACAAGGGATCATCTTGATTATCATTCGACATTTGAAGAGTATAAAAATGTAAAACTTTCTTTAGTTAAAAATTTAAAAAAAGATGGAAAAGTTATATTAAATATAGACAATTTAAAAAAAGAAGAATTAAAGAATGTAGATAAAGATAAAATTATAACTTATGGATTTTCTGAAGATGCTGATTATGTAATAAAAGATGTATCTAAAAGTATTTATCAAATGAACTTTAAAATAAAGACACCTGAAGGATCAGAATTATCAATATATTCTTCTATTGTTGGAGATTTCAATGCTTCAAATATTACATTAGCATTAATTAGTACAAAATTAATGGGATTGAGCTACGAAGAAATAAAACATGGAATAATAACTTTTTCCGGTGTTCCAGGAAGATTTCAATTAGTTCCAAATAGCAAAAATTTAGGATTTTCTGTTGTAATAGATTTTGCTCATACTCCAGATGCTTTGGAACAAGTTTTAAAAACAGCAAAAGATATAACAACAGGCAGAGTCATTATTGTTTTTGGAGCTGGTGGTCATGCTGATGTTGGAAAAAGAAAAATTATGGGTGCAGTTGCGAGTAAATATTCAGATATAACAATATTAACTACAGACGATCCAAAAGATGATGATCCAGAAAAGATTATTGAAGATGTAAAAAAAGGAATAGACGTAAACAAAAACTTTATAGTAATACCAAACAGAAAAACAGCTATAAATGCCGCAATAAACTTTGCTAATAGAGAAGATATAGTAATAATAGCAGGAAGAGGTCATGAGCTTTTCCAATTATTTGCAAAAGGAAAAAAGGTTAGATTCAATGATTTTGAAGTAGCTCATGAAATAATTGAAAATCTTAGAAGGAGCATGAAAAAATGACTCTTAGTGATCTAAAAAAAGCTAAGTATGTTTTTAAAATAAATTCAAATGAAATAGAAAAAAATGATGTTTTCGTAGCCTATGGAAAGGGGCACAATTATGTAAACGATGCGTTCAGTAAGGGCGCATCGTTTGCTGTTATTGATACAGAAGGAAAATATATAGGAAAAACAATAAAATTAAATAATACTACTTTAGATTTTTTAAACGAATCAGCTAAAATTTTAAACTCTAAAATGACAATAGCAATAACTGGTTCAAATGGCAAAACAACAACTAAAGAATGTTTGTATTATTTGTTGTCTCCTCATATGAAAACTTTTAAAACACCAAAAAATAAAAATACTGAAATAGGCATTCCATTGTCTATTTTTAACGAATACAACAATGAAGATGTTGCAATATTAGAAATGGGGTTAAGAAAACCAGGAGATTTAGAGTTACTTTCAAACGTATATAAACCTGATGTTGTGTTCATAACAAACATTGGCTCATCTCATATGGAATTTTTTAAAAATAAAGAAATGCTTTCAAAAGAAAAGATGAAAATAACTTCTGGTATGGACAGAGGATTACTTATATTGAATGGTGATCAAAACTTAAAAAATATTGCTCCAAAAAACTTAAATATTTTAACTTTTGGTAAAAACGAAAACAATGATGGATACTTAAAAGATTTTTTTTATTATAAAAATAATACAAAAGTTTTTTATACACTGTTTGGTAAAGAATTAATGTTAACTTTAAATGGAATTTGGACAGAAGGTCATCTTTTAGATCTTTTATCCGCAATTTTATTTACAGTTTTTATAAAAGTACCTTTAGATCCATCTGTATTATCTCAAATAAATCTACCAGAAGGCAGATTTAAGCTATATGAACTAAAAAATAAAACAATAATAGATGATTCATACAATGCATCTTATGAATCTTTTACAAATGGTTTTAAAACTCTAGAAAGATTAAAAGGAAAAAAAATATTAATAATGGGAGAAGTTTTAGAATCAGGAGACAAAAAAATAAATGAAAAAATACTAAAAGAAACAAAAAATACTTTTGATGAAATTTATTTTTTTGATCCACAAAATATCTTTTCATCACTAAAGGTAAAAAAAATAAAATCATTTGAAGAGTTAAAAAAATTATTGAATGAATTAAAAGGAATAATATATATTAAAGCATCAAATGGAACAGGAATAAACTCTTTTTTAAAAGAGTATTTTAATAATAGGAGGCAATAATGATATTAATTATCTCTTTAATTTCATTTTTTATTCTTATATATATTTATCGGGTTTATATAAATTTTGCAAAGAAAAAACAACTTGGACAATTTATAAGAAAAGAAGGTCCAGACCTTCATAACTATAAAGAAGGAACACCAACTGCTGGTGGAATATTTTTTACATTAACTATTTCTATTTTATCTTTAATTGCATTTTTTATAAATAAAGAATCAATTTATTTAATAGTTTCATTATCTTCAATAATGTACTCTTTAATTGGATTTATAGATGATTTTTTAAGTATTAATAGAAAAGAATCAACTGGACTAAAATCATTTGAAAAATTACTATTGCAATTAATTGTATCGTCAATATTATTTTTTGTAATAAATTATTTTAATTCACATGATTATACAAATATACCATTTTTTAATCTTAAATTAAATTTTGGACTACTCTATCCAATTTGGGTAATTTTATATTTAGCTGGTATGTCAAATGCATCAAATTTAACAGATGGACTCGATGGATTATCGGGTGGAATTTTTATAATATCAGCATTTTTTACAATATTAATAACTTCTGCACCAAAAGAATTATTATTTATATTAATAATTCCCGTGATTGCTTATTTAATGTTTAATATAAAACCAGCTAAATTATTTATGGGAGATACAGGTTCTCTTGCACTTGGTGGAATTTTAGGAAGTATAGCAGTTTATTATTCTGCAGAATTTTTTACTATATTTACATGTTTTATATTCTTAACAGAAATGTTTAGCGTTATAATACAAGTAAGTAGCTATAAGATAAGAAAAAAAAGAGTATTTTTAATGTCTCCTATTCATCATCATTTTGAATTAAAAAACTGGTCTGAAGAAAGAGTAGTAATGTATTTTTGGATTATAAACTTTTTAATGGGCTTAATAGCTATTGGGGGTTTAAAATGAATATTTGTCTTGTAGGTTATGGAAAAAGCAATAAAAGTCTTTTAAAATTCTTAATTGATCAAGCACACAATATTACTGTAAGTAATAATTCACCTTTTAATGAAGAAACAAAAAAGTACTTTAAAGAAAATAATGTAATATTTGAAGAAAAACATGGAGATTTATTAAAAAATACTCAATTAGCTATAATGAGTCCTGGAGTATCCCCTGAAAGTATTGCTGGAAAAATTGTTCTTGAAAATAACATAAATTATACAACTGAAATTGAATATTCATGGTCATTTATAAAAGGACAAAATCCAAATTCAATATTTATAGGAGTTACGGGAACTAATGGCAAAACAACAACAACGACATTAATAAATCATATAATACAAGAATCTGATTATTCATCCATGACATGTGGAAATATTGGAAAACCTTTAATTGAATTACCAACTAATTTAAATTTTTATGTTGTTGAAGTTAGTTCATTTCAAATGTTTTGGTCAAAAAAATTTTTTCCTGAAATATCAATAATATTAAACCTTGCACCTGATCATTTAAATTGGCATAGAAGTATTGAAGAATATTATAATAGTAAATTAATTATGGCTGAAAGAACTTTAGCATCTGGTGGATTAGTTTTGTTAAATAAAAGTATAAAAACAAATAATTCTTCTGAAAGAATACTGTTTTTTGATAAAGAATTCATAAAAAATAACATATTAAATTATAAAAATATTTCTATAAAAATAGAAAATGATTTTTTAAATATGGAAATATACAAAGAAAATACAGTTGCAGCTATCTTAACAACATTAAATTTAAATATACCAAATTCTATAATACAAGAAGCAATTAAAACGTACTCACCAGAAAAACATAGATTAGAATTTTGTGGAAAAATAAATAATATAAATTTTTATGATGATTCAAAAGCAACAAATGTTCATGCAGCATACAATGCTTACTTGAGTTTTAGAAATAAAGATTATATTGCTATTTTATCTGGAGAACCTAAAAATGAAGATATGTCACAATTAATAGAAGAACTAAATAAAAATTCAATAGCTGTCTTTGTTTGTGGAGATATGAAAAAAGAAGTTAAAAAATATAATTACTCAAAAAAATTTTATTTTGAAGAAAATTTAAAAGACATAGTAAAAAAAGCTTTAAACTTTAATACTAAAAATGTAGTATTATCTCCAGCTGGAGCAAGTTATGATTTATACAAAAATTATATAGAAAGAGGAAATGATTTCAAAAAATTTATTAAAGAGTTGAGAGAATAATGGAAAAACAAATAAAAAAAAATATACTACTTTATTTAATTGTTTTAGGAATAACCCTAATATTTGGAATTTTTTTTGTATATAGCTCATTATTTGCCATGGAAGAATTAAATGGTATAAATCCAAAAACAAAGTTATTAAATTACATAATAGCAATGACAATAGGAACTGTTGGAGGAATAATTTCTTTTGTATTTGGAAAAGTGTTAATAAAATCAAAATCATTTATGATTTCAATGTATATATTTTTAAATTCTTTTTTATTCATTGTATTATTCTTTTCTCATAATGTAGCTAATGTAAATAGATGGCTTTACTTTGGATCCTTTCAATTTCAACCATCAGAATTAGCAAAACTATTGATACCAGCAATTATAGCCCATTATTATTATATAAAAACAAAAAGTAATTTTTTATTTGATTTACTAATACCAGTAATAATCTGTGGAATACCTATATTTTTGATTTATAAAGAACCAGATCTAAGTACATCAGTTATAATATCTTTTATATCAATAATATCTATATTTTTAGCTATAAAAAAATTTAAATATCAAAGCATTTTAATTTTAACTGTAATAACCATTACAATTTTTGCTTTTATTTTTAAAGATAACCTTTTACACTCATATCAATTACAAAGATTAAATAATTCTGATAATTATCAAACACAGCAATCATTAAAAGCTATTGAAAATGGGGGAGTACTTGGAACATCACCTTTTAATGGAAAATACAAATATAGAGTTCCAGCATCCTACAGTGATTTTATAATGTCTGTAATAGGTGAAGAATGGGGAAAATTAGGTATTATATTAGTAATAACTTTATTTTTATTTTTATCTTGGAATTTAATAACTATGGCATACACTACAAAAAACTTATTAACAATAGTATATTCATGTACAACAGCTATGTGGATATTTGTTCAAGTAACAATAAATGCTTTAGTTGGCCTTGGAGTTAAAGGTATACCAGTTACAGGTGTTACTCTACCTTTAATGAGCTATGGAAATACATCATTAATAATTACATTAACTGCAATAGGTTTATCTTTAGGTTTAATATACTTCAATTCATTAGGAAGTGAACAAATTGAAAAAAATTAAAGTAATAGTATCTGGTGGAGGTACAGGTGGACATTATACTCCTGCTTTATCTTTTATAAAATATTTAGATAAAAAATATGATTTAGAAGTTTTATACTTTGTAACTAAAGGTCGTATAGAACAAAAAAAATTAAAAAAAGATTTTCCAAAAGCAAAAATGGAAGTTGTAAACTTAACAGGACTTAAAAGACCCTTGTACAAACTTCAAAATATAAAAATTATACTTTTAGCATTAAAAGAAACATTTAGAATTAAAAAAATAATTAAAAAATTTAATCCTGATTTTGGTTTTTTAACTGGTGGTTATGTCGTTGGTCCAGTTGGAAAAGCTTTAAGTCAATTAAAAATACCATTTTATTTACATGAACAAAATTCAATAATGGGTATTACCAATAAATTACTATCTAAAAAAGCTAAAAAAGTATTTACATCATTTGAAATGTCTCCTTTTATAAAAACTGGAAATCCAGTAAGAATTCCAGAAAAAGAGGTAAAAAGAAGTGTATTAAAAAATTATAATCTTGATCCTTCAAAAAAAACATTATTAATTATGGCAGGGAGTCTTGGCTCAGAACAAATTGATGATATAATGTATAATGTATATAAAAAAAATAATGATATAAACTTTATACACATAACAAAAAATAAAAATAAATTCAAAGAGTTTAAAAATGTAAAAACATATGAATATTTAGATAACATATATGAAATAATGAGTATTTGTGATGGAGGAATTTTTAGAGGAGGAGCCACAACAATAGCAGAAATTTTATTTTATGAGTTAAAATGTGCTATAATACCATGGTCAAATGCTTCTGAAAATCATCAATTTAAAAATGCTTTAAAACTTAAAGAAATGGGATTAGCAGAAGTTTTTGATGAAAAAAATATAGATTACAATAAATTACAAAATTTTATAGAAAAAATTGAAATAAAAAATACAGACTTTATATGGAATATAAAAGAAGATGAATCAATAAAAAATATAGTAAAAAATATAGATGAATTTTAGGAGGATTAGATTATAAAATGAAATATTTTTTTTCTGGAATAGGCGGTATTGGAATGAGTAGTCTTGCACTGTACAGCTATTACAGTGGTAATGAAGTTTATGGTACTAATAATGAAATAAATGAAAGAGTAGAATACTTAGAAAATAAAGGTATAAAAATAAATATAGGTCATACAAACGTTTTACCAAATGTAGATGTTGTAATTCGTTCAACCGCAATAAAAGATGATAATCCAGAAATAATAGAAGCAAATAAAAGAGGAATTCCTGTTTTATATAGAATGGAATATTTAAACAACATATTAAAAAACAACTGGAGTATAGGTATAACAGGAACTGATGGAAAAACTTCAACAACAGCTATGGTTTCACAAATATTTAAGTATGCTAAAAAAGATCCGACAGTTTTTTTAGGTGGAATACACAACTTTCTTGAAGATGGAAATTTTAGAATAGGATCTGGACAAATAATAGCAGAAGTAGATGAGAGTGATGGATATATAAAAAAATCTCAATCTGATGTTGTAATAATAAATAACTTAAGACCTGATCATCTCGAACATTATAATAATGACTTTCAAAATCTTGAGAATTCCTTAAAACAATATGCAAAAAGAACAAGAGATATATTGTTTTTAAACGGAGATGATCCTATTTTATCAACGTGGAATTTAAATGTTCCACAATTATTATTTTTTGGACAAAACAATAATTGTGATTATATAATGAAAAACAGAAAAACAATGGGAAGATATCAAGAATTTGAAGTATATTATAAAGATAAATTTATTGGAAAAATAACCTTACCAATTCCTGGTGAACATTACGCTTACGATGCACTTGCAGCAACTGCACTTGCTATTGAATATGGTATAGATTTTAACACTATACATGAAGCATTATTTACATACAAAACAGTAAACAGAAGATTCAATATACTATACAGCAATTCAAGTATATTTGTAATTGATGACTATGCACATACACCTGATGAAATATCAATGACAATAGATGCAGCTAAAGAATATTTTCCAAATAAAAGAATAATAACTATATTTCAACCCCATAGATATACAAGACTTTATAGACATATGAAAGGTTTTATAAATGCCTTAGAAAAATCCGATGAAGTACTTGTATATAGAATATATTCAGCTTTTGAAAAACCTATTGAAGGTGTAGATGAAAGTAAAATAACAAATCTTTTAGACATAAATTCTAAATACTTTGATGATTCAAAAAAATTAATAAATCATTTAATCGATTATAACAACAGTGTACTACTCTTTGTTGGAGCAGGAGATATTACAAAAGTAGCAAATAAAGTTGGAAGAATATTTAAAAATAAAAACCATTAAAGGGATAGATTAACTATCCTTTTAATTGAGACCATAAAAAAATTTGTGTAAATAAAAAAATGAAAAACCTTCTTCTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTTTTAAAATGGCAAGAAGAAAAAAAGAAGAAAAAGAAGAAAGCAACATTGAAAAATTAGCAAGATTAATAGCAAGGGATCCAGAGGTAAACACAATAAAAGATGTATATGAAAAGATAAAAGAATTAGTGGGACCGTTAATACAAGGGATGTTAGAAGCAGAATTAGAAGATGAATTAGGTTATGGGAAATATGATAAAGAAAACAAGAAAACAGATAATTCTAGAAATGGGTACAGTTCAAAAAGAGTAAGAACAAGTGTTGGAGAAATGGAATTAAAAATACCTAGAGATAGAAAAGGTGAATATGAGCCTAAAATAGTACCAAAGTATAAAAAAGATATCTCAGATATTGAAGGTAGAATAATAGGTATGTACGGTTTAGGATTAAGCACAAAAGATATAGTAAAGAACGTAGAGGACATATATGGTGTAGAATTATCAGCGGAAATGATAAGTAAAATAACTAATAAAATATTACCTGAAATCAGAGAATGGCAAAGCAGACCTTTAGAAGAAATATATACTTTTATGTTTATGGATGGAATAGTGTTTAAAGTAAAAGATGATGGTGAAATAATAAAAAAGACTGCATATGTTGTACTTGGTGTAAATATAGATGGATTTAAAGAAGTACTTGGTATATATATAGGTGAAATAGAATCATCAAAATTTTGGTTAAGAGTATTAAATGATTTAAAAAATAGAGGAATAAAAGATATATTAATAGCTTCTGTAGATGGATTAACAGGTTTCCCACAAGCAATAAAAACTGCTTTCCCAGATACTATAGTACAAAGATGTATAATACATCAAATAAGAAATACATTAAAATATGTTAGTTACAAAGATAGAAAAGAACTTGTTAATGATTTAAAAAAAGTATATAAAGCACCAAATAAAGATATTGCTTATTCAAACTTACAAGATTTGAAAGAAAACAAATGGACAAAATACAAATTAGCATTAGAAAGTTGGGAAAAACATTGGGAAACAATATCCCCTTATTTTGATTATGGCGATGATGTAAGAAAAATAATGTACACAACAAATGTAATAGAATCATTAAATAGACAATATAGAAAAGCAACAAAAAATAAAACATCATTTCCAAATGACGATGCATTATTGAAAATGCTTTATTTAGCAACAATAAATGCAACAAAAAGATGGACAGCTCGTTATAGAAATTGGAGCAATGTCCTAAACGAATTATCCATCTTTTTTAATGAAAGAATTACAAAATATATCTATAATTCCTAACATAAATATACTTTGTAACATAACAAAAAATACCTATAACACACAAAAATGAATATTAAATATTATAATGCTATACCTTGCAATAAAAAGTTGCAAAAGGCTATTTATTACAAAAAATTATAATAAAAACTTCTAAAATTTACTCTTAAAGCATATTTCTTTATAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAGAGCCGTTTACACAAAATTTTTTATGCTACCTTTTAATTTTTTTATCTTTTCAATAGATAAATTTGTCATTTTAGATATAAATTCTATATCAACTCCATTTTCAATCATGTTCTTTGCTACTTTTTCTATCTCTGTTAATTTTTCTTCTTTATCTAAATTACTAACAATTTCAACCTCTTTTTTATCAAAAGCTATCGAAACTTTTATTATATCATTTATTCCATAACTTTTTATCTCTTCTTCATACCTTTTTTCATTTATTTGTTTCAATCCATTTTTAGCACTATTTAATAGTGTTTTTTCGTTTTTATAAAACTTTTTAAACTCTATTATTATTCCTTTATCTGTTTTATCTTTTGGAATTAAAATAACATCTGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATATACTTTTCTTTCAAACCAACGCTCATTCCAAGTATTAGTCCATGATAAAATCTTTCTGGTTCTTCTCCGCTAACATCAAAGTAACTCAATGTATTAATAGTTAATTTTTGAAAGTCTTCTTTAAACTCTTCTATATGTCCATTTATTAAATTTATTAATATATTATTGAGCTTTATTCTTTCTTCTTCAAGCATAGATACTACAGTTTTATTATAAAATATTTTTACTTCTTTATTTGGTATCTTTAAAGTATATCTTTCATAATCATGATTTATATTTTTTGTCCATTTTAAATATCCGCTGAATAAAAATAATGTCCATACAGACTCTTCTAAGTTGTTATTTAAGTCTCCATAAACCATAGTTTCATTTATTGTACTTTCAATTTCTTCACCATTTATTAGTTTTTCAATTTTATCTTTTAATTCAGCACTTCCTTGTTTTATTAATTGTTTAACTAAGTAGTTTCCACTCGTATTCATCCAATATGGTCTTATTTTACCTTTATTCTTTGCAAGAGTTACTATAGAAAAAGGATTGTAAATTTCAACACCACCAAAATTATAACCATTGTACCAATCTATAACTTCACTTTCTTCATATTCAAGTTCATAATACTTCAATGTTTCTTCAACTTCTTCTTTAGTTAAACCATACTTATCATTGAATAGTTCATTTAATACAGTAGAAACTTCTAAGTTATTCACACCAGTAAAGATACTTTCTTTAGAAACTCTTGTTATACCAGTAAGAACTGCTTTTTCAAGGTATACATTGTCTTTTAAAGCCATGCCAAATAAGTTACCAATTAAAGATATTATTTCATCATAGTATCCGTATAAGTAAGCTTGTTGAATGGGAGTATCGTATTCATCTATTAATATTATTACCTTTTTACCATAGTATCTTTCCATATACTTTGATAAGTTTCTTATAGAGTTTTCATACTTTGCATCATCCGCCGTTTCTGAAGTTATTGATTTATATACTGATTTTTCTTCTTCATCCAAAACATTTAAAACATACTTATGATCAATGTATAAAGATGAAAGTTCCATGGCTAATAAGTCATGCATCTTTTTTAAGTTATTAGACTTTAAATCTTTAAAGGTGATGTATATAACTGGATGTTTATTTAAATGTTTTTCTATTATATTTTTTTCTTTGTATATCTTTAAATTTTTAAAGAGGTGTTCGTTGTTTTGAGTAATATCAAAAAAGTACTTCATCATGGATTGACTGAGAGTTTTCCCAAACCTTCTTGGTCTTGTTATTAATAGAACGTCTCCACTTTCAATAACTTCTTTGATTAACATACTTTTATCTACAAAATACATATTGTCATCTATTAATGATTTAAAGTCACTTCTTCCTATTGGAAGTCTTTTTTTCATTTTTATCACCTCGTTTTATATCCTTACATGTTATTATATCAAATCTTCTTTAAAATAGTATGATTTTACAACTTAATACTATAAATTATATTTATAGTATTAAGTTGTAAAAAAATGTTTTAAAGTTGTTAACTTGACTTTATTTAGAAATCATGGTAAAATAATCTCGTCAGTAAGACAAAAACATTTAAGTGCCCCCATCGTCTAGCGGCCTAGGACATTGGCCTTTCACGCCAAAGACACGAGTTCAAATCTCGTTGGGGGCGCCATAATGGGTCCTTAGCTCAGCGGGAGAGCATCTGCCTTACAAGCAGAGGGTCGTAGGTTCAATCCCTACAGGACCCACCATTTTTTTATGGACCGGTAGCTCAGTCGGTAGAGCAACGGACTGAAAATCCGTGTGTCGACAGTTCAAGTCTGTCCCGGTCCACCAAAAAAAGAAAGCAAATGCTTTCTTTTTTTTATATTTTATATTCACTTCTTAAAATTCCCATTATTATTTCATCATAATATTTTCCTTCTTTAAATATTTCTTGTCTTAATCTACCTTCTACTACAAAACCAACTTTTTTATATGACTTTATAGCTCTTTCATTAAAACTATATACGTTTAATTTTACTTTATTAATATTCATTTCATTGAAAATAAAATCAACTAAGATCTTTAAAGCTTCTGTTCCATAACCTTTATTCCAATAGGGTTTACCCAAAAATATTCCAACTGTTGCTACTGAATTTTTCCAATCAATTTCATTTATACCACAACCACCAATATATTTTTCTGTCTCCAATAATTCTATTGCAAAGGAATAACTTGACGTACTCATAGGATTTAAACTTTCATAAAATTTAATTTCATCTTCATATCTAAAAGGAAATGGAACACCAGGTCTTAAAAATTTAGTTACATCTTCATCATTAATAAATTCCATAACAAGTTTTAATTCTTCTCTTTTGTAGGCTCTTAACCTTATTTTATTTCCTTTTAACATGAAGATCCCCTCACTTTTTATAATTTTTTTTATTATATACTATTTTATATTTTTTTGCAAATAAAATTAGGAAAGTATTAAAAATACTTTCCTATCTTTTTTATTCTTTCTATTATTGATTTTTCGTTTTTTGTTATAGAATCTACAACTAACATATCTAATATTTCTATAAATTCTTTATCTGTTTCTTTTTCTATTATATCTTTTAATTCAAAAAGTTCATTTATTATATTTGTGTTTTCTTTTAAGTCATAAAAAATATTGTAGATATCTTCAGAATTTAAGTATAAATCTTTTTTTATTTGATTAAAAGAATTTCTTATTTCTTCTATACTTATATTTTCTAATGTTACTTTGACTATTCCATTACTAATTATTTTTGTATTTTGTGGTTTAAAATTTTTTAATATTGATCTTTCTAAAGTGATTCTTAAAATTAACCATAAAAGTTTTTTTTCTATTTCATCATCTAACATATTTGCTATATTTATATATTTTTGTAAGTCTATTCCAAAAATTAATACTTTTCCAGAACTTTTTATTTCAATTTTGTATAGTAATTCATTTGAAATAAAGAAATCAAATAAAGTGTCTCTTATTGAATCCATTATTTGCATTGAATAATCTAATTCTTTTATAGTTTCTAAATCTTGAAATTTATTTTTTTTGAAATTTTCTTTCAGTATTATTATTTCTTTATTTTTTATGAATAATTCTAAAAAATTATAAAATTCTTCCCAAATAGATGGAATAGAGATTTTTTTCGGTCTATAATAAACTTTTGTTATTTCCATAATATCCCAAGATAAATCTATTACTTCTTCATTATTAATCCATTCATCAGCCCAAAAACTTAAAACGTTTTCATAATCAACTAAAATAGCATATCCATCTCCATTTTTTATTGAAGTTCCTTTAAATAATATTATGGATGGATATGGAAATTCTGTCATATTTTCAGAGGTTGTAAATGAAATAACTGAATTTTTAATTTTATCTATATCTTTAAATACATGAATAAAACTCATAACATCTCCTCCAAATATGGTTTATACTAAAATTATAACATATTTTTTATGTTTTTTTAATTTCTTAATAAAATATGATAAAATAAGTTTGTGGTTATTCTTTTGATTTTGAACCTATGAATTTTATTCTATATTCTTTAATAGTGATGGTAGTGATAGAGTGATGTTTATAGTTGAAAAGTGCTCTTTTTTATTTTTTCATACTATTTTTATCCGTCGATACTTTATCGACTTACAAAATTTTTTTGAACAGGTTTATGTTGATAATTTTTTTTAATACCTTTGTATATAAAGGTTTATGTTGAAAAGTTATTTTAGTTGTTATTTTATAAACATTTTCGTTTATAACTTGGTTGTTATTTTTTTATAAACATTTTCGTTTATAACTTAGTTGTTATTTTGGTTGATAAGTTATCTTTTTATTTTTATAGATGCTTTTTATAGCTTATTGTTTTTGAACTAATTTTTGTTGATAATTGAGGAGTGAGTGATTTGAAAAAGCTTTACGAGGTTTTTGTTTATGATAAACTTTTAAAAACCTCTTATAAAACTTATTTTATAGGAAAAAATGATCAAGAATTCTTTGGGTTTTTAAGTTATGATTTTAAGATTATAAACATTAAAGTTGTTAATTTAATTTTTGGTTCAAAAGTTTTATCAACATCTTCAATGAAATTTTTAACTAGTAATTTATATATACTTTTAGATTCTGGTGTATCTTTATTGGATGCCTTATCTTTTGTTATTATGAATAATGAAGTTGATAGTTTACTGCGTGGAGTATTGTTTAAAAGTTATTTGATTCTTAGAAAAGGTTCTGATTTAAAAACATCCTTTACTTTTAAAGAATATGATGATTATTTTATTTATAGTATCAGCATATGTAAGAATAAATCTTCTTTTATAAATGTTCTTAAGTCTTTATCTAATTATTATGAAAATGTTGAACTTACACGTTCAACATTGAGTAAATCTACATTATATCCTTTCATGGTTTTAACTTCTATCTTATTTTTATTAACCTTTTTAAAACTTTATTTTCTACCTAAAATTTCTTTACTTTTAAATACTACTATAACTTTTAGATTTTCAACCTTTATGTTGGTATCTTTTTTATTTCTAAATTTATCTTTTTTTATTATTTTTATTTTATCAAAAAAGAATGATATTTATGTTTCAAAAATACCTTTTTTAAAGAACTTTTATAAAAATTATTTATTTTATAAGTTTTCAAGAGATATAAATCTTTTAATACATAATGGATTATCTTTATATTATGCTTTTAATATTGTTATATCAAATATAAACTCAAATTATTTAGCATTAAAATTTACTAACATTGCTGTAATGCTTGAATCTGGATTTGATATTATAAATGCTTTTTCTGAAATAAAAGATATACCTGAATTTGCTTTAGCATTTTCTTTAACTGAAAAAACAGGTAATAGCAAAGAGTTATTTAATTATTTGGAAAAATTTTTTTATCAAAAATTTACTTTATTTGTTGATAAAGTTTATAAGTTAATAGAACCATTTTTTTTGTTAATTCTTTCAATAATAGTAGCTTCACTTACATATGAACTATATACCAATATTTTTTTAAATGGAGTTGATTTGAGTGAATTATAAATCAGGTTTTTTAAGTTTTGAAATAATTATATATCTTTTAATAGAAATAATTTTTTTTGGAGCAACGAGTTTTTTTATAAGTTCAAAGTTATATGATTATTTTGATGAACTTTCAAATAAAGCAATGATTACAGAAATGATTTTAAATTTAAGAATTACATCATTAACTAATAGTTATGATAAAAGTTCTGCATTTGTAGGTTCAGTTTATTTAAATAATGGTTTTGGTATTTTAAATTATAACTTTAAATTTAATTCAGGAATTTTAAAAAGAGTTTCATTTGTTGATGGAAAATATGCATCTTCTGGAGGTTTTTTTGAAGATGATAAAAATAAAAAATTATTGAACTTAATTCCAGTTACAGGAGCTATAACTAAAAATGACTATTAAAAAAAATAAAGTATGTATAGGAGATATTGATGGATTTATAAAACCTTTTAAAGGAGAATTTGAATTAAAAAAACAGTATTTTGATGAAATAATTAATAAAAAAATTGTTTTTTTTGAATTAGATAAAAATGAATATTTTATTTGTTCTAAAAAAGAGTATTTAAAGCATAAATTTGATTATGTTTATGATGAATTTATTCCAATACAAATCATTTTATATTTTTTAAAAAAAGAAGGAACTTTTAAAACAGAATTTGGAATATATACTGTTGTAAAAGAAGATAATAATTTTTTAGTTTTTAAAAATGATAAAAATAATATAGAGAATATACAAAATCTTTCAGTTAAAAATTTTAAAGATAATGCAAAGGATATTTTTAAAATCAAATCTTATTTAAGAAAAGGAATAAATATTTTTTTTAGTGTTTTCATAATATTTTTAATTTTTATAAATATAAAATCAGGAATAAATCTTTTTACAAAGTTTAATTATGAGCTAAAAAAAGAAAAACAAGAAACAAATGATTATAATCAATATTCTAATTTAGTTCAAAATCAAAAAAAAAGACTTAGCGAATTTTTTGATTATTTAAATAAAATAGATGCAAAATTAATAACTTTTAATTATAGTGGGATTAAGTTACAAGCAAGAGTTATTTTAAGAATGGAGTATGGAAAAAAAATAATGGGAAAATATGCAATAAAAGAAATATCAAGATTAGAATTTGATGGTTATGGATACGCAATACTTGATATTTTTGAAGGAGATTAAAATGAAAATTAAACTTTTAATTATAGTTTTTCTTTTTTTTATATATATTTTTTTAAATACATTTAATTTTAAACCAAAAGAAAAAGAATATACTATAAAAGATTTTGATTTAAAAAATGGAGTATTAAATTATCAAGAAACTAAGTTGTTATTAAGCAATATTTTAAATACTAATGTATTAATAAAAAATATAGATATTAAAAGAGAAAACTTTTCTCTTTTAAATATTGAAAAAGAATATAATATAAAAATACAAAAATTTTATCCAGGGTTTAATTATACAAAAATAAAAAATGAAAATTATACAAAATTAAATACAAAATTAAATACAAAATTTTTGAATGTAATAAAAATAAACTTTAATACAATTTGGAAATTAAAAGATACATTTAAAAGATTTGATGCATCATTTTCAGGATATATAAAAACACAAAATAAAAAAGAAGCTTATATATACTTTAATAAAGAAATAATTAAAGTATATAAAGGAGATAAATTAGGAAATAGAAAAATAATAGAAATATTTGAAGATGGAATATTATTATTAACAATAGACAATTCTTTTGAGGTGATATTGTGAAAAAATTTTTTTTAATAATTTTTATTTTTTTTGTTATTATAATGAATGCTTTTAATTTGGAGTATGAAAATAATAATAATGTAATTATTTTTGAAAAAAATACAAACTTAATAGTTAAATCATCTTTTTCAAAAACTATTCATAAGATAATTATTAATAAAAATTTTGAAGAAAAAACAATTAAAGTAAAAAGAGGGATTATTTCTGAAATAAAAACTAAAGATAATATAATTACAATAAAAACATTGATACCAACTACAATAAATATTGAAAATAACAAAGTATACTTTCCTTCTAGTAAGTTATTAAATGTAGATAAAGTCTATTTTGAAAAAATAAAATTAAAAGATTTATTTAAGATTTTTACAGATTATATGAATTGGAATTGGATAAAAACAGATATTATACCAGATAAAGATATATCAATTTCTACAAAAGAATTTAGAATAGAAGATTTTATAAGAATATTAAAAAATATTTATAGTATAAATACTATTTTTTTTAATAAAAATACAGTTATTTTAAGTAAAAAAATTTTGGATATGCAAGATACTATGCCGTTAATAATAAATTCTAAACAGTTGATAAAAAATGAGAATGAAAATAAAATAAAATATTTAATTATAGATAAAAATATAACAATTATTCCTTTAAAAAAATTATTCAATATTAAAGTTGTTGAATTAAAAAATAATTATGTTGTTAAAATAGAGTATAAAGATATTGAATCTTTTTTTTATATTTTAAATAACTTAAAAAAACATAATGAAACAAATATAAAAAATACAATTACTAATGAAAGTACAACAATTATTTTAAGTTCAAAGTATGATTTAAAAAACATTACTAATTTTTATGGATTAAATTGTGTTAAAAGCAATGATGTTTTTATAATAAACGGAAAAACAAATGATATAAATAACTTTTTAAAATTGGAAGAAAAATTAAAAAAATTAGAAAAAAGTAAAAAAACTATAAAAGAAAAAGTGAAAAACATAGAAAAAAAAGAAGAAAAAGACAAAATATTAAACAAATTGTTAATAATACCCTCTAAAATTAATAATATTTTTGATAAAATATTGTTGAAGGAAAATATAAAATTTGAAAAAATAGAAAATAATATTTATATAATTAAATATACAAAAGATAAAGAAGAAATTTTAAAACAAATTATTCAAACTTTAAAAGTTGATACTTTGAATGGAAATGTTTCACTAAAAAAATTAATAAACTACTTGGCAAAAATGGAAAAGATAAATACTATATGTGATTTTAAAGATATAGAAGTTAGTGTAAATGATTATGATCTTACTTTTAATAATATATTAAAATGTTCAATTTCTAAAGGAATATTGTATAATTATATTGATAAGAATACAATAAGATTTTTTCAAGATAAAAAATTATTAAAATATAGAATATATGTTTTAACTGGAAATAATATTAAAAGTATTAGTACAAAAGATTTATACTTAATGGCAAAAATGAATTTTTCAAATTTAAAAGATACAAAAAGTGAGTTTTTTTTAATTTCAAATCCAATAATATATGTAAATGAAAATGAAACTTCTGAAATGAATTCAGTATTATCAGTTCCAATAATGGATACAGAAAATAAAGTAATATCCAAAATTGAATCTGGATTTAAATTAAATATTATTGGAAAGTTAGATAGAATAACAAATATGATAGAAACAAAGATAAATTTGAGCATAAGTGAAATGAAAGATCAAGATAAAAATATTGTAGATGAAAGAAGTATAAAAACAATTTTAAAAACAACAAATGGTGGATTTATAAAGATTGGATCTATGTCATTTGAAAAAAGTATAAATAAAAAAATAGGAATACCATTTTTAAAAGATATACCAGCTATTGGAATTTTATTTTCTACAAATGAACTTACAAATACAAAATTTGATATGATAATATTATTAAATGTTCAAGCTATGAACAAACCGGAGGAATAAAAATGATTAGAAGAGCAAGATTTTCTGGAAGTTTTTATCCCCAAAATATTGAAAAATTAAATGAATTAATGAATTTTTATTATGATAATATAAAATTGTGCAATAAATATTCCGAACCAATAGGAATAATAGTTCCTCATGCTGGGTATATTTATTCTGGAAAAATAGCAGCTTTAGCTTATAAAAAAATTTTTAATACTTCTAATTTTAAAAGAGTGTTTTTAATAGGACCAAATCATAGTGGAATAGGAAGTAATATTTCAATATACGATGAAGGTAGTTGGGAAACTCCATATGGAAAAATAAAAGTTGATACTAAAATAGCAAAAAAAATAATAGAAACACTTAATATAAATAATGATATATCAGCACATTATTATGAACATAGTCTTGAAGTTCAATTACCATTTTTACAGTATGTATTAAAAGATAATTTTAGTATAGTACCCATAACCTTAAAAGATCAAAGTTTTTTAACTGTAAAAAATATTGCAAAAGTTTTAAAACCACTTTTGAAAAAAGGTGACTTAATAATAGCCTCTACTGATTTGAATCACTATGAAAAACAAGAAATAACTTATGAAAAAGATTTAAAAATAATTAAAGCAATTGAACAGAAAGATGTTGAGGATTTATATATACAAATTGAAACAAATGATATAACAATGTGTGGATATGGAGCTGTAGGTATTTTATTAAATTTAGAATTTAAAGATGTGAACATACTTGGACATACTACAAGTGGAGATGTTACTTATGATTATTCTAGTGTTGTAGGGTATATGTCTGCAATTTTAAAAAATAGTGTATAATATATGGAGGTGTGAGCTATGGTAGTTCAAACTGAATTTGGATCAGTTAATATTAAATCTGAAGTAATTCAAGATATAGTATATAAAGCTGTTTTAGAATCTTATGGTACTGTAGATACTGGAAAACAAGGTTTTTTTGACAAAATAGCTAATCTTTTGACAAGAGAAGAAACAAAAGGAGTTAATGTTTTAGAAGAAGAAGGAAGAATTATTGTTAATTTAGATTTGGTATTGGAATATGGTCTTCCAGTAAAAAAAGTAGCTGAAAATACACAAGAAAATGTTTATCATAGAATAGAATCCATGTTAAATTTTGACGATGTCATTGTTAATGTAAATATAGCTGGGTTAAAGTTTTAAGAAAGGGTGAGTTTGTTGAAGAGAATTCTTGAAGGTAAAGATATATATATTGGGGTAAAAAAAGCGGCTGAAGAATTAGTAAAAAATAGAGATGAAATAAATGCATTAAATGTTTTTCCAGTCCCAGATGGAGATACAGGTTCAAACATGAGTGCAGCAATGCTTGAAGCATGTGATTGGATGGATAAAGTAAAAGATCCAAACAATCCAAAAGAAGTATTAAAAATTTTAAGAGATGGACTTTTAATGGGAGCAAGAGGTAATTCTGGAGTTATACTTTCACAAATTTTTAGAGGATTTACAGAGTCTCTTGAAACTAAAAAAAGAATAACAACAAAAGATTTTATAGAAGCTTTAAAAAATGCAAAAGAAGTTGCATATCAAGCTGTTATAAAACCAGTTGAAGGAACTATGCTTACACTAATAAGAAAATTAGCAGAAAGATCAGAAAAAGAATTAGCAGATGAAAAAGATTTTTTAATTTTTACTGAAAAAATGATGAAAATAGCCTATGAAATAGTAGAAGAAACACCAAAATACTTAAAAAAATTAAGAGAAGCAAATGTAGTTGATGCAGGAGCTAAAGGTGTTTATTATATATTTAAAGGAATAACAGATGCAATACATGGAGATACAGAAGTTAATATTGAAAAATTAGAAAAAGCAGATTCTGCAGAAATTTCTAATATAGCATATGAAGAATTAAAGTATCAATACTGTACAGAATGTGTATTAAAATTAAAAAATGAAGAAATATCAAAAAAAGAATTGGAAGAATTAAGAGCATTTCTTGAAGAAATGGGAGATTCAATAGTATCAGTTCATCAAGGAGAGTTTTTAAAAACACACATACATACTAATCATCCAGGAACTGTTTTCGAAAAATTTCTTGAATATGGTGAATTTTTAAAAGTAAAAGTAGACAATATGAAAATACAACATGAACATGTTGTAGAAACTAAAAAAACAAAAAAAGAAGAAAGCTATCCAGAAAGAAATTGGGGAATTGTAGCAGTTTCACCTGGTAAAGGAATTTCAGAAATATTTAAAAGTTTAGGTGTAAGTAAAGTTATATTTGGTGGACAAACAATGAATCCAAGTGTTAAAGATATAACAGATGCTATAGAAGAAATTCCATATGAAAAAATAATATTATTGCCAAACAATCCCAATATAATAATGACTGCAGAAAAAGCAGCAGAAATGACAGAAAAAGAAATAATTGTTTTACCAACTAAATATATTCAAGAAGGAGTTTCATCATTGTTGGGATTTCAAGATGACTTAGAAAAAGAAGAATTGAAGACATCAATGGAAGAATATATGAAATCAATAGTACCAATTCAAGTTACTTATGCAGTTAGAGACTCTGAAATAAATGGAGAACCAGTAAAAAAAGGAGAATATTTAATATTTACAGGTAAAGAATTGAGTGCTCATGGAAAAAATATGTATAAAGAAACACAAAATATTTTATTAAATTTAATAGAAGAAGGTTATGAAATAATAACTATATTCTATGGAGATGAAGCAAAAGAAAAAGATGTACAAAAAATGGCAAATAAAATAATGGAAAAAAATCATGATGTTGAAATAGAAATACATCAAGGTGGACAACAACACTATCCATTATTGATTTCACTTGAATAATCGGAGGTTATTAACTTGAAAATACAAGAACTAATAATGAATTTAAATAAATTTTGGTCTGAAAAAGGTTGTGTGATAGATCAACCATATGATATGGAAATGGGAGCTGGTACATACCATTCTTCTACTTTCTTTAGAGTACTTGGTGAAGAACCATGGAAAGTTGCTTTTGTACAACCATGTAGAAGACCAACAGATGGAAGATATGGAGAAAATCCAAATAGAATGCAAAGATTTTATCAATATCAAGTAATTATAAAACCATCACCAGAAAATATACAAGAAATATATTTAGAATCACTTGAATCATTAGGAATTAATCCTAAGGAACATGATATAAGGTTTGTAGAAGATAACTGGGAATCACCTACACTTGGAGCTTGGGGTGTAGGATGGGAAGTATGGATGGACGGTATGGAAATAACTCAATTTACATACTTTCAACAAATGGGAGGAGTTTCATTAAAACCTATTCCAGTTGAAATAACTTATGGTATTGAAAGAATAGCAATGTACTTACAAAATATAGAAAATGTATATGAATCAAATTGGAATGAAGATACGAAGTATGGAAAGTTATATAAAGAAAATGAAAGACAATTTTCAACATATAACTTTGAAGTTGCAAACACAGAAATGTTGTACAAACTATATGAAATGTATAGAGAAGAATTTAATAGATTAATAGAAAAAAATCTATACTTTCCAGCATATGAATATTTAATAAAAACAGCACATACATTTAATCTTTTAGATGCAAGAAATGCAATAAGTGTAAATGAAAGACAAAAATATATATTAGATATAAGAGAAATGTCTAAAAAATGTGCTTCTTCGTATATTGGAGGAGATGAAAAATGAATAAACTATTATTTGAAATAGGTATGGAAGAACTTCCATCAAGTGAATATAAAAATATCAAAAAACAATTAAATGAAAACATAGAAAAATTCTTAAAAGAAAACAATTTAAAATATGAAAAAATTAATATATTTATATCTCCAAGAAGATTTGGATCATATATAACTGGATTATCTGATTCACAACCAGATAAAGTAGAAGAAAGAAAAGGACCTGCAAAAAGTGTAGCTTACAATGAAAATGGAGAACCAACAAAGGCACTATTAGGATTTTTAAAAGGTGCAAAAGCAACAGAAAAAGATATAATAATAAAAGAATTTAAAGGAAATGAATACGTATTTATTAAAATAGAAAGAAAAGGAAAAACAACAAAAAAACTTTTTGAAGAAAATCTTCCAAAAATAATAAAGTCTATTAAATTTAAAAAATCTATGAAATGGGGAAATGGAGATTATGAATTTGTAAGACCAGTCCATTGGATTCTTGGAATGTATAATAAGGAAATATTAGACTTTGAAATATTTGGGAAAAAAGCATCTAATATTACATATGGACATAGGTTTTTTGGAGGTAAAATAGAATTAAAAGAAATAGAAAAATACTTTGAAGAGCTAAAAAATAATTATGTAATAGCAAACTTTGAAGAAAGAGTACAAAAAATAAAAAATGATTTACAACAATTAAAAGAAAAAAATAACATAAAAATAGAACAAGACGAAGATTTAATAATTGAAATAGCTGAATTAACAGAATATCCAACAGGAGTAATAGGAACCTTTAATGAAAAATATATGAAATTACCTTATGAAATAATAGAAGTAACTGTAAAACATCATCAAAGAAGTTTTGTAGTAAAAGATGAAAATAAATATATATCATTTCAAGATGGAATAGGAAGAGAAGAAAATATAATAAAAGGATATTCAAGAGTAATAAATGCAAGACTCGATGATGCTGCATTTTATTATGAAGATGATCTTAAAGTAAGTATAGAAGATAACTTAAAATCTCTTGAAAAAATAACATATCAAAAAGGGATAGGAAATTACAAAGAAAAAGTTGAAAGAATAGAAAAGCTTTCAGAATTTATAGCAAATGAATTAAAAATAAAAGAAGTTAAAGAAATAAAAAGAGCGGCAAAACTATCTAAGATAGATATACCATCAAATGTAGTATATGAATTTCCAGAAATGCAAGGAATAATGGGAAGAATATACTTAAAAAACAAAGGTGAAACAGAAAATATTTATTTAACAGCAGAAGAACATTATCATCCAATTGAAGAAAACGATAAAGTAACAAAAAATATAGTTTCAGATATAGTATCTCTTGCAGATAGAATAGATGACATAGTTGGTTACTTTGGAATAGGAAAAATACCAAGTGGTTCAAAGGATCCATTTGCACTTAGAAGAAAATCTTTTGGAGTATTTAGAATAATAATAGAAAATGATTGGGACATAGATATAAAAAATATAGTAAAAAAAGCATCAGAAATTTTAAATCTTGAATATGATGAAAATAAATTAGAAGATTTCTTTAAATCAAGATTTGAAACAATACTTTTGAAAGAAGGGATAAAACCAGATATTTTATCAAGTGTGATAACTAATTACAATAAACCATTAAGAGCTATAATTTCTGCAAAAGCCCTTTTAAAATATTCAGATTCAAAAGAATTTAAGGAATTTATAACAGCCTTTCAAAGAGTTAATAATATATCAAAAAAACATAACTCTACAGAATATCAGGGAAGACTTTTTGTGGAAGAAGTCGAAAAAAACTTATTTGAAAAATACTTGGAAACAAAAGCTCAATTAGAAGATAAAATAAAAATTTTAGATTACGAAGGTGCAATGGAAAAATTGATTAACTTGAAGGAAGCGATTGATACCTATTTTGATAATATATTTGTTATGGATAAAGATGAAAGTATAAGATTGAATAGATTGGGATTTTTAAAAACTATATCAGAAATGTTTAAGGATATAGGTGATGTTTCAAAACTTTATCAATAAAAGGTGATTGTATGGAATTTTTAAAAAAGTTAAAAGAAGTAGATAAAAGTGTTGTTTTTTCTTCAGTAGAAGAAATAAAAGGGCTTTCATATCCTTCTATAATAGTATTCAAAGGTAGTTCTTCTGAATATGGAAAAGGAATGGCCATATTAATAGACTTTGATAGAGTATTAGAAGCATGGGCTGGAGAAAAGGTAGATAATGATAAAACTTTAAAAATAAATGAAGAAATATCAGAATACTTAGGCGTTAAATATGAAGCAGAATACTTAGATTTACCAGATAATTGGGAAGGTTTTAATGGTTATACAGAATTTTTTCTTGAAAGTGGAGAAGTAGATGTTATAAGTATGGAATTTGAAAAAATTAAAACCTTAAGAGAAGACTACATAGAATCATTTAAAAAGATAATAAAAAATGTAAAAACAATAAAAGAAGATGTAAAATTAATATCTAATAATAAAGACAGCATTTTTAAAGTACACTTTGTTTCTGCTGGAAAGATGATAATGTTTTCAATAGATTTAAGTAGTTATATAAAACTTTCAAACAAATTAAAAACAGAAAATGAAAAAAAATTTTTATGGCTTATATTAAATTTACTAATGAAAAAAAATTTATTGAGTAATGGTAAACAATTATCTTTTTCACAAGTTAGTAAAGGAATGATGGGATTATTTATAGAAGAAGTTGAAGATAAAAAATTAAAAGAAATTTTTAAAAATTTTAAAACAATAATAGACATGAAAGAAGAAGAAATACTATCTAAATTTAATGAATGTCAAGAATGTATAAAATATATAGATAAATTGACTTTATTAAATAAAAATGTATCCAATGAAAACACAAATACAGTATGGGATATGTTAGAATTAGCACTATTAGACTATTTAATAAATAAAAAAGACTCTTCAATTTCTACTATAATCAAAAATTTTGAAAAATTTAATTAAAAAAATAAAAAAAGAAAAGGGTGTTACAATGGATGTTCTCTACTTTGAGAATTTAAAAAAATGCCCAGAATTTGTTCCCGGTTATAAAAGACCGGGTACTTATTTTAGGGTAAAGATTGAAGATGTTGAAATAGAAGCAAATTATGAAAATGTTGAAGAAAATAAAGCTGTAATAATTAGAGCTGGAAAAAATATGAGACAATCACACTGGATACATATTTATGCAGTGTATAAGTACTTTGAGCAACAAAATAAGAAACTTGAAGAAATTATACTTGAGCTTGAAAACAGAAAAAAACCAATAAAAAAAATTGAGATATTAAACAAAGAAAAATGGATAAAAAAAGATATACTAAAATTAAAAACAAAAGAAAAAGAACCAGGATCACACTGCAAATTTTGTATAAAAAAAGAACAATGCCATGCTGAATTTTTTAAAAATAAAAATTATTTAGTTGTACCATCAATAAATAAAAAAATGATATCAGATTTTGAAGAAATGGAAATAGATCCAGTAGATATTATAAAATCAAATCAAATAGAAAAATTTCCACAACATAGAAAAAAATTATACAACTTAAAATCATTATTAAAAAATGAACCATTAAAGATAAAACCATTTAAATTACCAAATAGTTATATAATCTTTGATGTTGAATCATATTATAGCTTAGATTTTTTATTTGGATTTTTAAACAATGATGAATATATACCATTTGTTTTTACTAAAAAAGATAGAAAAAAGATGAAAAAAATGATAGATTATTTAACAAAGGAAAATAAACAACTCGTACATTATGATAAACACGATGTAATGGCACTTGCAAGAATATCAAAAGAAATACCAGAATACAAGAAAAAAATAGATAAATTAATAAAAAATGCAATGGATATATATGAAGTAATACTAAAAAACTACTCATTTCCAGTAACTTCATACTCTTTAAAAGATATAAGCAAATATTATAACTTCAATTGGAGAACAAAATTGAATGGATTTGCAGTAATAATAGAATACAATAGATATTTAAAAGGCGAAACAAAAATAATGCAAACAATATTAGACTATAATGAAGATGATTGTAGAGCAACAAAAGTACTATTAGAAGAAATGAAAAAGATATAAAGAAATAATGGAGGAAAAAATGGAAAACTTTAAAAGTGGATTTGTAGCCTTTGCAGGAAAACCAAATGTTGGAAAATCTACACTAATAAATGCACTAATGAAACAAAAAATAGTAATAACCTCAAACAAACCACAAACAACAAGAAATAAGATAAACTGTATACTAACAGAAAAAGACTATCAAATAGTATTTGTAGACACACCAGGAATACATAAACCACTTCATAAACTTGGAGAATACATGGTTGAAATAGCGGTAGGAGCATTGCGTGGAGTAGACCTAATACTTTTTGTAGTTGATCCAACAGATGGAATAAGAAAATCCGACATGCACGTTGCAGAAATAATATCAAAATCAAGAATACCAACAATACTAATCATAAATAAAATAGATCAAATAAAAGATGAAAAAATATTAAAAGAAACAGAAGAAAAATTTAAAGAATTGAATAAAATAAAAACAATATACACATCAGCAATAAAAGGAACAAATATAGACGAATTAGAAAAAACAATAGTTGAAAACTTATCAAAAGGACCAATGTACTATCCAGAAGACATGATATCAGATAAACCATCAAGATTTATAATATCAGAATTGATAAGAGAAAAAGTTTTTAGACTAACGGAACAAGAAATACCACACTCAACAGGAATAGTAGTAGAAGACCTTAAAACAAGAGAAAATGGAATGTTATATGTTAGAGCAACAATATATGTTGAAAGAGACTCACAAAAAGGAATAATAATAGGAAAAAGTGGTAAAATGATAAAAGAAATAGGAAAACTTGCAAGACTAGATATACAAGAAATGTTTGAAGAAAAAGTATTTCTCGACTTACACGTTAAAGTTAAGAAAAAATGGAGAGAAAGCGAATTTCTAATAAGAAATACAATGGGATTTAAAGATGAACTAAAAAAAGATAAATAACCCTACACAAAATTTGTGTAGGGTTTTATTTTATTAAAATTAAATAAAAAAAACAACCTGAAAACTCAGATTGTTTAAACTTACATAACAATTATACCATAGAAATTAAGATTTGTAAATAAATTTTTTGCAACACTTTTATTAAAAATAACCAAATTAATATAAAAACAGAATTTAGAAAAAAATATATTTAAAAAATTACATAAACGACATATTCGTTAAATAAAAATATCGTATACTTTAAATACGATAAATAAAGTTTCATATTTTAAGGAGGTTTTTAAAAATGATAAAAGTAGGAGAAAAAGCAATAGACTTTAATGTTAAAGATCATAACGGAAATGAAGTGAAGTTGTCAAATTATAAAGGAAAAAAAGTTTTATTATCATTTCACCCGTTAGCATTTACAGGAGTTTGTGAAACACAAATGAAAAACTTAGATATAAAATATAAAGAATTAGAAAAATTAAATGTGATACCATTAGGATTTAGTGTAGATTCACAATTTGCAAAAAAAGCATGGGCTGATCAAATGATGTTAAAAAATTTACAGTTAGTAACAGATTTTTGGCCACATGGAGAAGTTGCAAAAAATTATGGAATCTTTAATGAAGAATTAGGATTTTCAGAAAGAGCAAATATTTTAATAGATGAAAATGGAATAGTTGAATTTGTAAAGGTTTATCCAATAAAAGAACAACCAAACTTAAATGAAATACTTGACTACCTAAAAAAATAAAAACTCCCAAAACAAGAAGGGCAAAATTTGCTCTTCTTGTTTAATATTAATATGATATAATTATTAATATACAATATTATAAAAAGGGAGGAATATATATGAGTATTAAGAAAAAGCTTATGATAATTATGATTTTTTCAGTTATTCTTTTTGTATTAATAACTATATTTATGATTTCAGAAACAAATAGTTTGAATAAAAAATGGGATAATTATACAAATACTGTAACAAAAAGATCTGAACTCATATCTGATATAAAAGAACAATTTGGATATGGTGGAGCTATTCATTTATTCAAAAATTATATATTACGTGGAAAAGATAAATATATTCAATCATTTAAAAATAAACAAGAAAAGGTAATGGAAAGTTTTAAAGAATATAAATTATTGAAAGATATTAGTCAAGAAGAAATAAAGTATCTAGATATTATAGAAAATACATTTAAAAAATATGGTGAAAATTTAGATTATGCAGTTACATTGAAAAAGAATAATGAATCTATTGAAAAAATTGATTCTATTATAAAAATTGACGATTCTCCTGCATTAAATTCATTTAATGAATTAGAAAAAATAGTACAAACTTTAGTAAATAAACAAACAAATGAATTTGAAAATAAAATAATACAATTAAAACTTTTAATAGAAAGTGGAATAATAATAATTTCAATATTATTATTTGGAACATTTATTTATTTTTTATATACTATAAAACCATTATATACAGTTAGAAATAAATTAAAAGAACTATCACAAAATGAAGGAGACTTAATAATAAATATTGAAGTTAAATCAAAAGACGAAATAGGAGAAGTATCTTTATTTTTTAATAAATTTATAAATACATTTAGAAAATCTTTAATAAACTTTTTTAGTAAATTTAGAAATAATATACTTCAATTTAATTCAATAACAAAAGAATTAGAAATTTTTAGATACAACTTTGAAGATATGGACAAATCTTTATCAAAAAACATGAATTCTTTAAATAATGTTACGGAATATATAGAACAACAAGATGCAAGTACACAAGAAATATCTGATAATATACAAAATTTAGCAAATACAGCAGTTGAATTAAATAATGTAGCAACAGAAATAAGTGAAGTAAGTGAAAATAGTAAAGTAGATTTAAATGAAATGAATGAAATTGTAAATTCAATATCTTCAAATATGACACCAATAGTTACTAAGGTTAAATCCGTTTCAGAAAAAGCGGAAGTAATAAATGAAGTTGTTGAAACAATAGCAAGTATTTCTGAACAAACAAATTTATTAGCTTTAAATGCAGCCATAGAAGCAGCAAGAGCAGGAGAAGCAGGAAAAGGATTTGCAGTAGTAGCAGATGAGATTAGAAAATTAGCAGAGGAAAGTAGAAATGCTTCAGAAAGTATTAGGGAAAATTTAGAAGAAGTTATGACAGGGGTTAACGAAACATCTGATATGGTTGTATCTATGTCCAAAAATATAAAAGAAGTTTCAAAGGTTAATGAAAAAACAGCAAATAAATTATTTGAATTAATAGATTCAGTAGAAAAAATTTCAAACTATTCTAATAATTTAGCTGCAAGTGCTGAAGAACAAGGGGCAGCAGTTGAAGAATTATCAGCATCATCTCAAAATATAACAGAATTAGTTAACTCATTGAAGTTAGATATGAATTCTATATTTGAAAAAGAACAATATATGAATGAAAGAAATTATAGTATGGTAGAAAGAGTGAGTAATGAAAGTAATGAACTTTTAAACATAGTTAATATGTTCTCAGCATTTAAAATGTTTAATACAAATGACTTTATTGAAGAAATTGAAAAAGCAAAATTGAGTCATGAAGAATGGATTAAAAAATTTGAAGAATCAATAAAAAATAATATAAAATTAATAGAAGATAATCCTAAAAAATGTGGGTTTGGTTTATTTATTGGTGTTAATTCTAAAAATTATCCAGAAAACATAAAAGAAATATGGGAAAAAATAATAATTATTCATAAAAAATTACATGAATATGCAAAACAATTTGAATACAATAATAAATCTAATAATGATAACTTATTAATAAAAGTAAAAGAGACTTCCAAAGAGTTAGAAAGTTTATTAAATCAAATAATAGAAAAATTAAAATGAATTAAACTTTTAAATAAAGAACCTATCAAAACTTGATAGGTTCTTTATTTAATCCAAATTATTTCAATAAAAACTATATAAACAATAAAAAATTTTTTGACTATAAATATAAGGTATATGATATAATTTTTATAAATTAAAACAAGTAATTTAAGGAGGAATTATGAAATATACAACCCTGTGTTTTATAAAAAAAGAAGATAGTATACTAATGCTCAATAGAGAAAAAAAAGTATGGATGGGAATGTGGAATGTTCTTGGTGGAAAAGGTATTGAAAATGAAAAACCAGAAGAATGTGCTATAAGAGAAATTTATGAAGAATCTGGAATAAAGGTAAAAAATATATCTTATCATGGCATGGTTACTTGGGAACATAATAAAATAAAGTTTATAGATGAACCAATGTATATATTTTTTTCAGAAATTGATAAAAATTATGAATTAAAAACACCATTAAAAACACCGGAAGGTATATTAGATTGGAAAAAAATAGATTGGATCTTAAATAAAGATAATATTGGAGTAATAAAAAATATACCTATTTTTTTAAAAGATATACTATATGAAAATAAAATTTTTAAATATCATTTTATATGGAAAAATAATACATTAAAAGATTACTCTAAAAAAGCATGTGAAATGAATTAATTATAATAAAAAATTTGATTAAATTTATTATTTTTTGGTATATATTTATAATTTTATGAATTATGTTATAATAACATATAAAGAAGTAAAACGAGGTGATGAAAATGAAAAAAAGGCTTCCAATAGGAAGAAGTGACTTTAAATCATTAATAGATGACAATATGTATTTTGTAGATAAAAGCATGTTAATCAAAGAAGTTATTGAAAGTGGAGACGTTCTATTAATAACAAGACCAAGAAGGTTTGGTAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAATAACGAATACCTCTTTAAAAACTTAAAGATTTATAAAGAAAAAAATATAATAGAAAAACATTTGAATAAACATCCTGTTATATACATCACCTTTAAGGATTTAAAGTCTAATAACTTAAAAAAGATGCATGCTTTATTAACCATGGAGCTTTCAAGGTTGTATTTAAAGCATAAGTATGTTTTAGAAGTTTTAGATAATGAAGAAAAAATTATATATGATAAAATAATGGGTAGAGAAGCTTTAGATGCTGATTATGAAAATTCTATAAGAAGTTTATCTGAATATATGGAAAGATACTATGGAAAAAAGGTAATAATATTAATAGATGAATATGATACTCCAATTCAACAAGCTTACTTACATGGATACTATGATGAAATAATATCTTTAATAGGTAATTTATTTGGCATGGCATTAAAAGATAATGTATACCTTGAAAAAGCAGTTCTTACTGGTATAACAAGAGTTTCCAAAGAAAGTATCTTTACTGGTGTGAATAACTTAGAAGTTTCTACTGTATTGAATGAACTATTCAATAATAAGTATGGTTTAACTAAAGAAGAAGTAGAAAAAATACTTAAGTATTATGAACTTGAATATGAAGAAAATGAAGTTATAGATTGGTACAATGGTTATAACTTTGGCGGTGTTGAAATTTACAATCCTTTTTCTATAGTAACTCTTGCAAAGAATAAAGGGAAAATAGGTCCATACTGGATGAATACGAGTGGAAATTTCTTGGTTAAACAATTAATAAAACAAGGAAGTGCTGAATTAAAAGATAAAATTGAAAAACTAATAAATGGTGAAGAAATTGAAAGTACAATAAATGAAACTATGGTTTATGGAGACTTAAATAACAACTTAGAAGAGTCTGTATGGACATTATTTTTATTCAGCGGATATTTAAAATGGACAAAAAATATAAATCATGATTATGAAAGATATACTTTAAAGATACCAAATAAAGAAGTAAAAATATTTTATAATAAAACTGTAGTATCTATGCTTGAAGAAGAAAGAATAAAGTTTGATAATATGTTATTAAATCTAAAAGTAGGAAGAATAAAAACCTTTACAGATCAATTTAAAGATTTAACGATGAACACATTGAGTTATTTTGATGTTAGCGGAAAGGAACCAGAAAGATTTTATCATGGACTAATACTTGGAATGAGTGTTGGTTTAAAAGAAAAGTACATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCAGATGTTATTTTAATTCCAAAAGATAAAACAGATAAGGGAATAATTATTGAGTTTAAAAAGTACAATAGAGATGAAGATAAAAGTTTAAAAGACAGTGCAAAAAATGGACTAAATCAAATAAATGAAAAAAGGTATGAAGAAGAGATAAAAAGTTATGGAATAAATGATATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAAGTTGAAATTGTTAGTAATTTAGATAAAGATGTTGAATTAACTCCTGAAGAAAAAATAGCAAAAGAACTATTAAAAAATGGTGTTGATATAGAAATTATTTCTAAAACAACAAAATTATCTGTTGAAAAAATAAAAAAATTATAAATTAAATATTAATAATAAAAAAAGAAAACTTTACTAAGATAGTTTGTAAAAAAATATAAAATAAATGCTTGATTTCTAAATCTTAAAGAAATCAAGCATTTTAATTTAAAAAAAATCCTCAAGAGTGGAAAAACGTCCCACTCGGTACTAGTAAATGGTAGGATAAGAACAAAAGATAAAGATATAGTTATAGGCTCAATGGACTTTTAGTTTCAATTCCTCAAGAGCGTAAAACCATCCCGCTCGGTACTAGTATATGGTAGAATAATAACAAGAAAATATGCAACAAAAATACCTATGTCATCAAAGTTTCAATTCCTCGTAGGTAGAATAATAACTTTCATAACCATGAAGTATAAAGTTAGATGCTCCGCGTTTCAATTCCTCATGAGCAGAAAACCATCCTGCTCGGTACCATGTATTTTGCAAGTGAAGAATAAGCCAGGAATACAATTGAAAAATGGGCCAGGAAGGAAAAAATATGATAAACTCTTCTCAGAGAACAAGAGAGGAGTTGAAGGAAGGATGATAAGATTGGGCCAAAAAAGAGAAATAATAATATTATATTTTAGAGAAAACAAATCAGAGATAAGCAGAAAAACAGGAATTAACAGAAAAACAGTAAATAAATATATAAATGAATATGAAGATGCATTAAAAGAATTTGAAAAGGTAGAAAGTAAAAAGAGTAAAGAAGAAATAATAGAAATTATAACAGGTAAACCAAAATATAAAGTTTCAAATAGAAAACCCAGAAAAGTCACAGAAGAATTAAGAATTAAAATAGAAGAGTTAGTTAAAGCAAATGAATTAAAAAGGCAAAAAGGGTTGAGAAAACAAACTATGCCAGTTACTCAAATGTATGAAATTATTCGAGATGAAGGGTATGAGATTAGTATAGGAACAATATATAATATTGTAAAGAAATTTAATACAAAAAGAACTAAAGAGGCTTATATAAAACAAAGATATAATCCTGGAGAAATTGTTGAATTCGATTGGGGAGAAGTTAAGTTAGAAATAAATGGAATCAATAAAAAGTTTCAAATGGCAGTATTTACTTTTGCATATAGTAATTATAGATATGCGTTATTGTATGAAAAACAAAATATGGAGAGTTTTATAGATTCACACGTAAGGTTTTTTGAACATATTGGTGGTATTAATAAAACTATTGTATATGACAATATGAAAGTTGCAATAAGAAAATTTGTAGGGCATAACGATAGAGAGTTGACAGATGATTTAACTAAATTATCATTATATTATAAATTCGATATAAGGTTTTGTAATGTGAGAAAACCAAATGAAAAAGGTCATGTAGAAAAGAGTGTCAATGTATTGAAACAAAGAGCATTTTCAATAAAAGATAAATTTAAAAATATAGATGATGCAAATGAATTTTTGAGTTCAAGAGTCAAATATTTAAATGAAAATATGAAAAACACATCAAACATTAGCCCTTTAAAGTTGTTAAAAGAAGAAAAAGAATATTTAATATGCAAACCACCAAAATATGAATATTCAATAATAAAAGAAGTTTATGTAGATAAATATTCAACTATAACTTTAAATAACTGTCATTACTCGGTACCAGTAGAATATACTAATAAATGGTTAAAGGTTAAGTTATATCCAGAAAAGATAATAATATATGATGAAAAACCTATTGCTACTCATAAAAGGTTATATGGTAATAATATGTGGAAAATAGAAATAAATCATTATTTATCATTATTAAAAAGAAAACCTGGTGCATTGCATAGTAGTTTAGCTCTGCATCAGGTCCCACAAAAAATAAAAAAAATCTACAATAACTATTTTACCACAAAACCAAAAGAATTCATAAACTTATTAGAGTATATGTATAAAAATAATTTAAGAATAAATGATATTGAAGAAACAATTGAAAAGTTAGAACGTATAAGTCCAAAAGATATAAGCGCTACAAAAATAAAGATACTCTATGAAAATAAAATTAATAATAATCAAAAAAATAAATATCAAGGAACAATAGAAGAATATTCAAGAAAACAATTGTTGCATTTAAAAGAGCTGATCAAATCATGAAAAATAACAAAAATAAAATATATGAAGAAATAGAGTTTTATTCAAAAGAATTAAAGTTATCAAAATTAAAAATACATTTTAAAGAATATATAAAAGATGCAAATAATACAGAGATAAGTTATGAATTATTTTTGTATGAGATATTAAAAAAAGAATATGAAAGATTATTAGATTCAAGATTAAAAAGCAGGATAAGAACAGCAAATTTCTCACAAAAAAAATATATAGAAGATTTAGAAAAAGAATATTTACCAGAAGATGCAAGAAAAAAATTAAAAGTATTATCTACATTAGAATTTATACAAACAAATCAGAATGTAATATTATCTGGTAATCCTGGAACAGGGAAAACTCATATAGCAATAGGACTTGGTATGAAAGCTTGTATGAAAGGATTTAAAGTATTATTTACGACAATTCCATTATTAATAACTCAATTAAAAGAATCTAGATCAAATAAAACTTTGAGAGCTTTTCAAAGTAAATTTGGAAAATATGACCTTGTAATATGTGATGAATTAGGATACATATCTTTTGATAAAGAAGGTGCTGAATTATTATTTTCTTTATTATCTCTAAGAGCATCAAGAAAATCTACTGTAATAACAACTAATTTATCCTTTGGTGGGAAGAAATATTTAATGATCCTGTATTATCTGCAGCTATGATTGATAGATTAACTCATAGAGCTTATATGGTCAATATGAACATAGTTATAGATTAAAAGAAACAGAAGAATTTATAAAATCTTTGGATTGATTGGAGGGATGCTTATAGAAAGATTGGTGAGATTATAATATTAACAAACTCTTAATGTTTCCTGAAACGTGGTTTTATTCAGCGTTTTATTTTTTTGGCCCATTTTTCAATGAGACCATAAAAAATTTTGTGTAAATAAAAAAATGAAAAACCTTCTTCTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTTTTAAAATGGAAAGAAGGAAAAAAGAAGAAAAAGAAGAAAGCAACATTGAAAAATTAGCAAGATTAATAGCAAGGGATCCAGAGGTAAACACAATAAAAGATGTATATGAAAAGATAAAAGAATTAGTGGGACCGTTAATACAAGGGATGTTAGAAGCAGAATTAGAAGATGAATTAGGTTATGGGAAATACGATAAAGAAAACAAGAAAACAGATAATTCTAGAAATGGGTACAGTTCAAAAAGAGTAAGAACAAGTGTTGGAGAAATGGAATTAAAAATACCTAGAGATAGAAAAGGTGAATATGAGCCTAAAATAGTACCAAAGTATAAAAAAGATATCTCAGATATTGAAGGTAGAATAATAGGTATGTACGGTTTAGGATTAAGCACAAAAGATATAGTAAAGAACGTAGAGGACATATATGGTGTAGAATTATCAGCGGAAATGATAAGTAAAATAACTAATAAAATATTACCTGAAATTAGAGAATGGCAAAGCAGACCTTTAGAAGAAATATATACTTTTATGTTTATGGATGGAATAGTGTTTAAAGTAAAAGATGATGGAGAAATAATAAAAAAGACTGCATATGTTGTACTTGGTGTAAATATAGATGGATTTAAAGAAGTACTTGGTATATATATAGGTGAAATAGAATCATCAAAATTTTGGTTAAGAGTATTAAATGATTTAAAAAATAGAGGAATAAAAGATATATTAATAGCTTCTGTAGATGGATTAACAGGTTTCCCACAAGCAATAAAAACTGCTTTCCCAGATACTATAGTACAAAGATGTATAATACATCAAATAAGAAATACATTAAAATATGTTAGTTACAAAGATAGAAAAGAACTTGTTAATGATTTAAAAAAAGTATATAAAGCACCAAATAAAGATATTGCCTATTCAAACTTACAAGATTTGAAAGAAAACAAATGGACTAAATACAAATTAGCATTAGAAAGTTGGGAAAAACATTGGGAAACAATATCTCCTTATTTCGATTATGGCGATGATGTAAGAAAAATAATGTACACAACAAATGTAATAGAATCATTAAATAGGCAATATAGAAAAGCAACAAAAAATAAAACATCATTTCCAAATGACGATGCATTATTGAAAATGCTTTATTTAGCAACAATAAATGCAACAAAAAGATGGACAGCTCGTTATAGAAATTGGAGCAATGTCCTAAACGAATTATCCATCTTTTTTAATGAAAGAATTACAAAATATATCTATAATTCCTAACATAAATATACTTTGTAACATAACAAAAAATACCTATAACACACAAAAATGAATATTAAATATTATAATGCTATACCTTGCAATAAAAAGTTGCAAAAGGCTATTTATTACAAAAAATTAGAGAGTGTAAAATATTAAGTGTATAAGGAAAAAAAGATACAGATCTGGTGGTAAAATAAAACCAGAGGAGGTACGAAAAATGGGAAATGTACTACAGGAAATAATAAAGGAAATGGTAAGAAAAGGAGAAATCCGAACAATAAAGGATATAAAGGAATTAACAAAATCACTGACAGGAAATCTGATCCAGGAAGTACTGGAAGCGGAACTCGAAGACGAGCTGGGCTATGGAAAGTATGACAGAGAAAAGAAAAATACAGAAAATTCAAGAAATGGCTACAGGAAGAAGAATTTAAAGAGTAGTAGCGGTATGATAGAATTAATGGTACCTCGAGACAGAAAGGGAGAATATGAACCCAAAATAGTTCCAAAGTATTCGAATGATATTTCAGAGATAGAGGAAAAAATAATAAGTTTGTACGCAAGAGGAATGACCACCAGGGATATATCTGATCAGATAATGGATTTGTACGGATTTGAAGTATCAGCTGAACTGGTGAGCAAAATAACAAATAAGCTTATGCCATTAATAAAAGACTGGCAAGAAAGGCCATTACACGAAATATACACCTTCGTTTTCTTGGATGCAATATACTTCAACGTTAGAGAGGACGGAAGGATAGTAAAGAAGGCTGCTTATGTAATAATAGGTGTTGACATAGATGGAATTAAAGATGTGCTCGGGATATATGTTGGTGAAGTAGAAAGTGCCAAGTTTTGGATGGGAGTACTTAACAACCTCAAAAACAGAGGAGTTAAGGACATACTTGTAGCTTCAATAGATGGTCTTTCTGGATTCGAGCAGGCTATAAATGCAACCTTCCCGCAAACTATGATACAAAGGTGCATAATCCACCAGATTAGAAACACCCTGAAATATGTTCCTCACAAGGACAGGAAAGAGTTCGCAAAGGACTTAAAGACAATCTATACAGCACTGGATGAAAAGACAGGCTATGATAATCTAACCAATGTAATAAACAAATGGGGAGACAAGTATTACGCTTCATTGAGGAGCTGGGAGAAAAATTGGCACCTATTATCCACCTTCTTTCAGTTCTCAGACGGGGTAAGGAAGATTATGTACACCACGAACATCATAGAGTCACTTAACAGGCAATTCAGGAAGGCTACCAAGACCAAATCAATATTCCCTAATGACGATGCTGTCCTTAAAAGTTTATACCTTACTACCAAAAACGTGACAAAAAAATGGACAGCACGGTTTCACAACTGGAACGCTGTTATTTCCGAACTGGCCATCCTTTTCGAGGAACGTCTTAAAGACTACCTCTGAAAGTAGCTTGTAATCCTAAAAAACTTAATATTTTACACTCTCGGGAGATGGGTTGTCGCCCTTTCAGTCATTGCAGTTTTTTACTGTAAAAGGTTGGTTTTACCAATTTTGCCTTATTTAATTCATACTATTCAGGAACATTTTTTTCATTTTCTAATAACTACATTTTTTTAAGATTTTTGTCGTTGTTTTCCAATATTTATATGCTACCAGATATATCTAATACACACTAATCTTTACAGACTCAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCATATTTCTTTATAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAGAGCCGTTTACACAAAATTTTTTATGCTACCTTTTCAATTGTAATTTGGCTTATTCTTCACTTGCAAAATACAAAATTTAGATGTTTTTTTTATTTCACCTATAATAAGTTTATCTTTTGATTTGTATACTAAATCAAATTTAACTCTTCCAAAAGATATTTCTTTTTTCTTCTTTTGATAAACTTGTTCATGTAAAAATCTTCCATAATCTATATTCTCATCATATTGATCCGGAATTATATTTCTTGACATAAACCAAACTTCTCTTTTACATATTTTATAATACCAAATTAAAGTTCCTGTTTGTTTCATATATATCCCTTCTTTATATAATAAATTCATTAGATTTATTAATAAATCCTATATTTTTATCATAGTAAAGATCTATCATTTCTTTTGTTAAAATTTTTATATTTCCATATTCTTCAAAATTTTTTATTGAGTTAAAATTTTCTTTAGTAATTATTAATGAGATTGTATAATCATAAAACTCTTTTTTTATTTTTAAAAATGATTCTTTTCTTTTATAAAAATCATTTATAGATAAAATATTTTTAAAAACTTTTAGTATTTTTGATGCTTTTTCATCTTTTTCAATAAAAATAGATACACTTAAAGTATTTTCTATTAAGTTAAAATTTTTATATATTTTATCGTAATTTAACTTTTTTATATTTTCTAAAATTTTTTTTGACATATCTGTTGACATATTATTGTGTATTTTTTTATAATAAATTTCTAAATATTCTAACAAATCTTTTTCATATATGATTTCAATATCTCTTAATACTTCTTTTGTTGGAATTAATACTACTTTTTTATATATGTATTCAAAATCTTCTTTTTTACTACTTTTATTTCTTTTTAAAGAAAATAATTTTAAAAGTCCCATTTGATTTTTATTGTTCCTATTGCATCTACCTGCTGTTTGTATTATATTATCAAGTGGTGCTAAATCTCTGTAAATAACATCCAAATCTATATCTACACCAGCTTCAATTAATTGAGTAGATACTACTATTTTTCTTTTTTTGGAAGTTTTTATATAATTTATTCTTTCTAATCTTTCAATTGGAGTTATATTAGTAGAAAGATATGTTATTTTTTCATTTATGTTTTCCTTTAATAGCTTAAAAAATTCAGTACTACTCTTTATAGTATTAAAAACAAATAAAAAATCTTTCTGTGGATTTTCCTTTAAATCTTTTAATGCTATTTCAGAAATATCCTCTAAATAAATTGTATTTAAATTATTTATCTTTGATATTTTATATCTTGAAAATTTTGAAAAATATTTTTTCTTATCATTTATAAGAGGAAAAATATTTATTTTATCTTCTTTAAATATAAAAGGCATTGTTGCCGTCATTATTATTATTTTTATATTAAATATTTTCGTTATTTTTTCAAATATATCCTTTATCAAATTCCAATAAATATAGGGTAATGTTTGAATTTCATCTAAAATTATTATACTATTTGAAATATTATGAAACTTTCTTAATGTCAAATTTTGATTAGTTATTATTGAATTAAATAATTGCCAAAATGTTGTTATTATAAGTGGTTTATCCCAATTTTCTATTAAAAATTGAGCTTTTTCACCTTTATAAAAATCATCATTATTTTTATATTCTATTTCAGACAAATGATGATGTACTGTAAGATAATTTTCTGGAACTAATTCATTAATTTTAAGCATTTCAACTGCAATTTTTGCAGTTTGATCTACTATTGATGTATAAGGTAATGCATATATTATTTTATTGTACTGTGAATTTAAAGAATTAAAAGCTAAATTAAATGCATTCAAAGTTTTTCCTATTCCTGTTGGAAGATTTAAAGAAAATATTTTTGCATCATTTAAATTAGTAAAAGATTCTAAATAAGCACTTTCTCTCAATTCATTTAATTCATTTGATACTACATTTTTAAATTTAATAGCTTTATATTTATTAACAAAATTTTTGACATCTGAAAAATAAATATTTTTTATTTTTTTATGAAAAATAACTTCTGTTTTATCTGAATAAGTTAATATTGAAAAAAAGAAATTTAAAATAAAATAATATTCATCTTTAAAAGACTGTTCATCTAAATCATATAAAAAATCAATATAGTCTTTTATTTCAAAGTATTTAATTTCGTTTTTTATATTTAAATCTTTAAAATTTAAATTATCCCATATTTTTTTTAAATGTTCATCTTCAATAAATATTGCACTATCAAAATCTTCCAAATTTCCATGATGCTTTTTTATTGATTCGAATACAATTAAAGATAATATCTTTGAATTTGTATCTTTATATGTTTTTAACCCTGCATACAAAGCAGATATTAATGAATGTTTTCTTAAATCTTTTGAAACACTTATTTCTTCATTTTCTATCGATTCTTTTAAATATTGCTGAAAAAAAGCTGTTGATTTTCCTAAATCATGAAAAAATAACATATTTTTTAAAGCAACTTCAATATGCTTTTTTTCAAAAGGAAATAACAGCTTTTTTTTATTTTTATAAACATCAACACCTATATTTAAAACACCTTTTAAATGATCTATCAATTTAATATTTTCATGAGAGTAAAGCATCAAAACAACACTACTTTTTCATTTATTTCTGGTATATCAATATACTCTTTTATTTCTAGATTTATTGATTTTCCAGTTCTTTCAATTAAAAAATCTCTTGATTCAACTAAAACTCTATTAATATTAAATTCAGTTGGAAGATGTATTTTTAAATATTTTTTTTGTGTATCAAAAAAATTTATTTTTTCTACAAAGTCAATAGGAATTATTGAAGTTAATTCTTTTCCTTTGTTTTTTACAACATAATCAAATTCACCAACATATTTAAAATTTGCTAAACACTCTGAAATACCCATTGATACAGTATAAATTGATTTATGTTGTTTTATATTTTGTATCAATTGTTCAAACAAACTATTATTTTTCATTGATACAAAAACTCTATACTTTGGATTTTTTAAAAATTCAAATCTTATTTGTGTTCTTGGTGCTTTTTTCCTTGAATTCATTCTTGCAAATAATGGAACATATCTTGTATTTATCAAATTTTCTGGTATTAAAATTTTTTGTATAGAGTTTTTTATAGAAATTCCAATTTTAGTTTGTTTATCTTTATAATATTTTAAATATTCATTTTTATCTAATCCTAAAATAGCAGATAAAATACCATAAACTGTTGTTTTTGGTGGAACTGGAAACGTCAAAGGCGATGTTGTTGTATATGGAACTTTGAAGTGACCAAAGTCACTCCAAAGGTCAAAAACTAATATCTTATCCATAATTTATATCTCCAATTTTTCCCAAGTTGATGGTATTTCTCCAATTATATTTAAAAACTTGTCTACTTTATATGATATTTTATCAATTTTTTCTTCTTCTTCTTCAAATACTTCTAATAATTTTGAAATATCTAATGTAAAATCTTCTAATTTTCTTATTTTATTTTCAAGTTTTTCAGTTTTTATTTTTATATATTTATCTAAATCTCCTATAAAATAACCTTTTTCTTTATAATCAACTTTTATTAATAACCTTGGCATTTGCCCAAACTTTGAACGGCTAATTAAATTTTTTGTTCCATTCCACATTCCATCTAACAATAAATCAACATCTTCTTCAGATAAACTTGTGTGTTTTGCTGCTGTTTCATTTATAATTCCATGGAAAGCAATAAATGAATATGGCAATATATATTCTTCTCTAAAAGTATTTTGTTTTGTACCTTGTTTTGAAGCAAATGCTCCAGTTCCTTTTATATGCTGGAGTTCAACTTGATGCAATGAACGCCCTACCTTAAATTGAATAGGTCCAGTATAAGTTATTGAATCTTTTGAAAGTGGTATTACTCCACCAAACAATCTAACATCTATACATTTATTCAAAATATCATTAGCATTATTTTCAAAGTTTCCTGCTCTTTTTTTACCATCTTGAATATACATATTTTTATCATCATATATAATTTCTCTAACAAAAATATCTTTGTTATTTTCTCCATTATAACCTTTATATTCATATAAATAATCTCTTATAGTTCTTTTTAACCTAACATCAGTTACAAAGTTTATACTAGTTTCTTCATCTATTCTTGGTTTATTGTTATCTAAAGGATCACCATTTGGATTTGCATCTGTAATATCATAACAAAATAATAATTCACTTCTTTTTTCAATGTACATATTAATCCCCCTCATTCTTAAAGTTTTTTGCAAGTGTCATTCCAAGAACAAAATAAAAACTCATTTCATCAACTGTATATTTACTAAAATTACTATTTAACATATATTTTGATATTTCCGTTTCTAAACTTCTGTAATAATTTTCATCATATTCTTCCAATTTGTTTATTATTTCTGGTAAAAGTCTTTTAGCTATTTTTTCATTTATTTTTAAACCATTTAACCGTGCCATAAATGGTTTTGATTTTCTATTTTTATACTGAATATTTAATAAAAATTCAGTTAATACTCCTTCTAAAAATAAAGCTTTTTTTGTTTCTGTATCTAATATTTTTGCTTGTTCAAAAAACTCTTCATACACAGTTTCTACCCCCTTAACAAAATTAAATTTTTTATCTAACAGGTTTAATTCATTCAAGTATAAAACTATTTTAAAAGCTTTTAAAACATTTAAATCATAAAAACCATTATTTAAAAATTCACTTCTAATTTTTTTCATAAAATTGTTCAACAAAAAATTATAAGAAATATTTTTATCTATAAAAATATTATTTAAAATATCTAAAAAATATTTATTAAATTTTCCATCTATTTTGTTATTTAGAAAAAATTCTCGTATAAAATAAAAAGAAAAATTAAAATTTACTTCATCACCTTTTTTTAAAATTATAGGTTTAAAAAAACTCTCTTTTCCAATTAGATCAACTGTTTTTTGTGCAGTAACTAATTTATTCAATCGTGAAGGTGGTATCTCTGAAAGTTCTAACAATATATTAAATGCATTGTTAGTTTTTTCAAAAAAAATAAAATTAAAAAGAATACTGTTATTTTCTTTTGAGAGAATTTCTAAAATTTTTTCTTCTGTTTGAGTAATTTTTCTTCCAGAAATTTTTTTAGAAGAAAATTCAGAATATCTACTTTTTATTCTATTAATCAAATTTTTTAAAAGAACATCATTTTCTACAATTAATTGTGGAATTAATAAATAATTAAAGCCACAAAATTTATACTTTAAATTATTCATTAGAAATTTTTTACCTCTTTCAAGAGTTACAGCACAATCTAAACAAACAGGATAATTTTTCCAAGCATTTTCTTTTTTAAAACCTCCAGTTACCATTCCTCGTTTATCAACAGTATAAAATTGAAATGTTGACACAAAGCCATAAACTTCATCTTTTTCTTTTTTACATATATAACAATATTTATCCTTTGATTTACTTACTTTTCCACCTTTAATATAAAAATTTTTATAAGCATCTTCTTTACTTTTTAAAAATAAGTTTTTAAATTCATCAAGTTCTCCAACATAATAAAATTTATTATCTTTTTTAAATACAAAAGTTACTATACCTCCACCCTCAATATTTCCATTATTATTTAAAAAATTATTATTTTTTAAATAATCAAAAAACTCTTCTTTTATTTTTTCTTCTGACTTATTAAAAGACATTTCAAGATTTTGAAAAAATAAAAGTTCATCACTACTAAAATTTTTTTCATTATTTTTTATTATATTTTTAAAAATTTGACTTATTTTATTTGAAAAAACTTTTTCAAAAGTTGTAATTTTTGAAGTTGGCGTTTTATCTGGACCATTTGAAAAACCTTTTTTATAAAAATACTTCAATTTTTTATCTGAATCAAACTCTTCATAATCTATATTTAAATATTTAAATTCATCTATATCAAAAATAATTTTAAAAACATGTTTATAATTTGTACCTATATCCTCTATAAAATCATTTAAAAAATTATCATCTTCAGGTATAATTTTTCCTATTTCATAAAGAGCTTCTAACATACAAAATCCTCCTTAAATTTTTTCAATAAACCCATACCCCATAGAATTTTTCGAACCTAAACCTGTATTTAAAGCAACATTTAAAAGTTTTGGATTTCCAGTTAATTCATATTCTCCCATCCATCCTTTTATTATAAATCCCTTATAATTAGTAACTACTTCTTTCAAATTTTTAACATGTCTTATATTTAATCTTTTATCATTTATTTCTTCGTTATAATAAGAACTATACTTTTTTATTATATTTTTTTTCAAAATCTTATAAAACTTTTCTTCATATGGAGTATAATAATAAGTTTTATTTTTATTATTATCTTTAAAAGTACTATAAACTACTACTGGAGACAAAGATTTAACTCTTAAATACTCTGTATTAAATTCATTTTTTTCTCCAGATATTTCTTCGATAACAACCTTTTGATTATTTATATATAATTCATTATTAAACAATAAAGTTTTAGATATATATTTCATAAATTCAGTGTTTATAGATGTAATAGAAAAAATAGCAAAATCATAAAACTTAATTTTTTTAACCTCTTTATTATATTTAAAATTTCCATTTAATCTTGAAAAAGAATATAATTTATAATTTCGATTTTTATATTTAAAACCAACATCATGAATAAATTTTTGATAAGTTTCATCATTTATTAATTTTAAAACAATTGCTTGAAGTATATGATTGTAATTAATAGGTATTTCTAATGTATCAAAAGAAAATTTTATATTTAATCTCAATTTACTTCCTCCTTGTTTTTCTCTAACATTAATTTTAACTCAAAGTAACTTTAAAAGTCAAGTGCATATTTAAATTTATATTTATACATAAAAATTTAATATTTTTATATCAAAAAAACATTATTACTTTACATTTAATAAATCAAATGATAAATTAATACTTAAAAAATAAGAAGAAGATATAAAATAAAAAATTGAAATTATCGTCAACCACCAATGTGTCTATAAACACCTGGGGTCGACGATTTCATAAACAGGCATAAATAAAAGAAAGTTACTGTTTTTTAATGTTTTAGATATAATTTGACAACATATATCTTTTGTAGTATAATTTTATTGCCTATTAATTGAAATTATTTTATAATAATAGTTTTATGCAACACCTATATGAAAAAATATTTTTATTAATGGGTTCTTATTCTACCTATGAGGAATTGAAACGTGAAAGAAAAACATATAACAGAAGAGAAATACCAAGTTCGTTCTTATTCTACCTATGAGGAATTGAAACTCAACAAATTTATAGGAAGTGATTTAATAGTTAGAAGTTCTTATTCTACCTATGAGGAATTGAAACCTAATAAATTGTATTTTATCATTTACATTCAGTTCTTTGTTCTTATTCTACCTATGAGGAATTGAAACTACTTAAGACAATAAATTATACTTAAAATTAAATAGTTCTTATTCTACCTATGAGGAATTGAAACCTGGTGTTTCAATGAAAAGTGGATCTTCTTCTAATTCGGTTCTTATTCTACCTATGAGGAATTGAAACGATGAAACAGAATTTAAAAATTTATTAGATGTAGTGGGTTCTTATTCTACCTATGAGGAATTGAAACCGTCATCGCTTTCTAAAAATGTTTTCATTACTGATAGTTCTTATTCTACCTATGAGGAATTGAAACAGTATAAAATGGCTCTATGGGCTTAATTTAAGCTTAAGTTCTTATTCTACCTATGAGGAATTGAAACAATGGGATGGAAAAGGTAACTGTTATCTCTATGACTAGTTCTTATTCTACCTATGAGGAATTGAAACGGAGAAAAGTTGATTTCTTTACTTATAGTGATATTATAGTTCTTATTCTACCATTTACTTGTACCGAGCGAAATGGTTTTTCGCTCATAAGGAATTGAAACCTTCATCTATAACTTGTTCGTCTTCTAATAAAAATTTTCGTTCATATTCTACCATTTACTTGTACCGAGCGAAATGGTTTTTCGCTCATAAGGAATTGAAACTAATCATTTAATACAAAACGAAAAGAATGAAAACGTGTTCTTATTCTACCTATGAGGAATTGAAACGATACAAATATATTAAAAGATTTCTTTATAGATTTGTGTTCTTATTCTACCTATGAGGAATTGAAACTTAAATAATATACATGATTCATTAAATAAATCATTCTGGTTCTTATTCTACCTATGAGGAATTGAAACTACTAAAGACCAAATTAAAAAGGTTTTGCCTACAGCGTTCTTATTCTACCTATGAGGAATTGAAACCTATTATAAATACTTGATAATTCCCTCAAAGTATTTATGTTCTTATTCTACCATTTACTTGTACCGAGCGAAATGGTTTTTCGCTCATAAGGAATTGAAACCTTCATCTATAACTTGTTCGTCTTCTAATAAAAATTTTCGTTCATATTCTACCATTTACTTGTACCGAGCGAAATGGTTTTTCGCTCATAAGGAATTGAAACGGATGATCCATATTGGTACGAAAAATAGATTTCCAAGTTCATATTCTACCATTTACTTGTACCGAGCGGGATGGTTTTTCGCTCATAAGGAATTGAAACCTTCATCTATAACTTGTTCGTCTTCTAATAAAAATTTTCGTTCATATTCTACCATTTACTTAGTACCGAGCGGGATGCTTTTCCGCTCTTGAGGAATTGAAACTCTTCTAATTCATCTTGAATATTGAATTGATATAAAGGTTCATATTCTACCATTTACTTGTACCGAGCGAAATGGTTTTTCGCTCATGAGGAATTGAAACTTTTCAATTGATAAATTTTCATTATCTAAATCAATAGTTCATATTCTACTATATACTAGTACCGAGCGGGATGCTTTTCCGCTCTTGAGGAATTGAAACTCTTCTAATTCATCTTGAATATTGAATTGATATAAAGGTTCATATTCTACCATATACTAGTACCGAGCGGGACGGTTTTCCGCTCACGAGGAATTGAAACATAAAATAAAATCATAAAGTTGATTAGGGAGGTTATAAAATGAGTATTAATTATACTGATAAAGAACAACAAATTATTAATACCTTAATGTCATTTACTTTTTTATGGGAACTTCATAATTTAAAGTTTTTAGAATCTAAATGTTATGCTGATTTAAAATTTAAAGATCGTTTTGTTCATGAACAGATAAAATCAATTGGAATTATGAATAATGGAATGATTCCAGTTATTTTATATATGATGTTAATAATTCCAAAAGAATTATTTGATAATACAAAATATTCAGAAAATTTTAAAGAAATAAATAAACAAATATCTAATTTAAAAAATATAGAAATAATAAAATCTACATATAAAAGTGATGAAAAAAACATTAATTACATAAGACATTTTAGAAATGCAGTTGCACATATGAATATAAAATGTGAAAAAACAGTTGTTGTATTTGAGGATAAAAATAAAAAAGAAAATTTTAAAATAGAGGTTAGTTATAAAGCACTTGGTGAAATAGTTGGTTTTTTTTATAAATTCTATGCTGAACTTATTGAAGAATATAAGGAAAAATATAAAAATAAACAGTAAAATGCAAAAACCAATCAATATATAAAAATAGTATAAAATAAAATTTTTGATAAAAAATACTGTATAAATTAATAACAAATTTATATGATTTATTTTATTAGAGTTATTTTTTCTTTTATTTTATCCATTTTTCAAATTAAATTATGTTATAATTTATTTATGAAGAAGTATATGGGGTGATTAAAATGAAAAAAAGACTTCCAATAGGAAGAAGTGACTTCAAATCGTTAATTGAAGATAATATGTACTTTGTAGATAAAAGTATGTTAATCAAAGAAGTTATTGAAAGTGGTGATGTTTTATTAATAACAAGGCCAAGAAGGTTTGGGAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAATAACGAACACCTCTTTAAAAATTTAAAGATATACAAAGAAAAAAATATAATAGAAAAACATTTAAATAAACATCCAGTTATATACATCACCTTTAAAGATTTAAAGTCTAATAACTTAAAAAAGATGCATGCTTTATTAACAATGGAACTTTCAAGATTATATACAAAACATGAATATGTTTTTGAAATATTGAGTGAAAAGGAAAAGATTGTATTTAAAGAAATAATGTTAGAAACAGCAGATGATGCTAAATATGAAAACTGTATAAGAAGTTTATCTGAATATATGGAAAGATACTATGGTAAAAAGGTAATAATATTAATAGATGAATACGACACTCCCATTCAACAAGCTTACTTATACGGATACTATGATGAAATAATATCTTTAATTGGTAACTTATTTGGCATGGCTTTAAAAGACAATGTATACCTTGAAAAAGCAGTTCTTACTGGTATAACAAGAGTTTCTAAAGAAAGCATCTTTACTGGTGTGAATAACTTAGAAGTTTCTACTGTATTAAATGAACTATTCAATGATAAGTATGGTTTAACTAAAGAAGAAGTTGAAGAAACATTGAAGTATTATGAACTTGAATATGAAGAAAGTGAAGTTATAGATTGGTACAATGGTTATAATTTTGGTGGTGTTGAAATTTACAATCCTTTTTCTATAGTAACTCTTGCAAAGAATAAAGGTAAAATAAGACCATATTGGATGAATACGAGTGGAAACTACTTAGTTAAACAATTAATAAAACAAGGAAGTGCTGAATTAAAAGATAAAATAGAAAAACTAATAAATGGTGAAGAAATTGAAAGTACAATAAATGAAACTATGGTTTATGGAGACTTAAATAACAACTTAGAAGAGTCTGTATGGACATTATTTTTATTCAGCGGATATTTAAAATGGACAAAAAATATAAATCATGATTATGAAAGATATACTTTAAAGATACCAAATAAAGAAGTAAAAATATTTTATAATAAAACTGTAGTATCTATGCTTGAAGAAGAAAGAATAAAGCTCAATAATATATTAATAAATTTAATAAATGGACATATAGAAGAGTTTAAAGAAGACTTTCAAAAATTAACTATTAATACATTGAGTTACTTTGATGTTAGCGGAGAAGAACCAGAAAGATTTTATCATGGACTAATACTTGGAATGAGCGTTGGTTTGAAAGAAAAGTATATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCAGATGTTATTTTAATTCCAAAAGATAAAACAGATAAAGGAATAATAATAGAGTTTAAAAAGTTTTATAAAAACGAAAAAACACTATTAAATAGTGCTAAAAATGGATTGAAACAAATAAATGAAAAGAAGTATGAAGAAGAGATAAAAGATCATGGAATAAATGATATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAGGTTGAAATTGTTAGTAATTTAGATAAAGATGTTGAATTAACAGAGATAGAAAAAGTAGCAAAGAACATGATTGAAAATGGAGTTGATATAGAGTTTATATCTAAAATGACAAATTTGTCTATTGAAAAAATTAAAAATTTAATATAAATATTAAAAGCTAATAGTAAAAAAAGCAAACCGTAAGGTTTGCTTTTTTATTTAAAATAATGTTTTTATAAAGTCAATTAAAATTACGAAGATTAATGAAGGTAAAAAATTACCAACTTTAATTTCTTTTATGTTTAAAAGTCTTAAAGCTATTGCGAAAACCATTAATCCACCAACTGCTGTAAAATCATTTAAGTATGTTGGATTAGATAAGAAGTTTAAACTTCCTGCAAATACAACTAATAGACCTTGTACTATATAAACGCTTAATGCTGAAAATATAACTCCTGTTCCATATACAGATGCTAAAACAATAGATGAAATGCCATCTAATAGTGATTTTAAAAAGATTAATGAATTATCTCCTGTTCCAGCGCTCATACATCCTAATATTGTCATAGGTCCAACAACAAATAAAACAGTGGCTGTTATAAATCCTTTTACAAATGGGGTTTCTCCTTTTGAATTTTCTAATTTGTTAGCAATTTTACCTATGCCACCTTCAATATTCCAAAACTCTCCAAGTAAACCTCCTAAAGCAAGAGAACCCAAAACAACAAGTAAGTCATTAGCTTTAAATGCCATTTTCATTCCAATTGCAATGGTTGTTAGTCCTATTGCTTGAAATAGTATGTTTCTATAATTATCTTTTAATTTATTTCCTATTAATAAGCCCAAACTTCCACCAATTATTATAGCAAAGGTATTTACTATTACAGATATATTGAACATTATTTATTTGCTAACTCCTTTAGTATTTCTAATAAATATTTCCACATGTTTTGTACAGATGATATAGACATTTTTTCTTGTGGTGTGTGTACATCGTATAAGTTTGGACCAAAAGATATCATATCTACATTTGGCATTTTTCCTGAAAGTAATCCACATTCAAGTCCAGCGTGTATAGCTGATATTTTTACTTCTTTCTTGAAAGTTTTTAAGTAGACATCTTTAAATATTTCTCTTAATTTTGAATCTTCTCTGTATTGCCAAGCAGGGTATGATGACATTGTTTTAAATTCAGCTCCAAATGCTTCTACTGATATTTTTGTTCTATTTACTATTTCTTCTTTTAAAGATTCAACAGAACTTCGTGAAGCTATATCAAAATTTATAGAGTTGTCTGTCATGGTTAAAACTCCAAGATTTGTTGAACTTTGAACTAAATTATCTATTGATTGACTCATGGTTTGAACTCCATCTGGTATTACATAAAGTATCTTTACAGCTTTTATGAAATCTTCTTTTTTAATTATTTTATTTGTTTTTTCATGTTTAGTAAACTCTATTTTTAATTCTGGATCTTGAACTGAATATTCATTTTTAACTAATTTTTCAAAATTTTTTATCTTTATTTCTAAATCTTTGGGGTTTTCACATGTAATTATTGCTTGAGCTTCTCTTGGTATTGCATTCATTTTTGCGCCACCGTTTAATGATACTAAGTTAATATCATCTAATATAGAATATAATGTTCTTCCAAGAATTTTTATAGCATTTCCTCTTTGTTTTATTATTTCCATTCCAGAATGGCCACCTTTTAAGCCACTAACCTTTATGGAATAGGTTTCACTTGAATAATTTTCAAAGTTTATTGGTAAAGATATTTTTTCTCTAACTCCACCCGCACAGCTAACTAATATTTCTCCTTCTTCTTCTGAATCTATATTTATTAGCATTGTTCCAGTTAAATTTTTAGGATCAACTGCAGCAGCTCCTCCCATTCCTGTTTCTTCTTCTGTTGTTATTAAGACTTCAAGGTTTGGGTGTACTATATCATTTGAATCTAAAAGTGCAAGAGCATAGGCAACTGCAATACCATTATCTGCACCAAGTGTTGTTCCATTTGTTTTTACAAAATCACCTTCTACAATAAGTGGTATTGGGTCTTTAGTAAAGTCATGATTACTTGAGCTTTCTTTTTCACAAACCATATCCATGTGACCTTGTAGTATTACTGTTGGAGAATTTTCAACGCCTTTTTTCTTTATAATAACGTTTAATGCTTCATCTTGAATTACTTCAAGATTTCTATCTTTTGCAAATTTTACTAAATAATCACTAACTGCTTTTTCATTTCCAGATCCTCTTGGTATTTTTGTTAATTCTTCAAAGAAAGTAAATACTTTTTTTGGTTCTAAATTTTCAAGCATAGTTAACCCCCTTTTAATTAATTATGTTAATTAAATTATAACCCATTTGAAAAAAAATGTAAAGATTGGTATAATTAAAATTGAGGCATTTAATTGGGAGACAGGAGGGATTTTATGAAAATTGTCGTTATAGGAGGAGGAGTCGTTGGTTCGCTAGTTGCCAGAGAACTGTGTAAATACGAAGTTGACGTTACTCTCATAGATAAAAATTTTGATATAGGCATGGGTGTTTCGAAGGCTAATTCAGCAATATTGCATGCTGGATACGATGATGAAGCTGGTACTCAAAGGGCTAAATTTTGTGTTAGAGGAAATGAACTTTACACAAAGTTAGAAGAAGAACTTGAAATAGATGTAAAGAGAATAGGTTCTCATGTTCTTGCTTTTAAAAATGAAGATTTGAATACTTTGGATGAGCTCTATAAACGCGGTATTGAAAATGGTGTTCCTGGTATGAGAATTTTGACTAAAGATGAAATTCAAGATATGGAACCAAATATAAATCCAAGTGTAATAGCTTCACTTTATGCACCAACTGCAGGAATTACAGAGCCATGGCAAGTTGCAATTGCAGCAGTTGAAAATGCACAAAAAAATGGTTTAAAATTAGCCTTAAATGAAGAAGTAATAAAAATAGTTACTGTTGATGGTAAGATAAAGGGTGTTGAAACTGATAAAAATGAGTATGATGCAGATGTTGTTATCAATGCTGCTGGATTGTATTCAGATAAGATAGCAACGATGGCAGGAGATGTTGCTATTCCACTTCATCCAAGAAGAGGAGAATATGTTCTTTTAAATAAGTTTACAGTTCATGATTTGGTTAATAGTATTATTTTCCCACCTCCATCAAAAATGGGTAAGGGAATATTAGTACTACCAACTGTTGATGGTGGAATACTTCTTGGTCCAACATCAGAAGATTTACCATATGTCATGAAGTTTGATAGATCTACTACAAAACCTGGTATAGAAAAAGTAGTAGAAGGTGCAAAACGTTTGATACCAGGAATAGATTTGAGAGAAACTGTAAAAACTTTTGCAGGTTCAAGACCAGAGAGTCCAAATAAGGATTTTTGGATAGGAAGAAGTAAAAAAATAAAGGGATTAGTTCATGCAGCAGCAATGAGGTCGCCTGGATTAACAGCAGCACCAGCTATAGCTGAATTTATTCCTGAAGAAGTTCAAGATTTTATGGAAGTTAAGTTTGAAAAAAAGAATGATTTTGATCCAAAGAGAAAAAGAATAGTTCATTACTTTACAGATGTTTCAAAAGAAGAGTATGATGAAATAATAAAAAAAGATCCACTTGCTGGAAAGATAGTATGTGTTTGTAATAAGGTAACTGAAAGAGAAGTTTTAGAAGCAATAAAAAGAGGAGCAACAACTCTTGATGGAATAAAATTTAGAACAAGAGCAATGTTTGGAGAATGTCAAGGGGGTTTTTGTACTAATAAATTATTAGAAATACTTTCTCGTGAAACTGGGAAATCAATTGAAGAACTACATTATGGAACAAAAAAATCTTATGTAGTGAATGGTAAGGTGAGACCATGAAAAAATATGAAACCGATGTACTTGTAATAGGTGGCGGTGCTGCCGGAATGGGAGCTGCACTTTCAGCTTCTGAAGAAGGGGTTAAAGTAACTATTGTTGAAAGAACAGAAAGACTTGGTGGAATTTTAAATCAATGTATACACAATGGTTTTGGTCTTCATTTTTTTAAAGAAGAATTAACAGGTCCAGAATATGCATTTAAATTTAAAAAACTCGTTCAAAAAGATAATATAGAGTTTTTATCAAATAGATTTTTATACAAAATAGATGAAGAGAATAAAGAAGTTTACTTTACTTCAACAGAAGGTATGGAAGTTATAAAATGTAAGAGTATGGTTTATGCAGCAGGGGCAAGAGAAAGGCCATATGGTTCATTATTAGTACCTGGTGGAAGGGTTTCGGGAATATACACAGCAGGTGTTGCTCAAAGATTAACAAACCTTGAAAATAGACTTCCTGGTAAAAAAGCTTTAATTTTAGGTTCAGGAGATATAGGATTAATAATGGCAAGAAGATTAACTCTTGAAGGTATGAAGGTTGAAGCAGTTCTTGAAAGAATGCCTTATCCAGGAGGACTTGAAAGAAATATAAATCAATGTTTGAATGACTTTAATATACCTCTTTTATTGAGTACAACAGTACTTGAAGTTAGAGGAAATGGAAGACTTGAAGAAGTTATTGTTGGTCAAGTTGATGAAAATTACAATGTAATAAAAGGTTCTGAAAGATCTTATGCAGTAGATACTTTAATTTTATCTGTTGGTCTTGTTCCATCTACAACGCCAATAATGCATGTTGTTGATATAAATCCAAGGACAAGAGGTGTTGTTGTAGATAGTCAAATGAGAACGAGTAAAGATTGGATTTTTGCTGCGGGGAACTGTGTTGTTGTTTATGATTTGGTTGATTATGTATCTAGTGAAGGGCAAATTGCAGGTAAAAATGCAGCAAAATATGTAAAAGGTGAAGAAAAAGGAAATAGATATGAAATAAAAAAAGGAAGAAATATTGGTATAATAAATCCATTAATTTATTCAGATAAAAGTGATTTAGAACTTTATATAAGAGTTAGTAAACCAGATACTGGAAAATTAGTTGTTAAAAATGGTGATGAAATAGTTTATCAGAGTAAGGAATCAAATTTATTACCAAGTGAAATGGAACATTTTAAGATAAAAAAAGAAAAACTTGGTGAAATTAAAGGGTTAACAGTGGAGATGATAAAATGAAAGAAGTTGATTTAACTTGTGTTCAATGCCCACTGGGATGTAAGATAAAGGTAAAAATGGATGACGCAGGTGTTGTTTTAGATATTTTAGGAAATAGATGTAACCGTGGTAAAGAGTATGCAATGCAAGAGGTTGTAGATCCAAAAAGAGTAATACCTACTAATGTAAAGGTTTTAAATGGGGTAGATGAATTGGTATCTGTAAAAACAACAAATCCAGTTCCTAAAAGATTGATGTGGGAAATAATGAATATAATAAAAGAAACAACAGTTGAAGCTCCAGTTAAAATAGGTCAAGTTATAATAAAAGATATTTTAAAAACTGGTGCAGATATAGTTGCAACAAGAGAAGTAGAAAAAGTAAATAAATAAAAACTAAAACCAGTATAGCTTTCTATACTGGTTTTAGTTTTTAAATTATATAGAGACTAAAAGATAATTTTAGAATGAGTAAAAAGGGTTACTTTATCATTAATTTATATTTTTCAATTAAACCTTGTTTTCCATTGAAGTTTATTACATAATTATTTCCTTTTATATTGTATAAATCTATAAGTGATCCACGGGTAAGGAGAGAGTGTAAAATATTAAGTGTATAAGGAAAAAAAGATACAGATCTGGTGGTAAAATAAAACCAGAGGAGGTACGAAAAATGGGAAATGTACTACAGGAAATAATAAAGGAAATGGTAAGAAAAGGAGAAATCCGAACAATAAAGGATATAAAGGAATTAACAAAATCACTGACAGGAAATCTGATCCAGGAAGTACTGGAAGCGGAACTCGAAGACGAGCTGGGCTATGGAAAGTATGACAGAGAAAAGAAAAATACAGAAAATTCAAGAAATGGCTACAGGAAGAAGAATTTAAAGAGTAGTAGCGGTATGATAGAATTAATGGTACCTCGAGACAGAAAGGGAGAATATGAACCCAAAATAGTTCCAAAGTATTCGAATGATATTTCAGAGATAGAGGAAAAAATAATAAGTTTGTACGCAAGAGGAATGACCACCAGGGATATATCTGATCAGATAATGGATTTGTACGGATTTGAAGTATCAGCTGAACTGGTGAGCAAAATAACAAATAAGCTTATGCCATTAATAAAAGACTGGCAAGAAAGGCCATTACACGAAATATACACCTTCGTTTTCTTGGATGCAATATACTTCAACGTTAGAGAGGACGGAAGGATAGTAAAGAAGGCTGCTTATGTAATAATAGGTGTTGACATAGATGGAATTAAAGATGTGCTCGGGATATATGTTGGTGAAGTAGAAAGTGCCAAGTTTTGGATGGGAGTACTTAACAACCTCAAAAACAGAGGAGTTAAGGACATACTTGTAGCTTCAATAGATGGTCTTTCTGGATTCGAGCAGGCTATAAATGCAACCTTCCCGCAAACTATGATACAAAGGTGCATAATCCACCAGATTAGAAACACCCTGAAATATGTTCCTCACAAGGACAGGAAAGAGTTCGCAAAGGACTTAAAGACAATCTATACAGCACTGGATGAAAAGACAGGCTATGATAATCTAACCAATGTAATAAACAAATGGGGAGACAAGTATTACGCTTCATTGAGGAGCTGGGAGAAAAATTGGCACCTATTATCCACCTTCTTTCAGTTCTCAGACGGGGTAAGGAAGATTATGTACACCACGAACATCATAGAGTCACTTAACAGGCAATTCAGGAAGGCTACCAAGACCAAATCAATATTCCCTAATGACGATGCTGTCCTTAAAAGTTTATACCTTACTACCAAAAACGTGACAAAAAAATGGACAGCACGGTTTCACAACTGGAACGCTGTTATTTCCGAACTGGCCATCCTTTTCGAGGAACGTCTTAAAGACTACCTCTGAAAGTAGCTTGTAATCCTAAAAAACTTAATATTTTACACTCTCGGGAGATGGGTTGTCGCCCTTTCAGTCATTGCAGTTTTTTACTGTAAAAGGTTGGTTTTACCAATTTTGCCTTATTTAATTCATACTATTCAGGAACATTTTTTTCATTTTCTAATAACTACATTTTTTTAAGATTTTTGTCGTTGTTTTCCAATATTTATATGCTACCAGATATATCTAATACACACTAATCTTTACAGACTCAAATATTTTATAAATAATAATCATTTTTATTAATACTTACCTTCTAAGAAGAGGCATTTACACAAAATTTTACAGGCTACCGATTAAACGTGATTTTATTCAGTATTTTATTTTTGAAGACTATTTTTCAATTGTAATTTGGAGTATTATTGGGTTGCAAAATACACACAATATCAACTTTAGAAATTTGAGTGTTTTTTACTTTGATTTTTAACTCTTTTTCATCATTACTTTCATGCTTTTTATGGATAATATTTTTAAAAGTTATGTGTTTTTAAAAAAAAATAATCCCAGCATCCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTTCTTTTTTCTGAGTTTATGTTTATTCCTATTATGTACACTTCTTTCCCTTTGTACTTTTCATAGTACTTCATTTCTTTTATTTGATTTAAGGCTTTTTCTGCACTCTTATCTATCTTTATTTCCATTATGTATATGTCGTCTTCTTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTTAGTCCTGCTGATGCTAGTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTGTGCAAGTTGTATGGTATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCTTTTATTGCTTTCCATATCGTTTTGTTTATTTCTTTTATTTTTCCTCTTTCAAGTTCATAATTTGCTTCTAATATCATCTTTGAAAAGCTGTTCTTTACTTCTATGTTTGGATAGTCTAATAGATATTCATATTCCATTCCATATTTTTCTTTTCCTTTAAAGGTTAAGTATCCTGCTTGTGTAAAGAATATGCTTGCATTTGCTTCTTCTATTTCTCGGGTTGAAAAATCGAGTTTGCTCACCGGATACTTCACTAAGTCTTCGTATCTTATCTTCTTCCCTTTTATGTATTCATACAAGAATGATGGTGATCCACTTTCAAACCAATAGTTTTCAAATTCTCTTTTTTTAAAAAATTGTAGTATTGAAAATGGATTGTATACAGAATTCTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAATTCTTTCTCTTCCATATTCATTTCAATTGCTGTTTCTTTTATGTGCTCTTTAAAGTTACTTTCTAACTCTTCTTGTGTATATCCCAACATCTGCGCATATGCTTTATCCAATGATATATCGTTTAAGTTGTTCAATGCAGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCATCTTTTGATTTTATGCTCACATAAAAGTCTCTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTTGGGATAGTTTTATTATTAGTTCATTGAATGCAAACTTATAGTCTGTTTCTGTTATTTCTATTCCATTCCTATTTCCTTCTAATTTTATTATCTTTGTTAGACTTTCTTTCATTCTTTCCACATTATCTGTTGCTACATCTAAAAGGTTTATCCTTATTACTGGATACTCTTTGAACTCCCATTTGTCGTATATGTATGTTCCTTTAAATAAGTCTTTTTCTCCTTTAAATAGATAGTACAGTGTTGATATCGTTAAACTCTTTCCAAATCTTCTTGGTCGAGATAAAAAAATAGGTGCTTCTGAACTTATTAAATCTAATATATACTTTGTTTTATCTATATATGTATAATTTCCTTCTTTTATTTTTTTATAGTCTTGTACTCCTATTGGTAGTTTTTTCATCTTTATCACCTCTAATTTTTATTATATCATAGTTTCTATTAATTATTAATGGTTTACTACTATGGTATAATAGATAAAAAGATAAAATTGGAGGAAAAAATATGGGCGACTTATATTTAATAGATGGAACAGGTATAGCATATAGAGCATTTTTTGCACTTGATACATGGTTAAAAAATTCAAAAGGGTTAACAACTAATGCAATACTTGGAACATCAAGAATGATGCTAAAACTTTTAAATGATTTTATTAGAAAAGATGAGGATTCTATTTTATTTGTAATGGATAAAAAGACAAAAACTTATAGAAATGAACTCTTAGAATCTTACAAAGCCAATAGACCAAAAGCTCCTGATGAATTTATAGAACAAATCCCATATATTTTAAATATGGTTGAATATATGGGGATAAATGTTACTTCTGCTGATGGTTATGAAGCTGATGATATTATTGCAACAGCAGCTGTTAAATATAAAGATTTATATGACAATATTTATATAGTAACTTCTGATAAAGATATGATGCAATTAATAAAAGAAAATATCTTTATCTTAAGACCAGAAAAAGGAATAACAGATATTGTCATGTATGAAGAAAATAGAGTTAAAGAAAAAATGGGAGTTCCACCAAAAAAAATAATAGATCTTTTATCCTTAATGGGAGATTCTGCTGATAATATACCTGGAGTTAAAGGAATAGGTATAAAAACAGCACAAAAGTTATTGAATGTTTATAATGATATAGAAGATATTTATGAACATATAGAAGAGTTAAAGGGTGCTATTAAGACTAAATTAATAGCTGGAAAAGATATGGCTTATTTGAGTAAAAGATTGGTTAGACTTCAATACGATGCTCCTTTAAACTATGAAAAAAAAGATTTAATTTATACAGGCTTTACCGATAAATTTCAGGATTATTTAAAAGAACTTGAATTTAAAAGAATAATCAAAGAACTTGGATTTGAAAATGAAGAAAAAATTGAGTCTCAAGAAAATGATTATTCAAAAAAGGTTGAATATGAACTTTTTGCTTCTGAAAATGTAAAAGACCTATATAAAAAAATAGAAAAATCTTCTAAAATATCTTTTGATTTAGAAACAACTTCTTTAATACCAAACAAAGCAAAAGTTTTAGGAGTTGCTCTTTCACCTGAACCATTTGTTGGATATTATTTAGACCTTTCAAATGAAACTGAAGAAAAGAAAAAAGAAATTCTAACTGAACTATCAAATTTAATAATAAAAAAAGATATAATAGGGCAAAATATAAAGTATGATATTTCTGTTTTAAAAAACTATGATATAAATATTGAAAATATCTATTTTGATACCATGATTGGGGCATTTTTAATAAGCCCAGATAGTAGAAGATTCAATATGGATGATCTTGCTGAAAAGTATTTAAACTATAAAACTACAAAGTACAAAGAAGTTATGAGTGGAACTTTATTTTCAAAAACATTAAAGGACGTAAATATAGAATCAGTAAAAGACTATGCTAGTGAAGATGCAGATATTACTCACAGACTTTATAAGGTAATATACCCTAAAGTTAATGCTTCAAAATTAGATAGAATTTTGAATGAAGTTGAATTACCATTAATACCTGTTCTTGCTGAAATGGAAACAAATGGAGTATACTTTGACACAAAGTATTTGAAGCAACTTGAAGGAGAATTTTCTAAAAAAGTAAATCAGTTGATGATTGATATGGAAAATCTTGCTGGTTATCCTTTCAATCCAAACTCTCCTAAACAAGTTGGAGAACTTTTATATAAAAAAATTGGATTGAAAGGAAAAAAGAAAACTAAAACTGGATCTTATTCGACCGATGCAGAATCACTTGAATATTTAAAAGGTCAACATCCAATAATAGAAAAAATATTAGAAAATAGAAAGTATCAAAAATTATTATCAACTTATGTAATTGCAATTCCAAAGATGGTCAATGAAAAAACTGGAAGAGTACACACATCTTTTAATCAAACTGGTACTTCTACTGGTAGACTTTCAAGTAGCGATCCAAACCTACAAAACTTACCAATAAGAGAAGAAGAAGGCGGAAGAATAAGAAAAGCTGTAAAACCTCAAAGTGAAGATGGAATACTTTTGAGTGCAGATTATTCTCAAATAGAACTCAGAGTTTTAGCTCATATTTCAAAAGACGAAACACTAATAAATGCTTACAAACATGGAAAAGATATTCATACAATAACTGCTTCAAAAATCTTTGGAATTTCAGAAGAAGAAGTAGATTCACATGCAAGAAGAGTTGGAAAAACTGTTAACTTTTCTATTGTTTATGGTGTTTCTGGATATGGCCTTGCTCAAAGGGTTGGAATAGGGGTTGCTCAAGCTCAAACATTTATAAACAAATATTTTGAATTATATAAAGGTGTTGGAAGTTATCAAAAGAGTATTCTTGAATTTGCTAAAAATAATGGTTATGTTGAAACATTAATGGGAAGAAAAAGATTTATAAAAAATATTAGAGCAAATAAAAATGAAATAGAAAGAATGGCTATAAATTCACCAATACAAGGTACAGCAGCAGATATAATGAAACTTGCAATGATAAAACTGTATAAAAATTTACCAAGTTATGCAAAAATGATACTACAAGTACATGATGAAATTGTAATTGAACTACCTAAAAGTAAACTTGAAGAAGTAAAACCAATACTAAAAGATTGTATGGAAAATGCCTTTAAACTTGATGTACCGCTTGAAATTGATATGAAATATGGAGATTATTGGATGAAGTAGGTGATTTTATGAATTATATAGATATAATAATTAGAATAATAACAGCATCTTTTGCTGGTAGTGCAATTGGTTACAATAGAGAAAAAATAAATAGACCTGCTGGAATCAGAACACACGCTCTTCTAGCTCTAGGATCAGCAATCTTAACTATACTTTCTATGGATATTTTTTATGACCCTTTAACTAAAGCTGGTGATCCTGGAAGAATAGCTGCACAAGTAGTTTCAGGTATAGGATTTCTTGGAGCCGGTACTATATTAAAAAATGGAAATAAGGTAAAAGGACTGACCACAGCTGCAACTTTATGGGTATCAGCTTCAATTGGTATTACCTTTGGTAGTGGTTCTTATTTTATTGGCAGTGTAGCCTTAATTATAACTTTAATAGTTCTTTCTTTTAATAAAATTTCAAAACATTTGACTGACGAAGTTACAATTGAAATTGTTTTAAAAGAAAACAAATCTCATAAAAAAATTTTAGAAAAAATATCAGAAACAAATTTTAATTTAGTAAATGCCGATCTCTCTCAAAAAGATGAAGGACGTTTATACTTTACTTTTAAAAACATTGATGAAAAAAATATCTCTGATATACAAAAAAAACTTTTACTTTTAGATTCAATTGAAAGTTTAGGTATATTGGATAATAATTAAAAAGGTGAGATATTAATCTCACCTTTTTAATTATTTAACATTTTTAATAACAATAGCAGTTCCCATACCTCCACCAATACACAATGATGCCAATCCTATATTTAAATTTCTCTTTTTCATTTCATGTATCAATGTTACTGTTATTCTGTTTCCTGATGCTCCTATTGGATGCCCTATTGCTATTGCTCCTCCATTTACATTTGTTCTTTCAGTAAACCATTCTTTTGTTAAGTTATACTTTTCTGTAAGTGCCTTTATATTTGCCAATGATTGTGCTGCAAAGGCTTCATTTAATTCTAATAATTCCATATCTTTTAATTCATATTCTGTATATTTTTCAAAGAGATTACTTATTGCTGCAACTGGTCCCATTCCCATGTATGCTGGATCTACTCCTCCTTGATCGTATGCCACTATTTCTGCTATTGGTTTTAAGTTATATTTTTTTACTGCTTCTTCTGATGCTAATAGCATTGCACTTGCCCCATCATTTATTCCTGATGAGTTCCCTGCTGTTACTGTTCCATCTTTTTTGAATGCTGGTCTCAATTTTGCTAGTTTTTCTACTGTTGTTCCAAATCTTGGATATTCATCTGTATCTACTGTTACTGTTCCTTTTCTTGTTTTTATTTCTACTGGTATTATTTCATCTTTAAACTTCCCTGCTTTTATTGCTTCTTCTGCTCTATTTTGACTCATTGCTGATAGTTCATCCATTTCTTCTCTTGTTATTCCATACTTTTCTACTAAGTTTTCTGCTGTTACTCCCATATGATAGTCGTTGAATACATCCCAAAGTCCTTCTCGTATCATATGATCCGTTACTTTCATATCTCCAAACTTACTTCCAAATCTTGATTTTGAAGGTAAGTTGTATGGTGCATTTGACATGCTTTCCATTCCTGCCGCTACTACCAAGTCTGCTCCTAATTTTATTTCATTTGCTGCAAGCATTATTGCCTTCATTCCACTTCCACATATCATGTTTATTGTGTATGCTGGCACTTCTACTGGTATACCTGCTTTTATCGATGCTTGTCTTGCTGGTCCCATCCCTTGTCCTGCTTGTAATACATTTCCTACTACTACTTGATTTATATTTTTTGGATCAACATCTTTTATCACTTCTTTTATTGCTATTGCTCCTAACTCCGATGCTGTTAAGTCTTTTAATGCTCCTCCAAAACTTCCTACTGCTGTTCTTTTTGCTTCTACTATATATATTTTTCTCATTGTTTTTTCCTCCTTTGAATATTTTCTTTTTATTCAAGTGAAATCAATCTCAATATCACAAACTATCCAAAATACTTCCGAGAAAATCCCGGAAGTTTATTATATTACAAGTCCTCCATCTACACCAAGAATTTGACCATTTACATACGACGATTCATCGCTTGCAAGGAAAAGCGCAGCATTTGCTATATCTTCAACTTCTCCCATCCTTTTAAGAGGTACTTTTTCAGCTATTGAATTTAATATTTTTTCAGGCATAGCTTCTGTCATAGGTGTTTTTATAAAACCTGGAGCAATTGCATTTGACCTTACTTGAGCACCTTTTCTTGAAAATTCCTTTGCCCATGTCTTTGTCATTGATATTACTCCACCTTTTGTTGCTGCATAGTTCGTTTGCCCTATATTTCCAAATACACCAACTATTGATGAAGTAGATATTATACTGCCTTTTCCTTTTTTTATCATTATAGGAGCTATGAATTGAGTCATGTTGAATACACCTTTTAAATTAACATTTATAACTGCATCCCATGCTTCTTCACTCATTCTTTGAATTAATGCATCTTTTGTTATTCCTGCATTGTTTACTAAAACATCTATTTTTTCAAATTCTTCTACAACTTTATCTACAAATTCTTTTATTGCATCTCTATCCGTAACATCTAATTTTACACTTCTTATATTTTCTACCTTATTTAATTCTTCATTTATATTCATATCACAAGCAAAAACCATTTTTGCACCTTCTTGCGCAAACTTTCTTACTATACCTTCACCAATTCCTCTTGCTCCACCTGTTACGACACAAATTTTATCTTCCATTCTCATTTTTCATTTCCCCCTTCTATTCTTCTAACCATTTCTTGTGCAACATAAGATGCAACATCATCAGCATAAGAATTTGGTCCAAATCCAGCATCATATCCAAGTTCTTTTACCAATTCATGAGAAATTCTTGGTCCACCTGCAATTAATATTACCTTATCTCTTATTCCTTCTGCTTCTAAAATTTCTACAAGTTCAGTTAAATTTTTTATATGTATATCTTTTTGTGTTACTGTTTGAGAAACTAATAATACATCTGCATTCATTTCTATTGCCTTTGCTACAAAGTCTTCATTTAAAACTTGACTTCCCATATTTAATGTTTCGAACATTTTATATCTTTCAAGTCCATAATGACCCGCAAAACCCTTCATATTCATTATTGCATCTATTCCAACAGTATGTGCATCTGTTCCTGTACTTGCACCTATTATAACTATTTTTCTTCCTATATGTTCTTTTATATATTCGTCTGTTTCTTTCATACTCCAAGTTGTAGATTCTACTTTTGGTACATGAATTGTTGTATAGTCTACTGTATGAGTACAGCTTCCATAACATACAAAGTATGTAAAACCTTTAGTCAATTCTTTAGAATACACAACTTGTGGATTTTCAAACCCCATTTTTTTCATTAATTGCTTTGCTGCTTCTGATGCTTCATCTCCATAGGGTACTGGAAGCGTAAAACTCAATTGTGTCTTACCATCATTCATTGTATCTCCATATGGTTTTATAGCTTTTAAATTCAATGTTTTATCAAAGTCTTTACTACTCATAGAATATAATCCACCGCTCATGGTCTTTCACCTTCTAACATCTTTTTTATAAATGGATTAAAATAATTGTTACCTTTTTCCACAACTCCATTTAAACCTTTTCCACCATCAATAGGTCTTTTTATAGCTGCAAAGGTCCCTTTTTCAAGTGATTTAAATAGACCATCTTCTACCATTTTTTCAAGCAATTCTGTAGCATCATTTAAAACCTTTTGTGCTCTTTGTTGAATTATTCCATCTTTTTTAAATTCAACTTCACTTCCTAAATCTTTCATATTATTGAATATATACTTTGCATTTTCAATAGATAAATATCTATCAGACATAAATGGTGTATGTAAAGCTTCTGTCAACATACCAAGAAGTTGTATTCCTTGTCCAGTCCATATTGATACTTCATTGAATAGTGCATCTTGTACATGACCTCTAAATATATTTCCTGTCATGAACTTTGTTGGTGGCATATATTTCAATGGAGCCTTTGGAAAGATTTCTCTCAACATTTGTGCTTGAGCTAATTCATATAAAAATCCATTTGTTAATTCTGGATTCATTTCAAATGCATGTCCCAATCCCATTTGTTCTTCAGGTATTCCTGCCATCAATGCAAGTTGTTCATTTATAAAATCTGATGCAAGAACTGTATGAGCTTCTTCAACAGCATCTGCTGTTGTTAAGTAATTATCTTCTCCCGTGTTTATTATTACTCCTGCAAATCCATTTATTACTCTTGAAAAAAACTGATCAACAAGAGTTCTCTTCATGTTTATATCTCTAAACAATATTCCATAAAGAGCATCATTGAGCATTACATCAAGTCTTTCAAATGCACCCATAGCTGCTATTTCTGGCATACACAATCCAGAACAATAATTACAAAGTCTTATGTATCTACCAACTTCTTCTCCAACTTCGTCGAGTGCTTCTCTCATTATTTTAAAATTTGCTTGTGTTGCCATTGTTCCTCCAAAACCTTCTGTTGTTGGTCCATATGGAACATAATCTAAAAGACTTTGTCCTGTTGTTCTTATAACTGCAACTATATCTGCTCCTTGCCTTGCTGCAGCTTGTGCTTGAACAACATCTTCATATATATTTCCTGTAGCAACTATTACGTATAAATAAGGTTTTGACCCTTCACCTATTGTACTCAAATATTCATTTCTTTTTTCTCTGTTTTTTCTAAGTTTTTCAACAGTTGCATTTATATTTGGTTCTATTGTTTCTTTTATCTTTTCAATTGGATTCATCTTCAATTTTGTTATATCTAATTCTTCATTTGCTATTTTTTCTGCTATTTCTTGTGGAGTTAATCCCATTTCTATCATAGCGTTTCCCATAAAAAATAACACACCTTCAGATAAAACTCCATTTTCTTTTAATTGATCCACAACAACGTTTGGTAATGGTACATCTTCATTGTTAACACCATCTATTTCTAATAATCTACATATTGTCCTTTCTACTGCTACTGTAGTATGCTTTTCTACAAAGTTTTGAACATCAAGTGCTATTTCTTTTGAAAGTTTTCTTGCGTATTCTATTTTATTAAGGTCGAGTCCGAGTTTACTCTTCATCTAAACCCTCCTTTTTTAGTATTTTTTCTGCAATATCTATCAATTCATTATCTATATTCAATAGTTTTGCTATTGTTAAAGCTTCTTCTGGAATTTTATCTTCTTCATCTTCTATTAATGCATAGTCTATGTATTCATCTATTCTTTTATGATCTATTGATTCATTTAATTTTTCTTTTATTAATCCTTTAACTCTCAACTTTCTTACATTTTCATTTTTAGTAACATTGTAATGAGTTGCTATGTAAGTAAGCGAATCATTGCTATTTAAGTATCTTATTACTGCTTTAACTATTGCTTTTCCTTCATGAGGATTTGTACTTCTTGCTAGTTCATCTAATAATATTAAGCATGATTTTTCTTTTTTTGAATACGTTAAAGCTTCATTCAATTGAATCATTTCTGATGCATACGAAGATAATCCAGATAAAGAAGATTGATAATCTCCAGTTTGTAAAAATACTTTTTTTACTGGTCTTATCTTTGCACTTTCTGCTGGAATAAAAAATCCCATTTGAAACATATACTGACAAAGTGCTAATGTTTTTAAAATAACTGTTTTTCCAGACATATTTGCACCAGTAATTATATTTACTCCTGTTTTTACATTTACATTTATTTTTTGATATCTTTTCCCTTTTTTCTCTAAAATATCTTTTATTTCTGGATTAAAAAAACTTTTATATTCTGTTTCTTCTGATATCTCTGGTTCACAAAGATCTAATTTTTCTATTTGTTTTGCTTTTGCAATTAAAAGATCTAAATAAGCTATTTTATTTATACAACTTTCTAAGTTTTTAGAATATTTTATTAGCTGTTTTGTTAGCTTTTCTCTAATTTCATCTTCGAGCTCAACTTCTATTTCGTAAAGTTTTTCTTTTTCTTCCTCTGAAGCCTTACTTTTCTTTTTTCTAAGATTTTTTAATTCTTCTGAATATTCATCACAAATATAAAATGATGGTATCTTATAACCTTCAGGATCAAGAATTTCAACGACTTCATTTAAAGAATCCAAAGATATGATACTTATTTCATTTTTTATTAGTTCTCTTAATTCTTCTGAAATTATTGAAAAAGTTTTTATTTCAAATAATTCTACATCATCTAATATATATTCATTCTTTAATCTCTTTATAGTTGTTGTTATATCTCTAACTTTCATTAAAGAATGACAAATTTCAGATACTTTTTTTTTATTTTTCATGTAAAATTCAAAAACTTCTTTAGTTGCGTTTATTTCTTTTTTTATTTCTTTTTCATCAGTCAAAAACTCTAATTTTTTTAATTTTTTATAACCTATTGGAGTTATCAACTCTAATGTATTAAATATGTACTCTAAACCTATTATCTTTTTATTTTTCATACTGTTTCTTCCCTTACATTTATTACTGGAACAGTAGTCAATTCTTGTATGTTATTTTTTAATTCTAATGAATTTAAAGTGTATCCATTTGGTGATGTTGGATTTACTGTAACAGCAATTAACTTGGTTTTTTTTAATACCTTTAAGGTTCCACCACGTTTTTTAAATATAGATAAAACTTCTGGAGTTACAAAAATTTTTGTAAAGTCTTTTACTACAACTGTTATTTTTTTTATATTTTTTTGTTTTGATAAATATTTTAAGAACTTGTCTGTAATTGAGCCCGTTGTATATATTGTATTTCCATAAGAAAAAAAATCTTCTTCTAATTTTTCAAAGTTCAATATTGATTTTATTGAAAGTTTTTTTATTTCTTTACTTTCATTTATCATATACACACCATTCTTTAAGCTTTTAAGATGAGTCATACCGAACTCTTCAATATTTATTAAGTTTATCGTGTGCTTAGTTTTTTTTACAAGTTCTTTCATATTTATTGTTAGAGCAGCTCCAGTGGCAAGAACCATTCCTTCAGTTATAGCAGGTGAAGATGGACTCAATCTCGATATTGCACCATCAACCAGTGTTAAGGTTGTTCCAAAACCATTTATCTTATCTATTGTCTGTTTTATCCACACAGTATCTTGTGGACCTGCCAACAATACCTTTCCTTCTTCAAGAGCTCGTGCAATCACAACTCTTCCTATTGATGTCGTTTTAGCACTCACATCTAAGATTTCTGAAGTAAATTTTTTGGCTTTATAAAATTTTTCAGCAGTTGCAAATATCATATTTTTGTATATTTTTATTTCTGGTTTTGGTGTTTGAGTCACTTGATCTGTACTTTCACCGTCTATTCCAATAGAAGTCATTCCTATATTTTCATTTTTTAATCTCTTTATTATATAGTTCAAAGTTTCCGTTTTTCCAGTATTTTTTTGAAGTCCTACAACCGATAAACTTTTTAATTTTTTTATTTCTTCTATAAAAGGCAAAGTTTATTCTCCTTTAAAAAGAACTAATGCTTCTCCATCAACTGCAAGTTTTCCTTTTTCATTGAAAACTTTTGTAGATAATAGAATTCTTGATTTTTCATCATATTTTTCTTTTACTTCAACAGATATTTTTATTTTTTCACCTATATATACAGGTTTTAAAAATTTAGTATCTTGCTTTAAGTATATAGTTCCTGGTCCAGGAAATTCCATTCCAAGAACAGCTGATATTTGTCCAACAACTAATATACCATGAGCAATTCTTGCTTTAAATATACTGTTTTTAGCAAACTCTTCGTCAAGATGAACTGGGTTTTTATCCCCAGTTATCTCGGCAAAGGTTTCTACCATATTTGATGTTATTGTCTTTTCTATTTCATATATATCATTTAATTTTATATCTTCATACTTCATAATTACACCTTCTCATGATGAGATCTTTTATGTCTTTCAAGATTTGCTGGTTCCAAACTTATATGTTCGTGATTGTGGAATAATCCAGCAACACCATGAATTTGATATTTTTTTCTATATTCTGAATCATCTACATCTGTTGTTGTATCTTCTGGTTCATGATAAGTCGTTATAACTCCTTCGTAGTTTCTTAAAATAACTGTTTTATCTGTTTGAGATATTAAGTATTGTGGCATAACTCTCGTCTTTCCTCCACCACCTGGGGCATCAACAACAAAACTTGGAATACAAAAACCTGAAGTATGTCCCATGAGTGCTTCTATTATTCCAATTCCTTTACTTACAGATGTTCTAAAGTGTTCTATACCTTGTGAAAGATCACATTGATAAATGTAGTATGGTCTTACTCTAATTTCAACAAGTCTGTGAACAAGTTCCATCATTATAAATTCACTATCATTTATACCTCTCAAAAGAACGCTTTGGTTACCTAAAGGTATTCCTGCATCTGCTAATTTTCTACAAGCTTCTGTTGATTCTGGAGTTATTTCTTTTGGATGATTAAAGTGTGTATTTAACCACAATGGATGATATTTTTTCAACATATCAACTAGTTCATCAGTTATAACTTGTGGGAATACAACAGGAGTTCTTGTACCTATTCTTATAACTTCAACGTGATCTATCTTTCTTAATTCTTTTAATATGTATTCAAGCATAGGTATTCCTACCATCAATGCATCTCCACCAGAGAGCAATACATCTCTTACTTGTGGTGTTCTTCTTATATAATCAATTGCTTGATTTATTTCTTCCATCTTCTTTGATGCATCTGTTTGACCAGCAAATCTTCTTCTTGTACAATGTCTACAGTACATAGAACACATATCTGTTATTAAAAACAATACTCTATCTGGATATCTGTGAGTAATACAAGGAGCTGGTGAATCTTCATCTTCATGAAGTGGATCGAGCATATCCCATTCTCCTTTTATTATTTCTTTTGCACTTGGAACAGCTTGTCTTCTTATAGGACACTTTGGATTATCTGGATCCATTAAAGAAGCATAATAAGGAGTTATTGCCATTCTCAATGTTTTAAGTGCATTGTGTACACCTTTTTCTTCTTCTTCAGTTAAGTTTATTACTTGTTTCAATTGTTCTACTGTTGTTATTCTATTTTGAATTTGCCATTTCCAATCATTCCATTGTTCATCAGTTACATCTTTCCATAAAGGTATTTCTTTATATGATCTCATATTATATCCCCCTTATACGTATAATTTTTCAAAAAGATTTCTTATATCTTCAGATTCTCTTATTATCTGAAGGGTCAAGTCAGCATGTCCTTTTGTATAACCATTTCCAACCATCATAGTTATATCCTTTCCAACGCCTTCAGCACCTAAAGCCGCTTTTGTGAATGATGTTGCCATTGAAAAGAAGTAAACAATACCTTCATCTTTTGTAATTAAAATTGAGGACATTTCAGTCGATTCTATATTAACATTGTTTATTGTTATATCACAAAATTCACCATCAGTAACTTCTTTAACCTTTTCATACACTTCAACTGGTTTTGTTGCATCAGCAACTATTACATGATGTGCAAGATTCATATCTTTTATTCTCTTTGCATTTTCTTCTGAATATTCAACAACTATTACCTTTCCATCTTTTCCAGCTTGTTTCATTGCTTCATAAGAACACAATACTCCGGATTTTCCACCTCCGCCTATTATACAAACAGTATTACCAGGTTTTACAAGTTTTGCAACTTGAGCAGGTGCTCCTGCAACATCGAGAGCTGCTAAAGCTAATTTTTCTGGTATGTCATTTGGTAAAACAGCATACAAACCACTTTCAAATAAAATAGCTTGTCCATCAATATCAACTTGATCATTGTTGATATTCACTTTTTTTATTTTTTCAATTTTTAGTGGAGTAAGAGATAATGAAACTAATGTAGCTATTTTATCTCCAATTTTTAAGCTTTTATCTGGAAAATCAGGGCCTATTTCTTTTATAGTTCCTATGAGCATTCCTCCAGATCCCGTAACTGGATTTTGCATCTTTCCTCTTTCATTTACTATATCTAAAATCATTTTTTCCATTTTAGATATGTCTTTTTCGCAAGCTTTTTTTATTTGTGTAAAACTTGCTGAATCGATATTCAAAGTTTGAACATCAATGAGTAGTTCATTGGATCTTATTTGCATGGTGTTGTCAATTTTCTTTGCAGCTTGTGGGAGCATTCCAACAGGCTCAATAACTCTGTGTGTTCCGAATGGGCATCCTTTTTCCATATTTACTTACCTCCAATTCCTAATATTTTTCTGGCTTCTTCTGGCGTTGCTACTTCTCTTCCTAGTTCTCTTGAAATATTTGCAATTCTTTGAACTAGTTGGGCGTTTGAAGTAGCTAATTCTCCTTTTTTATAATAAATATTATCTTCAAAACCTACTCTTACATGACCTCCCATGAGTATTGCATGAACAGCTAGTGAAAGTTCATACCTTCCTATTCCTGCAACAGTCCAAGTACTACCATGTGGAATATGATTTACTAAGTACAATAAATCATCTATTTCTCCTGGAATAGCTCCTGGAACTCCCATAACAAAGTCAAAATGTATTGGTGTTCTTAAAATTTCTTTTTTTAATAATCTTAAAGCGTTGTTTATGTGTCCTCTTTCAAAGACTTCTATTTCTGGTTTTATTTTTCTTTCATACATCTCTTTTGCAAACTTTTCTATGTATTCAGAACTGTTCACAAATATGTCTTCTCCAAAATTTGTTGTTCCAGCAGACAATGTTGCCATTTCTGGATTTAACTTTAATGGTTGCATTCTTTCTTCAAACTTATGCCAAACTGCACCACCTGTCGATGGTTGAAAAATAACATTACATTTTTTTTCAACTTTTTCCTTTATTTCTTTATAAACATCATAAGATTGTGTTGGATTGCCTTCTTTATCTCTTGCATGAACATGTATTATTGAAGCACCTACTTCATAACACTTCAATGCTTCTTCTGCTATTTCATCTGGAGTTAATGGTAAGTTTGGTTGTTGCTCTCTTGTTACTTCAGCACCAGTAACTGCTGCCGTTATTATTAATTTTTCCATTATTTCACTTCCTTTGTGAATCTTTTGGTACAACACATGTTCCACTTGCTCTACAAACTACAACTGGTTCTTCAAGAACATCGGCTGCCGATTCAGAAATGTCTGGTCTTGGAACAATCACTTTTCTTGCTTCAAAAATCATTTTTCTTGATGTATTACCTGTTTTAATTATTTCACCAGTTGCTTCTATAAAATCACCTGCATAAACTGGCGCCATAAATTCAACCATATCATATGCTTTAAATAATCCTTCATCTCCATCATTTCTTATTAAAAGTTCTGTTGCAACATCACCAAAGAGTTGTAACATTTTTGCTCCATCAACCAAGTTACCTCCATAGTGTGCATCATGAGAACTCATTCTAACTCTTATCATAACTTTTTCCATGTTTTAAACCTCCATAACTTTCAAATCTTCTGGAATAATTAATTTTGCTTCAGTTGCATTTTTTATATCTTCGACTGTAAATCCTTCTGATATTTCTTTTAATAAAAGACCTTTTTCAGTAGGTTCAATAACGCACATTTCAGTTACTATTAAATCTACTTTTCTAATTGAAGTTAAAGGAAGTGTACATTTTTTTACTATTTTTGCTCTTCCTTTTGCTGTATGAGTCATAGCAACAATAACTTTTTTTGCACCAGTTACAAGATCCATAGCTCCGCCCATTCCAGGTATCATCTTTCCAGGAACCATCCAATTTGCAAGGTGACCTTCTTCATCTACTTGAAGACCTCCAAGAACGGTTACATCTAAGTGTCCTCCTCTTATTAATGAAAATGAAAATGCGCTATCAAAAGCCATTGCTCCAGGAAGGGCAGTTACGTAACCAGCACCAGCATTTGTTAAGTCTCCATTTTCCATCCCTTCTTTTGGAACTGGTCCCATACCAACTATTCCATTTTCAGATTGAAAGAACACATGTACTCCTTGTGGTATATAGTTTGATACGAGTGTTGGGAGACCTATTCCAAGATTTACCAAGTTTCCATCTTTTAATTCTTTTGCAACCCTCTTTGCAATCTTTATTTTAGTATCCATTATTTAGCACCCCCAACTACTATATAATCCACAACCACACTTGGAATGTGTACACTATCTGGAGGAATACAACCTGTTGGTACAATTTCTTCAACTTCTGCTATTACTATATCAGCAGCCATTGCCATCAAAGGATTAAAGTTTCTTGCAGTTAAAGAAAATTGAAGATTTCCCAAATAATCAGCTTTTTTAGCTTTTATTAAAGCAACTTTTGCATGAATGGCTTCTTCTAATATGTATTTTTTTCCATTCAATTCAACTACCTGTTTTCCTTTTTCTACTTCTGTTCCAACTCCAGTTGGAGTTAATATTCCACCAAGTCCAACTCCACCAGCTCTCACTTGTTCTGCAAGGGTTCCTTGTGGAACTAACTTTACTTCAAGTTCATTCTCTATCATCTGTCTTTGCGTTTCTTTATTTGTTCCTATGTGAGAAACTACAACTTTTCTTGCTAATTTGTTGACTACAACCTTTCCTATTCCTTTGTCTACAAATGCTGTATCATTACCAATGATCTCAAGATCAGATTTTTTTTGTGCTATAAGCTCATCAACAAGAGTTTCTGGAGCTCCTACACCCAAAAAACCACCAATCATTACACTATCACCATTATTTACTTTTTCAATGGCTTCTTTGGCATTAATAACCTTCAAATATATCACCTCCCATGAAAATTATATCATAAAAGTTACATATCTGCAAAATATAAATTTAAAAACTTCATACTGTTTATAACTTATTATCTAAAATAATCTTCATTTTATGCATTTTTATAAATATAGTGATTTTTTTAACAAAAAATATATATAATGATATTTACAATAAATCATTTAAAAATTTTATTATATTAGTATATTTTGAAAAATATACTTAAAGTTGTATAATTATAATGATATAAGAATATTTTTATCTTTTTTATACTTAATATGGAGGTGATTAAAATCAAAGGTATTATAACCACAATAATTATAACAATTATATTTTTAATTTTATTTATTATCTATGGATTTGGAATAATAACCTCAATTTTAAGCATTAAAGGGAATTTTTTTACAAATGCTATTTTCTTTGTTGTAATAGGATTATTAGTTTTTTTTATAATTTCATTAATTATTACAATGTTTAACAGAATAAAAGAAATAAAAAAGGAGGAAAAAGATGATCTTAGTAAATACTGATTTTATAAGTGGAAAAAAACTTGAAACTATTTCAATAGTAAAAGGATCAACTATACGTTCAAAAAATGTTGGAAAAGATATAATGAGCGGATTAAAAACTCTTGTTGGTGGAGAAATAACTGCTTATGTAGAAATGATGAATGAAGCACGTGCCATAGCTACTAAAAGAATGGTTGAAGAAGCAGAAGAATTAAATGCTGATGCAATTATAAATATAAGATATGCAACAAGTGCTATAATGGCTAGTGCTGCAGAAGTTATAGTTTATGGAACAGCAGTAAAGTTTGTTGATTAAATTTTTAATTTTTTTATATTTAATTTTTTTGTGATAATATGAGGAGGTGATAAATATGAAAGAAAAACTTTCTAAATTATCTATTTATTCTATTATTTTGTTTTTTGCTTTTTTTAGTATATTCCTCTTATTCATAAAACTCGGTGAAAGAGGTGGTCAAACCTTTTTTAGTAATCTCAAACTAACTATTCCATTTCTTTTAGCAGCAGCATCTGGAATTTTTTCATTTTTCACAGGTATTATTAGTATTTTAAAAAACAAAGAAAGATCTATATTAGTTTTTATATCAACTGGAATAGGTGCATTTATTTTATTTTGGGTTTCTGCAGAAATATTATTCCCACACTAAATTATTGAAGAAATGTTTTTTAAGACCTTTCTTTTTTTCAAAAATATAAACTTTATATTATTTTTTTGTATTAATACAAAAAAACTATTGACAAACTTCAACTGGCGTGTTATAATAGTCTCGTAATTGCGCTCGTAGCTCAGTTTGGTCAGAGCTTCCGGCTCATAACCGGGCGGTCGGTGGTTCGAGCCCACCCGAGCGCACCAATAGCGTTGGATTTATTCCAACGCTTTTTTGTTATAAATTTTATCAAATTACTCACATAATATGTGAATATTACAAAAATATTTGAAATTAAAAGCAAACAGTGGAAAAAATGAATAAATTAATATTATATCTTTTACATAATAAAAAAAGATTGGATTTTATCCAATCTTTTTTTATTATGCTCTTTTTATTTTTCCTGCTCTTAAGCAATCTGTACATACATGTACTCTTTTAACTGAACCATCACTCATTACAGCTCTTACTCTCTGAATATTTGGTTTCCACCATCTTCTTGTTGAAACGAGAGAGTGTCCGGATCTTTGACCATTTGCAACAGGTCCTTTTCCACATATATCACATTTTTTAGACATTTTTGTTCCTCCTCTCAATTTTTATAATATTCTTTTATTTTTTGTTTTTTGATTGCCACTTATATATTATACAATACAGAATCCTTAGTTATCTATTTTTTAACATTATGTTTTTATTTATTAACCATTATGTTCTTCATCAAGATATGCTTCTTCATCTTCAAATTTTACATTTTTTACAAGTGGAAATGGTATTATATCTTTTATTGTAGTTGTATTAGTCATAAACATTGCAAATCTATCTATTCCTATTCCAAGCCCACCAGTTGGTGGTAAGCCATATTCCAAAGCTCTAACAAAATCATAGTCAACTACTTGAGCTTCATCATCACCAAGATCTTTTAATTCTTCTTGTTTTTTAAATCTTTCAAGTTGATCAATTGCATCATTTAATTCTGAAAATGCATTTGCAAGTTCTGTTCCGTTAACTATTAATTCAAATCTTTCTGTTAATCTTGGATCTTCTCTATGTTTTTTTGCAAGTGGTGATATTTCTATTGGATGATCTATAATAAATGTTGGTTGTACTATTTTATCTTCCACTAAATCCCATAATTCATCTATATACTTACCCTTTTCTTTTATTTCAACTTCTATTCCTTTTTCTTTTAAGAATGCATCTAATGTTTCTATACTGTCTTCTAAAATATCTACACCTAAATGTTCTTTAATAAATTCACGCATTTTTATTCTTTTAAATGGTGGTGTAAAATCTATTTCTTTTCCATCATACATTACTTTTGTTGTACCATGAATTTTTTTTGCAATATAAGCTAATACATTTTCAGTTAATTCCATTATATCATTGTAATCAGCATAAGCTTGATAAAGCTCAATTGTTGTAAATTCAGGATTGTGTTTGTAATCTACACCTTCATTTCTAAAAATTCTTCCTATTTCATATACTTTCTCCATTCCTCCAACAACTAATCTTTTTAAATGTAATTCAGTTGCTATTCTAAGATACATATCTGTATCAAATGCATTTATATGAGTTATAAATGGTCTTGCATTTGCTCCACCCATAATATTTTGAAGAATTGGTGTTTCTACTTCAAAAAATCCTCGTTCATTTAAATATTCTCTCATATATCTAACAACTAATGATCTTGTTCTAAATGTTTTTATGACTTCATCATTTGAAATCATATCAACATATCTTTGTCTGTATCTTATTTCTTTATCTTTTAATCCATGCCATTTTTCAGGCATTGGTCTTATTGTCTTAGATAATAACTCTATTTCAAGAGCAAGTATTGTAAGTTCTCCAGTTTTTGTTTTAAAAGGAAATCCTTTTACGCCTAACCAATCTCCGGCACTTATAAATTTCTTAAAAAAATCATATTTTTCTTCTCCTATTTTATCTTTTCTTATGTAAACTTGTAGTCTTCCTGTATCGTCTTTTAAATGTATAAATGCTGATTTACCGTGAGTTCTAATTGTCATAATTCTTCCTGCAAATGAAAAAACTTCATTTTCTAATAAATCACCCGGATTTATTTTATCTTCAAATTTTAATTTTATTTTTTCAACATCCATTTCTTTATTAAAACTGTATGGATAAGGATTAAATCCATTGTTTCTCAATTCTTCTATCATTTTAATTCTTTGATTTCTTATTTCGTTTCCCACTTTACACCTCCGAAACTTTAATGTATATTTAATATTTTTATTTTTTTATTCTTTCCATTTAAGGTTTTTATTACAACTGTATCATTTATTTTTTTACCTAAAATATTTTTTCCTATAATAGATTCTGTACTTATTTTATCTTTTTTTATATCTGCTTCTTGTGGTGTTACCAGTCTAAATTCTTTATCAATTTTTAGTCCATAATCATGAATTTTGACTATTTTTCCTAATTTTACTTCTGTATTGTTTCCTTCTTCATCTTCTAAAATTTCTGAATTATCCAAAATATATTCTATTTCTTTTATTCTAGAATCTATTTTCCCCTGTTCATTTTTTGCTTCTTCATATTCTGAATTTTCTGAAAGATCTCCGAGTTCTCTTGCACTTTTTATTTTTTCTGCAATTTCACCCATTAATCTATTTTTTAATTCATCTTTTTCTGCTTTTAATTTTTCATACCCTTCTTTAGTTAATTTATATGTTTCAGCCATAAAAAAGCCTCCTTTTATTTCTTTAAGTCTTTTACTATTTCAAGAAAACTATCTATATCTCTAAATTCCTTATAAACAGATGCAAATCTTACATAAGAAACTTGATCTATTTTTTTTAACTCTTCAACTACCATATCTCCTATTTTTGTGGAAGATATTTCACTTTTACCTGTTTTTTTCAACTTATCTTCTATTCTCTCAACTATATCTTCTATTTGTTCTGAAGATACAGGCCTTTTTTCACACGCTCTTATTATTCCATTCATAACTTTATTTCTATCAAACAATTCTCTCTTTCCATCTTTTTTTATTAACCTTAATTTATTATCTTCATATCTTTCATATGTTGTAAATCTTGCTTCACATTTTAAACATTCTCTTCTACGTCTAACAGAATTCCCATTTGCACCTGGTCTTGAATCTAAAACCTTTGTTTCTTCGTGTCCACAAAATGGGCATTTCATTGTTTATTCCCCCCATTATTTTTTAATTCTTGTGAAATTTTTGATATTTTTTTTAATTTACTGTAAAGCGTGGATTTTTTATATCCTAAATTTTCTGCCATTTCACTCAAACTTTCATCTGAATTATTCATTCTATATTCAGCTATTTTTTTTAATTCTTCATTTAAACTTTCTAAACCTTTATTTCTTATTATATATTCTATCTCTTTTATTTGCTTTGAAGAACTTTCAGCTGTTTTTAAAGCATTTGCTGTTATAAAGTTTATTGTTCTTGTAACATTTCCTTTTAGTTCTCTTACTTTAACTATATCCATTAATTTTTCAACGGATTCATTTGCTCCCATTATTTCTAATATAGATACAATGTCTCTACTTGCTTTTATATACAATTTTATTTTATTACTTTTTATTATATAATTTGATTTTACTCCAAGAAGTTCTTTAAATGTTTTTATTAAATCATTCGCATACTTTTCTGATATATCTAAGAAAAATTCTAAATGGTATGATGATTTTAAAGAAACAGATCCAGTAGTAAGGAACATTCCCTTTAAAAAAACTCCAAGTTTTATTGGATCTTCTTTTAAAATACTAGGTACTTTATCTTCAAATATATCTATTCCTATGTTAAATATTATTTTTTCTGCATACTTTAAATCTAAAAGAATTTCTCCTGTTCTACCTATTCTTAATCTTCTTTCAATTCTAACATATGCTGTTATCCATTCTCCAAATAATTTTTTACACAATTTATATACTCTCTTCATAGAAGAAAGAGAGCTAACAGTAATTTTTAAATATTTTTTATTCCCATCTATTACAAAATCGCCTTTTCCTTTGATTGCTCCATATAATTCTATTTCAGGATATAAAAATTCTGTATTAACTATCGACATTTTTACTTCTTCAGAAAATGTAGGCACTTTATTTTCTCCTTAATACTATCAAAATTATATTAACACTACAATTATATTTTTAAAACATTAATTCAACAAAATGTGAAAAAACTAATTGTTTGTATACATTATATCACTTTTTATCTTTTTTTATTCTTTATTTATATCTCTATGTTCAATGGAAACATCTTTTCCTTCAGCTTTTAATTTTTCATACAACTTTTGTGCAATATATACAGAACGATGTTTTCCACCAGTACATCCTATTCCATATACAGCTTCTATTCTACCCGCTTGACCGTATTGTTCTTGAATAAACTTTGCATCTGAATAAATTAAATCAACAGTTTTTTTCACTTCTTTAAAACTTTCTAAATAATCTTTTATTTTATCATCTAAGCCTGTCAATTTATACATTTTATAAAAATAAAATGGATTTGGTAAAAATCTAACATCAAAGATATAATCTGCTGATCTTGGTATTCCATTTTTAAAACCAAAACTAATTATTTTTAACTTCAAAGTTCTCTTATTTTCATTTATTATTTGAAAAAATTTTTTTCTAAACTCTGAAGGTTCTGTATTTGAAGTATCAATTATTATATCACTTATATTTTTTATCTCATTTAATATATCTCTTTCTTTTTCTATAGCTTTTTCAAGAGGCATGTCTAAAGGATGGTTTCTTCTTGATTTTTTAAATCTATCAATTATAGTTTGAGTATCTGCATCTAAAAAAACCTTTTTTATTCTTATATCACATGAACTATTCTTTTTTATATTTATAAAACATTCCGTAAGTTCATTAAATTTCTTCCATCTTATATCACTAACTAAAGCTAATTTTTCAATTCCACTTGTACAAGTTACATCTAAAAATGATTTTATTAAGTGTGGTGGAACATTATCAACAGTATAATACCCTTCATCTTCAAGCGATCTTAGTAAAAAGGTCTTTCCAGCACCGGAAAGACCTGTTATAAGAAAAACTATAGGATTATTTTCCAAAGTATTCACCGCCTTTAAAATAAGACTTATTTTTAAATAAATCAAGTTTATAATAGGATGAATTATAGTATGTTTTTTTCAAAAAACGTTTTGATAAAAATTTAAATTGCTCAACATTGCCAGTTATATAAAAATTTACCTTGGGTACTTTTTTATTTGAAAATAATAAATATTTGGTATTTAATTCTTTTATAACACCATCTGCTGGATCTATTATTGTAGCATTTAATCTTTTTAAAATGTGCTTTTTTAATATTGGATAATGAGTACATCCTAGTATAACTTTATCAAACTTATTTTCGTAATCTTTTAAATAATTTTTCACTATTGAATCAGCCATTGGTCCATACCAATATCCTTCTTCAACCAAAGGAACAAATAATGGACAAGCCTTTTCATTAATTTGTTTAATACCTTTTTTTATTAACCCATTTCTATAACTACCAGAGTTAACTGTATTTTTTGTAGCTAAAAGCAAAACTTTTTCGCCTTTTTCAATTTGATTAATTCCATTGTCTATTATACTAACATATTTAAACTTTCGATTTTCTACCTTTACTAAACCCATTTTAACTAAAGAATCTGTTGTATTACACGCAGAAATCAATATATCTACATTCAAATTTTCAAAAAAATCAAATATACCTTCGAGTATTTCAACCAAAACTTCTTGTGGTTTTGATCCATATGGGACTCTCAAGGTATCTCCAAAATAATAATATTCATTATTTCCATAATTTTTAATAACTTTTTTTAATACAGTTAATCCCCCAATTCCAGAATCAAAAAAACCTATTTTCATTTAATCAACTCCCACTACAAAACACTTTTTGTATCATAAAAGTTTGGTAAGTTCTCTATTTTTTCTTTATATTCATTCAATAAATCTTGTGTTTTTTCCTTAAAAATTAAATTATTTAATTTTTCATTCAACAATAACAAAAGCAAGATATGATTTACTTTTTGCTTTCCAATTTTTTTAGATAAATCTTCAACATTTTCTTTTATTTCTTCTAAAATAGGATCAATAACTTCTTGTGGTTCGTTGACTTTAAATTTATAAATTTCATTTAAAATTTTTATTTCTACAACTTTATAATCCTCGGACAATTTTTCCACCGCCGTTAGATATTATTTTCAGTTAACTTTTCTATATCTTTACCTATTTTTGATACTAATTCTTCTTTTATTTGTATTAACGTTTTTTCTATATCTTCATGTTTGTTTCTCAATCCATTTAGTTCTGTTAACATACTTTCTTTTTCATTCAATAACGATTCATATTCACTATATAAATCATCTCTTTCTTTTTCCAAAGCTTCTTTTTCTTCCTTTAACTTATTATACTTTTCCATAAGAGTTTTTATCATTTCTTCAAGTTCTTTTAGTATTTCCATACTTTTCCCCCCAATATTTTTTAATCTTAAGAATATTATAGCATAATTTTATAAAAAAATATAATAGTTTTATGAAAAAATAGCCATTTTAAAATTTATTTTTTTCATTTTGAAATATTTAAAAGTTAATGTATAATCTTAAGTGTTAAAAAGGGGGAGAGATTTTTATGCTGTACATAAAAAAAATTTTAGAATTAGTTAGTTCATTAGGTACACCTTCTTTTCACTCTAATATAGGACAACTTATTTATTCTGAAACTCAAAGTAATAAACTCGTTATGATAAGAAATATCGATAATATTTGGATCGTTTTAGATGCAAAAAAAATAGTTCCATCTAAGTTAGAATATACTTCATTAGAAGAAATATTATCAGAATTTCAACTTGAAAATATTTTTGAATTTCCTTTTTCAACATATATACTTTGCGATGGAAATTTTGAAGATACAGATACAATAGAATATTTAAGCAACGCCTTTGAAAAAGAGAGTGAACTATATGAAAAAAATAGATTAATGACTGTAATTGACAGACTATCATATCAACTATCTTCAATAGAAAGCCTTGTTTTAAATTTATCTGAACCGTTACAAGAAGAAAAATTTATAGATATAATACAAAGCAGTATAGCAGAACTTCTTTTTTGTAGTGCTTCTACTTTTAAAGTAAATGGATTAAAAGCAACAAAAATATCAGAAATTGGTTATATAAAATCATCAAAAGATTTTATTGACTTAGATGAAATTTTATTGTCTTGCATAGAAATGTCATTACCTTTAAACTTAGATGATGTAGACGGTTTAGAAACATTAAAAGAAGATAAGATAAAAGTTATTATTCCAATTGGTAACTTAGAAAATAATTCATTTTTAATTTTTATAACTAGAGATACAAAAATAGAAGAAGAAGAAAAATTATTTATAAATACAATTTTTAGAATTATACAACACTTTTATACAAAACAATTTATAGAATTAATTGATTTTAAAGAACAGTTATCCTTAAAAACTTTAAGAATATTACATACTTTTGATAGTTTAATAGAAATGTTAAAAGAAGAAAAAAACTTAAAAGAAAAGTTTATAGAATCAATAAAAACTTTAAATGATGTAGAAAAAATAACTGAATTAAACCTTGAAATAAATTTGCCAAATGGAGTTTATACATCAAAAGAAGCAAATATTAATGTTAAAAATTCAGATATAATAATTTCATACCCAGATACTTTAGAAAAAAATAAACAAAATTTTTTATGTATAAAAATAAATTCTACAGAAAATATATTAGAATTAATAAATATAATGAGTTTAATATTGGATGGCTATGAAACTATATTAAATAAAAAACAAAAGGGATAACCCTTTTGTTTTTTATTTAGGTTTAACAACAAACTTTATTGCTGTTCTTTCTTCTCCATCTATACTAACATCAGAAAATGCAGGTACACAAACAAGATCTATTCCACTTGGTGCTACATAACCTCTTGCAATAGCTATTGCTTTTACAGCTTGATTAACAGCTCCAGCTCCAATAGATTGTATTTCGACCTTACCTTTTTCTCTTATTATTGCAGCAAGAGCCCCCGCTACTGCAATAGGTTTTGAGTTAGCAGCTACCTTTAATACTTCTAATTCTGCCATATAGAGTTTCCCCCTTTAAGTAAATTTTGCTATATATAAGTGCTTGAACAATGGCGCACCTAGCGGGGTTCGAACCCACAACCTTCGGATCCGAAGTCCGACGCTCTATCCAGTTGAGCTACAGGTGCAAATTCCAAAGAAATTATACCTTAAATAAAACTTAAAATCAAGTACTCATACAACGCTCATCTTTTAAAAAAATTAGACGATAATTTATTTGAAAAGGAGGGATTGATATGGATATAAGGAGGATAGAAAGTCAACAATCTCTTAATATGAAGAGAATACAAGACAATAAATTAAAATCTATAGAAAAAAACAAAAAAGAAAAAATAGAAACACCCTTAAAAATATCTGGAGAATCCAAAAAATATATAGAAATTGCTAAAAGTCTTCCAGAAACAAGAACAAGTTTAATTAATAGTATAAAAGAAGCTATTGATAATGGATTATACAAAATAAATTCTAATAAAATTGCTGAATTAATGTTAGGAGATAGATAATATGGATTTAAATAAATTAAAGGATATTATCCGCGAGGAAATAGAAATCCTTACGGATTTTTTTTCTATTTTAGAGGAGCTTCAAAATAAAATAATAAACAAATCAGAAGTATCTGAAATAAATTCTACATTATTAAATATTGAAAAAAAAAGTTCTAATTTTTGGAAAATAGATGAAGAACGCAATGAAATATTAAATAAAATATGCACTGAAAATAAAATAAAGAATAATATAAAAGAAGTTATTGAATTTTTTTCAAAAGAAAACAAAGAAATTGCTATTTTACTTGCAAAATTAGTAGAAACAATGAACGAATTTACTATTAAATTAGATATGCTAAGACAAATAATTGGATTCCAAACAAATTTTGACAACTTAATAATAAAACTTATAAATATTGATAAAACAGGAAAAACAACGTATGGAAAAAATGGTTACAATAAAAATATAGAACCAAGCAATAATGGTTGGAGGGGATAATAATGTCTGATTTTTCAATTTTTGGACTTTTAAATACAGGAATGCTTGGTATTTATACACATAAACTTGCAATGAATGTTGTTGGGCATAATATAGCAAATGCAAACACACCAGGATATTCCAGACAGAGGCCTAATATAATAGCAACACCACCTATGCCTATGAATACATTAACAAACCCTATGGTTCCGCTACAAATTGGAACAGGTTCAAAAATCAAAGATATACAAAGAGTACGTGATGATTTTTTAGACGTTCAATATAGACAAGTGTCAAACAGATATAATTATTGGGACAATGTAGAAGGAAATTTGCATTATATAGAACAACTCTTTGGAGAACCTGGAGAAACTGGAATAAGAAATTTATTTGATAGTTTTTGGGCATCAACACAAGAACTAATTTCAGATCCAACAAACGAAGCAGCTAAAGGACAAATAGTTTCAAGAGCTACTGAATTAAAAAATACAATGGTAGATCTAGATTATAGACTATCTCAATTACAAGATGATACAAATAATGAAATTAAAACAAGAGTTAATCAAATAAATACTTATTTTAAAAGAATTGCTGATTTAAATGATAAAATAAGAGGAATACAATTAATTGGCGCAACACCAAATGATTTATTGGATGAAAGAGATAGAATACTCGATCAACTTTCTGAATTAGTTGACTTGAATGTAAATCAATTTCCAACCGGTGAAATAGCTCTTAGAATAGGAGATAGAACCTTATTAAATGGTGGAACTTATCAAGAATTAAAAGCCTATACTATTCCTGGAACTAATGGCTTTATAAATGTATATTCTAATAATGTTCCAGTTCAGTTCAAAGATGGAAAATTTGCAGCTTTATTTAAGTTAAGAGATGAAATTGTACCAAAATATAGAAAAAAATTAGATGAATTTGCAATAAATCTTGCTGATGGTGTTAATTTAATACATCAAGAAGGCTGGGATTCAACAGGAAGCATTACTGGAGCTAACTTCTTTAAAAGCATAAGCGCTTCTAAAGATACAGATGATGCAAGATTATTTAGAATTGCTGGATACAAATATTTAAAAAATGGACCAGTAAATTATATTACAAGTAAAAGAAGCTTTAATGTTAATGGATTAGATGAAATAAAATTATTAAATCCAACAAAATTGGTATCTATAGATTCAAGTTCATTGCCAAAAATTTCTTTATTAAATGGAAATACTAACTTTTCATCATTAAATACAGCTATAACTAATTCAACAAATACAGATGGAATAACTATAGATAGTAATTTAAAATTTGCTTATAATTCAAAAACAGATAATTTAACTCTTGAAAATAATGGCGAAAAAAAATTAAGTAATCGTTTATTAATAGATGTTAATGGAACTTTATTTTCTGATTATGGTTTTAAAACAAAACAAATAACTGCCATGAGATTCAATAAAGATGACTTTGTAAGTGGATCTTTTTCTTTTGATATAACTGATTCCACAACAAAGCAAAAGAAAACAACAACTATAGACTTTTCATCAGATTTAAATTCAGATGGAACAATAGATTATAAAGATATGATTAAAGCTATAAATTCTGATACAGATGGTTATTTAAAAGCTTTTGCTGATGAAGGAAATGGCAATGTATACATTACAGGTACTGAAAAAATAGAAAATTTTGATATAGATAACGTTGTAATAAATGATTCAGAAGGAATATTTAGTAAAATGAAAACAGATAAAGTAAAGTTAGATGCCCTCGATACATCAGAACCTACACTCAATAACATAATTAAAGATGAAACAGGTAATGATATAAGAGATAATATATCATTTGAAGTTAATGGTATAAAAATAACTTTAAATCCAGAAACGGAAACATTAAATGATATTGCTGAAAAAATAAATGCTTTAAATACAGGTGTAACAGCTTCATTTACACCAAATGGGCGATTTGTTCTACGAGGTGGAAATTCTATAGATTTCAACTTAAGAAATTCAAGTATAAAAGGACCAGATTATTTATTTGCTTCTCTCGGATTAATTGATGATGATACTAGTTCACTTACAGGTAATGATATAACCTTAATTTCGGTTGATAAAAAAATGTCTCAATTAAATGAAACTTTAAAATTAGCTAATGTTTTAAAAATAGATAATGGACTTGGATTAGTAAATAGATTAGATGTTTTAGATTCTATAAAATCAAATCCTTCAACTATTTCTATTGATCTTGGTAAAGTATCAACAACAGATTGGAAAACATCAACAAGAGAACCCGTTGGATTAAATAATCCATCAGTTTGGGAAGAAATTTCAAAGTTAAAAACGGAACCAATTTTAAACGATGGAAAAGATGGATTTTCAGGTTTTTTAGCCTCAATAGTTGCCGAAATGGGAGTTCAAGGTGAAACCGCGTCTAAAATGAAACTTAATAGTTCTTATTTAAAAGATCAAATTGATTCTGAAAGAGAAAGAGTTAAAGGTGTTTCAATAGATGAAGAAATGTCGAATTTAATAAAATATCAACAAGCTTTTAATGCCTCAACAAGAGTAATAAATGCCGTTGACGAAATGATTCAAAAAGTAGTTAATGGACTTGGATTAGTAGGGAGATGATTATAAATGAGAGTTACTGAAAACTTAATTAATAATAGAGCTTTATCTGATATACAAAATGTAATGAGAAGATATGCCGATTTAAATTCTCAATTAACCTCTGGAAAAACTGTAAGATACCCTTCAGATAATGCATCAGTTGCTTCCAGAATTTCAAACTTAGACAGTAGAATAAGAGAAATTGATCGTTACAAATCAAATATAGATTTGGCCGAAACTTATACAAATATGTATGATACTACAACAAAAGAGGTAAATTCAGTTTTTTTAAGAATTAAAGAACTTGCTGTACAAGGAGCAAATGGTACTTTGAGCGATGAAGATAGAAATTCAATAGTACAAGAATTAGGAAAATTAAATGAACATTTAATTTCTGTTGCCAATACCAAAATAGGTAATAGATACATCTTTGGAGGAGCTCAATCAGATAAACAACCCATATCCTCTGATGGTTCAGTTCAAACACTACCAAGTGCAAATATTAAACAAAAAATTTCAGTTGGTGGATACAACATTGAGTATGGTTTAACTGCATATGATACTTTTGTAACAAAAAGTGGAACTACTGCATTTCAAATTGTAGATAGATTAAAACAAGCACTTGCTGATGGAAAAAATGATGAAATACAAAATGAACTTGGAGCCATTGAAGAAATACAGTCTAAAACTTTATCTGCAACTGCTCAAATTGGAGGCACTGAAAAAATGCTAGAATTATCAAAAACTAGAATGGAAGATTTTAATCAATTTACAACAGCATATCTTTCAAAAGAATCTGATGCTGATATAACTAAAGTTTTAACTGATTTAAAAATGCAAAATATGGTACTTCAAAGTGCTTTAAAAACAACCGCTCAAATAGTACCTCCAACATTAGTCGATTTTATGAGATAACAATGAGGTGAAAAAATGAATGTTACTACAAAATTAGGTATTTCAAATATATCAGAAAAAGAAATAATTACATTTGAATATGGAATGCCTGGATTTGAAACTTTAAAAAAATTTGTTTTATTAACTCCAGAAGAAAGCAAACCAATAATGTGGTTAGCTTCTATTGAAAATAAAGAAATTGCTTTTCCTGTAATTCATCCAGAATTAATAAGATCCGATTACTCTATTACACTACCAAAAGATATAGTTGACTATTTAGAACTCAAAACATCAAAAGATGCTTTAACCTTATCAATATTAACAATAAATGATACAAATACAACTATAAATTTATTAGCACCCATTATAATTTCATTAAAAAATAAATTAGGAATACAATTAATAATTGAAAATACCAATTATACAACCAAACATGATTTAAAAGAAGAGTTAAAAAGAACTAAAGTACTAAAAGGTGCTGATTAAATTGTTGATTTTATCAAGAAAAAAAGGTGAATCTATAATAATAAAAACTAATGACAAAACTATAAAAATAAAAATTTTAGAAAATAATGGTGATATAAAAATTGGATTTGAAGCTGATAAAGACATAAAAATATATAGAAATGAACTCTATGAAGAAATTGCAAAAAATAATAAACAATCAATTTCAGATTTAAATTCCTTAAATAAAATAAAAAATTTATTTGATAACAATGAAAACAGCCTTTAAAGAAGAATTTTTATCAATTTTCTCAAAAAATAATCTTCCAGAAATAGCCTTAATAGGTGGTATTAATATTGAACATATTGTTGGAAAAAACAACAATATAAAAACTATTGTTGGAGGTAGAAGTGGACGATTATCTGTATTTCTAAAAAAAACTGGACTTTATCCAGAAGTTTTTTCATTTTTAGGTCAAGATGAATTTTTAAATATGATATTAAACTACTTTGATTCTCAAAATATTCCAATAACTTGGAGTATTAATCCTTCTGGAAATAATATTGATGTTAGAATTTTAAAAGAAAGTAAGGTGTATTCTGATAAAAGAGATGAAAATTTAACAATAAGTCCAATTTTTCTAGATGAATTTTTAAATAATATTGAAAATATTTTTATAAAAGTAGAAAAATGGAATATAGATATACTAGATTATATAATATATAAAAAGAAAAATATTTTTCTCGATTTAACCTTTGATGAAGCATTAAAATTTGAAAACTTAAAAAATGTATATTGTTTTGTAAAAAATAATGAAATACCTAAATCAAATTTGAAAGTACCAAACAATATTATTATTTTTTCCAAAAATAATATTTTATTTAAAAATAAAATATACTCCTTTAAAAACAATTTATTTTTAGAAGAAGCAATTTCTTCTTATCAAGCTTCCTTTATATATGGAATAATAAAAAATTTTAATTTAAATTTTATAAATGAGCTTTCAATTAAAAGTTTCAAATCTGCTTATAAAAACTGTTTTTTTAATTTTTTTTACTAAATACTTGACATACATTAAATCAAATGTTATAATTAATTTGGAAATATGTAATAATCAGGGGGAATGGGGGATATATTTTCTGGGTGTGCGAAAGCACCCCATTTATTTTTTTAATAGCTATTTATTTTAAATTAACAAAAACATGATATAATAAACGAGTTTGGAGAGATGGCCGAGCGGCCGAAGGCGCACGCCTGGAACGCGTGTAATGGTAATCCCATTCGTGGGTTCAAATCCCACTCTCTCCGCCACAAAAAAGAATGCAATGCATTCTTTTTTTTTAAAAGCCAATTTATACATTTGTATATTATTAATTTTAAATAATAACTATGATTCATTAAATATTTAAAAACTTTGAATTTTGTCAATTTTATCTGGTATAATTAAAGTAATAAAATATAAATTACCCGCTTTAAAAAACGGGTGTGGATTTTAATGGAGGTATAAATATTGAAAAAATTTAATATAGTAAGATTAGGATGTCCAAAAAATGATGCAGATATGGATATATTTAGAGGTATTTTAGAAAAAAATAATTATTCTTATGAAGAAGATGCAAAAAAATGTGATTATATTTTTATTGATACCTGTGGATTCATAGAATCTGCAAAGGAAGAATCTATAAATACTATCTTAGGATACGCAGAATTAAAAAAAACTAATAAAAATTTAAAAATAATAGCAATAGGATGTTTGATTGAACGTTACTTTGAAAATTTTAAAAAAGAATTAAAGGAAGCCGATGGTTTATTTGGTGTTGTTCCTCCTCAGGTTATTTTTGATAAAATAAATAATGGAAATATGTTTTTTAAATTACCTGAACCTATGGATGTATATGAATGCAATGAAAGATATATACCAAATACATCATATGCTTATGTAAAAATTGGAGATGGCTGCAATAGAAATTGTGCTTTTTGTTCAATTCCTTCATTTAAGGGTGCTCCAATGAGTAGAAGTATAGAAGATATAAAAAAAGAAGTAGAATTTTTAGTAAAAAATGGAAAAAAAGAAATAATATTAGTATCTCAAGATAATACACTTTATGGAATTAACTTATACAAAAAACAAGCTTTACCTGACTTACTAAAAGAATTAAACTCTATAGAAGGTGAATTTTGGATAAGAGTAATGTATTTACATCCTGATTTTTTAACAGATGAAATTATAGAAACAATACATAATACTCCTAAAGTAGTTAAATACTTTGATGTTCCAATGCAACATGGTTCAGACAAAATATTAAATAGAATGGGAAGAATCAAAAAAACAAAAGATCTTTTTAAAATGATTGAAAAAATAAGAAAAAATCCTAATGCAGTTTTAAGAACATCTATAGTCGTAGGATTTCCTGGTGAAACTAATGAAGACTTTGAAAAATTACTAAATTTTGTAAATAAAATTGAATTTGATAAATTAGGTGGCTTTGCTTATTCCCCAGAAGAAAACACAGAAGCCTTTACTATGGATGGACAAGTAGATGAAAAAATTAAAGAAAAACGTTTAGAAGAATTAATGATGCTCCAAAAAGATATTTCAGAAGAAATTATGATAAAACATATAGGAAAAAATATGAAAGTATTAATTGAAGAAAAAACCGATAATGTTTACGTTGGAAGAACTTTTATGGATGCCCCAGAAATAGATGGTAATATAATTTTCAAATGTAATAAAACTTTAAAAATCGGAAATTTTATTAATGTAAAAATAAACAACGCTTATGAATATGATTTAGAAGGTGAAGTTTTAGATGAATAAAAATTTAAATATTCCAAATACACTTTCAACAATTAGAGCTATTTTTACAATACCAATCTTTATTTTAACTATTTATAATAATTATTTATGGGCATTAATTTTATTTATCATTGCATCTTTAACAGATTTATTCGATGGAATGATTGCTAGAAAATTAAATCAAGTTACTGATTTAGGAAAGTTTATAGATCAAATTTCAGATAAAATAATGATAAATGCTATATTTGTTGGATTAATGCAAATAAAATTAATTCCAGGATGGTTCGTAGCAATTTTAATATCAAGAGATACATTTGTGAGTGGGATAAGAATGTTCTTAGCAAGTAAAAATATTGTTGTTGCTGCAAACAAATTAGGAAAATTAAAAACTGTATTACAAATGAGTTTAATTATTTTACTTTATTTTTATGGAATAACAAAGATAAATTTGAATATTTTAAACGAAATAATGATATATTCAACAGTAACTGTAAGTATAATTTCAGGAATAATTTATTTTATAAAAAGTTTAAAACATTTCTCATAAATATTCTAGGGGGAATTCTTATGGAAGAATTAAGAACCTTTATTGCTTTAGATTCAAATATAGAATTAAAAATATTATTAAAAGATACTATTGAAAAATTAAATAAAATGGGTTTCAAAGCAAACTGGACAACAACTGAAAATATACATTTAACACTTTTGTTTCTTGGAGATTTGTCTATGCATAAAATTGCCGAAATAGCTTATAAAATAGGAGAAAGAATATCTGGATTTCCTACATTTATTTTTGATGTAAATAATTTAGGATTTTTTGAATCTGAAAATTCACCTAAAAATTTTTGGTTTGGTGTAAGTGGTCAACAAACTTTACACGGATTATATAAAGAAATACAAAAAGCCGTTTCGCTTTGTGAAATAGAAGTACAAAATGAAGAATTTGTACCTCATATAACTGTAGGAAGAATTAAAAAATATCCTGAACACTGGAAAAAACTCATAAGTTCAATTGATTTTGAAACAATAAAGGTTCCAGTAAACTCTGTATGTATATATTCATCTACATTAACAAAAAAAGGTCCAGTTTATGAAAAGCTTTACACGATTGATTTTGAAGGAGGCGTAATTATTAATGGCTAAATCCAATAATAATGTTAGCAAAGAAGATTTATTAGAAAAACTTGTAAAAGAATTAGAAAAAAGTCATGGTGCTGGTTCTGTCATGATTATGGGAAAAGGTGTAGAAGCACGTGAATTAAGTATTGTACCAACTGGTTGTTTATCATTGGATATAGCTCTTGGTGTTGGTGGATTTCCAAGAGGTAGAATTATAGAAATATATGGTAACGAATCATCCGGAAAAACCACTTTAACTCTTCAAGCACTTGCAGAAGTACAAAAAGCTGGAGGTGTAGCTGCATTTGTTGATGCTGAGCATGCCCTTGATGTAACTTATGCAAAAAATTTAGGTGTTGATATTGATAATTTGGTAATATCTCAACCTGATTATGGAGAACAAGCTTTAGAAATCGTTGATTCACTCGTGAGATCTAATATGTTAGATATTGTTGTAGTTGATTCTGTAGCTGCTTTAGTTCCTAAAACAGAAATAGAAGGTTCTATGGGAGATACTCATGTTGGACTACAAGCAAGATTAATGTCACAAGCTCTAAGAAAGTTAGCTGGTAGTGTTAATAAATCAAAAACTATAGTTATATTCATAAACCAATTAAGAATGAAAATTGGTGTAATGTATGGAAATCCAGAAACAACAACTGGTGGAATTGCATTAAAATTTTATTCAAGCATAAGAATTGAAGTTAGAAGAGGAACACAAATAAAAGAAGGCAAAGATGCTTTAGGCAATGAAACAACTTTAAAAGTAGTTAAAAACAAAGTTGCACCTCCATTTAAAGATGCAAAAGTAGATATGATTTATGGAAGAGGAATTGCAAAAGAAAACGATATTTTTAACCTTGCTGTTGAAAATGGATTAATTCAAAGAAAAGGTGCTTGGTTTTCTTATATTAATTCAACTGGCGAAGAAGTTAGTTTGGGTCAAGGAAAATTAAATGCAATTGGATATTTAACTGAAAATCCTGAAATTATGGATTTTATGGAATATAAAATTAGAGAAAATAATAATGTTAAAATACCTGATGAATTAAGAAAAAAATTTGAAGTAAAAAAAGCAAAAAAAGAAAATAAATCTAAAGATGAAAAGAAAAATGAAGAAAAAGAAGCCTAAAAAAATTTTTGATCCAAGTGATATAAAAGCAGCTGAAAAATCAGCTGAATATTTAATTAGATATAGAATGAGATCAGAAAAAGAATTGTTATGGAAATTAAAAGAAAAAGGATTTTCTGATGAAATAATTTTAGAATTAATTGAAAAATTAAAAAAATATAAATTAATTAATGATAAAATTTTTGCTTACCATTTTGCATATGACAAATTAACTTTATCAAAAAAAGGTCCTTTAATAATACAAATGGAATTAAGAAAACTTGGAGTTGATGAATATTTAATTCAAGATACTCTAATTCAATTAAAAAACGAAATAAATATATATGAAATTGCTTTTGAATTAGGTAAAAAATACTATGAAAAAAATAATGACCTAATTAAAACTAAGAACTTTTTATATAAAAAAGGATTTGAACAATCAACAATAAATTATGTAATAGCTGACATTCAATAAAGGAGGATTTTAATAAAATGATTACCATTTTCATTGCACTTTTAGTAGGTATAATATCCATTTTTTTTGGGATTTATATTGGAAATAAAAAATTTATTGGTTCTTTAAAATTAAAAAAAGAAGAAATTGAAAAATTTTTAAACCAATCAAAAAAAGATGCAGAAGAACTTAAAATTAAAGCAAAAGAAGAAGCTAAGGCATTAAGAAAAAAAGAACTCGTAGAAGCACGTGAAGAAATACATAAAATGAAAGATGAAGCAGAACGTGAATTAAAAAAACAAAAAAATGATTTTAAAGTACTCGAAGAAAGATTAATTAGACGTGAAGAAAATTTAGATAGAAAAGAACAAAATATAGAAACTTTAAAAGAAAAATTAGAAACTGAAAAAGAATCTATTAAAGAAAAGTTATTAGAAGCAGAAAATAAATTACATGAAATTGCTGCTTTAACAGAGGAAGAAGCTAAACAAATAATATTAAACGAAGTAACAGAAAAATATGAAAAAACTTTAGCACAAAAGTATAAAGAAATGAAAGAAGAATATGAAGATGATGCTAAAAAATATGCAAAATGGGTAATTACAACTTCAATTCAAAGATATGCATCTGATGTTACTTCTGAAATAACAACGTCAACAGTTACATTACCAACAGATGATATGAAAGGTAGAATAATAGGAAGAGAAGGAAGAAATATTAGAACATTTGAAAAACTAACTGGAACAGATTTAATAATAGATGATACTCCAGAAATTGTTGTTTTATCTTGTTTCAATCCATTGAGACGTGAAATAGCAAAAAGAACTCTTGAAGCTCTAGTTGCAGATGGAAGAATACATCCAGCAAGAATAGAAGAAATATACGATAAATCAAAAAAAGAAGTTGAAGAATTTATAAAAGAAGCTGGTAAAGAAGCAATAATGAGAGTAGGAATAAAATCACCTCATCCTGAACTAATTAAGTTGCTTGGAAGACTTAAATTTAGAACAAGTTATGGTCAAGATGTGCTTGAACATTCTATAGAAGTTGCTCAATTTGCTGGATTAATGGCAAATGAACTTGGCTTAAATGTTGAACTTGCAAAAAGAGCTGCTCTTTTCCATGATTTAGGTAAAGCAATTGATCATGAGGTTGAAGGATCACATGCAATTGTAGGAGGACAAATAGCTAAAAGATACAATGAAAAACCAGCTGTTGTAAATGGAATTCAATATCATCACAATGAAGTTGATCCAATGACTCCAGAAGCAATATTAGTTGGTGCAGCAGATGCTTTATCAGCCGCTAGACCTGGTGCAAGACGTGAAGCACTTGAAAATTATGTAAGACGTATAGAACAACTCGAAGAAATTGCTAAATCATTTAGATATGTAGATAAAGCTTATGCAATTCAAGCTGGTAGAGAAGTTAGAATAATAATTCAACCTGATAAAATAGACGATGCTCTTGCAGAAAAATTATCTCACGATGTATCACATCAAATAGAAGAAAAAATGCAATATCCTGGTGTAATAAAAGTAACTGTAATAAGAGAAAAAAGAAGTGTATCTTACGCTTCATAAAAAAATACCCTTTTTAAAAGGGTATTTTTTTATTCTCTTTCTTTATTTAGATTTAAAAATTCAGTAACTACTTTAATTTCTTCCTTTATTATTTCTGGATAAACGTAACCTTTAAATCCCAATCCTATTAAAAACGTTTTTAAAACATCTGCTACTGTAAATGAAGCATCAACATCAAAGCCTTTGGCTCTCAATACATCTTTTATTAAAATATTAAATTTATCATCTATTTCCTTTATCATCTTTAATGTTATTTTTGATCTATATGGATATGTTATTATCTGAGAAAAAGCTGCCATATTATCTGATGGAGTAAATAGTTTTACTATTTTCTTTTCAAAATCTCCTGGTGCTTCTAATATGTCTGTTATCCAAGTATCTAATATAAATCTTGCAGTTTCTACCATTGCACCATCTTTTGAACCAAAATAATAATGCAAAGATGCTATGGTTAAATCTGCTTCATTAGCTATTTTTCTTGTTGTTGTAGCACTAATACTATTTTCATTTATTATACTTATTATTGAATTCATTAGTTCTTTTTTTCTCTTTAATCTTAGTTCAGGATTTGGTCTTCTTGCCATATTATTCACTCCTTTTCCTAAATTTTATAATTATTAATAATATTATAACCCTATTATTTTAATAAGAGATGTTTGATATATTAATTAAAAGTTAACGTTATAAGATTAAAAAATATCATTAAAGTTTATTTTTTAAATATGTTTCATTAAATATTTAAAAAGAGGTAGATAATCTACCTCTTTTTAAATATAATATAAATTATTTTATAGCATTAGTAACTGTTGTATATGTTTCTGTTCCTGTTTTAATAAAGTTCATAAAAGTTGTTACTGTATTCATTACATCAAAAACACCTGTAAGAGCATTCTTAGGAACAAATATTATATCTCCTGGATTTAACACTGGATTCATTGGAGATTTTATTGGATTTGAATTCATTATTCCACTTATATCAAGGGTTATAGGTGGATTTCCTGGACCATTTTTAAATAAAAATATCTTTGAAGGTTCCCCTGTTTGTTTTATTCCACCAACTCTAAATATATAATCTAACAAAGTTAATCCTTTTACATACTCTACAACACCTTGTTTATTTATTTCTCCAAAAGCATATATTAATTTTGGTTTTGACTGAGAAACAAATATTATGGATCCGGGTTCAACTTCATAATCTTTAATTTTTTCTATATCTTGAGTATTAACTACATCTTTTTTATCTTCTGAATAAACTATAACTTCATCCTGTACTTGCCAATTAAAATTAGTAGAAGATAATACATCAGTTAATTTAATAGGTATATCTGTTTTTAAAGATTTTGGAGAAACATTTCCAAGAATAGTTATATAAGAATACTGTGTTTCTGGTTGTACAATTACATACGAACCCATTGGTACTTCTTCTAATGTATTATTCCAAATATTTTTTTCAGTGTAGGATTTTATTAATTTATTATTATTATATATCTTTAAAATCCCTCTATTCACAGGTTCAAATCCATTTACAGAAGAAATTATATCCATTAATGTTACTTTATTTTTATTTATAATTTTTGTTACTCCTTCTTTGTATACTATTACATTATTTTCTTTTATCTTTGAAATATCAAGTATTACTTTACCTTTTAATTCTATATTCTTTTCTTTTTCTATTTCATTTCCCTTTATATTTCCAACATTTCCATCAACTGAATATTTTATATTGTAAGCTTCATTCAATTGATATTTTATTAATAAATCAAACAACGTATCTCCTGTATTATAAGCTCTTGAATCGGATAAATCGCCTATAATGTATGCTACTTTTTCTTCACTTTCAGCTATTATTGTTGACTGTGGTTCAAACACAATATCTTTATAAGTTTCTATTTTGTTCACATTTATATTGTATACTTTCATATTGCCATTTAAAAGGACATCTAATTTTCCAGAAAAATCATTTTTAAATCCATGAGCTAATGATAAAATTTTTGTTAATGTAAGTTTTTCTGGTGGATCAATAGCAATTCTTCCTGATATGCCAAAACTTCCTGAAAGGTACACATAATTCTTTAAATACTCTATTTTAACAAAATCTTCTGTATTTAATTTAGAATTCATATCAAATTCTTTAGAATTTACTGTTATTTTATTTATTACGCTTGGATTTATATTCAATTTTGATAAAATATTTTTTATTGTCATATCTTCGTTTTTTTCAAAATTAACTTTTACATATTTTTTTTCTGTATCTACATAAACATATTTTTGTAATTTTGTTAAAATTATAGTATCATTTCTTTTTAACAAAACATCTTCATTTTTTATTACTTCATCTATTGAAAAGATTTCTGTTTTTCCATCTCTTAATAAAGTAATTTTATCGTCTATGTTAGAAATAGGAACATTTTGCTTTGAAATAATATATTTTAATGTGATTCCATTGAAATATGTGAATGATGTTGTTCCAAACTCAGAAAAAACATTTATTTTGTTTTGATTTTCATAAGGTATAACAACTCTACTATTTTCTGTTATTATAGGATCTTCTCCAGTTCCACCATTGTATATCCAAGAAATATCATAAGTTTTTGTTACATTATTTGGATAAGTTACTACTGCATTAAATGATGATAAATAATCTTTTAATCCTCCAGATAGTGCTATTAATTCTGAAAGTTTTATTGAACTTTTTTGTATATTTATAACTCCATTTCTTGATACATTTCCAAAAATATTTACAATAAAAGGAGCATATTGAGTAATTCCAATAGTTATATTTGGTGTTTTTACATAGTTTTGTAATTTTTTTGATATTATATTTTCAACCTCTGAAACTTCCATACCAGATACTTTTATTCTTCCAATAGGTGGAACTGTAATAATACCCTCTGGACCTATTGTTAAAGAATCCATCGTATACTGTGGATATCCAAAAACAAACATTCCAATAGTATCTCCTACTCTAAGTGTGTATGAAAATAAAACTATTGGTAAAACAAATAAAACTATTAATAAACTTATTTTTTTCATACAAATCCTCCTTATATCATTTTTTGTATTAATTCTGTTTCTTGTGAGGTATATCCCAAAATTTCTAATTCATTCAATATTTTTTTTACATCTTCATTTTTATTAATTCTCAGTGCAGCTTTTGCCTTTAATATCATTGCATCTATTTTAAAGTTTTTTTCTGGTAAAGAACTATTTACAACCTTTTCATAACGTTCTAATTCAAAAAGTATTTTTATTAAATAATACTTTGTTTCATCTAAATTTATCCCTATTTTTATTGCATGTTCAAACAATGAGATTGCTCTTTCACTTTCACCTTTTAGCATTAAGCATACACCCGCATTATGATAAAACATTGGTTCTTTTGAGTTTATCGATATTGCTTTTAAATACATTAAAAGTGCTTCATCGTATGATTTTTTTGATAGTAAATCATTCCCTATTTTATTATAATAATATGCATCATTCACCAAGGCCAACACCTTCTGTAAAGTAATAAAGAGTATCACTAAGTATTTGTTTATTCATATTTATTGTAACTTTAGTTTGTTTTATTCCCTGAACTATTGGTGGAGTTAAACTATAATCAATCATATCAACTGGATTATATGCAAAATTTAAATATTTGTTTAAATAATTTTCTTCTTCAGGAGATATTATTATTCCTCCAGTAGTATAAATAATATTATTTAAAACATCTGTTAAATCATTTAAGTCTCTTAAATAAAAAATAGAACTTCCAGATAGTAGTAATGGAATTATTTTTTCAGCTTTTGGTTTTTCTTTAATATTCCCCTTTGTTATTATAAAAGAATCTGTTTTTATTTGTGAAATTCCAGTTTTAAAAAATTCTTCTATTGAATTATATGTATATACATTAGTTTTAATAAAATTTCTTGTATAATTGAAATTAACTCTTCCCCCAGTGTCATTAACATAAAAATTTTTTAATAAATACTCTATATTATTTCCATTAAGATCTGATACATTTATCTTACCACTAACTTTCAATTTTTCTTTATCAAAAAATAATCCATATATATTTATATTGTATATAGATTTACTTTTAGAAACAACTCTTTTAATATACACATTACTATTTTTAGAATCTATTAAAGTTAAAATTCCATACTTTAGTTTGATTTTTCCATAAAAATTTTTTATTTTTGTTGGAGTTACTTTTTTATTTTCTAAATTAAAAATGAAAATTCCTTTCTTATAAGAATCAATTAATAATGGTCCCCATGGAAGAACTGTAATAGAGTTATAAAAATCATTTTTATCTAATTGAACTTTATCTATAACTCTTTTTGTTAAAGTATCATAAACATATATTTGTTTTGAAATTGATTCTAAAAGATAGATTTTATTTTGATAATAAACTCCAGATGTAAAGATTACATTATAATCAAATTTTTTTTGCTGTAAAATTTCACCATCGTATCCAAATATTGTTAAGTATCCTTTGTATGAATCAAAAGCACATATTCTTCCAGCATTATCAACATCAAATACAGCATAACTACCATCATTAGTCAATTTAAATAATTTAGATTCTGTATTTGTAGAAGTAGTACTTTCAGCAGTATCTTTAAAATTTATATTAAAAAAATTATTTTTTGCATAAGAATTAAAATAATAAATTCCTTTGTTTGTTCCAAGATATATTCTATTTAATTTATTATCACTAGTCATTCCATAATACGTCATTTTTGGTAATTTTATCCATTGTTCTTCATCATTTTTCTTAAAAATTCTATTATTTGTAGAATCTAATATATATATTTCAGAATTTAAAACTTCTGCATCTACTGGTGAATAAAACCTTTCATAACTTTTATAATTACCATTTATTTTTTCAATATCTAAAAAAATAGGTGTAGAATAATCCGTTAATGAAAATTTTTCAATATTTCTAATAAAATTTTTTAATGTATTAACATTTTCATTCTGCGCAGAAAAAAGCAGGATATTATCTAAATCCTGCTTGGCTTTATCTATTCTTCCAAGTTGTAAATCAAGTTTTGCAGCATAATACCAAAATTTTGGTATATCTTCAATATAAACTTCTCCAGAAATTGCATCAGCAAGCTTTATTCTTGCTTCATATTTTTTATTATCAAACAAGAGTTTTAAACTTTCTGAAAATTTTATTCTTGAATCAAACTCTCTTTTAGTTAATTCACTTGTAAAAACATTTATAAACAATAAAAGTAGAATAGAAATTAAAAAAAACTTTTTCATTTTTTAATTCCTTTCTTAAAAATTTTAAATATATCTGTTTTATTTTCATTTCCATTTAATAATCTAATTATATTATCTTTGTGTTTATATGTACCAATTATAGCCAATATAACCATTAAAATACCAAGTTTAAAATCATAAAAAAAACTAAATATTGATGAAAGTATTAAAGCTGATATTGAAGCAACAGATACATATTTTGTTACTAAAGTTATTGGTATCCATATCATAACAAAAATCAATCCTGATATTCCACTAAGTCCAAACATAACTCCAGCAGTTGAAGCTACTCCTTTTCCACCTTTAAATTTAAGCCAGATAGGATAATCATGTCCTATTATAGCAAAAAAGGCTGTTAAGTATGGTATCCAAGATATATTACCATAGAATATTTTTGCAACAAAAACTGGAATAAAAGCTTTAAAAATATCAAGCATTATTGATATAAAACCAGGTAAAAATCCAAGAGTTCTTAAAACATTAGTTCCTCCAACATTCCCACTTCCAACCTTTCTTATGTCTTTTCCAAATAAAGTTGGTATAATATAGCTAAAAGGTATAGAACCGGCAACATAACCCAGTATACAAAACAAAATTACCGAAGTCAACCTTTTCACACCTCCATAAAAACTATTTTTTTCTTTCTGCAAACTTTATAAACAATGGTGTTCCAACAAAAGGATCTATGTATTTTCTTATCATGTTTCTTAAACTCTGTGCATAAGTTTTAGGAATATTTTCTGGTTGATTTGAATAGAAAGTAAATACAGGTGGCTTTACATCTACTTGTGTTGCATAATAAAATTTAATTCTTTTTCCCTTTTTTACTGGTGGTGGAGAAACCATCAAATATCTTTCTAAAGCTGCATTTAAAGCACTCGTTGGTATTCTTCTATTTCTTGACTTATTTACTATATCTATTGAGTCAATAAGTTCTTCTATACCCCACCCTCTCTCTGCTGATGTATATATTGCAGGACTATACTTTATATAATAAAATTCTTTTTCAAAATATTCTTCATATTCTTTTTTCTTAATAGATTGATTTTTAACAAGATCCCATTTATTAAAAGCAACTATTGTTGCTTTTCCTTTGTTTTCTGCAAGACCTGCAACTTTTTGATCTTGATGAGTTATTCCTTCGGTTGAATCAACTACAATAATAACAACATCAGCTCTTTCAATAGCTTTTATTGTTCTAACTATTGAATACATTTCAACAGTTCCATATTCAACAGTTGATTTTTTTCTCATACCAGCTGTATCTATAAACTTATATTTTTTACCATCGAACTCTACTATTTCATCAACAATATCTCTTGTTGTTCCTGGTATATCAGAAACAATAGCTTTTTTTAATCCTGTGATTTTATTAAACAATGATGATTTTCCAGCATTTGGTTTTCCTATTATTGCAACTTTTACTATTTCATCATCATTTTCTTCCCTTAAAGTTGTGTCAATTCCTTGTTGTTCCAATCTTTCTAAGATTGTATCTATCAATTCATCAATATTTTTATTGTGTTCTGCTGATACTGGAATAGGTTCCCCAAATCCTATTTCATAAAGTTCTGGAAGAATATTTCTTTCATACTTTTCATAAGATTCTATTTTATTTGCAACAAATACTATTTCTACTCCAGCTTTTCTTAAAAACTCTACTACATGTATATCTTCAGAAGTTATTCCTTCTCTTCCATCAATTACAAATAAAACTAAAGAAGCTTCCTTTACACTACTTAAGACTACTTGTTTTTGTTGTCTTTCTATAATACCCTCAGGATTTTCAAATATTCCACAAGTATCAACTAAGGTGAAGGCACGCTCACCCCAGCGTGCCTCACCGTAAACATGATCTCTGGTAACTCCAGGGAAATCTAATACTATTGATTTTTTTTCTCTTATTATTCTGTTAAATAAAGTTGATTTTCCGACGTTTGGTTTTCCTATTATTAAAACTATTGGTTCTGCCATTTTCTCACCTCTTAGGCATTAAGCATCTTCATTTACTTTTTTTATTGCCTCATCTAATTCTTTTCTTTCTTCATCTTTTATAACATCTAATACACTTATTACCATATTACCTTTTTTTTCTTCATTTTCAAATTCTATATCTAATACTTTAGCTTTTAATGAATCTCCTATTTTTAAAACATTTTTTATATCTTCTATTTTTTCATAAGATACTTTTTTTACTGGTAAAAAGGCTTCAACATTATAATCTTCAACAATAACAACGGCTCCAGTTCCTGCATATCTAATCACTTTTCCATTTATATAGTCTCCAACCTTTAATTCATTAACAACTTTTTTCCAAGGGTTTTCAATTGCTTGTTTTATAGAAAGTTTCATTTTTTGATTTTCCTTATCAATATCTAAAACTTTAACTTTTACATTATCACCATCATTTAAAGCTTCTTCTACATTGTCAACAAAGTTCCATGAAAGTTCAGAAACATGTACAAATCCAGTTATTCCTTCTTCAAGCTTTATTATAGCTCCATTTGGTAAAACTTTTTCAACTTTTCCACCAACTACATTTCCAATATTATATTTATTTTCAATTTCTTCCCAAGGATTTCCTAAAACCTGTTTATAACTCAAAGATAATCTATTTTTTTCTCTATTTATTCCAAGAACCTTAACTTCAACTTTGTCTCCAATTGAAACAACATCTTTAATTTTTCCTCTTCTTGCCCAAAAAACTTCTGATTCATGTACTAATCCTTCTACACCTGATTCTACTTTTACTGTGAAACCAAATGGGAAAATATTTGTTACTATTCCAGTAACAACACTGTCTATTGGATATTTTTCTTCTATATTCGTCCAAGGGTTATCTTTTAATTGCTTTAAAGATATTGATATTTTTTTCTTATCTTGATCTAATCTAATTATTACTCCTTTTACCTTTGAACCAATTTTTAATACTTCATTTATATTTACATTCTTATCCCAACTAATTTCACTTACTGGTATTAAAGCATTAACATAATCATTTAACTTAACAAAAGCACCAAAATTTTTAATGCTATCTACAGTTCCTTCTACTATCATATTTTCTTTATAATTTTCATAAATTTCTCTTTGTTGTTCTTCAATTATATCTTTTCTTGAAACTACTATTCTTCTTCCCCTAACTGATATTACTTTCATATCCATTTCATTTTCAGGCATTTTATCTGTTGGTTTTAACATAGATAAAGAACCAGGTAAAAATGCTCTAACTGCATTACCTATTAATACTTGATATCCTTTTTCTAACCTTTTTTCAAATTTTGTTTTTAAAACTGCTCCTTCTTTTATTTCTTCTCTTAGTTTTTCTCCTAATGCTCTTCTTTCAGAAGCAGAATTTATACCTGTTTCATCATTAGTTTTAGTAACAACTACTGATATAGGATCTCCAATTTTATATTCAGAAATATTTTTTACTAATTCGTCACTCTTTACAAGTGCATCTCCAGTTGCTTCAAGACTAACCCATATACCATCACTGGCTATTCTAACAACTTCTCCTTTAAATAGTTTCCCCCTCTTGATTTCATTCATTTCATTTTCATTCAATAATTCTTCAAATGACATTTCTTCCATTGTGAAACCTCCCTGTTATATTAAGAAATATTGCCTTTTAAGAAATCAACTACATCTTTTATAGACCATTGTGGTGTAGATGATCCCGTAAGGATTGCTACTTTTTCATTATTTTTTATGTTTTCACTTAATTCTTTATAATTTTCTACATAATGTGTGTTTTTACAATGCTCTAAAGAAATATTGTATAATTTTCTAGTATTAGAACTATTTTTTCCACCTATAACTATAACACATTCTGCCCATTTTGACAATTTTTTTGCTTCTTCTTCTCTAAAAGAAGTTTCTTTACATATCGTATTCTTAATTATTATATCAGAAAAATTATTAATCTCCATCATTTTCATATAAAATTTTTTGAATGAATCATTATCTACAGTTGTTTGAGATATAATACAAATCTTATTTGTATTTAACTTATAAGGTTCAAGTGTAATATTAATTTTTTTTTCGTCAACATTTCCCTTTAAACAAATCATTTCAGGATGATTTGTTTTTCCATAAACAACTATATAGTACCCTTTTAATTGTACATCATTTGTGTAATCAACTAAATTTTGTACTATTGGACATGTCATATCAACTACTTTTTTAAATTTTTTCAATTGTTCTCTTTCTTTTTTTGGAATTCCATGTGCTCTTATGACAACTGTACTATTTTCATATTTTTGTGGAAACTCTTTTAAATTATCAATCTTTTCAATTCCTGATTCTGATAAATTTTTAATAACTTCTTTATTGTGTACAAGTTCTCCATAAATATATACTTTTTCTTTTGATTCTTTTGCAAGAGTTTTAACTCCATTAAAAGCTCTATCGACACCATAACAAAAACCTGTTTTTTTAGCTATTTTTATTTCCATTTTTTAACTCCGATTCAACAATTGTATATATTTCACTTAAAACTTCTTCTATTTTTTTACCAGTTGTATCAATTATTTTGGCATCTTCTGCCGGTTTTAATGGTGCAATTGTTCTATTTGTATCAGCTTCATCTCTTTTTTTTATTTCAGTATAGACATCTTCAAAATTTACTTTTTCACCTTTTTCAATCAATTCTTTATATCGTCTATTTGCTCTTTCCTTAGCAGATGCAGTTAAATATATTTTAACTTCTGCCTTTGGTAAAACAACAGTTCCAATATCTCTTCCATCTATTACAGTACTTTCTTTAGAAGAAATTGATTTTAAAATATAATTTACTTTTTTTCTAACTTCAGGAATTTTTGCAACTCTTGACGCTAATTTTCCTGAATTATATGTTCTTATTTGATCATCTATTAACTTTCCATTTAAACGATACTTTCCTTCAGATAAGATAATATCAATATCGCCAAGGGAATTAACTATTCCATTGGCGTCTTCTAAATTAATATTTTCATTAAAAATATAATATCCTATTATTCTATAAAGTGCACCACTATCTAAATAATTTATATTGAATTTTTCTGCAACTTTTTTTGCTATCGTAGATTTTCCAGAACCAGCAGGTCCATCAATTGCTATATGTATCAAAACTCCCATCCTCTCAAACTATATTTCAGATTCTGTATCTATTATTCTTATTATTTTGTCTAATTTTGTCATTTCAAATATTTTTTTTACTTGTGGTTGGAGAGCATATAGTACTAATTCTTTTTTAGCTTTTTTAGACTCTTTTATTAAAGACACTATCGAACCCAAGCCCGCACTATCTATGTATGAAACTTCCGAAAGATCTAAAGCTATCACTTTTTTATCCGTATTATTAAAATGTTCTAAAACTTTTTGTTTAAAGGTTGCCGAATGGTATGCATCTATATCTCCGATAGTTTTGATAACAAATGCTTTTTCAATTTCATTAAAAGTTACTATAAAATCCATAATAAATCCCCCTTTTTTATTCAATTATTTTTAATTTTAAATTCTTCAATTGTTTTTCATCCACTCTTGACGGAGCTTCTGTCATTGGACTTGATCCTGTTGCTGTTTTAGGAAATGCTATAACTTCTTTTATTGAATCCTCTTCACAAATAACAGCAACAAGTCTATCTAAACCTAATGCAGCTCCAGCATGAGGCGGTGCTCCATACTTAAATGCTTCTAAAAGAAATCCGAATTTTTCTTGTATTTCTTTTTCCTCTAAACCTATCATCTCAAAAATTCTTTTTTGTATATCTTTTCTGTATATTCTTTCACCACCACTTGCCATTTCGTATCCATTAATAACTAAATCATAACATTCTGCTTTTATCTTTAATGGATCATCTTTATACATTTCTAAATCTTTTAAATTAGGCATAGTAAATGGGTGATGTTCTGCTGTAATTCTGTTTTCTTCTTCATCCCAAGCAAACATAGGAAAATCAACTATCCATAAAATATCAAATCCAGATTTCTTTTCCATTTCTTCCTTTATTACTTTTACTCTTAACTGACCAAGTAATTTATTAACTTCTTTTCTATCTCCAGTAAGAAGTAGCATAACATCTCCATTATCAATTATACCATGATTTAGTATATCTTGTATTTCTTTTTCTGCTATTTTCTTTATTGAAGATCTTACTTTATCACCATCATTTGCAATCCATATCAATCCAGTTGCACCAAGTTGTTTTGCTGATTCGGTAAAGTAATCAAATTTTTTTCTTGAATATTCTTTTGCTTTTTTAGGAATAACAAATCCTTTTATAACTCCATTATTATCTATTTTTTCTTTTATAAATGATGCTTGCGTATTTTCAAAATATTCATTAAGTTCTATTAATTCCATTCCATATCTTGTATCTGGTTTATCACTTCCATATTTTTCTAAAGCTTCATCATAACTCATTTGTCTAAATGGAGTCTCTATTTCCAAACCTACTGCTTCTTTAAATATAGCTTTTACGAGACCTTCACCATACTCAAATATATCTTCTTTTTTTACAAAAGATGCTTCAAAATCTATTTGTGTAAATTCTGGTTGTCTATCAGCTCTAAAGTCTTCATCTCTAAAACACCTTGCTATTTGAAAGTACTTATCGAAACCTGATACCATTAATAATTGTTTAAATATTTGTGGTGATTGAGGTAATGCATAAAAATTACCTGGTTTTATTCTTGAAGGAACTAAAAAATCTCTTGCTCCTTCAGGAGTTGATTTTGTTAAAAATGGTGTTTCTACTTCTAAAAAACCATTTTCTGATAAATATTTTCTTGATGCTTGCATTATTTTATGTCTCATTATTAAATTTTTTTGCATCTTTTCTTTTCTTAAATCTAAATATCTATACTTTAATCTTAAATTTTCAGATATATCCTCATCTTTATTTACATAAATTGGTGGAGTTTCTGATTCTGAAAATATCTCTATATCAGTAGCCAATATCTCTATATCACCAGTTTTCATATTTTTATTTATAGCATCATCCGGTCTTTTCTTTACAATTCCTTTTATTCCAACAGTATACTCATTTCCCAAAGTTAAAGATTTTTCATACAACTCTTTGTTTTCATTTGGATCAAAGAATATTTGAGTTTTACCATATCTATCACGTAAAAGTATAAATTTTATTCCTCCAAGATCTCTTATTCTATCTACCCATCCATTTAATACTACCTCTTGCCCCTCATATTGAGCATTCAACTCTCCACAATTATGAGTCTTTTTAAGCAAAACAAACACCTCCATACAATAATCAATATTATTGTGCCATCAAATTATTATCACATTATTACTATTTTACCATCTTTTATGATAAAATAGTAGTAGCTTTTAAAAATTCTCAGGAGGTGTAACCGTGAAGCGAATACTTATGTCCGTTTTAATTATCATTTTTACCTTTAGTTTAGCTTTTTCTGTAAACTTTAAAGACGTCCCAGTAAATCATTGGGCTTATGATGCAGTTCAAAGAATTGCAAGTATAGGAATATTAGAAGGATATCCAGATGGTACTTTTAAAGGATTAGAACAAGTCAATAGATATCAATTAACTCTAACTGTTTCAAGAACTATTGATTATATTGAGCAAAACTTAATATCTACTTTAGCAGAAAAAATATCTGAATTAGACAAAAAATTATCTTCAAACTCAGGTTCATCTGATGATGTTAAATTATTAAACTCTAAAATTTCATCTTTAGATGAAAAAACAACATCTTTAGAAAAAAATATTAGCGATTTAAAAAATTCTTATGAATTACTTGGATATACCGTATCAAAATTAGATAATTTACAAAAAAAAGTAGATGCTTTAAGTGTTCCTAAAGATACTTCAACTGAAGTTACTGAATTAAAAAAAGACATTGAAAAATTGAACTCTCAATTTTCAGATTTGTCAGCTGTTATTTCAAATTATGAAAATATGGGAACAGATTTAAATGCTTTAAACGCAAATGTTTCTACAAATAAAAAAGATATATCAGATGTAAAAACTTTAATATCTGCTTTAAATGCTAAAGTTGACTTAAAAGCTGATGAAAATAAAATAAAATTGTTAGATTCTAAAATTTCAAAAATTGAATCTGTTTCATCTCAAAATTCTTCAAACTTATCCACTGTTTTATCTTTAACATCAAAAAATAAAAATGAAATAGATGCTTTAGCTGATTCTGTAAAACAATTAAATTCAAAAAAATCTGATTCAAATGGTATTGATTTCATGGATATTTTATTATCTGTTTTAATTTCAGCTGGAGTATCAATAGCTGTTGTTGCCTTTATGAAATAATAAAAAGTGCGAATTTTAATTCGCACTTTTTATTATTTTTATTATTTTTTCATAAATTTCATGTGGAGTCAAATGCTTATCTTTTTCATAAGTTTCCACTTTATAAAATGTATCATCTTCTTTTACTAACATTAAGTACTCATTTATAACATTCTTTTGCAACTCAAAATCTTTTTCGTGTATATCCTCACTTCCATTTAAATAATTTCTATCTTCTCCACTTCTTTTAGAATTTAATCTTTTTATTAAAATATTTTCTGGAACATCCAAATAAATTGTTAAATTTGGTTTAGGTAAATTATAATACTCAAACTCCATTTCTAACAACCATTTTTTTAATTCTTCTTTTTTATTTTTATCTTTAATTTTTGCACATTGAAAAGCTATATTAGAATAAACATATCTATCTAATAAAATGGTATAACCATTTTTTATCCAATTTAATATTTGATCTTTATATTCATTTCTATTCATTGCATAAAGTATTGAAACAAAGTAAGGATTGACCTCTTTTACTCCACCAAACTCTCCACGTAAAAATTTTGATATTGTTTTTCCACTAAAAGAATCTTCCATAACAGGAAAATGTATAAACTTATATTTAATTTCATTTTTTTTAAAGTAATTAATTAATAACTCTATTTGAGTTGATTTTCCAGCACCATCTGCACCTTCTATTACTATTATCCCCATAAATTCACCTCTTTTATATAGTACATTCATTATACTATAATTGTATTAAATATGATAAAATTTATTTTTAATAATAAAAAACAAATTTTTTATTTTGACTTTTACATAATAAATAAATATAGTATAATAAAATTGAAAGATAAATTATTAGTTTTTATTTAATTTAAATAAACTACATTAAACAATAAGGAGATTAAAAATGAAAAGATTGCTATTAACCTTTATTTTAATTTTATATTCATTAATTTCTTTTACATCAAAGGAATTTAATAATGCAATTTATTTTTTTAATAAAGCTGACAAATTTGAATCATTAGAAGAAACTCTTGCATTCCATCAAAAAACTATTTCTGAATTATCTAAAATTCTTTCTTCTAAAACAACAAAGATGTCTACCAATTTAGAAAATGGAAAAATAACCTTTTATGGATATAAAGCATGGGAGTATGCTAAATATTATCCAAAGTTAATTAAAAATATTTTAAAAATAAAAGAAATTAAAAATAATAAATTTATTAAAAATTTATATCTTTTAGAATCAAACTTAATAATAAATAAGTATAAAAACTTTCCACTTTCTAAAAAGATTTTAAATAATTCTTTTTCCATAAATAATGAAAATTTTTTAAATATAACGCTTCCAGCTACCTCATATTTTAATGAAAATTTTTTAAATATTTCTTTAAAATACTTAAAAGATATTGAAAACAATGAAATAAGGGACTCTATTTATGAATTTATTTCTATTTATTTATTGCAAAAGAAGCAGTATGAAGAATCTTTAAAATTTTCAAAAAAAATAAAACGTGAAATATCAAGATACTATGTTTATCAAAAAATAGCTATCGAATATTTAAATATTGACATAAATAAAACTTTGGAAATTGTTAACTTAATTGATATAGATTTTATAAAAGATCTTACTTTAGAAAAAATTATTGATATACTATTAAATAATAACAATGTTGATAAAGCTTTAGAATTTTTAAATTTTATAGAAGATGAATCTGATAAATCATTGGCTTTAAATCATATTGGAATCTTTTATTTAAAACAAAATAATGAAAATTACAAATATTATCTTTCTAAAGCTTATTGGAAAACAAAGCTAATAAAAAATGACTATGAAAGAGATAAAGCTTTTAAAAATATAGCCTTGGATTTTTTAAACAATGATTTATTTGTAAATAGTCTTGATATAGCTTATGAAATAAAAAATAATTATATAAAATACTTACTCTTTAAAGAAATTTCTATTTATATGTTTAATAAAGAAAAAATTAATATAGGAAACACATTTATGAATATTTCTTTAAACTCCGCAAACTCTATAGAAAATCAAAATTCAAGAGATTTTGCTTTAGAGGATTTATGTTTAACAGAAATAAAATTAAATAACATTGAAGATGCTATTAAAATATTAAATACTATAAAAGAAGAAAAATACAAAGATCTAGTCTTATCAAATTTAGCAATTTTTTATGCAAATACTGACTTAAGAAAAACCTACAATTTTATAAATAAAATAAATGATATAAAAGTAAAAGCTATAACTATGGGAAATGTTTCTGTAAAAATTAAAGACATAGCGCCAACACTCTCTAATAAATATTTAAAAAAATCATTATACATATTAAAAGTAAATGAAAATAATTATTTAAAAGAATCATTAATTCTAAATTTATTTGATTTAAAAAAATATGAAAATTTAGAACTTATCTTAAAATCTATTCATGAAGAAAAAATAAAAAATGCTGTTATAATCGAACTTGCTAAAAAAATATTGAATACTCATACTTTCATTGAAATAAAAAACACTACAATTATGAATTATATAAAAACATGTATTTTTTTCGAATATTCTTTAAAAAATACCTTAACTATTGAAGATATAAATTTTATATTAAATTACATTTAAAAAAATAAAAGAACATATAAATGTTCTTTTATTTTTTAGGAAGCGTAAATATAAATTTAGATCCTCTGTTAGTATTTTCAGCTCTTATACTTCCACCATGCATCTTTACTAAATACTTTACTATTGCAAGTCCTAAACCAAGACCCGTATTTGTATTTTTTAATTGTTTAAATTCATTAAAAATATCATTTATTTCTTTTTCTGGAATACCTATTCCTGTATCTTCTACATTTATTTCATAATATTTTTCTTTATCAATACTTTCTATCATCACATAACCACTTTGAGTAAACTTTATAGCATTTCCAATTAAGTTATTTATTATTTGATAAACTCTTATTTCATCACCATAAACTAAACAATCTTTATCTACAGAATTTATTATCTCAATATTCTTTTTCAAATTCAATTTATGAGTATCTATTATTCTTTCAACAAGATAATGTAATTTTATATTTTGTTTATTTAAAGTTATTTTATCTCTTTTAATTCTTGAAAATATCATTGTCTCATTTACTAAAGTATTCATTTGTTTTCCACTCAAATATATTGTTTTTATTATATTTTTTTGTTTTTCATTTAATTCACCAAAAGTTTCATCTAAAAGCATCTTTGTAAACCCTAAAACTCCATTTAAAGGTGTTTTTAATTCATGAGACATCTTTGCAATAAAATTTAATTTTATTGCATTTGCATCTTTTAATTGTATATTCTTCTCCTTTAATTCTTTACTGTATTGCTTTATCATTTTCTTTTCTTTTTCACGTGAATTAAATATTATCTTTATAACTAAAATTATAAAAACAAACAATCCCCATTGCATCAATGGTCTCTTCCAAAAAACAAACATTCTTCTTTCACCTAATATTTCATAAAAAGAACTACCAATAACTGATAAAATTCCTATAGTGTAAAATCTTGCTTCCTTGTTCCCATAAAAAATTTCTTTAAAAGAAATAAAAATAATAACAAAAACTTCTATAAAAAAAAGAATATAAAATAAAGATCTTGTAGAAAAAAGTATGTTTACTGTACTTTTTATAAAAATTTTATTTATAAAATCTAAAAAACCTATTATACAAACGTACATAAGATTAATATTCCACATACTTCTTGAAAGTTTCTTATAATGTTTTTCAAATGTCGCCTCATAAAACATAAACATTCCAATTGGTAACGTTATAATTGCATATTCAAAAAATTCTGCCCATATATTTGGAGGTAAAAAGTTCATATAAGCTATTGAAGGATGTTCAAAATTCCATATACCACTGGACAACATTAATATAGCTAAAGATATTATTGATTTTCTTTCCTTCTTTTTAAAAGATATTGAAAAAAATAATATTAAAAAACCTAAAACAGTAAAAAAAACACCTAAAAATAAAAAATCTATATTTTTTATTTTTTCTTTTTTATATAAATTAATTGTATCATCAATTTCTATTTCTCCAATAAATCCTATATCTTTTTTATCAGAATACATTCTAATATATAAATATTTATTTCTATACTCTTGTTTTAATGGTATTAAATCAGCTGGATATCCATAATATTTATTTTTATTTAATGTATTTAAATTTATCATTCTATACAAAAGTTTGTTATTACAATAAATTTCCAAGTACCCCACTATTGAGGAAAAGAAAAATGATTTTCCTTCAAGATTTTCATCCGGTAACTTATATCTAAGCCACAAAAAATTATCTTTTTTATCTTCTATTGTATTCCCTTCGTATTTAAATTTTTTCCAATTATCATTAGAATTCATATAAGAAAATTCACCATTAATATATGGCGAATCTCCCCATTTCATATCAAAATATTTTATATTTATCTGTTTTGAAATCGTTAAAATATTCAATATTATTAATGATAAAACAAATAAAAATTTTTTCATTTATCTATCCTCATTATTATAATTTTTATACTTATATAAAAGAACTTATATTTAAATTTTACACTAATTTTTATAAAAAATCAAATATTTTATAAAATAAAATACAATGGAGAAATATTATAAAAATACTTCTCCATTGTATTTATTCATTGCTTCATCAACTTTATTATCAACTAACATTTCTATTATATTAGAAACTGGATCTAAAATTTTATTCATAACCGATAATTCATCATTTTTAAACTGAGATAAAACATAATCAGATAGTTTCATATACTCTGGTTTTTTATCAACACCAACTCTTATTCTTAAAAATTCTTGAGTTCCAAGTGAAGCAATTATTGATTTAACTCCATTATGACCCCCAGCTGATCCTGTTTTTCTTATCCTTATCTTTCCAAAATCAAGTGAAACATCATCATAAATCAGTACTATATCTGTATTATTTATACGCCCATACTTTCTTGAAAGTTCAATAAAAACTTGACCACTTAAATTCATAAAAGTCGTCGGCTTTACAAGAAGATATTTTGAACTTTCATATCCTTCAAATGTTCTTCCAGAAACTTCTCTAAAATCAATAAATTTTTTATTGATTTCATAAAATCTATCTATTGATAAAAAGCCCACGTTATGTCTTGTAAAGACATAACGTGGTCCTGGATTTCCCAATCCAATAATTATTTTTTTCATTTATTAAGCTTCTTCCTCTGCTTCCTCTGATACTTCTTCTTCAATTACTTTAGGTACTACTGAAACAATTAAATCTTCTGGATCTAAGATAATTTTTGTTTCTTCTGGAAGAAGTTTAGCTATATCTGCTGCTGTAATATGATCATGAACATTTAAGTTTGTAATATCAACATCTATTGTTTCAACTATATCTTTTGGCAAGATTTCAACTGGAAGTTCATGATAACTTACTTCAAGTCTTCCACCTCTTGATAAACCAATACATTCTCCAACAAAGTTTAGAGGTATGTGAAGATGCATTTTATGACCTTTTACTGGTACATAAAAATCAATATGGATAACTTTATCTGAAACCTTATGTCTTTGAAGTGTTTTTACAAAAGCTTCAACTTCATTTCCTGATTCATCTTTTAAAGTAACCAATGTTGTTTCTTTTACTGTACTTACAATACTTTCAAAATTTCTTGAATTTACACCAATATGTCTGTTATTTTCTATACCAGGTCCATAAACTTCTGCTGGTATAATACCTTCACTTCTCAATACATTTGCTTTTTTCTTTAAATCTCTTTCGACTACTTCAAGAACTCTTGTTCTAGCCATCGTCTTCAACTCCTTTTATTTTATATTTGTTCTAATGAACTTATTATCTAAAAAGTATACTTACTGATAAATTTTTTCTTATTCTTACAACTGCTTCACCAAACATCGGTGCAACAGATAAAACTTCAAATTTTTCTGGCAACTCCTTATGATATATCGTGTCTGTAACGATAACTTTGTCTAATTTTGAATTTTGTAACTTTTCTTTTGCTGTTTTAGAAAAAATTCCATGAGTGGCACAAGCGGTTACAGTTTTTGCACCGTTTTTTATCAATGCTTCTGTTGCTCCAACAATTGATCCACCAGTATCTATTATATCATCAAATAAAATACATCTTTTCCCTTCAACTTCTCCTATAACATGCATTATTTCAGCAACATTGTCTTTTGGTCTTCTTTTATCTAAAATTGCTAACGGAACACCTAATTTTTCAGCAAACTTTCTAGCTCTTTTTACACCACCAACATCTGGAGATACTACTATATAATCAGATAAATCTTCGTTTTCCTTAAAATAATTTGCAAAAACAGGAAAACTCCATAAATTATCAACAGGTATATCAAAAAAACCTTGTATTTGTTCGGCATGAAGGTCTATTGTTGCAACTCTATTGGCTCCTGCAACTGTTAAAAGATTAGCAACTAATTTTGCCGTAATCGGATCTCTACCTTTTGCTTTTCTATCTTGTCTTGCATAACCATAGTATGGAATTATTATTGTTATAGAACCAGCAGATGCCCTTTTTAATGCATCTATCATTACCAATAATTCCATTAAGTTATCATTTACGGGATCAGAAACAGATTGTATAACATAAACATCATAACCTCTAACTGTTTCATTTATTTTTACATTAACTTCTCCATCAGCAAAATGAGAAACTTGACAATCACCCAATCTTGTACCAATATATTCAACTATCTTTTGTGCAAGGGGTAAATTTGAATTACCCGTAAAGACTTTCATTTCAGAGTTACCAACAATAGCCATGTTTTTTACTCTCCCTTCATCTTTTTGAGAACCCAATCCTTTTTTACAATTTGTCTTGCTCTTCCAAAAGCAAGAGAATTATCTGGAACATCTTCAGTTATAACAGAACCAGCTGCCGTTATAACATTTTCTCCTATTTTAACTGGCGCAACTAAAGATGCATTACTTCCAATAAAAGCATTTTTTCCTATACTTGTTTTAAATTTATTTTTACCATCATAATTACAAGTTATTGTTCCTGCACCTATATTTGTTTTTTCCCCAATATGAGCATCTCCAAGATACGTTAAATGTCCTGCCTTTACACCTTCTTCAAGTGTACTCTTTTTTATTTCTACAAAATTACCTATTTTAACCTTACTTTTTAAAACGGCTCCTGTTCTCAAACGAGTAAATGGACCAACTGAAACATCATTATATATTTCTGCTCCTTCACATTCAGATCTTAAAACTTTTACATTATTCATTATAGTACAATCTTTTACCCTTGTCATAGGTCCTATTTCACATTCATTTCCAATTATTGTTTTCCCATATATATAAGTTTGTGGATGAATTATTGTATCTTGACCTATTTTAACTCCATAATCAATATATGTAGAAGATGGATCTATTATCGTTACTCCTGATTTCATTAAATTTTTCAAATGTCTTTTCCTTGCTTCATTTTCTATTATTGAAAGCTGAACTCTATCATTTATTCCCGATACTTCAAATTCATCATTAGTTTCAAATATTCCAACTTTATTAAAGTATAAAAATGTATCTGTTAAATAATACTCACCTTGTGCATTATTTGTATTTATTTTTTTCAAAGCTTCTCTCAATTTTTCTGTTTTATATATTGCTATTCCTGTATTTATTTCATTTATAATTAACTCTTTTTCATTTGCATCTTTATGTTCAACTATTTTTTTAAATTTATTATTTTCTCTTATAACTCTTCCATATCCAAAGGGATTTTTTAATTTTATAGTTAGTAAAGTTGCATCATTATCTTCATTTTTATGTTTACTCAATAAATTATTTAAAGTTTTATTACTAATTAAAGGAACATCTCCATAAAGAATTAATGTGTTATCTCCTTCCAAAAATTCTTCTGCTGCCATAACAGCATGACCAGTTCCTTTCATACCAATTTGTTCAAATATTTTTATATTATTTGGTACAATCTCTTTAACCATTTCAATTCCATGTCCAAGAACAACTCCAACATCTTCTGAAACTTCATTTGCTCTATCAATTACCCAATTCAACATAGGTATTCCCATAACTTTGTGCATAACCTTTGGATACTTCGATTTCATTCTTGTACCCTTTCCTGCAGCCAATATTAAAGTTTTCAAATTACACCCCCACAATCATTTTAACATTATTACCTTTAATAGTTGTTAAATTTATTTATCATTACTTGTTAAATTATCTTTAATCATTTTTTAGATAGTTTAGCCAATCCAATTTTTATTATTTCTTCAACAGGCATATTTGAAACATCATTATTTTTTAAAAATCTCATTATTTTGAATCTTTCATATCCAAGAGCTTCTAAGGCTTCTATTGCATCTGACAAATCATTTTTTATTTCAATTCCTTCAAACTTTCCTTTCAACTCTGAAGCTATTCTTTCTGCTGTTTTTTTACCAATACCTGGTAATTTTGATAATCCGCTTATATCTCCACTTCCTATCATTGCACTTATTGCTTCTGCATCAGTTGATCTTACAATCCTTGCTGCAGTTTTAGGACCTATTTTAGATACCTTTTTTAAACTTTCAAAAACATTCCTTTCATCTATATCTTTAAAAACATAAAGAGCCATATTCCATTCACTCATTTCAAAAGAAGCTTCAAAATTGTATTCTTGTTCAGTTTCAAGATCTTTTAAAATCCTAAAAGAAGGAAAGGCCTCTAATGTAAAAGGCCCTACTTCTATACTTATATTTTCTTCTCCTATACTTACAATTTTTCCTCTAATCTTTTTTAACATACTATATGTCCTCTTATTTCACCAATAAGATATAAAGATCCTGTAACAAAATAATAATCAGCATCTTTTTTTAATAACTTTTCATAAGCCTCAATTGGATCTTTTACAAATCTAACATTTGAATTATATTTTTTTATAGATTCATAAACCAATTCTGGATTTTCACTTCTTGTACTCGTAACTGTAGTAACTATTATTTCACTAAAAAGAGGACCTATTCTTTTTACCATTTCTTCAAAATCTTTATCATCTAAAATTCCAATAAGTGCAACTTTTTTTGCAAATGGCATATACATATTTATTGTTTTTTCAAACATCTCAATTCCTGCCATATTGTGTGCACCTTCAAGTATTATTTTTTTATTATTTTTTTCTATTAATTCAAAGCGACCTTCCCATATAAAATTTTTTACTGCTTTCCTTAATTTTTCTTCATTAATATTTATTTTATTTTTTTCTGCAAAAGCATATGTAGCAGCAAGTGCCACCGATATATTATGAGGTTGATAAGCTCCATTACATCTAAATATTAATTCATTTAAACTCTTATCTTCATATTTAAAATCCATGGAATTCCAATTTAAACTATATCTCGTATTTTTAAAGTTAAAATGTTTTCCCAAAACTTTTACAGCTTTAGCTCCAACAATCTCAGCCTTTCTTATTATTACATCACGAGGACTTTCAGAAATGTCTCCAATTACCAACATAGAATTATTCTTTATTATCCCAGCTTTTTCATGAGCTATTTCTTCAAGACTTTCTCCCAATATTTTGGTATGATCTTTTGCTATAGTTGTTATAACTGCAACATCAGATTCAACTACATTTGTTGAATCTAACCTTCCACCAAGGCCTACTTCTACTATTGCTATATCCACTTTTTCATTTTTAAAGTATTGAAATGCCATTGCTGTAATTATTTCAAAAAACGAAGGAGACATTTCATTATTTCCAGATTCTATTCTTTCAATGTATGGTTCTATTTCTTTATATAATTGAACAAAATCTTCATTACTTATATTTTTTCCATTTATTCTTATTCTTTCATTTATATCAACTAAATGAGGAGAAATAAAGGTGCCCACCTTATATCCTTGCTCTTTTAAAATGGTAGAAAGTGCTTTTGTAACACTTCCTTTTCCATTCGTTCCAGCAACATGTATTACCTTATAGGAATTTTGTGGATTATCTAAAATCTCACAAAATTTTTTTATTCTCTCAAGACCTAGTTTTATTTTAGTACTCCCTGCTTTTTTACCATATAAAAATTCAACTAATTCTTTAAACTCTTTCATTTTAATTCTCCATAAAGTTTTTCAACCTTTTCTAACTGTACTTTTGCATCATTTAATTTTTCTTTTGTTTCTTCAACAACATCTGCTGATGCTTTTTCAACAAAATTTTTATTTGAAAGTTTCTTTTCGAATTTTTGAACCTCTTTATTTAATTTACCTATTTTCTTTTCAAGTCTTGCACTTTCAGCTTCAATATCTATTAAATCACCAACAACAACATAAACTTCCATATCATCATCTACATAAGCAGTTGCTGTTCCATTTGGTTTATCTGAAACTTTTTCTATATTTGAAACAAACCCAAGTTTTTTTATCATTGAATCCGATTTTTTCATAAAATTATCATTTGTAGCTTTGAACTTAACTTCAACTTTTTTTATTATTGCTATATTCATTTCAGTTTTTACATTTCTTATTCCTCTTACAACTTGCATTATTTTTTCAAAATTACTTTCTTCTATCTCATAAGACTTTTCAAATATAGGCCATGATGAAGTTATTATCATTTCACTACTGTGTTCTATAGGTAAACTCTGCCACAACTCTTCTGTTATGTATGGCATAAATGGATGCAACAACTTCAAAGCATTATCTAAAACTTTAACAAGGACATTTTGTGCAACTCTCTTAGAATTATCATCTTTTAATCTATCTTTTACTGATTCTATGTACCAGTCACAAAATTCATTCCAGAAAAATTCATACATAGTTTTAGCCCCTATGTTGAAATTATACTCTTCAATAGCTTTTGACACTTCTTTTACAGCCTTTGAAAGTTTTGTAAAAATCCATTTATCTTCAATTGCAAGCATTTCATCTTTTAATTCAATTTCTTCAAAATCATTCATATTCAAAAGAACAAATCTTGTTGCATTCCATATTTTATTTGCAAACTTTGAGTAAGGTTCAAATGCTTTAATATCTAACTTAATATCTTTTCCTTGTGCTGCAAGTATAGAAAGAGTAAATCTCATAGGATCTGTTCCATACTTTTCAATAACTTCAAGTGGATCTAATCCATTTCCCAATGACTTTGACATTTTTCTTCCTTGTTTATCTCTAACAAGTGGAGTTATGTACACATCAGAAAAAGGTTTATCATTCATAAACTTTTCTCCCATGATTATCATTCTTGCAACCCAGAAAAATATTATGTCAAAACCAGTAACAAGTGTACTCGTTGGATAAAATTTTTCTAAATCTTTTGTATTTTCTGGCCAACCCAATGTTGAAAATGGCCAAAGTGCTGAACTAAACCATGTATCTAAAACATCTTCATCTTGTTTTAAATTGGTACTTCCACATTTTTCACATTTATGAACTTCATTTTCAGAAACATTAATATGTCCACAGTCTTCACAGTACCAAACTGGTATTCTATGACCCCACCATAATTGTCTTGAAATACACCAATCTCTTATTTCACTCATCCAATTCAAATAAACTTTCTTCCATCTTGGTGGATGAAACTTTATTTCTTCTTTTTCAACAGCTTCAATAGCTTTTTTTGCTAAAGGTTCCATTTTTACAAACCATTGATCCATTAAAAATGGTTCAACAGTAGTATGGCACCTATAACAATGCCCAACAGCATGTTTGTGATCTTCAATTTTTTCAAGTAAATTCAATTCTTCTAAGTCTTTAACTATTTCTTTTCTTGCTTCATATCTATCCATACCAGCATATTTACCACAATCTTCTGTCATCTTTGCACTTTCATCCATTACTTGTATTCTTTCAAGATTATGTCTTAATCCAACTTGATAATCATTAGGATCGTGAGCTGGAGTTATCTTTACCATACCAGTACCAAACTTAGGATCAACATATGGATCAGAAATTATAGGTATTTTTTTATTTACAAGAGGTAAAATTAAATTTTTACCAACTATATCTTTATATCTTTCATCAGATGGATGAACAGCAACGGCAACATCTCCAAGCATTGTTTCTGGTCTTGTGGTTGCTATTATTACATATTCATCAGAATTTTCAAAATAATATTTTATATGATAAAACTTACCATTTTCATCTTCATGTTCAACTTCATCATCAGCAAGAACAGTTCCACAACTTGGACACCAATTTACTATATACTTCCCCTTATAAATTAATCCTTCATTGTATAACTCTACAAAAACCTTTCTAACTGCTTTGTTTAATCCTTCATCCAATGTAAACCTTTCTCTTGACCAATCAACTGAAGCTCCCATAGCTTTAATTTGACCTCTTATATGGTCTTTATATTCATTTGCCCAATCCCAAACTCTGTCAACAAATTCTTCTCTTCCATACTCTTCTCTTCTTTTACCTTCTGATTCCCTTAAAAATTTTTCAACAACATGCTGTGTTGCAATTCCTGCATGATCTTCACCAGGAAGCCACAAAGTAGAAAGACCTTTCATTCTATTATATCTTGTTAAAACATCTTGAAGAGTCATATTTAAAGCATGTCCAACATGTAATTTTCCAGTTATATTTGGTGGAGGAATAACTATACTAAATGTATCATTTCCTTCTTTTGGTTTAAACGTTTCTTTTTCATTCCATGTCGAATACCACTTTTTCTCTAATTCGTGTGGTGTATATCTATTTCCTATATCCATGATTTTTCCCCCTTATTTATTTGTTTTTTATACTGTTATTATACTTTAAAATCCTCTTTCTGTCAAAAAAATCATTGAAGAAAGAAAAGATATATGTTGCCATAGATAATCCTATTACTATTCCAAACGCAGCAACAAATGTTGCATAAGCAAAATTAATAGCTTGATTATAATCTTTTTCAATAAATTTTTGAATTGAAAAAAAAGCTGGTGCTCCAGGCACAAGAGGTATTACAGCTGGAATCATAAATATTTTAGAATTAACTAAAAAAAGATTTGAGAATAAAATTGAAACAAAACCAGCAATAAATGCTGATAAAACAAAAGCAACCTCAATACTAAAATAAGCATTTGATACTTCATAAACACTCCAGCCTATCATTCCAGATAATGCTGATAAAGGTACATACTTTGCTGGCGTTTTAAACAATATTGAAAATGCACCAGTTGCAAAATATGAAAATATTATTCTAATAATCATACAATCATCTCCAAATAATAGATGAACTAATAGCTCCCATAACAAGTGCCCCAAGTATAAACATTGATTCTAAAAGTTTAGAACCACCAGAAACTAAATTTCTTTCTCCTATTTCCAATATACCATTAGTTAAAAGAAGGCCAGGAACAAAAACCATTAATGCTCCAGCAAGTGATGGAAATAAATTAATATTAAAAAAAATACTTTGAATTGATATAAATGTATGTAATAAAAAACCAGCCATAAAATCTTTAAAAATTCTATTTTTTATTTTAAAAATAATTATAAAAGAACTCACTCCAGAAATACCAGATACAATCGAATCAATAAAATTTCCTTTAAATAAAATACAAAATGAAAAAGATACAATAAAAACTGATATAATTAATAATGGAATTGAAGTTTTAGTATGTTCATTTATATTTTTTATTTTAATAATATCCTTTTTTACCTTATATAATGGTCTTTTTTCATTTATTATTCTCCTAATCAACTGTTCCCATAATTCTAATTTTGAAAAATTTATATCAATATCATTAACTCTTTCTATTCTTGATATTGTTTCTCCTTTTGGAGCTATGAGAGTAATATGAATAACCGTTCCCATTGCAGCAACTTGAACATCTAAACCATAAGTTTTAGCTATTTTAAATAAACTATCTTCAATTTCTGTAGAACTTTCACCATAATAATAAAGAGACTTGGCTATTTCCATAAAAATATCTGAAATTCTTTGTATATGCACAATAAAACCTCCATTTCGAGTAAAGGAGCAACTAAGATGAAAAAAACATTTTCTAATAAAATTATAAAAATTATAAATATCAACTTTATTATATATTCTATTTCATTAATTTTATCAGCTTATCTTGTTTCATATTACATAATAAATGTTTACATTATGAATAACTTAGACACAATTTTCAATACTAAAAAATATTTTATGAAAAATATACAAGAAACAATAAATTCAGAATTTTTAATGTATAAAAAATATGGAATAAAAAATTTTAAATTAATAGATTCCATTTATGGTAATGGAAAATTTGAATTTCATAATAAAACAATTAATTTTATTCCACATAAAGGAATTATAAAAGATAAAGATGACCAATATATTTATTTTTCATATAATTACAATACTAAATATTTAATAGGTATAAACTTAAATAAAATAGTTAAATACTTGAATATAAAAAATAAAGCTAATGATTTTATTGTAATTTTAAAAACATCCGAAGGATTTGTTTTACCTCAAAATATTATTTTTAACTCTTTAATAAATAAAAATTTAAATGAAGATACTATAGTTTTAAAAACTAAAACAGAAAGATACAATGTTAAATTAGGAAAAGAATATGGAATAGATTTTTTTGTATTAATAAACTCAAAAATAATAGATACATATACAACATATATAGCAATAGCAGCTTTTACATTTCTCTTAATAATTATTATAATTAACAAAACCAACAGTATATTTGTTCAAAGATCTATAGAAAAACCAATAAACACATTAATAACGGGTATAAAGAATATAAAAACTAAAAAAAGTTCTGAAATTATTTATGAAGAAGATGATGAATTTAAAATTTTAAGTAATGAATTTAATGCTTTATACAAACAACTAAGAGTAACTATCTTAGATTTAAAACAATCAGAAGAAAATGCAAAAAAAGCTTCTGAATTTAAAAGCAATGTTTTAAAAACACTATCTCATGAAATAAAAACTCCACTTCATTCAATATTAGGTTTTACAGAATATTTAAAACTAAAATTAAATGATGAAAAAGATATAGAAATTTTAAATACAGTAAGAAAGAGTTCTTCTGATTTATTAAAAAAATTCGAAAAACTCTTTGAACGATCTAAAATAGAAACAGAACCAGAAAATATAAAACTTAATTTAGAAAATTTTAATTTAAAAACGACCATATTAAAGATAGCTTCAATATACGAATCTGAATGTTCTAAAAAAAACATAAAGTTCAATTTATCATTTAAATTAGAAAATTTAAATACACAATTTTTGGACAAAATAAAAATAGAAAAAGTTTTAATTGAACTATTAGATAACGCTTTAAAATTTACTGAAAAAGGAGAAATAAACTTTACTATAGAAAATGATGAAAAAAACTTATACTTTTCAATAGAAGATACAGGAAAAGGAATAAAAGCAGATGAAATAGATATAATATTTGAAGATTTTTTTCAATCAGAACACTTTCTTACAAGAACTACCGAAGGAATGGGCATGGGACTTAGTATTTCTAATTTTTATATAAAAGTTATGGATGGAAAAATAAAATTCAAATCAAAAAAAATAGGAACAATAGTAAATCTTGAAATTCCAACAGAATTAACTTTAAAAAAGATAAAAAATTTATCTATTGAAAAAGACTTTAAAAATCTTTCCATTTCAAAGAAAAAACTTGAAAATATACAATTAAATTTAGAAAAAGATATAAGAGAAATAATAAATACTACAAATTTAAAATTATTTAAAGAAAAACTAAATACCTTATATACTTATACAAAATCAAACAACTTAAACACATTGAGCAATATTTTATTTGATTTGAAAAATAAAAGTATGGGTTTTTCAAAAGAATATTTAGAAGAATTACACAACTTATTTTTGTACAAGATTTTTTAATAAAAAATTTACAAACAAGTTACTTGAATTTTTTTGAAAGTAGTGTTATAATCTTTACCGTAAGAACGAGATGTTCCGGCTTAGCTCAGCGGTAGAGCGGATGGCTGTTAACCATTAGGTCGGGGGTTCGAATCCCTCAGCCGGAGCCATTAAAGGTATGCAATATGCATACCTTTTTTATTTATTATAAATATTTTTTAATAAAAACAAAGATGGTATTTATACCATCTTTGTTTTATACTGGATAAATTGAACTTTCTTCATCTTCATATTCTTTAGCTATATTTAAATCTACACCTAAACTTTTTTCATATTTATCTTTTAAAAATTTCTTTCCTACTTCGCCAAACAAAACATAAGTGAGCAAATCTTCGTCTGTTTGAGCTAAAAGTCCCATTTCACTTCTTGCCTTTTTAAGTACAGGTTCTAAATCATCGGCTGGTCTATGATCTATTGGTTTTTCATTTCCTAAAGCTTTTTTAAATATTTCTTCATCTACGGGAGCTGGTGATCTTCCATACATTCCTTTAAGATAATTCTTAACTTCGTTAGTTATCATTTTATATCTTTCCCCAGTTAAAACATTTAATGTTGCTTGAACACCAACAATTTGACTCGTTGGAGTTACTAATGGCGGATAGCCAAGTTCTTTTCTAACAGCTGGAACTTCTTTTAAAACTTCATCGAGTCTATCTTCTGCTTTTTGAGCCTTTAATTGAGAAACTAAGTTTGAAAGCATTCCACCTGGTATTTGAGAATCAAGAATTTGTGCATTTATAGAGGTCATTTTCATATCATTTTCTTCATGATTTTTTCTAACCTTCCAAAAATACTCTGTAAGTTCAAGAATCTTTTCATTATTTAATCCTAATTTTAAAGCTTGATTAAATGGTTCAACAGCTGGTTGTGAAGTTCCATTTGCAAAAGGGCTCAATGCTAAATTTAATCCATCAATACCAGCTTCTGATGCAGCATAACAAGACAAAGAACCAAGTCCCGTTGTATTATGTGTATGTAATTCTATTGGAATATCAAATTTTTCTTTTAATTTTTTTACTAATTCAACGGCAACATGAGGCTCAAGAAGTCCTGCCATATCTTTTATTGCTATTGAATCAACTCCACATTTAACAAGTTTTTCTGCATATTTTAAATAAAAATCCACATTGTGAACTGGACTAACAGTATATGAAATAGCACCTTGTGCATGCATCTTATACTTTTTTGTATACTCAATTGCTTTTTCTAAGTTTCTTATATCATTTAAAGCATCAAAAATTCTAACTATATCAACTCCATAATCAGCCATTTTTTTTATAAAAAGTTCAAGAACTTCATCAGGGTAATGTCTATATCCTAATATATTTTGTCCTCTTAAAAGCATTTGTATTTTAGTGTTTTTTAACTTTTTTCTTATTGTTTTTAATCTTTCCCATGGGTCTTCATTTAAATATCTTATACAAGAATCATAAGTTGCTCCACCCCATACTTCCATTGAATGATATCCAACTTGATCAAAAATTTCCAACTTATCTTCAAACTCTTTTGTCTTCATCCTTGTTGCTATAAGTGACTGTTGTCCATCCCTCAAAGTTGTATCAACAACATATGGCATAACTACACCTCCTAATTTCATTTCAGTATAATTATAACATCTATTAAATTATTAACAATGTTGTTCTTTTTACTGTTATATTAAATGTGATACAATTGTAATTGAATTACATATATAATTCGAGGTGAAATCAATGAAATCATTTTTAAAAATATTTTTCTCTTTAATATTAGGATTAATTACTGGAGTAGTTTTATTTTTTGTTATTGCTTCTTTATAAAATAAAAAACGAAGTCTATTATTAAGACTCCGTTTTTTTATTAATTTTATTCTTCTTCTAATTGTGCATTTACTTTTATTCCTTCTTCTGCTTGTAAATCCTCTAGTTTTGTACTCTTTCCAAAGAATTTTAATGTTGCCCAAATACCAATAACACCTAAAATAAATGAAATCCAAACTGGTAAACCAAGTCCAATAGGTATTGTTCCAACTACTATTGTTAAACCAGCAATAAATAATGCATAAGGAATTTGTGTTTTAACATGATCCATATGATCTGCTGATGATGCCATAGATGACATTATTGTTGTATCTGATATTGGAGAACAATGATCTCCAAATATAGATCCAGTTAATACTGAACCCAATGTTGCATAAACAATAGGAGTTAATGCTCCACCAGAATAATGAGTTGCAAGAGGAATTGCAAGAGGCATCATAATAGCCATTGTTCCCCATGATGTGCCTGTTGAAAATGCAACTATACTTGACATTATATAAACTAAAGTAGGTAATAACCACCCTGGTAATGAACCTGATACAACCTTTACTAAGTAAGGAGCTGTTCCCAATGTTTCAGTAACAGAACCTATTGACCAAGCAAGAGTTAAAATTATAGCTGTAATCATTAATGATTTTGCACCTTCAACCCAAGCTTCAAATGCTTCATGTAAGGTTAAGATTTTTTGACTTATCCCCATAACCATTGCAACTATACCGGCAAGAATAGCAGCCCAAATTAAAGAAACTGAAGCATCTGCATCACCAAATGCATCTCTTATACCAATTAATGTAAATGGTTTTTCAAGACCTCCACCTGAATACCATAATCCTATAAAAGCAAATACAACTAATGTTATTATAGGAACTAAAGCATTTGACATTCTTAAAGGAATATCTTTTTTTTCATTTCCTTTTTCAAAATCTGCAGAAGATAATGGTGTAGCTCCATCAGAAAGCAATTTTCCAGTTAATCTTGCTCTCTTTTCAGCTTTATACATTGGTCCAAAGTCTCTTAGCATAAATCCAACTAAGAATACCATTACAATTGCAAAAATTGAATATAATCTATATGGAATTGTATTTATAAATACAGAATAAGCATTTATATCTGTCAAATTTGCCGCTTTAAAAGAATCTCCTATTAAACCAAGTTCATAACCTATCCATGTTGAAATAAGAGCCATTCCAGCAACAGGTGCTGCAGTTGAATCTACAATATAAGATAATTTTTCCCTTGATACTTTCATCTTATCTGCTAAAGGTCTCATAGTTGGTCCAACAATGAGTGTATTTGCATAATCATCAAAGAAAATAACTATTCCCATTAACCATGTTACATTTTGAGCACTTCTTGCTGTTTTTGCTTTTTTTGCTAAAGCATTAGCAATAGCTCTTGTTCCACCCATTTTAGAAATTATTGCTACCATACCACCAATTGCAACTGTAAAAATTAATATACCTGCATGCCATTCATCACCCAAAGCCTTTACTGGATAAGATATGGTATTAGTATAACTTTCTACAATCTTTAAGAAAAATCCTGATGATGAAGTTGCAAAGGTTGAAATTAATGCACCAGAAAAAACTCCCAAAGCCAACGATAAAATAACTTCTTTTGTTAAAAAGGCTAAAGCAATTGCAACTATAGGCGGTATTAAAGATAGAGCGCCATAATCAAACTTTTGTGAATCTCCTCCGGCAGCAAAAATAGAAACCGAAAGCATTAAAAAAATCATAGTAAAAACTGTGATAATAAGGTTTCTTTTACTTTTTTTCATACTTTCCCCCCTCTATGTGATGTATATATTATTACTTTTATATTATTAACCTTCAGAAACAAAACGTAATATTATATTTACCATTATACCATAAAATTTAAAAAAAAAAAATTTTATTATTTGAAATAATCATATCTAATATAAATTAATCTTATTAAACAATTATAGAAACAATAATTCTAAGAAAAAAATTTAATTTATTATTATTTAGAACTTACTTGCATTCAATAAAAAATTATGATAAACTTAAAAAGCCCACTCTTCACGGTGTTTATTACTACTATTATTATTAATAAATTGGAGGTGATTATATTTAAAGGATTATCTATTTCCAAAAAAGTATTTTTAAAAGATAAAACTTATTTGTTGAATCATATAATTAACAATTTTGGAAGTTTTATCTTTGGATACATTTATGTTAGTATTTGGAAATCATTAACAAAATCATCGGAAATGACAACTTATGTTATGGTAAATCAATCAGCTCTTTGGCTAACAATGTTTTTACCTTATGGTTGTTATATTCCACAAAAAATGCGTGAAGGTACTATTGCATTTGAACTATTAAAACCTTATGGAATAATGTACGGTAGTTTTTTTGAAGTATTTGGGCACACAATTTATAATTTCCTTTTTAGATCAATTCCCATATACACATTCAGTATATTACTCTTACATGCTGAACTACCCTCTTCAAATAGAATCATTCCTTATTTTATAACTCTCTTTAATGCTTTTCTCGTTGCATTTTTTCTCAATTATTTTATAGGACTTTGGAGTATGAAGTTTATAAGTTATACAGGAGCACAAGGACTTTATTACTTTTTCATGAATATTTTTGGAGGTTATTTTTTACCAGCTGAATATTTCCCTGGAATTTTAAAACAAATAGTTCCATTTTTGCCTTTTGCTTGTACCAGTTATATTCCAGGAAGTGTTTATTTAGGAAAAATATCTTTTAGTTTTGCATTTTTTATACAATCTTTTTGGATAATAACACTTGGAATAACGGCATACATTCTCACTGAAAAATTGAGTAAGAATTTAAAAATACAGGGAGGTTGATATGAATTTATTTAAAAGTATGTTAAAGGCAAGCATAAAATCACAGCTTGAATACAGATTTAATTTTATTGTAGATTCAACAATAAGTGGAATTGTTATTTTTAGTGATTTTTTAATGTTAGCAATAGTATTGATGAATTTCAAAGAAATTGCTGGTTGGAATATATATGAAGTTGCAGTTCTTTATTCTATAGTTGAAGCAGGATGGGGAATTTTTAGATTGTTTGGAGAAGGAATAAATAAATTTGAAGAATTAATAATAAGTGGAAAATTTGATACTTTATTGACTCGTCCAATTTCGCCAATAAAACAGTTGTTTCTTCAAAAATTTGAATTAAAACGTATAGGTGTTTTTTTACAAGCAATTTTAGTTGGAAGTTGGGGTCTTTCGAACTTGAATATTACTTCTATTTACATGTATCCAATTCTCATATTTTTTTCTATAGTAATAACTTTTGAAATAAATTTGATTCTTGCTGCAATAGCTTTTTGGACTATAAAAAACAGTGATATTATAATTCTTGCATTTTATTCAACACGAACAGCTTCATCTTACCCTATTAATATATATGGATCTATTTTAAGAAGCATTTTAACTTTCTTTATACCGATTGCTACAGTTGGATACTATCCAGTTTCTTATTTACTTGGAAAAACAAAAAATAGTTTTGCTTTATTTTCTCCAGTTTTAGGTACTTTGTTTTTAATACCAGTCACGTATTTCATATGGAAAATGGGTTTAAAAAAATATACCAGTACTGGAAGTTGAGGAGGAATAAATGGAATATATAACAGTAGAAAACTTAAAAAAAAGCTATACAATTTATAAAAGAAAAAAATTTAAAAGAGAAAAAAAAGAAATACTGGCTCTCAATGGAATAAATTTAAAAATAAAAAAAGGTGAATTTTTAGGATACATTGGTCCAAACGGAGCTGGAAAATCAACTACAATAAAGATCTTAACTGGAATTATGGAACCGGATTCAGGAAATGTAAAAATTGATAATTTTTGTCCTTGGAAAGACAGAAAAAAGTATGTTAAAAATATAGGCGTTGTTTTTGGTCAAAAAACACAGATGTGGTGGGATTTACCAGTAATAGAAACATACAACTTATTAAAAGATATATTCAAAGTAAAAGACTTTAAAAATAACTTAGAATACTTAATAGAAAAATTAAACTTAAGCGAAATACTATATCATCCAGTTAGACAGTTGAGTTTAGGGCAAAGAATGAGAGCAGAAGTAGGAGCTTGTATGATTCATGATCCTGATATACTCTTTTTAGATGAACCTACAATAGGCTTAGATATTATTTCAAAAGAAAACGTAAATAACTTTTTAAAAGAGTTAAATGAAAAAGGCAAAACTATTTTTTTAACAACACATGATTTGAAGGATATAGAAACTCTTTGTAATGAAGTTTTAGTATTAAACAAAGGTAATATTGTTTATAAAGGAGATGTAAACAATTTAAAAAACATAACTGACATGCCCACCACAATGAAAATATTTTTAAAATCACCACCAAAAGACTTTAAATTGATAAAAGAATTGAATGGTGAATATCTAAAAGAAAAAAAAGAAATAACTTTAAATATAAAATCAGATGGCGTTGCAAAAATAGCTGAAAAAATATTTAAAAATTATGAAGTAGAAGATTTTAAAGTAACTGAACCCGGAATTGAAGAAATAATAAAAGAAATATATAAATAATCAAAAAATATATTAAAATTAAATTTATATTAATTAAAATTAATTATTCAAAATGTATAATTAATATTGATATTATTATTTTAATCTTTAGGAGGTTGGTATATGATGATTCCTACACCACACATTGAAGTAAAGGATAAAAATACTATTGCAAAAACTGTTATTATGCCTGGAGACCCATTGAGAGCTAAGTTTATTGCAGAAAAATTCCTTGAAAATCCTGTTTTATTTAACTCAGTAAGAAACATGTATGGATACACAGGAACTTATAAAGGTAAAAGAATAAGTGTTATGGGAAGTGGAATGGGAATGGCAAGCATAGGAATTTATTCTTATGAGCTATTTAAATTTTATGATGTTGAAAACATTATAAGAGTTGGTTCATGTGGAGCTTATACTGATGAATTAAACTTATACGATGTTATTTTAGTTGATGAAGCATACAGCGAATCAACATTTGCAAAATGTCAAAGTGGATATGAAAGTGATATTATTGAACCATCAGAAAAATTAAATGAACAATTAAGAACTGCTGCAAAAAATTTAAAAATAGAGATAAAAGAAGGTAGAATTCACTCTTCAGACGTTTTCTATAGAGAAAACTTTGAAGTATTTAAAGAAATAAATAAAAAGTATGGTTGTATGGCTGTTGAAATGGAATCTTTTGCTTTATTTGCAAATGCAAAAAGCACTGGTAAAAATGCAGCTTGTTTATTGACTGTTTCAGATAGTTTAGTTACACATGAAGCAACAAGCAGCGAAGAAAGGCAATTATCTTTTACAAAAATGATGGAAATTGCTTTAGAAATGGCAGAATAAAAAAAGACACCACAGGTGTCTTTTTTTATTCCATTATAATAACTTCATTAAATACATTTAATTTAAAACAAAACTTTATATCCTCATTTAAATTTAATCTCTTCATTGTTCTTGCATGATCTGAATTTTTTATTTCTTCTACACTTAAATTAGCTATACTTAAAGCTATTTTTGCTCCATCATTTAAATCTACATCTTTAAAATTCCTTAAAAACAAACCAGCTGTGTATAAATCTTCTAATGAACTAACTCCATTTGAACCAGAACATACAATACCTATATCTGTATAATCTTTTACATATTCATACACTGAATTTAAATTCAATAAACTCAATGGAATAACTTTTCCCATTGAACTTATTTTATTAAATGCTTTTGCCCCATTTGTAGTTGTTAAAACAATTTCTTTTCCATTTAATTTTTCCTTGTTTTTTAATATTTCTACAGGTGAATTAGAATAATCAAAACCTTTTATTTTTTGTGCATTTCTTTCACCTATTAATATTTTATTTTTCTTTAAAAAAGCTTTTTCTAAACTCTCTACTATTTCTAAAGATTTTATTTTACAATGCAATAGTGTACTTATTGTAGAAGTTGCCCTTAATGTATCTATGAGAACATATATATCATGTTTTTCAATGTTTTCAAGATAAGTTGTATAAACATTTATCATTTTATTAAAAATACTCTTGCTTCAAATGGATTAATTCCAACTTTGAGTGTTCCATCTTGAACTTCCCATTCACTTTCACCACGTCTATAGTTTTCAATTAAAGTTTTAACTTTATGGTATCCGCGCCAAGTATAATATCCAAGGTTTATATCAAAATAAAATGGATGTTCTTTATTTAAATTTACTGGTATAACAATTCCTTCTTCTCCATTCCACCAAAACATTACAAATGCATCATTACCAAAATCTATAAACTTATAATTTTCAGATTTTAATAATAAATTTTTGTGTTCTTCTTTTATCTTCCCCAATAATTTCAAAAGTTTAACCATATGATGATCAACGTTCCAATGAAGAGCATACCAATCAAAGAAAGCTAATTTACCATAAAATTGATCTGTTGGTTTTAAGTTCTCAAATTTTTGTTCTATTGGATTATCAAAATCAAGACCCGTATTCATTGGTTGTTTTTCAAATATTTCATACCCAGAATTTATAAATGTTATTCCATTTGGCATAAACGTATTTAATACACCACTCATTTTTGAAAATAATTCTTTTCCATCTCTTGTAACTGCTCTTGGAGAATCCGGCGTTTCGGATGTTGCAAATGCAGGCAAGGATATATTAACCATAATATCTGAAACTACCTTTTTTAACCAGCCTTCTTTATAGCGTGGTTCAGTCCACCACGAGTTCCCTAAAATACCATCATAACCACTATCTTTAGCTTTTATATGGTTATCCATATTCAATTCCTCTGCTATTATTGCAAATGATGGATCATATTTTTTTGCATTTTCTATAATCATATGTTCTAATTCTTTAGGTAAAGCATGTCCCATATCCAATCTTGCTCCATCTATTCCAAAATTTTTTTGGTAAAATGGCATTATGTTTGCAATAGTATTCCAAAGTTCAACATTTTTTTCTTTTCCTGGAAACTTACTTGCTTTTACAACATCAAATAAAACATATGGTGGCTGATCTTTTGATAAGTATTTTTCTGCTGTTTCTGGATGTGACATATATAATCTTAAAAATGTAACGTCATCCCACGTTGGTTGTGGATCATTTATCCAGTCTGAAAATCCTGGAACAGTTATTACTCCAAATTCTTTTTCTATTTCATCTAAAAAATTTTCATTGTTCTTGTTTTTCATCACAAAATTTTCCCATTTATTTGGATCTTGTGTTTTTGGATCAAATTTAAATTTTTTCAAATGTTGTTTTACAGCTTCATCATTATATAATATTTCTAAATTTTCTAATGCTGGTTGTTCAAATTTTAATGTTTTTAAATAAGGTGGTTTAAATTTATTTTTTTCTTTAGAATCAATCCAATAAAACCATTCTGGATGCTCTAATATAAGATTATTATCTCTTGCAGCTGTACGAGGAACAAAGTCTAAAACAACTCTAATATTTAATCTATGAGCTGCTTCAACAAATGCTGCAAATTCATCATTTGGATTAAACTCATCTTCTAAAAGTGTATCATGAAAATCTTTTTCAACCTTAAAAAAATCTTTAACTGAATAAGGAGATCCAACTTCACCTTTTTTAAACTTATTACTAGATTGAGTTATAGGTAAAAGATATATACACTCTACATTAAATTGTTTTAAATAAGGTAATAATGCTATCATTTTTAAAAATGTTCCACCTTCTGTATATCCTTCTGAATCTATTGATTCAAATAAATGTGATTCTGTATGTATATATGCAGAAGTTGACCTCACATGAGCTCCATAAAATATTGAACTTTTAATCCAATTTGGAGTTTGTTCTTTTTTTATAAAGGACAACGGTTTATTATATTTTTCACTCTCATTTGAATTTTTTAAAATTGTTTCTATAATTTCTGAAAAATATTCATAAGGATTTACAAAAAATTTTCTACCTCTTAATTTAATATTTCCTTCATAATTATCTGGCATCCATCTTTTTGGAACTGCATAATTTGTTTTACCATCTTTTATTTTTTTTACTAAAAATGAATAAATACCTTTTAAATTATCCATTTTCAAGCCTCCTTTATTTTTTTGAAAACGTTTTACATATTACAATTATAACATACTATATTAATTTTTATTAGTAAAAAATTTTTTTACTTTTAATGATATAATGTAAAGGGAGGTGAGATATGTATAACTGTGCTGTTTTTTATGGTGATTATGTTGGTGTTGTTGATATAAGAAGTATTTCAGAACATTTTAAAAAAGGGTTTGCTAAAAAAGTTGTCCTTTTTATTGGAAGAGAACCAGTCAAAAAAGCCGCTGAAATGTTAAAAGAAAATGATTATATAGAAGTTAAAATAGTTAAAAAACCATCCAAATCTGCAAAAGAATACTTTAAGTCTTTAAATAATTCTTTTTTAAGTGATTTAAATGAATTTGGCGAAAGGGCGATGATGTTTGATCCTTGTTAATGAATCATTTATCCTGAAAATGCTTGAAAGAACTGGTCTTATTGTCTTACTTATTTATATTGTTTTAAGATTACCTTATACAAAAAAATTATTTATAAAAGATCATGAGAAAAAATTAAAAATTAATATTTTCATAGGAATTTCTGGTGGATTAATAGGTATAGTTGGAACATTGCTTGGAATTTCTTATAAAACTGCCATAACTAATTATAGAGATATGGGAGTTATTTTTGCTGGATTTATTGCTGGAATACCTGGTGGATTAATTGCAGGCTTAATTAGTGGAACTCACAGATTTTTTATGGGTGGTATAACAAATGTACCATGTTCTCTTGCTACTATTTCAATAGGTATAATAGCAGGTATTTATTCCGAAAAATTTGGGGAGGAAATTTTTAACCCCATCTCTTCTATTTTTTTCACAGCAACTGCAGAAATTTATCATCTTTTTTTAGTTTATTTAATTGTTTCTCCAAAAGAATTGGCTTTTGAAATTTCAACAAAGTTTATGCCTCCAATGGTTTTAAGCAATTCACTTGGAGTTTTTTTGCTTTCTTCCATTTATTATTCACTCTTAAAGGAAAATGAACTTCTTCAAAGTAAAGCAGTTATTTCTATTTTTAAGATTTTTGAAAAATCTACTTTTTTAATAAATGGAATGAAAGAAGAATTTTTACAATCTTTTTCAAAAGAAACCATTAAAAACACAATGTTTACTGATTTTTTCATCATAAAAGATAATAAAGTAATAAGTTCTTATGGAGAAATAAAAAGAAATATTAAAATCTCGGAGTTTGAAAAAACTATATTAAAAAAACAAAAGATACATTATTTAAAAAATGGAAAACAAGAAAAAATTAATTCTAATAATTTGAAATTTTTCTCTGGTATTTTTATACCATTAAAAGATGAAAATATTTTATTAGAATTTATTAAAAATAAAAGTAATTTTATTAGTGATTCTCAAATAACCGTTGCCAAGTTAATAGGTGATTTTATATCTTTACAATTAAAAATCCATAGAGCAAATAATATACGTTCTGAAATGGAAGAAATGCGATATAGAGACTTATTAATGAAAACAAATCCTCATATGATATTCAATGTTTTAAATACAATAAGTTATCTATCCGATAAAGAACCTTTAAAAGTAAAGGAATTATGTTATTCTTTGGGTAACTTTTTAAGAAACAATGTAGATATTGAAAAACCTCTTATAGACCTTAAAAAAGAATTAAATATTTTAGATAATTACATTGATATAATGAGGGTTAGATATGAAGACATGATTGAATTTGACTTTAAAATAAACGCAGAAGATTCCATGCAATTACCAGCTTTTACTCTTCAACCTTTAGTTGAAAATTCTTTAAAACATGGTATGATTCCTGACAAAAAATTAAAAATAAGTATTACTATAACTCAAAAAAGTAATGGATTTAAAATAATAATAAAAGATAATGGTAAAGGAAGTAATTCTAATAAAGAGGGATTTGGAATAAAATCAATAAGAAAAAGGTATGAAAATATTTATCATAATAAAGTAAAGATAAATACAAGTTCTTTTCTTTTTTCTGGAATGGTTGTAACTATTGATGTTGGGGGATAAATTATGAAATTAAAAACTATAATAATTGATGATGAAAAATATGCAAGAGAAGCTTTAAAAGATTTATTATTAAACTTTGATTTATTTGAGGTTGTAAAAGAATTTCAAAGTGCTACTCAAGCTCTAAAAGAATTGTATAAAATACAACCAGACATAATATTTACAGATATTGAAATGCCTGGTTTAAAAGGTACTGAATTTGCAGATATTATTAAAAATTTTGATACAAAAATTATAATAATAAGTGCTTATACAGAATATTCTATAAAAGCTTTTGAATTAAATATCTTTGATTATCTTTTAAAACCAGTTTCTATTGAACGTTTTTCAAAAACTGTTGAAAAATTACAAAAAGAATTAAAATTTAAGTCAATAGAAAAATTACCAGTAAAAAATGATGAAGGAATTGAATTTATTGATTTAAATGATATAAAATACTTTGAATCCTTTGATAAAACTTTAATAGTTTATCATAATAAAGGAAAATCAGAAGTATATAAATATAAAATTTCGGAAATTGAAAGTATAACAAAAAATAAAATTTTACGAGTTCACAAATCATATGCAGTAAATATTGAGAAAATTATTAAATTTGGGCATTTAATTGGAAAATCATGGTTTGTTACTCTTAATACTGGAGAAAAAGTTCATGTTTCAAAAACATACGTCGAAAATTTAAAAAAAAGGTTAAATCTTTGATATATAATAAAAATGGTTTAGCATTTGCTAAACCATTTTTATTATCCTTTTACTGAACCTTGAGTTAATCCTCCAACTATCCACTTTTGCATAACAAGGAATAATGTTACCATTGGAAGCATCCCTATCATAGACGCTGCTGTAAACATTCCCCATTCCGTTTCAAATGGTCCTGTTGTAAATGATCTTAAACCAAGTGCATATGTATAAATTTCTTCTCTTTGTAATATTATATTAGCAAGTAAAAATTCATTAAATATACCCATAAACGCCAATATTGTTACTACGGATATTATTGGTAGTGATAATGGAAAAACTATTTTCCAAAATGTTTGCAATCTTGTTGCTCCATCTATCATCGCTGATTCTTCTAAAGAATCAGGAATTGTATCATAATACCCTTTAAAAAGCCACATATTGTATGCTATTCCACCAAGATAAACAAAAATCAATCCGCCAATCGTATCCAATCCAATAAATGGATTATAATCTCCTATAAACTTTAATGTTTTATACAACGCTACCATTGACATTATTGCCGGAAACATTTGTATTATCATTAAAAATAATAATCCTTGTTTTCTTCCTACAAAACGCATTCTTGAAAATGGATATGCTGCCATTGAAGTCATTAAAACTGTTAAAAATGCTGTTAATCCTGCAACTATTATTGAGTTTAACATCCATCTTACAAATGGTTTTCTTAACCATTTCTTCCAATCCATTGAAAAATTATACAAATACTTATCTATTTTTTTCAATATTGACTTTAAATTTCCATATTTTAATTTTTCAGAAAAATCACTTACTATTCTTGAAGCTCTTGATAAATCAGCATTTGCATTCCCATACTTAGTATTGTATAAATCTGTCATAATTTCAATAGATTTTATATTTGTAACATTTCCACCATAATTAAGCTTCACTATATTTTTTATATTATTCTTTAAAAAAGTTAATTGAACACTCATTTTTGATATTAAAGTTTCCATTTTTTCTTTTCCTGATAAAAATCTATTTTTTGATTCTTTTAAATTATTATAAGCAGAAAATAAAAAGTACTTATTTCTTTCTGGAATATACTTTGAATAAAATTTTGATTTTAAAAATATTGAATAATAATATGCTTCATTCAATGTTTTTATATTTTCATTTGTAAAATCTTTTACAAAAATCAAATTTGGTAGTTCTTGTATTTCATTAACAAAATCTAATTTATCTTTTTCATTTTCTTTTAACACTTCATTTTCATTAGATGCTTTATTTATTTCATTTGTTAACTTATTATCCATAGAAATAAGTTCTAGTTTATTTTCATAATTATCTTTATATTGATTTATTATCATCTTTATTTCTGATAAAGAAATAGCCATTTTTTCTGCAGATGATTTTAATGTTTCATAAGCTGGCATAACTGTTTCATTATTTCTTAAACTATATATTCCTGAAAAATTGCTATATAAAAAATTAAATATCTCATCATACAATTTTACTGTTTCAACAAATCCATTTTTATTTAAAGAATCAATATTTTTTGCACTTGAATAAATATCTGGAAGTATATCTTTATATTTTTGAACAAGTAAATAAAAATTGCCATCTGATCCTGTTTTAGGAAGTTCTCCACCTTTAAATTCTGTACTCTTAATTACATCATATGCTGCTTTTATTTTTGATTTATTTAAGAAATAAACATCTGTTATAGCTTTTACTTTTACTTTTATTTTATTCAAAGAAACTTCTGTATTGTTTAATTCATTCTTTAATTTAGATTGTATAGTTTCATAATTTTTAATTTTTTCTTCATTATCTGAAATAGTTTTTAGTGTAATTCCAAATTTTTCTTGAACAAAAGTATTTATTTTATTACTTAATATTTTTATTTCAGAATCAACTTTTTTCCATGAACTTTCTAAATTAGATACTTCTGTTCCAATATTATTAATAAAATCAGTATTTTCTTCTCTTTTCCATTTTCTATAAGTTTTTATCTTCCATAAAGTTGTTTTTAATGGAACTTTAAACAATAAACTTTCTGTTTCAGAATAATACTTATCATTGTTTCCTTTATATTGTATTAAAAATTCATAAGTTTTTTTTCTTTGACTCAAATAATTTTTTATTAAAGTATCTAATTTTGATGTTTCTAAATTATATCCATATTCATTCAATTTTTTATTCAAATCAGAAAGTTTTTTATTAAAGTAAGCAAAATCAGTTTCTCTAATTTCATTTAAATCTTTCAAAATACTTTCTTTTTCTTCAATAAAGGTTGAAAGAACACTTTCATAGTTTTTTTCAACATTATTTAAATTTTCTTTTGACATATCCAAATAATTAAATAACTTATTTATATCTTCATTTGATCTTTTTATTGCTTGTTCTGTGGTATAAGAGTTATATTCATCTATATACGCAGTAACATCATTTAAATCTTTTATTAATTCTGGAACCGTAGGTTTTGGGAAAAGTAATTCAGTATAATTTCTCATTGTTAATCTGTTTGAAAATAATTTAGAACTAAAAGCTGCATTGTCTCTTCTAACAGATGTTGAAACAACCCAAATTATAGGAAACAATATAATTAAAACTACTATAATCATTATTATATGCCTTAAAAAATAATTCTTTTTTTGTATCATAGCCATTATCTACTCACCTCTTCAAAAGCCTTTGAAAATTTAAAATTAAAATAACTTATTATAGATACAATACCAAAGATAATTATTGCTATTGCACTCGCAAAACCAAAGTCTTGACCTTTTCTTCCTTCAAAAGCTAATTTGTATGTAAATGAAATGAGGATATCAGTAGCACCTGCTGATGTATTTGAATTTGGTAAAGCTGGTCCTCCTCCTGTTAATAAGTAAATACCAACAAAATTATTAAAATTAAATGCAAATGACATAACTAAGAGTGGAGCTACAGAAACCATTAAAAGTGGCATAGTTATCTTTGAAAATTGCTTCCACTTAGTTGCTCCATCTATTGATGAAGCTTCATAAAGTTCTCCAGGAATACTTTGAAGAGCTCCAAGAGTTACCGTCATCATGTATGGAAATCCAAGCCATGTATTTACTATTAATATAGATATTTTTGCCCAAAATGGATCATTTAACCACTTTATTGGTTCTAACCCAAGTTTTGCAAGAAATATTTTATTTATTATTCCATAAGTTTCATTAAAAAAGCCGTTTCTCCAAACCAAAACAGAGATAAAAACTGGAATTGCCCATGGAATTATTAATAAAGTTCTATAAATCATTCTTCCTTTCATATTTTTATCATTTAATGCAAGTGCTAGTGCCAATCCAATTATAAAGCTAAAGATAACACTCAATATTGCATATGTGAAAGTCCAAACAAAAATTTTGAAAAATGGTCCTGCAATTTTAGGATCTGTCAATATCTTTTTAAAGTTATATGCACCAACACCTTCAACATAACCAATTAATCTCGTTGAAACTCCATTTTTATCATAATCCCAAAAAGCTCCATCTTTATCTTCTAATATTGTATTTGTTAATGTATTTAATATTTGTGTCTTAGTAACCTTTCTTCCTTCAATTATATTTGTTTTTGAAATTGCTTCATAAACACGATATGATTCTGAAAATTTTCTATAAACATAATCACTCGATAATCTAAAACTCTTTTTACCATTTTTTAAATTAATAACTTTTAAATATTTTTGTCTTATAACCGAATTATAATAGGCAGAATTTGAAGAAACACTTGGATCATCAAATCCATAAAAATACGTATACTTTATTTTTCCATTATCAATAGCTATTATTTTTCCTTCTTTATTTTTTATTATTTTATATGTTTCATCAAAAACATCATTTTTTAAAGGCATAAGCTCTGATTCAGCATACTTAACATTTCCTTTAGCATCATATTGAATATTTTGTGGTTTTTTAGCAAGAAAACTCTTTTCTTTATTATACAATAAAACTAAAAAATCTTCTGTAGGTTTATACTGTTCATCGTACTTAACAAAAATTTTAAAATCATAAATTTCAGCATTATTTGGCGAATACAAGAATCTTGTATCTGTCAATAAAGTTTCAATTGCTTGATCTCTACTAAACAAATGACCAGTTCCATAATTAGTAAAAGCAATTTGAATTGTGTAATACATAGGATATATAGTTAACACAAATAAGAAAAATAATGCAGCAATTGTATATCTATATGGATATCCTTTTTTTGAAAAAATAGCCCAATCAGCTATCGCAACAAATACTCCCAATGTAACTGCAAGAGAATAATTTCCCAATGCAAAGAGCATGAAGGTAAACCAAACGAGTATAGCGTTCAATATTGCCACTCCGCCCCACATAAGAAACTTTAAAAATTTTTTCATAAAATACCCTCCCTAAAAAATTTTTAATTATACTTTTATTAATAATTTTTATTATAAAAATCACTAATAAAAATATTATTTTGAAAAGGGAAGAGATTTCTCCCTTCCCATATTTTTTCAAAATTATTTAAATGATTTTTATTCTTACTCAGCCTCTTACTTAGACATAGATGACTTAATTTTAGAAACTGCATCATTTAAAGCTTGTTCTGGAGATTGATTACCAGAGGTTATATTATTTAAAGCATCTGCCATTGGTGACCATACCATACCCATTTCAGGAACATTAGGCATTGGTTCTCCACCTGCAGCACTTTTAATGAATTCTTCAACTATATTTTCTGGAATAGGACCACCTTTTTCTTTAATTATATCAAGTACGTCATTTCTTGCAGGAAGTCTTGGATCTGCAACATAGAAGTTGTAAATACCTTCTTTTGTAGCCAAATAATTTATAACAAATTCTTTAGCAAGTGCTTTATTCTTTGATTTTGCATTTACCATTAAACCTTGTACTCCAACAAATGGTTTTGCTGTTTTACCTGGTTCAAGTTCTAATTCTGTTAAAGGCAATACACCAAAATCAATACCTGCATCAATATAGCCTTTTAATGACCAAGGACCATTAATTATCATTGCTGCAAGTCCATCTTTAAACATAGAATCCATAGTATTATAATTTGCTCCAGCTGGTATTATTCCATCATCCATGAATTTTTTTATTAAGTTTCCACCTTTTATTGCGCCTTCATTGTTTAAACCTATATCATGAACATCATATCCATTTTCTTTTGACCAATTAAATACGTATCCGCCAAAACCTTTTAAGAAACCATATGTAAAATAAAAGTTGTTAACATCATATACAAAACCTAATGTTTCATCTGTTGTATATTCTTTTGCTGTTTTTAATAAATCATCAATAGTTTTTGGTGCTGTTTCAACATAGTCTTTATTATATATTAATGCTACTGCTTCTATTGCATATGGAAGACCATATAATTTTCCATTTACAGTAAAAGCATTTATTCCTGATTGAGCATACTTATCCATTTCTATTGCAGATGTTGGAAGTGGATCTAAAAGTCCATTTTTTACTAATTCTCCAACCCAATCGTGTGCACCAACAATAATATCTGGTCCTTCTCCTGCTTGTGAAGCAGTTAAAAATTTTGATTTTATATCTCCAAAGTTAACGAATTGAACATCAACATTTATACCTGTATCCTTTGTAAACTGTGCTCCTATCTTTTTCATAAAATCAACTTGTTTTTCAGATGCCCATATAACAATTGATTCTGAAAAAACTGAAAGAACTGAAAAAATTACTACGAGTGCCAATAATAATGTTTTTTTCATCTTTTTTCTTACCCCCTTATTAATAATTTGATTACGATGAAAACGTTTTGTATATAGAAATTATAACATAAAAATTTCTTATTTTTTCAATTATGAAACCTAATAAAGACTAAATATTTATATTTAATTTTAAATATAAATAAAAATCTTGATAATTCTTTATTTTTAGCTTTTTTTAGCATTATTTTTATATAAAAAAATTGAGAGCTTAAAACTCTCAATTACCATATTTCTGGTTCAACTTCTAAATTCATATTATAAAGTATTTTTACCTTATTTTTTACTAATTTTATTAAGTTTAAAATATCTTCAAAGGTAGCATTACCTTTATTTACAATAAATCCTGCATGTTTTTCTGAAATTTGTGCATCACCTATTGAAAAACCTTTTAACCCCAATTTTTCTATTGTTGTTCCAACATAAAAATCTGGTTTAGGTCTTTTAAATATACTTCCTGCTGATGGCATATCAAGAGGTTGACGTTCCCATCTTTTTTCTAATAATTCTTTTGTTTTTTCTTCTACATTATTTCCTATATTTAACTTTAAAACAGCTGAAAGAACTATTATTTTAAGATTTTTTACAATAGAACTTCTATAATCAAACTTCATATCTTCTCTAGAAAAAGTTTTTATTTTTTCTTCATTCACATCAAAAATTTCTACACTTTCAACAACATCTTTAAACTCTCCACCATATGCACCAGCATTCATAAAAATAGCTCCACCCAAACTACCAGGTATACCGCTTGCAAATTCTAATCCAGATAAATTATTTTCACATGAAATCTTTGATAATCTAGTAATAGATACACCACACTCTGCAATTATTTTTTCACCTTTTAATTTATAATTACTTAGATTTTTTGTGGATAAAACAAAAAAATCATGAAATTCATCCTTTGCAATTATATTTGCACCACCACCAATTATTTTATATTCTTCATTTTTTAATTTTTTTAATGCGTAAATAAAACTTTCTTTAGTTCTTGGTTCTATAAAATATGAAACTTTTCCACCAACTCTAAAGTTAGTATGATTTTTTAATGGCTCATTTTTTTTTACATCGCATCCATTTAAATAAAGATCTTTTATTAAATTCATATTCATCTCCTTTTTTATTGTTTTTTTATATTATACATCATCTTATTCATGTATTTAACAAATTATGGTATAATAAAATAAAGATTTTTTCGAGGTGAAGTGATGAGCAGTCTTTCTGTTATTATGATTTGTAGAAATGAAATAAAAAATATCAAAAGTGTTCTTGATTCCTTTTATGAACAAAGTTATGTTCCAGACGAAATAATAATTGTAGATGGAATGTCTAATGATGGAACTTATGAATACTTAAAAACTCAAGAAAATAACTTTAAAAATTTAAAAGTTTTACAAAATAAACAAATGTACACACCACATGGATTGAACATGGGAATTAAAAACTCATCTTCTGATTATATAATGATAGCAGGAGCTCATACAAAATACAATAACAATTACATAAAAAGCATAAAAGAATACTTAGATATACACAAAGATATTGGAATTGTTGGAGGTGTATCTAAAGGAACGCCTTCAAAAGAAACTTTACTTGCAAAGAGCTTTGCTGATTCTTACTCTTGTATCTTTGGTGTTGGAGCAAAACACCGTGTATTCAATACTGAACAAGAAGTAGATACAGTTGCTTATGCTGCATACAGAAAAGAATTATTTGAAAAATATGGACTCTTCGATGAAAGACTTTTAAGAAATCAAGATATAGAATTGAATTATAGATTTAGAAAAAACGGTATAAAAATCATCATGCTCCCAATTGAAAATAAATATCTTGCTCCAAATTCATTATTAAAGTTCATCAAAAAAAACTTTGATAATGGTTACTGGAACTTCATAACTTTAAAATTAACACCTCATGGTATTTCTTTTCGACATTTTATTCCAATGTTTTTTGTTTTGTTTTTAATATTATTTTTATCCTTGTTTTCTATAAATATAATTAGAAATATTTTGTTAATACCAATGGCATTTTATATTTTACTTGATGTGTTATTCTCTTTAAAAGAAAAAAATTTATTTTTACTCATCATCTTTCCAATATTACATATTTCATATGGATTTGGAACACTAATATCTTTAATAAAAAATTTTAAAATAAAGTCGGAGGTGTCTAAATGAAAAATCTTCATGTAGTTGAACATCCATTGATAAAACATAAATTATCTATTATGAGAAATAAGGATACAGGTCCAAAGGAGTTTAGAGAACTCTTAAATGAAATAACATTATTATTAACCTATGAAGCTTCAAGAAAATTACCTTTAAATGAATACGATGTTGAAACACCTATTCAAAAAACAACTGGTTATGCTGTTGATGATAAAAAAATAACAATAGTTCCAATTTTAAGAGCTGGTCTTGGCATGCTCGATGGAATTATGGAATTAGTTCCAAATGCAAGTGTTGGATTCTTGGGATTGTTTAGAGATCCAAAAACACTTGAACCTGTTGAATACTACTCTAAGTTTCCAGAATTTACAGAAAATCACCACATATATATAATAGATCCTATGCTTGCAACAGGTCATTCAATGAATGCAGCAATAGAAATAGTCAAAAAAAATAATGGAAAAAATATAACCGTCATGTCTTTAATTTCTTCTCCTGAGGGAGTAAAAGAAGTCTTAGATAAATATCCAGATATAGAAATTTATACTGCAGCACTCGATGAAAAATTAAATGATAAAGCATATATCATTCCAGGACTTGGAGATGCAGGAGATAGATTATTTAGAACAAAATAAGGTCGGTTATTCCGACCTTTTAATTTTGGAGGAAGATCATGTCGGAACTTTTAACACATTCTATTTTATTTGGAATTGCTACTTTAATCAGTAGGTTATTGGGGTTGGTAAGAGATGCAGCCTTTGCTCATTACTTTGGTAGAAGTGAAGCTTTTGATGCTTATACCATTGCAATAATGCTTCCATTCTTTTTAAGAAGAATATTTGCAGAAGGAGCTCTTTCATCTGCATTCATACCCTTGTTTTCAAGAAAAGGAAAAAAAGAATCACAAAAATTTTTAAGTACCACCATTTGGTTAATGCTATTTTCCACATCTATTATATACATCTTTGTTTTGTTTTTTTCAAAAGATTTAGCATTTTTACTTGGATCTGGATTATCCAAAGATGCTTTAAATCTTTCATCAAATTTAATGAAGATAACTTATCCCTTTATAATTTTTATTTCTCTTTGGGCAATAATTTCTGGAGTTTTAAATACTAAAAAAGTGTTTTTCACACCTGCTGTTGCACCAGCATTGACTAATATAACAACTATAATGGGAATCTTTTTTTCTTTTTTATTTCTACCAAAAATACTTGGTCCAGTAATAGGATTTACTCTTGGTGGATTATTTCAATTTTTATTTGTTATTCCATCATTAAAAAAAACAGGTTACTCTATAACCTTTGAATTTGAAAAAAAATATGTAAAAGAAATAAGTATCTTATTTGGGCCAGCACTCCTTGGAGTTGCAGTAACCACATTAAATACATTAGTCGATCAAAATATAGCAACTTGGACTGGAACCGGTGGAGTTTCTACCATACAATATGCTTCAAGATTGTATCAATTACCTTTAGGAATCTTTGCAGTAAGTGTAGCTAATTCTCTTTTACCAAAACTATCCAAAGCAGTTCATTTAAAAGATGAAATACTTTATTCAAAACATTTAAAAGATAGCATAGAAATAATAGCATTCTTAACAATTCCATCTGCAGTTGGATTATTTTTATTGAGTAATGGACTAATTGGATTGATTTATCAACATGGAAACTTTACACAAGCAGATACGATCATAACAGGAAAAACACTTGCAATGTACGCAATCGGACTACCTTTTTACTCTCTTTACAGTATCTTTGTAAGAACCTATCACTCAAAATTAAACACAAAATTACCAACTATAATTTCAATAATAATGCTAATAGTAAATGCTTCATTGAACTTAATCTTTATTTTTTATATAAAAACAGGAATTTATGGAATTGCACTTGCAACATCTCTTTCTGGAGCTTTAGGAATGATTATTTCAATGATTCCATCTATACAACATATAAAATTAAACACAATTTTAGAAATAATAAAGATAACAATAGCCTCCTCTTTAATGGGAGCTTTCATACTATCGACTCAAACCATATTTAATTCTAAAATATTACTATTAATACAAATTTTCATAAGTACTCTATTATACTTTGGATTTGCCTATCTCTTAAGAATCAAAAACATGCATCAAGTAATAAATATTTTTCTAAAAAAAATATCAAGCTCTAAATAAAAACAACCACATAATGAAGTGTGGTTGTTTTTATTACTTAATACTTTATTTTTCATTTGACTCCATACTTTCTAATTATTCAAATCATACAAATTATAATTGACCATGTATATTTTTAATTTTTTCAATAGACAAATTTGTTGTTTTAGAAATAATTTCTATATCAACTCCATTTTTTAATAGTTCTTTTGCTATTTTTTCTTCTGGAGTTAATTCAATACCTTTATCCAAATTACTAACGATTTCAACCTCTTTTTTGTCAAAAGCTATTGAAACTTTTATTATATCGTTTATTCCATAACTTTTTATTTCTTCTTCATACTTCTTTTCATTTATTTGTTTTAGTCCATTTTGTGCACTGTCTTTTAAACTTTTATCTTCATCTCTATTGTACTTTTTAAACTCAATAATTATTCCTTTATCTGTTTTATCTTTTGGTATTAATATAACATCAGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATGTACTTTTCTTTCAAACCAACACTCATTCCAAGTATTAATCCATGATAAAACCTTTCTGGTTCCTTTCCGCTAACGTCAAAGTAACTCAATGTATTCATCGTTAAATCTTTAAATTGGTCTGTAAATGTTTTTATTCTTCCTACTTTTAGATTTAATAACATATTATCAAACTTTATTCTTTCTTCTTCAAGCATTGATACTACAGTCTTATTGTAAAATATTTTTACTTCTTTATTTGGTATCTTTAATGTATATCTTTCATAATCATGATTTATATTTTTTGTCCATTTTAAGTAACCACTAAACAAAAATAATGTCCATACAGACTCTTCTAAGTTATTATTTAGGTCACCATAAACCATGGTTTCATTTATTGTACTTTCAATTTCTTCACCATTTATTAGTTTTTCTATTTTATCTTTTAATTCAGCACTTCCTTGTTTTATTAATTGTTTAACTAAGTAGTTCCCACTAGTATTCATCCAATATGGTCTTATCTTTTTTTCATCTACTAAGTTTATTATAGAAAAAGGATTGTAAATTTCAACACCACCAAAGTTATAACCATTGTACCAATCTATAACTTCACTTTCTTCATATTCAAGTTCATAATACTTCAATGTTTCTTCTACTTCTTCTTTAGTTAATCCATACTTATCATTGAATAGTTCATTCAATACAGTAGAAACCTTTAAGTTATTCACACCAGTAAAGATACTTTCTTTAGAAACTCTTGTTATACCAGTAAGAACTGCTTTTTCAAGATATACGTTATCTTTTAATGCCATGCCAAATAAGTTACCTATTAAAGATATTATTTCATCATAGTATCCGTGTAAGTAAGCTTGTTGAATTGGAGTATCGTATTCATCTATTAATATTATTACCTTTTTACCATAGTATCTTTCCATATATTCAGATAAACTTCTTATACAGTTTTCATAATCAGCATCTAAAGCTTCTCTATCCATTATTTTATTGAATACAGCTTTTTCTCTTTTATTTAATACTTTTAAAACATATTCATGTTTTGTATATAATCTTGAAAGTTCCATTGTTAATAAAGCATGCATCTTTTTTAAGTTATTAGATTTTAAATCTTTAAAGGTGATGTATATAACAGGATGTTTATTTAAATGTTTTTCTATTATCTTTTTTTCTTTATATATCTTTAAATCTTTAAAGAGGTGTTCATTATTTTGAGTAATATCAAAAAAGTACTTCATCATGGATTGGCTAAGAGTTTTCCCAAACCTTCTTGGTCTTGTTATTAATAAAACATCGCCACTTTCAATAACTTCTTTGATTAACAAACTTTTATCTACAAAATACATATTGTCTTCTATTAATGATTTAAAGTCACTTCTTCCTATTGGCAATCGTTTCATAGAATCATCTCCTCATTTCTAATTCTTTATATACTATTATATCAAAATTACTTTAAAATATAAAAAAACACATTAATTCTTAATAAGAAAAGATTTAAAATTCTTGATTCCTTTATAATTTAGAAATCAAGCATTCAGTTATATATAATTTTTATTAATTTTTTTCTCTACTCTATGGTTTATAATTGTCCCCTTGAGGGGACGAGGCTTTTTCGGAGGGATGTGGGGCTTTCTAAATATCTATATACCAATTAACATAATATAACAACAAACCACATCCCTCCGTCCTCCGGACTCGCCCCTTCTAAGGGCACTTTCCGATTCTAAGGGCACTTTCCGAATAATTGAGGGAATGTCAAGAAAAATGTGTAAATAGTAAATTAAAAATCAGAAAAGTAACGAAAACGAGACTGAAATCTGGGGTCAGTATCAAGTTGATTTCTAACAAGAGCCCAGTTAGGAACAGGTCTAGAATTCCATTTAGAATAAAGTTCATTAATACGTAAAAAAATCAATTTAAAGAGAGCCTTTTCATTAGGGAATGCACCTTTTTTTACAACTTTTCTAAAAGAAGAGTTAACAGACTCAATAGGATTAGTAGTATACATGATTTTTCTAACAGCACTGCCAAAATAAAATAATTGTTCAACAAAATGGAATTTTCTTTTCCAAACAGAAACAGCTCCAGGATATTGAGACCAAGCAACTTTAAAAAGTTCAAATTCTGATTGAGCAGTTTTAAGATTAGGAGCAGTATAAAATTTTTTAATACTAGAGGTAAAAGATTTATAGAATTTAGATGGAATATACTTTAAAGAATTACGAATAAGATGAACAATACATCTTTGAACAATAACATTAGGAAAAATAGATTTAGCGCCATCTTCAAGACCAGAAACACCATCCATAGAAATAAAAAAAATATCTTGAGTCTGTAAAGATTAGTGTGTATTAGATATATCTGGTAGCATATAAATATTGGAAAACAACGACAAAAATCTTAAAAAAATGTAGTTATTAGAAAATGAAAAAAATGTTCCTGAATAGTATGAATTAAATAAGGCAAAATTGGTAAAACCAACCTTTTACAGTAAAAAACTGCAATGACTGAAAGGGCGACAACCCATCTCCCGAGAGTGTAAAATATTAAGTTTTTTAGGATTACAAGCTACTTTCAGAGGTAGTCTTTAAGACGTTCCTCGAAAAGGATGGCCAGTTCGGAAATAACAGCGTTCCAGTTGTGAAACCGTGCTGTCCATTTTTTTGTCACGTTTTTGGTAGTAAGGTATAAACTTTTAAGGACAGCATCGTCATTAGGGAATATTGATTTGGTCTTGGTAGCCTTCCTGAATTGCCTGTTAAGTGACTCTATGATGTTCGTGGTGTACATAATCTTCCTTACCCCGTCTGAGAACTGAAAGAAGGTGGATAATAGGTGCCAATTTTTCTCCCAGCTCCTCAATGAAGCGTAATACTTGTCTCCCCATTTGTTTATTACATTGGTTAGATTATCATAGCCTGTCTTTTCATCCAGTGCTGTATAGATTGTCTTTAAGTCCTTTGCGAACTCTTTCCTGTCCTTGTGAGGAACATATTTCAGGGTGTTTCTAATCTGGTGGATTATGCACCTTTGTATCATAGTTTGCGGGAAGGTTGCATTTATAGCCTGCTCGAATCCAGAAAGACCATCTATTGAAGCTACAAGTATGTCCTTAACTCCTCTGTTTTTGAGGTTGTTAAGTACTCCCATCCAAAACTTGGCACTTTCTACTTCACCAACATATATCCCGAGCACATCTTTAATTCCATCTATGTCAACACCTATTATTACATAAGCAGCCTTCTTTACTATCCTTCCGTCCTCTCTAACGTTGAAGTATATTGCATCCAAGAAAACGAAGGTGTATATTTCGTGTAATGGCCTTTCTTGCCAGTCTTTTATTAATGGCATAAGCTTATTTGTTATTTTGCTCACCAGTTCAGCTGATACTTCAAATCCGTACAAATCCATTATCTGATCAGATATATCCCTGGTGGTCATTCCTCTTGCGTACAAACTTATTATTTTTTCCTCTATCTCTGAAATATCATTCGAATACTTTGGAACTATTTTGGGTTCATATTCTCCCTTTCTGTCTCGAGGTACCATTAATTCTATCATACCGCTACTACTCTTTAAATTCTTCTTCCTGTAGCCATTTCTTGAATTTTCTGTATTTTTCTTTTCTCTGTCATACTTTCCATAGCCCAGCTCGTCTTCGAGTTCCGCTTCCAGTACTTCCTGGATCAGATTTCCTGTCAGTGATTTTGTTAATTCCTTTATATCCTTTATTGTTCGGATTTCTCCTTTTCTTACCATTTCCTTTATTATTTCCTGTAGTACATTTCCCATTTTTCGTACCTCCTCTGGTTTTATTTTACCACCAGATCTGTATCTTTTTTTCCTTATACACTTAATATTTTACACTCTCAATATCTTCAACACCTCTAGCTTTTAATTCATCAAAAATTTGCATCCATTTGTGTTTACTTTCAGATTCATTAAGCCAAATACCTAAAATATCTTTAACGCCATTAGCATCATAAGCTAAAGCAGTATATAAAGCATAATTTTTAACTTCATAATCTTTTCTAATAGTAACATACATACAATCAACAAAAACAAAAGTATAAAGTTTTTTTAAAGGTCTATTTTGCCACTCTTGTAATTTTGGTAAAATATTATCAGTTATTTTACTTACAGTTTCATGAGAGATTTCAAATCCATAAATATCTTTAATAGTAGAAGAAATATCTCTTTGACTCATACCTTTTGCGTACATTGATAGGGAGTGTAAAATAAAGTGCATAAGTTTTTATACTTACACACTTTATTTTACACTCCCTCTTTTATTCCTCTATTTTTTAAATCATTTAATACTCTTAACCAAAATTTTGATGATTCTATTTCACCTATATATATACCAAGTACTTCTTTAAATCCATCTATATTTACACCAAGTACAACATATGCAGTCTTTTTTATTATTTCACCATCATCTTTTACTTTAAACACTATTCCATCCATAAACATAAAAGTATATATTTCTTCTAAAGGTCTGCTTTGCCATTCTCTGATTTCAGGTAATATTTTATTAGTTATTTTACTTATCATTTCCGCTGATAATTCTACACCATATATGTCCTCTACGTTCTTTACTATATCTTTTGTGCTTAATCCTAAACCGTACATACCTATTATTCTACCTTCAATATCTGAGATATCTTTTTTATACTTTGGTACTATGGCTCATATTCACCTTTTCTATCTCTAGGTATTTTTAATTCCATTTCTCCAACACTTGTTCTTACTCTTTTTGAACTGTACCCATTTCTAGAATTATCTGTTTTCTTGTTTTCTTTATCGTATTTCCCATAACCTAATTCATCTTCTAATTCTGCTTCTAACATCCCTTGTATTAACGGTCCCACTAATTCTTTTATCTTTTCATATACATCTTTTATTGTGTTTACCTCTGGATCCCTTGCTATTAATCTTGCTAATTTTTCAATGTTGCTTTCTTCTTTTTCTTCTTTTTTCCTTCTTTCCATTTTAAAAACCTCCTTCCTGGTTTTATTTTACCATCCCAAGAAGAAGGTTTTATTTTTTTATTTACACAAATTTTTTTATGGTCTCTTTTTGATACCTGTTCTTGTGCTTCTTCTGCTGTTTCTATCTTAAATTCTTTTATAAAATCTCTTACTATTTTTTCTCTTTTTAGATTTCTTTTTCTTCTCATTTTTTCACTTCCTTTTTTTCTATTTTATCATAATTGTGTAGGAGAATAATAATTATTTTATTTTATTTTATTTTCCTTCATGTTGGGTTCACTAAAAATAAAGTGCATAAGTTTTTATACTTACACACTTTATTTTACACTCCCATTTTTTTCATTTATTTGCTTTAATCCATATGGTTAATAATACGTATAATCCCTTTCTTTTCGTGTTTTCAGCAATTTCTTTTATTTATAAACCTCATTTTTTTCTTCCTGTGTGTTTTAGGTTTTGTCTAAAAATTGGCCATGCAGATTCTGCAACTCCTTTACTCTCTGAGGTTATCGCGTATACTTTGTTATCGGCACTCCCCACATATATCATTCCGTCCTCTCCTATTGTTAGACTGGAGTTTATACTACCTTTTGTTTCATATAACCACTTTAATGTTCCATCTTGTTTTATTGCATATACGTTTCCATCTTCACTTCCTACGTATATCGTTCCATCTCTCCCTATTGCCGAACTGGAGTTTACTCTACCTTTTGTTTCATATGACCACTTCAATGTTCCATCTTGTTTTATTGCATATACGTTTCCATCTTCACTTCCTACGTATATCGTTCTATCTCTCCCTATTGCTGGACTGGAGTTTACTCTACCTTTTGTTTCATATGACCACTTCAATGTTCCATCTTGTTTTATTGCATATACGTTTCCATCTTCACTTCCTACGTATATCGTTCTATCTCTCCCTATTGCTGGACTGGAGTTTACTCTACCTTTTGTTTCATATGACCACTTCAATGTTCCATCTTGTTTTATTGCATATACGTTTCCATCTTCACTTCCTACGTATATCGTTCTATCTCTCCCTATTGCTGGACTGGAGTTTACTCTACCTTTTGTTTCATATGACCACTTCAATGTTCCATCTTGTTTTATTGCATATACGTTTCCATCTTCACTTCCTACGTATACCGTTCCGTCCGCTCCTATTGCTGGACTGGAGTTTACGCCTTTTTTAAATGAAAACCAGCCTTTTATTTCATACTTCCATTTTAATGTTCCATCTTGTTTTATCGCATATACGTTTCCATCTTCACTCCCTACGTATATCGTTCCATCTCTCCCTATTGCTGGACTGGAGTTTACTCTACCTCCAGTTTTATACTTCCATTTTAATATTCCATCTTGTTTTATTGCATATACGTTTCCATCTTCACTTCCTACGTATACCGTTCCGTCCGCTCCTATTGCTGGACTGGAGTTTACGCCTTTTTTAAATGAAAACCAGCCTTTTATTTCATACTTCCATTTTAATGTTCCATTTTGTTTTATTGCATATACGTTTCCATCTTCACTCCCTACGTATATCGTTCCATCTCTCCCTATTGTTGGACTGGAATATACATTATTCCCTGTTTCATACTTCCACTTGAGTATTCCTCCACCTACATAAAAATGGTATATTTGCGTTTCAAATGTTTCACCTTTATTTGATTTTATCTTTACTTTCCAATAATATATCCCTTTTTCTTTCCGTTCTCCTAAATTATAGCTGTTTTCTTTTTGATCTTCTGATACTTTTAATAAGTTTTCTTTTTCTGTTCCAAAGTATACATCATACATGAATTTTCTTCTATCGTCATTTACTACATTCCATTTTAGTTTTATTTTATCTTCATTTACTATCTCATAATTCCTTGGACTTATTAAAGAAATTACTATTCCTGTTTTTACTATTCTAAATCCTACATCATTATACTTATAATTTTTTATGATTTTATTTCTACTTGAAACTTTTGTATCTTTTGATTTTGTATGCCAACTTCCTCCTCTTATTACTTTATATCCACTTTCTACACTGTTGTATGGGTTTGTTTGTGGTGAGTTTGTATAATAATTTTCATCATACCAATCATTACACCATTCCCATACATTCCCACTCATGTCGTATATTCCTAATTCATTTGATTTTTTTGTTCCTGCTTCATGTGTTTTACCCAATGAATTATTTGAATGCCATGCTACATCTCCTACTGTATTACTTCCTGCATATTTATTTCCTTTGCTTTGCATTCCTCCTCGTGCTGCATACTCCCATTCTGCTTCTGTTGGTAGTCTATATCCTGCTACTTTTGATAAGTCTGTTGTTTTGTTTCCATTTTCATCCAATAAATTTCCATTACTGTCATATGCTACTGGTAATCCTTCTTTTTTACTCTTCCAATTACAGTACTTTATTGCATCATACCAAATTACATTTATTACAGGTCTTTTTCCTCTTCCCCATCCTTCATCATTTGGTTTTTTTACTCCAGTTTCTTCACAGTATTTATCATATTCTTCAAACGTCACTTCGTAGTTTCCAATTAAAAATTTATACGTCAATTCTACTTTGTGTGATGGTTTTTCATCACTATATCCATTATTACTTCCCATTTTAAAAGTTCCTTTTTTTATGTATGTCATTTTATCTTTTACCATTATATTTACTTTCTTATATACATCTGTTACTCCATCTGTCACTTTAAAGGTTACTTCGTATTTTCCACTTTGTTCATATGTTGGTTTCCATTCAAATTTATTTCCTTTAAATTTTGCTCCTTCTGGCATCCCTTTTGCTTCATATTTTAATTCATCTCCATCTTCGTCCGTTCCTTTTATTTCTATTTCTATTTTGTCTCCTTCGTTTATTTCTTTGTCTCCTATTTCTTTTATTTTTGGTTTTGTGTTTTTGTTTTTTACTATTATATTTACTTTCTTATATACATCTATTACTCCATCTGTCACTTTAAAGGTTACTTCGTATTTTCCACTTTGTTCATATGTTGGTCTCCATTCAAATTTATTTCCTTTAAATTTTGCTCCTTCCGGCATCCCTTTTGCTTCATATTTTAATTCATCTCCATCTTCGTCCGTTCCTTTTATTTCTATTTCTATTTTGTCTCCTTCGTTTATTTCTTTGTCTCCTATTTCTTTTATTTTTGGTTTTCTATTTTTGTTTTTTACTATTATATTTACTTTCTTATATACATCTGTTATTCCATCTGTCACTTTAAAGATTACTTTGTAGTTTCCACTTTGTTCATATGTTGGTCTCCATTCAAATTTATTTCCTTTAAATTTTGCTCCTTCCAGCATTCCTTTTGCTTCATATTTTAATTCATCTCCATCTTCGTCTGTTCCTTTTACTTCAAATTCTAACTTTTTTCCTTCGTTTATTTCTTTGTCTCCTATTTCTTCTATTTTTGGTTTATAATAATTTACTTTTACTACTCTAAATCCTAAAAAACTTCTCTTTATATCTGGTTCATATTCATTTTTATAATCTATACTCAATATTTCTTTTTCATCATTCCAACTTCCACCTTTTATTACTTTTTCATCTTTTTCATACCAATCTGTACACCATTCCCACACGTTTCCGCTCATGTCGTATATTCCTAATTCATTTGGCTTTTTTGTTCCTACTTCTTGCGTTTCTTTTGTATTATTCCAATACCATGCCACTTCGTCTATATCATTTGATCCTGAGTATTCATATCCTTTGCTTTCCTTTCCTCCTCGCGCTGCATATTCCCATTCTGCTTCTGTTGGTAGTCTGTATCCTTTTGCTTTTAATGGGTCTGTTGTTTCCTTTCCATAATTATCTAATAAGTTTCCTTCTTCATCGTATGCTTTTGGCAACCCTTCTTTTTCACTCTTCCAATTACAGTACTTTATCGCATCATACCAGCTTACGTTTATTACTGGTCTTTTCCCTCTTCCCCATCCTTCATCTTTTGGTTTTTCTGCTCCTGTTTCTTCACAGTATTTATCATATTCTTCAAACGTTACTTCATATCTTTTTATATTATAAATATAATCTATCTTTTGCTCTTTACTTTTTATTCCTTCTATTTTTACATAAGGAGGCTTTTTTGGCTGCTTTATTTCTTCTTTTTCTGCTGAACAGCCATTCATTTGAAATATTATTAATGTTATTATCATTATTAATATTATCTTCCTCATTCTTTTCATGCTTCCTCCTTTTTTCTCAATTAATATATCAAATTTATTTAATTTTTGTTTTATTTTTTTAATATTTTACATAATTAAAATATTAAACAATATATTATAAATAAATCCTTTTTATTATATCATTTTTTATTTAAATAAAAAAATATCTCCAAAGTAGTTTTGTGTTTTTTACCTACTTTGAAGATATAATTTGTGTATATTTTTTCAGTTTATTTAAAATTTTCCTTTTTCTTTTAATTCTGAAACAATTTCTCTAACTTTTTGCACCTTTTCTTCATTTGCAACGAGTATACCATTGTCTGTTTCAACGACTACTATATTTGAAAGTCCAATTACACCAACAAACTTTTTTGAACTAACATAAATGTTTTTTCCTTCTACAACTTTTACGTTTTCATTTTCATCTGAATAGCCTTTTAATTCACGAACTGAAAGCCAGTTTCCAACATCTGACCATGAAAAATTTGATTTTATAGTATAAACTTTTTTTGATTTTTCCATTAGAGCATAGTCTATTGAAATTTTTTCAACTTCTGGCATTATTTTTCTCAATTTTTCAATATTTCTTGGATCTACATCTTTTAATTTTTTTATTATGTTTGAATTATACTTTTCCATTTCTTCAAAAAACACATCTTTTTTCCATATGAACATACCACTATTCCAATAAAAGTTTCCTTTTTTTATAAAATCAATTGCAGTTTCAACGTTTGGTTTTTCTCTAAAGGCTTTTACTTTAAAGATATTTTCTTCAACTTCATTTTTTGATTCAATATATCCATATCCTGTTTCTGGTCTCGTTGGTTTTATTCCAAGTGTAAATAATCCATCGTATTCTTTTGCTGCATTTACTGCTTTAAAAATTGTTTTCCAGAAATTTTCTACATCTGGAATATAATGGTCAGCTGGTAAAATAAATACCACTTCATTTTTATCTGCTACAAGTGTTGCTAATGTACATGCAGGTGCTGTATTTCTTGGAATTGGTTCTAAAATTATATTTTCTTCAGGAAGTTCTGGTAGTTCTTTTTTTGTTAAATCAAAATGTTTTTCAGCAGTAATTACAAAAATATCTTTTGGATCGAGTTTTAATACTAATCTTTCATATGTTTCTCTAATTAATGATTTGTTTGAAAAAATTTTTAAAAATTGTTTTGGTGTTTTTGAATTAGATAGAGGCCAAAATCTTTCACCTGATCCTCCTGCAAGAATTATTGCTTTTATTTTTACCACACTCCTAATTTTTTATTTTCATACTTATATATTTTATCATATTTATGGTAAAATATAATGTAAAAGGTGGTGAATTTATTGATAAATGAGGTATTAATAACTAAACCTATACTTTCTGAAAAAGTCTGGGGAAATAATGAATTAAATAATCTATTTAATTACAACTCCGAAACTCCACTTGGTGAAATCTGGCTTTATTCACCTTATAAAAAAAATGAAAGTATTTTAAGTGGGTTAAATTCAAAAGAAGTTTATGGTAAGGCTAGTGAAATATTTCCAAACTTTAAATTATTAATAAAATTAATATATACATCAAAATGGTTGTCTGTACAATTGCATCCAAATGATACTATGGCAAAAAAATTGGAAAATGAAGAAAATGGAAAAACAGAAGCTTGGTTTTTTTTAAAAGACAATGGAAGATTAAAGATTTCTAATGAAAACAAAAAAATAATTGATAGTTTAAAAAATAATGATTGGAATTTAAAAGAGTATGAAATGAATAAAAATGATATTGCTTTTATTCCCGCTGGAACAATTCATACACTCGGGCCAAATAGTATGATTCTTGAAGTTCAACAGAGCTCTAACATTACTTATAGATTGTACGATTGGGGAAGAAAAAGAGAAATACATATTGATAAAGCAATAAAAGTTTTAGAAAATGTTGAAAGCAATTATTCAATTTCAAGAAAGTCAAATGGTTTTGAAAGTAAATACTTTAATTTTAATATAATTGAAAATGTTGAAAAAGAAGGTTTTGGAGTATATGTTAGTTTAAAAGATTTCACAACACTTGTTTTACCTGAGAATATTAAACATAAATTCACAGGTCAATGGTTTGAAGTAAAAAAATAAAGTGGGTAATCCACTTTATTTTTGGAGCGGAAGACGGGGTTCGAACCCGCGCCCCCCTGCTTGGGAAGCAGGTGCTCTACCACTGAGCTACATCCGCAGATAAATTAAAACCGCTCCATTTGGTGGAACGGTTAAGTGGCTGGGGGAGGAGGTTTCGAACCTCCACTCTCGGAGTCAGAGTCCGATGTCCTGCCGTTAGACGATCCCCCAATAACGTATTTGATTATAACACAAAAAGAAAAAAGTGTCAATAATTTGTCAATAATTCAAGCTTTTCAATTTTATTTTATTTTTTTTACTTTAAATATATTTTATGAAAAAATTGAACAAATTTAACATTTAAAGTGTCTAAATTATGAGTAATAAATTATCGGGAAAAGGAAGGGGATGTTTTATGGGGAAAAAAATCGATGAAAAGAAAATAATGAGTGAACTTCAACAAATTAATCTCGAACAATTGGAAGAATCAGATGGAGAAATGGTCATTAAAGTTCATAAAAAAAACAAAAAAATTAAAGATATAAATAAAATAATAAAGTCTTTAAAAACAAAAGCAAAAAAAAATAAAAATATTTTAACTTATTCCGACATAGATGAAACAATTCCAGCAAATTTTGCTGATGAAATTAGTAGTGAATTTATTGAAAAAATATACTTTGAATTAGAAAAAAGCGGTATATCCATTGTAGAAGATATAAATGTTCCTGAAGACGAAGAAATTGAAAATACTGAAGAAGATGAAGAATTAAAAATTTTAGAAAATGTTGAATTAAAAATGTATGATAATATCTCTCTGGGAGATCCTATAAAAATTTATTTAAAGGAAATAAGTAAGGTTAATCTACTTTCAACAGCACGCGAAAGGCAGCTTGCAAGAAGAGCACAAAAAGGTGATAAACACGCAAGAGATGAATTAATAAAGGCAAACTTAAGGCTTGTTATAAGTATAGCAAAAAGATATACTGGACGTGGCTTATCTTTTTTAGATTTAATTCAAGAAGGAAATATTGGTTTAATAAAAGCAGTTAAAAAATTTGACTGGAGAAAAGGGTTCAAGTTTTCTACTTATGCAACTTGGTGGATAAGGCAAGCAATAACAAGAGCAATTGCCGACCAAGCAAGAACTATAAGAATACCTGTTCACATGGTTGAAACTATAAATAGAATGAATAAATTAATAAGAGAATATCTTCAAAAAAATGGTGAATATCCAAGTAATGAAGAACTAAGTGTTTTAATGGATAAAAGTGTAGAAAAAATAAATGAAATTTTAATAAGTGCAAAAGATATAATATCTTTAAATTCCCCTATTTCAAGTGGAAATGGCGATGATGATGAATCAGAAACTGGAGATTTTGTTGGCTCTGAAGATTTAACCCCTGAAGAGGTTGCACAACAAATGATATTAAAAGAAAAATTAGAAGAAATATTGGATACACTTCATCCTAAAGAAGCTTTAGTATTAAAGATGAGATATGGATTTTTAGACGGAAAACAAAAAACTCTTGAAGAAGTTGGACAATTTTTTAATGTAACTCGAGAAAGAATAAGACAAATTGAAACTAAAGCTTTAAGAAAGTTAAGACATCCAAGTAGAAGTTCTCAATTAAAAGATATTGTTGATGGATAAAAAAAACGGCATAAGCCGTTTTTTTTATTATTTAAAATGTTGTTGTTGGTTCAAAATGGAAATTAACATTTAAAATGTATGGATCTTGTGTAGATACAGAATCATCTGCATTTGGATTTTTGTTTCCACCAGCTGCTTTTAAAGTTAAAGCAACATCAAAATCAGCGTTTAATGCAAATTCATCAAATTTATATGTTCCATCACCATTATCTATAATTCTTGGTTTATAAACTATTCTATCTATTGTTTTTCCATAATCTTTTGTATAAACATTACCTGTTTGAACATTTTTGTGCCAAAATTGAAGTCTTGTTATATCTAATCCTTCAATATCATCAATGTTTGTATCTATGTTCATAACAACTTCGTCATTTGATGCAACTACAAAATCTACAATTTTTTGATCTTTTAATTCTCCTGGTTTTGTAATTGTAAGACTATTTCCTTGAACATTTGCATAAATCCATTGATAAACGCTGATACTTACATTTGCTGTTTTATCTACATTACCATTAGATACCCAATCATTTCCGTTATAGTTAAAATTTATTGGATCTGCAGCAAAAATACCAATTGCCATTGCCAAAGCAAATACTACTAAAATAACTTTCTTCATAAAAATCACCTCCAAATTTTTTATTACACCCAAATTTTACCATTAATATAATCTAATGAAAAGTGTATTGTAACCTATTCAATAAATACGAATTACAATATAGTAACAATATAATTCTACATTTACTTGAATTTAAAGTATTGATCTTTATATATTAGTTTCAACCATTATACAATCTATAAAAGAATATTCAACATCTATAGATTCAACGTATTTTTTTATCTCTTCTGATTCAGCTCCTGGTTGGAATCATAATTTTTTAAAACCACTTTCATAGGCTTCTTTTGCAGAGTTTATACCAATTTTTGCTGGAACAACAAAAACAATGAGTTGAACATCTTTAGGTAAATCAGAGATTTTTTTATAAGCTTTAACTCCTACAACTTCTTCATCTTTTGGATTTACTGGATACATTTCAAATCCTTTTTTTATTAGATTTTTCATTATCTTATATCCATATTTTTCTTCATTATTTGAAGCACCAATAAGTGCTATTTTTTTTATATTTGTTAAATTAATCATCTTTTTTCACCTCCGCATTTTTTAAAACTGTATCAAATGTATGCCACGATAAAGTAAAACATTTTACTCTCATTGGATAATTAGAAATATCTTCAAATATTTCTATATCTCCAACAACTTCTTCATTGTATTCATTTCCTTGTGCCATATTTAAAACATTTTGTACTATTTTTTTTGCTTCTGAAAGTTTTTTCCCTTTTATACTTTCACACATTATGGATGCAGAAGCTTGACTTACTATACAACCATGACCTGTGTAAGATGCATCTTTTATTACACCATCTTCTAATTTTACATACAGTTCTAATTCATCACCACAAGATAAGTTTTTACCATGTTCATGCCAAGCATTTTTTATTTCTTTTTTAAATTTTTTATTTTTTGCATAATCTAAGATTATATCTGTATATAAATCTTCAATAGACATAGTATCACCCCAAAATTTTATTTACTTTTTTCAAGCCCTCTATCAAAACATCTATTTCTTCCAATGTATTGTATATATAAAAACTTGCTCTACAAGTAGAATGTACGTTTAAATTTTTCATTAACGGTTGTGCACAATGGTGTCCACTTCTTATTGCTATTCCATAAAGATCATTCAACAAGTTTGCAACATCATGTGGGTGTACATTTTTCACATTAAAAGATATCAATGAGTTATGATTTGTATCTTTTGTTCCATAAACATCTAAAAAATCAAGTTCAGATAATTTTTTTATTGCATAAGATGTTAACTCTTTTATATGACTATATACTTCATTCACATTTAAACTTTCTAAATATTTTATTGCTTCTGCTAACCCTATTGCTCCACCAACATTTGGCGTTCCTGCTTCAAACTTATAAGGTAAAACATTAAAGGTTGTTTTTTCTATTGAAACCTGATCTATCATTTCTCCACCATATAAAAAAGGCTTCATTTTTTCTAAAATATATTTTTTACCATACAAAACTCCTATTCCCATTGGACCTAACATTTTATGTCCTGAAAAGGCTAAAAAGTCAATATCGAGTTCTTTTACATCTATTTTTGAATGTGGAATTAGTTGAGCTCCATCTAATACAATTATAACATCTTTGTTTATTTTTCTTATTTTAAGTACTAAATTTTTTATATTTATTTCTTGTCCAGTAACATTTGATTGACCCGTTATAGAAATTAATGAAGTATTTTTATTTACTAATTTTAAATATTTTTCTTCATTAAAAACTCCATTCTCAGCATCATAATATATAACATTATCAAATAATTGCTGCCAAGGAACAAAGTTTGCATGATGTTCTAATGTGCTTATTAATACTTCTCCATTTAAATCTTTAGAAAGAGAATAAGCAAGAGAATTTAAGGATTCTGTTGTTCCTTTTGTAAATATTACTTCTTCTCTTTTTGCATTTATAAAGTTTGCAACTGCATCTCTTGCATCTTCATACATAGTTGTAGCTTCTCCTGCAAGTGTATGTGGAGATCTATGAACATTAGAATTGTGATTTTTATAATAATCTTCAATTGCCTCAACGACTCTATTTGGTTTTAGAGTCGTTGCTGCACTATCAAAGTATATTAAATCTTTTCCATTTACTTTTTTTGATAAAGAATCAAAATCAGATCTTACTTTTAATAACATTTGTAATCACCTCTGCCGTTGAAGGATGATACTTTTCTATTTCTTCTATTACTGGTTCAAATATACCAAAAGATATTAATTTTTTTGCTTCATCTTTTGAAAAACCACGCGTCATTAAATAATATAATTTATCTTCTTCGATTGTTCCAACACTTGCAGCATGAGCAGCATTTACTTCATTTTCATCTACTAAAAGACTTGGTATTGCTTCTGCTTTTGCTTTTGGTGAAAGTAAAAGAGTATATTCTGATTCATCTGCAGTTGCTTCTTTTGCTCCTTTTTTTAAATCTAAAAAACCTCTAAAAATAACCTTTGATTTATCTTTTAGTGCACCTTTTCCATATATTTTACCAATAGTATCTGGTGCATAAAATTTCATCAAGTAAAGCATATCTATTATTGTTTCATTATTTCCTAGAAAATAAGGCTTCATTTCAGCTTGACCATTTTTTTCAGATAATCTAAATATATAATGAGGAACAGCTAATTTTCCGCCAATATTCAAATCAAAAACTTTTATCTTTGCATTTTTTCCGATATCAAACATTGCATTATCAATACTTATATTTTCATCATTTAAGATATTTACATTTATTATTGTCAATTCTGAATTTTCTTCAAGTCTACCTTTTAAAGCTGTTGTTCTAAAGATATCACTTTTTGTTTTAAAAACCCTAACTACTGTAAGTTTTGAATTCTTTTTTATATTAAATACTGTATTTTCATAAACAGATGTTTCTGTATTGTATTGTATTACTTTTGTTTCAGCTATTTCATTTTCATTAGTTTTAATATAATAACCAGTATTATAAAATGTTTCAGCCATTAAAAGATATTTTCTATGTGCTCCTTCAAATCCATACTTACTTAAAATTTCAAGGCCTTCTTCATCTATATTATCAATTTGAGACTTACATGGTGTGTATTTTAAAGGATCATAACCTTTTAACCTTGCTCTTTTCCATATTGGAAAGTCCCATTTTTTATATGCTTCAAATTTTATTTTTCTATACTTTTTCATATCTTCATTTTCAGTATATTCTATTGCCATTTGTAGTTCAGTTTCATTATAATCATTTTCAGATTTTATTTGTTTTGGTTCAGGTTCTATACCTTTAAAATTTTTGTGTACCATATTTATTGGTTTTTCAAATATTGTTTTCATATTATCAACTCCTCATCCTATTGAAGATTCTACTTCTAAATTAAGAAGTCTATTCAATTCTATTGCATACTCAATAGGAAGTTCTTTAGAAAATGGTTCAACAAAGCCTCTAACAACCATTGCCTTTGCTTCTGCCTCTGATAAACCTCTTGTCATTAAATAGTATATTTGTTCTTGTTTTATTCTTCCTATTTTAGCTTCATGTCCAACATCCGCATCATCATTATAAACCTCTATTAAAGGAACTGTATCACTCTTAGATTCGTTATCAAGCATCAAAGCTTGACATTCAACGGAAGCTTTAGCCCCTCTTGCTTTTTCATTTACTTTTAACCACCCTCTATAAAAAGACCATCCACCTGCAACTGAAATACTTCTTGCATCAACAGTTGCACTTGTATGAGGAGCAAGCATTAAAACTTTTGATCCAGCATCCATATGTTGATTTGCACCAGCATAAGTTATAGCTTTTATTTCTGTTTTAGCTCCCCTACCAATTAAAATTGATGAAGGATATATCATTGTTTTATAACTTCCCAAAGATCCTGAAACCCATTCCATTATTCCATCTTCTTCAACCATGGCTCTTTTAGTATTCAAATTATATGTATTTTTACTCCAGTTTTGTATAGTTACATACTTAACTCTTGCTCCACGTCTAACATATATTTCAACCATTCCAGCATGTATATTTGTTGTATTATAAAAAGGTGCAGAACAACCCTCTATAAATGAAACTTCTGCTCCTTCATCTGCAACTATTATAGTGTGTTCAAGTTGTCCCATTCCAGGATTATTCATTCTAAAGTAAGCTTGTAGAGGTAATGGTACTTTTACACCCTTAGGAACATATAAAAATGTTCCACCACTCCAAATTGCACCATGTAAAGCAGCATATTTATGATCTGTTGGTGGAACAGCCTTCATAAAATACTGTTTAACTAAATCAGGATACTTTTTTACTGCACTTTCCATATCCATAAAAATAACTCCAAGTTTTTTAAGATCATCTTGAACGTGTTGATAAACAACTTCTGAATCATATTGAGCTCCAACTCCAGCCAATGCTTTTCTTTCTGCTTCTGGAATCCCTAATTTTTCAAAAGTATCTTTTATTTCATCTGGAACTTCTTCCCAAGTATTACTCTTTTTTCCTTTAGGCTTTATATAAGCAATTATTTTATTTAAATCAAGTCCAGAAACATCTACACCAAAATTTGGATCTTTTATAGTTTTAAAAATTTCTAATGCTTTTAGTCTTTTTTCCAACAACCATTTTGGCTGTTCTTTTTGAAATGTCATTTCTTCTATTATTTTTTTATTCAATCCAGGCAATGATTTATAAGCATAAACCTCAGGATTTCTAAAGTCAAATCTACTCTGATCTATTAAAAGTTCTTCCATATTAAAATCTGTCATAATATCACTCCTCAACAGTTTCTAAAAATGCATACCCATTTTCTTCAACTTCTTTAGCTAATGTTGCATCTCCAGTTTTTACTATCGTACCATTTGCATATACGTGAACAAAATCTGGTGTTACATAATTTAATATTCTTTGATAATGAGTTATCATTAATATCCCCATTTTTTCTGTTTTAAATTTATTTATAGATTCAGAAACTATTTTTAAAGCATCAACATCAAGACCAGAATCAATTTCATCTAATATTGAAAGGCTTGGATTTAATAAACCCATTTGAAGTATTTCACTCTTTTTTCTTTCTCCACCCGAAAAACCTGTATTTACATATCTATTTAAAAAGTCTTTATTTAACTTTACAGTGTCAGAAAAATTTAATATTTTTTTATTTAATTTTAAAGCAGTTATTTCGTCTTCTGTATTTATATTTCTATAAGAATTCAATAAAAACTGTCTCATCTTAACTCCATCAACAGATTCTGGGGATTGAAAAGACATAAACAAACCTAACTTTGCCCTTTGATCTGTACTCAAGCCTAATATAGATTTTCCTTTAAATAAAATATCTCCTTCAACAACTTCATACTTTGGACTTCCCATAATAACATTTGAAAGTGTTGATTTTCCTGAACCATTTGGTCCCATTATAGCATGAATTTCACCTTCATTTATTTTTAAATTAACTCCTTTTAATATGAGTGTTCCATCATCTACAGTCTTTGCTTTTAAGTTTTTTATCTCTAATATTGTATTCATAAAACAATTCCTCCTTTTTTTATCTTATTTACATTTAAATACTACCATTTTTGTCATGTTTTAGTCAAGACTAAAACCGACTTTTTTAGTTAAGTTTAAATTAAGAAAATATTTTTTTAATTATACATAAATATGATATAATAAGAGTATAAAAGGGAGGTGGACAAATGAATATAAATCCATTAGTAGACTTTGCATTTAAAGTAATATTTGGAAGTGAAAAAAACAAAGACATATTAATAGATTTTTTAAATGCTTTATTAAAAGAAGAAAATAAAAAAATAGAGAGTTTAGATATATTAAATCCATACACAGAAAAAACTGCAATAAATGATAAGTTATCCATATTGGATATAAAAGCAAAATTAGATAATGGAACATATGTAAATATTGAAGTACAATTAATAAATGAAAAAAATATGATAAAGAGAACTTTATATTATTGGGGAAAAATGTATACAGAACAATTAAAAAAAGGCAAGAGCTATATAAGTTTAGAAAGAACAATAACAATAAACATTTTAAACTTTAATTTATTAAAAACAAAAAAATACCATAGCATATATAGATTAAAAGACATAAAAGAAAATACAGAATTAACCGATGTAATGGAAGTACATTTTGTTGAACTACCAAAAATAGAAACAGAAGAAGCAAACTTAAATGATAAATTAATTGAATGGTTATTGTTCTTAAAAGAACCAGAAAATACAAACATGGAGGTGATAACCATGAAGAATAAAGAAATTAAAAAAGCAATGACTGTATTAGAATTTATAAATTCAGATAGAATAGCAAAAGAATTATATGAAGCAAGAGAAAAGGAATTAATGGATAAGATAGATCAACAACTATATGCAGAAGAAGTTGGAATGAAAAAAGGTTTTCAAAAAGGGTTAAAAAAGGGTATTGAACAAGGTATTGAACAAGGTATTGAACAAGGTATTGAACAAGGTATTGAACAAGGTATTGGAAAAGGCATTGAGCAAGGCATAAAACAAGAAAAATTAATAATTTCAAAAAAACTTTTAAAAAAGAAATTTGGGAATAAAATGGATAACTTAATACCAAAATTAGATACATTATCCATTGAAAAATTAGATGAAATAATATCTAACATTTTTGATTTAACAATTGAAACCTTAAAAAACAAAATTAAATAGTATTAAATTTTGCATAAAAACAAGTGCACATTGTGCACTTGTTTTTTAAACTGATAACTTTCCAAATATAACCATAATTATAACAATAACTGCTATTGAATCCATTATAAAATAAGATAACTTTTCATTTTTAGTTAAATTTAAATTTCTTTCTTTTTTGGCTTTAGGATAAATAAAAATCCCAGTTGCATAAATAACTATAGCCGTCAAAACATAAACAATTCCAACAGCATAAATTACCCAAATTGTGTATATAATAGCAACTATTGAAAAGAATTTAAAGATTCCACTTTTTTCTTTAAAAGCAACATTTGCTCCAAATATAGAAGAAGTTAAATAAGGTAATAGTAATGTTGTAGTAGAAATATAAAAAATTGTATTATATACACCTTGCAATGTTTTTGACATTAAAAACAATAAAAATATTTGTGTTAAAATATTTGTTATTGTTAAAGAAAATATAGGAGTTGCATGTTCATTTTGTTTTGAAAAATTTTTAGTAAAAACATTATCTGTTTTTGATGCAATAAAAGGTATTTCAGAAGTTAATAGTAACCAACTTAAAAGTGCTCCAAAAACAGATATTAAAAATCCAAAATCTAATAAATACTTTCCAAAAGGACCTATTAATTCTTTTAAAACTGTTCCAAGTGGTGAAGTTGAACTTACTAATTCTTTTACAGGAACTATTCCCATTGTTAAAGTTGATACACTAACATAAACAAATAAAGTAATTAAAAATCCTATTATTGTAGCCTTTCCAATATCTTTTTTAGATTTTGCTTTATTTGATAAAACAACTGCACCTTCAATACCAACAAATGACCAAAGCATTGTTCCAAAACTATTATTTATTTGATGCCATATTGAAGAATATTCTCCAGTTGAAGCTAATGTTGTTGAAAAGAAAAATTCTTTTACTAAATCTGGTTTAAATGCAAATAAAGAAAATATTGCGACTATAAAAAGGGGTATTAGCTTTAATATTGTTAAAACAGCATTTGTAATACCTGCAGTTTTTATACCACTAATTATTAAAAAATGATATATCCACAATATTATACTTGAAAATATAAAAGCATATATTTTATTTGTTTCAAGTATTGGAAAATACCCACTTAATATTTTCATTATCACAGCAAAAAAAGCTATATTAGCTAATAAAGCTGCCCACCAATATCCCCAAGCAGCATTAAATCCAATAAATTCTCCAAATTGTTCACGTGCATATGTGTAAATTCCACCTTCAAGTTCTGGTTTTTTCATAGTCAAGAAATAAAAAACCATGGCTAACGAAAAAACTCCAAATCCTGTAATAGCCCAACCAATAAATATTGCTCCTGGATTTGCCACACTTCCTAAATCTGCGGGCGAATTAAAAATTCCAGCACCAATCATAGAACCAATAACAAGAGTTATTAATGCAAATAATCCTAAAACTTTATTGTTACTCATAACTCCACCTCCAAAATGTGATTTGTGTGATAATGTAATTATATTAATTTAACTTTACTTTTACTAATACTTTTATTAAATTTTTCACATAAAAATATAAAAATTCATTTTTTGGCACGATGTTGCTTAATTATTTTTGATTATACAAAACTTAAAAAAATTAAGGAGGATTCATATGAATAGAGTTGCAGTAACTGGTATAGGAACAATAAATTCAATAGCAAAAAACACAAAAGAATTTTCAGAGAGTTTAAAAAATGATGTTGTTGGCATAGACATGATAACTCAATTTGATACATCAGATCACAAAGTTAAAATTGCTAGTGAAATAAAAAATTTTGAACCAAAAAATTATATGGATAAAAAGGTCGCAAAAAGATATGATAGATTTTTACAACTTGCATTAGTTGCATCTAAAGAAGCTATTGAAGATGCAAAATTTAAAAATGATGATTGGAAAGAAAATACAGCTGTAATTATAGGTTCTGGAATTGGTGGATTTAAAACTTTATTTTCGGAATTTGAAAAATTTTCAAAAAAAGGAGCAAAAATGGTTAGCCCATTTTTGATTCCAATGATGATTCCAGACATGGTTTCTGGTGCTGTAGCAATAGAACACAAATTAAAAGGACCTAACTTTTCAACAGTAAGCGCTTGTGCTTCATCATTAAATGCAATAGCAAATTCAGCAATGTTAATAAAACATGGATATATTAATGTAGCTGTAACTGGTGGTTCAGAAGCAGTAATAAGCCCTATGCCAATAGCTGCATTTGCAAATATGCAAGCACTTTCAACAAGAAATGACGATCCTAAAACTGCGTCAAGACCTTTTGATAAAGATAGAGATGGTTTTGTCATGGGTGAAGGATCTGGAATTTTAATTTTAGAATCCGAAGAACATGCAAAAGCACGTGGAGCAAAAATATATGGATATATAGATGGATTTGGTCTAAGTGGTGATGGTTATCATATAAGCGCAACTGATCCAGAAGGTGCTGGTGCTGTAAAGGCAATGGAAATGGCTTTAAAAACTGCTAATGCTAAACCTGAAGATATAGATATGATAAATTGTCATGGTACAAGTACTCCTGTTGGTGATGTTTCAGAAATAAAAGCAATAAAACAAGTCTTTGGTTCTCACACAGAAAAATTACTTGTTCAGTCAACAAAAGGACACATAGGACATAATCTTGGAGCTGCTGGAGCTATAGAATTAATAGCAGTAATACTTCAATCAAATGAAGAATTCATACATGGTATGCCAACTATCCAAAATATAGATGGAAAATTTGAAGATTTAAATATAACTTTAAAAACAAAAAACGGAAAAGTTAAAAAAATTTTAAAAAATGCATTTGGCTTTGGTGGACATAATGCAAGTATACTCTTTGTTAAGGAGGATAATTAATGGGAAGAATTGGAATAGTAGTAGATAACACTTCAAATATTCCAAACAAATTAATAAACGAACTTGGTATAGGCTGTGTTTCTTTATATGTTATAAGAAATAACAAATATGTTCGGGCATCTGATGTTTGCCAAACAAAATTTTATGATGAAATAAAAAAATCAGTTTATATTCCACACACATCTCAACCATCTGTTGCAGACTTTGAATCAATTTATAAAAACATGATAAATAAATATGATGAAATAATATCGTTACATATATCCTCAAAATTGAGTGGAACCTACAATTCTGCTACATTGGCTGCAAAACTTATTGACAGTGAAAAAATACATGTAATCGATTCAAAAACAACAAGCTGGGGATTAGGTTACTTAGCAATAGAAATTAAAAATATAATAGATAAAAATCAATACTCAACAAAACAGATAATAGAATATGCAAAAAATTTTTATAAAAAAACAAAAGTTTTCTTTAGTGTTGGAGACTTAAATTATCTTTATAAAGGTGGTAGAATTGGAAAAGCAAAAGCATTAATGGGTAGCCTATTAAATTTAAAACCATTAATAACTCTTGAAAATGGTGAATTGAGTGCTGTAAGAAGTTTACGTGGAAACAAAAATCTTTTTAATGAAATGATAGAAAGAAGTTTTGATTTTTCTGGTAAATTAAAAAAAATATCTTTAATTCATACTGGTAATCTAAAATTAGCTGGAGATTTAAAAGATATGCTAATCTCCCGAAAAATAAGTGAAGATATAATAAATATAAGCTATTTAGACATTATAATAGGAACTCACTTAGGTCCAAACTCTGTAGGTATAATAACACATTTTGAATAGGAGGAAGTTTAATTGAATATAGACGAAATTATGAAAATTTTACCTCATAGATACCCTTTTTTACTTGTAGATAAAGTATTATCAATAGAAGAAAATAAAATAATAGCATTAAAAAATGTAACAATAAATGAACCTTTTTTTCAAGGCCATTTCCCAAAATATCCAATAATGCCTGGAGTTTTACAAATAGAAGGTTTAGCTCAAACCGCTGGACTCTTATTTATGAAAGACTTAAAAGAAGATGTTGTTCCTTTATTTATAGGTATTGACAAATGTAGATTTAAAAAAGAAGTTAGACCTGGAGATACAATAACTTACGAATTAGAGGTAATGGCTGAAAAAGCCGGAGTATATAAATTAAAAGGAATTGTAAAATGTGAAGGAAAAGTTTGTACAAAAGCAGAAATAATGGTCGGTATAAAAAAATAAGCAGGTGAAAATATGAAAGTTCTTCAAATTGGAGCTTATATTCCTGAAAATATCTTAACAAATGAAATGCTTTCTGAGAGATTTAATGTTTCTACAGAATGGATATATAAAAGAACAAATATAAAAAAAAGATTTTTATCAAATACTTCAATATTAGATATGGGAATAAAAGCTTCTAAAAATTTAGACTTAAATGGTGTAGATGCCGTTTTATTTGCTTCATCTATTGGTCCGCATTATGTTCCAAATTATGTTAGCGCTTTTAAAGCATTAAATATAAAAACAGCAAAATATGGAATAGATATTTCAAATGGATTTGTTGGTTTTATAACAGCAGTACATACAGCAGAAATAATGATGAAAGAAAAATTGGCTAAAAGAGTTTTAATAATCATCTCTGAAAAATTATCAGATCTTACAGATAAAAATGATATAAATACTGCCATTCTTTTTTCAGATGCAGCAATTGCAATGGTTGTTGAAACAGAAAATTATGATTATGAACATAAAACTAATTATGATTATTCACTTTATCCTGCTTTGAATGTAAATAAAGATAAGAAAATTGAAATGAATGGAAAAACTGTATATAGATTTGCAGTTAAGAATATGAATGAAATAATAAAAAAATTTTTAACTTCAAAAACAAAGTTAATTGTTCCACATCAAGCAAATGGAAGAATTTTAAACTCTGTATCCAAACAATTTTCAGGAGTTAAATTTTTGAACTATATAGAAGAAACAGGTAACACTGGTGCGGCAAGTATACCACTTGCACTTTATAAGTACTATGGAAACAAATCATTTTCTTTAAAAAATCATATTTTAGTATCAGTTGGTGGTGGAATGACTGCCAGTGGAATAACTTGGAGGTGTTTTAATGAAGACTCGAATAACTGAACTTCTTGATATAGAGTACCCTATAATTGAAGGTGGAATGGCATGGGTTGGTACAGGTACTTTAGCTGCTGCTGTTTCAAATGCTGGTGGATTAGGTACTATTGGATCAGGAAGTATGACTCCTGAAATTTTAAAACAACATATAGATATAGTAAAAAGTCAAACAAACAAACCTTTTGCAGTAAATATAATGTTATTAAATCCATATGTAGAAGAATTAATAAAATTAGTTTTATCTGAAAAAGTTCCTGTAGTAATTTTTGGAGCAGGAAATCCCGGAAAATATATTAAAAAATTAAAAGAAAATGGAATAAAAGTAATGGCTGTTGTTGCCTCAGAAAATCTTGCAATAAGATTAGAAAGAAACGGTGTAGATGCTATAATAGGTGAAGGAATGGAATGTGGTGGTCACATCGGAGATGTTTCTACTTTAGTATTAATTTCAAAACTTGCAAAGATGTTAAAAGTACCTCTAATTGCAGCTGGTGGAATTGCAGATTCAACAACAGCAGCAGCAACATTTATGCTTGGTGCTGAAGGAATACAAATGGGAACGAGATTTATCGCAACACCAGAATGTGAAGCACATCAAACTTATAAAGATTTAGTTGTAAAATCAGGTATAAGAGATGCAGTAGTTACTGGTTCAAAAATAGGACATCCTGCAAGAGTAATCAAAACAAAGTTTGCAAAAAAAATAAAAGAACTTGAAATGGCATCTCCTGAAGAAGCTGAAAAAATGATGGTTGGAAGCTTAAGAAAAGCCTTCATAGAAGGAAATAAAGAAGAAGGTTCTTTCATGGCAGGACAATCTTGTGGTTTAATTGAATCAATAAAACCTGTTAAAAATATAATAATAGAATTGAATAAAGGATTAGAAGAAAAACTGGAGGTGAAATAATGAAAGCATTTGTTTTTCCTGGTCAAGGTTCACAAACTCTTGGAATGGGTAGTGAAATTCTAAAAGAAAATCCAGAATACAAAATTTATTTAAAAAAAGCAAATGATACTTTGGAATATGATCTTGAAAGTATAATTTTTGGAGATGATTTAGAAAAATTAACTTTAACACAAAATGCTCAACCAGCATTACTTACAATTGGTTATATATACCATAGATACTTAATAGAAAAAAAAGAAATCTTACCAGATGTTGTTGCTGGTCATTCACTTGGGGAATGGACTGCTTTAGTTGCTTCTGGAGTTTTAAACTTTGAAGATGCAGTAAGATTAGTACATTTAAGAGGACTATATATGAGTCAAGCTTGTCCTCCTGGTCAAGGAACAATGGCTGCAATTCTTGGTATGAATCCAGAAAAAATAAAAGATCTTTTAAGAGGTTTTGAAAATGTTGTTCCAGCAAACTTCAATTCTTCTGTACAAACTGTAATAAGTGGAGAAACAAAAGAAGTTTTAGAAGCTATGACTTTTTTAAAAGAAAATGGTGCAAAAAAAGTAGTTCAATTGAAAGTTAGTGGACCTTTCCACTCTCCATTAATATCAAATGCTGCTGAAAAATTACAAATTGAAGTTGATAAAGTTGAATTTAAAACACCATCTATACCAATAGTTCAAAATGTTACTGCTAAATATGAAAATGATCCAAATATAATAAAAGAAAATATTATAAAGCAAATAACTTCTCCAGTTAGATGGGTAGATTCAGTTATAAACATGAACAACAATGGAGTTGATAAATTCATAGAAGCTGGCCCTGGAAAAGTATTAACTGGTCTCATAAAAAGAATAGTTAAAGGTGTAGAGTTAATAAACATATAAAAAAAACCACTTTAGTGGTTTTTTTTATATGTTTATCGAAAATTTTTTTATTTTTATCTCAAAGAGATACAATATTAATATATCAATTCAAAAGGAGGTGTTTCTATGAAAAAGATATATCTTATATTTTTATTAGTTATTTCATTGTTTATATTCTACAGTTGTACAAACCTTTTATCTAATACTGGAACAGTAAAATTAAGTATTACAGATTCTCCAATAGATGGAGCTAATATCAAAGGCGTTTATATTGATGTAACAGGTATTAGTTACTCAATGAGTACAGGAGACACTGGTTGGACAAAACTCGATTTAAAAGAAGAAAAACTTTTTAACTTATTAGAATTCACAAATGGTGATGCAAAAATTATGGGGAACTTTAATTTACCAGCAGGAAAAATAAACCAAATAAGATTTTTCTTAGACACTAATAAAAGTTTTATTAAGTTTTCAAATGATTCGACAACCACATTATCTATTCCTTCTGGTGATACTACTGGATACAAAGCAACAATTTCTGGAGGAGCTACAATTCCAGTAAATGGACAAATTGAAATTACAGCAGACTTTGATGTGCGAAAATCATTAAATTTAATAGGAAATGGTTTATACAAACTTCAACCAACAATAAGACTAATTGTGAATAATCAAGCTGGTGTCATTAAAGGACAAATAACAGATGCTTCTACTGATACAACAGTTTTTGCTTATTCTAATAACTCTTATAACACTTCAGATATTGAATTTTCTTCTGCAATAAACAGCTCTAGACTTAGAGATAATGGAACTTTTGAACTTCATTATCTTTCTGCAGGCACTTATGATCTTGTTTTTGCAAAATTTACTACCGATGGAACTCTTAGTCTTCTTGGTGGTATTTCAAACATTGAAGTTAAATCTAATCAAATCACAAATGTACCAACTACTACAATAAATAATCTTGAAAATGTTTCTATTTGGTAATTTTAATTCAAAAAGGTTGCAAAAGCAACCTTTTTTATTATGTAAAAAAATTATATGAAAAGATAGTGAAATTTAACATTCATTTGATAAAAAATGTAAATTTATAATCATTTATATTGCTTACTTAAACAAGTCTAAATTAGTCTAATTAACCCCAAAACTTTGTGAAATATAGAGTAATTGTTGTTGTTAAATAGAAATATATTTTTTTTAATAGCAACAATAGATATATATACTTAATTTAATGTTACTCTCATGAAATTGACATTTTCACCTTTAAAGCCTACAATTAAATTGTACCCATACTACGTATAACTAATGGAGGTGTTTTTAATGGGAAAAGCAAAATTTAGCATAAAAGCAAGAAGAGCAAGTCATACAAAAACTGTTATAGAATCAAGAGATTTCAAATTAATAATAGATGAACCAGAACATATGGGGGGTACCGATGAAGGACCTAATCCTGTTGAATATCTTGCAGCAGCACTTGCTGGATGTTTAAATGTAACTGGTCATATGGTTGCTAATGAAATGGGAATAAAAATTGAAAATCTTGAATTTGAAGTAGAAGGTGAATTAGATCCAAGAGGTTTTATGGGTAAAGCCAATAATGTTAGACCTGGATATTCACAAATGAATATTAAAGTAAATGTTGAAACTGATGCCGACAATGAAACATTAAATAAATGGCTTGATATTGTTGAAAAAAGATGTCCTGTAAGTGATAATATTCAAAATACAACTCCCATTAATCTTTCAATAATTAAAAAATAAAACGAGCTAAGCTCGTTTTATTTTTTAGTTCTAACTATTCTAAATCCTAAATTAGGGCCATAATCTGTAATTGAAATAGATTTTCTTCCAGTAACTTGTGCATCTCCTGCACCAAAGTTATAGCTTCCACCACGTCTTATACGATTTCCAGATGTAGAGTCTATATTATAAGGATTTATTTCTAATGAACTACTATAAGAACCATAATAATCACTCACTAATTCCCAAACATTTCCACTCATATCGTATATCCCAAAATTATTAGGCATTTTTTGACCAACTTCATGAGTTTTTGAATCTGAATTTCCAGAATACCAAGCTACATCATCTATATTATCACTTCCAGAATAAAGATAATTTTCATTTCCTTTTGCAGCATATTCCCATTCTGCTTCCGTTGGTAATCTATAACCATATGTTTTTGCTAGATCAGTAGTAATACTTCCTTTTTCATCTATAAAATTACCCAAGCTATCATAAGATTTTGGAAGCCCTTCTTTATCTGAAAGCCAATTACAATATTCATTTGCATCAGTCCAAGAAATATATATTACAGGATAATTATTTCTATTTCCACTATATTGTGGTTTATTTTTACCTGTGTCTTCACAAAATTTATCATATTCATTGAAAGTTGTTTCATATCTCCCAATATAAAAGTCATAATTTAAAATTACTGTATGAATTGGTTTAGAAGTTTCACCATTTCCCATTTCAAATGAACCATTTTTTATTTCTACCATACTATTTTTTGTAGTAGTAGGTTCTTCTGATTCTAAAACATTTAAAACAATTGTTTTTGATGTTGTAATAATTCCATCACTTACATTAAAGGTTATACTATATTGTCCTGATTGTGTATAATATGGTTTCCAAGTGAATTTATGTGTTTCTTCTCCAAAATCAGCTCCTACTGGAAGATTTTCTGCCCAATAGGTTAGTATATCATCATCTTGGTCTGTAGCACTTATTGTAAATGTCAAAATGTTTCCTTCATTAATTGTTGTATTTATTATTTCATCAATTACTGGTGAATTATCTACTTCTTCAACTACTATCTTTACTTCTTTGCTTACTTCTGTTATTCCATCTGTTACCTTGAATATTACATTGTATTCTCCTGCTTGTTCATATGTTGGTATCCATTCAAACTTTCTGGTAATAGAATTAAATGTTGCACCTTCAGGAAGGTTTTTTGCCGTTACTTTTAAACTATCTCCATCAACATCCGTAGCATTTACTGTAAATTCTATTTTTTCTCCTTCTTTTATTACTATATCTTTTATTTCTTCTATTTGTGGTGGGTTATCTACTTCTTTAACTATTATTTTCACATTTTGATAAGTTGTATTAATCCCATCTGTTACACTAAACTTCACATCATACTTTCCACTTTGAGTATAATCTGGTTTCCATTGAAAATAGCTCCTTTAGGAGTATTTTCAACATTATATATTAAATTATCTTTTTCAATACTTTTTACTTTAACTATAAAATTTAATTCTTCATTTTCTTTTATGATTTTGTCTCCTATTTTCTCAATTGCAGGTGGTGGTGTTTTAATCTCTGTACAACCTACAAAAAGAATTAAAATTAAAATCATTAGAAATAAAAACTTATTCACTTTTTAATGCCTCCTCATACCTTTATTTATTAATTTCAAAAAATTCTAAATATTAATTAATCTTTACTTTTATATTTCATATGATATATCTATTATATCATATGATTAAAAAATTTTTTCACAGAAGAAAGAAAAATATATATTAAATTTAGAATATTTTTTTGTAAAATTTAACTTATTTTTTTTGTTTTTTTAAAAAAATAAAGGTATGATTTAAATATATAAGTATGAGGAGGTAAAAAAAGTGAAAAAAACTTTAGCAAAAAAAACATTTGTATTACTATTTATTCTCTTTTCAATTTTAAGTATTGCCAGTGTATCATTTGATATTAAAAATTTTGATCTTTCAACAGAACAAAAAATAAGTATTGCTCTTGAACATGATCAATATGATATAGGAGCAAATGCTGCTGAAATAATTATCAAATTATATAATTTCAATAATTATGATACATTAATTTCAAGTTTAACTTATTCTTTTGAAAACAACGATGATGAAGATATTTATGATGATGACTTTGATGACAACTATGATCACGAATATTATGATGATGATTATAATGAGAATACAGAAGATAGCACTGATAATAATTATCATTTAAAAACACCAGAGAAAAAAGAAGATCCTTTTACAATAATACAAGAAACTGGTTTTGATAAATTGTTATTATCTTTAAAAGAAAATTTAAATGTCATAAAAAATATTAAAAATATAAAAGTGAACTTATCAAATGAAGCTGCCATTCAATTTCAAAAAAAATTATTCTCAAATGATACAGATATTTATAATGAACCTATAAGTTTTGATTATAGAGATTTTAAGTTATTAAGTCTTTTAACTTCTTTAACCAATGAAAAACCATCAAATAATGAATTTTTAAATGATTTAGACAAAGTTTTAAATCAAGACAATGAAGAAAATTTTAATGATATAATGAAAAAATACTTAAATAAAAAGGCATTTGAACAATTCTCTTCTATGTTCAACGAAATAGCAAATTTAGATCCTGAAGGTAATACAGATGCTTTTGACATAATAAACAACTATTTAAAAGTATTTGCAAAAAATGATGGTGAAGAAAATTGGTTGAGTTTAAAAGATATTTTTAAAACTAATATCTTTGATCCAGAGAAAATAACAAAAAATATAGATGAAGACTTAAACCAACTAAAATTTTTATTAAAAGAAAGTTTTAATATATATGATTTTGAAAATAATCCTATATTTTTAAATAGGAAAAATAAAGATTTTACAGATATATTATTAAATAAACTATCAATAGAAAATAACGAAGTATTCAAAAAAAATAAGTTAACTTATTTATTAGATTATGATTTGAATAAAAAAATACTTTCAATAAAAGTTAATGAAATAATAGTAAAAACGCCTTTAGAAATCTTAAAAGAATTATATAATTCATTGCCATATGGAGAATTCAACTTATATATTGAAACAAAAGAAAAAAATGTAATAACTAAAACTAATTTATATTGTAATTTTTTAAAATTAAAATCAAACTTCGAATTTACTGATTTGAACCTTAAAGTAAGCCCTGATATTATAAGATATACTATAGGAATAATATTTAGCTCTCTCTTTAAAAATTTAGATGATGAATACTTGTATCTATTGCCAGATATGTTTTCTTTAATAACAAGAGATAATAATGACTTAATTTTTTCAGTAAAATTAAAAGATTATTTTATTTTATCTTCTAGAACTCCTAACTTTTTTTCAAAAGAAAATATTGAAAAAATTATAAATGATTTTAATTCACCAGATGAATTAACCCCTACCGAAACTTCAACAAATTCATCTGAAACAAATGAATCCAATTAAAAAAAAAAAAAAAAACAAGTGCAAAGCTTAGCTTTGCACTTGTTTTTTAAATATTAATTTATCTTCTTCAAAATCAACAATAATATTATCTCCTTCAACAAAATTGCCATTGATTATTTTAAAAGCTAAAGGTGTTTCCAATTCTTTCTCAATTACTCTTCTTAAAGGTCTTGCACCATATATTGGATTGTATCCTTTTTCAAGTAAATACTCAACGGCTTTTTCACTAACTTCTAAATTCATTCCATTTTCTGATACTCTATTTTGTACATCTTTTAATTGAATTTTAATTATATTTTTTAAATTTTCTTTTGATAAAGGATGAAATACAATAATTTCATCTAACCTGTTTATAAATTCTGGTTTGAAGAATTTTTCTACTGATTTCATCACTTCATTTTTCATATCTTTGTAATTCTCTTTAGCATCTTCAACAAACCCCAAAGCATGCCTTGACTTTATTATTTGTTCTGATCCTATATTAGAAGTTAATATTATTATTGTATTTCTAAAATCAACCTTATTTCCTTTACCATCAGTTAAAATACCATCATCCAAAACTTGAAGTAATATATTATAAACATCAGGATGAGCTTTTTCTATTTCATCAAATAGTATAACTGAATATGGCTTTCTCCTTACAGCCTCCGTCAGTTGACCACCTTGATCATAACCAACGTATCCTGGAGGTGAACCTATTAATCTTGAAACACTAAATTTTTCCATATATTCACTCATATCTAATCTTATTAATGCTTCTTCAGTATTAAAAAGGATTTCAGCAATTGTTTTAGCAATCTCAGTTTTTCCAACTCCAGTAGGACCTAAAAATAAAAATGAACCATTTGGCCTTTTTGGATTTTTAAAACCTGCTCTTGATTTTCTTATTGTTTGAGCAATTAGTTCAACTGCTTCTTCCTGACCTATTACTCTTTTATGAATTTCACTTTCAAGATTTATTAATTTTTTTCTTTCATCACTCAATATCTTAGTAACGGGTATTCCAGTCCATTTTTCTATTATTTGTGCAATTATTTCTTCATTTACAATGTTAGATATTTCTGAATTTTCTCTCTTTTTTTCTTTTTCTATATTCTTTTCTAAGTCCAATAATTCTATCTTTACCTTAGCAGCTTCTTCATATTTACCATTTAGTGTTAGATCATTAATTTTTTCTTCTAATTTTGATTTATTATCTAACATTTGATCTAAACTTGCACTTGATTCACTATATGCTAACTTTACCTTGGCACATGCTTCATCTATCAAATCTATCGATTTATCTGGTAAAAATCTGTCATTTAAATATCTTGAAGAAAGTTTAACAGCTGCATTTATTGCTTCTTGAGTTATTTCTACTCCATGATGTTTTTCATAACTTTCTTTTAATCCATTTAAAATTTGTATTGCTTCTTCTTCTGATGGTTCTTCAATAGTTACAGGCTGAAATCTTCTTGCAAGGGCTTTATCTTTTTCTATATACTTTCTATACTCTTCCATAGTTGTAGCTCCAATTACTTTTATTTCCCCTCTTGCAAGAGCTGGCTTTAAGATATTAGCTGCATCCATTGAACCTCCTTCAACAGCACCAGAACCTATTATAGTATGAAGTTCATCTATAAATAATATTACTTCATTTTGTTTTTTCATAACTTCATCTATAACATTTTTTAATCTTTCTTCAAATTCACCTCTAAACTTAGAACCAGCAATTAATCTTGCTAGGTCTAATTGAAGAATAGTTTTATTTTTTAAAAATTTTGGTGCAAATCCTTTAACAATATTTTGAGCTAATCCTTCAACTATAGCTGTTTTACCTACTCCAGGATCTCCTATTAATACCGGATTATTTTTTGCTTTTCTTGATAAAATTTCTATCATTCTATAAATTTCATCGTCTCTTCCTATAACAGGCATGAGTTTACCAGCTTTTGCCCTTTGATTTAAGTTTACTGTATATTTTTTTAATGGATCATCTTCACTTTCATTCATTTCTTCATCTTCACCATTTTCAATATACTTTTTTATAACTTCTTCTATTTTTTCTTTATCTGTTGACTCATTTAATATTTTAGCAGAATAAGAATTCCCTTCCATTAATATTGCCATTAACAGCACCAAAAGTGTAACTTTTTTTAATCCAAGTTTATTTGATTCTATCTTTGCAGTATTAAAAACGCCTGCTACTTCATTTGATAAATAAATTTGATTTGAATTACTTGAATACATTCCATTTTGACTATGAATATAATTTTTTAATTGATTTTCAACATGATATATATTGTTTTTGTAAAAAACATCAGCTATTTTTGGTTCTTTCGTTTCTATTATTGCAAGTGCCAAATGATCTGGAGTAACAACATTATTTGTGTTTCCCTGAGCTAATAAATTAGCTTCTTGTATTGCTGATAGTGCTTTTTCTGAAAAATCTTCTGGGTTAAATCTCATATCAATTCCTCCTTTCCATAACATATTTCATTTTCAATCTTATTATATCATTTACTTTTATTATTTCGGTTAAGCAATCGTAACAATATTCTGATAATTAATGAGTAAAAAATTTAATTTTTTATATTTTGAATTTTTTTGAAAGAATTATGATTTTTTACATTAATTAAAAACAAATAGATTTAATTGTTTTTTTAATAAGATAAAAAAACTATGAAATTTTTTTCAAAGTGATATAATATACTTTGAAAAGTAAATAACCCACGGAATTGTTGGTTTTTTTATTAAAAGGGAAAATGGTGAAACTCCATTACGGCCCCGCCACCGTAACCGAGAACGAACACTACAAAATGCCACTGATAAAATCGGGAAGGCGTAGTTATTAGAATGATCCGGAAGTCGGGAGACCTGCCTTCAATTCTAAGATATTCTCACTCTCGCGGGAGAGGTGAGAAGGGTTTTTATATAAAAAAGGAGGTTATTTATGAAAATTCATGAATTTGTTGGAAAGGAAATCCTTTCTAAAAATGGTATTAAAGTTCCAAAATCTTTTTTAACAAGAGAAAAAGAAGTACAGTGCAATATTTTACCTTGTGTTTTAAAATCACAAGTACTAGTTGGTGGAAGAATGAAAGCGGGTGGAATTTTATTTTCAGATGAATGTAATGATTTTAAGAAAAAACTAAGTTTACTTTTAGAAAAAAAGATAAAAGGAGAAAAGCCTTACGGAGTTTTAATTGAAGAAAAAAAAGAAATAAAAAAAGAATATTATTTATCCTTAATTTTAGATAGAACACAAAAGGACATAATAATAGGATTTTCTAAAGATGGCGGAATAGACATAGAAGATTCAGAGAGTTTAATAACCGGAAATTTTGAAAGCATTATAGATAAGCTTCCAGTTAAAATAAAAAATATTTTACCAAAGTTAAGAAAAATTTTCAGAGAAAAAGATTTAACCTTATTAGAAATAAATCCACTTGCAGAGTTAAAAGATGGAAGTATTTGTGCTCTTGATGCTGTTTTTCATTTAGATGACAATGCAATTTATAGGCAAAAGTGGGCACAAGAATTTGAAGAAGAAACTCAATATCCATTTCATTATGTAAAATTAAATGGAGATACAGGAATAATAGGATGCGGTGCAGGAATAGTTATGGCAACTATGGATACTGTTAAGATGTACGGTGGAACTCCTGCAAACTTTTTAGATTTAGGTGGAGGAGCAAATGAAGAAAATACAATAATGGCTCTTGAACTATTAAAAAACGAAGGTATTAAAAAAATAGTAATGAATATTTTTGGCGGAATAACAGAATGTGATGTAATAGCTAATGCTATAGTTAACTTTACTAAAAAAAACAAAGATATAAAGCTATTTATAAGATTAACAGGAACGAATGAGAAAAAAGCAAAAAAAATATTAATAGAAAATAATATACCATTTTATGAAGATATGTATAGTATGATAAAAGAAGGTGAAAGAGTATGATTACAGGAAACGAAAAGGTTTGTGTACAAGGAATAACAGGAAAATCAGGAAGTTTTCATACAAAAAAAATGAAAGAATATGGAACAAATATAGTTTGTGGAACATCTAAAAATACTAATATAAATTTTGTTCATAATGTACCTGTAGTTAATTCTGTAAAGAAAGCTGTTGAAATCTATCATGCTGATACAAGCATAATATTTGTACCTGCTAAATTTGCAAGAGAAGCTATTTTAGATGCAATAAATAATGGAATTAAAAAGATTATTATAATTACAGAACATATCCCTCAACATGATATGCTTGAAGTATATAAGTATGCAAAAGCAAAGAACATAATTATAATAGGACCAAACTGTCCAGGAATGATATTAACAAATATATCTAAAATAGGAATAATGCCAGAAAGGGCATTCAAAGCTGGTGATACTGCTATCATATCAAGAAGTGGAACATTAATGTATGAGGTTTCAAATTATATTTCTATGTATTCAACAGGAGTTAAAGTTGCTATTGGCTTGGGTGGTGATCCAATAATTGGAACATCTATTGCTGAAGCTTTTGATTATATTATAGATAATAACATAAAAAAAGTAATAATAATAGGTGAAGTTGGAGGAAATGATGAAATAACAGGAATAGAATATGCTTTAAATAAACAATATAATGGAAAAATAAAAGTATTTTTTGCCGGAAGAACTGCACCAAAAGGAAAACGTATGGGACATGCAGGTGCAATAATAGAAGGTTTTGAAGGTAGTATTGAATATAAAGAAGAAAAATTATTTCAAATGGGAATTCCTGTTTCAAAATCTATACCCGAGTTAGTATAAATTAATAAAAAGGGGAATAATTCCCCTTTTTATTAAAATTTTTTTATGGAGGTAGATAAAAATTTTATTTTTAAATCCATTTTTTTTACTATTTTTATCAATTTTAACTGGATTAATACTTGGAAAAATCACAAAACTTGGAACTTCTGGTGTTTTATTTAGTGGATTTTTTATTGGGTGGTTAACAACAACTATAATAGAAAAAAACACTGATTTATTTAATAAAATAAATACAAATGGTCTAATTTCAAAAAACTTTTTTTCTTTTTCTTTGATACTATTCATATCATCAGTAGGATTACTTGCATCAAAAGACATAATACATGTAATAAAAAAATATGGTTTAAAATTTATATTTTTAGGATTCTTAATAACTTCCTCTGGAATGTTTTTCACCACTATATTAAAAAAATTATTTAATGCAAACAAATATATTTTTAGTGGTATTTTTACTGGTGCTTTAACAAGTTCACCAGGTTTTGCTTCTGCACTTGAAACTTCTAAATTTCATGAAACACAAGTAGGATATGGTTATGCCCTTGGATATATACCAGGAGTTCTAGTAGTAGTTTTATCAATGTATTTACTACCAAAAATATTTAAAATAAACATTGAAAAAGAACTACAAAATTTAAAAAATGATGTTAAAGAAACTCAATACAATGAAAAAAACTTTGATTTTATAGCTTTTTCATTAATTATTATAATTGGAATTATTATAGGGAAAATAAAATTTAATTTTGGAGTTGTCAAATTTAGTTTTGGAATAACGGGAGGAGTTTTAATGAGTTCTTTATTCTTTGGAAATTTAAAACAATTTTTAGGAATGAACTTCAATATGAATACATATATCTTAAAAAATATAAAAGAATTAGGACTCTTAATTTTTTTAAGTTCCGTTGGATTAAGATATGGCTATACTTCTATAAATTCTTTAAATTCAAAAGGCATATTATATATAATCTCTGCTTTTATAATAGGTTTTTTATCACTATTAATAGGATTTTTATTTGGCAGATATGTATTTAAAATGAATTGGATCATGCTTTCTGGCGCCCTTTGCGGAGGAATGACCAGTACTCCTGGTCTTGGTGCTGCAATAGACTCAACAAAAAGTGATGATGTAACTGCAGGATATGGAGCAACTTATCCTTTTGCTTTAATTGGAATGGTTATTTTCGTCATTCTTTTAAATAATTAATTCAAAAAAGTTGTAGAGAAATCTCTACAACTTTTTTTATTTTATAAATGATATATACTTTTGATATATTAATTCTAAAAATGTGCTTGCATACAAAAATGAACCTCTTACAGTCATTAAATCCCAATCAGAAAAGTATGTTTCTTCATTTCTATTGTTCCCAAAATACCAATAAGAAAGTAAATCAAAATTTCTTTCCCCTTTTGAATCATCTCCTATATCTTGATTAGAATCTGATAAATATAGAAAATCTGCATCTATAAGTGTATGAGTTAATCCAAAAGAAACAGCATATATATTATCATTTATTACTTCTGCTCTAAAAGAGCCTGGAAACAATCTTGATTCTTGAATCGAGGTTGCAAGTAAAAGTTCAACTGGTACATCCTTTATAATGACTTTTTCTTTATAAAAAGTAGAAGTAGTAGATTGTTTTCTATTTAATGTTAAATTTGTATTTGTATAAGCATTTGCACAGTCTACAAGATACGTTGCATACTCTTTTAATTCTGTATCACTTAAAGATTTTGTTGGAAAATATTCTTTAAACCATTCCCCAAATAAATAAACACTATCTGAACCATAATAATACTTTAAAAGATCATAAACTCTATTTATTAATTCAGTTCTTTTATCATAAGCTGTTGTTAATTCAGGATTCAAATAATTAAATGATGAATTATACTTTGAAGGCATTGAAGGTACTTTTTCATTAAAAGTACCAATAAACCAATTTGTACTTGTTGTATTATTTACGTCTGTTTGAAAACGAGTTATTATGGACTTTATATAAGTAATTATTCTTTCATCATAGTGCTTGTCCGTTCCATCGAACGGTACTCTTGTTTTTATATCATTTAATGTATACTCTCCAACTAAATACTTATAAAATGCTAAGACATTGTCATCATATTTATAATTAGCATCATCAGCATAACTTTTAAGTTTATCAAAATCATAACCAGCACCTTTATTGTATGCTGTATAAATATATCTTATAAAGTTATCTCTTTGATTTACGGTTAAATCAGAAAAGTTAGTATCATCTGGAAGTTTTATATCAATTTTTATACACGAACTCAGCCCTAACATTACAAAAATTAAAATTAAATATATCATCTTTTTCATTTAAAAGACCTCCAAAAACACCTTATCATATCCTTCATCAAATACTATAAATCTAATTGTTTTTAATGATTTAGGATTAGTTTTGTCGAATTCTTCACAAGCTTCTTTATACACAGGAACTGCCAATTCAACTGGATATCTAAAAATCCCACAACTAACTGCAGGTAATGCTATTGAAGTTAAATTCATATCTTCTGCCTTTTTTAAAGAATTAGTAATTGCATTGAAGAGTAATTTTTTTTCATCTTTGTTTCCACCAAACCATACAGGACCAACTGCATGTATTATATGTTTTGCGGGTAAGTTTCCTCCAGTAGTAACTGCAACATCTCCAACTTCTAATTCTCCATAACTATTAATAAAATCATTTGATTCCCTTTCTACAATTATTCCACCCTTTTGTGCTATGAGCCGAGCAAGACCTCCACCATGTTGAAGCATCTCATTTGCAGCATTCACTATTGCATCGGTTTTTTCTATTGTTATATCGCCTTTAACAATTTCAACATAAAAATTTTTAAATTTAATGAGCTTTAGTGTTTCATTCATAACTATTCCCCCCTTTTAATTTAACATAACAGTTTCTACAAACTGCTATATACTTATCAAAACCACCAACATCTATTTCTCCACCATTTTCAACTATTTTATACGAAATTGTTCCTGCATATTCACCACATTCATGACAAACAGCTTTCTTTTTTATAACTTCATCTGCATAAGACATTATAAGGGATGTTGTTTTAAATGGATTATTTTTATAGGTTAAATCCAAACCCGAACAATAAACATCTATTCCATTAAATATTAATTCTTGAATTACTTCTGCTAAATTTTCAGAAAAAAATTGTATTTCATCTATAAAAACTGCGCTTTCATCACCACTTATTTTATTTTTAATTTCTTCTGGATTTGTTATAGGGAAAGCTTTTACTTTTGTATTTGTATGAGAAACTATATGCGTATCATCATATCTATCATCTATTACAGGTTTAAATGCTTTAAATTTTTTTTTACCTAATGAATATATTTCTACAAACTGTATTAATTCAGAAGTTTTTCCAGAATACATTGGTCCAACAATAACTACAAGCTTCCCTGTTTTCATTAAAATATTCCCCTTTCATTTATCTTTATGAATTCTTTTTCTGCTTTTTCCCAAAGTTTATCAAATCCGCATTTGTTTAAAATACTTTCATTTGGTTCTTTAAAATAATAAATATTAGTATAATTAATTTTTCCAAAAGTAACAAGTGCAAGTAAATACACAATAATTGATTTTAAAGAGTAATGATTATACAATAACTTTATAACTTTAATAAAGTTTTCATGTGCAACTTTAAAACTACTATTTATTTCATAAAAATCCATTAAAAGTTCATCATAAGTTACTATAAAATCTACATCGAGTTTATTTGGAAATAAACTCAAAATATCGAGTTTTTTAAAACTTTTATTTAAATACTTTCTAACATATACAGCATCCATTAAAACTTCGAATTTTTTATGTTTTCTACCACTCCCAGCCACTTCAAAAATCTTAGGATGAAACTGTTCGTCTAAAAACATGTGTAAAAAATATCCCATTGCATAATCTGGGCTTATTTTATTTAATTCTTTTAAAAAATCCATATATTTGACATTGTGTAACTTATCTCCTGCATTTTTATAATTTTTGTCTTTTACAACATAAAAAAATGGATCTGGACCCATTAAACCCAAATTAAACATTTTATGATTTTTTATGTCTTTGTACATTCTATTTCCAAAAATTATATGTGTTAACAAATCAGGCATTATTTTTTATCTCCATCCAATATTTTCCAATTTCTTTTTAAAGCCATTTTTTTTAACTTTTTATCGGGTCCAACACAAACTGGATACTTAACCTTTTCAAGTAATGGCATGTCAGTTATAGAATCAGAATAAAAATAAGCATTTTTTAAAGTATATCCATTTTTCTTACAATAATTTTCTGCAAGAGTAACTTTGTTTTCTTCATAACAATAAACTCCTAAATTACCTGTAAAAATGTCATCTTTAAATTCAAGTTCAGTACATATTAAATCATCAAATCCTAAATTATCTTTAATTGGTTGACATAAATTTCTTGGAGAAGCAGATATTATAACTAAGTTTCCATTATTTTTCTTATGAAATTCTATTTCATCAAGCATACTTTGCCTTATATAAGATTTTACCAATTTTTGATAAGTTTCTTCAGCAAAATCAAATATTTCTTTTCTATTCATTCCTTTATATTTTTTTGAAACTTTCCTTGTTATTTTTTCCATATTTATCAAACCTAACTTATATAAAAAAGGATATGGAACTAATTTTAAAATTTCCCATCTATTTATATAACCTTCATTGTAAAAATTTTTAAAATAAAGTCTTCCAGCATATGTTGTTAAAATAGTATGATCCATGTCAAAAAACGCCACATAATCTTTCATATATCACCTCAAAAAATATTATATATAATCATTTCTTTTTTTATTAAATTATACCATATTAAATTATTTTTTTATTTTACAATTTTATTCTTCTTTACTATAAAACTTAATCTTTATGGTAAAATAATTATAGTATCCTAAAACTAAGGAGAGTTATAATGAACAACACTTGTAAGATTTGTGGAAATAAAACAGAAGAATTTTATGATGAGCAAATGAAATCATATTACTATTACTGTTCAAACTGTGAATTTATTTCAAAAGCTGAAGAATCTATTCTCTCAATAACTGAAGAAAAAAATAGATATAATTATCACAACAATTCAATTGATGATATAAAATATGTTAATTACTTTAAAAAATTCTTAGATACTTCTGTTTTAAAATATGTAAAAGGAAAAGATGGTTTAGATTTTGGTAGTGGTCCATCACCAGTTCTTTCAATGATTTTAGAAAAGGATTATAATTTTAAAATGGATATATATGATTTATTTTATGCTCCAAAAAAAGTATATATTGGAAAGAAATATGATTTAATTACATGCACAGAAGTAATAGAACATTTAAAGTATCCTATGAAATATTTTAATTTATTTAAAAATCTTTTAAATAAATATGGTATTTTAGCTATAATGACATCTTTTCATCCTAAAAGTGTAGAAGATTTTCATAAATGGTATTATAAAAAAGATTCAACTCATATTTCGTTTTTTACCGAAAATACCATGAAAATAATATCAAAAAAAACTGGTTTAAATTTATTATTTACAGATAATAAAAAGTATTCAATATTTAATGTGAGGTGATTTTAAATGGCAGAATTAAAATTTGAAATAATAGAAACATTCGGAACATTATCAGAATCTTCAAAAGGGTGGGCTAAACAATTAAAAAAAGTAAGCTGGAATGAAAGAGAGGCAAAGTATGATATTAGAGAATGGTCTCCTGATGAATCAAAAATGAGTAAGGGAATAACTTTAACTAAGGAAGAATTAATAAAGTTAAAAGATATTTTAAATGGAATGGATTTCAATGAATGAAAATGAATTTTTTTCAACAGAATATCCTAAAATATTAGAAAAAATTAATAAAAATATATACATATACTTATTTACTAAAAATACTATTTTAATAAGCTATTTTTTATTTTTATCCTTTATTTTTTTATTTCTATACTTAAAAACATATGTTATATCTTTTATTTTTGTGTCTCTTTCAATGCCTTTGTTTTTTTTAGTAAAAAAAATTTCTTTAAACTTAGATTATAAACTAAATAAATTAAACTTATCTCTTCAAAAATTTATTGATTTAAAGATGATGTATGGTAAAAAAGTTGGAAGATACTTAAATGAAAACTCTTTTGAAAAATTTTTTTCTGATATTAAAAATGAACTAAATAAAAGCAATTTAAAATTTTAATGAGTTAGTTAAAACTAACTCATTAAAATGTTTCTATATCTATTGCGTTAAACGTATCTACTTTTTTTATCATTTTAAAATCAGAATCATAAATATAAATACCTTCATATAAAAGAGATATATAAACTTTATTATTATAGTATTCTATATCAGAAATTGGCAATTTAAAGTTTATCTCTTTTATTTTTTTTAATTCTTTATTTAATACAATTAATTTATCTTGTATAGAAATAAAAATTTTATCTTTTGAAAAAAGAATTTTATCTACCTTAGTTTCTGTATTGTAAGACTTTTCAATCTTGAATTGTAAATTTAACTCATCTATACCATCCTCTGTAAGAATATAAATACCTTCATTATAAAAACTTTCTATTATTCTTTTATTAGATTCATACATTATTTTATTATTTAAATATATTTTTTTGTTTTTAACATAATAATATTTTTTATTAATTAATAATATATTTGAAACTAAATTTTCTAATACTTTACTATTATCCTTTAATTTAAAAGCTCCTTCTTTATTTACATAATAAGTTTCATTCAAATCTAAAATATTCAAAGCTGAAACTTCATATGTTTTTTTATTGTATAAATCTATTATTTTATCATCATTTAAAAGAAAAATATTTTTATTTGTTTTAATAATTTTTCCATTTAATTCTTCTTTTTTTAGTATATTAAAATTTTTATCCATATAATATATTTTTTTATCATCTACTGCAAAAAACAAATCATTTATTCCTTTTAATAAGTAAACTGAATCCATTTTATTGTACTGTTCAATTAATTTTAAAGTATTTAAGTCATATATTTGTAAACCTTTATCATACCTTGTTAAATACATATAATCATCAAAAATTTTTATTTTCGTATTTGAAAAATCACCACTTATTATTTTTTTCATTTTATTATCTAAAGTATATATTCCATCTGAAGCTGCAAAATAAATTATATTATTATAAAATGCAAAAGAATTTATTGAATAAGATATAGCTTTAAACTCAACTTTATTTTCAAAAAAACTTTCTATATTAAAGGTATAAAATCCCAAAAATCTATCTAAAAGATATAACTTTCCATCATTTGCCAATATTTGTATTGGAGAAAATAACTTTGTAAAACTTCCAACCTCATTAAACTTTTCATTAAATATTTTTATTCCAATTTTTGGACCAACTACAAAAAGATTATTTTTATACTTAGTCATAGAAGTAACTATTCCATTTATTTTTATATGTTTTTTCAAACGCAAAAATCCACCAGGTTTAAGTTCAAATACAACAATACCATTTTTACCATCACCAACATAAATTTGATTTTTATCAACGAGCAAGCTTAAAGCATCTCCAAAAGTATTGTATTCATTTAATAAGGTTATTGAATTTTTATTTATGTTGTATATCTTTAATCCATCTTTATCTGTTAAATACAACGTACTTCCAATTATTTTTATGGAATTTACATAGTTTCCAGTATTTATTTGTTTTATTATCTTATTATCCTTTAAACTAAATAAATAAATCCCACTATATCCACCACTTATTACAGCAGTTTCTTTACCAACATATTCATAATTTGTTGTTTTTTTTATACTTTCACTATTCTTTACATTTGTTTTTAAAATAATTTCATCTGTTTTTATAGTATTAAAAGCTGTATATATAATCAAAAAAGATATCAAATAAAATACTACTATTTCTAAAAAGTTTTTTTTCATTTTATAACTCCTTTCTTTAAAAAATGAACGGGATAACTCCCGTTCATTATTAAGTTTGTATATCAAATTTTGATTTGTTTGTATTTGCACTCATTTCTTTAAGTGTATTAACAGATTTTTTCATTGCTTCCTTCCAAGTATCCAATAAATCTTTTATAAGACCTTGTACTTCTTCAATTATTTCAATATCTTTTTTTACATTTGCTTCTAAAAGTCTTCTATACATATAATTATATAAAGATCTTAAATTTTTTGATACTTCTCCACCAACTTCCATATCCAATGAAACATTTAATTCATTTATTATATCTTCAACTCTTATTATTTGTTTATTTGCTTCAGTAAAATTTTTTTCTTTTATCATTGTTTTAGATTTTTCAAGTCTTTCAACAGCATTTGAATAAAGCATTTCAACGAGCTTAGCAGGAGTAGCAGTTCTTACTGTATTTTCAAAATAAGTATTGTTGTTTTGATTATACATTTAAATCACCTCTTAATTAAAACTTTCATTAAGTAATCTTTTTCCTTCTTCAAATATTTCTTCAAATAATTTTAATATTTCTTCAAAATCAAAATCAACAATATCCGAAAGTTCCAAAGTGTCTTTTTCTTCTTGTGCTTTAAACATTGATTCTATTACCTTTTTTATTTTTTCAATATCTTCATCTGAGTATATCTTTTTATTTGAAAATATTTCTATTTGTTCAATTATTTTAAGGAGTGACTGAAATCCTTCTGATAAAGCTGAAAGCATTTTTTGACCTTCTTGTGTATTTAAAAGCAACTCTTTTGAAAAAGATTCTGAATTTTCCTTTACTTTATTCAAATAAACTAAAGCTTCATCACACAATGTCATTAAAACATCTTTTTTTGGTTTAAATTCTAATACTATATTTTCTCCACCTTCAAAATGAGCATTTTGAAGCTCTGATATATACGAAATTGGAATTTCTTTATCATTTATCTTTAAATAAGTTAGAATTCCTTCTGTTTCATTTGTATATTCTGTAATCATATCATTAAAAGATTGAAATTTTTCGGGCTCTACACTCAGTGTTTCATTTTTTATTCCTCTTAATTCTACATTTATATTCAATGCACTGCAACCTCCCTTTTTAGTCTTTAATATATCGACTAAAAACCTTTAATACTTAAACTTACTTACCTTTTTTCCTATATTCTTTGAATCATTAAATAAGTTCCTATACCATTGTTTATATTCATTTATTTTTTTATCTTCTGATACATTATAAATGTTTATAAAATCTTCTTCCAAATTCAAAAACTCAAATAATTTAGAAAGCTTTTCAAATTGATTTAATATCATATCTTTTCCAAAGTAATTAATTAATTTTAATAAAATTTCTTTTTCTACATCTTCTTTTTCTACATCATCTTTAAACATTTTTAATTCATCTAAAGCGTCTTTTATTTCAAATTGTATACTTTTTGAGTTTCCAGACAATAATTCATCAAATAATTCTATAAAATCTTCTTCTTCATCAAAGTTTTCATCAAATATTTCCTTCATTTTATCTTCAATTTCATCCATATCTTCTATAATAAAATCTAACTCTACCTCTGGAGAAATGAAATCTTCCTCTCTTGTTTCACGAGTCTTTAAAAATTTTAAATAATTTATATACTCTTTTAATTCATCACTAGCATTATCTATTTCCAATATTCTTTTCAAATTAACATCATAAATATTAAATATCTCATCTTTTTTATTAATTAAATAGTTATATGAAACTTCTTTTGCATTAGAAGCTTCACCATATTCTTTTGTTAATTTATCTATTATTTCTGGTAAAATAGAACTTCTAAATGAATTAAGTTCTTTTAATAAAGATTTATAAAAATCTAAAAGTTGTTTTTTAGTAAATTTTACAAATAAATCAAAGTAATTCTGATAATCATAAGAAGAAAATAATAAATGATGCTCAATATATCTTCCATCTTTTTTTAAATATAAAAAAGTAATATCTGTACTTTCATTCAAAGAATAAATCAAAGATTCCATATCTATTATATTTTGAGTTTGATGATCTAATTCTGTAGAAAGTACTGAAACCATATTTTTTTTGTCTGATTCAAGAAATGAATTTATTCTAGTTAAAGTTAAGATAAATGGAATGTATTCCATATTTATCTTTAATTTATCGAATTCTGTATTTTTTTCAAGATTAAATTCATTATCATACCATACATAATCTCCAGTTTTTAAGCTTACTTCAAAACTATATTTTTCTAATATATCAGAATCTGAGCTTTTATTTTGATTAAATAGTATTTTTTTTATAAAATTCGGTTTAATTTCAAAGTAATCTCCGTTTTTTTTCTTGTAAACGGCCAACACTTACACCTCACTTATCATATCCATAAAGATTTAATATTTTTCCAAGTATTAAAAATGTTACTATTGAAATTATAGCACCATAAATTGGAAAATTCCAAGAAAACAGAGATATTAAACCATATGTTATAGAAATTAAATATAAAACAAAGACTGTTAACGGTACAGAAGAATTAAATCTTCTATTTAACTTATCATATATATGTTCTCTATCTCCAGAAAATGGTGATTTTTTATTTAAAATTCTTCTTAATATCGCAAAAGAGAAATCAGTTGCAAAAACTCCTCCTATTATTAAAGATATAAAATATCCTCCATTTCCATGTTTTTGAGTTAAACTCGTTATTGAATAAAACAATGTAAATCCAAGTAAATAAGACCCTGCATCACCTAAAAATATCTTAGCAGGATATTTATTATAAATTAAAAAACCTATTAATGCAAAAACTATATAATATAAACTATTATCTCCAAGTATAGCAAAAAAGGTTAAAGCTATTGCGGTTATTCCAGAACAAACTCCATCCATACCATCTATCATATTTACTGAATTTATTATTGCAACTCCAGTAATCATTAATAGAAAAAAATACACAATATGAATATAACCATAAATCATATATATAGTAATTCCCATTAAAATAAATTCCAAAATTAATCTTACTTTAGAATTAACATTCTTTATATCATCCCAAAGCCCTAAAAAAGTTATTAATACAGCTGGAAGTATATAAGAAATATTAAAAATAAAAAACGGGATTATAGAAAATAAAACTGCAACTCCTCCCAAATAGGGTATTGATTTTTTATGCGTTTTTAAGTTTTCATCTGGATTATCAACTATATTAGCTTTCTTTGCTATGAGTATCATTAAAGGTGTTAAAATTATTGCAAATATCATAGATAAAGCATACATATTATTACCTCGCTATATTTTTTCTTATGACTGCCGTTGAATCTGGAATATACTTTTTTATTAAAGTTTGTAGCATATCCAAATCATCATTTTTTATTGACTTTAAAAGTTCTATTACTAATCCTTCAGTATCTTTTAATACAGTTGAATTTCTTGCTATATATATTCTCTTATTTTGTGTTTTTTCATAATCTTCTTCATTTAAAAATAATTCTTCATAAAGTTTTTCTCCCGGTTTTGTACCGGTATAAACTATTTCAATATCTTGATCGGGAACATATCCAGAAAGCCTTATTAACTCTCTTGCAAGATGATCTATTAAAACAGGTTCTTCCATATCCAATACAAAAACTTCTCCATTTTTTGCAAAGTTTCCGCTTTGAATAACAAGTGCAACCGCTTCTGGAATAGTCATAAAATATCTTTTCATTTTTGGGTGAGTTACAGTAACAGGTCCACCTTTTTTTATCTGTTCTTTAAATATTGGAACAACACTTCCACGACTTCCGAGTACATTTCCAAATCTTACAATACCAAAGTTTGTTTTTGAATTTTTTGCAACACTCTTTATTAAAATTTCTCCAAATCTTTTAGACGTTCCCATTATTGAAGTTGGATTTATGGCTTTATCAGTAGATATAAATATAAATTTCTTTACATCATATTTATCTGCAAGTTTAGCAAGTTCATATGTTCCAAGTGAATTTACTCTAAAAGCCTCTGTTGGATTTTCTTCCATAAGAAAAACATGTTTATGGGCTGCAGCATGAAAAACAACATCAAATTTAAATTTTTTAAAAACACTTTCCATTCTTTCTTTATTTGTTATATCACATATTATATCTTCTATTTTTAATTCAGGAAATCTTTCTACTAACTCTCTTTTTATTTTAAAAATACTATTTTCTCCACGACCCAAGATATATAATGTTTTTGGGTTTAAGGCGCAAACTTGTCTACATATTTCAGAACCAATACTTCCTCCAGCTCCAGTAATTAATATATTTTTTTTATTTATATATTCTTTTATTTGATTAAAATCAACATTTACTTCTTTTCTTCCCAATAAATCTGATATTTCTACATCTCTTAAAAATCCTAAAGAAAGCTTATTACTTAATATTTCATAAAAACTTGGAAGAGTTTTTACCAAAACTTTTTTATTATCTATTTTATTAAAAATTTGTTTTATTTCTTTTGAAGAAGCACTTGGAATCGAAATGATTATCTCATTTATTTCAAGTTCCTTTACGTATTTCATAATATTTGATGTATCATCATAAACTCTATAACCATGTATACTTCTTCCTATTTTATTTTTATCATCATCAAGAAATCCTCTAACAATACCAAATTCCGGATGCCTTTCAAATTCATTTAAAATCTCTGTTCCAGCTTCTCCAGCACCAATTATAAGTATGTTTTTTGAACTTATGTTTTTCTTTTTAAAGTATCCATTACTTTTAGCAAACCAAAAAATTCTACTCCATACAATTAAAAAAGTTCCTATTAGTGCTGTCATTGCTGAAATACTAAACGGTAAAAGGAAAAAATCAGTAACATACCTTCTTAAAAGTTCCACAAAAACAAAAGAAGATAAAAAACCTATAATACTACTATTAAAAACAACCATTAAATCAGTTAATTTTGCAAATCTCCAAATCGAATTATAAACCCCAAATAAATAATATACAAGTATCATTATAAAAGGTAAAATTAAAATAGAAGAAAAATATTTATCCATTTCATTCATATTAAATTGAAATCTCAATACTAATGATAATATATAAGAAATAAAAAATATTGAAATATCAACTAAAGATAGTATAATCTTACGCCTTGTAAGATATTTCATTTTCAATCTCCTCCAAAACTTCTTTTATTTTTAAAACAACATATTCTTGTTCTTGAATAGATATATTAGAATAAAAAGGAATGGCAACAGTCAACGAAGATATTAATTCTGTTATTGGATAATCACCATATTCATATCCATATAATTCCTTATAAAACGGTTGTAAATGAACTGGACTAAAGTAATTTTTGCTTTGAACGCCTTTTTCATTTAACTTCTTTAAAAATAATTTATGTATTTCTTTTATTTTATAAATTAGTTTTTTCCATTCTTCTTTATCTATTTTTTCTGACACTTTAAATTCTTTAACCCAATTAGGTATTTTTATAAACTTAGAAATCCAGTTTAAATCTAATCTTATAACATAAACAAACCAGCTCATTTTTGTTGTATATTTTTCTATTTTTGGCAAAATAATTCTACTTTCATCTTTAAATAAATTATGATAATTATCAGCTACTTTTTCACGAAGTAATAAAATTTCATTTATTTTTTTCATTTGAGCATATCCCATAGCAGCTGACATTTCATCTAAACGATAATTATAGCCAATCCTAACATGTTCAAGCCATTCCATTGAATCTCCACGACCTTGATTAGCCATTGAACGGCATAGTTTACTTATTTCTTCATTATTTGTTATTATTACGCCACCTTCACCTGTTGTTATTTGTTTGTTTGGGTAAAATGCAAAGGTTCCTGCAATTCCAAAAGTTCCCGTTTTTTTCCCTTTGTACTCAGAACCAAGAGCTTCACAAGAATCTTCTATTATATCAATATTATTTGGAAGAATTTTATAAACTTCATCCCAATCTATAGGTTGTCCAAAAATGTCAACTCCCATAAATGATTTTATCTCATTGTATGGGACTTTTGTTATCTTATTTCCATTTTTTATTAATTTTTTTAACTCTTCAATAGATATGTTATAAGTATATGGATCAATATCAACAAACACTGGATGTCCATTTTCATAAATTGCTACATTTGAAGAAGATATAAAGGTAAATGGCGTTACTATCATTCCATTATTTTTAGTAAAACCAGTTGCCTTAAGTATCAACTGTAATGCTGATGTACCACTGTTTACCCCTACACAATACTTTGATTTTGTAAATTCAATAAAGCTTTCTTCAAATTTTTTTAAGTACGGACCAAGTGCTAAATAGTTTGAATCTAAAACATTGTTTACATATTTTTTTTCATCGTTGGTTATATATGGTTTTGATAAAGGAACAAACACAGTGCGCCCCCTATATAAAAGTTTTTATTCTATCATAATCTTCTTTATTTATCTTTTCTTCATCAAATAATCTTTGTAATATTTTTTTTGCAGTTTCTTTTTTTAAAGCGGTTACTTCTGAAAAAATTTTACTATATTTTTCATCTTCATTTAATTTTTCTATTTCATTTGTTATTTTAATATATAAATTATCTATTAAAGTATTTATGTCTTCCTTTATTTCTTCTTTTGGAATTTGTACATACTTAGTATAATCTCCACTTGCAGTACCATTTGCAATATAACACATATCAGTTTCCCTTATAAGATTAAACAAAAGTAACCATTCATAAAAATTCAGTGTTATTATTCTAAAAATCATAGCTACATTTCCTTCGCGTAGTCTTATAAATCTACTTTTTATTATTTTATTATGTAGTTCTGATTCTTGCATATGCCATTGATCTTTTACTATTCCATTTATCATAAAAACATAAGAAATCCATGTAACTGTAAGTGAAATTATAAAAGTTATAGATTTCCATAAAGGATAAGTTTCTACTATTTTTGAGTATTCCGAAGGATTGATATCAATAAGTTGATTTGTCATATCTATACTCAAAAAAGCTATAACAAGTGCCGAAATAATGTATAAAATAAATGGTATATAACTCATTTTTATATTTTTAATTGGAAAATCCCAATTATTTGCATTATAAATTTCTTTCATTTTCTTTATATGTTCATTTCTATTTTTTATTAACGTATGATAAACAAAAAGTATTATTGCCATACCTATAAATTGTAAATAAGGTATATACCAAAATATTAATGCTATTAAAATAATGAACGGTTTTAACAAAATCATATTTTTTTCCTCACTTGTTTTCTAATTTTTCTGTAATTAAATTTATAAACCAACCTTTTTCAACTTGTATTTGTTCACCAGTTTTTAAATCCTTAAAAGAAACAATATTATTTTTTACTTCATCTTCGCCTATTATAACAGCAAATTTTGAATTTAATTTGTTTGCATGCTTCATTTGACCACCAAAATTTCTTTTTGAAATATTTAAAAATATTTTTAAATTTTTTTCACGTAAATCTTTAGCTATTTTTATTGCTTCTTTTTGGGTACCTTCTCCAGAATAAATTATATAAACATCTATTTCATCATTTTCAGGTATTTCTACTTTTTCTGCTTTCAATGCTAATACTAATCTTTCTAATCCAAAAGCCATTCCAACTGATGGTGTTTCTTTTCCACCAATTTCACTGACTAATCCATCATACCTTCCACCACCACCTATTGCAGATTGTGATCCAAGCATTGGGTGTTCTATTTCAAAAGCCGTTCTGTTATAATAATCTAATCCTCTAACTATCCTCGAATCTACTTCATAAGGAATTTTAAATTCGTCTAAATATTCTTTTAGTTTATCAAAATGCTCTTTACATCCTTCATCTAAATAATCTAATATTGAAGGAGCATTTTTTGACTTATCAAGATCTTTTTTACAATCTAAAAGTCTCATTATATTTGTATTAAAACGTTTATTACAATCTTCACATAATTGAGGAAGAAGAGGTTCATAAAATTCTTTTAAAGCATTTTTATATTCTGCTCTACAATTTTCACAACCTATACTATTTATTTTTATTTTAAAGTTTTTTAATCCAAGTTCTCTTAAAAAATCATAATTCATACTTATAATTTCAGCATCAGCCATTGGTGTGTTGGCACCAAAAATTTCAGCACCTATTTGATGAAACTGTCTATATCTTCCAGCTTGAGGTTTTTCATATCTAAACATTGGACCCATATAAAATATCTTCGTTGGAGATCCAAAAGAAGACATTGAATTTTCAACATAAGCTCTAACTATTGGTGCAGTTCCTTCTGGTCTTAATGTTATAGATCTTCCACCTTTATCTTCAAAAGTATACATTTCTTTTTGAACTACATCAGTTGTTTCACCAACTCCCCTTAAAATTAACTTTGTATTTTCAATTATAGGAGTTCTAACTTCATTAAAAGCATACTTTTTTAATACTTTTTTTGCTGTTTCTTCAATATAACTCCAATACTTCATTTCTTCTCCATATATATCTTGAGTTCCTTTTATTCTATTATATTTAGCCAACTTAAATTCCTCCTATTTTTAAAAAAACTATTTCTCTTCAAACTATTTTACCATAAATATATATAAACAAAAAGGAGCCTTTGGCTCCTTGATTGTTTTTTATCTCTTTTTTCCGCCTCTTTTTTTATCTCTAGATCTTCTAAACTCTGAAATTTTTCTATCGCTGTCCTTTAAGAACATAGAAAGTCTTTTTTCAAAGTTGTCATCTTTTACAGGCGCATCATTTTTTATATCTTTTAATGAAATTTCAAGTTTTCCATCTTTTGTTTTGCCTATAACCTTACCTTCAACAACTTTTCCAACTTCTAAAAAGTCAGTGATGTTCTTTACATAATTTTTTGAAACCTTAGATATATGTACAAAACCATCCTCGCCACTGTTTTCTACTTTGACAAATGCTCCGAATTTTTTAATATCAACTACTTTTACCTTAACAACAGTGCCCTGAACTATACCTTCACTCACTTATATAACCAGCCCTTTCAAAAAGAATTTCTCACATGAACCTTGCTAAGCCGTGATTTCGCCAATGGCGGCCCGGGTCCAGGCTACGGTATTCACCTCCGAAAAAATAATTATTATTAAGCATCTGAAAATTTCTTAAAGAAAATGCAAGGATCAGATGCTTTAAAAACTTTTTATTTTTTTTATTTAGTTTTCAAGGAACTTTTTATACTTGTTCTTGAATCTTTGTACTCTACCTTCAGTATCGAGTATTTGTGCTCCTGTTTCACCTTTATAGAAAGGATGACATTTTGAACACACATCAAGTCTCATGTTTTCAACTGTAGAATAAATTTTGTGTTCTGCACCACATGCGCATTTAACAGTTATTAACTTCATTTCAGGATGTATTCCTTTTTTCATAGCTTCAATCCACCTCTTGTATATTTAGTTTTATTTCCCTGCTATTATAGCATATTCGTTTTTATAGTGTCAAGGCTAAAAATATTAATTAATATTAAATTAACTTATCATTCACTATATTGAACTATATAACAAATAACTTTTACCAATTATATTGTATATTATATAAAAATATGTTAGAATTTAAAAAAATTAAAGTTTTGAAAGGAAGTATATATGACTATAAAAACTTACATAGAAATAAATAATAAAATGAAAGAAATTTTTTTTGATGTAAACTCACAAGAATACAAAGAACTATTGGATAAAAACTTAGTTAAAAAAAACGAATTAAATTTAAAGCTATTTACTAAAGATAAAAAGGTTCAAGATGTTTGGCGATACAATTATATTCCAGAAAAAGGCGTTATTAATAACAAAACCTCAGACTTTAATTCTAAATTTAATGATAAAAAAATTCCACTTGACATTAAAAACTCAATAATTTTATTATTAGAATCACCTCATAAAGATGAATATCAAAAAAACAACTTTATTCCAATAGCTCCAGCACAAGGTGCAACTGGTAGAGCAATAGAAAAGTTTAAAGATAGGAACAGCTCAAAAACCTTAAAATATCTAACAATTGAAGACTTACTAAAAAAAACAAACATTATAGAAAAATCACCAATACTTTTAGTTAATCCCGTTCAATATCAAGCATCTTTAGGAAGTTTTACTAAAAAATTAAATAAAAACTTAAGAAATAATTTATGGAAATCATTATTTAATGAATTAAAAAATGATTTTATCTCAAGAATAACTATCTACAAACCTTTATTAATAATAAACGGCTGTACAAATGATTTAAAAGATGAAGTTAATAATTGTATAAATACAAACAAAATAATAAATGTTCCACACCCTTACAATTGGTCCTTTGGTGGAATACGTAATCCAATTTACTTAAAATAATCATAAAGTTTCAATTATACTTAAAATATTTTTATTTGTATAAAATAATAAAGAATCGACTTATGTCGATTCTTTATTTATGGGGGAGATTATATCTTTTTAAAAAAAGATTTTGTATTCGTATGCAAAAATAGTTTCTTTATTTAATCTTTCTTCATTTACTAAGTTTACTTTTGTTCCAAATAATGTGTTTTTAATTTTTTTAATCATTGACATCGCCTCCGTTTAAGTTGTTTTATTTTTATTTTCATTTATAGTATAATCCGTGGTCTTTACTGCATGTCAATACTAAAAAAACTAATTTTTTGGTAAATTGTTTGTAAATAGTGGAGTGCTATGTCTATTTTTATTTTAAAGAAATAAAAGAAATATTATTGCATACTTCGAAAACATTATTTAATAATAAAGAGATGAACTTAATGTTCATCTCTCTTAATTAATTTTCATTTAATTTTTTTAACTCTAATTTTACCAGTTCAATAGTTTCTTTTCCTTGTGCAATCCAATCTGGATGAAAATCCATTGTTAAAACTTTTTCAAATTCTTTTTTTGCTAAATCTTTTTTATTTATTTTTTCATATAAAATACCAAGTTCGTAATGAATATTTGAATATTTTGGATTTAATTCCAATGCTTTTTTTAAATATTCTTCAGATTTATTCATATTATTTAATGGCCAAGGAACATCTCTATATCTCATACCAAGAGCTATATATGTATAACTATAATTTGGATTCAATTCCAATGCTTTCTTTAAATATTTATCAAAATCACCAAGCATAAATAAACTCTCTATTATTCCTTTAAATTGAGCCAACCTTCCAATTGCAGTTCCCGTTACATAATTCGCATAATAACTCTTCGGATTTAGCTTAACTGCTTTTTTCCCATATTCTATTGCTTTTTCATATGTTTTAATTCTTTCAGATTCATCTTTTATACCCCAATTTGCTAATTCAGTTAAAGATTGACAGAGTATTGAAAGATTTTCAGAAGTTTTAGTAGCAGTATTTAGAATTCTTATTAAAGAATTCATTTCTTCAACACTTCTAATACTGTTTGCATGTAAAAATAGTTTTTGATAATCTTGTGTAAAATTTAAACTCACTAAAATAATAAAAAATAAACTTATAAAAATTTTTTTCATAAATCCACCCCCTTAAAAATATTTTATCATAATTTACACTCTTTTTACGATTTTACTGTATAATACTATTGTACTATCAGTAAAAAAATACAAAAGGATGTGAAATTATGTCTATACTTATAACAGGTGGAGCTGGTTACATTGGAAGTCATACATGTGTTGAATTTTTAAATGCTGGTTATGATATTGTAGTTGTAGATAATCTTTCTAACAGTAAAAAAGAATCTTTAAACAGAGTTGAACAAATTACAGGAAAAACTTTAAAGTTTTATCATACCGATATTTTAAATAAAACCGAATTAGAAAAAGTATTTGAAGAAAATAATATAGAAGCAGTCATACATTTTGCAGGTTTAAAAGCAGTTGGAGAATCAGTTGCTATACCTTTAAAGTACTATCATAATAATATAACTGGAACACTTATCTTAAATGAAGTAATGCAAAAATATAATGTAAAAAAAATGGTTTTTAGTTCTTCTGCAACTGTTTATGGTGATCCTGAATCAGTACCTATTTCTGAAGATTTCCCTTTACATGCAACAAACCCTTATGGAAGAACAAAGTTAATGATCGAAGAAATATTAAGAGACTTATATATTTCAGATAATGATTGGAGTATCGCACTTTTAAGATATTTTAATCCAATAGGAGCGCATGAAAGTGGAAGGATAGGAGAAGATCCAAATGGAATACCTAATAATTTAATGCCTTATATAACTCAAGTTGCTGTTGGTAAAAGAGAAAAGTTGAGTGTATTTGGAAATGACTACAACACTCATGATGGAACTGGTGTAAGAGATTATATACACGTTGTTGATTTAGCAAAAGGACATTTAAAAGCTCTTGAAAAAATAATGAAAACAAAAGGAATAGATGCTTACAATTTAGGAACTGGAACTGGATACAGTGTTTTAGATGTTGTTAAAAGTTTTGAAAAAGCAAATAATATAAAAATACCTTATATAATAACAAAAAGACGCCCTGGAGATATAGATAAATGTTATGCTAATCCAGAAAAAGCATTAAAAGAACTTGGATGGAAAGCAGAAAAAAATCTCGAAGATATGTGTAGAGATTCTTGGAATTGGCAGAAAAACAATCCAAAAGGATATTAAAAAAAGCATCTTACGATGCTTTTTTTAATTATAATGGTAAAACTTTTTTATTGTATACTTCATTTAATGTTTGTGCCATAGCTCCATAAATTGCAGAAAATCCACAGAAAATACCTTCATATCCAGCAATCGTCTTTATAACTGATATTCCTGTAAAATCTCCAGCAGCTAATAAGAAAAATAAGATTGTTAAAGAACCAAAGATAACTTGATTAGTTTTATTTTGTTTTAGTGTTCCAATAAACATATATAAAGTAAAAATTCCCCATAACAATAAGTACCAAGCTACTGATTTTGCGTCAGCTAAAGGACCCATATTTATACCATTCAAAGTCCATATTCCAACTAAAGAAAGCCAAAATAATCCGTAAGATGTAAAGGCCAATGCTCCAAATGTATTTTCATTTTTAAATTCCATTATACCAGCAATTACCTGTGCCAATCCACCATAAAAAATTCCCATAGATATTATAACTACACTTAATTTTAAAAATCCTGCATTATGTAAGTTTAACAAAACCGTAGTCATTCCAAATCCCATTAATCCTAATGGAGCTGGATTTGCTTTTTTATTCATAAATTTTCCCTCCCAAAGTTTTTTTCAATTCATTTTACTCATTGAGTCTATACTTTAAATTAAATATTTGTTGCTTTGTGTATCTTTTTATTTAAGTTTAATTATTTTTTGAGAAAATGTTCTAAAAGCAAAAGCCATGTATAAGTTTTATTTTTTATAGAAATTTCAAGTTCCTCTAATCTTTTTCTTTCAAAAATTTCTTCATTTAATTTATCTAATTCCATTATTTTTTTTTCATAAATATCTCTATATTCTCTCCATAAAACTAGGCACTCATTTTTAAAAAAGCCAAAGTAATCTATATCATTTTTATGAAAATTTAAAGCTTCTGCTTTTTTTATTATTTTAATTATTTGTTCATCATTTATTACACTATTTTTTTCGTATATGAGATTTTCTAAAAATAAATTATATTTATCTTTTTCTTTTTCAAAAAGACTAATTTTCTTTTCATATTTTTTTAACTCTAAGAACTTACTTTTAAATTCTTCAAAATTATTTAATATATACCTTAAAGCTGTTATTTTCATATTTAATTCTTCTGACAATTTAGAGTTCAAGTTTGAAAAATATTTAATGTATTCTTCTGTTTTTTCTATAATTTTTTTATTAGAACTATACTTCATAAGATGATTTTTTATTATTAGTATTCTTTTTGTTTCTTTTATAAAAAAATTATTAAGATAATAAGATATTTCATCTATACTCTCTACCATATGATTATTTTTTTCTATTATCCCCAAACTTTTTAATTTATAAATTAAAGCTGATAATTCCTTAATATTAAGCTCTTTTTCTTTTATTTTTTTTATACTCATTTTTTTTAAATAAGCAATAGACGCTTTTCTTTCAATAGATTTTGTATCTCCTATTATTTCTATTTTTCCTAATTTATATAGTACTGAAATTATAAATATAGTAGTTATTTCTTTCCAACCATATGGAGATTTTTTTAACTCTTCACATATGTTTTTTATTTCTCCTTCTGGAATCTCAATATTTTCAATATTATACTGCAATAACTTCCTTTTATCTGTTATAAATACTTTTTTTATGTCTTCTTCTTTTATTTTAAAATTTATAAAAGAAGTATATATAGTTTCAAACATTTCGTTTTTAACGAACTTCTTTATGAATTCATTAAAATTTTTTATCTTTTTTTCTCCATATCTATAATAAAATATTTTTGAATCATTTAAAGCATCTTTTATCTTCTTTAAAATTCTCTTTTCTAAATCTGAAATTAAAATCTCTAAATACTCATCTTTTTCAAAATTTTCAGCCATTTTCAAAGCAGTATACTCTTCTAAATCTTTTTGAAAGTTTATATTTATCATTACATAAGCAGTATACTTATCTTCTATTGATATTTTTTTTATATCTTCTTTTTTAGTTATTATATTAATTCGTATTTCAGTATCTTTTGTTTTCTTTACTTCTTCTCCATCTATTAAAATATTAAATGTTCTTTGAACTTCATTTATTTTAAATGACAAATCATTTGGTAATGATTTTGATATTAATTTTTTTAAATTCTTTTTTCTATTTCTAAAAAATTCTTTTTCTTCATACATTTTTTTTACTATTTTTAAAACTTCTTTTTGTTTTTTAGACAACAATTTCCAAATGTCTCCATTTTTATAAACAATATTTTCATCTTTTAATTCATTTAATTTTTCTTCAACTTCTTTTTTGTTATTTTTATATTTAATTGAATTAGTTAATAATTTAAACAGTTCAATTGTTTTAATTCCATTTTTAAAAGTTGTTGTTTTTTCTGTCAATTTTAAGATTTTTAATAAGTTTATTTTCATTAAATCATTTTCTTTCAAAGGAAAATCAACTATAAAATCATAAAATTCATATATTGAAATTATATCTCCTACTTTCCATTCTTTATTTAAAATAGAATTAAAGATATAAAGTATATTTCTCTTTTCAAGATCTGAATTTTCATATATTTCTGTTATTAACTTTATAGTTTCAGGATAAAAAGGATAAAACTTTGCAAACAACTTTGAAGATTCTTCAACATCATTTTCATTAAAAGATTCAAATTTATCAAGAGTATTTAAAAGTATATCTATTGAATTTTCTTTATAAATAACCTTAAAATAATTTTCATCTTTCTTTTTTAAAAATCTTTCTAAAACTATATATTCTATATCTTCAGCAGTTAATTCTAACTTAGTTTTAAATCTATCTTTTATAATAGAGAATTTATCGTCATTTAATGAACTTTGAGAAATTGCTAATAAATGTACGTTTTTATACTTATCAAAAGAATGAAGCAACCCTTGTAACTCTAATATTCTTTCATTATTTCCTGTAATAAAATGTTCTACTTCATCTAAAATAAAAATTACTCTTTTATATTTAATATTCAAACTGCTCTTTAAATATTCTTCTATAATATCTGATAACTCGTCTGTATTTATTAATTCCATACTATCTTTTTTTATAAAATCAAATAAATCTTTTTGAAATTCATTCCATTCTAATTTTCCACCATATCCTATATTTTTTAAAAATTCAATTAATAAAATATCACTTATTTTTTTATTGCTTCCTGCAAATGTCGAAAGATCTATTGCAACTGCCAATACATCATCTTCTATTTTATCCACTAATGTATAAAGATCTTTCATATTTTTAACTTTTTCTAAAAATAACTTTTTAAAAACTCCATTATTTAAAAAAATATTATAAATTATTTTTGCAAAATTCGATTTACCAGAACCAAAAAAACCTGAAACCCAAGTTCCAGATACTCTTTTATTAAAATTATTAAAAAATTTTACTAAATTTTTCTTTATGTTATCTGTAATAACATATTCATTAACTAACTCTTTTATATCATCGGCATTTTGTATTTTTATAACATCTTCAAAATGAGTAGAAAAATCATGCAAAAATTCTTTTTTTAATTCCAATTATTTTCAAACTCCTTCTTTGTGTTTTTTTCATTATATCAAAAATTTATTAATTTAAGAAAAATCTAAGCTATTTATAAGCAAACTTTAAGTTTAGTTTTTTATAATATTAGTGTAATCCCCCTTTGAAATAAATAAATCCCCATTTTATACTCCGAAAGGAGTATTTTTTTTATGAATTTTAATAAAAAAAAGACGCTTTTAAGCGTCTTTTTGGGGTGGCTAGTGGGATTTGAACCCACGACATTCGGAGTCACAGTCCGATGTTCTACCAACTGAACTATAGCCACCATTCATAATTTACAAATTAATGTAAAAAATATAAAAAGTGGCGGGCCTAGAGAGGCTCGAACTCCCAACCCCCGGATTAGAAATCCGATGCTCTATCCTGTTGAGCTATAGGCCCGTACTTTTTATGGAGCGGCAAACGAGACTCGAACTCGCAACCCTCGGCTTGGAAGGCCGATACTCTACCAATTGAGCTATTGCCGCATGTTCATGTGGTCGGAGCGACTGGGATCGAACCAGCGACCTCCGGTTCCCAAGACCGGCGCGCTACCGGCTGCGCTACGCTCCGTCTTACGGAATATATAATATCACAGTTTAGGTACTTTGTCAACAGTTATTTTTTTCAAATTCTTATAAAATTCGTTAACTTTAAGTGACTGTTTTTATTTGTTATTTTTATAAAATCAAAAAAACACTTATTTAATCAATAAAATAAGATTTTTTATCCTTTTTTTATTTTATATAAATTCAAAGTTTTTTTCTCTTTTCTTAATGGATAAAAAAATTTCAAATAAACAAAAAAATTCAAAAGATAAAAAACTGTACTTATTAAAAACAAATTTCTATATCCATTAGTAGTTCCAACAATAAATCCAAACATTGCAGTAGCTATTGCTCTCGTTGAATTATTTAAAAGATTATTCAAACTATTTATTGTTGTTATTTTATCTGAAGGAAGATTCGACATAACAAGAGTTGTAATAACTGGAATAGTCATATTCATAAATGAAAATCTTAAAGCATATAATCCTGTAAAAATATATGGTTCTCTAACAAATGCAAATGCAAGAATTAATGGAACAACTAAAAATTGTAAAAACAATGTATACTCAAGTGGTCCAAATTTTTTAGAGAGATATGGAGAAGCAAAAGATCCCAATGCTGTTCCAACCTGAGCTATAGAAATAGCTACTCCTATCATTGTAGGTGACATAGAAAACAAATCTTTAAAAATTAAATTTCCAAAATGTATGAATAGTCCTGCACCAAATCCTATTAAAAATGTTGATAATAAATATCCCTTTAATATATGAAGTTCATTTTTAGGTATAGTTTTAAAATTAAATAATTCTGAAAATTTTTGTTTCTTTTTTATTTTAACATCTCCAACTTTTAATAATGTAGTTGTTGAAAGTATATATATTATAGATGAAACTATCAATGTGTTTTTTAATCCAAAAGTATCTCCCATAACTCCACCAATCATATTACCTATTAAACCGCTACCCATCATTATTCCAAAATTATATCCAAAGGCTTTTGCTCTGTTACTATGATCTGTAACTTCTACTATAAAAGTATTTAATAGTATCATTCGTGATGCAAACAAACCTCCATTAAAAAAGGCTAACCACAATAACAATGTTTCAAATGGAAAAATTGCTCTTATTAAAATAACTAATCCTGAAATATATGAAGTTATTAAAAGCATTTTTTTTCTTCCATACTTATCTCCAAACATACCCAATATCATTCCAAGTATTGCTGATCCCCATAGTTGTAAAGACATCAATCCACTTATAAAAACATTATCCATATTTAAATCTCTTAAATATAAATTAAAAATTATTTGATACATATTCCAAGATGCACTACTTAAAAACGAATACCAAAGTATATTCTTCATTCTTTTAGGCATTTCATCACCTCATTTTAATTAGGATAGCTAACTTTATTATAGCATATATACAAAGATAATAACTATTTAATTTTTATTATCTTTTTGTAAACTTTGTTGAAAAAAATTTTAGAATCAAATCAACAAATTTTTTTATAAACAAAATATAATATTTTTGTGATAAAATTTATAGTATAAAAAGTTTAAGGAGGAAAAATTATGGATGTAAAAAAATATGTAAGAGACGTAAAAGACTTTCCAAAAGAAGGTATTATTTTTAAAGATATAACCCCTGTACTTAGTAACCCTGAAGTATTCAAATTTGTTATAGATGGTATGATAGAAGATATTAAAGATTGGAACTTTGATACTATAATTGGTCCAGAAGCAAGAGGCTTTATTTTTGCTGCACCACTTGCTTATAAAATGGGGAAAAAATTTGTTCCTGTTAGAAAACCTGGAAAACTTCCTTATAAAAAAATAAGCGCATCATATGATTTGGAATATGGAAGTGCCACCTTAGAAATGCATATTGATGCTATTGAAAAAGGCGAAAGAGTCATTATCGTTGATGATGTTCTTGCAACAGGCGGAACAACCGCTGCCATTGTAGAATTAGTTAAAAAAGCTGGCGGAATAGTAGAAGGTGTTTATAATTTTGCTGAATTGAGTTTCTTAAATCCAAGAGAAAAATTAAATGATATAAAAGTAGGTTCTTTAATAGAATATTAAATTTATGAGGGAGGGATTATTTATGAAAGGTATAAAGTTTGATTTTACAAATTTATTTAAGCCTAATGTAAATTCCGGGGTTACAGAAGCTGAAATAGATGATTACAAAGAAGAAATAACAAAAATAATAGAAAATATTTTTGAAGAAAAACCAGGATTTTTAGATGTTCCTTTTACAAGAAAATGGACCGATAGTGTTTTAGATATTAAAAATTGGGTTCAAAAATTTGAAAGTGTTGTTATTCTTGGAATTGGTGGTTCAGCTCTTGGAAATCAAGCTTTACAAACTGCTTTAAACCCATTAAACTACAACTCTATGAGTAAAGAAGAAAGAAAATCTCCTAAAGTTTTTATTATTGATAATGTTGATCCTGATTTTGTTTCTTCAATTTTAGATCAAATAAATCCAAAAACAACTTTATTTAATGTAATATCAAAATCTGGAACAACCGCTGAAGCCATGTCTAACTATTTAATAGCAAGAGGATTAATAGATACTTATGGATTAAATCCATCAAAACATCTTTTATTTACAACCGATCCAGAAAATGGAGTTTTAAGAAAAATAGCTATTGAAGAAGATATTAGAACTTTAGAAATACCTCAAAATGTTGGAGGAAGATTTAGCGTTTTAACTCCTGTTGGCTTACTCTCTGCTATGGCTGGAAATATTGATATAATTGATTTATTTAATGGTGCAAGAGATATGCAAAAAATACTAAATAATAAAAATGTATGGGAAAATCCTGCTGCATTAAATGCTTTAATACACTTTATTTTAAATAAAAAAGGATTTTCTATGTCTGTAATGATGCCTTATTCAAATAGATTATATCTACTTGCAGATTGGTATCGTCAACTTTGGGCAGAAAGCATTGGAAAAAAAGTTAATTTAAAAGGTGAAGTTGTAAATGTTGGACAAACACCTATAAAAGCACTTGGTGCAACAGATCAACATTCACAAGTTCAATTGTACAATGAAGGACCTAATGATAAGATTATTACTTTCTTAAAATTAGAAAACTTTGAAAGAGATATAACTATTCCTTCAATTCATTCAGATATTGAAGCATTAAAATACCTTGGAGGAAAGAAACTTTCTGAACTATTAAATACAGAATTAACTGGTACTGAATATGCTTTGGTTGAACACAATAGACCAAATATGAAAATAATATTCCCTGCAATAAATGCATATAATATAGGTCAATTCCTATTTATGTATGAGTTTTCAACCGCAGTTATGGGAAGTTTACTAGAAATAAACCCTTATGATCAACCTGGTGTTGAATTGGGTAAAAAAGTAACTTATGCTTTAATGGGAAGAAAAGGTTATGAAGAAATGGCAAGTGATGTCAATAAAAAGTTAAGTGAAAAAAAGAAGGTTATAATATGATAATAGGACTTACTGGACCAGCTGGTTCTGGAAAGTCTACTGTTTCTAACATAATAAAAGAAAATTATAAAAATGTTGAAATAATTGATGTTGATAGGGTGGGACACTACGTACTCACCCTTTCTTTTGTTAAACAAGAGTTGAAAAAAGTTTTTGGAAGTGATATATTTGAATGTTATAGAGAAATATCTGAAAAAGAATTATTACAAAAAAATATTTCCAGAAAAAAATTGGGACAATTAGTCTTTTCTAATAAAGAAAATTTAAAAAAACTTAATGCCATAGTTCATCCCGTTATTTTTAATGAAATTAAAAATAATATAAAAATTTTATTAAAAAAATATGATATAATAGTAATTGACGCTGCTTTATTAAATGAAATAGGATTAAGTAAATTGTGTAATAAAATAATCTATGTAACTGCCCCCAAAGAATTACGAATAAAAAGACTTGTAGAAAACAGGCACTTACCTTTAAATACAGCACAAAGTATTGTTAAATCACAAAAAAATATGTTATTTGAATTTTTTGATTATAAAATTATTAATGATTGTGACAAACAAACCTTAAAAAAAATTGTTGCCAACATATTAAATTAAATTCAGGGAGGTGTAGTTGGTGAAAAAGTTATTGGTAGTTTTATTAGCATTATTGGTAGTATCTATTGCCTTTTCCGATAAAGTAGTTTTGGAATTCTGGCATGCTATGGGTGGAGGACTTGGTGAAACTTTAGAAACTTTAGTTGAAAATTTCAACAAGGAAAACCCAGATATTGAAATCAAACCTATTTACGTTGGAAATTATGGTGCATTAAACCAAAAGTTACTTTCTACTATAACAGCTTACAACCAAGGATCTAAAGATGGTCTTCCAGTTATTGCACAATCTTATTCTAACTGGACAGCAAAATTTTTATTTTCAAAAGTTATTCAAGATTTAAATGGTTATATCTTAGACGATCCACAAATGAAAAAAGTTTGGGATACGCAAGTTTATGATGTATTTAAAGATATGACAATGTGGGGAGATAAAATATATGCTATTCCATTCAATAAATCAACCTATGTCTACTATTACAACACAGACTTATTTGACTTATATGGTATAGAACCACCAAAAACATATGAAGACTTTATGGATACTTTAAACACTTTAAATGAAGATATTGATGGCGATGGTCAAATCGATCAATATGGTATAGGTATTAGAACAACTGTTGATGATTTTCAAACTTTCTTGTATGGAATGAATGGAAAAGTTTTAGATTATGCAGGAAATGGACAATACAAAATAGTTTTAGATAAAGATTTAACAATAAAAACTCTTGAAATGCTTCATAATATAAAAGCAAACGATTTAGCAATAATGCAAGGTGGATATTTAAATGATCCATTTGGATCAGGACAAATAGCAGCTTACATGGGTACAATAGCTGGAAAAAAATATGTTGATAAATCATCAAGAGGAAAACATGGCTGGAATTGGGCTTACTTGCCATCAGTTGATGGAAAACCACATTCACCAATTGCTGGTACAGATTTAATCATGTTTAATTGGGGAACAAAAGCTCAAAGTGACGCAGCTTGGAGATTCATGAAATATTGGTTAGATCCAATCAATCAAGCTTATTGGGCAATAAATTCTGGTTACGTTCCTGTTAGAAAAGATGTTGTTGAAACAGAACAATGGAAAAAATATGTAGCAAATGATGAAAAACCAGTAATAGCTTTAAATACTCTTAAAACAGCTGTTGCAGATCCTAAACCAGCTGCATGGTATGATATAAGAAAAGAATTCGGAAGCATCTTTACTAATTATTTAAACGATCAATTTGGTGCTGAAGAAGCTTACAACAGAATGATTACATCATTAAAAACTATGTTAGATGAAACCAATGAATTAGCAAAATAAACAAGAACAAAAAACCGGTTGTATAAACAACCGGTTTTTTTATTAAAAATTAATATTTTCAATATCCTCAATTATTTTATCTATTTTTTTAATAAAATCCACATATAACTCCAAAAAATTATACTTTAAAATATCTTCTACTTTTACTTTAAAAATCGATAGTATTCTTTGATTTATCTTCATTGCTGGATCTTTGTATGTTTTTTGTATATTTTCATACTTTAAAATAATTTTATCTTTGAATATTGATCCAATCTCTGTTGCCAAAGCTTTTTGAGAAAAACTATATTTTTTAGGCATTAAAAATACTATATTTACTTCTCCATTAAATGGATAAAAAAACACATTAGAATTCCACTTTTTATAATTTTTTACTATAAAGTTAACCTTTTCTTCAGTCATATACTTATACAGTGAAAAGTACCTTTCACCACGTATTTTTTCAGAAAAAGTAAGTTTTTTTATTAAAGTTTCGTTACCCTCTAGTTTATAAGCATATACTTTAAAAGGTGATTGACATATTCCACCTATAATTTCAGTTTTTACACTTATACCATAATTTTCAGCTATATTCACATAATCTTTTTCTATTTTTTCTGTATTTTTAGAAACAATATTAAACATAGTACTCATTACAGATTTAGGAGAATCTGGACCAAAAACCTTTAAATAACGCCCTTCTTCATCAATATAATAAGTAATATACGGAAACTTATCATCTTTATCATGAACTGTTATATAAACAAGGTGTTGAAACTCATCTGCTAATTTTCCTTTATTATTTTTTAAATGACTGACACACTCTTTTATTAACTCATCCATTTTTACTTTCCTCCAAAACTTTCTTTTATTCTCATTGAAAGCTTTTTATTTTTTATTATTTTATCTATTTCTTCTACTGTTGCATTTTTTATGCCAGTTAATCCTCCAAACTCTTGAATTAAAAGTTTTTTTCTCTTTGGGCCTATACCTTCTATTTCATCTAATTTTGTTTTTTCAAACCTTTTACTTCTAAGCTTTCTATTAAATCCTATTGCAAACCTATGAGTTTCATCTCTCATATATATTAAAAGTCTTAAAACAGGGTGATCAAGTGGTAAGTGTAAGTCATTAAAATCCCCTGGAAATACTATTCTTTCATCTTCTTTTGCTATTCCAACAACATCAACATCATTTAAAGTAAAACCAATTTCATTTAATGCTTCAACTGCAGAGTTTACTTGCCCCTTTCCTCCATCTATAAATAACAAATCAGGAAGTTCATGCTTTGAATATCTTCGTTTTATTACAGTTCTTATACTTTCAAAGTCATTTGGTTCTTTAAATTCATCAAGTCTATATCTTCTATAATTATTTTTATTTGGTTTTCCATCTTCAAAACTTATTAAAGAAGCCACTGTATACATTCCTTGAAGATGCGAAATATCTATTCCTTCTATTTTTTGTGGTATTTTTTTCAATGATAATATTTCTTTTGCTTGCTTTAAAATATTTCCAAGATTTGTATATCTCTTTATTTCTTCTTCTAAATTTTTAAATGCTATCTTAAATATATTATTATTTTTATTTATTGTTGTAATTCTTTTTAAACCATGTTTTTTCAAAAGATCTAATACACTTTCATTTATACTTTCATCGTACATAGTCATTATTTCTATTGGCAATTGATTTTTTCTAACTATATAAAACTGTTTTAAAAACTCATTAATTTCATCGCTCAACGTAAAGGTTAACTTTGATATCAAATACCCTCTTCTTACTCTCAACAATACATATATAGGGTCTTCATACATTATTATATCAACATTTTTACTTGTTTTAAATTCAACTCCAAGAGGTATAAATAATTTATCTAATTTAAATAATGTATCCCTCATTTGAGCAGCTCTTTCAAAATTAAGTACTTTAGCATATTTTTTCATTGCTTCTTCAAGATATTTTTTTACTGATTCAACATCTCCATTTAAAAATTTTATTACTTTTCCAACACTTTTTTGATACTCTTGAAAATCTACTTCCTTATAACATGGACCATAACACATTCCCAAATGATATAAAAAACATGGTTTACTCTTTTTTTCAACATTTCTTTCACAATTTCTTATACCATAAACTCTTTGCAATACTTCTATTACTGATTTTACAAAATATACGTTTGAGTACGGCCCAAAATACTTTCCTCTTTCACTCTTATTTCTTACATATTTTAAAGTTGGATACTTTTCATTTGTAACTAATATGTATGGATAAACCTTAGTATCCTTTAATAAAACATTGTACTTTGGTTTGTATTCAAATATTAAATTCCCTTCAAGAATTAATGCTTCTTCTTCACTCGTTGTTACTATATAATCTATTGTTTCAGCATATTTCATTATATTAAAAACTTTTTCTGATTTTAATTGATTGGATTTATTAAAGTATGAACTCACTCTTTTTTTTAAGTTTTTAGCCTTTCCAACATAAATAATTTTTTCTTTTTTATTTTTATATATATACACACCAGGTTTATTTGGCACATCTTTTAAAACTTCTCTTTCAAGCATACTACTCTCTCCCACAAATGCAGTTACTACACTCCTTTTCATTTAAGCTATCCCAAACTTTTTTTCCAATTGGATTATCTATTCCACCAAGATATGAAGCTAAATGTAAGTGCAAGCATTTGATAGTTTTAAAATTTTGTATTCCACCTATTCCAACTGTTTTTAATTTTTTCTGCATATTTTCTGGTAAACTTGTTATTTCATTTTCTAATATTTCTAATCTTTCTTTTATTTCTTGATTATGTGCTTTATCCATTTTTTCTTGAAGGGTTTTATCTTCCATCAACTCTTTTTCAAATAACTTTATTGAATGAACTTCTTCTATTTTAGATACTTGTTCTATTAAAAATGGACAACTTAACCAATGCAATGTTGGAAATGGTTTTTTATCTTTTAATGGATAATTTTTTATTACCTGTGGATATCCATATGAACATCTTTTTACAACCTTTATATCATTTATTATTTTTCTATTTAATTGTTTTTCTATTACACTCAAATCTTTTTCTGAAATTTCAAACCTACCCATATATCTTCCTCCATTCGTTCAACAGGATAAAGATTGTGTTTTTTTGCTTCATCCTTTACCATTTGTTCTTTTTCATTCATTATTCCAGTTAAAATTACAAAAGAATTATCTTTTAACACATCATCAAATTTATTATCTTTTAACAATCCCATCAATATTTCTGCCACCATATTTGAAACTAATATATCAAATTTTCCATCTACATTAGACAAATAATCAGATTGTTTTATTTCCACATTAACATCATTTATTTCTAAAGTTTCATGGGCTTTTTCAACAGCTAAAGGATCATAATCAACGCCAACAACTTTATTCGCTCCAAGTTTTTTAGATAAAATTGATAAAATTCCAGTTCCACAACCAACATCAAGAATATCTTTTTGGAAACAATCAGTTTTTTGTAACATTCTACCAGCAAGCTTTGTTGTATTATGAAGCCCCGTTCCAAATGCTGTTCCGGGAATTATATTTATTACAATATCTTTTTTTAATTTTTTTTCTGGAAATGGATTTACCCAAACACCTTCAACAAATTCAAATGGGCTCAAAGTATCTAACCAAACCTTTAACCAATTTTTTTCTTCTACTATCTTATGGCTGAGTATCTCAAGATTAAATTTTTCTATTATTATTTTTAATAACTCTTCATCTGGATTATCATAAGACATATAAAATTTGAGTGTTATTAACTTTTCATCAACTTGATAATCTATAAAATATTCATCAAAGTTTCTTGTTAAAAATTCATCTATTATGCTATCTTCCATTTCTTTATTTAACAAAAATATGTACTCATGAAATTTCATTTTCATTTTTTCCCTCCATGCACATTATAGTTATGTATAAAAGAATTATACAGAAAAATTTGCTATTAATCAAACTTTATTTCTAATTTTTTATTATTAATATTAATATTAATATTAGCATTTTTAAGCAAAAATTTATTTATAAAAAGATATAATCCCAAAGCTACAGGGATTATATTTTTTCTATTTTGTATTCGTTTATATTTCTCTTTTCTGAGTTTATGTTTATTCCTATTATGTAAATTTCTTTCCCTTTGTACTTTTCATAGTACTTCATTTCTTTTATTTGATTCAAAGCCTTTTCTGCACTTTTGTCTATCTTTATTTCCATTATGTATATAGTGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTCAGTCCCGCTGATGCAAGTATTGTGTATATCAATGAGTGATAGTAGCTTTCTTCTTTTTTATGCAAGTTGTATGGTATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCATATATTCTTTCATATATTGTGGTTTCTATTTGTTCTATTTCTCTTATTCCATAGTTTGCTTCTAATATTATCTTTGAAAAGCTGTTCTTTACTTCTATATTTGGATAGTCTAATATGTACTTTTCCCTCAATCCTAATCTTTTTATTCCTTTAAAGGTCAAGTATCCTGCTTGTGTAAAGAATATACTTGCATTTGCTTCTTCTATTTCTCGTGTTGAAAAATCGAGTTCGCTCACTGGATACTTCACTAAGTCTTCATATCTTATCTTCTTCCCTTTTATGTATTCGTACAAGAATGATGGTGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTCATTAAAAAATCTTAATATTGAAAATGGATTGTATACACTATCTTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTCCATCTTCATTTCAATTGCTGTTTCTTTTATGTGCTCTTTAAAGTTACTTTCTAACTCTTCTTGTGTATACCCCAACATCTGTGCGTATTTTTTATTCAACGATATATCATTTAAGTTGTTCAATGCAGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCATCTTTTGATTTTATGCTCACATAAAAGTCTCTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTTGGGATAGTTTTATTATTAGTTCATTGAATGCAAACTTATAGTCTGTTTCTGTTATTTCTATTCCATTTCGCTTTCCTTCTAATTTTATTATCTTTGTTAGACTTTCTTTCATTCTTTCCACATTATCTGTTGCTACATCTAAAAGGTTTATCCTTATTACTGGATACTCTTTGAACTCCCATTTGTCGTATATGTATGTTCCTTTAAATAAGTCTTTTTCTCCTTTAAATAGATAGTACAGTGTTGATATCGTTAAACTCTTTCCAAATCTTCTTGGTCGAGATAAAAAATAAAATTTTCCACTTGTTATTAATTCATATAAATATTTTGTTTTATCTATGTATATATAATCTGTTATTAATTCTTTAAAGTCTTGTACTCCTATTGGTAGTTTTTTCATCTTTATCACCTCTAATCTTTATTCATTTTATTATATCATAATCTCTAATAAAAGAATATTCTATATATATTTTTTTCACAAAAAAAGTGTTAACCATTTTAAAAAAATATTGCAAAAAACAAAACTAAAAAAATAAATAAAACAGGTAAAGTGAAGTAATATAAAAAACACAATAAAAAAATAAACGTAAAAATATTTAAGTTAAAATGAATTGTTAACCACACAGCAAATAACAATTCTAAAACTATAACAACATCTTTTAAATTCATAAGTTATCATTCCCTTTTTTTATTTTAAGAAAGTTTTTTTAGAGAAGAAATTTTACCAAAAATAAAAAATGAATTTTTAACCCTCTAAGGATAGATAAGGACAAAATTTTACTCTAAATAAACAAACAACAAAATATTTTGTTTTTAACCCTCTAAGGATAGATAAGGACAATCTAACAAAAGACGCAGAGTTTAAAATGACAACAGGAGGTTTTTAACCCTCTAAGGATAGATAAGGACTGATATGGTAGCTTTATTAAAACGTAGTAGTAAATATGAGTTTTTAACCCTCTAAGGATAGATAAGGACTAATATAAACGTGTCAGCAAACCAATTAGGGGTTACTGAAGTTTTTAACCCTCTAAGGATAGATAAGGACGAAGTTGAAAAACAACAAATTATGCAAAACGCACAAGTTTTTAACCCTCTAAGGATAGATAAGGACTGTATCTACATTAAGAGGTAAGGCAATTACACCTTAGTTTTTAACCCTCTAAGGATAGATAAGGACTTGAGTACTACGTTTGGAAACGGGGGAATATTTCCCCAAGTTTTTAACCCTCTAAGGATAGATAAGGACAAAATTTTACTCTAAATAAACAAACAACAAAATATTTTGTTTTTAACCCTCTAAGGATAGATAAGGACGAAACATTGAAAAAGTTACCTTACAACATGTTAAATAATGTTTTTAACCCTCTAAGGATAGATAAGGACTTACTGCAACGGAAATTATTTTGGAGCCGGAGATTATTAGTTTTTAACCCTCTAAGGATAGATAAGGACGTAGCGAATATACGGCAAATGCTGAAACCATGGAAGAGTGTTTTTAACCCTCTAAGGATAGATAAGGACTCTCTTAGATGAGGAAGATAAAAAAAAGGAGGCTAAAAAAGTTTTTAACCCTCTAAGGATAGATAAGGACAATAATATCCTCTGCAGTTATAAAAAATTTTAAAAAGTTTTTAACCCTCTAAGGATAGATAAGGACGTATAACGGCAATAGCCGTTATGCCCAAGCTTGGGCAAAGTTTTTAACCCTCTAAGGATAGATAAGGACATGTTAGTAAAGTTGAATATATGAGTTTTATGTTTGCAAAGTTTTTAACCCTCTAAGGATAGATAAGGACAAAAAGGAAATACTTGATATGGTAGCTTTATTAAAAGTTTTTAACCCTCTAAGGATAGATAAGGACAAATTTAAATTTATAGTACTTTTCCAATACATATATTGTTTTTAACCCTCTAAGGATAGATAAGGACGATATTTTCTGGTCTCATCAACAAATTCCAGAAGAAGTTTGTTTTTAACCCTCTAAGGATAGATAAGGACAAATTATAAATAGTGCTCAAACTTACTTTGATATTGAGTTTTTAACCCTCTAAGGATAGATAAGGACTTGTGTTCCTAGGAACATACGCTCTTGCCAAAGCAAAGTTTTTAACCCTCTAAGGATAGATAAGGACACAGAAACACATTTACACGAATGCAAAGGGTTTATAAGTTTTTAACCCTCTAAGGATAGATAAGGACAAAAAAAAGTTATACGATAGTTACTTTTAAAATAGAGAAGTTTTTAACCCTCTAAGGATAGATAAGGACAATTTCCAACCTTGTTTTTATTATACCGTTATTTATTAAGTTTTTAACCCTCTAAGGATAGATAAGGACGTGCATACATTTTGACAAGCACTATAAAAAAATTTAAAAAGTTTTTAACCCTCTAAGGATAGATAAGGACCAAAGAAATGGAATGCATGACAACAAAATTCATTTTAGTTTTTAACCCTCTAAGGATAGATAAGGACAAAAAATGTTTAAAGTTGATGATTCTCTTATTGGTATAGTTTTTAACCCTCTAAGGATAGATAAGGACCAAAAGTACACTTAGAAGAACAATTACAAAAAAGAGAGTTTTTAACCCTCTAAGGATAGATAAGGACCCATTCAAAATTAATTTGTATTGGTACATCAAATTTTGGTTTTTAACCCTCTAAGGATAGATAAGGACATGGGAAGATTTCAACTGCATCTATTAAATACTTCCCAGTTTTTAACCCTCTAAGGATAGATAAGGACTATTGCTAATAAGATAGTTGCTAATCTCCAAAATAGTTAGTTTTTAACCCTCTAAGGATAGATAAGGACAAAAATGGATACATTAATGATAAATATTCATAAAGGAGTTTTTAACCCTCTAAGGATAGATAAGGACCCAATCGGAAATTGGGATGTTTCTTCAGTCATCAAAATGGTTTTTAACCCTCTAAGGATAGATAAGGACATTAGAACATGTAGCAGAAGATTTATTTTACAATCCAATGGTTTTTAACCCTCTAAGGATAGATAAGGACAAGTATTTAACAACAAAGTTAATTCACTAAGTAATCAGTTTTTAACCCTCTAAGGATAGATAAGGACGAATTTAAAAGCAATTGAAATGAAAGATAGTACCGCATGTTTTTAACCCTCTAAGGATAGATAAGGACCAAAACATGTTATAATTAAAAATATAGAGGAGAAAAGTTTTTAACCCTCTAAGGATAGATAAGGACCTTTATACATTTAAATCATCCACCTTTAAAAGTTTTTGTTTTTAACCCTCTAAGGATAGATAAGGACGATGTAGAATTTTCATATATAAATTTTGAAAATTTTAAGTTTTTAACCCTCTAAGGATAGATAAGGACTTGTTCCACCAAGAATTGCTCCAAGAGGTGCAGTTCCTGTTTTTAACCCTCTAAGGATAGATAAGGACAATTCTAAGCCCTTTATAGCCTCATACAGCGATTTTAGTTTTTAACCCTCTAAGGATAGATAAGGACAATTATTTCAAAAGAAGAAAATAAAAAAAAGATTTTCGAAGTTTTTAACCCTCTAAGGATAGATAAGGACAATAACCAGTAACAAATACTTAATAAAAGTGAAATGGTTTTTAACCCTCTAAGGATAGATAAGGACTATTTATAGAACATGCTTGAAATGAATAGTTACGAAAAGAGTTTTTAACCCTCTAAGGATAGATAAGGACTAGTATGGATGATAAGCAGTTTAGTTCTGCTAATAACGTTTTTAACCCTCTAAGGATAGATAAGGACAAAAAGATAATAATGCTATTTATTATTTAGTATTCGAGTTTTTAACCCTCTAAGGATAGATAAGGACAGTAACTATATTTCTTTTAAAATATGCATTAAAATTATAACACACCAAATTTTTGGTGTCAAATAATACTACATTTTTTTATTACAAAAAAGAAACTTAATATTACAAAAAAATCTTTTTGCTTTTTTTTACTTCTATAACACAGTGTTTTTAGGTATTACATGGTTTTACTAAAATGTAATATTTTTTACAATTGTAATATTTGTTTTTGGAAAAATAAAAAGTTTACATAAATTTGTTCTTTTTTTAGAACTTATTTAAAATTCAAAAAAACAGTAAAAATCAGGTTTTAAGATTTTAAGTTATCTTTATTTTAAAATTTATTTATAATAAAATATAAAAATCAACAATAGAATAAAAATTCTATTTTTTTGTTACTTAATAAATTTGTAATTTTATGAGTATATACCCCTTGAATATTTTATACATATTCATAACAATTATATCATACTTTTTATAATAAATATCCTTCCAAAAGTTTTGGAAGGATATAAATAAATTATTTAATTTTTTATTTCTTCAAATCTTCCATATCCATTTGATGTTTTTGCACCCAATCCATATATTTCTAAAAATTCTAAAAATAGTTCTCTAGTTTTTTCTATTTTTTGTTCATCAAATTTTTTTCCATTTATTATTAAATCAAATCTAAACTCACTATCTTCTCCAACACTTAAATAAGACAATGGATTTGGATTATATACATCATTTGGAGGTTTTTTACCTGAATAATATTCTCCAAAGTGTGGTGTTTGATATTCTTCAAATATTTTCGGATTATTTAATGGGATTGCTTCTAAAAATTCTATCTTTCCACTTTCTTCTTGAGTTCCAAATATAATTTTTATCAAATCTTTTAGTTCTTGTTTTTCTTCAAATTCATTTTTTGTTTCTAAGTAATGTCTAAATGCACCTTTTATTGCACTTCCTGGTATTGTTGGAATTCCATAATTTCTATTCCAGTAAAATCCTATTTCGTCCATTGAAGGTATTCCTGCTCCTATTAAAAATGGTGTTGTGTTTTTTGCTATTATTGTGATTGATTCTTTTTTTTGAATATTCAATAATGATCTAAGCATTTTTATTCTTATTGATTTTAATTTTTTAAATAATCCATCAAATTCTATTGCTTTTATATTTTCTTTGTATATTATTTTACTGAATTTTTTTTCATCTAAAATTCTCGATTCGTTTACACTTTTTAATATATTTAATGTAAATCTTTCTTCTTTTTTTATTTGTAACTTTGAATTTTTTTGATTACTAACTACGTCTGAACGAATTTTTGTTATTTGTATTTCTTTTAGTTTTGGATTTACTTTATCGGCTATTTCTTTGCTAACTTCTTGTCTTTTTTTTTCGTCAAAATTCTTTTTTATACCTAATTCTTCTTTTATTATTTCAAAATCTTTTTTTAAATTTTTTTGTATTCTAAAAGAGAGTTTATCATAGTATAAAGAGGCATTTTTTATGTCTTTGATTGTATCATTATAAAATTCCAAATTTTTTCACCTCCTATTAATCTTTATCTTTTTCTATAAATATATCTGCATATCTTCTATACCAACCAACAAAGCTCAATATTCTATCTTGAAATTCTTTTAAATTTCCTTTTTCTAAAAATTCTAAAAAATTATTATAATTATCTTTTTCAATATTTTCAAAATCATAAAATTCTTCAAAAAATGCACATAAATCATCTAAAATATATTCAATATATTTTTTTTCATCAGCTTTTTTATTTTTTTCTTTGTCTTTTTTTTCTGATTTCGGATTCATCTTAGAACGATAAAAAATAACTGTTCCATACAAACCATTTTGAATAATCATAGAACCCAAACCTTTTATTGTTGATTTATAAGCTTTTAATAATTTATCTTTATTTTCAAAATTTTCACAGTTTTCTAATGTATTTAAAATACAGTCTTTTGCCAATTCTTGTACACTTTTATCTATTTTTAGCATAAAATATCATCTCCTATAAATATTTTATATAAGTAAATCCTTTTCCTATAGTTGATTTACCTCCTATATTTACAAATTGTTTATCTGTTTCTTTTGTTAGTATATCAAGTCCATGATCTTTTAATAATGTTTTTACTATAAAGTACATTATTGTATCTTGTGGTAAGTATTCTTCATACCAAAGACCTCCTGTTTTTTTATCAACAGTTCCTGTTTCATCTATTTTTATTCTTGCCATAATTTCTGTAGATCCTTTTACAAAAAATCTAAAATCTTCATCTGATATTATTAATACTCTTTCTTTTAATTTATTTTGTAATGTTTCATCTGGTAATATTTTTTTTATTGAATTTAAAAAGTCTACTAATTCTTTTGAATATTCTGGAGTTACTTTATATTCTTCTAAATTTATTTCAGTTTTATTTGTTGAATAATATTCTTTGTCTGATTTTATAGTTTTTAATAAATTACTAACTTTTGTTTCTAAATCTTTGTTTCCAAACATTTTAAAAAGTATATTTACTCTGCTTAATATCATAGGACACGTAATCCATACAAATCCTTCTGTAATACTTCTTACTGGAAATAAAAATATTTTAGCTTCTGAAAAAGATACGCTTCCTGATTGATCTTCTGTTCCTTTTTCTTTTTCTTTTGGACTTCCAAAGATTTTTATATCTTTATCTCCTTTAAATACTTCTTCAAATTCATTTCTAAATGCACCTTTTATTCCAGATATTATAGGGAAGTCTGTATGTACTTCTCTTTGTATTGGTAAATCTACTACTCCCGAATCAAATCCTTTTCCTGCATGTAATTGAGAAACTGCATATAAAAATCCTATTTTACCATTTTTACTCATATATAGTCCTCCTTCGCGTGTTATTATTTTTTTAATTCTATGTATTTTCCAAAACCATAATAATCATATTTGTCTGTTAATGTATTAATTTCACCTTTTGTATAATAACATGATCCAACTGGTACTACTTTCATTAATTCACCAGGTTTATTTTCGACGCCATTCCAAAAACCTATTGTTTCTGGTTTGTAATTTGCTATTGCAATTATATTTTCATTATTTTTAGGTAAGATTCCACTTTCAATAAAACTTGGAGTTAATGTATATAATATTTTTTCTTCATCATTAACTTTATCAAAGATATTAGTTTCTATTTCTATTATTTCAAGTCTTGCTAATTTTCCTTTTGTTCCTAATTTTATTGTGTTATACTTTTCTAATAATTTTAATTCATCTTTTTCTACAAAGAAACAAAAACCAGAATTTTCTTCAAATCTAAAGTAGTTTAATGAATAAAGGCCGCCTTTTTTTGTGTATCTTTTACCTTTTTCAATTTCTATTCCTATTTTTCTTTCTATTTTATATGGTATATTTGATGGTGTATTTTTTTCTGTGTCTATTATATTTACATATCCTTTTTTTAATTCTTCTAATTCTTTTAAGGTTATATAGTTTTTGTTTAAATCATCTAAATTATTCATTTTTTCATATCTTAATCCGTTTAATTCTTTTGTACCTATTTTGAATTTTATATTTTCATCTATATATGCTTTATATATTTTTTTTGAATGTGTTTCATTTGATTCTTTTTCTTTTTTTAATATTGCTGGTTTTTTAAAAAATATTTCTGTTTCACCGTTATTTTGTTTAAATACAAATGGTCCTGTTATATCTAATTTTCTTTCTTTCATTAATGTTGATATTTCTTTTGCTGATTTTTCTTCAAAGTTATATAAATTCCCATATATTGCACCTAAAAATGTTTTTAAATTAGGAAAATGTGTATCTTCACTTGTTGAAAACGATTTAGCTGCTCTAAATGCAACCCAATCAAGTGGTTTTATTAATAATAATTTTTTTTTCATCATTCACCACCTCTTTTTGGTTTTTTAGCTGAATATTCTAATTCTTCTAATATATCTAATATATCTTTTAATTCTAAATTTTTATTTTTACATAAGTTTAATATTTTTTTAGTTGGTTCAATTAAGTTTCCTAAATTCATTCTTTCTTTTATTATAAATGGAACAACTTTTTTAATAAATTCTTCATCTTTTAAAATTCTTTTATTATTTGAAAAACACAAACTTTCATATTCATATTTTAATTTACTTATAAATGCTTGTTCAGATTTTTTATTTTCTTCTAATTTACTTATTAGACTATTAGCAGTTTCTATTATGTCTTTTTTTGGAACTATATTAATATCCCATTTTGATTTAGCTATTTTTATTTTTCCAGATCCCCTTATTGAAGATATTGCAAATGAATCTCTGTCTACTTTTTTTTGTTTGTTATCTTTATCCATTTCAACTTCATAATTACTTTTAGCTATTTTTTCAAGTTCTCTTGCTTTGTTTAATGCTAATTTTAAATTGTATGATGGATTAAATGTCAATAATCCTGCACTCATAGTTGCTCTATGTCCCATCATATTTGAAATCATTTTTCCATCTTTGTACATATATCCTTTATTGAATTTTAAGTTTTCTAATTCTAAATTATCTACACCAGAATATGCTTTTCTTATATCGTTTGCTGCTTGAGCTAACTTATTAGAAGGTAAGATGGCAAGAACATCATCACCACCTGCATATATTAATGTTCCTTTATAATTGTTTATTATTTTTGGAACTAATTTTGAAAATTCATTCAATGTTCTTGATATTGTTCTTTGATAAGAAGGTGTTATAAATTGAAGTTCTTCCAATTTTTCTAAGTATTTTTTATCTATTCTTTCAAGACGACTTATAGCATTTTTATGTAATCGTTGATAAAGAACAGGAGCTTTTTTACCTGAAATCCATTCTCCCATTTTATCTCCATCCATCATTAATATTGATGCATTATAATCTTTTGAAATTTCTGTTATATCATCTTTAGTATTTTTTTTAGTATTTTTTAAACTTTTACTTGCTTCTTCATACAATGTTTCTTTTTCAAGATAATTTGGTAAGTATCTTTTTATTAAAGTAATTGCAGATATATTTTCAGTTTTTTCTTCGTCATCGTATATTGTAATTTCTTTTATCAAAGCTTTTTCATTTCCAGATATTTCATCGCCAGGGTTTGAATTTTGTTCTATATAGCCAATAAAATCTCTTGTTGTTTTTCTAATTCCTGATTTTATCCCTAATAATTCTGAGTTATATGAATAATATTGATAATCTTTAACAGTATATGTGTTTTCTAATTTTTCAAAGCTTTCTTTTAAAGGAGTAAGATCTATTCCTGTATAATCTTTATATTGCATATTTAAAGAATTAAAATTTTCTAAATTTTGAACTGTTGCTACTATAGTTGGAAATTGTTTTACTTGCTTTTTAAATTCTTTTGTTATTTGTTCTTTACTTAGTCCATGTTCTGTAATTAATTCAAAGCTAACATTACTTTTTAATTCATTCAATGTATTATTATTAATTTTTTCTAAAAAGAAATTTATAATATTATCTCTTTCAAGTAATATCCATTCTTTAATCTTATTTATTACTAATTCAACATCACTTTTTGGAATTATAAAAGAAAATACATTTGGAAGAGATGCTACTGCAGGGTCTATTTCTAACTCTTTTGTATAAAATCCCAAATCTTTTGCAACAAAGTAATTGTCCCTCATTGAAGGAAATATAATACAATCATATCCATAATTTTGTCCAACATATTTAATTCCTTGATAAGTTAAGTATGAAAGTAAATAACTTCCATTTCTAAGATCTGATATTTTTCTTCCTGCTGCTATAAAGTCTTGTACTGGGCCAATTGAAATCATTACTATTGAATAATTTTCTGTTGTTACACTTGAAAATGCTGCAGTTGTATCTAAATGATCTATTATTGATACATCTGGTACTCTTGTGTCTGCTGGTAATAAATATGATTGTTCTACTGATTTTGGTAGATACCACCAAATGTAATTGTATAATTTTTTTGCACTTTTTACATCATTAACATCAAGTTTTTCTTTTTCTATATATTTTTTTATATCTTCATAAAATTTATTTGATTGAGATAATATATCTTTTTTATTTAATTGTTTATCTAATATGTCTTTACTTACTTTTTCACCAGTTAAAGGATGAATTATATAAAATTCATTACTATTAACATAAACTCTTTGTTTATCTGAATTTGTTTGTTCATTTGGAAGTGGTATTCTTTCAATAGAACTGGCAATTACATCTGCTTTTGGTTTATTTGGAGTTATATTTAATTCACTTATTCTTTTATTTTGTAATGCTTCATGAGTTTTTATTGTATATACCTTTTCCACTGGATCGTGTAATAAAGCATTTATTTTTCTATGCCAAAATTTAATAGCCATTATTTCCCTCCTTAATCTACTATTTTTAAATTTTTTAAAGTATCAAATACCATTTTTAGATTTTCGTTTCCTTTAACTTTAAATTCATTTTTTCCTTTATTAAATTTAATATCTTCTATTTTTTTCCCATTTACAAAGCTATTTTTATTTGTAATTTTACTTCTTATTAAGCTAATTCTATACCTGTATTTTCCATTTTCTTTATATATTTTTATAAACATTTGAGAAGCTTTTCTTCCTTCACTATTAGATAGAGTATAATTTCCACTATTTATACCTTTAAATTGTCTATCTCCAATTTTATAATTAATAGGTAATCCTAAAAAAGATTGTACAAATTGAATAGATTGATTTTCATGATTTTTTATTGAGTATATACCTTTTCTAAACGAATCTTCATCTAATTTTTCATTTGATTTTATTTTTCCTTCTTTTATAACATATTTTCCTCTAAGCACTTTTTTTAATTTTATATACATTCCTACATTTAATTTTAACGAATTATCTTTATTTAAATATCTTGTTTTTGGATCTGGTTTGTATAAATAATCATATAATTCAAGAAAAGTATCAAATTTATTTTTTGATTCTAATATTACATATTTTTTAGAAAGTAATGTTGGATATGTAGGGCTAGATGTAAAATTTTGTATATCATAATCAATATTGTTTAAATCATAAAAATTCTTTTTTAAAGTTTTATCTTCAAAGATATACTTTTCATTATTATAATTTTTTTTCATATTTTCTATTATTTCTTTTAAAACTTCTTCTAAATTTTTTATTAAGTTACTTTTTGTATTAATTATTTTATATTCATTAGATTTTATAATTTCAAAACTTCCAAATCCTTTTCTTGATTTAGCTCCAAATCCTCCTAAATAAGAGGTAAGATTCAATAGATAAAATAAAAGCTTATCTAATCCACTTATATTTTTTTTAATAATAAACTTTATATTTATTTTTGAATTTTCTTTTAAATAATATCTATCTTCTTGTCCATATAAAGCATATTTATTATATTTATCATTTGTTAAAGACTTTCCTTGTTTATCTGAAATATCTTTTTTATCATATTTCACAAGTACATCAAATGGTGATTTTATTTCTGTTGATCCAAATATATAACTTTCTATATCTTTTAATAATTTATAATTCCAAAAACATTCTTCACCTTTTAATTTTGAATTTCCATTATTATCTACAATATTTACAACTCTTGGTAGTATTGCTCTAAACCAAAATCTAAGTACACCTCTAACACTTTGTGGAGTTAATGCAAATTTTTTATCCCCTCTTCCAGAAAACATAGGAGATATAGTTTTTATTTCTATATCCAATTTTTTCAATTTAATCACACCTCCATAATTTATATTGTTTCAATCATTCCAAATCCTTGTGAATTTCTTAATCCTAATCCCCAATCAAAAGCTAATTTTAATACTTCGTTATTACCATATATTTTGTATGTTCCTTCCCAAGCTTCAAAGGTTGTTGTTTTGTATTTTAATACTCTTTTATTAGTTGGGTTAATTCTTTGTGGAATAATATTAAAGGTTTCTGTATTAATTCCCAATGCCTTTCCTTTTGTAGACATATTATATTTAATAATTTCACAAAACTCTGGATCTTTTGGATTGTATCTCAGTAACTTTCTTTCTCCATTTACTCTTAATACCTTTTCATATACTAATATTGGAGATAATGTTTTAACTAGTGCATAATTATCAAAAGTGTATCTTAATCTTCTTATACTACTAATGTTCAAAAAGTTATTTCCTATTCTTATATTGTTTAATTCTGTTAATTTTTCTAAAAATTCTTCCAATAAAATTTCAAAGGGTGAAGAAAAATATATCCATATTTCATCTCCAAAATAAATACTATTATCTTTAACTTCATATCTTTTGCAAAATATTTTAGAATAAGAGAAAGGCTTCATAGTCTTAGAATCAACTATTATACCTTCATCATGTAAGTAATCAAATTTTTTAGTTACCAAGTTATAAAATAATCCTTGTAAATAATACTGATAAGAAATTGGTAATACAATATTTTTACCTGATAAGTTAATTTTCACTCTCAATTTAATCACCTGATATATTAATTTTTTTTAATAACTCACTTATTATTATATCATTTAAATTTTAATTTATCAATAATTGTTTTTATTATAAAAATTTTTCATATTTATTTTTCTCAATACCAGTAATATCAAAGGTTAAATTTTTCTTTGTTAAAGTTTCAAAGTATATTATGCTATCTTCATTTTCTTTAATTATAATTTTTAGTTTTCTTTTTAATTCATTAAACTTCTTTTCAGTAATAGACCCTTCAAAAACTGAATTTTGTATCCAATTAAGATATTGTTTTATAATTTTATGAACCTTTCCTACTCTTTTTGTATTTATGTCATACATTAATACAATATACATTTTTATCGCTCCTTTAATTAAAATAAAAGCAGGAGTTATCCTGCTTCTACAAAATTTTTTCATATTTATTTTTTTCTAAACCAATTACATTATAAAATATATCTTGTTTTCTTGTAGTCTTTATATATACAACACTATCTTCATTTGCTTTTGTCATGGAATTTATTCTATCTTTTAATTCATTTAATTTTTTTTCAGTAATGGATCCTTCAAAAACTGAATTTTGTATCCAATTAAGATATTGTTTTATAACTTTATAAACTTTACCTACTCTTTTTTCATTTATATCATATACTAAGATTACATACATATTATCAAACTTCTTCCATATACGGAATATAGTTAGTACTTTTTTTATTAATATATTTTTTTAATCTGTATAAATCAATTCCAATTAATTCCTTATATGATACATATTTTTTTAAGTTTTTTAAATAGATTGTTTGAGATAATTTTTCATCATATGATTTAATAAATTTTTGTTTTCCACTTTTATTTAAATAGATTCCATGTTTTTTATTTTCAAAATCTGATTTTTTAAATTCATTTTCTTTAAACATATCAAAAACTATTCTATCAACAATGAGTGGCTTAAAAATTTCTGATATATCTAAGCTTAATGCATTTTTTCTATCATTTGAATGTAAATAACCTATTGAATTAAATAAGCCAACATTATTTATCGTTCTTACACATTCTGAATAAAAAACACTATTTCCAAAACTTATAACAGAATTTATTTCATTTTCTGGTGGTCTTTTAAGTCTTTTTTCAAATTTAAAATTATCATTATTTATTATTTTATCAAAAAATGAATAATAATATCTTCTAAATTCTGCTTCTATTATCATTAATATGTCTACTGATTCTATTTCGTTTAATTTTAAAATCATATTTTTAATTTTTTCTTCATCATATTTCATTTTATACAACTTAAAATTTGACCTCATATTATTCATTGCTGCAAATAAAATCATTTTTACTAAATTTATTCTTTCTTCGTATATTTGATAACTGTTAACTTGATTAATTAAAGTTTTCCCTTCATAATTTAGATTATCTGGTATATAGCTTCCTAAATAGTTTTTATAATAAGAAAACATATGCATTACAATTTTATATTTTGATAAAAGGTGTAAAAAGCTATCATTAAACTTAACATTTGAAAACACTTTTATATCTTGAATATTGTTTATTGGTAGTATTTTTTTACGTTCTTTTGTAATAAATTCTATTGTATTATTTTTTCTTTTTAATTCACCATTTGAAAATATATAAATATTATCCATGTTTCACCTCCTAATACAATATATTCTTTTATAAAATTATTTTTAAATATTAAAAATAAGAAGAAATCTTGTTAACCAAGATTTCTTCAAAAATTACATTTTAAAATGAAAAACCCATTGTAAACCAAGGAACAACATAAATAGTAAATAATCCAATTGAAAAAGAATTATCTTTATTTATATATTCTATACCAACACCACCATAAGGAACTATTAATCCTAAAGTACCCCAATACCAATAAGAGTTCCAAGCATCATATTTTAAAGGTTCAAAATAATTTCTTTCACTATATCCAATGCCTAAATTATATCCACTGTATCCTATAATTTTTCCATCTTTATTTAATTTTTTATTTGTAAAAAAACTCAAAGTTGCTATATCAATCTTTTCAATTTTAGTATCAGAATAATTTAAATAATCAGAAGTATTAGGAATAGTTGTTTTTATAATAATGTTCTTTTTTATATCATTAATCATATAAGTAAAAAGTAATTTTCTATTTTTTATATTACTATTTATAGATTTTATCTTCCATCCACTACCTAAGCCAAATAAATTATTATATTTATTTGTAGAAAGATTTGTATAATAATAAATATGAGATTTAGGAACTGCTATTTCATTAAATGTATCATTAGGCAATATTACAGATGGAATTTGATGTAAATCTGAACTAATATATTTTTGATTTTCATGAATTAATACAACGTTATTATTATAGTTATCAGTAAATGTACATTCATCCCATACTATTTTTAAAACAGAATTTGTTAAATTTAAAATTTTTAAACGTAAAACAGTTTGATTAAAAATTCCATTTTTTACATTATCAATGTATATTTTTAATTTTATATCATTGTTTTCAAAAGTTTTTAATAAATAAGGATAATTAATTGATGTAGAATTATTAGTTGTTTTTTCACCAAAAAATAGTAAAGTTGTTAATAAAAATAATATTAATACTACTTTCTTCATACTCTAACCTCCTAAATTTTTTTGATGTTTCAAATTATTATTCGACATTTTTAATTATTTTATCCAAGTAGTTCCATCATCAAATTTTACTTCAACAATTTCAGTTTTAATATATTTAACTGTTCCAGCATAAACACTAGACCAATAAGTTTTATATCCATAAGTTTCACTTGGTTTAATATTTATATTTTGTACAATGCCTTTTAATGTATCTACAAAATCAATTGTTACTTGTTCATCAAAAGAATTATAACCTTTGATATCAACTTTATAGGCTATAATTGTTTTACTTGAAATATTTTCTACAAATACTTGAAATTTTTTTTGAGTAATTCCATATATTGTTTCACTGGATACCTTTGTACCAATAATTTTTAATGGTGATGGATTACTAAGAGTTTTATCCAAAGGTTTTGTACAGCTAACTAATAAAAAAGATGATAATAATAAAACTACTAATACTGCTTTCTTCATACTTTAACCTCCTAAATTTTTTTGATGTTTCAAATTATTATTCGACAAAATAAAAAATATTAAGTATTTTTGTTTATTAAATCATAAAAAAAGATGACTTCTGTTCATACAGAAATCATCTTTTGCATTCTTAAATTTTTATTTTATTCTCATTTTAAACTTTTCTTTATTCTGAGAATATTTCACACTTACACACTTTTTTTAAATAATTATTATTTATGTTTAATTAGTATATACTTTTCCATTTAATTATTTTTTAGATATATTCTATCTTTTAATTCTAAATAATTTTTTCTAATTATTAGTAGACAAAAATAAAAAATATGCTTTTTAATTTATTATAAATTTCTTTTTCTTATTTTTTTTAATGTAACTAATGATATTCCAGTTGATTTTGATACTAAGTTAATATCAGCGCCATTTTTTAAAAGATTTAAAGCTATTTTTTCTATCTCTGTTAATTCAACATCTTTATCCAAATTACTAACAATTTCAATTTCTTTTTTATCAAAGGATATTGCTACTTTTATTATATCGTTTATTCCATAACTTTTTATTTCTTCTTCATACTTCTTTTCATTTATTTGTTTTAGTCCATTTTGTGCACTGTCTTTTAAACTTTTATCTTCATCTCTATTGTACTTTTTAAACTCTATTATTATTCCTTTATCTGTTTTATCTTTTGGAATTAATATAACATCAGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATGTACTCTTCTTTTAATCCAACACTCATTCCAAGTATTAATCCATGATAAAACCTTTCCGGTTCTTTTCCACTAACATCAAAGTAACTCAATGTATTCATCGTTAAATCTTTAAATTGGTCTGTAAAGGTCTTTATTCTTCCTACTTTTAAATTCAAAAGCATATTTTCAATACTTATATTTGATTCTCTCAACATATTTCTAACTGTTTGTACAAAAAAATCTTTTACTTCTTCATTTGGTATCTTTACTTTATACATTGTTATATTATTTTTTCTTTTTTTACTCGTCCACTTTAAGTAACCACTAAATAAAAATAATGTCCAAATTGCGCTTTCACTATTTAAGTTTAAATCACCATAAACCATTGTTTCTATTATTTCGCACTCTACTTCTTCTCCATTTATTAATTTTTCTACACTATCTTTTATATTAACAGTTCCTTCTTTTATTAACTTTCTTATTAAGTAATTTCCACTCGTATTCATCCAATATGGTCTTATCTTTTTTTCGTCTACTAAGTTTATTATAGAAAAAGGATTGTATATCTCTACTCCACCAAAGTTATAACCATTGTACCAATCTATAACTTCATTTTCTTCATATTCAAGTTCATAATACTTTAATGTTTCTTCTACTTCTTCTTTAGTTAAACCATACTTATCATTGAATAGTTCATTCAATACAGTAGAAACCTTTAAGTTATTCACACCAGTAAAGATACTTTCTTTAGATACTCTTGTTATACCAGTAAGAACTGCTTTTTCAAGATATACATTGTCTTTTAATGCCATGCCAAATAAGTTACCAATTAAAGATATTATTTCATCATAGTAACCATGTAAGTAAGCTTGTTGAATGGGAGTATCATATTCATCTATTAATATTATTACCTTTTTACCATAGTATCTTTCCATATACTTTGATAAGTTTCTTATAGAGTTTTCATACTTTGCATCATCTGCTGTTTCTGAAATTATTGATTTATATACTGATTTTTCCTTTTCATCCAATACATCTAAAACATACTTATGATCAATGTATAAAGATGAAAGTTCCATGGCTAATAAGTCATGCATCTTTTTTAAGTTATTAGACTTTAAATCTTTAAAGGTGATGTATATAACTGGATATTTATTTAAATGTTTTTCTATTATATTTTTTTCTTTATATATCTTTAAATCTTTAAAGAGGTGTTCGTTGTTTTGAGTAATATCAAAAAAGTACTTCATCATAGATTGACTGAGAGTTTTACCAAACCTTCTTGGTCTTGTTATTAATAAAACATCTCCACTTTCAATAACTTCTTTGATTAACAAACTTTTATCTACAAAATACATATTGTCTTCTATTAATGATTTAAAATCACTTCTTCCTATTGGAAGTCTTTTTTTCATTTTTATCACCTCGTTTTCTCGTTTTATTATATCATAGTCTTCAATAAAAAAGAATTTAATAATTTTAAATTATAATGTTTTCAGCATTTTTTTATAGTTAAAATCTTTGAAAGAAATAATCTAAGAAGAATCAAGAACCATAATTATATTTCTTTTATAATAAGCTTTAAAATTATACTTAATCAAAAATTTTGTAATGGATAATACTATATTTTTCTTGAAAATCTTTATTTGCATAATACCTATACATAATTTAGTCATAATAATTTTGGTTTTGACTTTTACTAGAAAAAATAAAAAAGCAGGCATTTCTGCCTGCTATATTTTGTTTAAATACTATTAAAAGTTTACACCCAAAGCTACGTATGGAGCAAAATAAAAAGTTCCTATATCAAAGAAAAAACCATTATCTGCTACATATTCAGTTCCTATTCCTACATAAGGAAATAATAACATAACTGTTCCCCATTGCCAATAAGGATTCCATGCATTAATTTTTAATTCATCAAAATAATTTACCGAAGAATAACCTAATAATATATTAAAACCAGAATATCCTATAATATTTCCTTCTGAATTATGTGTTGCCCACCCTAATGTTGGTAATCCAGTTCCTATTTTTGTTTCCATGTTTTTTGCTAAACTTATTGCATTTGAAAAAGAAAACATACTTAATAATACTATTAATACTACTTTTTTCATAAAAACACATCTACAATTAGTCACTAATTAAATTTCTTTTAGGTTACATGATATATTATTTTTGCACAATGACATAATAACATAGTCATTATATCATTTATTTTTTATTTTGTCAATAGTTTTATCTATTATAAAAAATAAAATTCTTGACAAAAAAAAAGATGTGATATATAATTAACTTATAAAAGGGGTCGTAGCTCAATTGGGAGAGCGCTACCGTGGCACGGTAGAGGCCGTGGGTTCGAGTCCCATCGACTCCACCAAAAAAAGAGGGATTTATCCCTCTTTTTTTATCATTAACAACTTTTTTTACTTTGAATTTTAAGCTTAATAAGGTATAATTTACTTAGAAAAATTGTATTGGAGTGATTGAAGTTGTCAAAGAAGGATATTATAAACAGATTAAGAAGAGTTGAAGGTCAAGTGAGAGGTCTTCAAAAGATGATAGAAGAGGAAAGAACGTGTTCTGATATATTAACTCAACTTTCAGCAGTTAGTGGAGCTCTTCAAAAAATTGGAGAATTAACTATGAAAGAGTATACAAAGGGTTGCATTATGGAATACGAACAAAATCACAATGAAGATCTTTTAAATGATTTAATTGAAACGATTTCAAAGTTTAAAAAAATATAATTATAAAGGAGTATGATTTTTGTGAGTAGAAAAGTTAAAAAAATTATATCTGTTTTTTTAATAGTTGGCGTAGCTGCAACCAGCTGGGTTTTTGGTAATTCTGATAAGCGCTCTATAGAAGATATATATTATAATCAATATAGAGAACCTATTGTAAGAATGCTTGCTTATATAAATCAATATTATTATGGTAAAGATGATGTTGATTATTCAAAAATTTTAGATTCTCTTTTAAAAGGTATGGTTGATGGTATCGGTGATCCTTTTGCATGGTATTTTGATGCAAGACAAACAACAGAAAACCATATAGATGAAACTGGTAAATATGGTGGATTAGGTATTACAGTAAGATATGATTCTCCTACAAAATCCATTGTTATAGTTAGTCCTATGTATGGTACTCCTGCAGAAAAAGCTGGATTAATGGCTAATGATTATATAATATCAGTTGACGGTTCTCCTGTATCAGAAACTGGGTATATGAAAGCAATAGATAGAATGAGAGGTAAGCCTGGAACTCCTGTAAAGATTAAGGTTATTAGAGAAGGGTGGAAAAAAGCAAAAGAAATTGAAATAGTTAGAGCTTTAATAGAAACAAAGACCGTAAAATATACAACCTTTGAAAAAGATTCTGAAAAAATTGGTTATATAAGATTAACAAATTTTGGAGATAAAAGCGATGTTGAAATGAATAATGCTCTAAAAGATTTATCAACTAAAAATATAAATGGATTAATATTAGATTTAAGAAATAATCCTGGAGGACTTTTACACATAGCCATAAATATAGCTTCAATGTACATTAAAAATGATGTAATTGTTTATTTAAAGTATAGTGACGGCTCAGAAGAAACAACAACACCTATACCAGGAAAATATTTTGACTTTTTAAATGGATTACCTATTACAGTTTTAGTAAATAAAGGTTCTGCATCAGCTTCTGAAATTTTAACGGGAGCTTTAAAAGATAATAAAATAGCAACAATAATTGGTGGAACAACTTATGGTAAAGCAGCTGTACAAAGACCATTTACATTTCCAAATGGTGGTGAAGCTTGGATACCAATAGGTCATTATTTTACACCAAATAAAATAGATATTCACTTAAAAGGAATTGAACCTAACATTAAAATAGATAATCCTGTTAAAGAAGTAAAATCATCTATTGATATAGAAAAAGAAAAAAATGAAGCTTTAAATCAAACAACAAATAAAGTTTATTTAAACTTTAAAAATGATTTACAATTAAATAAAGCAATAGAAGTTATTTTAGAAAAATTAGGTGAAAAAGTAAATTGAGAATATATGGATGGGTGATGATTTTTTTTGTCACCCTTCTTGTTCTTTCTACTTCATTATATATAGTATTTGCAAACTCAAAGGTTCAATACATGGAAATTGAAAAAACACCTGTATTGTCATTTGAAGGTAAAATAAATATACAACCTTATGAAAACAGACTTAAAACTATTAAAAATATGTCTGAATTTTTTTATGGACTTATAGATTATAATTTGTTTGTTGGAAATATAGATTATAATTTTGATAAAAATATCATCAGTATAGAACCTTTAATTAAGGATCTGTATTATGATTTGAAAAGTCTTGTAATTTCTATAGATAAAAATTACAAAGAAGAAAAAAAAGATATTGAATTGTATGGATTAAAATTACCTTATTATCAAATAAAAACAAAAAATTTTTATATAAAATTAACTCCTAAAATTTTAATATCAGATTTATCTAAAATCAATCATAATGATTTAAATTATTTAAGAACACGTTACTTTATTTTTAGTGAAGAAGATTACAAACCATATGACTTTAATAAAAATTTTTTAAATGGTTTAAAAGATTATGGTGGAGTTGTTTTAGATGAAAAATTAATTTCAAAACCTGCAGTTGCTCCATTATTAGATACATTAAAGGGGATGGGAATTACTGTAGAAAAGAACTTAAAAATAATAAGATTTAAAGGTGAATAATATGTTTAATAATATGCTTGTAGACTTTTATAATTCTCTATTTGTTCCTAAAAAACTTTTAAACTCTGAAAAAGGAAGTATATTAATTCCATTTATCATTATGGGAGTTTATCTTATATCTCCTAATATGAATTTAAAAAAACTTTTTTTAATATTTTCTTTAAGTTTTTTAAGTTCAGGATTACGTATATTATTTGCTAAAAAATATGCATATTATTCTTATCTTGCTTCAAGTAGTACATTATTACTTTTTGCTTTAAATTTTTATTCTATATCTTTTTTTTGGAATATTCTTTTAAAAACCTACATAGATATAAAAGAAAAAAACTTTTATTCTTTTATAATAGGGACATTTTTTGATATTTTTCTTTTTTGGTGGTTAATTTGAAAGATTTTTATTTTAATTTTACAAATTTTATATTAAAAAATTCAAAAAAAATTATCTTAATTGTTGCTGTTCTAACAGCAATTTTAGGTTATTTTTCTACAAAAATAGGCGTTGATTCAAATATGTTTAGAATGCTTCCTAAAAATCATCCTATTTTAAAAGAATATAATAAGGAACAAAAACTCATGGACACAAATGAAATAATGGTAACTGTCTTTTATTTAAATGATAATATAAAACCACTTGAAATCGCTCAATATTTTTCAGATGAAATGAACAAAATATCTTCTTTTTCAGGATTTACAACTGATATAAATTTTTTATTATCTTATGGTTTTTTATACTTAGATAATACTTCTTTAATTCAAAGTATATCCGATAGTGTGAACAATATAACTAAAACTATCTCTCGTTCAAATGCTTTAGACTTTAAAACTATGCAATACTTAGACAAAGCAATAGGAAATGTTTATGAACTTGAAAATAATTTAAAAAAGAATAATTCTGAAAACATATTAAAATCTTACTACATAATTTCTCCAGATAAAAAAATAATGCTTATGGGTGTTTCTTTTACAACACCCACATCAAATTTGAGTTTTGTAAGTAAAATTGTGCCTAAAACAAAAAGTATATTAAAAAAAATAAATAGCAAATTTAATATAAAAACTGGTTTAACTGGAAGTTATATTACAGAATATGAATCAAACAAATCAGTTTCTGAAGATTTTAAACTTACTTCTGTAATAACTATACTTTCTATTTTAATACTTTTTTTCATTTCATTTGGAGATATAATTGTTACTTTAATTGTTTTTGCTTCACTTGGAATATCTTTTTTATTAACTATGGGTATAACACAAATTATGTTCAAAGAATTAAATATAATTACAAATTTTATGGCTGCTGTAGTTTTAGGATTAGGTATTGACTATGGAATTCATATTGTTACAAGAATAATAAATGAAATTAAGTCTGGAAATTCTTTTGAAAAATCTCTTGAAATAACTTATGAAACAGCGCTTTTACCACTGTTTTTTAGTCTTTTAACAACTGTTGCCGTATTCTTATCATTAGTTATTATGGGGTTACCTGCATTTACTGAAATGGCTTTTATAAGTAGCATTGGATTAATTGTATTTTTTTGTATAATGTTATTTTTTGTTCCTTCTGTAATTTATTTGATAAAAAATAAATTAAAAATAAATAATTTTATTGAAAAAATAAATAAAGTATTTAAATTATTGAGTATATTTATTCCAAATCATTCAAAAAAAATAAAATATATAATTTATCCATTTCTTGTTTTTTTTGTCATAATTGGTTTTTATAACACTTCAAACTTTTTCTACACGGCACCTGGTCTTATTCCAAAAAATTCAGAATCTGTAATAGTTGGAAATGACATAGTTAAACATATGGGTAAAGTTGATTTATTTGATGATTTAAAATATAAAATTTCTGTTGATGATGATGTTGATAAAATAGAACAAAAGCTTTTATCCAGCGGTGTAATCAAAAACGCTCAAAGTTTATCAGATATAATAGAAAAACAAATAGGTGATTTTTCCACTCTAAAATCTCGTGTAACTGACTTATCTCAAATGATAAATAATCCATTAGCTGTACCTATTTTAAAAAAATATAATATGTATTCTGATAGTTTAAAACTAATTGAAATATCTGCAAAATCAAAAGATTTATATCAATTTTCATTAAATTCACTTGATATAATTCCATCACAATTTAAATCAAATTTTTTAATTGAAGATAATGGAAAAAAATATATGTTATTAAATATAAAACCAGCATTTAATTTATGGAAAAATAATGGTATAAAAATTTTTTATGAAAAACTTGGAAAAGATGGAAACAATGTATTAAATACTACAAAAACTATTTATAAATTAATGAAATTAGTAAAAGAAAAATTTATAGCTCCTGTAATAATTGCTTTTATATTAATAGCATTTTTAACTTACATATCAAGAAAAAGTTTTGTAGAAACATTCCAAACATTTGTAGGATTACTCTTTGTTGCTCTATCTACTTTTGGTATTGTTTATTTTTTTAATATACGAATGACATTTATAACTATGCTAACATTTCCATTGATTTTTGGAATTGGGGCAGATGGATTTATTCATATATTCCATGCTATTGATGAAGATAAACAGCATTATTGGCAAACTTTAAAATCTGTCACTTTATCATTTGCAACTTCCATTTTATCTTTTTTGAGTTTTCAAGTTGCTCGTGGTGATTTATTAAAACAATTTAGTTTAAGTATGGTTATAGGAATACTTTTAACGTGGATATTTACAGTAATTCTAATACCTACAATTAAGTTTAAAACAATCAAAAAATTCTATAAAAAATTGGATAAAACGCTCGTTAACAAAAAGTTATCAAAAAACAAATAAATAAGTAATATTAAAGTATTGACAGATACCATTTTTAATGTTATAATTATTTACGTAAAATAAGGTTGCCCGGGTGGCGGAATTGGTAGACGCTACGGACTTAAAATCCGTTGGGTAGGAATACTCGTGTGGGTTCGAGTCCCACCCCGGGCACCATTATTTTTTTGTCAACTTATATACGGTGCGGGGTGGAGCAGCCAGGCAGCTCGTCGGGCTCATAACCCGAAGGTCATAGGTTCAAATCCTGTCCCCGCTACCATATCTGGCGAGGTAGCTCAGTTGGCTAGAGCATGCGGTTCATACCCGCAGAGTCGGGGGTTCGAATCCCTTCCTCGCTACCATAACAAAAAAGCACATCTAAGATGTGCTTTTTTGTCATTTTAACTTCAATTTTCTAATTCTCATTGGATTAAAGAAATTTAAACAACACCCAGAGCCAAACATTTTTATTTCTTGATTTTTTTCGTTTTCATATATTTCATTGTACTTTGAACATAAATAATTTTCTGTTAAAAAATTGCATGAGCTATAATCATCATTCCATTCACCATAATAACATGGATTTTGAATACAACAAAAACCACATTGAATACATTCTGGACAGTCTGTATTAAAATTTTCCATTTTTACACTCCCTTACAATATTTTATTTTAAAAATATAGGTGATATTATGCTATCTTTATTAATTATAATTTTTATAATATTTTTATCTTTTAAAAAAATTCCTTTATGGAAATCAATGTTCTTTAGTTCTATTATTTTATTAGTATTAAAACAAATAAATTTAAAAGAAGCCATACTTTCAATAAATTTTGAAATTATAATTTTTTTAATTTTTATGTTTATAATAGGTGAATCAATGATTCAAAGTGGATATATTGAACATTTATCTTTTATAGTTTTTAAACATACAAAAACTACAAAATCTATTGTCTTTAATTTAATATTTATAATGGGATTTATGTCTGCAATAATGATGAATGACACTGTTGCAATTATTGGAACTCCACTTGTTTTACACTTATCAAAAAAATTTAATATAAAAAGTGAAATACTATTATTTACTCTTGCCTTTTCTGTAACAACAGGAAGTGTTTTTAGCCCCATTGGAAATCCTCAAAATTTAATAATAGCCCATTATTTAAATAAACCTTTTATAACTTTTATAAAATTCTTATTCATTCCAACTATAATAAACTTATTTTTTCTTTATTTTATAGTATTAATATTTTATCATAAAGATTTGAATAAAAAAATTATACATATAAGTGATCCTATAAAAAAAAATAAATTATTTTTTTATTCAAGAATATCATTCATTTTAATTTTATTACTTACTTTTATTAAAATCATTTTTTCTTTTTATGGTATTAATTTTAAATTAGTATATATTTCTATAATTGCTTCATTTCCTTTAATTTCAAACTTTAAATTTCTAATAAAAAAAATAGATTGGAAAACTATAATATTTTTTATTTCAATGTTTATTGTTATGAAAAGCGTTGGAAATAGTGGTATCTTTCAAACATTTATATCAAAAAATATTAGTATTCCATTAATCATGCTATTAAGTATCATTGTAAGTCAATTTATATCAAATGTTCCTCTCGTAACACTGTTTGCTCCATTATTGAGCATATCACATATAAAGCTAATGGCTTTAGCATCTGGAAGTACAATTGCTGGGAATTTACTGATATTGGGTGCAGCGAGCAATATTATAATACTTCAAGTTGCGCAAAAAAATAAAGAATCATTTAATTCTTTTAAATTTTTTAAAATAGGTTTAATCATAACTATTTTTAATATAATTACTTTTTTATCTTTTTTTGCTATAAATAAATTTATTTAATACTATATGCTATAATTAATTTGAGGTGATCAAAATGAAAAAAGTGCCATATGGACTTCAAAATTTTGAAGATTTAATATTGGAAAATTATTATTATGTAGATAAAACTAAATATATAGAAGTATTAGAAAATATGCCTGAAAAATATATATCATTTTTAAGACCAAGAAAGTTTGGTAAGAGTTTGTGGCTAGATACTATAAGTAAATACTATGATGTTAAATATTCAGATAAGTTTGATACTATCTTTAAAGATTTGTACATTCAAAAACATCCAACACCTAAAAAGAGTAGTTATCATATTTTAGAGTTTAATTTTTCTGGATTGAATACAGACAGTAAAGAAGAGTTGAAATTTGACTTTAATTCAGAAGTTTATAGAAAAATTTCTAAATTTATATCTAATTATAAATTGAATATAAAATTAATTGAAAATATAAATGAACCTTCTACATTATTTAGAGATTTTTTAAATAAATATGAAGAATTAAACTTAAAAACAAAAATCTACTTATTAATAGACGAATACGATCACTTTGCAAATGAACTTTTGAGTTTTAAACTCGATGAATTCAAAAATATTGTTAGTAAAACAGGTTTTGTTAGAAAGTTTTATGAAGTAATAAAAGAAGGAACACGATCTGTTATAGACAGACTATTCATAACAGGAGTAGCACCAATAACCTTAGATAGTTTAACGAGTGGATTCAACATCTCAAAAAACATGTCAACAACATTAGAGTTAAATGAAATGATGGGATTCACTGAAAGTGAAGTCAAAGATATTCTCAAAGAGTATCAAATAAATGATTATATTTTACAAGATATGAAGTTTAGCTACAATGGATACATGTTTAATGAACGTGCAAGTGAAAAGGTTTACAACAGCGATATGGTCTTATACTTTATTTCTGAATACAACAGAGAGAAGAGAAAACCAAAAGATGTAATAGATATGAACATAGCAAGTGATTATAAAAAGATTCAAAATTTATTCAAACTTGGTGAAGTTGTTGGAATAAATAATATAGACAATGAAAAAGAAGCAATAGGAAACCTTTTAAATGAAATATTAATGACAGACAAAACAGAAATAGAAGAGTTAACAAGAGCATTTAACCTTGAAAGAAAGATGGAAATAGACGATGTTAAAACCTTACTCTTTTATTTAGGCTTTTTAACAATAGAATCAAAAGGGTTTGTAATGAACTTAAAAATACCAAACTATTCAATAAAAAAGATATACTCAGAATACTTCTTAGAAATGATAAAAACAAGAGCAAAAAACTATATAGATACAGGAAAGATAAAGATAGCAATAAGAAAGTTGTTAGTAGATGGAAATATAAACTCGTTAGCAAGTGAAATAGAAGATGTATTAAAAAAACTATCAGACAGAGACTTTCAAAGCTTTAGTGAAAAGCACATAAAGATGCTACTGTTTAGTTATTTAATCTTAACACCATGGGCATACGTTAAAAGTGAGTATCCAGTAGAAGGAGGATACATAGACTTAGCAATGTTTAAAAGATACGAAGAAGTACCATACAATGCAATAATAGAGTTAAAATACATAAAGAAAAAAGATTATACAGAAAAAGTATATCAAGAAAAGATAAAAGAAGCAGTAAATCAAATAAAGAGATATGAAAAAACCATAAACAAAGAGTTTAATGGACCATTAAAAAAAGTAGTGATGGTCTTTGTTGGCAGAGAGTTAAAGTATCTTGATGAAATTGAATAAACTAAAAGTCCAAAAAATTAAGTGTTTTTTGGGCTTTTTTATATAAATCTTTATAAAAAATATTAGAAACTTAATTGTTAAAAAAAATTAATCAAATAATGTTGACAAAAAACATTACATATGATAAAGTATATTAGAATTTAATAATATTTAGAGGTGGAAAAGTTATGGAAGATAAAAGAATACGTATTTTAAAAGCTCTTGCTCATTCTGAAAGATTAAAAATTATAGAAATGCTAAAAAAAGAACCAACTTGTGTTTGTGAAATGAATGAAAAAAGTAATTTTTCTCAATCAAATATATCTCAGCATTTAAAAATATTGAGAGATGCAGATCTTGTTAAATACACAAAAGACGGAAATAAAGTTATTTATTCTTTAGCTAACGAAAAACTAATGGAAGTAATTAACTTAATTACGAAGATTTCTAACGAATTATAAAACAAAAAACATCTGAACATTATGTTCAAATGTTTTTTAATAATAATATTAGTATTTTATAAAATTATAAAAATGAGGTGAAGTTATGTTTGTGTGGTTAGATAAATTAATTACCCTATTAGTTAAAAATTTCTTTAAATTAGATGTAAACACAAGAGTTGGATCTTCAGTACATTTTTTCTTTTATGATAGTATAAAAATAATAATTTTATTATCTATAATGATTTTTATTATTTCTTATATTAGGTCCTACTTTCCGCCAGAAAAAACCAAAAAAATATTAGAAAAATTTTCTGGTATAAGTGGAAATATAATGGCATCATTACTTGGTATTGTAACTCCATTTTGTTCTTGTTCTTCAGTACCAATTTTTATTGGTTTCATAGAAGCTGGAATTCCTCTTGGAGTAACCTTTTCATTTTTAATTACTTCCCCAATAGTAAATGAAGCAGCATTTGCAATTTTACTTGCATCGTTTGGTTGGAAAATTGCATTGTTATACGTTGTATCTGGAGTAGTTATTGGAGTTATTGGAGGAATAATAATAGGAAAATTAAATATGGAGCATCATGTAGAAGAGTATGTTTATAATATAAAAATGGGAAATACGGAAATTGAAAAATTAAATCAAAAGCAAAGACTGAGCTTTGCGTGGGAAAATGTATACGATATAGTTAAAAGAATTTGGATATTCCTTTTAATAGGTATTGGAATTGGAGCTTTAATTCATGGATATGCTCCTGCAGAATTTTTAGCAAGAACTGCAGGTCCTAAAAATCCATTTGCAGTTATAGTATCTACAATAGTTGCAGTTCCATTATATTCAAATGCGCTTGGAACAATCCCTATAGCAGAAGCTTTAATTGGAAAAGGTGTTGGAATTGGAACTGCTCTTGCATTCATGATGGCAACAACTGCTCTTTCTTTTCCAGAAGGTGTTCTTTTAAGAAAGGTAATAAAACCAAAGTTAATAGCAACTTTTTTTATAATAACTTCAATATCTATAATATTAACTGGTTATATGTTCAACGTAATAATATAAATAAAAAATATTAATTTGGAGGTGCAAGTATGAAAATAAAGATTTTAGGTAGTGGTTGTCCAAACTGTAATAGATTGGAAAAAAATTCAATTGAAGCTTTAAAAGAATTAGGTAAAAGTGTTGAAGTAGAACATATTAGAGATTATGGTGAAATTATGAGTTATGGGGTAATGAGAACACCAGCTCTTGTTATTAATGAAAAGGTAGTAATAGCTGGAAGAGTTGCTAAAAAAGATGAAATAAAAGATCTATTAAAATAAAAAATGCAGTTGTCAACTGCATTTTTTATTTTAATATGTGTTATAATTTAATATATGGTGTCCCCACGAGGAATCGAACCTCGATTTGCGGATTAGGAATCCGCCGTTCTATCCGTTGAACTATGAGGACATTAACGCAGTTATTATATCAAAAATGATACAAAAAGTCAATGGAGGTGAAAGTATGTCTTTAAGCGATCCAAAGATTCTTTTTGAAAATGATGAACATAAATTTATAATGCTCGGTATGGAAACTGGAGATGAACATGGAATATATACAAATCAATATTTGATTCTACATAAAGATGAAGGTGTTTTATTAGATCCAGGTGGAGTACATGTTTTTCCTAAGGTTCTTGCAAATGTAAGCGAGTTTATAAATCCCGATAAAATAACGGGAATTTTTTATTCTCATCAAGATCCTGATGTTTCTTCTGGTATAGCACTTTGGAGCAATGTAACTAACGCAAAAATATATGCTTCAAATCTTTGGGAAAGATTTTTACCTCATTTTGGTGTTTTTGATGAAAAAAAATTTATTGCTTTGAGTGATAAAGGGGGAAATATTCCTTTTAAAGATGGATTAAAATTAGAAATAGTCCCAGCACATTTTATGCATTCAGTAGGAAACTTTAATATTTATGATCCAATATCAAAGATTTTCTTTTCAGGAGATGTTGGTGTTGGTGTTGTACCTCCAAGTGAAAGAAGTATATTTGTTGAAAGTTTTGAATCTTATAAAAAATATATTGAAGGATTTCATGTTAGGTATATGACATCAAATAAAGCTTGTAAAAAATATGTGGATCTTTTAAATAAATATGATATTAATATTCTTGCTCCTCAACATGGTTCTTTGTATAAAGATAATGATGTTAAAAAATTTTTAAATTGGCTTTCTGGTATAAAATGTGGTGTTGATATAATAGATAAAATTTATGGGATGTGATTTAAATGGGAAATCAAAAAGAACTTATTAAAAAATTAGCTGTCAATACATACCATGAAAGTGTTTTAACTTCTTTTATAGATAACTTAGATAGTGTATTAATGGAAAGATTTAGAGGGTTAGTTGTAAAGGCTGATGACGTTGAAAAAACGTCTGTTGAATCCATAGAAAATTTCACTAAAATATCTGAAGAACTTCAAAGTTTTATTGAAAATGGTGAAGTAAAATCAAAAATAATGGCTGAAACAAATACTAAAATAATAGAAAAAATAGAAAGTCTTGGTACGAGTGTTGATAAAATAGATTCAGATATAGAAGTAAATATAAACAATATATCTAACGTACTTGAAAGATTCAATAATGTTCAAGAAATGACTCAAAACATAAATAACATTGCAAAACAAACTAATATACTTTCCATAAATGCTTCAATAGAAGCAGCAAGAGCTGGAGAAGCTGGAAAAGGTTTTGCTGTTGTTGCCGAAGAGGTTAAAAAATTATCATTTGAAACAAATTCATCCTCTAAAAAAATAGGAGAAAGCGTTAAATTGCTATCAAAGGATGTTAAAAATGTTTTAGATAATATGAATCACTTATTTGATTTGTTTAAAGTTTTATCTGAATCTTCCAAAGAGTCCATGCAAGTTATGAAAGAAAATGTTGAGTTCATAAACACATTAGTTTCTAGACTTAAAAATAATACTGAAGTAATAAACAACAGCACAGAAAGTTTAAACATATCTAAAGATGAAATAAATGAACTTGTAAATTCAATAAATTCAATATCTACTGTATTAAATACTGTTTTAAAAATGCAAAGTGCTATAAAAAATATTAAACTGTGAGGTAAAGTATGATAGTTGTAATTGGTGGTGGGGCTTCTGGTTTAATGGCAGCCATTTCTGCAGCAAAACTTGGAGCTAAAGTAACTATCTTAGAAAAAATGAATAAACCGGGAAAAAAAATACTTGCATCAGGAAATGGAAAGTGTAATTACACAAACATAAATACAAACATAAATAATTATCATGGAAAAGATAAAAAGTTTATTGAAAGTATAATAAATAATTTTAATGTAAACTCTACAATTGAATTTTTTAAACAAATAGGGGTATATCCTAAAATAGATAGTGAAGGAAGGGTATACCCTTTTTCATTGCAAGCATCTTCTGTAGTTGATAATCTTTTGTATGAGTGTAAAAAACACAATGTAAATATTGTTTGCAATGCAAAAGTTACCAATATAAAGAAAAAAAATAATTTATATGAAGTATATTATAATGATACTAAAATAAAAGCAAACTCATTAATAGTATCTGTTGGCGGAAAATCATCTTCAAAACTTGGTTCTGATGGAAGTTTATTTAATACAATAAAGTCATTAAATCATAATTTTTCTCCAATGTATCCAGCAATAGTTCAATTAAAATTAAAAGGAAACTTTAAAGAAGTTAAAGGCGTTAGAGTTCGTGGTGAAGTTACCTTATATGATGAAAAAAAATTAATTGCTAAAGAAAAAGGAGAACAATTATTTACTGATTATGGAATATCTGGAATTTCTGTTATGAATTTATCTGGATATGTTCATAGTTTAAAAAAACCTATTTTAAAATTAGATTTTTTCCCAAACTTTTCTTTAAACGAATTAATTTCTTTATTATTATCTCGAAAAAAGAACATGCCTCATAAAACATTTAAAGAATCTTTCATTGGTTTATTAAATTCAAAATTAATACATTTAATATTTAAACTTTCAAATATTAAAGATAAAAAATACTCTAATGTATCTATTGATGAAATAAAAAAAATATCAAAAATATTAAAAGAAAGTACCTTTGATATTGTTGGAACTAAAGATTTTGAAAACTCTCAAGTTACGGCTGGTGGTTTATTAACTTCTGAAATAAACTCAAAAACTTTAGAATCAAAAATAAATAAAAATTTATACTTTTGTGGTGAAGTATTAGATGTTTATGGAGATTGCGGAGGATATAACCTTCAATGGGCATGGAGTAGTGGATACATAGCTGGAAAAAGTGCAGGAGGAAAATATGCTAAGAATAAATAATGTAAAATTACCAATAACTCACAATGATGAAGATATAAAAAGATACATTGCAGAAAAAATTAATATAAATAAAAGTTCTATAAAAAGTATAAAAATTGCTAAACAATCTATTGATGCTAGAAAAAAAAGAGAAATGATTTATTTTATTTATTCAATAGATTTTGAGGTTGAAAATGAAAATAAAATAAAAACCTCTTTAGTTACAACGTCTCCAAACAAAAATTATGAAATGCCAACTGTAAAAAATAAACCAAAATTACCTCCCATAATAATTGGAAGTGGTCCAGCTGGATTGTTTACTGGATTAATACTTGCTGAATGTGGATTAAATCCTATAATCTTAGAAAGAGGAAAAAGTGTTGATGCTCGAAAAAAAGATATAAATCTTTTTTGGAATAATGGAATTTTAAATACAGAAAGTAACGTGCAATTTGGTGAAGGTGGAGCAGGAACATTTTCAGATGGAAAATTAACAACTCTTATAAAAGACAAATTTGGAAGAATAAAAAAAGTTTTAGAAGAGTTTGTAGAAAGTGGTGCTCCAAAAGATATTTTATACAAAAATAAACCTCATATAGGCACTGATATATTAGAAGTAGTTGTTAAAAATATTAGAAAAAAAATAACAAAATTAGGTGGAACTATAAAATTCCAACACAAAGTAACTGATCTAATAATAGAAAATAATGAAGCAAAAGGAGTTATTATAAATAATAAAGAAAAGCTTTATTCAAATGATATAGTGTTGGCAATTGGACATAGTGCTCGTGATACCTTTAAAATGTTGTATGAAAATAATCTTTTAATATCTCAAAAACCATTTTCAATTGGTGTTAGAATAGAACATTTAAGAGAAATGATAGATAAAAGTCAATATGGAAAATTTTTTAATCACCCAAAGCTTGGAGCTGCAGATTATAAACTTTCATATAGAACAAAAGCAAATAGAGCAGTTTATACCTTTTGTATGTGCCCTGGTGGTCAAGTAATTGCTTCTTCCTCAGAAGAAAATATGATAGTAACAAATGGCATGAGCAAACATGCAAGAAATTTAAAAAATTCAAATAGTGCAATTTTAGTAAATGTAGAAACTAAAGACTTTAAAAGTTCTCATCCGCTTGCAGGAATTGAATTTCAAAGGTATTGGGAAAGTGAAGCTTTTAAATTATCTAATTCATATAAAGCTCCATCTCAATTATTTAATGATTTTTTAAATAATAGAAAAACTAAAAAATTTGGAGAGATAAAACCATCTTATATACCTGGTGTTGCCTTACAAGATTTAAATAAATGTTTACCTAATTTTGTTTCTTCTTCTTTAAAAGAAGGTATATTAATTATGAACAATAAAATCCATGGATTTTCTGATAATAATGCTATTTTAACGGGAGTCGAAACAAGAAGTTCTTCACCAATACGCATAGATAGAAATGAATTTTGTGAAAGTACAAATACTAAAAACTTGTATCCATGTGGGGAAGGTGCTGGTTATGCTGGAGGCATAACCTCTTCTGCAGTCGATGGTATAAGAATAGCTGAAAATATAATAAAAAAATATAGGTAGATAATCTACCTATATTTTTTATATTTCTGAAACTATTTTAGAAAGTTCTACAATAACAGAAACTGCCTTTTTCATTGATTCTACTGGTATATATTCATACCTTCCATGATAATTATGCCCACCTGTAAAAATATTTGGACAAGGAAGACCCATAAAAGATAATCTTGCACCATCAGTTCCACCTCTTATTGGTTTTATAATCGGTGTAACTCCAACATTTTCCATTGCTTTTTTTGCATATTCAACTATTTCTGGCTTTTTTTCTATTATTTCTTTCATATTGTAATATGAATCTTTTAATATTAATTTTATAGTTCCTTTTCCATACTTCTTGTTTAAAAGCTCTGAATTCTTTCTACATAACTCTTTTTTATCTTCAAATAATTTCTTATCATGATCTCTTACTATCATAATAACTTTTGCAGAATCACATGTACCTTGAATATGTACTATGTGAAAAAAGCCTTCATATTTTTCTGTATGTTGAGGTGTTTGCGTTTCTGGGAACATTGTTGATAATTCGCCAGCGATTAAAGCAGCATTTATCATCTTATCTTTTGCTGTTCCTGGATGTATACTCTTTCCTCTTATTTCAAAGGTTGCTGTTGCTGCATTGAAGTTTTCACTTTCAAGTTCTCCAAGTTCACCACCATCAATTGTATAAGCAAAATCTGCTCCAAATAAATTTACATCAAACTTATCTGCACCTCTTCCTATTTCTTCGTCAGGAGTAAATCCTATTCTTATTTTTCCATGTTTTATTCTACTTTCTTTTATTTGTTCAATTGCAGTAAGAATTTCAGCTATACCAGCTTTATCATCTGCTCCAAGCAGAGTAGTTCCATCTGTAACTATTAACTTTTGACCAACATATTTATTTAAACTCTCAAATTCTTCTGGAGACATACTAATTTCTTCATTTAATTTTATTGTTCCACCATTATAATCTATAATTTTTGGTTTTACATTTTCACCTGTTAGATCTGGAGATGTATCCATATGAGCTATAAATCCAACAGTTGGCACTTTTTTTTCTATATTTGAAGGTAGTGTAGCCATTAAATAACCATCTTTTAATGAAATTTCTTCTAATCCCATAGTTTCAAGTTCTTTTTTTAAGTACTCTGCAAGTTCAATTTGTCCTTGAGTTGACGGACAATAATTAGAATTTTCATTTGAAGTAGTATGAAATTTTACATATTCTAAAAATCTATCTACAACATCTTTCACAGTATCACTCCTTTTATTCGTTTTGTTAACTATATTATACACTGTTTTTTAATTTATTATACTTTTAAAAAGCTTTATATATTTTTCTAATATCTCCTCTGAAGCTTTTATTCCACTTTTTTTAGTAAAATTTAAACCATTTACTCTATTTATTTCAGCATGTAAAGGTATTAAATTATATGTTGCTTGTAAAACCATATTCAAATCTAAATTAGAATCACCAGATGCAAAATACTTTTTTATACTTTCTTTATTAACAACATAAGAAACTGCTTTTTCTTTACTAATAAAGTTTGGTATGAAGTACATCTTTCTTCCTTGAATAGAATAATTCCAATTGTTTATTTTTAAAAACCTAAAAAAATTATTTATATTTTCAGGTATGTTATTTACATCAATTATGAAATAATAAAACTCATCATCTACATTTTTTTCTTTTAATATCCAATTTCCCTTATATTTTTCAAACTCTTTAAAAATCATATCTGATTTTGTACTTTGATTTTTAAAACTATTAAAAATATGTGATTCCCATTCTTTATCTATCTTTCCATTTATGAGAATTTTAGCTCCATTTTCAATTATTGCATACTTTGTTTTAAATAAACTTATTCTTTCAAATTGTTCTTGAGTTCGTGTAGTAACTGGAACAAATAAATTTTTATTGCACAATTTTTTCAATAAAAAAAGAGTTTTTGATGAAATATAAGAAATTGCTTCTCCATTTTTTTCTTCAATTAAAACTTCATTGTTTATTTCAAACTTATTTGAATATATCAAAGTTCTATCTAAATCTGAAAAAAACACTAAGCATCACCTGTTTTTTTAATAATTCCACAACATTTATATCCTCTTAAAGGATATTCTATTACCTTTACTTTTTTTTCCTTAGCCAATATAAATATGTGTTCTAAATCTTCATCTTTATAATTATTTACAAGGATTATATCGGGAATTCTCCTTAATAAAACTCTTGTTGTTTCTCCTATACCAGGTTTTATAAAGTTTCTATTAGTAACCTTAAACTCTTTTTCTATTCTATCGACCTCTTTTTTCCCATTCCAATTAACTTCATCTCTTGATAAATTCTTTTTTAAGTTTAAAACTTTAATAAATTCTTTTTCTATTTCATCAATGTAATAGTTTGAAAGATCAAATTCTTTTAAATTTTTATAAAATTTAGCTCCATGATATTCATTTTCTTTTATAAAATCATTCAATACGGTTCTACTTACAAGTCCCGATACAACAGAATTTAAGCAACTACTTGGAATTAAAAAGTCTTCTTTTGTTCCGCTCATTTCAGCACATCCACATGGATCAGCCAAAACAGCTAATTCATCACTTATATCAGTTTTATACTTCAAATTAAAATCATTGCACGCATTTTTTAATACTGCTTTTATTGTTCCTTTTCCAGTCCATCCATCAATAAAAACTATTTTAGAATTTGTATGTTCTTTTATTATTTTGTTTAAAGCAACTTCATCTATTCCTCTATCTCTTATTATAGATATAGAATAATGAGGTATACTCAAATTAAATTTATTTTTTATATACCTTTTTACAAGTATACCTATTGGAGTACCCGCTCTTGCTAAAGAAACAAGAACTATATCTTTACCTTTTATTGAAACAATCTTTTCGGATAAAATTCCAGTAAATAGTGCAATTTTTTCTTTGTATTTTTTTAAAGAAGAAAAAAATAATTTTTTATAGCTTTCTCCTGGTTCATACTCTATTGGAAGCATTTCTGAATAATGTTTTTTACCACTTTGAATTAATCTTTCTCTTTCTTTTGTTGGTAACTCTTTCATTTCATCTGAAATATCCTTTAATAAAAAAATAACATCATCAGATTTATAACTGCTTTGAATTAATTTTATTTATATCACCTCTCAAAAAAACACACGTTTATTTTTTTTATTCCTGTTGTTTTTAATTCATTTATTGTTTCATTTAAAAGTTTATTATTTCCCTTTTTTTCATACATTATATAAAGACTATCATACTCATTTTCTAAAATATTATAGATATATTCATCAATACTTTCATCATATATATTTTTTAAATAAAATTTATTTTTTATGGCATACTCTTTTTTATTCATTGGAATTATTGGACTTCTTGTTGTTGAATGATACTTCACATTTCCAGAAAGATTACAAGCTACTTTCATTGGAATATACATAAATTCACCGGTTCCCAATACCAACTTTCTTTTTGAAGTATCATCAATTTTCTTTGCTACTCTTAAAACTAAATCGTCTAATTCTTTTTGTAATATAGAATTTGTTCCAAACTTTCCAGTTAAATGATCTATCTTTTCATCAAGTTCATAAAAATTAACTTCAACATCTTTAATCTCTTTTTTTATTCTTTTTTCTGTATAAGTATCATCAAATTTCCCAAATACTTCAATGCTTCCCTTTATAAGTGAATGTACATTTATTTTTATATTAAATTTTTCTTCAAATTCTTCATATTTTTTTATATTTTCATCATTTCTCCAATCTAATATTGTTAAAACATGATACTCTTTTCTAGAATACTTTTTATTTATTTCTTTAATAAAATTAAGAATTGTTTTTCCAGTTGTTATTTCATCATCTATAAAAACAATTGCATATTCATTATCAAAAAAATGTTTTTCATTTGAATATAAAAAATGATTCGTTGCATGTGAATGTTCTTCTTGAAAATCAAATATTTTTTCTTTATTTAAATTTATTTCACGCGTTGTATGAATATAACTACAATTTTCAAAAATGCTAAAAGCGGAATGTCCAAGTGCCGTTGCAGTTTCTGCAAATCCAATAAATATATTATGTTTTGGAAGAAATATTTTTTCTTTTTTTGATAAATATGGGTATACATTTTTATAGTACAACTCACCCAAAAGTTTACCATACTGTATAGACTTTTGTGGAGACACTGGTATATGTTTTCCTAATACCTTACTGACAAATAAAAAAGCTCTCTTTTTGTTTATTCTTGCAGCCATTTCAAATAAATCATTAATATTCAACTGAAACGGATTTTCTCTTACCATTACCTTTACTTTTAAATTATCATTTATCTTGTAATAAGCTTGTGAAGTTTTCATCTTCATTAAACACCCCATATATCTCTGATTTTTTTACTATTTCTTCTGCCCATTTAAAATGAGGCTTTATTTCATTCATTTTATTGTTAAAGTTACTCTTTAAAACACCTTCTCCATCATTTTTTAATATTTCAAGTGCATCAATGTATTCTTCATACATTACAGGCATCATAGAATTAACAATTATTACATGAGTTGGATAAATAACTGTTTTACCTAAAAATCCATTTTCTTTATCCAACAGTACTTCTTTTATTAAAATATCATTATAATCATTCAATATATTTTTTCTAATTCTTTTTCCTTTACTTCCATAATGTTCTATAAAAGGACTTTCTCTCAACTCTGGTTTTAAAATTCTATTTGTTTTACACTTTTCAAAGTATTCCCAAACACCACCAGAAATTATAAAATTTTCTGCCTTAAAATAATTTATAACATCCCCAAAAAAATCTCTTAACAAAGAGATATCATAAACTGTCGTGTATTGATTTCTTCGTAAACTATACAGTCCACTTAAGTCAGTAGTTCCAACTCTTATATTCAATAAGTATTCTTTATATGACTTAAAAATTTTTAAAAGCTCATCAAATTCATTGTATCTAAACCTTTTATTTAAAACCCTATTTGTTTCTAAAATAGGCATTCCATAAAAATTATTGTTATTTTTAACATTCAACTTTTTTAATACTTCAAAGTACTCTATTGCGTTTGTTGTATCAAACTTTGGAAAAACAAAACCTATAATATTATCTAAATAATTATAGTATTCATCTACAAACTCTTGAAAATGTTTTGGATTTCTAACTCTAATAAACATCAAAGGTACGTTTTTTACATTTGATAATTCTTTTAAATTTTTTATTAAATTTTTTTCTGCACTCTTTACTTCATTTTCACCAACAGCATCTTCAAGGCACAAAACAATTGAAGATAAACCTGGAATTTTATTTTCCATAATTATATTAGCTATACTTTTCTTATTACCAGGAATATAAAGTGTAGCCCCCAATGCTCTTTCAAGCATTTCTTTTTTTGAAAACTTATTAATTTCTTTTGGTTTTATATAAAAAATTTTTTCCAACTCTTTATTAGTTAAATGCGAAAAATGTTTCAAAACACACCTCTTTAAAATTAAAATTTATTGATAATATAAATTATAGCATTTATATCTTAAAATTCACAAAAAAAGATTTTTATAATTAATATGCTATAATTTCAATATAGAAAAAAATTGGAGGTGAATAAAGATGTGTAGAATAAACCCAAGAGTAGATTTTGCATTCAAAAAGTTATTTGGAACTGAATCAAATAAACAATTATTAATAGATTTAATAAATTCAATAGTATCAGAAGAAGATAAAGTAAAAGACATAGAAATAAAAAATCCATACAATGAAAAAAACTTTAAAAATGATAAACTTTCAATATTAGATATAAAAGCAGTAGATCAAAAGGGACATTGGTACAATGTAGAAATGCAGATAATAGATCAAGAATATTATGATAAAAGAGCACTGTATTACTGGTCAAGAGTCTATTCAGGACAACTTTTTGCAGGAATAAACTATGATAATTTGAAAAAAACTATTAGTATAAACATATTAAACTTTAAATGTTTAGAAGAAGAAAATTACCATAATGTATATAAAATAGTAAATATGGAAAGCAAAAAAGAATTCATTGATCATTTAGAAATACATTTTATTGAGCTAGAAAAGTATGATGAAAAAATGAGTACCATGTTAGATAGATGGGTAAACTTTCTAAAAAAAGCGGATATATATGAAAAAGATAAATTACCAAAAGAATTAGAAGAAGTAGAAAGTATAAAAAAAGCTGTAGAATTATTGGATGAAATGTCATTAAATTATGAAGAACGAGAAAGCTATGAAGCAAGATTAAAGTGGCTTCGTGATGAAGAAGCTGCAATAAAAACAGCTGAAAATAAAGGTTTTAAAAAAGGTTTATCTAAGGGAATCGAACAAGGGATCGAACAAGGCATTGAACAAGGGATCGAACAAGGCATTGAACAAGGCATTGAACAAGGCATTGAACAGGGGATAAAACAAAAATCTATTGAAACAGCAAAAAAAATGTTAACTAAAGGATTGGATAAAAAATTAATATCTGAACTTACTGATTTATCTATAGAAGAAATAAAGAAATTAGATAAATAAAAGCATAAAACAAACCAAGCAAAGCTTGGTTTGTTTTATACATTCCATATTTCTTCAAAAGTATGTGGTGTTTCACAGTATTCACAAACTAACTCTCCATTTTTATTTCTTATAAATGAACCTTTAATTCCTTCTCCATTGTTTGGATGAGAAATACAATTTTCATTTTTACATCTTAATTTGCTAAATCCATAAACCTTTGGTGGCAAATGAATTCTATATTTTTCTTCAACGTGTTGATTTTTAATTATATTTACAGTTACCTCTGGAGAAATTGCAGATAATTTTTTAATTTCTTTTTCTGTCAAGTATTTATTTGGCAAACTTATATATCCTTTATTTTTTCTATCAGAAGATACAAATATTCCATCTGCACTATCTGAATCATATATTTTTAAAACCTTTCTTATTTTTACCATAGTTTCATATATTTCTTCATTACTCTTACCTTTTGCTATATGATCTATAACAGTTCCATTATCAACAGGTTTTATGCCACTCTTTTTATTTGGAACAAAGTTATTGTGTACTTTAGCTGATTCTATAAAAGTATCTTTCTTTTCTTGTATTTTCTTTGATGTATCAAAATCTGTTTTTAATACTCCACCCATCATGGATAACAAGGTTGTTCGTGTCCAATATCCATTTATTGCTTGTTGTTCCCAACCGTTTAAGGGCAATTTATCTAAAAAGGTAGGTATTGTAGGATAAAGTTTATGCCTTGGCAAAGGATGATAAAATTTAACATTTTGAGGTAAAAAATCAAGGAATTGTTTTTGGAAAGTAACTGATTTTCTGAGGAATTGTTCTTTTTCAAGTATGTCTTCTCCCATTCTTTCAAGTTGAAGACGAGTAAAATACCATGTATCTGCTATATTTTTTTGTTTTAAATACTCTTCAATAGAAGAAAAAATTCTAACATTAAATCCATTCATTTTCATTTTTTCAATGTAATGATGTGGCATTTGAAGTTCATTAGGAGCTATTAAATCAACAGTAACTTCTTTAAATATCTTTAAACCATTAACCTTTGAATGTACTGTTCTACCATGAAGCAAATCACCAACAAGTGCTATGTGTATATGGGAAGTATCCCATTTTTTTTGTTCTAAAAAGCTAAATTCATCGAGTATTTCTTGAGTAGGGTGTTCGTGTTTACCATCGCCACCATTAATGAAAGAAGGAATAGCAAGACCATTTCTTAAAGCAAATTCTGAAGTGGATTGTTCTAACCATTTACATGTACCTTCAAGTTTTGAACGAATAACGAAGATAGAATAGTCACTGTAACCAGTAAGCATGTTAAAAGTGTCTGCGTAACTTTCTTTTTTATTGAAAGAAGAATGAGAAGAATCAAAAATAGAAACTCTTGCGTTTCTGTGAAATCTTGCAGCATTAATGAAAGACTCTTTAGTTCTTGTACTCGATTCTATAAAAACAATATAAATACCAATATCTTTATTTTTAATTCTAAATTCATCGAGACTTTCTTTGTTTCTCCACTTTTCTTTTAATCTCTTTGTCTGCTGATAAAGAAACAACTGTTCTTCAACAGAAAAGTCATTAATTACTCCTAGCGATCTACCCAAGAAATCATTTTTCATATAGACACCTCCTAAAAATATTCTTTTAAAAATATTCTTTGTATATAATATACTATTTAATCTTTTTTAAAATTACGTAATTATAAATTTTTCATATATTTTATGTTAAAGTATTTGTTTCTTTTTAATATCAAAATTTTAAATTAAAGTGAAAATGTGTTATTATTGTATTAACTCAAACCTTGAGGGGGGGATCAGATTTGTTAAATATTAAAGAGTATGTTGTACCAAAAACATTAAAAGAAGCTCATGATCTTTATATGATGAGAAAGGATTCTGAACTTATTGGAGGTGGAGTATTTTTACGTTTATCTCCCCGGACAATAAACATGGGAATAGACTTATCAAATACAGAGCTTGATTTTATAAAAAATGAAGAAAACCATATAGAAATAGGAGGTTATACTTCGTTTCGAAAGATTGAAATGAGTAAATGTATAAATGAAAACTTTAAAAGCATAGTAACTGCTTTAAAAAATGTTGGAGGAGTTCAACTTAGAAATATGGTTACTATTGGCGGAAGTATATATCCAAAGTATGGATTCTCTGATTTAATAACTGTCTTACTTTCATTAAATACAAAAGTATATCTTTATGATAGAGAAGAAAATTTAGACACATTCTTAACTCAAAAAAGAGAAAGAAATATATTAAAAAAAATATCAATAAAAAAAGATGTTTTAAAAACCTCTTATCAAACATTAAGAAATTCTAAAAGCGACTTTGGAATATTAAATGTAGCTGTTTCTAAATTTGAAAAAGGATTTAAAATAACTGTTGGTGCAAGACCTGGAATTGCAAAATTAGCAATTGATGGTATGGAATTTATTTCTTCTAATATAAATGAAAAAAGTATTGAAAAATGTAGTGAAATAGTTGCAAATGAATTGAGTTTTGATACTGACATAAGAGCAACAAAAGAATATAGAAAAGAAATGTGTAAGGTACTTGTAAAAAGAGGATTAAAGGAAGTGATTTTATGAAAATAAATATAAAGATAAATAACCTAAATAAAACGTTTAATATTGATAATTATGGAATATCTCTTTTAGATCTTTTAAGACGCGAAGGCTATAAAAGTGTAAAAAAAGGTTGTGATACTGGAACATGTGGTGTATGCACCGTTTTACTTGATGGAAAACCCATACTCTCTTGTTCTTTGCTGGCAATAAAAGCAAATGGTCATGAAGTTACAACCGTAGAAGGCGTTAGTGAAGAAGCTAAAATAATTGCAGAATACATAACAGCTGAAGGTGGAGATCAATGCGGTTTTTGTGGACCTGGACTTGTGATGGCTATAATGGGATTAAAAAATGAAAATCTTGAAATAAACTCAGAAAGTGTAAAAGAATATCTTGCAGGAAATCTTTGTAGATGTTCTGGATACGAAGCACAACATAGAGGAATAATGAAGTATTTGGAGGTGGAGAAATGAAAGAAGTAAAAAAATCCATACCCAAAGTTGATGGTGTAGGTTTATTAATGGGAAAACCTGCTTATACTAACGATCTTGCACCACAAGATGCTTTAATTGTAAAAATACTTAGAAGCCCTCATCCTTTTGCAAAAATTATTTCTATAAATACTGATGAAGCACTTTCAATAGAAGGTGTTGAATGTATTTTGACTCACAAAGACTTCCCTAAAAAAATATTTACAAGAGCTGGGCAAGGATATCCAGAACCATCTCCTTATGATAAATTTGTTCTTGATGAATATGTTAGATACGTTGGGGATGAAGTTGCAGCAGTTGCCGCAATAAATGAAGAAGTTGCAGAAAAAGCTTTAAAAAAAATAAAGGTAGAGTATGAACTCTTTGAACCTGTTCTTGATTTTAAAAAAGCAAAAGATTCAAAAATAATTCACTTTGAGAAAGAAGCTCATTCAATGTTTGAAATAGGATTTAACCCCGAAAGAAATATTGCTGCTTCATACAATATGAATGTTGGCAATGTTGAAGAAGAATTAAAAAAATGTGATGTAGTTGTAGAAAGCAAATACTACACTCAACCACAAGCACACGTAATGCTTGAACCAATGGTTGCAACATCTTTTATAGACTATATGGGAAGATTAAATGTAATAACTGCAACACAAGTACCATTTCATATAAGAAGAATCTTATCAAATGTTTTAAACCTTTCAATAAACAAAATAAGAGTAATAAAACCAAGAATTGGTGGAGGTTTTGGTGGAAAACAAGCAATACATGGTGAGCCATACGTTGCAATGGTTACATTAAAAACGGGAAAACCTGCAAAAATTATCTATACAAGAAAAGAAGTATTTGAAGCTACTTATTCAAGACATGAAATGGAATTCAATATAAAAATCGGTGCAGATAAAGATGGACTCATAAAGGCTATTGATGTTGATGTTTTATCAAATACTGGAGCATATGGCGAACATGCCTTGACAGTCTTTATGGTTGCAGGATCAAAAACATTACCTCTATACAATAAAGTAAATGCCGTGAGATTTGGTGGAGATGTTGTTTATACAAACTTAACTCCAGCAGGAGCTTACAGAGGTTATGGTGCAATACAAGGAAACTTTGCACTTGAATCAGTAATAGATGAACTTGCAGAAAAACTAAAAATATCACCAGTTGAAATAAGAACAAAAAACATGATTAAAGAAGGTGAAACCTCTCCAATATTTAAAATAATGGGAGAAGGACGTGAAGGCGTTGAAATGAATATACAAAGTTGTAAGTTAGATTACTGTGTAAAAAGAGGAATGGAATTAATCAAATGGAATGAAAAGTATCCTAAAAAAGCATATGGAAACAAAATAAGAAGTGTTGGAATGGCAATAGCAATGCAAGGCTCTGGAATTGCCGATATAGATATGGGATCTGCAATTTTAAAGCTAAATGATGATGGTTCCTTTAATTTATTGGTTGGAGCTACCGATCTTGGAACCGGAAGCGATACAATCCTATCACAAATTGCAGCAGAAACACTTGGGGTTTCAACGGATAAAATAATACCTTATTCATCTGATACAGACTTAACTCCTTTTGATACAGGAGCTTACGCCTCGAGTACAACTTATGTATCTGGAAATTCAGTTAGAATTGCAGCAGAAAATATGAAAAAAATGATTCTTGAAGAAGGCTCTAAAAACTTAGGAACAGATAAAGTTCATTTTAATGGTGAAGAAATAATAAGAGATGACAATAAAAATAAAATATCCTTAAAACAACTATCAGAACTACTATACTATTCAATGAATCAAAAACAATTAGTTGCTGATGGATCTTATGTTGGAAAAAAATCACCACCACCTTACATGGCAAGTTTTGTAGAAATAGAACTCGACACTGAAACTGGAAAGGTTGAAGTAATAAATTTTGTTTCTGTTGTAGACTGTGGAACTCCAATAAATCCAAATCTTGCAAAAGTTCAAGTTGAAGGTGCACTAGTACAAGGAATAGGTATGACATTGTATGAAGATATAAACTTTTCAAATGGAAAAATGAGAAATAATACCTTAATGACTTACAGAATACCAGATAGACGCGATGTAAAAAAATTAACTGTTGAATTTGCAGAAAGCTATGAACCAAGTGGACCATATGGTGCTAAATCTGTTGGAGAAATAGGAATAGATACACCTCCAGCAGCAATAGCAAATGCAATCTTTAATGCAACTGGTGTAAGAATAAGAAGCTTACCAATAACTCCTGAAAAAGTCTTTAAAGCTATGGAGATGAAAAAATGAAGTATAAACTAAAGTGTATCAGTTGTGGACAAACATTTGAAAAAGATGAAGTTGAATACACGTGTCCAAAATGTGGAAATAGACTTGGAACGCTTGAAGTTATTTATGACTATGATTCTATAAACATCAAAAAGTCTGATTTTGAAAAAAATGCACCACTTTGGCAGTTTGAAAAGATACTACCAATTGAAAAAAATAGTTATAAAACTCATTTATACGTTGGTGGAACACCTTTATACAAGTTTAAAAACTTTGATGGAGTTGACTTATTAATAAAATACGATGGTTCAAATCCAACGGGATCATATAAAGATAGAGCATCAGCAATTGCTGTAACAAAAGCAATTGAAAAAAATTATGATACTATTTACTGCGCTTCAACTGGGAATGCTGCAAGCTCTCTTGCAGGCATTTCTGCACCAACAAAATTAAAAACACATATATTTTTACCAGCATCGGCACCAATAGCAAAAATATCTCAACTCTTTGTATATGGTGCAAATGTTATTGCAATAGATGGAAGCTATGATAAAGCCTTTGATATTTCTCTTGAAATAGGCAATGAAAAAGGATGGTACTGTAGAAACTCAGCAATAAATCCTTACTTACTCGAAGGGAAAAAAACTGGAGCATTGGAAATAATAGTTCAAAACGATTTCATTGTTCCTGAATATATTATGGTGAGTGTTGGTGATGGAACAGTAATAAGCTCTCTTTATAAAGGTTTTTATGATTTTTATATGACTGGAATAACAAATAAAATCCCTAAAATAATAGGAGTTCAAGCAGAAAATGCTGCATCAATAAAAAAAGCATTTGAAGATGGAGAACCATTTAAACCACATGATTTAGAAGCAAAAACAATTGCAGATAGTATATCTGTTGGTAAACCAAGAGACGTCATAAAAGCTTGTAAATATGTAAAAAAATCAAAGGGAACATTTATTTCTGTTAGTGATAGTGAAATAATAGAAGCAATTGGTGAACTTGCTGTAAAAACAGGTATCTTTTCAGAACCAGCAGGCGCAGTGCCTTATGCTGGATTTAAAAAATTGAATAAAAATAAATTCTTTAATGGTAGCGTTTGTATTGTAGTTACTGGAAATGGTTTAAAAGATATAAAAGCAGTTGACTCTTTTGTTGATTTGAAGGTTTATAAACATAAAGAAGATATAAAAATATAAAACATCGAAAGATGTTTTATATTTTTATATGTTATAATATAAATAAAAGTTATATATTTATTAAGAAAAAAATTAAGGAGTTGATTTTTTTGTTCTATGATATTATTAAATTAATAGAAAACAAAAAATATAATAATGCTTTATTAGAAATAGAAAAAATAAACAATAATAAATGGGAAAAATATAATTTGAAAGGTTTAATTTATTTTTATCTAAATGAATTTGAAAAATCAAAAGAAGAATTTGAAAAAGGATTAAAAATAGATCCAATAAATCCAGATTTATTATATAATTATTCACACGTATTAATTTCATTAGAAAAAGAATTAGAAGCATGGAAATATTTAATGAGAATAAAAGAAAAAGATTGGTCCATATATGATATTTTAGGAGATATTGAATTTAAAAACAGATCAAAAACATCTGCAATAAAATTTTATAATAAAGCATATGAATTAAATAAAAAAAATGAAATGGCAAAAAAATTATTAGAACAAAGAAAAAAAATTAAAAAAAATATAAAAGTATCTTTTTTTTGTTCACCAGGTTTAGAAACATTCGTAAAACCAATAGCCCGAGAAATGGCGTATGAATACAATGTAAATTTAATAATTAGTAATAATCCAGAAGAGATTAAAAAGGAAATAAAACGATCTGATATTATATGGCTAGAATGGGGAAATGAAGTTGCAAATTTTGTAACTAATAATGTTGATTTAAAAGATAAAAAAGTTATTTGTAGAATACATGGTTATGAAGTATTCACTGATATCCCAAAACAGATTAAATGGGATGTTATTGATCATGTGTTTTTTGTTGCAGAGCATAAAAAAGATTTGTTTTTTAAAAGATTTGGAAATATTATTAATCCTAAAAAGATTAGTATATTAAGAAACGGTATAGATTTAAATAAATTTCCTTATTTCCCCAAAAAAACACCAGGAAAAAATCTTGTTATAATAGGAAATATTAATTATAGAAAGGGTTTTGAAATATTATTAATGGCATTTAAAGAATTAATAAAAAAAGATGACAGTTATAAACTATATGTACGGGGTAATTTTCAAGATTTACGATATAAAATGGCTATTGAAACAATGATAAAGGAAATGAGTTTAGAAAAACATATTACTTTTGTTCCTCGTATTGAAGATCTTGGAGAATGGTTAAAAAATATGGATTTTATTTTATCTACTTCTATAGAAGAATCTTTTCATTCTACCGTCGGTGAAGCAATGGCTATTGGCTTAAAACCCATTATACACGCATGGAAAGAAAGCAGAAAAATATGGCCAGAAGAAAATATTTTCAATGATATTGATGGATTTTTAAATTTAATTTTAAATGCTGATTATAACTCCGAACAATATAGAAAATTTATAGAAGATAATTATACTTTTGAAAAACAAATATCTCAAATAGAAAAAACATTTGAAAAATTAGAAAAAGATATAAAAAAAGATACTTATACTTTTGAAGAAAAAAAAATATTGAGATTTACTTTTTCAAATTCTTCAGAAAAAAAATATATATGGTATGTCATGAATGAATTTGAAAAATTTCAATATGGTGGTGGAGAAAGAGTTATTGCTTCATTTTCGAGAGAAGCAAAGAAATATGGATATAAAATTATACTTATCTCAAATAATTATTCAAAAAAATCACTTGATATTATGAAAGATATAAATTTTAAAGGAGAAATATTAATTATAAATACACCTCTTTCGGAATATCCAGAAGACATTGAAAAAATTATGGATTTTGAAAAAGAATTAAAAAACATTAAAAATATATTCCCACCTGAACTCGTAATAGGACATCCTGTAACAACAAGTTTATGGCTTGAAAAAACAAAGAATAAATTAAATTTAAATATAAAGCATTATTTAACAACAATAGTAAATTTCTTTATTGGTAATCCTAATAAAAATATTAAATTTTATAAAGAAAATACTAATAACATTTTATTTATTGATGCTTTAACAAAAGAATATTTAGAATTAAAATTGGGAATAAAAAATTATAAACCTGATAGTCATTATCATTATGTTGGTGTTCCTTATTTTAGTATTAACAAATTAAAAAATATTTCTTTGAATAACAATTTTGACGATAAAATTAGAATTATAACCTACCCAAGACTTGTTTATACAAAATCATTTCTTTTAAATGCTGTAGAAGATATGGCTAAATTAATAAATAACGGATATGAATTTTATGTAAATATTGTTGGAAAAGGTGGGTTTAGTAATATTATGAGAGAAATAATAAAATTTCATAGAGTAGAGAAATTCATAAAAATAATACCCATGGAAAAAATTGATTTTAGATTTGTTTCTATTCATGATTTAGCTATTAATACAGGAGTTTCTGCAATTGAAACATCATATCTTGGAATTCCAACAATACACGCAGATACAACTTTATGGTTTAATTTTATAAATGGTTATACAGGATATGTAAATCCTAGGGGAATATTAGGAAAAGATTTCAAATTGAAAGACCCCACTTTTGACTTTTATAAGTATAATACATATTTTGACATTATTAAGAATATACTTGATAAAGAAAATCCAAAAAGATATCTTAGAAATGTTAGTAAAGATGTAAGAAAAAATACAATAAAAGATCTCGATTTTTATGATGAAAAACAGGTATTTAAAAATATATTAAAAAAATCAAATTTATTGAAAGGAGAATTGCTATGAAAGTAGTTATTCTTGCAGGAGGTTATGGTACTCGTTTGGAAGAAGAAACCACAAGAATTCCAAAACCAATGATTCAAATTGGAAGAAAACCTATATTATGGCATATTATGAAAATTTATTCTTATTATGGGTATAATGATTTTATAATCTGTCTTGGTTACAAAGGTTACATAATTAAAGAATATTTTATAAACTATCATAAACATATGAGTGACATGACCATTGATCTTTCTTCTGGAAATATAGAAATACATAATTCCTATACTGAAAATTGGAAGGTTACACTTGTAGACACAGGACTTAATACAATGACAGGAGGAAGAATTAAAAAAGTAAAAAAATATATTGGCAATGAAACATTCATGCTTACATATGGTGATGGAGTTGGTGATGTAAATATTAAAAAACTGGTAGAATTTCATCGCAGCCACGGAAGATTAGCTACAATAACAGTTACTCAACCTATAGGTAGATTTGGTGTTTTAGATATAGATAATAATAATGTAGTAAATTCATTTATAGAAAAACCCAAAAGTGATAAATCAAAGATAAATGCGGGCTTTTTTGTTCTTGAACCAGAAGTTATTGATTATATAGACGATAAACATACTGCATGGGAAAATGGTCCTCTCGAAAAATTAGCCAGAGAAAAGAATCTAAAGGCTTATCAACATAATGGTTTCTGGAAACCAATGGATACATTAAGAGATAAACATGAACTGGAAAATTTATGGAATTTAAAAAAAGCTCCATGGAAAATATGGTAAGGAGGCTATAATATGCTTTTTGAAAAACCATTATTTGTTTTTGAAATGGCAAATAATCATCAAGGTAGTGTTGAACATGGTAAAAGAATAATTCATAAAATTAAGAAAGTAATTAAAGAGTTTGAAGATGTTTTTAATTTTGCATTTAAATTTCAATACAGAGATTTGGATACATTTATCCATCCAGATCACAAGGAGGATTTTTCTTATAAATATATAAAAAGATTTGCTGAAACACGACTTTCAGAAGAAGATTTCCTTGAATTGAAAAAAACAGTTGAAGAAAATGGATTTATATCCATGTGCACACCTTTTGATGAAAAATCCGTTGAAAGAGTTATATCACATAATTATGATATTATAAAAATAGCCAGCGCTTCATTTACGGATTGGCCATTATTGGAAAAAATTACCCAATATGATAAACCGGTAATTGCATCTACCGCAGGATCCTCATTAAATGATATTAGAAACGTTGTTTACTTTTTTAAACATAGAAATAAAGAATTAAGTATTATGCATTGTGTTGCTTCATATCCAACCCCTAAAGAAAAACTAGAATTAAACCAAATTGATTTATTAAAGAAAGAATTTTCTGATATAACAATAGGTTTTTCAACTCATGAAGATCCTAATAATTTTGATGCCATAAAGATGACTATTGCTAAAGGTGCTTGGATATTTGAAAAACATGTTGGTGTAGAAACAGAAAATATAAAATTAAATGCGTATTCTGCTAAACCAGAACAGATTTATAAATGGCTGCTTTCAGCCAAAGATGCATTTATTATGAATGGAATAATAGGGAAAAGATATGAATTCCCAAAAGCAGAACTTGAATCGTTGCATAATTTAAAAAGAGGAATTTATGCAATAAGGGACATTAAAAAAGGAGAAAATATCACCTTAAATGATGTGTTTTTTTCAATCCCGCGTCAAGAACAACAATATTCAGCAAATGATATGTCAAAATACAAAAACTTTATTGCAATTGAAAACATAAAGAAAAATGATCCTATAGAAAAAAATAACGTAGAAATAAAGGACTTATATCCTGAGATAAAGAACTATGTAAAATCTATATTAGATATTGTAAAAAAGAGCAATGTTGTAATACCAGAAAATAGTTTATGTGAACTTTCACATCATTATGGATTAGATAAATTTAATGAATATGGTGCAACTATAATCGAAATAATAAACAGAGAATATTGTAAAAAAATAATAATATTATTGCCTGGTCAAAAACACCCAACACATTATCATAAACAAAAAGAAGAAACGTTCAATGTATTATATGGAGATTTCACAATTAAAATTGATGATAAAGAAAAAACTTATAAACCTGGTGATGTTATCGTTGTAAAAAGAAATAAAAAACATTCATTTTATAGCAAAAAAGGTGCAGTTATTGAAGAAATCTCAACTACTCATTATAAAGACGATTCTTATTATGATGACGAAAAAGTTCAAAGTAACAAGCATAGAAAAACAAAAATATATTTAACAGAAGATATATTATCATATTAAAGGTGATCTAATGAATTATAAAAAAGAATTGAAAAAATTATTTATAAAAGAATATATTCCAAATAATAAAAAATATTCTATTCATGAAATTATAAAAAATAAAAAAATTGTTTTATATGGTTTTGGAAGTGGATGTATAACTTTTTTTACAATTGTTATAAATAGATATAAAAATATTAAAATAGATAAAATTATAGATAAAAATCCATCAAAGAAAACTTATAATAACATTCCTGTTATTAAACCGGAAGAATTAAATATAGATATTCCAGAAAATTATGTAATTATCATTACTATTGGTAAAAAAGAATATTATAAAGAAATAGTTAATACTTTAAAAAATTTAAAGTTAAATAATATAATTTTTGTAAATGATATTTATGAATATCACTTACATTTTACTAATAAAGAAATAGAAAAAAAAGGATTTTATTTTTATTTAGAAAATAAAGAAAAAATATTAAAAACATTTAATTATTTTAAAGACGATTTAAGCAAAAAAATATTTATAAAATATCTTAAAACTCATATATATAAAATACCTCAAGTTATACCAAATGGCAATATTAAAAACCAATATTTTCCTTATGATATAAAACTAAATTATAATAGATTCATAAATTGTGGTGCCTATAATGGTGATACCATAAAGCAATTAAATCAAAAAATTGGAAAGGTGGAAACAATTGTATGCTTTGAACCCGACAAAAATAATTATTCAAAATTAATTGATTATCTTAATAATAATAAAGAAAATATAGCAGAATATATATTAACCTCACCATGTGGTGTATATTCTGAAAATAAAATACTTTACTTTGATGAAGGAAATAATACAAATAGTAGAGTAAATAAAAATGGAAATGTTGCTATACAGGTTATAAAACTTGATGATGTTTTATTAAATTATAGCCCAACACTTATACAAATGGATATAGAAGGATCTGAATTAGAAGCATTATATGGTGCAAAAAAAATAATAAAAGAAAACATTCCTGATTTATCTATATGTGTTTATCATACTCCGGAACATATGTGGGAAATACCTTTATTTATAAAATCATTATATGGAAAATATCAATTATATTTGAGAAATTATACTGGATACATAAGTGAAACTGTGTTATATGCAGTTAAAGGAGAATAATTTTATGTTTAAACCGTTAAAAACAAACAGGGGATTAAATATTAAATCATTAAAAAAATTAGTTAAAAACAAAGAAATATATATATGGGGTACCGGACAATTAGGAAGATCTTTAAAACGCATGTTAAATAAAAATAATATAAATATTTTTGGTTTTTGCGATTCTAATAAAAATATAGAAAATTCAAATATAGATACTTCAAAAGTATATTCACCTGAAAAAATAATAATAAAAGCACAAAAAAATGAAGCATTTTTAATACTTGCAGCGGCACAATCCAGACATGAAATGGAAAAAATTTGTATAGATAATAATTTAAATAAAAATGAAGACTTTATTTCATATATAAAATTACAAAGACCCGAAGCTATAATTGAAATATCTGGAGACTGTAATTTAAATTGTAACTTTTGTCCTCAAGGAAATCTTAAGTTAAAAAAAGGTATAATGAATTTTTATACCTATAGAAAAGTTTTGTCTAAATTAATGTTGGATATACCAAATTTATTTAATATACAATTATCTTTATGGGGAGAACCATTATTAAACCCAGAAATTGATAAAATCATTACATTATCAGAAAAATATATTCCAGTCTCTATACAAACAAACTTACAAATAACTAAAAACATAGAAAAATTAATTAAATCTAATCCAACACAAATTATAATTTCTGTTAGTGGTTTTGATAAAAATTATTCAAAATATTATGATAATGCTTCGTGGGATACTTTTAAGAATAATGTTGATTTTTTATATAATTTAATAAGTTTATACAAATCAAAAACACAAATTTCATTTCTATTTCACTTATACAAGGATAATAGAAATGATTATGAGAAAATTAAAGAATATTTAAAAAAATATAATTTTAAAGTATCTCCATCATGGGCATATTTAAATCCCTATAATCACCTGCTTTATTATCTTAAATATGGTATTATAAATTATAAAATAAAAAATGTATTGAATTCACTTGCATGGGATTTTGAAAAAATAATACCAATTATAAAAAATGAAATAGGGAAGCCCTGTTTATGCCAACGATTATTTCCTATAATAAACTGGGATTTGTCTGTGCTACAATGCCACTTATATTATAATAAAATACATAATAATTACCTTGATATTCCATATGATGAATTATTGAAATTGCGACATAATCAGCAAATTTGTAAAAAGTGTCAAAAATATGGACTACATAGATTAGATATTGATATTTTACTAAGAAAGTATTCAGAAGAAAGAATACTCGGGAGGTTAGAAAATGAATAATTTTATATTTCAAAATCCAACAAAAATAATATTTGGAAAAGAGACAATAGAAAAAATAGGTGATGAATTAAAGAAAAATAATATAAAAAAGGTATTAATTCATTATGGTGGTGGTTCAATAAAGAAAAATGGTGTTTATGATAAAGTAGTAATTTCATTAAAAGAAAATAATATAGAGTTTATAGAGGTTTCTGGAGTAAAACCTAATCCCAGACTCTCAAAGGTAATCGAAGGAATTGAATTTGCAAAGAAAAACAATGTTGATGGAATTCTTGCTATTGGTGGTGGAAGCGTTATTGATTCTGCTAAGGCGATTGCTGGTGGATTTTTCTATGATGATTATATTTGGAATGCCTTTGCTACAAAAAATAGATTTAAAAAAGCTTTACCATTATTTGTAATTCTAACACTTTCTGCAACGGGTTCTGAAATGAATGGAAATGCTGTGATAACGAATGAAAAAACAAATCAAAAATGGACAACTTCAGGACTTGCATTATACCCTAAGGTATCTATTATAGATCCTACCGTACAATTTTCGTTACCTAAAAAACAAACAATAAATGGAGCTGTTGATGCAATAAGTCATGCAATGGAATTCTACTTTGATGGAACAAAAAATAATGAAATACAGTTACAGTTAGCTGAAAGTATAATTAGAACTATAATTACAACCACTGAAATATTGTTAGGTAATCCCGAAGATTATGACGCTAGGGCAAATCTTGTGTGGAGTGCTACTTTAGCATTAAACGGACTTCTTTCTACTGGAACAAAGGGAGGAGATTGGTCAAGCCATGAATTAGAACATTCTCTCTCTGCACTTTTTGATGTATCTCATGGTGAAGGATTAGCTATCATCTTTCCTGCATGGCTAAAATATAATTATAATGAACATATAGAAAGATTTGATAGATTTGCATTAAAAATATTTAATATAGACACAGGAAATCCATCAATTGATGCAAAATTGGGTATAGAGACATTAATAGAATGGTATAAAAAAATTGGCCAGCCCACAACATTAAAAGAAATTGGTATTACAGAAAATAATATAGATAAACTTGTAGAAAATGCAACTCAAAAAGAATATATAGGGAGATTAAAACGATTGTCAAAAGAAGATATTATAAATATATATAAATTAGCCTTATAGAATGGAGGAAAATTATGTCAAAACAACATTCAAAAGTTCATGTAAATTATCATATATATACAGTTAAAGATGCAAAAGAAATGTTTAAGAATAGAGATATATACATATGGGGAGCTGGACAAAAAGGAAGAGGCTTTTTAAAAGCTTTACAAAGAAATGGTTTTAATGTTAAAGCTTTTCTCGATAGTTCTCCTTTACTTATTGGAACAACCTATGAAAATATTCCAATACTAAATCCAATTGATGTTTTAGAAAATAAAAAATTATTGAATAATGCTTATATTCTTACTGCCAGTGTTGATAAAAAAAATAAAGAAATGTTTAAAATATGTGAAAGTTATGATTTAAAAAAAGGTCAAGATTTTATAAATATTCAAAAATTCACACCATATTATCCAGTAATAGAAATTTCTGGAGCATGTAATTTAAAATGTATTAGTTGCCCAAGAGGTGATTCAAGAAATAGGTTTAAAAAAAATGGATTTATGAGCATTGAAAATTATAAAAAAGTAATAAAAAAATTAATCAAAGAAATGCCATTTTTATACCTTGTTGATTTATATATATGGGGAGATCCATTATTACACTCTGATTTAGATAAAATAATAAAAATTAACAATGAATATGGTATTGCCAGTGGTATTTCAACAAATTTAAATTACGGGAAATACCTTGAAAAAGTAATAAAAGCCAAACCACCACAAATCAGAATTTCTGTATCAGGTTATGGACCTGAGCACTATGAAATAACTCATACAGGTGGAAAATGGGATGTATTTTATAACAATCTTTTAAAATTGCATGATTATATAGAAAAATATAAAACCAATACAATAGTAGAAGTATATTTTCACGTAAATAAAATAAATATTGGAGAATATATAAAAGTAAAAGAATTATGTGATAATCTTAATTTTAGACTTAATTCAACCATTTCCATGGTATTTCACGATTATGCATTAGAATATGTTGAAACAGGTAAATTACCTGAAAATGCTAAAAAAGGTACAGAATTAATGCTTGTGTCCCTCGATGAAATGTTGGAAGATGCAAAACGAGAAAAAGAGAAAGATTGTCTTTTAAAAAGAATTGTTCCAGTAATAAATTGGGATCTTTCTGTAATGCCGTGTTGTAATTATATATATAGAAAATTGGCGGATAACTATCTTGAAATTTCATTTGAAGAAATTATTAAATTAAGAGAAGAACATCCGCTATGTAAAACATGTCAAAAACATTCTTTACACAGATATTTTAATCCGTTATATTATATAGAATTAGTAGAAAAAAAATTAAAAAATATTTAAAAGTTTTAAAAAGTGAAAAGAATGAATAAATGTCGTATATAGCATTTATAAGGATTTAAATTTTTTGAAGTAATGAAAATAAAGTCTTCATTATAAAATTTATCTTACTAAAATGGAGGAAAATTATGTCAAAACAACATTCAAAAGTTCATGTAAATTATCATATATATACAGTTAAAGATGCAAAAGAAATGTTTAAGAATAGAGATATATACATATGGGGAGCTGGACAAAAAGGAAGAGGCTTTTTAAAAGCTTTACAAAGAAATGGTTTTAATGTTAAAGCTTTTCTCGATAGTTCTCCTTTACTTATTGGAACAACCTATGAAAATATTCCAATACTAAATCCAATTGATGTTTTAGAAAATAAAAAATTATTGAATAATGCTTATATTCTTACTGCCAGTGTTGATAAAAAAAATAAAGAAATGTTTAAAATATGTGAAAGTTATGATTTAAAAAAAGGTCAAGATTTTATAAATATTCAAAAATTCACACCATATTATCCAGTAATAGAAATTTCTGGAGCATGTAATTTAAAATGTATTAGTTGCCCAAGAGGTGATTCAAGAAATAGGTTTAAAAAAAATGGATTTATGAGCATTGAAAATTATAAAAAAGTAATAAAAAAATTAATCAAAGAAATGCCATTTTTATATCTTGTTGATTTATATATATGGGGAGAGCCTTTATTAAATCCAGATTTAAGTAAAATAATAAAAATTAATAATGAATATGGGATTGCTAGTGGAATTTCAACAAACTTAAATTACGAAAAACATCTTGAGAAAGTAATAAAGTCTAAACCTCCACAAATTAGAGTTTCTGTATCAGGTTATGGACCTGAACATTATGAAATAACTCATACAGGTGGAAAATGGGATGTATTTTATAACAATCTTTTAAAATTGCATGATTACATAGAAAAATACAAAACCAATACAATAGTAGAAGTATATTTTCACGTAAACAAAGTAAATATTGCTGAATATATAAAAGTAAAAGAATTATGTGATAATCTCGGTTTTAGAATTAATTTAACTATTTCAAGAGTTTTTCACGATTATGCATTAGAATATGTTGAAACAGGTAAATTACCTGAAAATGCTAAAAAGGGAGCAGAATTAATGCTTGTATCTCTTGACGAAATGTTAGAAGATGCTAAACGAGAAAAAGAAAAAGATTGTCTTTTGAAAAGAATCGTTCCAGTAATAAATTGGGATCTTTCCGTAATGGCATGCTGTGATTATATATACAGAAAATTAGAAGATAATTATCTTGAAACTTCATTTGAAGAAATTATCAAATTGAGAGAAGAACATACGTTGTGTAAAACATGTCAAAAATATGCTTTACACAGATATTCTAATCCATTATATTATACAAAGTTTGTAGAGAAAAAAATTAAAACGTATACAAAACTTTCAAAAGATGAAAATAATGCGTAAATGTCGTATTTGCGGAAATGAAACTATAAATTTGTTTAAAATAGAAAATATGCCTTCACGATCTCAATTCTTCCCTACAGAAGAAATTATTAATATGGACAAACCAATAACCTTAAATATAGTTCAATGTAGTAAATGCGGGCTTGTTCAACTTGATAATGAACCCGTTTCATATTATAAAGAAGTTATTAGAGCTACATCAGTTTCATCAAAAATGAAAAAATTTAGATTACATCAATTAAAAACATTTATTGAAAAATACAAATTATACAAAAAAAAAGGTATAGAAATTGGTTGTGGAAATTGTGATTATTTAGATATATTAAATGAATTAGATATTGAAATATATGGAATAGAATTTTCAGAAAAAAATATAAAAATATGTAAAGAAAAGAATTTAAAAGTTTTTAAGGGTTTTATAGAAAATGAAATTTATAAAATTCCAAAAAAACCTTATGACATTTTTTTTATTTTTAATTATCTTGAACACATACCAAATCCTATTATTTTTTTAAAAGGTATATGGAACAATCTTACAGAAAATGGAATAGGAATAATAGAAGTCCCTAATTTTAATATGATATTAAAAGAAAAAATGTTATCTGAATTTACCATAGATCATCTTTCATATTTTACAAAAAACACATTAGAGCTTACATTAAAATTAAGTGGATTTGAAATACTTGAAATAAATGAAATTTGGAATGATTATATATTATCTGCTATTGTAAGAAAAAGAAATTTAATTAATGTAGAGGATTTTGATAATTTTAAAACTATTTTAAAAAAGAATATTGATGATTTCATAAAAGAAAATAATGATTTTGCAATATGGGGTGCAGGACATCAAGCATTGGCAATTATTGCTATGACTAATCTAAATAAAAAATGCAAATTTATTATAGATTCTGCATCATTTAAACAAAATAAGTATACACCAGCTACTCATATAAAGATTGTTTCACCTGAATATTTAAGAAAACATAATGTTAAGTCGATATTAATTATGGCAGGTAGTTATTCGGATGAAATTGCTCAAATATTAAAAAAAGAATACCCGGATATTAAAAATTATATATTAAAGCAAAATAAAATTATAAGAAATAACTGATTTATTGTTATACACGCGGAGGTGTAAATATGGATAAAAAAATCAATTATAAAGTTCAGAAAAATGAAAGTATGAAGAGAAATCTTTTAAAAGAAACAAAACCATATGTATATGAAAAAATATTAAAATTTGAAGAAAAAGTAAAAAAAGGAGAAAGTATAGCAATAATACAATTTCAATATAATTATGCATGTAATTTTAATTGTGCTCATTGTGGTATTTCTCAATTAAGAAAACCTGAAGCACGCAGTTTCACCCCAAAAGATGTTGAAGAATTATCAAGGCAGGCAGACGAAATGGGACTTGCACATTTTGTAATTACAGGTGGAGAACCTCTTGTTTTTTCTGATTTAGATGATGTTATTAGAGCTATTGATCCTAAAAAATTTTATATATCTCTTGATACAAATGGATGGTTTTTTGATGAAGAAAAAGCATTTCATTTAAAAGAAATAGGTGTAGACAAAATACAATTAAGTTTAGATAGTCTTGATGAAAAAGAACATGATGAATTTAGAAGAAAACAAGGTTCACATGAAAGGGCTTTAAGAGCTATAGATGCTGCAAAAAAAGCTGGATTAAATATTATTATTCAAACTGTGGTTACAAAGCAAAGAGTACATTCCCAAGAATTTGAAAATTTTCTTAAATTTCTAAATTCAAAAGACGTTGGTGTGTTTATTACATATGCTAAACCAGTTGGAAATTGGGAAGGTAATTATGATGTACTAGTTACACGTGAAGATATGGAATATGTAAGAAATTTAGAGAAAAAATATAATGTTTTTACACATTTAACTCCAGGATATGGTTTGGATCTAGGTTGTATTGCAGTAAAAAGAATGATTTCTGTTACTCAATATGGTGAGGTAATGCCATGTCCATATATACATGCATCATTAGGTAATGTTTTCGAAGAACCTTTAAAAGATATTATAGAAAGAGGATTGAATATAAAATGGTTTGGTAAATACGTTGATACATGTCTTATTGCAGAAGATAAACATTTTATTGAAGAATATGATTCAAAAAGAATTTACGGAAATAAACCTTTACCAGTACCATGGTTCAAAGTGTTTGATGAAAATGATTTCATAAAAAATGAAAAGGAATTAAAAGCTGAAAAAACAAAAAACGGATATTTAAGGTGGAGGAAATAATACATGTATAAAAATCCTTTATCAGAAGATCTTGATTTTATAATAAAAAAATTAGAAAAGGATATATACAAATTAAAAAATGAAAATATTTTTATCACAGGTGGTACTGGTTTTTTTGGTAAATGGTTTCTTGAAACATTGTTATATGCTAATGAAAAATTAGATCTTAATATACATATAGGTATATTATCTAGAAATCCCGAACGATTTAAAAAGTTATATCCACATTTAAATGATGAAAAATTTATTACTTTTTATAAAGGAGATATTAGAGATTTTAAATTTCCTGAAGAAAAATTCTCTTATATTATCCATGGTGCCAGCGCATCAGCAGAAGGGTGGTTTCGTGGAGATAGCCAAATATCTCGATTTAATATAATAACTGATGGTACAAAAAGAATTTTAGATTTCGCTAAAAACTCAAAAATTAAAAAATTTTTATATATGAGTTCCGGTAAAGTTTATGGAACTCATCCTATTTTTTATGATAAAATCCCTGAAAATTATTGTGGAAATTTATGTTTGGATGATCCGAATGCTGCATTATCAATAGGTAAAAAAAGTGCAGAATTTTTGACATTACAATATTCAAAAGAATATAATTTCAACGTTGCTATAGCAAGAGGCTTCGCATTTGTTGGACCTTATCTTCAATTAAATCTTCATTATGCAATAGGAAATTTTATAAGAGATGCTATAAATAATAAATCCATTATTATAAAAGGCGATGGCACTCCTATAAGATCTTACTTATATGCTGCAGATGCTATTATATGGTTTTTAAAAATTTTATTAAATTCAAAAAATATGCGTATTTATAATGTTGGATCGGAAAAAGATTATACAATAAAAGAAATTGCTGAAATTGTTTCAAAATCTGTATCTCCTAAAGTGGATATAATAATTAAAAAGTCAAAAATCGATGATAATGTAGATAAATATATTCCTTCTGTTGAAAAAATAAAATCAGAACTCAATGTAGATGAATATACAGACATATATACCTTAATAATGAAAACCATAAGATTTTATAAAGAAAGAGGTTGATAAAATGATAAAATTATCTGATTATGTTTTTAAGCTTATTTCCAATCTTGGAGTAAAACACGTTTTTATGTTTCCAGGAGGAGGATGTATGCATCTTGTGGATTCACTTGGAAAAAATAAAAAATTAAAATATATAACAAATCTAAATGAACAAGCTGTTTCTATAAGTGTTGAATCCTATGCAGAAGCAACTAATAATATTGCTGTTGGACTAGTTACAACTGGACCCGGAGGAACAAACTCTATTACTGGCGTAGCAGCAGGATGGGTAGATTTCATTCCAATGTTGATGATATCAGGTCAAGTAAAAAGAGCAGATATGATTGGAAATTCTGGTGTAAGGCAAAAGGGATTTCAGGAAATAGATATTATTTCTCTTGTAAAACCTATTACAAAATATGCTGTTACTGTAATGAATCCAGAAGATATACGTTATCATCTTGAAAAAGCTGTATATCTTGCAAAAAGTGGAAGACCTGGCCCAGTTTGGATAGATATACCTCTTGATGTTCAAGCTGCTATTATAGATGAAAAAAATCTAAAAGGATTTATACCTTCTGAAGAAAAAAAGAATAATAATTTAGAAATAGCTATTGAAAAAGTTATTGAATTAATAAAGAAATCAAAACGCCCTGTTATTTTAGCGGGAAATGGCATAAGACTTGGAAATGCTGAAGAATTATTTCAAAGTGTAATCAGAAAATTAAATATTCCAGTATTATTAACTTGGAAAGTTATTGACTTTTTAGATGAAAATGACCCTCTAAATTTTGGAAGGCCAGGGGCTATTGCATCAAGATATGCAAATTTTATCCAACAAAAATCCGATTTATTTATTTCCATAGGTGCAAGATTGGATACAGGTCAAACAGCATATAATCACAAAAATTTTGCACCAAATGCTAAAAAAGTAATTGTTGATATTGATATAAATGAGATTAATAAACTGAATATGGATATAGAATTAAAAATAGAAGCAAACGCTTATGATTTCTTAGAAATATTAAACAAAAAAATCCAAAATATCACTTTTGAAAAAAAAGAAAAATGGATTAATTTCTGTTCAGAATTAAAAAACAAATATCCTATTATTTTAGAAGAATATTATAAGGAAAAAGATTTTGTTAATCCTTATGTATTAATTGATATTTTATCTCAAAAATTAACAGAAAAAGATGCGGTTATTCCTGGAAGTTCAGGAATATGTAGCGAAATTACTATGCAATCTTTCAAAGTTAAAAAAGGACAAAGGGTATATAATAATGAAGGTTTTGGATCTATGGGATTTGGATTACCTGCTTCTATTGCGGGAACTATTGCTTTAAATAGAAGAACTGTTTGTATAACAGGTGATGGTGGAATTCAAATGAATATTCAGGAATTAGAAACGCTGAGAAGATTAAACTTAAACCTTAAATGTTTTGTCCTTGATAATAATGGATATGGATCAATTGTTAATACACAAAATAATTATTTCAAGGGTAATTATGTAGGAAGTAATGAAGAAAGTGGTTTAACTTTACCTTCTATGGAAAAACTTTCTAAAGCTTATAATTTGAAATTTTATGAAATAAAAAATAATGATTATTTGATTAAGTATATTGATGAAATATTAGAATATAATGGTCCCGTTATATGTAATGTAAAAATACCAGAAACCTTTACAACAATGCCAAGAACAAAATCAAAAGTAGAGAATGAAAAAATTATTACATTACCAATGGAAGATCTATGGACTTATCTTGATAGAGAAGAATTCAATAAAATAATGAGCTTTTAAGGAGGCAGTTATGTCCTATAAATATTTGTTTTTTGATATGGATGGAACACTTTTTGATACATCTGAAGGCATAATATATTCAATGAAAAAAGCATATGAATTAAATAATTTAAAACCTCTTGAAGAAAATGAAATTATAAAATTAATAGGGCCAACATTAGATGAAATAATGAATATGCTATTTAAAGAAGATTCAAAATTAAAAATAAAAGTAAGAAATGATTTTCGACAAATTTATGCATCAAAGGGTGTTTTTAAATTACAACTTTTTCCAAAAGTAATTAAAACTTTAGAAATATTATTTAAAAGAAATAAAAAAATGTATATTATAACCTCAAAACCATCAATATTTGCAGAACAAATAATAGAAAAATTCAACATGTCAAAATATTTCCAAAAAATTTTTGGTGTACCACTTGAAGGAAAAATACCATCAAAATCTAAAAGATTAAAGTATTTAATAAGAGAGCTTAATATACCAGTAAAAGAAAGCATAATAATTGGAGATACAGAAAGTGATATAAATGCTGGAAAATATAATAATATGGATATTATCTGTGTTAAATTTGGTTTTTGTAAAAATCATGAATATCTAAAAAACAGCTGTTCTTATATTATTAACTCTTTTGATGATATTTTTAATATTGTGGGTGAATAATATGAAAAACTTCTATAAAAATAAAAAAGTATTAATAACAGGACATACAGGTTTTAAAGGGTCATGGTTGACAATATGGTTATTAAAAATGGGAGCTAAAGTAATAGGTTATGCTTTAGATCCATATACCCAAAAAGATAATTTTGTATTATCAAAATTATCAGAAAAAATAATTGATATACGTGACGATGTTAGAAATTATGATAATTTAAAAAATACATTTGAAAAATATAAACCAGATATAATATTTCATATGGCAGCTCAACCATTAGTTAGATTATCATATAAAATGCCACGTGACACTTTTGAAACTAATATTATGGGAACAGTAAATGTATTAGAAGCATTTAAAAATACTGAAGAATCAAAAGTTTTAATAAATATAACTTCGGATAAATGCTATGAAAATAAAGAATGGATATGGGGATATAGAGAAAATGATCCAATGGGAGGATATGATCCATACAGTGCCAGCAAAGGAGCAAGTGAAATTGTTTCAAATGCATATTTAAAATCATTCTTCAATCCTGAAAAGTTTAATAAACACAAAAAAGCAATAGCAACAGTTCGTGCAGGAAATGTAATAGGTGGTGGAGATTGGGCAAAAGATAGAATAATTCCAGATTGTATAAGAGCATTAGAAAAAGACATACCAATAGAAATAAGAAATCCAAATGCAATAAGACCTTGGCAAAATGTATTGGAACCATTAAGTGGATATTTATTATTAGGTACAAAATTATTAAAAAATCCCAAAAAATATAGTGGATCATGGAATTTTGGACCTCATTTAAATTCAATAATAACAGTAAGAGAAATAGTAGAAAAAGTAATAGAAAATTATGGAAATGGTTTCTGGAAAGACTTATCAAATAACACTCAACCACATGAAGCAAAATTATTAAATTTAGATATTAGTAAATCAAAATTTTATCTTAATTGGGAACCTACATTAAATATCTCTGAAACAATAAATCTAACAATTGATTGGTATAAAAATTATAAAAAAGAAAATGTATATGAATTATGTATGAAACAAATAAAATATTTTGAAAACAAAAAAACTGGTCGGAGGACTAACAATGGATAAACTAAGAAAAGAAATATTAGAACTTACAAAGAAATATGCTAAAAATAAAATAAAAAAAGAATTTATACCTGGAAAAACAACAATACCCTTTGCTAGAAGAGTATTTGATGAAGAAGAATATATGAATTTAGTAGAATCATCACTTGATGGATGGTTAACAACAGGGAGATTTTCAGAAAAATTCGAATATGAATTCGCAAAGTTCTTTGGAATAAAAAGTGTATCTTTAGTAAATTCTGGTTCTTCAGCAAACTTCTTAGCATTAACTGCATTAACCTCAAAAAAATTAGGAGAAAGAAAAATAAAACAAGGTGATGAAATAATTACAGTAGCTGCAGGATTTCCAACAACAGTAAATCCTATAATACAAAATAATGCAATTCCTGTATTTATTGATGTAGACATACCAACATACAATATAAAAGCTAGCGAAATAGAAAAAGCAATAACAAAAAAAACAAAAGCAATAATGATAGCTCATACTTTGGGGAACCCTTTTAACTTAGATGAAGTAATGAGAGTTGCTAAAAAATACAACTTATGGGTAGTAGAAGATGTATGTGATGCAGTAGGTTCAACATATAATGGAAAACTTGTAGGAACATTTGGAGATATAGCAACAGTAAGCTTCTATCCAGCACATCATATAACTATGGGTGAAGGAGGAGCTGTATTAACAAATAATTTGCAATTAGAAAAAATAGTAAAATCATTTAGGGATTGGGGAAGAGATTGTTATTGCGAACCTGGATTTAGCAATACATGTGGAATGAGATTTAAACAACAACATGGTACTTTGCCATTTGGTTATGATCATAAATATGTATATTCACATATAGGTTATAATTTAAAACTAACAGACATGCAAGCTGCAGTTGGTGTTGCTCAACTAAAAAAATTACCTGAATTCATAGAAAAAAGGAAAAAGAACTTTAAATTACTAAAAGAAGGACTTAAACAATTTGAAGAATATTTAATACTTCCAGAAGCTACATCGAAAAGTGACCCATCTTGGTTTGGATTTCCTATAACAGTAAAAGAAAATAAAAAATTTTCTCGTTGGGATATAGTAACATATTTAGAAGAAAATAAAATAATGACTAGAATGTTATTTGGAGGAAATTTAACAAGGCAACCAGCATATGAAGATGTAAATTATAGGATTCATGGTGAATTAACAAATACAGACATAATTATGAATAATACATTTTTCATAGGAGTATATCCTGGAATAAACGATGAAATGATTGAATATATTCAAAAAACTTTTAAAAATTTTATAAATTAAAAGTTTTAAGATTAAAGTTTTCATAAAAAAAAACGATAATAATTATGAAAAATTCTTGGCCAAGAATAATAGTTTTAAATTTAACCCAAGGATGGGAAAAAATAAAAATAACATGGAGGTGGAATTATGAGAATTAATCATAATTTAAATGCTATTAACGCTTGGAGAAACTTAGGTCACACTAACACTATGATTGGTAAATCTTTGGAAAAACTTTCTTCTGGTTTGAGAATTAATAGAGCTGGTGACGATGCTGCTGGTTTAGCTATTTCTGAAAAAATGAGAGCTCAAATTAAAGGTTATGATATGGCTACTAAAAATGCTCAAGATGGTATTTCCTTGATTCAAACCGCTGAAGGTGCTTTGACTGAAGTTCACTCTATGCTTCAAAGAATGAGAGAAATTTCTGTTCAAGCTGCTAATGACACCAATAACACTGAAGATAGAAATGCTCTTAAAAAAGAAATAACTCAACTACAAACTGAAATAAATAGAATTGGTTCTACTACTAAATTTAATGGAAAATCTTTATTTGCTGCTAGCCAATCATTTAGCTTGCAAATTGGTCCTGATAAAGATACTAATTTAGTTCTTAATGTTAAATCTCAAGCTGTTACAACAGGAACACTTACAATAAGTGGTATTTCTATAACTTCAAATTCGGCTGCACAAGGCGCAATAGCAAGTATTGATAATGCAATAAAAGTTGTTTCAAGCTTAAGAGCACAATTTGGAGCTTATCAAAATAGACTTGAACATACTGTTAATAATTTAAGTGTTTCAAGTGAAAATTTAACTGCTGCTGAATCTAGAATTAGAGATGTTGATATGGCTAAAGAAATGATGAAATTTACTAAACAACAAATTTTATTACAATCTTCTAACGCTATGCTAGCTCAAGCTAATCAAGCTCCTCAACAAGTTCTTTCTTTATTAAGATAATTTAACCCAAGGATGGGAAAAAATAAAAATAACATGGAGGTGGAATTATGAGAATTAATCATAATTTAAATGCTATTAACGCTTGGAGAAACTTAGGTCACACTAACACTATGATTGGTAAATCTTTGGAAAAACTTTCTTCTGGTTTGAGAATTAATAGAGCTGGTGACGATGCTGCTGGTTTAGCTATTTCTGAAAAAATGAGAGCTCAAATTAAAGGTTATGATATGGCTACTAAAAATGCTCAAGATGGTATTTCCTTGATTCAAACCGCTGAAGGTGCTTTGACTGAAGTTCACTCTATGCTTCAAAGAATGAGAGAAATTTCTGTTCAAGCTGCTAATGACACCAATAACACTGAAGATAGAAATGCTCTTAAAAAAGAAATAACTCAACTACAAACTGAAATAGACAGAATTGGTTCTACTACTAAGTTTAATGGAAAATCTTTGTTTGCCGCTAGCCAATCGTTTAGCTTGCAAATTGGTCCTGATAAAGATACTAATCTAGTTCTTAATGTTAAATCTCAAGCTGTTACAACAACAAAGCTTGGAATTAATTCACTTGCTATAGATTCAAATACAAATGCTCAATCTGCTATATCTAGTATTGATGTAGCAATTAAAAAAGTTTCAAGCTTAAGAGCACAATTTGGAGCTTATCAAAATAGACTTGAACATACTGTTAATAATTTAAGTGTTTCAAGTGAAAATTTAACTGCTGCTGAATCTAGAATTAGAGATGTTGATATGGCTAAAGAAATGATGAAATTTACTAAACAACAAATTTTATTACAATCTTCTAACGCTATGCTAGCTCAAGCTAATCAAGCTCCTCAACAAGTTCTTTCTTTATTAAGATAATTTAACCCAAGGATGGGAAAAAATAAAAATAACATGGAGGTGGAATTATGAGAATTAATCATAATTTAAATGCTATTAACGCTTGGAGAAACTTAGGTCACACTAACACTATGATTGGTAAATCTTTGGAAAAACTTTCTTCTGGTTTGAGAATTAATAGAGCTGGTGACGATGCTGCTGGTTTAGCTATTTCTGAAAAAATGAGAGCTCAAATTAAAGGTTATGATATGGCTACTAAAAATGCTCAAGATGGTATTTCCTTGATTCAAACCGCTGAAGGTGCTTTGACTGAAGTTCACTCTATGCTTCAAAGAATGAGAGAAATTTCTGTTCAAGCTGCTAATGACACCAATAACACTGAAGATAGAAATGCTCTTAAAAAAGAAATAACTCAACTACAAACTGAAATAAATAGAATTGGTTCTACTACTAAGTTTAATGGAAAAACTTTGTTTACATCTACTGCTGCGTTTAGTTTACAAATTGGTCCTGATAAAGATACTAATCTAGTTCTTAAAGTTAGTTCTCAAAGTATCACAACAACAAAACTTGGAATTGGTTCAATTAACATAGCCTCAAATACAAGTTCTCAAATTGCTATATCTAACATTGATGGAGCTATTAAACAAATTTCAAGCTTAAGAGCACAATTTGGTGCTTATCAAAATAGACTTGAACATACTGTTAATAATTTAAGTGTTTCAAGTGAAAATTTAACTGCTGCTGAATCTAGAATTAGAGATGTTGATATGGCTAAAGAAATGATGAAATTTACTAAACAACAAATTTTATTACAATCTTCTAACGCTATGCTAGCTCAAGCTAATCAAGCTCCTCAACAAGTTCTTTCTTTATTAAGATAATTTAAATAAAAATAAAAGGCAAGCAATGCTTGCCTTTTATTTTTAGAGTTAAAAGGAGGATAACAAATTGAAAATATCAGCTTGCTTAATAGTTAAAAATGAAGAAGGAAATATTGAGAGATGTTTAAAATCATTAAAAAATGAAGTTGACGAAATTATAATTATTGATACAGGATCTAAAGATAATACAGTATCATTATGTAAAAAATATACTAATAAAATTTATTTTAAAGAATGGAAAAATAATTTTTCTGAAGCAAGAAACTATTCCATAGAAAAAGCAACTGGAGATTGGATTCTTATAATTGATGCTGATGAAGAATTATATTTGAAAAATGTTAATTTAAAAGCTATTGTTTTAGAAGCTCATAAAAATAATTATAAAGTTATAACTCCATTAAATATAAACTATTTATCTTTTGATTATTCTTCTTATGATGAATTTAATTTACCTAGATTATTTTTAAAAAATAATATTAAGTATGTACGTTCAGTTCATAATCAACCTGTTTATAAAGGAAAAGAATTCTATACTTCAAAAATAATTATAAAACATTATGGATATCTTTGGACTGAAAGTTTAAAAATAAAAAAATTAAAAAGATCATATCCTCTTATTTTAAATGAAATTGATAATTTTAAAAACAAAAATACAGAAACCTTTATCTATTATGTAGGTCAAAAACTAAAATTAGATTTAATTTCAGAAAATAATTATATTTTTTTAAAAGATTTTTATAAGTATAAAGATATTATTTTTAAAAATGCAGATAAATCAGCAATGTCTATCGAAAATATAAAAGACTATATTTATATAATTCAAAAATATGGGAAAATTAATGAAGCTGAAAAAAATACAAAATTATTTTATTCTATAAATAATATTAATCCAGATATAGCATTAATAATGGCTAATTTTTATTATAAAATAAAAAATTATGAAAAAGTTATTGAATATTTTGAAATTTTTTTAAATTCTCTCTATCTTTATTATAAAAATATTGATAAAATAACTTTTTCAACAATGTATAATTCAATACTCTTTAAAGCTTTTAAAATGCTTTTTTCTTCATTTACTAAAAGTAATAAAAAGATTTTTATTAATATAAAAAATGAAAAACTATTATTTATTTATAATAATAATAATTTTTCTTCTTTATCTGAATTATATTTTTATTTTTTATTAAAAGATTTAAATATTGAAAATTTAAATAAACCTAAATTATTAAAAAAAGATTATATAGAAAATATTATAGATATAAATTTTGACAAATATGCTAAAAAATTAAATGAAAAAACTAAAGAAACTTTATATTATATTCTTTTATCTTATTCTATTTACTATGGAAATATTCAGATAATTGAAAATAATTTTTTTGAATATTTAGAAAATTCATTTAATTCGAGTGATTTAGCAATAAATTTAATTTTTTTAGAAGAAATTTTTAATTTGATAAACAAAAATATTTTTTATAAAATAATATTAAAAAAAATTGGTAATGATTCTAAAATTTGGAAATTTTTTGAAGCTTTTTATTATTTTAGAGTAGGAGACAGATTAAAATCTTTGGCGTTTTTTAACATTAATAAAGATATACATAAAGGAAGTTTAAGAGATTCTATAAAATATAAAGTAATAAAAGATATTGAAATTACAAATTCTTTATTAATAAAACATCCATATACACTTTCTTCATTAGAACATAACAAAAATTTATACAAAAATGAAAAAACATTTCATAATTATTTATATAAAAAAATTAAATCTAATACTTCTTTAGAATTTTCGACTTTTATAAACTTACTTAACTATAAATCAACAAAAATGTCCATTATAAATAATTATTTTGATTTATATGAAAAAAATAGAAGTTTAGATATTTTAAATAATGCCATGGAAATTTTTAACTCTTTGTTAAACAAAAAAAATATTGACATTGAAGAACTAAAAATATATTTAAAAAATATATCCACTAAATTTAACAATCCTTATGTAATAACTCCACACTGGGCTTTAATTTATTACAATGATTTTAATAAAAAAAATAATTCTTGTTTTAATCCAAAAGATAAAATAAAAAAAATATCTATTCCAGCTTTTAATTATAATGAAGATATAGAAATATCTTTTTTTAATATTTGGAGAGAAAATAGCTTCATGTATTATAAAGAAAAAATACTATCAAAAAAAGATAATAATATATTAATTAATTACTTTAAAAAAGATTTAGAAAAATTAGTTGATTATTTTGATAATTTTATTGATTTTTCAAACAAAACACTTTTAATAAACACAAATAATAATTATGGTATAATAGGAAAAAACAAATACGATTTTAATATCTCTAATTATAAAAATGCTATAATATTTTTACCAGAAATTTTAGATTTTGATATAAAAGAATTTATATTTAATTCATTGAATGTTTTAGATGAAATACTTGTTATTACTTTAAAAGACATAGAAGAATGTTTTGATAATCCTTATACTAATTATTATATTAAAAATAAAATATTTTTTAAAAATAATTTTAAATTAGTATTTAATAATGAAAAGTATAATTTTTTTAAAAAATAAATTAGAGGTCAAACCTCTAATTTATTTTAAATTATATACTATTTTGAAAATGCTTGAGATATATAGCTTCCTTGTGAATTCATATTATTTATAGCTTGTTCCATTGCTGAAAATTTCATATTATAATATGCTTCTTTTTTATGTACATTATCTAACATAGTTACCATTTCTTTTGCTAAGCTTCTCATTTGAACTCCAATTGTTCCAGTTGTTCCAGATATTTGATCTATATATCCTCCAAATTTTGTTGTATCCCATAAATAATTTTTTAATTGTGTTCCTATTCCATATTCTTCATTATTTAAATCATTTAAAGCAAAAAGATTCCAAACATCGTGAGCATTATTATTTAATGCTTCTTTTAGTTTTTCTTCATCTACACTTAATAACCCTTTTTCAGTATTACTATAATTTCCTTCCAAGTCTCCCGAAGAAACTCCTATACTATATAAAGATGTATAATCATTTGTATTATTCACCAAATTTAATTGTGAATATCCAATATTTTTTATTTTATAAAATAGATTTTCTAAGTTACTATCTCCTTTTAACAAACCCTTCATTTTATCCTCATCAGTCATATCTGATTCAGCTTTATCCGTAACTTTATTTTCATTTAATTTATCATAAAGAAAATTCATTACATCATTATATTTATCTACAAACTCTTTTATTTTTTCTACTGATTTATCTATATCTTGAGAAACTGAAATTTTTGTAAATGATGTATCTACAGATTTTATATTCAAAGTTACATTATTAAAATTAAAATTATTAGATGACTCTGTTAAAGTCATATGTGTAGTACTTCCATCAAACGAAATTTCAACATTTGCATTTGAACCAGTTACTCCATTTGCTACATCTGTAAGGGTTGTTGCTGTACCTGTTGAAAATAACTTATCTAAAATATTTGCATTGGACGAATCTATTTGTAAGGATTTATCTCCCGTATTTTTATTTAAAACAAATACTTGACCATCTTCAAATATCATATTTGAATCTGTTTTAGAATTTATAACATCAGTTAAAGTTTGAATTGTATCAGTTGTCTTTAAATCACCAGTTCCATCATCTTTTATATTTAAAGTAACTGCATTTCCATCAACCGTAAAAGTTAATGTATCCCCATCTAAAGCCGATAAATCTGATAAAGTTGATGCTGTTGTTATAGCTGAATCAGCAGTACCTTTTATGTAAGATGACGAAGCTAATTGTGTTGTTTTAACATAAAAATCAATGTTAGATGATGTTGAGAGTGCTGTTGCTTCTACCTTATCTGTATCTGCAGACTCTGCTTTTTTAGGTATAAGATTTTTTTGAAAACTAAATGTTGTCATATAATCCCAAAAACCTTGTAATTTATCATTTATTTCTGTCCATGATTTTTGTTTATACTTTAATTCATCAAAATTTGTTTGAACTTTTTTTAATGGTTGTGTTTCAATTTCCATCAATTTTTCAACTATTGACTTTGTATCTATTCCAGATGCTAATCCACCAATTTGAAACATTCCCATATAGCTGTTAGAATCAGACATTCATCTCACCTCCATGGTGATATATTATTATTTAATATAATATCGTCTTTAATGGTTATTTTCTTTAATTAAACTATGGTATAATAAAAGTAATGGTGTTTTTGAATTGATTATAAAGAGGTGTTTTTTATGGTTTTTAAAGGAATTCTTTTTACACCAAAAGATGAATTTTATTCGTTTAAAAATTTCTTTCATAAAAACGATGATACAATCATAATAAAAGATATTGAACCAGAAAAATTAGAATTAACAACTTCTTCGGGTTTTGTGTCTTATTTTCTTGTTGAAGAGTTTGAAAGAGTTTATGGAATAAAAAGGTACTTAAAACCTGATTATAGAATGAAAAAATATTTAAAAACAATGTATGTTGATTATATTTCTGATGAAATACGTGAACTTTATGGTGATTATATTGAAGTAATTTCAAAGTATATGGGACTTGGTGTTGTTATTGAATCTTTAAATGAATTAATTAAAACTCAAGATGTTATTTCAAATTATGAATTTTGGATTGACGATTTAGCAAAAAATGTTGAAGGTAAATATAGAGAAGCCGTTTCACAAAAAATAACAAAGTTTGCAAATATCTATCTTATAAAGGTTTATGAAAAACTCTTTCAAAAAAATATAGAATTATTGAGTATTCATAGTTCTGAAATAACTTATAAGATACTTGAAACTTCTTTAATTCAAAAAACTTTTTAGTATGAGGTGAAAGAAGTGAAACGATTCAATACAACAGGAGTGTGTGTTCCTAAAAAACATTACATGGTTAATATTGAAAATAAATTAAATCAAATAATGAATTTAATAGAAAATGGTGAATACTTTACAATAAATAAACCAAGACAGTTTGGTAAAACTACTACTATGTTTTTACTTGAAAAAAAGTTGAAAAACAAGTATACAGTAATTTCTATAAGTTTTGAAGGTATAGGAGATGTTCCTTTTCAAAATGAAGAAGTATTTTCTGAAACTTTTTTAAATTTAATGAAAAAAAGTCTATCTTTTACAAACAAAGAAGTATCTGAAAAAATAAAAGATAATAAAATGAGTATGAGTCAATTATCAGAAGAAATAACAAGAATAAATAAATTAACCAATAAAAAGATAGTATTAATGATAGATGAAGTAGATAAAAGCTCTAATAATCAACTGTTTTTAAACTTTTTAGGTATGCTTAGGACTAAGTATTTAGAAGCAAATAAAGAAAAAGATTATACATTTTATAGTGTAATCTTAGCAGGAGTACACGATGTTAAAAGCTTAAAAACTCATATAAGACCTAATGAAGAAATAAAGTATAATAGTCCTTGGAATATAGCTGTAGACTTTGACATAGACTTAGCTTTTAATCCTGATGAAATTTCTACTATGATAGTTGATTATTATAAAGATAGAGGTTATGAACTAAATAATGTTAAGCATATTTCTGAAAAATTATACTATTACACATCAGGTTATCCATTTTTAGTTAGTAAACTTTGTCAAATTATTGATGAAGAAATGAAGGTGGAAAAAGAATGGTCTGATGAAATTTTACAAGATGCTGTAAAGATTATTCTAAAAAAACAAAATACTAACTTTGAATCACTTATTAAAAATTTAGAAAATAACGAGGATATATATAACTTAGTATATAAAATAATAATAGATGGAAAAGAAATTAAATATAACATAGATAATCCAACAATAAATTTATGTTTAATGTATGGAATTTTAAAAAACAAAAAAGGTACTTTAAAGGTTCAAAACAAAATTTATGAGCAAAGAATATACGATTATATGGCATCAAAGATAGAAACATCACAAAATGTAGATACTGAAAGATACAACTTTAGAGATAACTTCATAATTGGAGACAAATTAAATATGGAACTCGTTTTAAAAAAGTTTCAGCTTTTTATGAAAGAACAATACTCAGAAAAAGATGTAAATTTTGTAGAAAGAAATGGCACTTTAATATTTTTAGCTTTTATAAAACCAATAATAAATGGAAAAGGCTTTGACTTTAAAGAAGTTCAAATTTCTGAAGAAAAGAGACTTGATGTTGTTATTACATATAGTAAGTACAAATATATTATTGAAATGAAAAAGTGGTATGGAGAAGAGTATCATAAACGTGGTATTAAGCAACTTGAACAGTATCTTGATATTAACAATCAAAATAAAGGTTATTTAGTAATTTTTGACACCAGAAAAAAATCTAATAAAAAACAGGAAAATATAAAAATTAAAAATAAAGAAATTTTTGCCGTTTGGGTTTAATAAATATGAGGTGAAAAAAATGAAACGATTCAATACAACAGGAGTGTGTGTTCCTAAAAAGCATTACATGGTTAATATTGAAAATAAATTAAAGCAAATAATGAAATTAATAGAAAATGGTGAATACTTTACAATAAATAAACCAAGACAGTTTGGTAAAACTACTACTATGTTTTTACTTGAAAAAAAGTTAGAAAATGAGTATACAGTAATTTCCATAAGTTTTGAAGGTATTGGTTCCATAATAATGGAAGATGAAAAAGAGTTTGTTCAAAGTTTTTTAGAAGATATAACAGATTCATTAAATATAAAAATAGATAAAAAAATAATAAAAACTATGAAAGAACTATCAAAAACAATAACAAAAATAGCTAAAGCAAGTGAAAAAAAGATAGTACTAATGATAGATGAAGTAGATAAAAGCTCTAATAATCAACTATTTTTAAACTTTTTAGGCATGCTCAGAACAAAGTATTTAGAAGCAAACAAAGGAAAAGACTATACATTTTACAGTATAATCTTAGCTGGAGTACACGATGTTAAAAGCTTAAAAACTCATATAAGGCCTAATGAAGAAATAAAGTATAACAGTCCGTGGAATATAGCTGTAGACTTTGACATAGACTTATCTTTTAATTCAGATGAAATTTCTACTATGATAGTTGATTATTATAATGATAGAGGTTATGAACTCAATAATGTTAAATACATTTCTGAAAAATTATACTATTATACATCAGGTTATCCTTTTTTAGTTAGTAAACTTTGTCAAATTATTGATGAAGAAATGAAAGTAGAAAAAGAATGGACTGATGAAGTTCTTCAAGATGCCGTAAAGATTATTCTAAAAAAACAAAACACTAACTTTGAATCATTAATTAAAAATTTAGAGAATAATAAAAAACTTTATAATTTTATTTTTGATTTAATCATAAATGGTATGGAATATGAATACAATAAATTTGAGCCTATAATACATTTTGCTGAAATATATGGCATAATAAAAGATGATAATGGAAAGGTCAAAATTCAAAATAAAATATATGAACAGATCATATATAATTACATGATATCTAAATTGAGTATAGCTTCAAGGCAAGATTTTTCTCGTTACAACTTTAGAGATAACTTCATAATTGGAGACAAATTAAATATGGAACTCGTTTTAAAAAAGTTTCAGCTTTTTATGAAAGAACAATACTCAGAAAAAGATGTAAATTTTGTAGAAAGAAATGGTACTTTAATATTTTTAGCTTTTATAAAACCAATAATAAATGGAAAAGGCTTTGACTTTAAAGAAGTTCAAATTTCTGAAGAAAAGAGACTTGATGTTGTTATTACATATAGTAAGTACAAATATATTATTGAAATGAAAAAGTGGTATGGAGAAGAGTATCATAAACGTGGTATTAAGCAACTTGAACAGTATCTTGATATTAACAATCAAAATAAAGGTTATTTAGTAATTTTTGACACCAGAAAAAAATCTAATAAAAAACAGGAAAATATAAAAATTAAAAATAAAGAAATTTTTGCCGTTTGGGTTTAATAAATATGAGGTGAAAAAAATGAAACGATTCAATACAACAGGAGTGTGTGTTCCTAAAAAGCATTACATGGTTAATATTGAAAATAAATTAAAACAAATAATGAAATTAATAGAAAATGGTGAATACTTTACAATAAATAAACCAAGACAGTTTGGTAAAACTACTACTATGTTTTTACTTATGAAAAAATTAAGAAAAACCAATAATTATCTCCCTATAAAAATTAGTTTTGAAGGTATAGGAGATATGCCATTTCAAAATGAAGAAGTATTTTCTAAAACATTTTTGAGTTTAATAAAAAGAAATTTGATTTTTACAGACGAAGAAATCTCTGAAAAAATAGAAATAAAAAAAATGAGTATGAATCAATTATCAGAAGAAATAACAAGAATAAATAAATTAACCAATAAAAAGATAGTATTAATGATAGATGAAGTAGATAAGAGCTCTAACAATCAACTATTTTTAAACTTTTTAGGTATGCTTAGAACAAAATACTTGAATCAAATAGAAGAAGAAGATAAAAGTTTTTACAGTATAATCTTAGCTGGAGTACACGATGTTAAAAGTTTAAAAACTCATATAAGGCCTAATGAAGAAATAAAGTATAACAGTCCGTGGAATATAGCAGTAGACTTTGACATAGATTTATCTTTTAATTCAGGTGAAATTTCTACTATGATAGTTGATTATTATAATGATAGAGGTTATGAACTCAATAATGTTAAATACATTTCTGAAAAATTATACTATTATACATCAGGTTATCCTTTTTTAGTTAGTAAACTTTGTCAAATTATTGATGAAGAAATGAAGATAAAAAAAGAATGGACAGATGAAGTTCTTCAAGATTCCGTAAAGATTATTCTAAAAAAGCAAAACACTAACTTTGAATCATTAATTAAAAATTTAGAGAATAATGAAGATATATATAACTTAGTATATAAAATAATAATAGATGGAAAAGAAGTCAAATATAATATGTATAATCCAATAATAAATCTATGTTTAATGTATGGTATATTAAAAAACGAAAATGGTACTTTAAAGGTTCAAAACAAAATTTATGAACAATTAATATATGATTATATGGCATCAAAAATAGAAACATCACAAAATGTGGATACTGAAAGATACAACTTTAGAGATAACTTCATAATTGGAGACAAATTAAATATGGAACTCGTTTTAAAAAAGTTTCAGCTTTTTATGAAAGAACAATACTCAGAAAAAGATGTAAATTTTGTAGAAAGAAATGGCACTTTAATATTTTTAGCTTTTATAAAACCAATAATAAATGGAAAAGGCTTTGACTTTAAAGAAGTTCAAATTTCTGAAGAAAAGAGACTTGATGTTGTTATTACATATAGTAAGTACAAATATATTATTGAAATGAAAAAGTGGTATGGAGAAGAGTATCATAAACGTGGTATTAAGCAACTTGAACAGTATCTTGATATTAACAATCAAAATAAAGGTTATTTAGTAATTTTTGACACCAGAAAAAAATCTAATAAAAAACAGGAAAATATAAAAATTAAAAATAAAGAAATTTTTGCCGTTTGGGTTTAATAAATATGAGGTGAAAAAAATGAAACGATTCAATACAACAGGAGTGTGTGTTCCTAAAAAACATTACATGGTTAATATTGAAAATAAATTAAAGCAAATAATGAAATTAATAGAAAATGGTGAATACTTTACAATAAACAAACCAAGACAGTTTGGTAAAACTACTACTATGTTTTTACTTGAAAAAAAGTTAAAAAACAAGTATACAGTAATTTCTATAAGTTTTGAAGGTATAGGAGATATGCCATTTCAAAATGAAGAAGTATTTTCTGAAACTTTTTTAAATTTAATGAAAAAAAGTCTATCTTTTACAAACAAAGAAGTATCTGAAAAAATAAAAGATAAAAAAATGAGTATGAGTCAATTATCAGAAGAAATAACAAGAATAAATAAATTAACCAATAAAAAGATAGTATTAATGATAGATGAAGTAGATAAGAGCTCTAACAATCAACTATTTTTAAACTTTTTAGGTATGCTTAGGACTAAGTATTTAGAATCAAACAAAGGAAAAGACTATACATTTTACAGTATAATCTTAGCTGGAGTACACGATGTTAAAAGTTTAAAAACTCATATAAGGCCTAATGAAGAAATAAAGTATAACAGTCCGTGGAATATAGCTGTAGACTTTGACATAGACTTATCTTTTAATTCAGATGAAATTTCTACTATGATAGTTGATTATTATAATGATAGAGGTTATGAACTCAATAATGTTAAATACATTTCTGAAAAATTATACTATTATACATCAGGTTATCCTTTTTTAGTTAGTAAACTTTGTCAAATTATTGATGAAGAAATGAAAGTAAAAAAAGAATGGACAGATGAAGTTCTTCAAGATGCCGTAAAGATTATTCTAAAAAAACAAAACACTAACTTTGAATCATTAATTAAAAATTTAGAGAATAATAAAAAACTTTATAATTTTATTTTTGATTTAATCATAAATGGTATGGAATATGAATACAATAAATTTGAGCCTATAATACATTTTGCTGAAATATATGGCATAATAAAAGATGATAATGGAAAGGTCAAAATTCAAAATAAAATATATGAACAGATCATATATAATTACATGATATCTAAATTGAGTATAGCTTCAAGGCAAGATTTTTCTCGTTACAACTTTAGAGATAACTTCATAATTGGAGACAAATTAAATATGGAACTCGTTTTAAAAAAGTTTCAGCTTTTTATGAAAGAACAATACTCAGAAAAAGATGTAAATTTTGTAGAAAGAAATGGTACTTTAATATTTTTAGCTTTTATAAAACCAATAATAAATGGAAAAGGCTTTGACTTTAAAGAAGTTCAAATTTCTGAAGAAAAGAGACTTGATGTTGTTATTACATATAGTAAGTACAAATATATTATTGAAATGAAAAAGTGGTATGGAGAAGAGTATCATAAACGTGGTATTAAGCAACTTGAACAGTATCTTGATATTAACAATCAAAATAAAGGTTATTTAGTAATTTTTGACACCAGAAAAAAATCTAATAAAAAACAGGAAAATATAAAAATTAAAAATAAAGAAATTTTTGCCGTTTGGGTTTAATAAATATGAGGTGAAAAAAATGAAACGATTCAATACAACAGGAGTGTGTGTTCCTAAAAAGCATTACATGGTTAATATTGAAAATAAATTAAAGCAAATAATGAAATTAATAGAAAATGGTGAATACTTTACAATAAATAAACCAAGACAGTTTGGTAAAACTACTACTATGTTTTTACTTGAAAAAAAGTTAGAAAATGAGTATACAGTAATTTCCATAAGTTTTGAAGGTATTGGTTCCATAATAATGGAAGATGAAAAAGAGTTTGTTCAAAGTTTTTTAGAAGATATAACAGATTCATTAAATATAAAAATAGATAAAAAAATAATAAAAACTATGAAAGAACTATCAAAAACAATAACAAAAATAGCTAAAGCAAGTGAAAAAAAGATAGTATTAATGATAGATGAAGTAGATAAAAGCTCTAATAATCAACTATTTTTAAACTTTTTAGGCATGCTCAGAACAAAGTATTTAGAAGCAAACAAAGGAAAAGACTATACATTTTACAGTATAATCTTAGCTGGAGTACACGATGTTAAAAGCTTAAAAACTCATATAAGGCCTAATGAAGAAATAAAGTACAACAGTCCGTGGAATATAGCTGTAGACTTTGACATAGACTTATCTTTTAATTCAGATGAAATTTCTACTATGATAGTTGATTATTATAATGATAGAGGTTATGAACTCAATAATGTTAAATACATTTCTGAAAAATTATACTATTATACATCAGGTTATCCATTTTTAGTTAGTAAACTTTGTCAAATTATTGATGAAGAAATGAAAGTAAAAAAAGAATGGACAGATGAAGTTCTTCAAGATGCCGTAAAGATTATTCTAAAAAAACAAAACACTAACTTTGAATCATTAATTAAAAATTTAGAAAATAATGAAGATATATATAACTTAGTATATAAAATAATAATAGATGGAAAAGAAGTTAAATATAATATAGATAATCCAACAATAAATCTATGTTTAATGTATGGTATATTAAAAAACGAAAATGGCACTTTAAAGGTTCAAAACAAAATTTATGAACAAAGAATATACGATTATATGGCATCAAAGATAGAAACATCACAAAATGTAGATACTGAAAGATACAACTTTAGAGATAACTTCATAATTGGAGACAAATTAAATATGGAACTCGTTTTAAAAAAGTTTCAGCTTTTTATGAAAGAACAATACTCAGAAAAAGATGTAAATTTTGTAGAAAGAAATGGTACTTTAATATTTTTAGCTTTTATAAAACCAATAATAAATGGAAAAGGCTTTGACTTTAAAGAAGTTCAAATTTCTGAAGAAAAGAGACTTGATGTTGTTATTACATATGGTAAGTACAAATATATTATTGAAATGAAAAAGTGGTATGGTGAAGAATATCATAAACGTGGTATTAAGCAACTTGAACAGTATCTTGATATTAACAATCAAAATAAAGGTTATTTAGTAATTTTTGACACCAGAAAAAAATCTAATAAAAAACAGGAAAATATAAAAATTAAAAATAAAGAAATTTTTGCCGTTTGGGTTTAATAAAAAAATGATATGTAGGAGGAAATATGAGTAAAAAAAGAATGGTTGCTGCAACAGTTGCATACGATGGAACAGAATTTTTTGGTTTTCAGGGACAACCAAAGTTTAGAACTGTACAAGGAGAGTTTGAATTAGCTCTTCAAAAAATATTTAAACAAAAAGTAATAAGTTTTGGAGCTGGTAGAACAGATACGGGTGTTCATGCTTGGGGACAAATAATGGCTTTTAAAGTTCCAAATGAAAAGATGAGCATAAAAAATATCAAAGATGCTATGAATTCTGTTTTACCAAAAGATATTTATATAAGAGAGGTAAAAGAAGTACCAGAAAATTTTAGTCCAAGGTTTCATGCAAAAAAAAGAATTTATCATTACTTTATAATGCCAAAAAGAGATCCAAATATTTTTTTAAGAAATAGAGTTTGGTGGTTTCCTTATGATTTAGATATTCATAAAATGCGAGAAGGCGCTAAGTATTTTATAGGTGAACACGATTTTACAAGCTTTAAAACAGGTAATGACGAAAGAAATCCAGTAAGAACTATTGAAAAAATAAGAATTATAAAATTAAACAATGGTTTAATTTTAATAAGAGTAGAAGGCATTTCATTTTTAAGAAGAATGGTTAGAAATATGGTTGGAACTCTTGTAAAGGTGGGAACAGGCACATGGGAACCGGAAAAAATAAAAGAAATTTTAGAAGCAAAAGACAGATCGCAAGCTCCAGCTTCAGCTCCTGGAGAAGGACTTTATTTTTATTCTGTTTTATTTTAATAAATTTATCAATATTTTCTGCTGACAGAATAGGTCTTGTTTATAATGGACCTAAGTTTTATTTTAATGATGTGCTATATACATTATATGGTTATTATGATGTAAGTATTCCTCCAATTACAAATGAAGATAAAATTGAAGTTTCTTACAAAAATAATTTATTTTATATTAATTACAAAGGAAATGAAGTTTCTTGTAAATTAAATGAATTAAATGATACTTTTTCAAAACTTTTAAATAGATCACTAAAAAGTTTAATAATAATACCTGATAGAAGTTATATAACAAAAAATGATGCTACTTCAACTGTATCTTTTGAACTTTGGAATAAAAAAATGAAAATTCCTTTATTGGTTAATAATATAAAATATGATTATTTTTTATATCCACCACTTGGTAAAAGACTTGTACACGTACCAGATAGATGGATAAACTTAAAAATTTTAGGTATTAAAGATACTATAAAATTAAATGGAAAAAAATTAATTGCTCCATTGAATTTGAATATTCCACCATCAATAATAAATATCGAATATGGAATGGTAAACCAAAAAATTGATCTAACTGATTATTCTAGCAATACTTATGTTTTAAACCTACAAAAACAAAATTTATACAAATCAATAAATACAAAAATATTAAACGTTTTTAATTTAAACAGTGGAATATTTTTATATGGAATTCCAAATTCTTTATGGATAAGTAATGGCGAAGTTAAACTCACTGAAGATAAATTTTATTGTAATTATGGTGAATTAAAAAATATATCTGGAAATGTAATTTTTGCTTATGAAAAAGATAATACCGTTTATATAATTAGTAGTTCAGGTAAATTTTTTACCCTTGGAACAAAAAATATATCAAAGGATTTTGGGCGTTCTCCATTATCAATAAAAGTTTATAAAAATTATATAGAAATAAAAACTTTTAAACTTGAAACATATAGAGTAAACTTTGATGGAGGAATTTATAAAGAAGGTAATGTTTATAATTTATTTTTAGATATTCCTGATACTAAACCTAAAAAAAGTTATGAAACTAATAAGTATATTGTAGAAATCAATGATAACAAAGTTTTTATTTATAAAAAAAATATAAATTAATAAATTACTTCTAAAGTAGATAAATGTAAAAATAAAAACTACTTTGGAAGTTTTTTCATATAAATCTGGATTTTTAAATATATAGTTTATGGTATAATGAAATGAGGTGATGAAAATGAAAAAAAGACTTCCAATAGGACAAAGTGATTTTAAAACTATAATTGAAGAAGATATGTACTTTGTAGATAAAAGTTTATTAATCAAAGAGGTTATTGAAAGTGGAAATGTTTTATTAATAACAAGGCCAAGAAGGTTTGGGAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAACAATGAACACCTCTTTAAAAACTTAAAAATATATAAAGAAAAGAACATAATAGAAAAACATTTAAATAAACATCCTGTTATATACATCACCTTTAAAGATTTAAAGTCTAATAACTTAAAGAAAATGCATGCTTTATTAGCTATGGAGCTTTCAAGATTGTATTTAAAACATAAGTATGTTTTAGATGTTTTAGATAATGAAGAAAAAATTATATATGATAAAATAATGGGTAGAGAAGCTTTAGATGCTGATTATGAAAATTGTATAAGAAGTTTATCTGAATATATGGAAAGATACTATGGTAAAAAGGTAATAATATTAATAGACGAATACGACACTCCAATTCAACAAGCCTACTTACATGGTTACTATGATGAAATAATATCTTTAATTGGTAACTTATTTGGAATGGCTTTAAAAGATAATGTATACCTTGAAAAAGCAGTTCTTACTGGTATAACAAGAGTTTCTAAAGAAAGTATCTTTACTGGTGTGAATAACTTAAAGGTTTCTACTGTATTGAATGAACTATTCAATGATAAGTATGGATTAACTAAAGAAGAAGTAGAAGAAACATTGAAGTATTATGAACTTGAATATGAAGAAAAAGAAGTTATAGATTGGTACAATGGTTATAACTTTGGTGGTGTTGAAATATACAATCCTTTTTCTATTATAAACTTAGTAGACGAAAAAAAGATAAGACCATATTGGATGAATACGAGTGGAAATTATTTAATAAGAAAGTTAATAAAAGAAGGAACTGTTAATATAAAAGATAGTGTAGAAAAATTAATAAACGGAGAAGAAGTAGAGTGCGAAATAATAGAAACAATGGTTTATGGTGATTTAAACTTAAACAGTGAAAGTGCAATTTGGACATTATTTTTATTTAGTGGTTACTTAAAGTGGACGAGTAAAAAAAGAAAAAATAATATAACAATGTATAAAGTAAAGATACCAAATGAAGAAGTAAAAGATTTTTTTGTACAAACAGTTAGAAATATGTTGAGAGAATCAAATATAAGTATCGATAATATGCTTTTGAATTTAAAAGTAGGAAGAATAAAAACCTTTACAGACCAATTTAAAGATTTAACGATGAATACATTGAGTTACTTTGATATTAGTGGAAAAGAACCGGAAAGGTTTTATCATGGATTAATACTTGGAATGAGTGTTGGATTAAAAGAAGAGTACATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCTGATGTTATATTAATTCCAAAAGATAAAACAGATAAAGGAATAATAATAGAGTTTAAAAAGTACAATAAAGATGAAGATAAAAGTTTAAAAGACAGTGCAAAAAATGGATTAAAACAAATAAATGAAAAGAAGTATGAAGAAGAAATAAAAAGTTATGGAATAAACAATATAATAAAAGTAGCAATATCCTTTGATAAAAAAGAAATTGAAATTGTTAGTAATTTGGATAAAGATGTTGAATTAACAGATATTGAAAAAGTAGCAAAGAACATGATTGAAAAAGGATTAGATGTAAATATGATTTCTGAATTAACAGGCATTTCAGTAGAAAAGATAAAAAATATGCTTAATTAATGGTACATGAATAGTATGCAATTTTTTAGGTAACATAAATTTTATGATCTCTATTAACGTATTTTAATTATATTAAATAAATTCATTGATGTAAAAAAATAAAAGCCTAAGGCTTTCATTTTTTTACATCAATGGTCTATTATTATATTTTTTAAAGGTTTCACCATATTTTTCATACCATCTTTTTGGATAAACAAATATTGTAAATGTTCTTATTCCAAGTGGAGAAAAAAATTGATCTTCTTCATTTATTCTGTAATCAATATTTTTCATTGTTTTTAATAACTCAATTACCTTTTTAAACTTTGGAAGATAAAAAGTATTTGGTGTTTCTTTATAAAATTTCCAAGTTGCACCTGTATCTAATTCATAACAAAATGTCTTTTTATTGTACTTAAAGTACTCAACATTTTGTTTTGTTGTATAAAATCCTGCATAAAACCCTTTCTTAGACACTCTATTTAACTCTTTTAAAGCTCTTAGAGGGTCTTTTACATATGGTAAAGCACTTTCAGTAAAAGAAAGGTCAAACTGATCATTTTTAAACTTTAAATTAGTCATATCGCCTATATAAAATTTTGCATTTTTATTCTGGTAGTAATCAATAGCTTTTATTACATTGAATCTACTAAAATCTATTCCTATATACTTTTTATCCTTAACGACATCTTTTAATTGATAGTAATTTGATCCTGTACCACATGCTGCATCTAAAATTGAAGTTGGTTTTTCCTTCAATATAATATCTTTTATTGTTTCCATTTGTTTTTTATTGTACGCACTAAATTTATTTGAAAAGTTTTTATCATAATTAATATCATACTGTATTGAAATTGGTTGATTTTCAAAATCAATATCTTTTGGCGTTGGATTTATTAATTTAAATAATCTAAACATATCTCCATTTTTATAGTTTATTACTTCATTCAGCAAAACACTTTTATTATAATATTTTTTTAATTCTTCAAACTTTAAATATCCCAATATTTTAACATTTTTAGCTTTTTTTATTTCATTAAAATTTATTTTTTTGCAACTAAAAATTATTAAACTTACTTTATCGGATGGTCTAAACCAAATTTTAAAGTCTTCTATTATTTGATTTGCTTTTTCAATACCAGAAATTCCAGCATCAAGATAAAATGTCATTTTTCGCCTCCTATAAAAAAAATCCCCGACTTTAATAGTCGGGGAACATGGAGCGAAAGACGGGGTTCGAACCCGCGACCCCTTGCTTGGCAAGCAAGTGCTCTACCGCTGAGCTACATTCGCATCGTCATTTGTGGTGCGCGAAGTGGGACTTGAACCCACACGGTGTACACCACTGGATCCTAAGTCCAGCGCGTCTGCCAATTCCGCCACTCGCGCACTTATAAATAACAAAAAAAATGGTGACCCGTCCGGGATTCGAACCCGGGGCCCTTTGATTAAAAGTCAAATGCTCTACCAGCTGAGCTAACAGGTCATCACCATTGTTTTTCTGTTTCCGTCTTTCACAACTTCCGCATCCAAACGTTTATTATTATATATCATTATCCGAAATAAGTCAAGTTAAGAAACGGTAAATTATTGTTAAAACCTTATTACTTCTCATATCCAGGCAAACGACCATTTGAATTTGTCTTTACAACAAGCGGTTTTACTATATCTCCATTCTTTTGATACCCCACCATTATAATACCACCATCTTTAGCTTCTTCAAAAGAATAAAATCTTTCTTCTTTATTTGATCCATATATTCCCATATAATAAAAATTACTATTTTTTTCTATAATTCTCAAAAAACCATCGTAATCTGGCCAAGTATCTAAACAAAAACCAGTTGCATATATTTTATCATTTATATTTTTTATTTCAATTATTCTTGACATTTTTTTTACATTTCTAACTTCAAACCATTCTGCTTTTATACTTCCATCTTCTTCTATTCCCTTTACTGTCTTTAATGTAAAAGTTTTCCATGTATTTTGATTTATTGGTATTACATAACCACCAACATAAAGCGAACCATTTGAAAATGCACTCAATCCATATTCATTTTGAGTTTCCTTACCATATGTATTGGAATATAGTCTTATTCCTTCTCTACTATACTTTAAAACTAAAATATCATATTGTTTTTTAGGATTAGAATTTGTGTCTCCAATAGCTATTATATCATTTGGTTCTAATATAAAATCGTTTATCTCTTCATTATCTTCTCTTCCATATGTGTTTTCCCAAACTATTCCACCAGAAACATTTATTTCTGATATATAAGCTTGTTTTTTCATTTCATTTGATATATAACCAGCTATTATAAAGTCATTTGAATTATTTTTGATAACATTGAATCTTCCTCCAGTGTTATAAACTTTTGACCATAATTTTTCTCCATTTTCTGATATATTTAAAATATAAGGACGCTCTTCCTTCTTCCCAACCATTATTAAGCTTCCATCAAAATATGTAAAGTCATAAAAATCTATATTTTTTCCACTAACTAACAACTTTTGTTTTACTTCTCCATTTAAATTTATTGTATAAATATAATTTTTTCCATTTCCTTTTCCCAAAATACCATATAAACCTTTATCTAAATAATGAATTTTTGAAAAAACTATATTATTTTCATCAATTACTTTAAAATAATGAATTCCACCACTTTTTTTTACCTCTTTATTTGATGAAATATAATCTATAAAATCTTTAGCCTCATACTTTGAACTAGATTTTATATAAGTTGCATCAAAATTTCCATCTGTAATTATTAAAAAAAATGCTATTAAAAACAAGCTAAATAAAAAATTCATTATAATTAAAATTATTTTTCTTGAAACTTTCATAAAATTATCACCCTTTATTTTTTGAACCTCATATTATAAGAATTTGGATCATTCCAATTAAATTCAAACTTTATTTTTACATTATTATTTTTTTCTAATTCCTTTTTTCTTTCAGGGGTTGCATAACCAGATAAATTATGATAAACATTTATCAATACTTCTTTTATATTATGTTCTTTCATATTTTTTAATGAGTCTTCCATATCTTTTATAATTCGATTAAACACAATTGATGGAGCAGCAACTCTTCCTGTTCCATGACATATAGGGCATGGTGCAAAAACCATAGTATCAATAGATGGTGTTGTTCTTTTTCTTGTTACTTCTAATAAACCCAATCCAGTAAATCCAACTATGGTAACTCTAGCTCTATCTTTTTTAACTTCTTCGGAAAAAACTCTTATTATTTCTTCATGATGATTTTTTGTATGCATATCTATAAAATCTATAATAATTATTCCAGCTATATTTCTTAATCTTAATTGTCTTGCAATTTCTATTGCTGCTTCTTTATTTGTTTTAAAAGAAGTTTCTTCAACATTCTTTCCTCTAACATTTGCTGCAGAATCTATGTCTATTACTGTCATTGCTTCTGTTTTGTCTATTGTTATAGTTCCGCCATTTCTTAAGTTTATTTTTTTTGCAAAGATGTCATCCATTTGATTATAAACATTCATATAGGCAAAAGCATCTTTATCCACAAGTTCAATCAATGGAGTATACTCAGTAGATTCAATAGCTTTTTTTATTTCATTATAAAGATTTTTACTATCTACTACAATTCTTTTAACATTAGTATCTAATCGTTCCCTCATTAAAAAACCTATAAAATCATCCTCAGAGTATAAAAGTAATGGTTTATTAGTATTCTTATACTTCAAAGCTACTTCATGCCATTTTTTTCTTAATAAATTTAATTCTTCTTCCAATGTTTCTCTATCAACACTTTGACTATTAGTTCTGAATATTATTCCTTCTGTTTCATAAATTAAATCCTCAGCTATTTCTCTTAATCTCTCTCTATCATTTTGAATAGATATTTTTCTTGAAATCCCTATACTTCCTTCTCCATATGGAATATAAACTATATACTTACCCGGGAAATTAAGATGCATAGATAAAAGTGGTCCTTTTCTTATATTTCCATCTTTTTTTGCTTGAACAATAAGCATATCTCCACGTTTATATTCATTTTTTAATCCTAATATATCTTTATACCTTAAAAAACCATTTTTTTTCATACCTATATTAACAAAAAATGCTTCCAAACTTGGAACATCATTTTCTATTCTTCCACAAAAAATTTTTCCAGAGCTTTTTTCACCTTCAAGATCTTCAAAAAAAATTTCTGTTAATTCATAATCTTCCAAAAGTGCTACTCTTATTTCATCACCAACAGAACTACAAACAATTATTTTTTCCATTACTCAACCTCTCTTATTTTTATTTCTATTTAATTTTACCATAAAATGATGTATAATTAATATGGAGGTGAATCTTATGGAATTTGAATTAAAATATGCTAAAGAAATCTTAGAAAATATAGAAGATGGGGTTTACATATTAGATAATAAGAGAAAAATACTTTATTGGAATAAAGCTGCAGAAAAAATAACTGGATTTAAATCAGAAGAAGTTCTTGGTTCCTCTTGTAAAGATAATATATTAATGCATATTGATGAAAATGGAGTTTCTTTGTGTATGGGAATGTGTCCAGTTGCTTTTACTCTTGCAGATGGAAGAACTAGAAAAACAAAGGTGTTTTTACATCACAAGAAAGGGCATAGAGTTCCTGTTTATATAAAAGTTTTTCCTATAAAAGATGAAAATGGCAATATAACAGGAGCAGTTGAATTATTCAATGATATTTCTGAAAAAGAAAAAATAGAGATTGAAGCAAAGGTTTATAAAAAAATGGCTTTAACTGATAAATTAACAGAGATACCAAATAGAGCCTTTATAGACATGAAACTTCAAGAATTTTATCAAGAATCTAATAAATATGGTTTAGACTTTGGAATTTTGTTTATAGACATAGATAACTTTAAAAACATTAATGATACTTATGGTCACGATTTTGGAGATAAAATATTGAAAATGGTTTCTCAAAGCATATTTAAAAATACAAGAAGTTCTGATTTCATAGGTAGATGGGGTGGAGACGAATTTATTGCCATAATTCGTTTTGTAGATAAGACTTTACTTTATGAAATTGCAAATAGATATTTAATGATGGTAAAAAATTCTTATTTGATGATAAATGAAAAAAAAATTTCTGTAAATATTTCAATTGGTGGAAGTCTATACGAAAACAATACTATAGATGAAATAATAAAAAAAGCAGATGAAGCTTTATATTATGTAAAAGAAAATGGAAAAGCTAATATAAAAATTATTTAAATTAATTGGAAACCATTTAAAATGGTTTCCATTTTTCTTCTATCCAAAGTTTAAAATCTTTATAAAAATCCAATTCTTTATAATCTAAAATTAAATCCATATCTGAAGTTTTGTATAAAATCCCCAATCCTGTAGAATTTTTTTCCTTATAATAAGAATTTATTATATAGTTTTCTATACCATTTACTGCAAATTTAGAATCACAAAAATCAGCATTTGAAATTACACTATGAAAAATTACTACATCATTATCATTGGGTTTTATAGATACAAGATTTTTTGAAACAAAGTTCTTAAAATCATTTAATCTTATTGCTGTCATAGTTAAATAATTTAAATTTGAATAACTATTATAATAATCATAATAAACAGCCACTAAATTAGAAAGCATAAATTCAATTGATAAATCATAATATCTTAAAAAATTATAATTCCATCCATATCCTGGCTCTTCATTTACAGAACCAACAAAATAATTAGCATATGGTGAAAGTTCATAAACTATTTCTAATTGTGCCATACTACAAGCATCAAACCCTATTACATCTATTTTTTTATGTGTTTCTTCAAATTTTTTTAATACATTTTTTATATCTGAAATTTTTAAAAACTCAGAACTGCTTTCAACTATTACTGCTTTTGTTTTCAAATATTGTTTTGATTCCCATTCCCATGCATTTCCATGATTCCATAAATCTAAAAAAAATGTATTTCCAATATAAAATTTTTCCATATAAGTATATAAAATATCTGGATTTGAAGAATTTATTTCATCATTCATACCATATTCAGATGGATTTGTTTCAACTCTATAAAATTTGCCATTCATATTATATAAGTTTATTATTTTATCATTTTCAGTAAAATCAGCAATTATAGTAACAAGTATATTTCTTTTTACATTCATTAATGCATTTTTTATTTCATTTATATCATCTTCAAGAAACTCTGATAAAGGACTATTTGTTGTATCTCCACAAGCATAAATAAACAACTGTAAATCTGGCTTTACAGCATTTAAAGTCTTTTTATAAATCTTACCATTATATTCATACTCTAAATAATTATTTTTTGTAAATAAAGTTCTTGATAAAGTATAGTTTTTACCATCAAAACTACTCAATACTGTACCATTTATTTTAACATTTTTTACTTTTTCTTTGAATTCAATTACTTTATCAAAATTTCCATCTATAATTTCATTTGTAATTAAAGGATCAAATAAACTTAAAGGTATACAAGAACTCATTAAAAATAAAAAAGATATTAAAATAAAAGTATACTTAAAAATTTTTTTCATATTTTTTCTCCAATCATAGTTAACACATCATAATTAATACATAATAATAAAAATACCTACTAAAATAAAAGAAATTAAAAAAATCGTATCTCTGAACTTCCAATCGAATTTTTTAAATCTTGTTCTTCCTTCCCAACCATTGTATCCTCTTGCTTCCATTGCAACACTTAATTCTTCTGCTCTTCTTAAGGCTGATACTAAAAGAGGTATTAAAATAGATACTACACCTTTTATTTTCCCTGAAAGCTTTCTATCATCAAAACTTGCACCTCTACTCATTTGAGCTTTTATTATTCTATCTGCTTCTGAAGCCATTACTGGAATAAATCTTATTGCTATAGTCATAACCATAGATAATTCATGAGCAAAAGATTTTGGAACAAAAAACCACCTTAAAACATCTTCCATTGCATGAGCTAAAGAAGTTGGTGATGTAGTGAGAGTTAGTACACTTGAAATCATAATTGCAAATAATATTCTAAAAGTTATTATTGAAGCATAATACAAACCTTTATCAGTTATTGAAATAAATAAGAACTTAAAAATAGTACTACCTTCAGAATTAAATAATTGCATAACAAATGCAAAGACAATAATAAACCACAATGACTTTAATGATTTTAAATAATACTTTAAACTCAATTTCGATAAAATCATTAAAGAAAGAGTATAAACTATCATTAAAGAAGAATCATATAAACTATTTATTGAAAAAGAAAATATTGCAAGAACAAATAAACCAATCAACTTAACTCGTGGATCTAAAGAATGCATAAAAGATTTTTTTTCAACATACCTACCAAGGGCAACATTATCTAAAAACAAAACTATCATCCTTTCAATTTCTTTATATTATATTATACTATAAAAAACAATATCCTACTAACCATTATACATCATAATATGGTATAATAATATAGAATTTAATAAATTTTTTGGAGGTGGGAGTATGTCATTAAATAGCCCTTATTTAAAAGAAGTAAAAAACAAAATGGAAAAAACAATATCTCATTATGAAGATGAACTAAAGAAATTAAGAACTGGAAGACCTTCACCAGCAATATTTGAAGATATAAAAGTAGATTATTATGGAACACCAACACAAATAAACCAAACCTCAAATGTTGTTGTTGGAGAAGATAGAGTCATATCAATAACTCCTTGGGATAAAGGATTACTTGAAAAAATTGAAAAAGCAATAAATGCTTCCCCATTAGGATTACATGCAATAAATGATGGAAATGCTGTAAGAGTTTCTTTTCCTGCTCCAACAGGAGAAGACAGAAAAAAATGGGTAAAAGTAGCTAAAGACATGATGGAAGAAACAAAAATTGCTTTAAGAAATATAAGAAGAGAAGATATGAAAAAAGTTAAAGAAGATCAAAAAAAAGGAGAAATTCCAGAAGATACCGCAAAAAAAATTGAAGATGAAATACAAAAAATTTTAAAAGAACATGAAGATAAAGCAGAACACGTATTTCATAAAAAAGAAAAGGAGATATTGGAATCTTGACCAATTTGAAAATACCTTCTCACATTGGTATAATTATGGATGGCAATGGACGCTGGGCTAAAATGCAAAATAAAAAAAGAATATTTGGTCATGAAAAAGGAGCAGAAGTTGCTGAAAAAATAATTCAATATTCAACTGATATAGGGGTGAGATATCTCACCCTGTATTCTTTTTCAACGGAAAACTGGAAACGTCCAAAAGATGAGGTAAATTTTTTATTTAAATTATTTATAAAATACTTAGAAACACGATTAAGAAAAATAATCTCTAAAGGAGTAAAAATGAGATTTTCTGGAAATTTATCAGAACTTCCTCAAGATGTTCAAAAATCTTGTAAAAAAATTCAAGAAATAAGCAAAGATAATAAAAAATTAGATTTAATAATGGCTTTAAACTATGGTGGTCGTCAAGAAATAATTAATGCAGCAAATAATGCTATTAAAAATGGTAAATCAGAAATAACTGAAGATGACATATCTTTAAATTTGTATTTACCTGACGTTCCAGATCCAGATTTAATAATAAGAACATCTGGTGAAATAAGATTGAGCAACTTTTTATTGTGGCAAAGTGCTTATTCGGAACTTTATTTTACAAAAAAACTTTGGCCAGATTTTACAGAAAATGATTACCTTGAAGCTATAAAAGAATATACCAAAAGAGATAGAAGATTTGGTGGAATTGGAAGTGATGAGAATGCCAATAGGTAAAAAAAATCTTTTTATAAGAGCTTCATCTGGTTTTATAATAGGACCTGTAGTTGTATTTTCATATCTTTGGTATCCAACATTATTAGGATTAGTTACAACAATAGTAATGATGGCATCATATGAATTTATAAAAATGTCAAATCCAAAACTCTGTAGAAAATTCAGACTATTTATTGCATTTCTATTAGGAATAACCTCCATGGTATATGGATTTTCTTTAGAAGCTGAATATAGTGGAATTTTACCATTTGAAGCAGAATTTATATTTGTAATAGGATTTTTATTAATATCTTTAATAACAATTGTAAGATTAAAAGACATTAATGAAGCTAAAGAACTACTTTCTTCATCTACATTTTCATTAATATATATAGCATTTTTTCTATCATCAAATTATTTAACTCAAATAAATTATGGAGCTGGAATGGCTATATTAGCTTTGACCTCTGTTTGGGCATATGATTCATTTGCCTATATTTTTGGACTTACTTTTGGAAAACATAAAATTTCTCCAACTTATTCTCCAAAAAAAAGCTGGGAAGGCTTATTTGGTGGAATATTTGGAACATTCTTATACATTATTATTTATGATTTTTTCAGGGAGATATTCGGGTTACATACTCTAATAGATCTTGAATACGTTGCAGCATTTGCAATAATGGTTGGAATAGTCGATACAATTGGTGACTTGACCGAATCTATCTTCAAACGCTTTTACAATGTAAAAGATTCAAGTGGAATATTACCAGGACATGGTGGAATGCTTGATAGAATAGATGGATTATTGCTTGTTGTACCTATATGGTACTTTATGCTGAGATTATTCTGGATCTAAAAAAAATCTGGAGGGGATGTAAGTGAAAAATTCAAAAGAAGGCTTTACAATCGTTGAAGTTTTATTAGTTCTTGCCGTTATGGCACTCATTGCATCAATAAGTATACCTGCTGTGAACACTGTGCTATCTCAAGCAAAAGCAACAAAAATTATTTCAGATATGAGGAATATACAGTCTGCTGTAATTCAATACTCTATGTACAGTAGTGATGCATCAAGTTTAAGCATGGAGAATTTAGTAAAAGAAGAGTATCTAACAAATGAAATACCAAATATACAAATAAAAGATGAAACTTTACAAGTAGAAATCTATTATAACTCAAACAAACCAGATATTAAATACTTTAAAAAAATAGACCCTAATATAGAAGAGTACGATGGGAAACCATCCATTAGAGTTTTGAAAAAATAAACATGGAGGATTGATTCAATGAAATACATGACATCTGATGAAATAAGAGAAAAATTTTTACAATTTTTTGAACAAAAAAATCATAAAAAATTACCAAGCTCTCCACTCGTTCCAAGTGATCCACAATTAATGTTTACAGTAGCTGGAATGGTTCCATTCAAACCAATATTTTGGGGAAAAGTTGAACCAACACACACAATGATAACAACCTGTCAAAAATGTATAAGAACAAATGATATAGAAAATGTTGGAAAAACGGCAAGGCATCAAACCTTTTTTGAAATGTTGGGAAACTTTTCTTTTGGAGAATATTTTAAAAAAGAAGCAATACCAATGGCATGGGAATTTTTAACAAAAGTTCTTGAAATGCCTGAAGAAAAGCTTTGGCCATCCGTTTATATTGAAGACAATGAAGCATATGAAATATGGAAAAAAATAGTTCCCGAAGAAAGAATAATGAAATTTGATAAAAGTGAAAACTGGTGGGGACCTGTAGGTCCTACAGGACCATGTGGACCTAGTTCAGAAATATATTTTGATACTGGTTTTACAGATGATTGTCCAGATGTTGAAAACTGTACACCAGCTTGTGATTGTGGAAGGTTTGTTGAAATATGGAATATAGTCTTTACAGAATATTATGCCAAAGAAGATGGGAGCTTTGAACCTTTGGCAAGAAAAAATATAGATACAGGAGCTGGACTTGAAAGAATAGTTGCTGCAATACAAGGAGTTAAAACAAACTTTGATACAGACTTATTTAAAGAAATAATTGAAAAAATAGAAAATACATTAAACGTAAAGTATGGAAAAAATTCAAAAACAGACACATCAATAAAGGTCATAGCAGATCATGCAAGGGCAGTTTCTTTCATAATAGCAGAAGGTATATTACCTTCAAATGAAGGAAGAGGATACGTATTGAGAAGAATCTTAAGACGCTCTATAAGACACGCAAACCTTCTTGGTACAAAAACAGCATTCTTTTCAAAAATAATAGACTCTGTAATAGAAAAATATGAGAAAATATATCCTGAATTAATTGAAAAACAAGACTTTATAAAAAAGATAGTAAATGCCGAAGAAGAAAGATTTTTACAAACACTTGAAAAAGGATTAGAAAGATTAAACAATATCATAAAAAAAGGAAAAATCTCTGGTGCAGACGCTTTTGAACTATATGATACCTATGGATTTCCTTTTGATATAACAGAAGAAATTGCAGAAGAAAAAAATATTCCAGTAGACAAAGATGAATATTTAAAACTAATGAAAGAACAAAAAGAAAGAGCTAGAAAAGCCACTGGAAATAAAGAATATGCAAAATCAAATAAAGCCTATAAAAAAGTGGGAGATGACTTAAAAACAACAGAATTTACTGGATATAACTCATTAAATGAAACAGAAAAAGTATTGTATATAATAAAAGGTGAAGAAATAATAAATGAAGCAAATGAAAATGAAGAAGTTGAATTAATCTTTTCCAAAACACCTTTTTATGCTGAAAAGGGTGGACAAATTGCAGACATAGGAACAATAAAAAACACTCAATTTGAAGCACAAGTAAAAGACGTTCAAATAGTATATAATGAAGTAATATCACATAAAGTAATCATAAAAAAAGGAAAAATAAAAGTTGGAGACAAAGTTGAATTAACTGTAGACATAAACAATAGAAATGCAATAAAAAGAAATCACAGTGCAACTCATCTATTACATTCAGCACTAAGAAATATTGTTGGTAATCATATAAAACAAGCAGGATCATACGTATCCAACGAAAGACTTAGATTTGATATAACACATTATGAATCATTAACAAAAGAACAAATACAAGCTGTAGAAACACTTGTAAATGAAGAAATATTAAAAGCAACACCAGTAATTACAGAAGTAAAATCTTTAAACGATGCAAAAAATGAAAATGTTATAGCATTATTTGAAGAAAAATATGGAAATGAAGTAAGAATTGTTAAAATGGGAGAATTTTCAAAAGAACTTTGTGGAGGAACTCATGTTTCAAACACAGGTGAAATTGGACTCTTTAAAATTTTAACAGAAACATCAGTATCAGCAGGAATAAGAAGAATAGAAGCAATAACAGGTTTAGAAGCCTTAAAGTTCACACAAAAACAAGAAAAAATAATAAATAATTTAAACTCAATATTAAATACCTCAACAGAAAAAGTCGAAGAAAAAGTTCAATCATTATTAAAAACAATAAAAGAAAAAGAATCAACAATAAAAGAACTTGAAGCAAAAACAGCAACAGCAAACTTATTATCATTTATAGACAAAGGTATAGAAATAGATGGATTTAAAATTGTAGTTGGTGTACTTGAAAATGTTTCAAAAGACATACATAGAAATGCAACAGATACATTATTATCAAAGATAAAAGACGGAGTAGTAATTTTATTCAATAAATCAGACAAACTATCCTTTACAGTTAAAGTATCTAAAAACGCATTAAATAAATTCCATGCTGGACAAATAGCTAAAAAAATAGCAACACACCTTGGCGGTGGCGGTGGCGGAAGACCTGATTTTGCTCAAGCAGGAGGAAAAGATCCATCAAAAATACCAGAAATAATAAAAAATATACAAAACTTTATAAAATAGAAGCGGCTTAGCCGCTTCTTTATTTTTTGTTAAATATATAATAATTTCTTTTTTAAAAAAAGAAAAGAGTCAACCGAAAAGGTTGACTCAAAGAAAAGTGGCGGGACAAAAACCTACTCTTGCACACACGAAGTGTACTACCATCGGCAGATAAAGGCTTAACGGCCAGGTTCGGAATGGTTCTGGGTGGTTCCCCTTACCTTATCCTCGTCCCAAATTATTCACTCACTAGTGCATAAGAAAGTTTGTCCAAAGCCTCGGGTTATTAGTACCACTCGACTCAATACATCACTGCACTTACATCTGTGGCCTATCTATGTTCTAGTCTCGAACTACCCTTACCTCATAAATGAGCGGGAAGCCTTATCTTGGAGCCCGTTTCCCGCTTAGATGCTTTCAGCGGTTATCGGTCATGTACTTAGCTACTCAGCTCCTGCCATTTGCCTGACAGCTGATTCACCAGCGGTACACTCACTCCGGTCCTCTCGTACTAAGAGCAACCCTCCTCAAGCTTCCTACGCCCGCAGCAGATAGGGACCGAACTGTCTTACGACGTTCTGAACCCAGCTCACGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGGACCGACTTCAGCCCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACAACGCCGTCGATATGAACTCTCGAGCGTCATTAGCCTGTTATCCCCAGGGTAACTTTTATCCGTTGATCGACCGCGCTTCCACTCGCCTCGGCCGGGTCACTAGGACCATGTTTCCATTCTGCTCGACCTGTCAGTCTCGCAGTCAAGCCGGCTTTTGCCCTTGCACTCACCGGTGGATTTCCAACCCACCTGAGCCGACCTTCGTACGCCTCCGTTACTCTTTAGGAGGCAACCGCCCCAGTCAAACTGCCCACCTAACGCTGTCCGGCTCATGCTCTTCACATTCCACCGTTAGTAAATCATTATAATGAGGGTGGTATCCCAACGTCGGCTCTAGAAAACCTTGCGATCTTCCTTCTTCGCCTCCCACCTATCCTGTACACATTATAACCATTTACAACGTCAGGCTACAGTAAAACTCCATGGGGTCTTTCCGTCTAACTGCGGGTTGTGGGCATCTTCACCCACTCTGTAATTTCGCCGGATCCTCTGTTGAGACAGCTCCCAGATCGTTACGCCATTCATGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGGCTTCGTTTCGTAGCTCTCACCACTCCACTTAACCTTCCGGCACTGGGCAGGCGTCAGTCCATATACTTCCACTTTTTGTGTTCGCATAGACCTGTGTTTTTGGTAAACAGTCGCCTGGGACTTTCCACTTCGACTCTCAATCGCATTTTGCAACACCATCAAGAGCACCCCTTCTCCCGAAGTTACGGGGCTATTTTGCCTAGTTCCTTAACAGAGGTTATTCCGCTCCCCTTAGTTTTCTCAACCCGTCTACCTGTGTCGGTTTACGGAACGGTCAGTATTTCTCTCAAGCGATATACGAGGCTTTTCTTGGCAGTGTGACTCCTCCCCGTTAGACTTACGTCCTTCCCATCACAGTTTTTCCTCCACAAGCGGTTTTCCCTACTCGTTTCTTCGGCTTTACTGCTTAGAAGACCTTGCAACTTGGTCTCGGTGATTCACCTCCTGCGTCCCCCCTTATATCTCGTTCATACTGGTACAGGACTCTTTACCTGTTTCCCATCGATTACCCCTTTCGGGTTCACCTTAGGCTCCGACTTACCCTGGGTGGACGACCCTTCCCCAGGTACCCTTAGACTTTCGGGGTGAATGATTCTCACATTCATTTCGCTACTCATGCCCGCATCCGCTCTTGTGTCTCGTCCAGCAAACCTTCCAGTTTACCTTCTCCCTACTACACAATGCTCTCCTACCAATTGGATTACTCCAATTCCGCAGCTTCGGTGTATGGCTTTAGCTCCGTTACATTTTCGGCGCATTGTTCTTCAACCAGTGAGCTGTTACGCACTCTTTAAAGGGTGGCTGCTTCTAAGCCAACCTCCTGGCTGTCTTCAGAACTTCACTACCTTTCACACTTAGCCATTTCTTCGGAACCTTAGCTGGCGGTCTGGGCTGTTTCCCTTTCGACCACGGAGCTTATCCCCCGTAGTCTGTCTCCCGACTATTCAGTATTGGTATTCGGAGTTTGACTGATTTCTGAGGTCGCCCCCATACGTCAATCAGTGCTCTACCCCCAATACTTTCTTTGTCGAGGCCGTGCCTACACACGTTTCGGAGAGAACCAGCTATCACCCAGTTCGATTAGCTTTTCACTGCTATCCACATGTCATCCGAAGATTTTTCACTACCTACCGGTTCGGTCCTCCACTTAGTTTTACCTAACTTTCAACCTGCACATGGATAGATCACTGGGCTTCGGGTCTATCGCATTTGACTTTCGCTCTTTTAAAACTCGGTTTCCCTTCGGCTTCGTCTCTTTCGACTTAACCTCGCCATATACGATAACTCGCGGGCACATTAATCAAAAGGCACACGGTCACTTCCGCTCCCGTTTCCTGTAGGCATACAGTTTCAGGTTCTCTTTCACTCCCCTCACGGGGTCCTTTTCACCTTTCCCTCACGGTACTATTCGCTATCGGTCGACCAGGAGTATTTAGCCTTGGAGAGTGGTCTCCCCTGATTCACGCAGGATTCCTCGTGTCCCACGCTACTTGGGATCAGCTTCGATTAGTTTACGAGTTTTCGTCTACAGGACTTTCACCTTCTTTGGTTTATCTTCCCATATACTTCGACTTCCTCTTTACCTATTCCCTCTATTTACAGTTCGAGTTAAGCTGTCCCTCTACCCCAAATTGACAACGGCTGTACCCTTTTACATCAATTTGGTTTGGGCTCTTCCCTTTTCGCTCGCCACTACTCAGGGAATCTCTTTGATTTCTTTTCCTCCAGCTACTATGATGTTTCACTTCGCTGGGTTCGCCTCCCTTTCGGGCTCTTTCGGGTTTCCCCATTCGGATATCTACGGTTCTTCGATTGCTTGCTTCTCCCCGTAGCTTTTCGCAGCTTGCCACGTCCTTCTTCGCCTCTGGTCGCCTAGGCATCCCCTGTATGCCCTTTTTACTTTGGACTTTCTTTCTTATGCACTTGTCAATGAACTTTTCTGAATGATTTCTTTGGTGGAGTGAAGGGGGCTCGAACCCCTGGCCTTCTGCTTGCAAAGCAGATGCTCTCCCAACTGAGCTACCACCCCGTTCTTTTGCTCACTCAATAATGGATAGAGGCAGTTGTTCTCCTTAGAAAGGAGGTGATCCAGGCGCACCTTCCGGTACACCTACCTTGTTACGACTTCGCCCCCCTCACTAGCTCCACCCTCGATGCATCCGTTCCTTGCGGTTACAGCATCCATCTTCGGGCGTTTCCAACTCGGGTGGCGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAGTTTGGCTGACCTGCGATTACTAGCGATTCCGGTTTCATGCAGGCGGGTTTCAGCCTGCAATCCGAATTGAGGTACAGTTTGTGAGATTTGCTCCACTTCTCAGCTTCGCTTCCCTCTGTCCGTACCATTGTAGCACGTGTGTCGCCCAGAACATAAGGGGCACGCTTACCTGACGTCATCCCCTCCTTCCTCCGTCTCGTCGACGGCTGTCCCATTAGAGTAGCCCATCTCTACATGCTGGCAACTAATGGCAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACGGCCGTGCACCACCTGTGTGAGACTCCTTTCTTGCGAAAGTTAGTAGTATCTCTACTACCTTATCTCCATGTCAATTCCTGGTAAGGTTCTTCGGTTAGCTTCGAATTAAACCACATGCTCCACCGCTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATCCTTGCGGACGTACTCCCCAGGCGGTTCACTTATCGCGTTTGCTTCAGCACGGAACTTTGACATCCCACACCTAGTGAACATCGTTTACGGCTAGGACTACCCGGGTATCTAATCCGGTTCGCTCCCCTAGCTTTCGAACCTCAGCGTCAGGATTACTCCAGAAAACCGACTTCTCCACTGGCCTTCTTACCAATATCTACGGATTTCACCCCTACTCTGGTAATTCCGTCTTCCTCTAGTATCCTCAAGTTATACAGTTTCAAGCGCTGTTCCACCGTTGAGCAGTGACATTTCACACCTGACTTACATAACCGCCTACGTTCCCTTTACGCCCAGTGATTCCGGGCAACGCTCGCCCCCTACGTCTTACCGCGGCTGCTGGCACGTAGTTAGCCGGGGCTTTTCTTTACATACCTTCCTTGTACTGTCCCCAGTACTTTATATTCTGTAAATTCAGAAGTTTACATCCCGAAGGACTTCTTCCTTCACGCGGCATCGCTGGATCAGACTTCCGTCCATTGTCCAAAATTCCCCACTGCTGCCTCCCGTAGGAGTAGGGTCCGTCTCTCAGTTCCCTTGTGGCCGTTCGTGCTCTCACACCGGCTACCCGTCGTCGGCTTGGTGATCTTTTACTTCACCAACTACCTGATGGGACGCAGGCTCGTCCTTTGGCGCTTCTCTTCCTTTCCTCTCTCGAGCTTATCCGGTTTTACCTACAGTTTCCCATAGCTATCCCAGTCCAAAGGGTTGATTCCTACGCGTTACTCACCCGTTCGCCACTAATACTCTCCACCGAAGTGGATTTCTTCGTTCGACTTGCATGTGTTAGGCGTGCCGCCAGCGTTCACCCTGAGCCAGGATCAAACCCTCCATTCGAATGGTTTGATTCTCACTCTAGTTCTTTCTTACTAGCGTCCTTTTCTTTCGAAAAGTTTTATTTTACTACCTCTATCCATTTTTCAATGAGCTTCTTTCTCCTTCGCTTGCTTTTCCCTCAGCGACTCAATCATTCTATCACTTTCTCCTTCTTTTGTCAATTGCTTTTCTTTTACTTTTTTGTTTTTTTTATCTTACCCTTTTCCACTTGTTCGTGTGTTTTTGTTTTTTTAAGTTTTTTTTAAGTATAAATAGAGTATAATTTTAGTGAAAAAATTTAATGGAGGTGATATTTATGAAAAAACTTCTTTTATTAACAACTGTTGTTATTCTTTCTTTAAATTTATTTGCATTTGTAAATCCTAATTATGAAAGTCCTGTTGTTAATGTTGTTAAAGAAGCAGCTCCTGCTGTTGTTAACATAGAAGCTTCTGGTAAAAGAACTGTTGCAACGAATCCCCAATTTGATGATTTTTTTAAAAGATTTTTTGGAGGAGAAATTCCAGGTTATCAACAAGAACAAGAGTATACAAGTCTTGGTACCGGATTTTTATTTAATAAAGATGGATACATATTAACTAATTATCATGTTGTTGGCGGATCTGACAAAATAACTGTAACAAGTGTTAATGGTAAAAAATATAAAGCAAAGTATATTGGTGGAGATAATGATTTAGATATAGCTGTTATAAAAATAGATAATAAAGATAATTTACCTGTTTTAGAAATAGCCGATTCAGATAATATAGAAATAGGTTCTTGGGCTATTGCAATTGGTAATCCACTTGGTTTTAAAAATACCGTTACTGTTGGTGTTGTTAGTGCATTAAATAGAAAAATAGAAAAACCCGATGGTAATGGATATTATATAAACTTAATTCAAACTGATGCAGCTATAAATCCTGGAAATAGTGGAGGGCCTCTTTTGAATATTCATGCTCAAGTTATGGGTATAAATACAGTAATAGTAAATCCTCAATCTGGTTTTGTTAATTTGGGTTTTGCAATTCCTATAAATATGGCAAAAAGATTTGCAGATTCTATAATAAATGGTGGAAAAATTGAAAAAGCTTATTTAGGAGTTTATATGCAACCGGTTACAGAAAACCTTAAAAATGCACTTGGTCTTAAAGTAGATAAAGGTGCTTATGTTAGCTCCGTTGAAAAAGATTCACCTGCAGATAAAAATGGTATTAAAAAAGGTGATGTTATAATTAAAATTAATAATTTTAAAACAGATTCTGCAGAAGAATTAGCTTCTATAATAAAAACATTTCCAGCTGGAACAACAGTTACTGTTACTTTAAATAGAAAAGGTAAAGAAATAAAACTTGAAATACCTCTTGGAAAAAGAAGTAGTGTAGTTGCTACAGCAAAAAAAGAATACTTTGGAATGAGCGTTAGAAACTTAACTTCAGACGATTTAAGTGCTTTGAGATTACCAAAAGATTTTCATGGTGTAATAGTTGAAGAAGTAAATAAAGGTTATGCTGCTCAACTTGGTATTAAAAAAGATGATGTTATTTATGAAGCTGCTTTAAATGGTAGAGAGTATCAAATAAAAAATGTTTCAGATTGGAATAAGATTTTTTCTAATTTAAAGAAAAATAGTTATGTTGCTTTTATGGTTAGAAGAAATAATTATAGTGTAACTGTAAGCTTCTATTACAGAGGCGAATAATTTTAATAAAAAAAATGCAGAAACAAATGTTTCTGCATTTTTTTTATTCTCTATCTATTCTTTCAATTAATTCAACAAATTCATCAACTACATCATTAACTAGCTTTTGATCTTTTCCTTCCGTCATTACTCTTATTTTGTGTTCTGTACCTGATGGTCTTATTAAAACTCTAAAGTCTTCTATGTTTTCATACTTTTTTATTTTTTTTATTATTCTTTCATCTAACATTATAGATTTTTTATCTTTAACTGAAACATTTTTTAAAAGTTGTGGATAATCTGATATTTCAGAAGTTAATTCTTCTATTGATTTATCAAAATAAGATAATGTGTGAAGTGTTTCAAGTGCTGTTATTATTCCATCTCCTGTTGTTGATCTATCTAAAAATATTATATGTCCTGATTGTTCTCCACCAATATTTGCTCCAAATTCTAACATTTTTTCAAGTACATATTTATCTCCAACTTGAGTTCTTAATAACTTTATACCATGTTTTTTTAAGTATTCTTCAAATCCTAAATTACTCATAACCGTAGTAACTACTGTATCATTTTTTAATCTATTTTGTTCTTTTTGTTTAAATGAATTTATAGCTATTAATTTATCTCCATCTATTAAATTTCCGTTTTTATTAATGAACAAACACCTATCTGCATCTCCATCAAATAAAATTCCCAAATCATATCCATCATTTTTTACTATATTTGAAAGTGTTTCTGGAACAGTTGAACCACATTTTTCATTTATATTAAATCCATCTGGTGTATTGTTATATATATCATACTTTATTTCAAGTTTATCAAATATACTTTCAACAACTGTTCCTGATGCTCCATTTCCCACATCTATTGCTATTTTATACTTTGTTTTTAATCCCTTAAATATATCTACTATATAATCAATATATTTATTTTTTAATTTACTTCTTTTTACTTTTCCTATTTCACCATATGGTGAATAATCCATTTCTTTTGATAATATTAAATTTTCTAAGTCTACTTCAAGTTCATCTGGTATTTTAAATCCTTCACAAAATACTTTTAATCCATTGTATATAGATGGATTATGAGATGCTGATATCATTATTCCTATTGCTTTTTTTTCTTTTGTTAAGTGTGCTAATGCTGGTGTTGGAATTACACCACATATTTCAACATTCATTCCCGCAGATATTGCACCTGTTGCTATTGCATATTCAAACATTTCTGCAGAATTTCTTGTATCACTTGCAACTAATAATGTCTCATATCTTCCAGCATATATTTTTGCAAGCGAGTTTGCCAATCTTACTCCAACTTCTATTGTTAATTCTTCATTTACTATACCTCTTATTCCATCTGTTCCAAATAATCTTTTCAAAATCCGTTTCCTCCTTACAACATATTGGGCAGACTATAAGTCTGCCCAATTTTTTCTTATTTTTATTTTTAAAACTCTACAGATGTTGTTATATCAACTCTATTTTTAAAGTTATCTTCTGTATTGTCATAAAATGTAACATATGATATGTATAATCCATCTGCCATTTCATATGAAATAGAATACTCCATATCTGTTTTTGCATCAAATGGTTTTTCTATTACATTGTTTAACCACTCATTGTCATTCATATTTCTATTATAGTATCCAGTAAGTAAAAATGGATATCCTTCAAATGGGCTTTTTACATTCAACCAAGCATATATTCTTTGATTTGAAAAACTTTCTAACATACCATTTATATCATAATTATACCTTGCATTTGCAGTTAATATATTTGTATATTTTATATTCAATTCATATATTCCACCGAATCTTGTTTTATTTTGATTTAAAAGTTTTGTATAATTGTTTCCATTTTCATAATCTTTGTCTATATAACCAAGTAATGTTGATTTACTCATATACAATATAGGCAATGCTCTAAATCTAATAATTCCTAAATCTAAACTTCCACCTATACCCGCCATATATCCAAATGTTTCTGTGGATGGTGAAGATGTTGTGATTATTCCACCTTCTCCACCTAAGTTCATTCCTAAAATATTTATATATGCTCCTCCGCCTAAAACTGTATCATTGTGTGTTAAGTTTTCTCCCATATTTTTTGCTGCAAACAAAGAAAGTGCTCCATAGTTTATAGTTGAAAAATACAATGATGAACTTTGTTTTAATTCAAAGTTTGGTGTCCAAGTGTTTATTTCAAATGGAATATGTCCTCTTAAATTTATTGATTTCTTACTTCCAATTCTAACATCAAATGCTCTTTCTAACTTATTTGTATATCCGTACATCATAGTACCTAATCCAAATGTATATTTTCCCATATAACCATATCTTGCACCAAATGGATCAAAATCCACTTCAAGAAAGTTTAATGAAAGACCATTTATAAAATCTGTACTTTCAGATGTTGGAGAACCATAATAAAATGTTCCACCTATATCTTTTTGATATGCATTTAATCCTATTCCAACTTTAAATACATCTAAATCTAAAACAGGAGTTATAGAATAAACTAATTTTTTATCGCTACCTTCTCCATAGGTGTAAAATAATGGTTTAATTGTAAACCCTGCTCCAAAAATGTATGCTGCTAATAGTATAGAAGTTATTAAAACTAATACTTTTTTCATAAAATTTCCTCCCTTCTTAAATCTTCAGCTGCTTTTTCAGGTAATACAGAGTTTATATAAAAGCCTGTTCCCCATTCAAATCCAGCTAAATTTGTTAATCTTGGTATTATTTCTATGTGCCAATGAAATATTTTTTCAATTCCTTCAATAAATGGTGCTGTATGAACAACCATATTAAAAGGTGGGTTCCCCAGTGTTTTATCAAATTTTTTAAATACAGTATGCAAAATGCTTGAAAGTTCAAAGATAATATTAGGATCTCTTTCTATACTCTCAAAATTACTGTCATGTTTTAATGGAAGTATCCATGTTTCATATGGAAACCTAGCAGCATAAGGTTCAAAAGCTATAAAATTTTCTGTTTTTTGTATAACCCTATCTTTTTCCATAATTTCTTGTTCTATTATATCGCAATAAATACACCTATCTTTGAACTTATAATAATTTTCTGCTCCATTTAATTCTTCTAAAATATTATATGGAACTATTGGTGTTGCTATTATTTGAGAATGCGGATGAACAAGTGATGCACCAGCTTCTTTTCCATGGTTTTTAAAAATTTGTATATACTTAACCTTTTTATCCTTTTTAATTTCTACAAATCTTTTTAAATATGCCCAAATAACTTCATTTATTTGTTTATCAGACATTTTTGAAAAACTTGTATTGTGTTCTGGCGTTTCTATAATAACCTCATGATATCCAAATCCTGTTATTTTATCATACATACCATGTCCACTTTTTTTTAATTCAGCATCTTTATAAAGTGCTGGAAATTTATTTGGCACAACTCTTACCCACCATCCTGAAGTATTTGGTCTAGTATTAGGTCTTCTAAAAGATAAAATTTCCGATGGTGTTGTATTTTCATTTCCATAATCAAATGGACAAAAATTTTCTATTACTTCTTCTGATTTTATATAATTATTTGGTCTTCCAGCACGTTCTGTAGATATAATAACCCATCTTCTTGTTATTGGATCTTTTCTAAGTTCACTCAAATTGGTCACCACCTATTTTTATTTGATGACGCCATTTTGTACAATTCCTTATATTGTTTTGCCGTATTTTCATAAGAAAAATCTTGTTTCATAATATTTTCAAATAATTTAATCCAATTATCTTTTTTTATTTTATATTGATATAATGCTTTTGAAACTGCCATTAGCATTTTACAGGGTTCATATTCATAAAATCCAAATCCAGTTCCTGAATTTGGATTATAGTATTCTCTAACTGTATCAGAAAGCCCTCCTGTATATCTTACAATTGGTACTGTTCCATATCTCATGGCATACATTTGCCCTAATCCACAAGGTTCATACTTAGAAGGCATTAAAAACATATCTGAACCAGCATATATTTTAAAAGCTAAATCCTCATCAAACATTATGTTTGCTGAAACTTTATTAGGATACTTTTCTTGTAATTTTTTGAAATAATTTTCATATCCTTCTTGACCAGTTCCCAAAATAACTAACTGTACATCATACAGAAGAAGATAATTTGATACTTCTTTTACTAAATCTAATCCTTTTTGATCTACTAATCTACTTATTAAAGAAATTATTGGTACATCTTCTTTTTGAGGTAATTTTAATAACTTTTGTAATGATAATTTATTTTTTATTTTTCCAGAATAATCATTTATTTTAGAGAATATATTTTTTTCATTTAATGGATTGTATTTTTCATAATCTATACCATTAATTATTCCATATAATTTATCTGATCTTATTCTTAATACTCCATCTAATTTATAACCATATTCTGCTGTTTGAATTTCTTCAGAATACGTTTTACTAACGGTATTAATAATATCTGCAAATAGTATTCCACCTTTTAGATAATTAATGTTACCATAGAATTCAAGTGCATCAACATTGTATAGATAAGTTGGCAATCCAATTATTTCTAACATTTCTGGTGGAAATATTCCTTGATAACCTAAATTATGTATTGTTAGTACAGTTGAGATTTTACCAAGAATTGAATCTTCAAAATAATTAATCTTTAAATATACCGATATTATGGCAGTTTGCCAATCATTTATATTCAAAACTTCTGTATCTTTTTCAAATTCTTTTACAACAGATAAAACACCATCACTAAAGTAAGAACTTTGAAGTGCTAATCTTTCATCTTCCTTTTCATAAACATCTTTTCCAAATATATCTGAATTTTTAATAAAATAAATTTTTACATTTGAATTAGGCAGAAAATAACTGTATAAAGAAAATGGTTTATTATAGCTATGACTATTTGGATACATTTCTTCTTTTTCTAAAGTAAACTTACTCGTATCAAACTTTTTTTCTATAATACTATGAAACGGCATTATCACATAAACGTCTTCTCCAATTTTTTCAAGATACTTAGGTAAAGCGCCTGCAACATCGGCAAGTCCTCCAACCTTTGCAAATGGTGCAACTTCATATGATACATAACCTACTTTCATCTTTTCACCTCACTTTATAAGGTTTGTCGTGGGTAAATAAAATCCAATCAACATTTGATATATTTTCTTTCATTATATCTGCCACTTTGTCTGTTCTCAAATTTCTAATAATATCATAGAGCTCTATTCTATTCATACAAATATCTCCTGGGAAAAATACTTTTCCCATATTTTCTGTATCAAATATAAATGAAACATGATCTTTAGAATGATATGGTGTATGTAACACCTTTATCTTTCCTAAAATTAAATCTCCATCTTTAAAAGTTTTAACTCTTCCTTCCCAACTTTTAACCATTTGATCATATGCTTGACCCATTATTATTCCAAATTTTTTATAATCTTTTTTTGAGTAACTTTCATGAACGTGTACTAATGATTTTTTAAAAAATATGCTATTGTATCCATGATCTAAATGAACATGAGAAATTATTAAATCTGTTATATCATCTGGTCTTAAATTTCTTTTGTTCATTTCTTCTTCTAAAAACATAATTGAAGGTAGGTATCCTGGTTCTAAAAGTATCTTTTTATTTTCAAATTCAAGAAGTGCTATTGTAGAAAAAGATGATTGAACACTTCCAGGAATCCAAACATTTCCTCCATTAACCAATATATCTATTTTCACTCCAAACCCTCCTCAAATATAGTTTCATAATCAATCTTTGCATCATCTAAAATATCTGATACTAAGTTTACGTTTTTTATATTTAACTTTATAGTTATAAGCCTTTTTTTATCATCTATTTTATTTGTTAAAAGAGATAATATATTAATATTTTCTTTTGAAAGCACATTTAAAATATACTCCAATTTTCCTGGTGTATCATCTAATATGAGCATTATTTTAGTTCCCATTTCATCCATACCCAAAATCCCCTTAAATGCCCTTAAAACTTCAAAAAAACCAAAAATACCCATTGGATACATTTCAGTATCCACAACTGGTAAAACCCTTATTTCATTTTCTAACATCAAATGAACTGCATCTTCAACCATATCATCGCCATACAAAAAAAATTCAACAGGATCATAAACTTCATATAATTTTGTTTTTTCATCTTTTTCAATTAAAAATTTATAATCATCAATATTTATCATATTATAAATGGTATTATCTTCTCTCAAAATAATAATTACTTCTTTTGTTTTTTCCATTAATTCAATAACTGTTTTTATACTATTATTAAAATAAACATATTTATACCGAGAGCTATACCAATTATTTACATACATGTTTATATACCTCCATTATTTTTCTTCTTTAATAAATTATACATCAAAAAAATAAAAAGGGCAAAGCCCTTTTTATTTTATTCTGCTAATTTTTTTTCTATTTCAGCTAATTCTTTATTTATTTTTTCCCACTCTTCTTCTAGTGATTTATCATGTTCATCAGGTCCCATATACTTTGCAACAGAAGCCTTTTCCAATTCTAAAATTTTTTTTCTTTTTAATAAATCTTCCCTACTCATTTCTTTTTCCATAAAATCACCCCCTGTTTATTTTATTTTACCATAAAAAAATATAAATTTCAACTTATATTAAAGTTTTTCTTCAAATATACTTATTTATAAAGAATTTAAAAAATCACATATTATTTTTGAAGCTTTTCCATTCCCAAAAGGATTTGAAGTATTTGACATTTTTTCATAAAGTTCCCCTTCAAGTTGTTTCATAGTATTATAAACATCATTAAAATCTGTACCAGCTAATAAAGCAGTTCCAGATTCTAAAGCTTCTGGTCTTTCCGTAGTTTTTCTTAAAACAACCGTTGGTTTTCCCAAAGAAGGAGCTTCTTCTTGAATTCCTCCACTATCTGTCATTATATAATGACATCCATCCATTAAACTTATAAATTCTAAATATTCAACAGGATCTATAAGTATTACATTTTTTAATTCTTTCAATTCTTCATTTACAACTTTTCTAACCATTGGATTTAAATGAACAGGAAATACTAAATTCATATCTGAATTTTCTTTAAGATATTTTTTTACGGCCTTTAAAGTGTTTTTCATTGGATCTCCCCAATTTTCTCTTCTATGCATAGTCATTAAAATATATTTTTTCCCTTTTAAACCATATTTTTCTTTTATTTTTTCTATTTCATCTTTTTTATTTTTTTCTACCCATAATAAAGAATCTATAACTGTATTACCAGTAATAATTATATTTTTTTCATTTATACCTTCATTTAAGAGATTTTTTTTAGCTCTTTTTGTTGGAGCAAAATGATAAGTTGCAATTGTTCCAGTTATTCTTCTATTCATTTCTTCTGGATAAGGGTTATAAATATTATTAGTTCTTAAACCAGCTTCAACATGACAAACTTTTATTTTATTATAAAATCCTGCTATACTACCAGCCATAGTACTTGTAGTATCTCCATGAACTAAAATATAATCAAACTTTTCTTTTTTTAATATTTTATCTATCGAAACTATTAATCTTGAAGTCAATTCTGATAATTGTTGATTTGGTTTCATTATATTTAAATCATAATCTGGTTTTATTTTAAATATTTCAAAAACTTGATCGAGCATTTCTCTATGTTGTGCAGTTGCAATTATTTTCACATCCATTCCAAGTTCTTTCATCTTTAGATACACTGGTGCCATTTTTATTGCTTCTGGTCTTGTTCCAAATATCAATGCTATTTTCATAAATTCACCAACCTTTAAAAAAGCACTATAACTAAGTTATAGTGCTTTATTTTATCTCATCAACATTTGCAAGAATTATACAATAAACTTCTATTCCTTCATCTTTTCCAGCAACACCAAGGGTATTTCCACTCTTACCCTTTACATTTATTTGATTTATACTTATATTCAAAGCTTTTGAAGTATTTTCTTTTATTTTTTCTTTTACATTTGATATTCTTGCACTTTTAGAAACTATTGTAGAGTCAATATTATTTATTTTTAAATTAAATTTTTTATTTATTTCATTATATGTTTTTTTTAAAAGTTCATAACTGTTAGCATCTTTAAATTCTTGCGTTTCAGGAAATAGTTCTCCAATAGAACCCATCCCACATAATCCTAATAATCCATCTATAACAGCATGAAAAAAAACATCACCATCAGAATGGCCATCTAATCCTTTTTTATTTTCTATTTCAACTCCACCCAAAATTAATTTTCTATTTTCAATAAGTGGATGAACATCGTATCCAAAGCCTACTTTTAACAACTTAAGACCACCTTGTTGGCATTACAAGATACATGTAACTGTTATCTTCTATTGGTTTTAAAATAGTAGGATTAACATCACCTGAAATATTAAATTCAAACTCTGAAGTTTCAAGCTTTTCTATAGCTTCTCTTAAATATCTTGGAGAATATGCTATAAGCATATCTTCACCTTCTTTTTGAACCTCAATAACTTCCTTAGCTTCTCCAACATCTGGAGAATTTGCCATTAAAGTTATATTTACATCTTCAATATTTATTCTTATTTGTTCAGTTTTTCCAGCAGCAATAGAAACTCTTTTTATAGTATTCAAAAATTCATTTGTTGATATTGTCATTTTAGTTTTAAATGCTTGAGGTATAAATTCTGGATAATTAGGATACTTAGCATCAACAACATTTAAAACTAATTCTATATTTTCTTCTTCAAAACTAAACATAGTTCTTGAACCATCAAAATTTAATTTAAACTCTTCCGATTTTGAGTTAGCTAAAACAGATTTTAACTCTTCCATACTCTTCAAAGATAATAAAAATGAAGTTGGAAGATTTTCTTCTTCTAAATGCGTTTCAGACAAAGCTAATCTATATCCATCAGATGCAACAAGATTTAAGTATCCTCCATCTCTAAAGTCCCAATAAAGACCATTTAAATTTCTAGATAATGGATCACTATCTTTTATAGCACAAAATATTACTTTTTCTATCATTTTCAATATTTCTATTCTTTTTAAAGTAAGAACATTTCCAACAACATTTGGTATTACATCTGGAAAATCTTTTCCATCCATTGTTGGTAATTTAAAGTTTGAATATCCTGATTCTACAATTAATACACCATTATCATAAGTTAATTTTATAACTCCACCAGGCAATGTTTTTATTATTTCACTAAATATTTTTTGATCTACAACAAACGAAGAAACTTCTTCTAAAGCATTTTTTACTTTTAAAATTTTGTGAAAACCTGTTTGCAAATCAGTTGCATAAAAATGAATATTTTCTCCCTCAGCTTCAATTTTTATTCCAGAAAGTATAGGATTTGTTGTTTTCTTAGCAACAGCATTAGAAGCCATTTCAAGAGCATCACTCAAAAGCTTTTTTTCTATTTCAAAGGTCATATTAAAAACCTCCTTCTCTTATAATTTTATTTAATTCATTACTATTTTACATCAAATATCTTTAAAAAACAAATATATGGTATAATATTTATGGTGAGTTTATGAAAAAACTATTTTTATTATTCTTTTTAATAACCATTACCTTATTTTTTTCTACAGATACCATAATAAGTTCATATGAAACATCTAATATAAAAGGAGTTGTTATTAGCCCCTTTGATTCTTATTTTACTATAATGAATGAAAATAAATATTTAAAAGTTTATGACTTTTCAAAATCATTAAAAAATTATTTAGAAACATCTGGAAAACCAAATGTATTAGCTTGGAGTAGCGATGAAAAATATTTATTTTCTGGAAATATAAATGGAACTATTAATATCTTTAATATAAAAGATAGCACTTTTAACTTTGATATTTCTTTAACTTCACAACCAATAATTTCTTTAAATATTAATAATAAAAATCTACTTTTTTCTTCTTTAGATAAATCAATATATGTATATAATATAAAAGATAGAAAAAAAATATTTTCATTTAAAACTATTGGAATACCTTATTCTGTAAAATTTATAGATGAAAATAATATAATAGTTGGTGATTCTTACGAAACATTGTACAAAATAAATATTTCAAATAATGAATATAAAAAAATAAAAATAAATGGATACATAAAAAATATTTTTTATGTAGATAATGAAATCCATGTTTTTCTAACAAATGGCTATATCTTTATTTATGATAAAAATTTAAATTTAATAAACAAAAGAAATTTAAACTTAAACATAGAAAAAATATTCTTATCTCCTGATAAAAATTACTATGCAATTCTTTTTTCTAATAACGATGTTATGATATATAGCTCAAAATCATTTATAATAATTAATAGATTAACTGTTGATAATCTTGGATTTAAAATAAAAGATGCTTCATGGTCATCTGAATGGCAGTACATCTATGTAACCGATGGGAAAGATATATACAAAATAAACTTTCCATATGGAATCAGAGAACTTTTTTATAAAAACCTTGGAGTTCTAATAAAAAGAGTTATTTGGAAAAAAAATAAAATAATTTATTCAGACTCTAACTCTAATATTGGTGAAATAAATATTGAAACTGGTATAATGGAAAAGTTTTTATCTTTAAAACCATTTAATTATTTTGATATCAACAATAAATATATAACAACTGTAGACAACAGTTATATATATTTTTATTCTTTGGATGGAGTTCTTTTAAAAAGTAAAAAACTCTCTAATTCTAAATTAACCGTTGTAAAAATAAATCCAAATAGTTTATATGCTGTTGCCGGTAGTATAGATGGAACTGGATACATATATAATATAGACAAAAATACTTTTAAAACTGTTAAACTGCATCAAAAAATGATAAAAGATATTTCCTTTAATAAAGATGGAGATTTTGTTGCAGCAACTGCTTATGATAGAACAGTTAGTATATCAGATTTTCCTAATATAACTACAACAAAAAGAATTAATGATTTTAACTTTAATATTTGGTCTATAGATTGGGCAAACACTAAAAACTTTATAGCTGTAGGAGGTTTTGAAGGAGTTTTAGAAGAATGGGATCCACTATTTAAAACAATCATAATAAAAACTGGAATTTCAGCAGGCTCTATAAATGACATTAAATGGAGCCCAGACGATAGATTAATTGCAACATCCTCTGAAAATTCTAATATTTATATTTGGAACTCTTTTACTGGAGAAAAAGTAAATGTGTTAAATTTAAATAATGAACAACCTGTAAAAGATATAGATTGGAGTAATGGTGGAAAATATATAATTTCATCTGAAAACTCTAATTTAATGAGATTATGGAATATTGATACAAAAGAAAATATTGCAAATATATTAGTTTATGCAGATGGAAGTTTTATAACTTATAAAAACGACGGAGAATATACTACAAATATTCCAGAAAAAAATGAAAAATTTTATTTTTATAAAAATAATCCTCTATCATTATTTGATGTTTTTTACTTTAAAAGAATAAATAAACTAAATTTAAAAGAAGTAGAACCACCTCAATTAAATGTATTATCTGATTTTATTGTTGAAAAAAATAATTCATCTTTATTAATATCTTTTTCTGATAATAATCTAGTAAAAAAAGCTCAAATAGGAAATGATACTTTCATAATAAATAAAAAGTCTTATAAGTTAAACTACACAATAAACATAGAAAATCTAACATCTGATATATTAAATATAATGGTTTTCGATGATAATGGAAATAAAACAGAAAAAAATGTTCATTTATCCTTTAAAAATATAAAATTAAAAGTTATATCAAAGGATGTATACATAAGAAATGATAGTGGAAAGATTATTGGAGTCCTTACCGGTAGCATAAAAAATTTTGTGTAAACGGCTCTTCTTGGAAGGTAAAAATAAATAAAATTAGTTATTATTTTTAAAGTATTTCCATAAGAATTATCGACTATAAAGAAATATGCTTTAAGAGTAAATTTTAGAAGTTTTTAGTATAATTTTTTGTAATAAATAGCCTTTTGCAACTTTTTATTGCAAGGTATAGCATTATAATATTTAATATTCATTTTTGTGTGTTATAGGTATTTTTTGTTATGTTACAAAGTATATTTATGTTAGGAATTATAGATATATTTTGTAATTCTTTCATTAAAAAAGATGGATAATTCGTTTAGGACATTGCTCCAATTTCTATAACGAGCTGTCCATCTTTTTGTTGCATTTATTGTTGCTAAATAAAGCATTTTCAATAATGCATCGTCATTTGGAAATGATGTTTTATTTTTTGTTGCTTTTCTATATTGCCTATTTAATGATTCTATTACATTTGTTGTGTACATTATTTTTCTTACATCATCGCCATAATCGAAATAAGGAGATATTGTTTCCCAATGTTTTTCCCAACTTTCTAATGCTAATTTGTATTTAGTCCATTTGTTTTCTTTCAAATCTTGTAAGTTTGAATAGGCAATATCTTTATTTGGTGCTTTATATACTTTTTTTAAATCATTAACAAGTTCTTTTCTATCTTTGTAACTAACATATTTTAATGTATTTCTTATTTGATGTATTATACATCTTTGTACTATAGTATCTGGGAAAGCAGTTTTTATTGCTTGTGGGAAACCTGTTAATCCATCTACAGAAGCTATTAATATATCTTTTATTCCTCTATTTTTTAAATCATTTAATACTCTTAACCAAAATTTTGATGATTCTATTTCACCTATATATATACCAAGTACATCTTTAAATCCATCTATATTTACACCAAGTACAACATATGCAGTCTTTTTTATTATTTCTCCATCATCTTTTACTTTAAACACTATTCCATCCATAAACATAAAAGTATATATTTCTTCTAAAGGTCTGCTTTGCCATTCTCTAATTTCAGGTAATATTTTATTAGTTATTTTACTTATCATTTCCGCTGATAATTCTACACCATATATGTCCTCTACGTTCTTTACTATATCTTTTGTGCTTAATCCTAAACCGTACATACCTATTATTCTACCTTCAATATCTGAGATATCTTTTTTATACTTTGGTACTATGGCTCATATTCACCTTTTCTATCTCTAGGTATTTTTAATTCCATTTCTCCAACACTTGTTCTTACTCTTTTTGAACTGTACCCATTTCTAGAATTATCTGTTTTCTTGTTTTCTTTATCGTATTTCCCATAACCTAATTCATCTTCTAATTCTGCTTCTAACATCCCTTGTATTAACGGTCCCACTAATTCTTTTATCTTTTCATATACATCTTTTATTGTGTTTACCTCTGGATCCCTTGCTATTAATCTTGCTAATTTTTCAATGTTGCTTTCTTCTTTTTCTTCTTTTTTCCTTCTTTCCATTTTAAAAACCTCCTTCCTGGTTTTATTTTACCATCCCAAGAAGAAGGTTTTTCATTTTTTTATTTACACAAAATTTTTTATGGTCTCATTTTTTATGCTATCTAGAAATGAGAAACAGAACAAATACGAAATAGAAAAGAAATATATAAAATTAAATAATCTATAATCATTTTTTTATCTATTTTAGATCACGTTTTTCGAGTATGATTAGAGAAAAAATAATAAATATTGTTGAAAATACTAAAAGGATTAACATGTTATTAAATGAATACTTTAAGGTAATAAACCCCATAAATGATATATCAAATGGTATATTGTATATTATTGTACTTATGACTTTGTTTTTACTTGGAATCATTTTTAAAATTTGATAAAATTCTGGAAAAAATAATAATAAATTTATTATTATACTCATAATAGCATTCAACGTAATATATGAAACAAAAAGATTGAATGTTGAAATAAATATTCCCAAAAATAAAAAAACAACTAAATTTTTTAATATCGTCATCATATCAAATGAAATATTATATACAATTATTCTAAGTAAAGTTGTACTAAGTGTAAAAAAAAGAAACGTGAAAATATTTGCAAAAATCATAATTAAAAACTTTTTAATTAATACCTCTTTTCTTAAATTTAATCCAGTGTATACAAATTTACTCGTTTTTAAAAAAAACTCATTGGTAGATATGATTGAAATAAAGTATAAAAATATGAAGAACGAAAATAATAACATAAAAATTTGTACAAATTCAAAGGTCATTATAGGGTCAAAACTTTTTATAAAAATAATTACTGTCGGGATTAAAAGAGATAAAAAGAGTTTTTTTAAATAATTTTTTCTAAATTCAAAAAATGCAGATTTAATCAAATCAATTCCTCCTAAACAAGACTTACTTTCTCAGTTATTAAAAGTGAAAGTATATAGCAACTAATGGATACACTACTTATTATTAAAACTTGTTCTAATGTTATATTTCCAAATATAATCCATTTTTCAGGTATTTCAAATACTTTTTTTAAAATAGCTGGATATATTTCATTTATCCACATATTCAACTCAAAAATAAAGAAATTTATGAATAATAAATTTTTACCATTAATTTTTACAGACAACATGAGTAATGAAATGCTTCCTACAAAAAAAGCATATAATATGGAAATTAAAATATAGTTTAATGCTTTTTGATCCAAAAAATAAGAAAAATTAAATGATGCATATTTCAAGGTAGTTAAAACCACAGTGATTATATAAATCAACAAACCATAAAATAATCCTATGAGCAGGACTACCATTAATTTTTCAAACATAACTGATATTCTCGAAAAATACCCTGTAAAAATAAATTTTGAAGTTTTAAACAATAAATCCTTAGCTACAGCTAAAGAAACAAAGAATACCATTAAAAAATATTGGCAAAATGCTACTACATTTGAAATACGTGATACACCAACTTTTTTCAAAACCGTATTAGAAATAAAAAATATAGCCAATACTGTCAAAATATTTAAAATAATAAATATTCTTGTTTTAATCATATAGTAAAAATCTAAAAATGAAATCTTTATTATATTAATCAACCAAGTTCCCCTCCATCTTTCTAAGAAATCTATCTTCAAGTTTTTCCATGTATTCTTTCATTTCGGTAATAACAATTCCTGAACTTAATATTTCAGGTATCAAAAGTTCTATGTCTTTTTCTTCAAGAGATGCAATTACTCTGTTTTCTTCATTTATTTTTGAAAAAATATTTTTTGATTTGAAAAACTCAAACAATTTTTCTGCTTTGTTAGTTTTAAAGATAAACATCTTTCTTTTGCTGTTTCTTTCATTTTCAAGGTCGATTCTGTCAACAATTACACCATTTTTTAAAAACAGAACCTTTTCACAGATAGTTTCAATTTCTGAAAGAATATGACTTGATATGAATGTTGATATATTTTTCTCTTTAGCATAATATCTGATAAAATCTCTTATTTTTGGAATAATAGTAGGATCGAGTCCATTTGTTGGTTCATCAAGAACTAAAATTTTAGGATTTCCTAAAACGGTTTGTGCAATACCAAGCCTCTGCTTCATTCCCATAGAATATTTTGAAACCTTCTTTTTCATAGCATTTTCTAATTCAAGAAGGGAAATAACATCGAGTATCTCTTGTTTACTAACTTTTCCGTAGTACATTGAAAGCAATTTAAGGTTTTCGTACCCCGTAAGATGTGGATAGAATCCGGGAGTTTCTATAATGCATCCTGTAAGCTTCTGTTTTTGTTTCTTCTTTTTAATTTTTCTTATATTTTCACCATCTATGTAAATATCACCTTCGTAATTGTTAATCAAACCGACGATTATTGACATTAATGTAGTTTTTCCAGCTCCATTTGGTCCAACTAATCCTATGATTTCTCCTTTTTTTACACTAAGGTTTACATCGTTTAAAACTTTTTTTTGACTGTATCTCTTAGAAACATTTACGACCTCGAGTATATTTTTATTTTCCATGAAAATTCTCCTTTATGATATTTTTCTTATATTTAAAAGAGCATTTTAAATACTCTTCTGTACATTCGTTTATTTTATCTTCCATAAAACCATCTTCATATATTTGGTCTGGATAAAAAATATTTGTATTGACTGTATCTAATAAATGTATCCCCTTTAAGTTTTCCATTTTAATAAACTGTTCTTGATTTTTTTAAATAGAGTTACAGATTTTTATTAAATCTTTTTTAATTTTAGCACTTTAATTTTTTTTTGTAAATCGATAAAATTACTGTTAAACCTCCAAAAAGCCCCGAAATTAATTCATTTGTTTTATATTTATAAAAATTTTATATTTAAATGATAATGCATTAAAAAAATAAAACAAATTATTTTTTTATTTATGTCATAAAAATTATATCAAAAAAAAACGTTGTCAACTATTTTTATAAAAAAATTAAAGATTTTGTCTATTTTTTTATTATTGATTTTTTTAATGGTTTCTTGTACAATTAATATGAAAATAAAATAGCTCTCGATGAAATTAAAAAGATTTATCAAGGAATAGATATTCAACATAGCTGGTGGATAAGTCCAATAGTTGTCCCTTGGGATATATGGAGAGATGATAACTTAAATACAGTCTTTGTATTTAATAAATAATGAAAGGAAAGATGACATGAGAAAATATTATGTAATTATTATTCTTTTTATGATAATTTTGCTGGGATCATGTATAGGTCCCAGTTTACCTGTTTATAAATCAACACCATTTCCAGAGTTTTCTAAAAACACATATGCAATCACAACAAATTGGAAAAAAATCCTAAGGACGGATCTTATTTAAACCTTTTTAACACTGAAAATTTTGAACAAAAATTTATTCCAATTAAAGATTTTAATGCATTTTTTAGTTCTGTAGAGAGTTTTAATGGAAAGTACTGTCTTAATGATTACATAAAATCTAAAATATACATAATCAATTCGAAAACAGGGTCGTTAAAGACTCTTGAATTGAGTTATCCAGGAATTATGAGCAGACCAACAAAAGATGGGAAAGCATATATTCTTTCAAATATAAGATTACCAGGTTGGAAAATGCCATTAATTCTTGTTGATATTGAAAATGAGCGTATTGAAAAAGAAGTCTTTGTTGATAACGTTGTAAGAAGTATGCCACTTTTTAATTCAAACGATTATCAAGGAGATTACTTTTATTTTACAAATGAGGAGTCTGATATAACTGGAAATACATTTATAGAAAGAATAAATATAAAAACTGATGCAGTTGAAAAATTTTATGATTTAGGAGTACCAGCTTATGTAGCAAATGCTACAATAAATATAAATGACAAGGTTTATATAGTAGTTGGACCAAGCCATGTACATGATGTAGAAGTATTACCTGAAAATTTTAAAACAAACAATATAATTGTTATTGGAGAAGATGGAAAAAAAGAAAAGGTAATTCCAATGCCATCGTCTGAATTTGTTTTTGGTAAAAAAACAGATGATGAAGATTGGTTTATAGGTTATTCTGTATCTGATGGGGATAATATTTATATGAGTGCTTTTATGTATTCAGATCTTGAAAAAGGAAATTCAATAATTAAATACAGTATATCAGAAAATAAATTTTACAATCTTGGAGGAAATAATTCTGTTTATGAAATGAGGTTGTATGATAATAAACTCGTACTTGAGGACGATTCAGAAGGAGAGTATAGGATTTCTGTTATTGATACCAACAAAGATGAATACGTAGTAAAAAACAAATTGATTAATTTATATTAATTATTGATAAAAGATAATATTTTTAATGTAGAATAAATTGTCAAGTATAATAATTAATTTTGTATAAAATAAATTGGAAAATAGTAAAAATTAATACTAAAAAACGCATGGTTTTATTTAAAACCATGCGTTGATTTTTTGTATTAATTAAATATAGGTAATTACAACTAAGTATATAGCCCCTATTAAGGTTGTTATCAATGTTGTTGGTAATGCTTTTTGCATATACTCACCAAAAGAAACTTCTTTTCCAGTTTGTTTGAAAATTAACGATGCACCAACTATATTTTGAACAGCTCCAAGTGGTGTTAAGTTAGTTCCTAAGTTAGCTCCTATTGCATAAGCATACCATAAATCAAATGGAGCTCCATTGTCTATTAAAATTTTGATTACTGGAGCAAAAATTAAAGTTCCAGGAACGGCACTTAAAAATGGAATTGCTATTGCACCAGCAAAAAGCATTGCAAATAAAAGTAGAATTTTCGTACTGATTAATGGCATAAACATGTTTGCTATTGCTTGTGAAACTCCAACTTTTTCAAGAGAAAAAGCTATTGCAAACAATCCACCATAAAAAAACATTGTATCCCAATCTATAACAGTTGCCATTTCTTCAAAGCCTTTTTTTGTAAGAAGCATGAGAACAAGAGCTCCAGTCATTGCAATTAAAGCTATATCTATATTAATTGTGTTGTGAAGCATAAATCCAGCTAATACAATAGAAAAAATCACTATACCTTTTATCATTTCAGACTTATCTTGTATTGTTTTTGAAGCATCCATTGTTTTTAGTTTTTCTAATTTTTTATTGTATTCCTTTGTATCGACTTTATTATTGAATTTATAAATGAGCATAGTTGTAATAAATGTTATTATTGTGAGTGGAAGCATTTTTATTAAAAATGAAGTAAAATCTAATTTTCCAACAGATCCTAAAACAATATTTAAAGGACTGCCTATTAATGTAGACATACCTCCAATGTTATCTACATAAATAGAAAGTAATATTAAAGGTGTTGGATTTATTTCAAGTGTGTCTGCAACAAGAAAGATGATAGGAGCAATAATCATTATAGTTACAAGATTATCTAAAAAAGCAGAAAACATTATTACTATTATCATTAATAAAAACATAACTGGCCAAAATTTGTATCGACTTAGTTTAATAGCACTAACTGCAGTAAAGGTAAAAGCACCACTTTCTTTGAGAATTTCAACTATTATCATCATACCAAGTAAAATTCCCAATGTTTCAAAACTTACAATTTCTCCCATATTCTCAAGATTTAATCCCTCTACTGGATGTAATACAAACAGTAAAACACCTAAAAAAAGAGTAATTATGGATTTTTTAATGTTTTTTCCAAAAATAATAAAATAATATGCAATGACTGTAATGGTAAGTACTAAAATCATGCTCATCTTTTGTCCTCCTTAAATAAAAAAATGTGCCTACTTATCTTATACCATTTCACCTATTTTTTAAAAGCATATTACTGTTAATTTTTTATTAAGTTTAGAGCTAAAATATGATGTTTAATATCCTATTTATGAGTGATAATTAATTTAATAAAATAAAAATAGAATAAAATTAATAGCAAAAAAAGAATAATTATGTGCTATAATTTTTTTATATAAAAGATAAACAAAGAGGAGAGATTTTTATGATACCTAAAAAGTTAAAAGTTTTTAATTTAATGGAAGCTTTAGTTTCCGAAGTTGTTGAGGAAATGTTTTTAATGCCAAATTTAGATATGTGCACTTGTAATAGGTGTAAATTAGATACGTTAATTATGGTATTAAATAAATTTCCACCAAAGTATTCTGTAACTTTAAAAGGAAAAGTATTTACTGAACTTGAAACATTAAAAACTCAATATCGAGCTGATATTTTAAGAGAAACTTTAAATGCAATGGAAATTGTAAAAAATAATCCTTCACATTCTTATAAAAAACCTGCTGAAAAACTTACAGAAGATATAGATGATTTTCTTGACGAAATAGAACAATTGATTAACACAAATTTAAATAAAAGATAAGTTTGTTAACTAAATATGATTTTAATATAAAGCAGAATTAAAGAAGATTAGAAAAGTTTTAAAAACAATTGATTAAAACTATTTTCTGTTTTTCTTAACTAAATTGCAACAATGTTGTATACACAATGTTGTAGTGTTATCATCATTTTCACTTAAATTAATAAAATTTATAGTATACTTATCAGGGATTATTTAAGTCTTTCTTTTAATACTTTCTTAGATAAAAATTTGGGGTGAAATAAATGTTTGAAAATATTCAAAAAAAATTTTCTCTTGCTTTTAAAAATCTTTCGGGAAAAGGTAAAATTTCTGAAAAAAATATAAAAGATGCAGTAAAAGAAGTAAAACTTTCTTTATTAGAAGCAGATGTAAATTATAAGGTTGTTAAAAACTTTATTGATTCGGTTAAAGAAAAGGCACTTGGAGAAAAAGTACTTGAAAGTCTTACTCCAGATCAAGAATTTATAAGAATATTAAAAAACGAATTAATTGAGTTAATGGGTGGAAAAGAGCCAGAAAAATTAGTTATTTCTAGAAATCCTGGATATATAATGCTCGTTGGTTTGCAAGGTAGTGGTAAAACGACATCGGCAGCAAAATTAGCAAAAATGTACAAAGAAAAAGGAAAAAAACCTTTGTTAGTTGCAGCAGATACGTATAGACCAGCAGCTATTGATCAATTAATAACTCTTGGAACTCAAATAGATGTTCCGGTTTTTTCTGGAGATAAAGTAAATGCCAGAAAAATAGTTAAAGAAGCAAAGAATTATGCTGAAAAAATGCTCCATGATATAGTAATAATAGATACTGCGGGTAGACTTCATATAGATGATGACATGATGAAAGAGTTAGAAGATATAAAAAATTATATAAAACCAGAAGAAATATTGATGGTTGTGGATTCTATGATGGGTCAAGATGCTGTAAGAACTGCAAAAGATTTTAATGATAGATTAGAATTAAATGGGTTTATTGTTACAAAGTTGGATGGTGATTCAAGAGGCGGGGTTATTATTTCAATAAGACATGTTACTGGTAAACCTATAAAACTTGCTGGTACTGGTGAAAAAATAGTGGCTCTCGAACCTTTTTATGCAGATAGATATGCTGGAAGAATACTTGGAATGGGAGATGTTCTTTCATTAATTGAAAAGGTTGAAAGTGAATTAGATAAAGAAAAAGCAGAAAAAGATGCAGAAAAGTTTATGGAAGGTAAGTTTGATTTAAATGATTTTCTTGCTCAAATAAAGCAAATAAAAAAACTTGGACCATTAGGGAATATATTAGAAATGATGCCAGGTGTTCCAAAAGAAAATGTTGATTTAAAAAAAGGCGAAAGCGAAATGAAAAAAATGGAAGCTATAATTAATTCCATGACTATAAAAGAAAGAAAAAATCCTAAAACACTCACTTTTTCAAGAAAAAAAAGAGTTGCTGCGGGTAGTGGTACAACATTACAAGATATAAATAAAATTTTAAAATCTTATGAGCAAATAAAAAAAATGATGAAGCAAGTAAAAAAAATGGGAAAAAGAAAGTTTCTTGGAAATATGAAAAAATTTGGAATGTAAATAAATTAAATATCAATTAAATATATAAATATATATGGAGGTGTTTTTTTAACATGGTAAAAATTAGATTGAACAGAATGGGTAGAAGGCATCAAGCATTTTACAGAATAGTTGTTGTAGATTCTCATGAAAAAAGAAGTGGAAGATATCTTGAATCATTGGGCTATTACAATCCAATAAATGATAATGATTTATACAAAGTAAATGAAGAAAAAGCTATTGAATGGTTATTAAAGGGAGCTCAACCAACAGCAACTGCAAAAAGTATACTTTCAAAATTAGGAGTTATGAAGAAATTTGACGAAATGAAGTACGAAAAAAGGAGAAAATAATTCATGAAATCTTTACTAGAAAATATTTTAAAGAGAATAGTAAAGAATCCTGAAGATATAATGATAATTGAAAGAGATGAAGAAACTCAAAAAATATTCGAAATTTCAGTAAATTCAGGAGATGTTGGTCAAATTATTGGTAAAGATGGAAGAACTATAAAATCAATAAATACTATTCTCAATGCAGCAAAAGGTATAGATGGGAAAAAATTTGTTCTTAAAGTGTTAAGGTGATTAAATGAAAAAACTTGAAGATTTACTCGAGGGAAAAGTTGTAATAGGAAAAATAGTTAATCACCATGGATTAAATGGAGAAGTTAAGTTTTTTCCTTATACCAATATGAAAGAATTAATATACAATGTATCAGATGTTTTACTTTATAATCCAGAAAAGAAAAAGTTCTTTTTTTCAAAAATTTTAAATGTAAGACCTCTTAATAAGCTCAAAATTCTTCAATTTAGAGGAATTGATACAATATCCTCTGCAGATAAAATGAAAGGATTTGAACTTTATATAGAAAAAGAAGCATTACCAGAACTTGAAAAAGACGAATATTATTTATATGAGTTACAAAATTGTTCTGTTTATTATGAAGATGATGAATTTGTAGGTAAAGTAAAAGACATTCTTCAAACTGGTGCAAATGAAGTTTTAGTTGTTGAAAAACAAGTGAATAGGTTTGAAAATGAAGAAATACTTATTCCAGTAATAAAAGATTTTATTGTAGATATGAATAAAAAAGATAAAAAAATCATTGTAAAGAGAATGACCTATGATGAATCAGACGATAAACATTAAAGTAGTTTCGATTTTTCCAGAGATGTTTTCAAGTTTAACAAGCTTTGGAGTAATTAGAAAAGCAATTGAAAATTCTATTGTGGATTTTGAGGCTATAAATTTAAGAGATTATACGAATGATAAACATAAAGTAACTGATAAGCCAGGTTATGGTGGAAATAATGGAATGGTTATGTTAGCAGATCCATTTTTTCAATTTTATGATGATTATTGTAGTAAATATGAAAAACCATATGTTGTTATGACATCTCCACAAGGAAGAAAATTTGATAATAATGTTTCAAAAACACTTGCGTCAAAAAAAAATATTGTATTTTTTTGTGGAAGATATGAAGGGCCGGATGAAAGAGTAATGAGTATTGTAGACGATGAAATTTCAATAGGTGATTTTGTAGTTACTGGTGGTGAATTACCAGCAATGATTATGATAGATTCATTATTAAGATTTATTCCAGGTGTTGTTGGAGATAAAAACAGTGTAATAAACGATTCTTTTTATAATGGATTGCTTGATTATCCACATTATACAAAACCAGCTGAACTTAGAAACTTAAAAGTACCTGAAGTATTGTTAAGTGGAAATCATTCTAATATAGAAAAATATAGAAAAAAAGAAAGTTTTCTGAGAACTATATTAAAAAGACCAGATTTATTTTTAAAAAGAGATTTACAAAAAGAAGATAAAAAGATAATCGTAGAGATTATCAAGGAGTTGTATGAAAGTGCTCAATAAGCTTTATGTAGCTTTAATTCATTATCCAATAGTTGGAAAAGATGATAGTATAATATCTACAGCAGTTACAAATCTTGATATACATGATATTTCAAGGAGTTGTAGGACATATAATATAAAAAAATTTTTTATGGTATCAAATCTTTCTGCACAAAGAGAAATTGTTAAAAGAGTTTTTAGATATTGGAAAGAAGGTTTTGGTAAAAAACACAATCCAAACAGAAATGATGCTCTTTCAATAGCAGAAATAAGAAAATATCTTGAAGATGTTATTGAAGAAATAACAGAGATAGAGGGAAAAAGACCAAAATTGGTTTTTACTTCAGCAAAGCCTCGTGAAAAAGAAATATCTTTTGATGAGATGAAAAAAGTTATAAGAGAAGAAACTGCTCCAATTTTAATTCTTTACGGAACAGGTTGGGGAATGCCTGAAGAAATAAGAGAGATATGTGATTATGATTTAGATCCTATAAGAGGTAAAGCTGAATTTAATCATCTGTCTGTTAGAGCTGCAGTAGCTATTTCTTTGGATAGGTTAATTGGTGAAGAAACAATATAAAAAAATAAATCGCGTACAGGAGGGATTAACATGGACGCTTTAGTTAGAGCGATCGAAAAAAATTATATGAGGGACGACCTTCCAACATTTAGACCAGGAGATACTGTAAAAGTATATGCAAAGGTTATAGAAGGTGGAAGAGAAAGAATTCAAGCTTACGAAGGTATTGTTTTACAAATTAGAGGAGCTGGAATGGGTAAAACTTTTACAGTAAGAAGAATTGGTGCAGATGGAATAGGTGTTGAAAGAGTATTCCCAATGCATTCACCTGTAATTGATAAAGTAGAAGTTACAAGAAAAGGTAAAGTAAGAAGAGCTAAGATTTACTATATAAGAAAAATCAGAGGTAAAATTAAGATTAAACAAAGAAGAGACTAATATAAAAAAAGTTTCTGCAGTCTCTGCAGAAACTTTTTTTTGGTGTTATATTAATTATAGTTGGAATAGGAGGGATTAAATGAAAGAAAATATTGAAAAAAAGATTAAACATGAAACGCTTGATTGGTTAAGTGCAATAATATATGCTGTTATTTTTGGTACAATAATTAGATTATTTGTTTTTGAAACGATGATGGTCCCAACAGTATCAATGGTTCCGACTATTGAAGTTGGAGATAGAATGTTTATAGAAAAAGTAACTTATAATTATACAAAGCCAAAAAGAGGAGATATTATTTCTTTTTGGACCCCTTTTATAGATAAATCATCTCAAAAAAAATTAAGAGCTTTTGATAAATTTATGGATTTTTTTGCTCCAAAAGAATTTAATGGTCATGTGAAATATGTTAAGAGGCTTGTAGGATTACCAGGAGATACTATAAGACTCGTTCCAGTAAAAGAATCGTTTTGGAAAGATTTAGAAAGTGGAAATTTAAAAGAAGTACCTCCATGGTTAGATTTTATAATTAAGTATTATGGAGAAATTAAGTATGTTCCAGATTTAATAAAATCTAAAGTTTCACAACTCGAAGTAAATGGTAAAATCCCTAAAGGATTTGAAAATAGATATTACTTAATAAATGCTATTTTTGAAAATGAAAATTTTTATAAGTACTTAGCTTATCCAGAAAAATTGAAAGAAGAAATATATTCTTCAAACGTATACTTTTTTTATAAAGGGAATTTTGATAATAAACTATATATAGGAAAGTTAAATATAAACTTTTATAAACAACAAAATAATGATAATGATTATACGACTTGGTATGAAAAATTAATTAAAAATGTAGATTTATCTAAAGCTATATTTAGAGATAAAGATAATTATATAAATATAAAAATTCCAAAAGGATACTGTTTTTTTATGGGAGACAATACATTAGAAAGCTATGATAGTAGATTTTTTGGATTAGTTCCAGAAAAAAATATAATAGGAACTCCATTTTTGAGAATTTGGCCAATGAAAAGATTTGGTACAATAAAATAAAAAACCGCCTAACGGCGGTTTGTGGCGGAGACGGCGAGACTCGAACTCGCACGAGGGGTTACCTCATCGGTTTTCAAGACCGACGCCTTACCAATTAGACTACGTCTCCAACTACGAAAATATTCTATCATAAAGGTGGGCTTTTGTCAATGATTTTAAATAAAAATAATGTAAATTTTTTGCAAAGTTATGATATTCCTAAAGAAAAACAAGAAAAACTTATTGAATATACTAAAATGTTGATTGAATATAAATCAAATTTAACTTCAATAAAAGATATAAATAAAGCCTTTGAATACCATATAATAGACTCTCTTACACCATTTTTAAAAATAACTTTAAATGGGAAAAGATTTGTTGATGTTGGAACTGGAGGAGGCGTTCCTGGAATTCCACTTGCAATATGTTATCCTGATATAAACTTTTTTTTGGTTGAATCAATAAAGAAAAAAACAAATGCTTTAAAAATATTTAAAGATGTTTTGAATTTAGATAATGTGTTTATATTTAATTCTAGAATAGAAGAGTTTGCAAATAATCATAAAGATGAATTTGATTATGGAACTTGTAGAGCACTTGCAAGGGCTGATGTGGCTTTAGAATATACCGTACCTCTTATAAAAAAATTTGGTAAAGTATTTTTATATAAAGGACCAGCTTTTAAAGAAGAGGAAAAGTTATTTGCAGATAAAGCTTCTCAAATTTTAAAAGTTATTCAAAAAAAAATTATAGAGTATAGTTTATCAGATAAAAAAAGATTTTTAATAGAATATGAAAAATATGATGAAACGCCTAATAAATATCCAAGGAAAACAGGGATACCTTTAAAAAGACCTTTGGGAGGTAAGATATGATAAGGTTAATTGTTGATGATTACCACAATGGTATTTGGAATATGGCATGCGATTTAGCAATAGCAAATAATGTTGGAAATAAAAAAAGTCCAACAACAATACGTTTGTATGGATGGTCTTCTCCAACTTTATCTTTGGGAAAACATCAAAAAACAAATAATATAAACTTTGAATACTTAAAAGAGAAGAATATAGAAGTTGTTAAAAGACCAACTGGGGGTAGAGCAGTTTTACATGATGATGAAATAACTTATTCATTCTCTGCATCATCAAAAAATATAAAATTACCAAGTACAGTTCTTGGAAGTTATAAAATTATTTCAAAAGCTCTTATAGAATCATTGAATTTATTAAATATAAGTTGTGATGTTGAAAGTAAGAAAAAAAATACATTATCAAAAGATATATGTTATGATGCTTCATCTATGTATGAGGTTACTATAAAAGGAAAAAAATTTATTGGAAGTGCACAGTATAGAAATGAAAAATTTATTCTTCAACATGGTTCTATTCCACAAAAATTTAATTATATTGACTATGTTAATAGTTTTAATTTGAAAAATAAAGAAAAAATGATAGAACATTTAAAAAATAATGTTATAGACATATATACTGTATTAAATAAAAAGATTTCTTTAAAAGAATTAGAAGAAACATTTAAAGTTGGCTTTGAAAAAATTTTTGAAGAAGAAATAGTTTTAGATACATTATCTAATGAAGAAGTAAATATGATTGATGATTATTGCCAAAAATATGAAAAAATAATTTAAAAGATAGTAAAAAATGAGAAGCTTTGGCTTCTCATTTTTTACTAAGAATATAGTTTTTTATTAAATATTTTTTGATAAATATTTTTCAACTTCTATTTCGAGTTCTTTTATAGTATAAACTACTGGAGGAGTTATTCCATTGAAATGTGGAGATGCATATTCTATAGTATAAGCTCCAGTGTTTATGAAGTAAACAATATCTCCGTAATCTATATCTACTGGCAGTTCAACTTCGTCATATATAGTATCAACACTATCGCAGCTTGGTCCTGCAAGTGTCATAATCATTTTTTCATGATTTTCTTTTTTGTCAACTACAACTTCGTATCTAAAGTTTTCAATAGTTTCCATAAGTCCGTGAAATACTCCAACATCTAAATAAACCCAACTTTTTGTTCCTTTTCTTGAACGTAAAAGAACTCTTGATGCCATAATTCCAGCATTTCCAACCATTGATCTTCCAGGTTCTGTAAAAACTCTAAGTCCATCAACCCAACCTAAATATTCTTTTATTGATTCGTTTATTACTTCTCCAATTTCTTCAACTTCTGGAATAGGTTTTACATGTTGTACAGGCATTCCACCACCAAGGTTTAATAGTTTTAAATAAATTCCTTTTTCAGCTAATTTTTCAAAAACTTCACTTGCGTTTAATATTGCTTCTTTCCATTTATGTTTGTTGTATGATTGTGATCCAACATGGAATGAAACTCCGTAAGGGATTAATTCTTTTCTATAAGCATATTCAAGAATACTTATTACATGATCAACATCTGTTCCAAATTTGTTTGAAAGAGGCCAATCGGCATCGTTAGAACTCGTTTCTATTCTTCCATATACTTTAGCTCCAGGAGCATTTTTTGAAATTTTTTCAACTTCCATTTCTGAATCAACTGCAAATAATTCAATACCATTTTCCCATGCAAATTTTATGTCTTTTTCCTTTTTTATTGTGTTTCCAAAACTTATTTTTTTAGGATCAACTCCAATTGATAAAAGCTTTTTTATTTCTCCAATTGATGCTGCATCAAAAGAACTTCCTTTATTATTTAAAAGTTCTAGAATTTCATTGTGTGAATTAGCTTTAACCGCATAATATATTTCAACATTACTTATTGATTTTTTTAATCTATCATAATTTTTATCTACATAGCTAAGATCTAAAACAAGAAAAGGAGTATCCAAAATATTTGCTGCTTTTCTTATTAATTCATTGAGTTTCAAAATCCGACACCTCCAAATTTAGATTTGTTTTTTCGCTTTATATTAAATAATTTTTAGGTAACATAATATAGTTCAATGCGTTAAAGTTATACTCAAATAATGTAAACTTTAGTGTGCATTTTGGGAGTAAAAATCGAACTATAAAAAATAAATTTTTTACTAATAAATGAGAATGATGTGTTATAATATTTATATGAAGTAAGAATAAGGAGGTAATAAAATGTCTGATATTTCAACAATTATAATGGATGGTTTTACAAATGAACAAACTTTAAAAATAATGAGAGCTATTAAAAGTTTAGAAGGAATGCCAGAAATTATTTTTGCAACTGTTACGGAAACTAGTAAAAAATGGACTGTAGAAGAATTAATTAAAGAATTAAATTTAGAACATGAAGAGATGAAAAAATATAAAGAAAACAAAAAATAATTCTTTTCTAAATTGTTACAAGTTTATTTACAAAATAAAAAAATAAACATTGATGATACAATAAAAAAATGTTATAATATTCGTAAATGAATATTTTTGGAGGTGTACTGATGAAATTATCTTCTAAGTTGCTATTAGTAGTTCTTTCTTTTGCTTTGATTCCTCTTTTTTTAGTTTGGGGAATAAGTTATAATATGTCAAAAAATGCACTTGTAACTCAGACACACAGTAGCATAGATACTATAGCAAGTAATTTTTCTGAAAAAGTAACAAATTATTATGAAAGCTTTTCTAAAACAATAGACAGTATGGCTAAGTTAGATTTTTTATCTTCTATGGTTAAATCAATGTCAAGACAATTTGATGAATATGAAAATCCTACACCATTTTTTAGAAAAGCTTATGTTGAATTAAATACCAATCCTAAGGATCCTTCTAAAATGTTAAGATTAAATGATGATTTACAAAATAAATTAGAAGAAGAATTTGGTGATGATGCTTATGGAATTTTTGATTATGATTTATTCCATGGTCAAAATCATAAAATAATTAATGATTATGTAAAAGTTGAGGGACTTGATGATTTTTATTTAATTGATTTAAAAGGAAGAGTTGTTTATTCTAATAAAAAGGGACCAGCTTTTGCAAGAAATTTGAATAAAATACCTGGTAATTTAAGAGATTTATTTTATGAGTTAAAAAAGGAAGATAAAGATCACATACATCCTATATTAAAGGATTTCACATATTCTAAATCAAAAAAAGAGGTTTTAGAATATTATGGTATACCAATAAAAAAATATGCAATAGATGGATATTTGATAATTTCTAAAAAAGTAGATGCATTAGATTCTATTTTAAATAAAAAAACAAATCTAGGTAAAAGTGCAAAAATATATATAATTTTAAAAGACGGAACATTGATGAATGATATTAAGAATTTAAAAAAATTTCAAGATAAGGTTGATACATCTTTTATAAAGGGAACAAATGGAATAGCTAACTATAAATCTTTTGATGGAAATACTGTTATAGGAGCATATAGAAAAATAAATGCTCCAGGAAATGAAAAATATATAGTAATTGAAGTAAATGAAAAAGAAGCATTAGCTTTTGTTTATAAGTTAGTTCAAGTTAATTTAATAATAATAGTTTCTGTTATTGTATTTATTTTAATTTTAGTAACTATATTTACAAAATACTTAGTAAAGCCAGTAAAAACGATACAAGAATCTGTAAAAGCAATTTCAAATGGTGATGTTTCTAAAAAATTAGTAATAAAGAGAAAAGATGAATTTGGAATAATAGGAAGAATGTTTGGCGATGTACAAAAAACAATTATAGATATTGTTGAAAAAATACGTGGAGAGTCTAAAAACATAGAAATAAATGCAGAAAAAATTGAAGAAGAGAGCAATAAAAATATTGATAATTCAGAAGTAATAAAATCTTCAATGCAGTCAATCCAAGCTAATACTGAAAGTATGGCAGCTTCAGTTGAGGAAACAACAGCAAGTATAGAAGATGTTTCAACAGGGGCAAAGAGTATTTCTGCGGCTTCTGCTGATTTATCAATAAAAACATCTGATATTGTTGAAAAAATTGATAATAGTAAAAACGAAATAAATTCTATGATGGTAAGTGTTGATGATATTCAAGTTATGATGACAAGGAATAATGAAAGTATACAAAATCTTTCTACAAAGACTATTTCTATAAAAGATATAACAGAATCAATACACAAAATTGCAGAACAAACGAATCTTTTAGCATTAAATGCAGCAATAGAAGCGGCAAGAGCTGGAGAAGCAGGAAAAGGTTTTGCTGTAGTTGCAGATGAAATAAGGAAACTAGCAGAAGAAAGTAATATTGCTGCTGGGAAAATAGAAGAAAATATAGATTATTTAGTAAAAGATGCAACGAGTGTTGCAAAAGAAAGCAACAAAATGACTGGTAATGTAACGGAAATAACTTCAAGTATAAAAAATATTGGAACCAGTTTAGAAGGTGTGCTCAGTGCAGTAACAGAAATTTCTGAAATGGTTGAAAATACTGCTGCAAGTTCACAACAACAAGGTGCCTCTCTTGAACAAATTGATGAATCTATGGCTTTAATAAATGTATCTGTTCAAAATGTGGTTAAGGAAATAAATGAAGTATTTAATAAAATTGAAGAACAATTAGATTCAGCTAAAGAACTTGGAGATCTTGCTGTTAAGCTTAATAATACAATAGATTCATTGAATGAATTTTCAAGTAAATTTAAATTAAATTAACAAAAAACGTAGTAGATTTCTACTGCGTTTTTTGTTACAATGTATTATTTAACATTAACTATTTCATATTTAATTTTTACCATTTATCCTTGTTAGTTAACATATTTTATAGTAATATATAAATGAAGATAGATCCCCCTATCCCCCCTGAGATAAACTCAGAACATTATTGCGGATTCCAAAGGAATCCGTTTTTTTTTAATGGAGGTAAAAAGTTATGAATATTTCTAAATTTCTTTTTTCTACAGATGTTCTTCATAATGTATTAAAACCTGGAAGATATATAGGTGGAGAATACAATGAAATAATAAAAGATAAAACTAAACTTAAAATAGCTATATGTTTTCCAGATATATATGATATTGGAATGTCTCATACAGGATTTCAAATATTATACAATTTATTTAATTATTATGATAGTGTATCTGCTGAAAGAGTTTTTTTGCCTTGGATAGATATGATTGAAAAGATGGAAAAATATAAAATTCCATTATATTCACTTGAAACATATACACCTGTTAAAAATTTTGATTTATTAGGTATAACTTTACAATATGAGTTGAGTTATCCAAATATATTAAAAATATTGTCTATGTCAGATATACCTATTTATTCTAAAGATAGGAAAGAAGAAGATCCGATAGTACTTGGAGGAGGTCCTTGTTCTTCTAATCCAGAACCAGTAGCTCCTTTTTTTGATGCTTTTTTTATAGGTGATGGAGAAGAAATTGTAAAAAATATTGTTGAAGTATTTAATAAATTTAAAAGTAGAGAACAAAGATTAATAGAACTATCAAAATTAAAAGGTATTTATGTTCCAAAGTTAAATAAACCAATACTAAAAAATGGATTACTTGTACATGATAAAAATAAAATAATAAACTCAATAAAATTAAGTGATTTAAATAATTTTAAATTTCCAATAAATCAAATAGTTTCTAATATAAAAATAGTTCATTTAAGAGCTATTGTTGAAATAATGAGAGGTTGTAATAGAGGATGTAGATTTTGTCATGCTGGTATGTTTTATAGGCCAACAAGAGAACGTTCAGTTGAAAATATGGAAAAGATTATATATGAAATTTTAGAAAATACAGGATTTCATGAAATTTCTTTACTATCATTAAGTACATTAGATTATTCAATGTTAAATGAACTAATAGATAGAATATTACCTTATTTAAATGAAAAACATGTTAGTTTATCGCTTCCATCAAGTAGAGTTGATAAGTTTAGCGTTGAATTGAGCTCAAAGTTATCAAGTGGTAGAAAAGCAGGATTAACCTTTGCACCAGAAGCTGGAAGCCAAAAGATGAGAGATATAATAAATAAAGGAATAGATGAAAAAGAAATTTTTGATGTAGTAAAAACTGCAAAAGAAAATGGTTGGAATAGAATAAAATTATATTTTATGATAGGGTTGCCAAACGAAACAGAAGAAGATGTTGAGGAAATTGTAAAGCTTGCAAAAAATTTAAAAAAGCATTCAAAGTTAAAGGAAATCACGGTAAATATTTCTGTTTTTATACCAAAACCACATACTCCATTTCAATACTCTAAATTTGAAGATTTAAAGTCTTTAAAAAATAAAATAAAGATACTTTATCAATTAAAAAAATATAAAATAAGAGTAAATATACAAGATCCATATCAAAGTTATGTAGAAGCAATATTTGCATTAGGAGATCAAAATGTTTCAAAAATACTTTATGATATAGTTTTTGAAGAAAATTCAATTTTTCAGCAATGGGATGAAAACTTTAACTTTAACTCTTGGGCTAGGATTTTTAATAAAAATGAGTTTGATGCATCAAAATACTTAAATGGTTTTAATGATATTTTGCCCTGGGATTTTATAAATACAGGTGTTTCAAAAGAATTTTTAAAAAATGAATGGGAAAAGTCAAAAAATATAGAAAAAACTGAAGATTGTAGATGGAGTTCTTGTTCTATGTGTGGTGTGTGTAATAAGAACTTAAAGGTAATTGTTAATAAAGAGCAATAAGATATTTATTGCTCTTTTAAATTAAACTATTGGAAAGTAAGTCTTTTTTTCTTCATCATTATTTATAATATCATTTAAAATTTTCATACCTTTAATAATTTCATTTTTTTCAACGGTTGCAAAGCTTAATCTAAAATAATTTGATGTGTTATTTAATGAAAAAATACTTCCAGGTAAAATTGAAACTCCTCTTTTTAAAGCTTTTTTATATACTTTTTCTATTTTAATATTGGTTTTTAACCAAAAATAAAGTCCACCTTGTGGTTTTGCATATAAATTCATATTATATTTAAGAATTAAATCTAGCATTAATTCAAATCTTTCTTTAAATAAACTTTTCATTGTTTGAATATGATTATTCCAGTATCCTTCTTTTAAATATAATTCAAAGGCCCTTTGATTTAATCCTGAACTTGAAATATCAGTTGCATATTTAACTGCAAGTGTTGGAATGTATAGTTTTTCTGGAAGAATGATAAATCCTAGTCTTAAACCAGGCATAAAAATTTTAGAATAACTCTTTATATAAATAACCTTATTTTCAGTATCTAATGATTTTAAAGATAATGGTTCTTTATTATAAAAATATAATTCAGATAAACAATCATCTTCTAATATTAAAAAATTATATTTAATAGCTAAATTTAAAAGGGTTTTCTTTTTTTTACTACTCCATTTTATTCCAGTAGGATTATGAAAGTTAGTCATTGTGTATAAAAATTTTATTTTATTTTTTTTTAAAAAATTTTCAAATTCATTTAAATCAATACCATCATTTTTTATTGAAAAACTTTGTATAATTGCTCCTCTATTTTTAAAAGAAGAAATTGCTCCAGAATAAGTTGGGTTTTCAACAGCTATTTTATCACCTGGAGTTATTAAAATTTTTGATAGTATATCTATTGCTTGTTGAGCTCCAGAAACAATTTGTATTCTATCAGCAGAAGAATTTATATTTTTGTCTTTTAAAGATTTACTTATTGTATCTCTTAAAGGATAATATCCCTGTGTTTCTTGATAAGTAAAAGCTTCTCCACCATCTCTATCTAAAACTTTATTTATTACCTTTTTAAAATTTTTAATGGGAAAAAGATTTATTGAGGGTGTTGAACTTGCAAAATTTATATTTGAATGCAATTGTATTTGACCATATTTAAAACTCTCAAAATCTTTTGTATCATAATCATTGATTTCTTTTTTATTTTTAATTTCTAAATTTGATATAAAACAACCACTTCCAGTTTTTTTATAAATAAACCCTTCTTTTTCAAGCAAATCATAAGCTTTTACAACGGTTGAAGTATTTACTTTAAAAAAATTAGCTATTTTTCTTATAGCTGGAAGTTTTTGATTTTCTTTAAATTTTTTATTTATTATCATTTCTTTTAGTCCATCATATAACTGTACATAAAGATTTTTATCTTTCCTTTTTTTTAATTCAAAATCAAAATTCATATTTCACCTCTTCAATTGTATCAGTACAAAATATTATAACATAAAAAATTTAAAACTAAATATTTTGAGTTTTAGAGTTCTTGGAGTATAATTAAAGTAATTAGTAGATCGGAGGTGGATTATGAAAAAGAGTATACTTTTATTTTTTATTATTTTTATTTCTATTTTTACATTTTCAGCAAGTATTTTAACCCTTGAAACGGCTTTTCCAACTCTCGACATGGCAAGAGGAACTTTTGGTATATCATATCCTTTTGGAGGCTCTTTGAATTTTGTATCTGGTGTTGAACTTCCTTTATTAAAGGGAATTGTTGCAGAAAATTTTAACTACAGTTTAGATGTTGGTGGAATTCTTCTTCCAGAAGCTGCAGCAAATGCTTCATTAAAAGTTGGTACTTTTGGATCAAAACTATTTGCTTCTATCGATACAAAAAATGGTACACAATTTGGTATTTTATTAAGAAATTGGGAGGGATACTTTAAAATAGGTTTATGGATAGATCCAATGACTTTATTTTTAGGAATAGAATATTAACGGATACCAATGTATCCGTTTTTTTGTAACACTTAAAAAGTTATATAATGTGTTTAATTTTTGTTAATTTTATAGTATAATTATAATGAGTATGATTTTTTGAAAAAAAATAATTAATATATAAGTTTTAAAAATGAGGTGGTTGAGTGTGGAAAATATTCTTGGTATAATTGCTAATGAAAATCCTACAGTGCTCCTTAAAACAGTTTCTTTAGAAATAGCTGAACAATTGAAAAAAAAAATAAATCAAGAAACTATGATATTTGTTTATGAATCTCCAAGGAAAGTTTTAAAACTTCTTGGAAAAACTTTTGTTGCTGATGATATTGAAAATTATAAAATTTTTTTATCATATCAAAAAGAAGTTTTAAATAACTTGAAAGATGGTAAAGAACAATTGTATATTTTTGATGATACAAATGGTTTTTTTGCAAATAAAAAAATATTTTTATATCCTATTTTTTCTAATGATGTTTTTATAGGAGCTATTGGTTTATTTGAAAAATGTGTTAGAAAAAATTTTATAAAAGAAATATTTAAACCTTTTGCTGTTATTATGAAATTAGTTACAGAATCTTTAATAATAGAAGAATTAAAAGAAAAAATAGGATTAAGCGAAAACATGACTCAAATAATAGAAAATACTTTGGATAAAAATGAGTTAATTAAAATGGTTTTAACTGAAATAAAAATTTCTTTGAGAGCATTGGACATAGTTTATTGGAAAGTAGAAGAGGATAATTTATTTAAATTAGATTCTTTGGGAGAACATATTCCAAAATCAATGTTGAGTTTAAATAATTCCGTTGAAGGAAAATGTTTAAAAGATGATAAAGGTTTTTTAATAATTGGATATGATAAATTAAAAAATATGGAACTTCCATTTGAAAATAAAATAAAATCTTCAATGTATGTTCCTTTAAAAGTTGATGGAGAAATAATAGGGGTTCTTGCTCTATATAATAGAATGGATGAAAATAATTATAAAACTTATAAAAATTTTGATGAATTAGATTTAAAATTTTTAGTAGATGCTTCTAGAAGATTTTGTTTAGCTTTAAGTCGTATAAATTATTATAATAAGATAAAAACAGAAATTGATAAATTAACAAGTTTAAAAAGTAGTCATGAAGCTCTTATTAAGTTACAAAAAGAGCATTTAGATAAAATGAACTCATTACACAAAATAAGTCAAGCTGTTAGATCTACTTATGATAAAAATAATGCTATAAAAATTACTTTATTAGGTTTAACTTCAGGAAGAGGGTTAAGATATAATAGAGCTCTTTATCTTGAAAGAGATAGAGTTAGAGGATTTTTAATACCAAAACTTTGGTTGGGACCAAATGAAGATGAAGATGTTGAAAATATTTGGAAAGAGGCAAATAGACGTTCATTAAAGTATGGTGATTTAATTCAATATTTAAGAGAAGAATCTTTACAATTACCTTCTAACAATAAACTTACATTAAAATTAGAAAATAAATTACTTGCATATAAGGGACATCCTGTTCTTGAAAGAGTAGTAAACAAAAAACAAATAATTCATGTTGTTCCGCATATGTTAAAAATAAAAAAAGAAGAATTAGAAGATATTTATGATATTATAAAATGTGATGAATTTTTAATTTTTCCAATAACAGGTAAATTTGATACAAAGGGTGTCATAATTATTGATAATAAAATAAATAATGTTCCTATAACTAATATAGATATAGAAATAATTAGATTGTTTCAAGATAGTATAGGCCTTGCTTTTGAAATGATTGAAAATTATGAGGAACTTCGTGAAAAAACAAAAAGTTTAGAAGAACAAAAAGATTTAATGGACTATTATAGAAGATTTAAAGAAAATATTTTTCAAAACTTAGATGTTGGTATTGTTGTTGTAGATAGAAACGGAAAGATAGTTGAATGGAATAAGAAATCTGAAACTATTTTTTCAAGACCAAGAGAAAATGTAATAGGAAGTCCAATAAATTTTTTGGCAGAATTTGTTGGAGATGATATAATTAATACTATAGATGAAATATATGAAACAAGAGAAAGTTTAAAGTATCCAAATTATAAGCTTGTTATGTCTAATGAGGAAAAAATTTTTGATATACAGTTTTCGCCTCTTTGGAATAGAGAAATTGGTGTAATTGAAGGAGTTATAATAGTTTTTGATGATGTTACTGATATATTTGTTTTGCATCAAGAGATGGAAAGAAGCGAAAAATTAGCATCTATGGGAGAAATGACAGCGAGAATTGCGCATGAAATAAGGAATCCATTAACTGTAATAGGTGGATTCTTAAATAGAATGTTAAAAAAACAAGATAATCCTGAAGCAGTAGAAAAGTATAGTACTATAATAAAAGATGAATTGTATAGATTAGAAGGCATAGTTTCTGAAATACTCGAATTTTCAAGGGGCAAAAAATTGCCTAAATTTGAAAAAGTAAATTTAAATGATTTAATTAAAGATATTGTTTTTATGTTTGAAGATTTTTTTGCACAAAAAAATATAAGGCTCAAATTAAATTATGGAATGGATCCAATAGAAATCTATGCAGATAGAAGTCGTTTAAAACAAGTAATAATAAATTTAGTAAAAAATGCAATAGAAGTGGTTGAAGAAAATGGATTTATAGGAATAATTTCTGGGGTAGAAGATTTAAATGCTTTTTTTGAAGTTAGTAACAATGGAGAACCAATATCTCATAAAAATCAAGAAAAATTATTTTTACCTTTTTTTACTACAAAAACACATGGAACGGGTCTTGGATTACCAATTTGTAAAAAAATAATAGAAAATGAACATAGTGGTAAGTTATTTCTTGTTAAATCAGATGAAAAAGAGACTATTTTTAGAGTAGAAATACCTTTAAATTAATGAGGGAGGGATAATTAATGGCAAGAATTTTAATTGTTGACGATGAAGATAACATTAGAATGTTAATAAAAGAAGAATTAGAAGATAGTAATTTTGAAATAGTAGATGCTCCAAGTGCTAAGAAAGCACTTCAAATTCTTTCAAATGATCAAGAATTCGATATAGTTTGTACAGATATTGAAATGCCTGATATGAATGGATTAGAACTTGCTGGTGAAATAAGAAAAAAATATCCAAATAAAAAAATAATTTTATTAACTGCATATTCTCATTATAAAAGTGAAATGGCGTCTTGGGCAGCTGATGCTTATGTTGTTAAATCTATGGATTTAACTGAACTAAAGGAAACTATAAACAACTTATTGAAATTGTAACGCAAAAGAAATAAAAAATTGATTATTATATTGTAAAAACATATTAATATCAAAAAAGTTTGGACGTTCTTTTAGAGCGTCCTTAGATTGTATTAATTAAAAAATAATAAAAATTTTAAATATTTACGGAGGTGTTTATATTGGATTATAAAGATTCATTAAATTTGCCAAAAACGAGTTTCAAAATGAAAGCAAATTTAAAACAAAAAGAACCAGAAATGTTGAAAAAATGGGATAAGATGAACATTGAAAAATATGTTAGAGAAAATAGAAAAGACGCACCAAAATTTCTTTTACATGATGGACCTCCGTATGCAAATGGTGACATTCATATGGGGCATGCCTTAAATAAAGTTTTGAAAGATGTTGTAATAAAATATAAGACTATGCAAGGATTTAATGCACCATATGTTCCTGGATGGGATACACATGGACTTCCAATAGAGCACAAAGTTACAACTGAACTTGGTGAAAAAGCAGAACAACTTTCAAAAGTACAATTGAGAAAAATTTGTAAAGATTATGCTTTAAAACAAGTAAAAAAACAAAAAAAAGGATTTCAAAGATTAGGAGTTAGGGGAGAATGGGAAAATCCATATCTCACATTAATTCCAGAGTATGAAGCTGGTGTTTTGAATGTTTTAAAAAGTTTAGTTGAATCTGGAAATGTATATAGAAATAAAAAACCTATTTATTGGTGCTCTGAGTGTCAAACTGCTCTTGCAGAAGCAGAAGTTGAATATCATGATCATTCTTCGCCATCTATATTTGTAAAATTTGAATTAGAAAAAAATACTTATATAGTTATTTGGACAACTACACCATGGACGTTACCAGCAAATGTTGCTATAGCACTTCATGAAAAATTTGAGTATTCAAAAGTTAAGGTTAATAATGAATATTGGATAATGGCAACAGAATTAGTTGATAAAGTTATGAAAACTGCAAAAATAGAAAATTATGAAATAGTTGAAAAGTTTTTAGGAAAAGAAATGGAAGGTAAGAAAGCAAAACATCCATTTATTGATAGAGATTCTTTAATAGTTTTTGCAGATTATGTAACTCTTGAAGACGGTACTGGATGTGTACATACAGCACCAGGTCATGGAGCTGAAGATTATCAAACAGGATTAAAATATAAATTACCTGTTATTTCTCCTGTTGATGAAAAAGGTTTTTTAACAGAAGAAGCAGGAAAGTATGCTGGTTTGAAAATTTGGGATGCTAATAGTGTAATTATAAAAGACCTTGAAGCATCTGGTCATTTAGTTGCTGTACAAAAAATTAAACACTCTTATCCACATTGTTGGAGATGTAAGAGTCCTATAATTTTTAGAGCAACAGAACAATGGTTTGTTAGTGTAGATAATGCAGGATTAAGACAAAAGGTTTTAGATGAAATAAAAGAAGTTAATTGGATTCCTGAATGGGGTGAAAATAGAATAACCTCTATGATAGCAGATAGACCAGATTGGTGTATTTCAAGGCAAAGGTCTTGGGGAATTCCTATACCTGCTGTTAGATGTGTTGAGACTGGTGAAGTTGTATTAACTACAAAAATGATGGATCAATTCATAAATATAGTTTCAAAAGAAGGTACTGATGCCTGGTTTAAAAAAGAATTATCAGAAATATTTCCTGAAGGAATAGATTATGATAAAGGAAGTACTTTTGAAAAAATGGAAGATATACTAGATGTTTGGATAGATTCAGGTGCTTCATTTGAATCGGTTGTTAATTCAAGAGAAGAATTAAATAAATTTCCTGTTGATTTATATTTAGAAGGTAGTGATCAACATAGAGGCTGGTTTAATAGTTCTATTTTCTTATCTGTTGCAAAGTATGGTAAAGCACCTTATAAGTCTGTTTTAACTCATGGTTTTATAAAAGATGAATCAGGTAAAAAAATGTCTAAATCAATAGGTAATGTAATAAGCCCTCAAGAAATAATTGACCAATATGGTGCAGATATTTTAAGATTATGGGTTTCTTCTGCTGATTATAGAGGGGATATAAAAATATCTTTTGATATTTTAAAACAACAAGCAGAAGTTTATAGAAAGTTTAGAAATACTATAAGATTTTTACTTGGAAATATTGCTGATTTTAGTCCTAAAAATGATTATGTTGAATATAAAGATATGGAAGAAATAGACAAATGGGCATTGTTGAAATTAAATAAATTAATTGAAACCGTTACTAATTATTATGAAAGTTATGAATTTTATAAGGTTCATCAGGCTTTAAATAAATTCTGTACAATTGATATGAGCTCTATTTATCTTGATATAATAAAAGATAGATTGTATACAGAAAGTACTAAATCAAAGTTAAGAAGATCTGCTCAAACTGCTATGTATGAAATAGCAATTGCACTAACTAAAATGATGGCTCCTATATTAACGTTTACAGGTGAAGAAATTTATTTGAATCTTCCAGAAGAAGCTAAGACATTTGAAACAGTTCAATTAGAAAAATGGCCAGAAATAAAAGAAGAATACAATGATAAAAAACTTGAAGAGAAATGGAATAAATTGCTTGAAATGAGAGAAGAAATAATGAAAGCTCTTGAAGAAAAGAGAAAAAATAAAGAAATAGGTCATTCTTTGGAAACGAAAGTTGTTGTTGAAGCAAAATCAAAAGAATATGAAGAAATATTAAAATCTTTTGATACATATTTTTTGGCAGATTCAATTATAGCATCACAGTTTGAAATTGGTAAGGTTGAAAATGGATTTGAAGGTAATATAGTTAAAGTTAAGGTAACTAAAGCTGAGGGTAAAAAATGTGAAAGATGTTGGAAAATAGATACTGAAGTTGGAAATGATTCAGAATATACTGATGTATGTCCAAGGTGTGCGGCTGTATTAAAAGGTGAAAGATAAAGTAAATTAGGTGTGGTTAAATTAACCACACCTTTTATGATTTTATAAAATGGAGTGATAGTTTTGAATGATAAACATATAAAAAATACATTTATATTTATGGATTATCAAAATCAACCAGTAGACCCTGAATTAATAGTTCAAAAAATTGAAGAATTTGGGAAAATGGTTGGTGGGAAGGCTTATGGGCATTGGTCTAAATATCCTGCAACTATGTTTTCTTTTTCAAGACATGGAATTGAGTTGATTGAAAGACCAGAAGATGGTTTTGCAAATAAAAAAGGAAATGATATAAAGCTTGCAGTAGATGCCATTGAAACCATGTTTTCTTTACCTCATATAGAAATATTTATTTTGGTAACTGGAGATGCTGATTTTGTCCCATTAATAAAGAAATTAAGAACTTATGGAAAAGATGTTGTGGTAATTAGTAGAAGTAAAAATACTTCTATTGATATGCAAACATCTGCTGATTCTTATATTCCATATGAAGATATAGTTAAATCAGAAAAAATTGATTCTACGGATACTTTTGAAGATATAGTTGATGAAGTAACAAGAATAATGGAAGAAAAAAATCTTACACCAGATGAAAATATAATAAAAAGAATATTAACAGGTATTAAAGTTAATTATATAAATCTTGGATATAGTACATTTAGTTCTTTTGTAGAAGATATTAAAAAGAGAATGACTAATACTTTATTTACAGACGAAGAACTTAGTGAATATGAAGAAAATTATATGAGATTTTTAGAACGTTTAATTGTTATGAAAAATATTCCTTTAACTGTTGAAAAACTCGAAAAAATAGCTTCTTCAAGACATCAATGGATAACAAAAAATTCTAAATATTCATTGAAAAATTTTATAGAAAATATGATAGAATCAAATAAAATAAAGAAAAATTCACTAGGAATTTTAAAGGTACCAGCGCCAAGAAGATGGGAAATAAGGTATGAAAAAATTCTTCCTTATCCAGAAATAAGAGTAAAATTTGCTAAATTTATTTTTAATCTTTTTGAAAGTAAAAAAGTTTCAAATATATCTGAAGCTTTACATGTTTCAAAAGAAAATTTAAATTTAACAAATAAAATAATAGGATCTTTTGGAATGGCATTAAAATTTTCAGGTTTATTTAGAGGTAAAGATGGTAGTGATTATGTTAGTTTAAAAACTCCAGTTAGCTTAATAGGTGATTTTGAGGAATTTAAAGAGGTATTAGATACGTTTTTTATTAAAAGAATATTAAAAGATGAAGATATTCATGAAAAGTCACTTGCAAAAATTTCAAAATACGTTTATAATAAAGAGGATACTAAATATGCAAAAAATGGATTAAAATATTTAATCTCAAAAAAAGAGGTTAAATATGAAAAACCTTTTTATAAATATTATAAGTAAAAATTTTTAATATTTTAAAATATCTGGTATAATTGCTATGTATTATTATAAAACCAGGAGGGAAAAAGTATGAACAAAAAAGAACTAGTTGCTGCACTTGCAGACAGATCAGGAATAACAAAGAAAGAATCAGAAGCATTTATAAATGAATTTGTAAATGTTGTTTCTGAAACTCTTGAAAAAGGTGAAGCTGTTAAATTAGTTGGATTTGGAACTTTTGAAGTTGTTGAAAGATCAGAAAGAAAAGGGGTTAACCCAAAAACTAAAGAATCTATAACTATACCAGCTCATAAAGCACCTAAATTTAAGGCAGGAACAGAATTAAAAAATAGAGTAAAATAAAAAAAATCTTGAAGAGTTTTCTCTTCAAGATTTTTTTTTATAAACTATTTTCTAAATCAAAAACTTTAAACATGTTTAAATAAACTATAAGTCTGTTATCGATTTTTATTATACCATTTGATTTTTCTTTATAAGTAATATTATTACTTATATTTTCTAAATTAGAATTGTCTACTGTTAAAACATTTTTTACTTCATCAACAAAGATACCAAGTTCTTCATTATTCATTTTTAAAATTAATATGTTTTCATATTCATGATTTTCTGGTAATTCTATATCTAATATTTTTGTAATATCAGAAACAGAAACTATTTTACCTCTAAGATTTATCAATCCGTTTATAAAATGTTTTGACTTTGGTACAGGGGTTATATCATCAATTTCTGTAACTACTTCTATTAAATCAACATCAACAGCAAACTCTTGGTCACCTATGTTAAAAGAAAGTACATCAACCATATTATATTACCTCCTTTATATAAATTTTTATAATATATTTTTTATATGAAAATTTTTTTAATAAATCTCTTTATACTATTATATCATATTAGTTGAATATTTTTGTTTTGAAAATTAAATGAATTTTTATAGAAAATTTTTTATTGCTTTAAAAAAATAGAATTTTTCCTTATTTTCAAAATACCAAAGAGATATATTTGCTGTTTGTTCATTTAATCCGTATACTTTTATAAATTTAAAAATTTTTTTATTTGGAATTAATTTTATTTTCCATTTTATATTATATCGTACATAATTTCTTATAAAAATATCCATAACATTTTTTTCATATTCATATGAGTTTAAATATGAATTTAAAAATTTTTCTTTGTTTTTTATTTTTTTTATAAATTTATTAAATAAATCCTTTCTCGATTCTGTAAATTCGTCACTTTTTATAATTTTTAAGACAAAAAACATGTATTCTATACTTTTTTCTATTTCTTTAAAATCTTTTTTTATAAAGATATCATAGTTTTTAATTATATTTGGAAAAATTTTTTTTCTATTTAAAGTTGCCGAATATGTAGACATTAATTTATTTTTGATAGATTTCAATGATTTAAAAATTTTTTTATTTTTTTCATATTCTTTTATTATTTGTATTTTATATAATTCATTTTTAAAATCGTAGGGAATATTATCAATGATTTTTATATTTGGATTTTTCATTAATATAGATTTTATTGTATTACTTTTAATAGTTTTATTTTTATTGTTTACTATTTTAAAAAAAGTTGTTTTAGATATTCCTTTTTTTAAGTAATTGTTTTCTTTAAAAAAAATTATTAAATCTTCTTTTATTTCATAAGAGTTTATATATGTTTTTAGTTCATATTTTTTTGCTTCTTTAAATAATTTTATATATTTTTTTGGTATATTTTTTTTTTCAAGTGTATTAATTAATAAATATAATTCTATTTTATTTTTTGAAAAATCATCAAAAACATAATCTAAAGTATCTAAAATATTTATTTTAATCTCATTTTTTTCTTTGAAATAACCTAAAATATAAAATAATTCTCTACCAATGATTTTATAATTTTTAATTAATATTTTTTTTGAGTACCAGGCATAATCATTTAGAGAATTTAATATACCAGGAATATGATATATTTTTTTTGAAATAATATAAGCTTCATTTAGATACATTAAAGATTCTTCATAAAGTTCTTTTTTTGCAGATTCTCTAGATTTTCCAATTAAATAAAATAATTTTATTGTTTTATTTATTTCTATTTCTTCTCCCCATAATCTTACTTTATTGACTTTAAAATTTGAAAAAGCCACATAATTAAATAAAGAAATAGATATAATAGACCTAAACTTTGGAGATATATTTTTAAAATTTTTTTTCAACCATTTATAAACAATTATACTTTCATATTTTTTTTTTGATCTTTGTAAATTTATTAATTTTTCATTCATTAGCTTAAAATATAAGTTTTTATTTTGTTTTATAAAAAATTCATATTCTTTAATCATCTTTAAATTTTTTTCAGAATCATTACTATTCCACAAAAAAATACGAAGTTCAAGATATTTTTTTAATGGACAATTTTTTAAAAGAGATATACCATACTTTATAAATGGTTTTGAAAAAGATCCTTGTGTATGTAAAATTTCAATTATAGAATTTTCATAATTTTTCATAAATTTCCTCTCAGTAAACTTAATTTTATTTTTTTTAATGTTATTTTTTTGTAAACTTATATAATTTAATTATAACACATTTTTTAAATAATAAAAAAAAACTTAAAATCATATATTATAATATATAATTTTATTAAGAACGAAAAAGGAGGGAGTTTTATGAAAAAGATTATATTTTTAATGGTTATTTTGAGTGTTATTTTCGTTAGTTCATGTTTTGCTGATCCAAGTGATATAATTAGTCCAGAAGAAGGAACTTCGCCTATTGTTAATAATAATTATTAGTAAAAATAAATTTAGAGGAGATTTTTATGGATAAAAATTTAAATAAAAAACTTATAAAAATACTTGCTCAAAAACCAATTAATCAAAAAGATATTTCAAAAAAACATGATTTATTAATAAAAGAATTAAAAAAAATTATAAAAGAAAAAAGATAAGATATGTTTTTTTGCATTTTATCTTTGGAGGCAGATAGAATGAGTTATTTTTTTAAAAATTTAGATGAAAAAACTAGAAAATATATGTTAGAAGAAGTTGAATTAGATATAAAAAAAAATTTTTTATATAAAAGTTTACGATTTAATGAAATTGGAAATGAATTATATCCACAAATATTAAAAAATGCTATAGAATTTGGAAATGAAAAAACTTTAGAAAAAAATCTGCTTCCAGAATATTTTGAAGATGACAAAGGTAAAATTTTAAAAATAGGAAAATATACTTCAGTTTTATCAACAATATCAAATAGGGTTTTTTCTGAGTATGAATTTAATAAGTTTTATATTAGGGCAATATTAAGGAGAGCTATTGAAGAAAATAAAGAAGCTGTTATATATCAGGCAAAAAAAAGTTTTTATTATGAAGATAAAAAAACTAAAACTATTGTTGGATTTTCAATAAAAGATCCAAAGTCTGTTCTTAAAAGCATGAGATTAGGATTTAAACTTGAATCTTCTTTAAATTTATCTTCTAATCAAAGATATTATGGATTAAGTGTTGAATTAAAGTAATTTTATATAATAAAAATACCTTCAAAGTTAATTTGTAATTCTTACTAATTACTTTGAAGGTATTTTATTTTTTTAGTTTTTTTTAGATTACAAAATAAGAATTTATTTAAATACATTTTGATTAATATTAAATTTTATTTATAAAATTTAATACTGCATTCGAACAAGCGCCTATCATACTAGCTGGAACATAATTAAAATTTGTTGTTCGTATATCTAAAATTTTATTATTTTTAAAAGTAAAATCAATTATCATTTCTTTTAATTTATTTATTGATTCATTTTGTAAATTCAAAATTTTTCCACCAAGAATTACTTTTTCTAAATTAAGTAAGTTTATTGAATGAGAAATATTTTGAGCCAAAATTTTTAAAGTATTATTATAATTATTTTGAAAATCAACAGTTTTTTCTAATGGAATTTCTTTATTTTTATTAAAGATTATATTATGACCTATTTCTCCAGCACCATAATTTTTCCCTCTATAAAGATTATTATTTATTAAAAGTCCAGCACCTATTCCTTCTTTTACAAGAATAAAAATTGCATTTTCTATATTTTTCATATCTTTTGAAAAGGTTTTTTCTGCTAACATAGATAAGTTTGAATCATTATCCAATAAAACATTCTTTAATTTTATATCTTTATAAAACAAATTTTTCCATCCAAGATTGGGAGTATTTATTATTTTTTTATTATTGGAATCTACAATACCTGGTATAGAAAAACTTATATATTCAAAATTATAATTAAATAGCTTAATAAATTTTATCATGTATTCTTTGAATTTTTTAAAATCATTTAAAGTTGGAATTGTTTTTAATATTTCAACACTCCCATCGAATCTTCCGTATCCAAGCATAGTAGTTTTTATATCTATATCTACTATCAAAGCACTCATTTTTTCTTTGTTTATACTTAAAACTTCGCTTTTCCTTCCATATTTTGATTCATTAATTTTCTGTGTTGAAATTATATAATTATCTAAAATTAACTCTGTTATAATTCTTGTTATAGAACTATTACTTAACCCTGTTATATTTGCCAATTCTTTTCTTGTTACTTGTTTATTTAAAAATATGTGTTTTAAAATTTTTCTCTTGTTTAAAATTTTTAATTCGGAACTTTTAAAAGATTTGTTCATTTTTCCCCCCAGTTAAAATATTAAATAATTTTTTAAGGTAATATTGTATATATAAAATATACAATATTTTATAAAAAAAATCAAATTAAATTATATAAAAAATAATTAAAATATCACTTATGCTAGTAATGTAAAAATAAAGTTAAAAAATATTTGTTAATTAATACATATTTAAAATATAATAAATATACTTTTTTAAAATACTGTGGTAAAATATATTCGGTAAACAAACTATTATTGAAGGGGGTATCAAAATTGAAAAGTTTAAAAACTAAGTTAATATTAGTATTTAGTCTTACCGTAATAATATTTTTAATGATTTATAGCGGTATTTCTATATTTTTTGTTACCAAAAGTGTAAATGAAGTTTCTAATGAAATGGCATCGGAAATTTTAAGTAATAAAAGCCAATTAATAGATCAATGGATAAACAGCTCTATTCATTATGTTGATATGATTTCTAAAAACTTTAAGAATATTGATATACATAATAGTGATTCTATTAATAAACTTAGTTTATTTAATGATGAATATTCAAAAAAATTTGAAATGTTATTTATTTCGGATGAAAATGGTGATGCGTTGATACCATCAGGTAGTATAGTAAATATTTCTGATAGAGAATACTTTAAAAAAATAACACAAGAAAAATTAAATTATTATGTTTCTGAAGCTTTGGTATCAAAGGCAACTAACAATGTAATTGTTGTTATAGCAGTTCCTATAAAAACTTCAACAGGAGTGGGAGTTTTTGGAGCAACTGTTTTACTTGATAATCTTCAAAAAATGGTAAATGATATAGAAATAATGAATAAAGGATATGGTTGGCTTATTGATCAAAAAGGAATTTTTGTTCAACATGAAAACAAAGATTTTATAGGAAAAGAAAATGCTTTAAATTTAGATTCAAAATATGGTTATAAAGGTGCTTCTGAAGCTATAAGAAAACTTTTAAATGGAGAAAGTGGAAATGATGAAGTAACTTTATCAAACAATAAAAAAGCTTTTATTTATTATATGCCAATTAAATCAGCAAATTGGGGACTTGGTATTTCAATATTAAAAAGTGATTTATATGAAGGAACAAGAAAAATTTCAAATTTATTGTTAATAATTGGTATAATATTTGCTTTAATTTCTATTGTTGTAGCATATTTTGTTGGTATGAGTATTGTAAATCCTGTAATTTATCTTTCACAACAAGTTGAAAAATTTGGTAGTGGTGATTTAACTATAAGATTTAAGCAAAAAACAAACGATGAAATAGGTAAAATGGTAGCAAGTTTAGGATATATGAGTAATAATTTGAGTAGTACAATTAAAAGTATAAAAGAAGCTTCTGAAAATATTCTTGAATCATCGGAAGAATTAGCAGCAAATGCAGAAGAAAGTACAGCAACTAATGAAGAATTATCAGCAAGAAGTAATAATATAACTGAAAATGCAGAAAATGCAGCAATTAATGTTGAAAATATGGCAGAAGCCATACATGAAATTTCGATGGCAGCACAAAGTGTTTCTGAAGCTGCTCAAGAATTAAATGATTCTGCAAATCATACAGTAAAAGAAACAAAAGAAGGTTCAGATATTTTAAGTGAAGTTTCTAAAATTGTAGAAGTTGCAAATGAAAAATCATCAAATACAGAAAAAGTTGTAAAAGAATTAGCAGATGAAGCAGAGAATATAGAAAATATAGTTGAAACAATTAATTCTATAACAGAACAAACGAATCTTTTAGCTTTAAATGCAGCAATAGAAGCAGCAAGAGCTGGAGAAGCAGGAAAAGGATTTGCAGTAGTAGCCGATGAAATAAGAAAATTAGCCGAGGAATCTAAAGGTGCAACTGAAAAGATAGCTCAAATTTTAGGAGAACTAAAGAATAAATCAAAAATAGCAAACTCTGAAACTATTGAAACAGCAGAAATGATAAAAAAAGTAGAAAAAGGTTCTGAAAGATTGATTGAAAAGTTTAAAAATATTGAAGATAAAGTTTCTAATATGAATAATATGATAGAAGGATTAAGTGCAAGTTCACAACAGCAAAGTGCAAGTACGGAAGAAATCAATGCTTCAATGTCAAGTGTTTCAAAGATAATAAATGAAATAACAAATGGAATAAAAGATGTAAATGAAGGTATTAATTCTCAATCTGAATCATCTCAACAAGTCAGTGCAAGTTCTGAAGAATTGGAAGCTCTATCAGAAAATCTTTCAGAACAAATAGATAAATTTAAAGTTTAAAAATAAAAAAGTGCCTTAGGCACTTTTTTATTTTGCATTATGAAATTTATTTATATAATGATTATCAATGCTCCATGAATTTAAAAGAAAATTTGTTTTGACAAAAATTAATGAATTATTTTGTTTATAGATTATAAAATCTTTTATAATACCATAAAATTTATCTATTTTATATTTCAGATATTCTGTTTTAATTATTTTACCTGTATTGTTTAGTACTATGTATTTATTTTTAAATAATACGTATATACCATTTGTTGTTGAAAAAGAATCTACTATATATTCTTTGAAAGTTTTTTTCCAAAGTTCTTTACCAAAGTAAAATTTTTTAATAGTATTTTTTGAAATTAAGTATAAGTTATCTTTATTATCTAAAAAGTTTCTTCTATAATCAATTTTTGGATCAAAAGAATATAACAATTTTTCTTTGTTATAGCAATTTATTTTTGTATAAAAATAATAAAGTTTGTTGTTTTGAAAGACAATCTTATTTTTTAAAGAAGCTTCTTTGTTTATTTCTCTTATTTTTTCTAAATTATTGTTTAAAAATATAATTTTATTGAGTTCAAGAAGTATCTTTTCATCTTTATTATTTATTATTTTATGAGGAATATAGTTTAAATTTAGAAAAGTAATATTATTTTTTTTAAAATTATATAAAAAAAGATTTTTATCTATAAGTGTCCCAAATAAATAAGTATCATTTGATAGTGGCTCAATTATTTTATTAATGTATTTATCAAAATTTAAACTTAAACTTTTTTCTAACTTTAATGTTTTTTTATCATAAAAACTTATTTTTTTGTCTGAAAAAATTATTAAGTGTGAATCAATAATTCTGATTGAAGTATTATACTTAACATTTATAATTTTTTTAATGAATCCATGTATGTCATAAATATATAAGTTATCTTTTCCAAGAATGTACATACTGTTTTCTGAATAAATAATATTTTCTATTTTTAAATTATAAGGTAATTTAAATACAAGATAAGGGTTTTCTTTTTCGTATATTTGTTTATTTTCTTTTAAATTAATAATGGAATAGATTTTATCAAAAGTAAAATTTAATTCACTGCTAATAAATTTATTTTTTTCTTTTTTTAAGGAATTTAAAAAGTATAATAATCCTTCTGCACTAATTAAATACTTACCTATTTCAAACTTTGTTAAATCATTAAAATCCATGCTTATACTTCCAAAATTTGTACTTATAATACCTTTTTCGATATTTAAATTAAGTTTGTTATAGTTTATTACAGATTTTTTTATATAGATAATATTTTCGTTATTTTTTGAGTTTGAATAAGAAATTAAATCATTTATATTTATATTTAATACGGAATCTGTAGATTTAAAAGTTATAATATCTTTTTTTACTTCAAAAATTGAGTAATTCCCATATATTTTTATGTTATTTTTTAATAAAATTCCATTTTTAAGCAAATCATTTATGTTATTTCCAATATTAGAAACAAGATTTGTTGGAAATTTTTTTACTTGTCCATTAACTTCTATTTGACATTGAAATTCATTAGCGTATAAAATTTTTCCTTTTATTATAGTATTATTTATAATAAAAAATTCTGAATATATAGTACTATATAGAGATACAATAAACAAAGTAAATAAAATAAAGTTTTTTTTCATTTTTTAATCACCATCATTAAAAAAATAAGATTTAAATATATCATGCATTTAATTATAACACATTGAACTTTATTTAAAAAATGAGAGTCTAATAAATGTATAAAGATATATTATATATTATAAAGAGGTGGTGACTCTTTATGAATATCAATGAAATGGCAAATCTTTATTCTTTAGGTGTTTATTCGAGTTATTTTTTAAATGCAATAAATGGTCAAGACAATACGCTTTATTCTCCACCAACAATGATGAATATTTTTAATAATTATTATTCAAATCCATCTGATATGATGAACTCTATTACAGATATTCAAAAATCAGCTCAAAACTTATCAGAAGCTGCCGATACTCTCTCTTCATATTCATCTAATTCTATATTTGATACTTCAAGCGTAGAAACTAATTCTGATTCAGCTACTGCAACAGCAACAGGAAAAGTGGATAAAAATAGCTATACTGTAAATGTATCTCAACTTGCAACAAATCAAGTAAATAAAGGAAATACAATCAATGGAAGTAATCTTGATTTTCAATCTGGTCACAATTTTTTTACAATAGAAAAAGATGGCCAAAAATATACTTTTGATACATATGTTTATGGTAGTTCAACAAATAAGAGCGTTCTTGAAAATATTGCAAATGATATAAACAACAAAGACATTGGATTAACAGCGACATTAAATGAAGATACAAGTGGAAATATTGGACTTTCAATTGTAACGACCGATACAGGTGAAAGTTCTGCATTTAATATTTATGATGTTTCTGGAAACATAAACCAAGTTGGAGGTTTTTCTAATACAACTCAAAATGCTCAAAATGCAATATACACTGTAAATAATGGTAATGAACAAGAAAGTGAATCCAACACTCTACAAATTGATGATAATTTAACTGCAGATGTTACAAAGGCAGGTGCTTTTGAAATAACTGCAACAGCAAATTCAGAAGGAGTAACTTCTTCTGTTGAAAATTTTGTAAACAAATTAAATGATTACTTAAGTACAGTAGAAAAAAACAGTGAATTTATTTCTCAAAACGTACAAAATTCGGCACAAAGTATAGAGAGTGTTGCAAGTACATTGAGTGCTATAGGGATAAACTACAATGGAAGTGAATTTGAAATAACTGATAAATTTTATGATTTAGCAAAAAATCCAGATAATATAGAATCCACAGTGCAGCCAATAGTAGAGAGTGTTGCAAATGAAGTTAAAACTACAGCAAATACAATTTCAGAATCATCAACTTATTCCTTATCTAGTGCATTAAATTCATCTGGAAATTACTTAAATTATACTGGAGGGAGTATTGATTCTTATATTTCAATGTATTTAAATGAAATTATTATGAGTTCTATGGGAAATTCCTTTAATGCTTATGGATAATTATAAAATAATAAGTATCCTCATTGAGGATACTTATTATTTTAATACAAAAAAAACAGATATTACAATAAAATTTTTTGTATTTCCATAAGGCCCTTCCCATTTGTCAGATTCAGGTTTTCTTGGATCATTATATGGTGTATTTAAATCAATTTCACCTTTTTTATAAAATTCAAATAATAATTTTATATTGAATTTTTTATTTAATATATCTGTACCAAAAAGATATCCTTCCATATCGTTTCCATATTTGAAACCCATTGGTATATCTATATCATTATATTTTCCAGTAAATTTTAATAACTCTTGCCAACGATTATACATCCAAGTATAAACTTTATAATATTCTATTTTGGGAGAAATTAAGAAATTATTTATTTTAAATATGAATCTATTTCCTAAACCATATGCAAAAGCAGTTGGTTTATAGTTTTCTGCTCCTGCTTCTGTTTCAGGAACCATATAGTCATCCATAGCAAATTGACAGTACAATTGATAGTTTTTTATAGGGTTAAAAGAAAAATCTACTCCCAACATTGCATTTGAAAAACCTTCTCCATAAGTGTTGTGAAGTATTCCCATTGGATTTATATCTACTATATCTGGAAGTTTCCCACCAACTAAGTTTAATTCGTTAAAGGATATTCTTATCGTATTTAAAGGCTTTAATTCTAATCTGTGTATTATTAGAGTTTTATACTTTGAAGTGTATCCTTCAAAACCAACTCTATCTGAATTTTGATCTATACTTCCATTTTTTTGTATTAATGATTCAGTCGAAGATAAATTTGGTGAAAAAGAATAAACTCCAAATATCATTTTTAAAACTTTAGTATCATATCCTCCCATTATACCATTTACATAAGGTAATGAATCAGATAAGTATACACCATGTTCAAGATCTGACCAATTAGTTCTATATTTTCCATAAATAATCCAAAAAGGATTTGTATTTAAATAAATATAATTTTTAGTTATTTTTAATTCTTTTTGATTTATTTTTGGATAAGGGGTTATATTTATATAATTATTTCCATAGTATAATTCTTTATATAAGTAAGTTTTGTCATTTATTATTTCGGAGAAAGTAATTATATATATTATTTCAATTAATATAAAAAAAATAAATTTTTTCATAGTCCCACATCCAATTTTATTGTATAATTTATGTTGAATGAAGAAAAAATATTTTCAAAATTTAAGTTTGTATATCCAATTTCTAAGTTTCCATAAAATAAATTTATTTTTATTAAGAAGTCAAAAGATGTAAGTTGTTTTTCTTCTACATTTCCAAAATCATACTTAATTTTAAAGTACCCTTTTTTGGCACCTAAAATTAAGTTTATAGTTGTTATATTGGAGTTTTCTCCGTATTTAAAACCAAAGGGATAATCAAATAATATTCTTGAACCGGGTTTATTTGAAAGAGCTATTGAACGATAAAATAAACTTTTATAAGGAGTGCTTTTATAAATCCCTTTATTTACAGAATAATATTCTATATATGGTCGTATTTTGAATGAATTAAAATCAAATACTTTATCTATACCTATACCAAATGAAGAGTTATAGTTTTCATAATTTATTGCATACTCACCATATAAATTAAGGTATCCACTTAATTTACCATTTATAGAAAATAATCCAGTATTTGATTTAAAAAAGATATCCGTTAATTGAGGAAGTTTTCCTCCTATATGATTTAATGAATTTAAAGAGAATTCAAAGTTGTTATTTTTTAAGTGTAGACTATTAAAAAAATCATTTCTATACCCTTCTTTTATATTATGATTAAAAAGATATGTATATTCTTCTTTACTCATAAATGGAACAGAAGATAACATACTAAATCTATAATAAATATTATTTTGAAAAAAAACTTTTAAACTCATATTGTCATAATATGGAGCATTATTTGATAAAAGTAAATCGTAGTCAAGTGGTCCAGAAGAAAGTTGAGTTCTTCCAAGTATAAATTCAAAGCTATCTTCTTTTAATGAAAGATATGAAAATCTTGGAAAATCAACAGAAATTTTAGTAAAGTCATCTATGTTATAAAAATTCATATTTGGGTAAAGAAAATATGAAGTATCTGCCATTATTAAGTCTGGAGCAAACCTTGCAAAAAAAGTATCTTTAAAGGAACTTATAAAGGCAAATGAAAAAACATCTCCATTTTTTATTATTATATCTCTAAATAAATTTTCTTTTATAGATGAATTTTCATATCTAACTTTTGGCATAAAAAAATCATTTTTAATTCTATTTTCATATTTAAATGGAAAATAGCAAATGAAGGAGTTTTTTATTCCTTCATTTGTATTATTTGAATAAACGGGTGTATCATATGTATTTATATTATAAAAATAATAATCAAAATTTTTAGATGTAGTTATTCTTGCTGAAGAGAAGTATATTGTTGATATTAATACAAAAAACAAAGGCATTATTTTTTTCATAGATAGCTCCTTAATAATAAAATTATATGAACAATAATATTTTATCATATTACTTTAATAAAATGAACATCATTAGTAAATAACCAAAAGATGAAAAAATCATTGGTATTAATATTTTCTTTATCATATTTTCCATTTTAACTTCAAAAAAATCAGAAGTTAAAAGTAAACATAAATGAACAGGAGATAGTAGTACACCAACTACAGAAAAATAATAAGTTGTAATTCCGGCAGCCATTAATGGCAAAACACCAGCTGTTACAAGTGAAACTGTAAGAGGCATAGTTACCGCAAAAGCGGCTTGAGTTATTCCAGTGATCATACCTAATGTTAAGGGAGCTAAAATTATTATCCACCAAGGACTTAATCCCATACTTTGTAGTTCGTTTACAAAAGATTTAGATAATCCGGATAATTCAACAAAATTTTTATAAGAAAAGACTAATAATAATAATATTAAGATTTCCCATTTTATTTTCACTAATCCAGAGAAATTTTTATAATAAATGGCATAAGATATTGAAACAACAAGAACAACTATCCAACCTGGTATACTTAATATGACTCCTATCATAACAGCAATTATTGGAATTAATGATTTTAACAGGTTTTTCCAATTTTCTAATGTACCAGAAAACTTTATCTTTCCAACTTTAAAAAAAATCCATCCTCCAATAAAAGCAAAAACTCCTGTTGGTATATTTATTAAAAGTATTTTTGTAATCTTTATATTTGTTAAAGAACTAAATAAAATTACAGCTGGATATAATATCCAAAAAAACTCCATTAAGTGTCTAAACCAATAATTCATGGATGCTGCAGTTAAATTATCTATGTTTTTTTCTTCTGCTATGTCTTTTACCATTGGAGCAGTAAACATAGCACCGCCAGGCATAGGCAATAATCCCAAAAACATAGGCATAAAAGCTATTGCCTGCTTACTATTGAATATTGAATGTATATTTTCTGCAAATTTATTTGAATTTTCAGAAATTTTCATTGTATCTGATATTAAGTAAATCCCAGTTACTATTATTATTAATTCATAAAAACTTGTACCAGATATAGTTTTTATAAATCCTTCAACAATAAAACTTGGTTTAAAAAAAATAAAAGCGGTCGTTAATAATGCACTAAATACCCCAATATAAACTTTTTTGAAAAACTTAATGGTTATTATAAGCGATAAAAATCCCAACAATATAGACAAAGTAGCCATGTTTTCACCTCTTTAATTAATTAGGAATACTTACTTTATTATATCACGCTAAAATCAAAAAAATTTTTAGAAACACAAAATTAAAAAAAATGATGTATAATATTAATAAGGTGTATGATTTTAAAAATGTGATTAATAAAAAGGGGTGATTTTATGAAAAAAGGCAGTATACTTTTTAAATTAACATTATTAAGTACATTGGGGATTGTCACAGTTGTTATTGCTTTAATAATTCTATCTACTAATTCTTTAAACAAATATGCAAATGCTGTAATAAATTCCACAGATCAAATTTTAACAAATGATATTGAAACCAAAAACAAAAAAGATGCTAATTATTTAAAAAGTTATGGAGAAAGTATAGCGGATTATCTTGGGAAAATATCTGCAGATCCAATTTGGAACTTTAATACAGATCTTTTAAATGGATATGTTGAAAATGTAATTAAACTTCCAAATATTGTATATGCAGTAGTTTATGATGATTCTGGAAGCTTACTCGCAGGTGAAAAAAAAGGATCTAATGTAATATCTTATAAAGCAGATATAATGTATGGAGATAAAAAAATAGGAAAGGTTGAACTTGGATTGGATAAAAATTATTTATTAACTCTCCAAGTTGAAAATAAAAAAACAAAAGAATCATTGTTAAGTAAATTTAATAAAGATTCAAAAGATAACATTTCTAAAGCTATGATATATCAATCAATAGTTGCTTTAATAATAGGTGCAATTATTATTATAATAATAGTTTTATTTATTTTAAAAATAGTAAAACCACTACAAAAAATGAATGTTCTTGTTAAAGAACTATCAAAAGGAAAGGGTGATTTAACAGTAAGATTAAATATAAAAACTAAAGATGAAATAGGTGTATTGGCATCTTCTTTCAATGATTTTATTGAGAGCCTTTCTGAATTAGTAAAGATAAATATAAATTCATCAAAAGAAATACAAAACTCTTCTGAATATCTTGCCAAAACGACATTAGATCAAAGAGAATATATTAAAAATGTTGTTGAAGAGATGAATATAATAAATCAAAATTCTCAAAATATTTCAGCTTCACTTGAAGAATTAAATGCAGGTGTTGCAGATTTTTCAGAAGGTACACAAACGGTTTCTGAGAGTTCAAAAAACTTATCAAATGAAACTCAAAATGTTCAAAAATTTATAAAAAATATTGGAAAAACAGTTGAAAAGACAGTAAAAGTTATGAACAATATAAATAAAGAAATGAACAATACTGTAAATAGTATAAATAATGTAAACAAATATGCGCAAAATATAGAAGATATAGTAAGTACAATTTCATCTATTACAGAGCAAACAAATTTATTAGCATTAAATGCAGCAATAGAAGCAGCAAGAGCTGGAGAAGCAGGAAAAGGATTTGCCGTGGTAGCAGATGAAATAAGAAAACTTGCAGAAGAATCTAAAGAAGCAACAGATAATATAGCTCAAATACTTGACTCTATAAAAAATGGTACTCAAGATGCACAAAAAAAAGTGAATGTAGTATTGAAAGATGTTGGAAATGCTGTTGAAACAACCAATGAAATTAGTGGAGAACAAGAAAAAGTAATTGAATTAGTTTCAAAAATGAGTGATATGGCAAATAGAAATTCTCAAATTTCTCAAGAACAAACTACAGCCTCAAATGAAATGTCTCAAGCAATTGGGACTGCTGCTACAAGTGTTTCTGATATAGTTGAAAAATTGGATAAAATCTCAGAAGATTTAAATGAAATAAATAATGAAATTGAAGTTTTGAATAATTCAAGTGATAAATTAAAAGAAAATGCAAATATTCTTGTTGAACAAATGAATAACTTTAAAGTTTAGTTTTATGAATTTAAAGTAAATAAATAGGGGGATTTAATGAAAACTTTAATAAAAAAAAGAAAAAAATTATGCTGTGAAAATGGTAATTTAAATTTAGAAACAATTGGATATGAAAAGTATCCACATATTATAAGTAATTTAAAAGGAATTAGAAAGAAAAGATTTAATTTTTGGACAGTAAAAAATGATATTTTTTTATTTTCTATTGCAATAGTGGATGTTGATTATACAGGAAAAGGAATATTATTTTTTTATGATAGAGTGAGAAAAGAATACTTTGAAGAAGTAATAGAAGTTCCATTTGCTAAAAATTTTAAGTTATCTGAATTTGTATATGGAAATAGCAGTATGAAAAAAGGAGAGTATCAAATTTCTAATGAATACATTAGAAATAATGCAATATTAAAAGCTGATACTAAGAAATTTAAGGTAGACATAGAAGTTAAATATCCTGAAAACGTTGAGAGTTTAAACTTAATTGTACCTTGGAATAATAAAAAATTTCATTTTACTTCAAAACAAAATTGTTTACCTGCAATGGGAAGAATTAATATTGAAGGTAGAATTTATTCTTTTCATATAAAAAATACACTTGCTTCTTTTGATTATGGAAGAGGAATTTGGCCATACAAAACATTTTGGAATTGGGCATCGTTTTCGGGATTTAAAGATGGAGAAAAGTTTGGAATAAATCTTGGTTATGGTTGGACAAAAGGTAGTGGAGTGAATGAAAATTGTGTGTTTTATGATAATAAAATGTATAAACTCAATGATGAAGTTGAATTTATTTATGATAAATTAGATAAAGAAGTTATAATAAAATCTTCAGAAGTTGATATAGTTTTTAAAACAGAATATATCCGAGAAGAAAAAACAAATGTTGTAGTTTTAAAATCAAATTTAAAACAAGCAATTGGAAGTTTTTCTGGAATAATTAAATTTAAAAATAAAGAGATTGAATTTAAAGATATTTTTGGAATAATTGAAGAACATAAAGCAAGATGGTAAAAAGTATATTTATACTTTTTACCATCTTGCTTTATAAATTTATATCTTTTGATAAAGTTGAATTTGTATTAAACTTTTTCATTTGAAAATAAAATAATATTGAAGTTAATAACGTTGCTAAGAAATCAGATATTGGAAATGATATCCAAACTCCGTTTATTCCAAAAAATATTGGCATTATATAAATTAAGGGTATTAAGAAAATTATTTGTCTTGACATAGCTAAAATTAAAGATGAAAAAGCTTTTCCAATAGCTTGGAACATAGTTGCTCCTATTATTTGAATACCAATTAATGGTAAAAATAATATTATTATTTTTAAAACATTTGATGCTGTTAAAATCAAATTTGTATCTGTTGTAAATACACTTAATAATTGTTTTGGGAAAAGTATCAAAATAAAAAATCCAATTGAAGATAATATAGTTGTTGTAATTATAGAAGCTTTTGTAACATCTTTTACTCTAGAATAATTTTTAGCTCCATAATTAAAACCTGCAATGGGTTGGAATCCTTGAGCTATTCCAAAAAGTGGCATTAAAACAAACATTAAAAGTCTATTTGTTAATCCATACACTGCGACATAAAGAACTCCACCATAAACCATTAAGATATTATTTAAAATAATTGTTAATAAACTACCAGCAGATTGTCTTACGAAAGCAGAAGATCCAATTGCCATTATTTCAGTAATTATACCTGATTTTAATTTAAAATTTTTAAAGTGTAATTTTATAGAGCTTTTTCCACTCAAAAAATAATAAATTAAATAAAGAGCTGTTGTTGCTTGAGATAAAACAGTTGCAATAGCAGCACCTTTTATTCCAAGATGTAGTATAAAAATAAAAATTGGATCTAAAATTATATTTAAACCTGCTGAAATTAGCATAGTATACATAGCAGTTTTTGCATTACCTTCAGCTCTAACTATATTGTTTGAAGCCATAGAAAAAGAAAAGAAAATAGTACCGAATAAAATAATACTTAAATAATCTTTTGCTGCATTTATAGATACAGAATTTGTTCCAAGTAAGGATAACAAAGGATTTATAAAAATTAATCCAAGAATAGAAATAGTTGCACTCATTAAAATAACAAGAGTAAAAATATTTCCCATGGTTTTTTCAGCTTTTTGTGCGTTTTTTTCTCCTAAAGCTCTTGAAATTATAGAAGCTCCACCAATACCTATCATTTGAGCTATTGCCATAACTATCATTTGAACAGGAAATGAAAGTGTAATTCCTGTAATTCCCAGAGTTCCTACGCCTCTTCCAACAAAGATGGTATCTACCAAATTGTATAAGGCCTGAACCATCATACCTATTGTTGCTGGTAAAGATAATTTAATTAATAATTTCCAAATTGATTCACTACCAAGTATTTTACTATTTTTATTCACATATATCACCTTCTTGTATTTTTAATAAATTTTTATCTACTTTTTCTAAAGTAGATAATACTTGTTCAATTTCTTTTTGAGTAATACCAAAAGTTAACTTTTGGTCTAATTCATTTAAGATTTCTTTTATTTTTGGTTTTAAATTTAATCCTTTATCAGTTAAATAAACTCTAAAAATTCTTTTATCTTTTTCGTCACGTTTTTTTTCTACGTACCCATTTTCTATTAATTTTTTTAAAGCCCTTGTTGTATTTGCTTTATCTATATCTAAGAATTTACTTATTTGTTCTTGAGTTAATCCATTTCCTTTTCTGTATAACAACATTAAAAAATGAATTTGACCTTTACTTATACTATATTTTTCTAAATTTTTATTTAAATACATATACATTTTTTTTGAGATATGAGAAATTGTTTTTCCAAATGATTCATTCATTTTTTGGCCTCCAATTATTTTTATGATTTAATTATATAAAAATAATGTTGCGATAGCAACTAAAAAATGTATCTTTTTTGTTGCTATCGCAACTAAAAAAATATGATATAATTTTTTAGAGGTGATTTTTATGAAATACAAAGGATTTATATGGGATTTGGGAGGAACTTTATTTGATACTTATCCTGGAATGGTATTTGCTTTTAAAAAAGCGTTGTTAGATTATAACATTGCCGAAAAAGATATTAATATATTAGAAAAAATAAGGATTTCTAAAAAAACAGGCATTGAATATTTTAAAAAAAAATATAATTTAAAAAATGAATTTATAAAAAATGTAGAATTATACGAAAAAAAAATAAATTTAAAAGATAGACCTCCTTTTCCATACATAATAGAAGTTTTAAAATATATAAATGAAAATGGAGGAAAAAACTTTATTTTTACACATAGAAATAAAGAATCTGTTTTTCAGCTTTTAAATTTTTATGATTTAAAAAAATATTTTTTTGAAATAAAAAGTATAGAAGATGGATTGAAAAGAAAACCTAATAAAGAAGGTTATGAATATTTTAAAAAAAAATATAATTTAAAATGGATTGCAATTGGAGATAGAGAAATTGATATACAAGCAGGAATAAATTGTAAAATAGATACTGTTTATTTTAATATTTTTGGTGAAAAAAATATTTTAGCTAAATATTCAATAAAACATTTTAAAGAGTTTTATAGAATCTTAAATGATTTATGATATACTTATCGTTATTATTTTAACATTTTTGGTGTATAATTATTAATGATTACAGAGAATGGAGGGATATTATGAACAAGGAAATTAGAAAAATAGCACTTTTAACTGGCGGAGGAGACTGTCCGGGGCTCAATGCTGTTATTCGTGCTGTAACCAGAACAGCTATATTAAAACATGGTTATGAAGTCATTGGTTACAAATTTGGATACAGAGGTCTTTATAACAACGATTACATACCAATGACAACGAAAACGGTTTCCGGAATTCTACACAAAGGGGGTACCATTCTTTATAGTTCTAACAAAGATAACTTATTTGATTATCAAGTAGAAGAAAATGGGAAAATGGTAAAAAAAGATGTTTCAGATGTTGCCGTTGAAAACTTAAAAAGAGAAGGCGTTGATGTTTTAGTAATAATGGGTGGTGACGGAACATTAACGAGTGCAAGAGACTTTGCAAGAAAAGGAGTAAATGTTATAGGTATTCCTAAAACTATTGATAATGATTTAGCTGCAACAGATCTTACTTTTGGTTTTCAATCCGCAGTTAATGTAGTTACAGAAGCTTTGGATAGATTACATACAACAGCTGAATCTCATCATAGGGTAATGATACTTGAAGTTATGGGAAGAAATGCAGGATGGATTGCACTTCATTCAGGTCTTGCAGGATCTGCTGATGTTATATTAATACCAGAAATTCCTTATGATTTAGATAGAGTAGTTAATAAAATAAAACAAAGAAGTAATTCAGGTAAACAATTTAGTATAATAGTAGTAGCTGAAGGAGCTAAACCAAAAGGCGGAGAAGTAGTGGTAAATAAAGTTGTAAAAGATAGTCCTGATCCTATAAGACTTGGTGGAATAGGAAATAAACTTGCTGCAGATCTGGAAAAAAGAATTTCTGATCATGAAATAAGATGTACTGTTCTTGGTCATCTTCAAAGAGGTGGAAATACTAGTGCTTTTGATAGAGTTCTTTCAACAAGATATGGTGTTGCAGCAGTTGATTTAATTCATAATAGAGACTTTGGTAAAATGGTTGCCTTACAGGGAAATAAAATAGTTAGTGTTTCGCTTGAAGACGTAATTGGAACTACAAAAACAGTTGATCCTAATGGTGAATTAGTAAGAGTAGCTCAAAGTATAGGTGTTTCATTTGGAGATTAATAAAAAACGGCTTTTAAAGCCGTTTTTTATTATAAAATAGAACAAAATATATTATAATTAAAAAAAACAAAGAATTTTAAATATAAACGCATTTATTTGTTGTTAATTGTAATTAATTGATAATAATTGGTGTTGCTAAAATGGTATATTAAATGATAACATAAAAACGTAATTAGCACTCAAACTTAAAAAGTGCTAAAAATAAAATCAAAATACTTATTAAGGAGGCGGTTTTTAAAATGATGGTAAAACCTCTCGGTAATAGATTACTTATTAAACCAGTTGTAGAAGAAAAGAAAACAGCAGGAGGACTTGTACTTCCAGATTCAGCTACTGAAAAGCCACAAAAAGCAGTTATTGTAGAAGTAGGAACACTTGATGAAGATTGTACTTTAAAAGTTGGCGACAAAGTTATCTTTGCAAAGTACTCAGGAACTGAAATCAAAATTGAAGATGAAGATCACATCATAATAGACGTTGATGATGTGTTGGCAAAAGTAGAAGATTAACGAATCGGAGGTGTAAGAAATGGCAAAAGTTTTAAAGTTTGGTGAAGAAGCAAGAAGATCACTTGAAAATGGTGTTGATACTGTAGCAAATGCAGTTAAAATAACTCTTGGACCAAAAGGAAGAAATGTTGTTTTAGAAAAAAGTTGGGGTTCTCCAACTATAACTAATGATGGTGTTTCAATTGCAAAAGAAATTGAAGTAAAAGATAAATTTGAAAATCTTGGTGCTCAACTTGTTAAAGAAGTTGCTTCAAAAACTAATGATGTAGCTGGTGATGGTACAACAACAGCAACAGTTTTAGCTCAAGCTATGATTAAAGAAGGATTAAAAAATGTAGCTGCTGGTGCAAATCCAATGCTCATGAAAAATGGTATTAATGAAGCTACAAAAGTAGCAGTTGAAGAAGTAAAATCAATGAGTAAAAAATTAAAAGGAAAAGAAGACATAGCTCATGTTGCTTCTATTTCAGCAAATAATAAAGAAATTGGAAATATTATTGCAGAAGCTATGGATAAAGTGGGAGAAGATGGAGTTATAACTGTTGAAGATTCAAAAACAATGGATACTTTTGTTGAATTTACAGAAGGTATGCAATTTGATAGAGGATATATTTCTCCATACTTTGTAACTAACACAGATAAAATGGAAGTTGAATTGAAAGATCCATATATTTTAATAACAGATAAAAAAATAACAAGCGTTAAACCATTAGTACCACTTCTAGAAAAAACAGCACAAGCAGGTAAACCATTATTAATAATTGCTGAAGATATTGAAGGTGAAGCACTTTCAACTTTAGTATTAAATAAATTAAGAGGTACTCTTGAATCAGCAGCAGTAAAAGCTCCTGGATTTGGAGATAGAAGAAAAGCTATGCTTCAAGATATTGCAGCTTTAACTGGAGGAACTGTAATTACAGAAGATTTAGGACTTACTCTTGAAAATACAACTATTGAAGATTTAGGTTCTGCAGAAGTTGTAAGAATTGGAAAAGATGATACAATAATTGTTAGTGGAAAAGGTGATCCAAAAGATATTGAAGAAAGAGTAAAACAAATTAGAGCACAAATTGAAGCAACAACATCTGATTATGAAAAAGAAACACTTCAAGAAAGACTTGCTAAACTTGCAGGTGGTGTAGCTGTTATAAAAGTTGGAGCAGCAACAGAAACTGAATTAAAAGAAAAGAAACATAGAATTGAAGATGCACTTTCAGCAACAAGAGCAGCAGTTGAAGAAGGAATTGTTGCAGGTGGTGGAATTGCATTATTAAGAACTAAAAAAGCAGTTGAAAAAGTTGTGGAAACTCTTGAAGGTGATGAAAAAATAGGTGCTGTTACTGTATTTAAGTCTTTAGATGCTCCTATAAGACAAATTGCTAAAAATGCAGGAGTTGAAGGTGCTATAATTGTAGATAAAGTATTATCTAATGACTCAACTTCCTATGGATACGATGCTTTAAATAATGAATTTGTTGATATGTTTGAAAAAGGTATAATTGATCCAGCTAAAGTTACAAGAAGTACACTTCAAAATGCATCTTCAATAGCTTCTATGTTATTAACAACAGAAGTTTTAGTAGCTGATGAACCAAAAGAAGAAGCTCCAGCACCAGATATGGGTGGAGCAGGAATGGGCGGAATGCCAGGAATGTATTAATAAATAACTCAATGAGTTATTGTGGATTAAAATAAATAAAAAATTAAAAAAAAGAGTAGTGCTTTGCACTACTCTTTTTTGCTAACATTAGCACTTTCAAAAGTTTCCATTTCATTTATCATTTTTATTGCAGCTTCTATTAAACTAAAAGATAAAACTGCTCCAGTACCTTCACCAAGTCGCATGTTTAAATCTAAAATTGGATCTAATTCCATACTTTTTAAAATTACTGAGTGACCTTTTACAAGAGATTTATGACCAGCAAATATGAAATTTTTTATTTTAGGATTTATTTTATAGGCAATCATTGCTGCTGCTGTTGTTGGAAATCCATCTAAAACAACTGGGATTTTATTTTCAGCACATTCAAGTAAAAAGCCAGCCATTTCTCCAAAACAATAACTTCCAACCTTTGATAAAACATCTATACTGTCTTTAAAAGGTTTGTGAAGTTCAATAGCTTTTTCAACGGCTCTTTTCTTGTTGTTTAACTGTTCATTTGTTATTACTGTACCTATATCAATTATATCTTTTAAAGGGATACCAAAAGCACAAGCTATTGCTGTAGCTGTTGTTGTATTTCCAATACCCATATCACCAATAGCAGCAAGCTCAACACCATTTACAATTGAATGTCTAGCAATTTCTCTACCGTATTCTATAGATTTTTTTGCTTCTATTATACTCATTGCTCTTTCTTTTGTAAAATTTTTAGTTCCATATCCTACTTTTTTCTTTATTAAACCTGGATTATCTTTAAAATAAAAATTTACCCCAGCATCAACAACTAAAACATCACTATTTGTATGCCTTGAAAAAACATTTATTGCTGCTCCACCATTTAAAAAGTTTAATACCATTTGAGGTGTTACTTCTTTTGGAGAAGCTGATACATCTTCTTCTACAACTCCATGATCGCCTGCAAAGACATAAACGGCTTTTTTTCTAGGTAATTTTGGTATTCTTCCTTGAATCAATCCCATTTTTAAAGCAATATCTTCTAATTTTCCCAAACTTCCTTGAGGTTTTGTTAAGCTGTCTAACCTTTTTTGAATTTGTTCTTTCATCTTTCTCCCTCCATAAACTAAAGATTTCTCAATCCACTCCTAGAGATTGAGAAGTTACTAAAATTTTGAATAAAGTATCCCGGCTTATACATCATTCTACTATCTATGCCTTCCCTTTCAGTGGCTTTTATAGAGTTCGTCCGTAATTACGGTGGCTGGTCCGCAATGGAATTTCACCATTTTCCAATATTCAAAACTTTAATATTTAATTTTTATATATTTTATTTTACCATAAAAAAAATCTCCTTGTATAGTATTACAAGGAGAGAGTATATTTTATAATTTAAATTTATTTATTTCTTCTTTTAAATTTTTAGTCACTTCATTTAAAATTTCTACTTGTTTCATTAGTGAATTAATAGAATTTGTTTCTGATATTATGTCTTGTTTAGTTCTTTCAATTTGTTTTTCAGAACTTTCAGTTTCAATTTTTATTTTTTTAGAAATTTCTTTAAAAGTTTCTATTATAGCTTTTTGTTCAGATACTTCAATGTTTAAGTTTTCAACAACACTTCCAAGGTTATTTGAATAAATTTTTAATTTATCAAATTCATTTTTAAAGTCATAAACTTTTTTGTTTAATATGTTCATATTCTCATTTGAGTTCATTACTTCGTTTATTACATTTTTAAGATTTTTATTCACTTTATCCATTTCATAATTTATACCAGTTGCCGTTGTAGATGTTTCTTCAGATAAATTTCTTATTTCTTCTGCTACTACTGCAAATCCTTTTCCTGCTTCTCCAGCTCTTGCTGCTTCTATTGCTGCATTTAAAGCTAATAAATTTGTTTGATTGGCAATATCCGTTATTTTTTCTATAAAATCAGAAACTTTATTTACTTCTTTTGAAAAAACTTCAATATTCATTACAGTATCTTTCATAGTTTCAGAAACATTATTTGAAGTTTCTGTTATTGTTTTTACTAAAACTTCACCATTTTCAGCTAATTTTATTGTATTTAATGAAATTTGATGTATATTAGAGTTTGAAGAACTAATATTTTCGGAGCTTTCTGATAATTTTTCCAAACTTTCACTCAAATTATCTATAGTATAATTCATAATATTTTCAATTTCTTTTGTTTGTTTTAGCATGTTTTCAAGGCTTTTTTGTGTATTTTTTAATTCAGACGATTTTTGATCTACATTGTTTGATGATTCAATTAATTTATTAGAATCTTTTATTAAATTTGTTATTAAATTTTTTAAAGATTTTGCAGTATTTTGAAGTTCTTTAGCCATTACTCCAAATTCATCTTTGACTTTAAATATTTTTGTATCATCAAAGTGTAAATCTCCATTAGAAATTTTTGTCAATTTTTCAGTTATACTTTTTACATGATTACCTATATTTTTTCCAAGAAAATATGATATTACTATAGATAGTATAAATATTATTATTAACCACATTATAATGTTTTTAATTATGTTTTGAATGTTTAAATCAATATTTATTTTTACATCTTTTATTGTAGCTTTTGGAATTTCTATATTTGTCTTCAATGGAATGTTTATTTGAGCTGTTGTTGAATTGAATTCTTTTGAAATTTGAATATAAATTCCTCCAAATTCATTTATTTTAGAGTATACAGAACGCATATTTTTATTTAAAATTTTTTCTAAAATATATTTTTTATTTATTTTTTCTTTTGATATATTTAAAATATCAGAAGGCATATTTGAAAAAATTATATTCATGTTTTTTGAATAAATAGCAATATTTGCATTTAATAATTTTGAAACTTCAAGTATTTTTTGATAATTAAATTGATTTAAAATTACGATAAAGCCATTTATTGTACTTTGAGCTATTGGATCAACAATTGGGAAAACACCTAAAAAATAAGGTATTTTTTCTATAGTTAAAGTTTTTATTATGGGATATTTGTTATCTGAAGATAAATAGTCTTTAAAAATATCCGTTAAAAAAGTATTTAAATTTATATTTTTTATTTTATCGTATCCTGGTAAGTAAGATTCAGCTTTTCTTTGAACTTTATAAACTTTATCTTTAATTTTTATATCAAATCTATTTTTTTTAGTTGCAACCTTTGGATTGACTATCCATAATTGAATTCCATTGTATTCAAGGGCATTTATAAATGGAGTTAATATTTTATATCTATCTAATATAGAAATACTTTTTTTTGATGTTTTTTCTTTAATTAATTCATTTGAAGATATTAACCTTCCATTTTTTTCAATATTATTTTTTTGTGAAAAGATATAGTTTGAAAAAACTTTATTTAATGTATCAAGAGAGTTATCAAAAGATTTTTTATAAGAATTTTCGAATTTTAAAGAAATATCTTTTTCTATTTTTTTAGTCTCTGATTTTATATAATTATTATAATCTGAAATTTGTTTTTTTACAGAGTTGCTATAGGTATCAAAAGATTTTTTATAAGTTTCTTTTAAAGAGTTCACTGATTGTTTTATAGTGTTTTCACTTTCTTTTGAATTTTGAATTACAGAAAATGAAAAGTACAAAACAGTTATTATTGCAGGTAAAATAGCCATAGATATTAGCAATACACCTACTTTTTTTCCAAAACTAAAGTATCTTTTTTTATCCCCTTTCAAAACTATCACCCCTTTTTGAAATCGTTTCCAAAATATTTTATCACAAAATCACTAAAATTTTACTGTATGTTTTTTTGAAGAGATAAAATAAATATAAAATACTAAAATTAAAGAAGAAAGTATTAAAGGAATTATTTTTTCATTTAAAGAAATACTAGGAATAAAACAAAATAAAGTTAAAAAGCTTTTTGTTGTAATTGCAATAAAAGAAGCTATTTTACCAACAAATGAAATTGGAAAAATTATTAATATAATGTCTAAAAATATTATAATTGCTATTATTGGAGATAATAAAGGAGTTAATAATATTCCTAATAAAGAAAATGAATTAAAATATAAAATAGAAAATGGGAGTACTCCAATGAAAGCAGATATTGGTATTAAAAGTTCGTAGTGTTTGGGATTATACTTTAAAGTTAATAGTATCATAAAAGTTGCAGAATAACTCATTTGAAACCCTGGATTTAGTATTGATTCGGGAAAAAGTAATAAGTTTAAATAACCAATAAAACTTAAAATATTTAATGGTTCATAATAATAATCAAATAATTTAAAAATATTTATTGTTATTAAAAATAAAACTGCTCTAACAGAACTTGGAGAAAATCCAGTAAAGATTAAGTATAATAATAAAAAAGGTAAAACTAATAATATTCTTAAATTTCTTTTGTATATTACATGTGATATTAAGAATGAAAAGATAAAATAAATAATATAAACATGCATTCCTGAAACAGCAAATAAGTGGAGAGTACCCGTTTGTTTAAAGAGATTTTTATTTTTAATTCCTCCCATAAATGAAGAAATTAAAATATCCTGTTCATCTTTATTTGAAACAGCTTTTTGTATATTTTTTATTGCGATATCTTTTAAATGAAAGATTGTAGTTTTGTATCCTGGTGCAATATAATCTACTCTTAATTTATTTTCTAAAGTTCCATGTATATAAACATCTTTACCACAATAAATTGGTTCAATTGAAAATTTATTATAATAAAAAGTATATGTTTTTCTTACTTTGTTCCATTTTTTTGTATATATTGAATTTGTCAATATTGTGTATTGATTGTCTCTTTTGTTTATTATTTTCCCATTTATTCCAACTTCTCCCTTATACTTAAAGGGAGTAAAGAAAAATGCTGGTATTATAAATAATAATATTAACTTTCTTCTAAAAGATTTTTTTTCAAGCAAAAAAAGCAAAACAACTGCAATTAAGGCAATTGTTTTGCTTATATATGTAAGTAATATTATTAAAGAGTATAATAAAAAAACATTAAAGAAAAAGGACATTAAATATTTAAACACCCCATGGCAAGAGATGCAAGTTTTGCTTCTGAATTGTCTGCTCTTGATACAATTACAATAGGAGCTTTTGCACCTAAAACTAATCCAGCTATATTTCCTCCGCCAATATAAATAGCTGATTTTCCAAGAACATTTCCAACCATTATATCTGGAGCAACTAAAATATCAGCATGTCCAGCAACTTCACCTGAAACTTTTTTAATCTTTGCTGCTTTTTCACTTAAAGCATTATCAAGAGCTAAAGGACCATCAACAATACAACCCTTTATTTGACCTCTTCTATTCATTTGAGTTAATATAGCAGCATCCATAGTTGGCTGCATATCTTGATTTACAACTTCAACGTGTGCCAATATGCCAACCTTTGGAGTTTCAATTCCAAGAGATTTTGCAAGTTTTACAGAGTTATTTATTATAGCTACTTTTTGTTCAAGTGTTGGATAAGGGATCATACCGCCATCTGTAACCATTACTAATTTTTCAAGAGCTGGAGTATCAAGAACAGCAACATGAGATAGAACACTACCAGTTCTAAGTCCCCATTCTTTATTTAAAGCTGCCTTTAAAAGATAAGCTGTTTTTACAAGACCTTTCATTAAAACATCTGCTGCTCCAGATGAAACTAATCTAACTCCTTTTTCAGAAGCATCAATATCTCCATTTGCTTCAACTATATCAAAATCTTTTCCAACTTCTTTTAAGTTTGATTTTATCTTTTCAACATTTCCAACGAGAACTGGTTCTACAAATCCTTCGTCATATGCCATTGAAACAGCTTTAACTGCTTCTAAATCTTCTGCTCCAACAACAACAACTCTTTTTTTACCTTTTGATTTAGCCATTGCTATTAATTCTTTAAAATCTTTCATATAAAGCCTCCTTATAGTTATTCTCATAACTATTTTACACTAAATATGAAAAAATTTTCAATCAGTATAAGAAGACATTATTGAGAATATTTAAAAATAAATGTCAATTTAAAACATTTATCTCAAATTTTGCCCTTCCTAAAATTTCATATTTTGATCCTTCTTTCCAAACTTCACCAAAGTATCTTATTTTTTTACCTTTTAATTCATATAAGTTGAAATTTTTAAAAAAAGCATTAAATTCAGCTTGTCTAATAGAAACTACGAAATCATTTTCATTTGAATAAATTTTGTAAAAACTTCCAGAGCGTCCAACATTACCAACAGTAAATTCTATCCATCTTATTTTTCCTATATCTTTCTTTGTCAATTGTTTTGGTGTTTTTATTATGGTATTATCATTATATTTTGAAAAAATACCATTTTTATGTTCAAAAGCATATTCATAAGCTTTTATGAAGATTTCTTTGTTTTTTGAAGAGTCATCATAAAAAAGAGGCCTTGCCAAACCATTTTTTAAAAGTTCTTCATTTAAAAAATGATATTTTCCATCTTTTTTATAGTAAATGTATCCAAGTAGTCTTCCATAATTTCCATATTTATCTTGATCAAAATCCAAGTAAACAACATCTTTACTGTATACTTTTACACATTTTCTTGTATAATAATAAGCTTCCGTTCCATATTCACCAAGTGGTTTTGAACTAACATGTGTTTCTGGTGTGTCTATTCCTATGAATCTAACACTCGTTGGTTGACCATCATCTAATACTTTAATAGTATCTCCATCAGCAATATCTAAAATAGAAAAACTTTCATAACCATTTGGAGTTAAAATTTTTTTATTTTGTTGTTTTGCACAACCAGTAAAAAGTAATGCAATAACAATTAAAAAAGCAAATATCAAGTTTCTTAATTTCATTTTTACAACCTCCCAAATTTTTATTCTTTAGAATATCAACTTTATCACATTTTTTGAAAAAAAACAAATAAATTAATAAAAAAAGTTGATGTTAATTTTAAATATAAAGTATAAAATTGTAAAAAACATGATTAAAACTAAATATTTGTAAATAATTAGAATTTACAAACTTTACTTTGCTTAATATTAATTTTAAAAAACTTTTACTTTATGTTATAATGTACTCCTATGTAAAAATATATAATAATTCGAACACAATAAAAACTGGGAGGGATTAACGTGAAAAAAGTTTTAACATTATCGGTATTAGTGGTAGCCATATTAATGGTATTTACAGGATGTTTACCAAAGACAAAATTTGGTACAGCTACTTTAAAAACGATACCTGAACTGAGAACATTAATTATGAATAACAAAGATACTTGGACAGATTTTGATGCAAAAGATAGACTTTATGAAACAGAAGGAACCGTAGCTTATGAATATGTTTCGAATTCTGATTCTACTAAAAATTATGTTTATGTTGTTGATGATAAAGGAAATGGTATAAAATTATCTTATTTACACAAAAATGAATATGAAAATTTATTTAATGTAAATGATAAAATAAAAATAAAAGGTGTTCCATACTACAAAACTTGGGATGATCCTAATGTTTATGAATTGAGAATGGATATAAGCAACTATGGAACAATAACTGTATTAGAAGCAAATCATGGTATTGTTTTAAGCAGTGCAAAAAATCAAACTTCATCTTTAACGGGTTCTAATTTTGCAAACTTAATAAAGTTCACTGGAAAGTATGTAGATTCTGATCAATTTCAAAATAAAAACTTTACTTTAGCAAATGGAGATACTATTGTAATTGATTCCCATTCAACAATAGGTACATTAACTCCAAACTCTACATATACAGTAACAGGTGTAGTTGGCCAAAGTTTTGGTTACAGGGTATTCACATCAGATGCAAGTTGGACAACTCTTTTAGAAGCAGCACCACCAGCACCAACACCTGAATCAACTTATACAGGAATCGAAAAAGTAAAAAATGATTTTTTAACTAATTCTGCAAGTAATACATTTAAAAACATTGAAGGTAAGTTGTTTATATAAAGAGTGGAAAGCCTTACTTAAACGATGATAAAACTGGTATATATGTGAATTATTCAATTTCTGGAATAAATATTGGAGACAAAATAAAGATAGACGGTGAAATTTATCAAGATACATATAATCATAACTTTAGATTTAAAAACATAACTTCTCCTTCTACAACAGTAAGTACAGGAAATACAATAAATTATTTTACACTTGACAAAGAATTGTGGAGCAAAAATGATTGGGATACAGCTGTTGTTTGGGGACAAAGAATAGTTAAAGTAAAAGGTACTTTAAAACCAATTGATGGAGATAATTATAACTATGAATTTACTTATACAACTTCAACTGGTGATGCAACAATGTTAGCTTATTCAAAATCAATAATAGATGATGCAAATGGAGGAGCTTTAACAACAACTAAAGATGCTACATTAATTGGTATTTTAGAAAAATACAAAAATCAATGGGAAATCAAACCAAGAACTAAGGATGATGTAGAATTTTAATGGAGGATAAAAAATGAAAAAAACAATTTTATTTTTAATTTTAACACTTTTTGTAGTAACGATTTTTGCAAGAGGAACAGTGATGTCTGTTTTGGGATTGTACACTTTGAACTTGGATGACAAAAATACATTTTCAAATCCATTTCCAATACTATACTTTAAGTCTGAATTAGCTCCAAATCTTGAATTGAAGTTTGATTATTATTTGGGCCTTTCTCCAAGATATTCATTTAAAGTAGATGAGAATGGTGAATATGATTTGCCTATACCAAATCATTACTCTTTAAATTATACGACAAGAAATTTATTTTTAACTGTAGGAAATCCAAAGTTTAAAAGTTATTCTTATGATTTTATCAAAGAAGATGGTTTTAGAATAGGTGGATTTAAAGATGATTTAGCTACTGGTATTGGTGGATATTTAAAAGCTGGCATTTTAAAGCTTGGAGGATACTACAACTTAAACTACAGTTACTTTGAAACTGATGAAAGTAGAAAAGATGGTGATGATTCATATGCTTTAATGGTTGGTATGGATTCAAGATATCAAAGATTGATGGGATATCTTTCAAAAGATAAGTATGGTAAATTAAACTTGTCTATTGATGGATACCACAGTTTTAAAGTAAATAGAAAAACTAACTATCAATTTTATTATGGTGCAGGATATGCTGTAAATGCTACAGATGATATGCAAAATGATTTAACAGAACTTTCAAGTATTATTACTACACCAAAGATTATTGCAGGTATGAGAATGTATACAAAACCTGTTTATGTAAAGGGATTATTTTATTATAATTTAGATACAAATGGAAAGAACAATTATCATATACAAGTCGATGGTGCAAATGATAGTCCTAATGGAAAAACATGGTTATATGACTTTAAATTTGGATATCAATTACAAAAACCATGGACAATTGAAGGATTTATAAGAGGAAACTCTAAAGATGAAGGAATATTAACAGATTATATAACTGATTATGGAGCTACATTAATTGGTGATTATTTTTCTATAACCTTTGCAATGAAAGATGCAAATGGTAGAACAGATGGAAATCAAAATATTGTAATCTCATTTTCTACTTGGAATGATTTTGCATTTTTAGATGGAGCACTTTTAGGAGATTAATTTAAAATATCGTATATTTAATATTGAGTCGTTTGCCAGAGCAAACGACTTTTTTAAACAAAAAGGAGGAACACTTTTGAAAAAAATTTTATTATACACTTTTTTTATAATTTTAATACTTGTATTATCTTCATGTTTACCGCATTCAAACAATAATGAAGTTTTAACAGGAGATGTATTATTTGACAATGCACACTCACAAACAGCAGGGAATGCAGACTGGACAATAACAGGAGGTTTTTCTGATTTTGCAAATGATATAAAAAAAATAGGTTTAAATGTACAACAATGGGGTAATGATGAAACAGGATCTAGTCAAAGAGATGATGATGCACCAATAACCTATGACACATTAAAAAATTTTAAGGTTTATATAATACCAGAACCAAATAAACCTTTCACAAGTCAAGAACAAGCAGATATAATAAAGTACATAAATGATGGAGGAAGTGTCTTTTTTATAAGCGATCACATAAGAGCAGATAGAAACAATAACGGATGGGATGCAGTACAAATATTCAATGGTTTTAAACGAGGAACTCATACAATAGAAAATAAAAATAATTATACAGATGATTTTGTAGGGAAATTAGGATTTAGATTTAGGGAAGTTCAATACAGTCAAGATCCAATAACAAACATGAAAACACATGAAATAACAAACGGAGTAACACAAGTTGGAATGTGGGCTGGTTCAACACTGTATATAAAAGATAGCAATATAAATGGATTAGTTTATTTAACAAATGAAAATAGTGGACCATATGTAATAGCGGGAACATATGGAAAAGGAAAGTTTGTTGCAATAGGAGATAGTTCACCAATAGACGATGGAAGTGGTGCAGACAGTAAATTGTACGATGGATACAATGATTTAGATGATGCTAAACTTTGTATGAATATAATAAAATGGTTGAATAAATAAATTTAATAATAACTATTAAATTTGAATAAAATATTAAAAAGGTGTATAATTGTTATACCAATATAAAAGGGGGTAGTATAAATGTTAAGAAAAACACTTGTTTTTATGCTTATCATTATTAGTGTTTTTGTACTGGCAGATGTACAATTACAAATTTTAGCAACGTCAGATTCTCATGGAAGATTTTTACCTTATGATTATGCAGTTAACTCAGAAAATAATGCGGGTAGTTTAGCACAGGTTTATACTGTTGTTAAAAAATTAAGAGCAGAAAATCCTAATACTATATTGATAGATGTTGGAGATACCATACAAGATAACTCTGCTTCATTATTTATAAATGATGCAGTAAATCCTATGATGCTTGCTTTAAATGAAATAGGATACGATGTTTGGGTGCTTGGAAATCATGAATTTAACTATGGAATTCCTGCACTTGAAAAAGTAATGAAACAATTTAAACATCCAGAGAATCTTCTTGGTGGAAATGTTTATAAACCAGATGGAACAAGATTAGCTAAACCCTATACTATTATAGAAAAAGATGGTATAAAAGTTGGAATTATTGGTATGGTAACTCCAAATATAAAAAAATGGGATGCTTCAAACTTAGCTAATTATAAAGTTACAAATCCTATTGATGAAACAAGAGAAGCAATAAAAGAATTAAAGGGAAAGGTTGATATTATAATTGCAACAGAACATATGGCTTTAGATGATGAATACGATGTTAAGGGATCTGGTGCTCTTGATGTTATAGCAGCTAATCCTGAAATTAATGTTTTTGTAGCAGCACATGCTCATGTTAAAATAGCAAATGAATATTATTATAAAGGTAAGTTATACAAGGAAAATGAATTAACAGACGAAATTAAAAATAATGGTACATTAATTGTTGAACCTTATAAATGGGGAAGAACTATATCTCAAGTTTTAATAAACTTTAAAAAAGAAAATGGGAAGTATGTTGTTGAAAGTAGAAGTTCGAAAAACATAGATATGAAAGCAAAACATGGTAATGAAGTAGAAGTTGTTCCAGCAGATAAAACTTTAGAAACAGAACTTCAACCATATAATGAAAGAGCAATTAGCTATGCAGAAAAAGTTTTTGGAGAAATGAAAGGTGGAAACTTAGTACCAGATAACACAATAAAAGGTAGTTGTATTGCAAAATTACAACCAAATGCTATGATTGATTTAATAAATAAAACACAAATGAAATATGGAGAAAGAATTGCTGGCAGAAAAATTGATGTAGCTTCAGCTGCGGTTTTTAGAGAAGATTCTAATATAAAAGAAGGAAAAATTGCCAATAGTGATATGGCTTTAATTTATAAATATGATAATACATTGTATGTTCTTGAAATTAAAGGTAAACAGTTAAAAGAATATATGGAATGGTCAGCAGCATATTATAATCAATTTAAAGATGGTGATTTAACTATATCATTTAATCCAGATATAAGAGGATATAATTATGATATGTTTAATGGTGTAAAGTATGAAATTGATATATCTAAACCAGCTGGTCATAGAATAGTTAATTTAAGAAAAATGGATGGAACACCAATAAAAGATACAGATGTTTTAACCTTAGCTGTAAATAATTATAGAGCTAATTCACAGTTATTAAAACCAGGAGCAATTTTTAAAGATGGTGAAGATTTACCTAAATTATTGGGTAAATCAACAGATGTTCCAGAATTTGTTGATGGAAGAATAAGAGATCTTTTAAGAAAATATATTAAAGAAGAATTAAATGGTGTTTTAACGCCTAAATATGATAATAATTGGAAGATAATAGGATATAAATGGGATCCAAAATATAGAGCAGCTGCAATAAAATTAATAAATGAAGGTAAAATAAATCTAATTGCTGCAGGTAGATCTTCTTCTAATTCAGTTTCTGTGACTAAGAAAGATGTTGATGCTTTAACAAGTTCTTATATGATAAAAGAAGGAGATACCTTAAGTTCAATTGCAAAAAAAGTAGGAAGTAATTATATGTATCTTGCAGAATTGAATGGAATTTCAGCACCTTACGTTATTCATGTTTATGATGAACTTTTAATACCTAAAAAATAAACTATAAATATAACGGGAGCTTTGCTCCCGTTTTTTTGGAGGAAAAATGAAAAAAAAACCTGAAATAATAGTTGTTTTATCAGTGTTATTTGTATCTATATTTTTAATGTTTTATTCACCATACGAAATTATGGAAAAGAAAAAATATCAAGAAATTACTGATTATAAATATGCAAAAGCAAAAGTTTTAGAGATTATAGAAGATACGACTAAAGACAAAGTGAAAAATGATGTTTCTCATATGAGATATCAAAAATTTAAATTAGAAATTCTTACTGGACCACATAAAGGAGAAAAATATATAATAAACCATGCAATTGAAATTATAGATGTTTATTATATTCTTGTAAAAGAAAAAGACAGTATAATTATTTCATATACTGAAAATGATAAAAATAAAATTATGACTATTTCTTTGTATGAAATAAATAGAGAAAAGTATGTGTATGGAATAATTTTAATATTTTTTATTTCATTAATAATTATAGCTAAAATAAAAGGATTAAAATCATCATTGACGCTATTTTTTACAGCTATAGTAATAATAAAAATACTTTTACCTATGATTTTAATGGGATATAATCCAATAAATTTAACTATTATTTTGTGCAGTTTTATAGCTTTAGGTACATTATTGATTATAGGTGGAGTTAATAAAAAATCTTTTTCTGCAATAATAGGAACTATGGGAGGATTAGCAATATCTGGAATTATAGCTGCTATTATAGGAAATTTATCAAGGGTTTCAGGTCTTGCAGGAGATAGTGCAAGAATGATAAAATTTTTGCACAGAGATTTACAATTAGATTTTAAAGGAATATTATTTTCTGCCATATTAATAGGAGCACTTGGAGCTGTAATGGATGTAGGACTTTCAATTGCTTCAGCATTAAATGAAATTGTTAGCGTTAAACCAGATATAAGTAATAAAAATTTAATAAAATCTGGTATGAACGTTGGAAAAGATATAGTTGGATCAATGTCAAATACATTAATTTTAGCTTATGTTGGTGGTGCTTTACAATTACTTATTTTGTTTTTAGCAACTAAAACTCATTATATTCAATTAATAAATATCGAATTAATATCTTCAGAAATTATAACTGCAGTTTCTGGAAGTATAGGGTTAATTTGGAGTGTTCCATTAACTATTTTAGCTTTTGTTTTATTGAGAAATAAAAATAAAAAATGATAAAAAATCCCAGTATTGCTGGGGTTTTTTATTTTTTTAATATATATGTTATAATAAAAATTAGAGGTGATAAAAGTGAAGAAATTGCCAATAGGAGTACAAGACTTTAAAGAGTTAATAACAGATTATATATACATAGATAAAACAAAATATTTATATGAATTAATAACAAGTGGAAAATTTTATTTTTTATCACGCCCAAGAAGATTTGGTAAGAGTTTAACAGTATCAACACTTTACTATCTATTTAAAGGAGAAAAAGAATTATTTAAAGGAACATACATATATGATAAATGGGAGTTTAAAGAGTATCCAGTAATAAAAATAGATATGTCAGATAATACATTAACAACATATGAAGAATTTATAAAATCATTATATGATAAAATAAATGAATTATATAAAGAAGAAGAACTGACACCAACAACAGATGATTTGCCAACAATGTTTGGGAATTTAATAAAGAAATTAAGCCAAAAGTATGAAGAAAGAACGGTAATACTAATAGATGAATATGAATCTCCAATATTAGAACATCTAAACAACAAAGAAGAAGCAGAAAAAGTAAGAAGATTTTTAAGAGAGTTCTATAAAAAAATAAAATCAAAAGATGAATACATAAAGTTTGTATTCATGACAGGAATAACAAAGTTTACAAAAACAGGAGTATTTTCAGCATTAAATAACTTGAACGATATATCATTAGATAAAACATACTCGCAAATGTTGGGATATACACAAGAAGAATTAGAAGAAAACTTTAAAGAACATATAAAAGAAACAGCAATTGAAATGAAGATGGAAGAAAAAGAGTTATTAAAAAACTTAAAGATGTACTACAATGGATTTTCATTTGATGGAGAAGATAGTGTATACAATCCATTTTCAATACTACAATTTTTCAAAAAAAGGAAGTTTCAAAACTATTGGTTTGAAAGTGGATCACCATCATTTTTGTATGAATACATAAAAGGAAAGAAGATAAGATATGAAGACTTAGTGAAGTATCCAGTGAGTGAACTCGACTTTTCAACTCGAGAAATAGAAGAAGCAAATGCAAGTATATTCTTTACACAATCAGGATACTTAACTTTTAAAGGAAAAGAACAGTATGGAATGGAATATGAATACCTATTAGACTATCCAAATATAGAAGTAAAGAACAGCTTTTCAAAGATGATATTAGAAGCAAACTATGAGCTTGAAAGAGGAAAAATAAAAGAAATAAACAAAACAGTGTGGAAAGCAATAAAAGAAAAAGACATAGAAGGAATAATAAAAGAAATAAAAAGAATAATAAGTGCAATCCCATACAACTTGCATAAAAAAGAAGAAAGCTACTATCATTCATTGATATACACAATACTTGCATCAGCAGGACTGAACGTAACAGCAGAAGAATTAACGAACTTAGGAAGAAGCGATATAGTAATAGAAGAAGACGTCATATACATAATGGAAATAAAGATAGACAAAAGTGCAGAAAAAGCTTTAAATCAAATAAAAGAAATGAAGTACTATGAAAAGTACAAAGAGAAAGAAATTTATATAATAGGAATAAACATAAACTCAGAAAAAAGAAACATAGACGAATACAAAATAGAAAAGATATAATCCCAGCGGGTGCTGGGATATTTTTTTATAAAAAATCGTAAAAAGCGTGAAAATAATGATGGGAAATAGTGAAAAAATAAAACACCGAAATTTTTGATATTAATATTTCATTAATAATGAAAAGTTAAATTAAAATATTTATAAAAAATTAATATTTAATAAAGTTTCACAAATTTTTATCATGAAAATAATTAATAATAACATTATAAAAAATATAAAATTTAAATTCACAAATATTAATAGTTAATATAAAATTAATAACATAAAAAAATGAAACAAACGATATAAATTAATCAAAAAAACATTATATTTAGGTAAAAATATTTATTTGTTTAGTAAAAATAGTTGATTTTTTTTTTTGATATAATGTTTGTGTAAGTAAAGGAAAAATGATTAATTAATTTATCGAATTAAAATAAAAATTATAATATTAAAATATTTGTGCACAAAAATACAAATTGGAAAAAGAGGAGTTTGAATGTTTAAATTAGTAGGAACATTAGGAATTCCAAATTCTGTAGCAGGACTTCTTGCAGGAGGAATAGGGGCTATTGCTACTGAAGGTGGAATGTCTGCATTTATTAATACTGTAAAAAATATAATTATGAGTAAAGGAAAAGCTGCTGCAATATCTTGGTAATGAATTCCCCCATAATATTTATATAAATATTATGGGGATTTAAGGAGATTTTTTATGAATTTAGTAGAATTATTATTAATAAGGTTAAAAAATAGAGTAAAAATACAATTTGTAAAAACATCTAAAATATTTAAGTTATTAGAAAAAAGGTGCTTTGAAGGTATGAGTATTATTTTTGTTTCACATATGAAAGAAATACAAAAAAATTTTTCTGATAGATTCTTTTATTTTGAAAATAATATTTTGAGGGAGGAAAAAGAAAATGTTGAACTTTTTTAAAGAAAATAAAAATTATATTATTTTCTTTGTTATTTTAACCGTTATTTTTGCAGTACTTTTTTTCATTATTAAAAATGATATTTATAGACTTTTGTCTTTTATTGTTTATTCTGTTGTTGGAACACTATCTTTTAAATTTTTTTCAACAGCCAAAGCTATTAATACTGTTAAAAAGGGGGATATAAATGAAAACAAAAAATGATGGATGTTTGACATCTTTTCTTGTGTTTATAATAGTTATTTCTGGTATTGCTCTTCTTATTAATATAATATTTATTAATAATCCATCATCAAACTTATCTGTTTCGCATACATTAGTTATGAATAATTTAATTTTAACTTCTCTTCAAATAGTTGCAGCGTTGTTAATGCTTATGAGAGAAAAGATAGGCGTATATATGTATATATTTATAGGTATTACAAATGCAATTATAACTTTTATATTTGGAAAAAATTTAAAAATGACTTTAATATCTATTGCTTTTTTAATGATTCCGTATATAATATTATACTTTTTGCTAAGAAGAAATAAAAAAATGAATAGTGCAAAAAATATTGATTAATGAGTAAGATATTTTTTTATTAAAAAATAACTTCAAAGTAATTTGATACTTTTATTAAAGTATTTTTTTACTTTGAAGTTATTTTAATATTATCCTTTAACAGCACCTGAAGTTAAACCAGCTACTATTTTCTTTTGGAATACAAGAACCATTATAACGAGTGGTACGGTAATTATAACAGATGCAGCCATTAACTGGCCCCAAGGTACTTCATATTGAGACTTTCCTGAAAACATTGCTATTGCAACAGGAACAGTATACATATTTGTTTCTGTTATAAAAGTAAATGCAAATAAAAATTCATTCCATGCAGCTATGAATGTTAATAATCCAGTAGTTACAAATGCAGGAATTGATAATGGAATAACAATTCTCCAAAGCGTCATAAATTTTGAACAGCCATCTATATAAGCTGATTCTTCTATTGATGCTGGTAAATCTCTAAAAAAGTTTTGTAAAATCCAAGTTGTTAATGGTAAATTTATTGCAATATAAGGTATAATTAATCCCCAATAATGGTTTATTAAGTTTAGATTTCTTAAAATTTTAAATAAACCTCCAAGGATTGAAATTTGTGGGAACATACTAACAGCAAGTATTAAAGACATTATTGCAATCTTTCCTGGAATTTTAAGCCTTGCAACTGAATATCCTGCAAATGCTCCAAAGATTAAGCTCAATATTGTTGTTGTTCCAGCAACTATTATAGAGTTCCAAATGTATCTTAAAAATGGTCTTTCTGAAAATACTAATATATAATTTGAAAAAGTAAATCTTTTATCGTCTATATCTAAACCTATAATATTTGTTTTATCCTTTAATTCTTTTACGGAACTTAAATCTGCTTTAATAGGTATAATTTTATTTAATTCTTTAACTTGATAATTAGCATTTTTTGTTTCTTGAATAGTTTTTACAATGTTTATTAATTTTTCAGAATATTCAAATCTTGCACCGTTTATATATAAAGAGTTTCCCATTTTCATATATTCGATTTCTTTAGTTTCTTTATAATCATTTAAAACATCTTTTAAATTAGTAATATAATTTATTTCAATTCCATTTACAACAATAACTCTTATTTTTCTTTTAACTTTAAACTCAACAGGGTTATTTTTATCAATCTTATTTAATACATTTATTAATTGAGAAGAGTTTTTTATTTTTATTCCATTTACTTCTTTTATTATGTCTTTCATTTTAAAGTTTGCTTTATTTGCGATAGTATTTCCATGAACACTATTGACAACAGCACCACTTTCAAAGGTGATACCTAAATTTTCTCTAAATAAGTATTTATTAGATGTTATTGAACTCAATATTGACCAAACAAAAGGAAAAATATAAAATATTATCATTATAAAAACTAATATATAAAGAAAAGTTTTTTCTATATTTCTTTTTGTTTTCATTCCCATTTTCATAGTATCACCTCCTTAATCCATCTTTAATTTCATAGTTTTCATATAAACAAGTGAAAATATTCCAATTATTATAAATATAACAACAGCAATTGCTGAACCATAACCATAGTAACCTTTTGGACTAAAAATTTTATCCATTAAAACGTGTCTGTTGTATACAGACATTGTTTCTGTTCCAAGAGCTCCTTTTGTCATTATATATACAACGTCAAAAACTCTTAAAGAATCAAGCGTTCTAAAGATTAAAGCAACAGCAATTGTTGGTCTTAATAATGGAAAGGTGATAGATGTAAATTGTTTCCATTTGTTTGCTCCATCTATTCTTGCAGATTCATATAATTCTGATGGTATTATTTGTAATCCTGCAAGTAATAATAAAGCCATAAAAGGTGTTGTTTTCCATATATCAACAGCTATTATTGCATTCATTGCAAGACCAGGAGTTCCTAAAATAGGTGTTCCTTGAGGGATTATGCCTAAGTTATACAATAAATGGCTTATAAAACCATATTGGTCTTCATACATCCACTTCCACATTTGAGAAGATATTGCAGTAGGTATTGCCCAAGGAATTAAAATGGCAGCACGTACAAGACCTCTTAGTTTAAAACTTGCATTTAAAATTAATGCAGTTATTAAACCAAGAAAAAATTCAAAAGAAACTGCAATTGCAGTAAAATAAAGTGTATTCCAAAAGGATGCAACAAATCTTTTGTCTTGAAATAATTTTATATAATTTTCTATTCCAACAAATTTTTTAATTGAATCTGGTCTTAAGGAAAACTTAAAAAAACTATCAATTATAGTTTGTATAAGTGGGAAAAATGCTGTTATTAATATAGCAATTAAAGCAGGAAGTATTAACCAAAATGCAAGTTTAACATCCTTTTTCTTGTATGAATGCATAATACACCTCCATCATAAAAATCAAGAGGGACGAAACTCGCCCCTCAAGTTTATTAATTTTTTAATAATTAATTATGTCTCTTAATTCGTCTGATAATTCTTTTAGAGCTGTTCTTGCAGATTTTACGCCAGTTAATACGTCATATACATGTCTTTGAATAGCATCTGAAACTTCTGAATAAACAGGAGTTACAGGTCTTGGTTCAGCATTTATGAATACATCGTATAAATTAACCATGAAAGGATTTGCTTCTTTTATTTTAGAATCAGAATATGCAGCTTTTAATGTAGGGTTTTGACCAGAATTAACTGCTTTATAAACTTGTTGATCATAGCTTGTTAAGAATTTTATGAATTTTTTTGCAGCCATTACTTCATCATCAGTTGCATATTTATTTATAGCAAGATTCCATCCACCTAAAGTTGCTGAATGTCTTCCGTTTGGAGCCATAGGTAATGGCATAACTCCAACTTTCCCTTTTATAACTGAGTCATCAGCATTTGCAAGAGACCAAGCATATGGCCAGTTTCTCATGAATACAGCATCACCATTTTGAAAAATTCTTCTTGATTCTTCTTCTGCATAAGTTGTAACACCTTTTGGTGTAACTCCTTCATCGATTAAACCTTTCATGAACCACAATGCTTGTGTTGCTTTTTTTAGATTATCAGGATCATCAAGAACAACTTTTCCGTTTTCTATTACTTCAGCACCAAAAGAATGAATATATTCCATAGCATCACAAACTAAACCTTCATATCTTTTTCCTTGCCATACGAATCCATTTATATTTTCTTTATCTGAAATGTTTTTAGCAATAGTTAAAAGTTCATACCAAGTCTTTGGTGGTTTATAGCCATATTTTTCAAGTAAGTCTTTTCTATAATATAAAAGACCAGCATCTGTAAACCAAGGTATACCAACTAATCTTCCATTAACGGTATTTGATTTAACTGTACCAGGAAGAAATTTATCAATATTAAAGTAATCTTTATCGTTTGTTAGATCTACAAAGAATGGAGCAAATTCTGCTGGCCATACAACATCAACCATAAATATTGTAGGTGTTTTTACTTTTGCAGCAAGCCAATTTGCATAATTATCATGTCTTGAATCAGATTCATTTTGTAGAGGAATGATCTTAATGTTAATATCTGGGTTAGCTTTTTCAAAAACTGCTATTTGTGCATTTAAAACTTCAAGTTCTTTTCCAACGGCTCCAGCAGCCATAGTTACTGTTGTTGAAAAAGCACTGACAACTAAAACAAGAATGAAAATAAATGACAACGTTTTCCTCATGAAGTACACCTCCCTAATTTTTTACTACGGTTATATTATAATATGGTAATTTCTTTTTTACATTTATATTATACAGTTATTAATAATGGTTAATAGAAAATATTTAATATTATAGTCAATTATATTAATATTTCTTTATTAAATTATTGTATTCTTAAAAATATACTTCGAATATTGATATTATGTTGGTATATAATTAATACAAATAAAAAAGAGGTGATTGTATTGGATATAATATCTTGTGGTGAAATATTAATAGATATGATTTCTAAAACGTATGAAAGTTCTTTGAGAAATGTAAAAGATTATGAAGTTCATATTGGAGGTTCTCCATCAAATATTGCAATTAATTTATCTAAGCAAGGATTTAAATCATCTATTATAAGTAAAATTGGAAATGATTTTTTTGGTAGGTTTATAAAAGAAAATTTAGAAAAAAATGGTGTTGAAACTTCTTTATTATCAGTTGATGAAAACGTTAACACTGATATAGTTTTTGTATTGAAATCAAAAAAATCTCCTGATTTTTATCCATATAGGTCAGCTACACTTAATATGATTGACCATAATTTACCAAGAACAAAAATTTTTCATTTTTCATTTTGGGCTTTATCTACAGAAAAAAATTTAAAAAATACCATTAAAATTTTAAATGAAAGTAAAAATGCTTTTATAGGTTTTGATCCAAATTATAGAAAAATATTAGATAAAACAAATAAAAGCATAATAGATATATTAAAAACAATACTTCCAAAGGTTAATATAATAAAACCATCAGAAGATGATGCTGAAAGTATATTTGGGAAAATGAATACCAAAGATTATATAAAAAAGTTTCATGAACTTGGAGCAAAAAATATTATTTTAACTCTTGGAAAAGATGGATATATAATTTCTAATGGTAAGAAAGAGAAAAAATATACTTCTTATGCAAAAGAAGTTATTGATACAACGGGAGCGGGAGATGCTTTTTGGTCTGGTTTTTATATTGGTATATTAAACAATTTAAATATTTTTGAAGCTTCAAAATTAGGGAATGCTTTTTCAGCTGAAAAAATAAAAAAAGTTGGAGCAGTAATTGATTTGAAAAGTTATAAAGAAATAGCAAAAGAATATGAGATAGGAGGGATTTTATGAGAGTGGCATTTTTAAACCCACAAGGAAATTTTGATGAAAAAGATTCTCATTTAACAGAACATTCGGATTTTGGTGGACAATTAATTTATGTAAAAGAAGTGGCAATGGCTTTATCAAAGATGGGAATTGATGTTGATATAATAACAAGAAAGATTGAAGATGAAGAATGGCCTGAATTTTCTAAATCTATTGATAGATATGAAGGATATAATAAATTAAGAATTATAAGATTGCCTTTTGGTGGAAAAAAGTTTTTAAATAAGGAACAGCTTTGGGATTATATTCCACAATATGTAGATGAAATAATAAAATTTTATGGAAATAAAATGCCAGATTTTTTTACAGCTCATTATGGTGATGGTGGATATGCTGGTGTATTATTAAAACAAAAAACAGGAATAAATTTTTCTTTCACTGGACATTCACTTGGAGCTCAAAAATTAGAAAAATTGGGTATGAATATGAAAAATTTTGAAACTATGGATAAAAAATATCATTTTTCAAAAAGAATTTCTGCTGAAAGATATAGTATGAAATATGCTTCTAAAATAATTACTTCAACAAATCAAGAAAGATCTGAACAGTATTCACATTATTTATATAGAGATAGTATAAATGTGGAAGATAAAAAGTTTAAAATAATTCCTCCGGGAGTAAATTTAAAAATTTTTAATACTGAATTAGAAAGTTTAAATTTAAAATTAAAGGATAAAAAACCTCATATAATTCTTTCAAGCAGATTAGATGAAAAGAAAAATCATTTAAATGTTGTAAAGGCTTATGCGAGTTCAAAAAAATTGCAAGATCTTTCTAATTTATCAATTTTTTTAAGAAATATAGAAAATCCATATGATTTAAAAAATATTTCAGAAAAGGAGAGAAATATTCTTGAACCAATTATAAGTATAATTAGGGAAAATAATATAGAAGATAAAGTTTTTTTCTTTGATCTTAAATCTCAAAAAGATTTAGCTGGAGCTTATAGATACTTTGCACAATTGAATTCTGTTTTTTCTTTAACAGCATTTTATGAACCATTTGGGTTGGCTCCAATAGAAGCCGCAGCTTGTGGTTTAGCTATTGTTGCAACTAAAAATGGTGGGCCTTCAGAAATATTTGAAGATGGTTCAGGTGTTTTAGTTGATCCGTTTGATGTTGAAGATATTAAAATAGGTTTATTAAATGGTATAAAAAATGCAGAAAAATATAAAGAACTTGGTAGAAAGAGAGTATTAGAAAATTATACGTGGGAGAAAACAGCAAAAAATTATCTTATAGCTATTGAAGAAGGCATGAAAGAAAATATAAATATAAATGATCAACTTGAGCTTAATTCATATAGTTTAATAAAAAGTTTTTTAAAATTAAAAATGGAGGAAAATAATGAATAAGATAAAAGACCTTTGGAAAGGTATTTATCAGAGTATAGATGGATTTGATGAATTAGAAAATTTTCTTAATAATGAAAAAAAGAAAAAAATAAAACCAATAATTTGGGATGAAAACTTAGTCATGTACTCATTATATGTTGATTTATTTTCAAAAGATTTTAATGGAATGATAGAAAAATTAAATTATTTTGAAGAACTTGGAATAAATGTTCTTTGGATATTACCTATTTTAAGTTCTCCCATGAATGATCAAGGGTTTGATATATCTGATTTTAAATATATTAGAAAAGATTTAGGAGGAAATGAATCTTTTATAGAATTTATAAAAAAAGCTCACGAGAAAAATATAAAGATTATTTTTGATGTAGCAATAAATCATACTTCTATAGAACATTATTGGTTTAAAGAAGCAAGAAAATCAAAAACTTCAAAATACAGAAATTATTATATCTGGAATTCTAATACAAACAAGTATACCAAAGCAAGATTGTTATTTGAAGGTATGGAAAGTAGTAATTGGACTTATAATGAGAATACAAAAGATTATTATTTTCATAGATTTTATAAGTTTCAACCAGATTTAAATTATAAAAATCCTAAAGTTTTAATAGAAATGATAAAAAATTTAATGTATTGGAGAGAAAAAGGTGTTGATGGATTTAGAATGGATGCGGCACCATTTTTATGGAAAGAAGAAGGAACTTTATGTGAAAACCTTCCTCAAACTCATGAAATTTTAAAAATATTTAGAAGATCATTTGATTATGTAACTGAAGGGACAAAATTTATAGCTGAAGCAAACCTTGAACCTAAAAGTGTTATAGAATACTTTGGGGATGGTGATGAATGTAATATGGCTTATAATTTTCCATTAATGCCAAAATTTTATTTAGCTATAAAAGAGTCAAATGGAAATTATATAATTGATTCTTTAAAAGAACTTCCAAATATACCTAAAGGTTGTAAATGGCTGAATTTTTTAAGGTGTCATGATGAATTAACTCTTGAATTTTCTTCGGAGTTAGAAAGGAAAAAAATGAATAAGTATTTTTTAAAAGAAGATCTTTGGAAGTTTAGAAAGGGTTTGGGTATTGCAGGAAGAATATATAATATGTTTGATGGAGATGTAAAAAAAATACTACTTATTCATTCATTAATGTTTTCTATTGATGGAGTTCCTATTATTTATTATGGTGATGAAATAGGTCAAGAAAATGATTTAGATTTTTATAATAAAATGCAAAATAAAACAGGATATGCGGATGCAAGATACTTGAATAGAGGAATGTTGAATACTGAAAAATTAAATTTATTGAAAGATAAAGAAAGTGATAGTTATAAAATATTTAATGGAATAAAAAATTTAATAAAATTAAAAAAATATTCAGATGTAGTTTTAAGGTATAATTTTAAAGATGGAGTCTTTATTTCAGAAATGAATAATATTATATCATACAATAATCTTACAAATAAAAAGGTTAGTATAAATGGTATTAAACTTAATGAATATGAGTATAGATGGATAAAAAAATAATAAAAAAAACAATAATTTTGAAATGTACCCGAAGTAAGTATTGGGTAAAAAAGAGGAAAAAGAGAAAAACAAAAAAATAAGAATGTAAAAAATGATTCCTGTATTAACAGGAGTCATTTTTTTAAATCACATTAAGGTTTAAAATAAATGTAAAAAATTCAAACTTTTGAAATTGATATTGTGTTAATAATAAAAAGTTAAAACGAAATGTTTATAAAAAATAAATATTTAATATAATTTCACAAACTTTTATAATGAAAATAATTAATAATAACATTAGAAAAAATATAAAGATTAAATTCACAAATATTATTAGTTAATATGAAATTAATAACATAAAAATGTAAAAGCAATGATATAAAATAAACAAATTATATTTCAGTTTAGTAAAAATGTTTGTTATTTTATAAAAATAGTTGATTTTTTTTTTTTTTTTTTTTTTTGATATAATTTTTATGTAAAAAAAGAAAAATGATTATTGAATTTATTGAATTAAAACGAATAAAAATTATAATATTGAAATATTTGTGTGCACAAATATAAATTGAAAAAGGAGGAGTTTGAATGTTTAAATTAGTAGGGACATTAGGAATTCCAAATTCTGTAGCAGGGCTTGTTGTTGGTATAATTTCTGGTGCAAGCTGGACATTTTTAATAATAAGTCTTGTAGCAGGACTTCTTGCAGGAGGAATAGGTGCTATTGCTACTGAAGGTGGAATGTCTGCATTTATTAATACTGTAAAAAATATAATTATGAGTAAAGGAAAAGCTGCTGCAATATCTTGGTAATAAAATCCCCCATAATATTTATTTAAATATTATGGGGATTTAAGGAGATTTTTTATGAATTTAGTAGAATTATTATTAATAAGATTAAAAAATAGAGTAAAAATACAATTTGTAAAAACATCTAAAATATTTAAGTTATTAGCAAAAAAAGGTTCTTTTTTTGCTTTTTTTATGATAATTTTATTTAAAATAATAATTTCAATATCTATGTCTTTATTTTTATATAAAACTTTTTATTATGAAACTCATAAAGTATATTGGACTTCATTCATTTTTTTAGGTTTATATTTTAATGCTATAGTATATGGAATGGTATCTTATAAAAGAACATATTTTCCTATAGATATATCTATTTTAAAAAGTTCACCATTGGAAGATAGAAACATTTATTTGTTTGTTTTAATAGAAGAATATGTTTGGCATTGTTTAAATTCAATAGAATTTTATTTGTCATCTTTTCTTTTTTTACTTTTTATTAATTTGCACCATTTATTATTTTTTACATATATTTTTATTTTAGGTTTATCAAGTTCTTTTTTTATTTTTGTTTTTTTTAATATTTTATATGGTAACTATAAAATTTCTCTTATAAAAAATCCAATAGGAATTTTTAGATTTATTTTATATGGTATAAATTCAGTTTTATTTTTTGAATTTGGTGTAATTTTAACAAAATTCATATATGTACCTACAATGCTATATAAAAAAATTTTATTTCCGAACAATAAGTTAAGTTTATCAGATAATACTCTTAAAATTCTTGAAAATTCTTTAATAAATGATTGGCTTAATCCAATTAAAGAATACTTTTTTTATTTATTTAATTCAACAATTGACATAAGTAAAGAATTCTACAATTTTATTTCATTGAGATATTTAATTTTTTTGATATTTGGAATAATATTGTTTTTTATGATAAAAATTTTTTCACCAAAATATAATAAAAATATTTTTATAAAGTCTGTAGAAATAAATAAAAAAGATTTTTTATTTATTTATGTATTAACATTAAAAAAAGTGAATTCAGTTTTTAATAATAAAAATTTTTTGGTTGAAAAAGAGTTAAATATAATAAAAAATAGTCGATGGCTTGTATCTCCTTCATTTTACTCTAAAATTATTGCAAATTATGACTTTTATTTTATGACAGGGGTTATTATAACAAATTTCAAATATATAAATAGTATTGGATATATTATAAGCTTAATATTATTGTTCAATGTATTACTGATTTTTAATCAAGTAACCGAATTAAGACGTGACCATTTGTTTATTTATACACTTTCATCAGAGAAAAGAAATATAAATTTAGTAAAACTTTCTGGTAATTCAATTGATATTGTTTATAAATCAAAATTAAATTTAATGAGATTAAACTTATTAGTTCCATCAATAATTACCTTTTTTATAAGTTTATACTTAACTATAGAAAAAATAAATTTTATGAATTATAATTTTTATTTATGTATTATTACTTCAATATTTACTTTAGTTTATATGATTTGGTTTGCTCCAATATCTGTACTATATATAGAACCGATGTTTTCAAGATTTGATTATAAAAATACAGAAGAGCTTATAGATAAAAGAATTGAAGAAAATATTTATGAAAAGATATTAAAAATCCCAAGATTAATTTTATTCACTCCAGTTTTATTAATTCTATATTTCAATGTGTTTTTTAATTATCTTGATAAAATTAAAAATTTTTTTCCATTTATTTTTTTAATTTATTTTGTTATAATAAGTGTAACCTTCAATTATTTTTTTAATTATATAAAAGAAAAAGGTATAAAAAAGGTAGATGGTGAAAATATTTATGTTTAATATTTTTAAAATTTAAAAAAATAAAATAAAAGTTCTTTATCTATGTTTTATTATTTATACTTTAGGTATAATTATAGGATTGTTTTCTAAAATAAATTATAATACAAATATTGATCCAAAAAAGCTTTTTATTATGGATGTATTTGTTCATAATATTTTTAATTTGAGTTTAATTTTAATATTTGGATTAATTACTTTTGGAATTGTTAGTAGTTTAATGCTTTTAATAAATGGAATATATTTTGGTGTTACCATACATTTTATTTTTTTAAAGTACAGTTTTTCACTTTTATTTAAAGGGACTTTTTTTCATTTATTTTTTGAATTGACTGCAATATTCATGACAACAGCTATATCTTTTTCTTTTTGGGATTTTTTTAAAAAAAAAGAAAAAGATAAGAAAGTTGTGTTATCAGAAATTATTATTGTTTTTTTGATATCAATTTTATTATTATTTATTTCTGCAATAATTGAGTGTAAAATTTCATCAGTTCTAGTGAGGAGTTGAAAAGTGTGTTACCAAAATTAGAAGTTGAAAATTTAAGTTTTTCATATGATAATAAAACTTTTATTTTAAAAAATATAAATTTAAAAGTATATCCAGGAGAATCAATTTGTATAAAAGGAGTTAATGGATGTGGAAAAACGACATTTCTAAAAATATTATCAGGATTAATAAATACAAAAAATATTATTAAATTCAATGGAAAAGAAATAAAAAATTTCAAAACATATAAAAAGAAAATTTCTTACATTCCAGATAAACCGTACTTATATGAAGAACTCACTGGAAAAGAAAATATAAATATGATAATGCATTTATGGAATGAAAACAAAAAAGAATATTTAAAAAAAATTTCTTTTTTATCAAATATGTTTGAAATACAAAAAGATTTGAATACTATAGTAAAAAATTATTCTTTAGGTATGAAAAGTAAATTATACTTAATTGCGATGCTTGCTAGAAATACAGAATTGATGCTTTTAGATGAACCTTTAACTACATTAGATATTAAAAGTAGAAAAAATATAGAAAATATTCTCTATAATAAGAAAAAGGAAGGTATGAGTATTATTTTTGTTTCACATATGAAAGAAATACAAAAAAATTTTTCTGATAGATTCTTTTATTTTGAAAATAAAATTTTGAGGGAGGAAAAAGAAAATGTTGAACTTTTTTAAAGAAAATAAAAAATATACTATTTTCTTTGTTATTTTAACCGTTATTTTTGCAGTGCTTTTTTTCATTATTAAAAATGATATTTATAGATTTTTGTCTTTTATTGTTTATTCTGTTGTTGGAACACTATCTTTTAAGTTTTTTTCAACAGCCAAAGCTATTAACACTGTTAAAAAGGGGGATATAAATGAAAACAAAAAATGATGGTTGTTTAACTTCTTTTCTTGTGTTTATAATAGTTATTTCTGGTATTGCTCTTCTTATTAATATAATATTTATTAATAATCCATCATTAAATTTATCTGTTTCGCATACATTAGTTATGAATAATTTAATTTTAACTTCTCTTCAAATAGTTGCAGCATTATTAATGCTTATGAGCGAAAAGATAGGCGTATATATGTATATATTTATAGGTATTACAAATGCAATTATAACTTTTATATTTGGAAAAAATTTAAAAATGACTTTAATATCTATTGCTTTTTTAATGATTCCGTATATCATATTATACTTTTTACTAAGAAGAAATAAAAAAATGAATAGTGCAAAAAATATTGATTAATGAGTAAAATGTTTTTTTTATTAATAAAAAAAGTAATCCAAGAATAAAATTGAAAAATGGGAAAGGAAGGAAACACACACTCTTTTTAAGTGATAAGATAATACATAGAAAATCCCTTTGAAGAGGAATGTTTAGTATGGTCGGAGAGAAGTTCTTTTTGTTATATAAATTTTGTTCAAAAAACATCCATTCAACAAATCCTCGTCCCCTCAAAGTGGCATTTTTTAACTTAAACATTATATTATAATATACTCCTCTTATAGAACTATTGTATTCCTTTTATGAAAAAATTATTGAAAAACTAAAAAATAGAATATATACATTAAATTTTATAATTTTTAATTAAATTATTTGGCTACTTGACATGGATCAGTTCATAATGATCCTTGTTTTTTTATGTAACTTTTAAATGAAAATTTTAAATTATGTGATTTTTCACATAATTATTTAAGAAATAATTAAGTAAAAAATGATATAATTAAATGATTTTTATTAAAGGAGGATTTATATGAAAAAAGTATTTAGTTTTTTTGTTATTTTTTTAGTTTCTCTAATGACTTTTTCTATTGGAATAAGTGATTTATTTATCGAAGCTCAAAAAACATTGGGTGATTATAAAATTTCAGTAATGGATTTTGAACTTGCCAATATGGATTTTGAAAGGTCAAAGATAGAATCAATTAATAAAAAAACAGAGTTAATGGGTAATTTAAATTATTTTAATGCAACTTCTTCTTATTTGAATTCTTTAAATAAATTTTATACGGATGTTAGTAATAGATTATTTAATGTAATTAATAGTGAATTATCTGTATCTATGAGTGAAGTTCAAAAAAACAATGCAGAGATTGATTATAAAAATAATAAAGCTTTGTTTGAAAAAGGATTGATAACAGAAGATACATTAACTCAATCAAAAATATCTTTAAATGATGTAGAGATAGATTTACAAAATAAAAATTTAAACTTTGAAAATGCAATGAATGATTTTACAGAAGCATCTTCTATGGATTATAAATCAATTGAAGTTAAATTGTATGATCCTAAAAAAATTTTTAAAACGGATGAAGAGTATTTAAGTAATAATTATTCTTTAAAAACAACAAAAATTTCCCTTGAAATAGCACAATATGACTTAGATAATCTTCCATCTAATGCTTCTGAATATGATAAAAAGAGCTATCAAATAAAGGTTGAAAAAAACAAAATAAACTTAAATAGTTTAAAAAATACATTAATAAAAACACATAAAAATACAAAAAATAGTATTACATCTACTTACAACACCTTAAATAACTTAAAAGAAAAAATGAAGTTAAAAGAAAATGATTTTATGGATGCTCAAAGTAGATACAATAAAGGGTTAATTTCTGAAAAGGAATTGAATACATCAAAAATATCTTTCTTAAGTTCAAAATCTTCTTATTATAATACTTTAAAGAATTATTATAATTTGATAATAAATTATATTTTAGATTTCAATGAAAAACCGGAGGAGGTTTTAAATTGAAAGTAAAATTAACTTTATTGATAATTTCTCTTTTAACAGTTTTATCTTTTTCTAACTTTAATGATTTATATTTAAGGAACTTAAACACTTCTACTTACTTAAAAAGTAAAGAATCATTAGATGTATCCATACTTTCTTTAAATAAAAAAGAAAACTTTTGGAGTCCTTATTTATCATTAAATACAGGATTTGGTGGAATATCTTTTGATAAAGATGGGCTAAATAAAATGAACTTTTCAATAAAAGCAAACTTTTTAGAACTTTATGGAAGTACAATTGGATTAACTCTTCCATTTTCAATAGATGCAAAAGATAATTGGAAGTTTGATTCTGATTTAAAAAACTTATCTTTAAGCTTTACACGTAGTTTGGCAAAAGAGCCAGAAGTTGAAATGTTGAATGCAAAATCAAATTATTATAATTCACTTTATTCTTTTAATAATTATAAAACATCTATTTTTATAAAAACTATAAAAGATATTTTTTCAAAATACTATATAATTAATAGTTTAAAGTTAAATAAAGAAGAACTTCAAATTCAAAAAAATAAATATAATTTTGAAACTGATGAAGATAAAAAGGAAAGTTTGAATATTCAAATTCTTCAAAGAGAGAAAATAATTAATTCTTATGAAGTTCAGCTTAAATCACTTTCTGAAATAGATGAATCTTTGTATGAAAGTACTAAAAAATATGTTGGAAATTTAGTTGAAAATTCAAAAGAATCAACAATAGTGAATAGATATGATTTAAAGGCTATAAAGTTATCAACAAAAGCAAAAGAACTTCAAAAAAATAATTGGTTCTTACCTTATTTACCAGATATGAGCATAAATATAAGTATTTCTGATATTAATAATTTTAACTGGAGTATAAGTATTTCATTTGATTATAGTATTTTTGATAGGGGTGAAAGATTAATAGCAATAAATTCAAGAAAAATAAATTCAAATGAATACTCTTATGAAGAAGCTTTAACTACAATAAATAATAATATAAATACCTTAAAAGATTCAATAATTAATTCTGAAATAGATATTCAAATTTCTAAAATAAATATAAAAAATGCTCTTGAAGATTATAATAATAAGAAAAAATTATCTGAAAAAGGATTTATATCTAAGGATGATTTTAATTTATTTAAAGTTGAATATGAATTGAAAAAATTAGATTTAGAAAAAGTTAATAATGATATGTTGATAAATAAATTAAATCTTTTAAAAGAATATGGGTACTTTCAAAATTCAGAGGTGATAAAAGTTGAAAAAATCGATTAAATGGTTAATTATAATAGTAACTTTAGTGGTATTAATATTTTTAATAATAAATGCCTTAAATATAAAAAAAGAATCTGGAAATGTGCAAACAGATAAAGTTTCTACAGCGCTAAATAATATTTCTGTTGAATACAAAGTAAAGAAAGACAATATAGGAGATTATATTGAAGTGAGTGGTAATGTAACTGCAGAAACAAGAAGAATAATTTCTGAGGTTTCTGGTGAGGTTATGGATGTTTATGTTGAAAATGGAGAAAAAATAAAGAAAGATCAAAAGATGGCTAAGTTTGAAGATATAGATTATAGAATAAATTATTTGAATAAATTGAATACTTATGAACTAGCTGTGAATGATGGAGAAAAAATAAAAGAAATAAAAAAATTACAATTAGATCAAGCAAAAAAAGACTTAGATAATACAATTTTAAAGTCTCCTGTTGAAGGAATTATAAGTAGTGTTAATATAAGTGTTGGAGATGTTATATCAAGAAACTTTGTATCATTTACAGTTGTAGATAATAATAGTTTAAAGATAGAGGCTTCTATAGATGAGATTGATTTACCAAAAATAAAGGTTGGAATGAAGGCTTATGTTGAATTTGAGCAATTACATGTAAAAATTCCTGCTAAAGTGAGCTTGATAAATCCCGTTGCAGTAAATGCAGGTGGAATAGTTGTAATACCTATAGAGTTAAAGTTTGAAGATAATCCATTAAAATATGGAATAATATCTGGTTTAACTTGTAATGTAAAATTAATAACTATGGAATTAGATAATTCTATTGTTATTCCAGTAAATTCTTTAATAAAAGGTAAAGATGGAAATGAATATGTTTTTAAGAAAACATCAGAAGGACGCGAAAAAGTTCCAGTTATAACTGGTCAAAAAACTGAAAAGTTTGTTGAAATAAAAAATGGTTTATCTGAAGGAGATACAGTTTTAATAATGCCAAGTAAAGAAGAAATAAATAGATTAAAAGAAAAGTATGCGACACCTAATATAAGAATAGGTACTGGGAAGAGGCCAAAGAAATGAAAGTAATGCATTTAAAAGATATATGGAAAATTTATCAAATGGGAAAAATAGAAGTTAATGCATTGAGAGGAGTTTCACTTGAGGTAAATGATGGAGATTTTGCAATAATAATTGGCCCTTCTGGAAGTGGAAAGTCTACATTACTTCATATTTTAGGATGTTTGGATAGGCCAACAAAAGGAAATGTTTTTGTAGAAGATAAAGAAGTTTCAAAAATGACAGACTCTCAACTTGCAAAAATTAGAAATCAAAAAATAGGGTTTGTTTTTCAAAAGTTTAATCTTTTAGGAAGCATGAGTGCACTTGAAAATGTTGAACTTCCAATGATTTATGCTGGTAAGCATTTAAAGGAAAGAAAAAAGAAAGCAAAAGAATTATTGGAACTTGTGGGACTTGGAGATAGGTTGAATCATAAACCAAATGAACTTTCTGGAGGACAACAGCAAAGGGTTGCAATAGCAAGAGCTTTAGCAAATGATCCATCTTTTTTACTTGCAGATGAGCCTACTGGGAATTTAGATTCAAAAAGTGGGGAAGAAATATTAGAAATATTTCATACCTTGCATAAAATGGGAAAAACTCTTGTAATAGTAACGCATGATCCGGAAATGGTTTATGAAGGTAATAAAACAATAAAGCTTTTTGATGGACAAATAGAAAAAGCAGAGGTGAGAGATTTTGGAAATATTAAGAGAAACATATAGATCTCTATTCTCCAATAAACTCCGAACATTTCTTTCAATGCTTGGAATAATAATTGGAATAACTTCAGTAATAACAGTTATGGCACTGGGAGCTGGTACAACTGAAAATATAACAAATAGTGTATCTTCTCTTGGATCTAATGTTATGATAATTTTTCCAGGATATTCAGGAGGACGTGGTGGAAAAGTTGCAAGTTCTATGAATTATCTTGAAAAATCAGATGCAGAAAATATAGCTAATTATGCAGAAGATGTTATAAGAGCAACGCCTGTTTTACAGTCTAATTTTTTAGTACAAAATGGAAATTTAAATATAACTTCAACAATAATGGCAGGTAATCCTGAATTATTTAATATTTTGAATTTAAATATTGATTCTGGAAGAAGTTTTGTTGAAGACGATTATGCAAATGTAAAAAATTATGCAATTATAGGATATACTACTGCAGAATCTTTATTTGAAGGAAAAAATCCAATTGGGGAAAAAATATATTTAATACAGAAAAATTCAAAATTATTTAGAAAAATTCCTTTTGAAGTTATAGGTGTTTTAAAAAAAGCAGGAAGTACTTTAATGTTTAATACAGATAAGACAATTTTTATTCCATATAGTACAGCAGATGCAAGACTCTTTAAAACAAATGGAAAAGCATCTATGATATTGGCTTCAGGTGTTTCAAGTGAAAAATCTTTAGAAGCACAAATGGAAGTTGATTTTATATTAAACAATAAATTTGGAGATGATACATCTTATCAAATAATGAGTCAAGATTCGATGTTAGAAGTAATAGGGCAAATAACTGGAGTAATGAATTTTATATTAATTGCCATAGCAGCTATTTCTTTGGTGGTTGGTGGAATAGGAATTATGAATATAATGCTTGTATCTGTTTCAGAAAGGACAAGAGAAATTGGAGTTAAGATGGCACTGGGAGCAGGGAGAAAAAGAATACTTCTTGAGTTTTTAACTGAAAGTATTGCTATAACTTTTATTGCAGGATTAATAGGAATAATTTTAGGAAGTCTTTTATCCGCTGGAATATCATCACTTGCTGCAAATTTAAATTTAAAAGCAATAATTAGTTTAAAATCAATATTAATAGCCTTTGGTGTTTCAGCATCTGTTGGATTATTCTTTGGAATATATCCAGCAAATAAAGCTTCAAAATTGAGTCCAATAGAAGCATTGAGATATGAATAAAAAAAAGAGCGATTTAATCGCTCTTTTTTTTATTTTATTATTCTTCAATAATGATAGCTTGAACTGGACATGAATCAGCTGCATCTTGTACACAAGGTGCTTCACTTGCTCCTTCTATAGCAACTGCTTTTCCATCGTCTTGAATAGCAAATGCGTCAGGGCAAAGATTTTCACAAACACCACAACCTATACAAGTTTCTTTTTCAACGAATACTTTCATTAAAAACACCTCCGAAATATATTTGAAAAGTCCATAAGTATTATACCATATTTTTTTATTAAATCAAATTATTTTATTGCTTTAACCAATCTATCAACTAAGTCCATTCCGACTCTCCATTGTGCTTCTTTTGTAGTTGCTCCAATATGAGGAGTTGCTACAACATTAAAATTCATTAATTTTTCATATAGAAAACCCTTTGGTGGTTCATTTTCATAAACATCTAACCCAGCACCAAAAACTTTTCCATTTTCAAGATATTTTAACAATGCTTCTTCATCTACAATGCCACCTCTTGCAGCATTTATTATTACAACTCCATCTTTCATAGCTTCAAATTGTTTGCTTGAAATCATATGGTATGTTTTATCATTTTTAGGCACGTGCAATGAAATTATATCAGCATTTTTATAAATTTCTTCAAGACTAACTTTTTCAACATTGTATTCTTTTAAAACTTCTTCTGGAATATCAAAAACATCAAAAACAAGTACCTTTACTCCAAATCCAGAAACTAATTTTGAAAGTAATTTTCCAATGTTTCCAAATCCAACTATTCCAAGTGTTTTACCTGTTAATTCAAGTCCTTTTAATTGTTTCTTTTCCCATTTACCTTCTTTAATGCCTTGAGTTCCTCTTGGTGTATATCTATACAATGACAAAATCATTCCAACAACTAATTCAGCAACAGATAATGAATTAGCTCCAGGTGTATTGATAACTTGTATATTTTTTGATTTAGCTGTTTCTAAATCTATATTATCAAGTCCCATACCAGCTCTACCTATTATTTTTAACTTTGGTGCTGCTTCTATTATATCTTTTGTTACTTTTGTGGCACTTCTTACAACTAAAACATCCATTTCAGTGGCTTTTTCTTTTAAAACTTCTGGTTCATAGTGTTCAACAGTTATTTTAATTTCTGGAAGAAGTTCTTTTAATTTATCTGTAGCATCTTGTGCAAGAGGATCGTTTATGTGAAGCCACATATTAAACACCAGCCTTTAAAAATACTTCTTCAGCTGCTTTTACAGCAGATCCTAATTCAACATTATATCCAGCTTTTTTAAATGCCATTTCAAGGGCACTTAATCCAACTATAACATCAAATTGAGACATGTATCCAAGATGAGCTATTCTGATTATTTTTCCTTTAACGTGGTCTTGACCACCTGCAAATGTAACTCCCCAATTATCTCTTAAATCTTTTACAAGTTTTGCACCGTCAATACCTTCGGGAACTTTAACAGATGTTAAAACATTTCCAGGTCTTTTTGCAAATAATTCAAGTCCCATTGCTTTTACTCCAGCTCTTGTTGCATCAGCCATTAAAGCATGTCTTTCCCAAATATTTTCAATACCTTCTTCGTTCAACATTTCAACAGCTTTTTTAAGTTGATAACCAAGGTTAACTGGTGGTGTGTATGGTGAATCTGGATATTTTTTTATGTAAGCATTTAAGTCAAAGTAGTATCTTGGACTCTTACAGTTTTTAATTACTTCTTCAGCTTTCTTACTAACTGATATTAAAGCAACACCTGGAGGCATCATGAAACCCTTTTGAACACCTGTAACGACAACATCAATATTCCATTCGTCCATTTTCAAAGGTTGTGCCAAAAGTCCAGAGATTGTATCAACAACCATTACAGCCTTTGTATCTTTTACTATTTCTGCAATTTCTTTTACTGGATGTACAACTCCTGTTGAAGTTTCACTCAATGTAGTAAATACAGCCTTTACATCAGGATTTGCATCTAATACTTCTTTAATTTGTTCTGGAGCTACAGCTTCTCCCCAGTTTAATTTTATTTCAATCATATTAGATTCAAATTTTTTACATAAAAGAGCCCATCTTTCACCAAATTTACCAGCGCTAACAACAATTACTTTATCACCTTTTTCAACTAAGTTAGCAACTGCTGCCTCCATTGCTCCAGTACCAGATGAAGAAAGTAACATTACATTATTTTCAGTTACAAATAATTTTTTTGCACCTTCTAAAGCTTCTTTTTGTATAGAAACATATTGAGGTGTTCTGTGATGAATTGTATCTTGTGCACCTGCAAGAAGAACATCAAAAGGTACAGGTGTAGGTCCTGGTGCCATTAAGTAGTTTTTTCTTATCATTTTAGCCATATTTAATACCTCCTAAGAAATATTTTTCATACTCATATTCTACAATATATATTAATAAAATAAAAGTTAGATTATACGAGAAATAAAGAGTTTTTAGTATTTAATTGCTTTTATTTCACTATAAAAAATAAATGCCGTAAGGCATTTATTTTTTATAATAATTAGTTTGATTTTTCCCATTTTTTTTCGATATATACATTGCTTTATCAGATTCTTCAATAGTTTCTTGAAAATTTTCTTGTTCGATATACTCAGTTATTCCTATACTAACGGTTACTTTTACATTATCCTTTAATTTTAATTTTTCAATATCTTTTCTAATTCTTTCTGCTACTTTATAAGTTTCCTCTTTTTTTGTTGAAGGTAATATTATTAAAAATTCTTCTCCACCATACCTAAAAGGCAAATCATAATTTCTAATATTTTCTTTAATTATTGAACCTATGTTTTTTAAAACATAATTACCAAAGTTGTGACCATAAGTGTCATTTATTATTTTAAAGTTATCTATATCCATCATTATTAATGAAAATAATTCTTTACCTCTCTTTGCTTTTGACATTAGTCCATCTGTTATTCTTATTAATTTTTTAAAAGTAAATAATCCAGTCAATTCATCAAGTTCGCTTTCATTTCGTAATTCTATTAAATTTACTAAAAACATGAATAATATGGAAAATGATGTATTTAAACCACTTAATTTATCAAGTTCCATTTTTGAAAATTTTTCATAGTTTTCTAATACTATAAAAGAAGAATTTTTTTCATTTTTGTATATGTAAGAATTTTCTATATTTATTTTATCTTTTGAATTTTTATCTACAGTTCCATAAAAACTATATCCAGAAGGTATTATTGGTTTTTCTAATATAGTGCTTATTTTATTTTTTAAATATTCATTTGAAAAATTCTTTTTCTTTGAATTTACAAGAAATGTTCCCATATTTTGAGTACTTGAATATAGTATTATAGATTCTAAATTTATTATGTTATTAAAATAAAAAAATAATTGTTTATTAAAACTAGAAAAATCAAGTATATATTTAAATAGTTCCATAAATCTTATTTCAATTACACTATTAATGAGAAGTCCTTCCATTAACTTTGAAACTAAATGAAGTGCATCAGATTCATCTATTATTCTTTGATTAGCTCCTTCAAGTGCATATTTTTTATTTTTTGAAATTTTATCCATGTTTTTTTCTAAGAATTTGTATATATTTTTTTCTATATCTGAATTTTTAGATAAAAATTCACTTGCACCAGATTCATGTGCCCAAAATTTATCTAAATTTTCATTTATTCCTGTTAGAATTACTATAGGTGTATTTGAAAAAAGTTCATTTTCTCTTAAAAGTCTACACAAAACATATCCGCTTATTCCAGGCATTATTACGTCAGTAATTATTAAATCTGGTAAAAATTGAAAGGCTAAGTTATAACCAATAGTTCCATTTTCTGCTGTTTGAACAAGAAATTCATTTTTTTCAAAAATATCACTTAGTATAGTTCTCCAAGTTCTTGAGTCATCTATTATTAATACTTTTTTTTTATTCAGATTGGAAATCAACATATTCACCCCCTACTATATTTTATCATAAAAAAATATTTTTTATAAAAAAAAAAAGCAATCTTAAAAAAGATTGCTTTTATGGCACGCCCGGAGGGAGTCGAACCCCCAGCCTACGATTTTGGAGACCGTCGCTCTACCAATTGAGCTACAGGCGTACATACTCATAACGAAATTGATTATACCATATAGATAAAAAAAATTCAAGAAAATTAATGTTACTCTTTCGTTAATGTGTCTGATTTCTTTTTATCCAATGTCTTTTTTTCATAATAAAGGATAAAAATAGAAAAAGTTCCAAATAAAATTATTCCAATATTTAAAGCTGGTGGGGCATTTCCTGTTAATACACCTAACCATCCAAACCCATATTTAAGAAGTTCATAACCACCTAAAATAATGCCTATTAAGGAACTTACTATTATATGAGATGATTTATGATACCATAATTTTATGTTTGAAAAAAATCCATAAAATCCAGTTAATGCAACTACTAACATTGAAATAAAGTAAAAAGTATCATTTGAAAAGTTTATTATTGAAATAAATATTGAAAGTATTATTATTAAAAAAAGTAATGAGTTTTTCATAATATCATTCCTCCAACAAAGTAAACAAAGTTAGCAAGTATGTAAGCAACTATTGTTGTATAAAAAAAAGCAAATATTGGCCATTTATAACTATTCGTTTCAGCTTTAATAGTTCCCAAAGTTGCAAAACAAGGAACATAACCAAGAATAAAAAATAATAATGAAATAGCAGAACGAGGAGTTAAAATAGCACTTAATGAGTTAGTTAAAGTTTCAGAATTAGAATTTAACAAAGTTGTATATGTTGAAACAACAACTTCTTTTGCAGCAACTCCAAATAAAAGAGCTGTATTGGTTATCCAATTCCATCCTAAATGCAAAGTTACTGGTTCAAAAAATCTACCGATAGAAGCAGCAAAACTTTTGTTTATATCAACTCCATTATTTGGAAAATAAGATAAAAACCATATAAATATTGATGCAATTAATATAATTCCTCCAGCTTTTTCTAAAAAATGTTTACCTTTATGCCAAGTATAAAAAGTTAGATTTTTCATTGTTGGCATTCTAAAACGTGGTAATTCAATAGTAAAAGGAATATCTTTACTTTGAGTTACAAATACTTGTAATATTTTTGCAGATATTAATACCAAAAGTATACTTGATGAATATAAAAGTAGCATCACTTCAGCTGCATGTTTTGAAAAAAATGCACTTATTAATACAACATAAACAGGAAGTCTAGCACTACACGAAGCAAATGGAATACTTAAAATTAATGACAATCTTTCTTTTTTATTAGATATAGTTTTTGTAGACATTATTGCAGGTACACTACATCCAAAACCAAGAATTATAGACATAAAAGATCTTCCACTTAAACCAAATTTTCTTACTAATTTATCTACAAGAAAAGCTGCTCTTGGCAAGTATCCAGTTTCTTCTAAAAATCCCATAAAGAAAAATAAAGCAAATATTTGAGGTATAAATACAAGTACTCCGCCTACTCCACCAATAATTCCATCAGATATTAAAGAAGATAACCAAGGTATTTTTATAAAATTTCTTGTTAAATCACTCAACCAACTAATTGCTAAATCCATTAAATCTGATAAAGGAGCTGCTACATTAAAGGTTAATGAAAACACTAAAAATAAAGCAAGAACATATATCATCAATCCAAGAACTCTATGGGTTAAAACATGGTCTAGTATATCCCTTGTTGACCAAGTACGACCATTAGATACTATACAATCTTTAATTAACGAAGATATAAAATTGAACTTCCAATTGTTATACTCTTCTTTTAGATTTTTTAAATTAAATTCTTTTTTTAAAGAGTTTAACAATTCTTTAGGATAGTTAAAATTTTCTCCAGAAAATTCAATAAAATTTACTGCAAGCCATGAAGAAGTGTATGAATTATACTCGTGATATTTACTTATTTTATTTTTAAATGAATATATAAAATCATTTATATTTTTTGTATAATTGAGTTCAAAACGTATGTTTTTTGTATTTTCTGAAACTTTATGTATTTCTTGTAATAACTTTGTTATACCTTTGACTTTTTTTGCTGAAGTTAATACAACAGGAATATTCAATGTTTTTGATATTATTTCTGGATTTATTATTTTTCCTTTTTCTTCTGCTTCATCTATAGAATTTATTGCAAGTATAACTGGTTTATTCATTTCTATTAATTGCATTAATAGAAACATAGAACGTTCTAAATTTAAAGCATCTGCAACGACTACTATTGCATCTGGTGCTTCATTCAAAAAATAATCTCTTGCAACCCTTTCATCTTCACTTTGTGCTGACAATGTATATATACCTGGTAAGTCAATCAATCTAAATTCGTGATTTTGAAATTTGTATGAGCCTATTTTTTTTTCTACTGTAACTCCTGGCCAATTTGCTACATACTGTTTTGTACCAGTTAATAAATTAAATATAGAAGTTTTTCCAACATTTGGATTACCTATTATGGAAACTTCAAAGGCCACAGCCACCACCGCCTTTTTCTTTATTTTTAGAGCATTTGTTTGCTAAAGGACATTCTGAACAAACTGATTTAACCTTATCTATACTTGAAAAATTAATTCCATTTGATATTAAAAATGGTATAATTATTTCTATTTCAGAATTTTTTAAATTAAATTTTTCTGAAATTTGATATAAGCTATTTACTTTTTTTTCTTTTATATAAGATATTACTTTGTTTATATCCATTTTTAACCTTCTTTTTTACATATTATTTTTTTTGCTTGCCCTTTTCCTATGATAAAAATTTTATCTAAAGATTTTATAGTTATTTTCCCTTTGTTTTCTAAAACTTCAATTTCATTACCTGGTTCTATACCATTATTTTTCATTTTATTTAAGAAAAATGGTCCGCCATTGCAAGATAAAACTTTATATTTTCCACATTTTGCATTTAAAAGAGGTATAATTTCTTCTGAAATTTCAACATATATTTTTGAAGCTTCACTCTTTCTAAGCATTATTTTATTGTCTTCAATTTTATAAACAAAAGGATCATTAAAAGGAGAAATATGTACTAATTCTATTTCCTTTCCTATGATTAATCCCATTGATATTAATCTTTCTTTTGTATCTTCATCTAGTTCATATCTTACAATTTTTCCACTGCACCCTTGTGTCATGCTACTTAAAGGTATAATCATAAATATTCTCTCCTTAAAATTTTTTTATAATTAATACGTTAAATATATTTTATCACACTTAAAAAAATTAGTCAAGACTAAACTTTTAAAAAATAAAAAAATAAAAAAATAAGGATGAGAAAAAGTCTCATCCTCGTATCGGGTGAAGGGGGATATCTTCAAAGAAATAATATCACATTTTTTTTTAAAATTTGTATGATAAAAGTCATATTTTAATAAATAAAATTATTTTTTTTCAATAAATTTTTTAATAACTTCTTCAACTCTTGGTTTACAAAATGCACCTTGACATCTCCCCATTCCAGCTCTTGTTCGCATTTTTATAGCTTTTACAGTTTTAATTGGGATATTACGATTTAAAGTATCTAAAATTTCTCCTTCAGTTACTTGTTCGCATCTACAAATTATTTTTTCATTAGATGATTTTATATTTATTAAATTTTTAAGTTCTTTAGGGGTTAAAGTTTTTTGTTTTATAATAGGTTTCCTATAAGGATTAAAATTTTTCTTTTTTTCTAAATGTATACTTTTTTTAAGTATTTCTAAAACATATTTAGCTATTGCAGGTGAAGACGTTAATCCGGGAGATTCTATACCAGCTACATTTATAAATCTTTCTTTTGATTCTTCTATTATAAAATCACCCGTGTTTGGTGTTGGGCGTATACCAGAAAAAGTTTTTAGCTTTTTTTTCATATCAAAAAAGGGTACAGATTTTTTTGCTGTTTCTATTATATAAGTGAGCATTTCTTCAGAGGTCTTTGTATTTTCTTTATTTTCAACTTCCTCTGCATTAGGTCCTATCATTAAATTTCCATGATAGGTAGAAGTTACAAGTATACCTTTACCTTTTTTGGTTGGAACTTGAAATATTACATTGTTTACTATGCTTCCTGTTCCCTTTTCAAATAAAATATACTCACCTTTTCTTGGAATTATTTTAAATGTGTTTATTCCAAGCATTGAAGAAATTTTGTCTGCATAAACACCAGCAGCATTTATTAAATATTTTGTTTTAAAAGTTTTATTTTTGGTAATTACTTCAAAATGATCTTTGTACTCTTTAATAGCTAATACTTCAGAATTTAAAAATAATTCAGTTCCATTTTCAATAGCATTTTCAGCAAGAGCGATTGTGTATTCGTATGGAGAGGTAACTCCAACATCGGGACAATATAAAGCAAACATAACTTCTTTATTTATATTTGGTTCAATTTTTAATATTTCTTTTTTTTCTAATATTTTTAAGTTTTTAAGACCAAATTTTTTTCCATTTTCAAATAAATTATTTAATTCTTTTAATTCATTCGCGTTAAAAGCTAATACTAAACCTCCTGTTTTTCTATATCCAAAGTTTAGTTCTTCGTTTAAACTTTTAAACATTTGATTTCCTAAAAAACACAAATTACCTTTTAAGGATCCGAATTTTGCAGCATATCCTCCATGAACTATTCCACTATTTGCTTTTGATGCACCGTTACTGACATCATCTGTTTTTTCTAAAATACAAGTATTTACATTATATTTACTCAATTCTCTAGCTATAGATGTTCCAATTACTCCAGCACCTATTATTAAAAAATCATACATAAAAAACACCTCCAAATATATAATACCATAATATTAAGGTTGCATTTCATTTTTGATGAGAGTATAATAGTTCTTTAGGGGGGATAAAATGAAAGAAATAATTGTAATGATTACGTTTTTTGTTGTAATGTATACTATAATAACTCATAAAATAAATAGAACTATTTCAGCAATGCTTGGAGCATTGTTTTTATTAATAATAAAAATTTTTCCAGATCAACTTATGGCAATAGAACATTATATTGACTACAATACTATATTTTTATTAATTGGAATGATGCTTTTTGTTAGTGTTATAAAAAAAAGTGGAATTTTTTCTTATATTGGAATACAAACATTAAAAATATTTGGTAAAAATGGTTATATGCTTTTTATTTCTTTAACGATACTTGTTGGACTTATTTCAGCATTTATAGATAATGTAACTACGATACTTGTTTTTATACCTATTACTTTTGCTATAACTGATGCTCTTAAAATAAATTATATGCCTTTTATACTTGGTGAAATATTTGCATCAAATATTGGAGGAACAGCCACTATAATTGGTGATCCACCAAATATAATGATTGCTTCTGCATCTGGCATGTCTTTTATAGAATTTTTAGGATCTCAAATGCCTATATCTGTAATAAATTTAATTGTAGCAGATATTTTTTTATTGATTGTGTTTAAAAAGGATTTATCAAAAAAGATAGATCATGATTTTGTAAAAAAATTTAATCCTAATGAATCTATACAAAATAAAATGCATTTTTTTATTTCGTCAGTTCTATTTTTAATTGTTGTTGTTTCTTTTTCTTTTCAACATCAAATTGATATAGAAAGTTCTATAATAGCATTGAGTGCTGGCTTTATTGCTTTAGTTACTATGGAAGAAAAAAATACAGAAGAAATTTTAAAGGAAATAGAATGGGAGAGTATATTATTTTTTATGGGGTTATTTTTAATAACTGGAGCTATGGAAGAGGTTGGTTTATTAGAAGATTTTTCTAAAATTTTAATAAGTTTTGCGGGACATTCAAGTAGAATGTTTGCTTCTTTCATGTTAGCTATTTCTGGATTGTTTTCAGGTTTTGTAGATAATATACCATTTACTGCAACTATGATACCAGTTGTAAGAGATCTTCCAACAATGAATCCAGAAGTTTTTAAAAATTTGGATCCAATATGGTTTTCGCTTGCATTAGGTTCATGTTTGGGAGGTAACTTTACTCCAATAGGAGCTTCTGCAAATATATTAGGACTTGCAATGATAAAGCAGTTTAAAAAAGAAGAAGTAAAATTTTCACATTTTATGTTGTATGGTGGAGCAATAGTACTTATGAATATAATTTTTTCTGAAATATACATAAATTTGAGATATTATTAATTTTCTTTTTTTAATTGTTCTAATACTTCTACAATAGTTTTTGTTACTTCGGTTTTGAATGATTGCGAAAGGATGGGGAGTTTTAATCTAATTTCTTCATCTTTTGTTTTTGCATACAAAGGTTTCCATTTTTTTACTACATTTTCAATTATTATTTTTCTTTGTTTAGTATCAATTGGATTAAATATCATAAATTCCTCAAAAATATCTATTATTATATCTTCCATTATATTGTGTTTTTTGTCATTACTTTCCATTTTTACAACTCCAATTATATTATACATAATTAATGATGATTTTAACAATACTTAATATATTTTAAAAAAAAATATGATAAAGTTTATGTACCTTAATAGGGTATATAAAAGAGAGGTGAAATAATGAAATTTGTATTATATACTAATGATACTTGTGGAGTTTGTAAATCTTTAAAACCAAAAATAAAAGCTCTTTCTGAAGAAAAAAACATACCCCTTGAAGTTGTAAACGTAGAAGAAGAAAGAGAAAGAGCATCACAAAAATTAATATTCACAATTCCTGTACTTGCTTTTGAACACGAAAATAAAGAATATCAAAGATGGGTTAGAGTTTTTTCTGTTAATGACGTAAAAAATTATCTTGATAGAATACTATAACAAATGGATAAGTATCCATTTGTTATTTTTTTGATACGAACTTATTTTCTTCAATATAAAATCTCCACAATTTATTTTTGTATTCTTCAGCATAATCTATATTTATTCTTTTACTCTCTTTAATTTTGTTTGAAATACTTCCATCTATTATGAATAATTCTTTTCCTTTTATAAGATCATATCCATCAAAAGTTTTATCTATATTTAAAGCTTTACAGAGTTTTCCAGGTCCATTTGTTAAATCATATATTCTTTTTGATTTTATTTTTCTAAAAGTTTTAATTGTGTTTAAATAATTTAAAGGTTCAACAGCTCGAATTAAAACAGCTTGTGGGATATCTTTTTTGTTGACTACTATATTTAAACAATTATACATTCCATAAATTAAATAAACATATGAACATCCACCTTCTTTAAACATAGTTTCTGTTCTCTTTGTTCTTTTATTATTGTAAGCATGACTTGCTTTATCTTCTGGTCCCATATAAGCTTCTGTTTCTACTATTTTACAAAGTATATATTTATTATTTATTTTTCTTACTAGTATTTTTCCAAGTAAGCTTTTAGAAACCGTTATACCATCTTGCATATAAAAACTTTTATCTAAAGGCTTATACAATATCATTCCCCCTATAATTTAAAGCTTCAGATATATGAGATATTTCTATTGTTTTTGATTCAAAGGAATCTGCTACAGTTCTTGAAACTCTTAGTACTCTATTGACAGATCTTGCAGTTAATTTGAGTTTTAGTGCAGAATTTTTTAAAAAATCTTCTGCTTTTTCAGATATATTTAAAAATTGTTTTAGTTCGGAATTAGAAAGCTTACCATTTAACTTTCCTTGTCTATTAATTTGTATTTTTGAAGTTCTTGAAACTCTTTCTTTTATTTTTTTAGAACTTTCAGAATAAGATTTTGACATTAGTTCACTTATTTTAACTCTTGGAACATTTATTTTTAAATCTATTCTATCTAATATTGGACCTGATATTTTTTTATTATAGTTTAAAATTTGAACCATTGAACATGTACATTCTTTTTCTTTATCACCATAATAACCACATGGACATGGATTTTGTGCAGCTACTAACATAAATTTTGCTGGATATTTTGCTACTCCTTTGGAACGGGTTATTGTAACAAAACCATCCTCTAAAGGTTGTCTTAATCCTTCTATAACATTGCTTTTAAATTCTGGAAATTCATCCATGAACAAAACTCCATTGTGTGAAAGACTTATTTCTCCTGGTTTGGGATTAGAACCTCCACCTATTATTGAAACATCAGATGCCGTATGATGTGGTGACCTAAAAGGTCTATTATTTATAACTGTATTCATATAGCCAGATACTGAGTATATTTTTGTAGATTCAATTATTTCAGATTTAGTCATTTCTGGTAAAATAGAAGGAATTCGTCTTGCTATCATTGTTTTACCAGAACCTGGAGAGCCAATCATTAATATATTATGAAATCCACTTGCGGCTATTTCAGCTGCTCTTTTAACCAACATTTGACCTTTTATTTCAGAAAAATCTAATTCATGTTTTTTGATGCTATTTTTAGTGATTTTTGGGATATAAGTTTCTGGAGAATTGTATAAGCGTTCAATATCATTCAAATGATCTATTGTAAAAACATCGTTTTTTATAAAAGAACTTTCTTCTTGATTTTTTCTGGGGATTATAAATTTAGCATTTTTGTTTTTTTCCTTTATTGACATTAAAAATAATGTTATACCCATGACAGGTCTTATTTCTCCATTTAAACCTAATTCTCCAAATAAGTAAAAATTTTCATCTAATTTTTTTATTTGAGAAGAAGCTTCTAATAAAGAAACTGCAATTGGTAAATCAAAATGAGTTCCTTCTTTTCTTATGTTAGAAGGAGAGAGATTTGAAACTATTTTTCCATTTGGAACATTATAACCTGAATTTCTTATTGCACTTATTACTCGTTTTTCGCTTTCTAAAATAGAAGTTGTAGGCATTCCAACTATTTTAAAAGTTTGAATAGTAGATCTAGAGTTTATATCAATTTCAACCAAAGTTTCTTCGACATTAAATCCATTTACACTTCCTGTTTTTATTTTTGAGTACTTCACAAAAACCACCTCAATTATAATAAATAATAAGATTTGTTGTTTAGATTTTACTATATAAAACTTAGTTTATTATATTATTTATTGAAAGAACTATTTAATATTTTTAATTTTTTCTACTGAAATGCCTGTTAATTCAGAAATCATATTCACATCTAATCCTTTTTTAAGCATGTTCTTTGCTACTTTTTCTATCTCTGTTAATTCAACATCTTTATCCAAATTACTAACAATTTCAACCTCTTTTTTATCAAAAGCTATTGAAACTTTTATTATATCATTTATTCCATAATTTTTTATATCTTCTTCATACCTTTTTTCATTTATTTGTTTTAATCCATTTTTAGCACTATTTAATAGTGTTTTTTCGTTTTTATAAAACTTTTTAAACTCTATTATTATTCCTTTGTCTGTTTTATCTTTTGGAATTAAAATAACATCAGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATGTACTTTTCTTTTAAACCAACACTCATTCCAAGTATTAATCCATGATAAAATCTTTCTGGTTCTTCTCCACTAACGTCAAAATAACTCAATGTATTCATAGTTAGTTTTTGAAAGTCTTCTTTAAACTCTTCTATATGTCCATTTATTAAATTTATTAATATATTATTGAGCTTTATTCTTTCTTCTTCAAGCATAGATACTACAGTTTTATTATAAAATATTTTTACTTCTTTATTTGGTATCTTTAAAGTATATCTTTCATAATCATGATTTATATTTTTTGTCCATTTTAAATATCCGCTGAATAAAAATAATGTCCATACAGACTCTTCTAAGTTGTTATTTAAGTCACCATAAACCATAGTTTCATTTATTGTACTTTCAATTTCTTCACCATTTATTAGTTTTTCTATTTTATCTTTTAATTCAGCACTTCCTTGTTTTATTAATTGTTTAACTAAGTAGTTTCCACTCGTATTCATCCAATATGGTCTTATTTTACCTTTATTCTTTGCAAGAGTTACTATAGAAAAAGGATTGTAAATTTCAACACCACCAAAATTATAACCATTGTACCAATCTATAACTTCACTTTCTTCATATTCAAGTTCATAATACTTCAATGTTTCTTCAACTTCTTCTTTAGTTAAACCATACTTATCATTGAATAGTTCATTCAATACAGTAGAAACTTCTAAGTTATTCACACCAGTAAAGATACTTTCTTTAGAAACTCTTGTTATACCAGTAAGAACTGCTTTTTCAAGGTATACATTATCTTTTAATGCCATTCCAAATAAGTTACCAATTAAAGATATTATTTCATCATAGTATCCGTGTAAGTAAGCTTGTTGAATGGGAGTATCGTATTCATCTATTAATATTATTACCTTTTTACCATAGTATCTTTCCATATATTCAGATAAACTTCTTATAGAATTTTCATAATCAGCATCTAAAGCTTCTCTACCCATTATTTTATCATATATAATTTTTTCTTCATTATCTAAAACTTCTAAAACATACTTATGCTTTAAATACAACCTTGAAAGCTCCATGGTTAATAAAGCATGCATCTTTTTTAAGTTATTAGACTTTAAATCTTTAAAGGTGATGTATATAACTGGATGTTTATTTAAATGTTTTTCTATTATATTTTTTTCTTTATATATTTTTAAGTTTTTAAAGAGGTATTCGTTATTTTGAGTAATATCAAAAAAGTACTTCATCATAGATTGACTGAGAGTTTTCCCAAACCTTCTTGGTCTTGTTATTAATAAAACATTCCCACCTTCAATAACTTCTTTTATTAACAAGCTTTTATCTACAAAGTACATATCTTCTTCTATTATAGTTTTAAAGTCACTTTGTCCTATTGGAAGCCTTTTTTTCATTTTCATCACCTCATTTTATTATATCATACTAGTTTATCTGATTATTAATTTTTCAGTTTTTAATTTTACATTTTTATTGATTTTAAAAATTTCTGTACTATTTGCAATGGTTATATATCCTTTTTCATTTTGATTAATAAAATTTTCAAAAAATTCAATATCTTTTTGATTTGAAAGATTAGGAACAAAAGTCATTCTAAATTCATAATCAATCGAATTTTTTCTTAGTATATCTATACTTTTAAAAATATTATCCATATTTAGTTTAGTATTTGTTAATTTTTCATAGTTTTTTGGAGAGGATTTTATATCCATTGCAACATAATTAATTAAATCTTTTTTTAAAAGTTTTTCTAACATTTTTGGGTTTGTTCCATTTGTATCTAATTTTATTTCATAGTCTAATTGTTTAATCTTTTGTATGAATTCAAATAAATCATTATTAATTGTAGGTTCTCCACCAGTTATACAAACTGCATTTAATCTTTTTTTTAAATCTATCAATTTTTTTATTATTGTATCTTCAGGAATTTTTTTATAATTATTAGAGTAGGCTATTTTCCAGTTATGACACCACGGACATTTAAAATTGCAGCCACCCGTGTAGATGACTGCAGATATTTTTTTTGGATAATCAACAAAACTAAAGGTTCTAATTCCTGATAAAATCATTATATATTTAATACCTCGCTATTCATAGAAAATTGAATTCTTTCAGAATATTCTTGTTGTTTTCCTTCGTTCCAATTTTGAACAGGTCTATAATATCCAACTACTCTTGAATAAACTTCTGAATCTTTTCCACATTTTGGACATTTAAAGTGTTCTCCAGATATATAACCATGTTCGGGACATATTGAAAAAGTTGGAGTTATACTCATATAAGGTAATGTGAAATTATTGAAACTTGTAACTATAAATTCTTTTAAAACTTCTTCATCGGTAATCTTTTCTCCTACAAATATATGAACAACCGTTCCACCAGTCCATTTATTTTGTAAACCCTCTTGATGTTCTAAAAGATCAAATGGATCTTCAAAAAATTTAACTGGTGGATGTACTGAATTTGTATAATAAGGTACATTTTTTGTACCAGATTGTATTATATTTTCTCCAAACTCTTCTTTATCTATTCTTGCTAATCTATAGGTAGTACCTTCTGCTGGAGAAGCTTCTAAATTATATAAATTTCCAGTTTCTTTATTAAAAGTATTTAATTTTTTTAGCATATATTCCATAATATCTTCTGCAAAATTTTTACCTTCTTCTTCTATTATTCCATGTTTTAAACCAAAGTTTAAAAGTCCTTCATGCATTCCAATAAATCCTATAGTAGAAAAATGATTAGCCCAATATTGACCAGTTAATTTATAAACACTATCAAGATAAATTTTAGTATAAGGATATAATCCGTTTTTTGTCCACTCTTCAATATGTTTTCTTTTTATTTCTAAACTTTGTTTTGCTGTTTCCATTACATCATCTAACAAATTGTAAAATTTATCTTTGTTTCCATTTGCTAAATACATTAATCTGGGGATGTTTATTGTAACAACGCCTATGGATCCAGTTAAAGGATTTGCTCCAAAAAGTCCACCACGTCGTTTAATTTCTGTATTTTCATTATCTTGCTTGTTTTCATTTACAAATCCAAAAGATAATTCTTTCATATGAGATAACACTTGTCTATTATCCAATTTTAGTCTACAACACATGCTTCTTGCATCTTCAGGATTCATATCAGAGTTTATATAATTTGCGAAGTAAGGAGTTCCATATTTCATGGTTAAATTCATTATCATAGTAGATACTTCAGACTCCCAATTGAAGTCTTTTGTAATGTTATATGTAGGAATTGGAAATGAAAAAGGTCTTCCATCATAATCACCTTCAAGCATTATTTCAATAAAAGCTTTGTTTATTAAATTCATTTCTTCTTGAAATTCATCGTAAGTTTCTTTCATTTCTTGTCCACCAATTATTATATGTTTATTTTTATGTGTTGATGGAACAACTAAATCCATAGTTATATTGCTGAATGGACTTTGAAAACCAACTCTTGTTGGAACATTCATATTAAAAATGAACTCTTGCATAGCTTGTTTTATTCCTTTAAAATCTAATTTATCGTATTTTATAAAAGGAGCAAGTAATGTATCAAAGTTAGAAAATGCAACTGCTCCCGCAGCTTCTCCTTGCATTGTGTAAAGAAAATTAACTATTTGTCCAAGTGCTGTTCTTAAATGGTTTGCAGGTCCAGAAGAAATTTTGTTTGGTACACCATTAAAACCATTTTTCAATAGTTCTTCTAAATCCCATCCAACACAATAACTAGAAAGAGAACCCAAATCATGTATGTGAATAAGTCCGTTTTTATGGTATTTTGCAATGATGCTATCCTTACCATATATTTCTTTGAGCCAATATTTTTTGGTAGCTTCTTGATGAATGTGATTATTTAATCCTTGAAGAGAATATTGCATATTTGAGTTTTCTTTTACCTTCCAATCATTTTCAGACAAGTATTCGTTTATAACTTTGTTCATTGTTGACCTCCTCAATATATAGAAAATATCATTTATATTTTACCATATAATACATTATATGGTATATTAAATTTTCGTAATTTTTTTTGGCATGTTGTTGCTTTATAGTTTTTGTGCATCAAATTTATTAAGGAGGAATTTTAAATGAATAGAGAAGAAATATTAGAAAAAGTAAAGAACGTTATGGTTGATAGTTTGGATACAGATGCTGAAAAAGTTACATTGGACGCAAGTTTAACAGATGATCTTGAAATAGACTCATTAGAACTTGTTGATCTTACTATGGCATTTGAAGAAGAATTTGACATAGCTATTGAAGATTCAGAGCTTGAAAGTATAAAAACAGTTAAAGATATTGTAGATTTATTTGAAAAAAAATCAAAATAGTTTTAATTTAGGAATTCCCAACTACAAACTCTCCCAGAAGCCAAAAAGAGACCGAAAGGTCTCTTTTTTTAGTATTTATTTTTTTATTGAAATATAAATTATACATACAATTAAATATATTACATGATATATTAACATAAGTGATGTATTATGTATAACAGAGATCCCCCGATCCCACAAAAAAATAAGTAACTAAATTACTTTGACAGTCTGCCCCCCAATGTAGACTGTCTTTTTTTGTGATAAAATATAGTGACTAAAAGAATGGGGGAAAGATATGAAAACCTTAATAACGACACATGCCAATCCTGACTTTGATGGTTTTGCTGCTTCTATTGCTGCTTCATTAATTTATAAAAATTCAATTATAGTAATAGCTGGAAACCCTTCTCAAAATTTAAAAGAATTTTTACAGTTGTATAATTTACCTTATTTGAATGAAAAAGATTTTTTAAAAAAATATCCTAATTATGAATTAGAAGTAGAAAAAATAGTTATAGTTGATACTGCAAATATAAATAGAATACCAGTTTTTATAAAAGAAATAATAATTAATAATAATGATATAAAAATTGATATTTATGATCATCATCCAATTTTGAGAGAAAACAATATAATTGGAAATAATTATTCAAAAGAGTGTGGAAGTGCTGCAACTATAGTTTTAGAAAAATTATTAAAAGAAAAAAATGACTTTCCAGATATTTATAAAACATTATTTTTAATAGCAATACATGAAGATACGGGGAATTTTATATATACAACTACAACTTATTTAGATCATATTATAGCAGCAGAACTTTTAAAAATGGGAGCAAATTTAGAAGAAGTTGAAGATTTTGTTTCATTAGAAATGACAGAAGATCAAAAACAAATCTTTGATCTTCTATACAACAATATATCTGAATTTTATGTAAATGATTTGAATGTGTACATTGCTTTTGCAGAAACGGAAAAGTTTATAGGTGGATTAAATATAATAACTCATAAAATTTTTGAAACATTGACACCGGATGTATTGTTTTCAGTTGTTAAAATGGGAAAAAATATATACATTATTGCAAGATCTAAAAGTGATGAAATAGATTTAAATGTTATATTAAAAGAATTTAATGGAGGGGGACATAAAAAAGCTGGAGCTGCAAAAGTAAAAAATGGTGATGCTAATAAAATTATTAATGATATAAGAGAATTAATGAAAAAAGCATTTGCACCTGTTTTAAAAGCTATTAACATAATGTCTTCTCCTGTTAGAACTGTATTTGAAAATGAAAAATTAGAAAAAATATTTGAAATAATGGAACAAACGGGACATTCTGGTCTACCAGTTGTTTCTAAAAATAAATTAGTTGGTATAGTAACAAAAAAAGATGTAGAAAAAGCAATTAAACATAAATTAAAAAATGCACCAGTTAAAGCAATAATGACAAAAAATCTTTTGGTTGTAGATGTTTTTACACCAGTATCACAAATTAGAAAAATAATGGCAGAAAGTGATGTGGGTAGATTACCTGTGTTAAAAGATGGTGTTTTAATAGGAATAGTAACAAGAAGTGATATATTAAAAGCTACTAATGGAGTTTTTGATTTTTCAATAAATCCAATAATAGAAGATCATTATGATACATTTAATATTATTAATTTAATGAAAGAAAAAATTTCTAACAGGGTATTAAATATGTTAAGACTTTTAGGAACGTATGGAACAGAGTTTGGTGTTCCTGTTTATGTTGTAGGTGGATTTGTTAGAGATTTACTTTTAGGTGTTGAAAATCTTGATATTGATTTAGTTGTAGAGGGAAACGGAAATGAATTTGGAAAGTATGTTGCTGATCAATTAAAAATAAAGTATTTATCTCATGAAGCCTTTGGAACTTGTTCTTTATTTTTTAAAGATGGATTTAAATTAGATATAGCAACAGCAAGAACTGAATATTATGAAGAACCTGCAAAATTACCAAAAGTAGAAATTTCTACCATAAAAAAAGATTTATATAGAAGAGATTTTTCAATTAATGCTATGGCTATAAAATTAAATCCAGAAAAGTTTGGTTTGTTACTTGACTTTTTTGGATGTAAAAAAGATCTTGATAATGGTATAATTAGAGCTTTATACTCTCTTTCTTTTGTTGAAGATCCAACAAGAATATTAAGAGCTATAAGGTTTGAACAAAGATTTAACTTTAAAATAGATGAAAATACATTAGATTATATGGAAAGAACTATAGAAAATAATTATTTGGAAAAAGTAACAGGAACAAGACTTAGAGAGGAAATAGAAAAGATAATTAAAGAAAAAAGTCCAATAAATGGAATTAAAAGGCTTGGTAAATTGAAAATAATTTCTCATTTGTTTCCATATACTTATTATACACCAACATTAGAGAATGAAATAATAAAGATGTTTGCTTTTTATGATCTTTTAAATAAAGAAAATAAAAAGTATATAGAAAATACTAATAAATTTTATATATTACTATATGTAATATTACAATATACTTCTATTGATGTGCTTGAATTTATAAGAGTTAAATATGGATTACCTAAAAATTTTGTAGAAAAATTAGTAGATGTAAAAAATGTTTTTAATAAGATAAATAAAGAAGATATAAAATTTTCTGAAATTTATGAATTAACAAAGAAGTTTAATAATGAACAAATAATATTTTTAGCTTCAAAGATAAGTGATAAAATGAGAGAACATTTTTATAAGTATTTGAAAAAGCTAAGCAATATAAAACTTCCTTTAAATGGAAAGGATTTAAAAAAAATGGGATACGTGAGAAATGAAATAGGTATTAAATTAGATGAACTTACTAAAATTGAACTTGATAAATAAAAAAGTAAACCATCTTGGTTTACTTTTTTATATTGTAGGATAAGTTACGGTTATTTCAGCAATTTTATAAATAACTTTATTTGCATAATATTCATTTCCGCCGCCATTATACCATCCTATTGCCGAATAAAAATTTTGATCATGATAATTTAAAAGATGTTTTAAATAAGCAGTTCCAACAAGAATATTGTATTTAGGATCTATTAATAATCTTTTTTTTATCCAATTTAAATCATTTGTTTTATAACCAGCCTTTTCAAAGCTTTCGGGATATTTATCAACTATGTATTTTGCAGTAGTTGGTCTTATTTGCATATATCCAATTTCACCCATTTTCCCTATTATGTTTCTAAAGTTTGTTTCAGTATCGATTATTGCAGTAATCATTAGTGGTGAAATTTTAAATATTTTAGAAGCATCTATTATTCCATCTATTATGTCGTAAACTCTGTTTGTAGATAAATCTTTCCTCATAGTATTTTTATATTGCATAGTTATAAAATCTTTTAAAAATGTTTTTAATTTTAATTCTGTTTGTTCATTTGAAGATGATGTATAAGTTATTCCTGCTGCAAAGGAATAAGAAAAAACTAAAAGTACTGATAATAACATGAGTATCTTTTTCCGCATTTGTTACCTCCCTTTTAGAACTAATATCGAATATTTTTCTAAAGACTTATTTTTTTTATTAAAATTCCCAAAAATTTTTATAATTTTAGAAGTATCAAAATTATCTAATTTTATTTCGTGAGATTTAAAGTTATAATATATAATAAATTCATTTAATCTATTAAATACGCTTAATTTTACCATGTTTTTGTTTGAATACAAAATCTTTATTTTTGCTTCTGAAATCCAGTCATTTTCTTTTCTAAAAGCTATTACAGACTTTAAAAAATTTAATATGGAAGTTTCGTTGTTTATTTGTTCTTCAAAAGATACACCACTGTAAGGTTTGTTGAATTTTATATTTTTCCATTCTGTTTGACCAATTCCATAACCACAAGAGTACCATTGTAGGGGTTCTTCTGCATCTTCTGTGAAATCAACGTTTGAAAGTTTACCTTTCATACCTAATTCTTCACCATAGTATATAAAGGGATTTCCTGGTAATGTCATTAACATTGCAATTGAAAATTTAACTTTTTCTATGGTTTTAAGTTCAGACATTAATCTTGTCATATCATGATTTGTTAAAAAATTTCCAGAATTAGTAATAATTTTTTCTTCATTTAAATAATTTTCCATACTATTTTTTAAACCATTTATAAATTTTTTAGTAGAATTTCTTTTTAAACTTTCTTTTAAATCATAAGAAAATGGAAAGTTAAAACCAATTTCAAAAATACCATTATATTTTTTAACTATTTTTGGATCATCCCAAACTTCACTTATTATTGTGGAATTTGGATTTATTGATTTTATATGAGAAATCATTTCTTTCCAAAAAGATATATTTTTTTCATGTTGATATTCAAACTTCATTTCTTTTATGTTGTAATCAAATATATGTTTTGCAGCATCTAATCTAAATCCATCAAATCCTATTTCTAACCAAAATGAAAATATTTTTTTCATTTCGTTCCAAAGATTTTTATTTTCAAAGTTTAATTCAGGAGAACCAGGTCCAAATAATCCATAAAAGTATTTATCATTAACTTTATGCCAAATATTAATATTATTTCCCCAATGCCTTTTTTCATTTATATCTGTTTTATCATTTGACCAAATAAAATAATTTTCATATTTTTTATCTCCGTTTAAGGCTTTTTGAAACCAAGGATGATTTATTGAAACATGATTTACTGGTATATCCAAAACAAATTTTAATCCTTTATTATGACCATTTTTTAAAGTTTCTTTTAATTCTTCTAAATTTCCATAAAGAGGATTTGTATTATAAAAATCAGTTATAGTGTATCCGTGAAAAGAAGGAGATTTCATTATTGGAAGAAGCCATATATGAGTAATACCTAAATTAACAAAATAGTCTAATTTTTTATTTAAACCAGAAAAATCTCCTATTCCGTCACCATTACCATCAAAAAAAGATCTTAAATATAATTCATAAAAAATCATAATAACAACTCCTTAAATATTTTTGGTATAATGTTTTTGAGGTGATATAAAAAATGAAAACACTTTCAAGCTATTTTATCTTATTATCTTTAACATTGTTTGTAATATTTATTTCATTATTTATCTTTTATTTTAATTCTTTTAAAGATGATTTTGAAAAAGAAAGTTTTGATAAATATTCTAAGTTAATTTCTTCGACTATAACATTTGAGATAGAATCAAAGATAAATTTTTATAAAAATAAAACTTTAAAAGAAGGAATTCCAGTTGGTCCTGTAAAAGATTTTGAATTTTTAGACAAAACTTTTGGAGCAACAACAGAAATTTATAATTTTGAGAAGGAAAATTCTGAATTTATATTAATTTATGGTATTTATTCTGATATAAGCTACAAGATGCGTATGAATATTGAATACATATTAGATGAAATAGTTAGGGAATTAGATATAAATGGAAAGTATATTTTTATTTTTAATAAAAAACATTTTGGTGATGAAGAATTTTTAAAACGTATAAAGGATGATAAATTAGATTTTAATAAAAATAGAGTTGAAAAATACAATAATGGATACTTTTTTTATGATGAAATAGGAAAGTTAAAAATTAAATTTTTATATTATAGTAAGGGAATGTTTTCAAAAACTATAAAAGAAAAAATGTGGCAAATGTACATTATTTCAATGATATCATTTTTACTAATAGTTCTTTTAAATAATTATTTTTCAATAAGTATAAGGTTTAAAGTATCTCAAATTTTAAATGAAATATATGATTTTTTGAATAATCCTAAGAAAGAAATTAATGAGCATAGAGAATTTACAGAAGAGTTGAAAAAAATAAAAAAATCGATTTTAACAAAAGAAGAAAGGAATTCATCATTTTTTAAAACATATGAAGAACTTAGATATATATACGAACTTACAGCTCAACATAATACGCTATTAATAGAATTAATGGAGTTTATTGAAGAATTTTTTGAAAAAGATTTTTCTGAGTTAAAGATAGAAAATAAATTTGTTAAATTAGAAAAAAGTAAAAAGTATGAAAATATAGATACTGAATTTTATACTATAATAAAGAAAAATTTAATCCAACTTTATGAAAAAATAAAAAAATTAAAGGATAATGAACAAATATAATGAAAAAAAAACCTTTTAATTTTAAAATGGACGGTTTGTCGACTTTGAAATTAAATGTTAAAATAAAAGTTGTATAATTAAAAATATATTACACATAATGGGAGGTGTGTTTATGAAAAAATATTTTTTTATATCCTTTTTATTAGTATTGCTGTTAATTTTTTCGAGTTGTAATACAAAAACTGTAATATTAAAAGCCAGTCCTAAAGTTCAAGCACCAGTAGGAGCAACTTCTGTTTCGTTATCAGGCTTTATAACAGATTTAGAAAATCAAATAAAACAAAGTTTACCAATAAAAATTGTAAACAGAAACCCTTTAACCTTTAGATATGCAACAGACTTAATAAATGTATCTGTTAGTGATTTTTTTAGTTCTGATCAGATAAATTTAGATAGTTTTAGCAAGGTATTAAATCAAAATTTTGATGTTCCTTTAATACCAGCTCCTGAAAATTTAGGGGATTTTTCAATTCCTTCAGTTACAATAGGTAGTGTTCCAGACATAGGTATTAATATAGTATTACCTGGAATAACAGAAGCAGAAGGAATTGAAGTTAATCAACATCAAACTTCTTCGCAAACAATAAGTACAGGTCTTTCTGGTACAGAATTTGTAACTGCAACGTTAAAAGGGAATATTGAAGTGAACTTAACTCAAAACGCTTTTACAAATCTTGATACGGAAATTTATATTCTTAAAGTAACTCAAGGTACAAATGTATTAAAAACATTTAATCTTTTAAAAGGTTCAAACATTTTAGATCTAAGCGGTATCACTATAGAACCTAAAGATTTGGGTATTTCATTTGAAGCAACACTTATAGGAAGTAATGCAAATGTAAAAATTGACGAAAATAATCCTGAAATATTAGCTTCTATAACACCTCATATTGCTTTAGCATCTATAAGTGGAGCTAAAATAACTTTAAAACAAGATGTTAATTTAACAATTCCGGCAATTTTAAGTTCAGCAACTTTTAAAAGTGGAAGTAAATTAAGTTTACATTCAAATGAAATACAATTTAAATCTGTTAATGGAAACTTCAATATAGGTAGTCAAACAATACCATTATCTGTAACTTCAGGTGATTTGACAGCTGATTTATCTGATGCAACTTTAACTCCTTCAGATAATTTGAATATAAATGCATCAATAACAGCAGATATACCAGATGCAAGTATGAGCCCTATGAGTGCATCGGCATCGCTTGAAAATATTGGTTTTTCAAATGTAGTTATAAATAATTCTGATTTGGATTTTCATGGTAATCAAACAATTCCTATACCAAGTGTTGCAAAAGGAATCGTTGATAATATAGTTATTGATTCTGGTAAAGTTACAATAGAATGGAAAAACACAACACCGTTTGTAATAAAATCAAAGATTTTATCAAATGTTTTAGGTATAAACGAGAGTGTGAACTTAGATATAACAAACTCTGGATCTCATACAATAAACTTAAGTGGAAAAACACTTGATTTTAAAACATTAGATAATATAGATTTTTCATACAGTGCTTCACCAACAGGTTATAATGGAAGTACTTTGAGTTTATCAAATGTTAATCCAGGTGATTCATACACATTTGAAGCAACTATATTATTTGATGGAAATGCTTTTAATATAGGAAGCATAACAATAAATGCAACTACTATTAAAGGTTCTTTAGGAGATCCTATGGATCTTTCATTTAGTGATAATGATATGGCAGATATGCTAAATAAAATACAAATAAATAAAGTTCCTTTAACCTTTGTATCCACTTTAAATAATGTTGATATGAATGGAAGTGTTACTATAGCTGCAAGCTATACAGACACAACAGGAAGTTCTAAAACAACGAATTATAATCCAATAACTCTTGGAACATCTTCAACAATTGATGCATCTGATATTATAAATTCACATCCAAAAGATCTTGAACTTGGTTATTCAATAAATATAGATAGTGCTGTATTAAATGGTACAAATCAATCGATTGAAGCGGGTGTTTTACTTGATTTACCATTTAAATTTAGTGTAAGTCAAGATACTACAATTACAAATGATATAAAGTTAAGTGAAGGAGATATTTTAGGAAGAAATGAAGAAAACGCTCAAGATATGAAAGAACTTTTAGATGGGGTTATGAATGAAAACTTAGTAATTCATTTAGGAATTATGAATACAACAGGGGCTAAAGTAAAAGTTCAATTCATTCACGATGGAGCACCTGTTAACTTTAAAATAAATGATCAAATAGTTAATGGTTTACTAATAAATAATTCTGAATTTAAACAAAACTTAGCAATTGATATTACTAATATATTTGAACAAATAAAAAATACAAATCCTTATCCACTTTCATTGAGAATAATCTTACCTGAAGGTGTGTATAATATAAATGCTGATGGAAAATTAGATGCAGATTTATGGGTAAGTATAGGTGCAGATTTTAAAATTCCATTGCACCTAAATCAATAAGGAGGTGGAAGAATAATGAAAAAACTAATAGTTCTTTTATTAATAAGCTTATCAATACTTTCTTTTTCTATAAATGAATGGAATAATGAGATTAATCCAGCATTATTAAATGAAACTAATAGAGGTTTTTTTGATTTTATTGAACTTGGAGAAAGCTTTGGATTAAATATATCTGAACCTATTTATTCTATTCCAGAACTTTTAAAAATGAGAACACAAGATGTAGTTACTGTTGATTTGAATAAAATTTATAATTCATTAAATAAAAAGGATTTGATTTTAGGGATTTTAACTAATAATGAAGCACATATGAAAATAAATTTATTTGGTTTAAAACTTGGAACTTATACAAATATTAGTGGAATTGGAAAAATCAATATTCCAAATAAACTTTTAAGCATAATGGTAAATGGTAATGAAATCAATAAAGATTATGAAACTTTTGGAAAAGTTGATTTAAAAGCAAGAGTTGAAGCTGGATTATTTTTAGGTCTTGGAAGATTTGGAATAAAAGTTGGAAGCTTTTTACCTTTATTGTATTCAGATGAAAGAGCAGGATATAAAGCTTTATTTTCAACAAATTTAAATGATATGAGTATAAATGGAACGGTTAGTGCAAAAATACCAGTTTACTCAGTATTGTTACCAGAACAATTAGAAAATATAGAAAATTTAGATACAGATAAACTACAAAATAAATTGATGAATAACAGCGGTACAAAAATAGATATAGGGTATGTGGTAATGTCAGAAAATAAACCTTCATTTGGAATGTCTTTAAATAATCTGACAATTTCTAAAGCCACATTGGATAAAAAATTATTTTTGAATGCTAATTATACAGTTTCAGCTTCAAATATAATTTCTGGAGGCGAAGCTACAACAACTAGTAATTTTAATTTTGAAAAAGATTCTGATGTTAGTTTTAAAGTAGATGCTCCAACTAATTTTTCAATGTTCATGAGAGTTCCACTTTTATTTGATTTTTATCCTCATTTTGAATATTATTTTACAGGAAATAATATTAATTGGGGAATTGAAGCAAAAACATCATTACTATGGTTATTTCCTTTGAATATATCGCTTGATAATACATTTGGTATTTGGAGTACTAAAGTTGGAATTGGCGTAAATATAGGGCTTGCAGAAGCTTTTATTCAAATAGGTAGTGCTTCTATGGATTTAAAAGATGCTCTTGCATTTAAAGGATTGTCACTCAAAATTAACATGAGTTTAGGATTTTAACTTGACAATGTAGCATTTTATAAATATAATTGAGTCGAATTATCATTTAAACATGTGTCGGGAGGGTGTAATTGTGACAAGAGAAGAACTTTTTGATAAGATGAAAGAGGTTATTGTAGAAACTCTCGGTGTTGAAGAAGAAGATGTAAAACTCGACTCTTCCTTTGTAGACGATTTGGACGCAGATTCACTTGAATTAGTAGATTTAACTATGGCTCTTGAATCTGAACTTGGAGTAACTATTGAAGACGATGAGATAGAAAGTCTAAAGTCTGTAGAAGATGCACTGAAAATTGTAGCAAATAAATTAAATATTGACGAAGATTAACCGTAATAACGGGGAGCTTTTGCTCCCCGTTTTTTTAATTTCAAATATAATATTTTGGAGGTGTTTAAATATGGTGAAAAAGCATATTATAGTTACTGGTGGCGTTTTGAGTGGGATAGGAAAAGGAATAGTTTCAGCATCAGTTGGAAAGATAATGAAAGATTCAGGAATAAATGTAAATTCATTAAAATTGGATCCTTATTTGAATGTGGACGCAGGTACAATGAATCCTAATCAACATGGCGAAGTTTTTGTTACAGACGATGGTTATGAAGCAGATTTGGATTTGGGTCATTATGAAAGGTTTTTAGGAATCCCAATGAAAAAATTTAACAATTTAACAACAGGGCAAGTCTATAAAAGCATAATTGAAAAAGAAAGAGCAGGAAAATATTTAGGAGGAACTGTTCAAATGGTACCTCATGTAACGAATGAAATAAAAGAAAGAATTAAATCAATAGATACTGATTTATTATTAATAGAAGTCGGCGGAACTGTAGGAGATATAGAAGGAGAAATATTTCTTGAAGCAATTAGACAACTTTCTGTTGAAGAAGGAAAAGAAAATTTTATGTTTATTCATGTGACTTTTGTTCCTTATTTAGGAGTTACAAATGAATTTAAGACTAAACCAACTCAACAATCTGTACAATTATTAAGAAAAATAGGTATACAACCAGATATGTTAATTATAAGAACAGAAAAAGAAATAGATCAATCAAGTTTAGAAAAAGTTTCACTTTTTGGTGGAGTAAAAAGTGAGTATGTTATTAATCTTCCAGATTTAAACAATGTTTATGAAGTTCCTGAAGTCATACATAAGATGGGTGTTCAAAATTTAATAGCAAAGAAATTAAATATAAGTATTACCAATAATCTCAATTGGAATTGTCCAAAAACTTTTAAACCATTAAAAATAGCAATGGTTGGTAAATATCTTGGAACGGATGATGCTTATAAAAGTATACTTGAAAGTATATTTTTATGTGGTGTGAAAAAACCAGAACTTTTAGATGCAGAAACTTTGGAAGAGTACGATGATGAAGGTGTTGTTTCAGTACTTTCAAAGTACGATGGAATAATTATTCCGGGTGGTTTTGGAAAAAGAGGTATAGAAGGAAAGTTAAAGGCTATAAAATTTGCAAGAGAAAATAAAGTACCAATACTTGGAATATGTTTAGGTATGCAAACCATGATAATAGAATTTGCAAGAAATGTTATGGGATATAATGGGGCAAATTCAACGGAATTTGATGTAGATACAAAGTATCCTGTTGTAGATATGATGGAACAACAAAAAAATATTTTACAACTTGGAGGAACTATGAGACTTGGAGCTCAAAAAACTGAAGTAATAAAAGGTTCAAAATTATTTGATATATATAATAAAGAAATTATAGATGAAAGACATCGTCATAGATATGAAGCAAATTCAGATAAATTCAAGGAAATGTTTACAACTCCAGAAAAAAATGAAGATAATAAATTAATAGTTGGAGGAAAATCAGATTTTGTTGAAGAAATAGAATTAAAAGATCATCCATTTTTTGTAGGTATTCAATATCATCCAGAATATAAATCAAAAGTGGGTGCGCCACATCCAATCTTTAAAGCGTTTACAGAAGCAATAATAAATAATTTATGAGTTTTAAATAAAAAAGGGCAAATCTTTATTGATTTGCCTTTTTTTACATATAATAAATACAATGTATAATTTGATTATTATTAATATCTGTTTCGTAAATACTTTAAAAAGATGTATAATATATATATAATATCTTAAAATTATTTTTAGAATTAATATTAAAAAAATAAATTTAATGTATATATTTATATGTAAAAAATTAATATTTTTTTGAAAAAATGGACAATCAAATAAGGGGGATAAAATATGTCTGAAAAACTTAAATCCATATTTCAAATATTCAATCAAAACGAAAAAATTTTAAGATATTCTGTTTCTGTTTTTGATAAAGAAAAATTTCATCAAATTATTTATTATAAAGAAAACAAATTTAATGATGATTATATTGGTGTGGAGTTTAATTTTTCAGATGAACTTAAAAAATTTATTTATAATGATAATATTTATTTTTATAAAGGAACAATAAAACTAAAAAATTATTTTAAAGACTATTGGTTTTTATTTGAAAATATTTCCGAAGAATACAATGAATTAAATATTTTTGTTTTCAAAATTTATGCTCCTTTTATAAACTTAAAGGAACTTCTTGGAATAGTAGTATTTTTTTCAAAAGAAGAAATATCAGAAGAAATAGAAATTTTATTTCAAGAAATTAATATAGAATTATCAGAAGCTTTTTATATATATAGAAAAAAATTTTTAAAAATAAACTATACTCATCAATTTTTAACAAGTTTTATTGAAATTTTAAAATCAATAAATACTCAACTTTATTATCATTCCTTGGGTGTTGCTGATACAGCAACAATTATTGCTGAGTCAATGGGTTATAGTTACGATGAAATAGAATTTGTAAGAAATTGTGGTTTGATTCATGATATAGGAAAAGTTTGGATTCCAAAAAGTTTAATAGATAAAAGAGGCCCTTTATCAAAGGAAGAGTTTGAACTTGTAAAAATACACACAGATAAGTTAGAAGAAATGCTCAATATGAATACATTTATGAAAAAATACGTAAAAGTGGCAAAATTACATCATGAAAGGTTAGATGGAAGCGGTTATTATGGATTAAAAGATGATGAAATACCGGAAGAATCAAGAATTTTAGCAATAGCAGATATTTTTGATGCTTTAACACATGAAAGATCTTATAGAGATGCTTTTACATTAGAACAATCATTGGCTGAATTAGAGAAGATGGCGAAAAACAAAAAAATAGATAAAGATATACTAAATGTTGCAATTCATGTACTTCCAAAAGTTTTTTCTGGAGATAAAATTAGCACACCTAGTAATTATTTAATGGAAAAAAGTGTTTATATTCAAGATATAATAAAAAAAGAAAATTTTATAAAAGGTGTAATAATAGGAGTCCATAAAGACATATTAAATATTAATATACAAGACTTTCAAAATATAGAAAATGGTAAAATATATTTAATGACATATGAAAATAATGATATTGAAGAAAAGACTAAAATAAAAGTGCTTTCTACTTTTGAAAATCAAATAACTGTTAGATTAGAAACTTATAAAGAAATTAAAGAGAATTATGTAAAAATTTTATGGTACAAGGATATAAATATAACAAAGTTATCTTCAGCAATATCTAATTTTGAAAATATAAATATATTAAATTATCCAACCTTCAAAGTAAAGATGTTAATGCTTGGTGGAAATTCAATAACTATAGAATTAGAAGAATTAATAATTAATGAAAGTGATATAATATTAATTTCATTTGAAGCTTATGATTTAAAAGTACGTGCTTTATGCAAAGTAACACTTATAAAACAAGAAAAAGATTTTATTAGAGCAACACTTGATTTTTTTAATATGAATGATAAACAAATGAGAAAAATATTTCAAGTGATTTTTAAAAGACAAATAGAGCTCAGACTTAACTTTTAATTATTTATTTTATAAAAAAATTAATGTATAATATTATATAAAATAATTTTTAAAGGAGAGAATATAATGATAAAAAAATTTTTATTTATTGGAAAAAATACAAAGATAAGTGATACTGTAAAGTTTGGATACAATGTTATTATAGAAGATAATGTTGTTATAGAAAAGAATGTTCAAATTGGTCACAATATAGTTATAAAAGAAGGTACTATAATAAAAGCTGGAAGTGTGATAGCAGACAATACAGTTCTTGGGAAAGAGCCATTTAAAGCAAGTAATTCTGCAACTACAGAAAAGAGAAAGTTAGAACCGCTTGTTATAGGAGAGTACGTAACTATAGGTGCAAATTGTGTAATTTATAGAGGGGCAAAACTTGAAGATGGTGTTTTTGTTGGAGATTTAGCTTCAATAAGAGAAGATGTTGTTATAGGAGAAAAAACTATAATAGGAAAAGGCGTAACGGTTGAAAATAAAACAACTATTGGTAAATTTGTAAAGATAGAAACTGAAGCTTATGTTACTGCAATTTCAACTGTTGAAGATTATTGTTTTATAGCTCCAGAAGTTACCTTTACAAATGATAATTTTTTAGGAAGAACAGAAGAAAGAAAAAAATATTTTAAAGGACCAACTATAAAAAAAGGAGCAAGAATAGGAGCAAATGCAACACTTTTGCCTGGTATAGTAATAGGAGAAGATTCTTTAATAGCAGCAGGAGCGGTTGTTACAAAAAATATATCTCCAAGAAAAATTTATGCAGGAGTACCAGCAAAAGAATTTGGAAATGTTCCAGAAGAACAACTTTTAAAAAATCAAAGTTATTATAAATAAACAAACAGTCGATATATTTATATCGACTGTTTGTTTTTTAGGATATGATGCCCTTCAAATAGAAAAATAAAGAGGTAATTAAAAAAATATTTCTCATTGGAGGGATTAATGTGAAACGAATGATACTTTTATCTATAATATTTATTATGTTCTTATTATTAAATGGATGTATAGCAACACAAAACAATGATATAAGAGTAAGCTTATCAACAGTTGAAACGAAGTTTATTACTAATAAACCAATAACCTTTAATATAAAATTGAATCTTCCATATGGGGTTAAAGGATCAGCTGCATCGCTTATAGTTACGTCAGTAGATTCGCCAGATAATGATGAAACAACAATATCAGCAACGAGAGTAAACTCTAGTGAATATATTGCATCATATACACCAAATAAAAATGGTAACTATAAGTTTAAAGCAAAATTTATGGGTCTAGGTTCAACAAAAGAATATGAAAGTAATGAGATAATAAAGTATATAAGAGTAAGCAGTGAGGATTTTCCAAAGATACTGAATATTAGTATAAATAATAATTTAAATGATGTTAAAGTATTAAATAAAGATGAAAATTATATATTTAGAGCGGTAGTAAAACCAAATGTTAGTCCAAGTTTAAATATTAGTTTAGATGCTTCAGCAATGAATGGATTAAAAATAGGAATAGGTACAAATCAACAAAATATACAAATAGTAACTGATATGAATAATATAGAACTTGGAACATTAACAACAGGAATATATGAGTACTTAATTCAATTGTATGATTCATTAAACAATAATTTAGCTGTGTTTAATGAACCACAAAAGATACAGTTTATAGTTACAAATGATTTATTAAGTCCTACATTTGATTTAGACTATACAATAACAAAGAATAAAATAAATCTTGAAACTTATTCTAATTCAATACCATTTTCTGTTAATTTTATTGAAGATAAAAATTTAGATAATATAGGACTATATAAAACTAAAATTAGTGTTGATGGAACAGATGTTCATAATGGATTATTTCAAAATGGACAATCAAAAGATTCAGCAGTTATAAATCTTTCAACAGGTCTTCACACAGTTTATTTGTATGCTGAAGATTTAGCTGGAAATAGTGATGATAAAACGTATAGTGTTGAAGTAAAAAAAGTAGATATAAAAGCAACTGTAACCCCTAAAAATAACAGTGGAGATATTATACAGTCAACAGATATTTTAAACAATGATGATTTTGTATTTTTTGATTTAAATGTTTATGCTGAAACGTTAGAATCAACACCAGCAACGTATCATTATTTATTAAAGAATTTAACTACAAATAGAATTCTTTATGATGAGACATTTTCCAATACATTACAAAAGAGTGTAACAACACCAGCAACACAAATAGAAGAAGGAGAAAATACAATACAACTTGAAGTTACTGTAAATGGCGGAGATTTAGTTGCAAGAAGCGGAGCTTTCATTCAAGTTCAAGATGTTACTGCGCCAGAACTGTATAAAGCAGAAATGACAATAGACTCAAAAGTATATAAAATTTATGATAAGGATAATCCTTCATCGATTGCAACAATAACAAATTCTATTATACAAAATAAAACTCCATCAATAAAGGTATACTTTAGAGATAAATCAGCAATTTCATATTCTAAAGATATTTCACTATATATAGATGGAAATGGAACAACAGATAACTTTGAACAATTATCTGTTGATAGAAATTATGTAACAGACAAAAGTATTGCATATACGACAACAATTGATGTTATATCATTTGGAACGGGTCAATATGAGTTTAGAATACCAGGTTCTTCTATAACAGATGCAAACGGAAATATAGAAAAAGATAAAGATGGAAATGTTGTTGATTATAGCTTTACACTAAATGTAGTTAATTAGAGGTGAGTGTATTGAAAAAAATATTTTTATTTATTCTTTTATTTAGTTTTTTATTCATTTTTACAGGTTGTTTTTTAGATGATAAAGAACCACCAAAGTTTATTCAAATGCCAGAGCTATTGAATCCAATTCCAGAAAAAGCAGGAGATACTTTACAAGTAAAATTAAATGTTGTAGATGATACTAAAATAACCAAAATAGAATTTTTTAAATCTGGAGAAACAACACCTTTTTTTACTAAAATATATGATAAATCAACAATAAGAGATGAAATTTTATCTTCTCTTATGCCTTATGGTGAAACTTATTATGATGTTTTAATAAAAGTTACCGATTCAAGCGGTAATTCTTCTTATAGAAATTTAAATAAAAAATTTAGAACACCAGACAAATCAAGTCCTGAAATACTTAATGTTAATTTAACACAAAATTTAGATAAAGGGATAAATGATTATACTTTAACCTCTAATATAAATGATATAGGATCTGGGTTAAAACAAATAAGAGTTTTTGTAGATAATGCAACTTATAATATTCAAATTTCTGATACAAAGCCAACGGGAGTAGAAAATTATTATTACTATACAGAAAAGACAGGTTATAGTTATAGTGGATTATTGAATCTTGAATTAAATTCAGTTGGTTATGGTAAACATACTATAAAAATTGAAGCTTATGATAATACTGGAAAAAGAACTGTAAGTACAAGAGAATTTATGATTTCACCAACATCTGATACAGATCTGCCAGTAATAGAAGTTAATTATCCACCATATGTAGAACCTGGTGAAAATTATCAAATTACTATTTCCGCATCAGATGCAAGTTATATACAAAAAGTAAAATTAAATGAAATGAATTTTCCAATATCTCCATCTCAACCAATAGTAAATAAAACTATTACTTTAAAAGCTCCAACTGAACCAACAAAAAAAACATTTACAGCCTATGCTGAAGATTTATTTGGAAAAGAAAGTTCAACTAAATTTGATGTTTTTATAGCTGTAAATACACCACCAGTAATTAAAAGTTTTTCAATTGATACAGATAATCCAAGTCAAGATGCACCAGTTACAGCATCTTTTGATATAGTTGATGATATAGGGTTGAGTACAGTTAGACTTTATGTTGATAGTACAAAAATAGCTGAGTTTGGTCAAGAATCATTTCAAAATAATGGAAGAACTTTAACAAAAACAGCAACGTGGACAAAGGCATCAAAAGGAAAACACGTTATGAAACTTGAAGTTTATGATTTGCACAATAAAAAAAGTGAGTCAAGTATAAATATACAAACAAAAGATAATACAGCTCCAATAATAAGTGAAGTATATATTGAAACATTAGTTGGAGGAAATGATACTAAAAAAAGAGAAATTCACAGTCAACCAACATTTGGAGTAGCTTTTGGAGATAAAATTAGGTTTTATGCAAATGTTTCTGATGCCGAAAGTGATGTAAAGGAAGTTGAGTTTAAGGTTGATGGTCAAAATATTACTACTGTAAGAAGTACAATTAGACCAAATATATTTTATTCGGATGAGCTTTTTGATGCTGCTCCAACATTGGCATCTACTATTTTGAGTATTGATGTTTCTGCAACGAATACTGAAAATATCGGAACTACTATTACAGGGAATACATTAATTATTCAAGATAGCGTACAAGAAGTATATCAACCAAAGATAGATAGTTTAATAGTAAATCCTATATTAGCTAATTTGTATGATTCGGTAGAAAGTAGAGCAGAATTTGCTGATGATGGAAAATTAGATGAAGTAAAGCTTGAAATAAAAAAGATAAAATCAGATGGAAGTATAGTTTCAATAAGTGATGGAGTAAAACCATATACCTTAGATTATCCTCAAGGTAAAACGGCTACATTAAATGTTAAATGGACAGCAACTCCAGCAGGAACATATGTTGCCATTGCAACAGCAAAAAATTCTTTAGGAATAACGTCAACTAAAAATGCAACATTTACAGTTTCTGGTATTTCTTTAGATATAGTTAATCCTGCAGACGGAAAAGTTTTTAATTTAGATGATGAAAATACTCCTATAAATTATGAAGTTAAAACAATGATAGGGATACAAGGTACTGTAACGATAATCTTTGATTCTGATAAGGATGGAGATTTTTCTACAAATCCAGCAACTATGACACAAATTGCATTGTCTAATCCATCTTTAGAATTTTTAAGTGAATATAATACAACAGTCAATAAATATACAGGTCAACTATTAACAACTAACTCAGCAGTTTTCCCAGAACCTGGAAGATACAGGTTTAGAGTTGATGTTGAATCAACAGAAGACAAAACAATACACAGTTCTTCATATACTGATATTACACTTAGAGATATGAAATTACCTGTTTTGGAATATTTAAAGATAAAATCGGATGGGTTAACAGAAAACTTTCCAGATACACAAGAAGTTAGTTCAAATGGAGAAAAGTTCTATTCAGGGCTTGATTTTAGTGGAAATACAAATAATACAGATATAATTTTTAATTTAAGAGTGTCTGATGATGGAAGTATAAATAGTGTTGAACTTAAGTATGATAATGAAACAGTAGCTTTAAATAAAGTAGAATCTTTAGGAAGAGAAGATGAGTATCAAGGAGTTTTAGATAAAACAAAAGTAAAAAAAGGTAGCAAAGTAATAAATGTAACTATTATGGATTCTGCACAACCAAACTCAAATAAAGTTGATTACTCATTTAATATGGTTGGAATAGAACTCAACAAACCTACAATTGAAAGTTATGATATGGCATTGAGTGGTAACTCTACGTCATTAACTATTTCAAAAGATGATGGAGCTACACATGAAGTGCCTACGGGAGAAGGGTTCAATGTTACTTTTTCAAATACAAAACTTACAGATGATACTGCAGTTGGTAGATTTAAAATGATACTCGAAGATCAGTTTGGTAATCAAACTTTAATAAAACAATGGGATGCAGCTATTGATTATCCAGAAGTTACAGAACAAAATGCTAACACGGTTTTTGGTTCAGATTTAATAACCTCTTGGAATGTTCCAAGTGATCCAGGGAATTATACAATATTACTTGAAGTTGACGACAAGTGGTATGTGGAAACAGAAGGAACATCATTGAAATCATATACAGAAAAGTTGAATAGAAATGTTAATGACAGTAATAAAATACTTGAAAGAATACCAATAACAGTAATTGATTATACTCCTCCTGCAATAGAACTAGAAGTTGTTGGAGAAAATACACCTGATAATATAGAAATGATAAAAAATACATTTGCTGTATCTGCGAATATTCAAGATAAATATGATGAAATAAAAAGAGAAACTATAGTTGTGAAGCTGCAACTTGCAGATGGAACGGTAAAAACTTTTACTCCATCAACTAGTAAAGAAGGAGAAAAGTATATTACTGCAGCAATGACTTTAAATTCTTCTGATATAGATGGTCCAGGTAAACTTTGGATTGAATTTGATACATTAAAAACAAAGATGCATGTTGTATCAAAGAAAATACAAGTTATTGTAGATCAATTACCACCACAAATAAACGAAGTAACGGTTGAGCCAAGAGATTCTGGAAATCCATCATTGGGAACTATAATAGTTGCTCATGTTGGACCAGATACAGTAAAAGAATACGATATAAAAGAAGTAAAGATGGATCTATACAGTAATGGAAACTTGGTCAATAGTTTTACAGCTCAGCATGCAGGAGATGTATACTTTGCTGAAACAGGTGATTTAGCTTCTGGAGATTATACTGTTAAAGTTAAAGTAACTGATTATGCAGGAAATGTTGTCAACAGTACAGATAAAACAATAACTATTGAAAAAGAAGCACCAACATTGGGAAATAATTGGACTCATACAGGAAGGCAAGAAAATAAAATGGCCTATAAAGGAGCAGATATAAATAATTTTAGTTTTACTGCAAGTGATAATGATAAACTTTATCAAATAATAGCTGGTATTACAAAAAAAGGAGAAACTGATTATAAGTATTATTATCAAGTAAACCCTGATTCTAAAACAGCAAATATTCTTGAAAGTAATTTAAAGGAAAATGGAAGTTCTTATGATTTAAATTCTAATTTAACCGATGGAGATCATGTCAATATATTTATTACTCTTGTTGATAATAGTTCAAATGGAAAAACATATAAAGGTTATATCTATAAAGATGATACTGCGCCACAAGCACCAATTTTAACTAATCCAACAGCAGCTGAAATTATTTCAGAAAATAACGTTGGAGATGAAAAGATAGTAGTTGATGTAACTGATAATGTTGGAGTTAGAGAATGTCAAATAGTTAGTTTAAAAGATGCAGCAGATACAGTAAATATTGTTGAAAATGAACAGATGCAAGAAGGGACTGGCGCAACTGATTGGGTTTATACGCTTTCAAATTTACAAAGTGGATTAGAAGATATATTTAATTTAACTGTTCAAGCAACAGACCTTGCGGGTAATGCAGTAAATGGAGTTTTAAAATTAAAAATAGATACTAAAAGTCCAATTATAAATGACTTTAATATTGATGCAACGGTACCTAAATCGGATGATGTTTATTATGTAAATGCAGCAAATACTTCAAAGAATTTTAATTGGGATATAACAGAATCTAATTTAAATTCTGTGCAAATATTATCAGATGGAATTCCACATACTGTTCCTGCAAGCAATGTTGGAAATGAAGCAATATCTCAGTTAATTTCAGATATAAGATTATCTGAAGGAACTCATTCTATGAGAGTTAAAGCAATTGATAAATCCAGTCATGAATCTGATTCTAATACTGGAAAACTTACAATGGTTTATGATTTAACTGATCCATATCTTGCAGAAGTAAAGGCAATGAGGAGTTTAACTTCGACAGAAAGTACCGATATAATATCTGCAGATGAAGTTGGAAAAAGGATTTCACTTAGTGAAGATACAATAGCTTTAAAAATATTATTTACAGAAACAAACTTTAAATATTCAACCTCAAATGTTGTTATAAAATTTGGAGATGACGGTGCAACAGCGGATGCAACAAGCGATAAAATAAATTATTCTGAAGTATCAGATGGTGGATATAAGGCTATAGAAGTTTCGTCATTGGATTTGAGTGATGGAAATGATAAGCAATTAGATATAGAAATAACAGATTTAGCAGGAAATAAAGTTACAAAAACTTTGTATATAAAGAAATAATTAAATTGGAGTGTTTATGACACTCCAATTTTTAAATATTGATGTAATACATTTAGTAATATTTTTACAAATTAATAATAAATGTATGATATAATTTCTTTTATCAAGAGGTGAATTATGAAAAATGAAGAAAAATTCATCAATAAGTTGAAGAATAAAGATAAAATAGCATATAATGAATTATATGAAAAGTACACAAAAAAAATTTCTGGTGTACTTTCACATTATGTTAGGCAATCTGAAATGGATGATGCTGTTCAAGAAGTTTTTTTAAAAATTTTTAAAGGCATTCATAATTTCAAAGGTGAATCAAAGTTATCAACATGGATATATAGAATTTCTGTTAATGTTGGAAAAAATTATTTAAAAAAATATAAAAATGAAAAAATTCAATCTATGGATTTAGAAAATGATGAAAAAAACACTTATTTTTATCAACCAATATCTAAAATTAATGTTAGTGAAAGAATAATAAGTGAATTGAATTATGAATTGATTTTAAAAATAATTAATAAGTTAAAACCAGATGAAAAAACATTGATAATGTTGAGAGAAATAGAAAAAATTTCTTATAAAGATATAGCGCATATAATGAATATTCCTATTGGAACTGTAAAGAGTAGAATATTTTATACTAGAAAAAAATTAAAAAATTTATTAGAAAAAGAAAAGTATTGATAAAATAGAAATTATTAAGAGGTGAAAAAATGAGAGAAATAATGTCTGTTATCGAAGTAAAGGATAAATATGTTTATTTATTAACTCAAAGAGCAGGTGAATGTGATAGTTGTGAACTTCATGGTGCTTGTAGTATTACAGGAGGACCAGATCTTAAAATAAGAGCAAAAAGAAATGAAAATTTAGAATTAAAAGAAGGAGATACAGTTGTTGTGGAATTGCCTAAAGTTTCTATAACAAAAATGTCTTTTGTTGTTTATGGATTACCACTTATAGTATTTTTGTCATTTACCATACTCTTTTATCTTCTTGGATTTGGAGATGTAAAATCTTTTTTATTTGGTTTAACTTCTATGGCTATTACATATACTGGAATTGCAATATATGATAGAAAAAAATTAAAAGATTCTTATTTTCCAGAAATTATAGATAAAATAAATACACCAACTACTTTTAAAGTAATTAATCCGAACGTATAGTTCGGGTTTTTTTATGAAAAAATTTTCGTGAAAAATATTTCATAGGTTGAGAATGTGAGAGAATAAACTATTTAATTTAAGTTAATCAATTATAAGTATAATTATTTTAAAAAAATCAGACTTTATTTTTTATTTTTTTAGGACTACAATAATGGTGTAACAAAAATAAATCAATCACTTTCATTTTGGGAGGTAAAGCCATGAGCTTATACGAAAATGCTGTAAGACAATTTACAAAAGCATCAAAAATTATGAACTTAGAACCAGATCTAATCGATGTACTTTCAAAACCAAAAAGAGAATTAACAGTTAACTTTCCAGTAAGGATGGATGATGGTTCAATAAAAGTTTTTACTGGTCACAGAGTACAACACAATATTGCAAGAGGACCTGCAAAAGGTGGAATTAGATATCATCAAAATGTAACTCTTGATGAAGTTAAGGCACTTGCATTTTGGATGACATGGAAATGTGCTGTTGCAGATATTCCATATGGTGGAGGAAAAGGTGGAGTAACTGTTGATCCAAGAGAACTTTCAAATGGTGAACTTGAAAGATTATCAAGAAGATTCTTTTCTGAAATACAAATAATAGTTGGTGAAAATAAAGACGTTCCAGCTCCAGATGTTAATACAAATGGTCAAATAATGGCTTGGTTTATGGATACATATTCAATGAACAAAGGTGCAACAACATTAGGAATCGTTACAGGTAAACCACTTGAAGTTGGTGGATCACTTGGTAGACCAGAAGCTACTGGTAGAGGAGTTAGAATCTGTATTGAAGAAGGTGTTGAATACTTAAGAAAAGAAGGTAAAATCAACAAAGCAAATGGTGAATTAAAGGTTGCTATTCATGGATTTGGTAACGTTGGTTCTTATACAGCAGTTTTGACAGCTGAAGAACTTGGAATGAAGGTTGTAGCTGTTTCAGACGTAACAGGTGGCCTTTATAAAGAAGAAGGATTTACAGTAGAAGAATTGAAAGATCTTGTTGAAAAAACAACAGAAAGAAAAACAGGTTTAGCAGAAATTAATCCTGGATTTAAAACAATAACTAATGATGAAATATTTACTTTAGATGTAGATGTTTTAGTTCCTGGAGCAATTGAAAATGTTATAACAGAAAAGAATGCAAATGAAGTTAAAGCAACATTAATTGTTGAAGCAGCAAATGGTCCTATAACTCCAGAAGCTGATGAAATTCTTCAAAAGAAAGGTATCTTTATTGTTCCAGATTTCTTAGCAAATTCTGGTGGAGTTACAGTTTCTTACTTTGAATGGGTACAAGGATTACAATCATTCTTCTGGTCACTCGAAGATGTAAGAGACGCATTAAACAAAAAAATGAGAAATGCATTCCACAGTGTAATTGATACAATGAAAAAATATGACTTAGATATCGATATGAGATCAGCAGCTTATATAGTTGCAATTGAAAGAGTAGCAACAGCTACAAGATTAAGAGGTATCTATCCATAACAATAATTAACGGGCCCTTAGGCCCGTTTTTATATTTTAATTTCAATTGGAATTCCACCAAATTTTCCATTTTTCCATTTTATATATTTACCTTTTAAATCCGTTCTTTTGTATTTTCCAAAACTTTTTTTAAGTTTAAAAGTTTTATTGAAGTTCATATTTTTTAAGTTAAAATCAATTAATTTTGTATCTAAAATATGATAATCTTTTTTTGAAACACCATAAGCGTCTAAAGATAAAAAATTAGCAAGTTTTAATGATGTGTTTAAAAATTCTTCTTTTATTATTTCGAAATCAAACCCAAAAGTATCAATACCCAAAATTTGAAAATCATATTTTTTCTTGTATTCTTGTAACTTTATTATTCTTTCAAAAATCATTTCTTCTGTTTGATATAAAGTAACTTCACCATTTGCATAAAATGAAAAAGATTCTAATAAATAATAATCACTTTTCCAAGTAGACGTTTTTAAATTTTTAAATACATCATCTGGATTCCAAACATTCATTATTACTGATAACTTATTTTCATGAACTAAATCTATTATTTGTTTTCTTCTATCATCATCATTTCCATAATCATTTCCAAATTCATCTAAAAATATTCCATAAACTCCCATTTCTTTCCAAAGATTTATTAACTTATTTATTTCTTTTAAAGTCCAATGAGAATCAAAATCTCTATTCCCACATGCAATATATCCAAAACTTTCATTTTTTAAATTTTTAATAATTGTTTTAGATTTTTCATGATCTTCATGTGATTCAAATTCAATACTTTTAAAAGATCTTTTTGATCCTGGAAATACTATTAAATCATAATTTTTAAAAGAATTTATAGCTTTATTAATATCATAATATTCATTGATACAAGAAGGGTATCCATAGTATATTAATGCTTTTTTCATAAAAATAATCTCCTTCCTATTATTTTAATACTATACTTTTACCTTGATAGCATTGTATAATATAATTATAACACTATTTTAAAGGAGTAAAAAATGAAAAAATATAATAAACTCATGGCATTTTTTATAAAATCAAGACATATATTTAGAGAAATAATAGTCTTTGTTTTATTTATTTTAAGTATTTTTAATGGATGGATAGTAATTTTTTATAGTTTTATAATATTTAGTTTTATATATATTATAAATATTCTAAAAAGAAAATTACCACTTGATGTTGAATATAAAGGAGAAAAAAAAACATATACTTATAAAGAAAACTTAAAATTAGATATATGGTATCCAGAAAATATTAATGAAATACATCCTGTAATTTTGTTTTCTCATGGTGGAGGATGGATTTCGGGATTTAGAAATCAACCCAATAATGTTTCTTGGTGTAAATATCTTGCATCAAATGGTTTTGCAGTTGTTTCAATAGATTATAGATTTGGTTTTAAAAACTCTATGAAAGAAATATTAAAAGATTATACGGACTCTTTAGAATTTTTAAAAACTAATGCTAATAAACTTAAATTAGATAAAAGAAATATAGTTTTAATGGGTCTTTCTGCAGGAGGACATCTTGCTATGCTATATGCTGCACATAATTCTTATATAAAAGATAAAGAAAAAATGGCAGGTATTAAAGGTGTTGTTTCTTATTATACTCCAGCAGATTTAAATGATTTATTTGAAAAAAATGTTAAATCTTTATTTTCAAAATTTGCAGTAACGACTACATTAAAAGGTTCTCCTCAAAAGATAAAAGGAGAATATATATATTATTCACCAATATCATGGATAAATTGTAATATGGTACCTGTTTTGCTTGTACATGGAAAAGAAGATGATGTAGTTCCATTTGAAAGTATGTTGAAAGTTGTAAAAAAATTAAAAGAAAAAAATATAAAACATGAAGTTTTAGTACATAAAAATGGGGGTCATACATTTGAATTTTATATGAATGACTATCATACAGTTAAAATAGTAAAAAAAACTGTAGCATTTATAAGGGCGTGTTTTAAAGATGAAAATTGATTTTAATTATGAAAAACAAAAAATAAAATATATATCTGGATATATATTTAAAGGAAGACATTATAGATGTGATTATATAAGATTTCCAACATTGTATAGAAATCCTGCAATTGGTACGGAAACAGTAGAAATTTATAATTATAAACCAAAAGAAAAAAGTTCAGCATCTGTTTTAATACTTCATGGGCTTGGAAGTGCCAATATAAAATTTTTATTATGGATGGGAAGTCATTTGGCTTCTGTAGATATAAATGCTACAATATTAATACTCCCTGGAAATTATACAAGAGTAGATAATAAATCTGTTAGTGGGAGAAATTATCTTTGGCCACAAATGAATGTTATGAAGCAATTTTGGGAAAACTCAGTGGTTGATGTTATGTCTACCATAGATTTTCTTGAACAAGAAAATCTATGGAAAAAGGATAATAATTGTGTATTGGGTTATTGCCTTGGAGGTATGGTTTCTACAATAACTTCAGCATTTGATAAAAGAATAAAAGATTTAATTTTAATGACTGTAGGTGGACACTTACCAAGTATAATGTATGATTCACCAGCTACTAAATTTATAAGAAGATTAATAAAAAAGGGGTTTAAATCAGATTATAATTTGAGTGAACCGGAAAAAATGTTTGATATATACGAAAAACAATTTCAAATAGTAAAATATATGACAGCTAATGAAATAATAACTTCAAACGAGATACATCCACTATTTAAGATAGATCCATTATCTTATGCACATTTATTAGATGCAAATAGAGTTACTTTTATAGAAGCAATATTTGATAGAACATTATCAAGGAAAAGTAGAAAAAAATTATTAAAAGAATTTAAAAAGAGTAATCATTATTTAATTCCAATTGGACATGTTTCGTGGCTTCCATTTCAATATATGTTAGCTCAATACATAATGAATAAATTAAATATAAAAGATTTAAAATTAAAAGCAAGACTTCTTGAAAAACAAAAAATAGACGAAGAATTTTAAGGTGGTGAAGTTATGGATTTTAACTTTAATGAAGTTAATGGAAGAGTTCAAGTGAAAATTATTGGAGATATGGATGTAATGGGCGCTACAATGAATAAAAATCTTTTTTTTGAAAAATTAAAGCAATATGAAGGAAAAGAATTTGATATTGATATGTCTAAAGTAAATTACATAGATAGTACTGGTATAGGCTTTTTAATTTCTGTTTATAGAGAAGCTAAAAAACTTAAATCTACATTAATATTTTCTAATTTTAATGAAAATGTATTTAAAGTTTTGAAAATGACTAATTTAGATAAAGCATTACCAATAAAATATTGAAATATATTTAAATAAAAAAAATAATTGCTAAAAGCAATTATTTTTTTTATTTTTTTAATTAATCGCATGATTAATTAATTTTTTTAATCTTTTTTTAACATAATTAGAGTATAATTTTTCATGATAAAAAAACTTTAGGAGGGAATATCTTTGAAAAAACTATTAATTTTTTTATTTTTGACAGTATCTTTTTTATCTTTTTCAGTTGGAATAAGACCTATGTTATTTGAAGTTAATGCAAAACCAGGAGATACAATTAATGAAGAGATATTTTTAGATCCAGAAATGATCGATAAAAATGTAAATGTTGAATTATATCAATTTATTCAAAATGAAAATGGAGAATTTTCTTTTTTAAAAGCGGATAAAGATGTTTTTCCAGAAATTAATTGGATAAACTATGAAAATAAAATTTTAGTACCAGCTGGGAAAAATACAATATCTAATGTGAAAATAAAGGTACCTTTAAATGCAAAACCAGGAACTTATAACTTTATATTAATGATGACACCAGAAACGGTTAAAGCTAAAACTGGTATATCAATAGTTATGAGGTATGCAGTTAGAATTTCATTGAATGTTAGTGGTATTAGTAGAAAAAAAGTGGAATTAAAAAATATAAATATAATTCCAGATCAAGATAAAAAACCAACTATAGTAGCAACTGTATTGAATTCATCTGACTTTGATTTAAAAACATCTGTTAATGCAATAATAAGAAATATAAAAGGTAAAATTATAGAAAAAATACCTTTAAAAACAGCTTATATGATGAAAAATTCTAAAAATGAACAAAAAATATTATCTAAAAATGAAGTTCAGTTTTATGGAACTTCAAAGTATTTGGTTTCTGCCGGTGAGTATAGAGTAGATGTTTTTTTAAACTATGATGATAATCAAAAAATTTATACTTCGAAAATAAAAATACCTAAAAATGTATTTTCTTTTGCATCTGGAAAAGAACTTGCATTAAAATTAAATCCAAATTTTTTATCTTATAAACTGTATCCGGGAGCAGCAAAAACTTCAGCAATAAGATTAGAAAATTTTAGTGACTTTAATACAAAGGTAAAAGTTGGGGGAGCAGAATTTCCTATTTCAAAGGATAAATCAATGTTAAAATGGATAAGTTTAAAAACAAAAAATCCAATTATATTAAATGCTGGAAGACATACCAATTTAATAACAACTATTAGAGTTCCAAAAAATGTAGAAGACGGAGCTTATTATGGAAAATTATTGTTGAATTCATATACTAAGGACTCAACATTCTTAACTCAAGAAATAGTAAATTGTGAAGTTTTAATAGGAAATACAACTACAAATGCTACGGTTTTGAATTATAATTATAAGGAAATGAATGATTCTGGATCTTTTTCCATTAAAATAAAGAATACTGGAGATAGATATATATTACCAAAAGCAACTTTGAATATTTCTAATGAAAAAAGAGAATCTATAGGAAATTTTGGTTTATCTTCAACAAGTGAAAGTAGATGGTTAATGAATGGAGAATCGACAATATTGTTTGGAGATACAGTTAAACTTGAAAAGGGAAAGTATTATTTTTCTATAAATATTTATAATAGTGATGAAATTTTGACAAAGTATTCTGGAATATTGGATATAGGTGAAAAACAATGAAAAAAATACTGAGTTTACTTGTATTAATTGTAGGTACAATTATATTTTCAGAGCCATTAATAACCGCTACTTTTTATAATTCGCAATTAACTGAAGCTTTGAATGAAGTTGCAATGCAAGCAGAAGTTACTATTTTAACAGATGAATATGTAAATGGAATTATTAGTGCTGATTTTACAGATACACCTGTTGCATCTGTTTTAACAACTCTGTTAATGCCTGGTGGATTTTCTTTTAAAAAAATAAACGATAAAACTTATTTTGTTGGACTTGCTGATCCTAGAAGTAAAACTTTTTCTTATTTAGCAGAAAAAAAATTTATAAAATTAAATTATATATCTCCAGAAGACTTTATAAAGTTAGTACCAGATTCGTTTTTAAGTTATATAAAAATAAATTATATAGATAATGGTTTGATCTTTTATGCTCCAGAAGAAAAAATAAAGTATTTAACAGAAATAATAAAAGAAGTAGACAAACCACAAACTGATATAAAATTGAATATCTATGTTTTAGAAGTGGATAAACAATATTCAAGTTTATTATCTGGAAATTTAAGTACAATTAATCAAAATTTAGGTGATTCCTTTTCTTATACTAATCAAACAGTATCTTTTTCTGTAAATAACTTATTTCAAGCACAATTAAAAATGTTCGAAAGTGAAAATTTAGCAAATTTAGTATCAAATCAAAGCGTTTACATAAAACCAGGAAAAACTTTGAATATAAACATTCTAAATAATAAAAATATAGTAATGAATATTGATGGAAAAGATTCAATAAAAACTGTTAACAATGGAATATCAATTTCAATACTTCCAACGTATTATAATAAAAAAATAGATTTAGAAATAAGTTCTGAAATTTCAAAACTTTTAGGAGTATCAGGAAATAGTTATGATACAACAAAATCAATTTTACAAACTAAAGTTTCGTTGAATCCAAATGAAATGATTATGATAGCAAATCTTGATATGAATCAATTTTCAGATACAAAAAGTGGATTTCCTTTATTAAGAGAAATACCAATATTAAGATTTTTATTTTCAAATAACTTAAATAGTGAAGGGAATAAAAGATTGATGATATTTGTAAATGCTGTTGGGGGTGAAATTAAATGAAAAAACTTTTTATTTTGATATTTTTAAGTATTATTTCACTTCAAGTATTTGCAAATATATATTCTTATTCAATTTTTATAAAGAGAGAAAATAAAGAAATAACATTATTCAATATATCGGTAATTGAAGGCTATACATTTAAGTACAGCACAAATGGAATAATAGAGTCAGACTTTGAAATAACTCCAGTTAATACAACGAAAAAAGTTGTAACGAGTAAAATAAAAATTAATTCAAAAACTTTTTTGTTTGAAAATACAGTTAACTCTAAATTAGGAGAAAAAAAATATTTATTAAAAGCAAAAGACTTAAATAATGAAAAATTTGAAATATACCTCATTGTAAATGGAATAAAAAATATAAATTTTGAAACAAAAAAAGAAAAAAACTTCAATTCAATAAAGTATAAAAGTATAAATAATGAAGTTGTATTTAGTACAAAGTTAGGAAAGTTATATTTAAATTATTCTACTTTAAAAACAATAAGTATTGGATTTTATTATAAAAATTCATTATTAAAAATAAGTTCAAATGGCACAGAAATTAAAGCTTCAATAGTAGATAATACAAACATTGATAACTTAAAATTAAATGCAGAATTTTATCCTATAATCTATAAAGATAAAAAAATAATGTTTGCACCAGAATTTAATTCAAAAATAAATTATTTAATATATGATTTTCTTGGAATAGAAACAAATATAAGTATGGTTGATTATAATTTTACTTTTAGTAGTGGACTATTTTTAAACTTTAATTTTAATGATATTAAAGTAAGTTCGGATTTGTTTTACAATATTTTAGAAAACAAGTATTCTTTTGAAGCTAAACTTGAATATATTTATTAACGTCATGGGGGGCATTGAAGTGATTTATGCTAATTTATTTGGTGTTTTTACTATAAAAAAAAATGAAAAATTAATAAAAAATTTTGGGTCCAGAAAAGCACAAGAATTGTTAAAATACTTGATATTAAATAAAAATAAAAAAATATCTACCTTTGATATTTACAATATATTTTGGGAAAATTTTGATGAAGATTCTGCTAAAGCAAACTTAAATTCAACCTTATATCTTATAAGAAAAAAACTTGGAATAACTAAAGAAGAATTGTATACTCATTATAATTATTGTACTTTTTCTCCAAAAAGTTTTAATACGGATATGAATGATATGTTGATGTTCTATGAAAAAGCACAAGGTGAAGAAGATGTAGAAATGAAAATTGAATTGTTAAAAAAAGCTGTTAATTTATATAAAGATGAACTGTTGAGTGAGAATATATATGATATGTGGGTTGAATACAAAAGGCAGTATATAAAAAAAATTTATGTAGATATATTATCAGAATTAGCAGATTTATTTGAAGAAAAAAATGATTTAACAAGGGCTTTAAAATATTTGCAAAAAGGGTTTGAATATGATAAAAACAGAGATGATATCTGGTTAAAACAAATAGCATTAAATATTAAAGCAGAAAATTATATAGCTTCTCAAAAACTTTATAATGATTATAAAGAACTCTTTGGAAATTCAGAATTGAGTTTTATAGGAAATATAAAAGATATGTATACAAATAAAAAAGAAAATAATGTACAGGTTTTACAAGGAGCAACAATTTTATGTGAAGAAGATTTTGAATTGTTGATTGCTCTCGAAAAAAATAAAAGAGAAAAAGATTTTTTTGTATTAGAATTATCTTTTAATAAAAGGAGTTCATTTGATAATTCACTAAATATATTAACTAAAAAAATAAGAAAAGTAGATGTCATAATGACTAAAAAAGATAAAATATATATAATGTTTAGAGAAATAAAAAACAAAGAATTAGCTAAAGATAGCATAAAAGAAAAAATAAAAAGTTTTTTAAAGAATGAAAATTATCAATTAATTGAAGTAGAAGATTAATAAATATAAAAAAGTAGCTTAGCTACTTTTTTATATTTATATGGAGATACTTTTATTTGAATTTTATTATAATATATGATAAAATATAGAAATAGTATAAAAATAAAAGAGGAGGTCGATTATGGGAATTGTTTATCAGTTGTCTGGAGTTATTGCCGGTGTTATAGGTATGATATTTACTGTGTTTTTGACTTTTAAAGTTTTAGAAAAAGAACCAGGAAATGAAAAAATGATTGAAATATCAAAAGCAATACAGGTCGGGGCAAAAGCATTTTTAATTTCAGAGTACAAGATACTTTATATGATAGTTGGATTATTTGCGCTATTTCTTGGTATTGCTAACTCTTGGGGAATGGCTATAGCATTTGTTTTTGGTGCAACTATGTCAGTTTTGGCAGGATTTTTTGGTATGACAATTGCAACAAGAGCAAATACTAGAACCACACATGCTGCTATTTCTTCACTCGGAAGTGCTTTAAAAGTAGCATTTAATGGTGGAGCTGTTATGGGAATGACAGTTTCTTCACTTGGAGTTTTTGGACTTGGATTAGTTTTTTTTATTTCTGGTGAAGATACATTAATTATGAGTGGTTATGCAATGGGTGCTTCATTTGTTGCACTTTTTGCAAGAGTTGGTGGAGGTATTTTTACAAAAGCTGCTGATGTTGGAGCAGATTTAGTTGGAAAAACAGAAGCAGGTATTCCAGAAGATGATCCAAGAAATCCTGCCGTAATTGCTGATAATGTTGGAGATAACGTTGGAGACGTTGCAGGTATGGGTGCAGATTTATTTGAATCTTATGTAGGTTCTATTTTTTCAGCATCAGCTTTAGGAGCATTGGCTTTTTCTGTTAAAGGAGCTATATTTCCATTTTTAGTTGTATCATTTGGGCTTATATCAGCAATAATTGGAATAATAATAGTTAATTTAACGGTTAAATCAAAAGAAGGTATTGATCCATCTAAGATGCTTCATTTTGGAACTTATATTGCAAATATAATAGAATTAATAAGTGTTTTTATACTTTCAAAGTACATTTTTGGTGATTTTAATAGTGGTGTAGTCATACTGCTTGGAATGATAGTTGGAATTCTAATAGGAAGCATAACAGAATATTATACTGCAAAAAATCCTATAAAAAAATTAGCACATACAGCAACATCTGGAGCTGCACCAATTTTAATAAATGGAATGGCAATTGGTATGGAATCAACTGCTATACCAGTTTTATTAATTGCTGCTGCTACTATTGTGTCTTATAAATTAATGGGCCTTTTTGGTATAGCACTTTCTGGAGTTGGAATGTTATCTACACTTGGAATAACTCTTGCAATAGATGCTTATGGACCAATTGCAGATAATGCTGGTGGAATTGCAGAAATGGCTCACTTAGATCCAGAAGTTAGAGAAAGAACTGATTTACTTGATTCAGTTGGTAACACAACAGCTGCAATAGGTAAAGGATTTGCAATTGGATCAGCGGCTTTAACAGCTCTTGCTCTTTTTGCTTCTTATATAAATGTAACTGGAATAAAATCAGTTAATTTAACTGATTCAACTGTATTCATAGGAGCTTTAATAGGGGCAATGCTTCCATTCTTATTTTCTGCTTTTGCAATGCAAGCTGTTGGAGATTCAGCAGATATAATGGTTCAAGAAGTTAGAAGACAATTTAAAGAAATTCCAGGTTTAATGGAAGGAAAGAATAAGCCAGATTATGAAAAGTGTGTTTCTATTGCAACTAAAGGTGCGTTGAAAAAGATGATACTTCCATCATTACTTGCTGTTTTATCTCCAATATTAATTTACTTTGTGTTAGGGAAAACAGCAGTGGCAGGAGTATTAGCGGGAACTACAGTAGCAGGAGTTATGCTTGCTATATTTATGTCTAATTCTGGTGGTGCTTGGGATAATGCAAAAAAATATATAGAAGCAAATAATTTTGGTGGAAAAGGATCTATGGCTCATAAAGCATCTGTTATAGGAGATACTGTTGGAGATCCTTTTAAAGATACAGCAGGGCCAGCTATAAACATTTTAATAAAATTAATGTCAATAGTATCAATTGTAATAATACCAATATTAATAAAGTTTTTTGAATAAAAAATGAGAATCACATTGTGATTCTCATTTTTTATTTTTAAGTTAATCAGCAGTTACAGTTAAAGTTACTGTTCCTGCAGCATAAGCTTCTGATGAAGCTTCTACATATGTCCAAACATCACTTTTACCAGATAATGTTTCAGCATCAGTTTCCATTTTTGAATAATCAACAGCAAATGTTACTGTATGATTATTAACTCCAGCATTTCCTGTATTGTTATCAAGAGTTATTGTATAATAATCAGTAATATTTATTTCAGATGGAGGAGTAGCACCAGCTGGTAAGTTATATTCTGCTGTGATTGAATAATTGTAATTTGATTTAACTGTAAAATCAACAGAATCACTTGATACATCACTTGTATGTTCAGGATCATAAGTTAAATCAAAAGAGGCATCTGTTGGAAGTTCAAGAACAACATGTTTTAAAACAGTAACATTAACTGGGATGTTGCTTGATACAGTTGTTTGATTTGCAAAACTAATAACAATTAATAAAGATAAAACAAGTACTAAACCAATAAACTTTTTCATGAAAATTCCCTCCTTTTTGTGGTTTTTTTATTTAAATACATGTTTTTATCAGCTTCTTCAAAGTATTCTTCTAATGTATCCTTTGTTCCATTTATTTTAGAACATCCATAAGAAAATTCAATAACTCCTTTTAGCTTTTTATTAATTCTATTTATATACTTTATTTCTTTTCCAGAGTATTGACCAAACATTAAAATTCCAAATTCATCTCCTCCAAGTCTACAAATAATGTCATTATTTCTAAAACTTGAAATAAGTGCTTCTGAAAATTTTTTTAAAATAATATCGCCAAAAATATGCCCATTTTTATCATTGAAATTTTTAAAATCATTTATATCAATTATCATTAATAAAGCATCTTTTTTATTTGAAATTACGTTTTGTACTTCTTTAAATAATTTTTCTTTTCTATAAAGAGTTGTCAATGCATCTCTCTTTACCTTGAAATTTATATTTAAAGTATTTTCTATTTCTTTTAATATTGTAGAATTTGTTTTTATGATGGAATCAAATTCAAAGTAAACTTTATAATTTTCATTTAATTCAATTAAATATTTTATTTTAGATGAAAAAGATGATTTTGTAGAGTAAAAGAATATCTTTTTATTAAAGTTATATACAGTAATACTTACATTAGAATCAAATATTTTTTTCAATTCATTTGAATAATTAATTAATAAATCAGATTCTTCAAATTTAAAATTATTATTTGTAGTTACATTGGACTTTAAGTAATCAAATATTTTTTGAGGATATATATCCACTATATACTTTTTGTTTTTATAAGATGAAATACGTATTTTATAATAATAATCATAATTAAAATAATCAAATTCTTTTTTGTCTAATTGATTTTCAAAATTGAATATATTTTTATTAATACCAATTAAATCAAAAATTTTTGAATTTATTAGTTTTTTTCCAAAATGAGTAAGAGCTTGTAAGTTGTAGTTTATTATATTTTTCTTTTCGTCTAAAACTATAATTATATTTTCTATATTGTCTAAAATAAATTGAGAAAAGTTTAATGTTTCTTTGTAGTTTTTATTTAAATTGACTCTTTTTAATGATAAGTAAAAAATATCAGAAAAAACTTTTAAAAAAGAATAATCGACAAAGTCTCCAGTATCTAAATATCCATAAAACTCATTTGAATTTCCTATTTTTATTTCAGTTTCATTGTTAGTAAGTTTAAAGTTTGTTCCAAGATTTGTATTTATAAAAAATAATGTTTTTTTTATATATTTTTCAATATTTGTTTCTTCATAACTATTATTAATGACAAAAAATAAAATAGAAACATAATAATCTTTTATACCAGAATTATAGTATTTAAGAAAAAAGGTATTAATTTGTTTTTGTATTTCAGAACTGATTATATTGTACATTACAGAAACTTCTCTTTTCATTAACATCAACCTCGGTAAAAAACGGGCTTATGCCCGTTTTAATTAATTTACTGCATTAACAATTACTTCTATATGACCTATAGTTACTGTCCCAGCTTTTATTTTGTACCAATTATCATCTGTGAATTTTAAGTTCATACTGTATTGAATATTAAATCCAGATGTTCCATCATAATCATGAGTTATAGTTGTATATACTTTTGGATCTTCATTAGCGCTTATAGCAAGTGGATAAGAACCAACTTCATCTGAATCTTCTATAACAGATATACCACCTGTTATTGTTTCTGGATTTACTACTCCAGTTGCAGGATTATAAAAACTTGGATCCATAGCTTCTGGATTAACAACAAATGATGATTTTATTTCAATATTTGTGTTTGTTTTTATTTCAGCATTAACACCAGTTGCATAGTACCTTACAGCTCTCAATGAAGGATCAATTTCATTTACCTTTTCATTTACACCATTTATTTTTTTCCATGAGTCGAGAAGTTGATCTGATGGATTGAAAGACATTGTGACATGAGGTAAGACAGTAACATTAACATTAATACTTCCATTATCTTCAGGTTTATTTGCAAAGGATATAGTTAATAAACTCAAAATTAGAATAATGAATAGTAATTTTTTCATTTACTCACCTTCTTTTAAAAATGGGGCTTTAAAAGCCCCGATTTTTTATTTTTGATTATTGTTGAGAAACTGTGTATACTATTGTACCAGTATAATCAGCAGCATTATCTAACCAGAAATTATCACCATTATTAGCAAATGTTACTGAATAATCCCATGTGTCATTACCTGTTTGATTAGCATAAACATTCTCATCAACAAGAGCTAATTTTTCATTGCTGTCACTATTAAAATCAATATCAACCTTATAAGCGAAATTAGCTTTAACTTCTAAAGAAAATGATGTGTCTCCTAAAGTTTTATTTTCTGGATCGTAATTTACATTAATAGCTTCTACTGAAGGAGTTACAACAACGTGTGGTAAAACAGTAACCTTAACAGGGATATTTCCAGTTGCAGTTGATTGTGCAGCAAATCCCATAGCAACAACCATAACTAAAGCAAGTACTAAAACGATAAGTTTTTTCATAAAATCTACCTCCCAATTTTTTTTTGGCTTTTGCCAAATTTGATTTTACAAGTATATTTTACACATTGAAAATAAAAAAATACTAAAATTTTACTCAAAAAACAATCAAAAAATACTCAAAGTTTGCTAAAAATTTTTAAATTGAGTAATATTAATATGATATAATACTATATATAGGTATAAGGAGGGAGATTATTTGAACTTATTACAACCATCTATTGGATATATAACTGCACTTGGTGGTGGAATTCTTTCTTTTTTTAGTCCGTGTGTTTTACCATTAATACCAATTATTTTTGCTATTTTGATTCCTGATATTAATAAAACCTCTATTGTAATAAAAAGGGGAATAGGATTTTTTTTGGGGCTTTCGATTTTTTTTACTATACTTGGGGTTATTTCAGGAAGTATAGGCTTTTTGTTTTATTCTTATAAATGGGTTTTAAATATAATAGCTGGAAGTATAACGATATTTTTTGGAATTGTGTTTTTATTGGATAAGCAAGTATTTAAAGGAAGTAAGGTGAATTTAAATAAATTTAAAGACTCATCATTTATATCTTCTTTTTTTATGGGATTTGCTGTATCTATTGTTTGGATTCCGTGTTCTGGACCAATTTTAGGAGGAATTTTAAGTATGGCTGCTACTAATACCAATATTATTAAAGCAGCAGTATTATTGTTTGTTTATTCTCTTGGAATATCAATTCCCTTTTTGTTTTTTAGTGGAGTTATAAGTAAAATAGTTTCAAAGGTGAGTTTGGGAGAACCTAAATGGCAAAGATATTTGAAGTATATTGGTGGCATTTTATTGATTTTAATAGGAGTTTTTATTTTATTTGGATTGTTCAATAAAATTTTTTAAAATTTTAGGAGGAAAGATAAATGAAAAAATTATTAAATTTTAAATTTTCAATTTTTGTTATGCTAATTATTTCTATTAGTATTTTTTCTGTTCCATTAAACAATTTTGTTTTAAGAAACTTCAATGATGCATTTACAGTTTCCAAAATAACAGGAAAGAAAGTCATTATAATGTTTTCTTCAGAAGAATGTTATTATTGTAAGAAGTTTGAAGAAGAAATATTAACCAATAAAGATGTTCAAAAATGGTTGAGAACAGAATTTGTATTTGCAGAAATAACTGCTAAAAATGATGGAACGGCTGATTTTAGAAATAAAAAGTATACATATCCACAACTTTTTGGAGCATTTGGAGTTAGAGGAACTCCAACCTTTGTTTTTTTTGAGGATGAAGATAATTTTTTGGGTTCTATACCAGGATATGTTGAAGCTAATACATTTGAAAATTTGTTGAAATATCTTTTGTTTAAAGATAATACAAAGGTTCAATTTCAAGACTTCATAAAAAAAGATTATGGAATAAATATAAGAAAAAGAAGTTTAAATTTAAATAAGAAAGATATAGAAACTTTATTAAAAATAGATCCAAATACTAAAATATATAATAAATCTTATGATGATTATACAAATGTTGTTGTAGACAATGAAAATAATAATTATAAAAATTTTATTATTATAAAAGAAAAAAGTAAAAAATAAATAATATTTTAAAATGTTATCTTGTATTAAGATAACATTTTTTTATATAAAAAAATAACACTTTTCTTATTTATTTTATAAACTAATTGTAATAATATATACTGATTTTGTATAAAAAGAAATGTATCATTATTATATACAATAAGAGAGGTGGTTCAAAATGAAAGACATATTTAGTTTTTCTAATCCAAAACTTTCTTCGCAATACGAATTTATAAAAATTATAAAACATAGTAATGATTATAAAGAAGTAAAAGAAATAGCTAAGTTAAGACGCGGTAATGTAAAAGAAAATACAAGTAATAAAGTAAAGTAGTTGATGTTATGTTAGAAAATGTAATAACTATGTCTAATTTTAATCTTTTTATAAATGAAGAAAAAATTTTAAATGATATAAATCTTGAAATTTTTTCTGGTGAAACTATTTTATTATATGGACCTAGAAATTCTGGTAAATCAGCATTATTGAGGTCTTTTGTTCATTTGAACGAAGAATTATTTAATAAAGTTGTAGGTGTTGGAGAGATAAGATTTGAGGATAAAGATGTAAGAACAATAGATAAAAAGTTGCTACGTTCTTTGATAATTTATTCAGATACTTCATTTGTTGAAAATCTTAATTTTTTAACTTTACATGAAATATTACAACTTTCAATAGGCTTGAAAATAAATGAAATAACAACTGAACATTTTGATATGCTTGAAAAGTTGAATATTGCACATTATTTTTCTGATTTAGATATGCTAAAAAAGTATGATAATCTTTCAAGTTGGTCAATGGCTGAAAAAATTTCTTTAATTACATTTATTTCTCTTGCAAGGAATCCAAGTGTTTTTATGTTTGATTGTATTTTAGATCATCTTGATGATTTTGTTTTAAAAGATGTTAAAAATCTTTTATTAAAAATAAAGGAAGAAAGAACTTTAATAATTTCTACACGTAACTTTTCATTGTTTTCTGATATATGTGATAAGGTTATCCTTTTAGATAAAGGAAGTATAAAGTTTCATGGTTCAAAAGATAATTTTATGATTAATTTTCCCGAATGAATATTCGGGATTTTTATTTTATATTTATATATGTTATAATTATATTGATATTATATTAAAAGGGAGGTGTTTTTATGAAAAAGGTATTGTTTCTTATTTTAGGATTATTGATTTTTGTTTCAATGTTTTCAAGGACAGTTACTTTTGCAGCTATAGATTGGCCACCTTTTACTGGTCCAACATTGGATAATTATGGATTTCATTCAGAAATTTCAATTGCTGCAATGAAAAAAATGGGATATGAGGTAAAAATAGAGTTTGTTCCATGGCAAAGAGCTTTAAATATGGTTCGTTCTGGAAAATATGATGGATTATTTACAATATACTATTCAGATGAAAGAGCACAGTATTATGCCTTTACAGATGTGGTTTCTACTTCAAACTTAGTTTTTTTTAAGAAAAAGGGAAAAGATATACCAAACAACTATAAAACATTTGAAGACCTAAAAAAATATACGTTTGGTGTTGTAAGAGGTTATAAAAACACTGATGAATTTGATAAAGCAGATTATTTAATGAAAGAAAATGCCAATAATTCTGAAGAAAACTTAAAAAAATTAATTTTTGGAAGAATAGATATTCTTGTTGATTCTAAAGAAACAATATTAGACCTTTTAAATAAAAAATATCAAGATTTTGTTGGAACATTAGATATAATAAATCCACCATTACAGACATTTAATGTATATAATGCATTTTCAAAGGCTATTCCAGACTATAAAAAGTTAGTTGAAGATTTTAATAAAGGACTTCAAATGATTAAAAAAGATGGAACTTATGATAAAATTTTAAAAAAACATGGTATGAAATAAAAATAATCCGGCTTAGCCGGATTATTTTTTTAGATCTTCAAAAGTTATATCTATTATAGTTAAAGCACTAAACTTTAAATCTATATCTGAAATGCTGTTTGCAACATCAACAGCTTTAGAATAAATTTTTTCTGTATCTTTTATACTGTTTGTTGAAGCTATTTTATCTATTATTGTATTAATACTATTAAATTTCATTTCACTGTTTCTTATTTTATAAGATACATCAAAGGCTTTTATGAAAAAGCTATCTGAATTTTTAATTTTATCGGTTATCATATACTTATTAATTATTTTTTCTAACATAGCAGTTTTTTGTTCTTCTTTTTCTAAAGTATTTGTTATAGACAGTGCTTTTGTAAAAAAGTCATTTATTTTATCAAACTTCTTTAATTTTAAGTAGTTATCTATTGTTTTATTTAATATGTCATATTTAGATTTTAATGGTGAAATTGTATCTAATATTATTGAAAATATTAAGTCTGAATCTTTGTATATACCTGTAATCATATATTTATTCATAAATGAGTTTAAAGCTAATGGTTTGAATTCATCGGAAATTTTATTTTCTATAAATGATAATGTTTTTAAAAGAATGCTTGAATATTCTTTGTATTGATCATTGACATTTACTGAAAGATAGAAATTTTCTATAATGTTATTTAAAGATTCAAACTTAACTTTTTCATCATTCATTTTATTTATAATTTCAATTGCACCATTTAAATTTCCTAATTTTACATAGTTTTGAGATATATTTTGAAGTGCCATAGATTTAAAATAGCTATTTCTTATTAAATTTGCAATGTTTAACGAGGCTGAAAAAACCAAATTTGCATCTTTTTTATTTCCAACACTAACATATTTATTGTTTATTCCAGAAAGAGATTTATATTTTATTTCTTCATCCTTTATATTTCCAGTAATTTCAATAGCTTTAATAAAGATATATTTTGAATCTTTATTAGTATTTATAGTCAAATATTTATCTAAAATAAAATTTAATGTATTTATTTTATTGTTTATTTTTAGTATTTCATTTGTTATTTCAAGGCTTTTTACAAAAATATCTTTCGTATTTTCAAAGTACCCTGTTTTTTGATATTTATTTAATATCATTATTATAAAGTCGGATTTGTCTGAATCAAATTTTATATTTTTTGCAATATTTAAAGCTTTTGAAAAAAACAAACTGTTATTAGTAAAGTTTCCTATTTTTATGTATCTATCTATTAATGTATTTAAAGCTTTAAACTTATATTCACTGTATTCTATATTTTCAATTGTATTCAATGATTTAAGTATAACATCGTCAGAATTTTTGAAATCCTTTATATTCATGTATAATTGCATAACTTTTTCATGTGTAAAGTATTTTTCTTCGCTATATTTTATTGTTTTTACAACATCTAAAGCTTTTGAAAATATTTCAGAGTTTATTTTTAAATTATTTGTTTTTATATAATTATTCAGAAGAAATAAAATATTTTCAGATTTTTTTTCGATTCCATTTACAACATTAAAGCCTTCCATAAACACTTCTTTTGATTTTTCATAGTTGCCTATATTCATATACTTATTGATTATTTTTTGTAAAATTTGAGTTTTATCAGTATCAACTTTAAAGTTCTCCAATATGCTCAAAGCTTTTGAGAAAAAGTTATTTGAATTTTTAAAATTTTTAATTTCAAAGTAATTATCCAAGGCAGTATTTAATGTTTTTGCTTTCAATTCATACATTTCAAAACTATTTACTATGTCTAAGTATCTTGAAAATATAATGTCTGATTCGGTAAATATTTTTACTTTCATATATTTTTCAAATACATAATTTAATGCAGATAGTTTTTCAACATCATCATTTATATTTTTAATACTGTCAAGAGAGTTTAAAATAATTTCATTCATAATATCAAATCTTGAAGTTTTAAAGTAATTATTTAATATATTTATAAGTGCTTTTGATTTATATGCTGGATTTTTCATTGAATCTACAGATTGAATGGCTTTTAAGAATATATTTTCTGCATTTTTATAGTTTTTTTCTTTAACATATATTCCAATTACATTATTTAATTGTACGGACTTATCTTTATCTAATTTAATCATTTTAATTACTTCTAATGCTTCATTGAAGCTTTTCATTTCAACATATTTTTCTACTATAAAACTTAAAGTAATATAACTATTTTCGCTACCCTTACTAACTATTTCTGCTAAATATACGGCTTTTTTAAAGTCTTTAGATACAGCATAAGCTTGAGCTAATGTACTCATTATTTTATACTTATATAATACAATAATAGAAGGATTAATTTTAGGAAAATTATTTGATTTTAAACTTTCGATTATTGCTAAAGCTTCATCTAATTTATTTTTTTCTATGTACTCTTTTATAACTAATTGCAGAGTATCAAATCTGTAATCATCATCTTCAATTCTATAGGTTAAAGTTAAAGCTCTTTCTATTTTTCCAAGTTTTAAGTATCTTTGAGCTAAATCGCTCATTGATTTTGATCTGTCAAAGTCTCCATTACTTGAAACTTTATTTAATATTTCTTTTATTGCATTTCTTTTGTATTCAGAATTTTTTAAAGAACTTGCTACTTTTAAAGAAATGTCATAAAAAGTATTAGATTTTTCAATATCTTGTATATTATTTTCTTTTACTGTTTTTAATAATAGAGCATATTTAGATTCATCATTTGATAAATCATTTATTAGGTTTATTGCACCTACTCTGTCATTTAATTTTATATAGTTATTTATTAAATCTACTAATATTTTATCTGAAATATTTTTATCTTTTATATCTTTTGCTATTTTTGCGTAATTAGAAAATAGTATATTATAATTTTCATATACTCCATCTCTTATAAAATTACTCAAAACTTCTTCCATTGCAAGATATTTTTCTTTGTCTTTATATAGTTTTTCTATAGAATCTGTTAATTTTTCATACTTTTTTTCTTTAAACGAAGAATAAGATACATCAGAAATAATGTTAGTTTTCAACTTTTCATCTTTTAAAGAATTTATAAACTCAATAGTTCTGTTGTAAACATAAGTTTCATTGAAAAAATCTTTGCTGTCTATGATAGAGTTCAAAATTACATACTTATAATTGTCTTGATTGATTTTTTCTATTATATAAAAAGCATCTTTGTAATTTTTAATTTCAAAATTTTTATTAGATAGTAGTATTAAAGCTCTATTTTTATAGTCAATATCTGGAAATTTTTCTGATATTAAAATTAAGTTATTCAATAGTGTTGGGAATTCTACATTTTGAGGGTCTTTAAAAACAAATTTGGTAACTGTTGTTAAGGCATTGTATCTTTCATTCATATCTTTTAATTTAATTAACATTTCTGTTCCTTTTATAAGATTACCTTTTTTTACAGTGTTTTCAATTTTTTGGGGAGTTACTTTTAAAGAATAAAAGATAAAAATAAATAAAAAAATACTCGCTATGACTGATAAAGTTATAGCAATATTTTTTTTACTTATAATATTTTTATTTTGTTTTTCTTCGTGTTGACTTAAGAGTTCTAAATATTTATCATAAGTCTTTTTTTTATCAGGATCAGAAAGTGTTGTGTAAGCTTGTTGTATCTCTTGTATTATTTCTTTATATTCTTCTGTATCGACACTATCTTCGGTTTGTTCTAATTCTGTGAGTTTGTCATAATATTCAGACAAAATCTTTTTGTAAGCATTTGTTATTTCTTCAGTATTCGCATTTTTGCTAACCCCAAGAAGATCATAATAGTTTTTCTTTCCCATAACACTCCCCCTATTGCTGTATAAAAACGCAAGTTAAGTTTGATACTTAACTTACTAAATTGCTTTTTTCTAATAACCTTTTATATCAAATTATACCATATAATATTAATATTTAAAAGTAAAAAATGAGATAATTAAACCTCATTTTTTTGATTGAAATCGTAGAATTTGAGTTAATCTAAGTTATAATTTCATCATTTTTTGAAATAGATCACTTACTATTTAATATACATATCTTATTTATGTATACATTATTATAATATATTGTATTGATCTTTGCCGTTTTCTTTTGAAAGATACAATGCTTTGTCTGTCCTTTTTAAGAGTGTTTTTTCGTTATCTGTTGTTTTTATTTTAGTAATTCCAATACTCAAAGTTATTTTTGTATTTAATTTTTTTGATTTATTTTTAATATTTTTTTGTAATAAATTTATTTTTTCTAATAATGAATTAGTTTCATCAAAATATAGTATAGCAAATTCATCTCCACCCCATCTTGTTACAAAACTTTTATTGAATATTTTTTCTAATTCATTGGCTACTAATTTAATTGCTAAATCACCTGTATCATGACCAAAATTATCATTTATTTTTTTAAAATTATCTATGTCAAGTAGTATAGAAAAGATGGTAACTTTTTCTGAAAGTTTTTTATTCAATATTTCTTTTAATTTTTCATCGTAAATTCTTCTATTGTATAAGGCGGTTAAAGAATCTTTTTGAGCATAAAATTTTAATTTTTCATTAGCTTTTTTTAATTCTGTTTTTTCTTTTCTATATTCATTTGAAAATTGATTTAATAATAAAAAAGAAGTTATTAATGTAATTGGAATTTGTATTATTCTATCCATGAATTGGTTTTGTTCATCATAAATTTTTACTAAATTTGGAAAATAATGTCCAAGAAATTGTAAAGTTATAAATATTGAAACTAATGATATTATTAAAAAAATTCGTGACTTACCATAAAATAAAAAAGAGATACATATTAATATTAAAAAAAAGTAAGCAATGGTATTGTTTTGATTCCCACCAGAGTCAAACCAACCATAAGGTATCATTATAAAAATAACAAAAAAGAAAAAAATAAATTTTTCTTTAATTTTATAAGTTATTTGGCTTTTAAAAAAAGTGTATAAAATTAATATAATAAATATCATCCATTTTAAATTAACATAAAATGGAAAGTGTAAAAGTATATTTCCAACAATTGAAATAAAAGATAATATAAAAGATACAATCAATATTATACTAAATAGTCTATCTTCAAGATTATTTTTTTTATACATATTTCTCTCCTTAGAGTTATTCTATAAAATAATTATACCATGATTTTACTTTTTTTTAAACTTGAGAATTAATTATTTTTAAAGTATAATTATTTTATACAACATAAAAATTAGGAGGGGATCATTTTGAATTGGGATTTAACATTTTTTTATGAATCACCATCATCTAAAAAAATAAAAAAAGATTTAGATGAATTTCTAAATATGGCTCAAGAATTAAAAAACGAATATTACAATAAATTGGGTAATGAAAATCTTTCACCCATTGAATTAAAAATATTTTTTAATAAATTAGAAGAATTCGAACAAAAAGGATATTATCCATCTCAGTATTCTAATTTATTGTTTGCATCAAATACATTAGATCAAGAAGCACAAAAGCTTAGAGCAATGGTTCAAGACTATTTTACTAAAGCTTCTATTATAACTTCTTTTTGGTCACCAGTGTTATTAAAACTCAGTGAAGAAAAATTAACTGAGCTAAAAGAATCAAAGGAATTAATACAATACAAACATGTTATGGAAAAATTAGTTGATTCAAAAAAACATACATTGAGTGAAGAAGCAGAAAAAGTGATGACAGCATTAAGTAGTTCTTCAAGGGAAGCTTTTGGAGATCTATATGGAAGACTAACTAATTCGTATGAATTTAAGTTTAGAATAGGTGAAGAGGTAAAAACTATAACTGGTCCACAATTAAGATCTATGAGATTAAATCCTGATCCAGATATTAGAAGTAGAGCAATGAAGATGTTTTTTGAAAGATATGAAAAAGATAAAATTACACTTGAACATACTTATAATTCTATAGTAAAACATTATGATACTGAAAGTAAACTTAGGAATTTTCCTGAGCCAAATTCTATGAAAAATTTAAAAAATGAAGTAAATGATGAAATAGTAAAAATGGTAATGGGAGTAACTACAGAAAAAACTCCTATTGTTCATAGTTATTATGAATGGAAAGCTAAACAGTTAAAGACTGATATAACTCTTGCAGATATTTATGCACCACTTAAATCTGTAAATAAAGAATATGATTTTGAATCAGCAAAAAAAATTGTTTTAGATTCATATTATCAATTTGATAAAGAATTTGGAGATATTGCTAAATCTTTTTTTGATGAAAATAGAATAGATTCAGAAATAAGAAAGGGAAAAAGAGGTGGAGCATTTTGTTCTTATTATATTCCAAATAAAAAACCATTTGTTTTAATTAATTATACTGGAAATATGAGAGATATAATGACTCTTGCACATGAATTAGGACATGGAATTCATGGAACTTTATCTTCAAAACAAAACTTGTTAAATTATCATACTCCTCTTACAATGGCTGAAGTAGCTTCAGTTTTTGGCGAAATGTTAGTTATGGATAAGTTATTAAATGAATTAAACGAAGAAGATAAAAAGTTATTTATAGCTTCAAAAATAGAAGATATGTTTGCAACAATGTTTAGACAAAATATGTTTGCAAGATTTGAAGTTCAAGCTCACAAAATGATAGAAGAAAATGGAATGGCTTCGTGGGAAGAATTGAGTGATTTATATGAAAGAGAATTGAAAATTATGTTTGGGAATTCTGTTAAAATTACTCCAGAATACAAGTATGAATGGGCGTCTATTCCACATATATTTAATGTTCCATTTTATGTTTATGCTTATAATTATGCAAATTTATTAGTAATAGCTTTATATGAAAAATATCTTGAAGAAGGTAAAGATTTTGTTCCTAAGTACAAAGAGCTTTTAAGTAGTGGTGGAAATGATTATCCAAATATTTTATTAGAGAAACTTGGAATAGATATAACTAAAAAGGAGTTTTGGGAAAAAGGATTTGATTATGTTGAAAAATTGATAAAAGAAATAATGTAATATTTTTACAAAAAAGTGTTTGACTTAGTCAAACACTTTTTTGTATTATTTTAAGAATCCAAGGTATACAATGAAGATAAAGCAAAGAATCCAAGACATCCAATGAACTTCTTTTGATTTTCCGCTAAATAGTTTTAAAATTGGATAAGTTATTATTCCAAAAGCAAGTCCCATTGCTATTGAATATGTTAATGGCATTAATATTATGGTTAAAAATGCTGGTAATCCTTCAGTTGAATCATTCCATTTTATTTTTCCAATTTCTTTTAACATTAAAGATCCTATAAAAATTAAAGCGGGTGCCGTTGCTGCTGTAGGTATAGATGTAGCAAGTGGTGCAAAGAACAACATTAAAAGCATCATTCCACCAGCTACTATTGATGCTAAGCCAGTTCTTGCTCCATATAATATTCCTGCATCACTTTCAGCAACAGTAGTTATTGTAGAAGTTCCAAATAAAGCTCCAATTACTGATCCAGTAGCATCAGCCATATATGCTCTTGATGCTCTTGGAACATCTTTAGTTTCATCTGTATGTTTTGAACGTGCAAGCCCAAAAATTGTTCCAGTTGTATCAAAATAATCTACGAAGAAAAAAGTTATTACAACAATCCAAAAATCGGCATTTTTAAATATACTTGGTTCTAATTTGAGTTTTAAAAAGGTTGGAGATAAACTCGGTATTGGACCTATTATTCCTTTAAAATTAGTAACTCCATTAAATAATCCAAATATTGTTGCACCTATTATTCCAATAAGAATTGATCCAGGAACTTTTAAAACATACAATATTGATATTAAAAATAAACCGAAAATAGAGGTTAAAACTTCATCATTTTTAATATTTCCAAGAGCTATTAAAGTATCTTGATTAGATACAATAATACCAGAATTTTTCAAACCAAGAAAAGCTATGAATATTCCTATTCCACCTACTATAGCATACTTAATTGAATCTGGAAGAGCTTTTGAAATTATTTCCCTAACACCGGTTATGATAACTATCATAAAAATAAAGCCTGCAATAAAAACTGCTCCAAGAGCCATCTGCCAATCCATTCCAAGTTTTAAAACAACAGTATAAGTAAAATATGCATTTAATCCCATTCCAGGAGCAAGTACGAATGGATAATTTGAAAATAATCCCATTATTATGGAAGCTATTGATCCACCAAGTATTGTTGCAACCATTATAGCACCAAAAAATTGATTATAAATATTAACATTTCCCATAGCTCCAGGAATAGCATTTACAAGTATTGCTGGATTAACTATAATGATATATGCCATCATTAAAAAAGATAATATTCCTCCATAAATTTCTTTTTTTATGGTGCTACCAGATTCAGTTATTTTAAAGAATTTATCCATAGTATCCCCCCAATCTATTCAACATATATACTGACAAACTCTTGTTTTGCAACATTTACTATGCCTCTATCTGTTATTTTTATTTCTGGTATTACTCCAAGTTGAACAAAGGCGAGTGTCATAAAAATATCCTTTTCGCATCCAATTTTCTTTAAGGCATCTTCTTGATTTTCTAAAGTTTCAACAACAGTTTTATAATTTTCATTTGTCATTAAACCAGCTATTGGAAGCCCAAGTTTCCATATTACTTTTTTATTTTTTACTATTACAAGTCCCCCATTCATTTTTTCGAGTTCTTTTGCAGCAATTATCATATCTTCATCATCTGTTCCCACTATTCCGATATTGTGAGCATCATGACCAACGGTTGTACCAACAGCACCATTTTTTACACTTAGTCCTTTTATAAAACCAAGTGAGTATCCGCTTCCTGTGTGCCTTTCTAAAATAGCTATTTTTGCTATATCTCTTTCTGAATCAGCCACTATGTATCCGTTTTTTGTTTTTGGTTCTAAATGTAACTCTTTTGTTATTAAAGAACCTTCAAACATTTCAATTACTCTTATTTTTTTATTTTTATCCTTAATCTTTAAATCTTCTACAGAAATTTTTGGAAGTATTACCTTTCCCACACTTTCTGGAAGCTCATTGAAGACTCCTTCAATAGGATCTACTAATTTATTGTTATTTACAACTACTTTTGAATCTTTTATTACCATACTTATATTAAATTCACTTAAATCATCAACAACAAGAATATCTGCCTTATAACCTGGAGCTATTGCACCCATACTTCTAAGATTATAGTGCCTTGCAGTATTTATTGTTGCCATTCTTATTGCAGTTATAGGGTTTAATCCATGTTTTATGGCTTTTTTTACTATATAGTTTATATGACCTTCCTTTAATATATCTTTGGGATCTTTATCGTCTGTACAAAATGAAAAATATGGGAAGTTGTATTCATCAACAGCATCTATTAAACCATCAAAGTTTTTTGCTGCAGTTCCTTCTCTTATAAAAACTTGCATACCTTTCCCTACTTTTTCAAGGGCTTCTTGAACGGTTGTGCATTCATGATCTGAACGTATAAATGCATCTATATAGGCATTTAATTCTTTTCCACTCAAAAATGGTGAATGTCCATCTATCTTTTTGTATTTGTGCCTTAATATTTCTATTTTAGTTAAAAGTTCTGGATCACAGTTTAAAACTCCAGGGAAGTTCATAACCTCTCCTAAAGCAATTACTCTTCTTGGATATCTATCAACAAACCCAACTATATCTTCTGGTCCAAGTCTTGCTCCAGATGTTTCCATGCCAGTTGCTGGAACTGCAGATGGAATAGCAATATAAACATTTAATGGTATTCCTTCTGTTGATTTTATCATGTACTCTATACCACTTATTCCTAGGACATTTGTTATTTCGTGTGGGTCTGCAATCACTGTTGTTGTACCATTTTTTAAAGCTATTTTTGCAAATTGTCTTGGAGATAACATTGAACTTTCTAAATGCATATGGGCATCAATCAATCCTGGTATTACATATTTTCCTCCAAGGTCTATGATTTTTTTTCCTTCTTGATAGTCACCAATTCCCGCTATTCTCTTTCTATAAAGAGCAATATTTGTTTTTTCTATCTTTCCAGTGAAAACATTAACTAATTTTAAATTTTTAAGCAATACATCTGGAAGTTCTTTACCAAGAGCTACTGGAATAATATCTTTAATCTTCATACTACCACCTCTTATAATAATTTTACCATATTTTAACAAATTATACAAAAAATGTTATAAAGTTTGAATGAAAAACTTAATCAAGGCGAATGTTGTCTATAAACCAATCAATTTCAAAAAGTTCATCATCATCAATTACTAAGTTTTCTTTTATTTTTAAAGTTCCATCTATATCATAAATTGGACCTTTAAATATTTGAAAATCATCATTTATTATAGAAGCTTTTAAGAGTTTCATAAGATTTTTAATTTGAGGATTTACAAGTTTTGAAGGAGTAACGATATCAACAACTCCTGAATCCATTCCACCCCAAAATTTTCTTATACCTTTGTTGTTTCCAAATAAATCTAAAAATGAAAAAGTACTTCCTTTTAAAATATTTTGTATTATTTTTTCATAGTAGATACCCCAATTCCAAACTACAGAAGTAAGCATTGTATTTGGTGCATATTTTTTCATGTTATGATGATAACCTATTGTGTAGACTCCATATTTTTCTCCTTCTTCAACAACTGTTGTTGAATCTTGATGATGAGATAAAACATCACAATTTTTATCTTTTATTAAATATTTGACTACATCTTTTTCATATTTTTTATTATGCCATTCATTTGTCCATCCAACATTTACTATTGCATTTGAGTTTACAGTTTTTACACCAAGAGCAAATGCATCTATTCCCATTATTACTTCTGGAATTCCAAAAGGAGCTACGTATCCTATTTTATTACTTTTAGTCATAGATCCAGCTATTATTCCAGATAAAAATCTTGGTTCATACATTCTTCCGAAGTAAGTATTTACATTTTTATCAGTTTGATATCCTGAAAAATACATAAACTTTACATTGTGGAATTTGGATAATTTTTCATCTAAAATAAAGTCAAAGCTCGTTGAAAAGATAACGCTGTAGTTTTCTCTTTCTAATTTTTTTAAAAGTTTTTCATATTCTTCTGTACTAGTAATTCCTTCAAATCTTCTTGTTATTATTTGATTTTTATACTTTTCTTCTATATATTTTCTTCCAAGATTATGAGAATATGTCCAAGCTGATTCTTTTATATCACTATTATAAATAAATGCAACTTTTAATTTTTCTTCATTAAAAAATGCAGGTATTAAGAGTGAAGGTTGTTTTGTTTTCTCAGTATAATTCATTTCCCTAATAATTTTTTTAACTCTTTTTTTTAACTCTTTTTCATCATTTAATTCTGAAACACCAAATTCTTCTAAGTATTTTAAAAAAGAATCTCCAGTAGTTACTGTGTTATTTGAAGATTCAAATGTTTTATAAATTTTTCTAAATGGTTCATATATTTCATATAAAAAACTTTTATATATTTCAAAATCTAATAAGTCTATATATGATTCGGGTTTGTATTCTTGCATATAATCATACAATATTTCAAAAGATTTTGGCTTTGAAAACCATATGGAATTTATATGTGTTTTTTCATAAAAATCTAAGAAAGAATAGTATATTTTTATTTCTATATCATTTTTATCATAAGTTGGGATTATTCTTTTTACATTTCCCATAATTGTTGGAGCTTTTAAGTATTTTAGAACACTAACTCTTTTATTTCCTTCAACAACATAAAACCAATTTAAATATTCGTAAACTTCTATTGCATCTCTTATTCCTTCATTATACTGTATTTCTAAAAGATTACACCATTTTGATGAAAATTCCGTATCTCTTTCTATTAATGGATAAAAATTTTGTGAAAAAGATAAAGATCTTGAATGATAATAAGTTCCAATTACTTTTTTTAAAGGTATTTCTATTGTTCCTAAATTTTTTTCAGACAAAATTTCAGCATTTTCTATAATTTCTTCAAGCGAATTTAAGTAGCCACCTTTAGCAGAAGATACGCTTTTTAAAAATTCTTTTTTACCTAATTTTAAAGCTTTTTCATAATCTTCTATACTCTTATTTCTATCATAAAGCATATTATTCCTCCTTTAAAAGCTTTATAAACTCCACTTCTTTTAATTTACATTCAGTAACATCTTTTATTTTTATTATTCTTTTTAATTCTTCATCATAATCAATAAATTTGTAAGGAACTGTATTTAATAGATAACTTATTTTTTTCCCATTTATTTTAAAATCTAATAAATCAATTGTATAATTTTTATGGATATGACCATAAAGCCATACATTTGGAAAAATTTTTTGAAATAATCTTCCGAGCTTATATGAAGGTTTATGATAATCATCATAGTCTTTTATTGTATTTATCAACTTTGGTGGTGTATGAGAAATAAAAAAATCTATTTTTTTATTTCCATAAACTTTACTGCATAATTTGTTTTTTATTAATTTTACATCTTTTTCTTTAAAATGAAATGGTTTTTCGCCATGTGACAATGCTCCAGAAAATCCTGCTATTTTTATATTTTTATTTATATAATTTTTTAAATTGATATATCCATAGTTTAAAACTAAAAATCCTTTATAAATATTTGAAAATTTTAAATTTTCTTCATCATAAACAGAATTTTTGTAATATCTTTTATCATGATTTCCATGAATCATAACTCCAAAGCTAACTTTAAATTCATTTATAAGATAATCAGTATATCCAGGAGATAAGTCTCCACAATTTATAAGTAAATCTACTTTTTCCTTTTTTTTATTAATTAAATTTTTTTCAACATCACTAACTGCCAAGATTTTTATCATTTTAATCTCTCCTTTATTTAATACAATTATATCACTCTTATTTAAATTGCTTTAATGAATCGAAATATTTATATTTTAATGATTATATTTTATAAATATTTGTTTTGATACTAAATTTATACTTATTATTAAATATAAAGGTGATATAATTTTAGTATAAATTCAATTTAAATTGGAGTGGTTTTTATGGAAACTAAAAAAACTTTTAATTTAATTAAACGCACTTTTATAATAATTATTTTAATTTTTATAGTATTTTTAATAGGAGTAATTAATATAGAAAAAAAAGCTGCAATAAATCAAATAACAGAAATGGGAAAAACTATTACAAATAATACTTCATCAATGCTTAAATCTTGGCTATCTGAACAATTAAAATTATTGAACACACTTTCTAAAGATGAAAGAATAATTAATGCTTGTAAATATCCAGACAATCCCATTTTTGTGAAAAAAGCAAATGAATTGCTTTTTTCAATTTATAATAATTATGAATATTATGAAAATTTGCCTCTTATTTCAACCAAAAAAAATTTAGTTATTTTGAAAAATGGCAATAAAATAAAAATAAATAAAGGTACGTTTTTTACAGATACAGTAAACGGAAAAACGATAGGAAAAGGTGGATTAAATTACAGTTATATAAGTGAAATTTTTAATGGAAAAGAATGTTTTATAAGTGAGGTTTATCCAAGTATTTTAAGAGGAAATCCAATATTTGTCATTTCAAAAGCTGTTAAAGATTTAAGTGGAAATCTTGTAGGAATAGTTTTATTGTCTCCAAAGATAAATTATTTTACAGATAAATTTATAAATAATATTAAAGTTGGAAAAACAGGTCATTTAGTTTTAATAGATGAAAGACCTTTATTAATAGCACATCCAAATAAAGATTTTATATTAAATGATTCTATACAAGATAAGGTAAATGATGTTTTTAAAAGAATAAAAAACAATGAAACTGTTTTTTGGGACAAATTTGACAATGAAAAAAAGCTTTATATTTCAAAAAAAGTAGATATAGACTCCAATAAAATAAAATACAGTTGGTACATTGTTTTTATGATAAATTATAATGAAATATTAAATAAATACTTATTATCCTTTTTAATGATATTAAGTACAGGAATAATTATAATAACTTTATACGCAATAGAAATGAAAAAACTTTATAATGCGATAAAATCGAAAACATTAAGTTTAGAAATTTTATCAAAAACGGATCCATTAACTCAATTAGTAAATCGTAGAACATTATTAAATGCTTTATCTATAGAATCAGAAAGATTTAAAAGATATGGAACTGTTTTTTCTATAATATTGTGTGATATAGATTTTTTCAAAGATATAAATGATACTTTTGGGCATGAAGCCGGAGATTTTGTTTTAAAAGAATTATCAAATATCTTTTTAGAAGAAACAAGGGATATAGATATAATTGGTCGTTGGGGTGGAGAAGAATTTTTATTGATATTACCTCAAACAACCGAAAAGGATGCAAAAATTTTAGCAGAGAGAATAAGAAATAAAATAAAAGAAAAAAATTTTATTTATAGAGATAAACATTTACCTTTAACAATGACTTTTGGTATAAGTGTTTATAATGATAAAAATATAGAAATAGATGATTTAATAAGAAGAGCAGATTTAGCACTATATGAAGGGAAAAATTCTGGAAGAGATACAATTAAAGTTTATAATGATTAAAAAAGCAGAGTTAAACTCTGCTTTTTTAATCATTTAATTTTACACCCAATATTTTTTCAACATCTTTTTTAGAAATTCTTAGGATTACCCAAGCAACTCCATCTTCAGTAATACCAGAACCAATTTCTTTTAGACCTCTTATATAACCTTGAAATTGAGCATCGATATTTTTATTTTGAAGTACAAAATCTTGAACTGTTTTTCCACCTTCTATTTTTAATCCAAAGATAGTTTCGATGGCTTTTGATTGAGCATCAACAAGAGCAGCTTCTTTTGCAGCAAGTTTTGCTTGTGCAGGATTAGGAAATCTTGTTGTATCTACAATTCCTTCTCCTCTAAACTCCATATATTGAGAATTATCTCTTGCTCCTGGAGTATTTATTAAATCATCTGCTGTTCTTGGAGCACCACAACTAACAAAAAGAATAGATATTAAAAGCAAAGTTATACCGAAAAACTTTTTCATAAACTCACCTCCATATTGTATTATATTAAAATTATATCACACAATATGTATTATAAAAATAAATGAATTATTATGTCAATATATGGGTATAAACAGTACATATTAAAGGCTTGTAGCTACCATATAACCATGACAAGATGCATAAGTTATTGAACGAGTCCAACCACTTCCATCTCCAATTATTTTTATATCTTCAAAGTAATTGTTATCTATTTTATTTCCATAAAATTTTACTTCTACACCATATAAAAGGTTATCTGCATAAGTAATTCCAGGTATTACTTCATTTAATTTTTCCATAAAATCAATAATTGAATCTATAGTTTTTCTTGGAAAAACTAAGTTTAAATCACCTAAAATATAATTGTTAAAATTTAAAGTTGGTTCAACTCTTCCAAGTTTTTTAGTTCTATTTGTATTTTTAAAATCTTCGTATGCTTGAAGGATAACTTTTTCTCCACCAGCTAAAATATTTGAAAGTTTTGCCATGTGAGTTCCATATCCTATTGGATCATTAAATGGGTTAGTAAAAGAATGTGAAACTAGTATAGCAAAATTAGTATTAGAAGTCTTATAGGAAGCATTTGCGTGACCATTTACTGTTACAAAATCATCGTATTTTTCTATTGTAACTTCACCAGAAGGATTGTTGCAGAAAGTTCTAACAGTATAACCTGTTTTAGTTTTTAATCTAACTTTGAATTCATACATTTTTTTATTTAATTCTTCAACAATGTGATTTGGTAATTCAAATCTTACACCCAAATCAACCATATTGTTTGAAAGTACTAAGTTTTTATTATTGGAAATTAAATTATTTACAAGTTTATGACCGCTTCTTCCAACACCAATTATTATTTTATCGTACTTTATCTTTTTGTTTTCTATAACAACATATGCACCATTTTCATCTTTTTCTATTTTTTTTATATTTTTATCAAAGAAAAAATTAATGTTTTTATGTGATTTAAAACTTTGATAAATATTGTTTACAGTATTTCCAAGTTCGTCTGTTCCTATATGATAAAATTCAGATTTTATAGGTTGAAAACCTTTTGAATAAAACTTTTTATAAAATTCTTCATCTTTAAAGGACAAACCTCTTTCAAGTTCGTTTGAATAAATATATTTATTTCCTTCTTTTTTTGCTAAATTAGATTTTTCAAGATAATAATTTACTATTTCTCTTTGAATATTTAATGGAACATCTAAATCTCCACCCATTTCTTTTGAAACAAATATTTTTCCATCGTACTTTAAACCACCAAAACCAGATTTTTCTATACTTTTACCTCTTTCAAAAACATCAATAGTTGAGTTTTCAATTTTACCTGAATCTACCATACCTTTTATAAAACCAATAGAAGCCGCTCCGAAACCTATAACAGCAATTTTCAAAGTACAACACCTCCAAAATAATGTGTGAACAATTTTTATTATACCATATAAAGTATGAAGATAAAATTAAATAATAAATGTTATTTATTATGTTATAATTTAATGATATTTATTCTTGGAGGTAAAAAATGAATTACACTAATATTTTAAATCAAGTTTCAGTACTTTTTTTATTGATACTAACGGGGTATTTTACAAGAAAATTTAATTTATTAAATGATGAAAAAACTAAGACACTTTCTGATATTGTATTAAATTTAACTTTACCAGCACTAATAATTTCATCAATGCAAATGGATTTTTCTATTTCTGTTCTTATAAAAAGTGGAAATTTTATACTACTTTCTTTAATAGTTTATGCTGTGATTTTTATTTTTTCTATAACATTGCCAAAACTTTTAAAATCAAATGAAAAAGAAATTGGTGTTTATAAGTTTTCTATTATGTTTTCAAACGTAGGATTTATGGGATATCCAGTTGTTAATGCTGTGTTTGGAAAAAAGGCATTATTTTATACTGCAATTTATAATTTGCCTTTTAATTTATTGATATTTACAATAGGAATAATGTTTCTTTCAAAAGATATAAGATTAAATAAAAAAATTATTTTAAATCCAGGAATTATATCAGTATTAATTGGTTTTACTATGTTTTTATTCTCTATAAAACTTTTTACACCAATAAAGATGACAATAGATATGATTGGATCAGTAACAACACCAATATCTATGATGGTAATTGGATCTTTATTAGCTAAAAACAAATTAAATACAATATTTACTAATTGGAGAATTTATATAATAACATTCATAAGATTGTTTTTTGTTCCATTCTTTATTTGGATTATATTAAAAAATATAATTACTGATCCTTTAATGTTAGGTATATCAATTTTAATAAGTTCTATGCCAGTTGCAGCAAATAGTGCAATTCTTGCTGAAGAGTATGAAGGAAATGCAGAATTAGCTTCAAAAGTAGTTTTTATTTCTACTTTTTTTTCAATAATTACTATCCCAATTATTGTTAAACTATTTATTACAAATTAGAATTACATTTTTATAAAAAAAATCTAATATAAAAATATAATTGCTTTAAAGTTACGATATTTTATAATTATTTTCTTGTATTAAAAAAAATTTTTTTCATTTTTTCTTTCAATTATAAAAAAAGATTTTGTGAATTTAAAATTAAAATCTACATAACATATTTTTTACTTGCAATAAAGAAGAGGTTATGGTATAATAAAGTTAGTGAAGCTTATTTTTCACAAAAATCTCCTCTTTAGCGGTTCTTTTGAACCGCCTTTTTTTTATATTATTTAATATATTAATGTAATAAAAAATCCCAGCATCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTTCTTTTTTCTGAGTTTATATTTATTCCTATTATATAAATTTCTTTTCCTTTGTACTTTTCATAGTACTTTATTTCTTTTATTTGATTCAAGGCTTTTTCTGCACTCTTATCTATCTTTATTTCCATTATGTATATAGTGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTTAGTCCTGTTGATGCGAGTATTGTGTATATCAATGAATGATAGTAGCTTTCTTCTTTTTTGTGTAAGTTGTATGGGATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCTCTTATTGCTTTCCATATCGTTTTATTTATTTCTTTTATTTTTCCTCTTTCAAGTTCATAGTTCGCTTCTAATATTATCTTTGAAAAGCTATTCTTTACTTCTATATTTGGATAATCTAATAAATATTCATATTCCATTCCATATTGTTCTTTCCCTTTAAAGGTTAAGTATCCTGATTGTGTAAAGAATATACTTGCATTTGCTTCTTCTATTTCTCGTGTTGAAAAATCGAGTTCGCTCACTGGATACTTCACTAAGTCTTCATATCTTATCTTCTTCCCTTTTATGTATTCATATAAAAATGATGGCGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTCATTAAAAAATCTTAATATTGAAAATGGATTGTATACACTACTTTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTTCATATTCATTTCAAGTGCTGTTTCTTTTATGTGTTCTTTAAAGTTTCTTTCTAACTCTTCTTGTGTGTATCCCAATATCTGCGCGTATTTTTTATTCAATGATATATCATTTAAGTTGTTCAATGCTGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCATCATTTGATTTTATACTAACATAAAAATTTCTCAATATTTCTCTATATCTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTCTTGATAGTTCAAATATTAATTCATCAAAAGCATATTTATAATGGTCACTTTCTATTTTTATTCCATACTTTCTTGCTTCTCTTTTTATTATTCTCAATAATCCATCTTTTAATTCTTCTTCTGTATCATTTGTTGTATCCAATAAACTTATTCTTATCACTGGATACTCTTTGAACTCCCATTTATCATATATATACGTTCCTTTAAATAAGTCTTTTTCTCCTTTAAATAGATAGTACAGTGTTGATATCGTTAAACTCTTTCCAAATCTTCTTGGGCGTGATAAAAAATAAAATTTTCCACTTGTTATTAATTCATATAAATATTTTGTTTTATCTATGTATATATAATCTGTTATTAATTCTTTAAAGTCTTGTACTCCTATTGGTAGTTTTTTCATTTTTATCACCTCTAATTTTTATTATACCATAGGTTTTTTTTATTTATTTTTATTTTATTAAATTTACCATCCTTTTTTATAATAAGTTTGAACATATTCGTATGTTCTCTTAGGGTTTGGCCATTTTGAAGTATATTCATGTTCAAAGTAAGAAACTTTCCCATAGTATTTTGTTCTATATTCATCTTCCGGCATATCCCAAATTCCCCCATATTTAAATTCTGTATAGCTAAATGATTTACTAGTATCCATTATGTCTTCATATTCTACATTTTCCCAAACTTTTTTCTGATAGTTAAATTTTTGTTTAATAATATATCCCCATCTTATAAAATTATACTTGTGTTCAATAATATGATAATAATATCCCCAAACATAGTTTTTTCTTTCTGGATTTTTAAAAGTATATTGTCCACTTACATTAACAGAATGATTTCTTTTAATAGAAGGAGCAATACCTAATTTTTTTGCTATATCTATACTTCCATTAACTTCAAGTTTTATATTATAATTTTTGTTAATATCTATAAATAACAGTTTTAAATTTGTTGGTTTTACATCTTTCCATTGAGTGTATTCATTTTCTTTTTTAGTATTTATTTGCCATTCTTCTAAACAATATTTCCTTCTATAAATAACTTTAGGATAAAACATATTTGCTAATTTGTTTTTTTCTGCAAAACCAATTATTGTTATGACTAATAAAAAAGCAAACAATATTAACCATGAACTTCTTCTTTTTGTTTTTTTCACTTTTTTCTCCTCCTATATTTTATTGTTTAAATATACTATAAAGTATAAAATTAATATATTAATAACTAAAAACATTTATTTTCTTTAATAACTTATATATTTATTAAAATTTTATAATAAAAAAAGCAAAAAATCAATATTTTTTTGCTTTTTTTACTAAATTTTAATATTAAAATATAATGTATAAAAAATATGAAGTATTTTAAATATAAATTTATTTATTATTACTTTTTAATACAAGGGGGTAAATCCCATATCATCCCAATATTCGTCAGATAATTGTTTATATAAATTATACAAAACGTCTCTATGCACTTTTTCCCACTTTGAAAGCATATTAAAAACATTTTTTGCTTCTAAATCTTCAATCTTTTCAGATGCATTTTTATAAAAGTTCATAAAGTCTTCTTCTATTAAATATCCCATCTTTAAAACAGTTAAATCAAGTGCTAAATCTTCTGCTTTTCCTGTAATTGTATCTATTTTTTCTCTTTTAAAAAAAATACTATCATCTTCTTCTGGAACTTCAATATCTAAACTATTATTTTTTTCATAGTTACTTATTAAATTTTTAATAAATTCAACGTGTGAAGCTTCCATTTCTCCTAAATCAGTAAAAACTTCTTTGAGTTCTTTTGTTTTCACTTTTTCTGATTTTTCTTTATAAAAATTCCTTCCTTCTATTTCTTTTGATAAAGCGTAATTTAAAATTCCTACTATTCCTTTCATTTTTATTCCTCCAATTCTAAAGTTTCTTTTAATTTTTCTGGATCTAGTCTAAAGTCAGAGCCTTTACCTTGAAAAAAGTGATGTTTTTCTATTAAATGTATTGAAAGATCGCTGTATAATATTTCTTTTCCACTATTTTTATTTTTAACTTTGACATTTATTTTTTTAAATACACCATCTTCAAAAGGGCAGGGTATAACTCCTCTTGCCTCATAAACCATTACTTCGAAAATTTTATCAATTGTTATAGGTTCACCTAAGCCTTTTTCTCCTTCTTTTAATAAATATTTCATCTTTTCTACTAAATTTGGTATTTTTAAGTTTAATTCATTTATAAGTTCTTCATCACTTTCAATAATATCTGATAAATGTCTGTTATCCTCACCTAAAAATCCTGTTGATACAATAACTCCTGGTTTCATGTTTTTTTCTGCCTTAATTAATTCTGGTGTCATTTTCATATAAAACACCTCCTAAGCAAAGTTATCATAATAAATTTCTTCTTGCTTTATACCATTTTTAGTCATTACATTTACACAAGCATTTATCATTCCAGGGCTTCCGCACAAATATCCTTCTTTATGATTTTGATTTTCTTTTAAATATTTATTTAAAACATCTGTTATTAATCCTACTTCACCTTTCCAATTATCCTCGGGTGATGGTTCAGATAATGCAGGAATGAAATGAAAATTAGGTAATTCTTTTTCTATTTTTCTTAATTCTTCTAAATAAAATAAATCTTTTAAGCTTCTTGCACCAAAAAAGTACCATATGTTTCTATCTTTTATATTCTTTTCATACATATCATATATTATTGATTTTATTGGTGCCATTCCTGATCCACCAGCAACACATATCATATCAGCATTTGTTTCTCTAACATAAAAGTCTCCAAATGGTCCTATTAAATCAATATTTTGATTTTCTTTTAGTTTGGTATGAACGTAAGTTGTTGCTATTCCTTTTGGAACTAATCTTATTAAAAACTCTACTATATTCTTTTCAGATGGTTTTGAAGCTATTGAATAAGCTCTTTGAACACTTTCTTTTATTTTGTCATAAGGTGGAATTATTAATTGTGCATATTGACCAGCTTTAAATTCTATTTCTTCTGGTAATTCAATTCTAACTTCTTTTATATCATGAGTAACATCTTTAATTGACACGATTTTTCCCTTATATTTTTTTACAGAAAATAATTCTTCAGGTATTTCTATTTTTATATCTGATTTTATTTTTATTTGGCAAGAAAGTCTTATATTTTTACTTATTTCTTCTTTACTCAATAGTGGTGCTTCTGTTGGTAAAATTGGTCCAACATCTGATATAACTTTAACCTTGCACATTCCACAGCTACCTCTTCCACCACATGCTGATGGAATAAATATTTTTTGTTCTGATAAAGTTGTTAAAAGTTTAGAACCGCCTTTTACTTTAAGATCTTTTTTTCCATTTATGTTTATGGTTACTTCGCCATAATTATTTACTATTCCATCAATTATTACTATAATAGTAGCTAAAATTGCGCTTAGAACGGCAACAATAATAGGTGCTGTTAATATATTCATAAAATCACCTCACTGTACATTTAGCATACCTGAAAATCCAATGAATGCCATAGCCATAAATCCTATAGTAATTAAAGTTATACCAGGTCCTTTTAATGCTGGTGGAACAGGTGCTTTATCAACTTTTTTTCTAATTGATGAAAGTAATACTATTGCTAACCACCACCCTAAGCCAGATCCTGTTCCATAAAATATAGTTTGTATCAATGAATAATTTCTCAATTGCATAAAAAGTGCAACACCAAGAATAGCACAATTAACAGTTATTAAAGGTAAAAAAATTCCAAGTGCCATATATAAGTTTATGGATACTCTTTCGATTAACATTTCTAATATTTGAACGATTGCAGCTATAACTATTATAAAAACTATGTACTTTAGATATTCTAATTTGAAAGGAACTAAAATATACTTATAAACAAACCAATTTATAGTTGTTGTTATTGTCATAACAAAGGTAACAGCTATTCCTAATCCATTTGAAGATTTTTCATCTTTGGATACAGAAATAAAAGAACACATACCAAGAAAGTTTGCCAACAATATATTACTTGTAAAAATAGCAGCGAAAAATAGTATAAAAGGGTTTATATTTGGTATCATTTTTTAACCTCCTCTTTTAACATTTTACTTTTTACTATCCAAATAAATATTGCTAACATAAAAAATGCACTTGGAGGCATTACCATAATTGTCCATTTCATAAAAGTATCTGGCAAAATTTTTATGCCAAACAGTGTTCCAAAACCTAAAATTTCTCTAAAAAAAGCTATTGTCATTAAAACATACATATAACCGAGACCCGCTGTAATTCCATCCCAAAATGATATTACAGGAGTATTTGATTGAGCAAAAGCTTCTGCTCTTCCCATTATTATACAGTTTGTTATAATCAAACCAACATAAGGTCCTAAAGACTTACTAACTTCTGGTAAATAAGCTCTCAAAATTATATCTACTATTATTACATAAAAAGCTATAATTAAGGTTTGAACTATCATTCTAACTTTTCTTGGAATGAATGATTTTAAGGAAGATACTGTAAAATTAGAAAATCCCGTAACCAAAACTACGCCAAGAGTCATGATAAAAGTATTTGTAAGATTGTTTGTAACTGCTAAAGTAGAACATATTCCTAAAATTTGAACAAAAACTCCATTGTTACTCCAAAGATTTTCTTTTAAAACCTTTCCATAGCTCATTTTTTATCTACCCCCAGTATGTTAGAGAGTGTTTTTAAATTATCATTAATTATTTTTTCTACTGATTGAGATGTTCTTGTTGCTCCTGTTATAGAATCAAAAGATCCATTTTCTTTGTTTTTATCTCCATTTCCTCCAACTTTCATCAGTATCTTTCCATTAATTATTTTTTCTGCTCTAAATTGTTCTTTAAACCATTCTTCATCTATTCTTCCACCAAGTCCAGGTGTTTCACTGTGAGAAATAAAATCTATTCCTATAATTCTTGTTAAATCTTTATTAACTGAAATTATTCCATTTATATTTCCCCACAAGCCATTACCATTAAATTCAATAGCAAGAATATTTTCAGATTTGTTTTTATAAATAATAGCTTTGTTTTTTTTGCTCACTATTATTTCATTTTTAAATTTTTTATAAGCATCTTCTGAATCTTTATAATCAATATTCATTGCATTTAATATAGATTTTATTTTAAATAATTCTTTATTTTTTTCAACTTTGTTTTTTGTAAAATCATTTGCTAATGATAGTACGAAGACAAATATAAAAGTTACAATAAAGGTAAAAAATATAGTATAAATTTTTCCATCTTTTTTCATGATTTCACCTTCTTGGCATATTCATCTAATAAAGAAGCAAAAGTATTTCCCATTAAAATTCCAAAACTTGTTCCTTCTGAAAAAAGAGAAAAAGTTCTTACTAAAACAGCAGTAATTCCTATTATAAAACCATAAAACCATTGTGCTTTTGCTTTTTTGGGTGCAGTTATTGGATCGGTAGCCATAAAAATAGTAACAAACATAAAACTACCAGACATCAATCCACTTATTGGAGGTAATGCTGATTTTATACCAATAAAAAATAGTATTGAAGTCAACACTAATCCGCTCAAAAAAGTAGAAGTTATTATTCTCCAACTTGCAGTTTTGGTTTTTATTAAGTAAATTGCTGCTAATAAAATTAAAAGTATTGATCCTTCACCCATAGATCCAGCTCTAAAACCAAAAAATAACTTATATAAAGATATATTTTGTCCATTTCTTAAAAGATCTAAAGGAGTGGCAGTCGTTACTACATCATTAAAAAATCCTAGTTCTGCCCAACCACTCGTCATTACTCCTGCAAAAGCTATGTATATAAACAACCTTCCTGCTATTGCTGGATTGAATATATTTCTTCCAAAACCGCCATAAACTTCTTTTGCAAACAAAACTCCAAAAACGATACCGATTGATGCTATCCACAATGGAGTTTTAGGTGGTAATGATAATACAAATAGTAAATTTGTAACTAAAATAGCTTCACTTACTTTTTTCTTCTTTTTTCTTTCCATTATGTATTCAGTAAAAATTCCAAAACCAAACACAAAGATTGAAAGTCTTATTAAATCTAATCCATACAAATAAAAAGAAAAAAGATAAATTGGAATAAGTGAATAAATAACCTTTCTCATCATAGGTTGTTTTTGAAACACAAATCCACCCCCCTAAATTTATTTAATTATTTACATTTTATAAAAGATGAGGCTTTATTTTTAATAACTCATTTTATATTTTAACATAAAAAAATAAAAAATAAAAAATAAAAACACTAACAAAAAAATTCTTAGAATACAATAAAAAGTAGTGTGTAAAAATTTACACACTACTTTTTAATAAAATATCTATTAATTTTATATTTTCTTCTTCAGTTCTTATTGCTATTCTAACTGTGTTATTTAATCCAAATGAGGTACAATCTCGTATCATCATTTTATTTTTAGATAGTTTTTCTATTAAACTTCTCTTATTTTTTGTTTTAAATAAAAAAAAGTTTACATCTGTTTTTATATTTAACTTTTGAATAAATTTTTTTCTTTCCATGTGTATTAATTTCATGGAACTTTTCAAAAATTTTCTATTATCTTTTAAAATTTCTTCCATAAAAGAAACACCGATAGCTCCTAAAGACCAAGGCATTTTTACTTTTTTCATTTTATTGTATGGATCTATAAAGTATCCAACTCTTATTCCAGGTAGTCCATATGATTTTGTGTATGTTCTTAAATGTATAGTATTTTCATAGGTGTGTGTGGTTTCCCAATTATCTTCTATATTTTCTACAAAATCCATAAAAGCATCATCTATTATTGGTATGCCACCTTTTTTTAAAACTTTATGTATAAAATCTTTTACATAATCTTTTGAATAATACTTTCCTGTTGGGTTTTCAGGATTGTTTAAAATTATTAAATCGTTTTTTTTCAATGTTTTTAATGGGTCTTTTGACTTATAAATTTTTTTATTGAATATTTTTGCAACTCTTTCATATTCCCCATAAGATGTATCTTTTATATGTAAATTTCCTTTAAATACAGAAAATAAAAGATACAAACTTTCAGTTGTTCCTGCTGTGAGTTTTGCGTTGACATTGAGTTTATTAGAAAGTTTTTCTTCTAATTCTTCGTAATATAAATACTTATCAACATATTTTTCAGAATTGTTCAAAATACTATTTAAAAAATTTGGTTTGTAAGGGTTTACAGATATTGAAAAATCAATCCACGAAAGTGGAACATTTCCTCCATGTTTAACATTTTCAAAGTTGTGCAAAGTAATAGTACCTCCATCAAAATAATTATTAAACTAATAAAGATATAATAAGTCAATGCTTTTTTTAAATCTAGCCTATTTGGAAAATTTTTGTTAGGATTTATAGAATAAAAACCTTTTTTTTCAAGTTTAATATTTAATAATCCTGCCATTGCAGCCATTGACCAAGTTCCATTTAATTTTATTCCACCATATTTTTTTACGCTATTCAGTACTCCTTTAGGATTAAAAAGAAAAAAGAAAAAAATACTCAGTCTTGCGGGTATATAATTTAAAACATCATCGAGCCTTGCAGCAAATTTTCCAAATTTTTCATATTTTTCATTATGATATCCTATCATTGCATCCATTGTATTTGAAAATCTTTGAAAAATTATTCCATTTAAACCAAATAAAAGGTAATAAAAAAATGGAGATACAACACCATCAACAAAATTTTCAGCAAGTGTTTCTATTGCAGCAGAATAAAGTTCTTCTTTTTTTAAACTGCTTGTATCTCTGCTAACTATCATAGAAACTGAATGCTTTAATTTCTTAATATCATCTGTATCACATTTTTTGACGTGTTCATAAAGACTTGAAATAGAAAATGATGATTTTATAAAAAATATAGATAAGATAATTGAGAATATTAATGGAAGAATATTAACAAAATATACTAATAATTGTGAAAAAATCAATACTATACTCACCAATAAAACTCCATTTAATATGTTGTGTTTTAATTTTTTATCAATAAAATTAGTTAAAGTACCACACCATACAACTGGATGAAAAAACGGTTTGGGTTCTCCAAATAAAATATCTAAAAAAATGGCTGCTATAAAAGAAATCAAAGTAATTCCTCCAAATTAATATTTTTACTTACAAAATTAGCCCAATTATTTATTTCATTGTCTATTGAAATTGTAGAAAAATCTTTATGTTTTAATCCTTTTCTTTCTCTAAAATAATTTAAGAATTCTTGAGTAAATTTAGTATTAAAAAATATTCCATGTAAGTATGTACCCAATACTTTATTGCTTAAATATCCACTCTTTTTACCATCAAAAGTTCCAAATTCATTTTCCTTTATTGAAGTTTCTCCGTGTCTTATCTCATATCCACTAACTTCATATTTTTTGTTATTAAAAAGAACATTGCCACTTATATTTACAGATCTTTTTTCTTCATTAAAATGGGTATCATAAGGAATGAATCCAAATCCTTCTACTGTTTTATTACTTTCTACATTATCAAATATTTTTTTACTAAACATTTGAAATCCACCACATATTCCAACTATGAAGGTTTTATTTTTATGAGCATTTAAAATTTTTTCATAAATTCCATTTTCTTTCATCCAAATTAAGTCTTCAACAGTACTTTTGCTTCCTGGTATTATTAAAATATCTCCACCAACTTCATTGGCTGAGTCAATGTATTTAATACCATTGTACCAAGATAATGGCATAAAATCAGAAAAATTAGATATTCTTGGTAGTTTTACTATTCTTATATCCAAATCTCCAGTTTTTTGTTCCCACTCAATCATTGAATCTTCTTCTGGTATTTGATGTTTAAAGTATGGAATTACTCCAAGTGTTTTTACACCATATCTTTTTTCTAAGTAGTCAAATCCATCGTTTAAAAGATCTTTGCTTCCAAAGAATTTATTGAATACAAATCCTTTTATTAAATCTTTTTCATTTTCATCTAAAAGTTCCATTGTTCCAACTATTGATGCAAAAGAACCACCACGATTTATATCGGTAACAATAATAGTATCGGCATTTACAGCTTTTGCAACAGCCATATTTGTTATGTCATATGGTTTTAAATTTATTTCAACAGGACTTCCAGCACCCTCTATAATAACATAATCATTTTCACTTAAAAGTTTTTTTAAATCTTTTATCCCCTCATTAAAGTATTTCATTTTTTTATCCATCATGTAAGATCCGGGTTTTACTTTATCTACGAATTCACCTTTGAAAATGATATATGTTTTTCCATTTTCTGGTTTTAATAATATTGGATTGTAAACAACAGAAGGTGGTTTTTTACAAGCTATTGATTGAACATACTGTGCAACACTCATCTCTCCTCCTTCTATGGAGACCATAGAGTTTAAACTCATGTTTTGCATTTTAAATGGTGCAACATTAAATCCTTTATTTGTTAATATTCTACAAATAGCAGCAACTGTTAAAGACTTTCCTGCTCCAGAAGATGTTCCAACAATCATTATTGGTTTTCCCATTTTTTCACCAACCCTTTATTCAATAGTATGATTTTATCATACTTTCTAAAAATTTTAAATTTTTGTTTTTCTTTGTTATATGAGATAAATTATATATTAAATTAATTTAACCTTCAATTTTTTTGATTATATATATTTCAAAATTAAAGTATAAAAAATTTGGTTTAGTTTTTACAATAGTATCTTTTATTTTAATATTATTTTTGTTATAATTCAAATGCAAATGATTTGCATTTGAAAAGGAGGGTGTTTTATGAAAAAACTTATTTTAATGATTGTTTTATTATTTTCAATGGTTGCATTTTCTTTAAACATTTCAACAACTATCTATCCTTATTATCTTGTTTTAAAAGAAATAGCTCCAAAAGATAGTATAAATTTAATTGTAGAACCAGGAAAAAGTCCACATACTTATGCATTAACTCCAAAAGATATGGCTAAAGTTTATAGAAGTAATATTATAATCGGAAATGGTTTGAATGCGGAAACTTTTATTGAAAAATTATTATCTAATTTGAAGAAAAAAAATATTGAAGTTCTTTTATGTGGAGATTCAATACCTAAAAAAGAATTAATAAATGTTAAAAATGAAGGAATAAATCCTCATATTTGGTTGAATCCAAAGTTTATGTATGAATATATTATTCCAAATATTTTAGAGAAATTAATTATTTTAAATCCTAAAGAAAAAAATCTTTACGAAAAAAATTCAAAAAAATTAATTGAAAGATTGAAAAAATTAGATGTATATCTTTTAAATTTATCCAACAATATAAATGGTTCAATATATACATTTCATCCATCTTTTGATTATTTTGCACAAAGATATGGTATAAAAATTGCAGGAATAATAGAAACTTCACCTGGTGTAGAACCTTCAGCAAAACAATTAAAGGAGTTATCTAAAAATGCTAAAGGTGTAAAGGCCATTTTTACTGAACCACAATTAAATGGAAAGTCAGCAAGAAAGATATCAGAAACTTTAAAAATTAATAAAGGTATTCTTGATCCAATAGGAAGTTTTGAAATAAAAAAAATAGATGAGCTTTATATAAATAATATGTTTGAAATTTTAAAAAAGGTTGATTTTTATGAAATTAACAAAAATAAGAATTGAACTTTTAAATATATTTAAAAATTTAAATTATCCATTGAGTGCAGAACAAATATATGAAAAAGTACATGAAAGGTGTAATCTTTCTACAATTTATAGAAATTTATCTTATTTTGAAGATAAAAAAATAATACGTTCAATGGTTTTTTCGGATAAGATTAAATATTATTACTCTGGAGTTGGACATTTTCATTTTGTATATTGCAATGTTTGTAAAAATTTTGAAAAAATAAATTTATGTTATGAAAAAGAGTTTGAAAATTATTTAAAAAATACACTTGAATTTTCAGTAAGTGATCATGTTCTGTACTTTGAAGGAGTGTGTAAAAAATGCAAAAATCAAAAAAAATTGTAATGTCAGTTGACCAATTAAATTATAAAGTTGAAAATAATGAAATTTTAAGAAATATAAGCTTTAATATTTATGAAAATGAATTTGTTGGAATAATAGGTCCAAATGGTGCAGGAAAAACAACTTTAATAAAAATTTTATTGAATGAAATAAAAGAATATCAAGGGAAGGTTAATATTTATAAAAAAATAGGCTATGTTCCACAACATGATTATTTTGATAAATCATTTCCAATAAAAGCATATGAAATAGTTTTAATGGGTATGTATAAAGAAATTGGAATATTTAAACATTATAAAAAATACCATAAAGAAAAGGTACATGAACTATTAAAGTTATTACAAATAGATTATTTATATGATAGAAAAGTTGGGAAACTCTCAGGAGGAGAGTATCAAAGGTTAATGCTTGCAAGAGCTCTTGCTTCAAATCCTGAAATTTTAATATTGGATGAACCAGAAGCAGGTGTTGATAAAAAAGGAGAACTTTTATTTTATAAAACTTTAAAAGAATTGAATAAAAATATGACCATAATAATGGTTTCTCATGATCTTTCTATGGTTTTTAAAGAAACTAATAAGGTTATGTGTTTAAATCATTCACTCCATTGCCATAAGAGTACAGCTGATATGACTGCGGATGATTTGAAAAAAATATACTCCGAAAGTTTAGAAATGCTAGTTCACATTGATAAACCTTTGAAAGTGGTGAGTAAAAATGATTGAGATCTTTCAATATGATTTTATGATTTATGCAATAATAGGAAGTGTATTATCTGGATTTAGTTGTGCTATACTTTCTAACTTTATAGTTTTAAAAAAAATGGAATTTATTGGAAATGGAGCAGCACATACAGCCTTTGGAGGCATAGCTTTAGCTATACTTTTAGGATTAAATATAAATTTATTTGGTATATTAACGGCTATAATATTTGCAGTTTCAATATATTTTATGGGAGAAAAACAAAAGATTCAAGAAAATAGTGCAATTGGAATGCTTTTATCTCTTTCAATGGCTCTTGGTATAATTTTTTTATCTTTAAAAAAAGGATATACGCCAGAAATAACGAGTTATTTGTTTGGAGATATTTTAATGATAAATAAAAGTGATTTAAATACTTTATTTGTAATGTTAACTATAATTATTTTGGCTGTAGTACTCTTTAATAAAGAATTAAAATTTTATACATTTAATCAAAGAATGGCTAAGATTTATGGTGTTCCAGTAAATATAATAAATTTTTTATTTCTAATAATAGTATCAATTGTAGTTGTAACATCTGTTAAAATAGTTGGGATTATTTTAATAACAACATTATTAATAACACCTGGTGTAATGGCAAAAATGTGGGCAAGTACATTAAATGAAATGATTGTAATATCTTCAATTTTTGGCATAGTATCTTCATTTTTGGGAATAATTTTTTCGTACTTTTTTAATATACCATCTGGTCCTTCAATTGTAGTTACTATGTTTGGATTTTTTGTACTTTCATATATTTTAAAGTTAAGTATAAATTTATTGAAAAAGCAATAAACTATAAAAAAATGGCGATTATCGCCATTTTTTTATAGTTCTTCTACTATTTTTATTTCATCTCCAGTTTTTAAGAAAGCTCCATTTGCTTCATCTGTATCAACATGAAATTCAAGTGCATATTTTTCACTTACTCTTATTAAAACGTCTCCATATATAGTTTTTCTTCCATCTGTATTACACATAACATAAACTATATCTTTATCTTTTACTCCATAAAATTCTGCATCTTTTGTATGCATATGAATATGTCTTTTGGCAAGAATTAATCCTTTTTCTAATTCAACTTCTCCTTTAGGTCCAACTATTTTTATTCCAGGTGTTCCATCTAAATCTCCAGAATCTCTAACTGGAGGGTTAACTCCAAGTTTAAATGCATCAGTTTTTGAAATTTCTACTTGTGTTTCTTTTCTAACTGGACCAAGTACTCTAACTCTTTCCATTTTTCCTTTAGGTCCAACTAATGTTACTACTTCTTCTGCTGCATATTGTCCTGGTTGTTTTAAATCCTTTATGTTTTTTAATTCGTGATCTTTACCAAAAAGAATTTCTAAATCTTTTTGAGACAAGTGTAAATGTCTGTTTGAAACCCCAACTACTATACCTGATTCTTTTAATTTCATTATTACACCTCCAAGAAGCTAAACTATTTTGGTGATACCATTGATTTTCTTATATATAATTTAACATTTTTAGGGCTTGTTATTTCAATTACTAATGGTCCTCTTCTAACAGATATCCATCCCAATCCTGGAATTGAAAGATCATAACCTTCATTTATTGTATACTTTTTTGTTTCAAATTCTATTTCATCAAAGTTAAAATTATTTTCAAATGGTGGATATAAAACTTTTCTATTGTTGATTAGTTCTTTTGCTTTTTCTTTATTTGTATCATGGATACTTATATTTTCTGGTGCAAATACAAGAAATACAGGTCTTAACTCTTCTTTTGCTAATTCTAAAACTTTAAATTTTACTAAACCACTTATAAAAATAATTCTACCTGGTTCTACTTTAAATGTTTTTCTTGATATTTCTTTTTTTGGTATTATTTTTACTTGTGTAAAAATATCAAACATATCGCAAACTCTATCTTTTGGTTCGATTCCTGGTGTATCATAAATTTCTATATCATACTTTTTTATTTTAGTTTTTATCATCTTTAATGTTGTTCCTGGGTAAGAACTTATAGTAACATCATTATGAGAAAACGAATTTATTAATGATGATTTACCAACATTTGTAACACCCATTATCAAAGCTTTTTTTATATTTTTTTCATTTAAAATTCTAAAAATCCTATTCATACCAAATTTTTTCTTTGCACTTACCATTCTAATATTTTCTATTTTTATATTTATTTTATCTTTAACTCTATCAAATATCCATTTTTTTAACTCTGCAAGAGGTAAAGTTTTAGGTAATAGGTCTATTTTATTAACAAGTAGCATTATATTTTTTTCTTTTAATTTTTTTGAAATGTCTTCTCTAAACGTTCCTTCAAAATCCATAACATCTATAACCCAAATTATATTTTTAAAATCTTTTAGAACTTTATCTAATTGTGGATAAAAGTCAGATTTTACTGTTATTGGTAAAAGTTGATTATAATGTTTTAATTTAAAACATCTTTGACAAGTTATTTTTTCGCCAGTTATTTGCTTTTCTTGTAATATATTTTCAGGTAAATATCCAGGTTTGTTTTTATCTTTTGTTTGTATTTCAATTCCACATCCACTACATTTCATTAGATTTTTCCTCCTTGAGTAACGTAGGCTTTTTTCTCATCATTTTTATACTTATTTTTTCAAATCTTCTCACAAATTTTGTCCATTTTCCTTCAGTTTTACTTAAAGGATCTACTTTTATTGTATATATTCCACATGAGTTACCTGCTATAATATCTGTATAAAGCTGATCTCCAATTAAAACACATTCATTAGATTTGTAATCATACTCTTTTATTTTGTTTAATAATTTAAAGTTTAATGGTTTTAAACTCATATTCATTACACTTATATTTAATTTTTTTAATTCTTTTTTTATTTCATCAAATCTATATGCTCCACCATTTGAAGCTATTAATATATTCATGTCTAAGTTTTGTATTTTTTTAAACAGTTCAGTTACTTCTTTACTTAGAGTTGATGTATGCCAAGGAACAAGTGTGTTATCAAAATCAAAAATAATAAGTTTGTGGTTTGTATTTTTTATTTTTTCATAATCAATTTCAAATATATTTTTTTTAAATTCATTTGGAACTGCTAAATCCATAACTCTAAAAAACCATCCTATTGTATAAAAAAATAAAAAATATAATACTCTCGATACAATAGCCATAGTTTTTTTAAATCCATGATCTAATCCATAAGTATATGGATTTATTAAGATTGTATAGAGTCCAAGTTTATTTCCAGCTAGTATATCAGTCATAAATAAATCACCTATAATTGCTGTGGTATTTATTTCTGCGTTCATTTCTTTAATTACTTTTTTTAATTTTTTAACTCCAGGTTTTCTCATTTTTGAATAAACACTTATTTTTCCATTTAATATTTTTTCTACATGTTCAACTCTTTTTTTGTTTGCATTTGTAACTATTGCAATATTAAATCCATCATTTAAAAGACGCTCGAAGAGTTCGAGCGTCTTCTTATTTAATTTTTTTTCTTTCCATACAGTTACAGTAAAATCATAATCAAAAAAAAGTGTTTTAAATCCGTACTTTTTTAATTTTTTATAATCAATTGAATAAATATCTGGTTGGTTTTCTCTTGGTAGAGGTATGTATTTAAACGATCCCGTTGTGTGGCTCAATTTTTACTACCTCCAATTTAACCTGTTCATTTAATGAATTTATTAAAGTTAATGCTTCATCAACTAATCCTCCTGGAACTATTATTTTAATATATCCATTTTCTACTCTATTTCTAACACTCATTACATGATCTTCTGCTTCTAATAAATATGTTATTAGATGAACATCTTCTTTGTTTATTTTTAAATAAACATCGTATTCCATATCAATTTTTTTTTCTAATTTTTCCATTTTTTCCTCCAAAACAATATAAATTTTCCCTTAATTATAACTCAATTTTTTTAAAACTATATAACTTTATAGTATCTTTGCAGCAACTGTTGCAAGATTTGATCTTTCACCTTTTACCATTATAACATGTGAAGATAGTTCACTATTTTTAAATTTATTTGTTGCATATACTAATCCATTAGAAGAAGCGTCTAAATAAGGATTATCTATTTGATATGGATCTCCAGTTAAAATTATCTTTGTTCCTTCTCCTACTCTTGTTATTATAGTTTTTATTTCAGCTGGTGTAAGATTTTGTGCTTCATCTATTATCATATATTGTGATGGAATTGAACGACCTCTTATATAAGATAAAACTTCTATTTCTAAAATATCTTTTTTCATTAAAAATTCATCAGGTTTTTTACCTTTTCCTTCAAATAAAAATTCTAAGTTATCATATATTGGTTGAAGCCATGGTTTCATTTTTTCTTCAACATTTCCAGGCAAAAATCCAATTTCTTTTCCCATAGGTATTACAGGTTTTGACACTAATATTTTTTTATATAATTTTAAATTAAATATCATTTCTAATCCTGCAGCTATTGAAATTAAAGTTTTTCCAGTTCCAGCAATTCCAATAAGACTTATAAAAGGTATATCTGGATTTAATAGAGCATCAATTGCAAATACTTGTTCAATATTTTTAGGAGTTATTCCAAATATTTCGGTATTTAGATCAACTACTAAGGGTATTAACTCATTAGTACTTTTTTTATATCTAAATAAAATATCATTTAAATTTATATACATATTTGGTAATAGTTCAGTATCTTTTAAAATATCATCTTTTATATATTTTTGTTTTTTTATATCTAGTTTTTCATTTTTTATAGATATATATCCTTTGGGTAGTAATTCCATATCAACTTTATCTGTTAAATAATCTTGACTTTCAATGCCCATTGCATCAGCTTTTACTCTTAAATTTAAATCTTTACTAACTATTATAGTTTTTACAGGGTCTGTTTTTTGTAAATAAAGAGCATAAAAAATTATAAAGTCATCCATACTCTTTCCTAAATATCTAGGAATTTCATTATCATAATTTTTATTTAATGTCATAATCTTTAATATGCCACCATTTTCTAATTTAATTCCAGAATGAAGATTACCTTTTTTTCTAAGTTTATCTAAGATTCTATTAACATCTCTCGCTGATTTAGCAACCTTATCTTGTCTGGTTTTTAATTTATCTATTTCTTCTAAAACAGGAAATGGGATTATAACATTATTATCTTGAAAATTAAAAATTGCTTTTGGATCATGTATTAAAGTATTGGTGTCAAGTACATAATTTTTTACCATAAAACCACCTCCGAAATTAAAGTTCTTTCAATATAATTATACCATATTATTCACTTTTTTTTAACATTCATTAATGTTTTTTATTTAATAAAAAGTATGGTACAATTAAAAAATTCAATATAAGTGCAAGGAGGTAAAAATGGATTACATAAAAAAAACTTATGAATTTATAAAAAAAGAGATTTCATTTCAAGAAGGATCACATAATTTAGATCATACATTAAGAGTTTTAAAAAATGCTGTAGATATACAAAAAAAAGAGGGAGGAGATTATGAAATTATTGTTCTTTCAACTTTATTACATGATATAGCAAGAAATTTAGAATTATCTGGAAAAATTTCATGTCATGCTGAAGAAGGCGCAAAAATATCAAAAAAATTTTTAAGAGAAATAGGTTATGAAAAATACGAAGAAGTTGCTTATTGTATAAAAACGCATAGATACAAAAAAGGAATAATTCCTCAAACTTTAGAAGCAAGAATTTTACAAGATGCAGATAGATTGGATGCACTTGGAAGAATAGGTGTTGTAAGAACATTAATACATGATAGTAATAGGCCATTAGAAAATTCAATAAATCATTTTTATGAAAAAATTTTGAAGTTAAAAGACACAATGAATACTAAAACCGCAAAAAATATAGCAGAAAAAAAACATAATATTGTTTTAGAATTTGTGAAAGGATTAGAAGAAGAATTAAACAATAAGTATACTTTTTAATTAATTTAAAATAAATGTAGTTAAAAGTATATAATGCAATAACAGTGATAAAATAAAAACTCTTGACTAATAAAAAATCTTATAGTATAATATACATGATTTTACGAGCAGGAGTAGCTTCAACCGGTAGAGCGCTGCCTTGGTAAGGCAGAGGTTGTGGGTTCGAATCCCATCTCTTGCTCCATGTGCGAATGTAGCTCAGCGGTAGAGCACTTGCTTGCCAAGCAAGGGGTCGCGGGTTCGAACCCCGTCTTTCGCTCCATATGCTCCGGTTTTAACCGGAGTTTTTTTTTACGGAGGCGATGTTATGAAATCTTATGAATATTATGATAAAATTTCTAATGAGTATGATTCAATGTATGAAGATGTTTATTGGAAATTACACAATAAACTCATAAGAGAAGTTATAATGGAAAAAGTTTTAAATCTTGAAGGGGAAAAAGCGTTAGATATTGGTTGTGGAACAGGTATTTGGACTAATCTTTTAAAAGATATTGGATTTGATGTTTATGCTATAGATCCTTCTGAAAATATGGTTAATATAACTCAAAAAAGATTAAAGAAAAATAAAAATATAAAGGTTGGATTTATAGAAAATATTGAATTTGAAGAAACTTTTGATGTTATACTTGCAATAGGAGATATTTTGAGTTATGCAAAAGATCCTTTAAAAGGAATTGAAGAGGTTAGAAAACATTTAAATAAAGATGGACTTTTTATTGGAACTGTTGATAATTTGACAAGATTCATTCAAGATGCTTTTATTCAAAAGGAATTTAATCTTATGAAAAAAATGAAAAGAGAAAAAAGTGTACAAATAGGACTTTCTCAAAAAATGTCTTTTGACTCAAAACTCTATACAGTTAATGAATTAGAATCTACATTGAATGCTTTTTTTAATGAAGTAGAATTAAAAGGGATAATGGTTTTTCCATTTGAAAATGATGTGGAAATGTATAAATATTCATATGAAATCTATGAACTTGAAAAAGTTTTTATGAATGATAAAAATCACATAAACAATGCCGAACATTTAATGTTTATCTGTAAAAAATGAAAAGAAATATATATATGTTACGAAGAATGAATATATATAAACTAATAAAATATGCACAAATAGGAGATAATGAAGCCATGGGAATGATACTTGAGAAATTTGAACCTATGGCTAAATCTGTTTCTGCAAAATATTATGGAACTTGGGCAGACTTTGAAGATTTTGTTCAAGTTGGATTTGTTGGATTAATACAAGCAGTTTATAATTATAAAGAAACTTCTAATACAAAGTTTTCTACATTTGCATATCTAAATATTTCTTCTGAAATAAAGTCTTTTATTACTTATTTGAATAGACAAAAAAATAAGGTTTTAACAGAAGCTATCGATATAGATAATACACTTGATGATTCATCTGAAAATGGAGAAAGTTTTTTTGAAACAGGTGAAGATGAATTTAAAAATATACTTGTATCGTATATAATTGATTCGAGTATTGAAACTCTAAAAGATGATGAAAAAGAAATGATAAATCTTTGGAGAAAAGGTTATAGTTACTCTGAAATTTCTAAAAAACTTAAAATAAAAAATAAAAAGATAGACAATACTATTCAAAAATTAAAAAAAATTTTATCAAAAAAAGAAAGTGTTTATTATAAAGTACAAACTTTTTTTGGAGGTGGAAAATGAAATCTAAAATTATTTTATTTACAATTGCTATAGTTGCTATTTTACTTGCAATTGGAACTGAAATAAGAATGTTAAATTTTAAAAGATCTATGGAAAAACAAATGAATAGATTGAGTGAAATTACTAATTCGAAATTATCAGATGTAAATAAAGAATTAAATGATTTAAAAGTATACTTTGAACCAAATGGAATAGTTGAAAAATATATAATTTCAAATAATTTTTTGAAAAAAAATATGGATGATTTAGACAAAATTTTAACTGATTTTCAAAGCAATTCAAGAACGGGATACTTACAAATATATATAATTGGTTCTGAAAATGTTTGGTGTGCATTTAAAAATCCTGAAGGTAAATATATTTTTCAAGGAAATTTAAATCCAGGATTAAATCCAGAAAAATTTTATTTTTTTAAGTCACCATCAATAAATACAAAGTATACTTATACGATAGATTATTGTTCTTCGTTTAAAACAGGTAATATGGATAAAGTATACTTTTTGATTCAAGAACCTGGACAATCTAGAATCAAAAAGCATCCTGAAGAAAAAATTGAAAATATAACAAAAGCTTTAAATCTTTACATACCAACAATAACAGGAAAATAAGGGCATAGCCCTTATTTTTTTACTCTTGAAAAAAGAAGTTTCTTAATGTATAATCTTTGTGATGAAGTGAAAATTTTTTTTGATATTTTTTAAGGATAATGTGTTATAATTAACAATAAGAATTTATGACTGGAGGGAAAAGCATGGAAAAAGAATACAACCCCGGTTCATTTGAACAAAAATGGAGAAAAAAATGGGAAGATGAAGGGATTTTTAAAACACCACAATATTCAGAAAAAGAAAAGTTTTATAACTTAATAATGTTTCCGTATCCATCTGGAACATTGCATGTTGGACATGTAAAAAATTATGTTATAGGGGATGTTATTGCAAGATACAAAAGAATGAAAGGTTTTAATGTTTTACATCCTTTTGGATATGATTCATTTGGATTACCTGCAGAAAATGCTGCAATAAAAAATGGAAATATTCATCCAGAAACATGGACTTATAAAAATATAGATATTATAAGAAATCAAATAAAAAACTTAGGAATAAGTTATGATTGGGATAGAGAAATTATGACTTGTTCAGAAGATTATTATAAATGGACACAATGGTTATTTGTAAAATTTTATGAAAAAGGTCTTGCTTATAAGAAAAAAGCAGCTGTTAATTGGTGTCCAAGTTGTAATACAGTTCTTGCTAATGAACAAGTAGTTTCAGGAAAATGTGAAAGATGTGGAACAGAAGTTGAAATGAAACAACTTGAACAATGGTACTTTAAAATTACAGATTATGCTGAAAAATTATTACAAGGAATAGAAAAATTAGATGGATGGCCTGAAAATGTAAAAACTATGCAAAAAAACTGGATAGGAAAGAGCTATGGAGCAGAAGTTGAATTTAAAATAGAAAATTCAAATGAAACTTTTAAAGTATTTACAACAAGACCAGATACATTATTTGGTGTTACTTTTATGGCGCTTGCTCCAGAATCACCACTTGTTGAAACTTTGACAACAAAAGAACAAAAAGAAGAAGTTAAAAATTTTATGAATAGACTTTCACAACAAGATAAATTTAAAAGAATAGCTGAAGGTGCAAAAAAAGACGGAGTATTCACTGGAAGCTATGCAATAAATCCAGTGAATGGTGAAAAGATTCCAATATACGTTGCAAACTATATTTTGTTTGAATATGGTACAGGAGCTATTATGGCTGTTCCTGCCCATGATCAAAGGGATTTTGAATTTGCAAAAGAGTTTGATTTACCAATAAGAGTTGTTATTTTGCCAGAAGGAAAAGATTTGAATGCGAAAGAAATGACTGAAGCACATGTTGCTGAAGGAATAATGTTGAATTCAGGAAAGTTCAATGGAATGAAAAATAAAGAGGCATTAAAAGAAATTGCAAAATGGTTAGAAGAAGAAAAAATTGGAAAAATGACAACTCAATATAAATTGAGAGATTGGTTAATTTCAAGACAAAGATATTGGGGAGCACCTATTCCAATTGTATACTGTGAAAAGTGTGGAGCTGTACCAGTACCTGAAAAAGATTTACCAGTAAAACTTCCAAAAAATGTTGAATTTGATGAAACTGGAAAAAGTCCTTTGGTAGGGAACAAAGAATTTGTTGAAACAACTTGTCCAGTTTGTGGTGGAAAGGCAAAACGTGAAGTTGACACAATGGATACCTTTGTTGATTCATCTTGGTATTATTTAAGGTATATAAATCCAAAGATGACAGATAAAATTTTTGACAAAAAAGATGTAAATAATTGGCTTCCTGTTGATCAATATATTGGTGGAGTAGAGCATGCGATTCTTCATTTGCTATATTCTAGATTTATAACAAAAGTTTTGAACGATATGGAATTAATAGATTTTGATGAACCATTTACTAAATTATTTACTCAAGGAATGATTTACAAAGATGGCGCAAAAATGTCAAAATCAAAAGGAAATGTGGTTTCTCCAGAAGACATAATAAAAAAATATGGCACAGATGCACTTAGAACTTATATACTGTTTATAGGTCCACCTGAAAAAGATGCTGAATGGAATGATAGCGGTATAGATGGAATATACAGATTTTTAAATAGAGTATGGAATAATTATGTTAAATTCATTGAAAAGATAAGAGATATTGAATTAAATACAGTAGAAGTAAAAACAAAAGAAGAAAAAAATCTAAGAAGAAAATTACATCAAATGATAGAAAAAATAACTAGAGATATAGAAGGAAGTTTTCAATTTAATACAGCAATTAGTGGTATGATGGAAATAACAAATGAACTTTCACATTATTTAAAAAATGTAAAAGAAGAATCTTGGAATTTGAAACTTTTAAAAGAAGTTGGAAGAGATTTTGCAATAATGATTTCACCTATAGCTCCTCATTTATCAGAAGAACTTTGGAGTTTAATGGGAAACAATGAAACAATTTTAAAAGCAGAGTGGCCTAAGGTTGATAAAAAAGCATTAGAAGTTGATGAATTAAAGATAATAGTTCAAGTAAATGGAAAGGTAAGAAACACAATAATGATTTCTCCAGATGAAAAAGAAGATAAAGTAAAAGAAATTGCTTTAAATGATGAGAGAGTAAAAAAATTTATAGAAGGTAAAAATATTGTAAAGGTAATTTATGTTCCTAAAAAGCTTGTTAGCATAGTTATAAAGGGGGATAAATAATGCTAAAAAGAAGCAAAATACCTAAACCGACAGTAAAAAGACTTGCTGTATATTTTAGATGTATAACAAAGTTAAGTAATGATGGAATTGAAAAAACTTCGTCTAAAGAAATTGCAGAAAGGCTTAGTATAAAAGCTTCTCAAGTTAGAAAAGATTTATCATATTTTGGGGAATTTGGTAAAAGAGGAGTAGGTTATGATATAGAAAAACTTTCGTTTAAGTTAAGAGAAATATTGGGTTTAGAAAAGTTATGGAATGTAGCAATAGTTGGATCTGGAAATCTTGGTTTTGCAATAGCAAATTATTCAGGATTAGAAGCAAATGGATTTAAAGTGGTTTCTGCATTTGATATTGATGAAAAGAAAATTGGCAATGTAATACTTCCTGGTGTAACTATAAAAAGATTTTCTGAATTTTCAAAAGAAATTAAGGAAAAAGATATAGAAATAGCAATATTAACTGTTCCTGCAAATGTTGCACAAGATGTAGCAGACAAAGTTATAGATAATGGAATAAAAGGAATATTGAATTTTTGTCCAGTTCCTTTATCAGCTCCTGAAAATGTATCAATAGAAGATGTTGATTTTGTAATTTCATTAAAGGCATTGACTTTTGAAATAACTTCAAGAGAACAAGAAAAAAAAGAACAAGAAAAAAGAAACAATGCCTAATTTCAAAACACACATTTCGAGCGGAGTAATAACTTTTCCAGTATTTTATTTGTTATTTTTGTACTTAGGAAAAGTCATTACAGGATATTATTTTCATTTTAATGCAATTCAAATAACTTTAGGTTTTTCTTTGTTTATACTTGGTAGTGATTTTCCTGATGTTGATCATCAAAACGCTTTAATAAATAAGGTTTTTAGAATATTGCTTTTAATTTTTTCTGTTTATTATGCGTTTGATAATAAAATGTTTTTTTTAAAGTACATTAAACTTCCATTTTTATTTGAAAGTACTTTAATATTAATTTTATCAATTGTATTTGGAATAGTAATTGGATATATTTTTAATAAGACAACAAAACATAGAGGTATTTGGCATTCTATTTTTATGGCCATATTTTGGAGTATATTAATATACTTTTTAAATTATAGGTCTTTTGCAAAAGTATATTATTCTATTAGTTTTTTATTTGGAGATATACTACATTTATTTTTAGATAAATTTTTTCAAGAAGGAAAAAATGGACTTAAATTAAAATGAGAGATTAGATTTTCATCTCTCATTTTTTGAAGGTGATAATATGTTATATTTAATTCTTTTTTCTTTTATAGCAGGATTAACATTAGGTATAAAAGGTAAGTTAAGGTTTTTAAAAAAATATAAACCAGTAACATATATTACTGTTTTGCTTTTATTTTTTATGGGAATGGATATAGGTGCAAATAAATCATTAATATCTCAACTTCCTAAAATAGGTCTATTAGCTTTTTTTATAGCTATATTTTCTATTATAGGTAGTATTTTATTTACTATGATATATGAGAAAGCAAGAAGTGATAAAAAATGATTTTACTTTTATCTGCTGTTATTTTAGGAATTTTATTTGGACTTTTTTCTGGTTTTAGTATTTCTGGAAATTTAATTACTGTATTATTAATGATATTGGTTTTTACTGTTGGTGTTGATATAGGACTTGAAGAAAATATACTTCAAAAAATAAAAGCTAGTATCAAGACTATACTTATTCAATCTATACTAACTATTTTAGGGACATTAACCTTTAGTGGATTTGTTGCTTTTTTTACTTCTTTAACAGTTAAAGAAGCAATTGGTGCAGCTTCCGGATTAGGATGGTATTCATTGTCTGGAGTTATGATTAGTGGTATGTATTCTCCAGTTCTTGGAGCTATTTCTTTTACATCAAATGTAATAAGAGAAGTTTTGGGCATTCTTTTGATTCCCATAGTTTCAAAGTTTTCAGAACTTGGTGCAATTTCAATAGGTGGTGCAACAAGTATGGATACTCTTTTGGGAATAATTTCAAAAAATACAAATAAAAAAAATACATTGGTAGCTTTTGGACAAGGTGTTGTATTGTCAATTACTGTTCCGTTATTGATAAGTATAATTTTTAGTTAGTTTTTAATCGTTTGATTTTAAAAAAAATGAAATATTTTTTTAAAGTAGTAGTGCTATTATATGAGTGATGTTAAAAAAATAACAAGTTAATATCTTCCTAAGATGAAGGATGAAAATCTAACATTGAGGGAAGGGGTAAAATTACGGGTAATCTACCCCTTTTCTCAGTGTATGAGAAAAGGGGTGTTTTTTATTGGAAAATAAAGTTGCCATGATTTCCATAGCAATAACGGATAGAAAAAATTCTTATTTACAGGTTAACGAAATTCTTCACAATTTTAGAGAAAAGATAAATCTTAGAGTTGGATATCCAATGACTGAAAAAAATGTTGCAATAATTTTTATTATTTTTGAAGGTACAACAGATGAAATTGGAGCATTGAATGGTAAATTAGGTCAGTTAAATGGTGTAAAAGTAAAATCACACACATTAAAAATTTAGGAGGAAAAAATATGTTTTATGCAAAAGAAATAGAAGAAGCTGAAAAATTAGAATCATTTATACCAAATGATGAAATACTTGATTTGTTAGAAAACACAAAAGAACCAGATAAAAAATATGTTAGAGAAATAATTCAAAAATCTTTAAATAAAAATCGTCTTGAACCTGTTGAAGTTGCTACTCTTTTAAATGTAAAAGATGAAGATCTTTTAGAAGAAATTTTTGAAGGAGCAAGGACTTTAAAAGAAAAAATATATGGAAATAGAATAGTTCTTTTTGCTCCTCTTTATGTTGGAAACGAATGTATAAATGATTGCCAATATTGTGGTTTTAGAACATCAAATTCAGAAATATACAGAAATTCTTTAACAATGGAAACATTAGAAAAAGAAGTAGAATCATTAGTTGATAAAGGACACAAAAGATTAATAATGGTTTATGGAGAACATCCTAAATATGATGCAAATTTTATTGCAAAGACAGTAGAAAAAGTTTATACAGTAAAAAAAGATAGAGGAGAAATAAGAAGAGTAAATATAAATGCAGCTCCTTTAAATATAGAAGAATTTAAAACTGTAAAAGATGCAGGAATAGGAACTTATCAAATTTTTCAAGAAACATATCATCTTGAAACATACAAAAAAGTTCATCCAAGAGGTCCAAAATCAAGTTTTAATTGGAGATTGTATGGACTCGATAGAGCAATAAAGGCTGGTATTGATGATGTTGGAATTGGTGCATTGTTTGGACTTTATGATTGGAAATTTGAAGTTATGGGGCTTTTGTATCATACAATTCATTTTGAAAATACATTTGGTTTTGGTCCGCATACAATTTCATTCCCAAGATTGGAACCCGCTATAAATACACCAATAGCAGAAAGACCACCTCATCTTGTTTCTGATGAAGATTTTAAAAAATTAGTTGCAATAATAAGGCTTGCAGTTCCTTATACAGGTTTGATATTAACAGCAAGAGAACCACTTGAAATAAGAAATGAAGTAATAAAATTTGGTGTATCACAAATAGATGCTGGTTCAAGTATAGGAATAGGTTCTTATTCTCATGATGACTTGGAAAATTATAAAAAAAGTCAATTTGTATTAGGTGATCAAAGAAGTTTAGATGAAGTAATAAAAGAATTAACAGATCATGGATTTATTCCATCTTTTTGTACAGGATGTTATAGACTTGGAAGAACTGGAGAACACTTTATGGAATTTTCTGTTCCAGGATTCGTTAAAAGATTTTGTACTCCAAATGCAGTAACTACTTTAATGGAATATGTTGTTGATTATGCTTCTCCTGAAACGAAAAAATCTTGTGAAATACAAATTCAAAGAGAATTAGACGCAATGCCTGAATCTGAAATGAAACAGCAACTTTTAAAATATATAGATATGGTGAAAGATGGAGTTAGAGATGTATACTTTTGATGATTTGAAAAATAAAATAGATTATATTTATGATACCTTCTCAGTCAAAGCTTATTTGACTGAGAAGATCAAAAAAAGAGTTAGTTATATCTATGGAAAAGGTGATGGATTCAATCTTTCTCCAACTAAGGTTTATGAAGATGAAAAGTATATTGTTTTTGTTGAAGCAAGTGAAGAACTGTGTAAAACAATAATGAATGAATGGTAAAAAGTCTTATATAAAAAATAAAAGACTTGTAAAGGAGAAAATATGTTTTCAAAAATATATGAAAATGCAAATAAAAAAATAAAATGCATTTTAGATAATTTTTCTAAAAATGAAACAATAGAAAAAGAAGATATAATATACATATTAAATTTAAAAGAAGTAAGAGAAAGAGAAATAATCTTTCAAGCTTCAGAAATAATAAAAAATAAATATACATCTGGATATATAAGTGTAAAAGGAGTAATTGAATTTACTAATTATTGTAAAAAAAACTGTACGTATTGTGGAATAAGAAGAGAAAATAAAAATATAAATAGATATAGAATGTCTATTGAAGAAATTATTGAAACATCAAAAAATGCAGCTAAATGGGGTCTTGATACAATAATTCTTCAAGGTGGTGAAGATTTATTCTTCACTGATGATATGATGATAAGTATAATAAAACAAATAAAAAAAGAAACAAAGTTACCTGTATCCATATCAATAGGAGAAAGACCGCTAGAATCTTATAGAAAATTCAAAAGAGCTGGTGCAATAAGATCACTTTTAAAACATGAAGCAATAAACAAAAAAATTTTTGATGAAGTTCATCCAGATAAAGATTATGAAAATAGAATAAATTTATTGAGGTATATGAATATATTGGGATATGTTGCTGGATCTGGAAATATAATTGGATTACCAAAACAAACGATTGAAGATATAGCAGATGACATAATATTTATGAGAGATGAAAAAATAAAAATGATTGGGATAGGACCATTGATTCCATCTAAAAATACTCCATTAGAAAATTATAAAATTGGGAGCGCTGACATAACTTTAAATGCTTATGCAGCAACCAGATTTGCAATACCAAGAGTTCAATTGCCAACTACAACTGCTCTTGGAACGATATCAGAAGAACTTCAATTTAAAGCTTTTGAAGCTGGATGTAATGTAATAATGGTTAATATTACACCAGATATATATAGAAAAAATTATAATATTTATGATAATAAAAGAAAAGTAGAATTTTTTGAAACTATAAGTAAAATAAAGAATTTAGGTTTTAAATTATCACCGATAACAGAAAAAGCAATTATAAAAAGTAATTAGGAGCTGAGATTATGGGGTTTGGTGGATATAGAAATTACGTAGTTATTGCAGGAAAAAGAAATGTAGGAAAGTCTTCAACGGTCAATGCTATAATGAATCAAGATATATCGATAGTTTCTGATCATCCGGGAACTACAACTGATCCGGTTTATAAAGCTTTTGAATTGCAACCAATTGGACCAGTTACATTTATAGATACACCAGGTATTGATGATGAAGGATTACTTGGAGAAATGAGAATTAAAAGGGCAAAAAAAGCATTTTATAAAGCAGATGTAGCAGTTTTAATTGTTGATGATTTACCAAATGAGCATGAATTTTTTATTATGAAACAATTTGAAGATATGAATATTCCTTATTTAATTGCAGTCAATAAAATTGATGAAGATAAAGAAGATATAGTTGAATATTATAAAAACAACTATGATGTGAAAGTAATGGGATTTTCTGCAAAAAATAAAATAAATATAGATGAATTTAAAAAAGAAATTGTAAACTTAATACCAGAAGAAAAAGAAATATCTCTTTTGCCAGATAATATAGATGGTGGAGATGTTGTTGTTATGGTTATACCAATAGATTTAGGAGCACCAAAAGGAAGATTAATAATGCCTCAAATTGTTGCAATAAGAGAAACATTAGACAAAGAAGCCATTGCAGTTGCAACTAAAGAAAGAGAATTGAGATATACACTCGATAAATTCAAAGAACTTCCCAAATTAGTAGTAACAGATTCACAAGCTGTTATGAAAGTTGCTTCAGATGTACCAGAAGAAGTTCCTTTAACAACTTTTTCAGTTCTTGAGGCGAGGCATAAAGGAGATTTACAAACCTTAGTAAAAGGTGTAAAAGTAGTGGAAAGACTTGAAGATAATGATACGGTTATTATCATGGAAGGGTGTTCACACAGGCCATTAACTGAAGATATAGGAACTGTTAAAATTCCAAGATGGCTTACAAATCATACTGGTAAGTCTTTGAACTTTAAATTCATATCTGGAAAAGAATTTCCAGATCCAGAAGAACTTGAAAATGCTAAGTTAGTAATTCACTGTGGTGGATGTACACTCACAAGAAAAATGATGCTCAGAAGAATAAAAACAGTAACAAGATTAGGTATTCCAATAGTTAATTATGGTGTATTAATTTCTTACTTGCATGGTGTACTCGAAAGAGCATTAGAACCTTTTAATGAGGTGTGCTATGAGGATTGAAGAAGATTTTTTAGGAAAAAAAGAAATAGAAGATACTTATTATGGTATTCATACAATCAGAGCTACTGAAAACTTTCCAAGAACAAATGAAACATTTGATGAATACTTTATAGAATCATATTTTCAAATAAAAAAAGCATGTACTACATTGAATAATAAACTTGGATATCTTTCAAATGAAAAAAGTAAAGCAATAAAAAAAGCATGTGATGAAAAATTTTTGTATGAATATATAATTGTAGATCCTTTGTCTGGTGGAGCTGGAACTTCAGTCAATATGAATGTAAATGAAGTTATAGCAAATAGAGCAACAGAACTTTTAGGTGGAAAACTTGGTGAATACATTGTAGATCCATTACAAGATGTAAATATGCATCAATCGACGAATGATACGTTTGTTACTGCAGGAAAAATGGCAGTGATAAAAAATTTACAAACTTTAGTAGAAAAGGTTATATTACTTCAAAATGAAATACAGAAAAAAGAAAAAGAGTATTATAGTGTAAAAAAAATTGCAAGAACTCAATTAATGGATGCAGTGCCAATTTTATTTGGCCAAACATTTGGAGCATGGGCTGATGCTCTTTCAAGAGATAGGTGGAGACTTTATAAAGTAGAAGAAAGAGTAAGAAGTATAAACTTAGGTGGAACAGCCGTTGGAAATGGAGTTGGTGCACCAAGAGATTATATTTTAAAAATAGTGGATGAATTAAAAAAAGTATCTGGTGTAAAAATTGCTAAAGCAGAAAATTTAATAGACAACACACAAAATTTAGATGTTTTTGTAGAAGTTCATGGTTTATTAAAAGCTCTTTCTGTAAATTTATTAAAGATTTCAAATGATATAAGACTCTTAGGAAGTGGACCAAATACATCGATTGGAGAAATTATTTTACCAAAGATTCAAGGTGGAAGTTCTATAATGCCTGGGAAGATAAATCCTGTTATACCTGAATATGTTATACAACTTTGTTATTCTGTTTTTGCACACGATTCTATGATAACAAATTGTACAGCAAATGGAACTTTAGAATTGAATCATTTATCTCCAACTATAGTTCATCATACTTTAAAAAGTTTTAAGTATTTAATTAACTCTTTAGAATCATTAACAAAATACATAAAATTAATAAAGGTTAATGAAAAGAAGTGTAGAGAAAATTTAGAAAAATCGACATCGTTATTAACTCCATTGATAGAGGAGTTTGGGCATGATGAATTATCTAAAATAATAAAAAGCAATGATTATGTATTAAAAGATATAATCAAAGAAGTTTCTAAAACTTTTAATTTAACAGAAGAAGAGGTCATTGAAAAAATTGATATACAGAATATAACTGGGCTTGGAAAAAAGTAAAATCTTTGATTTTACTTTTTTTTTATCTTTACTTGTGTTATAATTATATTAATAAAAAATAAATTTTTAAAAAGGGGTGATAGTATGAAGTTAAAATGGAAAAACGCATTAATGATACTTATGGTTATTTTACCTTTTGTTATTTATGTTATAAACCTTGATTTGAAATCTTTTGGAACTACAAAAAATGATGTTGACAAGGATTTACACCTCTATACAGAAAATGTATATACATATTTTCAAAATTTTGTTGGAAATATGTGTTTATTTGAAAATTATATAACTGAAAGTCCTGTTTTAATAAATGCACTTGAAAATAAAAATAATGAAAGAGAGTTAGCAGATACAATATTTAAAAAAATAACGGATGCTTATACAAACTTAAATTATGCATATATAGGACTCGAAGATGGTGTTTACATAATAGAGCCTTATTGGGAAATACCATCAACATACGATCCAAGAGCAAGGCCATGGTATACTCTTGCAGTTGAAAATAGTGGTAAGGCGGTTGTAACTGATCCATATGCAGATGCCAGTACAGGAGAAGTTACAATGACTATTGCAAAAACAGTTTTAAAAAATGGAAAATTAATAGGTGTATTTGGATTAGATTTAAAAATGAATGAATTTGTTAAATTAATGAAACCGGATTTACCATATAAAACAGCTTATTCATTTGTTTTAAATGGAAAGGGAATAACTTTATTTCATGTTGATCCTGAAAAATTAGGAGTAGATATTTCAAATGATGATTTATTTAAAAAAGCAGTTAATGAGGAAGGGAAAATAGAATATACATACGATAAAGTAAAAAAGCTTGCTTATTATAAAAAAGATAAAGATACAGGATGGATATTTTATACGGTAGTAGATCAAAAAGAAGTTTTAGCTTCTCCTATGAAGCACTTTTATACTTCTTTAATCATATCTATTATTATAATTGTTCTTGTTCTAATATTTGGAATTTATTTTGCAAATAAGTTTATGTCGGTTCCTTTGAAAAAATTATCAGAAAAAATAGTAGAATTTGGAAAAGGTAATTTGTTAGTAGAGTTTAAAGCAAATTCTAAAGATGAAATAGGAGATATGGCTCATAGTTTACATGATATGAGTAATAATTTAAGAGGAATAATAAAAAATATAGATGAAGCTGGAAATAAAAATGATATAGCAGCATCAGATCTTTCTGGTGTATCAGAAGAATTGAGTGCAACAGCCGAAGAATTAACAGCACAAATGAGTTCAGTAAAAGACAATGCAGAAAATGTAGCAGCAAATGTAGAAGAGGTAAGTTCAGGGGTACAAGAAGTAGCAGCAAGTGCACAAGCAATATCGCGTTCAGCACAAGAGTTGAGTGAAGCAGCGGAAGAATCATCATTAGCGGCAAATGAAGGATCAGGATTAATAAGTGATGTACAAAGGATAATAAATGAAGCATTAACGCAATCAGATCAAACGAACAAAGAAGTAAATAAGCTCTCGGAAAATGCAGCAAACGTAGAGAACATAGTAGATACAATAAACAGTATAACAGAACAAACAAACTTATTGGCATTAAATGCAGCAATAGAAGCAGCAAGAGCAGGAGAAGCAGGAAAAGGGTTTGCAGTAGTAGCCGAAGAAATAAGAAAGTTAGCCGAAGAATCAAAGAATGCAACAGAAAAGATAGCAGTAATTTTAGGAGAAATAAAAACAGGAACAGAAACAACAGCAGGAGCAACAGAAAAGATAGTAAATATAAATAAAGAGATAGATGGAGCAATGAAAGGATTAATAGAAAAGTTCGAAGTAATAAAAGAAAGAGTAGATGGAATGAACAGTGGAATACAAAATCTAACAGCAAGTTCAGAACAGCAAAGTGCATCAGCTGAAGAGATGAGTTCAGCAATGGACAATGTGGCAAGAATAGTATCAGAGATAAGTGATCAAGTATCAGATGCAAGCGAAGCAATAAACAATGTATCAGAAGGAACACAAAACATAACGACAAATGCAGATGAACTTTCAATACTTTCTAAGAACCTTGTAAATGAAGTTAAAAAATTTAAATTTTAATTACAATTATACAAAAAATAGTAATGGATAATATCCATTACTATTTTTTTATTTAAAAAACAAATTTTGTAATAAAATAAATGTTAAAATGTAAAAATAAAAAAAGAATATGTTATAATAAAATTAATAAAAAGATTAATTTCTAATAAAGTGTTGTGAATTTATTAATTTCTTATTCCAAAGTTTTAAAGTTACTTTTAAGTAAATAAAGTTACTTTAAAGTTAATGACGATTTTAAGTAAGTTATAATTTCAATGTAATTAGGTTACACAACTTAATAAAGGGGGAAGGTTTATGAAAAAAGTATTACTTGTGTTATTTGTTGTTTTTGCTGCTCTAGTTAGTTTTTCAGCATTTCCTTTTCATATAGGTGTTGTTACTGGAACAGTTTCACAGTCTGAAGATGATTTAAGAGGAGCAGAAGCTCTCATAAAAGAGTATGGAGATGTTGCACATGGTGGATTAATTCAACACGTTACATATCCAGACAACTTTATGCAAGAAATGGAAACAACTATTTCTCAAATAGTTGGTCTTGCAGACGATCCAAAGATCAAAGCTATAATTGTTAATCAAGCAGTACCAGGAACAGTTGAAGCTTTTAGAAGAATAAGAGAAAAAAGACCTGAAATATTACTTTTCTGTGGAGCACCTGCAGAAGATCCTGTTATGATTTCTGATGTTGCAGATCTTGCAATCAATCCAGATAATGTTGCAAGAGGATACTTAATAATTAAAGCAGCACAAATGCTTGGCGCAAAAAAATTCATGCACATATCTTTCCCAAGACATATGAGCTATGAATTATTGTCAAGAAGAAGAGATATTATGGCAGAAGCAGCAAAAGATCTTGGTTTAGAATTTATAAACATGGGTTCACCAGATCCTGTAAGCGATATAGGTATTGCTGGAGCACAACAGTTTATCTTAGAAAAAGTTCCTGCATGGCTTAAAGAATATGGAAAAGACACAGCATTTTTCTGTACAAATGATGCACATACAGAACCATTAATAAAGGAAGTAGCAGAACTTGGCGGTTATTTTATAGAAGCAGATTTACCATCTCCTACAATGGGCTATCCAGGAGCTTTGGGTATAACTTTTACAGAAGATGAAAAAGGTAATTGGCCAAAAATACTTAAAAAAGTAGAAAATGAAGTCGTTAAAAGAGGTGGAGCAGGTAGACTTGGAACATGGGCTTATTCTTTTGGTTATACAACAACAGCAGCTCTTGGCGAATATGCAATAAGAGTTTTAACTCATGATGCTGAACTTTTAAATAAAGACGATATAATGGATGCATTTAAGAAATATACACCAGGTGCAGACTGGAATGGTAATTATTATGTTGATGCTGATGGTGTTGAAAGAGATAATTTTTTAATGATTTATCAAGATACTTACATATTTGGAAAAGGCTTCCTTGGAATGACCAAGTTAACTGTACCAGAAAAATATTTTAACATAAAATAATAGGCAAGGGGGCTTGTCCCCCTTTCATTTTTGTACGAGGTGAAGTAATGAAAGAGAAAAAAACACTATTAACCTTAGAAGGGGTTTCAAAAGATTTTTTTGGAAATGTAGTTTTAAAAAATATAAATTTAGAAGTTAAAGAGGGAGAAATAATTGGGCTCGTTGGAGAAAACGGAGCTGGAAAATCAACTATGATGAAAATTATTTTTGGTATGGATGTTATAAGAGAAACTGGAGGATATGGAGGAAAAGTAAAAATTTATGGAAAAGAGGTTAATTTTAAAAGCCCATTTGATGCTTTAGATGCAGGTATTGGAATGGTACATCAAGAATTTTCTTTAATTCCTGGATTTACTGCAACAGAAAATATAGTTTTTAATAGAGAGTCATTAAAAAAGAGCTATCTTGTAGATATATTTGGTGAAAGAATTAAACAAATAGATAGAGAAAAAATAATAGAAAGAGCTAAAAAAGCAATAAAAGAATTGGGAGTTGTTCTGGATCCTAATATGTTAGTTAGTGAAATGCCAGTTGGACATAAACAATTTACAGAAATAGCTCGTGAAATAGAAAGAAGTAATACAAAGCTTTTAGTACTTGATGAACCAACGGCTGTTTTAACAGAATCAGAAGCAAAGGTTTTATTAAAAACAATAAAAAAACTTTCAAAGCAAGGTATTGCAATAATATTTATAACGCATAGACTTGCTGAAATACTTGAAGTTTGTGATAAAGTTGTTGTTTTAAGGGATGGGAACTTAATTCAAGAGGTTGAAACAAGTAAAACAAATGCAAAAGAAATTACAGAATGGATGATAGGAAGAAAATTAGAAAAGGCTGAAGAGAGAGATGAAAATAAAAAATTTAATGAAACAATATTAAAAGTTGAAAAACTTTGGGTTGATATGCCTGGAGAAACTGTAAGAGATGTTTCTTTTGAAGTGAAAAAGGGTGAAATTTTTGGAATTGGAGGACTTGCTGGTCAAGGAAAACTTGGTATTGCAAATGGAATAATGGGACTACATGCAGCAGGTGGAAAGGTTGAATTTAAAGAAAAAGAAATAGAGTTAAATAATCCAAAGTCTGCTTTATCTATGGGAATTAATTTTGTTTCAGAAGATAGACGTGGAGTTGGTTTATTATTAGACGAACCAATAGATTTTAACATTGCTTTTACTGCAATTCAAGTAAAAAATGATTTTTTGACAAAAGTTTTTGGATTAAGATTAAGAGATGATGAGGCTATATCTAAAAATGCTCAAAAATATATAGAAAAATTAGAAATAAGATGTGTTAGTGAAAAACAAAAAGCAAAAGAATTATCTGGTGGGAATCAACAAAAAGTTTGTTTGGCAAAGGCATTTACAACTGAACCAGAACTATTATTTGTATCTGAACCAACACGTGGAATAGATGTTGGAGCAAAAAAAATAGTTTTAGATACTTTAAAAGAATACAATGAAAAGTATGGAACTACAATAGTTATATCTTCTTCAGAACTCGAAGAATTGCGTTCTGTTAGCGATAGAATTGCTATAGTTAGCGAAGGAAAAATAGCCGGAATATTGCCAGCAAAAACTGACTCAGTGGAATTTGGAAAATTAATGCTTGGTGAAAAAGATTTAGAGAAGGTGGAAAAATGAAGTCAAATATAAACACTTTTATTGAGAAAGCTGGATGGCCAAGAATAATAATATTCTTGTTTTTGCTTTCTCTTTACATAATAGCTCCATTTGTTGGTGTAAAACTCAGTACTTCAATAAGTGATACAATAATTAGATTTGGAATGAATGGAGTTTTGGTTCTTGCAATGGTTCCAATGGTACAAGCTGGAACTGGTTTGAACTTTGGACTTCCACTTGGTATAATAGCAGGACTTTTAGGTGCAATTACAAGTATTGAATTAAAAATCGGTGGTTTTTCTGGATTTTTAACAGCTTTAGTAATAGCTATACCAATAGCAGCAATACTTGGCTATGGATATGGAAAACTTTTAAATAAAGTTAAGGGCGGAGAAATGATGATTGCAACGTATGTAGGTTTTTCTTCCGTTGCTTTTATGTCTATGGTTTGGCTTTTAATTCCATACAAAAGTCCTGATATGGTTTGGGCTTATGGCGGAAGTGGACTTAGAACAACAATAAGTGTTGAAAAATATTGGATTCATACTTTAAATAATTTTTTAGAAATAAAAATAGGTGAAACTTTTATCTTTCCTACTGGAATGCTGTTGTTTTTTGCTTTTATGGCCTTTTTAGTTTGGCTATTTTTCAAAACTAAAGCAGGAACAGCTATGTCAGCTGTTGGATCTAATCCAGAATATGCAAAAGCTTCAGGAGTTGATATAGATAAAGTAAGAGTTCAATCAGTAATGTTTTCTACTATACTTGGTGCAATAGGAATTATAGTATATGAACAAAGTTTTGGTTTTATACAACTTTATATGGGTCCATTTTATATGGCTTTTCCAGCGGTAGCAGCTATATTAATAGGTGGAGCTTCTGTTCATAAGGCAACAATAACAAATGTTATTATTGGAACATTTTTGTTTCAGGGTATATTAACAATGACGCCTTCTGTAATAAACAATATTATAAAAACAGATATGTCAGAAGTTATGAGAATAATAGTATCTAATGGTATGATACTCTATGCTCTTACAAGAAGGGAGAAGGGTAAAGCATGAGTGAAAAAAATAATATAAAGAGTTTTTTAACTAAAAATATAGTTCCTGTATTGTTTGTTGGTTTGTTACTTTTTGCAGTTCCAGCATCTAGATATAGTGGAACTTATTTAATACAACAAGTTATAACGAGATTAGCAAGGAATTCATTTTTAGTTCTATCCTTAATAATCCCTATTATTGCTGGAATGGGATTGAACTTTGGAATTGTATTGGGAGCAATGGCAGGTCAAATTGGATTAATATTTGTGACAGACTGGGGAATTGTTGGTATGCATGGAATGTTACTTGCTATGATTTTGTCAACTCCACTTTCAATACTTCTTGGAATACTTGGTGGTGTTGTGTTAAATAGAGCAAAAGGTAGAGAAATGATTACTTCCATGATACTTGGTTTTTTTATAAATGGTGTTTATCAATTTATAGTTTTATATACAATGGGAAATGTAATACCTATGACAAACAATAAAATAGTTTTACCAAGAGGTTATGGAATAAGAAATGCAATTGATTTAAAAGGTATAAGAATGGTAATGGATAGAATGCTTGAAATAAAAATAGGTTCGATTACTATTCCAGTACTAACCTTTATAGTTATAGGAATAATGTGTTTAATAATAATTTGGTTTAGAAAAACAAAGCTAGGTCAAGATATGAGAGCTATAGGGCAAAATATGGAAGTTGCAAGATCTGCAGGTATAAAAGTAGAAAGAACAAGAATTTTATCAATAGTTATATCTACGGTTCTTGCAGGATACGGACAAATAATATTTTTACAAAACATAGGTACCATGAATACATATAATAGTCATGAACAAATAGGGATGTTTGCAATAGCAGCCATATTAATAGGTGGAGCAACTGCAGCAAAAGCAACAATTCCAAATGTTTTCTTGGGTATTATGCTTTTCCATACTATGTTTATAGTATCACCAATGGCTGGAAAACAGTTAATAGGTCAAGCTCAACTTGGAGAATTTTTCAGAGTTTTTGTATCTTACGGAATAATAGCTATTTCTCTTGTTCTTCATGAATGGAGAAGACACAAAGAAAAAGAAGCTTCAAGAATGCAATTTAGACACACGTCTGAATAATGAGGTGAGAGTTTTGAGAGGTTTTTTAATAAAAAGTACTTTAATAGTTGTGATAATAATTTTTGCTATATTTCTTTTTATATATGGTAAAGAACATAAGGTATATTTAGACAATAAATCTATTACTGTAAATAATGTTGAATATGCATCATACCCATCAGTAACTGTAAAAATAGATGGAAAAAGTACAGTTGTTAGAAGTAGAAGAAGAAAGGTTCTTTATGCAAAAGGTCCTTATCATAAGATTATTGTAGAATATACAAAAGATGGAACTAAAACAACTATTGAAAAAAATTTAAAGTTAGATTTAAATGGAATTGTAATTGTGAACCTTCCCGAATTAATAGATGGTTACGAAAACTGGCAACAGAAGAAATGAGGCGAAAGCCTCATTTTTTGATTTTTTTATCACACAATTTCACATAATTTTATTATAATTTTACGACATTTGTTTATTATACTATTAGTGTAATCATAAATTAGGAGGCGATACTATGAAAAAGATTTTAAGCATTATAACTTTAGTGGCAGTATTGATAGTTTTTTCAGTTTCATCATTTGCTAATGGATATGGATATCAACAACCTCAAACAAATCCAAATGGAGTATATGGCAGAAAAGGTGGTCAAAACTGGAATAATCAACCAATGAATATGCAAATGCAACAAAGAGGAAGAAGAAATAATAAAAGAATGAACGGTGAAAGAATGAACTTTGGTAATAAAGATGCACAAATTAAGAATCAAGAATTTATAGAACTTTTAGCTGAAAAATATACACCAGATACTTCTAATGAATGGAAAACAATTTTTATAGATAGAGAAAAATTAATTGATACTATTAGAAGCGATGAAAAAATACAAGAATTAAGAGAAAAAGTAATGTATTCACAAGATCAAAGAAAAATTCAATACTTTAGAAGTAAGTTTGATAATGGAAACATTGAAAAAATGAGAGAATATCAAAATGATTTAATAACTGCAATAAAGTATGATGATTCAGATATGATTAAAAACATATTAAATAAAATGCTTGTTCTTGAAAAAGATATGAATACTAATATTAAAAATGCATATGATGAAATTTTAAAATCAATTAAATAAATTTTTTAAATAAACAAAGAGCCTAAAGGCTCTTTGTTTATTTAAAAAAATGATTTATAATTATTATGGATGGAGGTGTTTTTATGAGTTATAAAATATATCTTGTTGATGACGAAGAAAAATTAAACAATGTTTTGACTTCTTATTTAAAAAATGAAGGTTGGATAGTTAAAAGTTTTTTTAATGGAAAAACTGCATTAGAAGTGATAGAAGATAAACCAGATTTATGGATACTTGATATAATGCTTCCTGATATAGATGGATTTGAATTAATAAAAAAGATAAAGGAATATGATATAAAAACACCTGTTATTTTTATATCTGCAAGAGATGCACAAATAGATAGAGTTATAGGACTTGATATGGGAAGTGATGATTATATACCAAAACCTTTTCTTCCAAGAGAGTTAATAATAAGAGTTAAAAAACTTTTAGAAAGAAATTATGGAAATAAAAAAATAAATTTATTTCCGTATACAATTGATAAAAAAAAGAGAGCAGTTTATTATAATGGAAAAGAAATAGATTTTACTGCAAAAGAATTTGATTTATTGATTTTACTCTCAGAAAATAATTTTGCATTTTCAAGAGAACAAATATTAGATGAAGTATGGGGAGATGATTATTTTGGTAGTGATAGAGTTGTAGATGATACTATAAGAAGAATAAGAAAAAAAATACCTAAAATAAATATTGAAACTATTTATGGTTTTGGATATAGGATGATAAAAAATGAAGAAAAATAATTTGTCTTTTCAAATATGGATAACCTTTATATCTATAATACTTGTTATTACAATAATATCTTCTTTTTTATATATATATACATTAAAAAATTATTTTAAAGAAGAAGCATTTAAAACTATTGAAAATGCTCAAAAATTTGTATTAACAAAAGATATTAATGATATGAAGAATAATTTAAATAATCCGGAATTATCTCAAACGCTTCAAGATATTAGAATTGTTCAACATGGAATTTATATAAAAGATAAAAATGAATTGAGAATTAAAATGATGGAAAGACCAACTGTTGATAAAAATATATTAGATAAAATAAAAAAAATTGCTTTTGAACAAAAAGAAAGTATAAAAAAATACATAATAACTTTTGAAAATGAAGATTTGTTTGTTGTAATAAGAAAAATAAATAAAAATATTTATTTAACTTCATTTATGTGGAATACATATAAAAAAGAGATTGAAAATAATTTGTTATTAAAAGTAATTATAATAATAATTGGATCATTTTTGGGATCTATATTTTTTTCCATTAGATTTTCAAAAAAACTTACATTGCCATTAGTTAAGTTAAAGGATAGTGTAAATAAAATTTCTAGGTATGACTGGAATGAAGAAGTAAAAGTTGTAAGAAATGATGAAATAGGAGAACTTGCAATTACTATTGAGAAAATGAGAAAAGAATTAATAAAAAAAGATAAAAGTCAGCAAGAATCATTACAATTTATTTCACATGAATTAAAAACACCTGTTATGATAATAAGAAGTTATTTACAGTCTATTGAAGATGGAATATTTCCAGAAGGTAATTTAATCAGTTCATTAAAAACAATAGACGAACAAACATTAAGATTAGAAAGAAGAATAAAAGATTTACTTTATTTTTCTAAATTAGATTATTTGTCTAAACACGAAAATAAAAAAACAACAATAAATATAAAAAATATAATTTTTGATGTTATTAAAAGTTTGAATAAACCAGGCGGAATAAACTTTGACTTAGATTTGCATGATTATTTTATAGAAGGAAATGAAAATCAAATAAAAATAGTTTTTGAAAATATTTTAGATAATCAATTAAGATATGCAAATACAAAGATAAAAATCAAATTTATTGAAAATAAAATAATAATTTTTAATGATGGAGAAAAAATAGAAGAAGATACTTTAAAAGAAATATTTAAACCATTTAAAAAAGGGAAAAATGGTGAAAATGGTATAGGACTTTCAATAGTTAAACGTATAATAGAAATACATGGAGGTACCATAGAAATAATAAATAAAGAAGATGGAGTGGAATATGAAATTAAATGGTAGCATAAAAATTTTTATGCTACCTATTCATTTATTAAGTTTTTGAATAAATTAATTCCTATTTCTATTACATCATCATTTGGTAAAAATTTTGGTGAATGAAGCCCTACTTTTTTTCCGCCTGTTCCAAGCCAAAACATTAATGAAGGGTATTTTTCCGCTATAAAACCAAAATCTTCACCTGTCATTTTGTATCCACAATCTATTATTTTAAAATTTTTAATTTTATCAATTTGCTTATTGTACATATTATCATCATTTATTACTTCTTTATAAAAAGATCCTATACTTATTTTGAAATCTACATTTGTTATATCTTTTATTCCATTTAATATTTTTATTAATTTGTTTTTAAATTTTTCAGCTTTTTTCATACTTAATGTTCTAATACTTCCTTCTAGTTTAGTATAATCAGATATAACATTTCTAACATTACCACTTTTTACTTTTCCTATACCAAAAACAAAGGGTTCAATAGGATTTTTAGGAAGTGATTCTACCGCATTAAAAAAAAGTCTTGCTGCCTTAAAAGAATCCAATCCATCTTGAGGAAAAGCTATGTGTGCAGCTTTTCCATAAAACTCTATATCTATTTCCATGGCAGATGCAAAAAGAACTCCTTTTGTAGTTGCAATAGTTCCAATAGAATATTCGTCTGTTACGTGGAGTGCATAGGCATTTTTTATATCAAAATTTTCTAATACTTTACTGTCTAAGATTAACTTGGCACCTCCACCACCTTCTTCTCCAGGTTGAAATAAAAAAATAAAGTTTTTTTGTATTTTATTTTCAAATATATATTTCATAAATCCATATAAAATAGACATGTGTACATCATGACCACATGCATGCATATTATCATTTTTAGATGAAAAATCACAATTGGTTTGTTCTTTTATAGGTAATGCATCTATATCTGCCCTAAATAAAGTATATGAGTTTTGAAATGATGGATTATAAACAACAATTAAACCAGTATTTAATGGTGTTAATACATTTAATTTTATATTATACTCTTTTGCTAAATCTTCTATGGATTCTATTAGAAGTTTGGTTGTTTTAACTTCATTAAATGATGTTTCTGGGTTTTGATGTAGTAAATGTCTTAGTTCAATTGGTGATTTCATAATATTTCCTCCAAAATATTACATATTTTATCTATTTCTTCATAAAATATAGTAAATGATGGTAATAATCTTATTACTTTATCAGCTAAAATATTTATCAATAAATTTTTTTTAAGCGCTTTATTTCTTAAATTTGGTTGAGCATTTTTTAATTCTATACCTATCATTAATCCTTTTCCTCTAATTTCTTTAATATTATTTGATTTTATATTTTTTAATTTGTCAATAAAATAAAGACCTTTTTCTGAAACTTCACTTAAGATATTTTCTATATTATCAACTATAAAATGAGCTCCAGCAAGAGATATGGGATTGGGAGCAAAAGTAGATCCATGATCTCCCTTTTTTAATATGTTTTGAAATTGATTTAAAAAGAGTACAGCACCAAGAGGTAAGCCGCCTCCAAGTGATTTTGCAACAGTTACAATATCAGGATTTAAGTTATAATGTTGATAAGAAAAGATTTTTCCTGTTCTACCAAGTCCTGCTTGTATTTCATCACAAACTAGTATAAATTTAAGTTTTTCATGATAATTTTTAATGGTTTCAGCAAATTCTTTTGTCATTGGTACAACTCCGCCTGCACCTTGAACTCCTTCTAAATAAACAGCAATAACATTTTCAGAGTTATTTTCTATATAATTTTCAAATTGTTTTTCATCGTTGAATTTTAATTCTATAGTATTTTGAAACAACGGTAAAAATTGATCTTTTAATTTATCAAAACCAGTTATTGATAATGCACCTGTTGTTCTACCATGAAACCCATTTTTAAAGTATATTATTTTATTTTTTTTAATAGATGAAACTTTTTTAATAGCTTTTAAAGCGGTTTCTGTTGATTCTGTACCTGAATTTGTAAAAAAAACTTTTCCGTCAGTTTCAGTAAAGTTTATTAGTTTTTTTGCTACATATTCAGCATCTTTATCTATAAAAAAATTTGAAAGATGTGTGTATTTATCTATTTTAAATTTTAGAACTTTATTTAAAGGTTCATAGGAGTGACCAAATGACATAACGCCTATTCCTGCAAAAGTATCTATATATTTTTCTTCATTTGAATAAATATAAATACCTTTAGCTTTTGTTACTTTAAAATTATAATTATTATACATTTTTATTAGATTCATAAGTCAAACTCCTTTACTAAACAGTCAATAGCTTTTGCGGTATTTTCTTTTTCTATTAAACAAGATATTTTTATTTCTGATGTTGTTACTAATTTTATTGGAATATTTTGAAGTGACTTAAAAAATCTTGAAGCTACTCCTTTTTCTGTTTTCATACCAATTCCTACTACAGAAAGTTTTACATATCCATGTTCATAACTCACTTTACTATTGTCAATATTTTGAAGAGCTTTTTGTAGGTATTTATCAAAGTCTTTCATTTCTTCTTCTATTATACTTAAAGATACATTTATTTTATTATCAATGCTTATCAAAGATATCATGTCTACATTAAATTTTTGAGATAAATTTTCAAATATTCCATGTAATAAAGGATGATTTTCTGGTAAGTTTGTAATATTTACTCTAGTTTGATTTTTCATCAAACTCATTCCAGTAACAACTGGATTTTCTATTGTATTTGAAATCACATAAGTTCCTCCTTCATTAGAAAATGTGGATGCACAATAAAGTTTTACATTAAACTTTTTAGCTATTTCAACGGCTCTACTATGAAGTATATTTGAACCCAAACTTGCCATTTCAAGCATTTCATCATAAGTTATTTTGTTTATTTTTTTAGCATTTTTATATAATTTTGGATCTATTGTGTATATTGGATAGTCACTATATATTTCACAATTTGATTTTAAAGCTGCAGCAAGTGCAACTGCTGATGTGTCAGATCCGCCTCTTCCAAGTGTTGTTAAATCACCATTGGGATTTATTCCTTGAAATCCTGTTATAACTAAAACATCATTTTCTTTTAAAAATTTTATTATTTTATCTTTTTTTATATCTTTTATTTTTGCATTGTTGTGATTACCTAATGTATTTATTTCGGCTTGGAAACTATTTAAAGATTTAGCTTTTATATTAATTTCATGAAGTGCCATTGTTAATAACGATACAGACATTTGTTCTCCTGTAGTTAATAACATATCTAATTCACGTGGATTGGGATTTTTAGATATTTCTTTTGCAAGGTTCAAAAGATTATCTGTTGTTTTTCCCATTGCTGATACAACAACAATAAGTTTAAATCCTAAACTAACTTTTTGTTTTATTTTTTTAGCTACTTTTATTATTTTATTTTTATCTGAAACTGAGGAACCACCATATTTTTGTACTATTATATTCATATATCACCTACAATTTTCTTAGATCATCTATTAATTTAGTTTTTTCTTTTGTTGTTTCATCAATTTTTTTAATTACTCTTGCAGGTGATCCAGCAACAACTGTTCCTTTTTTTACATTTGTTGTGACAATTGCGCCTGCTGCTACAACAGTATCATCTTCTATTTCAACGCCCTCTAAAACTACTGCATTTGCACCTACTAATACATTATTACCAATTATTACTGGCTTAGCACTTGGGGGTTCTATAACTCCAGCAATAACTGCACCTGCTCCAATATGACAGTTTTCACCAATAATTGCTCTTCCGCCAATTACAGCGTTCATATCTATCATAGTTTTTTTACCAATTTTTGCCCCTATATTTAATACTGCTCCCATCATAATAACAGCATTATCTCCTATTTCAACTTTTTCTCTTATTAATGCTCCGGGTTCTATTCTAGCATTAAACTTTTCCAAATTTGAAAGTGGTATTGCAGAATTTCTTCTATCAATCTCAATTTTATAATTTTTTATTATAATTTTACTTTTTAATAATTCAAACTCTTTGAGTGTACAAAACAATGTTCCAAAATACTCATTGCCAAAAAAATTATCATTATTTAATAAAATTTTTAAACTTCCTTTTAAATAAACTTTTATTGGTGTTTCTTTTTTTGAAGTTGTTATATAGTTTATTATTTCTTGTGAATTCATATTTTTCCCTCCATTACTTCTGAAAAAGTATATATTTTTGATTTTGAAACTTTCTTTAAAAATAATGCTGATTTTAAAACACCTTCTGCAAAAGCTCTTCTCGAAAGTGCTCTGTGAGATATTCCAATTGTTTCACCAAGTGTACCAAATATTATTTTATGATCTCCTGGTATATTACCTATTCTTAATGAAGAAATATTTATGTTTTTATTTAATTCATTTTTTATCATTTTAGCAGTTCCAGATGGTTTATCTTTTTTAAATCTATGATGTGTTTCTATTATTTCTATATCTGAATTAGGTAAGAAGTCATTAGTTAATTTTGCTAACTTCAAAAGGATTTGTATTCCTATTGAAAAGTTATAACTTTGAACTATAGGTACCTTTTTGGATATATCTTTTAAAACATTAAAACTTTTTTCATCTAAATCAGTTGTTCCGATTATTAATGGAGTATTATACTTTTTTACATATTCTATAGTTGTATTAAAAACCTTAGGAAGAGAAAAATCTATTAAAATATCTGGATTTTCTTTAAAGAATTCACCATTTTTATCATATGAAAAAACTAATTCATGATTATTTTCATCAAATAAGTTTTGTATTTCTCTTCCCATTCTTCCATTTATTCCTATTAATCCGTATTTCATATTTTAATCTCCTTTAATAATTCATCTAATATTTTTTGATTTTCAGAACTCAATGAAACTAAAGGAAGCCTTAATTTATTTTTACACAAATTAAGTTTTGATGCTGCATATTTTATTGGTATTGGATTTACTTCTATAAACAATTTATTCATTAATTCATTATATTTTTTATTTATATCTTTTGCTGTGATATAATCGTTATTTAAAATAGAAGTAGTAAGATTTTTCATTATTTTTGGGAGTATATTAGATATTACAGAAATTACGCCATCTCCACCAAGAGACATTATAGGAATTACTTGATCATCATTTCCAGAGTAAACTAACATATTATTCGGCTTTTTTGAAATTAATGTATTTATTTGAGAAATATTTCCACTAGCTTCTTTTATTCCAATTACATTTTTATTTTTATTGAATATATCTATTGCTGTATCTGGTAAAATATTAACACCTGTTCTTGAAGGAACATTATACAATATAATAGGAAGAGAAGTTCTTTCTGAAATATACTTATAATTTTCTTTTAAGCCAAATTGGGTTGTTTTATTATAATATGGAGTTACTATTAAAAGTCCGTCAGCATTAGCTTTTTCTGAAATTTTATTGTATTTTAAAATTTTTTTGGTATCATTACTTCCAGTTCCAATTATAACTGGAACTTTTTTATTAGTTTTTTCAATTACAAAATTAATTAGTTTTTCTCTTTCTTTTTCTGTTATTGTTGGAGCTTCTCCTGTTGTTCCAAGAACGATTAATGCATCAACATACTTTAATTGAAAATTAATTAATTTTTCTAATGAAACATAATCAATATTTAATTCGGAATCAAAAGGAGTTATTATAGCTGTACCAACGCCTTTAAACATAAATATCATCTCCTTTTATTGTTGAAAAATACTCTTCTATTGTTTGAGCTCTTCTTATTAATTTAAATTCATTATTAGAATAAATAAATTCTGCAGACCTTAATTTTCCATTATAGTTAAATCCCATTGAATGTCCATGAGCTCCAACATCGTGTATTACTAAGTAATCACCTTCATTTATTTCTGGTAACTCTCTATCAATTGCAAATTTATCATTGTTTTCGCATAATGAACCTACTACATCATATTTTTTTAATTTTTTTGAGTTATTTAATACTGTTATATGATGATAAGCACCATACATTCCTGGACGCATTAAGTTTGCCATATTTGCATCAACGCCAATATAAGTTTTGTAACTTTTTTTTATATGTAAAACCTTAGTTATTAAATATCCATGTGGACCTGTTACATACCTGCCATTTTCTGAATATATTTCTGGAAATATATTATTTTTTTCTAATATCTCTTTGTATAACTTTTTTAATTCTTTTGAAATTAAAGATAAATTTAATGGTTCTTCTTTAGGATTATAAGGAATACCAAAACCTCCACCTATATCTATAAATTTCAAGTTTATGTTTAATTCATCTTTTATTTTTTTTGCTGTTTTAAATAAAAGTTCTATATTTTTTATTATTTCTATTTCATTAAGAGAATTAGAAACAAGCATTCCGTGTAATCCAAAAATTTTTACATTTAGATTTTTTAATTTTTGATAGCCAATTAATAGTTTTTCAAGAGGCATTCCAAACTTTGAATTTTCAGAAAAACCTATTATTTTATTTCCATAAATATTGTTTGGTGTATATCGTATAGATGCGATTTTAGGCATTCCAAATTTTTTATTGAATTTATCTATGTGATCTATATCATCAAAATTTATTATTGCATTTAATTCTTTTGCTTTTTGATATTCCTTCATAGGTGTATTATTTGAAGTAAACATTATATCTTTTGAATCAATACATTGAGCTAAAAGTAATTCTGTTAAAGAGCTACAATCCATTCCACACTCATTTTTTTTTAACAAATTTAATATATATGGAGTTGGAGTTGCTTTAACAGCAAAAAACTCTTTAAATTTGCACCAATTAAAAGAATTTTTTAATTCATTCAGTGAACTTATTATCCCTTTTTCATCGTATATATAAAAAGGAGTATCATGTTTTATTTTTTTAATTTCATTTAAAGAAAATGGAATAATTTTATTCAATGTTATTCAACTCTTTATGTTTTAATAAAATTCTAACTGCGTTTGTAGCAGCACCAACTCTAACATTATCTGCAACAACCCATATTAAAAATGAATCATTCATTTTTCTTAATCTTGATACATATGTCATATTACTTGACTCAACTTTAAGTGGCGTAATGAGTTCATCTGTATAGATTATATTTTCAGAATTTTCAAGTAATTCTTTTACTTTATTTAAAGTTGTTTTTTTATTTGTTTTAAATAGAATGCTTTCTGAATGTCCATATAAAACAGGAACTCTAACAGCAGTTGGATATATATTTATTGAATTATCTTCAAATATTTTTTGTGTTTCATTTATCATTTTCATTTCTTCAGTTGTAAATCCATTTTCCTCAATATCTCCAATTACAGGAATTACATTGTTTGAAATTATTGTTGGAAAATGAGATACAGCTTTTGAGCCATTTTGTTGGAATAAAAGTTCATTCATTCCTTTTTTCCCAGCTCCAGAAACTGCCTGATAGGTACTTACATAAATATCTTTAATTTGAAATTGTTTGTGTATTTTATTTAATGCAAGCAACATTTGAATAGTAGAACAGTTTGGATTTGCTATTATTCCTTTATAATTTTTCAATTTTTGATAATTTATTTCTGGTATTACAAGAGGAATATTTTTTTCTTGTCTAAAGGCAGAAGAATTATCTATTATGATATTCCCATGATTTTGAGCAATTAAAGCATATTTTTTAGATATTTCACTACCAGCAGAAAATAATAAATAATCGTACTTTTCTTTCATAGAATCTTCTGTTAATTCTTCAACTATTATTTCATTTTTTTTAAATTTTATGTGGGTACCAGCAGATTTTTTACTTGCAAATAAATGTAATTCTTTTATATTAATATTCATTTCTTCAATAACTTTGACCATGGTTCTACCCACTTCACCAGTTGCACCAACAATTCCAATTTTCATTTTTATCCCTCCATAAAGAAAAAGTCTTCCATACGGAAGACTTTTTGAAATATTTTTTATAAACATATTTCAAACGGCTCTCCGCATATGCGACAGTCATATGAGTATTTCCCATACAACCAGGTAATTAAAGTGGGTAAGCTTTAATTCCTTCGGCAACCGCACCTTTCACTCATTCCAAGCCTACCCAGGCGATAAATGAGTTACTAATTTTGGTTGCACCTCCGTTTGTTGAGTGTGTTATTTAATTTTAAAACAAAAATAACATATATAAGTAAAAAAAACTTTGCTTAATTAATAATTTATTGTTAATTTGATTTCTTTTCTGAGGTATTTTTTTTGAAGTTTTTATCAAATTCTAAAATTAATCCCGTAATAAATTCATTTCTTGAAATATTTAAAATTCCATTTTCTTTTTCTTTTCCAATACCATTACCACAATATTTTTTTAATATATCACGACATTCTTTTGGGATTCTAAAAGTTGCATTTTCTTTTAAAATAGATTCTCTATAAGGTTTTTTAAATGTTTTTTCTAAATAATCATTACTACTTGTATCTTTTTTATCTTCTGGTGCCAATTCATATTCTATTTCGATTATTTTTTTATTCGTTTTTTCTTCAAATTCAATCATTTTTTTTTCTAATTTTTTTATTTTTTTCATTAATTCTTCATTTGTTTGTTTTTCATATTCTTTTAATTTTTTTTCCTTTTCTGCTTCCTTTTCATAAAGTTTATCATATTCTTTTTTTACTTTTTCTAATGATCTTGTATCAAAATAAATACTTTTATTTTCAAATATTTTCACTATTTCTTCATAAGATTTACCTGAATTTAATAACTTTAGAATTTCTATCCAATTGTTTCTAACTTGTTCAATCTTAGTCATACCATCATCTCCTTTCCAAATTATACAATCACTTGTAATTGTACAAGTATCTTGTTAATTATAAAATAAAATTATGTAAATCTAATATTAAGAAAAATTGTAAATAAAAATATTTAAATTTAACATTTTATATTTATTTTTGAAATAAATATGAGTTATTATTTATATAGATAAGCACCCGTATATGGGAGGGGGTAAAGATGAAACACTCAAAGAGTTTAAATGTTTTAAAAACAGCAAAAGGTCAAATTGAAGCTTCGATAAGAATGATTGAAGATGAAAGATACTGTATTGATATTTCAAAACAATTATTGGCTACAATAGCACTTTTAAAAAAAGCTCATACGCAAATATTAAAAACACATCTTGAAACTTGTGTTAGAGATGCTGCATATTCAAATAATACATCTGAAATTGAAACAAAAATAAAAGAATTAGAAGAAGTGATTGAATATATAAATAAACCTTTATAATAAAAAATAATTTTTAATATAATTAATGATAATCAAATTTTTAAATACGATAAAAATTATCGGAGGTGAATCATGAAAGAAAAAAATTCTACATTTGCAGTAAAAGGGATGACTTGTGCTTCTTGTGTTAGAATAGTTGAAAAGAATTTAAAGAAAATAAATGGTGTAAAGTATGTATCTGTTAATTTAGCTACTGAAAAAGCTTTTATAATATCTGATGATAGTGTTAATGAAGAAGATTTTAAAAAGGCAGTAGAAAATGCTGGGTATAAGATGTCAAAAGAAATACCAACTTCTGATATTTTAGAAGAAAGGTTTAAAAGTGATTTTAAAAATATGAAATTAGCCCTTTATATCACAATTCCATTGATGGTTTTAATGATTTTTAACATGAGTGGTGTAAAAATCCCATACTTTGAATGGATAGAATTATTTTTTGGTGGATTTGTAGTTTTTTTTACTGGTAGAAAAACTTTAAATGGAGCTAAAATAGCAGTTACTCATTTTCATGCAAACATGGATACTCTTGTATCTTTAGGAGCTATTGCTGCTTGGATAACTACTGTATTTGCAATTCTTGGTTTAAATATACTTTCTTTTGGTACAATAGCAGCAATGTTAATAGGGTTTCAACTTACGGGAAGATACATTGAATCAAAATTAAAGTTTAAAGCTTCAAAAGATATAAGAAGTTTATTAGAAATGCGAGTAAAAAATGCAAATCTTGTAATTGATGAAGAAATAGTATCAGTTCCAACTGAAACTTTAAAACAAAAAGATATAGTTATAGTTAGAATGGGTGAAAAGATTCCTGCTGATGGAAAAATAATAGAAGGTAAAGGTTCTGTTGATGAATCAATGATTACTGGCGAACCAATACCAGTAGAAAAAAATATTAATGCTGAGGTTATTGGTGGAACAATATTAAATTCAGGAGTCATTAAGGTTGAAGTTGAAAAAATTGGAGAAGATACATTTTTAAGTCAAATGATAAAATTAATTGAAGAAGCTCAGTCTTCCAGAGTTCCTATACAAGGATTTGCAGATAGAGTAACTATGTATTTTATACCAGTCGTGTTTTTTATATCTTTGATTGGTGCATTGATTTGGTACTTTAATTATGATAACTTACAAAGTTTTTTAGTTTCAATGTCTAATGTTATACCTTGGGTAAATCCAAATGCTGGAGCTTTGTCTACGTCAATATTTGTTTTTGTTGCTTCTATTGTAATAGCATGTCCTTGTGCATTGGGATTGGCAACACCAATGGCGTTGGTTGCTGGAAGTGGAGTTGCTGCAAGAAAAGGATTAATAATAAAAAATGGAGAAGCAATACAACTTGCAAAAGACATAGATACTTTATTTTTAGATAAAACAGGAACAATTACAAAGGGAAAACCAGAAGTTGTTGAAACAAATATAAGTGATGATTTATTTGAAATAGTTGCTTCGATAGAAAAAAATTCAGTTCATCCTCTTGCTCAAGCTGTAGTTAATTATGCAAAAAGGAAAAATTCAATAAAAAATTATGATTTTGATAGTATAGAAGAAATTTCTGGAAGTGGAGTAATTGGTGTTTTGGATAACAAAAAATACTATATTGGTAAGTCAAAAGATTCTAATAAATACAAAAACTTAATGGAAAAAGGTCATACAGTTATAGAAGTTAGTGTTGATGAAAGTGTAGCTGGATACATTTCTATTTTTGATCCTATAAAAGAAGATACCATTGATGCAATAAAAAAGATAAAAAATTCAGGTATACAACCAATTATGCTCACAGGAGATAATGAAATTACAGCTAAAGCAGTGGCTAATAGTGTTGGAATAGATAAGTTTATATCTGGTGTAAAACCACACGAAAAAGTTAAAAATATTAGAGAGTATCAAATTAACGGGAAAAAGGTTGGTATGGTAGGAGATGGTATAAATGATGCAGCTGCACTTAAATCAGCAGATATAGGTATAGCAATAGGAACTGGAACTGATTTAGCAATTGAAAGTGCTGATATTGTTATAGTTAAAGGAAAATTATCAAAAGTATTTGATGCAATTGAAATTTCAAAAGTTACCTTTAAAAAAATAAGACAAAATTTATTTTGGGCATTTTTCTACAACATAATAGCAATTCCTCTTGCATTGAGTGGAATTTTACATCCTGCTATTGCTGAAATAGCAATGACTTTTAGTTCAATAAATGTAATTATGAACTCTTCGAGAATAAATAAAATTTTTAAATGATGGAGGTGTGTAAATGAAGTATATTTTTAAAGTTGAAGATATGACATGTAATCATTGTAAAATGAGGATAGAAAAGGCATTAAGTGAAGCAGAAGATATAAAAAGTTTTAATGTTGATTTAAAGAATAAGATAGTGGAGGTTGATTCGGAACTTTCAGAAAATGTAATAGTTTCAATTATTGATGAAATTGGATATACTGCAATAATAAAATAAAAGCATCCTTCGGATGCTTTTATTATTTATATAAATTATAAATTTTTTGTTAAAAATGTTATAATTATAATAAAGATTGGAGAGGAGTGATTTTATGAAAAAAGTATTATTCATTATTGTTGTTTTATTTTTATCTCAAGTATTTCAAGCAAGGACTTTAAAAGAAATTATTGATTCTGGATACTTAATTATAGGTATAAGAAATTTACGTACTTCAACAATATATCAGCCTGAAAACAAAGAAAATCCAGGTTTTTGTTATGAACTTGCTAAAACATATGCTGATTATTTAAATGTAAAATTAAAGGTTCATATTGTAAATTTGTTTTCTGATTATTGGAAAAAAGATGGTGAATTAATTTTTAAAAGTGATAAAAATGTTACGCCGGATATATATAATAAAGTAGATATTGTTGCAGATATTATAACAGTTACAGATAAAAGGAAAAAATATGTGAATATGATTCCCTTTGCAGAAAATACAGAATTATTGTTTGGTAGAAAGGAATCAAATATAAAAAAATACGAAGATTTAAAGGGGAAAAAAGTACTTCTTTTAGAAAGTATGTCATTTTATACAATTTTTATTGATGAATTAAAAAAGAGAAGTATAAGGTATGGATTCAATAAGGTTTATTTTGAAAAAGATAATTCACTTCATTATTTTGAAAAAAACAATGTATTTTTTAAAGATAAAGTCAATATATTATTGATTCCTCAAGATTATACAATACCAAAGTTTGGATTTTATTATCAAGTTCTTTTAAAAAATACAGATGTTAGCATTTTAGATTCCTTTTCTTTTTTTCCAAAGTGGTTCAATACATACTCTCTTAAAGAAAATTTAAAACCACTTTTTCCAGAAAGAGATAAAATAGGTTACTTGTCTTTTTGTACATCGTATGAAACAAAGGAGTTGAATAAATCTTTGAGTAATTTTATATCTTTCATGAAAAAAACAGATAAATATAACTTGTTATTTGAAAAATATATAGGAATAGGTTATAATGATTATAAAAATATACTTAATGTAGGTGACTAATTTGAAGTTAAAACATAAGATCTTTAAATATACTTTGAGCATTAATTTAATAATAATAATAATAATTTCAAGTTTATTTTTAATTTTTTTTATAAGTAATTTAAAAAGATCTACTTTAAATAATATTTATTTAGTGAATACCTCTTTGAATAATTCTTTTGAAGAGTGTTTTTCTTATATTGAAAAAACCTTAAAAAACATTTTAGAAAATAATGACACAATTTTTGTTTTTGATAATAATCCTATAATAAGTGGTTATGCTAAGAAAACTTTGAATAAGAAATTTAATGAAATAATTGATTCAAAATATTGTATAGAAAATATGTCTTTAATTCAAAACAGTAAAACTATTGTTGGAGATTATGAAGAAAATAAAACAAATTTTTTTATTAAGAATGATACTCCATATATACAAATAGAAAAAGTTTTGCAGTCTGATAATAATAGAAAGTTATTATTACTGTTTAATTTAAAAAAATTTTATGAAAATTTTATTAATAATTTGAAAGATAATAAGTATTATTATTTATTAATTAAAACGGATAATGAATTTTATAATTTAAACATGAATGAAATGAGTAAACTTGAAAATATTAATAATTTTTTATTTCTAAAAGATAGATTTTATTCGAGTTCCGTTACTAAAAATTTAGAATTCAATATAATTTTTTCAAAAAATTATATCAATAATTTATTATTCTGGATTTTTTTTATTTTTATATTTCTTTTTCTTTTTTCAATTTTAATGTTAATAATTGTTTCAAATAAATTATCAAATAATTTAGTGAGATCATTAAATAAATTCATGGTTTTTTCAAAGAGTATTGGTTCAAGGGATTTTAAACAATTTATTCCAAATGAAGATGATGAGGATGAAATAAAAGAACTTTCAAGTGCTTTTAATAATATGTCTAAAAAGATAGAAATATTTACTAAAAATATGGAACAATTGGTTGCAGAAAGAACTGAAGAAATAGAAGCTCAAAATGAAGAACTTGAAACTCAAAATGAAGAATTAGAAAAAATTAATAAAAAATTAGAAGAAACCTCAGTAAGAGATGGTTTAACGGGATTATACAATAGAAGATATTTTAATGAAAAAGTAGAAGAGGATTTTGAATTAGCAAAAAGAAATGGTATGTACTTTCAAATGTGTATAATAGATATAGATCATTTTAAAAATATAAATGATACATATGGGCATCTTATTGGTGATGAATGTATAAAAAGTGTTACAACAATATTGAAAGAAAATTTAAAAAGATATACAGATAAGGCGTTTAGATATGGAGGAGAAGAATTTGTTTTTTATGATATTTCAAATAAAAATGAAAATTTTGAAAAATTATTGAAAAAAATAAGGAAAGAAGTAGAAGAAAGTAAATGCATAATAAATGAATTAGAGATAAAGGTCACAATTAGTATTGGAGCATGTATAGCAAAACCTAAATATGAAGATATTTATGAAAAATTTATAAAGGAAGCTGATGAAGCTCTTTATGATGCAAAAGAAAAAGGTAGGAATAGAATTATTTTAAGAAAAAACTGATTATCTTTATTTAAACCTTTAAATTTTAAAAAAATGACGTTTTATCATTTTAAAAGTTTAATATACGATTTTTATTTTATAATATATTTGAATTAAGAAACTTAAGGAGGCATTATAATGAAAAAATTATTTCTTTTTTTAATTTTAACGGTTACAATTATTTCGTTTTCATTTAACTTTGGTGCTGGAGGATCAAAAATAGTTTATATTCCTGGCGTTCAAATAATTTCCCCATTTACTGATACAAATTTTAAAATAGATGATGGAGTTTTATGCTTTGGTGGAGAAGGTCATGGAGGCATTTTTAATGATTTTTATATTGGCGGTGATGGATTTACTGGAAAAAAAGATTTTACAGTTTCTGGAACATCTTTAACATTTTCTTTTGAATATGGAACTTTTGATATAGGAAGAAATTTAATAAATATATTTGATACAATTGTTTTAGATGCAGGTTTTGGTATTGGAACGTATTCAATTAGAATTTCAAGAAATTTATTGGGTGGAGATACAATAAATGACTTTTTAACTGGACATTCATCAGGTGTTTCAAGTATGAAAATAGATTATTACATTGCTTCTCCTTATACATCTTTGTACTTACATTTTACTGATTTTTTTGCATTAAATGTAAAAGCAAGATATATTTTTGGATATACAGAAAATGGTTGGATTTATTCTAATGGTAATAAAGTAGATGTTGATGAATCAAATTATTTAAATACATATAATTTAGGAGTTTCTTTATTGTTTGGATATTAAAAAAATACCTCTTTTGAGGTATTTTTTTATAATGTAGTTAAAATTCTTTTAGCTTTTTTTGAATATGTTTTTACTTCAATTATTGATGAATTATCAACTAAAAAATTTTTTATTTGATATCCATTAAAGTGAATTTGGTCATTATTATAATATTTTTTTATTAAAGTATTAGATAATTTTTTAATAGTTAAAGCTGTTATTGGAAATCCAATTGTTTCACAGTCATAAAGCAATTTATCTTCTATTGTTGTTTCTACTTTTTTATCTTCTTTTTCATTATTTCCAAAGATACTATTCTGTATTTCTTTTAAGTCATACAGTTCTCCTTGAATTAATTTAGTTAAACTTCTAAGCATTTGTTTTCTATTTGTATTTATAAAATCAAGACTTCCACTTTTTATTAAATTTTCCATTATACCTTTATTAATATTATTTTTTTTACAATATTCAACAAAACTTTCTAAGGTTTTTATTTTGTTATTAAATAATAGTTTTGATATATTTTTTCCAATTCCTTTTATTGTATGAAGTGGAAGAAGTATTTCATTTTTTTTATAAATTCCAGTTGAATATTCAATTGATGGAGATATTATTTTTATATTTAAAATACTACATTCATTTATTATATTAATATCTAATCCTTTTGAATTTATGTATTCAAGAAAAAATTTTTCTGGGTTTGTAAATTTTTTTTCAGCAAGCCAATAACTTATATGAGCATAAGCGGTTGCATGAGACTTTACAAATGAATATTTTGCAAAATTTTCTATTTTTTCAAATAGTATTTGTGGTTCTGGTAAGGTTGTATTTTCTATAAATTTGTTTTTTAATGGAAGCAACTTTTCATTGTTTTTTTTAGAAAGTGCCTTTCTTAATTCATCTGACTCTTCTGGCGTAAATTTTGCTGTATTTTGTGCAAGTTTCATTATTTGTTCTTGATAAATTAAAACTCCATTCGTTTCTGGAAATAATTTTTTTAAGTAATTAGGAGAACTTTTTTCTATATATTCATCTATCATCCCAGATTCTAAAGGCCCCGGCCTATTTATTGAGAGAAGAAGAATTAATTCTTCAAAATTTGAAGGTTTTATTTTTTGTGAAAGGATTTTACCAAGTTTTGAATCCAGTTGAAAAATACCTTTTGTTAATCCTTTTGATATATTTTCATAAACGATTTTATTATTTAAGTTTTCATAATGATATTCTATGTTTAATTTATTCATGAAACTTATAGTATCTAAGGATAATAAATCAAATTTTTCTATATTTAATAATTTCAAATCATTCATATCCCATTCTATTACAGGAATTTTTCTATACTCTAATGGTAAATATTCTCTTAAATCTTTATCAGATATTATTATTCCAGCAGCGTGAACTGATTCAGCTGTTTCAAGTCCTTCTAAATAATAAGATATGTTGTATAATATTTTTTTATCTTTAGATAATTTTTTAAATTTCATTAAATTTTCTTTTGATCTTATAGGAGCAGTCATATTAGGGATTTCTTTTACTTTAGTAAGTTCAGTTAATTTTTTTAATACAGATTTTTTTTTCATTGTTGATGTGGTTCTTATTTGAGCAACATGATACTTTCCAAAAACATTCTCTAATTCTTGTATTAATTCATTTCTTTTTTCAGCATCTATATCTATGTCTATATCTGGCAGTTCTTTTCTATATTTATTTAAAAATCTTTCAAATAATAAATCATATTTTAAAGGGTTAATTTGAGTTATTCCTAAAGATTTTACAACTAAAGAACTAACCGAAGATCCTCTTCCTGGTCCAATAGTTATATTTTTTTGTTTTGCAGTATCTATTATTTTTTTTACTGTTAATATATAATTTGATGTATTTAATTCTTTTATTAGAGATAATTCTTTTTTTAATCTATTTAATTCTTTTTCAGTATATTTTTTTTTATTTAATAGTTCAGTTAATTTTTGATATCCTCCAAAATTAGGAATATTTATATTAAAAATATTTAAGTTATAATTTGTCTTTATATTTTCAAATATTTTTAATTTTTCAGAGTTTAAATGCCCTTCAGAAATTGAAAGATTTTTATCATCTTTTAATAAATTTTTAAGTATTTTTGTAGGATAAAAAATTGTTGGTAAGTTAAATTTTATTTCTTCAAGATTTAAATCTTTTTTTAATTTATTATAATGTTTTATTGCAATTAAAATATCTTGTTCATTTTTTATAATATATTTTGTGTTATGTACTTTATACAAAATTATTGGTTTTATGTTGTATTGTTTTGAAAAATAAATAAACTTCATCCAAGATTTTGGATGAGGTTCACAAAGTATTATCGTATTAAATTTATATTTTTTTGCTAAATTAAATAAATCTCTTATTTGTATATAAGAATTACTTTTATTTGTTGAAACTGGTCCTAATATAGCCATGTTATCACCTTGAATTTAAAGTTATTATTGCTTTTTTAAAATCATTTGGTAATTTAGCAACAAATCTCATCCATTTTTCAGATCGTGGATGGTAAAATCCAAGAGTAAATGCATGCAACATTTGTCTGTATATCCCTAATTCATTATCGTGTTTTCCATAGACTTCATCACCAAATAAAGGATGACCTATATGTTTAAAATGTACACGTATTTGATGTGTTCTTCCTGTTTTTAAAGTTATCCACATTAAAGAACCATCTTTAAAAGATTTTATATTTTTATAAAGAGTTAGTGAATTTTTTCCATCTTCAACAACAGACATCTTTATTCTTATTGTTGGGTGCCTTGCAATAGGAGCATTTATTTTTCCTTCTTTTTGGGGATGTCCTTTTACTAAAGCTAAATAGGTCTTTTTTGTTACTCTATCTTTAAATTGTTTTGCAAGTGAGTTCATTGCAATATCATTTTTTGCTATTACTATTGTTCCAGAGGTATTTTTATCTAATCTATGAACTATTCCAGGACGCAATTCTCCGCCAATGCCTTTTAAGTCCTTACAATGATACAATAAGGCGTTTACGAGTGTTCCTGATACAATGCTGTAGGCAGGATGTACTATTAAATTTGGTTGTTTATTAACTACAATTATATCTGAATCTTCATATATTATATCTAAAGGTATATTTTCAGCTAGTACTTCTACTGGTTCTGGTTTATCTGGTATATCAATATAAATAATGTCATTTTCTTTTAATTTATAAGAGGGTTTTGACTTTTTATTATTTATCAAGATCTTTTTATCTTTTATAAATTTTTGTATGTGTGTTCTCGATATCCAATCTGGAACAATACTTTTTATAAATAAATCTAAGCGTTTGCCAGAATCTTTTGATTCTATTTTTTCAATCATGTTTACTTCTCCAAAGAAAATATATTGCTAATATTATTCCACCAATAGTTACAAAAGAGTCTGCTACATTAAATATTGCAAAATGAGGAACATATACCATATCTACAACATATCCTATTCTAATTCTATCATACATATTACCAAGTGCTCCACCTATTACCATGTTTATTCCTAAATCAAATAATTTTGATTTTTCTTTTTTTAAATACCATTCTCTAAATAAAAGTGCAATACATATTGCAGATGTTGAAAAAATACCTAATAAAAAAGCGTTATTTTTAAACATTCCAAAAGCCATTCCGGTGTTTTGTGCATAGGTTAGTTTAATAAACCAAATATTTATAGGGTTTAAAGATAAAAAATCTCTTGACCAAATTTTTGAAATTTGATCAAGAAATATTGATATTGGAATTATCCAAGTCATAGCTTATACCTTTTGATAAAAGAATGGCGCTATTGTTTTTAAGCCTAATTCTCTATAATTAAATATTCTTTCAGTTGATCCTACAAATAGCACACCACCAGGTTTTAAAGCATCTACAAATTTTCTATACAACATATCTTTTGCGTCTGTATCAAAGTATATAACAACATTTCTACAAATAATTAAATCAAAATTTTTATCAAATGTATCCATTAATAGATTTAACCTTTTAAAGGTTATTCTTGTTTTATATTGTGGTTTTACTTTAAATTTTCCGTTTTCAAGCTTCATAAAATACTTATCAATATCAGATGGAGAAAAATTAATTAAACTTCTTTTATCATAAATACCTTCTTGTGCTTTTTTTAGAACAAATTTATCAAAATCTGCAGCTAATATTTTTGCAGATGAAGGAGCATTAATTTGATCTAAAACAATAGATAAAGTATGTGGTTCTTCACCAGTTGAACATCCAGCACTCCAAGCTCTAAATTTCATTGGATTTTCTTTTAAAAGTTTAGGAAGTATTTCTTTTTTTAAATATTCCCATTTTTCTGGATTTCTAAAAAATTCAGTAACATTTATTGTTAATTTATCTAAAAATTCATCCCAAAGTTTAGTATCTTTTCTGAGATTATTCATATATTCTCCATATGTTTTATATGAATGTTTTCTCATGAGCATATCTATTCTCCTGCGTACTCTGTGTTGTTTGTATCCACTCAAATCAACTTCAAAATACGTATTTAAATCTTTTAATAATTTTTCATAATCTTTGTCATTGTAAGGTGATTTGTAAATTAAGCTTTCGTTCATATGACACCTCCGTATTTATTTTTAAATTTTTAAATAAAATGAAAGTCCAAAACCATTATTTGAATATAATAAATAAATATTTTCAATAAGAGGAAATCTAATATTGAATTTATTTTCATTTATAGAGAAAAATTTTGAATTTATATTTAAAGTGTTATTTTTCTTATTAAAGTAGAAGTTAAAGTCTCTATTTAAAATATAAAGTTCATAATTATCTTTTAACATAGTAATATATAACCCTTTATAATACAAGGTTATTTTTTTGTTTATATTAAATAAATTCAAATCAATTCCAATTTCATTATTATTTATACCAATATTTATCTCGGAATTTTCAAAATTTTGTGTATTTATCCAATAAGAAGTGTGAAATAAGCCTTTTTGGAAGTTTATTCCAGCATAAAGGTCATTCAAAGATAAAAGTATATAATTATCCATAACGATTGTATAGCCAAAAAAATTTTTTTTAAAAAAATCTGGAGAGGTTATACTGTTTAATTTTCTATAAGTTATTTCAAATCCTGGTTGTGAAAATTCCACATATTTAATTATATCATTAATTTTTGATGTTTCAACAGTATTATTTATAAATTTGAATTCATAATTTATAGAAGCTGAATAAATATCTTCTAATTTAAATTTAAAATCAAAAGAATATTTGAAAGTTTTTCCGTAGTCTTGAACTAAAAAAATTTTATTAGAATTATTATTAGAAAAGGATAGTGTAATTATTATAGTAAAAAGAATAAAAATAATTTTTTTAATCATTTTATCCCCCAATAGTAAAAAAACGGGGAATGTCCCCGCCTTTTGTTTTTATTAATTACATATTTTCTGCAATTCTTTCCATTTCTTCATCATCTATATCTTCATTACCATAAACATTTTGTACATCGTCATTTTCTTCTAATGCATTTAAAAGTTTAAATAATTTTTCAGCAGGGCTTCCTGTTAATTTTACAGTTGTTTTTGGATTATAAGTTAAATCTGCTTTTACTGTATATTTATCTTTTAAAGCATCTCTTACTGTACCAAGAGCATCTGGAGCTGCTGTTATTTCTACTGGATCTGTTGAATCATCAACGTCTTCTGCTCCTGCTTCAATAGCTTCCATCATGAATTCATCCATATCAGCAATTTCTTCTTTTGGTATAGTTATTAAAGCTTTTTTTTCAAAGTTCCAAGCAACAGCACCACTTTCAGCTAATGAACCACCATGTTTAGAAAGAATATGTCTTACTTCTTGAGCTGATCTATTTTTATTGTTTGTAACAACAGAAATTATTAATGCAACTCCTTCTGGCCCATATCCTTCATACATGAGTTCGAAAAGTTCTTCTCCACCTAATTCACCAGTACCTTTTTTTATAGCAGTTTCAATCTTATCTTTTGGCATATTAGCGTCTCTTGCTTTTTCTATTGCTGATCTCAATCTTGCATTTGATTCTGGGTCGCCACCTTCTCTTGCAGCAACTGTCAATTCTCTAATGAGCTTTGTGAAAATTTTTGATTTCTTAGCGTCTTGTGCGCCTTTTCTGTGTTGAATGTTGGACCATTTATTATGTCCTGACATGTGAATCCCTCCTATATTTAATAACTTTTTATTGCTAACAAAGTAGTATCATCGTGTTGTGGTGCTTCTTTTACAAAATCATCTACTGCTTCTATTATACTTTTAACTATTACATCCATATTTTCTTGTGTTTTCTGTTTTATTAATTTTTCAAGTCTTTCATATTCAAATTCATCACCAGCACCATTTCTTGCCTCTGTTATTCCATCTGTATAAGTTACAAACAAAAACGAATCCTTATAGTTGTAATTTTCAACTATTAAAGGATTTTCTTCGATGATGCCTAATGGTAATCCAGATGCTTTTGAAATTTTATATTCTCCATCTATAAATATTGGAGTATTATTATGACCTGCGTTTATTATTTTAACACTTTTTTCTTTAGAGTTCAATAGGATAAATATTGCTGTTACAAAAGTGTCATCGGGAATATTTTGAGAAAGATAATGATTTAAATATATTGCTAATTCTTCTATTGATTCGCTTTTTTCTATACGACTTTTTAAAACAGCTTTAACGGAACTCATTATTAATGCAGCAGGAACACCTTTTCCAGATACATCGGCAAGTATTCCAAAAAGTCTATCTTCATCCAATTTTATAAGATCATAATAGTCTCCTCCAACATCAAATGCAGAACGATAAAATGCTGACGATTCTATTTTTTTTAATTTAGGAATTTCATGAGGTAAAAGAGATTCTTGTATTTGTTTTGCAAATTTTAATTGATTTGAAATTTTTTCTTGTTTTATTCGATCATTTAGATAATCCATTGTATCAAATCCAAAAGATAATTGTTCGGTAACTGATTCCATTATTTTTTTATCTGAAGCCAAGAAAAAAGAATTATCTTTTTTTCCATATAATAAAACAAAGCCCCAAATTTTTACATCTGATTTTATAGGAATTAATAATATAGATTTTTCGCTTTTATTTAAAGGATCGGTTTCAGATAAAATTGTTTTGAAATTTTTTTCTTTATAAAAATAATTTATTAAATTAGGGATAGTTTCAAAACCAGTTGTTGTTAATTCTAAAAATAAAGGTTTAAATGAAAGATCTAATGTAGAATTGTTAAACTCTCCTATTACTACATTTTCAAAATCAACTATATCTTTTAATCTATTAACAATTTTATCAATAGTTAATCTTGGATCTTTAACAGAAAAAATGAGTTTACTTATATCTAATATGGTTGTGAGTTCTTCATATGTTCTTGATATTTCTTCGAATTGAGCTTGTAAGATCATAGTTGTTTCTTCAATTTGAGATTTATAATTATTCATTTCCACAATGTAATTATCTATTAAAGTATTTATTCTATTTGAAATTTCTTCATTAGAAATATTTTTTATATCATCTTTGAAAATGTTTAGAATATTATTTAATTTTAAATATATATCAATAATATTTATCACATCATTCACCTGCGATTTCTTTTATTGTATCTAATAAAAGTTTTGGACTAAAAGGTTTTGTCATTACTTTTTTTGCACCCAAAGAAATAGCATAAACCTCATCTGATTCTCCGCCTTTAGCTGTTAAAACAATTATAGGAATGTTTATATTTTCTTCTTTTAATTTTTTTAAAACAGTGAAGCCATCCATTATAGGCATCATTATATCTAAACATACGACATCTGGTTTTATTTCTTTTATTTTATTATAGCCCTCTTCTCCATTTGTTGCTTCGTAAATTTCATAACCTGCGGTTTTTAAATTAAAGGTTATTATTTTTCTAAGAACATCAGAATCATCAACAACAAGAACTTTTTTCATATAGATCCCTCCAAATAATTGTTTTAATTATTTTTTAATAATGTTTTTTTACAGATTAAATAAACAAATTCTCTTTGATATTCTTCATATTTTAAGTCTTTTAAAATATTATGAAAATTTTTTATATCTCTATAATATTCTATCACAAAAATATTTTTTTTGTTTTTGAAAGCTTTTAAATTTGAAAATTCAGGATTGATTTTTAATAATTTTTCATACATATTTTTAGATAAATAAGCGGTTATGTAATAACCTTTGATTTCATTTACTGGAGTATATTTATCATCAACTATTTTTGCGTCCATCAAAGTTAAACCTTTTGGAGATTTTTTATTAAAATTAGAAAAATCAAAATTTTTTATTGTATCAACAGCAATGTATAATTCTTTAACCATATATCCAAGAGGTATTGGAGGAGAGAATGAAAAAGAAGGTATTGGATGGTACCCTTTTGAAAATTTCATAGGACAATTTAATCTTCTTAAGGTATACTCTATTGCTCTATTAGTATCATGATGTGATGTATAAATAAACTTTCCGTGCTTTTTAATTTTTAATAAATATCTCATTTTAGGCTCCTTTATGGTATAATATTTTTAGACTTTTAGTGAATGGAGGAATTATTTTGAAAAGTTTTATAAGTGGCTTTATTTTAACTTTTATATCTTTTTTAATAATATTTTTTTATACAAATTCTTTTTATAAAAATACAAAATCTATATTTTTTGTCAATTCAAATTATAACACCTATTTATTTGATGATAATGAGATGATTTTACCAACAAAATACAAATATGTTAAATTAGAGAACGTGCCTGAAGAATTAATATACTATTTGATATGGTCCGAAGACAGAAATTTTTTTGAACATTTTGGAGTTAATCCAAAAGCTATATTAAGAGCTTTTTACATAAATATCAAAGAAAAAAACTTTTCTCAAGGTGGAAGTACACTAACTCAACAATTGGCTAAAACTGTTTATCTTTCACACGAAAAAACTTTTAAAAGAAAAATTTTAGATATGATGTTAGCTTTTTTTATAGAAAGATCTTATTCAAAAGATGAGATATTAGAAGGATATATAAATAGTGTTTATCAAGGAAATGATATATCTGGTTTTGGTGCTTCATCAATGAGATATTTTAGAAAAGATATTTTTGAATTAAATACAGAAGAAATGTTACTTCTTGTAGGAATAATAAATGGTCCAGAACTTTATAATCCTTATAGATATCCAGATAGAGCAAAAAAACAAGCCATAAAACTTTTATATTCTATAGAAAATAACCCATTTATAAAAGATAAGGCTAAGATAGAAAAAAGAATAAATGAAATGACAATATATCCGTTGGATTATAAGAAAGAGTATTTAAATTTTATATATCAAGCTAAATCAGAAGAAAGTAAGATAGGATTAAAAGGTGGTGGATATACAATAAAAACTACCTTTAATAAAGATGTTTATGAATCAGTTACTTTAAATGCAAGTACATCTTCTATAGTTATAAATAATAAAAATGGAAAAATATTAAGTTTTTGGGGAAGTCAATACTCTAATTTTATGTCTTTAAAACAAATTGGGTCTAATATAAAACCATTTTATTACTTACTTGCTATTGAAAAAGGATATACTCCAGATACAATATTACCAGACAAACCAATTAATTTTGGTAGTTGGTCTCCACAAAATTTTGATAATAAGTTTAGAGGCGAAGTTAAATTAAAAGATGCATTAATACATTCTTTAAATGTTCCTTCTATATATTTAGCTACTCATATAGGTAATTCTCCAACAGAATCAATTGATCAAATAAAAAATTTTTTAATAAATAATATAAATCTAAAAGGAAAGTATACATCAGATTTAACTTTAGCTTTAGGAACACTTGAAAGTAATCCATACAATATGGTTAGAGCTTTTTGTATTTTCCCAAATTATGGATTGATACCTAAAATTTATTCTATTTCAGAAATATATGATAGAAAAGGAAATTTAATTTATAAAAAATATCCAGAAATAGAAAAAAAAGTAAACATTTCAAATGAAACTTATTCCACTATGAATCAACTTTTAAGAGGCGTTATTGAAAATGGAAGTGGAAAAAAAGCCAATGTTGATGGAATTGATATACATGGAAAAACGGGTACTGCAGAATATGCAACTTGGTTTACTGGATTTACTGGTTCAAAAGGAGTTTCGGTTAGAGTTGATGGTAAAGGGCTTTTATCTACAACTTCATCAGTACCAGTTGCTTCAAGAATAATAAAAAATTTTATATATATTGGTAATAATTTTGAAGTTCCATTATATATAAATGTAAAAAACGTTTTTCAAAAAACAGATTTTTTTGATGATCCAATAACCTTTATTTCAAAAGGGTTTGATGTTATTCAATATTTGAAATATGCTAAACTTAAATTCAATATTAATGAACTTAAACTAAAAATAAACAAAGTTATATCTCAAATAGAAGATCTTTATCCAGACATTGCAAAAAATCTGAACGAGTGGAAAGATAAAAATTTAGTTGATTTTTTAAATAATCCTTTTGTTTTTATACAAAATGGATATGATATAGATGATTATTTAAATAAAATGGTTTGGACTGAAAAATTAAAAGATAAATTGATAAAGGTCAAGTCACAATTAGAAGATCTTTATCCAGATATTGCAAAAAAGATAGATTTATTTTTAAAATTAAAGGAGAAAAAATAATGAATAAATTAAAAAAAGGAAAAACTTTATTGAAAAAAAATGAAGTTCCAAAAAAATTTATTTATATAAAATCTGGGATTGTTTCAGATTCAAAAACAAAATATTCTTCTAATAATTTTATAGGGTTTATTCCATTTTTATTACAAATACCAATAATTTCATCGTATAAAGTAGTTGAAGATATTGAATATGAAGAATATGAAAAAATTTCTGATATATCAGAAGAAAATATGAATTTTCTTTTAAAAGATATATCCAAAAATTATATATCATTAGCATATTATGGATTAACTAAAAAATTCCCAAATCCCGAAGAAGTATTTTTATGTAAATCTGGAAAAACTGAAAAAGAATATGCAGTTGAAGATGATGAGGATGTTATAGATTTTATTGATAATTTTGATTTTTTAATGAATGTAGAAGAAGTTGAAGTTCCAAAAAAATTTGATGAATTTGAAAGTCTTTTAAAACAATATTTACAAGAGTTTTCAATAATGAAATTTGTTAATTTATTAAAATCAGCACTGAATGAGTTTGAAGAAGAACAGTGGGAACCAATGTTATTAGAGTTGTTTGATAGAATAATAACTATGGAAGATAGAGCTTTAATGCTTTATGTTGTTTATATAGCTGCTATGAAATTTAATGATGTAAAAATAATAAACAAGTTTTTAAAGAAAAATTGGGAGGTTTTAAGATTTCATGGTAAAAATAATTGGTTGGATTATGCTATGAGCTATATGAATAATAAGATTTTCTTATCGGAGGCTAACAAATGAATTATTCGTTAATTGAAAATTTTGGAATTAAAATAGATGGAGTTTATAAAATAAAATCTGGTATAGCGATAGGAGTAATATTTTCAGAAGATTCTTCAAGTATTATAATGGTTTATACTAAAGGGGATATAATTGGTATAGATAAATTTTATTATAATATAGGAATAATAGATTATTATGGACTAGATGATTTTGAGTATGAAATTATTCAAGATACTGATTTTTTTAGTCAATTAAAGAATGAAAATGAATCTGATAAGTTTGAAAAGATGCTTAAAAATCAAATGCTAGAATTACTCGCTTTTTCAAATGAAAAGAAAGAAAAAGTATTTTATTTTTGTTTAAAAAAGATAAAAATGAATTCTGGAAAAATAAAAGGTATACCAAAGCAATTTATAGATGAATTAAAAATAGATATGGGAATAGAGAATTTAATAAATGAAGAAAAAATTGAATTAGTGGATGATGTGTACAAGATAAAACAATGAAAAATTTACATATTTTTCATAAAAATTGTTTTTCTAATATGATAGAATTAGCGAGTGGACTGTGGTTTTAAATCCAATTTTTTTTGGTACCTTTAGTCCCAACTTATTATTCCATAAAACAGGAGGTGACACTATGTACGCTATTATTGACTTTGGTGGTAAGCAGTACAAGGTAGAAGAAGGTCAAGTTCTTTATACCGAAACAGTAAAAGGTATAGAGGCAGGATCAGAATATGTTTTTGACAAAGTAGTATTCCTAAAGAGCGAAGATGGAGCAAAAATGGGAAAACCATTTGTTGAAGGTGCAAGTGTAAAGGCAGAAGTTGTTGAACACGGAAGAGACAACAAAATTTTAGTTGTTAAATTTAGAGGAAGAAAAATGTATAGAAGAAGAATGGGCCATAGACAAAATTATACAGCTTTAAAAATAACAAAAATTGTTGGATGATAAAAGCTATTTTTAAAGGAAATGAAATTTTAGTAAAAGGTCATGCAATGTACGCAAACGTAGGACAAGATATAGTTTGCAGTGCTGTTAGTTCAATAACTCAATTTGTAGCTCAAATTTTGTTAGAAGAAAAAACAGCTAATTGTGAAATCAAAGAAGGTTATTTAAAGATAAAAATAATATCTAATGATGAAATGACTATAAAACTTGTAAAGTACATGAAAGAAGCCTTAATGGGAATCGAAGAAGATTATCCGAAACATTTGAAAGTGGAGGTGAAATAATAAATGAAAATGAATTTGCAACTTTTTGCTAAAAGTGTTGACCACAATAGACATGATAGTAATCCTAAATATTTAGGTATAAAGAGTCCAGAAGGAAAATTCATTAAAGCTGGAAGTATAATTGTGAGACAAAGAGGAACAAAAATCCATCCAGGTAAAAATGTTGGACTTGGAAAAGACTTTACAATATTTGCTACAGCAGATGGAAAAGTAAAGTTTTTTGATAAAAATAACAGAAAGTATGTAAGTATAATAACAGAATAATGAATAGCTCTAAAAAATTAGCGATTTCAGGTATAGTTGCAGGATTATCTTTTTTATTGACTTTTATAGAATTCCCTATATTTCCTGCAGTAGGTTTTTTAAAATTTGATCCAAGTGATTCTCTTATTGCATTAGTTGTTTTACTTTATGGATGGATACCGGCTTTTTTTACTTTGAGTGTAAAAAGTATTTTATTTTTATTAAAGGCTGGTAGTGGAGGACCAATAGGTATTTTAATGGGATTTTCTGCTGGACTTGCTTATATTTCAGGCTTGTATTTTGTAAAGAAATCAATTAATGAAGAGAAAAAAATAAAAAGTTATTTTTTATATCTTATTACATCTTTGACTGTTGGTCTTGTTATGTGTTTTTTCAATTATTTTGTAGCATTACCATTTTGGTTAAATGATGTTAAAAGTATAGGAGATATTGCTGTTCAATTTAAAAAACAATATTATATGGATATACTTACTTTTTTTGAATTTTTAATGGCATTTAATTTTATAAAGTTTACGATAGACTCGATTATCGCACATTTTATTTATAGAAAAACTAAAAATATACTTGAGAAATGAAAGGAGGAAGGAATAATGGCTTCCAAAATGACACAAAAGACTTATGTGGCAAAGCCAACGGAAATAGAAAGAAAATGGTATCTAGTAGATGCAGAAGGTAAAACATTAGGAAGATTAGCATCTCAAATAGCTATGATACTTCAAGGTAAAACAAAGCCAACATATACTTCATTTATAGATACAGGAGACTTTGTTGTAGTTATAAATGCTGAAAAAATACATTTAACAGGTAAGAAATTAGAACAGAAAATTTATTATAGACATTCTAACTATCCAGGAGGGTTAAAAGAAACAAAAGCAAGACACATGTTAGAAAAACACCCTACAAGAGTTATTATGCATGCTGTTAAAGGTATGCTTCCAAAAAGTATTCTTGGAAAGCAAATGTTGAAAAAATTAAAGGTTTATGCAGGTCCAGAACATCCACATACTGCACAAAAACCAGAAAAAATAGAATTATAAGGAGGGAAGAGTTAAATGGCTGAATTCATAGATTACTATGGAACAGGAAGAAGAAAGACTTCAGTTGCAAGAGTTCATCTCAGACCAGGTGAAGGTAAAATAAAAATTAATGGAAAAGAATATAAAGATTCAGTTGAATATTTTAATAACAATTCAGTTTGGAAAAAGCATGCAATGGATCCACTAGTTGTTACACAAAATGAAAATAAATTTGACTTAGTCATAAGAATAAATGGTGGAGGCTTAAGTGGACAATCAGGTGCAGTTAGACTTGGAATTGCAAGAGCATTACTTCAATTTGACGAAACATTAAGACCTATCTTAAAAAAAGAAGGTATGTTAACAAGAGATCAAAGAAAAGTAGAAAGAAAGAAAGTTGGTTTCAGAAAAGCAAGAAAAAAGATGCAATTTTCAAAAAGATAATATTCATTTTTTTCAAATCAATCAAGAACGGTTCTCAGGAGCCGTTCTTTTTTTAAGCGGGGAATGATAAAAATGAAAAAATACAATGATTTAAAAGAACTTACTTTTGAACTAAAAGAAAAATTGGATATTGTTGATGTAATAAGTAATTATATAAGTGTAAAAAAAGCTGGAAAAAACTATACAGCCTTATGTCCTTTTCATGCAGAAGATACACCTTCTTTTTATATTTTTCCAGAAAGTAAAACATATCATTGCTTTGGTTGTAAAGCACATGGAGATGTAATTAACTTTATAGAAAAATATGAAAAAATAGGATTTATTGAAGCTGTAAAAAAAGCATCAAAATTAGCTGGTATAGAATTTGATTTTAAAGAAAAAAAAGTGTCAGAAGAAATAAAATTAAATGAAGAAATATCAAAAATATATACGGAAAAACTTTTAAATTTAAGCTATAAAAATAAAGTGTGGGAATATTTAAAAAAAAGAAATATTAATAAAGATCTAGTTGAAGAATTTGAAATAGGATACTCTACTGGAAAAGAAGTAGAAAATTTTTTGAAATCAAATTTAATAGATAAAGATGTAGCAATAAATGCAGGACTTTTAAATGAAAGTAGAGAAGTATTTAAGAATAGACTTATAATTCCAATAAGAGATAATAATGGATTAATGGCAGGTTTTTCTGGAAGATTAATAGAAAATATCGATGGACCTAAGTATATAAATACTTCTGAAAATGAATATTTTAAAAAATCAAAAATATTATATCTTTATTATAAAAATAAAGAATTTATAAAACAAAATGATTTTGCAATAATTGTTGAAGGTTATTTTGATGCAATTTCAATGTATAAATATGGATTTAAAAATGTTGTTGCCGTGTTGGGATCAACACTTACTAAAAATCATGCATTTGATATTATGAAATTGACTAAAAAAATTGTTACAATGTTTGACAATGATGATGCGGGGCAAAGAGCAACAATATCTGCAATAGATACATTACAAAGTAAAGATTTTCAAATTGCTGTTGCAAAGTATAAAGAAAAAGATCCTGATGAACTTGTAAAAAAGTATGACAAAAAATATATTGCTGAACTTTTAAAAGATTCATATAAATTTCATGAATACATTGCAGAAACTTTTTTAAAAAAGTATGATATAAAAAATGATTTTGGCGTGGAAGCATACTTAAAAGAAATGGGAATTTGGTATAAAAAATTTAATAATGCTAAAAGATTTGAAATTGCAAACTCTTTTGTAAAAAAAATATCTAAAGAAATAAATAAACCAGAAGAACTAATTGAGAAAATCTTAAACGAGATTTCAAAAACAAATAACCAAATGATAAGTGAAATTAAACAAAACTCTAAACTAATTGAAAAGGAAATCGGTTATGATTTGGGGAAAGCTTTTGTATATTTATGGATAAAATATCCTGAATATAAAAAAATTTTGAAATCTTTCGATGCAACAATACTTTCAGAACAACCATTAAAAGAATTTTTGATGTATATAAAGAATGATTTAGATCTTTCTGAAATATTAGAACAATCTTCTGATAAATTATCTAAAATCATTTCAGAAATGTGGGAAAAAGATCTTTATATAGAGCCATCAGAAATTTTATTTAGAATAGAAAAAAGTTTTGAAAATTTATCTTTAAAAAACAAAATTTTAAATTTAAAAGAAAAATTAAAGACAACAAAATTACCAAAAGAAAGAGCAGAGATAACATCTGAGATAATTGCAATATATGCAAAGCTAAAAAAATGAATCGTGGAGGTAATTAAATGGCTCAAGTAGTAAAAAAGGGAAAAGAAAATGTTGCAGAAATAATAAAAGATCTTGCAGAAATTGAAATTGTAGACGATGACAAAATAAAGTTAAAAAGAAGAAATGTAAAAAAACACAGAGATGTGCAAAGTATAATAAAAAAATTAAAGACTCAAGCTAAAAAAAATGGTAATAAGTTAACTTATGATGAAGTGGATAAATGTATTCCAGCTGATACGGATGAGTTTAACAGTGAATTTATAGAAAGTATATACGTAGAACTTGAAAAATCAAATATAAAAATAATAGAAAATCAAATTTCAATTGATGATGAGCCAATTCAATCAGAAGAAGATGTTTTAAAGATGTTTGATTCTGCTTCAATGCAAATGTTCGATAATATGGCATTGAATGACCCAATTAAAATTTATTTAAAAGAAATAGGAAGGATAAATCTTTTAACAACAAGAAGAGAAAAACAACTTGCAATGAGAGCACAAAAAGGCGATAAACACGCAAGAGATGAATTAATAAAAGCTAATTTAAGATTAGTTATAAGTATTGCCAAAAGATATATAGGAAGAGGGCTATCTTTTCTCGACCTAATTCAAGAAGGAAATATAGGATTAATAAAAGCAGTAAATAAATTTGATTGGAGAAAAGGTTTTAAGTTTTCTACTTATGCAACTTGGTGGATAAGGCAAGCAATAACAAGAGCTATTGCTGATCAAGCAAGAACTATAAGAATACCTGTTCATATGGTTGAAACTATAAATAGACTCAATAAAATTATAAGAGAGTTTTTACAGGATAATGGTAAATACCCTACGAATGAAGAATTAGCAAAGTTAATGGATAAATCAGAAGATAAGATAAATGAAATATTAATGGCAGCAAGAGAAACAATTTCTGCAGATTCCCCTATAACAGGATCTGATGACGATGATTCTTCAATAGGAGATTTTTTAGCAGATGATAATATAGATCATCCAGAAGAAGCAGCTGTTAAAATGATATTAAGAGAAGAGATTGAAAAAATATTAGATACACTTCAACCAAAAGAAGCAACAGTTTTAAAAATGAGATATGGACTTTTAGATGGTAAAATAAAAACACTTGAAGAAGTTGGTCAATTTTTTAATGTAACAAGAGAAAGAATAAGACAAATAGAAGTAAAAGCACTTAGAAAACTAAGACATCCAAGTAGAAGTGCACAATTAAAAGAATTGAGATCTATGCTTGGTAAAAAAATATTTTAGGGGGAGTTTATGGACGAAGATATCTTCGAACTTGAAACTAATATACCGGAATTTATAAAAAATGAATTAGATTCAGAACAATTAGAAGCTGTTGTTAATTCAAGAGGTAGATCTTTGATAATAGCTGGACCTGGTTCAGGTAAAACAAGAGTAATAACTTACAAAATAGCATATTTAATGTATAATGGTATAAATCCTAAAAACATACTATTGGTAACTTTCACAAGAGCAGCAGCAAAAGAAATGATAGAAAGAGTAAAAAATGTTACTAATTCTGATATAGAAGAAATGACGGCAGGTACCTTTCATCATGTTTGTAATGCTATTTTGAGAAGATATGCAGGAAAATTAGGATACAAAAATAACTTTACTATATTAGATAGTGAAGATGCAAAAGATGTTTTGAAAATAGCACGTAATGAATATAAAGAAAATATAGGAGATAGAGCTCAAAAACTTCCAAAAGAAAATGTAATTATGAAAATAATAAGTTATTCTAAAAACACATTAAAATCTTTAAGAGAAAGTATATTAGAAGTATCTTCAAATTTAATTGAATATGAAAATGACATTGAATATATATGGCAAAAATATGCAGAAATAAAGAAAGATATAAATGCTATGGACTACGATGATATTTTAGTAAATACTGCCGTTTTGTTTAGAATGAATAAAGAAATATTACAATTCATTTCATCTAAGTATAGATATGTTCTTGTAGACGAATTTCAAGATACAAATAAAATACAGTTAGAGATAGTTGAAGCTTTATCCTCTGTTCATGGAAATTTAATAGCAGTTGGTGATGATTCGCAAAGCATCTATTCTTTTAGAGGAGCAAGATTTGAAAATGTAAAAGAATTTATGGAAAATTCAACTTTATTTAAAATTCAAACAAATTATAGAAGTACACCAGAAATAGTAAATTTAGTTAATGAAATGATTCCTTTGAATTCAGTTCATAAAACATTAAAATCAGTTAGAAATTCAATAGATAAACCAATAATTATAGAAACTTTTGATGATCTTGAACAGTCTGAAGCCGTTGTTAAAATAATAAAAGAAAAACTTGATGAAGGATTAGAACCAAATGAAATAGCGGTATTGTATAGATCTCACTTTTTATCAATGACATTACAACAAAAATTAGATTCTAAAAAAATTCCTTACAGGCTTTTATCTGGTAAAAGATTTATAGAAACAGCACATATAAAAGATATTTTATCATTTTTAAAAATAGTTCAAAATCCATATGATAAAATATCGTGGACAAGGGCTTTAAAACTTTTTCCCAAAATAGGAAGTAAAACAGCTGTGAGAGTTTATGAAAACATATTTGATAGTTTAAATGATAATAAAAATTTAGAAATTGGATTAGAAACCTCATTATTGAAGAAAAATAAAAATGTATTGAATTTTTTTGTAGAATTATTTAAAAATAATACTGCTTCTGATATAATTGAATATGTATTTAAAAATCATTATAAAGAGTATTCTAAACTCACCTTTAAAGACTCGCGTTCAAGAAATATGGATATAGAAAGATTTATTGAAATTGCAGATAAATATGAAACCCTTGAAAAATTCCTTGAAGAAATGACTTTGAGTGAAAATATTAAAGTTTCATCAAGTAGAAAAGAAAAAGAAGAAAAAGAAGTTACATTAACAACAATACATGGATCTAAAGGATTAGAATGGAAAGTTGTTATATTAATTTCTGTAAATCCAGGAGATTTTCCAAATGGAATGGCAATAAGAGAAAAAAGGATTGATGAAGAAGAGAGATTATTTTATGTAGCAATAACAAGAGCAAAAAATGAATTGTATATATTAAAACAAGTAACTGGAACTGTTAACCCTTATATGAGAAATTCATTTGTTTTTATGAAAAAAGAAAATGATTTTATAAAAAGGATTCCAAATCAATATATAAAAAAATTAAAAACAGGTTACAAAAGATATTTTTAAAAAATAAGTATTTTTATTAAAGAACATTTGTTTAGAATGCACTCAATAATATAGGAATTTTAATATATTATTTTGAGTGAAACAACAGATTCTAAACAAATGTTCTAAGAAGTTTTATTTTGTGGTGAAAATTTAACCTAATTTAATTGAAAATTAAAGTTTAATAATGTACAATAGGAAATGGTATTTTTAAAAATAAATCATGGAAGGAGGGCAAATATACATATGCCAACTATTAATCAGTTGATACGTTTCGGAAGAAAAAAGATGACTTCAAAATCTAAGTCACCTGCATTACAAGGAAATCCACAAAAAAAGGGTGTTTGTGTAAGGGTTTCTACAACTACACCTAAAAAACCAAACTCTGCTTTAAGAAAGATTGCAAGGGTAAGATTGTCAAATGGAATAGAAGTTACTACCTATATTCCAGGTGAAGGTCATAACCTTCAAGAACATTCTAATGTTTTAATTAGAGGTGGAAGGGTAAAGGATTTACCTGGTGTTAGATACAGAATTTTAAGAGGTACTCTTGATACAGCAGGTGTTGATGGAAGAATGCAATCAAGATCAAAGTATGGTACAAAGAGACCTAAAGCAAAGAAATAATAGGAGGGTAGGAAATGAGAAGAAAAAGAGCCGAAAAAAGACCAATAGAAGCAGATCCAGTTTATGGTAATGTTTTGGTTACTAAATTAGTAAATAAAGTAATGCAAGATGGTAAAAAATCAAAAGCTCAAGAAATTGTTTATAAATCATTAGAAATATTAAAAGAAAAAACAGGTGAAGAAGCAATGGATGCTTTGAATAAAGCAGTTAATAATGTAAGACCTTTAATAGAAGTAAGATCAAGAAGAATTGGAGGATCTACCTATCAAGTTCCTTTTGAAGTTGCAGAAGAAAGAGCAATTTCTTTAGCATTAAGATGGATAGTTGCTTCAGCAAGAAGTAAAAGTGGTAAACCAATGGTTGAAAGACTTTCAAACGAATTATTGGATGCTCATAAAGGTACTGGAGCTTCTGTAAAAAGAAAAGACGACCTTCATAAAATGGCTGATGCAAACAAGGCATTTGCTCATTATAGATGGTAATTTAGGAGGAAGTTGCTGTGAAAGAGAGAAAATATACTCTAAATAGAACAAGAAATATAGGAATAATTGCTCATATTGATGCTGGAAAAACTACTACAACTGAAAGAATTCTTTATTATACAGGTAAAAAACATAAAATTGGTTCTGTTGATGATGGAACTGCAACAATGGACTGGATGGATCAAGAAAAAGAAAGAGGTATTACAATAACTTCTGCTGCAACCACTGCATTTTGGAAGGATCATAGAATTAATATAATCGATACACCAGGTCACGTGGACTTTACGGTTGAAGTTGAAAGATCTCTTAGAGTACTTGATGGTGCAGTTGCAACATTTGATGCACAAGTTGGTGTTGAACCACAATCAGAAACAGTTTGGAGACAAGCAGATAAATACAATGTTCCAAGAATAGCATATATGAATAAAATGGATAAAATAGGAGCAGATTTTTTAAATGCTGTTCAAACAATGGTTGATAAGTTAGGTGCCAATCCAGTTGCTATGCAAATAGCTATTGGTGCAGAAGCTGATTTTGCAGGTGTTGTTGACTTAATAAAAATGAAAGCTTTATATTGGGTAAATGAAGATGGTTCACAAATGGAATATAGAGATATTCCAGAAGAACTACAATCACTTGCAGAAGAAAAAAGAGAAGATTTAATAACAGCAGCTGCTGAATTTGATGAAGAGTTAATGGATCTTTATCTTGAAGGTGAAGAAATTCCAGAAGATAAATTAAAAGCAGCTATAAGAAAAGGTACAATAGAAGTTAAAATAACTCCTGTTTTCTGTGGAACATCATTTAAAAATAAAGGAGTTCAACCAGTACTTGATGCAATAATAGATTATTTACCTTCTCCATTAGATTTACCACCTGTAAAGGCTTATGATGATAGAACTAAAGAATTTGTAAGAGATGTTCATCCAGATGAAAATGAACCATTAATGGCTCTTGCATTTAAAATAATGTCAGATCCTTTTGTAGGAAAATTAACCTTTGCTAGAGTTTACTCAGGTAAAATGGAAAAAGGTAGCTATGTTTTAAATACAACTAAAGGTAAGAAAGAAAGAGTTTCAAGATTAATGTTTATGCATTCTGATCAAAGAGAAGAAGTTGACTATGCAAGAGCTGGAGATATAGTTGGTATAGTTGGTTTAAAAGATACAACTACTGGAGATACATTATCTCTTGAAGGCTCAGAAGAAATTCTTGAAAATCTTGAATTTCCAGATCCAGTTATCTCTGTTTCAATTGAACCTGAAACAAAAAATGATGAACAAAAATTATCTAAAGCATTAAATGCTTTAACTTCAGAAGATCCAAGTTTAAAAGCAGAAGTTAACCCTGAAACAGCTGAAACAATTCTTTCTGGAATGGGAGAACTTCATCTTGAAATCATTGTAGATAGAATTAAAAGAGAATTTGGAGTTAATGTTAAAGTGGGTAAACCACAAGTTGCTTATAGAGAAACAATTAAAGCAAAAACAGATGTTGAAGAAAAATTTGTAAGACAAACTGGTGGTAAAGGACAATATGGTCATGTTAAAATGATAGTAGAACCATTACCATCTGATAGTGAAGAAACATTTGTTTTTGAAAATAAAGTTGTTGGTGGAAATATTCCAAGAGAATATATACCAGCTGTTGAAAATGGAATTAAAGAATCATTACAAAATGGTGTTTTGGCTGGTTATCCAATGGTAAATGTTAAGGTTACTCTTTATGATGGTTCGTATCATGAAGTTGACTCTTCTGAAATGGCATTTAAAATTGCTGGTTCTTTAGCATTCAAGAAAGCAGCAAAACAATGTAAACCAGTACTTCTTGAACCTATAATGAAAACAGATGTAACTACACCTGAAGAATATATGGGAGATATAATTGCTGATTTGAATTCAAGAAGAGGAAGAATAGAAGGTTTTGAAAATGTTGGAAATACTAATACAAGAATAATTCATGCATTAGTACCTCTTTCAGAATTATTTGGATATACAACAGCAATGAGATCATTGTCTCAAGGTAGAGCAACTAATTCATTACATTTTGATCATTATGAAGAAGTTCCTGCATCAGTTGCAGAAAAAATTATTAACAAAGAAGACTAAAAAAAAGTTGAACTAAAACAAAAAATAATGTATAATATCAATTGTATACTACATATCTATAAAAAAAAAGGGAGGAAATCCGAATGGCCAAAGAAAAGTTTGTCAGAAATAAGACACATATGAACATTGGAACCATAGGTCATATTGACCATGGTAAAACAACTTTAACAGCAGCTATAACAAAATCTTTAGCAAAAAAAGGTGGAGCAGACTTTACTCCATTTGATATGATCGATAAGGCTCCAGAAGAAAGAGCAAGAGGTATCACTATAAACGTATCACACGTTGAATACGAAACAGAAAAAAGACATTATGCACATATAGACTGTCCAGGTCATGCTGACTATATTAAAAACATGATTACTGGTGCAGCTCAAATGGATGGAGCAATACTTGTTGTTGCTGCAACAGATGGAGTTATGCCACAAACAAGAGAACACGTTCTTCTTGCAAGACAAGTTAATGTTCCTGCATTAGTTGTTTTCTTAAACAAAACAGATATGGTTGATGATGAAGAATTAATCGACTTAGTTGAAATGGAAGTAAGAGAACTTCTTTCTTCTTACGATTTCCCTGGAGACGATGTTCCTGTTATCAGAGGATCTGCTCTTAAAGCATTAGAATCAGATTCAACAGATGATGAATGGGTTAACAAGATTTATGAATTAATGGATGCTGTAGATAGCTACTTCCCAGATCCAGAAAGACCAATTGATAAACCATTCCTTCTTCCAATAGAAGATATCTTCACAATTACAGGAAGAGGAACAGTTGTTACTGGAAGAATTGAAAGAGGTACAATTCATCCATCTGACGAAGTTGAAATGGTTGGAATTGGAGAAGAAACAAAGAAAACAGTATGTACTGGTGTAGAAATGTTCAGAAAACTTCTCGATGAAGGAGTTGCTGGAGATAATGTTGGTTGTCTTCTTAGAGGTGTTGATAAAGATGAAGTAAAAAGAGGACAAGTTCTTGCAAAACCAGGATCAGTTACACCACATAAGAAATTTAAAGCACAAGTTTATGTTCTTAAAAAAGATGAAGGTGGAAGACATACTCCATTTACAAAAGGATATAGACCACAATTTTTCATTAGAACAGCTGATGTTACTGGAACATTAGAAGAATTTGATTCAGGTGCAGAAATGGTTATGCCTGGTGACAACATAGTAATGACAATAGAATTAATCTATCCAGTTGCTATGGAAGCTAACATGAGATTCGCTGTTAGAGAAGGCGGAAGAACTGTTGCTTCAGGTGTTGTTACAGAAATAATAGAATAATAAAATGTAATTGAAATAAAATAAAGTTAAAATAATCAAGGAAAAAGCCGGGGAGTGGTATGCTCCCCTTCCTATTCGATTGCAAGGAGGGACTTGATAAAGTGGCTAAGAAGTTTATAAAGATAAAACTAAAGGCATATGATCACAGACTTCTTGATGATTCTGCAAAGAAGATAATAGAAGCAGTTAAAGAAGTAGATGCAAGGGTATCTGGACCTATCCCATTGCCTGTAGAAAGAACGGTTTATTCGGTTGTTAAATCACCGCATAAATACGCTTATTCTATGGAACAATTTGAAAAAAAGGTTCACAAAAGAGTTATTTTTATCTATGATGCATCATCAGAAACAGTTACTAAATTGTTGAAGGTGAATATTCCTGCAGGAGTTGCAGTAGATATAAAAGCTTAAATTAAAAGATCGGGCTCTGGAGGTGTAATATGAAAGGTTTAATTGGAAGAAAAGTTGCAATGACAAGAATCTACAAGGATGGAAAAGCTATCCCGGTCACAGTAGTAAAAGCTGGACCTTGTTTTGTAACTCAAAAGAAAACGAAAGAAACAGATGGTTATGATGCAATTCAAGTTGGATATGAAGAAATAGCTGAAAGAAAGTTAACTAAACCTCTTTTAGGTCACTTGAAAAAAGCAGAAGTAAAACCATTGAGAATTTTAAAAGAATTTAGGGTTGAAAATGTTGATGAATACCAATTAGGTCAAGAAATTAATGTTTCTATTTTTGAAGAAAATGAAAAAATAGATATTATTGGTACCTCAAAAGGTAGAGGTTATGCAGGTGCTATGAAAAGATGGAACTTTGGTGGAGGAGAAGTATCACATGGTTCTAAATTTCATAGAGCGTTAGCTTCAACAGGACAACATACTTACCCAGCAAGGGTTTTAAAGGGTAAAAAAATGCATGGTCATTATGGAAATAAAAGAACAACAGTATTAAACTCTCAAGTCGTACACATAGATGCAGAAAATAACCTTATAGCAGTTAAAGGTGGAGTTCCAGGAGCGAGGGGCGGATTAATAATCATAAGAGAAGCAGTTAAAAAATAATAAACGCCCGAAAACGTGATAAGGAGGAAAGAAAAAGATGGCTCAGTTAGATATGTTGAATATCAACGGTGAAAAAGTAGGAACAGTTGAGCTAAGAGAAGATATCTTTGGTATTGAACCTAATGCAGATCTTTTATTCAGATATGTTGATATGCAACTTGCAAATAAAAGATCAGGTACAGCTTCAACAAAAACCAGAGCAGAAGTAAGAGGTGGAGGAAGAAAACCTTGGGCTCAAAAACATTTAGGTAGAGCAAGAGCAGGTTCAACAAGATCACCTATTTTTAGACATGGTGGAGTTACTTTTGGACCAAAACCTAGAAGTTATGAAAAGAAATTAAACAAAAAGATGAAGAGATTAGCATTAAAATCAGCTTTGAGTGTTAGAGTTAGTGAAAACAACTTGATGGTTCTTGAAGATATAAAATTTGATGCGCCAAAAACAAAAACAATGAAAGACATTATTAAAAAAATTGGTGTTGAAAATAAAAAGACTTTATTTGTTCTTCCAAAAAAATCAGAAGAATATAAAAATGTTAAATTATCTGCAAGAAACTTACCTAAAGTAAAGGTTTTAATTGCTGATAATCCTAGTCAAGAAAAAACTAACATAGATGGTTTGAATGTTTTTGATTTAATAAACAATGAAAAGGTTGTAATTACAAAAGCTGTAGTTGCAAAGATTGAGGAGGTGCTCGGATAATGGAAAAAGTAAGAGCATATGATATAATTGTAAAACCAATCCTCACAGAAAAGACATATACATTAATGGGCGAAGGAAAATATACATTTGAAGTTAGCAGAGATGCTAATAAATTAGAAATAAGAGAAGCTGCAGAATTACTTTTTAATGTAAAAGTAATTGATGTAAAAACAATGAATGTAAAAGCAAAACCAAAGAGACTTGGTAGACATGAAGGATACACAAGACAATGGAAAAAGGCAATAATTAAGTTGGCTGACGGCTATGTAATCAAAGAATTACAAGGCAATATGTAAGAGAGGTGAAATGATAATGGCTCTTAAAAGATACAAACCAACAACACCGTCAAGAAGATACATGCTTACAACAGATTTTTCAGAAATAACAACTAATAAACCAGAAAAATCTTTGTTAGCTCCTCTTAAAAAGACAGGTGGAAGAAACAATTATGGTAGAGTCACCCTAAGGTTTAGAGGTGGAGGACACAAAAGAAGATATAGAATAATTGATTTTAAAAGAAATAAATTTGATATACCAGCTAAAGTAGTTAGTATAGAATACGATCCTAACAGAACAGCAAATATTGCACTTTTGGTATATGCTGATGGAGAAAAAAGATATATATTAGCTCCTAAAGGATTAAAAGTTGGAGATAAATTATTAAATGGTGCAAATGCAGAAATAAAAGTTGGTAATGCATTACCACTTGAAAATATTCCTCTTGGTACACTTGTTCATAACATAGAATTTGAACCAGGTAGAGGTGGAAAAATAGCTAAATCTGCTGGAACATATGCACAATTAATGGCAAAAGAAGGAAGATACGCACTTTTGAAAATGCCATCAGGTGAATTAAGAAGAGTAAGAATGACTTGTATAGCAACAATAGGAACAGTAGGAAATGAAGATCATAAAAATGAAGTTCATGGTAAAGCTGGAAGAAGAAGATGGATGGGATGGAAACCACACGTTAGAGGTATGGTTATGAACCCAGTAGATCATCCAATGGGTGGTGGAGAAGGAGCAGCTAAATGTCACTTACCACAATCACCTTGGGGATTACCAGCAAAAGGATATAAAACAAGAAGAGGTAAAAAGAGTTCCGATAAATTTATAGTAAGAAGAAGAAAAGGTAGATAATTTAGGAGGTGCCTTTTAAATGAGCAGATCTTTAAAAAAAGGACCATATGTCCACCCTTCACTTCTAAAAAAGATAAGGGAAATGAACGAAAAGGGAGAAAACAAAGTATTAAAAACATGGTCAAGAGCATCAATGATACTCCCGGAATTTGTTGGTCACACAATAGCAGTTCACAATGGAATGAAACATATACCTGTATATATTTCAGAACAAATGATAGGTCACAGACTTGGTGAATTTGCTCCAACAAGAAGATTTGGCGGACATGTTGATAAAAAAGCTGCCAAAGGGAAAGTAAGATAAGGAGGCGAAAAAAGTCATGGCTTCAAATATTTCAAGAGTTCAAGACGGAAGAAGAGTAAAAAAATCTGTTTTTCATAAAATAAGAAAAGAAGCAGAAGCAGCAAAACCAAGAACAAGTGCTACAGCTAAAGCAAAGAATTTGAGAATTTCTCCAACAAAATGTAGAGCTGTTGCAAATGGTATTAGAGGAAAAAATGTAAGTGAAGCGCTTCAAATATTAATGTTTAGTCCAAAAAAATCTGCAACATTAATTAATAAAGTATTAATGTCAGCAATTGCAAATGCAGAAAATAATTTTGGATTAAAACCAGAAAATTTATTTGTAAAAGAAATTCAAATTAATGAAGGTCCAAGAATGAAAAGAATGTGGCCAAGATCAAGAGGAAAAGCAGATATCCTTCAAAAGAGATTTAGCCACATAACAATAACCGTTCAAGATAAAAACATTTAAGTGAGGTGAAAATTCCGTGGGTTCAAAAGTACATCCAACAGGCTTTAGGGTTGGAATTTCACAGCCTTGGAAATCAACATGGTTCAATGAAAATAAATATAGAGAATATCTTCATGAAGATAGAAAAATAAGAGAATATGTTGAAGATAAATATCAAAGAGCAGGAGTTTCAGAAGTTATTATTTCAAGACCAAGCGATTCAATGGTTAAATTAGAAATTTTTGCTTCAAGAGTTGGAATAATAATTGGTAAAAAAGGCTCTGAAATTCAAAAATTAAGAGAAGAATTATCAAAAATAGTAAATGAAAGAGCGGTAAAAGTTTTTGTACAAGAAGTTAGAAATCCTTATTCAAGTGCAAAACTAATTGCTGAAGATGTATCAAATCAATTGTTAAGAAGAATTTCTCATAAAGTTGCAATGAAAAGAGCAATAAATAATGCAATGAAAAGAGGAGTAAAAGGTATAAAGATAATGGTATCAGGAAGACTTGGTGGAGCGGATATTGCTAGATCTGAAACATATATGGAAGGTAGATTACCGCTACAAACTTTAAAAGCAAACCTTGATTACTCAACAACGGAAGCTCAGACTAAATATGGTACAACAGGTATAAAAGTCTGGATTTACAAAGGCGACGTACAGTTATAAGAACGAGGAGGTAATTAACAATGTTAATGCCAAAGAAGGTTAAATATAGAAAATCACAACGTGGATCCATGAATGGTATGGCAAAAGGTGGAACAAACGTACACTTTGGAGATTTAGGTTTAAAATCTCTTGAAGGTGCTTGGATAACTGCAAGACAAATTGAAGCATGTAGACTTGCAATGGTTAGAACATTAAAAAGAAATGGTAAAGTATATATAAAAATATTCCCTGATAAATCATTTACATCAAAAGGAATCGGTACAAGACTCGGTAAAGGTAAAGGTGACGTTGATGGTTGGGTAGCGGTTGTAAAACCTGGAAAAGTTCTCTTTGAAATAGGTGGAGTGGATCCAGAACTTGCAAAAAAAGCTCTCAATTATGCTGCAACTAAATTACCAGTAAGAACAAAGATAGTTCCCAGGTACCAAATAGGGGGTGAGTATTAATGAAAGCAGCAGAATTAAAAGTTTTAACAGATCAAGAATTAACTCAAAAATTAGAAGATACAAAGAAAAAATTATTCGAACTTAGATTCCAGCTCGAACTTGGTCAATTAAAAAATACTGCACAATTAAAGTATGTGAGAAGAGATATTGGTAGAATTAAGACCATTTTAAGAGAAAGAGAACTGGGTATAAGGAGGTAATTTGGATGCCAAGAAAAGTAATTGTGGGAACAGTTATAAGCGATAAAATGGATAAAACTGTAACTGTTGAAGTAAAAGATTTTGTAAAACACCCAGTTTATAAAAAGACAATTAAAAGAACAAAAAAATATCATGCACATGATGAAAATAATGCATGTAAAATGGGTGACATTGTAGAAATAGAAGAATCAAGAAAATATTCAAAAACAACAAATTTTGTTGTTACAAAGATTTTAAACGAAACACCCGAAGCTGTGGAAGAAAACGGAGGTGAAAACTAATGGTTCAATTAGAATCTTACCTCAGAGCAGCCGATAATTCAGGTGCTAAAGTATTAAAAGTAATAAAAGTTTTAGGTGGTTTTCATAGAGCAACTGGTAGTGTAGGAGATGTAGTTGTTTGTTCTGTTAGAGAAGCTGTACCTAACACAGATATAAAAAAAGGACAAGTAGTAAAAGCAGTTATTGTTAGAACACATAAAGAAATTGGAAGAAGCAATGGAACTTATGTTAGATTTGATGATAACGCAGCAGTTTTAATAGATAAAAATAAGATGCCGTTAGGAACTAGGGTATTTGGTCCTGTTGCAAGAGAAATAAGAGATGCAGGATATACAAAAATTGCATCACTTGCAAAAGAAGTCTGGTAAACAGAGGTGGTGAAATAATGAAAATAAAAAATGGAGATACTGTAAAGGTAATTTCTGGAAAAGATAAAGGAAAAACCGGTAAAGTATTGAGAGTAATACCAAAATACAACAAAGTGGTTGTTGAAAATATAAATGTAGTTAAGAAGCATCAAAGACCTAATCAACAAATGAGGGAAGGCGGAATAATCGAACAACCATCCCCAATTTACTCATCAAAAGTAATGGTAGTTTGTTCTAGCTGTGGAAACGCAACAAGAGTTGGCTACAAGAAACTTGAAGATGGTAAAAAAGTTCGTTACTGTAAAAAATGTGGCGAAATAATTGATAAGGCGTAATGAGGAGGAATAAAAATGAGTGAATATATACCACTTAGAGACAAATACGACAATGAAGTCGTTGAAGCACTCATGAAAGAGTTTGGTTACAAAAACAAACATCAAGTGCCTAAAATAGACAAAATTGTTATAAACATGGGTATGGGAGAAGCAACTAGAAATAAAGATATAGTTGTTAAACATGCTGATGAGTTGACAAAAATAACAGGACAAAAAGCTGTTATAGTAAAGGCTAAGAAAAGTGTTGCTAACTTTAAACTCAGAGAAGGAATGCCAATAGGAGCTAAAGTTACCTTAAGAGGAAAAAATATGTACAATTTCTTATACAAAGTTGTAAACATAGTTCTTCCTAAATTAAGAGACTTTAGAGGATTACCTTCTGATTCATTCGACGGAAGAGGAAATTATAACTTTGGATTAACAGAACAAGTGGTATTTCCTGAATTAAAACCTGACGAAGTAAAAAGAGTACAAGGTATGGATATAGCCATTGTTACTACAGCAAATACCGATGATGAAGCAAAAAAATTGCTTGAATTCGTTGGATTCCCATTCAAAAGATAATGACTGGAGGGATAGATTAAATGGCAAAAAAAGCTATGGTAGAAAAATGGAAAAGAGGATCAAAATATAAGACAAGAGAATATAATAGATGTGAAGTTTGTGGAAGACCTCGTGCAATTTACAGAGAATTTGGATTGTGTAGAGTGTGTTTTAGGAAAATGGCCTTGGAAGGAAAACTTCCCGGTGTAAAAAAGGCAAGTTGGTAAGGAGGGAAGCATAATGTGGAGTGATCCTATAGCAGATATGCTCACAAGAATTAGAAATGCTAATTCAGTATTTAAGGATACAGTTGAAATACCTGCTTCAAACTTAAAAAAATCAGTTCTTGATATCTTAAAAAGAGAAGGATATGTTTCTGATTATAAATTTATTGAAGATGGAAAACAAGGTGTTTTAAAAGTAAACATGAAATACAAAGGTGATAGAAGAAATAGAGAAAAAGTAATAGATGGAATAATAAGAGTATCAAAATCAGGTAGAAGAGTATATGTTGGAACAGATAAAATTCCATCAGTTAAAGGTGGTTTGGGAATTGCAATTATTTCCACATCTAAAGGCATTCTCACCGACAAGGAAGCTAGAGAAATAGGTGTTGGTGGGGAAGTTATTTGTTATGTATGGTAAGGAGGTGCCTTGTTAATGTCAAGAATTGCAGATAGACCGACAGCAATACCCGAAGGTGTTGAAATAAAAGTTGAAAACAATACTGTTACGGTTAAAGGCAAAAATGGTGAACTAAAACTTGATTTTTTACCTTCTGTAAAAGTAGAAATTGCAGAAAATGAATTAAGAGTTTTGGAAAATGAAAATGTAAGAAAAAGAGCAGCTGATGAAAAGAAAATAACAGCACTCAGAGGTACATACACATCATTAATTAGAAACATGATAATAGGAGTTACAGAAGGATTTAAAAAAGAATTAGAAATAGTGGGTATAGGTTATAGAGCATCTATGCAAGGCAACAAGCTCGTTATGAACTTAGGATACTCACATCCTATTGAATATGTTGCTCCTGAAGGTATAAACATAGAAGTTCCAGCTCCAAATAAAATTGTTGTTAAGGGATCAGATAAATATCTCGTTGGTGAAGTAACAGCAAAATTAAGAAGATATAGAAAACCAAATGCTTACTCAGGAAAAGGTGTAAGATATGCTGGTGAAGTAATCGTTAAAAAAGAAGGTAAAAAAGTTTAATAGGTAATTGAGGAGGGCTGATATGATAAAGAAGGTCGATAGAGATGCAAAAAGAAGAAAGAGACATCTCAGAATTAGAAGAAAATTATCAGGAACTTCAGAAAGACCAAGACTTGTCGTTTTCAGAAGCGAAAAACACATGTATGCTCAATTAGTTGATGATGAAGCTGGAAAAGTAATAACTTCTGCATCAACAATTGATAAAGATGTTAAAATTGAAAAGACTTGGAATGTTGAAGCTGCGAAAGAAATAGGAAAGTTAATAGCCGAAAAAGCTAAGGCAAAAGGCGTAACTAAAGTAAAGTTTGATAGAGGTGGCTATCAATATCACGGTAGAGTAAAAGCTGTTGCAGAAGCTGCTCGTGAAGCCGGCCTAGAGTTATAAGGAGGTGCCTGAAAAAAATGGCTAGAAACACTAAAAATTCTAGAACTGAAGTTCCTCAAGAATTTGAAGAAAAATTAATTGATATAAAAAGAGTTACTAAGGTTACAACTGGAGGTAAAACAATTTCTTTCAGAGTAACTGCAGTTGTTGGTAATAAAAAAGGAAAAGTTGGTGTTGGAATTGGAAATGCAAGAGAAGTTCCTCAAGCAATAAGAAAATCAATTCAAAATGCCAAGAAAAATTTAATAGAAGTTCCTATAAAAAATGGAACTATTCCTCATGAAATTATTGGGGTACAAGATGCTTCAAGAGTAATGCTTAAACCAGCAGGAGCAGGTACAGGTATAATTGCCTCAAGTTCTGTTCGTGCAGTTGTTGAACTTGCAGGAGTACATAATATTCTTACAAAAGCACTTGGATCAACAAATGTATTAAATCTTACAAAAGCAACTTTAGATGGATTAAAACACTTAAAATCACCTAAAAAAATTGCTGAATTAAGAGATTTAACAGTTAAACAAGTAATTAATGGTGCTCACAAGGAGGGATAATGATGGCAAAATTAAAGATAAAACTTGTGAGAGGTAGAGCAGGTAAAAATAAAACTCAACTTTCAACATTGGATGCATTGGGATTAAATAAACCAAATGTAGAAGTTATAAAAGAAGATAATCCTCAGATACGTGGTATGATTAGAGTAGTTAATCACCTCGTAAAAGTTGAAGAATTAGCATAATGAGGAGGTAAGGAAATGTTAAATATTGGAGACTTAAAACCAACACCAGGTTCAAGACACTCTAAAAAGAGACTTGGAAGAGGACCTGGAACAGGATTAGGTAAAACATCTGGTAGAGGACACAAAGGACAAGGTTCAAGAGGAAAAGGAAAGGTAAGACCAGCATTTGAAGGTGGTCAAACACCATTATATAGAAGAACTCCAAAATTTGGATTCTCAAATGTACCATTCAAGAAAATTTTCTCTGAAGTAAACTTAAGTGTTTTAGAAGAAAAATTTGAAGCAAATGAAGAAGTAACTATAGAAAAACTTCTTGAAAGAAGAATAATCAAAAAAGTTAATGATGGAGTAAAAATCCTCGGAAATGGCGAACTAACAAAATCCCTCGTTGTTAAAGCCAATGCATTTTCAGCATCTGCTAAGAGTAAAATAGAAGCAGCTGGCGGAAAAGCAGAGGTAATTAATGACTAAAGCATTAGGCAATATATTCAAGATCCCGGAACTCCGGGATCGTGTGCTATTCACTTTACTTGCATTGATTGCTTTCAGAATAGGTATATTTATACCTATTCCTGGAATTAATCAAGCTGCTTGGACAAGTGCTTTAGGTGGGATGCAAAATAGTGCAGCTGGGGGATTTATTAACTTTTTTGACGTGTTTGCAGGGGGAGCTTTAAAACGTTTTTCAATATTTGTTTTTAGTGTAACACCATATATTAATGCTTCGATAATATTACAACTTTTATCTTCTGTTTTGCCTAGTTTGAAAGAAATGCTAAAAGAAGGTGAAAGTGGAAGAAAGAAATTTGCATCAATGACAAGAAAATTAACTATAATAATCGCATTATTACAAGGATTCGGATTATCTATATCTGCATTAAATTATAGAATGCAATCAATTCCTTCTTACATATTTATTATATTAGCAACAGTTTCTACAATCGCTGGAACTATGTTTTTATTGTGGATTGGTGAAATGATTACTGAAAAAGGAATTGGAAATGGTATATCTGTACTTATTTTTGCTGGTATTGTTTCAAGATATCCAGGATATGCTGCACAAGCATTAATTGGATTAACTCCACTTGAATGGATAATATTACTTACAATAGTAGTAATAATTGTAGTTGCAACAGTTGCAGTACAAACTTCTGAAAGAAGAATAAACGTACAATATGCAAAGAGAGTTGTTGGTAATAAAATTTATGGTGGAGCTTCAACATACATACCAATAAAGGTAAATGGTGGAGGAGTTATACCAATTATCTTTGCTTCAGCTATAATGACATTACCTTCAATGATATCAAGAGCAACAGCAAATAAAATTGATGATAAAATTTTTGGTATAGGATCAGCATTATATCTTGTAATTTATGGATTACTTGTATTTTTCTTTACATATTTTTATAGTTCAGTTGTTTTAGATCCAAATGAAGTTTCTGATAATATAAAGAATTATGGTGGATTTATTCCTGGAATAAGACCTGGTAAACCAACAACAAAGTATATAACAACTGTTATGACAAGAGTTACTTTTATAGGTGCTTTGTTCTTAGTTGTTTTGGCTTTATTACCTTATGTTATAAGAGGAACAGCTGGAGTACAAATATGGATTGGTGGTACAAGTACTTTAATTGCAGTCGGGGTTGCATTAGATATACTACAACAAATGGAATCTCATATGATCGCAAGACAGTACGAAGGTTTTATGAAGAAAGGAAAACTCCGCGGAAGGAGATGATTTAATGAAAGTTTTGCTTTTTGGTCCGCCTGGTGCAGGAAAAGGAACACAAGCAAAAATTGTGGCAAAAAAACTTGAAATACCACACATCTCCACCGGAGATTTACTCAGAAAAACTATAAGAACTGGATCAAAATTGGGGCTTCAAATAAAAGAATTGTTAGACAAAGGAGAATTTGTTACTGATGAAATGATTAATAGTTTAGTAAAAGAAACTCTTTTGGAATATGAATCTTTTATACTCGATGGATATCCAAGGACTTTACAACAAGCTGAGTTTTTGAAGAAAATTTTCGATGAAAAAAATAAAAAAATAGATGCAGCAATCTTCATAGATGCACCACTTGATATGCTTTTGAAAAGAATAACAAATAGAAGAGTATGTCCTGTGTGTGGAAGAGTGTACAATCTTATATCTCATCCACCTAAAAAAGAGTGTATTTGTGATGATGATGGAACACAATTAGTACATAGAGACGATGACAAAGAAGACGTAGTGAAAGAAAGATATAACATATATCTTGAAAGAACTGCTCCCGTAATAGAATTTTATAAAAAAAATTACAAAATTTTTACAGTTGATGGCTCTCAAGACATAGAAGATGTTACAAAAGAATTGTTTAATATACTGAAGGGAGTGTCTTCAAATGATAATAATTAAGACTGAAAAAGAAATAGAAATGATGAGGCGGGCTGGGGCAAAACTAGCTCGTCTCCTTGATGATTTGATTCTTGGAGTAATAAAAGATGGTGCTTCAGCATATGATGTTGAAATGTTTGTTTTAGATTACATGAAAAAAATAAATGTAATACCTACATTTAAAGGATATGCCGATTTTCCATATGCAACTTGTATATCTGTTAATGAAGAAGTAATACATGGTTTTGCATTAAAAGAAAAAGTTTTTAAAAATGGAGACTTAGTTTCTATTGACTGTGGACTAACTTATGAAGGTTACATTGCAGATAGTGCTAGAACTTTTATCATAGGAGATGTTTCTGAAAAAGAAAAAAAATTAGTTGAAGTTACGAAAAAATCTTTATACCTCGGTATAGAACAAGCAGTTCCTGGAAACAGAATTGGAGATATAGGAAATGCTGTTCAGAAATATGTTGAACAACATGGATTTTCAGTTATAAGAGATTTTGTTGGTCATGGAGTTGGAAGAAAATTACATGAAGATCCACAAGTGCCAAACTTTGGAAGACCTAATTCAGGAGCTCTTTTAAGAAAAAATATGACTATTGCAATTGAACCAATGGTTGCTATGGGAAATTATGAAGTTGAAGTCCTTGATGATGGTTGGACTACAGTTACCAAAGATAGAAGTAAAGCGGCACATTTTGAACATTCTATTGTAATTACTGAAAACGGACCAGAGATTTTAACATCTCTTAACCCGTAAGGGGGGAGTAAGTGTGGCAAAAAAAGATGATGTAATTGTAATGCAAGGAAAAATTCTTGAATCTTTGCCTAATGCAAATTTTAAAGTAGAGCTTGAAAATGGTCATGTTGTTCTAGCTCACATTTCTGGAAAAATGAGAAAAAATTTTATAAGGCTCCTTCCAGGAGATAAAGTTACTGTTGAAGTTTCAATATATGACTTGAACAGAGGAAGAATAGTCAGGAGAGAAAAAATTAGAAGAATAAATCCGGACGAAGAAAACTAAGGAGGAATTTAAGATGAAAGTTAGAGCCTCAGTAAAAAAAAGATGTGAACATTGTAAGGTTATAAGAAGAAAAGGTAGAGTTTGGGTTGTATGTTCTAAAAATCCAAAACACAACCAAAGACAAGGTTAATTTTAAGGAGGGAATGAATAGATGGCACGTATTCTCGGTGTTGAAATACCAAACAACAAGAAGTTATTCGTGGCTCTCACATATATCTATGGTATAGGAACACATAGAGCTTACGAAATATTAAATGATCTTGGAATAGATCCAGATAGAAAAACAATGGATTTATCAGATGATGAAATCTCTAAAATTACTCATCACATCAATGAAACATATAGAGTTGAAGGAGATTTAAGACAAGAAATAAATAGAAACATAAAAAGATTGATAGAAATTCATTCTTACAGAGGACTTAGACACAAAGCGGGACTCCCAACAAGAGGTCAAAAGACACATGCAAATGGAAGAACCAGAAAGGGCCCAAGACTCACAAAAATTAGAAAGAAATAATTGAGGAGGGTAAGTAAATGGCAAAAAGAACCGCAACAAAGAATAAAAAGAAAAAGATTTCAATTGATAAAGGTGTTATAAGAATACACTCTAATTTCAACAATACTATAGTTACACTTACAGATGTAAGAGGAAATGTAGTAACTTGGTCAAGTGGTGGAAATGTTGGTTATAAAGGTACAAAAAAAGGAACACCATATGCATCACAACTTGCAGCTGATAAAGTAGCTAAAGAAGCAGTTAAATTAGGAATAAACAAAGTTGATGTTACAGTAAAAGGTCCTGGATCAGGAAGAGAATCAGCAATAAGAACTATACAAGCTGCAGGATTAACAATTGATCAAATTAAAGATGTAACTCCAATTCCACACAATGGATGTAGACCTAAGAAAAAGAGATTCTAAGACCCGATTGAGAAGAAGGAGGGAATAAAAAGATGGCAAGATACACAGAAGCGCTCTGTAAGCTCTGTAGACGTGAAGGCTTTAAGATGTATTTAAAAGGTGAAAGATGTTATACTGAAAAATGTGCTATAGCAAAAAGAAATTTTGCTCCAGGACAACATGGTCATAACACAAAGAAAATGGGACAATATGCAATTCAGCTTAGATCAAAACAAGCTTTAAAAAGAATATATGGTATGCTTGAAAAACAATTTAGAACATATTTTAAAGAAGCTGCAAGAAGAGAAGGACAAACAGGTGAAGTTCTCATGCAACTTTTAGAATCAAGATTAGATAATACTGTATATCAAATGGGATTTGCAGTTAATAGAAGAACAGCAAGGCAAATAATTAGACATGGTCATGTTTTAGTGAATGGTAAAAAGGTTAATATTCCTTCTTACAGACTAAGATCAGGAGACGTTGTTGAAATTAAAGAAGGAAGTAGAAGTATTCTCCAAGTTAAAAATGGTTTAGAACTTTCAAATAATAGAAATTTAGCAAGAACTTGGTTAGATGTTAATACAGATCAATTCAAAGGAACTTTTGTAAGATTACCTAAATTAGAAGAAATGGAAGTACCGGTAGACCTTCAGGCTATCATCGAACTTTACTCGAAGTAATGTTTTTTTGCTTCACCTTATTTACCCATTGGGAAAGGAGGTGTACTCCGGTTTAATTGGAAAATCGGAGGTAGAAGATGGAATTATATATAAAACCAGAAACATTTGAAGTGGTTGAAGAAAGAAAAGATAATGAATATAATTATGCAAAATTTGAAATGTATCCCCTTGAAAAAGGATATGCTATTACTATGGGGAATGCATTAAGAAGAGTTATGCTTTCAACAATACCTGCCTTTGCTATTGTTGGATTAAGAGTTCCAGGGAAACTTCATGAATTTGATACAATTGAAGGAATTACAGAAGATATACTTGAAATTTCTTTAAATTTAAAAAAAGTTCAAATAAAAGCTACAGATTCTAAGCTTCTTGAAAAGAATGAAGAATTTGAGTTAGTAATAAATAAAACTGGAATAAAAGGTGAACCGGTTGATATTTTAGCAGGGGATATACAAACACCAACGGGACTTGAAATAGCAAATCCTGAATATAAAATAGCTACATTAAATTCTGATAACAATGTTGAAATGTATTTGTATGCAAGACCTGGTAAAGGTTTTGTATCTGCAAGAGATATTGAAAGAACTGAAGAACAAAAAGATGTAGAATATATATACATTGATGGTGCATTTAGTCCAGTATTAAAAGTTAACTTTTTAACTGAAAACTATCGTGTTGGAAAAGTTACAGATTATGATAAGTTAATACTTGAAGTTTGGACAAAAAATAATATAGAACCTCTAGAAGCATTAAAAAGATCAACAACAATACTAATGGATCATTTTATGTTTATGTCTAAGTATTGGAAAGATTCTACCGGTGAAGAAAGCCAAGAACCCATCCAAGATATGGGTACTGGTTTAGAAGCATCAGAAGCTTTAGCAGATGAAAGTGCTGAAATTCCAGGTGTTTCAAGAGAAATTTTAGAAACATCAATAGATAATCTTGACCTTACAAAAAGAGCAAAGAATTGTTTAAAAAGAGAAAGAATAAATGTAATAGGTGAACTTTTCAAAAAGACTCCAGAAGAATTAATGAAAATTAAAAATTTTGGAAAGAAGTCTTTAGATGAAATAAGAAAAGAACTTATTGATAAATTCGGACTCGACTATGATAAAGTATTCAATGAAAGGAGGAGCAAATAATGAGACATAGAGTTAAAACTAATAAATTAAATAGATATGCAACTCATAGAAAAGCTCTGCTCAACAATATTGCCAGAAGCATTTTTGAAGAAGGAAGTATAATTACTACAACAGCAAAAGCAAAAACTGCAAAACCTTTAGTTGAAAAATTAATAACAAAAGCTATAAAAGCTAATAAAGGCGATGCAACTAAAAAAATGGCATTGAGTAGAGAAATCAATAGACATTTTAATGATAGAAAACTCGTTGCAAAACTTGTAAATGAAATCGCTCCAAAATATATGGATAGAAATGGTGGATACACTAGAATTTTAAAAATAGGATTTAGAAGAGGCGATGCTTCTGAAATGTCACTTTTTCAATTACTTCCTGTTAATGAAGAAGAAAAATAATGAATGGGGGATTTATTCCCCCGTTTTCTTTATAAATTAATTTTATGATAAAATTAATTTATAAAGAAAAAACTTTCCTTTTTCTTCTTTTTCTTTCCCAAACTTTGGAGGTGTAATATGGATACAAAAAAAGATGAAATAAAAGCTGTAAAGATTAATGTTTCACAATTGAATGAAATGACTAGAAGACAACTTTATGTTTTAGCAAGAAAATTTTCAATTACTGAATATTCAAAGATGACAAATAGTGAATTAAAATTTGCCATACTTAGAAAGCAAACAGAATCTATTGGATATTTTTTATATGAAGGCATATTAGAAGTTTTACCTGATGGATATGGTTTTTTAAGAAACGTTGATAACTCTCTTTTACAAGGACCAGATGATGTATATGTTTCAAAATCTCAAATAACAAGATTTAATTTATTTACTGGGGATGTTGTTACTGGACAAGTTAGACCACCTAAACAAGGCGAAAAATACTTTGCACTATTAAGAGTTGAAGCGGTTAATTATGAATCGCCTGAGAAATCTAAAGATAGAGTTTCTTTTAAAAATCTTACTCCAGAATATCCAGATAAAAAAATGAAACTTGAACATAAAAACTCTCCTGTTAGTTCCACAATTATTGAATTGTTTTCACCTATAGGATTTGGGCAAAGAGGTCTTATAGTAGCGCCTCCAAAAGCAGGTAAAACTATATTGATGAAAGATATAGCAAATTCTATAGCAGTTAATTATCCTGAAACTAAAAGATATGTATTATTAATAGATGAAAGACCAGAAGAAGTTACAGATATAAAAGATACTGTAAATGCAAATGTTATAGCAGCACCTTTTGATATGAATCCTAAAAATCAAATAAAAGTTGCTGAAATGACTTTAAATCATGTTAAAAGATTAGTAGAATTTGGTCATGATGTAGTTATACTAATGGATAGTATAACAAGGTTTTCAAGAGCTTATAATTTGTTTGTTCCATCAAGTGGGAAACTCTTAAGTGGTGGTGTTGATCCAGCTGCACTTGTATATCCTAAAAAGTTTTTTGGTGCGGCAAGGAAGATAAGAGAAGGTGGAAGTTTAACTATAATAGCAACAGCTTTGGTTGAAACAGGATCAAAGATGGATGAAGTTATATTTGAAGAATTTAAAGGTACGGGAAATATGGAACTTGTATTATCAAGAGAAATTGCAGATGAAAGAACTTTCCCTGCAATAAATATAAAACCATCTGGAACAAGAAAAGAAGAACTTTTAATACCAAAAGAAGAATTGAAAAATATCTTTGTACTTAGGAAGATCATTAGCAAGATGAACCCTAAAGAAGCTCTTGAATTTATTTTAAATATGTTAAAAAAATCAAAGGATAAAAATGGTATAATGAAAGCAATAGAAAAACAAAAAAATTAAGATTTGGAGGAAAAGAAAATGGATCTATTAAAGTTTAAAGAAAGTATAATAGAAAAATTAAATGAAGTAGAAAAAAAATTAAGTGATCCAGAAGTAACCTCAAATCCAGAAAATTTACAAAAATTTGGAATGGAACATACAAGATTAACTTCATTGAAAGAATTGTATAAAAAATATGATGAAACAAAAGAAGATTTAGAAGCATTAAACGAAATGTATAATTCGGGTGAAGTTGATGAACTTGAATATGAAATGATGAAAGAAGAAAATGAAAATAGTTTAAAAAATATAGAATTTAAAATTTTAAAAATGTTAATTCCAAAAAATGATTTAGATGAAAAAAATATAATTATGGAAATTAGAGGTGGCGCTGGTGGAGATGAAGCTGGTTTATTTGCGGCTGAATTGATGAGAATGTATATAAGATATGCTGAAATAAAAAAATGGAAATATGAAACTATTGATATAAAAGAAAATGAATCTGGTGGAATAAAAACTGCAGTAATAAAAATAAAAGGCAGAGGTGTATTTGGGAGATTAAAGTATGAAAGTGGAGTTCATAGAGTTCAAAGGGTACCACAAACAGAATCTTCAGGAAGAATACATACATCAACTGCAACAGTTGCTGTTTTACCAGAAGTTACAGACATAGATATAAAAATAAATGATAAAGATTTAAGAATAGATACATATAGAGCTGGTGGCGCTGGTGGACAGCATGTAAATAAGACTGATTCAGCTGTAAGAATTACACATATGCCAAGTGGAATAGTTGTTACTTGTCAAAATCAAAGATCACAACATCAAAATAAAGAAAGTGCAATGAACGTTTTGAGAGCTAAATTATTTGAAGTTGAGTATGAAAAACAACAAAGTAAGATGGAAAATGCAAGAAGAGGTCAAATAGGATCTGGAGATAGAAGTGAAAAAATAAGAACATATAATTTTCCACAAAATAGAGTAACTGATCATAGAATAAAGTATACATCACATAGAATATTAGAAATAATGAATGGGGAAATAGATGAAATTATAGATAAATTAACAGAATATGATTTAATAAATAAATTAGAAAATTTAGAGATATAAAATAATTGAATGGGGGGATAACATGTTAAAGAAATTGAATATGATATATTCAACACTTTTCATGATATCAATGCTTTCTGGTTTTAATGATATTTCAAATATAGCTTTTAAAAAACAAAGTTGGATTAGAGTTGGAAGTTTATCATTTTTAACAATATTTTTATATTTTTTAATACAACTCTTATTTATAATTGGAATCTATATTATAGAAAATAAATTAGAAAAAGAAGAAGATACCGATACAAACATTCTGTTTTTTTCTGCGGTTATGGAATCAATAGCAATCATATTTATGATGTATTTTTCAAAATTTAATATTTTATATTATATTTTTATAAATATAATAATTATATATTTTAATAATATTATTTTATATAAAAGTTTAAAAATAAATAATTTAGAAATAAACTTAAAAAGAGTATTAAAAAATTGTTTTTTCTTTTCAACCTTTGATTATGTTGAAGAAATATTAAAGAAAAAGATATAAATAAAAAATAAATACACCATAATCTTGCTTTTGTAGGGCAGGAAAATAGAAAAAGGGGTGATTTTATATGGTAAAGGTAACTTTCCCAGATGGGAAAATACAAGAATACGATGCAGGAATTACACCAGCAGAGATAGCAGGTTCAATTTCAGAAGGTTTATTGAGAAACTCAATAGGGGCAAAATTGAATGGTGAATTAACAGACTTAAATACACCTATTGAAACAGATACAACCTTACAAATAATAACCTTAAAAGATGAAGAAGCACCAACTATATACAGACATACTCTTGCACATATAATGGCTCAAGCAGTAACTAGACTTTATAAAAATGTTAAGCTTGCAATAGGTCCTGTGATAGAAGATGGTTTTTATTATGATTTTGATATGGAAGAAAGAATAACAGAAGAAGATTTTACAAAAATAGAAGCTGAAATGAAAAAAATAGTAAAAGAAAATTTAAAAATAGAAAGAAAGGTAATTAGTAAAGAAGAAGCAAGAGAACTCTTTAAAGATGAACCATATAAATTAGAATTAATAAATGATATAGAAGATAAAACAGTATCAGTTTATTCACAGGGAAAATTTTTTGACTTATGTAGAGGACCACATTTGCCTTCAACAAAGTATGTTAAACACTTTAAATTATTGTCGGTATCTGGTGCATATTGGAGAGGTAATGAAAATAATAAAATGCTTCAAAGAATATATGCAACCGCATTTACTAAAAAAGAAGAATTGGAAAATCATTTACACATGTTGGAAGAAGCAAAGAAAAGAGATCATAGGAAATTGGGACCAAAACTTGGTTTGTTTATGATAGACCATGAAATAGCACCAGGTATGGCATTTTTCTTACCAAGAGGAAAAATAGCTCTTGAAGAAATGAAAAACTTTTCAAGAGAAATACATAAAAAATATGAATATGATGAAGTTGAAACACCACAAATCATGGATGTTAAACTTTGGCATCAATCAGGACATTGGGATCATTATCAAGAAAATATGTATTTTACAGAAAAAGAAGATACTACATTTGCAGTAAAACCAATGAACTGTCCTGGTCATATTTTAATATATAAATCTAAAGTAAATAGTTATAGAGATTTACCAATAAGAATGTTTGAATTTGGTAAAGTTCATAGATTTGAAAGAAGTGGAGCACTTCATGGATTATTTAGAGTTAGAGTTTTTACTCAAGATGATGCTCATATATTCTGTACAAATGATCAAGTTGAAAGTGAAATAATAAGAGTTATGTCTTTAATAAATGATACCTACTCTCCATTTGGATTTGAATATGAAGCATTTTTATCAACTATGCCAGAAGATCATATGGGAGATATAGAAACATGGAGAACAGCAGAAAATGCACTTCAAAAATCTCTTGAAGATACAGGAACTAAGTTTAAGATAAATGAAGGAGATGGAGCATTTTATGGCCCAAAGATAGACTTTTATGTAACAGATTCTCTTGGAAGAAAATGGCAATGTGCAACTATACAACTTGATTTTCAAATGCCAGAAAGATTTGATATAAATTACGTAGATCACAATAATGAACAAGTTAGACCTGTAATGATACATAGAGCAGTATTTGGATCTTTAGAAAGATTTTTTGGAGTCTTAATTGAAAGTTATGCAGGTGCATTTCCAACGTGGATGATGCCAGAACAAGTATCAATAGTTTCAGTTTCCGAAAAGTATAATGAAAAAGCAAATGAATTTGCAAATAAATTTAAAAAAGCTGGAATAAGAGTATCAGTTAATACAACTGATTCAACAGTTGGATACAAAATAAGAGAAGAACAAATGAAAAAAGTTCCTTATGTAATAGTTTTTGGAGAAAAAGAAGCTAACAATAAAGAAGTTATAAACATCAGAACAAGAAATGGAGATACAGTGGAAAATATTGACGTTGATGAATTTATCAATGTAATAAAAGAAGAAATAAAAAATAGAAATTTAAAATTGAGTTATTAAAAAAGGTGGTTCCTTTAGGAACCACCTTTTTTAAGTGAAGAATAAGCCAAATTCTGTTTTAATCGATCATCTATCTAAGCGATCCACCTGAAAGAGGAATTATAAAAATTCTGAGCGGGCGGCTCGTACTCTTTCTGCATGATCTTGCTCAAGATGGGGGTTGCCAAGCCAATTGGTTACCCAATTGCTGGTGAGCTCTTACCTTCACCGTTCCACCCTTACCGCAAAAGCGGCGGTTTTCTTTTCTATAGCCCTGTCCGAGGATCACTCCTCCCGATATTTATATCGGCATCCTGCCCTTAGAGTCTGGACTTTCCTCGGATATAACTTATATGTATATCCGCGATCGAATACTTCACTTAAAAATATATTTATTAAAATTTATATAATCTTCCTTGATACGTATTTCTTTTTTTCATTTCATTTTCAATCATATTAAAAACTTTCATTTTTTTTAATCCCCATAAGCCAAACAAACAGCCTTCTTTTGGAGGTTCTGAAACTAGTCTGTGTATTACTATATTTGGTGAAAGATGTTCTAAAAAGGTTATGACTCTTTCTATATAATCATTTAAAGTTAAAGGTTTGAAATCATCATTTTTATACATTTCACCAAGTTTAGTATTTTCTGCAATATATAAGGAATGAAGTTTAACTCCATGAACACCAAGAATTGAAGAAATTTCAGCCATTTCTATTATATCTTCCATTGTATCAGTTGGAAAATCAAGAATAAAATGTAAGACAACATCTAATTTTCTTTTATGAGCACGTAAAACTGCATCTAAAGTTTCAGAAACAGTATGACCTCTATTCATTAATTTTAAGGTGTTTGTATTAAAACTTTCTGCTCCAAACTCTAAAAATACATCTAATTTTTCTTTATAAGAAGCTATTAAATCTAAAACATCATTTGATACGCAATCAGGTCTTGTAGAAATATCTAGTATTTTTATACGATCATCTATTAAAGAACTATCATATAATTTTTTTAAAACATGAACTGGAGCATAAGTATTTGTATTGGATTGAAAATAAGCCATAAACATATTAGCTCTTCCATTATATCTTTCAATCATTGCGTTTAATTGATCATTTATAGGGGTTTTTGAGCTAAGAGATGCAAATCCACTTCCAGTAGAATCACAAAATATACAACCACCTTTACCTTTTTCACCAGTTTTATTTGGACAAGTAAAACCGGCGTTTATAGGTATTCTCTGTACCTTAGCGCCGTATTTGTTTTTATTGTATGTAATTAATCTGTAATATATATCTTTCATTTAATCACCATTTATTTTAAAGTTAATTATTCTATAAGATAAGTCTTCTACTCCAGCCTTATCAGTTCCAGTAATTATAAAAAATGTTTTATCAAATCCATTGAACCAAGCTTTTAAGATGTATCCTTTGTACATAGAATTAAATTCTCCATGAACAAAAGGAATTGCTGATATTGCAGAAGTTATTTTATCAGAATAATTATTCACAAAAGTATACCAGAAATCCATTAAATTTACAATGTTTTTAAAGTTAAGCATTTGTAGCTTATAGGTTTCATCATGCTTTTTTAAGTCCATGATTATATGAGTAACCTTTATATCAATTTTAGTTTCCAAAATAGTTCCACCCATAGTTATGTTTCGTTCAATTGTGTAGCCAAATGGGTTAAACTCAATATAATCATTGAACTTTGAGAAATTACTTATTTGTAGAATTAAAAGAAGACTCAAGAATGTTATAATGAGTTTGAAATTTTTCATAAATTTCACCTTCTTTGATATTTAAAAATTTTTTATTGTAATAAATCCATTTTCCTCCAACCATAGTTGCAAAAACATTTCTTGAATTTGCAGAAAATAATAAATGAGATTTTAATCTCTCTGTATCTAATGGATAAAATTCTGGAAAATTTAAATCAATAACAACTAAATCAGCTTTAAACTCTGGTTCTAATCTACCTATTTTTTCATTTAAAGCAAAACCACCATTTTCCCAAACCATTCTTAAAACTTCATTTGTTTTAATTGAATCACTTCCATCTTTTGATTTTTGAAGTAAAGAAGCTAAATACATTTCTTTCATTATATCTAAAGCATTATTGCTTGCAACCCCATCAGTTCCAAGACAAACATTAATATTTTCATTTAACATTTCGTTTATTGGTGCAATTCCATTTCCGAGTTTTAAATTACTTGATGGATTGTGAGAAACAGTAACATTATTTTTTGAAAGTACTTCAATATCCCTTTCATCTACTTGAACACAGTGGGCGGCAATAGTTGGTATTTCAAATAATCCAGTTTTTTCAATATCAGAAAGAGAGTATTGTTCTTTTTCCCAAAGAGCTTCATGTAAATGAATTTGTACATGTGTATTATATTTTTTTGCAAGATTTGCAACTTCTTTTAACTTTTCATTATTTACTGTATAAGGTGCATGTGGACCAAAACCAATCCAGATTCTTTTATCTTTTCCATTGAATTTATTGTAAGTATCTATATTTTCATTGATTCTCTTTTCCCATCCTTCTTGTGTATCAAAAGCAAGGCCACGACTTATATATCCTCTCATACCAATATCATAAAAAGCTTTTGCAATAGAATTTGTAAACATATACATATCAACACAAGTAGTAATACCTTTAGAAGCCATTTCCATCAATGAAACAACAGAACCATAATAAGCCATCTCATCGTTCATTAAATCTTCTCGTGGTAGCATATTATCAAATAGCCATTCTTTAAATGGACTATCATCTGCAACGCCTCTAAAATAAGCCATTGGAGTATGGGCGTGAGTATTTATAAAACCAGGAACAATGAGTTTGTTTTTTAAATCTATAATTTCTGTATCTTTTATGTCTTCTTCATCTATTGTTTCATGTTCTTTATACAAATTTATTATTTCATCATCTTCAATCAAAATACTCATTTTTTCAATATTTGAATCAGAACTCATTAAAACAAAAGCATTTTTTAAGAGCTTTTTTATTTTAATCATCTCCTTATTTTTTTTGTTCTTTTAACTTACTGTAGCTATTAACATAAACGTCGTGCAATTTTTTAGCATCATTACTTGAAATTATGTTTATATTCAAATGAGTATTCAAAGAAAGTATATAAAGTTCAGCCAATTTTTCAAGTAAAATAGCATTTAAAAAAGCATCATCCAAACTTTTACCAACTGCAACTTGTCCATGATTTTTTAATACAACACCATTTTTATTGTTTAAAGCAGAAACTATATTATTTGCAAGCTCCAAACTTCCAGGGAATCCATATTCAGCTACTTTTATAGGGCTTCCAAGAGCCATGACTGCATCTTCTACAATAGGAGGTAGTTCTTTTAAAGTAATAGAAGCAACAGTTGCAAAGGTTGAATGAGTATGAATTATGGCATTTACGTCATCTCTATTTTTATAAATATTTGTGTGTACTAATTTTTCAGAAGAAGGTTTTCTCTTTCCTTTAAGTAAATTTCCATCAAAATCAATTAAACATAAATCATCTATAGTTAAGGTAGAATAAGGAATACCGCTTGGTGTTATTATGATTCCATCTTTAGTTTTTAATGAAATATTTCCCCAAGTTCCAGCAACAAGATGTGAATTTTCTATTTTTCTGCAAGTTTTTATAAACTCATTTAATATTGACATTTTTTCCTCCAAAATTTATAAAATATTTTTTAGGTTATTAATTTTTTCAATAGACAAATTTGTCATTTTTGATATAAACTCTATGTCAACTCCATTTTCAATCATGTTCTTTGCTATTTTTTCTTCTGGAGTTAATTCAATACCTTTATCCAAATTACTAACAATTTCAACCTCTTTTTTATCAAAAGCTATTGAAACTTTTATTATGTCATTTATTCCATGATCTTTTATCTCTTCTTCATACCTTTTTTCATTTATTTGTTTTAATCCATTTTTAGCACTGTCTTTTAAACTTTTATCTTCATCTTTATTGTATTTTTTAAACTCAATAATTATTCCTTTATCTGTTTTATCTTTTGGAATTAAAATAACATCTGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATGTACTCTTCTTTTAATCCAACACTCATTCCAAGTATTAATCCATGATAAAACCTTTCCGGTTCTTTTCCACTAACATCAAAATAACTCAATGTGTTCATCGTTAAATCTTTAAATTGATCTGTAAAGGTTTTTATTCTTCCTACTTTTAAATTCAAAAGCATATTTTCAATACTTATATTCGATTCTCTCAACATATTTCTAACTGTTTGTACAAAAAAATCTTTTACTTCTTCATTTGGTATCTTTACTTTATACATTGTTATATTATTTTTTCTTTTTTTACTCGTCCACTTTAAGTAACCACTAAATAAAAATAATGTCCAAATTGCGCTTTCACTATTTAAGTTTAAATCACCATAAACCATAGTTTCTATTATTTCGCACTCTACTTCTTCTCCATTTATTAATTTTTCTACACTATCTTTTATATTAACAGTTCCTTCTTTTATTAACTTTCTTATTAAGTAATTTCCACTCGTATTCATCCAATATGGTCTTATCTTTTTTTCATCTACTAAGTTTATTATAGAAAAAGGATTGTAAATTTCAACACCACCAAAATTATAACCATTGTACCAATCTATAACTTCACTTTCTTCATATTCAAGTTCATAATACTTCAATGTTTCTTCAACTTCTTCTTTAGTTAAACCATACTTATCATTGAATAGTTCATTCAATACAGTAGAAACCTTTAAGTTATTTACACCAGTAAAGATACTTTCTTTAGAAACTCTTGTTATACCAGTAAGAACTGCTTTTTCAAGGTATACGTTATCTTTTAATGCCATGCCAAATAAGTTACCAATTAAAGATATTATTTCATCATAGTATCCGTGTAAGTAAGCTTGTTGAATAGGAGTATCATATTCATCTATTAATATTATTACCTTTTTACCATAGTATCTTTCCATATACTTTGATAAGTTTCTTATAGAATTTTCATAATCTGCATCTAAAGCTTCTCTATCCATTATTTTATTGTATACATCTTTTTCCCTTTCATTTAATACTTCAAAAACATATTCGTGATCAATGTACAAAGTTGAAAGTTCAGAAATTAATAAATTATGCATCTTTTTTAAGTTGTTAGATTTTAAATCTTTAAAGGTGATGTATATAACAGGATGTTTATTTAAATGTTTTTCTATTATGTTCTTTTCTTTGTATATCTTTAAATCTTTAAAGATGTGTTCATTGTTTTGAGTAATATCAAAAAAGTACTTCATCATAGATTGACTGAGAGTTTTGCCAAACCTTCTTGGTCTTGTTATTAATAAAACATTCCCACTTTCAATAACTTCTTTTATTAACAAGCTTTTATCTACAAAGTACATATCTTCTTCAATTATAGTTTTAAAATCACTTTGTCCTATTGGAAGTCTTTTTTTCATTTTCATCACCTCATTTTATTATACCATAAATGAATAAATCATATATTTATCTAAAAAAAGTTAGCAAACCAAACTTACAAAATTGTAAGTTTAGAGGTAAAAAAATAGTGTATAATAAAAATGTGATTAAGTGTGATAAAATTATGTCTTATACAATTCAAAGGGGAGAATTGCATAAAAAACTGCCATTAGGCAGTTTTTTTTTGTTTAATTAAGAATATTTTGCATTTAGATCAAAGGAGGAAGTGTGTATGATACTTCTAAAGTAGATAAAGTAATTGATAAAGATTATGAAAATACTTTGGAAGTATTTTTGTTATGTTAAGTAAATCATGGGGTAGTTCACAAATTATAATACTAAAGATAGCTTTTTATGTTAAAGGCTTATTTTACTATTGAAAAATAGTTAGCATTACAAACTTACATTTTTGTAAGGTTACACAAGTGATTTTAGGTGTATAATTTTTTATAGGTATGAAAAAAGTAATATGAAAAAAGAACTATCAAATAGAAAAGGGGGAGTATTCGTGAAGAAAGTACTTGTTGTTTTAAGCGTTCTTACGCTTGTATTTTTAATGATTTCTTGTACACCTAACAATGTACTATTTGCACCACAAGTGGATTTTGCACTTAAAAGTTTAGGAGCAGGTGGAAATCAATTTCCCGCTGGAGTAGATCTACCTGTTAATTGGAGTATTTCGACAAATGTAAAAGATGCAACTTTTGAATTTGTTGTTGATTTAAAAAAAGACGATGGAACAGTTATATTGAATGAAAAAACAACAAATAAAGATGGTTACACAATTGATAAATCAAAGTTGGTTGCAGGAAATACGTACAAATTAAAAGTTACTGCAAATGATAAAAAAGATAAAATAATTGTTGAATCAAAAGTATTTACATTTACTGTTGTAAGTAGTCAAATAACTTTTGAAACAACAGAAAAAATTTTTGGTGGACCAAGTTATCTTGCTCAATACTTAGGACTTAATGTACCATTTAAATCAAATGATGGATTAGCTCATGTTTACGAATGGGCTCTTGATGTTGCTGCAAATTGGAATGAAACAGCATCAGCTACAGAAGTAACCTTAACAGAAAATAATTTTGAAAATTTTCCAATTACTTCAAATGGAAGAAAAATAACAGATGGAGTACATGTTTTATATGTTAGAATTAAAGGCAATGGGTTAATTCACACCTTCCCATTTATCTTTGATACAAAAGGACCTTCAGTTACAATGTTTGGTTCTCAAAGAGAAAATAATGGATACAATGTGTATGGTGGAAGCACACCAAGTGGAAAGGTTGCACTTCTCACCTATAAAGTTACAGATTATACAAATCCAATTATAAATATAGGATTAATGGATTATACAAATGGTTTTGATAATGATGCTCGTATAGTGCTTCCAGGAAAAACAAATTCTAAAGGATACTTTGGAATAAAAGTTCCTGAAAATATTTCTGGAACGTTTGTATTTAAAATGTTAATATCAAATGATACATTTAAAATAATGGATTTAAGTGGAAATGAACTTAAATTAATTGCTTTAGATGATCATTATATTCCAACAGGTGTAGAATTTAATGCTTCTGATTTTAATAATTTTAAATTGGATCATTCATACAGAGTCTTTATGATAGCTGATGATGGAATTTATAATGAAACCATAGATATAAAATACTTTAAATTACAAGAAAGATTTGCCGATGATAAAGAACCTCAAATTTATTTAGAAACAGATAGTGCAACTGTTGATGTTAATAATCCTACATTTAAAGTTAGAGTAGTTACTAAAAATTTAAAAGATTATTTATCAACTGATGAACACTCTGTTATTGAACAAGATGTTTATAAATCAAATGGACTAAATTATTTACAAATACCATTTACGTTTGATTCAACAGCAACTATTTCAGGATTAACAGTTAATGAATTTAACTCTGATTATGAACTCGGAGGAACAGCAACTGTTGATGCTACAAATAATATTTTTGTTTATGCAGAAGGATTTACTTCAAATTCAGCATTAAACAATTCAACTGGTTCTGCAACAGATGTATTAGCAGAGTTTACAGTAACTCTTACAGGTGCAGCAACGGGAACACATAATATAAAGATTCCATATGAATCATACCTTAAATTGATAGATAAAGATGGAAAAACAATTGATGGTGTGAAGATAGATTATAAAGGCGTAAATGTTATTGTTGAAAAAGCATCAAGTTCATCTAAAAAATAATAGGGGGGTTTATAAATGAAGAAGATACTATTAACAGTACTTTTGGTACTTCTCGTAACCTTTATGCTTGCTGGTGTTTTGGAAGAATCAAATGAACTTGCAAATAGCATAAATTTAACTAACGTACCTTGGATGGCAGGTGTAAATCAATATTTTGTTGATTTGCAAGAAAATACAGGAATTTCAAATTTAAATAGTTTAAATTTAAAAGTAAATAAATACAAATTTTTACCAGATTCATTTATTTCAAAAAAATTAAATGCTAATAAATTAACAACAAATGACGATGTTTTATGGAGTTCTAAATATGTTTATTCTTATAACGGAGATACATTACCAAGTGCATTTATACAAATTCATTCTCCAATAAAAAATCAAGGTTCACATGGTACATGTTGGGCATTTTCAACAATTGCAAGTTTAGAAAGTGCTATGCTCGTTCAAAAATCAGATTTGAATCCTACTGATACAGCATCACCAGTAGTAGATCAAGATTCTACATATGATTTTTCTGAACAATACATGGCATACCATGATGTTGATTGGGATTTGCTTGCAGCAACAGGATATGAAACAATGCAAGAAGCAAATACAGATGTTGGAGGAAATGTTTATTTTTCGAGCTATAATTTAATAAGATATGGATATGTTGATGAAAGTGCTATGCCTTATTCAGCATATGATGGTAATAAAGAAATATCTTGGAATGCAAAATCAAATTGGAACAGTACATTAAAAAGAGAAGTTCAAAAAACTATATACCTTCCAGGTTATAAATATAATGAACAAAGTTATTCAGATTACATAAATTCTATAAAAGAAGCTTTAAAAAGATATGGTGCTTTATCAGTATCTTACAGTGTCCCTAATGATTTTGGTGTTTATATTGGTGGAGTTTATGTTCCTTCAGATAGTTTTGCAAAATATACTGGTGGACATGCAGTTACTCTCGTTGGATGGATGGATATGGCTACATTAAAACAACAAACATATTCAGGAACTACAACAACTTGGGTTTCTTCTGATGCAACATGTGTAAAATGGAATGATCCAATAACAGGAAAAAATGTTGAATCAACAGAATTTTGGTTAATAAAAAATTCTTGGGGAACAAGTTGGGGTTGGGATGGTTATTTCTTAGTTCCAATTGCAACAAAAGAACAATTTGATAATAAAGAAATTGAAAGATGGATGATAGAAAACAATTCAATGTATGTTCCAGTTTATCAAAAAGCTTCAACAGCTGTTACTGATTTTGATAATGATGGTGATACAGATATAGATGATTATAACGCATTAAAAACAGCAATAGAAAATTATTTAAAAGATAAAACATATGATGCAAAATATGATATATCAGATCCTAAAGATGGTAGATTAGATGGTAATGATATGGAAATGTTCTTTCAAAAAAATAAATAATTAAACTTAAAAAAATAAAGCACCCATTGGGTGCTTTATTTTTTGTGAGACCATAAAAAATTTTGTGTAAATAAAAAAATGAAAAACCTTCTTCTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTTTTAAAATGGCAAGAAGAAAAAAAGAAGAAAAAGAAGAAAGCAACATTGAAAAATTAGCAAGATTAATAGCAAGGGATCCAGAGGTAAACACAATAAAAGATGTATATGAAAAGATAAAAGAATTAGTGGGACCGTTAATACAAGGGATGTTAGAAGCAGAATTAGAAGATGAATTAGGTTATGGGAAATATGATAAAGAAAACAAGAAAACAGATAATTCTAGAAATGGGTACAGTTCAAAAAGAGTAAGAACAAGTGTTGGAGAAATGGAATTAAAAATACCTAGAGATAGAAAAGGTGAATATGAGCCATAGTACCAAAGTATAAAAAAGATATCTCAGATATTGAAGGTAGAATAATAGGTATGTACGGTTTAGGATTAAGCACAAAAGATATAGTAAAGAACGTAGAGGACATATATGGTGTAGAATTATCAGCGGAAATGATAAGTAAAATAACTAATAAAATATTACCTGAAATCAGAGAATGGCAAAGCAGACCTTTAGAAGAAATATATACTTTTATGTTTATGGATGGAATAGTGTTTAAAGTAAAAGATGATGGTGAAATAATAAAAAAGACTGCATATGTTGTACTTGGTGTAAATATAGATGGATTTAAAGAAGTACTTGGTATATATATAGGTGAAATAGAATCATCAAAATTTTGGTTAAGAGTATTAAATGATTTAAAAAATAGAGGAATAAAAGATATATTAATAGCTTCTGTAGATGGATTAACAGGTTTCCCACAAGCAATAAAAACTGCTTTCCCAGATACTATAGTACAAAGATGTATAATACATCAAATAAGAAATACATTAAAATATGTTAGTTACAAAGATAGAAAAGAACTTGTTAATGATTTAAAAAAAGTATATAAAGCACCAAATAAAGATATTGCTTATTCAAACTTACAAGATTTGAAAGAAAACAAATGGACAAAATACAAATTAGCATTAGAAAGTTGGGAAAAACATTGGGAAACAATATCCCCTTATTTTGATTATGGCGATGATGTAAGAAAAATAATGTACACAACAAATGTAATAGAATCATTAAATAGACAATATAGAAAAGCAACAAAAAATAAAACATCATTTCCAAATGACGATGCATTATTGAAAATGCTTTATTTAGCAACAATAAATGCAACAAAAAGATGGACAGCTCGTTATAGAAATTGGAGCAATGTCCTAAACGAATTATCCATCTTTTTTAATGAAAGAATTACAAAATATATCTATAATTCCTAACATAAATATACTTTGTAACATAACAAAAAATACCTATAACACACAAAAATGAATATTAAATATTATAATGCTATACCTTGCAATAAAAAGTTGCAAAAGGCTATTTATTACAAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCATATTTCTTTATAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAGAGCCGTTTACACAAAATTTTTTATGCTACCTATTAAATATTATAATGCTATACCTTGCAATAAAAAGTTGCAAAAGGCTATTTATTACAAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCATATTTCTTTATAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAGAGCCGTTTACACAAATTTTTTTATGCTACCTTTTTTGTTGATACAATGTTTTTGAATAAGATTTTAATTTTTTTATAATTTTCTTTTTGTAAATTACTTTTATAAAAACTCTTTTAATTTACTTCATCAAGATACTTCAACTCTCTTCCAACAAAGACCATCACTACTTTTTTTAATGGTCCATTAAACTCTTTGTTTATAGTTTTTTCATACCTCTTTATTTGATTTACTGCTTCTTTTATCTTTACTTGATATATTTTTTCTGTATAGTCTTTCTTTTTTATGTATTTTAACTCTATTATTGCATTGTATGGCACTTCTTCGTATCTTTTAAACATTGCTAAGTCTATGTATCCACCTTCTACTGGATACTCGCTTTTAACGTATGCCCATGGTGTTAAGATTAAATAACTAAACAGTAGCATCTTTATGTGCTTTTCACTAAAGCTTTGAAAGTCTCTGTCTGATAGTTTTTTTAATACATCTTCTATTTCATTTGCCAACGAGTTTATATTTCCATCTACTAATAACTTTCTTATTGCTATCTTTATCTTTCCTGTATCTATATAGTTTTTTGCTCTTGTTTTTATCATTTCTAAGAAGTATTCTGAGTATATCTTTTTTATTGAATAGTTTGGTATCTTTAAGTTCATCACAAATCCTTTTGATTCTATTGTTAAAAAGCCTAAATAAAAGAGTAAGGTTTTAACATCGTCTATTTCCATCTTTCTTTCAAGGTTAAATGCTCTTGTTAACTCTTCTATTTCTGTTTTGTCTGTCATTAATATTTCATTTAAAAGGTTTCCTATTGCTTCTTTTTCATTATCTATATTATTTATTCCAACAACTTCACCAAGTTTAAATAAATTTTGAATCTTTTTATAATCACTTGCTATGTTCATATCTATTACATCTTCTGGTTTTCTTTTTTCTCTATTGTATTCAGAAATGAAGTATAAGACCATATCGCTGTTGTAAACCTTTTCACTTGCACGTTTATTGAACATGTATCCATTGTAGCTAAACTTCATGTCTTGTAAAATATCATCATTTATTTGATACTCTTTGAGAATATCTTTGACTTCACTTTCAGTGAATCCCATCATTTCATTTAACTCTAATGTTGTTGACATGTTTTTTGAGATGTTGAATCCACTCGTTAAACTATCTAAGGTTATTGGTGCTACTCCTGTTATGAATAGTCTGTCTATAACAGATCGTGTTCCTTCTTTTATGACTTCATAAAATTTTCTAACAAAACCTGTTTTACTGACGATATTTTTGAATTCATCGAGTTTAAAACTCAAAAGTTCATTTGCAAAGTGATCGTATTCGTCTATTAATAAGTAGATTTTTGTTTTTAAGTTTAATTCTTCATATTTATTTAAAAAATCTCTAAATAATGTAGAAGGTTCATTTATATTTTCAATTAAATTTATATTTAATTTATAATTAGATATAAATTTAGAAATTTTTCTATAAACTTCTGCATTAAAATCAAATTTCAACTCTTCTTTACTGTCTGTATTCAATCCAGAAAAATTAAACTCTAAAATATGATAGCTACTCTTTTTAGATGTTGGATGTTTTTGTATGTACAAGTCTTTAAAGATAGTATCAAATTTATCTGAATACTTAATATCGTAGTATTTACTCATAGTGTCAAGCCATAAACTCTTTCCAAACTTTCTTGGTCTTAAAAAGAAGATGTATGATTCTGGCATATCTTCAATTATTTCTATATACTTAGTTTTATCTACATAGTAAAAATTTTCAGCTCGTATTTTTTCGAAATTTTGAAGACCATATGGTACTTTTTTCATTTAAATCACCTCAATTTAATTATAGCATACTAATTATTGCTTTAATTAAATTTTAGAAAAATTTATTTGAATAACTTCATTGTTGGATCTTCACTTTGAAAGTTATGATCGAGTTCCGTTGTTATTTTTTCTCCATACAATGGTCCAGCTGAAATTCTTCTTACTTTAACATCTATGTACTTTCCATTTAATTCATCATTTGAGTCAAACATAACCATTTTATTATTTATAGTTCTTCCATAATGTATTCCTTGTTTAGTTGTTCCTTCTTGAATTACTCTAACTATTTTTTCTGCATATTTTTCATTTTCTTCATGGTTTATTTGTTTTTGCAACTCTAAAATTTTCATTAATCTTTTGTTTTTAATACTCTTTGGAATATCATCTGGTTTATATTTAGCTGCTATTGTTCCTTCGCGTGGGGAATATTCAGCAACATTCACTTTTTCAAATCTACATCTTTTAATCAAGTCTAGTGTTTGTTCATAGTCTTCATCGGTTTCACCAGGAAATCCAACTATTATATCTGAGCTTGTAGTTACACCAATTATATTTTCTTTAACTCTTCTTACTAAATCAAAAAAATACTCTCTTGTATATCTTCTATTCATTTCTTTTAATACTTTATTGCTCCCAGCTTGAACTGGAAGGTGAAAGTATTTTGCTGCCTTTGGTTCATTGGCAATTGTTTTTATTAAACTGTCTGTTATATCTGATGGATATGAGGTTGTAAACCATATTCTTTCAAGTCCTTTTATCTTTCCTGCTTCTTGAATTAATTTATCGAGTTTTGGTGTGCCATCACCAAAGTCTTTTCCATAAGAGTCTACATTTTGTCCAAGATAAGTTATTTCTTTGAAACCTTTTTTTGCATAATCATGTACTTCATTTATTATGTCGTTGAAATTTCTACTTTTTTCAAGACCACGAGTATAAGGTACTATACAATAAGTACAGTATTTATTACATCCATACTGTATAGTTACCCATGCATGATGTTTGCTGTTTGGAATTTTAGGTATTTGATAACTAACTTCTGATAATTTATCTGAAAAATCATAAAATCTTTCTTTCTTTGCTCTTTTTACAAGATTTACTATATCTACAACATTTCTCGTTCCAAAGACAAAGTTTACTTTATGATACTTTTTTAAAATACTTTCTCTTTCTTTTTCTGCTGAACAACCACCAACGCCAAGTATTAAATTTTTATTTTTTTCTTTGTATTTGCCATACATTCCTATGGCTCCATACATTTTATCTTCTGCTTTTTTTCTAACAGAACAAGTGTTTAAAAGAATTACATCAGCTTGAGCTGGATTTTCTGTCCATTCAAGTCCTTCTTCTGTCAACAAACCTTTCATTATTTCTGATTCATTTACGTTCATTTGACAGCCAAATGTTTTTATATGAAATTTCATAATCTACCTCCTAAATAAAATCCGGCCTTATGGCCGGATTTATTGATTAAAAATTATTCTTCATCTATAACTTCTTCAGCTACTTCTTCATAACTTTCTTTATTTGCATTTTCAGCTTCAACAACAGCCATTTCAGCCATTTGACCTTCTCTTCCTTCAATGAAAGCATCTGCCATTTTTGAAGTTATTAACATAACAGCTCTTATTGCATCATCATTAGCAGGAATTACCATATCAATTGGATCAGGGTTGCAGTTTGTATCAACAATTGAAACTACAGGTATATTTAATTTATTTGCTTCTTTTATAGCAATTTCTTCTTTTTTAGGGTCTATTATGAACATAACATCAGGAATTTTAGTCATTCCTCTAAGACCACCAAGGTTTTTTTCTAATTTTTCTAAGTTTCTTTTTATTGCTGATTGTTCTTTTTTAGGCAATTTTGTAAATTCTTCTGTTTCAACATATTCCAATAATTCTTCTAATTTTGCAATTCTTCTTTTAATTGTTGGAAAGTTTGTTAATAATCCACCTAACCATCTGTTATTAACATAAAATCCACCGCATCTTTTTGCTTCTTCAGCAACTATTTGTTGAGCTTGTTTTTTTGTTCCTACAAATAAAATATTTTTTCCTTCAGAAGATAAGTTTCTTATAAATTCATAAGCTTCTTCAATTGATTGAAGAGTTTTTTGAAGATCAATAATATGAATACCTTTTCTTTCTGTGAAGATATAAGGTTTCATTCTTGGTTCCCATCTTCTTGTTCTGTGTCCAAAATGTGCTCCTGCTTCGAGAAGTTGTTTCATACTTACTACTGACATACTACACCTCCAAATTTGGTTTTTTCTTTCGATACTTTTTTTATTCCTACCAAAAGGCACCATGGAATAATAAATTTAGTATCGTGTATTTTAAACTCTTGGACATTCATTCCATAGAGTTTCTAGGTTATAAAATTCTCTTCCTTCTTTTGTAAAAATATGAACGATTATTCCGCCTTCGTCAACGGTTAACCAGTCAAATCCTCTTTCCCTATCGAAAGATTTTATTTTTCTTTCATTATCCTTGAAATATTTTACCACATAATCTCTTAATGCAGCAGTATGAGTATCTGAATTTCCTGTAACAATAACAAAATAATCTAACATTAATGAGGTGTTTTCCATATTTAGAACAACAATATCTTCTCCTTCTTTTTCATCAAGAAGATTTTTAAGTCCTTCTACGAGATTTAAGTCATCGTTTTTTTTCATTTTTACACCTCCTTTGTAATTCTTGATACGATATCTTTCTTTGCAGCTTCAGATGCAACATATAAAGCATTTGCAATTGCTTCTGAATCAGAAGACCCGTGTGCTTTTACTAAAATGCCATTTACTCCTAAGAAAAATGTTCCACCATATTGCCTGTAATCTAACTTTGTTTTTAATGAATACAAAGATCCTTTCATCATTAAAGCACCGAGTTTTGCAAATAAACCACCTTTTTTTATAGAGGCTTTTAATTCGCTTAAAATATAGTAGGCAGTTCCTTCAATTGTTTTTAAAACTGTATTTCCAGTAAATCCATCTGTTATTAAAATGTCATAGTCTCCTGTAAATACATCTCTGCCTTCAATGAATCCAACATAATTTAAGTTTTTTTCTTTTAAATAGTTTGCTGCATTTTTTACAAGGGTAGAGCCTTTTCCTTCTTCGGTTCCAATATTTAATATTGCGATTTTTGGATTTTTAATACCCATGAAATCAGCATAAGCAATACCTTCCCTTGCAAAGTCATAAAAAAATTCTGGTTTTACTTCAGCATTTGCTCCAGCATCTATAAGTATTTTTGGTGTCGTCTTACTTGGTAAAGCAACGGCTAAAGCAGGTCTTTTAATTCCTTTTAGTCTACCAGCAACAAAAGTTCCAGCAGAAAGAAGTGCACCAGTATTACCTGCGCTTACAAATGCATCTAATTCTTTGTTTTTTAATAGTTCACATCCTTTATAAATTGAGGATGTTTTCATTTTTAAGGCTTGTGTAGGCTTTGTGTGATTATCTACAGTATTTTCTGCATCAATAAAAGATACATTGTTAAATTTGTTAAATTTTTCTGAATAATCTTTTTTATTTCCCACAATTACAAGTTCGCAATTATTCAAAAATTTATTTTCTAAAGCAAAAATCGCGCCCTGAATCACAGATTCGGGCGCGTTATCGCCACCATATAAGTCGATGCCAATTTTTTTCAAATTACTCACCGATTTCAAGGATTTGTTTGTTTCCATAGTATCCGCAATTCAAGCAAACTCTATGTGGGAGTTTTGGTTCACCGCAATTAGGACATGTTACTACGTTTAATTTAACAGCTGAATAATACTTTGCCTTTCTTCTGTGAGTTCTTGCTCTTGACGTTTTTTGCTTAGGTACAGCCATGATGTTCCCTCCTTAATCTAAATTATTATCTAATAATTGTTTTAATTTTTCAAATCTTGGGTCTATATCTTCAACTTCACAATTGTGATCTGGATGTTCATTTAAATTTTCGCCACAAATAGGACACAATCCTTTACAATCATTTTTACAAAGTGGAATATCTGGTACAGCTAATATTATAGCCTCAATGACTCTCTCTGTCAAATCAATTTCAGAGTTTTCATAATAAATTGTATTTTCTAAATCAGATAATTCTTCTTTTTCATTTAATTCCATGTGTTCTTTTTTTATGTAAAATGCTTCAAATTGACCATTTATCTTATGGTTAAATTTTTCTAAACAACGACTACAAGATAATTCTAATTCGGTATCAACAGTTCCATAAACTTCAATTCCATTTTTTAATTTTTTTAAATTGAATTCAACCTTTATTGGAGATAAAAATTTAGCATCTTCACTTAAAAGTTTGATTTTATCCCAAGTTATTTCGATAGAATTCTTAAAAGTTTTTTCAAAACTTTCTATTTGAATTTCAAGTTTTTTAGACTTTAAATGTTCGTTTAGCATATTAATTCACCTCAAAAGTTTTTTAACCTATATATTTTACGTTTTTTAGTTTTACATGCGGAAAATATAGTGTAAACTTTATGAGAACATTTTAAAAAAATTGAATTTTGAATACGTTCTAAAAATTTTTTTGCTTAAACTTGTTAGTTGAATTCTTTTAAAGAATGGTTTAATTTGATACTTAAAAAAATAATTGATATAATATAATGAGTAAGTAGAATTTAATTAATTTATAACTTTAGTAAGATGAATTTATATTCAATATTATAGCACAAAATTTAATTTTTTATTATAAACAAACTATAGTTTTTTTATTAAACATAATAAATCTTTTTATTTAAAAAATTATTGAATTATAAAAATTGAGGTGATAGTATGAAAAATTTTATATGGGATTTTGATGGAACCTTATTTAATACTTATCCAGCAACAATAAATGCTATGATAAAAACTCTTGAAGAATATGGGATTAAAGAAGATGAAAAAAAAATTTATGATTATACGAGAAAAACTTTGACTTATGCTATTGAGAGTTTAATAAAGGAACATAATCTTCCAAGAGAATTTATTGAAAAGTTTTGGGAAAATTCAAATAATATTCCTCCACACAAAAACAAACCTTTTGAAGATGCTATTAAATGTTGTAAATTAATAAAACAAAATAAAAAAAATAATTTTATAATAACTCATAGAGATAAAAGAACTTTATTTAACATATTGAATTACTATGAAGCTACAGATATATTTATTGAAATAGTTTCAGAAGCAAATGGTTTTGAATTAAAACCATCTCCAGAAAGTTTTTTATATTTAATAAATAAGTATAACTTAAAAAAAGAAGAAACATTAGGAATTGGAGATAGAGAATTAGATATACTTGCTGGTAAAAATAGTGGAATTAAAACTTGTTTTATGAATCATGATCTTTTAAATAAAACTTATGAAGCTGATTTTGTTATAAATAATTTTAACGAGTTTATAAAGAAATTTTGCTGATTAATCTATCAACTGACTAAATATTTCTAAAAGTAACCTTTTTGTCAATTTTTTGTTGTGACTATTTTGAAAATGATATAATAAAATCAAGGATAAAATATTATTTTTACTGGAGGTGCTTTTGTGGTTAAAAACAAAGAATTGATAAATGAGAAAAAAAGTTTTAAAATTATTGAACTTTATGTAATGGGTTTTTCAAATCAACACATCTCCAGAAAATTAAATGTTTCATTAGATTTAGTAAAAAAAATAACACAAAAAATAAAATGAGGGCTTAGTCCTCATTTTATTTTTTTATTAATGTAATATAAATTGAATAAAAAAATTCTCTTATTGTTTTAGTATAGATTAAGATGATATAATTATTCATGAAAGGGGTGAGTTTATGGATAGAATGAATAAAGCAATAGAAAATATGCAAAAAAATGGAATAGATCAAATGCTTGTAACAACAACTTCTGATATATTTTATCTTACAGGTGAATGGATTGATCCTGGAGAAAGATTTTTAGGTTTGTTATTAAATTCAAATGGAGATAAAAAACTTTTTATAAATAAATTATTTCCAGTAAAAACAAAAAATATAAAAAGTTTTATTTATGAAGATAAAGAAAATCCAATTGAAATATTTAGTTCGCATATTAATAAAAATAAAAGACTTGGTATAGATAAAAATTGGAGTGCAAAATTTTTAATTGAGTTGATGGAAAAAATTAATATAAAAGTATTTAATTCCTCTAAAGTAATTGAAGGAATGAGAGTCATAAAAGATGCAGAAGAGATAAATAAGATGAGATTATCTTCTCAAATAAATGATAAAGCAATGAAAGAGGTACAAAAGCTTATTCCTAATATGATGACAGAAAAAATGGTTGCAAGAGCAGTTTCAAATATTCTTGAAAAATTAGGGGCTGAAGGTAATTCTTTTGAACCAATAATAGCATATGGTGAAAATGCAGGTGAACCACATCATATAAGTGATAAAACAAAAATAAAACATGGTGATTCTGTAATAATAGATATGGGCGGAGTTAAAGATTTTTATTGTTCTGATATGACAAGAACTATATTTTTTGGTGCACCTAAAGACGAGTATAAAAAAATATATAATATAGTATTAGAAGCAAACTTAAAAGGAATAGAAGCTGTAAAACCTGGAAATAAATTTTCAGATGTTGATAATGCTGCAAGAAGTGTGATAGAAAAGGCAGGATATGGAGAATACTTTACACATAGAACTGGTCACAATATAGGAATAGATGTACATGAATGGCCTAATGTTAGTTCGGATAATGATATGGAGTTAAAACCTGGAATGATCTTTTCTGTTGAACCTGGTATATATTTGAATGGAAAGGTTGGCGTTAGAATAGAAGATTTAGTGTTAGTTACAAAAAATGGTTGTGAAGTTTTAAATTCTTTTGATAAAAGTTTTAACATAATTTAAATACCCATAAGCTAAGCTTATGGGTATTTAAAATTTACTTTTAAAGGTTTTCATCAGTATTGTATATTTCGTTATAAAGTGTTTCTATATCACTTTCTATACTTAAAAATGTTTTTAAAATATTGGGGTTAAAATGTTTACTATTTGTTCGATTATCACCATTTATAATTATATCTAAAGCTTTTTTATGATTATAAGGGGGTTTATAAGACCTTTTTGAACGTAAAGCATCATATACATCAACTATTGATACAATAGAAGCTTCAATTGGAATTTCATTTCCAGATAATTTAAAAGGATAGCCACTTCCGTCAAACTTTTCGTGATGATATAAAGCAATATTCAAAGCCATTTTAAAGTATTCATCTTCTCCAATTAATCTAATTGAATACATTGTATGTTTTTGCATTATATTCCATTCTTCTTCTGTAAGTTTTCCTGGTTTATTTAAAATTTCATTAGGTATAAATATTTTTCCTATATCATGAAGTGGTGCAAAGTTTCTTATATCTTTTACAAAAGATTTAGGCATTCCAAGTTTTTCAGAAATAAAAGAAGATAAAATTCCAACACGTTCAATGTGATTTCCAGTATTTTCATCATAAGCTTCTGCTACAATTGCTAACTTTTTAGCAAAATTATTATAAGCAACTTTAAAAGTATCATTGTTTGATTTTATGCTTAAAAATGCTTCTGTTAATTCTTTTATTGCCAATGAAATATCTATTATTTCAGAACTATCATCGTTTTTTTCTGTGGAAAGAGAAAAAAACATTCCACCAATTTTTTTCTTTTTTAAAAATAAAGGTATTGAAATAATAGAGTTTATACTTTCTTCAATAAAAAACTCAGAAAATATTGAATTTTTATCAAAAAGTTGAATTTTAGCATCGTTTAACAAAAAACTTTTTGGTATACTTGAATCGTATGAATAACCATCATTGTGTAATATTTTTATTGAATTAAAATTTATTTTATAAATTAAGCCAAATTTACTAGACAATATTTTTTTTGCAGAATGAAATATTGTATCTAAAAAATCATCTTCTGAATCATTTTCAAGGTAAGTTGAGAATTTTGAACTTATTAAAATTAAATTTTTAAATTTAGTTGATTGAAATCTTTCTTTTTCTGATATTTTCTTTAGTTCTCCATTTAATGTGTTTAATTCTATATATTTTTCTACAAGCTCAGATTGATTTTCTTCTAAAACTTTATTTAATTTTTCTAATTCCTTATGATTTTTAATTAATTCTTCATTATTTGCTTGAAGTTCTTCAAAAGAGTTTTCAATTTCTTCCTTTTGCTCTTGAATAATAACTAAAGATTTTTCAAGTTTTTTTGTTTTCATTACAATAATTTTTTTTAAAAGTATAATAACAATTGTAAAAAAAGAAAAAGATAATACAGAAAATATTATTATAAAATATAACAATTTAGAAATTTTTTTTGAATTTGGATTTTCGTATTTTTTTAAAATTGAATAGTAATTTGAATTTGGATTTTCTTTCATAAAATATAAATTTTGATCAATAATATTTATGATTTCATTTTTTTTTGAAAATTTTTTTGAAAAACCAATTTTAATTTCATAAGGATCAAATATAATATTAGTTTCTAAAACACTATTATCTTCAACTTCATAAGAAAGGTAATATCTGTTAACAACTCCAGCATCTGCAGAACCATTACTTACGGCTTTTTCAATGGAATAATAAGTGTTTTTTTCAATAAAGTATGGATTGATATTAAATTTTTTTGATAAGTTTTTTATTCCATTGTTTGAGTTATAATAAACGTCTCCTTTTAATACAGCTACTACTTTTTTATTCAAATCTTTAATTGAAAGTATATTATTTTTCTTTTGTGTTATTACAACTCCCCAATTTGAAACTATTGTTTCATTATTATAATCTATTTCATTGGTTCTTTCTTCGTTATAAGCAATTGGCATTAATAAATTTATATTGTTTTCTTTTAATTTAGTGTATAGTGTTGAAAAGGTTCCAGTTATATATTCTATATCTAAATTTTCTTTTTTTGCAATATAATTTAATAATTCTGGAAAAATACCATAAATTTTGTTATCATTAATAATAGATAATGGCGGGTTTTGATAAATTCCTACTTTTATAGATGAAAAATTTATTAAATTAACTAATATTATTAAAAAAATAATAAGTTTTTTTATCACAAAAGTCACCCCCTTAAGATATTATAAAATAATTGTATTAATTTTATAATAATAATATATTTCCTTAACGTTAATCAAGAATATTTTAGAATAAAAAAATAAAAAAACTACTTTATATTAAAGTAGTTTTTTTATTAGTGTTTAATTTTTTATTTAATTAGCTATTACAGACATTCCAACAAGACCTTCACCAGTATGAACAAGCATTGCAGAAGTTATAGTTCCTTCTATTATATTGTTTATTCCAATTGATTTTACTTTTTCAATTAATTCATTTTTTAATTTTGTGGTTAGTGCATCAGATGATGAAACGTAAACGGCAGCACTTTCTACAGTTTTTTCAGAAACAAATTCTTTGAATACTTCAAACATTTTATTAATAGATTTTTTCATACCTCTACCTTTTGCTACTGTATAGTATATTCCATCAGTATTTACAGATATTACAGGTTTTATATTTAAAAAATCTCCTATTGTAGCAGAAACTTTTCCAATTCTTCCACCAGCTTTTAAAAATTTAAGTGTTGGTATTGTATAATAAACTCTTGATTTATTTGGTATTATAGAGTTTAATTTGTTTTTTATTTCTTCAAAAGATTTATTGTCTTCAATCATATCCATGGCCTTTTTTAGAATTAAACCAGAACCAATGGAAATACTTAATGTATCTATGAGTTCAATTTCGATATCTTTATTTGTTTTTAAAAAATCATTTATAACATTTCTAAACATGTTATGTGTACCGCTTAAATTACTAGATATAGTTAAAGCTATAATTTTTTTAAAGCCTTTTTCAACAAGTTTATTTAATTTTTCTTCAATATCTTTGTAAGAAGGCAATGAAGTTTTTGGAATATCTTTTTTCATAAATTCAATTACTTCTGGAGTTGTTATTTCAACAACATCTCTATAACTTTTATCATTTAAAATTACTTGAAGTGGAGCAATTTCTAAAAAATTTTTTTTCAAATATATTGAAGGCAAGTCACAAGCTGAATCACATAAAATTCCTATCATTTTTTCTCCTCCTAAAATGTTTATTATACTTTAATTTTAACACAATAATTTATATAAACAAAATTATGTAAAAATTTTAAAAAAAGATCTCTTAGTAATAGCCTATAAATAATTGATTTTATTTAATCAATTTCTAACTTTAAATTCATTTATTTTTTTAATAACTCTGATATAATAATACCATAATAGGGTATGGAGGTGAGAAAAATATGCAACATGCTAAAATAACGGTATATTCAACCCCAGCTTGTCCATGGTGTAAAAGAGCTAAACAATACTTTAAATCTTTAGGGTTGGCTTTTAAAGATATAGATGTTTCCAAAGATAGAAAAGCAGCTGAAAAAATGGTAAAAAAAAGTGGACAAATGGGAGTTCCTGTAATAGAAATAGGAAATAAAATTATAGTTGGCTTTGATAAAGCTAAGATAGAAAAAATACTTCAAATATAAAAAAATAAAGAAACCCATTGGGTTTCTTTATTTTTTTATATTAAATTATGAATTAAATTCAATTATACCAAAGTTTTCTGCATTTCTTTTATAAACAACATTTACTTCATCTGTTTCAGAGTTTCTAAAAACAAAGAAGTTATGTCCAAGCATTTCAGCTTGAAGTAAAGCTTCTTCTCCAGACATTACAGAAAGATCGTATCTTTTTCTTTTAACTATAGGCATTTCATCAATAGCTTCTGGAAATTTAAAAGTTTCAACTAAATTATTTGTTGGTTCATGAGTTTGAAGCTTATCCTTTAATTTTTTTATCTTTCTTTCAAAAGAGTCTGTAACCTTATCAATACATTCGTATAAGTCACCTTCTCTTTCTTCAACTTTTATTAAATTATTAAGTTTTTTGAAATGAGTTGTTATTTCTGTTTTGTATTTTCCACCTTCTTTTGAAATTCTAAAATCGGCTGGAGATATTAAATCAGAATGCCTTTTTAGTAATTTGTCTACCTTTGTCATTCTTTTTTCTACATAGTTTTTAAGTGCTGGTGTTAGTTCTAATTCTTTGGTGAATACTTTAAAATCCATAAAATCACCTCCACGGTATTTGCTGAAACACGACATTATATATTTTATTTTTTTATTTAGTAATTAATTACCGTTACATTAATATTATACTCCAAATTTTAAAAATAGTCAACATTTTTAAATTTTTTTCCCTAAAAAAGCCCAAACATGAAGCTTATCTCCGGGAATATGAGTTTTTTCAATTTCTCCCATTTTTAATGAAAAGCCTAATTCTGAAGACTCTAATTTTTTTATACTATTTTTAGTAAAAGAGTTTTTTATTGACTCAAATAATAATAAATTTCTAGTTTTTTCTGCATAGTTTTTTAATGACTTTGCGTGATTTTCATAATAAGTAAAGGTTCCAATCCAAATTCCATCTTTTTTTAAAAAATTACTAACCTTTTCTACAGGATAAAAAGAATTTTTTAATAAATAATTTCTTGTTCCAAAGTAATCTATCACTATATCAATAGATTCTGATTTTATTGGGCATTTAGTATAATCACCAGCTATAAATACTATATTTGCATTACTACCAGCTAATTCCAAAGAATTTTTAAGAGTTTTTAATGAATCAAGAGATTTTTCAGTAGCAATATATAAAGTATCTTTTCCCATATTTACCATTGAATTTTTAACAAATCTTCCAAGACCCGTACCTATTTCCATAATAACTTTGTTTTTAACTCCTATATTAAATAATCTTTTGTATATCCAAATTCCACCTTTTTCCATTAAAGTTAGTAATGATTGATCATACATATTTAATAATGTCTTTCCTTTTTTTTCATATTCTGGTATTTCAGAAGTATCAGCTTCTGGAGTAATTATTATTCCTTTATTTATTTGAGCATGATATCCACAATCACAGTTTAATTCACCCGTGAATATATAATTTTTCTTTATTGTTGCATTATTTAATTCAAGTGGTTTATTACACTTTGGACAAACTAAATAATTTATGAACTGCAGTGGGATTCCGATTTTCTTTTCCTTGTTTTTCAATGAAGTATTTATATAAGAAATTTTTTCTTCTATTATATTCAATGCCTTTTCTATTTTTTCTTTTTCTTTTAATAACTCTTGTTTTTTATTTTCAAAAAAGCTCAAGTAAAAGTCTATATCACTTATATCCGTTAAATTAGTCATCCTTTTTAATGAAAATATTTTTTGTATACCAGATATTGTGAACTTTAAATTTTTTAATTCTATAATTTCTTTCATATCTTTTATACAACTTTCATCAAATATATATTGATTTCTTATTTTTTCTGGAAGTAATAAACCTGTTTCAATATAATAGCGTATAGTATCTCGTTTTACATTAAATTTTTTAGAAAATTCACCTATTTTCATAATATCTCCCCCAATACTATATTTTTATCATATGTATTTTATCATAAAATAATACAAAAATAAAGATTTTTTAAATTATTTATGTTTATTTTATAATAAACACATTAAAATGAATTAGATTAAATTAATTTATTTTACCGCACAGGGGTATAATGAATTTGCTTGTAGTTACCATTATGTGGTATAATAGTTTAAGTTTAACGAAAAATTGCTAAAAGTTGTTAAAGGTTAATATTTTATATAAAGTGGAAAAATTCACTATCTTTAATAAAATAAAATATATAAAAATTTTAGAAAGGAGGAAGTATAGTATGAAGAGGTTTTTATCGGTTTTTTTAGTTACTTATGCAATATGGATAACACTAACAGGATTTACTTCAGAAGAATTTCTTGTTGGAGCAATTGTTGCATTTACTGTTAGTTTTGCAACAAAAGATTACTTAAAGTTTTCTTTTGATGCGGGTTTTATTGTCAAAGTGTTAAAATTTGTGTTTTTGTATACCCCTCTATTTGTTTACAAAATGATAATATCTAATTTAGATGTTGCAATAAGGGTTATACAACCAGTTATACCTTTAAATCCAGGATTTGTAAAGATTAAATCGGATTTAAAAGGCGATTTTGGAAATTTAGCATTATTAAACTCTATCACACTAACTCCAGGAACATTATCTATTGATTATGAAGATGGATACATGTATATTCATTGGATTGATGTTAAGGGAAGTAGTGAAGAAGAGTATAAAAAAGAAATTTCGCAACCCTTTGAAAAAATTTTAGGGGGGATATTTAAATGATGAATTTTATAGTGTTTGGCTTAATTGGTTTGGGTTTATTTTTCAGCATTTTAAGATTAATTATTGGTCCGGATGTTACAGATAGAATAGTATCGGTAGATGCTATAAATGTTATTGTAACAGGAACTATAGTTTTTATTGCTCACATATTTAAAAGTAATTTATATCTTGATATTGCGATTGCTTATGCAGCACTTTCGTTTCTTGAAACCGTTATTTTCGCAAGATATTTGGAGGCGAAAAAATGATTATATTAGGAAATACATTAATTATAATTGGTTCAATCTTTTATTTTCTTGGTGGCCTTGGAATTTTTAGAATGCCAGATGTCTTTAATAGACTTCAAGCTGGTACAAAAGCAACGACTCTTGGATCATTTTCGTTGATTTTAGGTGTTGGATTTGCTAATCCTCAATGGTTATTAAAAACTTTGTTGATAGTTGTTTTTCTTGCAATTACAAATCCAGTAGGTAGTTCTGCACTTGCAAGGGCATCTTATAAACGGGGTGTAAAAACTTATAAGTTAAAAATCAATGAAATGAAAGAGCCAATGGGTGGTGAAAATAATGACTAATATGAGTATTTTTGAATTATTCATTGGTTTAACAATGATAGTATTTGCATTTCTTGCAATAGAGTCTAAAAAAATAGTAAATTCAATAATCTATTTATCAATATTGAGTATGTTTTCTGTCATTTCTTTTATCTTTATGAGAGCACCAGACGTGGCAATCACTGAAGCAGTTGTTGGTTCAGGATTAGTTTCTGCATTGTTTATCGTTACATTAATAATGATAAATAAAAAAGTTGGTGATAAAAAATGAAGAGATTATTTGCTATTTTATTAATTGTTGTTATGGGAATATTTATTTTTTCAACTTTATATTCGAATAATGGAAAGTATAATTTTTCAAAATTTGGTGAAAGTACATTAAATGGAAAAGTTTCTGAAAAATTTGTAAATAAGAGTGTTAACGGAGAAAATAAAGAAGTTAAGTTTGGATCTGAAAATTTAGAAACTGGTTCAGCAAATTTAGTAACTTCTGTAGTGGTTAATTATAGAGCATTTGATACTCTTGGAGAAGTAACTGTTTTATTCCTTTCGGCATTAGGAGTTTCTGTTGTTTTAGGTGGATATAAAAACCGTTTAAAATTTAAAGTAGAGCCTAATTTTATTTTAAAAATAGGAAGTAAAGTAGCAGTTTCAATAATTTTAATTACTGGTTTTTATATTTTCATACATGGACATTTAACCCCAGGTGGTGGATTCCCAGGTGGAGCTATGATAGGATCAGCTGTACTTTTAATGTTCATTTCTAATGATGAATTTAGAGTTAAGGTGAAAAGCTTTTCAGCACTTGAAGGGTTATCCGGAAGTTTATTCATCATACTTGGTTTAATAGGTTTGAGCGCGGGAGGATTCTTCTTATACAATTATATGCCTATGGGAAAACTTGGAAGTTTATTTAGTGCAGGATTAATCCCAGTAGTTTATGTTTTAATAGGTTTAAAAGTAGGATCAGAACTTTCAAACCTTATCTCTCATTTTGCAAGAGAGGGGGAAAATAAATGATTCAATACATATTTATAATTTTAATTTTAATAGGAATTTATGGTCTTTTAACACAAAAAAACATAATAAAATTAATAGTTTCATTAAATGTTTTAGAAGTTGGTATTAATTTATTTATAGTATCGACTGGTTATATAAGTGGAGGGAAAGCTCCTATAATAACAAGTGAAGTTAATAAAGGATTTGTTGATCCATTACCTCAAGCTTTAGTTTTAACTTCAATCGTTATAGGTGTTGGTGTTACTGCATTGGGACTTTCTTTTGCAAGAAAAATCTATGAAGAGCATGGTACACTCGAGCTAGATGAAATTGGTGGTGAAGATAATGAATAATCCAGTATTGCTTATAACATTACCACTTCTCTTTGCATTTTTATCGGTTATATTCAAAAGTGCAAAAAAAGTATTTATGTTTTCTGGCCTTTTAATTAATATTCTTTTATTGAATTTTATAGAAAAAGGTAGTTATTTAATTGGCGGTTGGAAGATTCCTTATGGTATAAATCTTGTGTTGGATAATTATTCATTTGCAGCTGTTTTAATAATAAACACTATTTTTACAATTTCTGTTTTAATGTCTTATAAGAGTATAAAAAATATGGAAACTGTACTTTTAGTATCTCTTGCAGGATTGAATGGTGTTGTACTTACAGGCGATTTGTTTAATTTATTTGTTTTCCTTGAAATTGCAGGAATAGGTGCTTATATTCTTTCTTCTTCAACAGGAAAACATATTGCAAGTTTTAAGTATTTAATGCTTGGTACCTTTGGAATAAACTTGTTTTTATTTGGGATTATCTTGTTTTATTCTTCAACAGGAAGTTTAAACTTTATAGATATAGCTTCTAAAGTTTCAATGATGGATAATAAATTATACTTATTAGCTATAACTATGATTTTTGTAGGGATTTCTGTTGAATCTAAATTTATGCCTTTTAACTCTTGGGCAAAGGAAGTTTATTCAAATACTGATTCTTTAACCGCTCCAATATTTGCAGCAGTCTATGCAAGTGCAATGATGTTTGTTTTTGGTAGACTATTTACATCAGTATTTGTAACTACTGGATTCATACATAATTTACTATTATTTATAACAATTTCTACATTCTTATTTGGAGAAATTATAGCTTTCTCAGAAAAGAAATTAAGAAGAATGTTAACTTTTTCAAGTGTTGGACAAGCTGGTTTAATTTCAACTTTATTTTTAGTTGGTGCTCAATATCCAGCTGTAATGCAAATATACAATAATGCAATGTCTAAAATGGTTATGTTTTCAATTGCTGGTTATATTGCAATTAAATATGGAAAAGATAAGATAGAAGATTTACAAGGTGTATTTTTAAACAATAAAATATTGGGATTTGGTTTTAGTGCTGCAGCTCTTTCTATTGTAGGTTTACCATTATTTTATGGTTTTTATGTAAAGTTAAATATTTTAATAGAAGTTTTCAGTAAAAATGTTTGGTTACCTGCATTGATTTTATTTGCTACATTAATAGAAGGAATTTATTATATAAGAGCTCTTGTTAAACTTTGGAATCCAGGAAAAGAAGGAGAAGTTTCAAAACCTTCACTTGCAAAATTAAAATTAACAGATACATTTAATTATGCTTTTATAGCTGTAATTGTAGCTGCTATTATTGTTTTCCTTGGATTATATCCAGATGTTTTAGCTAACTTTTTAAATGGAACAGTAGAGTCTTTAAAAAATTATTCCGGTATTCTTACGACTGGAGGGATGTGATGTGTTTGCACAATTAATGATCTATTTTATGCTTTTTGCTGTTGGTACATTTTTTGTTAGCAAAATAAATAAAAAAGCAGGATCTTATTTAACTATAATTGGAAGTGTTGCGTTTTTAATTTACTTGTATGGCTTTAAAGATAATGCTGGTGAAGTATATAATTTATTTTCATTTGGAAACTTTGATATATCTTTTGTAACAAGTAGTTATGCATGGTACTTTAGTATGATAATGGTTTTAATATATTCAATGATTTCATTTATGAATCCATTTTTTATTGAAAAATATTCAAACCCATCAGCTTACAATGCATTTTATTTAGTTTCAATGGCTGCAAGTGTTGGAATGTTTTATTCAAAAGATTTTTTAACTCTTTTTGCATTTTATGAAGTTGCAGTTTGGACTTCTTTATTCATAATACCTATGGGTAAATCAAGAAAAGCATCAGTAATATACTATACAATGAGTTCAATTGGTTCATTATCATTGCTTTACTCTATTTTCTTGATGTATACAAAGTTAGGTACATTTGATATACAAGAAGTTGGAGCACAACTCGTTAATATTCCTCAATATGGAGTATTATTATTCTTCTTAATAATATTATCTGGAATTACGAAATTAGGAATTTTCCCATTTTATACATGGCTACCAGCAGCTCACGGAAGTGCACCAAATACATTTTCTCCTATACTTTCAGGTGCTCTTGTAAAAATTGGTGGTTTTATTTCAATGATTACAGTTGCTGTTTTACCATTTTCAAAGATGTTTGAAAATCATGTAAAAATAATGGGATATCCATTTGAAACATATATAATTATGATTTTAGCTTCTATAAGTATTGTTGTTGGTACTTTAATGGCAATAAAACAAGATGATGCAAAAAAACTCATAGCTTATTCTACTGTAAGTAATAGTGGATATATTCTTTTGGGTATTTCTATTGCAAGTACAACAGGATTTGCTGGAGGTATGATGCACGTTTTAAATCATGCTCTTGCTTCAGCTGCAATGTTTGCAACAATAGGAGCTGTTTATTATAGAACCGGAACAACAAAAATGTCTGAACTTGGTGGTTTAATAAAAAGAATGCCAATAACCTTTACAGCTTATTTAATTGCAATTATTTCACTTGCAGGTATACCACCAATGAGTGGATTTGCTTCTAAATGGTTGATCTTCCAAGCACTTGTTAGTAAAGGTATGATGTTTACTGCAATAGCTGCATTTTTTGGAAGTGTTGGTTCATTCTTGTATGTTTTTAGACCATTATCTACAGTATTTTTAGGTCAATTATCTCCAAAACACAATGAATTAAAAGAAGTACCATTTTTAATGCAAATACCTATGTGGATTTTTTCTGGTTTAACTATTTTTTATGGTATTTTCCCAGGAAAAGTTCTTGAATACATTGGAATAATAGAAGAAAAAGTTGGAATACAAAAAATTCATTTAGAAGGTACAAAGATATTTACAAGAACTGGAATGTGGGATTCAGCAGTTATATTCTGGGTATTTACTTTTGGTTTTATAATTGCAGCAATTATTTATTTTATGCACAAAAAATCAAAAAAAGTTGGACTCATGGATACTTATACATCAGCTGAATTTATTTATGATCCAGAAAGATATCATTATGCAAAAGATTATTATGCTCCATTTGAAAGATTGTACAACACAACTCTTTCAGTTGAAAAATTCTTTAATTCATGTGTACAAAAATTATCAGAATTCGGTGGTCTTTTAAGAACATGGTTCTTTAATGATAATCCTGTATTTACCGTATTTTGGGTAATAGTATTTATAACTGTTATCACGATTTGGGGTGGTATTTTATGACAGGTTACTTAATAGGAATTTTATTGTTATTAATTGCCTTTTTTTGGCAAGTGACTGTTGATGGTCTTCAAAGAAAGGTTACAGCAAAGATTCAAAGAAGAGTTGGACCTCCATGGTATCAGAACTTTATGGATATTTTTAAAGCTTTTTCAAAAAGTTCAATATCTCATGGAATAATTTATGATTTTGGTGTAATGATGGCATTGGGTGGAACAATGGCAACATTAGTTTTTATGCCTTTTGCTGGAATAGTTGCTTTTGATAGATTAGATAACTTTTTTGTTATAGTTTATTTACTTGCAATTGGTTCACTAGGTATGGCAATGAGTGCAGTTGGTTCTGGAAACCCTTGGGCAAGTATAGGGGTTATGAGAGCTTTAACTCAAATGGTTGGTTATGAATTACCATTTATAATGGTAATATTTGGAATGATTTTTGGATACAAAACAGCATCAATTTCTCATATAGTGCAAATGCAAGCTGGTGGATTTTTATATTGGAATGCAGTTAGAATGCCTCTTGGTGTAATTGTAGCTTTTATATCTTTAATGGGAATGTTAGGTAAAAAACCATTTGATACACCAATTGCTCCAGCTGAAATTGCATCAGGACCATTAGTTGAATATGGTGGAAAACAATTAGGTATGTTGATACTTCAACATGATTTTGCAACCTTTATAGAAGTTAGTATGTTTGTTAATCTATTTTTAGGTGGAGGAAATATAGTTTCATTCCTAATAAAATATTTTATTGTTTATACTCTTGCAAACATGATTTCATCTGTTGTTGGAAGGTTTAAAATAGATCAATTAGTAGTATTTTATTATAAATATCCACTTATTTTAGCCTTGATTCAAACTGCGGTTATAATATTCACCGGATTGGGAGTGAAAGTATGGATAGCATAAATGAAACAAATATTTATAGTGATGACTTAAATGATTCTTTAACTTTTTTTGAAAAAATTCAAAATATTTTTAGAAGTAAATCTGTATGGATGCTTCATTATTGTACAGGTTGTGGAGCAATTGAATTACCTCCAACTATGACTTCAAGATTTGATATGGAAAGAATTGGAATGGCTCCTATGGCAACTCCAAGACAAGCAGATGTTTTACTCGTTACGGGATACTTAAGTGTAAAAACATTAAGAAGACTTTTATATACATATGAACAAATGATGGATCCAAAGTATGTTGTTGGTTTTGGTTCTTGTACCTTAAATGGTGGCGTGTATTATGATTCTTATGCAACTATAAAGAAACTTGATCATTATTTACCAGTTGATTTATACATTGCAGGATGTATGCCAAGACCAGAAGCAGTAATGAGTGGATTTAAAAAATTAATGAATATGATTAATAAAGGCGAAGCAAGAGGATGGAAACACTATCAAGAAAATTATGATTGGTATCATAGAAATCAAATCCACTCTCTTGGGGAGGTGTATGTAAAAGATGAATTCCATGAATAATATAAAGGAAGATATATCAAAAAGATTTGAAAATGTTATATTTGAAGAAGTTTCAAAACAACAACTTTCTGTTGATATGAAAAAAGATAATATTCATTCAGCACTAGCTTATTTGAAGAGCAGTGGATGGGATCAATTAACATTTTTAACTTGTGTTGATTGGATAGAAATAAAAAAATTTCAACTTGTATATGTTTTGATGAACTGGGATGAAGGTATTACAATAAATTTAAGAACAGAAATAGATAGAGATAATCCAATTATGGACTCTATAATATCAATTTTCCCAGGAGCAGAATACTATGAAAGAGATGTTCATGAATTTTTTGGAGTTAACTTTCCTGGAAATCCAAATTATGAAAAAGATTTATTTCTTGAAATTTGGGATGATATGCCACCAATGAGAAAAGATTTTGATCCACTTGCATACTCTAAGAGAAAGTTCCCAGATAGAGAATATAAAGCAGAATTCATACCAGAAGGTGATGAACTATGAAAGAATTAAAATTATATTTAGGACCTAATCATCCTGGAATGCATGGTAACTTTAGTGTTCACATGTATGTTGAAGGAGATATTATAGTAAAAGCAAGACCTATGCCTGGAATGCTCCATAGAGGATTTGAAAAACTTATGGAAAGAAGATTGTGGATGAACAATCTTGCTTTAATACCAAGAATTTGTGTTGTTGAACCTGATATAAATGAAATGGTTTATGCAATGTCAATTGAAAAGTTGGCAAGAGTTGAAGTTCCAGAAAAAGCACATTGGATAAGAATGATTATTCTTGAACTTGCAAGAGTAGCTAATCATTTAATGGCTTTTGGTGGAATAGGTGGGCCAACTGGTTTATATACAGGACCAAACTGGGCTATAGCAGACAGAGATTTAATTCTTGATATCTTTGAAGAAATAACAGGTGCAAGAGTTTATCATATGTATATTGTTCCTGGTGGAGTTAGAAAAGACTTACCAGAAGGAATAGAAGAAAAAATAAGTTCTTTCTTGGATTATCTTGAAAAGAGAATGGAAGATTATAAATCATTAGTATTAGAAAATAAAATGATAATAAAAAGAACAAAAGATGAAATAGTACTTCCACTTGAAGTTGCAAAAGAACTTGGAGTAACTGGAATAGGATTAAGATCTGCAAGTGGGAAGGCTTATGATATAAGAAAAGTTGATCCATATGCAAGATATGATCAAGTAGAATTTGATGTTCCAACTGCAACATACTCTGATGCTTATACAAGACTTGGTATTAAGTATCAAGAAATATTTCAAAGTATAAGAATATTGAGACAAGTTTTAGATAAAATGCCAAAAACAGGAAGTGTAAGAGCAAAAATTTCTTCTGGAAATGCACTTAGATGGAGAGTTCCCGCTGGTCAAGTATTCTCTCATATTGAATGTGCAAGAGGAGAATATGGTTATTATATGGTTTCAAATGGGAAAGAAATGCCTTATAGAGTTGCTGTTAGAGGTGCTTCTTATCCACAAGGTATGCTTGGTATAGAAAAATATTTACCTGGAACAAGACTCGATGATGCTGCAATATGGCTCGATACTATGGGAGTATGTGCTCCTGAAATAGACAGATAGAGGTGATTATTAATGGACGTTAAAAAAAGCTTTTTTGCACCTGCAAAAGCATGGAAATTTTTAACAAAAAAACCAGTCACTATTCCCATGAAAGATGTTTTAGATAAACCAAGAGAAGCATCAGATAGATATAGAGGTTTTCATACAAATGATTGGGATAAATGTGTTGGTTGTGGAACATGTTCAAGAATATGTCCTGCTGAAGCTATAAATATGATAGAATTTAAAGAATTACCAGATGAAGAAGGATCAAAACCAGAAAGACCAGTTTTTGATTATGGAAGGTGTACTTTCTGTGGTTTATGTGTTGATATTTGTACAACTAATTCATTGAATATGTCAAAAGAGTACGTTCATATGTCTCCTGATCCAGAAAAGTTCTTTTTTGTTCCTAAGAAAGATGGAATTCATAAAATGGAAATGAAAGAAGGGTACACAAGAGACGATACATCTGAACTTCTTGATTTAGAAAGAGTTGAAATGGAACATTTACCAGCAGAAAAAAGGAAAGGATCATTCTTAGAAATAGTAAAAGGTTTTTCAAAACAACAAGCTATTGATGAAGCTGCAAGATGTGTTGAATGTGGAATATGTACAAAAACCTGTCCAGCACACATGGATATACCTGATTATATAAGAGACGTTTATAATGATGACTTAGAAACAGGTCTTGTTGACTTATATAAAACCAATCCATTACCAGCTGTATGTGGAAGAATGTGTACCCACAAATGTGAAACTGTTTGTACAGTAGGAACAAGAGGTGAACCTGTATCAATAAGATGGTTAAAGAGATATATAGTTGATAGTGTTTCGCCAGAAGAATATATAAAAATATTAAATCAAGAAACAATAAAGAAAATAGATGGAAAAATAGCAATAGTTGGAGCAGGACCAGCAGGTTTATCTGCAGCTTATTATTTAAGAGGTCTTGGCTATGAAGTAACAGTATATGAAGCTAAATCAAGAGTCGGTGGGGTTTTAAATTATGGTGGACCACTTTATAGAATGCCTGATGAAGCAGTAGAACAAGATGTAAATTATATAAAAGAAATAGGAGTTAAAATACTTACAAATACAAGAGTTGGAAAAGACATAAAGTTTGAAGAATTACAAAATAATTTTGACGTTGTATTTGTATCTACTGGATTTACAGATGGTAGAAAAATAAACCTTCCTGGAGAAGATGGCGAACACTTTATGACAGCTATGGAAATTCTTGAAATAATGAAAGATTATTCAAGAGGAATTGGTGAAAAACCATATATTCCAAACAAAATGGTTGTAATAGGTGGAGGAAACGTTGCATTTGATGTTGCAAGAACTATGTTGAGACTTCAAAATATTGAAAGAGGAAATTCAGAGGTTCATGTATGTGCTCTTGAAACAACTCTTGAACAAATGCCATCAGATTGGGATGAAAAAAATGAAGGTACAGAAGAAGGATTACATATACACCCAGGCTGGGGACCAGTTGAGATTATAAGAAAAAATGGAAAAATAGAGAAAGTTAAATTTAGAAAAGTGCTCTCGGTTTTTGATGACACTGGAAGATTTAACCCAACATATGATGATTCTCAAACTATGGAAATAGAAGCAGACATGGTTGTTGAATCTGTAGGTCAAGTACCAGATTATACATACTTACCAGAAAGTTTAAAAGAAAAGGTTGAAATGGTAAGAGGAAGAATAAAAACAGATGAAAATGGAAGAGTTGTAAATTTACCTTGGTTGTATGCAGGTGGAGATATTGTTCATGGTCCTGATATAATTCACGGTATAGCAGATGGACACAATGCTGCAAGAAGTATAGATGAATATTTAAGAAGTAAAAAATAATTACTAAAAAAGGTGATTTGCTTAGCAAATCACCTTTTTTAGTAATTATTTTGATTTATAGAAACAAACTAAAAAAATATTTAGTATTTTTATTTATGATATAATGAAGATGAAAAGAAAAAATGGAGGTGATAATATGAAAAAGCTACCAATAGGAGTACAAGACTATAAAAAAATAAAAGAAGGAAATTATACATATATAGATAAAACAAAGTATATATTAGATTTAATAAGTTCAGAAGCACCAATCTTTTTATCACGCCCAAGAAGATTTGGTAAGAGTTTAACAGTATCAACACTGTACTATCTATTTAAAGGAAAGAAAGATTTATTTAAAGGAACATACATATATGATAAATGGGAGTTTAAAGAGTATCCAGTAATAAGGATAAGTTTATTGGATACAACAAATGATACAGAAGAAGAATTAAAAGATGGATTATTAAGAATAATAAAAAGAGAAGCAAAAAAATATGGAATAAATATAGAGAGCGACCATTATAAATATGCTTTTGATGAATTAATATTTGAACTATCAAGAAAAGAAAGAGTAGTAATATTAGTAGACGAATATGAAAAACCAATATTAGACAATATAAACAACAAAGAAAAAGCAGAAAGATATAGAGAAATATTGAGGAATTTTTATGTTAGTATAAAATCAAATGATGAATATATAAAGTTTGTATTCATGACAGGAATAACAAAGTTCACAAAAACAGGAGTATTTTCTGCATTGAACAACTTAAATGATATATCGTTGAATAAAAAATATGCACAGATGTTGGGATACACACAAGAAGAGTTAGAAAGTAACTTTAAAGAGCATATAAAAGAAACAGCGGTTGAGATGAAGATGGAAGAAAAAGAGTTATTAAAAAACTTAAAGATGTACTACAATGGATTTTCATTTGATGGAGAAGATAGTGTATACAATCCATTTTCAATATTAAGATTTTTTAATGAAAGAAAGTTTCAAAACTATTGGTTTGAAAGTGGATCACCATCATTCTTGTATGAATACATAAAAGGAAAGAAGATAAGATATGAAGACTTAGTGAAGTATCCGGTAAGCGAACTTGATTTTTCAACACGAGAAATAGAAGAAGCAAATGCAAGTATATTCTTTACACAAGCAGGATACTTGACCTTTAAAGGAATAAAAAGATTAGGATTGAGGGAAAAGTACATATTAGACTATCCAAATATAGAAGTAAAGAACAGCTTTTCAAAGATAATATTAGAAGCAAACTATGGAATAAGAGAAACAGAACAAATAGAAACCACAATATATGAAAGAATATATGAAAAAGACATAGAAGGAATAATAAAAGAAATAAAAAGAATAATAAGTGCAATACCATACAACTTGCACAAAAAAGAAGAAAGTTACTATCATTCATTGATATACACAATACTAGCATCAGCAGGACTGAACGTAACAGCAGAAGAATTAACGAACTTAGGAAGAAGCGATATAGTAATAGAGGAAGACATCATATACATAATGGAAATAAAGATAGATAAAAGTGCAGAAAAAGCCTTAACCCAAATAAAAGAAATGAAGTACTATGAAAAATACAAAGGGAAAGAAATTTATATAGTAGGAATAAACATAAACTCAGAAAAGAGAAACATAGACGAATACAAAATAGAAAAGATATAATCCCAGCGGGTGCTGGGATATTTTTTTATAAAAACTCATAAAAAGCGTGAAAGTAACGATGGAAAATAGTGAAAAAATAAAACATTCGCCATTCAAATTTTTGAAGTTGATATTGTGTTAATAATGAAATGTTAAATTAAAATATTTATAAAAAATAAATATTTAATAAAGTTTCACAAACTTTTATAATAAAAATGATTAATAATAACATTATAAAAAATATAAAATTTAAATTCACAAATATTAATATTTAATATAAAATTAATAAAATAAAAAAATAAAATAAATGATATAAATTAATCAAAAAAGCATTATATTTAGGTAAAAATGTTTATTTGTTTAGTAAAAATAGTTGATTTTTTTTTTTTTTTTTTGATATAATGTTTATGACATAAATAAAAAAATAATTTGTTTTAATTTATTTAATGAACTATCATTTAATTATTATTTAATATTTTTTTATAAATATAAAACATATGAGGAGAGAGTTATGAAGAATAAATTATATTATAAGATTAAAAAATTTTTTTTGAGTTTAACTTTATTGTTTGCTTTTGTTGTGTTTGCAAATATAATGACTGTGTTGTATGTATCTAAAATAAATAATAAAAATTTAAAATCAGAAGTTCTTAATTATTATATAGAAAAAAATGTTAGTTATGATGATACAAGTGAATATTTACAAAAAACATATTATACCTGTGGACCAGCTGCATTGAACTATTTATTGTACTTATATGGAGTGAATACTACAGAAGAAAAATTAGCTACATTATCTAAAACAAATGAAAAAGGAACTACACTACTTAATTTAAAGTATGCAGCTGAAAGATGTGGTTTTAAAGCAAGAGGGCTCAAAGCTAACTTTGAATACTTAAAAGAAATAAGAAAACCAGTTATTACATATGTAAAAGGAAACCACTACGTTGTAGTTGAAGACATAACAAATAAATATGTTAGTTTATTTGATCCAGACCCAGAGTATGGTGAAATACGAATTCCAATAAAAATCTTTAAAGAAGCTTGGAACAATATAGTGTTAAAAATAAACACAAAACCTTTGGTGATGAGATGAATATAATATTATTAGCATTAAGCGGATTATTAGTATTCTTAAGTTACCCACCATTTGATTTTGGATTTTTAGGATACTTTGCGTTAATTCCATATTTTTATGTAGTGAAGAAAAATGAAAAAAGTTTAAGGTATGGATTTTTTGAAGGAACATTAATTGGAACAATTATTTTTTTATCAATATTACATATTCAAAGTGAAAGTATTTTAATTAATATTTTAATCTTTCTTTTATTAGTTAATATAATGGGAATTACTTTTATGATTTATACAATTATTGTAAAGATGATTTATAATAGTTTAAAAGTAAAAATACAAAAAATATGTATGATTTCTTTAGGATGGATGGTCATAGAATTTATTACCAATAAAATGTTAGTAGGATTTACATTTTATGCAGGAATAACTCAACACAACAATGACTTAATGTTGTATTTATCTAAATATATAGGATTGTATGGAATATCTTTTGTTGTTGTTTTAATAAATGTAATAATATTAGAAAGTATTTTGAAATTAAAGGAAAATAAAAAACTCAAAAAAAATGATATTAAATACATAATCTTTATATTGGGATTTTTTCTTGCATATTTTGTATTTAATAGTTTGAATGATATAAAAAATATAAATGGAATAAATATAAAAAAGAAAGAAACATTAAAAGTAAGACTAATACAAGGAAACATTACAGCAAAAGAATACAAAAAAGCAGAAGAAAAAAATAAAATGAAAAACATTTTTGAAAAATATATGAATCTAAGTATAAAAAACAATTCATCAGAATTAATAGTATGGCCAGAAACAGCAGTGCATAGATGGATAATGAGAATACCAGAATACAAAAATAAAATAATAAACATAGCAAAAACAAATAAAATTAATATATTATTTGGAACACCAGACCTTGAACCAAACGATGAAGAATACAACAGTGCATTTTTAATTTCAAAAACAGGAAAAATATTAGGAAAGTACAATAAAAACTATACAGTACCATTTTATGAAAACTATTTTAAAAAAGGAAAGGAAATAAAACCATTTGAAATAAACAATATAAAAATAGGAGTAGAAATATGTTTTGAAGCATTTTTTCAAAATGTTTCAATTGAATTAAAACAAAAAGGTGCAGGAATAATATTTTTATTATCAAACAATGGACTTTTTGGATATTCAAATATACCATACATAACATCAGCCTTCATGCAGTTTAGAGCAGTAGAAAATAACGTATATGTAGCACAATTAATGAATACTGGAATAACCCAAATAATAAACAACAATGGAAAAGTTTTAAAAAAGACAAAACTATTTGAAACAAAAATAATTAATTATGAAATACCAGTAATACACAAACAAACAATTTATTCTAAGTATGGAGAAACAACCTATTATATTATAACTGTATTATTTTTAGTGATTATAATAGCTATGCTATTAAAAATACAAATTAGGAGGAGAAAAAAGTGAAAAAAACAAAAAGAGGAATATCATGGTTAATATTATTCACCTTTATATTGACCATGATGCCAATGAACGCCTTTGCAACAACTAAAAAAGATGTATCAGTAAAAAGTATGTCAGATTCACAAATGTCTGCCGTTGTTGGGGGGGTGAGTCCAAAAAAACCTTCTAAACCAAAACCAAAAATAGAAACAAGGTATTTTCATGGAGTTACTGCTGGAAGTGCAAAAATAATTTATAAAGGACCAGAAAAAATTGTTTCTGCAGCAGTAGATAATATGGATTATAAAAATTTTTTGGATTATTCATTTGAAGTCAATGAATCTACTACCAATGAATTTACAGTTTCAGGAGAAGCTGAGTTCCTTGATTTTTGGAAGGCCAGTGGAGGATATACTCACCATAAAACTAAAAGTTATATTGGAAGTTTTGTAGCAAAAATCCCACCACGTCATCAAGGATTTATTGTTAAATATAAAGAAAAAATTGAATGGAGCGCCTATTCTAAAAAGATAATTTACAAAGATGGAGTGCCTGATAGTGAAGATAATCGAAAGGGAACTAAAATAAATATTTTAGATGTATATAGAGCTAAATATATAAAGATTAGTTATTAGAGGAGATAAAATGAAAAAACTTTTATTTGGATTAATAATATTTTATAACATTGTCATTTTTTCACAGAATTTGGTTTTAGTAAATAAATTTTATATAGATTCATCAAAAGTTGATTTGAATAAATATGCAGGAGTTATTGATGGAAATATTTATTCAATAGAAAAAATTAATCCATTGATAATAAAATCTTATAATATTTATAATGGACTTACAAAAGAATTTTTAAAATATTCTAAAAAAGTAGATATTTCAATAATAAAATATGACTACTTAAAAAAACCTTACTATACAGAAATTTTTAAAATAATTGATGATAAAATTTATATAATAAGTATTGGTGAAAAATTATATAGTTTAGACACAAAAACACATGAAATAAAAGAGTTTGAATTAGAAAATAAAGAGCAAATTCTTGATTATTACGTATCTTTAGATACAACTAAAGATAAAAAAGATATATTTTTTATTAGTCCTAATAAAAATTTAGATATGATCCTATCACATTATAATACTAATTCAGGTTTTATAAAAAATATTTCAACTGGTTTTGGTGTAAAAAAAATTTTAGTTATAAAAAATAATGTATTTGTAATAAATTATGATGAGTTTTTGAAACGCCTAAGTATATCAAAATTTGATATGGATTTAAATAAAAGAACTTTCATCAATAAGAAATATGATACTGGAAATTGTTTTGAATTACCTATAAAAATTAAACAAAAAAAATTATATAGCAATTATATTGATGATGAAGTAAAAGTTATAAAATCAAAAGAATATATAGTAGTTATGAATGAAGAAAATTTCTATATTATAAGTACAAAAGTAGATGAGAATGGTTTTTCAAAAGTATTAAAGATAATTCCGATAAAAAAAATTATTGATAAAAAATTAAGTGATTTAAACAATTTAATATTAAGTTCTGATAATGAATATATATATTTATTTAACAAAGAAAGTTATATTCTTTATACAATTAAATTAAAACTATAAAATAGGGAGTTATCCCTATTTTGTAGTTTGAAAAACAAAATATAAATACAGAATTATTGGAGGGTTTTATGAAAAAATCAATTATTATTTTTTTAGTCCTTTTGTCTATTAGTATGTTTTCTAATACAGTTTCTTTTTTTAAAGAATATTTTCTGAATTATTTTCAAAGTAATGATAAATTTTCAACAACTTTTGCAAAAAAAAAGACAAAAAATTATGAAAATTTAAATTTTTCTACATATTTTGATTATCCATATGATGGCACATATTCAATAAATTTAAATTCTGGTATAAAAATTAATCTTTTCGATTATCAACAGTATTTAAAAAAAGAAATTTTTAATTACGAAAAAAATATATCTTTAGCTAATATTGAAGCAAGAAAAATGAATTATATTTTTAATTATTTTTTAGATTATCTTGAATATTTAAAAACAAAAAATATAAACGAAGAATTAAAAAGAGTATTAAACTTTATAAATAAGAATAATCTCTTAAACAAGAATAAAATATTTTATGTTAGATTAAAAAACGAAATACTTGAAAATGAATATTATTGCAAAAAAATAAAAAGAGAAAAATATAACAATATTAAGAATTTATTTGGTTATCATATTTTAAAAGATAGTTTTATAAAAAATAGTTCAAATCTTAATTACATAAAAAAAAATATCATTAATAATCCAGATTATTCTTATAATAAAAATAATGAAGAAATAATTAAACTTAAAAATAATAAAGAAGATTTTTCTGTATATTTTGATTTGAATTATAATTATAATAATTCCTGGGATTCTGAGAACACATTTAATAAAAATTTTTCATGCTCTTTGAATTTTGAAAAATCTTTTGAAATATTTGGAATATCCTTAAAAAATCATATTTCTATTTATCCAAATAAAATCTCAGCAAATATTTTTTTTATAGATTATGCAAATAAATTTTTATTAAACTCAAATAAGTTGAATAATGTTTTAAATGAAAAAATAAAAGATTATTATTCATATTTTCAAAGACTAAATATTTTACTCACAAAATTAAAAAATTATAATGAAGTAATTAATATCCAAGAATTAAATACTATTAAAAATTTTTCTGAATATATAAAATTAATTAATGAATATTATAGTACATATTCTGAAATTTATAGGATATATTTAGGAATTTTAATGCTTGGAAATTCAGATTTTATTTTAGATAATTTAAAATAAATAAAAGAAAATAATAGATACTGGTAAATCATTCACTTATATGGATTTTGGATATGGTGGACTTGATTGTATGTTAGAAAGTGTGTATAGAGCAAAATACTTTTTAAAAGGTCCTTACCACGAAAAGAGTTATAGTATTTCTGTTGAGAAACCAACGAGAACAAATAAATATGTTAAAATTTATTATAAGAAAGGATGGTAAATAATGAAGGTGCTTTATAATAAAGCGCCTTTATGTTGAATCATATTAATATAAAAAAAGAGGTGAGAAATTAGATGAAAAAAATTTTAGTATTTTTTATTATTTCAATAATTACTATAATTACACAAGGAGAATTTGTTAAATATGAATCCATATCTCTTAATAATAAAATAGATAAAGAATACAAATTTAATTTAAGAATAAATAAAAAAAAGGTTATTAAAAGAAAAGATGTAGATTTTATTTCATGTAAATTTGATGTAAATAGCAAAGGTGAAATTTATTTAGGGCTGTATAGTGAACCAAGTATTTTAAAGTTCTTACCTGAAAAAAAAGAGTATATAAAGATAGAAAATGAAATAATACCTGATTATTATAGTGGTGGTGTTACTGTTGTATATTTAAGGGTTCTACCAAATGATAAGGTTATAGTTAAATCTTTAGATGGTATAGCAATATTAAATAATGATAAGTTAGAAAAGTTTTATGAATTTCCTGGAACCTCAGTAGATGATTGGGCATATGATATTGTCAAAAAGAAAAAAAGGTCTGAAATTTATTTTAATCCACCTATAACAAATGATCTTCATACAGATGTTGTGTATATTGAAAAAACAAAAGATGGATTGATAGAATTTAATCAAAAGACGGTTTATTATTATAAAATAATTGGAAATAATTTTTATGGAGATTATAAAACTATTTATGAAAAAAAAGAAAAATGTAAATATTCATCGGATATAATTTTAAAAAGTAATTCAAATAAATTATATAAAGTTATTTGGGACAACAAAGAAAGACTTTTGAAAATATTAGATGTAGAGAAAGGAACTATTAAAATATTGGATAATTATAAGTATACAGCTACATATGATATTGATATGATAGATGATAATTTTTATATATTATATGAAAATTATGATAGTGAGGATTCAAATCGTAAGGATTTGAAAATATTAAAAATGGATAAGAATTTTAACATAATTTATGATTTTAGTGTAATGAAACAAAAATATTTTTATATTCCTGAGCTTAAAGTAAAAAAGATTAATGGAAAAATATTTATATACATAAAAACTAAAGAAAGCATAAAAATTCTTTATGAAAATTAGAAATTTAAAAAGGGAGAACTTTAATGAGTAAAATACGAATAATAATAGTCTTGTTTATTTTTTTGAATAGTATTATATTTGGAGAAAATTTAAATTATGAAAAATTTGACAAAGCAATTAAGTCTATGTATCTAAAAGAAGTTAAAAAGACTGAAGACATATTGAACAAGTATAAAATGTTTTTTCAAAATGTTTCGTATAATTTTGGAATAGATGGAGATTTTAGTAAACTTGATTTTACTACATCACAAATCAATTTGAATTGGAATATTTTTTCAAGTGGTAAGAATATAGCAGAAATGAAGATAAATGAAGTTGTTAATAGAATAGAAGAATTATTAGATGAAAATAAGTATTTTAATAAATACATATCCTTGAGATATGAGTTTTTTAATAGGTATCAGATGCAAGAAAACTTAAAGTTATTAAATAAGTATTATGATGAATTATTAAAGATAACACTACCACAAAATGAAATAGAAAAACTAAAATTAGAAAGAGAAAAAATAAGTACACAAATTCAAAAAAATGATTTAAAAGAATCTTTTGATAATCAAAATTTGAATGGTTTCATATTTTTAATTTTAAATAAGATGCAGGATGTTACTTTTACATATCCAAAAGAATATTATGAAATGAAAAAATTAAATGAATTATTGAATAGTTACAAATTAAAAGACTTTAAAGAGAACTATGAGTACTTAATAGCAAAGAAAGAAAAAGAACAAAATAAATATAGTAAAATATTAACAAATAACAATGAAATAAACTTTAACTTAGGAGCAAATTATGATTTTAAAACAAATAATTATTCTCTATCATTTATGATGGATTATAATTATGATGTACCTTTTATAAACTTTTCAGGAAATGGTAATTATTCAAATGGACATTATAACATTTCCAGTACAATAAATCCAGTTATAAAAGAACAAAAAAAAGAAGAAAATGAAAAAACTTTAGGTGAAATTTTAGCTAAAGTACGAGATGATTACAATAAACTTCTCAACCAAATAGAAGCAACAGAAAATAATTTATACATAATAAATTTAGACATAAAAATATCTGAATTAGAATATGAAAAAAATAAAGAAAAAAAGACAGATTTAGAAAAAATTTTGAATGAAAGAAATATAGAAAGTACAAAATTGAATTATATTTTAAATGTTGTTAAATATAATTTATTGGTAAAAACACTGATAGATACTTACTATGAAAAAAAGTGATGAAATAATAAAAAAGATAGTAATGTTAGTGTGTGAATATAGACAAACGAAATATGTATTCAAAAAATATAATCCCAGCATTGCTGGGATATTTTTTTATAATAAAGAATATAAATTAAAATTATTCTAATTAGTAAAAATATTTATTAAGTTATTCCAAGAATAGGTTTTTAGAGAGTAGGAATTTTTTTATGTTATAAAAAATTAATACTTTTGTTAAGTTCTAATTTTTTTCCATTTTCCTTTTGTATAAAAGTAAATTGATATTAAAAATTCAAAAAAATCTCCAAAAGCAAATGATAACCAAACCCATATTAAAGGTAGGTTTAATATTTTTATGAAAATAAATAATAATGGTATTTGAATTAACCATCTTGAACCAGCACTCATGAATAAGAAAGGTAAATTATAACCTGATGCTGAAAAAACACTCGATAGTCCAAATGAATATGCAACAAAAATAAGCCCTATGGAACTAAAAATCATGAATTCTTTTCCATATAAGATTACTTGTGCATCACTATTCAGGAAAGAAATTAAAACTTCTCCCTTAAAAAATACCAATAACATAAAAGTAAAGGTTATTAATGAGGCTAAACTTGCAGTTAATTTAGCTGTTTTTGCAGCTCTTGTTGTTAAGTTTGCACCAAGTGATTGTCCTATTATGGAAGATGCTCCCATAGATAAACCCATTAATGGCATAAAGACAAATCCAAATATCCTTCCTCCAACAGCATAAGCAGCAACAACTGTAGTTCCAAATAATGATACAAATTTTAATATTACTAACATTGAAAGATTTCTTGCAAAAACTTCTAATCCATTTGGTAAACCTATTGTTATTAATTTTTTATCCATTTTAAAATTTAATTTTAAAAGTTTAAAAATAGAAGGTTTTATACCTCTTTTCCCACTAAATAATAGGTAAAATCCAATTATGAAAGCTATACTTTGAGAAATTATAGTTGAAACAGCTGCTCCAGAAATCCCCATATTTAATCCTTGTATTGAAGTTCCTGGAATTGTTTTGAACATTAAAAATGGATCTAAAATTATATTTAAAATACTTGAAAATATCATAATATACATTGGAGTTTTTGAGTCTCCAATACATCTTAAAGCAGTGTTTACTGAAAAAGAAGAAAACATTATTGGAAGAAAAAATAATCTTATATAACCATATTTTATTCCAAGATCTACAACTTCTTTTTTTGCAAAGGATCCCATTAAAGGTTTTAAAAATAAAGCTATTGAAATTGCACCTATTATTGCAACTACAAACTTAAAAGTTATTGTTTGTTCTATTGCTAAGTTTGTTTTTTCATAATCTTTTTTTCCATAACTTTGAGAAATTAATGAAATTGAACTTGTACCGATAATTTCATTTAAAGCTTCTACAACCCAAAAAATTGTTGCAAATATTCCAACACTTGCTTGTGCTGCTGTTGAAATATGTCCTATCCAAAACATATCAACAAGGTCGTAAATCATTTGTGCACTAAAGCCTATCATAGTTGGAATAGACATTAATAATAGTTCTTTTATTATACTGCCTTTGGTTAAATCTCTTGCCATAATTCAAATCCAATCATAGATTTTATTTTTTCTAAGTATTCTTTTTTAGTTATTAATTCATATTCAAAGCCATCATCGATTTGTTTTTTTTCTTTTATTCCTATTTGATCTCGTATTTTATCTATTTTCCAGCTATGTTCAAACTTTAAGTATAATTTTTTTGAAACCAACACTTCTAAATTAATTAATTTTTTTTCTAAATCATTTAAAAATTCTTGTACAGTTTTTTTTGATTTTGCAGAAACAAATAAGGCTTCTGGATGTAGTATTTTCAAATGATCGAGTTTTTCTTTTGTTAAAAGATCTATTTTATTAAAAACTACAATGCGTGGTATAGGTTCTATTATAACCTCGTTTAAAGTTTTATTTACCACACTTTTTTTATCTTCATAATCTTCTTCACTAAGGTCAATTACTTCGATTATTACATCTGAATAATTGATTTCTTCAAGAGTCGTTTTAAAAGATTCTATTAAAGATATTGGTAACTTTCTTATAAAACCGACTGTATCAGAAAATATTACTTGTAAACCATCGTTGAACTTTGTCTTTCTTGAAATTGTTGCCAATGTTGAAAATAACTTTTGTGAAACAAGTATATTTTCATCATCTGAAAGTGCTTTTAATAAGGTTGATTTTCCAGCACTTGTATAGCCTGTTATTGAAACTTTAATTGTTGAAGAGGCATTTCTTTTTTTTGATTTCATAGTCCTAGTATGTTTTATGCTTTCTAATTTATTTTTAAGTGTGTTTATTTTTTCTTTTATAGTTCTTCTATTGTACTCTAATTGAGTTTCACCAGGTCCTCTTGTTCCAATTCCACCCCCTGTTCTTGATAAAGAAATTCCTTGACCAACTAATTTTGGGAGTTCATATGTTAAACTTGCTAATTCAACTTGAAGTTTACTTTCTGTTGTTTTAGCATTTCTACTAAAAATTTCTAAAATTATTTCATTTCTATCTAAAATTTTTATGTCTTTTAATTCTTTTTCTAGTAGCTTCCTTTGTAAACTACTTAAACTATCATTAAATATGGCAATATTGCATTTAAAAGCCATTAATGCATCTTTTAATTCTTCAATTTTTCCTTTTCCAAGATATGTTTTTTTATCTGGTGCTTCTTTTTTTTGTATTACTTCAGTTAAGATATTTATGTCAATATTTGAACATAATAATTTTAATTCTTCAATTTGCTTTTCAAAATCTTTTTCTCTTTTATTGACTGCAACGAGTATTCCATCAAAAACTTCTTTAGTTTTTTCCATATAAAAGATTCCTCCTAATTTTCTATTGAGTGCAACTTAAAATGTTCTACTACAATTATTGTGTCATCATTTATTGCCAACCAGTCTTTATTTAGTTCTTCAGACCAAATTTTTTTATGAAATTCTTTAAATTCTTCTATACTATTAAATAATTCTCCTTTTGCAATTCTTTCTGTTACTTGTCCAAATGGAATTTCATATTTTTCAGTTATTTCAATATTACAGGCATGTTCACCTTTTTTTGTATAAATAGCAACTAAATCTCCTACTTTTGTTTTACTTATTTCAGGTTCTTTATCATACCAATATTTTGGAGTACATATTACTGTTTTCCCTTTGTTGATTATTTGATCTATAACGCTATTATCATTTTCATCTTTTCCCCAAACAGTAGTTTTTTTCATAAAAAACACCTCCTAAATAAGTGATATACACTTAAATTATACCTTTTTTTTAGTTACAAAAGTATTAATTATGAAAGTATTTAATACTTTTAATGGTATAATTATTTTTAGGAGAGGAGGAATAAAGTGAGTAAAAATATAACTATTACGGCTATGCTTTCTGTTTTAGTAGTTGTTTTATTTTCGTTTCAAATGGTAATTCCACCAATAGGAATGATTTTTTCGTATTTATCTGTAATTTTATTAATTGAAATAAAAAGAAATACAGAAACAAGATATTATTTGATGTCGTTAATAACTACCAGTACTTTAATAGTAATGTTAAATGATCCTTTTGGATGGATTTTATATATTTTTATGTTAATACCTGTTTCAGTTGGAGTTATATATGAAGGTTATTTAAAATTTTTAATGTTGATACCAGTAGAAGCTGGTGCTTACTTTATGTTTAAAGTATTTTCCGTTAAAGGATCTCCAATAGATAATTTTCTTGGTAATATTTGGTATTTTTTAGGTATATTTTTTTATATTGCAACGTACTTTTTTTATAAAAAGGCTATTATTATTTTTGATGTTTTAAAAAAAAGAATGTATAAATAAAATTGGAGGTGAACTATGAAAAAGAGCTTTTATGTTGTTTTATTTTTGGTTTTTACATTTTTACTAATTTCTTGTAGTGCAAATATTAATAAAGAAAATAATTTGGAAAACAGTTCATCAAAGGTTGATAATTCAAAAGTTGATGACTCAATAATAAATACAGTTACTTTCATTATTGAAAGTTATCCCTCAAATACTCCTGAAAATAGTAATATATACATGATGGGAGATTTTAATGGATGGAATCCGTCAGATGTCTTTTATAGATTTGAAAAAAATGAAGAAGGTGAATATATATTAAAGGTTAGTATGAAATCTGGAACTAAAATAAATTTTAAAATTACAAGAGGAACAGATGATTCTGTAGAATCAGACAGTTTTGGAGATGAAATATCAGAACGTGAATACAAGTTTTCAACTGATGGAGATGAAGTTTATATTTCAATAGAAGGTTGGAAAGATCTAGGATTTTAATAATTAATAAAAACATGTAAAAGTTATATGCTTTTACATGTTTTTATTTTATTTTCTTTTAAAATGGAATCAATATCTTTTTTATTCACTGATTTTATAAAGTCTTTTATAACAAAGGTGTTGTATCCTTTTTTTATGCTAGATTTTATAGTTTCTAATACACATATATCTCCAGCTAATCCAAAAATAATTAAATTTTTTATTTTATTATTTTTTAATAATAAATCTAACTCATTTGGAGTATCTTCAAAGTTTTCATAAAAAGCAGAATAACTATCTGTTTCTTTTAAACTTCCTTTTTTTACTATATAATCAACATAGTTTATAAATAATTTATTTCCGTATGTATTTTTTACACAATGCATGGGCCATTCTTTAAATGAAATATGATCTTTAGGATGATCATCTTTACTTGCGAAAATTTTATACTTTTCTTTTTTTGCAAGCTTTAAAAAATTATTAATTGATTTTATCCAAACTTCATCAGTTTCTTCAACTGGTAGTTCATTTGAGCATCTTAATGTAAAACTATTTTGACAGTCAACACAGAGTATAGCTGTGTTAATGGGGAATAAATTTAAAATTTTTATTTTTTCGATTAAAGTTTTCATATTCATATAAGATACCTCCTTATGATAATTTTAACACATTTAAGAAAAATAAATTGATTTTGTAAAATAAATTGATTATAATTGTATTGGATGACTATATTTGCAAAAGGGAGTGATTTTAAGTGTATAAATTAGTTTTAATAAGACACGGAGAAAGTCAGTGGAACAAAGAAAATAAATTTACCGGGTGGACAGATGTTGATCTTTCAGAAAAGGGTGTAGAAGAAGCAAAAGAAGGTGGAAAAGTATTAAAAGAAGAAGGTTTTAAATTTGATATTGCTTATACTTCTGTATTGAAAAGAGCTATAAAAACATTAAATAATGTTCTTGAAGAAATGGATTTATTGTGGATTCCTGTATATAAATCATGGAGATTAAATGAAAGACATTATGGTGCTCTTCAAGGTTTAAATAAAGCAGAAACGGCTAAAAAGCATGGAGAAGAACAAGTTAAAATTTGGAGAAGAAGTTATGATATAAGACCTCCTGTTTTAGAATTAAATGATGAAAGACATCCAGCATTAGATCCAAAGTATTCAGCCTTGGACACAAAAATGCTTCCAGGTGCAGAATGTTTAAAGGATACAGTTGAAAGGTTTTTACCATTTTGGAATGATACAATAGCTCCAAGTATAAAAGAAGGAAAAAAGGTAATAATTGCTGCACACGGAAATTCTTTAAGAGCTTTAGTAAAGTATCTTGATAATATGTCTGATGAAGAAATAATTAGTTTAAATATTCCTACAGGAACACCTCTTGTTTATGAATTAGATGAAAACTTGAATCCTATAAAAAAATATTATTTAGGTGATCAAGAAAAAATAAAGAAGGCTATGGAATCAGTAGCAAATCAAGGAAAAGCAAAGTAAATAAAATATAAAAAACGGAAGCTAATAGCTTCCGTTTTTTGGTGGACCGGGACAGACTTGAACTGTCGACACACGGATTTTCAGTCCGTTGCTCTACCGACTGAGCTACCGGTCCATAGAATGGTGGGCCCTGTAGGGATTGAACCTACGACCCTCTGCTTGTAAGGCAGATGCTCTCCCGCTGAGCTAAGGGCCCATTATGGCGCCCCCAACGAGATTTGAACTCGTGTCTTTGGCGTGAAAGGCCAATGTCCTAGGCCGCTAGACGATGGGGGCAAAACACCAACGCAATTATTCTATCACACTTAATGATTGTTATCAATAAACTAACATTAAACAAAAAGTTAATTTTTGGTTAATGACTCTATTAAAGCTCTTGCATTGTCTTCGTCTTTTGATATTTTTCGAATTAACTCTATTTGATCATTGAATTTCTCTTCTGTTCTTAAAAAATCGATGAATTCAAGTTTTATATGTTTTCCATATAGATCGCCAAAAAAGTCTAAAAAATAGGTTTCTGTTTTTGGTATTTTAATTTCTTCAAAGTATGTTGGTCTTATTCCAACACTTGTTAATCCCCATAAAATTCTTGAATATCCATCAATGTATCCTTTTGTAAGATATACTCCATACTTTGGAAAGATTATATCTTCTTTTTCTCTTATATTTATATTTGCCGTTGGAAAACCTAATGAAAATCCAACATGTCTATCTTCATAAACTGTACCTTCAACGGTCCAATTTTTTTCTAAAAGTTTATTAGATTCTTTTATGTTTCCTTTTTTTAAGTTTTTTCTAATTAATGTTGAGCTAACTCTATTTCCCATTTCTTTTAAATCGTGTAATACTTCAACGATAAGTCCTTTTTTTACACCACTGGTTAAAAGATAAGAAACATCTCCCATGGCGCCTTTTCCAAATTTAAAATCTTCACCACACACAATGTATTTAGTTCCAATATCTATTAAATGATTTAAATAATCTTCGTGGTTTATATGCCAAACATCTTTCATTTCAATAATTTTTACTTCGAATCCCATTTCTTCAATTAATCTTTTTCTTTCCCAGCTTGGTAAAATTAAACCATCAAATCCATTTAAATACTTGCCAATTGGATATTTTAACATTATTGCAAGTGGTTTTAAATTGTTTTCTTTAGCTATTTGAAGTGTTTTTTTTAATATATATTTGTGACCTCTATGAATTCCATCAAAAGTACCTATTGTTAATGCATACAACTATGTCACCGTCCTAATAGATAAATCATTTTAATATTTTATATAGTTTTATTATTCTATCATTTCTTTCAGGGGTTCTTAAAAGTGTTTTTAGAAATTTTGAAGATCTTTCAGCTTTTCCTACTCCAATAAAGTTTTTTTCATCATCTAAAATTTTTACATATTGATTTTTTTCAAATTTAGAAAATTGTAGTATATTTTCTTTATAAATTTGTATTCCATTTAAAACTTTATCTTTATTGTTTACTTTTATAAATGGAATATTTAAAGCTTTACTAATTGGAACAAAGTTTGAATCTTTCTCCATTTTTTTTACTGATTGTTCTAATGAAAAAATACCACTTTTTAAACGTCTTAATTCTATTGCTGTTGCACCACAACCAATTTTCTTTCCAATATCATTTATTAAAGTTCTTATATACGTTCCTGAAGAAACTGTAACTGTAAATTCTATTTCTTCATTATTTTCATAAACAATTATATCTTTTATATTAGATATATTTATATCAATTGGTGGAATATCTACTGTTTTACCAGCTCTTGCATATTTGAATAATCTTTTTCCATTTATTTTTTTTGCACAATATATTGGTGGAATTTGTTTTGATTTTCCTTCAAAACTTTTTAAAGTTTTTATAATAAATTCTTTTGATAAATCTGGTACTTCGTTTTTTTCAATTATATTTCCAGTGATATCATAAGAGTCTGTAATAATTCCTAAACGTGCTTTTACTCTATATGTTTTATTATCTGAAATTAAAAATTGTAAAAACTTTGTTGCTTTGTTTATAGCTAAAACTAATACACCAGTTGCAAAGGGATCTAAAGTTCCACAATGACCTACTTTTTTTGTGTTGTATAAAATTCTTGCTTCTTTTACTATGTCATGTGATGTAACATTTTTTGGTTTATCTATTACAAGAAATCCATTTTTCATTCTTCTGTATCGCCTTCAACTTTTATTTCATTCAATAATTTTTGAATTTTAATACTGTCTTCTAATCCTTTATCCTTAAAAAATCTTACTTCTGGAACTTTATACATTTTTATTTTTTGAGACATATCTTTTCTAAATAATCCTTTTAATTTATTTAAAACTTTTACTATTTCATCTACATCTTCATTTAATGCTGATACAGAAATATCAACAAAAGATTTATCTCTTGATAATTTTACAGAAGTAAAACTAATTAACTTTCCTTGTATTTCATTATTTCTTATTTTTGATAAAGTTTGTGTGAATAATTTTAAAATTTGTGATTCTAACATGTTTCTCCTAAATTGAGACATTACTTTTCCTCCTCGACGTCTATTATATTATTTAAGTTCATAAAATCTTGAGATTCTGAAATTTTTTCTTTTAAGTTATCTAGATATTTTTTATATTTTTGTGGAGTTAAACTAAGTTCATTCCAGGCTACTTCATTTGGAATAGGAATTTCAAATGATCCAGAATGTCCGTAAAATAAAGTTTTAACACTTATATTTGCTATATGAACTATATTTACTATAGTTTTTGTGTTTTCGTGTCTATTTTCATTTGGATTGTCATGAAAGGTTGCTGTGTCTATAATTATATCAGACATATTCCAATTTTCAAATAAAATTTTCCCTATTTGTTGATGTGAAAAAGATTGTAGCATTTCTTCTGCTTGAGAAAAAGATATTTTTTTGTGTTTGGATAATTTTACAACCATTTCAAATATATCTGGCATTACAAAAGCCATAGCAATTTTTCCTAAATCGTGAAGCATACCACTTAAAAATGCCTCTTCTTTTTCTGGATAATTCACATAATTTGATAATAATTCAGCTGCTATTCCAGTTCCCATTAAATGTTTCCAAAATTTTTCGGTATTAAAATAATCATATTCTTTTTTGAAATAAGAATTTACTGTAAAGATGCTCATTGCAAGGTTTCTAACGGTTTTAAATCCAAGAATATTTATTGCTTGAGTTAATTTTGTTATTTTTCGTGGTATTGCATAATAGGCTGAATTAGACATTTTTAAAATTTTGGCACTTAAGGTAGGGGATTCTAAAACAGCAACGTTTAATTCTTTTGTACCAGATTCTGGATTAGATGCAATTGAAATTATTCTTTGAACAACAAAATCTGGTGTAGGTAATTCTTCAATCTTTTTTGACAATTCTCTAATTGAAATAGCCAAATTAATCAACACCTTTAGGAATAGTAATTTTAAATTCAGTACCAATTCCTTCTGAACTCTCTATTGTTATTGAACCGCCGTGCATTTCAATTAAATCTTTAACAATAGATAAACCTATACCAGTTCCTTGAACTTTGTAGGTTAATGAAGTATCAACTCTATAAAATTTTTCAAATATTTTTTGGTGATGTTTACTGTCAATTCCAATTCCATTATCTTTTATTGAAACATAAATATTTTTTTCATCTTCAGTTGTTTTTATATTTACTTCAGGTTTTTCTTTTTTAGAGTCAAAGTATTTTATAGCATTTTGAATTAAGTTTAAAAAAACTTGTCTAATTCTTGTTTTATCTATAAATCCCATTATAGGCTTAGTATTATCTTCAAAAATTACTTTTATATTATTGCTTTTTGCAGATTCTTCTGTACTTTTTATAATTTCTTTCAACAATTCATTTATATCAATTTTTTCTTTTTGTAACTTTAAAGATTTTAGTTCTAGTTTTGAAAAGTCTAAAAGATCATTTAATAAAGCTTCTAAGTGTAATGATTCTTTGTATATTGTATTCATAAATTCTTTTAAAGTTTCTGTATCCATCATTTCTATACTGTCAATTAATGTTTCAGAATAAGCTTTTATAGCTGATAAAGGTGTTCTTAATTCATGAGATATCATTGATAAAAATTCCATTTTCATTTTATCTAATTTTTTTAATTTTTCTAATTCTTTTGTTCCAGATATATCTCTTATTACAGCAATTACAAATTTATCATTGTCGAACCCAAATAATAAGGTTTCAATAGAATAAGTTTTTTGATCTACTTCTAATTCAATTAGTTGTTTTGAAAGACTTGAAAAAGTTAAGTTAGATAGTTCTAAAATTTTTTCTTTTAATTCTGTACTTTCAATAGCTTTATTAAAGTTTTCATTTTTAAATTGAATTGAAAAATTAGAATCATAAACTACAATAGAATCGGATGAAGAGTTTAAAATTGTATTTAAAAAGTTTTTATTTTTTTCAATAGTTTTGTTTTTATTTAGTATTTCTTGATATAACTTTAAGTTTTGAAATAAGTTTCCCATTAAGAATGAAATTATTCTTAAAAAAACCATAAATTGGTTTGAAAATTCTTCTTCTTTTGTAAAAATAATATATACAAAATCAACATTGTTATTGTGCCCAATTGGAATTATTACATATGATCCTTCTTCTTCAGGAAAAATTGAAACATCTCTTTTTTTAAAAGCCCATTTTGCAATATCTTTTAAATCTTCTGATACATCCTTTTTATAAACTTCAAAAATTTTTTCATTTTGTATATTGAAAAAGTATTCATCTTCAAAATCAATCATAGTTTTTGTAAGCTTTGAAAGCGTTTCATAAGAAGATTCAATGTCTTTAGCTTTACTTAATTGCATGATTATATTTGAAATATTTGAAAATATAGAAGAATTTGAATCTGGAATCATTTTACCACCTCAAGTTTTTATAAATCTTTTATTATATTATACATCAATATGATTAAAATTATTTTAATATATTAAAATAATTGAGAGTGCGTTTGCACTCTCAATATTCAATTTCAGAAGTAACCCAACCGCCAGTAAAGGCACCAATGTTTTTTTGAACTTTTTCAGAATCTATAAATATTTCATCTACTTTGGCTGGATATAAAGATAAATAGTTTGATAAAATTTCATAACCTGGTTTAGTTTTACTGTATTCGTAAACACACGCTTTTGCTTCTTTATCATCTACAATTAAATTATAATATTCAGCTGTTCCTTTATATATACAAAGTGTTGTTTTTTCAATTTTTTTTAAGTATTCTAATTTAAAGTCTTTTTTTGGAATATAATAAACAGGGAATAAATTTTTTTGCATTACTTTTAATGGATCGGATGTTTCAGCTATTACTTTTTTATTAAAAATAACTTTAATAGTTTTGTTTGTTTTTTTTACAATAGGAATATCAGGATAGTCTTTAATATTTTCACTCATAAAAATCTCCTCCTTTTTTATATTTCAATATTATTATAACACAATTTAAACAAAAAATTTACCAATTAATCTTTTAATTAAGTTCTTTGAAATGATATTTTTTTGTGTTAAAATAAAAATATATTCTACAAGGAGGTGAATTATGGATAACTGTGACAGTAGTAAACAAAAACCACCATGAGGAGGGATAACATGAAATTTGCAATGGCAGTTGATGTAAAAAAATTAATAGAATATGGTCAACTTAAATTTTTAAAAGAACTCTTAGTTGAACAAGAACCAGCAACAGTTTTAGAAATGATAAAAGAATTACCCTCAGAAGAAATTTTAATTGTATTTAGACTGTTACCAAAAGATACTGCAGCAATTGTATTTACTGAATTAGAAACAGATGAACAATTAAAATTACTTTCACTGTTCAAGGAAGAGAAAGCAAAAGAAATAATTGAAAACATGGATCCAGATGATAGAGTTGAACTTTTTGATGAGATGCCTGCCAATGTTGTAAAAAAACTTTTGGACTATCTCTCTCCTGAAGAGCGAAAGCAAACATTAACTTTATTAAATTTTCCAGAAGATTCGGCTGGTAGAATAATGACGCCTTATTATCTTGATGTTAAGGCTAATATGACTGTTGAAAGAGCACTTGAACATATTAAAAAAGTTGGAAATACAAAAGAAACTATTTATACATTATTTGCAATAGATGAAGATAGAAAACTTTCTGGAGTTTTAGAATTAAAGGATCTTATTTTTTCTGATTCTAATACTTTAATAAAAGAATTAATGAATGAAGATCCTATATATGTAACGGTTTTTCAAGATAGAGAAGAAGTTTATCAAATAATGAGAGATTATGATTTATTAGCTTTACCTGTAACGGATAGTGAAAAGAGATTGGTTGGTATAGTAACAATAGATGATATTGTCGATGTAATTGAAGATGAAGCTACAGAAGATATTCAAAAAATGGCAGCAGTTGGTGTTACTGAGTCATCTTATTTACATACTTCAATATGGAAATTAGTAAAAAGTAGAGTTTTTTGGTTAATAACATTATTGGTTCTTGAAAGTGCTGTTGGATTTATTATAGATGGATATTCTGAAGTTCTTCAAAAAATAACTATATTAGCTGCATTTATACCAACAATAAATGCAATGGGTGGAAATACCGGAGGACAAATTTCAGCTATAATGATACGTTCAATGGCAATAGGTGATGTGGAATCGTCTGATATGAAAAAAATATTTTACAAAGAAATGATAATAGGTATTATTTTAGGAAGTATTTTAACTGTAATAATGGCTTTAAGAGCCTTTGTTAGTACACAAAATATTATGATTATTTTAAGTTTATCAGCTTCTTTACTTATTGTTATACTAACTTCAAATCTTTTAGGTGCATTTTTACCATTTTTTGCAAAGAAGATAAAAATTGATCCAGCAGTAATTTCTGGTCCTTTAATATCAACATTGATGGATTTAATAAGTATGAGTGTTTATTTTTCTGTATCAACAATACTGTTAAAAAATTATTTATAGAATATAATAAAAAACGAATACGTAAGTATTCGTTTTTTATTATAAATTAAGCTAAATCTTCATATGATTTTGTTTTTAAGAGTAAAAGTCCGCCTATTAAAAATAAAATAGCTATACTTACAACTCCAAATCTTGAACTTCCTGTTATTTGAGAAAATATTCCAACTAATAAAGGACCTAATATTGCTGCAAACTTTCCAAATATATTATAAAAGCCAAAAAATTCTGTTGATTTTTCTTTTGGTATTAATTTTCCATAAAAAGATCTACTCAATGCTTGTATTCCACCTTGTGAAGAAGCAACTAACATTGCAAGTATCCAAAATTGTGTTTTGTTGTGTAAGAAAAAAGCAAAAATAGTTAAACCAGTATATATTGTAATTCCTAAAAGAAGCATAATTTTTGGTGAAAAATTTTTAGCTAATTTTCCATATAACAAAGCAAATGGAAAGGCAACAAATTGTGTTACTAATAGTATTACTAATAAATCAACTGACTTTATTCCAACATCTCTTCCATAAATTGAAGACATTTTGATTATAGTTCCAACTCCATCTATATAGAAGAAATAAGCGATTAAAAATAAAAAAATATTTTTATTTTGTTTTATATTTTTAAATGTGTTATATAATCTTTTAAATGAATCATAAATAGGTGTTTTTGATGGTTCAATATAATTTACTTGTTTTACGTTTTTTAACATTGGAATAGAAAATACTAACCACCATACTGCTGTTATTAAAAATGAAACTCTTGTTGCCACTGTTGCAGAAGACAAGCCAATTATTGTTGGTTTTTGAATTATAATAATTCCAAGTATAAAAGGTATAGTACTTCCTATGTATCCCCAAGCAAATCCATTCGATGAAACCCAATCCATCTTTTCTTTTGTTGTTACATCAGTCAAAAATGAATCATAAAAAATATTTGCTCCAGAAAAACCAATTATTGAAAAAATATAAATTAGGATACATTGTAGCCAATTTCCGCTTGAAACTGTTGAAAGTAGCATGGTAGATAAAACTCCAAGTAAAAGGAAGAACACAAAGAAACGTTTTTTATAGTTTTTATAATCAGCAATAGTTCCAAGTATTGGTGCAAGAACAGCTATTATTAATGTTGAAATTGTATTCGTATAACCCCAATAAGCTGTAGCTAAACTGCTTTCTACTCCTTTTGCTGCAACATCTTTAAAGAATATCGGTAAAATTGCTGTCATAATAGCAACAGCATAAGCTGAATTTGCCCAATCGTATAATATCCAACTTTTTTCAGTTTTTGTCATTCCTTCTCCCCCCAAAAGAATAATTTATATCTCTACATTACCAAATTTATAGTATTTTTTAATTTTTTTATTTATTTTCCATGTACATGATAAACCTTTTTTGAATTTAACAAGATCTCCAGATTCAAATTTAACTATTTTATCATCAAACCTTACTTCTGCTTCTCCTTCAATTATAAAACAGGTTTCATCTTCATCATACTTCCATTCAAATTCTGAAACATCTTTTTCCCAAACAGCCCATTCTTTTACTTTTAAGTCACGAAGTCTATCTTCTTTTGGAAATTCAATTACAAAAGCTTTATCATAATTTAAAAATATTTCTTTTGGACCATCTAATAAAGCATCTACTGGATTTTCTGCAACTTTGTTAAATCCACCAAGAACGTCTCCCATCATTTCAAAATATTTTGAAACTTCTTCTTTAGAAAAATTTTCATTTAAAAATTTTTCTAGATCATCAAAATCTGAATCGGGGTATTTATTCATATATTCTTCGACTTTTTTTAATACATTTTCCATATTAATCCCTCCTAATAATTGTTCTAAAACAATTATATCATAGATAATCATATTTATAAAAAAAAAGACGCTTAGCGTCTTTTTTACAATTGCATTCTTGTTATTTCCTTATAAGCTTCAACTATTTTATTTGTAACTTCAGAAGTTAATTTTAAAGATAAAGAAGCTTTTTCAGCTGCTATTATAACTTGATGAACATCGGTTATTTTACCAGATGCATAATCTGCTGCCTTTGTATCAGCATTTTTTTGCAGTGAATTAACTTCATCTATGGCGTCTTTTAGCATTTTAGAAAAATCATTGTTATTAGAGCTTTGAACAGGATTTTTATTTATTAAACTTGGATGTTGTAAACTTATAGGGTTTATTTTTTCTATCATAAAATCACTCCCCTCATTATCTTCCTATATTTAGTGCTGCATTGTACATTGATTTAGAAGTGTTAACAACTGAAGCATTTAATTCGTAAGCTCTTTGAGCATTCATCATATCGACTATTTCTCTTAAAACATTAACATTAGGATACTTTACATATCCGTTTTTATCGGCATCTGGATGATTAGGATCATATACAATTTTAAATGGTGAAGTATCTTTTGAAAGTTTAGAAACTTTGACTCCTCCATAATTTGTTTCATTATCCAGAATTTCTTTAAAAGAAACAATTTTTCTTTGATAAGGACCTCCATTTTCTGTTCTTGTTGTTTCGGCATTTGCAAGATTTTGAGAAATTATATCAGTTCTAAATCTTTCTGCAGTCATACCACTTGCAGCAATATTCATTATTTTAAATAAACCTTCCATTAAAATCCCTCCATATTTTCTTTAATTATCTTTTAATGGCTGTGTTGTATCTATTTATAACATAAGTCATAAGCCTAGATACAGTTGTATATCTTAAATTGTTTTGTACCATTTCAGTTGTTTCAATGTCTATATCAACGTTATTTCCATCATTTCTATTACTTTTGTTTTTATCTATTAAAGTTTGTGCTTGAACTTTTTCTAAAGATGGGGTATTATTTATATGTCTAGAATCTGTTGTTTTTAATTTTAAATTATCTGTATCGCTCAGAGCTTTTTGAAGCTCGTTTTCAAAAGAAACATATTTTCTTTTGTAGTTTGGGGTATCAAAATTAGCTATATTTTGAGCTATAGCTTTTTGTCTTTGAGTATAAGCATCTAATGCTTTTGGTAAAATTTTAAAATTATTATCGAACACTTTTATCCCTCCTGTGTAATAATTCTTTAGTTTTATATAATATTCCTAAAATAATTTTGGAGGCACTATATGAAAAAAATATTTTTAGTTGGTTATTATGGTTATAATAATTTTGGTGATGATTTACTTTTAAAAAGTACATTTAAGATACTAAATGAGATAGGGTTTAATGACACTCTAATTATTCCAAGTGAAATAGATTTTTTATCTAAAAAGATGAGAAATATATTAAAATTTAATGTTGAAATTATAAATAAATATGATATTTTTTCTATGAAAAAGAATATCAAAGACTCTGATTTAATTATTTATGGTGGAGGTAATTTATTACAAAGCGAAACATCTTTAAAGAGTTATTATTATTATTATGAGATATGTAAAGTGGCAATAAAGTATAATAAAAAAATTTTATTTTTATCTCAAGGTTTTGGACCTTTAAAACATAAAACGGCAAACAAAAAATTAAAAAAAATTATGAAATATGAAAACTTATTTGGTATTTATAGAGATAAAGTTTCATATAATTATTCCAAAAAGTATAATAAAAATTCATACTTTGGTATGGATATAGGACCATATTCATTGAATGCTTATAAAAATAAAAAAGAAAGAAAAATTTCTTTGTGTTTAAAAAATTCATATAGTAATTTAAAATATTTAATTGATTTTTTGAATATATTTAGTGATTATACTATTACACCTTTGATAATTAATTCAAATCAAGATTCAATAACAAACTATGCTCTTGTTGAAAGTATTAGAAAAGATACAATGAATGAAGTTTTATTTCCATACAAGGACTTTAATAAAATTCAAGAAGAAATAGCAACTTCTTCACTTGTAATATCAGATAGATTACATAGTTCACTTGCTTCTATTTTTTATGAAACACCTGTTTTAACTAAACTCACTAAAAAAAACAGACGTGTTTTAAAAAGTATAGATAATAAATATAATTTTTTTTATAATCGTTTATTAGATATACCAGAAAGTTATTTTAGATTATTAAAATATAATTTTTTAGAAACTTCTGAAACTTATAAAATAAGATTAAATGATACGATAAATCTTTCTAAACAAATTATTCAAAACGTCTTATAAGATGTAATTGTCCATTATCAGTGGTTAATACTAAAATTATATTGTTATCAGGTGAGATTACATCAATAGGATATGAAGATACATTTAGCTCTTGATAAACTTTCATATTTTTTATAATGTAAAGCTTATTATTTATATGAGATATTGCATATATATAATTTTTGTCTGGAGACACAGTTATATCTATTATGGGAATATCTTCTAAAATTTTTGTAGTTTTTCCAGTTTTTAAATTATAATAATAAATTCCACCTTTCATAGAATGACCTATTATATAATCATTGAATAATTCAATATTTCTAGTGACTCCATTAAAATCAGCAACTTCTTTTTGTGAATATTTTGTTATTTTGTAAAGCTTTCCTTCAAATTTTGAAACGACATAAAAAATATTATTAACCTTTATAATATCTACTGGATTTTTAATATTAACTTGATTCGGTATGTATTGATTGGAATTTGGAATAAAAAATAAAAGTTTTGTTTTAAAAGTATTATTTATATAATTATCATACATTGGAATAAAAACTTCTTTATTTTGTGTTATTATATAAGGACTGTTTACTGATAATTTATAACTTGATTTAATATTTAGATTTTTATCTAAGATATATAAGCTTTCTTCTGCAGTAATATACAATTTATTATTTATAACTTTTATATTCCAAGGAGATTTATCTAATTTTATTTTTTTAATAATTTTTTTTGTTATGTTTGATATTTTTTGTACTTCTTTTTTCATAGAATCAACAATATAAATATATTCTCCATCAAAAAAAGCAGATGTTGGTCTTGAAAGTCCATACTTAAAATATCCAAATTCTGAATTGTATATATCTACATAAGTTACTTTCCCATCATAATCACATACTAAAGCAAGATTTTTTTCTGATTTTATTAAAAAGCTTCTATTCCCAGTTGGGAATGTATTGATTTCAGCAAAATAATCATTGGAAAAAGACAGGTTAAAAGCCAATGTAACGAATAAAAATGTAAATAAAAGTTTATTAAATTGTTTAATTGTTTCTCACCCCTTTTAAATTTTTCATAATTATTCTATCACAAAGTTATTAAAATGCAAATAATAATATTTATTTATATTTAATAGAATTTGATTATATTAAATAATTATAGTATAATATCAATAATTATCTATGAAGAGGTGGAAAAAATTGGTTCTTGTTGCCATAATTGGTGGAAGTGGAGCCGGGAAAACTAGTGTTTCCAAAAGTATTGTGAAACACTTTAATTCTCGCGCTTCTTTGTTGAGTATGGATGATTATTACAAAGATTTACCTCCTGGTGTTGATCCAAGAGAATTTAATTTCGATGATCCTAAAGCATTTGATTTCGATCTTTTTAAGAAACATTTAAAATTATTAAAAAAAGAAAAATCTATAGAGTTGCCTGTTTATAATATGGTAACTTGTAGAAGAGAACAGTCTATTACAAAAAAATTTTTAGTGACTGATTTAGTTATAGTTGAAGGAATACTGGTTCTCCATGATAAAGAATTAAAAAATTTATTTGATTTTTCAGTGTATATAGATGCTCCTTCAGATGAAAGACTTATAAGAAGAATAGAAAGAGATACAGTTGAAAGAGGTAGAACAATAGAAAGTATATTAACTCAATATAGAAGATTTGTAGCACCTTCTTTCAAAGCTTTTATAGAACCACAAAAATATAAGTGCGATATTGTTTTACCAGATGGAGTTAGCAATAAAACGGGGATGGGTATAATCATAGATGCAGTTGAGAGGATGTTAGAAAGAAATAAACAGGAGGGATTTTAATGAAGAAATATATGTTACTTGTTTTTTCAGTACTTTTAGTGATTATTGGATACTCCATTAACACTAAAATTGTGCAAGAAAAGTATGTTGGGTTTATAAAAGCCTACAACTCAGATACTAAAGAAAATCATCTTATAAATAAATTTAAAGATGAAATGAAAAATTTAGGTTTATATAGATATTATAGAAATAATATGGTTGGAAGTGCAGAATTTGTTGATAGACCAACAGATATTCAGACATATTTATCTATGATTCATAAATCTATGACATTTAATTCTGATGAAGAAAAATTAGCTTTTGCTGGTTTTTTATGTTATGTACAAACAGATCTTGCTGGTGGAGAGTTGAGCAATGAAGTTATAAAAAGTATGCCTGCATATTTTGTTACTGTTCAAGATATTTACCAAAATATGCAAAATGAAGCACTTTTGTACATAGGAAATGTTATAGCATATTCTATGGGATTAGTAGAAACAAGTCCATATACAAATATTGAAAAACATAAAACAAATTCTAAATTAGAAAATTTAGATTTATATACATACAGTGGAGAAAAAAATGAACTTTATGATGGTATAATTAAGAAGAATAGTGTAAAACTAAATACAGAAATTGAAAAATTGGCAAATTCTGGAATAACAGGAGAAGATTTGGAGTATGAAATCGATAATCTTTCTTCTGAATTATTAGAAGATATAACTAAAAAAAATGATGAAGATTTGAATTCTTCTGTTGCTATGTTTATAAAAGAAGCTAAAAAAGGAATTAATCTTTCTTATTTAAGATTTATTATATATTTGGCTGTAATTTTGGTTGGAGTTAAATTTTTTAAAAAATACTTAAATTATATTATTTTAGGTGTTTTTGGTTATGAAGTTTTTTACTTAATATTTATGTATAATTTTTCTAAAGATATAATTACATCATTCTTTTACGGTAGTTTTATAGTAGTAGCTGTTGCAATAATGTTTTTTGTTAAGTTCTTTTCGGCATTTGGTAGAGATGTTAAATTCGTAAAAAGGCTTATAAATGTTTCATTATTTATTTTACTTGCGTTGTTATTGTTTATTCCAACTTATTATTCAAAAGATTTGACTATGAAGAATACAAAGAGTTTTCATAATTCTTCTTTTGAAAACCAACTTTTAAAGGATGTGTTGTTATACAATCATTCAGTAATTCATAAGAATTTAACTGAATTAACAAATTCAATTACAACTGAAAACTCTGAGGCGAAAAATATATATTCAAATCTTTTAAAGAAGTATATAAATGATTCAATTGAAAACAATATAATTGAAAGCATAAGTAATGATTATGGAGTTAATATAAAAAATAATATAAATGGATTATTATTAAACAAAGAAAAAAATTATACAAAAGTATCTAAGGATTATGCGGAAGCAATAGATAAGTTTGTAAAAGCATCAGAATTAAGAATGAAAAATATAAATAATGAGATAAAAACAATGAAATTAAACATAGAAAGAATTGAAGATTATTCTGATGAACAGTTTTTAAAGTTATTTAAAAATAATTTAGATAGTTATTTTATGAAAAACAAATTACTTGTACCAGTTAAGAAAGATATAGATGAATCTTATACAAACTTCAATGCAAAAGATAAATTGAACATAAAAGCATACAATACAGATTATGGAACTAAAATGCTTATGATATTTTTCCTTGGAATTGTTTTTTGGATAGTATTTGAAGGGAAACTTATAAAATGGAGTTCTTTTGGTGCAATGATTATATCTTCTGTTTTGATGTTTATAAAGCCAGGAACTATAGAAGTTTTATCTCAAATAAAGTATCCAGTATTAAAAAGTTCTGAGTTTAGTGTGAACATACTTTATGGAATCATAATGGTATTAATAACAATACTATTAACTATCAAAAAGGGAGGTAGTGAATCATGAAAAAAGTTTTATCTATGATGTTAGTTTTGGCTTTTGTTGTAAGTTCATTTGCACTTACAGTTACTATGGTTTCCGATACAGGGGGATTAGGAGACAAATCATTTAATGATGGTACATGGGCTGGAGTTTTAAGAGCAAAAGACGAATTAAAGGCAAATGTAAAGGTACTTATTTCAAAGGAACAAACAGATTATGTAACTAATTTATCAAATGCTGCAAAAGAATCAGATGTAGTTATAGCTGTTGGTTTTATGATGACATCAGCTTTATTTGATGTTGCACCACAATTCCCAAGAACAAAGTTTATTGGAATAGATATTGCACCTTCTCAAGGAACAACTATTCCTTCAAATGTAGCACTTTATTTGTTTAAAGAACAAGAATCAGCATTTTTAGTTGGATATCTTTCAGCAAGTATGACTAAAACAGGTAAGCTTGGATTTATTGGAGGAATTGAAATTCCACCAGTTAAAAGATTTGAATTTGGATACAGAGCAGGTATAAAAGCTTACAATGAAATCCATAATAAAAATGTTGAAGCTATATTAGGTTACGCTGGTGGATTTGGTGACGTTGCAAAAGGAAAACAAATGGCAATGGCTCAATTTGCACAAGGCGCAGATATAATATTCCATGCAGCTGGAGCAACTGGAAATGGTGCTTTTGATGCAGCAAAAGAAAAAGGACTTTCTTTCTATGGATTAGATGCAAATGCAACTCTTAAAGATATTATAGACAAATATTATGAAAAAGGTAGAGGTTATTTTGCAGTAGGTGTTGACTCTGATCAAGATTATCTTGCACCAGGATTTGGACTTGCAAGCGCTATGAAAAGAGTAGATACAGCAGCATTTTTAGGTATTAAAAGTTCAAGATCTGCAAGATCTTTTAAAAGTGGAGTACATACTCTTGGTTTAAAAGAAAATGGTGTTGACATTTCACCAATGAAATATACAAAAGGTATGGTTTCAAATTCAACTTTTGCAGAATTAGCATATCTTTCTTCTTTAATAAAACAAGGTCAAGTAAATGTTCCTGATTCAGAAGATGGATTAGCTTCATTTGATGTAACTTCTGTAAAATTTCCATTTTAATTAAAAAATAAAAAAGGGATGGGGAATCCCATCCTTTTTTTAAAGTTGTTAATTAATAGATGAAAAACATCTATCAATTAGCAACTTTTGGATAGCTTTAGGAGGTGTTTCGATGTCCAAGGGGACAGATTTAATGAACTATGCAGTTTACATGAAAGAAATTGTTAAACGATTTCCAAAGGTACTTGCTAACGATCATGTAAATTTAGAAATTAAAAAAGGGGAAATTCATGCACTTATTGGTGAAAATGGTGCAGGAAAATCAACACTCATGAATCAACTTTATGGCCTTTACACACCAACTTCTGGAGATATTTTTATAAACGGAGAGAAAAAGGTTTTTAATGGTCCGAAAGATGCCATAAATGCTGGTATAGGTATGGTTCATCAGCATTTTATGCTTGTAGACAATTTGACAGTTGCAGAAAATGTTGTTCTCGGTTCAGAACCTAAAAAAGGTATTTCATTTGATTTGAAAAAAGCAAGACGAGAAGTACAAGAACTTTCTAAAAGATATGGATTGAAAGTTGATGTGGATGCTTTAATTGAGGATTTACCTGTAGGTACTCAACAAAGAGTTGAGATAATTAAAACTATATATAGAGGTGCAGAAATTTTGATTCTTGATGAACCAACTGCAGTTCTAACTCCTCAAGAAATTGAAGAATTATTTGAAATCATGAGAAAGTTAAGAGATGATGGAAAAACTATTATTTTTATAAGTCACAAATTACACGAAGTTATGACAATTTGTGATAATATTACTGTTATGAGATTAGGTAAGGTTACAGGTCATGTAAAAGTTTCAGAAACAAATGAAAAAGAATTGGCAAATATGATGGTTGGTAGAGAAGTTATTTTGAGAGTTGACAAGGAAGAAAAAGTACCAGGTGAAAAAGTTGTTGAAATTAAAAATTTATGGGTAAAAGATAATAGACAACTTGATGCAGTAAGAGGAATGAACTTTGAAATAAGGAAAGGTGAAGTTCTTGGTATTGCAGGTGTTGCTGGTAATGGACAAACAGAACTTGTTGAAGCCCTCACAGGATTAAGAAAAAAAGAAAGTGGTGAATATTTATACAAAGGAAAAGATATTTCTCACTATACAGTTAAGGAATTAAGAGAAAGTAATATAACTCATATTCCAGAAGATAGATTTAAATATGCAATGGTAAAAGAATATCCAAACTACTATAATATGATTCTTGGACGTCACTATAAGATGCCGTTTGCAAGAAGAGGATTTTTAAATAATGATATTATACAGGAATATTCACAAGATTTAATTAAAAAATTTGATGTTAGACCTGCAGATGCTTCAATAAAAACAGGTAACTTGTCAGGAGGGAATCAACAAAAGGTCGTTATTGCAAGAGAAGTTAGTGCAAATCCTGATTTTATAGTAATCGCTCAACCTACAAGAGGATTAGATGTAGGTGCAATTGAATACGTTCATAAAGAAATATTGGAATTAAGAAGAAAAAATGTTGCTGTACTTTTAATTTCTATGGAACTTGAAGAAGTTTTATCATTGTCTGATAGAGTTTTGGTTATGTATGAAGGTGGAGTTACTGGAGAATTTAAACCAGGAGAATTAACCATTGAAGAAGTTGGACTTTTGATGGCAGGTAAAAAATTAAGTGAATTAAGAACAATCGCAGAAACAGAGGCACATGCACCTCATCATGGAGGGGATAAATAATGGCTCAAAAAATAAAAGAAAGTAAATGGATGCCTATATTGGTACCAATAGTATCGGTACTTGTTGCATTATTAATTGCATCTGTAATAATATTAATTATAGGAAAAAATCCATTACTTGCATATTTAAAACTTTTTGAAGGTGCATTTGTTGGAAGAGCTGCTTGGGCAGATAATATTACAAAAATGACAAGTTTACTTTTAACTGGTCTTGCAGTTGGATTTGGATTTAGAGCTGGAGTTTTTAATATTGGTGCTGAAGGTCAAATGGCTGTTGGTGGAATGATGGCTGTTATGGTTGGTATAAATATGGGTAATGTTTCTCCAGTTTTTGCTATACCTATAACTATTTTTGCAGGTATGTTAGGTGGTGCTTTTTGGGCATCAATTGCAGGATATTTAAAAGCAAAAACAGGAGCTCATGAAGTTATAACAACTATAATGCTTAACTGGATAGCTTATCATATTGGAAATTACTTAGTTTCTGGACCTCTTGCTGTTGGACAAGGTGTTCCAAAATCACCTGAAATAGCTAAAAGTGCTCAATTACCTCCATTAATGACAATACAAGCAAGTAATGTTCCATCTGGAATTTTAATAGCCGTTGTTGCAGCAATAGTTATGTATATAATTCTTGAAAAAACAACTACAGGTTATGAAATAAAAGCAGTTGGATACAATGCATATTCAGCAGAATATGGTGGAATATCTATAAGTAAAAATATAGTTTTAACTATGGCAATATCTGGTGCACTTGCTGGACTTGCTGGTGCAATAGAAGTTATGGGGGTTCATCATAGAATTTTTGGTGCATTTACAAGTGGAAGAGGTTTTGATGGAATTACAATTGCTTTAATAGGACAAAATAATCCAATTGGTATTATTTTTTCATCATTCTTAATTTCTTCATTGAGATCTGGATCAAATTCTATGCAACTTGCTGGTATTCCAGATGATATAGTTGTAATAATACAAGGTGTAATTATATTCTTTGTTGCAGCTGATAGAATAGTAAAAACTTGGATAACAAAAGCATCAACTAAATTAGCAAAGGAAGGTGAAGCTAAATGAGTTGGATAGAAGCCATTTTTGCTACGTTAGCATCACCTTTGTTTTATAGATTGACAATATTATCAGCACTTCCACTTGTTTTTGCTGCAATTGGTGGTGTTTTTAGTGAAAAAACAGGTGTAACTAATATAGCACTTGAAGGTATAATGAAAATTGGAGCATTTACTTCAATAGTATTTGCTATAAAATTTGATAATCCATGGTTAGGATTAATTATGGGGATGCTTGCTGGTGTAATTCTTGCGGCTTTACATGCTTATGTTTCAATTGAATGGTCAGCAGATCAAATTGTTTCAGCAACGGCTTTAATTTTAATTGCACAAGGTCTTGTTGGATTTTTAATGATTCCTATATTTGGACATAAAGGTCAAACAAATTTAGTTGCTCATAAACTTCCAACTGTAGAATTACCTATTATAAAAGATATACCATTTATTGGAGCTATATTTAATGATCTATCTATATTCTTTTATTTTGCGATTATAATAATATTTGCTTCATGGTATTTAATTTATAAAACACCATTAGGATTGAGAATGAGAGCTGTTGGAGAAAATCCAAAGGCAGCAGATACATTAGGAGTAAACGTTAAAAAAATAAGATACTTTGGTGTTTTAATGAGTGGGCTTTTAGCAGGTCTTGGAGGAGTTTATATAGCTCTTGGAGATATAGGTCAATTTATAGAAGATATGCCTTCAGGAAAAGGTTTTATAGCTCTTGCTGCTATGATTTTAGGTAACTGGAATCCAATTGGTGCAATGTGGGCTTCACTTTTATTTGGAGCTGCAGAAGCTATGAATATACAACTTCAATCAATGCTAACATTACCTTCAGAAATGAAAGCATTATTGAATTTATTGCCATTTGTAATAACTATAATAATAGTTGGTGGATTTGTTGGTAAAACAAGAGCTCCAGCAGCAGATGGTCAACCATACGAAAAAGAATAATAAAAAATTAATATTAAAGAATATAAGGCATTGCCTTATATTCTTTTTTTATGATATAATTTAATTAGGTAAGCTAATTAAAAAAGGGGCTTGTTTATGGAATATAGAAAATTAGGGAAATCTGGATTAAAAATTAGTGAACTTTCTTTAGGTTCTTGGATTACTTTTGGAAATCAATTAGACACAGAAAATGTAAAGAAATGTATGAAAGAAGCCTTTAATAGTGGAGTTAATTTTTTTGATAATGCAGAGGCCTATGCAAATGGATTATCTGAATCGTTAATGGGGATAGCACTAAAAGAATATAGAAGAACAGATTTAATAGTGTCAACAAAAATATTTTGGGGTGGGAATGGACCAAATGATAGAGGACTTTCAAGAAAACATTTACTTGAAGGAACTTGGAACTCTTTAAAAAGGTTGCAACTTGATTATGTTGATTTAATTTTTTGTCATAGACCTGACCCAGATACACCAATAGAAGAAACGGTATTGGCAATGGATTATATTGTTAGAAATGGTCTTGCTATGTACTGGGGAACTTCAGAATGGAGTTATGAAGAATTAGATAAAGCTTTTAAAGTAGCAAAGGAATTAAATTGTATTCCACCAACAATGGAACAACCTCAATACAATATGTTTGTTAGAGAAAAAGTAGAGCATGAATTTAATTTATTATATGAAAAATATGGATTGGGACTTACTACTTGGAGTCCACTTGCAAGTGGAATACTTACTGGTAAATACAATGAATCAATTCCAGAAGATAGTAGATTACATAAATTTTCGGGTTTGAAGAATAATTTAAAAAATAATGGATTACTTTCAGAAAAAAATATAGAAAAAGTAAAAAAGTTAACTAAAATTGCAAAAGATTTGGATATGAAAGTATCACAATTATCCCTTGCTTGGTTATTAAAAAATAAAAATGTTAGCACAGTTATAACTGGAGCAAGTAGAGTTGAACAAGTAAGAGAAAATCTAAAAGCATCTGAATTAAAAAATAAATTGAATGATTCTATAATGGAAGAAATAAATGCAATTATTTATTAAAAAACTCTCTTTTGAGAGTTTTTTTATTGGTTTTTTAAGAAAAATATGTTAAAATCTATTTGGAGTAAAATTGGGAGGTTTTTAATGAAAAATTCTTCAGTAAAAGATGAAACAATATTTGACCTTAAATACTTTAAAAAATATGGTTCAATAATTGGATTAGATGAAGCAGGAAGAGGTCCTTTGGCTGGTCCTGTTTTTGCAGCAGCAGTTTATGTAGAAAATGAAAATGAATTAAAAGCTTTAAAAAGAATTGGCGCTGATTCAAAAACTTTGAGTGAAAAAGAAAGAGAAAAAAGATATAATGAAATAATTAAAAATTTTAAATATTCATACTATGCAGCATCTTCAGAATTAATTGATGAAATGAATATCTTTAAAGCAACACAGTATGCAATGAAAAAATGTGTTGAACAACTTAACTCTGGTTATTGTTTAATAGATGGAAAAAATTTTCACTTTTCGTTTCCATTTGAATGTATAGTGAAAGGTGACTCAAAGTTGAGTCTTATAGGGGCTGCTTCAATAATTGCAAAAGTTTTGAGAGATAAGTATATGATAAAGCTTTCAGAAAAGTATCCAGAATATTTATTTTATAAACATAAAGGATATCCTACAAAAGAACATGTGGAAAAAATAAAAAAGTATGGTATTTTTAATGAATATAGATTAACCTTTAATCCTGTAAAAAGTATGATAATTAATAATGAAATACAATATAATAAAAATGATTTTTCAAAAAATACATTAATGAAACTGGGTGTTCTATGAGGTGATTGAATGAACAAAGAAAAAGCTGCTAAAAAGTTTGTAGAGTTACTTGAAATAATGGAAATATTGAGGAGCGAAGAAGGATGTCCTTGGGATAGAAAGCAAACACATGATACTTTAAAGCCGTATATAATTGAAGAAGCTTACGAAGTCGTAGAAAGTGTTAACTCAAAAGATTATAAAGAACTTGCAGAAGAATTAGGTGATGTTTTGCTACAAATAGTATTTCATGCTCAAGTAGCTTCAGAAAATAATAATTTTGAAATAACCGATATTTTAGATGCAATTAACGACAAGATGATAAGAAGACATCCTCATGTATTTGGAGATGCAAAAGAATATTCGTATGAACAATGGGAAAATTTGAAATCAAAAGAAAAAAATAAGGAAAAATTTTCAAAAATAGGAAACTATAAAAAAGGAATACCACCACTTTTACAACTCAGAAGATTATTTGAAAATTCTTTAGCTGTTGGATTTGATCCTTTCTTTGAAGAAGATATTTTTGAAAAAATAATTGAAGATGCTGAAAGAGATAATATAAAAGGTGTTTTTGAAAAAATAGTTTATTTATCAGTAAAAAATAATGAAGATATAGATTCTATTTTAAGCAATATATCAAAAAAATATTATAATAAATTTCAAATTTTTGAAAATATTCTTGGAAATAAATTTAACGATATTGATAAGAAAGAGAAAAAGAAAATATGGGATAATTTAAAAGAGGGGGAAGTTTAATGAAAAAAGTATTTTTAAGCTTAATGGTTATTATTACAATTGTATCGTTTTCTACTGTAAAATACATGGATTTCAAAGATAATACGGTTGTAAAAGTAAACAATGATAAAGTAAATTCAGAACTTTTAAATGCAACATCAAAGTCTATTTTAATCTTACAGGATTTAAAAAGTAAGTATGGTGAATTTTATAATACTTTAACTGGAACAGCAACTGGTATAAAATTTTTAAATACTTACAATAAAGAACAAGCAATGAAACTTGTAAATCAGTACTTGTTTATACAATTTGTTGAAAGTAAGGGAATAAACTTAAATAGAGATGACTTAAAAAAAATATATGTTCAAAAAGTAAATGATATATTTTCAAAATCAAACATATCACCAAAAGACATAAATTTATACCTTTTGAGTAAAGGATATTCATCAAAAGAAGTTTATGTTGAAGATAATTATTTAAAAGCTTTGTACAAAAAGGCAATTAATGAACTTTATTTAAAAAAATATGATGAAATACCCTTGAAAGAAGATGAAATTAAGAGTTATTATAATAAAAATTCAAAAGCATATGTTTCAAAGCCAAAAGCAGATTTAAAAGTGATAAAAATAAATAATACTGATGAAGCATCATTAACTTATAAAAAAATTATAGATGGATATTATACATTTGATGAAGTGTATAATATGTTTAAAGATAAAAATGAAGCTGAAAAAATAACAGTTAATCTAAATGACAATGATAAAGTTTTAGCTCAAGTAATTAAAAATGCATCTGGATATATTTTTGAACCAATGAAATATGGTGATCATTATGAAATTATAAAAATAGAAAAAAAATACCCATCTAAGAATTTATCATATGAAGAAGCAAAGAATTATGTTGAAAGAGATTTAAAAGATCCAATTGTAAAAAAATATTTTAGTGAAGAGTTGCAAAAAGAGTTTGATAAGTTTAAAAAAAATTCAGAAATAATCTTTAACGAGAAAATGTTTTAGGAGGTAATTTTATGATAACAAAAGAACAAGTTATGTCAGCATTGGAACATGTTTATGACATTGAAATAGGATATGATGTTGTGTCACTCGGGTTAATTTATAAAGTGAATATTGCAGAAAATAATGATATTTACGTTGAAATGACTCTAACAACACCAATGTGTCCTATGGCTGGGTTTATGGTTCAAGAAGCAAAAGATAAACTAAAAGAGGAAATAAAAGAGGCAAATAATGTATTTGTTGAATTGACATTTGATCCACCATGGAGTCCAGATATGGCAAAAGATGAAGTAAGGCAAGTACTTGGAATATGAAGCTAAAAGATTTAATTAATAAAACGGGAGACTATGATGTTTCCCGTTTTCAATTATTAAAAATAATTTCTAAAATAGAAAATAAAGATATGAGTTATTATTTGTTGAATGATGATATTAAAGAAGGAACAATAAAAAAACTTCTTAGAGTTTTAAATGGATATCCGCTTGAGTATTTAATAAATGAAGTAAAATTCTTAAATAATAAGTTTTACGTAGATGAAAGAGTTCTAATTCCAAGAATTGAAACAGAAGATTTAGTTCTTTATGCAAAAAAAACAATAGAAGAAGAAAATATAAAAAGTATAGTAGATATAGGTACTGGTTCAGGAGTTATAGCAATTTCATTAAAAAAATATTTTCCAAATATGAATGTTTATGCAATAGATATTTCTGAAAAGGCATTAGATGTTGCAAAATTAAATGCTAAAAAGTTAAATGTTGATATAAATTTTTATTGCGGAGAGTATATAGAACCAATAAAAGATAAAATAAGTGAAATTGAAATGATAGTGTCAAATCCACCTTATGTAGAAGAGTCTTTTAAAAATAATAGATTGAAGTATGAACCGTCTATTGCATTATATGCTGGTATTGATGGACAAAATTTTTTTAAAAATTTATTAAAATATGAGCAGTTAAAAGGGAAAATTATGTTATTTGAAACAACTGAATTTAATTATAAAAAAACGGAAGAAATTTTAAAATTTTTTGGAAATACAAAAATTTTAAAAGATTCATTTGATAAAAAAAGATTTATTGAAATAAATAATAATAATTTTATTTAATTCGTTTTAATAGAGTTTTTTTAACTTTTTATATTGAGAAGTTTAATGTTATAATCAAAAAAATAATATTGGAGTGGTTGTGATGAAGTATAATATAAATAAAAAATTAAATAATGTTATTTCATGGTGGAACTCAAAGACATCTGATCGGTGGCTTTGAGTTTTTCTATATATTTTTAAAGAAAAACTTTTAAAACAAAATCAGGTGTCTGCTTATGCAGACACCATTTTTTTTGGGGGAATAAAAATGTTTAATTTAAAGTTAGTTTCAAAAAAATTTAAAGAAAAAAATATTATTAATTTGAAAAATCTAAAAATAGGAAAAGATTTAATTATTATAGCTGGTCCTTGTAGTGTGGAAAGTGAAAAACAAATTTTACAAACAGCATTAGAAGTAAAAAAAGCTGGAGCAAATATATTGAGAGGCGGTGCATTTAAGCCACGAACTTCACCATATTCATTTCAAGGACTTGGAATAAAAGGTTTAAAATTATTAAAAAAAGCTGGTAAAATGTTTGATATGCCTATTATTACTGAATTAATAGATATAAGGGATATTAATTTAATTGGAGAATATTCTGATATAATTCAAATAGGAGCAAGAAATATGCAAAACTTTCCTCTTTTAAAGGAAGTTGGGAAAACAAATAAACCAATAATGTTAAAAAGAGGAATGAACTCAACTTTAGAAGAATTTTTATGTGCAGCAGAGTATATAATGAAAGAAGGAAATAATAAGGTTTTTCTTTGTGAACGAGGTATTAGAACTTTTGAAACTTATACAAGAAATACCCTTGATTTAAGTATAATACCATCTATAAAAAAAGAATCTAATTTACCAATTTTTGTTGATCCATCTCATGGAACAGGATTATTATCACATATTGAACCAATGAGTTTAGCTGCTATTGCAGCTGGTGCAGATGGATTGATGATAGAAGTTCATATTAATCCAGAGAAAGCATTATCAGACGGATTCCAAGCTTATCCAGCTAATGAGTTTAAAACTTTAGTTGATAAGATAAAAAGATTGTATTTAACTTTAAATAAAAAATAAAAGGAGAAAATATGAAAACAATAAATATTATTAAAAATTCTAAGATTTATGTAGGAGAAAGTTTAGAAAACGTTCATAATTATATAAAAAATAAAAATATTGTAGTTATTACAGATGAAAATATAAAAAAATATTATGAATTACCTTTTGAAAAAATTATAACTTTAAAACCAGGAGAAAAAACTAAAAAATTAAAAACTATTGAAGAAATAGCAAAAAAATTAATAGAGTATGAAGTGGACAGAAGTAGTTTTCTTTTGGGTATTGGTGGTGGAGTTGTTTCTGATATTACAGGTTTTGTTGGAAGTATTTATATGAGAGGATTAAAATATGGTTTTGTATCAACAACATTACTCTCTCAAGTTGATGCTTCAATAGGTGGAAAAAATGGAGTTAACTTTTATAAATATAAGAATATTTTAGGAACTATAAATCAACCTGAATTTGTACTTTCTGATTTAAAAATGTTAAAAACTTTGAGTGATAAAGAGTATAGAAATGGTCTTTCAGAAGTAATAAAGTATGGATTAATTTTAGACAAAGAATTATTAAATTTTATAGAAAAAAATATAGAAAAACTTTTAATGAGAGACGAAAAAACACTAGAATATATAGTTCATACTTGTAGTTTTTTAAAAAGTAAGATAGTGAATGAAGATGAAAAAGAAAATGGAATTAGAAAAATTTTGAATTTTGGTCATACTTTTGGGCATGCAATTGAAAGAATAAAAAATATTAAGCATGGAGAAGCCATTAGTGTAGGAATGATGAGAGCTTTACAGTTATCAAAAAAATTAAATTTTATTTCAGATAATGATATTAAAAGAATTGAAAAGCTCTTAAAAATATTTAAATTACCAACAGAAATTAATATTTCAACAAAAGAGTTAATGATTTTAATAAAAAAAGATAAAAAAAGAAGTAATGATTATATTGATTTTATTTTATTAAAAAAAATTGGTGAATATAAAATACAAAAACTAAAGTTTAAAGAATTGGAGGAGTTATGATAAAAATTTTAAGATCAAAAATTAATGGAAGTATAACAGTTCCATCATCTAAAAGTATAATGCAAAGGGCTATAGCTATTTCTTTATTATCAAATAGAAAAATAATATTAAAAAATATTTCTTTTTGTGAAGATTCAAATAATTCTATTAATGTAATTAAAAAGTTTGGAAAGAAAATAATTATTGATGAAAATAATATAGTAATTGATGGAAAAATAGAAGGTATTCCAAATGAAATAAATTGTGGAGAATCTGGATTATGTGTTAGAATGTTTACTCCAATTATTTCGCTATTTTCAAAAAAGATAAAAGTTAATGGAAAAGGGAGTATTTTAAAAAGACCTGTTGGATTTTTTGAGTCAACTTTAAAAGAACTTGGTGTTGGTTTTAAATGCAACAATAATTTTTTACCCTTAGAAGTTAAAGGACCTATAAAATTTAATAAATGTTTAGTCGATGGAAGCATAAGCTCACAATTTTTAACTGGTTTATTAATAGCACTTCCAAATAAAAAAAATGATACTATTGTTGAGGTAAAAAACTTAAAGAGTAAAGGTTATATAGATATGACTTTAAAAATAATGAAAGATTTTGGTGTAAATATATTAAATGAAAACTATAAAAAATTTTTTATAAATGGAAATCAAAAGTATAAAAGAGATTTTTATACTATAGAAGGAGATTGGAGTTCTGCGGCATATTTTTTAGTGGCAGGAGCTATTTCTGAAAGTATAGAAGTTCATGGTTTAAATATAAATTCGAAACAACCAGATAAAAATATAATAAATATTTTAAAAGAAGTTGGAGCAAATGTTGAAGTGGGAAATGAAGTTGTAAAGGTAAAAAAGAATGAGCTAAGAGCATTTACTTATGATTCAAGTGATTCTCCAGATTTATTTCCTGTACTCGTTGTTTTGGCAGCTTTTTGTGAAGGGAAATCTATAATATATGGAGTTAATAGACTTTTATATAAAGAAAGTAACAGAGCAAAGGTTATTTTTGAAGAATTTTCAAAAATAGGTATAAAGATAAATATAGATGGAAATAAAATGGAAGTTTTTAAAAGTGAAATAAAAAATGGATTTATTAACACTCATAATGATCATAGAATAGCAATGGCTGCAGCTATTGCTGGTATAAATTCAAATACTAATATTATTTTAGACAATAAAGAATGTGTTAATAAATCATATAAAATGTTTTGGGATGATTATAAAAAGGTTGGTGGAAAAATTGAATAGTTTTGGTACAATTTTTAAAGTATCAATTTTTGGAGAGTCTCATGGTGTAGGAGTTGGAGTAATTATTGATGGATGTCCACCAGGAATAAGTTTATCAAAAGAAGATTTTATAGAGGATTTGCGTAAACGAAAAAGTGGTACTTTGGGAACTACAAAAAGAATTGAAGATGATGAACCAGAGTTTTTAAGTGGTATTTTTAAAGGAAAAACAACAGGAGCTCCAATAACTATATTTTTTAAAAACAAAAATATAAAATCAAAAGATTATGATGAATTTAAGAATATACCAAGACCAGGACATGCAGATTTTGTAGCAATGAAAAAGTATAATAACTTTAATGATTATAGAGGAAGTGGACATTTTTCAGGTAGATTAACATTGGGGTTAGTTGCTGCAGGAGTAATTGCAAAAAAAATTATAAAACCAATATGTATAAATGCTATTTTAATAGAAGTGAATGGTAATAAAAATATAGATGAAGAAATACGAAGAGCTATTAAATTAAATGATTCAGTAGGTGGAATAGTAGAAGTAATAGGAAAAAATATGATGAATGGACTTGGAGAACCTTTTTTTGAATCTGTAGAATCTAAAATTAGTTCTATTATTTTTTCAATTCCAGGAATAAAAGGAATTGAATTTGGATGTGGTTTTAATTGTACAAAGATGTATGGAAGTCAAGTTAATGATGCTATTTTAAATGAAAATGGTAAAACAAAAACAAATAATTCTGGTGGAATAAATGGTGGAATAACTAATGGTAATGATTTAATTTTTAGAGTTGCAGTTAAACCAACATCAAGTATATCAAAGATACAAGAAACATTTAATTTAAAAACAAAACAAATGGATAATTTACAAATAAAAGGAAGACACGATACATGTTTTGCATTAAGAGTTCCAGTGGTACTTGAAGCTGTAACGGCAATAGCAATAACAGATTTTGTTTTAATAAAAAAGGGGGAAGAATAACATGAAAACTTTAAAAAATAATTGGTGGTGGAAGATACGGGTACGGAGGTAATAAAATGCCGACGTTACCCGTCGGCGGTTTTATATAAGACCGTCTTAATTTTTATATTAAGATGGTCTTTTTTTATAAAAATGGAGGTGAAAAAATGGTTAGTATAGAAAAAATAAATTTTGAAACTATAAACACAGATCTTATTTTGCAAAATTTAAAATTTATAGGAGTTTTTGAAAAGGATAATTATTCAATATTTGTATTAGAAAAAGCTTTTGAATTAATAAAAAAGAAAGAAAAATATTTTTTAAAAAAAGAAGGTAAGAGAAAATTTATAAAAACTAACAAAAATTATTTAGAAGTCTTGAATGAATTTAGAAAATTTATTCCTGAAAATGAATTTAAGAACTATAAAAATATTCCATTTGGTGGAATTGGATATCTTGGTTATGAATACTTTAATGAAGTAGAAGATATAAAGTTTAATAAAAAATATCATGATAATTTATATGATTGTAATTTTATATTTGGAAGAACATTTTTAATCTTGGATTATTTAAAAAAAGAAATATTAATACTTTCAATGAAATATTTGAACGAAACTAAAAGTATAGATACAAAAAGCAATGTGAAAAAAGTAAAAAAAGAGGTAGAAAATATTTTAAATAAAAAAAATTATAGCAAAAAAGGAAATTTAACTCCTTATTTTTATAAAATAATTCAAAATGAATCTAAAAATGAATTTTTATCAAAGATTAATTATATAAAAAAGGAAATAGAAAATGGAAATTTAATACAATGTGTTTTATCAAGAAATATAAAAATAAAAACAAATATTCCATTTTTAAATTTATATAAAAGATTAAGAAAAAATAATCCTTCTCCATATATGTTTTATTTTAATTTTGATGATATTACTTTATTTGGTACTTCTCCAGAATCAATGGTAAGTGTAAAAGATGAAATTATATTAGTTAATCCAATTGCAGGAACTAGAAAAAGAGGTTGTACAAAATTTGAAGATAACTTATTAATTGAAGATTTGTTGAATGATAAAAAAGAACAAGCAGAACACCTTATGTTAGTTGACTTAGCAAGAAATGATTTAGGAAAGGTTTCTCAAAAAAATACAGTTAATGTTAAAGAGTATATGAATATAGAAAAATTTGAAAGTGTTATACATATTGTGAGTAAAGTAAATGGATTATTAGAAAAAAATAAGACTTCTTATGATGTAATAAAAGCTACTTTCCCAGCGGGAACAGTTACTGGTGCACCTAAATTACAATCAATTAAAACAATAGAATTATTAGAAAAAGATAGACGAGGACCTTATGCAGGTTTAATAGGTTTTTTTGATTTTTATGGTAATTTTGATAGTTGTATAACAATTAGAAGTGCTGTATGTAAAGAAGATACAATAAGACTTCAAGCTGGAGCAGGAATTGTTTATGATTCAATACCAGAAAAAGAATATTTAGAAACAGAAAATAAAATTAAATCGTTATTAAAGGTTATAAAAGAAGAGGTGAAAAAACAAGATGATACTTTTATTGGATAATTATGATTCTTTTACGTATAATTTGTATCAACTCTTAATTAATTTTGATAATGATGTAAGAACATTTAGATCAGATAAAATTTCAATTAAAGAAATAAAAAAGCTTAATCCAGATTATATTGTATTATCTCCTGGACCAGGTATTCCTAAAGATGCAGGAATTTTTATAGATACAGTAAAAACATTTATAAAAAATACTCCTATACTTGGTGTATGTTTAGGTCATCAAGCTATATTATCAGCTTTTAATGTTCCAATAGTTAAGGCAAAAAATATTTTTCATGGAAAAATAGATACAATAAGGCATAATGGAAAAAGCGTATTTAATGGAATTAAAAATAATATAAAAGTAACAAGATATCATTCATTAGTTGCAAAAGAAAGTGATATACCAAATGAATTTGAAGTTTTAGCAAAAAGCAGAGATGGAGAAGTTATGGCTATAAAACATAAAAAGTATAAATGTGTTGGAGTTCAATTTCATCCAGAATCAGTAGGAACAGAAGGGGGAATAAATATGTTAAAAAATTTTTTTGAAGAAGATATAAATACAAATGCTTTAATAGAAAAAGCAATGAAAAAAGTTCTTTCATTTCAAGAAAGTTATAAATTAATGAAAAATATTTCGATTTTTAATACAGCACAAATTGCATCCATTTTAACTATATTTAATATGCGTAAAGTTTCTTATAAAGAACTAGCGGGGTTTGCAAAAGTTTTAAAAGATAATGCAGAATATTTTCCAAAACCAAATTTAAATGAAAAAAGATTAGATGTTTGTGGTACTGGTGGATCAAAAATGAAAACTTTTAATGTATCGACAATTTCTTCTATAGTACTTTCAGCTTTAGGCGTCAATATAGTAAAACATGGGAATAGAGCAGTTACTTCTCAATCTGGAAGTATGGACTTACTTGAAAAGTTAGGATTTAATTTAGATATTGATAATGAAGAAGCTTATGATTTTTATAAAAAAAATAACTTTACATATTTATATGCTCCAAAGTATCATAAAATAATGAAATATGTTAGTGAAACAAGAAAATCTTTAAAATTTAAAACTATTTTTAATTTAATAGGACCTCTTTCAAATCCAGCACATGCAACATATCAATTGATAGGAGTTTATGATAAAAAATATTTAAAACAAATGTGTAAAGCTTTAAAATATTTGGGCATAAAAAGAGCAATGGTAGTATCTTCAAAAAATGGATTAGATGAAATTTCAATATTTGAACCAACCTATATTTGTGAATTAAAAGATGGAAAATTTTATGAATATATTTTTGATTTTTCAAATATAGACAATTATGTAAAGTACGAAGATATAAAGTATGAAGATAATCAGAATAATGAAAAGATAGCTTTGGAAATATTGAATGGAAATGATATAAAAAGAGCAAAAATTGTTTGTATAAATGCTGGTGCAGCACTGTATTTATATGGAAAGGCAAATAGTATAAAAGAAGGATATTATATGGCCCTTGAATCTATAAAAAATAAAAAGGCATTAAAAAAACTTGAAAAATTAGTAAAAGTAAGTGATATAAATGTATGATATTTTAAAAGAAATTATAGATAAAAGACAAATAGAAAATGTATATCCACAAAAAAGAACTGTACCAGTATTAAAGCCAAAAAATAACTTAGTAATAATGGAAATAAAAAAAAGTTCTCCATCAAAAGGAAAAATAAAAAACTTTAATATTTTAGAACAAACAAATCTATATATAGAAAATGGAGTCAATTGTATATCAGTATTAACCGAAAAAAATTTTTTTGGAGGTTCTTTAAATGATTTAATAAAAATAAAAAATAAATATCCAAATATTTTAGTTTTAAGGAAAGATTTTTTAACTTCAAAAAAAGATATAGAAATTTCATATAATGTTGGAGCAGACATCATTTTATTAATAACTTCATTATTTATTAAAGAAAAAAATGGATTAAAAAAAATGAAAGAATTAAAAGATTATGCTGAAAAATTGGGTATGACATGTTTAATTGAAATTCATTCTAAAAAAGAATTAAACTTTGCTTTAAAACTCGAACCAAAATTACTTGGAATTAATTCAAGAGATTTAAATACTTTTAAAATAAAAAAAGAATTGCCATTTGAATTAAAAAAATATATAAAAAAAATAAAAGTAATATATGAATCTGGTATTAATAATTATTTAGATTCGTTTTCAATAGGTGTATTTGGATTTAATGGTATACTTTGTGGAACATCAGTTATAGAAAACAAGAAAAGAATACCAGAAATAATAAAAGGATTTAATGATGGGAAAAACAATCAAAATAAATTTTATAAATATATGTTTAATAAAATTTATTTAAAGAAAGAGCTAGTGGTTAAAGTATGTGGATTAACTAATTTAAAAGATACTGAATTTGTTATAAAAAAAGGTGCAAATATCGTTGGATTTATTATGGCTAAAAGTTTAAGACAAGTCAATTATGAATTTTTAAAAAATACTGCATTAAAAATAAAAAATAATATGAGAGCTTTAGTGATTACAAAAGAATATTTGGATCAAGCAATAAAAGCATACAATGAAAATTTGATAGATGTTGTGCAAGTTCATGGAGAATTCAATGAAAATAAATTAAAAAAAATAAAAATACCTTACTATAAAGCAGTTAATTTAAAAGATAAATTACAAATAAAAAAAAGCATATTTACTTTATACGATGCATTTTCTGAAAACACTTATGGAGGTACAGGAAAAACATTATCAAACGAATTAATAAAAGCAATAAAAGAAAAAGAAAGCTTTTTGGCTATTGCTGGTGGAATCAATGAAAAAAATATACAAAAAATTTTAAAATATACCCCTAATATGATAGATTTATCTTCAGGTTTAGAAAAAGTTCCAGGAAAAAAAGATAAAGAAAAAGTAGAAAAATTTTTTTATGAGGTGAAAAAATGGAAAAAATAGAATATTATGGAGTTTATGGTGGAACTTATATACCAGAAGTATTAAAGTCATCAATAGATGAATTAAAAGAAAATTTTTATAGATATGCAGAAGACAAAAAATTCAATGAAGAGTACAAAAATTTATTAAAAACTTTTGTAGGAAGGCCAACACCGTTGTATTATGCAGAAAATTTAACAAAAAAAATAGGTGGAGCAAAAATATTTTTTAAATTAGAAGGATTGGCAAATACTGGGGCACATAAGATTAATAATTCATTAGGCCAAGCCTTGCTTGCTAAAAAAATAGGTAAAAAAAGAATAATAGCTGAAACAGGAGCTGGACAACATGGAGTTGCTACTGCTGCAGTTTGTGCAAAGTTAAATCTTGAATGTGAAATATTCATGGGTGAAGTTGATATAAAAAGACAAAGGCCAAATGTTTTTATAATGGAACAATTTGGAGCAAAGATTCATTCAGTTACTAATGGTACGAAAACTTTAAAGGACGCTGTAAATGAAGCATTAAGATATTGGACAAAAAGAAGTTTTGATACGCATTATTTAATAGGTTCTGCATTAGGACCTGCGCCTTATCCTCAAATGGTTAAATTTTTTCAATCAATTATTGGTAAAGAAGTAAAAGAACAATTAAGAAGTGAAAATATAAATAAACCAGATTATATGATTGCTTGTGTTGGAGGAGGTTCAAATGCTATAGGTTTTTTTTCAGAGTATATAAATGATGAAAGTGTTAAATTAATAGGTGTTGAAGCAGGTGGAAAAGGAATTGAAAGTAATGAACATGCATCTAAAATTTCTGGTAATGGAACAGTTGGTATAGTACAAGGATATAAATCAAAATTTTTGCAAAATAATGATGGTCAGATCTTATCAACACATTCGATAAGTGCTGGATTGGATTATGCGGGCATAGGTCCTGAATTAGTATATTTAAATGAAATAAAAAGAATAAACTTTGTAAACGAAAAAGATGATGAAGTTATAAAAACTTTTAATTTTGTAACAAAAAATGAAGGAATAGTACCAGCTTTAGAGTCAACTCATGCAATATCTTATGCATTAAAATTAGCTTCAAATTTAAATAAAAACAAAAATATAATAGTAAATATTTCAGGAATTGGAAATAAAGATATTTTTATAACTGCTAAACTTTTAGATAAAACAAATTGGATTAACTTTTTAAAAAGAGAGGTTGAAGAAAATGGATAAAAAATTTTTGATGACACATCTTGTATGTGGATATCCAAATTTAAAAAAGACAAAAGACATTATAGAAGCAATGAATGATGGTGGAGCAAAGTATATAGAAGTTCAAATTCCATTTTCTGATCCAATAGCTGATGGTCCTTTAATAGAAGATGCTTCTAAAGATGCAATAAATAATCAAATTACAGTAAAAAAGTGTTTAGATTTTATAAGTAGTTTAGATGAAAAATTAAGAAAAAAAATAATAATAGTAACTTATGCTAATATTATTTTTAAATATGGAATTGAAAATTTTGTATCTAAACTTTCCAAGTTAAAACTTTATGGAATATTAATTCCAGACTTATTACCTGAATATGATGAGGGTTTATCAAATTTTTGTAATAAATATAAAATACATAATATATTAATAATATCTAAAAATACAAACTTGAATAGAATAAAGTATTTAAATAAAAAAGGAAATGGTTTTTTTTATGTTACAGCAAGAAATGGAATAACTGGAGAAAAGACAATATTTAATTTAGAAACATTAAATTGGTTAAAAAAAATTAAAGACATTATAATTAAGCCAATTGCATTGGGATTTGGAATAAATTCAAAAGATCAAATATTAAAAATAAAAGAATTTACAGACATAGTAGTTGTTGGAAGTCACTTTATAAAAATAATTAATGAAAATAAAAACTGCAAAAAAATATATGAAGTAATAAGAAAAGAAACAGAAAAATTAGTGAATTTTTTATAATAAAACTCCAGTTAAACTGGAGTTTTTAGTTATTTATTAAGAAATTAGGATCTTGATAAGCTGGATTTGGATACTTATAAAATCCTTCACCAGTTTTAATACCTTTTTTCCCTTTATCTATATAATTTTTCTTACAATATTCAGCCATTTTTAATGATTCAGTATCATTACCAATGGTACCATTTCTTAAAGCAATATTGTAAACTGTATCCATACCAACCATATCAATTATACCAAAAGGACCTATTTTTGCTCCTGTACTAATCATCCATGTTTTATCAACACTTTGAGGATCAGAAATACCTTTGAAAATAAGAGTTCTTGCAGCTTTTAATAATGGAACTAAAAGGGAATTTAAAACATAACCAGGTTGTTCTTTATAAATTGGTATAGGAATCATACCAATATCTTTAGCAAAATTTAAAACTATGTCAAAATATTTTTTATCTGTTTTATCATGCATCATTACTTCTCCAATGTTTGCATCCCAAACCGGATTTGCAAAGTGTAGAGCTAAAAATTTTTCTGGTCTTTTTGTTTCATTAGCAAACATACTGGGCAACATTGTTGAAGAATTTGTTGTGAAAATGGTTTTTTCTGGAGCAACTTTAGATAAATTAGAATAAAATGTTTTTTTTATTTCAGATACTTCTGGAATAGATTCACTTACTAAATCAGCATTTTTAACGGCTTCTTCTAAATTTGTTGTGTAAGACAAACGAGAAAGAGTTGAGTCAATTTGCTCTTTAGTTGCTCCTTTTTTTTCTTCAAATAATTTAGCAAATTTTTTATGAAATTCTTTTCCGCCTTCAAGTCCTTTTTCAAAGGCATCATAAACAACTACATTAAAACCATTAAATGCTACTTGCCAAGCTATTTGTGCCCCCAACACACCAGCACCAGCTACCATTACATTGTTTATTTCCATGATTTTTCCCCCTTACTATAGATAATTTTGAGCAAATTTCACAAATGCTCAATTTATATTATATCACTTTTTCACAAAAATGTCATCATAATTTACCACCAATTCAATGGACAATTTAAAAAATAAAGTATGTATAATAAAAAAATAAAATATTAAAACAAGATAAAAAATAATTTTTTCTGGTATAATTTTAATATATGAACGTTTTTTTATGAAAAAATTAAGAATTAAAAAAGCCTATATTTTAGTATGATGTAGTGATTATGAGTGATTATTTGTAAAAGAACACAAATATAAGTAAAAAAAATAAAAAATCTTTAAAATACCTTGATTTTAGTAATAAGTTTTTGGTATAATTACTATGAAAACAATTTCATAAATTATCCGGAGGGAGGAAGAATAATGAATTTTTTAAGTAAAGTTACAGCAATTCCAAAGCTTCCTGAAAGAATAAAAGGATTAAAAGTTCTTTCAAAAAATATGTGGTGGACATGGAACTATGATTCACAGAAGTTATTTGAAATAATTGATTTAGATTTATGGATTTCAACAAATAGAAATCCAGTAGTTTTTTTAAAGAATGTTAGCCAAAAAAAATTAGATTCTGTTTTGAATGATGAAGAGTTTTTGAATTTATATGATTATGTGATGAAAACATTTGAAAATTATATGAACACGGATGATACATGGTTTAATAAAACACACAAAAATTATAAAGGTGGAGAAATTGCTTATTTTTGTGCTGAATATGGAATACATGAATCTTTACCTATTTATTCAGGAGGTTTAGGAATATTAGCTGGAGATCATGTTAAATCTGCAAGTGATATAGGAATACCATATATTGGTGTTGGATTTTTATATAGACAAGGTTATTTTCAACAAAAAATAAATAATGAAGGTTGGCAAGAAAGCATATATGAAAGTTATGATTTTGCAGATCTTGCTGTTGATCCTGCAAAAGATAAAAATGGAGAAGAAGTTTATGTTGATATAGATATAGCAGGTAAAAAAGTATTCGTGAAAGTTTGGGAATTAAAGGTTGGAAGAGTAAAGGTATATTTATTAGATACAGATATACCTCAAAATGATCCAGATGAAAGATGGTTAACTTCAAGATTGTATGGTGGCGACCAAGAAATGAGAATAAGACAAGAAATGCTTCTTGGTATTGCAGGAGTTAGAGCATTAAGAAAATTAGATATAAATCCTTCTGTTTGGCATATGAATGAAGGTCATGCTGCATTTTTAAATCTTGAAAGAATGAGAGAATTAATACAAAGTAATAATTTAACTTTTAAAGAAGCAATAGAAGTTGTTAGAGCTGGATCAATCTTTACAACACATACACCGGTTCCTGCTGGAAACGATGCATTTCCTTTGTATTTAATGGATAAATATTTTGGTAATTATTGGCCAACATTAAAAGCAACAAGACCAGAGTTTATGCAATTAGGATTAGAAGCTAGACCAGATGGATCTGAAATGTTTTCAATGACAATATTGGCACTTTCTCTTGCGGGAAGAGCAAATGGTGTTTCAAAACTCCACGGTGAAGTATCAAGAAACTTATGGAAACATGTATGGAATGGTATAGAAGCAGTTGAAGTACCTATAACTCATGTAACTAATGGAGTTCATAGTGAAACTTGGATAGCAGATGACTTACAAAAACTGTTTAAAGAAGAGTTTGGTGAAAACTGGAATAATGAAATAGACGATCCAGATATGTGGGCTAAAATTGAAAAAATATCAGATAAAGAATTATGGGAAAAGCATCAAAAACTAAAATTAAAACTTATTAATCATTTACACGAAAGATTAAAAACACAAAGATCAAGACATGGTGAAACTGTTGAAGAATTAGAAAGTATAGAAGATATTTTAGATCCAAAAGCATTAACTATAGGTTTTGCAAGAAGATTTGCAACTTATAAAAGAGCAATATTAATATTTAGAGATTTACAAAGACTTGAAAAAATACTAAATAATCCAGAAAGACCAGTTCAAATAATTTTTGCTGGTAAAGCACATCCAGCTGATAAGCCTGGACAAGAGTTTATAAAAAGAATATATGAAATTTCAAGAATGGAGCAGTTTAAAAATAGAATAGTTATAGTAGAAAATTATGATATGAATCTTGCAAGACATCTTGTTTCAGGTGTTGATATTTGGCTTAACAATCCAAGAAGACCTCATGAAGCATCAGGAACATCAGGAGAAAAAGCAGGAATGAATGGTGCAATGAATTTTTCAGTTCTTGATGGCTGGTGGGTTGAAGGATATAATAAGAAAAACGGATGGGCAATAGGCGATAATAGAGATTATACAGATTTAGAATTACAAGATAATATTGATAGTGTTTCAATGTATAATACATTAGAAAAAGAGATAGTACCAATGTATTATGATAATAGAAAAGAAGATATTCCAGTAAATTGGATTAAAGTTATGAAAGAATCAATAAGATCAGTTGCATCTTTTTTTAATACTTCAAGAATGGTTAAAGAATATACACAAAAATTATATATGCCAGCACAAGTTCAAAACAATAAGTTCGTAAAAGATAATTTTGAAGTAGCAAAAGATTTTGCAAATTGGAGAGACATATTAGAAAGAAATTGGAATTCAATAAAAATAAAAGTAACTTCTAATCAAGATTTTTCAGAAACACTTGAAGTTGGAAAAATAATAGAAATAGAGTCAGAAATATATTTACCAGGAATAGGACCAGATTCAATAGAACCAGAAATAGTTGTAGCTAAACTCGAAGATGATAAAGTAATAAGTTTAAAAACATATGATTTAAAGATGATAAAAGAAATTCAACAAGATACTTATTTATATAGAGGTAGTTTTGAAATAGAAGATAGAGGCCAATATGGATACAATGTTAGAGTTTCTGCAAGTCATCCTTATATGCCACATAGAAATTATTTAATGAACTTAGTAAAGTATCCTATGTAATAAATATAAAAAAGTGATTCCGAATGGAATCACTTTTTTTAAAAATATTCTAAATAAAAATATTCTAAAAAATATTTTCTTTTACTGTTATATCTTTTTCATTTTTATAAATATTTAATGAGTTTAGTTTGTAACCAAGTTTTTCAATGTTGGTTGATAATTTATCTAAATCTGATTTAAAAATTTCTTCATTTTTATCAAGTCCAATTTTTAATATTACATCTTTTTCAGAAATATACATGTTTATATCTGTTATTCCAAAAGTTTCGGTTGGAAGAACTAATCTTAATTTTCCATAGTTTGAAGAATTTTCTTTGTTATTGTGTATTTCATTACCTTTTTTAAAACTCATAAATACAGGTACTCCAAGCATATTAAACATCATATATGAAGTATCATTTATATTTTTAGAATTTTCCATAGTTTTGTAGGCTGAAACTGCTTTTTCCATAGTTTTGTTTAATGTGAGTATATTTTTTTTAAATAATGTTTGTACTTGTTCTTCGTCTTTTTTCTTAACTTGCTCGAAATTTAATCTTTCATTTATAGAGTCATTTTTAAAAATTTTTTGTTTCAAAGTATTTGTTTTTACAATATTTTGTTTTTTTAAATGTTGTTCAAGATTTAATTTGAAGTTTTTATCTTTTAAAGTAGTTATTTTTTGATTTTTAATTTTAATTTTATTTTTTTGAATGAGTTTTTGTTTTATATACTTTTTTTTAGAAGATTGATTTTTAGAACTTTGTTTATTTATAATTTTTTTGAATTTAACATTTTTTTGAATTATATATTTTTTAGAATTTTTTACTAATGTAGTATTTTTGTGTGGAATTATTTTTTTTAAGTTGATATTTTTTTTATTAATAATACTTTTGTATTTTTTAAAAGAAGGTAATCGTATAAGTCTTTTTAATTTTTTTATGTTATTTTCTTTTATTGATATTTTACTTATTTCTTCATTACTTTTTTTGTTAATATTCAAAAATTTATTGTCTTGTATTTTTTCATTTAGTTGGTTTTTATTTTTTAAAATATTTTTTTCATTAATTATTGATTTATTAACAGTTTTAATACTTTGATTATTAGTATTTTGATTATTAATTTGTTGAATATTTTTTTTAAAAATATTTTGATTGTTTTTGTTTTTTTCTAATACTATATTATTTTGTTTTTGATACTCATTAGTTTTTGTTTCTTTTGTATCTTTATTACTTATAATATTATTGTTTTTAAAAATATTTTTCCCAGTTTTATTAATTTCTTCTTTTAATATCTTTTTTCCTTCATTAAAAGTTTCAATTTTTTGTTTTTTAGATTCAGTAAATTCAAATGTATTTTTTTTATTTATTTGTTGCTTTGAGTTATCATCATTTTTAAGAATATTTTTTTCAAGATTTTTATTTAATTTTTTATTTTTTATTATACCTTCATTATTGTCATTTTCTAATATATTTTTTTTATTTAATGAAGTATTATTGTTTTCTTTTGAAGTATCTTTTTTTAATAATTCTGTATTTAATGAATTATTATTTAATGAGTTTTTATTAATTTCTTTTTTAGGTGAAATAAAATTTTTTATTATTTGTTCAACTTTTTTTGCAATAAAATTTGGTGATGGATGAACTAATTTTGATTTTAAAAAGCTTTTTGAAAATTCATCTATTATAGAACGAATAAATCCTTTAACTTGTTTTTGCTTTTCAGGGGTTATATTTTCTAAAAGTTTTTCTATATTAGTATTTTCTAAGTTGTTTTTAGAAAAATTTTCTTTTAGTGATTCAGAAAATTCTGAGATCCACATTAATAATTTACTCTTTTGAATGTTTGGAATATTTGAAATATCTATATTGAATGAAAGATTTTTAAAAATTTCTATATGGAGTGTATTATTAGTTAAGTTACCAAGCGCTTTTGTAAAAATAGCATTTTTTAATTCTTTTAAATCATTTGAAGTATTGAAAAGTAAATTTACAATACTTCCTTCTGGAAGCTTTTTTCCATTGCTATCTAATATATAAAGTTTACCCCCAGCATTTACTATATTTAATTTATTATCAGAATAAACTACCTTTCCTTGAAGCTTTTTAGAATATACATTATTAGAATTTTTTTTTATTGGTATATTTATTTTAACTTGCGAATTAATTTCATTCATAAAATCACCTCAAGATATTATCGGCTTTTAAATTACTTTCCTTCAAATTCCATATATTCTGGAAATACTTTGGCGTGTTTAAAAATTTTAATTATGTCTTCTTTTTTTAATAGTAAAACTGTTCCAAGTTTATTTGGATGACTATCAAATTCTTCATTGCTTTCCCACATTTCTTTATCTATAATTACTTTAAAATTATCTTTTTTATAGTTTAAAAATGCTATATAAGATAAAGAACCTAACTCTATATCAAACAACTCTTTTAACTGTGCTTCTGAAGCAAAGCTCAAATTTTTAACTTGAAGTTTTTTTGATAATTTTTTTAGATCAACTTTTTTATTTTCATCGACCATGACCATAATATATTCATCTTTTTTCTTTATTTTCAAAAGTAAATTTTTAGTTCTAACTCCAGGCATATCTTTGGGTAATAAATTAGTTATTTCTTCACAAGTTTTAGCATTTTTATCATAATCATATTTTTTATAATTAATATTTAACTCTTTTAATATTTCATAAATATCCATAAAAGTATACCTCGCTTTATAGTTTTAGTTTGAATATTTCTTTTAATTCTTTATCTGAAAATTCTGTAATCCATTTTTCACTAAAATTCAATATGTTTTTACTTAGTTCATTTTTACTTTTTAAAATTTCATTTATTTTTTCTTCAAAGGTATTTTTAGTAATCATTCTGTGTACTATAACATTTTTCTTTTGACCAATTCTATAGGCTCTATCTGTTGCTTGATTTTCTACAGCTGGATTCCACCAAAGATCATAGTGAATTACATGTGATGCGTTAGTTAAATTTAATCCAGTTCCTCCAGCTTTTAAGGATATTATCATTATTGGAAATTGATGTTTAGTTTGAAAGTCTTCTACCATTTGGTCTCTTTGTTTTCTTGATAAAGATCCATAAAAAAACAATGAATTTGTTTTCAATTCTTTTTTTATTAACTTTTCCAATATAATGCCCATTTCTTTATATTGAGTAAAGATTAAAACTTTTTCATTTGATTCTAAAATATTATTTAAAATAGATATTAATTTTTCTGTTTTTCCTGAATCGTTTGATTCAGCTTCACTGGATTTTAAATACTGTGAAGGATGATTACAGATTTGCTTTAATGAGGTTATTAATTTTAATATCATTCCTTTTTTTTCTATACCACTACTTTTTAAAATTTCATCAACTAAGTTTAATGTTTCTTTGTATAAAGCTATTTGTTGTGGTTTTAAATAAACATATTGATCAAAAATTATTTTTTCTGGTAAATCTTTTATTATACTTTTATCTGTTTTTAAGCGTCTTAAGATAAAAGGAGTTATTATTTTTTTTAAGTTTTCCATTTTTGATATGTCATTAAACTTTTCTATTGGCTTTGCTACATTGTTTTTAAAAGTTTCATTTTTTCCAAGATAACCAGGCATTAAAAAATCAAAGATGCTCCAAAGTTCTAATAATTTATTTTCTATTGGAGTTCCAGTTAAAGCAATTTTTTTATTTCCATTTAAACTTTTAACTGATTTTGTTTGTTTTGTATTTGGATTTTTAATATTTTGAGCTTCATCTATTACTATATAAGACCAATTTATTTTTTTAAAGTTTTCAACATCTCTTCTTATTAATCCATAAGAGGTTATTAAAACATCTACATTTTCTTTTAGCTCACGTGCACCTCCATAATAAATATGATACTTTAATAGCGGTGCAAACTTTGTTAATTCATTTTCCCAATTTCCTATTAAAGAAGTAGGGCAAATAATCAAAGCAGGAGACTTTAATTTTTTTAACTCTTTTTGTTTTAATAATAAAGAAATAGTTTGTATTGTCTTTCCAAGCCCCATATCATCTGCTAAACAACATCCAAATCCATTTTCACTATTTGTATATAACCATCTATAGCCTTTTTTTTGATAAGTTCTCAAAGTAGCATTTAATGATGATGGTTGTCGTATATTTTTTGGTTTTTTTAAGTTTTCTAAAATCTTTTTAACTTCATCATCAAAGAACAATTTTATCCCATTTAGTTCTTCCGTCAATAATGCACTCATTAATTCATACTGTGAATTTATATTAATATCTTCATCTATTTTTTTTAAAATCTTTAAAAGTTTTTCAGGTTCAATTTTTATATACATATCTTTGAACTTAATAATACCTTTTGATTTTTTAGTTAATTTAAGGAATTCATCATAACTTATAGTTGTATCTCCAAGTGCTATTTTCCATTCAAACTTAATTAATTCATTTAAGTTTATATAGCTTTTTATATTTTTATCTGTTTTTACTTGTAAAATAGCTGATGGAGTTAAGATTTTTTTCATTTCTTTTGGTAATATAATATCTACGTTGAATAATTCTAATACTGGCAGTGTGTTTGTGAAAAAATCACTCAATTCTTTGGGAGTTATTTGTACGGATTCATTTTTTAATATTTTTGCTCCATCGTATGACTTTGAAGAAATAAATCCAATTTGTTTTACTATATCAATCTTAAATTTTTCATATTTTTTTAAAGATAAAAATTTGTTTAATGGAATTCCTTCTTTTAAAGGATCTTTTTTGTCTTGAACGTATAATTCCATTACATAATGATCTTTTATAAAAGGATATATCTTTATAAGTAAAGAGTATCTTATATTCTTCAAATAAAAAGGTTCAAAATAATTTTTAAGAGCATTAAAGGTTTGTTTTTCTTCAAACTTTTCGGCATTATATATATCATCAGTTATAAAAGTATTCAATAGCTTATCAAATGTCAAGTCTTTACAAGCTTTTTTTATAATTTCTTTTAATATTAAAGAAATTATGTATTCAATAGAACTATCTTTTTTCATAGTTAAACTTTCATTTTCAGTTACTATAAAATTATTTGGAAGTATACTAATTAAGTATTTAATATACTCTTTTAATCCATATGTTAAAGGATTATATTTTATATAAAATTCATTATTGCTTATGGAAACAGGTTTTGGAATAAACAATTTATTTAAAACAAGATTATATGTAAAACTTAATATTTTTTTGAAAAAAACAGAATACTCATTATCAAAATTATTTATAGTCAAAGGAATACTTTCAAAGTTGTTGTACAAATCTTGAAAGGATAATTTGCTTTTTTTATTAAATGGATTATTTTTTATTTTAATTATTGGATTCAGTTCTGAGTATATTACTTTAAAAGAAGTATCTTTAAAGTAAGTACTTTTATTTTCTTTAATTTTTAAATTTTTTATATAGTTTATTGTTGTTTCATATACAGTATTAAATAAAAGTTCATTAAAGTTTCCATTAAAGAATAAGGTTTCATTTGGAAGCATTTTTATTATATTATCTATTTGAGAAGAAAAATCAACAATTGGTTCTTTAAATTCTTTAATTTTTTCATTAGTGTTTATTGGAATGAAGATTTTATCTTGAATATTTGAGTTTGTTTTTGCAAATGATATTAATTCATCTTTTTTTAAACCATGCATTTCAAAAATTAAAAATGGATCTTTATCTATTTCATTTGCAATAATATAGTATACAGCAGCGAGATGTTTACAAGGATTTGCCCAATCTGGACACGAACAATGAGAATCAATTTCTTTCCAAGATTTTGGAAATAAGTATATATGTTCATTTTCTAAAATAGAAAGCAGTTCTTCTGGCATAACACCAATTATTAATTGAGAAGATAAGTCAGGTCTACTATTTAAAAGCTCTTTTATTTTATTTTTTTCTTTAGTTAAAAAATTTTTTAAAGATATTTTTTCATTGTAAGGTTTTGGTCTTGTTCCTTGAACCTTAGCGATGATATCAAATTCTTTATTTATTTTTATTTCTAAAACAAGTTTTTTATTAGCATAAGTTTTTCCACGTGGAAGTCTATTTGTATTCATATCAATTTTTTTTATTGCTTCAACCCATTTTTTCCCCCACCATGTTTTACCAAAAATAATTCTTTTTCCCATAAAAATCCCTCATTTTATTTTTTTATTATGTTATTTAAAGATACTTATGCCTTTTTCAATCCAAAACTTTGCAAGAGTCAACATCTCACCCCAACCAACAGCACAGTCTAATTTTATTTTAAACTCTTCTTCATTGGTAACTAAGTTTTCATCTTCAACATAAATCCATGTTCCACCAATTTGAGCTTCAAAAAATCTCATAGTCACCATTGATTTGTATATATCACCATACTTGTTCCAGCTAAAAACTATTTTATTATGTTCAATCAATGTATGAATTATTCCTTCATCTAATACTTCTTCTCCATAAGTTTGATCAAACCATCTAATTTTCATTTTTCCTTCTTCTTTTAAGACCATTGTCATGCCATTAGTAAACCATTCATCCCATCCATTTGGATTTACAAAAGTATCCCATACTTTTTTTAAATCTGCTTTTATTAATTTGGCAGCAATTGTTGGTGGATAATTATATTTTTGAATTCTTTTATTAGAAAATTCTATTTTAGTTCCTGATGGATCGTTATAGACTTCTTTTTCAACATAATTTTCATCATAAAAAGATATTTCATTTTCCCCAAACATTCTCAACAGTATATTCACATTTTCATTTTGAATTAAAGCTTGATCGTCCATTTTAAATAAAACATTAAAACCAAACTTTGAGTAAAATTCTATTGATTTTGAAAGATCGTTTACTTTAATTGTTATGTGAGAAAAGTCCATAGTTTTCACCTCACGATTTCAAAGATAGTGCTTCCGCTTCCACTCATCATTATTAGTTCATTTTTATTTCTTTCTATTAATTCTGATTTTTTTTCTTTTATTTTAGCATACTTTTTAAACACTACTTGTTCAAAGATATTGAACATATTATTTTTTATTTCATAATAGTTATTTTGTTTTAAAGCTTCATACAATTTATAAGGATTTCCACATCTATTCAACGTATTCCAACTTTTATCAATTTCTTTATACATTTCTGGAGTGCTAATAGATACATTTTGTGGATATATTTTTATTTTTAAATTAAGTTCATCTAAAAAAGTTAGTTTTTCACCTTTTCCTTCTGCAATAGCTGTTCCACCTTTTATTAAAAAGGGAACATCACTACCAATTTTTTCACCAATTATGAATAAATCATTTAATGATACATTAAATTCATTTCCAAGGAATTTTAAAATAGCGGCAGAATCGGAACTACCTCCACCTATTCCACCGCCCATAGGCAAACTTTTATTTAATTTTATTTTTAAATTAAATTTGTATCCAGTTTCATTTTTAAACAAATCAATACTCTTTTTTATTAAATTTTGTTTCCAAGAAAAGTTTAATTTTTTATTGCAAGAAAAGATTTCGTATTCGTTAAATTCTATATCAATTTCATCATAATATGGTGTTGTTTGAAATAAAGTCAGTATATCATGAAATCCATCGTCTCTTTTTTTTGTAACATCCAAGTATAAGTTTACTTTTGAATGAGCATGTAAAATCATTATTTTAGTTCTCCATATTTTTTTAAAGCGTCAAAGGTTATAATAGACCATTCTTCTAATTTTTCTTTGTGTGTTTCAAGTTCTTTAACTGTCATCCAAGATAGTTCAAAGTTTTCTTTTTCTTTTATTTTAGCATCCTTAACAGTAGCTTTAAAAACAACACCAAGATGAACTCTTGAAACTTCATTTGAATCATTATAAAGCAATCCTTGATACTCTAATTTTTTTAAATCATTTATTTCAAGTTCTTCATTTATTTCTCTATTTAAACCATTTAATAAAGTCATCTCACCATGATTAGCGTCATCAATTGGATTTATATGTCCACCAATACCTATTGAGAGTTTTTCATGCAATCTTTTTTCAGTTTGTTTTTTTGTTCTTTTTACAACTAAAATTTTATCTTCTTTTGTGAATACCACATAAGGAATTATTTGTTTAAAGTCTTCATTATATTCAGCTTCACTTCTTTTAAAGAATTTAGCATTATTAAACAATGGTTCTAGAGCTTTGAACAACATTTTTCTAAACCCTTGCAAATTAGGAACTGTTTTATTCAGTAATTCTGCAGAAACTGCCCAAACCATTTCTTCCATTAAACAACCTCCACAGTAATATTTTGATTTGTATAAATACAAATTTCTCCAGCAATGGAAATTGAACGTTTTGCTATTTCTTCAGCATCGAGTTCTGTATTTCTCATCAACGCTTTTGCTGCAGCCATTGCATAAGGGCCACCAGATCCTATTGCAAGAATATTTTCTTCTGGTTCAATAACTTCTCCTGTTCCAGAAATTATTAATAAATGTTCATTATCTGCAACTATGAGCATGGCTTCTAACTTTCTTAAAGCTTTATCCATTCTCCAATCTTTCGTTAATTCTACAGCAGCTTTTAATAAGTTTCCATTAGCTGCTCTGTATTTTATTTCAAATCTTTCAAATAAAGAGAGTGCATCTGCAACAGAACCAGCAAAACCAGCAACTACTTTATTGTTGCCAAGTCTTCTAACCTTTCTTGCAGTTCCTTTGAAAACAGTGTTTCCAAGTGTTACTTGTCCATCGCCAGCTATTACAGTTTTTCCATTTCGTTTAACACCAATAATAGTCGTTCCACGTAATTCCATATTAATCCCTCCTATGATTTTCAATAATTATCTTTATCAATTCATTAAACTCTATATTATTTGCTTTGGCTGATTGAGGTAAATCACTAATTTTAGTCAATCCTGGTACTGTATTTAATTCTAATACGTACACTTCATCATTTAATATAATTGCGTCTATTCTAAATATATCTTTTAATTTTAATATTTTAAAAATTTCTTCTTTTATATTATTTATTTTTTTATTTATTTCTTTATTTGATTCATATATACTAAAATTAGTCATTCCATCTTTATACTTTGCTTCATAATCATAAAATTCATTTTTAGGAAGTATTTCAAGTATTGGTAAGACTACAAATTCATTATCTTTTTCTAAGAAAGATATTGAAATTTCAGTTCCTTTTATAGCTTCTTGAATCAATACTTCGGTATAAATTTTTATATTTTTTTCTAATTTTTCTTTGTATTCAACTTCATTGTGAACTATATAAACGCCCTTACTCGATCCACCGGTGTTTGGTTTTATAAAAATTGGAAATTTAAAAGGAGGATCAATATAATTTTTAGTGAGTATTGTTTTTGGCATTTTAAATTTATTTTTGAAAAGTTCATAAAATAAAAATTTATCAAAACATACAACACATGTTTTTTGTTCTGAACATGTATATGGTACTTTGTTTAATTCAAAGTATCCTTGTATTTTCCCATCTTCACCAGTTTCTCCATGAAGTACATTGAAAATTAAATCGAATTCTTTAATTTTTTTATTAAAATCCTTATCTGTTGGATCAATGAGTTCTGATTCATAATTTAATTCTTTTAATGTTTCTAAAACATTTTTAGCACTCAATAATGAAATTTCTTTTTCATTAGAAGTTCCACCAGCTAAAACGGCAATTTTCATTCTTTATACTCCTCAATATCAAAGTATTGTTTTTCTTCAGGGCAGAACAACATTTCTTTTTTATTTTTATAAACATAAAAAAGTGGTTTTCCGCAACTTTTACATTTGAAATTAGAAGGTTCGTTCCAAAACATTGCTCCACATTCTGTACATTTATAGTATAGTTTACCTTTTTTACTTTTTAGCTTTGCAACCTCTCCACCACATTCAGGACATTTTCCTCTTGCAGGTACACTTTTTGTAAATTTACATTCTGGATAATTACTACATGCAATAAACTGTCCAAATCTTCCTGATTTTAAAACTAAATCTGCACCACATTTTGGACATTTTTCGCCTGTTTTTTGAGCTTCAGGAGAAGCTAATGTTGGTATTTCTTCAGTTATATAAACTTTATCTTTTATTGTAACCCCTAATATGTATGGTGGAAGTTTTTTTGTTTTTTCACATTTTTCACATTTTAAGTACATTCCATATCTTCCAAACATTAGGTTCATTTCTTCATTACATTCTTCGCATTTTATGGTGCTCTTATAATTTAGATTTAACTCAGCATTTTTTATTTTTTTGCTTATTTCTTTCAATGTTGGTCCAAAGTCTTTATAGAATTCTCCAAGCAATTGTTTACTCGTTTCTTCTCCATGTTCTACCATATCAAGTTCATTTTCCATAGATGCTGTAAACTTTGAATCTATTATGTCTGGAAAAGTTTTTTCTAAAAAGTCATTTACAACAAAACCAGTCAATGTTGGTATTAAAATATTTTTTTCAAGTCTTTTTATATAATTTCTTGTTATTAAGGTTGAAATTATAGTGGCATAAGTTGAAGGCCTTCCAATACCGTTACTTTCTAATTCCTTAACAAGTGAAGCTTCACTGAACCTTGCTGGTGGTTTTGTTTGAGCTTCTTCAGCATTTAATTTTGCAGGTTCAACCTTACCACTTTTATTTAAGTTTATCTTTTTTTCAGTTTCTGAGCTTTTCCAAAAGATTTCAAATCCTTTAAACTTTCTTTTTTTTGCAGAAACTTGAAATTCAAATCTTTCACCATTATCAAAGATATTGTATGTTGTTTCATCATACTTTGAAGCTGTAGATTGAGATGCCATAAATCTATTCCAAATTAATGTATAAAGTCTTAAATTATCTCCACTCAAATAAGATTTTGCTGTTTGAGGGGTCATTTCTATATTTGTTGGTCTTATAGCCTCATGAGCATCTTGAACCTTTGATTTAGATTTTTTAGATTTGTATGTACCAGAAAATTCTTTGCCATAATTTTTTGTTATATGTTCATTTGCCGCTTTCATTGCAACATCTGATATTCTTGTTGAATCAGTTCTCATATAAGTTATAAAAGCTATATGTCCTTCTTTTGTTTCTATACCTTCATACAAACCTTGAGCTACTTTCATAGTCTTTTTTGAAGACCATCCAAGCATATTTATTGCAGACTGTTGTAGTGTACTTGTTATAAAAGGCATAGGAGGGTTTCTTTTTGCTTCTCTGTTTTTTACACTCTTAACAAAGTATTCTTTGTCTTTTAGATATTCTAAGATTTCATTTTTCTTTTCTAAATCAATTTTTTCAGCATTTAATTTTTTTCCGTTTTCTTTTACAAGTGGAATTTTTAATTCATTATGTTGTATAGAAATTTTAAAGTATGTTTTTGGCTTGAATTTAAATATTTTTCTTTCTTTGTCTATTAAAATTTTTAAGGTTGCAGATTGTACTCTACCAGCACTTGTGTTACCGCTTTTAAATATCTTCCACAATAAAGGACTTATTTTATATCCAACTATTCTATCCAACATTCTTCTTGCAAGTTGTGCATCTACTTTTTTTAAATCAATTTTTAATGGTTCTTTTATAGCTTTGTTTATAGCGTTTTTTGTTATTTCAGTAAATATTATTCTATTTTCTTCATTTTTCTTCAATTTTAATATTTCAGAAAGGTGCCAAGCAATTGCTTCTCCTTCTCTATCCATATCAGCTGCAAGAAACACTTTTTTCCCTTTTACAGTTTTTTTAATTGAAGAAATTACCTTATCTTTTCCGCTCATTATTTCAAATTCTGGTTCAAAGTTGTTTTTTAAATCTATTCCAAATTTTTTTGGTGGTAAATCTCTAACATGTCCTTTAGAAGCTATTACTTCATAGTCTTTTCCAAGATATCTTTCAATAGTTTTAGCTTTTGCAGGAGATTCAACTATTACTACGTATTTTGAATTTTTTGAAGGCATTTTAAAGTTCCTCCTGTTTGTTTATTTTAAATTTTCTTCCCATTCTTTTATTAAAATCTGTCCAACTTGCATCGTTATCAATCATCAAAGTATTATTCATACTCTCAATTGATTGTTGTATCTTTGAGTCTATATTATCAGCAAAATGAACTATTAAGCTTTCAATAGTTTTTGGAAGAATTGGACTTCCATACTCTATTTCACCGTGATGAGATAAGATTATATGTATTATTTCATCAAGATATTCTTTTTTTAATCCAGCTATCTTTTTGCTCTTGTTCATTACTAAGTTAGATCCAATGTTTATGTGACCAAAAAGCTCCCCTTCAGATGTTTTTTCAATACCATAAGGCTTTACTTCATATTCATATATTTTTCCTATATCATGCAATAATGCTCCAGCAATTAGTACATCTTTATTTACATTCTTATAAGTTTCAGAAATTTTTAAAGCTAATTCAGTAACCTTTAGGGTATGTGCAATTAATCCACCTTTATAAGCATGGTGAACAGTCATGGCAGCAGGAGAATTGAAAAAATCTTTTTTTATTTTTTCGTCATTTATAAAAATATCTTCTAAAAGTTTTTTTATTTTTTTATCATTTATGGAATTTATAAATGATAAAAGTTTTTTTTGTAATTCATTTATATTATTTTTATTTGAGTTTAAAAACTTTTCAGAGTTTATATCTTCTTCTTTGATCAAAATCACTGAATCTTCATTTCTTGATACATTTAATTGAAGTCTATTATCAAACATAACAACCTTTCCCGTTACATTTATTATAGATCCAATTTTTATTGTACTGTCAAATTCTTCAGCATGAAATCTATCTACTGCTCTAACAACTCCAGTTTTATCTCCAAGTGTCATTAATAAAAATTTTTTTCCATCTCTTGCTTCTTGTAATCTTTTACTTATCAATTTTACTTCTATTGTTATATTTTCATTGGGTTTTAAATCTTTTACATACAATGTTTCGTTAATTAAATTATTTCTTTCAAATAAATCTCCAAGATTAACACCATCACTCAAAATATTTTCCTCCTCTAAAATACACACGTTTTACTCTATTTGTTATTTTTGAAGTTATTTCATAATTTATTGTATTGGATAAGTTAGCTAATTCTTCAGAAGTTATTTCTTCATTTTTTTGTTTTCCTATTAAAACAACTTCATCTCCAATTTTAGCCTTTGCATTAGTTACATCTATTATTATTTGATCCATGGAAACTCTTCCTATAATTTTACACCGAATTCCATTTACAAGCATTTCTGCCTTGTTTGAAAGATTTCTAAAGTAACCATCAGCATAACCAACAGGTACTATTCCAGCAATCATTTTTTTATCTGCTTTAAAGGTTCTTCCATAGCCAACTGTATCTCCAATATTTAACTCATTTAACTTTGCTATAACACTTTTAAATGATAAAACAGGTTTTAATTCTTTTATAATTTTTTTATTAGAAGGTTGCATTCCATAAGAAGCTATTCCAGGTCTAACAGCATCCAATGAATATTCAGGAAATAATAAAGAAGCAGCACTATTAGACATGTGCTTTAATCTTATACTTATATTTTCTTCTTTTAAAATATCTAATACTTCTAAGTATTTTTTGTGTTGAAAGTGTACAAATTCATCCATATCATCTGCAGTAGCATAATGAGAATAAAAACCATCTATTTGTATATTATTTTCTTTTATTATAGTTATTAATTCTTTTAATTCATTTTTACTCAATCCAACTCTAAACATACCAGTGTTATAATTTATATGAAATTTAAACTTTGTTATATCTTCTTTTAAAATTTCAACAGCTTCCTTTAAGAAATCAACAGAAGTTATTGTTGGTAGTATATAATCAGAAAATTCAATTAATTCTTTAAGATCTTGTGGATTAAAGTAGTTAAATATTAATGTTTGAATTTTTGTTTCTTTTAATATTTCGAGTGCTTCACTTAAATAAGCGACTGCAATTAAGTCATATCCTTCTTTTTTTAATTCTTTTGCCAAGATTTCTTTTCCATGCCCATAAGCATTTGCTTTTAATACAGGTATTACTTTAGAATTTGTAATTTTTTCTATGTACTTTAAGTTATTGATGTAATTATCGATGTTTATTAAAACAAAAGTTTCTCTATCCTTCATTTTCATCCCCCTGAATTAAATTTAATAATTCTTCTATATTTTCTATTTTAGTGTGAAACTCATAAATATTACTTTTTACTACAATTTTAAATTTCTTTTTTTTAAAGGAAAAACTTTCAATTTCTTTTATTGAATATTCATTATACTCTTCATTATAGGCTTTTGTATTTATAAAAATTTTTTTATTTTTTGTATCTATAATTATTGGACTTTTTCTATACTTTCTAATCATTATACCAAAGTAAAGAAAAGTTATTATTAAAGAAAGTATAGCTATTATAACATTTGGAAAAAAATTATAAAGTATACTACCACATACATACAAAATAATAGTTATAAATATAACTTTCAAATAAGAAAGTTTTGAGTATCTAAAATGTTTAATCATATTTTTCCTCCAGTTCTTTTAAATATATTATACATCAAAGAATTAAGAAATCAAATAAAGATTTTTATAAATTATGGCGTTTATGATAAAAAATTACTAATAGTTATGTTTGCTAACTAATAATGTTTGTGATATTATATATAATGATATTATAATTTTGGAGGTGACTATATGCTTTCTAAAGAAACAGTGGAGAAAATCCTTTCCACACTTTTAAAACATGGTGGGGATTTTGCAGAAGTCTTTGTGGAAGATAAGTATGATAATCGTATTGAAATGAAGGATAACAAAATACAAAAGATCAATTCAGGAATAGAAAAAGGAATAGGTATAAGAGGATTTCTTGGAACTAAATCAGTTTATGCTTATACTAATGATTTTACTGAAGATAATCTTTTAAAGGTAGCAAAAAGAGTTGGTCAAGTTCTTGGTGAAGTTACAATGAATAATATTGTTTTGAACTTTGATAAAACCGAAGTTCAAAATATACATCCAATTCATTTTTATCCTCAAGATATAAAAAAGAATGAAAAAGTAAATATAATGAAAATAGCTTCTGAATCGGCAAAAAATTATTCTGATTTGATAAAACAAGTAGTTGTTAATTTTTGGGATTACGATCAAAAGATTTTAGTAGCAAATTCAGAGGGCGTTTTTAAACAAGATAGAAGAATAAGAAATAGACTCATGATAAACTCTATTGCAGAATTTAATGGTGCACGTGAAAGTGGATTTTATGGACCAGGTGCAGGAATGGGATTTGAATTTTTTAATATTTTAAATCCAAGAGAAGCTGGTGAAAGGGCTTCAAGAATAGCAAGCAGAATGGTAAAAGCTGATTATATTGAAGCTGGTAAAATGCCTGTAATAATTTCAAATGAATTTGGTGGAGTTATATTTCATGAAGCAGTTGGACATGCGCTTGAAGCATCTTCAGTTGCTAAAGGAGCATCTGTTTTTTCTGGAAAACTTGGTGAAAAAGTGGCTTCTGAATGTGTTTCTGCTGTTGATGATCCTACAATACCAAATGCATGGGGTTCAGCAAACATAGATGATGAAGGAACAGAAACAAAGAGAAATTTATTAATTGAAAAAGGTATTTTAAAAAGTTATATGATAGATAAACTTGGTGGAAGAAGAATGAATATGGAATCAACGGGAAGTTCAAGAAGAATGAACTATAAGTTTGCACCTACATCAAGAATGAGTAATACATTTATTTTAGCTGGCGATTACTATCCAGAAGAAATAATATCTAATACAAATAATGGATTATATGCTAAATCATTGGGTGGAGGATCAGTTAATCCATCAACTGGTGAATTTAACTTTGCAGTTAATGAAGGATATCTTGTTGAAAATGGAAAAATAACTAAACCTGTTAGAGGAGCAACCTTAATAGGTAAAGGGTATGAAGTAATAAAAAAGATTGATATGGTTGGCAATGACGTTGCAAGAGGACAAGGTATGTGTGGAGCTGCTTCTGGAAGTATACCAGCAGATGTTGGACAACCTACTATAAGAGTTAGTGAAATAGTTGTAGGAGGGAGAAATAAATGACATACAAAGAATTTAAAGAAAAAGCATTTGCTTATTCAAAAAAAATAGGTATTGAAGCTTGTCAAATAAATTATCAAAATAATAAAAATTTTTCTCTTTCATTAGGAAATGGAGAACTTGAAAAATATCAAGATGCATCGAGTTATAAAATAACATTAAAAGTTTTAAAAGATGGAAAAATAGGATCGGCATTCAGTGAAAGTTTAGAAGATGCTGAAAAAATAGTTGATGAAGCATATGAAAATTTGAAATTAATAGACTCAGAAGAAATAAATTATTTTTATGATGGAAAAGGAAAGTATCTTGAAATGAATACTTATTCTGGAAAGTTTGAAGAAATGGAAGTTAATAAAAAATTAGAATTTGTAAATAACATTCATAAAGAAATTTCAAATGATGAAAAGATAGCAATGGTTCCTATGGTCGTTTATCAAGAAATAGGAATAGAAAACAAACTTTCCAATACATATGGATTAGATTTAGAAAATAAAATGGATGGAGCATTTTCTTATGCTATGGCTGTTGCCAAGGATACATCACCAAGATCTGGTGTAGACTATATTGTGGCTTCAGATCCTTCTAAATTAACTTTAGACTTTGCAAAAAATGTAAAAAAATTTGCAATAGAAAAGATAGGATCTAAATCAGTAAAAAGTGGAAAGTATGATGTAGTATTTTTAAATTCAGCTTTTTCAGATGTTCTTGGCATGTTTAATCATATGTTATCAGCAGAAAATATACAAAAAGGACTATCACCATTAAAAGGAAAATTAAATAGCAAAATAGGAAGTAATAAGTTAAATATAAAAGATTTAGCTTATTATGATGGAAGTATATCAAATACACCATTTGATTCAGAAGGAGTTCCAACAAAAGATAAAGTAATACTTGAAGATGGGATTTTAAAAACATATCTTTATGACTTAAAAACAGCAAAAAAAGATAAAGTAGAACCAACTGGAAATTCAATTTCCGGAAGAATAACTTATATGAATTTATTTGTAGAACCTGGGATAAATTCATACGAAGAATTATTAAAAAAAGTAAATAATGGAATTGTTATTACTGAAGTAGAAGGTATGCACTCTGGAGCAAATCCTATATCAGGTGACTTTTCATTGGGAGCTCAAGGCTTGCTAATAGAAAATGGAAAGATAATTCGTGGTGTAGAACAGATAACTATATCAGGTAATTTTTTAGATATGCTCTCTAAAGTATCAGAAATAGGAAATGATATGAAAATAGGTCAAAATATAGTAAATCCATCTGTTATAATAAAACAAATGGACATTGCAGGAAATATTTAGAACGTCAAAAAAGTAAGATAATTTTTATCTATATCATTTATATCTATAGATAGAGCAAAAGATTTAATTTATTAAAAAAGTTTTTCTTTTTACAAGAAAAATCTTGAAATATTTTGATTCATATATTTATATTGAATAGGACACTCCTTTTATAGATTCTTGGAGTGTCCATTTTTTATATTTGAAACTTATTAATTAATGATAAAATTCTTTGTTTTTTTAGCGTTTCAAATTTATATCTTCCATACATCATTCTTTTTATTAATTTTATTTATTTTTTCTTCTACTAATACATTACTATAGCTATATTTTATGGAATTTCCTACTACTTTTATATCATTTTTTTATTTGATTCTTTCTTTCTTTTATTTGATATTAACTCTAATAAAATTAGGAGTAAAAAGATTTTTATTTTTAAAAATTTTTATCAAATGTTTCTTGTATTAAATTTGCCATTTTTTTATTACTAAATTGTGTTTTAAATTTTATTTGTACCATATCTCCAAAAAATTTTTCTGCATGCTTAATTTTTTGTATTTCTTCATTCCTCAAACTTTCTTCATTGGTATTTTTTGTTTCTACAATAAAATAAAGCTTTTTCTTCCCATTTTTAAAATTTAAAACATATGCAAAATCAGGTGAATAACTTTTCCCTCCTGCAACTGGTATTTTAATTGAGTTTTTAGGTATTTTAGTAAATACAATGACTTCTTTTATATTTTCTTTTATATTTTCTTCTTCTAATTCTGAATCAAAAAAAATTTCATCAAAAAAATAATTATCTGCTACTTTTTCATCAGAGTGAAATACACCAATATCAGAGGCATTAACCTCGGTTTTTATCTTTCCATCTTTATTTGTAAATTTAGTTGGATGGATAGAACTCGCAACTTTTTGATATCCAATTTGAAATTTACTTAAAGCCTTATACATTAAATAATCATTAAATTTTTGTTTAAATAATCTAAGTGTTGTTTGATTCAAATATTTATTTATATCTGTTTTAGTTTCTAAAAAACTTTTATGCAATGTTTTCAAATTTATATTCAAGCTATCAGACAACAGTTTTAAAAATTCACTATACTGAATTGTAGAAATTGGTGTAATATCATTTCCATAAATAGCAACTTCTTCTTTTAATATTACTTGATCATTTTCAATATCTATTTTTTCAGTCCTTTCTTTCACTCCTTCAACTTCAAAAGGTGTATAATTTTGTAAAAAATCTACAAAAAGCTTTTGAAACTCATTCTCATTTTCAATTTTATATTCTAAAACTACTTTTTCATTAAGTTTTTCCCATAATTCTTTTAATTCTGCATACTTTTCTACTCTTACTTTTATTTTTTTCTTTTTATCTGTTGATTTTCTTACTTTATTTGAATCAACCCCTTCAAAAATCAAAGGATAGTTTGCTTTTATATACTCAAAACCATTTTTCTTAAAGTCATTATTTCTTTTTATAACATTTTCATTATCTAGCTTTTCTAATAAATCATCTTCATCTATTTTATATTTTTCAACTATTTGTTTGATAATTTTATCAGTTAGTTTTTTAGGTATATCTTCTCTTGAAATAGCTCCCGATTTTTCATTGATTTCATTTACTAGCTTTTCTACAAAATCATTTTCTGTAAAATCTACAAAATAGTTTAAATAAAATTGTTCATCTTTTACACGATTTCCATATTGATTAATTGGTAAACGAAGTCCTCTACCCACTTCTTGCAATTTTGATATTTCACTTCCACTACTTCTCAATTTACAAATTTGGAAAATGTTTGGATTATCCCACCCTTCTCTCAAAGTCCATTTAGAAAAAATAAATCTTCTTGGATTTTCTAAATCTAAGATTGCTTGTTTATCGTGTAAAATTTCATTCACTTCTTTTTCTATTAATTCATCGTTTTCACTATTATCTTTAGAAAAATAACCACCATGAGTTTTTGATATATCCTTTAAAGTTTTTTTTAAATAGGCTTTATACTCTTCATTTGTTTCAGTTTTTAATAATTTTTCAACTTCTGCTTTTATGTATTTTTCAACAGCTTTTCTAATATAACCGTCTTTGTTTCTATATTCTTCAATATTATCAATAAAGAACAGAGTTAGAGGTTTTATTTTTACCTCTCTTGTTAGATATTCTTTTTCCTTTTCAAAATGATATTTTATAGCTTTTTGAATCATTGTTTCTTGCAATGTTTCAGCATAAGAGTAAGGATTAATTTTATCTCCTTTTTTTAATTCTAACCCATTTGATAAAACAACTGTGCTTTTATTTAATTTTTCTATAAATAAGTCTGTCATTGCATTATGAACTTTTTCTAAACTTTCATTTTTAGTAATTTTAAAATGTTTTTTGATATTATTTTTTTTAAAACTTGCTTCTTTTCCATCAGAGTTTACAAATTTGACTATTACATTTTTACCCATTTCAAATTCTGTGATGTGTCCAATAACACCTTTTACTAAATTTCTATTAAAGGAATCAACTGCTGTAAGTATATAAATTAAATTTTCGTTTTCTTTAAATGTAGCACCATATCTTATGATAAATTGTGGGTTCATTTTTTGAATATTTTGCCAAGTCTTATTATTTTGATCAAATTTATGTGGTTCATCAATTATCATAAAAGGTTTTACTGATGATATTGCTTCAAAAGGAACTGAATATTTATCTAATAAACTCTTATCATATGATTTACCCAGTGTTAATACCTGTTTGCCTGTTTTTTTATCCTTACTACTCGCATTTATCATTCCTGCATTGATAATCAAGACTTGAATTTTATTTTTTTCAACACTTCTTGCATTTACGAAACTTGTCACTGCTGATGGCATAGATGGTTTTTTACTTTTTTTACTCTCTACAATATGAAGTTTCAAAGTTTTTCCATATTGCTCTTTAAAATGCTCTCTTGCACTATCGGAATTTAAAAAATCAATCGTTCCTGCCTTAATTGGAAGTGTTGGAACAACAATTATAAATTTAAAAATTCCATACAACTTATTCAATTCAAAAATAGTTTTAGTATATGTATAAGTTTTTCCTGTTCCTGTTTCCATCATTATATCAATGATGTTGCTTTTTCCTTTTCCTTTTCTTTCTATACTATTTTGTTCTTGTAAATCTCCAATATTATGAATATATTGAAAATTTGTATTCGTATCAAAAACTGGATTTACAAACTCTTTATTTATTCCTTGTGGCTTTACTATTTCCACATTATTAAAAACACCAACAGTTGATTTAACTGCCTGAGATTGATGTTCTAAATTTTTTTCAAAATTAAATCCTGCCATATTAATACCTCGCTATAAAATCAATATCTATTTGTTTTTTATTTGCATAAGATTTTACATTATCTGCAATTTCTCTTAAAGATTTACTTTCAAAATTATATCCAAAAGCAATAATACTTGCTGGATTAAAATCTTTCTTTTTATCAATTTCTTCAAGTAATCTTTTTAGACTTTTTGTAGTAAATCCTTTATTTACTAAATAGAGTTTTGTATCAAAATAATATCCAGTGTATCCATCTAAATCTATTTCTTTTAAGTTTTTAGTAAGAGGAATACCATCATAAGTTTTCCAAGTAATTAAAAGAGTTTTTAAATCTTCATCAGATAATTCTGTTTCATCAAAAAGTTTTAGTTGTGGGTCAAATTCTTCTGCTTTAAAAAGATAATTTTCCCAAACTCCTTCGTAATTTGGAATAGTTTCAAAAATTTTAAATCCAAAATCAACATTTGATAAATCTTTCTTTTTAGTTGCTTCAATTTTTATAGTATATTTACCTTTACAAGCAGGACAATGCTCCCCATTTCCGTTATAACCTTCGCACTTAACTTTTTTAGAACTTGCAGGTCTGTCTTTGTTTTCTTCTTGTATTTTCTCTCCTGCTCTTATGAGTCTTTCTTTGGTGATATCAAAAATTGTAGGATTTTCTATTTTTAATTCATTTTTCACAAAATCATAAGCAGTTTTATTTTTCTTTTTATCAATTTCTTCTGGAAGTTGAACCAAAATATATTTTCTATTTCCATTGTCTTCTGCGTTAAGTTGCATTACGGCATCGCCTGTTGTTCCAGAGCCTGCGAAGAAGTCAAGAATATACATATTCTTTTCATTATTATCGTTGATTAAATTTATTAAGTGTATAATTAATTCTATTGGTTTCGGATTGCTAAACAAAGCTTTAAATGGTTTAAAAAGATAATTAAACCTTTTTGTACCATCTGCATTTCTATATTGTTCAAACCAAGCTTTTTCTACCTGATATATGTTGTTGTCTTTTGAAGAATCAAAATATATTTTTCTTTGAATTTTACCATTATCATAATGAATAAAACGTTTGTTATCTTTTTCAAATTTATCAGCATTCCACAACCATCTTCCATCTTCTCCATTGACTTTATTTGGAAGTATTATTTTTTTTATTTTGCCCTTTTTAATTGTAGTTAATGTTCCGTCTTCTAATTCATAAATAGGATAAAACATATTCGGTCGTGCAGACCTTGTAGCATCTGAACCAGATGCTTGAAATTGAGCTAATAAATATTTTCCAAAAGAATCTTTCAATGGGAATTTCTTTACACCAATTAATTTTGGCTTAAAGGTAAATTCACTTTTTTTATAGATAAATACATAATCATTTAATTTTCTTAATTCTGATTTTGACCTTGTTGCGGCTGAACCTGCTCCTGTTTTTCTTGGAGCTAATGCAATAAAATTCTCCTCCCCAAAAATCTCATCCATTAAAATTCTTAATTGTGCCACTTCATTATCGTCAATAGAAACAAAAATAACTCCATCATCTTTAAGAAGTTGTTTTGCAATATAAAGTCTTGGATACATAAAAGTAAGCCATGCAGAATGAGAATTGCTTTTACTTTGAGTAAATTCTAAAATTCTTTTTGCTTTTTTTCATTAATTCCTGCAAGTTTTGATAATTCTTCTACAGTAAATTTTCTATCATCTTGATATACAAATCCATCACTTCCAGTATTGTAAGGAGGGTCAATGTATATCATTTTTATTTTTTCATAATAGGCGTTTGATAGATGTTTTAAAACTTCTAAATTATCACCTTTTATGAGTAAATTCTCTGAATTTTTATTTTCTTGCTTTTTATTCCACTCTTCATCTTCTTTCAAAAGAGTAGTTGCTTCATCACTTGCTAAAAGCTTTGCATACGATTTTCCGAGCCAATCCATACCATAAGATTCTTTTGAAAAATTTATTTCACTTTTTGATAATTCTTTTTTAAACTTTTCAAAATCAAAATTTCCATTTTTATCAAAACATTGTGGAAAATCTTTTTTTAGTTTTTCTACATTTTGGTTAGGAACCTTAATATTGTTAGTTATTTGTTGTTTATACATAATTACCTCCATATTATATTTAAAAGTTTATCATTATTTATATCTTTTCATAATATTTTCTCATTTTTTCAGCCATTAATTTCCTTCGTTCTATTAGAAATTCTTGATAATCATCCATTGTTATTTCAAAAATACTAATTGGAACTGCATTTTGTTTAAAATTGTCTTCAAGTAAGGAAAATTCTGTTATTCCACCATATTTTAATTCTCCTCCATTGCATTGTTCTTTAACCTCTTGTAAATATTTTTCAATTGGTTTATTTCCTATTTTAATATTTATTTCACTTTGAGTATAAACATAATTAGCAATTTGATTATATTGCCCTCTTGTTAGATCTTTCTTTTTTAATAAATCTCTTGGGAAAATATGGTGAACATCCCCTCTCTGTTCAATTAAGTTTTTAACGGTAATATCTTTTGATAAAAACCCTTTGTCATTAAAATAACATTGAGAAGCTAGGAAAACATTAAATACAGGGCTTGTAGAAATTGAAGTGTTTAATCTTTGAATTAATTCTGCATTCCAAAAGGCATCTGATAATTGAGCATCTTCAATTTCTTTTAGATATTCACCAAAATCTTTTTGAGAGATATTTTTTATATCAAAATCAAATTCACTTTCTGGCGAACCAGAATATCGTCTTGTTAATATAGTAAGAACAAACCATTTTTTTACATATTTTTCAATTAAAGCAGAATTATATTTTTGTTCTTTTAGTTTTAAGTAAAGTATATAGGCAAAATTTAATGCATTTACAGACCTAATCAAACGATTATCAACAAATCCTGCAGACTTTATAATCATTAGGAATCTTTTAAAGTTTGTTTCATTAATAAATTCCTTTACTCCTGAAATTAAAGAATCGTATGATTGTTTAGTAATTTCTTCTTCAAATTCCCTTGTTTCAAAATTTCTACCTGATAATAAACTTACTAAATCACTTAGTTTCCCTCTGTTAAATTTAAAAGTAAATGCAACACGCAAAATATCTTTATAAGTTGGATTGTATAAATCTCCATTTTCATTTTTTAACCAACTAATTTTCTGAAAATAGTCAGTTTTTGAAAATTCAGTATCATTTTCAGCAATATGAGAATAATATTCTGGAGCTTTTGATAAGTGGCTAAAATAATCAATTGCTTTTCTTAATAAATTTCCCCCATAAGTTTCATTTGATGAAATTTTAGACATAACAAAATCTGCTTGACTTAATTCAACTCCTTGACTGTTTATTCGGATAAAAATTTCTGTTACTTTTTCTATGTCTAAATCCCCACTTAATTCTATAAGTCCAATCTGCTTTTTAGGTATATTTATCAAATCTTGAAAAACTGTTTGAATTTTTAATTTGTCAGCATCAGGATTATTTTCTAAATAATCCCCTACTATATCAAATAAATTACCATTAAAAACAGTTGAAACATCATCTATCCATTTTTTATCTTTTGCTATAGCTGGTGTTAAAGTCTCAAACTTTTCTTCAAGTGGATTGAAGGCAATTTGAATCTTAATTTTTTTATAATCTTTGTTTACAACTTTTTGCCCAATAATTGCAGCAGTTAAAGATGTAACTCTCTGTTGCCCGTCAATTAATATTTTTTTGCCTTCTGATAAACTACCATCTTTTAATTTGACATTAGGGTTTTTCCAAGCGATTATATACCCTATAGGATAGCCTTGATATAAGCTATCCATTAAATCTCTAACTTTTTTTGAACTCCATACAAAAGGTCTTTGAATTTCTGGAATTGCTATTTCACCAGATTTTACCCAATTAATTAACGTTTCAATTAATGGTTGATTTACCGCATATTTTTGTGAATTCATATTATTTTAATCTCCTTTATATTTTTTATTTTTGATGATTATTAATGGTAAATATATTTTAGTATTTGTTGTTTTATTGCACTAACTTTTTAACTCAATGTACAGTTTATTTATATTCATGATTTTTCAAATTAACTATTATTCACTCAATACCATATATCTAATTGTGTTTTTTGTAATTATCTAAATATATAACAACTAAATATCTATTTTTAGGATTTCATTTTATATTTGGATTTTTCTTCACTCTTTTTATTAGGTATTTATCATAAAAATATTCTTTGATTATAGAATATAATGAAAATCTTTTCTCTATATTATAGTATAATTTTTTTTTGATAGTGTCAAGTTTTTTCGTATATAATTTCTATTATGTTATATCAAATTTTTTTAATTAATATTTTCAATTAGCCGTATAAAAAAATGTAAATACGATTTAAAAAGTGATGAGAACATATGGTATAATGAAATTAGAGGTGATAAAAATGAAAAAACTACCAATAGGAGTACAAGACTATAAAAAAATAAAAGAAGGAAATTATACATATATAGATAAAACAAAGTATATATTAGAATTAATAAGTTCAGAAGCACCTATTTTTTTATCACGCCCAAGAAGATTTGGAAAGAGTTTAACAATATCAACACTTTACTATCTATTTAAAGGAGAAAAAGACTTATTTAAAGGAACGTATATATACGATAAATGGGAGTTCAAAGAATATCCAGTAATAAAAATAGATATGTCAGATAATACATTAACAACATATGAAGAATTTATAAAATCATTATATGATAAAATAAATGAATTATATAAAGAAGAAGAACTGACACCAACAACAGATGATTTGCCGACAATGTTTGGAAACTTAATAATGAAATTAAGCAAAAAGCATGAAGAAAGAGTGACTATACTAATAGATGAATATGAATCGCCAATATTAGAACATCTAAACAACAAAGAAGAAGCAGAAAAAGTAAGAAGATTTTTAAGAGAGTTCTATAAGAAAATAAAATCAAAAGACGAATACATAAAGTTTGTATTCATGACAGGAATAACAAAGTTTACAAAAACAGGAGTATTTTCAGCATTAAATAACTTGAACGATATATCATTAGATAAAACATACTCGCAAATGTTGGGATACACACAAGAAGAATTAGAAGAAAACTTTAAAGAACACATAAAAGAAACAGCAATTGAGATGAAGATGGAAGAAAAAGAGTTATTAAAAAACTTAAAGATGTACTACAATGGATTTTCATTTGATGGAGAAGATAGTGTATACAATCCATTTTCAATACTACAATTTTTCAAAAAAAGGAAGTTTCAAAACTATTGGTTTGAAAGTGGATCACCATCATTTTTGTATGAATACATAAAAGGAAAGAAGATAAGATATGAAGACTTAGTGAAGTATCCAGTGAGTGAACTCGACTTTTCAACTCGAGAAATAGAAGAAGCAAATGCAAGTATATTTTTTACACAATCAGGGTACTTAACCTTTAAAGGAAAAGAACAGTATGGAATGGAATATGAATACCTATTAGACTATCCAAATATAGAAGTAAAGAACAGCTTTTCAAAGATGATATTAGAAGCAAACTATGAGCTTGAAAGAGGAAAAATAAAAGAAATAAACAAAACAGTGTGGAAAGCAATAAAAGAAAAAGACATAGAAGGAATAATAAAAGAAATAAAAAGAATAATAAGTGCAATCCCATACAACTTGCATAAAAAAGAAGAAAGCTACTATCATTCATTGATATACACAATACTCGCATCAGCAGGACTGAACGTAACAGCAGAAGAGTTAACGAACTTGGGAAGAAGTGATATAGTAATAGAATTTGAAGACATCATATATATAATGGAAATAAAGATAGACAAGAGTGCAGAAAAAGCCTTGAATCAAATAAAAGAAATGAAGTACTATGAAAAGTACAAAGGAAAAGAAGTTTATATAATAGGAATAAACATAAACTCAGAAAAAAGGAACATAGACGAATACAAAATAGAAAAGATATAATCCCAGCGGGTGCTGGGATATTTTTTTATAAAAAGAATATATAAAATTAAAAATTAAAACAAAACACAATAGATTAAAGATAAAATCAAAGTAAAAAAACACTCAAATTTTTGAAGTTGATATTGTGTTAATAATGAAATGTTAAACCAAAATATTTATACTCAGATTATACAGTTTGAGTAAATAGAAATGAAACAAAACGAGAAAAAAATTAATAAATAAAGAGGACATGGCCGATTAACTTAATATAGGAAGCATAACAACTTCTATATTAAGGAGGTAATGACCATGTCCAATAAAATGGTACCACTTTTATTAGCCATAGTCAACTGTCTGTTTAAATTTGTAAGGTTCAAAAGGTACGATACGAGAGTGTAAAATATTAAGTGTATAAGGAAAAAAAGATACAGATCTGGTGGTAAAATAAAACCAGAGGAGGTACGAAAAATGGGAAATGTACTACAGGAAATAATAAAGGAAATGGTAAGAAAAGGAGAAATCCGAACAATAAAGGATATAAAGGAATTAACAAAATCACTGACAGGAAATCTGATCCAGGAAGTACTGGAAGCGGAACTCGAAGACGAGCTGGGCTATGGAAAGTATGACAGAGAAAAGAAAAATACAGAAAATTCAAGAAATGGCTACAGGAAGAAGAATTTAAAGAGTAGTAGCGGTATGATAGAATTAATGGTACCTCGAGACAGAAAGGGAGAATATGAACCCAAAATAGTTCCAAAGTATTCGAATGATATTTCAGAGATAGAGGAAAAAATAATAAGTTTGTACGCAAGAGGAATGACCACCAGGGATATATCTGATCAGATAATGGATTTGTACGGATTTGAAGTATCAGCTGAACTGGTGAGCAAAATAACAAATAAGCTTATGCCATTAATAAAAGACTGGCAAGAAAGGCCATTACACGAAATATACACCTTCGTTTTCTTGGATGCAATATACTTCAACGTTAGAGAGGACGGAAGGATAGTAAAGAAGGCTGCTTATGTAATAATAGGTGTTGACATAGATGGAATTAAAGATGTGCTCGGGATATATGTTGGTGAAGTAGAAAGTGCCAAGTTTTGGATGGGAGTACTTAACAACCTCAAAAACAGAGGAGTTAAGGACATACTTGTAGCTTCAATAGATGGTCTTTCTGGATTCGAGCAGGCTATAAATGCAACCTTCCCGCAAACTATGATACAAAGGTGCATAATCCACCAGATTAGAAACACCCTGAAATATGTTCCTCACAAGGACAGGAAAGAGTTCGCAAAGGACTTAAAGACAATCTATACAGCACTGGATGAAAAGACAGGCTATGATAATCTAACCAATGTAATAAACAAATGGGGAGACAAGTATTACGCTTCATTGAGGAGCTGGGAGAAAAATTGGCACCTATTATCCACCTTCTTTCAGTTCTCAGACGGGGTAAGGAAGATTATGTACACCACGAACATCATAGAGTCACTTAACAGGCAATTCAGGAAGGCTACCAAGACCAAATCAATATTCCCTAATGACGATGCTGTCCTTAAAAGTTTATACCTTACTACCAAAAACGTGACAAAAAAATGGACAGCACGGTTTCACAACTGGAACGCTGTTATTTCCGAACTGGCCATCCTTTTCGAGGAACGTCTTAAAGACTACCTCTGAAAGTAGCTTGTAATCCTAAAAAACTTAATATTTTACACTCTCGGGAGATGGGTTGTCGCCCTTTCAGTCATTGCAGTTTTTTACTGTAAAAGGTTGGTTTTACCAATTTTGCCTTATTTAATTCATACTATTCAGGAACATTTTTTTCATTTTCTAATAACTACATTTTTTTAAGATTTTTGTCGTTGTTTTCCAATATTTATATGCTACCAGATATATCTAATACACACTAATCTTTACAGACTCTACGATACAAAGGATAAGCTTATAAACTATGTCTTTGGTCTTCTCACGATAAAAAACTTTTCAATGCTTGCACTTGAAAAACTCAGTAAAATGAATGAATCGTGTTATTCAAGGCTATTGAATTCTACAAGCGTTTTATACAGGGACCTCGTGAGTTCAAGGATAAGAATGATCGAGAAATTCCTTAGCTCGCATTATTTAAAGCCTGTATATTTAATACTGGACGAAACGGTAATTAAGAAGTACGGCAAATATATAGGGGGACTTAACAAGTTCTATTCAACAATAGAAAACATGGTAATTAAAGGCGTCTGCTTCCTTCAATGTTTAATGTATAATAAAAGTAAGCCAGAAATACAATTGAAAAATGGGCCAGGAAGGAAAAATGAGTCTGTAAAGATTAGTGTGTATTAGATATATCTGGTAGCATATAAATATTGGAAAACAACGACAAAAATCTTAAAAAAATGTAGTTATTTGAAAATGAAAAAAATGTTCCTGAATAGTATGAATTAAATAAGGCAAAATTGGTAAAACCAACCTTTTACAGTAAAAAACTGCAATGACTGAAAGGGCGACAACCCATCTGCGCGGTACAAAGTATAGATTTTTTAAGGATTACAAGCTACTTTCAGAGGTAGTCTTTAAGACGATCCTCGAAAAGGATGGCCAGTTCGGAAATAACAGCGTTCCAGTTGTGAAACCGTGCTGTCCATTTTTTTGTCACGTTTTTGGTAGTAAGGTATAAACTTTTAAGGACAGCATCGTCATTAGGGAATATTGATTTGGTCTTGGTAGCCTTCCTGAATTGCCTGTTAAGTAACTCTATGATGTTGTGGTGTACATAATCTTCCTTACCCCGTCTGAGAACTGAAAGAAGGTGGATAATAGGTGCCAATTTTTCTCCCAGCTCCTCAATGAAGCGTAATACTTGTCTCCCCATTTGTTTATTACATTGGTTAGATTATCATAGCCTGTCTTTTCATCCAGTGCTGTATAGATTGTCTTTAAATCCTTTGCGAACTCTTTCCTATCCTTGTGAGGAACATATTTCAGGGTGTTTCTAATCTGGTGGATTATGCACCTTTGTATCATAGTTTGCGGGAAGGTTGCATTTATAGCCTGCTCGAATCCAGAAAGACCATCTATTGAAGCTACAAGTATGTCCTTAACTCCTCTGTTTTTGAGGTTGTTAAGTACTCCCATCCAAAACTTGGCACTTTCTACTTCACCAACATATATCCCGAGCACATCTTTAATTCCGTCTATGTCAACACCTATTATTACATAAGCAGCCTTTTTTACTATCCTTCCGTCCTCTCTAACGTTGAAGTATATTGCATCCAAGAAAACGAAGGTGTATATTTCGTGTAATGGCCTTTCCTGCCAGTCTTTTATTACTGGCATAAGCTTATTTGTTATCTTGCTCACCAGTTCAGCTGATACTTCAAATCCGTACAAATCCATTATCTGATCAGATATATCCCTGGTGGTCATTCCTCTTGCGTACAAACTTATTATTTTTTCCTCTATCTTGAAATATCATTCTAATACTTTGGAACTATTTTGGGTTCATATTCTCCCTTCCTGTCTCGAGGTACCTTTAACTCTATCATACCGCTACTACTCTTTAAATTCTTCTTCCTGTAGCCATTTCTTGAATTTTCTGTATTTTTCTTTTCTCTGTCATACTTTCCATAGCCCAGCTCGTCTTCGAGTTCCGCTTCCAGTACTTCCTGGATCAGATTTCCTGTCAGTGATTTTGTTAATTCCTTTATATCCTTTATTGTTCGGATTTCTCCTTTTCTTACCATTTCCTTTATTATTTCCTGTAGTACATTTCCCATTTTTCGTACCTCCTCTGGTTTTATTTTACCACCAGATCTGTATCTTTTTTTCCTTATACACTTAATATTTTACACTTTCTAGTAAGGTATAAACTTTTAAGGACAGCATCGTCATTAGGGAATATTGATTTGGTCTTGGTAGCCTTCCTGAATTGCCTGTTAAGTGACTCTATGATGTTCGTGGTGTACATAATCTTCCTTACCCCGTCTGAGAACTGAAAGAAGGTGGATAATAGGTGCCAATTTTTCTCCCAGCTCCTCAATGAAGCGTAATACTTGTCTCCCCATTTGTTTATTACATTGGTTAGATTATCATAGCCTGTCTTTTCATCCAGTGCTGTATAGATTGTCTTTAAATCCTTTGCGAACTCTTTCCTATCCTTGTGAGGAACATATTTTAGAGTGTTTCTAATCTGGTGGATTATGCACCTTTGTATCATAGTTTGCGGGAAGGTTGCATTTATAGCCTGCTCGAATCCAGAAAGACCATCTATTGAAGCTACAAGTATGTCCTTAACTCCTCTGTTTTTGAGGTTGTTAAGTACTCCCATCCAAAACTTGGCACTTTCTACTTCACCAACATATATCCCTAGCACATCTTTAATTCCGTCTATGTCAACACCTATTATTACATAAGCAGCCTTTTTTACTATCCTTCCGTCTTCTCTAACGTTGAAGTATATTGCATCCAAGAAAACGAAGGTGTATATTTCGTGTAATGGCCTTTCCTGCCAGTCTTTTATTACTGGCATAAGCTTATTTGTTATCTTGCTCACCAGTTCAGCTGATACTTCAAATCCGTACAAATCCATTATCTGATCAGATATATCCCTGGTGGTCATTCCTCTTGCGTACAAACTTATTATTTTTTCCTCTATCTCTGAAATATCATTCGAATACTTTGGAACTATTTTGGGTTCATATTCTCCCTTTCTGTCTCGAGGTACCATTAATTCTATCATACCGCTACTACTCTTTAAATTCTTCTTCCTGTAGCCATTTCTTGAATTTTCTGTATTTTTCTTTTCTCTGTCATACTTTCCATAGCCCAGCTCGTCTTCGAGTTCCGCTTCCAGTACTTCCTGGATCAGATTTCCTGTCAGTGATTTTGTTAACTCCTTTATATCCTTTATTGTTCGGATTTCTCCTTTTCTTACCATTTCCTTTATTATTTCCTGTAGTACATTTCCCATTTTTCGTACCTCCTCTGGTTTTATTTTACCACCAGATCTGTATCTTTTTTTCCTTATACACTTAATATTTTACACTCTCTTTAAATAGAATTTTATAAATTATTAAAAAGAAAAGATATATGGATACTTTTAACTATGATATTAATACCAATATTTTATACTGTTGGTATGTATTTAAATGCTTCTTTTATACAATACACAAGAGAAACAAAGATGTATTGTATGGATTTTGTCAATGGTATGTATATGTTTGTATATTATGTTTCAATATTTACTTTTTTTATAATGTTTTCTAGCATTCAATCTCTACGAGGAGAAGTTGAAAATAAAAGTATCAAACTCTATATTCCAAGATGTCAAAGTAGATCAAAAATCTATATTGCTAAAAATATTAGTTTATCTTTGATGTTTATTATTATAACTATAATTTTTTATATTATAACTATTATTTTAGATTATTTATTTTTAATTCATAGAACTGATATAGCTTTAAACGTTTTTTGGAAAAGTCAAGATACAGAGTCAATAATATTTTTTATAATATCAATGCTATTTTATTATTTGTTCCTCATTCAATTTGCATTTTTTTTGAGTTCTTTTTTCAATCCTTTGATGAGCTCAATATTAGCTTTAATTACAACTATTTTAACTTTTTATTTAAAAGTAATTTCTTATATACAAACTTTAGTTCTAACTTATTATCTTGAAAAAATTATGAATAGTATTAAAATACAATATAATGATATATTTCTTTACTTTTTGTTAATCTTAATTTATGGAATAATTTTTAATTTACTTGGAATTAAAAAATTCAAAAAATTGGATGTAATATAATGAATTATAATAATGAATATAATAAAAAAGATAAGTGGTTATTTTTTATATTACTTAGTTTTTTACCAGTTTTTAGTGCACTATTTTTGAGTATATTATCTCTTACGTTATTAAACAACTTAAATTTATCAGTTAAAAGTATTTTGTCTGTTTTATTTTCTATGGGAATATCAATGATTTTATTACCCTCATTACTGGTTAAAAAAAGATTTAAAAATTCTTTAAAAAAATTTGGATTAAGCATAACTATTGAATTTTTTGATATTGTTTTTCTAATACTTATTTTTTTTATCATTATGAGTTTTCAAATATTTTATCATTCCATAGATTTTTTTAAAACAATACTGTTTCAAACTATAGTAGTAGCTATTTCAGAAGAATTTTGGGCAAGAGGAATATTAATTAACTATTTGAATAAAATCATAAATTCGAAATTTATGATTCTTAGTATTTCTAGTTTTATATTTGCTTTTATAACACACATCAATAATCCTATTGTAGATAATTTAATTTGGAGATTCCCTATGGGATTTTTATTAGGATATTTGTATATGAAAAGTGGAAAATTATGGATTCCTATTGGTCTACATTTATGTAATAATATGATATCTTTGTATATTTAAGTAAAAAAATTAAAAGGGAGGGATTTTATGAGAAAAAAATTTTTTATGATTTCTATAGGAATAATGTATATAATATTTACATTTGTTTTTATTTTTTATATGAAGGATATTAATGTTCTATCTTTAATATTAATTTGTTTAATCCCATCAATAATTTCTTTAATAATGTATTCTTTGTACTATTTTTTTAATTCATTGGATTTAAAAACAAATAATCAATTAACTATATTTAATGGAATAATTTATAGCATTTTTTTAGGGTTGATTTTATTTTTGATTAAAAGTAATAATTTAAAAGAAATTATTTTTAATAACAGTAAATTTTTAGAATCTAGTACAATGACAATATCACAAGATAAGTTTCCAATTATAAATTTATTGATATTTGTATTAATCATAATGATAATACAATACTTCTTAGGTAAGTTTATTATTAATTTAAAAAACAAGAAATAAATTAAAAAGTTTATTTTAGTAGGAGTGGAAAAGATGGGAATATCTATAACAGTTCAAAATAAAGATAATGATGATAAAAATAATAAAATAAATAAAAATGAAAAGAAACTCCTTAGTTCAATGGTTATTAAACCTTACTTTAAAAATTATATTTTATCTTTTATAATTTCTTTTTTTACTGCTTTTGGGATTATAAGCATTGTATTATTAGAAAAAGATTTAATAAATTTCCTCACAAACAAAAACTATGATATGTTTTTTAATATTGGTTATAAGTTATTCTTTTTAAGTATAGGTGTATCAATTCTTGTTTTCATCAAAACATTTGTAAATAATGTATCAACTGAAAAAATAATTGTAAAGCTTAGAAATAAATTTTCTGAAAAGCTTTTAACTTCTAAATATACAGATCTTGAAAAGCAACAAACTGGAGAAATAATGACATTGTTTTTGAATGATATTGATTTAATAAAAGATTATATTTCAAAGGTGTTTAATGACTTACTTTATCAACCAATCATTTTTATTATTTCTATTTCATTTGCTTTATTCATAAATTGGAAATTAACCGTTGTTTCATTTCTTATAATACCCATAAGTTTAATAATATCACTTATTGTTGCATTACCAATAAAATCTTATACTTTTAAACAACAAAATATAATAGATAAATCAAATACAATATTTAGTGATGCGATTTCTGGCATAGATGTCTTAAAAGCATTTCAACTTGAAAGTATATTTCTATCAAAATTCAAAAAACAAATTAGCTTTTTTTTAAAAAATTATAAAAAAATATCTTTCTTTGATTCTTTATTATTTCAAATGAATATCATAATTATGTTTTTACCTATTTTAATACTATTTGCATATGGAGGATTTGAGATTATAAATAATAGACTAACCCTTGGAGAATTAATAGCCTTTATGCAATTTATAATTTTATTCATTACTCCACTTAGTTTTTCTACTCACTATATTTCTTCAAGAAATAAAGCAGTTGTTTCAATTAAAAGAATTAAAAAAATATTAGATTTGAAAGAGGAACAAACTGGTAAAAAAACAAATATAAATATAAACTATAACCCTACTATTGAATTTGATAATGTATCTTTTAAATATACAGATGAGTTTATATTCAATGATTTGAGTTTTACAATAAATAGAGGAGAAAAAGTTGTTATTTTAGGCTCAAGTGGTTCTGGAAAATCAACAATTTTGAAATTGTTAATGGGTTTTTATAAAGTAAATAAAGGAAAAATAAAAATTTTTGGTGAAGATATTAATAATTATGATATACATGAATTAAGAAAATATGTGTCCATAGTTCCTCAAGATATTTTTCTTTTTAATGAATCTATACGTTGGAATGTAAAATTTTCTGATTTTGATAATGTTACTGATGAAGAAATTATTCAATCAATGAAAAAATCTCAAATTATTTCTTTAATCAATCAAAAAACTCGAACATTAGATACAAAAATAAGTGAGTTTGGAAATAGTTTATCTGGTGGCGAAAAACAAAGATTATCGATTGCTCGTGGTTTATCGAAAAGTGCGGAAATATTTATATTTGATGAATCTACTTCTGCGCTTGACCTTGAAACTGAAAATAAATTACTTGAAAATATTTTTTCGGAATTAAAAGATAAAACTATAATATTTATTACCCATAGAAAATCTATTTTAAAATGGTTTGATAAAAAAATTATTATAGAAAATGGAAGGGATCTAAATGAGTAAAAATTCTTCTGTTAAATTTATACTTTCATTCATGAGAAAAAATGGTGGTAATACATTTATATTTTTAGCTTATTGGATATCTGTATTTTTTGTTGCATCACAAAACTTCTTTTTTAATTATTATGTTGCTAAAGGGTTACAAACTTCTGTAGACGGTATGATGCAAAAAGACTTTTCGTCATTTTTAGGTGGTTTTATTCTTGTTTTAAGATCTTTTGGTATTTTGATTATTGTAATGGGGATATTTTCATATATAAATGATTATGTAGTAAAAAAAATTACAAGTATAATAAAAGAATATTTTTTTAAAAAAGTTTTAAGATTAAAACCTTTTTTTGATGAAAAGTATACTTCAGGAAAAATTATGACACTTTATAATAGTGATATAGAAAAAGTTGAAAGTATTTATTCAAATCAAATATTGAATTTATTAATGGCTATTGTGGGAGCACTTGGTGGTGCTGTTATAATATTTAAATTAAATAAATACATATTTATTTATATAATAACTATTGGTATTTTTAATCTCATATTAAATTATATTTTTATAAAAAAGATGAAGGTTAATTCTCGGAATATACAAAATACAATATCTAAACAAACAGAACATATTTCAAATTTTTTGAGTGGAAGTTATATAATAAAAGCTTTTAATAATGAAAATTTTTTTATTAAAATTTTTAAAAACACAACAAAAAAATATTTTGATTTTTCAAAAAAAAGAGCAAAATATGATGCAGGAATTTCTTTTGTAAATAATGCTTCAGAATATTTTGAATTTGCTGGTCTTTTAATAATATCTGGTTTTTTTAGTTTAAAAGGTGCAATCTCAATAGGGAGTGTTTTATTGTGTGTTCAACTTGGAAGACCAATTATAGATTTATTTAAAGCTTTGAGCTCATATTTTTCAAATATTCAAAGTATTCTTGCATCAACAGAAAGAATTTCAAATATTTTAAATTTAAATGATGAGGAAATAAATGAAAAAGAATTTTTTGAAAATAATACAAAAAATTTTCAAGAAACACCTTATGCCATAGAATTTGATAATGTTAGTTTTTCATACAATAAAGATAAGTATATTTTTAAAGATTTATCTTTTAAAGTTAAAAGTGGATCAAAAACACTACTCGTTGGTAATAGTGGAATAGGAAAAAGTACAATATTAAAGATATTACTTAAATATCATACTAATTACAGTGGGAATATTTTTGTGTTTGGAAAGTCTTTAAAAGATTATGATGTACATGAACTTAGAAAACTTTTTTCATATGTTCCACAAAATTCTTTTCTTTTCAATGATTCAATTTTTGAAAATATTCATTATGGAAATATAAATAAAAGTAGTGATGAAATTATTAAAGTATCAAAAAAGGTAAGATCTCATGAATTTATAGAAAAACTTCCAAATAAATATGAAACAACTTTAACTAACAACGGGAATACTTTATCAGGGGGACAAAAACAAAGATTAGCAATAGCAAGAGCACTTTTAAAAGATGCACCAATTTTTATTTTTGATGAACCAACATCATCTTTAAATGAAAAACTAAAAGACAAAATCAATTCAGTAATAAAAAATACTATGCAAAATAAAACATTTTTTTTGATTTCACATGAATTTAACTCTGAAGATTATGATGAAGTTATAACTCTTGATTTTAATAAAGTAAAGATCTAATAATATAGAATAAATTTATTTTTAATAATGCTTATAAGCTTAATTAAATGGTACAAAATATAGTAAATTCATTATAAATAAATATTTCAAGAAATATAAAATGAAACAAATCCATTTAACGGCTTTGTTTCATTTTATACATTTTTTCATCTGCTTTTTTTATAGATTTTTCAATAGATTCTTTTGAAGTTATTTTTTCAATACCATATGAAATATCGATTTTAAAGTTAAAGTTTAAATGCTTAACTTCGTTTTTTATTTTTTGCATTCGTTCTTCGATAAAATTTAAGTTTGTATTTTCAAATACAATTAAAAATTCATCTCCCCCAAATCTGGTGGCAAAGTCCATTTTTCTAATGTTATTTAATATTATTTTTGAAATAGATTTTAAAACTTTATCGCCAGTAAGATGACCATAATTATCATTTATTTGTTTGAATTTATCAACATCTATAACTACAAGAATTGATTCTTCACTTGTTCTTTTTAGTTTTTCTCGTTTTTTATAATGCCATTCATAAAAAAAGTATTTTGTATATAGTCCAGTTAAAGAGTCTTTTAAAGCAATATTTTTATATTTTTCTTTTTCTAAATGTAATTGATTTAATATTTCTTTGTATTTAAATGATAATTCTATTTCTTTAGCAATTGTATTTAAAATACTTTTATCTACTTTTTTATAAGAGTTTTCTCCAGTTTTTTCAAATAAAATTACCCCTTTATTATGTTTTGTTTTTATTGGTATCGATAAAATAGTCAAACTTTTATTCAAAAAATTTTTATCTTGTACACGTGGAGTATAATCCGGATCTTTCCACTTTAAAATATTGGGTATGTATAAAGATTTATTAGTATCAATTGAATACCAAGATATATTTTTTGTTTTTGCACTTTTTTTAAGCGTATAATCAATTATTTTGTTTTTACTTAACCCTAATTTAAAATTTAAATTGTTATTATCTAAAAAACCTAAACCTAAGAAATCTATTAAATTTAGTTTTTTTAATTCTAAATAAATATAAGTAAAAAAATCAAAAGAATCTATTTTTTCAGAAGTTATTAAATCAAATGATTTTTCTAAAAAGTCTATATTATTTAAAATTTTTATTATCTTTTTTTTATTTTTATATTTTAATAATAAAAATATAAAAGTAAAGACTATTATTAAAAATATTCCAAAGAGTATCTGTTTTAAAGTTTGAGATAGATTATATATATTTCCTTTTTTTGGAAAATATTTTGAAAAAATAGTATAATAATAAGAATTTTTATTATCTTTTAAAAGCTTAAATTTATTTTTAATATCATTTAAAAACAAAATTCCTGTTTTAGATTTTTTAGAAGTGGCTATAGTTAAATCTGCAGGAGAGAATACAATACCAGTTTTTTTTAATGTGTTATTAGAAGTAAGAAACGAATTAGAAAAAACTCCAGCAAAAATTATATGTTTTTTTAATGCTTTGACAATTTCATCATAATTATTAAACTCTATGAACTCACTATTTATATTAAAATCTCTTAAAAGGTTTTTAAATCCTTTTTCTCCAATGTAATGTATATCATTTTTCATAACTCCTATTTTTTTATTTTCTAGTAGTTTTATTGAAGATAAGTTTATATTTTTTGAGGTTGCAAGTTCTCCATAATTATAAAAAAAACTTTCTTTAAAAAAAATATAATTTTTTTCTCTTTCCTTTATATCTTTTATATTAATTAAAATGTCTATTTTTCCATCTTTTAGTTCTTCTAATAAGTTATTCAAATTACCATAGATCCAGTTAATATTCCAAGTGTCTTTTGAAATATAGTTTAGTATATCAACAAAAAAACCACTTTCAGTTTTATTTTTTTTAAAACAAAGTGGATAATCATTATAATAACCTATTTTTATGGATTGAGAGTATATGAATGAAATTTGAAACAAAAGAATTAATAATAATATTTTTTTCATATTTCCTCCAAATAAATACTTATATAATATATTATATAATTGTTTATATTAAAAAAAAGCAAAAAATGTAACAGAATAAAAACGATTATGTTTAAATTTAAATATAAAAAAATACAAAAAATACAAAAATATTTTTATAGTTGATTATGATATAATTAAGTATAAACGTTTAAGGAGAGGGATAAAATGAATATAGATTTTAATAATTTTGATTTATTTGTTATAAAATTAAATAAAAATGGAGAAATTATATATGCAAATGATTTTGCTACTTATTTATTGAAAACTACAGAAGAAGATTTATTAAATAAAAATTGGTTTAATAACTTCTTACCTAATGAAGTAAAAAAGGAAACTTTTGAATACTTTAAAACAATAATTTCTGGTGTTAATGAAATGACAAAAACACATGTAAATGAAATTTTAAATTCGGAAAATGAAAAAATATATGTTAAATTTTTTAATGATGTAGTAAAAAATAAAAAAAATGAAATTATAGAAGTTATTAGTATAGGAATTGACATAACAGAAGAAATCAAAACAAAAAAGTTAAAAGAATCTATGAGGAAGATTTATAAAGCCCTTTTAGATTTGTATGAAATATCTTTAAATAAAAAAAATTATTCAGAAGTTTTTAAATATTTTTTAAAAGAGGCAATTTCAATGATTGATGGTATTAATGCTGGTAGCATTTTTCTTAAAGATAATAATAAAAATTTTAAGTGTGTTGCAATATATAATTATGATTTTAAAGATATTAAAACACTTTCTTTTAATGAAAAATATTTTGAAAGATACAAAAAATTTTTTATATTCAATGATTATAAAAATTACTATACAAAAGTTAAAGATAAAATTAAAAATTATGGAATAAAATCTTCTATTTCTGTTCCGGTTTTTGTAGACAATGAGCATGTAGCTCATTTATTTCTTGATTCTTTTAAAGGTAAAAATGCATTATCAGATCTAAGCCTTAGTTTATCTAAAATAGTTTCAAATCAGCTCAGTATATTTTTAAAAAGAATGAAGGTTGAAGAAAAATTAAATAAATTATCTATGTATGATTTTTTAACAGATTTACCTAATAGAAGATATTTAGATCAAAACTTGGGCAATATATTCAGTCTTGCTGAAAGAAATAAGTTTGAAATAGCTTTCGTGTACATTGATTTAAACAAATTTAAATGTATTAATGACAAATATGGACATGATATTGGAGATTATGTTTTGAAAAAATTTGGTAAAATTTTAAAAGAATCTTTAAGAAAGAGTGATTTTACTGCCAGACTTGGTGGAGATGAATTTTTAATAGTTTTAAATGATGTAAGAAAAGAGTTTATTGAACAAACATTAAGTCGTTTGTTGAATAAAGAAAATGAAAGAATAAACATTGATGGAGATGAATTTAAAATTTCAATAAGCTGTGGAGTTTCAATCTTTCCAAAAGATGGAAAAAATTTTAATACTTTATTGATGAAAGCTGATAAAGCTATGTATAAAGCTAAAAAGTCAAAGAAACTCTATGAATTTTATTAAAGTTCATAGAGTTTAAATCTCAATTTATGATTTTTAAATAATTCGTATATTTTTTCAAATTTTATTCCAAAAATATTATCATTAAAGAGTTTTTTAGTTTTTATAGCTGCTATTTCTTTGCTTTCAAGAGTTGGTGTTAAGGTATTTAAAATATTTAATAAGGTTTTTATTATTATTTCTTCATTTTGAATAGTAGTATTGTAAAGAGCTATTCCAATTAAAATTTTATTTTCATATCTATTTAAAAGAACATCACCGTGGTCAAGATCTTTTTTGTTTTCCAATAATTTCCAATTAGAATTTTTCTTTAAAATTTTTATTACTTTATCTTCTTTTCCATTAATATCAATTCCAAACATTATATATTTTTCTGGTATTTCTGAAATTTTTTTTATCATTTTATCACCCCTTTTAAATTATAGCATAAATTGGAGGTTTAAATTGATTAGATTATATATAACTCGGCATGGAGAAACAGAATGGAATATTGAAAAAAAATTCCAAGGTTGGGGAGATTCACCGTTAACCAAAAAAGGAATAAATCAAGCTAAATTATTATCCGAAAGATTAAAAAATATTAAATTTAATGCTATTTATTCAAGTTCACTCAAAAGAGCTTATAAAACAGCTGAAATTTTAAAAAGAGATAGAAAAATTGAAATAAAGCAAATGGAAGATCTTAAAGAAATAAACCTTGGAAAATGGCAAGGAGTTAATTATGAAAGTTTTAATGGGATTTATTCCAATGAGCTTTATTTATTTTGGAATAAACCACATCTTTATAAAAATGAAACAGGCGAAAATTTTTACGAAGTAAAAAAAAGAGTAAAAGAAGTTTTAAATAAAATAATAAAAAATCATAATGAAGGAAATGTTTTAATTGTAACTCATGGAATTATATTAAAAATAATAATGTCTATTTATGAAAATATTGAGCTCAAAGATTTGTGGAAAAAAACTTATTGTGAAAATACTTCATTGACTATTGTAGAAGTTAATGATAATAAGTTTAATATATTAATGACAGGAGATAAATCACATTTGAAAGGAGAAGAGTATGCTATCAAATAAAAGGGCTAAAGAACTTGTCAATAAGTATGGGACTCCACTGTTTGTATATTCAAAAGATATTATTTTGGATAAGATTAATGAATTAAGAGAAAACTTTTTAGAAAAACACGATAACACAGAAGCTGTTTATGCAGGTAAAGCATTTCTTTGCAAAGAAATGTGTAGAATTTTAAAAAGAGAAAATATGAGTTTAGATGTTGTCTCTGGTGGGGAATTATATACAGCTATGAGTGTAGAGTTCCCTGAAAATAAAATATACTTTCATGGAAATAATAAAACAATTGAAGAGATAAAAACGGGAGTAGAATATGGAGTTAATTTTATTGTAGATAATGAAAATGAGTTGAATAATTTAATTCAAATTACAGATAATTTAAATAAAAAAATAAATATTCTTTTTAGAGTTTCACCAGGTGTTGAAGCACATACTCATAAGTATATAATTACTGGAAATGTAGACTCAAAGTTTGGATTTCAATTAAATGATTATTTATTAAAGGTATTAAAAAAAGCTATAAATTCAAATACTTTAAACTTTATGGGTTTTCATTTTCATATAGGTTCTCAACTATTTGATGTATCTCCATACATAGAAGCAATAAAAAAAATAACTGAATATGCGAAAAGAATAAAAAAAGAACTTAATTATGATATAAAAATTTTAGATGTTGGTGGTGGATTTGGTATAAAATATACAGATGAAACAGAGCCTAAGATAAATTTTTTTACAGATAAAATTATGGAAACTGTACAAAATGAATTTAAGTCAAAAGAATTAATAATTCCAAAAATTTTAATTGAACCAGGAAGATGGTTAATAGGAAAAGCTGGTATGACTTTGTATAAAATTGGAACAATAAAAGAAATTCCAGATGTAAGAAAGTATGTGAGTGTAGATGGTGGAATGACAGATAACATAAGACCAGCTCTCTATGGATCAAATTATGATGCAGTGGTTTTTAATGACTTAGATAAAAATGAAATTGAAAAAATAACTTTAGCTGGAAAGTGTTGCGAATCTGGAGATATTTTAATAAAAGATATTGAACTTCCAAAATTAAAGACAAATGATATTATTGGCGTTTTAAGTACAGGTGCTTATTGTTATTCAATGTCAAGTAATTATAATAAACTTCCAAAACCTGCAGTTGTGATGATAAATGGAAGTGAAGATAAATTAATAATAAAAAGACAATCTTATGAAAAAATGATAGAAGATGAGCTTTAAAAAACGGACAAAAATTTTTGTCCGTTTTATTTTTAGCAATTCTATTAAAATACTTACACTAAAATAAAAATAGAATTTATATTAATTAACTTTAAAACATAATCAAATAGATTGACAAGATAGTATTAAAAGAGTTATAATTATACTAACCAGTATTATACTATTCAGTATAATACTGGTTAGTATAAATTAGAGGTGAAAAAAATTGAAATTTTATAATAGAAAAAAAGAAATTGATTTTTTCAATAAAATAAAAAAAACAAATAAAAAAGTTTTTATTGTATTGTATGGAAGACGTAGAATTGGAAAAACAACTTTAATAAAAAAAGTTTTTGAAAATGAAATAAATACTTTTTATTATTTTGTTGAAGTAAAAAAAGAAGAAACGTTATTAAAAGAATTGAGCTTAAGTTTTTCAAAAGGTTTATATATGAATTGGTATGACCTTTTTTTAGATTTATTTAAAAAATATGAATACGTTATTTTTGATGAATTTCAAAACTTTTTTAAAATAAATAAAGAAATATTGTATGCCTTTCAACATGCATGGGATGAAAACAAAGATAAAACTAAATTAATAATCTTAGGTTCATATGTGGGAATGATAAAAAAAATATTTACTGATGAAAAAATGCCTTTATTTGGTAGAAATGACTATCTTTTAAAGATAAAAGAATTTTCTTTAAAAGATACACTTTTAATGCTAAAAGATTTTGGTTATAGTATAAATGAATCATTAGAAATATATAGTATAACTGGTGGAATTCCTAAATATTTATGGCTTTTTAAAGAGAAAAACTCATTAAAAACTTTAATTAATAATTTATTTATTGATGAATTCTCACCTTTAAAAGAAGAAGCAAAAAATATTTTAATAACAGAGTTTGGATCAGAACATAAATCTTACTTTTCAATTTTAGAATCTCTATCTGGTGGAATGAAGAGCAGTTCTGAAATATCAGATATTTCTAAGATACCTCAAACTAATTTGCCAAAATATTTAAATGAATTAAATAGCATATATGAAATCATTTCAAAAGAAAAATCTTTATTTAGTAAAAAAAGTAAAGACATAAAATATATGATAAATGATAATTTTTACAATTTTTATTTTCAAAATATATATAAAAACTTTTCATTGATTGAATTTGTTCCTGAAAAAGCACTTGAAAAGATTTATTTGAATTTCAATAATTATGTTGGATTTCAATTTGAAAAAATTTGCAAAAAATTTATAATTGAAAATCCAAATATACTTGGTTTTATACCAGAAAAAATTGGGAAATGTTGGGGAAAGGTTCCGTATAAAAAAAATGAGTCTTATGATATTGATATAATAGTATATAATGAAACTAATATTGTATTTGGAGAATGTAAATGGACAAATAAAAAAGTAGGATTAAAAGTATATGATAAATTAAAATTACGAAGTACATTTATTAATTGTGGTAACAAAAATAAAAAATATATAATTTTTTCAAAAAATGGTTTTTTAGATGAAATTCTCAATTTAAAAGATGAGTCATTACTTTTATTTACTCCTAAAGATATAAAAAAAATCTATAATATATAATGCATTAGCTTATGAATATATATTTTTTCTTTTTTCTTAACATAATAAAAATACCTCCGTGTAGTTCAATGCAAATTTTTAATTATTTACACTGGCTACTCTGGAGGTATTATATCAATCTATTTTCTTTATTTTTGAAATATTTTTTCCATTATATATCCAAGATAAAATCCCACAAAAATAAATACAATTACTAAAAAGTTTAAATGTGGGAATATCTTTACTGTTCCTGCGATTGTTAAACCTATTAAAAAAGACATAACTACTTGTTCATTCTTTTTAAGTAAAAAGTCTAAAAGTTTTACAATAAAAATTAAACCTATTATTACACCAATTCCAACAGGTAAAATTATTGTCATATCAAATTCTGAAATTGCTTTAATAAATGGTTCATATACTCCCATAATCAAAAGCATAGATGATCCACTTATTCCAGGGAGTACCATTGTTGCTGCACCTATAATTCCTGCAAATATTAAATAAAAAAAGTTTAAATTCCCATTAGCTTTAGTTGAAGGTAACATAAAAAATATTATTAAGAATATTATTATTGAACTAATTATAGTTAAAAGATTTGTTTTTGATTTTAAATTTATTTTTTTAAATAAATATACAATTCCTCCAAAGATTAATCCAACAAATGTCCCAACAAGATAAATTTCAAAGTTTGAAAAGAGATATGTTATTACTTTTGAAAAACCAATTACAGAAACTCCTGCCCCTAAAAATAGCATTAATAAAAACATAAGCATTTTTTTATTAAACTTAAATGAAATAAAATCAGAAACAGAAGTTAAAAGTTGTTCGTACTTTCCTGAAATAACGGCTATTGTTCCACCACTTATTCCAGGAACTAAATTTGCAAGACCTATTAAAAAGCCAAGAAAAAAATCTTGAAACATAATGTGCCTCCTATATGATTTTTACATAAATATTATTGCAATTGCTGCCATTGTAAAACAATAGTAAGCAAAGTATTTTAGTTTTCCATTAATTACAATCTTTTTAACTAAGTATAATCCTAATAGACCACTTAAAAATGCTGCTATAACCCCAAAGTATTGACTTGTGTTCAAGGTTATTTTTTGCATTTCTAATATACCTGCACCAAAGGTAACTGGTAAACTCATTAAGAATGAATATTTAACAGCTTCTTCTTTTTTCATTCCAAGAAGTAATGCAGCAAATAAAGTAGAACCACTTCTTGATACTCCAGGAAAAATAGCAAATGCTTGTATTAACCCTATTAAAAGAGCATCCATCCAGGTTATTGTATTCATAGTTTTTTGATTTTTATTTAATCTATCTGAAAATAGCATCATCAATGCCGTTATTGCTAAAAATATTCCTACGAGTTTTATAGAAGAAAAAGCTTCTTCTATTTTAGAATTAAACATGAGCCCAAAAAAGACAGCTGGTATTGTAGAAACTATTAGTTTTCCAGCAAGATTTAAATAGTCTTTGTTTAAAGTAAAAATTCCTTTTAAAATTAACCAAACTTCTTTAAAAACAAAAAACAATACCGCAAAGAATGTTGCAAGGTGAAGAACCGCAAAATAAGGTAAATTTGTGTTTATTTCCATAAACTTTGAAAAAATAGTTAAGTGACCTGAACTCGATACTGGTAAAAATTCTGTTAATCCTTGAACTAATCCCAAAATAAAATCTTGCATTTTGAACCTCCCTATTAAATAAAATCCAATGCATTATATCATTTTTTTATTAAAATAGACTTAAATTCTTTTATGGTATAATATTTTTATCTTAAATAAGGAGGGTACTTTTTTTATGGATAAAGCTATTATTGATTTTTTTCAAAATTTTACTACTTCAAATCATTTTATTTTAAATAACATTTTTATATTTTTTACAAAAATTGGAAATTTAGGAATGATTTGGATTTTAATTTCATTATTGTTTTTAATATTTAAAAGTACAAGAAAGATTGGTATAGTATCATTACTCAGTTTATTTTTTTCTTTTATAATTTCAAATTTATTTTTAAAACATCTCATTGCAAGGCCAAGACCATTTACAACTTATGATTTAAAAATACTCATACCTTTGCCAAAAGATTTTTCATTTCCTTCTGGTCATGCTTCAGCTTCTTTTGCTTCAGCTTTTGGTATTTTTTTGAGTTCAAATAAAAAATCATTAAAATGGGTTGTTATAACTTTAGCTTCTTTAATTGCATTTTCAAGGATATATTTGAGTGTTCATTACTTTATTGATGTTATTTCTGGAGTTGGAATTGGTATTTTTTGCGGATATTTATCTATAAAAATATACGAAAAAATTATGAAAAACAAATAAAAGAAACAACTTTTGTTCAAAAGTTGTTTCTTTTATTTATGATATAATTGATTGGGGGTGATTACTATAAAAGACATTCAATTAAAAAATATAATGGAAGATATAGTTGAAGATGTTTATAATGATTTACTAAAAACAAATTTGATTAAAATTTGTAACTGTCCAAAATGTCATGCTGATGTTTTGGCAATTGTTTTAAATAATATTAAACCAAAGTATGTTGTCACGGAAAAAGGAGAAGCTATTGAAAGAACAAATGAACTTCGAGATCAAATTAGAGTTGATGTTCTAGAGCAGCTTTTAAAGGCTGTTGAAATTGTTAGTAAAAATCCTCATCATAATCAAAATGATGTTGGATTAATTTAATTTTCATATTCTTTTACTAATCTAATTTTCCATTTATCAGTTTTTAAAAATCCATAGGCTAATAACATGGCAAGAATATTACTTATTATCATTGCATAAAATATTCCTATAAAACCATAATAGTCAGCCATAAGTTTTATTAAAGGTATTCTTATGATCCATAATCTTGTTAAGTTTATTATGGTTGTTTGTACTGTGTGTCCTGTTCCGTTCATTGCAGCTAAAAAAATTGACATTGTTGCAAAAAATGGTAATGATAATGAGACCATAGAAAAATAAATTTTACCAGTATTTATTACTTCGATTTCATTTATAAAGAAGCTTGTTACGTTTTTTCCATATAAAAATAAGAAAAAACTTAATATAAAAACACTAAAAAAGGTTAATATTGATGCTTTTTTTAAGGTTTCTATTGCTTTATTTTTATTGTTAGATCCTATAAACTGACCTATCATTATAGAGGTTGCTCCCGAAATTCCCATCGAAACCATAACAATTAAATTAGTAACTCTATTACCAATACCATAAGCAGTTACGACGTTTGTACCAAATTTTGACACAACCTTCATTATTATTGCAAATCCCATGGCTGTTACTGATTGACCAAATGAAGTTGGAAGTCCAATTAATAGTATTTTTTTTATATATCTTAAATCAAACTTCAAATCTTTAAGATGAATTTTAAAACCATATTTTCCTGTAAACATTTCATACATTAAGTATAAAGAAAAAATAATTTTTGATATTAAAGTTGCTATGGCAGCGCCTTCAACTCCCATTTTAAAAACAAAAATAAAAATTGGGTCTAATATTATATTTAAAGTTATAGAAAAAAATCTTAAAATGAGCGGAGTAAAGGTATTTCCCCATCCTCTAAGAATAGCTGTGTTTACTTCAAAAAAGAATAAAAAAGGCGTGGATATTAATATTATATTGAAGTATTTTAATGAATATTCTAAGGTTAAATCTCTTGCGCCTATGTAATAAAGCATACTTTTTGAAAAAAACAAACCAAAGAGCATAGTAATAATGGAAATTAAAGTAACTGTTAAAATTGTTTGAGCAGCAGATTTTTCAGCGAGTTCTTTTCTTTTCATTCCTGTATATTGAGCTACCATTGAAGAACCTGCCATACTAAAACCGCCAGATATTGAAATAAATATAAAAATTAGTGGCCATGATATTGTAGGCGCTGCTATTTCAATACTTCCTAATTTACCTAAAAAATATGTATCGGTTATATTATATACAGCTTGAAAAATATTTGCTAAAATTATTGGCCATGATAACTTTAATAAACTTTCCCATATACTCACTTTAAAAATATCTATTTTTGTTTTCAAAAGAATACCTCCTCATTAATTAGCTTTCCTAACTAATTATAACACATTTTTTTTAAAAATGGTATAATAAATTCATGGAGGTGTTATTTTGTTTGAAAAAAGAGAATATCCAGAAAAATCTTGGTCTGTTTCTAAAATGGATATATTTGAAAGTTGTAAAAGAAAATATTATTATAGTACATATGCTCAATGGAATGGATGGGAAAATGATGCATCTACCTTATCTAAAAAAGCCTATACATTAAATAAATTGGGAAATGTATATTCTGCATTAGGAACTTATTTACACACAATGATAAAAAATAATATTCTTGGAATGAATATGGATAGTAATACTATTTACTTAAATATATTAGGTAGTATAAAAGAAGATTGTAAAAATTCTTTTTATAAAAAAGAAGAATGGCTTAAATCTCCAAAAAGCATAAATATGCTTCATGAATATTATTATGGAAACGGTTTAGATAAATCTTTGGGTAAAAAAATAGCTCAGAGAGTAAAGGTTTGTTCTGAAAATATATTTAACTCAAAGACTTATAATGAGTTAAAAGATACTAAGAGTAAGATTTTTGAACTTGATGAAGAGTCTTTTAATTTTTTTAAATATAAAAATACGAAGTTATATGCAATTTTAGATGCTTTATATAAGATAGATGATAAAATTGTAATAGCTGATTGGAAAACTGGAAAAAAAGATACTGCAAAACATGATATACAGATGATAATTTATGTGATGTATGTTCTTTCAGAGTATAAGGATATTAATATAGAAAAAATAGAGTGTGTTAATGAGTATTTACTTACAGGAGAGAGTTATGTTAGAACATTTACTTATGATGAAATAAAAAATGTTCAGAAATATATAGATAATAGTATTGAAAAAATAGAAGAGTATCTTGAAGATTCGGAAATTAATAAGCCAAAATCAATGGAATCATTTAAGGCTAATCCTGGTTATTCGTGTAAGATGTGTAATTTTATTGAGATATGTGATGAAGGTAAAAAATTCTTAAAAATAAAATAATAAAGGAGTTTTAACTCCTTTATTATTTTATTTTTATTATTTTATCTAATTTTACTATTTCAACTACTTTTTTAACATTTTCATTTACTATATTGTGAATTTCCATTAATCCACCATCTCTCTTATAATCAGCAAAAAAATAAAAAATTCTACCAAGTCCACTACTATCGATGTATTCTAATTCTTCCATGTCAATTACTATTTTTCTTATACCGTTATCTTTTAGTTCATATAAAAGTTTTTTTAAATCAGAAGAATTTGTTATATCAACTCTTCCATCAAGATAAACTCTTGCTGTATTTCCTCTAATTTCTTTTCTCATTGAGTCACCTCCATTTTTCATTTACTATTAAATTATAACATATATAATTAGAAAAGTAAACAAAGTTTTTCTTTTTTTTAATATTTTAATTCAAAAATAAATGCAGATTTTTTTGGAGCAATAAAGTTTAAATTTCCATTGTTAAAGTTTAATTCTTCTTGATTTGTTTCTTGATTTGAAATAAGTAGATTTGCTTTTCCTTGATTTATTTCTAATAACCAGACAGGAATATTTACATTTTTTTCAATTTCTTCTCTATTTATTATAACAATGTATTTCTTTTCATCGTTCCATAATCCATAAGATAAATAGCCACCATCATTATTTAAAAATTCGAAACTACCTTTTCTTAATGCATTGTTTTTTTTATAAATACTTATTATTTTTTTTATGAAGTTTAGTATTTTATTGTTTTCGACTTCATTCCAAGGAAATGGTCTTCTGTTGTCTGGATCTGTCCAACCAGCTAATCCAATTTCATCTCCATAGTATAAACCTGGTGAACCTGGCAATGTAAACATCATCATTATTCCAATTTTAAAAACGTCTAAATCAATATCTTTAGCTGCTTCTTCATGACCTATTGTATTAATCCTTCCTATTTTTCTGGTTGTTCTTGTCATCCATCTTGAATGGTCATGATTACTAAGTTGATTTAGTGCTATAAATTTACTATTCATAGGTAGTTGAGATAATGCATGAGTTACACTTTTTATAAACTCATTTGAATTCATGAACAATGATTCATTAATTGAATCATTATGTTTTTCAATACCAGTTAGAAAATAACTAACAGGATCCATACAAGTAATATAGTTCATAATTGAATCCCATGATTTTTTTTCTATCCATTCTAATGGAGATTTATATACTTCTGCAAATATTATTGTATCTTTATTTTTAGACTTTATTTTTTTATTAAAAAATTTCCAAAATTCAATATTTTCTTCTTTGCTTTTTCCAAGATCATCTGCAACATCTAATCTCCAACCATCAATTTTGTAATTATCAACCCATTTAATACCTATATTTGCTATATATTCTCTTAGTTTTATATTACTATAATTTAGTTTTGGTAAAGTACTATATCCCCACCATCCTTCATAATTTTCACCATTCCAATAAAAATTTTCTTTATACTTTGAATTTTTATTGTTTTTTACGCCATCATCATATATGTTAAGTTCATCAACCCATTTATGATACGATCCGCAGTGATTAAAAACACCATCAAGAATTATTTTTATATTGTTTTTATGTAATGTGTTAACAAAGTCTAAAAATAAAGAGTTACTTGCTTTAAGATTACTTTTAAAGGTTGTTCTAACTTTATATTTTTCTTTAATATCTTCTGTATCTTCTACTATTTTTCCAAAATGAGGATCTATATTTTCGTAGTCTTGTGTGTCGTATTTATGAGGGCTTGGAGAAACAAAGATGGGATTGAGGTAAATCGTTTCCACTCCAAGATCTTTTAAATAATCTATTTTATCCATTATTCCTTTTAAATCTCCACCATAAAATTCTCTATGTCCATTTTCTTGACTTGGTAGTTCATTCCATTCTTTTTTTATTATTTTTTTACCATCGTATATATATTCATCATTAACAGGATCATTAGTTTTATCTCCATTATTAAATCTGTCAACAAATATTTGATAATAAATAGATCCATGAGACCATTCTGGAGTTTTAAAATTTGGGATTAAAACAAAATTATGTATAGAACGTTTGTTTACTAATCCCATTGCATCATATTTTATTTTTTGATTTTTATCTAAAAGTTCTATTTCAAAATGATAATGAATATTTCTATCTGGCATTATAAAAGATCTTTCAAAATAAACAAAAAGTTCTGTTTCTTTTATGAGCTTCATTTTTATATTTCTGTATTTTTTTATATTTTTTTCAGGTGTTACATAAACGCTTCCCAATACTTTGCCGAGATATTTTGGAACTCTAACTCTTATTTTTACTTTTTCACCTACAATAGGTTCTTCTGGAGTCAAGTAAAGTTTGGTTTGGTCTGAGTAAATTCCATTCATATTAAATCCTCCATTTGATTTAATTCTTCATTAATTTCTACTTCTTCTAATTCTATTTTTTCTAAATTCTTTTCAAGCTGTTCCTTTTCTTCCATTAATTCCATAACTTTTGAATAATTATTTCCATGAGTTATCATTAATTTTTCTAGATCATCTAATCGTTCGAAAGTGTTATTAGCTTCATTTTGAATTTGAAGCTTTCTTCTTTCTAATGTTTTTTTTCTGTTTTTTAATTTTTTTATTTCTGCATAATTTGAAGTGTCTTTTTTTCTTTTTTCAATTTTAAAAGAATCATTTTTTATATCTTCAAGAAAATCATTTAATTCTTTAGAAACTTTTGATTTCCCATCTTTTATAAAAACAAATTTATTGCTGATATTTTTTATCAGTCTTTCATCATGTGATATTAATATAATTGCACCTTTAAATTCTTTTAAAGTTTCTTCAAGAACTCCTACAGTTATTATGTCTAAGTGATTAGTAGGTTCATCGAGTACTAATACATTTGGTTTTGTTAAAATTATTTTTGCAAGAGCTAATCTTGTTAATTCCCCACCAGATAAATCTTCTATTTTTTTAAATACATTATCACCATAAAAACCAAATCTCCCAAGATACTTTCTAACTTCATAATCAGGCCAATCTGGAACAAATTTCCAAGTTTCAGAAAGCATATCTATACTTTTGTCAAATGAAGAAATAACCTGATCTAAATAACCAACTTTTATGTTGTATCCCCATTCATACATTCCTGATAGTGGTTTGAGTTTATTTGATAGTATTTTTATTAAGGTACTTTTACCAGATCCATTTTTTCCTATTATAGAAACCTTTTCTCCTTCCATAACATCAAAGGATATTTTGTTTAAAAGAGGTTTATCTTCATAAGAAAAGTTTAGATTTTCAACTTTTAAAACAACGTGTCCAGTTCTAGTTGGTTCTGGAATTTTTATTTTTATTCCTCTGTCTTGAGTTAGTTGTTCTATTTCAGAATATTCTTCTTTTAATTTTTTTAATGTCCTTTCTCTTATAATTGCTTGTCTAACCATTTTTTCTGTTCCAAATTTTCTATACATAGCTATCATGTTTTCTACTCTTTTAATTTCTTTTAAAAGATTTTTCTTTCGTGCTTCTGTAGAAATTATTACTTTTTCTCTTTGGTCAATATATTTGTCATAAGTTCCATTAAATTGCCATAGTTTATAATTATTTATTTCTACATATTTATTACAAATTCCATTTAAAAAATCTCTATCATGAGATATTAAAATTATTGCTCCTTTATAGTTTTTTAAGTATTTTTGTAACCATTTTATAGAGTACAGGTCTAAATGATTAGTAGGTTCATCAAGCAACAAAAGATTATGGTTTCCAGCTAAAGCTTTTCCAAGAGAAAGACGTGTTAATTCTCCACCACTGAGTGTAGAAATTTTTCTTGTCCATTGAGATTCATCGAATCCAAGACCAACGACTATGCTTCTAACTGTTTTATCTATCATTACTTCTTCAACATCCGTTACAGCTTCTTTTACAAAATCAAATAAAGTTAATTCTGGATTTGTTATTCTAAATTGTTTTAAAAAGCTTTCTTTTAAAGAGTTACTTCTTATTATTTTTCCTTCAGTAGGTTCTATTTCACCGGAAAGTATATTTAAAAGAGTGGTTTTACCACTTCCATTTTGACCGATTAAAGCTATTCTATCTTGTTCATATACAGTTAAATTAACATCAAAAAATAATTCTTGTGTTCCAAAGTTATGTGCAATATCTTCTAGTCTTATTAGCATAAAATTCACCTCTTACTATTTTCTCAAGATATTATACAACATAAAGTTAAAATATCAAAGAGTATTGAGTATATTTAAGTTTAAAAATAAAAAATGATAAAAAATAAGTATTATTAGACTTGTTTTTTTTAATTTAAAGTGGTATAATTTGCATGAATTTATTAAGGGAAAACAGTGAAATTCTGTTGCGGTCGCGCCACCGTAAAGCCGGGATACTTAATAAATTTGAAACAAAAACCAACCTTCCGCGCCAGAAGGGGGGGCTTATTTTTTTGGCGTAATAAATAAATAGGAGGAGTATAAGGTGAAAAAACTTTTAACGATTTTATTTGTAGTTGTTGCATTAGTATCATTTTCTCTCACTGTAATAGATGATATAGGAAGAGTGGTTACATTTGAAACATCAGTAAATAGAGTTATATGTGCAGCTCCATCAATATCTGATTTTATTTCTAATTTGAACTTAAAAGGTAAAGTAGTAGGAGTTACTGATTGGGATACTTCAATTGGAAATGAAATATCTTATACAGTAAAAAAAGGTGATACATTATACAGTATAATGCAAAAATTTGGATATTCTGATGCAAGATTAAATGAAATAAAAAAAGCTAATAATTTAAAGAATAACTCTTTAAAAATAGGTATGAAATTAAAATTGCCTCTTGCAGAAAAAATAGGAAATATGGTTCCTCTTAACATTGAAAAAATAGTTTCATTGAATCCAGATGTTGTTTTTTTAACTGGAGGATTTCAAGAACCAGAAGTTAAAAAACTTGAAAAATATGGTATAAAAGCATTTGTTATAAATCCAACATCATTTAATGAAATACTTAGAGATGTATCTGTTATTGGTACAATATTAGGAAAATCTAAAGAAGCGGAAAAACTATCTTCTTCTTTAAGAGCAAAGGTAATTTCAATTGCTAAGAGTAATTCAAATAAAAAGAATAAACCAAGAGTAATGTATGCAATGGTTTCAAACAATGTTTCTACAATTTGGACAGCAGGAACAGGTTCTTTTACAAATGAAATGATAGCCTATGCAGGTGGATTAAACCTAGTAGCTCCTTACACTGGAAACAATGGATGGTTATCTGTTGGACCAGAATTTGTTGTTAATGAAAATCCAGATGCAATAATAGTTCCTTCTTATTATCCAGGAGATACATCATCTAAAGATAAGTTAATGTCAGCAGAACAATTTAAAGATGTTAATGCAATAAAAAATGGAAAAATAATATTGATAGATGGAAATAAAGCTTCTCAAGCCTCACCATCGCTTATAAATGTACTTGAAGATTTAAATAAAAAAATTGGTGAATTAAATTGAAAAAAAATTTAAAAGGGGCTTTGCCCCTTTTTCTATTTTTAATGATAAGTAGTTTTATTTTAATAATATTTTTTAATTCATTTGGAACTGTTAAATTGAGTTTCAAAGATATTCTTTTAATTTTTTTTAATAAAAATCCAAACAAAATATATACTAATATAATATTAAATATAAGACTTCCAAGAGTTTTAGGAAGCTTTATTACCGGTGCAATACTTGCAATTTCAGGAAATATACTGCAATTAATAATTCAAAATCCACTTGCAGATCCGTATATTTTGGGTATATCTTCTGGTGCAAGTTTTGGAGCGGTTATTTATTCAGCTCTAACAATGATATATGCAATAAAATTACCTTTTGGAATGGAAAGTACAGCCTTCTTTTTTGGTGTTTTTTCAACTATATTAGTATTTTTAATTGCAAAAGAAGGGAAAAAAATACCAATATTGTCTTTGATTTTAAGTGGTGTTATTGTAAGTTTTTTATTTAACTCAATAACAACCTTATTTACTGTTATGTATTGGAAAAACTTAATTCATGTAAACATATGGTTAATGGGGAGTACAGCATCTTTAACTTGGAAAGATTGCTATATATTATTATTTGTTTTATTTTTACAAATAATAACTTCTTTATTATTTTCAAAACAGTTAAATGTTCTCTCAATGGGAGAACATATGGCTGTTTATTCTGGAATAAATCCAGAGAAAATAAAAATAATTTTAATAGGAATAAATGTTTTAGCAGTTTCAATTGCCGTTTCTAAAACTGGTATAATAGGTTTTGTTGGATTAGTTATTCCTCATATTGTAAGAAAAGTTACAGGACCTTATTCATCAGTATCAACTTTTTATTCATTGTTTGTTGGTGGATCATTTCTTGCAGCAAGTGATTTTGTTTCAAGAACTATATTTGCACCAACAGAATTACCAATAGGGGTTGTAACTTCAATAATTGGTGCTCCAGTATTTATTTACATACTAAAGAGGGAGAGAAAAAATGATTAAAATAAATAATTTAAACTTTTCTTATGGTAATGGATTTAATTTAAATATAGAAAAATTAAATATAAAAGCTGGAGAATTTGTGTCAATAATAGGTCCTAATGGTTCTGGTAAAAGCACACTATTGAAGATATTATCAGGTATTTTAAAAAATTTTAATGGAGAAATTTTAATAAAAAATAAAAATATTAAAAATTTTAATTATAAAGAGTTAGCTAAAACAATATCTATTGTTCCACAAGAGTTTAATACTATTTTTAAATATGATGTTGAGAGTATAATTTCAACGTCGAGGGTTCCTTATTCTAAAACGTTTTCTTTTTTTGAAACAATGGAAGATAAAAAAATAATTGAAGAAGCTATGAAAAAAACAGATACAATTAAATATAAAAATAAATTTTTTTCAAATTTATCAGGTGGAGAAAAACAAAGGGTAATGATTGCAAGAGCTTTAGCTCAAAAAACTAAAATTTTATTTTTAGATGAGTTTACTTCTCATTTAGATCCTGGTCATGCACAATCATTAATGAATATAGTAAAAGAAAATACTCAAAATGGACATACAGTTGTAGCGGTTTTTCATGATATAAATCTTGCGAGTATTTATTCAAAAAGATTAATTATAATGCTAAAAGGTAATGTTGTGTGTGATGGTTCACCAATAGATGTAATAACCCAAGAAAATATTAAAGATATTTATAATCTCGATGGAAGTATAATAAAGCATCCTAAATATAATGTTCCACAGATAGTATTTAATTAAAACAATAAATGATAATTGAAAAATTCAATTATCATTTATTGTAGAGGTTTATAAATAACATTACTTCACCTATTCCTATATTTAATTTTTTTCCTATTTCTTGAGGGGTTAATCCTTGATGATAATATTCTAAAACCATACTTTTTTTATCTAATATTATTTCTTCTTTATATTTATTTTTTGTAGTTTCATTATTTTCTTTATTGATAATTTTTTCTTCATTTTCACTTTTAATTATTTCATCATTTTTTTCAAGTATTTCATTTATTTTTTGAGATTCTAAGGGTTTTTCATCGCTAGCTTTTATACTATCTATAATTTTATTATTCATAATTTTATTTTTAAAATGTTCATCATTTATTTTTTCTACTTCAGATAATATTGAAGCTAAACGACTATAAGATTCATTAACATCTTTTAATAACTGATCAACTATTTCAATTTTATTATCTAAAGCTCTTAATTTAGTTGTAGTTATTTTTTGGAATCTTGCTAAAAGTTTATTTGATTCCTCATCAAAGCTAATAGAAGTTAATTCGTTGTTTTTATCTGTTTTTTTTAATATTTGTATCATCAAAATAATATTAAATATAGATACGATCATTGCTAATAATGAAATAAAAAAAGTAAATACTGTCATTTTTTCCTCCTATTTTTTATTTAAAACAATTTTTGAAAAATCAATAGTTCCAACATTATTCCACAATAAGTATGTTCCTAAGTTTTTTGAAGGAGTTGGAATAGATTCTTTTAAGGTCCAATTTTCTGGAAGATATACGTATAAATTAGAATTTGCATCGATGTTTAATCGCTTAATGGGAAAATTAAAAATTAATTCGTTATTATTTTTATTTATTATTCCAGATAAATCCATTGTTTCTTCAACAAATATATTGAGTTCTGAAGTATTAATTATAGATTTATAATTTAATACTTTGCAATAAATATTTTTATTGTTTTTTTCATTAAAAATTTTTTCATAACCTTTAGATTTTTCTATGTCAGAACGTTTATATCCATTCAATAAATAATTAAAACTCTTTTTATCTTGCGCTTTTATTGTTGTTGTTAATTTTAAAGATGTAATTCCATTTTCATTTATGTTGAAAATAATATTTTTTGATAGGATATCATATTTATATGATCCAGATTTAAAAATAGAAAGATTCAATATTAGTATAGCTGCAATGAATAAAATAGTCATTATAGTAAAGTTTATACCTTTATTTTTCAAATTTTTTTGCATAATACGCCTCCTAAAAATATATTCTTATTAACTATTATACCATATTGAAAGATATGTGATAGAATATAATGAATTAAGTTTATCGGAGGTGCTTTTTATGATAGTAGTTAGTGGAAGTAGACCAACTGGAAAATTACATCTTGGACATTTTATGACAATAGGGAAATGGCTTGAATTTCAAAATAAAGCAGATAAATCTTATTTTTTTGTAGCTGATTGGCATGCATTGACTTCACATAGAGATGATGTAAATACTATTGAAAGTTCAACATTAGATTTAGTTAGACATTATTTGGCAATGGGCGTTGATCCTAAAAAATCAACTATTTTTGTTCAATCTGCAATAAAAGAACATGCTGAACTTTATCTTTTATTTAGTATGCTTGTATCCACAACAAGATTAGAAAGAATGCCAACATTTAAAGATATGAAAGAAAATATAAAAGACAAAGATTTATCAACATTGGGATTTTTAGGATATCCTGTTCTTCAAGCAGCAGATATTTTAACTTATATGGGAGATACTGTACCTGTTGGAGAAGATCAAATTTATCATGTTGAGTTTACAAGAGAAATAGCCAGAAAATTCAATAATTTATATGAAGAAATATTTCCAGAACCAGAAGCTTATGTTGCATCAGTTCCAAAACTACCTGGAACTGATGGAAGAAAGATGTCAAAGAGTTATGGAAATTCTATTATAATTGAAACAGAAGAAAAAGATATGTCAAAACAAATAATGCAAATGAAGACAGATCCTGCAAGAATGAGAAGAACTGATCCGGGTGATCCTGAAAAATGTCCTGTATGGGATTTTCATAAAGCATTTACTAATTCTGAAGAAGAAAAAAATTGGGTAATAAATGGATGTAAAACAGCAGAGATAGGTTGTATACAGTGTAAAAAGGTATTGTTTAAAAATATGAAAGAACAATTAGAACCTGTTTGGAATAATTTAAAAAATATTTCTAATGATGATGCTAAAAAAATTATTCTTGATGGAAATGAAAAGGCAAGATCGGTTGCAGAACAAACTTTAAAAAGGGTTAGAAATGCAATGAAATTAAGGTGGTAAAGTGTTAGAATTAGATATTAATATTGATATTTATTCTGGTTCATTTCAAAAATTAGTTGAATTAATAAAAGAAAAAAAAATATCAGTAAGAAATATACCTGTTTCAAAAATTGCTGATTTATTTAATGAATATATTCAGAAAAATAAAAAAAACTTAAAAAATGTAGGCGAGTTTATGCGACTCGCTTCTTATCTGACATTTTTAAAGTCTAAAGAATTATTACCGCGTTCTTCAAAAGATAACGAATTGAGAAAACATAAAGATTTTTTATATAATGTTATAGAAGATTATGAACTTTTGAAAAAAACTTCAAATATAATAAAAAATGATTTTGGAACACCAAGAACCAAATATATAAAAATAAAAAATATAAATACTCCAAATAAAGAAAATTTTTCTAAACAATTAGAGTTGTTTTTTTCAGAGTATATTTCTATACAAGAAAAATTAGAAATAATAAGAGAAGTTTATACAGTTGAAAAAGCTATGGAAAAACTATCAACTTTTGATAAAATTTCTATTTATAATTTATATGAAATATCAGAATATAATAAATTAAAATTTATAGTTTATTTTCTTGGAGCATTAACTTTAGTTAGGAATAATATATATAAATTTGAGTCTGATACATTTATAAAAGCTGGTGAGAAAATTGAAACAACAAATGATTGAAGCTTTAATTTATTCAAGACAAAATGGTATTTCTATAGAAGAAATTATGAAAATTCTTTCTTTAAATGAAACTGAAGTAATAGATTTAATTCATGAAATACAATATCATTATACAAAAACAGAACATGGAGTTGAATTAATAAGAAATAATAATAAATATAGATTTGAAATAAAATCAGAAATAAAAGCTTTAATAACACCAAAACCTAAAAGGATTGATTTAACAGGATCTCAATTTGAAATACTTGCAATTTTGTATTTAAATGGTCCTTCAAGAAGTGGTGAAATAGAAAGATCGAGAGGTAAAAATAGCTATTTTCAATTAAATCGTTTAATGGATTATGGGTTAATAAAGAGAATAAGAAAAGATGAAAGAAAGATATATTATTATACATTAACAGAAAAATTTTATAATTGGATACCAGAAGATACTTTAAAAAAATTGGAGGAATTAAAAAATGTACAAATTACAAAAAATTTTACAAATGATGGGGATTCCTCGGAGAAAAGCAGCACAGATAACCTTTGATGAATTAGTAAAAGTAAATGGTGAAGTTATAAAAGAACCTTGGTTTAATGTTGAAGATTCTGATGAAATTGAATATTTAAATAAAAAAAATTTAGTATCTGATATTATAAAAAAATCTTCTAAAAAAAGTTATTATTTATTTCATAAACCCGTTGGAGTATTAACAACAATGAAGGATTCTTATGGAAGAAAAACAATTAGAGATATTTTAGATGAAAATAATATTACAGAAACCTTATTTCATGTTGGAAGGCTTGATTTGAATACATCTGGTATAATAATGCTAACTAATGATGGAGAACTTGCAAATAAATTAATGCATCCAAGCCATGAAATAACTAAAACATATAAAGCATTGATAAAAGGAAATATAACAAGAGAAGAAATAAAACAATTAGAAAGTGGTATTATAATTGATGATTATAAAACAAGACCTGCAAAGATTGAAAAGGTAATAAGAAAAGGTTCTAATCATGAAATAACTTTAACAATAAGTGAAGGAAAGAAGAGACAAATTAGAAGAATGTTTGAAGCATTAGGTCATAAAGTTATAAAACTTAAAAGAACAAAATTTGGTCCATGGAGTGTTTCTTTGGTTCCGTATCCAGGTAATATATTAAAATTAAATGAAAGTGAAATAAATAAAATAAAAGGTAGTGACTAAAAGTCACTACCTAAAAGGCCGAAAATAATTAAATTTTCGGGGGGATGGTTAATACATTATAACTCATGTTTATTAAATATCAAGATGCTTAATTTAAGAAAAGGAAAAGATATTCATAAATTTTAATAATACTTAATTAAGGAGTGATACAAATGAAAGCTATAGTTTTATGTGCTGGTAAAGGTACAAGATTGAGACCATTAACCTTTACAAATGCAAAACCACTTATTCCTATTGCAAATAAGCCTACCATTATGTATAGTTTAGAAAAAATTAGAGAAGCTGGAATAACTGAAATAGGAATAATTGTAAATCCGGATAATAAAAAAGATTTTGTAAAAGTTTTAGGTGATGGAAAAGATTATGGATTAGATATAAAGTACATAATTCAAGAAGAAGCAAAGGGATTAGCTCATGCTGTCGCAATAAGCGAAGAATTTATAGATGGTGATGATTTTTTAATGTATTTAGGAGATAATCTTATAAATACAGATTTAGCAAAATTTACAACAGAATTTAAAGAAGGTAATTTTGACTCTTTTATACTTTTAACTCCAGTGGAAGATCCATCAAGATTTGGAATAGCAATAATGGAGGGGAATAATGTAATTGATGTTGTTGAAAAACCTCAAAATCCACCATCAAACTTGGCTATAGTTGGAGTATATGTGTTCAAACCTATTGTTTTTGAAGCAATAAAAAATATAAAACCATCATGGAGAAATGAATTGGAAATAACTGATGCTATAGCTTGGTTAATAAAGAATAAAGGAAATACTGGAGCTCAAGTAATATATGGATGGTGGAAAGATACTGGAAAACCAGAGGATTTAATAGAAGCAAATAGATCAATTCTTGAAAAAATGAAATCTAAAGATATTCAAGGAAATATTTATGAAAATTCAGTTGTTCAAGGAAATGTAAAGATAGGGAAAGGATCAAAGATAATAGATTCAATAGTAAGAGGACCAGTAATAATTGGTGAAAACGTAACATTAAGCAATGCTTATGTAGGACCATATACTTCAATAGGGAATGGAGTTACTGTTGAAGATTCAGAAATAGAAAATTCAATAATTTTAGATAATGCGACTATTTCTTCATTTAAATCAAGATTAGATTCTTCTATAATAGGTTCAAATGCAGAAATTGTATCTATAGAAAAAAATCCAAAAACAATAAAATTAGTTATAGGAGATTTTGGAAAAATAGAAATACCTAGATAAATTATTAAAAAAATATTAACGAACAAACAATTGTGTAAGAAAAAATTAATTTTTTCTTAATGAAAAAAAGTTTTTTTTTTGTTATTATTTCTTTGTAAGAAAAACCTGTATAATACCGAAGATATGGTTCGGAAGTTTCTACCGGATAACCGTAAATTATCCGACTACAGGAAAAGAGATTGTTTTTATGTATTTACCAACAAATATTTAAAAAATAACAATCCCTCTTCCTAGTGGAAGAGGGAATTTTTTTTATAGGAGGAAGAACGGTGGATAAATTTTTTAAGATCTCTGAATCCGGAAGTACAGTTAAAAATGAAATATTTGGTGGTATAGCAACATTTTTAACAATGGCTTATATTATTTTTGTAAATCCATCAATATTATCAAGTGCTATAAAAGTTGATGGAGCATATGGAGCATTAATGGTTGCAACTATATTGGGTGGAGCTGTTGCAACATTAACAATGGGGTTATTGGCTAATTATCCATTTGCATTAGCACCAGGAATGGGATTAAATGCTTATTTTACATATACTGTAGTTATGAAAATGGGAGTAGATTGGAGAGTTGCTTTAGGAGCTGTTTTTATAGAAGGATTAATTTTTATTTTAATAACCTTAGTTGGAGTAAGAACATATATAGCTAATGCAATTCCTCATTCAATAAAAATTGCAACAAGTGCTGGGATAGGATTATTTATAACTTTTATTGGTTTGAAAAATGCTGGAATAGTTGTTTCTGATCCAGCAACATATTTAGCACTTGGAAAAATAACGACACCAGAAGCATTGACTACAATTATAGGTCTTTTAATAATAGCAGCATTGTATGCATTGAGAGTACCTGGTTCAATATTAATAGGTATTCTATTGGCTACAATTTTTGGAGCTTTTGTTGGAATTACAAAATTTAATGGTGTTTTTGGACCAATTCCAAATATTGCACCTACATTTTTTAAATTAAAATTAACAGGAGCATCTCTTATAGATCCAAGTTTTTGGGTAATAGTATTGACTTTTTTCTTTGTTGATTTTTTTGATACAACAGGAACTCTTATGGGGCTTGCTAATTCAGCAGGAATGACAGATAAAGAAGGAAATTTACCTCGTGCAACCAAAGCTTATATGGCTGATGCAACTGGTACTTCAATAGGAGCTTTATTTGGTACGTCAACAGTTACGACTTATATAGAAAGTGGTGCAGGTATTGCACAAGGAGCAAGAACTGGTCTTGCATCTGTAGTAACAGCTGGATTAATGTTATTAATGCTTTTTATGTCACCTCTTGCATCATCTATTCCAGCGGCTGCAACTGCTCCTGCATTAATATTTGTAGGGTCATTAATGATAAAAAATTTAAAAATAATAGATTGGGATGATACGACAGAAGGATTACCTGCTTTTATAACATTAGTAATGATGCCTTTGACTTATTCTATTGCTACTGGTATTACTCTTGGAATGATTGTATATCCAATAGTAAAATTATTTAGCGGTAAAGCAAAAGATGTTCATTGGCTAACATGGGTACTTGGATTCTTATTCATTCTTTACTTGATATATCTAAGATAATAAATAATATAATACTACCAACCTTTATACATTAGGCTACACCATATTTGGTGTAGTCCCCTTTTTTTAAAGAAATATAAATAAATTTTATTTTAAATATTTATCTACTATTTTTTGATAACTACCATCTTTTTTCAACTTATCTAAAGCATTTTGAAACTCTTTTATAATAGAGTCAGGTGTATTTTTATTGAATGCATAGTATAAATCTGCAGTGGATAAAATATAAACCATTTCATAATCATTAGGTTTTATATTCAATATTTTCATTTCCCATTTAGAACCAAGTTCATCATACGTAAATAAATCAATTCTTCCAGCAGCTAATTTTTTTAAAGAATTATCAACTGCTCCTGTTCCACCAACACGTTCTAAGCTCTTGAGAGGAATTCCATTTTCTGTAAGTAATTGTTCTCCAACATCTTCTATAATTGTACCAGTTTTATATTTTAATATATCTTTGAGTTCTTTTATTTTAATATTTCTTTCTTTTTTTGCAAGTATACCTTCTTTTATTTGATAAATAGGGCCAACCCATTTAAATAAATTTTCTCTTGCTTTTGTTCTTGTTGTTGAGAATAAACAGGTATTTTTTTCATTTAAAGCAATTTTATAACCTCTTGCCCATGGAAGTACTTGTATATCTTTAACGGTTAATTTTGAGTTCATTTCTTTTAACATCAATCCAATTAAATCAACTGCTATACCTTGTAATTTCCCATCTTTTTCATAGTTTAATGGAGCAAAATTTTCTGTCATTATTTTTAAATTGCTTGCGGTTACAGAAAATATCATACCATTAAACAAAATTAAAGAACACAACAAAAATCCCAAAAAAATTTTTTTCATAAAAAATCACCTCCTATACTTATTATATCATAAATTAAATTTAAATTAATTTTTTATTAATGTTTTTTTGTTATTGAAATAAAAAAACAAAAGATAATTAACTATTGTTTTATTTATTTTCATTTTACTTGAACTATTTTTTAATGAGGTCACATTTTATGGTACAATTCAATTAGTATGAATAATTATATTTTTTCATGATGATTGTACTGAATTTATGTAAAAATATAAATATTAAAAAGGAGATTAATATGAAGGCAGAAATAATAAGTGTTGGAACAGAATTATTACTAGGTGACATAGTAAATACAAATGCACAATTTATATCTCAAAAACTCTCAGAATTGGGGTTTGATGTATACTATCAAACAACAGTTGGAGATAATGAAGAAAGATTGAAGAAAGCTATTAAAAATGCTTTTGAAAGAGCTGATTTAATTATTACAACGGGAGGTCTTGGACCAACAAAGGATGATTTAACCAAAGAAACAATTGCAAAATATTTTAATAAAAAATTAATTTTACACAATGAATCTTTTGATAAATTAAAATTCTTTTTTAAAGATAAAAAAATGACTGAAAATAATAAAAAACAATGCTATTTTCCAGAAGGTGCTACAATAATTCAAAATAAAAATGGAACTGCTCCAGGATGTATTATTGAAAAAAACGATAAAATTGCTATTCTTTTACCAGGGCCACCAAAAGAAATGAAACCAATGTTTTTAAATACTGTATTTCCATATTTAAAAAAACAAACAAATGAAATTTTATTTTCAAAGATACTTAGAGTCATTGGAGTTGGAGAAAGTGAAGCTGAAACATTAATAAAATCATTAATAGAAAATCAAAACAATCCAACAATAGCTCCTTATGCTAAAGATGGAGAAATGTTTTTTAGAATAACAGCAAAAGCAAAAAATAAAATGGAAGCATTAGAATTAATAAATCCAATATCAAAAAAAATTAAGGATATTTTAAAAAATAATGTTTATGCAGAAGGGAATACTCCTATTGAAGAAGTAGTTGCAAAATTATTGATAGAAAAAAATTTAAAGATATCAGTTGCAGAATCTTGTACTGGTGGTATGGTGAGTTCTAAATTAATAAACTATCCAGGAATATCTTCTGTTTTTTTGGAAGGAATAGTAACTTATAGTAATGAATCAAAAATAAATAGATTGAATGTTTCTAAAAAAACATTAGAAACATATGGTGCAATTAGTAAACAGGTAGCAAAAGAAATGGTAGAAGGAATTGTAAAAAATTCAAATAGCAATATTGGATTATCAACTACAGGAATTGCAGGCCCTAGTGGAGGAACAAAAGAAAAACCAGTTGGATTAGTATACATAGGAATCTATATTAATGGAAAAACAATAATTAAAAAATTAAATTTACATGGAAATAGAGAAAAAATTAGAAGTAGGACGACTAAAATAATTTTAGATCAACTAAGAAGAGAATTAATAAAAACTAAAGTTCATTCATAAAATTATATGAAATAACAACAAACATTATTATTTTTTTTAATTTTATATTTAAAAATGAATTTAATAAAAAGCCTATGATATAATGAAATTAGAGGTGATAAAAGTGAAGAAGTTGCCAATAGGAGTACAAGACTTTAAAGAGTTAATAACAAATTATATATACATAGATAAAACAAAATATTTATATGAATTAATAACAAGTGGAAAATTTTATTTTTTATCACGCCCAAGAAGATTTGGAAAGAGTTTAACGGTATCAACACTGTACTATCTATTTAAAGGAGAAAAAGAATTATTTAAGGGTACATACATATACGACAAATGGGAGTTCAAAGAATATCCAGTGATAAAAATAGATATGTCAGATAATACATTAACCACATATGAAGAATTTATAGAATCATTAAAAGATAAAATAAATAAAATATATAAAGAAGAAGGAATAACACCAACAACAAAAGATTTACCAACGATGTTTGGAAATATAATAGAAGATTTAAATAAAAAAAATAAAGAAAGAACAGTAATACTAATAGATGAATATGAATCACCAATATTAGAACATCTAAACAATAAAGAAGAAGCAGAAAAAATAAGAAGATTTTTAAGAGAGTTCTATAAAAAAATAAAATCAAAAGACGAATACATAAAGTTTGTATTCATGACAGGAATAACAAAGTTCACAAAAACAGGAGTATTTTCAGCATTGAACAACTTAAATGATATATCATTAGATAAAACATACGCACAGATGTTGGGATACACACAAGAAGAGTTGGAAAGTAACTTTAAAGAGCACATAAAAGAAACAGCAGTTGAGATGAAGATGGAAGAAAAAGAGTTATTAAAAAACTTAAAAATGTACTACAATGGATTTTCATTTGATGGAGAAAGTTCTGTATACAATCCATTTTCAATATTAAAATTTTTTAAAAAAAGAGAATTTGAAAACTATTGGTTTGAAAGTGGATCACCATCATTTTTATATGAATACATAAAAGGGAAGAAGATAAGATACGAAGACTTAGTGAAGTATCCGGTGAGCGAACTCGATTTTTCAACCCGAGAAATAGAAGAAGCAAATGCAAGTATATTCTTTACCCAAGCAGGATACTTGACCTTTAAAGGAATAAAAAGATTAGGATTGAGAAAAAAGTACATATTAGACTATCCAAATATAGAAGTAAAAAACAGCTTTTCAAAGATAATATTAGAAGCAAACTATGGAATAAGAGAAACAGAACAAATAGAAACCACAATATATGAAAGAATATATGAAAAAGACATAGAAGGAATAATAAAAGAAATAAAAAGAATAATAAGTGCAATACCATACAACTTGCATAAAAAAGAAGAAAGTTACTATCATTCATTGATATATACAATATTAGCATCAGCAGGACTGAACGTAACAGCAGAAGAATTAACGAACTTAGGAAGAAGCGATATAGTAATAGAGGAAGACGTCATATACATAATGGAAATAAAGATAGACAAGAGTGCAGAAAAAGCTTTGAATCAAATAAAAGAAATGAAGTACTATGAAAAATACAAAGGGAAAGAAATTTATATAATAGGAATAAACATAAACTCAGAAAAAAGGAACATAGACGAATACAAAATAGAAAAGATATAATCCCAGCGGGTGCTGGGATATTTTTTTATAAAAACTCATAACTTTTAAAAATATTATCCATAAAAAGCGTGAAAGTAACGATGAAAAATAGTGAAAAATCAAAGTAAAAAAATGGTCTTACCCAAGAAGAGTAGACGAGACCATAAAAAATTTTGTGTAAATAAAAAAATAAAACCTTCTTCTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTTTTAAAATGGAAAGAAGGAAAAAAGAAGAAAAAGAAGAAAGCAACATTGAAAAATTAGCAAGATTAATAGCAAGGGATCCAGAGGTAAACACAATAAAAGATGTATATGAAAAGATAAAAGAATTAGTGGGACCGTTAATACAAGGGATGTTAGAAGCAGAATTAGAAGATGAATTAGGTTATGGGAAATATGATAAAGAAAACAAGAAAACAGATGATTCTAGTCCTTGTGTAAAAGTCAAGTAGAAAATGTAAGAAAAAGGCAAAATAAAAATGAATAAAAAAATAATTATTTTTTAGAATTGAAAATAAGTTTGTCTTTAAGCCTGTAAGAAGGACCTTTAATAGAAACGATATGAGAATGATGAATAAGTCTATCTAAAATAGCGTTAGCCAAAGTAGGATCACTAAAAACATTAGCCCATTTACTAAAAGGTTGGTTAGTAGTAATAATAGTAGACTTCTTCTCATAGCGTTTATTAATAAGTTGAAAAAACAAATTAGCGCTAAATGTTTAATGTATAATAAAAGTAAGCCAGGAATACAATTGAAAAATGGGCCATGAAGGAAAAATGCCCCTTAGAAGTGGCGATCCAGAGGACGGAGGGATGTTGGTTGTTGGTATATTCGATGTTTAATAGTAAATAGAAAAACAGGAAGAGAAACACCCCTCCGATAACCACTCGTCCCCTCAAGGGGACAATTATAAAGCGAAAATATTATGACATAATATACGCTTCCACAAATGAAAGTGTTTAAAGTATAAAAAAAGAAAGCCAGGGAAAAAAAGAAAAAAGGATCATGAAGGAAAAATGCCCCTTAGAAGTGGCGAGTCCAGAGGACGGAGGGATGTTGGTTGTTGGTATATTCGATGTTTAATAGTAAATAGAAAAACAGGAAGAGAAACACCCCTCCGAAAAACCCACGTCCCCTCAAGGGGACAATTATAAAGCGAAAATATTAAGACGTGATAGAAGATGACTTTTATAATGACTTTGATATGCTCAAGGGGAGAATTATAAACCTTAAATATTATGACATAATATACGCTTCCACAAATGAAAGTGTTTAAAGTATAAAAAAAGAAAGTCAGGAATAAAAAAGAAAAAAGGATCAGGAAGGGAAAATATGATAAACTCTTCATTAAAAATACATTTTAAAGAATATATAAAAGATGCAAATAATACAGAAATAAGTTATGAATTATTTTTGTATGAGACATAAAAAAAAGAATATGAAAGATTATTAGATTCAAGATTAAAAAGTAAGATAAGAACAGCAAATTTCTCACAAAAAAAGTATATAGAAGATTTAGAAATAGAATATTTACCATAAAAAATTAAAAGTATTATCTACATTAGAATTTATACAAACAAATCAGAATGTAATATTATCTGGTAATCCTGGAACAGGGAAAACTCATATAAGCAATATGACTTGGTATGAAAGCATTTAAAGCTATCTAACCAACCACCTAACCAACCAACCAACCAACTAATGTACTCTTGAAAAAATATTTTTAATTACACTCACCTTCTTAGCATTAAAAATCTAATACTTTTTTATTTTTTATCTGATGAATCCCCAATACAATCAAAGAAAAAAACACAAATAGTATTATAATCATGTAACTAATAGCATTGACGCCTCCCAAATCTGGTCTCACTATTATATAAGGTAAAATTAATATTATTAGTGTAAATATCGTTTCTATATTTACAGCTTTAACGTCTGATTTAAAAAGTAAGCGTGAAATAATACCTCCATTTGATGCTATAATTGCTGAACATAATGGTATTATTATTAACGTTTCTAATGGAATACTTATATCGACAAAAACATACTTTAATAATGTGCTCATTTCAATTGTAGAAATAATTGAATATATTATCCCCAATAAAAGTGGTAAAATTATTTTTACTATATAAAAATTCAATGGTTTTATTCCAGAAGATAATAAAAACTCTAACGTTTCATCCATTCTTTCAAATCTTATGGAGTTGTCAGAAAAATTACCCGTTACACCCAAAGGCATTAGTCCTGAAAATAAAATTATAATATCCCTATAAGAAAAAGGGGAAAAAGGAGTTTTAGGCATAAATAAAAGTGCTGGAAAAATGAAAATAATTGCTATAGATCAATAAATTTCTCTTTTTTGATACTTTAAATACTTTAAATCCTTATAAAAAATTGCCAATATTGTATCTATTTTACTCACCTCAAATTTCTTAATTATCAATAAAATAAACATAAAAAACATTGAAAAATTTTTAGGTCTATCTTCTAATAACAAAATCAAATACATTGTTGGTAAATATATTAATTTTAACACATAGAACGTTTTTTATTTACTGAAATAAATTCTTGAAGCTCTTTATAAAAAATTATTATTATTTCATTCAACAAAATCTTCAATTAAATCTTGCTTCATTTCATAAATTTTTTCAACAGAGGTATTTAAAAATGGATTTGGATAAGTACTTTTAATTTTATCAAATAAAAAATTCAAATCTTCTTTTAACATCATTCCATTAAAAAATTTGCTTGAAAAAGTTATTGAAATAGCAAAAATCAATAAAATAAACATGAATATTCTCTTCATCTTTCCCTCCTAAAAATAAAAGTTTATGTTACTGTGATCTATTTTGTTTTTTGAATATATTGCAAAAATTATACTATATTCTTTTCTTTCTAATAAAAATCCATTTATATAAATTTTATATATAAAGTTTTTTATATTTTTTACAATCATATTCTAATATTACCATTATAGAAATTGGAACTTTAATTATATTAAATTTTAGCTTCAACATACCTATATTTTTATTTGAATAATTAAAAATTATATTATTTTTTTGATAAAAATTTAATGAAATGAGTTCAGAGTTGATGTAGGTACTTTTTGTTATTATATTTTATTATAATTATAACACCAAATTTTATTATTTATGATTTTAAAATCAACAAAATGATGTGGAAAAAAATAATCCACACCATTAATTAATATTCTAAAAGGTACCTTTATTATATTTATTTTAGAAAGTTCAAATTTGTTTTTTTCTAAATCAATTAAAATAATTTTTGCTTTCTTTGAATCTAAAATACTTAAAATGGGAATTAACCCTCAGAAAGTTTTAATTCTTCTAATCTAAATCCAGCTGAACAAAAAATGGTTCCTGCATCATTTCCAAAATCATTTGGAAAATTGTCTATAGGTCTATTAATTAAATTTTGTGCTTTTCCTCCACCAGAATATAAATGATATTTTTCGTAGGTTCATATTTTGCTCCTTTCCTTTCTTATTTTTTTATTATTTTAATAAATGCTCTTATATTTGAAGAAAATTTAAATTATGTGATCTGACCCCAAAAAAATGATATAATTAATAGTAGAATACGAAATTTTTAATATTTATTTTGATTGGAGGAAAAAATGTTTTTTGATAACATCCCAAAAGAAACTTCCATAAATAAAATTTCACAACCATCTTTTTTTGAAGGTGGTGAAGAAGCAGTTCTTTTAATACATGGATATACGGGAACTCCACATGATATGAGATATTTAGGTCATATGTTACACAAAGCTGGTTTTACAGTTTCAATACCACGTCTACCTGGTCATGGAACTAATTCTATTGATTTTCAAAATTCAAATTGGAAAGACTGGTTAAGAAAGGTAACAGATGAATATATAGATTTGAAGTATAAATATAAAGAAGTTTATATTTCTGGACTATCTATGGGTGGAGTTTTAACTTTGATATTAGCTTCAAAATTTAAACCTAAAAAAATAGCATTGGCTGCACCAGCCATTGAAGCAAAAAATAAAAAAATAAAAATAACTCCTTTTTTAAAATATTTTATAAAAAAATTGATAGAAAATATAAAGAAGTTCATGAAGATGAAAATTTAAATAAATTAGCAAAGGAATATTGGCATCATAATTGGATAAATAAAGCTGCTGATTTAAGAAAACTCCAAAAAATTTCATTAAAATGTTTATCTGAAGTTGAAGCAGATACATTAACTATCTTATCTAAAACAGATGGTTCTGTACCACTTGTTGTTGGAGATATTATAGAAAATAATATAAATTCTAAAAATAAAAAGAAAATAATTTTGGAAAAAAGCCATCATGTTCTTGTAAATGATATAAAAAGAGAGTATGTTGCTCAAGAAATAATAAAATGGTTTAAAAGTTAATTATATTAATCATAAATATTGCGGAGGTGAACTTTATGGCATTATCAGAAAAGATAGAGAAGATGTTCAACGAACAAATAAATAAATAAAGAATTTTATTCAGCTTATTTGTACTTAGCTATGGCATCTTACTTTGAAGAACAAAACTTACCAGGTTTTGCAAATTGGATGAGAATACAGTTTCAAGAAGAAGCACACGCATTTAAATTTTTTGATTATTTGGTTGAAAGAGGTGGACATGTAGAGTTAGAAAAAATTGAAAAGCCAAAAACAACTTGGGAAAATCCTATTGATGCTTTTAATGATGTTTATGCTCATGAACAATTTATATCTAAATCAATAAATGAAATTTTTAAAGTTGCAAGAGAAGAAAATGATTATCCAACAGAAACTTTTATTCATTGGTTCATAATGGAACAAGTTGAAGAAGAAAAGAATGCTAAAGAAATATTGGATAGACTATCTATGATTAAAGACAATATTCAACCTCTTTTTATGCTTGATTCAGAACTTGCAAAAAGAGTATTTACACCACTAGTATAATAAAATGGGCTTTAGCCCATTTTATTAATGCAATGGTCGTTGAATTAGGAAGCTCCATTGCTTTAGCTGTGGGAGAATTCATACTATGATTTTAATTATAAAGAATAGATGTATGGTTTTGAAATTCTAAAGGAGCCATGCATCTTAATTTTTTTTATTTTTTTGATTCAGAAAATCGTTATCCTAACAAAGGTATTCTATTTTCTATCGATGATTCCTCCACTAATTTTTGATTTTGTTTTATAATTTATTATTAACTTACAAAATGTGTGAATATTACAAAGAACGAAATACGTTTTTTAGAAAATTTGAACGGCGAATGTTTTATTTTTTCGCTATTTTCCATCGTTACATTCACGCATTTTATGAGTTATTACATTAAAATTATAATATTAAATAGAACTTTAGTTGAGTAATTTTTTATATTTTATTAATTTTTTTTAAAATAAAAAAATTAAAAAGAAATAACAAAGTATAAAATTAATTCTGATATAAAAAATTTCTTTTTAACTTATATGCGTTTATTTTTTTTTAATAATGTAAGATATTTTAAACATACATATGTTAAAATGTACGATAGAAAGGTATATTTAAAAAGGGGGAGAAAGAATGTTTTCATTTTTTAATCCAACAAGAATATTTTTTGGTAATGATGTAATAAAAGATAATTTTAATTATATTGATGAACTTGGTAATAAAGCTTTAATTGTAACTGGTAAAAATTCTGCAAAAGTTAGTGGAGCTCTTGAAGATATTTTAAGTGCTTTAAAAAAATTAAATAAAGAATGGGTTATTTTTGACGAAATTAAAGAAAATCCGACTTATGATTTAATTGAAAAAGGTAAAAAAGTGGGATTAAATGAAAATGTTGATTTTGTAATAGGAATTGGCGGTGGAAGTCCAATGGATGCATCTAAAGCAATATCTATATTAATAGCAAATGATTTTTTATCTGTAGAAGAATTATACAATGGAGATTATGATGTTGCTTTACCAATTGTTGAAGTTCCAACTACTTCTGGAACAGGAAGTGAGGTTACTCAATATTCCGTTTTAACTTCTATGGAAGGTAAAAAAGCTGGTTTTAGTAGCGAAGTTAATTTTCCAGATGTTTGTTTTATTGATCCAAAATATACGTTGAAACTTTCAAAAGCATTAACTTTAACTACAGCAATAGATGCTTTATCCCATGCTGTTGAAGGTAGTATTTCAACAAAAGCAACTGATATATCTGATTTAATGGCAAAAGAATCAATTAAATTAATAAAAGAGAATTTAATGAATAGTTTGGATAATTTAGATAATATTAAATATAGAGAAAATTTATCAAAGGCTTCTATGCTTGCTGGTATGGTAATAGCTCAAACAGGAACAACTTTACCACACTCACTTGGATATTCTGTTACTGTTAAGTATGGCGTTAGACATGGTATTGCTACAGCTATATTTTTACCAAATGTTTTAAAGAAAATAGAAAAAGAAAATCCAAAAAAATTAAATGTATTAAAAAATGTATTTGAAAGTTTAGAAAACTTTGAAAACTTTTTAAATGAAGTTGGTATTTTTAATAACTTACCAAAATTAAAAGAAGAAGATATTATTAGTTTTTCTAATACAGTTATTAAATCTTCTCATGTAAAGGTTACACCAGCTACATTTACAGTAGAAGATATTAAAAAGTTATATTTGGAGGTTTTTGAATGATAGTAAAATTAAAGAAAAATATTAAATCTCGTGTAGCTAATGGTCACCCTTGGATATATGAAAATGAAATAGAAAGTGTTGAAGGTAATCCAAATCCAGGAGATATTGTTTCTGTTTTTAGAGGAAGTAATTTTTTAGGGAAAGGTTATTACAATCAAAATTCTTTAATAAGAGTTAGGATCTTAACAAGGAAAAATGTAGAAATAGATAAAGAGTTTTTCAAAGATAAAATAGAAAAAGCTTTAAATTATAGAAATTTAATATATCCAAACAGTAATACTTATCGCTTAATATTTGGAGAAAGCGATGGACTCCCAGGTTTAATAATAGATAAGTTTGATGATTATATATCAATGCAAATTAATACTTTGGGAATATTTTTAAGAAAAAATTATATAGTTGAATCATTAATAGAATTATTAAATCCAAAAGGAATTTATGAAAAAGATGATGAGAGAAGTTCTAAAATTGAAAAGTTTGAAATGACTAATAAATGGATATATAAAAGTGGTCCGGAATTAATTCCTTTTACTTTAAATGGCATAACTTTTTTTGCAGACACTTTAGGACAAAAAACTGGATTTTTCCTTGATCAAAGAAATAATGCTCTTGAAACGGCAAAATATTCAAAGGATAAAACTGTTCTTGATGCTTTTACCTATACTGGAAACTTTGGTGTTCATTGTTTAAATGCTGGAGCTAAACATGTAACTTTTGTTGATTATTCAGAGAGATCATTATATGTTCTTGAACAAACTTTGAAGATAAATAATTTTGATAGTTCAAGATATGAAATAATAAATGCTAATACTTTTGATTATTTAAGAACATTAGATTCAATTGGTAAACTATATGATGTTACAATAATAGATCCACCATCAATGGCTAAATCAAGAAAAGTAAAAAATGGTGCAATAAGAGGTTATAAAGAATTAAATTTAAGAGCTATGAAGATAACAAAAAGTGGAGGTTTTTTATCTACTTCTTCGTGTACTCAAATAATTTATGATGAAGAGTTTAAAAAAATAATTTATTCAGCAGGTGAAGATACAAAAAAAATTTTAAAAGTTATTTTTAGAGGTTATCAATCTCCTGATCATCCAATAAATTTAAATATTTTAGAAACAGAATATTTAAAACACATGCTAATAAAAGTAGAAAATATCGATAATTTTTAGGAGGTGTTTAAAAGATGTTTTTTTATGATTCAACACTTATATTATTAATACCAGCATTTATTTTTTCTGTAATAGCTCAAATGAAAGTAAAGAGTACTTTTAATAAATATTCAAGAAAAATGTCTACAATGGGTGAAAGTGGCGCATCTTTTGCAAGAAGAATGTTAGATTCTATGGGACTTTTTGATGTAAAAATAGAAAATGTTAATGGATATTTGAGCGATCATTATGATCCAACATCAAAAATTTTGAGATTATCAAATGCAACATACAACAATAAATCAGTTGCTGCAATAGGTGTTGCAGCTCATGAAGTTGGACATGCAATTCAACATTCAAAAGGATATAAACCGCTTGCTTTAAGAAGTGCAGTTGTACCTATGGCAAACTTTGGTTCTAACTTATCGTGGTTAATATTTTTTGGAGGTTTCATATTTAATGCTCCGTTATTATTGAATATAGGAATAATATTGTTTTCTTTTGTTGTTGCTTTTACATTAATAACTTTACCAGTAGAATTTGATGCAAGTAGAAGAGCTTTAAAGCAACTACCAATGTTAGGAATGCCAAATAGTGAAGTTTCAATGGTAAAAAGTGTTTTAACTTCTGCAGCTATGACATATGTTGCAGCAGCAGCAGTTGCAATATTACAATTAATTAGAATGATACTTTTATCGAGAAGAGATTAGTATGGTAAGAAGTATAGCTTTTAAAATTTTAAAAAAGTTTGATAAAAGATATAAAGTTTCTATTGAAGATATAAATATTGCGAAAGATATTTTAAATGACTTACAAATAAGAGAATTAAAAGGAATGGTTTGGGGAACTATAAGAAATTTAACTAAAATAGATTATATCCTTTCAAAATTTGTAAAAAACTTTAATAAAAACACACCAGCCTCAAAAACAATTTTAAGGCTGGGTGTTTATCAATTATTAGCTGGATATGATGAACATGCAGTTGTTTATGAAACGGTTGAACTTGCAAAAAATAAAAAATTAAAAGGATTTATAAATGCAGTTTTAAGAAAGTGCATTAGAGAAATTGAAAGTATGGAATTTCCAGAAAACATAAAGTATTCGTATCCAAAGTGGATTTACGATTATATAAAAAAGAATTATTCTTTTTATAAAGAAATATTAGAAAAACATATTTATCCTTCAAATCTTGTTTTAAGAGTTAATACATTAAAAACAAATAGAAAAGAGTTAAGTAAACTATTGCAAGATAAAAAATGGGATGTGGCTGAAACTATTCATAGTTCTTATGCAATAGAAGTTTTAAATTTAAATGAAGTGCCAGAATATTCTAATGAATATAAAAATGGATATTTTTATATTCAAAATGAATCTTCTCAACTCGTTCCAATAATTATGAATCCAAATGAAAATGATATGATTTTAGATATGTGTTCAGCACCAGGAGGAAAAACAACCTTTATTTCTCAATTGATGAATAATAAAGGTAAAATAATAGCTTTAGATAATGATTTTGATAGAATTTCAATGGTTTCAGAAAATATAAAAAGACTTGGTATTCTTAATACAAGTACAGAATTAATTTCTGCTTCAGAATATAAATCAAGTATAAAGTTTGATAAAATATTAATGGATGTTCCATGTTCTTCAATAGGAACTTCATCAATACATCCAGAAGTTATTTTAAGAACAAATAAAAAAGATACTTTAAATTATCAGAAGATACAAAGAGAAATAATAAAAAACTCTTTTAATTTGATAAAAAAAGATGGAAAAGTTATTTATTCAACGTGTACAATTTTTAAAGAAGAAAATACTGATAATATGAAATGGATATCAAAAAATTATAATGTTGAATTTATTGATTTTTCAAAAGAGTTAAAAAATATGAATGTAAAATATTACTATGATGGATACGGATATTATATAATTCCAGATGATACTTTAATACCTTTTTATATTTGTAAATATAAGGTTAGATAGAAAAATTAGGAGGAAAAAATGAAAAAAAATGTATTGGATTTTACTTTTGAAGAATTAGAAGGTTATATAACTCAAAAGTTGGAAATGAAAAAATTTAGAGCTACTCAAATAGCTGATTGGATTTATAAAAAACATATTTATGAATTTGATAATATGAAGAATATTTCAAAAGATGATAGATATTTATTAAATGAGAATTTGTATATAGGAATACCAGAAATAAAGGCAGTACAAGAATCTAAAATTGATGGAACTACAAAATTTTTATTTGAACTTGAAGATGGGAGTACTGTTGAATCAGTAATTTTATTTTATCCTAATAGAGTTTCTGCATGTATTTCTACACAAGTTGGTTGTGCATTAAAATGTAAATTTTGTTCAACAGGAGCTTCTGGATTTGTAAGAGATATGACAGCAGGAGAAATAGTTTCTCAAATACTTGCAATGGAAGAAGTAAAAAATATAAACATAAATAATATAGTTTATATGGGAATGGGTGAACCATTTTTAAATTATGATAATGTAATTAAAAGTATAAAAATTTTAAATGATAAAAAAATGAAATGTCTTGGTGGAAGACACATAACTGTTTCAACTTCTGGTATAGTAGAAAAAATAGAAGAATTAGGTGATTTACCAATAGAAGTAAGGCTTTCTGTTTCATTACATGCACCAAACAATGAAATAAGAGATAAAATTATGCCTATAAACAATAAATATCCAATTGAACAAGTAATTCAAGGATGTAAAGATTATCAAGAAAAAACAAATAAAAGAGTTACTATGGAATATATAATGATAAGAGGATTGAATGATTCAGAAGAAAATGCAAGAGAACTTGCAAAATTAATACAAGATTTAAAAGTGATGGTTAATTTAATACCAGTTAATCCTAATCCAGCAGGATATGAAAGACCATCAAAAAAATTTATAGATCAATTTGCTAAAATTTTAATTGAAAATGGTATTGATGTTACAATAAGAGCAGAAAAAGGTACTGATATAGATGCAGCTTGTGGACAGCTTAGAAGACGAAATGAAAAAAAATGAGGTGTTTTTTAAATGAACTTATTTTTGAAAATTATTAAATCAATATTTTTTTTCTTATCTGGTTGTTTTGTAGCAGCAGTAGCTGCTTTTCTGTTTATGACTGTATGGGTAAACTCTGCTAAAGTTGTAGAAGTTCCTTATATAATAGGAGAATCAGAGGATATAGCCATTAAAGCATTAAAAGAAAAACACCTTCAACCAAATATAGAAGGTACAGGTAATAAGGTTTTATATACTGAACCAGGACCTGGATCTAAAGTAAAAGAAGGGCATCATATTATAGTACAGCTTAGAAATATTGAAAAACAAAAAGTACCAGATTTAATTGGAATACCAGGTGAAGTTGCAGAGCAGTTTTTAATTGAATATAAGATACCATATATAATACAAAAGATAAAAACATATCAAAAAAGAAATAATGGAATTGTTATTTCAACAGAACCAGAACCTGGAAAAACTTATGGTGAAAATAAAGTTAAAATAAATATAGGTATTTATGAGGGTGTGAATGAATGAATTGGGAAAAAGGAATTGTTATGAGATTTCATTCTAATACTGTTTCAATTATGAATACAAAAACAAAGAAAAGAGAAGAATGTGTTCTTAGAGGTAAATTTAAAAAACAAAAAATAAGACCCATAGTTGGAGATTATGTAGAATATACTTTAAATGAACAAGAAGAATATGGGAAAATAGAAAATATTCTTCCAAGAAAAAATAACTTATATAGACCTAAAATTGCTAATGTTGATCAAGCAATTTTAGTTACTACATTAAAAAATCCATTTGTAGATGCTTTAATTGTAGATAAATTTTTAATTCAAGTTGAAAAAATGGGTATAGACTGTGCTATTGTAGTAAATAAAGTTGATTTACTACAGACTTCTGAAGAAAAAGAATTATTACAATTATTTCTTGACACCTATTCGCCATTATATACAACTCTTCCTGTTTCTTCAGTTACAGGAGAAAATATAGATAAATTAAAGATAATTTTTAAAGATAAGATAAGTACTATGGCTGGTATGTCTGGTGTTGGAAAATCAAGTTTGTTAAATAGTATAAATACTGGTTTAAAATTAAGAGTTGGAGAAATATCAGATAAATTAAAAAGAGGGAAACATACAACAACTTATACAGAACTTCTTCACTTTGATTTTGGTGGATTTATAGCAGATACACCAGGTTTTTCAAATTTAGAGTTAAGAGGTTTTAATAAAGATGAAATAAGAGATTATTTTATAGAATTTTTAGAATTTTCTCCTTATTGTGGTTTTTCAGATTGTTCTCATACGGTAGAACCATACTGTATGATAAAAGAAAAATATGAAATGGGAGAAATTGCTTCGAGTCGATATGAAGATTATGTATTTATTTATGAAGAATTAAAAAAAAGAGGTGATAAAAGATGGTAAAAATATTTCCGTCAATACTCGCTGCAAACTTTGCTAATCTTGAAAAAGATTTAAAAAATGTTGAAAATAATGTAGATGGATTTCACATGGATATAATGGATGGTAGATTTGTTCCAAACATATCTTTTGGTTTTCCTGTTTTAGAGTCATTGAGGAAAATAACAAATAAATATTTTGATACACATTTAATGATAGTAGAACCAGACAATTATATAGAAAGATTTTCAAAAGTTTCTGATTCTATAACAGTTCATTATGAAGCAACAACACATCTTCATAGAACTATTTCTCAAATAAAAAAGTTTGATTGTGAAGCTGGAGTTTCTTTAAATCCTCATACACCAGTATCACTTTTAGAAGAAATTTTACCATATTTAGATAAGGTGCTTATAATGAGTGTTAATCCTGGATTTGGTGGCCAAAAATTTATAGAAACAACTTATAATAAAATAAGAAAATTAAAAGATATGAATTCAAATGTAGAAATAATGATTGATGGTGGAGTTAATCCAAATAATATAGATAAATTAGTAAAAGCAGGAGCATCGTCCTTTGTTGTTGGATCTGCTGTTTTTAAAACTTCTGATCCAAATAAAGCAATAAAAGAAATGAGGGATATATTATGAAAGCTTTTTTAGCTACTTCAAATAAACATAAAGTTGAAGAATTAAATTATATTTCTCCAAATTGGATAGAAGTATCTCCAATATCTGATTTGTTTAACGAATTTAATCCAGAAGAAACTGGTAGCACTTTTATTGAAAATTCAGTAATAAAAGCAGTTACTGGTGGAAATAAAATAAAAAAAATAGTTTTAGCAGATGATTCGGGACTTTGTATAGAATCATTAGATGGATTTCCTGGAATAAAATCTTCAAGGTTTATGGAAGGACGTACATATGAAGAAAAAATGAAAGCAATTTTTAAAATGTTAGAAGGAAAAGATAGAAAGGCTTATTTTGCGTGTGCAGCGACTTATTATAATCCAATGACTAATCAATTGATTTCATATGAAGGAAGAGTATATGGAAAGATCTCTGAAGTAATACGGGGTCATGAAGGATTTGGATACGATCCATTTTTTATACCAGATGGATATAGTGAAACATTTGGAATTCTTGGGAATAATGTAAAAAAAGAAATAAGTCATAGAGCTCGTGCATTTAATGGTTTATTTAATATATTGAATAAAATTATATGAAAGTAGTATTAACTATAGTTAATACTACTTTTTAATTATGTGTGTTTATGTATATACAGTTTTTAAATTTATGATTTTTTTAATTATTTTGATTTAAATGTATATATTTGGGTTTGACAAAAGATATGTAATATGTTATTATCAATCTTGTGTTTTTAAAAATTATAGAGGGAGGAATGAATTATGTTTAATACTGGGAACACTGCATTTATGCTTCTTGCAACAAGTCTTGTCATGTTAATGACTCCTGGTCTTGCCTTTTTTTATGGTGGACTTGTTGGAAGAAAAAATACATTAAGTATTATGATGCAAAGCTTTGTTTCGCTTGGTGTAACTACAATTATGTGGTTTGCTGTTGGATATTCTTTGAGCTTTAGTGGAGACGTTTGGGGAATTATAGGTAATTTAAATCATGCTTTTTTACACGGAATAAAAGTAACAGATGTTTTTTCTGTAAATGATAATATTCCAATTATAGTATTTATAGCATATCAAATGATGTTTGCTATAATTACACCAGCTTTGATTACAGGAGCATTCGCTGATAGGGTTAAATTCAAGGCTTATTTAGTATTTTTAGTATTTTGGCAATTATTAGTTTATTACCCATTTACACATATGGTATGGGGCGGAGGATTCCTTCAAAATTGGGGAGTTCTTGATTTTGCTGGTGGAATTGTTGTTCATACAACCGCTGGATTTGCAGCATTGGCTTCTGTACTTTATGTTGGTAAAAGGAAAAATAGAAAAATGGAACCACACAGTATACCACTTGTTGCACTTGGAACTGCTTTATTATGGTTTGGATGGTATGGATTTAATGCAGGTAGTGAATTAAAGGTTGATGAAATAACTTCAATTGCATTTTTAAATACAGATATTGCAGCATCTTTTGCTTCAATAACATGGTTAATAATTGACTGGAAAAGAGCAAGAAAACCAAAATTCCTTGGATTCTTAACTGGTGCAGTTGCAGGACTTGCAACAATAACACCAGCTGCAGGTTTTGTAACCTTACCTGTTGCTGCTTTAATAGGTATATTAGCTGGAATAGTTTGCTATCTTGCTGTTGAAGTTAAAGTAAAAAGAGATTGGGATGATGCCTTGGATGTTTGGGGAGTTCATGGAATGGGAGGTTTCATGGGTGTTATTTTCTTGGGACTCTTTGCAACCAAAAGCGTAAATCCTAATGGAGCTAATGGACTCTTTTATGGGGGAGCAGGATTTTTTATGAAAGAAATAATTGCAGCAGTATTTGCAGCTGTTTATGCATTTGTATTTACATATATAATGCTTATAATAATCAATAAATTTACTCCAGTAACAGTAAAGAAACAAGAACAAGAACATCTTGATGAAAGCTTACATGGAGAAGATGCTTATATATAAATTAATAAAAACAATAAAACGCTCACAAGATTTGTGGGCGTTTTATTATTAGGTTAAAAATGTGTTATAATTATAGTGTGAGGGTGTGTTTAAAAAAAGGAGGGATACTTATGATTTTTGCGAAAAAAGAAGGAGAACCTTTTGATATTTTTGAAGTTTCGGATGAAACAAAGTATAAAATTTATCAAACTCTACCTTATGATGGAATAGAGTACATTGATTTTAATGTTACTAAGGAGTATAGAATACAGTTATTAAAAGTAGTTGATGTAAAAGATGATTTTGATGTTTATATTTCTTATAACCCTGACAAAGAACATGTTTTAAAAATTATGGAAGAATTTTCTGAAAAAGTTTTAGTTTTAATTAATAAAAAAGATGATGAAAAACATTGGTTTTATAATTCGGTAATGCACGAAATGATAAATCAATATAAGAGATTTTTAAAACAAAATCATATAAACTTCATTGAAGAAATAGAATCTGAAAAAGTTGTTTTCATATTAAAAAAATAGAGCTTTAAGCTCTATTTTTTTAATATATTAAGTATGTTCTCAATAATTATATTACCTTTTAAATTAGCTCTAACTTTATTTCCTCCACCTTTTACATCATATTTTTGAATAATATTTTTTGATAGTTCTTTACAGTCAATAGTATTTGAAGTAATAGTATACTCTCCATCTTTACCAAAGATATAAGTGAAGTCTTTGAAGTATTTTATTAAATTTTTAGCAACATCATTATTTTCTTCATATACAATAATATTGTCTTTAGAATTTTTTATTAAAAATTCAGATAATAATTTGGCATGTTCTTCACTGAGTTTTTTTAAATCTTTTTTTAATTCCTTTTTTTCTTCTAATAAACTTTTGATTCTTTCATTTAAGGATTCAATAGAAGTTGTTAAGTTTATAGATAATGATTTTAATAGAGTGTTTTTATAATTATAATCATTTAAGGCTCTTTTCCCAGCTACATAATAAATTCTTGTTAAATTACCTTTTATTTTTTCTTTATTTATTATTTTGATTAGTCCTATTTCTGCAGTATTATTGACATGAAAACCACCACAAGGATTAATATCAAAATCACCAATTTTTATTAATCTTACTTTTCCTGTTACTTTACTACTTAAAGGTTTTCTCAATTTATATTTTTCTATTTCAGATTTTTCAATTAATATTTTTTCAACTTCTATATGTTTTTGAATAATATTATTAGAAAGATCTTCTATATTTTTAATTTTTTCATCACTAAGATTTGAACAATCAATATCTACGGTTGTATAGTTTTTACTCATGTGAAATCCTTTAGTTTCATAGTTGTATTTTTGTTCAAAAGAAGCAGATATAATATGTTGTGCAGTGTGTTGTTGTGCAATATCTATTCTGTTTTTTAAGTCAATATTATATTCATATGATCCTGGTTTTAACTCTTTGTCAATTAATATATAATCCTTTAATACCTCTATTATATTTGCATCTTTTATAGTTCCTCTATCTCCAAGTTGTCCGCCTTTTCCATCTGGATAAAATGGAAAATTCTCAACTTTGATTTTATAAATATCATTATATTTTATAGTTTCTAATATATTTATAGTCAAAATTATCACTTCCTCACTTATTTTGAAGTTTTTTCTATATAATGATTTATATCAATATCAATAAAATCAAATGAATTTTCAATTTTTTTAGACCATTTTAAGTTTTGTGGATGTTCTATTCTTGTTGAAAGCATAGTTTCAGCTCCAATTAAATTTGAAAGTTCAAGTGCTTTTTTTATATTTAATATTCCTCCAAATTTTGTTATATCTAATACAAAACCTGTTCCAATATTATTTATTCTTAAAATATCTTCCATTTTTTCAATAGATTCATCCCAAAATATGGCATAATCCAGAGCAAAGTCAGAAACATGATATTCTCTTCCTGGAGGAACAGGTTGTTCAATAGCTATTATGTTATAAGTATATATTTCTTTTAATAACTTTCTTAGTTCATAATGATTATATTTTCCTCTAAAATCTAACCATAAATTTTTATTACCACAAAGTTTTAATGTTTCTAATACATCTTTATAAGATGGTTTTTCTAAAAATTCAATTTTTATATTTTTTTTGTTTATAATATTTAATATATTTAAATCTTTTTTCCAAAAAATTTTTTGAAGAGTAGTATTTTCAGCTTTTTGTTTTTTAAAAAACATTTTAGAAATATCTAAACTTTTTTTATTATTTATATAATCACATATTGAAAGAGAAACTGCTGTTTTAGATGCCATATCTTTTTTTACTAAGTTATTCATTTGTTCTTCAAAGTCATATAAATTACCAAGATCTTTAAAATTTTCTGTTAATCTTCTAAGTAATTCAATTACTGCCATTGTTGTTTTAAATGTTTCACCATACAAAGATTCTGGAGTGGCTGCTCCAATACCTTCATATCCATCTTTATCTATTATTTTAAAAACAATATGTTCTTTCCATTCTGAATTTAAATTTTTTAAAATGCTACGCTCTTGCCAATAATAAACATCTCTTTCACGTTTCATTTTAACCCTCCCATTATTAACATCCAAATAAATGAAAGTGCTGTACCATAGATAATTGAGTAAATAATTTCTTTATCTTTTCTTTTTTCAAATAGCATTTTATATATTATTCCAGCAATTATTGCAATTAATGCTAAAATATATTGATGTGCCATTATAAATATAAAAACTGCAAGTCTTTCTGATGTACCAGTAGTATCTTTTTTCCCTTTTGGAAGTATATTAAAAGTTCTAAAAATATAACTTCCTATACTAGTTGTTATTAATAATCCAAGAATATATATTTGAAATGGATTTGATATATAAGAATCTAAATAATAATTATTCATAGGTATTGAAAGTATTAAAAATGATAATGAACTAATTGTTTCAAAAAGTAAAGTGCTTCCTTTTTTTATTCTGAAAAAATCTAAAGCAACATGAATTAAAAAGGCTAAAACTGCAAATAATTTTCCTAAATTATTTGTATCAAAATTGAAAATAAAAAACACTACTGCAGCCCAAATCATGTGTTTATAATAATTTTTTTTGTCTAAAAAATCTTTTGAGTAAACATCAGAAAAAGCAAAATCACTAATTAAATGACTTAAAAATAAATTTATTTGAAACATATTGTGCCTCCCATTATAAAAATGATATTTCTCCTCTATTTCCTTCAGATATGTAAAGTGCTTTTTTTAATCTTTCCATTATTGTTTCTATACTTTCATTTGGATTAACAACTTCTGTAATTCCAAATGCTAGTTTTATTCCTCTTAAATTTTTTTCTAATTTTTTGATTCTCCTTTTTATTCTTTCACAGGCTGTTTCTGTATTTCTGAGTTCTGTAAAAGGTAATACTACTCCAAACTCTTTTCTTGAAATCTTTAATACATCATCAGATTTACGCATAGATAATTTTATTAATTTTAAAATTTCTTTTGAAACTTCATCTAATGAAAATTGTGAAATTTGTTTTTCCCGTTCGTTGAAGTCTAGTATAGATATTACGGCAAGAGAAAAAGAACCGCCACTTCTTTTTATTTTATCTAATTCTTTTAAAACTCTTTGTTTAAATGCTCCTCTACTTCCACGTGCCAAAACAAAATAAATTGCATTTTGAAGTTTTAATTTTAAAATTTTTTCTGAATAATCTTCTAATATAAAATCTATTGTTTCATTTTTTAAAATAGGTAAATTTTCTAAAGATTTTACATTATCAATAATAGCAATATGTGGAAAAGCATATCTTAAAACATTATCAACAATAGCAAAATCAGAATTAAATATATCTTCAAACTCCACATCAATGTTATTACTTCTTAAAAGTAATTCAATTTTTTCTTTTAAAATTAAATTTTTTGTATTTAAATATACAGAATATATAGAATTCATAAGTACCCCCTTTTTGTTTTTACCAATAAATTTTATTAATAATATTTAATCTTGAATGATCAGATTTTCGTCTACCTATTTTAGCACAAGGTTTTCCATCTACTTCTACTATATCTGCAGTAAAGTCTATTTTATGTTTTAACAATTTTGATCCAACACCGTATACATCTACAGGAACATTCAATTTTTCAAATAAAGATATTTTATTTGCATCAAATCCGCCAGAAACAACAATTTTTAGATCATTTAATCCATTTTTATCAAATTCTTGACGAGCTTTCCATACTAATTCAGGATTAACGCCTAAAGATGATTCATTTCTTGGAATAACAGATTTGTCTCTTAAAGAACCTGAAGTATCAAATCTTACTGCCCATATTTTATTTTTTCCTTCTCCAATTATTTCTTTTGGATCTGTTTTACCAAGTATAAAATCTTTTCCAGTTATATATTTATAGAATTTTTTAACAACTTTAAATGTTGTTCCTATAACATCATTATCCCAATCAACCAAAACCATTCTATTTACATGAGGATCAATGTGCTTATCAAAAGCAATTGCAGCATCTTCAGTTTTTCCATCGTATACAGCAATCAATGCATGTGGAATGGTGCCAGCAGACTCTATTCCCCAATAATCAGCATTAGCATCAGTGGATACACCAAAAGCTCCAGCTTTTAAGGCTGCGTATCCATCAGTTGCTTGTGTCCAGAAATGATCAAATCTTGCACTAAAAAATAAAATAGGTTTACCTCCAGAAGTTTTAACTACTTTTTTTACAGAGGTTGCTGTACTTGATGCTCTAGATAAAACACCCAATAAAACAGTTTCTAAATGTCCAAAAAAGGCTGGGTTCCCTTCTATTGTCATTATTGGTTCCATGTTTTTTGCTTCATCACCATCATTTAATGCTTTTACATTTATTTCATCCCATTTATCTACCCACATATCATCTAAAAGCATTCTATAATCCCATTTTTCTGCTGTTTTTTTCAATAATTCTTCTTTGTTCATTTTACTTGCAGCATCTTGTATTTCTCTTTCAAGATGCATTATTTTTGAAAATAATTCAAGTGCTTTTTCTTCATCAGAATAGTATCCTGTTCCATATCTTAATATAGCTAGTGCTTCATCAATTCCAACTATTGTGGCATCTTCACGAGGAAAAAATTGATATAAAACTTTTTTATTTATTTTATCTTTTTTTAGAACTTCAACATATCTTGTAAAATATTTGTCAGTATAATAACCATTTCTTATTTTATCTATTGGTACTTTAAAAACATTTGGATTTAATCTTTTCATGAGTTCACTCCTTTTTCTAATAGTTTGAAATTTACTGGAACAACTTTAGTAATACCTTGTTTCATTGTAATTCCATAAAAAACTTCTGCAATTTCCATCATTAATTTATTATGAGTTATTACTAAAAACTGAGATTTATTAGAGTTTTCATGTATTAAAGAAGCAATCTTTCCAGCATTTATATCATCAAGAGGTGCATCTATTTCATCGAGTATATAGAATGGACTTGGGTTTAAATTCATCATAGCAAATAAAAAAGCAATAGCTATTAATGCTTTTTCACCACCAGAAAATAAAGAAAGTTTTTGAAATCTTCTTCCAGCTTTTTTTACGGAAATTTGTATACCTTTTTCAAAATCTTTTCCTTCTCCAATTAGATTTAATTCTCCATATCCATTGACAAATAATTTACTAACTAATTTTTTAAATTCTTCATTTAAAAGATTAAAAAAATTAAAAAATTCTTTTTCGGCTGTTTCATCAAGTAAATCGATGGAATCTTTTATTTTTTTTATAGAATCTAAAATATCTTTTTTTTCAATATTTTTTTGTTCAAAATCATTTCTTACTTCTTTATATTCTTTTAAAACAGTTAAATCGACAGAACCAATATTTTTTAAAGCTTTTTCAATGTCTTTAATTCTATTTTCTAAAGCTTTTATTTCAAATTCTTCTAATTGTTCTTTCTCAAATTCCTCTTCATTTAGATCAATATTTTTAGCTTTTTCAACTATAAATTTTATATTTTGTTCAAGTGTTTTTATATCAAAATCATTTTTATTTTTTTTATCTTTTATTTCTTGAATTTTGTTTTTTATGTTAGTTCTATTTTTATCTAATTCTTCAAGTTTGTCAATTTTTTCTACTTTTCCTTTTCTGTTATTTTTCATAATGTCAAAAATTTTAGATATTTCTTCACTCAATGTTTTATGAGAATTTTGAACTTTTTCAAAATCTTTTTTGTATGTTTCTAATAAAGATTTGAGATTTTTAAATTCAGTTTCATTATTTATAATATTATTTTTTAAATTATTTATCTCATGATTTATAGATTTTTTTTCATTTAAATACATATAATATTTTTCTTCAGTATTTTTTAATTGAGAGTTTTTTTCTAAAATTTCAAAGTTTATTTTATTCATTTTTTCTGTATACTGTGTGGAATTTTCTGAAAAAATAGAAAGTTCTTCAGTATAGTATTTTATATTTTTTTCTTGTTCTTTTTGAATAACTTTTAAAGAGTTTATTTCTTTATTTAGTTCATTTAATTCATTTTTATAGGTTTCAATTCTATTTAAAATAGAATCATAAGAACTTTTTTTATTTTTTAAATCATTGTTTAATTGTTTATAATTAGAACTTTCAATATTTCTTTTTAATATTAACTCTTTTAATTCTTCTTCTAAAGAGTTTAAATGTAATTTTAATTTTTTTATTTTTTGAGATTTTTGTTCTTCTAAATCTTTATAATAATTAATATTTTCAATACTTTCTTCAATTTTTAACTTTAATTCTTCTATTTCTCTTTTTCTTTTTAATATAATAGATGAATCATATCTTGTTTTTCCACCACTTATAGCTCCTGAGCCATAAACGACTTCACCTTTTAAAGTAACAATTGTTGATTTGAAACCATTTTTAGATATTGTTATTGCGGTTTTTAATTCATCTACAAGCAAGATATTAGAAAAAGTATATTGCATTACTTTTATATATTTTTTATCAAATTCTACTATATTAATTAAATAATCAATTACACCAGCTTCTTTTAAAATATTTTTATTTAGTGCATACGTACCTTTCATTAAATCAAGAGGTAAAAAAGTGATTCTTCCTCCAACTCTTTTCATATAATTAATATACTTGTCTGCTTCTGAAGAACTGTTAATTACTATATTTTGAAGCTTTGCACCAGCTGCTGCCGAAATAGCCTCTTCAAATTGTTCTTCAACTTCTATTAGATTTGCAACTACATCTATTACATTTTTTTCATCTTTGAATCTTTTAAAGAATTCTTTTATGGACTTAGAATATCCATCATAAGAATTTACTTGATTTTTAATAATTTCAAGTTTGTATTCGCTTTCTTGTTTTTCTTTAAAAAAATAGTTAAGTTCATTTTTTATTTTCTCTAATTCTTGAAACTCTATACTTTGTTTATTTTTTTCTTTTATAATTATTTCTTTTAATGTTTTTTCTTCATCGGTACTTATTTTTAATTTATCTTCTATTTTTTGTATTTCTTTAGATAAGTTTTTAATATCTTTTTCTAATTTTTTGAATTCTTCATTTAAATATGAAATTCTTTCTTGTTTTCCTGTTATTTCTTTGTTAGAAGTAGATAATTTTTTGTTAGTTTCAGTAAATAAATTTTTTTCTTGAGATAGTTTTGCTTTAAATTCTGAAATTTTTTTATTTTGTTCTGAAACTTTTTCGTCTAATTCATTTTTTTCAGAAGTAATAATTTCAAGCTTATTTTTTACTTTAATCATATCATTATAATATTTTTCTGATAAGTCTTTTATTTCTGTATAACGTAATTCTAATTTTTTTAAATTTTCTGTATATGTTTTTATTTTCCAATCATGTTCAACAATTTTACTATTTGTGTTATTTAATAGTTCTGAAATTCTATTTTTTTCTTTTTCAAGTAAAGAAATTCTATTTCTATAATTTTCTATTATTTCACCATTTTGAGATAATGATTTATCAACATTTTCTATTTCTTGTTTTAAAGACATGTAAGCTCTTTCGGCATCAAAAGATTTTGAAAGCAACTCTTTCATTTCTTTAGAGAGTTCTTCATTTAAATATTTTAATGAATCTATTTTTAATTTAATAGATATTTTTTTTGCACCATAAAATTTTTTTCCAATGTTTTTTAATTCATTTGTATATGATAAATGTTTTTTAGCTCTGGAAGCTCTATTAGAAAGATTTTTTAACCTTTTTTCAGTTTCAAATAAAACATCTTTTAATCTTTCTAAATTTTCAGATGTTTTTTCAAGTAATTTAAGTGATGTTTCTTTTTCTTTCAAATATTTTCCAATATCTATTATTCCAAGTACTAAATCTCTTAAATCTTCTGGAGAAGATTTTACTATATCACTAACTTGACCTTGACTTATTATAGAATAAAATTGCTTACCTACACCTCCGTTTGAAAAAATAGAGTGTAATTCTTTTAAAGTAGAAGTTTTATTATTTAATAAGTATTTTCCAGAATTTTTATCTAAAATTTTTCCAATTTCAAAAATTTCATTTTTTTCATTTTTTAAGGTTAAAAAAACTTTTGCAATTTTTGCAGGTTTTAATTTTTCAGTACCAGAAAATATTACATCAGTTCTATCATCTATTCTCATTTGTTTTGATGATTGTTCTCCTAATAGCCATCGAATTGCATCAACTATATTAGATTTCCCAGAACCATTAGGTCCAACAATTGCTATTATTTTTTTATTTAATTCAAAACTAGTTGGTTTTGCAAAGCTTTTAAAACCATCTATTGTTAAATTTAATAGTTCCATTTAGACTCCTCCTGAAGCTTTCATCCTTTCATTTATTACTTTTACTATTTCATCAGCAGTTTTTCCAGAATTAAAAGCTTTATACATCCAACCTATTGCCTTCATATCAAAAGAAGCATACCATGTAGGAGAATTTTTTTCCATTGATTGATTTCTTATTAAATAACTTGGATGAAATGTTGCAAAAATTTTTATGTTGCCTTTCCAGTCAAAAAAATGACCCCTTGCTGCAGTTATTTTTTTATTTATACCAAAATATTTTAGAGATGTTGAACCAAGTGCAACAATTATTTTAGGTTTTAATATAATTAATTGAGATTCTAAAAAGGGAGTGCATAATTTAATTTCTTCTGTTGTTGGAACTCTATTTTTAGGAGGTCTACATTTTACGATATTGGTTATATACACATCACTTTTTTTTAATTTAGACCAATTAACTAACATTTTTTCAAGAAACTGACCAGCTTTCCCAACAAATGGATGACCAGTAGCATCTTCATCGGCTCCAGGACCTTCTCCTACAAAAACTATTGGAGAGTTTATATTTCCTTCTCCAGGAACAGTTGTATTTCTACTTAGATGTAATGAACATTTTTCGCATTTACTAATTTTTTTATTTATGTATTCAATTTCAAAATTTTTATCAAACATAAGATCCTCCATTACATTAAATTAATTCCCCAACTTCCTGTATTTTCATAATAAACATTTTTTTCTGGTATATCATTTATATAAAATTTTAAAGTAAATTTTTTTAAATTAAATTCTGGAAGTAAAGATAATTCTGCTTCAAATAACATTGTCCAACATATTATTCTTTTTTCAATTTTAAACTTTGTAAAATCAAACAAATTATTATTAATATCATAATCAAAATTTGTAGAGATAGATTCTATAATCGAATTGTGTTCTTTTTTTTCATAAGTAAGTGTAGAAGTTAAAAAGTTAGTATCAACTTTATAATCAAAAATACTTTCAAGATTAAAGGGTGTTTTATTTTCTAAAAGTTTTAATCTAAAGTAATATTCATTATATTTATCTTTTAAATTAAAATCTCCTAAAGCTATATAATTCTTATATGAAAATTTATATGAATTTTCAATTTCAGGCAAACTTTCTTCAAAACTTTTTTTATTAAAATAGTATTTATAAGATGACTTTATAAAATTATTTCTTGAAAAAGATAATTTTTCTATATTTTCAGTATAATCAATTGGATTTTCTTCTTTATGATTATAAGTGAATTTTGTTTCATGATTTATTAATCTTTTTGATGAATTTGGGTTGTTTATTCTAAGAATTACTTTTGTTGTGTTTGGTTCTAAATGAAATTCATTAGTTGTATCATAAGAAGTATCTGTTAAAGCTGAAAATTTTAAATCAAATAAATCAATTGAATTTGATGTTTTAAAAGAAAGTTCTTTTAAATGTATATTTGAGAAATCATTTGCAAGATATTTTCTACTTATTTTTGCGTAACTTTCAAATATTTTTAATATTGGCAACTTGTATTGATAATAATCAATGTAATATAAATTATTTGTTGCTTCAGGAGTAAATCCCTTAGTATACTTTAATGAATTTTGAGCTTTAAAAATTGAAAAAGAATAGTTAAAATTTGGTGATGTACTAAAATTAAATACATGTTTTCCATAAAAATATGGTCCACTTTCAAAAAAATCTTTTGAATAATCAAAATTTATTTCATTATCTAGTTTTAAATTAGATGAAAAAAATTTAGAATTAGTTTTAAATAAAATATTTGAATTTTTTAATGAATTTTTTGATTCTAAACCATTTTTTACAGTTTCTGTAGCAACAACTGAAGTATTATATAATAAAGTTCCAGATAGTTTTGTATTGTGTGAAAAAAAATTATAATTTGCATTAGCATAAGTATCAATTTTTTTATTATTCCAAGCTTCTATAATGTCAGAGTCTAAATTTGTTTTTGTTTCTATATTTAAATTAAGTTTGTTTATACCAAAATTTGAACGTTTATACTTTTTTTGTAGTCCTTTTGAAGAAGAAACTGTTAAAAAATTTATATAATATAATTTGTTATTTTTCCATAAAAATTTTGATTTTATATTATTCAATTCTCCAAGTTGTGTTAGTAATGTTGGAACATTTAAATTTACAGAATTTTCATTTGATGAAGGAGAATAAAGATAGTTTAAATAAGAATATTTTCCAAAAATTTTATCATTAAGAAAATCTATTCTAAAACCAAAATTACCTGGATTATAATTTTTTATTTCTGAAAAAAGATAAAAATTATAATCATTTATATTAAATCCATAGTTGAATGTAGATGTTTGATCAAAAGTATTTTTTTTAGTATCATTTAAAATCGATTGTTTATATTTTATAAAAGTATTATTTTTAAACTTATAATTTATAGAAATATCTATGCTTAATTTATCTTCTCCATAGTTAAGAGATAATTTAAAGGGAGAATCTTTTTCATCTGATAAATTTTGAAAATAAAAAGGGAAATAAAATACAGGAACACCAAATAAATCAACAATAACATCTCTTGCTACAAGAAATTTTTCTGGATATATAGATATTTTTCTTGCATAAAAATAATAAGTTGTTGCTTGACAAGCCTTACATGTTGTAAGTTTTGTTCCATGTGCAATCATAAAATCTTTTTTTGTTGGTTTTTCAAGTTTATCTGACCATATTCTAACATCTATTTCTTTCTTTTCCTTTGTTTTATATTTTTGTACTGTATAAGAATTTAAAAATAAAGTATCATCTTTTTCAAAGTTTAAAGTTAATTCAGATGATTCAACAGTAGTCTTTTCATGCTTATAAGTAATATTACCTTTTAAAGTGGCATTTATTATTTTATTTTTTTTATCAAGAAGAGCATTACCATAATCAGCTTTAACTATAGAATTTTTATATTTTATTGTTATGGAACTTTCGAAGGTTATATTATTATCTTTTATATTTATATTATTACAATCAATATAAACATTTTCAGAAAATCCTGTGTTTGTTAAAAATAGAAAAAATACTATTAAAATAAAAAATTTCTTAATGGGTTCTATTAGTTTGTAAGATAATTTAGTATCTAATAGAAAAAATAATGATATACCAGAAACAATAAAAATTATATTAGGTATCCAAGGAGCTAAAATTGGATTTAATATTTTTTCTTTTCCAAGAGCTGAAATCCAAGCTCCAGAACCCTGATATAAAACTACTAAAATAAAAGTAGAAATAACACTCCAAGATTTACTCTTTAAATTTAAAAATAAAGATAAAGAAACACCTAAAAGTGCAATTACAAATGGTGAAAAAGAATCAGCAAATTTTTGTTGATAAGCAACATTTAAACTTGCTACATCTACACCAAGTTTTGAGAAAGTATCTATTTTTGTTTTTATTTCTTTAGTTGTCATATCATTAGGAGATTTAGCAAACCTTAAAAATTGATCAACATCTTGTTTAATGTCAAGTTTTAATTTTTTAAAAGAAATATCTAATTTTAAATATCCTTCATCATCAGTTTTAAATAATCTACCATTTTCCATATACCATCCATCTTTTTCTTTTTTTGCTTTTTTTGCATGATATACAGATACACTATCATATTTTACTTCATATAATAAAAGATCGTAAAGATATCCATGTTCTTTATCAACTTGTTTTACAAATAAATAGCGACCATCACCTACATCAACAAATTGATTTTCTTCGATAAGTGCTTCTGCTCTTTTATAAATATACTTTGCAATAGCTTGTTTTGCTTTGAAATTAGAAATAGGAACTATAGAATTTAAAAGCATAAAGGTTACAATACATAAAATCAAAGAATTTATTATAAATGGAATTACTATTTTTTTTAAAGGAATTCCTAAAGTTTGTAATGCAATGATTTCATTATCATTTGATAATCTTGAAATTAACCAAAATATTGAGAACAAAACACCAACTGGAATGCCTAAAGATATAAAATAAGGCAAATTATAAGCTAATAATAACAATAATTTTGAAAAAGAAACTCTATTGCTAACAATTTGTTCAGAAAGCTGGTATAAAAGTTGAACACTTGCAAAAATTATAAATCCAAAAAGACCCATTAAAAACGGTCCTATCATTTCTTTTGATAAATATTTAAAAAGTTTTATCATATTTCATCCTCTAAAGAAAAAAAGTATTCAAGCTTATTATTTCTACACTTATATCGAGATCCTTTTATTGCCCAAATTACATTTTCAGAAATATTTGTTGCAAAATCTGAAAAAGTTTCTATATTTGTTAAAATAATTAAATGTAAATTTACAGATTTTATAGAGTCTTTTGAGCGATAAAGAGAACGTTTATAAGCTTTTAATAAACTAGATACTTCCTGTTTTAAAATACAAATATTTTTTGCAGGTTCAAAAAAATGTTCTGAAACTTCACTTACAGTTAATTCTTTTATTTCAAGATTTATAAAATCAGAAAACATTCTTAAAGAAGTAGATAACATTTCTTGAGTTTGCATAAATATATCTTCAAAATTATTTAAATTAATCCTTTGAGGCATTTTTAAAAGTTCAACATTTAATTTTGCAGCTTCTTCACATAAATCACCCATTATTTCAAAAACATAAATTAATTTTAATCCGACAAGATTAGCTTTTAAAAATTTACCAGTGAAGTTTGAAGCTCCTATTAGAGCCATACCATCAGCTTCTAATTTGGATTCTAAAAAATCTAATCTGTCATCTTGAGCTATAACTTCTTCACTTAAATTTTTATCTTTTTCAAAATAAGAATCTTTAAGCTTAAAAAACATTCCTTGAGTTAGTCTTCCCATTTTTAAAACATTGTTTAGATAAATTATTAATTTTTTATGACTGTATTCAGAAACTATAGATTTCACTTTATTCAAACCTCCTGCCAAAGGCAAGTTTGTAATTTAACACATTACAAAAATTATCTCCTAATTTTTGAGCAAGTTTTACCTTTTTTTTGCTACTTGTTATTGTTAAAGAAGTATTTAATTCTAATCTATGAATAATATCTCCATCTGCTGTTACATACGCAAGTTCCATTTCATCTGATTTTATTTTTATTACTATTTTTTTTTCTGGAGACAAAATAAATGGTCGTATATTTAATGCATGAGGAGATAAAGGAATTATCTCTATTGCATTTAAATTTGGATCTATTATAGCTCCACCAGCAGATAAGCCATATGCTGTTGACCCAGTTGGTGTTGAAACTATTATTCCATCGCCTTTAAAAGAATATAAAATATTATTTGAAGATAAAACATCTAAGTTAATAGTTCGCAATGGTTGACTTTTTTGAATTACAATATCATTTAATGCTAAAAATTTTTTATTTGCTATTATGCATTCTAACATCATTCTTTCAGAAAAAGTTATTGATTCTTTTGATATTTCTTTTGCAGCTAATTCTATTTCAGTTTCAGAATAAGCTGTTAAAAATCCAAGGTTTCCCATATTAATTCCAATAATTGGTTTTGAATAATCAGCTGAAAGTTCTGAAACTCTTAAAACTGTTCCATCTCCACCAAAGACAACATAATAATCTGCCATTAGAGCTACTTTTTCAGTAACTTCTGTTCCAGCAGTAAATATGTTTAAAATTTCTATTTTATACTTTTTAAATAAAGGAATTACGTGTTCTTTAATGTGCTCAAGTGAAACTTTATTTGGATTATAAAAAAAGAGCACTTTCACATTATCACCTCAATCTGTATGCAAGTTCAAGTAATGAATTTACTAAAAAATTATCAAAAAATACAAGAACAATTAATCCTATCATAGGAGAAAAATCAAGTCCAGCAAACACAACAGGTATGTACTTTCTTATTGGATATAATATTATATTTGATATTGAATCTAATGCATATTTATATTTGTTTGGATAAGGCATTAAAAAACTCAATATAGAAGATATTATTATTGAAAATTCAAATGTATATATTACAATTCTCAATATAACAGCAATTGCTTGAATTAAATTTGCTATAACAAACATTCTTACACCCCACTTCCATAATTTCTATTTCCAAAAATTTTACTGCCAATTCTTAAAAATGTTGCACCACATTCAATAGCAATTTTAAAATCATTAGACATGCCAAATGACAATTCTTTAAAATTGGTATCTTTTATATATATTTTATCTCTTATATTTTTTAAAGAATTAAATATTTCTTTTAATTTTTCTTTATCTTGAGTATATGGAGGTACAGTCATTAAACCAGATACGATAATATTTTCATATTTTTTTGAAAGTTCATAAAAATAATCAAATTGTTCAATGGCTATTCCAGATTTTGAATCTTCTCCAGAATTAATTTCAATTAATATTTTTTGTTTTTTATTAAATTTTTTTGCTTTTTTATCAATTTCTATTAATTCTTTTTCTCTATAAACTGAATGTATATATTCACAAATAGGAACTATATACTTTATTTTGTTTGTTTGTAATTGTCCTATAAAATGCCATTCAATATCTTTATGATTTGAAAAAAATTCACTTTTATTTTTTAATTCTTGAGCTTTATTTTCCCCAAATAATTTTTGACCAGATTCATAACAATACTCTATGAATTCTTTTGGAAATGTTTTTGAGACAGCTATTAATTTTACATTTTTTCTATTGTATTTGTAGATAGTTTCATTAATTTCATCAAGTACAGCTTTATAATTTTTTTGAATTATTTTTTTCATTTTTATCCATCTCCCATAACTTTAAATTAGAGTTATTTTTTTCATAATTTAATAGTTCATAGGCTTTATTAGTTACCATTCTTCCCCTATGGGTTCTAATTAAAAAACCATTTTGTAGTAGATAAGGCTCATAAACTTCACTTATTGAATCTGATTCTAATCCTAACGAAGAAGCAAGAGCATTAATCCCAACTGGACCACCTTTATAATTTTCTATAATTGTTTTTAAAATTCTTCTATCTATTTCATCTAATCCTTGAGTATCTATTTCTAAAATTTTCATAGTTTCTAAAACATTTTCAACTTCTATCAAATCTTTTTTTTGTACTTGTGTGAAATCTCTTACTCTTTTTAACAATCTATTAGCTATTCTTGGTGTTCCTCTAGAACATTTTCCCATTATCATAGCAGCATCAGAACTTATTTTCATATTTAACAGTTCAGAATTTCTTTCTATAATTGTTTTTAATTCTTCAGGAGGATAAAAATTCATTTCAAGTATTATTCCAAATCTACTTCTAAGTGGAGAAGCTAACAAACCAAGTCTTGTTGTTGCACCAATTAAAGTAAAAGGATTTAAGTCAACTCTTATTGAACGGGCAGAAGGACCTTTTCCTATCATTATATCTAATTGATAATCTTCCATAGCAGAATATAATATTTCTTCAATAGATCTATTTAATCTATGGATTTCATCTATAAAAAGTATATCACCTGGATTTAGATTTGTTAAAATAGCAGCAAGATCACCGGCTCTTTCAAGAACCGGTCCACTAGTTATTTGTATATTGGCTCCCATTTCATTTGCAATAACATTTGCCATTGTTGTTTTTCCAAGTCCAGGTGGTCCCGCAAGAATAATATGATCTAAATGTTCTTTTCTCATTTTTGCAGCGTCAATGAATACAGATAATCTTTTCTTTATTTTTTCTTGACCTATATATTCATTTAAAAACTTAGGACGAAGGCTAATTATACTTGCTTCGTCCTTTAATTCTTCGGGATTTAAAATTCTTTCTTCATTCATTAAAATTCCTCCGATTAAGGGTAAACTCTATAAAGTGTTCTTGCAAAAGGAATTGCTTCTCTTATATGATTTAATCCACATATCCAAGCTACAGTTCTTTCAACTCCAATTCCAAAACCACTGTGAGGTACTGAACCGAATTCTCTCAAGTCTATATACCATTGATAATCTTCGATAGGCAAATCTTTTTCTTTTAATCTTTCAATTAAAACATCTTTTTCCCAAATTCTTTCAGATGCACCTACTATTTCACCATAACCTTCAGGAGCAAGCATATCATCACAAAGAACAACATCTGGATTTTCTGGATCTGGTTGCATATAAAAGGCTTTGATATCTTTAGGATATTTTTCAACTATTAATGGTTTATCTTGTTGAGAAGATAAAACAGTTTCATGTTCAGCGCCTAAATCATCTCCCCATTTTATATCGTATCCTTTTTCTTGTAAAAGTTTTATAGCATCTGTGTAAGTTATTCTTGGAAATGGAGCTTTTACATTCTTTAATTTATCTATATCTCTTCCAAGTGCTATTAAATTTTCTTCAGCCCTTTCAATAACTTTTTGAACAATATATTCGACTAAATCTTCTTGTAATTTCATATTATCTTCATGTGTATAATAAGCAACTTCTGCTTCATTCATCCAAAACTCAATTAAATGTCTTCTTGTCTTGGATTTTTCAGCTCTAAAAGTTGGACCTAAATTAAAAACTTTTCCTTGAGCCATACAAGCAGCTTCTAAATATAATTGACCAGTTTGCGCAAGATAAACATCACCATAATCAAAATATTCCATTGAAAATGTATTTCCTGCAGATTCTCCAATAGATCCAGTAAAAATAGGTGTATCTATTAATTTAAAATCTCTATTTAAATAAAATTCTCTCATAGCTTTTATTATTTCATTTCTAACTTTAAGAATATGAAATTGTCTTTGAGATCTTAGCCAAAGATGTCTATGTTCCATTAAAAAATCAATTCCATGTTCTTTATTTGAAATTGGATAATCTGTTTCATTTGCATGAATAATTTCAACTTCATCAATAGATATTTCTACACCAATTGTCGATCTTGTATCTTCTTTAACGGTTCCTCTTATAATAAGGCTTGATTCTATTTTTAATTTTTTTACTTTAGAATATAATTCTTCATCAATAGTGCTTTTTTCTAATACACCTTGCACAAATCCAGTGCCATCTCTTAATTGTAAAAATGAAATTTTTCCACCAGTTCTTTTATTTCTTAACCAGCCTCTTATTTCTACTCTCTCTCCTATATGTGCTTTTAAATCTTTTATTGATATCCATGGCGTCATCGTTCAGCACCTCCATAACTATTTGTTTAAATTTATTTAGATTTATAGTATTATAACATATGAGCTTTATTAACTCAAATTATTTTTTACTTATATGAATACATTTTTTGATAAATAATCTTTAATAAACTTTAAAAAACTTTTTGACAATTCTGGGTCAAATATCTCTCCTGATTTTTCTTCTATGTATTCTATGGCTTCTTCAGGAGTTAAGATCCCTTCATACTCTGATGTTGCAGTATGAGTAGCAATATCAAACCAATCTACTATCCCAATAAACCTTGCATAATAAGGAATTTCTTCACCCTTTAATCCATCAGGGTAACCACTTCCATCCCAATTTTCATGGTGACCTCTAACTACGGGAACAGCAAACCAAAGTTCATCTAAAGAACTTAAAAAAATTGAGCCAGTTATTGTGTGTTCTAATTCCCATGTTTCAAATTGATTAATTCTTGTTGGGGTAAATAGCATTAATTGTTCTATACCAATTCTTCCTATATCATGTAGCATTGCTAATTCTTTAATATTTTCTATTTCTTCTGATGTTTTATTTAAAAACTGAGCAAATTTTTCGCAGTAATAAGCAACCCTTTGAGAATGGCTCATATTTGTTTTTGTATCTTCAACTTCCATTGTAACAACTAAACCTTGCAAAAATTTTGAAATTTTATACTTATGCTTTAACTTCAAATCAAATAAGTCTAACGGATTTTTATTTTTTGATATAGATATACCTTTTATTAAAGCTAAATCAATGTTTTCATACATGTTTTTTGAATTGAATATTTGAATTTCATTATCTTCAATAAATAAAGAAACACTATTATCATTTATTAACATATATACTGAATTTTTAATTTCTGGTTTTTTCCCTAAAAAAACATCGGCATCTTCTTTATTCTCAGTTATATTTATTGCTGTTTTTACTGAAATGTTTTCAATATGTTTTAATAAATTTATTTGTATTGTATCTTTAAAGATAAAAATTTTAGGAAAGTTATACATTTTTTCTCCTCCTAACTTTTAATTTTGTTTATATAATTATACTATAAAAATAAAAAAAATAGAAATTTTTATTATTAAAATTGCTTGACAATAGTAAAAAATGTAGTATAATATCTTGAGAGTGCCGATGTGGCTCAATGGTAGAGCGAGTCATTCGTAATGATTAGGTTGGGGGTTCGATTCCCTTCATCGGCTCCAAAATATTCAATATGCGCCCTCTGGGCGCATTGTTTTTGTGAGGTTTGAAATGTGAAACTTAATAAAATTGAAAAAAAAGTTTTTAATTTTATAAAAACGTATAAAATCTTTAAAAAATATGATAAAATATTAATAGCAGTATCGGGAGGTAAAGATTCCATGATGCTGTTACATCTTTTAAATAAAATAGCTCCACTTATGGAGTTAACTCTTAGTGTTGCTCATTTTAATCATAAAATAAGAAGAGAATCGGACTATGAAGAAGAATTTGTAAAAAAAGAGTGTGAAATATTAGGAATAAAATTTTACAGTAACTCTGGAGATGTTATAGGTTACTCTAATAAAAATAAAATTGGTATAGAAGAAGCAGCAAGAAAATTAAGATATGATTTTTTATTTAACACTTTAAATGATATTTCATATAATAAAATTGCAACTGCTCATCAAGGAGGAGATCTTTTAGAAACAGTTATATACAGAATAACAAGAGGCTCTGGAATCTATGGAATTGGAGGTTTGACTCCAGTTAACGAAAAATTAACAAGACCTATGTTAATTGTAACGTTGAAAGATGTACTAAAATATGTTACAATAAATAATGTTAAGTATGTAAATGATCCTTCAAATTTATCTGTTGAATACGCAAGAAATAGAATAAGGCATAATGTTATTTCAGAACTTTATAAAATAAATTCTAATGTTGAAGAAAATGTGTTAAGATTAGTTGAAACAGTTTGGGAATATAGAAACACCGTAGATATTGAATTTAAAAAAAGAGTTAAATTCAAAGAAAATACATATATTTTTAAACTTTACGAAGATATATTTGATGCAGAAGTTTTAAGAAAAATATTTTTAATTAATGGAACGTATCCGCCAAATATGGAAGAAACTAAAAAAATATTAAGAATGAAATCAAGTGGAGAACGTTTCATTACCCCTTTAAAAATAGTCAAAAAAAAGGATGAACTATTTGTTAGAGTAGAAAAAAAGGAGGAATAAGCTTTGGCAGAAAAAAATAAGAATAGTAATCAAAAAAGATTAGGTATATTTTTTGTTTATATTGTTCTTGCAATTTTAATATATGTTGCTGTAAACAATATGGTTCATACCCAAGATGTAAAAGAGGTAAGTTATTCACAACTTGTTAGTATGATAAACGAAAAACAGATTATGAAATTAGACATAGAAGACACAGGTAATGTTACAGCAAAGACAAAAGATGGATTAAAATATCATGTTTATGCTCCATCATTATTAATGGATCAACAATATGTTTTAGCACTTGCAAATGATGGAATAATGGTGAATTACACAAAAGGATTATCTTCAAGTTGGTGGTTAAATTTAGTAGGATATATAATACCAATTTTATTTTTTGTTTTCATATGGTATATGATGTTAAAACCAATGAGAGGAAATGGACCACAAGGAATGAATTTTACTAAAAGTCCATCAAGAAAATATGATCCAGTAAAAGATAAAATTACATTTGATGATGTTGCTGGTGTTGAAGAAGCAAAAGAAGAATTAATTGATGTTGTTAACTTTTTAAAAGATCCAAAAGGATTTAATGATCTAGGAGCCAGAATGCCAAAAGGTGTTTTATTAGTAGGACCTCCAGGTACAGGTAAGACTTTAATTGCTCGTGCAGTTGCTGGAGAAGCAAATGTACCTTTTCATTTTATAAGTGGTTCTGATTTTGTTGAACTATTTGTAGGTGTTGGTGCAGCAAGAGTTAGAGATTTATTCAACAAAGCAAAAGAAAATTCTCCATCAATAATTTTTATAGATGAAATTGACGCTGTTGGTAGGCAAAGAGGCGCAGGACTTGGTGGAGGTCACGATGAAAGAGAACAAACATTAAATCAACTTTTAGTTGAAATGGATGGATTTGATACTTCAACTGGAGTAATAATAATGGCAGCTACAAATAGACCAGATATACTAGATAAAGCTCTTTTAAGACCAGGAAGATTTGATAAAAAAGTAATAATAGATAGCCCTGACTTAAAAGGAAGAGAAGAAATATTGAAAATCCACATGAGAGGCAAAAAAATTGGTAAAGACGTAAATGCTGAAGTGTTAGCAAGAAGTACACCAGGATTTGTTGGTGCTGATTTAGAAAACCTAATAAATGAAGCAGCTCTTCTTGCAGCAAGAAACAAGAGACCAAATATTAATATGGAAGACTGTGAAGAAGCAATTGAAAGAGTTATAGCAGGTCCAGCAAGAAAATCCAGATTAGTTTCAGCTAAAGAAAAAGAAATAATAGCCTATCATGAATTAGGACATGCAATAATAGGTCATTTGTTACCAAACTCTGATCCTGTTCACAAGGTAACTATAGTACCAAGGGGCCATCAAGCTTTAGGTTATACATTACAATTACCTATGGAAGATAAATACTTAATGAGTAAAACTGAAATAATGGATAAAATAGTTACTGTACTTGGTGGAAGAGCTTCAGAAGAAATTGTTTTTGATGAAATAACTTCTGGTGCTGGTAATGATTTAAAAAAAGCTACTGAATATGCAAAAACTATGGTGTGTAAACTTGGAATGAGTACTAAAATAGGACCAATTGCTTGGGGAGAAGAGGAAGGCGAAGTTTTCCTTGGAAGAGAATTAACAAAAATGAAGAATTATTCTGAAGAAACCGCAAGTCAAATTGATGCAGAAATAAAAAGAATAATCATTGAAAGTTATGAAAAAGCAAAGAATATATTAATAAAAAATAGAGAAAAATTAGATTTAATTGCAAAATATCTTCTTGAAGTTGAAACATTATCAGGTGAAGAATTAGGAAATTTATTAAAGAAAGAAATTTCAGAATTAGAAGAATTTGTAGAAAAAGAATTAAATGATTCTAAAGACAAAGTAGAATTAGAAAAAAGTGATAAAGAAATAAAAAATAACGAAACTTTAGAAGAAAAAGTAAGTTTGGAAAAAGATGTTGAAAACTCTTAAAAGAGGTGAATAAATATGGAGGAGATTTTAAACAGTTTAAAAAGGAAAATAGGAAAAGAAATCACCTTTAGTTTTAAAGTTAATGATGATAGTTTTTTGTGGTCTGAAGATACAAAATTATTAGAATACCATGCATTGAGTACATCAGCTCTTTTAGAAGAAGTACATAGAAGTGGGTACTTAACTTTAAAAGAAGAACTTTCGGATGGATTTACTTCAGTTGTTTTTTCAACGAGTTTAAAACATTTAAAACCAACACCATATTCTTTTAATGTTTTTATTAAATTAAAAATAGTAAATATAAAGAAAAACGAAGTTATTTTTGAAGGAGAAGCTTTTGATGAAAATGAAAAAATTGCAGAATTTAAATTTTCAAGAATAATTATTTCAGCTAATTATCTTAAAAGAAAAATTCATGAAAAAGCTTCTAAAATAAACGGATACCAATAATACCCAGAAGGGAGGAAATAAATATGGCAAAAAAAATTATTATGATTGTTGAAGACGACCCGGCAATATCAGAAATGCTCTCTATTAATCTTTCAAAAGAAGGTTATGATGTTTTAACTGCTGGTTCTGCCGATGATGCTCTTAAAACAATTGAAGAAAAAGATGTAGATTTTTTTATTGTTGATATTATGTTACCTGGTTCTATGGACGGTTTTGATTTTATTAGAATTGTTAAGAGTAGTGAAGCACATAGAGCTACACCAGTTTTAATCCTCAGTGCTAAAGATGATGCAGCTGATAAAGTTGCTGGTCTTGAACTTGGTAGTGATGATTATGTAACTAAACCATTCAATGTAAGAGAACTTCTTGCAAGAATAAAGAGTATTTTTAGAAGACAAACAACAGCTTCTTTAATGAAAGAAGAAGGACCAAAAAAGATTTCTGCAAAAGACTTAGTTATTGATACTGAAAGACTTGAAGTATGGGTGAGAAATGAACTTGTTAGTTTAACACCTCTTGAATTTGATCTTCTTGTTTTCTTAGCAAAGAACGAAGGAAAAGTATTTAACAGAGACGTTCTTCTTGATAAACTTTGGGGATATGACTACTATGGAGACACAAGAACAGTTGATGTTCATATCAGAAGATTGAGAACAAAAATAGAAGAAGATCCATCAAATCCAAAATATATAATAACAGTAAGAGGAAAAGGGTATAAATTTAGAGATCCCGGAAAAGAAAAAAATAACTAATACGACAGAGGATACCCTCTGTCGTTTTTTGAATATGAGGTGGGATTTTAATGATTTTAAATACTGTACTTATTACTATTTTTTTAATATTGTTTATGTCATTTATATTTCTATATAAACATTTTTATATAACTAAAAATAAATATACTAAAATAAAAAATGAAATATCAAAAATGTTTGATATAAGTATAAAAAATCCTTCAGATGATTTCCTACTCCATCAACTCTCTACAAATATAAAAAATTTAAAAGAAAGATTTAACACAGAAAAATATAGAAGAAGAAATAGTTATTCTATACTGAACTCTTTATCAGAAGGGGTTGTTTTATTGTCATTACATTCTGGAGATGTTGTTAAAGTTGATTTTGCAAACGAAATATCAAAAAAAATTTTTACAGTTGATGATTATGTTGGAAGATCTTTAGCAGAAATAGTGGATAATCATTATTTAATAGATATGGTTTTGAAAAGTTTTAAAAAAAACAAAGACATAAAAGATGAATTACTCTTTTACTCTCCAGAAAAAAAATACTATGATTGCAAGGTAAAATTAACTAATATTGATGATAAATATAGAATAATAATTTTAAATGATATAACAAAAGAAAAAGAAATTGAAAACTTAAGAAGAGAATTTTTAACAACAATGTCTCATGAGCTTAGGACACCTCTCGCCGTAATGAATGGATACCTTGAAACTATTTTAATGAATTCTACTTTTGAAAAAGATATAGAAAAAATGTTAAAAATAATAGAAGATGAAAGTGCGAGACTTACGAGACTTGTTAATGATCTTATAGATTTAGGAAAGATAGAAAAGAATAATATAAGTTCTTCTAAATTTAATAAAATAAATTTAAGTGATTTAATTAAAAAGACATATAGATTTTTTAGAATGTTATCTGAAGAATTAAATATAAAAATAGTTCTTGAAATTGAAGAAGATGTATATATATATGGAGAAGAAGATAGAATTTTACAGGTCATATATAACATTTTAGATAATTCTTTAAAATTCACTGCTTTAAATAAAAAAGAAGATAACACAATTTGGATTAGATTATATAAGGATAAAGATACTTCAGAAGAAGTTGTTTTTGAGGTTGAAGATACAGGAATAGGAATTCCACCAAAAGACATACAAAAAATATTTGATATGTTTTATAGAGTAGACAAATCAAGAACAAGACAAATTACTGGATTTGGATTAGGACTTTATATAGTAAAAAATATACTAGAAATGCATAAAGCAAGAGTTTTTTTGGAAAGTGAAGAAAATAATGGAACATTATTTAGAATTAATTTTAAGAGTTTATCAAATGAAAATAAAGGTTGAACTTTAACTTATAAGGAGGTAGTATTACATGAGAGCTTATGATATTATTATGAAAAAAAGAGATGGACAAGAAAATACAAAAGAAGAAATAAAATTTATGGTTGAAGGATATGTTAAAGGCGAAATACCAGATTATCAAGTATCAGCATGGTTAATGGCAATATTTTATAATCATATGACAGCTGAAGAAAGATATGAGCTTACAATGAATATGTTAAAAAGTGGAGATACAGTAGATCTTTCATCTATTAAAGGTAAAAAAATTGATAAGCATTCTACTGGTGGAGTTGGAGATAAAACAACAATGGCTTTAGCTCCAATGGTTGCATCTTTAGGTTTAAAAGTTTCTAAACTTTCAGGAAGAGGACTTGGACATACTGGAGGAACTATTGATAAATTAGAATCAATACCAGGATTTAAAACCTCTATATCTCCTGAAGAGTTTGTAAAAAATGCAAATGAAATAGGAGTTGTTGTTGCTGGTCAAACTGCAAATATAGCTCCAGCAGATAAAAAATTATATGCATTAAGAGATGCTACTGCAACTGTAGATGAAGTTTCTTTAATTTCTGCTAGTATTATGAGTAAAAAATTAGCTGTAATGTCTGATGGAATAGTATTAGATGTAAAAACCGGATCTGGAGCTTTTATGAAAACAGTAGAAGATTCAGAAAAATTAGCAAAAGCAATGGTTGAAATTGCTAAATTAAATAATAGAAATGCAGTTGCAATGGTTACAAATATGAATCAGCCACTTGGTGATAATGTGGGAAATGCTTTAGAAGTACTTGAAGCTATTGAAACAGTTAAAGGAAATGGACCTAAAGATTTTACTGAATTATGTTATGAACTTGCAGGTAATATGTTAGAAGTTTCAGGAATAATGACTTATGATGAAGCAAAGAAAAAATTAGAAGAAAATATAAAAGATGGAACAGTTGCAAATTTAATGAAAAAATGGATAAAAGCACAAGGTGGAGATTCAAATGTTGTGGATAATCCAGAAGAAGTATTAACTATTTCAAAAGATATTGTTGATTTTAAAGCAAAAAAAGATGGTTATATTTATACAATAGATACTGAAAAAGTTGGTATAGCTTCAATGGTATTGGGAGCAGGAAGAGCTAAAAAAGAAGATGAAATAGACAATTCTGTTGGAATAAAAATTCTAAAAAAATTAGGAGCTAAAGTTTCAAAAGGAGATATAATTGCAAAACTTTATGTTTCTAAGATTAGTAATGTAGAAAGTTCTTTATCTCTTTTAAAAGAAGCTTATGAAATAAAAAATGAAAAACCAGATTCATACAACTCTAAGTTAATTTATAGTATTGTAAAATAGTGGGAGGATCATGATTTGAAAAAATTTCTGGTCATATTAACTTTAATATTGAATATTATAATATTTTCTGAAAAGGCGGTTTTTCTTCAAGAGGCAAAACCGCCCTTGTATATTGAAAGTATAAAAAATTTGGGAAACTTTTATTTGAATATAAATGATATTATAAAAGGCTTTGATATTAAAATATTTGAAAATAAAGTAAGAAATGTTATTATTTTAAGTTATAAAGATAAGATACTCGAAGTAGTATCTGAAGAAAATTATTCAAAAATAGATTTTATAAATAAATATAAAAATAGTGTTATTGTTTATAACAAAAAAATATTTGTAAAAGAAGATGTTATAAAAGATTTTTTTAATTTGTCAATACATAAAGAAAAAGATATTATATTTTTATATGATAGTACACCAAAAATAAAAGAATTTAACTTTTCATCAGAAAAGATTAGTTTGTTGTTAGATAAATTTATTTCAAGAGAATCAATAAAATATTCTAAAGTTGATGATATAGTAATATTAACAGTATCTCCAGTACAGAATTTAAAGATTATACCTTCAGGAATTGACTATTCATATGATTCTGAAAAAGCATATATAAAATTTAAAAGTTCATTTGATTATGATCTTGAAATAAATAAAAATAAAATTTTATTGACAATGAAAAATACAAATCAATCAAAAAATTCTTTGAATACTATAAAAGCTAATACTAACTATGAAGAAAAAGTATATAAAATAAAAGATTCAGAATATAAAGTATACAGCGCAAAAATAGATTTTAATAAATTTGATTTAAAAATAGATACAAATAGATTAGGAACATACTCTGATATAAACACATTTTTTGAAGAAAAAAAGCCATACTTTTCTATAAATGCTTCATTTTTTAATCCTAAAAATATGGAACCAGTAGCTAATCTGATAAAAGATAATAAATTAATATATTTAAGTGCACAATCTTACAGACCTAATTTTTATATAACAAAAGACGGATCTCCAAATATTAATTATTTAAAATTAGAGTATCAAATATATATAAACAATATACCTTTGTGGATAAAAGCAATAAATACAAATTGGAAATCAGAAGTAAAAGTATATACCAGTGAATACTTTGGAAATATATCAGAAACACAAAATGATTATTTATTTTATTTAGTACAAGATAAAAAGATAATATCTACAGAACCAATTAAACCAATAGATAATCAAAAATTAATAGTTATTAATAAAAAATATGAAAAATATTTTAAAGATATAAAAGTTGGAGATAGTATAGAAGAAAGTATAAAAAATAGTTTAGATGTTGAAATAAAAGAATTAGCAGGTACAGGACCATTTTTAATAAACAATGAATTTTCTCAAGAAAAAATGATTGAAGAGAAAAGAGCATGGGATAATGATATTATTTATGGGAAACGTTCAAGAACAATACTTGCAATTGACAATAACAATGTGGTAACATTTATAGTAGCGGAAGGAAATAATTCTGAAACTTTAGGTTTAAATTATGATGATTGTAAAGCCTTATTGGAAAAAATTGGAAATTTTAAAAAAGCTGTACTTTTAGATGGGGGAAGTTCAACTATATTTTATTATAATGGTATTATAAAAAACAAAAGAAATGAAAATTGGAGAAAGTACATACCTGTTTTTATTAGTTCTTATAAAAAGTCTGAGTGAAAAAATCGGAGGTGGGATAACATGGGGAAGCTTGTACCATCAAAAAAAAGAATTGTAGGACTATTTGGACATCATGGTTGTGGTAAAACCACTATGATGGATGCTGTTTTAAAAGATTATTCAAAAGCAGACAGAATTGGACAAAGATACTTAGACAAAGATGAAGTAGAAAAAGAAAAAGGAGCAACATTTTCAAATCATATAGTTTCAGTTGATTATGATGATCTTAGAGTTACTTTTTTTGATACACCAGGTTCTGCAGAGTTTTTAGGAGATATAGAAACAGCTCTGCATTCAGTTGATAATGTTTTAATAGTTATAAACGGTGTTTCTGGTGTAGAAGTAACAACAGAAAGAGTATGGAAAGTTGCAAGACGCATGCATAAACCTATAATGTTTTTTATAAATCAATTAGATAAAGAAGGAGCAGATTTTGAAAGAGTTGCTTCCGAATTAAAAGAAATATTTGAAGATGGAGTAAAAGTTGTACCATTTCAAGTACCAATTGGAAAAGAAGATAACTTTAGAGGAATAGTAAATCTTTTAAATAAAAAATCTTATATATATAAAGATGATAAACTTGGAAAAAGTGAAGAACAAGATGATATTCCAGAAGAAGCAAAAGAATACTTTGAAAAATATCATCCAGAATTGATAGAAGATATAGTTGAAAATGATGAAGAAGCTCTTGAAAAGTATTTTGAATCAGGAGAAGAAGAATTAAATATGCAAACATTAATAAAAGATTTGCATGAAGCTTATGGACACGATCAAATAGTACCAGTTTTAGTTGGATCTGCTGAAAAAAATATAGGAATGGATAGAATTTTATTTGCTGTTAAAAACTTTGGAAAATTGACATCTGAAAAGTTCTATGAAACAATTGAAGGTAAAAAAATAGAAGCTGATTTTGAAGCTCCACTTTCTGGATTAATTGTAAAAAATGACGTTGATCCATTTGTTGGAAAATTAACTTATATAAGAATAACTTCTGGAGTTTTAAAAACAGGAGATTCATTTAATATAGTTGATGAAGAAGCAACAGAAAGAGTTTCTCATATTTATTTACCAAGATTTGATAAAGATGAAGAGATAAATGAAGCAAAAGCAGGAGATATAGTTGTTATACCAAAATTAAAAAGTTCAAAAATAGGAGAAACAATAGGATCAGCTGAATTTAGTGGAAAAATAAAAACACCAGAATATCCAGAACCAATGATATCAAAATCAATAATACCTAATTCAAAAAAAGATATAGATAAAATAACCAATGCACTTTCTAAATTACAAGAATCAGATCCAACTTTTGCATGGGAATATGATTCTGAAACTGGTGAAACAGTTGTAAATGGAATAGGAACAATTCATCTTGAAGTTATGATGGAAAAATTAAAGAAAAACTTTGGTATTGATTTTGAAATAGGAAAACCAAAGATAGCATACAGAGAAACAATAAAAAAATCAACAAAATCAGAATTTAAACATAAAAAACAAACAGGTGGACACGGTCAATATGGACATGTTAGAATAGAAATGATTCCACTTGAAAGAGGAAGTGGATACGTATTTGAAGATAAAATTGTTGGTGGAGTAATTCCTAAAAACTTCATACCATCAGTTGACAAAGGAATTCGAGAAGCACTAAAAAAGGGAATTGTTGCAGGGTATCCTGTAGTAGATGTTAAAGTAACACTTTATGATGGTTCAACACATGATGTTGATTCATCAGACATAGCATTCCAAATAGCAGCAAGAACTGCATTTAAAAATGGAATGAAAGATGCAAAACCAACACTATTAGAACCAATAATGCACGTTGAAATAATAGTACCAAATGAATATACTGGAGGAGTAATGGGAGAAATAAGTTCAAAAAGGGGAAGACCAATGGGAATGGAAACAATAAGTAAAGGTGTGGATAAAATAAATGCAGAAATACCATTGGCTGAAATGCTTGATTTTTCTCCTAAGCTAAGCTCAATAACTTCAGGAAGAGGATACTTTATAATGAAATTTTCACATTATATGGAAGTACCAAATGATATACAAAAAAAGATAATTGAAGAAAACGAAAGTGAAGTAAACGCATAAAAGAAGGTGGCTAAAGCCACCTTCTTTTATTGTATATCTTTTAAAAGTCTAATGAATTTCATAAAAAGTGTGAAAGTAACGATGGAAAATAGGGAAAAAATATAAGATCTTTTCTAAGAATATGTTATAATTCTTAGGGAGGCGAAAAAATGAGAAGATTTTGTACATCAGGACCCGTAGATAGAGAAACCTGCTATTATGCAGAAAGACCAAAGATAATGGAAAAAGCATTAATATATATAGAAAGTTGGAGATACTTTACGGTATCTGCTCCAAGACAAACAGGAAAAACAACATTTTTAAATGACATAGTTGAAAAAACAAAAGACAAATACTTACCTATATTTATATCTTTTGAAAGTTATGGAAATAAAAATATAGAACAATTTTTAAAAACCCTTACAAAGGATATAATTGAAGACATTGAGTATAGACATAATATAAAATTAGAAATAGAAACGCCAAAAGAAATAGATGAAATAAGAGATATAATAATGGAAATATATGAAAAAACAGGAAAAGAAGTAATATTAATGATAGATGAGTTTGAAAGATTTAAAAATGAAGAACTAATAAATGATTTTTTACATGTAATAAGAAGTATATATCATAAAAAACAATTACATAAACTAAGAAGTTTAATATTAATAAGTGTAGGATATTTAAGCGGCGTGTTGGAAGATAGTGCAAGTCCATTCAATATAGCAGAACATATAGAAGTACCATATTTTACTAAAGAACAGGTATATAACTTGTTAAATCAACATGAAAGCGAAACAAAGCAAAACTTTGAAGAAGAAGTAAAGAGATTAATATGGGAAAATGCAGCAGGACAACCTGGATTAACAAATGCATTAGCAAATGATTTGGTGGAAGAAAAAGCAAAAAACAAAAAAATAATAACAAAAGAACATTTTGAAAAAACATACTTTGATTTTACAAAAAAATATATACAAAAAAATATAGAAAATGTAATATCAAAAGCAAAAAAAGAAAGAGACTTAATAATAAAAATATTATTTGATCCAGAAACAATGGACTTTGATATAAGTGATGAAAGAATAAAATATCTATACTTAAATGGAGTAATAGATGAATATAACGGTAAATGTTGTGTAAAAGTACCTTTGTATTATAAAAAATTATATGGATATTTCAAGCCTCAAATAAATGGTGAAAAGAAATATATGGCAACATTTAAAGATACAACAAATGAATATATAAAAGAAGAAGGTACATTAGATTTAAATAAATTAATAAAAAGATATACAAAATACATAAAAACAAGAGGAGCAATAATGTTCAAAGGAAGAAATTATTATGAAGGAGTATATCAATATAATTTAGATCAATTTCTAAGTTTATATGTAGAAGCAGCAAATGGAAAAGTATATCCAGAAACACAAGTTGGTGGAGGAAGAATAGACTTATTAATAAATTTTAATAATAAAGAATATTTAATAGAAGTAAAAGCAAATATAACAGGAAATGAATATGAAAAAGCAAAAAAACAATTGATAGAATACATAAAAAGAAAAGAATTAAAAGAAGGATGGTTAATAGTATACAGCAGTGAAATAGATGATTTTGAATATATAATAGAAGAACATGAAGATAAAAAATTACACATATGGCTAATTAAAACAAACTTTGAAAGTCCTTCTATAAAAAGTAATGTGTAAGTCAATCATTTTTATTGAGGGAAAGAAATAATACTTAATATAAGTAACTAAAACAAAAGGCATCTTAATAAGATGCCTTTTGTTTTAGTTCTGCGATGACTGTTCCACCAAGAACTAATATAATTCCAATTATTGCATATATATTTGGATAATTTTTTAATATTATTGAATCTGCAATTACAGTAACTACTGGAATAAAATATATACCATTAGTAACTGTTCGAGAACCAGAAAGTCTTATTGCTTGATTCCATAAGATATAAGCAAGTGCAGAACTAAGAACACCAAGATAAATTAAAGCAATTATTATTTTAGGTTGTAGCCATAATGAAAATATTGGACATGTATTTGATGTTTTCAACTCTAAAAAAACAAGTGGAATGAAAAATATAGATCCTAAAATATTTATATCTCTTGTTACAATATTACTATTTAAGTGTTCGAGTTTTTCTAAAAATAAGGTATATAAAACCCACGAAGCAACTGCACCTATCATTAAAGTATCTCCAAGAGGATTTAGTTTTAATATAAATTTTCCATTTAACACTAAGATTGAAACACCTATTAGTGCAATAAAAGTTCCTAAATATCTAATTTTATGTGAAAAACTTTTTTTTATTATATCGTTTATTATTAAATAAATCATTGGTGTTGTAGAAATTATTAAAGAACTGTTTGTTGCCGTTGTATATTGAAGTGCTGAATTTTCAAATAAAAAATAAGCTGTTATACCAAAAAAAGCTGTTAAAGATAAAATAAAAAACTCTTTTTTTGTATATTTTATATCCTTTCTAAAAAATAACATTAAAGCAATTGCTGCAAGTAAAAATCTAAAAAAACCAGCTGTTAGAGGTGGTATATATTCAACCACTATTTTTGTTCCTACAAAAGAAATACCCCAAAGTATAACTGCAATCCACATAAAAATTATTCCCTTTTTTTTAGAATCCATATTTCACCTCTATAATTTTTTAAATTCAAGAACTTTGAAGCGAGATTTAAAGTTTTTATTTACAAAAACTATTTCATTTTTTCCTAAATATAAGGTTATTTTTTTATTCATTCTTGTTAAAATACTTCGCATTTTTTTTATGTGAATGCTCACAAGGTATTGATTTTTAGTTGAAATTGGTAATTTCCATGAAATTCTTGAATTATTTTCATCTTTATAAATAAAACTTGTTTGAGGGTTTAATATTAAAAATGCTATATTGTTAGAGAATGCTACATATAATTTATTTAAGGCTTTTTTTATTTCATCTGTTTCTATAATTATTTTTTCAATATAGTGTTCTTTAATTAAACCGTTGTATGGTTTTTCTATACTTTGATAACATATATTTAAAAATATTCCTGGTATATAAAATATTAAATTATTATTTTTTATACCAAGATTCATGTTAACATCTTTAAAGTTTGATAATGCCTTTACTAAATGTCTTGATGTTGTATATGGAATTTGAAATGAAAAATCACTTTTAGTTTTAAAAGAACTGCTTATTAGTTGATAATAATTACAAGAATAAGAAAAGTATAGTTTATTGTTTCTCGAAAAAATGGATATATTATCTCCTTCATTTGCAGAAATGGATACAAAATCAAGTGCTTTTATAAATTCTTTTAAAGGTCCTTCTGATAAAACTTTAAATTTTTTATTTAATTCAATATTTTGTTCTTTTCTATTTATATCTATATTCATTGTCATATTTTCTAATTCGAATTCCATTTTTTCTTTATTTATTATTATTTTTATAATATCATCACTTTGTTTGGGTGTTCCACGTAATAATCCTTTTAAATAACGTATGGGAACAATAGCTGTACCAGAAAATGGTAAAAATTCTCTTGAAAAGTTTATCATTACTTTAGCACATCCATCTGTTGCATATATTTTAAGACCATTTTCATAAAAAAAGTAAATATTTCTATGCATTGGCTCAATATTGCCACAAAAATAATCTAAAAATTTAGTCATTTTTTTTAATCTTGATAATGTAATCCAACCTTCCATATTATCCTCCAAAAAGAGACATTTGATTAGTTTCAGGAAGTCCCTTTAATATTCCAAGCTCTTTTAGAGTTTCTATATTGGTTTTATTTAAACCGGTTCGAGATAATAAGTTTTGTATTGAGTTAAAAGGTTTTTTTTGTCTTTCTACTATAATGCTTTCTGCAGCTTTTTCACCAAGTTGAGGTATTTTTAAAAATGGGATTAATAATCCATTATCAACAATTAAAAATTTTTTTGAATCGGAATTATTTAAATCAACATTTTTAAATTCAAAACCTCTTAAAAGCATTTCGAGTGCAATTTCAAGAACTGTTTTTTCACTTTTCTTTTTAACATCAAGATCCATAGTTTTTAACTCCATCAATCTTTTTTTTATTGCATTTTTACCTTTTATTATAACGGCTAAATTAAATTCATCGCCTTTTACTGAAAAATAAGTTGCATAAAATGCAAGTGGTTCATGTACTTTAAACCAAGCAATTCTAACAGCCATAGAAACATAAGCTGTAGCATGAGCTTTTGGAAAAAGGTATTTTATTTTTTTACAGGAATTTATAAACCATTCTGGCACTTTAACATCTCTCATTTGTTTTTCTTCTTCTGGAGTTAAACCTTTTCCTTTTCTTACTTTTTCCATTATAAAAAAAGATTTTTTTGGATCATTTCCTTTTTGAATTAAGTAATTCATAATATCATCTCTACAAGAAATAACATCTTTTAGGGTTGCTTTTCCTTCTTTTATAAGAGTTTGAGCGTTACCAAGCCAAACATCAGTTCCGTGAGATAAACCTGAAATTCTAACAAGTTCTGCAAATGTTTTTGGCATAGTATCTTCCAACATTCTTCTAACAAATGGAGTTCCAAATTCTGGGATTCCGAATGAACCAACATTTGAATCTAGTTCTTTTTTTAGATCAGCTTTTAATGCACTATAACCTGAAAACAAACTTATTGTTTCTTTATCATCTAAAGGAACATCTAATGGATCTATCCCTGTAAGATCTTGAAGCATTCTTATAAATGTAGGGTCGTCGTGTCCAAGTGCATCTAATTTTATTAAATCATCATGTATTACATGATAATCAAAATGAGTTGTTGTAACTGTTGATTTTTGATCATTGGCTGGTCTTTGTATTGGTGTGAAATCATAAACTTCATATTCTTTTGGAACAATCATGAGTCCACCAGGATGCTGACCTGTTGTTCTTTTTACACCGGTTATGTGAGATGCAATTCTTTGAAGTTCAGCACTTCTTACATCTCCATAAAATTTATCTAAATTATATTTATCCATATCTTCTTTAAAAGCTTTAGCATAACCATACGCAGTTCTTTCTGCAACGGTGGAAATAGTTCCAGCTTTAAAAACATGACCAACACCAAACATTTCTTCAACATATTTATGAGCTGTTGTTTGATATTCTCCAGAGAAGTTTAAATCTATATCAGGTACTTTATCTCCTTCAAATCCCATAAAGGTAGCAAAAGGAATCGATTGACCGTTTTTCTTTAATTTCGAACCACATTTAGGGCATTTTTTGTCTGGTAAATCATATCCTGAACTATAAGAGCCATCTGTAATAAACTCTGAATATTTACATTCTGGACAGATATAATGAGGTGCAAGGGGATTTACTTCAGTTATTCCCATCATTGTTGCAACTAATGATGACCCAACAGAACCTCTTGATCCAACAAGATAACCATCATCATTGGATTTTTTAACTATTTTTTGAGCCATTAAGTATAAAACTGAATAACCATTATTTATTATTGCATCTAATTCAAAGTTAAGTCTATCTACTATTATTTGTGGTAAAGGCTCACCATAAATTTTGTGTGCTGTATCCATTGAAAGATTTCTAACCATATCTTCGGCTCCATCAATTTTTGGAGGGGTTAATACTTTTTTCAATGGTTGAATTTCTTCAATTAAATTAGCAATTTTGTTTGTATTTTTTATTACTATTTCTTCGGCAATAGTTTTATCTTCAAATATTTTAATTGCTTCATCTATCATTTCATTTGTTGTTCTAAAATATCTATTTGATATCATAGGTCTTTTTTTATCTGCAACTTTTAAAGCATATCTGAATTTAACATCTTTTGATTCCATATAATGAACATTTCCAGTCATTACTGATGGAAGGTTTAATTCTTTTGATATATTATAAAATGTTCTATACATATCTTTTTTTAAATCATCAGTTAATGGATCTTTTGTTTCTACAGTATCTATTGGCATTATTTCTATAAAGTCATAAAATTTTGCAATTTCTACAAGTTCATCTTTGGTAGCACTTCTTAAAAATGCTTCTGATAATTCACCATCTTGACATCCGCTTCCTATTAATAAACCTTCTCTTAGATTGTTCAATTCGCTTTTTAAAATTCTTGGAACTCTATAAAAATACTTTAAATGTGCATTTGAAATTAATTTATAAAGATTTTTTAAACCAATTTTATTTTTAACTAAGATAGTCATATGTACTGGTCTCAAACTCTTATAATCTATTAATTTTTTTAAATTATCTAATTCAGATAATTTTTCTAAACCTCTATTTTTAGCTTTTTTTAACAATTCTAAAAATACCAAAGCCGTTATTCTTGCATCTTCATCAGCTCTATGATGATTGAAATTATCTAATTTTAAAGCTTTAACAACTCTATTTAAAGCATATCCAGAAAGATTTAAAAGGGATTTTGACATAGAAAGAGTATCTATGTAAGTCATTTTAAACTTTTTATTATAAAGTTTATTTACCCATTCTCTTAGGAATCTATAATCAAAGTCAGCGTTGTGTGCAACCAATACAGTTCCTTCTATAAATTCTAAAAAAGAAGGTAATACTTCTTCAATGCCTTTTTTATCTTCAAGCATTTCATCTGTTATATTTGTTATTTTTGTTATAATTTCAGGTAATTTTACAGTTGGTTTAATTAGTTCATGATAAGTTTCAGATACTTCACCATTTTTTATTTTTACAGCACCTATTTCAATTATTTCATTGACTGCTGGTTGAAGTCCAGTTGTTTCAAAATCAAAAACAACATAATCGGTTTCGTCTAATAATTTGTCTTCTGAATTTAAAGTTATAATATTTACAGATTCATCAACAACATAAGCTTCTGTACCAAAAATTGGTTTTATATTAGCTTTTTTAGCTGTATCATAAAAAACAGGTATACTTTGAACAATACCGTGATCGGTTATAGCAACTGCTTTGTGTCCCCATTTTGCTGCTTGATTTACTATATCTTTTATTGGTAAAATTCCATCCATTGTACTCAATCTTGAATGCATATGAAGTTCTACTCTTTTTTCTTCATAAGTATCCATTCTTTCATCATTGCTTTTTTCTTTTATTAAATTAAATGGCATTATAGCAAAGTCATTTATATAAGTATCATAAAAAATACTTCCTTCAACCTTTATTGAATCTCCTTCACTAATTGAGTTGAAGATTTTTTCTGCTTTTTCTTTAAAAGCTTTTATTATAATAGAATCGGTTTTATCTGTTATAAATATAGAAACTATTTTATTCTTATCATTGTATTCTTTATGAAAAACAGTACCTTTTACAACAATTATGGTGTTTTCTGAAAGTGGGATATTTTTTAATGGAATAGGAATTTTTTTAAAGTTTTTTCCGATTATTACATTACCATTATTTAATTTTGTATTTGTTTGTTTTAAAGGAGTTTCATAATTTTGTTGTTCAATATATTCCATTTGATTGTCATAATAATTTTGAGAATATGTTTCTGTTTCTGGATTTAATTTTTCGTCGATAACAATTTTATAATTTAATTTTTTTCCTGTATACTTTAAAATGAAATCTTCGAAAATAGATTTATTCATATTTATCTTTGATTTTATTAATAATGAATGAGTTTTTAAGATTAAAGTGTCTTCGTTTTCTATCTCAGGTAATATTAATCTTAAAAATCTTTCTAATTGATTTCCTGTTATTAGATTATTCCAATTATTCACGAAAAATTGTAAGGAATTATTTCCCAATTGTTTTATACTAACATTTTTTTTAGTTATTCTCATTAAAAGTTTTTTTAAATAATTTTCAAATGAAGAATTTTTACTCTCGTGAAGTTCTACTATACATTCTTTTTTATTTATATCTATATTTCCATTTATTTTTAATGGAATGAACCCCAAATATTCTAAAAAAAACTCTTTTAATTCCATTAATATCTACCTCCATAATTTCCATGGCAAAAAGCAGCGGCTAAAGCATCAGCTGCATCGTCTGGAGTTGGAGTTTTTTCTAAATTCAAAAAAATCTTTAATGTTCTTTGAATTTGACCTTTTTCTGCTCTACCATAACCAGTTACAGCTTGTTTAATTTGATAAGGAGTATATTCGAAAATTGGGACTTTACTTTTTTCTAAAGCAAGTAAAATTACTCCACGTGCTTCTCCAACTTGAATGGCAGTAGTAACATTTCTAAAGAAAAATAATTCTTCAACAGATGATTCATCGGGGTTGAATTCTTCAATTAATTCAATTATTTTATCATAAATTTGATTTAATCTTTTTGTTAATGGAAGATCTTTATCAGTATAGATAACTCCATACTTAATCATTTTGAATTTATTTCCCACTTTATCCAAAATACCATATCCTATTCTTCCATATCCGGGATCTATACCGAGTATTCTCATTTTTTCACCTCTCACTCCGAATATTATACATTATTATTTTTTCAATTTAATGAAATCAAAAAGATTTTTAAGATTATTTAGTAAAAGATAATGATATAATTGAAGAGAAAAAATTAATCAAATAAAAAATATGAAAAAATAATAAAGGAGACATGATGAAAAATCTTGAATTTATAAAAGAACTAAATAAAAAAGAAATAACTTTAAAAAAAGGAGAAATTCTGCATAATCAAAATGAACTAATAGAAAACTTATCTATTTTAAAAGAAGGTAGTTTAAAGGTTGTAAAGTATTTAACTACAGGAAAAGAAGTTTTGATAAATAATATAAAAAGTGGACAAATTTTTGGTGAAACATTGTTGTTTATAAATGAAAAGTATCCAGCTTATATAATAGCAGAAGAAAATTCCATTGTAATTGAAATTAATAAAAATGAACTTTTAGTTTTAATGAAAAATGAAGAGTTTTTAGTAGAATACTTAAAAAATATTTCAAAAAAGATTTTAAATATGACACAAAAACTTGAAATTTTTTCAATGAAAGACGCAAAACAAAGAGTTGCAAAATATTTATTAGATCTTTATGAAAAAAACGGAAATACTATAACTATGAAAGTATCTAAGGTTAATATAGCAAAAGAGTTAGGGCTTACCCGAGAAACTGTTTCAAGGATACTTTCAAACTTTATAAAAGAAAAAATAGTGTATATAGAAAAAAACTTTATAAAAATTTTAAATATTAAAGAAATAGAAAATATAATTTATGAAACAAAAAACCGTGATTGAAATCACGGTTTTTTGTTTTTTTATTGTGTATAATAAATGTACATACAGCACAAAAGGAGAGTGAATTATGAATACAATAATATTAATTTCATTAGCTGTAATATTATTTATTTGGTCTATTATAAAAAGTAAAAAGAAAACAAAAGCGAGTTTAAAAATTGCAAAAGGAATGTTTTTGGGAATGGTTTCAGAATTAATAGGGATTATGGCAATAGTTGCATTAGTTTTATCTTATTTACCACCAGATTTAATAAAAAAATTATTGGGTAATTCTAATTTGTTTTTAAGTTCTATTTATGGAGCAGTAATTGGAACTATAACAATTATTCCAGCTTTCATAGCATTTCCTTTATCAAAATCTTTGTATGAATCAGGGGCTAATTTAGTTGCAATTGCTGCATTTATAACAACATTAACCATGGTTGGATTTGCAACTATGCCAATAGAAATAGAACACTTTGGTAAAAAATTTACTTTTTATAGAAACTTTTTGAGTTTTGTATTTGCACTTGTAGTTGCTCTTGGAATGGCGGTGATATTATGAATTTTATAAAAAAGAATAAAATACTTGTAGTGGCAATAGTACTTTATGTAATAACATTTTTTTATAATAGAGGTATATTCAATAATTCTTTAATAATGACAAAAAATTTTTTAGTTGAAATGTTAGAAATAATGCCAGCTATTATGATTATATCAGGACTAATAAATATTTGGGTTCCACAAGAAGTAATCATAAAAAATTTTGGAAAGAGTTCTGGATTAAAAGGAAAATTATTTTCAATGTTGATAGGTTCATTTTCAGCAGGACCAATTTATGCAGCTTTTCCTGTTGCACAATCGTTGTACTTTAAAGGTGCAAGTATAGCAAATGTAGTAATAATAATAAGTTCTTGGGCAGTTACAAAATGGGTTATGTTTATGGTAGAGTCCAGCTTTTTAGGATTAAAATTTGCATTAACGAGATATGCTTTAACAATACCCATGATTTTAATTATGGGATATATAATGGAAAAACTTGTTCATAAAGAAGATATGATTGAAGAAAAAGAAGAAATTAAAAAAATTATAGAAGGTTCAAAAGAATATTATTTACAAAAATTACCTCAAAAAAACTGTGGAGCATGTGGATATGGAAACTGTGAAAATTTTGCAATTGCTTTGAGTAAAAAAGAAACCAATATAAATAAATGTGTGTTTTTAAAATCTAAAAATTAATATAAATATAAATATAAAAAAAAGAGCTTTAATTTATATAATTAATGCTCTTTTTTTATATATAAATTGACTTAAAAATTAAAAAATGATACAATTATTTTGTTTTAGAAAATATTTCGATTTAATCATATATATAATTAAATTTTTATAAATAATTCAAATGATTAATTAATTTTGTTAAAAAGAATAATTTATGAAAAATAATATGGAATGGAGGGATTTATTTGAAAAAGTATTTTTTTATTATGGTTTTATTAGTGAGTGTGATTTTTTTAGGCGAAGATTTTAGAAATATTTTTCAAAAATCTGGAACAAAACTTGGTTTTTATCTTGCATCTAAAATAGGAGATAGTGTTGTTGGAATTCTTCCTTTTGAGGGTAATGATAAAGAAAAGTCTACGCTTGTTTCCGATATATATTCATATTATTTGATGGAAAACAATATAAAAATAGTAGACAGAAAAGAATTGGAAAAAGTAATAAAAGAAATAAAATTATCAATGCTTGGAATAACAGATATAAAAAATTCAAATAAATTGGGGAATTTGATAAGTGCAGATTATTTATTAACAGGAAATATTAAAAAATTGGGAGATATATATTATATAAATATAAAAGTAATAAAAGTTTCTACTGGAGAAAGTATTTATACAGATAGTATAAATTTTGAAGATAAAGAATTTATTACTATAAAAAAAGTAGAAGAGTATTTTGCTGAAAGAAAATATCCATCAACAGCATTGTTTAGGTCAGCATTGATACCTGGATGGGGGCAAATGTATAATGATCAACCAATAAAAGGAGGTATATTTGGAATAAGTATGATTGGATCGATATCATTGGATTTATATTTTTTTAATGAGTATCAAAAATATTTGAATTCTACAAATGAAGAAATGTATGATAAAGATTTAAAAAAGGCAAATGATTACAATAAATACTTTTTAATTAGTTTTGGAACAACAATAGCTATTTGGATAATAAATATGGCAGATGCTTATATTAATGCAAAGTGAGAAAGTGAGGATGAGAATTGTGAAGAAATATATTGAATTAACAATTTTATTTTTAATTATTGTATTGACATTAACAAGTTGTATACTAAAACCAACGCCTGGTACAATACAAGGACATATAAATTTAAAATTTTCAGATCAATTAGATGGAACATTGATAAAAATAAAAGGATTAAATACAACTGTTAAGACAGATAAAGACGGAAATTTTATGATAAAAAACTTAGAACCAAAAGATTATACTTTACAAATTTCGAGACAAGATTATGAAGAAAAAGAAATAAAAGTAAATGTTTATACGGGTAATATTGTTAGTGTAAATACATCACTTTCTTTTAAATTTGGAAAAGTTTTGGGAAGTGTTTCTGTATTAAATGATGAAGATGAAATAAATTTAAATTTTATTAATTTAGATAAAAAAGCTAAAGATCTTAAAAATAAAATATTAAAAGGATCAAATACATTTGAATATAATTTAATGCCAGGTAAATATAACCTTGTAATTAATTCAAATAAATATAGTAGTTATGAAAAAGAAATTACAGTAGTAAAGGATAAAAAAATAGAATTGGCACCAATAATTTTACAATCTATTATGGGAATAATAGAAGGTAAAATAATTCCTCAAAATGTAAATGGTGAAGATGATTTAAACTCTGAAAAATCTAATTTTAGTATAAAATTATATAATAAAGATACTTTAAAAGTAGAAACTGTAACGGATAAAAATGGATATTTCCATTTGAATTACCATGAAGGAACTTATACTATAAAAATAGTAAAGAAAAATTATATTACGCAAACAATTGAAGTTAATATTTATAAAAACAAAACAAATTCTTTAAGTAATATTAAGATGTTTGTTGGTGGTGAAAACAAAGGCTGGATAAAAGGAAAAGTATATTTAGAAGATAGAAAAAATAATGAAAATAGTGGAATTGGAATAATTTTTAAACCTTTAAATTCTGAAAATATAGTTCAAACAACTATTACAGATAAAGATGGAAATTATAATTCCTTATTGGATGTTGGAAAATATGAAGTTGAAATATCAAAAGAAAATTATACTTCTGTATCAACTCAAGTAAATGTTGAAGAATATAAAATAAGTTCTCTTCAAAGTGTTGAATTGAAAAGAAAAAGTACTTTAGTAGAAGGTTATGTTAAATTACCAGGAAGTTTGGATAATTCTGGAGCAATAGTTCAAATTGGTGATTTTTCAGAAACAACAAATAAAGATGGATATTATAAAATAATTTCAAAAACAGGAGTTCAAGATATAAAAGTAACAAAAGAAAATTATATAGCTTATTCTGATAAATTAAATGTATTGGATTTAGATAAAAATAAATTTGATTTGATTTTGGAACCTTTAAAAAGTTCAATTGAAGGTTTTGCAAAATATAATATTGAAAGTATAAATAATCAAGAGGGAATTACTGTAACAATAGAAGGAACTTCTTTAGACTTAAATAATAAAGAAATAAATGTTTTTTTTACGACAAAAACAGATAAAAATGGATATTATAAAATAATAAATGTACCATTTGGTAAGTATAAAATTTCATACTCAGCTCAAGGATTTTCTACAGTAGTTTTAAATAATTTAGAAATATATCCAAATCAAAAGAAAACAATAGAAAAAATAATTTTTTTGGAAGAAATTCCAACAACAGGAAGTGTATATGGAAAAGCTTATTTAAAAAATTCTAAAGATATGAGTGGTATTAATGTTCTTGCAAAAAAACATAATGGACCAGGATATATAACAGTAACAGATATAAATGGAACTTATGTTTTTCCAAAAATAAGTTCTGGAATATACGATCTTGAATTTTCTAAGTTTTCATATAAAACATATGTAATAAAAGATGTGAAAGTAAATATTGGAGATAAAATAAATATAAAAGATTCTCCAATTCTTGAAAAAGCAAGCGGAAAAATAATTGGAACAGTAAAATTGGAAGGATGGAATAATTCTAAAGATATAAAAATAGAATTATTGGGAGATTATGAAAAAAAATTAGGTTATAGATTGTATACTTATACAGATGAAAATGGAAATTTTGAATTAGAGGCACCAGTATCACAAAATTATACTGGATTAAGAGTTTATAAAAATGAAGATTTTGAAGACTACACATATAGTGATAATTTTCAAACAACAGAAACAACTCCATATAAACCAATATTTGAAAAAACATCAGATACTCCTTTGATTTTAAAGGCAATAAAAAATACAGTTAAAGGTAAGGTAACGATAGCAAATTTTACTAATAATTTAAATATAGAAGTAGAATTGAAATCCAAAACGAGTGATGCAACATATTTAACCTATACAAATAAAGAGGGAATTTTTGAATTTCAACATATACCACTTGGAACTTATATACAAAAATCAAGTTTCCCACAGTGTGGTTATGTTCTTTCACCTGTTGATGTTATACCAGGGAATTTAGTACAAACAAATGATGTAACATTATTTCCAAATGCAGGAGAAGTTACAGGAAAAGTGAATTTAAAAAATGTTACAGATAATTCGAAGGTTTCTATAACTTTAATTCCTTTTGATACTAATGTTGAAAAAATGTCTTATAATACAATAACAAATGAAAATGGGAACTATACTTTTGGTAGTATCTTACATGGGAAATATAAATTAATAGCAAAAAAAGATGGATGGAATGAAAATAAAATAGATTCATTAGAAGTGAAATCATTTAAAACAACAACAGTACCAACATTAGAACTTAGTGATACAATACCACCAATAATAAATAAAGTTTTAATAAATGGTGGTTCAAGCACAACAGACAATACAAAAGTTATAATTACTACATTTGCAAAAGATGTAGGTTCTGGATTATATCAAATTTCAATTTCAAATGATAAAAATCAAGAAAATTGGATGAAGTATGAGTATCAAAAAATATATGATTTAGATTCAACTGAAGGAGAAAAAACAATATATGTAAAAGTAAAAGATAATTCAGAAAATATAAGTGAAATGAAAACAGCTTCAACATCACTAATTCATTTACCAAATGCAACTAATTTAACAGATTATTTACATGGAAAGATAGTTACAAAAGATACAGTTATTACAAAAGCTCAATCTCCTTATTATGTTAGTGATAGTATTTTAGTAAATGAAAATGTTAAATTAACTATAGAAGCAGGAGTTGTTTTGATTTTTAAAAATAACACTAACATAATAATAAATGGTTTTATAGAAGCAAGGGGAACAAATGATGAGAAAATAGTTTTTAAGCCAGAAAATATAGATGATGTATTCAACCTAAAGGTAAATAGTTCTTCAAAAGATATACAAAATAAAACAATGAATAAAAGAAACTTTTTAAAATCAAAAAATATATTTACATCATCATTAAAAGATATGATAAATTCAGAAATGAAAAGAACTATAAAATACTTAAAAGATAAACAGTTTAAAACAGTTGTAGATAATAAAACTATTGAAATATCAAATAATTTAAAATCTAAAAATTTATATAATAAAATAAATAAGGAATATTCTGAAGAACAAACAAATACTTCGAACATATTAGAAAATATTGATATGGAAAAAGGAAATCTTGAAATTGAAAATGGAGTTATAAAAAATTTAACTGGAAATTCTTTAAAAATTTTAAATTATGTAGAAATTTATAATTCAAATTTAAAAATTCTTGATTGTGAAACAGGAATGGTAAAACTCATAAACTCTAATATTTTAAGTAGTTTTAATCTTTCTGGTTATATAACTGATAGTAATTTAGTTAATTCTAATAATCATAATTATGCTTTAACAAATTCATATGTTAAAAATAGTAGTTTAACTGGAAATTTTAGAATTAATAATTCCATTGTAGAAGATTCAAGTATAGAATTTAGTAAAAATGATTATGATAATACATATATACAAAATTCTAAAATAAGTAATTCAAAGATATCTAAATTATCAGATGGAATGAATGAAAATATCAGAATGAATATAGCATCATCTATTTTAATTTCTAATACAATCAAAGATATAACTATTAAAATAACAGGTACTTCTATGATGAATAATGAAAATAATTTTTCCTATTTTTCCTATATTATTTACAATAACATTTTTAATGAACATACAGGAATTGAAATTGGGACAAATAAAGTTTTATTAGCTTACAATAACTTTATAGGTCAAATAGATTTTGCAATAAAACTCATGGATTCAGCTAAAAATGGAAATATTGAATCTAAAAATAATTATTTTGGAACTGATAATATTGAGCAAATAAAAAATAAAATATACGATTACGATGATGATCCAAACTTTTCATTATCAAGAGTAAACTTTGAACCATATGAAACAAAAGAAATAAATTCAATATCTGAAATTCAAGAAATAACGTCAAAAGAGTTAAGTGGAAATCTATATTTAAACTATAAATTAACAAAAAACAATAGTCCATATGTTGTTACAGATAACTTATCTATATTTGGAAAATTAATAATTGAGCCAGGTGTTGAAATAAAGGTAAATAAAGATAAAAAAATAGATATTTATGGATCTATAGAAGCAGGAGATGTTGATAAAGAATCAATAAATTTTTATACCAATACAGGAGTTATGGCAAAGGATATGTGGTATGGAATAACTTTTTATAACACAAATGAAAAATCTATAAAGTTTGAAAATGTGATAATAGATAATACTATAACTGGTATTACATTACAAAATGCATCTGTTAAATTAAATAAGTTAACGATAAAACAAACAACAACTGGAATACAAACATCTGGAAACTCTAATTTAACTCTTATAAATTCAAATGTTCAAAATTCAACTTCTAATGACATTGAATTTTTGGGTAATACTTTAAAAATTAATGATTCTAAAGTTAACAAATTAAATCTTAATGGTGGTAATAATAATGGAAGTTATCAAATAGAAGATTCAAAGTTTACTTCTATTGTTTTTATGAATAGTATTTATAAAAATGTTTATTTTAAAAATATAAATACACAAAGTTTAAATATGAACTATATTTATTCAAATATAAAAATAGAAAATTCTATTATTGGCCGTTTATATAATGAGTCAATTAGTAATGGAGTTTTGTATGTAGAAAATTCAAAGATAAATAGTTTTTCAAGTAATCATATGTGGTATAATTCAAAGTTGATAATAAAAAATAATGAAATAAATTTTTTTGATGCCCTTTGTGATATGAATAATAATTTTGAAGGAAAAATAATAATACAAAAAAATAAATTTAAAAATAATTTTTTTATTGGTATGAATACAACAGATTCAAAAAATCAAGACGGTTATGATGTTGATATTTTTAACAATACTTTTGATTATACAAATTCTCAATATCAAAATGGTGAAGGTAATGTAATTATAAATCGTTTGAAGTACGTTTCTATACATGATAATATTTTTAAAAACGGTGTTGAATTGAAAATAACTAATGATAAAACAACAAAAATATATGATAATACTTTCAAAGATAATAATTATGATACGTTAATTGTTGATGGAGAGCTTTCTATGCCTGAAATATATAATAATACCTTTTATGGAAACAATAATTATGCTGTTGTTGTAAGAAAAGGGTTAATTGCAGGATTTAAAAATAATTATATTGCATTAAACTTTGGTGGTGTAAAAATAGAAAACATGAGTAATAATATAAACTTATCTGAAAATATAATTATGATGAATAGATATTTGAACTTAGAAAATAACTCAAATTATAAAATCAATTTATCTGATAACTTTTGGGGACTTTATACAGAAGAATCAATAAAAGAAACTATTATGGGAAGTTATGAAATGGAAAGTTTTAAAACGAAGTTGATAGAAGAAGCAGGTTCAAGTGAAAAACCAGATATAGGAGAACTTTTGAGTTATACAAACTTAAAGGATTATATTTTAAATAATGATACATTAAAAGAAGAGGATTCACCATACTTAGTAACTTCTGATATAGATTTAAATAATATGATTTTTGAAGGAAATATTGAAATAAAAATAAGTGATGGAAGAAAAGTAATAATAAATAAGTCTAAACAAAAATCAGGAACTTTAACTTTTTCTTCTGTTTATGAAAGAAATGAAGCAAGTAATATAACAAAAGTAATTAATAATTCAAAGTTAAATGATTTTCAAATTAATGGAATAAGTTTAGAAAACAATAATGATATAGGAACTTTATTATTAAACAATGGATTTGTTAATGGAAAAGGTATTATTGAGCAATTAAATACATCAGGAACTTTAAATACTGTTGATGTATATAAAGTAATGAATGCAGATATAAGTACAAACTTTATTTCAAATAACTCTAACTTTGATACAGTAAATTTAAAAAATGTGAATAATGCTGAATTTAATTTAGGTAAAATATTAAAGTTAAATACAGAAAATGTAAAAACACTAAAATTAAATTCAGAGAGTATTGAAAATATTGTTACTACTACAGTTGATAACTTATATTTAAATAACGTTGAATTAAATAAAGCAAAAATTTCAAATGCTAAGTATTTGGAGAGTAACTCTAAAATAGAAGAATCTAATTTTAAAGATATTGAAAGTATAAACTTATTCAATGCAAATGTTTTTAAGTCAACATTTGATAATTCTCCAGTATTATTGAGTAATACAAAGCTATTTAATAATACAATTAAAAATGCAAATATTGGACTTACAATAAAAGAAGCAAATGATGAAGATAGTGTATATATAATGAAAAATGTATTTGATAATAATACCGAAGATATAAAATCAAATGTATCGAATAAAATAAATGCACAATATAATTACTTTGTATCTGGAACGCCAAATATATCAGGAAATATAGATGTATCAAATTCATTATCAGAAACGCCTAATGATGAAGAAGTAGCATTAAATCATGAAATAAGTGGAAAGATCATACTCAACTCTGTTTTAAAAGCTTCTGATAAAGACTATAAAGTAACAGATAATTTAATAATAATAGGAAGATTGAGAGTTGAACCAGGAGTGAATATAAAGATAAAAGAAGGTAAAAAAATAGAAGTTAGAGGTAGTTTAATAGTTGAAGGTACAAAAGAAGACAATGTTTTTATCAAACCAGATACTTCTATTTTAATTAAAGATAAATGGAGTGGCTTTGATATAAAAGCTGGTGGAACTTTGACTTTAAAGTATGCAGTTACAGGTTATGCAAGTACATTAATAAATAATTTTGGAACTGTAAATGTTGAAAATTCAAAAATTAAATTAAATACAATTGCATTTAATCAATATGAAAATTCAAGTAGTAGTATTTTAAATTCAAAAATTTCTTCAAATGATTCAGTTATAAAATTTAGTAATAATAGTGAAGAATTTGAATTTAATATTGATAATTGTAACTTTTATTCAAACTCAAGTTTTATTGATATTGATAATGAGGGTTATTCTGATAAAGCAAAAAGTTATCTAAATATATCAAACTCAAAAATTTCATCAAACTCTTTTGAAATTAATAGATTAAATTGTAAAGTACAAAACACATTGATTAAAACATCAAATTTTAATTTGAACAGTTCAAACTTTGAAAGTGATTTTTCAACAATAACTTATATAGATAATATGAGTATGAACGTATATGTAGGAAGTGATACAAGTGTTGTTATTAAAAATAGCTATTTAAATACTTTAAATACTTCTTATTCTAATAATATTATAATAAATGCAGAAAATTCCACGTTTACAAATATTAATTTTTATAGAGAATATAATAATAAAATTTCTATTGAAAATTGTAAAGTGTCGAATTTACAACTAGATAATTTTAGTGGAATTTTAAATGTAAATAATGGGAAGATTGGCCATTTGAGAATTTCTGGAACAATAAAAGGAAATATAAACTTTAATAATATTTTATTTGAAAAAATTGATGAAAACTATAATAATTTAATAGAAATTAATTCTAATTATCCTATAATTTTTAATAATATTCATTTAAATGGAAACAATAAAAATACTGATGGTATTTTTATTTCTAATGATGCTATGATTGGATTTAAAAACTCAATATTTGAAAATTGTAGTAAAGCAATAAATATAGAAAAAGGAGCATTATTATATTTTGATAAAAATAAAATTATAAATAATAGTTATGGAATTTATATTAAGGAGTTTCCATCAGAAGATGTGGAGTTGCAAATAACAAATAATGAATTTAATAATACTCATTATAACATTTATAATGAAACAAAAAATAAAGTTATAGCTGATGATAATTATTGGAACACTTTAGATGAAACAACTATAAAAAATAAAATTTATAATGTTGTTGTTTCTAAATGGCTTTCAGAATCACCAATTAACTAATTTAAATTATGTTATATAAAAAATGTAACACTTTTATAATTAAACAAAACTTTAAAAAACTAAGATTATTTAAAATGTAAAAAAATATAATAATAGAAAAACTGCAAAAATAAAAGATAAGAGTTTAATAAAAAATATTGAATTTCAAATAATCCGATGTAATCAGACTATATCAAGTTTGATACATTGGATTATTTTTGTTATTATTGTATAGCAATATATTGATATATTTGTTTTCGATAATACAACATATGGGAGGGAAAGTATGGTTTCAAAAGAATTGAATGACCTTTTAATCAGGTTAGAAAATGTAAAGCCATCACAAAATGCTTATACCATTTTAAAGGATAGGTATTTTTTAAAGGATGAAAATAGAGAATATCTTGAAAATGATTGGGATGACATTGCAAAACGTGTAGCAAGACACGTTGCTTCAGCTGAAGTTCTTTATACTGATGATGTTGAAAAAATAAGAGAAATAGAGAATATATACTATAGATTAGTTTTATCAAGAGTATTTTTACCAAATTCACCAACTTTATTTAATTCAGGTAAAACAATGAGTAGAAAAATTTTTACAAAAGAAGTAAAAGATATGATTTATGAAGACTATAAGTATATTTATGATAATAAAGGTAAGCACAATATGCTTTCTGCTTGTTTTGTTATACCAATGGAAGATTCAATGGAGGGTATATTTAATGCTGTTAAAAACTCTGCTATGATTATGAAGTATGGTGGCGGAGTTGGTTATGATTTTTCTGTTTTAAGACCTCAAGGTAGTTCTATTGCAGGAACGGGTGGGAAATCTTCTGGACCTATAAGTTTTATGAATGTATTTAATGTTTCTGCTTCTACAATTGAACAAGGTGGAGCAAGAAGAGCTGCTCAAATGGCTGTTATGAGATATGATCATCCAAATGTTTTAAATTTTATTCATGCAAAAAAGAATAATGATGGTAAAAGTGTTTTAAATTATTTTAATATATCAGTTAATATAGATAACCCTGAAGAGTTTTTAGAGTTAGTAAATGAAGATGGAGAGCTTTCATTAATTCATGGTGGAAAAGAATTTGATAAAATAAAGGCAAAAGAAATGTTGAAAACGATATCTGAAAATGCTTGGAAATCAGGAGATCCAGGTTTATTATTTTTAGGTAGACATAATAAATATTATGCAATGAGTGAAAAAACACCAGTAAGAGCAACTAATCCTTGTGGAGAAGAACCTCTTCCACCATATGGAAGTTGTAATCTTGGATCAATTGATATAGCAAAACTCATAAATGATTTTGATATAACAAGAGAAAATGAAGTTTTTAAAGAAATTGTTTATTGGTGTACAAGATTTTTAGATGATGTTATAGATATAAATGTTTATCCATTAAAAGAAATAGAAGAGATGTCAAGAGCACAAAGATTTATAGGGCTTGGAATAATGGGACTTGCAGATGCCTTATATTATAAAGAATTACCTTATGATTCAAATGAAGGTAGAGAATTTATGGCAAAGGTAACAGCAGCTCTTGCATATTATTCTCACGTATCTTCAAGTGATCTTGCAAAAGAAAGAGGAAACTTTCCAGAGTTTGAAAATTCAAAGTATCCAAAAGCTTTTATTCCATTTCCAATGTTAAAAGAAGATTATATGAAACAGTGGAATGAAAAGATAATAGAGCATTTTAATAGTGAAGCTATAAAGTATAAAAGAAACGTGCAAACAAATACAATAGCTCCAACGGGATCAATATCAAATCTTGCAGATACATCAAGTGGAATAGAACCTAACTTTATGCTTGCTTATATAAGATATATGACGGATAAAGAAGGAAATAAAGTTCCTCTTCCATATATTAACAAAGTACTTTTAAATAAATTAAATTCTCATATGACAGATGATCTTGAAGCAGAAATAATTGAAAAAGGAAGTTTAAAAAATATAAATGGAATAAGTGAAGAACTAAAAAGAATATTTATAACTTCAATGGATATTTCACCACTGGATCATGTTTTAGCTCAAAATGCAATACAGAGTTACTTAGATGCTTCTTGTTCAAAAACAATAAATATGCCAAATGATGTTAGTGTTGATGATGTTTATGATATATACAAAAAGGCACTTTCATTAAACTTAAAAGGAATTACTATATACAGAGATGGAAGTTTACAAACGCAAGTTTTAACCTCAAATGAAAAGAAAGAAAAAGTGTCATTTTTTGTTATAGATGAAAAACATAAATTGAGAGCAAGGCCAAGAAAAGATACTTTAAGAAGTGTTACAAGAAAATTTAAAGCAGATGGAAATACAGTTTATATAACCTTAGCTTTTGATGATACTGGAGAAGCTATTGAAATATTTTTATCTGATGGAACTGAAACTGCAGAAGTTATTGGAAGATTGTCATCAATAGCATTAAGAGCTGGTGTTTCTTCAGATGAAATAATGCAACAGTTGACAAAGGTAAAAGGGGAGTATTGTGTTAATCTTTCAAGTGAAATAAAAAAAGCAATAGACGATTTTGAGAATCTTTGGGAAAAAGAAGATGTTGACTATAAGGTTTTAAAGACAGGTGTGCCAATGTCAAAAGATGATGTTGAAAAGTTTGTTCATGCAAATGATTTAAAGTATGAAAAAGGTCTTTATGTAGACAATGATGGAAATACTTATTGTCCATCTTGTTTAACAAAGAACTCTTTAATAATGGTAGAAGGTTGTACAAGTTGTAAAAAGTGTGGATGGAGTAAATGTAGTTGACATTCCGAACTATTTTTGATAACATTAAATGAATAAAAGTATAGGGAGGTTTTATTGTGAAAAAGATAGAAGAACTAAAAAATGAATTTAGAAAGATTTCTCGGTATGGTCATGCAATAGCTTTAATAGGATGGGATCTTGAAACTGGAGCTCCTAAAAAAGCAGTAGAAAAAAGAGCAGAAGTTTTAGGAGAACTTTCATCTTATGCTTTTGAATTATCTATATCAGAAAAAATTGGAAAATTAATTGAAGAATCTGAAAAAGAAGAATTAAATGAAGATGATAAAGCATTAATTAGAATAGTGAAGAAAGAATATGAAAAATCAAAAAAAATTCCACCAGAACTAATGAGAGAGTTTTCAATAGTAACTTCAAATGCACAAGCTGCATGGGAAAAAGCAAGAAAGGAGAAAGATTTTAATGTATTCAAACCACATCTTGAAAAGGTAGTAGAATTAACTAAAAAGATGGCAGATATAATTGGATACAAAGAAAATAGATACGATGCACTCTTAGATATGTATGAACCAGGGCTCACAGTAAAGGATTTAAATGAAATTATAAAAACTTTAAAAGATGAATTAGTTCCATTTGTATCTAAACTCTTAAATGAAGGTAAAAAGCCTAATGATTCTTTTATGAAAGGTCATTTTGATAATAAAAAACAAGAAAATTTATCATATGTTGTATTAGATAAAATGGGATATGATTTAGAATCAGGAAGAATGGATGTTGCGGTTCATCCTTTTACAACAACAATAGGTCCTAATGATGTTAGAATAACTACAAGATACAGAGAAGATGATTTTAGAGATTCATTTTATTCAACTGTTCATGAAGGAGGTCATGCACTTTATGAACAAGGCATATCAGAAAAATACTCTGATTTACCAATAGGTGAAGCAGCTTCAATGGCAATACATGAATCACAATCAAGATTTTGGGAAAATATTGTTGGAAGAAGTTTAGGTTTTTGGAAAAATTTTTATCCAGAAGTTCAAAAAGAATTTGAACAATTTAAAGATGTTAGCGTAGAAGATTTTTATAAAGCTGTTAATGTAGTTGAAAAATCATTAATAAGAGTAGATGCAGATGAAGTAACATACAATCTTCATGTTATGCTTCGTTATGAAATAGAAGAAGCTTTGATAAATGATAGAATCAAAGTTGAAGATTTACCAAAAATTTGGAATCAAAAAACAAAGGAATATTTTGGTATAGAACCTAAAGATGATGTTGAAGGAGTTCTTCAAGATGTTCATTGGTCTCATGGAAGTTTTGGATACTTCCCATCTTATATGCTTGGTAACTTATATTCTGCTCAGCTTTATTACAAGTTAAAAGAAGAAATAAACTTTGAAGAAAAACTTGAAACAGGAGATTTTAAAGAGGTTTTAAATTGGTTAAGAACAAATGTTCATCAATATGGTAGTAAGTATGAACCACAAGACTTAATAGAAAAAATAACTGGTGAAAGATTAAATCCACAATATTTTATGAAGTATTTAAAAGAAAAATATTCTAAAATATATAATATTTAAAGAAATTAACAAAAGGCATCTTAATAAGATGCCTCTTGTTTTAATTTATAAATGTTAGTATAAAGATATTTATTCAAATTATTTAAAAATAGTTGGATAAAGTACTGAAAAATTGTAAGTGAAATGTATTAAAATAGAAACAATGATATCACCAGATATTTCATAAAAAAAAGATAAAAAAATTCCAAAAAGAAAAATGTTTGTTAATTGTCCATAACTATCTATTGTATGTGCAAATGTAAAAATTAAAGAAGATAAAATCATTGCAAATACAATTGATTTTTTTCTTAAACTTCCATACACCATCTTTCTCATTAATATTTCTTCAATTGTTGCAAAGATTATCAAAGATATTATCATAATAAATGTAGTTGTTCCAATATAAGGTGCTTTTTTTAAAACTAAAAATAATGATGATACTCTTAATAGAAGTTCATTTTTTGTATAAAAATTTTTAATAACTATTATTTCTTGAAAATATTTCCAAAACAAATAAAAGCCATATCCTAAAACAGGTGCTATTAAATAAAAATATATTTTTTTTATTTTAAGTTTTTTATTTAATTCAATAGTTTTAAATAGATTAGCTTTTTTTACTATATATACAATAAAAATGAACGTAAAGATTTTTATAAAATAGGTTAATATAGAATTTATATTAAAAGAATATAAGAGTTTTATTATTAAAATATATAATATAGGTAATATTATTAAAAACTTCTTCATTTTATTATATTCTCCATTATAGATGGTAATAAACAAAATAAATTATATGAAGCATGAAAAACCATAGATAAAATCAAGTCGCCACTAAAATAATAAGCAAGACTATAAATAAAACCTGCTAAAAACAAGTTAAAAAAAACTGCAATTGTATCAAAATTATGCCATGAAACAAATAATAACGTAGATAAAATAAAAGCTAAAAATATATTTTTTTTCTTTAAGAATCCAAATATAATTCCTCTATATATTAATTCCTCATAAATTGGTGCTATTATAACTAAAAAAAGTACTCTTTGTAATGTAGTTTCTGAAAAAACATTAGACTTTACTTGAATGTGTACAAAAGTCAATCCAAAGTTGCTAAAATGTTTCATTAACTCATTTTGTTCAAAGAAAAATGAGTTTTGTAAAAAGGTACATTGTAAATAATTATTTAACTTTAATATAAAAAATCCAATAAAAGCCCCAAATACATATGTTAATATTCTATATTTTTTATTTAGTTTTGGTTTTAAAAATATATTTTTTTCTTTTATATTTTTTCTAAACAAGTATATACAAACAAAAAACATATAGTAAAAAAAATAAAAAACATAATTATTAATAAAAATAATTTCTAAATTTCTACTTAATCCCATAATTACAAGATATAAGAGTGTTATCAAAAATAAAGAATAATCTTTTTTAAAAAAAGCTTTAATATTCAAAATATTTTCTCCTTTCTAATGTTAATAAACAAGAACTTATGCAAATGCATAAGTTATTAAGTATTAAATTTGTATATCTTCTACTCTTGTATGTCTTCTTCTATATAATTCTTCTATTCTATAACCAACTGTTTCACCTAAGTTTTGAGAATCTACTGTTTCTACTATCTTTCTATAAGTTATTACATACCATTCATAAATATTTCTTCTGTAATGAGTAATAACTGAAATTGAAATATATGGTCCAGGATTACCTACGGCTATATCATAAGTATATGTTTTGTAAAGTTTTTCTGGTGTTGTTTTATCCCAAATAGCAACTACCTATTTTTAAAAGCGAACTATTTTTAATAGTGTTTCAAAATTATATTGTAAATCATCCAAATGTGTTTTATTTGTATTACCTTTTAAATCATGAATTGTATCTGTATAAATTGAAAAAACCTTAGTTTTAGGGTTAATCAATTCATTAACAAATTTAGGATATTTTAAATAAAAAAATCTGGTGTATCTATTTATTGTATCAATATTTTTAAGTGTATATGTTCCCAATTTAGTTCTATAAGCTTCAACATACTTATTTTTTTCCTTTTTCATCACTCTTCCAAAAATTATATATCTAATTTCAAAAGAAGCTTGACTTTTTAATAAATGTATATCTTCTTTATTAATTATTTGAATTTCTTCTTTTTTTATATTTTTATCAATAATATTTTCAGAGATTCCATTTTTAATAAATTTTTCTAAAGCATAATTTAATAAATTATTTTCAAACTTTGTTTTTGTAATAATTTTTTCTGGATAATTTTTAATTTTTTCTCTTGTTTTGCAACTCTTTTCTGTTATTACTACAATTTTTTTATCATTAAAATTTTCCAAATCTATATCCATTTTTTTATTTTCTATAATATTTTTTAAACTTCCTTTTAAATCAAATACATAATGAGTATAAATATAATTTTTACATTGAAACCCTATTAAAATTAAAATTATAACAAATACAAAAAGTGAAGTTAAAATAAATACTATCTTACTCTTCAATTTTTTCACCTTCCTCAAATTATTTTTACCAATTTAAAATATTTATGAAAACTTTTGCTGATTGTTTATTAATTAATTAATTAATATACTAAAGATGCTAAAGGTTAGGATAATTTTGCACTCATTTCCCAATTAATTAATGAAAATCTTGCATGCGAATAGTTCATGATTTGATCAAAAGAATAATCTTTAAAAATTTTTAGTTTGTTCATTACATTAAAATATGTGTTAATTCCACATGAGTTTATATTTTTTTATTTTAATTCAAACAATTCAATAATCATTTCCTTTTTCTTACATGAACATTATATCAAAAAAAAAAAAAGAATCAACTATTTTAGTTATACTAATTAATATCTTTACTTAAATATAATATAATTTTGATTAATTTATATCGTTTCTTTTATTTTTTTATGTTATTAATTTTATATTAATTAATAATATTTGTGAATTTAAATTTTATATTTTTTCTAATGTTATTATTAATCATTTTCATAACAAAAGTTTGTGAAACTTTATTAAATATTAATTTTTTATAAATGTTTTAATTTAATATTTTATTATTAATGTAATAGTAACTTTTAAAAATGAGTTATTTTTTAATTTATTGTATCTAATCTTTAATGATAAATAAAGTTTTTTTATAAAACTTTTATATGATAAAATATATTAGACTTATTAAAAGGAGTGAAAAAAATAAAAACTATAGTTTCAATGGTTCAAATGGAATCTATTTATGGAAATATTGATAAAAATATAAAAAAACACGAATATTTTATAAAAAAAGCACAATTAAACAATAGTGATATAATATGCTTTCCTGAACTTTCTTTAACTGGATATAATTCTAATCATGATTTAAATTTAGCTCAAACAATTAAAGGTAATATCATAAAAAAAATGAAAAATCTTTCTAAAAAATATTCTATGAATTTATTATTTGGTTTTATAGAAAAAGAAAAAAAATTTTACTATATTACACATGTTTTTATTGATAAACGACAAAATGATTTTTATTACAGAAAAATACAACTTGGTGAAAATGAAAAAAAATATTATACTTCTGGAGATACTTTAAAGGTTTTTGAGTATAAAACTTCAAATAATGAAATAATAAAATTTGGAATAGGAATTTGTTATGATATGCATTTTCCAGAACATACTTATATTTATGCGAAAAATGGTGCTGATTTAATTTTTTCTCCACATGCAAGTTTTTTTAATGCAAAAAGAAGAATTGAAATATGGAATAAATATTTAAGTACAAGAGCTTATGATAATAGAGTTTTTATTTTAGCTTGTAATAATCTTTTTGATAATCATCATAAAGGTGGTGGAATATGTGGTTGGGATAACGAAGGCAATTTATTAAATTCTTATAATTTACCTAAAGATTACATATTAAACTTTGAATTAAATATAGATAAGACAAAAAATAAAAAAGATAAATTTTTAAAGGATAAAAAGGTATTGATTTATAAAAAATATTTTTAGGAGGAATAACATGAGTTATGTTCAAGTTTATACTGGAAATGGAAAAGGAAAAACAACTGCTTCACTTGGTTTATCATTGAGAGCTGTTTGTGCTGGTAAAAAAGTATTTATGGGTCAATTTATAAAAACAGTAGATTATTCTGAATTAAAAGCTATGGATTTTTTACCAAACTTTGAAATAAAAAGATTTGGTAAATCAAGTTTTATCTTTGGAAAACCAACTCAAGAAGATATAGAAGCTGCAAAAAATGGTTTAAGAGAATTAGAAAAAAAGATAACTTCTGGAAATTATGATATAGTAATTATGGATGAAGTAAATGTTGCAATTCATTATAATCTTTTAAATGTTGAAGAAGTTATAAATGTTTTAAATAATAGAGCTAAAAATACTGAAGTTGTTTTAACTGGAAGATATGCAAAAAATGAAATAATTGAATACGCTGACTTAGTAAGTGAAATAAAAGAAGTTAAACATTATTATAAAACAGGTGTTCAAGCAAGAGCTGGCATAGAAAAATAAAAAAGAAGGCTTTCGCCTTCTTTGTATTAATTATACATCTCTTGTAAATGGAATAAGAGCCATATGTCTTGCTCTCTGAATAGCTTGTCTAACCATTCTTTGATGTTTTGCACAGTTTCCATTTATTCTTTTTGGAACAATTTTTCCTCTTTCATTAACAAAGTCACTTAAAAAGTTTGTATCTTTATAATCAATATAATCAATTTTCATTGAGCACATTTTACATTTTCTTACTCTTCTTCTTCTTCTTACAAAAGCCATTTTATTTCACCTCCAAATTTAAAAAGGATTTTCATCAGATGATAAATCACCCTCAAGATCGCTAAATGGATCATCAAAATCAGGTAAATCATTCGAATCGTCTATACTTTTAACATTTGATTTTTTATAACTATCTTCTACCTGAATATCCATATTATTTTCTTGATGAGCTTTTTTACTCTCCATGAAAGTCATTTGTGATACCCAAACTTCAGCTGTTTCTCTTCTTATATCATTTTTATCAGTCCATTTATTTATATGCAATGAACCTTCAACAAGTATTAATTGACCTTTAGAAAGGTAATTTGAAGCAAATTCAGCTTGTTTACCAAAAGCTACAATTCTTATAAAATCAGTATTATCATTTTTTCCTTGTCTATTAACGGCTAGACTGAAGTTTGCAACAGTTGATCCATTTACAGTTGAACGTATTTCAGGATCTCTTGTTAAACGTCCAACAAGAACCACTTTATTGTATGCAATAGCCATTTATAATCACTCTGCACTTTCTTCAGATGTTACAGGTGCTTCAACTGTTATGTTGCTTTCTTTTTTCTTAGCTTTTTTTTCTAAGTCTTCTCTTCTAAAAGTTTGATGTCTGAAAACTTCAGCTGTTATGTGGAATAAATCATCAAGAACATTAACTTTTTCAGGTTCACCTTTATAAATAAAGTATGCATAGTCACCTTCTGTAAAGTTTGTTTTTTGTGTTCTGTAAGCTAATTTTCTCATACCCCATCTTTCAGCTGTTTCTATTGTTCCACCAACTTTTTCTTCGATCCAACCTTTAACCTTGTCAACAACTTCATTTCTTGCTTCTTCTGCAAGATCAGGTCTTACAATGATCATAGTTTCATAATATCTTGCTTTTGCCATATTCTTACCTCCTCCCTTGGTTTTGGCCCCATATGGAGCGGGAATTTCCTTAACTATTATAACAGATAATAAATGCTCTTATACAACTTTTAACAAAAAAATTACACTAGTTTACTTATGCCCTTTACTTATTCTACAAAAAATATTATAATTGCTTTGAGGTGAATTTTATGTTTGATGAAAAAAAACAAATAAAAAAATTAACTATATCAATTTCTGTAATTTTATTAATATTTTTAATTGGAACATTTGGATATCAATTATTAGAAGGATGGTCTTTTATTGATTCACTATTTTTTACAGTAATAACAATGAGTACAGTTGGATACTCAATGCCAGAAAATATATCGACTATAACAAAGTTTTTTACTGTTGGATTAATTTTTTCTGGATTAACAGTTGTTTTATATGCGTTTTCTTCTTTAACATCGTTTATAATAGAAGGAGAAATTTTTAATTTAATGGGAAGGAGAAAAATGATGAAAACAATAAATAGAATGAAAGAACATACAATTTTAATAGGAGCTGGAAAAACTGCTAATTTTGTTATGTTAAATCTTTTAAAAACAAATACAGATTTCGTAATTATTGATATAAAAGAAGAGAATATAAAAAAATTAATTGAAGAAATGTCAGCTTATGAAGTTCCTTATATAATTGGTGATGTAAAAGAAGAAAATACTCTTTTATATGCTGGTATCATGCATGCAAAAAATGTTATATTAACACTTCCATCTGATGTTGATAATTTATATGCAGCATTGACTATAAAAACATTAAATCCTAATGTAAGTATAGTTTCAAAGGTAAATGAACCTCAAAATGTAAAAAAATTAATATATGCTGGAATTGATAAAATAGTTTTAACTTCAGAAATAGCAGGAAATAGACTTGCATACTTAGCAACTAAACCAAATGTAGTTACATTTTTAGATAAAGTAACAAGAGCTGGTGAAGTTGAATATATTTTAGAAGAAATAAAAGTACCAGAAACTTCATGGATGCTCAATAAAACATTACGAGAAATTGCACTTCCAAAATTAGTAGATCTAATAATAATTGCAATTAATAAAAAAGATAATAAATATATATTTAATCCAAATGCTAATCACAAAATTGAAAATGGAGACACCGTAGTTGTTTTAGGAAAAGAACATAAAATATCTGATTTAAAAAAAATAATTAAGGAAGAAAACTACATATAAAAAACTATATTTAAGGAGGAAATTTTTATGGAAAACCCTTTTGTTTTAGCCATGGTAGAATTTGCCATTCTTGGTACAGCTGGTGAAATAGCAGGAACACTTTTAAAAAAGGAAAAATTAAACGTAGTAAAAGTAATTCACTCTGCTGTTACTTGGGCAATCTTAGGTGTAATAATTAAATTTATGTTTGCTGGTTTTAATGGTTTTGTTGATACATTAACACAACATCATTACTTACCTTCAGGTAAGTTTTTTTCAGCATTTTTTAAATCATTCTTTACAAATGCTTTGTTTGGTCCATGGATAATAATTTCTCATAGATTCTTAGATAACTTGCCAAAATTTAAAATACCTTCAAATGGTTTAAAAGGAGCTATGCTAACTTTATTATGGTTTTGGCTTCCTGCACACACAGTCACATTCATGCTTCCGCATACATGGCAAGTAACATTAGCTGCAGTATGGAGTTTTGTTTTAGGCTTAATATTAGGATTTTTTGCTAATACTAAAAGTAAAAAAAGTGGTGAACCCGTTTAATGAAAAAACTTTTATTTTTATTTGTATTATCTTTAAGTTTGTATAGTTTTTCATTGAATTTAAATTTTAACATAGGATTAACTTATAATTCTACTATAACTGATGATATAGAGTTTAATTTATATCATAAAACAAAAAAATTTGATTTTGTTATAGATATTTCATTTTTAAATGATAATAAATATATTTTTCATGAAAAAAATTTTTATTTTGGACATTATTTTTTAAATAATAATGATTACATTGCTTATAAAAATAACAATATAAAAATAACAGCAGGAATTAAAGATTTAGAAGATGAAGTAGACTCTCCGTATTCATTATTTTTTTCATCTAAAAATATTTCAAAACCAATTTTTGAATTAGATTACAATGATGAACTTTTTTTCTTTAAGTCAAGATGGATTCAATTGAATAAAAATTCCAGTCAAGGATATAAAGATAGAGGATTAGACTACAAAGTTTATGGAATAAAGTTAAATGATTTTAAAGTTGGATTTCAAAATATAGTGCTTTATGATAATAGAGATTTTGATTATTTTTATCTGTTTAATCCATTACCTGCATACTTTACACAAGAAATAAGAAGTTCTGGAAATTCTATGCCTTGGACTGAAAATTTAAATGATAACTCTATAATGGGTTTTTTTGGAAGTTATAATAACAAATGTTTATATTCATACCTACAAATTCTTGTAGATGATTTTAATATGAATAGATTTTTTAATCCAAATGGAAAACAAAATCCAGATAAAATTGCATGGTCTTTTGGAAGTGTATTTAGCAATGATTATGGAAATTTTTATTTTTATAATGCTGGAGCTACAAAATATACATTTAATCCTTATTCATCACATTCAGGCTATACATTGTATCCATCAGATATATACAATGATAATCATATAATAGATTACAAAGATAATTATATAGGCTATTATTATGGTGAAAATTCTTTATCATTTTTATTTGGTTATAAAGGAAATTTAAATGATTATGAATTATCTACTTCATTAGAATTTGTTGTTTCTGGAAGTAAATCACCAAATAATCCTTGGGGAATTATATCAGACAATACAGTACCAACAGGAACTCATTTTTTAGACGATTCCACTTTAGAAAAAACATTTACATACACTTCAACAATTTCAAAAAAAGTATTTAACACTAACTTATTTTTATCCTTTAAATATATAAACACTATGAATGAATTAAAATACGATTCTACAAAAAAAATCTTTGAATCAATAAAAGGAAATGATAATACAAAATTTGAAATATCATCTTATATAAAACTACAATTTTAAGGAGGGAACAAAATGGATAACCCAATTATTGTTATAGAAATGGAAGATGGTTCTAAAATAAAAGCAGAACTTTATCCAGAAATTGCTCCAATTACTGTTGAAAATTTTTTAAAATTAATAAAAGAAGGTTTTTATGATGGTTTAACCTTTCATAGAATAATAAAAGGCTTTGTAATTCAAGGTGGATGTCCAAATGGTGATGGAACAGGAGGACCCGGATACTCTATAAAAGGCGAATTTGAATCAAATGGTGTTAAAAACGACTTAAAACATGAAAAAGGTATTTTATCTATGGCAAGAGCTCAAGATCCAAACTCTGCTGGTTCTCAATTTTTTATAATGCTTGATTCTCATCCACATTTAGATGGAAGTTATGCTGCTTTTGGTAAAGTAATAGAAGGAATGGATGTTGTAGATTATATAGCTTCTGTAAAAACAAATTATGCAGATATGCCTTTAGAACCTGTAAGGATTAAAAATATCACAATAGAAAAAGAATAATAAACATAAAAACCTCTGTAAATTACACTATCAGTGTTTTTACAGAGGTTTTTTCATTTATATAAATTCACTATTTCTGTTATAGATAGACCTGTAAGTTCGGATATCATATTTTTATCTAATCCTTTTTTAAGCATGTTCTTTGCTACTTTTTCTATCTCTGTTAATTCAACCTCTTTATCTAAATTACTAACAATTTCAACCTCTTTTTTATCAAAAGCTATTGAAATTTTTATTATATCATTTATTCCATAACTTTTTATCTCTTCTTCATACTTCTTTTCATTTATTTGTTTTAGTCCATTTTGTGCACTGTTTAATAGTATTTTTTCATTTTTATAAAACTTTTTAAACTCAATAATTATTCCTTTATCTGTTTTATCTTTTGGTATTAAAATAACATCTGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATGTACTTTTCTTTTAAACCAACACTCATTCCAAGTATCAGTCCATGATAAAATCTTTCTGGTTCTTCTCCGCTAACGTCAAAATAACTCAATGTATTCATAGTCATTTTTTGAAAGTCTTCTTTAAATTCTTCTATATGTCCATTTATTAAGTTTATTAGTATGTTATCTAATTGTATATTTCCTTCTTCAAGCATTAATAATACTGTATCTTCATAAAACATTCTTACTTCTTTATTTGGAATAGCAAGTGTGTATCTTCTATAACCTTCTTTTGTTTCTTTAATCCATTTTAAGTAACCACTAAATAAAAATAATGTCCATATTGATTCATTTGAATTTAAGTATAAATCACCGTATACCATAGTTTCATTTATTTTACTTTCAATATTTTCTCCATTCAAAAGTTTTTCTATACTATCTTTTATATTAACAGTTCCTTCTTTTATTAGCTTTCTTATTAAATAATTCCCACTAGTATTCATCCAGTATGGACCTATTTTCCCTTTATTCTTTGCAAGAGTTACTATAGAAAAAGGATTGTAAATTTCAACACCGCCAAAGTTATAACCATTGTACCAATCTATAACTTCATTTTCTTCATATTCAAGTTCATAATACTTAAGTGTTTCTTCAACTTCTTCTTTAGTTAAACCATACTTATCATTGAATAGTTCATTCAATACAGTAGAAACTTCTAAGTTATTCACACCAGTAAAGATACTTTCTTTAGAAACTCTTGTTATACCAGTAAGAACTGCTTTTTCAAGGTATACATTATCTTTTAATGCCATTCCAAATAAGTTACCAATTAAAGATATTATTTCATCATAGTATCCGTGTAAGTAAGCTTGTTGAATGGGAGTATCGTATTCATCTATTAATATTATTACCTTTTTACCATAGTATCTTTCCATATATTCAGATAAACTTCTTATAGAATTTTCATAATCAGCATCTAAAGCTTCTCTACCCATTATTTTATCATATATAATTTTTTCTTCATTATCTAAAACTTCTAAAACATACTTATGCTTTAAATACAACCTTGAAAGCTCCATGGTTAATAAAGCATGCATCTTTTTTAAGTTATTAGACTTTAAATCTTTAAAGGTGATGTATATAACAGGATGTTTATTTAAATGTTTTTCTATTATATTTTTTTCTTTGTATATCTTTAAATCTTTAAAGAGGTATTCGTTGTTTTGAGTAATATCAAAAAAGTACTTCATCATGGATTGACTGAGAGTTTTCCCAAACCTTCTTGGTCTTGTTATTAATAGAACGTCTCCACTTTCAATAACTTCTTTGATTAACATACTTTTATCTACAAAATACATATTGTCATCTATTAATGATTTAAAGTCACTTCTTCCTATTGGAAGCCTTTTTTTCATTTTCATCACCTCGTTTTATATCCTTACATGTTATTATATCAAATCTTCTTTAAAATAAAAAAATGTTATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCACATTTCGACAAGCTCAATGACCGTAAGAAAAGTAGAAGTATTAAAAAAAAAACAAACGTTCCCTGAGCTTGTCGAAGGGCACGTTATTACCCCTTTCAGGGACGAGGCTTTTTCGGTGAAATATTCCTTTTTCTCTTTTTTTCATTAAATAACTAATATAAAACTAACAAAACCACATCCCTCCGTCCTCTGGTCTCGCCCCTTCTAAGGGGCACTTTTTCTGGTATTTACACACTGCTATGATATTTCTAATGCGCAGGTTTCCTTCCTTTCCTCTCTCCTCTTAAAAAGGGATGGTCTTTTTAAGTGTAAACCCTGCATTTTATTGTAATCATAAAAAATACCGCTTACTATTAAACAGATTCATGAAAATTAATAAAAAAATGCTTGATTAAATCAAGCATTTTTTTCTTTTTATTATTTTATTGTTATTAAAAGTTGTTCTCCTTCTACTGTATCACCTTTTTTAACTAATATTTTATCTATTACTCCAGATACTGGTGCTGGTATTTCATTTTCCATCTTCATTGCTTCTATTATTATTAATTTGTCTCCTTCACTAACAGATTGACCTACTGAAACTAAAATATCTACAACAGCGCCAGGAAGTGGTGAAATAACTTCATGTCCACCTGCGGTTGGAGCAGATGCTGGAGTTGCTGCTGGTTTTGGTGTTGGAGCAGATGCTGGAGTTGCTGCTGGTTTTTGTACTGGAGCTGCCACTGGTACTGATTGAACAGGTACTGTTCCTTGACTTGAAACTTCTTCAACTTCAACTTCATATGATTTTCCATTAACTTTTACATTAAACTTTTTTATCATTTTTTTCCTCCTGTTTTTTTAACGTGTTCTCCACGTAACTGTAGGATTTACTGTTCCCCACCTTGAGTTCGAAAAAACTGACTTTTTAGCAGGTTTTATACTTTTTACAACATAATTTTTATTGCCCATAAATGCCGAAATTGCTCCCATAATTGCTGCAATTTCTTCGTTTTCATCATTGCTATTTATTTCTACTTTGTTTACAACCTTTGATGGAGCTGATGAAGGTAAATTGATTTCTTTTTTAGCTCCTTTTTTTTCTGTTTTAGAAAAATGTCTCAATAATGATACTACGAGCATTAAAATTACTAATATTATAAAAACCGTTAAAATACCGGCTATGGTAATAAACCATACTTTATCCATAAATAATCACCTCATTAAAGTGGAATGTTTCCGTGTTTTTTTGCCGGTCTTGCTTCTGCTTTTGATTCAGCAATAAATAATGAATTCATTATTACATTTCTTGTATCTATTGGATCTATAACATCCTCAATATATCCTCTTCCAGCTACTTCATATGGATTATTAAACTGTTCTTTATATTCTTCAATTCTTTGTTTTCTTGTTTGTTCTGGGTTTTCTGAATTTTTAATTTCTTTAGCAAAAATTACATTTGCTGCACCTTCAGCTCCCATAACTGCTATTTCTGATATAGGCCAAGCAAAAACAAAATCAGCTCCTAAATGTTGTGAAGCCATTGCTATGTATGCTCCACCATATGATTTTCTTAATATTATTGTTATCATAGGAACAGTAGCTTCAGAGTAAGCGTATAATAACTTGGCACCATGTCTTATTATTCCACCATGTTCTTGAGAAACACCTGGTAAAAATCCTGGTGTATCAACAAAAGTAACAATAGGAATATTAAATGCATCACAAAATCTGATAAATCTTGAAGCTTTATCAGAGGCATCAATATCAAGTGCTCCAGCCATTATTTTTGGTTGATTTGCTATAATGCCAACTGATTTTCCACCCATTCTTGCAAATCCTGTAATCATATTTTTTGCAAAGTGTGGTTGAATTTCAAAAAATGTTTCTGGATCAAAAGTCATATTTATAATATCTCTTACATCGTATGCCTTTTTTGGATTTGGAGAAACTATATCATATATTTTTTCATTCAAATTATAATTTTCATCAAATTCTGTAATTTCTACTGGATCTAAGTTATTTGAAGGTATGTATGACATTAATTTTTTTGTCATTTCCATAGCTTCTTCATCACTCTTTGCAATTAAATGAGCAACACCACTTTTAGAATTGTGAACCATTGCTCCACCAAGACCTTCTTTACTAACATCTTCTCCTGTAACTGCTTTTATAACATTTGGACCTGTTATGAACATTTGAGATGTTTTTTCAACCATTATAATAAAGTCTGTAATTGCAGGAGAATAAACCGCACCACCAGCACATGGACCAGCAATAACAGTTATTTGAGGTATTACCCCAGAAGCTAATGTGTTTCTATAGAAAATTCCTCCATATCCGTACAAAGAATCAACTGCTTCTTGAATTCTTGCACCAGCAGAGTCATTTATTCCTATAACAGGAACTCCAAATTTCATTGCTAAATCTTGAAGTTTTATTATTTTTTTAGCATGCATTTCTCCTAACGATCCACCTTGAACTGTGAAGTCTTGAGAAAAAACTGCTACTTTTTTTCCTTTTATAGTTCCAAAACCAGTAACTACACCATCGTATGGAAAAGTTTTTTTATCTAATCCCAAGTATGTACTTCTGTGTTTTACAAATTTGTCGATTTCTTCAAATGATCCTTCATCAACGAGAAGTTCTATTCTTTCTCTTGCAGTTAATTTTCCTTGAGAGTGTTGTTTGTCTATTCTTGCTTGCCCACCACCAAGTTCTAATTTTGACTTTTTTTCTCTAAAGTTTTCGAGTAACTCAACAAACTTTTCATCGGCCATTACGAATCCTCCTTAATTATGTTGAAGGAGTTCTGTTAAAACTCCATTAGTTGTTTTAGGATGCATAAACACAACAGATGTATTATGTGCACCTGGTTTTGGTTCATCAGAAAGAGGTTTTAATCCTATTTCTTTTGCTTTTTCAATTGCTTCTTTTACATTTTCAACTTCATAAGCAACATGGTGAAGTCCTTCACCTTTTTTTTCAAGAAATTTTGAAACTTCCGAATCTTCTCTTGTTGGTTGTAAAAGTTCTATTCTTGTATCTCCGATTTCTATAAAACAAACTCTCAAGCCCCTGTCTTCAAGAATTTCTTCTCCAGCAGGAGTTATACCCAATAAGCCATTATAAAACTTTAGTGCATCATCAATTGATTTTACCACAATTCCAATATGGTCTATCTTATTTTTCATAATTGTTTTCCTCCTTGCAAAGTTCTCTTAAAATTTTTTCTTTTGCAAATTCAAGATCTTCAATTTTCCCATCATAATTGTATACAACTTTATCTAAAATTCTTAATAAATTACTTCTTATTCTTCTTTTATTTCTTCTTATTTGACGATCATTTAGTTCTCCAGTATTTATTAGTGAATTATAGTGCTCATCAAACCAAGAAACTATATCTTCTATGCCCATATTCAAAACTGAACTCGTTCCAAAAACTCTTCTCGTTGACTTTGATTCTACTTCAAGCATTAAAGTGTTTTTTAATTGTGTCATAAAACCATTTGCTTCTGGTAAATCTGTTTTATTAACAACATATCCATCAGCTATTTCCATTATTCCTGCTTTAAACATTTGTATTTCATCGCCTGAATCTGGAGACATTACCAGTAAAATAGTATCTGCAACAAAAACTATTTCTATTTCCGTTTGTCCTGCACCAACTGTTTCAATAATTATTTTATCAAAACCAAAACTTTCCATAACATCGACTATATCAAAAATAGAATCACAAAGTCCTCCAACACTTCCACGAGATGCAACACTTCTTATGTATACATTTTGAGACTTAGTTATATTTCTCATTCTAATTCTATCGCCCAAAAATGCTCCGCCAGAAAATGAACTGCTTGGATCAACAGCAATAACACCTATTTTTTCACCTTTTTTTGCAAGTTTTTCAACAAGCTTAGAAGTCAAGGTGCTTTTTCCAGCACCTGGACTTCCTGTAATTCCTATTATTTGTTTGTGTTCTTTTTTGGGAAGTTTTGAAATTATTTCCCAAGCATAATCAGGATTATCCTCAACAAGTGATACCATCTTTGCAAGAGCATAAATTTCTCCACTTTTAAATTTTTCTATAATACTATTAAACTTATTCTCCCAAGACAATTTCTTTCACCTTATTGTTTATTAATTCAAGTGATGTTCCAGGAGTAAATACTTCCTTTATTCCAATTTCTTTCAAAACTGGTATATCATCTTCAGGAATTATTCCTCCTAAAAATACAGGTATATTTATATCTTTTTCTTTTAATAATTTTAATAATTTTTCACATAACTTCATGTGAGCACCAGATAAAATTGAAAGCCCTATAATATCAGCATCTTCTTGTATTGCTGTATTAACTATTTCAGATGGAGTTTGTCTTATTCCTGTATAAATAACTTCCATTCCAGCATCTCTGAGTGCTCTTGAAACTACTTTTGCTCCTCTATCATGACCATCTAATCCTGGTTTTCCTATAACAACTCTTATTCTTCTACTCATTACACACCTCCGGTTATATCAATACCGATTCGTTATATTCACCATAAATGTCTCTTAATAAATTAGTTATTTCTCCAAGTGTTGCATACACTTTTACAGCATTTAAAATATAAGGCATAACATTTTCATTATTTAAAGCTGCTTTTTTCAATTCTTCAAGTGCTTTATTAACAGCTTCATTATCTCTTGTTTCTCTTAATTTTTTAAGTTTAGCAACTTGTCTTTCTTCAACTTCTTTCTTTATTTTTAAAACTTCTGATGGTTCTTCTTCTCCTTCTAATTGAAATTTATTAACTCCAACTATTATACTTTCATTCTTTTCAATCTTTAATTGAGCATCGTATGCAGAGTTTAAAATTTCTTTTTGAACGTATCCTTCTTCAATAGCTTTAACCATACCGCCCATTTCATCTATTTTATTTATATATTCCATAGCTTTTTTCTCTATATCTTTAGTTAATCTTTCAACAACATAAGATCCAGCAAATGGATCTATTGTTTCTGTAACTCCAGATTCATAAGCTATTATTTGTTGTGTTTTTAAAGCAATTGTAGCAGATTTTTGTGTAGGTAATCCTAATGCTTCATCAAAAGAATTTGTATGCAACGATTGAGTTCCACCCATAACAGCTGATAAAGCTTGTAAAGCAACTCTAACAATATTATTTTGTGGTTGTTGAGCTGTTAATGTTGATCCTGCTGTTTGCGTATGGAATTTTAAAGCCATAGCCTTTTTATCTGTAACTCCAAATCTTTCTTTCATTATCTTTGCCCACAACTTTCTTGCAGCTCTAAACTTTGCAATTTCTTCTATAAAGTTATTGTGTGCATTGAAAAAGAATGATAAATTTTTACCAAAAACATTTGGATCAAGCCCAGCTTTAATAGCAGATTCAACATAAGCAATTCCATCAGCCAAAGTAAAGGCTACTTCTTGAACGGCATTTGCACCTGCTTCTCTTATATGATATCCACTTATACTAATAAGGTTGAACTTAGGCAAATTTTTAGATCCATATTCAAAAATATCATCAATTATTTTCATAGAAGGTTTTGGTGGAAAAACATAAGTTCCTCTTGCAATATATTCTTTTAAAATATCATTTTGTATAGTACCTCTTATTTTATCAGGTGAAACTCCTTGTTTTTCTGCAACAGCTATCAACATTGAAAGAAGAACAGAAGCAGTTGAATTTATTGTCATTGAAACACTAACTTTATCTAATGGAATCTCATTAAATAATATCTCCATATCTGCAAGTGAATCAATAGCAACCCCAACCTTACCTACTTCTCCTTCTGACATTTCATCATCAGAATCATAACCTATTTGAGTAGGCAAATCAAAAGCAACAGAAAGTCCCATTGTGCCTTGACTCAATAAATATTTATACCTTTCGTTTGACTCTTCTGCTGATGCAAAACCAGCATATTGTCTCATTGTCCAAAATCTTCCTCTATACATAGTTGGCTGAACGCCACGAGTAAATGGATATTGACCTGGGAAACCCAAATCTTCAGAATAATTTAAATCCTCTATATCTTCTGGAGTATAAACTCTTTTTATTTCATCTCCATAAGTAGTTTTAAATTCCTTCCTTTCTGGAAATCTTTCTATGGCTTTTTTTACAACTTTTTCATGCCATAACTCTCTTTCGTCTTTAATTTTTTTTAACTCTTCATCTCTAAACATCAGTGCACCTCCGGAATGGGTTGTGTGTTTACCCTTATATTTTACAATATAATAATGAATATTACAACCTTGATTCAATAAGTTTTATACAAATAATGAAAAAAATTTCAGTGTAATTCCATGTTAATTCAAATTAATCAAGTGTTTTTAAAATAAAATTTGTGGTATTATATTAATGATTCAAAAAAATCTGGGGGGAAAGTTTATGGAAGATTTTATATCGGCAAAGATTATAGATGGAGATATAGTTTTTTTCTTTGAAAAGGGACATACACAAAAAGATTCTTTAGAATTTTTTGAGAAAAAAATAGATATGATGAGAAGTATATTTAGTTTAGGAGATAGTTTTTTCATATACCTTGAAAATGAAGAACAGTATAATTTAATACCAAAAATTGCTAAACTTGCAATTTCAAAAGGCTTAAGATTAGCTGGGTCTTTTTTTGGAGAACTTCCAGAATCTAAAAAAAATAAAAGTGAAAAAGAATTTAATTTATCAAACACTAAAATTTATAGGAAACATTTAAGATCTGGGCAAACAATAGATAACCCCGGTGATATCATAATATTTGGAAATGTTAAACCTGGTTCAGAAGTAAATGCTGGAGGAAGCGTAATTGTTTTTGGTAAAGTAGAAGGGATTGTAAAAGCTGGAATAACCAATAAGAAAAATTCATTTGTAATTGCATCAGAAATGGCTTCTCCATTATTAGAAATAGCTGGTATACCTTTTTATAATTATACATGGCCAGCCACACCTGTTTCTATTAGAATAGAAAAAGAAAAAGCATTAGTAGAACCACTTGAATTATAATTAAGGAGGTACACTCATGGAAACTAAGGAAGTGTTGAAAACTCTTTCTAATTCTTTTGGTGTTTCGTCTTATGAAAAAAATACTTTTAAAGTAATAAAAGATATTTTATCAAAAGAATTTGAAAAAATTAAATTTGAAACTGTTGGAACTGATAATTTATTAGTAAAATTTGGAACAGGCAAAAAAAAGATAGCTTTTTTTGCTCACACCGATGAAATAGGAGTAGTTATTTCAAAAATAGAAAATGAACATTTTGCAAGAATATCTTCAATAGGTGGAGTTGATCCAAGAACTCTTGTTGCAAAAAGAATAACTTTTTTTAAAAATGGGAAAGAAACAATAGGCGTAGTTGGAATGTTGGCTCCACACTTACAAAATGCTAAAACAAAAAAAATATCTCCATCATTTGATGAATTATTTATAGATTTTTCTATATCAGGTGGAACAAAAAATATATCAGTTGGTGATGTTGGTTCAATAGAAGTTGAAGCAATGGAATTAAACGAAAAATATATAACTGGAAAAGCAATAGATAATAGAGCTGGAGTTACAACCATAATAAAAGCATTAGAATATCTACAGTACTATAACTTCGATGGTGAGCTATACCTATCATTCAATAAAGGAGAAGAAGTAGGATTAGTAGGAGCAAAGGGAGCTGCTCATTATATAAAACCAGATGTTGCAATAATAGTAGATGTAACCTTTGGTAATGATACTATTCCAGGATATGAAACGATGAAAATAAATGAAGGACCAGCAATATTAATAGGTGCTGCAGTTCATAAAAAAACATATCAAAAATTAGTAGATATAGCAGATGAAAATAATATAAAATATCAAATAGAAGTAGCACCATCAAGAAGCGGCACAGAAACAGACATAGTACAAATAACTAATGGTGGAGTAGCAACAGCATTATTATCTGTACCAATATTGAATATGCACTCACCTGTTGAGGTTGTTTCTATAAATGATATAGAAGCAACAGCAAAATTAATGGCAATATTTGCAGCAAAGGAAGGTAGATGCAAATGAAAAAATATTTAAAAAACTTAACTGAATTACATGGAGCACCTGGAAATGAAGAAAAAGTTAGAGAATTTATAAAAAATGAAATAAAAGATAAAGTTGATGAAATATATGAAGATGTTATGGGAAACTTAATTACAAAAATAAAAGGAAAAAGCTCAGAAAAAAAATTGATGATTTCAGCACATATGGATGAAGTTGGATTTTTAATTACAAAAATAAATGAAGATGGAACATTCAATATATCTCCATCAGGTGGAGTTGATCCAAGAGTAGTAAGAGCTCAAAGACTCTTAATAAATGGAGAACTACCTGCAATAGTAAATCAAACACCAATACATTTAGACCATGATATACAAAAAGTACAAGGATACGATTCAATAAAAGTATTTGCAGGATTTACAAAAAAAGAAGAAGCTAAGAATAAAGTTAAATTAGGCGATATGGTAACATTTGATGTTAAATACTATGAAAATGAAGATTTTGCATTATGTAAAGCTTTTGATGATAGAGTTGGATGTTCAATAATGATGGATATAATTGACAATATAAAAGAAACAAATGAAAACCCACAATATGATACTTATTTTTGCTTTGTAACTCAAGAAGAAGCAGGATTAAGAGGAAGTGGAGTAGCTGCAGAATACGTAAAACCAGATGTTGCATTAGTATTAGAAGGTACAACAGCAGGAGATAACCCCGAACTTGAACCAGAAAAGTGGGCAACACATTTAAATGATGGTCCAGTAATAACCTTTATGCACAGTGGTGTTGTCTTAAAAAAAGAAGTTTATGAAGAAATTATAAAAACAGCAAAAGACTTAAACATAAAATATCAATATAAAATGAGAACAGCAGGAGGAACAGATGCAGCAAGATTTGCAAGAACAATGTATGGAATACCTTCTGGAGTCATCTCTGTACCATGCAGATACATACACTCTGCAAATTCAATTATTAACTTAAAAGATTATGAAAGAGTATACAAATTAAGCAATAAACTAATAATGAATGGGAGGATTGCTGAATTATGAAAGAACTCGTAAAAAAAATAACTGAAATTTATTCTCCAAGTGGAAGAGAACATGCTGTAAGAGAATTTATAATAAACGAAATAAAAGACTATGTAGATGAAATAAAAACTGATAAACTCGGAAACTTGATAGCAATAAAAAAAGGAACATCAGGAAAAACATTATTATTTGATGCTCACATGGATGAAATAGGACTCGTAGTAACTCACATAACAGATACTGGATTTTTAAAAGTAGATGCAGTTGGAGGAGTGAACCCTGCAACACTAATAGGGGCAAGAGTACAATTCAATGGAAACACAGGAATAATAGGACTTGAAGGAGAAACAGCAAAAGAGAGAATGGAAAACTCTAAAAGTTTATCCCTTGATAATTTATATGTAGATATGGGAGTAAACAAAAGAGAAGAAGCAGAAAAATTAGCACCAATAGGAACCTTTGGAACCTACATAGCTCATTTTGAAGAAATTGGTGATAAATGGTTGTCAAAAGCAATGGATGATAGAATTGCTTGTGCAGCATTAATACAATCGGCAAAAGAAATGAAAGAAAATAAAAATACAGTAATCTTTGCATTTACAGTACAAGAAGAAGTAGGTTTAGTTGGATCATCAGTAGCAGCATATGAATATGATGTTGATATGGCAATAGCAGTAGACGTAACATTAGCTCTCGATACACCAAAAGCATTTAAAAGAATGGAAATGAAACTTGGTGCAGGCCCTTGTATAAAAATAAAAGATGCAGCATCAATAAGTGATATAAACGTTGTTGATTTTATGAAAAAAGCAGCAGAAAACAACAAGATTCCATATCAGTTTGAAGTGTTAATATTTGGTGGAACAAATGCAGCGTCATATCAAAAAACAAAATCAGGAATACCATCATCAACACTATCAATAGCAACAAGATATATTCACTCACCAAATGAATTAGTATCAAAAAAGGACGTTGAAAATTCTGTAAAACTCTTAATAGCAATGGCAAATACAAAAATATAATAAAATTTCTTATAACACAAAAGACCAATCATTTGATTGGTCTTTATTAATTTTTAAATAGATTTTAGTTTTTTTGACATTAAAATAAAAAAAACAAGGCAAATCATAGTAATAAAAGAAATTATAAACAATAAACTTAAATCTTGTACTATATTCCTATAATACCCAACAAGAGTTAAAGATATTATATTTATGTTTGTAAGAATAGCAAAAACAAGCATAGTTGGAGCAAGAAGATACCCAAGATTTTTCTTTCTAAAAATTAATATACCAGAGATAAATATCAAAGGAAGATAAAAAGTATAATCTAAAACATGAACAACATTTACTAATAGTCCAAGTTTTTGAAGTTCAATTGAAGGTGTATTATTTATAGAATCTGGAAGATCAGAAGAAAACCAAAGTAAAAAAAACATACTGGCAATAATGACAAGAAATATTCCTACGCTTTTTTCAGGAACTTTTTCAATATACCATTTTTTAAAATTTTCTTGAAGATGAATTTTTACAAAATAAATTACAGAATAAATAGAAAGACCTAATATTGCACAATAAAAAAGAAAGAGATAATTAAAATGTAAACCAAAACAATAAATAAAAAAAGCATAAATATTTGTAAGCATTGCTCCCAACCATATAATTTTAGATAAATTATTTCCTTTAAAAATGAATATAGATGAAAACAATAAAATTGGAATCATAAAAAAAACATTAGCTATATCCTGCCCAATACATTGAGCTATCCAATCAGCTGTTTCTCGAAAATATAAATTTTGATGCCATATTCCAATTGAACTAACAATTAATATCAAAATAGTTATTGGAATTGTGAAATATAAAATAATTTTATTTTCTGGTTGTTGCACTCCTTTACTTTGTATATTAATCCCTCCCTATTTATGATTAAATTTATTACATTATTTTCCTATATTAATAAAATTTGTATTTTATTTCACTTTTTTATTAAATTAATTTTTTAGTAATTTATCTAATCTTTTTTATTTATACTCTCTAAAATATCTTTTATTTCTGAATACTCTATTATATTTTCATTCAAATATTTATGAATTTAATTTTCTTTTATCAAATTATACCATAAAATATATGATATAATCTAATGAAATTTAATATGTTTTAACTTTAAAATAATTATAAAATTCATAAAAAAATAGGTGAAGAATGAATAAAAATTTTTTAATATTTTTAATAACTACACAGATTCAAACTTTTATTACCAGTATATACAATTTTTGATTTTTTTTGATTTTTTATCAAATAACAGATTCATTAGTGTATTCATCGATTTTAACAGCTTTAAAAATAATTTTTTCTAGGATAACAATATTTTATTTTGTACCTTTATTAAAAAGAAGCAATCCTCTTTTTATTTCAATATATACAAACTTCCTTTTGTTTGTTGTTGGTATAATAGGTTTTTTTGTATATAACTATTTTTCAACTTATATTTATTATTATTTCATTTTAGCTATTTTAATTTCAATATTAGAGAGCTTGGACAATACATTTCAGTATAGTTTGATACCAGATTTAGTGGAAAAAAATTATTTATATAAAGCAAATAGTTTAAGTGCTATGTTCTCAAACATAAATGGTATAGTATCTCCACTTTTAAGTTTTGTAGTATACAATATTCTTAATTTAAAATATATGATATTAGCTTATGGTTTAATTAATTTGTTTGCATCACTTAATTTAAAAAGAGTTAAATATGTACATAAGAAACCTGAATTAAAAAAAGAAAAAATTATAAAAGAATGGTATAACACTTTTAAATACATATATAAAGAAAAAGAAATTTTTATGTGTATATTTATAGGGGTTATTATAAATTTAATTTTTGCACCAATACCAAGCACTGTATTATTAAAAATAGGAGAATTAAACAGCAATGAAGTTTTTGGGCAATCATTATTTAGAACTATCTTATCTTTTGGGTCATTTGTAGGAATTTTTTTAGTATACAAACTCGATGTAAAAAAATATTATAAAAAATATATAAGTTTTTCATTTTATGTACTGCTTATAATAAATATTTTTTTAGTACTTTATCAAAATTATTATTATACAATTTTATTAATATTTTCAAATAGTATCTTTGTAATGTTTATAATGAATTCAACAGGTACATATCTACAAAGTTCAGCAAAAAAAGAAGAATTATCCTCAATATATGCGGTTAGATCAACTATTTATGTCATCGTTGTTCCAACATCACAAATAATTTCTGGAATAATTTTAGAAAAATTTTCATTAAATTTCTATTTTATTTATACTACAGTATTAATATTTTTAGTAATAATTTTAAATGTAACTTTGTTTCACTATAAAAAAATGTAATTTAAAAAACAAACAGGATAGTTTAACTATCCTGTTTGTTTTAAAGTTTTTAAATATTAATTTTTTATCCTCCAAGATATGCTGCACGAACATCTGGATTGTTTGCAATTTCATTTGCGGGTCCTTCCATTGTTATTATCCCTGTTTCAAGAACATAAGCATAATCAGCAACATCGAGCGCTGCTTTTGCATTTTGTTCTACTAATAAAACTGTTGTTCCTTCACTATTTATCTTTTTTATTATTTCAAAAACTTCTTTTACGAGTAATGGAGCAAGCCCAAGTGATGGTTCATCGAGCATTAGTATTTTTGGTCTACTCATTAAGGCTCTTGCTATAGCAAGCATTTGTTGTTCTCCACCAGATAAGGTTCCTCCTTTTTGTTTCCTTCTTTCTTTTAATCTTGGAAATAGAGAATATACCCATTCAAAATCTTTTTTTATTTCTTCTTGATCTGTTCTTGTATATGCTCCCATTAAAAGATTTTCATAAACAGTTAAGTTTGAAAAAATTCTTCTTCCTTCTGGTGAAAGTGCTATTCCTTTTTGAATAATTTTATCTGAAGGTACATTTGTGATCTCTTCTTCTCCTAATTTTATTACTCCTGATTTTGCTTTTACTAAACTAACTATTGTATCTAATGTTGTTGTTTTACCTGCTCCATTGGCTCCTATTAGTGTAACAATTTCTCCCTTATTAACATTTATGTCTATTCCTTTTATTGCTTTTATTGCACCATAATTTACATATAAATCTTTTATTTCTAATATTTTATTTTTAGTCTTCATACGGCATCATCTCCAAGATAAGCTTTTATAACCTCAGGGTTGTGCTTTATTTCGTCTGGTAATCCTTGTGCTATTATCTTTCCATAGTCTAAAACAGTTAATCTTTGACAAACTCCCATAACGACTTTCATATCATGTTCTATTAATAAAATACTCAAATCAAAATCATTAAGTATTTGATTTATGAAGTCCATAAGTTCTATACTTTCTTGTGGATTCATACCGGCTGCTGGTTCATCTAAGAGTAGTAGTTTTGGAGCGGTTGCCAATGCTCTTGCAATTTCCAACTTTCTTTGTTTTCCATAGGGTAAAGATGTTGCAGGATAATTTGCATATTCTGCTAATCCAACTCTTTCTAAAAGAAGCATTGTATCTTCTTTCATCTTTTTTAATTCTTTTTTATATTTTGATGTTCCCAAAACTGCTGGCCAAAACCAATTTTGTCTTTGAATTTTAACAAATAAATCTTTCCCTTTTAAAGAATTTGTTGTTGCCATCAATGTTTTTGTTTTATAATCTAAAAATTTAGTTGTTTCTGCAATAAGAACATTTTCAAAAACAGTCATAGAATGGAATAATCTTATATTTTGAAATGTTCTTGCTATACCAAGTTTTGTTATTGTATTTGCTGGTAATCCAGTTATATTAACATCTTCAAAGTATATTTCACCAATAGTTGGAGTATAAACTCCAGTAATCATATTGAATATAGTTGTCTTACCTGCACCATTAGGTCCTATTAATCCAACTAATTCACCTTTTTTAATATCTAAATAAAAGTTATCTACAGCTGTAAGTCCTCCAAATTTCATTGTTATATGATTTATATTTATTACTGATTCTTGTCCAGAACTTATAAAAGGTAGTATTGCTGCCATTATTCTTCACCTACCTTTGCTTCTACTGGTGCTTTTTTCTTAAATTTCATAATTAAGTTGTATAAATAATCCCATGTAATTTCTTTTTCTCCCATTATTCCTTTTCTATAGAATATCATGAGAATAACCATCAATGCTGAAAATATCAACATTCTCATTCCAGGTATTCCATGGAAAACATGACCAAAAATATTCATATCTCCTTCAATAAAACGAAGCCATTCAGATAAAAATGTTATTATTATAGCTCCTATTATAGCTCCAGATGTACTTCCAAGACCACCTAAAACTATCATAACTAAAATATTTACTGATGTTGGTTGTACAAACATAAACATCTTTGGATCTATTGTAGTGAGTAAATGAGCCATTAATGAACCTGCTATACCTGCAAAAAATGATCCAACAACAAAGGCAATAACTCTAAGTTTTTTTACATTTATTCCCATTGCTCTTGCTGCTATCTCATCATCTCTTATGGCTTTTAATTGTTTTCCGTATGTACTATTTGTAAGTTTTACTATAAACCATGTTGTTAAAGCTAAAAAACTAAAACTCCACCAAATGTTTGTATAATTTGGCAAACCTTTTAATCCTAATGCTCCATTTGTAAGAGATACGGAATAATTAGCAAATATTCTTATTATTTCACTAAATCCAAGTGTGGCTATTGCCAAATAATCATCTCTTAATCTTAAAGCCGGAACTGCTATTAATAATCCAAAAAAAGCTGCAACCAATCCTCCAATTATTGTAGCTGAAAAAAAGTCTAATTGAATAGAATTAAATGGCCAAATTAAGGGTTCTAAGAAAAAAACTTGTTGTTTTTGTTGAACCGATAATGTTAATAAAGATGCAGTATAAGCACCAACTGCCATAAAACCTATATGACCCAATGAAAATATTCCAGTTATACCATTGATTAAATTTAAACTAACTGCAAGTATTGCATTTATAGCTATCAAATTTAATATTCTCAATCCATAACTACTCATACTATTTTGTGCCCACATCATAAGAATAATTGCAATAAATATAGCAGTTGAATTTAATATTACTTTAGTTTTTTTCTCTAATTTATATGTATTCATATCAATCACACCTTTACTTGGATTTTTTCACCCATTATACCTGTAGGTTTAACTAATAAAACTACTATTAAAAGTATAAATGCAAAAGCATCTCTTAAACCTGCAAGTTGTGGAAAAAATCCAACTATTAATATTTCCATCATTCCTAATAAAAATCCACCTATCATAGCTCCTTTAACATTTCCAATCCCACCAAAAACAGCTGCAATAAATGCTTTTAGCCCAGGAATTATTCCCATATATGGAAATATTTGAGGGTATTTCATTGCCCACATTATTCCAGCAGCAGCAGCTAATGCTGATCCTAATGCAAATGTCAATCCAATTATTTTATCTGCATTTATTCCCATTAATTTAGTAGTGGGAATATCTTTAGATAAAGCTCTCATAGCCATACCTACTTTTGTTCTATAAATGAGCCAAACAAGGAATAATAAAAGTAAAGCAGTTACTATTATTATTACAAATGTTAGCATTTGAATTCTTATACCACCAATTACAACCATTTTATATAATTCTTTTGGATAATGTAATGCTCTAAAAGAAAATGCTTTAGGTCTTCCACCAAAAACAACGACTCCCAAACTTTCTAAAAATATTGAGACACCAATTGCTGTAATAAGAGCAGAAACTCTTGGAGCATTTCTTAAAGGTTTATAAGCTATTTTATCTACTGAAAAACCTATTAAAGCAGTTACTATTATTGCGAGTGGAAATGATATCCACCAAGGTATAGATAATAATGTTATCATATAAAATGCTGTATATGTTCCCAGCATAAATATATCGCCATGTGCAAAATTTATAAGTCTTAATATTCCATAAACAAGAGTATATCCAATAGCAATTAGAGCATAAAGACTACCTAAAGATACTCCATTCATTAAGTATTGTAGAAAGTTTTGAATACTCATCTTTAGCCTCCCTTTTTAAAATAAAAAGTCCCCTTGGGGACCTTTTATTTATGGATTTATTATTTTAATGAATTTAAAGTCTCCATCTTTTACTTGGTCTATAACAGCTGATTTTATAGCATTACCATCTTTTATAGTTATATAACCTGTAACTCCCTCAAATGATTTTAAAGTTGCAAGTGCATTTCTTATATTTCTTGGTGTTGCTGAACCAGCTTTTTCTATTGCATCGATAACCATATTGTATGCATCGTATCCTAAAGCTCCTAAAGAATCTGGAATTTTATTATATTTTGTTTTATAAGCTTTTACATATTCTCTTGCTTTTGGTGTTGCTGGACCTTCTGCATTATAATGAGTTGTAAAATATAATCCTTCAACTGCATCTCCTCCTATTTTAATTAATTCAGGTGCTTCTGCTCCATCACCAGCAAGAATTTTTCCTGTATATCCCATATCTTGAAGTTGTCTTGCAATTATAGCGATCTCTGAATAGTAACCTGGTATATATATTAAATCAGGATTTTGATCCATTGCATTTATTATTTGTGCTGAAAAGTCTTGATCTCCTGTATTGTAATATTCTCTAACAACTGAAGTTCCTTTATATCCTTTAAATGTTTTTTCAAAGTAATTAGCAAGTCCAACACAGTAATCTTGAGCTATATCCATGAATATAACAACTTTTTTAGCTTTTAAATCATTAAATGCAAATTTTGCACCAACTAAACCTTGAAATGGATCTATAAAACAAGATCTAAAAATCCAATCTTTATTCATTGTAACTAAAGGATTTGTAGAAGAACTAGTAACCATAGGGATTCTTTTAGCTTCAGCAACTGCTCCACCAGCTAAAGAATCTGAGCTTGCAACTGCTCCAAGTATAGCAACTACATGTTCTTGATCAATTAATCTTGAAACAGCATTTGCAGATTCAACTTTATCACCTTTATTATCTACTAATATTAATTGTATCTTTTTACCTAAAACAGTAGGTCTCTCTTCATTAGCTAATTGAATACCTTGCCAGGTCATTTGACCAAAAGCAGCTATTCCACCAGTCATCGGAAAATAAGCACCAATTTTAATAACATCTTCTGTAAAAGCTACAACAAACATAAGTATTACAAAACTAATAACTAAAAACTTTTTCATTCCCTCACCTCCCAATAAAGTTATTTCATTTAAAATATTTTTGAATTGTGAAATAATTACTTCGTTTATATGTACGTATGTTATTAATATATTAACTTAAAGTTATTATATCATAAAAATATTCCTTTATGTAAATTGTAATAAAAATTTACATAAGCGTAAATTTATTAACTTATTTTTTTCATTTTTGATGAAATTTTTTTCAATAAAAATAAAAAAAGATGAATAAAAATTCATCTTTTTTTATTTTATTAGGTTATTTAAATTTAATTTGTTTATTTTATGACTTCCATAGAAAAATCTTTATATTCTATTTCAGTTGTTAATATTCCTGTAGATATTATGTCGATATTGTTATCAGCATACTTTAAAAAAGTATTTTTTCTTATTCCACCTGATACTTCTACAATTATTTTATTATTTTTATCTTTTATCTTTTTTGCAACTTTTTTTGCTTCTTCTGAAGAAAAGTTATCAAGCATTATTATATCTGCATCAAATTCAATAGCCTTCATTGCTTGTTCTTGAGTTTCTACTTCAACTTCTATTTTTTTTGTAAAGGATTTATATTTTTTAACTTCATTTATAGCGCTTTCTATTCCGCCATAAAGATTTAAATGATTATCTTTAAGCATTATGCTTTCAGATAAACTCCATCTATGTGTATCTCCGCCGCCATCTAAAACAGCTATTTTTTGTAAAAATCCAATTCCTGGTATTGTTTTACGTGTAGCAGCTATTTTTGTATTGTATCCTGTTTCTTTTAACTTTTTTGAAAATTCATAAGTTTTAGTTGCAATTCCGCTCATTATAGAAAATGTATTTAAAACAGTTCTTTCACATATCAATAAATTATAAGCATCACCTGTTAAAGTTGCAATTCTTATATTTTTATCTGTATTTATTTCTTGTCCATCTTTAAAATAAAATTCACTCTTAATATCAAATTCTTTTAAAACTTCTTTTATTAATTTTATACCAGAAATTATTGTGTTTTTTGATTTAAACAATATTTCAAAGCTTGCTTTTTGATTTTTTAATCCATATGAAGCTAAATCGATGTATTCTGCATCTCTTTTTATCCAATTTATTAAAAGTTCAACTTCTTTAAAATACACGAAGCTCACCCCATAACTTTAAACATGTTTTCGATTGAATATACTGCTTTTTCCATAATTTCATCAGATAAAATTATTTCATGCTTATCTTCTTTTAATGCTTCGTATAAGTTTTTTAATGTGTTTTTCTTCATTCCTATACAGATTGCACTGTTTTTTAATGGATAAAAATTTCTATCTGGATGATTTTTCTTCAATTGATGGATCATTCCAGCTTCAGTTCCTATTATGTAATCTTTTGTATCATCAGTCAATGGAATTTTAATCATTTTACCAGTTCCACCTATGTATTCCGAAAGATCTCTAACTTCTTTTGGTGATTCTGGATGTGTTATTAATTTTGCATTTGGATATTTTTCTTTTGCCACTAAAACTTCTTCTTTTTTAAATTCATCATGAACATAACAAAAACCATCATCTCCTGGAACTGGTATTATAGTTTTTCCAGTTTTTTCAGCTACATAAGATGCTAAGTTCTTATCAGGTCCAAATAATATCGTATCGTTGTCTATGTTATTCACTATTTCTATTGCATTTGCTGATGTGCAAACACAGTCTGCTTCCATTTTACATTCTGCTGTACTATTTACATAAAGTACTACTGAAGCATTTGGATATTTTTCTTTAAATTTTATTAATGTTTCTCTATCTAAAGAATTAGCCATTGTACATTCTGAAGCTCTTGTTGGAACAAAGATTCTTTTTTCTGGATTTAAAATTTTTAATGTTTCAGCCATAAAATCAACACCAATAAACATTATCTTATCCGCATCCATTTCCATAGCTTTTCTTGCAAGTGCTAAAGAATCGCCTGTTTCATCAGAAATATCTAATATATCTCCTATTAAATAATTATGACCTAAAATTTTATATCCTTTTTCTTCTTTTAATTTTATAATTTCATTCATCAATTCTTCATTTGTCATTTTAAACACCAACCTTTAATTTTTTAGTTAATTTTTTTAAAAGTCCTGCTACTGATAATGGTGCAAGATAACTTGTTTTTGGATTTTTAGATGGATAATTTTCGAGTATCAATTTATAATTTCCTGCTTCAGAATCAATTTCAACAGTGTGTATATTTCTATTTACTTTAGGATCTGCAATTATTCTAACAAAAACTTTATCAAAATCACCACTTGCAACGGATAATGTAACTGCAACATTTATATTTTTAGGAAATTTTTTTATTGCTTCTTTTGATGTTCCTTCAAATATAATTTGCTCGGTATCTGTTTCAACTCCTAAGCTTTTTGGAGGTTTTCTTGTTGTTAAGGTTATTTTGTTGATCATTTCTCCTGTTGCGTTTATTATATCTACTGCTCCGACTGCTCCTGAAGGAATATAAATATTATTTTCTGAATTTTCTAATTTTTCCATTATTTTGTTTCTAAATTCATCATCGGCAAATGCGCCTGTACTCAATATAATAAAATCTTTTTTTAAATTCAAAACATCAAAAGCATAGCTTTTTACAGCTTCAACAGAAGCACATTCAACAACATAATTAACATCCAAATTTTTCAATTTATTTATATCAGATGATTCTATGTTGTTAAATTTATTTGAAAGTTCTAACATTCTTTCATTATTTGTATCAAAAATATAAGCTTTTGAAACTAAAGATCCAAGTTTTTCTAAAATTATTTCTGTGGAATTTCCTCCACCAATAAAAAATAACTTCATTTTTTGTTCCTCCTATATTATTGAATTAAATAAATTCTGTATATACAGTATATACAGGAACATTATACTCTTTTTTATATTTCTAATATAATCATTGAATGTAAAAAATATATAACAAATGCTTATGGTTAATTTTTGAATAATAATATGTTATAATTTAACAAGGAGGTGATTTAATGAAAGGTTTAAAAGGCACAGAAACTGAAAAAAATTTATTAAAATCTTTTGCTGGTGAATCTCAAGCTAAAAATAGGTATACTTTTTTTGCGAAAACTGCAAAAAAAGAAGGGTATGAACAAATATCAGCAATCTTTCAAGAAACTGCATTGAATGAAGAACAGCATGCAAAAACCTTTTTTAAATTTTTAGAAGGAGGAGATGTAGAAATTACAGCGACTTATCCTGCTGGAAAAATTGGAACGACAGTTGAAAATTTAAAAGCTGCTGCTGCTGGAGAACATGAAGAATTTACAGAACTTTATCCAATGTTTGCAGAAATTGCAGAAAAAGAAGGATTTAAAGAAATTGCTTCTAAATATAGAGCAATTGCTAAAGTTGAAGAAGCTCATGAAAAAAGATATTTAAAATTATTAAAGAATATAGAAGAAAATAAAGTTTTTGAAAAAGATGCTGTTTGTATATGGAAATGTAGAAAATGTGGATATATACATGAAGGTACTTCAGCTCCTGTAGTTTGCCCTGCTTGTGGACATCCTCAAGGATATTTTGAATTAAAAGAATATAATTATTAAAGTGTTTAAAAAAATAATAAAAGCTATGAAATTTTTCATAGCTTTTATTATTTTTTTATTAGTAAATACCATGGTTTTAAGTTTTTATATAAATTAACAGATATTATTAAAAAAGATATTTAAATTAATTTTTGTTTTCACTCACTTATTACAAGTGATATAACTTTTATTTAATAAAAAATTATGTATATTTAAAATTGTTTTATATAAATGTTTTTATTTATTTTCTTAAAATAAATTTTAGGCTTGAATTTCTAAAAAAAATAAAGTATAATATTAGTGAAATCAAAAATAAATTTAATACAAGGAGGTTTTCGATATGGGAAATAAAGAATACGTAGTTGGTATCGATTTAGGAACAACTTATTCAGCAATATCTTGGATGAAACCTGATGGAAATGTTGAAGTTATACCAAATGCAGAAGGTAAAAGAACAACACCTTCAATAGTAGCTTTTTCAAAAGAAGGAGATATAATAGTAGGAGAACCAGCAAAAAGACAAGCTGTTTTAAACTCTGAAAAAACTATAAGATCTATTAAAAGATATATGGGGTCAGATCATAAAGTAACTATTGATGGGAAAGACTATACACCACAACAAATAAGTGCATTTATCTTAAAAAAATTAGTTAGAGATGCTGAAGCTTATTTAGACGGTAAAATAAAAAAGGCTGTAATTACATGTCCTGCATACTTTAACGATGCTCAAAGGCAAGCAACAAAAGAAGCAGGAGAAATTGCTGGCCTTGAAGTTTTAAGAATTATAAATGAACCAACAGCAGCTTCTATAGCTTTTGGAATGGATAAAAAAGCAGGAGATCAAAAAATAGTTGTTTACGATCTTGGTGGAGGTACTTTTGATGTTTCAATACTTGAAATAGGTGATGATATAATCGAAGTTATTTCTACAAATGGTAATAATCATCTTGGTGGAGATGATTTTGATAAGAGAATTATGGATTGGTTAATGGACGAATTTAAAAAAGAAAATGGTGTTGACTTAAAGAATGATAAACAAGCACTTCAAAGATTAAAAGAAGCAGCAGAAACTGCAAAAATAGAACTTTCTTCTAAAATGGAAGCAGAAATAAATCTTCCTTTTATAACAATCGTAAATGGAAACCCTGTACATATTGAAAAGAAATTAACAAGAGCAAAATTTGAAGAATTAGTTAGAGACTTAATTGAATCAACGAGAGGACCTATTGAAAATGCTATGAAAGATGCAGGATTGACTCCAAACGATATAGATGAAATTTTATTCGTTGGTGGTTCAACAAGAGTTCCTGCTGTTCAAAAATTAGTTACAGGATATTTTGGAAAAGAACCAAACAAAGGAGTTAACCCAGATGAAGCAGTTTCAGTTGGTGCAGCTGTTCAAGGGGCTATAATGACAGGAAAAACTGATAAAGACATAGTTCTTGTTGATGTTACTCCACTTTCTCTTGGTATTGAAGTTAAAGGTGGATTAATGGAACCAATAATTCCAAGAAATAGTAAGATACCTATTAAAAAATCAAAAACATTTACTACAGCTGTTGATTTTCAACCAGAAGTTGAAATAGGAGTTTTCCAAGGTGAAAGATCAATTGCTAAAGACAATTTCTTCCTTGGTAGCTTTAAATTAACTGGTTTACCACCTGCACCAAGAGGAGTTCCTCAAATTGAAGTTACATTTGATATAGACTCTAATGGTATTGTTAATGTATCTGCAAAAGACTTAGGTACTGGAAAACAACAATCAACTGTTGTAACAGGTAGACATAAACTTGGAAAAGATGATATTGATAGAATGGTAAAAGATGCTCAACAATTTGAAGAACAAGATAAGAGAAAGAGAGAAGAAATAGAAATTAAAAACCAAGCTGACGATCTTTGCTATCAAATAGAGAAGTTATTAAATGAAAATGGAGATAAAGTTCCAGCTGATACAAAATCATCTTTAGAAGATAAAGTAAAAGATCTAAGACAAGCAATTTCAGAAGATAATATTGGTAAAATAAAGATTTTAATGGAAGAATTAAAACAAGAATCAATGAAAATAGGTCAACAAATGTATCAAGGTCAAGGAAATAATGATTCTGAAAATACATCTAATAATGATCAAGAACCAAGTCAAGACATAAAAGTTGAAGACGCTGAATAAAAAATAAACTTATTAACAATAAAAGACGTGATTTTTCACGTCTTTTTTGTTATAATATTTATATATTATATTTTGATTGGAGGGAATTACCATTAAAAAACTATGTATCCTAACTTTAATTATTAGTTTAACGTCTTTTTTGTTTCTTTTTTTATTAGTTTTTAATAATGAAAAATTGAGTTCTTTTAAAAGTGAAGTAGTTCAAAATGATTTTAAAAATTTTGAAAGTTATTTAGATTCAGAGATAAGAATTTCTAATGTTTTATCTAGTTCATTGTATAATTTTTCAGCAATAACTACGTTGGATTTTTATTTGAACAAATTATCTAAAACTGAATTAATAGCTTTAAAATCACATTTAGATTCTAATTCAGAAAATGTAAATAAGTTTATTAAAACTTATAACATATATGATGAAAATGTAAAGTCAAAATTTTATTTAAAAAAAACTGAATTATTATACGCATTTAGTTCAAATAAAAATTTAATATATCCATTTTTTGATGATACAATAGAAAAAGATACTACATTGACAAAAACATTATTAGAACTTACAAAAAATAATTATGATACTTATATTTCTGAAAAAATTTATAATGATACTTTATTTTTTTATGTTGGAAAAAAATTAATCAACCATGAAAAATGCAAAGGATATATTATTTTAAAAAGTTCATATAAATTAAAACCCAATATAAAATTTTTTGATAATATAAATGAAGTTTATTCTCTTTTAAACATAAATGATTTAAGTAATAAAATTTATAAAAAAGATAATTTGATTTTTTTCATAAAAAATTTAAAAAAAGAAAATAAAGATTTTTATTTAATTGAATATATAAAATCTGATAATACATTAAGTATTATTTTTTTGGGATTACTACTAATTATTTTTATAATTATGTTTTATATAAAAAAAATTAAATAAAAATTTTATTAATATAGAAGTTTGCAGTAAGAAAAAAATGTGATATAATTTAAATGAAAAATATAAGGAGGGGAAATCTATATGAAAGTAAAGGTTTTAATAATTTTGAGTCTAATACTTGCTACTTTTTCTTTTTCAAATGCTAATTTAGTTTGGGAAAAAGTTTTAAACGAAGCAGGAAATCAACAAATTTATTATGTAAAATCTACTGATTCCGGAGTTTATTTATTTGGATCTTCTGATGAAACAGGTTATGATGAAAATATCGTAGTTTTAAAATTAGATTCAAATGATAACATTACAAAAAACACTTTAGGTGGTTCATTTTCTGATTGGTCATTGTGGGGATTTGAAAGCTTAGAAAAAAATATATACGTTGTTGGATCTTCAAAATCATTTGGTAATGATTATGACTATTATTTAAAAAATTTAAATGGTTCAGAATTATCTATAAAAAGTATGGGAAATGACAAAGCAACTGCAGGAATTGATACTAAAGATGCAATATACATATTAGGATATTCACAAGAACCTAAAACTTTGAATATGAAAGGTAATTTAGTAAAAATAGATAAATTAACTAATAAAGTTATTTGGAAAAAATGGCTTCCATTTTATAAAAATGGAGCAGATGTAAAACCTTTAAGTATTGAAAAAACATCAGATAATAACTTTATAATATCAGGAGTTGTTGTTGACTTTTTTGAAGGAAGAACAAAGTTCTATTTAGCTAAGGTTAATATGAATGGCGAAGTAATTTGGAATAAAATATTTACAGGTAAAGATTATGCAAGAGGTTTTGAAGTTAAGGAAACAAATGATGGATATATTGCAGTTGGTTATAATGGATCATGGGATAAGGGTTGGTCAGATACATATCTTGTAAAATTATCAAAAGATGGACAAATAATATGGGAAAAGAATTTTGGAAATGGACTTTCAACACATGCTTATTCTGTAAAAATTGCTAAAAATGGAAATATATATGTTGTTGGTTATGAATCAAAAACAATAAAAAATAAAGATGTATTATTACTAGAATATGATTCCGATGGAAATGAATTAAATCATTATTTATTTGGTGGAAAAAATAATGATGTTGCTTATTCAATGGATATAAAAGATAATTTCTTGTATATTTCTGGTTATACTACTTCTGATAAAAAAGATAGAGATATATTAATTTTAAAATATGAAATAAAATAAAAATGCGGTTATACCGCATTTTTATTTTATATATACAGATAAATTTATTATATCAGATGGATTTATACCAGGTATTCTACTTGCTTGACCTAAAGATATTGGTCTTACCTTTTTTAATTTTTCTCTTGCTTCAAATGCTAAATTATTTATTTCATCATAATTTATATTTTCTGGAATTTTTTCATTTTCTAATTTTTTAATCTTGTTTATTTCATCGATCATTTTTTTAAAATATCCTTCATACTTTAACTCTATTTCAACTTGTTCTACCAATTCTTTATCCTCAATTACTTCATTATCCAATTCTTTTAAATCTTCATACCTTATTTCTGGTCTTTTTAAAATATCTCCAAATTTTGTAGTTGCTTTTATTAAAGAAGAATTTTTTTGTTTTAATATTGGATTTATTTCTTCTTCTTTTAAATTTAATTTTTTTAATCTATCAACATTGTATTTTATTTTATTTTCTAAGTTCAATACTTTATTATAAAATTCTTCTGAGATTAATCCAAGTTTATATCCATATTTTGCAAGTCTTAAATGTGCGTTATCATGTCTTAATAATAATCTATATTCTGCTCTTGAAGTTAATAGTCTATAAGGTTCATCTACTCCTTTAGTAATTAAATCATCTATTAAAATTCCTATATATGATTCATTTCTACTCAAAATAAATGGATCTTTATTTTTTAATTTTAATACTGAATTAATACCAGCAATCAATCCTTGCCCAGCTGCTTCTTCATAACCACTTGTTCCATTTATTTGTCCAGCAAGATATAATCCTTCTATTTTTCTTGTTTCAAGAGTTGCTTTTAATTCTAAAGGATTTACATAATCATATTCAACTGCATATGCGGGTCTTTCTATTACGGCATTTTCTAATCCAGGAATACTTCTTATCATTTTTATTTGTGCTTCATAGGGTAAACTTGTACTTAAACCATTTATATAATATTCATCTGAATCTTTTGACTCTGGTTCAATAAATATTTGATGAGAGTTTTTTCCAAACTTCATAACCTTATCCTCAATTGATGGGCAATATCTTGGACCCTTACTCTCAATTAATTTTACATCTCCATAAAGTGGTGAAAATTCTATATAATTTCTTATAGTATCATGTGTATTTAAATTTGTTCTTGATAAGTAACAAGGATAATCATTACTCAATATCTTTGGTTCTGTAAAATAGGAAAAAGCCATGGGATCAGTTGATGTATTTTGAATTTCAAATTTTGAAAAATCTATACTATTTTTTCTAACTCGTGCAGGAGTTCCCGTTTTAAATCTTCCAATTTCAAGTCCTAATTCTCTTAAAGAATTACTTAAAGAATTACTTGGTAAATCACCCATTCTTCCTGCTTCAAATGTATTTCTACCAACAAAAATTTTACCTTTTAAATAAGTTCCAGTTGTTAATATAACTGCTTTTGCTCCATATTTTATTCCTAATTCAGTTTCAATACCAATTACTTTATTTTTATCAACTATTACTTTAGATGCAATTCCATATCTAAGCGTAAGATTTTTCGTGTTTTCAAGTATTTTTTTCATTTCTCTTGAATATTTGTATTTATCAATTTGTGCCCTTAAAGCTCTAACCGCAATTCCCTTACTTGTATTTAGCATTCTTATATTTATTGCTGCTTTATCTGTAACCTTTGCTTGAACTCCTCCAAGTACATCAATTTCTCTTGTAACAACACCTTTAGCTGGCCCTCCTATTGCTGGATTACAAGGTGCCCATCCAACTGTATCTAAATTTATATTTAAAAGAAGTGTTTTCATTCCAAGTTTTGCAGCAGCATGACCTGCTTCTATACCAGCATGACCTGCTCCTACCACTATAATGTCATAAATTTCATTAAAGTTCATTTTTTCCTCCCAACTATACTTTTTTTATTCCCTATATTATATAATTAAAAAAATTCATTGATATTACAATTAATTATCAGTGAAATTAATTGATATCATGAAAATTATTTATTTTATTATAGTATAATTTTAATATGAATAAAATTTTTTGAAGAAGGGGAAATTTTATGAAATTTGATTTTGATAAAGAAATAAAAAAATATGAACATGTTTCAAAAAAAGATTTTTATGAAAAAATAAGAGAGCAAATTTTTAAATGGGCTAAAAGGGATGGTAAAAAAAATAAATTATTAAATACAATTATGTTAGCGCCAGATTTGTTTTATGTGCTTTGGAAGCTATCTTTAGACAATAATGTTCCAATAAAACAAAAAGCTAAAGCAATTTTAGGTTTAACCTATTTTATACTTCCAGTAGACTTTATGCCAGAAAGTTTACTTGGTCCTATTGGATATTTAGATGATATTGTTGCTACCGTTTTAATTTTAAATAGCTTATTAAATGATGTTCCTCAAGAATTAATTGAAAAATATTGGCTTGGCGAAGAAAAAATTCTCCCAACAATTCAAAAAATTTTAAAGTCTGCCAATGAGTTAATAGGTTCAGGAATTTTTGATTTATTAAAAAAAATATTTAAATAGTGGGAGGTATTTTATGAATATATTTATTTTTTTAATTGTTTTTTTTGGCTTAGTATTGTTATTTAAATTTATTTCAAATAAATATTGAATTTTATTTCTAAAATTAAAATTATTATAATTATTTTTTATAAAAAAAATCCCAGTATTACTGGGACTATGTCTTTTTTATTTTTTAACCATTTAAAGAAGAGTTTTTACATAAAGTATTATATTCTATCACATTTTTCATATAACTCTGATTGTGAATACCATAATTTTTTGTAATATACCGAATTTTTTAATAATTCACTGTGCTCTCCCACATCAACTATTTTTTTATTATCCATAATTATTATTTTATTACAATACTTTATAGAAGCTAATCTATGTGTTATTATTATCGCTATTTTATTTTTGCTTATTTCTTCAAATTTTTCATATAATTCATTTTCAGAAATGGGATCAAGTGCTGCTGTTGGTTCATCAAGAACTATGATATCATAATTTTTAAAGATTCCTCTTGCTATAGCAACTTTTTGCCACTGCCCTCCAGAAAGTTCTGTACCTTCAAATTCCTTTGATAATACTGTATTTAATCCTTTAATAAACTTTTTATCTAAAGAATTTATACCAACAGAATTCAAAATATCTTCTATTTTATCTTCTTCATTTTTATTTTTAATATTACTAATAGCAATATTTTCTTTTAAAGTTATTTTATATCTATTAAATTTTTGAAATACAGCAGTTCCTTTATTCCTTATTGATTTTAATGATAACAATGATGAAGGAACTTCATTATAACATATTTCACCACTTGTTGGTTTGTACAATCCTAATATTAATTTTGAAAGAGTTGTTTTTCCTGCCCCATTTTTTCCAATAACTGCTATTCTATCTCCTTTTTTTATTTTTAAATTAATATTTTTAATTGCTTCTTTTCCCGTTGGATATGTAAAAGATACATTCTTTAATTCAATACTTTTTATTTCTTCAACAATATTTTTTAATCTTTTATTTTTTTTAGAATTCTCAATTAAATTTAAAAAATTTATATATTTTTTTACTTTTCCATATACTGCAATACTATCTCCCAATCTATATTCAAATATTTCTTCCATTAGTCCAAAAAGATTTGAAAGAGAGATATATACTGCTGCAAAAGTACCTATTGTAATTTCATTTTTCATAATTAAATATATAGTTAATCCAAGAACTCCAATATAACCAATAATAGTCATTAATTTTGATATTGAATCTATTTTATTTACTTTTTTTTGATAAATTAATCTCAAATTATGGTACTCATTGGATGTTTTATTAAAAAGTTTGAATATATAATTAATTGCATTTAGTGTTCTTGTTTCTTTTAAGTAATTTTTATTTTTTATGTATGAAGAATATATATTTTTTTTCCTTCTTAATGGAGCATGATTTTCTTCAAGTTTTTCATAATAACTTTTTTTTATTATTTGTGAAAATAATACTGGAAAAAATATAAACAACATACTTATTCCTAAAATAGGATTTAAAGAAACCAAATAAATTTCTATAAATAAATAGTATGGTAAGTATAAAAACAACAAATCCATAATTACATTTAAAACCCTACGTACAGATTTTGCTCCTACAATGGCAGAATTTACAAAATCTCTATTTTCAGAGTTGTTAAAAAAATTTGGTGATATTTTTGCAATTTTTAAGTTTAAATTTTTTAAAAGTGTTTTTAAGGTCATATCGTGATAATATTCCCCAAAGTATTCAGATATTCCACTTGATACTTCTGATATAATAATAAAAACCGTTAAATATATGAGTTCTACGATAATATTTTTCAAATTTTTATTGTTTATTCCAATAACACTATCAAAAACTTTTTGCATCTGATATGTTGTAAGCCCTAAGAATATTGCATCTAATACTGAAAAAAAATACTGTGAAAAAAATTTTATTGGTGATATTTTAATAATATCTACAAAAACATGAAAGATATTTATTTTTTTTTTATTCACCATACCATCTTCTTTGTTTTTCATACATTTTATAATAAACTCCTCTTTTATCTAATAGTTCATTATGAGTTCCTCTTTCAATAACTTCACCATTTGAAAAAACAAGCACTATATCTGTATATTTTACTCCTCCCAATCTGTGTGTAATTAAAATTTTCATTGATTTAAAAGGTACTGAAAAAAATTTTTCAAATATACTTCTTTCAGAAATAGGATCAAGTGCTGCTGTTGGTTCATCAAATATTTGTATTGGAGCGTTTCTATACAAAGCCCTTGCTATAGCAACTTTTTGCCATTGTCCTTCTGAAAGATTGTTCCCTTTACTTTCTATATAACCTAATACTGTTTTTTCTTTTTCAGGTAATTTTTCTATAACTTCTTTAACTTCACTTATTTTTATTACTTCGTCAAACAATTTATCATCACATTTTTTTATATCTTTCATTTTTATATTTTCTTCAAATGAAATGGAATACCTTACATAATCCTGATAAACAACAGAAAAATATTCATACCATTCTTCTAATGATAGATTTTTTTGATTTTTTCCATTTATTAGTATCTCACCTTCATAATCTTCATACAATCCAAGCATTAACTTTATAATTGTTGTTTTTCCTGCTCCATTTTCTCCGACAAAAGCATATGTTTTTCCTTTTTCTAATACAAAATTTAAATTTTTTAAAATCCATTTATTTGAATTTGGATACTTAAAAGATACATTTTTAAACTCTATTTTTTCTACATCTTTTTTGTTTATTTTTTTGATACTATTTTTTCTTCTCACTTCAGGAAATTTCATAAAATTCTCAAAATCTTTCATATAATTTATTCTTTTTATTATATCTTTTACTATATTAGAAAATGTCCATGACATTGGATGAATTAAATTAAATACTGCACCAGTAATACTTATAAACATACCTGAAGTTATTTTTCCAAAAGTTAGAATATAAAGTAAACTTGCTGAGATACCAAATGCTAACAATGACATTAAAAAACTTAACCCTTTTATTTTTGCAATATTTTTTAAAGTAATTTTTATATCAATTTTTCTTCCTTTTTCATATAAATTTTCAAATTCATTTGCTATTTCATTTCCATAATTAAATAATACTCTTTCATCAACCATTTCTTCGGAATTCAACATTGTATCATATACTTTTGCTCTTCTAAAAAACTTCATTGATTTTGTGTATGAATCATATTCTTTTTCTCCACTATAATATGCTACTACTGCCATAAATATTAGCAATATAAACACTATTGAACTAATTAATATACTACTCTCTAATATTATTATTGATATAGAAAATATTTCAACTATTATTTTAAAAAAAGAACTTATTTCTTCTAAAGCAGAAGTTATAGCATTTTCAGAATTTTCATAAATTCTTTCAATTAATTCATAATTTTCATGATTTTCAAGAACTTCATACTTTAATTTTGAACTTTTTTTTATAATGTCTCCTTCAAATTTAAAATCTACCCTTTTAGACAATCTTACATAAAGTTCTTTTGATATTAAATTTATTAAATAATTTATAAAAAATAACACAAAAAATAATATTGAAATATAAATAAAGTTAGAGTTTATAGTTTTAGTTTTTATAATAACTTGTGCAGCATCAATAAAATAAGCTACCACAAGTATTTTTATGGCTGGCGTCATATAATTAATTACTTCAATAATACTATATACACTAAATATCAGAGGCGCATTTTTTAAAGAATACAATATATATTTTATAATTAATTTTATTTTATTCATTATTTTTTCTCCTTCTAAAAATATGCTAAATGAATACTTAAAAATACATAGAAATAAAAAAATTTTTATATAATATTCATTAAGAATCTGATAAATAGACTTTTTTATTTCTATGCTTAGGAATTAATTTCATTAAATTACTGTAACCTACAGGTAACACCTGTAGGTTATAATGTACTAATTACAAAAAACACTACGACTCTTTCCGTTACATGTTCCTTTTCCACAGCCATCAATTTCTATAACTACTTTTGATACTTTTACAATAGGTTCTTTATAATCCATTTTTCTATCTCCTTTCAGAATCAATAATATATTTTAATGCTTTAGCATTTTGTTTATTTATTGATGAACAACCAAATAAATCATTATCTTCTGAATAAGCCAAACCAGGACATCTATTACAAATATTTTCAAGATCACAATTCTTACATTCTTCTAATTCTTTATTTGTTAAATTATATATAAATTTAAGATCTGAAGAATTATACCAAATATCCTTTAAAGATTGCTTTTTCAAATCACCAACTTTATATAAAAATGAATTACAAGGATAAACATTTTTATTTGAATCTATATATAAGCTATATCTTGTATTTGGACAAACATCATCTAAATTTTTTTTATCTTTTAAGTTTTTTCTGTTAACATTTATATTCAAGTTAAAATTTTTATTAAATTCTATTAAATCATTAAAATCTAAAGAATTATCTTTAGGAGAAGAATCTCCATTTATTTTTGACATTATTGTTGGATTTGGGGAATATAAAAAATCATTTATATTACAAAATTCTTGTAAATATTTATATGAATATTTATTTTGTTGCATTATAGGAGTTTTTATTTCTAAACTTATTCCTTTATTTTTCATTTTCATAATATTTGATAATATTTTTTTTAATGATCCTTTTACTCCTGTAATTTTGTCATTAATTTCTTCATTTAATGAAAATATTGTTGTGGAAAATTCAGTAATATATAATTTTGAAAGCTGTTCAATTTGAGAATCATTAATAAGTGTTGCATTACTTAATAATGTTACACGAAAACCCATTTCTCTCGCTTTTTTTATAATTTCCATAATATCAGGATGTAAAAAGATTTCTCCACCTGTTAATATTGTTTCTAATGTACCTAATTTTTTTAATTCTTCAAATAAATCAAGAATAAATGAATATTCTAGACCTTTATTATCATGTTTTGGAATATAACAATGTAAACATTTTAAATTACACAATGTCAAAAGTTCAATAGTTGCAATTAATGGAATTCTCCTTTTATAAGCGTTTTTTACAATCGTCTGAAAAGAAAAAGTATTATCAATTATCATCATATTACCTCAATAACTTCTTGAATAACAAGATCATTAATAAATTTTTTTAAATCTTTGCTAATAGTATCAGATGAAGTAGAATAAAATTTATTTTTTAATGTTTCTAATAATTTAGGAACGCTTTTTAAAATTACTAAATATTTCCAAAAATAAACCGCAACGCCTTCTAATAAAATATTAAATTTTGTCCTTTCGTCAATTATATAAACAAAATCATCATAATTTTGCCATGAAATCCATTTAGAAATTTTTATTTCTTTTTTTAATAAATCCTTATCCATATATTTCCTCCTCGTGTATAATGTTTTCATATAGTTAATAAAATTGATGAAAGTTTAAAAAAACATTCTAACTTTGAGTTATTATTAAACTATAGTGATTCTGTTTCTCACTCTAATTTGTATTTTTATTTGTGCACACAAATATTTTAATATTATAATTTTTATTTTAATTCGATAAATTAATTAATCGTTTTTCCTTTGCTTACATAAACATTATATCAAAAAAATCAACTATTTTTAGTGTACTAATTAATATTTTTACCTAAATATAATGTTTTTTTGATTAATTTATATCGTTTATTTTATTTTTTTGTGTTATTAATTTTATATTAACTATTAGTATTTGTGAATTTGAATTTTATATTTTTTATAATGTTATTATTAATCATTTTTATTATAAAAGTTTGTGAAATTCTGTTAAATATTTATTTTTTATAAATATTCTGATTTAATTTTTTATTATTGATGAAATATTAATATCAAAAATTTCGGTGTTTTATTTTTTCACTATTTCCCATCATTATTTTCACGCTTTTTATGAGTTTTTATAAAAATATAATCCCAGCACCCGCTGGGATTATATTTTTTCTATTTTGTATTCGTCTATGTTTCTTTTTTCTGAGTTTATGTTTATTCCTATTATATAAATTTCTTTTCCTTTGTATTTTTCATAGTACTTCATTTCTTTTATTTGATTTAAGGCTTTTTCTGCACTCTTGTCTATCTTTATTTCCATTATGTATATGACGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAACTCTTCTGCTGTTACGTTCAGTCCTGCTGATGCTAGTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTATGCAAGTTGTATGGGATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCCATGTCTTTTTCTCTTATTGCTTTCCATATCGTTTTATTTATTTCTTTTATTTTTCCTCTTTCAAGTTCATAGTTCGCTTCTAATATTATCTTTGAAAAGCTATTCTTTACTTCTATATTTGGATAATCTAATAAATATTCATATTCCATTCCATATTGTTCTTTCCCTTTAAAGGTTAAGTATCCTGATTGTGTAAAGAATATACTTGCATTTGCTTCTTCTATTTCTCGTGTTGAAAAATCGAGTTCGCTCACTGGATACTTCACTAAGTCTTCATATCTTATCTTCTTCCCTTTTATGTATTCATATAAAAATGATGGCGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTCATTAAAAAATCTTAATATTGAAAATGGATTGTATACACTACTTTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTTCATATTCATTTCAAGTGCTGTTTCTTTTATGTGTTCTTTAAAGTTTCTTTCTAACTCTTCTTGTGTGTATCCCAATATCTGCGCGTATTTTTTATTCAATGATATATCATTTAAGTTGTTCAATGCAGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCATCATTTGATTTTATACTAACATAAAAATTTCTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTATTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTCTTGATAGTTCAAATATTAATTCATCAAAAGCATATTTATAATGGTCACTTTCTATTTTTATTCCATACTTTCTTGCTTCTCTTTTTATTATTCTCAATAATCCATCTTTTAATTCTTCTTCTGTATCATTTGTTGTATCCAATAAACTTATCCTTATTACTGGATACTCTTTGAACTCCCATTTGTCGTATATGTATGTTCCTTTAAATAAGTCTTTTTCTCCTTTAAATAGATAGTACAGTGTTGATATCGTTAAACTCTTTCCAAATCTTCTCGGCCTGGATAAAAAGATTGGCGCTTCTGAACTTATTAAATCTAATATATACTTTGTTTTATCTATATATGTATAATTACCTTCTTTTATTTTTTTATAGTCTTGTATTCCTATTGGTAGTTTTTTCATTTTTATCACCTCTAACTTTTATTATACCATATGCTTTTTATTAAATTCATTTTTTATTTTTGAATAGAATATTCAAAACAAAGACAATAATACTTATTGTTATTTTATGAAATTTTATCAAATGAACTTAAAAAAGTGCATATACTATACCAATTTTTTCATCTTTTTTATAAGTTTAAAATTTTATTTGCATTTATATTCACCAATGATTTCTGGTTTAAAAAAACAAAAAAATCCTCACTTTATATAAAGTGAGGATTGGGTTAGAGTTTAAAAGAAAACTTTTAACATAAAGCCTACATTATTTAATTTTTCCATAGCTTTTAATGTGTGATCTGAATTTTCTGCATATGCATAGTTTATTGAAAGTGTTGGTTCAAAGTTATCTATTCCTTTATAAGAAATTTTTGCAATTCCATTATAACCTGGTTCATACTTATCATTTATTTTTGAAAATGCAACTAAACCTAAACCTTCAAATGAAATGTTTGATATTTTTGCTTTTATATACATATCTCCACCAATTGATAATTTATCTTTAAATTCTTCATTTGGAAGGCCATTGAAAAATTCTGCTCCAATTGTTAAGTCTTCTCCTTGTGTATATTCTAATCCTGCTACTGTTTTTACATAAACATCATTGAAAATAGTAGCGTCAGCTGTATTTTTTACAAATTTTCCATCTTTATCTGGTGTTTCATAATTTAATTTTATTGTTGTTTTTTCTGGTACTACAACGGCACCTTCTGCATGATAACTTATAGAATCTATAAAGTTTGAAACACCTTGTAAATCAAATGTAAATGAGTTTCTATATGGTCTATAATTTGTTACTGTTGCAGAATCGGCATTTATTAATGATACATCTTCATTTATATTGAATGAATTTGCTTTTCCTTGACTTATTAAACCAGCTTGATAATTTACTGTTGCTCCAACAGTTGTATTCAATGCATTTGAATCAAAATAAATTTTTCCAAAGTTAACAGTTTCAGGAACTATGAAATGATAATGATCATGAACAAAACCTGCTCTTACATCGAATCCCATTATGTTTGTTGATAGAACAGAACCTGCATTCATATTTTCAAAAGCAAGTTTATCTACATCTTCATTTGAATATTCTTCATTGTTCATATTATATTTTGCATCTATATTTACGTTTATTGGTAATGAAGCTAATGGTTTTGTTGCATTATTTGCATTTAATGTATATAAAATACTTTCTTTCACTGTACTTGCTATTTCTTTTGAAAATTCTTCAGAAACAGTTGTATTGAATTCTGTTACTGTTTTTTCTGTAATTACTGGATAGTATAATGATGGAATATCATCGTATGTTTTTGGGGCAATAATTAAGTTTGCATTTATATCTCCAATATCTCCACTGATCATAGCACCATCTATTGCCATAGTTTTCATTGTTTCAAATGGATTTATCATATCTTTTTCAGCAATCAATACAGATGGACTATAAAAAGTTGAACTTCCACTTTGAGGTACGAATCTTCCTGCTCTTATTGTAAAATTATCTGTATATATATCTGCAAATGCTTCATTTATATTGTATAAAAAGTATGGTACTGCTGGAACACCATAGTTAGTTAAAGATGCAAATGGTTTTAATTCTTCTGGAATATTTGAAGTTACATTTAAATCCGATGGAATTTTACCTGCATTCAATGAAAAGAAATCCATTGAAAGTTTATAATAAATGTTTCCTGTATCATTTTCTAATACTATATTAGATTTAATTCCTTGAAATGATGTTGAAGCATCTTTTGAAATATCATAGCCATAAAGATATTCTAAGTCACCATTAAAACCAAACATAACAAGAACTGAAGTCAATACTAATATTAAAGATACTATTTTTTTCATATTCTTTTCCTCCTCATCTATATTTTAATACTGGTTTTGAAATACTCATTTTGTTAAAGAATTTTGCTGTAAATGGTAGATCAAAATCTACTGTTTTTATATCGAGTATTGTTGAATGTTTTGCTTTTAAATCTTTTAATTCTATATGAGTTGCAAGTACATGTCCATCAAAGTTTTTTATATTTGAAAATACCATTGTTTTTATATGTTCGTTTTTTAAATTATAAAATTCTACTTTCGTTATTAACATATTTTCTTTTTGAATTTCTGCAACTATTCTTCCATAATCAGAATCTTTATCTTCAGGAAGTATTTCAACTTTATACATTTTATCTTTTTCTTCTAACAAATTTGCTTTATAAGATCCAGATTGTTCATTATAAAGAAGAGATATATCACTGAACTTCAAATCAGAACCAACGAAATTACCATTTTTTGCTCCACCAGATATTCTTTTTGTTTTTCTGTATGCTGGCATATAAAGATAAATTTCATCATCTGATAAAGTTAAAAGAGTTATTCTTTTAACTTCTGATGGTTTATTAAATCTTACCATTGCTAATGTATCTTCACCTTTTTTCATTAAGTACATATCAAAAATTCTTTCTCTTGAGTTTCCATTTGCATCAACTAAGTTCATTGAAACTAATGATTTTTCATTTTTAAAGTTATCGTGTACATCTTTTACCTTGTCTAATACTTCTTTTCCTGTAATTGAAAACATAGATACTGCCAAAACTAATAATAATGATAGAGTTAAAACTACTTTTTTCATTTAAATTCCTCCTTATGCGTTTTCTTTTGCTTTTTTGTTTAAAATACTCTTTTTTGTTAATTTTCCTAAAACCTTGTCGCTAAGCATTGTCATAGCCATTGGGAATATTGTTAAGGTTAAAATTGGTGCTATTATCATTGCTACTGCTGTTAGTATTCCAAAATCTTTTAAAATTCCTATACTAGAAAAACCAAATGCCATAAATCCTAAAACTACTGCCAATGAATTTATTATTATTGCTCTACCAGCTGTTGCTGATGTTTTTACTGCAGATTCAAACTTATTACTACTCAATTTATATTCTTTTTTAAATCTTGTTATGTAATGAATTGTATAATCTATACCAGCACCTATTGTAATAGAAGCTATTGTTACCGTTGCTGCATTCAATGCAATTCCTGTTATTCCCATAAATCCAAAGTTTGCAATTATTGTTAAAGTAATAGGAATCAATGAGAATAATCCAAGAGTAACAGACTTCATCTGTAAAATAAATAATACAAATACTAAGATATAAGCAAGAATCATACTTTTCATTTGATTGTCAAAGATCATATCATTTACTTTATTTGCTATTACAGGTATACCTGTAATGTTGAATACTATTTTTCTATCTCCGCCAATTACTGGTACTTGTGTATCATTCACATATTGTGCTAATTCAATTAAATATTTTGAATTCAATTTTAAATTATCTTTTTCTAATTTTTTTATAGCAAGTTTTGCTCTCATTTGATCAACATTATCCATAACAAAATATTCAAAGTATTCATTTAAATCTTCATTAGAACTTTTTTTATTATAAACATTTTCAAAGGTTTGATAATCAATTTCATCTAATTCATTGATTTTCAAATAAGTATTGAACATATTGAATAAAGTTTTATTGTCTGTACTTTTTAGTAGTTCTTCATCACTCATATTTTTTATATTTACAAAATCATTTAATACTTTTTCATTATAAGTTCCTCTTCTTGATTCTATAAATTGTCTTATTTCATGATTATAAGCTTTTAAATGTTCATCATTGTTTGTATCAAAATCTTCTATTTTATAACTTTTTATTATTTGAGAGTTTATGAAATCTTTAATCTTCAATTCGGATTCTTTTACTTTACTAAAACTCTTTGTATTAACCATTATTTGAGAAATAGATTCATTTTCATCAGCTTTTAAAACTTTATCTATTCCTTCACTTCCTTCAATTAACATATAATTTTGTTCCAAAGCATCATTAGAACCTGGTATATATTCAACTCCAGTAAATCCTTCGGTTAATTTTGCCACAACGTCTCCAACGCTTGTAGATTGTGTAGCAATATCAAAGGTTTTTGCATAGTTTTCAAAATCTCTTATTGATCTATTAAAATAAAAATCTCTAAATGTATTTTTGCCTTTTGCTTTAAAGTCTAAAAATAAATAATCATTTCCACCAAAGTTATCTCTTAAAAAGTTTGAACTTTGAACGAACTCAGTATTTGGATTCAAATAATTTTCCATTTGTACATCTGTTTTAATATTTGGAATAAATAAAATCATAATAAAAATTATTACTCCAACTATTGAAAATGATAATACTCTATTGTGTACTAAAAATTCAGTTGTTTTTCTAAGCCATTTGCTTTCTCCTTCTTCATTCGAATTGTTTTTAGGAGAAGGCTGTATAATCATTAAAATTGCAGGAACTAAAAGTGTTGCACTTAATAAAGATATTGCTATACCTGTTGATGTAAATATTCCTAATTGCCAAACAGGTCTTAAATCTGCAGTTAAGAGGGATAAGAACCCAGCAATTGTTGTCAATGCACTTAAAACAACAGCACCACCAACGTGTTTTAAAGTTTCATTTACAGCATCAGCCTTTGAAATTCCTTTTTGCGCTTCTTCATAATATTTGTTTATTACGTGTATTGCATAAGCTGTTCCTATTCCAACAATTGCAATTGGTACAGCTGCAGTTGTTGTATTAAACATAACATTAAATAAAACCATAACTCCAACTGTCCAAATATCAGCAAGTAAAACAGACATTATTGGAAGTATAACTCCTGTTAAAGTTCTAAAACTTAAGAATAAAACAAATGCAACAAGTAAAGTAACTATTGGAACTAATTTTTCAATATTTTTCTTTACTAAGTTTTCAATTTCAATATCAGCAGTTGGTGTTCCTAAAAGATGATAATTTAATTTATTATTATCAAAAATCTTTCTTATATTTTTAGCTGCGAGTCTTGTATCTGCATTGTTTTTTAAACCAATTATAATCAAAGATGCTTTTCCATCACTCGAAACAAATTTTCCTTTTAACATGCTGTCATTTAAAAGTATTTCTTTCATCTTTTTTACATCATAATTTGAAAAGTTAAAAGAAGATTTTAAATTACCTACAGAAATATCTCCATCGTCCGTTGCATTTATTCTTGGCGCATTTACAACAGAAATAACATTATCTACACCTTCTGTATTTTTTAATTCTTCAGTTACTTTATCAATCAAATTCATATGTTTTGATACATCATCAAAACTAACTCCAGCAAGTATCAACGTATTCAAACCAAATTTTTCTGAAACATCATCATAAATTAACTTCTCGGGATCATTTTTAGGAACATAAGTTTTTATGTCATCTGAAACTTCTATTTTAGAAGCTTGATATCCAAAAAAAACTGTTAAAACTGCAAAAAGAGTAATGATTAAATAAGATGTTTTTTTGTTTAATCTCAACTCAACTACCTCCTTAAACTTTTTATCATTCGTTGGTGGCAAATGATAAATACTTTTTTATTTCATATATAATATAAACCTTTATTTTTTCATTTGTGTTTCAAAAAAAATAATTTTTAGTGGCAGTTTTTTAATACATAATTAATATGATACAATATAATTGAGGTGAGAGTTATGGGATTATTAATAAAACATTTAAAAAATGATGAAGATGCTGAATTGTTTTTAAAAAATGTAGGTTTATTAAAAACAAAAGAAAAATGTCCTTATTGTGGAAGTACTGAATATTATGTAATTAGAAGAAATCACTATAAGTGCAAAAGTTGTAGAAGAGAATGGAGTAAATATAAAGGGAGTATATTTGAAAATTTTAGAATAAAACCTCTAAAATTTTTAAAAATTTTAGAGGCATTATCAGAAGGGACTGTATTAAAAAAAATATCTAAGGATTTAAATGTTTCATATAATACAGTCTTAAAGGTAAGAAATTTAATACGAGAACATGTGCTAAAAAATATACTAAATGTAGATGAACTTGAAGAAAATATTTTTATTGGAGTAAATCATGTAAATCATAAAATAAAATTAGACTACTTAAAAACAATAGATTTCTCTTTAATTAAAGATAATAAAGTTGGAAAATTAGGAAGAATTTATTTTATTCATGATTATAAAAATTATGAACTTTTAATAGTAATATCAGAAAATACTATACCAGAATTAGATGAAAAATCTCGTGAATTAATATTATCAAAGTTAAAAAAAGAATTGAGAGTATTTGTTGATGATTTTACCAATAAAATTTCCAGTAGAAAACTTGTAAATAACAAAACTATATTGTACTCTATTTTTTTATCCTTATATATAAATGACAAAAATACTTTGCATGAAATAATATTTAGTGCTTTTCAAAATATAAAAAAGTAAATTAAATTATATTTAAATAATTAACCTCTATATTCTATAAATATATGGTATAATGATATGGGATTTTTAAAATGTGGAGGTGTGCCCTATGGAAGAAAAAAACGAATTTAATGAGTTATTAGAAAATAATAAAACACTAAACGAAGAAACAGCTCAAAAGAATAAAAAAATATTGATTTTTTCTGCAGCTGGAATTTTAATAGGAATAACTCTAATATTAATCTTAATTAATATATTTAGTGTTAAAAAGTATACACTTACAGTAAAGTACAACCTTTCGAAAATAAATGTAGAAGAAAGTTTTAATAGAGTTTTTATAAATCTTGAAGGAAAAAATAAAATATCTACAGAATTTAAATTGAATGAAGATATTAAATTATTAAATATACCTGAAGGTACATATAAAGTAAAATTTTTTATTACAGATGATAATAATATAAAGTATTATTATACGGAAAAAGAAGTAAATTTAAATGAAAATAAATCAATTGAATTAAACCCTATTAAAAGTACTATAAAATATGATATAAAAGAAGAATGGTTGAATAAAGATTTAAAAATAACTTTACCTGAAAATTTTGATAAATATTTAGTTTATGAATTGAAAAATGGAATTTATAAAAAAATAAACGAAAGTACAAAAAACGTTGTTTGGTTTAGAAATTTGGATAAAAATACTTCTTTAAAATTTTCTGTAATAAAAAATAATTATTTATATAAATACTCTGATGAGTTAAAAGTTAATGTAAATACAAAACCAAATAAACCAATTATTTTATCTCCTGAAAATGGAGAAGCCATAAAAGCTTCATCAAATTTTTTCTTTGTATGGAGTTGCAAAGATCCAAATGGAGATAAATTAAAATATGATTTATTTTTAACTACTAATGGAAAAGAAATACAAATTGCAAAAGATATTTCAAGTATAAACTTTCAATATAGTAATTTAAAGCCTGGAACTGATTATACATTAAAAATAATTGCCAGTGATGGTAATTTAACTAATTTTTCATCAATAAATTTTAGAACTCTTTTATCTCAAAAAAAATATACTTATATGTCAAAAGATAATAAATTATTAATATATTCTGTTTTGGATACTAAAAATCCAAAATTAATAAAAACTATAAATTTATCTGGAAAAGTTAGAACAATATCTGAAAATAATAATTATCTTTATATATTGAGGGAAAAATCTGGAATATCAATAATTGATTTTCATTCACCTATTAATGCTACTCTAAAAAAGAACTTAGAATTAATGGATATAGAATCATTAAAAGTAAATACAAAGTTTTTATTTACAAAGTTTAAAGATGGTAGGATATCAGTTTACTCATTAAAAAATCCTTATAAACCAGAATTTTTAGGTTTTACCGAAGAAAAGTATTATGGAACATTAAATCCAAAAATAACTTATATAAAAAGAGACATGAATATAAATGTTCCAATAATTTCTTCTGAATATCCTATAAGAATAGGTTTAAAAAATAAAGTTTATGTAAAAAATTATACACTAGTTGTTGGAAGTGAGAAAGCTAAATCAATTATAAATAATAATTATACAGAAGTTTTTGAAAATTTAAGATTTATTTTTTCAATGTATAAGACAAATGATTTTACAAACAAAGAAAAAATTCCTCTTATAAAAAATAGATTGATGAATGCTTTAAATGAAATGTTTAAACTTGATTCAAGTGAAGGTATAAAATCCATAAAATTAATAATTTCAAAAGTAGATTAAAAAAAACGACGCTTAGCGTCGTTTTTTTTAATGATGATGATGTTTTTCTTTTACTTCATATTCTTTATCTTCAATTTCATCTTTTAAATAAGCATTTACTAAATCTTTTATAGTTCCAGCAGCACCTCTATAAACTTCAATACCTAAACTATTAAAGAAGTCTATTGCTCTTCCACCAATTCCTCTTACAATCATAACATTTACATCGTTTTCTTTCATATAATTTGGTATATCTCCAGGTCCATGTTCTTCCATTGGATTTTTAATAACTTCAACTTCATAATTAGAACCATCAATTTTCACAAATCCAAAGTATGGAGCATGTCCAAAATGTTCACTTATTACTGAGTTTTCACCTTCGTTAGTTATTAAAGGTATTCCTAATTTTTTCACAATATTTCACCTCACTAAAAGAATTTATACCTTATTATACCATAACTATATATTTTTTTTATATAGCAAAAAACTTTATATAAATATAATTATAAGTAATTATATTTGATTAAAATAATAAATTTAGCATTATCTTTATTTTTTAAAAATTGACATATATATTTTTTTTATATATAATTTAAGTGTAGACTAAAATTTTATGGGAGGTGAAATGTTATGCCATTTAGAGATGGAACTGGACCAAATGGAACAGGAGTAAACTGTAGTACAAGATTTGAAAGGAGAGGTTTTGGTTCTGGATACGGTAGAGGTTTTGGTAGAAATGCTGGAACTGGATATGGTAGAGGCAGAGGTTTTGGAAGAGGTTTTAGAAATTATAACAATGCATCTGGATATGGAAGAGGTTTTGGATATAGATTTGAAACAGAAAAAGAATATCTTGAAGAAGAAAAAAAATATCTTGAAGAAGAATTAAAAAGAATCAATGAAAGATTAGAAAAATAAGGCGTTCTTAGAACGCCTTTTTTAGGAGGAAAAAATGAAAATTGCTGTATTAAGTGGAAAAGGTGGAACTGGAAAAACATTAGTTTCCACAAATTTTTCTAACGTTATTTCCAAAAGTAATACTGTACAACTTTTTGATTGTGATGTTGAAGAACCAAATTCTCATATATTTTTTGATATAAATTATACCAAAGAGAGAGAAGTAAAAACTTTAATACCAGTTGTAAACAATGATGTTTGTATTCATTGTGGAAAGTGTGCTCAAAGCTGCCAATTTGGCGCGATTTCTGCATTCCCAACAGGAACTGTTGTTTTTGAATCACTTTGTCATGGCTGTGGTACTTGTAAAGATGTTTGTCCGGTAAATGCTATAACAGAAAAAGAAAAGAGCATGGGAATAATAAGATTTGGAAAAGATAAAAATAAAGATATTTCTTTTGGTGAAGGAATTTTAAATATAGGGGAACCGTCTGGTGTAAGAGTTATAAGAGAGCTAAAGTTAAACTTTGAAAAAAGTGATTTTATAATTTTAGATTCTCCGCCTGGCGCTTCTTGCCCAGTTGTAGAAACATTAAGAGATATGGATTATGCTATCTTAGTTACTGAATCTACACCATTTGGATTGCATGACTTAAAAATAGCCCATGAAGTTGTAAATGAAATGAAAATTAAATGTGGAATAGTTATAAATAGATATGATGAAAAATTTAAAGATATAGAAGAATTTGCTTTAAAAAATAATATAGATATACTTGCTAAAATTCCTTTTGATAGGCAAATAGCTGTTGAATATTCAAATGGAACTTTAATAACTGATAAGTTTCCAAAGTATCATAGTTTATTTGAAGATATAGTAAAGAAGGTGGCAAAATGATTAAACAAATAGCTGTTGTAAGTGGAAAAGGTGGAACTGGTAAAACAACACTTACTGGTTCATTAAGTGTTCTATTTAAAAATCATGTTGCTGCTGATTGTGATGTTGATGCTTCAAATTTATCGTTAATATTAAATCCAAAAACAGAAAAAGTTTATGATTATTATGGTGGAAAAAAAGCTTTTATCAATCATGAAAAGTGTTCTGGTTGTGGAATATGTAAAAATGTTTGTAGATTTGAAGCTATATATAAAGAAAAAGATAAAAATTTATACTCCGTAGATCCTTTTGCTTGTGAAGGGTGTAATAGATGTGTTATAAACTGTCCTGAAAATGCAATAGAACTATTAGATAATAGAAGTGGAGAATATTATGTTTCACATTCAGATATAGCAGTTATACATGCAAACTTAGAACCGGGTGAAGAAACCTCAGGTGGACTCGTTGCAGAAGTTAGAAAAAAAGCAATTGAAATAGCAGAAAAAGAAGATAATAATTATATTTTAATAGATGGTGCACCAGGTATAGGATGCCCAGCAACATCTTCTATTGCTGGAGTAAATTATGTAATAATAGTAACTGAACCAACACAATCTGGTGTACACGATTTAAAAAGGATTGTAGATACGGTAAAACATTTCAAAAGAAATTTTTCAATAGTAATAAATAAATATGATATAAACAATAAAATAAGTAATGAAATCGAAAAATTTTCAAAAAGTGAAAATATAGAAATATTTGGGAAGATACCTTTTGATAAAACTGTTGTAAATGCTGTTGTAAATGGAGAACCAGTTGTAAAATATGATTGTCCTGCAACAGATGCAATAAAAGAAATATATAAAAAAATTTTAAAAGTATAGGAGTGATAACTATGAAAATAGGACTTTCAGCAAAATCATCTTCTGCAAATGCTATGGTTGACGATAGATTTGCAAGAGGTGCAGTTTATGTAATCTATGATACTGAAACAAAACAATATGAATTTATAACTCCAGAAGAACTTGGAGCTCATGGTGCTGGTCCAAAAGCTATTCAATTATTTGCAGAAAAAGGAGTAAAGGTTATTGTAGCTCCTGCACTTGGTCAAAATGCTTATGGTGCAGCTCAAGTTGCACAAATTGAAACTTATACACAAAAAAATGGAACAGTTGAAGAAAATATAAATGCTTATCTTAATGGAACTTTAGAAAAGATAACTACACCAAAAGGATGATAAGATTGAAAATTGTAATTGGATTAAATGAAAATGGATTTATAAATAAAGGTCATTTTGGTCATTCAAATGAATATATAATTTTTGAATATGAAAATGGAAATTTTACTGAAATAGAAAGAAGAATAAATCCTTTAGTAAAAGAACACAAACATGCAAAAGTTGAAGAAATATTAGAAATAGTTGGTGATTGTGAAGTGTGGGTTGCTAAAAATATGGGAAAGATGTCTATGTTAAAATTAAAAGAAAAAAACTACAAACCTATACTTGTTGATACCGATATCATAGAAAAAGCCTTAAATAAAATTAAGGAGATGTTATAATGCCTTGGATAAATGAAATAGAATGTTCAAAATGTTTAGCTTGTGTTAAAAGTTGTCCTGAAAATGCTATAAAAATAAAAGACAATGGATTCCCTTATATTGATCAAAATATCTGTATAAAATGTGGAAAATGTTTTGATGCATGTCCTAAAGAAGTTATAAGACCAAACTCTGAAAATCCATCTTTAAGATCTGGATCTGGAAGAGGTAGAGGAATGGGTCGTAATGCAAAAGGTTTTGGAAAAAATAATTTTTAAAAAATACATAAAAAAGAAATAAAAAAATAAAATATAATGAAAGATATTGAAACTAAACCTGCCATATGTATGGTATAATCTATATGGTGGGTTGTAAACAATAAAGTTATTAATTTCACATTTGGAGGTGTTTTTATGAAGTACGATATAGTAGTGATTGGTGGAAGTGCCGCAGGATTAATAGCAGCTATGTCTTCAAGAAAATTATACAAAGATAAAAAGATCTTAGTAATTAAAAAAACTGAAATGGAATTAGTACCTTGTGGAATTCCTTATACATTTAGTACACTTGGAACTGTTGAGAATGATGCAATGGGAATAGAAGCAAAGTTTAAAGCACAAAATGTTGATCTATTAATCGATGAAGTAATAGATGGAGATTCAAAAGTAAAAAAAGTTATAACAAAAGGTGGAAAAGAATTTGAATATGATAAATTAATAATAGCAACAGGTTCTACACCATTTGTTCCGCCTATTCCAGGACATGATTTAGAAAACACATTCAATGTACCTAAAAATGCTGAATACTTAAAAGAAATGAAAAAGAAATTAGAAGGATTAAAAGATGTTGTTATCCTTGGTGGTGGATTCATTGGTGTTGAAGTAGCTGATGAAATCAAAAAATCTGGAAAAAATGTTACCTTAATTGAAGCTTTACCTGATTTATTATACTTATCTTTTGATACAGAATTTGGAACAATAGCAAAAGAAGAACTTAAAAAAGATGGTATTAAAGTTTTAACCTCAATGAAAGCAAAAGAAATTGTAGGAAACGGAAAAGTAGAAAAAGTAATTCTTGAAAATGGAGAAGAAATAAAAGCAGATGCTGTCGTATTTTCAACAGGATATAGACCAAATGTATCTCTTGCAGAAAAATTCAATCTTCAATTAACAAAATATGGATTTATAAAAACAGATGCTTATATGAGAACAACAGAACCTGATATTTTTGCTGTTGGAGATTGTGCACAGCATACAGATATGTTTACAGGAAAATCAAGTAAATTAATGCTTGCTTCAGCTGCTGTTTATGATGCAAGAATTGCAGCTTCAAATCTTTGCTGTTTAAGAGCTATTAGAAGAAATAAAGGATCATTAAGCGTTTATTCAACTTTAATAGGCAGCATTGCTTTTGGTGCTGCTGGAGTAAATGAAAAAATAGCTAATCAAGAAGGATTTGTTGTTGATTCAGTTACTGTTGAAACTTTTGATAGACATCCTGGTAAATTTGCAGATGCTACTAAAACAAAGGTAAAATTAATCTTTAGTAAAGATAGTGGAATTGTACTTGGTGCTCAAATGGCTGGTGGTAAAGGTGTTGGTGAAATGATCAACGTTATCAGTCTTGCAATTCAAATGAATGCAACTGTAAATGATTTATTCAATATGCAAATAGGAACTCATCCATTATTAACAGCTGCTCCAACAACTTATCCGATACCTGCTGCTGCAGAATTAGCTTTAATTAAAATGAAAAAATAAATTAATCCCCTTCCATAGAAGGGGATTTTTTTGGAGGAATTTCCTATGATATATAAATATGTATATGGCCCTGTACCTTCAAGAAGAATGGGCATTTCTTTAGGAATTAGTCCAATTCCTAAAGGATATTGTAGTTATTCTTGTATTTATTGCCAACTTGGAAGAACAAAACATATGACTATTGAAAAACAAGAATTTTTCAAAGTAAATGATATAGTAAATGAATTAAAAAATTACTTAAAAGAAGATATAAGTTTTGATGTTATAACAATAGTTGGTGAAGGAGAACCTACACTATATTCAAAATTAGGAGAACTAATAAATAGTATAAAACAACTTACTAAAAAACCTGTGGCGTTAATTACAAATGGGTCTTTACTTTCAGATTATATGAAAAATGCTGATATTATTTTACCTTCTTTTGATGCTTTTGATGAAGAAAGCTTTAAAAAAATAAATAGACCTTTTCAAAAAATCAAATTCAATGAAATGTATGAAACTTTAAAAAATTTTTCAAAAAATTATACTGGTGAATTATGGATAGAATTAATGCTTGTAAAAGGTTTAAATGATTCAAAAGAACAGTTATTAAAAATGAAAGAATTATTAAAAGATATTAAATATGATAAATTATATATAAATGTACCAGTTAGGCCACCTGCAGAAGAATGGGTTAAAATTCCAGATGAAAAAAATATAAAGATGGCTGTTGAACTTTTAAATGGAATTTCTATAGATCAATTAATTTCAAATAATTTTTTTAGTGAGATAAAAGATGATTATGAGGCCATACTGAGTATAATTAAAAGACACCCTATGAATCAACATGAAATTCTTACTTTCTTAAAAACAAGAAACTGTAAAAAAATTGATGAAATATTATCAAAATTATTTAATGATGAAAAAATAGAATCAATATTTTATAAAGGGTATACAACTTTTAGAATAAAATAAATCAATTTGTTTTTTACTGTATATATACATTTTTAAATTAAATAAATTTTGAAATATTTTTTTCTTAAGGTATAATTTATAGAGGTGATTTAAATGAAGAAAGTACCATATGGACTTCAAAATTTTGAAGATTTAATATTAGAAAATTATTATTATGTAGATAAAACTAAGTATATAGAAGTACTTGAAAATATGCCGGAAAAATATATATCATTTTTAAGACCAAGAAAGTTTGGTAAGAGTTTGTGGCTTGACACTATGAGTAAATACTATGATGTTAAGTATTCAGACAAGTTTGATACTATCTTTAAAAACATGTACATACAAAAACATCCAACACCTAAAAAGAGTAGTTATCATATTTTAAAATTTAATTTTTCTGGATTGAATACAGATAGTAAAGAAGAGTTGAAATATGGATTTAAAAATAAGATTTTTAATAGTTTGAATTTTTTTATTAAACATTATAATTTAAAAATAAAATTAAATATAGATTTAAAAGAACCTGCTGATTTATTGAATAATTTTATAAATCAATACAAAGAACTAAATTTAAAAACAAAAATCTACTTATTAATAGACGAATACGATCACTTTGCAAATGAACTTTTGAGTTTTAAACTCGATGAATTCAAAAATATCGTCAGTAAAACAGGTTTTGTTAGAAAATTTTATGAAGTAATAAAAGAAGGAACAGAAAGCGTAATAGATAAACTATTCATAACGGGAGTAGCACCAATAACCTTAGATAGTTTAACTAGTGGATTCAACATCTCAAAAAATATGTCAACAACCTTAGAATTAAATGAAATGATGGGATTCACTGAAAGTGAAGTCAAAGATATTCTCAAAGAGTATCAAATAAATGATGATATTTTACAAGATATGAAGTTTAGCTACAATGGATACATGTTCAATGAACGTGCAAGTGAAAAGGTTTACAACAGCGATATGGTCTTATACTTCATTTCTGAATACAACAGAGAGAAGAGAAAACCAAAAGATGTAATAGATATGAACATAGCAAGTGATTATAAAAAGATTCAAAATTTATTTAAACTTGGTGAAATCGTTGGAATAAATAATATAGACAATGAAAAAGAAGCAATAGGAAACCTTTTAAATGAAATATTGATGACAGATAAAACAGAAATAGAAGAGTTGACAAGAGCCTTTAACCTTGAAAGAAAAATGAAAGTAGACGATGTTAAAACCTTACTCTTTTATTTAGGCTTTTTAACAATAGAATCAAAAGGATTTGTAATGAACTTAAAAATACCAAACTATTCAATAAAAAAGATATACTCAGAATACTTCTTAGAAATGATAGAAACAAGAGCAAAAAACTATATAGATACAGGAAAGATAAAGATAGCAATAAGAAAGTTGTTAGTAGATGGAAATATAAATTCGTTGGCAAGTGAAATAGAAAATGTATTAAAAAAACTATCAGACAGAGACTTTCAAAGCTTTAGTGAAAAGCACATAAAGATGCTACTGTTTAGTTATTTAATCTTAACCCCCTGGGCATACGTTAAAAGTGAGTATCCAGTAGAAGGAGGATACATAGACTTAGCAATGTTTAAAAGATATGAAGAAGTACCCTACAATGCAATAATAGAATTAAAATACATAAAAAAGAAAGACTATACAGAAAAAGTATATCAAGAAAAGATAAAAGAAGCAGTAAATCAAATAAAAAGATATGAAAAAACTATAAACAAAGAGTTCAATGGACCATTAAAAAAAGTAGTGATGGTTTTTGTTGGCAGAGAGTTAAAGTATCTTGATGAAGTTGATTAAAATATAAAATTTAAAACTATAACAATAAAAATGGTGATTTTAAATCACCATTTTTTATTGTTATTGGATTAATTAGAGAGATGTATATAGAAAGTATAATAAAAATTTCCAAAATTTACTTTTAAAGCATATTTTAATACAGTAGATAATTTTTTTATTATTCACTTTAATTTATATAATTTAACTCTACTTTCTTGGAATTTTATCCCAATTAAATAATTTTCATCTTTAGAAATAATTATTTGATCATATAAACTTTCATAATTATTTATTCGTAACTTTTTAATTAATTTTTTATTTTTTTTATCAAAAACTAAAATATCATAATTATTTTGAATATAAATGTTATTATTACTTACAAAGTAAGATGCACAAAAATTATTTTTTGATTTTAAAAGTTTTGTTTTTAAGGTGTATGTTTTTAAATTAAATATATATAAATTATCTTTAGCTAAAATATAAAATTCATCTTTATAAAAATTTATGTAAGGAAATATATTTAATGAATATACAAAATCATTTATAGTTATTTTCTTTATAAAATTTCCATTTTTTAAGTTGTATATATACAAAAAGGTTTTTGATGGATTCGATGAATAATCGGAAAAAATTATAAAATTTTTATCTGGAGAAACTATAAATCTTGGTATTATATTTAAATTTTTAAATGTTTGTACTTTTTTTTGTGTCAAAGTATTTATTATTGAATAATTATTTAATTCTCTTTTTAATAAATATTTTCCAGTTTTAGACATTATTAAATAATTTCCAGTTTTATATTCAAAAGTTTTTAATAACTTTTTATCTATTGAATATAAATATATTCTTGTTAAATTTTTACTACTATATTCTCTAATATAATAATATTTACCATCAAAACTTATATTAGATAAATAATTAAAGGCTATATTAGACTTTAAATTTTTTAAAAAATCAGATATTTTTTTTGTTTTTAAATCAAATATCTTTAAACCATTTGGCGTTGATAATAGACATTTATTATTATTAATTGATACAATTTCTGTTATAACTTCTGAATTATAAATAATTTCTGGTTTTAATACTTCATTTGATAAACTATTTATGGATATAAATAAAAGCATTATAAGTAAATATTTTTTCATTGTAATTCACCTATAAAACCTATTTTTGCTAAATATATTTTATAATTTAATTCAGCTTTTTCTCTAAGTTTTGTTGAATCCCAAAAAATCCCTGAGTTTTCTTCAATTTCCTTTACTGGTTCTGAATACTTTCCAGTTTTTTCTGTATCATATTCTATATTATTTTTATTTATAGAAAAAGTGTACTCTCTATAATTTGTTTTAAATATTTCTTTCCAGTATCTTGTTTCAATTGTATCAGTATAAGGATTACTTGTTTTTATGATTCCATAATTATTTGCCCATATTATTTTTGCGTAAAAAACAGCGATATCTTTTTTTCTTATAATATAATTATCAGCCCAAGATTTTCCTAAATTTTTTATATGCAAACTATTCAATATTTCATCTATTGTTAAACTTATTCCATAACTTAATAAATTATTTTTCAAAGAAAGAGCGGCGGCATTTTTAGCATTTTCTAAAATAGCATTAAAAAATTTAAATTTTCCTGTTTTATGTTTGTCAGAAATTTTTCCGCCATACTTTCGTTTAATAGTTATTGATATATAACCTTTTGCCTCATTACTCTTTGAAAAAAATAAAAGAATTCCAACTTTATTATAATTCATCAATTTAAAATTATTGTCAAAATATTTAATTTTAATAATTTTACCTGTTTCATCATAAATATCGCTTTTTATTGGTTTGAAATTTAAAGTATAAAAAATTTCTTCGGTAAAATATTTTTCTTTAATGTTAGATTCTTTAATCTCTTTTTTTATATTACTTTTAGTACATGAACTAATTAAAAAAATAATTAAAATTAACATAAGTACTATAAAACTCTTTTTCACTTTTATTTCTCCTCTAATTTATATTTATATTTGTGCACACAAACATTTTAATATTATAATTTTTATTTTAATTATATAAATTAATTAATCAATTCTCTTTAATTACATAAATATTATAGCAAAAAAAAAAAGAAAATCAACTATTTTTAGTGTACTAATTAATATTTTTACCTAAATATAATGTTTTTTTGATTAATTTATATCGTTTATTTTGTTTTTTTATGTTATTAATTTCATATTAACTAATAATATTTGTGAATTTAAATTTTATATTTTTTATAATGTTATTATTAATCATTTTCATTATAAGAGTTTGTGAAATTCTATTAAATATTTATTTTTTATAAATATTATGATTTAATTTTTTATTATTGATAAAATATTAAAAAATTTAGATAAATTTCATTTTAATTATATATACGCATAAAAAAACTCAGCATAGCTGAGTTTTTTTAATTATTATATATAAAAAAGTAATAATGATACTTTATTTCTTTTTTTGAGATTTGTTTTTATTTGTTGATTTGGAGGAAAGTTGTTTAAGTCCTTCAGTTACATTATAATAAAAAGAATTTTTAGTAAATTTTTTGGTTTTAGTTTCTTTTCCAGGTTTAAGTCCTGAAAGAATTTCAACTGCTTCATCAATATGTTTTATTGTCCAAATTTTAAATTTTTCATCTTCTAAGTCTTTCATAAGTTCTTCTTTCAATACTAAATCATTTATGTTTTGATAAGGAATAATTACTCCTTGGTTTCCATTAAAACCTAATATTTTACAAATATCATAAAATCCTTCTATTTTTTGAATTAATCCTCCAACTGGTTGGACTTCACCATTTTGATTCATAGATCCAGTTATTGCGATATTTTGTTTTATTGGAATATTACCAATTGCAGACATTAAAGCTATTGTTTCAGCAAGCGTAGCACTATCTCCATCTATCATGGAATATACTTGTTCAAAATTTAATGATGCTGTAAATCCATTTTCTAAGAAGTTGCTAAATTTTGATTTAAAAAAGTTTTCAAAAATGAATGTTGATTTTTTATGAATTTTTCCACTCATTTCAGTTGCTCTATGGATATCAATTATTCTTTCACCATCAGATTTATAAAATTTTGCAGTTATTTTTACTGGATGACCAAAGGTATAATCTACCGTTTGGATTACAGTTAATCCATTTAATTGTCCTATTTTTTCTCCTTGAACATCGAGTTTGTATATATTATCTTTTATCATTTCAAAAAAATGTTTTTTATGAAATGAAAACATTTTTTCTCGATGCTTTATAGCTTCTTTTATATCTTCTGAATTAGTATAAGGTCTATGATCATATTTTTCTGCAAAGTAAGTTGCTTCTATTATTAAATTTTTAATATCTCCATATTTTAATGAAAACTTTTTATTATTAGAATTTATTCTACATGAATATTTTAATAGTTCTATTACAGCTTTTTTTGTCAAATGTTGTATGTTTTTTTCTTTTACAACTTTTGCAACAAAAGTTGAAAATTTATTTATTGAAAATTCATCAATTTTATTTTCATATTCAAATTGAGCTTTTATTGTAAAAAATTTTTTAAAATCATTATCATATACACTCAACATATCATATATCCATTCTTCACCAATTAATATTATTTTAGAATTAAATGAAAGTGGTTCTGGTTCAAGTGTTTGAATATTAGAATAACCTTCGGCACTTTCAACATTTTCAATTTTTATTTGTTCGAGTAAAAGAGTTCTTTTTATTGCATCCCATACAAATGGCTTTCTTAAAACTTTTTCTGCATCTAGAATTAAATAACCACCATTTGCTTTGTAAAAACTTCCGGATTTAATCATACTAAAATCAGTTTGAAGTGCTCCCATATTTGAATAATATTCAACTCTTCCAATTAAGCTTGAGTATGTAGGACTAAGTTCTTCTACAACAGGAGAACCTTGAAGATAATAGTTATCAATAACTATATTTATACTATATTTTTTTTTGAAGTATTTGATTACATCATCATTATCTGAAGTTATTTCTACAAAATTTATAGATATATCATTTTTTAAAGATTTTAAATAATCTATTATATCTGAATATTTTTCATATTCTTTTTCTATATTTTCAAAAATTTTATTTATACTAAATGAAGCCCAATATTTTTGCATATTTTTTAATTGTTCTCTGTATTTTTTATCTAAAGTTGCAATTTTGTTCATTACATTTTCTATTAATATTCTTAATTTGGGTGAATTTTCTTCAAACTCTTTTTGCTTTTCTTTGGAAAGTTTTTCATATTCTTCTGAACTTATTTTTTTCCCATCAATAATTGGAAGGGATACTATTCCACCATTTGTAAATTCAATAACATAATTTAATTCTTTTGCTTTTTCTTTTAATTCTGTCCATAATTGTTTTCTTTTATCCATATATTCTTTTTCTAATTCTGTCATTTTTTCAAGATATTCATTGCTTTGCATACCATTTTTTAAAGCTTGAAAAGAAGATTCTACTAAAAATTCTAACTTTTTTTTAAATTCTTTTGCTTTTCCATGAGGAAATTTTAGCATTTTAGGCTTTTTGGGGTTTTCAAAGTTATAGGAATAAGCAATATCTGGAGGGATTTTTTCTTTTAAAGATATTTTAGTTAAAAGATTTTTTATCATATCACGTCTTCCTGTTCCAACTGGTCCAACAACAAATATATTACTATTTTTTTCTTTGATTTTAAGTGCCATATTCACAATATCATAAGCGTTTTCTTGTATAACACAATCTTCATATGAATTTATGTCTATTTCTGATGTGTTATCAAAAGAAACATCTGGAATTTTTATTTCTATATCTTCAATACTTAATCTCATAAAAACACCTCCTTTTAGTTTTTATTTGTAAAATATTCTTAATTTAATTATAACATAAAATGTTTTATTTTATAAATTAATATATTTCAAAATATATAAAGAAAATAGTTTAAATGAGTATATTTTTTACTTAAAGTAAGTTATTTTTTTAAATCATATAAAAACTTAGCAAATAAAAGATCTTCATTAGTTGTTATTTTTATATTATTTTTTTCTCCTTCAATAGTGTATACCTCATTTTTATTTGCAAAAAAAATGGAAGCATCATCTGTAAAATCACTTAAATTTTTTTCAAATTTTGTATAAGCTTCAAAAAGTTTTTTGAAGTCAAAAGCTTGAGGTGTTTGATGTTGATATACTTGATTCCTATCCAAAAACTTTTCTATTTTATTTTTAGTACTAAGAGAAATAGTTGAATTTTCTTTTAGAATAGGAATAGCACTATTTTTTTCTTTGGCTTTTGTTATTAATTTTTTGATTAATATATTTGAAATAAATGGTCTTGCAACATCGTGAATTAAAACAATTGAAGGATTTAATTGTTTTAAAATTTTTAGGCCTTTAAAAACACTTTCTTGACGTGTTTTTCCTCCAGGAATGATTTTAAATACTTTTTTAAATTTAATAACTTCTAATTCAGTTTTTTTAAAAAATTTTTTATTGGCTACTATTATTATGTTGTCTATTAATTCTGAATTTTCAAATATACTTGTTGTTATTTCTAAAATACTTTTGTTTTTAATTTTTAAAAATTGTTTAGGTATACTTTTATTCATTCTTGAACCAGATCCTGCAGCTACAATAATAGTACTTATCATTATGGCACGCTCCTTAATAATAGTTGAATTAAATTGACAATTAAATTAATGAATGTTATAATTTAAATATATATTTTAATATAATAAATAAAAAAATTAGAGGCGATTTTTTATGAAAAAATGGATTATATTCGTTTTAATTTTTATGATTTTTTTTTATGTTTTATTTGTTTATTTATATGAAAAAAATTCAATAGATGAAAATAATAAAATGGTAAAACAATATGCAAATACTTTAGAACTTTCATTATGGGCTATTGATGATGAAAGCATAAAAAAAATAGTTGATACAATAATAAGTTCAAAAAAAGTTTCTTACATTAAAATATATGATGAATCAACTAATATAATTTATAAAAAACAAAAAAAAGTAAATAAAATTCCATTTATAACAAGAGAAAAAAATTTTATAACCTCAATAAACCACAATGATGTTTTTTTAGGAAAAATAGAAGTAACCTACATTAATACAAATAATTTAATTTATTTATATGTTTTTTTATTATTGTTATTGTTTTATTTTATTATACACTTAAACTTTAAATTTTTCCAAAATAACTTGAAACTTAAATTTGAAATAAAAAAAAGAATAAAAATTGAAAATGAACTTCAAAAAACATATAAAGATTTAAATATAGCTTATAATAATTTAAAAGTAGCCCAGTCACAATTAATTGAAACTGAAAAAATGGCAGCTTTAGGTAATCTTGTTGCTGGAGTAGCCCATGAAATAAATACACCAGTTGGAATTTCACTTACTGCAGTTAGTTTAATAAAAGAAAAGAGTAAAGAAATAAAAAGTGAATATGCTAGTAATAAAATAAAAAAATCTGAGTTTGAAGAATTTTTGAACATAATAGCAGAATCTTCTTTAATAGCAGAATCTAATTTAAATAAGGCAGCTAAATTAGTAAAAAGTTTTAAAAATGTTGCCGTTGATAGGATGAGTGAAGAAAAGAGAAGATTCAATTTAAAATCTTATATTGAAGATGTTCTTTTAAGTTTACATACAAAGTATAAACATAAAAATATAAAAATTAATATTGATATTGATGATAAAATTTTTATTAATAGTTATCCAGGATTGTTTTCTCAAATTATAACTAATTTTGTTATTAATTCAATATTACATGGATTTGAAAAAAGAAATAGTGGAGTTATTAATATCTTTGCGGAAAGAAAAGGCAATAAATTAAAGCTTATTTATGAAGATAATGGAATTGGAATAAAAAAAGAGAATATGAAGAAAATATTTGAACCATTTTATACTACTAAAAGAGGAAAAGGTGGAAGTGGATTAGGTTTGAATATTGTCTATAATATTGTTACTCAAAAATTTAATGGTAATATTACTTGTGAAAGTAATAATGGAACAAAGTTTATAATTTTTATACCGTTGGGAGCTGAAAAAAATGACTGATTTTTTAAAAATTGAAGATGATATAAAAAACGAGGTTGTAAATACAAATAAGTATTGGAAAGTTTTAATAATAGATGATGATGAAGATGTACATACTATAACTAAAATGGTTTTAAAAGATTTGAAATTTGAAAACAAGAAACTAAAATTTTTAGATGCTTACTCTAATGCAGAAGCAAGAAAAATTCTTTTAGATAATGATGATATAGCTGTAGCATTAATAGATGTTGTTATGGAAAAAGAAAATTCAGGATTAGAATTAATAAAGTTTATTAGAGAAACTTTGAAAAATAAATATATTAGATTATTAATTAGAACGGGGCAACCTGGTGAAGCTCCTGAAGAACGTATTATACAAGAATATGATATAAATGATTATAAAGAAAAAACAGAATTAACTTCAAAAAAACTATATACTACTATGATTGCTTCTATAAGAGCTTATAAAGATATTATGGATATAAATTATAATAAAATAGGATTTGAAAATATTATAAATTCTACAAAATTAATATTTGAAGAGAATAAAATAAATGATTTTATAAAAGTTGTTTTTAAAGAAATGAATAAAATACTTTGTATAAAAGATAAAAATTGTTTTAAAGATAATAATGGTTTTTCAGCAATAAGATTAGACAATAATTATATATTAATTGAAGTTATAGGAGAATTTAAAAGTTATTTAGGGAAACCATATACTTTTATTGAAGATAAAAAAGTTATAGAAGTTTTTGAAAATATGAAAAAGAATTTATATATTTATGAAAATAAAATATTTTTTAAATTAAACTATGAATATAGAGATAGTTTTGTTTTTTATATAGAATATTGTTTTCCACTTAAAGAAATTGATAAAAAATTTATTGAAATGTATTATTCTGAAGTAGTAGCTTTATTTAATAATTTAAATCTTGTTCTTGAAATTGAAGAAACACAAAAAGAAATAATATATACTCTGGGTGAAGTTGTTGAAGGAAGATCAAATGAAACGGGGTATCACGTTAGAAGAGTTGCAGAATATTCAAAAATTTTAGCTTTAGGGTGTGGATTAAGTGAAGAAGAGGCAAATAAAATAAAAATGGCAGCACCTATGCATGATGTAGGAAAGGTTGCGATTCCAGATAAAATCCTTTTAAAACCGGGGAAATTAAATGAAGAAGAGTTTAAAATTATGAAAACACATGCTCAACTTGGTTATGAATTATTGAAAAAAAGTAAAAGGAATATTTTGCAAATTTCAGCAACAATAGCACATGAACATCATGAAAGGTGGGATGGAAGTGGTTATCCTTTAGGTTTAAAAGGAGAAGAGATTAGTATATATGGAAGAATTGTTTCAATAGTAGATGTTTTTGATGCTTTGATTTCAGATAGAGTGTATAGAAAGGCAATGGATTTAGAAACAGCAAAAAAAATAATAAGAGATGGAAGTGGGAAAAATTTTGATCCTAAGTTAGTTGAAATATTTTTTAATAATTTTGATAAAATATTAAAAATAAAGGGGAGTTTTAAAGACTAAGGGGGGGTTAAATGAATGATAATTTAATTTTTTCTGATGAAGATGATTTTCCAAAACTTGAAGAAAAACCATGGAAAATTTTAATAGCAGATGATGATCACTCAATTCATGCAATGACTAAATTAGTGGTTAATGATATCATTTTTGAAAATAAAAAAATACAATGTTTTAGTGCTTATAGTGGAAAAGAAACTTTAGATATTTTAAATAATAATGAAGATATAGCCCTTGTTCTTCTTGATGTTATTATGGAAGAAGAAGATACAGGATTAAAAGTAGTAAAACAAATTAGAGAAAATTTAAAAAATAAAAAAGTAAGAATTATTTTAAGAACTGGACAACCAGGTCAAGCACCAGAAAAAATGGTTGTTTCAAAGTATGATATAAATGATTATAAAACAAAAACAGAGTTAACTGTTCAAAAAATGTATACTACTATAATAGCTGCATTAAGAGCTTATAAAGAACTTGAAATAATAGAAAATAGTAAAAAAGCTTTATGTGGAGTTATAGAAGCTTCAATTAGACTTTTTGAATCAAAATCAATAAAAAATTTTGCATCAGAACTTTTAAAAGAATTATCATATCTTTTAGAAATAAATAAAGGTATTATAATAAATACGTCTGGTATGGTTTTTGAAAACAATGAAGATAATTATGAAATTTTGGCTTGTAGTGGAGAATATGAAAAAAATAATGTGTTAGAAATTAAAAAATTAGAAGATGAAGTAAAAGAAAAAATAAAAATGGCATTAAAAAATAATAAAAGTTATTTTTATGATAACGAATATATTGGATATTTTAAAACAGAAACGGGTAAAATTAATTTAGTTTATTTAAATAGTGAATCAGAATTTTCTGAATTAGATAAAAAGGCAATAGAAATATTTTCTAGAAGCGTTGCAGTTGGATATGACAATATTTATTATAATCAAAAAATTATTAAAGAACAAAAAGAAAAAATAAATAAATTAAATGAATATATAGAAAAAAATATAAAAAAGAGCTTATAAAGCTCTTTTTACTTTTAAATATGATAAATTTAAGGTATAATAGGATTATGAATATATGTTTATATAGTTTTTGGAGGTGTTTTTTATAATGAGAATTGCAGGAATAGACTTAGGAGGTACAGAAATAAAGGCGGGACTTGTTAATGAAAGTGGAATATTAAAGAAAGTAAGTACTTCAACGGAAGTTGAAAAAGGATCAGAAAAAATAGTTGAAAATATAGTTAAAACTATAAAAATGTTGGGTGAAAAAGTAGAAGCAATAGGTATAGGTTCTCCGGGTTCAATAGACAGAAAAAATGGAATTGTAAGATATTCACCAAATTTTCCACAGTGGCATGATTTTGAACTGGGTAAAAAAGTATATGAATTAACTGGTAAAAAAGTTTTTATTGAAAATGATGCTAATGCATTTACTTTAGGGGAATGGTATTATGGAAATGCAAAAGGGTGTAATGATTTTATTTGTTTAACTTTTGGAACAGGTGTTGGAAGTGGTGTTGTAATTAATAAAAAAATGTTATTTGGAAAGGATGGTATAGGAGCAGAGCTTGGTCATATAATAGTTTCATCTGATGGGCCAATGTGTGGTTGTGGAAATAGAGGATGTTTAGAATCATATGCTTCTGCTAAATCAGTTGCAAGAATGGCAAAAGAACTTGTACTTAAACATAATAATTCTTCTTTACTAAATAGAGTAAAAGATATAAACGAAATAGAATCAAAACACGTTTTTGAAGAAGCAAAAAATGGAGACTTTATTTCAAAATATGTTGTGGAGAAAATAACAGACTTAATTGCAAAAGCTATTTCTGGATATATACATATTTTTAATCCTGAAAAAATAATATTAGGTGGAGGTATGAGTAAAGCTGGTAATGAATTATTAAATCCAATTATTGAAAAAACTGATATGTATGTTATGAAAAGTTTTAAAAATACATATAAAATAGAACTTTCTAATTTAGTTGAAGATGCAGGAATATTAGGAGCAGCTTCTTGTGCAATATATGGAATGGAGGAATAATAAGTTGAAAAAAACACTTACAAATTATATGATAACAATGAATATAGTAGTTTTTATATTGATGATTATTTTTGGAGGATTTAGTGCATTATGGGGAACAAGTAGTAGAGCTTTACTATTATTTGGTGCACAGTATGGGCCATTAGTTAGTAATGGCCAATGGTTTAGAACAATAACTTCAATGTTTGTTCATGGTGGATTATTACATATATTTTTTAATATGTATGCTCTTTTTTATTTTGGTAATATAGTTGAAAGTGTTTATGGAAAACATAAATATTTTGCAGTATATATTTTATCAGGTGTTATGGGAAATTTATTGACACAATTAATGATGCCTAATGCTGTATCAGTTGGAGCTTCTGGTGCGATTTTTGGTTTAATTGGACTGCTTTTTGGTTCTGGATTTAGACATGATACTCCAAGAATGTTAAAACCAATGGTAGGTACAGCTCTTTTACCAATAATTATAATAAATATTTTTTTAGGTTTTACAGTATCAAGTATAAATAATTTAGCGCATATAGGAGGTCTTGCTGCAGGATTTACATTTGGTTGGCTTACTCCTGTTACTTTTACAAAAACTTCGATAAAAATATGGAAATATGCATATTATGCTGCTTTGGGATTAATAGTGGCTGCATATTCTCTCTTGATATTTTTTACCATAATTATGTTAATATAAGAAAAGGAGAAGATATTTATGGAAAAACTTTATTATAAGGTTTCTCGTGATCCGATACAATCAGAAATATTTTTATATCCTTTAGAAATTGTGATATCTGATACTCAAGCAATGCAAAGATTAAGGTATTTGAGTCAGCTTGCTGGTGCAGAGTATGTTTATCCAAGTGCTACTCATACGAGATTTTCGCATTCTTTGGGAGTTATGCATTTATCTGGAGTATATTCTCAACATATATATCCAGAAAATCATTCAAAATTTAGAATTCTAAGATTGGCAGGATTACTTCATGATATAGGTCATGGCCCATACTCACATCAATTTGATGATGCAGTTTATAAAAAAATGGGTTATAAAGATGGTCATGACGAATATAGAGAAAAGATATTAAAAACAAAATTAATTGAAGAAATAATAGAAGAGTATAAAAATTTAAATGATCCAAGAACAAAAAATGATTTCTTTAAAGATTTAGCTTTAACTATAAACAAAGAAGTTAATGAAGAAAATCTTAAAGAATCTATTGAACAATTAATAAACATGGTACTTGAAGTATATGAAGGAGAATACACAGGAAGTATAGATTTTAATATAGTTCAAGGACCTTTAGGTGCTGATAGACTTGATTTTGTTTTGAGAGATTCTTATTATGCGGGAACAAGACATTTTGGAACGGGTGCAGTAGATAGATTAATAAGAAACACAGAAATTTTTGAAGATGGAAAAATATGTTATTCAATAAAGGTAATAGATGATATATATTCTTCATTATTTGCAAGATTTATGATGTATAAAAATGTTTATTTTCATAAAACTTCAAGAGCAGCAGATCAAATGCTTCAAGAAATATTAAAATATGCTTATGATATATTACATTTAAAAGAAAGAGTGGAAAATTTAGATACTTTTATTACGCTTACAGATGAAAAAATAATTAATGAAATAGAATTAATTTATGATATATTGTATGGAGAAAATTTGATGTCTTTACCAGTATCTCCAGAATGGGTTGAAAATAGTGAAAAAATTGCAAATGCACACAATCTTATCAATAGATTAAAAAAGAGAGATTTATGGAAGATTATTGTAGAAATTCCATTCTCAATGACAGGTGTTGATCCTTCGGTTGTGAGCGTTTCTGTAGCTCAAAATATTTTAAATAAAATAAAAGAGAATTTACAAAATAAAATGAAAGAAGATATAAAAAAAGAAGACAAAGAAGAAATTACATATATTTTAAATAATTTTGATTATTTGTTTAAAATAGATACACCTTATAAACTTTCAGTAGTACATCCAAGTGAATTTTTAGCAAGTGATGTATTTATTAAAGATACAAATGGAGATATACTTGGATTTGATGAAGTTTATGAAAGATATCCAGCATTAAAACTTCTTGAAAGTAATTTAATACAAATAGTAAGAATATATATAAAAGAAGATAAAAGAGAGTTATTAAAAAAATACAATATAGTACCTCAATTTTCTAATACTAAAACAACAACAAGGTGGTAAATATGGGAAAAGTATATCAAACTTCGGTTTACAATGGAAGAGTTAGATTAGTTGCACTTGATACAACAGATATTGTTAAATATCTACAAAAAATTCATGATCTTTCACCATTATCCTCTGTGGTTTTAGGAAGAGTAGCAACTGCTTCATTACTTTTAGGAAGTTATATGAGTGAAAATGAAAAAGTAACAGTTGTTTTTAATGGTGATGGGCCAGCAGGAAGTGTTGCGGCTGAATCTGGTTCTGATTTTAAGGTAAGAGCTTATATTGATAATAAACATTTAAATACTTTTATTAATGAAAAAGGAAAATTTGATGTAGCAAAAGCTATAGGTAAAGGAATGTTATATGTAACTAGAGATTTAAGGTTACGTGAACCAGTAACTTCAAATATTGAAATTATAAGTGGTGAAATTGCCGAAGATATAGCAATGTATTTAAATCATTCAGAACAAGTTCCATCTGCAGTATCTTTGGGAGTTTTAACGGATAAAGATGGAATAAAGTCAGCGGGTGGTTTTATGTTACAAATACTTGATCAAACATTAGAAGAAGAAAAAATTAAAAAAATAGAAAATATTTTCTTATCTTTACCATCAATTTCAACTTATATAGCTGAAAATAATAAATTAGAGTATTTATTAGATGCTTTTGGTGAAAAAGATTATTTAAATGTATATGAATCAAAATTTGAATGTTCATGTAATAAAGAAATAACTTCTAAAGCTTTATTACATTTGAATGTAGAAGAATTAGAAGAATTAAAAGAAAAAGGACAAGCAGAGGTTACTTGTAATTGGTGTTCAAAAAGATATATCTTTAATAAGGAAGAAATTCAAAAAATAATCTCGGAAAAATTGGAGGGATAAAATGTTAAAAAGTTTAATAGGGAAAAATACTATTCAAGAGTATGTTGGAAAAATAGAAGAAAAAAACAAAGAATTAAATGCAGTTTTAAGAATAGAAAAAGTTACTGGAAACAAAGATGGAAAGTATTATGGAATTCCATTTTTAGTAAAAGATAATATACAAATTGAAGGAACAAAGTTAACTTGTGGATCTAAAATATTAAAAAATTATAATAGCGTTTATACAGCAACTGCTATGAAAAAATTACTTGATGCTGGATTTTCTGTTATAGGAAAAACAAATATGGATGAATTTGCAATGGGAAGTTCAAACGAAAACTCAGCATATGGTCCAGTAAAAAATCCACTTGATACAGAAAAAATTCCAGGAGGAAGTTCAGGAGGATCAGCAGCAGCAGTTGCAGCTGGAATGGCTCCATTTGCTATAGGTACTGATACAGGGGGATCTGTTAGACAACCAGCATCTTTTTGTGAAATTGTTGGATATAAGCCATCATATGGAATGATTTCAAGATATGGTGTTGTAGCTTTTGGATCTTCATTGGATCAAATTGGTGTTCTTTCAACAACAGTAGAAGATGCTGCAACTGTTGTTGAAATAATGAAAGGAAAAGATGAAAAAGATTCAACAACAGTTGAACATAGTACAAACTTAACTTCTTTTTTTGGTGAAGATATTAAAGGTAAAAAAATTGCAGTACCAAAAATTATCTATTCAGAAGGAGTAGATAAAAAAATTCTTGAAGAGTTTGAAAATGCAGTAAATCTTTTAAAAGAAAATGGAGCAATAGTAGAAGAAATAGATATTCCAGAATTAAAATATGCAGTTAGTATTTATTATATAATAGCTCCATCAGAAGCTTCTTCAAATTTATCAAGATTTGATGGAGTTAGATATGGATTGAGAAAAAATGAAAAAGGTTTATCTGATCTTTACAATAAAACAAGAGATGAAGGTTTTGGAATAGAAGTAAAAAGAAGAATATTAATGGGAACATATACACTTTCTTCAGCATATTATGATGCATATTTTTCGAAGGCATCTAAAGTTAGAAAATTAATGTCAGATAAAATAAATAATGTATTAGAAAATTATGATTTAATACTTACTCCAACCTCTCCAACACTTCCGCCAAAAATTGGAGAAGAGTTAACTCCATTAGAATATTATTTAATGGATATTTTTACAATACCAGCAAACTTAGTAGGATTACCAGCAATAAGTGTTCCGTTTAATAAGATTGGAATACAATTTATTGGAAAACGATTAAAGGATGAAGAAATGCTTGCAGTTGCAGATGCATTTGAAAAAAAGGTAGGTGTTCATTAATGTTTAAACCAGTAATAGGCCTTGAAATTCATGCGCAATTAATGACAAAAACAAAAGCGTTTTGTAGTTGTAGCGCTGATCATTTTGAAACTGAACCAAATAAAAATATATGTCCAGTATGTACAGGACACCCTGGAGCGTTACCAGTATTAAATGAAAAAGCAATTGAACTTGCTGTTAGAGCAGGACTTGCAATAAATGGAGAAATTAATTTATATTCAAAATTTGATAGAAAAAATTATTTTTATCCTGATTTAACAAAAGGTTATCAAATAACTCAATACTTTAAACCAATAATTACAAATGGAAAATTAAATGTTATGGGAAAAGATGTAAGAATAAATAGAATTCATATGGAAGAAGATACAGGAAAGATGGTACATTTGGGAGAAGAAATCCATTCTTCTAAAGAAAGTTTGATAGATTATAATAGAGCAGGTGTTCCTTTAATAGAAATAGTTACAGAACCAGATATAGAATCAGCAGAACAGGCAAGAGCCTTTATGGAAAAATTAAGAGATATTTTAAGATATGCTGAAATATCAACAGGAGATATGGAAAAAGGGGCATTGAGATGTGATGCAAATGTTTCAGTAAAAAATCTTGAAACAGGTGAATGGAGTAATAAAGTAGAAGTTAAAAATATAAATTCTTTTAAATTTGTGGAGAAAGCAATTAAATATGAAATTGAAAGAATTACTGAAGAAATGAAAAATGGAAATGAAATTATTCAAGAAACAAGAAGATGGGATTCAGTAAAAAATGCTACTTTTTCAATGAGAAAAAAAGAAGGAGAAGCAGATTATAGATATTTTCCAGAAGCAGATTTACCACCTTTAATAATAACTAAAGAGTTTATAGAAAATGTAAAAAAAACACTACCAGAGCTTCCAGATGAAAAATCAAAAAGATTTGTAAAAGAATATAAAATACCGGAGTATGATGCAGAATTATTATCTTCAAATAAAGAACTTTCGAATTATTATGAAGAATGTGCAAGAAAAGTAAAAGATGGAAAATTCGTATCAAATTGGATAATGACAGAAGTTTTAAGAATTATGAAAGAAAAAAATGATAATATATTTAATTTAAAATTAAAACCAGATCATTATCTTGAATTAAAAACATTAATAGAATCAGGGAAAATATCTACAAAAATTGCAAAAGAAATTTTTCCTGAAATGTATGATACGGGAAAGATGCCATCAGAAATAGTAAAAGAAAAAGGATTAGAACAAATTGATGATGATTCAATGCTTTATGATCTTGTGGAAAAATTGATAAGTGAAAATCCTAAAAATGTAGAAAAATATAAAAGTGGTAAAACAAATATAGCTGGATTTTTTGTTGGCCAAGTAATGAAACAAACTAAAGGAAAGGCAAATCCTGCAAAATTAAATAATATAGTAAAAGAACTTTTAGATAAACAATAAGTTCCGGAAATTCCGGAACTTGTTTTTTTTATCAATAAAAAGAAACATTTTATCAGAAAAAAATTATTTTTTATAAAAAAGTTTTATAATCATAATGAAAAAACTCAGGAGGTGTTGGAATGAAAAAAAATATTGTGATACTTATAATTGTAATTTTAAATGTTTTATCTTTCAGTAATTTTTTAACAGCTGAAGAATATGCAAAAGGTGAAATGTTATTTGAACAGCCATTAGAAGCTATAACTTTGGTTGGAAATATTAGTTTAGATAAAAATTTAAATATAGAAAACTTTAATTATGGTTATGGAGTAAACTTAGGAAATAATGGGTTAATAATGGGTATTTTTTCTAGATACTCTGGAACGCAAACTTTAAATTTGGAATATATAGGTTTTAAAAATTATAATTTTTATATGAATTTTTTATTTAAAGATTGGAAGTATTTTTATGGTTTTGGAAGTAGTTATAATATAGATTTATACAGAAATATGAAACTTAAATTATTATTTCAAGGAAATTATTATGAACAACAAATACAAACATTAAACTTAGGTACATCTTTAAAAATAGGATTTTTAGAATTAATGGTTGGTCAATCTAATATAAATTTAAAAGAAAAAACAGATTTACCATTTAATTTAAAAAAAGAAATAAACTTTGGAATTTCTTTAGATTTTAATCAATTAACTATTTCTGGAGCTGCAAAGTATGATTTTTATATTAACGAATTTAGCAACTACAATATATCTTTTAAAATATATCCATTTAAAAAATTTAAAAATGATTATTATAGCTATAATTTAAAAAGGCAAGAAATAGAATTAGAAAAAGAAAAGGAATTAACTAAAAGAACAGTAGCCGTATTAGGAATAACAGCATTAGTTGGAATAACAGCATTAGTAATGATATTTAAATAAAGTATTTTGCAAATGCAAAATACTTTATTTTTATGGTAAAATATAATTATTAAAAAATTTTTTAAATAAAGGGAGGAAAAAATGACAAGTTATAAAATTACAAAAATCACAAATAAATTTTCTTTTGGGAATCCATTTAATACTAATGCTGTAATAAATAATTACTTAAATTTAAAAAAGATAAAAAAAAATATGCCTTTTTTTGAAGTTAAAAATGAAAACGATACCATAAAATTAACTTATAAAATGAATAATAAAGATAAAATTTATGGTCTTGGTGAAATGATGGGAGGATTAAATAAAAGAGGAAAAAAGTATAAAACTTATTCAAATGATGTTCCAATTCATACACCAGATTTAGAGAATTTGTATGGAAATCATCCTTTTTTAATAGTAGATGGAGTAGAAACTTTTGGTTTTTTTATAGATTTTCCTGGGAAAATAGAATTTGATATAGGATTTGAAAAGTATGATACTTTAGAAATAAAATTAAAAAATAACTTTGATATTTATATTTTTGAAGGCAAAAAAGATGAAATTATAAAAGAATATTTAAAGTTAACGGGAAGTCCTATGAGTTTACCAAAATGGGCATTTGGATATCAACAAAGTAGATGGAGTTATCCTGATAAAAAATCTATAAAAGAAATTGCAAAAAAATTTAGAGAATATAAAATTCCATGTGATGCAATATACATGGATATAGACTATATGAAAGATTATAAAATCTTTACAATAGACAAAGAAAAATTCACAAATTTTGAAAAATTTGTGAATGAAATGAAAAATGAAGGTTTTAAATTAGTTCCAATAATTGATCCTGGAGTTAAAATAGAAAAAAATTATGAAGTTTATGAAGAAGGAATAAAAAACAATTATTTTTGTAAAGATGAAAAAGGAAATGATTTTACTGCAGCTGTTTGGCCAGGACTTACTCATTTTCCAGATTTTTTAAATGAAAAGGTTAGAAAATGGTGGGGAGATTTATATAAAAATTTTAATGATATGGGAATAAGAGCATATTGGAATGATATGAATGAACCTGCTATTTTTTATACACCAGAAAGATTAAAAGAAGCATTTGAAGTTGTTAAAAATGTAAAAAATAATGATAATTTGGGAATAGATGTATTCAAAGCAAAAGATTCATTTGTAAATATGCCAAATAATATAAAAGATTATAAGAGTTTTTATCATAATGTTGATGGTGAAAATATTCTTCATGATGAAGTTCATAATTTGTATGGATTTAATATGGCAAGAGCAACTGCCGAAGGATTAAAAAGATTAGATAATAATAAAAGATATTTTTTACTATCAAGAAGTAGTTATTCAGGTCAGCAAAGATTTTCTGCAATTTGGATGGGAGATAACATGTCTTGGTGGGAACATATGCTATATCATATTAGAATGATGTTGAATTTAAACATTACCGGCTTTTTTTATACAGGTGCAGATATAGGTGGTTTTGGTGGAAACACTTCAGAAGATTTGGTTATAAGATGGATGCAATTGGGAGCTTTTACACCACTTTTTAGAAATCATTCTGCTTTTGGAACAAGACATCAAGAACCATGGGAATTTAGTGAGAAAGCTAGAAATATTATGAAAGATATAATTGAATTGAGATATGCTTTTATTCCATATTCATATTCTGAATATATGATGTCAATAGAAAAATTAAAACCTTTTATTTCTCCGATGTTTTTAAAGTATGAAGAAGAAAGAATAAAAGAAATAGAAGATCAATATATGTATGGAGAATCTTTAATGATTGCTCCAATCATTACTCAAAATGCTACTGGAAGATATGTACATTTACCTGAAAACAAATGGCTCTTTTGGAATGCTTCAAAATATAATGAAAGAAAGTTAAAAGTTTATAATCCTGGTGATTACTATGTAAAAGCAGATCTTTTTGAAATACCTTTATTTATAAAAGAAAATTCGATTATTGTTTTAACCAAACCACAAAATTATATTGGAGAAAAAGAAATTGAAAAATTAAATGTAATAGCTTTTGTTACCGAAAAATCAGAATATACATATTATGAAGATGATGGTGAAACATATAATTATAAAGATGGAGATTATGCAAAATTAAAAATTGAAATAGCAAAAGATAATACTGAGTATAAAATAGTAATTGAGAAAGATGAAAGTGAAGATTATAAGTTAAAAATAAAAGAATTAAACTTTGAAATATACGATAAGATTGGAAATGTTTTTACTAAAAAAATGGAGATATAAAAAACACAGATATTTATCTGTGTTTTTTTAAGTTAAAGAAAAAATCCATTATAAATCCAATTATAAAAGAATAAATTAAGATAAAAAAATTTAATAATAAAACAAATTTAGCTCCTAAAATACCTAAAGCAAAAGGTAGCCATTGAATTTTTATAGCCCAAGATCCAATAGTTGTTGCTATAACTCCAACACTAGCTCCTTTATCAATTAATTCTTTAAAAAATGGATAAAAAGCATAAGTTGGACCTACCATAAACATTCCAAAAAATGCGCCTAAAGATTTACCTTTTATACCACTTTCTTTTCCAATTATTTTGGCAATAGTTTTTTTAGGAATTATTTCAGAAATAAATCCTGTAAGAAAAGCAACAGAAATTATTATTGGAAAAAGAGTGAAAAACATTTTTAATGCATACATTATTCCAGATAAAGCCTTATTTGGATTTAGTATCATTAAAATAATTGCAATAATTAAAATTATAAATTCTATAAAAAAATTTTTTATTATATTATTAGATTTATTTGAATTTTCTTTCATAGTAATCCCTCCATTACAAGAGCAATGAAAAATATTGCAATCAAAGCAAAAAAATTTCTTAAAAGAGTAAATTTTTTACCTAAATACTTAAATTCTAAAGATAAAGAAATTATTCCAAGCATTACCCAAGATAATAAAAATGCTGAAACTAAAGAAATTGTAGCATTATTTTCTAATAAGTACTGTCCAATTGGATAACCAGTAGCGGGTGGACCCATCATAAGTGCACCAGTTATTATACCAGAAAAAATTCCCTTTATGTTAGAAAAATTAAGTAGAAAATTTCCAACAGATTCTTTAGAAAGAAAACTTTGTAAAATTCCCAAAATTAAAAAAACTGAAAAGATACGAATAGAATTTTGAATTAAATTTTTAGATCCTTTTTTTGCAGCTTTTTTAATTTTTATAGGATCTTTTTTAAAAAAAATAAGGTACAGAATTAAAACTAAGGCAAAAAATATTAATCCAATAACAAAATTTTGCATAAAAATCCTCCTTATAAAAAATTTAAAATACTATAACATATTATATCATAAAATTATATATATAATAATTTAAAATAAGTTTTTATAGATATGAATTTATTTATATTATATACAATAATTAAAAAAAAACAAAGAAAAAAAGGATATAAAGCGAATAAATAAATAGAAAAATAATGGATTAACACGACGTTGAAAAAAGGTTAAAAGAAATGTAATTGACAAAAAGAAGAGAAAGTGATAGAATGATTAAGTCGCTGAGGGAAAAGCAAGCGAAGGAGAAACAAGCTCATTGAAAAATGGATAGAGGTAGTAAATAAAACTTTTCGAAAGAAAAGACGCTAGTAAGAAAAAACTAGAGTGAGAATCAAACCATTCGAATGGAGGGTTTGATCCTGGCTCAGGGTGAACGCTGGCGGCACGCCTAACACATGCAAGTCGAACGAAGAAATCCACTTCGGTGGAGAGTATTAGTGGCGAACGGGTGAGTAACGCGTAGGAATCAACCCTTTGGACTGGGATAGCTATGGGAAACTGTAGGTAAAACCGGATAAGCTCGAGAGAGGAAAGGAAGAGAAGCGCCAAAGGACGAGCCTGCGTCCCATCAGGTAGTTGGTGAAGTAAAAGATCACCAAGCCGACGACGGGTAGCCGGTGTGAGAGCACGAACGGCCACAAGGGAACTGAGAGACGGACCCTACTCCTACGGGAGGCAGCAGTGGGGAATTTTGGACAATGGACGGAAGTCTGATCCAGCGATGCCGCGTGAAGGAAGAAGTCCTTCGGGATGTAAACTTCTGAATTTACAGAATATAAAGTACTGGGGACAGTACAAGGAAGGTATGTAAAGAAAAGCCCCGGCTAACTACGTGCCAGCAGCCGCGGTAAGACGTAGGGGGCGAGCGTTGCCCGGAATCACTGGGCGTAAAGGGAACGTAGGCGGTTATGTAAGTCAGGTGTGAAATGTCACTGCTCAACGGTGGAACAGCGCTTGAAACTGTATAACTTGAGGATACTAGAGGAAGACGGAATTACCAGAGTAGGGGTGAAATCCGTAGATATTGGTAAGAAGGCCAGTGGAGAAGTCGGTTTTCTGGAGTAATCCTGACGCTGAGGTTCGAAAGCTAGGGGAGCGAACCGGATTAGATACCCGGGTAGTCCTAGCCGTAAACGATGTTCACTAGGTGTGGGATGTCAAAGTTCCGTGCTGAAGCAAACGCGATAAGTGAACCGCCTGGGGAGTACGTCCGCAAGGATGAAACTCAAAGGAATTGACGGGGACCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCTAACCGAAGAACCTTACCAGGAATTGACATGGAGATAAGGTAGTAGAGATACTACTAACTTTCGCAAGAAAGGAGTCTCACACAGGTGGTGCACGGCCGTCGTCAGCTCGTGCCGTGAGGTGTTGGGTTAAGTCCCGCAACGAGCGCAACCCCTGCCATTAGTTGCCAGCATGTGAAGATGGGCTACTCTAATGGGACAGCCGTCGACGAGACGGAGGAAGGAGGGGATGACGTCAGGTAAGCGTGCCCCTTATGTTCTGGGCGACACACGTGCTACAATGGTACGGACAGAGGGAAGCGAAGCTGAGAAGTGGAGCAAATCTCACAAACTGTACCTCAATTCGGATTGCAGGCTGAAACCCGCCTGCATGAAACCGGAATCGCTAGTAATCGCAGGTCAGCCAAACTGCGGTGAATACGTTCTCGGGTCTTGTACACACCGCCCGTCACGCCACCCGAGTTGGAAACGCCCGAAGATGGATGCTGTAACCGCAAGGAACGGATGCATCGAGGGTGGAGCTAGTGAGGGGGGCGAAGTCGTAACAAGGTAGGTGTACCGGAAGGTGCGCCTGGATCACCTCCTTTCTAAGGAGAACAACTACCTCTATCCATTATTGAGTGAGCAAAAGAACGGGGTGGTAGCTCAGTTGGGAGAGCATCTGCTTTGCAAGCAGAAGGCCAGGGGTTCGAGCCCCCTTCACTCCACCAAAGAAATCATTCAGAAAAGTTCATTGACAAGTGCATAAGAAAGAAAGTCCAAAGTAAAAAGGGCATACAGGGGATGCCTAGGCGACCAGAGGCGAAGAAGGACGTGGCAAGCTGCGAAAAGCTACGGGGAGAAGCAAGCAATCGAAGAACCGTAGATATCCGAATGGGGAAACCCGGAAGAGCCCGAAAGGGAGGCGAACCCAGCGAAGTGAAACATCATAGTAGCTGGAGGAAAAGAAATCAAAGAGATTCCCTGAGTAGTGGCGAGCGAAAAGGGAAGAGCCCAAACCAAATTGATGTAAAAGGGTACAGCCGTTGTCAATTTGGGGTAGAGGGACAGCTTAACTCGAACTGTAAATAGAGGGAATAGGTAAAGAGGAAGTCGAAGTATATGGGAAGATAAACCAAAGAAGGTGAAAGTCCTGTAGACGAAAACTCGTAAACTAATCGAAGCTGATCCCAAGTAGCGTGGGACACGAGGAATCCTGCGTGAATCAGGGGAGACCACTCTCCAAGGCTAAATACTCCTGGTCGACCGATAGCGAATAGTACCGTGAGGGAAAGGTGAAAAGGACCCCGTGAGGGGAGTGAAAGAGAACCTGAAACTGTATGCCTACAGGAAACGGGAGCGGAAGTGACCGTGTGCCTTTTGATTAATGTGCCCGCGAGTTATCGTATATGGCGAGGTTAAGTCGAAAGAGACGAAGCCGAAGGGAAACCGAGTTTTAAAAGAGCGAAAGTCAAATGCGATAGACCCGAAGCCCAGTGATCTATCCATGTGCAGGTTGAAAGTTAGGTAAAACTAAGTGGAGGACCGAACCGGTAGGTAGTGAAAAATCTTCGGATGACATGTGGATAGCAGTGAAAAGCTAATCGAACTGGGTGATAGCTGGTTCTCTCCGAAACGTGTGTAGGCACGGCCTCGACAAAGAAAGTATTGGGGGTAGAGCACTGATTGACGTATGGGGGCGACCTCAGAAATCAGTCAAACTCCGAATACCAATACTGAATAGTCGGGAGACAGACTACGGGGGATAAGCTCCGTGGTCGAAAGGGAAACAGCCCAGACCGCCAGCTAAGGTTCCGAAGAAATGGCTAAGTGTGAAAGGTAGTGAAGTTCTGAAGACAGCCAGGAGGTTGGCTTAGAAGCAGCCACCCTTTAAAGAGTGCGTAACAGCTCACTGGTTGAAGAACAATGCGCCGAAAATGTAACGGAGCTAAAGCCATACACCGAAGCTGCGGAATTGGAGTAATCCAATTGGTAGGAGAGCATTGTGTAGTAGGGAGAAGGTAAACTGGAAGGTTTGCTGGACGAGACACAAGAGCGGATGCGGGCATGAGTAGCGAAATGAATGTGAGAATCATTCACCCCGAAAGTCTAAGGGTACCTGGGGAAGGGTCGTCCACCCAGGGTAAGTCGGAGCCTAAGGTGAACCCGAAAGGGGTAATCGATGGGAAACAGGTAAAGAGTCCTGTACCAGTATGAACGAGATATAAGGGGGGACGCAGGAGGTGAATCGCCGAGACCAAGTTGCAAGGTCTTCTAAGCAGTAAAGCCGAAGAAACGAGTAGGGAAAACCGCTTGTGGAGGAAAAGCTGTGAAGGGAAGGACGTAAGTCTAACGGGGAGGAGTCACACTGCCAAGAAAAGCCTCGTATATCGCTTGAGAGAAATACTGACCGTTCCGTAAACCGACACAGGTAGACGGGTTGAGAAAACTAAGGGGAGCGGAATAACCTCTGTTAAGGAACTAGGCAAAATAGCCCCGTAACTTCGGGAGAAGGGGTGCTCTTGATGGTGTTGCAAAATGCGATTGAGAGTCGAAGTGGAAAGTCCCAGGCGACTGTTTACCAAAAACACAGGTCTATGCGAACACAAAAAGTGGAAGTATATGGACTGACGCCTGCCCAGTGCCGGAAGGTTAAGTGGAGTGGTGAGAGCTACGAAACGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCATGAATGGCGTAACGATCTGGGAGCTGTCTCAACAGAGGATCCGGCGAAATTACAGAGTGGGTGAAGATGCCCACAACCCGCAGTTAGACGGAAAGACCCCATGGAGTTTTACTGTAGCCTGACGTTGTAAATGGTTATAATGTGTACAGGATAGGTGGGAGGCGAAGAAGGGAGATCGCAAGGTTTTCTAGAGCCGACGTTGGGATACCACCCTCATTATAATGATTTACTAACGGTGGAATGTGAAGAGCATGAGCCGGACAGCGTTAGGTGGGCAGTTTGACTGGGGCGGTTGCCTCCTAAAGAGTAACGGAGGCGTACGAAGGTCGGCTCAGGTGGGTTGGAAATCCACCGGTGAGTGCAAGGGCAAAAGCCGGCTTGACTGCGAGACTGACAGGTCGAGCAGAATGGAAACATGGTCCTAGTGACCCGGCCGAGGCGAGTGGAAGCGCGGTCGATCAACGGATAAAAGTTACCCTGGGGATAACAGGCTAATGACGCTCGAGAGTTCATATCGACGGCGTTGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGGGCTGAAGTCGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGTGAGCTGGGTTCAGAACGTCGTAAGACAGTTCGGTCCCTATCTGCTGCGGGCGTAGGAAGCTTGAGGAGGGTTGCTCTTAGTACGAGAGGACCGGAGTGAGTGTACCGCTGGTGAATCAGCTGTCAGGCAAATGGCAGGAGCTGAGTAGCTAAGTACATGACCGATAACCGCTGAAAGCATCTAAGCGGGAAACGGGCTCCAAGATAAGGCTTCCCGCTCATTTATGAGGTAAGGGTAGTTCGAGACTAGAACATAGATAGGCCACAGATGTAAGTGCAGTGATGTATTGAGTCGAGTGGTACTAATAACCCGAGGCTTTGGACAAACTTTCTTATGCACTAGTGAGTGAATAATTTGGGACGAGGATAAGGTAAGGGGAACCACCCAGATCCATTCCGAACCTGGCCGTTAAGCCTTTATCTGCCGATGGTAGTACACTTCGTGTGTGCAAGAGTAGGTTTTTGTCCCGCCACTTTTCTTTGAGTCAACCTTTTCGGTTGACTCTTTTCTTTTTTAAAAAAAGAAATTATTATATATTTAACAAAAAATAAAGAAGCGGCTAAGCCGCTTCTATTTTATAAAGTTTTGTATATTATTTATTATTTTTTGACTTAATATTTTTCAAATATATTATTAAAATCAAAAGTGTTGAAAGTGCAAAAATTATTGCCCAATAGTTTATTGCTATAAATGCATAAAGATATAACCATAAAAATGCACCAACTCTATCTATAAAATTAAAATCAGGTGAATTTAATTTGTGTACATCATAAGTTACATCATTGTTTTTTACTGTAACCTTTATATAATGGTAAAAATCATGATTTTTGTTACTGCCAACAAGTTCTGCACCACCACCACCTGTAACTATATAAGGTATTCCTTCAAAATTACCTTTATAATATCCATGAATATGTCCAAAAAATATTTTATCTATTTTATATGATTTTAATATACTCATTAATTTTTTTGCATTGTTTAGATTTTTCATTGAATGACCAGGTTGGTTTTCCATTTTTACTCTTGGATCAAATATTGGTACGTGCATAAATATAAAAGTATGATCAAATTTTTTTGATTCATTTAATTTTTTTATTAACCACTTCATTTGCCACAAATCAATATTTTCTTCATTTGAATTATTTAAAACAATAAAATATGAATTTTTTGTATTAAATGAATAATATAATGGTCCAAACAACATGTTATATTTATCAGTACCACCATCGGCTACATCATGATTTCCACATACTGGTAAAAAAGGTTTGTTTAAAGTTTTTATTTGTTTTATAAAAAAACTATATTTTATTGGATTTCCATCAAAAACCATATCTCCCGTATTTATTATAAATTTTATTGAATCATCATTATTTACATCTTTTATTATTTTACTGAATGTAGAGATTGAATTTTTATTGTCTCCCATAACAACAAAAGAAAAATCATCTGTTGTTGTCGAATTGTTTATTTTTTGTACACTGTTATAAATTATATTTTCATCTTGATCATTTATAAATGGATATATAATTTTAATTAATGAAACTAATGAGATTATTAATACAAAAATTATTAATAATTTTTCAGTAAATTTTTTCATTTTATTTATCACCTTTCATTTTAATATACATTATGACCTAATGAAGTTGTATAAATTTTAAACCATTGTTCTTTTGTTAATTTTATATTTAATGAATCAATTGCAATTTTTAATCTTTCTACTTTTCCACTTCCTATTATTGGTAAAATACCTGCTGGATGATTTAAAATCCAAGCATATATAACTTTGTCAATAGAATTTAAGTTTAATTCTTTTGCTACTTCATTTAATACATTATTCAATTTTTTACTTTTTTCATCATTGGGTTTAAATAATAATCCTCCAGCATTAGGAGACCATGCCATTGGATTTACCCTTTTTTTCATTAAAAAATTAATTTCATCATTTTTAAAGTTTGAAAGATTGTATGGTGATACTTCAATTTGATTTGTAATTAATGGAAAGTTTAATCTTGATTCGATCATTTTAAATTGTTGTGATGTGAAATTTGAAACACCAAAGTGTAGTACTTTTCCATCACGTTTTAATTCATTAAATGCTTCTGCAACTTTATTAGGATTCATTAAAGGATCAGGACGATGTATTAATAATAAATCTATATAGTCTGTGTTTAAGTTTTTTAATGATGTTTCTACAGATTTTATTATGTGTTCTTTACTTGTATCATAGTACTTTATGTGATTTTTTTTTGAAAGGACAATGCCACATTTTGTAATTATCTGTATTCTTCTTCTCAAATCTTTTTTATCTTTTAAAACTTCTCCAAAGATTTTTTCACAAGTATAATTTCCATATATATCAGCATGATCAAAGGTTGTTACTCCAATATCGATATCTTTTTCAATTAATTTTAAAAGTTCTTTTTTTGTATAGTTCCATGTGTTCAAACGCATCATTCCATGTACTATTTTAGATAGTATTAATCCACTGTTTGAAAGATTAATTTCATTTGTATTCATTTTTTATCCCCCTTTTTATAATTGTTAGAAAAGAATTTTTAAATTTAATATCATCTTCTTTTGTTCTTTTTGAAGGACCTTTTATATTTTTTCCACTTCTTCTACTTTTTGCCCCAAGATATCTACTCATTAAAAATGAATCAATATTAAATTCGTTAAATATAATTCCACTAAAACTAATAGGAATAGTTTTTTTTGATAATGCTAATGAAGCTAATCCATAATCATTTGTAATAACTATATCTTTTTCTTTTGATGAATTAATTAAAACTAAGTCAACAGAATCTCTACCTGGAGCTACCTTTATTATTTTAGCATAATCAATATTTATATTATGATCAGTACTTGCAAAAATTATAACTTCAATATTATATTTTTTAGCAATTTCTATTATTATATTTTTTACTGGACATGCATCACCATCGACTAAAATTCTCATACTTTAAAAACCTTTGCATATATTAAAGTTGATTGTTCATATTTTTCTATTATTATTTTTCCATCAAAGTCAGTTATTTCTAAAGTATTTTCTGAATTTAGTGTATATTTTTTGTTTTCTATATAAAAATCAAACCTTCCATTTTTTGAATAAAAAATATATGTATTTTTTTTTTCTAATTTTTTAGAAATACTTTTGTTTTTAAAAATAATTTTTTTTATATCTCCATCAAAATTTTTAGAAAGCATTAAATTAAAATCAGTTACTTTTCCAAAACTTTTTGTTTCCCAATCTCCCATAAAAGAATCTTTTTCATATTGAGATAAAATTTTTTCATAATGATTTTCATGAATTAATTTTATTTTTCCTTCTAAAATCATCAATATTCTTTTTATTTTTAATAACTTTGTAAAATTAGATTTTTCTGTTTCAACTGTAGCTGTACTAACTCTCCATAAAAAATTTCTTTTCTCATAAATTGAATTTTCTGGATAGATTTTTAATTCTGTTGTTTTTCCACCAGACCATTTGGATATTTTTAATTTATTTTTTTCAGTAAGTTTTATCATTATTACCTCCTTAATCTTATTACTATTATACATCAATAAATCCATAATTAAAAAATAAATAAACGGGAGCATTGCTCCCGTTTAACACACAACATCACACAGAGGTAAAAAAAACTCCTGAATTCAGATACTCCGAAAACAGGATTTTTTAATTAATTTAAAAAATTTGTTCACTTTCTATTCCCGGAGAAAGTAAAAACTTATTTTTTAGGCAGTTCTCCTGACTTATAGTTCTTCCTACTAATCATACCTTCCCAGAAAAATTCCAGTGGTTTTTAATGATTTTCGTCGCTATTTACAGTGGCCGGACCGTTTTGGATTTACACCAAATTTTCTTTTAAGTCTTACGACACCTAAAAAATTTTATATTAACTTTTAACTTATTCTAACAAAAAAAATCGTTATTGTCAATTCAAATATTCAATAGTTTTTTAATTATTTTTGGGTATATTTTGTGTTCTATTATGTGTATTTGAGTTTCAAGGGCATCAATGTTTTTTGTATAATCTATTTTTATTATTTCTTGTTCTATAATCTTTCCTGTATCCATACCTTCATCAACATAATGTATAGTTACCCCTGTATATTTTACTCCATAATTGTAAGCTTTTTCAATAGAATGTGTCCCTGGAAAAGCTGGTAATAATGATGGGTGTATATTTACTATTTTATTCTTATAATAATTTACTATTTCTGGAGGTAATATTTTCATGTATCCTGCTAATACTATCAAATCAAATTTTAAGTTTTTTAATTTTTCAAATAATTTTTTGTTGTATATTATTTTATTTTTTTCAGATATTATTGTATAAGGTACTTTTAATTTTTTTGCTCTTTCAATTACATAAGCATTTTTTTTATTGCATATTAAATGAGTAATATTTATATTTTCGTTTTTTAAGGCTTCAAAATTAGATCCATTTCCTGAGGCTAATACAATTATTTTTTTCATCTTATTATTTCTACTCCAATACTTCCTTTTTCAACTTTACCTAATATTATGGGATCCTCGCCCATATTTTTTAATTCATCTAAAACTATTTTTTCATTTTCTTTTGAAACGGCATAAATAATAGTAATTCCCATATTGAATGTTTTTAACATATCATCTATATTTACTCCAGCTTCTCTTATTTCATCAAATATTTCTGGTAAGTTCCAATTCATATTTATTTTGGCAGTTAATCCTTCAGGTATTATTCTAATTAAATTTCCTTCTATTCCTCCACCAGTTATGTGTGCTGCAGCATGTATATAATTTTTAATTTTTAAAGTTTGTTTTACTATTAATTTAGTTGGAGCTATTATTTTTTTAGAATATTTTAATTTTTTTTCTTCTAATAGTTTTCTTACAAGTGAAAATCCATTTGAATGTACTCCATTTGATTTTATTGCAATTAAAATATCATTTTCTTTAACTTTTTCTTTTGATAGTATTTCGTTTTTTTCTACTATTCCAACAACAAATCCATCAACGTCAACCTTTCCTTTTGAAAATATTCCAGGTAATTCTGCTGTTTCACCACCTATTAATTGACAGTCTAATTTTTTTAGTTCTTTTGAAAGTTCTTTAACAAAGTTTGATGCGTCAATTGGGTTTAATTTGCCTGTTGCATAATAGTCCATAAAAAATAATGGTTTTGCTCCCATACATACTAAATCATTTAAATTCATGGCTATTAAATCTATAGCTGCTGTATTCCATTGTTTTTCTTCTTCTAATAACATCATTTTTGTACCAACACCATCTGTAGAAGATACTAAAACTGGTTCATTATAATCTTTTAAGTATTTATATATAGGGAATGTTCCTCCATATAAGCCTTTGTTTTCTCCAAGTTCTTCGCTTATATTTTCTAACATTTTATCAGCATTATCTATATTAACTCCACTTTTTTTATAATCCATTATTTACCTCCAAAGCAAAAGAAACAATAATTTTTATATTCTGATCCAAGAATTTCTTTTACACCATTCAATGAAACATATCCAAGAGAATCGGCATGAATTTCACTTTTTATATCTTCTATATTTTTTTGTGCTATCAAATCTTTTTTATTGGGTATATCTACTCCCCAACTACATGTATCTTTTACAGCAGGACTTGCAATTCTAACATGTACTTCATTAGCACCAGCTTCTTTTAACATATCTACAATTCTTTTCATGGTAGTTCCTCTTACTATTGAATCATCTATTAATACAATTCTTTTATTTTTTATAACTTGAATTATTGGAGATAATTTTCTTCTTACTCCTATTTCTCTATTGGTTTGTCCAGGGTTTATAAAGGTTCTTCCAATATATCTGTTTTTCATTAATCCTAATTCTATTGGTATTCCAGATATCTTTGAATAACCCAATGCTCCAGAAAAACCGCTCTCCATAACTGGAACAACTATATCTGCATCAACTGGATTTTCAATTGCACATTGTTGACCGAGTCTTTCACGCATTAAATGAACATTTCTTCCAAATACATTTGAATCGGGTCTTGCAAAATAAACATGTTCAAAAAAGCAATGTTTATATTCATTTGTTTCATGTTGTATGCTTTTTACTTCATATTTTGAAATTTCAACTGCTTCTCCTGGTTTTATTTCACGAATTTTTTTATAATTGGGGTTTAAAAACTTGAAACCACAATCTTCTGATGAAATATAATGACCATATTCATCTTCATAAATAGAAAGAGGTCTATAGCCTTTTTTATCACGTATAGCTATTATTCTATCTTCAAATAAAATTAATAATGAATATGATGGTTTAATATTTTCAAATATTATTGAGGATATTTCTTCAAGAGTCCATTTGTGTGGTGGAGTTTTTAACTTACCAACCAAAATATGCAAAATTAATTCAGTATCTGAACCTGTCATAAATATTGTTCCATTTTTTTCCAACTCTCTTTTCACTTTTTCAGCATTTTCAATTTGACCATTATGAGCTATTGAAAAGTACTCATTTTTATATTTTATTAGAAAAGGCTGAGCATTGTCAGCAGAAGAACCACCTTTTGTTGAGTATCTAACATGACCTATTCCAAGTGTTCCAGTTATTTCGTTCAATACTTTATCATTGAAAACTTGTGAAACAGTTCCAGATTTTTTATATAATTCTATTTTTTTAAAATTTGAACAGGCTATTCCAGCTGCTTCTTGCCCTCTATGTTGAAGAGCAATTAATCCTTCAACAATATAAGGAGATACATTAGCTTCATTTTTTAAAAAAACACCAAAAACTCCACATTCTTCCATTAACATAACTTAATCCTCCATTATTTTTTGAAGGGTATTGTAGTAACTATCTTTTAATTCATTCAAATGTATACTGCCAAAACCAGCATTGTATCCGTATTCAAAAGGCATTACTGTACCCAATTCAGTAAATTCCATTTTCATTTCAGTAACTAATTCTTCAAAAAGATTTGTTTTTTCTGCTGGAACAGAAACGATGAATCTTGATTGATTTTCACCAAAATATTCTTCTATTGATTCTCCAATTTTACCATTAAAACCTAAGTTACCAGTAATACAAGATTCAGCAATTGCCACTGCTAATCCACCATCTGAAACATCGTGAACCATATTAACTAAGTTTTTATCTATTAAATTCAAAATAACTTTATGAAGTCCAAGTTCAAATAAAGTTCTTACTCTATCTATAGTACCTCCAATGAACCCATTCATTTTTAAATATAAACTTCCGCCAATGAATTCTTTATTCATAATTGTTTTACCAACTAAATATACTTTATCTGAAGGAAATTTAAAGTCCATAGTCATTGTTTTCTTTAAATCAGATACTTCTCCAACCATTCCTATTACAGGTGTTGGATATATTGCTTCTGTTTCTGATTCATTATAAAAACTAACATTACCTCCAGTTACAGGAGTTTCTAATTCTCTACATGCAGATCCAATTCCTTTTATAGATTGTTCAAATTGCCAACGCACAGTTGAATTTTCAGGATTTCCAAAGTTCATATTATCTGTAATTCCTAATGGTTTTGCACCAACAGCAATTAGATTTCTTGCTGCTTCATATACTATATTTCTACTTCCTTCATATGGATCTAAAAATGTATAAAGTCCATTTCCATCTATTGTAACAGCAATTCCCTTATGATTCCCTTTTATCCATAAAACAGAAGCATCAGCTTTACCAGGGGTAATTACCGTATTTGTTCCAACTTTGTAATCATATTGTTCAAAAACCCATTTTTTATTTGTTATATTTGGATGTTTTAATAAATCTAATAATATTCTTCTTGAATTTGTTGTTATTTCAGGATATTTTCTGGCTCTATGAACATAAAAATATCCAGGAACTTCACTTTTTACATACAATTGTGGTGCATTTACCAATAGTTTTATTGGAACATTACAAAGTTCTTTTTCATTCATATATAATTTCATCTTTTTTTCATAAGTTGTTTTTCCAACAATAGCAAAATCTAAAAAGTATTTTTTAGCAATTCTTTCTACTTCTGCTTCCCATCCAGGTTCTATTAAGAACAACATTCTTTCTTGAGATTCAGATAACATTATTTCCCAAGGCTGCATATTTTCTTCTCTAACAGGTACATTTTCAAGGTTTAAAATACAACCTAAGTTACCTTTATCTGCCATTTCAGATGAAGAACTTAAAAAACCAGCTGCTCCCATATCTTGACAAGCAAGTACTCCTTGTAAAGCTGCTATTTCAAGCGTTGCTTCTATTAAATTTTTTTCAGAAAATGGATCTCCAACTTGAACAGAAGATCTTTCATCTTCTCCAGAAAGTTCTTTTGAGGCAAATGAAGCACCATGTATTCCATCTCTACCTGTTTTAGAACCAACGTATGCAAATAATTTATTATGTTGAGCAGATTTTGAAGAGGTTAATTCATCTTCCTTTGCTGTTCCAACACACATTACGTTTATTAAAGGGTTTGTAGAATATGTTTCATCAAAAGATGTTTCTCCAGCTACTGTTGGAACTCCAATTGAGTTTCCATAACCACTTATTCCTGAAACTACACCTTCAAATAAATGTTTTGATTTTGGATCAGTTAATGGTCCAAATCTTAATGAATCGAGTAATGCAATTGGTCTTGCTCCCATTGCTAATACGTCTCTTACTATTCCACCAATTCCAGTAGCAGCACCTTGATAAGGTTCTACTGCACTTGGATGATTATGGCTTTCAACTTTAAACACTATTGCAGTATCATCTATTTTAACATATCCAGCATTTTCATCTTCAATAGTTATTGGTAAAGTTTTTATTAAAGTTTTTGAATGTTTATATCCACAATGTTCAGACCATTGTGCAGAAAACAAATAAACTTCGAGTTCATTTGGTTCTCTTCCAAGTCTTTCTTTTATTAATTTATATTCATATGAATTTAAGCCAAGTTGTGTAGAAAGAACTTCTGGATTAATTGTTTTTTGCATCTTCTAAATACCTCCTAATGGATAAAAATATGTAAGCTCCATCTCCATTTCCAAGAGTTTTTACAGAGTTTCTTTCTGGATGTGGCATCATTCCGAGAATATTTAAATTTTTATTAAATATTCCTGCAATATCTTCATAGGAACCATTTGGATTTTCAACATACTTGAAAGCCACTTTATCTTTAATTAACTCTATATCCTTTTTTTCTATTTTAAAATTTCCTTCTGAATGAGCTATTGGTAAACGTAATTTCTTTTTTTCGATATATTTTGTAAATGGAGTTTCAAAACTTTCTACATTTACATCTACATCTTTACAAATGAACTTTAAAGATGTGTTTTTACTGAGAGCTCCTGGTAGCATGCCAGTTTCTGTTAAAATTTGAAATCCATTACAAACTCCCATGATTAATCCTTTTTTTTCAATTGCAAACTTTTCAACATGTTTCATTACTGGTGAAAACTTTGCAAGAGCTCCAGCCCTTAAATAGTCTCCATAAGAAAAGCCACCAGGTATGAAAATAAAATCATATTTTAAAATATTATCATAATCATGCCATATATATTCAGTTTCAAATCCACAGGAGTTTAATGCGAATTCTGCATCTCTATCACAATTAGATCCTGGAAAAACAATTATACCAGCTTTTATCATGCTAATACCTCCGTGGAAAGTAATTTTATTTCATACTTCTCTAAAACTGGATTTGATAATAATTTATCAGCAATTTCATTTACAATTTTTAGAGCTTTTTCTTCTGTTTCTTCATTTACAGTTAATTCTATATTTTTACCAAATCTAACACTGTTAACAGGATAATTTAATCTTTTTAAAACTTTTTCAGTTGCACTTCCTTGTGGATCTAAAATACCTTTTTTAAGACTTATTAAAACTTCAAATTTAAATGATTTCATAAATTTATCCTCCTAATAAGAGCTGTATAAGTATCTACAAGATCTCCTTTCCCTTCTCTATAAACGTCTTTATCTAATGATTCCATTGTATTTTTATCCCAGAATCTACAAGTGTCTGGAGAAATTTCATCAGCAAGTAGTATTTCATTATTGTTTTTTCCAAATTCAACTTTGAAGTCTACGAGTAATATATCAAATTGTTTAAAGTAATTATTTAAAATATTATTTATTTTTAAAGCTTCATTTTTTATATGTTCTAAATCTTTTTTTGAACATATATCTAAAGCAATAATTGCATCATCTGAAATCATTGGATCTCCTAAATCATCATTTTTTAATGAAAATTCAACTAAAGGCATTTTTAATTTTTTTCCTTTTTCTATACCATATCTTTTACAAAAACTTCCTGCTGTATAATTTCTTACTATTACTTCAAGTGGCATGATTTCAACTTTTTTAGCTAAAAAAGTTGTTTCATCAATATCTTTTATGAAGTGAGTTTTTACATTATTTTTTTCCATTAATTCAAACATAAAAACAGATATTTTTTTATTTATTTTTCCTTTACCTATTAAATTGTCTTTTTTTTCTCCATTAAAAGCAGTTACATCATCTTTGTAATAGATCAATACATTGTTTTCATACTCAAATAATTTTTTTGCTTTCCCTTCATAGATAAATTTTAATTCATTTACATTCATTTCAATTCCTCCCTAAATCTAATATTCTTTTTGCAAGATAAGCAGCATTTTTCATACCATGATTTCCTATACCCATTGTAGCTACAGGAACACCTTTTGGCATCATTGCCATGGAAAGGATAGCATCAACACCATTTAATGGGCCGACATCATGAGGAACACCTATTACAGGAAGGGAAGAAATGGAGGCTATAACTCCGGGAAGAGCAGCAGAAAGTCCAGCAACACCTATTATTACCTTAAAATCTTTTGAAAGAGTTTCTAAAAAACTTTGTAATTCTTTAAGGTTCCGATGTGCACTAAAAATTTTGAATTCATATTCAATATTCCAGCCATCAAATAATTCAAGTGCTTGATTTACAAACCCTCTATCTGATTCACTTCCAGCAACAATAAGTACTTTTTGCATAAAATATCCTCCTAAATTTATACTCGCCTCTCTTATCAGGAAGAGAGGCGAGTATAAATTTATTCACCCCTCTTCCTGTAGTCGGGTAATTTAAGGTAACCCGGTAGAAACATTCGAACCATATTATCGAACATATACAGGAAGAGGCTTAATATTTTTTACTTTTCAAAAACATTCTAACAAAATAAATTAGTTTAAAAGTTAAGAAATAAAAACTTAACCTTTAAGAATGAGTTAATCACCTTTCAACATCATCTCTCTTTGTTTCTTTTTATTTCGCTTTTCATATAGTAACAACATAGTAATTCCAACTATAAATACAAGTATTATAGGTAAAATTACAGTTAAAAATAAATGTAATTTCATATCATTTCTTAATTTTTTTAATAGGTCATAAACTTCTTGAGGTTGGTTTGGAGCATCTGTGGCATTGTTTAAAGCTATTCTTGCTAGTGTTTTGTTTTTTACAGGATCTTGCTTGTATACTGCTAAACCAAATTTACCCCAAAGATCATAATTTTTATTTAAAAGTTTTAAAGATTTTTCGTAAAAAGATACTTTATCATCTATATTTAAAGAATAATCGCCCAATAATTCGTAAAATCTTGGTAGTACTTTATTTACTTTATTAGATTGTTTTAGATTTTTTAATAATTTTTTTGCTTGCTGATATAAATTATTTTTTAAATAAAATTCTTCTATTGATAACAATACATAGGCATTATTTCGATTAGAGTCTATATATTCCTTTGCTATATTTAAATAAAGAGATTCATCATTTTTTTGTACTTCCGAAGGAATAAAGGAAATTTCACTTTCTTTTCTTGCACCAGTTAAAAAAAGTTCTTTCAAAATCATTGATTTTTTAAAGTTTAATATACCATTTTTTAATTCTTTATAAGCAAGTGATCTTATACCATATAATCTGGATTCAATGTTGAATAAGGAATAATAATAAGAATAAAAAACTGTTTCTCCATATTTTTCTTTTAAATAATTCAAAGTGTTCATTATTTCTTTGGCTATTTTTGGATCACCGCTTCTCTTCCAGTCTTTATAAATATATTCAAGTCTGAGAATTTTTATTAAATCATTGTTGTACTTATTATCTAAATTTGTTAAAGTTTTAATTGGTTTTAACATTTCAATTTGACTGAATGTGTCTAATGATTTAATTAAATCAATTATTGCTATATCTTTTTCATTATTATAATTTTTTTGAAAAGAATAAAATAACTTTTCAGCTTTAATTTTATTTCCTGTAAATCCAAATTTAAAGTATAGTTTATAATAGCCTATTATTTTTAATAAATCATCATTTGATTTTATTAATTGTGAATATTCAAAATTATTTAAGTATTCTTTAGTTATTTCACCAAAACTAAAAATTGAGAATAAGATAACAATTAATAAGATAAGCTTTTTCATTTTTTCTCCTCCAAATTAAAGTATAATATATGTTCATAACTATATTATACAGTAAATTTTAATATATAAACTTACAATTTTGTAAGAAATAAAATAATAATTATAATAGTATTAACATTTTAAAACAAAACAACGAGATTTAATCTCGCTGTTTTGTTTATTGTTTAATAAACTTTTTTTCTTCTTCTTTTAAATCAAGACCAAGTGTTCCACCTGGATTCATTATATTGTTTGAATCAAAATGTTTTTTTAAGGTTTTAAAAATTTCCATTTGATTTTTTCCAATTTGTCCTTCGAGCCATGGAGCAATCATTTTTCCAATTCCATGATGATGGCTCATTGTAGCTCCATACTTTTGAATGTTGTCGAGTATACCATGTTGGTAGTCAACATATTCTTCTATTGTATCCATTTTTGCTATAAATATGAAGTACAAGTTTACACCTTGAGGATAAAAATGAGACATGTGTGTCATACAAATAGTGTCTGGACGACTATGGCAATATTCTCTAACTCCTGTATGTACTTCTTCTAAATTTTCCCAATTTACAGTACATTCAAGAGTATCTATCATGATGCCAAAATCTCCTAAATCTTCTCTTAAATAAGGGTCTTTAAATCTTCCTTTTTCCCAGCTTTTTGTTATATAACCAGTTGTGTACATTGCACCATGTTTTTTACATATCTTTTTTATATTTTTCTTTACTAATTTTGAGAAATTTTTTTCTCCTTCTGTAAATCCAAGCATCAAACATCTTTCGCCTTGTTTATAACCTCGAGCTGAAATCATTTTATCTAAAAAAGTTCCTTCTACGCCATATAGTTTCAGAGCAACATCTGATTCTTCTGGATCGGATAGTCTGAATACTGATGGAAATCCAAACTGTCCTTGCATTATTTCACGAGCTGCTTCTTTTGCATCTTCCCAATTTTTAAAAATAAAACTGAACTTTTGATGATTTTCAGGCATATATTTGAATACTTTTAATGTGACTTCAGTTAAAACACCAAATGTTCCTTCACTTCCCATCATTATTTGATCTACATCTGGACCAGTTGACTGAGCTGGAAATTCTCCTGTTTTTATTATACCAGCAGGAGTTACATATTCTTGAGATAACACTATATCTTCTATTTTTCCAAAGTAAGTTGAGTTTTGTCCAGCTCCTCTTGTAACAACCCAACCGCCAACTGAAGAATATTCAAAAGATTGTGGAAAGTGTCCACAAGTATATGGTATTTTGGCATTGAATAAATTAACTGCATCATTCAATATTTTTTCAAGTTCAGGTCCTTGCATTCCAGGTTGAACGGTTATTGTTTGATTTTTTTCATTAAATTTGATGACTTTATTCATATGTTTTCTCATATCAAGAGTTATTCCGCCTTTAACAGCTTCAAGTCCTCTACAAACTGATGAACCTCCACCAAAAACATATACAGGTATTAATTCTTTATTACAGTAATTAACCAGTTCTTTTATATCTTCTTTGTTTCTTGGATACACAACTATATCTGGAATATTTTCTATTATTTTTTCTCTCATTCTCAAAGCATCTAACATTGTTTTTCCATAAGATACTCCAGCTCTTGTGTAAGTATCTTTTTTTATGTTTTCTTTTCCAACGATGCTTTCAATAGTTTTTATTTGTTCAGAGTTTAAATTTATTGGATGATTGTCTGGAACTTCTTCGAGTCCTATATTTTTATATTTTTTAAAGTCTTCATCAGTAACTTTGAATGTTTTTTTCATTAATTTATATAAATTTTCATTTGGATGTTTATATTCATTCCATTTTCCCCATCTAAAAAGTGAACGATATGATTTTTCTGGTGGCTTTTTTTCATACCAATTTGGTTCAAAACCTTTGTAGCTCATAAAATTCCTCCTAAAGTTCCGGATATCCGGTTATTGTTTGTATTTCTGAATAGAGATTTTTAATGCTGGGATATATTTTTTTATATACTTTTTCAAATAAATTTTTATATATTTCATGATTTTTTTTATTTGGAATAAAAGTTTTTTTGTATTTTATCATGTGATTTATTGCTTCTTCAAAATTTTTATACGTTCCAGTACTAACAAAACCAATTATTGCAGCACCAAGTGATGATGCTTCATGCGTGTGTATTTTTTTTACAGGTTTTCCAAACATATCTGCTGTAATTTGACATATGGCATCACTTTGAGATCCACCACCACCAACAATTACTTCTTTTATTTTTACTTTTGATTTTTTTTCTAATTTTTCAACTCCATCCATTAGTGCATAGTTGATTCCTTCTATTATTGCTTTATATAAATGTGAACGTGTGTGTATATCTCCAAAACCTATAACTGCTCCTTTGGCATCAGGAGTTTTTACGTGTGGTCCCCAGTATGGTTGAAGTATCAATCCATGAGATCCAGGAGGTACTTTATTTAAATGTTCATTTAAAAGTTTTTCTGGTGAGATGTTGAGTTCTTTTGCTAATTTTAACTCTTTTTCTGCAAATTCTTTTTTAAACCAACTTATCATCCAATATCCTCTAAAAATTTCTATTTCTGGATTATAGTAATTTGGGATAACAGCTGGATAAGATGGCATAAATCTTAAAGGCTCAAAATAATTTTTTGTTGATATTTGTGCTGTTGCAGTTGTTCCAAAACTTAAACTAACTCTTTTAGGATTTGTGCAGCCATTTGCAAGTGTTTCACATCCTTTATCAGAACCTCCAGCAATTACTGGTATTCCTTTTTTTATTCCAGTTTCAATTTCGGCTTTTTTTGTTATATATCCAATTATTTCTGTTGGATTTATTAATTTCATTAGTTTTTCTTTTTCAACTCCAAAAACTTCCCATTTCCAACTTGAATTTGATTTTGTCCATTTTTTATTTTTATAATCAAAAGGAAGATGACCTATTTGACTTGCAATAGATTCAATAAAGTTTCCAGTTAATTTATGATGAAAAAATCCAGAAACTTGTGCATACTTATATGTTTTTTTCCAAATTTCAGGTTCATTTTCTTTTATCCAATTTGCTTTAGAATTATGTCTTATTATGTTTATTGTTCGAGTCATACCAACTACACTGAACATTAATTTATGTTTTTTTGAAGGTTTATAAATACTTTGTGATTTTCTTTGATCGAGCCATAAAATAATGGGTCTTAAAGGGTTTCCTTCTTTATCTAAACAAACTGCTGTATCTCTCAATGTTGTAACAACAACACCTTTTACTTTTTCAAAGAGATTAATATTTTTTTCTTTTAAATCTTTAGTTGCATTGCACAAATTTTTCCAATAAACATCTGCACTTTGTTCTGCCCATCCAGGATTTTCAGAGTAATAAGGTGTAAACTCTTTTTTTTCGATTGCTACAATATTTCCGTTTTCGTTTATTAATGCAGCTCTTATGCTTTGAGTTCCACAATCAATAGTTAAAATCATTATTATTCCCCCAATTTTGATGTTGCTATAATATCTACTCCCGTATTCAAAACATTTTCTATTATAATATCTCCAATTGAAACAGGTTCATTTATAACAACTTTGTTTATTACTGACATTATATCAAAAATCAAGGGTTTTGGAACTTCACCACTTGTTCTTACAGGTAAACGTGACATATTTTTATAAGTAGTTCTTACCGTTGTGCATATTGTTCTTACAGGATTGTTGAGTTCATTAACAGCAAAATCATAACCTCTTTTGCATAAATTTCCACTCACAATTATTTCAGAATTTTTTTTAGATACTTCTAACATGCAGCCATTTGGGCACACTATACAAGTTAAGTTCATCATATCACTTCCAATTTTAATTGAGAAGGATTATTTATTTTCAATACTATTTTTTCCATTTCTGGTGGTTTCAAAAATAGATATTTCTTCTTAAAAATAATATTTTCCGTGTCTTTTATGATTACTGTTTTGTTTTTCATGACTTTATTTACTCTAAAGTATAGTATAAATTCTTTTGATTCTTTACTTACATATTGTGGAACAACGTATAATATATTATTGCCTTTTTTTATAGATACTTTTTCTTTAATTGAATTTTTTTCAAAATTTTTTGAATAATTTGCTGCATTTTTTCCAGCAATTTCACCACTTTCTGAAACATAATCAACTAAATCATTTACATGAAGTGCATTACCACAAGAAAAAACACCTTTTGAGTCTACTGACATCAAAAAATCATCTACATATGGACCTTTGGTTGATGGATCAAGAGTTATATTCAATGATTCGGCAACTTCATTTTCAGGTATCAATCCCACAGATAATATCAAACTATCACATTCAATGAATTCTTCAGTATTTGGTAGGATTTTCATAGTTTCATCTAATGAAGAAACAATTACTCCTTCTACTCTTTCAGTTCCAAGTACTTTGGTTACAGTTTTTGAAAGATGAAGTGGAATATTAAAGTCATCCAAACATTGAGCTATGTTTCTTTGTAATCCAGATGGAGTTGATTTAGCTTCATAAACGCCAAGAACTTCAGCACCTTCCAAAGTTAATCTTCTTGCCATTATCAAGCCAATATCTCCGCTTCCTAAGATTACAGTTTTTTTACCAGGAAGATATCCCATTATATTTACAAAGTACTGTGCAGTTCCTGCTGTATAAACTCCTGCAGGTCTTGTACCATGAATAAAAATTTGTTTTGCAGTCCTTTCTCTACATCCCGTTGATAAAATTAAGGATTTTGAAGTCACTTTTAAAAGACCATCTTTGGTTACTAAATTAAAATGAAATGTATCATTTATCTTTTTTACTGAAGTTACAAAGGTTGAAGTTAAAGTTTCTATATTTTTAGCCATTTCTATGTATCTATAAGCATATTCTGGCCCTGATAATTTTTCATGAAATTTTAAAAGTCCAAAGCCATCATGAATACATTGCTTTAATATTCCTCCAATTTTATTTTCTCTTTCTATTATTAAAGTTTTTGCACCATTTTTTTCTGCTGATACTGCGGCAGCAAGGCCAGCTGGCCCTCCTCCTATTACAACAACATCATACATTTTTATCATCTCGCTTTGTTTCTTCTACAACCATATAAGAATCTTTACCTTTTTTTGTTATTTCAAGTATATCTTTTGATAGTTCTTCATTTAAAATTTTAATTACAAGTGGAGCACAAAAACCTCCTTGACATCTTCCCATCCCTGCTCGTACCCTTTTTTTTATTCCATCAACAGTTGTTGCTGGAATTGGTGAATGTATTGCATCTATGATTTCTCCTTTACTTATTTCTTCACATCTACAAATGATTTCACCATAATTAGGATTTTTATGAATTAATTTGTTTCTTTCTTCAAAGGTCATATCTTTTAAGGTTAATATTTTCTTTCTTTTAGGAATCCAATTCTCTTTTTTTACGACTCTTGTTTTTTCTTTTAATATATCTATTGTTATTTTTGAAATATCTTCTGCTATTGCTGGAGCGGATGCAAAGCCAGGTGACTGTATTCCCGCAGCATGAACCAAATTGTTTATTTTTTGTGACTTTTCTATTATGAAATCTTCTTTATAAGTCGAAGCTCTTATGCCCGAAAAATAAGTTATAATATCTGTTTTTCTTATCCCTTTTATATTTTTTAAATGTTTGTTTATTATTGCATTTAAACCTTCTGGAGTGGTAGTATAATCTTCTTTAAATGGTTGTTCAATTGCAGTTGGACCAGCAAGTATATTGCCTTCTACTGTTTTTACAAGTCCTCCACCTTTTGTTGTGCTTTTAAAGTTTAAAGAAGGTTTGCTCAATATGGAGTAAAGCATATGTCCTTTCTTTTTATCAAGAAGTGCAATTTCACCTTTTCTTGGATGTATTGTAAAAAATCTGTCTCCAGCCATTTCAGCAATTTCATCTGAAAAAACTCCAGCAGCATTTATTACTATTTTGGGATAAAGTTTTCCTCTGTTAGTTTCAACATACTTTATTTCATTATTTTCTGTAATTATGTTTGTGACTATCGTATCTAAAGAAAATTCAACATCATTTATTGCTGCACTTTCACCAAATGCTATTGTTGTTTTGTATGGAGATACAATTCCTGCATCTGGAAAGATAACACCTCCTTCTATTTCAGCTGATATATATTTTTCGCGTTTTTTTAACTCTTTTTTATTTAAAAATTTCATCCTTACTTTATTTTCGTGTGCTCTTATTTTTAATAGAGGAAGAGCAAATTTTAAATACCACTTGTCATATAGAATCAAAGAACCAGTTCGGTTGAATTCAATATCCAATTCTTTTGCAAGTTTTGTATACATTTTATTTCCACGAGAATTATAAATTGCTTTTTTACTTCCAGGTCTTGGAGCTATTCCAGGATGAATCATTCCATCATTTCTTGAAGATGTGTGAACGGCTAAATCATATTCTTTATCCACAAGAAGCGTTTTTATTTTCCACTTTGAAAGTTCTCTTGCAATAGAACAACCAATTATTCCACCACCAATTATTAAAACATCAACCTTTTTGTTTTGAAGTTTTGTATCTTTTAATAGTGGTTTTGAAATTGATGGAAGATTTAAATTTTTTACTTTTAATTTATTTATTACTCCTCTATAAGAAGAGTTGGCAGCAATTTTACCACTTAAATAAACTTTATTCCAAGTATTTACTTCACCTTCAAGTTTTATTGCTCCATTTTCTTCTGAACATATGATATCTTTTGAAATTTTTTTGGTTAATTTTTTTTGTATTTTCTTCAACATAAAAGTCATCCCCTAAAATGTATGAAATGTACGTACATTTATATTGTATAAAAAAATTTAATAAAATAAAAATGCAATTTTAAATATTTGTATTCAAATATTTAGATATAAAGATTATTAGATAAAAAAATTAATTACTTTAATAGATTTAATATACAAAAAAATATTATGGTATAATTATTTAACAGTAAAAATAAAAGTTTTTAATAGTTTAAAAGGAGTTTTTGCATGCAATTACCTTTATATATTGAAATATCAGAAAATTTAAAAAATTTTATACTTGATGGAAATATAAAAATAGGCGAAAAAATTCCAGGAGACTTTGAATTAATGAAACAATACCAAGTTAGTAGAGACACGATAAGAAAGGCTATAAAAGTTTTAGTTGATGATGGATATTTAATAAGGAGACCTGGAAAAGGAACTTTTTTATGTAGAAGAAGAAAAGTAGATTCTATAGAAAAGATAATATCGTTTAGTTCTGAATTGATAGCTCGAGGATATGTTCCATCAACAAAATTAATAAAATTTAAAGAGATTAATGCAACACCTGAGATTTCTGAAATGCTCAAATGTAATCAAAATGAAGATATTTATTTAATTGAAAGAATAAGATATGCTAGTAAATTACCGATAGCATTTGAAACAACATATTTATTAAAAAAAATAGTAGGGGAAATAAAGAAAAATGAACTTCTTGACTCTATGTATGAGTTTTTGTCAAGAGAAAAAAATATTGAATTTATAAAAATGGTACAGGAAATAAAACCTAAAATGTTAGATTCTAAAGTGGCAAAAATGATGAAAGTTGATATAATGCCAGTAATACATTTATCAAGAATTATATATACAAAAAATAATATGCCATTTTTTGCACTTTCATTTTTACTCCGTGGAGATAATTATTCTATGAAAAATGAGGTTATTTTAAAATAAAGAATAGGAGGTATTAATGAAATATTTATTTAAGTTATTAATATCAGCATTAATAATAGTATTTGTTTCTGAATTCAGTAAAAAATTTTCGTGGATAGGTGGATTGATAGCTTCTCTTCCACTTATTTCTATAATTTCAATATTTTGGCTTTACAATGATACAAAAGATATAGTTAAAGTAACTAACTTATCTTTAAATATTTTTTGGTTTGTAATTCCATCATTAATATTTTTTATTATGTTACCTTTTTTCTTGAAATATTTTCCATTTTATTTATCAATGATATTTTCTTCTATAATAACAATTATATTTTATATAATTTTTTCTTATATAATTTCAAAGATTGGAGTTAAAATATGAATAGTGGGACTTATTTATTGTTAGTAGAAATAGAAAGAGATATAGAAGTAAAAATAAAAAGAAAAGAAATAAAAATAAAAAAAGGGAAGTATCTTTATGTTGGATCAGCTATGAAAAACCTTCATCAAAGGGTTGGAAGACATATATCTTTTAAAGAAGGAGATTATAAAAAACATTGGCATATTGATTCTTTGCTTGAAAATGGTAAAGTTCTTTTTTCAATTATTATTCCTGATGGTATTTATAAAGAAGAAAAATTTTCAAAAAAGTTTAATAATAATTTTAATAGCATAAAAAATTTTGGAGCAACTGATTTAAAAACAGACTCCAATTTGTTTATTATAGAAAATACAAAAAAATTTTTTGAATTTTTAAATGAAATTTTAGTTTAAATTACAAAGCATCTTTAAAAAGATCTGACCATCGTTTTAATTTTTTTTGTGTATTTATTATAATTTCATTTATTGTATTTATATCAAAAGGTTTAGTTAAATAATCGTCTGCTCCATTTTCAAAAGCATTAATAATTTTATTTAAATCTGAATTTCCTGTTATTATTATTATTTGAGTGAAACTATTTTGAGATTTTATTTTTTTTAAAAATTCAAAAGAATCCATTCCAGGCATTACAATATCTAAAAAAACTATATGGAAATTAGTGTTTTCAAATAAATAAAATGCTTCATCAGCATTCTTTGATAGTTCAACATTAATATTTTCAAATTCTTCATTTATGTATTCTTTCAAAACAGTTCTAATATCTTCTTCATCATCAATTATTAATAAATTAAACTTCATATTATCACTCCTCGATAGGAAATATTAAAGTAAAGGTAGTTCCATAATTTTCTTTTGAAATTACAGAAATTTTTATGTTATGAGTTATACATACAGAACTAACAAAAAAAAGTCCGTGTCCAAGACCATATTTTTGTTTTGTTGTAAAAAATGGGTTAAATATATTATTTAATACATCTTTAGACATACCTATACCATTATCAGAGATTTTTAAAACTACATTTTTTCTGTATTTAAAAGTTGAAATTTGAATTACTCCATCTTTATTATTTTTTATAGCATCCAAAGCATTAGAAAATAAATTTATCAAAGAAATAATTATTTTGTTAGCATCACCTTTTATATTTACATTTTTTGATTTTTCAATATCCAATATAAATTTTTTTTGATTATTATTAAATAAAAAGTTATTTGCTTTTAAAATTGCATCATTTAATTTAAAAACTGAAAGAATATTTTCCTTTTTAAAAGCACCTCTAAAAATATCTATTATATCTTTAATTCTATAAAATTGATTTGATATTTTTTTAATTCTATCAATGCTATAATATTTTTCGTTTTTTAGAATCATTTCTGTATTCATTATACCAATTGTTAATGGATTGTTTATTTCATGAAGCATTCCCATCATCATTTGACCAGCTAGTGAAAATTTTTCAGAATCTAATAATTTTTCATCATAAACTTTCATCCTTTTGCATTCATTGAAAAAAATATTGTAAAGAGTAAACATATTTAAAAATGAATTAACTATTATTTCTTCTCCATGAATAGAAGGAATATCTGAATTATATTTTAATTTTATAGAAAATTCTTCAGTATTTATATTTTTTATTTTAACATTATTTGTTGATTTTCCAACTTTAACTTTATTTTTTTCATCTAAAATAACTTCTAAAAAATTAAATAAATTACTATTAATAAATATTTTTATTAGTTTTTCTAAAAATTTTAAAGGTTCTAATTTTTCCATAGCAGATATTCTTATTGTTTCTAGAACTTCAAATCTTATTTGTGGAGTTTTAAATGTTTTAGTAAACTTTAAAAATTCTACTATATAATTATTTTCATAAGAGGTTATTTTTAAAGTGTAATTGTTAAAATTAAATTCTTTATTTATAACATTACTTTGTATTTTATTTTTTATAAATACTTCAAATTTATTTTTATCAATAAATTTTAAAGTTTTAAATTTTTTATTTGTATATAAAAGATTTCCATTTTCATTAAATATTGCTATGGCAATAGATAAAGAATCAATTATTTTTTTCATGTTTTACTCCTCAATATTAAAAAAGTTTTTTAACATATCTTTTTTTAATTTTTGGTTTTCTATTTTTTCTTCAAAATCAAAAAGCTCTTTTAAAATATTTTTATAATAATCAGAAATAATAAAGTATTTTTTTCTTGGCCCTTCTTCAATAGCTGTAACTACATTGTTTTTAATTAAAGAATCAAGAGAAGCTTTTGTACTTCCTGCACCGCTTTTTAAAGAATTTTTTATTTCAGAAAATCTGACTTTACCTTTTTTGGAAAGAATTCTTAAAATTTTTATTTTTAATTCTGATCCAAAAGTAATTTCGTACATTTTTCATCTCCTTTCTTGAATTAAATTTTCAATTATGATATAATTGCTAATGCGAACTAATTAATTCTAAAAAAAGACTTTATGTTTCTAAAAAAAGAATTAACATACTTATTATATCATAATAATCATCAGGAGATGAATGTATGAGAATTTTAGTTGTAGAAGATGATTTTGTATCAAGAGAAATCATGAAAGAAATTATAGAAAAAAATGTTTACTTTGCTAAATCAGGTAAAGAAGGATATGATATTTTTATTAAAAATTATAACAAAAATAAATTTGATCTAATATTTTTAGATGTAATGATGCCTGAAATGAATGGACTTACACTATTAAAAAAAATTAGATCTTATGAAACAGATTTTAAAACAAAAATAATAATGATCTCGGCTTTAGATGATATAAAAACAATAAAAGAAGCAAAGAAAATAGGTTGTGATGATTATATTATTAAACCAATAGAACCAAATGAAATAAGAGAAATAATAGGAGGTTAAAAAATGATAAATGTAGCATTAATAGCTCATGATAAGAAAAAATTAGATTTAGTAATGTTTACAAGAGAGTGGAAAAAAGTTTTTTCTAAATGTAATTTGTATGCAACTAATTCAACAGGAACTTTAATAGAAGAAAAGGTTGGATTAAAAATAACAAAGTTTAAGTCGGGACCATATGGTGGAGATTTACAAATAGGTGCTTTAATAACTTCTGATGATATTGATTTTGTAATCTTTTTAAGAGATCCACTAACAGCTCAACCTCATGAACCTGATGTATCAGCGCTTTTAAGAGTATGTGATGTTCATAATATACCTCTTGCAACGAACCTTGCAACAGCTGAAGGTTTAGTTTTAGAAATAGAAAAGAAATTAATAAAAGAGAGCTAAGCTCTCTTTTATTTTATAGTAGGTAGCCTGTAAAATTTGGTAGGAGACCATAAAAAAATTTGTGTAAATAAAAAAATGAAAAACCTTCTTCTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTTTTAAAATGGCAAGAAGAAAAAAAGAAGAAAAAGAAGAAAGCAACATTGAAAAATTAGCAAGATTAATAGCAAGGGATCCAGAGGTAAACACAATAAAAGATGTATATGAAAAGATAAAAGAATTAGTGGGACCGTTAATACAAGGGATGTTAGAAGCAGAATTAGAAGATGAATTAGGTTATGGGAAATATGATAAAGAAAACAAGAAAACAGATAATTCTAGAAATGGGTACAGTTCAAAAAGAGTAAGAACAAGTGTTGGAGAAATGGAATTAAAAATACCTAGAGATAGAAAAGGTGAATATGAGCCATAGTACCAAAGTATAAAAAAGATATCTCAGATATTGAAGGTAGAATAATAGGTATGTACGGTTTAGGATTAAGTACAAAAGATATAGTTAAGAACGTAGAGGACATATATGGTGTAGAATTATCAGCGGAAATGATAAGTAAAATAACTAATAAAATATTACCTGAAATTAGAGAATGGCAAAGCAGACCTTTAGAAGAAATATATACTTTTATGTTTATGGATGGAATAGTGTTTAAAGTAAAAGATGATGGAGAAATAATAAAAAAGACTGCATATGTTGTACTTGGTGTAAATATAGATGGATTTAAAGATGTACTTGGTATATATATAGGTGAAATAGAATCATCAAAATTTTGGTTAAGAGTATTAAATGATTTAAAAAATAGAGGAATAAAAGATATATTAATAGCTTCTGTAGATGGATTAACAGGTTTCCCACAAGCAATAAAAACTGCTTTCCCAGATACTATAGTACAAAGATGTATAATACATCAAATAAGAAATACATTAAAATATGTTAGTTACAAAGATAGAAAAGAACTTGTTAATGATTTAAAAAAAGTATATAAAGCACCAAATAAAGATATTGCCTATTCAAACTTACAAGATTTGAAAGAAAACAAATGGACTAAATACAAATTAGCATTAGAAAGTTGGGAAAAACATTGGGAAACAATATCTCCTTATTTCGATTATGGCGATGATGTAAGAAAAATAATGTACACAACAAATGTAATAGAATCATTAAATAGGCAATATAGAAAAGCTACAAAAAATAAAACATCATTTCCAAATGACGATGCATTATTGAAAATGCTTTATTTAGCAACAATAAATGCAACAAAAAGATGGACAGCTCGTTATAGAAATTGGAGCAATGTCCTAAACGAATTATCCATCTTTTTTAATGAAAGAATTACAAAATATATCTATAATTCCTAACATAAATATACTTTGTAACTTAACAAAAAATACCTATAACACACAAAAATGAATATTAAATATTATAATGCTATACCTTGCAATAAAAATTTGCAAAAGGCTATTTATTACAAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCATATTTCTTTATAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAGAGCCGTTTACACAAAATTTTTTATGCTACCACTCTTAATGTTTCCTGAAACGTGGTTTTATTCAGCGTTTTATTTTTTTGGCCCATTTTTCAATTGTAATTTGGCTTATTCTTCACTTGCAAAATACATATCATATTTTTCTTCTTTAATATCCTTTAAACACTTTTCGTATACGTTTGCAGAAATTCTTAGTAAGCTTTTATACTTATTAAAGTTAGATCTATTATGATATAGTGGTTCTGATTTTAAAGAATAATCATTACTTTTATATCCTACGTATTCTTTTGGATGATCTTCTAAATATTTAATAAAACCTTCTTTATCATTTCCAAAATAGAGAGTGTAAAATATTAAGTGTATAAGGAAAAAAAGATACTGATCTGGTGGTAAAATAAAACCAGAGGAGGTACGAAAAATGGGAAATGTACTACAGGAAATAATAAAGGAAATGGTAAGAAAAGGAGAAATCCGAACAATAAAGGATATAAAGGAATTAACAAAATCACTGACAGGAAATCTGATCCAGGAAGTACTGGAAGCGGAACTCGAAGACGAGCTGGGCTATGGAAAGTATGACAGAGAAAAGAAAAATACAGAAAATTCAAGAAATGGCTACAGGAAGAAGAATTTAAAGAGTAGTAGCGGTATGATAGAATTAAAGGTACCTCGAGACAGGAAGGGAGAATATGAACCCAAAATAGTTCCAAAGTATTCGAATGATATTTCAGAGATAGAGGAAAAAATAATAAGTTTGTACGCAAGAGGAATGACCACCAGGGATATATCTGATCAGATAATGGATTTGTACGGATTTGAAGTATCAGCTGAACTGGTGAGCAAGATAACAAATAAGCTTATGCCAGTAATAAAAGACTGGCAAGAAAGGCCATTACACGAAATATACACCTTCGTTTTCTTGGATGCAATATACTTCAACGTTAGAGAGGACGGAAGGATAGTAAAGAAGGCTGCTTATGTAATAATAGGTGTTGACATAGATGGAATTAAAGATGTGCTCGGGATATATGTTGGTGAAGTAGAAAGTGCCAAGTTTTGGATGGGAGTACTTAACAACCTCAAAAACAGAGGAGTTAAGGACATACTTGTAGCTTCAATAGATGGTCTTTCTGGATTCGAGCAGGCTATAAATGCAACCTTCCCGCAAACTATGATACAAAGGTGCATAATCCACCAGATTAGAAACACCCTGAAATATGTTCCTCACAAGGACAGGAAAGAGTTCGCAAAGGACTTAAAGACAATCTATACAGCACTGGATGAAAAGACAGGCTATGATAATCTAACCAATGTAATAAACAAATGGGGAGACAAGTATTACGCTTCATTGAGGAGCTGGGAGAAAAATTGGCACCTATTATCCACCTTCTTTCAGTTCTCAGACGGGGTAAGGAAGATTATGTACACCACGAACATCATAGAGTCACTTAACAGGCAATTCAGGAAGGCTACCAAGACCAAATCAATATTCCCTAATGACGATGCTGTCCTTAAAAGTTTATACCTTACTACCAAAAACGTGACAAAAAAATGGACAGCACGGTTTCACAACTGGAACGCTGTTATTTCCGAACTGGCCATCCTTTTCGAGGATCGTCTTAAAGACTACCTCTGAAAGTAGCTTGTAATCCTTAAAAAATCTATACTTTGTACCGCGCAGATGGGTTGTCGCCCTTTCAGTCATTGCAGTTTTTTACTGTAAAAGGTTGGTTTTACCAATTTTGCCTTATTTAATTCATACTATTCAGGAACATTTTTTTCATTTTCAAATAACTACATTTTTTTAAGATTTTTGTCGTTGTTTTCCAATATTTATATGCTACCAGATATATCTAATACACACTAATCTTTACAGACTCCCAAAATATTTGAATCCCATACCCATTTTTTCAGTTCTTTCATCAAAATATCTTTCTATTAGAGTTTTAGCAACCATTTTCACATCTTCATTATTGTTATTGTTTTTACTGCCATATGCAGCTTCACCGCCTGTTATTGTAGCCACTTTATCCAATTGCCATACTGGTATATCATTTCTTTTTGCAAAATTTACTACATCTTCTAATTTTTCTAATACGTATTCTCCATATGAATTATACTTATTTTTATTATTCTTATATTCAGCATCAAACTCTTTATAACCAGTATAATATTTAATTAGATCATTCTTAATTTTATTGTATTCATTAGTTCCTTTTCCATATTTTGATAATAATTCAAGTAATTCACCAGTCTTATATGATTGATTAGTTTTTGAAACTTTACTGTATTGTGTACCATTAATCGTTATATCTTTTAAAGCTATATCAAAATCTAAATTGTCTTTTCCAAGCCACTTCTTTTCAAGTTTTTTCATATCTGTTTCTTTTATACTTCCTTTTTTTAATATGAATAGCGTATCACCTATTTTTGTTGGTTCATCTATTATTTTTTCTACTTTGTTAAAGATTGCCATATATTTGAGCATCTCTTCTTTGTTTTCCACATTCAAACTTTTTATTTTTTTTGAATGTTCCTTATATTCTTCTGTTAATTCTATATAATTACTATCTTTTTTTATTATTCTATTAAATTCATCATTATAGTAATTATTATTGTATCCTTTTGTTAATGTTTCGATTTCTTTTTTATTGTCTATTCCTTTTCCATGTATTGCTTTTGCTATGTTTGTAACTCTTACAAATTTATTGAAATTACTTTCTTTTAACTTTGATACTAAATCTACATATTTTTTTGTTATTTCATCTGCATAAAGATCTGTTTCTATCGATATACTGTTTATTAATGATGGATCTTTTAATAATGAATTATTTTTATTAAATTCATTTTTTAATTCATTTGAAGTTTTATATTAGTTGTATATTGAGTTTTAAGATTTTTTATCATTAGCCTTTTTTCATAATTTCCAAATATCTCTATTGCTTTATTTTTTGTCAATGATTCCATTCCTTCTGTATTATTAAATATTTTAAAGTATATATTTTTATTATTATTTGCCATTTCATTAGTAAAAGTATTATTTTTTAATATAGTTTTATTTCCTGTTGAAGTTATTTTTATATCTAATTTATTCATTTCTTTCCCATAGATCATCTTTTCAATTTGTTGATTTTTGGTATAATCAACTTCATCATATTCTAAACTCTTAAATTTACTTTTACTTTCAAAATAAATTGCTCCTCCACTCAAATCTCCTCCTATATTATTAAATGCTTTACTAGAATCTATGTATGCTTTTACAAAATTTAATAATTTTTTTGCTCCTAATACAGTTAATCCTTTATTTATTTTTTCTTCTTCGTATCTTCCTACTGATATTTGTCTTTTATAATATGTAACCAGAAATTCTATCTTTGCACTTCCATACTTTTCATATCCATTTGTTTCTGATAACGATGAGCTCCCTATTAAATGTCTGTTCTTATTTAAAATTAAAAATTTTTTATACTCATCTGTTTTATTATAAAATCTATTATCTAATGTATCTGCTAATATTCTTTTTTCTTCATCACTCAATTGACTATTTCCATAAACTACTTTTGCTATTTCTAATACTTTAGCATGATTTGCACCGTTTTTAGTTTTTAATTCTTCGTATTGTTCCCAGTAGTTTTCTTTTCCTAACTTTACTAATGCAGATTTAATATCCTTATCACTTATTTTAGCTAAACTTACAGTTTCTATTTTTGCAACTATAGTATTTTTAGGTTTATTTGGGAAAGTAGGAAAATTTACCTTTATTGGAGTTATACCATCATCTATTAAATGTTTTGATGGGGTTTCTCCTGTGTGTTCAGGTAGAGTGAGTTGAGGTGAGTTGAGTTGAGTTGAGGCATTGCAGAATCAATTGTTGGTTTTCTTATTTTCATTTTTCTCCTCCATATATATAGTATTTTTAACCAATAATATTTTTTCTAATAAATAATTTAATAAATAATGTTTTTTAATACAAATGAAATTATATCAAAAAATTTACTATTTCACAATAAAAAAATCCTATTTTTTACTCAAATGTAATATAACGCGTTTAATTTATATCATTGCTTTTATTTTTTTAGTTTATTAATCGAATATTAAGATTAAACAAATAAGAGAGCTAAAGCTCTCTTATTTGTTTTTTAAATCATAATTTATAGTACCATCTGGCATCATATAATCTTCATGATATATTCCTGCTTCTTCTTTTTGATATCTAATACATTCTTTCCAGTTTCCTTTACAGTATTGATTAATAACTTCATCGTTTACTAAACTAAGTTTGTTGTATCTGTTCATTGGACAAACTATATACCATTTACAAGTTTTCATATTACTCACCTATTATTTTAACTAAAACTCTTTTTTTTCTTTTTCCATCAAATTCGCCGTAAAATATTTGTTCCCAAGGACCAAAATCTAACTTACCATCTGTTATTGCAACAACAACTTCTCTTCCCATTATTTGTCTTTTTAAATGTGCATCTGCATTATCTTCAAATCCATTGTGATTATATTGAGAGTAAGGTTTTTCTGGAGCTAATTTTTCAAGCCAATTTTCAAAATCTTGATGTAAGCCACTTTCATCATCATTTATGAAGACGCTTGCAGTTATGTGCATTGCATTACACAATAATAATCCCTCTTTTATACCACTTTCTCTTAAACACTCTTCAATTTGAGGAGTAATGTTTATAAATTCTCTTCTGTTTTTAGTATTAAACCAAAGTTCTTTTCTGTAGCTTTTCATGATATACCTCCTATATCTTTTCTGTAATATATTCCTTCAAAAGATATTTCTTTTATATCATTATAAGCTTTTTTTATTGCTTTTTCAAGTGTTTCTTCAGTTGAAACAACTGATAAAACTCTACCCCCAGATGTAATTAATTCATTATCTTTAAAAGAAGTTCCAGCATAAAATATTTTTGATTCGATATTATTTTTTAGGTTTATTTTATAGCCTTTTTCATATGTTTCTGGATATCCATTTGAAACAGCAACAATACAACAACTACTATTATTTTTTAGTTTTATTTTTAGTTTATCAATTTTGTTTTCTATAGTTTTTTCAGATATTTCCAACATGTTAGTTTCTAAAAGTGGCATAATTGCTTGAGTTTCAGGGTCTCCAAATCTAACATTGTATTCAAGAAGATAAGGTTCTTCACTTTGAACTATAATTCCAAAAAATAACACTCCATTGTATTCCATATCTTCATGTTTTATTCCATTTAATGTTGGAATCATTATTTTGGTTTCAAACTTTTGTAAAATTTCTGTTGTTAATTGTGGATGTGGACATATTGCACCCATTCCACCAGTATTTAAACCTTTTTCACCATCTAATATTTTTTTATGATCTTTTGCAGAAGTTATAATTTTTATATTTTCTCCATCTGTTAAGGCAAAAATAGAAGCTTCAAATCCTTGTAAAAACTCTTCTATTACTACTTTTTTTCCAGCTTCACCAAATTTATTTTTTTTCATTATTTCACATAAAAAATCTTTTCCTAATTTAAAAGTTTCAGCAATAAAAACACCCTTTCCAGCAGCAAGTCCATCTGCTTTTATAACTATTGGAAACTTTGAATTTTTTAAGTACTCTAATGCATTTTCATAACTTTCAAAGATTTCATACTTTGCAGTTTGTACTCCATACTTTTTCATAAACTCTTTAGAAAATCCTTTACTGGCTTCAAGTTTAGCTCCATTTTTTGATGGGCCAAATATCTTTAATTTATTTTTTTTAAATTCATCAACAATTCCATCTACAAGAGGCTGTTCTGGTCCTACAAAGGTTATGTCTACATTTTTTTTAGCAAAATCTATTAATTCAGTATCTTTAAGAGTTAAATTTTCACATTTGTTTTCAAATGCAGTCCCAGCATTTCCTGGTACACAAAAAATTTTATTAACTTTTTCAGATTGTGAAAAATTCCAAGCTAATGCATGTTCCCTTCCTCCACTACCTAAAATCATTATATTCATATATTCACCTCTAATGTTTAAAATGGCGCATTCCAGTAAATACCATTGCTATTTTATTTTCATTACATGCTTTTATAGAATCTTTATCTCTAATAGATCCTCCAGGTTGAATTATTGCTTTTATATTGTATTTTGCAGCTTCTTTTACAACATCATCAAATGGGAAAAATGCATCAGAAGCCAAAATAACTCCATCTCCTGCTCTTTCAAGAGCTTGTTGTGCTGCCCATATTCTATTTACTTGTCCACCGCCAATTCCAATTGCTTGTCCATCTTTTACTACTACAATTGCATTTGATTTAGTAAATTTTACTACTTTATATGCAAAGATTAAATCATCCATCATATCAGAATTTATTTTTGTTTCAGTAACGGTTTTTAATTCATTGAATAACTCTTTATCAGTTTCTTGAACTAAAATTCCACCATCTACAGTAACTCCTTCAAATTTTTCATTAGCTTTTGAAAACATCTTTAATACTCTTAAGTTTTTCTTTTTCTTTAAAATTTCTAATGCATCTTCATCATATTCTGGTGCCATAATTATTTCTAAAAAGATTTCTGACATTTTTTTTGCTGTTTTAGCATCTATTTTTGTGTTTGATGCAGCAATTCCGCCGAAAATCGATATTGGATCACATTCATATGCCTTTACATATGCATCATAAACATTATTTCCCTTTGCAACTCCACAAGGAGTGTTGTGTTTTAATCCACAACAAACAATTTCTTCAAAAGAACTAACAACTTTCCAAGCAATATCAGCATCTCTTAAATTATTATAAGACAAAGGTTTTCCATTTAATTGTTCAAAATTATTAAATATTCCATTTTTTATAGTTTTTGTATAAAAGGCAGCTGATTGATGTGGATTTTCTCCATATCTCAAATTTATTTTCTTTTCATAAGATATAGTGTGATACTTAGGGAAGTTGTTTCCTGTTAAATTATTTAAATATTCTGAAATTGCACTATCATATGCAGCAGTTAAGTTAAAAGCTTTTGCAGCTAATTTTAATCTTGTATCTTGAGATATTTCACCATCATTTAATTCTTTTTCTATTAATTCAAAATCATTGTTATCTGTAATCACTACTACATCTTTAAAATTTTTTGCAGCGGACCTTATCATAGTTGGTCCCCCAATATCTATAAATTCAATTAATTCTTCTAATTTTAAACCTTCATTCACCTTTTCAAAAAAAGGATATAAATTAACAATAACCATATCTATTTGAGGAATATTTAATTCTGCCATTATTTTTTCATCTTTTCCACGTCTTGCAAGAATTCCTCCATGAATTTTTGGATGAAGCGTTTTTACTCTTCCATCCATTATTTCAGGAAATTTTGTAATATCACTGACTTTTAAAACCTTTATCTCATTTTCTTTTAATAATTTATATGTTCCACCAGTTGATAGTATTTCTACACCTTTTGATTCTAAAAATTTTGAAAATTCAATAATTCCATCTTTGTAATAGGTACTTATCAATGCTCTTTTCATTTTCTCCCCCTTTTATTATGAGTTTAAGATTCTACTTAAATTTTCATTCAAAAATAGTTTTTATAATTTGAATTTATGTAACTTTTAGATTAAAAAAAGGAATTAAAGATAAAGTGATTTTAATTTAGTTTTTATTATAAATAGAGATTTTTTTATAAAATAAATTTATTAAATTTTTATGCTACGATCTAAAATGATGTATTGTGTTATAATTGAAACGAGGTGATCAAAATGAAAAAAGTGCCATATGGACTTCAAAATTTTGAAGATTTAATATTGGAAAATTATTATTATGTAGATAAAACTAAATATATAGAAGTATTAGAAAATATGCCTGAAAAATATATATCATTTTTAAGACCAAGAAAGTTTGGTAAGAGTTTGTGGCTAGATACTATAAGTAAATACTATGATGTTAAATATTCAGATAAGTTTGATACTATCTTTAAAGATTTGTACATTCAAAAACATCCAACACCTAAAAAGAGTAGTTATCATATTTTAGAGTTTAATTTTTCTGGATTGAATACAGACAGTAAAGAAGAGTTGAAGTATGGATTTAAAGATGAAATTTATGAAAAATTAGATACTTTTATATATAAGTACAACTTAAATATTACATTAGACAAAAGTAAAAATGAACCTTCAGAACTTTTTAGAGAGTTTATAAACAAGTATAATAAACAAAACTTAAAAACAAAAATATACTTATTAATAGACGAATACGACCATTTTGCAAATGAACTTTTGAGTTTTAAACTCGATGAATTTAAAAATATCGTTAGTAAAACAGGATTTGTTAGAAAGTTTTATGAAGTAATAAAAGAAGGAACACGATCTGTTATAGACAGACTATTCATAACAGGAGTAGCACCAATAACCTTAGATAGTTTAACGAGTGGATTCAACATCTCAAAAAACATGTCAACAACATTAGAGTTAAATGAAATGATGGGATTCACTGAAAGTGAAGTCAAAGATATTCTCAAAGAGTATCAAATAAATGATGATATTTTACAAGACATGAAGTTCAGCTACAATGGATACATGTTCAATGAACGTGCAAGTAAAAAAATTTACAACAGCGATATGGTCTTATACTTCATTTCTGAATACAACAGAGAAAAGAGAAAACCAAAAGATGTAATAGATATGAACATAGCAAGTGATTATAAAAAAATACAAAATTTATTCAAACTTGGTGAAGTTGTTGGAATAAATAATATAGACAATGAAAAAGAAGCAATAGGAAACCTTTTAAATGAAATATTAATGACAGACAAAACAGAAATAGAAGAGTTAACAAGAGCATTTAACCTTGAAAGAAAGATGGAAATAGACGATGTTAAAACCTTACTCTTTTATTTAGGCTTTTTAACAATAGAATCAAAAGGGTTTGTAATGAACTTAAAAATACCAAACTATTCAATAAAAAAGATATACTCAGAATACTTCTTAGAAATGATAAAAACAAGAGCAAAAAACTATATAGATACAGGAAAGATAAAGATAGCAATAAGAAAGTTGTTAGTAGATGGAAATATAAACTCGTTAGCAAGTGAAATAGAAGATGTATTAAAAAAACTATCAGACAGAGACTTTCAAAGCTTTAGTGAAAAGCACATAAAGATGCTACTGTTTAGTTATTTAATCTTAACACCATGGGCATACGTTAAAAGTGAGTATCCAGTAGAAGGAGGATACATAGACTTAGCAATGTTTAAAAGATACGAAGAAGTACCATACAATGCAATAATAGAGTTAAAATACATAAAGAAAAAAGATTATACAGAAAAAGTATATCAAGAAAAGATAAAAGAAGCAGTAAATCAAATAAAGAGATATGAAAAAACTATAAACAAAGAGTTCAATGGACCATTAAAAAAAGTAGTGATGGTCTTTGTTGGCAGAGAGTTAAAGTATCTTGATGAAGTTGATTAAAAAATAAAATTTAAATCTATAACCATTTATAAAAATATGGTATCAAAAAAGTCAATGACCAAAGAAATTTAGAAAATTTTTTTAAGTCAAAAGAGTGAAAAAAATAAAAAAGACAATAGAATTGAATAAAAGGAAGTAGATCAGAATTTAAAAATATGACTTAATTATAATAGATAAATTAGGATATATTTCTTTTGACAAAAAATGTTCGAAACTATTATTTACCAATTTATTTTTTGATAGCTGGGAAGAAGTTTTTTAAGATTCTGCACTAACTCGATGGCAGATAGACTTGCACACAAAGATTTTATGTTTAATATAAATGGGTACTTTAGAATAAAAAAACTCAAGATAGGATTGTTTTTCAATGGTTTTCTTAATTTTTTAACCTTAGTGGTACATTTTTCGAATGATATCTAATACATTTTTTGCTAGATATTAAACTATTACCTAAAATGATATATTGTGCTATAATTGAAACGAGGTGATCAAAATGAAAAAAGTGCCATATGGACTTCAAAATTTTGAAGATTTAATATTAGAAAATTATTATTATGTAGATAAAACTAAGTATATAGAAGTACTTGAAAATATGCCTGAAAAGTATATATCATTTTTAAGGCCAAGAAAGTTTGGAAAAAGTTTGTGGCTCGACACTATGAGTAAATACTATGATGTTAAGTATTCAAATGAGTTTGATACTATCTTTAAAGACTTGTATATACAAAAACATTCAACACCTAAAAAAAATAGTTATCATATTTTAGAGTTTAATTTTTCTGGTTTAAATACAGATAGTAAAGAAGTATTAAAGTATGGATTTAAAAATAAGGTTTTTAATAGTTTAAATTTTTTTATTAAACATTATAATTTAAAAATAAAATTAAATACAGATTTAAAAGAACCTGCTGATTTATTGAGTAATTTTATAAATCAGTACAAAGAACAAAACTTAAAAATAAAAATCTACTTATTAATAGACGAATACGATCACTTTGCAAATGAACTTTTGAGTTTTAAACTCGATGAATTTAAAAATATCGTTAGTAAAACAGGATTTGTTAGAAAGTTTTATGAAGTCATAAAAGAAGGAACACGATCTGTTATAGACAGACTATTCATAACAGGAGTAGCGCCAATAACCTTAGATAGTTTAACGAGTGGATTCAACATCTCAAAAAACATGTCAACAACCTTAGAATTAAATGAAATGATGGGATTCACTGAAAGCGAAGTCAAAGATATTCTCAAAGAGTATCAAATAAATGATGATATTTTGCAAGACATGAAGTTTAGCTACAATGGATACATGTTCAATAAACGTGCAAGTCAAAAGGTTTACAACAGCGATATGGTCTTATACTTCATTTCTGAATACAATAGAGAAAAAAGAAAACCAGAAGATGTAATAGATATGAACATAGCAAGTGACTATAAAAAAATACAAAATTTATTTAAACTTGGTGAAGTTGTTGGAATAAATAATATAGATAATGAAAAAGAAGCAATAGGAAACCTTTTAAATGAAATATTGATGACAGATAAAACAGAAATAGAAGAGTTAACAAGAGCATTTAACCTTGAAAGAAAAATGGAAATAGACGATGTTAAAACCTTACTCTTTTATTTAGGTTTTTTAACAATAGAATCAAAAGGATTTGTAATGAACTTAAAGATACCAAACTATTCAATAAAAAAGATATACTCAGAATACTTCTTAGAAATGATAAAAACAAGAGCAAAAAACTATATAGATACAGGAAAGATAAAGATAGCAATAAGAAAGTTATTAGTAGATGGAAATATAAACTCGTTGGCAAATGAAATAGAAGATGTATTAAAAAAACTATCAGACAGAGACTTTCAAAGCTTTAGTGAAAAGCACATAAAGATGCTACTGTTTAGTTATTTAATCTTAACCCCCTGGGCATACGTTAAAAGTGAGTATCCAGTAGAAGGAGGATACATAGACTTAGCAATGTTTAAAAGATACGAAGAAGTGCCATACAATGCAATAATAGAGTTAAAATACATAAAAAAGAAAGACTATACAGAAAAAGTATATCAAGAAAAGATAAAAGAAGCAGTAAATCAAATAAAGAGATATGAAAAAACCATAAACAAAGAGTTTAATGGACCATTAAAAAAAGTAGTGATGGTCTTTGTTGGTAGAGAGTTAAAGTATCTTGATGAAGTTGAATAAAATGTATAAAAATATAAAAATGGTGATTATAAAAAATCACCATTTTTATTTATATTTATACTATTACAAACGAAACTCTAAAAAATTTAACTAAAAATAACATTTTTGCAAAAAAAAAAAGAAATATATATTTAACATTAAAAGTGTTATAATGCTTGTGAAGTTTTACAAAATAAAAATAAAAAGATATATAAAGTATACATTAAAAACATTTTTGTAATATTAAGGTTGTAAGTAAAATAGTTAAAAAATATTAGTTTAAAATCATTTGAAGAAAAATTCACAATATTGATGGTGTAAGTGAATAAGTAAAATAGTTAAAAAATATTAATTTAAAGTTATTCGAAGATATTTTCACAATGTTTTTTATAAAAATAATAAAAAAAACAAATGCCTGTATTTTGCAAGTGAAGAATAAGCTAAATTATAATTGAAAAATGGTCCAAAAAAATAAAATGTTGAAAACATCTACATTTTGAGTAGGTAACATAAAAAGTAATGATGGTCTTTGTTGGTAGAGAGTTAAAGTATCTTGATGAAATTTAATTAAATATAAAAAATGGTGATTATAAAAATCACCATTTTTTATATTTAAAAGCTTTTATTATATTTATATATTGGAATAGAAATTGGAATATCTTGATAAAACATTCTTTCTCCAATTGTTATTAATAATGAAATAGAATATTTTTTATTAGTAAAATCATATGAATTATCAACTGTAAGATTTAAGTTATTTATTCCAGTTTTTCCATCATTAAAATATAAATTTAAATCAATCAATGGTATTTCAAATGTTGTTCCAACAGACAAACTTGCTGTATACAAGCCTTCATAAACAATCCTTGGGGTAATTTTAGAGTTAAAAATAAAAAATGGTTTATTTAAAATCATTTTATATTCTAAAGTATTATTTAATAAATTAGAGTTCAAGCTTAAATTCATTCCAAAATCATACATTTGAAAATCATTTATAGTATATGGGTTGTTAATAAAAGCTGTATTAAAATAAACAGAATTTAAATCTATATTTTTAAATTCTACATTTAAAACAGGTTGTATATACATTTTATTTTTTAAGTTTATATCAAAAGTGTTTGAAATTCCATAATCGAAATAGAATGTAGGTTTATTGAGAAAGTCTGTAAGTTTTATGGATATATTATGGTTTATATAGTAATCAAAGTTAAAAGACAAAGTTGTTGTTTGAAGACTATTTATATCAAATGTTCCAGTTATATTTCTTGATTTATTATTAAACATAAGAAATAAACCATAATAATATGAATCAGTTGAATTTGGTGTATTTAAAACATATGGAAAACCAAAAAGATCTGTTGGCATGTCAATATAATCTTTTTTATCTTTTATTTTAGTAAAATCAAACTTTTGTTTTGTTTCTATAGCTTTATTTAAAATTTCAATAGTTTTTTCTTCTTTTGTTTCTTCTAAATTTTTAAAGGTTAAGTGATATCCATTATAATCATAAAATAAATGATACAATTTATTGTTTATAATTACAGGATTAAAGCCACCAGTATAATACTTTGTATAAGTTTTTATTTTATTAGTTTTTAAGTTCAAAGATCTTATATTGTATATCCCATCATAATCAGCAGAATAAAATAATTCATCGTTGTATAAAAATAAATTTATTTCATTATATTTATCATTTGTGATTTGAATTAGTTTTCCATCATATACATAAATATCTGTTTGATTGTTTCTTGACATAGAAAAATAAATTTTACCATTATTTCCTGTAATTGAATTTATTGAATACTTTCCATATTCTATTATTTTTTTAATACTATTATTTTTTAAATCGTATTCAAAAAGACCTATCAATCCTTTTTCAGTTTTTGAATATACAATTTTTGAGTTGTCAACAAAGCCAAATTCTATAACTCTTGTATCTATTAGTGTATCTTTTATAGGACAAGTACACTTTAAATATAATTTATTTAGATATTTTCCATATTCATTTGATGTATCTAAATATATTATTTTTCCATCGTTTGAAATATCAAATTTTGATACATTGTTTTTAATTAATTCATTTTCTTTATAGAGACCATTAATTTCATTTGGAGAATTTTTTATGTAATAAAAATATTTTCCATCTGTTCTCAAATTTGAAGTTTTATGATAAGAGTTATTTGTTTTATTCCATAGCATTGTATATCCTTTAGATAGTTTATCTTCTTTATCTTTAATATATTCATTTTTTATTTTTAATAAAAAATCATACCAATTATCTTTTGTAACTGCTTTAAATGAAGTGCTTATGGTAGTAAAATAATTACTATTCATATATATTATTATCTTTTTTAGTGTATCTTCACTATAATATTCTTTTATTTTTTTTGTAATTAATGCACCATATGTATAGTTAAAACCAGCTATAGTGAAATTGTTACTATCTCTTTTTGTATTTAAATAATATCTAGGAAATTTGTTTGAGATAACTTCTGATCTAACATACGTATTAAACAGTGTATCTTCGTACCTTCCACCAAAGTGTTTACTTTCCATGAAAACAGATAAACCTTCATGTAAATAACTTGGCTCATAGATAAGAAAGTTTAGTGTTTTTTTAACACTTGAAAAAGGGATTGTTTTTAATAATGGATTAAAAACAGCGTTACCATAAAAAATATGATTTAATTCATGTGAAAAAACAAACTTAATCCAATTTGAGATATTTTTTCCAAGACCTATATTTGAATTTGGAGGAACTATATATAGTCTAATAACATTGTGCACAATATCAGCAAATGAGTTTACAAAATCCACATCATCTAAAAGGTACACTGTTATGCTACCAGCATTTGTTTCATAAAAATTACTGTATTCAGAATATAAATTTTCAGCTTCTTCATTTAATTCTTGAACTAAATAATCCAAACCATCTTCAAAAATAAAATCAAAGTTTTTTGTTTTTATATGTTTCATATTGGCTGGTGGAGTATAGTATATTCCAGAAAACATAAATATTGACATCAACAAAATTAAAAATAGAGTTATAACTTTTTTCATGTAATCCTCCTCGTTTATTTATATAATAAAGATAAAATAGTACATTGTACTATTTTATCTTTTTTTATAGTTATTTTTTATTTTTTCTAATAAATTCTAAGAATGATTTTCCATACTCTTTTGAATTTTTTAAGTCTTCTTCTGTTGGATAAAACTTAACTTTTATTGGAGGGATATCTTCAAAAGTTTTTAATCTCATCATTTTTAATCTTTCAGTTAAAAATTTAACTGCTTCTCCACTCCAACCATAAGAACCAAAAGCAGAGTAAACTTTATTTTTCCTTTCATTTACAACTGCTAATAAACCTATTGCTTCCCATATATACATTAGTGCATCATTATTTATTGTTGGTGAACCATAAAGTATACCATCGGCCCATTCTTGTTTTGAAACAAGAACATCTAATTTCTCATTTTCTGGAACTTCTACCATATCAAAAAGTTCAACTTCTCCACCAGCTTCTTTTATACCTTCTGCCATAGCTTTTGCTAATTTTTCTGTATTTCCATAAGCTGAAACATATAAAATAAGAACTCTTGGTATTCCGTGTTCATCTTTTTTTGCCCATTCTTTATATAAATCTATGTGTTTATTTATAAATTCTCCTCTGTGTATAGGACCATGGCTTGGAGCAAGTGTTTTTATATCTAAATTTTTTATTTTTTCAAGTGTTTTTCTTGTGTTTTCTTTAAAAGGTCCCATTATATGGACATAATAATAAAACATAGCTTCTAAATATTTAGCATAAGTTTTTTCATCTAATTTATCTATAAACATTCTTTCATCTGCAAAATGAGCACCAAATCCATCACATGTAAATAACATTTTGTCTTCTTTTAAATATGTGAACATTGTGTCTGGCCAATGCCAATATGGGCTCATTATAAAGTTTAGTGTTTTCCCACCTAAATCAATTTCTAAATCTTCAGTAGCTAATAAATGATTAAAAGGTCCATTTACAATTTCTTCTAAAAATTTTTTTGCAGGAGCAGTTGAAACAATTGTGATGTTAGGATTTAATTCTAATAACTTAAAAATTGCTCCAGAATGATCCGGTTCTGTATGATTTACTATTATATATTCTATTTTAGAAAAATCTCCATTAATAAGGTTTGATAACTTTTCCATATACAAGTCAATAAATTTATCATGAGATCCATCAATCACAGCATATTTTTCTTTACCTTTTACTAAATAAGAATTGTAAGAAGTTCCATATTCTGTTTTCATTATTACATCAAAGACTCTCAATAATGGATTTAAAATACCATTCCAATATACACCATTTTCAAGTTTTATACTTCTAGTTCCATCCATAATTTTTCCTCCTAAGTGAATTTTATTACATTGATTTAATAAGTTACAGTGTAATTTTAACACAAAAAATATAAATAAAAAAGGGGTTTCCCCCTTTATATTATTCAACTACTTCAAAATCATCTTTTCCAACACCACAAAGTGGGCATACCCAATCATCTGGTAAGTCATTAAACGAAGTACCAGCCTTTATTTCATTATCAGGATCTCCAATTTCAGGATCATAAATATAACCACATACTGTACATCTATATTTTTTCATAAATTACACCTCCACTTTGATTTCTTTTGAATTTTCCCAAACGCCATGTTTATTACAATAAGAAACTGCTATTAATTTTCCACTTTTTGCTAATTTTATTTTTGTTTTAATTATTGGTTCATTTATAGATGGTCCAAAATTATATCTTCCTATGTGTAGTGTATTTGGATCTTCATCATATTGAATATATAAATCTATCCATTTTATATGATGCTCTATAGTATTAGGGTGAGGAATTTCTTTTCCAACTGAAACTTCAACTTCAAAAAGTTCTTCTGATTTAATTTTTTCAGGAGCTTCAATAACAGGAGCGTGTTTTTCTGTTTTAAAATCAGCTGATTTAATAACTTCTCCAAATTTCATTTTTACACCTCCATTAAAATTTTACAAAATTATCTTTACCAGCACCACAAACAGGACATTTTTCAGGTAAAGAATCTTCGGTAGTATATCCACAAACATTACATATATATATTTCTTTTTCGTCTAAATCATCATTTTTTTCTATTTTTTCAATTGCATCTTTATACATTGAAGAGTGAATTTTTTCTGCTTCTATTGCAAAATGAATACTTCTTAATGCTTCTTTTTCATTTTGAAGTTCTGAAACAACATTATATGCTGGATACATTTCTTCTATTTCAAAATTTTCACCATCTAAACTTGCTTTTAAGTTTTCTCCATTTGTTCCTAAATAACCTAAAGCTTTAAAGTGATTTCTTGCATGAGTAAATTCTGCATGAGCTATTGCTCTCCACATTTTAGCTAAGTTTATATTTCCACTTTTTTCTGCATTTTCAGCAAAAATTAGGTATTTCATATGAGCTTTTGATTCACCTGCGAATGCATCTTCTAAGAATTGTCTTACCATAGGTCTTTTTACCATTTTTTCGCCCCCTAAAATTATTTCTGTGTAAATTATAACATTGTTTTTTTACAAAATTATATCTAAAACATATCTTTTATGTTAAAAGAGGTTATGAAAACAATTATACTATATATATTATTTCAAATTTTATTTAGAATTTTTTTGGTATTTTGAAAAATTTTAATAACAATGAATCAAAGGTATTATCATTTAATAATCTTCTTAAAAATAATAACATTTTTGCTTGAAAGGGAACGGCATAACGGGCCTTAGGTTTATTTGATTTTATAGATTTAATTATTACTTCAGCAACTTTGTCTGAAGAAAGCCCACTTTTTTTTACTTCATATATATTATAAAAACTGTCTGCAATAATATTTGCTATTTTTTTGTAAGCTCCATTTTCGGATCTTTTTCTAAGATTATCAACGGTAATTTTTCCCCAAGAAGTATTAATTGCTCCGGGTTCAATTAATATAGCATTAATTCCAAATTGTTTTATTTCATTTCTTAAACAGTCGGTAAATCCTTCAACTGCATGTTTACTTGCATGATACCATGTTCCCATAGGCATCCAAATTTTTCCACCGACAGAGCTTATATTTATTATTTTACCAGATCTTTGTTGTCGCATTATTGGTAAAACTAATTGTGTCATTCTTGCTAATCCAAAAAGATTAACTTCGAACTGTCTTTTTGCTTCTTCTATGGGAACATCTTCAACAGCTCCATAAGATCCATAACCAGCATTATTAATTAAGATATCTATTCTTTTTTCTTTTGAAATTACTTTTTCAACAAACTTTTTCATTGTTTCTTCTTGTGTAACATCTAGAAAAGATATTTTTGCACCTTTTTTTTCAATATCTTTCATTTTATCTATATTTCTTGCACCAGTATATACAGTAAAATTATTTTCTAATAATTTTAATACAGTTGACTTTCCTATTCCAGAAGAACCTCCAGTTATTATTACTACTTTTTTCAAATTAACCACCCCTTATTATAATTTTATCATAATCAAATATGAATTTAACATAAATTAATAAAAAATAATATATATTAATATAAATTAACATAAATTAATTAAACTTAATTTTTTTTAATAAAACTTTGCAATAACTAATAAAATATGTTATAATATATTTACGTACCGTTAATTTATAAAGGGGGAAGGAAAATGAAAAAATGGCTAGTTGTTTTAGTTGTTGTTTTTAGTGTTTTTATGTTCTCAAAAACTACTGTTGAATTTTGGCATGCTATGAGTGGAGATAGGATAGCTTTGATTCAAAGTATGGCTGAAGACTTTATGAAGCTACACCCTGATATAGTAATTAAAGCACAATATACCGGTAGTTATAGAGATACATTAAATAAATTAACTACATCTATAAAATCAGGAAAATCTCCTAATTTAGTACAAGTTTATGATATAGGAACAAGAGCAATGATTGATGGTGATGTTGCCTTACCAATGCAAGATATGATTGATAAAGATCCAAATTTTGATAGTGCATTATTTTTAGATCAAGTTTTAAATTATTACAGAGTAAATGGAAAATTATATTCAATGCCATTTAATTCTTCAAATGCAGTTTTATTTTATAATAAAACATTATTTAAAAAAGCTGGTTTAGATCCAAATAAACCACCAAAAACTTATGAAGAATTAATAGATTATAGTAGAAAATTAGCAAAAATTGGAGTAGCAGGATTAACTTGGCCAACACATTCATGGTTCTTTGAACAATTACTTGCTGCACAAGATGCATTATTTACAGATAATAATAATGGAAGAACAGGAAAAGCTGAAAATGCAGTATTTAATAGTGAAGCTGGAAGAAAAATATTTCAATTACTTGATACAATGACAAAAGAAAATCTGATAATAAATACAAAAAGAGAAGATTGGTCAGGTGCAAGACAAATATTTTTATCAGGAAAAGCAGCTATGGTTTTATTCTCAACATCAGATGCAAAAGCTTTTTATGAAATGGGAAAAGAAAATGGCTATGATGTAGGCGCAGCATTTTTACCTGTACCAAAAGGTTCTGCAAAAGGTGGAGTTATTATTGGTGGAGGAAGTTTATGGATGATTAAAGGACATTCTAATGCTGAAAATAATGCTACTTGGGAATTTGTAAAATTTATGGCTGAACCAGCACAACAAATAAAATGGCATTTGGGTACAGGATATTTTCCAGTTAGAAAAGATGCTATCGAACAATTGTTAGACAGTAATTTTTATTCAAAAAATCCAGTTTATTTAGGAACTATAATGCAACTTCTTATGTCAAAACAAGATTATAGTACCATGGGAGCTGTAATAGGTGTATTCCCTCAAGCAAGAGACCAAATTGAAACAGCTTTTGAAAAAGTTATTAACAATCAAGAAGATTATAAGAAAGCACTTGAAGAAGCAGAAAAATCTGTTACTGAGTCCATAAAAGAATATAATGATTTATATAATTAAAATATAAAAGTTGGACGATTTCGTCCAACTTTTAGTTTTAGGAGGAAAATTAAATGAAGATAAGAAAATTTACACCGTATATTCTGTTAATACCAACATTTATTATAATAACAATCTTTATTTATATTCCAACTGTTTATTCATTTAGATTGAGTTTTTTCCGTCAATCACCTTTTGGAAACAGAGAAATATATGTTGGAATTAAAAATTTTACTAAATTATTTACGGATCCAAATTATTATAGAGCTTTTGGTATAAATATTTTGTATGCACTTATAACTGTTACTGCAACAATTTTTTTCGCTTTTTTATTAGCACAATTATTAAATCAAAAAATACCTGGAACACGTTTTTTTCGTTTATTTATATTTTCTCCATATGCTATATCTCCAGCCATTGCAGGAGTTTTATGGTCTTTTCTTTTGAATCCTGTTGTTGGACATATTAATTATGTTTTTATGAAACTTTTTGGACTTCATGTTGAATGGCTTACACAAACACCATTTGCATTTATTTCAATTGTTATGGCAAGCATTTGGAAAATGTTGCCATTTAGTCTTATTTTTTACTTAGCAGGACTTCAATCTATACCCGACTCATTGATTGAAAGTTCTTTAATAGATGGAGCAAACCTTTGGACGAGAATGTGGAAAATAAAATTTCCTCTTTTATCACCAATTACTTTTTATCTTGTTATAATGACATTAACTTCATCAATGTTTTCATCTTTTGGAATTATAGATATTATGACAAAAGGTGGTCCAGTTGGATCTACAACAACATTAATTTATAAACTTTATTTAGATGCTTTTGCATATCAAAAAACAGGATTAGCAGCAGCACAAAGTATAATAATGTTTTTAATAATGGGAATAGTAACTTATATTTATTTTAAAAATGTAGAAAAAAATGTACACTATCAATGAGGTGATTATATGAAACTTAGTACAAAGAAAAAAATGTCTTTTATTACGTCTGAAGTATTATTAGTTATAATTTCTTTAATTGTAATGTTACCAGTAATATTAGCAATTTCAATGAGCTTTATGAAACCAGAAGAAGTTTTTTCATTTCCACCAAAATTAATTCCTTCTACTTTGCATATTCAAAATTATATTGAAGCAATGCAACTTGTGGATTTTAAAAGAATGTTATTAAATTCAACAATAATAGCTTTTTTTATAACTTTAGGTAAATTAATAACAGGAACATTAGCGGGATATGCTTTTGCAAGTTTTAATTTTAAAGGTAAAAAAATATCGTTTGGATTATTATTTATAACTTTATTTTTACCTGCTGAAACAGTTATGGTACTTCCATTGTTTTTAATAGTTAAAAATTTTGGTTGGGTAAATACTTTTTGGGCTTTAATAATACCATTTACAGCTTCAGCAACTAATGCATTTTTAATGAGACAACATTTTATGACAATACCAAAAGAACTTGAAGATGCTGCTAAAATAGATGGAGCAACTTCTATGGAATATTTTTGGAAAATATTGATACCATTATCTAAACCTATGATAGGTGGAGCTGCTCTAATTAATTTTGTTTATGCGTGGAATTTATATTTGTGGCCTCTTATAGTAACTATGGAAGATAAAATGAAAACTGTACAAATTGGTGTAAAAATGTTGATTGATGGTCAAGGATCAAATAATTGGGGAGTAATAATGGCTGGTACAATAATTGCATTAGTTCCAACATTACTGATATTTTTTGCAATTCAAAATGTTTTTGTTAAGAGCCTCGTTAGTTCGGGATTAAAGGGATAGTATAGTAATTTAAATAAAAATATCTCCACATTAAAAGATAATTAATCTTTTTTATATTGGAGATATTTTTTTATTAAGAATGTTATATTAAGAGTGTTCTATTTTTACTTTTGATCCATTATTTCCAGGGTTTGCAGAAGTTATTAATAATTTTGTTGGAACTCTATCTTTTAATTCATCAATATGAGATATTATTCCAACTGATAATTTTTCATTACGAAGTTTTTCTAAAGAATTCATAACAGTATCTAAGAGTTCATTGTCAAGAGTTCCAAATCCTTCATCTAAGAAAAAAAACTCGAGAGGTATTTTTCCTTTTAATTGTATTTGTGAGGATAATGCAAGAGCTAAAGATAAAGAAGCAAGAAATGTTTCTCCACCAGATAAGCTTTTTGGATCTCTTCTTGTGCCACCATTTCCATCATCTCTTATAATAAAATTGCTTTCATTATCGATTTCAAGTGCATATCTTTCATTTGTAATTTTTTTAAGACGCTGTGAAGCATCTCTTGTAATATGATTCATTTGCATTGATGAAATAAATTTTACAAATTTTTTTCCTTCAAATAATTTACTTAATTCTTCATAAATATCTTTTTTTTGAATATATATTTTTAATTTTTTTAATAAAGAATTTTTGATTTTTATTTTTTCAATATTTTCATTAATTTTATTTTTTAATAAAAATTCTTCTTTTTTTATTTTTTCTAAATGGATATTTAAAGTATCTTTTTTTGTTTTTATTTCTTGATATTCTTTTTCTGTAATAGATTTTCCATTTAATTCATTTTTTAAATTTTCTAAAGTGCCATTTATTATAGTCAAATCTTTTTTATAATTTTCTACAATTATTTCAAGTTTATTTATTTCTTCTGTGTCTAAATAATATTTTTTAATATCGTCTTTATCTTTAAATGGAGTTTCTTTTAATAAATTTTTTAAAAATTCATCTTTATTTTTTATTTGAGAAGACAGGTTATTTAAAGTTGATTTTTCAGATGAATATTTATTTTTTAAATCATTTAAAAAATTAAAGCTTTTTTCTAATTCTTCTTTTAAATTTTTTTCTTTTTCAATAAATTCTTTCAATTTATTTTTTGTATTTTTTAATTCATTTTTTAATGAAGGGTTTTTAGTTATTGAATTAAGTTTATTTGTTGTAATTTCAATATCTTCTTTTAAAGATGTAATTTTTGAAGTTAATTCAGTTTTTCTAATATCTAGATTATATATTTCTTTAGTTATATTTTCATTTTCTTCTTTTTTTAGAGTAAATATTTCATTTAATTTATTAATTTCATCTTCTAATTTTTTATAAATTTTTTCTGAATTTTTAATTTCTTCAAATTTTTTATGAGGGTTTTCTATTTTTATAAGTTTATTTCTTGAATTGTATTCATTACTTTTCTTTTTTAATTCAATATTTAATTCTTTTATATGTTCATTTTTTTCGGATATTAAGTCTTTTAAATTTCTTAATTTTTGATTAGTAGAAGAAATTTTTTCTTTTAAGTTTATAAAGTCTTCATTTTTTCTTTTAATTTTTATTTTTAAATTTTCAATTTTTAAGTTATTTTTTTGATTTATCTTTTTTTGATTTTCATATAAATCATTTGATTTTCTGTAATTTTCATTTAATTTTTTAAGGTTAAATTCATTTAATAAATCATTTAATGGCTTAATATCATTTTTTATTAAGTTTATTTTTGTATTTAAAACTGCTTCTTTCTTTACAATATCTTCTTTTTTAAAATTTAATTCTTTAATTATATTTTTTATATTCTCTTCATTTTTAATATCAATATCAATAATTTCTTCAAATTTTGCAGGGTTATCATGATGTTTTGAACCACAAACAGGACAAGGTTCATTTTCTTTTAGTGTTTTTGCTATTTTTGCATATAAATTTTTTATATTTATTTCATTAATTTTATTTAAGATCTTTTCATTTTCTTCAAGGGAATTTACAATATCTTTTTGTAATAAATAATAATTGCTTTTTTCATTTTCAAGTTTTTCTAATGCGCTTTTTAAGTTTTTAAGTTTTAATTTTTTTTCTTCTATATCATTTAATTGGTTTTCAGATTTCTTTAATTTTTCATAGAATTCTTGTAATTTTTCATAATTTATTTCATTAGATAATGAAGCTTTTTCATTTTCAAGTTTTTTTATTTCAACATTCATGGATTCATTTTCTTTATTAAGTTCTTTTATTAAATTATTGTTTTTATAGAGATCATTTTCAAGTTCTTCTTTTTTTGTTTGTGTATTATTTAATTCAATCTTTATTTTATTTTTTTCTTTATTTATTTCTAATAATTTTAAAAGTATTTCTTTAACTTCAGGTTTTATTATTTCTTTTATGTTTTCTTTCTTTTGTATCAAAGTTTTTAAAAGTTTAGAATTAGAATTAATATCATTATTTATATTTTTGCTTTTATCTAATAATATTTGTTTATTTTCAATAATTTTATTAAGTTCTTTTTCTAACTTGTTTTTTTTAGTTTTATTAGTTTTATTATTTTCTTCAAATATTAATCCATCTTTTAGTTTTTCAATATATTTAATTAAATATTCATAATTTGATTCTTTTTCTCTTAAAGCAAGTTTATAATTTTTATTAATTTTATTAAATTCATTTTCTTTTTCAATAATTTTATTTTTTAAATCATTTAAATATTCATTTTTTTTCATAAAAATTTCGTTTAATTTTTCATATTCTAATATGTTTGGTTTTATATTTATAGCTTTTTTGGCTAAAATTATTTGTTTTTTATATAATTCTATTTTATCCTTATTCTTTAATAATTCAATTAATTTTTTTTCTTCTTCAAATAATTTATTTTGATTATTCCATAATTTTTGATATTTTTCAAAAGCTATAGAAGTAAGTTCTTTTTGAATACTTTCTTTTTCTTTATTTATTTTTAAAAGTTCATTTTCTAAAAATTTTAATTTTTCTTCGTTAATATTTTCATAAGCATTTAATTCTCCGTTTAATTCATTTATATTACTTAATAAATCATTTTTTTTATTTTTTAATTCGTTATAAAGTTTATCTCCATATTTTTCAAGCATAAATATTCTTTGAAGCATTTCAGCTCTTTCTGTACCTTTGGTTTGAGTTAATAATTCGTTAAATTTCCCTTGAGGAAGAACAACACATCTCAAAAAATCTTTATCATTTAATCCTATTATGTCTTTTATAACTTTTTTTGCTTCAGATGTATTTTCTGCAATAGTTATTTGTTTATTTAAATTTTTTACAGAACATTTGTGACTTAATATTCCATTTTTATTTCTTTTAAACTCTCTTTCAATTCTATATTTATTTTCTCCTATTGCAAAAGTATAATTTACAGCTGTTTTTTGTGATGAAGAGTTTATAAATTCTTTTGTGTTTCTTGGTATAATACCGTAAAGTGATAGTACTATTGCGTCTAAGATGGTTGATTTGCCACTTCCTGTTTTGCCAAATATTCCAAAAAAACCATACTTTGTTAGTTCTTCAAAGTTTATTACTTGTTTTTCTTGGAAGCTATTTAAACCTTCTATTTCAAGTAATAGCGGTTTCATTTTATTCACCAACCTTATTTATTAATTCTAAAAATGTTTGAACTAATTCATTTTTTGGTTCAATATTGTTTATACTTTTATAATACATTTTAAATAGTTCTAAATCTGTATAAGTTTTTTCAAATTCTTGTTCAGTTTTTTCTTTAAGTATATCTGTAAATATTGGTTTTATTTCTAATAGATCCTTTTTATATTTTTTAAGTTCCTTTATTTCTTCACCAGTAAGAGGGTTTTTTGTTTTTATTTCAAGATAAGCCCATACATTTTTTTCTGAATTTTTTTTACACAAATTAATTGCTTCATCAATTGAATTAGTTTTCCAGATTTCAATAGGTTTATAATTTTTTAGCATTATTTTTTCTATATTTACTTTTTTATTTTTTTGTATTTCAACAAAAAGAACTCCTTTTATATGATTTGATTCACTTTTACTGTATTGAATTGGAGAACCAGAAAAAAATGCATTTTTATGTTTTGAAACTTTTTGTTGATTATGAAGATGTCCAAGTGCAATATAATCTGCATTTTTAGGAAGATGCTCTGGATTTATTGTATAAATTCCACCAAGTTCAATGTTTCTTTCTGATTCCGTTGAAGAACCACCATTGACAAAAAAATGAGAAACAAGTATATTTATTGTATCTTTTTTAAAATATTTTTTGGATAAATTATTAAATAATTCTCCTATTCTTTCAGAGTACGTTTTTTGAAAATCTTTATCATTTATTTTTTTTTCAAAGATTTCATTTAGTCTTTTTTCACTTGGATAAGGTAAAGCAATTATTGCTGCTTTTTCATTATCTTTTAGTATTTCAATATAGCTTTCTTCTGAATTAATAACTGAAAATCCTTTATAATAAGTGTATTCAGTTTTACTTTTTGGTGTTCCAAATATCAAGACACCAAATTCATTTGCTAAAGGTTTAATACTTTCAAGTCTCTCTGGACTATCGTGGTTTCCTGCTATTATAATTACAGCTCTTTTTCCTTCTTCTGAGATATTTTTTATTGCATAATTAAATAAGTATTCAGCTTCTGATGGAGGATTATAAGTATCAAAAATATCTCCTGCTATAATTATTAAATCTGGATTTTTTCTTTTAACTATTTCTATAAATTCATTGATAAATTCTCTTTGTTCATTTATTCTACTGTATCCTTCAAGCATCTTTCCAAGATGCCAATCTGCAGTATGTAATATTTTCATTATGCACCTCATATATTTAAAAGTATTTTTATGGTATACTAAAATAAAAACAAATTGGGGGTAATTATGATGATAGATAATAATATACTTAATTTTTTTAAACAAAAAAAAATTAGAATTCATATTGAAGGAAATATTGGTTGTGGAAAAACAACACTTGCTAATGCTTTATTTGAAAAATTAAACGCTGATGAATTGATTTTAGAAGAATTTGAAAATAATCCTTATCTTCCTTTATTATATCAAAAAAAAGATGTTGGTTTTCAAACTGAAATGTTTTTTTTAGTTTCACGATTTAAACAGTATAAAAATGAATTGCAAAATAAATTTATAATTTCAGATTATGATATGTTGAAAAATAAAATATTTGCTGAAATAACTATAAAAGATGAAAATGAAAAAGATAAGTTCTTAAAAATATATGATATTTTAAATGAAGAGATAAGGAGTCCAGATGTTTTAATATATATAGATATAAATACAGAAGTAGCAATACAAAGGATAAAAAAAAGAAGTAGAAGTATAGAAAAAATTATAGAAAAAGACTATTTAGAAGTAGTTAATAATAGTTATAAAAAATATTTTAAAAAACAAAAAAATTATATAAAAATTGATGGAAATACTTTCAATGTTTTTGAAGAAAAAGAATTAAATGAATTGATTTTAAAAATAAAAAAATTTGTAGAAAAAAACTGATAAAGTATTTTTTAAAAAAGTTTGCATTGCGTACTAAAATAATGTATAATTAAAATGAATAATTTTTTGGGGGTGAAAAAATGAATTTGTTAATAAAAAATGTGAATATTTATTCTATTAGTTCAGAACCATTTGTTGGAGATGTTTATATTGAGAACGGTAAAATAGAAAAAGTTGGTAAAGATTTAAAATATGATGTTGAAACAATAGATGCTACTGGTAAATTTTTATTGCCAGGTTTTGTAGATCCTCATTCACACATAGGATTATTTGAAGAAGGTGTTGATGGAATACATCAAGATGGAAATGAAATGACAGATCCTGTTACACCTCAAGTTAGAGCAATAGATGCATTTGTAACTAATGATCCTTCTATTAAAAGAGCTTTAGCTGGTGGAGTTACTACGGTTATGATTGTTCCAGGAAGTGGAAATTTAATAGGTGGTCAAGGAGCAATTATAAAGTTTAGATCAAATATAATAGATGAAATGATTGTTAAAGAACCAGCAGGATTAAAAATGGCTCTTGGTGAAAATCCAAAAAGAGTATATAATTCTAAAAATAAAATGCCTTCTACAAGATTAGGAAATGCGGCTGTTATAAGAGAATACTTCATTAAAGTACGAAATTATATTAATAAAAAAGAAGAAGTTATTAAAGAAGGAAAAATTTTTAAAGATATAGATATAAAAATGGAAATAGGAGAAAAAGTATTAAAAAGAGAAATTCCAGCAAGAATACATGCTCATAGAAAAGATGATATATTAACTGCAATAAGACTTTCAGAAGAATTTGATTTTGATCTTGTTATAGAACATGCAACTGAATCATATAAAATTGCAGATTATATAGCAAAGAAAAAAATACCTGTTATTCTTGGCCCTTTATTTGGATTTAGGACAAAGCTTGAATTAAAAGATATGACATATGAATCAGTAAAGATAATTAATGAAAATAATATTTTAGCAGGTATAATGTGTGATCATCCAGTTATACATTTAGAACATGCAAATATACATGCGGGAACAGCTTTAAGATATGGAGCAAATGAAGAAGATATACTAAAAATGTTAACAATAAATGGAGCAAAAATTTTAAAACTTGAGGATAAAATTGGAACTATTGAAGAAGGTAAAGATGCAGATATTGTAATATGGTCGCATCATCCATTTGATTTAAGAGCAAAAGCCGAAAAAGTATTTATTGAAGGTAAAAAAGTTTTTGAAATATAAAAAAGAGCCTTTAGGCTCTTTTTTGCTATATAATGCTACCTTCAATTGTTTTTATATCTTTTTTAACAGTTATTGATGTTTTTATTGCAATTAATAATGATTTAGATATATTTTCTAAAGACATACTTGGCATATTTGATTTGTTTAAAACTTGTTCTGGTATGTAAGGAACGTGAATAAATCCACCTTTTTTATTTTTAAATTTTGTATTTATTAAGTATAACAGTCCGTACATGATATGATTACAAACAAATGATCCAGCAGAATTTGAAATTGAAGCTGGTATTTTATTTTTTTTAATATTTTCAACTATAGATTTTATAGGTAAATTTGAAAAATAAGCATTTTCTCCGTTTTTAAAAATTGGTTCATCTATAGGTTGATTACCTGCATTATCCTTTATTCTTGCATCATCAATATTTATTGCAACACGCTCTACTGTAATTTTAAATCTACCTCCAGCTTGTCCAACACATATAATTATATCTGGATCTATTTCTATTATTTTTTTTTCTAAAATTTCAATAGATTTATTAAAAATAGTAGGTAGTTCTAATTTAATTATATTTGAGTTAAGTACTTTATTTGGTAATAATTTTATTGCTTCAAATGCAGGATTAATTGATTCATTTCCAAATGGGTCAAATCCTGTTATCAATACTTTCATAAAATTACCTTCGTTTATTTTGAAAGTAGTCACGTGCTTTAAATACTAAAAATATTATTAATGCAAGTGGTAAAACATAAATAAAAATTTTAAAGGCTATATAAAGCAAAAATGCAGAAATTATTATTGCTATTGCAATATAAATAGAAATAGTAAAATAACTTTTATCCCTCATATTCATAAGAACACTTCCTTTTTAATAGTTTTTGTTTAAATTTTTAGTAAGAGTATAGTTTAATATAGTTCTAAGAGCAATAATAGCTGCTAATTTTCCTATATCGTCCCATGTAGGAGCAAAGGTTGTTTTTAAAATACTTGCTCCTATTAAAAATGATAATGCAAGTGAAAATGCATGTCCCATTTCCATTCTGCTTTCGGACATGGAAGCCATAGATTCGTTTTTTAAAACTGAATCTTTAAAAAATAAGTATATTGATTTGAACATAGCAACAGTTATAACTACTATTGCGAATAATTGAGCAATGTAAGAAACATAATTATTTAAAAAATCTACAAATTCAAACATGATGCACCTCGTCTTCTATTAAATAAATTATACCATAAAAAATAAAAGACGTTGCAATCAACGTCTTTATAAATTTTCTTTATTTTTATTTATATTTTTTATACCCAAAACAATTATAAATGCTAAAATTATTCCAGTAATAAATTGTAATATATTCCAAGGAATGCCAAAAATTGGAGTTATCCAACTATGATAAATTATTACTTCAGCAAAATAATATCCAAATACCATCCATAATCCTGCAATTGTCATACCTATAATATTACTAAAACTAAATAACTTTGAATCTTTATTTCTAAATATAAAAGATATTAAAATTGCTACAATTGGAATTAAAATAATAGCCCAAAATAATGGAGTTTGAACATTTGATATTTTATTTTGTAATTCTTGTACATTTGTAACTTCTAAAGTTTTCATTAGTGAATCAGTTGCATTATTTTTTAAATTTGAAAGAACGGTATTCAATGTTCCACCAAAGATGATCCATATTATCATACTAATTGAATTTATTATAATTCCAGTTTTTTTATTATTTTTTAAATCATGGGCAAAATATCCAACTATTGCTCCCATTATTGCTTTAATTATTAAAGTTGGAATAACATATATACCATATCCACCAACTAAGTCTGACATAGCTGATCCCAAACCGCCAGCAAGAGCTCCAACTTTCCAACCAAATAAGATAGCTGCAACAAAAATCATGCTATCTCCTGGGTGCACATATCCAAGACCTGGAATAGGTATTTTAATACTGAATGTTGCAACAAAGACTAAAGCAATCATTAAACCGGAATAAATAATACGTTTTGTTTTTGTCATAATTCACCCCTTATATATAATTATTGTTTTTTTCTCATTAAATCAAAACAACTTAATTCTTCATCGAATTTCATTTCTATTAACATATTTGGGTTTGCTTTATTTATTATTTCGCCTGTTTTGTAGTTGATCATTTCTGGAATTTTTATTTTTATATTTTCACCTTGTTTTTTTATTAAATCAACTGTATCTCCAACTTCTAATTTATTTCTTGCTTCAATTAAATAATTACCATTATCTAATTTTTTTAATACTTTTCCAACTAGTATGTGTGTGTGTTTATATCCAGAAGTATCATAATTGTGATCTTCTTTTCCAGGCTTTTTAAAATAAAATCCACTTGTATAATTTCTGTGGCTTATAGTACCTAATTCTTCAAGCCAATTTTTATTGTATTTAAAGTTTCCACCATAGTAATTATCAATAGCTTCTCTATACATTTTTACTGTTGTTGCTGCATAATAGATACCTTTCATTCTACCTTCTATCTTTAAACTATCTAAACCAACGTCTAATATTTTATCTAAAAATTCTATTGTACATAAATCTTTAGAATTCATTATATAAGTTCCATGTTCATCTTCTTGAATTGGGAAATATTGTCCAGGTCTTGTTTCTTCTACTAAGTGATATTTCCATCTACATGGTTGAGCACAAGCTCCTCTATTTGCATCTCTTCCAGTTAAATAATTACTGAGTAAACATCTTCCAGAGATTGACATACACATTGCACCATGTATAAAAACTTCTAATTCAACATCTGGAACTTTATTTCTGATTTCATGAAGTTCTTTTAATGAAACTTCTCTTGCAAGAATAACTCTTTTTGCACCTAGTTTTTTCCACATTCTAACACTACGCCAATTAGTATTACTTGCTTGTGTACTAACATTTATTGTTAAATTTGAATGTTCTTTAACAAGTTCAAAAACACCTAAATCTGCAACAATTACACCATCAACACCAATTTTTTCTAAATATTTTACATATTCTGGCATTAATTCAAGTTCTGCATTATGAGCTATTACATTTAAAGTAACATAGACTTTTTTATTTAAAGAATGAGCATATTTAACAGCTTTTTCAAGTTCATCTTCATCAAAATTTCCAGCTAGCGCTCTTAAATTAAACAATTTGCCTCCCATATAAGCTGCATCTGCACCAAAATTCAATACTGTTTGAAGTTTTTCAAAATTTCCTGCTGGTGCTAATAATTCTGCTTTTTTCATGTATAAACTCCTTTCATCATTTTCAAAAGATTATATCACATAATTTTTTAATTCTGTATATACAAAATTAAACAATTATGTTTTGAAAAATTTTTAAAGAAAAACATTATTATTTTATAGTATCAAAAAAACAATTTAAAAAGGCACTATATAAATATGATATCAATAAAATAAATCAAAAGCACGTATTAACGTGCTTTTGATAGTTCTTCATAGGCTTCAATTATTTCTTTGTATTTTTCTTCATAATATTCTTTGTTTTCACTATTTTTATCTGGATGATACAATTTTGTTTTTTCTCTAAATTTTTGTTTTAATTCTTCTTTAGTAAAATTTCTTGATACTCCCATTATATTACAATAATAATCATATTTTTGAGATGAATTATTTTGAAAATTATTTTTGTTTTGGTAGTATTTTTGATAATTAGTATTTTGATATGTTCTGTATTTAAAGTTTTTAAATTTTGACTTTGTTAAAAAGAACAATATTATAAAAAATGCAATAAAAAACAGTGGAAACTTTAGAAATAATAAAAAAAATCCTATAATTATTTTAAAAATAAGTTTAAAAAAGAAAATAGTTAAAATTAAAATAAAAAAAAGAGATAATATTAGTTCCATAATACACCTTCTTTAAATTTCATTGTAAATATCTATGAATACAGTTTTTACATTAAATTTTTCTTCTAATAATTTTGCAAGATTTTTAACACCAAAGGTTTCTGTTGAATAATGGCCTGCATTTATAAAATTTATTTTTAATTCTTGAGCATAAGCTTTTGAATATTCTTTTGTTTCTCCAGATATAAAGGTATCAACTTTATTTTCTAATAATTCAATAGTATTTGCAGAGTCTCCAGAAATAATACATACTTTTTTTACAAAATCATTATTTTTATAAATTTTTAATTCTTGATTTTCAAAAACTTTTTTTAAATTATTTTTAAACTCTTCAAAAGATATTTTTTCTTCATAATTTCCAATAAATCCAAAATTAAAAGGAACTGGATTTAATAAATTTAACTTTTTTAGAATAGAAATGTTATTTCCATATTCTTCATGAGAATCTAAAGGTAAATGATAACCCATTAAAGTCATATCATTTTTTATAACCTTTTCAATTCTTTTTTTTTGAAATCCTGTTAATTTAAAAAAATTTTTTCCAAAAATTCCATGATGTACAAGCATCATTTGACAATTTTGTTTTATTGCTTCATTTAAAAATTCTTCATTAAAAGAAACACCTATGGCTATTTTTTTTACTTCATGAGTTCCTTCAATTTGTATTCCATTGTGGCAAAAATCATTAAAAGTTTCTACTTTTAAAATTTTATTTAAATAGTTTTCAGCTTCAAATATATTCATAGCTTCATCTCTTGTATCCAGTTATATTTCTTAAAAAATCATATTTTTCTTTTTTTGCTTTTTCATCTTCTACTCCTTTGGGTGAATATCCATCTATTACACCCATTATTCCCCTTCCAAGATTTGTTTCTGCAATTATTACCTGTAATGGATTTGCTGTTGCGGCATATATGTGAGTAACTTCTTGTACATTTTTTATTTGATTTAGTATATTAATTGGAAATCCATTTTTCATGACTATTGTAAATGTATGTCCTGCTCCAATATTTTTTATGTTTTCTATTGCACTTTGAATTAATTCTTCATCGTTCCCATCATATCTAACTAAACAAGGCCCAGATGCTTCATTAAAGGCTACACCAAATTTTATGTTTGAATTTGTTGTTACTATTGTTTCGTATAAGTCTTCTACTGTTTTTATAAAATGAGATTGTCCAAGAATTACATTGGCATCTTTTGGTAAATTAAAATCAATTACTTTTAGTTCCATAGTATCAACTCCTTAATTTTTTAGTATTCAAATTATATTATACTATAAAACATATAATGAAAAAAGTTCCCGTTATACGAGAACTCCTTTTATTATTAATTCTGTTGCTTCATCTTCTGATAATCCTTTTGACATTAATGTCTCGAGTTGTCCTGGATTTATTCTTCCTACAGATGCTTCATGAGTCAATTCAGATAGTTCGTTTCTAACCCTTAAAAGTGGTATTGTTTGAACATCTACTTTGTTTCCATCGACTATTTCAGTACATTCAATATGCCCAACAGAGTAGTCTCCATCACCATATGCCTCATTTACAATTTTTGCATAACTTTCATCTTGAGCTATTACATAAGATTTTGCTATTCCTGATGATTTTGTTCCAGTTAATCTAATTATTTCATTTACTTCTAATCTATCATCTTTTTTGGCTTTTACTTTTGTTTCAAGATATGTTTTAGCATTTTCTTCTAGATTTACATCCATTAAGACTTTCATATTTCCTATTCTTGTTTTTACTAATTTAAATCTACTATCGTATACCGAATTTTTTCCAACATTTGCATAATACTTTGTATCTAAGGTTACAAGTCCTTCTTCATTATGAAAATGTATGTCTTCAAAACTAACTTTTGAGTTTTCTCCTATTTTTAAATTTGCAGTCATTTCATGTAAAATATCTTTTGCTGCAGGGAAAGTACAATGAGATAAGAAGTTTAATGAACAATCATTTCCTATATTAAATTCATATTCAAGGTGTTGTTCACCAAATTTTTCAAGATATCCAACACACAAATGAATTTGTTTTTTTAATTTTACTCCATCTTTTGCAGTAAAAATTACTTTTACAAAGTTATCTTTTATTTCTGATTTTAAATCAATTCCTTCAACTGTATTTCTTCCAAGAATTTTATTTCCACTAATTATTATTGAAACTATGTCTTTTGATAGTAGTTTACTTACATCTCCACCAGATTTTTCATATGCTTTTGATATATATTCAAATTCTTTTGATTGATTTTTTTCTATCATTTTAAGTTCACCTCTATGTCTTCTATTGGTGCATTTATATGAGAACATGTATCACACATACTTTTATAAACAAAACTTACAACTTCAGGGTCTCCTTCTTTATGAATTTTACCTCCACACAATAATAAAGCTTTATCTGCAATTAAGGCTATTTCTTCTCTGTGAGTTATCGAAATTGTTGTTCCTCCATTTGCTTTTGTTTTGTTTATTACGTTTTCAATTATTGCATTTGACATCATATCAATACCAGAATCTGGTTCATCAAGTATTACTAATTTTGGTTTTAATATCAAAATAGATGCCATTTCAATTCTTTTTCTTTCTCCTCCACTTAATGTTTTATCAACATTTCTGTGTAAATAAAATGGATTTAATCCAACTTCTTTTAATATATCTGTTAATTCTTTTTCTGTTTTTTTATACTTTCCACCAAGAGTTAAGTAATCTTTAACTCCTATTCCTTCAAATCTTACTGGTTCTTGCCAGGCCATAGTTATTCCAAGTTTTGCCCTTTCTGAAACAGACATTTCAGTTATATCAATGTTATTAAAGTACAATAAGCCTCCATGTTTGTTTTTGTATCCTTCTAATCCCATTATTATTTTTGAAAGAGAAGATTTTCCAACACCGTTATTACCTAAAACAGCATAAGATTTACCTTCTTCAAAGTTATAAGTTACATTTTCTAAGATTTTTCGTTCATTTGCATAAAATGAAATTTCTTTTAATTCAAGCATTTTTAATCCTCCATTAGTAATGGTATTTTTCGTTTTTTATAATTTTATTTGCTCTGTAAATTTGTTCTAAAGTTAACAAGACTGCCATTTCATGAGTAAAAGTCATTTTAGATAGTCCAAGTAATAAATTGGCGTGATTGTACATTCTTTTATCATGACCTAAAGGACCACCTATAAAGAAGTTTATGTGTTTTTTTCCAGATAAATAAAAACTTTCAATTTTTTTGGAAAATTCTATTGAGGATATTAATTTTCCTCTTTCATCTAAAACTATATTAATTGTGTCTTGAGAAATATATTTTGAAAATTTTTTATAATCTTTATCTTTGTATTCTTTAGCAGTCATGTTATTTAAATTTCCAGATAAGTTTATTTGAATTAATTCAGTTTTATGATATGGTTGTACCCATTTTAAATATTGATTTACACCATTTATTATAAACTTACTTTTTAACGGTCCTATTACGATAACTTTTATCATGTTATGCCTCCGTTAAGTATTTTTATTAATCATTAATCCTTTTGTTGCAATGCCAAGCAAAATTGAAAATGAAAGCATCGGACTTCCTCCAGCTGTTAAAAAAGGTAATGGAATTCCTGTAACTGGCATTATTCCCATATTCATTCCTATATTTTCAAATACATGGAAAAAAATTAAAAATGCTGATAATATATAAAAATATTTCCAAAAATCATCGTTGCTTTTTTTATATCCAATGTACATTCTCCAAATCAACAATGAATATAATAATATAACGATAAAGATACCAATAAAGCCTAGTTCTTCTCCTATAACTGATATAATGAAATCAGAATGATCTTCAGGAACATAATTTCCTAAATTCATATAACCATTCATGTATCCATTCCCAAATAAACCACCAGATCCTATAGCCCTCATTGATTGAACTGTATTATAAGAAATTCCAGATGCATTTTTATTAGGATTTAAAAAACCTGTTATTCTTGCTAATTGATAGCTTTTCATAAATAATAATGAAAAAGGTGATATAGTTAATCCAGAAAAAAAGGTTATTTTCCATAATCTTTCGTGTTTTCCTGAAATGAATGTTATTATAAACCAAAGTGAAAGAACTATTAATGTTGTTCCTAAATCTGGTTCTTTGAAAATTAATATAGAAGAAAATAATATTAAAAGTGATACAATATAGTATGACTTATTTGTTTTGGATGAAAGTGCATAACTTAAAAATAGTATTTCTATTACTTTATAAAATTCAGATGGTTGTAAACTAAAAGGTCCAACAGAGATCCATCTTTTTGCTCCATATATTACATTCCCTTTTATTAAAACGAAGCCAAGCAAAAAAATAAAAAAGTAAAATACCCATGGTATTAAAGTTTTTAAGGTCCTTTCAGGAAGAAATACCATGAAAAAATATAATATTAATCCAATTGATGAAAATATTAATTGTTTAAGTACTATAGACTCTCTGGGGGTATTTAGTGTAGCACTTTTAACTGAAAAAAAACCAATTATCATAAGTAATAAATATACAATAAATACAATAAATTCTATTTGTTTTATTCTTTCACGAGAATCATTAGATTTTAATAAAGACAATTAAATGCACTCCTTAATATTAATTTACAAGAACAATTATATCACAGGAGGTTTTATAATGAAAGTTAATTTAATAGGCCCTGGTAAAGTTGGAAGAAGTGTTTTAAATTATTTTTATAAAAATGGTTATGAAAAAGGTTTAATTATAGAGAAAAATAAAATAGATTATAAAAATTTTTTATTTGAAGGAATTATTTTAATAGGTGTACCTGATGACATTATTCCAAATATATGTTATAATTTAAAGAAGTCTTCTTTTAAAAATGTAGAAGCATTAATTCATTTTTCGGGATTTGTTGATAGTTCTTGCTTTAAAGATCTTTCTTCAAAGTATAAATTTTCTTTACATCCAAATCAATCATTTAATAAAGTTAAAGATATTTCAAATATTACTTGGGGAATAGATGGAATAGATGAAAAAAGTATTAATTATGCTAAAAAATTAGTTAATATGTTTAATGGAAGAAGTTTAATAATTCCAAAAGGTGAAAAAAATGCATATCATCTGGCAGCTGTTATTGCTTCTAACTTTTCTTATGCTTTAAACTTTATGAGTAATAAAATTTATGATAGTTTAAATATAAAAGAAAGAGAACATTTAATAGATTTGGCTATTAATTCACTGAATAACATAAAAGAAAAGGGATTAAAAGAATCATTGACAGGACCAGTTGCAAGAAAAGATACTAATACTATTGCTGAAGAAAGAGATGCGTTTAATAAATATTTTGGAGATAAAGTATGTGTTTATGATTTTTTTGTGGATTTACTGAAAAAAATATCTGAAAATTAAAGTTCTTTGGAGGAAAGAATATGTTGAGTATTTCAAAAATTCTTAAAAAGAAAAATAAAGAAAAAATAACAATGATTACTGCATACGATGCTCCTTCTGCTAGAATAGCTTATGATGCAAAAATAGATATGATTTTAGTTGGAGATTCTATTGCAAACACAATCTATGGATATAAAGACACTTTAAAAATAGAACTTGAAGATATGATAAAACACGCTCAAAGTGTTAAGAGAGGAGCGACAGATGCTTTTGTTGTTGGTGACTTACCATTTTTGAGTTATCAAGTTTCAACAGAACAAGCGATTGAAAATGCTGGTAAAATGTTAAAGTATTCTGGAGTTAATGCAATAAAATTAGAAGGTGGAAGTTTTGTTTGCGATAAAGTTTTTAAAATTGTAAATTCTGGGATACCTGTTATGGGACATATTGGTTTTACTCCACAATCATATAATCAAATAGGAATAAGATCAAGAGGGAAAAATGATATAGAAGCAGAACGTTTAATAGAAGATGCTAAAAAATTAGAAGATGCTGGAGCATTTTCAATAGTGCTTGAAATGGTTACAGAAGATGTAGCAAAAAAAATAACAGAAAGTATAAGTATTCCAACGATTGGAATAGGTTCTGGAAAATATTGTGATGGTCAAGTTTTAGTATGGCATGATTTGCTTGGAATGAATCCAGATTTTTCTCCAAAATTTTCAAAAAAATATTTAGACGGTTATGGTATAATTAAAGAGGCAATAAAAAATTATATAAAAGATGTAAAATCTGAAAAGTTTCCTTCAGAAGAAAATACATTTAAAAGGAAATTAGTATGATTGGAGATAGAACTGTATTTTTTCAAAAAATTAATTCTACAAACACTTATTTAAAAGAAAATTATCAAAAATTTCCGTCGGAATCAGTTGTTTGGGCCGAAGAACAGACTTCGAGTTATGGAAGACGAGGTAATTCTTGGACTTCAAGCAAAGGAGGATTATGGTTTTCCACAATTTTCAAACCCAAAAAAAGGCCTATGAATCCTTGGCATTATGTTAGATTGTATTCTCTTACTATATATGATATTATAACTAAGTACAATGTAAATTGTAAAATAAAATGGCCAAATGATATTTTAATAGATAATAAAAAAGTTTGTGGAATATTAAGTGAAGCAATTTATAAAGGTAAGAATATAGAAGCTATTATTGTTGGAGTTGGATTAAATGTTAATAATAAAATTGATGGAGATTTAAAAAATATAGGGATATCTTTATCAGAAATTACTAGTAGAGAGTTTAATTTAAAAAAGTTATTGAGCGAAATTAATCATAAAGCTTATTATACTTATTATTTAAAATATTTAAAGGATAAATCAGTATCGGTTATAACTAAAAAATGGATTTCGGCGCTTAATATAAAGATCAATGATGAAGTTAAAATAAAAAAAGTTGATGGTAATATTATTTATGGTAAAATAAAAAGAATAAATCCAGATTATATTGAAATAACAGATGAAAATTTTGAAGATAAAATAATGTATGCAGGTGAAATAAGTGTTAGATAATAATTTTTTGGAGGTATTGTAATGGATATTGAAAATATTAAAGTTTTAATTTCGGAAGAAGAATTAGATAATAAAATAAGAGAGCTTGGAAAAAATATTACACAACATTATAAACCAATGACAGATGAAATAGTTGCCATTTGTGTTTTAAAGGGATCAATAAATTTTTTTAGTGATTTAGTAAAGAGAATAGATATGAATGTTTTTTATAATTTTATACAAGTTTCTAGTTATTCAGGAACAAACACAACAGGTAAAATAAAGGTTAAAAGTTGGTTAGAAGAATCTTTAGAAGGAAAACATGTTTTAATAGTTGAAGATATTGTTGACACAGGAAATACATTAAAATATGTTATTAAATATATTGAAAGGCAAAAACCAGCTTCAATTGAAGTTGCTTCAATAGTAGTAAAAGATGTTCATGAACATGGTATTGATGTGAAATTTCCTGGTTTTACTATAGGAGATTACTTTATTATAGGTTATGGCCTTGATTATGATCAAAGTTATAGAAATATACCATTTATTGGATACGTAGAATAATAAAGGAGGATTTTTTATGAGAATGAGTATAGTTGAATACAAAGAAAGAGTAAAAAAATCAGTTGATTTTATAAATGAAAAAATAGGTAAAAAACCTGAAGTTGCAATAGTTTTAGGGACTGGATTGCACCTTATTTCAGAAAGTTTAAAAAATCCAATTCACATACCTTATTCTGAAATACCAGAATTTCCAATTTCAACTGCTCCAGGGCACAAAGGAGAATTAATTTTTGGGGAAATTTCTGGAAAGTTTGTTATGTTAATGAATGGTAGATTCCATTATTATGAAGGTTATACAATGAAAGAAGTTACTTTCCCAATTAGGGTTATGCAAGAGTTAGATGTAAAAACATTAATTGTTACTAATGCTGCTGGTGGAATGAATCCTAATTTTAGTAGAGGTGTTCCTTGTATAATAACAGATCATATAAATTTCTTTGGCGATAATCCTTTAATAGGTCAAAATAATGATGAATGGGGACCAAGATTTCCAGATATGTCTGAGGTTTATACAAAATCATTAATAGAGGAAACTTTAAGATCAGCAAAAAAATTAGAAATACCTGTGTTTACAGGTGTGTATCTTGGTATTACAGGACCTACTTTTGAGACACCATCGGAATTAAGAATGATGAGAAACTTTGGAGCTGATCTTGTTGGTATGTCTACTGTTCCTGAAGTAATAGTTGCTAGACATGCTGGTATGAATGTTTTAGGTATTTCAGCTGTAACAGATATGGCAATAGCTGAAGGACTTGAACCAGTTACAGAAGATGAGGTTATAAAAATAGCAGAACAAACAGGTTTGAATATGGCTAAAATAATAATAGATGTTTTGGAAAGAATTTAATTGGAGTTTTTAATGAAAAAAAATTTTTTACTATTTATTATTGTTATTATTTTTAGCATAGTTCATTTTTCATTTGATTATTTAACATTGTTTAAATCACCAGGTTTATCATTTTCCTATTCATATTTTAATAATAATGAAATTAACTTTTCTTTTAGATATGGTGGAAAGTATAAAATTATGAATAGTTCTGAATTGTTAAAAAAAGTATGGTCTCAAGATAGAACATTAATTGGTGGACAAATGAAAGTTGAGTCTTCAAACTATACTCATGCTATTTCTCCATCAAAAGCAATGGGATTATTTCAAATAAAGTATCCTACTGGGAATGATATTTATGTTTTGAATTTATTTGAACCATATGATAATTTAAAAGGCGCTCTTGAATATCATGGATACTTAAGAAAATTGTTTGATAATGAAAAAAAACAAATTGCAGCTTATCATGAAGGACCTGGAACTATAAAAAATAATGGTATGACAAAAAATGGAGAATTATACTATAATAAAGTAAAATTAGCTCAAAAAGAGTATAAAAATTCACCTGTTTTTTCACCATTAATATTAGACTTTAATGGTAAAATGTATGGTAAAAACATTGAATACAATTTAGATTTATCATTAGCTTATGAAAAGATAGAAATTTATTTTGGAAATTCAGGAAATATAGAAAAAACAAATAATAATATTATTTTTAAAAATAATGGTATAAATTTTTCAATTGTATATTGTCCTACTACAATACTTTCGTTTGGGTTTGGAAATAATTATGGATTAATTAGATTGGGACTCCCATGGCAAAATTTTATAATTAAGTATTTAAATAGTCCAGAATTTACATATTATTATGGAGATCAGTATTTTTATTTTTTAAATATAAAAGATAAAAATATTAAAATAGGTGTTGGACTTAATGTTTATAATTTAAAATTTAGTCTTAATTATAATTTAAGTGGAGTGTATGGTCTTCAAATTGGACTGAGAGGTGCTTCATAATGCAAGACTTTATTAATAATTTTTTAGAATGGTGGAAAAATTTAAATAAAAAAAATAAAGTAATATATTCATTGACTATTAGTGTAAGTATAATAATAATTATTATATTATTTTTTATAATAAGTGCACCTAAATATAAGTTTTTAATATCTGGTGTAAGTGAAACATCTTCTGGTTCAATAATTCAAAAATTAGAGGAATTAAATATTCCTTATAAAGTAACAAGTGGTGGAAGTATTTATGTAGCAAAAACCGATCCAAATGCATTAAGAATGAAATTAGCTACTAATGGTTCTCTTGGTGGAAGTGTAAAAGGTTATGAGCTTTTAAAAGATCAAGGATTTGGTACAACAAGTTATGATAAACAAGTCAATTATCAAATAGCTCTTGAAGGAGAATTATCAAGAAGTATTTCCACATTAAATGGCGTTCAAAATGCAAGAGTTCATTTAGTAATACCACCAAAAACATATTATAATCCCGGTCAAGAAGTTAAACCAAAAGCTTCGGTTTTAGTAATGTTGAATCCAGGAACAACTTTATCAAAAGAACAAATTAGAGGTATAATACAGTTAGTTTCAGGAGCTGTACAAGGATTAACAGCTGATAATATAAAGGTTGTTGATAATTTTTCAAGAGATTTAAGTAGTTCGGTTATTTCTGATGGAAGTGTTGGCTTTGCAAGTACAAAATTTCAATTAAAAAAAGAAATTGAAGATTATTATTCTGAAAAAATACAGAAAAATCTTCAAGCTGTTTTTGGATTTGGAAATATAGTTGTTATATCAGAAGTTGAATTAAATTGGCAAAAATTGGAAGAACAGCAAAAGCAATTAGTTCCAACAAATAAAACAAATGGTATAATTTTAAGTCAACAAACAGAACAAGAACAGTCGAAAAATTATGATAATTCAGCAAATGGTGTACCTGGAACAACTTCTAATATACCACCATTTAGTAATCAAACCACTAATGGAAATACTTCAAGTGATTATTTAAAGAGTAAAACTATAACAAATTATGATGTTGGTGAGATAATAAAAAAGACAACTGAAGATAAAAATGGAGAAATATCTAAAAAAAGTTTTACAGTTTTTATTGATTTTAAAAATGCTAATATTACAGAAAATGATACAATAAAAAAGCAAATTCAAGAAGCAATTTCGACAGCAACAGGTGTTGAAACAAAATTAGTATCTATAGTTCCTCTAAAATTTAACAGACAAATTGAAAATATGAGATCAAAAATTGAGGAAGAGCAAAAGAACAAACAAAGATTAACAGTTTTAATATTTATATTTATGTTGGTCGTTATTTTTGCTACATTAACGATGTTTATGTTTGTAAAATATTCGAAAAAGAAAAAAGTTTATAATCTTGTTGAACAAAGAAAGAGGAAGTTAGAAGATAGAGTAAAAGAGGTTGTTGGTGAAGTGGAAGAAGAAGTTGAAGAATATAATCCAGCTGTGGAAACACAAAGAAAGATTGAAAATATTGTTGATACTAGAATAGAAGACGTTGTTGAAATAATAAAAATTTGGATGAATAGTCAATGATACAGTCAGTAAGGAGGGAGTAAATAATGTCTAAAGAACCCGAACTTACCGGGCTGAGAAAGTCTGCAATTCTTTTAATTTTAATGGGGCATGAAAGAGCCGGTAGAGTTTTAAAAAAATTAAATGATTCACAAGTAGAACAATTAACACTCGAAGTTGCAAATATGGGACAAGTTGATGAGGCAATAAAAAATACTGTTACATCAGAATTTTTTGAGCTTGCAAAGATAAAAGAATTTATAAATAAAGGTGGAGTTGACTATGCAAAAGAACTCCTTGAAGAAGCTTTTGGGCCTGAAAAAGCAATTGAAATTATAGAGAAATTAGTTTCTAATTTACAAGTAAAACCATTTGATTTTTTACGGAAAATAGATGTTTCGCAAATGGTAAATGTCTTGCAAAATGAACATCCACAAACTATTTCTTTAGTTTTATGCTATTTACCTCCATCTACTTCTTCTCAGATAATAGCTGGATTACCAGAAACTTTGCAAGTAGATGTTTTAAAAAGAATTTCAATAATGAATTCTGCTACTCCTGATATAGTAAAAGAAATAGAATCAAAAATGAAAGATAGACTTTCTACATTTACAGTTCAAACTTTTTCACAAGTTGGTGGAATTGAAGTTTCTGCTGAAATAATGAATAATATTGATAGAGTTGTTCAAAAAAATATTTTTGATAGAATGTCAGAAAGAGATCCAAAGCTTTCTGAAGAAATTAGAAAGAGAATGTTTGTTTTTGAAGATTTAGTAAAATTAGATAATAGAGCAATTCAAAGAATAAATAGAGAAATTGATACCAAAGATTTAACTATAGCATTAAAAGGAGCTTCAGAAGAATTAAAAGAAATCATATTTAGTAATATGTCTAAGAGGGCTGCTCAAATGATAAAAGAAGAATTAGAATTTATGGGACCAGTTAGAGTTAAAGATGTTGATGAAGCACAGCAAAGAATAGTTAATATTGTTAGAAAATTAGAAGAAGCTGGCGAAATAATAATCGGCGGCGGAGGAGGAGAGGAGTTAATTGTATAATAAAAGAATTATACATAATCAATATGTAGTACTTGACTCTCCTAAAGATATAAATATTGAAAAAGATCATGTAATAAATGATTCTGAAGAAAAAGATACTGCAGAACAAATAATAAAAGAAGCAGAAAAACGTGCAGAACAAATAATAAAAGAAGCAGAAAAACGTGCAGAACAAATAATAGAAGAAACACGTAAAAAAGTAGAAGAAGATAAACAAGAAATAATAAAAGAATTTAAAATTAATCTAGAAAAACAACAAGAAGAATATATTGTTAATGCAAGTAAATCTATTGAAAATGTTATAAAAAATATAGATTTATATGCTGAAAAATATATTGGAATTGCAAATGAATTTATTGTTGAAGCAATAAAAACTATATTAAAAAAATATATAAAAGAAGAAATTTTTAATAAACCACAATGGATAAACGAAGTATTAATGGAAGTGAGAGATAAAATAAATTCTTTTAAGCAGATTGTATTAAAAATGAATTCTAAAATGGTACAGAATTACGGATATTTATTTGAGAATATAAAAAGTGATTCTTTTATTATAAAAGAAGATAACACATTGAATGAAAATCAAATAAATGTTGAAACTGAAGTTGGAACATATGAAATTTTTCCAGAAAATTATATTAATGAAATAGTAAAATCTTTGGAGGATTCTTTTAATGAAAGCACTTGATTTTGAAAAGGTACTTTCAATATTTAAAGAAAAAATAAATAAAAAAGAAATACTATCCCTTGAAGGAAAAGTAGTAAGAATTGTTGGTGTTACAATTGAAGCTATAGGTCCAGATGCTGCTGTTGGAGATTTATGTTCAATTAAGTTAAAAGATAAAAATGAAGCTTTAGCAGAAATGGTTGGCTTTTCTGATAACAGAACGCTTTTAATGCCTTTTGAAGAGATAAATGGATTGTATGTTGGAGCTTCTGTAAAGAAAAAAGATGAAAGAGTTTCAGTAAAAGTTGGAGAAAATATATTAGGAAAAGTATTAGATGGACTTGGAAGACCTATTGATGGAAATAGTATAAAATCAAAAGAGGAAAAAAGTATATATGATTCACCACCAAATCCTTTAATAAGAAAAAGGATTGATTCGCCTCTTTCTGTTGGAGTTAGAGCAATCGATGGAATGATGACTTTGGGAAAGGGACAAAGAATTAGTATAATGGCTGGAAGTGGTGTTGGAAAAAGTACGCTTTTAGGGATGATTGCAAGAAATACAGAAGCCGACATAAATATAATAGGATTAATTGGAGAACGTGGAAGAGAAGTTAGAGAATTTATTGAAAGAGATCTGGGAGAAGATGGATTGAAAAAATCTGTTGTAATTGTATCTACTTCAGATCAACCAGCTTTAATGAGAGTTAAAGCATTATATACTGCTACTACAATGGCTGAATATTTTAGAGATAAAGGAAAAAATGTTTTATTAATGGTAGACTCTTTAACAAGGTGGGCTATGGCTCAAAGAGAAATTGGATTATCTATAGGTGAACCTCCTGCAACAAGAGGATATACACCAAGTGTTTTTGCTAATCTTCCTAAAATTCTTGAAAGAGCTGGTAATTCATCTGTAGGAACTATGACGGGTATATACACTGTATTAGTTGAAGGGGATGATATGAATGATCCTATTGGAGATGCTGTAAGAGGAATTGTTGATGGACATATTGTATTATCAAGAAAACTTGCTGATTCAGCTCATTATCCTGCAATAGATATTCTTTCAAGTGTTAGTAGACTTATGAGTAGTGTTTCTTCAAAAGAACATTTAGAGGCTATGAGAAAGATAAAAGATTTATATGCAACATATAAAGAAGCAAAAGACTTAATAGAAGTTGGGGCATATAAAAGCGGTATGAATAAAAAAATAGATGCATCAATTTTGGAAATAGAAAATATTAATAATTTTTTAACTCAAGGGGTAAATGAATATGACTCATTTGATAATATAGTAAATAAATTAATAACTATTTCTAATAGATGTAATATTTAATATATTTTATGGTTGGAGGTATTGAAAAATGGGGATTCCTGCAGAATGGACTATATTAATAGTCACTTTATCTATTGCGTTTTTACTTTTTTTAACGCAAAAGGTATCAAAAAAAGTTTTGAGTAGAGGAAAGTATAGAAAAGTTAAAGAAAGTACAGAAGCATATTTATATCTTTTGCCTTCTATGGTTGTTTTAGCTATATTTGTATTTTGGCCTGTAATTTATTCTTTTATTTTAAGTTTTTATAAATGGGATTTTCAAAATCAGGCAAATCCTATTTTTATAGGATTAAAAAATTATACGAAGCTTTTTACTTTAAAACATAGTATTGATATAAGTTTTAATACAGCTTTTTTTAATACACTATTGGTTTTAATGACTTATATATTTTTGATGCATTGGATTTTTGATATAAAAAAAATAAAAGAAAATACATATAGAAAAATGATAATTTCTATGTCGTTATTAGGAATTATAGGTGTTTTTTTAAGTAATTTATTATTTATAGCTGCTGTTATTATTTCTTTAATTATGGTATTTTTATATACATATCTTTCAGCAAAAAAATTTGCATATAATACAAATGATAAACTTATGGGAAGATTAATACTTTTTGCAATAGTTTATACAATTTCTGTAAAAATAGGTGTTGTTGAGATAATTAATTTTTTAAATGCAGCTAAAGAAGAATCTGATTTTATAAAATCTATTTGGAATACTTCATATTATGTTTTGCTATCTACTCCTATAACAATATTTTTAGCTCTATTAATTGCACTTTTGTTGAATAGAAAACTATTTGGCAAAACAGTTTTTAGAACTATTTATTTTATTCCTTTTGTAACAAGTGTTGTAGCAGTATCTCTTGTTTGGCAATGGATATTTAATGATAATGGTTTATTAAATTATATTTTAGGATTTTTTGGATTACAAAAAACCTTATGGCTAAAAGATGCTAAGTATACAATTCCGACTGTTGCAATAATATCAATATGGAAATTAGTTGGATATTATTCGGTTATATTTCTCTCAGGTCTTCAAAATATTGATAAATCATATTATGAAGCTGCAGAAGTTGATGGGGCAAACACATGGCATCAATTTAAATTTATTACTTGGCCGTTATTATCCCCAACCACATTTTTTATATTGATTGTATCTATGATAGGTGCTTTTAAGGTTTTTTCAGAAATTTTTGTTTTATATTCGGGAATGCCTGGTCCTTACAACAATAGTGGACTTACTGTCGTGTACTATATCTATGATAAATTTTATAGTGAACAAAGAATGGGAGAAGCCAGTGCTGCTGCATATGTACTGTTTGGTATAATTCTTATGTTTACATTTATACAGATAAAGGCCGGCAAAAATAAAGTTCATTATGATAATTGAGGAGGACTACTAATATGGATTATAAAAAATTTTGGAAAACAATTAGTTCAACATTTATATATTTATTGGTTGCAGGTGGAGCCGTAGTTATGATATTACCATTTGCATGGATGATAATGACATCATTAAAAACAGATGGTGAAGTTAACTCTTGGCCACCATCTTGGATTACAAAAAATTTTAAAAGTGAAAATATTGTGAATGTAATCCCTGAATCATCAACATTTTCATCTAAAGGAACTCTAAGTTTGGCGGAATTTAGAACATTATCAAAAAAAATTGAGTATAATCCTTACAAAGTAAATTATTTTATTGATGATGATCCATTGAGAAGAGGTGTTGTAACTCTTAAAATAAATAATCTTACTTATACCGATAATGAAAAACTTAAAGTTTTAATGAATAAAATATTTGAATATTTAAATGTAAATGACGTTAGAAAAGATTTAAAAACAAAGATTATAGATAAAGATTTGACTTCTGAAAACTTTGAAAAAATTTATTTTTCTCTTTTTTCAAAAGAAGATGGTTATTATAAAAAAACTAATATTATAAAGAATATTTTATTAGATTTAAATAAAAGCTCTAAATTTTTAGAAATATTGGAACAAAAAAACATAAATAGATTACCTCAATTTAGATTAAAATCAAATATGACACAAGAAGAAAAAGATGAAATAAATTCTTCAAAAGATAAATTTAAGAGTTATATAATAAGTTTAAATGATAAAATAAAAAAAGTATCAAAAGACATTGAAGAGTATTCAAAAGGATTAGGAATTATTAAATTTGAAACATCTAAATCAATTGAGTTAGAATTAAAAAATCTTTCAAATAATTTCATAAAATATAATGATAAAATTTTATCTAAAACTAATTTGTTAATGAGTAAAAATATATATAATAAAGTAAATGAAAATATTTTAACTTTAAATTTTTATAATGAATTTTTTACATTATACAAAAAAATTCAAAATAAAAATGTAAATGATTTTGTAGTAAAATTTGTTATACCTCAAAAAAAGGATATGTATAACAATATAATATCTAATATTAAAATTTCGGATTTTCCAAAATATTTTAAGGATAAAGTAATAGAATTAGCTTCTGTCAGCAAAATTTTGAAATTAAAAGATAATGTGGTTAATTATTATGAAAATTCAATAATAAATGAAATAAAAAATAATTATATAAGAAATTCAGATGAGCTATCAAAAATTATAGAGATTTTAAGAACTCTTTCTAAAAATAATGCAAATTTATCAAATGCAAATTTATATATTTCAAAAAATGATTTAAGTTTGTTAAATAAAAATATAAAAGGAAAAGAAGAAGAATTTTTACAGACTTTAAATAAAAGAAGAGAATATGATTCATTATTTGAAAAATTTGGAACTTTTTTTGAAAATAATATATCAAAGGCAAAAATATTAGAAGGAAATGATTATATAAAAGAAGTTTTATTTAAAAATAATTCTAATATAGTATTTTATACAAAAAATATGTATTCTTCGTGGTTGTTTGATGAAAAGCCTGAAGTTAAAGTTAAATATACTTTTTCACAAGTAATAGCTAATATATTTCAAAATTATGTAGATGCTTGGAATGCTGCACCATTTTCTAAGTATTATGCGAATACAGTTTTAATGGCATCAATGACTACTATACTTGAAATAATATTTGCATCTATGGCTGCATTTGCATTTGCAAAATTTAATTTTTTTGGAAAAAACTTTATATTTTCATTATTTCTTGCTACTATGATGGTTCCTGGTGAAGTAATGCTTGTCCCAAATTATATTACAATAAGTAGATTTCAATGGATAGATACTTATTATGCTCTTATAGTACCTTGGATAGTAAGTGTTTTTGCAATTTTCCTATTAAGACAGCAATTTATGACTATACCAAATGATTTATGGGATGCTGCAAAAATTGATGGTTCTTCGAGCTGGAGGTTTTTATGGACAGTAATGGTACCATTAAGCAAACCATCAATTGTAACTGGAGCTTTACTAAAGTTTGTTGGTAGCTGGAATGCTTTTTTATGGGTTTTAATAGTTACAAAAACACCAGAGATGAGAACTCTTGCCGTTGGATTACAAACTTTTAGATCTGAGTCAGGAGATATTTATAATCTTATGATGGCAGCATCAACATTTTCTGTGTTACCAATTGTAATAATATTTATTTTACTGCAAAAATATTTTGTTGCTGGAATTTCAAGGTCTGGATTGAAAGGCTAAGGTGATATAGTGCCATATATAAGTTTAAATAATGGTAATATTGAAAATAATAAAAAAAATAAAAAAAGTTATAAACCACGGAAATTATCCGTGGTTTTTCTGGCAATTATTTTAATTTTTTTAATATTTCAAATTTTTAGAATGATTAATACATATAATGAATTACAATTAAAATATTCAGAACAAAGTAAAAAATTAAAAGCAGTGAATAAAATTTATATTGAAAAATTAAAAATACTAGAAAATTTAAAAGATAAATTAAGTGAAAGAGGTGTTGGAATAAATGGAAAATCAATCTATGAAGTGGATATTCACAACGTCGCACAAACCAGCCAAGCAACAAGTACTAAAAGCACAACACCTAGCAACTAAATATTCTGGAAGATATATTTCAAGAAGACATGTTGGAAAATATATTGATGAAAAAGGATTTTATTTTGTTGTTGAAAAGGATATGAGTTTAAGTGCTAAATGGAAAGGTGGAAGCTTTTTTTATCATCCATCAATTTCTAAAATAAAAATGAAAACATATACTAAGACGGGTCATGATTTTTTAATTGAATCAATAGCGCCATCTAGTGATGATAAAGTTTTAGATTTAACAATGGGATTGGGGAGTGAAGCTTTATTAATAGCTAATTTTGCTAAAGAAGTTATAGGAGTAGAAGGTGCATTTCCAACATATCTTGTAGTAAAAGAAGGATTAAAAAATTATAAATATAAAGAAAATTGGATGATAAAAGCATCAAAAAAGATAAAAATTATAAATAATAATTATAAAAATTATATTAGACTTTTTAAAGATAATAGTATTGATATTGTTTATTGTGATCCAATGTTTGAAAATCCAAATTATAAGTCAAGTTCTTTAAATCCATTGAGAAGATTTGCAGTTTATGATTTATTAACTCAAGAAGATATAAATGAAATGGTTAGGATTTCTAAAAAAAGGGTTATAATAAAAGCAAGAGATATTGATAGTATTTGGAATAGAATAAAAGTAGAAAAAAAGATGGGTAGTAAAAGAAGTGGGATAATTTTTGGAGTGATTGAAAAAAAATGAAAATTCCTATAATTACTGGACCAACTGCTGTTGGAAAAACAAATATAGTTTTAAAATTGGCAAAAAAAATGAATGCTGAAATAGTATGTATGGATTCAAGGCAAATCTATAAAAAAATAAATATAGGAACTGCAAAACCAACACCTGATGAAATGAAAATTGTTGATCATCATCTTTTTGATTTTGTTGAACTTGAAAATAATTATAGTGCCTATGATTATAGAAAAGATGCGTTAGAAACTATAAAAAAAATAATGAAAAAAAATAAAACTCCAATGTTAGTTGGAGGTACTGGTCTTTATATAGATGCTCTTATAAAAGGATTTTTAAATGTTTCATCTGATTATGGATTAAGAACTTATTTAAAAAAATTAGAATTTTCAAATCATGGAATACTTAGAAGTATATTAAAAGATATAGATCCGGAATCTTATATGAAAATTCATGAAAATGATTTAAAAAGAACAATAAGAGCATTAGAAATTTATATAAAAACAGGAAAAAAAATGTCTTATTTTTTTAATAAAAAAATAAACGATAATTATTATGAATATGTTATAATAGTTTTAGATAGAGATAGAAAAGAATTGCATGATAGAATAAATTTAAGAACAGAAAAAATGTTAGAAAATAAATTCATTGATGAAGTGAGAAACATACTTTTAACATTAAAAACAAAAAATTTAAATTCATTAAATACAATAGGATACAAAGAAGTGATAGAATACCTTGAAGGAAAAATAAATTATGATACAATGGTACATTTAATAAAAAGAAATACTAGACGTTATGCAAGAAGACAAATTATTTATTTTAGAAAATTGCAAGGCGCACATTGGTTAAATATTTCTAATTTAACCGAAAAGGAAATTATAGAAAAAATACTAAATATTTATGGGGGGAAAAAAGATGCCAGAGAAATTTAATTTACAAGACAGATTTTTGAACATTTTAAGAATTAACAAAACAGAAGTAAAAATTTATTTTGATGGTGGATTTCAAATTAGTGGCTATATTAAATCATTTGATAATTTTACTGTACTTATTGAAAAAAATGGACAGCAATCTCTTGTTTATAAACATGCCATAAAAATGTTAACACCAACTAAATATGTTAAGTTATTCCAATTAAATGAAGAATAATTAAAACAATTCCAGGATCTAAAAGATCCTGGTTCTGTATTGGAGGTGCACAAGTGAAAAAAATAATTCTATTAATGTTTATTGTAATTGTTTCTGTTTTTGTATTTTCTGAAATATTTATGGTTCCTATTAAAGGATCGTATATAACCTCATCTTTTGGTGAATATAGAAATACAGGAAATAATCCTCATTTTCATTTGGGAGTTGATTTTTCTACATTTAATAGAGAAAATATAGATGTTTATGCTTCGGCACAAGGAAATTTGTATAAAATTTGGATAAATGATCCAGTTTATGGCAATACTATATTTTTAAAACATGATGATTTATCTTTGATAACAGATTATGCACATTTAAATAGTTTTTCTGAAAAAATAAATAAATATGTTGACATTATAAAAAAAGAATTTGGTGATAAAAAAAGAATGGAAATAGTTTTTCCAGATAATTCAGTTAATATTAAAACTGGAGAAATAATAGCACTTTCTGGAAGTACAGGAGAAGCTGAAGCACCTCATTTACATTTTGAAGTTAGAGAAGAAATAAATGGAACTGAAATGATTAGAAATCCATTGGAGTATTTAGAGTATAAAGAAAATAGGAAAAAAACATTAGAATTATTAAGTGTTAGGGTAAATGGAAAGTATATTGATATAAACAATTCTGATTTAAATACAATAGAATTTTCTGGAGATTATCCTAAAATTGATGTTAGAGTAAGGGAAAGATTGGGAAATAATACAGTAATAATGGTAAAGAGTGTTTCAATATCATTAGATAATTCTTTAATGTATAAAATAGATTTTTCAAGTTTACCAGAAAGTGTTGGATATAAACCACAACCAGTTTATGGATATGGTTCTACGTCAAGTATTTATTGGTTAAAAATGTATTCTATCGAGTCTTTATATCCTATAAAAGATAATAATTGGTCTCAATTGATAGGTAGTGATAAGAGTAGTTATAAAGGGGAAATAGTACTTGAAGATTTTTGGGGGAATAAAAAAGTTTATAACTTTAATTTTATTAAAAATTAATAATGATATTTACGGTACAAAAATTTAACCAAAAAAGTACAAATTTTTAATAAAAAAAGGTATAAAATAAAAGTTAGAGTACTTATTTTTTGATATAATAAACGGCAAGGGAGGAATTCAGATGTACAAAAGATTATTCACAAGTGAAAGTGTTACAGAAGGACATCCAGATAAAGTTGCTGATCAAATTTCGGATGCTATATTAGATGCTATATTAGAAAAAGAATCTGAAGAAAATAGAATAAATGCAAGAGTTGCAGTTGAAACCCTTGTAACGACAGGAACAGCTTTTATAGCTGGTGAAATAAGAACAAGTGCTTATGTTGATGTTCCTAAAATTGTTAGAAAAACAATAAAAGAAATAGGATATGATAGAGCAAAATATGGTTTTGATGCAGATACATGTGGGGTAATAGTATCAATAGATGAACAATCATCCGATATTGCCATGGGAGTTGATGAATCGCTTGAAATAAAACAAAATGGTGATGGAAAAGATCCATATGAACATATTGGAGCTGGTGATCAAGGTATAATGTTTGGATATGCTACAAATGAAACAGAAGAATACATGCCTATGCCAATTGTTTATGCACATAAACTTGCTCAAAGACTTACAAAAGTTAGAAAAAATAAAATTTTAGATTTTTTAAGACCTGATGGAAAAACACAGGTAACAATTGAGTACGATGAAAATAATAAGCCTGTTGCAATAGATACAGTTTTGATTTCAACACAACACGATCCTAATGTTACAAGAGAAGAAATAGAAAAAGCATTAATAGAACATGTTATAAATCCTGTTATGCCAAAAGAACTCATGAAAAAAGATACAAAAATTTTAGTTAATCCTACTGGAAGATTTGTACTTGGAGGTCCACACGCAGATACAGGTTTGACAGGTAGAAAAATAATAGTAGATACATACGGAGGTTGGGTTCCACATGGAGGAGGAGCTTTTTCAGGAAAAGATCCTTCAAAAGTGGATAGATCAGCTCATTATATGGCAAGATACGTTGCTAAAAATGTTGTTGCTGCTGGGTTAGCAGATGAATTAATGATTCAGTTAGGTTATGCAATTGGCGTTGCAGAACCAGTTTCATTACTCATTGATACAAAAGGTACTGCTAAGGTTGAGGAAGAAAAACTTAAGAAAGTTATAACAGAAATATTTGACTTCAGACCTGGTGCAATAATAAAACATTTAGACCTTTTACAACCAGTTTACAAAAAAACAGCTGCATATGGACATTTTGGACGTGACGATTTTGAGTTTACATGGGAAAAACTCGATAAAGTAAATGAGCTTAAAGCAGCCTTTGGTATCTAAAAAATAAATAGGAGGGAAACATGCCAAACGTAAAATCAGCAAAAAAAAGAGTAAAAACAAATGAAAAAAGAAGAATTATTAACAGAAGTTACAAAACAAAGTTTAAGAATTCTATAAAGAAAGTAGTTCTTGCTATGGAAAAGAAAGTAGAAAGAGAAGAAGTTTTAAATCTTTTATCAAATGCTTTTAAAGCAATTGATAAAGCTGCTTCAAAAGGGGTTATTCATAAAAATCAAGCTGCTAGAAGAAAATCAAGAATACATATAAAAGTAAAAAAATATCTTGGTGAAACAGCAGAAAATAATTAAATCAATGTCCCGGCTCATTTTTGCCGGGATTTTTTTTAAGAAAGTTTTAGGAGGAATTTTATGAAATATTTAAAATATTCTATAGATCCAAGAAAAGAAAAAAATGTTCCAATAAATTGGGAAAAAATTTTTGAAAAAAAAGGTGAATTATACGTTGAAATAGGTTTTGGCGGTGGTGAATATATGGCTGAAATGGCTAAAAAAAATCCAGAAGCTAATTTTATAGGATTTGAAACATCACTTACTGCTTGTGATAGAGCTCAAAAAAAGTTTTATAATTATAATTTAAACAATGTTAAAATTATAAATCATGATGCAAGATTTTGTATAAGAGAATTATTTGCCGATAATACGATTTCAAAAATAATAGTTAATTTTCCATGTCCTTGGCCAAAGAAAAAACATGAAAGTAGAAGAATTTTTGTTGAAAAATTTAGAAAAACTTTATCTTCAGTATTGATGATTAATGGAAGTATGGAACTTGCAACTGATGTGGAATGGTATGCTAAAGAAGTTTATGAAAACTTTAAATTGGATGATCATTTTGAAGTCGAAGAAATAGTAGAAAATTTTAATAGGCCAATTAAGACAAGATACGAAAAAAAATGGGAAGAAGATAATAGAAATAAATATTTAGTTAAAATAAAAAAGATAAAAAATGGAAATGAAAACAGAATTATTTTGGAGGAAAATGATATGCCACATAGACACATAAAAGATATAAATATAGAAAAAATAACAGAATTATTAAATAAAAAGTTTCAATTTGAAAATGAAACATTTGTCATAAGAGAAATTTTTGAAAGTAAAATAAAAGAAAGATATGTTTTGAAAGTATTTACATCGGATGATGATTTTACACAAGATTTTTTTGTTAATATAGTCAAAAGAGAAGAAGAATGGTTAATAAAATTAGAACAAATAACAACACCTTATAGAACACCTGCAGTAAAGTATGCAATTAATAAAATAGCAGAAGAAATTGAGGTGAAATAATTTGAAGATAGCTATTATTGGAAGTGGAAGTTGGGGTAGTGCCATGGCAAAATTACTTTCAATTAATGGACATAACGTAAAAATTTGGACTACAGATAAAAATGTATATAATAATATTTTAAATGGAGAAAATCCAACGTATTTACCTGGAATTTCATTACCAAAATCAATAAAACCAATGTTTGATTTGGATAAAACAGTAGAAGATGTAGATATCATTGTTTTAGCTATTCCTTCACAAGCAATGAGAGAAGTTGTAGCTAAAATAAAAAATAGAAATGCAATTTTTGTTAGTTTAGCAAAAGGATTAGAAATAAAAACAGGAAAATTAATGAATGAAATAATAAAAGATGAACTTGGAAATGTTAAGTATTGTGCATTAAGTGGACCAAGTCATGCAGAAGAAGTTGCAAGAGATATACCAACTAGTATAGTGGCTTCTGGAGAAAAAAAAGTAGTTGAAATTATTCAAAAAGAATTTAGTAATGTATCTTTTAGAGTTTATACAAATGAAGATTTAAAAGGTGTTGAACTTTGTGGTGCAGTAAAAAATGTTTATGCAATTGCATCAGGAGTAATAGATGGAATAGGTGGTTGGGATAATACAAAAGCAGCACTTATAACAAGATCATTAGTCGAAATTTCAAGATTTGTGGAAGCTTTAGGCGGAAAAAAAGAAACTATAATGGGCCTTGCTGGAATAGGAGATTTAATAGTTACATGTACTAGTCAACATTCAAGAAACAGGCATGTTGGTGAATTTATTGGAAAAGGATATTCATTAGAAAATATATTAAATGATTTGAAAATGGTTGCAGAAGGTGTTTATACGGCTAAAGCCTTATATAATAACTTTAAAAAGGAACAAATAGAAATGCCTATTGCAGAGAAGGTATATAAGGTATTATACGAAAAAATTAATCCTAAAGAAGCAATAGAAGATTTAATGAATAGAAAATTAAAATCAGAAAATTGAGGAGTGATTTTATGCAAGTAAATTTAGAACAAATTATAAATGTAATAATGGGTAAATTAGAAACATTAGAAATGTCATTAGAAGATGTAAAATTTAGAACTAATATTGCATTGAGAGTTTTAAGAAAGAATGATTTATTAAAAGAAGAAATTATTAACGAAGCTGTTAAAGATGAATTTAAAGCACTTTTAGAAATGGAAGGAAATTCTGAAATAGATCTTCCAGAAGAAAAAATAACAGAAGTTTCAAAAGGAATATTAAATTGGGTAGATAATGATTTAATAGAAATGAAAAATAAAATGAAAGAATACGAAGAAAAAATGAGAGAAATGCTTGAAAAAGAAAATGGACCTGATATAAGCATAGCCCCACCAGAACTCTTAAACCAATTAGATGGAATGAATAAAAATAAAGGAAATGGAAAGATAATATTATAAAAAAGGCCTTAAGGCCTTTTTTTAATTTAATAAGATATTTAGTTCTTTTAAGTTGTTTAAAATACAATTAAATTGCTTTTCATTATCTACTTCTATTTTATGTAAATGTACTCCATCATTTATTGAAGATAATGGTTTTGAAGTTTTCAATTTTGAAATAAAATCGTTAATTTCTTCGATAGTTTCAACATCTATTATTCCAGTGATTTCTCCATAAACTGGATGTTCTATTGTCACGTCTAAAATTTTTCCTCCACATTTTACAATTGTATATAATTCTTTTTCTATTAATTCATTGCTATGTTTAACTGCAATAGATTTTATTAGTTTATTTGATTTATTTATATAGTATCCACGTGAATTAGAACGTATTAAAATTCCTTGAGCTTTTAAAATCGCAATATCTTTTACAATAACTTGGCGAGTTACATTAAATTTTTTTGCAAGAACAGTTCCAGAAATTGGTTTTGTTTTTAAAGATAAGATTTCAATTATTTTTTTTTGCCTTTTTTCTTTATCCAATTAATTCACTTCCTTATTTAATGTTTCTGGTAAAAAGATATAGTTTAAAGTTCCAGTTATAAAAAATAATAATGAAATTCCAATTAATCCAATCATTATATTATTTTTTTCAAGAAAATAAGCAGTATAATAAGGGGCTAAGAAACCAGATAATCTTGTAATTGATCCAGATGTACCATTTGCCGTTCCTCTAAAAGAAGTTGGATATAGTTCTGGAGTATAAGCGTATGTTAATCCCCAAGCTCCCATACAGAATATTGACACTACCATACTATATAATAACACAGTAACATTTGTGTTTGCAAAAGCAAATAAAATAGAAGATATTCCAGTTCCAAATGTAAATAAAAGTATACTTTTTCTTCTTCCTATTTTTTCAATTAAAAAAGCAGCTAATAAATAACCAGGTAATTGAGCTAAGTACATATAAAATAAATACCAATCTGTTTTAATAATACTTATACCTTTTTGGGCTAATATTCCTTTAAACCATATAAAAACTCCATAGTAACCAAAGCTCATTACAAACCAAAGTAACCATACATTCAATGTTTTTGATAGATATTTTTTCTCAAATAAATTTTTAATGGAAGATTTTGTAGATTTAGGAAAAATTATTTTTTCATTAAGAGTATATTTAAATAATTTTTCAAATTTTTTATTTTTATTTTTTAATAAAAGATATTTAGGTGATTCTGGTAAATATAAAATTATAAGAAACGGAATTAATCCTATTGAAAGAAACATATAATCATATTTCCATCCAAAATTTCTTCCAATAATAATATGAAATAATGCAATCATTATACTTCCCAAAGCCCAGCTTGATTCCAACAATACTAAGTATTTACCTCTTATTGAAGTGTTTAAAAATTCTGTAAGATAAGTGTTTAATGCTGGTAATAATCCGCCAAAGCCAAAACCAGATATAATTCTAAAAATAATAAATAATGTAGGATTTGATGAAAATCCTGTTAAAACAGAAAAAGTACTTGCAATAATGAGAAATAGTAAAGAGGCATTTTTTCTTCCTATAAAATCTGATATTAATCCTGCTATTAATGCACCTAAAAACATACCAATAAATGTAGATGAAGATAAGGTTGTTGCAAATACTCTTGAAAGATGCCATTCATTCATTATCATTTTTTGTGTAAAAGGTAAAACCATTATTCCAGATGCTACAAAAGCCCAGCCAAGTGCTGTTATGAATAACATGAATTTTCTTTGATTTTTGGATATTATCTTTTCAATAAGTGCATCTAAAGTCATTTTTAACCCTCCTTTTTATGTATATACAGTAGCATTGTAACAAAAAAATGTTAATTTTAAATTAAATATTTAAAGTAAATTCTTTCAAGAAAAATGCTAATATAGAAATGTGTGATATAATATTGTATATAATGTTTGGAGGTATTTATGAGAAATTTTAATGAAGAAGCTAGAATAATAATAAAAAATTACCCTTATTATCATGAAAATAGAGATCCATATGTTGTGCTTGTTTCAACTGTATTATCTCAGAGAACGACAGATGAAAATAAAGATTTAGCAACTAATAAAATTTTTAAAAAATATAAAAATGTTTTTGAAATTTCAAATTTAATTCCAGAAGATTTATATGAACTTGTCAAACCAGCGGGTATGTATAAACAAAAAAGTGAAAGAATAATAAAACTTTCAAAAATAATAGTAGAAAAATATAATGGAAAAGTACCAAATACAATTGAATCTTTAATAGAGTTACCAGGAGTTGGAAGAAAAACTGCAAATGTTGTTTTATATGTAGCTTTTGATATACCAGCTTTAGCTGTTGACACACATGTTCATAGAATAGCAAATAGATTGAAATGGATTAATACAAAAAAACCAGAGGAATCAGAATTTGAACTTATGAAAATATTAAAAAAAGAATTATGGGGTCCAATTAACGGATCAATGGTGTCTTTTGGTAAACAAACATGTAAGCCAATAAATACAAAATGCTTGGAGTGTCCTTTAAAAAATATTTGTCCAAGTAATAAATATTAAAAAATTATAATTTTTATGGTATAATCGTATTAAGAACAAATCTAACCCGTGAGGAGGGATAACATGGGAGATATGGATGTTTATTTGAGTGTATTTTTAGAAGAAGCAAGAGAAAATATTCAAAATTTAAATGATGCGCTTATGGCAATTGAAAATGATCCTGAAGATGCCGAGAGAATAAATGAAATTTTTAGAATTATGCATACCCTTAAAGGTATGGCTGGTACATTAGGTTTTAATGAATTAGCAAAACTTTGTCATACTATGGAAAACACATTAGACAAAGTAAGAAATAATCAAATGAAAATAAATGAAGTTTTAATTGATTTGTTGTTTAAAGGTTTAGATACATTAGAAGAGTCATTAGACAATATTTCTGAAGGTGGAAATGGTCATACTGATTCTGTTAGTGATTTAACTAAATCATTTAACGATTTATTAGAAGGAAAATCACCAAGTGTATCTGAAAAGGTTGTAGCTGAAGAAAATAAAGAAGAAAACAAAGAAGAAAGTAATAATGAGAAAGAGGGAGAATTTTATTCTTTAGAGTTGGATGATATAACTAAAGATGCCTTAAAAGATGTTTATAATAAAGCAATAGAAAAAGATTTAAATTTTTTCTATGTTAGAATAAAATTAGAAGAAGGAATACAACTAAAATTAGCTCGTGCTTATATGATTTTTCATAAATTTGAAGAATTAGGATGTGAAATAGTTTTTTCAAATCCTTCGACTGAAGATATTGAAAATGAAAAATTTGATTTAATTCTTGAATTTGGTGTTGTTGTAAAAGCAGGAAGAGAAGAGTTAGCAGGAGCTATAAAGAGTATTTCAGAAATAGAATCAATATTAGTTGATAACTTTACTATTGAAACAATTAATGGAAAAGAAGAAGTTGAAGAAGAAAATAAAGAACCAAAAAATGTACCTGTTTCTAAAAAATCAGAAACTAAGCCAAAGAAAAAAATAATGACTTCGCAATCTATAAGGGTTAATATAACTAAATTAGATGATTTAATGAATTTAATGGCAGAGCTTGTTATATCTAAAAGTAGAATTGCTGAAACTATGAAAAAATATACAATAAAAGAAATAGATGAAAGTTTATCACAACTTTCTAGAATAACGCTGAATTTACAAAGTATAGTTATGAATATAAGAATGGTTCCTATTGCATTTGTTTTTAATCGTTTTCCAAGACTTGTAAGAGATATAGCTAAAGATTTGAAAAAAGAAATAAACTTTATTATGGAAGGTGAAGAAACAGAATTAGATAGAACTGTTGTTGATGAAATAGGAGATCCATTAGTTCATTTAATTAGAAATTCACTTGACCATGGAATAGAAATGCCAGAAGAAAGAATAAAAAAAGGAAAATCAAAAGTAGGAACTATAAATCTTTCGGCAAGGCATGAAGGAAATAATGTTATTATAGAAATAAAAGATGATGGGAAGGGTTTAGATAGAGAAAAAATATTAAAGAAAGCAATTGAAAAAGGATTAGTTGATGCAGATTCTGCTCATAATATAAAAGATGATGAAGTATATAATTTAATATTTTTACCTGGTTTTTCAACAATGGATAAAGCAACAGAACTTTCTGGAAGAGGAGTTGGAATGGATGTTGTTAAATCCACAATTGAAGGTGCTAAGGGTACTGTTTTAATAGATTCTGTTAAAGATAAAGGTACTACAATTACAATAGTACTTCCGTTAACGCTTGCTATTATTACAGCTTTAAAAGTTATGATAAATGGATATGTATATGCAATTCCAATTGCAAATATTGATACAACACAAAAAGTCACAGATGGAGAACTTAGAATAGTTCAAGATAGAGAAGTATTTTTACTTAGAGGTGAAGTTATACCAATAGTTAGAATGAGAAAAGTATTTAATTTAACTTCTGAACATAAAACAGAAGATGAAAATGTTGTTATAATAGAAACTGGAAATAAAAAATATGGTGTTATAGTAGATAAGTTATTGGGTCAAGATGATATAGTAATTAAATCATTAGGTTCATTGCTTTCAGATGTTAAAGAATTTAGCGGAGGCGCTATACTTGGAGACGGAAGAATTGCATTAATACTTGATGTTGCATCATTATTTTAATTAAAATAAACCTTAGGAGGTGTTTTCTTAAATGGGTAAATCAATTCTTATTACGGATGATGCTGCTTTTATGAGAATGATTTTAAAAGATATTGTGACAAAAGGTGGATATGAAGTAGTTGGAGAAGCTTCAAATGGTCAAGAATCTGTTGAAAAATATAAAGAATTAAGTCCAGATTTTGTAACTATGGATATTACAATGCCAGTAATGGATGGTATTCAAGCAATAAAAGAAATAAAATCTGTAGATCCTAATGCTAAAATAATAGTATGTAGCGCTATGGGGCAACAAGCTATGGTTATTGAAGCAATACAGGCTGGAGCAAAAGATTTTATTGTTAAACCATTTCAACCTAATAGAGTTATTGAAGCTCTTCAAAAAATAGAGCAGGGATAATAAATGTTTGAATATGCAACAAATACTTCTACCTCCACCACAAATATTGGTGGAGGAAGTTTGCTATTTTCTGGAGTGTTTTCAGTTATTTTTTTAACATTTATTTTAATAATATTTATTATACTTTATTTTTTTTTGATTAAGCACATGCGTGGAGGTAAAAAAAATAATAGTATAGGAATATTGAAAAAATATTATATAGACAATAATTTTTATATTGGAATTTTAAAAATATTTAATGAATATTATATGGTGTTATTTGGAAATTCATCTTCTGAAATAATAAAAAAAATGAGTTTTGAAGAAGTTAATGAAATAATTGGTGATGGCCAGAAATTTTTTAATACTTTTACAAATTTTTTAAGTAAGGAGAAAGATAAAGGTGAATAAGAAAAAACTTCTGGCAACTTTATTTTTTATTTTTTTATCTATAGTAAGCTATACTGAAGACGTTATACCTGGAATTTCGATAAATATTAATCAAAATAACACAGGGACTTTGACGCCTACTTTGTTGATTATATTAATTATATCGGTTTTGTCAATTGCACCTGGTTTGTTAATGATGCTCACTTCTTTTACGAGAATAGTTATAGTAATGGGATTTTTAAGGCAAGCTATTGGAACAAGGCAAGCACCACCAAATCAGGTTTTAGTTTCAATAGCATTATTATTAACTATAATGATAATGTATCCAACTTTTAATAATGTTTATGAAAAGGCAATAGTACCATATAATAATGGCACTATTGGTTATGAGAAGGCTTTTGAAAATACTTGGACAGAGTTTAAAACATTTATGTTAAGAGAAATAACTTATCATAAAAATCAAGATGATATATATATGTTAGCTTCATCTCTTAAGGTTAAAATAAAAGATATAAAAGATACTCCTTTTCAAATATTAGTTCCAGCTTTTGCTTTAAGTGAACTTGAAATAGCATTTAAAATGGGAATATTAATTTATCTTCCTTTTATAATTGTTGATATGGTTGTTGCAAGTGTTTTACTTTCTATGGGGATGATGATGATACCTCCAATATTAATTTCTTTACCATTTAAATTGTTGTTATTTGTTATAATAAATGGTTGGGATTTATTAATGGGAAGTTTAATAAATAGTTTTGCTGGAGGTTAATAAATGACAGAAGAGGTTATAGTAGAAATTTTTACTAATGGAATAAGCATATTTTTATCTATAATAACTCCAATTTTGTTAATAAGTTTAGCAGTTGGACTCATAATAAGTATTTTTCAAGCAGTTACTCAAATTCATGAGCAAACTTTAGTTTTTGCTCCTAAGATAATAATTACTTTTTTAGCAGTTTTATTTTTATTTGGTTGGATGATGCAAAAACTAGGAGATTTTGCTTATGAACTTTTTACAAAATACTTAGGAATGATATAAATGGAATTTTTAAATGTAAAACTTTGGGTATTCTTTTTTGTTTTTATAAGATTACTTGGAGTTACTTTATTTATTCCATATTTTTCTATGAACTTAGTTCCAAAACCAGTAAAAATATTTATTTTAATATTTTTAAGTTATATAGTAGCTATAGGATTAAATGATACATTTCCAATTGATGGGAATTTTTTAATGATAGTTTATTTATTTATTGTTAATTTTTTGGTTGGGATGATAATAGGAATTATAATGCACATTATTTTTTATGCTGTGGAGTTGGCTGGACAATTTTTTGGAATACAAATGGGTTTTGCACTGGCAAATGTTCTTGATCCTATGTATAATACCCAAGTATCAATAATGTCTGAATTAGGATTTTTATTATCTACTTTTGTATTTTTTATTTTCAAAGGGCATATTTGGCTTTATATGTTAACTATTGAAATGTTTAAAAAAATTCCAAGCGTTTTTATATTTAATGGAAAAGATTTAGGAATATTTGTTTCTAAAATATCAGAAGTTTTTGTTATGGGTGTACAATTATCTCTTCCTGTAACGGCTTTTATGATTTTTACAACTTTATCACTTGGAATTGTAAATAGATTAATACCTCAATTAAATGCATTCATTGTTGGAATGCCTTTAAAAATAATAGTTGGATTTTTAATTTTTATGGCGGTGATTCAAGTATGGCAAGAATATTTTACAAAAACATTTTTCGAACTGTATCACTGGCTAGAAAAAACACTTATAATAGTTGTAAAATAAAAATAAATTTACAACTTTTTGCTGATCCAGATAAAACAGAGCAACCAACGCCAAGAAAGTTACAAAAAGCAAGAGAAGAAGGAAATATTCCTCAATCAAAAGAGTTTAATATGGCAGTTACATTTTTAAGTTTATCTGCTTTATTATTAATTTTTAGTGGTACAATAGCTACAGATTTATCAAATATTTTAAGAGATTATTTGAGTTTAAATGTTGATAAGGTAGATATAAATATATTGAGTTATGGATTATTAAAACATACGGATTTATGGGTAAAAGTAATGATGTTTTTTGTTGTTGCTGCTTTAATATCATTGCTTTTGGGTATGATACAAACTCAATTTTTATTTACATTTAAATCTTTGAAGTTTGATCTTTCAAAAATTGATCCCATAAAAGGTTTTAAAAATTTATTTTCTTTAAAGTCATTTATGGAATTTTTAAAAAATCTAATTAAAATAATAATTGCAGGTTATTTTGGATATTCAATTTATATTGAAAAACAACCTTATATATCAAAATTAGCCTCGGTTCCTGTTTTGGAAGGAGTTAGATTTATTTCAAATATGATTATTGAAGTTTTATTTAAGATGGGATTAGCCTTATTGATATTGAGTTTATTTGATTTTTGGTTTCAAAGATTTGATTATAAAAGAAATTTAAAGATGTCAAAAAAAGAAATTAAAGATGAATCAAAAGATATTGAAGGTAATCCAGAAATAAAGAAAAAACAAAGAGAATTTATGATGAAAATAGTTATGTCAAGAATGATGCAGCAAGTACCTTCATCCGATGTAATTATTACTAATCCAACTCATTATGCTGTTGCAATAAAATATGATGCTGAAAAAATGTCAGCACCAAAGGTGGTAGCAAAAGGAGTAGATGAAGTTGCGTTTAGAATAAGAGATATTGCATCTGAAAATTATATTCCAATAGTTCAAAAACCCCCTTTAGCAAGAGAGCTTTACGCAACTACGGAAATTAATGAAGAAATTCCTGATAATTTATACAAAGCTGTTGCTGAAGTTTTGGCATATGTGTATAATCAAACGAAGTAGGTGTAAATATGAATTTAAAAAATATTGATACATTTGTTTCAGTACTAATTGTAGGATTAGTTGTTTTAATGGTTATTCCTATACCAACTTATTTGTTAGATTTTTTACAATTTTTAAATTTATCGATTTCAATATTAATACTTTTATCAACTCTTTATATTAAAAGAGCTTTAGATATCTCTTCTTTTCCTTCATTGTTACTTGTTACAACTTTGTTTAGACTTTCTCTCAATATTTCTTCAACAAGACTTATATTATTAAATGGTAAGAATTTTAGCGGTAAAGTTGTAAGAGCATTTGGAGACTTTGTTGTTGGAGGAAACTATGTTGTTGGTATAGTAATATTTTTAATTTTAGTTTTGATACAATTTTTGGTAATTACAAAGGGATCAGAAAGAATATCTGAAGTTGCTGCAAGATTTACTCTTGATGCTATGCCGGGAAAACAAATGAGTATAGATGCTGATTTGTCTTCTGGTATAATTGGAGAAGAAGAAGCAAAAATAAAAAGAGAAGATGTTAGACGTGAAGCAGATTTTTATGGAGCTATGGATGGAGCTTCAAAGTTTGTAAGGGGTGATGCAATAGCTGGGTTGATAATAACAATAATAAATATATTAGGTGGTTTATTAATTGGAATGTTTCAACAAGGATTGCCAGCTTCAGAAGCTTTTAGTACTTATACTCTATTAACAGTTGGAGATGGATTGGTTTCACAATTACCGGCTCTTTTAATTTCAACATCTGCTGGTATGATAGTATCACGTTCTGCTTCAAAAGAAAACTTTGGAACAGATGTTATTGCACAATTAACTGCTGATAAAAAGGTTAATATTTTAATGGGAGCAATGGTTCTTTCAATTGGAATATTTACGCCGTTACCAGCAATGCCTGCCTTAATAATTGGTGGTGGAATAATATTATTATCATACTTAGAATTGAGAAATGAAAAAAAAGAATTATCTTATCAAACGGGTGGTGGAATATATACACCATCTGAAGAAAAAGTAGAAGAGCAAGTTTCAACTAAAGGAAGAATTTCTCCTCCTTTAACCACTCCCGAAGAAGTATCGGAAATAATTCAAAATGATACTATTGAAATAGATATAGGTTATGGGCTTATAGCACTTGCTGATCCATCACAGGGTGGAGATTTATTAGATAGAATTACTATTGTTAGAAAACAAATTGCTTATGAACTTGGAATAGTTATCTCTCCAGTAAGAATAAGAGATAGTGTTTTATTGAGTTCTAATGAGTATATTATAAAATTAAAGGGTGTTGAAATAGGAAGATTTGAATTAATGCCAGAAAGATTATTGGCTATAAATTCTGGAATGGCATCTGAAGCAATTGCTGGTGTTCAAACACAAGAACCTTCATTTGGTTTGAATGCGTATTGGATTGATGAAACATTAAAAGATGAAGCAATTACAAAAGGATATACTGTTGTTGATTCTCCAAGTGTTTTTGCAACACATCTTTCTGAAATGATTAAGAAGTATGCACATGAGATAGTTGGAGTAAAGGAACTTGAGATATTAATAGATGGATTAAGAGTTAAAAATGCAACTATAGTAGATACGTTAATACCAACTTTATTAAAAATTCATGAATTAAAGGCTGTAATTGAAGGTTTATTATTTGAAAAAATTTCTATTAGAAATATGCCAGTTATATTTGAATATTTAGTAGAAGCTGCAGATAAATATGGAAAAGATAATGAAAAATTAATAGAACATGTTAGAATAGGAATAGGTAGACAAATTTGCGAAGGGTTAAAATCATCAGATGGTCAATTACACGTAATTGCATTAGATGCATCTGTAGAGAGAAAAATACTAGATTCAATAATTGATGGTGAAGAAGGGCGATATTTAGGTCTTGAACCTGAATACATGAATATATTAATTGAAAAAATATCTAAGGCTTTAGAAGAAATAATGATGAAAGGTTATAGCCCTACACTTATATGTTCAAAAAGTATAAGATTTTTACTTTCAAATGTAGTATTAAGGTATGTTCAAAATGTAAGTATAATAGCTTATGAAGAAGTTCCAGGAGATATTGCATTGAGTGTTGAAGGTGTTTTAACAATTTAAGGAGGTATAAAAAAGTTGAAGGTAAAAAAATATGTTGTAGAAAATATATCTGAAGCAATGGAAAAAATCCGAACTGAATTTGGAGACGATGCTTATATATTAAATACAAAAAAAATAAAAAAAGGTGGATTTTTAGGTTTAGGGGGTAAAAAATATTTAGAAGTAACTGTATTAAGTGAAGAAGAAAAAAAACTTCCTAAGCAAAATAATACACCTTCATTTGAAAATGAAGAAAAACTTTATTCATTAAAAGGTATTGTAGAAAGAAATAAAAGATTAGATAAGAGAATTGCAAAAGAAAGAAAACAAGAAATACCAACAAATACAGCTTCATATGGAAATCAATTAATGGAACTTATAAAGGAACAGAGAAAAGTTTCTATGACAATTGATAAAGATGCAAAAGAATATTATGATAATAAACAAATAAAAAAAGACGAATTTCAACATTTTATTAAAAATTCTGATAATAAAATAATAGAAAAAAAATCAAAATTAGAAACTAAAAAAATAGAAACTAAAAGTGAAATAAGTGAATTAAAAAATATGATACAGAGTTTAAGTAAAAAGATAAATGGAAAAAATGATTATTACCAAGAATTTTTTAGAACTTTGAAATTTAATGATATTTCTGAAAAATTAGCAGAAGAAATATGCAATGAAGTTGAAGATATTAACTTTGATGAAAATTGGAAAAATAATAAGTTATTGAAAGAAAAAGTTCAAAAAAAATTATTGGAAAATTTAAAAATAAAAAATATACCTTTAAAAGGAAGAATAATACTAATAGGTCCTACTGGAGTTGGAAAGACAACTACTTTAGCTAAGCTTGCGGCTATTATGAAAAAAGAAGGGAAAAAAGTTGCAATAATAACTATTGATACATATAGAATTGCAGCAGCTGATCAATTAAAAATTTATGCTGATATAATGGGTATTCCAGCATATGTATGCTATACTCCTGAAGACTTAAAAATAACTTTAGAGTCTTTAAATATGTTCGATACAGTTTTAATTGATACAGCTGGTAGAAGTCATAAGAATTCTTTACAGTTAAACGAGTTAAAGGTTTTTATAGATACTATAAATCCTGAATATAGAATGTTAGTGGCTTCTGCTAATATGAGAACTAGTGATTTAATAAATATGTATGAAAGTTTTTCTCCAAGCAATCCGGATTCAATAATAATAACTAAAATTGATGAGACATCATACTTTGGACAAATGTTTTCTATAATTAATCATTCAAATTTACCTATAAGTTTTATAACAAATGGGCAAAAAGTTCCAGATGATATATTAATTCCTGATATCAATTATCTTGTTAATAAGCTAATTGAGGGGGTATTTAAATGAGTAATAAATTAAATGAAGATCAAGCAACAGAGCTGAGAAAACAATTTGAAAATGTTGATACTAAAATAATAGCAATTACTGGCGGAAAAGGTGGAGTCGGTAAGTCTTTGTTTTCTGTAAATATTTCTACAGAATTAGCTAAGAGAGGTAAAAAAGTATTATTATTCGATTCTGATGCTGGCTTTGCAAATGCATCAATATTATTTGGTAAAACAATAAAAAATACATTTGGCGATTATATTAGTGGAAAAATAACTTTAAATGAGTGTATTCAAAGTTCAAAATATGGAGTAAATGTAATTACAACTGGTTTTGATTTTAAAGATTGGAAAATGTTTCAAAATGGATTTGACGAAATGATGATGGAAGAATTAATGACTTTATCAAATGGCCATGATTATGTAATTATAGATATAGGAGCTGGATATTCAGAAAAATTAAAACAATTTTATAAATTTTCAGATAAAATATATTTAATAACAGTTCCAGAACCTACTGCTATAGTAAATGCATATACTTTAATAAAAGCTTTATCTTATTTAGATGTTCAAGGAGAATTAGATATAATAATAAATCAAATTAGAACTGAATCAGAAATAAAAACTGTAGAAGATGTTTTAAAAAAGACAGTAAAAAATTTTTTAGGAAAAGAAATAAGCAATTTTTATTATGTAATGTATGAGAAAAATATTAGAGAAAGTATAAAGAGGCAAATACCTTATATAGTTTATAAAAGTAATTCTAAAATGGGAGAGATAATATCTAATATAGTTGATGATATATTGAATATTAATATTAAAAATAAAAAAATTAATTTTAAAAGGAAACTTAAAAATTTATTTGGAATAGGCGGAATTTAATATGGAAAAAGATTTTATCTTTATTGTGTTGAAATTAGCTTTACATAGAGGTAATTTTATAGATATTAAGAGTAAAACCGAAGAGATAAAAACAAAAATAGTTGAATTTAAGAATAATAAATTAACTGTTATAAAAAAAAGTTTGGATGTAAAAATAGATGAAATAATAAATATAGAAATTTTTTATAATGGGTTATTTAAATTGATAGGAAAATGTGTTAAAGTTACCGATGATTATATAACTTTTAATATAGAAAATGATTTTCAATATATAACAAAGAGAAGAAATTTTAGAATACCAATATTTTTGCCTGTAATAATAAATGAAAAATATAAAGGAGTTTTGGTTGATTTTAATGGTAAAAATATTATTAGCATTACTTTATTTTCAAATTTGATAAATAAATCAGAAAAAATAAATATTAAATTTTTAAATATAAATGGTATAATTATGATAGGGGAAATAATTTTAAAAAGAGATGAAATATTTAATCTTGAAAGAATAGTAGTAAAATTAGATGAAAAAGAAAGTAGTAGTACAATAGAAATTTTTCAAAAAGTCTTTTCTAATTATTTATAAATATGGAGGATATAATGGCCGATTTTATAGAAAAAGTTTATGCTAAATCAAATATAGCTCCTAATTTACCTGCAGAGCTAGATATAAATGAGGAATTTTTTAAAGGAAAATATAAAACAATAATACATGATTATAATTCTTTAAATAATACAGCAGATATAGGTTATCCAATTTATAAAGGTGCTTATATAAAAATACCAATGAATGTAAATATGAAAGTAAGAATTTTTTCTAAAACTTCTGTTTTTTTATTTAAAAGTAAGGTAATTGGAAAAGGTGAAGAGGGAAATATAAAATTTTTGACTATAACAGTGCCCTCAATAATCTTTAAAGTTCAAAGAAGACAATTTGTAAGAATTCCTATAATACTTGAAGGAAATTTTTTTATAAAAAAAGAGTATGATGAACTTGAAATTCCTCCAAAATATAAATTTGTTACAAAAGATTTTAGTGCTGGTGGAATTTCAATGGTATCAAAGAAAAAATTAAATTCAGGAGAAGAAATATTAATAAATTTAAGATTAAATGAAAAAATAAATATTGAAAATTTTGAAGCAAGAATAATAAGAGAAATTGGAACTACTGATTTTGGTGAAACAATTTATGGAGTAAAGTTTTTAAATGTAGATTCTATGTTAGAAAAAGATTTTGTAAAGTTTATTTTTAGATATGAAATAGAGGCTTCTAAAAAAAATAAAAAAATTTAAGGAGGAATAAAATAATGTCAATATATGATCGAATAGATAAAGTAAGATTGGATGCTTTAAAAGAAATGGGAAATATAGGTGCGGGAAATTCAGCAACATCAATTTCTATGATGATAGATAAAAAAGTTGATATAAATGTTCCAGAAGTAAAGGTTTTATCTCTTTCAGATTTATGGAAAGTATTTAAAGATCCAGAAGAAATTGTTGCTGGTTCAATGATAGGCGTGGGTGGAGATCTTGATGGAGCAATACTATTTTTAATGGGAACAGATTCTATAAAAAATATGTTGGAAATGATGATGCTTCCAAAACCAGAAGATCTAACACAACTCGATGAAATAACAAGATCTGCAATAGGAGAAATGGGAAATATAATGTGTAGTTCTTATGTTGTTGCACTATCTAATTTTACGGGATTAAACATACACTCTCTTCCTCCAAATGTTGTTGTGGATATGATTACTGCCATAATTTCTGAAGTTTCTCTTTTAACAACTGAAGGAGACGATTATATAATATTAATAGAAACCGATATAACTCTTGAAGATATATCTAAAAATATACCAGGATATATAATTTATATACCAGATCAAGCCAGTCTAAAAAAAGTTCTTTCCAAAATAGGGTTGGGGATAGATGATGAGTAAAAAAATAATAGGTATTGGAGAATACGCTAGTGTTAAAGGAGAAGAAGTTATAGTTACACTTGGTCTTGGATCATGTGTAGGTGTTTGTATAAGAGATAAGACTAAGAAGGTTGGTGGAATGGTACATGTGATGCTTCCAGATAGTGGAGGTAAACCTTCACCAAAACCAGGAAAGTATGCTGATACTGGGATAGATTTGGTATTAGATGAAATGAAAAAAAATGGTAGTTCATTAACTACTTTAGAAGCTAAAATAGCTGGTGGTGCTTCTATGTTTGGAAATACAAGTAAAACTATGGATATTGGAAAAAGGAATGCTTTAGCAGTTAAAGCAAAGCTAAAAGAAAAAGGAATAAGAATTATAGCTGAAGATACTGGAGGAAATAGAGCAAGAAGTATAGAGTATAATCCGTCAAATGGAGAACTTTTAATAAAAAAAGTTGGTGGAGGCGAAAAAGTAGAACTATATAAAATATAATGGGTGATTAGTTATGAAATATAAAATGAATACAGATCAAGTTGTAAAAAATTTTTTACCCAAAATAAAAATGATAGCTTTGAATTTAATAAGTGGTCTTCCTGCAAGTGTTGAAATAGACGATTTAATACAAGAAGGAGTTATAGGACTCTTACAGGCGTATGGACGATATGATGCTCATAATGAAAGTGGAGCACAATTTTATACGTATGCAATGAGAAGAATTAGAGGAGCTATGTTTGATTATTTGAGAAAAATAGATTGGTTACCAAAGGAAATAAGACATTTAATAAAAGGTTATGAAACATTAATTTCAACATCTGAGGAATTTTTAACAGATAAGGAAATAAAAGAAAAATTAAAAATAAATCAAAAGGAACTAAATAAGATAAAGTTATTTTTAAGAAAAAGTCAAATTTTAAAACTCGATTATTATCTTACAGAAGATTCAGATGAATATATGTTTGATGGAACAAGTGAGGAATATGATCCGGAAATAATAGCTTACAAATCTATTTTAAAAGATAAATTAAAGGAAAAAATTGAAAATTTAAAAGAAAAAGAAAAGTTACTTCTTTCCCTTTATTATGAAAAAGGATTGACATTTAAAGAAATAGGAGAAATTATGAATGTTAGCGAATCTAGAATTTCTCAAATTCATTCAAAGTTATTAATAATCCTTAGAAAACAATTAAAAGAGGGTGAATAAGATGCCATTACATGATTTACAAGTTCTTTTAACAAAAGAAGTTGACGTAGCAAATCAAGTACAGGCTATAAACTCTTCTACAAGTTCTGCAAAAATGGTTGAATTAGTTAAGCAAGTTCAACAATTTGAAAGAAATATGAAAATGGTAAAAGATGGAGAAAAGTCAGAAAATAATATTATAGATGATCAAAAACAGAAGCAATCTAAACAAAATAAAAAAGAATTTAATAAAAAAGAAAATAATTTAAAAGAAAATGAAAAAGAGGTTATAGATGAATATAGAGGTCATATTATAGATTTACACCTTTAATTTTTAAAAGGGGGTATAAAATGATTGGTTATTTTTCAATATATAGATCTGACGATGAAAAATATGCAGGTGGAATACTTTCAATGAATGAGAAAGGTTTACCTGTATCTTTTAAATATACTACACCAATAAAACCCAATAAGATACAAAAAATAATATATGGAAAAAATTTAAAAAGTTATTTAGCCTCAGAAATAATAGGAAAACAATTAATAAATATTGTAAAAGATTTAGATATGATATTTGTAAATGATACAGAAATTCTTGATTTTATACAAACTGATAAATTAATGGTACATTTAAATCTTACTTATGAACCTTTAGAGGAGTATTTAAAAGAAAAAGAAGGTTGTATTTCTTCAGGTGAAAATAGATCTATAAAATTAACTTTTTCAAAGGAACCGGGAGAAGAACTTTTTAAAAAAATATCAGAATTAAATGAATTTTTTGATTTATTTGAACCTTTTCAAAGATTAAATGAGGCGTTGAAATATATATGCTCTTCGGAAGAAAAATAATATTAAATGATTATGATATAGACTTTTATTATAAAATAAAGAATGATAAATTTAATAATATGAAAATTGCGGACATAAAAGAAAGTAGTCCGCAATTTGTTTTAGTTGATTTTTGTGAAAAAATAGAACCTAAAATTATTTCAAACAAGTTTAAAAGTTTTGTTGATTTTGAAATAAAAGAATTAAATTCAAATTTAGAAATAAAAATACTTGAATTAAATAATTTTGAAAATATATTAAATAACATTGAAAAAATGAAAACAGTAATAAAAGAAGAAAAATTTAAATTTGATTTTGAAGTATTAGAAATACAAAAATTGCATACTAAAATAAAAGAAGAAAATAAAATAAATATAAAAATAAAAGAAAAAAAATTAGAAAAAAAAATAATAAAAAAACCAGTAAAAAAATTAAAGAAGAATATTTCAAAAGAATATATCTTACAATTATTAAAAGAACTATTAAAAGAGGAAAATGTTTCTATACATGACATGGCTTTTTTAGCTTTTTACAGGGAAGTTCCTTATGGAAAGATTAAATATGAATGGAATGATAAAAATTTGAATTGTTATTTATTAGAAAATAATATAATCTATTTAGACGCTGTTGTTTTTATTAATAAAAATAATAATGAAAAGTATCTTAAGTTCATCAGGAGGTAACTTTGTTTAATATTAAAAATTTAATAAATAAAATAGATAAAAATAAAAATAATGTGATTATTATACCAGAATATTCAAAATTTGAAGTTGAAGATGAAGTTTTGTATTATCCTGATTCTGATATTTTTCCATTTGAAGAATTTGATATTTCTTCAGAAATAAAATCAAAGAGATTAAAAACTTTGTATGAATTAAAAAATAAAAAAAACAATATAATAATAACAACATTACATGCTATAACAAGGTATACAATACCATTAAAGCATTATTATATAAAAAGGATAGAGAATAATTTTGAAGACATATTATATGAATTAGGATATACATATAAAAACGAAGTTAGAGAGTTTGGAGAATATTCTAAAAGAGGATTTATAAGGGATATTTTTTTACCAATATCAAATAATCCAATAAGAATTGAATTGTTTGATAATGATATTGAAAGAATAAATCTTTTTGATAGTTTTACACAAAAGTCTATTAAGAATGTTAGTTATTTTGATTTAATTCCAGGTTCAGAAGTGTATAGATTTAAAGAAAATATAGAACTTGTAGAAAATAGAATCAATAGAATTCAAAAAAATTTAAAAACGGATGATGAGGTATCAATTGAAGCCCTTTATTCTATTCCGGGAATTTTTCATAAAGATAAAAATACATTGTTTTCATATTTAGAAAATAACACAGATTTTTATTTAATTAATAAAAAAGATATTTTAAAAAGTTTTTCTGAAAAAGAAAAAGAAAATATAGAAGTATGCGATACAAATTTGAAAAAAGCAATATACAAAGAATTTTCTGGGATATCTATAGATTTTTTAAAAGACTTGAAGTATAAAGAATACAAAGTGAATTTTAAAAATAATGTAATTTTAAAAAAAGAAAAAGTAAAGTATGATATGGAAGAAATTCCATTAATAGATTGGGAAGATTTGAAAGAAAATGATTATGTTGTGCACTCTGATTATGGAATAGGATTGTATAAAGGAATAAAAACTAAGGAAACAATTTTAGGGATAAGAGAGTATATAATAGTTGAATACTCTAATAGTTCAAGAGTGTTTGTACCAGTAGAACGTTTAGATAAACTTTCAAAATTTATTGGGGATACAAGTAAAATAAAGATTTCAAATCTTTCTGGAAAAAGATGGCAATCTAAAAAGAAAAAAGTAGAAAAAAATATAAGAGAAAAATTAAATGAGTTAAAAGAAATATATGCTAAAAGAGAAAATAGCAAAGGAATATCTTTAATTGGAGATAAAGAACTTGAAGAAAAATTTGTAAATACTTTTTCACATATTGAAACTGCAGATCAAATAAGGAGTATAAATGAAGTAAAAAAAGATTTAGAAAGTTTAAAACCAATGGATAGATTATTAGTTGGAGATGCTGGATTTGGTAAAACTGAAATTGCTATGAGAGCTGCATTTAAAGCAGTAGTATCAAATTATCAAACTTTATTGTTAGCTCCAACTACTATACTGGCTAAACAGCATTATCAAACATTTAAGGAAAGAATGGATCCATTTGGAGTTAATATAGAGTTAATTACAAGATATAAAACTATTTCTGAAAAAGAAAATTTGTATAAAAAAATAAAAAATGGAAATGTAGATATAATAATAGGAACACATTCATTATTTTCAAAAAAAATAGATGTGAAAAATTTAGGTCTTGTCATAATAGATGAAGAACAAAAATTTGGTGTTTTACAAAAAGAAAAATTTAAAAAAATACAAATAGGAGTTAATATTCTAATGATGAGTGCAACTCCAATTCCAAGAACTATGTATAAATCAATGAGCGGACTTCAAGAAATTTCAACTATTTCAACTCCACCGTTTGGAAGAATTCCAATACAAACTTATGTTGGCTTATACTCTAAAAAAATAGTTAGAAAAGCACTTTTAAGAGAAAAATCAAGAAGTGGGCAAAGTATATTTATACACAATAGAGTTCAAGATATTGAAAATATATACAGTGAATTAAAAAGTATTGTTCCTGAATTGAAAGTAAAATATGTACATGGAAGAATGAAAAAATCTAAGTTTATAGATATAATAAATGATTTTTATAGTAATAAAATAGATGTGCTATTAGCAACAACTATAATAGAAAATGGAATTGATGTACCAAATGCCAATACTTTAATAGTTGATGATTCTTTTAGATATGGTATTTCACAGCTTTATCAAATAAAAGGAAGAGTAGGAAGAACTAATAAAAGAGCATTTGCTTATTTTATGTATAGAAATCAATTATTAAATGAAGATTCAAAAAAAAGATTAGAATCAATAAAGAGATTCAATGAACCAGGAAGTGGATTAAAGCTTGCGTTAAGAGATTTAGAAATAAGAGGATATGGAGATCTTTTAGGATTAGAACAGAAAGGTCATATAAATACTATAGGTTTGCATTTATATAAAAATATTTTAGAAAAAATAATGTTGGAAGAAAAAGTTACAGATGATGAAAAGATTAATTTAGAGTTTACAGATATTATAGGTATAAAAGGAAATATGATAATACCTGAAAATTATATAAACAATTCAATTGAAAGAATGAGAATATATAGAAGAATTTCAATTTGTAAATCAGAAAATGAAGTTATATCAATAAAAAATGAAATAGAAGACAGATTTGGAAGATTACCAAAAGAAATAAAAACCTTATTTGATTACGCAATAGTTAGAGTTAAAGCAACAAAATTAAAAATAGAAAAAATTGAAATAGGTAATGGATATATTTTATTCAAATATAATAAAGGTGCGATTCCTAAAATAGAAAATTTTTTAAAACATTCAAAATCTAAATTTCATAGTAAAACAAATGAAATTATATGTTACGGAACAGATGATGAAATAAAATTTCTTAACAAAGTATTGAGGTGAAAGATGATATATGATACAATAGCTGCAATTTCAACTCCAAATGGAACAGGAGCGTTGAGTATTATAAGAGTTTCAGGAAAAGATATTATAAAAATTATAGATAAAATTTTAAAAAAGAAAAATTTTGAATCGAAAAAAATGTATTATGGCTGGATATATGATAATGATGAAAAAGTTGATGAGGTTACATGGGTTTATCATAAATCTCCAAATTCATATACTGGTGAAGAGATGCTTGAAATTTTTGGGCATGGTGGAAAATTAATAACCTATAAAGTTTATAAAACAATTTTAAAAAATGGAGCAAGACCAGCTGTTGAAGGAGAGTTTAGTAAAAGAGCTGTTTTAAATGGAAAGATGGATTTAATAAAAGCAGAATCAATAAATGATGTTATACATGCAAATACAGAATATGCTTTAAAAGCTTCTTTTAAACAATTATCAGAAAATCTTTCAAAAAAAATTAATAATATTAAAGAAAAATTATTAAATGTGGCAGCAAGAATAGAAGTTGAAATGGATTATCCAGATGATTTTGAAGAAGATAATTATGATTTAGAAAAAAAATTAATAAGTATAAAAGAAGATTCTGAAAAAATATTGAAAAATTCAGATAATGGTATAATAGCTGTTCAAGGATTAAAAGTTACAATAGTTGGAAAGCCAAACTCTGGTAAAAGTACACTTTTAAATGCATTATTAAAGAAAGATAGAGCAATAGTTACGGATATACCGGGAACTACAAGAGATACTATAGAAGAAAGTTTAAATATCAAAGGTATATATTTAAAAATTATTGACACTGCTGGTATACGTGAAACTAAAGATATTGTTGAAAAGATAGGTGTGGAAAAATCAAAAAAATCTATTGATGAATCAGATTTAATTTTGTTTGTAGTTGATGGAACAAATAAAATTTCGAAAGAAGATAAAGAAATTTATGAATATATACAAAAAAAGAATAAAAAAAGAATAATTTTGATAAATAAAAAAGATGATGTTAACTTTAAAGAAGATTTATTAAATAAATTTAATAAGGAAATAGTTTTAAAAATATCAGCAAAAAATCAAAATGTTTCTGAACTAGAAGATAAAATATATGAAATGTATTATAAAGATTTAGATATAAAAGATCCAACATTAATAACTGAAAGGCAAAAATATACTTTTGAAGAAGCCCTAGAAAATATAAATTCTGCAATAAAAGGTATATCACAAGAAATACCAAATGATATAATTATGTATGATATTAAAAATTCTATAAAAAAGATAATGGAACTTACTGGAGAAGATTATACAGAAGAATTATTGAATAAAATGTTTAGTAATTTTTGTGTTGGAAAATAAAATTGGAGGGATTAGAGTTGAATATAATTATACCTATAATACTTGGACTTATTCCATTAACGCAATTTTTTGTAAAAGGTTGGTTGTTTTTTGGTGTATCATTAATAACTTTTATAATTGGTTATAATTTATTTAAAAGAAGTAGCAGTAAAGAATTTTTATCGTATAGTATTTCAATATTATTATCTCAAACAATTTGTACATTATTTAATATTTCTAATACAGCAATTTTTGTATACCTTTTAATAACAGCAATATTATTTTTTATAGGATCTTTAGATTTAAAAATTGTAGACAATTTAAAAAATTTTCTTAAAGAGAATAAAGTCAATCTAAAAGAATGGGAGTTTGAAATGTGTTACTTTGGATATGGACAAGTTCAAGCAAAAGAAGATATAGAACATTTTGAATCTGCAGTAATAGGAATTGGAAAAGAAGGTATAGCTTTTAATGTGAAAATGGCTAAAAATAATGAATTTAAAAAATTTATTAAATATAACGAAATTAATGATTATGGAATGTATAAAAAGCAAAAAAAACAAGATTATTATGGATACGCTCCAAAAATAAGGGATATGTTTTTACCTTCTAAAGATATAACAACTTTACATAAACCATATTTAGATACATATATATTGACTATACAAACAGGAGAAGAAATCTATAGTTTTTATGAAAATGTAAAAATCATTGAAAATTTGGTAAAAATTATAGAAGAAAATATAAATGGGGGAAATGTATGAAAAAAACATTAAAAATAAGTAAGTTTGAAATAAAAAAAATATTTAGAAATCGTGGAATATTTTTATTAATGATTATTTTTCCAATAATAGTTGCATACCTTGGTGCTGAATTTTATCCTGAAAAACTTGTACAAAATTACAAGGTTGCAGTATATAACGAAGATAATTCATTTCTTGGAAGATTTGGATTTTTATTTTTAAAACAATTCTTTAAATGGGAAAATGCTAAAGAAATAAAAAATAAAACACAATTAAAAGAAGTTATAAGAGAAAAAGAATTTGATTCTATTTTAGTAATCCCAAAAGGTTTTATGGGTAATTTAAAAGATTATAAAGAAACAAAGTTATATTTGATACCAAATCCAGATAAACTTCAAGATAGTATGGCAATTTATACGGTGTTTAATGCTTTATTTAAAGAACTTTCAGGTATTCCAGATATTGCAGGTGGATCTACAACAGAGTTTTTATTAAAAGGTGGAATAACAGTAGATAAAAATAGAAAAAAACCTAAACTTGAAGTTTTAGTACCAGATTTGAATGATGGAACAACTAAGAAAACTAATTCAATTGATTTGGGATTTCAAGAAATTTTTGCACCAACAATTTCAGTTATAATGGTATTATTATTTTCTATGATAGGTGTTGGAAATTCAATTGCTCATACAAAAGAAAGTGGATTATTCGATATATATAGGGCAAATGGATTAAAAACGTATCAATTTATAGGCATAAAATTTAATGCATATCTTGTGTTGGGTATTGTTGCGAGTTTTATATCTTGGTATATGTATAGATTATTTGGAGTGGCTTCTCAAGGAAATGAATTTTATGTTATATTAATAATATTATCAACAGTATTTGCTTTTACAGCATTTGGTATATTGATTTCATCTTTTGTAAAAAATGAAAGATCAGCAGCTTTTTTATTAACGGTAACAACAGGAGCAATGATTGTTTTTGGTGATGTTTTATTGCCCATACCATCATCAAGTATAGTTAAAAATGTTTCATATGCTTTTCCAATAAAATATGCAGTAGATGCTTGGAGAAAAGTTTCTATACTTGGATTAGGAATGAAAGACATAAAATTAGAACTTTTGATATTAATTTTATTTGGAATAATTTCTCTTATTATAAGTAATTATGTTATAGGAATTGTAGAAAAGAAATGAAAAAAAAGAGTTTGGCAGTTTCTATATCATTTGAAATTGCTTTATCTGCAACTATATTCTTATTTATAATAATATTAATTTCTAAAGATTGGTGGGAAATGATATATCTACCAATTATTTATATTTTCTTTAAAATTTTAGTTTATTTTAGTGTTGAAAAAAAATTATATAGTATAATAAACAGGGCAACGTCTAAAAAATATGGAAGAATTTATAGTGGTATTTTTAGGGAGTTAGAAGAATTAATAGGTGGATATAAAACTATTATAGATAGAGAAAGAAATGATTTTAAAGATTATTATAGTAGATTCAATACAATTTTTAATAATATAAATTTTGGAATACTTTTTATAAATAATGAAATGAGAGTTGAAAGTATAAATAAAAAATTTAATGAATTATTTCATTTTATAAATGTTAAACCAGGTATGTTATTCTTTGATATTTTAAAACAATCAAACATAAAATTTCCTTTAATAACAGGTAGATATGAAGTGTATTCTAAAAAAATGAGAAAGAATTTTAATGTTAGTGTTAATAAAAAAGAAGATTATATAATTATAATTTTTGATGACATAACAGATATAAAAAAAATGAAAAAAAGTCTTGAACTATCTAAAAATTTTTCAAGAATGGGAGAAATAATAGGAGATATTTCTCATGGATTAAAAACGCCTGTTGCAAGAGTTAAAATGGCATATCAAATGTATTCAATGTTTAAAGACAAAGAAAGTTTTGAAACTTTGGGAAAAGAAATAGATAATTTAAACACGTTCACCAAAAGTACAATAGAATTATTTAAAGAAGAGAATATTAAAATGAAATTAGAAGAAATAGATTTAGAAAGTTTTATTAAAGTTATAGAAAGAGAATATAAAAAAAATTATTCAAATATATGTTTTGAATTTGTAACGAAAGAAAAAATTTTAAAAGTAAATAAGACTTTGTTTTCTTCATTTTTAAAAAATCTCATTCAAAATTCTATTGATTCAATACATGAAAAATATATTATAAAAAATTTTAATCCTAAAATAAAAATACTTATAAAAAAGAAAAAAGACAAAATTAAAATATTATTTTATGATAATGGAAAAGGAATGGATAAATATACAATAGAAAATTATTTAAAACCATATTATACAACTAAAAAAAATGGAAGTGGTATGGGAAGTATATTTATTGAAAAGTTTATTGTAATGTATAATGGTAATATTGAAATAAAAAGCATTGTAGAAAAAATGACTTTGATAAAAGTCGAAATTAATGGGTGAAAAAAATGAGAAAAATACTTATAGTTGAAGATGATATTTCAATAGGGTCAATGTTAAAAAAATTTATTGAATCCAAAGATATTGAAGTTGAAATTGCTGAAAACGGAATGAAAGCTAAGCATATTTCAAAAAAATTTTTTCCAGATATAATATTACTAGATTTAAAATTACCAGATATTTATGGATTTGATTTAATTGGAGATATAAAACAATATACAAAAGAAATAATAATAATAACTGCACATGGAGATATTGATGATGCAGTTAGAGCTACTAAAATGGGTGTATATGATTTTTTTGAAAAACCAATAGATTTTATAAAATTAGGAACATCTATAGAAAACATATATAAGATGCTGGATTTAAAAGAAAAAGTAGAGAATAAAAAAAAGAATTCTAATAAAATTATAGGAAATAGCAATGCAATTAGAAGTTTAAAACTTAAAATAAAAAAAATTGCAGAAAAAAATATTTCTGTATTACTTTTAGGAGAAAGTGGAACTGGAAAAGAAGTTTTGGCAAGAAGTATACACAATTTAAGTAAAAGAAAAAAATTTGTAGCGGTAAATTGTGGCGCTATACCAGAAGAACTTTTTGAGAGTGAATTATTTGGATATGAAAAAGGTTCTTTTACAGGCGCTGATACAGCTAAACCAGGTAAAATAGAAATGGCAGATGGTGGAACATTATTCTTGGATGAAATAGGGGATCTTCCTAAAAATATGCAAGTAAAGTTATTACGTGTACTTGAAACTAAAGAAGTAGAAAGAATAGGTTCAACAAAATCAAAAAAAGTAGATATAAGAATAATTGCAGCAACAAATAGAAAATTTGATGAAATGATAAAAAATGGTCAATTTAGAGATGATCTTTTTTTTAGAATATCTGTAATAGAATTAATTATTCCACCTTTAAGAGAAAGGAAAGAAGATATACCAGAATTAGCAAATTATTTTGTTATGAATGCAAATGAAGATTTAGAAACAAATGTAAAAGAAATATCTAAAGAAGTTTTAGATTCATTAGTAAATTATGAATGGCCAGGAAACATAAGAGAATTAAGGAATATTATTTATGCAATGGTAGCACTTTCTGATGGGAATATTTTAACATGTGATATGTTACCTGTAAAACTAAAAAATATAAATAAAAATAAAGAATTTTTAAAAATACCTTTAGGGTTAAATTTAGAAGAAGTTGAAAAAATTTATATAGAAGAAACACTAAAAAAAATTGGTAATAATAAAACACAAGCGGCTAAAATGCTGGGTATAAGTAAAGTTACACTTTTTGCAAAATTAAAAAAGTGGAAAGAGGAATGATTTATGGAAAATGAATTAATAGAGTATAAATCAATATTAAAAAATATAGAAATTATTTATAAAATTAAAAGATCAGAGTTTATAGGTAATAGTTTTTATGTTAAATCTGAAATAGATGCAAAAGAAAAAATTAAAGAAATTTCTTTTAAATATAAAAATGCAACTCATAATTGTTGGGCTTATAAAATAGGAAAAAACTTTAATTATTCAGATAATGGTGAACCTTCTGGAACTGCAGGAAAACCAATATTAGGAAGCATTGAAAAATATGATTTGAATAATATTTTAATTATAGTAACAAGATATTTTGGTGGAATAAAACTTGGAGTAAGAGGATTAATAGATGCATATTCAGAAACGGCAGAAAAAACTATAATATCTTCTAAAATAGCAAAGTATAAAAAATCGACTCTATATAGAATTAAAGCTGAATATTCAAAGTATTCAGAAATAGAAAGAATGTTAAAAAGATATGATGGATGGAATATTAAAAAACAAACTTTTTCTGATTATGTAGTTTTTGAAATTTTGATAAATGATAATGAAAATATTTTTAATATATTAAAAAATAAATCAAAAGAAATGTTAAAGATAGGAATTGAAGAAATTCCAACTGAGGTGAAAGTATGAATTTGAGTTTGTATAGAAAATATAGACCTAAAACTTTTGATGAAATTTATGGACAAAAACATGTAAAAAAGTATTTTGAAAATGCAATATTAAAAAATGAAATATCTCATGCTTATATATTTAATGGTCCAAGAGGTACAGGTAAAACAAGTGTTGCAAGAATACTTGCAAAGGTTTTAAATTGTGAAAATTTAGAAGAATATAATCCGTGTAATAAATGTTCTCATTGTGTATCTATAAACGAAGGAAGTTATATGGATGTAATTGAATTAGATGCAGCATCGAACAGAGGAATAGATGAAATAAGGCAAATAAGAGATTCTGCTAATTACAGACCTGTTTCTGGAAAGTATAAAGTTTATATAATAGATGAATTTCATATGCTTACAAGAGAAGCCTTTAATGCACTTTTAAAAACTTTAGAAGAACCACCAGAACACGTTATTTTTATTTTGGCTACTACAAATCTTGAAAAGGTTCCAGAAACAATAATATCTAGATCTCAATTAATAAATTTTAAGAATATAGGATATGAAGATATTAAAAATATGATTAAATATGTTAGTAATAGTGAAAGTATAGAAATAGAAGAAAGTGCGATTAATATAATATCAAAGAAAGCAAAAGGTGGAATGAGAGATGCTCTTTCATTACTTGAACAAGTAATGAAATTTTCTGATAATAAAATAACTTTAGAAGATACTATAAACGTATTAGGTTTGTTTGATGAAACATTTGTATTGGATTTTGTAAATGCAATATATTCAGGAAATATTGATAAAATATTAGAAATATCTGAAAGTTTATTTTCTATGGGAAAAGAACCAGAAATTTTATTAGAACAGAGCATAGAATTAATTTTTGAAACAATAAAAGAAAACTTAAAAATGATTAAAATAATGGAAAAACTATCTGAAATTTTAAAAGAAATCAAATTTAATGAAAATAAAAGATTAATGTTTGATGTTAGTGTATTGGCTTTAACTTATAAATACGTAAAAAAAGAAGATAATGCCCTTAAGGAATTAGAAAAAGATTTTTTAAATCCTCAAAATGAAGAAGGACTTATAAGTTCTATTCTTAAGTATTATACAGAAGGTCAAAAAGAAAACTTAGCAATATATTATGTAATAAAATCATCTCAAATAAAAGAAAGTGAAGGGAAAATTGAATTTATTTTTGATTATAATAAAAAGTTAGAATACGATATGTTTCACAAATATGAAAATGAAATAAAAATAACTATATCTTTATTTTCAAATGATACGGTTGATGTAATAGCAACTTATAAAGGAAATAATGAAAAAAAAGAAAGTTTAAATTCAATCTTTAATTAAGGAGAAAAATATGGTATATATTGTTATAGCAATGTATTCAGAAGCACTTCCAATAATAAAAAATTTTAATTTAAAAAAAGAAAATAATGTCTATATAGGAGAAAATATAAGATTAATAATTACAGGCATAGGTAAAATAAATTCAGCAATTGAAACAACAAAATTACTGATGAAGTATAAACCTAAAGAAAATGATATAATTATAAATTTAGGAACCTGTGGAACAAAATTAAAAAAGTACAAAGATGGAGATATATTTTTATGTAATAAAATTTTAGATCATGACAGTAAAAAAATATATTATTTAGATATGTTGTTAAGTACTGAATTTAAGGAAGGATCAATTGAAACTTTTTCTAAAGTTGTAACTGAAAAAAATGAAGTAAAAGAAAACTTGGTTGATATGGAAAGTTCTGGCTTTTATAAAGCAGCTATAAATTTTTTTGAACAACATAAAATATTTTTATTAAAGATTGTTTCAGATCATCTAACTGATGATATATCAAAAGAAGAAATTATAGATTTTATTGAAATGAATATAGAAAAAATTAAAAACTTTATTGATAAAGTAAAAAACATTGAAATTAAAGAAATTTTTACAAAAGAAGAAAAAATATATATAGAAAAAATATGCGAAGATTTAAATTTTTCAGTTACACAAAAAAGAAAAATAATTAATACATTTAAATATTCAAAATTAAAAAATGGAAAAATTTTTAAGTTACCAAATTTAATAGATATACCTAAAAATAAAGTTGAAAGGAAGAAAATTTTTGAAAAGCTTGAACAAGAACTACTTAAATAAATATTTTTCTCATATATATATTGAAAAAGAAGCTTACAATTATAAAATTACTGAATATATATTAAACAAATTTAATAAAGCTTCAAAAATTTTAATAAATAATTATAAAGAAATATTTAATAGAAACAAACAAAACTTTATAATGCAAAAAAAATCTCCAAAATTGATATTGGCGGTAAAAAAGAATAATTTAATATACAAAGGTGCAGAAGTATGCCATGATTTTAATAATGAAAACTTTTATTATACATCTTCAATATTTAATTGTGTGTATAACTGTAAATATTGTTATTTAGGGGGAATGTATACTTCTGCTAATATAGTTATATTTGTTAATATTGAAGATTATTTCAAGAAAATAAAAAAATTAGAAAACCCATATATTAGTATATCATATGACACAGATCTTATGGCTTTTGAAAATATATATCCTTTTACTAAAAAATGGATTGAATTTGCATCAAAAAATAAAGACATTAAGTTAGAAATAAGAACAAAATCTTCAAATTTTAAAAGTATAAAAGATATGGTTCCTCAACAAAATGTAATACTTGGCTGGACTGTATCACCACAAGAAATAATTGATAAATTTGAAAAACAAACTCCATCATTAGATTTGAGAATAGAATCAATAAATGAAGCAATAAATAAAGGATGGATACCAAGATTATCTATTGATCCTATTTTAAAAATAGATGAGTTTGAAAGAATATATTCTGAGTTTATAGAATATTTATTTCAAAAAATACCAGCAAATAAGATAAAAGATTTAAGCATAGGGGTATTTAGAATGCCTTTAGATTATTTAAAAAGAATGAGAAAGTCTTCTGATAACTTTATAGTGTACTATCCATATGAGAATATAAATGGTGTTTATACATATAGTAAAGAAGAAAAAAGTTATATGATAAATTATGTAAAAAAAGAACTTAACAAATATATAGACAAAGAGAAGGTATTTGAAATATGAAATCAGTTATTTTGACAGGTGCATCTAGTGGAATAGGTTTTGAGACTGCAAAAGTATTAATTGAAAATAATTATAAAGTATATGGATTTGGAAGAGATTTTTCAAAAATAGAATATGAAGATAAAAATTTTATAAAAATAACATGTGATATTACAAATGTTCATTTATTAAATAATGAAATAAAAAAAATAATAAAAAAAGACAATAATATAAAGGTTTTAATAAATAATGCAGGTTTTGGATTATTTGGAATGCATGAAGAATTAAATATAAAAGAATTAGAAAAGATGATAGATACAAATTTGAAAGTACCTATAATTTTGTCAAAATTATTATTGAGAAGTTTAAAAAAAAATAATGGATATATAATAAATGTTTCATCGGTAACTGCTTTTCATAATGCACCAAAAGGAGCTGCTTATTCTGCTACTAAAGCTGGATTAACGCATTTTTCTGAAAGCTTATTTGAAGAAGTTAGAAAGTATGGGGTTAAAGTTATTAGCATTAATCCAGACATTACAAAAACTAATTTTTATAATAATTTAAATTTTAAATATGTAGAAGATAAAAACTTTTATATAGATCCAAAAGAAATAGCAAATATAATAAATTTTATTTTAAATCAAAACTCCATAATTACTCAAGTAACGGTTAGACCACAAAAAAATAAAATAGAAAAAAAATAAGGAGATAAAAATGACAGGAGTAAAAAAGGTAGCTGCTATACATGATCTTTCGGGATTTGGAAGGTGTTCATTAACAGTGATAATTCCAACATTATCAACACTTGGAATACAAGTATGTCCAATTCCAACTGCAATTTTATCAACACATACTGATGGATTTGGTAATGATTTTTCATTTGTAGATTTAACTGATTCAATGAAAGAATATATAAAGCATTGGAAAACACTAAATTTAAAGTTTGATGGAATATATTCTGGTTTTCTTGGATCTGAAAATCAAATAGAAATAATAAGTGACTTTATAGATAAATTTAAAACTAAAAATACATTAGTTGTTATAGATCCAGTAATGGCAGACAATGGAGAATTATATCAAACAATGTCCAATTCAATGGTTGAAAAAATGAAAAAACTGATAAAAAAAGCAAACATAATAACTCCTAACTTTACAGAAGCCTGTTACCTTTTAAATGAAACTTATAAAGAAAAAATTGAAATAAAAGAGATAAAAAATTGGCTTATAAGATTAACAAATGAAGGACCAGAAATAGCAATTATAACAAGTATTCCGATTGAAAGAGAAAAAAATACTGTAATAGCATATAGTAAAAATGATAAGAGATTTTGGATGATTAGTTCTGAACAAATTCCTGCTTTTTATCCAGGAACAGGAGATATATTTTCAAGTATAGTTACTGGAAGAATATTAAATGGTGATAGTTTACCAGTTGCAATTGATAGAGCTGTTATATTTATAAAAAATGCCATAAAAGAAAGTTTTGGATTTGATTATCCGCATAGAGAAGGTATATTACTTGAAAAAGTATTGAATAATCTTAATTTGCCATATACAAATAGTAATTATAAACTTATATAAAGAGAAGGGATAAAATGAATTTTACAATTTTATGTAATGATGAAAAAAATGAAGATTTTTTTTCAGAACATGGTTTTTCTATATTAATAGAAAAGGATAATAAAAAACTTTTATTTGATACAGGTCATACAGATGTTTATATGAAAAATGCTAAAAAATTGAATTTAGATTTAAATGAAGTTGATGCAATAGTATTGAGCCATGGCCATTATGATCATGCAGGTGGAATAAACTATTTATTAAAAGAAGAAAGTAAATTTAAAGTTTATATACATGAAAAAACAATGCAAAAAAAATATAGTAAAGATATATTTAAAGGTATAGACTTTACTAAATTAAGTAATTATAAAAATTTGATAAAAATAAAAAATAAAAAGATGCAAATAATAAAAGACATATATGTATTTGGTCCAGTAGAAATGAAAAATGATTTTGAAGAACCGTCAAAAGATTTTTTTGTAATAGAAAAAAATAAAAAAATAAGAGATTTTTTTGAAGATGAATTAAATATAGTTATTGATACAAATGAAGGATTAATATTAATAACTGGATGTGCTCATAGAGGCATAGTAAATATAGCAACAGACACAATAAAAGAATTTAAAAAAGATATAAAATTAATAATAGGTGGATTCCATTTAAAAGATGCAGATAGTACAAAAATAAATAAAGTAATTGAAGAATTAAATAAACTCAACATAAAATCAATAATGCCATGCCATTGTACAGGAAACAGAGCTTTAAAATTATTTGAAAAAAAGTTCAATAATGAAGTAAAAAAATGTAATACTACAATAATACCTAAAAAAGATGTTTGAAAAACATCTTTTTTAGGTATTTAATTTTAATCAAAATAAATACATGAAATCATTCTTCCTGTATTTCCTTTATCTCTTCTATATGAAAAAAATAATTCTTTATTTTCGTATGTATCTAAATTTGACATAATAATATTATTTTTTAAAATTCCAGCATTTTGTAGTATAATATAATTAGTTAACCATAAATCTACAAAATATTTATTTTTTATTTTTTTTACAGTTTTATATTTTTTAAATTTTATTGCAACATCCAAACTAACTTCAAAATTATTAGGACCAATTGATGGCCCTATTCCAACTAAAATGTCTTTTGGGTTTGAATTATAAGCATAATTCATTTTTTCAATAACCTTTCTGCCAATTTCTAATATAGTTCCTTTCCAACCAGAATGAGCTAATCCAATTATTTTATTTTTTTTGTCACAAAAGTATAATGGTACACAATCTGCATAAAATGAAATTAAAACAATATCTTTTTCATTTGTTATTATTGCATCAGTATTTTTTTTGTTTTTATTAAATAAGAAGTTAGATGTTTTATGATAAGAATTTATAATAGCGATATTATCTTTATGTACTTGATCTGCTGGTACAACATTTTTTATATCAATGTTATTGTAGTTAAAAAATTTATAAAAATTTTTTTCAACATTTTTAAATGAATCATTTGTATTCAATCCTAAATTTAGTGAATTTTTAGAATAATTACTAAAACCGCTTATCTTAGTTGAAAAAATAGCTTTGATTCCATATGTTTCAAATTCTGTAATTTTAAAATACTTAATATCTTTATTTTTAATTAATTCAAACATAGTACCTCCAAATTTATTTATTTTTTAATAGCTTTATTATATTATAATACAAAATAATAAGGAGATGAAAAAAGTGATTTCTATCACAGGTGCAACTGGTCATATAGGAAATGTATTGGTAAGAAAATTAGTTAATTCTGAAGAAAAGATAAGAGCTATAACAGCTCCTTTTGATAATACTCCATCATTAAAAGATGTTGATGTTGAAGTAATAAAAGCAGATGTGACAAATTATGAACAAATATACAATGCTTTAAAAGGTTCAGACATAGTATTTCATTTAGCTGCTATAATATCAATTATGCCTGGAATGAAACAAAAAGTATTTAATGTGAATGTAAATGGTACAAAAAATGTTATAAAAGCTTGTTTTGAATTGGGTATTTCAAAATTAATTTATACAAGTTCAGTTCATGCACTTGAAGAACCAGTAAAAGGTTCTAATATAGATGAAACTTTATGTTTTGATCCAAAAAAAACATCTGGTATATATGGGAAATCAAAGGCAGTGGCAGCACTTGAAGTTCAAAAGGCAATAAAAAAAGGTTTAAATGCTGTAATAATATGTCCAACTGGTGTAATAGGTCCTTATGATTTTAAATTATCAGAAATGGGAAGTATGATTTTTGATACAATGAATAAAAAAATGAAAATGTGTGTTAATGGATCATTTGACTTTGTAGATGTTAGAGATATAGTTAATGGAGAAATAGAAGCTATGAAAAAAGGAAAAAATGGAAATGTATATATACTTTCAGGACACAAAATTAATTTTTATGATTTAGTAAATGAGATAAAAAAAATAGAAAACTTAGATTATAAAACTGTATTTTTACCAAAAAGTTTAACTAATATAATTAGTTGGTTTTCTCCATTTTATTATAAATTATTTAAAAAAATCCCAAGATTTACACCATATACAATGCATACTATTTCAAGAAATTATACATTTTCATTTGAAAATGCTAAAAATGAATTAAATTATTTTCCACAGCCTTTAGAAAAAACTTTAAAAGATACAATTGATTGGTTTAAAAAAAATTATAATACTTAAAATAAATTGGGCTTTAAGCCCAATTTATTTTTCTATTTTTTTTAATTTAATTCTTTTTAATTCTTTGTCTATTTCAATTATTTCCACATTGACTATTTCATTTATTGAAACTATGTCAGATGGGTGTTTTACAAATTTTGTTGAAAGTTTAGATTTATGAATTAATCCACTTTCTTTTATTCCAAGATCAACGAATGCACCAAAATCTGTTATATTAGTAATTTTACCTTGTAAAGTCATTCCTTCTTTTAAATCTTCAAATTTTAATATATCTTCTTGGAGAATTGGTTGTGGCATATCATCTCTTAAATCTCTTCCTGGTTTTTTTAATTCTTTTATTATATCATTTAAAGTATACTCACCAATATTTAGCTTTTTTGAATATTCTTTTATATCTATATTATCAAGTTTATTTCTTATCTTTGAAATTTTAGTTGAATCTAAAATATCTTTAACTTCATATCCAATTTCATTTATTAAATTTTTGGCAACATCATAACTTTCTGGATGTATTCCTGTAATTTCAAGAGGATTCTTTCCATCAAATATTCTTAAAAATCCAGCTGCTTGTTCAAACCCTTTTTTTCCAAATCCTTTTACTTTTAATAGTTCTTTTCTTTGAGTATAAGCACCATTTTCTTCTCTGTATTTTAAAATATTTTTTGCAACCGTAGAAGAAATACCTGATATATACTTTAACAAAGAAGGAGAAGCAGTATTTAGATTTACTCCAACATTATTAACTACACTTTCTACAGTGTTTTCTAATTTTTCTTTTAATAATTTTTGGTTTACATCATGTTGATATTGACCAACGCCTATTGCTTTTGGGTCTATTTTAACCAATTCTGCAAGAGGATCTTGAATTCTTCTTCCAATACTTATTGCACCTCTTACTGTAACATCAAAATCTGGAAATTCTTCTTTAGCAACTTTAGAGGCTGAATATACTGAAGCACCAGCTTCATTTGCAAATAAATATCTAAGTTTTAAATTATGTTTTTTTATTGTGTCAACTATAAATTGCTGTGTTTCTCTTGAGGCTGTTCCATTACCAATAACTATTAGATTTAAATCATGTTTTTTTATCATACTTAAAACTGTTTTTTCTGCACCGATAAAATCATTTTTTGGTGGAACTGGGAAAATAGTGTTGTATTCAAGAAATTTTCCAGATTCATCTAAAGCAACAACTTTACAACCTGTTCTAAATCCCGGATCTATTGCTAAAATTCTTTTGTTTTTCAAAGGTGGAGTCAATAATAGCTCCCCTAAATTTTTTGAGAATAATTCAATAGCACTTTCTTCAGCTTTAGAAGTTAAAGAGTTCCTAACTTCTTTTTCTATGGAAGGATTTAACATGTTTTTAAAGCCATATTCTAATCCTTCTCTTATTATTTTATCATTTGGTTCGTAACCTTTTAAGTACTCTTTAAAAAGATTTTCAATATAATTTTTTTCTACTTCTAAATTAATATTTAAAATACCTTCAGATTCGCCACGATTTATTGCTAAAACTCTATAATTTTGTATATCTTTTATATTTTGAGAAAAATTATCATACATATCATATTTAGTTTTTTCTTCTTTGAATTTTTTCTTTTTATTTGAAAGTATTTTTCCATATTTTTCATAATAAATTCTTAATTTTTTTCTTATGTCAGTATCATGAGAAAAGATTTGTCCAATTATGAATTTAACTCCTTCTCTAACTTTTTCAACTGTTTCATAATTTTCTACAGTAAATTTTTCAAAGATAGATAAATCAATTTTTTCAAGAAATATCTTATTTACAAGAGGTTCAAGACCAGCTTCAATAGCTTTGTCAGCATTTGTTTTCTTTCTTTTTTTATAAGGTAGGTAGATGTCTTCCAATTCGCTCATTTTTGAAGTGTTTATTATTTTTTCTTTCAATGAATCTGTTAACTTTCCTTGTTCTTCAATACTTTTTAAAACGGTTTCTTTATATTTTTCTAAATTAGTGTAGTATTTAAATAATTCTTCTATTTTTCTTATTTGTGTTTCATCAAGGTTATTGGTAACTTCTTTTCTATATCTACTAATAAATGGAACTGTATTACCTTCGTTTAAAAGTTCGATAGTATTTTTTACCTGCTTTTCATTTAAGTTCATTTCTTTAGTAATTGTTTTTAGAATTTCCATATTTTACCTCCAATCATTATGTTCTGATTTTATTATACACTTCAAATTTGATTTTATTATAAGATATTTGTAAACTTTTTTAATACTTTAGTATAAAATATTTCTTATAAAAAATATTTTTAATAAATAGCTTTTTAATTTTAAATTTGATTTTTAACATAAAAGCAATATCTTTTTATTCTTTCAATTTAAAAAATAATTTATAATTAAAAAAACAAAAAGGAGGAAGTTCTATGAAAAAAATATTAGTAATAGACTTTGGCTCTCAATATACTCAATTACTTGCAAGAAGAATTAGGGAAATAGGAGTTTATTCAGAAGTTGTGCAGTTTGATGAAAAAATTGATTTAAAAGAAATTGAAGGAATAATACTTTCAGGAGGACCAGATAGTGTTTACGCAAAAGATGCGCCACAAATACCTAATTATGTATTTGACTTAAAAAAACCAGTGTTAGGTGTTTGTTATGGAATGCAATCAATTACAAAATATTTTAATGGGAAAGTAAAAAAAGAAAAAGTTTCTGAATATGGAAGAACTGAAATAGAAATAAAAAACAACTCAAAACTATTTGAAAATTTACCAAAAAAATTCAACACATGGATGAGTCATGGAGATTCAGTTGTTGAAGTTCCGAATGGTGCAAAAATTATTGCAAAAACTTCAAATAATATAATTGCTTCATTTGAGTATGAAAATTACTATGCAATACAATTTCATCCAGAGGTTAGACATACTGAATTTGGGAATAATATAATTGAAAATTTTGTAGTAAATATATGTGGAATTTCTAATACATGGTCATTACAAGACTTTATAACTCAAAAAATAGAAGAAATAAGAAAAAAAGTAGGAAATGATAAAGCTATAATAGCACTTTCAGGAGGGGTTGATTCATCAGTAGCAGCAGTACTTATGCATAAAGCTATTGGAAATAACTTAAAAGCTGTATTTGTTGATCATGCTTTACTAAGATTAAATGAAGAAAATGATGTTAGAAGTATATTTAAAGAAATAATGGGATTAGATTTAACGGTTGTAAATGCAAGAGAGAGATTTTTAACAAAGTTAAAAAATGTATCAGAACCAGAAAAAAAGAGAAAAATAATAGGTGAAGAGTTTATAAGAGTTTTTGAAGAAGAATCTAAAAAATTTAGCGATGCAAAATATTTAATTCAAGGTACTATTTATTCAGATGTTATTGAAAGTGCAGCTTCAGGTAAAAAAACTGCTAAAATAAAAAGTCATCACAATGTTGGCGGTCTTCCAGAAGATATTAATTTTGAAATTATAGAACCTCTTAGAAATTTATTTAAAGATGAAGTAAGAAATGTTGGAGAAATTCTTGGAATACCAAAGCACATTTTATATAGACATCCATTCCCAGGGCCAGGACTTGCAATCAGAATAATTGAAGATATAACAGAAGAGAAATTAGAAATATTAAAGAAAGTGGATAATATTTTTATAGAAACTTTGAGAGATACTGGATGGTATAATAAAGTTTGGCAAGCTTTTGCAGTATTAACTCCTATTAAAACTGTTGGAGTAGTTGGTGATGAAAGAAGCTATGAATATGTAGTTTCTTTGAGAAGTGTTGATAGTGTTGAAGGTATGACTGCAGATTGGTCTAGAATACCTTTTGAAGTTTTAGATAAGGCATCAAGAAGAATTACTAATGAAGTTAAAGGTGTGGGAAGAGTTGTTTATGATATTACAAGTAAACCACCATCAACAATTGAATGGGAATAAAAAGAACTCCAAAAATTTTATTAAAAAACTTTCACTAAAAATGTAGCAATTAATACATAGTTTAATGGTATAATTTTAGTAAAAAATTTTGGAGGTGTTTTATGGACTATAAAAATTTTCATGATACATTTGTAAAAAATTCAATTTCAGAGGGTTTTATACATGATGATCATATACATCCAGTTATATTAATGTGGATTGAATTTACAGAAGAAAGTAAAAGATCATTTTTAAATTTAATAAAGAAAAATGATGAGGAATATGCTGAAGAAATGGAAGATTATTTAAAAGATTATGATATAAATACTGTCATTGTACCTGTATACTTCCCATTTGAAGCTCATGATGATGAAGAATTAAATAATTTTTTAAATTTTTTAACTGAAATTTCTAACATTACAAAAGTACACTCTTATTCTGTTCTTTCAGAAATATCTTTACACGATGATGATGTTGATATGGATAACATTACTGAAGAAGACGAAGAAAACTTTGAGTTCCACCCATCAATATTTTCTGAAGGAGAAGATGGAAAGTGCTATATGGATGTATTAGACTATGAATCACATAAAAAGATAGAAGACTTATCAGGTGAATTTGATTGTAAGGATGAATATATATTAGATTTGAGACTTCCAATATTTAAAAAATAAAAATTAGTATTAAAAAAAATTTCTTGAAATAAAAAAATATCCCAATAACTGGGATATTTTTTTATGCACTAAAATCAATGTATTTTAATTAAACATATTTTATTATTAAAGATAATAGTATTTCTAATAATTAAATTATTTTATTTTTTATTTTCAAATAAATTAGAAATATAATCTTTATTTAAAATTTTTATTTCATTTTTCTTTTTTAAAATTATTCCTTCTTTTTCCAAATCTGAAAAAACTCTTGAAAGAGATGGTCGAGCTATTCCAAATAATTGAGATAATTCTTCTAAAGAATTTTGTAGAACTATTTTATCAGACATCTGTTGATTATAAAGTTGAATTAAATAATAAAATATTTTCTCCCTTATAGTTTTTAAAGTGTTAATTTGTAATTTATTAGATAAAAAGTTTACTTTATTTCCTATATTTTCTAAAAAAATTTCTAAAAACTCTTTGTTTTTCATTAATAAAGAAAAAATTTCTTCTTTTTTTATAAATAAAATAGTAGTTTTTTCAACGGCAATAATATCCATAGGTAAAGAAACTTTTGAAAAAATAAAACCAATAGCAGGGACAAATGGGGCTTTTATTTGTTCTATTACAAAAATTTTTCCATTAAAGTCTACTATTTCAGTTTGAATCTTTCCAAATAACAAAACAATCATATGATTTAAACAATCTCCACGCCCTTTTATTACTTCACCTTTTTCAAAAGATTTTATAATTGAATCTTTAAAAATATGTTGTTCGATTGTATCTAAACTCAATGATTTAAATAAATTTATTTTAGAAATTTGATTTAAATAAGGATGCATAAAAATCACCTCCATTATTATTGTAACATATGTTACAGATAAAATCTACTAAAAAAGTTATAATTAATTAGAAATAAAAGGTGGTGAAAAGATGAGTGAACTTTTTAATAATGAAGAATACTTAAAAAATTTAATAAAAAGATTAGGGAATGAAGATAATGAAGAATTAAAAAAAGAATTAAAATCTACTATAAAATCATTAAGTCCAGAAGTTATTGCAAAGGTTGAACAAGAGTTGATTGACAAAGATGGAATAACAGTTGATGAAATACAATCTGTTTGTGATATACATCTTGATTTATTTAAAGATTTTACAAATGTTGAAAAAATAGAAGTTGAAAAAGATCATCCAATATTTATATTAATGAGAGAACATGATTATATTTTAAAAACAGTAGAAAAAATTAGAGAAATATCAAAAAATGTATACAAAAAAAATAATATAAAAGAAGCTTTTGATGATTTTATGAAATTAAATAAAAATATAGAAAATATTGAAGCAGCAGAAAAATATTTTTTAAAAGAAGAGAATGTTTTATTTGCGTATCTTGAAAAACATGGAATAGAACAGCCTCCAAGGGTAATGTGGAAGGAACACAATCAAATTAGAAATTTTAGAAATAAATTATTAAAACTTAAAGATAATAGAGATTTTGAAGATGCGAAGAAATCTTTATATGAAATTTCTTTAAACTTAAATGAATTATTTACTCATCATGTACAAAAAGAGCATTCTGTTTTATTTCCAACTGCATTAAATTTAATAAATGATGAAGAATGGAAAGAAATAAGAAATCAATTTGATGAAATTGGATACTTTTGTTATTTCCCAAAAGCAATTGAAAAAAAGGATGAAAAAGAAAGTGGAGTTTTAGATGATAAAATTAAACTTCCTAGTGGAGAGTTTACAATTGAAGAATTAATTAATATGTTTAATACATTGCCTATGGATATAACTTTTGTAGATAAAAATAACAGGGTAAAGTATTTCAGTGAAACCAAAGATAGAATTTTTGTTAGAAGTAGAGCAATAATAGGAAGAAAAGTACAAAATTGTCATCCTGCAAATAGTGTTGAAATAGTAAATAAAATAGTAAATGATTTTAAAACAGGCAAAAAAGATAAGGCTGATTTTTGGCTAAGAGTTGGAGAAAAATATGTGTATTTGAGATATTTTGCTGTTAGAAATAAGAATAATGAATATTTGGGTACAGTTGAAGTAACACAAGATATTGAACCAATTCAAGAAATAAAAGGTGAAAAAAGAATATATGATGAGTAACATATGTTACGGATTAAATGAAATAAATTTAGTAGAATATTAATGGATAAAAAATATAGGAGGTGCTTAATAGTGAGCATGTTTTGTTATCAATGTCAAGAAACAGCAGGAAATAAAGGTTGTACAGTAAGAGGAGTTTGTGGTAAAACCGAAGATGTTGCAAATATGCAAGATTTATTAATGTATGTTATGAAAGGAATTTCAATATATAGTACAAAGGCAAGAGAATTAGGTATTGAAAATGAAGAAGTTAATAAATTTATTTACAATGGCTTATTTATGACAATTACAAATGCAAACTTTGATAAACAAAGATTTGTGGATTATGTAAAAGAAGGATTAAAATTAAGAGAAGAAATAAAAAAGCAATTAGAAACAGCTGGTGGTAAGATAGAAGGTACTTTACCAGATTGTGCAACATGGTATGCAGAAAAAGAAGAAGAATTTGAAAGAAAGAGTTATTCTCCTGAAGTTAGTGTTTTAGCAACTGAAAATGAAGACGTAAGATCATTAAGAGAATTAATAACTTATGGATTAAAAGGACTTGCTGCTTACTTAGAACATGCAGTTAATTTAGGATTTGAAGATAAAGATTTATATAAATTTGTTCAAGAAGCTTTAGCAAAAACAACAGATGATACATTAACAGTTGATGAATTAGTTGCTCTTACACTTGAAACTGGTAAATATGGAGTTAATGCTATGGCATTACTTGATAAAGCAAATACAGAAACCTATGGAAATCCTGAAGTTACAAAAGTAAATATAGGAGTTGGAACAAACCCAGGTATTTTAATAAGTGGTCATGATTTAAAAGATATAGAAGACTTATTGAAACAAACAGAAGGTACTGGAATTGATGTTTATACACATGGTGAAATGTTACCAGCTCATTATTATCCTGCATTTAAAAAGTATAAACACTTTGTTGGAAATTATGGAAATGCTTGGTGGAAACAAACGGAAGAGTTTGAAACTTTTAATGGCCCTATTTTATTCACGACAAATTGTATAGTTCCACCTAAAAAAGATGCTTCTTATGCAGATAGGGTGTTTACTACAGGTGCAGCTGGATATCCAGGGTCAAAACATATTCCAGATAGGGAACCTGGGGAAATGAAAGATTTTTCCGAAATAATTGAAATGGCTAAAAAATGTAAACCACCAGTAGAAATAGAAAAAGGTGAAATTGTTGGAGGATTTGCACACAATCAAGTTGTAGCACTTGCAGATAAAGTTGTAGATGCAGTAAAAACTGGCGCAATAAAAAAATTCTTTGTAATGGCTGGTTGTGATGGTAGAATGAAGTCAAGAAGCTACTATACAGAATTTGCAGAAAAATTACCAAAAGATACAGTAATATTGACTGCAGGATGTGCAAAATATAGATACAATAAATTAAATCTTGGAGATATTGGAGGAATACCAAGAGTTCTTGATGCAGGTCAATGTAATGATTCTTATTCATTAGCAGTTATAGCTCTTAAATTAAAAGAAATTTTTGAATTGAATGATATAAATGAATTACCAATAGCATACAATATTGCATGGTACGAACAAAAAGCTGTTATTGTATTATTAGCATTATTATACTTAGGTGTAAAAAATATACATCTTGGTCCAACATTACCAGCATTTTTATCACCAAACGTTGCAAATGTTTTAGTTAAAAATTTTGGAATTGCAGGAATAGGAAAAGTAGAAGACGATATAGAATTATTTTTATCATAATTGATGAAGAATAATAAAAACACGATTTCTTTTAGAAGTCGTGTTTTTTATAAAAAATAAAATTAAATATTGAATTATTTTCTTAATAAAAAAAGCGGAGCATTTAAGCTCCGCTTTCCTCTTTGGATTATTTCATATACATTGTAAACTAGTTAAACAAATTACAAAAAACATTTTACTTAAACTCATAAAATAAAAGACATGTTTAAAAATACTCACTTACAAGGTACAGAATAAATGGATCAACTTAAAAAATCTATTAATAAAAACAAAAAAACCTTTTGTTACTTGAAACAAATTACATATCCAAAGAGGAATAGTTATTTATTCAGTAAAAAGGTTTAACATATTAATTATAACTCTGAATTTTGATTTTGTCAATTAATTTAAAGTAAATAAAAAATTAATTTTTAAAATTTGAATCTTTAAAAAAAAGTCCACTTTAAAAACTTTTGTTTTTAAAGTGGAAAAAGTTGGGTTATGTAGCGAGACTGATATTTATGGTTTTTAAAACCACATATTAATTATACAATAAAAATTGTTAAAATAAAAGTTTTAAGTAAAATTAAATTTAATTTTAAGTAAAATTTAATTTAAAAAACATTTTTTATTTACTATAAAAATTAACAAAATATAAAAAATTATATATATATGCATATAAAATAAAACATACGATTAATTAATCTAAGATTAATTATTTTTTTCAGAGTTTTTTATATAATTAAAAATTTATTTCTTTTCCATTTAAATATCTTTTTATAATATTTCTATCATCACCAATATATATGAATCTTTGAAGACGTTCTTTTAATGTTAATTCAGTTGTCCCAAGATTTGAATCGTCTATAATTAATGCATCAAATGAAAAATCAACATTAAATTCTCCTATTTTTCCAAAAAAATCTGATCCTTTTGTAGCCATAAAAAAAACTTCTTCTGTACTTAAAGGTTTTAAATTTTTATTGTCTTTATAAATTAATTTTGAAAGTTCTATTGCCATTACCATACTTCTTTTTATCGCAATTGAATGACCAGCTCCTATATCACTTCCAAGTCCTATATTTAATCCTTCGTTTAAAAGTGTTCTAACTGGCATTATACCACTTGCTAAGTTTACATTTGATTGAGGACAATGGACTGCAATTACTCTGTTATTTTTCATTAATTCAATTCCTTTTTTTGTAAGGTATATACAATGTGCCATTAAAGTTGGCGTTTGACCAAATAAATTATTTTCATTATAAACTTCAGAATAATTATGATTATATAATTCTTTAACCCATTTTACCTCTTTTTGGTTTTCTGAGAGATGAGATTGTATAGGAATATTATACTTTATAGCTAATTCTCCGAGACCTTTTAATAATTTTTGTGTACTTGTTGGAGCAAATCTAGGCGTTATTATTGGTTTTGATTTTTTGTTATTTTTATAATTTAAAATTAATTCTTCGGTTTCTTTTAGAGATTTTTCTGTATTTTCTTTTAAAAATTCAGGACAATTTCTATCCATGTTTACTTTTCCAACATATGTTTCAAGTCCATATTTCTCTAATACTTCAAATAATATTTCTGTGCTTTTTTTATGAATTGTTGCAAAAATGACAGCTCTTAATGTTCCGTGTTTTATTAGATCTTTTGCAAACTCATTGTATATTCTTTTTGCATATCCAATATCTTTAAATTTATTTTCTTCTTTAAAGGTATAAGTGTTTAACCAATCTAATAATTCTTTATCCATGCCAAGTCCTCTCATAGCATATTGAGGAGCATGTAAATGTAGATCAACAAATGGTGGAATTATTATTTTGTTTTTAAAATCAAGTATATTTAAATTTTTATATTTAGTTGGAACTTCTTTAAAAATATCTAATATCTTTCCATCATTTATTAGCAAATGAGTATTTTCTAAAAAAGATAGATTGTTTAAATTTTTTGAAAAAATAAAGTTTCCTTTAATAATTTTTTTATCCATTTTTTCTACCACCTTTATAGTAATATAATAGTAATATTATTCCTGTATATATTTTACCATAAAGTTAAATTAATATGAAATAATTATCTTGGAGAAAATAAAAAAAACATTCTTTTTGATGAAAGAATGTTTTTTACTTTGTTAAAATTAATTGTGAATTTAATAGTTCAACGGTACTTTTAATACAGTTTGTACATATTTTCTTTTTAAATTTATTTTTTTCTTCTTCTTCCGATAATTCGTTTGAGAATTCTAAAAGTTTAGTGCACGAAGTTTCACCATTAATTTTTTTAAATTCGCTTATAAATTTATTTACTTTTTTATAAACTATATCTTTTTTTTCATTCATATTTCTCATTCCAATAACCATAATACCACCACTTACTGCACCACATATATTTCCACTTTTTCCCATTCCTCCACCAAAACCATATGATATAGCTTCAAGTATTTTTTCATCAATATTAAATTCATTTTTAAATGTTTTTACGATAGCTTGAGAACAAGTATATCCATTATTAAAATAATTTACTGCATCATTCATTTTTTCACCTCAATAGTAATATTTTTCATCCATTTCCACTTTAGATATCTTAATAAAAATAGAGTTCCTTTAAATATTTCTGCTAATAACATCGCGTACATCAATCCCGTTATTCCTAAATGGAGAGTAAAAGCAAATAGTAATGAAATTGGAATTTGAATTATCCAAAAGCCAAATATAGTTATTCCTAAAATTGACCAAGTATCTCCACCACTTCTAAGAATAAAAGGGAAAATTATATTTAGAGTTTGTGCATAAACTAAAAATATAATTATATTTAAAATTTTTTTTCCTTCTTGTATTGTTGTTTGTTTTAAATTGAATAAAGAAAATATTTGATTTTTAAAAATCATTACATTAGATATTAAAATAGTTACTATAATAAAAGAAATAAAGATTGTATTTATTGAAATGCTTTTTGCATTTTCCTTTTTGTTTTTACCAAGTTCATTTCCAATTATTCCTATACTTGCTCCGGCAATTGCTGATATTGGAGTTAGGACTATTGTTTGGAATATTTTTATTACTTCAAATATTGCTGCTTCTGAAACACCTATTTTAAATATTATAGCAGTATTTACAGTTGTTGCAAATTGCCATACAGCACCATCTATTGACATTGGGAGACTAATATTCACTAAATTTTTTAAAGAACTCATATTTACATAAATTTTTAATTTTATTTTCTCTACTTTCATTATATAAATTAAGAATATGAATAAAATTAAAAATTCTAAAATTCTTGAAATTAAAGTAGCATAAGCAGCACCTTTTATTCCAAAATTAAATACGAATATCAATAAATAATCTAAAAATATATTTGTTATCATAGAAACAATTGTAGCAATCATAGAAAATTTATTTTTTTTAAAAGCATTGAATATTGAAGCACAGTTTGAAGAAAATAATAAAACAAAAACTGAAGGGATAATTATTTTAAAATAATTATTTGCTAATGTTAAAGTATCCTCTTTTATTTTTATCCAAGATAAAAAACTTTTTGAATATGTTTCCAATGTTATTAATAAAAAAACACCAAATATTAATGATATAAAAAATGAAGTAGATATAATTTCTTCTAATTTTTTATTATTTTTTGACCCTTTATACTGAGATGCAAGTATAGTTAAGCCTGATGAAAAAGAAAAAAAGACTATTATAAATAAAGAAAATAATTGATTAGCCCCTCCAACAGCTGCTAAAGATTTCTCACCAAGTTGCCCCACAAAGATTTTGTCTGTTGTTCCTAAAAACATTCTAAAAGTATTTTGTATGATTAAAGGAAATGAAATTAATAAAATTTCCTTAATATACATTTTTTTTAACATTTATATCACCTTTTTTGTAGTTTATATACATCTTTTGATTATATAATTTATCTATTAAATAAAAGTTTCAGTAACTTAATTTTTGGAGGTTTTATAATGAAAGAAAAATTAAAAGTTTTTAAATCTTATTTTATTATTACACTTGGAGTTTTTATAAACTCTATAGGTTGGACGGCATTTTTAATTCCAGCAAAAATTGTAGGTGGAGGTTTGTATGGTGTCAGTTCTTTAATTAATTTTTCCACAGGTTTTCCTGTTGGATTAAGTTATTTATTAATGAATATAATTCTTATTTTAATTGCAATAAAAACACTTGGTGGTGGATTTGGAATTAAAACTATATATGGAATAATTACATCATCATTTTTCATATCTATTTTTGAAAATATTTTTAAGCAGCCATTAGTTGATGATAGATTTTTAGTTGCTATTATTGGAGGAATTTTAAGTGGTGCGGGAGTTGCAATTTACTTTACACAAGGAGCAAGTACTGGTGGAACAGATATAATAGCTATGATTATAAATAAGTATAGAGATGTGAGCCCTGGAAGATCTATGTTTTTTATGAACTTAGCAATAATATCTAGCTCTTATTTTTTATTTCATTCAATTGAAAAAATAATTTATGGTATAGTTGTTATGGCTGTATCTTCATATTCACTCGATATGATACTTGAGGGAAGCAAACAATCAGCACAAGTAATGATTTTTTCAGAAAAATATAAAGAAATTGCAGAAAAAATTTCAACAGAAATAAGACGAGGAGTTACAGTTTTAGAAGGATATGGATGGTATACTAAAAATAAAAGGAATGTTTTAATGATAGTAATAAGAAAAAAGGAAGTTCCAATGATAATGTATGCAATAAAGAGTATAGACAAAGATGCCTTTATCTCGATAGGAAATGTTATGGGAGTTTATGGTAAAGGCTTTGAAAAAATTAGGAGGTAATCATGTTTGAATTATTTTTTTCTTTTTTTAAAATATCTGCTATGACACTTGGTGGTGGATATGCTATGGTTCCAGTTATGATAAAATTTTTGGAAAAAAAAGGATGGATGAGTGAAAAAGAATTTATGGAAATATTAACGATTGCTCAATCATTACCTGGACCAATAGCATTTAACACATCTCGTTTAGTTGGCGAAAAATTAAAAGGAACCAAAGGAGCTATTGTTTGTTCTGTTGCAGTTATAATCCCGCCTTTTTTTGTTATAATATTTGCATCTTATTTATTTAATAAGTTTTCTCAAAATATTTATGTTAAATATTATTTAAAAGGAATATATGCAGCAGCTTTGGGATTAATTTTTGGAATAGTTATTAAAATATTTAAAAATCAAAAATGGAATTTTTTAAAGATAATATTATTAATAATAGGTGTTTTATCAATTCTTTTTAATAATAATTTTGTTTTGCCTGTGTTTGTTTTAATGGTTGTGTTAAATTATATATATGAAAATGGACGTGTTAAAAATGATTAAAATGTTACTTATATTTTTTAAGATAGGTTTCTTATCATTTGGTGGCGGTTGGACAACTGTAGGTTTAATAAGAGAAGATTTAATTTCTAATGGGTATATGACATTGGATATTTTTTCAAATGCAATTTCTATTTCTCAAATGACGCCTGGACCAATAGCTATAAATTTAGCAACATATGTTGGATATATTAATTTTGGTTTTTGGGGAGCATTGTTAAACACAATTTTTTTCTTAATTCCTCCAATTTTAATACTGTATTTTTTTAGACTTTTACAAAACAACATTTTAAAAATGAATAGAAATATATTAATGAACTCTTTAAAATTGGGAACTGCTATTTTAATTTCTATGACCTTAATTTCATTTTTGAAACCATTATTTAAAGAATTTGATTATAGAGTAGTTTTAATTGCGTTAACTTCATATTTTTTATTCAATAAAACAAAAATAAATCCCGCTTATACGATTTTATTATCTGGATTTGTTGGAATTATTCTTTTTAACTTTTTATAAAGCAATGTATATTAGTATACATTGCTTTTTAATTTATCCAAAACTTTGAAATAATATAATTGACAAAAGCTGAACAAGTTACTAACATCAATCTAGCGTCCTCATAAGAAAGGTTTATGGAAAGATTTTTAAAGAAAAGCTTATAATTAGTATTTATTGGGATTTCATCTATTAAGGTATTTAAGGTACCTTCTTTATGAAAAACTATTTTACAAACTTCTTCAATAGCTTTTAAAGAACAGTCAATTGAATTTTCGTATGAATGATTTAAATAAGAATCTAATCCTTTGAAAATATTTTTTCTAACAGGCAAAAATAAATCTTCTGTTTCAAATACTTTGTCGATTTCTTTCATTTCATGTGAACTTATTAACTTTACAATTTGTTTTCCAGTTATTCTGTATTGTGCTTTTTCTTCTATAAAAATTTTGTTTATGCTATCTTTGAATTTGATTAAATCATAATTATGGTTTTTTAATATAAATTCTATTAATGAATAAACTTCATGAAATTCAAGTTTTTTAAATTCATTATTTATAAATTCAATAGAATTTTCTTTAAATTCATATAAATTAATTTTGAAAAAATCATCCAATATTTTTTTTGTTAGTTTTTCATTTTCTAATAAAGGATAAATTTTGTTCCATAGCCTATTTCTTAGTTTTTTACTTATTTTATCATATGGAATTTGGTTTTCTTTTATATATTTATATCTTTCTGAAAAAGTAGGCATTTTTTTCCTCCTTGTTTATAGTTTATAAAAAGTTGAATTTCACTAAATGTTTTTGTAACTTACACTAAATATTTTTGTATTATAATGATTTTGGAGGTGTTAATGTGGATTATAAAAATATTTCAAAAGTAGGTGTTTTTACAGCACTATTGGTTGTTGCATCGTGGTTAGTTATACCTTTACCTTTTGGAGTGCCTTTTAGTTTACAACCTTTAGCTGTTTTTATAATTGTTTATATGCTCAAAAAAAATGCATGGAAATCAATTTTAACTTACTTATTACTTGGTACTCTTGGATTACCTGTTTTTGCAGGATTTTCTGGAGGTATTGCTAAGTTAATAGGTCCAACAGGTGGATTTTTATTTGGGTTTTTATTAGCTTCTTTATTGGTTTTTATACCTAAAATAAATGATATTCTTCTTGGTTTTCTAGAAATAATAATAATTTATTTTATGGGTATAGTGTGGTTCAAATTATATAAAGATATGAGTTTTTTTATAGCTTTTAAACTTTTGGTTCCACCTTTTATTTTGTGGGATATTATAAAGCTTTTTATAGCATATAGTATAACAAAAGCAGTTGAAAAAAGACTTCAAATAGAGAATGCATAAATAAAAAACAGCTTAGGCTGTTTTTTATTTATAAAATTGAATTTTTCTGTCTTCAAATATATTATTTTTTTCATTTATATTTTTGTTTCTTGAAAGTTTTTCATCGATAAAAAATGTTTCTACAATATTTTTTTGTGGTGGAAATCTTTTTATTATGTTTCCAAATGGATCTGTTAATTGACTCATACCAGTAAATGTATTTTTAATTTTATTATTTATTTCTTCTCCCCATGTGTTTGCTGTTGCAATGTATACTCTATTTTCAAGTGATCGAGTAATGTTTGCGTTTTGACAGTAAGGCATTACTAAATTTGCAGAATGTAATATTATATCAGCTCCCATTAATGATAATGTTCTAAATGATTCTGGGAAAAACCAGTCAAAACATATTGCAAGTCCAATATTTACTCCTTTAATATTTTCTATAAAAAAACCAGTATTTCCATTTGAAAAAAATTTTTTTTCATTGTAAAAAAGATGAGTTTTTCTATAGATTTTAAAACTCCCATCTTTTTTTATTAAAATTGAAGAGTTGTAAAACTTATTTCTGTCTTCTTCAACAAATCCATAAACAATATTTACATTATTTTTTATACAAAAATCTTTAAATTTGTTAAAAGCATATCCTTTGTTAATTTTAGGGTTTTCAGAAACTTCTTTTACTTCTTCATTTTTTGAAAATGAATATCCGCTGAAGGCTAATTCAGGAAATAAGAAAAGATCTGTTTTTTCATTTTTAATTAAATTTATAGCGGTATCAACATTTTCTTTTATTTTAAAAAGTTTTGGTTTGAATTGAACTATTGAAATATTAATCATAAATTAAGACTTCCTTTTAATATATTTTTTTCTGTTACTATATAATCTATAGTTATATCGTGTTCTTCATAAGGCAATTCTTCTAATAATTGAAGTTCAAAACAAGGAGCAATTAGTTTTGTTTTTTTATTTATTGAAAAATATCTATCATAAAATCCTCCACCATATCCTAATCGATACATTGTTTTTGAAAAAGCAATACCAGGTATTATATAAATATCTATTTCATTTTTAGTTTCTAAAGATATAGGTTCTGGAATATTGTAAGCTCCTTTTTTTAATTCTTTCATAGAACTTAATTTAAAAAAATTCATTTGATTGTTTAATATTTTTGGAAGATAAACTTCCTTTTGATTTAATAGTTGATTTTTTATTAAATCTAAAGAATTAACTTCTTTTTTTATTGGGTAGTATAGAGCTATTGTTTTATAGTCAAAATTACTTAATAAATTAAGTAATTTTTTATTTATTGTTTTTGATAACTCATCATATTTTGTTTTACTAATAGATTTTCTTATGGATAAAATATTTTGTCTTAGAATTTTTTTTATAATAATCACCTCCAATATTTATAATTTAATTTTAACATTTAATCTTTTTTTTTACAATAGAAAAATAAATATATTTAAAAGTAAAACAATTATGGTATAATTATTTTAGTTAAAAGGGGTGATTTTATGATAAGTAAAGTTACTGGAATAGCCAACATACCTTTTCAAATAAAAAGTTATAAAGTTAAAAATAAAATTGAATATAAAAAAAGTACTTTTAAAGATACAAAAAGTACTTTTGATTTTGGTGTTTATGTACAAAAAGGATCAAAGTTAATCTTAAAAAAATTTATAAATAAAGGTGATAAATTAGATATCTTAATTTGAAAGGAGAAACACATGCTAATAGATATGCACTCTCACAGTACATTTTCTGATGGTACTTATACACCTCAACAATTAATAGAAATGGCTGTTGAGAAAAAATTAGAAATATATTCAATAACTGATCATGATAATATTGGAGCACAAGAATTTGCAATTAATTTTTCAAAAGAAAAAAAATTAAACTATGTAACTGGTGTTGAAATCAGTTGCGAATTTAGTTCTATGTTAGATATACTTGGCTATAGAATAGATATAAAAAATATAAAATTAAATAAAGTATTAAATGAGATTCAAGATTTTAGAGAAAACAGAAATGTATATATGATTGAAAAGTTAAAAAAAATAGGTATTGAAATATCTATGAATGAACTAAAACAAGTAGCAGGTAGTAAAATAATTGGAAGACCTCATTTTGCAAGAGTTATGGTTAATAAAAATTATGTTAAATCATTTGAAGAAGCTTTTGAAAAGTATCTTGGTGATGGAAAACCTGGTAATGTACCTAAAAAAAAGATAAAACCATTAGAAGCAATTGAACTTATTAGAAATGCTGGTGGATATCCAGTAATTGCTCATCCTAGATATTTAAATTTAAATAAAGATAGATTTGAACAATTTTTGAAAGAAATGAAAAAAAATGGTTTGTGGGGATTGGAAACATATTATAGTAAAAATACGGTGTCTGAAAACAAATATTATTATGAAATAGCAAAAAAATATGAATTAATACCAACAGCAGGTAGTGATTTTCATGGCTTAAATAAACCAGATATAAAAATAGGTATGGAAGTTACAGAAGAAATTACAAATAACATAAAAAAATATTTTTGGGGGGAGTAGGAATGAGTGACAATTATCCAATTATTGTTTTAGGGCACAGGGGATTTAGAAAACTTTATCCTGAAAACACATTAATAGCATATCAAAAAGCTATTGAATTTGGAGCAGATGGTGTAGAGCTTGATGTAAGACTCTCTAAAGATGGAAGCTGTGTTATAATGCATGATGATAATTTAGAACGAATTACTGGTATAGAAGGAAAATTAAAAGATATTGAATATAAAGAAATAAGGAAAATAAAGCTTCCTATGAATCAACATATTCCAACATTAGAGATGGTTTATTCTAAATTACCAGAAGATACATTAATAAATGTTGAAATAAAAGAAGTAGAAGCTTCTTATACTGCATATCAAATTGTTAAGAGTTTTAATGCAATTGAAAGAACACTTTTTTCATCATTTGAAAAAGATGCAATTATAAAGATAAGAGAATTAGATGATAAAGCTTATGTATCCTACTTAATAGAAGAAAAAGAAAAATTAGATGAAGTTTTTGATTTGCATGCTAAAATTAATTTATATTCAGTTAATTTACCGGCTGCAGGAATAAAATTAGTTGGTCTTGATAATTATAAATTATATGTTTCAAAGTTAAAAGAATATGATATAAAAACAATTTTATGGAATTTTGATGAGATTTCTGATGTAAAAAAGTTAAAAGGATATTATGATGCCATTATAACAGATAATGTAGAAGATATAGTTAATGAATTAGAAAACAATTACTAAGGAGTGATTATATGTATCCTAAAATGTATATATATAAAAATAGAATAAAAGAAAATGCAATTGCTCTTAAGAATATATGTAGTAAAAAAAATATAAAAATATCTGGAGTAACAAAAGTTTTATGTGGAAATCCAGAAGTGGCTGAAGCTTTGAAAGAGGCTGGTATAGATTTTATAGGCGATTCAAGAATAAGTAATATAAAAAAAATGAAGAATTTTGGTATTAATACAGAATTTATGCTTTTGAGAATACCTATGATTAGTGAAATTGAAGAATTAATAAAATATGTAGATATTACCTTAATTAGTGAATTAGAAACATTAAAAAAAATATCAGAACAATCAATTAAATATAATAAAATCCAAAAAGTTATTTATATGGTAGATGTTGGGGATTTAAGAGAAGGTGTTTGGTATGAAAGTGCTATTAATGAAATTGAAGAAGCTTTAACTATAAAAAATATTAAAGTAATAGGAATAGGAACTAATCTTGGTTGTTTTGGCGGAGTTATTCCTACAAAAGAAAATATGAATTTATTAGTTTCTATTAAAAATAAAATAGAAGAAAAAAACAATATAAAGTTTGAGCTTATAAGCGGAGGTAATACAGCGGCACTTCCTTTAATTGAAAATAATGAATTACCTAATGAAATTAATAATTTTAGATTGGGGGAATCAATAATTTGTGGAACAGATGTTACTAATAATAAAAAAGTTTTAGGTGCAAGGCAAGATACAGTTATTTTAGAAGCTGAAATAATTGAATTAAAAGAAAAACCTTCTATACCTGTTGGTAAGATAGGTTTTGATGCTTTTGGTAGAGTTCCTCATTTTGAAGATAAGGGTATAAGAACAAAAGCAATACTTGCAATTGGAGAACAAGATATTTCTCCAAGTGGATTATATCCTTTAGATGAAGATATTGAAGTATTGCATTCTAGTAGTGATCACACAATAGTAGATTTAACAAATTCAAAAAATAATTATAAAATTGGTGATACTATTAAGTTTAAAATGAGCTATGGATGCATGTTAAAAGCATCAACAAGCCAATATGTTGAAAAAATTGTAATTAAATAAACTTGTCTATTATAAATTCCAATAATAATATTATTAAACTAATACCGAGAAATAATATTCCTTTTTTATCATTTTCGCGTATTAAAGTTTTATTTTTTGAATCAAACTTTCTGGCTTCTTTTGTACTTTTATGAAAATAGGATATGCTAATTAAAAAAAATAATACAAAGAAAAAAAATAAAATGTTTAAAAATAACATTGTTTCACCTCAATTATAAATATTCTTGTATATTATACCACAAGGAGTGACTTTATGAAAACATTGGATCTTATTCCACCAAATAGTCTTGAAGCAGAAGAATCAGTAATAGGTAGTGTTTTTTTAGATAGTGAAGTTTTAAATGATATATTAGAAGAAATAAGGTGGGAAGATTTTTATTATGAACCAAATAAAATGATATTTAAAATATTTGAAACTCTTTTTGAAAAAGGTGATCCAGTTGATGTTGTAACTGTAATAGAAAAATTGAGAGTTTTAAATTTATTAGAAAAAGTTGGTGGAGAAGAAGGTATAATAAGGTTAGCACAAGCTGTTCCAACAACAGCAAATGTTATTTATTATTCTAGAATTGTAAAAGAAAAAGCACTTTTAAGAAATTTAGTAAAAGCATCATCTGAAATAGTTGAAGCTGTTAGAACAATTGGTGATGCTCAAGAAATACTCGAATATGCAGAAAAAAGAATTTTTTCAATAGCAGAAGCAAGAGCAACTAGAACATATGATTCAATACCTAATATAATTCATGGAGTTATAGATCAAATAGTAGAAACTAAAGAAAAAGCAGAAAAAGGTGGTATAGGATTAGTAACAGGAATTTCAACGGGATTCAATACTTTAGATAGATTAACATCTGGATTACATCCTTCTGATTTAATAATAATAGCAGCAAGACCATCAATGGGTAAATCTTCTTTTGCTATGAATTTAGCAACTAATGTGGCTTTAAAAAGCGATAAAGCTGTAGCTATATTTAGTCTTGAAATGTCTAAAGAACAATTAACAAATAGAATACTTTGTTCAGATGCAGGAGTAGATTTACAAAAGGTTAGAACTGGTCAAATTTCTGACGAAGAATGGAAAAAGATAACTCATTCAGCTGGTAAATTAATGAAATCAAAATTAATATTTGATGATGAACCTGGTTTGGATTCCCGTACATTAAGAGCAAAAGCAAGAAGAATGAAAAGAGAATATGGAATAGATGTTTTAATAATAGATTATTTACAATTGATGAGTGGAGGAAAGAGAAGCTCAGAAAGTAGGCAACAAGAAATTTCTGAAATTTCAAGATCTTTAAAATTAATTGCTAGAGAATTGAATATTACAGTAATAGCGTTATCTCAACTCTCAAGAGCTGTTGAACAAAGAGAAGATAAGAGACCTAGATTATCAGATTTAAGAGAATCTGGAGCAATTGAACAAGATGCTGATATTGTAATGTTCTTATATAGAGAAGCATACTATAAAAGAAAAAAAGAAGGAGATCAAGGAAAACTAATATTAAATCAAATACATGATTCAGAGTTAATAATAGGAAAACAAAGGAATGGTCCTATTGGAACAGTTATTTTGAAGTTTAATCCAGTTATTGCTACTTTCATGGATATTGATTGGAAGCATGAGGAGTGATAAAGTGAATATAGAAAAAAAATTATTAGAAATTATAAAAGAAGAAGAATTAATTCAAAAAGAAATTATTAAAAGATTTGGAAAAATAACAAATGAAGAAAAAAAAGAAGTTAGAAAAACTTTAAAAGACCTTTATAAAAAAGATGTAGTTTATAAGGACCAAAAAAACAGATATCATATAAAAACAGAACATAAAGTAGTTGGAACAATTGAATTTACAAGAAGAGGAACAATGGCTTTTGTAACTGGAAAAAGTGGTGAAGAAGTAGCAATTACAATTGAGAATGCAGGGAATGCAATGCATGGTGATAGAGTATTAATTGAAAAAATAGGTAAATGGAGAGATTTAGATTCAGGAAAGGTAGTAAAGATTTTAAAAAGGGGAACAAAAACATTAGTTGGACAAGTTCAAAAGAAAAAATCAACATGTTTTGTAATACCTATTGAAAGTAAAATAAATTCAGACTTTTATATTCCAAAAAAATACGAAAAAAATGTAAAGAATGGACAAATAGTAAAAATTGAAGTTATAAAATATAAAACTAAGGTTAAAAATCCAGAAGCTAAAGTTATAGAAATATTGGGGAATGAAAATGAACCTAAAATAGATTTACCTATAGTATTGGCAAAACATGATTTACCAGAACCAAAAAAATTTAAAGAAAACGTAATGAATGAAGCACGTTCAATACCAAATAAAATAATTAAAAAAGATTTAAAAGGAAGAAAAGACTTTAGAAATGATCTTATATTTACAATAGATGGAGATACAGCAAAAGACTTTGATGATGCTGTTGGTATTAAGAAATTAGATAATGGAAATTATGAACTCGGCGTACATATAGCAGATGTTTCAAATTATGTAAAAGAAAACAAACCACTTGATTTAGAAGCTTATAGAAGAGGAACAAGCGTTTATTTGATAGATACAGTAATTCCAATGTTACCTCATGAATTATCTGATTGGATTTGTTCATTAGTTGAAAATGAAGAAAGATTAACAATGTCTTTGATAATGGAAATAAATAAAAATGGTGATATTGTAAGTTCAAATATATATAATGGAGTAATAAAAAGTAAAAAAAGATTGACATATAAAAAAGTTAATTTAATATTAAATAATGAAGCAGATGAAAAATTAGAAAAAGAAATAGGCTGGTTAAGACCTCAATTTGAATTAATGAAAGAATTGATGGAAATATTAAGAGAAAATAGGAAAAAAAGAGGATCTATTTTAGATATTGAAAGTGGGGAAATTTATTTTGAATTTGATGAAAAAGGTTTTGTAAAAGATATAATTCCTGTTGAAAGAGGGATATCTGAAGTTATAATAGAAGAATTCATGATAAAAGCAAATGAAGTAATAGCAAGTTATTTTTTTGATAAAGAATTACCTTTTATATATAGAGTTCATGCAAATCCAGATCCTCAACTATTAATACAGCTTAAAAATTATTTAGATATAATAGGTGTAAAAGTAGATTTACCTAATAAAATAACCTCTAATGTACTTCAAGAAATATTAAATAATACAAAAAATCATCCTTTATCTAAGAGTATACAAAAACTGTTAGTAAGAACTATGAAAAGAGCAATTTACTCTGATGAAAACATAGGGCATTTTGGGTTGGGATCTTCTGCTTATACTCATTTTACTTCACCAATAAGAAGATACCCAGATTTAATAGTACATAGGATGCTAAAAAAATATATTAAAAATAATTATAAACTTACAAAAGAAGATATTGAAAAGTATAGAAAAATTCTTCCTGAAATTGCAGAGCAATCATCTAAAAATGAGAGAAATGCAAATGAAGCTGAATGGGATTTATATGATATGAAAAAAGCAGAATATATGCAATCACATTTGTCAGAAGAATTTGAAGTTTTTATAACAGGTATTACAAAATTTGGATTCTTTGTTGAAATACCAGAAAAGATGATAAATGGTTTGGTGCATGTTTCTGAATTAAAAGATGATTATTACAACTATCGTGAAAAAGATAATATGCTTATAGGAGAAAAAACGAAAAGAATTTTAAAGGTTGGAGACAAACTTAAGGTTAAAGCTGTTAAGGTTAATAAATTAAAAGCTGAAATAGACTTTATTCCAATTTTAGAAAAAAAATTAAATAAACCAAAAAAGAATAGAAAAAATAAAAAAAGCAAAAAAAGAAGATAAATATACTTGGAGGTGTAATTAATGAAGGTTTTACTAAAAAAAGATGTAGCTAAAATTGGTAAAAAAGGCGAAATAATAAATGTGTCTGATGGATATGGGCGAAACTTTCTTATACCAAAAGGATATGCAGTTATAGCTGGAGAAGGAGAGTTAAAACATTTTAATACATTAAAAAAAAATGAAGAAAAAAAGAAAAAAAATATAAAAATAAAAAATGAAAAATTAGTAGAAACAATAGAAAAAAATACTTATGTAATAAAGGTAAATAGTGGAGAAAATGGAAAATTGTTTGGTGCAGTTACAGCTGCAGATGTAGCTAAAAGAATAGAAGAAATATCAAAAGTAAAATTTGATAAAAAATGGTTTGATGAAAAAATAAATATAAAAGAAATCGGAAAATTTAAATTTAAAATAAAATTATCTCAAGGTGTAAGGGGATTTGTTGTTGTTGATATTGTTCCGATAGATAAAAAGTAGGAGGATTTTCTTTGGAATTTATAATAAAATCAAAAGCCTTATATTCCACATGGGTTTTTTATAAACCAAATAGAGTTTTATTTGATTGTGGAGAGGGAATTAGTACCATTCTTGGTAATAAAATATATGGAATAGAAAATATATTCTTAACTCATTCTCATATAGACCATATAGCAGGACTTTGGGGATTTGTTAATACAAGAAATAATGCAATGGGAAGTAGAGAAAAAGATTTAAATATTTATTATCCAAAAGGATCAAGACAAATAAAAGAATATTTGAGTTTTATATTGAAAATGAATTCAAGACTAAGATATACCCTTAATATTCAAGAATTAGAAATAACTGATGAAGTAAAAATTTCTGAAAATAGAATAATGAAACCTTTTAAAACAAGACATTCACCAGGAGAAATTTCTTATGGATATAGAATACTTGAAAAGAGAAAAAAATTAAAAAACGAATATAGAAATTTTTCTCAAGAAGATATTATAAGAATAAAAAAAGAAAAAAAAATTTTTGAGGAGTATTATGGAAATATACTTACAATAAGTGGAGATACACAACCAATTTCTCCAGAATATGCTAAAAATGCAGATATTTTATTGCATGAATGTACATTTATGATAGATGCAGATAGAAAAATTAGAAATCATACAACTTTGACAGAATTAAAAAAATTAATAGAAGAAGCAAAGCCTAAAAAGTTAATCGTTTACCATGTTTCAGGGCGTTATAATAGAATGATAAAAAAAGTAGAAAAACAATTAATTTTAGACTATCCAGATATAGATGTAAAAGTAATAAATACAGAGAAAACATATGAGTTCTAAGGGGGTGAAAAAATGGAACAATGGGGAATGTGGATAATACTTGCTATTATTTTTGCAGTAGCTGAACTTTTAACTCCTTCGTTTTTCTTTTTATGGTTTGCTATTGGTTCAAGTATATCTGCAATAACTTCTATTTTTGTAGAATCTATTACAATAAACATAATACTATTTTTAATTACCTCATTTTTGCTATGGATTTCCACGAGAAAGATAGTAAAAAAACTTTATAAAAGTGGAGACAAAAGAAATTTATATCAGGAAGAATTAAATGGTAAAAAAGGAAGTGTAATATTAGTAAATAAAGATGAAGAATATATTTTAGTAAAAGTTGAAGGAGAAGAATGGAAAGCACATTGTGATGAAATAAATAAAATGAAAATTGGTGATAAAGTTGAAGTAATAAAAAGGGAAAGTAATATATTAAAGGTGAAAAAGGAGGAGATGTAAATGTTTTTGTTGATTATTGTTGCAGTATTTTTAATATTAATAGTTGCAAGTAGTTTGAAAATTGTAAGACCTTATGAAAAAGCTTTGGTTGAAAGATTAGGGAAATTTCATAGAGAAATTGGACCAGGTTTAAACATAATAGTTCCATTTCTTGAAAGAATAACAAAAGTAGATATGAGAGAAATGTTAATAGATGTTCCACCACAAGAAGTTATTACAAAAGATAATGTTATAGTTACAGTTGATGCAGTTATATATTATCAAGTAATGGAAGCATTTAAAGTAATATATAATGTTGGTGAATTTACAATAGCTTCTGTAAAATTAGCTCAAACGAACTTAAGAAATTTGATAGGTGAATTGGAATTAGATCAAACATTGACTTCAAGAGAAAGAATAAATACAAAACTTAGAGAAATATTGGATGAAGCAACAGATAAATGGGGTATAAAAGTAACTAGAGTTGAAATAAAGAAAATTGATCCACCAAAAGATATAATGGAAGCTATGAGTAGACAAATGAAGGCTGAAAGACTTAAAAGAGCAGTTATTTTAGAATCTGAAGGATACAGACAATCTCAAATATTAAAAGCAGAAGGAGATAAACAATCTGCAATATTGAAAGCAGAAGGACAAGCTGAAGCAATAAAAAGAGTTGCAGAAGGACAAAAATATAAATTAAAAACAGAAGCAGAAGGACAAGCTGAAGCAATACAAAATGTTTTTAATGCTATTCATGAAGGAAATCCAACAAAAGATTTAATAGCGGTAAAATATTTAGATGCTTTAAGAGATATTTCTAATGGACAGGCAACAAAAGTATTTTTACCTTACGAAGTATCGGGTGTTCTTGGATCAATATCAACAATGATTGAAGCAGCTAAAACCGATGTATTTAAAAAAGAGAAAAAGGAAAAATAAAAAAATGTTAATTTCTGTATTAATAAATGGATTGGCAATTATTTTAGCATTTTATATAATAAAAATTTATACTTTAAATAATAAAGAGTTACCAATGTTCTTAAAATATTTCGGCAATTATTTAATTGCCGGAAGTTTTTTAATTCTTTTTTATATTTATGGACATAAAAAAATGAATACAGTTCACTTTTTAAGTTTTTTAATACTATTAGTATATTATATAAGACAGTTTAATGTAACTAGAAAAAAATTTCATGAAAACTTTAGATCAATGGTCATGTCTTTTGGATATACAAGAAAAACATATTTTAAATCATTTCTTTCAAAAAAACTTATTAAAAGTGGAATTGAATCTTTTTTTTATGCAAATGCAATGTATATACTGTTTCAAACTTTATCAAAAAATATATATGAAGAATTAAATGGAATAAAACTAATAATAATCTTTTTACTGTTAATTTTAGCCTCCTATATAGATAGTTTTAATGAGGAAAAAATATACAAAAACGTAAAGTAGATTAAATATATCGGTGTTAGAATACCGTTGATGGGTATTAAAAAAATAGAAAATATATAAATTCAGGAGGTTACATTATGGAAAGATTACTTGATGAAAATACAGCAAAGCAAGTAAAAGAAGTATTAAATGAAATGGAAGGTTCAGTAAAGTGTTTATTATTTAAGGGAGATAATGAATATTCACAAGTTACTGAACAATTATTAAAAGAAGTTTCAGAAGTGAACGATAAAATAGTTATTGAATCATATGATATAAATGATCCACTCGCTGAAGAATTTGACATTGATAAAGAATTAACTCCTGCAATGGTTATGTTAAATTCAAAAGGAGAAGATTTAGGAGTTAAGTTTTATGGAATTCCTTCTGGACATGAATTTTCTACACTTTTACAAGAATTAATAGCAATGTCAAAAGGTGGAAAAACAGAATTTTCTGAAGATGCAGTAAGTAAATTATCTTCAATAGATAAAAAATTAAGAATAAGAGCATTTATAACTCCTACATGTCCATATTGTCCTAAAGCAGTTCTTGCAGCTCAACAAACTGCTATGATAAATGAAAATATTTTAGGAGAAATGGTTGAAGCAAATGAATTTGGTCCACTTTCAATGAAACACGGAGTTAGCTCTGTACCTCATACAGTAATAGAAGTATTTGAAAATGGTGAATGGGTTGTAAAAAATGAATTTGTTGGTGCATATCCGGAACCTAACTTTGTAGAAGAAATATTAAAAGCAGTAGAATAATAAATAAGATAAAAAGGTAACCGGAAGGTTACCTTTTTTTATAGGAGGAATAATATGTTTTTTGATATGGGAAGTGCTGGGAAAAAATCAGAATTAAAAGAATATTATGATATGATAATAATAGGCGGAGGTCCTGGTGGTGTTGCTGCTGCAATATATGCAGTTCAAGGTGGTGTAAAACCTCTAATTATTGAAAAAGCTTTAGATGGTGGGCAAATGAATTTAACTGAAAAAATAGAAAACTATCCAGGTTTTTCATCAATTGAAGGAAGTGAGTTAGCTGAAAAATTTGGTGAACATGCAAAAGAATTTGGTGTTGAATTTAATTATTCTACAGTTATAAAAATAGAAGATAAAGGAAATGAAAAATTAGTTTATACTGATGATGGAAATGTTATAAAGACAAAAGTTATAATAATTGCAACTGGTGCAAATCCAAGGCCGGCTGGAGTAAAGGGAGAAAAGGAATTTACTAATAAAGGAATTTCATATTGTGCAACGTGTGATGGTCATTTTTTTAAAGATCAAAAAGTAGCAGTTATTGGTGGTGGTAATACTGCTGTTGAAGAAGCATTGTATCTTTCAAAAATAGCAAAAGAAGTTGTAATTATTCATAGAAGAGATAAACTAAGAGCAGATAAAATATATCAAGAAAGAGCGTTTAATACTTCTAATATAAGTTTTAGATGGGACAGTGTTATAGAAGAAATAAAAGGGGATATAAAAGTAAGAAGTCTTGTATTAAAAAATAAGAAGACAAATGAATTAACTGAAGAGTTATTTGATGGAATTTTTATTTTTATTGGTTTAGAACCAGCTGTAGATTTTTTAAATGGAATTGTTGAGTTGAATGAATCAAAATATATAAAAGTTGATAAACACATGCAAACAAATGTAAAAGGAATATATGCTGTAGGAGATGTTATAGAAAAAGAATTAAGGCAAGTAGTTACTTCAGTAGCTGAAGGAGCAATTGCTGCTTCACATGCTGTCAGAGAGTATTTTAATTAATAAATTAGAGTCCAATATAATGGACTCTTTTTTTTATTGTAATAAACTCTTTTTATTATTGTAAATATAAAACTTATAATAAGTAATAAAATAGAAGTAAAAATAATGGAGGTGAAATTAATGAGAGAAGCTTTAACCTTTGATGATGTTTTATTAGTGCCACAATATAGTGAAATTGTTCCAACAAAGGTGAACACTACTACAAATTTGATAAAGAATATAAAAATTAAGGTACCTTTTATTTCAGCGGCTATGGATACAGTAACAGAGTCAGAAATGGCAAAAGCAATGGCAAGAGAAGGTGGCGTTGGAATAATACATAAAAATATGTCAATAGAAAGGCAAGCTCATCAAGTTGCAAAGGTAAAAAGAGCAGAAAATGGAGTTATTTTTGATCCTATTACAATTTCACCAAATACAAAGGTATATGAAGCAGAAAAATTAATGAAAGAATATAAAATTGGTGGGTTTCCAGTTGTAGATAAAAAAGGAAAATTACTTGGAATATTAACTAATAGAGATATAAGATTTGAAAGAAACTCAAAAAAATTAGTTAAAGAATTAATGACACCGTATAAAAAATTAATAGTTGCAGGAACTCACATAGGATTAAAAAAAGCAAAAGAGATACTTCATGAAAATAAAATCGAAAAACTTCCAATTGTTGATGAAAATGGGAAAATAGAAGGATTAATAACAATAAAAGATGTAATGGCGGTTATAGAACATCCAAATGCAACTAGAGATTCAAAAGGAAGATTAGTTGTTGGTGGAGCAATAGGAATTTCGGATGGTCTTGAAAGATCGAGGGCATTAATTCAAGAAGATGTAGATTTTTTAGTTTTAGACTCAGCACATGGACATTCTAAAAATATTATTGAAACATTAAAGAAAATAAAAAATGAATATCCAAATATACCTATAATGGCAGGAAATATAGCAACGAAAAAAGCAGCAAAGGATTTAATAGAAGCTGGAGCTGATGCAATAAAAGTTGGAATTGGACCAGGTTCAATATGTACTACAAGAATAATTGCTGGAATTGGTGTACCACAGCTGACAGCAATAATGGATGTTTTTGAAATTGCTAAAGAACATAATATACCAGTTATTGCTGATGGAGGTATAAGATATTCTGGAGATATTGTAAAAGCATTAGTTGCAGGTGCAAAATCTGTAATGATTGGAAGTATATTTGCAGGAACTGATGAAGCACCAGGTGAAACCATAATATATGGAGGTAGAAAGTTTAAAACATATAGAGGAATGGGCTCAATAGGTGCAATGGAAAAAGGAAGTAAAGATAGATATTTTCAATCAGAAATTGAAGAATCTGAAAAATTAGTTCCAGAAGGTGTTGAAGGAATGGTTCCTTATAAAGGTGGAGTAAAGGATATAATTTATCAATTACTTGGTGGATTAAAAGCTGGAATGGGTTATAATGGAGCTGAAACCATAGAAAAATTAAGAGAAAATTCAGAATTTATAAAAATAACTCCAGCAAGTATGCAAGAAAGTCATCCACATGATATATCAATTACAAAGGAGTCTCCAAATTACTCTTACTTTCAGAAATAAAGTAAATATAAAATATGATACTTCGATTTTATGAAGTATCATATTTTATTAATTATATTTAAAGCATAATAACTTTTTTTATCATATCTTCTTCATAAGAAGAAGATATTTTATTTTGGTATAAAAGAGAATAGATATTTGAAGCTTTAAAATCATACTTTATTTGTTCTAAAAATATTTCTGGAATGCTATCGTATTTTTTATCTTCATTTTTTAAATCTTTTATAAGTTTTTTATATATTTGATAATATTGAGAAGGAGTCGTTATTATTGGATATTTAGATTTTTTCTTTATAATATTTAATAATTTTTGTCCTTTTTTATTAAAACCTAATACTCTTAAGTATTGTGGACCATATTCAGCATATTTTTTGTATTCATAATCCTTTAAATCAAATAAAATATTTAGCATACTTCTTTTTACTCTGGTATATGTAAATCTTTTAGATTTTACTTTTTTCAATAAATCATTTATATCCTTACTCCTTTTAGAGTATTCAATAAAACGTTTATCTAATCCTTCTTTTATATCTAAAATATCTGTAATATCTTCTCTTTCTGATAACCTTAATTTGTAAAGAATTATTTCCCTCATTTTTTCAAGATTTATTGGTCCATTCCCTTTACTTATTTCTCTTTTTAATATTTCTAAAGTTTTTTTAGGAACTGAGTTTTCTATTTTAGAGATTTTATTTTCAAATATTAACTTTCTTATTGCAGTAGCACTGGATAATTTTCCTTTGAATTCAGAATCATTATAGTCAGAACCGTGTCTTTGAATAGTATGAGGTATAATTTTTGAATTATAATAATTTAAATTATTTAAATATTCAATTCCCAATATATCATTGGATTTTTCAACTATTTTTTCAATATCAGTATCATTATCAAAAAACTTTTTTAATGCTTCTTTTCTAGCATTTGGAAAGCTTAATCCTTTTTTTAAATAATATTTTAGTAAATTAGTATATTCTTTTTTTTGAGTAATTAATACATTGGATATTTTTTTTAAATACTCAATATTTGAAGATTCGCTTCCAAAAACTATATCAGTAACTACGTTTGTTCTTTCAAGAACTCCAATAGAACCATTTGCAAATGTTCCAGCACTTTGTGTTGCATATACAAAAGGTAATTCAAAAACAATATCAATTCCCATATTTAAGGCTGTTTCTGTTCTTGAAAATTTATTTATTATGGCTGGTTCTCCTCTTTGAACAAAGTTGCCACTCATTACGGCAACAGTATAATCTGGAGATACAATTTTTTTTGCTGAATTAAGGTGATACAAATGTCCGTTATGAAATGGATTGTATTCTACAATTAAACCTAAAACATTCATAATTATCTACCTCACACATGAAAATGAAAGTATACACAGTCTCCTTCTTTTAATACATAATCTTTTCCTTCTATGGATACTTTTCCTTTTTCTTTTGCATCTTTAAAACTACCTATGCTTTTTAACTCTTCAAAATTTATTACTTCTGCTTTTATAAAACCAGATTGTATATCTGTATGGATTTTTCCAGCTGCATCATAAGCTGTGATACCTTTTAAAACATTCCAAGATTTTGATTCGTTTTCTGTTCCAGTTATAAAAGTTATTAAATTTAATGTATCTTTACACAATTTTACAAAATTATCTATTAAATTACCTTTTATATTAAATTCTTCCATAAAAATTTCTTTTTCTTCATCATCTAATTCTATTAAATCCATTTCTAATTTTGCAGAAATTTTATAAAAATTTGCATTTTTATTTTTTGCATATTCTTTTAATTTTATTACATATTCATTATCTTTTGTTAAGCCTTCTTCGTCTACATTTGCTACATAAATTACAGGTTTTTCAGTTATTAAAAATAGTGATTTTATAATTTCAATGTCTTTATCCGTTCTGGTTTCTTTGAATGTTCTAGAAGGGTTTGAAGTTTCTAAGTGTTTTTTTAAATCTTCCAGTAAACTACATTCATATTTTGCATCTTTATTTCCAGTTCTTGCTAATTTAAATGTTTTTTCATATCTTTTATCTATTGTATCAATATCTTTTTGAATTAATTCAAGGTCTACAACTTCTGCATCAAATATTGGATCTATTGTTCCAGATACATGAGAAATATTATCATCATCAAAAGCTCTAACTATATGCGCTATTGCATCAACTTTACTTATATTATCTAAAAATTTATTACCAAGTCCTTCACCCTTACTTGCACCTTTTACAAGACCAGCAATATCAACAAATTCTATAGATGGTTTTACAGTTTTTTGTGAATTATAAATTTTTGATATATAATCAACTCTTTCATCTTCATACTCAACTATGGCAATATTAGGCTCTATTGTACAGAATGGATAATTATCAGAAGGAACCATTTTTTTGGAAAGTGCATTGAACAAAGTTGATTTACCTACATTAGGTAATCCTACTAATCCTACTTGAAGCATTTTAAAACCCCTTTCAATTTTTATTATATATATTATACATTATTCAGTTTAATACAATTAACAAAAAAAATTGTGCTATAATTCATTAATTTTACAAAAAGGTTAAAATATTGTATAATGTTAAATGTGTAATGGAGGTGATTTTTATGTATGATTTTTTAAAAAAAATAGTATCAAAAGATATATTGTATAAAAACATGAAAGTTGAATTTGAAATAAATGGAGTTATGTATAGTGGAGTTTATAAAGGTAAATCTGAAAATTTTAATAGTAATACAGACTATGAAATTATATTTTCTGACGAAGATTTGAGTACATATAAAGTTAGTGAGTATAGTAAGATGAGATTTTATTCAAAATTATCTGTTTTTTTGTTTAAAACACAGATACACGAAATAAAAAAAGTTGAAGATAAAACATTAATATTTTTTAAAATACCTCCAAAAGTTTATAGAGTAAAAAGAAGAGCAGATATAAGAGTTGATGTTTGTCAAAATGTTTTTTTTTATTTAAAAGAAGAGTTTGAAAAATTTCATAATCCAGATAGAAATTACTTTCTTTCAATTGATTTTAGCGTTGGTGGTTTATATATTAGATCTAAAAAAAATTTAAAAATAAATGAAAAAATATTGATAAATTTTAATTTAGGAAGTGGATATAATATAAAAAATTATGAAAGTAAGGTAGTAAGAAAAGGTTATGATGAAGGGAAAGAATATCTATATGGAATAATGTTTATGAAAAAATTAAATTGGCTTATGAATGTATCACTTTATAAAACACTTTTGAAATTTAAAAAATAGTAAAAAATATGAAAAATAAAGTATTTTCCATTTAGTTGACTTTAAATACTTTTTTTAAAGAAAAAAAAAGTATTTTTAAAATTGAAAAAATTTTCATGTGTAGTGTTATAATATGCTGGGGTGATTTTTAAATGAAAAAATTAATAGAAAATGTAGAATTTTTTAAGGCAGAAATGATTAAACAAATTCTTGAAAATGAGGGAATAAATCCAATTATAAAGTCAACAAGTATGATTGGCTCTGAATATATGGGATATGGTATTAGAAAAGATTTATATATTAATGAAAAATTTTTTGAACAAGCAAAAAAAATATTAAATGATTTAGAAATTTCAAATAAAAAGGAGGATCAAAATGTCTGAATTAAAAATGACGCCTTTACATGAAGAACATATTAAGGCTGGAGCTAAAATGATAGAATTTGGTGGTTGGGATATGCCAGTATGGTATACTTCGTTGATTCAAGAACATAAGATGGTAAGAGAAAGTGTTGGAATATTTGATGTTTCTCATATGGGTGAAATAGAAGTAAAAGGTAAAGAAGCAAGAAAATTTGTTGATTACTTAATAACAAATAATGTTGAAGTAATAAATACAGGCGATATTGTTTATTCTCCTATGTGTAATGAAAATGGTGGAATTGTAGATGATTTACTTGCATATAAATTTTCAGAAGAATATATATTTTTAGTTGTTAATGCATCAAATACAGAAAAAGATTTTAATTGGATCTTAAAGCAATCAAAAGATTTTGATGTTGAAGTAAAAAATCTTTCAAAAGAATATGGGCAAATTGCTTTTCAAGGACCAAAAGCCGAAGAGCTTTTAATGAATATAACAAATGCTCCATTAACTGAAATGGGATTTTATACATTTGTTGAAGCTGATGTTGCAGGAATAAAGTCAATAGTTTCAAGAACGGGGTATACTGGAGAAGATGGATTTGAAATATACTTACCTGCAGAATACACTTCAAAAGTATGGCAAGAATTAATGAAACTTGCAAAAGAAGTTAATGGAGGTCCAGCTGGTCTTGGATGTAGAGATACATTAAGATTTGAAGCTGTTTATATGCTTTATGGCAATGATATTAATGATGAAACGACACCACTTGAAGCAGGATTAAAATGGGCTGTTGACTTAAATAAAGAATTTATTGGAAAAGAACCTATTTTAAAAATGAAAGAAGAAGGATTACCAAGAAGATTAAAAGGAATAGAGATTTTGTCTAAAGTTCCAGCAAGACATAATTATAAAATTTATTCTGGAGATGAAGAAATTGGATATATAACAAGTGGTTCAAAATCTATTTCAACAGATAGAAATTTAGCTTTAGGATATTTGAAAAAAGGTTTTACAAAGGTTGGAACAGAAATAGAAATAGAAGTTAGAAATAAAAGAGTAAAAGCACAAGTAATAAAAACACCATTTTATAGAGGTAGTGTAAAATCTAAGAAAAAATGATAGGGGTGAAAAAATAATGTCTAATTTTTCATATCTTCCTCATACAGAAGAAGAAATAAAAGAAATGTTAAAAACAATTGGTGTTGATTCTTTAGAAGAATTATATAAAGATGTTCCACAATTATATAAAGAAGAACTAAATATACCAAAATCAAAATCAGAAATAGAAGTAAAAAGAGAAATAAAAGAAATGGCTTCATTGAATGCAGATATTTCTGAATATGGTATGTTTAGAGGTGCAGGTGTTTATAATCATTATATTCCATCATTAGTACCTCAAATAGCAGGTAAAAGAAGTTTTTTAACAGCTTATACACCATATCAAGCAGAAGTTTCTCAAGGGACATTACAGATGATGTTTGAATTTCAAACAATGATAGCAGAACTTACTGGAATGGAAGTTTCTAATGCTTCAATGTATGACGGTGCTTCAGCAATGGCAGAAGCAATTTTAATGTCTGCAAGGGTTAATAAAAAGAATAAAACATTAATTGCAGAAACTATTCATCCTGAATATATGGAAGTTGCTAAAACTTATGTTGAACCTCAAGGGTTTTCAATAGAAACTATAAAACATACAGATAGTGGAAAAATTGATATAAATGATTTAAAAAGTAAATTAAACGATGATATAAATTCAGTTATAATAGGATATCCAAATTTTTATGGAGTAATAGAAAATATAAAGAAAATAAAGGAAATATTACCTCAAAAAGTTATGCTTATAGTAGTTGCTAATCCGATGGCATTAGGTATTTTAGAAGCACCAGGTAAATTAGGTGCAGATATAGTTGTTGGAGATGGGCAACCTCTTGGTAATCCAATGGCATTTGGAGGACCTTCATTTGGATTTTTTGCTGTTAATAAAAAAGATGTTAGAAAGATGCCAGGAAGAATTATTGGTGAAACAGTCGATGAAGATGGTAAAAGAGCATTTGCAATGATTTTGCAAACAAGAGAACAACATATAAGAAGAGCAAAAGCTACCTCCAATATTTGTTCTAATCATGCACATAATACATTGTTGGCTTCTATTTATATGACAATTATGGGAAAAGAAGGTTTTTCAGAAGTTTCAGAACAAAACTATCATAAAGCTCATTATTTAGCTAAAAAATTGATTGAAACAGAAAAATTTGAAATGGCATTTAGTGGAGAATTTTTTAATGAATTTGTTGTTAAATCAAAAATACCAGTTGATGAGTTAAATAAAAAATTATTTGAAGAAAAAATGATAGGACCATTACACTTAACTAAATTTTATAAAGAAAAAGAAAATTACGCATTATTTTGTGCAACAGAATTAACTACAAAAGAAGATATCGATTACCTCGTATCATTTGTGGAGGGATTAATATGAAGTTGATATTTGAAAAAAGTACTAAAGGAAGAAAAGGTTTTAGATTACCAAGATTAGACGTACCAAAGCAAGAACTTCCAAAAAATCTTCTTAGACAAGAAAAGGCAGAACTTCCAGAAGTTTTTGAAATGGATGTTGTTAGACACTTTGAAAGTCTTGAAAAAATAAACCATTCTATTGATAGAGGATTTTATCCATTAGGATCTTGTACAATGAAATATAACCCTTTTATAAATGAAGAAATGGCATCTTTGAGTGGCTTTGTTAATTTACATCCTTATGTTGAAGAAAAAGATGCTCAAGGCGCTTTAGAATTGATGTACAATCTTCAAAAAAGTCTTGGTGAAATAACTGGAATGGATGCAGTTACATTGCAACCTGCTGCTGGAGCACATGGTGAGTTAACGGGTATGCTCATAATTAGGAAATATATAGAAGATAAAGGTTTAACACACAAAACAAAGGTAATTGTTCCAGATTCAGCACATGGAACCAATCCAGCATCAGCAACTATGGCTGGTTTTAAAGCTGTTGAAGTTAAGTCAACAGATAAAGGTAGAGTTGATATTGAAGAATATAAAAAATTAATGGACGATGATGTTGCAGCAATAATGCTTACAAATCCTAATACAGTAGGATTATTTGAATCTGATATTCTTGAAATAGCAAAACTTGCTCATGAACATGGAGCTTTATTGTACTATGATGGAGCAAATTTAAATGCAATAATGGGAATGGTAAGACCTGGAGATATGGGATTTGATGTTGTTCATATGAATTTACATAAAACTTTTTCAACTCCACACGGCATGGGTGGACCGGGAAGTGGTCCAGTTGGTGTAAAAGAATATTTAAAAGATTACTTACCAAAGCCAATAGTTGAAAAAAATGAGAATGGATTATATGAATTAAACTATGATATTCCAAAAAGTATTGGAAGAGTTAGAAGTTTATATGGAAACTTTCTTGTTTTAGTAAGAGCATATACATACATTTCAACAATGGGTAGTGATGGTCTAAAAAAATCAAGTGAATATGCAGTTTTAAATGCTAATTATATGCGTGTAAAACTTATGAATTCAATGAAAATGGCTTATGATGAAATATGTAAACATGAATTTGTTGTTGAAGGAACCTTTTTAAAGGAATATGGATTAAAAACTACAGATTTTGCCAAAAGAATGCTTGATTATGGAATTCATCCATCAACAATTTATTTTCCTTTAATTGTAAAGGAAGCAATGATGTTTGAGCCAACAGAAACAGAAAGTAAAGAAACTTTAGACGAAGTAATTGAAGTAATGTTAAAAATAGTAGATGAAGCAAAAAATACTCCAGAAAAATTACACAATGCACCTTTTACAACTCCTGTAAGGAGATTAGATGAATTAAAAGCAAATAAAGATATTAAAGTAAAATATTAAAAGCAGGCTAAGCCTGCTTTTAATATTTTAAGTATTTAATTAGATTTACAATTATTACAAATTCCTCTATAGATGACTTCTACTTCATTTACCTTCATACCCATTATTTCATTTGGAACAGAAATATTTTGTTCGCCATCTACATCATAAACTTTTCCGCATATCTCACAAATAAAATGAGAATGTGGTTTTAAGTTTGGATCAAATCGACTTCTTTCGGAATATTTTAATTCCTTTATTAAATTAGCTTTTTGTAAAACTTTAATTATATTATAAACGGATGTAAAAGAGATATTTTTTCCTCTTTTCGTTAAAGTAAGGTGTATTTCATCAGTAGATGGATGGTTAGTTGCATTTAAAATAATTTCTGCAATTAAAACTCTATTTGGCGTAGGGTGTATTTTGTTTCTTTTTAAAGTTTCGACTATTTGCTCTCTTGTTTTAAACATAAGCACTCCTCCTTTCATTAATTATTTATTTGAATTATTTTATAGTATTTAGATGATTAGAAATATGATTTATTAACATAAGTTGTTATTCCAATTATATCATGAAAAATAATTTGAATTTAAAACGTTACAAAATATAAATAAAAATCTTTAATTTGTATTAATTTAAAATATTAACTTTAATACAAATTAATTTCAAATGTAAAAAAACTTAATTTAATTATAAAAAAATATATTACAATAAGTGATATAATATAATTAGAATTTATTTTAATAAATGGATATAAATAAAAATATTCGGGGATATACAAACTTTAGGAGGCAGTTATGAAAGAAATAAAAAGAATAGGGTTAATAACTAGTGGTGGCGATGCTCCAGGAATGAATGCGGCTATTAGATCTGTTGTTAGAACTGCAGAGTCAAAAGGTATAGAGGTATATGCTTTTTTAAGAGGGTATGCAGGAATTTTAGATAAAGAATACAAAGTTTTAAAATTTTCTGATGTTGGTGGAATAATGGAAAAAGGAGGAACAATATTAAGAACAGCGAGAGTTCTAGAGTTTAAACTTCCAGAAGTTAGAAAAGAAGCGGCTGATATTTTAAGGGAATTAAAAATTGAAGCATTAGTTGTTATTGGAGGAGAAGGAAGTTTAACTGGAGCAAAACTTTTAATGGAAGAACAAGATATACCTGTTGTGGGGATACCTGGTTCAATAGATAATGATATTCCACAAACGGACATGTGCATTGGAGTAGATACTTGTTTAAATACAACTATTGAAGCTATGCAAAAATTAAAAGATACAGCTTCTTCTCATGAAAGAGCATTTATTGTTGAAGTTATGGGAAGAGGATCTGGATATATAGCACTAATGTCAGCTCTTTCAGTTGGTGCTGAAGCAGTTATAATTCCAGAAACACCTGTTGATTTTAAAGCAATAGCAGAAAGAATATGGGAAGAAAGGCAAAGAGGTAAGGTTAATAGCATAATAGTTGTTGCTGAGGGTGCAGCAAGTGCTTATACAGTTGCAAGACATTTAGAAAACAGAATAGGTTTTGAAACAAGAATAACTATACTTGGACATATAGTAAGAGGTGGATCTCCAAGTGCTTTTGATAGGATATTAGCTTCTAGAATGGGATATGAAGCTATTAAATCAATTGTTGAAGGAGAGTATGGAGTTATGATAGCTCTTTCAAGAAGTAATATGATAAGAGTACCTATTGAATCGGTTCTTTCTGAAAAAAAAGAATTAGATATGGAAATATTAAAACTAGCTAAGATTTTGTCATAAATTAATTTGGTTTTAACTAATTATTGATGTATAATTTATGTAGATATAACATTAAAACTCTGGAAGGAGTGATAACTTTGAAAAAAACAAGAATAGTTTGTACACTTGGACCTGTAACAGAAAGCGAAGAAATTCTTGGTGAATTAATGGATATTGGTATGAATGTTGCCAGACTCAATACATCTCATGGAGATCCCGAAGAACACTTTACAAGAGTTCAAAGAGTTCAAAAAATCAGAAAGGCAAAAGGAATACCAATTGCAATTCTTTTGGATCTTGAAGGTCCAAAAATGAGAACTACTAACTTTAAAACAGATGAAGTTGAATTAATTGAAGGAAATGAATTTATTTTAACTTCAGAAGATATAGTAGGTGATGAAACGATAGTTGGTTTAACTTATAAAAGACTTCCAGAAGATGTTAAAAGTGGAGATTTAATACTTTTAAATGATGGGAAAGTTAAACTTGAAGTTATAGAATCTAATGGAATACAAATAAGAACAAAAATAATAAATGGAGGTATTGTAACTCATAGAAGAGGAATAAATGTTCCAGGAGTAGATATACAACTTCCAGGATTAACAGAAAAAGATAAGTCTTATATTGAATATGGAGTAAAATGGAATGTAGATTATATGGCTCAATCTTTTGTAAGAAAAGCAGATGATATAAGAGAAACAAAAGAAATTCTTGCAAAATTAGGAGCACCTGATATGCCAGTAATAGCGAAAATAGAGACTCTACAAGCATTGGATAATTTAGAAGAAATAATTGATGCAGCAGATGGTGTAATGGTTGCAAGAGGTGATCTTGGGGTTGAAATACCAGTTCAACAAGTTCCCGTTGTTCAAAAAAGAATTATTTCTATGGCAAATGCAAAAAGTAAACCAGTAATTACTGCAACACAGATGCTTGAAACGATGATAGAAAATCCAGTTCCCACAAGAGCAGAAGCAACAGATATTGCAAATGCAATAATGGATGGAACTGATGCGGTCATGCTTTCAGCCGAAACATCTGTTGGTAAGCATCCTTTAGAGGCAGTAAAAGTAATGTCAAATATTGCAATTGAAACAGAAAAATATCTTTGGAAATATTCTAGAATGTTTAATTTTGTTACTACTGAGGGAAAAGATGAAGTAACTAATGCAATAACAAAATCTGCAGTTGAAATGGCAATTGAATTAAATATACATACAATTGTTGCGACAACATATAGAGGATATACAGTAAGAGCTCTTTCTAGATTTAGAAAAGATTTAAATATTATTGCAGCCTCACCAAGAGAAGAAACATTTAATAGAATGGCTCTTGTTTGGGGAGTAACTCCTGTTATAATGACAAAATTTATAGATACTGATTCAATGTTGGAAAATGTTTCTAATATTGTAAAATCATTGAATTTAAATAAAAAAGGAGATAAGATAATTGTTACTGCAGGAATTCCATATGGATTTGCTGGAACAACTAATCTAATAAAAGTGCACGAAGTTTAAAATACTACAAATAGTGCGGTAAGTATTCCGCACTTTTTTTTTAAGTTTATTTATGGTAAAATTGTTATAAATATCGGAGGTGAAAAAATGGTTTTGGATAAATTAACACCAAAAGAAATAGTAGCACAATTAAATAAATATATTATAGGACAAAATATAGCAAAAAAACAAGTTTCAATAGCATTGAGAAACAGAATTAGAAGATTGAAATTAGAAGAAAATATGAGAAAAGAAGTGATACCTAAAAATATATTAATGATAGGACCAACTGGAGTAGGTAAAACCGAAATAGCAAGAAGACTGGCTCAAATTGCAAAAGCTCCATTTATAAAGGTTGAAGCTACAAGATTTACAGAGGTTGGGTATGTTGGTAAAAATGTGGAAAGTATGATAAAAGAATTAATGGATGTTTCAGTTAATCTTGTTAGAACTGAAATGATGGAAAAAGTTGAAGAATTAGCAAAAAAAATGGTTGAACAAAGAATTGTGGAAGCTTTAGTTCCTGCATCAAAAAAGCAAAATTCAAATGCTAATTTTATGGAAATGTTTCAAATGTTTAATCAACAAGGAAATTATCAAAATCAAAAAAAAGAAACTATTGAAGAACCAGAAATAAAAAGAAGAAGAGAAGAAATTTATGAACAGTTAAAAAAGGGTGAATTAGAAAATATAGAAATAGAAATTGAATTGGAAGAAGATTCAACACCAATGTTTGCAGGAATGGGATCAGAATTTGAAGACATGGGAATGCAAATTGGTGAAATGTTTTCAAATTTAATGCCAAAGAAAAAGAAAAAAAGAAAGATGAAAGTTTCAGAAGCAAGAAAAATATTACAACCAATAGAAGCGGAAAAATTGATAGATAAAGAAAAAATGATACAAGAAGGCATTGAAAGGGCTCAAAGCAGAGGAATAATATTTATAGATGAAATAGATAAAATAACAGCAAAAGGTAGTGGCGCAGGACCTGATGTGTCACGTGAAGGAGTTCAGAGAGATTTATTACCAATTGTTGAAGGTACTAATGTAATGACTAAGTATGGTCAAGTTAAAACAGATTATATATTATTTATTGCTGCAGGTGCATTTCATATGGCAAAACCATCTGATTTAATACCAGAATTACAGGGAAGATTTCCAGTAAGAGTAGAATTACAAGACTTAACAGAAGATGATTTTATTAAGATTTTGGTTGAACCAGAAAATGCAATAATAAAACAGTACAAAGCTTTACTTTTAACAGATGATGTTGAACTTGAATTTTCAGAAGATGGAATAAAAGAAATTGCCAAAATTTCTTTTGAATTAAATGAAAAAGTTGAAAATATAGGAGCTAGAAGATTATATACAGTTGTTGAAAAAGTTTTAGAAGAAGTTTCATATGAAGCTCCATCATCAACAGCATGGAAAGTAGTAGTTAATTCAGAATATGTTAAAGCAAAATTAGGAGATATAGTTAAGGATGAAAATTTAAGAGAATACGTATTGTAGGTGAAAATATGAATTCAGAACATGTAGATATATTAATAATAGAAGAAAATGAATCAATCATAAATTTATATAAAAAAATGTTAATGAATATATTAAATGATGAATATTCAATAAAAATATTGAAAAATAATAAGGAAATATCAAATTTTTTTGATAACACTAACAACTTTAAAAATAAAATATCTTTAATTATTTCTGAATCATCTATTGAAGGCGTTGAAATAATAGAAAAACTCGGGGACATAAAAAGTATGTTCCCGAGAGTTTGTGTATATATAATGAGTAATGATGTAAATATAGAAAAATTAAAAAAAGCTTTAAAGTATGGTGTAAGTGATTGGATTGAAAAACCTATTACTCCAGATGAATTTTATGAAGTTGTGCATAAATCTATTTATAGAGGAACATCATTTGAATCAAAAATTAGAGATATTGAAAAAGAAATTGATAATTTTAATGTAGAAAATGAAATTGAATATTATAAATTAGAAAATAGATTAGGTAAATTATTGGGAGAAAATCCATCAAGATATGAAACTCATTATTTATTAGGTAAATTATATGAAAAAAAAGGAATTAAAACATTATCTATAAAACATTATAAAGCTTCAGAAGCATTGAAAAATTGAGGTGAAAAATGAAATCAAAATATATAATAGTAATTGGTTGTGGAAGGCTTGGATCTGAATTGGCAGTGAAGTTTTCACAAAATCATAGTGTCGTTGTTATAGATAAAAATGAAAAAGCTTTTTCAAGACTTGTAAATAAAAATTTTACAGGTTTTACTATGACAGTTGATACTAATGATATGGATGCATTAAAAAAAGCTAAATTAGATAAGGCAGATATAGTTTATATAGTAACACCAGATGATAACCTTAATTTTATGTTGGCCTATGGAATTAAAATGATTAAAAAGGAAATAAATAAGGAAGATTTAAGAATAGTTGCAAGAGTTAATGATCCAATGAAAAAAGATTTATTTCAAAGAGCTAAGCTAGAACTTTTTTGCCCAATTGAAAATTCTGCAAATCAAATATTTGCAGATTTTAAAGGGGCTGATGAATTATGAGAAAAAAAATATTTTATATTTTTGAAGGAAAAACTCTAGCCTATGCTTTGGCAAAAAAATTATTATTATTAGGAAATAGTGTTTATTATGTTTCTAAAAATCCTGAAAGTATTGAAATATTAGATGGATTAAAAGTGTATCATTCATCACTAGAATTAATACAACATGATCCAACAGATATAAATTGGATAGATAATTTTGAAATGACTAAAGACATAGGGGCAGTTATTCTTCTTTCAGAAGATGATGCACAAAATTTTGTTATTTCTTGGATATTAAGGCAAAAATATGATACATTAAAAATATTATCGCTTGTAAATCACGTTGAAAATAAGTTTGTTTTTGATGATATAAATATAATAAATATATTGCCTACATTATGGATGGAAAAAGTGATTGAATCTACATTAAAATATGAAGATATAACAGATTTTTTCAATCCTTATGTTGATAAACTATCTATTTTAGAAATGACTATTTCTAAAAATGATAAATCATGCAATAAACCACTTAAAGAATTAAGACCACCAGAAAATAGTATAGTTGGAGTTATAATAAAGAAAAATGGTGAAATTATGGTACCACAAGGTAATACAATAATTGAAGAAGAAGATAAATTAATAGTTTTTTCTATAAAAGAACAGGTACAAAAAGTTAAAGACGCTTTAAAGTAAGAGGTGATCATGTGTCTGATTATAAATATTATTTAAAATTAAGGTATAAAACGATATTAAAAAATACAGCTTCAATGCTATTTGCTCTTTCTTTATTAATTTTTTTAGTTGGAAGTATATCAATTTTTTATGGAGATTTTAAAACCTTTAATTCTTTTTTTATGACAACAATTACTACAGCTGGTTTTGGATTAATTTTAATGTTATTTAGTATTGGTGAAAAATCAAAAATAATAAATGTTCAAGATGCAGTTATGATAATTTTTTTTGTATGGACATTTTCAATATTTTTTTCATCTTTACCTTTTGTTTATTATGGAATGCTTAATATACATCAAGCAATATTTGAATCAACAAGTGGATGGACGACAACAGGTCTTACAATGATTTCAAATGTTGAGATTATACCAAAAACTTTTTTACTTTGGAGAAGTATAATGCAATATATTGGTGGAGCAGGTTTTGCCCTTATTATGGTAATAGTTGCGGGAAGTACAGGGGTAGGATTGTATCAAGCAGAAGGAAGAACCGATAATATAGTTCCAAACTTAAGAGGATCTGCAAAAATTATAACTTTAATTTATGTTTCATGGGCAATTTTAGGAATAGTTTTATTAATGCTTATTTCAAAATTACCATTTTTTGAAGCTTTTAATCATACATTGACAGCTTTAGCAACAGGCGGATTTTCTACTAAAAATGCAAGTGTTGGAGCATTTAATAATTTATCTATGGACATAATAATAATGATTTTAATGATAGCTGGTGGAACTGGTTTTGGGGTTCATTATGCTTTTTTATTGATGACAAAAAATTTTTATAAAAACATTAAAGATTATAAATCAAAAAAAATTTCAAAATTAAAATTAAAAGATAGAATTTCATCTGAGCCATATTTAAAAAATCCTGAACCAAAAACGATGTATTTTTTACTTTTTATATCGATAATACTGATATTTTTATTTATGGGTAAGTCTTTATATGGAGTTGGAAATGGATTAAGACATTCAGCATTTCAAGCAATATCAGCTCTTACTGGAACAGGGTTTTCAACAGTTAGCTTTTTAAAATGGAATCCATTTGGAATTTTAGTTATGATAATACTTATGATTCTTGGTGGAATGATGGATTCAACCTCAGGTGGATTAAAACTTTACAGAGTGTATGTAATTATAAAAGTAATAAAACTTCAAATATTAAATTTTTTTAAACCACAAGGTACTAAATTTCATGTTGAAGTGTATAAAGGAGTATCAAAAAAGTTCATTAATGAAAGCACATTTAAAGATGTAATAGCAGTAATATTTATGTATTTTTTGATATTTTTTATAGGAGTATTTACTCTTTTAGGATATGGATATAATTTACAAGATTCTATGTTTGAATATTCTTCTGCATTATCAGCAGTTGGATTATCAGTAGGAATAACTTCACCAACTGCACCACTTGGAGTAATATGGATAGAAACAATTGGAATGTACCTTGGAAGACTAGAATTTTTTGTAATTTATTATGCAATTATAAAATTAATAAAAGATTTAAAAGAATTTATATAAATAATAAGCCAACATTTGTTGGTTTATTATTTTTTGTGGTATAATTAACTCCTAAACAAAATGGAGGTGTGTAAATGATAAATAAAAATTCTATAATAGCGGTTGAAAGTTCTATTATAAAAAATAATTTTATAAAACCTATGTATGAAAGTTATTGTTTTTCAAATATTCCAGGAACTATTATGAAAAATTTTGGAATAAATAATAATAGAACCTTACCAAATGATATTTTTGGAAATATAGACCAAAAAAATAAAAAAATAGTTTTTTTATTTTTAGATGCTTTTGGATGGAATTTTTTAAATGAAAATAAAGAAAAAATTCCTTTTTTAAATGAATTGGTAGAAAATGGAGTGTTATCAAAATTAACCTCTCAATTTCCTTCAACTACATCAGCACATGTTACAACTGCTTATTCATCATTACAAGTTGGAGAAAGTGGAGTTTATGAATGGAATTATTATGATCCAACAGCAGATGAAGTAATAACTCCTCTTTTGAATGCATTGGCATTAGATTGGGATACAAAATTAATTGATTTGGGAATTCCTTCAGATAAACTATATCCAAATAAAAATATATTTATTGAACTAAAAAAAATGGGAGTTACATCAAGAATATTTCAAAGTGTTGAAACAAGTACAGGTGCATATAGTGATTTTATGCTTAAAGGAGCTATAAAAGAACCATATGAAAGTTTAGAAGATGGGTTGGAAAATTTAATGAATTGTATAAATAGTAATGAAAAAGGATATTATTTTTTTTATTACTCAAATATAGATCACACAGCACATAAATATGGTCCAAAATCGGAAGAGGTTAAAGAAGTTATAAAAAATTTCTTTAAAGTATTAGAAGGATATTTTAAACAAATAAAAGAAAATAATGAAACATTATTTTTATTTACGGCAGATCATGGAATGGCAAATATTGATTTAGAAACCCCTTATTATTTGAATCTCGAAATACCAGAATTAAATAATTATACTGAGGTAAATAAAAAAGGTAAACCAATAATTAGATGCGGATCTTATAGAGATGTTTTTTTATATATAAAAGATGAAAATTTAGAAGAAGTATATGATTTATTAAAAGAAAAATTAAGCAATACTGCTGAAGTTTTTAAAACAAGTGATATGATAAAAGAAAAATTTTTTGGAAATGTTTCTGAAAGATTTTTAGAAAGAGTTGGAAATATAGTTATACTTCCGTATGAAAATAAAAGCGTTTGGTGGTATGAAGAAGGAAAGTTTAGTATAGAACTTCCAGGTATGCATGGAGGACTTAGTAAAGAAGAAATGGAAATACCTTTATTATTGTATAAAAAATAAAATTTATTGAAAATACAATAACGGTGTATATATTACAATAAATATATACACCGTTATTTTTTATATTCGTATAATAGAAATGGTTATTTTATACAATACTTGAACGATAATGTTTTTTCATATATTGAAATAACAATTAATAAAGAAAATATGGTATAATTATTATATAGAAATACATTGAGGTGATTTTTTTGTCAGATATTTTAAATTATATAAAAGAAATTGAAGATATATTAAATAGAAATTTAACTGAAAAAGAAATGAAAAAATTAATGGATGCATATGAATTGGCTGAAAAATCACATGAAGGACAAATGAGAGATTCTGGTGAACCCTTTTTTGAACATCCCAAAGCTGTATCTAAAATATTGGCTAATTTTAAAATGGATATAGATACATTAGCAGCTGGATTATTACATGATGTTGTTGAAGATTGTGATGTGCCAATAGAAAAAATAAAGTCAAAATTTGGAGAAGACGTAGCAAAAATTGTTGATGGAGTTACAAAGATAAGTAATTTAAAGTTAAATGAAAGATTAAATAAAAAAGATATGAAGTCTATTGAAAAGATTGAAACCATAAGGAAAATGCTTATGGCAATGTCTAGTGATTTAAGAGTAATTATAGTAAAATTATCTGATAGGCTTCACAATATGAGAACATTAAACTTTGTCCCAAGAAAAAAACAATTAATAAAGTCACAAGAAACATTGAGGATTTATGCACCTATTGCACACAGGCTTGGTATACATAAAATAAAAGCAGAATTAGAAAACCTTTCTTTTTATTATTTATATCCTGATACATATACAGATTTAGAAAATAAAATAAAAAATAAATTATCAGATAGAGAAGAAAGTATTGAAGAGTATAAAAAATATATAAAAAAAGAATTAGAAAAACATAAAATAAAAGCAAAGGTAGTAGGGCGATCTAAACATCTTTATAGTATTTGGGAAAAGATGATAAGAAAAGGGAAACCTTTTGAAGAAATATATGATTTTATAGCTTTAAGGGTTATTACAGAAAATGCTAATCAATGTTATGCTACTCTTGGAATAATTCATTCAATTTGGCCTCCTATACCAGGAAGAATAAAAGATTATATAGCAACTCCTAAATTTAATGGATATCGTTCATTACATACAACTGTAATTACTAATAGGGGAGAGCCGCTTGAAATTCAAATAAGAGATATTGAAATGCATGAAGAGGCAGAATTTGGATTAGCGGCTCATTGGGCATATAAGCAAGGAGTTAGTCCTAAAAAAATAAAATTTTTGAACAATCTTATGGAATTGCATAAAGATATTGCTCAATCTGCTTTTGATATGAATGATATTGAAAATAGTTTAGAATCTTCAGAAATTTTTGTTTTTACTCCAAGAGGAGAAATTATACATTTACCTAAAGGAGCAACTCCAATAGATTTTGCTTATGCTATTCATACAGATGTGGGAAATCATTTTGCTGGTGCTAAAATAAATGGAAAAATAGTTCCAATGACTTATAAAATTCAAAATGGTGAAATTATAGAAATTATTATAAATAGAAATTTTCAAGGTCCGAGTATTGATTGGTTAAAGTATGCAAAATCTCCAAGAACTCGAACAAAAATTAAAAAGTATTATAGACAAAAAAATGAAAAAAATTTAATAGATAAAGGTAAAAACAAATTTAGAGAATTAGCAAAAAAAATAAATCTATCTATGGAAGAAATGTTGGAATATTTAAATGAAGATACATTTTATTTAAAGTATAATATAAAAAATGAAGAAGATTTATATATAAAAATAGCTTTAGAAGATGTGAGCATAAAAAATATTAGAAAAATATTTGAACCATCAGAAGATAAAAAAATTATTAATCCAAGAAATTCACAAAAAATAAAAAAACCTTCTGTAATAATAGATGGTGTTGATGGTGTAGAAAGTTATTTTGCTAAATGTTGTTTACCTGTTCCGGGTGATGAAATTATTGGAATAATAAGTAAAAGAGGAATTGGAATTCATAGGATAAATTGTAAAAATATTAGAGGAATACAAGAAGAAAAAAAAGTTGATGTTCATTGGAGTAATGAAGAAACGACATCTTTTAATGCTGTTTTAAATATAGATATTTTTGAGAAAAATACAATGAATAAAGTTAGAAGTGTTATTAAAGAAGAAAAAGGATATATTGAAAAATTTGAAATAATTAAACATGGAGAAGTTATAAGTACTAAACTAAGAATTAAGGTAATAAATATAGAACATCTTATAAGAATAACAAATAAAATTATGGAAATAAATGGAGTATATACTGTTAGGAGGGCTTAATTTGAGGGCAGTTATTCAAAGAGTTTTAAATGCTTCGGTTGCTGTTGATGAAAAGACTGTTGGAAGTATAAAAAATGGTATTTTAGTATTATTAGGGATTTCTCCAGAAGATACTGAAAAAGATATAAAATGGTTGGCAGATAAAATATTGGGATTGAGAATTTTTGAAGATGAACAAGAAAAAATGAATAAATCGTTATTGGATATAAATGGAGAATTATTGATAATTTCTCAATTTACACTATATGGAGATTGTAGAAAAGGAAAGAGACCTTCATTTACTTTATCTGCAAAACCAGAATTAGCAAAGAAAATGTACGATAAATTTGTAAATTATATAATAAATAATTATGATATAAAAGTAGAGACGGGGATTTTTCAAGCTGATATGAAAGTTAGTTTGGTAAATGATGGACCTGTCACTTTTATGCTTGATTCTACAAAATTATTCTAACGGAGGTGTTGCTTATGAAAGAAACCGAAGTAACAGTATTTGTTTATAAGGAAGAACCATTTGAAGTACACATTTCAGAAGAAGGATTAAACTATGGGATAAATGAAAAAAATATACATAAAATTTATACTGGGTATGAAAAACCACCAAAAGGTATAGTTGTAAAGTTTAAAATGCCTGATGGAAGTAAAAAATATATTAGAGAATAAAAAAATTATATAATGATAAAAAAGATAGCCAAGGCTATCTTTTTTATTTAAAGGTATTGTATTCTATTTCATCTAAAATATCCGAAAGATCATATGGAGATATAATTTTCAATTCTTTTTTAGATGTAAAAAAAGCTTTTCTAAAAATATCATCTTGATTACCTGTTATTATTTCAGCTGCACATTCATTCATAGCAGCTAATAAATCGGCAGAACGTACATAACGTCCATACTCTTTATTGAATGGTTCTAACATATAATTTTTATACTTTTTCATTATTTCGTTTATATTAGGATTTAATGTTGACCATTCATCTACGAATGTATCTTCAACCTTACCAATTAAAGATTCTAATCCTTTAACTTTTCTTTTAGTTGGTGTTATTACATCTCCTGTAAAAGCTTCTGGTATATCATGAAGTATAGAAGCAATCATTATTTCTTTTAATAATTCTCCATTCACATCATTATTTAATGCAAGTATATATGCTGTTATTAACACATAAAATGAATGAGAAGATACACTACTTCTAACATTCCTATGGTTTTTATTCCATCTAATCATAGTATTTAATCTTATAGTTGAATTTAATAAATAGTCTGAAATGGAAAAAACTTTTTTTGAAAAGTTCGTATTTATTTTTTTTATTTCCTCATCAATTTCTTTTTTTGGTAATGAATAATATTCGGGAAATACTCTTTCGTTTAATTCCACTTCTTTTTTTGATACTAATAATTTAACTAAATCAGTTGTTTTATTAATTTCTTCATTAATATTTTTTTCAATAAATAATTTTTTAGACAAATTTTCATTATCTAAAATTAAATTTAAATCTTTATAAGATTCATTAATTACATCATTCCATATAGTTGGATTTATAGATTTTATTTTATTTTTTGTTTCGAGTGAAACATCAGATAAAATTATTTTTGGAATTTCTTTTATAATTTTATTGTGAACCATGTTTATAGTATCTTCAGCATTTAAATCATTCATAGCAAATAAACTTAATGTTGTTGTATGAAATGCATTATCTGCTTCTGTGAATCTAATTATACCAGGCCTATTGTTCCATCTATAAATGGTAAATAAATTAGTTAATTCTAGCAAAAATTTACCTATTCCCATTTTTTATCAACCTCCTCAAATTTTTACTTTAATAATTATATCACATTTTTTTACTAATACATAATTAAATATTTTTTATATAATACTTGAACGAAATGTTTTTTTTCATATATAAAAAAGACATTTAATAAAATTATTCTTTGGCTAAAAAGCTAAAGGTCTTGAAAAAAAATAATTTTTAATGTATTATTATAATGTTAATATTTTTTAGGGGGAATAAAATTGAAAGAGTATGTTGGAGCTATTGATCAGGGAACTACGAGTACAAGATTTATTGTTTTTAATAAGATGGGAGAAATTGTTGGAGTTGATCAACTTGAACATGAACAAATTTATCCTGAATCTGGGTGGGTAGAACATAATCCTTTGGAAATTTGGGAAAAAACACAAAAAGTTATTGTTGGTGGTCTTTCAAATGCTGGCATTACTATGCATGATTTAGCAGCAGTTGGAATAACTAACCAGAGAGAAACTACTATTTTATGGAATAAAAAAACAGGAAAACCTTATTATAATGCTATTGTTTGGCAAGATGTTAGAACAAGAGAATTTTGTAAAACTTTAAACAGCGTAGAAAAAATAAAAAAATTAACAGGACTTCCTATAAACACTTATTTTTCTGCAAGTAAAATAAATTGGATATTAAATAATGTAAAAGGAATAAAAGAAGATATAAAAAAAGGAGAAGTTTTATTTGGGAACATAGATACTTGGATAATTTGGAATTTAACGGGTGGAGTTGATGGTGGCATTCACGTTACAGATGTTACTAATGCTTCAAGAACACTTTTAATGAATATCAATACTCTCAAATGGGATGAAGAGTTACTAAAAATATTTGATATACCAAAAAATATATTGCCTGAAATTAAAGCTTCATCTGAAATATATGGAACTTCAAGTGGATTATTAGAAGGTGTTCCTGTTTCAGGAGATTTGGGGGATCAACAAGCTGCTTTATTTGGTCAGTTATGTTTTGAAAAGGGTGATGTGAAAAATACTTATGGTACTGGCTGTTTTATGCTTTTAAATACTGGTGAAAAACCTGTTTTTAGTAATAATGGATTACTTACGACTGTTGGCTATAAATTAAAAAATGAAAAAGCTGTTTATTGTCTTGAAGGATCTGTTGCAATTGCAGGAGCTTTAGTTCAATGGCTTAGAGATAATCTTGGTATAATAAAAAAATCTTCAGATATTGAAAAATTAGCGAATAAAGTTGAAAATAATGGTGGCATTTATTTTGTTCCTGCTTTTTCTGGATTGTTTGCTCCATATTGGAGAGATGATGCAAGAGGTACTATTGTTGGAATGACGAGATATGTAAATAAAAATCATATAGCCCGTGCTTCTCTTGAAGCGACGGCTTATCAAACCAAAGATGTTTTAAATGCTATGGAAAATGAATCTAAAATTAAAATAAAAACATTAAAAGTTGATGGTGGAATGGTTGTAAATGATTTATTAATGCAATTTCAATCTGATATTTTAAATGTTCCAGTAATAAAGCCAAAAGTTTCAGAAACAACAGCTCTTGGTGCAGCTTATGCTGCAGGATTAGCTGTTAATTTTTGGAATGGAAAAGAAGAACTTAAAAAAAATTGGAATAAGGATAAAGAGTGGAATCCAAATATGATTGATGAGGATAGAAAAAATTTTTATCTCAATTGGAAAAAGGCTGTTGATAAAAGTATGAATTGGATAGATTAAAAAAAGAGTGCTTAAGCACTCTTTTTTTGTAAATATCTTTCTAAAGCATCAATAGCTTTTTTGTAGTATTTTGTTTCTTGATTTTCTCTTAATAAATTAATTGCTTTTTCAACAGGCCAAGGTTCTTTGTAAGAACGTTTAGTTGTTAAAGCATCATAAATATCAGCTATAGCTAATATCTTCCCTATTTCAGATAATTCTTCTTCTTTTTTTCCATAAGGATATCCGGAACCATCTAATTTTTCATGATGTTCAAGCGGTCCACAAAGAATTTTATCATTTATAAATTCAACTTCTGACAATATATCTGCACCCATAATAGTATGTGATTTTATTATTTCAAATTCTTGAGAAGTTAATTTTCCTTTTTTATTTAAAATTTCATCAGGTATACCAATTTTGCCTATATCATGTACAAGACCAGCAATTTCTATCGATTCAATAAAATCATCAGAATGTCCCATTTCTTTTGCTATTGCAACACCATACCCAGTTACATTTTGTGAATGAAGATGAGTATAATTATCCCTAAGGTCAATAGCAGTTGCAAAAGACAATATTATTGATTTTGTTGTATCTGAAATTTCTTTATATAATCTTGAATTTAGAAGTTTATTTGATATTATTTTTGAAAATACTTCAATTATATTTTTATCTTCTTCTGTAAATCCATTTTCTTTATTTACTGATTCTAAAACACCTATAATTTCATCGTGAAATATTATTGGTGTTCCAATTATATTTTTAGTAGTAAAACCACTTTTTTTATCTGTTTTTTTAAAATGGAAGGGTAATTCTTCAGTATTATTTGCTACAAAAGTTTTTTCATTTTTAAAAATGTATCCTGCAACAGAATTATCAATTGGAACATCTATTGTTTCTATTTTTCCACTTGCACCACCAGAAGTTATAAAAAAGTTCAATACTTTTTTTTCTTTGTTGTATAAAAGTATAGAAGAACCTTCACTTCCAAGTAAGTTACATAAACTTTCTTCAATTTTTTTTAATAAGTTTTCAAGTTTATACTGTTTATTTAAAATTTTTATTATATTAAAAAATTTTGAAATATCAATTTTTATATTACGGATATCGTTTAAATCACTATTTTTTAACATTACTTTGAGTGACTTTTTTTCAAAGTCACTCAAAGAAGTATTATTTTCAATAAATAAAATTAAATTTTTATTATTGATAGTTAATTTTTCAAAATTTTTGGATTGAATACCTATTATTTTATTGTTTATTTTTATACCAATTATTTTAGGATATATAATTCTTATTTTTTCAAAAATGGTCATTATTTCACCACCTTAAAATGGACTATTTTCAAATAATACAGAATATACTATTTTTCCTTGTTCTGCATCGTAGCTATATATCAAGTTAACTCCATTTGTACCCATAATAGGATAAAATGCTGCAATTTTTAAATAAGTATCGCTATCCAATAATGAAGTTACATTTTTATTCATATATTCTCCAGAAATAGTTAAGTTAGGTAATGATTCCATTGCATTTTGTATATTTATTGCTAATGAACCACTCAAAACATCATATGATTCATTGAAAAATTTTTTGTATGAAATTTCAGATTTCATTAAATCTCCGAAAATCATATTGGCATTTCCTATTATACCAAGACCATATGGATTATTTGGAACTGTTAACTTGTTATTATTTTTTAAATATTCATAATTAGAATCAATAAATTGAGGTGTAAAGTTATCTCCTGAATAACTTAAACCAGCTGTAAGTTGTAAAAATGGAGGCAAATCAAAGAATATCCCTGCTAATCCACCATATCCTAATCCTTTATCAGTCATTAATCCATCGACTTCAATACCAGTTTTAAAGTTAAATATATTTCTGTAAAAAGCTAATGCAACAGCATGATTAAAATGAGCACTTGTATCATTTTGTTCATAAATATAATTTAAATCTAATTTATTTCCAGAAATATCTGATTTAAGATTTGCTATATACATAGACGATGATTGAGAAACATCAAATGGATATAATTTTTTAATTTCATAAGGAATATGTATAAATGTTTCTATTCCTCCCATTCTAAAACCAACATCAAAAATATTTGAATAAGGAATATAGTATCTATTTACTAACATTCCCATAGCCATAGTGTATAATGAAGATTTTCCATAGTTAAAATAAATCGTTCCAAAATCCATTCCAAGCCTAGTTAAGGTTATTGCACTTAAAATATTGTCACTTAAAATTTCTGAAGGTGCACCAAAATAAAGAGTTCCCCCAAGTTCTTTTTGATATGCAGAAAAACCGATACCCAGACTTAAACCGCCAAAAGTAAATTCAGGTGAGAATGAATATACAAAATAATTAATTCCATCTTTTTGTATTGTACCAAATTGAACATTATTTACTTTTGTTTCAGTTTGAGGTGTTGTTTCTTTGTTTTCTTTAGGTTGTTCTTTATTTTCTTTAGGTGGTGTAGTTTGTTCAGGTTTTTTTTCAATTTGTTTAATAAATTTTTCTTCAGGAATATCTACTTTATCAAATGAATTTTTTCCTGTAATTGGATCAGCAATAAACATGTTATTTGGATTTATATTCCATGATTTATTTTGAGCTGCTACTTGAACAACACCATCATAAACTCTTACTACACATTTTTCACCACTTTCAAATGAAAATCTTGTACCTCTAACACCTGCGGCTACATCTTGATTATCTGTTATTATAAACTTTGAACCAGGTAGTAATTTTTTGTTTATTGAGTTGTATGTTACACCTTTCTTCAACTTATATCTAAAATCAATTTTTTTATCTACTTCTCTTAAAACACTAAATAGCATTTGTGTGTTTTCGGAAATATCTATATTTATCTCATTTGGACCCGAAAGTTTTAAATAACCTTTTTCAGCTACTAAAACTTCATCACCTTCTGTTAATTCAATATTTGGATTTAATGGATTCCATACATCATTTCCTTTTTCCTTATAAAGATTTGGGCCAGATAGTTTTACAACTTTTAAAGATATTTTGTTCCCTTTCAAAACATTATTAGTAATATTTATTTTTTGTGATGTGGATTCTCCAGTATCTGTTGTAAAAGTTATTGTTGCCTCAGTTGGAGTAAATGGAGCAAGATAAATTAAATTAGCTTTTCCATCTTTTACAGGTTCACCATCAAATATAATATCTGGATTATTAAAACCGCCAAAATCAACATCAGCAAATATGGTTTGTGCATCAGTATTAATTGTTATACTTGCACTACTTCCAATTTGAATTGTTGTTGAATCTAGTGAGATATTCATGTAAGAAAAACTAAAAATGGACAATGACAGTAAAAATATAAAACCTAGAAACTTTTTCATAGTTTCACCTCCGAAGTTATTATTATTAAAAGTGTTATTAAGTAACTCCAATAAAGAGAAAAAAGTACTTCTTCTAAACTTTTGTTAGTACTTTTTTTATAATGTTTATAGTAAATATAAGAATATACAGGAACACTTGAAAGTATTAAAAATGGATTTAACATAAAAGGAATTGAAAATCTTAATATGTATCCAAGTTTATCTTTAGTATATTTAGTAATATCATTGAATATAAAACTTGATAATATGCCTATAAAATAAGCATTGAATAATCCTAAAGAAATTATTAAAGCATATTTTTGAGGAAAAAAGAAGCTTTGGGGTTTAAAAAAATATGAAATTATCATTAATGATGTTAAATGAAGTATTTGATCGAAAAGATAATAATGTGATCCTTTAAAAAATTTTTTGTTTTTATACTTAAATTTAAAAGTATCAATCAAAAGATGTATACCTGTTAGAGATAAAATTAATATGTGGTTTGTTATATTTTTTGGAAAAATAATTATTAACATTGAAAGATAAATTAAAGATACATGAAGTAATAATACTGATATTTTTGAATTTTTATATCGAGCTATAAAATTTGTTTGCAAAAAATAATCTCCAATAAAATGTGACAATAAAAAGTAAAAAAAATAATTCATGAAATCACCTCACTTAGTGTATCAACTAAAATTGGGTTAAAAAGTATACCAGAATTTTCTTTTAATTTTTTTAAGGCATCTTGTTTAGAATATTTTTTTCTATAAGCTCTGTTTTCTGTCATTGCTACATAAGTATCACAAATTCCAATTATTTGAGCTAAAAGTGGTATTTTATCTTCTTTTAATCCATTTGGATAACCTGAACCATTCCATCTTTCATGATGATAAAGTATTATTTTTTTTAATTTATTTGGTAAAGATTGCATTTTTTCAGCAAGTTGATATCCAAATTCAACATGTTTTTTTACGGTTTCATACTCTTCAGTGGATAATTTGTTTGAATTTGTAAAAAGTGCATTTGGTAATCCGATCATTCCTATATCGTATATATATGAAGAAAGTTCTAAAATCCATTTGTCAGATGAATTTAAATTGAGTTTATCTGCCATTTTAAGAACATATTCTTTTATTCTAAGATGTTCTTCTGGAGATTTTTTTATACGAGAATTTTGTGCTTTTAATAAAGCTTTTAGAGTTCCAAGAAGCATGAATTTTAATTTGTTTTCTCTTAAACTTACTTCCATTATTGAAGCTATGATTTCATTCAACATTATTGATAAAAACATATCTTTTATAGAAATATTTTCGCTTTTTTTATTAATTATTGAAATTACACCATACATATCTCCATTTTCTTCAAAGATTGGAAAGTAAATTATATTATTTATTTTATTTTTTAAAACACCATGTGCAAAAAGAGGGTGTTTTTTTGGATTATTTAATGAAATTATTGTTTTCTTTTTTAAGGCTAATCCAGAAACACTATTATCTATAGAAATTTTTACATTTTTATTTGTTGGTTTTATTCCTATAAAATGCTTTAAAGATAAATAATTTTCTTTTGATTTCAACAAAAAAAATGCACCATTAAAGTCTAAAATTTTACAAAGTTTTTTCATAATTAATTGTACAGTTTCTTCAATATTTACCTTTGGGGAAATAGAATTTGTTATTTCTGATAACTTGTTTAAATCTTCATTTGAAATTAAAGCTTCATTTAAATGCTTTTTTATTAATTCATCTAAAACTAATATATGTTGTGAATAATCTTTTGGTATCTTATAAAAAGATATAAAGTTATTATTTTCATATTCAAAATATCCAATCATTTCCTCTTTTTTACAATTTATTTTATTGGAGTTATTAAATTTATTTATTTTATATTCAATACAAAAATTATTTTCATTCATTGTTTTAATAAAGTCAATTATTTCTGATATCATTTATAATCGCCCCTTTAAAGCATATATTTTTAATGGTTTTGATTTTCCTTTTACACTAAACTCTCCTCTGTACTCAAATTCAAAACCTTTTGCATTTTTAAAAATGCTTTCTGTAACTAAAATTTCATCTTTTGTTTTTCTTGTTAAACTTTCAACTCTTGATGCAGTATTTACTGTGTCTCCTATTGCTGTATAATCCATTCTAAATGGTGCACCAAGATTACCTATAATTGCATTTCCATAGTGAATTCCAATTCCATTTTTTAGTTCAAATGGTAGGTCTAATTCTTCATTTAATTTCTTTAATCTTTTTTTCATATCTATTGCACAATTTAATGCTCTTTCTATTTCATCACCATATTTTACAGGAGCACCAAAGATACTCATAATAGCATCTCCTATAAATTTATCTATTGTTCCATTATAATCATTTCTTATTACTTCTGATAATGCGGTTAAATATTTATTTAAAAATGCCAAAACTTCATCTGCATTTAATTTTTCTGATTTTTCAGTAAACCCTTGAATGTCTGAAAATAATACTACTACATCAGTAACTTCTCCACCAAGATTCAAAGATTTATTTTTTATTAAATTATTTACAACTGTATCTGGAACATATTTTGATAAAAAGCCTTTTAGTTTTCTTCTTTCTTTATATTCTGATATAAAAGATAAAATAGATTCTATTGTTATTAAAACTATATTTGCAAAAAATATATAAAATGTATCTATCCAAATTTTATTTATAAAGGAATAATAAGATATTATTATGAATACAATTGGAACTAAAAAAGCAAAAATTTTATTTATTGATTTTTTAAATGAAAGCATTATTAATGATAAAATTAGTGTAAATATTAATATAAAAATTCTCCACAGTGGGTTTAATCTTTTTAAATAATCATGGTTTATTAAGTTTTGTATTGTATTTGCATGAATAAATACTCCAGCTTCATTATTATTAAATGGTGTTGGCCTTAAATCATATAGTCCAACAGATGATGTAGTATAACCAAAAAGCACGATTTTATTTTTAAAGGTTTCTTTTGGAAAATTATTGTTTAGTATGTCTATAAATGAAATTTTTTTAAAAATTTTATTTCCTATACCATAAAAGTAAATTTGAAATATTCCATTTTCATCAACAGGAATAGTTTCTTTTCCCATTTCTATTGTTAATGTTTTTAAATTTATATTTATTTTTTTGTTTTTAATGTATTTATTAAATATCATTAAATCCATATTTGGTAAAAAAACATCACCATAATTATTTTCTTCAGCCCATTGTTCTTTGAAAAATAAAGGTATGTTTCTAAATATACCATCACTGTCAGGATTTCCAACAGTAAAAACACACGTAGGAACTATTTGTGAATATTCTGGTATTGATGGAACAAACTTATAATTTGTTTTTGGAAGTAAGTTATTTCTGTATGTAGGATTTTTAATACCTAAAGAATAATTTAAATAATAAAGATTTGTATTTAAATATTTTTTAAAGTCATCAAAAGCTTTTTCATATGAATTTTTACTTAAATTGTAACTTCCTATAACAACATTTGGATATTTTCTTAAAATTGAAGCAAAATATAAATCATTTTTTTTATTGCTTTCATCATTACTTGTGAACGAAATATCAAAACCTATTACTTTTGCCCCATCTAAAAAAATATTTTGAACCGCTTTTCCAAAAAAACGTCTTTGCCAAGGCCAACCATCTTTATACTTTCCAAATTCCATATGATTTATTGATTTTTCATCAATAGCAGCAATTACAATATTTGAAGGAATAGTTTTTTCCCCTCTGATTTTGTATCTTATATCAAGTGATTTTAATTCAAATATTTCTAACCACTCAAATCTTGTAATGTTAAAAATTACAAACAAAAAGATTAATAAAAAGAAAATAATATATTTGGTTTTCATAATAAAATTATAACACATTTTATAAAAAATGAGAACATAGCATTAATTAATATCAATTAATGCTAACTGTTATTAAAAAAAAACAACAAATAGGTTTTTATATTGTATAATATATATATAGAAATGAATTTTATGAGGTGAAAAATGAAAAAAATATTTATTACAGGAATAACAGGTTCTATTGGTATACAAACGTTAGACGTTGTGAGAACATTGAAAAATTTTGAAATAGTTGGTGGTTCTATATATTCAAATTGGGAAAAGTTAAAAAAAATTATTGATGAATTTCATTTGAAATATGTGGCTGTAGTAAAAGATGGTGAATTTCCAAAAGAATATAATGGTTGTAAGGTATTAGTAGGAAAAAGATCTGTAGAAAGAGCAATAGAATTATCTTCTCCAGATATAACAATTGTTGCTACTTCAGGAGCTTCTGGAATAAAGCATACAATTCAAGCAATAAAATCTTCTAAAAGAATAGGTCTTGCAAATAAAGAAAGTATAGTTTGTGGAGGAAATCTTGTTTTAGATTTAGCAAAAAAATTTAATACAGAAATAATTCCAGTAGATAGTGAGCATAGCGCCATTTATCAATTGTTATTAGGCGAAAAAGAAGTAGAAAAAATAATATTGACGGCTTCTGGAGGTGCACTTAGAGATTATCCTGTTGAAAAATTAAAAGCAGTAAAACCTAGTGAAGTTTTAAAACATCCAAATTGGAATATGGGTAAAAGAATAACCGTTGATTCCGCTACAATGCTAAATAAAGGTTTAGAAATAATAGAAGCTTATTATTTATTTAAAACAAAAAATATAGAAGCTTTTATAAACAGAAACAGTCATATACATTCTATGGTTAAATTCAAAGATGGTGTAATAAAAATGCATTTTGGTACTCCAACAATGAAAATACCAATTGCTTATTCTTTAACTTATCCAGAAAGAATTTATAAATTTGATATTCCAAATTTATTCGATGAAAAAATAGAGTTTGAAAAGATAGATTTTCAGAGATATACTTTAATTAAAACAGCTTATGAAATATTAGGAAATCAAAAACTTCATATTGCTTATAATGCAGCAGATGAAGTTTTTGTAGAGTTATTTTTGAATGAAAAAATATCTTTTTTAGAAATTAATAAAGGAATAAGTGAAACCTTAAGTAAAATTGAAAAAGAAAATATAAAAATATCCTCTTTTGAAGATGTTTTTAAGATCGATGAATTATCAAGAAATATAGCCAAAGAATTAGGAGGTAATTATTAGTGTCATTAATTATATTTTTTCTCATATTAACTTTTATAGTTGTTGTACATGAATTTGGTCACTTTTTGTTTTCAAGATTATTTGGAGTTAAGGTTGAAGAATTTGCCGTTGGTTTTGGACCAGCGTTTTTTAAAATAAAAGGTAAGAAAACTACATTTAGATTTAATGTATTTCCACTAGGAGGATATGTTAGGCTTGCGGGTGAAGATGAATTAAGTGAGGATAAAGTTTCAGACGATCCAGAACTTTTAATAAATAAAAAACCATGGCAAAAATTTTTAATTGCTCTTGCTGGTCCAGCCTTTTCAATATTGTTGGGGTATTTTTTGTATGCATATATAGGTAGTTTTTATGGTTTTAATATTACTAAAATTCAAGCTGTTTCAAAAGATATGCCGGCTTATTCTGCTGGAATAGAAAGTGGAGATAAAATATTAAAAGTAAATGGTAAATATGCTTTTGATCCTATGGTTTTAAATCTTTCTTTAAAATCAGGAAAAAGTGTTTCTGTTGAACTTTTGAAAAAAAATGGATTACTTAAAAAAGTAAATGTAACCCCAAAACTTTCACAAGAACAAAATTCTATTATATTAAATAAATTTAAAGGGAATATTGGTAATGAATTAAAGGGATTAAATGGTAGTTTAGAATATTCAAAGGTTCTAAAAAGAATGGAAATTGGAGATCCTATTGAATTAAAAACAGAAGATGGTATATTAAAAGGTTTCTTGGAAAATAGTACAATTTCTCCGAGAAGATATATGATAGGTATTGCGTATGCTTATGCTAGTAATATTATTTCAAAAGATACAACTCCATTTTTAAAAGGGGATAAGATTATAAGCATAGATGATAAACCAATAAATTTACCTTATGATATGAATAGCACTTTATTATCAAGGTTATATGATTCTATGGCAGAATTAAATTTAGAAAAAAATGATATTGAAATTTCTTTTGAAAAAAACAAAATAACAAAAGTTTTAATGCATAAAGATTTTATAAATATTAAAGTTATTAGAAATAATAAAGAATTTACTTTTAGTATTGATAAAAACAAATTGGAAAGTTTAACTAAACAAGGAGCAATAGTTATTCAAAAAAATATATATAAATTGAAACCTAGTGAATCTATTTCTGCCTCTATACAATGGACAAATACATTATTGAATACTATGATTGATTTTGTTGTTAGACTTTTTAGTGGAAAAGAAAATGTAAAGCAATTAACTAGTATAGTTGGAGTTGGAGTTATGGTTGATGAAGCCAGAAAAGAAGGAATACAACAACTCTTAAGCTTAATTGCCTTAATTACATTAAATTTAGGAATTATAAATTTATTGCCTTTACCTGCTTTAGATGGTGGAAGAATAGTTTTTTCATTGATTGAAATGATTACAAGAAAAAAAATAAATCCAAAGATTGAAGCAATAATTCATACGGTAGGATTTTTTATTTTATTTGCTTTTGGAATTTATATAATATTCCAAGATATCTTTAGATTTTTTTAAGGAGAGAATAAATATGTATTCAAGAAAAGAAGTTAAAGTTGGTAATGTTTATATTGGAGGAAATCATCCAATAAGTATTCAAAGTATGACAAATACTAATACGGCTGATGTAGAAAAAACAGTAAAACAAATAATTAATTTAAGTAATGCTGGAGCAGAATTAGTAAGAGTATCAGTTAGAACATTAGAAGATATTAATCCCTTAAAAGAAATTTTAAAAAATACTAATATACCCTTAATAGCTGATATTCATTTTGATTATAGAGTTGCAATTGAATCAATAAAAGCAGGAATTTCAAAAATAAGATTGAATCCAGGTAATATAGGATCTAAAGAAAAAGTAAAAGAAGTTGTAAAGGTTGCAAAAGAATATAAAATCCCTATAAGAGTTGGTGCAAATTCTGGGTCAATAGATAAAAATTTCATTAAATTAGATAGATGGAAGGCAATTGCCGAGAGTGCACTTGAAGAAGTTAAATTATTAGAAAATGAAGAGTTCAATGATATAGTTATTTCTTTGAAATCTTCTGATGCAAGGGAAACTTATTTGGCAAATAAATATGTAAAAGAAAAAGTAGATTATCCATTACATGTTGGTATAACAGAGGCAGGTGTTTATGAAGATTCTTTAATTTTATCTTCTGCTGGTATTGGATCTATGCTTTTAAATAATATTGGAGATACTATAAGAATTTCTATGGCTGGTGATCCAATAAAAGAAGTAATTGCAGCAAAGAAGTTATTAACTTTATTGGGATTAAAAAAAGGTATAAGAGTTATAGCTTGCCCAACTTGTGCAAGGACAGAGTACAATGTTGAAGAAACTGCACTTTATATTAAGTCTATTGTTGAAGATTTTGAAGTAAAAAAAGATTATACAATAGCAGTTATGGGATGCGTTGTTAATGGACCTGGAGAAGCTTCTCATGCTGATTTAGCAATTGCAGGATCTAAAAATAAATTAGCTTTATATAAAAAAGGAAAGTTATTAAATATGGTAAATAAAGAAAATATTAAGGAAGAAATATTAAAAATAATAAAAGAAAGTTTTGGTGATTAAATTGTTTATTAATCCTATGGGAGATAATAACAAACCAAATAATAGTAAAAAATCAAAAAAAATCAAAAAAAAAGGTACCAAAAGCATTCATAAAACTGCTGAAAATTCAGGTTTTTTTGATATATTAACAAATACTGAATATGAAATATCAGAAAAAGAATTAAAAAAATTAGTAGATAGTATTTTAGATTTAGGAAATAGATTTGTTCGATCTCCCACACAAAGAAATTTAAAAGAGTATAAGAGATCAATAAAAGAGTATTTAAAGAAAATAGAAAAAAGTATATATAAGGTAAGAGAAGGATTAAATCTTGATGATGATATCCCAAGATTACACATTATTGCAGAAGTTGTTGATCAAAAAATTCAAAGTATAACTGATGCAATTATGAATAAAGAAAAAGATACTCTTTTTTATGCATCAAAGGTAGAAGAAATAAATGGATTATTATTAGATCTCTATAGGTAGGTTTTTATATGAAAATATTAAATTTAAATAATTATAAAGGAACCTCATTATGTATTGTTTCTGATTTTAATGAACTTAACAGAATTTTTGTTATGGAATCTTTGAATAATGTTAAAAACTTTAATAAACTTGATTTATTAGATATTAAACCCAAAAATGGGAATATAAAAATTTCTCAAATAAGAGAATTACAAGAATTTTTGTCTTATAAACCAAATTATTCAGATAAAAAAATAGTTATTATAAATAATATACATAGCATGAAGCTAGAATCTGCAAATGCTATGCTAAAAATAATTGAAGAACCTCCTAATTATGCAATTGTTATAGGAACGACAAATAATTGGAATAATGTTATAAATACAATTAAAAGTAGAATGCTTAAGGTTAATGTAAGCATTTCAAGTGATTTATATGAACAACTGAAAAATAAATTTAAAGATAATATTAGATATGTTAAACTTTTTATTAAATATGATTATGGAATAGCTAATTATATTTTATCTAACACAAAAGAAGAAGTAAATGATATAATAGAAAATTATATTATAGATGAAAAAGATTTTGAATTTTATTTAAAAACTCTTACTTTTGAAAATAATGAAAAAAATAATATGATAAAAACATTTGCATATTTTAAAATTTTAAAATATTTATTCAATTTAAAAGAAATAGATTTTATTGATAAATTAGATGAAATAAATTCAATAAAAAATGATGTAGAAAAATTGTCCTTTTTAAAGAATATATCAAAATTATCCAGTATTTTAATAAGAGATACACTTGTTTCAAAAATGACTTCAAAATGGAAGTATATGTGGAATTTAAATTTAATAGAATTTTTAGGTATTGAAAACTATAAATTTGATGTTTCTTGTGCTTTAGATACGTTAACTTATTTTAATGGTATAATAAATAGTAGAGTGTCTAATTACAATTTTAATATGGAAATTTACACGCATTTTATACGTTTAAGACAAATATATAAAAAATAGGAGGAAAATATGATAGATCTTACTGCAGAGGTTTATGGAGTTGAGCTTTCACATTTAGAAAAAATATATTATTTTTCATATATGGGTGATGAAACTTTAAATGTTGGGGATATGGTAATAATAAATAGTGATATGGGAGAAGATTTTGGAAAAATAGTTTTGGGTCCTAAAAGTATGTCATTTGAAAATATTGGATATGAACCTAATTCAATAATAAGAAAAGTTAATGATGAAGATATGGAAGTATTAAAAAATAACGAAAATGATGCAAAAGAAGTAACTGAATTTACAAAAATTAAAGCAAAAGAATTAAAATTAAAAATGAGAGTTTTATATTCAAGGTATAACTTAAATAGAACAAAGCTTGTAATATATTTTGGTGCTGATGCAAGAGTTGATTTTAGAGATTTAGTAAAGGAATTAGCCAAAGAGTATAGGTTAAGAATCGAATTAAGACAAATAGGAATTAGAGATGAAGTAAAAATTAAAGGTTCTTTGGGTTTGTGTGGACAAATTGCTTGTTGTGCAAGATATAAAAGAGAGTTTGATTCAATAAAAATGGAACTTGCAAAAACACAACAAATGATGATAAATACAGCTAAAATATCTGGAAGATGTGGTAAATTATTATGTTGTTTGAAGTATGAAAATGACTTTTATGAAGAAATATTAAAAGATGTTCCATATGAAAATACAACCATAGAATATGAAGGGAAACCTGCAAGAGTAGTTACTGTTAATGTTTTTTTGAAAGAAGTTACTTTACAATTAATAAAAGATAATCAACCAATTTTATTAAAAATACCTTTTGAATATTTTAAATCAATCAATAAAAATGATAAAGACTAATGGAGGTGTAATATGAAAAAAAGTATTTCAGAGTTAAAAAAATTATCAAAAATTTGTAGAGGAGATATTTTGAAGATGACATATGTATCAAAATCAGGTCATCCTGGTGGATCAATGTCTTCAATAGATATTTATTTATCCGTATTTAATAGAGCAAATATGAATCCCGAAAAACCATTTGATGTTAATAGAGATAAAACAATAATAAGTCATGGCCACACTTCTCCTGGTGTTTATGCAGCACTTGGAAGATTAGGATTTTTTAATATAGAAGAAGCTTTAGCTGGTTTTAGACATCCAGGAAGTATTTTTGAAGGACATGTTACAAGAGGTATACCTGGTATAGAATGGTCTACTGGTAATCTTGGTCAAGGATTATCTGCTGGAGTTGGTATGGCACTTGCAGCAAAAAAATTAAATAATAATTCAAGAGTTTATGTGCTTTCTAGTGATGGTGAAAGTCCAAAAGGTCAAATAGCAGAAGCAAGAAGAACTGCAAAAAAAGAAAATTTAAATAATTTAACGGTTATAGTTGATTACAATGATATTCAAATTTCTGGTAGAGCAAGAGATGTTTTATATGTTGATATAGCAAGTGAATATAAATCTGCTGGCTGGAATATAATTGAAATAGATGGTCATAACTTTGAACAAATAAATGCAGCACTTGAAAGTGCTGAAAATTATAAATTGGGACCAACAGCTATTATTGCAAAAACAATAATAGGTAAAGATGTTTCATTTATGGAAAACAGACACGAGTATCATGGTTCACCATTAAATGAAACTGAATTAGAAAAAGCATTAAAAGAATTAAATGTAGAAAACGATGTAAAAAAATACATTGAAATGAGAAATAAACTTACTCTTGAAAGAGATTCTCATAATTATAATAATGTAAAACTTGATGTAAATACTGGAAAACCAATTATGTATACAAGAGAAACTACTACTGATAATAGATCTGCTTGGGGAAATGCTGTTGCTGATTTAGCAGTTTTAAATAAAGATAAGTTCCCTGTTGTCACAATTGATTGTGATTTGAAGCCATCTGTTAAACTTGCAAAATTTGAAAAAGTAAATCCAGAAGGTTATGTACAAATTGGAATTCAAGAACATAATGCAGCTACTATAGGTGGAGCTATGTCAACTTGTGGAGTATTAACTTTCTTTACTGATTTTGGAGTTTTTGGACTAGATGAAGTTTTCAATCAACAAAGATTAAATGATATAAATCATACAAATTTTAATACAGCGATAACTCATTGTGGTATTGATGTGGGTGAAGATGGAAAAACTCATCATGCAATAAATTATATAGGTTTAGTTAGAAATATGTACAACACTCAATTAATAGTTCCTGCTGATCCTAATCAAACTGATAGGGCAATAAGATATGCCGCTTCTCATGAAGGAAATGTTATTACTGCAATGGGAAGATCTAAAATACCAGTTATTTTAAATGAAAATGGTGAAATATTCTTTAATGAAAATTATGAATTTGAATATGGTAAAGCAGATATATTTAGGAAAGGAAAAGGTTTGACTATATTTACATATGGAAGTTTTGCTAATATGGCTGTAAATGCTGCAGATGAATTAAAAAAAGAAGGTATAAATATTTCTGTTGTTAACTTATCAACACCATTATCTATAAATGTAGAAGAAATAAAAGAATTTATAGAAGATAATATTGTAATAACTTATGAAGATCATAATGTAAATAGTGGAATTGCTAATGAACTTTCTAAATTAATAGTAGAAAATGGATTAAAAGTTAAAAAAATTATAAATATGGGTGTTAATGAATATGCACCATCAGGATCTATTAAATATTTATTAAAATATTTTGGAATGGATGTAGAGTCTTTAATTAAAAAAATTAAGGAGTTAATGAAGTGAAGGATAACAGTATAAAAATGACGAAAATGGAAGAAAAAAAAATAAATAAAATGATAAAAGAAATGAATTTGCCTGATTCAATAAACAAAACTCTATTATTTGTTTCACTATGTCATACTTCATACGTGTTTGAAAAAGAAAATAAAGGAAGAAAAATTAATTCTAATGAAAGATTAGAATTTCTCGGAGATTCAGTGTTGGAACTCATAATCTCCGAGTTCCTTTATAATAATTATAGCCTTTCAGAGGGAGATATGTCGAAGATAAGAGCTACTGTTGGAAGTGAATTAATCTTAGCTGAAGCTGCATTAGAAATAAATTTAAATAAATATATATTTTTAGGGTTAGGAGAAGATAAACATGGTGGTAGAGAAAAACATTCTATATTATCTGATGCAATGGAATCACATATAGCTTCAATATATCTATCTCTTGGATTTGATTTTACAAAAGATTATGTTTTAAATATATTAAATAAGTATATAAAAAAAGCAATAAAAGGCGAATTATTTTTAGATTATAAAACAAGATTACAAGAAATAACACAAGAAGTTTTTAAAGTATTACCTGAATATAAAATTATGAATTCTGAAGGACCTTCGCATTATAAATACTATAAAATAGCAGTCATAGTAAAAGAAAAAGTTTATGGAATTGGTGAAGGCCATTCAAAAAAAATAGCAGAACAACTTGCAGCAAAAAAAGCTTGTGAAAGGCTTACAAAAAATGAAGAAAATTAAATTAATAAATTTAAAGAAAACAAAATCAATTTCTGTAACTGGAGAATATTGTTATTTAAATTGTAATCATTGTAATAAACATTATTTAAAAGATATGAAAAAAATTAATGATATTGAAGATCTAATAAAAAATGGTTATACTTCTTTTCTAATGAGTGGTGGGATGAATGAAGAAATAAAAGTACCAGCCTATAATTTTTCAAAACAACTTTTAAAAATAAAAGAAAAGTATGGTATAAAGTATAATTTTCATACGGGATTTATAAAAGAAGAAGAAATAGAAAAAATCAAAAATATTGCTGATACAATTTCTTATGACTTAGTAGGAAACAAACAAACAATGATTGATGTGTATAAAATAAATAAGTTTAAAGAAATGTGGGAAACCTTTGAATTATTATTAAAAAATAATTTGAAAGTTAAACCACATATAACTATAGGTTTAAATGGTGGAAAACTTACACATGAAAATGATGCTTTAAAAAAATTAAAAAATTATAAAGATTATATAGATGAAATAATTTTTATTGTTTTTATACCAACAAAAGGAAGTTTTTTTGAAAATAATAATCCACCAGAACTTGACAAAGTAATAGAAATAATAAAAACAACAAAAAAAGAATTTAGTAATCATACCATAACTTTGGGCTGTATGCAGCCTAAAGGATCTTATAGATTAAACTTACAATTAAAAGCTATTGATTATGTCGATAAATTAGTACAACCTGTAAACTCTGTAATAAAAGAATGTATTAAAAGAAACTATGATATAGAATATGGAGATGAATGTTGTGCCTTTTGAACCATCGTATATAAAATTATATAAAAATGGTGAATTACATAAAAGAAGAGATGAATTATATAAAAAATTAACTGAATGCGATTTATGTCCAATTAATTGTAAAGTAAATAGAAAAAATAATATTGGTTTTTGTTTAGCTAATGATAAGATTAAAATATCAGAATATGTTTTATATCCAGGTGAAGAACCACCATTAACAGGAAGTACTGGAGCAGGTGGTGTTTTTTTTAGTGGATGTAATATGAAATGTATTTATTGTCAAAATTTTAAATTTAGTCAAGAAGGAAATGGAAAGTATATATCTGTTAAGAAATTAAAAGAAATATTTTTGGAATTACAAAACGAAAAAAAAGCCTCTAATCTTGATTTAATAACAGCAACGCCATATTTACCATTTATATTTGATGCGTTGATAATGGCTATAGAAGAAGGGTTTAAATTACCTATAGTTTGGAATACATCATCATATGAAAAGCAAGATACTTTAAAATATTTAAAAGATGTTGTAGATATATATTTAGCGGATATAAGATATACATCAAATATTATAGGTAAAAAATATTCAAAAGTAGATAATTATTGGACTAATTCAAAAAAATCTTTAATTGAAATGTACAATCAAATAAGTAACGATTTTATTATTGAAAACAATATCTTAAAAAGAGGAATAATACTTAGAATATTAGTATTACCAAATAATATAAGGCAAGCAAAAGAAGCTTTGAAGTTTATAAAGTATGATTTATCAGAAGATTTACATATAAGCTTAATGGATCAGTATGTACCAGTTTATAAAGCAAGAGAAACAAAAGAGTTATCAAGATTTTTAAAAAGAGAAGAGTATGATGAAGTTGTTGAATTAATGAAAAATTTAGAATTAAAAAATGGATGGATACAACATCATAAATTATTAGGGGATTGAGGTGGGAAATGACAACAGAAGAATTAATAAAAAATATTATTGATCAACTTCAAGAAGGTGTCATTGCAATTGATGAATATGAAAAAATAATATTTATAAATAAATCAGCAAAAGATATTCTTGAATTAGATAACAAAGAAAAAATATTGGGGAAAAATGTAATTGATGTAGTTCCAAATACTAGGCTTCATGATATTTTAAGAACTGGTGAAAGAGAAATAGATAGATTACAAAACTTGGGTAATAAAGTTATTATAACTTCAAGGACGCCTATAAAAAATGATGAAAATGAAGTTATTGCTGCAGTAGCTGTATTTAGAGATGTAACTTCTATACAAAAATTAGCAGAAGAAGTTACAAATTTAAAAGAAATAGAAGCATTGTTAACTTCCATAATTGATTATACTTCAGATGCAATTTCTGTTGCAGATCAAGAAGGAAGAGTAATAATGGTTAACAGAGCTTATACAAAGATAACTGGTTTAACTCCAAGAGAAGTTATAGGAAAACCAGCCACTATTGATATTGCAGAAGGAGAAAGCTTACATATAAGATGTGCTAAAGAAAAAAAACCTTTATTTAATGTTAAATTAAAAGTTGTTGAAGGGAAAAAAGATGTTATTGCAAGTGTTACTCCTATTTTCGTTAAAAATGAATTTAGAGGAAGCGTAGCTGTAATACATGATATATCTGAATTAAAAAGGCTTGGAAATGAGCTTGAAGCAACAAAAAGGATGTTAAAAAAAGAAAAAGCCAAGTATTCTTTTGAAGATATTGTAGCAAAATCTTTAATAATGCAAAATTCAATAAAACAAGCTCAAAAAGCTGCTCAGTCTAAAGTAAATGTTTTATTAGTTGGAGAATATGGTGTTGGAAAAGAAGTTATGGCTCAAGCAATTCATAATTCAAGTAGAAGAAAAGATAATCCTTTTTTAAGAATAAATTTTTCTCTCTTAACAAAAGAAAAACAAATTGATTTGTTATTTGGAGAAAATAGTTATATATATAATGCAGATAAAGGAACTTTATACTTAGAAAATGTTCATTTAGCATCTTTTGAAACTCAAGAAAAATTATTAAAATTATTAAAAGAAAATGAATTTGATTCAAGATATTTTGATATAAAACCTGATGTTAAATTTATATTTTCAACAACTGAAAATTTAAGAACACTAGTAACTCTTGGTAAATTTTCAAGAGAATTATATTATAAAATATCTGTAGTTACAATAAAAATTCCTCCTTTAAGAGAAAGAAAAGAAGATATACCTCTTATGGCAAAACAAAAATTACATTATTTAAATCAAAAATATGGAAGAATTATCTATGATTTTACGGAAGATGCTATAAAAAAACTTATGAACTATAATTGGGGAGGAAATATAAGAGAGTTAGAAAATATAATAGATAGATCATTATTGAATATGGATCCAGAAGATAAAATAGTAACCTCTTCTCATATTCCAGATATTACAGAAAATAATGATAAAACATATGAAAAATTAAAGGATGCTTTGGAAGAGTATGAAAAAAAAATAATAATTGAAACACTTGAAGTTTGTCATGGTAATAAAACAGAAACAGCAAAAAAATTAGGTATTACAGTTAGAAATTTGTATTATAAATTAGATAGATATGGTATAAAATAATGGAGATGATTTAATGAAATTTATCTTTAACCTTCAAAGATTAATGGATTTGAGAAAAAAATTTGAAGAAATGGCAAAAGATGAATTTAAAAAAAAGGTTAAAGAAAGAATTGAAGTTGAAGAACAAATAGAACAAATAGATAAAAAAATAGATGGTTTTGTTAGTTCATTTAATAATGAACTAACCTATTCAGTATCTCCAATGAGATTTAAACAATTAATAGAATATAGAGAATACTTAAAAAAAGAAAGAGTTAAATTAATAAAACTTTATCAAATAAAGTTAAGAGAAGAAGAAAGTGCTCGAGAAGATTATCTTGAAGCAAAAAAAGAAAAAGATATATTAGATAAATTAAAACAAAGAAAATTAGAAAATTATAATTATGAAATGAAGTTATCAGAAATAAAAGAACTCGATGAAATAGCTCAAAAAATGTACGTTCAAAAGAATAAAGAAAAATGATATGAAACTATGTAATTTTTAATAAAAAGGGGGAATAAAAATGAGGTGGGTTACAAGAGCACATGTCCATGTAGATAGAGTTGCTTGTCCTTGGTTAATTAAAAGATTTGTTGATGTTAATGCAGAAATATTTTATGTTGCAAGAGATTTAGTTATGGATATAGCAAAGAAAGAAAATGCTATACCATTTGATGTTAAAGATGTAGAATTAGGTCATAAAGACGGTCATTGTACATTTATTTCAATATTAGATAAATATAATTTAAATGATCCTGCACTTAGAGCCTTAGGTGAAGTAGTAAATGCTGCTGATACTGGAAAAATTGAAAGCAATCCATATGCACCTGGACTTGAAGCAATAGCAAGAGGATTTTCTTTGATGTTTCCAGATGATTATGAAAACCTTGAAAAACAATTTAAAGTATATGATGCATTATATGCTGTATTAAAATTAGAAATGGCTAAAAAAAGTAAATAATATATTTTTATGAATAATAAAAAAATAAATTTAAAAAATTTTTTTGCAATTAATAATAGCATTTTTTCTATGCTCATAATGGTTATGTTAGTTGGAATGGGAGAAAAAATGTCTGAAAGATTTCTACCAATTTATTTATTGGCACTTGGAGGATCTACAGTTTCAATAGCATTTTTAAATGGTATGGACAATCTTTTGAGTGCCCTTTATTCTTTTCCAGGTGGGTATTTAAGTAATAAAATAGGATATAAAAATTCTTTAATAGTTTTTACATTGATAGCTATGATAGGTTATGCTTTAGTTATTATATTTCCAACATGGCAAATAGTTATTTTGGCTGCTTTTTTATTTATATCTTGGACAGCAATATCTTTACCAGCTGTAATGAGCCTTGTTTCAAATGTTGTTCCTAAAAATAAACGTGCTATGGGAGTGTCTATCCATTCGCTTGTAAGACGTATTCCAATGGCTTTAGGACCTATAGTTGGTGGAAGCCTTATGAGTATTTATGGAACAATAAAAGGTATGAGAATAGCTTTTATTATAGCTTTAATTTTTGCCTTTATATCAATAATAATAGTTTATTTTTTTGTTGAAGATAAGCAAAAAAATAAAGAATCAATTAAATTTTTAGATATGCTAAAAAACATTAAAGGTAATTTAAAAATCTTATTGATATCAGATATTTTAATAAGATTTGCAGAACAAATTCCTTATGCATTTGTTGTTGTATGGGTAGTTGAAAATAATGGATTAACTACTATAGACTTTGGTATTTTAACTACAATTGAAATGATAACTTCTGTAATAATATATATTCCAGTTGCATATTTTGCAGATAAAAATAGTAAAAAGCCATTTGTATTAACTACATTTATATTTTTTACATTATTTCCATTAGTATTAATTTTTTCAAAAAGCTTTAAAATACTTATTTTTGCTTTTATTATAAGGGGATTAAAAGAATTTGGAGAGCCTACAAGAAAATCTATGATAATGGATTTTTCACCTGAAGATGAGAAAGCTGGAACTTTTGGAATTTATTATCTTATAAGAGATGTTATTGTTTCAATAGCTGTATTTATGAGTGCTTTTTTATGGAATATTTCTCCAGTAGTTAATTTTTTAGTAGCTTTTTTATTTGGTTTATTAGGAACAATATATTTTGCTATATTTGGAAAAGATTATAAAAATTTAATAAATAATAAATAGCAGCTAGGCTGCTATTTATTAGAAATATAATTCAAATTCTTGTGGTGTTGGTGCATTGTATACATATGCTGCTTCTTCTTTCTTTAATTTTATCCAGTCTTTTATTAATCCTTCTGGAAATACTTTTAAAAGATATTCTTTATCTTTTTCTAAGCCTTCGAGAACTTTTTCAAGATTCAATGGAAAGATCATATCTGATTTTTCTTCAGCAGAATGATATCCTTTATCTACTGGAGATTCCTTCTTATTAATACCATCTACTCCAGCAAGAACCATAGCAGATGCCATATAATAAATATTGGCAGTTGCATCGCCAGTTCTATATTCAATTCTTATGTCTTTACCTTTTAAATATCCAGGTATTCTTATTGCTGCACTTCTACTACCCTTTGCAAAAGTTGCACTTATTGGAGCTTCGTAACCAGGTACCAATCTTCTAAATGAATTTGTACTTGGATTTGTAAAAGCAAGTAATGAACCTGTTAAACTATGATCTAAAAGTCCACAAGTATAATAAAGAGCAGTTTCACTTAATCCATGAAGAGCATCGCCTGTAAATATAGATTCTCCATTTTTTTCTAAGAATTGATGTACGTGCATACCGTTTCCAGGCATTTTATACATTGGTTTTGGCATAAAAGTTACGTATAATCCCATTTCATTTGCTATATTTTTTATTATCCATTTTGCAAGACTAACATTATCTGCTACTTTTAAAAGGCTCATAAAGTTTAATTCTATTTCAAGTTGAGCAAGGCCTACTTCATGATGATGATACTTCACTGGTATATTTGCTTTTTCTAATGTAGAAACAACATTATTTCTAAAAGAAAAATATTTTTCTTTTGGATAGAGTCCATGATATCCTTTTTTTAATCCCATTCTTGGAGAAAGATTATAATTATCTCCTAATCCTTCTTCACTTTCTAATGAATAATAAGAATGATCTTCACTCGTTGAGTATTCTACATTATCGAAAACATACATTTCTAATTCAACGAGCATTTTTGCATCATCTGCAATATTATTATCTTTTAAGTATTTTTGAGTTAATTTTACAATATTTCTTGGATATTGTTCAAAAATATTGCCAGTAAATGGATCTTCAACATTACATAACACATGTAATATATTGAATTCATCTTTTATTTCTAAGAAAGCAGTATCCATATCAGGAATTGCTACCATATCAGATTTGTTTACGTGTGCGAATCCAAAATTTGAAGCATCAAATCCAATTCCTTCATTAAAAATTTTCTTAGAAATATAACCTTTTGGTATTGAGACATGATGAATATTTCCAGAGATATCCAACATCATTAAATCTAAAAAATCAATTTTTGAAATATCTCCATTATATTTCTGTAAGTTCATTTTATTACCCCCAAAATAGTGAATTTTTTCTACAGAGATTCTATCACTAATTATTTTTAATGTCTAATCTATTTAAAGATATTTCAAAGATTTGAGAGCAATTTAATAAGGGATATTGAAAAAAATTTCATATTGTCTAACAATTAATAATTTTATTATCTATTAATCTTGTTTTTCCAAAATATACGGCTAAAGCAATTATAATTTTTTTGTTTTTTACATCAATTAAAGGTTTTAACTCATCTTCTTCTCTAATTTCAATATAATCAATTTTAGCAAGGGGATAATTTTTAAAATTTTTTTCCATCATAGAAATTAATTCTTTAACATTTGTTATTCCATTTTTTATTGATTTTTCTGCAAGAGATAAGGAATTGCTTAAAGATAAAGCTTGTTTTCTTTCTTCTTCGTTTAAATAAATATTTCTTGAACTTTTTGCAAGCCCATCTTTTTCTCTTATTATAGGCATTTCTACGAGTTCAACGTCCATATTTAAATCTCTTACCATTTTTCTTAAAACTCTAAATTGTTGAGCATCTTTTTGACCAAAATAAGCTTTTGTTGGTTTAACTATATTAAAGAGTCTATTTACTATTGTAGTTACGCCTCTAAAGTGTGTAGGTCTGGAAGCACCACAAAGCCCTTTACTTAAAATAGTTTCTTCAACATATGTTGAATAATTTTCTGGATACATTTCATTTGGTTCTGGATTGAAAATATAGTCTACGTTGTATGGTTTTAATAAATTTTCATCTCTTTCTAAATCTCTTGGATATTTATCTAAGTCTTCATTAGGTGAAAATTGAGTAGGATTTACAAAGATACTAACTATTACTATATCATTTTCACTTCTTGCTTTTTCTACAAGAGATAAATGACCTTCATGTAAGTATCCCATAGTTGGAACAAAACCAATACTTTTTTTATCTAATACTAATTTTTTAGATATTTTCTTCATTTCTGAAATATTTTTTATAACTTTCATAAAATACCACCTCTTTATTATTTATAATATTTCAACGCATTAGAAATATTGTTTAATTCTTGATTAATATTTGCAGGATATCCCAAAAAATTATATTTTTTACATAGATTTATAAAATTTAATATAATATTTTTATTTGGAGATATAGGATTATATACATAATCAGTTACAAGAATAAATTTTCCAGAATTTTTTATTTTTAATATATAATTTAAGCGAGATTCTACATATTTTTTTGAATTTTTATTTGTTTTATAATAAAATAAATCTTCAACCCCAAGTCCAGAAATAGTGTTTAAATATTTATTATTATAATCATATTTTAAAATTGATTCTCCGTTTTGAGGAACGATTAAAAAGTTTTTATTTTTTTTTCGTGCATATTCTGCAATTTCAATTACAAATTTAATCATTTCATGAGCAATTTTTTCTGTATTATATCCTTTTTCTGAAAAATAGTAATATCCGTCTATTATATCTAAATACACACCAGAAAATCCTTGAGAAATAATTTTATCTAAATAATTAAATATAATCTTCTTCCAACTTTTATCCCAATATTTAACTTTATAATTTCCAGTCCAACGAGGATTTTCATTATCTATCCAATCAGGAAGATCATCATACCAGGAATTTTTCCAATAATATCTATAATCTTCTGCTTCACCTATACTTAAATAAGCTAATGGTTTTATATTTAGAGTTTTTAAAGTTTTAATTTCAGTATAAGTAAATTTTTTTTCATCACTTCCATCTTTAGAATAATCTATTACTAGAAATTTTGGAGTATAATAATTAGTAATTTTGTTTAAATTAATATCAGTTAATTGATATATAAATGGAACATATAATTTTTTTGAATTAAATGAAAATGTGAAAATAGATAGTGTTATAAAAAATACAAAAAGTGTTTTTGATATTTTTATCACCTCATTTTTTATTTCAATATATTATACTCTAAAAATAACAATTTTTTTGATATTAAAATTTCATCTTAAAGATACTTTTACATAAATTATATACTTTTTTTGATAGAATTGATTGTAAAGAATATGGAGGGTAAATTATTATGACAAAAATATTTAATATTGATTCTTTAAATTTAAATAATGATAAATTAAAAGAAGCAGGATTAGCTTTGAAAAATGGTAAAACTGTAATTTTTCCAACAGAAACTGTTTATGGGCTTGGTGCAAATGGTTTAGATGAAACAGCAATAAAAAAAATTTATAAAGCTAAGGGAAGACCATCTGATAACCCTTTGATATTACATCTTTCAAATGTTGAAGATATAAAAAAATATGCTTATATAAATGAAGAATTATTAAATAAAATAAAAAAAATAACTCCAGGACCAATAACTTTTGTTTTAATAAAAAAAGAAATAGTTCCAGATATAGTCACTGCTAATAGAGAAACTGTTGCTATAAGAATACCGGCTCATCCAATAGCAAGAGAATTAATAAAAAATGCAGGAGTTCCAATTGCAGCTCCAAGTGCAAACATTTCAGGAAAGCCGAGTTTAACAAGATCTAAAGATGTTATTGAAGAGATGAATAATCGAGTTGATTATATTATTACTTCAGATGATCCTGATTTTGGATTGGAATCTACAGTTATAGATTTAACTAAAAAAAATGTAGTTTTATTGAGACCAGGCCCTATATCTCCTGAAAAATTAAAAGATATTTTTGGAAAGATTGAAGTTCCAGATTTTATTTATGGTAAAAAAGAAGCTGATATAGCAATAGCTCCAGGTATGAAATATAGGCATTATTCTCCTGAGAAACCAGTTATTTTGGTAAAAGATTTTTCTAAAGATTTTAAAAATGATATAAAAAATTTTAAGAAACCTGTTTTTTTTATTTTGAAAGAAAATTTAAAATTTATAAAAAATGATGGGTTTGATTATGAAATAATAGACAAAAATTATTTTGAATTTGCAGTGAAATTATTTGCACTTTTAAGAAAGTATGATAAAACACATGATGCTATTATAATTGAAAGTTTAAAAGATGAAGGGATAGGTATTGCTATCATGAATAGATTAAGAAAAGCTGCTTCTAAAATAATATAAAGAGGTGAAATATGGAGCTTTTATTTGATGTTGGAAATACACACACAGTTGTTGGTTATTGTAATAATAATGATTTTAAAATATGGAGAATTGGTACTAAAAACATTGAAAGTGAAGATGAACTATTTTCAAAATTATACAATATTTTTAAGTTTAATAAAATAAATATGGAAGAAATAAAAGATGTAGGTATTTCTTCAGTTGTACCTTCAAAAAATTTTATATTTCAAAATTTTGTTAGAAAATACTTTAATACAGAGTTATGCTTTGTGAATGCTCAAACTAAAGTATTAAAAATACAATATTTAGTTGATTATCCAAATGAGGTTGGGGCTGATAGAATTTCAAATATAATCGCATCAAAAAAAGAATATGGTAACAATGTTATTGCAATAGATTTTGGAACTGCTATAACAATAGATGTTTTAAAAGAAGGAAATTTTATTGGTGGATCAATAATTCCTGGTTTTAAAACTTCTATGCTTGCTTTATTTTCCAATACAGCAAAGTTACCTCAAGTAGAATTAAAAGTTCCAAAATATTCAATAGGTAAAAATACTATTGATAATATACAAATAGGAGTATTAAAGACAACTCTATTTGGAATAGAAAGAATTATTGAAGAAATAAAAAGAGAAACTAATACGGATTATAAGATAGTAACAACCGGTGGAATGGGAAAATCATTAAAAAAATTTTCTAAATCTTTTGAAAATTATGATTCGAACCTTACTTTAAAAGGAATTTTATATTATTTAAAAGAAATAAAAAGAGGTGAAAAATGAATTTTTTACTTGTAAATCCTTGGATTTACGATTCTGCAGCTTATGATTTTTGGTTGAAACCTATAGGGTTATTGTATGTGGGTTCTGTTTTAAAAAAATTAGGACACAATGTTGAATTAATTGATATGCTCGATAGACATGATGAAGAACTCATAAAAATTAAAGAACCTAAAGACAAGAAATATGGAACAGGAAAGTTTTATAATGTTGAAATTGAAAAGCCTGAAATATTAAAAAATATTCCAAGGAAATTTAAACGTTATGGACTTCCAGAAGATTTATTCATAAAAAAATTATTAAAACAAAAAGAACGAGGAATAGATGGAATATTTGTATCTGTTACTTTAACATATTGGTATTATGGAGGATTAAAAACCATTGAAAAAATTAGAGGAATTTTTCCTAATACTCCAATATTTTTAGGAGGAATGTATTCTAATATATATCCTATACACGCAAAAAAGATATTTTCTAAATATAATGTTAAAGTGTGTAATGGAACAGGATTATCTCCAATAAGAAAAGCTTTAAGTACTTATAAAGAGAATGTTCCTGAGTTTAATTGGTTTGAAGAATTGATGCCTGCTTATGAATTGTATACTTCAAAACTTCCTTATGTAGTGATAACTTCATCTATTGGGTGTCCTTATAATTGTTCATATTGTGTTACTCCAAGAATGTGGAAGTATCAATATAAAAGTGTAGATAGTATAGAAAAGATGATAAATAAGATTATTAATGAAAAAAATGTTAAAGATATTGTATTTTTTGATGATGCCTTTTTATTACATAAAGATTTAAAAAAATTATTAAAAATGCTCGCTAAGTATAATGTTAGATATCATCTTCCAAATGGAATACATGCACATAGAGTTAATAAAGAAATAGCTGAATTAATGGCAGCCGCTGATTTTAGAACAATAAAATTGGGTTATGAAACATCAGATCCGGATTTACAAAAAAAATCTGGTGGTAAAGTAACTAATCAAGATCTTATAAATGCTGTAAAGTATTTAACTGATGCAGGAATATCAAATGAAGAAATAGGTGCTTATATAATTTCAAATTTACCTGGACAAAGTGTTAAATCTGTTAAAGATGCGGTTGATTTTTGTATAAATCTTAGAATAATTCCAACTGTTAATGAATTTACACCTATACCTCAAACACCCGATTATGATTCTCTTATTGAAAATGGGATAATACCAGATGAAGTTGATCCATTACTTTTTAATAATACACTAATACCTTATTGGTGGGAAAAGGGAATGAATATAAATGAAGTTTTTGATTTAAAACTTTATTTAAAAAACAAAAAGAAGGTGTTATTTAATGGACAAAGAACTTGATAATATTATTAATGAATTAGAAAAAATAGAAATAAAGTTAGATTTGTTTTATAAAAAAGGAGATTTTGTTTCGTATAATAATGCTTTAGATTTTAGATTTAAATTATTGAAAAAACTTCAAATTTATAATGAAGAAAAAAGAGTAAAAGAAATAATTCAAAAGATTATAAAAAAAGATGAAATAAGAAAAGATGGAATAAAAGAAAAAATGAATAATATAAAAAAACAACAAGTAAACTTACAAACTGGAAAAAGAGCAATAAAAAATGGTTATTATAATATTCAAGAAGGTTTAAGAAGAAAAAAAATAGATAAGAGCGGGTGATGAAATGGCCGAATTAAAAAACTTATCAGAAATTGAATATTTGGTTTCAAATGGCTTGGGTGGGACTTCATCTTCAAGTGCAATACAATTAAATTCAAGAAGACATCATTCAATTCTTTCAATTTCATTAAATCCTCCAGTAGATAGAAGAATATTAGTTTCAAGAATATCAGAAAAAGTATACTGTGATGAAAAAACTTATTTATTGAGTACATTAAAAACAGCTAATGGATTTATTGAGAAAGGGTATGAAAATATTGTATCTTATAATTTTTATGGATATCCTTCATGGAAGTTTAAGGTTGGAAAAAATTTATTAAAAAAAGAGCTTTTAATGTTGAAAAATAGAAATATAGTTTTAATTGTTTATGAAAATGTTTTTGGTGAAGATTTAGATATAGAAATTATACCTTATTTTAATGATAGAGATATTCATTCTAATACTCTTCCGGGACAACTTACTTTAAATAAAACAGTTATGAAAAGTAATTATTTAGAGTTGAAAACAAATTTTTTAAATACGATATTTTTAAAAACAAATGGGACTTTAAAAAATTTTGAACATACATTACACAATGTTTTTTATGATGTTGAAAACAAAAGAGGACTTTTTGCTTATGAAGAAATATATTCAAATGTTAAAATAAATGCTCATATGAAAAAAGGAGATAAGGTTTATATAGTATTTAGTGGAAATGAAAGTATAGAAAATATAAATATTGAATCAGAAATAAAAAAAGAAAAGGAAAGGTTAAATTCATTTAAAATAAATAAAGTTAAAACTATAAATAAACTTCAAATTGCAAGTGATACATTTTTATCTAAAAGAAAAAGTACAGAAAAATTAACGATACTTGCAGGCTATCCATGGTTTACTGATTGGGGAAGAGATACAATGATAGCTATAGAAGGTCTTTTAATAGAAAATAAAAAGTTTAATGAAGCTAAAGAAGTTTTTGAAACATTTTTAATGAATTTAAAAAATGGATTAATTCCAAATGTATTTGATGATTATAGTGGGAAACCAGGTGGTTATAATACAGTTGATGGAACTTTATGGATGTTTTATGCTTTGTATAAATATTATGAAGCTACAAATGATTTAGAATTTATAAAAAAACATTATGATAAATTAATTGAGATAATAAAGTATCATGTTAATGGAACAGATTATAATATACATATGACTGAAGATGGATTAATTTATGCAGGAAATAAGGAAACACAATTAACTTGGATGGATGTTAGAGTAGAAAATTGGACAGTTACACCAAGATATGGAAAAACAGTTGAAATAAATGCACTTTGGTATAATACATTAAAAATTATGGAATTTTTTTCAAGTTTAATTAAAGTAGATTTTGAATATGACTTATTATCAGAAAAAGTAAAAAAAACATTTAACGATACATTTTGGAATGTTGAAAAAAAATGTTTATATGATTGTGTGAATGAATTTGAAAAAGATAGTTCAATAAGACCAAATCAAATTTTTGCTGTTAGTTTACCATTTTCAATTTTAGAAAAAAAGAAAGAAAAATCAATAGTAAATAAGGTTTTTGAAGAATTATATACACCATATGGTTTAAGAACATTGAGTCCAAATGATCCAAGATATATAGGTATTTATACTGGAGATAGATGGACAAGGGATGGATCTTATCATCAAGGAAATGTTTGGCCATGGCTATTAGGACATTTTTATGAAGCATTTTTAAAAATAAATAATTACGATTTAGAATCTAAAACAATAGTAAAAGAATTACTTTATCCAGTTTCAATAAGAATTAACGATGAATGGGGAGGTACAATTCCAGAAATTTTAGAAGGAAATTGGCCACATGAAAAACGTGGATGTTTTTCACAAGCTTGGTCTGTATCAGAAATTTTGAGAATTATGAAAAAAATAGATTTTACTGAATAAAAAATTTAACTTGACAAATAACAAAAAAATGACTATAATTATAGTCATAAGGAGATAAAAATGAATTTGAATAGACTGAAATTTTTTAGCGTTGCAGAAGCAAAAGCAAAATTTTCAAGAGTAATTGAAGAATCAAAAAAAGATAATATTATAATAACTAAAAATGGGAAACCGGAAGTAATTATGATGGACTATAAAAAATTTGTAAAAATGATTGAATTTTTAGATGAAGTAAAAGATTTAACCATGCTTGAAATTGAAGATGTTGAAAAATATAAGGAAATAAAGGAATTTTTTGAAACATTTGATAATTTATAACGGGGGTGTAACTATGGCAGACGTTCTTTTAAAAGATGTAAATAAAATTTATCCAAATGGATTTCATGCAGTTAAAGATGCAAATTTTGAGATAAAAGACAAGGAATTTGTCGTTTTATTAGGACCATCTGGATGTGGAAAAACAACAACATTAAGAATGATTGCAGGACTAGAAGATATTTCAGGTGGAACTGTTAAAATAGCTGAAAAAGTTGTAAATGACATAGAACCAAAAGATAGAGATATAGCAATGGTTTTTCAAAATTATGCACTTTATCCACATATGACAATTTATGATAATATGGCTTTTGGACTAAAATTAAGAAAAACACCAAAGGAAGAAATTGACAAAAGAGTTAAAAATGCAGCTAAAATATTAGATATAGAACATCTTTTAGATAGAAAACCTAAACAACTTTCTGGTGGTCAAAGACAAAGAGTTGCTGTTGGTAGAGCAATTGTTAGAGATCCTAAAGTTTTCTTATTTGATGAACCTTTATCAAACTTAGATGCAAAGTTAAGAGTTCAAATGAGAAGTGAATTAAAAAAATTACATTTAAGATTAAATGCTACAATTGTTTATGTTACACATGATCAAGTTGAAGCTATGACAATGGCAGATAAAATTGTTATAATGAAAGATGGACATATACAACAAATAGGAAATCCATTTGATGTATATCATCATCCAAACAATGTTTTTGTTGCTGGATTTATAGGAACACCTGCAATGAACTTTTTGAATATGAAAGTAACTGAAAAAGATGGAAAAATAATTTTAACAGAAGACAAAATTGTTTTTGAAGTTCCAGATGAATATAAAGAAAATTTAAAAGAATACATTGGAAAAGAAGTTATTTTTGGTATAAGACCTGAAGATATTTATGATCAAAAATATTACAATGGAAATCATACAAATGAAGTTGAAGCAACTATAGAAGTTGCAGAACCTCTTGGTGCTGAAACTTTATTACATATAGTTATATCTGGTCAATCAATTACTGCTAAAGTAGATCCAAAAACAGTTGTAAAATCTGGAGAAAAATTAACTTTTGTTTTTGACTTGGATAAGATGCATGCTTTTGATAAAGAAACACAACAAGCAATATTTTAAATAATAAAAAAAGGAGTGATTTTAAAATCACTCCTTTTTTTTACTTTAATTTAAATAAATATTATTATATTTTATTTAATAATTATGATAAAAATCATTATTGCTTATTTTAACATATAAAAGCAATATTAATTTAATATTTTTTCTGTTATAATTTTATATAAATATATTTATTATTTTAAAATTAAGGAGGTTTTTTTATGATAATTAAAATAACTTTTAAGCCAAAAGATAATGCTACTGTTGATTTACCTGTTCATTATAATAGACCATTACAAGGTATGTTTTACTCATTAATGGATTTTATGGAAGAAAAAACCCCAAGATTATTTACTTTTTCTAGGATTTATCCAGAAGATAATTTTAAAGTAGAAAATAAAAGATTAAAATTTAATGGCAACTTTGTGGTTTATTTTACTTCTCCTATTGAAAAAATAAATAATTCTATCATAAATATTTTAAGTAAAAAGAATATATTTAGAGTAGAAAAAAATTATTTTGAACTTGTGAATTTTAAAATTATTGAAAAAAATATTTCTAACAATCTTTTAATAAAAACATTATCTCCAATAACAACTTATATTTCTGTTAATTTACCTAGTGGTAATAGATACACTCATTATTTTACACCTTATTCTACAGATTTCAAGGTTTTAATAGAAGAAAATTTAAAAAGAAAAGCTGAATTAGTAGGAATAGATACAAAAAATATGGAATTTAATATAGAACCTTATGGAATAACTGAAAAAAATGAAAAAATACTTTTTTATAAAGGTGTTATAGTAAAAGGATGGACTGGGTATTATAAAATAAGTGGCTCAAAAACATTAGTGGATTTTGCATTAAACTCTGGAATAGGAGCTAAAAATTCTCAAGGTTTTGGAATGATTGTTCCAATAGATGAATTTGAAGATGTAACTATCGAAGATGAAGATGAATTTATAATAATAAAATAAAGCATGACAATGTCATGCTTTATTTTATTATTATTGTGAATTATTATAGTAAAAATAAATAATCAAATATAATTGATGAATAAATATCAATTTTACCTATAATTATAATATACTTTAAAAAATTTCTATGATATCATAATTCTATGAAACAAAATATAAAAGGGGGCTAAAAATGAAAAATGCTATATATGCACAATCAGGAGGAGTAACAAGTGTTATAAATGCTTCTGCTTATGGAGTAATTAAAAAATCTTTAGACTCAAATTTAATAAATAAAGTCTTTGTTGGAATTAATGGAATAAACGGTGTTTTAAATAAAGAATTTATTGTTATTGACTCTGCAGATAAAGAAATAAATAATTTAAAGTATACTCCTTCGGCTGCATTTGGTTCTTGTAGAAAAAAATTAACTGACGAAGAAACTATAAAAAAAGTTTTTAAAATATTTGAAGAAAATAATATTGGATATTTTTTTTATAATGGTGGAAATGATTCTATGGATACTGCAAATAAAATAAATGATTATGCCATAAAAACAGGGTATGATTTAAAAGTAATTGGAATTCCTAAAACTATAGATAATGATTTAATAGAAACGGATCATACACCAGGTTTTGGATCTGCTGCAAAATATTTAGCTATTTCTATGCTTGAAGGAAGTTTAGATGTTAAAAGTATGTGTGCAGATTCAACAAAAGTATTTGTCATGGAAACAATGGGTAGACATGCGGGGTGGTTAGCAGCATCAACAGCACTTGCTAATTTAAATAATAATTTTGGACCTCATATAATATTATTACCCGAAGTTCCATTTGACGAAAATAAAATTTTAAATAAAATTGAAAATATTATAAATAAGCATGGATATTGTTCCATAACAGTCTCTGAAGGAATTCAAGATAAAAACGGAAAATTTTTGTCTGATAAGGGGTTTACAGATGCTTTTGGAAATAAACAACTTGGAAATGCTGGGGTTTTAATTTCAGATATTATACACAATAATATGAAATTAAAAGTACATACAGCAATTCCAGATTATCTTCAAAGAAGTGGTAGACATATATCGAGTCTATCTGATGTTAAAGAAGCAATTAATTGTGGTATGATGGCAGTAAAATATGCACTTGATGGTGAAAGTGGTTATATGGTTACAATAAATAGAGTTTCAAATATACCGTATTATGTTGAATATGGAAAAGTAAAGCTTTCGAAAATTGCTAATGGAACAAAGTATATGCCTAAAGATTTTATTTCAGAAGATGGATTATATATAACAGATAAGTTTATTAGATATGCTAAACCTTTAATTGAAGGAGAATATTATCCTATTTATGAAAATGGTATACCAATTTATTCAAAATTCAATATTTAAAAGCCGCTTAAAGCGGCTTTTAATATATTTTATATATAGTTGTTAAAATTTTATTCTCAAATTCTTTTGCTTTTGAATAATGAAATGGAAAGTTATTTTCTATTAAAGTAAATATATATCTATTTCCAGAAGATGCTTGAAGTATTCCTGAAATAGCTGAATCAGAATAAAGAGTTCCTGTTTTCCCCCACACTGTAAAGTTAAATCTGTTTTTCAAAGTGCTATCTTCATATGGAGTTGCTAATATATCATAAAATAAACTATTATACTTGTTTAAAATATACTGTATCAAATCATTTATTAATGATGGACTAAGTAAGTTATACATAGATAAACCACATCCATCTTTCAATATAAAATTTGATGTTTTAAATGTTTTTTCAATTAAATTTTTTTCATATTCAATAGAATCATCAATTTTTCCAGTTCCATTTATAGTTCCTAAATTTCTAAAAAGTTGTTCGGCAATTTGATTATCACTTTTTTCAAGCATTTGTTTTAATATTTTATTTAATGTTGGAGAATAGTGAATATATACAGGCTTTAGTTGATTTGGTACTATATCATATTTTACTTCACCATAAAAATTAATTCCTATTTCTTGTAAATAAGAAGTAGTTAAATATGTAATATAATCTTTTAATTGGAAGTCTGTTTTATATTTAAATGCTTCATGATTTTCTTGCCATATGTTTAATGCTGCAATTTGTGGTTGAGGGTCATCCCACATCCATCCTTTCCCAAATCCGTTTTCTTTATAATAAGAGTAATCAAATATTATATTTCCATAAATTTTTTTTATACTATTATTTGATATGGCAGCATTTAATAAATATTTGTATTTTAAAGGAGTTAAAACTGGATTTCCAAATCCCTTTATGTAAATATTACCTCTGTAGTATGATGTTGGTTTTTCATCAAAGTATACTTTAGTTTTGAATGTATAATATTTATTATAAGATTCAAGAGCACTAAAACAAGTAAATAATTTGGTTATAGAAGCTGGAATAAATAATTTATTGGAATTATAATTTATTATTTTTTCCCCATCTAAGCTTCTCATTTCAAAACCAACAAATCCATTAAAAGTTTTTAGTAAATTCACTATTTTATCAGAATTTATATTAGTCAGATTTTGAGTTTTAATTTGTTTTGAAAAGAATAAATTAATTGTTAAAATAATTATAATGATTAGTATAATTTTCTTCATATTTATCATCCATACATATAAAAATAAGTTTCTAATTTTCCATTTTGTATTTTCTTTCTTTTATTAGATTTCATTTCAAAATATTTATCAAAATTACTATATGTTGTTATAAAATTGTACTTCCAATTTGGAAATATAACTTTTAATTTTTTCATTTTTTTATAAAGAATATCTATTTCATCATTAGTATTTAATCTTTCCCCATAAGGAGGATTAGTTATTATAAATCCATTTTCTAATTCATTTTCTATTTTAGTAAAATCTTTTGTTGTAAAAGTAATATGTTTTTCAAGATTTAATTCATTTAGGTTTGTTTTTGCAACTCGTATAATTTCAGGATCAATATCACTACCTATTATATTAACATCTATATCTGTTCTTATTTTATTTTTATAAAATTCTCTTGTTTTTTCAAATAATTCTTTATTGTGTATTTTTAAATTGTTTATTCCAAACTTTCTTTTTAAACCAGGAGCATAATCCATCGCATACATTAAAGCTTCAATAGGAATTGTTCCAGAACCACAAAATGGGTCATAAAGAGGGTATTTTCTTTTCCAACCAGATAGAATAATTAATCCTGCAGCAAGGGTTTCTTTTATTGGAGCATCACTTATTAATTTTCTATATCCTCTTTTATGAAGAGGTTCTCCTGAAGTATCGAGTGCTACAGTAACTTTATCTTTATATGTATATACTCTTACATTTATATTGTATTTTTTTTCTGTCCAATCATCTAAATTATATGATTTTTTTAAACTTTCATATATAGCTTTTTGAGCAACTGATTGCATTGCTGAAAGTCCATATAACCTTGAATATTTACTACTCATTTTATCTATAGTAATGTTGGTATCTTTATATAAATATTTTTTCCAATCTATAGAAAATATTTCATTATATAAATCATCAAAATCATAAGCTCTAAATTCTTTTAACACGATCATAAGTCTTTCAACAACTCTTGAACTTATATTAACTTTATAAATACCTTCTAAATCTGTTTCAAAAAATATCATACCACTCTTTGAATCAATAACTTTGTATCCCATTCTTTTAATTTCATTTGCTACTACTTTTTCTAACCCTATTGTACATAATGCTAAAGCTTTCATTTTTCCACCTCATTTGTTTTTAGTGCGGATAATATAAGTTTTTTATAATTATCAACAATTTTTTTAAAATCATCATCTTCAATCATATGACCTATACCTTTTATTATAGAAGTTAAAAATTCAAAAATAAATTTAGGATCCACATCATTTCTAATTGTTCCGTTTTTTTGTGAAATTATTATTTTTTCTAATATTATATTCTCAAAGGTTTTATAATAATATTCATTAATAAATTTTGCCGTTTCATGATTATAAAATAAATCTTTTATTGGATATTCTTTAAGCAATTTTTGTGGATCAAGGTTATAATTTTCTATCAAATTAATTATTTCTTCTATATCATTTATAGCGTTTAAAAATTCTTTTAATGGAGTTACAAATTCATCTATAATGTTTTTTATAACAATCAATATAAAATTTTGTTTTGACTTATAATTTTTATAAAAAGTAGCTTTACTAATTCCAGAGGAATTAATTACTTTGTTTAAATTAAATTTAGAAAAACCTTGTTCAACCAGCTCAATTTTAGAGTATTCAATTAATTTCTCTAATTTTTTTTTTGTAGATTTTTTTTGATAAATTTTTTTCATTTTTAACCTCCAATTATATTATACCATTTATATTTGCATTTAAGAAAAAATTTGATATAATTAGCTAGGGAAATTAATTTAGGGGGAAAACAATGAAAAAATTACTTTTATATTTTTGTGTTATTTTTATTGGGTTAGCTACTTTTTCTCTTGATTTAAAAGTAGGAACTTATAGTGATTTTCCAAATTCTTTTTATACTAATGAAAATACGGGCGTTTTTACAGAAATTTTAAAAGATATTGCAAATGAAAAAGGATGGAATTTAACTATTTATAATGATACAAAAGAAAAAATAAATAATATGTTTTTTAATAATAGATTGGATATAATATATCCAACTTTAGTTGATTCAAATTTTATTATAAAAGATTCAATGAAAATTTTTACTAATTCAGAATCTATAATTTCTATTTTTGATTTAAAAAATAAATGGATTGGAGTAAAAAAGAATAGCATTTTTTATAAACAAATAAAGGATATTTTAAATAAAAATAATGTTAGGTGTATTTTTTCTGAATATGAAAGTTATGATGAAATTTTTAAAGAATTAAAAAACAAAAAAATTGATATTGCTGTAGTTTCTAAAAATGCTGGTTTGATATTGGCTAATAAATATAATTTTATTGAAAGTAGATTGAATTTTTCTGAATTTAAATTTGGAATAATAGCAAAAGATAAAACAATTCAAGAAAATATTAATGATTATATTATAAAAATAAAAGAAAATCCAAATTCTATTTATTATAAAACATTAAAAAAATATTTTAATAAAAAAAATAACTTTATACTTATAGAAAAAGATATATATATTTATTCTTTTTTTATTTTTGCCATTATAGTGTTATTCTTTTCAAGAAAAAAACACATAAAAAAGAACAAAAAAATTTTAAAGTTGAAAGAAACTCTAGAAAAAGAATTGTACGATATAAAAAAATCATTGGAAAATTTAGAAATTGAGAAACAAAAATTATCTACAACTTTTTCTACAGATAAAAAGGCTAAAGAAAGTTTAAAAAGTATTATAGATATAAATTCTAATATTTCTGAGTATATGAATATTGATGAAGATTTATTTTTAACAGATCTATTTAGAACTTCATTAAATTTATTAGGTGCAGATTATGGTAGTATTCAAAAATTTGAAAAAAATAAATGGAAGTTTGTTGATTCTATAGGACATGATATAAATATATTAAAAAATTTAGATTTAGATAGATCTTATTCTGTTAGATCAAATGAAATAAAAAAAATAAATAATATTATGAAAGAAAATGAGAGCAACATGCCCTTAAATGTTTTAAAAGATTTGAAAGAAGCCACTAAAAAAATAAAAACTACATTATACATACCTTTTTTTGTTAATCAAGAAAAAGTAGCTGCTATAACTTATGATATAAAAGAAAATTCAAAAAAAGATTTTTTTGGTTATGACATAACCATATCAAGAGCTTTTAAAGAAATTGGAGAATCTATTTTAAAAATAAAAAGACAAAATAAAGAATTTAGAAATGCTTATATAAAATTTGCAAATAAATTAGCAATTGTATCTGAAGCACATGATGATGTTACTGGAAATCATATATATAGAGTTGGTATTTTATCAGAGTTTATTGCTGAAAAAATGGGATTAAATTATGAGTTTGTAGAAGAAATTAAAAATTTTGCCCCACTGCATGATGTTGGTAAAATATTTATTCCAATTGGAATTTTAAATAAAAAAGGAAGACTTACAAGAGATGAATTTGATATAATAAAGAAACATACAACAGAAGCAAGAAAAATTTTAGAAGATAATAAATACTTTAAAACTGCTTTAAATATAGCACTTTGTCATCATGAAAAATTTAATGGTGGAGGTTATCCATATGGTATACGAGGATCTGATATTCCAATAGAAGCACAAATAGTTGCACTTGCAGATATATACGATGCACTTAGATCTGAAAGACCATATAAAAAAGGTTTTAGTCATAAAAAAGCAACAGAAATTATTCTTGAAGGTGATGGAAGAATAAAACCAGAACACTTTAATCCAAAGGTTTTAGAGGTTTTTAGAATGTATAATTCCGAATTTGAAGAGATTTATGATAGTAATGCTGGAGAAAAATCTAAAAGGAAATTTTTTATTTTTTAAGTTGACAAAATAAAAAATAAGAGTTATAATCTTTTTGAAAATTAAATATTATGTCCCACAGGGGTGCTGTTATTCCACAGCTGAGATTGAAACGGAAAGTTTCTAACCCTTTTAACTTGAACTGGTTAATACCAGCGTAAGGAGCGGGAAGTACGTGAGATAATAAATAATTAAAACATCTCCTGCTTTTTGCAGGAGATGTTTTTTTTAGAAAGGAGTTAAGTATATGAGAATAATTTTTAATGGAAGAGAAGAAGATATTGAAAAATCTAATTTTTATGATCTTTTAGAAAAATACAATATAGATGAAAAAAAAGTGGTTTTAATTTTAAATAATGAAATATTAAAAAAAGAAGACTATAAAAATAATTTAAATGAAAATGACAAAATAGAAGTTATTACTGTCGTAGGAGGTGGATGATGGAGCCATTAAAAATATATGGTGAAGAAATATCAAATAGATTTTTTATGGGAAGTGGAAAGTTTGCAAGTTATGAACAAATGAAAAAAGCTTTAGATTTTGGAAATATTGATGTAATTACAGTTGCAATGAGAAGAGCATCAAGAGATGGATTAAATGAAAGTTTAATTGACTATGTAGGAAATTCTAAAGTAATAGTAAATACATCTGGAGCAAGAACAGCTGAAGAAGCTTTGTTAATTGCTAAAGTTGGAAAGGAATTATTAAAAAGTGATTGGGTAAAAATAGAAATAATAAATGATGCAAAATATTTAATGCCAGATAATCAAGAAACTATTAAAGCGTGTAAACTTCTTAGTGAAAATGGTTTTAAAGTTTTTCCATATATGTATCCAGATTTGTATGATGCAAAAAAAATGGTTGAAAATGGGGCAAAAGTAATAATGCCACTTGGTTCACCAATTGGAACAAATAAAGGATTTAAAACAAAAGAATTAGTTAGAATTTTATTAAATGAAATTGATGCAAAAATAGTAATAGATGCTGGAATAGGTAAACCATCACATGCTGCACAAGCTATGGAATTTGGATGTGATGCAGTACTTGCAAATACGGCAGTATCAATTGCAGATGATCCAGTTAAGATGGCAAAAGCATTCTCACTTTCAGTAGAAGCTGGAAGATTGGGATATCTTGCTGGATTAGCTGAAGAAAAAGAAATAGCTCAAGCCTCTTCACCATTATTTGATTTTATAGGAAGAAATTGATATGTTTTCAGATATAGTAGATGAAGTATATAATTATGTTCTAAAAAGTCAAAATAAAGAATTTGATAAAAAAATATTAAAAAAAGATAGCTTTTTGGCGGGAGATATCTTTTCACTAATTCATTCAAATTCATTAGAAATAATGGCAAAGAGGGTTTTGAAAAATAATAAAAAATTTTTTGGTAATGTAGTTTATTTATACGCACCTTTATATATATCAAACTATTGCAGGAACATATGTACTTATTGTGGATTTAAAAGTACTAACAATATAAAAAGAAAAAAATTAAATATTAATCAAATTCTAAAAGAAGCAAATTTTTTGTACAAAATGGGAATAGAACATGTATTAGTATTAACAGGTGAAGATCATATTAATAGTTCCTTTGATTACATTTATAATACTGTAAAAAATTTAAAAAAACTTTTCAAAGAAGTTTCAATTGAAACTTATTCACTAAATGAACAACAGTATAAAAAATTAGTTGAAATTGGATTAATTGGAGTAACAATGTATCAAGAAACTTATTCAAAAGGAGTATATGGAAAAGTTCATATATTTGGATTAAAAAGTAATTATAAAAAAAGATTGGATACAATTGAATATGCAATAAAAGCTGGAGTTAGAGAAATAAGTATAGGTGCTTTACTTGGACTAAATGATCCTTATATTGAAGTTCCTATGATGATATATCATATGGATTATTTATTAAAAAAATATCCAAATGTAGAATATTCAATATCCTTTCCAAGAATAAAAAATGCTTTAAACGTTCAGAATGATTTTTATAATATAAATGATATTGATTTTATAAAATTTATTCTTTCAGCAAAATTAATTTTTCCAAGAGTTCATATAAATATTTCAACGAGAGAAAGTTTTGAAATGAGAAATGCATTAATTGGAGTAGCAACTAAAATGTCAGCAGGATCTTCAACTTCAGTTGGAGGATATACTATAAATAATGATTCGGAACAGTTTTCAATAGAAGATAGTAGAAGTGTAAAAGAATTTAGAACTTATATTGAAAGTAGAAATTTTAAACCAACGACTGTAAATTGGTTTTAAAAAGGAGATGAAAAAATGACACAATATGAACAGGCAATAAAAGGTGAAATAACCTCTGAAATGATAAAAGCAGCAATATACGAAAAATGCGATCCAGAATTAATAAGAAAAAGAATAGCAAATGGAACGGCTGTATTACCCAAAAATAAAAAACACGATATTAAAATGCATAGAGTTGTTGGAAAAGGTTTTTTTACTAAAGTAAATATTAATATAGGAACATCACAGGGATATATGAATATAGAAGAAGAACTAAAAAAATTAAAAATATCAGAAAAATATGGAGCAGATTCAATAATGGATTTATCTACTTGGGGTAATTTAAAGGAAATAAGAAGAAGAATTATTCAAAATTCTAATATAATGGTTGGTACTGTTCCAGTATATGATGCAGCTTCAAAGGCATTTCAAAATAACAAAAAAGTTATTGACTTTGAAGTAAATGATTTTATGCAAATGGTAAAGGATCACGCCGAAGAAGGTGTTGACTTTATGACTATACATGCTGGAATTACAAAAACAACAATTGAAAAACTAAAAAGAACGAATAGAATAGCAAAAATAGTTTCAAGAGGAGGATCAATAATAGCTGGATGGATGTTAAAAAATTCTAAAGAAAATCCTTTTTATGAACATTTTGACGAAGTTTTAAAAATATGTAAAGAATATGATGTAACAATTAGTTTGGGTGATGGATTGAGACCAGGATCTTTACATGATGCGACTGATGATTTGCAAATTGATGAACTTTTAAGGCTTGGAGAACTTGTTGATAAATGTAGAAATTATGGAGTACAAGTTATGGTAGAAGGGCCAGGACATGTTCCACTCGATGAAATAGAAACAAATATGATTATACAAAAAAAATTGTGTAAAAATGCTCCATTTTATGTTTTAGGTCCTATAGTTACTGATATAGCACCTGGTTATGATCATATAACTTCTGCTATTGGAGGAGCTTTAGCAGCTTCAAAAGGTGCAGATTTTTTATGTGCTGTAACGCCAGCAGAACATCTAAGATTACCAACAATAGAAGATATTAAAGAAGGATTGATAGCAACTAAAATTGCAGCTCATTCAGCAGATATAGTAAAAAATAAAAAGGTTATGGAATTTGATAATCAAATGAGTATAGCAAGATCTAAATTTGATTGGGAAAGGCAATTTGAATATGCATTAGATCCAGATAAAGCAAAAGAATTTTATAATGAAAGAAAAGCTGAGGATAAAAAAATGTGCTCTATGTGTGGTCCACTTTGTGCAATGAAAATAACAGAAGATTATTTAAATGAAGGAAATGTTGAAAAATTATTAATAGAATAGGAGGAGAATATGTTAATATTTTCAGGATTTGATCCATCATCAGGTGCAGGACTCTTACAAGATGTTGCAATAACAAAAATGTTTGGAATAAAAGCCAAATCAATTATTTCAGCAAATACATTACAAACAGAAAATGAATTTAAAAAACTTAATTTTAATGAAACACTTGAAGAATTTAATTTATTTAAAAAATTCAATACTATAAAAGTAGGAATGGCAAATTCAAATCAATTAAAAATATTGAGAAATACGTATAAAGATGCAAAAATAATTTGGAATCCTATTTTAAAAACGAGTACTAATTATAAAATAATTTCTGCTGAAGAGGTTATTAATGGTTCAAAATATGTAGATCTTTTAATTATGAATTCAGACGAAGCTAAAGAAACAGGAATAAAAGAAGATATCATAATAACGGGTGGACATTTAAATGAAGAAAATATTATGGTTACTTATAACAATAAGAAATTTTATTCTAAAAAATATAATAAGGCTCTTCACGGAACAGGGTGTGTATTTTCAACCTTAATAGCTTCTCATATACATTTAGGATACACTATTGAAGAAGCAATAAAAATGTCTTTAAAGTATATAGATATGTTTATAAAGAATTCTAATACTTATGTTGAAACTGAAGAACATACAATGCAATGGCATAGAAAGTATATAATAGATACTTTATGGGAAATAAAAGATAAAATAATTCTTTTAGGAAAGTATACAATTCCAGAAGTTGGACAAAATATAGTATATGCATTACCAAATGCAACAGAACAAGAACATGTAGGGAAATTTCCTGGAAGAATACATAAATTGGGAAATGAAATTAATTTTATACATGAACCAGCATTTTTTGGAACAAGTCATATGGCTAGAGCTGTAATTGCAACTATGAAATATTTTCCTTGGATAAGATCTGCCATGAATGTTATTTATAATCCTGAATTTATAAAAAAAGCAAAAGAAAAAGGATATTCCGTTTATCATTTAGATCGCTATAAAGAACCTGAAGAATTAAGAAAAATAGAAGGATTATCAATTCCATATGGATTATCTGATATTTATAATGAAACAAATAAACCTGTTGACTTTGTTTGGGATGAAGGGTTTCCAGGAAAAGAAGCTATGATACGTGTGTTTGGTAGAGATCCTAAAGAAATAATAAATAAAGTTAAAGACGTGGTATTCAATGATTGATATTGAATATTTTGATCGCCAATTAAAGTATATTGGTTTAAATAAGATGAAAGAAATATTTAATACTAAAATAAGTATAAAAGATGATTTATCTCAAAAAATATTAAAAAATTGTGGATTTAACATTATAGATTTAGAAGAAAACACACATGGATTTACAATTAAATTAATAGAAAATAATATAACAGTGTCTTTTAACAAATACAAAGAAATAGAAAAAACTGTAGATATTCCAAAAGAAATCTGTTCAGCATTGATTTCAACTTTAATAGTATCCAATTTACTTTTTAATACTAAACAAATATCAATACCACATTTTAAATTTAATTTAGAAGCAAAAAATGCAGTAGTAATTGGAGCAGGTGGACTTGGAAATCCAGTTTCTTATGTATTAAATAAAAATAAAATACCTTTTTGTATAATAGATAAAGATATTGTTGAAAAATCTAATTTATCCAGACAATTTTTATTTGATAAAAAAGATATAAAAAAGTATAAATCAAAAGCAATAAAAGATAAATTAAATTATTGTATTGAATCAAAAGAAATAGAATTAACAGAAAAAAATTTAGATATATTAAATAAATACGAAATCATATATTCGTGTGTAGATAATTTGAAAACAAGATACATATTGTCTGATTTTTGTAAAAAGAACAATAAAACATTCATTGATAGTGGAGTTGCTGGTAGCATATGTACAATATATAAAAATATTGATCTAAATAAAATTATGAATACAGATGATAAAAATGCATTGAACACTTGTAATACAGGCATATTACCAACAACAGCAATATTAGGAGGATTTTTACAAGCCTATTCCTTAAATAATAATTTTTCTATGATTTTTGTAGATTTCAGTATTGGAAAAGTTTTATCTGTAAAAAATATAAATTAATAAAAAAGAACAGGAAAATATTAATTTTTTCCTGTTCTTTTTTTAAAACTTTTTTTCTAAATCTTCGATTGTTAAATCAAAAATATTAGATATTATTTCATCTAATTTTTCAATGGATAATGTATCTAATTTTGATATTAAATTATCTATTTTATTCCCAAATTTCTTTTTTAAAAGTTTTTTTGAAATTATTAATTTTTCTTGTTTTATCCCTTTCTCGATCCCTTTCTCGATCCCTTTCTCGATCCCTTTCTCAATCCCTTTCTTTAAACCTTTTTGAAAACCTTTTTTCATTCCAACTTCTTCTGCATATAATTGTTGATCTATCTTATCCATTAATTCTTTTTCTCTTGCTTCATATAATTCTTTTGCTATTCTATCTGAATTTATAAATTCTAATACAGTCATTGCTTTTTTAATTTCTTTATTCTTCATGGTTATCACCTCCATGTTTGTATTTTCTGGTTCTTTTAAGAACAATAACCATTCAATTAATTTATCATTTAAGTTTGCTTCTTCTGTTTCTATTTTTGGTAGTTCAACAAAATGTACTTCCATTACATCGGTTAATTCTGTATTTTCTTTTATGTCTTTTAATCTATATATGCTATGGTATTTTTTTGTTTTTAATAAATTAAAGTTTAAAATGTTTATTGTTATTGTTCTTTCTAAACTTATATAGCTCTTGCCTTTTTTTAATTGTTCTGTATACATTTTTCCCCAATAATATAAAGTTCTCTTTATCATATTTTTTTCATTTATTAATTGTACTTCAATATTTACATATGTTCCATTATCTAATTTTGCTTTTATATCCAATATGGATAACTTATCATTTATTGCAGTTTTTTCTGTGTATGGATTTAATATATCTAAACTCTCTATTTTTTTATTTTCTTCTTTTAATAAAGCATTTAAAAAATCTATTAATATGTCTTTGTTTTTTTCACTTCCAAATATTACTTTAAATGCAAAGTCTACTAATGGATTTATATTCATTTGTCCACCTCCCTTTTATACTCTTATTATATCATATTTATACCTTTTTTTATTAACTTTTGAAATTGACAAGAACATATAATAAATGCTAAAATATAAATTGAATAAAATAAAGCATAAACCTATAGAGGTGTTTATATGAAAATAATTGCAATTAACTCAAGTAGAAGAAAAGGTAATACATATAGATTATTAAAAAATGTTTTTGTGGAACTTTTTAAAATAAATATTGAAGTAGAAATCATAAATCTTGGAGATTATAATATTCATCCATGTTCGGGGTGTGAACTGTGTATAAAAAAAGATATATGTCCACATAAAGATGATGTAGAAAATATAATCAATAAATTAAAAAATGCTGATGGAGTGATTATTAGCAGTCCTGTTTATATTGAAAATGTATCTGGAACATTAAAAACATTATTTGATAGATTATGTAAGTGGTATCATAGACCAACTATGATAGGTAAACCCGTTTTAATAATTTCAACAACTGCAGGAAGTGGCTTGAAATCAACCATGAATTATATAGAAAAAGTAGCAGTATCTTGGGGAATGAAACCATGTGGGAAAATAGGTAGAAAAATTTCAGATAAAAACTTAATAAAAAACAAAGAAATAAAAGAATTTATTTCAACATTAAAAAATAATTCAAGGAATAAAGTTACCTTAAATAGAGCTATTAGATTTCAAATACAAAAAGTTGTTGCAAATAATCTTTTAGAAATAGATAAAAATTATTGGGCAAAAAATAATTTGAATGATAAAGACTATTTTTATGATGCTAAAATGGGTCTATTAACTAAACTTATATCTAAACAATTTGGAAAATTTTTAACAAAAAAAATATTGGAAAACAAAGAAAAGGTAAAAAATAAAAAACAAACAATTGCTAATTAGCAATTGTTTGTTTTTTATTTACGATAAAACTTTATTTTTTTTTAAAATTTCAGAATTAAGCCAGTTTATTATATCGGAATAAACTTCATTTTTATTAATTTCATTTAAAATTTCATGTCTTGCATCTTTATAAAATTTATGTTTTACATTTTTTAATCCAGCTTTTTTGAACAAGTTTAATACCTTTAAAACACCTTTTGTGTTTTCTCCAACTGGATCTTTTTCACCGGAAATAATAAAAATAGGTAATTCTTTTGGCGTGTTTTTTACATATTCTATATTATTTATTATAGATATTCCATACAATAAATCTTTAAAAAAACCTGCTGTACAAACAAATCCACAATGTGGATCATCAATATATTTTTTTACATTTTCTTCATCTCTACTCAACCAATCAAATTCAGTTTTGTTTGGTTGGAATTGCTTATTAAAGCTTCCAAAAGAAAGTTTATCAAGTTTATAACTTTTTCCTTTTTTTCCAATTTTTTTGATTTCTCTTTTTGTAACGATAAGACCAAAGGTTGTTTTTAAATTAGAACTATAAGTTGTTCCAGATAAAATTACTCCATTTATTTCATTTCCAAATTTTTGAATATAAGTTCTAGTTAAAAATGATCCCATACTATGACCTAATAAAACAATAGGAGTTTCTGGATAATCATTTTTAATCTTTAAAGTCAATTCATGCATATCTTCAACGACTTTATCCCAACCATTATTATCATCGAAATAACCAAGTTCATCTTCATTTTTTGCTGTTTTGCCATGACCTCTATGATCATTTGCATAAACGACCATACCTTGATTAATCAATATTTTTGCAAAGTCAGAATATCTATCCTTGTGTTCAGCCATTCCATGAGAAATTTGAATAATAATCTTTGGGTTATTATTCAGTTTTGGTTCCCACTTTACAGCATTAATACTTTTCCCATCTTTTCCCTTAAAAGTAAATTCGGTAGTTAACATAAAATTCACTCTCCTCATTAAAAATTAATATTTCTTTTAAGTTAATTATATCATCGAAAAATTAATTTTATATTACAATATAAAAAAATAGAAAGTATGAATATTGACAAACAATAAAAAAAAATATACAATATTAGTAGTTTAACCTACATAAGGGGGAGTTTTATGGTTTTAAGTGAAAGTTCAGAAAATTATTTAATTGCAATATATGAAAAAGAATTAAATGAAAATATAACTAGAATAAAAGATTTAACAAAAATATTAAAAGTTAAACATAGTTCAGTGATAGAGGCAATAAAAAAATTAAAACTGGCAGAATATGTAAATTATGAAAAACGTGGATATATAAAATTAACCCAAAAGGGAATTTGTAAAGCTCAAAATATTTATAAAAATAGAGTTGCAATTAGGAGCTTTTTAATAAATGTTTTAAATTTAGACCCTGTAGAAGCTCAAGATATTTCTTGTAAAATGGAACATTTTAAGTCAAAAAAATTAATAAAAACAATGGAATCACTTGAACATTTTTTTGACGAAAATAAACAAATAAAAAAACAGTATATAGATTTTACAATAAAATGGTTAAGAAATATATCAGAAGTCAATTTAACTTTAGAACAAATTAAAATTGGAAATAAAGTAAAAGTTGTAGAAGTTATAGGCGATGAAGCTACAAAAAAGAAATTGATGGTAATGGGAATAACTTCTGGTGTAGAAATTGAAGTAAAAGAAATAGCACCACTTGGCGATCCAATTAAATTAAAAGTTAGAGGGTATAATTTAAGTTTAAGAAAGAGTGAAGCAAAAAATATTATTGTCAGTAAATAAAAAATTTATTGACAATATTTTTTTATTATGTTATAATGTAGTCGAAACTACTAAAATAAGTTTACCTATAGGAGGGATAAATATGCCGCTTTCTTTTGCTCGAAAAGGAATTTTTTATGTAAAAAAAATAAATGTTGGAAAATTTGGAAAAAGAAAATTATCAAAAATGGCTATAATTGAAGGAATAAAGATTGAAGTTCTTTTTGAGAATTTTGGAGGACCCATTCCAATAATTGTAAAAAATGCCAAATATGCAATAGGACATGGAATAGCCAGTAAAATAGAAGTTGTTGAAGCTTAATAAAAAAATTTTTTAAATTAAGTAGCTTAAACTACTAATATTAGGAGGTAAAAATGATATTAAGTAAATGCAAACCAGGAACTGTAGGAACAGTAGTAAAATTAAATGGTACAATGCATTTAAATCAAAGATTGACCAGTATGGGAATAACTTCTGGAATAAAGATTGAAGTAAAGAAAACTGCACCACTTGGTGATCCTGTTGAATTAAAAGTTAGAGGATATAATTTAAGTTTAAGAAAGAGTGAAGCAAATATAATAGAAATAGATATTGGAGATGGTTTTTGATGAGTAAAATTGCACTTTGTGGAAATCCAAATAGTGGAAAAACATCAATATTTAATGCGCTTACTGGAACTAGACAACATGTAGGCAATTGGCCTGGAGTTACCGTAGAAAAAAAAGAAGGTCATTATACATATAATCAAGAAAAAATTAAAGTTGTTGACTTACCTGGTACCTATTGCTTAACGGCAAATTCAATTGATGAAAGAATTGCAAGAAATTTTATTGTAGAAGAAATGCCTGATACGACAATAGTAATAATTGACCAAACTAATATTGAAAGAAATTTATATTTAGTTACAGAAATACTTGAAATGAGAAAAAATGTAATTCTTGTTTTTAATATGTCAGATGAAGCTGAAAAACTTGGAATAAAAATAGATTATAATGGTTTAAAAAAAGAATTTGGTGTTCCTATTATAAAAACAATAGCTACTAAAAAAGAAGGGTTAAATGAACTCAAATCAGAAATAAAAAGAATGGAAAAAAACATTAAAAAACCTAATAAAATTGAATATAGTCAAAAATTTGAAATCTTTGTTCAAAAAATAGAAAATGAACTTTTAAATGCTGGAGTCAAAAAAGGTGATTTAAGATGGAAAACATTAAAATTAATAGAAGGAGATATTGAAATAAGAGAAAATATAAATTCGGGAACTCTAACAAAAATAGATTTAATTATAAGTGAATTACAAAGAGCTTTTAAAAATGATCCAGGAATAGTAGTATCTGAAGAAAGATATAAATATATAGCAAAAATAGTTAAAAAATATGTAAAAAGGCCAAAAGAAACTATAAGATTATCTGATAAAATAGATAAAATAATAACTAGTAAACTTTTTGGATTACCAATTTTTGCATTTATTATGTGGTTAATGTTTCAACTAACTTATTCATTAGGAAATATATTTTTAGATATGATAGATGGATGGTTTGGTACTTTTGCAGAAAATATAAGTGCTGCTATGCAAACTGCAGGTATTAATAGTTTATTTACTTCTTTTGTTACTGATGGATTAATTGGTGGAGTTGGAAGTGTTTTAGTTTTTGTTCCAAATATATTTTTCTTATTTCTTTTTATATCATTTTTGGGAGATATTGGATATATGTCAAGAGCAGCTTTTGTTATGGACAGGATAATGTCATCAATTGGATTAAATGGAAAAGCTTTTATTCCAATGGTTTTAGGTTTTGGATGCTCTATTCCAGCAATTATGGCAACACGAACTTTAGAGTCTAAAAAAGATCGAATAATAACGACACTTGTTGTTCCATTTATGTCTTGTAGTGCTCGATATCCAGTTTATCTTATTTTTGCCAGTATATTTTTTCCAAAACATGCAGGAACAGTTATTTTTTCTATGTATATGATTGGTATAGTTATAGCAATTATTTCATCTAAAATATTCAGTAAAAAATTATTTAATGAAGAAAATACAAGTTTTATAATGGAATTACCTCCTTATAGACTACCAACATTTACTGAAACATTAGGTGAAGCTTTAAAAAGAACTTGGTTATTTATAAAAAAGGCAGGAACATTTATTTTTGCAGCAGTAATAATTATTTGGATAATGGCTTCATTACCCTCTGGAGTAGAGTATGCTGGTGAAAATAGTTTTATTGGAATAATTGGTAAAATAATTGCACCTATATTTAAACCTTTAGGTTTTGGATTTTGGCAAGTTGCTGTTGCAATACTCTTTGGATTCTTGGCTAAAGAAGTAGTTGTAGGTACTTTAGGAACTTTATTTGGAGGAGAAGAATTGCTTTCAAATGTACTACCTCAATATTTTAATGCTGCAAGTGCTTTTTCATTGATGGTTTTTGTTTTATTGTATTTTCCTTGTATTGCAGCAATCGGTGCAATGAAAAGAGAAATAGGGAAAAAATGGACACTGTTTCAAATTTTATTTTCTACTGGTATAGCTTATATTACAGCTTTAATTGCATATAGGATAGGACTTTTTTTTATTTAAGTTTATTTTTAGGGGGATAATTATGTGTGTTGCAATAATTGGAGGTATAAAAGGAATAGAAAATAAATACAAAACTCTTTTGAAAAAACATGGAATAAAAAAGTATAAAATTTTTAATACGATGGTTCCAGATTTTCAAAAAAAAATTAAAAATGTAGATGCTTTAATTCTTTTTACTAATACAGTAAGTCATAAATTATCTACTGTTTCATCCAAAATTTGTAAAAAAAATAATATATGTATTAAACGAACACACTCCAGTAGTTTAAATAAATTAGATGAAAAAATAAAAGAAATAAAGTTAAAATTAAACAATAAACACAAGTAGAAGAATATCTTTCTACTTGTGTTTATTATCTATAAAATTTCTTAAAGATAATCCTATTTTTTCTAATAAATCATACATATTTCTATTTTTATTTAAACGTTTTAATAAATGCCAAAATAATATTATTCCAAAAACTGCTCCAAAAGAATCATAAATTAAATCTGTCATAGTGTCAAATAAACTATTTTCTTGTGCTAATCTATAACCTGGAAAATTTTTAAAAATTAAATCAGAAGTAAATTCAAAAATTTCCCATATAGTTCCCATACTTAACGCTACAGAAAAAGTATAGAAGTTAACTTTTAATATTAAAGTTGGGATTTTTTGTCTTGAAAAAGATAATTCTAAAGATAGTATTATTGGAAATATTATAAATGCAAGCCACATTCCACCACTTAAATGTAAAAAATCATCAAAATGATCATATTTACCATAAAAATCTAAATACAAACCAAAAAAACTATGTAATGCTATTTGAATTATAGTAAATGTTTTTATTTCTTCAAAAATTAAAAAGCCAGTTGCCCATTCAAATATCCAAACTAAATATAATCCAAATATATATATTGAATATCCGAAAATATAAGGAATATTAATATTTATAATTGCACTAATTAAAGGAATAAAATTAATTATGGAAAATAATAAATTTGCTCTGTGCATTAATTTATAATATTTTTTATTAGTTGAAAATAATGTTTCTTTTAATAATATGTCTTTTGATAAATGTTTAAATATTTCTGTAGCTTCTTTTTTTATATAATTATTTAATTTTTTCATATAATACCTCCTAAATGTTTCAGTAGAAAAAAATTCCATTTTGATAAGTTATGAATTAAAAAAAACTTTTTTTATAAAATTTCTTTCTGGAACTTCTCTATTTGTTAATTCTTTTAATACATAATTTTTGTTATAAAAAATTTTATGATGTGTAACTTTAATTTCTTTGTTTTTATAGATTTCAATTGATGTAAATGTTGTAAAACTACTTTTAGTACATCCAAGCGAGCCTGGATTTATATATCTTGTTTTATTTATTTTAATATCAGAAAAACAATGATTATGTCCATAAAAAATAATATCTGAATTATTATTTTCAAATAATTCATTTAGTAAATTATAATCATTATTTAATTTTTTAAATTTATTATTTTTACGAGCATAATGAGTAAAGAAAAGATTTACTCCATAAAAATTTTCATTTATAGTATAAGGTAAACTTTTTAAAAATTCTTTGTTTTCGTTATTTAATTGTTCAATTACCCATTTTTGATGAATTATTTCTCCTTTAGACATGTTTTGTGGAACTGGATTCATGTTACTTAAAAAATAATCTTCATGATTACCCTTTACCATTTTTAAATTTTTTATTTTAGAAATTTTATCAATACATTCTTTTGAAAATGGACCTATAGCAATAGTATCTCCGAGATTATAAATAAAGTCATAATTTTCATTTTTTATTTTATTTAAAATGGAATCTAATGCTGGTAGATTACCATGAATATCTGTAAATATAGCTATTTTAACACTTTTCACTATTATCACCTGCTATAAAAATAATCTATTTCCATTTTCTTTTAACCACTTTCTTTTTATTTTATAATCTTTTATATAATTACTAACTTCATTCCAAAAGTTATTAGAATGATTTGGATGAATTAAATGACACATTTCGTGAACAATTACATAATCAATTATTTCAATTGGCGCCATTATTAATTTCCAATTAAAGGTTATTTTTCTTTTTTTAGGATAACATATTCCCCAAGCACTTTTTAAATCATTTATTCTGATTTCATTTATGTTTTGCTTAAAAAAATTATTATAATAAGCTACTTTTTTATTAAATAGATTTAATGAATTATTTTTATACCATAATTCGATTATATTTTTTTTATTTATATTTTTAATTTTTTTATTTATATATAAGTTTAAGTAATTATTAAATAACTTAATATTTGTTTTATCACCATAAATTATATTTAATGTATACTCCTGTCCTAAATATAAAAAAAATTCTCCATTTTCATAATTTTTTTCTCTCTTATAATTATTTAATTCTAATTTTTTTATTATCCAGTCAGCCTTTTTGTATAATATTTTTTGTACTAAATCTATATTTAAATAAATTGGTGAATAAACTATTACTTCATTTTCTTTTATAATTATAGACAGATTTTTTTTATTTTTCTTTATTAATTTATATTTTATGATTTGATCTTTATAATAAAATTCATACATTCTATGATCCTCTTTTCAATATATTCAAAATCATTATAACATAATAATTTTAAAAAATATATATAATGTTTTTTATATCATAACCAAATATACTCTTCAATTAAAATAAAAAGAAACATATTTTTGATATAATATTAATATCTAATAGTATAAGGAAGTGATTTTTATGCGAATAAGAAATAACATTTCCAGTACTATAAATAATAGTGATTTTCAAAAAAAACTTTCAAATATAAAAAAATTGTCTACTGGATTAAAAATAAACAATGATAAAAATCTTCAAATTAATCTTTCAAAAAATTATTTGAATAATAAAAGTAATTTAGATCAATTAAGTGATTTTATTCAAATAAATCAAAATGCCCTTTCTAAAAAAGATATTCTAAATAAAAATACTTATTCGTTAAATTTAAAACAATCTGACCTAAATAATGCTTTTCAATTTTCTACTAATTTGAGTTTATTTAATACTGACACTAAAAACTTAGAAAAAAAATTATTTGAAACAAAACAATTAATAAATAATTCAAAATATTCTAATCTCTCAACAGAAGATATAAAAAATAAATTAACTCAAAATATAAGTTCTGAAAATATGAATGATATTAATAATATACTAAAAGATTTAAAAGGAAATTCAACAACAACGAGAAAATTTTTGGAGGGAGCATTATCGTTAATTGCTGGTAATTCAGATCAAATTGGAGAATATCTCAAAGCAACAGAAAATTTACAGGAAAATAATTATAATAGTGATGAGTTGAATAAATTTTTTGATACAACAAAAAATATTTCATTAAACAAACAAAATAAAGTGGAAGATTTTTTATCATTATTTAATGATACTGAAATTTATAAAAATAAAGATACAACAAAAAAATTTTTAGACATATCTAATACATACAGTTCATTATATGAAGGTCAACAAGCTTTAGCAAGTGTGTTTTATACAACTAAAAAACTATTTAATGGTAATATTGATAACTCTGCATTGAATAATTTTTTAAATTTTGTAAATCAAAACAAATACAGTATAACAGACATTTTACCGCAACTTGGAACAACTCTTACAGAATTAGATACCAATACTCAAAGAAAAAATATAATAAATACAACAAATACTTTAAAAAATGATTATTTAGATGAAAAAGTAATAAATAAATTTTTACAAAAGGTAGTTGAATGGAAAAATGATTCAAATTTAGAAAATGTTGTAAATACAATTACTAAACTCGATAATCCTGAAAAAGCTGAGTTTTTGGTTGCATATCAAAATATAAAAGATAATACGAGTTTAAAAAGTAATTTTTTAACTACTTTAACCAAAGTACAAAACTATGAAAATAAAACTAACATAGTTAGTGTTACGCCATTTTTAGCTTATTCAGCAGCATTATCAAAAGAAGATACTAACACGCTTTCAAATTATATGAATGACGTAAATAATTTTGTAAATGATAATAATAACAATACAGCAATTCCAAATACTACCAACTATGCAATTGCTGGAATATCTACTTATATGAATGATACAGGTGATGTCAGTGCAAGTTCATTTGCTACTCCTTTAAATTTAGGACAACCAAATGAAAAGACAGGTGTTTTTTCTCAAACTATAAAAATATTAAAAAATCCATTTGAAGATACAAATGCAGATACAGCACAAATTTCTATAACAGTAAATTACAACGAATTAATTACTGGAGGAGATCTTGAATCTGTTGCAGAAGCAGTTGTTACTGGAGGAACTAAAACTGCAGCAAAACAAATTGCTAAAGAAATTGTCAAAGCAGGAGTTAAAAAAGCAATTGGATATATATGGGATGAATATGGAAAGGAAATAGAAAATACTATAAAAAATAATGTGGTAGAAAAAAATAAAACTTTATCTGATTTACAAAATTCATTGAATGAATTAAAAGATGGGAATAATTCAGTTACTGTTGAATCAATTGCAAATGAGTACAATTTAACTAATGAAGAAGTATACTTATTAGAAAATGCAAATGATTTTGCAAGCAGGTATGGATTAAGTTTAGAAGATTTTACAAATTTTGATCCAAAAAATATTTCAGACTTAAATAGTAATTTACAAGGATTTAGTGGAGATTTACAAAAAGACTTATTAACCTGGGGATTTCAAATTGCACATGATTATATAATGGGTTCAGATAGTGTACCTGAAAAAGAAGAAGATATATCTATAAATAATGTAAATATGGATTTTTCAAAAAAATATACTGATTCATCTACTACTACTACTACTACTACATCTAATAATGGTAAATTTGTAGATTTTTCAAAAGGATATGCTGAATCATCTAAGGAAACTAAATTTGCTGTTGATTTAATATACGCTGGATTAAATCAAGGTGTTTCAGCTTCAAATAATTTAACCTTGGGAGTAACTTATACCGATAAAAATGGAATTGAACAAACAGAAACAAAAAATGTTATAAATGGAGATCCATTTGATTTTGCATTTGGAATTTTTGATTATTCAAATGGAAGGAAAACATTTAATTTTAATGTTCCACTCACTAATGAAGCAAATGATTTTACAATTACTTTGAATGGTAAAGCAATATCAACCGTAACTACTTATGGATGGGCTTCTTCAACAATTAAAGGAAGTATTGAAAAAGTAGAAATAAATACAAATGGTCAAAGATATACTGGCATAGATGATATTAATCAATTATTACCAACAAATTCTGATATTCCAGAAGAAATAAAAAACCCTGAACCAGATACTAATAATTTATATTCAAAAATAAAATCCTCTATAAATAATATAAACTATAAATACAAAGAAATTCAAAATATAGATTTTAAAAATGAATATGAAAATATGTTAAAACATCAACAAATTATGGTTTCTTCAAATTATTTATTACAACAAGCATCAACGCCAGGATCAGTTTTGAATTTATTACAATAAATACGGAAGAATAATTCTTCCGTATTTTTAATTGGTGGATAAATTATTTTTATTATGCATAGTTAGAATTTAAATTTTTCCTTTTAAAAATTTTACTCTAAGTTCTTTGTCAAATTTTTCAATTGCATATCTAAGCATTGTTCTTGGCATATTTTTATAATGATCTTTTAAAAAATTAAATTCTACTTCAAAATTTCGATTTCCAATTTCTCTCAACATCCATCCAACTGCTTTATGTATTAAATCATGACTATGATTTAATAAAATTTTTGATATGTTCAATGTATCTTGAAATTGATTATTTTTAATAAAGTATTGAGTAGTTATTATACTAATTCGTTGTTTCCAAAGATTATTTGAATTAGCATAATTATACAATAAACTTTTATCTTTGTTTAAAAAATATGGTCCAAGAATTTTTGGAGCAGAAGAATCAACTAAATCCCAATTATTTACTTTACTTATTTTATTGATGTACAAATCTACAATTTTTTTGATCTCTTCATTATTATCAGATTTTTCAAGTTTATATGTCAATATAAATAATGCAGTAAGTCTAATTTCATGGAATTCATTATTTAGCAATACTTCAATATCCTTTAGAGTACAAAATTTATAATATTTTTTAGCTATTTTTCTTTGTATTGGAACCGTAATACCTAAAAACATATCTCCTTCTCCGTATCCTCCTGGAAAAGATTTAAAGAATTGCTTTGAATGTTTTGCTTTTTCAATATTTGTATTATTTTTTAATTCAGTTACTAATTCAACTGTACAATTCATAAATTCACCTCATATTTAATACTTCAATATATTTTATCATAAAAATGGATTAAAATTTCCTATTATAAAAGAAAAAGGTGATTTTGTTGATGCTGAAATTTTTAGATCAAATGAAAATTACCAAATTAGCGACGGATTATGAGGGGAAAATTTTAATTTATATAGAAAAGAATAAAAAAATTACTACAAAAGAACTTAAAAAATTATTTAATATTAAAGACACAAGAGCAAAAGAAATTTTAAAAGAATTAATGAATAAAAATTTAATTGAAAGAAAAGGTAAAGGTAGAAATACTCACTATATTTTAAAGTAGGTTATTAATAACCTACTTTTTATAAATTAATTATATTTAAATAAACATCATCGATTTCTTGTTGAGTTATTCCAATATATCTCAATGTTATTCCAGGTGAGGAATGATTAAATATTTTTTGAATTAATTCTAAAGATACACCATTTGTATAAGCATGATAACCAAAGGTTTTTCTTAAGGTATGCGTTCCAATATTTCCTGTAAAACCTGCAAGTTGTGCATATGTCTGTAAAAAATCCCATACATATTGTCTTCTCCAAGGAGATGCTTTAGATTTTGTTCTATTTGAATTTGATTTAAAGATGTGTTCATCATATTCAATATTTTTTAATTGTTTTTTTAACTTATTAAGTGCTTCTTTAGCAGCAGTGTTTAAAGGAAATACTTTTGTTTTTCCAGTTTTCTTTTCTTTTATACGTAGTTTGTCTGTTATGTTATCTGAATCATCCAATACATCATCCCATTTTAATAATAAAATATCAGATATTCTCAATCCACTATTTATTCCAACTACAAATAATGCATATTCTTTTATTTTTTCATGTTTTAGCATTAGTCTTTTTATTTTATTTATAATTTTAACATCTTTAATTGGATCTACATAATTCATGAGCTCACCTCTTTTATAATTTAAAAACTATTATACAATATATATTATTATATAAATTATATATTTGATTATATTAACTAATAATTATTATAAAACTTATTTTATATATACAATGTATAGTTATATTTATAATGTATATAAAATATTTCCATAAAAAATAAAAAGAATTATAAATGTTTTTTGATTTTTTATCCCTCTATTTTTTATAATACATAATATCATTATATCACATTTTTTGTCTTCTAAAACTTTTTTATAAAAAAATAGAAAATATTTTTATTCTCTATAACTCTTTATTTAAGCATATTTAATTATTTTCTTTTAGAAGACACAATGCACTTGTGTCTTCTAAAAATAACAAGCTTTAAAAATCGTTTTTAAGACGTTTATTTTTTTCACTGCGTATAATTTTATATAAAAACTAAAAATAATTGCTTAAAAAGCTTTTTTTACATTGCAGAAACAAAAATTAAAATAAATGAAACGATTATTGATTAAATATCGAGTGCATACAATATTTTCTTTGGGATATAAAAAATTCCATCTTTTTCTTTAATTATATTTTCATCTTTTAGTCTATTTATATATGTATAGACTGTTTGTTTTTTTAAACCTTGTTTTTCCAATTTTTTTACAATATTATTTTTTGTATCGCTTTTATTTGAAATTTCTTTTATTAAAATTTTTTGATTTTCTGTAAGTGTTTTATTTATTTTAAAATACTGTCTTACAATTTTTTTGATTTCTTCTTTTGTGGTTTTGAGATCTATAATATTTTTTTCTGTATTATTCAATATAATTTGTTGAGTAATCCAAAGTGCGTCTCTTGGATTTCCTTCACTATAATCTGCTATTTCTTTTAATGAGTCAGGAGATATAAACTCTGGATATTTTTCTAATCTTTTTAAAATCATTTGTGAAATATCAATATTTTTTAAAGGTTTTAAAAATATCATATCTTTAAAAATATTTTCTAAGTTTCCTGTTTTATTCCATTTCATTCTATCGTTTGTATATTCTCTATATATTGAAAATGGAAGCGATATAAATACTATTAACTCTCTTTTGTTTAAAATATGTTTTAAAGAATCTAATATTATTAATATTTCTTCTTTTTTTTCTTTATCTAATTCATCTATAATTATCAATACTCTTTTGAATTCATTTATTAAAACGTTTACAAGTTTTTCTAAATATTCCTGAATTGTGTATATATTATATCTTTTATACTCAGTTAAATTTTTAGAGTAATTAACTTTAATTATTGCATTTGTACCAGTACTGTATTCCATATTTTTAGTTTTTTCATTCAGTATAAATTCTTTTGCTTCATTTGCAATATTTTTAGATTTTTTAGATTTACTCTCTTTTAAAGTTAATAGTGATAATTTATACAAAAAATCTATAATAATGCTTTCTTTACTTTCTTTTTCTGAAATTAAAATATTAAATTTTTTTAAATTGCTTTCATCAATAAAATTCAGAGTTGTTGTCTTACCAACACCAGTTTCGCCACAAATACCGTATACGCCAAGAGGTTGGTAATAAATTATTTTATTGATATAATTTAAATCATTTTTTCTATTAATCATATATTTTTTATCTTTTAAAGGTTCATCATATAAATTTGAAATTATATATCTTATTTTTTCATTTTCCATAAAAACCTCCATTGTGACCTATGTGTTTGCTGTATAATTACTGTGACTATAGTATTATTATAACATATATAAATAAAAAAACGTCCTTTTGGACGTTTTAATCTGATATTTTATGTAATTCAATAGCTATTTTTGCACCAACTTTAGCATTATTGTATACGAGTTGTATATTTGATTTTAAACTTTTACCTTCTGTTAGATCTTTAATTTTAGATAATAAAAATGGAGTAACTTCTTTACCAGTTATACCTTTTTCATCTGCTTCATCTAAAGCGTCTTCGATAGCTTTGTTTATTATTTTTGAATCCATTGAATATTCTTCTGGTATAGGATTTGCAATTATTGCTCCACCTTCTAAGCCTAAATCCCATTTTACTTTAAGCATTTCTGCAACTTCTTTTGGTGTATCTAATTTATAATTTGCTTTTATACCACTTTTTCTTGAATAAAATGCAGGAAGTTCATCTGTTCCAAAACCTATTACGGGAACTCCGAAAGTTTCAAGATATTCCATAGTTAAATTCAAGTCGAGTATTGATTTAGCACCAGCTGAAACAACCGCAACATTGGTTTTAGCAAGTTCTTGTAAGTCAGCGGATATATCAAATGAATTTTCTCCACCTCTATGAACTCCACCAGTGCCACCAGTAACAAAAACTTTTATTCCAGCAAGGTTTGCACATATCATTGTAGAAGCAACGGTTGTTGCTGCATTTAATTTTTTAGAAATTATTACTGGTAAATCTCTTCTACTTGCCTTTAAAATATTTTTTTCTTTTCCCATAAATTCAAGATCTTCTTCATTCAATCCTATTTTTATTCTTCCATTTATTATTGCTATTGTTGCAGGTACAGCACCTAAATCTCTTATTATACTTTCAACATTTTTAGCAGTTTCAACATTTTGTGGATAAGGCATACCATGAGAAATTATTGTCGATTCAAGAGCAACAATAGCTTTATTTTCTTTTATACCTTGCATTACTTCATCTGAAAAATCTAAATATTCTGTTAAATTCATTTTACTACCTCCCTATAAAATTTATTATCGAGTACATCCTTTGAAAGTATTTCCGAAACACTATTTTCTGATTCTAAAGTTATTACAGAAGTACATTGGCCAAAAAGAATAGATTCGTCAATGCTCTTATTATTATATAATCCATAAACAAAGCCGGATAAAAACGCATCTCCTGCGCCATTTGCATCTTTAATATTTGCTTTTAATGATTTATAATGTTTTTTATTCTTAAGGTCAAATATACCATTTTCTCCTAGAGTAATTATTATATCACATAAACTATCATAATTCTTTATTTCTTTTAGTTCTTCAATATTTTTTATATCTTTGTTAAAAAATGAATTGAATTCATATAAATTAGTAATTATATATTGTATATTATTTTTTATATTATATATTTTTTTAGCTTTTTGTATAGAAACTGTATTTAATATTAATGTTCTTTTATAATGTATATTTTTATATACAATATATTTTAAAATTTCTTCATTTAAATTTGTATCTAAAATTATATATTTAGAATTAAAAATATTCTTTTCATTTTTATCTATATATTCTTTATTTAAATGATCAATTGAATTCATATCAGATATTGAAACAAGCATATCTTTATTGTCTACTATTGATAAATATATACCAGTTTGTTTGTTTTTTATTGTTTCTATAAAATTTGTATTTACTCCATACTTTTTAGTTTCTTTTATTACATAATTACCAAAAAAATCATTTCCTACAATACCAAACAATTTCACAGGAATATTTAATCTACCCAAGTTTTCAGCTATATTTCTTGCAACACCGCCACAACTAAATTTTATATTTCCAGGATTAGAATTTTTCATTATAATATTTTTTGAAAACCCTTTTATATCAACATTTATTCCGCCAATAACGCTAATTATAAGTCTCACCAGCCTTTTCTATATATCAAAATTTTATCATAATTTTTTTACAATATTATGATACAATTAATTAGAGGTGATTCAATGGATCTATTACAGTTAAAATACTTTAGAGAATTAGCTTACTCACAACATATGACAGAATTAGCTGAAAATTTACATATTTCACAACCATCGTTGAGCATGACTATTGCAAAACTTGAAGATGAATTAGGAATAAAATTATTTGACAGAGTAAATAGAAAAATAATTTTAAATGACTATGGAAGAATTTTTTTAAATCATGTCGATGTTATATTTAATGAGCTATCTTATGCATTAGAAGAAATTAATGAATTGAAAAATATGGAAAATAAAAAAATTATTCTTGCAACTACAGGAACAACTTTTCTAACAAATATTATTATTGATTTTTTAGAAAGTAATTCTGAAATAACGATAAAACAATCACTTGTAGCTTATGAAAAAATAACAGAACTTTTAGAAAAGGGAGTTATAGATTTTGCTATAACTCATCCATTATTAAATAATAAAAATATTGAAAGTAAAGTATTAATTGAAGATGATATTTTAGTTGTTGTTCCAAAAAATCATCCTTTAGCTCATAAAAAAGCTGTAAGATTGGAAGAATTAAAAAATGAACATTTTATAAATTTAACAGAGCATTATGATTTTAGAAAATTAACGGACAGTATGTTTGAAAGATCTGGATTTAAGCCAAATATTATAATTGAAGGAGAATTTACATTAATTGAAAGGATGCTAAAATCAGGTCTTGGTATTAGTATTATTCCAAGAACTTTATTAAACTTATATCCAAATTTCCCTGCAAAAACACTTAAAATATTAGATCAAAATGAAAAATGGTCCATTGGTTTTTCTTGGTTAAAAAATAAATATATGAATGAAAATTCTAAAAAATTTAGAGATTTTGTTCTTAATTACTATAAATAAAGAGGAAAGTCAATGACTTTCCTCTTTGATATTATATTAAACCATCCATTGATGTATCTTTTAATAATTTTTTTATTATAAATTCTCCTGGTAAAGGTCTTCCACTATACATAGCTTTTGTTGCATTAGCCATAACTCTTATATCATATTGACTAGGGTATATTTCAGGTGGATTTTTTTCAAGTTCAAGTAATTTATATACAGCCATTATTGCTGAACGAACTGAATATTCAACTGTAAATACACAATCATTTGGTATTTCTGCATATTGACCTAAAAATGCTAAATTTTTACTTGATTCTGGAACAACGTCTGGTCTATCTCCTTTTACTCTTGGCATAAATTGACTTGTTATATAAGGCATCATTGCAGGAATTACTATTGAAGAATCTATGTATTCTTGCATATCCTTTTCATCAATACCAAAATGGTATAATAATTCTTGTAGTAATTCTTTACCTGTACATTCACTCATTTTTTTGTTAATAAAGTCTCCTTTATTATCTGGGAATAAAGCATAAGCCCATAATACAATTACATCTTCTGGTTGATTTTTAAATTGAGGTTGTCTATTAACAGTAACACTCATTAACCAATTTGAATCTTTTATTGTAATAATTCCACCCGTTACAGTTCTATGTGGCATTATTTTTCTTTCGGCATATTTTTCAATTAATTCTTTCATTTTTGGACCTTTTGCAGTAATTGTAAATGATTCCCATTTTGTTTTATCTACATCACTACAAAAAACTTCAGGTTTTCCAAATAATGGATCTTTTTCTGCAATTTTTTTCCATAATTTCCAAACAGGACCTAATTCTCTATTTAATACTGGAGCTTTATCCATACTACCTAATGTTGAATTTTCAGTCATAGAACCATTTGTAAAAAATACCAAATCATCTGCAGTTGTTTTAATAAATTTTTCTTTTCCATCACGAGTTAAATGAATTCCTAATACAACTTTTTTTCCATTTATTTCTTCTATATCTAAATCAGTAACTTGTGTTTTCTTATTAAATACTACATCTTGAGATTCTAACCATTTTTGAAGTGGTAGAATCATTGAATCGTATTGATTGTATTTAGTAAAAACTAAACCATCCATTTTACTCATTCCAGGCATTAAATGTATAAATCTATGCATATATCTTTTCATTTCAACAACACTATGCCATTCTTCAAATGCAAACATACTTCTCCAATATAACCACATATCAGTTTCTAAAAATGATTTATCAAAAAATTGTTCAACTGTTGTTGCTCCTAATGCTTCTTCAGTTGCAAGAAATAATTTTGTAAGTTGTTTTACATGATTTTCGCTTAATCCAAGAGTTGAAAAATCAAGTTTTTCTCCACGATTTGCTATTACTCTACAATTAGAAAAGTTAGGATCTATATCATTTAATTCTTTAAATTCATCCAATACAGTTTTTGAAGGATCTTCTAATGAAGGTACCATTCCAAATAATTCCCATGTACATTCGTAATGTTCTTCCATTTCTCTTCCACCACGTGCTACATAACCATTTTCTGCATCTCCAGCTCCATCCATTGCACCACCAAAGATATTACCTTGTTCTAATATGTTAATATTTTTTCCAGGCATATGACCATCTTTAATTAAATATGCAGCAGCAGCTAATGATGCAATTCCACCACCAATTAAATAAGCTTTTCTTTCTTCAATATTTTTAGGTTTTTTAGGATTTATTTTTTGATAACTACCCATAACTATCACCTCACTATTTTTAAGTTCATAAATAATAATACACTGTTTTATTAATAAAGTAAAATATATATTTAATTATTTATTTATAAGTTTTTATTTATGAATAAGATAAATAATTTATTTTAAAAGAATTGTATATAAAATAAGGTCTTAAAAATAGTAAGGAAGGATAGTTTTTCTTGATATTAAAAATTGCATTTTATGTCAGGTAAAGTTATATATATAATAAATAACCTTTTTCAAAAATTTATATATTGTTGAAAAAGGTTATTGTTTTATTAAATATTCTTTTTTTAAATAAATACGAAGTTAAGTGACCAGATGGGATACTGTAAAGTTCTTTTTTACATTGTAATCTATTATATAAATCCATTGTTGATTTTTTTGGTATAAAAATATCAAATAATGCTCTAAAATTAATTGTTGGAGATTTTATAAACTTTGCAAAAGTAGAAGGATCATATTCAAAACAAGGCATTGGTGCTTTGTCTATTTCAATATTTGAATTACTTAAAGAATTTATATATTCATCATATTTTTGATGAATTTCATAACATCTTTTTGGATTACATTCTTTATTTTCTTCATATTGAACTCTTAAAGTTTTAGTGACAAAGCTTTTCCAAGTTATATAATAAAAGTTTCCACCAGTTACAGCAAGTGATAAACCTTTAATTTCATTATTTATTGCAGCAGACATTAATGAAACAAACCCACCAAAACTAAAACCCATTAAATATATGTTGTTTGAAAAAGTATTTTTTAAATAGTTTATTGAGGTTAAAGCGTCTACAATTGAGTGTTCAAATCTAGATCTTAAAACTTCATTTTTGGTTGTAGATAAAAATAATTCACCACTTTTATAGCCTTCTGGTGTTCTTTCAAAGTGATAAGGAAGTATCATCATTGCTGCATTATAACCATTTTTTGCAAATTGTTCAGGAAACCATTTTAAATATTTTAAATTATTTGTTCCCAACCCATGTATAAACAATAATGTTTTATTTGAATTTGCATTATATTTATACAAAACAATTTTGGATGATTCTTTAAATTCACATGGATAATTTGATTTTAAAATAGTTTTTCTATCATTTTCTTCAATTATTGATGGAGAATATGAGTAATTTTTTACAAAATACATAAAATTCACCTACTTTATATGACCTTCCGGATCTATTTTCATATTTCTTTTTAAAGTTACATCTATAACATCGCTAATTTTTACATTTGCAAATCTAGATAATTCATTAATTGTCATATTTGCATTTATAAATCTGGTATAAAAATTATTAAAGAGTTCATTAATTCTATTATAAGGGTCTAGTTTTAATATACTATCCATTTTTAAAGTATTTACAATTCTTTTTAATTGGTTTTGTATTAATTTTAAACCAAATTCTGGACTTTTTTCAAAAGTTTCACTTAAAGTTTCTTTAGAAAATTCTATAACATCAAATGGTTTATCAGAAAAAACGGTAGCTTGTCTTTTTCTTTCATTAAATAATGTTGCTTCTCCAAAAAACTCGCCATTTAATATTACAGCTAGAATATTTTCTTCTCCTTCAGAAAAACGCGCAACCTTTACACCACCTTTTAACAATAAATATCCAATATCTTTAGCTCTGTCTCCTTCTACAATTAATACAGTTTTTTTAGGGACGTGCAATCCATATTTTCCATATAAATCATAAAATGCATTATTTTCTTTGTTAACTAAAGTCTCAAAATAATTATATGATAATCTTTTTTTTGAATCTTTAGAATAAACTCTGTGCAAATATTCTTTCCCAAATTGTGGATTTAATTTATATTTTAATATACTTTTCCAAATTTCTAACTCATCATGCATATCTAAATCTAATTTTCTTACATCAATTTTTTCAAGTTCTTTTGCAGCATCTTCTAATTTATTTTCTCTATAATATTTTTTCATTATTCTATAATGAAGTATAAAGTCATTTTCTCTAAATGTATATCCTTTATATATATTAGAAAAAGTTTCCATAGCATTTCCTGGAGAAATATTTGGAGAAATTATTTCATCAACAAAATTCAATCTAAATGTAATTGATTTAAAAATTTTTAAAAGTAATTTTCCATATTCTTTCATTTTTAATAAATTTTCAGGAGAAACAGAAACAATTTTAGCTCCTTTTAAAGCTCTTACAGTTTCTACAGCGGGTATTTTTAATAAAGCCCATTCACCAACAGAACCTGAATCTTGTTTTTTTATTTCATCATTAATTTCAATTTCAATTATTCCATCTTTAATAAAATAAAGTTTATCAACTTTTTGACCTTTTTCATAGAGGGTTACATCTTTCTTTAGAACTTTTATTTCTGATTGCATTAAAATCCCTCCTTATTTTTTTATCATTTAAATTATACCCTAAGAATATTTTTTATCAAAATTAAAATATAAATAGCACAGAATTAATTCTGTGCTATTGTATTATATTTTTTTTCATATATTTCTATTGTATTTTTTAATCCATCCATTTCTTTTTTTATTTCAGATAAAAATTCTAATCCTTTATCAGTTATAGTATAAATTTTTCTTGGTGGACTATAAGTTGTATCCCAATTAAAAGTTATAAGATCATTAGTTTCAAAATCACTCAAAAATGTATAAATTCTTCCCATGTTTCCATTGCCTATTAAAGTAATACCAAATTCTTTTAATCTTTCAACTAATTCATAACCATATGAAGGCTTTTCTGCTATTAAAAGTAATATTATTGATGAAAGCCACCATCCTTTTCCACCTAAGCCTCTACAATTTCTTTGTTGTCTCATGATAACCTCCAAAAACTATTATATAAAAATATTATATAATATAAAACTTTATTTGTCAAATAAAAAGAATAAATGGAATTATTTCCATTTATTCTTTATTATGTATTATGATTTATTTTTATAATAATTCATTTATAATGATTCAGCTTTTTCAATTTCTTTTTTCATAAATTCCATTAATTCTCCTATATACTTTTCTGAAAAATCAAACTTTATTCCAGCTGCTCTATAAAGTTCACTAACAGGCTTAGTATATCCAAGTTTTAAGAAAGCTTCATATTGTTCAACAGCTTTTTTGCCATTTTCTTTAAAGTTTTTATAAATAGCTAAAGCTCCTAATTGAGACATAGCATATTCTATATAATAAAATGGAACTTCAAATATATGTAATTGTCTTAACCATCTATTTCCTTTTTCTTCATCTAAATTTGTCCAATCAATATCAGTATTAAATCTATCCATTAGATCTTTAAAATAATTTGTTCTTTCATCTGCCGTGTGATCTGGATTTAAATATATCCAATGTTGAAAGGCATCTACTGTCATTACCCATGGAAGAACATCTAATGATCTTTCAAATTGTTCTAATACAGCTTTTTTTATATCTTCTTTATCTGTATAATATTCATTTAAATAATCTAAAGTTAATAGTTCCATTGACATAGATGCAAGTTCAGCAACTTCGCTTGGTGTTTGATGATAATAAGAATATGGAATCCAATTCATTGAAAACGAATGCATTGCATGTCCTGATTCATGAAGTAGAGTTCTTACATCTCCCTGCATACCAATAGCATTCATGAATATAAATGGAGCACCTGTTTCACTTAAAGGATAATTATATCCTCCAGGAGCTTTTCCTTTTCTATTTTCAAGATCTAAGAAACCTGAATTTTTCATTTTATTTAAATTTTCACCAAATTCTGGTTTTACATTATGAAGAATTTTTATAGCACTATTTATAAATTCTTCTGTTGTTTCAAATGGTTTTAAAATTTTTCCATCTGGATCTACTGTTGTATCCCAAGGTCTTAATTTTTCTACATTCAATTTTTTTGCTTTTTTATTGTTTAAATCTTTTAAAACAGGAAGAACTACTTTTTCTACTGAATTATGAAATTCAATTAGATCTTCTGGAGTATAATCGAATCTTCCTTTAGCTTTATGCATATAATCTCTATAATTATCAAAGCCTGCATTTTTTGCTATTTTTATTCTTATTTTTTTTAATTCGTCAAATAAATTATTTAATTCTTTTGCTTTTTCATTTATTTTTTCTGCTCCAACTCTCCAAGCTTTTTCTCTAATATTTCTATCAGGATCTTTTAAATACTTTCCAAGTTGAATTAAAGTCATTTCTTTTCCATCAAATTCAACTGTTAATTTTGACATTATTTCTGCATATTTAGTTGTTAATTCATTTTCTTTTATTTGAAGTGGTATGTTTTCTTCCCTAAACATTTCAATTTCATTTGCTATTATTTTTTTCATTAATTCAAAATCCTCTGGGAGATTTTTAAAGTATTTATTGTTGTATATTTTTTTATTAATTTCAAAATCGTATTTATTACTTGGAGATACTACATTTGCATAAAAAGTATTAAAATCTTTTGAATATTCTTCTTTATCTGCAAATCTTGTCATATTAATATATTTCCAAGCCATTTCTTCTGATAAAATATTATTGAACTCACTAACTTTTTTTATAAACTCTAATAATTCTTCTGTTGAATTAATTTCTTCGTCTAATAATTTTTCAAAAATACCTTTTACAGTTTCGAAAGAGTTTAAGTTGATATCTTCTGGAAAAAACTTTCTTTTTGGTTTAACAATTTTTTCATCTGTATACATAATTTCACCCCTTATCTCATATTTATAAAATAATTATAACTCTTTTAACATTTTTTTATCCATGACTTTTGTCATGGTTTTAAATAGTTTGATATGTTAACTTAAATATTTTTTAAAGCATTATTTAAATCATTCATTAAAAGTTCTGTGTTTTCTAAACCAACATGTATTCTTATCAATGAAATATTTTCATTGTTTGATAATTCATTTTCTTTAAGAGTTACTGCATAAGGTATTATTAAACTTTCATATCCTCCCCAGCTAACAGCTCTTTTGAAAAAATTTATACTATTTGTAAACTTAATTATTTTATTTAAATCTCTTGTTTTAAGTTTAAAAGATAATAATCCAGAACCACCTCGCATTTGTTTTTTTGCTAATTGTATTTGTTTATAATCTTTATCAAAAGGATATAAAACACTCTCTACTTTTTTATGTTTTTTTAAAAAATTAACTATTTCCATGGAACTTTTATAATGTCTTTCCATTCTTATGTGTAACGTTCTTAATCCTCTTAAGATTAGCCAAGCAACAAATGGATCTGGAACTGTTCCAATATTTTGAAATTCTGTTTCGAAAATTTTTCTTATATCTTCTTTTTTACCAATAATTATTCCAGCTACTAAATCAGAATGACCTCCAAGATATTTTGAGGCTGAATGGATTACTATATCTATACCATAATCTATTGGATTTTGAAAAATTGGTGTTGCCCATGTATTATCAATAATAGTTTTTATACCATGTTTTTTTGATAAAGTAGATATTTCTTTTAAATTTTGCAACTTAAAAGTAAAGGTGGTTGGACTTTCTAGATATATAATTTTAGTGTTAGGTTTTATAGCATTTTTTATTTCAATAATATCATTACCTTCAACATATGTATGGGATATATTAAATCTCGAAAGATAATTTTCCATTAATTTTTTTGTCCAACTATAAGTATCTTTTACACAAATTATATGATCACCAGACTTAACAAAAGCTAAGATGCTATTTGAAATAGCGGCTATGCCTGAACTAACTAGCTTTGCTTTTTCTCCATGTTCGAGTTCGGCAAGTTTTTTTTCTAAAATATTTACTGTTGGATTGTTTCCTCGTGTATATATATAACTATTTGGTTCATCTAAAAGAGCATTCTTAAAATCTTTAAAATTTTTGTAATTAAATATAGATGTCTGAAAAATTGGGGGGGTTACAGATCCAAAACTTAATTCATTTTCTTCTAAATGATGAAGTATTTCTGTAATATCTTTAATTATTTTTCACCTCCAAATTATATTTAATTTATTTTAAAATTTTTTAAATTAAAATGCAAAGTTCATAAAAATTAATTATATATAATAATCTAAAAAAATCTTTTATAATTAAAAGTGAGGTAAAAAAATGATAGCTTCAATAAGTGATATACATGGATGTTATGAACAATTAAAAAAAATATTAAATCAACTTTCCAAATTTAAAATTGAAAAGACTATTTTTCTTGGTGATTATATTGACAGAGGAACAAAAGTAAAAGAAACTTTGGATCTTATATTGGATTATTCAAAAACAAATAAAAGTATTTTTCTTCAAGGAAATCATGAAAATATGGCAATAGATTTTTTGTATAAAAAAAACTTATACAATGAAGGAGTTTGGTTTAAAAATGGGGCAAAGGAAACATTGAATTCTTTATGTAATTCTTATAATAATGATTATATTAAACATATTGATAAAAAATATATATTTTTTTTAAAAAGTTTAGAAAATAATATTTATTATGAATATAGCAATTATATATTTGTACATGGTGGAATAAGAGATTTTAAATTAAATATTGAAGAACAAGATTTAAATTGTAAAAAGGAAAATGCTATAAAAAAACATTATTCGTATTTGTGGGTTAGAGAAGATTTTCTTAAACAAGAAAAACCTTATAAAAATAAAGTAATAATTCATGGACATACTCCAGTATTTTATTTAACTAATTATGGAATAAAACCCAAAAATATTTATGAATCATATTATAAATATTCAAAAGATCAAGATCTGATTTCAATTGACATAGATACAGGGTGTGTTTATGGTTATTCGCTTTCTGCTTTATTGATTGAAAATAATAATTATTATAATATTAGTATTCAGTGATTTTTATTTTTTTTTTAAATATAGTATAATTTAATTGAATAAAAATATGTGTTAGGGGGAAAAACAATGAAAAAAATAATTTTTTTTATTTTTATATTTTTTTCAATTATTATTTTTTCAAATAAACAAATAAAATGGTTTATAACAAATTATCCACCTGCTTTTATAATAAATAAAAATAATGATTTTAAGGGATTTGAATTTAACACTTTAAATAATTTAATTAAGAAATTAAATCATTATGATATTACATATTATCAAACATCTCTTTCACGTGCTTTAACTGATATGAAAAATAAAAAAAATGTATGTGCATTATTTCTTTTTAAAACTCCAGAACGAGAAAAATTTTTATATTATTCGCTACCTTATAGAGTAACTCTTCCAAATGGAATAATTATAAGAAAATCTGATAAAAATAAATTTAAAAAATATTTTGACAAAAACAATAAAATAAAATTAGAAAGTTTATTAAAAGAAAGAAGTTTAACGTTGGGAATCAATAAAAAAATATCCTATAGTAAAGAAATTGATGATATTATACAAAAATATATAAATAAACCCAATATATTTTTATTAACAAGAGAAAATTATATTGAAAATTTATTAAAATTACTTAATTTAAACCGAATAGATTATTTTATAGGGTATGCTGAAAGCATAAATTATTTATCAAAAAAATTAAATATGAAAGATGAATTTATTTATATACCAATATCTGAAGTGAATAAAAAAATTTTTTCAATATTATACATTACGGCTCCTAAAAATGAGTTTGGTAAAAAAATAATAGATGAAGTAAATAAGATAATATTAAAAACTAATTTTGTAGAAGATGCTGCTAATTACTATAAAAAATGGCTTGATAAATCTTCAATAAATGAATTTGAAAAAATTTATAAGATATTTTTAAAACAATACTTAAATAAAAAATAAGGATAGTTCATTGAACTATCCTTATTTTTTATTCAACAGAATCTATTATTTCCATCATTTTTTCTTTAATTGCATTTAATTTTTCTTTTGCATCTTCCATAGTCTTTCCTATAGAGTAAATATAAACCTTCAACTTTGGTTCTGTTCCTGATGGTCTTAAAGCGTACCAAGATCCATCTTCAAAAAAGTATCTTAAAACATTTGATTTTGGAACATCAGTTTCTTTTTCAGAATTATTAACAAGATCATGTTCTTTCATTTCAAGATAATCTATATATTTTATCATCTTAATTCCACTAAATTCTTTTGGATATAGATTTCTATATTCTTTCATTATTCTTTTTATTCTTTCTTGACCTTCAATACCTTCAAGAATTATTGAAAAGTTATTTTCAAGATAATACCCAAACTCTTCAAATAAACCATCTAATACATCTTTTAAAGTTTTTCCTCTTTTTTTATAATAGGCAGCTGCTTCAACTAATAACATAGATGAAATAACAGCATCTTTATCTTTTACAAAATCTCCAGCTTTAAAACCAATACTCTCTTCATATCCAAAAATTAATTCATATTCACCGTTTTTAGTTATTTCATTTTCTTTTCCACAAATATTTTTAAAACCTGTTAAAGTTTCAAAGGTTGTAATACCATTTTCTTGTCCTATTCTTTTTCCAAGATCTCCAGTAACAATTGATTTTATTATTGCTCCATTTTTTGGAAGTGCATTCTTGCCTTTTAAACCATCAATGATATATTTAATTAATATGGCACCAGTTTGATTTCCACTAAATGAAACATATTCATTATTATGTTTAACCATTATAGCAAGTCTATCACAATCAGGATCAGTTGCAACCAATAAATCTGCATCTACACTTTTCCCAAGATTAATAGAATATTTAAATGCTTTAGTATCTTCAGGATTAGGATATCCTACAGTAGTAAAATCTGGATCTGGATTTTCTTGTTCTGGAACAACATGAACATTTAAAAATCCTCTTTCTTTTAATACTCTTCTAACTGGTTTGTTTCCAGTTCCATTTAAAGGTGTATATACAACACATAAATCTTTATCAACATCATCTGTTATAGAAAGTTTTTTTACTTTTTCTATATATATATCATCAATTTCTTTACCTATTATTTTTAATAATCCTTTTTCAATAGCTTCTTCTTTTGAAATTCTTTTTATTGTAGAAAAATCATTTACATTATTTATTTCTTCAGTTAAAGGATCTGCTATTTTTGAAGTTATTTGAGCGCCATCTTCCCAATATGCTTTATAACCATTGTATTCTTTAGGATTATGACTTGCAGTGATCACAATTCCTCCAGCAGTTTTTAAATGTAATATTGAAAATGAAAGTTCTGGTGTAGGTCTTAAATCTTCAAAAAGAAATGCTTTTATGCCATTAGCAGCAAAAATTAATGCTGTATCAAGTGCAAATTCCTTGGACATATGTCTACTATCATGTGCAATAGCTACTCCTCTTTCAGCATATTCTTTTGATTGTTTATTAATAAAATTGGCAAATCCTTGTGTGGCTTTTGAAACTGTATATATATTCATTCTATTTGTACCTGCACCTAATTTTCCTCTTAATCCAGCAGTTCCAAATTCAAGATCTTTATAAAATCTATCTTGAATTTCCTTTTCATCTGAAATTTTTTTTAATTCTTCTTTTGTCTTTTCATCAATATTTTTGTCTTTTAACCAACTTTTATACCTTTCCATATAATTCATAAAATTCCCTCCCTTAAAAATATTCACAGTAAATTATACCATAATTTATATAATCAAAAAAATAATCTGATTTTTAATATTTTTTGCATTGTGAAAATTCACAATATTATATTTATTTTTTAACATTTTGATACAAAAATAAAATGTATTTAGTAGTATAATGTATCTGCTAATATATTTATATATGTAAATATATAAATATAATGATATATCGGAGGCGGTAGTTATGAGTACACTTCTTGTTTTAGCAATAACTTTTGTAACTTATTTTTTCATTATTTTTACAAGAAAGATTAAAAAATCTATAATTACTTTTTTTCTTGCTTCATTGCTTTTTATATTTAAACCGGTTGAAGGATTTACACTTGAGAATTTAAGTCATATAGTTAGTTTTGAAACGCTTGGAATTTTACTTGGAATGACTATAATTGTTGAAATTTTAAAAGAAAGTGGTTTTTTTACTTATTTTGCAGTAAAAACAATAAAAGCAAGTAAGTATAAATTTTGGATTGTTTTATTTTTGTTAATGGGAATTGTAATAATATTTTCAGCATTTTTAGATAATGTGGTAACTATATTATTTATTGCTCCTATTATTTTTCTTGTAGCAGATACTTTAGAAGTTGATCCAACACCATTAATGATGTTAACTATAGTTATGGATAACATTGGTGGGATGGGAACATTAATTGGAAGTCCAGTAAATATAATAATAGGAACAACAAGTGGTATTGATTTTACAAAATTTCTTGTTACAATGGGACCTATAACTTTGTTAGCATTTGTAGCCTCGTTTTTTATTTTTAAAATACAAAATAAAATTGATACAAAATCTTATAATAAAAAATTAGAAAAATTAAAAGAAATGGATGAAAATAAAGCAATTACCAATAAATCAATGGCAATAAAAGGTGTAGTAATTTTCTTTATAGCATTAATGGGATTTTTAACTCATGAAAGTACACATATACCAATAGCAGTAGTAGCTACTTCATCAGCTTTAGTTTTAATGCTTCTAACTAACAAAGATTTTGAAGAAATGGCTCATGAAATAGATTGGGATACTTTATTTTTCTATTCAGCCTTATTTGCTGTATCTTATGCTTTAAGTGAAATAGGTGCAATAGATATTCTTGCAAATTTATTTATGCCACTTATGAATACACCAATGTTGTTAATGTTAGTTTTTATGTTTGTATCTGCAATGGTAATGCCATTTTTGAATTCTGTTCCTGGAACATTAGTGTTGGCTCCAGTTGTTTCCGTTTTAGTAAATAAAGGCGCTCCTTTTGAATTATGGTTTGCATTTGCTATGGGGGCAAATCTTGGAACAAACTTAACTCCTCTTGGTGCTGTTCAAAACTTTGTGGTAGTTGGATTACTAAAAAAAGATGCAAATGTGGATATTTCTTTTTCAAAATATATGAAATATGGATATATTCACGTTATTGTTTCATTGATTATAGCGGTTGCATATTTGTTTTTTCATTATTATGTAATGGCTTAAGGAAGTGTGATTATGAATGAAGAATTAAAAATATTTAAAGCATTAGCCGATGAAACAAGATTAAAAATAATAAAAATATTATTAAAAGGAGAACACTGCGTTTGTAAAATAGTTCCACACACAAATAGATCACAATCAACCGTTTCTAATCAATTATCAAAATTAGAAAATCTTGGAATAGTAAAATCAAAAAGAGATGGTAGACGAATATGCTACTATATTGTAAATGATAAAATTGAAAAAATATTAAATATTTTTAAAAAGGGAGTGTGATTATGGGAAGTATAACAAGTTTTCTTATTGTAATTTTTGTAGTTGGTTTTGTAACAGGTGGATTAAAAATAAGATTTGACCGTTTTTTTGCAATTCTAATGTTAATGACCGTTGCAGGTAAAGGTATAAGAAGTGCAATTGATTTGTTTTTGTGGGTAATTATGCTTGGTAGTTTATATATAATACTTGAAAATCAAGAAAAAATCAAAAAGATGCCAAAAGCAGCATTAATAAAATTTTTTACATTTATACCAATAATGACATTTTTTAGTTCCTTACTTGGATCATACTTAAATAGCTTGAGTTCTAATAAATTTTTAACTATAACATTAGGAATCTTAGCTTTATTATATGGTTTAAGAATGATATTTATTCATTTCAAAGATCATGAAATGGATCATAAAGATCCTAAACCTGGGTTTGTAAAATTTTGTGGTTTTTTTGGACCAATAATAAGTGGTTTTTCAATAGGTTTTATTGGAACGTCATTAAAATCATTAAAATTACCTCTTGCAATTAAAAGTGGAAAAATGAATGCAAAACAAGTGTATTTAGGTAATACTATGACAGCATTTTTTTCTTCGTTATTTGCTATAATGTGGCATTATATATTTACTCCTTCAATGGAAGCCTTTGATAGTTATATTTATGCTATAAGTTTGTGGGCATCAATACACTTTGTATATGACTTAACTAATGTTTTCTTTAAAGATAAGTGGAGAAAAGGATTTCAAATTTTTATTGGAATAGCATTAGTTTTAGTATCATTTAAGATTTTTTCTATGTAATAAAAATAAAAAAATGTTCTTTCATTCGAAAGAACATTTTTTTTTAATTATATTTATTATTATAAATCTTTGGTATTCACCCATTAATTTATATTTTAATTTAATTAAAAATAAATAATTGATTATTTGATTTGTAATATAATAATATTATAATATGTACGAATGTTCATATATAAATAAAGGGGTGATTTAAAATGGAAGTTATAAAAAAGTTAACCTTTAATATAAAAAAATATTTAATTTTTTTTACATTAACTTTTTTATCTATTGGATGGATTTTAGGAGCAAATTTTTCAAAGTTTGCTGCAACGAATAAATCTATTTTTTCAAATGTAATTGTATTTTTTGTTTTTTTTATGATTTATCCTATGATGATAAATATGGATTGGAAAAAAATAACTAAACTATTTAAAGATCCTAAAGCGATTTTATTAAGCTTATTATACAACTATTTAATTACTCCAGTAATAGCCTATATATTAATGCGGTTATTTCTTCACAATGATGAATTAGCACTTGGATTTATGCTAGTAATGCTAATACCAGTAAGTTCTTCAAGTATAGGATATACTGGAATAGTAAAAGGTAGTGTTGAAGTGGCAACAATAGCTCAAACAATAAATTTTATTTTAATCCCTATACTTGCTCCAATTTATTTATCAATAATAGCTCATGGAAGTAAAATTACAATACCAATGAATTCAATATTAAAATCAATGTTTTATGTAATAATATTACCAATAATTTTAGGATATATAACAAGAGTAATTATAATTTCAAAAGTTGGAGAAAAAGGCTTAAAAAGAGCAAAACCTTTAATAGGATTAATAACTTTAGTATCAATGTTGGGAGTAATATTTTTTATTTTCTTTTTAAAAGGTCATATGCTTGTTAGTAAATGGAATTTATTAATTATACTTGGATTTTTAACTATAATATATTTAATAATTGCATTAGTATTTGAAACTTGGTTTAATAAAAGAGCTGGACTTACATATGAAGAACACATGGGAATTGTATTTTTAAGTACTGGTAAAAACAATGGTACAGCAGTGGCAATTGCAACACTTGCATTTAGTCCATTAGTTGCTATACCTGCTGCAATATTGCCTATTTTTCAAATAATATTTATGATATTTTATGTAAAATTAGAAAATAAAATAAAAAAGTATTTTGAAAAAAATACTAAAATAAATTATACAAGAAAATACGAGGAGGAATAGAATGATACAAAAATTTGTATTAGAAACAACATTGCATCCAGAAGAATCTGTTTCATTACACAAAGCACGTGGTTTAGAAACAAAAATTTCTGTAAATACTGAAGGTAAACATACTCATGCTCATACTCCAGTTGAAACAGTTATTGGAGCATTAGGTTCTTGTTTAATAATAAATACACAAAGATTTTTTAAAGCTAAAGAATTAAATTTTAAAGATATAAAAATGACACTAAATGGTTATAGAGATCCTTCTATACCAAAACTTGTAAAAATAGAATACTTTATGAAAATAGAAACAAATGAAACAATTAATTTAGATGAATTAAAAGAATTTATATCAAAAAAAAGTACAACATATAGAACTTTAGAAGATTCAGTAGAAATAGTTGGAGAAATTGAAAAAATATAAAAATTATGATAAAACAATAACTTTATTACTTCAATAAAGTTATTGTTTTTTTATAAAAATCCTCAAAAACGTTTTTACCAATAATTAACGTTTAAAAAATAATTTTGAAATAATTATTATTTATAATGTAAACGAATTAATAAAATAATTAATTAATTAAGAAATTACTAATATATTTAATACAAAAAGACTTTATAACTATTTGTGAAAAAAATCATATATTTTCACAAAAAAAAAATCATGGAGGTGTTTTTTATGGCAAAGTACGAAGTTACAAAAACATTAGATGTTATGGGAGAAGTATGTCCTGTTCCAGATGTTGAAACCAAAAGAGCTATGAAAAAGATGAAACCTGGAGAAATTTTAGAAGTATTGATTGACTACCCTATGTCTAAAGAAAGAATTCCAGAAGCTGTTAAAAAAATGGGTAACGAAGTACTTGAAATTGAAGAATCTGGAAGTTCAGAATGGAAAATTTATATTAAAATAAAGTAATCTAAAGGGGGAGTAAATTTATGGAATGGTCCGGATTAATAATCGGTCTTATTTTTGGGGTAATTTTACAAAAAGGAAGAGTTTGTTTTAATTCAGCTTTTAGAGATGTTTTAATGTTTAAAGATAATTATTTAATGAAACTTGCTGCATTAACACTTGCATTAGAATCAATAGTTTTTGTTTTATTTGCTCAATTTGGTTGGATGACTATGAATCCAAAACCATTAAACTGGGGAGCTAATATTGTTGGTGGTTTTATATTTGGGTTAGGAATGGTTTTAGCTGGTGGATGTGCTTCAGGTGTAACTTATAGAGTTGGAGAAGGTATGACAACAGCTTGGTTTGCGGCTGTTTTCTATGGTTTAACAGGTTATGCTACAAAACATGGTGCTTTTAATTGGTGGTTAAAATTATTTGGTCAAAGTATAAAAACTACAAATGATTCACAATACTTTGTAGAAAAATCAGGACCAACACTTTCTTCTGTTTTACATTTAAATCAATGGATCGTTGTTGCCATATTTGTTGGATTGATGTTATGGTATGTTTTTGGAACAAAAACAACAGAAAGACCTACAAAATTAGGATTTAAAACAGCATCTATTCTTATAGCTTTACTTGCTGGGTTTGCCTTTATAACAAGTACAGCTTCAGGAAGACATTATGGAATGGGAATTACTGGTGGATGGATAAATTTATTTGATGGATTTTTAAATAAAAAACCATTAAATTGGGAAGGTTTAGAAATTCTTGGTATTATTGTTGGAGCAGGAATAACCGCTAAATTAGCTGGTGAATTTAAGCTAAGAATGCCTAAAAATCCAATTACATATTTACAAGTAATGATAGGTGGATTTTTAATGGGACTTGGAGCTGTAACTGCTGGTGGATGTAATGTTGGACATTTCTTAACAGGTGTTCCACAATTAGCAATATCATCAATTGTTGCTTCAATATTCTTTATATTAGGTAACTGGACAATGGCATGGCTATTGTATAGAGAAAGAGATTAAGTTAAGGAGGCATTTTATGAAAATAGCAATACAAGCAATGGTTCAACCTTATACATATCAAGATCTTGATTCGATAATAAAAATTGCTGATGCAGCTCTTGATAAAGGACACGAAGTTACAATATTTTTATTTTGTGACGCAGCATTAGCAAGTAATAAACAAATAAAACCAGTAAGAAGTGATAGAAACTTACCAAAAATACTTGAAACAATGATAAAAGAAAAAGGATTAAAAGTAGATATATGTGGAATTTGTATGGATTATAGAGGAATAACAACAGACATGATTATCGAAGGTTCAAGAGCTAGTGGATTACCTGAATTAGCTGAATTAGTGTATAACTCTGATAGATTTATAAGCTTTATGGCGTGAGGTGAAATATGGATAAAAAAGTATTATTTGTCGTTTATCAATCTCCTGTAGGATCATTATGGACAAATGAAGGATTTAGAACTGCATTTGGTATGTATGGAGAAGATATTGAACCTTCTTTATTGGTTTTAGAAGCTGCAAGTACTTCATTATCTAAAAATACAGCACCTGAAAAAATGGGATTATTACCAATAAAAATAGTTCATAGATTTGTAAAAAGATATGAAACAGAAGTTTTTGGCGTTGAAGAACATTTAGAAAAGTATGGAGTAAAAAAGGAAAATATCGATGAAAACTTTAATGCAAAATTATTAAAAGAAAATGAGTTAAATGAGTTTTTTCATTCTTTTGATTCAGTAATATTTATGTGAGGTGTTAATATGGCTCTTGTTTTAGTTAAGTATGGATTAGATAATCCAGCAGAAAGAATTAAACTTTCTAATACTAAAGATGAAGATACAATTGTTTTTATACAAAATGGAATATTTTGGACAAGAACAGCTGAAATAAACTCTATAAAAGGTAAAAAAGTTGCAATAAAAGATGATTTTATTTGTAGAGGTTATGATGAATCAGAAGCAAAAGTACCTTTAATTGATTACTCTAATTTTATTGATATAGTTGAAAAAGAAGAAAAATTTATAGGATAAAGGAAAAGCTAACGCTTTTCCTTTACCTTAATATTAATTTGGAGATTTAGTATGAAGTATAAAAAATTAAATGTACAAACATTGGATTTAACTGATTTATTTAAAATCCTTACAAATCAAGCAAGACTTGAAATATTAGTATTATTAAAAGATAGCTGTTCAACTTTAAATGAAATGATTGAAAAGTTATCAATGGATAAATCAACAATATATAGACATTTAAGATATTTAAAAAATAGATCATTAATAATTTCTTATGAAAAAGATGGAGTTGAACGTTATGATCTTTCATGTAAACTTGTATACGATCTTATAGAATCTGGAATACAAATATTGTCAAATTTAAAAAATATAAAATCATATTCTTACAATAATTTAAAAATATTTTCTAATGAAATAAAGAATATTGAAGAAATAAATGTTGATAAATTTATAGATTTATGTGGAGAAGTATGTCCTGTTCCAGATGTAACAGCAAGAAAAGAAATAAAAAAATTAAAAAAAGGACAAGTATTACTTGTTATAGTTGATTATCCATTATCAAAAGAAAGAATTCCAAAGATAATAGAGAGTGATGGTAATGAAATTTTAGCTATAGTAGATGATTCACTGAGTACAAAAATATACATTAGGAGGAACTAAAGATATGTTTGATGCAATAGTAATTGGTGGTGGTCCAGGAGGATATGTTTCTGCTATAAGACTTTCTCAGCTTGGTAAAAAAGTTGCTATTATTGAAAAAAAAGCTTTTGGTGGAACATGTACAAATGTTGGGTGTATTCCAACAAAAGCCATGTTAACTTCAGCACATTTATATTCAGAAATAATTGAAAAATCAAAAAAGTTTGGAATAGAAGTAGAAAATGTAAATTATAATTTTAAAAATATAATGAAACATATGGAAAAAATAGTTACATCATCTAAAAAAGGTGTAGAATTTTTAATGAAGAAAAATAAAATAACTGTATACAATGGAACAGCAGAAATTTTAAATAAAAATACAGTTAAAATAAAAGAAACAAATGAAAATTTAGAAACTAAAAATTTAATATTGGCACATGGTTCTGTTCCAGTTATGTTTCCACCATTTGATAAGGTTGAAGGGTTGTGGACAAGCGATGATGTTTTTTCACTTGAAAAACTTCCAGAATCAATTTTAATAATAGGTGGAGGAGTAATAGGAATTGAATTTTCAACATTTTTTTCTACTTTAGGAAAAAAAGTTTATGTTATAGAATTAGCTGATCACATTTTACCAACAGAAGACTTAGACGTTGCAAATGAAGTCAAAAAAGTAATAAAGAAAAATGGAGTTTCAATATATGAAAAACATAAAGTGCTTGGAGTAGAAAAAAATGAAACTTCATATATTACTAAAATATTAAATTCTGAAACCAATGAAGAAATAAGTATTGAAACTGAAAAAGTACTTATGGCTGTTGGGAGAAAACCAAATATAACAGATGATATTAAAAATCTTGGAGTAAATATTGAAAGAGGCGTAATATCAAATGATGAAATGAAAACAAATATTGAAAATGTATATGCAGTAGGGGATATAAAAGGGAAAATAATGCTTGCTCATGTTGCAATGTTTGAAGGAATTGTTGCAGCACACAACATAGCTGGTGAAAAAAAATTAATGGATTATTCAGCAGTTCCATCAATAATTTTCTCTAATCCAGAAGTAGCTTCAACAGGTTTAAGAGAAAAAGATTTAGATAAAGAAAAAGTAATAGTATCAAAATTCCCACTTTCTGCAAACCCAAGAGCACGTACTCTTGAAGAAAGATATGGTTTTGTAAAAATTATTGCAGATAAAGAAACTAAGAAAATTTTGGGAATGTCTGTTGTTTCACCAAATGCAACAGATATGATTATGGAAGGAGTTATTTCAGTAAGAAATAATATGAATATAGAAAATTTAGTTGATTCAATTCATCCTCACCCAACTCTAACAGAATCTTTTTTGGGAGCATTGGAAGGATTAGAAGGAATGGCAATACATCTTTAAAAAAAGGGAGGATTTATTATGAAAAAATATTCAGAAACACATGAATATGCTATTATAGATGAAAAAATAGCAACAATAGGAATATCAATTAATGCAGCTGATGAATTAGGAGATATAACATTTATAGAATTACCTGAAGTTGGAAAAGAAGTTAAGAGTGGAGATGTTTTGTGTACTCTTGAATCTGTAAAATCAGCCGGTGATGTTTATACTCCATTAACTGGAAAAGTAATTGAAGTTAATAAAGCTTTAGAAGAAAAGCCAGAATTAATGAATGATGATCCTGAAGACGAAGGTTGGATTTGTAAAATAGAATTTAGCGCTAAAGAAGAAATAGATAATTTAAAAGATAGTGATTAAAAAAATATTTAAACAATTAAGTATTTAAATATATTAATATACTTAATTGTTTTTCTAATAACCATAATATAAGTGTTTTTTAATATTCTAATATATTAAGAGGTGATAAATATGGCAGTTCCAAATGATGTTCCAGCTATAGGTAAAGATGCATTGGGAAGAGAAGTAAAAGATTTAACAAAAGTTTCATGGTGGGGTTTAAATAGAAAAGAAGTTGAATGGTTTCCTAAGATTGACTTAGATAAATGTGCAGGTTGTGGTATTTGTTTTGTAAGTTGTGGAAGGAGAGTATTTGATTTTGATGCTTCATTAGAAAAACCTATTGTTGCTCAACCTTATAACTGTATGGTGGGTTGCCAAACTTGTGCAAATCTTTGTCCAACATCAGCAATATCTTTTCCTGATTCAAAGGAAATAAAAAAAATGGTTTCTAAAAACAATGTAGTAAAAAAAGCTTTTGAAAAAATCCAACCTCTTTTGAAAAAAGATAATCTAAGTGAAAAAGAAATAAAAATTACACCAAACGAATAAGAAGACAGCATTAGCTGTCTTCTTATTCGTTATTTTTTATTAAACCAACAGATTCTCTTTGTTTGTACTCCATCTGAATGGTTGTATGCTCGATATCAAAACTATCATGAGCTAACTTTGATATTTTTTCTCTTATTATATCTGCTTCACTTAATTTAACATCATCTTTTAGCTTTATATGAAATTCAGCATGAATATCATGTTCACTCAATCTCCATATGTGCAAATGGTGTATATTTTCAACTTCTTTTATTTTATTTATTTTATCTTCTAATTCTTTTACATTTATTTCTTCTGGTGTTGCTTGCATTAATATCTTTAAAGTTTCATTTAATATTTCAAAACTTTCTTTTATAACATAAGCACCTATTAAAGCTGTTAAAAGTGGGTCTATCCAATATATTTTAAAATAATAAATCATAATTCCACCTATAACAACACCTACAGAAGATAATGCATCAGACAATAAATGAAGATACGTTGATTTTATATTAACACTATCTTTTGCATTTTTGCTTAAAAGAATTACTGAAAGAGTATTTGCAATTAATCCAATGAGTGCTACCCATATCATAACTCCACCATTTATTGGTTCTGGATTAATAAACTTTAAATATGCTTCTTTAAATAAAAATATTGATACAATGACTAAAACTGAAGCATTGAACAATGCCGCAAGTATTTCTGCTCTTTTATAACCAAAGGTCATTTTTTCTGTATGTTTCTTTTTAGATAATTTTAAAGCTATGTAAGTTATAATAACTGAAAAGCCATCACTTAAATTATGGAGTGCATCAGACAACAAAGACAAACTACCTGAAAAAATACCTCCAATAATTTCAGCAACTGTTATTGAAAAATTTAAAAACATTGTTATAATAAGATTTTTTGAGTTTATTTCACCATGAGAATGATGATGCGCCAATTTAATCATCTCCTTTTACATGTTCATCTCCGATTTTAATTATTTTTTCAATATGTTCATCATCAAGAGAGTATCTAATAAATTTTCCTTCTCTTCTAGCCTTTACTAATTTATATTGTTTTAATAGTTTTAATTGATGTGAACAGGTAGATTGATTTAACTCTAAAAGTGTTGAAATTTTTTGGACACATTTTTCTCCATCTAAAAGTACGTGTAATATTTTTAATCTTGTTGGATCTGCAAAAGCGGAAAAAAATTCAGCAATATCTACATAATAATCATGTTCTTTAATATTTTCTTTAATAATAATCACTCCTTTACCTTAAAAATATATTTCCTAGCATCAATACTGCAGCTAACCAATTAGTATAAGCAAATATTTTTTTTAGATTTTTTGGTCTTGATTTTAAAGCTAACTTACCTCCAATTACTCCACCAAAGATTGCTATTATTGCCAATGAAATTGAAAGAACTGCATTAAAGTCTCCTTGAAATAAATGCCCTAAAAAGCCTGTAAATGCTGTAACCATTATCAATGGAGATGCTGTTCCAACCGCTACATACATTGGTACAGAACAACCTAAAACCATTAATGGAACTAAAAATGAACCTCCAGAAACGCCAACCATACCAGATGTAAATCCTATTAAAATAGTTATAGGAATAATTAGCCATAAGTTTATTAAATAATTATTATCTTTTGATTTTATAGTCCAATAACCAATTTTTTTATTTTTTGATGTGATATTTTTTTCTGCAACAGGAATTAACATTATTATTCCAGAAATAATTAGTAAAACTGAAAAAGTGAGTTTTAATGTTACTGGAGTAAAAAAATGAGAAAAATACCCACCTAAAAAAGCAGATGTAGCAGAAAGCCCTCCTATTAAAAAAGCTAAACTCCAAATTACAACCTTTTTTTTATGAAAAATAATCATTGCTGCAAATGCTGCACTAAAAAGTATAAATTGACCAGCTGTTGCTGCTTGACTTATTGGAATTCCAAATAATGTTAGTATTAACACATAAAAATTGCCTCCTCCTTTTCCTACCATTGTCATAGTAAGGGCTATAATGAAAATTAATATTCCAATTATTGTATTTATCATTCATTTTCACCATTAAACATATTTTTTATTTTTAAAATATCTTCAGTCCTTTTTTTATAATATAAAACAGGAGCTCTAAATTTCATAACCTTTCCATCATCATTAACTGGTATTAATAGTTGAAAGTCTTCTCTAAAATCTTGCCAATCTACTAAAATAGGAATATCTAATTTGAATTTTAAACATTCTTTTAAACTCGAAAGGTATTTTATTTCTTTAAAAGTATCTTTAAAATCATTTAAGTCATTTTCATTTAGATAAGTTAATACTGATAAATCTTTTAATTCTTCTTCATAAATCATTTCTTTATCTTTAAAGGCTAAAGTATATCCGTTTTTTAATCTTAATTCTTTTGTATCTTCAGATAATTCTCTTTGCTTTGCACTTCTACCTATCAAAACTGAATCAGCTTCATTATATTTAAGCATAGATAATGCTTGAGCCGCACTTGGAACCTTTATAAATTCTACTTCATCACTTACATTTTTTAAAATTTCACTTGCAAATGGTGTCATTGTGGGACAATAAACTAATTTCATATTATCACTCCTTTTCTATTTTTATCATTTTAACATATGAACGTATGCACATATATTATAAATTTTATTTTCTTATTTGTCAATTACAATTTTATTAAAAAATAATTAAGCATCAAATTCTGTATGAATATATGCTAATATAGATATTAGATACTACATTTAGCATAAAAAATATTTTAGGGATGTGAAAATATGAAAATTGCATTTATTTCTGATATACATGGAAATATAGAGGCTTTAAACTCTATTTTAAATGACATAGAGAAACAAAATATAGATAAAATATATAGTCTTGGTGATTTAGTTGGGTATGGTCCAAATCCAAATGAAGTAGTTGAAAAAATAAGAGAGTTAAAAATACAGAGTGTAATGGGTAATTATGATGATGCGGTTGGAAATGAAAAAGAAAGTTGTGGATGTACATATAATCCAGGAAGAGAAACAGAAGTTGGAGATGAGTCAATAAGTTGGACAATTAAAAATACAAGTTCTGAAAATAAAAATTTTTTAAAAAATCTTCCCAAAAAACTTCATATTGAATTTGAAGGTCTTAAAATATTGTTAGTTCATGGCAGTCCTTTAAATGAACTTTTAGAATACGTAAAACCAAATATAGAGGTTAATAGACTCAATGAGTTGGTTAATTCTGTAAATGAAGATATAATAATAAATGGACATACTCACATTTCAATGGAAAAAAATATAAATGGAAAAACAGTATACAATGCTGGTAGCGTTGGAAGAACAAAAGAAGGAATTCCAGAGGCTGTATATTTAATCATTGATATTAACAACGGTGTTTATTCACATGAATTCAGAAGAATAAAATATGATACTAAAAAAACTTGTGAAAAAATAATAAATACTGGTCTTCCAATTGAATTAGCTTTAGTTATAGCTCTTGGTTCAACATATAATATGGGAAATTCTAAAAAGAGAAGTATAAAATTTAAGTTGTAAAAAGCAATGCTTTTTACAACTTAATTATAATTCTTTTTTTAAAAATAATCTTAAACTAATCAAATAAAATATAATACTTAAAAATAATAATAAAATTGTATACCATATACTAAAAAAAGGATTTGAAATAAAATAATATATACTTAATTCTTTAATTCCAAAAATTGATACTGATGTAAAAAATACAAGAACAAAAAATGAAATTATCAATGTTTTTGATTGTTCATTTGTTAATAAAGAAATGAATATTGTAAAACTATAAAAAATCAAAAAAGCTGTAACATGTCCCAAAAAATATTCAAAAAATATAGATGAATGAAGAATTTTATTTTGCAGTATACCAAAAAAAGGAAAAAGATCTATAAATAGTATTAATATTATAGAAAAAATTAGATTAGAAAAAAATTTATAATTAAAAAAATTTTTCCTACCTATTCTAAGTAAAAATATTGATATTGTTTTTTTGGTAAATTCCTTAGTAAATATTGAAAAACTTAGTAAAATTCCTAAAAATGGAATAAACTGTCCAATATTTTTTATATACCATTGTGTTTTTATATAAATTGAATAATCTTTTAGATTTTCTTTATAGCTTTCATAATCTTGATTTGAATTGAACATTTCTCTTAATGAAGTATTGGAATTAAATATTTCATAAGTTTTTTGTTGCATAAAATACAAAAACAAAAACATAGTTAAAAATACAAAAAAAGTAATTATTAATTTTAATCTATTATCTTTTAATTCTTTTTTAAACATTTTCATGTCCTCCAATCAACTCTTCATAAATAGTTTCAAAAGTCAAATCTTCTGTTTTAAATAAGGAGGTATCATATTTTTTTTTATCTACTATATACAAATATTCATTATTTACAATATTTTTTTTACTAATAAAATCTTTTAAATCATTAGAAGTTAAAAGTCCTATATATCTTGATTTTATTTTGTCAATATAGTCAAATTCTACTATCTTACCATTATTTAAAATTAAAACTTTTGAAGATATGAATTCTACTTCTGACAATATTTGTGTTGTAAAAATTATTGTTTTATTGTCATAAGAAAGTTTTAAAATTTCCTCAAGAATCTTTTTTTTCGTTATAGAATCTAAAAAAATAGTAGGTTCATCAAATAAGTATACATTGCTATTTCTTGATATAGTTATAATAAAATAAAATAAAACTTTTTTACCAGCAGACATTTTTTTTAATTTAATGTTTTTATCTATTTTAAAATTATCTAAGTATTCTAAAGCTTTTTTTAAATTAAATTTTTTATCAATGTTATTTATAAGTTTTATAAATTCATTAGGAGTGTAGTTTTCATATAAAACTTTATCTTCAGGTAAATAAGAAAAATCATTTATTATATCATTTTCAGTTATTTTATTGTTTTTATATTTTATTTCTCCACCGCTCTTTATTAATTTTAACAATGATTTTAAAATTGTTGTTTTTCCAGCACCATTAGGTCCAATAATTGATAAAATTTCACCTTCTTCAATATTAAAACTTATTTTTTTTAAAGTTCTTTTTCCAAATTTATACATCTTTTTTAAACTCTTTACTTCTATTAAACTCATTTTGAATCACCTTCCAAATATTCTTCAATAAAATTTATAATTTTCTCTTTATCAATTCCACTTCTTTTTATTCTATATTTATACATCTTTTTTAAACTCTTTACTTCTATTAAACTCATTTTGAATCACCTTCCAAATATTCTTCAATAAAATTTATAATTTTCTCTTTATCAATTCCACTTCTTTTTATTCTATTTAAAATTATTTTTAGTTCATTAAAAATTTCTACTTCTATTAATTCTTCGTTTATTTTGTTAACAACATATCCCTTGCCTTTTTTAGCAGTTATTATTTTTTCAAATTCAAGTTCTCTATAGGCTCTTGCAACAGTATTTAAATTGACTTTTATACTTTCAGCTAAAACTCTTATTGAAGGTAAGTATTCACCTTCAATTATCTTTCCAGAAAGTATTAAATCTTTTATTCTATCTTTTATTTGTTCGTAAACAGGTTTTGGCAAACTATAATTTATTTTAAACCACATTTTTAATTCTCCTTTCTGCTATACTATTATACTATAATATTTGTAATATCTTAATAAATAAAGTCGATAATATATTGATTCACAAATAATACTTTAGGAGGGATTTATATGCGTATTAATTCAGTAAATGAATATCCATTAAATCACCTCAATTTCAAAAATTCAAAAAAAAGTAAAAAAACAAAGATCTCTGTAACTTCAGTTTCTATAAAAAAAGAAGAAATTGAAATTGAAAAGTTTAATGACTATTCAAACTTAAAACCCAAGGAAGTTAAATCAAAGGAAGCTTGGAAGGTTTTAAAAAATAAATATGGAAATATCTTTTTAAAAGTCAAAGAATATGTAGACTATTTAGTAAAAAAACAAAATGGAATAAAAGTAAAAGAACCAGATTTATCAGAAATAAAAGATGAATTATCAAAAGAAGATTGGTCTGCAGAAGGTGTTGCAAATAGGATAATAGAATTTGCCAAATCTATCTCTGGAGGAGATAAAAGTAAAATAAAACTTCTTAAAGATGCTATTGAACAAGGTTTTAATGAAGCAAAAAAAGAATTAGGATCACTACCAGAAGTATCTCAAAAAACTCATGATTTGGTTATGAAAAAATTAGACGAATGGGAAAATGAAAAAAATACTGAAGATAAGGAGAATTCAAATGGAAAAAATAATTGAATTCATAAAAAACACAGTAAATAAATATGGATATAAGGGAGCTGTTATAGGAATAAGTGGAGGAATAGATTCAGCAGTTGTTGCTGGATTATGTAAAAAAGCAATTGGAAAAGAAAATATATTTGCACTACTATTACCAGAAAAGGATTCATCAAAAAACACTTTAAAAGATTCTATAGATGTTTGTAATTTTTATGATTTAGATTATAAGATAAAAAAGATATCACCCATTTTAAAGAAAATGGGTGTGTATTCTTTAGAACCATCATCAACTTTAATACCAAGAAATATTAAAGAAAAATATGTAATGAATAAGTGGACAAATGAAAAAGATACTTATATTCAAGATTTGAAAAATGAAGGAGATTCAGAATTTTTAAAAGGTCTTGCATATTATAGAGCTAAGCATAGAGTAAGAATGTGTATGTTATATTTAGAAGCTGAACAAAGAAATTATGCTGTTATTGGAACAACAAATAAAACAGAATTAAAAACTGGATTTTATGTAAAGTATGGTGATGATTCTGTAGATATTGAACCAATAATGCATCTTTACAAAACAGAAGTTTATGAACTTTCAAAAAAATTAAATATACCTAAACACATTATAAATAAATCACCCTCACCAGATCTTATTCCTGGAATTACAGATGAATTTGCTATGGGATTAACTTATAAAAATATAGATAGAATTTTAAAAAAAATAGAAAATAATGAAACTCTTGAAACAGAAAATAAAAAAGAAGTTGAAAGAGTAAAAGAAATATTAAAATGGGCAGATTACAGGAAAATAAAAAACATTAATTTTAAAATATAATTATTTAATTATGATATAATTAATTTGAGGTGATAAAAATGAAAAAAAGGCTTCCAATAGGACAAAGTGATTTTAAAACTATAATAGAAGAAGATATGTATTTTGTAGATAAAAGTATGTTAATCAAAGAGGTTATTGAAAGCGGAAATGTTTTATTAATAACAAGACCAAGAAGGTTTGGTAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAATAACGAACACCTTTTTAAAGATTTAAAGATATACAAAGAAAAGAATATAATAGAAAAACATTTGAATAAACATCCTGTTATATACATTACCTTTAAAGATTTAAAGTCTAACAACTTAAAAAAGATGCATGACTTATTATCCATGGAACTTTCATCTTTATACATAGATCATAAGTATGTTTTAGAAGTTTTAAATGAAGAAGAAAAATCAGTATATAAATCAATAACTTCAGAAACGGCGGATGATGCAAAGTATGAAAACTCTATAAGAAACTTATCAAAGTATATGGAAAGATACTATGGTAAAAAAGTAATAATATTAATAGATGAATACGATACTCCCATTCAACAAGCTTACTTACACGGATACTATGATGAAATAATATCTTTAATTGGTAACTTATTTGGCATGGCATTAAAAGATAACGTATACCTTGAAAAGGCAGTTCTTACTGGTATAACAAGAGTTTCTAAAGAAAGTATCTTTACTGGTGTGAATAACTTAAAGGTTTCTACTGTATTGAATGAACTATTCAATGATAAGTATGGTTTAACTAAAGAAGAAGTTGAAGAAACATTGAAGTATTATGAACTTGAATATGAAGAAAATGAAGTTATAAATTGGTACAATGGATATAACTTTGGTGGTGTTGAAATTTACAATCCTTTTTCTATTATAAACTTAGTAGATGAAAAAAAGATAAGACCATATTGGATGAATACGAGTGGAAACTACTTAGTTAAACAATTAATAAAACAAGGAAGTGCTGAATTAAAAGATAAAATAGAAAAACTAATAAATGGTGAAGAAATTGAAAGTACAATAAATGAAACTATGGTTTATGGTGACTTAAATAATAACTTAGAAGAGTCTGTATGGACATTGTTTTTATTCAGCGGATACTTAAAATGGACAAAAAATATAAATCATGATTATGAAAGATATACATTAAAGATACCAAATAAAGAAGTAAAAATATTTTACAATAAAACTGTAGTATCAATGCTTGAAGAAGAAAGAATAAAACTCAATAATATATTAATAAACTTAATAAATGGACATATAGAAGAGTTTAAAGAAGACTTTCAAAAACTAACTATGAATACATTGAGTTATTTTGACGTTAGTGGAGAAGAACCAGAAAGATTTTATCATGGATTAATACTTGGAATGAGTGTTGGTTTAAAAGAAAAGTACATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCTGATGTTATTTTAATTCCAAAAGATAAAACAGACAAAGGAATAATTATTGAGTTTAAAAAGTTTTATAAAAACGAAAAAACACTATTAAATAGTGCTAAAAATGGATTAAAACAAATAAATGAAAAAAGGTATGAAGAAGATATAAAAAATTATGGAATAAATGATATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAGGTTGAAATTGTTAGTAATTTGGATAAGAAGGTTGAATTAACAGATATGGAAAAAGTAGCAAAAGAACTATTAAAAAATGGAGTTGATATAGAAATTATTTCTAAAACAACAAAGTTATCTATTGAAAAAATAAAAAAATTAACTTCTAAAAATAGACGAATCTGTAAAGATTAGTGTGTATTAGATATATTTGGTAGCATATAAATATTGGAAAACAACGACAAAAATCTTAAAAAAATGTAGTTATTAGAAAATGAAAAAAATGTTCCTGAATAGTATGAATAAAATAAGGCAAAATTGGTAAAACCAACCTTTTACAGTAAAAAACTGCAATGACTGAAAGGGCGACAACCCATCTGCGCGGTACAAAGTATAGATTTTTTAAGGATTACAAGCTACTTTCAGAGGTAGTCTTTAAGACGATCCTCGAAAAGGATGGCCAGTTCGGAAATAACAGCGTTCCAGTTGTGAAACCGTGCTGTCCATTTTTTTGTCACGTTTTTGGTAGTAAGGTATAAACTTTTAAGGACAGCATCGTCATTAGGGAATATTGATTTGGTCTTGGTAGCCTTCCTGAATTGCCTGTTAAGTGACTCTATGATGTTCGTGGTGTACATAATCTTCCTTACCCCGTCTGAGAACTGAAAGAAGGTGGATAATAGGTGCCAATTTTTCTCCCAGCTCCTCAATGAAGCGTAATACTTGTCTCCCCATTTGTTTATTACATTGGTTAGATTATCATAGCCTGTCTTTTCATCCAGTGCTGTATAGATTGTCTTTAAGTCCTTTGCAAACTCTTTCCTATCCTTGTGAGGAACATATTTCAGGGTGTTTCTAATCTGGTGGATTATGCACCTTTGTATCATAGTTTGCGGGAAGGTTGCATTTATAGCCTGCTCGAATCCAGAAAGACCATCTATTGAAGCTACAAGTATGTCCTTAACTCCTCTGTTTTTGAGGTTGTTAAGTACTCCCATCCAAAACTTGGCACTTTCTACTTCACCAACATATATCCCTAGCACATCTTTAATTCCGTCTATGTCAACACCTATTATTACATAAGCAGCCTTTTTTACTATCCTTCCGTCTTCTCTAACGTTGAAGTATATTGCATCCAAGAAAACGAAGGTGTATATTTCGTGTAATGGCCTTTCCTGCCAGTCTTTTATTACTGGCATAAGCTTATTTGTTATCTTGCTCACCAGTTCAGCTGATACTTCAAATCCGTACAAATCCATTATCTGATCAGATATATCCCTGGTGGTCATTCCTCTTGCGTACAAACTTATTATTTTTTCCTCTATCTCTGAAATATCATTCTAATACTTTGGAACTATTTTGGGTTCATATTCTCCCTTCCTGTCTCGAGGTACCTTTAACTCTATCATACTTGCCATAGCCCAGCTCGTCTTCGAGTTCCGCTTCCAGTACTTCCTGGATCAGATTTCCTGTCAGTGATTTTGTTAACTCCTTTATATCCTTTATTGTTCGGATTTCTCCTTTTCTTACCATTTCCTTTATTATTTCCTGTAGTACATTTCCCATTTTTCGTACCTCCTCTGGTTTTATTTTGCCACCAGATCTGTATCTTTTTTCCTTATACACTTAATATTTTACACTCTCGATTATTAATATTAACGAACTCTTAATGTTTCCTGAAACGTGGTTTTATTCAGCGTTTTATTTTTTTGGCCCATTTTTCAATTGTAATTTGGCTTATTCTTTACTTGCAAAATACACCAATAATGCCCTGTTGGTTCTATTCCTATTATTATTTTTTCTTTACCTTCTTTTTTCGCTATTTCTTTTATTTGTTTTTTGAAATCTTCAAATCCGTCTCTATTTGATTTGAACTTTATTACTTTTCCGTATTCTATCCCTCGATTGTCAAATGTCCTTGCATAGTGTGTTTTTTTTGCTATGTCTACTCCTACTACTAATGTTTTTTCATCCACTTGCTTTATTTTTTCATTTTGTGTATAATTCATTTGAGGTTCCTCCCTTTTTGTAAAATATTTGTAGTTTTGCTCTACATTTTATATTTTACGGGGAGGTTCCTTTTTTTTCAACTCCTATTTTTTTTACTTACAGGAATGCTCCTCTAATTTGTATTTTTATTTGTGCACACAAATATTTTAATATTATATTTTATTTATTTAACTTAATAAATTCAATTCATTATTAATATAATATTGTTTAATGTATAATAAAAGTGGTTCTTTCCAAAGTTACTTGAAAGCAAATTATCAAAAAGATATAATAAAAGAAAAAAGAAAGGGAAGAACCAAATGAAAGAAATAATAAAATCTAAAGAAGTATTAAACTTACATAAATGGATTAAGAAATACGAAAATAGCAAAATACATTCTTGAAACAAATAATAAAAAACATTAATTTTAAAATATAATTATTTAATTATGATATAATTAATTTGAGGTGATGAAAATGAAAAAAAGGCTTCCAATAGGAAGAAGTGATTTTAAATCATTAATAGAAGACAATATGTATTTTGTAGATAAAAGTTTGTTAATCAAAGAAGTTATTGAAAGTGGAGATGTTTTATTAATAACAAGGCCAAGAAGGTTTGGGAAAACTCTCAGTCAATCCATGATGAAGTACTTTTTTGATATTACTCAAAACAACGAACACCTCTTTAAAAACTTAAAAATATATAAAGAAAAGAACATAATAGAAAAACATTTAAATAAACATCCTGTTATATACATCACCTTTAAAGATTTAAAGTCTAATAACTTAAAAAAGATGCATGCTTTATTAACAATGGAACTTTCAAGATTATATACAAAACATGAATATGTTTTTGAAATATTGAGTGAAAAGGAAAAAATTGTATTTAAAGAAATAATGTTAGAAACAGCAGATGATGCTAAATATGAAAACTGTATAAGAAGTTTATCTGAATATATGGAAAGATATTATGGTAAAAAGGTAATAATATTAATAGATGAATACGATACTCCAATTCAACAAGCCTACTTACATGGTTACTATGATGAAATAATATCTTTAATAGGTAACTTATTTGGCATGGCATTAAAAGATAATGTATACCTTGAAAAAGCAGTTCTTACTGGTATAACAAGAGTTTCTAAAGAAAGTATCTTTACTGGTGTAAATAACTTAAAGATTTCTACTGTATTGAATGAACTATTCAATGATAAGTATGGTTTAACTAAAGAAGAAGTTGAAGAAACATTGAAGTATTATGAACTTGAATATGAAGAAAAAGAAGTTATAGATTGGTACAATGGATATAACTTTGGTGGTGTTGAAATTTACAATCCTTTTTCTATTATAAACTTAGTAGATGAAAAAAAGATAGGTCCATATTGGATGAATACGAGTGGGAATTATTTAATAAGAAAGTTAATAAAAGAAGGAACTGTTAATATAAAAGATAATGTAGAAAAGTTAATAAACGGAGAAGAAGTAGAGTGCGAAATAATAGAAACAATGGTTTATGGTGATTTAAACTTAAATAGTGAAAGTGCAATCTGGACATTATTTTTATTTAGTGGATACTTAAAATGGACGAGTAAAAAAAGACAAAACAATATAACAACATACAAGGTAAAGATACCAAATGAAGAAGTAAAAGATTTTTTTGTACAAACAGTTAGAAATATGTTGAGAGAATCAAATATAAGTATTGAAAATATGCTTTTGAATTTAAAAGTAGGAAGAATAAAAACCTTTACAGATCAATTTAAAGATTTAACGATGAATACATTGAGTTACTTTGATGTTAGTGGAAAGGAACCAGAAAGATTTTATCATGGACTGATACTTGGAATGAGTGTTGGTTTAAAAGAAAAGTACATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCTGATGTTATTTTAATTCCAAAAGATAAAACAGATAAAGGAATAATTATTGAGTTTAAAAAGTACAATAGAGATGAAGATAAAAGTTTAAAAGACAGTGCAAAAAATGGACTAAAACAAATAAATGAAAAGAAGTATGAAGAAGAGATAAAAAATTATGGAATAAATGATATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAGGTTGAAATTGTTAGTAATTTAGATAAAGATGTTGAATTAACTCCAGAAGAAAGAATGGCAAAAGAACTATTAAAAAATGGAGTTGATATAGAAATTATTTCTAAAACAACGAAGTTATCTGTTGAAAAAATAAAAAAATTAACTTCTAAAAATAGACCATAAAAAATATTGTGTAAATAAAAAAATGAAAAAACTTCTTTTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTCCTTTTTTTTCAACTCTTATTTTTTTTACTTACAGGAATGCTCCTTATAAATCTATCCCAACCTACAGATTAAATATCTGTGGTTTATGATTAATAAAATACGCTCCAACTTTTCGTATTACATATCTCCCATCAATTTCTATATGTATGTATTTTGCAAGTGAAGAACAAGTCAAATTACAATTGAAAAGAAGAACAAGTCAAATTACAATTGAAAAATGGTCAAAAAAAATAAAAGATTGAAAAAAATACGTTTCATAAAATATTAAGAAGTTATATACGACAAAATTAATAGAATTTAATAAAAAATTAAACTTAAAAACAATTTTGTTCTTGACTTTTTTTAATAAATTGAGTATATTTCATATGATAACTAATTTATTGGAGGAATGTATATGTATAAAATAATATCAAATAAAAAATTAGCAGAAAACATACATGAAATGATAATAGAAGCACCAAGAGTAGCTCATTCCGCAAAACCAGGACAATTTATTATACTAATTATTGATAAAAAAGGTGAAAGAATTCCACTAACCATTGCAGATTATGATAAAGAAAAAGGAACAGTAAATATTGTTGTTCAAGCAATAGGTTATTCAACAAAAAAGCTTGTTTCATTAAAAGAAAATGAATACATTAAAGATTTTGCAGGACCGCTTGGAAATGAATCAGAGTTTGTTCATGAAGATATAGAAATATTAAAAAACAAAAGAATTGTATTTGTTGGTGGAGGTGTTGGATCAGCCCCAATATATCCTCAAGTAAAATGGTTTTCAGAAAGAAATATAAAAACAGATGTAATTTTAGGATTTAAAAATAAAGATTTTATAATATTAAAAGAAGAATTTGAAAAATTAAATTGCAACTTACACATATGTACTGATGATGGTAGTTATGGATTTAAGGGATTGGTAACTAATAAACTTCAAGATATGTTAGATAATGAAGAAATAGATGAAGTAATAACCATTGGTCCAATGATAATGATGAAGTTTGTATCTAAATTAACTAAAAAATACAATATAAAAACAATAGCCAGTTTGAACACCATAATGTTAGATGGAACTGGTATGTGCGGTGGTTGTAGAGTTAGTATTGGTGGAAAAGTAAAGTTTACATGTGTTGATGGTCCAGAATTTGATGCTCATTTAATCAACTTTGATGAAGCAATGAATAGACAAACAACATTCTCTGATATAGAAAAAAAACATTCATGTAGATTGGATGGTGCTATAAATGGATAAAAGAATAAAGATGACTGAACAGGATCCTAATGTAAGAAAAAATAATTTTTTTGAAGTATCATTAGGCTATACTGAAGATGAAGCAGTAGAAGAAGCAAAAAGATGTTTAAACTGTAAAAATCCAAGATGTGTACCAAAATGTCCAGTTGCAATAGATATACCTGGATTTATTCAAGAAGTAAAAAAAAGAAACTTTAAAAAAGCTTATGAAATTTTAACTAAATACACTTCATTACCAGCTGTTTGTGGAAGAGTTTGTCCACAAGAAATACAGTGTGAAAGTACTTGTATTTTAGGAATAAAAGGTGAACCAGTGGCAATAGGAAATCTTGAAAGATTTGTTGCTGATTGGGCAATTAAAAATAATATAGAAATAAAAAACACTATAGAAAAAAATGGTCACAAAGTAGCTATTGTTGGAAGTGGACCAGCAGGTTTAGCTTGTGCTGGTGATTTATCAAAAATGGGATACGACGTTACAATATTTGAAGCACTTCAAGAAGCTGGTGGAGTTTTAACTTATGGAATACCTGAATTTAGACTTCCAAAAGATAAAATAGTAAAAACAGAAATAAATAAATTAAAAAAACTTGGTGTAAAGATAGAAACTGATGTAATAATAGGAAGAACTATTACTATAGATGAGTTAATAGAAGAAGAAAAATTTGAAGCAGTATTTATAGGTTCAGGAGCAGGACTACCAAGATTTATGAATATTCCTGGTGAAAATACAAAAGGTGTATTTTCAGCAAATGAATTTTTAACAAGAACAAACTTAATGAAAGCTTATTTAGAAGATTATGAAACACCAATTAAGGTTGGAAAAAGAGTCGTTGTTGTAGGTGGCGGGAATGTTGCTATGGATGCCGCAAGGACAGCTTTAAGACTTGGAAGTGAGGTACACATAGTTTATAGACGTAGTGAAAAAGAGTTGCCTGCAAGAGAAGCAGAAGTACATCATGCAAAAGAAGAAGGTATACAATTTCATTTATTAACAAATCCTGTTGAAATATTAGCAGATGAAAATGACTGGGTAAAAGGTGTAAAATGTATAAAAATGGAGTTAGGAGAACCCGATGAATCAGGAAGACGTAGACCTATTGAAATAAAAGGATCAGAATATATAATAGATGCAGAAACAGTTATTATGGCAATAGGAACAACACCAAATCCTTTAATAACTTCTACAACAAAAGATATTGAAATTAATAAAAAACAATGTATTGTTGCAGATGAAGATGGAAAAACGACAAAAGATAAAGTTTTTGCAGGTGGAGATATAGTAACAGGAGCAGCAACCGTAATTTTAGCAATGGGTTCTGGTAAAAAAGCTGCAAAAGCTATTGATAAAATGATAAGAAAAAACAACTCTTAGAATTAATCTAAGAGTTGTTTTTATTAGTATAATAATATTATATACAGAAATTTATATTTTATAAAATTCATCAAATGATTTTTTTACATATGTATGGTCTAAAACACCGCTTAATTCTCTTATTGAATGCATTGCAAGTTGAGGATTTCCTATATCTATTGAACGAATATTTAAATGTGTTGATGAAATAGGTCCTATTGTTGAACCTCCTCTTACATCTGAACGATTAACGAACTTTTGATACGGTACTCCTGCATTTTTACATAACATTTCATAAACTGCTGATGAATTACTATCTGTTGTATAGCTTTGATTGGCATTTATCTTTATTACAGGTCCTTTATTTATTACTGGTTTATTTGTTGGATCATGTTTTTCTGGCATATTTGGATGTATTGCATGTGCATTATCTGCTGATATTATATAAGAGTTTGATAAAGCTCTAAAAAAGTCTTCTCTGTTTCCTCCAAGTGCTATTGTTATTCTTTCTAAAATATTTGCAAGCATATCAGAATTTGCACCTTGTTTTGTTGTACTTCCAACTTCTTCATTATCAAAGCATACCATAACATTTGTTGCTTTTGTTGGTTTTGCTACTTTTATAGCTTCTATACCAGCATGAACCATTGCTAAATCATCCAACCTTGGTGATGAAATAAATTCATTATTTACTCCCATAATACAACCTTTTTCATATTCGTATAAGAATAAATCAAAATCTATTATTTCTTCAGGATTGATTTCTAATTCTTTTGCAATTATATTTAATAGATAATTTTCTTTTTCAAGTTTTTCATTTACCATAGATAATAAAGGTAATAAATCTTTTTGTTTATTTAGTTCTACACCTTCATTAACCTTTCTATTCATATGAATTGCTAAGTTTGGTATTATCATTATTGGTTTGTTTATATTTATTAATTTAGTGTTTGGATTTAATATGTTTTCACTTTTTAAAGTTACTCTTCCAGCTAATGCAAGTGGCCTATCCATCCATGTGTTTAATATTGGTCCTCCATATACTTCTGTATTTAATTTCATGTAAGTTTTTTCTACAATAATTTCTGGAGAAGGTTTAATTCTAAAAGAAGGAGAATCAGTATGAGCTCCAATTAGTTTAAATCCAGAATTTCCAATTTCATCAGTTCCCACAATAAAAGCAATTAATGCTGAATCATTTTTAGTAACAAAATATTTTCCTTCTTTTTTTAAATTCCATTTTTCATTTTCTTTTAATTCTTTAAAGTTTGAATTTAATAAAATATTTTTTACATTTTTAACTGCATGAAAAGCTGTTGGACTTTCATAAATAAAATCAATTAATTCTTTTGCAAATTTTATTTCAGTATTCATTTTTTCCCTCCAATATCAATTTAAATTCAACCTCTTAGAGGTTGAATTTATTGTTGTATATAATTTAAAATTAATTTAAATGTATTTTCTATTCCTTCTTTGTGTGTTCTTTCATATCCATGTGATGCAAAAACGCCAGGTCCTATTAAACCATGTTTAATGTCATATCCTGCTCTTAAGGTTGCTTCAACATCAGAACCATAATATGGATAAATATCAACTGCATAGTTTAATTTTAACTTTTCAGCTATATTTATCAAATTAGTTGTTAATTCATAGTTATATGGACCACCTGAATCTTTTGCACATATAGAAACTTTAAATTCATCAGTAGTTAGATCATCTCCAACTGCTCCCATATCTACAGATATCATTTCTTTTGTATCTTCGGGTATTCCAGCAGAACCACCATGTCCAACTTCTTCATAATTAGTAAATATCAAACAAACTTTTTTATTTAATTGAACAGCATTTTCTTTTATATACTTTGCTAATGCAATTAAGATTCCTGCACTTGCTTTATCATCAAGATGTCTTGATTTTATAAATCCAGATTCTGTTACTATTGTTCTTGGGTCAAATGATATAAAATCTCCAACTTTTATTCCAAGTTTTTCTACATCTTCTTTATTTTTAACTATTTCATCTATTACAACTTCAACAGTTGTATCATTTCTTTTCATAGTTCCAACTTCTCTGTTTACATGAACGGCTGGATTTACAAGTTGAATTGTTCCTGTATATTCTTTTCCATTTCTTGTATGTATAATACAATTTTCTGATTCAATATTATTTTCTGGAAATCCTCCAAGTTTTGTGAGTCTCAATCTTCCATTTCCTTTTATTGATCTAACCATTGCTCCAAGAGTGTCTATATGAGCAGCTAATACTAATTTATCTCCTTTACCTCCCAAATCAACTATTACAGAACCTTTATTTGAAGTAGTTGCTTCATATCCTATCTTTTTAAATTCATTTTTTAAGTATTCTTGTGCTTTTATTGTATATCCTGTTGGACTTGGAGTTTTACAAAGTTCTTCTATTTTATTGACTGCATAGTTTATATATTTTTTCATATTTTTCCTCCCTTAATTGCTGCTCTAAAAACATTTCTCATTAGTATAGCAGATGTAACACTTCCAACTCCTCCTGGAACTGGTGTTACAGAACAATATTTTTCTACTTCTTTTGAAACATCACCAGTGAGTTTGCCATCTACTACATTTATCCCAACATCTATTACTGTTGTTCCTTCTTTTAAAAAGTCCATATTTACATAATTTGCTTTTCCAATTGCTACTATAACTATATCTGAATTCTTTGTTATTTCTTGCATATTTTTTGTTTTAGAATTTAATATATTAACTGTACAGTCTCTACCATAATTTTCAAGCATTATTGCAAGGGGTTTTCCAACTGTTATGCTTCTTCCTATTACTGCAACTTTTTTTGACTTTAATTCCTCTGTTTGTTCTAATATTTTTACTGCAGATTCTGCTGTACATGGAACAAATTCTTCTACTCCATAGAAGTTCATTCCCATATTGTAAGGCGTAACTCCTTCAACGTCTTTTGCTGGATTTAAAATTTTTGCTACTTCAATAAACTTTATTGTTTTTGTTGGTCTTGCAACAAATATTCCATCCACATTTTTATCTTCATTATATTTTTTAATTGTTTCTATTAAATTTTCTGTTTCTATTATTTCAAAGTCAACATCGTATTCTTTTGCTATTCTTTTTTGTGATTTTAAATAAGCTTTTGTTGCTCCAGTATAATCATCTGTTATACTTATTAGCTTTGGTTTTCTATTTAACTTTTCTCTATGTTCTTTAATTTCTTTTTTTATTTTTTCAATAACTGGCAAAACATCTATTTTCATAAACTCCTCCTTAAGATAATCCTTTTATTATTCCATCTTTATCTATATCAAGATTAACAGCATTTGGTATCTTACCAAGTCCAGGCATTCTCATTATTTCACCTGCAAGTGCTACTATAAATCCTGCTCCTGCAGAAAGTTCAAAATCTCTTACAGTAAACTTATATCCATTTGGTGCTCCTAATTTTTTCTTGTCATCAGATATTGATGATTGTGTTTTTGCAACTATTAAAGGTAAGTTATCATATCCATACTTTCTTAAAAATTTTATTTTACTTTTTGCCGTTGGAGTTAATTCTAATGTTCCTGCTCTATATATTTCTTTTGATAGTATTTCTAATTTTTCTTCAAGTGTATTTTCAAGTGTATATAAAGGTTTGTAGTTATTTTCCTTTTCTACTGATTCTATTACTTCTTTTGCAAGTTCAATAGCTCCACTTGAACCATCTGCAAATGATGTATTTATACTTGCTTTTGAACCAAGATTTTCTGCATAATCTTTTACAATTTGTATTTCTTTTTCTGTATCAGTTGCAAATTTGTTTATTGCTACTACAACTGGAACTCCAAATTTTTTTAAATTTTCTATATGAACCTTTAGATTTTCTAAACCTTTATTTAATGTTTCAAGATTTTCTTCTGATATAGTATCTAATTTTTGACCTCCATGATACTTTAATGCTCTTATAGTAGCTACTAAAACAACTGTATCTGGATGCAACTTAAATGTTGGTGAAACAAAATCTAAAAATTTTTCTGCTCCAAGGTCTGCTCCAAAACCAGCTTCTGTAACAACATAATCTGTCATTTTCAATGCCATTTTTGTAGCCATCATTGAATTTGTTCCATGTGCTATATTAGCAAAAGGTCCACCATGTATCAATGCTGGAGTATTTTCAATTGTTTGTACTAAGTTAGGATTTATTGCATCTTTTAAAACTAATGCCAATGATCCTTCTATTTTTAAATCTCCAATTGTTACAGGTTCTCCCTTTAAGTTTCTTGCAATTACTATACTTGCCAATTTTTTCTTTAAATCCGTAATACTTTCAGCTAAACATAATACGGCCATTACTTCAGAAGCAGCTGTTATAATAAAGCCGTCTTCTCTTGTTACACCATTGGCTTTTCCTCCAAGCCCTATTACTATATTTCTAAGAGCTCTATCATTCATATCCATTGCTCTTTTCCATAATATTCTTGTTGTATCTATATTTAATTTATTTCCATATTTTATATGAGCATCGAGTACTGCTGAAACTAAATTATGTGCTGTTGTAATTGCATGTATGTCTCCAGTAAAGTGTAAATTAATATCTTCCATTGGTAAAACTTGTGAATATCCTCCACCTGCAGCTCCACCTTTTATGCCCATTACTGGTCCTAATGATGGTTCTCTTAAAGCTACTATTGATTTTTTTTCGAGTTTATTTAATGCCATTGATAAACCTATACTTGTCGTTGTTTTACCTTCTCCAGCTGGAGTTGGAGTTATTGCAGTAACTAAAATTAATTTTCCATCTTTTTTATCTTTTAATTCTTTCATATAGTGATTTGATATTTTAGCTATATGTTTTCCATAGTTATTATAATATTCTTCAGGAATATTCAATTTTTCAGCTATATTATCTATTTTTTCTAGTTTTGCTTTTCTTGCTATTTCAATATCTGTAAGCATTATTTTGCCCCCTTTTTATTTTTAGTTTTTCACTTTATATTTTATCATAAATAATTTTTTACAATAAAGTATAAATATAACATTTTTTATTAATTTTTTGCTTTTATTCAACTTAAAACCTTCATTCACTCTAATTTTCAAAACAAAAAAATTGTATTTAATATTTTATATATTTATCTAATATTTTATCATATTCTCCAGATTCTTTTAATTTTTCTAAACCTTTATCAAAGATTTTTTTTAATTCAAGTCCAAAACTATTTTTTGTAAATATTGCATAAAATGTTGTTGGCTTTAACCATTGAATTGGTTTATATCCAATCTGTTCTTTTTCAAAGTCAAGATCATTTAAAATAAAATAACCATATAATACTTCAAATGCTTCTGGAAAAAGATCGTAATAATTAGCTTGAATTTGTTTTATTGCTCCTAAAAAATTTTTTGCAGTGGTATCAACATTTTTTTTATTTAATCCATAGAGTTCATAATTGTATCCAAGTACTCCATTTATCCTATAATTTTTAAAATCATTCAATTTTTTTATATCCAATCCATTTGGATGTAACTTTTTATTATAGAAATAATAAGGATGAGTATAATAAAAAGGTTTTGAAAAATAAAATTTTTTTGCTCTATCTTCATTATAACTTGCATTTAATATCATTTGATATTTTTTTCCAATTTCTACTTCTTTTAATGCTCTTTTCCAAGGTAAAAGTGTAATAGTGTATTTTATATTTTCAGCTTCAAAAATTTTTTTAATAACTTCAACTGTAAATCCTGTTATCTTATTTGTTTTTTCTCCATTAATTCTTTCATAGTAAATATATGGCGGCCATTCTGCACCATCATCGGTAATATTAATTACAATATTTTTAAAATCAATAGAAAAACTAAAATTAAATAAAACAATAAATAAAATTAAAATTAAAATTTTTTTCATTTCAGTCTCCTTTTTAATTATTTACTAATTAATATTATAGAACTTTTTTCTTTTACTATATACTTTGTACTATTTAATACTATAGGATCATCTAAAAAATCATTTTCATTATATGTATCAACAACTCTATACCATTTTTTACCTTTTATTTCAGGAATTTCAAAAGTTAAAGGTTCATGATAAGAATTTAAAACCACGTATATATCATTATCTTTTTTCTTGTATTTTTCTGCAAAATCTTCTCCACTAATCAAAAAAGCTAAGGAGTGTGAATTTTCATTAAAGTCTGGATTGTATGGTTTTACTCCATGCCATGTTACATCAGCGATACCATTTCCAGTAAAATCTCTTCCAGTAAAAAAGTGAACCCTTCTTAAAGAATGATGTTTTTTTCTAAAATCTATCATTTTAACAAAAAAATTGTAAATATCATTGAATTTATCTTTTCTTCTCCAATCTATCCAGTTTTTATGATTATCTTGACAATAAGCATTATTATTACCATGTTGAGTTTTACAAACTTCATCTCCCATAAGAATCATAGGAACTCCTTGAGATACCATTAACGTAACTATAAAATTTTTAATTTGTCTTTTTCTTAATTTTATTATTGCTGGATCATCTGTTTCTCCTTCATAACCATGATTGTAACTGTCATTTTCATTCATTCCATCTCTATTATTTTCACCATTTTCTATATTTTTTTTATAATTATATGAAACCAAATCCCACATTGTAAAGCCATCGTGCGCTGTAATAAAATTAACACTACTGTATGTTGTTCTTCCTTCTTTCCAAAATAAATCAGGGCTTCCAGCAATTCTCGTTGCTAAATCACTTACTGTACCATTATCTCCTTTAATAAATCTTCTTACTGTATCTCTAAACTTTCCATTCCATTCAGCCCAACCAGTAGGAAATTCTCCAACAAAATATCCACCAGCTGCATCCCAACCTTCCGCAATTAATTTGCTTCCAGATAATATTGGATCATCTGCAATATCTTTTAATAAAGAAACATCTCCTATCCAATTTCCTTTTGAGTCTCTACCAAGAACGGCTGCTAAATCAAATCTAAATCCATCAACGTGCATTTCTGTAACCCAGTATCTTAAACTTTCTAATATCATTTCTTTAACAACTAAGTGACTACAGTTTAAAGTATTTCCTGTTCCCGAATAATTTGCATAGTATCTTTTATTTTTTTCTAATATATAGTATATTGAGTTATCAATTCCTCTAAAAGATAATGTTGGTCCCATTTCATTTCCTTCACCTGTATGATTGTATACTACATCCAAAATAACTTCAATTCCATTTTTATGCATAGTTTTTACAAAGTCTTTAAATTGAAAAACTTGTTCTCCTAATCTTAATCCATGTGTATAATTCCCTGTAACAGAAAAGAAGTTAATGGGATTATATCCCCAAACATCTTCAAGTCTTTCTCCTGTTAGAGGATTAATTCTTGTATTTGCTGATGGATTAAATTCAAAGATAGGAAGTAATTCAATTGCTGTTATTCCAAGTTTTTTTAAATGATCTATTTTTTCTATTATTCCATCAAATGTACCTCTATATTCAACTTCTGAATTTGGATTCATTGTAAACAACCTTACATGCATTTCATAAATTATTGTATCATTAAAAGGAGTTCTTGGATGTTCATCATCTTCCCAATCATAAGAACTATCATCTATGATTATACTTTTACAAGAACTTTTTGAGGAATTAATATCTGATATTTCAAGATCTTTAAACTTACTATCTTTTTTATATCCATACATTGAAGGATCATCAAAATCATATGTTCCCGAAATAGCTTTTGCATAGGGATCTAACAATAATTTTTTATAGTTAAATCTATTTCCCTTTTCTGGGTCATATTCTCCATCAATTCGCCATCCATAATACATATTAGCTTTTGCATTCTCAACATAAATATGCCAAGTATCACCAGTTTTAAACTTTCTTTCATTAAGTGTATATTTAAAAATAGGTACATCATCATAAAAGTTTTCATATATTTCGAGAGTGACTTTTTTTCCATTTCTTGAAAAAATACAAAAATTAACTCCTTTTGAATCAACTGTTGCACCAAAAACAGGATATCCTCTATGAACTTTAAAATCCTTTACCATATCACCACCCCCTAATATTTATTATAACATTTTAAATTCATTTTATAACTTTGCATCATTTCTTGTTTGTTATTTTTTTATGTATATGAAAAACACTATTCGTTCAAGTATTGTATAAAATATTATTTATTTATATTTTTGTGGTACAATTTATTGAAAGGAAGTGAGTTCATTGTTTAATTTCTTTAAGAAAAAAAATAAAAAATCTATCTTTAAAAGTGAAGGCAATACACTCTATATATCCATAAAATGTGATAAGTGTGGGACTGAATTTAACAGTCACTTGAGAAAAGGCTATGATTTGATTACAGATTATTCTACTGGAAATTTTTTCATAAATAAAGAATATATATGCCCTAAATGTTATTCTAAAATAAAATTAAATGCTGTGTTCAATGGTAAATATCAATTAAATTCTTTAGAAATAATTGGAGGAAAAATACAAAATGAAGAATGATACCAGTATACAGGAGTTTGAATATAGACCAGTAAGACCTTTTATTCAAATACCCGAAAAAGTATTAATGTATATATTACAATTAACGCCTTCTTCATTTTCAAAGGTATATCTTTATTTGTATAATATAAGTTATGGAGCAGGATATAATAAAACCTTTATGTATACGAGTGTTAGAGAAATCGCTAAAAATTTAAATATAAGTATAGGAAGAGTACATAATGCAATTACTTATTTCAAAAAAATAGGTGCAATTGAAAAAATTGTATCTAAAGCAGTTATAGGAACTAAATTTTTAGTTAATGTTCCAGAGTTTTCTTCAGCTAAAGGTTTGTGGTTCTTTACAAAACCAGAAAAGGTAAGATATTTAATGATGAAAGAAAAATTAATCACTGAAGATAAAATCGTTATGTCTAAAATAAAACGTTATAAATCTCAAAAAGAAAATCAAAAAATAGAACTCTTTGATAAAAAAAATAATTAAAAAATTTATGTTTTTTGATATTACATACAAAGGAGCCTAAAAAATGAAAAAAAATTTTTTAATAACTAAACAAGTAATATTACCAACTTCGTTTGGAATTTTATTAATACCACTTTCACAACTAATAAGTAGTCTAGTATATTTATTACCTTTACCAAAAGAAATAACCTCCATATTATTTGGAATAGTATACATTATAATTTCATACTCTTCAATAAAATTATATTGTAATAAGATATTATATATTTCACCGAATTCTTGTTACATCAATAAACCTAAAATTTATATTAAGTGGTTAATAGTTGGAATTTTATTACCAATTATAGTTTCTTTTGTATTTTTAAGTTCTTCTGGTGAATTAATAAAAAATACTATGAATACAAGAGGTTTTATAAATATTATATTAACAGCTATTTTTATTTTAGGATTTAGTACAGGAGTAGTTGAAGAAATGATATTTAGGGGTTTGATAATGAAAGTTTTTGAAAAGCAATGGGGAAAAACAATTTCCATAATTGTTCCTTCAATCATTTTTAGTGTTTTACATATTATTGGACATAACTTGAACATTATTGATATAATATTACTTTGCATTGCTGGAACAACTGTGGGTATTATGTTTTCTTTAATCGTATATGAAAGCAATTCAATTTGGGCTAGTGCTATTGTACATGGGCTTTGGAATATTATTATAATAGGAAATATTTTAAGTATTAGTACTACACATAATAAAAATGCAATCTTTTCATACAAATTATCCTCTACTTTTCAGTTTTTTACTGGTGGAAGTTTTGGTATAGAAGCTTCAATAATTTCCGTATTAGGTTATATTGCTGTTATAATTTTTTCATTGTACTCAATAAAAAAGAAATATAAATTAACTCAGAAGATATTAGAAAAATAATATATACAACAAATACTATAAAATCTTTAAATATACAGTTTAGAAAAACGAAAAAAATAAGAGCTATATTTTCAAATAAAAACTCATTAATGAAAATACTTTGCTTAGCTATGCATAATGCTACAAAAAAATATTCAGATATAGAAATTATAATTATATCTGAATTATACATAATTTTTGAGAATAGATTTCTTAGATTTAAAATGCTTAAAAGTTTATATTCTTTAAAATAAAAGTTTTTTTAACTGTTATTTTTTTATTTTAGTTTTTTGAGTTATAATTTTAGTACTAATGAAAAATATTTTGTTTTTACACATAATTTCTTATAGGCTCAATATTATAACTTTTAATATTTTAAACCCAAACGACAAAAATTTCTTTATTTTTAATTTTTATATTATCCTGTTTTTTATTAGATTTTTTTCTAGTGTCAAAAATTACTAAATAACCTTTATTTTGATTGTTTATTTCAAGATAATGTTCAAGTTGCTTAATACCACGTTTATGATATTCTTCACCATACCACTTTTTCATTTCAATAATATATTTGTACTTACCATATGTAATAACAACATCAAGCCTTTTTTCTTCAGAAACTTGAACTTCTTTAAAGTCAAATCCTTTTCCATTTATTATTGGTTTTATGAATGCTAAAAATATTAATGTTCCATTCCTTTCTACAAAATTCATATCTTTTTCTGAGTATTGTTCTTTCATAAAAAGCTGAAACTTTTTTAAAACGAGTTCCATATTTAATTTGTCTCCAATTATGAAGTTATCTCTAAAGTTGTATCTTTCAGTATCCACATTTTGTGATGTTTCTATTTTTGATGCCATATAATCATATATTAATTGTTCATAAATTTTGTTTTGAACCTTTAAAGTACCATTTTCGTTTTTTAATATACCATACATTAAACATAGATTTATTATTGGATTATACATATTATATTTGACTTCTTTTCCATCTATTATTATTTTATATACTAAGTTATATATATCTTCATTATTCTCTAAATTTTTAATTAATGATTCAAAGTTAGTGTTTTGTTTTTTTAGAATAATCTTTACGGCATCTTGAAGAACTTCATCAGTCCATTCTTTTTCTACCATCATTTCTTCATCAATAATTTGACAAAGTTTACTAACTAAAAAAGGATAACCTGATGTATAATAGTATAATTTTTCAGAAATGTATTTAACATTATTGAGTTCATAACCTCTATCATTATAATAATCAACTATCATAGTAGAAATTTCATCTGAATTAAAAGATAAGTCTATGTCAAAGTCTACAGCTATATTCCACGGACTGTTATACTTTATTTCTTCATTAGGCCTTATATGAGTTTTTAAGCTTTTAACATCGTGTACTCCAGCTAAGATTATACTGTAAAATGTATAGTCTTTTCCTTTGTTTGCTTCTAAATACTTTGTTCTGAGCATGCCTAAAAAGTTTAAAAATAGTTGATTATTAGAGCTTTTATCTACTTCATCTATCATTAGTACTATCTTTTTTTCACTTGCTTTAGCTATTTTTGTTATTATTTTTGATAGTTCTTTCATAGTTTTTATTATTTTTTTATCTATTTTTATATTTAATGAATCTGTTATATCTTCTAAAAAACTTTGAACAAACTCTTTTTCATCTTCCATTATTATGGAACCAATACCTTCAAAACTTATGGAAATTACTGTATACTTATTTTCTAACTTTTTTTCAAGTAAAAACATAGTAGTAGTTTTACCAAACTGTCTTGGTTTATTTATTGTAAAGTATTCACCATTTTCTATTAATTTCATTATTTGTTTTAATTTATTCTCTGTATTAACCATGTAATGCTTTTTAGGAACACACACTCCTGTTGTATTGAATCGTTTCATTTTCTTCACCTCATCTATTTAGTTAAATGCGAAGTGTCATTTAAAAATTCTATGCTAAAGGTATCTTTTTCATATTTTATCTTTGTTAATGATGTATTGTATAAATGAATTTTTCTATATTTGTTTAGTGGCATTTCAAATATCCAATGAATTATGGTTCTCAATGCAAGTCCATGGGATACAATTAATATTGTGTCCTCTTCTGAATGTTTTTTCACAATTTTTAAAAATTTTTCAACAACTCTTTTTTGCAAATTTCCCATAGATTCAACACCTTCAATTATTGTCCATGGATTATTTGCCCATTCCTCAAATTCGCTACTAAATTTTGTAAATACATCATTTATGCTATATCCATTCCAAAGTTCTATTTTACATTCATTGAATTCTTTGTATCTTTCTACTTTTAAATTATGTTTTTCTGCAATTATATCGGCAGTTTTCATTGCTCTTTTAAGTTTTGAAGAATAAATTGCATCAATTTTTTCATTTTGTAATTTATTTGAAAGTTTTCTTGCCTGTTCTATACCTACTTCACTTAATTCTCCATCTAGTAAGCCTTGCCAAATACCTGCTTTATTATGTTCGCTTTCACCATGTCTAACAATATATATATTCATATATTTACTCCTTTTAATTAATTTTTTAATGTTTCAGATTGTAAAGAATTTTAATAACTTCAATAGTTTTTAAATCAGACTTTCCATTATTTCATATTCTTTATTTTCCTTTAAATTATTTCTCATATAATTTGAAATTTCATAATATATATTACCCAAATATCCTTTTGGATCTATTATTATTGGACTACTATTTATTAATATATTAAAATGATGAAAGTCTCCATGTATTAAATATAAATCCTCATATTTTAATGAATTAAATAATTGTATAGATTCATCTATAATATTTTTATCAATATCTTTACTCAAAATATCGTAGAAATTTATTATATTTTTACTCATATCTTTAATATTTTTTAATTTTTTATCGTTATAATATTCTTTTTTTATATAAAGTTTTTTTAATAATTTTGCAGCTATTTCAGTTTCTTTTTTATTATCATTTAAGTCTAAAAGCATTTTATTACCAGCATACTTTTCAATTAAACAGTATAAATTTTTATCATATTCAATAATTTCAACTAAATTCTTATTTTTTAATGCAAAAACTTCTCCATAAATTTCATCATTTGGAACAAAAATTTTTATTGCATATTTTTCATTATCTTTTTCAAATAATCCAACATAATTAAAAGATAATGTTTTAAAATCTTTAATATACTTATATTTTTTTATTTTTTCAATCTTTGATATTATTTGATTTAAATTTTTTAAAAAACTTAAACCCTTATTACCATATAAATTTTTCATATTTTGTTTTAAATATTCTGTCATATTATATCCTTATATATTTTTTTTAATTTATTTTTATATTTAAAGCTGAAGATAAATTTATTAATTCTTTTACCATACTTTGAAACTCTTTAAAATTTAAACTTTGTTTTCCATCTGAAAGGGCCTTTTCTGGATTTGGATGAATTTCAACTATTATACCATTTGCTCCTGAAGCCATAGAAGCTTTTGCCAAAGTTGGTATTATATCTCTTCTACCTGCTGCATGGCTCGGATCAGATATTATTGGAAGATTTGAATTTAATTTTATTAATGGAAATGCAGAAATATCTAAAGTGTTTCTTGTTTGATTTTCAAATGTTCTTATTCCTCTTTCACAAAGAATTATATTTTTATTACCTCTAAGAGCTATATATTCAGCGGATTGTAAAAATTCTTCTATTGTATTCATAAATCCTCTTTTTAATAAAACTGGTTTATTAATACTACCAAGATTCTTTAAAAGTTCGAAATTTTGAGAATTTCTTGAGCCAACTTGAACTATATCTACATAATTTTTAATTTCTTTTAACACATCAATACCGACTGCTTCTGAAACAGTTAAAAGATTATATTTTTCTGAAGCTTCCTTTAAATATTCAAGAGCTTTCATTCCATTTCCTTGAAAAGAATATGGTGAAGTACGAGGTTTAAATGCTCCACCTCTCATTATTTTTATTCCATTTTCTTTTAAAAAATGAGCTATTTCAAAAGTCATATCTCTATCTTCAATAGAACAAGGACCAGCAATAATTGTAAAGTTATTATTTTTAATTTCAAAATCATTGAACTTTATTATAGTCTCATTTTTATATTCTTTTGAAACTAAATAATAAGGTTTTAATATTTTTACTACTTTTTCAACGCATGTAAAAGTTTCAAATCTTTCTTTAGAAAAATATCTATCTTCTCCTATTAGTTCTATTATATTTCTTTCTCCATGATTATATAATTTGAATTTCAAATTCATACTTTTAATTGTATTTTTTAATTTTTCAAGTTCATTATTTTCACAATTATTTTTTAAAAAAATTATCATTTTATTCCTCCAAATCAGGTCTTAATTCTCTTGCATCATGTAAAAAAACAAAGTTATTTGTATTACTTTCACAATGAATTAAAAATCTAATTATTCCATTTTTACTATTTTTAAATTGAGCCTCTTGAACACAAAGCAATGCTACTTTTTTTAATTTAAAATTTTCTCTAATTATAGTTACAGGATTTATTTCTGTTATATCTGAAGTAACAGAAACAATTATACTAAGTATTTTCTTTATATCATTTTCCTTCATTATTTTATCATACAATTCTATTGTTTTTTCTTTTATATGTTTTGATTCATTTTTTTCTATTGATGTTGCTCCTCTTATTGCAATCATAAAAATACCTCCCCTTATATTATACCTTTATTCTTTTAAATTACAATAAACAAAAAGATCAAAAAAATTAAATGCCTAATTTCTATATTTTAAAGAAATCAAGCATTTAATTTTTTTTATAATGAATTATTTTTTGTAAAATCAATTATATCTTGTATTGTTGAAAAAGCAAGGCATGTTACTGTATCAGCTGCACCATAGTATATTGCTATTTTTCCTGTTTTTTTATCATGTAAAGTTGCACATGGAAATACAACATTTGGTACATCTCCTACACATTCATATTGCTTTTGTGGAGATAGCAAATATGGTCTTGAACGATATAGTACTTTCCAAGGAGTTTCTTTGTCTAATATTGCTGCTCCCATATGATAAACATATCCATTACATGAAGTTAAGACTCCATGATATATTAAAAGCCATCCCTCTTTTGTTTCTATCGGAACAGGACCCGCTCCAATTTTTGTACTTTGCCAAGGGCTTGTATTTATATTTGTCGTTCCCATAACATGTCTGTGTTTTCCCCAATGAATTAAATCAGGACTTTCACTATAAAATATATCTCCAAATTGAGTATGACCATTATCACTTGGCCTGCTTAGCATAGCAAATTTTCCATTTATTTTTTTAGGAAATAATACTCCATTTCTATTAAAAGGTAAAAAAGCATTTTCAGTTTGATAAAATGTTTTAAAATCATCTGTATATCCAACTCCAATTGTTGGTCCATGATACCCATTACACCAAGTTATATAATATCTATTTTCTATTTTACACAATCTTGGATCATATTTATATGATGATATTCCAACTTCTTCATCTGATGAATTTGCTGATTTAAATTCTATTGGTTTATCTTTTATCTTCCAATTAATTCCATCTTTTGAACTACCAAAATGAATATTCATTTCTCTACATTTATTATCACATCTAAATATTCCAACAAATTCATTTTCATAAGAAATTACAGCACTATTAAAAATACTATTTGAATTTTTTATAGCATTTCTTTCTATTATTGGGTTTTTTGAATATCTCCAAATTGTGTCATCACAATTTAATGGTTTATCTTCCCATGGAATATTTAAATTAGACATTATACTTTCTCCAAATAAACCTTAAAAGTCTTAATTTCAAAAGGTTTTATTGTAAATTCAAAAATATTTTTATTAAACTCTACATTTTTTTCTTTTTCTTCTAATAAATTACACTCTTCAAGAATTTTAATGTTTGAATTGAGTTTAACTTTTACTGTATCATTAGCATTTGAATATTCATAAAATCTTAAAATAAAAGCATTTTCATCTTCTGATTTTTTTACTGTATCTAAAATAACTGAAGTTTCTTCAACTTCTATAAAACTCTTTATAGAAGTTAAATTGCCTGATTTATTAGTTGTTTTTGCAATCAAAGGATAATTCAATTCAAATGCTTCTTTTGTTGTATTTGCATCAAACCAATCTCCAACATGTGGCATAATACTATAAACAAACTCATGATTACCATTATCAGCCATTTTATCTGGTTCTATTCCAGATTTTATTAATGTAATTCTCATATTGTTATCTTTTATATCATGACCATATTTACAATCATTCAATAAGCTTACACCATAATTTCTTTCTGATAAATCTACCCATTTTTGAGCTACTGTTTCAAACTTTGCATAATCCCAACTTGTATTCCAATGAGTGTTTCTTTCAACATTTCCAAATTGTATTTCATAAGTAGCTTTTGTAGTTCTAACATCTACTGGAAATAACGCTTTTAATAAAACTTGATGTTCATTCCAATTTACCTTTGTTTCAAAATCTATTCTTCTTTTATCAGAATAAACTATCATATTTTGAGATAATTTAGAATTTAAAAATTCATATTCAAAATTAATTACTATTCTATCTGGACCATTTTCAATTACTTTCTTATTCACTAAATTGTTTATTTCATATACTTTTTCTCTATAATATATATCTATATCCCATGCATCAAACATCATAGGCCTATCTTCAAAAGTCTGTAAAACATTAGCTTTTTTCCCTTTTGGTAAAACTTCTCTATATGCTTCTTTATCAAATAATGAAATTATTTGACCATTCTTATTTAATTTAATTATATAGAATTTATTTTCAATAGTATCATTTTCATACTTTAAATAATTTTTTATAGATTCATTTTTTCCATCAACTATTTTATATGTTTTATAACCCATTGCAGGAATATTTTCTACATTTATTTTTATAATATTCCCTATAATTTTTGAATAAGCAATTTCGTTATTTTCATCCACAAAAACTTTATTTTTAAACTCATCATTAAATTTTATAAAAATTTCACCACTTCTTATCCAAGATAATGAATTGAATACTATTAATTTATTACCTTTAATATTTATATTATCTGAAATTTCTTGAAGAACTTTATTAAGTAATGTTTCTTCAAGATTAAATAATTTTTCAAACTCCATTTGACTATCTTCATAAACTTCATGTATTGAAGAACCAGGTAAAATATCATGAAATTGATTTCTTAAAAGTATTTTCCATCCTTCATTTATTTTTTCTTGTGGATATATATTATTTAATTCAATACTCGATAAAGTATTAAATACTTCAACATTGTGAAGTAAAATCTCACTTTTTCTATTATTTCTTTTTGTTTTTCCTTGTGAAGTATATGTACCTCTATGAAATTCTAAATATAGTTCACCATCAACTGTTGGTAATTTATACTTTTCTTTAACCCTTTCATCTAATCTTTTAAAAAAAGGCTCTGCTTTTCCAAATTCTATATCTGGTATACTTGGCATTTCTTTTATTTTTTTTCCTGTTTCAATCATTTCTTTGGTAGGTCCACCACCACCATCTCCCCATCCAAAAGCAATTAATAGTTCATCATTTATATCCTTTTGACTGTAATTATCCCATAATCCCTTTACACTTTTTGGAGTTAATAAACCATTATATGTATAAAAATGAGCTCCATGTTCATCAGGCGTTGTTATAAAATGTGTTAAAATTTCTGTTCCATCTATTCCTCTCCAATTAAATGTGTCATATTCAGGTTTGTTGAACTGACTCCAACTTATTTTTGTAGTCATAAAATATTCACAGCCACTCTTTTTTATTATTTGAGGTAAAGCCCATGAGTATCCAAATACATCTGGAAGCCATAAAATTTTACTTCTTATATCAAATTCTTCTTTCATAAATTTTTGTCCAAATAAAAATTGCCTTACTAAAGATTCTCCTGATGGAACATTGCAATCTGCTTCTACCCACATTCCTCCTGTAACTTCCCATTTACCTTCTTTTATTCTTTTTTTTATATTTTCATATATTTCAGGATAATCTTTTTTTATATAATCATATAGCTGAGGTTGAGATTGTACAAATTGATACTCTTCATATTGATTCATTAAATGATTTACTGTTGAAAATGTTCTTGAAGCTTTTTCTCTCGTATGTTTTAATCTCCAAAGCCATGCAACATCAATATGAGAATGTCCTATAGCAACCACTTTTGGTTTGTTTTTTTCATTTGATTTATAGTTCTTCAAAAATTCTTCTAATAATTCATTAGCTTTTGTAATTGAATCATAAAATTCTTTTGTCCCAGTTTTTCTAAAATCAATTACTTTAAATGATTTATCTAAAAATTCAATTAAATTTTTTCTATCAAAAGAGTTTTTATCTAATTCTAATACTGTTTGTAATACAGTTAATGATCTAAAATAAAAGTCTTCTGTAACTCTGTTTATTTTTACTAATTTTGCTTCTGAAAACAAATTATTTTTATTATTAATTCCACTAAATGCTTTTATATGAATAATTATCTTTTCATTTATAATCCATTCTGGTTTCAAAAATACTTCGGAATGATTAATATCTAATCCTTGCACTGGCTTTTCATTTATATAAATTAATGATTCTGTTCCTGAAAGGCCTCCAAGATCTCCTTTACCTAAATTAAAGTATAATGCAACATTATCTTTAGACCAGTCATTTGGAAATTTAATTGTTTTTCTAAACCAATATATTTCATCTTTGTTTCCCCATCTATTTCCTATATTAAATTCTTTCCAAGTTTTATTTTTTACATAATCTAATCCTAAATTATTAACTCCAATATTAATATATTCCATTATTTCTAAATCTATAATTTTTTCATAAATATGTTTTTTAATCTCTTCAACATATTTTTTTATTTTTTCAACAGTAAAGTACATATTTTAAGCCTCCTAAAGATTATTTTATAAGTTTTTAGTTGAGTTTCTTATTATCAATTTAGTTGGATAATATATTTGATGAATTATTTTAGAATCTAATTCATCATTATTTTTTATTTCAATTTTTTTTATGAGTAAGTTACCAGCTTGATAACCAATATTTTTTGGATATTGAGCTACAGTTGTTAATGGTACTTCCAAATGTTTTACTATTTCTTTATCATCAAATCCAACAACAGATAAATCTTCAGGTATTTTTATATTTTTTATTCTACTCATCTTCACAATATGTAAGGCTACATAATCATTTAATGCCACAATGCCAGTTATTTTATTTTCTGTTATATATTTATATAATTCTTCATAAATCTGATCTTCAGTTTTTTTATATTCATTATATGAGTATAAAAGTATTTCTTCATCTTCAAATCCAAAATTTTTCATTGCTTTTTTATAACCAGTTATTCTATCTTCTATAGTGGATGTAATGGAATATCTGTTTTTTATAAAAGCTATTTTATGATGCCCTCTATCTATTAAATGATTAGTTGCTTTAAATGTTCCATCGATGTTATCAGACATAACAACGTCGGTTTCACAACCTTGTAAACGTCTGTCTACTAAAACAAAAGGAAATTGTTCTTCTTTTAAATCTGATATGGCATTGCTATCTTTTTGATCTTCAGCAGGCATTATTATCATTCCTGCAACACCTTCGTGTTTTAATTTATGGATATTTTCGGCTTCTTTTTTATAATTTTCATTACTATTCATAAAAGTTATAGAAAATCCTTTTTCTTCTAATGCCTTTTCTATCCCATTTAATATTTTTGATTCAAATTCGTCAGAACAATTATTCAATAATACCCCTATATGATTATTTTTTTTATCAGAATTTATACTTTTATCAAATACAAATGTTCCTGCTCCTTGAACTCTATAAAGATACCCCGCATAAACTAATTCCTGAATTGCTTTACGAATTGTTTGTCTACTAACTTTTAAATTTTCAGAAAGACTTCTTTCAGTTGGAATAACTTCTCCAGGTTTAAAGGTTCCATTGTTTATATTTTTTAGTATATATTCTTTAATTTTTATATACAATGGTTTATTAGATTGTTCCATAAAATTCCCCCTTTATTCTATATATTTAATAATATCAAATTATTTAAAAAATGTCAATACCAATTTTTACTTTTTAATAAATTGGTATTTTGTATAAAAAACAACTTATAAATTAAAATTAAATCAAAGTATTAAAATATTTGTTTAAAATAGATATAAAAATGTGGTTGACAAATAAATTTTAATTTGATATAATCAAAATGTTACTATTGGTATCTAAAAGATACGTACCAATAAAAACCATTTTTAGTAAAAAAGGGGGATTATAAATGAGCAAAAAAAGATTGAAAATTTTTTTGAGTTTTTTATTTATGCTTTTTATGGTGAATTCAATTTTTGGAAGTTATAGTGAATCACCAATGTTAATGGAAAGAGTAAAAAATGGAGATTTACCTTCTGTGGATAACAGACTGCCTATTCATCCAAAAGTTGTAAAAGTAAGAGAAGAAATTGGTAAATATGGCGGAACTTTACACATATCAAAAGGAAATGAAATGAGAGCATTACTTGTGGAAAACACAATAGAATCCACAGGTCCCATACCTGTTTTTGACGAAAAATTAGTTGAAGGAAATGTAATTGAAAGTTGGAAAGTTATGGATAATGGTAAAAAATTTTTATTTACTATAAGAAAAGGATTAAAATGGTCAGATGGATATCCTGTAACTACTGAAGATGTTAGATTTACTTTAGAAGATATTTATTCTAATAAAAATATAACAAGGATTTTTCCTGATTGGTTAGTCAAAGGCGGAGAAAAAGTTAAATTAAATATAATAGATAAATATACATTTGAATTAGATTTTAAAGAACCATATGGATTATTTTTATTACAATTACAATCAATTGCAAGAGGAAGTTATCATTTTTTTATTAATCCTTCACATTACTTAAAAAAATTTCATGCAAAATATACTTCAATGGATAAATTAAAACCTTTACTCGAAAAAGAAAAACTTGATGAAAAAAGCTGGGGAAAATTATTTCAAAGAAAATGGCAATCAAGTCCATGGAATCATAGAAAGGATATAGGTTATCCAGTACTCGATCCTTATGTAGTTGTAGAAAAACCATCAGATAATGTTACTATTTTCGAAAGAAACCCTTATTATTTTAAAGTTGATGAAAAAGGGAATCAATTACCATATATAGATAAAGTTAGATATGAATCTATTAGCAATCAAGAATTGATGAATATGAAAATAATGTCTGGAGAACTTGATTTTACAATAAACACATCGCTTGGCGATTTAGCTTTGTACAAAGCTAATGAAGAAAAAGGAAAGTATAATACAGTTCTTGTTCCAATAAAAAGTATAAATACAAAAGCATGTTACTTTCCAAACTTAACTTATGAAGATAAAACATGGAGAAAAATAATGAGAAACCCAGAATTTAGACATGCTCTATCTCTTGCAATAAATAGAGATGAAATAAATGAGCTTGTTTATTATGGGTTTGGTACACCATCACAAGCTTGTGATGCACCTGGTTCTCCATTTGTAGAAAAGTCATTTAGAAATGCTTATATAAAGTATGATCCTAAAAAAGCAGAAGAAATTTTAGATAAAATTGGTCTCAGTAAAAAAGATAAAGATGGTTGGAGAATAGGTCCAGATGGTAAACCTTTTACAATAAATATAGAATTTTTTCAAGTTAATCCAAGCTTGGTACCAACAACAGAATTAGTTGCAAGTTATTGGAAAGATATAGGAATAAAAACTGAAATGAAAGTTATAGATGGTGGTTTATGGTATCAAAGACAAGGTGCAAACAAAACAACCATGTCTGTATGGCATGAAGATGCTTCAAGACCTGGAAATCCATTTTTCTTTTTTGTTCCATATGAAATGATTAACTGGGGACCTGCATGGAGAACATGGTTCACAACAAATGGAAAAGAAGGAGAAGAACCACCTTTAGAAGTTAAAAAATTATTTGAATATTATAATAAATTTACAAGTACAATTTCAAATAAAGAAAGAATTGAATTTGGGAAAAAAATACTAAAATCACAATCAGAAAATTTATGGGTAATAGGTACAGTAAACAACATACCAATACCTGTAATTATAAATAAACATTTAAAAAATGTAGTAAATGGCTTAGATCCACAATGGGGACCTTCTATGGAAGAACAATACTTTTTTGACAATGTAAAATAAAATTTAAACTAACCGTAGTTAAATCTACGGTTAGTTTTAAAAAAATTTTTTTACGAAGCTAAGGAGGAACTGATGATAACTTATATTATAAAAAGGATTCTCCAAATTATACCAATATTAATAGCAATATCTATAATAAGCTTTATAGTTATTGAATTACCACCAGGAGATTTTTTAACTTCAAAAATTGCTCAATTAACAAAAGAAGGTGGTACTGTATCAGAAACAGAATTAAATAACTTAAGAGTGAGTTATGGTCTTGATAAACCAGTTGTTCAAAGATACTTTATATGGATATGGAAAATCATTTCTCGTGGAGATTTTGGTAGATCGTTTAAATGGAATAAACCTGTTTTTGAAGTTATTGGTGAAAGATTGATGTTGACAGTCATAATCTCTATAACTACTTTGATTTTTGTATGGGTAGTTGCTATACCAATAGGGGTTTTATCTGCAACAAGACAGTATTCTATTTTTGATTATGGAGCAACATTTATAGGATTTATAGGACTTGCAGTACCTAATTTTTTATTAGCATTAATTTTAATGTTTATTTCATACAAATATTTTGGAGTTACAATAACTGGTTTATTTTCACAAGAATATGCTGATTCTGCATGGAATTTTGGAAAGTTTTTAGATATGATGAAACATATTTGGGTACCAGTAGTCGTAATTGGAACATCTGGAACAGCAGGTATAATAAGAACTTTGAGAGGTTGTTTGTTGGATGAATTAAAAAAACAATATGTAGTTACAGCAAGAGCAAAAGGATTAAGTGAAAGAAAAATATTATTTAAATATCCAGTTAGAATAGCTTTAAATCCTTTAATTAGTACTATTGGATGGGTTTTACCTGGAATAATTTCTGGAGATGCAATAGTTGCAAATGTTCTTAATTTACCAACAACAGGAACTGTATTGCTTGAATCTTTACAATTTCAAGACATGTATCTTGCAGCAAGTTTTGTTTTACTTTTGAGCTTTTTGACTGTAATAGGTACTCTAATTTCAGATATTCTGTTAGCACTTACAGATCCTAGAATTAGGTATGAAAGGAATGAAAAAAATGTTTAAGAAAAAGTCAAAAAAAATAGATAAATTTACAGCCTCTCAACTCCAACTGACTTGGTGGAACTTTAAAAAACATAAATTAGCAATTATTTCAAGTTTTGTGTTGATTTTTCTTTATTTAATGATTATATTTGCACCATTCATTTCACCATATAGTAAATCAAAAAGATTTTCTATGTATCAATACGCCCCACCACAAAAAATTCATTTTTTTGATGAAAAAGGATTTCATTTGAGACCTTTTGTTTATGGGTATAACAAAAAATTAGATATGAAAACATTTAAAAGAACATATGAAGTTAATAAAACAAAAAAATATAAAATATATTTTTTTGTAAAAGGTGAAAAATATAAGTTATGGAATTTATTTAAAACAGACATTCACTTATTTGGAACAAAAAAAGGTCATATTTTTTTATTTGGAACGGATAGACTTGGTAGAGATTTATTTTCAAGAGTAGTATTTGGAGCATGTATTTCTCTGACAATAGGTTTAATTGGAGTATTTTTAACTTTTGTAATAGGTGTTACTCTTGGAAGTATTTCAGGTTATTATGGTGGAATTGCAGATACTATAATTCAAAGAATGATAGATGTATTAATTTCAATACCTCAAATCCCATTATGGATGGCACTTGCAGCAGCAATGCCAAGAAATTGGCCAATTTTAAAAGTATATTTTTCAATTGTTATAATACTTTCTTTAGTTGGATGGGGAGGACTTGCAAGAGTTGTACGCGGAAAGTTTTTATCTTTAAGAAATGAAGAATTTATAATGGCAGCTAAATATGCTGGAGCATCAGACTTTTGGATAATTACAAAACATATGATACCTTCTTTTATGAGTTATATAATAGTCTCTATAACTTTAAGTATACCTGGAATGATACTTGGAGAAACTGGTTTGAGCTTTTTAGGTTTAGGTTTACAACCACCAGCAGTTAGCTGGGGAGTATTACTTCAAGATGCACAAAATTTGTCTGCATTAGCTTATCATCCATGGCTATTATTACCTGGATTGTTTGTAATAATAACAGTACTTATGTTTAATTTTTTAGGTGATGGATTGAGAGATGCAGCAGATCCATACAGTAAATAGAAAGGAAAGGATTAATTATGGTATTTTTTTATTTAATGTTTTTAATTTTAATAATGATATTCGTATTTATAAGTAAAGTTTTCTTTGAGCTTTCAATAAATAAATTTATAGTAGAAAAACACAAACATTTAGAATACATATTAGAAACTAAAAATCCACCAAATATATGGTTAAAAAACACTAAAAATGTACAAAAAAAATGTTTAAAAAAACTTACTAATTTGATAAAGTATTTACAAAGTTCAAAATTAGTTGATAGTGAAGAAAGTAGAAAAAAAATGCTTTTAAAATTAAATAAGATACAAAAAAATTGGATGAAAAAAGAATATTTTAAACAAATTAATATAAAGGATGATTAATTTGAATAACAAACTTCTTGAAGTTAAAAATTTAAAAACATACTTTGAAACAGATCAAGGAACAGTAAAGGCTGTAGATGGCATAAATTTTTTTATTGAAAAGCAAAAAACAGTTGGAATAGTAGGAGAAAGTGGAAGCGGAAAAACTGTTACTGCACAATCAATAATACAAATTATGCCTTGGCCTGGAAAAATAATTGATGGTGAAGTTCTTTTTTATAAAAACGAAAAAGAAATTATTGATTTAGCAAAATTAGATCCAAAGGGAAAAATTATAAGAGAAATAAGAGGAAAAGAAATAGGTTATATTTTTCAGGAACCAATGACTGCTTTGAGTCCAATTCATACTGTTGGTAGTCAAATAATAGAAGCAATTAGAATACATAATAGTATGTTAACAAAAAAAGAAGCAAGAAAAAAAGCCATTACATTATTAAAAAATGTTGGAATACCCAGTCCTGAAAAAAAAATAAATGATTATACTTTTCAATTGAGTGGAGGAATGAGACAAAGAGTAATGATAGCAATGGCACTATCATGTAATCCAAAATTATTAATTGCAGATGAACCAACAACAGCAATAGATGTGACTCTTCAAGCTCAAATTATAAAACTATTAAAAGACTTACAAAAAAAATACGAAATGTCTATTTTAATTATCACACATGATCTTGCAGTTATTGCAGAAATGGCAGATGAAGTTATAGTAATGTATCTTGGAAAAATAGTAGAAAGTGGAACAGTATTTGATATTTTTGATAATCCAAAACATCCATATACAAAAGCATTATTAAAGTCCATACCAAATAAAACATCTAAAAAATACTTAGATACGATAAAAGGAATGGTACCAGATGCATTTTCAATTCCTAATGGATGTGAATTTGAACCAAGATGTGAATTTTCCATAAAGGGAAAATGCAACAAGTATAAACCTCCTATTATTGAAATAAAAAAGGGACAGTTTGTAAGATGTTTTTTATATGAAAAGGCATGTGAAGAAAATGAATAAAGAAAATATTCTTGAAGTAAAAAATTTAAAAACATACTTTCCAATTCGAGGTGGAATATTCAATAGAGTAATCAACCATGTAAAAGCTGTAAATGGTGTGAACTTTGAACTATTAAAAAATGAAACTCTTGGAATAGTAGGAGAAAGTGGATGTGGAAAAAGTACCTTAATAAAAACTATTATGAGAGGAGTACATGCGAGCGAAGGAAAAATTTTATTTAATAATGGAAATAATAAAATTGATATATTGGAATTAAACAAAAAAGAATTAAAATCAATACGAAAAAATATACAGATGATTTTTCAAGATCCATTTTCTTCATTGAGCCCAAGAATGACCGTTAGAAATATCATTGTAGAACCTCTAAAAATAAATAAAAATATAAAAGACAATAAAAAATTAGATGAAATTGCAATAAATCTTTTAAAAGATGTTGGATTGAATCCAAAATATTTACAAAGATATCCACATGCATTCAGTGGAGGACAAAGACAAAGAATAGGTGTTGCAAGAGCTTTATCATTAAAACCTAAACTTTTACTAGCAGATGAGCCAACATCAGCACTTGATGTTTCAGTACAATCACAACTCTTAAACCTTTTAACAAAATTAAAAGAAAAATATGAACTCTCAATGATATTTATTTCGCATGATTTAAGTGTTGTAGAACATATAAGTGATAGAATGGCTGTTATGTATGTTGGAAATATAGTTGAAATAGGAGATGTGAAAGAAATATTTAACAAACCAACTCATCCTTATACAAGAGCGTTACTTTCAGCTGTACCAATAGCAAATCCACACAAAAGAAATCATAAAGAATTACTTGAAGGAGAAGTGGCAGATCCTGCGAACCTTCCATCTGGATGTCCTTTTCATCCAAGATGTAAATATAAAAAAGATATATGTATACATCAAAAACCAGATCTTAAACCATTAAAAAGTAATGAAAACAAAAAAGTAGCATGTCATTTTGCAAATGAACTATAAAAAAAGGGGGGAACATCTTTGAAAAATTATATTAGAAAAACAGTGATTGTTGTATTTTTGTTATTAGTTAGTATTAGTATTTTTTCGCAACAACCATATTCATCTTATTGGTTTCCAGAAACATTATTAAACTGGTCTCCAGAAAATGATGCAGATTCTGATTTTAACAGAGGTATAATTCCATTAAGTGAAAGACAAGTTGGAGAAATTGTAAATAAAAATGCTAAAGGTGAAGCAAAATTAACAGTGTTGAGTATAATGCACCCAACAACTTCAAAGAATCCATCTGAGGGTTCAAATAAATTTAATATTTATACATTCAATTATTGGCAATATGTTGACAAATTAGTTATGTGGGGAGGATCCGCATCGGAAGGAATAATTGTTGCACCAAGTGCTGATGTAATTAATGCTGCACATAAAAATGGTGTAAAAGTTTTAGGAACCATATTTTTTCCTCCAAAAAAATATGGTGGACAATTAAAGTGGTACAAAGATTTTATAAAAAAAGATGGAGTTCTTTTATTTGAAAAATTTCTAATGGCAGATAAATTAATTCAAGTAGCCGATTATTACGGATTTGATGGCTGGTTTATAAATCAAGAAACAGATGGAGTTTCGCAAGAAGACGCAAATACTATGAAAGAATTTATACAGTATTTTGAAAATCATAAAAAACCTAATATGGAAATAATGTGGTATGATGCTATGACTGAAAATGGAAAAATTGATTGGCAAAACGCCTTAAATGAAAAAAATGATGGATTTTTAAAAGTATCAGATAGTATATTTTTAAACTTCTGGTGGAAAGATATGGATTCAACAAGAAGTTATGCAAAAAAAATAGGAGTAGATCCCTACACTATTTTTGCAGGAATTGATACACAAGCAAATGGATACAATACAACGGTTCATTGGGATGGAATATTTCCAAAAGAAGAAACGCCAAAAGTATCCCTTGGAATTTATTGTCCAAATTGGACCTATTCAAGTTCAAAAAATCAAGAAGAATTTTATAAAAAAGCAAGTCGATATTGGATAGGTGAAAATAACGATCCAAGCAATACAGAAAGTAAGTCTAATTGGAAAGGATTAGCAAATTATTTTCCTGCAAAAACACCAATAGTTAAATTACCTTTTGTTACAAACTTTAATACAGGAAATGGACATTCATTTTCAGTTGATGGAAAATTACTGAGTACAAAAGATTGGAATAATAGAAGCTTACAAGATATTTTACCAACTTGGAGATGGATAATTAATGGAAACCCTTTAAAAATTGATTTTGATTGGACTGATGCTTATTATGGAGGTAGTTCATTAAAAATAAGTGGAAATTTAAAAGATGAAACAACAATAAAATTATATAAAACAAACTTAAAAGTAAATAAAAATACACAACTTACAATCATTAATAAAGCAAATACACTTGGTGTTGCAGAAATAGGAATAAAGTTAAAAGATAAAACAGAACCTATTTATTTTGTATTAAACGAAAATAAAAGTTCTTGGAATAAGAAGGTTATTTCATTATCAAATTATGAATCAAAAATAATTACAGAAATATTGTTAAAATTTAAAACAAATAATGAAATAAAAAATTATGAATTTAATTTAGGTAGAATAGCAATAACAAACAATGAAAAAAATTTAATAGAAACTCCAAATAATCTCAAAATCACAAAAATTGATTTTATTAATGGAATTTATGCAAATATCAGATTAAAATGGAAAAATAATCAAAAAAATTTGTTGTATCAAATATATAGAGAAAAAATAAATGGAGAAAGAGAATATCTTGGCAGTACATATAATAATGTATTCTTTGTTTCAAACTTAAATAGATTATCAGCATCTGAAAACAAAACTAATTTAATAGTAATCCCAGTAAATAAACTTTATGAAAGAGGAAAAGAATCAATCGTATCATTTGACTGGGTAGCATATCCAAAACCAAAAGCAGATTTTTATGTTGATAAAACTTTTATAGCTCCAGGAGATACTATTCAATTTCAAAACAAATCAAAAGTATATGATGAAGTAAAATGGTTCTTTTCAGGAGGAAAACCACTTATTACTAAAGAAGAAAATCCAAAAGTAACTTATGCTAAAGAAGGAGAATACAGAGTAACTATAATTGCAAAAAATGCTGTTGGAAAAGACACTCTTGTAAAAGAAAAATATATTACAGTATCTAAAAATGCAAAAAAAGAAATGGAAGTTGTATCATTAACTGCAGAGGCAACAGCAAATGGAAATGTACCAACAGAAACGCCTAAAATGGCTCTTGATGGAAAGAAAAAAACAAAATGGTGTGCAATTGGAAAAGAACCTCATGAATTATATGTTACTCTTGAAAAAGAACAAAAAATAGGAAAGTTCATAGTTAAACATGCTGAATTTGGTGGTGAATCACCTGATTATAATACAAAAGATTTTTATATATCAATAAGTAAGGATGGTAAAACATGGAAAAAAGTTGTAGATATAAAAGGAAATAAAGATGCAATTACTGAACATTTAATAGAGCCAACAAGAACAAAATATATAAAATTAACAGTAACAAAAGCAACACAAGGAGGAGACACCGCTGCTAGAATTTATGAATTTCAAGTTTTGGCAGAAAAAAATGCATTTGAAAATTATGCATTAAATAAAAAAGCAATAGCAAGTGGAAACGTACCAGCAGAATATCCAGCGCTTTGTTTTGATGATAAAGTAAAAAATAACAGTAAATGGTGTGCTATCGGAAAAGAACCTCACTGGATTATGGTAGATCTTGGACAAATAGAAATAATAGATAAATTCATAATAAAACATGCTGAAGAAGGCGGAGAAAACCCCGAATGGAACACAAAAGATTTTTATATAGAAGTTAGTAATGATAAAAAAACATGGAAAAAAATTATTGACATAAAAGGAAATAAAAAAGGCGTAACTGAATACTTAATAAAACCTATTAAAGCAAGATATGCAAAATTAACAGTAACAAAAGCAACACAAGGAGGAGACACTGCTGCTAGGATTTATGAATTTCAAGTTTTAGGATACAAAACACACAAATTAAATAAGGCAGCTGGTAAAGAAGCAATAGCAAGTGGTTGTGTATCAACTGAAACTCCAAATTTAGCAGTTGATAGAGATAATAAAACAAAATGGTGCGCAGTAGGAAAAGAACCTCACTGGATATTGATAGATCTTAAAGATATAATAGCAATAAATAAATTCATAATAAAACACGCACAAGCTGGTGGAGAAAGTGCAGAATATAATACAAAAGATTTTTATATAGAAGTTAGTAATGATAAAAAAACATGGAAAAAAGTTGTAGATATAAAAGGGAATAAAAAGGGTATAACAGAAAATATAATAAAACCAGTTGAAGCAAGATATGTAAAATTAACAGTAACAAAAGCAACACAAGGAGGAGATACTGCTACTAGAATTTATGAACTTGAAGTACAAGGAAAAGTAGTAAAAAAATATGTAGAAGAACCAAAAATATTATTTAAAGCAAGTGGAAGTAATCCTGGTGAAACACCTGATTTAATAATGGACAATGAAATAAGAACAAAATGGTGCGCAGTAGGAAAAGAACCTCACTGGATATTAATAGAGTTTAAAAAACCCAGAACAATAAAAGAATTTACAATAAAACATGCACAAGCTGGTGGAGAAGATGCAAAATACAATACAAAAGATTATTATATAGAAGTTAGTATCGACGGTAAAACATGGAAAAAAGTTGTAGATGTAAAAAATAATACAAAAGCAATTACAAAAGATGCAATAAAACCAGTTGAAGCGAAATACGTAAAACTAACAGTAACAAAAGCAACACAAGGAGAAGATACTGCCGTTAGAATTTATGAACTTGAAATAAACTAATTTAAAAAGTGAAGTTAGCTTAGCTAACTTCACTTTTTTATGTTAGTTATCTTATAATTTAATATTATTCTTAAATAAAATTTTTATTATTTTTTATAATTATTTTATTAAAAAAATAATATATAAAACTATTGATTATACTTATAATTAAAATTACTAAAAATAAAATTAAATTAAAATAAATATTAATTTTTTCTCTAAATAATAGGTTAGGAAAAATGCTAAGTATAAACCATGTTATTGAACCAAACAAACTCCAATACATTGTATTTTTTAAAAACAGATTTTTTTCCTTGTTTATGAGTTTAGGTATTAAAAAATTACTATATATTTCTAAAATTGCAGATTGTATGTATAGTATAAAAACTACAATAAGAAATCCTTTTGGTGGGGGTTTATCTGCTCCAAGCAACATTATTATTATCCATATAACAAAAAAAATTATTGAATTTATTTTAGAAATCTTTTTTACTTTATTTTTCATTTTTTTACCCCCTATTTTTTTATTTTATACCAAAAAAATCTAATATAGCACTTAAAAGAGTCAATGGATGTGGTGGACATCCAGGAACAAATAAATCTACTTTTAAAATATTTTCTACTCCATTAATTTGTTCAATATTATTTCTGAATGGTCCTCCTGAAAGAGCACAACTTCCAGATGCTATTATTATTTTAGGATCAGGAATATCTTTATATGCTTTTTTTAATGCATATTCCATATTTTTTGTTACTGGACCAGTTATTAGCAAACCATCTGCATGTCTTGGAGAAGCAACAAATTGTATACCAAATCTTGACAAATCATAAAATGGTGTATTTAAAACATTAATATCAGCTTCGCAAGCATTACAACCACCAGCTGAAACAACTCTCAATTGTAACGAACGTCCAAACATCTTTTTAAATGATTTATTTGTAGAAACTTTTAAATTTTCAACCTCTCCATTTAAAATTAATTTTTCTGATTTTGTTGATGCCATTTCAAAATTTCTTGTAAAAGTAACAAACTTTCCATTTGATACTTTTTCACACAATCCACAAAAAGTACATTTTCTAAGATCAATTGTTTTATTTTCTATATTTATCGCATCTTGCGGACAAACATCAGCACATTTTTCTACAATTTCTATTGAACAATTTGTATTTATTTTTGGAAGTCCTCTATAATTTTTAGGAAGTTCTATTTCTTTTTTAGGATATTTTGATGTTCTATTTTTTTGTTCAATTCTATTTTTTATTATATCAAAAAACATTTTCATTACCTCTCTTTTATAGGTCAAAGCCAGAATAAGATAAATTAAAGCTTTTATTACATAATGGAAAATCATAAATTCCTTCATTTCTTACTGCAATTTCAAGACCTTTCCAATTATTAAATGATGGATCTTTTATTTTATACCTAATAATTTTCCCATCTTTATTTGTTATTATACAATGAGATAATTCTCCTCTCCAACCTTCCTGCAAGGTTAAAATCAAAGTTTCTTTTGGTAATTTAAAATTTTGTATTACAACTTTTGAATCTATACTTTTAATTTTTTTCAATAAATTTTGTACTATTTTTAATGATTCTTTTGTTTCTTTATATCTTATCATCGCTCTAGCCATAGCATCACCAGAAGTTTCAATAATTTCTTCAAGCTTTATTTTCTTCCAACTTTCATTTGGAAAAAATCTTCTTACATCATAATTTATACCAGATGCTCTTCCAACTATACCAACCATATTTATTTTTTCTGCAATATTTTTTTCTACAATTCCAGTATCTTCTAATCTACTCAATACCCCAGCTTGAGAAAAAAACATATCTCCAACATTAATTATTTCCTTTTCTAATTGTTTTATTTTTTTTATAAAATTATTTTTTTGTTGTTCACTTATCATATTTTCAGTTCCTGGCCTAATTAATCCTCTTCCAAACCTATTTCCAGATATTTCTAATAGTATATTCAAAAATTCTCCTCTAATTCTTCCATAATAAGAAGAAACAGTTAAAAAGGCTATATCTCCACTTAAAGCTCCCAAATCACCTATATGATTTGCAATTCTTTCTAATTCTAAAGAGATTAGTCTTAATAATTTTTCATTTTCATTAATTTTTATATTCATCATTTCTTCAATAGCTTCTGAATATGAAATACTGTGAACAATCGTTGAATCTCCACTTATACTTTCTATAATAGTTGGTATTTTTTTTAATTTAACATTCTCTAATTGTTTTTCTATGCCTCTATGTTGGTATCCATGTTGAATCTCTAAATTATATACTTTTTCTCCAACACAATTAAATCTAAAGTGTCCCGGTTCTATTACACCAGCATGGATTGGACCAACAGCAACTTGATGAACTTCTTCACCTTCCATTTTATAAAAAGGATAATTTCCAGGTATTACTTTTTCATAATCATTATTAAATAAATCCTTTTTCCCAACATAATTTTTATGGTATCTTAAAGATTTAAACCATGGGTGACCTATTGGTTTTATTGAAAATTGTTCTGCTATTTCTCTTTCATATTCATTAAATTGTTCATATTTTTTTGTTAGTGATTCATATTCATTTGGTGCTTCACAAAGTCCTATCCAAAGCATTTCTGTTCTTAAAATAATGATTAACATTACTTTGTTATTCATTTCAAAAGCAAAATATTGAATTACTTTTGCATTTTTTGCCATTAATATCTCTATTTCATTATAAAAATCATCAAAAGTACTTAATGGCACTTCAGATAAATTTATTTTTTTAGTATTTTCTATATTTATAAAATTTTTATTCATAATGCACCGCCAAAAACTTCAACTGCCTTATTAATCAGTTCTAACAATTGATTAAATTGAAAAAAAGTAATAATAAATGATGTACTAAGCAAAATATATTGAGGATAAACTCTCCAATTATTTTCTTTTATTTTAGGTTCATATTCAGTTTTATCATAATACATCTTTAACATATACTTTATAAAACCTGCAACAATTAATATAAGACTAAAAACAAACAATGAAACAGCCACATATTTTCCTTTTTTTATTGAGCCCACAATTATCAAAAACTCACTAAAAAACAATCCAAAAGGTGGAAATCCCAGAATGGCAACCGTTCCTAAAAACATAGCAATGAATGTTTTAGGTAAAAATTTTACCATATTTCCAATTTTTTCTATGAGTTTTGTTTCATAGCTAATTAAAACATTTCCAGCAGATAAAAACAAAGAAGATTTTATTAATGCATGATGTATTAAATGAAAAATAGCTCCATAAGCAGCTATTCCACCTATTCCTGCTCCAAAGGCTATAATCCCCATATTTTCAACACTTGAATATGCTAACATTCTTTTATAATCAACTTGTTTTAATATAAATACTGCAGCTATTAACATAGATAATAATCCAAGAATAATTAAAGACATTTCAGCAAAAGTTCCTGCCTCAGTTACTTTTAAAACTTTTGTTATTTTAAAAATGCCTAAAAATGCTGTATTTAATAATGCACCTGAAAGAAGTGCAGAAGCTGGACTTGCTGCTTCACTGTGTGCATCTGGAAGCCAGGTGTGCATTGGTGCTAATCCCATCTTTGTTCCATATCCTATTAAAATAAAAACAAATCCCGCTTTTAACCATTCCATTTTTAAAAGAGATGGATTTTTATATAATTCAGTAAAGCTCAATGCAATTTTTAAATTTGCTTCATCTCTTGCAATTGCAATTAAAAATGTTCCAAGTAAAGCTAATGCTATACCAACAGAACATATTATTACATACTTCCATGCTGCTTCTATTGAAGTTTTTGACTTATGAATAAATATAAGCGGTGCACTTGTTATTGTTGTTGCTTCCACAGATATCCAAAATAATATTAAATTATCTGATATTGCAACTGAACTCATCGAAGCTAAGAAGAGTATCATAAATGCATTAAATATTTTTTCGTTTTCATATTTTACTTCTTTTAAATAAAAAACAGTGTAAAAAGATATTATCAAAAATAAAAACGAAGTAATTAATAGTACTATCATTCCATCAGAAGATAAAAAAACATATTTATTAAACATTGGTTTTAGGAAACCACCCCAACTTAACATTGTCAATGTAAAATGTATTATTCCAGTAATAGGTAATAAAATTTTTGATTCTTTTACAAAAAAGATCAATATTCCAATTATAAAAGGTACAATCACTATTAATTCTATCATCATTTACTCCTTTAAATTTTTTAATTTTATGGTATTTATAGTTTCAAATTTTATATTTATCTGTTGTAAAATAACTACCATAATCATAACTCCAACTAAAATATCCAATAAAATACCAAATTCAACTATATAACTACTTTTATTAATTAACATACTTCCAATTAAATATATTCCATTTTCAAGCATTAAGTATCCTATAACCTGTGTAATAGTCTTTCTTCTTGCAATAAGCAAGAACATACCTGATAAAATAGTAGCTATTGCAGTAACTCCCAAAAGATTATTTGAAATTGGAAATGATATTTTATTTTGAATAACAAATGAAAAAACAATGATCAATACTGATATAAAAATAGAAGCATGATAACCAACAATAGGTTCTAATTCTTTTTTCATTATAACTTTATCCAACACTTTTATTAACATTGTTGGAATTATAATTCCTTTTACTAAAAAGGGGATAAAAGCAAAAACTATAGTTGTAATAGTAATTTTTTCTTCTATAAATATTGGTACTAAAGATACTAAACTTCCTTGTAAAAATATTGTATAAATTAAAATTCTCAATCTACTTGAATTCAAACTAAAAATCAAAGAAAATAATATTATCATTAATAAAAGATTTAATATACTCATTTTAAAAACCCCTTAACTAATATATTGGCTAAAATTGATAAAGAAAAAGATGTTAAAATAAATTTTGGAACCTTTTCAAATTTAAATCTTGGTATTAAAGATTCAATTACGCCAATGAATACATAAATTAAAAATATTATTCCATAAAAAATTATTGTATCTAAATAAAAGTTATTAAATGAAAAGAACATTAATAATTTTGCAATGAATGCAGCATAAAACATCAATTTTAAATTAGCACCAAAATGTATAAAACCAAGATCTGGTCCACTATGATCAAGAACCATAACTTCATGAATCATTGTGAGCTCTAAATGAGTTTTTGGATCATCAACTGGAACTCTTGAATTTTCTGTTAATAAAATCATAAATAAAGAAATTATTATTAAAATCAAAGAAAGTCCATAATCACTCCAAATGTTTTTATTAAAATTGAGTATATTCATAAATGAACTGTATCCATTCATATTAACTAAAGAAATTATAGACATAAATAAAGTTAATTCAGCTAAAGCAGAATAATATCCTTCTCTGCTTCCTCCCATTCCTTCAAATGAAGAACCAGTATCCATTGCAGATATTATAGTAAAAAATCTACTCAATCCCATCAAATAAATTATAAAGACAATATCTCCATTAAATGAAAGTATTGAATTAAATCCTGCAATTGGAAAGAACATCAAAGCTATTAATGCAACAGTAAAGGATATAATTGGTCCAATTTTAAATATAAAAGTTGTTGTACTACTATATACAGAACCTTTATTAAAAAGAAGTTTTTTTAATGTATAGTAATTTATAAAAATTGAAGGTCCTTTTTTTCCTGAAAAAAATGCTTTAGTTTTTAAAATTATTCCTGAAAATAAAGGAGATAAAAATATTGTTAAAATAAATAAAATTATTGACTTCATTTAATAACCCCCATTATCAAAAACAATGTTAATGCTATAAAAATATATGCTATGTATCCATGAACATCACCATGTTGTATCCATCTTAATTTATTAGATATAAATAAAATTGGATTGACAATATACTTTTTTATTAAATATTCTGAAACATCTATTGTCTTTGATTCATACATAGTTCCTTTAGGAAAGATTCCTTTTATTTCATCTATACTTTCTTCTACTTTTATAAAAGGTTTATAAAAATTTAGTATTTCATGAGCATAAGAACTTCCAGTATATTGCATTTTAGATGTAGGATAACCATATCCACAATCCCAAGTAGTGCTATTTTTAATTTTTTTATTTTTATAAAAATACTTTCTTATTAAATAAATAATCAATAAAGAAATGATAAAAAGTGTACTTGAAAAAGTTATATTAGAAGCTATTTTTAAATCAATATTAACTTTTTGAGTTAATTTAAAACTATTAACTATATTAAAAACATTATTTATAAAAACTGAAGGAAAAATTCCTATAAAAATACAAAAAATTGTAAGTATTATCATTGGAATTAAAATAAAATAATTACTTTCTTTTGCATTTTTTGCTTTATTCGTTTTTGGAGTTCCTAAAAATACCACTCCAATTACTTTTGTAAAACACATTATTGCAAGTCCTCCTATCATTACAAGAGATAATATCACAATCAATGAAAAAACATATGGAAAGTTTGATAAATTCATTCCATTAAATACTCCAAAATATATTAAAAATTCACTTACAAATCCATTAAATGGTGGTAATCCTGCTATTGCCAGTGAGCCAATTAAAAATGTAATTGAAGTTACTTTCATTTTTTTTAAAAAACCACCCATTTCTTCAATTGATTCAATTCCTGTTTGATGTAAAATAGATCCAGCACCTAAAAATAATAAAGATTTAAATATTGAATGATTTAATATATGTAATAAACCCCCACTAAAACCAAGTAATGTAATAATAGGATTTTTTATTGTAACACCCAACATTCCAACACCAATACCCATTGTAATAATTCCAATATTTTCTACACTATGATATGCTAACAATTTTTTTAAATTATGTTGTCCTAATGCATAAACAACCCCCAAAATACCAGAAATTACTCCAATTGATATTACAATATAAGGTATCAAAGTTATGCTTGTATTTAATAACAAATACATTTTTAGTATTCCATATATACCTATTTTAATCATTACTCCAGACATAATTGCAGATACATGACTTGGAGCTATAGGATGTGCATGAGGTAACCAAATATGTATAGGTATAAGTCCTGCTTTAGAACCAAATCCGATTAAAGAAAGTATAAATGCTATTAATTTTATATTTTCAGGTAAACTTGAAATTCCATCGAATGAAAATGAATTTGTATAAGCATAAATTAAACCAAATGAAGCAAATATGAACATTCCTCCAATGTGCGTAAATATAAAATACATATGACCAGCTCTTCTTACTTTTTCTTTATTATATTCAAAAATAACAAGAAAAAAAGAAGACAAAGACATTATTTCCCAATTGAACGCAAAAGTAATCAAATTATTTGACAAAACGACTGTCATCATTGAAATAACTAACAATGAATAAAAAAAATAGTTAATTGCAATATTTTTAGATTTTTTTTCATTATTTAAATATGAAAAACTATATATTATTGATAAAAAACCTATTAAACTTATTATAGAAATAAAAAATAAAGATAATTCATTTATTTGAAATTCAATAGGAAAATAAGGTAATTTTAAATATGAAAAATTTATATTTCCATTGAATTTTACAAGCAAAAAAATTGATTCAATTAAACTTATTATAGTGCCAAAAGATATCAAACCTATTGAAAAAAATTTCATTACATTAAATTTTTTAGTTAAAAATAATGGTAAAGTACCACCTATTAATATTAAAAAAATTGACATAAAAAAAATGTCCATTTATTTTCCTCCCTTATCATTTATTAAAAAAAAATAAAATTTACTTTTAAAATTTTTTTCTCATTCTTTTTTTTATTTTCCATATAATTTTTTTAGATAAAGAAAGTTTTTTCATTTCGTTTTTCTCCTTTAAATAATATTAACTAACGTCTGTATTTTAAGTCTTAAATAAAAAAAAGTCAACACTTTTATATTAATTTTCTTTTAATTTTAGGATTTAATAAAAAAATGGTAGAATCCCATTAGATCCTACCATTTTTTTATTAAGTTACAAATTATATATTTTTAGGAATATTTATAATGAATTTAACTCCTTTACCAATTTCACTTTCACACTTTATACTTCCTTTCATTTTTTGAGTCACTAAGTTATATATAAGATTTAATCCTAATCCAGAACCACCCTTTCCCATTTTAGTAGTAAAAAATGGTTCAAATATTTTATCAATTATTTCTTTTTCAATTCCACTTCCATTATCAATATAAATTAATTCTATATTATTTTCTATTTCTTCAAAGCTTATACTTATTTTTCCATTTTTTTTGTTCTCAAAACCATGAATTATACTGTTCATTATTAAATTATTTATTATTTGATACCAATCTCCTGGATATCCTTTTAATTCTATATTTTTACCCTTAATTAAGACTTCTATATTTTTTTGTTTTAACTTTTTATTCAAAATTAAAATAGTATTATTTATATAATCTTTTAAATTAAAGTTTGTTTTTATATCATTAGAAGTTTCAACAGATACTTTTTTAAATTTTTGTATTAATTCGGATGCACGTCTTAAGTTAAACATTGTAATATCTGATATTTCTAAAGTATCTTTTATATAATTTTCAAATGTCGATTTTTTTAATTCATTATTTAAAAAATCTTTTTCTAAAGATTTTGTTTTATCTTTGAGATGAGATACTGTAGTTACACTTATTCCAAGAGGTGTATTTATTTCGTGAGCTACACCAGCAACTATTTTTCCAAGTGATGCCATTTTTTCTGTTTCAACAAGTTGCTTTTGGGTTTTTTGATATTTTTCAAGAAGATTATTTAATGATTTTGTTCTTTCTAAAACTTTAAATTCTAATTCATCGTTTAATTTTTTTAATTCAGCATTTTGTGTTTCAATTTTTTTAAAACTTTCTTTTATCTCATCTTTCATTTTATTAAAAGAACTTCCAAGCTTTCCAAATTCATCTTTTGACTTTATATCTAATTTAAAGTCATAATTACCTTTACTTATACTTTGAGTTGCATCCACTAAATATTCTAAATTTTTAGTTGATTTTGATAAAACATAATATAGAATTATTCCAATAATAAAAACTAAAATTACAATAATCGTTGTTTGATATTTTAAAATATTTTGAGTAGAAGAATTTATTGTGTTTTGTGAATTAACTAAAGTTTGGTATAATGACTCTTCAGGTAAGAAAAATCCAAGAGTCCAACTTTCTTTGTAAAAACCTTTGTTTTTATTCCATGTATTGAATGAATTCAAATTTTTCATAACAAGAATATACTTTTTATTATTTATTACTATATTTTTAAATACAGTTTTTGCTGAAGAACTTGTAAGGCTTAAATTCTTTATACTCTCATATTTACTGTCTTTAAAATATCTTTTCATTGGATTATATCCTACACCTTTTTTTCCATATATTGTAGATTCTTTTTCACCTTTTAAACCCAATGTTTTTATTCCCATATCATTTATGGCAAAAACATTTCCATTAGACTGTGAAATAAAACCAAACCCATTTTTTACTACTTTAAACTCTTTAATATAATCAATTATTTGTTGTATGGTAACATCAACACTTAAAGATCCTTCAAATTTTTTTCTTGCTTTATCCCAAATTGGATAGTTTAAGGTCATTATTATTTTTCCTGTTCCTCCATCTTGTGTTGGTCCTTTAATAATTGAAAAATCTTTTAAAGGTAGATTTGAATTATTTTTTCTTTTTTCTTCAAACTGTTCAACAAGTCCTGGATTAAATGCTTCCCAATTTGGCACGTCTGTATGAGCAGGATAAACTTTATCCATTGCATTTCCAACATCATTCCATGGATATATTCTCATAAAAGATCCATTTTTTCTTCCTGAAAAATATATCCAAAGAAGATTTGAACTATTATTATAAATAGCTGGTAATACTAAATTTAAAATAGAAGTATCATGTATCTGTTGTAAAACATCATCTCTTATACTGTTATCTTTATTTAAACAGTATCTTTGAACAAGGACAACTGTATTTTGAGTTGAATCATTTTGATACCATCTTCCATTGAACTTTAACTTATCTTTAGAGTAATCATTCTTAATCATAGTTTTTGTTATTTCTTTAAAATCTTCATTATTGTCAAAGTATTCTTGTAAAATACTTCCTGCAATTGCTTGATTTTCAAAGATATTTTTTATTTTGCTTTCAATTAAGTTTGAAGCGCTATTTAAGTAATTAGTATAATATTCTTTATAAATATTTTGCATACCAATCTTTAATTCTTTTTCTGAATTATCAGCTAATTTTTTTATTCCATAAAATGATATAAAAAGCTCTATTATTAATGCTAAAAAAAGTAAAGTTATTGATATAAATATTATTTTATTTTTAAAACTCTTAGTCATACCATCACCTCCCATATTTATATTATATCACTTATTTTATGTAACATTCTTATGGTAAAATATATTTTAATACTAATTTAATGAGGTGAAACTATGTTTAAAAATATAAAAATGATTTACTTTGATCTTGATCATACACTTTGGGATTTTGAAAAAAATTCAAGAGTTTGTCTTGGTATTTTATATGATAAATATCTTTTGAAATCAAATATTGACAAAAATTATTTCATTGATGTTTATGAAAAAAATAATGATATACTGTGGGAAATGTATAGAAAAAGAGAAATAGAAGTTTCAAAATTAAAATTGAAAAGATTTGAAAATACTTTAGATGAATTAAATTATCCCTATGAAAATAATTTAATAAAAAAATTAAATGAAAATTATATTAATTTACTTGCTGAACAAGACAAAACCTTTGATGGAACACATGAAGTTTTAAAGTATTTAAAATCAAAGTACGAAATTGGAATAATAACAAATGGTTTTAAAGAAATACAATTTAAAAAACTAAAAAGTGCAAATCTTGATAATTTTTTTAAAATTATAATTACTTCTGATTCTATTGGAATTCCAAAACCTGATAAAAAAATTTTTGATTATGCTGCAAAGCTTTCTGGATTTAATCACAATGAAATTTTATATATAGGAGATGACCTACAAACTGATGTTATTTCCTCTAAAAAAGCAGGCTTTGAATCAATTTGGTTTAATTATAAAAAGAAAAACACATCCGAAGATGTGTTTCAAATTCATTCTTTATTAGAATTACTCAATCTTTTATAATTTTATTTAAATTCATCATTTCAACAAGTGCCATTGCTGCATCAAATCCTTTGTTTCCTGACTTTATACCAGCTCTATTCAATGCTTGTTCAACCGTATCAGCTGTAATTACACCAAAAGTTATGGGAATATCCGAAGTTAAGTTTATTTGCGATATTCCCTTTGATATTTCATTTGAAACAACTTCAAAGTGATATGTTTCTCCTCTTATAACTGCTGAAAGTGCAATTAATCCATTATATTTTTTTGTTTTTACAAGTTGTTTTACTAAAAAAGGAACTTCAAAACTTCCAGGAACATAATAAACGTCTATATTTTTTTCATTTAATCCATGTCTGATTAAACAATCTTTTGCGCCTTCTAAAAGTTCTGTGGTAATGTTTGAATTAAATCTCGAAATTACAATTCCAACTTTTTCATTAGATAACTTATAATTACCTTCAAATATATTCAATTTCATCCCTCACTTTAAAAATTCATTTAATTTATGATTGAATCTTTCCATTTTCGTTTTTAAATAAAATTTGTTTTCAACTGTTAGCTTTCCAAAAAGTTTTTCCATTTTTTTAACATTTATTCCATACTTCATTAATTGATTTTTTTTATCTTCATTATTAGATAAAAGAATAATATCATTTATATTCATTGCTTTTAACATTTGAGCAGCAATTGCATAATCTCTTCCATCTGGTGGAAGCCCTATTATTTCATTTGCATCATAAGTATCCACTCCATCATCTTGAAGTGCATAGGCTTTTATTTTGTTTGTTATTCCTATATTTCTTCCTTCTTGACGCAAATAAATCAAAATACCTCTTTGTTTTATTTCATTCATTGCATTATAAAGTTGTGAACCACAATCACATTTTTTTGATTTTAAAACATCTCCTGTAACACATTCCGAATGTACTCTAACTTTTACAGGATCTCCATCAAAGATATCTCCAGAATATATCAAAAAATGTTCTTTATTATCTAACAAATTTTTAAATCCTACTATCTTAAATACTCCAAGTTCAGTTGGTAATTTTGCTTCTGAAACTTTAAATACAAATTGTTTTCTTTTCATACTTTCAATATAAATATCTTCTATATCTATTATTGGTATATCATATTCTTTTGAAAGTTGATTTATATATTCAAAGTTATGTGAATCTCCATTTTCATCTAAAATTTCTATTATTGTTGAAAATCTTTTGTATCCTATAAATTCAACTAATTCTAATGATGCCTCTGTATGTCCTTTTCTATTATTTATGCCAATTCCACCTAAAAGTTGAACATGTCCTGGATAAGAAAATAAATTAATATTATTATTTTGTGCCAGCATTTCTATTGTTTTTGCTCTTTCAAAAGAAGAAATACCTGTATTACTCAACTTATAGTCTATTGGAATAAAATAATTTGTATTGTGTTTATCTAAATTGTTTGAAGGAAGTTTAAAAAAACCTCTTTCAATTAAGAGCTTTTCATCTGCAACTGTACACAAAAGGCCTTTACCTTTTGATATCATAAAATTAATTACTTCTGAATTTATTATTTCAGATGGAAAAATTAAATCTCCTTCTACTTCTCTACTCTTATCCAAAATAATTATTGGTTTATTATTTTCAAAATTCTTCTTTATACTATTAATATCCATACTCATTCTTTCCTCCCTTTATATATCTTGCAAACACATCTATTTCATAATTTACTTTTTCATTTTTTAATAAGTACTTTAAATTTGTATTTTCTATTGTATGTGGTATTATTTGAACAAAAAATGTATCTAAAGATTTTTTTGCAACAGTTAAACTAATGCCATTTAAAGTTATTGACCCTTTTTCTACAATTGCCCAATTTTCTTTTACATTTGAAAATTGAAACAAATATGATCCTCTCTGTAATTGTTTATCTATAAATTTTACAGTACCATCAACGTGTCCCAAAACAAAATGTCCGCCAAGTCTACTTCCTACTTTTAAAGCACGCTCAATGTTTACTTTTTTTGATACTTTTAAGTTTGTTCTATTTAATGTTTCTTCTCCAATACCAAAAATTAAATAATTGTTCTCTATCTTTTCTACAGTTAAGCAAACTCCGTTTAATGCTATGCTTTCTCCTAATACAATATCACTATAAGGATTTTTTATATACACATTTCTTCCTTTAATAAACATTTCTTCTACATATTCAACTATTCCAGTAAACATTTTCCAACTCCCATAAAATGTTATTATCAATATTTTTTATACTCAACGTTTTTAAGTTTTTTTCATTTTTTAAATTTTCAAATGGTGATATTCCTCTTCCAAAAATTTTTGAACTATAAAATAAAGAAATTCTATCTGCATATTCTATAAATTCTGAAGCAACTTTTGAACCGCCTTCAACCAAAACAGAATCAATATGTCTATTATAAAGTTCCTTTAATATATCTTTTATATTCAACTTATCAGTATAAATAATTTCTGTATTTTTAAAGTTCCATTTTTCATTTGAAGACGTAAATATTATATTTTCACCTTCATTGTAAATATTCAAATTTTTGTTTGCTGTAAGTCCATGTTTATCTAAAATTATTTTTAAAGGATTTCTAATTTTTTTAGTTAATCTAACATTCAAACTTGGATTATCTTTTAATATAGTTCCAGCTCCAACAAGTATTGAAGAATAAAAATTTCTCATTTCATGAACTATTTTTCTTGAGCTTTCATTTGAAATCCATTTTGAATTTCCATCTTTATTTGCTATAAATCCATCTAAAGTGAGAGCTAATTTCAAATGAACATAAGGCCTTTTTTGTACTATATAAGTCAAAAACACTCTATTAATTCCCTTTATTTTTTCTTTCATTAAACCAACTTCAACATAAATTCCAGCATCTTTTAATTTTTTAATACCTTTTCCACCAACTAATGGATTTGGATCTTTTAATCCTACATAAACTTTTTTTATACCCTCTTTTATTATTCTATCTGCACAAGGTGGTGTTTTTCCATAATGAGAACACGGTTCAAGTGTTACATACATTTCTGAATTTTTTATTGAATAACCTTTTTCCTTTGCATTGTCTATTGCAACTACTTCTGCATGTCTACCTCCAAAAAATTCATGATATCCAGTTGATAAAATTTTATTATTTTTAACTATTACTGCTCCTACCAATGGATTTGGATTAACTTTTCCAATACCCTTTAAAGACTCATTTATAGCTAAATCCATATAATTCATATTTCACCTCTTAAAAATATAATAAAAAAGCCTGAAGAATTTTCTTCAGGCTTTTTTATTATATTTTTTATCATGATATAATTAAATATAGTCTTCTCTCATCCGGACTTTAACCGTCGGTATCGGAATTTCACCGATTCAACCTAAAAGGCTCGCGGACTATCACCGCCGGTAGGGAATTTCACCCTGCCCTGAAGAACTCAAAAAAAGTATATCACAAAAATTTTAAATTTCAAAATGGAGGTTTTATTCTTGAATTTATTGTATATAGGAACAGGTGGATTTATTGGAGCAATACTCAGATATTCTATTTCTAAGTTTATTAATCAAAAATTTCCATTTTCATCTATTCCCTATGGAACTCTTTTAGTAAATATCATTGGTGCTTTTATATTAGCTTATTTAATGTCATTGTCTATTCATAAAATAGAATTTTCAAAAGAATTTATTTTATTTTTTGGAACGGGTATGCTTGGAGCTTTTACAACTTTTTCAACATTCATGTATGAATCAATTTCAATGATAGAAAATAATAATCTATTATTTTCTGCTATTTATGTTAGCGTTAGTATAATTGCTGGAATATTTTCTTCATACTTTGGATACATTTTAGGGAGGTCTTAATTATGAAATTATTAAAAATTTATCTGGGTGAAAAAGATAATCATGGTCATAAAAGAATGTATGAAAAAATAATGGAGTTAGCTTATAATGAAGGATTAAAGGGAATAACTGTTTATAAAGGAATTGCTGGATTTGGAGAAAAACATCATATTCACAAATCAGATTTTTTTACTTTAAGTGAAGATTTACCTATTATTATTGAAATAATAGATAAAAAAGAAAAAATCATTAATTTTCAAAAAATAATAGCTAATTTAAAATTTGATGGTATAATGTTTACTCAACCAATTGAAAATTATGAAGAATATAAAAAATAATTTTTAATTAAAAGGTGGTTTAAATTATGCACAATAATAAAAAAATTAATCTACTATGCAACAAAATAATAAAATTTATAGAAAAGTGTATAAATAAATATGAATTTTATATATTAAATGAAAAAACTTATCAAACCACTTTAAAAATTGCTTTAAAAAATTTAAATTTATCTCAAAAACAATTAAAAATGGTTTCTATGATAACTAAATGTAAAATTGAAGATTATATTTTTCAAAATTATTCAACTACAATACAACAAAACTATGTTCTTGTATATAAAAATTTAACTAAAAGAGTATTAAAAATAAAAAAAATATATTATATTAAAGATTATTAATTTCTAATAAAAAAAATAGAGAGTTTAACTCTCTATTTTTTTAAAATTTAACTTTAGGAATTAAGCTCAATACAATTTTTACTTTTAAAAAATTATTAAATTTTTTATTAATAAGCATAATATTATTAAATAATATTAAATTGATTTCTTCCATTATTTTTTGCTTCAATCATAGCTTTTCTTACTTTTTCAATAACAAAAGTATCATTTGAAAACTTTGTAATTCCTACACTTACAGTTACATTTAATGTTGTTCCTTCAAAATTAATAGGTTCTTTCATCGAATTGATTATTTCATTGGATATTATTTTTATAAGCTCTTCATCTTTTCCCTTTAATATTAACGCAAATTCATCAGCATCTATTCTTATAACTTCTTCTTTAATATTATTATTTTCTAAAACTTTATTAATTCTTACTGGTACCTCTATAAGAACTATATCTCCCATTTTTCTACCATAATTTTTATTTATTAAAGAAAAATTATCTATATCAAAATCAAATATAAATCCATTTGAAAATAAATTTATTTTTTCTTTTATCTTTTCTTCATTCATATTTACACCTCCATAAATTAAGTTTATTTTTTGAAAAACATTATATTCATCAACATTTTTAGTACTTTCTCGATATTTTTTTGGTGAAATTCCAAATAATTTTTTAAAACTCCTCGAATAAGACTCATAAGTTTCATATTGATACTTTAAAGCAATTTCTAAAATACTTTGTTTTGTTTCTATTAAATCTTTTTTAGATAATGAAAGACGTCTCTTTCTAATATAATCTTTTAAAGTGGTTCCAATTATTTTTGAAAATAATTTATAAAATAAAGAAACTGACATAAAAGCTTCTTCTGCTACTTTATCAATTTTTATATCTTCATATAAATTTTCTTCAATATAATTTAATGATTTCTGTATTCTGTCTAATATATTGATTGCAATCACCTCCGAGCTCAATACAATTATATAATTTTTAAAAATAAAAAGCATGATATTTTTTCTACAATTATAACAATTAATTTATGATATAATTAACTATATTATGAAAGAGGTGATGAAAATGATTAATATTTATCATATAAAATTTTTAGGAAATGTACAGGGAATTTACACGAGTGGATAAAAAAATCAAGGAGGTTTAAAACGTGTATTCCCAGAATATTAAAAAAAATTATGTATTTTCATTTTTTATGAACTTTAATGTAACAAGTGCAATTTGGATGATATATCTTGCTTCAATTGGATTTAATCAATTTCATATAGGTTTATTTATGTCAATAGCTTCTATTTTTAGTGCACTTTGTGCAGCATATACGCATAAAATAGAAAAAATAATTAGTGAAAAATTATTATTAAAATATATACCATTAATAATGTCATTAACTGTATGGGGAATTGCTCTTTCAAAGGTAGCATAAAAAATTTTGTGTAAACGGCTCTTCTTGGAAGGTAAAAATAAATAAAATTAGTTATTATTTTTAAAGTATTTCCATAAGAATTATCGACTATAAAGAAATATGCTTTAAGAGTAAATTTTAGAAGTTTTTAGTATAATTTTTTGTAATAAATAGCCTTTTGCAACTTTTTATTGCAAGGTATAGCATTATAATATTTAATATTCATTTTTGTGTGTTATAGGTATTTTTTGTTATGTTACAAAGTATATTTATGTTAGGAATTATAGATATATTTTGTAATTCTTTCATTAAAAAAGATGGATAATTCGTTTAGGACATTGCTCCAATTTCTATAACGAGCTGTCCATCTTTTTGTTGCATTTATTGTTGCTAAATAAAGCATTTTCAATAATGCATCGTCATTTGGAAATGATGTTTTATTTTTTGTTGCTTTTCTATATTGTCTATTTAATGATTCTATTACATTTGTTGTGTACATTATTTTTCTTACATCATCGCCATAATCAAAATAAGGGGATATTGTTTCCCAATGTTTTTCCCAACTTTCTAATGCTAATTTGTATTTTGTCCATTTGTTTTCTTTCAAATCTTGTAAGTTTGAATAAGCAATATCTTTATTTGGTGCTTTATATACTTTTTTTAAATCATTAACAAGTTCTTTTCTATCTTTGTAACTAACATATTTTAATGTATTTCTTATTTGATGTATTATACATCTTTGTACTATAGTATCTGGGAAAGCAGTTTTTATTGCTTGTGGGAAACCTGTTAATCCATCTACAGAAGCTATTAATATATCTTTTATTCCTCTATTTTTTAAATCATTTAATACTCTTAACCAAAATTTTGATGATTCTATTTCACCTATATATATACCAAGTACTTCTTTAAATCCATCTATATTTACACCAAGTACAACATATGCAGTCTTTTTTATTATTTCACCATCATCTTTTACTTTAAACACTATTCCATCCATAAACATAAAAGTATATATTTCTTCTAAAGGTCTGCTTTGCCATTCTCTGATTTCAGGTAATATTTTATTAGTTATTTTACTTATCATTTCCGCTGATAATTCTACACCATATATGTCCTCTACGTTCTTTACTATATCTTTTGTGCTTAATCCTAAACCGTACATACCTATTATTCTACCTTCAATATCTGAGATATCTTTTTTATACTTTGGTACTATGGCTCATATTCACCTTTTCTATCTCTAGGTATTTTTAATTCCATTTCTCCAACACTTGTTCTTACTCTTTTTGAACTGTACCCATTTCTAGAATTATCTGTTTTCTTGTTTTCTTTATCATATTTCCCATAACCTAATTCATCTTCTAATTCTGCTTCTAACATCCCTTGTATTAACGGTCCCACTAATTCTTTTATCTTTTCATATACATCTTTTATTGTGTTTACCTCTGGATCCCTTGCTATTAATCTTGCTAATTTTTCAATGTTGCTTTCTTCTTTTTCTTCTTTTTTTCTTCTTGCCATTTTAAAAACCTCCTTCCTGGTTTTATTTTACCATCCCAAGAAGAAGGTTTTTCATTTTTTTATTTACACAAAATTTTTTATGGTCTCCTTTCAAAATATTCATTCATATATTTTACAATAATTAGTGGTCTTGAAGGCATTCTTTATGTAGTATATAGCTCATCTATAAACAAATTAATCCCATCTAATAAAAGAGCTACAATACTATCTTTTGCAAGCATGGTGTTTAGCTTATACATGATAGTAATTTTCCCATTATTTGGAAAAATAGCTGATATTTATTCGTTAAAAATAGCTTTTTTATTTTTAGCAATATTTATTTCAGCATTAGAAATAATAATTATAACTAAATACTCAAATTGAATTATTAAAGGTGAAGCCTAAGGCTTCACCTTTTTAACCACTTATTGATACATTAAATATTTTTATTGATTTTGGACCTATAAAATTATTTATTTGTTGATATTCTTTTGATAAATACATTTCATTTTGTACTTCTTTTAAATTTCCTGAAATTGATCCACCAGTTATTGGAAGCTTATTTTTACCATCATAGTACCATCCAAACCTTATTTCAGAACCAAAATCACCAGTTAATGTATCTACATCAAATCCTGAAAATTCTATTAATTCTAAATGAGGCTCTTTTTTCAATTCATCTAAAGTTTTATTTCCACATTCAACTACTACATTGTTTATGTTTCCTGTTGGTTCTATATTTAAATAATGAGAATACCTTAAATTACCTGAATATCTTTTTAATTTTCCGTTTTTTATTAATTCAACTTTTTCTAATGGTATTCCGTCTTCATCATATAAATTAGCTCTTGTTGAGTTTTTCATTAAAGGATCCAAAGTTATATTTATTTTATCTCCATTAATTTTATCTCCTTGTATACTTTCTCCAACTTTAAAATTAGAATACTGTTGATACACCATTGCAGCATTTGATTGTTCAACATAATAATCAAACAAATTTCTAACTGAACTTCCAGTTAATAAAACTGGAATATCTTTTACTGAAGGCGTCGATTGTGCAATTGCTCTATATTTTGCTATTTCAAATTTTTCCTTTATTTTACTGCTTATAAAATCTTCTACATAATCAGAAAAATTTATTATTTCAAATAACTCTATTTCTTCATTTCCTTTCCAATTAACTATAAATTCAAGCATTCCATCATATTTTTCATATTCAACATCTATACCATTTGAATTCAACAATCTTATCTTATTTTTTGTTAAAAATAATTCAGCTGAATTTATCCAACCATCTTTATACTTATCATTTTTAAAAATTTCTTTTGTTAATATAGGTATCCACTCTTCCATACTTTTTTCATTAAATTTATTACTTAAGGTATTTTTATTTTCTTTTGGCATTGCAAGAGGATAGTACTCATTCTTTACAAATTTTGCTGAAAAATAAGCATCTTCTATATTAGTTTTTATTTCTTCTTCTGTCATAGTTGGATGAATATTTGTTGTTGAATGTCCTTTATATTTTTTTTCATTTTCTTCAAAATCTCTGTAAATAGTTAAAATTATTTCATGTGTTTTTGTTGCTCTATTCATATCCAACTCTTTTCTTATAAAAAATAACTCTTTTGAACTACTATTTTTTTCTATAATTTTCCAATCTTTTATTTCATTATATGAATTGAGAATATTCTTTATTTTATCAATCATTATCCCAACCTCGCTTTTGTTTTTATATAAGGACCACCTGCTGAAACTTTTACCCATTCTTTATAACCTTTTCCACAAGCTCCACTACCAGATAATTTTAAATCTTTAGAAACCATGGAAATATTTTTTAGTAATTCAGGTACATAACCAGTTAGTATTATTGGAGAATAAATATTATCTGTTAACTTTCCATCTTTTATTTCAATTGCAGATAATATCATACATTGAATTCCCCAATTTTTAGGATCTTCCATACCACTCATTTCATCTACAAGATATATCCCTTCTTTTATTGACGAAAGCATTTCTTCAAAAGAACTATCTCCAGGTGCAAAAAAAGTATTTGTCATTCTTGCATATGCTTTTCTTTTATAACTTTCTCTTTTTCCATTTCCAGTTGGTTTTGTTCCAAGTTTTAAAGCTGATAATAAATCAGATATTCCTCTTTTTAAAATACCATTTTCAATTATTTTTGTATCAGTTCCAATTGTTCCTTCATCGTCAAATAAATAAGACGAAACATGATTTGCAGACTTTGCACCATCATGCATATTAACTAATTTTGAAGCAACTTCTTTATTTAAATACTCTTGTGCCTTTGCTCTATTTTTTACAAACATGTCCATTTCAACACCATGACCAAAAGCTTCATGTGCAATTAACCCTGAAATTTCAGGACTGCAAATAACATCGTATACACCAGGCTTTATTTTTTTTGCATTCAATAAATTTTCAGTATGTCTTATTGCTTTTTCATAATTATCTTCCATTTCATCAATTATCTCTAAACCTTTTAATCCTGAAAACGCTTTAAAAGAATACTTTATTTCATCTTCCTTTTTTAATATTGGAACCACATAAGCTTGACTCCATATATAAGATTGTTTTAATTCCTTGTTTTTAGAAATAAATATTTTAGAAACTTTTTCCCAATCAAAGTTTAACTTTAAATCTATTAATTTATCAGAAAGTTTAAATGCTTCAGCTTTTATTTTTGAAAGTTTTTCTATTATTTCATTTGTCTTCATTTCTTCTGGAAGGATCTTTACATCTCCATAAAATTCATCTTTTATTTTTTCTTCATCTATTATTGGATAAGTTGAAATAGATATTTCATCAATATTTAATTTATTTATATTTAAAGCTTCTTTTTTTATGGATTCAATTATATCATTGAAATTATTTTCAGAAAGTTCATTAAAAGAGTATTCTGTATAATTTTTACCATTGTACACTCTTGCAACAAAACCCCTTTCATTCCACATTCCATCACTTACTCCAATTTCCTTACTACTAACTTTATAAGACTTTCCAATAGAATCTGTTCCAAGAATAGAAACATACTCAAAATCATTTGAAAGATTATCAATGATTTTTTTTAATAAATCTATCTTTGAGTCTAAAAAATCTGATTTTTTTACCTTCATTTTTTACCTCCTCTAAAATAAAGTTATTTAAAAACTGAATTAAATGGTTTTTCACCATTTAATGCTTTTATTATACCTTTTGCAGCCATTTCTGCCATGTTATTTCTTGTTTCAATTGTTCCACTTCCTATGTGTGGAGCCAAAACTACATTTTTTAATTCTTTAAGCCCTTCTGTTAATTTTGGTTCATTTTCATAAACATCTAAGCCTGCACCAGCTATTTTATTTTCTTTTAATATTTTCACTAAATACTTTTCATCTACAACAGGTCCTCTTGCTGTGTTTATTAAGTAAGCTGTTTTTTTCATTAAATTTAATCTTTCTTTATTCAATAAATGATATGTATTTTCAGTTAAAGGTGTATGTAAAGATACAAAATCTGAATTTTTCAAAAGTTCATTCAAATCTAAATATTCAACACCAAGTTCTTTTTCCTTTTCTGATGGCAATCTATTTCTTTTATAATAAAAAACTTTCATATTAAATCCTTTTGCTCTTCTTGCAAAAGCTTGACCAATTCTTCCAAAACCTATTACTCCAAGTGTTTTACCATAAATATCATTTCCAAGAAAAAGTTCTGGTTTCCAACCATTGAATCTTCCTTCTCTAACAAAATTATCACTTTCAACTATTCTTCTTGAAACTGCCATCATTAAAGCCCAAGCTAAATCTGCAGTAGTTTCAGTCAATACATCTGGTGTATTTGTAACTTCAATCCCTGATTTCTTTGCATAATTAAAGTCTATGTTATTATATCCAACAGCATAATTTGCAATTATTTTTAATTTATTTTTTCCAGCATCAATAACTTCTTTATCTATTTTATCTGAAAGCATTGTTAACATTCCATCACTTTCACTTGCAAGTTTTTTTAATTCTTCTTTAGTTAAAGCTCTATCTTCTTCATTTGTCCATACATCATATTTTTCTTTTAATAAATTAATTCCTTTTTCTGGAATTTTATAAGTTATAGAAATTTTCATAATCCACCTCCAAAAACTAAATCATAATTATGATACCATACTTTTTAAAAATATTAGCATAACGTATTTAATTTTATATATTTCTTATAATTAAAGATTATTTCTTTTAATTATAAATAATTGTTTAATATTATTTGTAATTATTTCTCTTAAGATTTTTATTTTTATTAAAAAAGAGTTAAAATGAGAGATGATTCATATTAAAATGAGAGATGATTCATATTAAAAGAGGTGAATTTATGAATATAGGAATAATTGGAATTGGAACATACATTCCTTCAACCTTTATAACATCGAAAGAACTTTCTTTAGAAACTGATATACCAGAAGAAGTTATATTGGAAAAATTTGGAATAATTAAAAAACCTATTGCAGGGCCAAGAGATACTACAACACATATGGCAATTGAAGCTGCAAAAAAAGCTATTAAAAATGCTGGTATTAACCCTAAAGAAATAGATTTAATAATTTGGAATGGTTCTCAACATAAAGATTATCAAAATTGGCTGGCTGGATTAAAGGTAGCAGATGAAATTGGAGCAACAAATGCTTGGTCATTTGACATGGAAGCGATGTGTGGCTCTATGATGGCTGGTATAGATGTTGCAAAATCTTTAATGTTAACTCACAAAAATATAAAAACTGTTTTATTAGTAAGTGGATACAGAAATAATGATTTTATCAATTTAAAAGAAAAGTCAACTACTTTTATGATTGATTTGGCTTCAGGTGGTTCAGCCTTAATTATGAAAAAAAATTCAAATAAAAATTTAATTCTTGAAAGCTCTTTTAAAGGTGATGGTTCTTTTTCTGAAGATTGTATTATACCTGTTGGAGGAAGCAAAAATTGGCCTTTACAAAAAGAAGATGTTGCAAAGAATTATTTTGTAGTAAAAGATATTGAAAAATTTAAAACAAAATTAAAAGAAAAAACTATGTCAAATTTCTTTTTAGTAATAAAAGAAGCATTAAAAAAATCAGGTAATTTAACTTATAAAGATATTGATTATTTAGCGATATTACATTTAAAAAAATCTGCGCACGATGCCATTTTAAATGAATTAAATTTGAATGAAAACCAAACTACTTATTTGAATAATTATGGCCATATGGGGCAAAATGATCAAGTTTTATCTTTAGAATTAGGTTTAAAAGAAAGGAAAATAAAAGATGGAGATATAGTAGTTCTTGTTGGAGCTGGTATAGGTTTTGTTTGGGCTTCAACTGTAATAAAATGGGGAAAAGGAGATGTTATTTAATGAAAAACAAAGTTTGTGTAGTTACAGGTGGTGCTCAAGGAATTGGTAAAGCAATTGTAGAAAACTTTATAAATGAAGGAGCAAAAATTGTCTATGCCTTAGATACAAATGAAAAATTATTAAAAGATTTAGAAATCCAAAATAAAAATGTAATAGGATATGTTTTGAATGTACTTGACAGAGATGCAATAAAAATATTTGTAGATGAAGTAAAAAATAAATATGGAAAAATAGATGTTCTTGTAAATAATGCAGGCATTACAAAAGATGGCTTAATTCAAAAAATGTCAGAAGAAGATTGGAATATGGTAGTTGATGTAAATTTAAAAGGTGTATTTAATATGACTCAAGAAATTGTAAAAATAATGTTAGATAATTCTTTTGGCAGTATTGTTAATATGGCTTCTATAGTTGGCGAAGTTGGAAATATAGGACAAACTAATTATGCTGCAACTAAAGGGGGAGTAATTGCAATGACAAAAACCTGGGCAAAAGAGTTTGCACGTAAAGGTCAAAATATAAGAGTTAATGCCGTAGCTCCAGGTTTTATAAAAACACCCATGACAGAAAAAATTCCTAAAAAAGTTATTGAAAGTATAAAAAGTAAAATAATTTTAAAAAGAATGGGAGAAGCTTTTGAAATAGCAAATGCAGTTACTTTTTTAAGTTCTGAAAAATCATCTTATATAACTGGTCATGTATTAGATGTAAATGGTGGAACTATATTATAATAAAAAAGGTGTGATTTTTATGTGGAAAGAGTTATATAATAAAAAACTTAAAAACATAAATGAAATAATGAAAAAATTACCCAAAAAATGTATTATTGTTACAGGATTAGCTGCAACAGAATCTCAAGGGCTACTAGAAAATTTAAATAAATTTAAAGACCATTTTGAATATGTAAAAATAATAACTTGTTTAAATATGAAAGAATACGCTTTTACTTTTGAAAAAAATAATGAAGGGAAATTTGAAAATCATACTTGGTTTATGAGTGATCCGACAAGAAAAGTTAAAAAACAAAATATAAATACCGTAGATTTCATTCCAAATAATCTTCATATGGCCTCACATGACAAACTTTCAAGTATAAAAGAAGAACAATTACCTATAATTTTTTGGGGAACGGTTACTCCTATGCATGAAAAAAATGGATACTTTAATCTTGGAATTTCTAATGTTTATGAAATGGATATTTTAGAAAATGCAGAAAAAGTAATATTAGAAGTAAATGAAAAAATGCCTTGGATACATGGTGAAACACAAATTCATATAAATCAAATTGATTTTATTTTTGAAAATACATGGGAATTACCAACATTAAATATCGTAGAACCAAAAAATTTAGAATCAAAAATAGCTAAAAATATAGCTTCTTTGATAAATAATGGTTCAACAATACAAATTGGAATAGGTGGAATTCCAAATGCCATAGCTAAACTTTTAAAAGATAAAAAAGATCTTGGTATTCATACAGAAATGTTTACGGAATCAATGATAGAATTATTTGAAAATGGTGTAATTACTAACATGAAAAAAAATTTATGGAAAGGTAAATTTGTCTGCACTTTTGCTTTAGGAAGTAAAAAAATGTATGAATGGTTAGATAATAATCCCGGAATTCAATTAATGCGCGGAAATTATGTTAATGATCCTTATATAATTGCAAAAAACGATAATATGATTAGTATCAATACAGCAATTTCAATTGACTTAACAGGACAGGTTTGTTCAGAAGGATTTGGCACTAAACAATTTTCTGGAACTGGTGGACAATTAGATACACATAGAGGGGCTATAAAGAGTAAAAACGGAAAAGGGATTATAGCTTTAAAATCTACTGCAAAAAATGAAACTATCTCTACAATAGTTCCAGTTTTACCTTTAGGTTCTCCCGTTACTGTTCCAAGACAAGACTTAGATTATGTTGCAACAGAATATGGGGTAGTACATTTACGTGGAAAAAGCATAAAACAAAGGGTTGAAAATTTAATATCTATTTCACATCCTAAATTTAAAAATGATTTAAGAAAAAAAGCAAAAGAATATGGATATTTATAGGAGGAAAAAACAATGAGAAAAGTATATATAGTAGAAGCAAAAAGAACAGCAGTAGGAAGTTTTGGAGGAGCATTAAAAGACTTAACAGCATCGGAGTTAGGTGCAATTGCAATAAAAGAAGTAATAAAAGATGTTGATCCCAAAAATATAAATCAAGTAGTAGTAGGAAATGTATTACAAGCGGGACAAGGGATGGGACCAGCAAGGCAAGCATCGATAAAAGCAGGCATACCAGTAGAAGTTCCAGCATATACAATAAATATGATATGTGGAAGTGGAATGAAGGCAATAATGCTTGCAGCAAATGAAATAAAATTAGGAGCAGACTTAGTAGTAGCGGCAGGAATGGAAAGTATGTCAAATGCACCATACAACTTACCTTCAAAATCAAGATTTGGAAGTAAGTTTGGAGATATGAAAGTAACGGATCATATGATACGAGAAGGACTTTGGGATGTATTCAACGACTATCATATGGGAGTAACAGCAGAAAACTTAGTAGAAAAATATGGAATAACAAGAGAAGAAATGGATGAACTATCAGCAATGAGTCAAAACAGAGCAGAAGAAGCAATAAAAGCAGGAAAGTTTAAAGATGAAATAATACCAGTAGAAATAAAAACAAGAAAAGGAACAGTAACAGTAGATACAGATGAATATCCAAGATTTGGAACAACAGCAGAAAAACTTGCAAAATTAAGACCAGCATTCAAAAAAGATGGAACAGTAACAGCAGGTAACTCATCAGGAATAAATGATGGAGCAAGTGCAATGCTATTAGCATCAGAAGAAGCAGTAAAAAAATATAACTTAAAACCAATAGCAGAAATAGCTGCATATGATCAAGGAGGAGTAGATCCAGCATACATGGGAATGGGACCAGTTGCAGCAATAAGTAATCTCTTTGAAAAATATACAGAATATGAATTAAAAGATATGGAATTATTAGAATTAAATGAAGCCTTTGCAGCACAATCATTGGCAAATATAAAGGCACTTACAGAAAAGTATAACTTAACAAAAGAATGGTTTACTGAAAGAACAAATGTAAATGGAGGAGCAATAGCAATAGGGCATCCAATAGGAGCATCAGGAAACAGAATAACAGTAACTTTAATACATGAAATGAAAAAGAGAAATTCAAATGTAGGATTGGCATCATTGTGCATTGGTGGCGGTATGGGTACTGCTATTGTTATTAAAAATATTAAATAAGGGGGAAACAAAATGAAGAAGTTATTATTTATTTTTATCATTTTCACTTTAAATTTGAATATTTTTGGAACTATTACTGACAATGAGATAAAAGTTGGATCTTTTCAAGCTTTATCTGGACCAGTTGCTTTTATTGGACAACCAATGACAAATGGTATGAAAGCATACTTTAACTATATAAATGATAATGGTGGAATTTATGGAAGAAAAATTAATTTTATTGTAGCAGATGATCAATTTAATCCTGCAAAAACAACTGTAGAAGTTAAAAGACTTGTTGAAAATGATAAAGTGTTTGCAATTGTTGGTGGATTAGGAACGCCAGGATGTTTAGCAGTAATGAAATATTTAAATGATTCAAAGATTCCTTTTGTTTATCAAGGTAGTGGTTCATCATTATTGGCCATACCACCTAAAAAATATATTTTTCCTGTTCAACCTAATTACACACTTGAAGGAAATATTGTTATTAATCATCTCATAAAAGATAAACATGCTAAAAAAATTGCCATAGTATATAGAAATGCTGATGATGGTAAAGAATTTCTTAACTCTGCAAAAAAAGCTTTAGAAAAAAATGGAATGGAGCCAGTTGTAAATATAGCAATAAACCCTACCGCAAACGATTTTTCAACAGAAATGACTAAATTAATAGCTGCAAGACCTGATTCAATTGCTGTAATGTTATTTAATCCTCAAACAATTAATTTTGTTAAACAGGCAAAACAATATGGTTTAAAAAATCAAAATTATATTTTAACTTATGCTAATGCTGATATTACTTTTATAAAATATGCTGGAAGTGCAGCAGAAAATGTAGAAGCCATGGCATGGGTTGATGTTGATTTTTCTAATACAGATCTTCAGGTTTTTAAAATTTATCAAAAATATTATAAAGAATTACCAAATGCTTATGCAATTGCTGGTATGATCGCAGCAGAAACATTTGTTGAAGGATTAAAAAGAGCTGGAATAAATTTAACAACAGAAAATTTTATAATGGGAATGGAAAGTATTCACAAATGGAATGGCGTAGCTGCTCATGAAATTACATATGATAAATTAAATAATGAAAATTCAAGAATGGGTAAAGAATCAATGTATGTTTTAAAAGTAAAAAATGGTATTTGGGTAAAAGCAAGTGATTGGATTAATTATTCAAAATAAATATTGAGCGGGGTTATAAAACCCCGCATTTTTTAAAGAGGTGAATTTTTATGCTTAATATAAAAGATATAACTGTTAAATTTGGTGGATTAAAAGCTTTAGAAAATTTATCATTCACTATACAAAAAAATACAATACACTCTTTAATTGGACCAAACGGTGCTGGTAAAACAACTTTATTTAATGTTATAACAAGAATTATTAAACCAAACAAAGGAAATATTTTATTTAATAATGAATCGTTATTAAATTTAAAATCCAATGAAATAATCTATAAGGGGATAACAAGAACATTTCAAAATTTACAGCTGTTTAATTATATGAATGTTTATGAAAATATTTTATCTGGATACGTTCATACCTTTAATAAAAATTCTTTTAATGATAAAAAATTAAAATTAAAAGCATATGATGTCATTTTAGAAATTTCTGAATTGCTACAAATAAAAAACAGATTATTTTCTTATCCTTATCAATTATCTTATGGGATTTTAAAAAGAGTAGAAATAGCTCGTGCAATAGTTTCTAAACCTAGTTTAATACTTTTTGATGAACCTGCTGCAGGCTTAAATAATCAAGAAACTTCAGAAATTCTTTCCATTTTAAACTTATTAAAAAGTAAAGGAAAAACTATTTTACTTGTCGAACATGATATGTCTCTTGTAATGAAAGTTTCTGATGAAATAACGGTTATAAACTTTGGTAAAAAAATTGCTGAAGGAGCACCAAATGAAATTTCTTTAAATGAAGAAGTAATAAATGTTTACTTGGGAGGAGGAAAAAATGTTAAAAAAAATATTAGAAATAAATAACTTAATGGTCAACTATGGACAAGTTAAAGCTGTTAAAAATATTTCATTTGAAGTAAACAAAGGGGAAATTGTATCTATTTTGGGGTCAAATGGTGCAGGAAAGACTTCAACTCTTTTTGGAATAATGAATGTTGTAAAAAATAAAGGAAGAATAAAGTTTAAAGGTATCAATATATCAAATATACCTACTTATAAAAGAGTTAAATCAGGATTGATTTTATGTCCAGAAAACAGAAGAGTATTTTATGAACTCTCTGTTGAAGAAAACTTAAAAATGGGGGCTTTTATTCGTGGAAACATCAAAAAAAATTTAAAAAAAGTTTATGACTTATTTCCAAAACTCTATGATAGAAAAAAACAAAATGCAGGATCTTTATCAGGAGGAGAGCAACAAATGCTTGCAATTGGACGTTCTTTAATGGGAGATCCAGAGTTATTTATGTTAGATGAACCTTCTCTTGGCTTAGCTCCAATAATAACAGATGAAATTTTTAATATATTGTTAAAATTAAAAAAAGAAGGTATATCTATTTTATTAGTTGAACAAAATGCTATAAAATCTTTAGAAATAAGTGATAGAGCTTATATTTTAGAAAATGGAAAAATTATTCAATCTGAAAATGCTAAGGAACTTTTAAATAATAAAAAGATCAAAAAAGCATATATTGGAATGTGAGGTGAACTTATGTTAATATTACAAAGTGTAATTTTAGGTATACCACAAGGTGCTTTATATGGACTAATGGCCATTGGTATATCTTTAATATTTAAAACTGTTGGAGTAATGAATTTTTCTCATGGACATGCAGGAATGATTGGGGCTTATGTTGCATTTTCATTATATTTAATAACAAATAATTTTTTTGTATCTATAATTTTAGCAATAATTTTTGGATTCTCACTTGGACTATTAATAGAAAAATTTTTAATGAGGCCAATAAAACATTTATCTCATGGAGCTATGTTAATAATAACTTTGGGATTATTAATGGTATTTGAAGGATTGGCAATAATGATATGGGGAACAGAATTTAAAGTATTACCAGAAATTATTTCTCTTCCACCAGTTATTTTAAATTTAAAAGAAAATATTTTAGTGATGCCCGGAAATGATATATTTATAAGTATAATAGCTATTTTTATTTCCTTAAGCCTTACAATATTTTTAAAGTTTACAAAAATTGGAACAGCCATAAGAGCTCGTTCTCAAGATGAAATAGGTTCTGATGTTGTTGGAATAAATGTAAATTTGGTTGATTCTATAGTTTGGGGAATTGGAATATCTATTTCAGTAATAGTTGCTATATTGATTTCACCAAAAACTTACGTTAATCCTAATATGATGGTTAATATGCAATTATATGGTTTTACTGCTGGTGTTATAGGAGGTTTTTCAAGTTTTTTTGGTGCAATAATTGGAGGGTTAATACTTGGAATATTAGAAAAAATAGTTGGAATGTATATTTCACCTGATTATCAATTATCAATTATATTATTATTAATTATATTAGTATTAGTTTTTAAACCAACAGGATTGTTCGGTAAAAGATCCGAAGGGAGAGTTTAATATGAAAAAAATTATATATACTCTTTTAATAGGTTTAAGTTTAGGATTAATCTTTAGCTCAAAACCATTTATATTGTTAATTTTCTCAAGCATATTAATATTTTCAATAGTATCTCAAGGTTTAAATATTCTTTCTGGTTATACTGGACAAATATCCATAGGACATGGTGCATTTATGGCTATTGGAGCATATACAAGCACTTTTTTATCTATTAATTTTAATACACCATTTATATTGAACTTATTGATAGTAATAATACTTTCTTCAATTTTAGGAATAATAATTGGAATGCCTGCACTTAGATTAAAAGGTTTTTATCTAGCAATAGCTACTATGGCTTTTGGAATTTCTATTCAAGAATTAATTTCTTCTTTCTCTTTTCTAGGAGGACATATAGGGATAAGAAATATTCCTAAAATATTTAACAATGATTTTGGTATGTTTATTTTAAATTTAATATTTTATACATTATGTATTTATGTGAGTGATTTAATAGTAAATTCTACTATAGGGATAAAATATAAAATGGTAAGAGATAGTGAAGTTGCAGCTAAAGCTTATGGAATTTCTATTTCAAAAATAAAAGTACATGCATTTGTAGTAAGTTCTATTTATGGTGGAATTGCTGGGAGCCTATATGCACATACTATTGGTTATATATCTCCAACTGATTTTGGATTAAACACATCTTTAAACTTACTTGCCATAATAGTAATTGGAGGTATGGCATCGTCATATGGTAGTTTAATTGGTTCTATTATAATTATTGGACTTCCTTTCTTATTCTCAAGAACTATGATACCCATGTCTTTTATATTTGGAATATTATTAATAATTTTTGTTCTTTTTATTCCTAATGGAATTTTTTATGGTATATTAAAAGGATATTATAATTTTTTTGAATTACCTTTTATTTATTTTATAAAAAAATATCATAAAAAATATAAAAAAGTAAATAAATTTGTAGAAATAAATAATAAAAAAATACATTATTATGAAAACGGAGAAGGCATACCAATAGTAATGATACATGGAAATTTTGCTTCTTTGAATTGGTTTAATCAAGTAAATACTATTGAAAATTTTAAAATTTATTCTTTAGATTTACCAAACTTTGGATTATCTGATAGAATAAATGAATTTAGTATTGATACATATTCTAATTATGTAAAAGAATTTATTATAACATTAAAAATTAAGAATCCAATAATAGTTGGTCATTCATTAGGTGGAGCAATTGCAATGAATTTAATTTTAAAAAATCCAAATTTATCTCAAAATTTAATTTTAATAAATTCATCTTCAATAGATGGATTAAAAACACCTGAAGAAAATTATCCAATACTAAATCTCTATAAAAATAATTTTTCACTCTTTAAAAAAGCTTTAAAATCAATCATGCCCGAAATGCAAAATAAAAAACTTTTAAATGAATTAGTAAAAGATGGCCTTTTAATGAAATCTGAATGTTTTATAGAAAATGCTCGAGCCCTAGAAAAATATAATTATTTAAAATTGAAAAATAAATTTAATGGAAAAATGTTATATTTGTATGGTAAAAAAGATACAATAGTTAGTACAACAATGGCTAAAAAAACAACTGATTTTTTTAATGGAAAATTAAAAATTATAGATCATGTTGGTCATTCATTAATACTAGAAGATCCAAATTTATTTATAACTATATTAAAAGATTTTTACAAGGAGTAAATTATGAATAAAAAAAATACAAAAGATAAAATAATAGATTCTGCCATTGAATTATTTTCAAAAAAATGGTTTGAAACAGTTTCAGTTGCCGAAATTTGTAGAAATGCAGGTGTTTCAAATGGAGTAATATATAGATATTTTAAAAATAAAAAAGTTATATTTGAATATCTTTTAAATTTATTACTCGAGTATATAGAAGAAATAACATCTACACTACAAGGAAATACTTCATCTGAAAAATTACAAGATTTTTCAGAAAAATTATTTAAAATTGCAATTGAAAAAAAATCTCTTGTTACTATTTTTAGAGAAGGGCAATTTAGATTCCCTGAATACGAAGAAAAATTAAGAAATATTTATATGAAAACCCTATCTGATATTTTCAATAAAAAAATATCAGAGGTTGAATATCTATATTTGTTATCTCCAATGAGATTTGTTAATATCAGATACGCTTATAATGCTCTTAAAACACCTATAGATAATTTAAAAAAATATTTGTTAAATGGATTTTTTGATTATAAATTAAACGACCTTGAAAAACTATTTTCAAAACCAAAATTTATAAAATACAAAAAAGATAATAAAACTAAAAGTAAATTATTAGATTCTGGAATAAAATTATTTGGAGAAAACGGATATTTCAATGTTGGAATATATGATATAACAAAAGAAGCAGGTTTTTCAGTTGGAACATTTTATTTATTATTTGATAGCAAAGATGAATTTTTAGAAGAAATAGTAAAAATAATTGGAAAAAAAGCAAGAGATTTTTTAAATACTAATCAAATTGATTCTTTAAATCCTCTTGAAAAAATAATAAGAAATATATACAATTTTATTTTATTTTTTAAAAAATATCATAATTATTATTTAATATTGAGAGAAGCAGAATTTGTTGTAAACAAGGAAGTTGTTGAATATTATAACTTTTATGAAAAAATGTATAAAAAATTATTTGAAAGTTTTAACTATAAAGATAATATTTTATTAGCTAATATTTTTGTTGGATATAATCACTATATTGGTATAGAAAGCATATTTAGTAAAAATATTCCAAGTATAAAAATATTTTTAAAACAATTTTCAAAATATCTTTCAAATGGTATTAAACATATCTAAAAAAAGTAAATAATGAAAAAAAGATGATTTATTAACATAAATCATCTTTTTTTCATTATAATTTCATTTTATTATATCAAAATTGATTATTCTTTTATTTTATAAATTTAATACAAATATTTAAATATTCATTCATTTTTTCTAAAAACATACCATGACCAGTTTCATTAAAAACTTTTAAAGTTGAATTTTTAATTTTTTTATTCATATTTTTCATTATATTTAAAGGAGTTATTATATCTTCATCGCCAGCAAGAATTAAAGTATCAGATTTTATAGTTTCAATTTTATTTCTAACATCAAATTCTTTATTAGATTCTGCAAGTCTTATAAATCCATCATACCAATCTTTATTTAAATAATCTTTAAATATTTTTCTTCTTGACATTAACCAATCATAATTATTGTTATAAAAATTTCTTGAATATATAATAGGTAATGCTATATCAAAAAATTTTTCTCCATCATATAGTTTTGCAGCTTGAATCCACAGCTGTCCTAAAACTTTTAAATAGTTATCAACATAATCAACCGTATTTGATAAAATTAATTTATCAACTTTTTCAGGAAATTTAAGTGTAAATAATTGTGAAACCATTCCACCATAAGAAAGCCCAAGTAAATTAATTTTTTTTAAATTTAATTCTCCAATTAATTCATTTAAATCATTGACATGAATTGAAATATCATATTTTTTTTCTTCATGCAATGACATTCCTTGATCTCTCATATCATAAGTTATTACAGTAAAATATTTTTCAAGAATCTTTACATGTTCAACCCAACTTAAAGTATTCATCATTATTCCATTTAATAACACTAAAGGCTTACCACTTCCGTGAATTTCATAATTTATTTTTTTGTTTTTAGATAACATAAGAATCACCTCTCATTTATTATATCACATTTATTTAAAGAGAGTAATTATACTCTCTTTAAATAATAAACTCCAGGTTCAAAAATATTGATTTCTTTTTCATTACTTATCAAATCTTTAAACTTATATTCCATTTTAAAAGTTTCAAAGGGTATTAAAACAAAAATTTCTATTTCTTTTAAATGGTTGTAAAAGATAGTGTATGAGATAAAATAGAACCAATTAAAGTACTCATAATTTAATTCAAATAAATGTTGATTATTTTCAAATTGAAAAATAGATTAAAAATAGAAATATTAAGATTATAAATACAATGTTAAAAGCAAAAAAAATATTTTTATTTCAAATAATTGTAAAGAATTTGTATATGAAGATCAAACAAAAATTATAAAAATGAATAATAATAACATTAAAAAAACAAAAATAGTTGACAATATATATATTTTTTTATATAATATTTTTGACATAAATAAAAATAGTTTAAAAGATTAAAAGAAGGTGATTTGAATATTTTTAATTGATAATATCAAAAATATTGATAATACTTTATTAATTGGTACAATTGGAGAAAGCATTTCTGGATGGATGGATAATAAATGATAAAAAAATTAACATTAAAACATTTATTAACTACATGTATGGGTTTATTGTTGTTATTTCTTATAAAAATTCTTGAGGTACCTGTTTTAACAAGTGATGTAATTGGTTTTTTTGTAATGCTTATTTCTATAGATATTTCAATGAACCTTATTAAAATGAAATATAACATTAATGATAAATTTTTTATAAATATTGCAGAGGTATTAAGAGCTATTATTTCTATTGTATTTTTTTGGTATTATCCACCAATGTATTTTTCATTTATTGGAGCAATATATGGCAAAAAAATTTTTAAATATTTAAATGAATAAAGATTTAATAAAAGCAATTTATGAACAGACTTTTGACAAGTAGACAATTAATTAAATTAAAATACTGCAAAAACTATAGTGTTTACAAACTAAAATTAATATGAAAGAAAATGTTGTATAAATAATAAACTATACATAAAAAAGTGCAAATTCATTAGAAAATGCACTTTTTTTGATATTAATATAATAAATTTAAAAGAAATGTACTCTCTTTAAATAATAAACTCCAGGTTCAAAAATATTGATTTCTTTTTCATTACTTATCAAATCTTCAAACTCATAATCTGCTTTAAAAGTCTTAAATGTTATTAAAACAAAAGTTTCTTTTTTATTCAGTTTTTTCTTAAATAAAATGCTATCATCACTACTATATATCAATTCATAACTTCCATCAGATAATTCTTTGTTTTCTTTTCTAATCTTTATTAATTTTTTTATTAAATTAAAGGTTTCTATTTCTTTTAAATTCCAATTTTTTTTAAATTTCATTGGAACTCTTCCACTTTCATGAAACCATTCAAAGTTTTTATCTCCAGCTAATGCTATTTCATTTCCATACTCTAACATAACATTCCCAGTTATTACCATAAGAACTTTCATAACATTAAAAAATATTTCTTTATTTTTACACAAATCTATGAACCTTGGTACATCATGATTTTCAACAAAATAAGTTAAATTAAAGTGTGTATCATTTAATTCATTTGATTTTGAAATCATTTTATAAAAGTCTTTTAAAGATTTATTTTTTTCTATAAATACATCTTTCAAAACATCATATATAAAAAAATCAAATAAACTTGTAAATATTTTTTCATTTTCAAAACTTTTAAATTTTTTTATTAATTCATAGTTTTCTTCTTCATCTGCAACATCATCCCAAACTTCTCCAAGTAAGATAACATCACTCTTTATCTTTTTCATTTCTTTAGAAAATTCTTTCCAAAAAGAACGTTCAATTCCCAAAGCATGATCTAATCTAAAACCATCAACATCAAAATTTTCTAACCAATACTTTCCAACATCAATTAAAAATTTTCTTGTTTCAATATCTGATATATTCCAAAATTGAAATAAGGTTTGCCATCTTTTTTCTTGAATAGACTGTGGTGGTTCAGTTTTCACATTAAAATTTTTAATTGATTTCATATCATAATTTTTAGATGCATGGTTTAAAACCAAGTCTAAAATTACCTTTATACCTCTCTTGTGAGATTCAATTAATAATTTTTTTAATACTTCATTTCTTTTATTTTCTTCTTTAGAAGAAAGGTGAGATGCAATTTTATAATAATTTATAGTATCATAACCATGAGTTGTTTTAGATTCATATATTGGACCTAAATAAATTAAATCTATTCCAAGATCTTGTAAATAATCTAATTTTTCAATAATCCCTTGTAAATCTCCTTCAATTGAATTTTTTTCAAACTTCAAATATTCTTCTTTTTTCCAATTGTTTTCAATATTTCCATCTTTAAAAAATTTAATTAATATATGATATCCAATAAACATAAATTCCTCCTCAAAAGTAAAGTTATTAAATACATTATAATAGAAAACGTTTTCAATAAGATTAAGAGATATTGTATTTCTTGTATTGAAAAAATATTTTTGCATTATATTCTTCAATAGTGTATAATTTTATTAATTATATTTTATAAAGAAGGTGATGCCTGAATATGAATTGGTTAAAATTAGATATAATTATTGATTATTCTATAAGAATTGGAGCAAGTTTACTTTTGTTATTTTTAACAAAAGTAGTTTCAAATGTTTTATACAATGCAATAACTAAAAATATTAAATTAAAGTATAAAAATTCTACTAAATCATTAATAAATTTAGCTTCATACACCTTTTCTGTTTTTATAATAATTTCTATACTCTTTAAGGATTTTATGCCATTTTTAACTGGAATGGGGATAAGTGGTATTATAGTAGGTCTTGCTGTAAAAGAACCTGTTTCTAATTTTATTTGTGGAATTTTAATAATGATGAACAAAATTTTTCTTGAAAATGAAGCAGTTGAAATAAATGATGTTAGTGGAACTATTGAAGAAATAACACTAAATCATGTTTTAATAAAAACTTGGGATGGAAAATTAGCTTATATTCCAAATAATATTGTTTGGTCTTCAAAAATCATTCATTATTGGCCAGAAAATATTAGAAGAAATGAATTAATTATTGGCATTTCTTATGAAAGTAATATTCAAAAAGCTTTATCTATCATAAATGAAACTTTAAAAAATTTTGACATTGTAGATGATGAAAACCATAGTACTATGATTTTATTTGACTCATTTAATTCTTCATCAATTGATTTTAATATAAAATTTTGGGTTAAAAAAGAAGATTTTTTTACACTAAAAATGAATTTAGCAAAAAAATTAAAAGAAGAATTTGATAAAAATGGTATTGAAATTCCTTATCAAAAAATAGACTTAAAAATATTAAAATAAAGATGGGAAATCCCATCTTTATTTTGTTTATTTATAAACATTATTTTTTATTTGTAGAAGTAAGAATACTTTTAAAAAATTCATCTTCATAACTGTTTTCTATATTTAATCCAATATTTGCATATTTACGAACTTTTTCATATTCTTTTCTTTCATTATAAACTTGTGTTAAAACCATAAGTGAATATATATAATTTTCTTTTACTTCCGAATAATCTTTTTTATTTTTACTATTTTCATATTTAATTTTATTATCATTCATATAATCTATTACATCTTTAATATATTTTTGTGCTTCATTTTTTAATCCAACATCATCTAAATAAAAAATAATATCTTGTTTTTTCCAAACATTCTTTATATCTTTATACTTTAAAAATGAATTTAAAATCGATAGTATTTTTTCTTTTTTCCATTTTCCTGATTTCAAATTTTCCTTTGAAATATATGATATATAATCTAAATAGTCATCTATATAATCAACAGTTTTTAAATAACTTAATTGATTGTTTTCATATTTAAATTTAAAATATCTTCCAGTTGGTGCATATGGAGAATCATTAGCTGCTACATAAATTTGACTTGAAGTTGGAAGAAAAACAACGCTTTGAACAGTTCCCCATTTACATATTGGATTATCTCCTTCTCTAAATCTTAATACATCTATCATATCTTTAGCACTTAATTTTTCATGATTTAATTTTGAATAAGCTTCTTCTTTTCTTGTTTTTGTATCTTTTAAATAATCTAATTTTTTGTTTTTTAGCTTTGTAAAATGATTTGTGGATGTAATTATATTATCATTTTCTATTTTTTCAAGATATTTTGAATCAAATTCAAAAACAACTGCTTTTTTATCTTTTTTACTTCCTATCATTAAATTATTACCAATTGTTCTTTTTGTTGATCTTAATATCTTTTCTACATCATCAACATTATTTGATTTTTCAAGTATCATTCTATATAAAATACCAGTTGGAATACCTGAACTTGATTCATTAACAGATTCCGATGTCATAGATCCCAAACTAATTCCTTTATCATTCGTTCCAGTCAAAACTCCTATTATACCAGGAAAATTCAATGATAAAAATCCATTTTCATCTTTTATATCATAAACAAACAAAACATTTGAATCCCAGATTGATTCAACATACATATAATCTAAATTTCTTCCATGAATGATTTCTCCATTCTCTGTATTCTTTCCCCATATAGCTGCATTAGTACATCCATATAAATTATAAATTTCATCATAAACATTCAATAAAATTATGGTATCTAATGATACTTTAGAAGCTTTTGATATTTCAGCCATTTCTTTTTTATATTTTACTGGAATATTTTTAAAATAACTTTTTAATGTATATCTAATTGCAATATTTTCAAAAAAATTAGTATCTTTCATTATATTTTTTAATTTTAATTCCATAGAATGTATATCATCTTTTAAAGCTAATCCATGCTGATATCCAATTTCTTCATAATTACCAGATAAATAAACTACTTTTATGTTCCCATATTTTTCTATTTTAAAATTTTTATTTTGAATTTTATCAACAGTATAATTTATTGGTAAAAATAAATATCCAATATATACTAAAATTAATAAAATCACAAAACTAATACTTAACGCTATCTTTTTCATACAAAAACCTCCACTTTAAAAATTTTTTTATAAAATATTTTTTTAATTAGTTAAAATAAACCCAAAAAATACTAAAATAAAGATACAAGGTTCATCTTTATTTTAGTATTATATATATTATTTTGTCCAATATCTTGATAATTCATTATCAATAAAATCATTCCATATTTTTTCATATTCAATTTTAAAGTCAAAAGAAATGTATAAACCAAGGGAATCGAGTAATATAAATGTTTTTTGTGAAATCAATTTTGTATCAGTATCTTTTTTTAATAATCCCATTTTTTTATATTCTTTAAATAAATTTTCAAATAAATTCATAAACATATTCATTAAATCATTTAATTTCATTTTTACAGAATTATTTCTTGAAGATTCTATCATTACTTCCAAAGTGAATTTTTGTATTTGAATATTTTCTTTATACATTTTTAAAGATTCAAACCCAAAGTTTTTAATATCTTCTAAAGTCAATGGAATATATTCACTAAAACCATTCATTATTTGTTTAGAAAAGAACTCTATTGTTTTTAAAAACAAATCTTCTTTACTTTTAAAATAATGATATAAAGCACCTTTAGAAACATTAGCTTTTTTTATTATTTGATTTATACTAGTTCCATTATATCCAGAATTTGAAAATTCTTCAAAAGCTGAAAAAATTATTTTATCATAAGTTTTTATTTTTTCCAAACTATTCACCTACTTTATCAATATAACTTATAATAGATGTAACTGTAAAAATAGTTATTAAATAACTCAAAGTGATTCCAATTGTAAATATTAATCCTAAGCCAACAAACCCTCGATACTTTGCAAGCATAAAAGAACCAAAAGCAGCAACTGTTGTTAATGTAGTTAAAGTTATAGCTTTTCCAGTACTTTTTAAAGCTTTAGACAAACTTTTTTCTATTTTATATCTATGAATTAAATGTATTCCATCATCAACGCCTATACCAATAATTAATGGAAAAGCAATTATATTTACTACATTAAATTTTATATTAAACCATCCCATAATTCCAAGTAATATTATAACAGATAATATCATAGGAAGTGTTGCAATTATTGAATATTTAAAATTTCTTAAGTCTAATAATAATACAAAGTAAATGGCAATTATTGTTGCTATAAGTATTTTACCTCCTTCTTTTCCAGATAATTCTATAACTTTTAAAAATATTAATCCAGTTCCGCTAACTTCTTTATCTTTAATTTTATTTAAGTCATTAAAATATTTTTTTTGAAAATCATATTTCCATATATCTCCAGATGGATAAACTGTTGTTAGATATAATCCATTATTATAATAATTTTCTTTTATATTTTCTGGAATTGAATTTATGGTTATAAAATTTTTTGTATTTAAATTATTTTTTATATTGAATAAAACAGAATTTATTTTTTTCTCTGCATTTAAAAGGGTTAATGAGCTTTGTTTACTTATTTTATTTACTATATTACTTTTCATTAAATTCAATAATGAATCAGCTAATTTATTTTCTTTTAATGCTCTTAAAGCCAATGAAGATTTTAATAAATTAACATTTAATAATGAGAGTTCTTTTCTTAACTTACTAATATCAATTTTCTCAATTTGAGAATTATAATTTTTTATAGCTTTTGAATAATTTAATCTTGAATTTTGTAAGGTTTTTTCTGGTATATAATCCACAATACTATCTATCATAGACACTGTTTCAAGTTTAGTCAGCTGTTTTTTTAATCTTCGAGCATCTTCTAAAGAATCATTAATAAATATTGTATTATCAGAAGATAATTCAAACTTTTCAATTAATTTTTGGTTTAATTCTAAACTTTTTAAACCTTTTGCTTCTATTTTCATCATGTTAGTTTCAAAACTAACATTTCCGATTTTATAAAAAGATAAAACTAATAATACAATAGTTATAATTAATGCTGGGAGTCTAATTTTTTTAATATTTATATTTATATTATAGCTTTTAGATTGTTTAAATTTATTTCCATATATCATTAACAATGAAGGTAAAATTAAAATTGAAGCTATTAATATAGATATTATTCCAAGAGATAAAACAATTCCAAATTCCTTAAAAGCTGGGAAACTACTAAAAGCAAATAATCCAAATCCAATCGCTGTTGTTACAGAACCAGATATTATTCCTCGAACACTTTTTAAATAAATTTGTCTTATAGAATCTTCTATATTATATCCTTCATTTCTATATTCAAGAAAAATAGAAATAATATGTATTGAATAATCAATTCCAAGTCCCATTAAAATTGAAGCCATCATCATCGTCATAATATTTAATGAACCAATAAGAAAGTAAGTAAGTCCAAGAGACCATAAAATTCCTATTAATAATGGTACCACAGATAAAATAGTATATCTAAAAATCTTAAATCCTAAAATAAAAATTATTAAAATTAAAATTAAAGATACAATAGTAGAAACAGCCATATCTCTATCAGAAGTTTCCATTTCATCTCTTGAAATAACATATGTACCAGTTATATCTGCTTTTACATTGTATTTTAAAGCATTTTCTTTTATTATTTTTTCTACAGTATTTACAAAATTAACAATTTTAAAAATATCATTTGAATCTATGGATGGATTTATTATAAAAATACCCATTTTCCCATCATTTGAAATCATATATTCAGATCCCAATAAAAAATTTTTAGTATTTTTTTCTATATTTTTATTTTCATTTATTGAATTTAAGAGAACAGTAAGATTTTTTATTATTGACTTAAATTGTTTTTTAGATTGATTATCAATTTTATATCCTTTTTTTGGTTCTTCAAAAGACTTATTTAATGCATGAAAAAATGATACAAGAGAATCAGAAGTTAAAATTTGTTTTAAATATTCTTGTTCTAAATCATTTGAAAATAATATTAAATTTTTTGATATAAATTCTAAAGGCATTTTTGATATTACATTATCTGTGTCTTCTAAAGTTTTAATTTTTTCTGAAACATTGTTTATGTAATTAATAATATCTTTTTCATTTCCATTTATTCCAACTATTATACTATCTATTCCATTAAATGTTTTTGATGCTTTATTGTAAACTTTAACATAACTATTATTTGCTGGAAGAAGATCTATCATACCAGGTTTTATAATTAGTTTAGTTATAAAAAAAGACATAACAACAGTTAAAACAATTGAAACTAAAATAATACGTTTGTGATTTTTAATAATAAAATTTGCAAATTTGTTCATTTTACACCTCCAGATATTATTTTCTGTATAGGCAAAGCTTTATAAAAATTTTTATCATTTTTTTTAGTGGAAATTGCATCAGATGGGCAATAAGTTATACATCTCATACACGCTTGACACGAATCATTAAAAACAGGATATTTGTCAACAGTTATATTATTTACAGGACAAATTTTTTCACACAGTCCACAAGAAACACATTTATTTTCATCTACTTTTGGGGATATATATTTTGAAATAACTTTCCAAACCACTTTATTAGAAACTAAATAATAAAGAAGATCTGATAAAATTGGATTTCTACCCCACTTTGATTTATTATTTATTATAGAACTTATATATGTTTCTACTTGAGATAATGAACCTTTTATTTTTTTATTATTAATTTCTTTTTTTGAAAGAAAATTACTTGGCATTTTAAATTCATATGCCCCTATTGGGTTGAATCCCTTTTTTAATAAAATTCTTTTCATAGGACCAACAACTGCACCCGAAAACATTTCAAGAGTATCTAACATAAATATATCAGTGTTTTCAACATTTGGAAAATTTTTAACAAAATCCCAAACAAATGGATAGGTACTTTGAACTGCAACTGGAAAGGCTAATCCAATTATATGAGAAACATCAATATTTTTTGGATTTGATTTTTCTAATCTATATAAATTAACTTTAAAGTTATTTTTTTCAAATACTTTTTTTGCTTTTTCAACAATTAAATAAGTATTTCCTGTCCCAGAAAAATAATAAAAGTCTATTATTTTAATATTAATCCCTCCTTTTTAAAAACCGACCGTTCGGTATATAAAAACATAATAACATAATTTTTTTCATTTGTCAATTACTAATAATTTGAATAAAAAAATGTGTGAGTTTACTCACACATTTTTAAGATATTTCAGCATTTTCAAATTGACTGTTATAAAGATTTGCATAAAAACCTTTTCTTGTAAGAAGTTCTTTATGTTTTCCTTGTTCTACTATATCTCCTTCATTCATTACCAATATTAAATCAGCATCTCTTATTGTAGATAAACGATGAGCAATTATAAAACTCGTTCTATCTTTCATTAAATTATTCATTGCCTTTTGTATTTTGACTTCAGTACGAGTATCAACAGAGCTTGTAGCCTCATCAAGTATTAATATTTTAGGATCTGCAAGAATAGCTCTTGCTATTGTAATTAATTGCTTTTCTCCTTGAGAAATATTGCTTGTTTCTTCATTTAAAATCATATCGTAACCTTTTGGTAAATTGTGAACAAAGCTATCTACATGAGCCATTTTAGCTGCTTTTATTACTTCTTCATTTGTTGCATCAAGTCTTCCATATCGTATATTATCCATTATACTTCCATTGTATAGCCATGTATCTTGCAATACCATACCAAAAAGTGAACGTAAATCATTTCTCTTATAATTTTTTATGTTATTTCCATCAACTAATATCTCGCCATCATTTACATCATAAAAGCGCATTAATAATTTTACTATTGTTGTCTTACCAGCACCAGTTGGACCTACTATTGCAATTCTTTGACCTGCTTTTACAGATGTAGAAAAATTCTTAATTACTATTTTATCAGTATATCCAAAATGTACATTTTTAAATTCAACACCTGTATGAACTTCTGGTATTTTTGCTGGATTTTTTATTTCTTCAATTTCTTCTTCTTCATCTAAAAATTCAAAAACACGTTCTGATGAAGCCGCAGTTTGCTGTAAAATATTTGAAATATTTGCAAGTTGTGTTATTGGCTGAGTAAAAGACCTTACATATTGAATGAAAGCCTGTATATCTCCAACTTCCAAAGCTTTTTTTGAAGCTAAATATCCTCCAAGAACACTTATTGCTACATATCCTAAATTTCCAACAAAAGACATTATTGGCATCATCAATCCTGATAAAAATTGAGATTTCCATGCTGCACCATACAACACATTATTATATTTATCAAACTTTTTAATACTTTTTTCTTCTCCATTAAAAGTTTTCATTATTATGTGTCCGCCATACATTTCTTCAATATGACCATTAACATGACCCAAATAATCTTGTTGTTGTTTAAAATATTTTTGAGATTGTTTTATTATACCTATAATCAACATAAAAGATACAGGAATTATTGCAAGTGCTATTAAAGTCATTTGCCAACTTATACTCAACATCATTATTAATACACCAACAACAGCTGTAAATGAAGTAATTAACTGTGTTAAACTTTGATTTAATGTTTGACTTACTGTATCAACATCATTTGTTATTCTTGAAAGAACTTCACCTTGTGTTGTTTTATCAAAATATTTTAAAGGTAATCTATTTATTTTTTCAGAAATTTCTTTACGTAATTTATAAGTAACCTTCATAGATACACTTGACATTATCCATCCTTGAATATAACTAAACAATGCACTTATTAAATATAGTCCTGCAAGCAAGAGTATTATATTGCCAATATATGCAAAATCTATTCCATTCCCAGTACCAGTTATTTTTCCCATTATTCCTTCAAATAACTTTGTAGTAGCTTTTCCTAAAATTTTAGGGCCTACTATTGTAAAAATTGTACTAAGCACTGCAAAAATAAAAACAATTATGAATGAAAATTTAAAAGGACTTAAGTATGCAATTAATTGTTTCATAGTTTTTTTAAAGTTTTTGGCTTTTTCTCCACCTCTCATAATTCCACCAGGTCCGTGTCCAAAGCCACCTCTTCTTCTTTGTGTTTTTTCACTCATGCTAATTCCTCCCTTGATAACTGGGATAATGCAATTTCTTGATAAGGTACACAATTTTTCATTAAATAATCGTGAGTTCCAATTCCAACTATTTTCCCTTCATCTAATACGATAATTTGATCTGAATTCTTTACAGTTGAAATACGTTGAGCTACTATTATAACTGTACTATTCTTTGTTTCTTCTTTCAAATCTCTTTTTAATTGAGCTGCAGTTTTAAAATCTAATGCAGAAAAACTATCATCAAAGATATATATTTTTGGTTTCTTTAAAATTGTACGAGCAATAGATAATCTTTGTTTTTGACCTCCAGAAACATTAGATCCGCCTTGTGATATTTCTGTATCAAATTTTTTAGGACTTTTTTCAATAAATTCCATAGCTTGTGCTATTTTTGCTGTTTTAACAATATCTTCGTCAGTAGAATTTTCATTTGCATACTTTAAGTTAGACTTTATAGTTCCACTAAATAAAATTCCTTTTTGAGGAACATAACCTATTTGTTTTCTCAATTCACTCTGTTTTAAATCTTTAATATTAATTCCATCAATTAATATTTCTCCTTCGGTTGCATCATAAAATCTGAGGATTAAATTTATCAATGTTGTTTTTCCAGAACCAGTTGATCCAACTATTGCAGTTGTTTGTTTTGGTTTAGCTTTAAAAGTTATATTTTTTAACATGTTTTCTTCTGCACCATTGTATTTGAATGAAACATTTTTAAATTCTATTTCACCTTTAGCTTCATCTAAATTTTTTGGATTTTCAGGATCTTTTATAGAAGCATCTGTTTCTAATACTTTAGCAATACGTTGACCAGATACAGAAGCTCTTGGCACCATTATAAACATAATTGCTAACATTAAAAATGAAAAAATAATTTGCATAGCATATTGCATAAAAGCCATCATATCTCCAACCTGCATGCTTGAATTAGCTATTTGATGTGCTCCAACCCAAACTATTAAAATTGAAACTCCATTCATAATTAACATCATTGCAGGCATCATAACTACCATTATACGATTTACAAAAAGAGAAACATTTGTTAAATCTAAATTAGCCTTATCAAATCTTTTTTCTTCAAATTTTTGTGTATTGAATGCTCTTATAACCATAAGACCAGATAAATTTTCTCTTGCAACTAAGTTCAATTTATCTATTAATTTTTGAACTATTTTAAACTTTGGAAAAGCTACAGAAAATACGATTAAAATCAAACCAAGTAATACTAAAACGGCAAGAGCTATTATCCAAGACATTGAAGCACTCTTTTGAAGAGCTTTAAAAACTCCACCTATACCTATTATAGGTGCATAAAATAGTATTCTTATTATCATAAAAACAACTTGTTGTATCTGTGTAATATCATTTGTAGTTCTTGTAATCAAAGAAGAAGTAGAAAATTTGTCAAATTCAGCATTTGAAAATTTTTGAACCTTTGAAAAAACATCTCTTCTTAAATTTTTTGCCACTCCAGCTGCCGTTTTTGCCGCTAAGAATCCAACTAAAATTGTACTTATTCCACTCAATAACGATAGCAAAAGCATAAATAAACCAGTATTTATTATATATTTACTTTGAAGTTTAGAAGTATTTATTCCAACTGCATCATATTCTTTTTTTAAATAAGAAACCGCTGCTTGATTTACCATATTATCTCCAAGAGAGGTAAATTTTTCATTCATTGAATTTGCCATTTCAATTCTTTGAGTTTCAGGCAAAAATGATAAAAATGAATATATATTTAACTTAGCAGGTATTTTTGTACCATTTAAATCTATAAAACCATCTTTTTCATTTTCTTTTAGCTTTTCTATTCCTTCAATAGCTAAAAAACCTTTTCCAAATATTTTTTTTAATGGTTCTAATGTTTTTGAATCATTATTTTTCAATACATAAATAGGCTCTTTTTTTAAAATTGGATATTTTTTTAAATATATTGCATACTCTTTTTTGGTTTTATCAATATAAATGTAATTCTTAGAAAGTTCTTTTTTTTCATTTGTAGACAAAAATAAACTTAATTTATCTACTGTACTTTTTCTAATTGCTATTGGAACAGAATTTTCTATTCCATTTTGCTGTATTCCAACATTTACTATCTTTGACATATAATCTGGTAATGCCAAATCACTCAATGATCTAACAGAAACAAACAAAATAGCAAGTAATATGATAAAAGCAAAAGGTTTTAAATACCTAAAAAGTTTTGTCATTTAATTTACTCCTTTCCTAATTTTTTATTGTTTTCTAAAAAAGCTTTTTTATGTTCTTCTGTTGATAAAAATTTTAAATTATACTTTTTTTTAAAAGGTAGCCTTAATGTATTATAGAAAACTGAAAAAAATCTACTTTTTATAGTTTTTTCTTTATTTCTTAATGCACCCGTTGGACAAGCCATTATACAGGAGTTACAATTCAAGCATAGTTCTGGATGAATCATTACGGGACGCTTTCTAATTCTTTTATCAATACCCATTAAAGATACTTTCATGGTTTTAAATTTCCATATTTCTTTTCCTCTTGGACAAGCTGTTATACACTCACCAGCTCCACCACAAATTGGATAATCAATTGTATAATTTGTTTTAGATTTCATTTCTTCATAATAAATTTTCCAATCTTTCATTATGTATACCTCCAACTACTCTTCAGTTTTTAATAATTTTTCTAATTTTTCTAAACCATCAAGAATTGAATTTATATCTTCGGATGATGCATTATTCATCATTATTTCAAAATTCTTTTCTATATTTTCAAAACTTTTTTGAAATTCTTTTTGAAAATCTTTAGTTATTGTTACATAAACAACTCTTCTATCTTTTTCACTACGGATTCTTTCAACCATTTTTTGTTTTTCTAATCTGTCAACTATTCCAGAAATAGTACTATTTGATAAACCTAATTCTTTACTTAAATCACTAATTTTCATTTTTTTATGTTTTGCTAAAGTTCCAATTAGCATACCTTGTGGTCCAGTTAAGTTAAATTCCTCAAAATTTTGTTTAATTTTATTTCTCATGTGATTCATTATATTTTTTAAATACTTTACAGCTTTAATACCTTTTTCTACTTCATTCATATACATTCTCCTTGATTATATTTTCTATAAGAATATTTCGCATACGAAATAATTATATATCAAAAAAAAATATAAGTCAAGCATTATAATCTCTATTAATAGTAACATTTTAAAAATATATTTTTGCATATTAATGTTTTTTATGATAAAATAGTTTGTATGATTTTTTATATGGAGGTGATAAATTAAAAATAAAATAAAAAGGAGGTGAATTCAGTTAAAAAAAGCGCCAGACCCTTAATGGGTGACGAGGATCGAAACTTATCGAATATTCGGCGGATGGTTTCGGGGCATTGGTATAGTCCTTAAAGGATTTACAAAACTCAAAGGAAACTTTGAGGACAAAAAAATCCAAATATCAAAAAATAAAAATAAAAAAATGCAATCAATTTGCATTTTATTTTTTTGGAGGAATAAAAATGTGTGGAATAGTTGGATATATAGGAAACAAAAATGCAAGAGAAGTGTTAATAGACGGATTGGATAAGTTGGAATATAGAGGTTATGATTCTGCTGGAATGGCACTTCTTTCTGAAGAAGAATTAAAAGTTAGAAAATTCAAAGGAAGATTATCCGTTTTAAAAGAAAATGTTGAAAAAGAAAATTTGTATGGAAATGTTGGAATAGGTCACACAAGATGGGCAACGCATGGCGAACCATCTGATGTTAATTCACATCCTCATACAAGTGAAAATAACAATATTGCAGTTATTCATAATGGTATTATTGAAAATTATATTCAATTAAAAGAATGGTTGATAAAAGAACACGATATTAAATTCAAATCTGAAACAGATACAGAAGTAATAGCACATCTCATAAATCATTTCTATAATGGAGATTTATTAGATGCGGTTTATAAGGCAATAGATAAAATGGAAGGTGCTTATGCTATAGGAGTTCTTTGTAAACAAGAACCAGACAAAATAATAGCCGTTAGAAAAGATAGTCCATTAATAGTTGGAATAGGAAAAGAAGAAAATTTTATAGCTTCTGATATACCAGCACTTTTAAAGTACACAAGAAATGTATATTTAATAGAAAATGGAGAAGTTGTTGTTTTAACAAAAAATGATATAAAAATATACAATGAATTGAGGCAAGAAGTAAAAAGAGAAGTATATAAAGTTAATTGGGATGTTGAGTCAGCAAAAAAAGATGGCTTTGAACATTTTATGATGAAAGAAATTAATGAACAACCAAAAGGAGTACATGAAACACTATTTAGACGTTTAAAAGAAGATAAAGTATATATAGATGGTATAAAAATCACAAAAAAAGACTTAGAAAGAATAAATAAAATTTATATAGTAGCTTGTGGAACAGCCTATCATGCAGGACTTGTAGCAAAACGTGCAATAGAAAATTTTGCAAAAATACCAGTTTATGTTGATGTTGCTTCAGAATTTAGATATTCCGATCCATTTGTAGACAAAAATACTCTATTCATTGCAGTTAGTCAATCAGGCGAAACACTTGATACCTTAGCCGCTTTAAGAGAAGCTAAAAGAAAGGGTGCAAGGGTATTATCTGTTGTAAATGTTGTAGGAAGTTCTGTTGCAAGGGAATCTGATGATGTTTTTTATACTTGGGCTGGACCTGAAATTGCAGTTGCTTCAACAAAAGCATTTACAACTCAACTCATAGCTTTATATTTAATTGCACTTCACATGGGAATAACAAATGAAAAGCTTACAGAAAAAAGATATTTTGAAATAATAAAAGAACTAAAAGTTTTACCAGAAAAAATAGAAAAAATACTTAAAAATACAAAACAAATCCAAGAATTAGCAGATAACAATTTTAATAATAACAGTATATTTTTTATGGGAAGAGGTATTGATGTTGATATTTCAATGGAAGCTTCATTAAAATTAAAAGAAATATCTTATATAAATTCATTTGCAATACCAGCAGGAGAGTTAAAACATGGAACAATAGCCCTCGTTGAAAAGGGAACATTAGTCATAGCAATTTCAACACAAAAAAGACTTACAGAAAAAATGATTTCTAATATAAAAGAAGTTAAAGCAAGAGGTGCAAAAGTAATAGTTGTTACTCTTGAAAGTAATAAAGATGTTGTAAAGGTTGCAGATGATGTTATATATATACCAGAAACATTAGACATCTTAACCCCTGTTTTAAGCATAATACCAATGCAAATATTTGCTTATTATGTGTCAATTGCAAGAGGCAATGATGTTGATAAACCAAGGAACTTAGCAAAATCCGTAACCGTAGAATAAAGTTACTACAATTAAACAATTAATTAACTTAAGAAACTTATTATTAACACGGTAAAGATAGAATAAAAATGAAAATATAAGAAATCCCCCCTGAGATAAAAGATCCCAAAATTAAGTGCCCGAAAGGGCACATTTTTTTATTTGTATAAAAAAGAATTTTGGAAATTTAAATAGAATATACAGAAAAGATTTTTTATAAAAACTATTATTATTACGATTTTAGAGATATCATTTATAATTTAAAAAATGATACAAAGTACTTATTGTTAGATTTAAGAGATACATCAAGAGGATCTTTTAAGAATGTTGTGCATACACTTAATTTTATTGGAGATAAGTCAAATAATTTAATAAAAAAATTTTTGTTAAAAAAAATAATAAGATAATTTAAGAAAAATATCCATACTTTATAAACGGAAGAAAAAAATAAACAAAAAAATATACGTTTTAGTAAATGAAAATACAGAAATGTTTGGAATTTCATTTGCACATCATTTAAAGGAAAATGTATTGGCAAAAATAATAGGGGTTGATCCTTATAGAGATCTAAATTTTAAATTTAGATCTCTATAATAATTACTATACATTACCAAATACAAGATTAGCTTTAGTAATACCTGATACTCAGATATTCTTATCTAAAAAAACAAATAATTTAAAGATTAATACTTCACTTTCATATAAATTTAATAAAAAATTATATACAAATAAATGCTTGATTTTCAAATTATAAAAAAAATCAAGCATTTATTTGATTATTTTACTCTATATTAGTATTTAATCAATATTTTTATAAACTATAAAAATATGATATAATTTATTGTTATGGTTTTCGTTAAAACATTATAAATAAAATATTAAAATTTAATTTTAATTATAAAAAAACGTAATATAATAAAAAGGAGGGAAAAGTATGAAAGAAAAACTACTTATTTTATTGTTTGTTTTAAGTTTTACTATTTTTACATTTAGTTTCCAATTGTCAGGAAGTTATTTATTGGAACTATCAGGATACGAGAGAACTTTTTATGGAACTAATGTTATATTAGGAGATAAAGATATTATCGGCTTAGAATTTGGTGTTTTTTTACCACCAGATACTATTGAAACAGGTGAATTAACTTATCTTCAACCAACAACTTTTCTTTTAGCTCAATTACCTCTTAATAATTTTAAATTTTTTACAGGAATAAGCCCTATATTTCAATATTATAAAAGTGAATTTTCATTGTACTCTTATACTATGTATTTAACAAAAGCTGGGCTTTCATTGTATTTAGGACCCATAGTTTTAACTGGAGGAATTAACACAATAATTGATCTTTCATTTCAGCAAACATTTGGTATTTACGGAGTATACGGAGAACTTGGATTAAGATTCTAAAAAGGAGGAAAATTTTATGAAAAAATATATTTATATAGCAGTATTATCAATCTTATTAATCTTAACATTATTTTCTTGCCAAAAAATAGATCCATTATTAGGAAATAGTGATATATCAGGTATTTCTGTTTTAAATGATTCAAATAATCATGAGAATATAAAAATTTCTATTGAAGGATTAGAAAACGGTTTTAGCCCTATAGATGCTATCTCTACTATAAGTGCTACATTATCCGATAAAAATGGTAATTTTTCATTAGAAAACATCCCTGCTGGAAATTATATTATTAAAGCAGAAAAAAATGGATATTTTCCAACAAAAAAATTTATCAACGTAGAAGATAATAAAGAAATAACTTTAGATAGTACCTTAGTATTATATCCTTTGAGTGATTACGGAACTCTAAATGGTAACGTAAAATACATAGATAAATCAGACAATACTGGTATTTTATTGGAAATAAGAACACCTAAAGGTGAACCATTACCTGATATGTATACTTTTTCAGATAAAAATGGAAATTATTCATTTGAATTTGTACCTGTTGGAAATTATGTTATTTATGCACACGATCCTTCAAAAAATTCAAAATATTCAGCTGACGCAGCTCCAATATTAATTGAAAACTTAAAAAATACTGTTGCTCCAAATCTAATATTAAGAAAAGCATCAGAACATGTTGTCATCTTTAGAGATATTGCTGCATGGGGTGCTTCGGATGCTATACCAAATATTTTAAAAGATATGGATTTTACAGAAGGCACTGGTTTACATCAATATGAAATAAAAAATTCAACGGATATGAACAATTTAAGTAGTTTTAATACTTCATGGTCAATAATAATAGAAGGAGATCAAACAACAGATTTTTATAATATATATAAAGAAAATTCAAATAAATTTGATACATTTGTTAGAAATGGTGGAACTTTATTTTGGATAGCTTGTGATAACGGTTGGAATTCAGGAGATTTTACTGGAACTTTACCTGGTGGAATAACTTGGAGAGATACTTATGATAGTTATAATGATTTAGTTAATAAAACTCATCCATTATTAGAAGGATTCCCATTTGATCGTTCTTTAGAAGGAAATTATGCAAGTCATGGAGGGTTTGATAATTTAAAAAATGCAAATATTGAAAACTTAGTTGTATTTATTAAAGAACATACTACAAGTGAACAATATCCAACATATATAGAATATAGATATGGAAACGGAAGAGTTGTTTCATCAACAACACCTTTAGAATTTTACATAAATCATTCAGATTATGATAATGATTGGTATATTTTACTTCTTAGAAGATCCATTGAATATGTATTTAATTTACCTCTTAGTCCAGTTAATATAAACCCACCTGCTTATACACTATCAAATTAATTTATAATATTAATAGTACTTAATAAAATACTTCCTTAATGGAAGTATTTTATTATATAAAACTATAAATAATTATCTTAAAATTTTAATACAATGTAAAAAAATAACATTGTTTATTTTTTATTAATTTTTTTATTATTTTAAATTTAAACAATAAAAAAATTAAAAAAATAAAAGTATTACTTGACTTTTTTTATAAAAAATAGTATAATTTTTAAAATAAAAAAATTATACATAAGGAGGTATTTTATGTTAAAAGCAATTAAACTTGTGAAAGAATTCGGAAATTACAAAGCAGTAAACGAAGTCACTTTAAATATTAAAAAAGGAGAAATTTATGGCTTTTTAGGACCTAATGGAGCAGGAAAAACAACAACTATTAGAATGCTCACTGGAACACTCAAACCAACCTCTGGAGATGTTGAAATTTTAAATCTAAATTTATTTAATAATGAATTAGAAATTAAAAGAAGAATTGGTGTTGTACCAGATGAACCAAAAATGTATGAAAATCTAAAAGGTTTTGAATACATAGAATTTATAATGGGAATATACAAATTAAATAAAGATGAAACTAAAAAAAGATTTGATGAAATTTGTGATGCTTTTGAAATTGATTATTTAAATAATTATATAGGTGACTTTTCTCATGGTATGAAACAAAAATTAATGGTTGCTTCTGTTTTAATGAGAAAACCTGAAGTAATATTTTTAGATGAACCAACAGTTGGATTGGATGCAAGATCAGCAAAAATATTAAAAGAACTTTTACATAAATATAGAGATGAAGGAATGACAATCTTTTTAACAACTCATATACTTGAAATTGCCGAAAAGATGTGTGATAGAATAGGAATAATAAAAGAGGGTAGAATGCTTGCAGAAGGTACAATTGAAGAATTGAGAAATTCTACAGAAAATAAAGGTTCTCTTGAAGATATTTTCTTAGAACTAACTGGTGATGACAGTATAGAAGATGTCATAAAAGAACTTTAAGGAGTGGTTTTAATATGAGTGATTTATCTTTATTAATAAAATATTCATTTCAAAATAAATCAAGATATTCAAAAAAGAAAAAAAATGGTAAAGAAAGAAAACCAACAAATCCCATTATTTCTATAATATTAACTTTGTCTATATCTGCAACATTAGGATTAATATTAGCTCCAATTTACTATTATGCTTTTAAAAATAGTGCTATACCATTGACTAAATTTGGTATACAATCTACATATAATTTTGTAGATATAATTTTTTCATCTACATATATTGGATTAGGAATAATGTTTTTGATGACTTTTTCTTCATATTTAGTAGTAAATTTATATGATGGAGATATGACTGAGTTATTTTTGACAATGCCAATAAAGAGATCAACAATTTTTTTATCAGCAGCAATAGATAGCTTAATATTATCAGGTATGCCTCTTGGAATGTTAATTCCTCTTTCAATAGTTCACGCAATAATTTTAAAAGGAAGCATAATAGCTTCAATATTATCTATAACTTTATTTGTTTACTTATTGGGAATATTAGCATTAATTATTTCTATGTTGTTATCGCTTTTTATTGGTAAAACAGCAGCAAAAAGAACTGCTATGTTAATGAGTTTTGGAAGTTTATTAATATATATCATTTCTACAAATTTAATTTCTAAAATAAAAACTACCGATCCAAAAGTTTTTGTTGACGGAATAAAAGGTGCTCTTAATTTTATACTTTTCCCTGCTTTTCCACATACTCAAATGATAAATGGAATAAATGGAAATTATTCCAGTATAGCAATTATGATTATTTTTAGTATAATTTTTACTTTTGTTTTTTATTACTTTTCTAATAAAATGGACTTTGGAATGAAATCTAAAAAAAGTTCAAAAAAGATTAAAAATATAAAAATAAGTGGAATGCCTCTTTTGAAAAAAGACTTGAAATTATTATCTAGAGATTCACAATCAATATTTATGATTTTTTATCCTATTGCATTATCTGCAATATTCTTCTTTACGGGAAATAATAGTATAACCTTTATATCTATAATGTTTATAATAATAGCTGCTTTTTATTCTGCTTATTTAACAATTATAATGCTTGCAGAAGATACAAAAATTTGGCCTTTGCCAAGATTATTTCCAGTAAAAATTAGTACTATTGTTAATAGAAAAATTATAATCCCAGTAACAATTTTTATGTTAGAATACTTTGCTGTATTAATATTTTTAGGTATAAAAGATAAATTAGATATTTCTGGAATATTTTTTATTGTTCCTATGCTTATAATAATGTTTTATTCTTCAATATTTGGTGCAAGACTATTTTTAAAAAATCCAAAAAGAGATACTAAACAAAAAAATATCTTATCCACTAAAGAAATTTTTATGCTTGAAGGTGTTTCTATGGGATATTCATTAATAATATTTGTTTTATTAACTTTTGAACAAATGTTAATAAAGCATGGACCATTTTGGATTTTTAAAAATATACCTATAATTTTTTCACATTTAATATTTTTAGGAATACCTATAATTTTAATACTATTTATTCTTTCTAAAACAAGAAAAGAAATGAATAAAATAAAAAAATTAATAGAAAGTTGGGAATAGGGGCTTTTAGCCCCTATTTTCAATTAAATATTTCCAAAATCTATTTGGAATAAATTTATTTTGCAACTTTAAATTGTATCTTTCTTCAATTGCAGTATATTTATGATAAGTCTTCCACAAGTTTTGAAATTTAATTTCGTTTTGATGGTATTCATCACTTAAATTTAAATTTTTTACTTGCATAAATTCAACCTTTTTATCATACATTACAATGTATCTTCTTTTTATATCATGAAGAATAAACTTTTCATTTTTAAATCTATTGATAAAATGCGGAGTTAGTAATGGAATAACATTATAAATTGGTTTTATTGATGAAAAAAATGTTCCATCTTTTAATTCTTTAAATCTAATCAATCCTAAATATCTATGAGCATCGTTTGTTACTTTTTTATAATATACATTTATATCTTTTACGTATGTATAACTAAATAAATTAGAAGGATCCATTTTTTTGCTCAAAGTTAAAATTAAAAATTCAAATGAACTTTTTTCAAAGCCTTTTATTTCAGATAAAAATGCATAGAATATTTTTTCTAAAACAGTTGGATAATTTTTTTTTAAATAAAGAATTAATTTTTTAGAATTTTCAAAATCAGTTGAAATAAATGCAGAATTTAATAATGAATTATCTTCATTATTTATATTTTGTGGAATTATTTTTTTTCTTATTAAATAGTAAAATAAACTCATCAATCCTTCAAAACTTCCATCATATTGATAAATCATTTAATAAGTCCTTTCTGGAATATTTTTTAAAAATAATGGTATACTTTTATTTTTTGAACTTAAAACATTTTTTAAGTTCTTTGGATCTTTAAAAATATAACCTTGAAATTTACCATTACAGGTTATAAAATACTTTGCTCTTTTTAAAACTACCCTTATCTTTTTTAAAATTTCAAAGTTAATATTTTCATATTTTCTGGTTTTAATTATTTTTAATGCAGAATTTATGCCAATACCAGGAACTCTAATTAACATTTCATAAGGTGCTTTGTTTACTTCAATTGGAAATAAATTAAAGTTTCTTATAGCCCACATTGATTTTGGATCTAATTTTTCATTTAAAAATGGCTCATTTTCATCTAAAATTTCATTAGCACTGAATTTATAATATCGCAAAAGCCAATCAGCTTGATATAATCTATGCTCTCTTAATAGTGAAGCATTTTTTTGTGGTAGTTTTGAATCTGTATTTACTTTAATAAATGCAGAATAATAAACTCTTTTTAAATTAAAGTTTTTATATAATTTTTCAGATAAATTTATTATAGTTTTATCACTATCTGGAGATGCTCCTATTATCATTTGTGTGCTTTGTCCTGCTGGCACAAATGAAGGAGCAGTTTTAAATTTTTTTCTTTCACTAATGCTCACTAAAGCATTTGAACCAATATATTTCATAGGTTTTAATATATTTTCTTTGCTTTTATCAGGAGCTAAAACCGCCAAACTTTTTTGTGTTGGCAATTCAATATTTACACTCATTCTATCTGCATAAAAACCAGCTTTTCTTATTAATTCTTTATCAGCACCTGGTATGGCTTTTAAATGTATATAACCATTAAAATTTTTTTCTCTTAATTTTTTTACTACAATAAACATTTTTTCCATTGTATAGTTTGCTGATTTTATTATTCCAGAACTTAAAAATAATCCTTCTATATAATTTCTCTTATAAAAGGATAAAGTTAAATTTACTAATTCTTCAGGAGAAAAAGTAGTTCTTTTTATGTTGTTACTCTTTCTATTTATACAATAAGCACAGTCAAATTTACAATAATTTGTATATAAAACTTTTAATAAAGATATACATCTTCCATCAGCAGCCCAGCTATGGCAAATTCCAGATTTTTCAGTATTACCAATTCCATCAATATTTAATCTCTCACTTCCACTTGAAGAACAAGATACATCGTATTTAGCCGATGAAGACAAAATTTTTAATTTTTCATTTAAGTCCATAAAATTCACCTCTTATACATATGTATAATTACATTATATACTTTTTCTAAAAGAAAGTCAACTTAACTTTTTTGTAACTATATTTGACTATGAAAATGATAAAATTAAAATAAATGGGGGTGAAAGTATGAACTTAGAACTTGGAAGAAAAAAAATCAAATGGGTTGAAAAATATATGAAAGTTGTAAATTATTTAAGAGATATGTATATAAATGAAAAACCTTTTAATGGAGTTAAAGTTGCAATGAGTATTCATTTGGAAGCAAAAACAGCTTATCTTGCAACAATATTAAAACAACTTGGTGCAGATGTGGCAATTACTGGTAGTAATCCATTAACAACTCAACCTGAAGTTGCAGAAGCATTAAAAGAATATGGAATACATGTATATGCTGAAAAAACATTAGATGAAGATATTTACTGGAAAAATATGGATAAGGTATTAGAATTTAATCCAAACATAATAATAGATGATGGTGCTGACCTTGGAATAAGATTGATTGAAAAATTTCCGGAAAAAATTGAAAACCTTTGGGGAATTTGTGAAGAAACCACAACAGGAGTAAAAAGATATAAAGCACTTTATAATGATGGTAAATTATCTGTTCCTTTAATAGCTATAAATGATTCATACATGAAATACTTGTTTGACAATAGATATGGAACTGGGCAATCAACTTGGGATGGTATAATAAGATCTACTAATATAACGGTTACTGGAAAAAATGTAGTTGTTGGTGGATATGGTTGGTGCGGAAGAGGCATTGCAATGAGAGCTAAAGGTCTTGGCGCTAATGTTATCATTACAGAAATTGATCCAATAAAGGCAAATGAAGCTATAATGGATGGATTTAGAGTTATGAAAATGAATGAAGCTTGTAAAATAGGAGATATATTTGTAACAGCAACAGGAGATATTGATATAATAACAGAAAAACAATTTTTAAACATGAAAGATGGAGTTATACTTGCTAATTCAGGTCATTTTGATGTTGAAGTTAAAGTTGCTGATTTAGAAAAAATAAAAGTAGAAAAAAAAGAAGTAAGACCTGGTGTGGAAGAATATGTACTCCCTAATGGGAAAAGTGTATTTCTACTTGGAAAAGGTCGTTTAGTAAATTTAACAAATGCAGACGGACACCCAATTGAAATAATGGACTTATCTTTTGCTCTTCAACTTGAAGGAGCTAAGTATATAATGGAAAATTATAAAAATATGGATATTTCTATAAAACCAATACCTTATGATATAGATAAAAAAGTAGCTTCTATAAAATTAAAAACTATTGGCATTGAAATTGATACATTGAGTGAAGATCAAAAAAATTATTTAAATAGTTGGAAGTAAATTTATAGTATTACACATATTTTATAAAAAATATTAAACTAAAAAGTGCTTGATTTCAACTGAACTTTTGAATCAAGCACTTTTTAATTAATTTTTAATTTACTTTATTTGTATTTTGAAAGATAAAAATGTATTTATTAAAAAGCATTTTTTATAATATAAAAATTATTTGGTAAAGTGTATTTTCCTAATAAATCCTCATTTTTTATTATTACATTGTTTTTTCCAACAATTTTTCCAGAAAAAATCATTTTTGAACACAAACAAGTTTTTCCATCATTTAAAAATAAATTATAATTTTCAGAATCTATTTTATTATCTTCTATATCAGCATATATTTTTCCATTTAAAGATACTGCATAATTATATATATTAATAATTTCATTATCAAATATATTTGAATTTATATCTCCAAGAAAAACTACTCCATTAACACAATATTTTATACTATTATTTATTATTTTAGATTCTGTATGCATTGAAGTAGATATTATTATAGCATTAGCATAATCTGAAATTTTATTATTTTTAATAGTAGTCATATTATTTCTAAATAAGTGTATTCCTGAATTTGAAATATAAATTTCTTTACCATTTTCTGATTTTTTTGTTTTACCTGATAACTTAGAATTTTCCATAGAAAAATCATTATTAAATAGGTATCCAAAAATTGCATCTTTAGAAGAATAAATTTCAACATTATTTAAATGTACACCAGCATTTATTATATTTATTCCAGTTCCTGGAGAAGTAATTTTTATATTAGATATATTAACATTTGAAGAATCATAAATTTTAAAAACTGATTTATCATTATTTTTAGGTTGAATTAAAACATCATCTTCTCCTTTAATATTTACATCTTTTGTTATTATTACATTTTCTCGATAAGTACCTTTTTCTAAAATTATAGTATCTCCAATTTTTGCATTGTTTAATGCTTCTTGAATAGTTTTATATTTAGAATTTACACATCCAACTTTAATATCTGTAGAAAAGCCTAAAACACTTATTATTATTAATAAAAATATAAAGTATTTATTTTTCATTTTTAACCTCCTAAAATATAAAGTGAACTTCTAATTATTTTTACATGGATAAATTGTTATAGTTTTAAACTTCACACATTGCCATTCTCCATAAAATTGACATCCTGCAGCAGCTACAGCAATGCAAGCAGCATATGCTGGCGGAGTTTCTTCAAGTGCGTAGCATGGTAATTTTGCTACTTTAAAACAATTTTGATCAAAATAAGGTGGTTTATAAACTTTTTTTACACAAACAGCTCTTGTAACTGGTTTAGAATACTATCATCACACTTTGATCAATAACTCCGTTAAAATTTGCAAATACATTCATTGATATCATAGTTAATAAAAAAGTAAAAAATATTAACCATGATGTTCTCTTTTTCGTTTTTCTCACTTTTTCTCCTCCTCACTTGTATTTTTAATAGCAAAGCTATTAGTATTAAAAATAATATAGTTATAATATAATAAATTGTTTCTCCATACTTAGAATAAAATATTTGTTCTACAATTCATAATAAATTATTTTTGTTTCAATAAATTTTTTAAAACTTTCCCATTGTTGTTTATTATTTTCGTTATTCTTGAGTTCATTAATTTGGTTATATACACGTTATTTTTTGATGTTCTAAACTTTGTGGATACCAACACTGTGTATGGTATACTTGAACATCAATAACATTATATCAAAAAAAAACGTTGTCAACTATTTTTATAAAATAATCAATATTTTTACTAAAATGCAATATAATAAATTTAATTTATATCATTGCTTTTATTTTTTTATGTTATTATTAATCTTTCTCATTATACACTATTTTTTTACCTTTAAACTTACAATTTTGTAAGTTTGTTTTGCTAATTTTTTTTGTATAAACATATGATTTATTAATTTATGGTATAATAAAACGAGGTGATAAAAATGAAAAAAAGGCTTCCAATAGGACAAAGCGATTTTAAAACTATAATAGAAGAAGATATGTACTTTGTAGATAAAAGCTTGTTAATTAAAGAAGTTATTGAAAGTGGAAATGTTTTATTAATAACAAGACCAAGAAGGTTTGGTAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAATAACGAATACCTCTTTAAAAACTTAAAGATTTATAAAGAAAAAAATATAATAGAAAAACATTTGAATAAACATCCTGTTATATACATCACCTTTAAGGATTTAAAATCTAATAACTTAAAGAAAATGCATGATTTATTAATTTCTGAACTTTCAACTTTGTACATTGATCATAAGTATGTTTTAAATGTTTTGGATGAAGAAGAAAAATTAGTATATAAATCAATAACCTTAAAAAAAGCTAATGATTCTGAATATGAAAACTCTATAAGAAACTTGTCAAAGTATATGGAAAGATACTATAGTAAAAAGGTAATAATATTAATAGATGAATACGATACTCCAATTCAACAAGCTTACTTACATGGATACTATGATGAAATAATATCTTTAATTGGTAACTTATTTGGCATGGCTTTAAAAGACAATGTATACCTTGAAAAAGCAGTTCTTACTGGTATAACAAGAGTTTCTAAAGAAAGCATCTTTACTGGTGTGAATAACTTAGAAGTTTCTACTGTATTAAATGAACTATTCAATGATAAGTATGGATTAACTAAAGAAGAAGTTGAAGAAACACTTAAGTATTATGAACTTGAATATGAAGAAGATGAAGTTATAAATTGGTACAATGGTTATAACTTTGGTGGTGTTGAAATTTACAATCCTTTTTCTATAGTAACTCTTGCAAAGAATAAAGGTAAAATAAGACCATATTGGATGAATACGAGTGGAAATTTCTTGGTTAAACAATTAATAAAACAAGGAAGTGCTGAATTAAAAGATAAAATTGAAAAACTAATAAATGGTGAAGAAATTGAAAGTACAATAAATGAAACTATGGTTTATGGAGACTTAAATAACAACTTAGAAGAGTCTGTATGGACATTATTTTTATTCAGCGGATATTTAAAATGGACAAAAAATATAAATCATGATTATGAAAGATATACTTTAAAGATACCAAATAAAGAAGTAAAAATATTTTATAATAAAACTGTAGTATCTATGCTTGAAGAAGAAAGAATAAAGTTTGATAATATGTTATTAAATCTAAAAGTAGGAAGAATAAAAACCTTTACAGATCAATTTAAAGATTTAACGATGAACACATTGAGTTACTTTGATGTTAGTGGAAAGGAACCAGAAAGATTTTATCATGGACTAATACTTGGAATGAGTGTTGGTTTAAAAGAAAAGTACATAATAAAGAGTAATAGAGAAACAGGCCTTGGAAGAGCAGATGTTATTTTAATTCCAAAAGATAAAACAGATAAGGGAATAATTATTGAGTTTAAAAAGTACAATAGAGATGAAGATAAAAGTTTAAAAGACAGTGCAAAAAATGGACTAAATCAAATAAATGAAAAGAAGTATGAAGAAGAAATAAAAAGTTATGGAATAAATAACATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAAGTTGAAATTATTAGTAATTTGGATAAAGGTATTGAATTAACTCCAGAAGAAAAAATAGCTAAAGAAATGATAAAAAAAGGATTAGATATAAATATGATTTCTGAATTAACAGGTATTTCAATAGAAAAACTTAAAAATATGCTTAATAAATAACAATCTAAATAGAAAATAAATATAAAAAATTTAATAAAAATGCACGATTAAAACGTGCATTTTTATTATAAATATAAGTCATAAAAACTAATATTAAAACTTATTTTTAATTTTTTAAAAAAAATTTATACATTATAAAAAATATTTTTTTATTATAAAATAAATATATTTAAAATTTCTTTAATTTCTTGCAATATAAGTTGTATGTAATAATTTATGTGCTAATTCGCTATTTGGTTCTCCTAAAAATTCTTTATAAAGTTCTTGAACAGCTGGATTTTCATGAGATTTTCTTATTTTTAATTCTCTATCAATATCATAAATAGCTGTCATTCTTTCTAAAATAGTTTCATCATTTGTAGGTATTGGCTGTCCTCCACCACCAATACAACCTCCTGGACATGCCATGAATTCAACAAATTGATATGTTTTTTCACCAGATTTTATCATTTCTAATAATTTTCTTGCATTTCCCAATCCATTTGCAATGGCTATATTTAATTTATGAGTCCCTATTGTAATAGTAGCTTCTTTTATTCCTTTTATTCCGCGAACTACATTAAAATCTAATGATTCGAGTTCTTGACCTGTAAGAACTTCATAAGCAGTTCTCAAAGCAGCTTCCATTACTCCTCCAGTTGCTCCAAAAAGTACTGCTGCACCAGAAGATTTGCCAAGTGGATCATCATATTTACTCTCTGGAAGATTTAATAAATCTATTCCAGCTTCTTTGAACATTTTTCCCAATTCACGTGTTGTAAGAACATAATCAACATCCCCTTTTAATTCTGGTCTTGTTCGTTCATATTTTTTTGCTGTACAAGGCATTATTGATACTACTATTATATTTTCTTTATCTATTCTCATTTTTTCAGCATAAAATGATTTTACTATTGAACCAAACATTTGTTGTGGAGATTTACAGGTAGATAAATTCGGAATAAATTCTGGGTAATTATGTTCTAAAAACTTTATCCATCCTGGACTACAAGACGTAAATATTGGAAGATTTTTATTACTTTTAAATCTTTTTATAAATTCAGTTCCTTCTTCCATTATAGTTAAATCAGCAGCAAAATTTGTATCAAAAACTTTATCAAAACCGAGTAATTTTAATCCAGATACAAGTTGACCAGTTGTTGTACTACCAGGCTTTTCATTAAATTCTTCTGATATAGCAACACGCACTGCTGGAGCTGTTTGAACAACAACATGTTTTTCTGGATCTTCTATAGCTTTCCAAACACTATCAATATGATATACTTCATGAAGAGCACCACTTGGGCATTCTAAAATACATTGTCCACAATTTGTGCAATCAACATTTCCCATTCCTCTATCCATATAAGTGGTCACATGTGTATTTGGACCTTTATTAGCTATAGTTAAAATATTTACATTTTGTACCTCAGAACATTTTCTTACACATCTATTACAAACTATACATTTTGATGGTTCTCTAACTATTGAAAAACTACTATTATCTATTAATTCTTCTTTTGGAATAGGAGGTATTCTTATATTAATCACACCAATTTCTTGTGCAACTTCTCTTATTTCACAATTATCAGCTCTTGGACAATTTAAACAGTTTAAATCACAACTAATACTATGCGATGAAATAATTAATTCCATTATTATCTTTCTAACTCTTCTAACTTTTTCACTATGCGTTTTTATATTCATACCATCTTTTATTTTAGTAACACAAGAAGGCATTAAAGTTTTTTTACCTTCAACTTCAACGGAACATAATCTACAGCTTCCATAAGGAGCAAGTTTTTCATTATAACATAGTGTTGGAACTTTTATATGTGCTTTCTTGGTTGCTTCAAGTATAGATAATTCTTCATCAAATTCAAAGATTTGATTATTTATGGTAACTTTCATATTTTCACCTTCTCTATATAAAACTTTTCAAGTATAGACGCAATTAAATTTACAGAAGATTGTCCAAATCCACAGCGAGCGGCTAATCCTATTGCTTCCTTAATTTCATTAATTATTTTTATATCTTTAGAATTTATTTTTTTATTATTATTAAAATTTTCTAATATTTTATTTATATTTCTATTTCCCTCTCTACAAGGAAAACAAGTTCCACATGTTTCATTTTTAAAAAAATCAGAAACATTTTTAATTATTTCAAGATAATTTCTTTGGTTTGATACTACAATCATTCCACCTGAACCCAAAGAACTTCCAGAATTTGAAATGTCTTCATAAGTATAGAGAATATTCAATTCACTTTCAGAAAGTGCTTGAGTTGCAATTCCACCTGGAATTACAAAACCAATATTACCTATTTTCATGCCACCACCAAATTCATTTATTATTTCTTTTATTGTCATTTTTCCAAATTCAATTTCATAAACTCCAGGATTATTTATATCTCCACTCAATGAAATTAATTTTGTACCTCTACTTTCAGAAGTTCCAAGAGTAGTATAAGGATTATTTTCATATTTCATTATTTCTGCTGCAGCAGATAAACTTTCAACATTATTTACTATTGTAGGTTTTTTATACAACCCACTCTCTATTGGAAGAGGAGGTTTTATTCTTGAACGACCTCTTTCTCCTTCTATAGAATTTATTAAAGACGTTTCATCTCCACAAACATAAGCTCCTGCTCCACGAACTAACTTTAAATCAAAATTAAAATTAGAATTTAAAATATTTTTTCCTAATAAATTTTTTTCATACATTAATTCTATAGTTTCTTTAATTTTTTTTATAGCTTTTTCATATTCTCCTCTTATATAAATATATCCATAATTTGAATTTGTTGCATAACCAGAAATTATTATTCCTTCTATAACTTTAAAAGGCATATTTTCCATTAAAAATCTATCTTTAAATGTTCCAGGTTCTCCTTCGTCTCCATTACAAATAATAAATTTCACGTCAGACTTTATAGAATATCCATACTCCCATTTTATTCCCGTTGGAAACCCAGCACCACCACGACCTCTTAATCCACTTTTTTTTATTTTTTCAATAATTTTTTCTGGACTTAATTTTAATGACTTTTTTAATCCTAAAAACTCATAATTATATAAATTTTTATTTTGATCTTTTTTTAAAAATATCTTTTCCATAAATCTCACCTCAATCTAAAGACTGTAAAATATTAACAGCCTTTTCTGGAGTTAAATAGTTATAAACAGTACTGTTTATTATCATAACTGGTCCTTCCCCACAATGTCCAAGACATTCAACTACTTCAAGTGTAAATTTTAAATCATTTGAAGTTTCACCAGAACCTATTTTTAAATAATCTTTTATAGAGTTTAATACAGCATTTGAACCATTTAATCTGCAAGAAACACTATCGCATAATCTTATTATATACTTACCAGTTGGTTTAGTATATAACATACTATAAAAGCTTATTGTTCCAAATAAATTTGCTTTTGGAATGGAACGTTCTTTTGAAATTCTGAGGATTTCTTTTTCAGGAATATAACCATAAGCATCTTGAATATCTCGAAGTTCTTCTAAAAGTTCTTTTTGAAAAAATTTTTCCATACAAATTCCCCCTTTATATTAAAAAAATTTTTAGGGAATAATATCTATGTTTAAATTTTAGAAGATAAATAATCGAAAAAGAATTTTAGGAAAGATATTATTTCAGTAACATAAATTTAATCTATATTTAAATTATAAAGTTTTTAAGTTAAAAAAACATTTCACAAATATTAAAAGTGTTTTAATTCACATAATTGTTTAATATTTATAATAAAAATACCTGATCCCTTTAAACATTAGGAATCAGGTATCTATTTATATATTTTTTATTAATTTTCCTTCCAAATTGCATAAATTCTATATGTACTTTTTATATAAGGGTTTGGTTTTTTTGTATATAAATGTACCTTGTTGTTTACAGCTACTAAGTAATTTTGTGCAAAAGTATAAATTAACACTTGTTCTTCAGCTAAAATATTATTGAATTCTTTAAATAGTTTTGTTAATTTTTCATCATCTAATAGTGTTTTCTGTTGCACCATAATTTCATCTATTCTCTTTTCATAATCTGGTACAAAATAATCTTCTTTATCAACAAACTCTTTAGTTTCTGGTGAGAAATTCCAAAAATGAAGTCCACCTTTTAATGTCCAAACATTTTCTGCAGCTGGATCAGGAGTATCTCCTGATAATCTTAGTATAACAGCATCCCATTGACCAGTTGTTATAATTTTTTGAACTAATGTATTGAATTGAATAGGAGTAAATATAACGTCTATACCAAGTTTTTGTAATGAATCTTTTAAAATATTAGCAATATCTACCCAAACTTCTGTACTAACATTTGTTTCTATAGAAAATGTAACTTGATTTCCAAATTTATCAAATAACTTTCCATTTTTTAAAACATATCCAGCTTTTCTTAAAATACTTTTGGCTTTACTTAAGCTATATTTATAATGCATTCTATTGATTGTTTCTTCATCATAATACTTTGAATCAGGTACTTCTCTTGAAAATACTGCTGCGCCCATACCATTTAACATATTGTCAACAACAGAATTTCTATCTAAAGCAAAAGAAACTGCTTTTCTAAATTCCGAATCTCTAAACCAAGCTCTTTTATATTTTTCTGGAGCATTAAAATTAAAAGCAATAAATGATGGTCCAGGATTCAACTCTCCAACTATTGTTTTATAGTTTCCTTCCTCTTCACCTGCTTTAAGTGTTGGATAGTCATTTGCAGTAATTCCCATTAAATCTAAATCTCCTGCTTTAAATCTTAATAATTCAGTTTGATTATTTGGTAATATAGTATAAATTATTTTATCTAAATAAGGTAATCTAATTCCATCTTTTGATTTAGCATAATAATTTGGATTTTTTTCTAAAACAATCCTTACGCCTTCCTTATAGTCCTTTAAAATAAATGGTCCGGATGCAACAACAGATTTTAATTGATCAACTGTCCAAGTTTGAGCTAGAGCATCTGAGCTAGAAACATGGTCTTTAAATATATGTTTTGGTAATATACTTGTACCTCCAAAAATCCCATTACCATTTCTTACTAAAGTTTTGTAAGTAAATTTTACTGTATAATTATCTACCTTTTCGATAATTGGAAGATTTTTTTCTGAATCTAAGTAAGAATCATTTCCATTAGGTGTCATGTCATTTTTAAAATAAATTTTTTCAAAAGTAAAAATAACATCATCAATTGTTAGTGGTTCTCCATCAGACCATTTTAAACCTTTTCTTAAAGTAAAATAATATGAAACTCCACCTTCTGATGTTTTTTCATATTTCCAAGATTTAGCTAAGGCTGGCTGTGTTACAAATCCATATTGATCTTGTTGTAACATACTATCTAAAAACAATGAAATAATATCATTTGATGATGTTTCTTGAGAAGTTGCAGGATTTAATGTCTTTGGACCAGATGTTGTTCCTAAAAACAAAGTATTTCCTGGAACTCCACCATCAACATCTACAACTAACCACTCTACGTCTTCTGCAAAAAATAGTATTGAAGAAATCAAAGCAATAAATACAAATAGTAACTTTTTCAATATAATCCCTCCCTAAAAAGATTAAATTACTGTTAATTTATTATAATCCTTTTAATAAAGAGATTTTTATTATGAAAGTAATAAAACTATATGACTTATATCATGTTCTATAAAAATTTTTAATCTAAATTAGAAATATCCTGTATTATAACTGTATTTTTAGAAAATATTTTCAATTTATTATTACCATTTTTTATATTTAATTTTTTAGTATAATTTTTATTAAAAAAAATGATATTCGGTGCTTGAATCTCATAATCATATTTTTGATTTTTATTTAAAACAATTAAAGTAGTTCCAAAACTTTGATTAATTTCACATTTATTAAATTTTTTCAAGTATAATGAAATATTACCAAATACATTTTTTATATACATTTTATTTACTGAAGCTGTTAATTTAATATTCCCTTCTTTATTTATAATTTTTGAAAAAACAGTATTCGAAAAATTTTTTAAATCTATATCTCCTCGATCATTTTTTATTTCTAATTCACCATTAGAAATAAAATTATTCGAAAGTATTTTTCCATTTACATTTTCTAAATAAATATTTTTTGAAGAAATCGAAAAAGGGAAAATATTTCCAATAGTATTTTTAGCAATTAATCTATAATTTGTAAATATTTTTTTTAACTTAATATTTCCCTTATATGAAACAAAAATAGCATCATCTTTCTTATTTGTCATAACAGTAAAAGTTCCGCTTTTTAATGAATTATTATTTTGATTAGAATTGAATACAAACTTTTTTAAAAGAAAAAATGGATTATTTTTATTTAAAGTTTCAGTTAAATTTATCAAATCAAAATCTTTTTTAAAAAGTATATCGGGAAAAATGTTTAACTCATTTTCATAAAAACATATCAATGAATTTTTTTCAGAATAGTAAATATTTATGTTAGAAATATTTGACTCAATATTTATTTTTTTTATTTCACTTAAAGAAAATTCAAAACTTTTTGTATTTGAAAGTATAATAGACGAAAACAACAAAACCGTAATCATTATCAATTTTTTTATAAATAATTTATTTATAAGTTCTTTCAAAATAATCATCCATTCATAACTTTTTGCACATAAAGTGCCAATTGTGTTCTATCTCTAATTTGTAGCTTTGAAAGTATCCTTGTTATATGATTCTTAACAGTTCCTTCAGTAATAAAAAGCAATTGACTAATTTCTTTATTAGATTTTCCAATTGATATTAATTGTGCAATTTCTACCTCTCTTGAAGTTAATGATTCATAAGGACCATTTATTTCTAATTTGTTTTCTTTTGTATTTTTACTTTTATTTCCAAGTTCTTTAATAACTTTATTTGCAATTTCAGAATGTAGTAAAAGATTTCCAGAATAAACCGTTTTTATTGATTCTATTATTTTATCGGACTTTACATCTTTTAATATATATCCATCTGCTCCATTTTTCAATGCTTCAAAAATAAATTCATCATCTTTAAATGTAGTTAATATTAATATTTTTATATTTGGATATTTTACTTTTATTATTTTAGTTGCTTTCACCCCATTCATTATAGGCATTTTTATATCCATTAAAATAACATCAGGCTTTTTTTCTTCTATTAAATTCAAGGCCTCCTCTCCATTTGAAGCTTCTGCAACTAACTCTATATCATGACACAAACTCAATAACATAGATATTCCTTCTCTAACTAAAGTTTGGTCATCCACAATCATTACTTTAATCATTTTAATCCCTCCATCAAAGGTATTACAATTTTAGTTTCAAAACCTTCTTTATTTAAAGAATTAAATATTACTTGGCCATTCACTTTTTTTATTCGCTCTTCTATTCCATTTAATCCAGTACTTTTTTGTATATTTAAACATCCTATACCATTATCTTTTATATTTAAAGTAATTTCATTATTATTTTTTAAAATATTTAAATTTATTTTTGAAGGCTTCCCATGTTTAATACTATTTGTTAAGCTTTCCATAACTGTTTTGTATATTATATTTTGAATGTCTAAATCAATATTATTTATTTCTTTGCTATATTTAAAGTCAATTTCAATATTCTCAATTTTTATATTTTTTATTAATTTATTAATAGAATCAGAAAGCGAATAAAATTGTTCATTTTCTTTTAATGCATACACTGCTTCTCTTAATGATTTCATAGTACTTCTTGAAATTTCTTGAGATTTTAATATGTGTTCTTTTGCTTTTTTTGCATCAATGTCTATTATTTTTTCTATGTAATCCAATCTCATAATAAGTGCCGATAGTTTGTGCCCAATTGAATCATGCATTTCTTGAGCAATTCTATTTCTTTCTTTTTCTATTGATAAATCTGCTATTGTTTTAAGAGATTTTTTTAATTCTACATTTAATTTTTCTGCTTTTTTTCTTTCATGATATTGATTTTTTAATGTTATTAAAGCAAAAATTATTAGAAAATATATAATATAGTTTGTTAGTATTGAAAATCCATAATTTTTCCAAAGTGTTATAAAGTTAAAATCTGTATAATTCATTAATTCTTTTGTACTCATAAATACATATAAAAATATATGTAATAATAAATATTTCTTATTCTTATTTATTATTATAAATTCGTATAAATATAAATAAAATAGGAATATAGCATCTCCATTAACAAATGTTGAGATGTAAGTTATACTTAAAAGAGAAAAACTAATAGAAGAAAAATATATGATTTTTTTCTTTAAAAAATAAGAAGTTCTGAGTATATCATTTATAAATACTATAATTAAAAATGTAGTATATAAAAAAAACTTACCAATAAAATATATAAAGTTAGTATATAAAGTTAAAATAACTAAAATTAATATTAAAAATTTTATAGAAAAAAATATTTTTTTCTTCACAGTTCACCTCTTAAAAAATATAAATTACTTATTTTATTATAACAGTTAGAAAAAAATATACAAATAAAATTATGTAAAGTATGAATTAACATAAGGTTATTTATTTAATTTTAAAATTAAAAAATAAGACTTTAGACTTTTTTAATTTTTTTATTCATAAAAAAATTAAAATTTAAAAAAATTTTTACAAAAAATAATTTGCAATCCATTGTTAAGAGTGCTAAAATATAAATAGACTATTTATAAAAAAATATATGGAGGTGTTATAATGTCTACAAAAATGAACTTTCAAACTGAAACAAAAAAGCTTTTAGATTTAATGATTCATTCTATTTATACAAATAAGGAAATTTTTTTAAGAGAATTAATTTCAAATTCATCAGATGCTATTGATAAAATAAGATTTGAATCTTTAAAAAATCCAGAAATTTTAAATGGAGATAATAAATTTGAAATTAAATTAGAATTAAAAGACAATAAATTAATTATAGAAGATAATGGTATTGGAATGTCTTATGACGAAGTTATTGAAAATATTGGTACAATTGCAAGATCCGGAACTAAAAAATTTATTGAAGAATTAAAAAAAGAAGAAAATAATACAAATGATTTAATAGGTCAATTTGGTGTTGGATTTTATTCTGCTTTCATGGTTGCAGAAAAAGTTACTTTAGAAACCAAAAAATACAATGAAAGAGAAGGTGTAATTTGGAAATCAGAAGGAAATGGTGAATTTACTATCGATAAAACAGAAAAAAATAATAGAGGAACAAAAATAACTTTAGAACTTAGAAAAGATATAGAAGATGAAATAAAATTAGATGAAGATAAAATAAAAGAATTAATAAAAAAATATTCTAATTATATTAAATATCCAATAAAAATGGAAATAGAAAAAGAAGGAAAAAAAGAATTAGAAATATTAAATTCTATGGAATCATTGTGGATGAAGAACAAAAAAGATATAAAAAAAGAAGAATATGATGAATTTTATAAAGAAACTTTTCATGATTGGATTGATCCATTTGAAATTATTCATACTAAAGCAGAAGGTAGTATAGAATATACCGCATTGTTGTTTATTCCATCAAAATTACCAATAGATTATTATTCTAAGAATTATAAAAGAGGAATACAACTCTATTCTAAAAATGTTTTTATTATGGAAAAATATGAAGACTTATTACCAGAATATTTAGGATTTATAAAAGGACTTGTAGATTCTCCTGATTTTTCTTTAAATATCTCAAGAGAATTATTACAACAAAGTAGACAATTGCAAATCGTTAAAAAAAATATTGAAAAAAAGGTATTAAACACTTTAGAAAATATACTAAAAAAAGATCAAAAAAGATACATTGAATTTTGGGAACAATTTGGTAGGTCTATAAAATCAGGTATATATGAAAATTTAACTAATAAAGAAAAATTAGAAAATCTATTAATTTTTAAATCATCTTTTGAAAAAGATTATACAACTTTAAATAGTTATATTGAAAGAATGAAAGAAGATCAAAAATATATTTATTTTGCATCTGGAGAAAATGTTGAAAGTATTGAAAAATTACCTCAATTAGAAGCTGTTTTAGATAATGGCTATGAAGTTTTATACTTTAATGATAGTATAGATGAATTTTTAGTTCAAATGATGAGAGAGTTTAAAGGAAAAGAATTTAAATCAATTAGTAGTAATGATTTAAATTTAAAAAATGAAGAAGAAGTTAAAAAATTAGAAAAAGAAAATGGTTCTTTACTTGAAGAAATAAAAGAAATATTAAAAGAAAAAGTTTCAGAAGTTAAATTAAGTTCAAGATTGAAAACATCACCAGTTTGTATAGTTACAGGAAATATGGGAATATCAACAAATATGGAAAAAATATTAAAAGAGTTAGATCAACTTCCATTTAAAGCCGATAAAGTTCTTGAAATTAATCCAAACCACGATTTATTTAAAACTATGGAGGAATTACATAGAAATGGTGAAAAAGAAAAATTAAGAGATTACTCAGAATTATTATACAATCAAGCATTAATTTTAGAAGGTTTAAAACCAGAAAATCCAACTGAATTAGTAAATTTAATTTCTAAATTAATAACAAAATAATATAATATAAATTAAATTATAATTAAGATACCTACAAATTTTGTAGGTATCTTATTATTTTATTAATAATTATATCTTAAATCGTTTGAAAACTCAAAAATTTATTAAAAGTTTAGAATTAAATAAACTTTTATATGATAAAATATAGTATATCAACCTTGAGGGGGCGTATAATTATATGGATTTTTATAAGTGGAAGTATTTAAATATTGGTGAAAGACTTGTCACTAAATTAAAAAACTTAAAACATGATGCATATCTTGTTGAAAACAAAAATGAAGTCGTTCCTCTTTTAAAAAAATTAATGCCTGAAAATTCTAAAGTAGGAGTAGGCGGAAGCGTTACTTTATCAGAATGTAATGTTCTTGAATTTTTAAGAAATGAAAAATTCAATTTTTTAGATAGATATTCTGTTAAAACAGAAGAAGAAAAAACAGAAATTTATTATGAAAATTTTAAAACCGACTTTTTTTTATGTAGTGCTAATGCTATAACTATGGATGGAAAAATAGTACAATTAGATGGGAATGGAACTAGAGTTGCTCCAATGATATGGGGACCTAAAAATGTAATAATAGTTGCTGGAATGAATAAAGTAGTAGAAGACTTAAATGAAGCAGAATTAAGATTAAAATTTATATCTCCAATGAACGCAAAAAGAGTTAATGCAAAAACTCCTTGTTCAAGAATCGGGGAATGTATAGACTGTGAGTCACATGATAGAATTTGTATTCATAAAACAATTTTAGAAACAGGGGTAAGACAACCAGGAAGGTTTAAAATAATATTAGTTGCAGAAAAATTAGGCTTTTAGTTTGGAGGTGTATTATGTTTAAAATAATGTTAAAAGGAAAAATTCATAGAGCTATAGTAAATGAAAAAAATATAAATTACGAGGGAAGTATAACAATAGATCCAGAGTTAATGGAACTTGCTGGAATGGAAGAATTTGAAAAGGTTCAAATTGTAGATATAAATAATGGGAAACGCTTTGAAACTTATATCATAAAAGGTGAATATGGAAAAAGAGAAATAGGTTTAAATGGTGCCGCAGCAAGAATGTGTGAACTTGGAGATCAAGTAATAATAATGTCATATGCTCTATATGAAAAAAACGAAGTACCAAATCCAAAAATAGTAGTTGTAGATAACAACAACAATCCAAAAACAACAAAAAATTCAGAAACACCTAATACTTTTTGCTAAAATTTAAAACAAAAAAGGATATTATCCTTTTTTGTTTTTTTTATCTATTGAATAAACATAAGCAAGAATTTCTGCAGCTATTTTATACATTTCAGGTGGAATTTCAACATTTATATCAACCCCATAAAATTCTTCTGCCGCATATTCATCTTCTATTATTGGAATCTTCTCCTCTTTCGCAACGCTTATTATTTTATCTGCTATTTCTCCAACGCCTTTAGCAATAACTTCTGGAGCGGTATCTTTACCTTTTTTATATCTTAAAGCCACAGCTTTTTTTTTCATTATTCACCTCTTATATTTAATACTGTTATTTCAGGAAAAGTCAAAAATCTTGCATGATACCATGAACCTAAACCTGTGTTCACATAGAGTTTAGTATTTTCAATTTTATACATACTTTTTATATAATAATTCCCCATATATTCTCTTAAAATAAAATTGGTAACAAAAGGAATTGTAACTTGTCCACCATGTGTATGACCAGAAAAAATTATATCTGCATATTTCAATACTTTCTTATTTTTAAAAACATTTGAAGGAATATGGGTCAAATATATATTAAAAGCATTTTTATCATATTCAAAATTTTTCAATGGATAATACATTGGTAATCCTGTTATTAAAAATTTATTTTTCTTTATGTATATTTCTTTTGTTATTCCATCCACAATAGATATATTTGTTCCATTATAAGCAGAATTCAATTTTTTGATATCATAATAATCCCAATTTCCATAAATTGCATAAACTGGTGCTATTTTATTTAGTTTTAAAAAAAATTTATGTATTGAATTTTCATCAGAGCTTTTTTTCAAAGTATCACCAGTGTATAAAATTATGTCAGGTTTTATTTTTTTTATCTTATTTAAAACAATATCATGAAAAAAATAATAATTAGTAATATGTAAATCGCTTATATCAACAATTTTTATATTTTCTTTAATATCTTTTTTTATAAAATTTATATTCTTTTTTACAACAATCAATGATGGCTCAATAAAAAAAACATAAAATACAATTAAAAAAAGAAATAATAAAATTTTTTTCATGTAAAAACCTCCAATTTTAGCTAAAATATTTGTCTTATCATAAATATTGTATATTCTTCTTTTAAATTATACAATAGTTTTATTTTTTAATTTACGTTAATTATGGTAAAATTATTATGAAGAAAGGTTAATTCTTTAAAAACAAAAGGGGGATGATTAAAATGGAGAACATTGTAAATGTTAATATTAATGGTGAATCAATCGCAATTTCAACACAAACACCCTTTCCACTAATGCTTTCAGAATATCTTTATGAAGGTGATTTTGACTTAATGATGGCAGATTTAAATAATAAAAAAGAATTTATAGAAGAATGCAAAAAAGTAAAATTTTTAATGGATAATCTTCCAGGATTAACTTCAAGTTTTATAACCACACCTTTTATCTTCAATAATTTCATTACTTATTTTGATGAATTTAATATAAAAGCTACTGATTTAAATCATGTTTCACTAAATGGCTTATTTGATATAGTACTCGATAGAGCCGATAGAAAAGATTTTGATTTAGTAAAAAAAATTATAGAATTCATGCTTAAAATAGATAAAAATTTTGCTCCAGCATATGAATTATATGGTTCTATATTAATAGAAGAGGGTGATTTTAATAAAGGTACAGAATATTTAGAAACATCTATAAAATTAGAACCTTGGAATGTAGCTGCATTATCAGAACTTGGTGAAACTTATTTTAATCTTGGCGAATATGATAATGCTGCCAAAATTTGGAAAAAAGAAATTAATTTATCTCCAGATAATTATGTAACTTATTTTATGTTAACCGATGCTTATATAGAAGCAAAGAAATTGACTAAAGCTGCACATGTTTTAGAAAAATTTTTAAATAGATTTCCAAAAAGTATTCTTGGAAAGTATGAACTTTCTGGACTTTATGAAAAACTTTCAAGAACACTTGAAGCAAGTGAATTAAAAGATGAAATTATGAAATCAGTACCTGTTTATTCAAGCGATATAGAAGTTTGGACAAAAATAATGTTTGAAAAAAATCAGTTTAAAAAAGTACAAGAATTTTTAGAAAAATATATTGAAAATAAAAAAGATCATGATCATTTTAAGTTATTATTAGTAGTTCCATACATAAAAAGTGGTAAAGTTGAAGAAGCAAAGAAAATTTATGATGAAATGAAAAATAAATATAAATGGTATTTGTATGGATTAAAAGAAATAATGGAAAAATATATCGATAAAAATTTATTGGAGGAAATGGAAACAAAATGAAAAAACTTTTATTAAATAAATTTATGTGGTGCCTTATTGGCACCACTATTTTTATAAACATCATTTTAACCTTAAATAACAAATGGTATGATATAATTGTATTAAATTCACTCTTATTTGCTGGTATTTATGATTTTTTTAAATTTATTATACCTGATACAACTATCTTAATAATTATAGGAGTATCAATTTTTAATTTTAATTTTTTATCTTTTATTTCATCAATAATTATGTTTTTTATAACCTTTTATTTTTGGAAAAATAAAAAAATGGGATTTGGTGATGTAAAATTATTAACTGCTATCTCATTATTTTATGGAAATAATTCATTTATAATTTTAATTCTTAGCATAATATCTGTCTTTATTATTAATATCAAAGAAAAAGAAAAAAAAGTTCCTTTTGGTTTTTATATTTTTATAGGAAGTATTATATTTTATCTTTACGAGGTGATAAAGTGTTTTTTTATAAAGTAATTGGTTCTTTTTTTGAAATTCCTGGTATTTTTGTCTTATTATGTATATTAATGTTTATATATTATTTAAAAAAAGAAAAAAAAATCAGAAAATTTTTATTATTTATTACACTAATAATATATATAATTTCATCTGGCTGGTTTTCAAAGATATTTATACCCATACTAGAAAATCAATATTCTCCATTTATATTTGAAGGAAAAAGTTTTGAAAATGAAAAAGGTTTAATAGTAATTTTAGGTGGTGGAGTTATTTCTAATACACCTAATAATAATCTTGGGGAGCTTTCTGATTCTTCTATGCAAAGAGTATATAATGGTTATTTAATGTATAAAAATCTAAACTTTCCAATAATAGTTACAGGAGGTACTCTTGATAAAACAGATAATATTCCTGAGGCTTTTAAAATGAAAGAAGTATTACTAAAAATGGGTGTAAAACCATCTGATGTTTATCTTGAAACTAGTGCAAGAAATACCTATGAAAATGCTAAATTTACATCAGAAATTGCAAAAAAATTAAATAAAGAAAAAATTTATCTTGTAACTTCAGCTATTCACATGAAAAGATCATATGAAATATTTAAAAAATATATAAATAAAAATACTAAATTAATTCCAGTTCCTGTAAATTATTTAGTTTCAAGAACATCAATAAATTGGTATGATTTTTTACCCAAAATAGATTCTTTAAAAGCTACTTCTTATGCATTTCATGAATTATTAGGTATTTTATTTGAAAAAATCTTTAGTTAATCACATTATTGACTTTTAAATAATTATATGTTATAATGAAGTTTAGTTTTAATTTCGGAGCGTGGCGCAGGTTGGTAGCGTGCTTGCATGGGGCGCAAGAGGGCGCTGGTTCGAGTCCAGTCGCTCCGACCAATATCAGAGAGAATTTTTTAGTTCTCTCTTTTTTTATGAGGTGACTTTATGAAAAAATTTTGTTTGATTCAATATCCACCAAAAGATTCCATGTCAAAAATAATTTTTAGTAATTATTTTAATAAACATAAATTACCATATATATATGAAGATATATCTATTCCTAAAAATTTATTTGAAAAAAATATAAATAAAATATTATTAACTTATGATGGAATAAACATAACTATTCCATACAAAGAAAAAATTATAAAATTTATTAAAATTAATGATAGCGCAAAAAAAATAGGAGCCGTTAATTGTATATATAAAAATATAGGATATAATACAGATTATTTAGGATTTATAAATTCTTTAAATAATTTAAATATGCCTAAAAATATAACATTGATAGGAGCTGGAGGTGTATCTAGAGCAATAATATTTGGACTATATAAAATCGGTGTTAAAAAAATCACTTTAATAAATAGAACTATTGAAAAAGCATTTAATTTAAAAAAAATTTTTAATTATATAGATATAGATGTAATGCCCTTAACTTCTTTAAATAAAATAATTAAAAAAACTGATTTTTTAATAAATGCAACTTCAATTGGAATGCAAGGAGAAACATTTAATTTAAAAAATAATTCAATAAAAATTTTTTACGATACAATTTATTATGAAACACCTCTACAAAAATTTTTTAAAAATCAAAACACTACAGTTATTAATGGTAAAAAAATGTGGTTTTATCAAGCTATTGAAAATTTAAAACTTTGGAATATATATGAAAAATCATTCTTTGACTTTTTTGATACATTATAATAACTTATTTTAATCTAAAGAAAATCTTTAATTAACTAAAAATAATATATAATGAGATGATCAATCTTAATTTTTTAAACAGTAACTGGAGGATATTTAATGATAAAAAAAATTAATATCATATTTTATATTTTAATTATATTATTTTTTATATTTTTTGAATTTTTAAATAAGCAAAATAGTTATATTTTATTTATTACTTCCCTAATTATGACTATTACAACTTTTTTATCTTTTTTTTATATTTATATCTTAACAAAAAAAATAAATAATAAAAATAAAAATTTAGAATTAAAAAATTTAAACAAAAAATTAAATGCTTCATTTTTAAAAATTAATAACCTTTCAAAAAAATTAAAACAATTAACTGAATTAACTCGAGATTTGGGAAATAATAATATGGAATTAGATGATTTTTGTAATGAACTTTTAGAAACAGCTCATAATTTTATTCCACAATCTAATTATGGATCAATTTCATTAATAAAAAATGGAGAATGGAACTTTATTTCTACAATAGGACACAATATAAACTTATTAAAAACTTTAAAATTTAATGTTTATGAAATTAATCCAAAAGAAGGTATTCAAATTATTAACATTAATAAGAGAAATAAAAATTTAAAAAAAGAAATAAAAGAAAAATTATTTTTAGCTACACAACCAACAAAAGAAACTCTTGCATCTTATATAAAATTAAATGAAACCTTAGCCTTGAATATATCATTAGATATTTCAAAAGAAAATAAATTAAATTTTGATGATACTTCAATAGAGTTAATGGAATCTTTTTCAAATATAACTAAATCATTTTTTAATCAAAAACTATCTCACGATAATATAAAAGAAGCTTATTATGAGTTTGCAAATAAACTTGCAATAATTTCGGAAGGATATGATGAAGATACTGGTAACCATGTAAAAAGAGTTAGTATTTTATCTGGATTCATAGCAGAAAAAATTGGACTAAATAGCAAAAAAGTAAATGATATCAAAAAATTTGCACAATTACATGATATAGGAAAAATATTTACACCAAAGGAAATATTGAATAAAAAAACATCTTTAACCCCTCAAGAATGGGAAGAATTAAAAAAACATACTATAAATTCAAAAAAACTTTTAAATGGCAAATATTTTAAAACAGCTTTAAACATAGCACTTTATCATCATGAAAAATATGATGGAACTGGATATCCATTTGGACTTTCTAAAAATTTAATACCAATTGAAGCACAAATTGTTGGTATTGTTGATGTATATGATGCCTTGCGTTCAAAACGTTCTTATAAAGAAGCATTTGATCATAATAAAGTTTTAAATATAATTTTAAAAGGAGATGGGAGAACTAATCCAAAACATTTTAATCCTGTCTTATTGAAAATTTTTACAAAATATGAAAGAAAAATAGAAGAACTCTACAATGAATTAAAATAGTATTAAATAGGAGTATTAAAAATGATATCAAAAAAAATTTTTCTTATTGGAATGATGGGATGTGGAAAAACGACTTTAGGAAAAAAATTAAGTAATATTTTAAATCTTCCTTTCATTGATATAGATAGTGAAATTGAAAAAAAAGAAAAAAAATCTATTGAAAACATTTTTAAAGAAAATGGTGAAACTTATTTTAGAACTCTTGAAAAAAAAACATTAAAAGAAATAAATTATTTTTATACTTCTGGAATAATTTCTACAGGTGGCGGAATCATTTTAGATGATGAAAATTTTAATATTTTAAAAAATGAATATACTATTTTTCTTTATGTTTCAATTTCAGAATTAAAAAAAAGATTAGAAAAAGATACTAAAAGACCTTTATTAAAAAATAAAAACATAATAAACATTTGGGAAGAAAGAAAAAGTTTATACAATTCATTTAAAAAAGTAAACTTATCGGGTTTAACTATAAATAGTTCGTTAGAGAAACTTTTAAAAGAAATAATCAATTGAATTCTATTTAATTGATTGTTTTTTTTTTATTTAATTAAGAGTTATAATTTAATATATCAAATTAAGGGAGGTACTAATATGAAAAAAATTCATAACCCAGAAGGAGTTCCACAACCAATTGGTCCTTATTCAATTTCAAATATTTTTGAAAACTTGATTTTTTTATCTGGTCAATTACCTGTAGAAAATGGTGAACTAATTAAAGGAGATATAAAAAAAGAAACAGAACTCATAATTAAAAATATAAAAACAATTTTAGAAACAGCTGGGAGCTCTTTAGATTGCGTATTAAAAACAACTGTTTTCTTAAAAAATATGGATGATTTTGGAGATATGAATGAAATTTATGGCAAATACTTTAAAAATAATCCACCAGCACGTTCTGCAATACAAGTTGCTAAATTACCAAAAGATTCAGATATTGAAATTGAATTAATTGCATATAAAAAATAAAGAGGCTAAGCCTCTTTATTTTTTATATTGGAGTTATTTTTTCTTTATTTTTAGAAGGAATAGTTCCAATTATTAATGAAATAATCATTATAGATGCGCCAAGAAATTGTTTGACACTTAATGTTTCTTTTAATATTAAAAATGCAAAAAAAGCTGCAAATATTGGTTCTCCTATAAAAACAAATGCAGACATATTATTACCCAAAATTTTTTGATATTTAGATTGAAATAAAGTAGCAATTATAGTTGAAAAAACTGCCGTATATATAACAACTAAAATTAATGGAATTGATACTTTTCCACCTGGAGAAGTAAATGCTAAGGCTGTATTCATTATTGCAACAGCAATAAATTGATAAGATAATAATGATGATTCTGGTACTATTTTTGAATATTTAGTAATATATACAACAGACAAAGCATAAAATACTGCACATAAGACTGTTAAAATATCTCCAACATTAAAACCTTTAACTCCGCCTGATAAAAAATATGAACCTAATATAGATATTGGAAAAGCTATTATTTGCATTAAAGTTGGTTTCTCTTTTTCAATTAAATAAGCAAATACTGGAACTAACACTATATATAAAGAAGTTATAAATCCACTTTTTGAAGCTGTAGTAAGTGTTAATCCAATTGTTTGAGTTATTTGTCCAAGAGAAATAAAAATTCCTATTATTAAACCATACTTTAAAGAATGTTTCTTCCATAAAAACATAGATAATATTCCTGCAAGCCAAAACCTAAGTGATAAGTATAAATAAACAGATTCACCATTAACTGCCATTTTTATAAAAGGAAATGTAGAACCCCAAAGAAACGTAACCATCAACAATGCAAAAAAAGCTCTTACCACTTAAATTCCTCCTTAAATTTTTTCTTTTAAATATTCTAGTGCTAATAAATACCCCTTAAATCCCAATCCAGTTATTTTTCCATTACATACTTCAGAAATTACGGAATTTTTTCTAAACTCTTCTCTTACATAAATATTTGATATATGAACTTCTATTTTTGGAATACTTAATATTTCAAGAGCATCTCTTATTGCATAACTATAATGTGTATATGCTCCTGGATTTATTATTAATCCATCATAATTTAATTGATGTATTCTATCTATAATTTTTCCCTCTATATTAGATTGAAATATTTCAATATCTATTTTATTAATTTCAGACCACTCATTCAGCAATTCTTTTAAGTCATCGTAACTTCCATCACCGTATACACTTATTGGTCTTCTTCCTAACATATTTAAATTTGGACCATTAATAATTAATATCATTTTTATTCTCCTTAATTTTTAAATATTTGATTATATATACTTTCTATTTCTTTTTCATAATTAATAAAAATTTTTAATATTTCTGGATTAAAATGACTTGGTTGAGTTCTTCCATCTCCATTTACTAATATTTGAAAGGTTTTTTCGTGAGAAAAAGCTTCTTTATAAGGACGATTTGATCTAAGAGCATCATAAACATCAACAATAGAAACTATTTGAGCTTCTATGGGAATATTATCCCCAATAAGATTAAATGGATAACCCGTTCCATCGTATTTTTCATGATGATACAACGCTATATTCAATGCAACTTTAAAATATTCATTGTCTTCTAATAATTTTCTTGCATAAAGAGTATGTTTTTTCATTTTATTCCATTCTTCATCACTTAATTTTCCTTTTTTATTTAAAATATTTAATGGAATAAAAATTTTTCCAACATCGTGCAATGGAGAAAAATTTCTTATTTTTATTACCATTTCTTCATTAAGATTCATTTTTTTTGCTATAAATTCTGATAAAATTCCAACTCGTTCTATATGGTTTCCAGTTATTTCATCATGAGCTTCTGCAACCATGGCAAGTTTATTTGCAAAATTTACATAAGATTTTTTAAAATTATTTTCATATTTTTTTTGTTTTAATATTGTTTCTGAAAGAGTTTTAAATGCTTTGGCTATTTCTATATCTTCATTTGTAAATTTTTTTTCTTTATTATCAAAAGATATACCAGCAATCTTTTCTCCATTTACTATTAATGGAATTAAAAGTGTATATCTACTTTTTTTTATTCCTTTTTTTAATTTTTCTAAAGTACTTTTTGGTATCTCAGTATTATATCTTTCTATATTTTCAACAACTTCAACATTGTAAACATCAAATACATATTTTTTATCTAAATCAAGTGTTTTCAAAATCCCTATATCATGACCTATTGCATCTACAAATATCCATTTATTTCCTACAAATTTATAAACACTTCCATAATCAGAATTTATAACATTAATAGATATTTTTAACATTTCTGATAATAAAAAATCATTTTCTCTTTTTAAAAAATCTGATATTTTAGAATTAATTTCTAATAACTTTTTAAATCTTTTATGTTCAAATTCTTCACTTTTTAAACTTATATCTAAAATATTATTTAGAGAAGTTATTTCATTATACTTTTCTTCTAACTTTTTTTTGCTTTTTTCCATTTCATTGTACATATTTTCAAGTTCTAAATTATTACTTTTTAATTGTTCATTTTGAGCTTGCATTTCTTCATATGAAGCCTCTATTTCTTCTTTTTGATCTTTTATCTTTTTAGTTTTTTTGGAAACAATTTTTTTTAATAAATATACTATAAAAAATAATATAAAGATAATCATAACTGAGCTAATGATAATTATATAAATCCACATTGGTACTTTGTTTTTTGCATTTTTTTGTAAATATTTATCTAAAATACTATAATATATTGAATTTGAATCATATTTCATTTTTTTTAAATACATATCTATTGTATTAATTATAGAATTATCTACATTCTTAGAAAATATAAAAAATAGTTCTATAGGATAAAACATAAGTGTTGTATCTTTTATATTATATTTTTTTTCATTCATTAATCCATAAATCCTTGGAACTATTCCTATATCAATTATATTTTTAGATAAAGCTATCATTATTTCATCATAAGTATCATACTCAATATAATTACATTTAATTCCAAAACCATTTAATAAATTTTTTATTCCATTTTTTCCTTCATAAAATATATCACTCTTCATTACACCAACACTTTTATTTGAAAACTCTTTAAATGAAGTTATATCTTCTTTATAATTAGTATAAACTTCCCCCCAATCAGATATTATTGGAATAGTATTATAATTAAAAATTTTGCTTCTTTCTAAAGAATAACCAAATGCAAAAGCTATATCTAAATTTCCATCTTCTAATTCTTTCATAATATTTTTTTGAGGTTTAATTGTATAATTTATATTCCAATGTTCTTTTTCTGATATAAAATTCAATATATCTGAAAAAATTCCTTTTACATTATTATCTTTAGTAAATGAAATTGGATAATTTTCATATGTCCCTACATTTAAATTATAAGAAAAAACCCTTATAAAAATAAATAAAATAAATATTCCAATAGAAATTTTCTTCATTATTTTCACCAACTTTTAATTTATATAATTATATAATATAACTTTTATTATATTATATCAAAAAAATATTAAAAATTTAATCTTTTTTTCACTTCAAAATTTAATTAAAGTTTGATATAATATAATATAATTAAAAAAATACGAGGTGTTTAACTTGGAATTAAAATGGTGGATGTTTTTAATAGTGGGTTTAATGACTTCTTTTTTGTTTTTTCCTGATATAACTGGGAAAACTACTTATCCAACAACTTTATACAATTATCATGAAAATTTACAAATCTTTTCAAATAATGTAGAAATATCATTTGATAGTAGTACGGATAAACTTTATTTACCCAAAAATTTAATTATAAAAAAAATAAATAACACATTAAGTATAAGTACTCCACTTAATACAAAGCAAACCTATAAAATAATTATAGGAAGCAAAAGATCTTTTAAAAAAATACAAATAAATTCTGGCAAAATAAATATAAATGGGACCTTAAAATCAAATAGTTTTAAGTTAATTGGATCTGGAATAGAATTAAATACAAAATTTTATGGAAAATCGTTGTATATTAATGGTGCTGACGTTAAAATTTTAGGAAATTACTTTTGTAATGAACTTCAAATAAATGCTACATCAATAAAAAGTAATGTGTCTTTAAATATTAAATCTATAAACATTAATTCATTTGACTTTTCTGGTACCATTAAATATTCTAAAATAAATACTAATAGTCAATTAAAAATTTCTTCAAAAGGATATTTAAATATTTTTATTCCCAAGAATTCTAATAATCTTCTTAAAATTACTAAAAATAAAATTATAATAAATACAAAAAAATATTAAAAAATACGGATGTTATCCGTATTTTTTAATATTTCACAACAAATTCATTAATATTATTTTCTAATTTATCCAAAATTTTTTCTTCTATATCTTCAACTCTGCTAAATCCGTTTCCTTTAATAACAAAAGCTTTAAATGAACTTAAATTTTTTTCATCTGATTTAGCTAAAATTTCAACACTTCCATCCGGAAGATTTTTTACATATCCACTTATATTTAATTTTAAAGCTATATTTTTTATAAAATATCTGTACCCCACCCCTTGAACTCTACCATAAACTTTTAATTTTAAAATCATTCAAATCCTCCTAATGAAGAACCAGGTTCTTTTACTTTCTTTACTTTTATAAACATTTCATTTAAATTTTTTGAAAATATATATTCTGTTTCAAATCCCATTTCTTTAAATTTTTCAATTATTTGAAACAGATCTCCAGCATCTATATCAAAATTTTTTTCATCCAAAGATATATCATTATTTTTTATTAAAAATCCTTTTTCTTCTTCTAATACACTCATTAAAGTCTTTTTTAATTTTTCATCTAAATACAATTCTTGTATGGGAACTTTACCTTTTCCACTTATATAACTTTTATAAGCATCCACTATTTGTTTTAATTCTATTATTTCTTGTAATTCTTTTGTAAAGTTATCCATACTTTTTTCACCTCCTTATTTTTTATTATACATGATTTATTAAAAAAAATCAACTTAATTTTAATATTTGAATATAAAAATACATATTCATTCACACAAAAACAAAATTTACCGATATAAAATAATAAAAAATTACTAATTTGTAAAAAAATAATATAAAATTAAATTTCTTAATATTTCTTAAAAAATATTAAGAAATAAATAAAAAATTAAAATTATACTATAAGTGTATTTGAAATACAATCAAAAAATGGAGGGAAAAAAATGAAAAAAACTTTTTTAATCATTTTATTAGCATTAACTATTTCTACCCTTTTTTCAAAAACATTAATTATTAAAGGTTCTAACACAGTTTTTCCAATTGCTCAACTTTGGATTGAAGAATTAAAAAAAGAAAACTCAAATTTCACAGCAACTCTCGAAGGTGCAGGATCATCAACAGGAATTGCAGCTCTTTTTAATGGAACAACAGATATTGCCGATTCTTCTAGATGGTTAAAAAATAAAGAAATAAAGAAAATGCAAGATGAAGATAAATATTTTATTCCAATAGTAGTTGGTTATGATGGTATAGCTATCATTACAAATCCTAAATTAAATATAAATAATTTAAGTAAGGGCACCTTAAAAAAAATTTATACAGGAAAAATAATCATGTGGAATCAAGTTAATCCAAACTTACCTAAAAAAAGAATAGTAATTTATTCAAGAAATACAGCTTCAGGAACTTATGAAACTTTTGAAAAAAAAGTTTTAGATAGCGAAAGACTTGCACCTTGGGTCAAAATGGTTGAATCAACTCAATTTGAAATTGATTCTGTTGCAACTAACCCTTATGCAATTGCTTATGTTGGAGTAGGATACGTAACAGATAAAGTAAAAGTTGTAACTGTAGAAAATATAATTCCTTCAAAGATAAATATATTAACTTCAAAATATCCAATTTCAAGACCATTATATGTATTCATAGATGCATCAAAAGGTTATCCAGAAACAGGTATTATAAAAGAATATATAACCTTTGGACTTTCAAAAAAAGGTCAAGAATTAGTTGAAAAAGCTGGTTATGTAGCTGCATACGGTTTTTAAAAAGGGGTTGTAACTATTGTATAGAGAATTAAAGCATAGAATAAATACGTTTTTTATATATACTTTTGCACTCACTGGTATTATAATGTTAATTTCAATATTTATTTTCATAGTTAAAGAATCTTTACCCGCTCTGAAAAATTTTGGAGCGGACCTTTTCCTAAACTTTGACTGGTATCCAACAAGCGATCCAGCATCTTATGGACTCTTAACTATGTTGTTTGATTCTTTAATTATAACATTTTTATCTTCTGTAATAGTTCTACCTTTGGGATACATTATAGCTTTTTTTATGAACAATTATTCCAAAAATAATGAAAAGAAAATATTAAAATACTCTGTTGAACTATTATCAGGAGTTCCATCAGTAATAATAGGTATGTTTTTGTTGATTTATATTTCTCCATGGATGCTAAATATAGGTGCATGGTCTCAAGAAAATTTATTGCTTGGTAGTGTTGGTCTTGTAATTATTTCACTTCCATATACATCTTCTTTAATGGAAGAAGCCATGGATTCTGTTGATAAATCCTTAAAAGAAAGTTCATTGGCATTAGGAGCAACAAAATTTACAACTGGATTTAAAATCATTTCAAGAGCTTCAATGAGTGGAATATTAAATTCCTCTATATTAACTATAAATAGAATAATTGGAGAAACAATGATAGTTTTAATGGCTGCTGGTGGAGCTAATATGATTCCAACTAATATTTTAGATCCAGTCAGAACTTTAACTGCAGCAATTGCAAGTGAAATGGGAGAAGTTGAACTTGGAAGCATTCATTATTCTTCCTTATTTGTTGCTGGATTAATTTTACTAATAATTTCTATTATTTTGACAACTATTTCAAAGAAAATATCAAGGAGTTTTAAAGTATGAAAAAAGACCTTATAATTTCAATAATATTTAGAGTAATAAGTTACTTTGTGTTTTCTGTAATACTCTCTTTATTTACAGTAATTATTTTCAGTGGAATTAAAAATTTTTCACTCGATTTTTTCTTTCAATTTCCAAAAGATATGATGACAGCTGGAGGAATTTTCCCTGCTATTTTAGGAAGTTTTTTGCTTTTAATACTAACTTTGATAATATCCATTCCAATAGGTATATTAACAGGGATTTTTTTATCTGAATACGGAAACAATATACTCGGAAGTTTTTTAGATATTTCAATTACTTCATTATCTGGTGTTCCATCTATTGTCTTTGGACTTTTTGGATTATCATTTTTTTCAATTGGATTGAATTTAAAAACTTCTATAATTTCAGGAAGTTTAACACTTGCCGTTATGACACTTCCTATAATAGCTTCAACAGTAAAGGAAGCTATATCTTCCGTTCCTAATTTTTTAAGAGAGTCTTCAATGGCGCTTGGCGCAAAGAAAACAGAAACTATTTTTAAGGTAATTGTTCCTGCTGCTAAAACAAGAATAACAACTTCTGTATTAATTGGTTCTGGAAAAATAATAGGTGAAACAGCACCAATTTTATTAACAGGAGCTGTGTTTTATTCAACTCGATTACCTCATTCTTTAAAAGAACCAGTAATGACTTTAACAACTCATATATATAATATTTCAATGGCATATGGTGAAAATGCTCAATGGATGGCAAAATCAACTGCTTCATTTTTAATGCTTTTTATTCTTTTAATATATGGAATTGCATTTAACTTAAGGAGGAAAATGAATGGAAAACATAATAACTTTTAAAAATTTTAATAGTTTTTATGGAAATAAACAAGTTTTAAAAGATATAAATATAAACTTTAAAAGAAATAAAATAAGTGCAATAATTGGTCCATCTGGATGTGGAAAATCTACTCTTTTAAGAAGCATTAATAGAATGAATGATGAAGTTTCTTCTTATAAAACAACCGGAGAATTAATTTATGAAAATAAAAGCATATATGATAAAAATTTAGATTTAACGATATTTAGAAAAAAAGTTGGAATGGTCTTTCAAAAACCAGTTCCTTTTCCAATGTCAATATATGAAAATGTTTCTTTTGGATTAAAAATTCATGGAATAAAAGATAAAAGAAAAATTGATAAAATTGTTGAAAAATCTTTAAAAGGAGCTGCACTTTGGAATGAAGTTAAAGATGAATTGAATAAATCTGCTTATTCTTTATCTGGTGGACAACAACAAAGGCTTTGTATAGCAAGAGCAATTGCCATTGATCCAGAAGTAATACTCTTAGATGAACCTACTTCGGCTTTAGATCCAATTGCCACTCAAAAAATAGAAAGATTAATAGAAGAGCTTTCCGAAAGATATACTATAATAATAGTAACTCATAATTTAGCTCAAGCAATAAGAATTTCTAATTATATGTATTTTATGTATCAAGGAGAGTTAATTGAATCTGGTTTAACTTCAAATATAATAAAAGCTCCTAAAATAAAATTGACAGAAGATTATTTAAACGGTAGAATAGGATAGAGGTGATAAAATGACAGAGTTACATCATTTTGAAAATGAATTATTAATGCTAAAAGCAGATATATCAAAAATGTTATCTTTAGTACTTGAATCATATGAAATGTCTATTGAATCCTTAGAAACTTATAATATAAAATTAGCTAAAAGAGTACTTTTATTAGATGATAACATAGATGATTTAAACAGAAATATTGAAGAATCAGTATATCAAATAATTGCAAGATACAATCCTCTTGCAAAAAATTTAAGATACGCAATGACTATGGCAAAATTTTCAAGTAATTTAGAAAGAATAGGTGATTTATCCTGTAATATTGCTCAAAAAACTATAAAATTTTCAAATGAAAACATAAAATGTGAACTAACTGAAGAAATTAGAAAAATAATAGGAATTTCTTTACAAATGATAAAAGATACATTTAAAGCTTTTGGAGAAAAAAATATTGAACTTGCAATAAAAACATGGAAAACAGATAATAAAATAGATGATTTGGAAAAACTAATTTATAATGATGTTTTTAAAAAAATAAAGTCAAAAGAATTAAATGAAGAATTAATTGTTCCATTTATATTAATAACTAGAGATATTGAAAGAATCGCTGATCATTGCACAAATTTGTGTGAAGAAATTGTTTATATAGAAACAAGTAAAGAACTTACAACATTTCTATAAAGGAGGAATTTAATGGCATCAATTTTAATAGTAGAAGATGATAAGGATATAAGAGATATTTTAAAAACATATTTAAAAATTGAAAATTATGATATATATGAGTCTGAAACTATATTAGATGCAAAAAACATTATAAATAAAAATAATATAGATATTATTCTATTAGATATAATGCTTCCAGACGGAGAATCAATTGATGATCTTCCAAATATTAGATCTAAAAATCCAGATACTGGAATCATTATTATATCTGCTAAAAATACTGATAGAGATAAAATTTTTGGAATTGAATTAGGAGCTGATGATTATATAACAAAGCCATTTAATCCTCGTGAAGTAATTGCTAGAACAAGATCTCTTTTAAAAAGATTGAAAAAACATGATGTAATATTAAAATATAAAAATTTAGAACTCTTACCAGACAGTTTTTCAGTAAAAAAAAATAATTTATTAATAGAACTGACTTCAAAAGAATTTGAAATTCTATATCTTTTATCTAGTAATCCAGAAAAAATTTTCTCAAGAAATAATATAATAGAAAAAGTATGGTATGGTGATGAATATATAACGGATAGAGTTATCGACGTTCATATAAGTATGATAAGATCAAAAATAGGAAAATCTTGGATAAAAACAGTGCGAAATATTGGATATAAATTCAATAAAAATGGAGAATAAAATGGAATATTTAAACTATATATCAGAAGGATTTATAAAAATAAAAAATATAAAAGTACTATTTGCAAATAAAAATGCACAAGATTTAGGATTCTATAAAAATAAAAATTTATTGAGCATTTTTACTTTTAATTCTATTGATGAACTTATGAAAAGTATATTAAATAATCAAAAATTTGAATGTGAAACAACTATTCACTTTTTTAATGGAAAAAATAAATTTTGTAAAATATTTTATATTCCAAATGATACTATTATAATAAAAGATAAGACTGAGTCTGAAATTATAAAAAAAGTAAAAGCTGATTTTATTTCTTCAATATCTCATGAAATAAGAACACCTTTAACAGTTGCTAAGGGAAACACTCAAATATTACTTGATTTTTTAGATAATAAAAAATTCGAAAGCAATATAAAAACAATTAATAAAGCTTTATCAAAAATAGAAAGAATCATTGAACAATTGACATTATTATCTATGGCTGAATTTGGTAATTATACTTTAAAAACACAAATATTTTCACCTAATGAAGTATATGAAGATGTTATAAATGATTTAGAGAAAAAAATAAAAGAAAAAAATATAAAATTAATTTATGTATGTAATACAGAAATTTTAAATGGAGATAAATTTATAATCTATACATTAATAAGAAACTTAGTTTCAAATGCAATAAAATATTCTTTTAAAAACTCTAGCATAAAAGTAGAAATTAAATCAAATAAAATAATAGTCTCTGACACAGGAATTGGAATTAAAGACAATGAAAAAAATAGAATTTTTGAAAGATTTTATAGAGGAAGTGAAGCTTCAAAAATTGCCAAAGGATCAGGTTTAGGTTTATCTATAGTAAAATATTTATGTGAACTTTCTAATTACAAAATAAAATTTGATTCAAAATGGAATGTTGGAAGTATTTTTGAAATTTATCTAAAAAAACAGGATAAAATCTAATATTTTATTATATTTTATCCTGTTTTATTTTATAAAAAATTATAGTATTTAAAAAAAGATATAAAAATCAATGAATCAACTGTCGATAAAATATACAATATAATACCCATAAAAGTTAAATAATTTTTTTTCAAAGATATAATAGTAAATACAAATTGAAAAAAAGATATAATTAAAACTAAAAATGGTATAAGAGATGCAAATCCATTTAATCCACTTACAAAATAATTAGTCTTAAAAAATTCTACGGTAAAAAATAGTATAAATATACATTCAATAAAAATAATACTATCAAATATAATTTCAAAATTTAATTCATTTATATGCTTTAAATTTTTAATATATTTAAATATTAAAAATATTAATATTAATATTAATATTATTTCACCTATTAATGTTCCAAAATTATAATAATCTGGATTTTCATACCATTTTAATTTTTTATATATTTTATCTTTTAAATATAATATCTTACTATTTTTTTCGTTTGATATTTTTATAATACTTTTTTTATCTAAATTAAAAAAAGTATTATTATTATCTAAGCTTAAATAATCATATACTTTATTTTGATTTAAAATACGTAACTTGTTATCTCTTAATTTTTTTAAAACTACTTTGTTGTTACCATTATTCAAATAATAAAATTTTTCTGAAGTTTTATTTGGAATATTTAAATTTAAATATGTTCCAATTATATCATTTTCAAAAGGCATTTTCTTTATTTCAACTGGTTTTAAATAAACAAAATTTTCTACTATAAAATCTAAAAAATCATCATATAGTTCAGGCATATTTTTATTATAAAAAAGACTAAATCCAATATTTTTTGAAGGAATAACAATTAACGATGATGAAAAGCCTTTTGAACTACTATTTAAATAATAAAATTTTATCTCATTTATCTTTCTTTCATTTAATGCAAACGTTCTAACAAAAGAATATTCATTTATTTTTTCACTAAAAAAATTTTTAATAATATCAAACTTTAACTTTTTAGGATTCAATATCTCAATTAGAAACTTATTAAAATCATTAATAGTTGTATAACCTTTATTAAAATACATAAATGAATTTTTTTCGTTGATTAAACTTTTATTATTTCTATCATATCCAATAGCTTTATTTGCTCTTACATATAAAGGAAGTGGATAATCATAAAAAGTATTTTCCATATTCAACTTACTAAATATTTCTTTATTTAAAATTTGAATATAATTTTCTTTCATCAAATAACTTATTAAATATTCACTAAGTGCCTTATCATAAAAAGTAGGCAATACAAATTTGCTAGAAGAATATAATTTTTTAGGTTTATATTCAATTAAAAAATTTTTTAAATTTATTTTTTTATCTATTCCAATTTTAGAAAAATCATATCCAGTTGTATGAGTTAAAAGATTAAATAAACTTACTTCATTATTAATATCAGAATAATCTTTTATAGGAATATTTAAATCAACTTTTCCATCTTCTTTTAATTTAAGAAATAAATAACTATTAAAAATTTCTGTTAAATCATTTAATTTAAATAATGTTTCTTCTGAATTTATTTTTATATTACTTTCTAAATTTGAAAAGCCATAACTATATGTATCTTTTACTTTTCCATTTCTCACATAAGAACAAACTAAACCAGGAACATTATATTCATTAATTTTATTTTTCAAAAAAGCACCCAATCTATATTCAAATGAATCTTTAAAAGAAAAAATTAAAACAGGAAACACGAGTATTATTAAGAATAAGAGCAATATTTTTTTCATAATGTCCTCCATTAACAAAAGAATAATATTTAATTTTAATCATGCTTAATTATAACATAATTTTAAAAAATAAAAAAGAAGGAATTAAATTCCTTCTTTAAATAAATTATTGATTACTTCTTTTACAGTAGTTATTTTATTTATCTTATAACCATTTGCACCAGAAAACGCAAATCCATTTTCTAAATCACCTCTTGCAGCATTCATCAATGCTTCTGCTATACAATAAGGCGCTTCCTTAAAATTACATGTCTTTATACAATGATATGCGCATTTAAATGGTTTTTTCATTCCATTTTCCACATCTTCTAAAAACTTATTTTTTACTGCCCTTCCAGGAAGTCCAACAGGACTTTTTATTATTGTAATATCTTCCTTTTTTGAATTAATAATTGTTTCTTTAAATTTTATATCTGCATCACATTCTTTAGTCGTAATAAATGGTGTTCCCACTTGAATTCCACTTGCACCTAATTTAAAAAATTTTTTTACTTGATCAGAAGTATCAATTCCACCTGCCGCAATAACTGGAACTATTTTTCCATATTTCTCTTCTATTTCTTTTGAAAATAACACAACATCTTCTATGCTTTTTTCAAGTGCATATTCTGGATTTTCTAAGTCTTCTTTATTATATCCCAAATGCCCACCAGCTTTTGGACCTTCTACTATAAAAGCATCTGGTATATAATTATACTTTTTTAGCCATCTTTTAAAAATTACCCGGGCTGCTTTTACTGATGAAACTACTGGAATTAACTTTGTCTTTGTTCCTTCTTCTAAAAAAGAGGGTAATTGTAATGGTAATCCTGCACCCGAAATTATAACATCTACTTTTTCTTTTATTGCAGTTTTAACCATATCAGCATAATCAGTTAGCGCTACCATTATATTAACACCAATAATTCCATTAGTTTTTTCTTTAGCACTTCTTATTACTTTTTTTAAACTTTCAATATTTGCTTCTTTAAATTTTTTTTGGTATCCATCAATAAGCATACCAATACCTGCAGTACCAATAATTCCAATACCGCCTTCATTTGCTACTGCTGCAGCTAAATTATCTAAAGAAACACCTACTGCCATTCCACCTTGTATTAACGGTATTTTTGGTACAAGACCTCCTATATTTAGCTTTATAACAATCACACTCCTTTTATTTTTAAGCCAAATAAAGGAATTCCCTACTCTCTCCAATCTTATTATATCAAAATATTTAATTATTTCAAAACATTATTTTTTTCTTTTTGATAGTGCAATACTCAATGCTGTTGTAAGCTTCAATATATTATCATTCATTCCAACAATTCTATTTGAAAGGACCTTTGCAATTTTTTCCATAATTGAATATGCTATTATAGGATTCCTTTTTGCAAATCTTTCAAAATCATTCTTTTCTATTTTGTATAAGGTACAATCAGTTATTGCTTTTATTGTTGCCGATCTTGGAGCACCTGTTAATAATGACATTTCACCAAAAAATCCTATTGTACTTCCATCCAATATTGCCATAGATTTTTCAGCTTCTCCCCAAGAACTTCCTAACTTTAAAGTTATTTGATGACTTATTTGTACTTTTCCTTCTTTAAAAACAAACATTGTATCTCCTATTTCTCCTTCATTAATTATTATTTCTCCAGTTTTATATTTTATAATTTTTAAAATAGAAATTATTTTTTTTATTTCATCTTCTCTTAAATCATTAAATATAGAAATGTTTTTTAAAAAATCAATATCTTTATCCTTCATATTTTCACCTCTAATCTATTACAAAACATGAGGTATCCTTTTTAGTAATTACATAATCATCTTTTAAATTTATTATAACTTCATATTCTTCTTTAGTATCTTCAAAAAAATTTTCATCTGCTTCTTCAAATTTATTTTTTATAAATTTATCTATTGCACTATCATTTGATAATAAATCATCTATTGTTAAACCTTTTTTTATTCTCAATATTCCTATAATTAATTTCCCTTGTTTTTCCTTATAAAATTGAAATAAAGAATTAAAATTTTCTCCAATAAAATTTTTAGGAATACTTTCAAGTTTAATTTTTGAGTTTAATAATTCTTTAAATAACTTAGGATATGATGGAGAATAAATTAAACTTCCTAAAAATACATGATTTAATTCTCCATTTATTACTACATCATCAGCTCCAGCATTTAAAACAACTTTTGCTTTTTTTTCTTTAACTACTTCTGCATATATTTTAGTATTTCTATTTAATGCTCTTATATTTATAATAGATAGTAAAGTTTTTTCATCACATTTATCCATAGATTTATCATTGTATGTATCTGCTAAAAGTATTACATATTTGCAATTTTTAATATTTGCCCTTTTTAAAACATTTTCTTTAGTAAAATCTCCTTTTATAAACTTTAATTTAATATCTATAAATTTATATTTTAATTCTTCAAATTCTGTTTCAGTCATATCATTTACTATAACAATATTAAAGTTTTTCCCTGCAAATTCTCCTAAAGATTTAATAACTCTTTCTAAATGTTGATTCCACCCTAATATTGTTACGTGTCCACTAAAATTCACCTTTCCTAACCCCTTTCTTTCTTTAAGTCTTAATTCAACCAATATTGAAGCAACTGTACCACTCAATATTGATACTAATACAACACCTATTAAAATAATTATTATGCTTATTACTTTTCCCATTACTGTTTTTGGAACAATATCTCCATACCCAACGGTAGTAACTGTTATAAAAAACCACCATATAGAATCAAAAAAACTTTTTATTTCTGGATTTTTATTTACTTCTATTAAATAAATTATATAAACAGTTAATGCTAATCCACCAAAAATAATTAAAAGAATTTTATTTACTGGTTCACTTAAAAATGTTTTTAAATAAAATTTAATTTTTCTATAATATTCTTTAATTTTTTTCATAAAATCACCTTCAAAAATTTTTGTTCTTATTATATAATACTATTATAACATATTATTTATATACATATTAAATACTTTTATTATTTTCAATTGTAAATTTATTGAAATATAGGCTTTTAGATAAAATGTTAAAATAGTCTAGATTTAAAAAATAGGAGGATTACATTATGAAAGAAAAATTTTGTTCTTTTTGTGGAAAACCATCAACCGAAACAGAAGCATTAATAGCTGGTCCAAATGGTATATATATATGTGATGAATGTGTTACATTATTTGATGATTTAATTGAAGAATCAAAAACTAAAAAAATGTTTGAAAAAGGTAATACTACAAAAAAATTACCAAAACCTAGTGAAATAAAAAGTGAATTAGATAAATATGTAATGGGTCAAGAAAGTGTCAAAAAAATAATTTCTGTTGCAGTATATAATCATTATAAAAGAATTTTTTCAAGTAAAAAAATAGAAGATATTGAATTAGAAAAATCTAATGTATTAATGATTGGTCCTACTGGAACAGGAAAAACATTAATTGCAAAAACTTTAGCAAGAATTTTAGATGTTCCATTTGCTATTGCAGATGCTACTTCACTAACAGAAGCTGGATACGTTGGAGAAGATGTTGAAAATGTTTTAGTAAGATTATTACAAGAATGCAATTACGATGTATCAAAAGCTGAAAAAGGAATTATATACATCGATGAAATTGATAAAATTGCAAAAAAATCTCAAAATGTTTCTATAACAAGAGATGTTTCTGGTGAAGGAGTACAACAGGCATTGCTAAAAATAATAGAAGGTACTCTTGCTAATGTTCCACCACAAGGTGGAAGAAAACATCCAAATCAACAATTTTTAAAAATTGATACCTCTAATATACTATTTATTGCAGGAGGAGCATTTGATGGACTTGTAGATATAATAAAACAAAGGACTCAAAAATCTTCTATGGGATTTGAAGCTCAAATAAAAGAAAAATCTAAAGAAAGACCTGGAGAAGTTTTAAAACACATTTCTTCTGATGATTTAGTTCATTATGGATTAATTCCAGAATTTATAGGAAGGCTACCTGTAATAACAACATTATATGATTTGAATGAAGAAGATTTAGTTAAAATAATGACTAAACCAAAAAATGCAATACTTAAACAATATGAAAAAATTTTAGAATTAGATGAAATAAAATTAAAAATTACTGAAAAAGCTAAATTAGAAATTGCAAAAAAAGCCTTAAAAGAAGGAACTGGTGCAAGAGCTTTAAAAAGTATTTTTGAAACTGCAATGTTAGATATAATGTTTGAAGCTCCTGATTTAACAGGAAAAATTTCTGAAATTATAATAGACGAGAATGTAATTTTAAAAAATGAACCAGCAAAATATATTGAAATAAAGTCAGCGTAGGTGAATGATATGGAACCTATAATATTAGGAATAGAAACTTCTTGTGATGAAACATCTGTTTGTTTACTAAAAGGAAAAGATAAAATATTATCAAATATAGTTGTATCTCAAATAGATATCCATAAAGTTTTTGGTGGTGTTGTTCCCGAAGTTGCCGCAAGAAAACATATAGATTTTATGTATAAAATTACAAAACAAGCTTTTAAAGAAGCAGAAATAACTACTGAAGACATAAATGCAATTGCTGTAACTTATGGGCCTGGACTAGTTGGAGCTTTATTAATAGGTTTAAACTTTGCAAAAGCTTTATCTATTTCATTAAATAAGCCACTTATAAAAGTTAATCATTTAATGGGACATATATATGCAAATTTTATTGAATATCCAAATTTAAAGCCACCTTTTATTGTATTGCTTGTATCTGGTGGTCATACAATGATATTAAAAGCAAATGACTATATGGACTTTGAAATAATTGGACAAACACGCGACGATGCAGCTGGTGAAGCTTTTGATAAAGTTTCAAGAATGCTTGACTTTGGATATCCTGGTGGACCTATAATTGATTCATATGCAAAAAAAGGAAAAGATATTTATAAATTTCCAAAACCATTATACAATAATGGCTATGACTTTTCTTTTTCAGGGTTAAAAACATCAGTTCTTTATTTTATGAAAGATAATCCAAATGCAAAAAAAGAAGATATAGCAGCTTCATTTCAAAATGCATTAGTTGATACTTTAGTACATAAAGTTACAAAATATGCTATAAAAAATAAAATTAATGATATTGTAATTGCAGGAGGTGTTGCTGCAAATTCTTCATTAAGAAAAAAATTATCGGAATTTTCTAGTAAATTAAATATTTATTATCCATCAATTGAAATTTGTACAGATAATGCTGCAATGATAGCAAGAGCTGGATATGAGAAATATATCAGAAATATTTTTTCTGATTTAAATGTTGATGCTGCACCAAATTTATCTTTAAAGGAGTTATAAATGTTGTTTTTAGATAAAAAAATTATATTAGCTCCTATGGCTGATTACAGTGATTTTCCATTTAGAGAAATTTGTAGAAAACATGGAGCTAATTTTACTTATACTGAAATGATTTCAGCAGATGCTATTTATAAAAATATAAAAAAATCATTTGAATATTTACCTATGAAAAAAGAAAAAAATATTGGTATACAACTTTTTGGAAGTTCTGTAATATCTATAACAGAAGCTGCAAAAATAATTGAAGATAGAGGAGATTGGATTGATATAAATGCTGGATGTCCTGTAAAAAAAGTAGTAAAAAAAGGAGCTGGATCTGCACTTTTAACTAATCATAAAAATTTATTTGAAATAGTTTATGGACTAAAAAAAGTAGTAAAAAAACCCGTTGGTGTAAAAATAAGAATAGGATACGATAAAATAAATGTATTTGAAACAGCAAAAATTATTGAAGATGCTGGAGCAGATTACTTAATAATTCATGGAAGATTACAGTCTCAATTATATTCTGGAACTTCAAATAGAGAATTAATTCGTGAAGTAAAAGAAAGAGTAAATATTCCAGTAGGTGCAAGTGGCGATGTTTTTTCATTTGAAGATGTAACAAACTATATGAAAGTATATAATGCAGATTTTGTATTAGCTGCAAGAGGAACTATAGGCAATCCTTGGTTTTTTGAAAACAAAATTCCTTCTATTGAAGAGAGAATAGAAACTATCATAAAGCATTTAGAATTGTCTATAAAATATTATAAAAATGAAATTTTTGCAATTAAAAAATTTAAAAAAATTTTAATTGCATACTTAAAGGGTCTCCCAAATTCTCGCCAATTAAAAGAAAAAATTGTCCTAATAAATGATTTTAATAAAATTAAAGAAATACTATTAAAGGCAAACTTTTAGTTTGCCTTTTTAAGCCTTTTCGTCAAATAATATTCCTTCTACATCATTTAAAGCCTTCGCTAATTTTACAGAAACTTCTGGTGGAATTTGTCTTATAACTTCTTTTGAATCTTTATCAACTATTTTAACTACTATCATATCTGCATCTTTATTTATTTCAAACTTTGCATCACTATTGAATATTTTTTTTACCTTTTCTAACTTATTTTTTAAAATATCCACAACATTATCTTGAGAAATGTTAATGTTTTTAGTATTGTTAGAATTTTCTTTTTTTGGATTATTAATTTTTGTTTCATTAGCACTGTTATTAAGGCTATTAATATTATTATTTATTTTTCCAACATCCCTGATTTCCATAATTATCCCTCCTTGGATTTTTAATCAATAAATTATCGTCTAAAATTAACTAATTCTTTATTTTATTTTAAGTTTTATAATATAGTAATAGTGTTTTTACCTTTTCTTTTTGATTCATATGAAGCTTTATCAGCTATTTCAATTAATTCTTTATAATTTTTAATATCTTTATTGTACGAAGTTATTCCAAATGATGCTGTTACTTTAATTCCTAATTCTTTTTCCGTTTCTTCTTCTATCTTATTTTTTATTCTTTCAATTATTTCATATGCATATTCAACATTTGTATTAGGAAAAATTATTACAAATTCTTCTCCTCCATATCTTCCAAGAATATCAAAGTTTCTCATATTTTCCTTAACTGTTTTAACAATGAATTTTAAAACACTATCTCCCATTTTATGACCATATTTATCATTTATATTTTTAAAATTATCAATATCATACAATGATATACTCAAGTTCATTGATTCTTCTCTTTGTAACTTCTCAAATTCTTCTTCGAGTCTTAAGTATAAATATCGTCTTGTATAAGATCCCGTTAAATAATCTTGTATACTATTTTCAAGATGTATTATTCTATATAAAGCACCAGATAAAAAATTATCTAATATTAATAAACTATCAAATATTTCTTCTAAAAAATTCATATCAACAGATAAATTTTCATTTTTCAAATAATAAATTATAGTAAAATCTTTAAATTTAGAAAAATAATTCATTTCGAATGGTTCCAAACGGAAAAAATCTTGTTCTTTTATATCAATTTTTCCATAATTACTTTCTACTTCAAATATTTCAGATTTTACACCAACAAAAACATCTGATATTGGAAACTTTTTTTTAAAAAAATTTTTTATACTATCCAATATTTCTTGAATATTATCTAAAGAAATTATCTTAGTAGAAATCCCAAATAATTCTCCATAAAATCTTGATTTTTCATTTATTCTTTCTTCCTTAGTATTTCTTAATTTATATAATTTTGTTTTAGAATAAAAATATTTTTCTAATTTATGTATTTTACTTTTTATTCCAGCATTTTTATACAACTGAACAGCTAACCTATAATACTTAAAAGCTTTCATTAATTCATTTTTTTCTATATAAAATTTAAAAAGTCCTTCATATACCATTCCCAAAGATAAATTTAAACCCTGTTCTTTATATTTTTTCATTAATCTAAAGGCTTTTTCTTCAAATAATGTAGAAAGTTTTTTGTTTTTAGTAAACTTATAATATAATAAGTATAAACTTTCTTCTAAATTTATGTTGCTTACAAATAATTTATTAAAAATATTTTCAATTTTTTTAGGACTTCTTTCAATAAATAGTATTAATAAATAAGTCGTATTTATTAATTCATTATATTCTTTACTCTTTTCTAAAAGTTGCTTTGCTGTTTTTAAGTCTTTTTTTACAACTGCTAAGTATGCTTTATAACTTAAATAATAAATTATATATATTCTTTTTTCTCTTTCAGACATATTTTCTTCATCTTTTTTTAATTTATCAAAAGTAACATTATCATAATCTTCTATATAAAAATAATACAAGCTTTTAAAAAAATCTCCAAGTATTTCGTATCTTATGTTATTAGAAATCTTTGCATATTTAATTGCTTCATTTATATTTTCAAAAAATTCATCTATATTTGCTTTATAAAGATTATTGTAAGCAATATTAAAATAAGGTGCTGCTAATCTAGAAAAATCATTACTTTCATTTATTACCTTTAATGCTTCTTTTAAATACATTTCGGATAAAGCTACATTATCCACTTCGATAGTAGATAAGTTCATATAAAAGGTTATTATAAATCTATTTAATTTATGTTCTTTTGCTATTATTAAACCTTTTTCAGTTATTTTTTCCATTTTTTCTTGTTTATTTCTATATTTAAAAGAATATTCAATTAAAGACTTTAAATATAATTTAACAAAATTTATATTATTTTTATGTTTTATGTATTTTTTTTCTATACTTTTGAATATTTCATCCATTTCTTCATTATTTTCGCCATACTCTAAAACATAATTTAAAAGTATATAATAAAAATTCATTTCTTCATATTCTGTTAATTTTTCATTTTTTATTATATAATTAACTTCTTTAAATACTTTTTTAGGATTGTACTGCATTAAAGCCATATAATAATATATTCTCATCCATCTTTTTTCTTTTAATAAATCCAAATATTTTTCTAATTCTTTTAAATTTTCAGAAATTATTAAAAACTGTGTATAAATTGTTAATGCTGTATAATTTTTTATATTTAAACTTTCAAGATCTTTATAAAGTTTATTTATAATCTTTATATTCTTCCATTCTCTAAAATTTTTTCTCATTTGTTTAATATATTCATAAGTTATTTTTTTTGTATTTTTTGATTCTTTCAAATGGAAAATTTTAGTTTCAAAATTTTTTGTTTTTTCAGATATATATATATGAATTTTTGATTTTAATTCTTCATCAATCATGTCATAGAACTTATTTCTATATATAATATTAAAAAATCTATAGTAATCATTTTCAAATAATATTATTCCACTTTCTAATATACTTTCTATATCAACTTTAATATTTAAATATCTTTCAAGTATTTCTATATCACTTTTTTTAAAGTTATTTCCTAAAATAGATAAATATGAAATTATTTCTTTTAATTTATCTTCTATATTATATAATTTTTCTTCTATAAAAGAATAATAATTATTTACATTTATCTTAGACATATCTATATTCCAATTAGCGTGTCTAAAATAAACAACTTCTTTTCTATTTAATTCATAAATTATTTCTTCAATATTACCAGGTAATCCTCCAGAAATATTAAAAATAAAGTTTATAAAATCCTTATTTTTATCATAAATATCTTTAGATAGCATAGAAATTATCATTTCACTAGCTTCATTTAATTTAAGCGTAGGTAATTTCACTTTATTTTCAATGTTAAAATCATTAATTTTTAATTCATCATGCGTAATATACACAAAAAATAAATTAAAATTAATATCCAATTTTTTTATTATTTTCAACACTTCTAAAAATTCATCATCTATATCTTGAAATTCATCAACTGCAATGGCTATTTTTATATCTTTCAAATTATTCATCAATTCTATTATATCAACTATATTCAAATAATTATATCTATTTGTTCTACTTTTTTTAAATTTTACATTGTTTTTTCTTAAAAAAATTTTTAAAAACTCTATTAGTTCTTCTTTAGTTCTTACAAAAGAAGTAAAAAAATTTTCAGTATATTCCAATTGATTAAAGAGTGTTTTTATAAAACTTGTTTTTCCAATTCTTTGCTCACCATACAATAATATTTCTTTATAATTATTTTCTATAGCAATCTTTCTAAAAAAATCTAATTCTTTTTTTCTATTTATGAATTGTGGTTCACGTGGTTTTACTGAATTAACATTAGAAAAATATTTTAAAAAAATTGTATAATATTCAGATACACATTTTATATCTTTAAACTCTATTTCTCTATAAAATTCAGCTAATCTATTTGATGAATTTATATAACTTAATTTTATTTTTTTTAATAATTCATTTATTACTCTTATTAAACCTTCTTCTGTTCTCTTTTCGTTATAAAAAACATTGACACTATCCATGTTCTTAAAAATTGGTGCAATAAAATATCCATTTCCTTTTTCATCTATCATTATATTTCTAAGATCTATATATACAGGAATAAAATTAAGGTTATGAACTAAAGCATCCATCATACCAAGAAAATAAGAAGTTATCATTATCATTTCTTTTTTTGAAATATTCCATTTTACTGGTTTTTCATAATGATAAGAATAAAAAAGTTCTGGATTTTTTGAATTTAAATTTATATATTCTGGAATTAATAATCCATTTGATGAAAATCTTTTTAAATCATTTTCATAACGAGAAAGAATGCCAAGATCAATATTTGATATTGACATTAACTTTCTCAATCTATATAATTTTTCATTATAAGTAACTAAATAATCAGTCGCATACTCAAATTCATTTAAAACCCTTATTATTTTATATTTCATAAAATCCCCCCAGAAATTTTATTTATAATCAATTATATCATTTAAAAGAAAAATTGTAAAACTTTAAACATTAAATATCCTACTCCCGCAGCAGCAGGAACTGTTAAAAACCATGATAAAATAATTTCTTTTATTATTCCTAAATTAACTGAACCTATACCTCTTGCAAATCCAACACCCATAACAGACCCAACAACTGTATGAGTACTTGATATAGGCATACCTAAATTCGATGCTCCAAGAACTGTTGTTGCTGTTGCAAAATCAATTGCAAAACCTCTTGAATTATTTAATTCTGTTATATCCTTACCAACTGTTTTCATAACTCTTGAACCCCAAATTGCGACCCCTATTGCAATTCCAAGTCCACCCATAGCAAGAATATATCTTGGTATTTCTGCTTTTGCTCCAACAGTACCAGTAACAACAGCAGCATAAATTGCTGCAACTGGACCTATTGCATTTGCAACATCATTTGCTCCATGAGCAAGAGCAACATAACATGAAGTAACTACTTGTGCTTTTCTAAATATAGATTCAACATATTGATTAGAATCTTTATACTTCTTTTTTGATGAAACAACAACATAAATAAATGATAAAAGAGCAAAAACAATTCCAATAATTATTGCATATAAAATTGCCTTCAACGTAATACTAGCATGCAATGCTTTGACAATAAAAGAAAGCCCAATAGTAAAGAAAGCAAGACCTAAATAAATTGGTATCCAAATCCTTACTTTTTTATCTAAATTTTCTCCATGAAGAGTTGTCGCTGATATCAATTTAAACATTATGAAAGCAATTAACAAACCAATTAAAGGTGAAATTACCCAACTTAAAGATATCATTAAAACACGATTCCAATTAACAACTGCAAAGCCACCAGCAGCTATTCCGTATCCAACCATTCCACCAACAATAGAATGTGTTGTGGATACTGGCCAAGAAAAATATGTAGCAATAATTAACCACAAAGTAGCTCCAATTAATGCCGCCATAGAACCAATTATAACCGTTTTTGGGTCCGATAACATTTCTAAATTAACTATACCTTTACGTATCGTTTCAGTAACTTGTCTTCCAAAAAATGTAGCTCCAACAAATTCTAAAACTCCAGCAATAATAACCGCTTGCTTTGGAGTAATCGCTTTTGCCCCAACAGCTGTAGCCATAGAATTTGCAACATCATTTGCTCCAATAGCCATTGACATTAGAAAACCTATACCCAAACCAATTATAAGTACTATAGTCATACTTCACCCCTTTATTCATTTATAAGAATTTGTATTCTATCACTTACATTTTGTGAAACATCTGCAATTTGAGAAAGTTTTAAAATTAAATTTCTTAAGAAAAAGATATCAACAGCATTCATAGTATTTTTTTGTGCATAAAGCCATTTTCCAAATGGATATATTTTATTATCAATATCTTTTTCATACCATTTTAATTCTTGAATATCTGTTTTTTCAACTGATACTGTTCGTTTTGAAAAATCTGATTCTAAAATATTCAGTAAATACTTTACTGATCTTTTAAACAAATCAAGCATATTTTCTACTTCATCCACTATTTCAAATATATCTTTTTTTATTTTATCATCAATTTCTACATAATTTAATTCCATCATTTTGGCTATATCTTCAATATCATCTATTATTTTATCTTGCAAACTCACAAATTCTAAAATTTCAACTCTTTCAAATCTATACATATAACCTTTTTTTAAATTTTGTCTAATATTTTTTTTAATATCATCAGCATCATCTTCTAAATTATCTATTATCTTTACTAAACTTGAAATATCTTCATTATTAAAATATTTTTTAAAGAGTTCAGGAAGATAATCTGATGCTTTTTCAACTAATTTTGCATGTTCAATCAATTCATTAATTGGATTGAACTTTTGAAACATCTTTCTCCAAATATCCATACTTTCACCTCACTATATATTATATAAATTAATAGATAAACATTGAATCTCCAAATGAAAAAAATCTGTACTTCTCTTTTACTGCTTCATTATAAAATTTTAAAGTAAAATTATATTCTGCAAAAGCACTTACAAGCATTAAAAGTGATGATTTAGGTAAGTGAAAATTAGTTATTAAAGCATCTACAATTTTAAAGTCATAAGGTGGATATATATATATATTTGTATTACCTGATAATTTATTAGTTTTTGCATAACTTTCAAGTGTTCTAACAACTGTTGTTCCAACAGCTATAACTCTTTTACCATTTTTTTTAGTTTCTTCAATTTTAGATATCAATTCTTTTGAAATACTATAATACTCTTCATGAATATCATGATCTCTTATATCTTTTGTATTTACTGGTCTAAAAGTTCCAAGTCCTACATGAAGAGTCACTTCTTCTATATCTATTCCTTTTTCTTTTAAGTTATTCAAAAGATTTGGTGTGAAATGAAGTCCTGCTGTTGGTGCAGCAACAGCACCTTCTATTTTTGCATATTTAGTTTGATATCTATTTTTATTTTCTAGTTTCTTATGAATATATGGTGGGAGTGGCATTTCTCCAATATTATTTATTTCACGCCAAATATCTTCACCAATAAATTCTAAAATTCGTGAACCATCTTTTAAATGTTCTATTACTTTAGCTTTTAATTTATCTGAAAAAATCAATACATTACCTTTTTTTATTTTATTACCAGGTCTAACAAGTGCTTTCCAATTATTTTCATTACTTAATTTTTCAAGTAAAAGAATTTCTATTTTAGCTCCTGTTTCTTTGTATCCATAGAGTCTGGCAGGAATCACTTTTGTATTATTTACTACAATTAAATCTCCTTCATTCAAATATTCAACAATATTTTTAAACACTTCATGCTTAATAGTTTTATTTTCTTTATTTATAACCATCAATCTTGAAGAATCTCTTGGTTCAACTGGAGTTTGAGCAATTAATTCTTCTGGTAATTCATAATTATAGCTTTCCAAATCATAAAGATTATTCATTAAAAAACCTCCGTATTTCTATAAGTTTTTCTTTATTAACTTTCATTTTATTATCCCTAAATTTATCATTAGAAATAATAAAATAATTTGACTTACTAGCAAGATATAAAATTAAATTATCTGCAGGTGATTCATAAAGTATTCTTTTACTATCAGATAAAGATTTTAAAATATCTTTTCCTTCTTGATTTAATATATACTCAATATTTTTATCAAAAACTATAATCGCGGGGAAAAAAACAGTATCTTGCATATATAAACTATCTAATAATTCTGTTATCATATCAATTGAATTTTTATTTTTATATCTAACAACATTACTTCCATCTATTAAAACTCCATTTACTTTTTTTGAAGTAATTAATCTATAATGATAATAAGAAATATTTAAAAGTTGTATTTCAATCAATTTTTTTGAATATTCATCTAATGATTCAAACATATCCTTAACTTTTAAAAAATATGATTTTTTTGTTTTCAAAACATTTATTGAAAGAATTTCATCTAAAATTTTTTGTATTAATGGACTAGTTTCATCGAGTGGCACATATGTCATCAATGAATAAATTTCTTTAAAATTTTTTATTTTTAATTTTTTTAAAATTATTTTTGAATTATAAAATTCAACTCCATACTTTTTTAATCCTTCTATATATCCACCAGGAGGAAACTTATCTGGAAACATCAAGAATTTTATCATTTGAATATCTTCATCATTTAATTTGAAAAATTTTTGAATATCATTAAATCTTCCTTCAGACGTTTTTTTTAAAACATGCATTATTAAAAATTGAAAATCGTGTAAAAGATGTCTTGAAATTTTTCTTTCAGCATTTTTTCCTAAAATTCTATATATATAAAACATCTTTCTCTCTGTTAAATCTTTTGGATTCCTTAAATAATGACTAGCAATATTAATTCTTTTATTTGAATTTATACTATGATTTTTAAAATCAGAAGAATTTAAAATATTTAATATTGTTTGTATAGACATTGTTATGCATTTGCCCTTATAGCTAATATATCACCATCTTCTACAATTTCATCTTTTCCTGCAAGTTTCCAAAGACCAGCTTTTTTTACTTCTTCTTCAGTACCTAATCTGATTAAATCCTCGTATTTCATACATTCCGCTTTAATAAAATTTTTTTCAAGTGCCGAATGAATTCTACCAGCAGCTTTTTTCATTGTATATCCTTTATTTATAGTCCAAGCTCTAACTTCATCAGTTCCAACTGTAAAAAAGCTTATTAATCCTATATGATCATAAACTATCTTTGAAAGTCTATCTATACCAGGACTATCTATTCCAATTTCTTCCATAAAAATTTCTTTTTCATCTTCATCCAATTCTATTAAATCAGATTCTATCTTTCCACTTATTTCAATATATGCAAAGTCTTGATTTTTACATTCATTAACTATATCATTTTTTCCTTCATACCCTCTAGAAAACTGTTCTTCATCTACATTTGCAACTACTATAATTGGTTTTAAAGTAAAAAGAGATAATGAGCTTATTATTTTTTTATCATCATCTGAAAGATCTATTTTAGAAGAAAAATTTTCATTTTCTAATTCTTCTTTTACTATATTTAATATTTTTTCCTCTTTTATATCATCTGCTGTTGGCTTTTTCTTCTTTTTTTGTAATTCAATTCTTTCGAGTTTGTTTTCTACAACTTCTAAATCTCTCAATAAAAGTTCTGAACGTAGTGTTTCAAGTTGTTGTTGAACAGTTTCGGATTTATCTGGAAATGGTACATTTTCATTTTTAAAAGATCTTATTATAAATAAAAGAGCATCAACTCCTTGTATCATTTGTAAAATTTTAATTTTTTCTTTTTTATCTGCACTTGCATCAAAACTAGGAATATCAACAAAATTTAAAGTCGTATAAGTTGTTTTTTTTGGATTAAACATTTTAGATAACTTTGTTATTCTTGGATCTTTTATTAAAGCATTTTTTTCTTCTGCTTCCATTTTAAAAGATCCATCATAAGGTGTATTAGTTAATAATGAAAAAATTGTCGTTTTTCCAGTCATTGGCAAACCAAAAATTCCTATTTTCATATTTTACCTCCATTAAATTTTATTTAATATATTTTCATATTTTTGTCCAAAACCATTTATCTCTACATCTCTATAACGAATATCTTTATTATACTTAATTCTTATTTCTAATCTTTCTTTGGGAGTTAAATATTCAAGATACTCTGCCCATTCTATAAAATAAATTGCATTTTCATCATGAAAAAGATCAATATATTCTATTTCATATGGATCAGCTATTCTATATAAATCTGCATGATGAATTTTAGGTATAGTATCATACACTTTTACAACAGCAAAAGTTGGACTTGTTACTCTTATATCTTTAGAAAAAAATTTTGTCATAGATTTAACAAAGGTAGTTTTACCAGACCCCAAATCCCCATATAATAATACTTTTGCTCCTTCAAATAAATTTTTTGCTATATTATAAGCTATATTATTCATTTTTTTTTCATCAATTTTTCTTATAAAAATTTTTAACGCCTCCATTACAAAATTCATTACTATAAACAATTTTATTGTATCATTAAAAATTTGAAACTTTGTACAAGTTTTTTTAACTTTATATAACAATACTAAAGTCACATTCTTATAAATTAAAGGTTATCCAAAAAATCATTTTCATATAAATAAAAATAATTAATTATTATTTTTGATATTTTTATTGAATTATTTATTTTTTTAAATAAATTTGACTTTTTTTGAAAAATATTGTATAATAACCTTAAAAAAACACATATTGGGGGAATAATATGAATAAATTACAAAAGAAAAATTTTTCTTTATTTATTTTAGGTCAATTAGTTTCTGTTTTGGGAAGTGGAATTCAAATGATTGCCTTACCTCTTTTTATTCTTGACTTAACTGGCTCTGGAGCAAAAATGGGATTATTTGCTACTATAAGTATGGTTCCAGCATTAATTACTTCTCCATTTGCTGGAGTTTTAGGAGATAGACTAAATAGAAAGTATATAATGATTTTAATGGATTATGTTAGAGGATTTATAATTTTATTTCTTGCTATATTAACCTTTTATGGAAAGATGAGTATTTCTATTTTGTTTATTTCTCAAGTTTTTATTTCTATTTTTGATAGTTTATTTGAGTCTTCTACAGTAGCAATGATACCAGATTTAGTAGGTAAAGAAGATTTAATGCGAGCAAGTTCATTATCTCAAAGTTTTATAAGTACTTCAAAAATTTTAGGTCCTGTACTTGGTGGAGTTATTTATGGATTATTTGGAATGAAATGGATATTTATAATAAATGGTTTATCCTTTATTTTTTCAGCTTTTAGTGAAATGTTTATAACTTATAAAAAAACAACTAATTTAAGTTCTAAGATCAATTTTAATGTTATTTTTAAGGATTTAAAAGCATCAGTAATTTATATATTTAAAAATAATTCTTTAAAAAATTTAATGTTTTTTGCAATCATCTTAAATTTTTTACTTAATCCACTATTCGTTGTATTAATTCCATATACTTTTAGAAAAGTAGTTGGATTTTCTGCTCAACAATATGGATTACTTGAAACGACATGGACTATTGGTATACTTTTAGGAAATTTAATTTTGGGAATTTTCTTTTCAAAAAATTCTAAATCAAGTAATAATTTATTAAAATATGGTTTTTTAGGAATGGTATCCTTTAATTTAATTTTTTCATTTTTCTTAATACCAAAATCTATAAACACATTCTCAATATGGCAAATGTTTTTCATTTCAGGAAGCATACTTTGTTTAATGGGAATTTCAAATGCTTTTGTTAATACTCCAATTGGAGTTTATTTTCAAAAAATAATTCCAAATGAACAAAGATCAAAAATATTTTCTGTAATCGGTGTTTTATTTCAAATAGCTACACCTTTTGGAATGATTATTATTGGATACTTAGTTGATGGTGTACCAGTTCATTGGATTTTTATATCCATTAGTTTTATAATATTATTAATTTCAATTTTATTTTTAAAAAAATTAAGTACAATGAACTTTGAATAATCTAAAATTTTTATGTTAACAAAAAATATACATTATAACTTATAATTAAAAAACTTAATTTTTAAATAATTAATAAAATTTATACCTTATATAATGTATGCTATAATATTAATCGAGGTGATCAAAATGAAAAAGGTTCCATACGGTCTTCAAAATTTTGAAGATTTAATATTAGAAAATTATTATTATGTAGATAAAACTAAGTATATAGAAGTACTTGAAAATATGCCGGAAAAATATATATCATTTTTAAGACCAAGAAAGTTTGGTAAGAGTTTGTGGCTTGACACTATGAGTAACTACTACGATATTAAGTATTCAGATAAGTTTGATACTATCTTTAAAGACCTGTATATTCAAAAACATCCAACACCTAAAAAGAGTAGTTATCATATTTTAGAGTTTAATTTTTCTGGTTTAAATACAGATAGTAAAGAAGAATTGAAGTATGGATTTAAAAATAAGGTTTTTAATAGTTTGAATTTTTTTATTAAACATTATAATTTAAAAATAAAATTAAATATAGATTTAAAAGAACCTGCTGATTTATTAAATAATTTTATAAATCAGTACAAAGAATTAAACTTAAAAACAAAAATCTACTTATTAATAGACGAATACGACCACTTTGCAAATGAACTTTTAAGTTTTAAACTCGATGAATTCAAAAATATCGTCAGTAAAACAGGTTTTGTTAGAAAGTTTTATGAAGTAATAAAAGAAGGAACACGATCTGTTATAGACAGACTATTCATAACAGGAGTAGCGCCAATAACCTTAGATAGTTTAACGAGTGGATTCAACATCTCAAAAAACATGTCAACAACCTTAGAATTAAATGAAATGATGGGATTCACTGAAAGTGAAGTCAAAGATATTCTAAAAGAGTATCAAATAAATGATGATATTTTACAAGACATGAAGTTCAGCTACAATGGATACATGTTCAATGAACGTGCAAGTGAAAAGGTTTACAACAGCGATATGGTCTTATACTTCATCTCTGAATACAACAGAGAAAAAAGAAAACCAAAAGATGTAATAGATATGAACATAGCAAGTGACTATAAAAAGATTCAAAATTTATTTAAACTTGGTGAAATTGTTGGAATAAATACAGAAAAAGATAGTCATGAAGTTGTAAATGAACTTTTGAATGAAATACTATTAAACTCAAAAACAGAAATTGAAGTATTAACTCAAGCTTTTAACATGGAAAGAAAACTCGATATAAAAGATATAAAAACCTTACTCTTTTATTTAGGATTTTTAACCTTTGAAAAAGAAAACTTCTATACATACTTAAAAATACCAAACTATTCAATGAAAAAGTTATATTCAGAGTACTTTGTAGAATCAATAGAAGATAGAGCAAAGAGCTATATAAATACTGAAAAGTTAGAACTTGCAGTAAAAAGGATAGTAATAGATGGAAACATAAACCCATTTGCAAATGAAATAGAAAATGTATTGAAAAAACTATCAGACAGAGACTTTCAAAGCTTTAGTGAAAAGCACATAAAGATGCTACTGTTTAGTTATTTAATCTTAACACCATGGGCATACGTTAAAAGCGAGTATCCAGTAGAAGGTGGATACATAGACTTAGCAATGTTTAAAAGATATGAAGAAGTACCCTACAATGCAATAATAGAATTAAAATACATAAAAAAGAAAGACTATACAGAAAAAGTATATCAAGAAAAGATAAAAGAAGCAGTAAATCAAATAAAGAGATATGAAAAAACTATAAACAAAGAGTTCAATGGACCATTAAAAAAAGTAGTGATGGTTTTTGTTGGCAGAGAGTTAAAGTATCTTGATGAAGTTGATTAAAGGTAGGTAGCATGTAATTTTTTGTAATAAATAGCCTTTTGCAACTTTTTATTACAAAGTATAGCATTATAAAATTTAATATTCATTTTTGTGTGTTATAGGTATTTTTTGTTATGTTACAAGGTATATTTATGTTAGGAATTATAGATATATTTTGTAATTCTTTCATTAAAAAAGATGGATAATTCGTTTAGGACATTGCTCCAATTTCTATAACGAGCTGTCCATCTTTTTGTTGCATTTATTGTTGCTAAATAAAGAATTTTCAATGAGACCATAAAAATTTTTATGGTATTATATTTTTATATATAATTTTTATGTTCTCGTTTCTTCTCAAATTTTACAGGCTACCATTAAAAACTTGATTCCTTTAAATATAGGAATCAAGTTTTTTATACTTTCTATTATTACATTATATTTTTTAAATGTTGAATGTATATATCTTGTATTCCTTTATTTTCTCCAAGTCCATGCATATATATTTCAACTTTGAATCCCTCTTTTTCTAAAATATTTTTCCAAGAATCTTTTGTTTCTCCAGCCATATCATCATGTGCATGAACTCCTGCTACAACCATAAATGGCATTAAAATGACTTTTTTTATTCTATCTCTTTTTAATTTTTTTATTACATCTTTTAATGTTGGATATCCTTCTACAGTTCCAACATAAACACCTCTTACATCTGTATCTTCCAAGGTTCTTTCAAATGCTGGATATGTAGCATTAGTATAATGACTTGTACCATGTCCCATTAAAACAACTGCATCATTTCTTGTTAAAATAGGCAATTGAGACTTTAATGCTTCAGCTACTTTAAAATAATCATCTGTACTCGTAAGTAATGGTGTTCCAACTTCTATTTTTTTGAATTTATCTTTATATTCATTCACCATATCTAACATTTCATTGTATTCAAGCCCATTTAAAAAATGTAGTGGTTGAACTAAAACTTCATTAAATCCTTCTTTTTGCATTTTTGCTAACGCTTCTTCAGTTGTATCAATTACTTTTCCTTCACGTTTTTTTATTATTCTAATAATCATTTTTGAAGTAAAAGCTTGTCTAACTTCATATTCTGGAAATTCTTTTTGAATTCTACTTTCAATAGCTTCGATAGTAACCTTTCTTGTATCTTTATTTGAAGTACCAAAACTAACTACTAAAATACCTTTTTTAGCTATTCCCAAAATAAATACACCCACAATCAATAATATTAAAAACTTTTTTTTCATATGTTAATACCTCCTTCTAATATTGATGAAAAATAAAAATGAGTATATGAAGCTAAAACATTTTCTTTTATTATTCCAACTTTATATATTTTATTATTTGATTTTTTTATTACTTCTAATGCATTTTCATTTTCATTTAATTCCATATAACTATAATGAAATTCATGCCCTTTTATAACTGTATTTTTTTTAAAAAAACATTCATTTAATATTTTTATCTTTTCATAACCAAATCTTCCCTGTATTTTATTGCTCATAAAAGTTTTTCCATTTATAAATCCTACCATTTTATGACCTTCTATTTCTTTTGAAAGATACATAAATCCACCACATTCGGCAATTATTTTTTTCCCAGAAGCACATTTTTCATAAACATCAATCAACATACTTTTATTTTTTTCAAGTTTTTTTGCATATACTTCTGGATAACCTCCTGTAAAATAATAAACATCTGCTTCTGGAAGCTTTTTATCATTCAATGGAGAAAAATATTTTATTTTAAATCCATTATTTTTTAACCATTCTATATTTTCTGGATAGTAAAATAAAAATGCTTCATCTCTTGAAATTGCTATACTTTTATTGCCTTTAATCACATTTACTGAATCATATACTTGATTAAGTTCTTTAAAAATACTTTCTATATTAATACTTTTTATTTTTTCATACGATTTTAATGCAATTTCTTTTATATTAAAAAAATCAGTATCCAAACCAAGATGTTTTGAAGGAATTTTTAAACTATTATCATATTCAAATCTTTTAATATATTTAATATTTGTTATCTTTTCAATTTCTTCTTTCTGCATATTAAAAACAATTTCAGATTTACTTTTAGTTATTATTATTCCAACTATTTTTGATTTTGAATGTTTTATTACACCGTCTATCATAGCAGCCATAGTCTTAATAGATGGCATACTTTCAACTAATAATAAAATAGGAATATCCAAAATACTTCCTATACTATCAGTTGAACCTCTTCCATCATTCAATCCATCTAATAATCCCATAACTCCTTCAATAACAATATAATCAGAGTTTTTTGATTCTTTATAAAAATGTTCTTTTAATTTTTTTGAATTTAAAAAATAACTATCTAAAGATTTGCTTTTTTTATCTAAAATTTTTTCATGATATATTGGATCAATAAAGTCTGGACCAATCTTAAAACTACAAACCTTTTTATTTTCACTTTTTAAATATTGAAGAAGTCCTAAAGTAAAGGTTGTTTTTCCTGAATTGGTAAGCATTCCTGCAATTATTAATCCTTTAATAATTTTTCACCTCTAAGTTTTTAAAATATTTAGGATAAATAATTTCACCTAACTTCTTCATACCCAATATTAATCTTGGTGTTGGCCTTGATACTATCTTTTCATCTATTATATAAACATGTTTTTCTTTAATTGCTTTAATTGCTTCAAATCCACTTTCTTTATAAATTTTATCAAGAGTTATTTTATTCATAGCACCTTTTTGAGCTATATAAAAATCTATTTTTTTCGCTTTATCTAAAATCATTTCTTTTTTATATTGTGCAACAGTAGAACCCGTTAAAATAGCATCTTTTGCTATGTTTCCTACACCTATTGTTTTTAAAACTGTATCAGCCATAGAATTTGGTGCACAAGTTAAAAATTTTTTATGTCCAGATTCAAAAAATATATTTTTTCTTTCTGCCTTAGGAATATTTTTAACTATATCCTGTATTTTTTTTAATTCAATTTTAAAATTGTCTATCATTCTTTTTGAATTTTTTTCTTTACCAGTTAAAACTCCAATTTTTTTCCAATAATTAAATAAATCCTTATATTGAAGTGGTTGAAGTGCAACAACTGTAATTCCATAATCCTTTAGTTTCTTTATTAAACTTCCATATCTCTTATAAAATGCTGGTCTTAAAATTACCAAATCTGGATTTGCAGAAATAAATTTTTCAGCATCATCTCTATAACTAAAAGTAGGTTTTTTTAATGCTTCTGGTGGATATGATTCATGTTTAGAAACACCTATAATTTCTTTATCTAATCCTAAACCATACAATACTTCTGTATGAGCACCATATAAAGATATTATTCTTTTAAATGGTTTATCAAAAACTATTTTATACCCGGCATCATCAATTATCTCTAAACCAAAAACACTAATAACCAAAATACTCATAAATAATGTTAATACTTTTTTCACTTGAATTCCTCCTTAAATTGGTATTAAAATTTTTTTATTTTTATGATTTAAAATAGAAGTTTTTATTTTAAAAATATCAAAGATATTTTCTGGTGTTAATACATCTTTTGTAATTCCATGTTTCTTTATTTCACCATCTTTCATTAAAAATATTTCATCACAATACATACTTGCTAAATTAAAATCATGGAAAACGGATATTACTGTTAAATTATTATTGTTCACTTTTTCCTTTACTAATTTTAATAATGTGTGTGTATAGTAAAGATCTAAGTTTGATGTTGATTCATCTAAAAATAATAACTCTGTTTCTTGAACTAAAGCTCTTGCAAAAATAATTCTTTGCTTTTCACCACCACTCAATGTCATAACATTTTGTTCTTTTATTTCAAATAAATCCATATCTTTTAGAACCTTTTCTATTACTTTTAAATCATACTTTTTTAAACCTTCAAATCTATTTTTGTGAGGGTATCTCCCCATCTCAATTATTTCAAAAATTGAAAATGGAAACAATATTTCAAAACTCTGAGGAACCAGAGATACCTTTTTTGCAATTTCTTTTTTAGTTAAATTAGAAATACTTTTATTAAATAACTTCACTGTTCCATTAAAATCATTTCTTATTCCTGTTAAAACATCTAAAAGAGTTGTCTTTCCACTTCCATTTGGACCTAAAATTCCATAAAATCCTTTTTTATTAATGTTTAAATTTATATTTTTTAATATTTTTTTATTTTCTATTTTTAGATTTAAATTTTTTACATTTATCAAAAAACATTCCTCCTCATTTTTTTTCTAAAAATTATTAGAAAAAATGGAGCACCTATTAATGAAGTAAGTACACCTATTGGTAATTCAATTGGAAGTATTGCTCTTGTTATATTATCAGCTGTTGAAAGTATTATTGCTCCCCAAATTGAAGATAAAACTATTAATTTTCTATTATCTGTACCAATTATAATTCTTATTAAATGAGGAACAATTAAGCCTACAAATCCTATAATTCCATTTATCGAAACAACTATTGATGACATTAAAGAAGCATTAATTAATAATAAAATTCTAATTTTATTTGTGTTTACTCCAAGGGAATTGGCATTTTTTTCTCCTAAAGAAATTATATTTAATTCATTTGAATATAAAATTGTTATTATAAATCCAATGAAAGTAAATAAAAATAATATTAATACTTCTGCCCATGTTCTTGATGAAAAACTTCCCATTAACCAAAATATTATTGAAGATACTTCTTCATTTGATAAATATTTAATAAGACTTAACCCCGCTGAAAAAAATGCAGAAACTATAATACCACTTAAAATTAATGAAACTGAACTCAATCTTCTTTGATATGTACCTAATCTTATTACTAAAAATAAAGTCATTAATGAAAATATAAATGCAAAAAATGGTATTGTTGCTATTCCAAAAAAATTAAATCCACAAAGTATAGAAATTGCAGCTCCAAAAGATGCACCAGAAGATATTCCTAAAGTATATGGATCAGCCAATGGATTTAATAATGAACTTTGAAAAATAACACCAGATAAACTTAAAGCAGTACCTGCAATTATTGAAGATAAAATTCTTGGTAACCTTACTTGAATTATTACGTACCAAAACATATCTTTTTTTGAAGTTCTTAATAAAGTTTCTAATATTATCTTTAAAACTTTTGAAAAGGATATTTTTATATATCCCATACCTGTATAAAAAATAACAGTTAATATTAGAATTATTATTCCAATACTTAAGAAATAATAATATTTTTTATTTTTCATAAATTATCAACTACTTTTAAAATATTCTCTAACGAATAATAAATTCTTCCATATTCTTTTAAAGGCATTTTTATAACAAAAAATGGTATTTTATTTTTTAAACAAAATTTTATTTTCTTATCTGTTTTTCCTTCTTTTCCAGAATCTTTAAATATTATTAAATCTGGTTTATAAAATTTAATTATTTCATTTAATTCATTATCTATTTTGTTTGGATCAAATTTAATATGTTCAAAACCTTCAACCTTTTTTATAGATCTTATAATGATTTCAGGAAAATACTTTATCTTATTTAATTCATCAATTACTTTTAAACTTCCATTTGCTCCCAATAAACTCAAAATTTTTTTAAACTTATTTTCTTTTATTTTATGTACCATATCAAAATATGTCATTCCATTTGTAATCGGCTTCCTTTGATATCTAATTAACAAATTTTCAGGTATATTTTTTAAAAGATTAGAAATATTCATAGCGTGTGGATGTGTAAAATCTATTATCATATCTATATCATTTATTTTTTCATTATTTTTAAATTCAACAATTATTTTTTTATCAAAAAACATGTTTTTTATTTTAGAAACTTTAAATTCACAAGGATACTTAACAATAGGGTTTGAAGTTAAAGTTAAAGTATAATTTTTTAAAGTTGTCTTTAAACAAAACTCTCTTGAAGTTGATGTTCCACCTAAAACTAAAAAACTCACTGTTTATAACCTCTTGGAACATATATTTTATTGTTTTTTTCAATTGTATTTTCATCACAAAAAAATACTATACTCATCATATCTATATCATTTATCCAATCTATATTTGAAGTTGATTTTATATAATATGATCGTTGATTTGGTAAAAAAGCATTTTTTACAATACCAATATAAAACTCATTTCTTTCTTTTTTAAATATTTCAAAAACTTTTTTTAATTGATGCTTTCTTATCTTACTAATTGGATTATAAATAACTGTAGTAACTCCACTTTTAGCAAAATATGTTGCTCTCATTACTATTTTTTCCCATTCAACTAAAATATCACTCATACTAATCACTGCAAAATCTAAAGTTAAAGGGGCTCCAAGAAGTGCTGCTGCAGAATTTGCAGCAGTAATTCCTGGAACAATTTCAACATTCTCACATAAACTAATTGCCAAAGAAGCCATCCCATAAACACCCGAGTCCCCACTCGAAACAATAGCTACATTATAACCTTCATTTACTTTTCCAACAGCATGCTTTACTCTCTCTACTTCTTTTCTCATACCAGTATGAATAAAATTTTTTTCATTAAAATATTTTTTTATTCTATCAATATATTTTGTATATCCAACAATATAATCAACTTTTTTTAAAACATCTATAGCATAATTACTCATATATTCTATTTTTCCTGGCCCTATACCAACAACAAAAAGCTTCATTTAATTACCTCCGGTATATCTTCTTCGAGATAAGGATTTTTCCAATATTTTTGTATTCTAAAAATTGAAAATTTTATATTTTTATCTTTAATAGTTATTAATTCTTCCATATTATTTGAAGCTAAAAAACAAGCAGGTCTGCATATTTCAGATATTCCCATGTGCTTTTTAACAATATTTTCCTTATCAATATTTAATTTATCTATTGCTTTCTGAAGTTCAAAATTATTATATCCTTTAGTATGCGTTACATTTATTTTCCTTGAAAATTCATGAAACACTTTAGTATTCCATTTTTTTTCATGACTAACAAGAATTTGAATTCTATTTCTAAATTTTACATCTATTAATTCTAAATATTTTTTATAGATATAATCTGCATTTTCATTTTTATGAAATCCAATACCAAGAACTAAATCTTTTGGTATTAAATTTAAAATTTTACCTCCACTTTCATAACAAACATCAGCTTTTTCTGAAGTTATATAATACTTTGGTAATTCAAAATAATTTGGAAGATTAACACTTATTTTTTTTTCATTTAATAACTTTGAATTAATTAGCTTTATATTTTCTTTTTTATCAACTATTAAATTATTTCTTCTTGCAAATAAATCTATTCCAATTAAATTTTGTGTATCTGTTGCAGTTGTTATTACTGAAATACTTTTTATTTCTTTTTCTATTCTTAAACTTAAATCTAAAGCACCACCAAAATGTGAAGATAATAAAGGAATACAATACCTTAATTTTTCATCTAATACAACAATAGCTGGATCAAAAAGTTTTGATTTTGACATAAGTTTTAAATACCTCGTAATTATCCCTATACTTCCAATAAAAATAATTGCATTGTAATATTTAAAACCTTTTAAAATTTTTTCTTTTAAATTTTCACCTTCAATCAATACCGCATATGGAAAAAAATTTTTTATATTCTTAATTTTTCTAACAGTTATTAATGCATATTTCATCTTCTATCCCTATGTGTGAAATTTGGATCATAAAGTTTAGATCTTTTTTCCCCATTTTTTCTTATTAAAAATAAAGATAATGAATTTGGAAAATCTATTTTTTCCCATTCTGATAATTTTTTAAACTCTATTTTTTGTTCTTTTCTTGTTATTTTATGACCAACATATAAAATTGAATCTTTAGGATAATACTTTTTTAATAATTTTAAAACTTCTTCTTGCATTGTACTTGAGAGATAAATTGCAGTAGTTGGTTGTTGAGACAATAAAACATCTAAATCCTCTGGAACTTTTGTTCTTCCTGAAAGTCTTGTAATTAAAATTGATTGTACTACTTCTGGTAAAGTCATTTCAATTCCAAGTTCAGCAGCAAAAGCAACATGAGCACCTACACCTGGTATAACTTTAACTTTTATATCTCTTTCTAATAAAAGTTTTATTTCTTCTTCTATTGCTCCATAAACTGTTGGATCACCAGAATGTAACCTAACAATAATTTTATTTTTATTATGATTATTTACTAAAATATCAATAATTTCTTCTAAAGTTAATGATGCACTATCTACTTTTAAAGAATTGTTTTTACACCAAATTAAAACTTCTTTACTGACAGTTGATCCTGTGTACAAAACTACATCTGCTTTTTTTAATAAATTCATCCCTTTTACAGTTATTAATTCTGGATCACCAGGACCACTTCCAACTATATAAATCATACTTTTACTCCTTTTATAATATACAATACATGCTCTCCTATAAATGTTGTTTTTTCTCCAATTTTTTTAGATTTTGATTTAGTATACATTTCTATTTCGTATTCTATATTATCTATTTTTGAAAAAACATTCAAACTTTCAATTGTAGTTATTGCGCCAACAAAATTTGTTCCTCTTTTTATTGAATTAATAACTTTTTTTATGCTTTCAAAATTTATTCCACCACCAAAATGAATTAAATCAGGACTTGGTATTTTATCAACAACATTTTCATAAGAATTGTTAATTGTAATTATATTTGGATAAATACTTACATTTTCATTTAATTTTTCATACCTTTCAATATTTTTTTCTATTGAATAAACCCTTCCTTTATTTCCCAACAAACTTGAAATCCAAATTGAAGTTGCACCACTTCCACTTCCTAAATCCCAAACTATTTGATCATACTTTAAATTCATACTATTTATTATTAAAGCCCTTGACCAATCTCTTGAAACTGGAATATTTTTTACATTCAATTCCTCATTTTTTGGAAACATATTAAAAAAATTTTTTTCTAAAGGTTTTATAAATAAAATTAATCTTCCCTTTTTTAATTGAATAAATTCATTTGGAATAAAAGAAAATAAATACTCTTTTTTAGTTCCAAGTTCATATCCACCATATACTCTACAATTAATGTTTTTTAATCTTTTCATTAAATTATAATAATCATCGAGATTTTTTACAAAGTATCCAACAGGCTTTCCAGCATTTAAATACTTTATTGTTTCTGTTTGCGGCGTCAAAATATCTTCAGCATTATGTCCACTAACCAAAACCATATCATTTACCCATATCTTATGTTTTGCACATAAATATATAACTGATGAAGGAGTTGGAAGTATAACATATTCATCTTTATTTAATTTTTCCATTATTTTTTTTGCATAACTAAATATTAAAGGATTACCTGCAACACATAAAACTGAATTTTTATATTTTCTTAACTCTTCAATCATTTCAGTAATTCTTTCATTTAGTAAAGAATCTCTTATTTCTAATTCTCTATACTTTGCAAATTCATTAATTTTTCTTGCAGTAGATAAAGAATGTTTAAAACCAACAAAAAAATCAGAATTTTTTATTATATTTATAGCTTCTACACTCATTTTTTCATATTCATTAATTTGAGTTCCTATTATATAAATCATTTATAACCTCCATCTTGTAGTACATTTGTTTTATAAAAAAGAGTTACTCTATACTCTGCATCTTGAAATTCTTTTAACTTTTTTATTATTGCATTAACTATTAACTTGAATATACCATTATAATCAATTTTATTTTTTTCATAAAAATCTATTATTTGAGAAACAGGGTTTAACTTTAATATTGAACTTATAATATTTTCATCATATTTTTTCATATAAATAATTGTATATAAAGCAAGAATTTCATTCATACTCCCACTAACTCTACTATCTGTGTTAAAATTTCCAGCAGCTAACTTTATTATTTTTTGAAAACTTCCAGAAATATGTATTTTATTGAACTTTCTTTTTTTTGCTTCTTTTATTGAAAAACCAAAATAATTGCCACATAATACTATATTTTTCTTATCACCAAAGTTTTTTTTATAATTACTTTCTCCTCTTCCACCTAAAACAAATACTATTTCTTCATATTCTTTTCTTATAACATCCATTTGAGGTAATAAAGAATTTTTCCAAGCTTCTTCACTCATTGGTTCTATCATTCCACTAGTACCAATTATTGAAATTCCATTCACTATTCCCAATCTTTTATTAAAAGTCTGCTTTGCTAATTCTTTTCCATTTTCTACTCCAACATATATGTCTGAACCATTTATATTGAAACTTTTTAAAACATCTATCATCATTTTTCTTGGAACGGGATTTATTGCAGGTTCTCCTTTTTTTATTTTCAAACCATCTTTTGTAATTATTCCAACTCCTCCTGCAGAAAAAAATTTATATCCTTTTTTTTTGAATACTGATGCAGAAAATATAATTGAATTATTTGTAATATCAATATCATCACCAGAATCTTTTTTTACCATACAAAAGTATTTATTATTAATTATTTTTCCATTTTCTATTCTTATTTTAATATTAAAACCATTGGGTAAAAGTAAATCCACAAATTTTGGTATATTTCCAGTTATTTGCCATAAAACAGAAGCCTTTAAAGCAGCAGTCGCTGCAGTACCAGTAGTAAAACCTCTTCTTAGCTTTTTTCCATTTACATTAATATACCAATTCACTCTTTAACTCCTTCATTAATGCATTTATAATTGCTGCAGCTATATTACTTCCACCTTGTCTTCCAGGTAAAGTTATACAGGGAATTTTAGATTTTATTAACTCATTTTTCCATTCAGCAGCTCCAACAAATCCAACAGGAACTCCTACTATAAAATCAATATCCTTGTATTCAATTAATTTTCTTAAAGCAGTAGGAGCATTCCCAATTGCAAATAATTTATAATTATTATTTAAAGCCTTCTCCATTGAAATATAAGACCTTGAAACTTTCATACTCTTTGCCTTTTCAGAAACATCTTTATCTGATATATAAGTTTCTACCTTTAAATCTTTAAAAATTCTTTTTGAAATTCCCGCAGCAACCATCTTAACATCAGTAACAATCACTCTTTTTTTAAAAGCTTTTTTAAAACCTTCATAAAAATTATTAGAAAAATATAAACTTTCTCCTATTTTAGGATCACCAGTTGTATGAATAACACGTTTTACAACAGACAATTTAGGTCCAGAAAAATTCTTTAAACTTCCTCTTTCCCTCATTAAATTTTCAATTATTTTAAAACTTTTGTTTTCAATTTCCTTTGGATTTAACATATTACCTCCAAAAAAAAGCATCGTCTTCTCCAGAAAACGATGCTTTTTATTTTTTATATAAAAAACTCCTACTTTCTATTCCCGGAGAAAGTAAAAACAACTACTATTTAGGCAGTTCTCCTGACTTACAGATCTTCCTACTCATCATACCTTCCCAGATAAAACCAGTGGCATTTTATGATTTTCGTCCCTGCTTACAGTGGCCGGACCGTTTTGGATTTTCACCAAATTCTCTTTTAAGTCTAATTTTATTTAGACACCTAAAAAGTTCGATATTAAATTTTCTAATTCATTCTAACAAAAAAAAGATTAGCTGTCAATTCTAATTAATAATAATTAAAAACAATAAAAGCTATATTTCTTGAATTTGTTTGAGCTTACTAAAAATCAAACAAATTATTTAATAATAAAGTTTTAATTATTTTTAATAAATTTATCAAAAATTAATAAAATATCATATTATATATATAATAGAATATGAAATTAAAATAATGATTACTTTATAATTTAAAAAAAAGAAAAGAGTCAACCGAAAAGGTTGACTCAAAGAAAAGTGGCGGGACAAAAACCTACTCTTGCACACACGAAGTGTACTACCATCGGCAGATAAAGGCTTAACGGCCAGGTTCGGAATGGTTCTGGGTGGTTCCCCTTACCTTATCCTCGTCCCAAATTATTCACTCACTAGTGCATAAGAAAGTTTGTCCAAAGCCTCGGGTTATTAGTACCACTCGACTCAATACATCACTGCACTTACATCTGTGGCCTATCTATGTTCTAGTCTCGAACTACCCTTACCTCATAAATGAGCGGGAAGCCTTATCTTGGAGCCCGTTTCCCGCTTAGATGCTTTCAGCGGTTATCGGTCATGTACTTAGCTACTCAGCTCCTGCCATTTGCCTGACAGCTGATTCACCAGCGGTACACTCACTCCGGTCCTCTCGTACTAAGAGCAACCCTCCTCAAGCTTCCTACGCCCGCAGCAGATAGGGACCGAACTGTCTTACGACGTTCTGAACCCAGCTCACGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGGACCGACTTCAGCCCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACAACGCCGTCGATATGAACTCTCGAGCGTCATTAGCCTGTTATCCCCAGGGTAACTTTTATCCGTTGATCGACCGCGCTTCCACTCGCCTCGGCCGGGTCACTAGGACCATGTTTCCATTCTGCTCGACCTGTCAGTCTCGCAGTCAAGCCGGCTTTTGCCCTTGCACTCACCGGTGGATTTCCAACCCACCTGAGCCGACCTTCGTACGCCTCCGTTACTCTTTAGGAGGCAACCGCCCCAGTCAAACTGCCCACCTAACGCTGTCCGGCTCATGCTCTTCACATTCCACCGTTAGTAAATCATTATAATGAGGGTGGTATCCCAACGTCGGCTCTAGAAAACCTTGCGATCTCCCTTCTTCGCCTCCCACCTATCCTGTACACATTATAACCATTTACAACGTCAGGCTACAGTAAAACTCCATGGGGTCTTTCCGTCTAACTGCGGGTTGTGGGCATCTTCACCCACTCTGTAATTTCGCCGGATCCTCTGTTGAGACAGCTCCCAGATCGTTACGCCATTCATGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGGCTTCGTTTCGTAGCTCTCACCACTCCACTTAACCTTCCGGCACTGGGCAGGCGTCAGTCCATATACTTCCACTTTTTGTGTTCGCATAGACCTGTGTTTTTGGTAAACAGTCGCCTGGGACTTTCCACTTCGACTCTCAATCGCATTTTGCAACACCATCAAGAGCACCCCTTCTCCCGAAGTTACGGGGCTATTTTGCCTAGTTCCTTAACAGAGGTTATTCCGCTCCCCTTAGTTTTCTCAACCCGTCTACCTGTGTCGGTTTACGGAACGGTCAGTATTTCTCTCAAGCGATATACGAGGCTTTTCTTGGCAGTGTGACTCCTCCCCGTTAGACTTACGTCCTTCCCTTCACAGCTTTTCCTCCACAAGCGGTTTTCCCTACTCGTTTCTTCGGCTTTACTGCTTAGAAGACCTTGCAACTTGGTCTCGGCGATTCACCTCCTGCGTCCCCCCTTATATCTCGTTCATACTGGTACAGGACTCTTTACCTGTTTCCCATCGATTACCCCTTTCGGGTTCACCTTAGGCTCCGACTTACCCTGGGTGGACGACCCTTCCCCAGGTACCCTTAGACTTTCGGGGTGAATGATTCTCACATTCATTTCGCTACTCATGCCCGCATCCGCTCTTGTGTCTCGTCCAGCAAACCTTCCAGTTTACCTTCTCCCTACTACACAATGCTCTCCTACCAATTGGATTACTCCAATTCCGCAGCTTCGGTGTATGGCTTTAGCTCCGTTACATTTTCGGCGCATTGTTCTTCAACCAGTGAGCTGTTACGCACTCTTTAAAGGGTGGCTGCTTCTAAGCCAACCTCCTGGCTGTCTTCAGAACTTCACTACCTTTCACACTTAGCCATTTCTTCGGAACCTTAGCTGGCGGTCTGGGCTGTTTCCCTTTCGACCACGGAGCTTATCCCCCGTAGTCTGTCTCCCGACTATTCAGTATTGGTATTCGGAGTTTGACTGATTTCTGAGGTCGCCCCCATACGTCAATCAGTGCTCTACCCCCAATACTTTCTTTGTCGAGGCCGTGCCTACACACGTTTCGGAGAGAACCAGCTATCACCCAGTTCGATTAGCTTTTCACTGCTATCCACATGTCATCCGAAGATTTTTCACTACCTACCGGTTCGGTCCTCCACTTAGTTTTACCTAACTTTCAACCTGCACATGGATAGATCACTGGGCTTCGGGTCTATCGCATTTGACTTTCGCTCTTTTAAAACTCGGTTTCCCTTCGGCTTCGTCTCTTTCGACTTAACCTCGCCATATACGATAACTCGCGGGCACATTAATCAAAAGGCACACGGTCACTTCCGCTCCCGTTTCCTGTAGGCATACAGTTTCAGGTTCTCTTTCACTCCCCTCACGGGGTCCTTTTCACCTTTCCCTCACGGTACTATTCGCTATCGGTCGACCAGGAGTATTTAGCCTTGGAGAGTGGTCTCCCCTGATTCACGCAGGATTCCTCGTGTCCCACGCTACTTGGGATCAGCTTCGATTAGTTTACGAGTTTTCGTCTACAGGACTTTCACCTTCTTTGGTTTATCTTCCCATATACTTCGACTTCCTCTTTACCTATTCCCTCTATTTACAGTTCGAGTTAAGCTGTCCCTCTACCCCAAATTGACAACGGCTGTACCCTTTTACATCAATTTGGTTTGGGCTCTTCCCTTTTCGCTCGCCACTACTCAGGGAATCTCTTTGATTTCTTTTCCTCCAGCTACTATGATGTTTCACTTCGCTGGGTTCGCCTCCCTTTCGGGCTCTTCCGGGTTTCCCCATTCGGATATCTACGGTTCTTCGATTGCTTGCTTCTCCCCGTAGCTTTTCGCAGCTTGCCACGTCCTTCTTCGCCTCTGGTCGCCTAGGCATCCCCTGTATGCCCTTTTTACTTTGGACTTTCTTTCTTATGCACTTGTCAATGAACTTTTCTGAATGATTTCTTTGGTGGAGTGAAGGGGGCTCGAACCCCTGGCCTTCTGCTTGCAAAGCAGATGCTCTCCCAACTGAGCTACCACCCCGTTCTTTTGCTCACTCAATAATGGATAGAGGTAGTTGTTCTCCTTAGAAAGGAGGTGATCCAGGCGCACCTTCCGGTACACCTACCTTGTTACGACTTCGCCCCCCTCACTAGCTCCACCCTCGATGCATCCGTTCCTTGCGGTTACAGCATCCATCTTCGGGCGTTTCCAACTCGGGTGGCGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAGTTTGGCTGACCTGCGATTACTAGCGATTCCGGTTTCATGCAGGCGGGTTTCAGCCTGCAATCCGAATTGAGGTACAGTTTGTGAGATTTGCTCCACTTCTCAGCTTCGCTTCCCTCTGTCCGTACCATTGTAGCACGTGTGTCGCCCAGAACATAAGGGGCACGCTTACCTGACGTCATCCCCTCCTTCCTCCGTCTCGTCGACGGCTGTCCCATTAGAGTAGCCCATCTTCACATGCTGGCAACTAATGGCAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACGGCCGTGCACCACCTGTGTGAGACTCCTTTCTTGCGAAAGTTAGTAGTATCTCTACTACCTTATCTCCATGTCAATTCCTGGTAAGGTTCTTCGGTTAGCTTCGAATTAAACCACATGCTCCACCGCTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATCCTTGCGGACGTACTCCCCAGGCGGTTCACTTATCGCGTTTGCTTCAGCACGGAACTTTGACATCCCACACCTAGTGAACATCGTTTACGGCTAGGACTACCCGGGTATCTAATCCGGTTCGCTCCCCTAGCTTTCGAACCTCAGCGTCAGGATTACTCCAGAAAACCGACTTCTCCACTGGCCTTCTTACCAATATCTACGGATTTCACCCCTACTCTGGTAATTCCGTCTTCCTCTAGTATCCTCAAGTTATACAGTTTCAAGCGCTGTTCCACCGTTGAGCAGTGACATTTCACACCTGACTTACATAACCGCCTACGTTCCCTTTACGCCCAGTGATTCCGGGCAACGCTCGCCCCCTACGTCTTACCGCGGCTGCTGGCACGTAGTTAGCCGGGGCTTTTCTTTACATACCTTCCTTGTACTGTCTCCAGTACTTTATATTCTGTAAATTCAGAAGTTTACATCCCGAAGGACTTCTTCCTTCACGCGGCATCGCTGGATCAGACTTCCGTCCATTGTCCAAAATTCCCCACTGCTGCCTCCCGTAGGAGTAGGGTCCGTCTCTCAGTTCCCTTGTGGCCGTTCGTGCTCTCACACCGGCTACCCGTCGTCGGCTTGGTGATCTTTTACTTCACCAACTACCTGATGGGACGCAGGCTCGTCCTTTGGCGCTTCTCTTCCTTTCCTCTCTCGAGCTTATCCGGTTTTACCTACAGTTTCCCATAGCTATCCCAGTCCAAAGGGTTGATTCCTACGCGTTACTCACCCGTTCGCCACTAATACTCTCCACCGAAGTGGATTTCTTCGTTCGACTTGCATGTGTTAGGCGTGCCGCCAGCGTTCACCCTGAGCCAGGATCAAACCCTCCATTCGAATGGTTTGATTCTCACTCTAGTTCTTTCTTACTAGCGTCCTTTTCTTTCGAAAAGTTTTATTTTACTACCTCTATCCATTTTTCAATGAGCTTCTTTCTCCTTCGCTTGCTTTTCCCTCAGCGACTCAATCATTTTATCACTTTCTCCTTCTTTTGTCAATTGCTTTTCTTTTACTTTTTTGTTTTTTTTATCTTACCCTTTTCCACTTGTTCGTGTGTTTTTGTTTTTTCTTTTTAAATAATGATATTTTATAAGTCAATTTATATTTTATTTGGTAAATTATTTTTTTCAAGTTCATCTTCAAAATATCCCATTATACTTTGAGGATTTAAAAAATTTTTTAAATTAAATTTTTTATATTTAAATGCATAAACTATAACCATATAATATAATGATTCTCCTTTATAAAAAGTATTTTGATTCAAAAATTGTGATAAATAAGGATTACTCATATCAGTTGTAATTTGATTCTTCCAAACATAAATGAAGTTTAGTATTTCATCTTTTATTTTTTCAAATTCATCTTTTAAATCTTTTATAGTTCTTATATCTATATTTTTTAAAATATCTCTTAATAATGGTAAATTTATAAATCCCGTAGAAGCACTTCCTATTTTATCCAGCAACTTTGTTTCAAAATCATTAAAATCTTTATCTGTTTTTATATATGTTTCTAATGATAGTTCATCAATCATAACATTTTCAGGATCATTTTTAAGTCTATTTGGTAAATTTTCTATATACTTATCAAAGTTTACTTTTATATTTTCAAATTCTCTATCCGCTATCTCCAAAAGGCCCGCAAGTCTTGCAAACTCTCTTTTTATTTCATATGGAACATATCTTCTCGATTTATATGAAATATCATGTTCTATTTCTGCCCATGCATGTTGCAGTGTAGACCTAATTTGAATTTCTGCTTTTAAATTTCTATATAAACTATTTTCAGGAAGGCTTAATCTTTTTTCGTCCAAACTCACAACATAATGAACTGACTTATAACCAAATTTATCCGCTTCTAAAATTTTTCTTTTATCTACTGAGTTTTCTTCGTCTATATTAAATTCTTCATGTAAAACCTTAGATATTTTATTTACATCACTTTCAAGATAAGCAACTATTCTTATTCCAGTCATATCTGTTACATCTTCCAACAAATTATACTTATAAGATTTTTTTCTAAGTTTTTTTTCAAAACTCTTTTTACTTTTTACTCTACTCTTTATAAAATTTATTCCTCCACCAGGTTCATCTGTAAATCCATTTTGTTTTAATATACTTCTTATAAGAGAATCCATGTGTTTAGTAAAAGCTTCATAAATAGGTTTCATTTCATCATACTTATTTAATAAAAGTTCAATTGTTTTCTCTTCCATTATATTTAGATCACCTCAAATTATTATAATACTAAGTTTATTATAATATAAATTTCTTAAAATTATTTTAATTTTTTATTTTTTAAAGAAATTACTTTTTTTAATATTAACTTTATTTCATCTTTACCCATATCTTTTGAAATAGAATCTTCTATACTAATTAAAATAGAAATAAGAACTGCTAAAATTTTTTTATATTTATTAATGCTTTTTTTATACATATTCCAACCAAATTTTTTAACTTTTGGTGATATTAAAAATTTATTTATTGTAATCTTTGAAAAAGCCATAAAGGCAATAAATAACGAACTCAATGTAGCAGAATTTATTATACTTTTTCCTTGATTAGTGAGTTTGGATATAATTAATATTAAAATAATAGAAAATAAAACATCTATAAAAAAAACAAAAGAAGAAGCTATTGAAAATATTTCAAACCTTCTTTTTAATTTTTTCTTCATTTTAAGGCTTATCTTTTTTATACGCAAAATTTGTTCATCTTGAATTTTATCTTTATATTTTGAAATTTCAGGTTTTATATGTTCATCCATAATGTCAAAAAAAGCTTCATTAAATTTTTCTTGTGCATTTTTATATGCCCAATGAAGATTATATTTATCTTTTTCATTATAAATAATTTCTATTTCTTCAAAAACTTTATCAAATTTTTCTATGTAAATTTGTTTATTTGAAATAAAGTTATCATTATAATGTTCTGGATACACTTCATTCATTATTTTATATACTTTATCCAAAATTTTTTCTTCCATGTCTTAATACTCCTTTTTTATTTATACTAATATCATTATACTACAAATATTAAAAAATTATTTTTGTAACTTCAATTTTAAAAATGAAGTTTATAATTAATATAAATTAAAACAAAAAAAGAGGTGATTTTATGACAGGAAGTCAAATATTTTGGTATGGAAGTATAGCAAGTTTAATAGCAGGACTTGCAACTTCAATTGGCGCTATACCTGTTTTCTTTTTTAAAAAACAACTTTCCGAAAAATCCTTAGATGCTTTTTTAGGATTTGCTGCTGGAATAATGCTTGCTGCTACAATGTTTTCACTAATAGTTCCATCAATAAATACTGGTGGAATAACTATTACAGTTATTGGAATAATTGCAGGTGCAGTAGTATTAGAGCTATTTGATACTTTCTCTCCTCATGAACATTTTTTAAAAGGTCATGAAGGACCAAATATTGATGTTGTAAAAAAAGTATGGCTCTTTGTAATTGCCATTACCCTTCATAATTTTCCTGAAGGAATGGCTGTTGGAGTTAGTTTTGGTGGTGGAATGATAAAAAATGGTATAGTCGTTGCTTTAGCTATTGGTATTCAAAACATACCTGAAGGTACTGCTACTGCTGTTTCTTTTTTAAAGGCTGGTTACTCCAAAAAGCAAGCATTTTGGTGGTCTTTTTTAACTGGAGTTGTTGAACCTATTGGTGGTATTCTTGGCGCAGCTCTCGTTGTAATCATGGCTCCAGCATTACCACTTTTCTTATCATTTGCTGCAGGTGCAATGCTTTATGTTATAAGTGATGAAATAATTCCTGAAACACATTCTCATGGATATGAAAGAATTGCAACCTTTTCATTGATTTTTGGATTTTTATTAATGATGGTTTTAGATAATGCATTAGGATAAAAAATAATTAAAATACAAATTAAAAATTTAATTATCTCCATTTTCATTAGTAATAAAACATCTCCTTGTAGTTCAGTGTTTTATTAATTATACTGTCTACTTTGGAGGTGTTTTTTTACGCGGAAATTAATTTTTGGTTTGTTGGTTAGTTGGTTTGCAGGATAGGACGAGAACTTTTTTTGTTTTCAAATGTCCCTTTGAAGGGACGAGGTCTTTTCGGGGGGGGGTTATTGATCCTTTTGAATCTCTGACTTTTGATAATTTTAAATCTTTTATCACTAAACAAAATTAGAAAATACTATTTATTACATTATAAAAAAACTCAAAGCATATTTTAAAAATATACTTTGAGTTTTTTATTAATATATTATTAGTTTACATATTCATTATTAAATCATTTTTTGAGCACATTTCTTCAGTTTTTGGACCATAAGATATATAATGGATTTTCACGCCTGTTTTTTCTTCTATAAATGCCATGTATTTTAAGAAATTAACATCATTTGTGTCTTTCCAACCTGGCAAAGTTTCATAAACTGGTTTTGCTTTTGAAAAGTCATATGAAGATGATGGAATTTCTTTTATTTCACCATTTATTTCATATCCAGTACAAACTTTTATTTCATCAAATCCATTTAAAATATCTGCTTTAGTAATTACAAATCCAGTTAATCCTGATCTAATCTTAGCATATCTCAATGCAGGCAAGTCTAACCATCCAACACTCCTTGCTCTTCCTGTTGTTGCTCCAAATTCATTTCCAAGTTTTGCTATTTTTTCTCCAAGCTCACCTTTTATTTCTGTTGGAAATGGTCCAGATCCAACTCTTGTAGTATATGCTTTCAATACTCCGTAAACTTCATCCAATTCAAAGGTTGAAAACCCAACTGAAGAAACGCCATGAGCCATACATGCTGCTGAAGTAACAAATGGATATGTTCCAAAATCAAGATCAAGTAAAACACCTTGAGCTCCTTCAAATAAAACTGTAGAATTTCTAAAAACTTTACTCATATCGATTGCACTTTCATAGTTCACTTTTAAATTTTTTAATTCTTCTCTTTGTTTTAAAAGATAATTATATACATCTTTTGCATTGCTCTTTAATCTACCTGAATAAATATTATTTTTTAAATAAAATATATCTTCTAATCTTTGTTTTAAAAGTTTATCATCAAATATATGGTATAATTTTATTCCTTCTCTTGATACTTTATCTGTATAAGCTGGACCTATTCCTCTTTTTGTTGTACCTATTGGTTCTCTTCTCATTGACTCTAATAACTCATCTTCTTCTTTATGCCAAGGTAAAACAATAAATGCTTCTAAGTCTATATAAAATCTATTTGAAATTCCAGGAAAATCTTCTTCCATAACTTTTAATTCTTTTATTAATTGTTCTAAATCTATTACCATTCCAGCACCTAAAAATCCTTTTGAATAGTTTCCGGGATTTATTGAAGGTAAAAGATGATTTACATATTTTTTCCCCTTATAATAAATCGTGTGTCCTGCATTTGCTCCTCCTGAAAATCTAACTACCCATTCAAACTTTTCTGAAAAATAGTTTACTACCTTTCCTTTTCCTTCGTCTCCCCATTGTGAACCTACTATTGCTAATCTTTTCATGGGTCACCTCCAAATTTAAAGTCCAAATCTTTCGTATATTTTATCTATATTTTTTAAATAATAATCATTTGAAAAAAACTTTTCTATTTCTTCTTTATTTATCTTATCTGTTATTCTATCATCATTCATAATATAAGTTTTAAAATCACGTCTTTCATCCCATGCCTTTAATGCATTTTCTTGAACTGTTTTATAAGCTACTTCTCTACTAACTCCTTTTTCTACCAAACCAAGCATAACTCTTTGAGAATAAACTAAATTATAAGATTTTTCAAAGGTTTCTTTCATTCTATTCTCGTAAACTATTAAGTTATCTATTAAATAAATAGATTTTTCAAGCATATAATAAGCTGTCATACAAGCATCTGGAACGAAGACTCTTTCAACAGATGAATGAGAAATATCTCTTTCATGCCAAAGAGTAATATTTTCAAATCCAGAAACAGTATAACTACGCAACATTCTTGCCATTCCAGTCAACCTTTCACAAATAATAGGGTTTTTCTTATGTGGCATTGCAGAAGAACCTCTTTGACCTTTTTTAAAAGGTTCTTGAGCTTCTAAAACTTCAGTTTTTTGTAAATGTCTAATTTCTGTTGCCATTCTTTCTATTCCTGCACCCATTAAAGCAAGTGTATTAAAAAATTCAGAGTGTAAATCACGAGGTACAACTTGAGTAGAGACTTTAGCTGGAGTTAATCCAAGGTAACTTAAGGCAAGTGTTTCAATTTCAGGAGATATGTTGGCATAGTTTCCAACCGCACCACTTATTTTACCAGTAGAGATAGATTTTATTGAAGTTTTTAATCTTTCTATATTTCTTTCTGTTTCTGCAAGAAAGGAAAGAATCTTTAATCCAAAAGATGTAGGTTCTGCGTGTATTCCATGTGATCTTCCAACTGTAACGGTGTACTTATGTTTTATAGCAAGTTTTTTTAAAGAGTCTGCATATTTTTCAAGTTTTTCTAAGATGAGTTCCCCTGCTCTTTTCATAGCAAGAGCCCATGCAGTATCTACAACATCCGACGAAGTCAAACCTTTATGAAAATATCGAGCTTCATCACCCATATTTTCAGTTACTCCCTTTATAAATGCTATTACATCATGATCTACTACTTTTTCAATATCAAGGATTTTTTCAACATTTATATTAGCTTTTTCTAATATTTTGTCTACTGTACCTTTTGGAGCTTCATTTTTTTCTTCAAAGGCTCTTACAACTGCAACTTCAACTTCAAGCCATCTTTGATACTGTTCTTTCAATCCCCAAATATCTTTTATTGGAGATAACGAATACCTTTCAATCACAAAAAAACACCTCCACTTTATGGATTAAGAATATCTTTTGCTTTCTTTGAATATGTATCTTTTACACCTAATGCTATTATTATTAAACCAATTATTATACCTGTTTTTTGATCTCTTGCTTGTGCAAGAAAATATCCTAAAGCTATACCGTTTAAAGTCCATGAGAGTAAAGAAAATACTTTTTTATTTAATAATTTAAAAAATGTTATGAGCAATGAAGATACATTCATTAAAGCATAAAAATAATTCATATCAAATCCTCTAAAAAATCCAAAGAAAGAAATTAATATAGAAGTAAACAAAAACATTCCTATTGTTTTTTCTTCTATTTTATTTTTATATACTAAAAGACCAGTTAATATGTTAACTCCAATTCCTATTATCCAAAATAATTTATTTACAACAAAAAAACCACCAATACTATTTATAATTAAAAAAACGATTTGATACATCATATTATTCACCTCCAACATAGATATTATAATATAATTTAAAATTTATATATTTATATTCTGTTAAGATTTTTTATCTCTTTTAAAATACTTAAAATTTATACTTTTTAAGAAATTTTTTTCTTATCTGTTCTTTTTTGCTTATATTAAACTCATATTTATTTACATCTTTCAAATAATCTTTAATAAAGTTTTCGATGTAATCTAATTTATTGAATTTTTGAGTTAAGGTCATATCATTATTATTAATTATTTCATTAACAGAATTATTTATTTTTTTATAAAGTTCTCCAAAAACTACTTTTTCTTTTAATAAATTTATTTTATATAATTTTTCATCGTAAACTTCTTTAGTAACATCTTTTAAAAGAGTTTCTTTTTCATTTTGTATTGAATAATTATCAACTTTTTCTTGAATAAATAAATTTAAAAGTAATTTGTGTATTATTTTATAGAGTATATCAAAAATTATTGCTGTAACTGTTAATTGAAAAATTTGTGTATAAAAAAAGGGTATTGAAATATTTTTAAATGTAAAAAACTCAATAGATGCTTCAAAAGCCCATCTTAAATTTCGAATTACAAACATTTTTCCAAAAAAGATATCCGTTATAATTATTGAAAAATATAAAGAAGTAAACTTTTCAAAAGGTACTAACAATATACTTCTTATAAAATTTTTATTTTTATACTCTTTTATCATAGAAATAATAGTGCTCGAATAAATAAAAACTATAAAAGCAAGAAAAAAAAGATTTATTCCATTAATATAAAATAGATCCTCAAAATAATAAAACTTTCTTTGAAATGATAAAACAATCATAATTAATATTAAATAACTAAAAAATTTATCCATTATTTTTTTATTATTTGTCATAAAAGGCCTCCTCTTCATTTATATGGTTTATCATTTAATTTATGTTTTACTCCATATTCTTTTTTTTATTTTTTCAATAGTTTTTTGTGAATTTTTTTGTTTTGTTTATTAATTTTAAATCAAAGCTTTCATACAATAGTTTTCAATTAAAGTGATTTATTTAATTTATTTATCACTTTAATAATTTTTTTATCTCTATTTGAATTAGGCCAATTTATAATACCACTCTCACAGATAATTCCATCTTTTGATTCGCATATTTTTTTCATTTGCTTTATTGTTCTTTTTCCACCCATCCATTCGTATGGTAAAGCTTGAGTTGCTATGAAAAAAATCTTTTTATCCTTTAAAGTTGAAATTTGATTTAAATAATTTTTCATTGGTTCAGATACAGAAAAAGCATGTACTGGTGTTCCAAAAATAAATGCATCATATTTTTCAATATCTATTTTTTCAAAACTTTGATCCTCTTTTATTGAAAATACTTTTACCATATGATCATTTTTTTTAAGTTCTTTTTCCAATCTTTCAATAATTGAACGAGTGTTTCCAGTTTTAGAATAAAATACAATACCAATGTTCATATTATCACCCCGTTTTATAAAGCTTATTAAAACAATAAAAAACTTCAAATTAAGAGTAGTTTGATTATTATTGAAAATTTCACCATTAAATTATACCATACAAAACTAAATCAAATTATTAAATACAAAATATTAAAAATTTTGATTATCTTTGGTGTTATAATTAATATTAGAAAAGTTAAAAATTTGAGGTGATAAAAATGGAAAATATTTTTGAAACTAATGTTTTAGATTCAAATGAAGCAAAAGTAATGGATAAATTAACTATAGAATCAGGTATAATGGAAGAAACTTTAATGGAACAAGCTGCTTTTGCTATTGCGGATGTTGCTTCAAGTTTTTCACCAAAAAAAATACTTTGTGTTGCAGGAACGGGTAATAATGGTGGGGATTGTATTGCTGCTGGACGTATTTTACATAACAAGGGTTATAATGTAGAAATTTATATTTATGGAAAAAATCAATCAAATGGTTTTAAAAAACAACTTTTAATTGCTGAAAATTATGGTTTAAAAATAAAATATAATAAAGATTTTTCTGATGAATATGATTTGATTATTGACGGTCTTATTGGTATAGGATTAAATGGTGAGGTTAGAAGTTCAATAAAAACTGTAATTGAAAAAATTAATTCAAGTAATGCAAAAGTTATATCAGAAGATATTCCATCTGGAATATCTTCTGATACAGGAGAAGTTATGGGAGACGCTGTTCATGCCGATATAACAATTACTTTTGGAAATTTAAAAATAGGGCAAATTCTTTATCCTGGAAGAGAATTTTCTGGAAAGTTAAAAATAGCCGAATTATCTTTTAAAAAGTTTATTTCAAATAGAAAGATAATAACTCCAGACATTATAAAAGTACCTAATAGAAAAAAAGATTCACATAAGTATGATTATGGAAATGTTCTCATATTAGCAGGGAGTTCAAAGTATCCTGGAGCACCTATTTTAACTGCTCTTGGAGCTCAAAGAATAGGCGCCGGTTTAGTCACGCTAATAACGCCTGGTGATTCTTCAAAAATTTTATCTTTTGAACCTTCTATAATCTATAGTAGTTTAAATAAAAATAATTTTGAAAAAAATGATTTAAAAAAGTTAAATGATGAAATTGAAAGAGCAAATGTAATAATTTTAGGCCCTGGTATGACAGAGGATTCAATTGAGTTTGTTGTAGAACTAATAAAAAAACAAGGAAGAACAAAAAATATAGTATTAGATGCTGAAAGTATTCAAGCAATCAAAGAATTTGAAAGTCTTTCAGAAAATATATTAATAACACCGCATGTTGGGGAAATGAAAAAAATATTTAAAAATCTTAAAAACAATATTTTCGAACTTGAAAGATTTTCAAAACAAAAAAAATGTATAATAATGTTAAAGTCATCAATTACTACAATAACTGATGGTGAAAAGACATTTTTTAACCTTTTAGGAAGTTCATCATTATCAAAAGGCGGAAGTGGAGATTTATTATCTGGTATTGTTGGCGGTTTAATAGCACAAGGACTTGATACAATAAATGCTTGCATTACTGGTTCTTACATAATGTATAAAACAGCAAAAGAATTGAGTAATGAGTATACAGAGTATTTCATTACTCCAAAATTAATTTCAGAAAATTTATATATTGGATTTAAACTGTGAGGTTTTTTATATGAAATTGAGATTTTTAACAACTCAAAAAATAAAACAAAAATTAAATTTAACTCAAAAACAGATTAGACTCATAAATTTACTTCAAAAAGACTTTATGGAACTTGAAAAAACTGTAGATGACTTTATAAATGAAAATGCTTTTATAAACTTTAAAAGTTATGATGAAGTTTACATACCTCAATCAAAAATCGAATATATATATGAAAATATTAAAGAACCTGAAGATGTTCTTTCAGAAATAAAGTTAATATTTTTATCTATAGTTGAAAAAAAATATGAAGATTCGGCAGAAGCTTTAACTTCTTATATAGATTCTAATGGTGTTTTAAAAGTTGATAAAAATGATTTTATAAAAGAGTTTAACTTATCTAAAAAAGAATACGAAAACCTTTTAAATACATTAAAAAGATTGGGACCAACTGGTTTCTGTGAAGAAACACTTGAAAAAGCTTTGATTTTAAGAGAAAAAAATAATGAAAATGGAACTCCACTTGGAAGTTATTCTTCTTCTGCAAGGTATTTGACTAAAAAGGTAGATATTTATTTTTTTATTGTAAATAATGAACTTAAATATGAAATAGAAGAACCTAATCTTCCCAGTTTAAATAAGGATTACTTAGAATCATTGAAGAAAACTAATGATTCTAAGGTTATTAAGTATATAAACAATGAAATAGAAAGATATAATGAATTAAATTCTTTATTAAAAAAAAGAAGAGAGTTATGTAATTCTATTGCCAATCTTTTAATAAAAACTAATTATAATTTTATTAAAAAGAAAGAAAAAATTATTCCATTAGGTATACGCGACACAGCAAAAAAGTTTGAAATGAGTGCTTCTACAATAAGTAGATTTGTAAATACCAAAGGGGTTCAACTTCCAGATGGATTAAATGTACCTTTAAATATTTTTTTTAATACCAAAGATACACAAAAAAATGAAAAAGAAAAAGTAGTTAATTTTATAAAAGAACATATGAAAACTTCAGATCAAAAACTTTCTGAAATGATAAAAAAAGAATTAAATATAAAAATTTCAAGAAGAACTGTAAATAAATATAAAAATGAAATAAAAAAGGAGAAGTGACTAAAATAGTATATATAATATCAGGTGGTGAAAATAGAAGTAGTTTAGAGTTTTATAAGTCTATGATATTAAAATCAAAAAAGACTATTGCTTGTGATTCGGGAATAAAAGTTTTTAAAAAGTTAAATATTCCTCCTGATTATTTAATTGGTGATATGGATTCTTCCAGTTCTGAAGATATAAAATGGGCAAAAAATAATAACGTTGAAGTATTAAGCTTCCCTTCTGAAAAAGATGAACTTGATACGGAACTTGGATTAATACTTGCAAAAAAATTAAATGCAAAAAAAGTAGTTATTTCATGTGCAACAGGTTCAAGAATAGATCAAGTAATTGGAAGTATATATCTTTTAGGAGAGTATCATGTATTAAATGCAATAATAGAAGAAGAAGATTTAATAGTTGGTACAGTTAGTAGTAAAACAGAATTACCTTCTATTTCTGGAGAAAGTTGGTCTATTCTTCAACTTGGCAATGTACTTGGACTCACTTTAAAAGGTTTCAAATACAATTTAGAAAACTATGATTTAAATACTTTAAAACCGCTTGGAGTGAGCAATGAAGCAATAAAAGATAAGGTTAGTATTTCATTAAAAAGTGGTATAGTTGCTTATATTCGTTGGATTGGACGTAAAGTATAATTAGGAGGCATTAAAATTATGTGGCTTTTAATTTCTGATACTCATGATAATTTAGATAAATTAAAAAAATTACCAAATATAATTAAAAAAAATTCAATAAAAACAATATTTCATTGCGGTGATTTTATATCTCCTTTTACTTTAAAATTTTTTATGTATGAAAATGTTGATTTCTATGGTGTTTTTGGTAACAATGATGGTGAAAGAGTAATATTATCGCAAAAATCAAATGTTAGTATTGTACCTGGACCTCGTTTTTTAGAAATTAATAATAAAAAAATATATATGATGCATGAGCCTTACTCATTGAAAGCTGCAAAAAATTCAAAGTTATATGATTATATATTTTTTGGTCACACTCATGAAAAATTCCATGAACAAATGAACAATACTCAAATAATAAATCCGGGTGAAGGAAGCGGATGGTTGACTAATCAAGCAACTTACGTTATAATAAACCCTGAAAATAATAAAATAGAATTTAAAGTTTTATAGTGGAGGTAAATATGTCAGAAAAAAAAACAATTGAAGATTTTATAGAAAAAGTTAATAAAGATACTATACCAAATAAATTACCTGCAATTGCAACGAGAACAAGAATGATAACATATCCAAACTCTGTATCTCCAATGTATATTGGAAGAGAAAAATCTTTAAAAGCTTTGGAATTAGCACTTTCAAAACACAATAATTATATATTTTTAATCTCTCAAAAAGATATTGAAGTTGAAGAACCAAATGTAAAAGATCTTTTTAGAGTTGGTGTTGTTGCAAGAATTGTTCAACTTTCAAAAACTCCAAGTGGAGATTATAAAATAATTGTAGAGGGTATAAAAAGGGCAAAGATAAAAAAGACCATTTCAAAAGAAAAATACTTTATGTTTGATCTTGAACTCATGGATTCAAAAATAAAAGAAAATAAATTAGTTACTGCTTTAGCAAGAAAAGTTAAACATTTATTTCAAAAATATCTTGAATTGACTAAAAAGTTTCCGCAAGAAGCATTATTTACAATAGAAGAAACAAATGATCCTGAAATTTTAAGTGATCTCGTAGCATCCGTTTTGCCAATAGAATTAAATGAAAAACAAGAAATATTGGAAACATTAAATACAAAAAAAAGACTTGAACAAGAACTTGAAATTTTAACAAGAGAAATCGAGCTTTTAGAAATAGAAGAAAAACTCGAAAAAGAAGTTAGAGAAAATATTGAAAAAACTCAAAAAGAATATTATTTAAAAGAAAAGTTAAGCGTTATACAAAAGCAATTAAATGGAGAAGCAGATGAAGAAATAGTTGAATTAAAAAATAAAATAAATGAAAAAAAATTACCAGATGAAGCCAAAGAAAAAGCTTTAAAAGAATTAGAAAGACTAAGTAAGATGTCTACATATTCGCCTGAAGCTAATGTCATAAGAACATACTTAGATTGGATTCTTGAATTTCCTTGGTATGAAAAAACAGAAGATACATTAAAAATAAATCAAGCAAAAAAAGTATTAGAATCAAATCATTCAGGTTTAGAAGAACCAAAAGAAAGAATACTTGAATATTTAGCCGTAAGAAAGTTATCAAAAAATACTAAAACACCAATCTTGTGTTTTGTTGGTGCACCTGGTGTTGGTAAAACAACTCTTGGTAAATCTATTGCTCAAGCTCTTGGACGAAAGTTTGGAAGAATTTCTTTAGGTGGTATTCGTGATGAATCAGAAATAAGAGGACACAGAAGAACATATGTTGGAGCAATGCCTGGTAGAATAGTACAAACATTGAGAAAAGTTAAAGTTATAAATCCTGTAATCGTATTAGATGAAATAGATAAAATGAATACTTCATTTCAAGGTGATCCAGCAGCAGCATTGTTAGAAGTTTTAGATCCAGAACAAAACACAGCATTTGTAGATCATTACTTTGAATTACCTATTGATTTATCTGATACAATATTTGTAACAACAGCAAATGTAATTCACACAGTTCCACCAGCTTTAAGAGATAGAATGGAAATCATATATATTTCTGGATATACTAATATTGAAAAATTAAAAATTGCAAAAAAACATATTCTTCCTCAGTTATTGAAAGAACATGGTTTAGATGATGAAAAAATTTCTATTACTTCAAATGCTTTAAAAAACATAATATCCGATTATACTCGTGAAGCTGGAGTAAGAATATTAAAACAACAAATTTCAAAACTTTTGAGAAAATCAGCTTTAAAATATACTTCTACAAATGAAAAAGTTAAAATAACTAATAAAAACCTTTCAGAATTTTTAGGTCCAAAACCATTCTTTAGTTCTGAAAAAAATGAAAAACCAGAAGTAGGAGTTGTTACAGGTCTTGCATGGACTGCTTATGGTGGAACAACACTTGAAGTTGAAGTTATAACTATACCTGGAAAAGGAAAATTAATTTCAACTGGACAACTTGGAGATGTTATGAAAGAATCAACTCAAATTGCTTTGAATCTTTCAAGAAAAATAATAGAAGAAATAGATGAAAAATTATTAGAAAAATTTGATAAAAAAGATTTTCACATTCATTTTCCAGAAGGAGCTGTCCCAAAAGATGGACCTTCTGCTGGTGTAACTATAACAACAGCCTTAATTTCATCAATATCTAAAAAAAAGGTTAGAAATGATATTGCAATGACTGGTGAAATAACTCTAAGAGGAAAAGTTTTACCTATTGGAGGAGTAAAAGAAAAAGTAATATCTGCTTATAGAGCTGGAATATATGAAGTAATTTTACCTGAGGCAAATAAAAAAGATGTAGAAAAAATCCCAGAAGAAGTTATGAAAAAAATGAAAATTAATTTTGCAAAAACAATAGATGATGTGCTTAATATAGCTTTAATTGGAGGTTTAGAATGTGTTAGTAAAGAGTGCTGAACTAGTAAAAATGGTTCATAATATAGATCATTTACCAGAACCCATGAATGGTGAAATTGCATTTGCTGGAAGATCTAATGTTGGAAAATCAAGTCTTTTAAATAGATTAATGACTAAAAAAGAAGCAAGAGTTAGTTCAAAACCAGGAAAAACAAGATCAATAAATTATTATTTAATAAATAAAAAGTATTATTACGTTGATTTACCAGGTTATGGTTTTGCTTCTGTTTCAAAAACAGAAAAAGAAAAATGGGAAAATTTGATGGAAGGATACTTTACTGGTCGTGAAGAATTACAAATGGTATTTGTTTTAATTGACCATAGACATCCACCTCAAAAAATGGATCATATGATGGTATCATGGTTAAAAGATTTGAGAGTTCCTTTTACTATAGTATTGACAAAAATGGATAAATTAAAGAAAAATGAAAGAATGAAAATGTTTAATACAATAAAATCAGAGTTATCTTATTATGGAAACTATACATACTTTCAAACTTCATCTGAAAAAGGTGAAGGTATAAATGAATTAAATAAATACATATCTATGATAATTGGAAATTAACTCCGGCTTTTGCCGGAGTTTTATAAAGGTGAATAAAATGTATGATATTATAATTTTAGGTACAGGACCAGCTGGACTTTTTACTGCTGCTAATATAAAAAATAAAAAAATTTTAATCTTAGAAAAAAATTCAACTCCAGCAAAAAAACTATTAATTTCTGGATCTGGGCAATGTAATATTACTCATGATGGAAGTATGGAAGACTTTATAACGCACTATAATAATAAAAATTATGCAAAAAAGGTACTTTATAGATTTACAAATGAAGAACTAATATCTTATTTTAATAATAAAGGTTTAAAATTTATTTTAAATAAAAATGGAAAATACTTTCCAAAATCTTTAAAGTCACAAGATATATTAAATATTTTATTAAATGAACTTGGTAACAACATTAAAATTAAATATAATGAATTTATAGAAAAAATAACAAAAAAAGAAGATACTTTCATTTTAAAATCAAAAAACAAAACATATAAAGCTAAAAACATCATAATAGCAACTGGTGGAAAATCTTATCCCATGTTAGGAACTACTGGTGATGGTTATAAGATAGCTGCTTCTTTTGGACATAAAATAATAACCCCAAAACCAGCTTTAGCTCCATTTAAAATTAAAGATTATTATTTTTCAGACTTACCTGGACTTTCTTTCAATGGAGCTATAAGTATTAAAAAAAATAAAAAGAAAATAAAAAAATATGGAGATTTACTTTTAACTCATGTTGGAATATCTGGACCTTTGATTTTAGATTTCTCAAGATATGTAAATGACGGTGATACTATAACAATATCTTTTTTAAACTTTAAAAACTCTGAAGAATTTTTAGAAGAATTAAATAAAAAAATTATACAAAATTCTTCTAAAAAGATTTTTTCTATTTTAAAAGAGTTTAATTTACCTGAAAGATTCATAAAAAAAATGTTTGAACTTTTAAAAATAAAAAATTCCTTAGCTCAAAATATCAGTAAAGATTCAAAAAATAAAATATCTAATTTTTTGATGAATAATGAAATGATTGTGGAAAAATTGTTTGACTTCAACCAAGCAATGGTAACTTCAGGTGGAATTTGTACAAAAGAAGTAAATCATAAAACTTTAGAATCAAAACTTGTAAAAGGTCTCTTCTTTGCAGGAGAAGTTTTAGATATAGACGGAGATACCGGTGGATACAACATACAATTTGCAATGAGTTGTGGGAAAATAATATCTGAAAATTTTAGCAGAAAATAGTTTTATGCAACAGTTATATCTATTACGAAAAAGTTTAAGCATGTTATAGTAAAATATTTATTATAATAAAAAAATAAAAGTATATTCTCAAAAAATATACTTTTATTTTTTTATGTAAAGGTTAAAATATAATAGCCATATAAATACTTAATGATTTAATATTTTATCTTTAAAAGATTATAATATTTATCTAAAAAAATATATATTTTCTCAGTTTTATCATTTTTATCAAAAAGATTAACTTTAAATATAATAGTGTATTTTATATTTTTTTTATTTATTCCATTCATAATGGCTACTTTATTTGCATCTTTATTTTTATAAAATTTATACAACTCTAACTTTGTTATTAAAGAATTTATATTATTTTCAAGATAATCTTTAGACATTTGTAAAGCTATTTCTTTAGATTCATATTTTTGTTCTATTAATTTTGTATAAAAATCTAAAAATAATAAAAATGATATTAAAATAATAGTAGTTAAAATAATAGTTTTTTTCATAAAATCACCTCAGATTTATAAAAATTAATTAATGTCTATAAAATCATATACATACATATTTTTCAAATTTTTATCTAAAAACTCTTTTGAATCATAATATATATTCATATGTATTTTTTCATTATATGTTCCCATAGTAATAACTATTCTTATATTTTCTAAGTTCCAAATTGTATAAAGAGTTAAAAAACCATTTTCTAATGAATAATCAGGATTATTTCTATAAAAAACATTTTCATACATTTCCATATCTTTTGAAGGAGCACCATATTTTTGAGTAATAACATTTTTTACTGTTTTATAATCTTTAAACCAATACTTTGCAGTATAATGAATTGCTTTACTATTAAATTCAACTCTCCAAAATTTATCTTTATTAAATTTAAAATAAGCTTCAGATGGAATATTTAAAATTTTACTTTCATACCCTAATGTTGATTCATCTTCATAATTAAAGTCTTCGTTTAAATGTTTTTTTACATATTCTTTGTTTGAACCAAAAGGAATTTCTCTATATAAATTTTTAGATTTTTTATCTACAGTTACAAAATTCCAAACCCCATTTTCTTTTTTTACTTCTCCACCATCAGAAGAAAAGTTCACTCCTATAATTAAAATAAACAAAAAGAAAATTAATATTTTTTTCATTTTTATCACTCCTTTTCATAATATTATTTTATCATACTTTTAAATAAAAATAAATATTATTTCTAATTCCATATCAAATTTATGGTATAATATTCTTGGAGGTGAAACAAGTTGTCTATATCTACTAAAACTGGTGATAATGGCTATACAAATTTATGGAGTGGAGAAAGAATTTCAAAAGATGATTTAAGAGTCGATACTTATGGAACAATTGATGAATTAAATTCTTTTTTAGGAGAAGCATTTCATTATTTAAAATCATTTGAAAATAAAAGAATCTTATCAAATATACAAAAAACATTATTTAGAGTAGGTGGCGAAATCGCATCAAAGAGTAAAATTTTCACTAAACCTATTGAAGAAAATGATGTTGAATATTTGACTAGTTTAGTAAAAAAATTTGAAGATACAATCAGTTTAAAAGGATTTATAATTCCTGGTAAAACACTATCTTCATCAAAATTAGATGTTTGCCGTACAATAGCTCGAAGATCTGAAAGATTAATTATTAAATTATCAAATGTTGAAAAAATAAATAATAACTTACAAAAATATATTAATAGATTATCTGATTTATTATTTATGATGGCAAGATTTGAAGAATATTTAGAGGATAAAATTGAATACTTATGAAAATATAATAGAAAATTTAAATAAAATTTTGCCTTTATTAGTAAAAGAACAAAGATTAAATCATATTTATGCAGTTAATTCATATGCACTTAAATTAGCAAAGATATTTAATTTAAATCCTTTAAAAATTTCAATTGCATCACTTGCACATGATCTTTTTAGAGATTTTTCTTTTGATTTACAGTTGAAAATTGCAAAAAAATATAATATAAAAATTTCTAATGAAGAAAAAAAACATCCTATACTTTTACATGGAAAAAATTCTGCTTTATATATGAAAAAAAGATATAATATTTCAAATGATATTTTTAATGCTATATATTATCATACTTCTGGAAGTCCTCAATTAAACGATTTGGGTAAGGTTTTAGTTATTTCTGATTCTGCAGAAGAAACAAGAAGCTATCCAGAAGTAAATAAATTAAGAAATTTATCTTTGAATTCTATTGAAGAAGCTTATAAGTTTGTAATAAAAAACAAAATAACTTATGCTATTTCAAAAAGATTAATTATTTTAGAAGAAACTGTTAATACATGGAATAAATACATTATGGAGGTGTAACTAATGTCAAAAATATATTTATCAAATAGAAGGAAATCTTCTAAAAAATGGCCTTTGTTTTTAATCATTATACTCATTTTAGTAATAGGCTTTTTTGGAGTAAAGTATTATATGGCTGAAAATGCTTCAGAAACAAAATATTCTAAATTAACTTATACTTTTTCATACAAAGATAACTTATATTTCATTAGAGTTTTGAATGATTCTAAAAAAATTTTTATGGTAAAAACAATTGATAATATAACATTCCCTGACTCATTTTTAACTTTAAGTAAGAATAACCTTCAAGATACTACTAACAATTTTTTAAGAGGTTTTAATCTTCAATCTGATTTAAATTATTATATTAACTTAAATGATGATTTAATAAAATCTTTTATTAATAAGATTGGATCAAATAAATCTGGAATAAATGGTTTTTTTGAAGGATTAATGTATAGAAATTCAAGTATTTTTGATTTTTTAACTGTTGATTCTTATTATAATTTAATAAAAAAATATGATAGATCAACTAACTTAACTTCTCCTGCAGTATATGTTTTACTAAAGTCTTTTTCAAAGTATTCTATAAATAATTTTGATAAATTAACTTTAAAACCACTATTTGACAAACCAATAAAGATTACTATAGATGATAAAATTTATTATAGAAATTATTTAAATGAAGAAAACTTTAAAAGATTAAAAGAAATTTTGGAGTGATATATTTGCAGAAAAAAATAAGACCTATTTTGATATGTATTTTATTATTTTTTCTTTTATTTTCTATATTCTTTTCTTTAATTAACGTAATAAATATAAAGTCTAAATTATCATTCCCATTCTATTTTTTAATAATGGGAATGGATTCTAATAATACAGAAAATATCTCAAGAACAGATACTATTATATTAGCTTCAGTAAAAAAAGATAAAATTTTGTTAATGCCTATTCCAAGAGATTTATTATTAAACATAAAAGGAAAAGATAGAAGAATAAACTCTATTTATGAGTTATATGGGAAAGAAGAACTGTTAAAAACTGTATCAAATTTAACAAATTTAAAAATAGATAATTATATAATTTTTAATTATTCTATATTTAAGGATATTGGAGATATTTTATCTCCAGTTTCAATTTATGTTGAAAAAGATATGATTTATGATGATTTCCATCAAAACTTACATATTGAATTAAAAAAAGGGAAAAATGATTTAGATGGAACAAAATTATTATATTATGTAAGATTTAGACATGATGATTTTGGAGATATTGGAAGAATTCAAAGACAAAAAAAAGCTTTATATGCATTGATGAATTCTATTAAAAAACAAGGTTTCCAAACCTTATTAAAAACTTTAAATACTGTATTAAAAAATACAATAAATACTTTTTCTTTTCCTGATATTTTAAAACTTTATTCTTCATCAAAATCAGCCAATATTGAATTTATCGAATTTCCTTATAAATTAAAAGATAACTATGCTGTAGTAGATAATTCTCAATTGTTAAAAACTCAATACTACTTAAAAAACTTTAAAAAACAAGAAAACAAACTACAAAAATGGATTATATTTACTAAAAGCTATACAAATTATAATTATAGTTTTTATTCATTTGTTTTTTCAAAATTCAATAAATCTGGTTATAAAATAAAAACAATTGATAATAAAGTTGATTTTTTTAATAATACAAAAAATTATGTTTTTATAAAAAATATCAAAGTAAAAGATGAAATATTAAATGATCTAAAAAATTCTTTTAATAAGGATTTTATTATATTAAATGATAAAAAAAAGTACTTTGAAACTATAAATTTTTTAGTAAAAAATCATATTGATACAATAAATTACGATGCAGTGGTGATATTGGGTGAATAATTATATTAACAAAGCAATTAATACTGTAGTTAAAGGTTTTTTAAAAAAAGCAAAAAAGAATTTTAATTTTTCTTTCTTTTCAATTTTAATTGGAGTTTGGGGATTAATTGTAATAACTTCTGTTATAAATGGATTTGATACAGTTTTAATAAAATCTATTACAAATTTTTATCCTCATTTAACTATTAATGGAAAGTATAAAGAAAAATTACCAAATGAATTGTACCATTTTGAATTTAATTTGAATAATTCTATGATTTCTAAAAATGGCAAGTATGATTTTATACAATTATTAGAATTAGACAATACAGAATTTTATGATTCACTTATAATATCTGGAAATTCTAAAAATGGTGTAGTTATTGGTAATGAACTTGCAAAAAAATTATATTTAAAAGTTGGAAATACCTTAAATTTATTTGAATTACATGGTTTTTTACCAATTTCAAAAAATTATACAGTTTCTGGTATTTTTAAATCTGGTGTTTATCAATTTGATTCTAAAATTGCTTTTTTAAAAGATACTTCTAAAAAAAAATTTACAGGTATAATTTTAAAAGATCCAAAAAAAGCATTTAATTTAAAAGAAAAATATTTAAAAAATTATTCTTCATTAACTTGGAAAGAGTCAAATTCATCCTTAACTAAAACTGTTGAAGTTGATAGTTTATTTGCTTTTTTAATTACTTTATTTGTTTTTTTAATGTCTGGGTTTAGTATATCTAATTCAATAACTTTTTCAATAATAACAAGGAAAAGAGAAATTGGTATTTTTAAGTCACTTGGAATGACATCTAATCAAATTTCCAAAATTTTTATTAGAGAGGGACTAATTATTTCTACTTATGGATACTTATCAGGTTTATTTTTAGGTTTAATAACTTCACTAATAATAAGCTTTTTAAAAATACCTCTACCAAAAGGAATTTTTTATGTTGATTATCTTCCCATTAGCATAAATATAAATATTGTCTTTATTTCACTTTTAGTTACCTTCATTACTGTATATATTTTTAGTTTTTTCACAACAAGAAAAATACTAAAATTTGATACTTTGGAGGCTTTAAAAAATGGAGAATAATCTTTTTGAAATTAAAAATCTATATCATTCTTATGATGGGAAAAATAATGTTTTAAATAATATAAATTTAAAAATTGAAAAAAATAAAATAATAAGTCTTTTTGGTCCTTCTGGAAGCGGAAAATCCACATTACTCTATATAATTGGCAATTTATTAACTCAAAGTTCTGGTAAAGTTATATATAACTTTGAAAACATTCAAAAAAATATGGGTTTTGTTTTTCAAAATTTTAATTTAATAAATGAATTAACTATATTTGAAAATTGCAAAATAGCTCAGAATATACGTGGTTATGAAGACATAAATGAAATTTTAGAACTTTCAAAAAATGTACAAATTTCTGAACTTTTAAATAAATATCCAAATGAACTTTCGACTGGTCAATTACAAAGAGCTTCTATTTTAAGGAGCATTGTTGGAAATACAAAATTAATTCTTTGTGATGAACCAACAGGAGCTTTAGATTCTAAAAATAAAGAAAATATAATGAATATATTTTCTTCGTTAAAGGGCAAAAAAACTATTTTTATAGTATCTCATGATGATATAGTAAAATCTTATTCTGATAAAATATACTATATCTTTGATGGGTCAATAAAGGAGGCTTAATATGAGAGAATTTGCTATGATTAAACCTAATGCTGTTAGAAGAGGTATTGTTGGAGAAGTAATTTCAAAATTAGAAAAAAAAGGTTTAAAAATAATAGGAATGAAATTATTAAAAATGACTTCATCTCAATCAAAAGAACTTTATAAAGAACATGTTGGAAAAGATTTTTATGAAAAATTAATAGAGTTTTCCCTTTCTGGACCTGTTGTTGCTTTAGTAATAGAAGGTCCAAGAGCTATTGAAATAACAAGACATATAGTTGGAAAAACTGACCCCTTAAAGGCTATGCCTGGAAGTATTAGAGGAACTTATGGACTTTCTGTAAGAAAAAATGTTATTCATGCATCCGATTCTGAAAAAAATGCTGAACGAGAGTTAAAAATATTTTTTGATGAAAATGAATTGCTAAACTATGAATTAGATTATGAAAATGATCTTTAAATTGGAGGAAATATGCTTATAATAAAACTTAATCCAGGGAAAGAAAAAAAAATAAAAAATGGATATCCATGGATATTTTCAGATGAAATAAAATCTATTGATGGAGAAAAAAAAGTAGGAGAAATTTGCAATATATTTTCAAATGATTATGAATTTATTGGTAAAGGTTTTTATTCAAATACAAATATTGCCGTTAGAGTTATTACATTAAAAGATGAAGAAATAAATTATGAATTATTTAAAAAGAAAATAGAAAAAGCTATTAAAAAGAGAGTTGACTTTAATGACTCTTATAGATTAATACATGGTGAAGCTGATGGGCTTCCTGGTTTAATTGCAGATAAATATAATGACTTCATCGTAATACAATTTAGAAATGTTGGAATGGAAAATTATAAAAAAGAAATATTAGAGTCTATTATTGAACTTTTAAAACCATCTGGAATATATGAAAGAAGTGATTTTGAAACTTCTACTAAAGAACCTATTAAAAGAAATATTGGAGTTTTATATGGTATAGAACCTCCAGAAAAATTAATAATAAAAGAACACGAAATAAAGTATTATGTTGATATAAAAAAGGGCCAAAAAACTGGTTTTTTCTTTGATCAAAGAGATTCAAGGCTATTTTTCCGTTCTTTAATAAAAAAAGATAGTTTAGTTTTAGACGGTTATACATTTACAGGTGGTTTTGCTTTTAATGCAGCATTAACTGGAGCAAAAAAAGTAATAGCTTTAGATAAAGATAAAGAATCAATTGAAATGGCAAGAAAAAATGCTGAATTAAATAACATAAAAAATATAGATTTTATTGAAACAAGATATGAAAATTATATAAAAAATTATACTGGTGAAAAGTTTGATGTAATTGTTTTAGATCCTCCTTCATTAATTAAGAAAAAACAAGAAAGAAGAAAAGGTGTTGAAATATTCAAAAGTATAACAGAACTATCTATTGACCATTTAAAAACTGGGGGAATATTGGGAATTTGTAGTTGTGCATTTCAAGCTGATATAAGTTTATTAATTGAATCAACAAGAAGAGCTTATTTTGCTCTTGGAAAAGATATACAGGTTGTAGGTTTAACCTTTCAATCTCTTGATCATCCTTGGATAATACAGATACCTGAAAGTAATTATCTAAAATGTTTATGGTTTAAAATATATTAAGGGGGAATATTTATGAAAGTACTCGGTTTAATATTGAGTGGTTCAAAACATAATAATCTCGAAAAATTAACAAAAAAAAGAACTAGTGCTGCTGTTCCTATCTTTGGTAAGTATAGAGCAATTGATTTTACTTTAAGTAATATGGTAAATTCTGGAATAAATAAAGTTGGAGTATTAACTCAATACAATCCAAGAAGTTTAATGGATCATCTTGGAAGTGGAAAAGAATGGAATTTAGATAAAAAAAGAGGCGGATTATTTATACTACAACCTTTTTTAAGTGTAGAAGAACATATAATGCATTATAGAGGTACTGCTGATGCAATTCATCAAAATATGACGTTATTAAGAAGAGCTGATGAAGACTTTGTTTTAATTGGTTCAGGAGATCACATATACAATATTGATTATAGAAAACTCTATAAGCATCATATAAGAAATGGTGCCGATATAACTCTATTGACTAAAAATAACGATGGAGAATATGATTTTAAAGATTATGGTCAACCAATAATTAAAGATAATAAAGTTATAGATTTTAAAGAAAAATCAGAAAATAAAGTTTCTGATAAGATTTTTCTTGGAGTTTATTTCATGAATAAAGCACTTCTTATGGATCTTTTATATTCTTCTGTCCCTAATGGAGAATATGATTTATTATCCATAATATTACAAAATTTAAAAAAACTTAGAGTATTATCATACGATTTTCAAGGATATTGGAAAAATATAAAAAAATCTTTGACAGAGTATTATAATATAAATATGGATATATTAAATCCTAAAATAAAAAAAGAATTATTTTTTAATCAAAGAAAAATTTATACTAAAATAAAAGATTATGCTCCTCCAAAAATAAATATAAATGCAAATGTTTCTAATTCGTTTATTGCTGATGGTAGCATAATAAATGGTATAATAAAAAATTCAATAATTTCAAGAGGAGTTACAATTAAAGCTGGTACTATTATTGAAAATTCAATTATCTTACAAGATAGTATAATTGAGGAAGGTTGTATAATAAAAAAAGTAATAATGGATAAAAACACAACTATAAGGGAAGGAAGAGTGTTAGAATCCCATAATAATGAAATAATTGTAGTTGAAAAAGGTTCTGTATTATAGAAAGGGGGATGACTTATGAAAGTACTTGCCTTAATTCTTGCTGGTGGACAAGGGACTCGTTTAGGAGTAATAACAAATAATCTCGCAAAGCCTGCTGTACCTTTTGGAGGAAAATATAGAATAATAGATTTTGCTCTAAGTAATTGTGTAAATTCAAATATAAATATGGTAGGAGTGGTAACTCAATACATGCCTCATCAACTTGTTGAACATTTAGGAATTGGTAAGCCTTGGGATTTAGATATAAAGGATGGTGGTCTTTACATACTTTCTCCATTTTTAAGCAGGAGTGATAAATCATGGTTTAAAGGTACTGCCGATGCTGTTTATCAAAACATTGAATTTATTGATAAATACAATCCAGATTTTATTTTAATTCTTTCTGGAGATCACGTATATAAAATGGATTATAATGATATAATAGATTATCATATAGAAAGAGCATCAGATTGTACAATTGCTTGTATGGAAGTGCCAAAAAGTGAAGCTAGTAGATTTGGTATAATGGTAACTGATCCATTTTATAAAATAACAGAATTTCAAGAAAAACCAAAAAATCCTAAAGGAACATTAGCTTCTCTCGGTATATATGTTTTTAATTGGAATTTTTTAAGAGAAAAATTAATTGAAGATGCTCAAGATCCTAACTCTGAAAATGATTTTGGAAAGAATATAATACCTAAAATATTAAATGAAAACAAAAATATGTATGCTTACAATTATGAAGGATATTGGAGAGATGTTGGAACTTTAACTTCTTATTTAGAATGTAATCAAGAAATACTTGGTCCACTTCCAGCATTAGATTTACATGATAAATATTGGAAAATATACACTCAATCTTTAGAATTACCTCCAGCATATATTTCTAATAAAGCTAAAATAAACAAATCTATAGTTTGCGAAGGTTCTGAAGTATATGGAGAAGTTGAAAATTCAGTTATCTTTCAAGGAGTTTTAATAGAAGAAAATGTTAAAATAAAAAATTCAGTTATTATGAATAATGTTAAAATTTGTAAAAATTCAACATTAGAAAATGTTATAATAGGAGAAAAAAGTATTATAGGAGAAAATGTTAAAATTGGAATTGGAGAATATAAAGAATCTAAGATAAATCCAAAAGTCTATAATTCAAATATTTCTGTTATTGGATTTGAAACTGAAATACCAAATAACTTTGTAATTGGAAAAAACTGTGTAATTGATAATTTCTTCAAAAAAGATGAATTTAAGACACTTACTTTAGATTCAGGTGAAGGTCTTTTGAAAGAAGTTTAGGAGGAAAAAACAAATGGATTTTTATGCTATAAAATTTATGGCTACATCAACATTAACTTCAGAAACTTTTGTAGGTTATTTGTTTGGAAAGAAAAAGCAAGAACCTACTTTTAATGTAGCTGTATTAACAAAAAATAAACTTTCGCAATATAAATTACCAGATATAAAAAAAGAATATATAAATTTTAAATCTGATATTGATTTATTATCATACAACTTATCAAAAGATAAAAAGGCTGCTACCTTAAACAGGCAGTTTAAAGCATATTTTTTTACCACATTAAAAAAATATGGGTTAGATATAATAAGTACAAAACTCTTTCTTGCAACTCAAGATGGAGATCCATTTGTTTTAAAAGCAATAATTTCTGATATTTTACAAGATTGGGGTTCTGATACAAATATCAAATTAATTGCAGAAAAATTTAATTATGAAGATTTAACTTGGATATCTTCTGCAATAAGAAATGGTGATGAAGGTTCTTATGAATACTTAAAAAGAGCTGATGTTGTTGATGCTGTTGAAGTGTTTCCAGTAATAGATCCTCTTGATGGATATCCCATTATAAAATTAGATGTAGGAGATCCAATTTATGTTTTAGAAATTTCAAATAAAGATACTAAAAAAGTCAAAACTTCCATTGAAGGTTCTTTAATATCAAAAGAATTAATTCCAGGAAGCGACTATATGTTTTTAAAGGTTGATTTAGGTGATGGATTAATCGGTAAAACTGTAATACAAAAAAATTTAAAAGTATCTATAGATAATTATAAATTAGAATATTCACGTAAAAAAAGAGAAGAAATGCTCGAAGAAGATCATGAAAAAATAATTGGTGATATAGCTGAAGAAATACTTGGAAGAAAACCTTTTAATAATACAAAAATGTCTTCTGCTGATATAATTTTAATTTTTAGTTTTTCAATAATAGGTATACTTTTTATAATTCTTCTAGGCTTATGGTTAGGAGCTTTTTAATGAAAGTAATTTTTAATTCAATAGTTGCAATCATAATTTTTATTCTTTCATTATCAAGTTTATTTTTTACAAATGAAATTTTAAAGTTTTTATCATATAAAAAATCTATATATCAAAAATCACTCAATCATATAAATGAATTAGAAAGAATCCAAGGTTTATCTTTGGATTCTTTTTTAAAGCAAGAAAAAATAAAAAGAACTATAACGACAAAATCTGCTACACTGTATATATTTGAAAAATATGGCTATGAATTATTGTATGTTAAGGAGGATTAAAAAAGTATGAAATTATCTTATGCAACAGCCGTAAAATTAGGATTAAAAAATGGGAAAATAAACTTTGAAATGCCTACTGCTTATATAATGATTGGTGAAAAATGTATTTATAATTGCGCATTTTGTTCTCAAGCTCGTGAAGCTACTACTCCAAAAGATCATTTGTCAAGAGTTACTTGGCCTACATTTGAATTATCTCAAATAAAAGAAAAATTAAAAAATAATTCCTTTAAAAGAATATGTTTACAAGTTGTTTCTTCAAAAGGTTATGAAATTGAGCTAAAAGAAGCACTTGAATTTTTTAAAGATATAAAAATTCCAATTTCAATTTCAATAAGGCCTAAAAACATTGAAGAAGTAAAGGAGCTTTTCAATAAATATAATGTAGATAAAGTTGGAATTTCTATAGATGCAGTTAACGAAAATTTATTCAATAAGATACGTAATGGAAACTATCAAAGGCAAATGAGTATTTTGCGAGATTGTGCTAACATTTTTTTACATAAAATTACCACACATGTAATAGTAGGGTTAGGAGAAACAGACAAAGATATAGTAAAATTTATGCTGGAAATGAAAAGACTAAATGTTACTACAAGTTTATTTGCATTTACACCTATACAAGGTACCCCTTTAGAAAATCTTTCTAGACCTTCTTTAGAAAGATATAGGTCTATACAGTATGTTAGAGAAATCATTAACAATTATGAAGTTGATATTACAAAATTCGATTTTAATCCAGATGATTCTTTAAAATCAATGCCAAACTTATATATTGATAAAGAAGAAGCTAAAAAAACATCTGGTTGTCCTTGGTGTACAAGGCCATACTACAATGACACCCCAAAAAAAGTTTATAATATTCCAGAAGTTAGAAAAATTTAAGGAGGTCTAAAAAATGGGACTGCTTACATTCAAAGGTGGGGTTCATCCTCCTCACAAAAAGAAATTTTCTGAAAATGAAGCAATAAAAATTTTACCGCTTCCAGAAAAAGTATATGTTTATACTGCTCATAGTATAGGCGCACCAGCTAAACCTATCGTTGAAGTTGGAGATAAGGTTAAAACAGGGCAAAAAATTGCTGAAGCTGGAGGTTTTATTTCAGCAAATTTACATTCTCCTGTAACTGGTACAGTTGTTGAATTTACAAAACTTGTAAATGCTGCATCTGGTTTAAAAAGTGATGTTATTGTTATTGAAAGAGAAGGAGAAGATCAATGGGAACTTCTTGAAAAAACTGATGATCATACAAAACTAAAACCTGAAGAAATTGTAGCAAGAGTTAAAGAAGCAGGTATAGTTGGTCTTGGTGGAGCAATGTTTCCTTCACATGTTAAACTTTCAATACCAAAGGGTAAAAAAGCAGAAAGTCTTATTATTAATGCTGCTGAATGCGAACCATACATAACCATAGATTATAGAATGATGTTAGAAAAAACATCAGAAGTATTAAAGGGTATTGAAATTATAATGCATACTATAGGCGTTGAAAAAGCTTATGTAGGAATTGAGGATAATAAATCAAAGGCTATTTCTCATATGAAAGAAGCTGTTAAAAATTCATCTATTGAAATTGTTCCTTTAAAAACAAAATATCCTCAAGGTGCTGAAAAACAATTAATAAATGCTGTTACTGGTAAAGAAGTTCCTTCAGGTGGTCTTCCTATAGATATTGGTGCTGTAGTATTTAATGTTTCAACAGCATATGCAATATACGATGCCATTTACAATGGAAAAGCTTTAGTAGAAAGTGGAATTTCATTAACTGGTGAAGGAGTTAAAAAACCAGGTAATTTTTGGTTTAGAGTAGGAACTAAGGTTTCTGAACTTTTAGATTATGTTGGAATAATTGAAGAAGATAAAATAGATAGAGTTCTTTATGGTGGACCAATGATGGGAATTTCACTTCCAGATACAGAATTACCTACATTTAAAGGTAATAATGCTATAACTGTTATGACAAAAGATGTTGCACCAAATAAGGAAACAATGCCTTGTATAAGATGTTCTTCTTGTGTTAGCGTTTGTCCAATTGGATTACAACCTTATCTAATGAAGAAACTTGCCGATACAAGAAAATATGATGATTTAACAAATAATAATTTAATGGATTGTATAGAATGTGGAGCTTGTTCATATACTTGTCCATCAGGTATTGACTTAACTAAATCTTTTAAAACAGCTAAAAAAGTTGTAAGAGCTATGAAACAGAGGAGGGGTTGAGATGAAATTTAAAAATCTTTCTGCTCCACATTTAAGAACAAAAGACACTACAAGACAAGTTATGATTGATGTTTTAATATCATTAACTCCAGCTATTGCAGTGTCTACTTGGGTTTTTGGATTAAGAGCATTGTATATAATGATGTTTTCTATGATTTCTGCAGAAGTTTTAGATTTTTTTATAGTAAGAGTACTTAAAAAACAAAAAAATTATAAACCAGATTTTTCTGCTTCTGTAACTGGATTATTATTTGGGATGAATATGTCAATGGCTGTTCATTGGTGGCATATGTTAATTGGTATTGCTTTTGCAATAATTGTTGCAAAACACGCTTTTGGTGGATTGGGACAAAATATTTTCAATCCAGCTGAAATAGGAAGAGTTTTTATGTTAATATCTTTTCCAACTGTAATGACTACATGGTATAAACCTTTTGCAAATATGAGTGCTTCTGTTGATACAATAACAACGGCAACTCCACTTGCATTGTTAAAAGAATATGGTGCAAATAAATCACTTTCAAATTTTTCTTATATGGACATGTTTTTAGGTAAGATACCAGGTTCAATAGGTGAAGTTAGTGCACTTGCATTATTAATAGGATTTGCTTATTTAGTTTACAAAAAAAGAATTAAATTAATGATACCTATTTCAATTTTTTCAACAGTTTTAATAATAAGTAGCATTTTTTATTTTGTAAACCCAACAAGATTTGGAACTCCTTTATTTCATTTACTAGCTGGTGGAATGATAATTGGTGCTTTATTCATGGCTACTGATATGGTAACTTCACCAATGACTATAAAAGGACAAATAGTTTTTGGTATAGGAATTGGAGTTATAGCATTAACAATAAGATACTTTGGAGCTTATCCTGAAGGTGTATCTTTTTCAATTGTAATAATGAATGCACTAGTACCTTTAATTGATTTATGGATGAAACCAAGAGTTTTTGGAACCTCTAAAAAGGGGGCTAAGTAATATGAAAGATTATATAAAAACAGGACTTGTTTTAATGATATATATGGTAATAGCAGGATTTTTAGTTGCTTTTGTCTATAATGCAGTAACACCTGCAATAAATAATGCAGAATTCAATGCAAAATTAAAAGCTATAAAAACAGTACTTACTGATGCTAATACACAAAAATTATTAGTAGAAAAAATACCACAAAATGAAGAAGAATTAAATAAATTTATTTGGCAAAAAAATTCAGATTTATTGTACAAAGATGAAAAAAGCAATAAAATATATTCACCTGCATTTAAATTCATATCAGGAAATAAAGAAATCTATGTATTAACTATATCAGGTGTAGGATTTGGCGGAGATGTAACTTCTGTTGTTTCTTTTGTAAAAGAAAATGGAAAAACATCTTTAAATAAAATTGAAGTTATAAATTACTCTCAAGAAACACCTGGACTTGGTGCAAATATTGCTGAAGACTCTGTTAAAGAAAGATTTTATTCAATACCTTATTCTGGTTTAAAATCTGGTTTAAAAGTTGATAAAGATTCTGGAGTAAAAATAAATGCAAACGAAAAAGAAAAATTTTCAGCTCAAGGTATTGTAATAACAAGTGATATAATGACTGGTGCAACAATAACTCCAAGAGGAGTTGTTAGTTCTATAAACGCTGCCGTAAAATACCTTACAGAAAAAGGGGTGATGTAAAATGGCAGACATAAAAAACTTAACCAGTGGGCTTGCAAAAAATAATCCTATCTTCGTACAAGTTTTAGGAATGTGTCCAACTCTTGCAACAACAACAAATGCAAAAAATGGACTTGGAATGGGATTGGCTGCAGCTGCTGTTCTTGTTATGTCTAATATTGTAATATCTTTAATAAAAAAATTAGTTCCGGATAAGATTAGAATACCTGTATATATAGTTGTAATTGCTTCTTTTGTTTCAATGATAGACTTATTAATGCATGGTTATACATATGATTTGTGGAAAACATTGGGATTATTTATACCTTTAATTGTTGTTAACTGTATAATTCTTGGAAGAGCCGAAGCTTTTGCTTCTAAAAATGGTGTTCTTGATTCTATCTACGATGCAATAGGAATGGGACTTGGATTTACCGCAGCCTTAGTTATACTTGGATCTGTTAGAGAACTTTTAGGTAATGGTACTATTTTCAATATCAATATTTGGGGAAGCGGTTTGAAAATGTATGTTTTCATTCTTCCACCTGGAGCATTTATTGCACTTGGATTAATACTTGCAACCTTTAACTATATAGGAATTAAAAAAAGCAAAAAGGCGGGTGCTAAGAAATGACAAAATTATTTTTAATATTCTTATCTGCTACACTCGTTAATAACTTTGTTTTATCAAGATTTTTAGGAATATGTCCTTTCATTGGTGTATCTAAAAAATTAGATTCAGCTGCTGGAATGTCTATGGCTGTTGTATTCGTTATGACTATGGCTGGAATAATAAGCTGGATTTTAAACTTATTGCTCGTAGCCACTGGATTAGAATTTTTAAGAGTTATCGTATTTATACTTGTTATTGCTGTACTCGTTCAGTTTGTTGAATTCTTTATTAAAAAAACAAGTCCTTCTTTATACGAAGCACTTGGAATATACCTTCCATTGATAACAACAAACTGTGCTGTTTTGGGTGTTGCTCTAATAAACATTCAAACAAATTACAATATAATTGAAACTACAGTCAATTCATTTGCATCTGCACTTGGATTTGGTATGGCATTAATGATTTTTGCTGCTATACGTGAAAGACTTGATTTAAGCAGTATTCCAAAACCATTTCAAGGAACTGCAATTGCATTAATTACTGCCGGATTACTCTCATTATCATTTATGGGATTTTCTGGATTAGTAAGACTCTAATAAGGAGGTCTATTAATAATGTCAACAATAATAAATGCAGTATTACTATTGGGAATACTTGGATTTGCTTCAGGAGCATTTTTAGCATTTGCTGCTAAAAAGTTTGAAGTTAAAGAAGATGTTAGAAAGATATTGGCAGAAGCTGTTTTACCTGGTGCAAACTGTGGAGCATGTGGATTTCCTGGATGTTCTGGATTTGCAAGCGGTTTTGTAAAAGGAACAGCAACAGCTGATGGATGTTTGCCTGGAAAAAGAACTGGTGTTCCAGAAAAACTAAAAAAAATAAATGCTATGTCTGATGAAGAGTTAGAAAAATTATTTGAAGAAAATAATAATGATATTGATGCAATAAAAAAGGCATTATAAATAAAAGATAAGCTGTCTCAATGGCAGCTTATCTTTTATAAATTATTCTATTTTTTCCTTTTTTCTTTGCAAAATATGCTCTTTTATCTGCTAATTCTATTAGATCTTTCATTTTTGCTTCGGATGAATCTGCTATTCCAACACTAAATGTTGCTCCTTCGTGCAATTTTGACAAATTTTCTTGTATTCTTTTGACTATATTTGTTGCTTTATACTTTGTTAAATTATTAAATATAACAACAAATTCATCACCACCATATCTGTATACACTATCCGTACTTCTAATATGATTTTTTATGATTTTTACTATACTTTTTAAAATTTGATCTCCATACAAATGTCCATAACTATCATTTATTTTTTTAAAATTATCCATATCAAAAAAAGCAATAGAAAAAATGTCTTTTTTATTACTTTTATTCATATCATCAACTATCTTTAAAAAGTTATATGCTCCTGTTAGAGCATCTCTTTCACTCAATTTTTTAACATAATTATATTTTTTTCTATTAGATATTATTATAGATAGAATACCTCCTAAAACCGATAACATTTCTAAGTCTTCTTTAGTTGGTCTCATACCATCTATTGGAGCATCACAAGACATATATCCCCACAATCTTCCAATATCATCATTTACTGTAATTAATAATAAATCTTTATTATTCCATTTTATTTCTAATTCACTATCTATATCTTCAATTGATTCTTTTTCAAGATCAAATCCTTTAAACTCTGAATCATTATTTAATTTTGGAATAAAATATGAATTTTCATATTTATTCTCTTTTTTTAAAATTTTTTTTAATTCTTGCAAAGTAACTTCTTTATTTTTTATATTTTCATACATTTCATTAGAAATTCCATAATTTGAAATTCTTTCAATTAAACCCGTTTCATAATTTAATTTAGAAAATAAAATATATTTATAACCAAAAACATCATTTACTATTTTTAATGTTTCACAAATAATATGCTCAATACTTTTTGTAGATGTATTTAAAAGTTTAGAGTATTCTAGCAAAACTTTATTAAACTTTTTTATTTTTTTATTTCTATAATTTTCAATTATTTTTTTATTTTTCAATCTTATTATAAAGTAATAAAAGGATAAATAAATTATATTTTGAAATATTATAAAAGATTTTAAAATTAAATCATTATTTGAAATCTGAATATACATTGCAGGTAATAAACTTAAAAAATAAACATATTCTGTAATAAATATTTTTTTATCAAACTTCTTTAAATCAAAGAAGATTTGATTTATTAAAATCGAAAAACTTAAAAATAAAAATAATTCTAAATAAATATTTTTGGTAATCATCAATGCTAAATTTGCACTTAAATAATACATTATAAAATAAACTAAAAATTTTTTTAAATTATTTTCATATGACTTTTTCTTAATTCTAAATATAATTACTAATGATGCTATTATTATATATTCTTTTCCAAAATAAAAAGCTATTAAAAAACCTATTGCATTAGTTATTAATCTTATTTTTTTATATTTTATTATTATATTATCTGTAAAATATGTAATTACTAAAACTATAATAGTTTGAAATAACTTTATATTTTTAAAATCAGGTTTAAATAAAAATAATAATAAAATAGAAAAAATAAGCAAAAAAGTTTTTTTACTTAAATATTTCATTATATCCCCCTTATTTTTAAATCAAATTTTTCAACTATTAAAATTATAACATAAAACAAACAAAATCAATTAAATTTAACATTAATTGATTTTATTTTTACATTTAAAGTATAAAAATAACATTTTTTTTTTAATTTAAATTATTTACCCAATTTAATATATTTTTTATTATTTCATCATTGAAATTCATGGTTATATTATTTAACATTTCGTGTGTAGTATTTTCTAAATATTCAATGGTTATATTTTTATTTTCCTTTAATGAAGACTCTTTACTTTCAAGAAGTTCTTTTGGTGTTTTTAAATCTTGAGTTCCATTTAAAATCAAAAGTGGAATATTTATAGAAAAAATATCTTTGTATGGATCTGGTTGAAACTTTACCCAATCTATAAAAACTTTAGCCTTTTGACCTAAAATAACATCATCATTTTTTAAAGAATCATCTTTAAATTTTTTGTTTGCGTCTTCTATTTCTTCAAGATATTTTTCTATTAAATCTATTGTTTGTTTGTATTTTTCATCATTTTTTAAAGCTTTTATATAATCTAATTGATACTTTAATTGATACTCCATTTGATCAAAAATATTTAAAAGCCCTGGTGAAATAGCTATTGCTCCTTTAATATTTTTATTTTTTATAATCAATGGCAAAAATGATGCACCTTGACTATGACCTAAAATAAAAATATTATTTTTATCTACTTCATCTAAAGTATTCAAAAAATCAATCCCTGCTCTTGCATCATCAACAAAATCTTTTACTGATAAGTTATCAAAATTTTTTAATTTTTTTTGTAAAATAGTATAACTTCTTTTATCATATCTTAAAACAATAAATCCATTTTTAGATAACTCTTTTGAAATTTCCAAAAAAGGTTTATAAATTTTTTTATTAATCACTAAAGTTTCATCTCTATCATTTGGACCAGATCCATGAATTAATATTACTGCTGGATTTTTTTGTTTTAATTTCTGAGGATACATTAAACTTCCATATAGAGTAAAGTTATTACTTTTAAATGTAATTTCTTTTTCTAAAACATTCTTTTTCATATCTTTTCCATTTAAAAAAATTTTTACTTTTTTTATTGTATCAAATACAGATTCTAAAGTTTTATCATTAAATTTTATTTCTAAAACTGAATTTAAAGTTTTTAATTTATAAAAACTATCACTTTCTGTAAAATCAGAATCAATGATTACATACTTTTCTGTTCTTGGAGATAACAATAAAGATGGAATAAACAACTTAATATTTTTATTTTTCAAATTATTCATTTTATTAAATATAAAAAAATGTCCAATAATGTTATTATCTAATATTATGGGATCTTTTATTTTTATGTTTTTCAATTTTGATCCATTAAAAGTACTAATAATCATACCATTATCATACTTTGAAATTAATGTTCCTTGCTTATATCCATTAACAAATATATCAAGTTTATAATTTTTAAAGTACCATGATTCGTTATATTGTGTATATGATTCATATTTAACAAAAGTTTTACCAATTTGAAGCTCCGTTAGTGTATTTTCATTAAATTTAAATTCATCAAAATTCACAGTAGATGTTCCTATTCTACTTTCATTTGAAGTTATACTATATTCAAAACTTTCCGAAAATGCCATAAAACTAAAAATTAAAAAAATTATAACTAAAATTTTTTTCATAATATCACCTCCAATTAGCATTATACCATAATGCTGTACTATATATGTAATACAGTAAAATTCGTAATAAATATTTAACATATATTTTCACAACATCTCCATTTTTGGAGTTTATATCAATTATATTTTTATCATTAAAATTAACATTTTCTATTGTTTGAATAATTTAATCTACTTGTTCTTTTTGAATATTAGAGTTTTATTGTGAAAGTCCAAATATGATTATATTGTTCAATAATATACTTTTTATTTTTGTAAAAATTCTACATGTTTACCACTAAATAATATAAATTCATTAAATTTAAAAATTCTTTATAACTTTAACAATTAAAACATTTTTAAACTTCAATGTTTATTTTCTAATTATAAATAAAATAAATAATTTTTTTAGAAATATAAAGTATTTTTATTATATTTGAATATAAATACATATGAAACATTTTTTTGAAACTAACCCATTTTGTTTCGGAAACATGTTTCAAGATATCCTATAATAGAATTCAAAAAAAGGGGGGAGAAAGTTGAAAAAGATACTAACTATTGTAATAATAGTTTTATTATCTTCTGTTTTATTGTCACAAGAATTTGATAGGAAAACAACATTTGTTGCTGGGGGAGCTCTGTGGGATGTTCCTTCTAATTGGAATCCATTTGTTCCATGGGATGCTGTTTCTGGAACAGTAGGGCTTGTTTACGAAACACTATTTGAATATGATACTCTTAATAATTCTATGAAACCATTTTTAGCCGAAGATGGAAAATGGATAAGTGATAATGAATATTTATTAAAGTTAAGAAAAGGTATAAAATGGACAGATGGAGTTGATTTTACTTCAAAAGATGTTTATTTTACATTTGATGTTGGAAGAAAAAATGAAGAAGCTCCTATTTCTTATGTTTGGAAGTGGTTAAAAGAAATAAAAGTTATAGATAATTATACTTTAAAATTTATTTTTAGTGAACCAAGATATAGTGAATGGAATACAATGCTTTATGATCAAGGTATAATTCCAGAACATATTTGGTCCAAAAAAACAGCTGAAGAAGTTATTAATACTGATAATAAAAACCCAATTGGAACTGGAAGTTATAAATATGAAGTTGCAACAAATGATAAAATGGTTTGGATTAGAAATGATAATTGGTGGGGAAAAGATGTTTTTGGAAAGTTGCCTGCTCCAAAAAGAATTGTAATACCATTAATTTATTCAAATAATGTAGCTCTTGGTATGTTAATGAAAGGAGAATTAGATTTATCTAATTTCTTTTTACCAGGTATTCCAAAGGTTAAATCATTTTATAATTTAACAACTTGGTATGAAGGTAAACCCTATATGTTACCTGGAGATTCTGCCACTTTATATTTAAATACACATAAAAAATATTTAAATAATACTGATTTTAGAAAAGCAATAGCTTATGCAATAAATAGAGATATGATTATAAAAAATGTTTTTGAATATCAATCACAAAAAGCTAATCCTTCAGGTCTTTTACCTATTGATTCGTGGATGAAATATTATAACAAAGAAGTAAATAAAAAGTATGGTTTTGATTTTAATAAAGAAAAAGCTAAATCTTTATTAAAAAAATTAGGCTTTAAAGATATAAATCATGATGGATTTTTAGAAGATAAAGATGGAAAAAAAGTTTCATTCGAAATAATAGTTCCAAGTGGATGGACAGATTGGATGGAAGCTATAAAAATAATTTCTAAAAATCTTCAAGATATAGGAATAAAAGCAGACGCAAAATTTCCAGATGAAGGTGTTTATTGGGATGATTTAACAAAAGGCGATTTTGATATGGCAATAAACAATTATGGAAATGAAGCAAGTTCAACTCCTTGGACTTATTGGAATTCTGTTATGAATTATAGAATAAATCAAGATGTTGTTGAAGATGGAAATTTTGGAAGATACAATAATCCAAAATTATTTAAAATGATTAAAGATTTTAATACGAAAAAATTAGGATCTACAGAAAGCTATGAAATTGCTTCTTTAATTGAAGAAGAAATGTTAAAAAATATGCCAGTAATTCCTCTATGGTTTAATGGTTTATGGTATCAAGCAAGCAGTGATTATTGGACAAATTGGCCAACTGAAAAAAATCCTGTTGGTTATCCATGTTCTTGGAGTGGTTATTGGTCAAGAGGTGGAATTGATATGTTATTAAACTTAAAGCCTTCGAACCATGAAGAATAAAATATAAAAATTAAAAATATGCAGGCCTTTTTGGCCTGCGTGTATTATGGGGGAAAAAGTATGCAAAATAAATACTTTAGAAAAAAGATAATTATTTATTTAATAACTTTCTTTTTTGCTGTTACTTTGAATTGGTTAATTCCTCGTTTTATGCCAGGAGACCCCATGAGTCTTTTAATGGCTAAATTACATGGATTAAATGAAGGTAAAGCAGCATTAAAAAGTTTTTTTCTGGATTCTTTTGGTTTAAACAAATCTTTTTTTGAACAGTACTTAGATTTTTGGAAAGCATTGTTTACAGGAGATTTTGGAGTTAGTATTTATCTTTATCCAAAGCCAGTTATTGAAATAATAAGCAAGGCTGCAATTTATGACATAGTTTTATTATTACCAGCTGTAATACTTAGTTGGATATTTGGAAATAAACTTGGAGCTATTTCAGGTGTAAATAAAAAAATAGATAATATATTAATGCCAATATTTTATTTTTTAACTTCTTCACCATATTTTTGGTTTGCAGTTATTTTAGTTTATGTATTAGGTGTTGTTATGGGGCTTTTTCCTATAAATGGTGCTTATAGTTCTACTATGCTACCTTCTTTTTCATTTTCCTTTATAATAGATTTTTTTAAACATTGGATACTTCCATTTTTATCTTTATTTAGTGTAATGCTTGGAGGATGGGCAATAGGCATGCGAAATATGATTATATATGAAATGGGATCAAATTATTCAAAATATATGGAAGCTTTGGGTAGCTCAAAAAAATTAATTCGTAAATATGCATTTAGAAATGCTGAACTACCACAAGTAACAGGATTAGCTTTAAGTCTTGGAACAATAATAGCAGGAAACTTAACTACACAAATAGTTTTTTCTTATCCTGGTCTTGGTTATACTTTATTAAAAGCAATTTTAAATCAAGATTATTTTTTAGTACAAGGTTGTTTCTTATTCATAATAATTGGTGTTTTATTGGCTAATTTTTTAGTAGATATCCTTTATATGTTTATAGACCCTAGAGTACGTTATTCTTATTCGGGGGAGGTATGATTATGAATTTAAAAGAAAAATTAAAAAATCATGATAATTGGTACTATGCTTTAAAAAACAAAAAAGTTATTATAGGTTTTTCCATATTTTTATTTTTTTTAATTTTAGCACTTTTAGCTCCTATTTTAACAAAATTTGATTATGAAGAAATAGCTGGAGCCCCTTATTCTTCCCCAAGTTTAGAACATTTAATGGGAACAACTATATTTGGAAGAGATGTTTTTACACAAGTCTTATATGGATTAAGATCTACATTTTTTGTTGGATTAGTTGGTGGAACTATTGCTTTAGTAATAGGGGTTCTTTTAGGATTTATCTCTGGATACAAAAGTGGTACTTTGCTAGATGAAGGATTAATGATGTTAACTAATATATTACTTGTAATACCAGTTATAGCTATATTAATAATTCTTTCTGCTTATTTACCTTACAGAGGTATATTAGTTCAAAGCATAATAATAGGAATAACTAGTTGGCCTTGGTCTGCAAGAGCCGTTAGAGCTCAAACTCTTGCAATAAAAAATAAAGAATTTGTAAATCTTTCAAGGATTTCATCAGTTCCTACATTAAAAATAATAATAGAGGATATAGCTTCAAATATGTTTTCTTATGTATTTATGGTTTATATTTTACAATTCGCTGGAGCAATCTTAACTGCTGTTGGACTTGATTTTATAGGTCTTGGACCAACAAGAGGTATATCACTTGGTTTAATTATGCAAAACGCAGTAAATTGGAATGCACTTCCCTTAGGCTTATGGTGGTGGGCAATATTACCTGGATTAATCCTTACAGTTTTAGTTACATCACTTTACTTTATAAATACTGGTTTGGATGAAGTATTTAATCCAAAATTAAGGGAGATGTGATTATGTCAAAAAATATTTTAAATGTAAATGATTTAAAGGTTTATTATAAAACCTTAAAAGGTTATGTTAAAGCATTAGATGGTATATCTTTTAAAGTAAATGAAAAAGAAATTCTTGGTGTAGCAGGAGAATCTGGATGTGGTAAAACAACTCTTGGCCATAGCTTGATCTTACTAAAAAAACCTATGAAATATATCTCTGGAGAAGCAAATCTCTTGAATAAAGATTTAATGAAATTAAATGCAAAAGAAATGAACAAAACTCGGTTTAAAGATATTTCAATAATACCTCAAGCGGCTATGGATTCTTTTTCGCCAACAAAAAAGATAAAAGATTTTATAAAAGATTTAGTAGAAGAGCATGGCATAAAAGCTGATGAAAATTTTTTTGAAAAAGTCAAAAAAAGATTTAAAATGGTTAATTTGTCTTTAGATGTTTTAAATAGATATTCAATAGAACTTTCAGGAGGAATGAAACAAAGAGTAATTTTAGTAATTTCAACTCTTTTAGATCCAAAGTTATTAATAGCAGATGAAATAACTTCTGCTTTAGATGTTAGTTCACAAAAATTTGTGGCAAAAATGCTTTCTAATTTCAGAGATGAAAAAATAGTAGATTCAATAATTTTTATAACTCATGATCTTTCAATATTATATCAAATTGCAGACAAAATAATGATCATGTATGCAGGACACATTGCCGAAATAGCTTCAAGTGAAGATATAATTTTCAATCCTAAACATCCATATACCAAAGCTCTAATTTCATCTCTTCCAAAAATTGGAACAAGATTTGAAAATGAAAAGCTTGATGGAATTGAAGGTACTCCACCTAATTTATTAAATTTTGGTAATGGTTGTAGATTTAGATTTAGATGTCCTTATGCTTTTGATAAATGCGAAAAAGAAGCACCACCAAAAACAATAATTTCAAATGATCATGAAGTATATTGTTGGTTAAATGTAGGTGATAAAAATGAATGAAGTAATTTTAGAGGTCAAAAATTTATGCAAAGATTTTACATTGGGAGTATTTTCAAAAGAAGTAAAATCAGCTGTAAAAAATGTTTCTTTTGAAGTAAAAAAAGGCGAAATCATTTCTTTAATTGGAGAAAGTGGTAGTGGAAAAACAACAATAGGAAGAATGATATTAAAGTTATTAAAACCTTCAAAAGGGAAAATAATATTTAAAGATAAAGATATAACCGAAATAAAATCAAAAAAAGAAAAGAAAGATTATTATTTAAAGGTTCAAGGAATATTTCAAGATCCATTTTCTTCATTCAATTCTTTGTACAAAGTAGATAGAATCTTTAATATGATTTTTAATAGTTACTTTCCACATGAAGAAAAAAAAGATGGAAAAATAAAAAAAGCTCTAAACGATGTTGGTTTAAAACCAGAATCAGTTTTAAATAAGTATCCTCATCAATTGAGTGGAGGACAGTTACAAAGACTTTTAATAGCAAGAGCATTATTAATGAATGTAGATCTATTAATAGCAGATGAATTAATAAGTATGTTAGATGCTTCAACAAGAATAGGGGTTTTAAATTTATTAGGCAAGTTATCAAAAGAAAATGGTATGTCTGTTATCTTTATAACCCATGATTTATCTCTTGGATATTATTTGAGTGATACTACACTTATAATGTACAAGGGAAAATTAGTAGAAAAAGGTAGTACAGAAAAAATTTACAAAAATCCGGTTCATCCTTATACAAAGATGCTATTAAATTCAATACCAGATATAGGATTTAAATGGAAAAAAGAAGAAAAATTTTTACCAGAAAAAATAGAAATAGAAGTAAATAATTTTTATAAAAAGAATATTAATAAAGATACTGAATTAGAAGTTGAAAAAAATCATAAAGTGATAGTAAATGGGAGGTAGTATAATGAATTTTAACAAAGATTTTTTATTTGGAGCATCAATGTCTGGTTTTCAATTTGAAATGGGTAGTGAAAAAGATATAGATAATAAAAGTGATTGGTATGTTTGGACTCATAATGCCGCAAATATGAATGCTGGATTTGTTAGTGGTGATTATCCTGAATATGGAACAAATTATTGGAATCAATATGAAGAAGATCATATTTTAATGAAAGAATTAGGCTTAAAAATAATAAGAATTGGTATTGAATGGTCAAGAATATTTCCAAAAAACACTTTTGATGTTAAAGCGGAAGTTAAGTATGATAACAATGATATAATAGATATAAATGTGAATGATAAAACTTTAGAAGAAATGGATAAAATAGCAAATCATGACAATTTAAACCATTATATAAAAATATTAAAAAATGCAAAAGAAAATGGTTTAAAAGTTATGATTGATTATTCTCACTTTACATTACCCATATGGATTCATGACTGTATAAATATAAATAGAAATAGAAAAGGTATAATGGGATGGGCTTCAAAAGAGTTTGTAATTGAATTTTCCAAATATGCAGCATATATAACAAAAAAATTAGATGAATATGTTGATTATTATGCAACAATGAATGAACCTCAAATAATTGCTTCTGGTGGATATTTAATACCTTCTACTGGTTTTATACCTGCAATATATAGTTTAGATGTATACTTAGAGGCTATTAAAAGGCAAAGCGAAGCTCACGCAAGAGCTTATGATAATGCAAAAAAATATACTGAAAAACCTATTGGTATGATTTATTCTTTCTCTTGGGCAACACCTTACAAAAAAGAAGATGAAGAAATAATAGAAAATGCCAGATACTTTTATAATTATCATTTTATGGATACAATAACAAAAGGTCTTGTAGATGACGAATTAACTGGAAAACAAAGATTTAGAAAAGATTTAGAAAAAAGAATTGATTTTATAGGAGTGAATTACTATACAAGAACTATGGTCAGAAAATCAGAACCAATATTTGAAAAAGAAATATTAAACTTTGAAGAAATGAGTGGGTATGGATACGATTGTGAAAAATCTGGGTTTACAGCAAATCACACACCATCAACAGATATGGGATGGGAAATATATCCAGAAGGATTAAAAGGAAATTTATTATTATTAAAAGATAGATATAATTTACCAATGATAATAACTGAAAATGGTATAGCAGATAAATTTGATAAATTAAGATCTGCATTTTTAATATCTCATTTAATAAAAATAAATGAAGCAATACAAGATGGTGCAAATATTTTTGGTTATATGCATTGGTCTATTACAGATAATTATGAATGGTCAAGTGGCTTTGAAAAAAGATTTGGCTTAATCCAAGTAGATTTTAAAACCAAATTAAGATCTCCAAGACCAAGTTATTATGTATACAAAGAAATAATAGAAAAAAGAGAAATCACAGAAGCAATGAAGGGATTAACTATTTTACCATATAATTACTTAAAAAAATGAGGTTGATAAAATGCCTACACTTAGAGAAATATCAAGATTAACTGGGTTGTCTATTTCTACTATGTCAAGAGTATTAAATGGAAGTATAAATGTCTCTGAAAAAACAAGAACTAAAGTTTTAAAAGCTTTAAAAAAATATAATTATACACAAAGCGATACTATAAAAAAAGGACTAAAAAAAGCAATTGGTGTCTTAGTACCTGATTTACAAGGAGATCATTATAGTTTAATTGCTGAAGGAATAGAAAGCATTTTAATAAAAAATAATTATGAAATGCTTTTAACTACAATGAATCAAATTATATCTCGTGAAGCTCAAGCTTTTAAAGAAATGTCAACAAGACGTGTTGATGGAATAATACTCTGTACATCATCTGATGATGATAATTTAATAAAAAGATATATAGATAAGATTTTGCCAATAGTTACTGTAGATAGAGGTAAATCAGATATAAAAATTGATACTGTTGGAATAGATAATTATAATTCTGCAAAAGAAGCAGCAAAATATTTGTATAAAAAAGGTCATAGAAAAATATTATTTATAGAAGGACCAGAAGAAATTTATTCTTGTATACTAAGAAAAAAGGCATTTGAAGATTTTTTTATAAGAAAAAATAATGTTGAAATACATTTTAAAAAAAGCAATTTTGGAATACAAAATGGCTATAATTCTGTAAAAAATTTTATAAAAGAAAATGGAATAAACTTTACAGCTATATTTTTTATAGATGATTGGACAGCTTTAGGAGGTTTAAAAGTTTTAAAAGAATTAAATATAAAATGTCCAAAAGAAGTAAGTATAATGGGATTTGATGATTCTGAGTTTTCTCCTTATTTAGATCCTGCTTTAACAACTGTAAAACAACCAACAAAAGAAATAGGAATACAAGCTGCACAATTACTATTAGAAAGAGTAGAAGGAAAAAGCACAAGTAAGGTTAAACGAAAAATATTTTTACCAACTGAAATAATTGAAAGAGACTCTGTAATAGATATATCAAAAAAATAATGTTATGGGGGGCTTCAAATTGAAAAAATTTTTTATTTTAATAGTTTTAACTATGGAGATGATTTCATTGTCAATACCTTTTCCAAATCATACAAAATATAGTGAAAATATAATAAAACCATCTATTTATACACAAAACCAATTAGATGATCAAGTTTATAAGTATTATCAAAAATGGAAAAATAGATACTTAACTAAAGTTTCTAAAAAAGATCAAATGTATATTAATTGGAATTATTTAAAAAGAGATTGGGTCGAACCCCAAAATGCTGTAACTGTATCAGAAGCTCATGGATATGGTATGCTTATTTTTTCAATAATTGGAGATAAAGATAAACAAGCTCATCAAATTTATGATGCAATGTTTAATTTTTTTAAAGCTCATCCAAGTTCAATAAATCCAAATTTAATGGCTTGGCAACAAATAAACAATAATGGGAAAATAGTCGATACTGAAGATAATGATAGTGCAATTGATGGAGATTTAGATATAGCTTTATCTTTAATAATAGCAGATAAACAATGGGGAAGTAATGGCAAAATAAACTATAAAAAAGAAGCATTAAATATGATAAATGCAATCATGGAAAGTGAAGTAAATCATGAAGATTGGATACTTCAACTTGGTGATTGGGCTCATAATGATAAAGATTATATGTATTCAACAAGAAGTTCTGATTTTATATTGAACACTATATCTACATTTATAAAGTATGATGACAAAAATTCTAAAAAATGGGAAAAAGTGTACAATAAAATTATAAAAATCAGCAATTTTATCTTTAATAATTATTCTAAAGAAACTGGGCTATTACCAGATTTTCTAGTAAAAAATAGTAATGGAGATTATATTCCTTCTCAATCTAATTTTTTAGAAGATGAAAATGATGGTAATTATAATTGGAATGCTTGTAGAGATCCTTGGAGACTTTCATTAGACATAATCTTAGGTAATAAAAATAACGAATTATATACACAACTTCAAACTATGAATACATGGATAGAAAAAAAGACAAATTTAAATCCATCAAAAATAAATCCCGGATATTACTTAAATGGTAATAAAATAATAAGAGATTGGGAAGGTACGGATATTAGTTTTGTTGCACCATTCGCAGTTAGTGCAATGATAAATAAAAATAATCAAAAATGGTTAAATAAATTATGGGATTTCATGCTTTATGACGACGAAACATCCTTTGAAGATATAGAATATTTTCCAAATACAATAAGAATGTTAGTAATGTTAATAATTTCTGGAAATTGGCCTAAATTATAAAAAAAAATGGAATAATCTTCTGATTATTCCATTTTTTTAGTTTTTATTACTAAATATTTTATAGTATAATTCATTAAAAAAGGAGGGGATCTTATGATAAATGAAAGAATAAAAAAGTTAAGAATGTTGATGAAAAAAAATAATATACAAGCTTATATAATACCAACTTCTGATTATCATCAAAGTGAATACGTTGCTGATTTTTTTAAATCAAGAGCTTGGATTTCTGGATTTACTGGATCTGCTGGAATTGTTGTAATTACAAAAGAAAGTTCTGGTCTTTGGACAGATGGAAGATACTTTATACAAGCTGAAAAACAATTAAAAAATTCAGAAATAAAGTTATTTAAAATGAATGAACCAGAAGTTCCTACTTATGAAGAATGGCTCTTAAAAGAATTAAAAGAAGGAGATACAATAGGCTTTGATGCCAAATGTTTTTCCATTGAACAAGTAAAAAAATTAAAGGATAAAATTAAATACAAGAAATTAAAAGTGTATGCAGAAAAAGATTTAATAAATGAAATTTGGATAAACAGACCAAAATTACCTCAAGAAAATATTTTTATTCATAACATAAAATATGCCGGAAAAAGTTTTAAAGAAAAATTAATTGAAGTAAAAAGAAATATGAAAGATTTTGATTACTATATTTTATCTTCACTCGATGATATTGCATGGCTATTTAATTTACGGGGAAATGATGTTAAAAATAATCCTGTATTTTTAGCCTATTCAATAATTTCAAAAGAAGAAACTTACTTATTTATTGATAAAAATAAATTAGACAATACTGTTTATAATTATTTAAATGAAAATAAAATAATTATAAAAAAATACGATGAAATATATACTTTTATTAACTCATTAGAAAAAAATAAAAGATACATATTTGATCTTCAAAAAACAAATTATAAAATATACTTAAGTTTAAATAAACCCGAAAAAATTTTAGAAGAAAAAAACATCACAACATACTTAAAAGCCATAAAAAATAATATCGAAATAAAAAATATAAAAAAATGCCATATTAAAGATGGAGTAGCAATGGTAAAATTTTTATATTGGATTGAAAAAAATATAAATAAAGAGAAAATAACAGAAATTTCAGCAACAGAAAAATTAGAAAGTTTTAGAAAAGAACAAGAAGATTTTTTTGAAATTAGTTTTGATACAATAGCAGCTTACAAAGATCATGCAGCTATGATGCATTATAAAGCTGAAGAAAATACACAATATGAACTAAAAAATGAAGGATTCTTTTTAGTTGATTCTGGTGGACAGTATTTTGATGGAACAACAGATATAACAAGAACTATTTCTTTAGGTAATTTAACAAATGAAGAAATGTATGACTACACATTAACTTTAAAAGGAAATTTATCACTATCAAAAATAAAATTTCTTTATGGAACAACAGGTTCAAATTTAGATATACTAGCAAGGCAACCTCTTTGGAATGAAGGTATTGATTATAAGTGTGGAACAGGACATGGAGTTGGATACTTTTTAAATGTACATGAAGGACCTCAACAATTTAGACCAATTCCAAATACAATAGTTCTTGAACCTGGAATGATAATAACAAATGAACCTGGAGTTTATAAAGAAGGAAAACATGGAATAAGAATAGAAAATGAACTTTTAGTCGTTGAAGATAAAGAAACAGAATTTGGAAAATTTCTAAAATTTGAAATAATTACATATTGTCCAATTGATTTAAAAGGTGTAAAAACAAGTATGCTTTCTTCAGAAGAAATAAACTACTTAAATGACTATCATGAAGAGGTTTATAAAAAATTATCTCCATTTTTAAATGAAGAAGAAAAAAAATGGTTAAAAGAAAAAACAGAACCTATAGGTGAAAAAAATGAATAAAAAAATTGTTTGCTCTTGGAGTGGAGGCAAAGATTCCTGTTTTGCTTTATACAAAATGAAACAAAATGGTTGGATTCCTTATAAATTATTTACAATGTTTAAAGAAGATGGTGAACGTTCAAGATCTCATGCGCTTCCAATTTCTGTTTTATCTGAACAAGCAAAATCAATGAATATTGAATTAGAAAAAGAAAATGCAACTTGGGACAATTATGAAAAAATATTTATAAAAAAATTAATAAATTACAAAAAGGAAGGTATTGAAAATATAGTTTTTGGAGATATTGATTTAGAACAACACAAAGAATGGGAAAAAATGGTATGTAAAAAAGCAAATTTAAACGCGCATTTACCTTTATGGAAGTTAAATAGAAAAAGTTTACCTATTGATTTCATAAAATCAGGATTTAAAGCAACAATAATAGCTGTTAAAGATTCTATTTTAGATAAAAGTTTTTTGGGTAAAGAATTAAATGAACAATTAATAAATAAATTAATTGATAATAATATAGATCCTAGTGCAGAAGGTGGTGAATTTCATACTATAGTTACTGATGGACCTCTTTTTAATTATAAAATAAAATTAGATTTTAAAGAAATAGTATCATTTTCTGGTTATAGTTTTTTAAAAACAAATTAATAAAATATCAGCACTTATTAATAAGTGCTGATATTTTGATCTATACCATTAAAAATAGTTTTTAATATATTTAAGTTTTTATCCAAAACAACTATATTTGCATAAAACTCTTCTTTTATTCTACCAATTTTTTCAAGCTTTAAATCTTTTGCAGCATTATAAGATGAAACTTTTGATAGTTCTTGTAGAGTACAATTTGTAAACTTTTTAAAATTTTTTACTGCATCTATAAACTTTAAAGTACTTCCCGCAATAGTACCATTTTTTAATGTTGCTTTATTATCTTTTACAAATACATTCAAATCTCCAAGTGTATAAGTACCATCATTTAAATTTGTTGCAGATATTGAATCAGTAATTAAAAATAATTTATCTGCCCCCTTTATTTTATAGACCATATCTATAAATTCCGGAGAAGTATGATAACCATCACAAATTAATTCTAAATTAAAATCAAAATATAATCCACTTCCCATTCCACCAATTTCTCTATGATGTAAAGGTCTTAATGCATTTGGAAAATGTGTTATTCTATTTATCCCTTTTTTAAAAGCATTTTTAAAATCTTCATACTTTCCATTAGAATGTCCAATTGAAAGTTTAACATCATTAAAAGCTGATATATCATTTAATTCTGGAGAAATAGTCATTATTTTTACTATGGGTCTCATTAATTCATTTAACTCTTCATTAGTAAATATTCTAATATAATCAGGATTTTGAGCTCCCATTTTTTCTTTATTTATAAAAGGTCCTTCAAGGTGGACTCCTTTTATTGATGTATCATTTATTTTTTCAACAGTATCCAAAACTTTCAATAAATTCTTATTAGAAGCTGTTACTGTTGTAGGGAAAAATGTAGTAACTCCATTTTTGAAATTTAATAAGCTCCATTTTTTAAACTCTTCTTTTGTAGCATTCATCGTATCAATTCCATTGTAACCATGAGTATGCGTATCTATAAAACCTGGCATTAATATCTTGTCATAAGATAAAGTTTTTTGAGTTATTTTTTTTATAATGTTTTTTTCAATTAAAACTTCTCCAGTATATTCACCATCCAATGGATCAACAATAAGACAATTTTTTAATATCATAATATCACTGATTTAGAAAGATTTTTAGGATTATCTGGATTTAGTCCTTTTAAAATTGCTAACTTATAACCTAAATATTGAATAGGTATAATTCTTAATGGTGTTTCAAAACCACTTAAATTTTTTATATTTATTTCTTTCTTTTCACCAATTGTAAGAACACGAGCTCCCATTTTTATTAATTCTTCCTCCAAAGATTTCTCCATTTCAGTTCCAGTAGTATTAAAAATTACTAAAGTTTTATTTGTTAACGTAGATTTTGGACCATGTCTATATTCTAATGGTTCATGAAATTCACATCTTGCAAGAGCCATTTCTTGTAGTTTTAAAGCTCCTTCCTTTGAAATCCCATAATTTTCATTGAATCCTAAAAAAACAAAATGATCATAATTTTTTAAGTTTAATTTATCTATTTTTTTTATAGATTCATCTAATACTTTTTTTGAATCTTCTGATAAATCAAATTCTTTTATTCCATTTAACAAAAAATTCAATATATAAACAAAGGATCCCGTCATAACAACACTTTCTTCATTTGCAAAATCAAAAACAAAACTTTCATCTGTATTTTTTACTATATCTGTATCCTTTCCACAGGTTATTCCTATTGTATGTATATTTTTCTTTTTTAAATTTTTTGCTGAATTTACCGTTTCTGTTGATGTTCCTGTCCTTGTTATTAGTATTGCTTCATCGTAATTTTCATTATCAAATAATACAATATTTCCACCTGTTTTCACATTAGCACTATACCCATTTTTTTTCATTACTTCAGAAACAGTTAATCCAATATTATAAGAAGAACCGCATCCAACAAATAAATATTTTTTTTCTTTATTTAATTCAAAAGATATTTTTTTATTTAATAATTTAGGTATTTTTAAAATTTCTTCTAAAGTTTTCATAACATTCCTCCTGCTAATAAGCACTCTAAATTTTTAGTTGTAAATTTAAAAATAATATCTTCTTCAAATTTATCTACAAAAGTATCATAAAAGTATTTTGACTTAAATGTACCTCCATGTAGATAAAGTATATTTGAATTTATTCTTTTCAAAACAATTTTACAACGATTAGCTAAAATATTTGTTCCTTCATTTACCAAATCATCAATTAATTTACTTTTTTCATTTAAGAGAACTGGAGTAAAAGATGCAATTTTAGTTTTAAAATTATCTTCAGATAATAAATTTAATATATCTGAAGTTTTACTTAATTTAAAATATTTTTCTAAACTTTCAAATATTTCATCATAGTTTCTAAGATTATCTTTATACTTTAAATATTCCTGTATACTTCTTAATGAAAGCCAAAAACCACTTCCTATATCTCCAAATAAATATCCCCATCCTCCATTCTGATATCTTTTATTATTAATTTTATCAATACCCATAACATTTATGCCTGTTCCACAAATTATTACAGCAAATTTTTTTTCATTTGTAACTTCAACAAGTGCTTCTATATCATTTTTTAAAATGATATTATTTATTTCAAAAACATTTTTTAATATATTGTATGTTTTCTCTTTTATTTTTTCATTTTCAACTCCAGAAAGAGATGCAACTATTTTATCAACTTTACCAGTAATTTTTTTTAATTCAGAAAATTTTTTAGTTAAAAATTCTGAAGTTTCAGCAGTTAAATTAACTCCAAACTTTAAAACTGCTTTTTTATTATTTATACAATATCTTAAATTACTTCCACCACCATCAATTCCCAATATTTTCAAAAATTTTTCACCACCTTAAATTTATATTTGTCGGCTCTGTAAACTGCTACTACGTACTCTATACAAATTCCATTATCTAATTTTGTTATTTGCCTCCTCAAAGCTGCTGGTGAATTTTTCTTTTGCTCTAAATATTTTGATTCTTCTAAAGAAAGTTGCGTTACTTCAATTGTTTCTTCTGCATACTTTAAACTTAATTTATATTCATTAATTAATATTGAGTATAACGATTTTTTATTCATATCTTCATCTAATATATTTAATAATCTTATATCTGCCGCAAGATTTAAATAAGCAGTCTCTATCGCATATGGTTCTTCATTTCTATATCTAATTCTTTTTAATTTAAGTATTTTTGAATTTATAGGAAGATTAAATACAGGAATTAACTCTTCTGGAATTGTAATTAAAGTATTTTCTAAAACAATAGATTTACTACTAAATCCATTTTTTATAGATTCATCAGTAAAACTAGAAAGCCTTGTTAAAACTTCTTCAGTCTTAAAACCATTAAAAAAAGTTCCAGTTCCTTTTACTCTTTTTAAAAGACCTTCTCTTACAAGTTCGTCCAACGCTCTTCTTACAGTTAATCTACTTACATTATATGTTTCACACAATTCTAATTCTTTTGGAATTTTATCTCCTTTTTTATATTTATTATTAATAAGATCAGATTTTATTTTTTTATATACAGATAAATATAGTGGATCTTTCGTCATAATATCACCTCTAAAAAACTATACATTATTATATATGTAATAACATACATAATTTATTTTACAATATTTTTTTTTATTTGTCAAATATAAAAAATTAAAATTACTTATAAAAGCATTATTTGATATATTTTTTCAAATATAAGTAATTACATATATTTGAATTTATCTTTCTTATAATAAAAAATTAACATAATTAATCTTAATAAGTTTTAATTACTATTTATAATCTAAAATTGTAAAATTTAGCATTTTGAAAAATATGTTAAATGTAGTATTATTAAGTTAGTTGCATGATGCACACAACTAAAAAGGCGGTGAAATATGCTTAAAATAAAAAACAAAACACAACATTCAATACTAAAATATATATGGTTAAAAGATACTTTTACAAGACAAGAATTAAGTGAAAAATTAAATGTTGATCGTTCTACAATATCAAGAAATTTAGAAGTTTTAATGAAACAAAATTTAGTTTTAAAAAATGGTGAAACTAGTTCAAGTAAAAAAGGTGGAAGAAAGACAAATTTATTATCTTTAAATAAAAATAGTTTTTATATTATTGGAATTTCAATAACTGGAAAAGAAGTATATTCTATATTAACAAATATAAAAGGAGAAATTATTGATTCATTTTCTATTTCAGGTCATATTAACAATAGAAATATTGATAAAAATATTTATAAAATTATTGATCAATATTTAAATAATTATGAAAATATTGTTGGTATTTGCTTAGCAATGCCTGGAATAGTTGATTCTCAAAAAGGAATAATTATTTTATCTGATGAATTAAATTTAAAAAATTATAGTTTAAAAAGTATTTTAGAAGAAAAATATAATATTTTTGTTTATATAGAAAATGATGCAAATGCTGGTGCTGCTGCTTATTTATTACATTCTAAACTAAAAATTTCAAATCTAATTTATTTTATATTCTTTTTTCCTAATAACTTAATTAATTTAGAAGGATTAGGTGCAGGAATTATTATTAATAAAAAACTTTATAATGGATCAAATAGTGCTGCTGGAGAAATAAAATTTAATAAATATGAATTAAATTTTTCTATTACTTTAGATGATATTAAAAATTATGAAAATTCAAAGAAAAAAGAACTTGTAGATAGTTTTTTAAATATAATTTCAGAAAAAATAGTTCAAATGAGTAGTTTTTTAGATCCAGAAAAAATAATTTTAGGTGGAGACATAACTTTATTTTCTAAAAAAATGAAAAATTACTTTATTTCAAACATATGTTCTAAACTAAATAAAAAAAATAAGTTCATAGTTATTGATACCGGTGAAATAAAAACTGTTGCTGTCGGCACTGTAACTGCTTTTTTAAATGAAGTTATGAATAACTTTGAATTTATTTCAAAAATACAAAATTAAAGTGGAGGTGGATGGTGTGAAAACCAAGTTACTTATTTTTGTTCTAGTTATTTTTTCTGTTTTATCATTTTCAAAAACTAAAATTGTTTTATGGCAATTCATGATGGGGGATGATGTATCTAAAAATATTTTAGCTGGATTTGAAAAAGAAAACCCAGATATAGATGTTGAAGTAGTTCAATTATCTTGGGCAAATGGTTTCGATAAAATAGTAACAGCTTTTGCAGCAAATGCTGCTCCAGATGTTTTAGAACTCGGAAACACCTGGGTTGCAAACTTTGCAAAACAAGGCGTTTTATTTGATATGTCTAACACAATGAAAAACAATCCAGAAATTGTAGGATGGAATCAATCAGAATTTAATGGTAAATATTGGGGAGTTCCTTGGTTATTAGGAACACGTGCAATGTACTATAACATAGATTTATTCACAAAAGCTGGATTAGATCCAACAAACCCACCAAAAACTTGGGATGAAATGTTAGAAGCTGCAAAGAAAATAGATGCTTTAGGTTCAGATATTCATGGTGTCGCAATGGCTTCTGGCGAACCTTATTCTCCTTGGCAAGAATGGTTTTTACCAGCAGTTTGGGGTAATAGAGGAAGAGTTATTTCAAAAGACTTAAAAAAGGCTACATTTAATTCAATTGAAGTACAAGAAGCTGCTAAATTTTATAAAGATTTATCAAAATATGCCTTAAAAACAAAGATTTCAGATTTACAAGCAGCTTTTGGAGAAGGAAAAATCGGAATGTGGATTACTGGTAGTGGTGCAATTTCTCAATTATCTTCTACATATCCAAATACAAATTTCTATGTTAGTTATGTACCAAAACCTTCAAATTATAGAGGATTTAGTGCATCATTTGCAGGTGGAGAAATTTTAACTATTTCAAATCAATCAAAAAAGAAATATGCAGCAGTTAAATTAATAAACTATTTAACAAGACCAGAAGTTGCTATGAAAATAACAAAAAGAGTACCTGCAATATTCCCATCTAATTCAAAAGCTTCAAATGATCCATGGTTTGAGGATAATCCAATGTCTTTAATTTTCTTTAAACAAAATGCAACTGCAGTACCTGTTCCACCACATCCAAAGTGGGGAGATATTCAAACTGAAGTAACAAGTGCAATAGAAGAAATAATCTTAAATAATGAAGATATTAATAAAACTTTAGATAAATACAACAAAAAAATACAAGAAATTTTAGATAATTCAAAATAAAAGTTTTTTCCGGAGGTTCCTTTGAATCTCCGGATTTTAGGAGGTATGATTTGTGAAATCAAAAACCAAACAAAGATTAACTATATTATTTTTTCTTTCACCATGGTTAATATCATTTTTAATCTTTGGTTTATATCCCATACTTTTTTCTATTTATGTTAGTTTTACAAAATATTCTGGAATAAATCCAACTATGGAGTTTGTAGGATTAAAAAATTATATTCATGCATTTCAAGATGAAACATTTTTAATAGCATTAAAAAACACATTTATATTTGTAATAGGAACAATACCTTTTACAATAGGAATTGCTGTATTAATAGCTATTTTATTAAATACCTATAAAAAAGGAAGTGGAATTTTTAAAGCAGGCTTTTTTTTACCTTCAGTAATATCAATGGTTGTAATATCAATGATATGGATTTATTTATATAGTTCAAATGGTTTTTTTAATACCATTATATCTTTTTTAGGCATGCATGTAGATCAAAGAAGTTTTCTTGCTAATCAAAAAACTGCTTTAATTTCAATAATGATTATGGATGTTTGGGCTGCCTTTGGATACTATGTTATATTAGTTTTTGCTGGACTTCAAAATATTCCAGATTCGGTTTATGAAGCTGCTAAAATAGATGGTGCAAATCCAAGACAAGTTGCTTTTAAAATTACACTTCCAATGTTAAAACCTACTTTGTTTTTTGTTATTTCAATAAATACAATTCGTTCATTTCAAATATTTAGTGAAATTTATACAATGACTGGTGGTGGCCCACAAAATGCCACTCAAACTGTAGTTCATTATCTTTATCAAGTTTCATTTAATAAATTTCAAATGGGTTATGGTTCAGCAATTTCATATATACTATTCATAATAATAATGACAATTACACTTGTTCAAAAAAGAGTTTTGAGGAGTGACTATTAATGACAGTAAAAAAAATAAATTTAATATTATTAAGCATATTATTAATTTTTTCTATGATACCTTTATTCATGATGATAATGACATCTTTAATATCTCAAGGAGATCTTTTTCATATAGTAAAAGAAAAAACTTTATTGGATTTTGAATTAAATCCAATGTTTTTAAGAAATAAAATGAGTGTAATTGGAAAGTATAAAATAATAAATTCTCCATATAGCAAAGGTATTGAAATATCAAGCAACAATACTTCGGGTTTAATTTTAAAAGTAAGAGATAAAGATATGAATACAATTAATAGTATTGATTTTTATATTAATGCTAAAGATATAAAATCTTTTGATATTCTTTTAAAGGATATAGATGATAATCAACAAAAAATATCTTATAATTTAATGAATAATTATAAATGGGAAAAAATTTCTCTAAAATTAAATTTAAAAAAATACAATAACATAGATATTAAACATATATCTAAAATAGAATTATTATTTAATTCAAATAATCCTATTCAAATTGATGAAGTAAAAATGAGTTATAAATTTCCAACTTTATATAATTTTATAAAGGTATGGAAGGAAAATGACTTTGCAAGATATATATTAAATAGTTCTCTAGTATCTATACTTTCAGTTGCAGGAAATTTATTATTTTGTACTATGGTAGCTTATGTTTTTGCTAGAAAAAACTTTAAAGGAAAAGAAATATTATTTGCTATAGTTCTTGGAACAATGATGATTCCACCACAAATTACAATTATTCCAATATTTATTTTAATGAGTAAATTACACTGGATAAATACTTATCAGGCTTTAATATTACCCTCAATAGTTACACCTTTTGGAATCTTTTTAATGAGACAGTATATAGAACAATTACCAAAAGAACTTGATCAAGCAGCATATGTTGACGGCGCAAATGATTTTCAAATATTTACAAAAATAATATTACCTTTAAGTGGTCCTGCATTAGCAGTTCTTGGTATTAATTCTTTTATTAGCAGTTGGAATGACTTATATTATCCATTAGTATTAACAAACACACCAGAAATGAGAACTGTCCAAGTAGGACTTGCTATGTTTCAAAAATTAAATCAAGTTAGTTGGCCAATATTAATGGCAGCTTCTACTATTGCAGCAGTTCCAGTTATTATAATTTTTTTAATTTTTCAAAAAAAGATAATATCAGGACTTGTAGATGGCGCAGTAAAATCATAAGAAATGGAGTGATAAAATATGTACTTTGATATAAGAGGAATTGTAGAAGGGTTTTATGGAAAACCTTGGACTCATCAAGAAAGAAAAGATCTAATAAAATTTATGGAAAAAAATAATTATAATCTATATATTTATGCGCCAAAAGCAGATACATATCATAGATTTAATTGGGGAAAAAAATATCCAAGCTCATTTATGGAAGAATTTAAAGACTTAATAATAGAAGGTAAAAAAAGTAACATTGATGTTTCAATCGCAATAAGCCCTGGACTTTCATTAAAATATTCAAACAATGATCAATTATTAAAACTAAAGGAAAAATTTGAAACTTTTATAAATATAGGAGTTAAAACAATTTGTTTGTTTTTGGATGATATTCCTACAAACTTACAGTATGAAGAAGACAAAAATAAATATAATGATTTAGCTGATGCACAACAAGATTTTACTAATAAATTATATAATGAACTTTCAAACAAAATAGAAAAATTTATATTTTGTCCAACACATTATCATGGTGAAGTTGGAGATTATCAAAAAAAATTAGGAAAAACTTTAAATAGTGAAATAGAAATAATTTGGACAGGACCTGAAGTTTGTTCAGAAAAAATCCCTTTAAATGATTCAGAAAAAATTAGTAAAGCTTTTAAAAGAAAAGTATTGTATTGGGATAATTATCCTGTTAATGATTCAACAATGGTTTCAGAAATGCACTTAGGACCTTATATTGGAAGAGATAAAAATTTATTTAAAAATTCAAAAGGTTTTTTAATAAATCCAATGAATCAAGCATATGCTTCAATGATAACTTTAGGAGCAATATCTGAATACTTAAATAATCCAGAATCATACGATCCAGATATTTCATTAAGAAACTCAATTTCAAGATTAACTAATTTAAAAAATGAATTATACGAATTTTCAAAAGTAAATGTACAAAGTCCTTTAAATAAAGAAAACACATATACTAAAAATTTTATAAATACTTTTAATAAATTATATGAAAATTCATCTTCAAAAGGTATAGAATATTTAAAAAATGAATCAAAAAAAATTTTTAAAATTTATTCTAAATTAATGAGCCTTCAAAAAAAATTAAAGGAAAATTTAATTCCATGGTTAAAAAATTATAAAAATTCTGGTTTTTTAATTGAAAAAATATCAGAGTTAATTGAATTATCTCAACCATTAATACATGAAAAATTTAATAATGAGGATATAAATAAATTAAGAAAAAAAATTTTAGAAGTAGAAAATTTACTAAAATTATGTATAGAATTAGATACAAAAGTTTATGGTGAAGACTTAATAAAATTTGCATTAATACACTTGAAAAACGCTAAAGGATTTATAAAATTGAATATATTTTAGTACTAAAAAAAGCATTTTGAAATTTTCAAAATGCTTTTTTATTTTTAACATATTGAATTTTGAAGTTTAACTATAAAATATGAGAAAAATTTCATTTTATTGACTGTAAGTTTTTTTAATTGCTTAAAATTATATTTGAAAAATTTTTTATTATAGTTTATAATGATTTTGGTTTTTAAATTTATGAAAAAAAAGTAAAAAAAGGAAAAATAAGATTTTCTTTTTGTAAAAAACAGTCTAAGGAGGAGTCAATATGAAAATAAATGTATATAGTGAAATAGGTAAATTACGGAGAGTGTTATTACATCGGCCAGGAAAAGAGTTAGAAAACTTAGCCCCACGCTACTTAGCAGATCTTCTATTTGATGATATACCCTACCTAAAAAAGGCACAAGAGGAACACGATGCATTTGCCAACCTTCTAAGAGAAAATGGCGTAGAAGTAAAGTATGTAACAGATCTATTCGTAGAAGCCATGGACTCACAAAATAACAAACTTGACTTTGTAAAAGAATTTTTAGACCTATCTGAAATAAACAATCAATATATAAGAGAAGCCTTAATAGAGATGTTAACTTCAATGAGTACAAGAGAAATGGTAGACAAGTTAATAGCAGGAGTAAGAACAAATGAATTGAAGTTAAAACAAGATATATTTTCAGTAAAGGTAAGAAAAGCCAAGTTAGGAATACCCTTCTTTTTAAATCCAATGCCAAACTTATACTTTCAAAGAGATCCAGCAGCAACAATAGGAAAAGGAATAACAATAAATAAAATGAGAACACCAGCAAGAAGAAGAGAAGCAATGTTAATGGAATATGTAATAAATAATCATCCAGAATACAAAGGAACACCAAAGTATTATGAAAAAGATTGTCCATACGCATTAGAAGGTGGAGATGTATTAGTATTAAACAAAAAGACATTGGCAGTTGGAATATCTCAAAGAACAGATCCAGAAGCACTAGAAGCATTAGCAAACAACATATTTCATAAATATGGAGATTCATTTGAAAGCATATTGGGATTTTTAATACCAGAATCAAGAGCATACATGCACTTAGATACAGTATTTACAATGTTGGATTATGATAAGTTTGTAGTACATCCAAAGTTAGAAGGAATAATAAAAATATTTGTATTGAGAAAAGAAGATAAAGGATATTCAGTATCAGAAGAAAGTGGAGAACTATCTGAAATATTGAAAAGACACTTAGAATTAGAAAAAGCAACGGTAATAAGATGTGGAGACTCAGATGAAATAGCAGCAGAAAGAGAACAATGGAATGATGGATCAAATGCATTGGCAATAGCTCCAGGTAAGATAATAGTTTATGATAGAAATTATGTAACCAACAGATTATTTAAAGAAGCAGGAATAGAAATACTCGAAATCCCATCAAGCGAACTCTCAAGAGGACGTGGAGGTCCAAGATGTATGAGTATGCCACTATTTAGAGAAGAATAATATAGTTCTCAAACATTAAAAACTCAAAAATTAAAATAAAAAATATTGAAAATAAAACACAACAAAAAAAGTGAAGGAGGAAGGATACAATGTCAGTAAACTTAAGAGGAAGACACTTTTTAACATTAAAAGAATATACACCAGAGGAAATAAGATACTTATTGGATTTATCAATGGACTTAAAAGCAAAAAAAAGAGCAGGAATAAAAGGAAACTTATTAGAAGGAAAAAATATAGTATTAATATTTGAAAAGTCATCAACAAGAACAAGATGTGCATTTGAAGTAGGAGCATATGATGAAGGAGCAAATGTAACTTACTTAACAAATAGTCAAATGGGAAAGAAAGAAACAATAGAAGATACAGCAAAAGTATTAGGAAGATTCTATGATGGAATAGAATTTAGAGGATTCAAACAAGAAACAGTAGAAACATTGGCAAAATATGCAGGAGTACCAGTATGGAATGGGTTAACAGATTTATACCACCCAACACAAATCTTAGCAGACTTTTTAACAGTAAAAGAACATGTAGCAAAACCATTAAATAAAGTAAAATTTGTATTCGTAGGAGATGCAAGAAACAATATGGGAAACTCATTAATGATAGGAGCAGCAAAAACAGGAATGGACTTTGTTGCATTGGCACCAAAATCATTATGGCCAAGTGAAGAACTTGTAAATGAAATGAAAGAAGTAGCAAAGGAAACAGGAGCAACAATAACATTAACAGAAAATGTAGATGATGTAAAAGGAGCAGATGTTATCTATACAGATGTATGGGTTTCAATGGGAGAAGAAGACAAATTTGAAGAAAGAATTAATTTATTAAAAGATTATCAAGTTAATATGGAAATGATAAAGAAAACAGAAAATGATGATGTTATCTTCTTACACTGTTTACCTTCATTCCATGATAAAAATACAGTTGTAGGTAAAGATATATTCGAAAAATTTGGTCTTGAATCAATGGAAGTTACTGATGAAGTATTTAGAAGTAGACATTCTAAGGTTTTTGATGAAGCTGAAAATAGAATGCATACCATTAAAGCTGTTATGGTTGCTACTATTGGAAATCTATAAGGAGTTCCCAAATGAATATAAATACAGATATTTATAAAGATAAATTAATTGATTCACTAAAAAAACTAATCAGTATTCCAAGTGTTTTAGATGAAAATGATTCAAATTATCCATTTGGAAAGAATATAAATGATGCTTTAAATGAAACTTTAAAATTATGTACTACTTTAGGCTTTAAAACATATAGAGATGAAAACGGATATTATGGATATGCTGAAATTGGTCAAGGTGAAGAATTAATAGGTATTTTAGGACATTTAGATGTTGTTCCTGCAGGAGAATTAAGTAATTGGAAGTTTCCACCATTCGAATGTACTGTTCACAATGAAAAACTTTATGGAAGAGGAACACAAGATGATAAGGGTCCTTTATTATCTGCTATTTATGGTACAAAAGCTTTAATGGATTCTGGTTTTAATTTTAAAAAAAGAGTTAGATTTATATTTGGAGTAGATGAGGAAAATCTATGGCGAGGAATAAATAAGTATTTAGAAAAAGAAGAAACTCCATCAGTAGGATTTACTCCAGATTCTGTTTTCCCTTTAATTTATGCCGAAAAAGGATTATTACAAGCAACTTTAAGTAGTAAAACTAATACGAATATATTTCTTGATGGTGGAAAAGCTTTAAATGCTGTTCCTGATAAAATAATTTACTCATCAGAAAAAATAGATGAACTTGAAAAAGAGTTAAAAATTTTAAATTACAATTATTCAAGAAAAAATGATGAAATAATAATTCATGGAAAAAGCGCTCATGCTTCTACTCCACAACATGGTATAAATGCAATTTCAAGATTATGTATTGCTTTAAAAAATATTGGTATAGAATCAAATACAATTAATTTTATTGCTAATGAAATTAAAGAAACATATAATGGAGAATTAATAATTCCTAATTGTGAAGATGATGTTTCTGGAAAACTCACTATAAATATAGGTAGAATCTTTATAAATTCAGAAAAAGAAGAATTAGGTATGGATATTAGAATCCCAGTAACTATAAAAAAAGAAACTGTTGTAAATAAAATTAAGGAAAAAGCTTCATTATATGGATTAGATTATAATGAATATGATTATTTAGATTCTATATATATCCCTAAAGATCATTTTTTAATAAAAACTTTAAGAAAAGTATATGAAGAAGAAACCGGTTTGGATTCAACCCCACTTACCTCTGGCGGTGCCACTTATGCAAGAGCAATTAAAAATTGTGTTGCTTTTGGAGCAATTTTTCCAGATAGTGCTGAAACAGAACATCAACCAAATGAATACATTGAAATAAAAGATTTAGTAAAATGTATGAACATATATTCTAAAGCAATTTTTGAGTTAGCAAAATAAATTTATGGAGGTATTGTATTTATGAAAAAGTTTAAGATGCCAACAGCTTATACAATTCTAATGATAATAATTGCAATAGTTGCAATTATGACATGGGTTGTTCCAACTGGAAACTATGATTATGTTGATCCAAATGCATCAAAGTTACAACCTATTCCAGGAACTTATCATAGCGTTCCAAAAAATCCACAAGGTATAGGTGCAATTATTAAGGCTCCAATCGATGGTTTTTATGATGCTGTAGATGTAGCTTTATTTGTAATTGTTATTGGTGGATTTTTAGGTGTAGTTATGAAAACAGGAGCAGTAGATGCTGGTATTGCTTCTGTAACTAAGAAATTAAAAGGTAGAGAAAAGTTAATGATTCCAATTCTAATGATTTTATTTGGTCTTGGTGGAACTACCTTTGGAATGTGTGAAGAAACAATTGCCTTTTATCCATTAATAATTCCGGTTTTTATTGCAGCTGGTTACGATGCTATTACTGCTGTTGCTGTAATAATGCTTGGAGCTGGTGTTGGTGTTTTAGCTTCAACAGTTAATCCTTTTGCAACTGGAATTGCTTCTGGATTTGCAAATATTTCTCTTGGTGAAGGTATTGGTTTAAGACTTTTTATGCTTATAGTTGGTGAAGCTATTACTATTTTTTATGTTATGAAGTATGCAAAAAAAGTAAAACAAGATCCAAGTAAATCTTTAGTTGCAGATATGTTTGATAAAAACAAAGAACATTTTTTACATGCAAAATCAGAAAATGATTTTCCAGAGTTAAATGGAAGAAGAAAAGCTGTTCTTTGGATTTTTGCAGCAACGTTTATTGTTATGGTTTATGGTGTAATTCCATTTTCTGATATAGGTATTACAGCAATTCCAACTCTTTACTGGTGGTTTGGGGAATTAACAACATTATTCTTTGTATCAGCTGTAATAATAGGTATCGTTTATGGAATGAAAGAAGAAGAATTAGTTGGAGCATTTATAAATGGTGCAAGAGATTTATTGGGTGTTGCAATAATAATTGGTGTTGCAAGAGGTATAACTATAGTAATGAATAATGGTAATATAACAGATACCATTCTTCATTTAGGTGAAGGATCATTGGCAAAATTAAGTTCTTCTGTTTTTGCAATAGTAACTTATTTATTCTATTTACCTTTATCTTTCTTAATCCCTTCAACATCAGGATTGGCAACTTTATCTATGCCTATTATGGCTCCACTTGGAGACTTTGCACATGTATCAAGAGATATAATTATAACTGCTTATCAATCAGCAAATGGTATACTTAATTTATTTACACCAACGAGTGCAGTTGTTATGGGTGGTCTTGCTATTGCAAGAGTTCCTTACGGAACATGGCTAAAATTTTTATGGAAATTATTAGCAATATTATTCGTATTCTCTATCTTATCTTTAGTAATAGGTGTTGCTTTATAAAAAAAATAACCCAAGTAAAATACTTGGGTTATTTTTTTTGTTTATTAAAAAACTTGTCCAAAACCAAATGTATACTTTCCAACTAAGTTTTTATCCCATGAATATTCAAATCTTACTTGTCCTAACATAGGTATTGTTAACTTCAATCCAGTACCAAATGACCATATTGAATCTTCTAATAACTTTGATGGATCATCTTTTGCATTTCCATAATCTCCAAATATAAATAAATCAATTGGAATAGTTTGTGTAGATAGTTCATATGAAAGTTCAGCATTCATCAATAATTGAGAATCTGCATTTAATGTTCCAAAATCATATCCTCTAACTGTATACATACCACCAATTGAATAAAATGATTTTAAATTAGATGGATCATTTACATATCCAACCTTAACTCTCGTTCCAAGTGTGAATTTTTGAAATGTTGTAAAGTATTTTGTTTCTATATTTCCACCCAGATATTTTTTTGATGGTTCAATTACATTTATTCCTCCCATAACATCTAAAGATAAATATTCACCATTGTATACTCTATATAAACCATCTAATTTATTATATAAAAATCCAGTACTTGCTGTAAAATCAGAGTACTTTGAATTATCTTCTTTTGTATAATCATTATAAGCCATTGACGTTGTAATATAAGAAAAATCTGAAATTTTAAATCTTGGGCTAATACCTACTGATATTTGATTAGTAATTGTAGAACCAAATGTACTTTCATACTTTCCTGATGGTAAATACATATATTTAGAGTTAAATCCCATATCTACATTTGAACTAAATAATTTAATTACATTGTAATCAAATCCAGCTTCATACTGATTTGATACTGGATTTAATTTAACATTTAACCCAAAAGTTTGTCCATATCCAAATGGATTTGGCATTTTTAAGTCCGTTGTAAAACTAAAACCTTCATACCATTGTTTATTTTCTAATGGTGTCCATGTTCCACCAAACATAAATTTTCTAAGTTTTGTTGATTCTTTTGGTTTTAAAATTATATCTATTTTATCCCCATCTTCTTTTGGTAATATATCTAATTTACTGTAAAAACCTGATCCAGTAAAAGATGTATATGTATTTCTTAAATCTTTTTGATTCAAGACATTTCCTTCTTTTATTTTTACAAAAGAATTTATTATATAGTCTTGTGTTTTAGCAGTTGCTTCTTTACTAATTTCTACTTTTCCTACTTTCATTTCATCAAATTTAAAAGTTATAATGTTATTTTCTATAATAGGAGTTATATTAACATATAAGTACCCATTATCTAAATACACTTTTTTTAAGTTATCCAAAGCATTTAATAAATCAATATTTGAAATAGTTTCTTTTTTCATAAATAATGATATACTTTCTTTTAATTTAAAGTTATCTATACTATTATTTCCTTTAAATACTACATTTTTTATTTTTATATCTTTATCAATTATTTGTTTTGGTTTACCACTAAATACTAATAATAATTCTCCACCTTTATTTTCTTTTATGTTTATTTCTTTAAATCCCATTTTTGTATTTTCATCAAAGTATTCAAGTTGTTTTAATTTATTCATTATTTGATAGTATTTTTGTATACTTAAATATGTTTCTTTTACATCTGGTCTAAATAAGAAAAATTTATTATTATATTCTTTTCTAAATTCAAAGCCAAGTTCATTTTTTATTTTTTCTTTATTTAATTTTTTCATATCTCCTTGAAGTTCTATATCCCATAAAGAATATTCTTTAATTTCAAAAACAAGTGTTCCGTTTTTATATTCTTTATTATTTACTTTAGTAGCTTCAATAGTTAATTTATTAGAATTGAGTTTTATATTAGAATTTATTGAAATATAAACATAACCTTTTGAATTATAAAGTCTTTGTATATTTTTACCACTATTTTTATAATCTGTTATATTTAATGGAATGTCTTTTTTTAAAGTTATATTAGATAATATATCCTTTTTATCTACTAAACCGTCTCCTAATATTTCTACTTTTATATCTTTTACAATAGGATTTGGGGTTATTTCTATATTTAATACTCCAGTTTTTTCATCTAATTTATAGTTTAACGATGTAAAATAACCAAGTTCATTTATTTGTTTTAAAGCTAATTGTATATCAATATCACCAACAAGATGATCTTTTTGTATTTCATAATCTTTTAAAATTTTATCTACTTTAGTTGCAGCATAACTAATATCATTACTAAATTTTATATCTGTTAGTTTAGTTATAGAAAAAGATGTAATAAATATAAAGGTTAAAAATACTATCAATAAAAATTTTTTCATCAATTTTCCTCCTTGATTTCTGTTTCTAATGTTTTTAGCATTTGTTTTATTTCATTCATAAAAGTTGGTTTAAAATATATATCTTCATATAATTCTTTTAATTTTTCTGTGTTTAAATCATATGACTCATTGTTAAATGTACGTTTTATATACCAATCAACATTTGGATCTATATATATCACAGAAAAAATACACATTGAAATATCTCCAACTGGTTGACAATCAATGTTAGTTTTATTAAATAATGCTTCTACTATAGTTCCCTCATCTTTTTTAGATTGTAATTTTAAATATCCACCAGTTAATTCTGTGGAAAATTTTAAAAATGGCAGTCCAACTCCAAACTTTTTTTTTCTTTCTTTTTTTGTTGTAAAAAATGGATCTAATGCCTTTTTTATGTCATCCTCATCCATTCCTTTTCCATAATCTTTAATAATAAATTTAATATTTGTTTTATCTTCTTCAATATATAATTCACATTTTTTAGAATGTGAAGCAACTGCATTTTCACATATATCTGAAATATGGTCTGCAATAGTTTTTAACGTTGCCATATTGGAATCACCTTATTATTATATATAGATTTTTTTAATTCTTCAAACGTTCTTGATGAAGCGTCTACATTACATGCTATCATGTTTAATTCTTGTGGGAAATGTGCATCATTTCCAAAAATAAATCTTTTAAAACCTAACTTTTTTGCTTTCATCATTTCTTTTTCTGATTTTACTTCAACTGCATCAAATTCTAATTTTGGCGGTATTCCAAGTTGTTTAATTAATCCAAATGATCTAAAAATATGTGCTGGAACTATTAAAGTTTCATATTTTCTTGCCATTATATATATATTATCTATACTATACTTAGAAGAACTTCCATAATAAGGCGTTTCTATAATTTTTTTAAATTCTCCATTTTCATTTAATAATATTTGATATCCAAGTTTTTCTGGATCATATTTTTTTATTATTAAACTTTCTTCGATTTTTTTTGAAAATTCTAATAATTCATTAATATTTTTAAAATATACCAATATATGAACTTCTTCAATTGTTTGTACTTCTATTCCAAAAATAACTTTTATTCCATTTTTAGATAATATATCCGAAAAAACTAAAACATTTTTGGCAGAATTATGGTCGGTTATTGATATCCAATCTATTCCTATTTTTTGTAAAACATCTAAATATACTTCTGGTGTCATAGTTATTTCTCCACAAGGAGATAAAACTGTATGATTATGAAAACTACATTTAAAAATTGCCATTATTCCCTCAATAAATTATAAAGACTTCCAGCCAATTCAAATGCTGATTTTTTAGATTTTAATAATACAATATTTTTTTCTTTTGCTATTTTTATAGTTTCTTCCATATATTCTTCATTTTCTGGTAAAATAATTGCCCTTGCACCTACAACTTCAGCTACTGCTATTATATTTTGATGTGATTGATGTGTTATCCATATTGAATCTTCTGGAGCATTTCCCATTACTTCACTTAATAAATCTCCAACATGTCCTGAATTTATATCTTCATCATTAAAATTAGTTATTGATTCTAAATTTAATTCATCAATTATCTTTTTTAATTTCATTTTTTATCCCCCCTAAAAAATATCATTTCTACTTTAAGTCCCTTATCAGGACTAGAAACTACTGTCATTTTATTTGAAAATCTTTTCATATTAGGTAATCCCATTCCGGCTCCAAAACCTTTTTCTCTTATAGTCTCTGATGCTGTTGAATAGCCTTCTTTCATAGCTTTATCTATACATTCTATACCTTTTCCAAAATCTTCAACATAAATTTTTATAAAATCTTCTTTTATATAACAATATATATGTCCTGTAGATCCACTATGTATCACTACATTAGCTTCGGCTTCATATGTAGCTATTGATATTTTCCTTGTTAATTTTGAATCTATTTCTTTACTTAATAAAAATTTTTTTAATTTTGTAGCTGCCATTCCAATACTTTCTATTGAATTATAATTTATTTCATATGAAAAATCTGCCCCAGATTTTTTTTCATTGATAATTATTGATTTAAATTCATTTTCTAAAACTCTTTTTCTTCTTTCATCATGTATATATATATGCCCAAGTTTTTTAAATAACCATTCCATTATATCTAATTTTGTTACAACACCAACAACTTTTTTATCTCTATTCAAAACTGGATAACGACCAAATTTTTTTTCTTGATTAAAATCCAAAAAATCTCTTATTGTATCTTCTTCACTTAAATAAAATGGTTCTTTTGTCATCCAATTTAAAACTCTACTTTCTATACCACCATTTTCAAATACTTTTATTAAATCTTCTATACTTAATATTCCAATTAATTCTAATTTTTTATTTACAACAGGCATTCCTGAAATACCTTTAATTCTCATTATTTCTTTTGCATACTTTATTTTCGTTTCTTCTGTAACTACTATTGGTGGTGTACTCATTATTTCTTTTATCTTTGTATTTGAAAAAACATTTGAAAGTAATTCAACTAACTTATCAACTGTTTTGTTCATATTTCTATCCCCAAATCTGTTCCCATTGCATCTTTTATTCCATTATTAAATAACATAGAACATGCAACATACATTGATAAATCTGTCTTCAATATAGAAATATCTAAATCTTTTGCCATTTCAATAACTTTATCAGAAATTTTCTTTCCCCTCACAAATAAAATTACTTTAGCTCCAATTACCGCTGCCGTTGTAATTGTTTGTGGACTAACAAGTCCTGTAATTAAAAGCATGTCTTCTTTGGAAAATGCTAAAACATCACTCATTAAATCTCCAGCCCCAGCATATTTTATTTTAAAATTTTCTACATTTGGAGTTAAATAAATTTTTTTTGCTTTTAGAAGTTTTGATATTTCAATTATTTTCAATGCTATCATTCCCAAGTAAATCACCAGTATAATTGTACTTTAAAAATGCTTCATATGTCCATGGACATTTTTCTTTAAATATCTTTGCCATAGCCAATGCATATTCTTGAATTTCAAGTTGAGCATGAGAATCAGCTCTTAAATTTAAAAAGTGCATAAGTGCTCTAACATTTGTTGTCATATAAAATTGCGTATACTGTCCTACTGGTAAAACCATTCTTGCCATTTCTCTTGCAATTCCCATTTCTAATAATTTTTTATAATTTTTATATGCTAATTCATATGATTTTTTAAAAATTTTTATTGCTTCTTCTGTAATTTCTTTATCTTTTATAATATCAGAAGATTGTTTGTTTTGTGTATTTTGAGTTCTAACTTGTTCTGGTATATAAAATTCTTCTGCATACTTTGAAGTATATCTTCTACTTATTTCATTGTAAGACATTCCTATTCTGTGTCTAAACCATTGTCTTGCAACAAATATAGGAGTTTTTATATGAAATGTAAAAGTAATATGTTCAAAAGGTGAATGATGTCCATGTTCCATTAAATAAAATAATAATTTTTTATCTCTTTCATCATTTTTCATTTCACCAGCGTATGAAACACGTGCAGCTCTTATTGCAGCATTATCATCTCCCATAAAATCAATTAATTTCACAAATCCAGAATCGAGTAAGTTTATTTCTTCACTCTTCATTTTTTTCACTCCTCATAATTTCGTTTTTTACATTTATTTTTTCTCCAATTTTTTCAACAATTATTTCTTTTTCATTTTTTTTATGTATTAAAATAAAAATTAATAACACGCTTATTAAAAATAAAGGTAATACATAAGAAAAAAAAGCATATATTCTATACTTTTTCTGAATTGATATTAACATTTTATAAGTTTTTTCTTGATTTGGATCAAAGGTTAATGATTTACTTAAATATATTCTTGCAAGATTTAAATTTTTTTCATTTCCAGTATAATATGTTCTACCCAATTTTTCAAGAACAGTTGGATTTTTAGGATCATTTTTTAATGAAAGTCTATAATAATTTATCTTTTGTGATGTTGTACTGGCCATATCTCCCAATATTTCATATGAAGAGGCTAATACATTGTTTTTATTTGTATTATTGATTATATTTTGAATTAAATCTCTTGATTTTTTATAATTTTTATTTTTTTGATACGTTTTAGCTATTAATAATAGTATTTTATTATCTTTCTTTGAAAAATTTTTGTATAACTCACTATAAGAGATTATTTCATCTAATTTATTTAATGAATAACAAAATTTTATTAGTAATTCTAAAATTTTTTGATTATCCTTATGATTAATATACATTGCTTTTAATTCATTGTATGCTTCATTTTTGTTTTGATATATTTTAGAGTTCCAAAGAATAAGTGAATGATAATAAGAAGTAAATGGTGTTTTTCCTTTAAGCTGTTCTATTTTAGAAATTGCTCCATTTATTTTTTTTAATTTTATTAAATTTCTAGATTTTTCCCAATCTGTATATGCAAAATAAATATACATAGAATTTAAAATTATTGAATTATTATAAATATTCAATGCTTCTTCTAAATCTTTTTGTGGTTTAAAATAATCAAATGGAATCGTTTCAGATAATATATTTAAAAGTACAGATTCATCTGCCGAAAAATTTTTATATAATTCAGATCTCATTATATTTGCAGTTGTTTTATAATCTTCATACCCTGTTTTCCAATATTTTAAATATAAACCTAATATATTCATTTCTTTATTTTCAGAATTAATAATAATTTCTTCATCAAAATTATTTAAAAAATCATTTAAATTTGAAAAATTAGAAATTGAAATCATTATAATTAAAAACAAAAGTAAAAATTTTAGAGATTTGATTCGTTATACCCCCTTATCATTATTTGATTATCACTCAAATAAAATACTGTTTTAGTTAATGCTTTAGATGGAAAAAATGTTCTTTTATGTATATATATTTCAACACCAGGATATACAATTTGTCTAACATTTATTAAACCTTTATTTTCAGAATTATCTATTATTTCTTGTAATTCATTTAATTTTTTCTCATTTTCTTCTAAATTATTTTTTAAATTTTTTGCAGTTTGAAGTGTTTTTTTATATTGTTCAAGTTTATTTTTATCCATTTTTCCTTCTTCTTTTAATTTCATTATACCTTTTAATATTAAACTCAATTTTTTTAAATTTTCAAGATCTATAGCTATTTGAGATTTCACTATAGTTATTTCTTCATTTATATGAGGATCCACACCAACTTCTAGATGTGTTTTTACAGTTCTTTCACTTCCCATTATATCTGCCTCTATCTTTATCATTGCATTTAATACTCCACCTAATATTCTACTGTTTTTTCCTGTAACTATTATTGAATTTCCTGATTTTAAATTAGAGTTTATTATTGATTGTTTAACTTCAATATTATTATTTGTTTCTATATTTGCATTTTCTATATAATTTGCAATTACATTTTTAGCTTTTATAATTCCTTTTCCTGCACCCTTTATTCCTGACACTGTTATAGTTTCTTCAGAAATTAAAGTTGCAGATTCAACAACACCTTTTATTTCTATATCTCCTTCTGCTTCAATTGTAAATCCAGGTTTAACATTTCCATTCACCGTTACTTTTCCAGGAAATCTTATATTTCCAGTAGAATAATCAACATCACCATCAACAGTATAAACTCTCGAAACATCTATAAAAATACTTCCATCTATTTCTTTTTTATAGATTAACTCTCCAGCATACTGTGCAATTATTTTTCCTTCTTTATTAATCACATTTTTTCCAAGTTTAAATTTTAATTCTTTGCCAAACAATCCTTCAATTTCATTTCCATAAACATCCATACCAACTTCGCCTTGAGTTGGTGAAATTATTTCAGCTATTATTTCATCTTTTTCTATACTTATTATATTTGTTCTTTCTCTTAAATCTATATATTTTTTTTCCATATTCTGTCTTTTCTTTTTTGCTAATAGTTTTATTCCACCATTTTCACCAACTTTTGGTGCATGACCATAAGCAATTGGTAAATCTACTGAATATTTAGGTTCAGCTATAATTTCTGAAATAATATCATATCTTATACCAGATACTATATTGTTTTCTTTTAATGCGTTTTCTATATCTGACATATCTAATTTTTTTGCATCATCTATTAAGTTTATAGAGGCTACCATATTATCTGAAGATACCTTAACATTTATTATCGCCATAATCTCCCTCCAAATTAAAATATATCTTTCTTTAATATCATTAAGTTACCAATTTCTATATCTTCCCAAATTGGTTTTCCAAATACTTGTTCTATTATATAAACGCCCAATCCACCATCTCTATATTCTTCTAATGGTCTATGTTTTACCTTAGACACATCTATCTTTTTTCCATAGTCTCTTATTTTTATTATTAGTTCTTTTCCATCAAATAAAAATTCTATGTCTATTAATTTTTCTTCATTATAACTATAAGTATGTTCTATAACATTAGCAACTGATTCATTTAAAGCTAGTTCCATCATAAAAATTTCTTCATCATTTTTAAAATTACATAAATATAAAAAATTTTTTAAAGCATGTCTTAATAATTTTATATATATATTTTTACTTGGAATAGTAATTTTAAAAAAATCCATAAATTAACCCCCTTCACCATATTATAAACTTTCCCCTCCATCCATTTACCTTCTTTCTTCCACTTTTATTTATATTAAGCTCATTAGCAATTTCTTTCTTCATCAATATAATTCTTGGTTTTAATAGTTTTATTAACTTTAATCCATACTTTTTTAAGTATATGTATGATAAATCTTCAGGAACTTTTAAAATATCTTTTTTAAATAAATAAAATAATTGTTTTGCTTTTTCTTCACCAATCAAATGTTTTAATTCATTAAATTTTTGTTCTTTTGATTTTTTAGTTATTTGTTTAGCTTCAAAAATAGAATAAGAACATCCACAATAATTTTGTCTATATATATTTAAAGTCCTACACATTTTTGCTGCTTTTGAAATACCTGAATTTTCTCTAAAATTAAAGTATTTAAATTCAATGTTATAAAGTTTTTCTGCTTTTTTACCACACTTTATAATCATCTCATGTGATTTTCTTGGTGAAGCTAATAACGTAGTAGTAAATTGTTTAAACCCATTTTTTTGTGCAATTTTAGCAGTTTGTATTATTCTATGTTCAATACAACTTTCACATCTTTTATTTAAGTCTAAATTATCAAAAAATTTTTTTATATTGTATTCAGCTTTTATCTCTTTAAAGTTCCATATTTCTTTTAATTGATAGTAAGCATTTAATCTTTTTTCATATTCAGATTTTGGATGTATGTTAGGATTATAAAAGTATGTTGTTGGAGTGTATCCAAGTTCTATTAAACGTTTATAAGATATTGTTAAATCTGGTGCACAACATACATGTAAAAAAATTTTCAAAACTCTATCAGTCCTTTCAATTTAATCGTTTCTTTTTCTGATAAACCAACTTTTTTTAAATCTTCAAAATTTTTGAATTTTTTTATATTTCTATAATTTATAATTTTTTTAGCTGTTTTTTCTCCTACCCCTGGTAATAACTTTAATTTATCAATTGAATCATTATTTATGTTTATTTTTTGTTTTTCAAATATATATTCTTTTTTTTCTAAATAAAAATACTTTTTTATTTTTTCAAATGTTTTTTCTCCTATTCCACTTACATTTTTTAAGTCTTCTAATGCATGAAATCCAATTTTTTCTCTATATAAAATTATATCATTAGCTTTAGAATATCCTATTCCTGGAACTTTAATAAGTTCATGAATAGAACTTGTTTGAATATTTATTTTATTTTCCGTATCTTCCATGTTTTTAGGAATATTTATTTTAAAGTTTACATATCCAATTAATAAAACTAACAAAACAATTATAACATAAAAAAATTTTTTCAATTTTTTTCTCCTGAAAAATAAATCCCTCTTATAAATCTATCCTTAACGCTGAGACCTATTAAATCTTTTATTTCAGTTTCGTTTATATTATTCATATAATCTTCTGCTTCTTTTTTTTCAAAAAACAATCCACTTAATAGTGTAAAGTTTTTTTCTGTACTATTAGCATAATTTCTCGTCATTATAAAAGCTGGAAACCCTGCTTTTTTTAAGGTTGTTGCAGTAACAAAAGCTTGAGCTTGATCTGAAGCAAAATATCTTAATTGTACAGTATATATATATTGTTTTTCATCAACAATTTTATAATCATCACTATTAATTAATTTATAATCTCTTCTATATAAATAATACTTATCTTTATACATAAAGATATAATAATTAATATTTTTTTCATAAGCTTCTACTGCTTTTGAAAAAGCTTTAATTTTATCATTAAATACTTTTACTGCACCAAGATTATAGAGCTTTAAAGATCCAGAAGACCCATTTAAAAGATTTTCAAAATTTAATTCTTTTATTTCATATTTTAAGTTTGTTTTTTTAGGATTAATTTCTGGTAATGTTATATTTTCTTTTAAGTTTGAAGTTATTTCTTCTTTTATTACATTAGTTTTTAAATCATTTATTGAAATACTTAAATCTTTAATTTGAACTTTTAAGTATATAGTATAAACTGTAAGAAGAAGTGTAATTAGAGGCAAAATAAAGACTAAAACAATTGTTATTTTTAAAAATGAATTTTTATCCAACTTTTTCACCTCTTATAAAATTAATAAAATCATCTATGTAAATATTTATTTCATTTACTGAAAAATATTTTAAAGTATTTTTATTTTTTCCTGGAATTATATCTGTAACATAATCATTTATATAATTATTTTTCATATTTAAAATTATTTTTTTATTAAAAACACCAAACTCATTAGTGTCATTTAAAATCATCTTAAATTCTTCTAAAGAAATTAATCCTTCAATATAAGAAATATACGATAATAATAAGAAAATTGAAGAGTATATTTCAAAAAATTTATTGTTTATCTCTATTGGATTTTTAATAAAATACTTTATTAGGTTATATCCCGGAATTTCATAATTATCTTTATAAAATTTCATTGAATTTTTTATTGAATTAATTAAAAATTCCTCTAAATCTGTATTATCAAAATTTTTAGAATAATGTAATGATAATTTAGAAAGATTACTATCAAAATAAGTTCCAAGAATATAACTACAAAAAAATTGCTTTTTTAAAGATTGTTTTGATAATAAACTTAAAAAACTTTGATCAATATAAACTTCATTTACATAGCCAAAAACTTTTAAATAATCTCTCTTAAAATTCATATCTATTCCAAAAAAACCTGAAATTGGTGGAAATATCATAGAGGTTAAAGTTGTTGGTATTAAAATAATTTTTTTTATATTGTGATTTAATGTGTTTAAGGTATAACCAATTAAATCCATTAAAGATCCTCCACCAATGCCTATAACAATATTAAATTTATTTTTTTCTATAGTTTGGCAAAGATCTAAATACTTATCTAAATATTTAGCCTCTTCTCCACCTTTTATAAATTTTATATTATTTTTTATCTTTAAAAAATTTCTTAATTTAGTATCAACAATAAATAAAACGTCTTCTTTTTCATCATAGTTATCAATTATTTTTTCATGAAAATTTTCTTTTATAAATACATTTATATCACTTTTTATATTTTTAGATAAAATTAAATTTTTCAAAAATTTCACCTTTTCATCTTAACAATCCAGACAACAAAGAATTAACAGCTTCAGCATTTGCTATTGGATTATATCCACCTTCTTGTAGTATTAATTTAGGAATTGTAATTTGATTTATCATTCTTCCAATTTCTTCATAATCTCTTTTATTTAAATTAAACGTCCCCAAAGGATCATCTTTGTGTGTGTCACTACCAAAAGATATTAAAAGATAATCTGGGTCGAAACTTTCAATTTCCAATAATGATTTTTCTAAAACTCTTTGATAAATTGTTCCTCCTATACCATCTTCAAGTGGAAAATTAAAGTTATACCCCTTTCCTTCATTTTCTCCTATTTCCCATTCATATCCAGAAATGTATGGATAATTATTTGATGGATTACCATGTATACTTATAAACAATGTACTAACATCTTGATAAAAAATTTCTTGTGTTCCATTCCCATGATGAAAATCCAAATCAAGTATTGCAACAAATCCATTTGTTTTAGTTTGTAAGTACTTAGCAGCAACGGCAGTATTATTAAAATAACAATAGCCTCCACCCATGCTCAACCCAGCATGATGTCCTGGAGGTCTTGTTCCTACATATACTATATCGTCACTATTTTCATATATTATTTGTGCACCAGTTAATGCATTTTTAATAGAAATCCAAGCCATTTCAAATGAATTATTTAAAATCGGTGTACCATTATCAAATATCCTATCATATCCAAATACTTTAGGAAAATATTCTTCTCCATCCTTTAAAGTTTTAGATTTTGCTTTTAACCATGTTATATAATCTGGATCGTGTGCTAAATATAAATATGATCTTGGGAAATCTCTTGATTTTACAAAACTATCCTCATATTTTAATTTTAAAACTTTTATTATTTCTTCTACTCTTATTGGTGTTTCTGGATTTTCTACCATTTTAATTCTATCAAATTCAGATTTTGGATTATAAAACATATGTCTGGGATCATATACTATTTTCATAGAAATCACTCCTCAATCTTTGAAATTTTATCAATCCTTCTTTGATGTCTTCCTCCTTCAAATTCAGTACTTAAAAATTTATCAACCGTCCATTTTGCTACATCATATCCCATTAACCTACCAGCCATAACCAATACATTTGCATTATTATGTTTTCTTGAAAGTTCTGCCATAGTAGGATAAAAACAAAGTGCAGCTCTAACTCCTTTAACCTTATTTGCAGCAATTGAAATTCCTATTCCAGTTCCACACATTAAAATACCATAATCAACTTCTTTATTAACAACAGCTTTCCCAACCTTTTCTGCAAAGTCTGGATAATCAACACTTTCTGTTGAATATGCACCCATGTCTACAACTTCATGATTATTTTCTTTCAAGTAATTTATTATAATCTCTTTCATATCAAAACCAGCATGATCAGATCCAATAGCTATTTTCATAAAATCCTCCTTATTTTATATTTAATATTTTATCCAAGCCAACCATTTCAAATAATTTTCTTATTTTTTCTTCAATATTTATTATTTCAAGAGAACCACTTTTTAATTGTGCTGTTTTATGTAAACTTATAAGCATTCCTATTCCTGAGCTGTCTAAATAAGAAACATCTTTAAAATCTAAAATCATTTCAGATAATTTAAGATCTAAAATTTTTTCTTTTACTTCTTTTATATTAGACATATCTATTTCACCAGAAATCTTTATTATTTTTTTACCTTCAACTTCATTTAAAACTATTTCCATAATATACCTCCTTGTTCTTGTTTATTTTTATTCAAACATTCTTATTAATCCAACCATAACCCCTTGTATTTGTAACCTATCTGGTTCTACTTTAATAATATTCATATTTTTATTTTCTGGAATTAAATGTATAATATCATCTTTCTTTCTAAATTTTTTTAAAGTTGCATAATTTCCATCTATTAATGCAACAACTATATCATTATTTTTTGCAAAATCTTGTTTTTTTATTATAACATAATCTCCACTCATTATATGAGCTTCTATCATTGAAGTTCCTTCTACCAATAATGCAAAGTACTCATTATTCTTTGAAAAATAATTAGAAGAAAGAGGAACAGTATCTATTATATTTTCAATAGCTTCTATAGCAGCTCCAGCAGCTATCTTACCAACCACTGGAACTACTTTTTCACTAGTGAAAATTTCTCCTGATTTAGAAGTCAATTTTATTCCCCTTGAAACATTATTTCTCTCTATATATCCTTTTTCTTCTAATGTAATTAAATGTTTATGTGCTGCTCTTGGACTTTTAAAATTAAAATGTTTCATAACATCTCTAACACTTGGGGCATAACTGTTTTTTGATATATAATCTTTAATAAATTCAAGGACTAAAGATTGTTTAGAAGTTAATTTTTTCATTAAATTTCCTCCTCTTCTTCAGCATTTACGATTATAACACTTGAAATTAAATCTCCTTTATCCAATCTAACAGTTATTACACCTTGCGTCACCCTTCCCAAAGTGTTTATCGAAGAAATAGGTACTCTTATTGCTTTTCCATTTTTAGAAAATGATAAAAGATTTTGATTTTCTTCTACACTTAAAGCAGCAACAATATTTCCTATTTTATTAATATCTTTTATTGTTTTTAAACCTATTCCACCTCTCGATTGAAGTCTATAAGAAGAAAACTTTGCTCTTTTTGCATATCCATTTTCAGTAACTATTAAAAGTTTTTTGTTATTATCAATCTTAACTGCATTTACAACTTCATCTTTTGATTTTAATTTTATTGCAATAACGCCACCTGCAGTTCTTCCCATTGCTCTTGCATCTGATGAAGAAAATTTTAATGCCATACCTCTTTTAGTTACTATTAAAACTTCTTCTGAATCATTTGAAATTATTAATGCATCTACAACTTCGTCATCTTCTTTAAGATTTAAGGCTTTTATTCCACTTTTCCTTGCATTTGCAAATTCTCTCAATGATGTTTTCTTTACCTTTCCCTTTTTAGTAAAGAACATAACAAATTTATCATAATCTCCATCTAAACCTATTGGAACAACTGTCTTTATTTTTTCTCCATCAGAAAGAGATACATAATTTGCAACATGTTTACCTTTTCTATTTTTAGCAGCAAGTTCTATTTCATATGCTGGTAATTGATAAGCCTTTCCAGCAGAAGTTATTATCATTAATTTAGATTTTCTTCTTGCAAAAATAACATCTAAAACATTATCATTATCTGATATTTTAAGACCTTTTACTCCCTTTCCACCTCTACCTTGAACTTTATATTCTGTACTTGGTACAGCCATTATATATCCATATTGACTTAAAACAATAACTATATCTTCATCTTCTATTAATTCTTCATTAGACTTCAAATTAGATAAATTAAATGTTATTTCTGTTCTTCTGTCATCTCCAAATTTTTTATCAATCTCATCTAATTCTGATTTTATTATTTCCATCTTTTTATCTGTGTTTTCAAGAACTTCATTTGCCCATTTTATCTTTTCATTTAAATCTTTTAATTCATCTGTAAGTTTATTTATTTCTAATTTTGATAAGCTAATTAATCTCATTTCAGAAATAGCTTTTGCTTGTTCTGCAGAAACACCTATTGTTTCTTGTAAATTTTTTAATGCATCTTGTGGATTATCTGAATTTCTTATTATTTCAATTACTGTATCTATTCCTTGTACAGCTTTTATTAATCCTTCAACTATATGTGCTCTTTTTTCTGCTTTTTTTAATTCATAGTTTGTTCTTCTTGTTACAACTTCTACTCTATGATTTATAAAAGCGTTCATAAGCCCTTTTAAATTCATTAAACTTGGTTTTTTATTATCTATAACATTCATTTGTATAGAAAATGTTGATTGAAGAGATGTATGCTTTAATAAATCATTTATTATTCTATTTTGATTTGCATTTCTCTTTAATTCTATTACAAGTCTCATACCTCTCCTGTCTGATTCGTCTCTTAAATCGCTTATTCCTGAATCTTTTTTCATATCTCTCATTCTTTTTACATAAGCAACAATTTGTTCTATTATATCAATCTTAGAAACATTGTAAGGTATTTCTGTAACTACTATTGCACTTTTATTTTTGTTTTCAACTATTTCATACTTTGCACGAGTTGTAAACTTTCCTCTTCCGGTTTCATAAAAGTCTCTTATTCTTTCACCATCTACAATAATACCTCCAGTTGGTAAATCTGGACCTTTTATATATTGCATTAAATCCGGAACTGTTGCTTCTGGATTGTCTATTAAATATTTGAATCCACCTACAAGCTCTCTTAAATTATGTGGTGGAATACTTGTAGCCATTCCAACTGCTATACCACTAACTCCATTCATTAATAAATTTGGTAATCTTGTTGGTAAAACTTCGGGCTCTCTCAAAGAGCCATCAAAATTATCATTAAAAGCAACCGTATCTTTTTCTATATCTTGAAGCATATATTCTGAGATAGTTTGCATTTTTGCTTCTGTATATCTCATAGCAGCTGGTGGATCTCTATCTATTGACCCAAAGTTTCCTTGACCATTTACAAGTTGATATCTCATTGAAAAATCTTGAGCCATTCTAACAAGAGCATCATAAATGGAAGCATCTCCATGTGGGTGATACTTACCCATTACTTCTCCAATTATTCTAGCAGATTTTTTATATGCAGATGTATGTTTCAAGCCAAGTTCATCCATTGAATAAAGAATTCTTCTTTGAACTGGTTTTAATCCATCTCTAGCATCTGGAATAGCTCTACTAACTATAACACTTAAAGAATACAAAAGGTACGATTCTTTCATTTCATCGGTAAATCTTCTATCAACTAAATGTTTTTCCAACATTTCTTCATTATTTTCAGACACTCCCTATACCTCCATTTAAGATATTATCGATCCTGGTTCTATATTTTTATCAGTTGTTAGAATCGTTAAATCATCTCCATTTTTTGCAGCAAGCAGCATACCATTTGATATCTGTCCCATTAATTTTGCTGGTTTTAAATTAGCTACTATTATTATATTTTTTCCTATAAGATCTTCAGGTTTATAAAACTTAGAAATTCCAGCAAGAATCTGTCTATTCTCTTTACTTCCATCATTTAACATTAATTTTAATAATTTTTTTGATTTTGGGATTGGTTCAGCAGTTATTACCTTTGCAACTTTTAATTGAACTTTTTTAAAATCATTTATTTCAATCAATTCTATTACATTTTCATTATTTTTTTCTTCTTTTATTTCATTATTTGTTTTTATTACCTTTTCCCATTTTTCCATATCCAATCTTTGGAAAACAGGTTCACCTCTACTTATTTTTACTCCCGTGTGCAATCCACCATTTTTTATATTTTCAAAGTTTATATGATCTTTATTATAATTTAATTTTTTTAATATTTTTTCAGATGTTTCAGGCATTATTGGTGAAACTAATATACTTATATTTCTAATTGAATCTGCTAAATTATACATAACCGTAGAAAGTCTATCTTTTTTACTTTCATCTTTTCCAAGTTTCCATGGTTCTGTTAAATCAATATATTTATTTGAGAACCTTATAATTTCCCACAAAGCTTCAAGAGCATGGGTAAATTGATATTTATCCATAAATTCAAAGTATTTTTTTGAATTTTTTTCTATTAAAGTATGAAGTTCATCATCTACTTTTTCTATTTTATCAGGTTCTAATATAATACCATCAAAATATTTATCTAACATTGAAAGAGTTCTGTGCACAAGATTGCTCAAATCATTTGCAAGATCTGCATTATATCTTGTTATTAAATTATCTTCAGAAAAATCACCATCTCTTCCAAACGTTATATCCCTTAACAAATAATACCTTATTGCATCTTTTCCATAAGCATTCATTAAGATTCTTGGATCAACTGCATTACCTTTAGATTTTGAAATTTTTTCTCCATTTACTGTTAACCATCCATGTGCAAATATTTTTTTAGGTAATTCAATATTTGCAGCCATTAAAATAGCTGGCCATATTAATGAATGAAATCTGTTTATTTCCTTTCCAATAAAATGAACATCGGCTGGCCAATATTTTTTAAACTTTTCACTTTCCTCATAACCAATAGCACTTATATAATTAATTAAAGCATCTACCCAAACATAAACAACGTGCTTTGGATCATCTGGGACAGGAATTCCCCAATTAAAAGTTGTTCTTGTAATACTTATATCATTTAAACCTTTCTTTAATAAAGAAAGCATTTCATTTTTTCTAAATTCAGGTTCTACAAATTCCGGATTTTCTTCATAAAGTTTTAATAAAGCATCATTGTATTTTGAAAGTTTAAAAAAATAATTTTCTTCTTCAACCCATTTTAATTCTTTTCCACAGTCTGGACAAAGTTTTTTTCCATCTTTTAAAATAACTTCATCATCATTAAAAAAAGATTCACAGGAAATACAATAATTCCCTTCATATTTTCCCTTATAAATATCTCCGTTATCCTTTAATTTTTTTACTATTTTTTGAACAGTTTTTTCATGCTGTTCATCAGTAGTTCTAACAAAATAATCGTTAGTTATTCCCATTTCTTCCCACAATACTCTAAATTTATTTGAAAGTTCATCAGCAAATTCTTTTGGAGAAATGCCTTTTAATTCTGCAGATTGCATTACTTTCTGACCATGTTCATCTGTTCCAGTTAAAAAGAAAACATCATAGCCCATCATCCTTTTGTATCTTGCCACTATATCAGCCACTATTGTAGTATAAGCAGAACCTATATGCGGTTCTGAATTAACATAATAAATAGGAGTAGTTACATAAAATTTTTTCATAAAAAGGCACCTCCAATATTTTTTTTATTTATACCTCTATTATATCATATATTATAAATTAATACAGTTTTTTTAATACAAGCATATAATTTTTTACAATTATTTATCTATTCCTTTTCTTGATAAAATTCCTTTATTATAATAGTGTTTAACTTCTTTTATATCACTAACTAAGTCTGCATACTCAATTAATTCTTTTGGTGCATAACGACCAGTTAATATTACTTCTATATTTTTATTTCTTTCTTTTAACACCTTTAATACTTCCTCTACTGATATTAATTTAAAATACATAGCTATATTGATTTCATCTAAAACAACTATATCATATTCATTTGTACTTAAAATTTCTTTAATTCTTTTCAAACCATTTTTTGCTGCTTCATAGTCTTTTTTTTCTGGATTTCTATCAATAAAACAAGAAACGCCATACTTTTCAATTTTATTATTTGGAAGTAGCTTTAAAGAGTTTATTTCTGAATAATCCATATTTTTTACAAATTGACCAATAAAAACTTTTTTACCAGCACCTATTGCTCTTAAAGCTAACCCTAAAGCAGCTGTTGTTTTTCCTTTTCCATTTCCAGTATATACATGCACAAACATTTTTCTCTCCTCATTTATAAACAAAATTTATTTTAGCTTCATTCAATCTTTTATAAATTTTATATTCTGATATTATATCATTTCTTGTCCAAAAAAAATCTGTAAAAGCTTCCCATAAAAAAACCCATCCACCTATAGAAAATCCCTCTCTAACCAGTTTAAAAAACATATTATTTACATCTTTTAAAATAAACATAGACATTATTAATAAAAATATTGAAAAGAAAAATGAATAAAATATCTTCCTATATAATTTCAAAAGTTTATCTTTTATTCTTTCATTTATATAATTATAAAAGTTTAAATAAGCTGTTTTTAAAGTTTTTTCTTTTTTATCATCTTTTTTTGATTCAGGAAGATATAAAACAATTGTTAATCCATATTTTAATGGTATATCTTTTGATGAATTCATTATAAAATAATTAAATTCTTCTTCAATATCTCTTTTTTTAAATGGTGAAGGATCCCAATCATCATATACTTCTTCATAATTATTTAATGAAACTTCTATTATATAATTATTATTTTCATCATCGTATTTATACAATCTTTGAAAATATTTTTTCTTCATAATATCACCCTTTAAAAGCCATATAAGTTCCATAAGATTCTGCTAATATTTTTCCATTTGTATCTACAATCTTTCCATAAGTTTTAAAAACTCTTTTTTTATTTTCTATTATTTCACCAAAAGCTTTATACTCTGTATTACTATACAAAGGTTTTTTATACTTTATGTTCATTTCAGCAGTTACAACTCTTTTATCAAGCGAAATTACAGACCAAGCCATTACCTCATCTAAAATAGTAGCTATTATTCCACCATGAATAACATCGGCCCAACCACAAAAACTTTTATTTAAAGAAAATTTAGTATTAGACTTTCCTTCTTTAAAATCAATATCCAACTTTAATCCTTTTTCATTTTCTTTTCCCCATGCAAAACTCATTGAATTGTTATTTAATTCCATATCTATACCTCCATCATATTCTCTGTAAAGATAAAATATCTTCTATTATATCTTGCATTAAACTATGTGCATCATCTATTGCCTTATTATAAATAACATCACCAAGTTCTTTTAGAAAAAAGTCCAAAACGATTTCAGCAGATAAATCACCTAACTCTTCATCTCTTTCTTCTAAGAAAAATACTTTTATTTTATCTAATAATTCTCGCTTTTGATCTTTATTTAATTTTATTTCTTTCATCTTTATGCTCCTTATATTCTTTTATTTTTTTTACTAATAAATCTGTATAATCCGTTATTATACCATCAACACCTAAATTTATAAATAAATCCATAGACTCTTCATCGTTTACAGTCCAAACAAAGATTTTTTTATTATATTTATGTATTGTTTCAATTACTCTTTTATCTATTTGTGATTCTTCCATACTAAATACATCTATATTTTTATTTTTTAAAATAGGCTCCATTTTTCCTAATTTAACATACATTATCAAACCAGTTTTTAATACAGGATACAATACTTTTACTCTTTTCAAAGCATTATAATCGAGTGAAGTTATTATACATTCATGTTCAAACTTATATTTTTTTATTAATTTTATAACTTCATCTACAAGTTTATAATCATGATTTTTTATTTTTATTTCTATATTTAATTTAATTTTATTTTTTGCATATTCAATCACCTCTTCAAGTGTTGGTATTTTTTCATCAAATTCATAATCTTCGCCAACATTTATATCTTTTAAATCTTTATAAAAACTATTTTCAACAGTTATATTTTTATCTGCAACTCTTTTCAAAGAGCTATCATGTGATAATACAACAATGTTATCTTTAGTTAATCTAACATCTATTTCTGCAAAATCAGCTTTGTTTTTTACCGCAACTTTAATTGCAGAAATAGTATTTTCTGGAGCACTTAAATAATCTCCACGATGAGCATTAACGTATACTTTTGAATTAAAATTTACTTTTTCCATAGAAAATGTATAATTACCCATAAAAAATATTGTTAAAATAAGAATAAACACTACTATTTTTATATGTTTTTTTATGAATTTATCTAACTCAAACTTAGAATTATATACTTTAAATTTTTTTATTTCAAATTCACTATTTTTAATACTTTTTAACCTTTTAAAATACAAATCCGTTATAACTATCATATTTAAAGGAACTGTAAATATTGAAATTAAAAATGTAGAACTTATACTTAAAGATGTAAATATATATTCAATACCTTCAAAAACAATAGAATTTTCTCCAAAGAAACCAGAAATCAATGTTATTAATAAAACACCTAAAATAATTATTAGAATAATTATAAATAAAATAACAAATTGCCAAAATAGCATAACACCCAAAATTTTCCAAAATGAACCTTTTACTAATTCTTTACTTCTTTTCAAAGAGTTTGAAAAATTTTTATCTTCTAAAACAACAACATGTATAGCAAAAATCCATTTTATTAAATAATTTATAGAAAACAAAAAAACAAATATGTAAATTAATGTAGTTATACCATTATTGAAAATATAATCTTCTATAAAGGTTGGCAATTCATACTCATCTATTAAAGTTGGTACCATTCCAAAGCCTAAAAAAGGCACTATTAACAAAAAATAAAGTAAAAGCTGTAAAATACCCAAACTCATTGTATTTTTTAATTTTTTTAAAGAATTTATAATAGCTGATTTTATATTTATTAATTCGTTTAATTTTTTTTGATATGTAATTATTATTAAACCTGCATTTTCAACATATATAAAAATAAAAGCTATTATACCTAAAATTATAGTTGTAATTATTCCTTGAAAACTTATAAAAAATTTAAAAGTATCATTATTAAAAAATAATTTACTTGAAGTCTTTGAAATAACATAATTTGTAATCCCATTAAAAATTGGAAGTATTATAAAAAAACTCATTATTTTAAAAATTATTTCGTATGAAATATATAAATATATGTTTTTAAAAAATATATTTAATACTTTTTTGATTTCTAAATATTTTTCTTTTTTATTATTTTTCATTAGAAAACCTCTATTCAAGATGTATTATAAAAGATCTTTAAAATAAAAGATGCCATTGGCATCTTTTATTTTAAATTCAGTTATAAATTACCTTTTTTATTTTTAAATCATTCAATTGATACAAAAATCTAAGAATTAATTCTTTTTCTTCATTTAAGTTATTTATTCTTGCGGTTCTTTTTACTGGTTCTATAATTCTTATTTTTGAAATAATTTTATTATTCAACAATATGAAAAAATAATTTCCTATATTTTTAGAGGTTAATTTACTAACTATATTTTCACCAAATTTATTAAAAGTAATCAAAACAAAATTTTTATTAGTATTTTTATCCTTTTCTATATTAATCTTATCAATTAATCTAAAATCCAATTTAATAATTTTATTTTGAATTTTAAAATTTGCTCTATATTGGGGTTTCCCATTTATCATCTTTCCAATAGCAAAAGATATTTTTGGTTTTATTTCCAATATTTTTACTGTATTTTTCAAATCTTTTAATTCAATATTCTCGTTATAGTTTATTTTTACATCAATAAATGTATTTTTATACTCTGGTTTTAAATATACACTTTTACCATATTTACTAATTAAAAGTTTCTGAAAAGTCCTCATCACTTTTTGAAAACTTTCAAAAGAATTATCTTCTAAAAATACTTTCATATTAAATGTTTTATACTTATATTTTTTTTCTTTATTATTTGTTTTAGCCTCATTTTGAATATTGTTTTTATCATTAACTTTTATAATATTATTACTTTCAAAAGTGAAATTATGAAAACTTTTAATTCGAGAAGTTTTAATATCTATAAAATATATTGATAACATCTTTTTGCCATTAAAATTTGAAAAATTACCTTTTATTAAAATATCTGCACCAGTTAAACTTCCAGTTTCTTTAATATTTTCATTATTAACTATTCCAGTCAATTGAAGTTTATGTTCATTTAAAATATCCTTTAAATCATTTCTATCTAATACGGAATAATTATTTTTTATTAAACTTTCTAAAAATTTATTTTCATAAAAAACTTTTTCAGAATCATCATATTCACTATCAAAACCAATAAAAATATATTTTTCATTATCTTTATTTGAAGAAAGAAATTCATCAAATTGATTTTCTGGTAATACAATCTCAGCTTTTTGCACACTACAAGAAACTAAAGTTAAGATAAAAAGTAAAAATAAAAAAACTTTTAAAAATATTTTCATATAAACACCACCATTATTCATAAGCAATTTTTAGAATATTTAAAACATCATCTTTTTCAAGTTTTTTCATATTTCCCATTGGGCAAAGTAATGCGGCATTATTTGCTATTTTTTCTAAATCATCTTCAATTATATTTAATTTTTTCAAAGTTGTTGGAGCTCCTATTTTTTTATAAAATTCTATCAACTTATCTATACCCTTTAAAGCTTTTTCTTCATCAGTTCCATCATGTATATTAAATATCTTTTCTGCAAATCTTACCCATTTTGATATATCCTCTTTATAAACATATTTCATCCACGCAGGTGCAATTACTGCAAGTCCAGCACCATGAGACACATCATAAAATGCGCTCAAAGAATGCTCAATCATATGACTTGACCAATCTCCACCTTGACGCCCTGTACCATTTATTCTATTTAATGCAAGGGTAGCACTCCATGCTAGATTTGCTCTTGATTCATAGTTTTTTGGATCTTTTAATAAAACAGGAATATGTTTCATTACTGTTCTGATTATACCTTCTGAAACTTCATCCATTATATCGTTATTTTTTGTTTTATCAAAATAAAGTTCAAAGACATGTGTCATAGCATCTATTCCACCATTTATAGTTTGATTTCTTGGTAAAGAATATTGAACAGTTGGATCAATTATAGAAACTTTGGGATAAACTAATGGCGAACCAAATGCCCACTTTTTATTTTCTTTTTCGTTAGTTATAACTCCACCTGAATTCATTTCCGAACCCGTTGCAGAAATAGTTAAAACAGTAAAAATCGGTAATCCTTTATAAGGTTTTGCTTTACCTTCAAAAAAATCCCATACATCTCCATCATAGTAAAATCCAGCAGCAATAGCCTTTGCTGAATCAATAACGCTTCCACCACCAACTGCTAATATTCCATCTATTTCTTGTTCTCTTGCTATTTTTATTGCTTCATGAACCTTAGTTAAAACTGGATTTGGTTTTACCCCAGATACTTCTACAAAATCTATATTTTTTTCTTTTAAAGAGTTTACAACCGTATCATAAACTCCATTTTTTTTAATAGACCCTTTTCCATATAATAATAAAACTTTTTTAGAACCAAATTTATATAAATTTTTCCCAATATCTTTTACTGTATCTTTTCCAAAAACTATTTTTGTAGGATTTAAATATGTAAAATTTTCCATTATTTCTCCTCCCTTTCTAAATTTTTGTACATCTTATTTAAGAGTATATGTAAAATATTAGTTTCTTCATCTGTTAATCCACTAAAAGTTTGATTATCTAATTTAGAAGAAATATCAAGAAATAATTGTTTTAATCTTTTAGATTTTTCTGTAAGTTTAACATACGTTTTTCTCTTATCTTTATCATCCGAAACTTTTTCTACATATCCTCCAGAACTCAACTTCTTTATTAAAGAAGTTATTGTTGATTTATCTCTTCCAGTAAACCTTGATATATCTTTCATCGTAGCCTTTTCATTTTTATATAAATATTCTAAAATTTCACTATGAGATGTGACTAATCCTTTTTCACAATATTTTTTCATTTTAGACTCTATATTTTTAGATATAATTGTGTTTATTGAATGTATCATATGAAGAACATCGTGTCTATTTTTATACATAAACATCTCCTCTCTTTTATACTTTAATCAAGTAAATTTTACCATTTTTTTATTAATTTTCAAAGTATAAATTTTTATCTATGTATAATTATTTCATTACTTTTGTTTTATTAATTTTAATTTGTAAATAATATTTTATTTTGATATAATTAATTTATCTTTAAATAAAAGGAGCTTTATAAATGAAATTAAAAAAATTCTTATTAATTTTTATTCTTATATCTGCTATTTTTTTTAGTAATTACCCAAATAATGAACAATACAAAAAATCAGTATTGAATATGATCAACATAATAAATAACAAATATTATGGAACTCCAAATTATTCTAAAATATTAGACTCACTTTTAAACGGAATGATTGAAGGGCTTGGAGATAAATTTGCTTGGTATCTCGATCCCGAAAAAGTTAAAAAAGATAATGAATATTATTCAAGTCAATACGCTGGAATAGGAGCAATGATAAAATATAACAAAGAAGAAAAAGTTCTTGTAGTCGCTCCCATGCTATATTCGCCAGCCGAAAAATCCGGATTAAAAGTTGGAGATAAAATAATAAGTTTAGATGGCTCAACTGTATCTGAATTAGGTTGGAAACAAGCTGAAAAAAAAATATTAGGAAAACCAAATACTTACATAACCTTAAAAATAAAAAGAAACACTTGGAAAAACCCTAAAGCATTTAAAATTAAAAGAAGTTTAATAAAAGTTCCAACAGTAAAATATAAAACTTTTGAAAAAAATTCAAAAAAATTTTTATATATAAAATTAACAAAATTTGCAAATAATAGTGCAATAGAAATGCAAAAAGCCTTAGAAAAATTTAAAGATAAAAAATTTGATGGTTTTATCTTAGACTTACGCGGAAACTTAGGTGGATTAGTACGTATTTCAATTGATATTGCTTCAATGCTCATGAAAAACAAAGTAATTACACACATAAAATACAGTAATGGCTACAATGAAACAAAAAGAACCATCTCTGAAAAGTACTTTTATTTTTTAAACAACGTACCAAAAATTATACTTGTAAATAAAAATACTGCATCTTCTGCAGAAATATTAACAGGTGCATTTAAAGATAACAATGCTGCAACAATATTAGGAACAAAAACATACGGGAAAGCAGCAATACAAAGCACTTATAAATTCAAAAATGGGGGCGAAATAAAATTGCCTGTAGGTCATTACTTCACTCCAAAAAATTATGATATAAATCTTAAAGGAATAATCCCAGATATTATAGTTGATTATGAAGAAAAATTAACCTCTAAAATAAGTGAAGCTGAAAAATATAGAGCTTTATACTGCACAACAACTAACGTGTTTTTAGACTTTAAAAATGATTTACAGTTAAATAAAGCCATAGAAATATTAAGTGAAAAATAATAAAATTTTTATACATTTTTTTGTGATAGTTTTAAAGTTGAAATAACAACTGCTAACATTAATAAAAAAGCACCAAATACTTGTATAATAGTAAATTCTTCATGTAAAATAAGAATAGACAAAAAACTTGAAACAATTGGCTGAGCTAAAAATAATAAAACAGTTAAATTACTTCCAACTTTTTTTTGATATTTTAACTGTAAAAAAATCACTAAAACAGTTCCAATAGTACCAACGTACAAAATACTATTCAAAGAAGTAAAATTAAAAACGTACTTTATTTTAAATACAAAAGATAAAAAAACACTTATTATTGTTACAGTAAAAAACTGAAAAAACAATAATTTTTTTTCCTCAACAACCTTACTAAACTTTGTAATTAATACTATATGTAGAGAAAAGCCTATAGCACATAAAAACATTAACATATCTCCAAAATTAAAACCAGCTATTCCTCCAGTTAATAAATAAGATCCTACTATAGAAAGTAAAAAAGAAATTAATTGATTTTTAGATATTTTTTCTCTTTCTAAAAAATAAGAAAATATTGGAACTAATACAACATATTGAGAAACAATAAATCCAGACTTTGATGACGTTGTATAAGTTAAACCTATAATTTGAGTTATATAGCTAAATGACAAAACCAAACCAAGAAAAAAAGATTCTAAAAATTTTCCATATCCAAAAATAAAAAATGATATTAAAGAAGCTATACCAAATCTAAAAATAATATACTGCAATGGGCTTATATTAATTAAACCCAATTTTTGAATTGGAAAAGTACTTCCCATTATTACTGCTGCCATTAAAAGTGCAATATAATTTTTCTTCATAAAACTCTTCCTTTATATTTAAATCCAAATAATGTAATTACTGTATTTGAAAGTAAAACCAAAAACGAAATTAAAAATACCATTGAATAAGAAAATTTTGAAGCAATAAAACCTGCTAAAATTGGAGTAAATATTTTTGAAAAAATTTGAATACCATTAAAAAATCCTTCCCAACGACCAAACTCTTTTGGTGCATATTCTTGTTTAAGTGGTTCTTTTGCAGATATCCAAAGTGTAAAACCAATAGCTAATACTGCATGAGATAAGAAAAAAGTAGTCCAACTTTTAAACATCAATAAAAAATAAAAAAATGACATTATGAACGTTCCAATTATCAAAGTTTTTTCAGCATTCATTTTAATATGTTTTCTCCAAAAAATAGAACTTAAAACAATAAGAGAAAAAATAATTTCATAAATTAACATTATTTTAGTATCTCCATTCAAACTTTCTTTAACATAATAAGATATAATTAAATAACTACCAAATCCAAAGTTTGAGAAAAACAATATTTGATTCAATAAAACAGTCAAATACTTTCTTTTATTCGGATTGTGATTAAGTGAATGAGATTTTGTTAATTCATTTCCATTCTTGACCTTTGGAAAAACTTTTAACATAAACAAAGAATAAACTAAGTTCAATAAAAAAACAATTAAAAATACTGTTCTATAAAAAGTTATTGGCGTTTTATCATAGTCAATAAAAAATAACATTGGTATAAATAAAACAGCTTTAACTCCTTCACTTATTATTGGTAATAACGTATAAAATTTATTTCTATTTTTAGGTGAGATTATAGCTCTTTCATACATACTCAAAAGTGGGAAAAACATATCGAAACTACCTATCAATATTTGAGCAAATAAATAAAGTTTAAAGTTAAATGAATATGCCAAAACTAAGTTTCCAATTCCAAAGAGAGTTCTACCAATTGTAATACCATAATTTGGCGATCTTTTTTCAAATAATTTTCCTATTAAAAATGTCAATATTGATTGAACTCCATAAACGATTGAAAAAACCATACCAGCTTCATATACGCTCAATCCAAGCTTGTTCGCAAACATTGGAGATATAAGTATTGTAATAAACGAAAAGGCTGGTATTGAAGACATAAATAAATATCTTTTTACATTTTTATTCATCAAGCACCTCGACTTTATAGTAAGTTATGCTAATTATACCTCAAGAAAAAATTTTTTCAAAAGGTATATTTTTTATTAATTACTTAAGAATTAGTTTCCCTTTTTTACAAAGATTAAAATACACATAAAAAATTTAAAGTTTTTTTATTCTACTGATTTGACCAATACAAATTTTTGCATTTTAATTATATTCTTTTTATAAAAAAAATATCCCAACACCCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTTCTCTTTTCTGAGTTTATGTTTATTCCTATTATATAAATTTCTTTCTCTTTGTATTTTTCATAGTACTTCATTTCTTTTATTTGATTTAAGACTTTTTCTGCACTCTTGTCTATCTTTATTTCCATTATGTATATGACGTTTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTCAATCCTGCTGATGCAAGTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTATGCAAGTTGTATGGGATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCATATATTCTTTCATATATTGTGGTTTCTATTTGCTCTGTTTCTCTTATCCCATAGTTTGCTTCTAATATTATCTTTGAAAAACTATTTTTTACTTCTATGTTTGGATAGTCTAATATGTACTTTTTCCTCAATCCTAATCTTTTTATTCCTTTAAAGGTCAAGTATCCTGCTTGTGTAAAGAATATGCTTGCATTTGCTTCTTCTATTTCTCGGGTTGAAAAATCGAGTTCGCTCACTGGATACTTCACTAAATCTTCATATCTTATCTTCTTCCCTTTTATGTATTCATACAAAAATGATGGTGATCCACTTTCAAACCAATAGTTTTGAAACTCCATTTCATTAAAAAATCTTAATATTGAAAATGGATTGTATACAGAATTCTCTCCATCGAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTCCATATTCATTTCAATTGCTGTTTCTTTTATGTGCTCTTTAAAGTTACTTTCTAACTCTTCTTGTGTGTATCCCAACATCTGTGCATATTTTTTATTCAACGATATATCATTTAAGTTGTTCAGTGCTGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCGTCTTTTGATTTTATGCTCACATAAAAGTCTCTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTTGGGATAGTTTTATTATTAATTCATTGAATGCATATTTATAGTTTGTATTTTCTATTGTTATTCCATATCTTTCCGCTTCTTCTTTTATTATTTCTAACAAGCCATACTTAAAACTTTGTTCATTTTCTGTTGAGACATCCAACAAATTTATTCTTATCACTGGATACTCTTTAAACTCCCATTTATCGTATATGTATGTTCCTTCAAATAAGTCTTTTTCTCCTTTAAACAAATAATACAGCGTTGATATCGTTAAACTCTTTCCAAATCTTCTTGGACGAGATAAAAAATAAAATTTTCCACTTGTTATTAATTCATGTAAATATTTTGTTTTATCTACGTATATATAATCTGTTATTAATTCTTTGTAGTCTTGTACTCCTATTGGTAGTTTTTTCATTTTTATCACCTCTAATTTTTATTATACCATATGCTTTTTATTAAATTCATTTATATATATCCAAAAAATCATTTAATATAAAAATATAGTAAATAATAGTTCTTATAAATAAAAGCACATCAATACTTGATATTACACAAAAAAGTTATATAATGTTATTAGTACGATTTAAAAAAGTAGTAAAAATTTTTTGAAGATATTAATTAAAATATTAATGATACAATACATGAGAAAAAATTATTACGCATTATATCATAAGGGGGTTAACATATGGATAAAATTTACCTTAAATCTATTTTAGGCCCAATAAAAATTGAAGGCAAAAATGAAAAAATTACTAAAGTATCATTTATAAATGAATACATTGAAATAAATGAAAGTCCAGAATATTTAAAAGAATGTAAAAAACAGTTAGAAGAGTACTTTTTAGGAAAAAGAAAAGAATTTGAAGTAGAACTTGAACTAAGTGGAACTGATTTTCAAATTAAAGTTTGGAAAGAACTATTAAAAATTCCTTATGGAAAAACAATAACTTATAAAGAACTTGCAAAAAAAGTTGAAAATCCAAAAGGTTATAGAGCTGTAGGCAATGCTAACAATAAAAATAAAATTGCTATTATTATTCCTTGCCACAGAGTTATTTTATCAAATGGTGGACTTGGGGGCTATGAGGGTGGAATAGAGAAAAAAAGCTACTTAATTGATTTTGAAAAAAGTATTGACTAATATATTTTTCAAATGTATAATCAACTTGAAAAATAATTAAGAGGTGTTTTTATTGATTTTGATGATAGATAATTATGATTCTTTCACTTACAACTTAGTACAGTACTTAAACATGCTAAATGAAGAAGTAAAAGTATTTAGAAATGATAAAATAACTTTAAATGAAATTGAGAAGTTGAACCCTGAAATGATCGTTATTTCTCCTGGACCTTGTACACCAAATGAAGCAGGCATTAGTTTAGATGTAATAAAAAACTTTAAAAACAAACTTCCAATTTTAGGAATTTGTCTTGGTCATCAAGCAATAGCTCAAAGTTTTGGAGCTAAAATAATAAAAGCAAAAGAACCTGTTCATGGAAAAGTACATTCAATAAGCCATAAAAATATTGGTGTTTTTAAAGATTTAAAAAATCCTTTAAAAGTAACAAGATATCATTCTTTAATCGTTGAAAGAAAAACATTACCAAATTGTTTTGAAATAACTGCCGAAACAAAAATTGGTGAAATAATGGCTTTAAAACACAAAAAATATCCAATTGAGAGCGTACAATTTCATCCAGAAGCAATATTAACAGAAAATGGAATTGAATTATTAAATAATTTTTTACTCTTTGCAAAAAAATGGAGGATAGAAAATGATTAAAGAAATAAATTCAAACTATAATCCATTTGAAATATTTTCTATCTTTAAAAATGAAGATTATGTATTTTTTTTAGATAGTGGAATGGAACACAACGGAATGGGTAGATATTCCTTTATTGGATCAAAACCCTTCTTAACTATATCTTCAAAAAATACAAAAATAAAAATTAATAAAAATGGTATTGAAACAAATACAACAGGAAATTCTTTTGATACCTTAAAAAAACTTTTAAATGAATATAAAATTGAAAATGACACTGATTTACCTTTTATTGGTGGTGCAGTTGGCTATTTAGGTTATGAACTTTATCATCAAATAGAAGAAATAAATTCAAAAGCTATTGACGATGTCAATATTCCAGATATGTTCTTTGGTTTTTATGACACTGTAATAATAATAGATAACTTAAAAAAGAAAAAATATATATCTTCTATCTTTGATGATGAAAATAAAATTATAAGTATCGAAAATAAAATAAAAAATAACAAACCTTTTGATGAAAAAAGTTCAGATAAAAAAGACGTTGAATTTATATCAAACTTTTCAAAAACTAATTATATAAAAGCAATCAAAAAAATAAAAGAATACATAAAAAATGGAGATATTTATCAAGCAAATATGACACAAAGATTTGAATGCGAATTAAACAAAACTCCATTTGAACTATATAAAAAATTAAGAACAATAAATCCAGCACCATTTGCAGCTTATATTAATATTAAAGAAGCACAAATTGTATCGAGTTCACCCGAAAGATTTATCAAAATAAAAGACAAAAAAATAGAAACAAGACCCATAAAAGGAACTATGCCAAGAGGAAAAAATGAAAAAGAAGATAAAAAAAATAAATTTTCACTAATAAATAGCGAAAAAGATCATGCAGAATTATTAATGATAGTTGATTTAGAAAGAAATGATTTAGGAAAAGTATCAAAAATTGGAACTGTAAAAGTAACAGAATTATTTAAATTAGAAGAATATGCTACTGTTTTTCACTTAGTTTCAACTATTACTGGTGAAATGAAAGAAAACATATCAGTTGTGGATGTCTTAAAAGCAACCTTTCCTGGAGGATCCATAACAGGAGCTCCAAAAATACGTTCAATAGAAATAATAGATGAATTAGAAACTACTACAAGAAATATATATACAGGAAGTATTGGCTACATTGGATTTGATGGTAATAGCGACTTTAACATAGTAATAAGAACTATACTATGTAAAAATAATAAAGCATACTTTCAAGTTGGTGGTGGAATTACTTGGGATTCAAACTCCGAAGCTGAATATCAAGAAACTTTAGATAAAGGAAAAGCTCTTATGGAGGCTCTTAAGTAATGTACATGTACAATGGAAATTTAGTCAATAAAGAATTAAGCTTAGGTTATCAATATGGATATGGTGTTTTTGAAACTATAAAAGTATTAAATGGAAAGTTAATTTTTTTCAAAGAACATACTGAGAGATTATTTGAAGGATGTTCCAAATTAGAAATAAATTTCAAATACACTTTAAATGAATTGTTTCATATTTCAAAAAACTTTTTAAATAAAACAAATTTTAAAAATGGAAGTTTAAAGCTAATAGTATCAAAAAACAAAGATAGCTCAGATTTACTAATTACATTAAATAATAAAATATACACAAAATCTCAATATGAAAAAGGTTTTAAAATAAAAATATCTTCCATAAAAAAAAGTGAAACTTCAATACTATCAAAAATAAAATCATTGAATTATATGGAAAATATTTATTGTTTAAATAAAGCAAAAGCAGCAGGCTATGATGAAACTATTTTTTTAAACTCCAAAAATTATATTTGTGAAGGAACAATCTCAAACATTTTTTTTATAAAAAATAAAAAATTATATACACCTTCATTGAAAAATGGATTATTAAATGGAATAATTAGAAGTAAAATAATAGAAATATGCAGACAAAATTCAATAGATATAACTGAAGGTAATTATACATTAGAAGATTTATTAAAAGCAGATGAGATATTTTTAACCAATTCACTAATGGGAGTAATGCCTGTTTTAAAAGTAAATAATGTAAACTTTAAAAATTTCACTGAATATAATTTTTTCAAAAATAAAATAAAACTATATGAAAGTCTAAATGAAAATTTTGGAGGTCTTAACAATGGATAAAGAAAGAATAAAAAAAGCAGTTAAAGAAATATTGATAGCAATAGGAGAAGATCCAGAAAGAGAAGGATTAATTGATACTCCAAGAAGAATAGCAGATATGTATGAAGAAATATTTTCTGGATTAAAACAAGATCCTGGAGAACACTTAAAAGTATTTTTTCAAGCTGAAGAACATGAAGAATTAGTAATTGTAAAAGATATACCTTTTTATTCTATGTGTGAACATCACTTTGCACCATTTGTTGGAAAAGCTCATGTTGGATACTTACCAAAAGGTGGACGTTTAACTGGGCTCAGCAAACTTGCAAGAGTAGTAGAAACCGTTGCAAAAAGGCCTCAACTCCAAGAAAGAATAACAACAACCGTTGCAGATACAATAATGGAAAAATTACAACCTTATGGAGTAATTGTTATAGTTGAAGCAGAACACATGTGTATGTCTATGAGAGGAGTTAAAAAGCCTGGTTCAAAAACAGTAACTTCAGCTGTAAGAGGAGTTTTCAAAAATGACCAAAAGAGTAGAGCTGAAGCTATGTCATTAATACTCGGAAGGTGATTAAATGAGAAGAATAGACTATAAATTTCATAGAAAAATAAATGTAAAAATGAAAAATACTGATTTTAATTTTGGAACAAAAACTTATATAATGGGAATATTGAATGTAACTCCAGATTCTTTTTCAGATGGTGGCGACTTTGTTGACTTAGAAAAATCAATTGAACATGCTAAAAAAATGGAAAAAGATGGAGCAGATATAATAGATATAGGAGGAGAATCTACTCGACCTGGATCAAAAGAAGTAAGTTCAAATGAAGAAATAAATAGAGTAATACCTGTTTTAAAAAAATTAATAAATGAAATAAATATACCAATTTCTATTGATACTTCGAAAGCCATTGTTGCAGAAGAAGCACTCAAATGCGGAGCACACATGATAAATGATGTTTGGGGATTACAAAAAGACTCAAACATGGCAAATGTTGTTGCAAAATACAATGTACCAATATGTATAATGCACAATCAAAATGATACCGAATATAAAAAAGACATAATAGAAGAAATAATAGATTTCTTAAAAATATCTATAAACATAGCTTTAAATGCTGGAATAAAAAAAGAAAATATTATTTTAGATCCTGGAATAGGATTTGGAAAAACTCCTGAACAAAATATGGAAGTTATGGCAAGACTTGGTGAATTAAATGATCTTGGATATCCAATCTTATTAGGAACTTCAAGAAAATCAATGATTGGAAAAATTTTAGACTTACCCCCAAAAGAAAGAGTAGAAGGAACTATAGCTACATCCGTAATGGGTATCATACAAGGAATAGATATACTCAGAGTACACGATGTTAAAGAAAATATAAGAGCAATTAAAGTTACAGATGCTATTGTGAGGAAATAATATGGATAAAATAATAATGAAAAATTTAGGTTTTTATGGTTACCATGGTGTTTTAAAAGAAGAAAATAAATTAGGTCAAAAATTCTTTATAGATGTTGAAATGTATTTAAACTTAGAAAAAGCGGGAAAAACAGATGATGTTAATGATACTATTTCTTACGCCGAAACATATAAAGTTGTAAAAAAAATAGTAGAAAATGAAAACCACAATTTATTAGAAAAAATAGCTCAAAGAATATGCAATGAACTATTTAAAGACTTTGAAAAAATAGATGAAATAAAAGTAAAAATAAGAAAACCAGAAGCACCCGTACATGGAATATATGATTACTTTGGCATAGAAATAAGGAGAAAAAGAAATGAAATCATATCTTAGTCTTGGAAGCAATATGGGAAATACAAAAAAAAATATAGATTCTGCTTTACAAAAATTACAACAAGATTCAAAAATAAATATAACAAAAAAATCATCTTATTACAAAACTGAACCCGTTGGTTATAAAAATCAAGAATGGTTTTTAAACATTGTAATAGAAATAGAAACAACTTATACTCCATATGAATTACTAAAAAAATGTAATGAAATTGAAAAAGATTTAAAAAGAAAAAGAATAATAAGATGGGGACCAAGAACAATAGATATAGATATTTTATTGTATGAAAATTTCACATCAAATGATAAAAAATTAACAGTACCTCACCCAAGAATGACAGAAAGAGGATTTGTTATGATTCCACTATTTGAAATAGTTCCAGAAATAAAAATAAACAATAAACCCATAAAAACTTATATGAAAAAATTTGATGAAGATGTAATAAAAATAAAAGATTAATAATATTAAACAAATAATTCTTTCAAATGAAAAAATTATTTGTTTAATATTTATATAAATAATTGTTTTTTTCACATTATTTTTTTCACTCTGATTAATAATTTATTATTTTTAAATAAACACATAATAGAAAAACAAGCAAATAAAAATCCTGTTATATACATTCTCACTAAATAACTCCTTTAAATTATAAAAAAGTTATTTTTTTATTAAAAAAACAAAAAAAACACTTGCAAAATAAAAATAAATGTGTTATAATAAACATGAATGTAAAGTTTCCGGAACATTGGCAAAAATAAAAAATCGCATAAATAAAGGGTTTGAGCAAAATAGGTTTGGAACTAAGTAATAATAAGCATTACAGACGAAATGGTGGTAGAAAATGAAGATAAGAAAAATATCACAAAGAGAGTTTGGAAAATACGGCATTGAAATCCACTAATAAATAGGCATTCAAATGTTAGCAGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACGTGCAGGACTTACAAATCCTACAACATCGTAACCAGCTGGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACACCAATTCGCTCTCATCCATTACTTCTGCTATGACTTCAAGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACAAGTTCTCCAACCTTACTGTAAATTTTCAATTCTTCACGTGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACAAGCTAAGAACCTTTATCAATTTAACTATTTCTTCATTACGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACTTTAGTGCCATTTTTATGGCACTTAAAACTTCGTAACTCGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACTCTTTGCTAAGCTAAGAATCTTAATTAGCTTAACAACTTGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACGTGAATTTCCCACCAGATTCCTTAGGATGGATAGAAATTGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACGTGTCATCTCTATAATCATAGAGATAACAATTTTTCCTTGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACTTTTTTACTTTTTTCTACTTGTTTCATTGCTATAGTGGGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACATATATCCTTCGCCACTTACTTCATAACTTACTATATATGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACAAAATCACCTATAACTTTTTCAGCTGCGTTTCCTAATACGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACACGATATAGCATATTCACTACTATATGCATCATCATCATGTCTGAATGCTTCTCTTCCCTGTAAGGGATAATAACATATTAAGAACCCTTACTAATTTAATTAATTCAGCTTCATGTCTGAATGCTACTCTTCCCTGTAAGGGATAATAACACATTTGCTTTTGTTTCTAACTCTTTCTTAAAAATTTTGGTCTGAATGCTTCTCTTCCCTGTAAGGGATAATAACTTGAAAAAAATAAAGATGCATTTTCAATGAAAATGCATCTTTATTTTTTATTCAGAAAATGATGCTATATCTTTAACTTCACAACATTTTAATGTATCTAAAGATTTTATTCATTCTATAATGAATAATAAATTTTAAAAATTATTTTGTAAATTCCAATATGTACTAACTATTTCTTTTTTATACTTAAAAAATGTTTTTTTATTTTAAAGTAGATTTGATATAATAACATGTAAGGATATAAAACGAGGTGATAAAAATGAAAAAAAGACTTCCAATAGGAAGAAGTGACTTTAAATCATTAATAGATGACAATATGTATTTTGTAGATAAAAGTATGTTAATCAAAGAAATTATTGAAAGTGGAGACGTTCTATTAATAACAAGACCAAGAAGGTTTGGTAAAACTCTCAGTCAATCTATGATGAAATACTTTTTTGATATTACTCAAAACAACGAATACATCTTTAAAAACTTAAAGATATACAAAGAAAAAAATATAATAGAAAAACATTTAAATAAGCACCCAGTTATATACATCACCTTTAAAGATTTAAAGTCTAATAACTTAAAAAAGATGCATGATTTATTAGCCATGGAGCTTTCAAGGTTGTATTTAAAGCATAAGTATGTTTTAGAAGTTTTAGATAATGAAGAAAAAATTATATATGATAAAATAATGGGTAGAGAAGCTTTAGATGCTGATTATGAAAATTCTATAAGAAGTTTATCAGAATACATGGAAAGATATTATGGTAAAAAAGTAATAATATTAATAGATGAATACGATACTCCCATTCAACAAGCTTACTTACACGGATACTATGATGAAATAATATCTTTAATTGGTAACTTGTTTGGCATGGCTTTAAAAGACAATGTATATCTTGAAAAAGCAGTTCTTACTGGAATAACAAGAGTATCAAAAGAAAGTATCTTTACTGGTGTGAATAACTTAAAGGTTTCTACTGTATTGAATGAACTATTTAATGATAAGTATGGTTTAACTAAAGAAGAAGTTGAAGAAACACTTAAGTATTATGAGCTTGAATATGAAGAAAAAGAAGTTATAGATTGGTACAATGGTTATAACTTTGGCGGTGTTGAAATTTACAATCCTTTTTCTATTATAAACTTAGTAGATGAAAAAAAGATAAGACCATATTGGATGAATACGAGTGGGAATTATTTAATAAGAAAACTAATAAAAGAAGGAACTGTTAATATAAAAGATAATGTAGAAAGGTTAATAAACGGAGAAGAAGTAGAGTGCGAAATAATAGAAACAATGGTTTATGGTGATTTAAACTTAAACAGTGAAAGTGCAATTTGGACATTATTTTTATTTAGTGGTTACTTAAAGTGGACGAGTAAAAAAAGAAAAAATAATATAACAATGTATAAAGTAAAGATACCAAATGAAGAAGTAAAAGATTTTTTTGTACAAACAGTTAGAAATATGTTGAGAGAATCAAATATAAACATTAATAATATACTATTGAACCTAATAAATGGATACATAGAAGAGTTTAAAGAAGACTTTCAAAAACTAACAATGAATACATTGAGTTATTTTGACGTTAGCGGAGAAGAACCAGAAAGATTTTATCATGGACTAATACTTGGAATGAGCGTTGGTTTGAAAGAAAAGTATATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCTGATGTTATATTAATTCCAAAAGATAAAACAGATAAAGGAATAATTATTGAGTTTAAAAAGTTTTATAAAAACGAAAAAACACTATTAAATAGTGCTAAAAATGGATTGAAACAAATAAATGAAAAGAAGTATGAAGAAGAGATAAAAAACTATGGTATAAATGATATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAGGTTGAAATTGTTAGTAATTTAGATAAAGATGTTGAATTAACAGAGATGGAGAAAGTGGCAAAAGGAATGTTGAAAAAAGGATTAGATATAAATATGATTTCTGAATTAACTAATATTCCAATAGAAAAAATAAAAAATTTGTATGATCATTTATAAAATAAACTTAAAAAAATAAAGATGCATTTTCATTGAAAATGCATCTTTATTTTTTATTTATTTAACTAATGTCGAATATTAATTTAGAAAAACAAAAAAAGAGAGAGAAAAATGACTTTAAAAGACACATCAATAAATTTAAATATTGATATAAAAGAACTTTTGTTTGAAGAAGTTTATTTTGTAATCACCAATTGAGAATATGAATTCTGCACAAACAAAGAATGAAATTTACCAAAAAGATGTAAAAATTGTAGAAATAACAAACAAATATTTAATAATTTTTTCTAAAAAAATAATTCATAAAAACATATAGATAATAATTAAATTAATAATTATAGAAATTTAAAAATATATTTTTAAATAATGTCGAATAACATTTTATAAATGAAACAAAAAATTTATTAACTACTTTTAATTTACTAAGAATAAGTAGAAAAAATAGTACATTATTCAAAAACTATATTTATTTTAAAAAAAAGGGGGGATAATTTGACAATTGTAATGGTATTTATAACTGCAGCATCTTTGTTATTTATGATTAGTATTTGGATATTAAGAATTAGAAAAATGATTATTGAACTTTCAAAAGGTAAATTTATAGAGTTTTTTAAATTACTTTTAACCGTTTCAATAGATATATCAATTTTTATGTTAACATTACTCATAGTGGGAAAAACTATGTTTGGATTACAAGTTAGTGCCATACTAAATGTAACTACTAGCTTTTTAATTAAATCATTATTATTTAAAAAATAAGTTTTAAATAGGAAAACAATATAGAATGACAAAGTAAAAAACATAAGAAAGGTGTGTGATTTTTATGAAGCAAATAAAATTATCAAAAACAGCTGAAAAAAGTTTAAATAAATATGGAATAAATAGAAAAAAAATAATTGATGTAATAAAATTCGGAAAATTTTATTACTATAAAAATTATAGAGTTTATTATATTCCAAAGAAAAAAACAACAGCATATAAAAATTTAGAAAAATATAAAAATCTATTTGTTGTTTTATCTGATTTAAAAGTAATAAATATAATAAAAACATCAAAATTAAAAATTTTAAATTAAAAAAAGGGGGAATTTATGTCTAATATAGTAAACTTTAAAAATAAATCAAAAAAATCTACACCAATTATTTTAGATACTAATTCAATTATAAACAATATCAATAACTGTAAAAATTTAATTACTACATATAATAATGTAATTATACCTTTTATGTGTATTGAAGAATTAGAAAAACTAAAAACATCACCTAAAACGCATTATGCCGCTCAAAAAGCTATAAAATTTTTAGAAAAATTTTATAAATTAAATAAAATAAAATTTATTAATTCATTTCCAAATCTTCTACCAATAGAATATCAGGAATTAAATCCAGATAATTTAATACTTTCAGTATGTATAAATTATAAAAAAGAAAATCCAATTTTTATAACTTCAGATAAATTATTAAAAATTAAAGCAAAAGCATTAGATATAAATACATATGATATAAACGAAATATTTATAATATACTAAATATTTTTGGTAGCATAAAAAATTTTGTGTAAACGCTTCTTCTTGAAAGGTAAAAATTGATAAAAAATAGTAAATAATACCCATTTTATAACATACCTTAAAACATAAAAAGCTGAGATAAATATCTCAGCTTTTTATGTTAATCAAAAATTATTTTTGTTATATTTTTTTCTTTTGAAATGTAAGCATTCTCAAACTCTTTTTTAATATCTTCTTTTATTTCCTCAATAAAATCTACACTACTATCTTTTTCATTTTTTAAATTTTTATTTTCAATAATTTTTATATGTAATATTTTTTCATCTTTTGAGTTATCTTCAAACCAAGTTGGATAAATTGCAGAAACTCTACTATGTTTGGTAAAATGATTAAACTGTCTTGCTTTAAAAGCAATTTTATCTATAATTTCAAGTTCAAACGTTATTTTATCTATATTATCATAAATATTATTTTCTAATCTTTTTGCAGTATTATCAAGATCTTTATAGTTTTCTTCTTTAAGATACTTTTTTATATTTTCAAGGTCAGTTTTATAAACTTTATAGAATTCAAATTCTTTTGTCTTATCAATTAAATAAAAAATTTCATTTTTAGTTCTTTCAATCCTATTTTTATGATAACTATCTGTTATTATTCTATCTGCTTGAACATCTGTACCATCAATAAATTTTATCCATTTTGCTAAATGAATTACAATTTTTTTTAATTTATTATTCATTGGATTATATATATTAATTAACTTATCTGTTTTTATTTTTAAAGGTTTTATAAAATTTTTTTCTTTATCCTTTGAATTTAAATCTTCTTCAACCTCTAAATAACCCCTATGATACTTACAAATCATTTTTATTGCTTCTTTTACTTCTTCTGTTTTATCTCCAAAAATCTCTTTTAAAGTTTTTGAATTTGAACTAAATGGTTTAATTTCTGCTAATATATCATATTCTTTATTATCTATTAACTGCAAAGTTAATTCATTATGCAAATCTCTAACTAAAGATGGTAATGAATCCAAATAATAAGTTTTTCCATCAACAAAGTATTTTGGATAAGTATGGCCTAAATCATGAATATTTAAGGCTACACCAAATATAAAATACAGTAAATCTTTATAAGAAATATCATTATTATATTCTTCTTCTAAATTATCAACATTCAAAAAAATACTTTCACTAAGAGTATTTATTAAATTGACTGTAAACTCCATTAAACGTTTACTATGTCTTTGAGAATGCTCTACTGTTTCTGGAATTTGATCTCCCATCCACATAGTTGACCATTTTTTTATTATACCATCTTTTAAATAAGCTTTTAAATTGTTATTTTTTAATAAATGTAAATATTTTTCACCGTATCCAAAAGGCATTTCTCTTTTTTCTTTTAGTTTATCAAATATTTTTTCAAGTGGGAAAAAAGAAATTATACCCTCATTTGAAATTTTCATTATTTTATATAAAATATCTGGAAAAGATAATAAATCAGATAAGTCAAACATTTCTTTATTTTCCGAATCTTTATAAGCTTTTAAAATAGAATAAGATTCATCTATATAATTATAATCCCAATCAATGCCAAATTGAGGTATCTTAACGAGATTATGTTGTCTTTCATATTTATAATAAAAATTTTTTTGATTGAACATAGAATAAAAACTTAATATTATACCTAAATATTTCACTCCTGGAGCAACGTCAATTATTATTTCATTGTTTTTTTCTTTTTCAAATATTCCATCCATTATATCCCAAATTTCTTTAAACGTAGTTGACGAAGTTTTATAATCATCAGGATTAAAATTTAACTTTCTATATTCAATCTCAACACCTTTAAAAAATTTTTTAAAGGTGTAAGTTAAATAATAATATATTTTATTTAAATCATTTTGAAAAGTTAAATCTAATTCTTCAACTATATTCTTTTTTATATTCTCGTAAGGTTCGTTCAATAATAAAATAATTTTTTTTATATTAAAACCTTTTTCTTTTAATAAATAGATTGTTTGAAGTTCTGGAGTTAATTTAGAATTTTCATAATCTAATTTTTTTAAACTTTTTAAGTTATCAAAAACTGTATTTCCTGTTTTTTCATTTTTTCTATTACCTGTAATAGCTTGGCCACAAGGCATAATTACTGTTACATCATTCAAAAGTTTATTATTCACATAATTTATTACATCTAAAAATAATTCATTGCTATTTTTATTATCATTATTGTATTGTTTAAGTAAATTATTTATAGTATTTGTTGACAATATTTTATCATTATATTCATTAATATCATCTTCAGAAATTTTTTCATATCTATTTATTTCATATTCTTCAAAAAACTCAAAAGAACAAATTTTGTTTTTCTTTTCAATTTCTAACATATAATTTATATTTTTTGAATAATTTAAGTTAAATGGTGTTAAATACTCATATAAAATAATTTCTGGATCCTTTTTTATTACGTACTTTACTTTTACTATTAATTTAGAATCTTTTAATTTTTCAATAAGATCGTGTTTTATTTTTATACTTTTTTCATTTTCAATCCAATATTTTAAAATACCTGTGCTTTGTTTTTCTAAAATTAATTTTATATTTTTATCTGTATACCACTGTATAATTCCAATTTTTTTCACAGCATTTTCCTTTAATTTTTTTAATTTTTCTTCATCATCTTTAAAAATTAAATATTTACATTTATTTTCTGTTTTCATAAAATCACTCTCCTTTAAAATTAATTTATAATTAATTTTACCATAATTTTATTTTATTTTGTATATAAAACATAAAAAATTTTTTTAAATTAAAAACAAATATATTATAATAAATAAAAATGTAAAATTTATAATGTTTAATGTATAATAAAAGTAAGCCAGGAATACAATTGAAAAATGGACCAGGAAGGAAAAATGCCCCTTTGAAGGGGCGAGTCCAGTGGACGGAGGGATGTGGTTTATTGTTATATTAGTTATTTATTAGTATATAGAAAATTAGAAGGAGAAACACCCCTCCGAAAAAACCTCGTCCCCTCAAGGGGACATTTATAAACTTAAATATTATGACATAATATACGCTTCCACAAATGAAAGTGTTTAAAGTATAAAAAAAAAAAGCCAGGAATAAAAAAAAGGATCAGGGAAGAATTTATAAAATCTTTGGATTGATTGGAGAAATTATAATATTAACAAACTCTTAATGTTTTCTGAAACCTGTTTTTTTCAGCGTTTTATTTTTTTGGCCCATTTTTCAATTGTAAAATACATTTATAAAACATTACTAAAAAAATTCATAAGTAAAAAATTTACAAATATACGTTTAAACTAATAAAAACCAAATAATACTCTTCTCTTTAAGTAATAAAATATACTCTCAACAAACTTAAAGAACATTTTGTTTTTTATACTCTTATGATAGTTTTACCTATGTAGCTATTGATCTTTTATAAATGTTATTATTTTATTATCTAAAGCTTTAAATGCAAATAAATATGATATAAATAAAATATTTATAATAATTATTAATATTAAGAAGACTTATACTCTTTAAATATTTAAAAAAAATGATATAATAAATTCTGGTCAAATATAAAAAAATAAATATAAATTTAATCATATTTTATAGTGGGAGGAGAAATCTAATGTTAGAAATAGCAGGTTACATAGAAGAAAGTTTAACAGATGGTCCTGGAATAAGAAGTGTAGTTTTTTTTCAAGGATGCAGCCGTAATTGCAAAGATTGTCACAATAAATCTATAAATGAAAAAGGAAAAGGAAAAAAAATAACAATAAATGAATGTTTTAATATGATAAAAAAAATTTCAAATAACAAAAAAATAACTATCTCAGGAGGCGAACCTTTAGAACAATATAATAACCTTTTAAAATTAACAAAAAAATTATATGAAAATAAATATGATATATGTATATATACTGGAAATAATTTAAAAGAAATTCCAAAAGAACTACTTTATTATATAAATTATATAAAGGTAGGATATTTTGATAATAAAAAAACAAATGTTGAGTTAAATTATTACGGTTCAAAAAATCAAAAATTTTATAAAATAGAAAAAGGAGAGAAAATATGTCTAAAAGAAATTTAGCAAATACAAAAGATAATTCCATAAATTTAATATTAGAAAAATCAATTGATTATCAAAAAAATTATATTTTAAAAAGTATAATACCATTGAATTTATCTAAAAATCATAAAAATAAAAATTTTTGGATACATGATCTAGAGTATTATGATATATCACACAATTGTATAGGATTAAATATAAAGACTTTAATAAAAAAAGATAATAAAAATATTTCTTTTGAAAAAGCATTAAAATTACTTTATAAAAAAATTGTTGAAATAACAAATATACAATCAGGCGGAATTGGAATAATAAACTTTGATACTGATATGGCCTATTATTTAAAAAATGAAACAAAAAAAGAAATTTCTTATCATATTAATGATTTTTTTAACAAATTGAACTTACCAATTAGAAAAGGATGTGAAAAACCTTATGTAACTTTAAATTTTGGATTAGATACTTCTGAAAAAGGTCGATTAATTTCAAATGTTTTGTTAGAAGAATTCGAAAAAGGCAATGATGAAAATGAACCTTATATTTTTCCAAATTTAGTATTTAAAATAAAAAACGGTATTAATTATAATGAAAAAGATATTAATTATGATTTATTAATACGAGCTTTAAAAACAACTTCAAAATGTATGATACCAACTTATATGAATTGTGACTCTCAAATAAACAAAAGAGTTGATTCTAAAGAAATAGGAATAATGGGATGTCGTTCACGTATAGTAAACAACATTTTTGGTAAATCTACTTCAATAAATAGAGGTAATATAGCTTCCGTTACCATTAATTTAATAAAATTAGCAATAAATTCCAATAATAATAAAATTCTTTTTTATAAAGAATTAAATAATTTAATGGAAGAATCTAAAGAATTACTAATACACAGATTAAATAAAGTTTCAAACAGTAATATGAATGAATATTTTTCAAATAATAAAATATATATTGATTATGATAAAGATTATTATAACATGTTAAAAAATGGCACTTTATCAATAGGATTTATTGGATTATGGGAATCTTTAGCTATATTAAAAAACGAAAAAATAAAAACTATAAACTTCATAGAAAATAATTATAATGAAGCTATTCAAATAATTAAATTCATGCATAACAAAATAAATCAATTTACAAATAAAAATAAATTAAACTTTTCATTATTAGCAACATCAGGAGAAGGAATATCAGGAATATTTCCAGAAAGTGATAAAAAAATCAAAAATCTAAGTACATTACAAAAAAGCATTATAACTAAAGGGTATTATAACAATTCTTTTCATATTCCCGTAGAATTACATACAAAAATATCAAATAAAATAAAATATGAAGGAAACTTTCATAAATATTGTACAGGCGGCTCAATATCTTATGTTGAATTAAAAGAAATACCAACAAATAATATAGAAGCACTAAAAGAAATAATCCAACTATTTTATATAAATGATTGTAATTATTTTGGTATAAATTTTCCATTGGACAAATGTAAAGATTGTAATTACATAAATAAAATAGATAAAAGTTGTCCCAAATGTGGAAGTACTAATATTATAAAATTAAGAAGAGTTTCTGGATATTTATCTGAAGAAAATAAATTTGCTTCTGGAAAGAAAAAAGAATTAAAAAATAGAAAAAATCATTCTTTATAAAAATCTAAGTAACTCTTTTAATTATAAAAGAGTTACTTTTTTTATTAAAAAAAGATAAAAAACACTTGCAAAATAAAAACGAATGTGTTATAATAAACACGAACGTAAAGTTTCCGGAACATTGGCAAAAACAAAAAATCGCATAAATAAAGGGTTTGAGCAAAACAGGTTTGGAATCAAGTAATAATAAGCATTACAGACGAAACGGTGGCAGAAAATGAAGATAATAAAAATATCACAAAGAGGGTTTGGAAAATACGGTATTGAAAGGCACTAATAAATAGGCATTCAAATGCTAGCAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACCTATGACTTCTAACTTGAAGCCATAGAGAAGCTTTGAAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACAAGCTAAGAACCTTAATTACCTTAATAAGTTCTTCTCTAGGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACATAATTAATAACTCGTGTCAAATGTTTATTTTGTATCAAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACAATTATTCAACGGATATAGAATATCCGTTTTTCAGTGCCAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACGGGTTCTTTGACATATTAAGAACCCTAATAAGTTTTACCAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTGGTCACTTATAAAGATCCCAACTATTCTATTTCTATTTTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACATAATTAATAACTCGTGTCAAATGTTTATTTTGTATCAAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTGATTTCTTATTTTACTCTTATAATTACTACTGTTGTAATGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACCCATCATTTTCTAAGTACATTTTTTCATTTTCCATTACGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTGATAAGGATTCTTTGACATATTAAGAACCCTTATCAATGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTTAACAAGCCGGGCAATTATTTTAAAATATATCTTCTAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTTACTCATTCTTTCTCACTCTCCTTTAGTATTTTTTAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTTAGATGATGGCTTTTTCGTATATGGATTTTTAGCTAAGGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACTAAACCGTCCGTGTCGCGAAAGACACGGACGGTTTGATGTCTGAATGCTACTCTTCCCTGCAAGGGATAATAACTTGAAGCCATAGAGAAGCTTGGATAAAGCTATTTTTAGAGTCTGAATGCTACTCTTCCCTGCAAGGGATAATAACTTACCATCTTTTTCTAAATATATTCTTTCACTTCTTATTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTGCTAATGTTTTTATCAAACGTAAAAACATTAGCCAATACGTCTGAATGCTACTCTTCCCTGAAAGGGATAAGCATTTTCTTCAACAACTTTATGGAATTTTATTTTTTTATTCTTTTCTTTTTCTTACGATCATTGATCCTTTCAAAATTCTTTTATTCTTCTTTTCTAAATTTATCCTTTAATCTTTTTTATAAAATATTTTTAATATACTAAATAAAAGAAAGATAAATCTTTATTTAGTATATTAATGTCGAATAACAATATGGATAGTACATAAATAAAAAGTGAGGTGAGAAAATGACTTCAGGTTGGAAAAAATGTCCTAATTGTGGGGAAGAAGTACGAGATTATAACAGAAAATGCTTTAATTGTGGATGGATTTTTTATAAAAAAAAATGTCCTAGATGTGGAAAATATATGGATGATAGTACAAAAGAATGTCCTAGATGTGGATGGTATTTTTATTGGAATGAATATATCGGAGAAGATGATGGTTGTTATGAAAATTATGAAGATGATAATGATTACGAAGAAAATTATGAAAATGATTGGGATTTTTTAACTGATTTAGCTAGTGATGTTTCTGGTATAGATTCAGATTACATTGGAAATGCTGGAGACATTCTTGATGATTATGGATATTAATATTCTTTTTATTCTACCTTTCTAAATAAATCTAAACTAATGTCGAATATTAATTTAAAAAATACAAATTAGTGGTGTATTAAAAATGTTTGAATTTTTTATTGGCATAGTATTAGGAACATTATTTTCAGAAAATTTAAAAATATTTATAAAAAAAATATCAACTTCTAATGATGAAAAAAATAATTAATTAAAAAATCTTGAAGGGAGGAGGAAATATGAAAAATAGCATATTAGTTAGAACAGAAGATTTAATTAATAATCCAACACCAAGAATTCCAATATGTTTATGCTTAGATACAAGTGGTTCAATGGATGCACTTAGCGGAAATTTTAAACTAACAGGAAAAACTTGTTTTAAAGATGGGAAAGAATGGAATGTTGCAACAGGTGGAGTAACTAGACTTAGCAAACTTCAAGATGGATTAGAAATTTTTTATAATGCCATTAAAACAGATGAAATAGCATCAGCTTCTGCTGAAATTTGTATTGTTGAATTTAATGATAATGCAAATTGTATATTAGATTTCGCAAATATTAAAAGACAAAAAATTCCAAATTTAAAAACATCAGGAAATACAGCAATGGGCAAAGGAGTAAATTTAGCCTTAGATTTATTAGAAAAAAGAAAAGAAGAATATAGAGAAAAAGGTGTAGATTATTATCAACCATGGTTAGTATTAATGACAGATGGAGAACCAAATGGAAATCCCAAAGAATTGTCAAGAGCAATTGAAAGAACAAGAAAAATGATTGAAAATAGAAAACTAACTATTTTTCCAATAGGTATAGGTGACGAAGCTGGAATGGAAACATTACAAAAGTTTTCTCCAAATAGGCAACCATTAAAATTAAAAGGTTTAAAATTTAAAGAATTTTTTACTTGGTTAAGCCAAAGCGTATCAAGAACTTCACAATCAATGCCAGGAGAAAAAATACAATTGGATATCGAAAAAATCAAAAGTTGGGGAGAATTATAAAAAAATATTACCATTATAAACAATCTTTTTAGTTCTTTCAGATGTATCTGAAAGAACTATTTTTTATAAATTATTTTATAAAAATGTCGAATAACACTTTGAAAATACAAATTGGAGGTGTATTAAAAATGTTTGAATTTTTTATTGGTATAGTATTAGGAACATTATTTTCAGAAAATTTAAAAATATTTATAAAAAAAATATCAACTTCTAATGATGAAAAAAGTAATTAATTAAAAAATCTTGAAGGGAGGAGTAAATATGAAAGTATTAAACATTTTGTTTTATTTATTTGTTTTAATAATATACATTAGCTTATACCCATACTTAAGTACTAACAAAACATATAAAAATTAAATCAAAGTGTTTGCATAATCCAATAATGTCGAATATTAATTTGGAGAAACAAAAAAAATATAAAAAAGGATGGTGAAAATCATGGATGTAATAGTAAAATTAGCTTCGTTTGGTGTATTGGGTATGGTAATTTTAGCAATGTTAGCAACATCAGGTTTAGCTGGTGCTGCTGCTATATCTACAACCTTATCAACACTTGGTGGTCCTGCTGGTATGGCTGGTGGAATGCTTGTTTTAGCTTCTGCTCCTGTTATAGTCAATTATTTAGATAATTATGGAATTGATTATGCAATGAAAAAATTAATGCGTGAATACAAAAAGAAAGGTTATTCAAAATATGAATTAAGACATGAAATTTCTAAACTTTGGATTACTAAAGGTTTTAAGGAAAAATTGTATTATTATGTTGATACTTTATATTAATTCTTGGGAGCTTTTGCTCCCTATTTTTTATTTGTTTTATAAAAGTATTTAAAAAAAATTCGAAAGGAGGAAAAAAAATGATACACATTAAAGTTGATGCTTCATACAAAAATAAAAAAGCAAGTATAGGTGTTTACATTAAAAACAAAGGCAAAAAAATAAAAAATAGATTTCAATGTAAATCAAAAAGCTCTTCAGAAGCAGAACTTCTTGCAATATATTTTGGGATAAAATATGTCATTAAAAACAATTTAAAAAATATAAGAATATACACAGATAATGAATCAAACTATAAATTAATAATAGGAGAATCACATACAAATATTGACTATATGAAAAAATTAATCAAGGAAATTACAAATTTATTAAAAGGAACATCAATAGAAATAATGTATATTTCAAGGAAATTTAATAAAGAAGCAGATAAAATTGCTAGCAAAAGAAGAAAAATTAAATATTATAATACTAAAATTTCAGTTTAAAAAAGAAGGTGTTTTTTTTCACAAAAAATATTAATTCAAAGAAATTATTTAAAATTTTTAAATATAATATTAAAAAATAATTTGTTGAATGGAGGGAAAAAAATGACTTTAAAAGAAATATCAATAAATTTAAATATTGATATAAAAAAACTTTTATTTGAATTAAATAAAATCGGAATATTTATTCTTAATCCAAATAAAGAATTGAGTAATTCTCAAATAACACTAATAAAAAAATATATAAGTAAAGATAAAAATGAAAAAAAACAAAATAAAGAGTTAAAAAAAATTGTTAAAAGACATAAAATTTTTATAGATACATCTAGCATTTTAGATAAAAATTTTGAAATATTTTGTAATCAAATAGAACCATTATTATTAAAGTATAAAAAAAAAATAATAATAATTCCTAAAGTTTTTAATGAACTGTACAATTATTTAGAAAATGAACAATTAAAAGAAAAAGTTAAAAAAAATATAAAAATTTTATCAAAATTAAGAGAAAAAAATTTAATAGAAATAAGAGTAGAAACAAGAAATAATTTTGTTGATAATGTTTTTTTTATACAATTTTCAAAATATAGATTAAAACATAAATTATTATTGATTACACAAGATAAAAAGCTTTCAAATAGCATAATCAAATTGAACAAAATCAAATCACCAAAAGAAAATAATGTCAGAGTTATGAAAATATCAAATAATGGAATTTTATATGATTTCAAAGAATTAAATAACTATCAATCAAATTCTAATAAAAAAAAATCAAACGAAACTAAAATAAAAATTACTAATGTACCAAATGACATTATTCCAATAAAAAATATACCAAGTATTGGTAGTAATGTTTACACAGATTTTGGAGAAAAAATCAAATTAATAAGTAAAATCTCTTCTGGTGGTGAAGGAACTGTATATAAAACTAATACAAATTATGTTTGTAAAATATATAAAAAAGAAAAAATTACAATACGAAAATTTGAAAAATTAAAACTTATGATAAAAAAATCTTTAAATTATAATGGCATATGTTGGCCACATAAAATTATTTTTAATAATTCAGGAGAATTTGTAGGCTATTTAATGCCTATGGCATTTGGAAAAGAATTAAAAAGAATGTATTTTATTGAACCAAAGAAAAAATTAATTAACTGGAAAAAAATTGATGCTGTTAATCTTGCAATTACCATTTTAGAAAAAATTAATTATTTACACAGTAATAATATAATTTTAGGAGATATAAATCCTATGAATATTTTAGTAGTAAATCCTAAAGAAGTTTATTTTGTTGATACAGATAGTTATCAAATTGAAAGATTCCCTTGTCCTGTTGGAACAATAGAATTTACACCTCCAGAACTCCAAGGAAAAAATTTTGGGAATATTATTAGAACTTTAAAAAACGAATATTTTGCTATAGCTATATTATTATTTATGCTTATGCTTCCGGGAAAACATCCATATTCACAAAAAGGGGGTGAAGATATTAAAAAAAACATAAAAAATATGAATTTTCCTTATACTTTTATGAAACAAACAAATAAAGTAGCTCCAGAAGGTATGTGGGTTTTTATTTGGAGTCATTTAACTTATGCATTAAAAGAAAAATTTTTTAATATTTTTAATAAAAATGGCAAATATAGTCATTTAAAAACAAGATTGAATACAAAACAATGGTTAAATGAAATGGAAAAATATAAACTTTTTTTAGAAAATAATTCAAAAATCGTAGATAAAATGTCTTTAAATATGTTCCCTACCAGATACAAAAAATTAGGTAATTTAATTTATAAAAATAATAAATAGGAGGCGATATCATGAATAAAAATTTATTGTTAAAAGCAGAAGAACTTGTAGATAATCCTAATTCAAGAATACCTATTTGTTTGTGTTTAGATGTAAGTTCTTCAATGGAAGGAGAACCAATAAATGAATTAAACGAAGGAATAAAATTATTTTATAGAAACATATATGATGATGAAATAGCAAGGGCAGCAGCAGAATTAGCAATTGTAACCTTTGGTGGAGAAGCATATTTTGAAAAAGATTTTTCAAGCATTGATATACAAAAAATACCGATTTTAAAAACATTTGGAAACACACCATTAGGAGAAGGAGTAAATTTAGCACTAAATTTATTAGAAAAAAGAAAAGAAAAATATAAAGAAAAAGGTATAGATTACTATCAACCTTGGTTAGTATTAATGACAGATGGAATGCCAAATGGAGATGAAAACGAATTAAAAAAAGCAATAAAAAGAACACAAAATATGGTTAATAATAAAAAATTAACAATTTTTCCAATAGCAATAGGACAATATGCAGACATAAAAGTTTTAAATTCATTATCTCCAAAAAGAGTTCCATTAAAATTAAAAGATTTAAACTTCAAAAAATTCTTTGAGTGGTTGAGTAAAAGTGTAAGCATAACCTCACAATCAAATCCAGGTGATAAAATAAAACTTGATGTAGAAGAAATAAAAGGTTGGGCAGAATTATAAAATAATAAAAAAAATAAATATTTTTTATATATGGAGGCGAAAAAAATGTGGAAAACAATTACTTATGAAGTACAAGGAAGATCTCATAAAACGAAAGATATACCATGTCAAGATAAAACATATTCAAATTATGAAAATAATGTACATGTAATAGCATTAGCAGATGGTGCAGGTTCAGCAAAATTTTCCCATTATGGAGCAGAAATCGCTGTAAAAACAATATCTAATTTTTTAAACAATAATTTTGATAATTTAATAAGAAACAATGATGCTTTAAAAGTAAAAATAGAACTAATAAATACTTTAAACAAAAAGTTAAAAGAAAAGGCACAGGAACTATCTTGTGAATTAAAAAGCTTAGCTTCAACTCTTTTAGTTACTGCAATAAAAGAAGACCATTTTATAATTATACATTTAGGTGATGGAACAATAGGAGTAATAAAAAATAATAAATTAATGGTTGTTTCAACTCCAGCAAACGGAGAATATATAAACAGTACAATATTTACAACAACTAAAAATTCTTTTAAATATATAAAACTTTTCAAAGGTAAAACAAAGGATATATCTGGTTTCATTTTAATGTCTGATGGAACAGCAAATAGTTTTTATAGTAATAAAAAAAAAGAATTATCAAATGCAACAAAAAAAATAATTAATTGGAGCGTATTATTGCCTAAAAATAATATGAAACAATTGATAGAAGAAACTTTTAATAATTTAATAATAAACAACACTTATGATGATTGCAGTGTTGCAATAATTACAAATGAAAAACATAAATCTAATATTTATAATACTTTTCAAATTCATGAAAAAAAAGAATTTTATGATATAAAAACTAAAGATCCTAAAATTTATTTAAAAAAAATAAAAGCAAATGAAAATTTACTAAAAGAATTATATAAAAAACAAATAAATATTTTAGAATTAGCAAAAAAATTCCACATAAAAAAAAGATACTTAAAAAAGAAATTAAATAAATTTTCAAATCTTGGACTCATCAAAAAAGAAAATAAAAAATATAAATTACAAATACAAATAAAATAAATTTATTGTATCATTTGATTAAAAATAAAGTGTTTGTATTATTTGTTTTGATTTAAAAACATATTTTAGTAATAATATGTTATAATTAATATAGAATTAAATAACAAACGTATATAAAAAGAAAAAAATACCCTAAAATGCAGGAAATAAAAAAACAAACGAGACGCAAACCTATTTAAATACAAAAGAAACAATAAAAGAAAAATTAAAGTACTGGATAAAAGAAGCTTTAGAAAATTATGGTATAGGTTCAAAAACTGCTGTTGGGTATGGTCATTTAGTTAAACAATAATAACAAAAAAGCCTTTGGATTTTTTGTTTGAAACTTTTTTATGTACAAAGATGAGGAGTGATACTATCTTATATAGCATTGTGATTGAATTAAAAGCAAAAAATAATGGAATAATAAGTACTTATTCTGGACAAAAAATTCATGGACTTTTTTTCAAACTATTAAAAGAAGCAAATAAAGAATTAGCTGACACAATACACAATAATACATTGAGTAAAGCATTTACTATTTCAACATTTTTAAATGAAAAAATAGGAACACCAATAGAATTTAGGAAAGGGAAAAAATACTATTTTAGAGTAACTTTTTTATCAGATGAAGTTTATGAAATTTTCTTAACTAAATTATATAAAAACAGATTATTAAGAAAAAGCATTAAAGTTGGAGATATTTACTTTTTAATAAATAGAATATTTTTTAATGAATCTGAAAACGAATGGGCAAATACATTTAATATAGAAAATATAATAGCAAAAGATAATTTTAAAAGTGTAATAAAATTAAAATTCATTACACCAACCTTATTTAAAATTGGAGATAAATATTTAAAAGAACCTGATGTAGAAAAAATATTTAATGGATTATTAAAAAAATTTAATTTATACAATGAAATTAAAATAGATGACTCTATAAAAAATAAATTTTTAGATATAAAAATAAAAAATAAAAATATAAAACCAAAAAAAGTATACTTAACAAAATTTTTTATAGAAGGATTTATTGGTGAAGTTGAATTTGAAATACCAAAAGAAATAGTAAAAATTGTAAACATACTTTTAGAATTTTCATTTTATTCTGGTATAGGTTATAAAACAACTATGGGATTTGGACAAGTAAAAATATTAAAGGAAGGATAAAAATGGGATGGCTGAAAAAGGCTGTAAAATATGAAGAAGAATTTAAATTTAAAGAAGCTTTAAACATATATAAAAAGAAAGAAAAAAAATTAAAAATAGAAGACGGATCACTCATTAGATATGGAACCCTTTTATATGAATTTCAAATGTATAATGACGCTAAAAGGATCTATGAAAAAATAATAAAATTAGCTCCAAATAAATTAGAACATAAAGAAATGTTAGCAAAAATATATGAAAACTTAAATAAAACAACAAAAGCTGTAGAATTATACAAAGAATTAAATATAAAAGATAAAGTTCAAACATTAATAGACAAAGAAAATTTTAATAATCCTAATCTTAAAATCATTAAAAAGTTTATAGAACTTTTTAATGGAAGAGAAGATGTTATATCTTTTCAATATGAAAATGGTTATAGACCAATTAGAAGACCATTAAATACAAAAGATGTTTATAATCATTTTAAAGGAAAGCGAACACTTGGGATATATCAATTAAAAAAAGATAATACAATAAAATTTGCTGCATATGATATTGATATAAAAAAAGCTTACCATAAAACTTCAGAAGAAAACAAAAACAATGAAAAATTAAAAGATATAACTCATCAATTAATAGATAAATTAAATAATTTAAATTTTAATACATACGTTGAATGGAGTGGGAATAAAGGATATCATATATGGATATTTTTTGAAACTCCTGTTCAAAGTTATAAAGTAAAATGCGTAATGGAATACCTATTAAACCAAATACAAACACAAGAAGAAATAGGTGTGGAAATATTTCCAAAACAATCAAATATTGGAGAAGGACTCGGAAATCTTATAAAAGTTCCATTAGGTTTACATCAAAAAACAAAAAATAAATGTTTATTTGTAAATAAAGACACATTAACTCCAATTAAAAATCAAATAAAATATCTAATGAATATAGAGTATACAAACTATGACATTATAAAAGAACTTTATAATGAATGTTCTTCAGATTTTGTATATAAAACAATTGTTAAAAGTAAAACTAAAAAAGCAAATAAAAACACTATAAAAAATGTTATAAGAAAAGAAATAAACAATAATACTCAAAATGATGATATAAAAAAAATAATCACAAATTGTACAATAATAAAACAAATTATAAAAAAAATAGAAAATGAAGCTTATATTACAGAAGAAGAAGAAAAAATATTTGTTGAATCATTAATAAAAATCAAAGATAGTAAAAATTTTATAGAAGAAATGTTAAAAAAAACAATAAATTTCTCTGCAATACGACTTGATCTACTCATGAAAAAAGAAAAAAATATTCCAATAACTTGTGAAGAAATAAAGAAAACTATTCTAAATAAAGAACTTCATTTAAATCTTGAAAAATGCAATTGTAAATTCTTAACAACCTATAACTCTCCTTATTCAATAATCTATGATATAGATAAATTATTTTTAGAAAAAGTTGAAATAAATGATATAGTGAAAAAAATAATGGAAAAAAACTCTCAAAAATATGAAATAGAAAAAGAAATAAAAAGCTTAAAGAAAATGATACTAAAAATTATGGGAGAAAAAACAGAAATAAATTTTGATCTAGGAATAATAAAAAAAGATGGGAATGACGTAAACATAATAATTTAAGGTGAAAAATATGATTATTTATATAATTGAACAAGGAGCAATACTTTCAAAAAAACAAGGAAAAATAATTGTTAGTAAAAATGGAGAAAAAATAAATGAAATACCAATAAAAAAAATAGATAAAATTAATATTATGGGAAATATAAACATTACAACTCCAGCAATCAATTATTTTTTAGACAACAATATTGAAGTTATTTTCATGACAAGATATGGAAGATATAGAGGAAAACTATACAAAGAAGAATACAAAAATGTTTTATTAAGATTAAAACAATATGAAAAATCATTTGATGAAACATTTAAACTAAAGATGGCAAAATCGATAGTTAAAGGAAAATTAAAAAATTATTATGACTTTTTATTAAAAAAACAAAAGTACTTACTAAAAGGGGAAATAAGTCAAGAAATAGCTACTATACGAAGTATTATAGAAAGAACAACAAATGCAAAAAATATAGACAGTGTTAGAGGATACGAGGGAATGGCTTCAAAAGCTTATTTTAATGCCTTCAAAAATTTAATAAAAAATAAAAATTTTAAATTTGAAAAAAGAATATCACATCCACCAAAAGATGAAATAAACTCAATATTATCATTTGGATACTCTTTTTTATATAATGAATTATTAGCAGCAATAAATATTGTTGGACTTGACCCTTATTTTGGAAACTTACATACAGTTGCTATATCAAAAAAATCATTACTCTTTGATATGGTTGAAGAATTTAGAAATATTATAATAGATGATTTTGTATTAAAATTAATAAATAGAAACGAAATAAAAATAAATCACTTTTCAAAACAAAAAGATATAATACACTTTACAGAAGATGGCATAAAGATATTTATTTCAAAATATGAAAATTTACTAGCCTCAAAAATGAAATACCACTTAGACGAAGAAGAAAATTATATAAGAATAATATTTGAAAAACAAATGAGACATTACGCAAGAGTAATTTTGGGCGATGAAGAAGAATACATACCTTTTTTTAGAAAGGAGATAGATTAATATGTTTTATGTAGTAAGTTATGATATAACAGATAATAAAAAAAGAAATAAAATAATTAAATATCTTGAAAGTTATGGTGTTAGAGTTCAATATAGTGTTTTTGAAGCTGAATTAAACGAAACACAACTCAATTCTTTAAAAAGAAATTTGAAAAAATCAATAAATTTAAATGAAGACACAATAAGAATATATCCATTATGTAGTGAATGTAGAAAAAAAATAGAAACAATAGGAATAGACAAAGGAAGTTATTATAAAAAAGACTTTTTAATAGTGTAGGAGGTAATAAAATGACACTTAATCTATTTAAAATAATAATTCCAAAAGAAGTAAAAAGAATCTATTTTTATAAAAAAGAAATAAGCCCTGAAATATTTGCAAAAAATCTAAAAAGAGTTAACAATATAAAATTTACATACTCCAATGATTTAATTTGGGTGGAACTCCCAAACATTAAATTAGAAATAAAACCAAAAGAAGTTATGCAATACAAAATAGAAAAAGAAGAAGTACTAACAGTACAAAAAGACGAAAAATTATTTTTAAAAATGATATATTCATATGTACAAAAATTATTCTTAGATAACGAATTTTATCATAAAAATGGGAATGAATATATATCATTAAAAGATAAATTTGAATTAAAATCAAATAAAAATATTATGTGCCATAAAGCTTATAAAGTAAAAATATATAAAATTGATGATGAATATTATTTATCTATAAATCCAAAATTTGTTTTTTTATCAAAATTAAATGCATTAGAATCACAAGAAAAGGGAGTTTATTTATTTAATACAAAATCAGGAAAAACTTTTCCATATATATCCAGCATTGATAATAAATTAACAATAGAATTAAAAAATGGTGATTTAAGAATAGTAAATTACCCTGAAAATTATTATTTTAATTATTCTTCAAAAGAAGCTGAATTTTTAGGTTTTTCAAAAGAAATTTATACAATTAACAAAGAAAAATTTAATATAGAACTAAAAGAAATATCATCAAAATTAAATTTTTTAAAAGATATTCTTGATATTAAAAATAAATATGAAATACCTTGGGATAACCGAAAATATTTAGATATAAACTATATATTCAAAAATGGGACTTCTAAAAATGCAAAAGATATGTTTAAATACTCCTTTTATAAAAACGAAAAAGATATAAAAATTTTATTTTTCTTTAATTCTGAAAAACAATTTTTTAGAGCGCGAAATATATTAAAAGAACTATTTTCTAATAAAAATTCAATATTTTATAATTCTATAAAACAACTTGGATTCAATACAATAAGCTATGTAAAGAATAAGGAAACTAATAAATCAATATTTTTCTATGATGAAGAAACATATGAAATAAAAGATAAAAGTTTTATAGAAAACTTAGGAATTGAAGATAATTATATAGGAATTACATTTTTGGATAACTTCTTAGGAAATATAGAACTATTAATGAATAAAATGCCAAAAAATATAATATTTCAACCAGTTTTAATGAAAAATATAAATAGTATGAAACCATTTATAATAAAAAGTTTTGTATATAAACTTGCAAAATTTTTACCAGGAAATACTCCTTTCATAATTAATAATTTAAAAGAATATAAAGAAGATTTATTTATAGGATTAGATATGAGTCATGATAACATATCAAAAAAAACACATTTTAGTATAACTGCAGTTGAAAATAATGGAAATATACTATATTTAAATAGAATAAAAGAATTACAATTAAATGAAAAAATAAAGTTAGACCTTTTTGAAAAAGAATATATAAATATAATAAATAAATATGAAACTAAACATAAAAAACTTCCCAAAAGAATATTTTTATATAGAGATGGAATATATTTAGAGAATATTGAAAGAATAAAAAATATTGTTGAATATAAAGAAATTAAAGGCACATTTATAGAAGTAAATAAAAATTCAAATATAAACTCTACATATGATTTAAAAGATAATATAATAAAAATTTCTAATGAAATTTATGTTTACTTTCCAAAAACAATGCACAAACAAAAAGGAATAGAATTAAAAATTATATATAATAATGTTAAAATAGAAAATGAAAAAATAGCTTTTCAAGGATTTATGCTCTCTAAACTTTACTATTCAACACCATATTCAAATATAAAACTTCCCTATCCAATACATATAACAAACAAAGTAGCTTTAAATGATTTAGAATGGAAACTTTATATACCTTACTTTGAATAAAAAATTTTATAAAAAGCTGTGCAACTCTTTCAAATTATGAAAGAGTTGCTTTTTTTATTTAAAAAAGATAAAAGATACTTGCAAAACAAAAACAAATGTGTTATAATAAACATGAACGTAAAGTTTCCGGAACATTGGTAAAAATAAAAAATCGCATAAATAAAGGATTTGAGCAAAACAGGTTTGGAACTAAGTAATAATAGGCATTACAGACGAAATGGTGGTAGAAAATGAAGATAAGAAAAATATCACAAAGAGGGTTTGGAAAATACGGCATTGAAATCCACTAATAAATAGGCATTCAAATGCTAGCAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTCTTAGCTAAGCTAAGAACCTTAATTAACTTAGTTATTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTGTAACCCTTGGGATCTCTTGGAAATATAGATTACCATATGGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACCTTTAATTCTGAACCATATTGTTGATTTAACATTTCTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACTCTTCTTCTTTCAAAGCTTCCACTATGACTTCTAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTAATTCACCCTCATCCATAACTTCTAATATAGCTTCTAAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTGAAGCCATATAGAAGTTTGGATAGAGCTATTTTTAAAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACGGGTTCTTAGCTAAGCTAAGAACTCTTATTAACTTTGTTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTGAAGCCATATAGAAGTTTGGATAGAGCTAACTTAAGAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACCAAAGCCAATAAACATATTTATGTTATCAGCTTTTGCAGGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACAACCCTTATTAACTTTACCAATTCGGATTCATCCATTAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACATTTCTTTCTCATCCATAACTTCTAATATGACTTCTAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTGGATCTCTTTGAGATATAAATTGTCATGGTTTCACCTCGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACGTCCCCTTCTTCGGGGACCCTAAACAAAGAGACCCATTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTCTTAGCAATGCTAAGAATCTTTATCAATTTAATGATTTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACATAAGGTTTCTTAGCTAAGCTAAGAACCTTTATCAATTTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTGAATCCGTATAATAATTTACTTAATGCTATTTTGATAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACGTTCGTTTCCGAACGTCCGATTTGAAACATACCGTCCGGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACGTAACTATCATTTAAACTTCTCATAATTCTACTGAATAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTGCATTTGTTCCATTGAAAAAATAAAAATATGTATGATCATTTATAAAATAAACTTTAAAAAATAAAGATGCAAATGCATCTTTATTTTTTATTTGTTTGACTAATGTCGAATATTAATTTAGAAAACTATAAAATTATATTGATTTATAAAAAATAATTTATAGTATATATAAAAACATTAAAAAAACAAAGGAGGTAATTCATATGGATTTACTTATCGATCTTATTATTAAATTTATTAAAATTTTATTAATTTTTTATCCAGAAAATGATGTTATATCTTTAACTTCACAACATTTTAATGTATCTGAAGATTTTATTCGTTCTATAATGAATAATAAATTTTAAAAATTATTTTGTAAATCCCAATATGTACTAACTATTTTTTTTTATACTCAAAAAATGTTTTTTTATTTTAAAGTAGATTTGATATAATAACATGTAAGGATATAAAACGAGGTGATAAAAATGAAAAAAAGACTTCCAATAGGAAGAAGTGACTTTAAATCGTTAATTGAAGATAATATGTACTTTGTAGATAAAAGCTTGTTAATTAAAGAAGTTATTGAAAATGGAGACGTTTTATTAATAACAAGACCAAGAAGGTTTGGTAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAACAATGAACACCTCTTTAAAAACTTAAAGATATATAAAGAAAAGAACATAATAGAAAAACACTTAAATAAACATCCTGTTATATACATCACCTTTAAAGATTTAAAGTCTAATAACTTAAAAAAGATGCATGATTTATTAATTTCTGAACTTTCAACTTTGTACATTGATCATGAATATGTTTTAAAAGTATTAAATGAAAGGGAAAAAGATGTATTCAATAAAATAATGGATAGAGAAGCTTTAGATGCAGATTATGAAAACTCTATAAGAAACTTATCAAAGTATATGGAAAGATACTATGGTAAAAAGGTAATAATATTAATAGACGAATACGACACTCCCATTCAACAAGCATATTTGTATGGATACTATGATGAAATAATATCTTTAATTGGTAACTTATTTGGCATGGCATTAAAAGATAATGTATACCTTGAAAAAGCAGTACTAACAGGAATAACAAGAGTATCAAAAGAAAGTATCTTTACTGGTGTGAATAACTTAAAGGTTTCTACTGTATTGAATGAACTATTCAATGATAAGTATGGTTTAACTAAAGAAGAAGTAGAAGAAACATTGAAGTATTATGAACTTGAATACGAAGAAAGTGAAGTTATAGATTGGTACAACGGTTATAACTTTGGTGGTGTTGAAATTTACAATCCTTTTTCTATTATAAACTTAGTAGATGAGAAAAAGATAGGACCATATTGGATGAATACGAGTGGGAATTATTTAATAAGAAAGTTAATAAAAGAAGGAACTGTTAATATAAAAGATAGTATAGAAAAACTTTTGAATGGAGAAAAGGTTGAAAGTAAAATAAATGAAACTATGGTTTATGGTGATTTGCACATAAATTCAAATGAATCAATATGGACATTGTTTTTATTTAGCGGTTACTTAAAATGGATTAAAGAAACAAAAGAAGGTTATAGAAGATACACACTTGCTATTCCAAATAAAGAAGTAAGAATGTTTTATGAAGATACAGTGTTATTAATGCTTGAAGAAGAAAATATACAATTAGATAATATACTAATAAACTTAATAAATGGACATATAGAAGAGTTTAAAGAAGACTTTCAAAAGCTAACAATGAACACATTGAGTTACTTTGACGTTAGCGGAGAAGAACCAGAAAGATTTTATCATGGACTAATACTTGGAATGAGCGTTGGTTTGAAAGAAAAGTATATAATAAAGAGTAATAGAGAAACAGGACTTGGAAGAGCTGATGTTATATTAATTCCAAAAGATAAAACAGATAAAGGAATAATTATTGAGTTTAAAAAGTTTTATAAAAACGAAAAAACACTATTAAATAGTGCTAAAAATGGATTGAAACAAATAAATGAAAAGAAGTATGAAGAAGAGATAAAAAACTATGGTATAAATGATATAATAAAAGTTTCAATAGCTTTTGATAAAAAAGAGGTTGAAATCGTTAGTAATTTGAATAAAGATGTTGAATTAACAGAGATAGAAAAAGTGGCAAAGAACATGATTGAAAAAGGATTAGATATAAATATGATTTCAGAATTAACAGGTATTTCAATAGAAAAACTTAAAAATATGTATGATCATTTATAAAATAAACTTTAAAAAATAAAGATGCATTGCATCTTTATTTTTTATTTATTTGACTAATGTCGAATATTAATTTAGAAAATACAAATTGGAGGTGTATTAAAAATGTTTGAATTTTTTATTGGTATAGTATTAGGAACATTGTTTTCAGAAAATTTAAAAATATTTATAAAAAAAATATCAAATTTCAAAGATGAAAAAAGTAATTAAAAAATCTTGAAGGAAGTGAAAGATATGGGGAATAATCTATTAATTAGAACAAAAGATTTAATTAATAATCCAACACCAAGAATTCCAATATGTTTATGTTTAGATACAAGTGGATCAATGGATGCAGTTAGTGGAAATTTCAAACTAACAGGAGAAACTTGTTTTGAAGATGGGAAAAACTGGAACATAGTAACAGGTGGAGTAACTAGACTTAGCAAACTTCAAGATGGATTAAAAATTTTTTATAATGCCATTAAAGCAGATGAAATCGCATCAGCTTCTGCTGAAATTTGTATCGTTGAATTTAACAATAATGCAAATTGTATATTAGATTTTGCAAATATCAAAAGGCAAAAAATCCCAAATTTAAAAGCATTTGGAAACACAGCAATGGGAAAAGGGGTAAATTTAGCATTAGATTTATTAGAAAAAAGAAAAAAAGAATATAAAGAAAAAGGTGTAGATTATTATCAACCATGGTTAGTATTAATGACAGATGGCGAACCAAATGGAAATACTAAAGAATTATCAAAAGCAATTGAAAGAACAAGAAAAATGATTGAAAATAAAAAACTAACTATTTTTCCAATAGGTATAGGTGACGAAGCAGGAATGGAAACATTACAAAAATTTTCACCAAATAGAAAACCATTGAAATTAAAAGATTTAAAATTTCAAGAATTTTTTACTTGGTTAAGCCAAAGTGTGTCAAGAACTTCACAATCATCACCAGGAGAAAAAATACAATTAGATATCGAAGAAATAAAAAGTTGGGGAGAATTATAAAGAATGTCGAATAATAATTTGAGAAAAAATGAAAGGAGGAGTAAATATGTTAGAATTTATAATTGGTATAGTAATTGGAACATTATTTTCAGAACCAATAAAAGAATTAACAAAATCTTTTTTTAATTATTATGATAAAAAAGCAAATGAGAAGAAAAATGAAGAAACAAATGAAAATCAATGATTTTTTTATTAAATAAGGAGCTTTGCTCCTCATTTATATTTTTTTATAGTGCCGAATAATTAATATAGAAAAACTCAAAAATAAAAGGAAGGTGAAAATAGTGTCAATTATAATAGCTTCAATAATAGCACTACTTTTAGGTGTTTTTTATACTGGAATTATAAAAACAATTTTAATTATAGTGGCAATAATATTTGTATTAAATATATTTTTAAAATTAAAAAGATTTTTTTAGTAATTAAATAAAATTAATAGAATTAAATTTAATCTTATTTATAACAGGATATTTTATAATTAAACCTAAAGAAAATAAAATAGAGAATAAAAAAATTAAGCATTAAAATGTGAGGTGAATAAAATGATTGAATTCCTTGCTGGATTATTAATTGGATCAATATTTTCAAAAATACTTAAAACTATGATGAAAACTATAGTAGATTATATTGAAAATAACATTTAAATGTATCTATAAGTAGTTAAATCGCTTTATTATTTTTGTAAATTTTTATATCAAAAAAAATATAATTAGATAGATATACTATCTAATGATTGAGAAAATTTATATTTTTAATAATCCTTTTAGTTCTTTCAGATTTATCTGAAAGAACTATTTTTTTATAATATTTTATAAAAAAATGTCGAATAATAATTTGGAAATACAAAAATAAAAATGGAGGTGTAAAAAATGAAAGTATTAAATGTTTTGTTTTATTTATTTGTTCTAATAATATACATAAGTTTATATCCTTATTTAAATACTACTAAAACATATAAAAATTAAATCAAAATATTTTCAAAAAAATCTAACAAATAATAATGGAAAACTAATACATATCGAGGAGGTGTTTATTTTCAAAAAAAATATTAACCCAGAAAAATTATTTAAATATTATAAAAAATTATTTCCAAAGTTAAAATCAGAAATGATATTAAAACTTGTAAACAAACATATTGATTTATATGGAAATGAAGAATCAAAAAGAAATTTTGAAATTTTTCAAAATAATAAATCAAAAAAAGAAAATTAATGATACTCTTTATATCAAAAACATAATGTTTATTAGTATTTTAATCCAATCAAAGTAAATGTCGAACAATAATTTAGAAACACAAAAAAATTGAAAGGGAGGTAATAAGATGAAAGGAAAAAGTATAAAAAATGTATTGGCAATAATAGTAATAATAGTTTTTATTTATTTTATAGCAAAAGAACCAGGATCACCAACAAAATATAATGGAATATGGTTTTTTAGAACTACAAAAATAATTGATAATCAAGAAAGTATGATTGAAAGACAAGAAAGAACAATAAGAAGATTATGGGGAGTTATTGGATTAAATTTATTTATAACAGGATATTTTATAATTAAACCTAAAGAAAATAAAATAGAGAATAAAAAAATTAATCATTAAAATGTGAGGTGAATAAAATGGTTGAATTTATCGCTGGATTATTAATTGGATCAATATTTTCAAAAATATTTAAAACTATGATGAAAACTATAGTAGATTATATTGAAAATAACATTTAAATGTATCTATAAGTAATTAAATTGTTCTATTATCTTTGTTTTTATATCAAGTAAAAATACAATTAGATAGATATACTATCTAATGATTGAGAAAATTTATATTTTTAACAATCCTTTTAGTTCTTTCAGATATCTGAAAGAACTATTTTTTATAAAAATGTCGAATAATAATTTAGAAATACAAAATAAGGAGGCAGAAAAAATGAAAAAATTAGAAGATGTTTTAGAAAGAATAGCTAACTCATTAGAAGAAATTTCTAATTCATTAAAAACTACGAGTAATATTAATACTCAAAATATTATTTTGAAAAAAGAAATAATAAAAAAAGAAGAAAATATAATAGAAATACCAAGAAAAAATGAAATAGAAGAATTTTTAAACTCTAAAAATATTCAAATAAAAACTTTAAAAACAGAAAAAAATGAAGATGTTTTAGATAATATAGCATATTTTATGGGTGAAAAATATGAAAACATAGAACCTATACTTAAATTATTAAAAAGAAATATAAATAATTCTGGATATATAGATATTGATATGCAAGATTTTACTCAAAGATCTATATCAGATATAACAAATTTATGTAATAGATTATATGAACTTACATTTCTAAGCTTTTATAAATATAAAAAATCTCCAAAGTATAATCTTACAGCAAAAGTTAATAAGATACCAGAAGCAATAAATTTTTTAAATGGAGAATGGTTTGAACGTTATTTAAAATTAAAAGTTATAAAAAGTTTAGAAATGAACAAACAAAACAAAAAGATAAAATATTCATATATAAAAAATCCACAAATAATATTGCCAAATGGTGATGATTTTGAATTAGATTTAATGTTTAAAATTGATGATGAAATATTTTGGATAGAAGCAAAAACTGGTGAATATCAAAATTCTTTAAAAAAATATTCCAAAATAAAAAAAATGTTAAATTTAAAAAGAAAAAATGTTTTTGTTGTTTTGACAAAAAATTTAGAAGATAGAATGAAAAGTGCTTTAAGCACTATGTTTGATGTGAATGTAATAAACATTAAAGAATTTGAGAATATTTTTTTAAATAATGTTCTAAACTTAAATGAACATGTAATAGATGAAAAAATAATAAATATTTAATAAATAAAAAATTTTTTGTAATTAAATTAAATTTTATTTAATTAAAGGTTGAATTTTATGTAAAAATATTATATAATTTAATTAATCATAAAAAAAAGGAGGAAATTACATGTATAATACTATGATTGCAACAACAGGTGCCAGTTTAGTAAGAAACTTACAAAGAGATGAAACGTTTAAAGATATTACTGATTATAAAGAAATAGCTAAGAAATTAAATTCATTAGATTTGGAAGGAAGAAGAAGAAGTTGTGCTGAAATAAATTCAATAGAGAACATAATAGACAAAGGATATTTAGAAGATAGGAAAAACTTATATTTCTTTATTTCAGATACGCAAATGGGAGAAAAAATAGGAATGATATTAAAAGAATATTTTAAAATTAGCTCAAAATATGGATTTGAAAATGTTGAAATAAATACAGTAAAAAAATTAACTGATACAAATAGTGAAGATTTTAAAAGATATGGATTAAGAAATCTTGTAAAAGATATAGCAAGAATAAATCAAAAACATTATGCAAATATGATAATAAATGCAACGGGAGGTTATAAAGCTCAAATAGCTTTTGCATTAGCAATAGGTCAAGGAATGAATATACCTGTTTATTATATGTTTGAAAGATTTCCAACTGTTATACAAATGCCACCATTACCTCTTTCATTTGATTCTACACTATATGCAAATTATTCTAAAATATTTCAATTATTAGAAGATATACCATTACTTCCATATGAAAAAAACTTTGATTACGATGAAAATGGAGATCTCTTACCTAAACAAAAAGAATTTTTAAAAAAATATATCTCCGAAGATGAAATAGACCTTTTTCAAAGTTATTTATTAAAAGGGAATGTTAAAAGTTTATATGAACAACTTGATGAAAAATTAAAACCACTTTTTGATATTGAAAGAATAGATAAAGAAAAAATAATTTCATTAAATGCAATGGGACAAGCTTTTGTTGAAAGTGCAACTTTTTATTTTAATAGAGAAAAAGAAATAACTTTAAAACAAAGAAAAAATACAAATATAATATTAGAATCTTCAAAAAAAGAAGGACATTCCTTAGAAATGATATTAAAAAATAATGTTGAAAAAATATTAAATAAAGTTGATTTTATTGAAAGAGCAAGAGTAGTTAAATTTTCTGACAAAAATAAAAATGGTGGTTTTAGAGTAAAGGTATTGGGAGATGAATTAAATTTAATATTAAATTCAAACGAAGGAATAACTCATTTTAATATTGAAACAACAGCAAGAAATAATGTTGAACTTCAAAAAGCTAAGATAATTTTAGAAGATTATTTAAATAAAAATTGGAAGTAAAAATTTAAAAGGGGGAATAAAAAAATGCAACTATTAAAATTAACTCTTGAAACAACATCTCCCATGTTCAATGGTAGAGATAATAACTTTGTTTTATTACCTCAAAGTATTAGAGGAGTTATGAGATATTGGTTTAGAGCATGTATTCCAAGAACTATTAATATAGGAAGAAACTATGAAAATTTAAAAAAAATTGAAGAGGATTTATTTGGTTCAACTGAAAGAAAATCTTCATTTGATGTTATAGTTGAATCTAATTATCAACAATCAATATCTAAATCAATTGCAGGTAATGTTTTTTCTGATTTTAAATATGGAATCTATGGTGCTGAATCAAAAAGATATTTAAAAGAAGGTACAAAGATAAACTTAACTTTTGTAATAAAAAGAAATATTGATGATTTAGATTATCTTTTATATTATTTAATGTATTTAATATCAAATATTGGTGGAATAGGAATGAAGAGTAGAAATGGATTTGGAAGTTTTTTAATAATAAAAAAAGATGAAAAATATCAAAAACCAAGTGGATTTGTTGATACTTTAAAAAAAATTGATGTTATAATGCAAAAATATGCAGAAAAATTAAACTTACCATTGGGAGGTACTATATTCAATGAAATACCCGACTTCCCAACTTTAACAAAATCAAATTATAAAGGATACACAAGTAAACAACGTTTTGTGAATATTCAACAACTATTTAAATTCCTATACAAAGCAGATATAGAAAATCCAGGTGCCTATATTCATTTAAAAAAGAAATATTTAAGAGGCGCTCATACTAAAAGAGATTCATTTGTAAGGTCTATAAAAGCTATTGAAAGATCAAGACCAGAAAGAATTGAATATAAGCAAGCTTTACTTGGTTTACCCATAAATTATAGAATAATGAGTGGACACCATGGAAATATAAGAGGTGGAAATTACACATTAAGTGGAGATGAAAGAAAAGCCTCTCCTGTTTATATTTCAGTTCACAGAATATTAGATGAGAAAAAAACGATAAAATATATATATAAAATATTCATAATAAAAAGTAAAATGAGTTCAAATAACAATCTGAAGTTTAAGAAAAAGGGAGAAAAAATAACTTTAAATGGATATTTTAACTTTGATTTTAAAGATATAGAAAAAAATCTTGTAAAAGCTAATCTTATAAAGGAGGTAAAAAAAATTGAGCACAAAAAATGATTTTTGGATAAAAAAAATAAATGCAATTATGTATACTCCAATTGAAAAAGTTTTTATTAATACAGATCATGAAGAGTTACAAAAAAATAGATTAAAAAGAATAAATATCGAATACATAAAAAGCAAATCAGAAAGTCTTGCAAATACTGCAGATAAAGTTTTATTACCAAACAAAAATGAAATTAAAGTTGATTTTAACAATGATGAACTATTATATATTCATCCATTATCTGGAAATAAATTAAAAAATGAATACAAAGAATTTGTAAAAAATATTAATGATAAAAAAGAATGGGAAATATATTTAAATGATTTATCTAAAATGAATTTAAAAAGTAATGAATTGTATCATAAACTTTGGTGGGATTTACCAAATGTATTGAAATACTCTTATATGTATCCAGCAGATACAAAGATACCAGATAATTCTATAATAGATCATTTAGATACAACAGCTGCAATGAGTAATTCTGAAAATATATCAATATTAATGTTATCAATAGGTCCTGTTCAAGAATTTATTGCAGCAGGAAGAAAAATAATTGATTTAAAAACTGGTAGTTATTTATTGTCTTATTTAACTTATAAAGGCATAAAGTATATAGGAGAAAATTATGGATATGATTCAATAATTTTTCCATCTATGCGAGAAAACTATTTTTTATCAAAAGATCATAATTTTGAACTTTCAAAAGAAGTTGATCCAAGTATTGCTTCATTGCCAAATGTTTTTACAGCAATACTTCCAACAAATGATATTGAAAAAATAGTAAAAGAAGTCGAAAATGAAATAAAAAATGAAATGAAAAAAATAAGTAATTATATAAAAGAAAATATAATAAAATTTGGATATAATGAAAAAAAGCGAGAAATGAATGAAAAAATAAAGTTAAAAAATTGGAATGAACTTTGGGATAAACAAGTAGAACAATTTCCAGTAATTATAGCTGTTCATCAAGATATTTCATCAAGCAATATAATAGATGAACATGTTGATTATACAAATGAAAATATAGCAAAAGAAGTTGAAAATGCTTTCAAAAATGTTATAAATACTAAAGAAATAAATAAAACAACTTTTTTCGGATTTGCTTCAGAATTAATTGGAATAAAATCAGCTATAAGAAAAGCAACAAGAAACTTTATTCAATTAAAAGAAGAGTTTGAAGAAACTGGTGATGATATATCGGCAAATAATAAAGCATTAGTATATTATAAATTTATAGACGAAGATAAAAATATAAAAACTGAAAAATTATCTGCATTAAGTACTATAAAAAGATATTTTTATAGATATTTAGAAGAAAAAACCATATATAAAAATGCTTCAAGAAAAATAAGAAAAGTTGAAAGTATAGAAGAAATAACTAAGGAATATAATATGGCTATACTCATGATGGATGGAGATAAAATGGGAGAATGGATTTCTGGAAGAAAAGAAGAAATTCCAAACTTTTTAGATAGAATGCATCCAAAGGTACAAAAAGAACTTGAAAAAATAGATAAAAATTATTATGAATTTTTAAAAAATACAAAGTATGTAATACCTTCTTATCAAAGAACTGTATCAAGAACATTAAATAATTTTACAAAGTTTGTTTCTAAAATAGTATCAAAATACAATGGATATTTAATTTATGCCGGTGGTGATGATGTTTTAGCAATATTTCCATCAAATACAGTATTGCAAGCAGCAAATGATTTAAGAAAAGTATATTCAGGATCAAGTTTAAATGAAAAAATAACCATAAAAAATAAAGAATACACCTTTAAAGATGGATGGGCATTTGAAAATGGAATACCAGTATACAATATGATGGGAGAAAATGCAACTATGAGTGCTGGAATATTGATTGCAAATCCAAAGTACAATTTAAAATTAGCCTTAGATGAAGCAAGAAAACTTGAAAAAATAGCAAAAAATAATGGTAGAAATTCATTTGCTTTAGGAAGCGTAAGAGGAACAGGAAAGTTTTCATATACTGTGTCAAAGTGGGAAGATAAAAAAGATATACTTAAAAGAGTAATAAATTTTTTTGAAACCTATTCAAAAGAAGAAAATAAGAGATCTATAAAAAGATTATCTTCAAAATTAAAAAATGAATATATTTCACTATCTAAAGATAAAGACATACAAGTATTAAGCACTGAAGAATATATAAATTATGTAGTTCCATTTGCTTTAAAGAAAAGAATGGAGTTAAAAGACACAACAATAAAAAATATAAAAGAAATATTAAATGATTTTAATGAATTAATAAAAAAAGAAGGTGGAAACTTCATAGAAATATTAAATATTTTTGATGAAGTAGAACATGCATTAAAAAAGAGAGACAAACGAGGTGAAAAAAATTGAAAAAAAGATTATTATTAGTTAAGCCTCTTGACTGGTTGGCATTTAGAACATCAAGAACCTTTTCTTCTAGTGGTGATACTCAATTTCCAAATACAAAAACATTTTATGGTGCAATATATGCAGAATTATATAGAAAAAACATATTAACTCCAAAAGAAATAAAAGACAAAATAAAGATGAAAAAATTAGATTTAACAGGGCCATTTTTATTTGAAAAAAATGATGAAATAAAAATATTATTTAGAACACCATCAATATTAAAGTATAATGAAGATACTAAAGAAACTTTAATGGGTTATATTGATGAAAAAATAAAATATGAAGTTGATGGAAAGGAATTAAATGGAATAAGATATAAAAGTATGAAAAATATAAAAGAATTAGAAAATTATTACATAACTTTAAAAGAGTTAGAAAAGATAAAAAATGGGGAATTAATTGAAAACAAAAAACCAATTGAATTACCTTATCGAATTGAAAGAAAAGTTGGAATAGAATTAGAAACCGGAAAAAGAAAAACAAAAAAGGGAATGTTATACTCTTTGAGCTATTATAGATTTAAAGAAAATTCTGGATTTTGTTTTTTTATAGAAAATGATGAAGAAGAAATATTAAAAGATATTAAAACAATACACCTTGGAACCAAAGGAAAAATAGCAGAATTAGAAATAATAGAAATAGAAACTAATCTCTTTAATAAAGTAGAAACAACACAAAAAATGGCAATATTATTAACACCAGCATATTTTGAAAAAGGAGTAATGCCAAAAGAAAATAAAAATTTAATAGGAATATCAAACTACAAACCAGAAACTATTGGATATTGGGATAGAGAAACAAATAAACCATCAGAACTTTTTAAAGTAGTGCCAAGTGGAAGCACTTATATTTTTAAAGAAGAAATACCAAAATACTTAACAGATGATTATGATCATTATGGTTTTGGAAAATATATCGAAATAAAAGGGGGCAATTAAATTGAAAGGAAAAGTAGCATTTTTATATTCAGTAACTCAATTACATGCAGGTAAAGGATTTGATTCAGGAGTTGTAGATTTACCAATACAAAGAGAAGAAGCAACAGGATTTCCAATTGTTTCTGGAATAAAAGGAGCAATAAGAAATGAAATAAAATGGGGAAGTGACGAAAAAGATATCTTTGGAGCAATGCCAGATAATAAAAATGAAGATTTAGCAGGAACTATAGCCTTTTCAGAAGCAAAAATATTCTTATTTCCATTAAGAAGTATAAGTCATGGATTTGTTTGGGTTACATGCCCTATGGTATTATCAAGACTAAAAACAGCATTTAAATTAACAAATAATAATAAAATAGAAGAAAAAATTTCAACAGTATTAAAAAATTTCAAAAACGAAGAATTATCAACATTTAACTCATCACAAGTAAATATAGAAGAATTTTTAGTAACACCAAAATATTCTAAAGAATTAAAAGAATTTTTGGAAGAATTAAAAGAAATAACTCCAGATGAATATTTATCAGATAAATTAATAAATACAACAGTTCTTTTAAGCGATAAAGATTTTATGTTTTTTGTAAAAAACTCAACAGAAGTTATGGCAAGAATAAAAATAAACAAAGAAAAAGGAGTAACCGAACAAGGTGCACTTTGGTATGAAGAATACTTACCAAATGATACCGTTATGTACTTTATAGTAAAAGAAATATTAGAAAAAAACACTTTAGAAAAATTAGAAGAAAAATTAAATGATAATTTTATAAACGTTGGTGGTAAAGCAACTATAGGAAAAGGTTTTGCATATATAAAAGTAATTTAAGGGGGATATAAAATGATAAAAACAGATTTTTCTATACAAAAGTGTGCAAAAGAAAGAATAATAATGAGAAAAGATAAAAGTTATGCTTCAACATACAGATCTTTGATAAAAGGATTAGGTTCTCAAATAATACAAAATGGACTTTATGGAACATTGGTATTTTTAGATGCAAAAAATAAAGAACATCACAAAGCCGTATCTGAAGATATAATATACTTTTTAAAAGAATCAAATATTTACACAACAAATGATCATATTTATGATTTTTTAGAAAAAGAAAACAACTTAATGTTAGCACAAGATAAAGTTTTAGAATTTGTTGGATGGTATAGAAGATTTGCTGATATATTTATACGAAATGATAAAAATACAGGGAGTGATAACTCTTGAAATATTTTAATCAAGAAACAAAAATAATAAAAAATCCAAGTTTGTACTATGATAAAAAAGTGTACAACATGAAAAATTATATTGAAAAAGAATCAGAAGAATTAGAAAAAATAATTAGAGAAATTAACCCTGGTAGAGATGAATTTGATTTATACGAACACTCTTCAAGAATTAATAGAAGCAGAAAACATAAAACATTTCTAAAAATATCCTCATTTCCAAATATAAGAGATAGAAAAAATTTTAGAAGAGAAAAAAATAAATTTACTAAAGAACAAAAATTTACTTTAGAACTATTAAAAGATGCAGAAAAAGAAAGATTATCTAAAAAATCTTTAGAAATAACACGAAAAACATATAAAAAAGTATTAGAAGAATATAATTTAAATAAATTCGATTTATCAAAACCATTAAATTCATTAAATATAGTAAGAGAAAGATTTATATATTCATTAATAAAAAATGGAAAAGAAGTAGTATCAATAAAGAAAAAATTACAAACTCCAATGCTTATTGGAATAGGTATTCCATCAATAGATGAAATAGGATTTTACTGGAATAGAAATTATGGGATTCCAACCATACCCGGAAGTACATTTAAAGGTGCATTTAGTACTTATTTTAAAGATTTAGAAATGAATGAAATAAAAGATGAAATATTTGGAACACAAGAAAGTTCTGGAAAAGTAATATTTTTAGAATGTATACCAACAGATAAAATAGAATTAATAAAAGAAATACAAACACCACATTTTGGAAAGTATTATACAGAAAATAAAGCTCCAAATGATATCTATAATCCAATACCATTATCTTATATGAGTGTTAATTCAGGTACAGAATTTAGATTTGATATAATAATAGAAAGTTCAAACGAAAAATTAAAAGAAATCCTCAACGAACACTTGGAACTATTTTTAAAATACTATGGTATTGGTTCAAAAACAAGTATGGGTTATGGTAGATTCAAGTAAAATAAAATTTATAAAATATATTTTAAAGGTGCATTAATGCACCTTTTTTTATATAAACTCCTTTTTAATGTCGAATAATAATTTGAACAAATTAAAAAAAGGAGGGAAAAAAATGTCAAATTGGTATAATAATGAATATTATTATGTAAAAAAATTGTACAACATTATTATGAAAAAGAAAGGATATATTTTACATGTAACAGAATATGAAAATTTAAAATCAATAATAAAGGAAAAAGGTATTTATAGTGTAAATAATTTAAAATGGAAAAAAATATATCCAAAATATATAACAGATAATCTTTCAAAAAAACTTGATAAAAAAAACAATACAAATGATTATGTAAAAGTAGCCTTTGATGAAAGTTATAACATGTTTTCTGCAAAAATATATTATAAAAAATTAAAAAATCCAGTAATTATAAAGATTGATCCAATAATTTTATTAGAAAAAAGCTTTAAACTATCTAATACAAATTCAACGAGTAATTATGCAAAGATAGGTAATTGCAGTGAAATATTAGATTTATTAGATTTTGATATTATATATGAAAGATACGGAATAAGAGAAAAAAATAAAAATTATATAAAATCAAAAAAACAAGCAGAAATTTTAATAAAAGATAAAGTAGATTATAAATATATAAAAGAAATTATTTTACCATATGAAAAAGATAATATAAAATCTTTTAATATTAAATTAAAAAAGGCAAATATTTATAATTTATTAAATGTTTAAGGTGGTGAAAATATGGCAAAAAGATTAATATTTATTGTTTATCCTTTAGAAAAAAAAGAAGTTGAATTTGAATGGAATCCAGGATTTTCAATTGTTCAAAAAAGAAAAAATATAGAATCATTACATAAAAACGCTAAAAAAATTGGAATAAATAAAATATTAGAAATATCTTCAAAATCAGAATCACAATTAGGAATACAATTAAGTGCATTTAATTTAAAAATAAGAACTTCAAAAGGAAGGTTTCATTTAGAAAATATTTTTCAATCTAGTAAAGTTTTTGAAAATGGTGGTCCTTATAATGATATACTATATTTAACTTCAAAAGATGCTAAAAAAGATGAAAGATTAAAAAGTTCAGGTAAGTTAAGATACTTTAAGTTTGATGGTGAAAAATGGGATCTAATTCCAATAACAGCATTTTATGATTATTTATATTTTAATGCATTATTAGAAAGTAATATTGATTTTGATTTATTGTTAGAATACGAAGCATTTAGCGATATAGAATTTAATCATAAAAAATCATATAATTGTCAAGCTGAAGCACTATCTAAATTTATGAATCTATATAAAAATCATAAAATTCCAAAAAAATATTTTAATGAAAAAAGTATATCAAAAAATAATTTTTTTAAATTAATGAATTATGATAAAAAAACCAAAGATACTCTCAATAAAACTTATTTATTATTTTAATAAATACTTTATTCCCTCTTTAATATATATTTAGACTTTTAAAAATGGACTAAATTATGTTAAAATATATATAGTTATAAAAAAACAGGGGGAAAAAATATGATATTTAATACTTTAAAATCAGAAAAATTAGAAGAAATTTTAAAAAATTTTTTTAATTATGTAGAAATAAACTTAAAAGATATAAATCCAAAACTTTCTAATAAAGTAAAAAAATCAAAATTTAAATTTAATAATGAAAGAAATTTATTTAATGAAAGTATTGAAATAGGGAAATTATATGATATAGAATTTATTTATGATGAAAAATCAACTTCCATTTTTAAAGATATTGCAATTTTATTTCCAGACGAAAATGGCTATTATTATTCAGGTTCTAAAAAATTGTATTCTCCTTTTGTTATTTTTGATAAATATTTAACGAAAGAAGATGAAGAAGAAACTGTAGAAGAAAACGAAGAAACTGTAAAAATTAACGAAGATAAAAAAATAAATACTGAAATAGATTTTGATAATTCATTAATAATTCCTGGTTATTTTTTAGCAATATTCTCTACTTTTTTAAGAATTGTAAATGCGAAAAGAAAAAAAAATAAAGATGAAAATGATCTATTAGGAAATTCAATAAACAAACTTATAAAAACAACAGGAGTTTGGTTATACAAATATGATGTAAAAATTAAAAAAAAGATAAAATCAATTTATGTAAAAATCCCTGTTTTTTTTGAACCATATGACTTAAATTATATAGAAAAATATACTAATCCAAGAAAAGTTGTTTATCCAAATGAAAAAGTAAATGAAAAATTAAGATTACCTAACAAAACACACATTGGTATCGTTGATATGCTTGAAACCCCTGAATCCAAAAAAATAGGACTAACTTTAAGCTTAATTGATTCTGAAAACTTAAAATATGATTTTAAAAATTTTAAATTTAAAAGAGACAATGAAAATATATTATCATTTGCAACAAAACAAATTCCTTTTATTCTTCATTCAGATGGTGCAAGAATATTAATGGGATCAAAAAACTTAAAACAAGCTGTAAAAGTAAAAGATGCTGAAAAGCCCTTAATTTCTACAGGAAATGAAAAAGATTTTATAGGAGTTAACGCTTTAACAATTTATGGATTATTTAAAGGATTTAATTTTGAAGATGGAATAGTAGTATCAGAAAGTTTTGCAAAAAAAATGGAAACAACTTTAATAGAAGAATCAAAATATATTATAAAAGATACTATACCACTTGACAAAAACCCAAAAATTGAATCAAATAAATGGATTTATAATGCTGGTGAAAAAAAATTAGTTATAGAATGGGAAAAAAAAGAAGGTGATTGGGTTTATTTTAATGATATTATTGCAACCGTTAAAAATAATAAAGAAATAAGATATGAAGGAAAATATCCAGCACAAATAAAAAATATACCTAAAACGCCTGTGTATCCATATAAAAACTATCAAAACAATATTTTAATTGAAATAAGAATTCAGTACTCAGTAAAAAAAGAATTGAATATTGGTGATAAATTAATGGGAAGACATGGAAATAAAGGAACTGTATCGAAAATAATCCCTGATAATGAAATGCCTAAAGTCTTTTTTAACAACGAATATAAAAGTGCAGAAATTATTTTAAGCCCTTTGGGAGTTGTTTCAAGAATGAATTTAGGGCAATTATATGAAGTACATGCTTCTATGGCACAAAAACATTCTGACTTCAAAAAATATGAAAATGGAATTGATCCATTAAAAACAGCTTATGAAGATAAAGATGAAATATTAGAATCTTTAAAGAAAATAGGGGCTGATGAATACGGAAGATTTAAAGTTGAGTACGAAAAATATACTTGGTATTTAACAGCTGGATATCAATATATTGTTAGATTAGATCATTGTGTTAAGGATAAAATTCATTTTTCAGCTATTGCAAAAGAAGGTATTTTATCTTATCAACCATTAAAAGGAAAATCAAGAAATGGTGGGCAAAAATTTGGAGAAATGGAATTTTGGTCTATGTATTCATATAATAATGAAAAATTAGTAACCCTTTTTTCTGAAAAAAATTTGAATAACAAATATAATAAAGGTAATAATATATATTCAAAATATCCTGAATCTTACTTTAAAAAATTAATAAATGGATTTGATATTGATTATAAAATAAATAAAAATTTAAAATCAGAATTTTTTTGTACTAAAAATAAAAATAAAGAATTATTAGAATTTTTAAATATTTATCAAAAAAATGAAGTTGAAAATTATTATCAATACCTTGTTTTAAAAAAAATAATAAATAAATTAACAAAAAAAGATATACAAAAATATATACTTCTACTTTTAAAAGAACAAATAAAAAAAGAATTAAAAAAAGAATTAAAAAATAAAGTAAAATTTGAATTAGATAAAATTATGAAAAAAATAGATGAACCACTAAAAGAATTTGTTGTTGATAACTTCAAAACCAACGAACACATAATTAAAATATTAAAAAATAATATTTCTAATGAAGATACTTTAAATAACCTAGAATCTATATTAAATAAAAATTATGAAGAAAAAATATTCAAAAATATAGAAAAAGAAAAAGCTATACTTACAAATAAATTAAAAAAATATTTATTTGTAAAAAATGGATACTTGAAAAAACTAGTTATTGCAAGAAGATTACACTATTCAGGAAGAACAGTAATAACTCCACAACCACTAACTTATATAAAAGAATTTGACTTAAAAATGGATATAGATACTGTATTATTACCAATAGAATTTGGAATTGAATTTATAGATATACAAAATAAAAATATTTTAAAAGCTAAAAAAGGAGATAATAAAAAAAGAATTGAAATAGCAAAAGAATTAAATAAAAAAGTTTTAGAAGAAGAAAAATATGTACTATTGAATAGACAACCATCATTATTTAGACACTCTATACAAAGTTTTAAAGCAAGATTTTGGAATAATTATACAATAGGATTACCAATAAATGTTTGTGAAGGATTCAATGCTGATTTTGACGGTGATACAATGGCAGTATATTATCCAACTGAACAAGAAATAAATGAAATAGAAAAAATGCTCCCTTCAAAAAACCCTTTAAAAATAAGTGAAGGAGAACTAAGTTATTCAATAGATCAAGATATGATATATGGACTCTTTTTATTAACAAACAAATCAAAATCATCTATAAAAAAAGACTATGTTAAAAAAATAAGAAAACTTTTAGAAAATAAAGAATATAAAAAAATAAAAGAAATGATAAATAAAGAAATATTGAATGAAGCATTAAAAAAAGCAACAGAAGAAAATTTAACCCTTAGCATTTTTGAAATTGATAACAATACAGAAAGCATGAAAAAAATAAGAAATTCAAAATGTAGAGGAAATGATGAACAGTATATTCAATTAAATCAAAAAATAAAAGACATATCTGATGATAAAGGATTTGTGCATGGTATAAATAAAGAAATATACTTTAACCCAGAAAAGGGAATAGCAAAAAGAGCAAGAAGAACCTTAATGGATAAAAAACTTCACGTTGCAGATGCTGGATACTTTACAAGAGTTTTAGTTGAATTTCTTGGAACAATAAAAACAAAAAAAGAAATAGATGACTTCATAGAATACGAAATTGATTTAAATGAACTTAAAGAAGGAAAATATGGAAAAGAAAAATTTTTATATAGATATATAAAATATAATAATAAAAAAATATTATTAACCCCAAATGAATTAGAAAAATTACCAAATAAATTTATCTTGTTATCACCAAAAGTAATCGAAATAAACAATAATTATTTTGTTAGCAGTAAATATTGTGGAAAAGATATATCAACATTAAATGATTTTACAAATGATTATATAGGAATAACAGCAGGACAAGTTTTAGGAGAAAGAGGCACACAACTTTCAATGGAAACTTTTCACTCTGGTTCAAAATCACTACCTATGGCAACTGTTAAAACTATAATATTTAAAGAAGCATTTAAAAAAGATACATACTTTGATTTTTTAAAATCTTTGGATAATAATGAAGAAATTAAAGAAAAAATGGGTATAAACAAAGATAAAGATAAAGACAAATTTTCTTTATTAGAAAAAATAAATCCAAATTCAATTTATTTTGAACTTTTATATAATTTTGCTCAATATTTAAAAAAAGAAAAGAATATAGATTCAATAAAAAAATATTTATCAAATATTGATATAAGAGGTCCTTTAACCTGCATGAGCTTTGAAAGTGGCCTAAATGTTTTAGAAAAAATTGAATTAAATAAAGAATATATTGAAACACAACCAAGAATAAAATATGCATTTTTTAGGAGTGATGAAAATGAATAAAAAAATCCACTTACAGCAAAAACAAAAAAATCAATTTTTAACTAAAACAAAAAAAACAGACTTTAATTATATAAATATCAATGGAAGTTCTATAGAAGAACAAGAAGAAGAAATAAACGAAGATGATTATAGTAACACTGAAATTTCAAAAAAAGCAAAAGAGGAAAGAAATTTAGAAACTGAAATAGACATACCAAAAAAAACTATAACCTTTAAACTATTAAAAACAGATGAAGAATATGTTTTAATAAATTTAGGAAGTATAAAAATAAAAGATGATAAAATAGGAAAATATGAAAGTTTAAAAGAAATATTCAAATCCTTTTTAGTTATTGAAAAAGTAACACCAGAAAAATTAAATGGATTAGCTATAGATAGCAGAAATAAAAATGAAAAATATTTTATGTTAGATAGAGATTTTATAACTTATAAGAATATTGAATTATTAGATGGATGTGCCTATCCACTAAGTAATCTTACTAAAAAAAAGAAAAAAGAGGAAAAAAATGAAATTGAAAAAAACAGAAAATTTAGAAAATTCATATTAGATAATAAAAAATTAATAGAAGAATTTTTGAATAAAAAAGATAAAAAAGATAAAAAAATTTCTTTAGATGAATTCATTAAATTACTTTCAAATTGGATATTTTTTGAAGATAAAGAAGAAGATAATATAAGAAAGAAAAAAGCCAAAGAAAAAAAAGCAAAAAAACTAGAACTTGATATAAAAGATTATAGTGAATCTAAAGTTGTATTAAATACATTAAACGAATATATGATTTTAGGAGGATTTTAATGATATATATAGAAGAAGAATACGAAGATTTAATAAAACCAATAAAAAATTATTTAAAAAAACAATTTAAATCAAAAGAAGAAAATATAGATATTAGCAAATTTTTTACAAAAGAGTTTAATAAATGTACAATTTATATTGGAAATATAGATAAATATAACAAATACAAAGAAGAATTTAAAGAGATTGAACCTAAAAAAATAATTTTAATCATAGATAAATATTTAGAAAAAAATATTTTAGAAAATTTTTTTAATTATAATATTATAGGAGTATTTAGAAAAAATAAATTAAATACTGAATATGAAGAAATAGGTAAACTTGAAAAATTATTAAAAAATGAAATTAGAAAGCTAACTTATACAAAATTAGAAAAAGAAGATAAGTTTTATATTAAAAGAATTGCTTATAAAAATATTAAAAATTGGAAATTCAATCCAGAATTCGATAATATAGAAGAATTTTATAGAAAAAGAAAATATATTTCTATATTTTTAGACATAACTATGCAAAAATTTTCAAGACAAATAAGAACTATTTTAAATGATTTTTATGAATTTAAAGAAAACTATGAAAATACTAAAGAAAAAACTTTTAATGTTTTTCCTACTCTTTTAATAGAAGGAGAAACAGGAACTGGAAAATCATTAATTGCTGATATTATTTCTGATAACCTTCTTTTTGGAGAAACAGCATACAAATTTTCACTTGTAAATATAGAAAAAAATTTAATTGACTCAGAATTATTTGGATATAAAAAAGGCGCTTTTACTGGAGCAGATAAAGATAAACCTGGAAGAATAGTTTCTCATAAAGAAGAATTAATATTCTTAGATGAAATATCAGAAATACCCATAGAAACACAAACTAAATTATTATTATACTTTGATGATAATAAAGTTTTACCAGAAGGATCCGATGGAGAACCAGAATACGCACCAGCTTTTATAATATGTGCAACAAACAAAAATATAAAAGAAGAAATAAACAAAGGTAATTTTAGAAGCGATTTATACCACAGATTTAAATATAAAATAAAAATACCATCATTAAGAGAAAGAAAAGAAGATATAAGATTTTTAATAAATTTTATACTATTAAATCCATTCATTAATAAATATGATAAAGAAAATAAAATTTATAAAGTAGATAAAATCTCGCTAGAAGCCATTGAAAAACTAGAAAATTATGACTATCCAGGAAACTTTAGAGAACTAGAAAGTATATTAAGAGAAGCCTTGAATATTGCATATTTTGAAAAACAAGATATAATCTTACCAAAACATATAAATATATAAACAAATAAAAATAAATGTGTTATAATAAACACGAATGTAAAGTTTCCGGAACATTGGCAAAAATAAAAAATCGCATAAATAAAGGATTTGAGCAAAACAGGTTTGGAACTAAGTAATAATAGGTATTACAGACGAAATGGTGGTAGAAAATGAAGATAAGAAAAATATCACAAAGAGGGTTTGGAAAATACGGTATTGAAAGGTACTAATAAATAGGCATTCAAATGCTAGCAGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACTTTTCACCTTCATTCATTGCTTCTACTATGACTTCTAAGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACTTGGATCTCTTCGAGATATATATTACCATGTTTTCACCTGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACGGGTTCTTTGACATATTAAGAACCCTAATAAGGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACATCCAACCATTTCTGTCTATTGTTATTTCTTTTTCATCTAGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACGGGTTCTTTGACATATTAAGAACCCTTACCAATTTTACTGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACCATTAATGCTATAGCATTTACAAGTAGATCGATTACTCGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACAAGTTTGGATAGAGCTATTTTTAAAATTTCTTTATCCATTGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACTGCATCTGCTTCCATTTCTTCTACTACTTCTTTCATTTCATGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACACTTCATGTTCATCCATAACTTCTGCTATGACTTCTAAATGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACTTAGTAATAAGTTTGTTGCTATGAAAGTTAGTACTCCAGGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACGCCATAACGCCAACAACAACTAAACTACCAACAATAACAGGTCTGAAAGATACTCTTCCCTGAAAGGGATAATAACAAAACATTATCAGCTGGTGTTAATGTTCTTACTAATTCTTGTCTGAAAGATACTCTTCCCTGAAAGGGATAAGCATTTTCTTCAACAACTTTATGGAATTTTATTTTTTTATTCTTTTCTTTTTCTTACGATCATTGATCCTTTCAAAATTCTTTTATTCTTCTTTTCTAAATTTATCCTTTAATCTTTTTTATAAAATATTTTTAATATACTAAATAAAAGAAAGATAAATCTTTATTTAGTATATTAATGTCGAATAACAATATGGATAGTACATAAATAAAAAGTGAGGTGAGAAAATGACTTCAGGTTGGAAAAAATGTCCTAATTGTGGGGAAGAAGTACGAGATTATAACAGAAAATGCTTTAATTGTGGATGGATTTTTTATAAAAAAAAATGTCCTAGATGTGGAAAATATATGGATGATAGTACAAAAGAATGTCCTAAATGTGGATGGTATTTTTATTGGAATGAATATATCGGAGAAGATGATGGTTGTTATGAAAATTATGAAGATGATAATGATTACGAAGAAAATTATGAAAATGATTGGGATTTTTTAACTGATTTAGCTAGTGATGTTTCTGGTATAGATTCAGATTACATTGGAAATGCTGGAGACATTCTTGATGATTATGGATATTAATATTCTTTTTATTCTACCTTTCTAAATAAATCTAAACTAATGTCGAATATTAACTTAGGAAACACTAAATTTATACTAATTTATAAAAAAGATAAAAAATAATTTAAAGATATAAAAAAATATCAAAAAAAATAAGGAGGCGATTTTTTATGAGTTTATTTAAAGTTTTAGGAGGTATTGTAATTGGAGCAGGCGCAGTAGCTATAGCACCATTTACTGGTGGCGGTTCTGTTTTAGTAGCAGGAATAACTTTAGCTAAATCACTTGCAGGTGCAGAGGCAGTAGCTGTTGGTGCTGCTGTTATTGGTGCTGCTGGTGCTGTAATTTCTGATATGGACAACGATAATAAAATAAATTCAGCTTATAAGAAAGGCATCGAACAAGGAAAATCAGAAAATCTTAGTGAAATGGAAAATTTAAAAAGCAAACTTAAAAAAGCATCTAAAAGATTTAAAGAATACAAAGAATTTGAAAACTATTTGTTAGCTTGTTATGCAGTAGGAATATCTGTAGCTTGCTGTGATGGGGATTTTTCAGATGCAAAAAAAAATACTTTAGAAGAATTTATACAAGGAGTATCATTTAAAAATTATCCTATAACCTTTGAAAAAACTATTCAAATTTTATATAATAACCCTCCAACTTTTGATGAAGCAATGACATTTGTAAAAAAATCGAATGCAACTGACTTGTGTGTTTTTACAGATATTATTGATATTATTATTGCTTCTGATAATGTTGATAGATATAAAGAAAGAAAATATAGAGAAGACTGGGAAAACTTTATTTCTGCATATATAAGGAGTGATTGTAATGAGTAATCGAACAGATAGATTTTTTAAACGAAAAGAAAAATTACAAAATAAAAAAGAATTATATATCCCTACAGATAGAGAATTAGTTATTCAATTAAAAAATTCTAATGTAGATACTGAAAAAGTAAATAAAATATTTGAAATGCAAAATGAAAAGTTTGATTTTTCCTCTAATGATGAAATGAAAAGTTCTGCTAATGAAATACTTGCAGAAATAAGAGGTAATTTTGATCAAGAAAAATTTGATAATTTAATATTTAGTTTGAAAGAAAAAGTTTTAGATTCAATTATTAAACCATTTGGATTAGAAAAAATATTGTTTGAAGATAAAGATGGTGGAAATATTACAACAGAACACAATTTTAAAAAAGGTATCACTTCTACAGAATTTGATAATAAAAAATATAACGAATGGCAAAAAAACAAAAATAATAAATTTGATAGAAAGCCTTATGAAAAAGATTTTTCAAACAAAAGAAAAGAAATATTTAACTCTGTAAACAAATTAAAAGATGGCTATACTGGAAAAGAAATACCAAAAGATGGAAGAAGTCATTTAGATCATATTACTTCGGCACATGAAATAGAAATAACATCAACTAATAATCTTTATCTTACAAAAGAAAAACGAATTGATATGGCTAATTCAAATAAAAATCTTACAATGACAGATTCTTCTTTAAATCAATCAAAAAATAATCATGATTTAATGGTTTGGTCTACTAAAACGAACTCAAAAAATAATAAAATAACAAATACAGAAAAATATGATTTAGATATAGAATTAGTAAATAAAAATTATAATGAATCAAAAAAACACATTAATAAGACTGTTAGAAATGCAAAAATAAAAAAAAATGGAACTGAATTATTAACAACTGGTGGAAGAGAAGGTATAAAAATGGGACTCCAACAATCATTGGGAATTTTGATCAAAGAATTTACAGAAGCACTTTTTGTTGAAATTAAGGATATTTATAGAAATGGATTAAAAAATGGTAGATTAGATAAAACTTTTTTAGAAGCAATTAAAGATAGATTGCAACGAATTTCTAAAAAAGTATTATCTAAGTGGAAAGATCTTGTTAGTACTTTTAAAGATGGTGTAATTAGTGGATTTTTCTCAAATCTAATTACTTATATAATTAATACATTTTTAAGTACAGGAAAAAGATTTGTTAGGATTATTAGAGAAGGATTTTTTTCATTATTAAAGGCAATAAAAATTTTAATAATGCCACCAAAAGGCTTTACATTTAAACAAGCTGCTCATGAAGCAACAAAATTAATATCAACAGGAGTTATTGTATCAGGAGGAATTTTAATTGAAGAGGGAGTCGAAAAATTTTTACAAACTATTCCTGGTTTAAATATCTTTGCACAAATAATTTCACCTGTTATTATTGGAATTATTACAGGACTTTTATCTGTTTTAACTATTTATTTTCTTGATAAAATTGATCTCTTTAAAGTGAACGAAGAAGCAAAACATGAATTCGTTATGAATAAATTGGAAAAAAGGATTGAAGAAGTTTTAGAGGAATCAGATAATCTTTATAGTGTATTTGAAGTTTCATAATTAACATAGAAGATTTAAAAACTGATCTTTTTATCCGATTTTTAGCATACTTCTAAAATAATAAAAAGACCATGCTGTCAACTAAATATAATAGAGGATACATACGAAATCCACTGGCTAACCGCAGTAGAATAATTTTGTACCAAGTGCAAACTACTAAGAATCAAAATACTCTTGTAAAGTTGGAAAATTTTACATATTTTAATAACCTAAAAAAGTTTTAAATAATGATTTATTAAATAAAAAATTAAGAATGTATAAAGATGATTTCTATATTGAACAGGAGTCATTTTTTAATCTTTATTGAGGTCTAAAATTATTGTAATAAAAGATTTAATCTGCAAAGAACTATTTTTATAAAGTATTTTATTAATAATGTCGAATATTAATTTAGAAACACAAAAATAAAAAATAGGGGGAAAAAGTATGAAAAAATTAGAAAATGTTTTAGAAAGAATAGCTAACTCATTAGAAGAAATTTCTAATTCATTAAAAATTACGAGTAATTACAATACTCAAAATATTATTTTGAAAAAAGAAATAATAAAAAATGAAGAAAATATAATAGAAATACCAAGAAAAAATGAAATAGAAGAATTTTTAAACTCTAAAAATATTCAAATAAAGACTTTAAAACCAGAAAAAAATGAAGAAATATTAGATAACATAGCATATTTTATGGGTGAAAATTTTGAAAGTATAGAACCTATACTTAAATTATTAAAAAGAAATATAAATAGTTCTAATTATATAAATCTTGATATGAAAGATTTTACTCAAAGATCTATATCTGATATAACAAATTTATGTAATAGATTATATGAACTTACCTTTTTAAGTTCTTACATATATAAAAAATCTCCAAAGTATAATCTTACAGCAAAAGTTAATAAGATACCAGAAGCAATAAATTTTTTAAATGGAGAATGGTTTGAACGTTATTTAAAATTAAAAGTTATAAAAAGTTTAGAAATGAACAAACAAAACAAAAAGATAAAATATTCATATATAAAAAATCCACAAATAATATTGCCAAATGGTGATGATTTTGAATTAGATTTAATGTTTAAAATTGATGATGAAATATTTTGGATAGAAGCAAAAACTGGTGAATATCAAAATTCTTTAAAAAAATATTCCAAAATAAAAAAAATGTTAAATTTAAAAAGAAAAAATGTTTTTGTTGTTTTGACAAAAAATTTAGAAGATAGAATGAAAAGTGCTTTAAGCACTATGTTTGATATGAATGTAATAAACATTAAAGAATTTGAAAATAAATTTTTAAATAATGTTCTAAACTTAAATGAACATGTAATAGATGAAAAAATAATAAATATTTAATAAATAAAATAAAGTAAATAGATGAAAAAATATTGGTAATAGGAGTAAGTATAACAAAGAAACCTAATTAGCAAGAACATTTGATAAAAAATAATAAAGGTGGTGATTTTTTATGAATTTTAAAAAAAATAAAAAAACTAACTTACCAACAAAAACATCAAAGAATATATCAGTAGGAATACCATTAAATTTTACACAAGTAATTACAGAAATAATTAATGCTTCATTAGATTATCAAAAAATTAAAGAAGAAGAAAAAACTAAAAGATATATGATTGAAAATCAAACAAAAATAAAAATCGAAGAAATTAGAGCAAAAAGAGATATATTTATGAAGTACATAGAAGAAAATTATAAAGAAAGATATAGAGTTTATGATAAATTTTTTAATATTTTAGAACTCGGTTTAGAAAAAAACAATACACAAGCAATTGAAGCAGCTTTGAATGGAATAATTGCTCAAATAAGAACTAATCCTTTTGAAGGTTTTCATGATTTCAAAAATAAATTGAGTGATGAAAATTATACAGCAGAATTTTAAAAAAATAAAAAAGGAGGGGAATAAATATGCCATTACCTTTTATTTTAGCTGCATTAGGTATAACTGGTTTTAGTGTTGGAGTGGCTAGCTTAGACGAAATGGAGGAAGCAAAAAAAAAAAAAGAACAAGCAAGTAATTCGTATGAAGATAAAAAAAAACATTTTCATAAAGTTGAAAATAAAATAGATAGAAAAGCAAATAGGCTTACAAATTTAAAACGTGGTGTATATAAAAATAGCATATCAAGATTTTTAAGACTATATAGTTATTTTCAAAACATAAATGAAAATAAGCCAAACTTAAATAATAAAATACCAACTTTCAGAGAAATAAACGAACTAGATTATCAAAGAAAAACTTTTATAAATGAAACAGATGCAATAATAAAAGCAATAAATGGAGGAGCATTAGTTAGTTTAGGAACATATGGAATAATGAACATTATGGGAACAGAAACATTAAGCATTTTATCAGGCGCAGCTATTGGAGAATCTATCGCTGGTACAATAGGATCGGTATTGTTAGGAAGTGTTTTACTTGGACCAGCACTTGCAATAGGTGGAATCATTTTGAGTTCAGAATCATCAAAAGCAATGACTGAAGCAATAGAATATGAAAATAACGTTAAAAAAGCAAATGAAAAAATAAATAATTCTATTGAATTTTTGTATGCAATTGGTAGAAGAATAAAAGAATTTAATTATGTAATAAATAAATTAAACGAAAGTTTAATAAAAAGTATGAATGAAGTTGAAAATATCCATCAAAAACTTTCAAATAAATATAAATATAAAAATATACCTATAAGATATAAAGAATATGACTTAACAGAAGTTGAAAAAATAAAAATATATAACATGTTTATAATAGCTAAAGCTTTAAAAGAAGTTTTAGAAACACCTATAATAAATAAATCTGGAAATATAAGTAAAAAATCTAAAAAAGTAGTTTCAAACATGAAATCTGCTTTAAATACTACAATTAATAATTATAAAAGAATTAATAATACTACAATAAAAAAAACTAATAATAATAATAATAATTATAATAAATCATTCGAAAAAAAACCAACAATAGTAAAATCAATGTCAATAAAAGACAAAAATAAAAATAATCTCATTATCAAAAAAAATAACAAGAATACTTTACAAACAAATTCAAATACACACATCATAAGTTATACAAAATTATAAAAAATAATTAATTAAAAATATCTCTTTCGTTGAAAGAGATATTTTTATTAAAAAAACAAAAAAACACTTGCAAAATAAAAATAAATGTGTTATAATAAACATGAATGTAAAGTTTCCGGAACATTGGCAAAAATAAAAAATCGCATAAATAAAGGGTTTGAGCAAAATAGGTTTGGAACTAAGTAATAATAAGCATTACAGACGAAATGGTGGTAGAAAATGAAGATAAGAAAAATATCACAAAGAGGGTTTGGAAAATACGGTATTGAAAGGTACTAATAAATAGGCATTCAAATGCTAGCAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTTTCTGTTTGAACTAAAATTAAAACCATATTTTTTGTTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTAGCTAAGCTAAGAACCTTAATTAGCTTAATCAATTCGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACGTATAATTGGCAACCTCCATGTCATTTACTTTGGGTAGAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTACTTGCCCCTTATCTCATTGTTGTCCAACCATTTCTGTCGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACCCTTATTAACTTAGTTACTTCATGTTCATCCATAACTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTACTTGCCCCTTATCTCATTGTTGTCCAACCATTTCTGTCGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACCCTTATTAACTTAGTTACTTCATGTTCATCCATAACTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACTATTCTACTCTTTTTTTCTGGAAGAAATATATCTCTATGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTAGATATGAAACATTTCTAAGTGATTGAATTTGAATCCTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACCTGGGTCAATGAAACTAACTAGACCCAAAAAACTTCCAGATGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTTTTCTTCATCATAATATCTATTAACATATTATAGTCGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACATCTTCCTCCCAAAATAAATCATAAATTTCTTCTCTAATGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTAATTTGAGAACAAGCCTTTCGGGCTTGCTCGAAAATATGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTGCTATCTTAATTTTATTTGTAAGTTCTTCAGATAATTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACATAAATAATTAAAATGTATACTTTGTCGAATAGTTCGAAGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTGTATACATATCCTTCATTTACTTTAATTACAAACTTTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTTCAAATGTTTCACTGAAATACATATAACCATCAATAGCGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACTAATTTGAGAACAAGCCTTTCGGGCTTGCTCGAAAATATGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACACTTACATAAACTTTATTATCTATTATTCTCATACCTTGTCTGAATGCTACTCTTCCCTGAAAGGGATAATAACGTGCCCTTCGACAAGCTCAGGAAACGTTTATTTTTTTTTTAATACTTCTACTTTTCTTACGGTCATTGAGCTTGTCGAAATGTGGTCATTGAGCTTGTCGAAATGTGGTCATTGAACATATCAAAATGACCTTTTTTTTATTTTAAAGAAGATTTGATATAATAACATGTAAGGATATAAAAAGAGGTGATAAAAATGAAAAAAAGGCTTCCAATAGGAAGAAGTGACTTCAAATCTTTAATTGAAGATAATATGTATTTTGTAGATAAAAGCTTGTTAATAAAAGAAGTTATTGAAAGTGGCGATGTTTTATTAATAACAAGGCCAAGAAGGTTTGGGAAAACTCTCAGTCAATCTATGATGAAGTACTTTTTTGATATTACTCAAAATAACGAACACCTCTTTAAAGCTTTAAAAATATATAAAGAAAAGAACATAATAGAAAAACATTTAAATAAACATCCTGTTATATACATCACCTTTAAAGATTTAAAGTCCAACAACTTAAAAAAGATGCATGATTTATTAATTTCTGAACTTTCAACTTTGTATATAGATCATAAGTATGTTTTAGATGTATTAGATGAAGAAGAAAAATCAGTATATAAATCAATAACCTCAAAAAAAGCAAATGATTCTGAATATGAAAATTCTATAAGAAACTTATCAAAGTATATGGAAAGATATTATGGTAAAAAGGTAATAATATTAATAGATGAATACGATACTCCTATTCAACAAGCTTACTTACACGGATACTATGATGAAATAATATCTTTAATTGGTAACTTATTTGGCATGGCATTAAAAGATAACGTATATCTTGAAAAAGCAGTTCTTACTGGTATAACAAGAGTTTCTAAAGAAAGTATCTTTACTGGTGTGAATAACTTAAAGGTTTCTACTGTATTGAATGAACTATTCAATGATAAGTATGGTTTAACTAAAGAAGAAGTAGAAGAAACATTGAAGTATTATGATCTTGAATATGAAGAAAGTGAAGTTATAGATTGGTACAACGGTTATAACTTTGGTGGTGTTGAAATTTACAATCCTTTTTCTATTATAAACTTAGTAGATGAGAAAAAGATAGGACCATATTGGATGAATACGAGTGGGAATTATTTAATAAGAAAGTTAATAAAAGAAGGAACTGTTAATATAAAAGATAGTATAGAAAAACTTTTGAATGGAGAAAAGGTTGAAAGTAAAATAAATGAAACTATGGTTTATGGTGATTTGCACATAAATTCAAATGAATCAATATGGACATTGTTTTTATTTAGCGGTTACTTAAAATGGATTAAAGAAACAAAAGAAGGTTATAGAAGATACACACTTGCTATTCCAAATAAAGAAGTAAGAATGTTTTATGAAGATACAGTGTTATTAATGCTTGAAGAAGAAAATATACAATTAGATAATATACTAATAAACTTAATAAATGGACATATAGAAGAGTTTAAAGAAGACTTTCAAAAACTAACAATGAATACATTGAGTTATTTTGATGTTAGTGGAGAAGAACCAGAAAGGTTTTATCATGGATTAATACTTGGAATGAGCGTTGGATTAAAAGAAAAGTACATAATAAAGAGTAATAGAGAAACATGGCTTGGAAGAGCTGATGTTATATTAATTCCAAAAGATAAAACAGATAAAGGAATAATAATAGAGTTTAAAAAGTTTTATAAAAACGAAAAAACACTATTAAATAGCGCTCAAAATGGATTAAAACAAATAAATGAAAAGAAGTATGAAGAAGAGATAAAAAATTATGGTATAAATGACATAATAAAAGTTTCAATAGCTTTTGACAAAAAAGAGGTTGAAATTGTTAGTAATTTGGATAAAGATACTGAATTAACAGAAATGGAAAAAGTAGCAAAAGGAATGTTAGAAAAAAAGTTAGATATAAATATGATTTCTGAATTAACTGGTATTCCAATAGAAAAATTAAAAAATATGTATAATCATTTATAAAATAAACTTGAAAAAGATAAAGATGCATTTTCAAATGAAAATGCATCTTTTTTATTTATTTATTTGTTTAATGTCGAATAACACTTTGAAAATATAATTTGGAGGTGTATTAAAAATGTTTGAATTTTTTATTGGTATAGCATTAGGAACATTGTTTTCAGAAAATTTAAAAATATTTATAAAAAAAATATCAACTTCTAATGATGAAAAAAGTAATTAATTAAAAAATCTTGAAGGGAGGAGGAAATATGAAAGTATTAAACATTTTGTTTTAATAATATACATAAGTTTATATCCTTTAAATACTACTAAAACATATAAAAATTAAACTAAAATATTTCCAAAAATGCAACAATGTTTAATGTATAATAAAAGTAAGCCAGGAATACAATTGAAAAATGGGCCAGGAAGGAAAAAATATGATAAACTCTTCTCAGAGAACAAGAGAGGAGTTGAAGGAAGGATGATAAGATTGGGCCAAAAAAGAGAAATAATAATATTATATTTTAGAGAAAACAAATCAGAGATAAGCAGAAAAACAGGAATTAACAGAAAAACAGTAAATAAATATATAAATGAATATGAAGATGCATTAAAAGAATTTGAAAAGGTAGAAAGTAAAAAGAGTAAAGAAGAAATAATAGAAATTATAACAGGTAAACCAAAATATAAAGTTTCAAATAGAAAACCCAGAAAAGTCACAGAAGAATTAAGAATTAAAATAGAAGAGTTAGTTAAAGCAAATGAATTAAAAAGGCAAAAAGGGTTGAGAAAACAAACTATGCCAGTTACTCAAATGTATGAAATTATTCGAGATGAAGGGTATGAGATTAGTATAGGAACAATATATAATATTGTAAAGAAATTTAATACAAAAAGAACTAAAGAGGCTTATATAAAACAAAGATATAATCCTGGAGAAATTGTTGAATTCGATTGGGGAGAAGTTAAGTTAGAAATAAATGGAATCAATAAAAAGTTTCAAATGGCAGTATTTACTTTTGCATATAGTAATTATAGATATGCGTTATTGTATGAAAAACAAAATATGGAGAGTTTTATAGATTCACACGTAAGGTTTTTTGAACATATTGGTGGTATTAATAAAACTATTGTATATGACAATATGAAAGTTGCAATAAGAAAATTTGTAGGGCATAACGATAGAGAGTTGACAGATGATTTAACTAAATTATCATTATATTATAAATTCGATATAAGGTTTTGTAATGTGAGAAAACCAAATGAAAAAGGTCATGTAGAAAAGAGTGTCAATGTATTGAAACAAAGAGCATTTTCAATAAAAGATAAATTTAAAAATATAGATGATGCAAATGAATTTTTGAGTTCAAGAGTCAAATATTTAAATGAAAATATGAAAAACACATCAAACATTAGCCCTTTAAAGTTGTTAAAAGAAGAAAAAGAATATTTAATATGCAAACCACCAAAATATGAATATTCAATAATAAAAGAAGTTTATGTAGATAAATATTCAACTATAACTTTAAATAACTGTCATTACTCGGTACCAGTAGAATATACTAATAAATGGTTAAAGGTTAAGTTATATCCAGAAAAGATAATAATATATGATGAAAAACCTATTGCTACTCATAAAAGGTTATATGGTAATAATATGTGGAAAATAGAAATAAATCATTATTTATCATTATTAAAAAGAAAACCTGGTGCATTGCATAGTAGTTTAGCTCTGCATCAGGTCCCACAAAAAATAAAAAAAATCTACAATAACTATTTTACCACAAAACCAAAAGAATTCATAAACTTATTAGAGTATATGTATAAAAATAATTTAAGAATAAATGATATTGAAGAAACAATTGAAAAGTTAGAACGTATAAGTCCAAAAGATATAAGCGCTACAAAAATAAAGATACTCTATGAAAATAAAATTAATAATAATCAAAAAAATAAATATCAAGGAACAATAGAAGAATATTCAAGAAAACAATTGTTGCATTTAAAAGAGCTGATCAAATCATGAAAAATAACAAAAATAAAATATATGAAGAAATAGAGTTTTATTCAAAAGAATTAAAGTTATCAAAATTAAAAATACATTTTAAAGAATATATAAAAGATGCAAATAATACAGAGATAAGTTATGAATCATTTTTGTATGAGATATTAAAAAAAGAATATGAAAGATTATTAGATTCAAGATTAAAAAGCAGGATAAGAACAGCAAATTTCTCACAAAAAAAATATATAGAAGATTTAGAAAAAGAATATTTACCAGAAGATGCAAGAAAAAAATTAAAAGTATTATCTACATTAGAATTTATACAAACAAATCAGAATGTAATATTATCTGGTAATCCTGGAACAGGGAAAACTCATATAGCAATAGGACTTGGTATGAAAGCTTGTATGAAAGGATTTAAAGTATTATTTACAACAATTCCATTATTAATAACTCAATTAAAAGAATCTAGATCAAATAAAACTTTGAGAGCTTTTCAAAGTAAATTTGGAAAATATGACCTTGTAATATGTGATGAATTAGGATACATATCTTTTGACAAAGAAGGTGCTGAATTATTATTTTCTTTATTATCTCTAAGAGCAACAAGAAAATCTACTGTAATAACAACTAATTTATCCTTTGATAGATGGGAAGAAATATTTAATGATCCTGTATTATCTGCAGCTATGATCGATAGATTAACTCATAGAGCTTATATGGCCAATATGAACATAGTTATAGATTAAAAGAAACAGAAGAATTTATAAAATCTTTGGATTGATTGGAGGGATGCTTATAGAAAGATTGGTGAGATTATAATATTAACAAACTCTTAATGTTTCCTGAAACGTGGTTTTATTCAGCGTTTTATTTTTTTGGCCCATTTTTCAATTGTAATTTGGCTTATTCTTCACTTGCAAAATACAGAATGCTACTCTTCCCTGAAAGGGATAATAACATGTATTCGACCCCACTTTTTCTCAAGATAACTTTAAGTCTGAATGCTACTCTTCCCTGAAAGGGATTAATCATATTCTTCAGCAAGTTCTGAAAATACTTTATTTTTTTATTTAAAGTATCATAAATTAGAAGATGCATTTTCAATGAAAATGCATCTTTTTTATTTATTTGTTTAATGTCGAATAATAACATAGAGAAACAAAAAATATAAAAAAGGATGGTGAAAATCATGGATGTAATAGTAAAATTAGCTTCGTTTGGTGTATTGGGTATGGTAATTTTAGCAATGTTAGCAACATCAGGTTTAGCTGGTGCTGCTGCTATATCTACAACCTTATCAACACTTGGTGGTCCTGCTGGTATGGCTGGTGGAATGCTTGTTTTAGCTTCTGCTCCTGTTATAGTCAATTATTTAGATAATTATGGAATTGATTATGCAATGAAAAAATTAATGCGTGAATACAAAAAGAAAGGTTATTCAAAATATGAATTAAGACATGAAATTTCTAAACTTTGGATTACTAAAGGTTTTAAGGAAAAATTGTATTATTATGTTGATACTTTATATTAATTCTTGGGAGCTTTTGCTCCCTATTTTTTATTTGTTTTATAAAAGTATTTAAAAAAATTCGAAAGGAGGAGTAAACATGTTAGAATTTATAATTGGTATAGTAATTGGAACATTATTTTCAGAACAAATAAAAGAATTAACTAAGCATTTTTTTAAGTATTATGATAAAAAAATAAATGAAAAGAAAAATGAAGAAAAAAAAGAAGATTAAATCTCTTTGAGGAGCTTTGCTCCTCTTTATTTATTTTTACAATTAATAATGTCGAATCATAATTTGATAAAAGATAAAAAATAATAAAGGTGGTGATTTTTTATGAAAAAAGTATTTATAATTATTTCAACGATTATATTAATGTTATTTTCATCATGCACAAATTTATATTTAGCAGAAACCACTAAAAATCAAAGTATAGTAATAGAAAACCAAACAAAAATGATAGAAAGTTTATTGATATTTTTAATTTTAGCATTATTTATAATAATATTTCTTATAGTTAGTTTAAAAATAATAAAAGGTGAAAAAAGCAATGAAATACAAAAAAATTCTACCAATGAAAAAGAAATTTATAAAAAAAATAATTAAAATTAATACTATTTATAAAAAAGTATTGGAGGTGAAATAAATGAAATTAATAGAAATAGATGTATATATGATGATGTTATTATTAACTGGAAAAACTAAGGAAGAAGCTATAAAAATTACAGCCAAACATTTTAATGTATCTGAAAATTTCATTATTGAAAATGAATAGCACAAAATTATAATAACTCAAATTCAAAAAATATAAAAAATAAAGGTGAATAATTCACCTTTATTTTAAATTATTAATCAAATTCTATTTTTAATTTTTTATTATTAATAGTAATATTAGCATTTTCAAGTTCATCAGTTATATCTTTTTTAACTTCGTTAGTTATATCATTTTTTATATATTTTTTTTCCCCTTCAAATTCTGGATTTTTAATCAATTTAAAATGTATTGTCATTACATCTTTTTTATCTGACCATTCAAACCAAGTTGGAAATACTGAATTAACAGCAAAATGTTTATCAAAATGTGGAAATTGTCTTGCTTTAAATAAAATTTTATTAACTTGCCCTAATCTATTTAAGTTAATTTCATTTTTATCTTTTATATATTCTTTTAATTTATTGTATAATTTCTTTTCTAACGATTTTGCTTTTTCTTCTATTTCTTTATAATTTTTATTTTTTAATTTTAAATTTTCATTCATCAATTTAAAATTAGTTTCAAATTCTTCATAAATAGTATCTATATTTTTAGAATCATTTAAAAATCTATTTATATTAATCATAATATCAAAAGCAGTTCTTTGTTTTTTCATTTCATGATAGCTTTTTGTAACTATTCTATCGTTTTGAACGTCTGTTCCATCTATAAACTTAATCCATCTTGCTGAATGAATAATAATTTTTTTTAAGTTATCATCTTTTATATTTTCAACTACTTTAGCTAAAGGAGAATAATCAATATCAAAAATTTTTACATACTCCTTATCGCATTTTTCTAATTTATCATCAATTGGTAGATAACCTCTATGATATTTACAAATATATTTAATTGCGTTTATAATTTCTTTTGATTTATTGCCAAATAAATCCTGTAAAGTTTTTGATTTATCAGAAAATTTATTATTAATAGCTAAAATATCAAACGATTCATCATCTATTAAATTTAATGTTAATTCATTGTGTAAATCTCTAACTAAAGAAGGAAAAGCATCCACATAAAAATCTTCTCTAGACTTTAATTTAAACTTTGAATATGTATGTCCTAAATCATGAACATTTAAAGCTACTCCAAACAAAAAGTAAAATAAGTCTCTATAATTTATACCTTCAACATACTCTTTATCTAATTCTACTTTGGGTAAGAAGTTCCTTTCTCCAATAACTCTTATAATTTTTACAGTCATTTCCATTAATCTTTTACTATGTCTTTGTGAATGTTCTACGGTTTCTGGAATTAAGTCTCCTATCCACATATGAGTCCATTTATTAAATATTCCATATTTAATATAATCATATAATTCATTATTTTTAATAAATTTTAAATAAGATTCTCCATATCCAAATGGCATATTTCTTCTTTCTTTATAACTTTTCAATATCAATTCTACTGGAAAAAACTCTTTTAATTCTTCTCTGTTTTTATAATACAAAGATTGAATATTTTTGGGTAAGTACTTATAAATTTTATTAAATTCTTCTTTATTTCTATAATTATTTATTATATTGTATAATTCATCAAGATATTGATAATCCCAATCTATTCCTATTTCAGGAAATTTAAAAATATCTCCAGTTTCAAACTTATAATAAAATTCTTTTTTATTAAATAACGCATACAAAGAAACTATTATTGAAAACAACTTATTACCTGGTCCTATATCAAATATTAAGTTGTTAGAACTTTGATATAATTTATTTAAAACATCCCAAGTATCTACAAATAAAGTTTTTGACTTATTGCTATCATTAGAATCATAATCATTAGATATATATTCAATATTTTTAATATTTAATATATCTTTACATATTTTGTAGAAAAATGGATAAACACTTGGAAATCTTCTTCTGTTTTCATTAAAAAAATATTCTTTTTGATTAAAATCATTAATTTCCGTATCAAAAAAAGATGAATAATTTTTTCTAAAATTTTTATCAGTATTTTCTAAATATTCAACATCAAATTTTTCATCTATAAAAGGATTTGAAACATAAGTATATACGGTATTTATATCAAATCCACTCTCTTTAAGTGATATTAAAGTTCCTATCTCTGCAGAACTTTCAATTAAAGCTTCTCTATTGTAATAATTTTTATCTTTAAACATCTTTTTTATTTCATCAAATATATTTTTTTTAGGATTATTAATATTACTTTTCAATGATAATCCAAGTGATAAAAATACATCAACTTTTCCTTTTAATCTATTTTCTATAAAAAATTTGATATCAGTTATATTCAAAATCTTTTTTTCTTTATCAAACTTAAAAATATTAGCAATGCTTTTATTCTTTAGTTTTTCTTCATCATTTTTGTCTATTAATTTTAATTTTTTTCCAAAAATTTTTTTTGCTTCATTATCTAAGTCAATATTTTTTTTTGATTTTTCTTCAACTTCAACAATATAAATTTTATTTAAATCATATTTATCTACAACATTATAATTAATATTATCTTGAAATAAATATTCATCAATGATAATTTCTGGGTCTTTTTTTACTACATATCTTATTTTAGCAATACATGGTTTATCCATTAAATCTTTCTCAAGACTATAATCAATTGATTCTTCAATTTCTTCTCTTTCATTAAGTTTATTTGTTTCCTTCTTAATTGTTTTTATCCATTCATAAGAATAACCATCATTTAATAATCTTATATTTAATCTTATTCTTTCTTCAAATTCATCTTTAATTTTTGTATACCATTGAATAATCCCTACTTTTTCTATACAATTATCTTTTAAATTATCAATAATAGACGTATTTTTTAATATATAAAACTTTTTTTCTCTTTCAATACTCATAATATCCCCCTTTTCAATTAAGTTTTATAAATAAATTATAACATAAAAGTTTATGTTTTTTGATAAATAAAAATCCTCTTTTAAAAAGAGGATTTTTTATAATTTTAATAATTTATATTTATTATAATGCTTCTTTATATATGTTCATTATTTCTTCAAGTGTTGCTTGTTTTGGATTTGTAAAACCACATGCATCTTTCAAAGCATTTTCTGAAAGTGTTTTTATATCTTTTTCTTTAACTCCTATTTCTTTTAAACCAGATGGAATTCCAACTGATTTTGATAATTTTTTAATTTCTTCTAAAGCTTTTTTTGCACCTTCTTCTGCATTTAAATTAGAAACATCGACTCCCATTGCTTTTGCCACGTCTTTTAATCTGTTAGCAGATACTTGGGAATTATACTTTTGAACATGTGGTAAAAGTATTGCATTACAAACTCCGTGTGGCAAATCATAAAATCCCCCAAGTTGGTGTGCCATTGCATGTACATAACCTAATGATGCATTGTTAAATGCCATACCAGCTAAAAATTCTGCATATGCCATTTTATCTCTTGCTTCAACATCTTGTCCATTGTCAACAGCTTTTTTTAAGTATTTTGAAATCAATGTAATTGCATGAAGTGCACTTGCATCTGTTACTGGTGTTGCTGCTGTTGAAACATAAGCTTCTATTGCATGAGTTAATGCATCCATTCCTGTTGCTGCCGTTAAAGATTTTGGCATTTCCATCATTAATTCAGGATCATTTACAGCTATTATTGGAGTAGTATGTTTATCAACTATTGCCATTTTAACATGTCTTTCTTCGTCTGTTATAATTGCAAACATAGTCATTTCACTTGCTGTACCAGCTGTTGTATTAACTGCAATTAATGGAAGTTGTGGTAATTTAGATTTATTTACTCCTTCATAATCTTTTATGCTACCTCCATTTTTAGCAACAAGTGCTATTCCTTTTGCACAATCGTGTGGTGATCCTCCTCCAAAAGACATTACAAAATCACAATTATTTTCTTTTAACATTTTTAATCCATTTTCTACATTTGAAATAGTTGGATTAGGTTGTGCTCCAGAATAAACAACATAGTCAATCTTTTTACCTTCAAGCATATCTGTTAATTTATTTACTAATTTTATTTCTTCCAAAACTTTATCAGTAACTATAAGAGCTTTTTTAAATCCATTTTCTACTATTGCATCTCCTGCTTCATTCAAACATCCTTTTCCCATTAAACTCATCGTTGGCATAAAAAATTTATAACCCATTTTCATCACCTCTTTAAATTATTATTTTCACATTAAAAGTATATTCTTTTGTTAAAAAAAAAACTAACACTTTTTTCATAAAAATATTCTATTTTTTTAATTTTAAAATGTTATAATTTTAACAAGGAAAATAATAAAGAGGTGTTTTTAATGAATTCATTTAACAGAAAACTTGAAATGAATGATGGTTTAGAAACAAAATATATGAAAGTTTTATACTATGATTTTAATAGTTATTATAAAGGATCTTATAAATCTTATGAATATCCAAGATTGTGTACTATTTTAGAAGGAGAAAAAAGAGTTACTATCAATTCAAATGAAAAATTTATTTATAATAAAGATCAATTTATTTTATTACCTTCAAATTCTTCTGTTGAAATGGAAATACAAAAACCAACAAAGGCTTTTGTTTTAGAGATAAGTAATGAATTAATACACAATATATCAAATCAAATTTCAATAAAATTTAATGTTGAACAAAAAGAAGTTTCTCTTTTTAAGAGCAAAGTTAATTTAATAGATGATGTACTTAATAAAATACACAATGTCTTTTTACAAAATACTAAAAACAAAGAATTTTTATTAGATTTATATGCTCAAGAAATAACTTATTCTTTATTAACAAATGAATTATCTAATTCATTACTATGTCATGAAAACACATTAATTCAAAAAGCTATTTCAAAGATGAAAAATGATTTTTTAAACAATTTAACAGTAAATGATTTAGCAAATTATTTAAGCATGTCCACTTCAAATTTTTCTACATATTTTAAAAAGTGTACAGGAATTTCTCCAAATAATTATTTAAAAAATTTAAAATTAAATGAAGCAAAAAAAAGATTATTAAATGAGAGTGTAACCGATGTAGCCTATGATTTAGGTTATGAAAATATTTCTTATTTTATAAAAATTTTTAAAGAAAAATTTGGAATAACACCAAAACAATTCCAATTAAAAGATTTTAATTTAAAATTTTAAATTTATAAATACCTAAAAAATATTTATTATCTTTATTTACTCGCCAAGTTGGATCAACTAAAGATAAATCATTTATTTTTACTACTCTAATTTCACCTTTATTGTTTGAATTTATTGGTCCTGTATGGTATATTACATACTTATTTTTTGTATTTTTAAAATATATCATTAAATGATATGGAAAATCTGTATCTTCTGGATGAAAAAATGCTAATATATCTCCATTTTTAGCAAATATTATATCTTTTGAAACATAATTCATATTAAATTCTATTATATACCTTGCAGAAGCATAAGTTGAAAAATTATTTGTTTTTAATTCTTCTTTTATTTTAAATAATTTTGATTTTATATAAGGAATATCTGGATAATTATATTTCTTTATGTCATTAAAAATTGGTCCTTTATAATTACTTTGATTTATCCAATCATTATTGTGTTTTTTTAGTGTTTCTTTATATACAAAACGAACTAATCCTGCACAATCCTGATAATTTTTAGGAAGTTTTATATCTTTTTTTAAAATAGCAATTAATATCGATGAATACCATAATCTAAAGTTATTTGAATCTTTATAATCTAGTTCTAATATATCTGGATAATTATTATTGTTATTATCCATGTTGAAAAAAGAAACATTTTTAACATTTTTTTTATTAATGTTAATGAATAAAAAAAATAAAAATGCTATAATAAAGAAAACAATGATAATTACACTTTTTTTCACTTTAATCACCTCATTTTAATTATACTATAAAGTTTAAATCTTTAGGAGTGATAATATGCATAAAACAAAATTACGGCAAAATATACAAAATATAAAATACAAAATATAAAAATTTAAGGAGCGTGATTAATATTAAATTAATTGAAAATATACTTCAAGAAATATTGGTAGAAACTGTTTCAAAACTTTATGGAAAAGAAAATGCAGAAAAATTATTTATACAAGAAACAAATAATCCAACTTTTGGAGATTATCAAACTAATTATGCTATGATAAATGCAAAGGTATTTAAAAAGAACCCAAGGCTTATAGCTCAAGAAATAGTAGATAATCTTGAAAAAAATGATGTAATTGAAAAAGTTGAAATAGCCGGTCCTGGATTTATAAATATTTTTTTAAAAAAATCTTTTATTGAAAATTATGTTCTTTCTACTGGAAAAGAAAAGATTGACTTCAATAGAGATATTTCTGGAGACATAGTCATAGATTATTCTTCTCCAAACATTGCAAAGCCAATGCATATTGGACATTTAAGAAGTACTGTTATTGGAGATGCTATTAAAAGAATCTATACATTCGTAGGATACAATGTTATTGGAGATAATCACCTTGGAGATTGGGGAACTCAATTTGGTAAGTTAATTGTTGCTTATGAAAGATGGTTAGACAAAGAAAATTATGAAAAAAATCCTATAAATGAATTAGAAAGAATATATGTTGAATTTGAAAAAAAATCTGCTGAAAACCCTGAACTTCTTGATATTGCAAGAGCTGAATTAAAAAAACTTCAAGATGGGGATGAAAAAAACAGAAAACTTTGGAAAGAATTTATTGATGTCTCCATGAGTGAGTACAATAAAATATACGACAGAATGTACATAAAATTTGATACATATTATGGTGAATCATTTTATCATGACAAGATGGGAAAAATAATAGAATTATTAAAGGAAAAAAATATTGCTGAAAAAGACCAAGGGGCTCTTGTAGTAAAATTTCCTGAAGAATCTCATATACCAGTAGCTTTAGTTCAAAAAAGTGATGGTGCCTTTTTATACACAACATCAGATCTTGCATGTATAGATTTTAGAAGAAAAAAATATAATGTAGATAGACTAATTTATGTAACTGATGATAGACAACAACTTCATTTTAAACAAGTTTTTGCAATAACTGATATGCTCGGTTGGGATGTAAAAAAAGAACATGTTTACTTTGGATTAATGAGATTTGCTGATGGAGTATTTTCAACAAGAAAAGGTAATGTTATAAAATTACAAGACTTACTCGATAGAGCTAAAGAAAAGGTATTAGACATTTTAAAAGAAAGAAATCCAAATGATGAAAATATAGATGAAAAAGCTGAAATAATAGCAATTGGAGCTGTAAAATATGGTGATCTAAGTCAAAATAGAACCAGTGAAGTTATCTTTGATTGGAATAAAACCTTGAGTTTTAATGCAAATTCATCAGTTTATCTTCAATATACATATGCAAGAATACAATCTATTTTTAGAAAAGCAAATATAGATAAGCTTTCAAATAATTTATCTTTAACAACTGAAGCTGAAGAAAAATTAGCAAAAACCTTAATTAAATTCCCTGAAGCTGTTTTAAGAGCTGCAGATGCTTATAAACCTAATCTTTTAACGGATTATTTATTTGACTTAGCTCAAACTTTTAATTCTTTTTATAGTTCAACACCTATATTAAAATCAACTGATATTGAATTAAATTCAAGACTAATTTTGTGTGAAAAAACAGCTCATATATTAAAAGAAGGATTAAACCTTCTTGGAATTAAAGTTCTTAATGAAATGTAATTATTGAAATAAAAAAATAGTAAAACTCAAAAAAGAGTTTTACTATTTTTTATATACTTATATATAAAGGGGAGATATTATGATGCTTTACTTCTGGTTTTAATATCAAATATAACTGCTGCAACAAGGACTGCTCCACGAATAATGTATTGATAAGATATACCAACACCTATTAAATTCATACCATTAATAAGTGATGCCATAACAATGGCTCCTACTATAGAGTTAGTAACTTTACCAACGCCTCCTGCAGCTGAAGCTCCTCCAACAAATGCAGCTGCTATAGCATCAAGTTCAAAAGATGCTCCAGCAGTAGGTGTTGCTGATTGAAATCTTGATGCATATAAAATTCCTGATAATGCTGTCAAAAATCCCATTGATCCAAAAACAAATAAAGTAATTTTATTTAAACTAATACCACTAAGTTTAGCTGCTTCTGGATTTCCTCCAACAGCATAAATATGTCTTCCTAAAGCTGTTTTTGTAGTAAAAATATGATAAATAAGAGTAACAATTAAAACTATTACAACTGTCCATGATAAACCATTATAATTTGCTAAAATCCAAAAAACATACATTATTATTGAAGACATTAATATTAATTTAACTATAAATACTGGAACAGATAATACCTCAAAGTTATATTTCATTTTATTATTTCTGCTTTTTATATCTGAATAAATATAAAATAATACAATAAGTACACCTATTAACAATGTCGTTATATGAATATATTCACCGTGAAAAAAATCTGGAATATAGCCATTACCAATAATATTAAATGTATCATTTAATATTATAATTGTCCCACTTTTTTCAGTAGAAACTAATAATGCTCCTCTAAACACCATCATTCCTGCCAAAGTAACAACAAATGAAGGTATACCTATATATGATACTAAAAATCCTATAACAAGCCACATGGCAATACCTAATAAAGTTACAATTATTACTGTTGGAAGAACTGGGACATTATGATTCATCAATAATATTGCTGCAGCTGCACCTAAAAATCCAGAACCAAATCCAACAGAAAGATCGATATGTCTTATAACAATTACTAATGTCATACCAACTGCCAATACAGCAATATAACCCATTTGATTAAATAAATTACTTATATTTCTTGCAGAAAGAAATAATCCATTTGTTAATACAGAAAAAATCAACATAATGATTGCAAGAGCTATATACATTCCATATTCTCTTATATTTTTTTTGAGTAATGTTCCTATTTCATTAAACATGCTCTCTTCCTCCTAATAATCTACAGCTAATACCATTATTTTTTCTTGAGTTGCTTCTTCTTTACTGAGTTCACCAGTTATCTTTCCACCAGACATTACATATACTCTATCGCTCATTCCTAAAACTTCTGGTAGTTCTGAAGAAATCATTATTATACTCATACCTTCTTTAACTAATTCATTCATAATACTATATATTTCATGTTTTGCCCCAACATCTATACCTCTTGTTGGTTCATCTAATATCAATAATTTTGGTGATACAAAAAGCCATTTTGCTAAAGATACTTTTTGTTGATTACCTCCACTAAGATTTAAAACTTTTTGTTCTATACTGTAAGATTTAATTTTTAATGATTTTCTATAATCTTGAGCTACTATAACTTCCTCATTCTCATTTACAAACATTTTATTTTTTATTATTTTTTTCAAGTTTGCAACTGTAATATTAGTTTTTATATCAAAGTCTAAAATAAGTCCATTCCCTTTTCTATCTTCTGAAACATATGCAATACCAGTTTTTATTGCATCTGATGTTGATTTAAAATTTCGTTTTTCACCCTCAAAATATAATTCACCACTTATCTTATAATCATCTGGATTTCCAAAAATACTGTGTGCAAGTTCTGTTCTACCTGCACCAATTAATCCAGCAATACCAACTATTTCTCCTTTTTTTACATTAAAATTAGCAGATTTCACAACATATCTTTCATTTTTTGTATCAAAAGCTTTCCAATTTTTTACTTCAAATAATTTTTCTCCAATATTGCTATCTCTTTTTGGATAAATATCAGTAATTTCTCTCCCAACCATATGCTTAATAATTTCATTTTCAGTTATATTTTCATTATTTTCAATTGTTTTTATGGTTAATCCATCTCTTAAAATTGTTATCGTATCAGCAACTTCTAAAATTTCGTTTAATTTATGAGATATTAAAATAGAAGTAATACCTTGTTTTTTTAATTCTTTTACTATTCTTAATAAATTTTCACTATCAGTTTCATTCAACGATGAAGTTGGTTCATCTAAAACTAATAATTTAACATTTTTACTAAGAGCTTTAGCTATTTCAATAATTTGCTGTATTCCAACACCAAAATCTTTTATTTTTTTTGATGTATCCAATTCATATCCAAGTTTTTTTAAAACTTTTTCAGATTCAGATGTAGTTTTATTCCAATCTATCATACCTTTGTTTTTAATTTCATGACCCAAAAAAATATTTTCATATATAGTTAGTTCTGGTATCAAAGCTAATTCTTGATAAATTGTTATAATACCAATTTTTTCACTATCATATATGCTATTAAATTGTTGCTTTTCACCCTCAAAAATTATTTCACCATCATAACTTCCATACTTATGAAATCCACTAAGAACCTTCATTAGTGTTGATTTACCTGATCCATTTTCACCAATTAAACAATGTATTTCACCTTTTTTTACTTTAAAATTAACTTTGTCTAAAGCTTTTACTCCCGGGAATTCTTTAGTTATATTTTTCATTTCAAGAATATATTCACTCAATAACATCACCCCTTACTTTAAAAAAGGGTAGTGGTTTTTCACTACCCCTTTAGAAATTTACCATCTAAAATCTGAATCTTTATAATATTTAGAATCTATTAAGATCTTTTTTACATTATCTTTTGTAACAACTTGAATTTCTGATTGAATTGCAGGAACCATTTTTGATCCATTGTCATATGCTTGTGGTGTTATCAACTTTACTCCTTTTAATAAGAATTGAGCAACATTTATAGCATCTTTTACTAACAATCTAACATCTTTAAATACTGTCATAGATTGTTTTCCACTAATAATATACTGAATAGAAGCTTTTTCAGCATCTTGACCTGTAACATAATAGCTTTTAACATCTCTATCTTGTTTAAATGCATCTGCTATAGCTCTTGCTGTACCATCATTTGGTGCTAAAATAAATACATTTCCTTTATCTGTTCTTCTTGCTCTTGTTAAATTATCTTCAGCTTTTCTTCTTGCTACTGTAAAACTCCAATCTGTTGTAATTTGATTTATTATTTTAGATGTTTCTTCTCTACTTAAATTCTTTTTATTTTTTAAATTTTGTGCTTCTGTAGAATTAATAATTCTAAATGTACCATCAGCAATTTTTGGTTGTAAAACTTCCCATGCACCTTGGAAAAATAAAAATGCGTTGTTGTCTGATAATGCTCCAGCATATAAGTATAATGGATTATTTTTTCCACTTGCATGATCAACTAAAAATCTACCTTGTGCTCTTCCAACTTCAACACTGTCAAAGGTTACATAATAATCAACAGAATTTGTGTTAGTTACTAGTCTATCATAAGAAATTACCTCTACTCCAGCTTTTTTTGCTAAGTTTACTGTACCAGCAGCTGCTACAGCATCTTGTGGACAAATGATTAATACTTTAATCCCTTTTGAAAGTAATGCTTCAACATTTTGTCTTTCTTTTGCAGAACTACCTTGACTGAATAAAACTTCAACAGAATAGTTAGTGTCATTTAATGCACTCTTAAATCTTGCTTCATCTTGTACCCATCTTGGTTCATCTTTTGTAGGTAAAACAATTCCTACATCAACAGAAAAAATAGTAACTGCAAAAATAGCCAACAATGCCAACAAAACTTTTTTCATAACTCCACCTCCAAATTATAAAAACTCATACATATATACTTTAGCAACACTGTGCCACCTCTTATTTAACTTGTTAAGTTTATATTTATATTTTTTACAAAATAAAAGATTTATTACTACAATTAAATTTAATTTGAGTTAATTCTCTTTTATAGTAATATGAATAATTTGCATACTTTTAAAATAAATAATATAATCGCAGTGCAAAAATTGCATGTAGTATGCAAAAATATCTGGGGGAAAACTTATGACCTTAAAAAAAAGATTTATTTTAATAATTATTATTTTTGTTATTTTGCCTACAATACTCACAATTTTCAATAAAACTTACATTACAAAGTATATTTTTAATGAATTATCTGGATATACAAAAGAAAAAATAGATGATTTTGGCTTTGAACTCGTTAATAAAATATATCCAACTGCATTAAATAATTTTTTTGAATACAATAATTCTTTAAAATCATTTTCAAAAAATATATTGAACAATCAACGACTTATAGATTATGCAACATATGGATTAATAAACACCTTAAACATACACATTAATGAACTATTAACTTCTTCTTCTGCAGATGGGATTATAATCATTATTGACAATAAAAAAAGAATTAAAGTAGGTAATTTTCCAGAAATAAATGTTATAGAAAATGGTTACTTTGAAGACAATGAAAATATATATATGATATCTGGAACATCAAAAAATAATGTTCAAGTCTATGCTTCAATGAAATTAGATAAATACTTTTTAAATTCATTGAATTTATCTTCTATTTCAATAATTTCAATAATTGGTAAAAAACACAAAATTTTTCAAAATGATAATTTTTATATAGATTTTAAATTAAATAATAATTATGTAAATTCAGGAAAATACAAATATCCTTCAAAATCAGAAAAATTATCAAAAGATATTACTTTTGTTTTATCATTCAATGTTTCTCAATTAAATTTAATTCAAAATAAAATAAAAGATGTTTTTTTTCAAAATATATCTTCAAATTTAAATACTTCTTTATTGATCTGGATTCTTATATCTCCACTTTTAATTTATTTTGCACTATTTTATTTTGGAAAAAATATAGAAACTGTTGAACTATCTATAAAATCAATTAAAAAAATTGCTAAAGGAAATTTTAATGTGAAAATAAATGTTAAAAATTTAGAAAACAATCGTTATAAAGACTTAGTTAACTCCATAAATACTTTATCTAAGAATTTAAATTATATGCACAAAGAATTAGAAAAAAATATAGATACCCTTAAAAATGAAAAAAACACTTTAAAATATTTGGTTAATAACTTACATGAAGGCATTATTTTTTTTGATTTAGATGGAAGCATAAAAGTAAAAAATAAATTTGGTGAAGAAGTTTTAAATAAAATTGGAAAAGAAGAACTAAAAAAATCCACTAATAAAATATATTCATTAAAAATTAAAAATGAACAAAAATTAATTGAAGTAAGTAGAAATTTTTTAGATGCAGCACTATTAATTTTAATAAGAGATATTTCATTAGAAAAAGAAATGAATGATTTATATTCATTAAATGAAAAATTAGTAGAAAAAGAAAAGTTTGGTAGAATTGCTGCTCATGAAATAAGAAATCCATTAAACTCAATGTATCTTAACTTACAATATTTAAACTTAGAATTTGAAGAAAATAAAAAAATAAGTGAAATCAGTAATTTAATAATAGAACAAATAAAAATTATAGATTCTGTTGTTGAGGAATGGTCTTCAAGAGCTATCATGGAATCAGAAGAAAAAGAAATAAATATAAACAGTGTTATATCTCAAATATTAAATCTTTTAAAATATAAACTCTTAGAAAATTCTATAGAAGTTGTTTTTTCTAAGTCAAACAAAAATATTTTAATAAAAGCAAATCCACAAAGATTAAATCAATTATTTTATAATATAATAAACAATGCCGTTGAAGCTTTGGAAAATAAAAATAATTCAAAAAAAATACTTATAAATGTATCTAATGTTAAAAATAAAATTTTAATTGATGTAGAAGATAATGGAATTGGAATACCAAAAGAATATCAAAAAAATTTATTTAAAAAACCTTTTACAACTAAAAAATACGGAAATGGAATTGGATTATTTATCGTACATTCAATAGTAAAAGAGTTAAATGGAGATATAAAAATTATTAGTTCAAAAAAAGGTACAAAAGTAACTCTAAACTTTGAAAATAAGGAGAAAACTTTATGAAAAATATTTTAATAATTGAAGATGATAAAAATAGTGCACAAATACTAAAACAATTTTTAGAAAAAAAGGAATATAATGTAAATGCCTTTCATAATTTAAAAAGTTTAGAAAAAGTAGATTTGAATAATTATGACTTAATATTATTAGATATGATACTTCCAGATGGTAAAGGAACAGAAAAAATAAAAGATTTAATAAACTTAAATCCCTATTTAAAAATTATAATTATGACTGGTTTTGGTGATGTAAAAGATGCAGTATACTCTATGAAAAGCGGAGCATTTGACTTTATAAAAAAACCAATTGATTTAAAAAGATTGATGTTCTTAATTGAAAAAGCTTATGAAGAAATTTCATTAGAAAAAGAAAATAAAAAATTAAGATACATTGTTCAAGAAAGTATAAAAAAAGATTTTGTTATTGGAAAGTCTGATATAATGAAAAATATTATTTATATAGTAAACAAAGTAACAGAAACTGATGCTAATTTGTTGATTACAGGTGAAACTGGTGTTGGAAAGGAAGTGTTTACAAGATATATTCAAAAGTTTAGCCAAAGAAAAGATAAACCATTCATCACTATTAATTGTGCTGCTATACCAAAGGATTTAGTTGAATCTGAATTATTTGGATATGAAAAGGGAGCTTTTACAGGAGCTGATAAATTTAAACTTGGTAAATTTGAACTTGCAGACAAAGGAACATTATTTTTAGATGAAATTGGTGAACTTCCACTTCAAATGCAAAGCAAATTATTAAGAGTTTTAGAAAATGGAGTATTTGAAAGAGTTGGCGGTACAAAAGAAATAAAAACAGATGTTAGAATAATTGCTGCAACAAACAGGAATTTAGAAGAAGAAGTAAAAAAAGGAAATTTTAGAATGGATTTATTTTATAGATTAAATATAATAAATATTGTTATTCCACCTTTAAGAGAAAGAAAACAAGATATACCTATATTCATTGAATTTTTTAATAAAAAATATTCTCAAAAGTATAATAAACCAGAAATTTCATTTTCTAAAGATTCATATAATATATTAAACTCATATGATTGGCCAGGAAATATTAGAGAGGTTAGAAACTTTATGGAAAGAATTTTTATAATTTTTGATACAAGTAAACAAATAAAAAAACAAGAAATTGAAAGTTTATTAGCAAAAAAATTAAAAGCAAAAAATTCTAAAGAAGAACTTTTAAAATCAGATAATTTTTCATTAATGAAATTAGAAGAAATTGAAAAAAATGTAATTTTAAAAACATTAGAAATATTTTCTGGAAACAAAACAAAAACAGCTAAATCATTAGGAATTAGTTTAAGAACATTACAGTATAAATTAAAAAAATATGAAAATACTTTAGGAGAAAAATAATGAAAAAATACATTTTTATATTGATTATAATAATATCATATTCAATAATATTCAGTGTTAATTTTTTGTACATGTATCAAGCAGGATATCAGCCAGAAGACTTAATAAATTATTTAAATTCACAAAATGCAACTAATATAAATATTACTTTTAAAATTTATGAAGAAATGCACGAAAACATCAAAATTTCTGAAAATTTAGATTCTCCATTATATGATGTTGCTCTAGTTGATTTAATATGGATACCAGAATTAGCAAAAAATCATATGTTATACCCTCTTGATAACTTAATAAATAAAAAATATTTAGAAGATATTCCCAAAAATATATTTAATCAATTTAAATATAATAATAAGATATGGGCTTTTCCATATTTAACTAATATACAACATTTTTTTGTGAATAAAGAAATATTAAAAAAAGCTGGATTCAATGAAGCTCCAAAAACATTAGAAGAAATGGAACATCAAGCAAAAGTAATTAAAGAAAAAGGGATTTTAGAATATCCAATTGTTGATTCTTGGACAAATGAAGAAGTTTTGATGTGTGAATTCACTTGGTTATTGGGAGCTTTTGGAGGTAAATACTATGAAAATAATTCTTTAAAAGTAAATACAAAAGAAGCAATAAATGCTCTATCTTTCATGAAAAGGTTATTAGATGAAAAATTAATAAATCCACTATCTCTTGAATTTAAAGAAGATGATGTTTTAAATGTATTTATTAATGGTGATGCTGCTTTTACCACTAATTGGACATATCAATCAAGATATATGGAAGATTCAAGATATTCAAAAATAATTAAAAAGGGTAGTCTTGAATTAATTCCTGTTTCCAATAAAACTAATAAAAAAACTGTTTCAGTAAGTGGTTTTCAAGGATTAGCTATATTAAAAAATTCTAAAAATATTAAAGGTTCAATTGAAGCTATAAAACTTTTTACTAAAAAAGAATTTTTTAAAAAGTTTAATTATGAAATCCCGCTGTATAAGAGCATGTATACAGATTATTCTAAAGAAAAATATTACAATGAAAAAAAATTAACAGAATTACAAAATATAGTAAATAGACCTTCTTTGGTAAAATATAATGAATTTTCAAAGATATTAAGAAGATATATTTATATGGCTTTAAAAGGATTAATAAGTCCAAAAGAAGCTTTAAATAAAGCTCAAAAAGAAATTGAAGGTATGAATTAAAAATAAACTCTTTGCAATGCAAAGAGTTTATTTTTACCAATTTTTATTTATTTAATTCATACTATTAAGGAACATTTTTTCATTTTCAAAGAGACCATAAAAAAATTTGTGTAAATAAAAAAATAAAACCTTCTTCTTGGGATGGTAAAATAAAACCAGGAAGGAGGTTTTTAAAATGGCAAGAAGGAAAAAAGAAGAAAAAGAAGAAAGCAACATTGAAAAATTAGCAAGATTAATAGCAAGAGATCCAGAGGTAAACACAATAAAAGATGTATATGAAAAGATAAAAGAATTAGTGGGACCGTTAATACAAGGGATGTTAGAAGCAGAATTAGAAGATGAATTAGGTTATGGGAAATACGATAAAGAAAACAAGAAAACAGATAATTCTAGAAATGGGTACAGTTCAAAAAGAGTAAGAACAAGTGTTGGAGAAATGGAATTAAAAATACCTAGAGATAGAAAAGGTGAATATGAGCCATAGTACCAAAGTATAAAAAAGATATCTCAGATATTGAAGGTAGAATAATAGGTATGTACGGTTTAGGATTAAGCACAAAAGATATAGTAAAGAACGTAGAGGACATATATGGTGTAGAATTATCAGCGGAAATGATAAGTAAAATAACTAATAAAATATTACCTGAAATCAGAGAATGGCAAAGCAGACCTTTAGAAGAAATATACACTTTTATGTTTATGGATGGAATAGTGTTTAAAGTAAAAGATGATGGAGAAATAATAAAAAAGACTGCATATGTAGTACTTGGTGTAAATATAGATGGATTTAAAGAAGTACTTGGTATATATATAGGTGAAATAGAATCATCAAAATTTTGGTTAAGAGTATTAAATGATTTAAAAAATAGAGGAATAAAAGATATATTAATAGCTTCTGTAGATGGATTAACAGGTTTCCCACAAGCAATAAAAACTGCTTTCCCAGATACTATAGTACAAAGATGTATAATACATCAAATAAGAAATACATTAAAATATGTTAGTTACAAAGATAGAAAAGAACTTGTTAATGATTTAAAAAAAGTATATAAAGCACCAAATAAAGATATTGCTTATTCAAACTTACAAGATTTGAAAGAAAATAAATGGACTAAATACAAATTAGCATTAGAAAGTTGGGAAAAACATTGGGAAACAATATCTCCTTATTTCGATTATGGCGATGATGTAAGAAAAATAATGTACACAACAAATGTAATAGAATCATTAAATAGACAATATAGAAAAGCTACAAAAAATAAAACATCATTTCCAAATGACGATGCATTATTGAAAATGCTTTATTTAGCAACAATAAATGCAACAAAAAGATGGACAGCTCGTTATAGAAACTGGAGCAATGTCCTAAACGAATTATCCATCTTTTTTAATGAAAGAATTACAAAATATATCTATAATTCCTAACATAAATATACTTTGTAACTTAACAAAAAATACCTATAACACACAAAAATGAATATTAAATATTATAATGCTATACCTTGCAATAAAAAGTTGCAAAAGGCTATTTATTACAAAAAATTATACTAAAAACTTCTAAAATTTACTCTTAAAGCTTATTTCTTTATAGTCGATAATTCTTATGGAAATACTTTAAAAATAATAACTAATTTTATTTATTTTTACCTTCCAAGAAGAGCCGTTTACACAAAAGTTTTTATGCTACCTTTTCAAATAACTACATTTTTTAAGATTTTTGTCGTTGTTTTTCAATATTTATATGCTAACAGATATATCTAATACACACTAATCTTTACAGACTCATTCTTTTTTCTAATAGGACAAAATAAGCCAAATTTTTTCATAAGTCTTCTAATCTTTTTAAGATTAAAAATTGTATCAAAAAAAGATTTTAAAGTCATTTTTATTTGTCTAGCTCCTTTGTGTCTTTTAAAAGAAATATTATAATTAAAATGATTATAATAACCACTCTTAGAAACTTTATCAAAATCATATAAATGTTTAATATGCTTTTTTCCATGTTTATTAATTAATATATTTATTAACTCAAATCTATCTGATTTTGATAACTCTCACAATCTTTCCATCTTTTATAATTTTTTTAAAAGTTCATTTTCCATTTTCAAATATTCTAATTCAACCTTTAAATTTTCATATTTTTCTTCTAAAGTCAATTCTCTTGATTTTGACCTACCTTGATTCAATTCTTTTTCTTCCAAATATTTTTATACTTAATCCATTTTCTTCAAATATTTTTAGCGCTGTTTTTCCTTTTAAATATCCTTCTATTAATTTTTTTGAATTTTTCTTTGTATGTTATTCCTTTATTTGATACTGTTTTTACATTTTTATTATTTTCTAATATTTTTATTTCTTCTTCACTAAATTTTTTTCACTCATTTTTTCACCTTCTTTTTATTCTATTATATAACAAAAGTGTTCCCTGTTCTTTTCTGACACTTTTTTATTTCGTGTCTATTTTACAGGGAATACTTTAATTTAATAATTCTTCTATTTCATTATCTATTTTATTTATATTAAATTTATTCTTTACATATAGTAAGATGTTTATTCATACGATTACTGTAGTAGTTGCTATTATACTAAACAATACTATTCCTAAAATATAAAACTTATTCCATTTTGTATCTTTTTTTAAAACTTTATTTTCAATAATACATATCAACAAAAATACTGAAAATAATAAAAATCTTTGATATAAAACTACTGATGGAACTATGAATACTGATAAAAATTTTAAAACAATAAAAATAATTTTCTTTATAGATAATTTTTTTATGACAATCCCATCCTTTCTAAAATACTCTTAATTTTAAGATTAAAGGAACTTTTAATACTATCCTTATTAGATTTACTAATAAAATATTTACTAGATAACTTATATGATATTAAAAACAGAACTAACGACATTAAAATTACTATATATATTAAATCAATTCGTAAAATACCTACCAAATGGATTTTAGCTTTATTTTTAAAAAATTTCAGAATAATAAACATTAATATAAAAACTATTAGTACAGTATTTTGTGCACTAGAATAATTATATTTAAAGAAGATGAATAAATAAATTGAACAATACAATATATAAATGCTAATTAGCAATATTGATAAATTTAAACCTATCATCAATGAATTTATTCCAAATAATGGAAGTATGATAGAAGCCAAGAAATATAGTAAAAAAGTTATAAGAATAACTAATATGCTGTTCAAATATTTAGCAAGAACAATATCCGTTTTTCTAATAGGAATTGCTTTCAAATAATTATAAATATTATCTTTCTCTTCTGATGAACACGATTTTCCAATAAAATTTGTGAATAAAACCATCAAGCTCATATACAATGCCAAAGTTGGATTTGGATCTGAATCAAACTGAAATGCTATACAAGCAAATAAAGAAAAAGCTATACCTAACATAAAAGGTTTTTGATTAAATATTATATCTTTCAACATTAAATTTTTAATGTTTATAATTCTATTAAAATTATCTTTCATATAAATTCTCCTTTACTTATTTATATTAAAAATATTATTATACAATAATTTAATTTTGTTTCTTGATTAAGTTTAATAATATTTCATCTAGTAAAGGAGTAGTAAACTCTATTTTCCTAGAATCAATATTATAACTTTTAGCCAAATTTATTACTTCTTCTATTTTTGATTTATGTATAATCAATTTCTTATTTCTATAAAAAGTAAGCTTTTTTTCAAATTCACAAGAAATATCTTGATTAAAATCAACTTGTTTATAATTAGATAATATATTAACCTTTTTATCAGATAGGAGTATATTTCCGTTATTTATATATGTAACACTATCTGCAATTTTTTGTATATCTTCTGTTATATGTGAAGAGAAAAACACTGAAGCACCTTCTTCCTTTACCGTATTAAAAATAATATCCAATATTTCAGCTCTAATAACAGGATCTAATCCTGAGGTAGGTTCATCTAATATAAATAGTTTTGCATGATGTGAAAGTGATAATGCAAGCATAAACTGTGCTTTCATCCCTTTGGAAAACTCTTTAACTTTTTTATCTAAATTTAAATTAAATTTCCTAATCAAGCTATTAAATACTTCATCATCCCAATTTTTGTAAAACCTTCTTATAAACTTATATACACTTTTCGCATAGTTTTGAGAATACAAGCTTGTTTCATCTCCAACATATCCTATAATTTCCTTTGTAGATACTTCATTATCTTTAGAATTTATCCCATTAATAATTATCTCTCCACTATCATAAGAAATAATATTCAATATTGATTTTATAGTAGTACTTTTTCCTGCACCATTTGGTCCAATAAAACCCATAATAGACCCTTTTTCAAGTTCTACATTTATATTATTTAGTGTAAACTTAGAGTACTCTTTTCTTAATCCTTTAATCTCTAATATATAGCTCTGATTCATATTACACCTCCTTTTTTGTTAATAATAATTTTATTTAGACAAAATTTTATAAAATGTCTGTATTTTAAATTACTAGTCATATTTGTATTATATACATTTTAACTATAATAAAAATACTTTTAATATCTATTCATAAATTCACAATATATACTCCAACTATCACTTTGTACAAAATTCTATTGCACAATCTAAGACGGTATCTCTACCCTTTATCAGATCATCTATTGAAATTTTTACTATATAATCAGGAGATATTCCATCTTCTTTTAAAAGCACTTTATTCTTATCTAGATACTTACTAGTAGTTACTTGTAATATTGACTTATCAAAAAGAGTATACCTAGTCGCTTCGTGAGCAAAACCTGCTGTTTTTGTTCCAAATACTTTTATGTTATTACTTGAATGAATCAATGTATTCAACAATATATATTCAGCAGAACTAGAAGTTTTTTCATTGCAAAGTATTGCTAATTTTTTGTATTTAATTGAATTTTTAGGACGTATTACTATGGGCTTAGGTTTTTCATACTTATATCCTTTCACATTTTTCTTCCTTGAAATCTTATATAGTATAACTTTTTCTTGCATAGAAAGCATTGATGTTATTTCTTTTGCAACATCTATTAATCCACCACTATTAGACCTAATATCTATAATAAAAGAAGCACACCCTTTACACTTGTAAACTTCTTCTTGAAAATCAGAAATCACTTTTTTATTAGAAAAATTATGGATTTTTATATATCCAATATTATCAATAATTCTAGAATTACAATATTTTATTTCTAAGGTACTGATATTATTACTTAATTTTTTATTGACTAATATAGGATTGTCTATAGGAGATATATTGTGAATACTAGCTTTATCGTTATGTCCTATCACTTCAATATTAACTGATTTAGACTTAATATACTTTATCAATTCACTTTCAAATGCATTGTTTCTCATGTTTAATGATGTAAAGTTAATTTTATATCTCATTTTTTCCATATGTTTTTCTATACTTAATCCATCAATTTTAGAAACCTTCATTCCAGGTTTAATAGTTGGACTATTGTTTAATGTATAATAAACATATAAATCATTTTCCTTAAAGGTAAATATAAGAGGTGGTAATTTTTCGTTATTAGTATAGGAACTATATATTTTTGTATGAGGATCTCTAAGTTGCAAAAGCATATTATTTAATATATCATATAAATCTGGAAAAGAATTAACGTTATTAATTTTTTCTTTATATCTATTTCGTATTTCATGCCAATTTATTTTTCTTTCATAAAAAAGAGGATATACATCATTAACTTTTTCCCATACTGTTGTAAATATATCCTTTTTTAAGTTATGAACATTAAAATTATTATTGATCATTCTAATCACACCTTATTAATAATTGTCTGCATATTTGCAATATTTTATACCTAATAAATTATTATCTGCATTACTTTCAAGTGCACGACAATCAAAACATCCATACCTTAATTCACAATTCTTGCACTTGTCTATTTTATCTTTTGTTAACTTATACAATTCCTTATAATTACTATTTCTCAAAATATTTACTAATTTATTTTCTCTTATGTTTCCTAAAACAAGTTTCCTAGACATTATACATGGAATTACTTCTCCATCACCTGTAATAGCTATTTGATTTCCATAGCAATTATGCTTATATCTATTTGTTAAGAACTGAATCAATGAAATTTTAGATAAAGTCTTTTCCTTACTATACATCAATTCTTTATATTTTTCAGAATGATATTTATTTGATTTATTAGGATATATATAATCAATTCTTATCTTTGTTCTATCTATTACTGAATTATATTTTTTTATAATTTCTTCTATCTCATTTTCATTAAAAGAATTAATTAAAATACTTAATGAATAATTTATATTATTCTTTGCTAAAGAAATAACATTATCATATATTTTAGATGCTAATTTTTCTTTCTTTGTTATTGCTTTATAAACATTATCACTACTCCCTAAAATCTGTACAATTAGATTTACATTATTTTTTTTCAAAAAAGCTAATATATTATCATCAAGAATAGTTCCATTTGTAAATATTGTTATATTATTGATTCCAATACTATGTGAATAATTTGTTATTTTTTTTATTTTATTTATAAACATAAAGGGTTCACCACCAATTAAATACAAACTCTCACAGCCTAACTTTTTAGCTTGTGATATTATATCTAATATTTTATCTATATCTATAATCTCTCCTTTTAATTTCCATTTTTTACATCCAGTTTTCCTAAATACTACCTCATCATCCTCGTTGCAAAATTTACATTCAAGATTACATCTATTAGTAAATTCTATAAATAAATTTTTTATTATATAACTATATTTTGAAAACCTTTCTTTAACCCCATCATCATAAATTGACAACTTTTCAATATAAATAGGCTTACTATAAAACATACCTACATTTAATTCATATAACTTCTCTAAAAACAAAAAATCCTCTTTATTAAGTTCATCAATATCATTATTATTCTCACAACTTTCTAACACCTCATAATTATGTTTTGTTATGCGAATAATATTACCAGTTAAAGTATCATATATGGCTCCATATTCTTTTCCTTTAATTAAAAAACTTCCCATATTTAATCTGAAATATCTCATTATTTCCTCCCTCGTGTATAATGTTTTCATACAGTTAATAATTTTTTAAAAAACATTCTAACTTTGAATTATTATTTAACTATAGTAATTCTGTTCCTCCTTGCATTTTCAAATGCTCTAATAATTCTGACTAACTTTGGTATATAAGTTGAATTGCCATGAACACTAGTTCCTACCTATAACTAGGCTTTTTTCTTATATACCCATAATTAGAATCTTAATTAGAAAGGATGTGTTTCTATATTGTTTGTTGGTATCGATGTTTCTAAAGATAAGCTTGATTATTTTCTTGAAAATTCTATCAAAGGTATTGTTGATAATTCTATTGATGGTTATGAGAAACTTGTTTCTATTTTCAAAGATAAAGATGTTGCTTTTGCTTTGGAGTCTACAGGAATTTATTCTAAAAATATCTTCATTTTTCTTAAGTCTCATGGCTTTAATGATTTATTCTTTGTTGCTCCAGCTAATGTTTCTAATACCAGAAAGATTCTTAATTGGGCTAAAACTGACAAGCTAGATTCTAAAATTATTCAAAAAACTGCTCTTAAATTCCCTGAGAATCTCACTCCTTTTGTTTCTAAAGATTCTTTTTTTGAATCTCTTAGAGAACTTACTCGTTCTAGATACCATATTTCTCATCAATTAGTGCAGAAAAAACTTATCTTGCTGAACTAATTTCTGCGTATTTTCCTAGTTTATCTAAGCAACTTAATTTATTTAAAACTCTTTTAACTATTTTATCTGATTATTCTGCTGATGATATTGTTAATATGTCTATTGATGATTTATTTAATTTAGTTGCTTTTTTATCCAAGAGAAAATTAGGTATTGATTTCGCTAAAAAACTCAAATCTATTGTTACTAAAATTTATCGTTCTATTTTAAATGATTTTAATACAGCCAATTTTAATATTGCTTTAGCTTTTGATAGAGTTAAACTTTTAAATTCTCAAATCAAGCGTATTGATAAACAGCTAGAAAATTTTTTTAATCGTATTAATACTACCTTGATACTATCCCAGGTGTTTCTGTTGTTTTATCTGTTTCTATTATTTCTGAAATTGTTAATATTAATAATTTTTCTTCAGATTCCAAACTTTCTTCTTACGCAGGGTTACGTTGGGATTTAAATGATTCTGGTAAAAATACCAACAATCACAAAGGGTTATCTAAAAAAGGTAATAAATATTTGCGTTATTACTTTTATCAGGCTTCTTCTTTAGCCATTATTCATGACCCTGTCCTTAAGTCTTATTACAAAATGAAGAGAGCTCAAGGAAAATCTCATAAAGCTGCTGTTGTTTTATCTGCTAGAAAACTTCTTAGAAGTATTTTCTTTATGCTAAAAAAAATGTCCCTTATATTCTTTTTGAATTATCTCAATCTTTTAAGAAGACCGTCCTTTTTAAAGATTTTTCATAGTAGTAACATTTTTACATTTTAATATTCTTTATTCTATCTGCACTTTGTGCATATCTTTTTTGCACCTTTTTTTATTTTATTTTTATTTGTTTTTCTTTTTGGTTAATTTACTGTTGCTTTTTCTACCTCCCTCTTGACTTAATACCAGAGACTCTATAATCTTCAATTTACTATAATTCTAATAAAGTAAAGTCTTTACTTAAATTTGCTTTTTCATTATCATTGAATGATAATGCATTAGGTATTTTTTCAAGTAATGAATATAAAGTCTTTAACATTAAAGGGATTCCCTCTTTATTTTCTTTACAAAATTCTTTGTTAAATTTGAATACTCCATCGCCATTCATATTTAGATGCACATAGCAACATTCACAAAGTCGTTTTACATTACAATTACTACAATTCTTTTCTATGATTTCTAAGTAGTCTTTTATAATTTTTTGTATTTTATACCATTCTAATCCATCATTTACATTCCCAATAGGATGTGTTTCATTCATTTTCTCGCACAAATAATAATTTCCATCTGGTGCAACTGCTATTTTACTCCCTGGTATACAAGCATTTCCTAATGGTCCTTGTTGCCCCCTTGGAGCATTTTTAATATAAAACATAGAAGTAAATAAAAATTTTAATGGTTCTGGAACTTTTTCATTTTTAGATAGTTTTTCTTTATATTCTTCAAGAAGTTTCTTTATACTCTGATTCTTAGTATCAATATTCTCTTTTATAAAACCTTTTTTATTTAAATCGTCACAATGATCATAGTAACTTGTGTCATAAGGACTTATTTGAGCATAGAATGTAGCAGCCCCACCTAGTCGTGCATGTGAGAAGAAATCCACAACCTTTACCATGTCAGTATAATTATCATAACAACAATTAAATGAAATTGGCTGATTACTACCTCTTTTTTCCTTTTCTTCTTGTAGTTTTGTAAGGTTTTTAATTATAACATCAAAAGATCTCTTATTATTTATAAAAACCCTGTTTCTATCATGATTTTCTTTATATCCATCTAAGCTCACAGTTATCTTAACACTATTGCTTATAAGAAAGTTAATAATTTCATCATTCATAATAGTTCCATTAGTTGTAATATAAAATTCGAAATTGTCATTTAATTCCTTAGCATACTTAACTATTTCTTTAATTAAATTAAATTCTAGTAATGGTTCTCCTCCATAAAAACTTATAACAGGATTACTTCCCAACCCATAGGCTTGCTTCTCTTTATATAAATCTAGATAATAATCTATTGCCTTCTTTGCTATTTCAAATGTCATTTTTTGTGATGAATATCCATGAGTATGTGGATAATTATCAGAAAATATGCAGTATTTACATCTTAAATTGCAATCTTCAGTTACAATTATATATAATTGAGAAATAGATGTTCTCATCAACATATCATTAAATACATTTTCACTAGTTGGTAACAGCATAGATCTTGGTATAAACATTCCATTATTGACTAACTTCGTAACATACTCATACTTTTTATCAAAATCTGTTTCTATAATTCTACCATCAAATAACCGAGTCTGTAAAGATTAGTGTGTATTAGATATATCTGGTAGCATATAAATATTGGAAAACAACGACAAAAATCTTAAAAAAATGTAGTTATTAGAAAATGAAAAAAATGTTCCTGAATAGTATGAATTAAATAAGGCAAAATTGGTAAAACCACCCTTTTACAGTAAAAAACTGCAATGACTGAAAGGGCGACAACCCATCTCCCGGTGAGAGTGTAAAATATTAAGTTTTTTAGGGTTACAAGCTACTTTCAGAGGTAGTCTTTAAGACGATCCTCGAAAAGGATGGCCAGTTCGGAAATAACAGCGTTCCAGTTGTGAAACCGTGCTGTCCATTTTTTTGTCACGTTTTTGGTAGTAAGGTATAAACTTTTAAGGACAGCATCGTCATTAGGGAATATTGATTTGGTCTTGGTAGCCTTCCTGAATTGCCTGTTAAGTGACTCTATGATGTTCGTGGTGTACATAATCTTCCTTACCCCGTCTGAGAACTGAAAGAAGGTGGATAATAGGTGCCAATTTTTCTCCCAGCTCCTCAATGAAGCGTAATACTTGTCTCCCCATTTGTTTATTACATTGGTTAGATTATCATAGCCCGTCTTTTCATCCAGTGCTGTATAGATTGTCTTTAAGTCCTTTGCAAACTCTTTCCTATCCTTGTGAGGAACATATTTCAGGGTGTTTCTAATCTGGTGGATTATGCACCTTTGTATCATAGTTTGCGGGAAGGTTGCATTTATAGCCTGCTCGAATCCAGAAAGACCATCTATTGAAGCTACAAGTATGTCCTTAACTCCTCTGTTTTTGAGGTTGTTAAGTACTCCCATCCAAAACTTGGCACTTTCTACTTCACCAACATATATCCCGAGCACATCTTTAATTCCGTCTATGTCAACACCTATTATTACATAAGCAGCCTTCTTTCCTATCCTTCCGTCCTCTCTAACGTTGAAGTATATTGCATCCAAGAAAACGAAGGTGTATATTTCGTGTAATGGTCTTTCCTGCCAGTCTTTTATTAATGGCATAAGCTTATTTGTTATCTTGCTCACCAGTTCAGCTGATACTTCAAATCCGTACAAATCCATTATCTGATCAGATATATCCCTGGTGGTCATTCCTCTTGCGTACAAACTTATTATTTTTTCCTCTATCTCTGAAATATCATTCGAATACTTTGGAACTATTTTGGGTTCATATTCTCCCTTCCTGTCTCGAGGTACCATTAATTCTATCATACCGCTACTACTCTTTAAATTCTTCTTCCTGTAGCCATTTCTTGAATTTTCTGTATTTTTCTTTTCTCTGTCATACTTGCCATAGCCCAGCTCGTCTTCGAGTTCCGCTTCCAGTACTTCCTGGATCAGATTTCCTGTCAGTGATTTTGTTAACTCCTTTATATCCTTTATTGTTCGGATTTCTCCTTTCCTTACCATTTCCTTTATTATTTCCTGTAGTACATTTCCCATTTTTCGTACCTCCTCTGGTTTTATTTTACCACCAGATCTGTATCTTTTTTTCCTTATACACTTAATATTTTACACTCTCATTTTACTTGACATTCCCCACGCTTTCCTGTTTATTTCAGACTTCCAGCCTTAATTCTTCAGGTTTAGCTTTTTTTTTTTTTTCTGTGCTATTCGCTTTGCGGGAATCCTCAGCGGTTTCACCACTCAATGTTCGGCCCTTCCCTTACGCATTATTGAAACTTACTCCCTTCAGTTTCATCACCTTTCGGTACTATGACCTCTGCTGACTTCTGGCAGTTTTCGGTTTAATGTCTCCATTATTCCTGTCGGTGTAGTCTTCTGCTTCCTGACAGCTGCCAGACCTCCCCGGGTAAGAACACGTTCTTTCATTCCATATATCCGCCACATATACTTCCGGCTCTTTCGGAGGATACGGACTTCGTTTTGTTATGCAAACTCATCCAGAGTTCGGCAGCCTCTTATGTGATTTGTGTCCCTCGGATCGGAACTTTGCCTTAGGCTTCCTTCAGATTTCACCTCACGATGAACACCCTTGCCCTCAACTAACGCCTATATCCTCTTCGGCGTTCGGGACTTTCACCCTATAGAACGGGCCCATGCCGGGCACACATAAAAAAATAATCCCAGCACCCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTTCTCTTTTCTGAGTTTATGTTTATTCCTACTATATAAATTTCTTTCCCTTTGTATTTTTCATAGTACTTCATTTCTTTTATTTGGGTTAAGGCTTTTTCTGCACTTTTATCTATCTTTATTTCCATTATGTATATGATGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTCAGTCCTGCTGATGCTATTATTGTGTATATCAATGAATGATAGTAACTTTCTTCTTTTTTGTGCAAGTTGTATGGTATTGCACTTATTATTCTTTTTATTTCTTTTATTATTCCTTCTATGTCTTTTTCTTTTATTGCTTTCCATATCGTTTTATTTATTTCTTTTATTTTTCCTCTTTCAAGTTCATAGTTTGCTTCTAATATCATCTTTGAAAAACTGTTCTTTACTTCTATGTTTGGATAGTCTAATAGATATTCATATTCCATTCCATATTGTTCTTTTCCTTTAAAGGTTAAGTATCCTGATTGTGTAAAGAATATGCTTGCATTTGCTTCTTCTATTTCTCGGGTTGAAAAATCGAGTTCGCTCACTGGATACTTCACTAAGTCTTCGTATCTTATCTTCTTCCCTTTTATGTATTCATACAAGAATGATGGTGATCCACTTTCAAACCAATAGTTTTGAAACTTTCTTTCATTAAAAAATCTTAATATTGAAAATGGATTGTATACACTATCTTCTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTTCATATTCATTTCAAGTGCTGTTTCTTTTATGTGTTCTTTAAAGTTTCTTTCTAACTCTTCTTGTGTGTATCCCAACATCTGCGCGTATTTTTTATTCAATGATATATCATTTAAGTTGTTCAATGCTGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATAAATACAAACTTTATGTATTCATCTTTTGATTTTATACTCACATAAAAGTCTTTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTTTTGATAGTTTTATTATCAGTTCATTGAATGCAAACTTGTAGTCTGTTTCTGTTATTTCTATTCCATTTCGCTTTCCTTCTAATTTTATTATCTTTGTTAAACTTTCTTTCATTCTTTCCACATTATCTGTTGCTACATCTAAAAGGTTTATCCTTATTACTGGATATTCTTTGAACTCCCATTTGTCGTATATGTATGTTTCTTTAAATAGGTCTTTTTCTCCTTTAAATAGATAGTAAAGTGTTGATATCGTTAAACTCTTTCCAAATCTTCTTGGGCGAGATAAAAAGATTGGTGCTTCTGAACTTATTAATTCTAATATATACTTTGTTTTATCTATATATGTATAGTTTCCTTCTTTTATTTTTTTATAGTCTTGTACTCCTATTGGTAGTTTTTTCATTTTTATCACCTCTAATTTCATTATACCATATGTTCTCATCACTTTCTTATGAAGCTATATGATTTTTTATTGTTTTAGGAAAAAAATATTTATTTTATTTTCTGTCCTCTCACATCACCGTAAGTGCCGTTTGATATATAGCGGTTCATTATGTAATATAACATTTCATAATTTTTTTCCTATGTTTATCAGTACTTTCATTACTTTATCTATTTTTGAATCATTTATTGTTACTTCGTTTTTTTCAAACCTGGTCCATTTTTCAATTGTATTCCTGCCTTACTTTTTTTATACTTTAAACAATTGTTTTAACTACTAGAAAATTGGTTAGAAGCATTTATTATATGATTAAAAACATTATCCCTTATAATCCTAATGTAATATCTAATAATTTATTATTAATTTAATAATTTTAATTTTTGTACGCTGTGCATAATGTTTTTTTACTTTTTTTATTCTTATTCCTTTTTGTTTTACTTCTCTGTTAATTATTATTGTTTTTTTTATTTTCCTCTTGACTTAATACCAGAGACTTTCTTTTTATTCTTACTTATATAGCAAAAGTGTTCCCTGTTCTTTTATGGCACTTTTTTATTTCATGTCTATTTCCCAGGGAAAACTTCAGATATGCCTCCTCAAAATTACCAAGCTCCATAATTATTATCTAATAATTCTGAGCCATCATTAATTTTTTTAATATTTTTAGGTCTTTTAATAATTTTAATTTTTTCCATATATAAAATGTTATTTTATAATTACAAAAATATTATATCAAAAAAATCAACTTTTTTACTGAAAAAATAATATTTCTTGATTATTTTATATTTTTTATATTATTTGTTGTTTATTAATCAAAAAATGTGAAATTTTACCCGTTATTTGTATTTTTTTATTCCCATTTATAATTTATATTTTCAATATCTACCAAAGATCCCCATTTTATAATTTCTAAAAATAATTTTCTAAATTTATTTTCTACAATATCATAATTTCTTTTATTCATTATTCCAGGATTATTTTGTTGATCATTTATAGGTAGATCACTAACAACACATAATGAACCTGTAGGAATTTTTTTATCTAATCCAACTCCAAATATAGCTGCTGTTTCCATTTCAATACCTATTACATTATATTGCACTACTTTTTTCAAATATTCAATATTTTCTTTAAATCTAGCAGCAGTAGTAAATACAATGCCTTCAACTATTGTTAATTTTGATTCTAAATAAGAACTCAAACTTTTAAATAATTTAATATTTGCCATTGCTGGAATTTGATCTGGAAGATAATATTTGGTTACTCCGTCACCTTTGATTCCAGCAATAATATTTACAACATCACCTATTTTTAATGTATTTGTTAGTGCACCAACAGTTCCAATACGTAATAATACATCAATATTAAAGTTTATTAAAAATTCTGAATTTGATGCTGCATTTGAAGCACCAGAACCAGTTATAACATAAAATTCACATATATCCTTATATTTTATCCTTAGAATTTTTTGATAATCATAATATAGGGTAAATTCTTTAATTTCATAATTTAAGTCTGAATTAAACAATTTTATAACGTTTTTATACCAACTAGTGTTTTCTAAAACAATTCCATATTTAATTTTCATAATGTCACCTCTCATGTATATTTTTTTATATAACTATAGAGTTAACCAAATCCAAATTCTTGTATAAAATCTACTTAACTCTAAAATACAAATTAATTACCCCAAAAATTAGAAATGCTTTCTTACATAAAAATGTTATTTTTATTATAATAATGGGTTGATTTTATCTACAATAGTAAATTAATTTATTAATGATTTTTTATATAATTTGGTTATAATCTTTTGTAAAAAAAATATTATATTATTTTTTATTTTTTGATACAAATTTATATATTGTTTTTTTGTAATTTTTAATTTTGATAACACTACCATAATTATATTTAATAAGCAATTCCTACTATTTTCCATATCTAAATAATAAGAATCATAAAAAATCTTTTTTACTTTTCCAACTAAATCCTTTTTATATGTTGCCCAATCATAATGTAATCCATTATCTCCTTTTGTAACAATTTGATTTTCACTACAAAAAATTATTCTGTGGCATACTAACTCTCCTGTATCAAATATAATTACACAAATATCTCCTATTTTTAAATCACTCATTCTGCAATTTGATACAATTAATTTAACTTTTCCAACAATAAAAGGATTCATGCTTGTAGTATTCTCATCTGAAAAAACAGTAATATCTTTATTATTAATAATATTTTTTATAAAATAGCTATAATTCACTCTCAATCTCAATACTCCTCACGCAATAATTTGAAATTTTATCATTTTTTATTAAAAAACTTTCTAAAAACTCTAAAATCATTTATCTTTTATCTTTTCTAAAATTTCTCTAAATATTACAATAGAACCTATAATTTGTTTAATATCCATTATTATTTCATTGTTATTCTTTAATAGAATAGCTTTTTTATCTTTTTCATCAAATTTTATTATCATATCAAGATTTTTATATTCCAACATTATCACCTACTCCTAAACATAATATACACCACGGATTATAGCCTTTTTCTAATTTTAAATATTTTATTATTATATTCTTCCTAATAGAACCAATAAAACATGTTCCCAATTCTATTTCATGAGCAGCCATAATAATATTCTGAGCAGCAACAACTGAATTTTGACAACTAAATGTACTTACATATTCTCCACTATACTTACTTTCAATAATTGAATCATCACATCCAATTAAAAAAATATGTGGAGCCTCCAAAACATGCTTTTGATAATAAGTTCCTTTATAACAAATATGTTTTTCTTCAATATTGTTTATTTCTTTTATAAAAACACATTTTAATCCGCCTGAAACAGGGCCACTAAACCCTATATCAATTAATATGTTAATCATCTCTTGGCTTAGTTTGAAATTTAAATAATTTCTAATACTTTTTCTTGAATAAAATTTATTCCTTACATCATATAAATTGTTCCACATTTTTCAACCCTTCTTTTTAATAGTTTAAAAATAATAACAGATACAATCATCAAAATAATTATAAAAAATAAAACCAAAATTAATTCCTCAATTGGTTCAAATATAGTATTACTTTTTAAAATAGAATATCTAATCAAATCAAACACATAAGTTGTTGGTAAAATTTTTGAAATTATCTGTATTTTAGGAGGTAAAACTGAAATTGGAAACGTAATACCGCTTAATAACGGTATAACTCCAGTTATTAAAAACACAAAAGAATCCACTTGTTTTATGCTAAGAGTAATACTACACATAATTATTCCACCACAAATTGAAGTAGCCAATAATAAAAGTACAGATAAAATAAATAATGGTAAATTATAGACATTAAAATTTATATTTAAGTATATAAATATAAATTTTAATATTATTGCTGAACTGATAGTATATAATAGTGCTTTTATAAAACTAAAAAATATCCAGCCTAATATTAAATTAATTTTTTTTATTGGAGTAATCCAAATTTGTTCTAAAGTTCCCATCCACATTTCTTTAGATAATTGATATCCTGTTTGTTCTTGTATTGAATTAAATATAGAAAAAACAATTCCTATACTAATAAAAACAAAATAATTTTTTGTTCCCGTTGATTTTTCAAAACTTTGAATATGATTAGAAGACATTAAATATATTGACAAAAATATTGCTGGCAACATATTAATTACTGGTAATATTATTTCAAATATAAATTGCATTGGATATCTAATAAGAAAAAGTAATTCTTTTTTTAAAAAAATATAAATTTTACTAAACATATAAACCATCCCCATTTTTCAACACTCTTTTTCTAAAATAATAAAATATGAAAATAGCAATTATGTTTAATATTAAACCATAAACCCCTATATAAATTAAATCATTAGAAATCTCTGAAAATGTTGGTGAATCAATTATGGCTTGTCTAAATATATAAATCATTTTTTCAAAAACTATAAATTTACTTATTCCTCCTAACTTATATGGAAGAAATTTTATTGGTTGACTTATACCACTAAAAATAAATAGCAAACCAACTAAAACCTGTAAAAATGCAAATATTTCTTTAAATTTAATTACCATACCAGATATTATATATGCAAAACCAAAAATAGCTGGAATACTAATTATTGGAATAATAAATATTATTAAAAAATTAATATGACAATTAAAAATATATTTAATCAATAGTACTCCAATAGACAAAGTTAAACTATTAATTCCAAGCGTAATTAAACTTTTTCCTATCATTATAAAAATTAAATTTGTAGGCGATAAAAATATTTGTTCTAATGTTCCTATTTCTTGTTCCTTTCTAAGCGACAAACCAATAACCCACAATGCTTGGGATATATACATCCAAAATACTCCACCAGACAACATCCACAAATATTGCTGTTGTTCAACATTGTATGTTTTAGTAATATAAAATAATGGCAATAAGAAAAAAAGAGTGGCAATTATAGTATAAAATAAATTCAAAGGATATCTTTTTAAAATAAGAAATTCTGACTTTGCTGCTATCAATATATGTTTCATAATGAACAACTCCTTCTTAAAAATAATTGGAAACTATATCCTCCAAAGTAATTCCTTTTACTTCTAAATAAAGTAACTTACCTTGAGAACTCAATAAATCAATGATTTGTTCTACATATAAACTACTAGTTTTTACTCGATATGAAAAAGAATTATCAACAATTAATTCTTTTATTACACCTATATTTGAAATTTTCTTTTTTAAATTATATTCTATTTTAGATTTTAATTTAAATTCTATTATTTCTTCCATTTTATTTCTTTTTTTTAAATAATCAATTGTTCCTTCTTCAATAATGCTTCCACCTTTTAATATACCAACTCTAGAACATAGTTCCTCAGCTTCATGTAAATAATGAGTCGTTAATAATATTGTTAAATTTAAATCTTCATTTAGTTTTTTTAATAAATTTCTATACTCAAATGCTACTTGTATATCTAAGCCAACTGTTGGTTCATCTAAAATTAAAACTTCAGGATCACTTATTAAAGATTTAGCTATTAATAATCTTTGTTTCATTCCTTTAGAATAAGTTTCAACTAAATTTTTCTTATATTTACTCAATCCCACATAATCTAAATATAATTGTATATTTTCTTTAAGTTTTTTCTTTGGTACATTATATAAAGTACCAAAAAATTCTAAGTTTTCCTCGGCCGAAAGCTTCCAATATAGCGATCTATCACCTCCCATAACAACTCCCAATTTAGATTTAATTTCTTTTTCAGATTCATTATAAGTCATTTTAAATAATTCAACAGTCCCATTATCTGGTACTAAAATACCTGTAATTATTCTAATTAAGGTAGTTTTTCCTGCTCCATTTAATCCAAGTAATCCATAAACTTCTCCTTTTTTTATTTTAATATTTAAATTTTTTAGCACATTATTTCTTTTCACAGTTTTAAACCATTTTTTTTTAATATAAGATTTATGAATATTCTTACAACTAATTATATCTTCCATTTTTCCCTCCTAAAATAGCTATAGTATCTTTTTCTAAATTTAATTTATAAAACTATTTATTTAAAGTAACTACAAGAAAATATTTCTCTACAACAGTTATAATTTTTTATCCAATGTCCATTTCATTAAAAAATATTATGAATAGTTGCGAGTAGTTATTATCAAAATTTTTGTGTAACCCATCATTTATTAGTATAACCTTAATAAATAAATTAATATTTTATTTAAAATTTAACTCTATATATTTATAGAAAATTATATATTATACAAATCAAAACTTTTTTATGGTTTCATTTATTTGCATTCTAAAACTTTCATCATTTTCATATATTTCAGCCAAACACCCTGAATCTTTACTACACATTCTTAACATTGGATTATTTTTCCAAATTTTAACTAAATTATCTTTAAATATATTACCTAATTTTATTTTAAATTCTCCACAAGGTTGTATATCTCCATTAACTGCTATTGCAAAAAAATAACCACATCTTTTATTATTTTTTTCTATTTTAATTTTTTTACTTATATTTAACTCTTTTTCAATTAAAGCAGCCCTACCTACTAACATTTGTTTTCTTATAATGTGTGGTATATTTTCACGTTTTAATTCCTCATGTAATTTTTTTATCGATATTTTATTTTCAGTTGTCATAACTGAAGCTACAGAGATTCCAATATTGCTTTGTTTTATCAATTCTATATTCTTTTTAATAGTGTTATATACGTTTTTTCCCATTATTTTATCATTTACATTTGCTTGATTTCCATGTAAACTAATTTGAATCCACTTAACTTTCAATTTTTCAAGTTTTTTAATATTATATGAATTAATAAGAGTTCCATTAGTTGATATAGTAACTTCAAGATTCTTTTTTCTAAGCTCTTTGATAATATCAAAAAACATAGGATGACTCATCGGTTCTCCACCACTTAATGAAACATATAAACATCCAACTTCTTTTATTTTTTTTGCAACTTCTTTTATTTTTATAGTATTTAAATTTTCAAAATCCTTATAATGCTCAGAATTCATACTACAAAATGAGCATTTTAAATTACAATAATTCGTTATATTCCATTCGCAACTAACAGGTTGTTTCATTTAAATTTACTCCTTTCCAGCATAATGGGTCAGATGCATTTATATCTCCAGTCGAAAGATAGGCACTAGCTCTACACCCCCCTTTACAATCATCCAATAAATCACAATAATTACATTTACCATTTAATTTTATATCTTTTCTCCATATGGAAAAGCCATCACTTTTACTCCAAATATTTTTTAAAGTATTTTCTCTAATATTTCCACATATCCATTTTTCATCAGTTAGAATACCACAAGCTGTAACATCACCAAAAGGATTAATATTTACATTACACGTTCCAGCACCACAATTATTGGTTAAAAATAAACTTTTATTAGTCTTAATTTGTTTTGTTCCAATTATGCTCGGAACAAAACAAGGTAATATCAAATTGAATTTATTTTGAACTACAAGAGGATGGTTATAAAGTTTTTCAATTATTTCTTTTATCTTATTTGGACTAATAAATAGCTCTTTTAAATTATTAATTGCATTTCCTTGTGGTAATAAAAATTGCAATCTCATGTTTTTTACTCCAATACTATTAAGAAAATTAATTAATTTATAAATATCTTCAATATTTTTTTTATATACTAAAGTAGCTACTGAAACTGGTATCTTAACTCTTACTAAATGTTTAATTGCTTCTATAGTTCTAGAAAATGTGTTTTTGCCTCTAATATACTCATGATTCTTTTCATTAACTCCATCTAGGCTAATTTGAATTCCCTGTATTCCTATATTTTTCATTTTTTTAGAAGTGATTTTATCTATATATAAGCCATTTGTTGCTACAGTTGTGATAATATTTTTTTTGCATATATATTCTGCCAATTCAAAAAAATCTTTTCTAATCATTGGTTCTCCACCAGCAAATTGAAAAGATATGACCTTTAAATCTGATAATTCGTCAAACATTTTTTTAGCCTCTAGTGTTGTAAGTTCATTATTCTTTTTATTATTGCTTCCAAAACAACAATGTAAACAGTTTAAATTACATTTATAAGTAGCATCCCAACAAACAAATAATGGACTAGAAAAAATTTTATTCATATAAAATACCTTCTTTTTGAAATTTAAAAATAAATTCATAAAAAAATTGTTTAATTTCTTCCTCATTGGTATCTGGATATATATACTTTAAATCCTCTATAATTTTTTTTCCGTTTTATTTAAACGTTTTATTATTTCGTTAGCAGATTCATTTAACTCAATCAATATTCCCTTTTCTGTATCAAAAATAACAGCATCATCTTCTCTATAAATTAAGTTATCCTTTAATTTCATTTTTTCCCTCCATTAAATATGATTCGATAAACTAATTTGTTTTTTTATTTACACAAAATACATATTATTTTGTACTAACAAATCAAACAGTAAATACTGTTTATTAATATTTAATAGTAGCAGATTAATTTTTTTAATCCGCTACTATTTTATTTTTACATTCAATCAACTACTGATGAACAACCTGTCTTACTCATACATACAGTAATTTCCACTATTGTATATTCTGGTTGTTGCATTTTTTTATCTTTTTTCATCTTTTTCTCACCTCTTTTTTTAATTTAATTTGTGCGCACAAATATTTAATTTTAATTACAAAAATAAAATTAACCTTAATTTTTAAAAAAATTTTATGATTATTGTATAACCATATATCTCTGAAGTTTTTTTCTCTAATATTTCCATGTTTTAATTTTTCATTAATAAGTAAATTACATGGATAGACACCTCCATCTGAATTAATATATACCGTTCGATTATCAATCCCACAACATTTTTTCTTAATTTGACTTATTAACGAATCTAAAATCATCCTTGCTGAGTCTTTTTGTAAAATATTTTTATATTTTTCATCATATTTTTTTTAAATTTTTATAGTTTTAATAACCTTATCAAATGTATTTCTATCTCTGTTGAATTCATGTAATTCTTTGGTAATTCCATCCAAAGAAATTTGGAGAGTTAATTTTTTTATTTTTGAAAGTCTCTTGGCATCATTTTTGCTTTGTGAAAATAATCTTTAATAACTTTAAAACAATACTTTAAGTTGTTTTATTTATATTTTTAATATTACAAGAAAAACCTTTATATGTAATTAGCGTATCTTTATGTTTGCTTTTTGTAAACTAACACAAGCATTATATCACTTTTAATGTTAAATAAATGTTTCGTTTTTTTTTTTTTTTTTTTTGCAGAAAGGTTATTTTTTTGTAAATTTTCCAAAAGAAATATCTTTTGTCTTTTTTCATATTTTTTATACAAAGAAAACTATATCTCCAATATTTTTTATATTTCTCTTTAATCTTATTTATCTTCCTCAAAAATTTAATATATTTCATTATAACATATTTCATTTGATTTCACTTTTTTGCGTGTGCTATAAGATGATTTTAGACGACGATTTTTCTTAAAAATTGTAACATTGAATTTTTTTGTTTATAACGTCCCATTTTATAAAAAATATAAAAAAAGTATCCTGTAAAATTTTACAGGATACTGGGTATTGTACTATATATTCCATTCCTTGTGGTGTATCTTTTAATATAATTCCACCTTTTTTATTATGAAATCTGACATTTCATAATTTTTTTTCCTATGTTTATCAGTACTTTATCTATTTTTGAATCATTTGATGTTACTTCGTTTAAATATTCCTAATACTGATCTCATTTCATTTTTTATTAAATGGTAGTTTTTTTGTTGTTCATTTTTTTTGTTATTGCTTTGTTTAAATTTTTTTGATACTTCTTTTTTTCTTCTTGACCCATTTTTCTTTTTTATTCCTGGCTTAATTTTTTTATACATTAAACAGTTCCATGTGTGGAAGCGTATATTATGTCTTAATATTTTCGGTTTATAAATGTCCCCTTGAGGGGACGAGGTTTTCTCGGAGGGATGTTTGGATTTCTAATTTTCTATATAATAATAAACAGCGAATATACCAATAAACAACATCCCTCCGTCCTGCGGACACGCCCCTTCAAAGGGGCAGTTTTCCATGGAATCCTCTCATCTTTTAAAAGGAGTCTTTTTCCCTTCATGGCCCATTTTTCAATTGTAATTTGGCTTATTCTTCACTTGCAAAATACAAGTTTTTTTTAAGGTCTATTTTGCCACTCTTGTAATTTTGGTAAAATGTTATCAGTTATTTTACACTCCCTTTTATATATTCTTTATAAAAAAATATCCCAGCACCCGCTGGGATTATATCTTTTCTATTTTGTATTCGTCTATGTTCCTTTTTTCTGAGTTTATGTTTATTCCTATTATATAAATTTCTTTTTCTTTGTACTTTTCATAGTACTTCATTTCTTTTATTTGATTTAAAGCTTTTTCTGCACTTTTGTCTATCTTTATTTCCATTATGTATATAGTGTCTTCCTCTATTACTATATCGCTTCTTCCTAAGTTCGTTAATTCTTCTGCTGTTACGTTCAGTCCTGCTGATGCTATTATTGTGTATATCAATGAATGATAGTAGCTTTCTTCTTTTTTGTGCAAGTTGTATGGGATTGCACTTATTATTCTTTTTATTTCTTTTATTATTTCTTCTATGTCTTTTTCTTTTATTGCTTTCCATATCGTTTTGTTTATTTCTTTTATTTTTCCCCTTTCAAGTTCATAGTTTGCTTCTAATATCATCTTTGAAAAGCTGTTCTTTACTTCTATATTTGGATAGTCTAATAGGTATTCATATTCCATTCCATATTGTTCTTTTCCTTTAAAAGTTAAGTATCCTGCTTGTGTAAAGAATATGCTTGCATTTGCTTCTTCTATTTCTCGGGTTGAAAAATCGAGTTTGCTCACTGGATACTTTACTAAGTCTTCGTATCTTATCTTCTTCCCTTTTATGTATTCGTACAAAAATGATGGTGATCCACTTTCAAACCAATAGTTTTCAAATTCTCTTTTTTTAAAAAATTGTAGTATTGAAAATGGATTGTATACAGAATTTTTTCCATCAAATGAAAATCCATTGTAGTACATCTTTAAGTTTTTTAATAACTCTTTTTCTTCCATCTTCATTTCAAGTGCTGTTTCTTTTATGTGCTCTTTAAAGTTACTTTCCAACTCTTCTTGTGTGTATCCCAACATCTGTGCATATGCTTTATCCAATGATATATCGTTTAAGTTGTTCAATGCTGAAAATACTCCTGTTTTTGTGAACTTTGTTATTCCTGTCATGAATACAAACTTTATGTATTCGTCTTTTGATTTTATACTCACATAAAAGTCTCTCAATATTTCTCTATACTTTTCTGCTTTTTCTTTGTTGTTTATATTGTCTAATATTGGTTTTTCATATTCATCTACTAATATTACTACTCTTTCTTTTTTTGATAGTTTTATTATCAGTTCATTGAATGCAAACTTGTAGTCTGTTTCTGTTATTTCTATTCCATTTCGCTTTCCTTCTAATTTTATTATCTTTGTTAAACTTTCTTTCATTCTTTCCACATTATCTGTTGCTACATCTAAAAGGTTTATCCTTATTACTGGATATTCTTTGAACTCCCATTTGTCGTATATGTATGTTTCTTTAAATAGGTCTTTTTCTCCTTTAAATAGATAGTAAAGTGTTGATATCGTTAAACTCTTTCCAAATCTTCTTGGGCGAGATAAAAAAATAGGTGCTTCTGAACTTATTAAATCTAATATATACTTCGTTTTATCTATATATGTATAATTTCCTTCTTTTATTTTTTTATAGTCTTGTACTCCTATTGGTAGTTTTTTCATTTTTTATCACCTCTAATTTTTATTATACCATATGTATTTTTTAAAATTGAATTTTTTTATATAAAAATATCCCAGCACCCGCTGGGATTTTATTTTTTGAATACTTCCTTGAGAGTTATAATCGTACCATGCTACATCAATGGATATTTCACTAACCGACCATGTATAATTTTTAGAATAAATATCTTCCTCTCCTCTTTTTTATTTAAAACTTTTCTAGTATAAAACCTATTTTTTATCTTTTAACTTTAAAAATTTCAGAGATTTATTTTTTTAAATATTTGTCCATCCATTCAGTTATTTCTTTTAGTCTTCTTATTCTATGTTCTGGTTTTCCACCTCTACTCAATTCATGATTTTCTCCATGGAATAAAACGAATTTTGATTCCACACCATGATACTTTAATGCTGTAAACATTTGTATTGCTTCAGGCATATAACATCTATAATCTTCATCAGAATGTATGAATAAAGTTGGTGTTTTTGCTTTATCTGCAAACTTTAATGGTGATTGATTCCACATTTTTTCAAAACCATTCCATGGATTTGTATCCATTTGATCTTCTGCAAAATAATATCCTATATCTGTAGTCATTCCCATTGATATCCAATTTGAAATACTTCTTTGTGAAGCTGCAGCTTTAAAAAAATCAGTATTACCTATTATCCAATTTGTCATGAACCCACCATAAGATCCACCAGTTACTCCAATTTTTTCTTTATCTATAAAAGTATATTTTTCTACAACATATTTTGTAAAGTTCATTATATCTTCAAAGTCTATAGTTCCATATTTTCCTCTTATATCTGCAAATTCATTTCCTCGTCCATCGCTTCCATGTGGATTACAATAAAATACAACATAATCTCTATTAGTCCAATATTGCATTTCATGATAATAAATATCAGAATAAACTGTTTTTGGACCACCATGAATATCCAGTATTGCTGAATATTTTTTATTTTCATCAAAATCAATAGGTTTCATAATCCATCCAACTATTTTATCTCCATTACTCTCTATTTCAATTTTTTCAGGAATAGAAAGAGATTTTTCTAAAACCCATGTATTAAAAGAAGTTATTTGTTTTCCATTTAAATACAATTCTTGAAGTTTTAATCCTTTTAATCCTGTAAATACAACTTTTTCATCAAAGATATCATATCCATCAACTGTACCTTCTTCATCTATTACTTTTTCTATTTTTCCTTCTTTATTTATCTTAAAGAGTTTAGAATAATACTCTTGTGTAGAAACAAAATAAATATGTTCATTCTTTTTTATCATCATTTCATTTCCACCAAATCTACTATCTGTTCCAACAGAGTTCCAAAGAGATGCATCAAAATTTGGAGTTATGCACTTTATATCTTTAGTTTTTATATTTATTTTATAAAACTTTTTATTTTCATTTATTCCATATAGTTTCATATCTGAAGCAGGAACTATTATTGTTTCATCATCAATCAAAAATGGTTTTGAAAAATTTAATTTATTTGATACTGAAATTATAGTTTCTATTTTTTTATTTTTTATATCATACAACTTTATTTCATTATACTTTTCCATTTTATTTTCATAAGTATTAGATACAAAAACTATTTTTTCATTTAAAATATCATATCCACCTACATTTTCATATCTTTCTGTTATTTTTTCTATTTTAGAAGTTTTTTTATCATAAATACACAAAGTATTTCTTTTTTTATTAGAAAAACCTTGTCCATTAATCCAAAACGGTATTTCATCAAAAACTTTATAATCTTTTTCACTTTCTTCTTCCATTATTACAGTAATTAAAAACTTATCATCATTAATTCTTTTTATTCCGGTTATTTTTTCTTCCACTTCAAAGTCTTTAATTGCTTCTCCACCATTTACATTTATCTTATAAAAAATAGTTCTTTTTTTATCTTTATCATTATTTTCTTCGCGCATAGATGGAAAGAGTATATTTTCATCATCCAACCATAAATAGTTCTTTTCTTTTCCAAAAGATGTTAATTTATACAATCTTTCATTATTATAAATCCATAAATATGAATTGTATCCATTTTTTTTCATATCTGCTTCATGTTGAACAAAACATATTTTTTCTCCATCTGGAGAAAATTTTAAAGTCGATATATACTTAAACTTAGTAAATTCATCTAAAGTTAATTTTTCCATTTTTATTCCCCCTTTTTTATTTTAAAAATAATTAGCTATATTAACTATTATACCACTTTAATTTTAATTTTTTACAAATTATAAAAAAACATTCTCATACATTTTTAAATAATTATTTTTTCATCAAAAAACCCTCATATTAAATGTGTAAAATAATTTAGAATTTAAAAAATGGAGGTTATACAATGAAAAAAACTATTTTATTCTTCTTTTTACTCATTTCTGCTTTCGTGTTTTCAAAGGTTTATATTTTACAAAATTCTCATTTAAAGTTTAGTATAAACACTAATAATATGGAAATAACAGCAGAAAAAAATGGTAATTATGAAATTATTTCATCAGGTAAAACAAATTTTATTCCACAAAAATTACTTGTTTCAAAGAATAAGCTTTCTTTTGAAACAAAAAATGAAAAAATTATTTTTGAACTAAAAGATTCTTATTTATCTGTTTTAATAGAAGCAAATAAAGTAGAAACTTATGAATTTTTAAAACTAAATGGAAATGCTTACACACTCCCAATGCAAGAAGGTAAGTATATACCAGCTTATGATTCTGATTGGATTAAATTCCTTGATGGAAATATAGAAAAGGGATCTGAATTTTTATCAATGCAATTTCTTGCATCAAATTATAAAAATTTTTCTTCATTATTTATAATAGAAAATATATTTAATAACAATATAAAGTTTTATAATGAAAATAAAAAATTAAAAATAAGCGTATCTCATGATTTCACTTCATTAAATATAAAAGATAAATTACAGTATAGAATATATATATTAGAGAATTCTTCAGAAAAAATAGCTAAAACATACAAAAAGTATATTTTAGAAAAAAATAAATTTATTTCTCTTAATAAAAAAATTGAAAATAATAAAAATATAAAAAAAATGTTTGGAGCTCCACACATATACTTATGGTCAGATGAAATCTTAATTCCACAAAATATAAAAAATTGGAAATTATTTAAACAAAAAGTAAAAGATGATTTAAACTCAAAAGATTATAATCTAACTAAACATTTATTGAATATTTTTAAAAAAAATAAAATTGAAGATTCTAAAGAAGCCTTAAACAATTTTAATTTACTTTTAAAAGAAAAATGGATATATACTTATTTAAAAAATACAATTTGTACAAGTATAAATAAAGCTCTTTATTTAAGAGATTTTTATAATGATAAATTATCTAAATATATGAATGAAGAAGTTAAAAATATAAATTCTATGTCTTTAACTCAAATATATAAAATAAATAAAGAGATTTTATACAATGCTTATAAAGAATATCTTTATCCAATAAAAAATTGGGGAAATGGTGCATCAGATTATATTTTAAATGAACTTTGGAATTCTGGTATAAAAAAAGCATGGTTTGGTTTAAGCGATTGGAAAACTGGAATAATGAATTCTGAATTTATTAAAAATGCTGTTGATAAAGGATATGTAATTGGAACTTATGATTCATATCATTCAATTCATGAACCAGGGAAAGAACTATGGAATACGGCAAAATTTGAAGACAAAACCCTTTATTATAAGGCTACTATACAAAATAAAGAAGGAAAATATTTAACTGGATTTTTAAAAAAAGGTAGAAAATTAAATCCAACACTTGCATTAAATGCAGTAAAAAATAGGGTTGACAAAATTTTAAATACTGGAGTCAAATTTAATTCTTGGTTTCTTGATTGTGATGGAGCTGGTGAATTTTTTGAAGATTATGCTCATAACACATCCGAAAAAATGGATATGGATGCAAGACTTAAAAGAATTGACCTCCTTTCAAAAAAAGGTTTAATAGTTGGAACAGAAAAAGGTAATGATTATTCTTCAAAAAATATTATTTTTTCTCATGGAATGGAATCTTTTGTAATGGATTGGTCAGATAAAGATTTAAGAAAAAATCAAAAATCAAAATATTATCTTGGCAAATATTGGGCAGCAATTGGTACACCTTTTAGATATTCAAAAGAAGTTCCATTAAAACCTATTCATAAAAAAATATACTATAATCAAAAATACAATTTACCTTTATTTCAATTAGTTTATCATGATTCAGTGATTTCTTCATATCACTGGGAAATGGGAAGCTTAAAAGCACCAGAAGAAGATATTAATAACATGCTTCGTGAAATGCTTTATTGTATTCCTCCACTTTATCATTTAGATAGAGTTTTGTGGAAAAAATACAAAAATACTATTATCAATCATATAAATGTGTGGTCAAAATTACATAAAAAATTAGCAAATGTTGAAATGACTAACTTTAAAATTTTGAGTAATGATAAATTAGTTCAAATGACTGAATTTAAAGATAAAACAAAAATTATTGCAAATTTTTCATTAAAAAATTATATATATAAAGATACAAAAATTCCTCCAAAATCAGTTTTATTATGTATTGAAAATAATAAAGTTTTATATTCACCAAAATTATATTTTTAATGAAATTTAATTGAAATTTTCTTGATGTATCATTATAATGAAAATATTAAAAGGAGGGGATATTATGAAAAAGTTTATCTTTTTTATTATAATTTTATTATTTTTATCATTAAATTTTTCATACACAATAAAAGCTGGTATTGAAATCAGTGGTCATATTTTTCCTTATATTGGTATCTCATATAAATTAAATAATTTTGAAGTTGAAGGAGATTTTGCAACTATTGCCGCACCTTATGAAAATGGTATTATTGTTTTGTATGAGCCAATTTTAAAATTAAAATATTATACTGATTTTGCAATTAATCTTGAAGGAAATTTTAGAATAATAAATGTTTCTATAGAAAACAGAAGATTATTTTTAACTGGCGGAGGTTTAGGTTGTAATCTTTTTGATGGAAAATTCAACCTATCGATTTTAACAGAGTTAATACTTCCATTTTCTGCCAGCAAAGAATTTAAACCCGTTCCATTTTTAAGCCTTGATTATACTTTTTAGGAGGAATAAATGAAAGTATTAATAGTAGAAGATGAAGAAAAAATAAGATGGATAATAAAAGATTATCTCATAGAAGAAAACTTTGAGATAAGTGAAGCTAATGATGGTGAACAAGCACTCGATTTATTTTATAAAAATAAATATAATTTAATAATATTAGATTGGATGCTGCCAAAAATAGAGGGAATTGATGTGTGTAAAGAAATACGAAAAAGTTCTAATGTACCAATAATAATGTTGACTGCTAAAAATTTAGACAATGATCAAATTAAAGGCTTTAAAAATGGTGCAGATGAATACATAACCAAACCATTCAATCCTAATTTATTAGTTTTAAGAGTTAAAAATTTGATTAAAAGATGCTATGGAGAAGAATTAATAAAAATCAAAAATTTAATGATAGATTTTAATTCAAAAAAAATATTCAAAGATAAAGTTGAAATAAAATTAGCTCCAAAAGAATTTTTGCTTTTATGGTATTTTTATAAAAATAAAAATATAACTCTTTCAAGAGAAAAAATTTTAAATGATGTTTGGGGTTTTGATTATTTTGGAGATGAAAGAACTGTTGATTATCATGTAAAAGAATTAAGAAAAAAATTGGGAAAAGAGTTAATTAAAACAAGAAGAAATTTCGGATATATATTTGAGGTATCTAAATGAAATTAAAAACAAAAAATTTTCTTTTAATAAATTTTTTATTAATTTTTATATTTTTTTCAATATATTTTTTTATAAATATTTTTTTGGAAAAATACTATATATACGAAAAAACTAAAAAATCTATAAATATATTAAATGAATTAATTAAAGATGAAAAAAAAAGTGAAATTCTTTCAGATTCAGAAACAACAATAAACATTTTTGAATATGTTGACAATGAAGATCTATTCAATGATCGTCTAAGGCTTGGTTTTCATGATAAGAAATTGTTTTTAGTAAAAATCTGGGTAATACAAAAAAATATAGATAAAATAAAAAATGGAGAAACTTACATACAGTATTATAAGCAGCCAAAATTAAAAACAACTACCATTATTACAATAAAACTGTATAAAAACAAAGTAATAAGTGTAGCAGTTTCTTTAGCTTCTATGAAAGATACAATAAGTTTATTTAATAAATTTTATTTATTTGCTTTAATAATAACTTTAATACTTTCAAGTATTGGAATAAATATTTATACAAATAACCTTGTAAACAAAATACAAAAAATAAAAAATGCTGCAAAAAAAATTTCTAATTTGAATTTTTCAGAAAAAATAAAATTAAATACAAATGATGAATTACAAGAATTGAGTGAAAGTATAAATTCACTCTCAAAAAAACTTGAAGTTTCTATAAATAAATTAAAAAAACAAATAAATTATCATGAAGTATTGAATGAAAAACAACAAAATTTTATATCAAATGCAGGTCATGAATTAAAAACACCAGTCACAATAATTGAAGGATATGCTCATGCTATAAAAGATAACATAAAAAATGATAAAAAACGAACTTTTTATTCTGAAATAATAGTAGAAGAAAGCGAAAAATTAAAAGATATAATTAATACTTTTCTTGATTTTTCATCAATAAATAATGATGAAATAATTTTTTACCATTTTAATATTTATGAAGTAATATTAAATGTAATAAAAAAATACAGTTTAGATTTAGAAGAAAAAAATATACAAATAAATTTATTAATAGATAAAGGCACTGTAGTTTATGGAAATCCTAAAAAACTGGAACAAGTATTTGATAATTTACTTTCAAATGCATTAAGTTTTACCAATAATGTTATTACAATAAGTACTAAAAAACAAAATAATAAGATAATGTTTTTTATTTTCAATGATGGTGAACAAATTCCAGTAGAAAAAATAAATGATATATGGACTCCTTTTTATAAAATTAAAACTTTAAAAAATAGAAAATATGGCGGAACAGGACTTGGTCTTTCAATAGTAGCCGAAATATTAAAAAAACACAATTCTAATTTTGGGGTCAATAATTTAAACAATGGAGTAGAATTTTATTTTAGTCTTTATACTTAATTTATGTAATAACTCATAAAATGCGTGAATATAATAATGAAAAAATTAAAAAAACAACCGACATTAGTCGGTTATTTTTTGGCGTACCCGGCCGGAATCGAACCGGCAGTCTTTGGAGTCGCAGTCCAACGCTCTATCCAATTGAGCCACGGGTACGTTTTTATATAAAAAAAATGGCGGAGAGAGAGGGATTCGAACCCTCGGTAGAGTTACCCCTACACTTGCTTAGCAGGCAAGCGCCTTCGGCCGCTCGGCCATCTCTCCGCATCACGCAAATATTATAACATGGATACGTTTACTTGTCAAGTATTTTTTTATTCTTTTGAATTTTTCTTAGCTTTGTTAAAACCAATATTCCACCAACTGTAACTGTTCCCATCCATATGTATGTTGTTTTCATTCCAAATGAATCAAGACTCATACCAACAAATGGTGAAAAAATTGCAAAACTTAAATTTGCAACAAGGCTGACTAAAGATAATACTGTTGCTCTATATTCATTTTTTATTTGATGATTTATATAAAATTTAAGAGTTGGCGGGTACAATCCTCTTAAAATTTGTTGTAAAGATAATACTATCACCATAAATGGAAAAATAAATATTGCAGGAAGTATAAAGGTTATTGATAATAAAATCAAAAGCCTTATTAAAACTTTTCTTGGCCTTTTATCATAATATCTCTTTACTAATATTTTTGAAGAAAATACTGCAATTATATTAAAAAAGAAAAATATTACCCCATACCACATAACGTCTATATTTACAGATTTAAAGTACGGTTGATAAAGCCAAAAACTACTCTTAAATGTAAATCCAATAATAGCCGAAAACACTATTGCCCAAAGTATTCTTGGTGTTTTAAAAGCAATATTAAAACTTTTAAAAACATGAATTAAATATTTGTGTTTACTCTTATTTTTAGATGGTTCAGTAAAACTAAATGCTATTAATGATGCAATTAAAACATTTACAATGCTTATCCACCAAGGTGCATATGGATTTATTTTATACAAAAATCCACTTAAAATAGAACCAAATGCTTGACCTATAAATATATAAAACGATGCATGACCTTCAAAGTATTGATAATCTTTTTTTCTTCCTAATTTATCTAAACTCTCATACAATATTGCTGAATCGGCTCCACTTGCAAAAGTTAGACCAATTCCAAATAAAATTTCAGCAATTGCAAATAAATAAAAAGAACTAAAAACTATATAAAATAAGGTTCCAAGTGCTATAAAAAAGCCAGACATAACAAGCGATACTTTTCTTGAAATTTTATCTGCTATTGCTCCTGTAGGTACTTCAAATACAAAAACTGATATTGCAGCAATTGATTGAAGCAACATTATTTGAGAGTAATTAAGTCCTTTAAACAGCATATAAGGAGTTAATATAGGTCCTATTATCAACATGGATATAAAAAACCTAAATAAAACATAAACCTTTATATTCTTTTTAAACCGTTGTACTTCCATATAACCACCTCCAAATTAATATTGAGAATATTTTAACACATATAATTATGAATGTCAAATATTATTATTTAAATATTTTTAATACTATTATTTTTATATTGAAATAAATTAAAATTTCAATTTATAAAAACTTTTCATTAACTTTATAATTTTTCATTTATATTTGATATAATTAATATGTAATTACTTTTTCACAAATTTATTTTATGGAGGTTTTTATGAGAAGTATTGAATATTTAAAATTACTTTCAAAAGAATATCCAAATATTGCAAGTGTTAGTTCTGAAATAATAAATTTACAAGCAATTTTAAACTTACCAAAAGCTACAGAGCATTTTTTAACAGATTTACATGGAGAAGACGAAGCTTTTGATCATGTAATAAGAACTGCTTCTGGTGTTTTAAAGAGAAAAATAGATGATATATTTGGAGATCATTTACATGAGGAAGATAAGAAACAACTTGGTGTTTTAATTTTTTACCCTGAACAAAAATTAAAAGAGTTACATGAAAAAAATATAACAACTCCAAATTGGTATAAAATAACTTTAAATAGAGTCATAAATATTTGTAAAGTCATTTCTTCAAAGTATACTCGTTCAAAAGTTAGAAAAGCTTTACCAAAAGATTTTGCATATATTATTGAAGAGTTACTTCATTTAAAAAATACTCAATTAAATAAAGAAGGTTATTACAATAATATAATAAATACTATTATTGAAATTGGAAGAGCAGATGATTTTATAATACAAATATCTTATTTAATTCAAAGACTTGCAGTGGATAAACTTCACATAGTTGGAGATATATTCGATAGAGGAAATGGTGCACATAAAATTATCGAAAGATTAATAAAACATCATGATTGTGATATACAGTGGGGAAATCATGATATTTTATGGATAGGTGCAGCTTTAGGTCATCCTGCTCTAGTAGCAACTGCTGTTAGGATAACTTTACGTTATGCAAACTTGAGTATATTAGAAGATTCTTATGGTATAAATTTAAGACCTCTTTTAACCTTTGCAATGAATACTTATAAAGGTGACCCTTGTGAAGAATTTATGCCAAGAGTAGATAAAAATCTTTTTAATGAAAGTGAAAAATATATGATTGCACAAATGCACAAAGCAATTTCTATAATACAATTTAAAGTTGAAGAAAAAATAATGAATGAATATCCAGAATTACACATAAATAATATAGATTATTTAGAAAATATAAATTATGAAAAAGGTACAATAAAATTAAACAATACAGTTTATTCTCTCACTTCAAATAATTTTCCAACAATTGATCCTAAAAATCCTTTAAATCTTACAAAAGAAGAAAGTGATGTTTTAAATAATTTGATTAAAAATTTTACTGAAAGTGAAAAATTAAAGAGTCATATTTATTTTTTAATAAATAAAGGTAGTATGTATTTAAAAACAAATGGAAATTTATTATTCCATGGTTGTATACCTATGAATGAAGAAGGTAACTTTGAAGAAGTTGAAATAAATGGAAGAAAGTATAAAGGAAGAGCTTTATTGGACAAATTTGATGTTTATGTAAGAAAGAGTTATTTTCATAAAAATGAAAATAATAAGTATTTAAAGTGGTTGTGGTATTTATGGCGAGGTGAAAAATCACCTTTATTTGGAAAAAATAAAATGTCAACATTTGAACGTTACTTTATAAAAAATAAAGAAACTCACAAAGAAATTAAAAACTCTTATTATACTTTACGTGAAAAAGAAGAAATAGCTTTAAAAGTTTTAGATGAATTTGATTTAGATGAAAAAGGTTATATAATAAATGGTCATACACCAGTAAAAGTAAAAAAAGGTGAAAGTCCAATAAAAGCAAATGGACGACTTTTAGTAATAGATGGTGGATTTTGCAGAGCTTATCAAAATACAACTGGAATTGCTGGATATACATTGATTTTTAACTCTTATGGATTAGTTCTAAATTCACATAAAAAATTTGAAGGCACTAAAAAAGCTATTATTGAAGGTCAAGATATCATTTCTTCAACAAATGTTTTAAAGAAAGCTGAAAGATTAAAGGTAAAAAATACAGATATAGGAAAAGAATTAATAAAAGAAGTTGAAGATTTAAAAGAACTTCTTGAAGCTTATAAAAATGGTGTTTTAAAGGAAAAAGAGAAAAAATTTAATATTTCTAAACTTCTTAACTCTATATAAAGAATAGGCCCATAGGGCCTATTCTTATTTATTTAAACTATAAAATGCATCTTTTCCTCTGTATTCAGAAACTTCTCCAAGTTGTTCTTCAATTCTTAATAATTGATTGTATTTTAAAATTCTATCTGTTCTTGATAATGATCCTGTTTTAATAAATCCTGCATTTGTTGCAACAGCAAGATCAGCTATAAATGCATCTTCTGCTTCTCCTGATCTATGAGAAATAACAGCTGTCATATTATTTTTCATTGCAAGTTCTATTGTATCAAGTGTTTCTGTAACTGATCCTATTTGATTTAATTTTATTAAAATAGAATTTGTTGCTTTAGTTTCTATACCTTTTCTTAGTCTTTTTACATTAGTAACATAAAGGTCATCTCCAACTATTTGAGCTTTATGACCAACTTTAGCTGTTAAATTCTTATAACCATCCCAATCATCTTGATCAAATGGATCTTCTAAATTGATTATTGGATACTTTTCAATTAATCCTGCATAGTAATCTGCTAGTTCTTCTGAAGTTAATTCTTTTCCATCAACTGAGTATTTTTTTGTATCTGAATTATAAAATTCAGATGCAGCACTGTCTAATGCAATAAATACTTCTTCTCCTGGTTTGTATCCTGCAGCTTCAATTGCTTTCATTATATATTGAAGTCCTTCTTCATTTGAATTCAAATTAGGAGCAAATCCACCTTCATCTCCAACAGAGGTTGCAAGACCATTTTCTTTTAATATCTTTTTCAAAGTATGAAAAATTTCAGAACCTGCTCTTAATGCTTCTCTAAATGTTGGAAAACCTAAAGGCATTATCATAAATTCTTGAATATCTAAACTATTATCTGCATGTTGACCACCATTAACAATATTCATCATTGGTGATGGTATAACCTTTGCATTAGGACCTCCAAGATACTTATAAAGAGGAATCCCTAAAGAATCTGCAGCTGCTCTTGCAACAGCCATTGATACAGATAATATTGCATTAGCTCCAAGTTTATCTTTGTTTTCAGTTCCATCAAGATCTATCATAACTTTATCTATTAATGCTTGATCAAAAACATTTAATCCAAGTACTTCTTTAGCTATTATATCATTTACATTTTCAACAGCTTTTAAAACACCTTTACCCATATATCTTGATTTATCACCGTCTCTTAATTCTAATGCTTCATAAATACCTGTTGATGCCCCGGATGGTACTATTGCAGATCCTGTTGCTCCACTTGCTAAAATAACTTCTGCTTCAATAGTTGGATTACCTCTTGAGTCTAAAACTTCTCTTGCTTTTACTTCTACAATTTCATCATAAAATAATTCCATGTTTATACAACACCCCCTCTAGTGTTATGATCTATTTGGAACAACCTTTGTTCCAACTTTATTTTGCATTACTGCATTTAATAAATTATCTTTTTTAAAAAAATCCAATACAATTATTGGCATATTATATCTTTGACAAATAGCAAATGCTTCTGTGTCCATTACTTTTATATTTTTAGAAATTGCTTCTTCATATGTAATTGTATCATATTTCACAGCATCTGTAAACCTTTTTGGATCTTTATCATATATTCCATCTACTTTAGTGGCTTTTACAAGTATATCTGCTTTCATTTCAACAGATCTTAAAGCTGCTGCAGTATCTGTTGTAAAGAAAGGATTTGAAGTTCCACCAGCAAATATTACAACATAACCAGAATTAAAGTATAAATCTATATCATCATAATGTATAGATCTAACTGAAGGCAAGTTTACAATTTGAGAAACGACAACGGTTTTTATACCTGATTTTTCAAAATAATCTTTAATAAAAAGAGCATTCATTACAGTTCCCATCATTCCTATATGGTCTGCAATTGAATTTGTCATACCAGGTAATTCTTTTCCTCTAAAAATATTACCTGCACCAACAACCATTCCTATATTTAAACCATGTTGAGATATTTTTTTAATTTCTTCGGCCATATATTTTAAAGCATCAAGATTGAAGCCTTTACTTCCTTCTCCAGATAGAACTTCTCCACTTAATTTTAGGAGTACATTTCTATACATAATACACATCCCTCCCTAAAAAAAAGGGGTGGAATAAAAACACCCCACCCATTATCCTATTTGATATCTTGTAAATTCTGCTACTTTTATATTTTCACCTATTTTTGCAATTCCTTCAGTAATCATATCACTTATTTTTTTCTTTTCTTCGTAATGAACTTGTTCTAATAAACAATTTTCTTCATAAAATTTTTCTAATTTATTTTCTGTTATTTTAGAAATTATATGTTCTGGTTTTCCGGAATTTTTCAATTCTTCTGCATATATTTCTTTTTCTTTATTAATAATTTCTTCTGGTACATCTTCTCTTGATAACCATCTTGGATTCATAGCAGCAATTTGTAAAGCAATCTTTTTTGCTATTGCATGAAAATCTTCTGTTCTAGCAACAAAATCTGTTTCACAGCTTAAAGTTAGAAGAACACCAATTTTTTCATTATGATGTATATATGAATAAACAATACCTTCACCAGTAGTTCTATCTGCTTTTTTTGCAGCTTTAGCAGCACCTTTTTTTCTTAAGTAATCAATTGCAGCATCAAGATTTCCATCAGTTTCAACGAGAGCTTTTTTACAATCCATCATACCAGCACCTGTTGCTTCTCTCAATTTTTTTATCATTTCTACAGTTACAGCCATTAAATAGTACCTCCTTACGGTTATTTTAATCATTATATTCTATCATATATTTTTTTTATTTCAGTATAATAACTGTTAAAAACTTATGAAAAGTTAACTTTTATTCAAATTTTTTAGCTAACGCCACTTCAACTTCTTTTGATACCCACATACTTATATCCCCTTTAAATCTTGCAACTTCTTTTATCATAGAAGAAGAAACAAAGGAATACTCAGTATCTGTCATTAAGAAAAAAATTTCTAAGCTTTTATAAAGAGACCTATTTGCATTAGCCATTTGAAGTTCATATTCAAAATCTGTAACAGCTCTTAAACCTCTTATTACTGATTTTATATTATTTTCTTTAGCATAATTTACTAATAAACCAGAATAGCTTTGAACTTCAACATTGTCTATATGTGAAACACATTTTTTTGTTAATTCTATTCTTTCTTCCAAAGAAAATGTATAATTTTTGTTTACATTCATTAAAACTAATATAATAACTTTATCAAAATGTTTTGCTGCTCTTTCTACTATGTTTATGTGTCCTTTAGTTATAGGATCAAAGCTTCCAGGATATACAGCAACTTCTTTCATATTTAATCCTCCAAATATTTTTGAATTATTCCTGAACCCAAAACAATGCCATCTTCATCATAAAAGGTAGCAAATTGACCAGGTGTTATAGCAAAAACAGGTTCTTCAAATATAACTTTAAGTTCATTTTTATTTATTTTTATTACTTTTACTTTTTTCTCTTCATTCCTTTTTCTTATTTTGCATAAAACGTTTTTATCTTCAATTTCAACAAACATATTTAATTTATTTACTATCATTTGCGTAAAATATAATTTTTCTTTAGGTGCAACCGTTACTTCGTTTTTTTCAGAGTTTAATTTATAAACATATAGCTTACTTGAAGCATTCTTAAAATATTTTATTCCAGTTCTTTGACCAATAGTATAATTAGTATATCCACTGTGTGTTCCTATTACTTCGCCATTTAAGTTTAACACATTTCCTTCTTTTATTTTTAAACCAGCATCTTTTAAGTATCTAACATAATTATTGTCTGGTATAAAACAAAGTTCTTGACTATCTGGTTTTTTGGCAACTGTTAAACCCAAATTTAAAGCTATTTTTCGTATTTCTTCTTTTTTTAATTTTCCAAGTGGAAAGTACATTTTATCTAAATATTCTTTTTTTACCATAGATAAAAAATATGATTGATCTTTATATTCATCAATCCCTTTTTTTATTACGTAAGTATTGTGTTTTTCTGAAAATTCAGAAATTACATAATGACCACTTACTACAATATCAGCATTTAACTCTTTCATAATATCAAAAGCTTTCCCAAATTTAAAGTATCTATTACACAACATACAGGGATTTGGAGTTTTACCTTTTGAATATTCTTCAATAAAATACTTTATGATTTTTTCTTTAAACTCTTCTTTTATTGAAATAACTTTAAAATCATCAAGTCCTATATCATTTGATACTTTTAAAGCATCATTTGTATCAGAAGGACTACAACAAACTTTTTTCTTTTCTGGTATTAATGAAAAGATTATATCTTCTACAGTTTTAAAATGTATACCTATAATTTCATATCCTTCTTTTTTTAATAAGTATGCAGCAACGGAGCTATCAACACCGCCACTCATCAACATTATTGCTTTTGGCAATGTCAGTACCTCCATTTATCATTTTTTGTCCATGATCTATTATATCTTGAAGTGTTATTTTACTAAGTTCCATCATCATTGTGTTGTATGCCCTTTTCCAAACAAATTCAACAGCACACTTAACTTCCATAGAGCATTCTCCTCCAACACACTTATAAGATTGCAATGGTTTATCTAAAATATTTACTATTTCACTTATTTTTAATTCAGATGGTTTTTTTAAAAGCACGTATCCACCATATCTTCCTCTTATTGAAAGAAGTATTCCCGCATCTCTGAGTTCACTAAATATTTTTTCTAAAAAATCTCTTGGTATTTCTTGATTTTTAGAAAGTTCAGCTATTGATACTTTTTTTTTCCCTTTTTTATTTAAAATTGAGAGTTCATACAAAGCTCTTAACGCATAGCTACTTTTAACTGTTAAACTCATGTTACCCCTCCTGTCCCACTATATATAGTGTTACATCTTTTTTTATATCAGCATTTCTAACATCATTTATATATATATCAATTCTATTTCCTTTTATAGAACTTCCTATATCTTCTACAACAAAAAATCCAGAATTAGGCAATTTACTAAATTGTGGTATATAAACAACCGTACCAATTGGTAACTTTTTAGGATCAGCAGCTATAGTTTCAAAATTTTTTGGTATTTTTCCAGATTTTGTAACTCTAAATGTTGGAGAATATATATGTTTATCATCCCATTCAGTATAATAAGTAGCTTTATATTGTCCAGCTAACTTAAAAAATAATTTCAATGGATCTCTTGGCTCGCCTTCTTTCCATAATTCAATCATAACTAACTTATCTTTTTTTACAGATCCTAATGAATCTGTACTTCCAACCCATTTACCAATTTTTGTATACAAAACATACAAATTCGAAATAACACTAACTATTGAATTTCCGTGATCTATTTTAACATAATAAGTTCCTTTGGCATCTTTACCAGTTTCAATAATTTTACCTGGAAGTATAGGGTATATTCTTTCAGAACTTTTAGGTAATATACCTATTCCAGCTGTAATCCCACCAACTGTTCTTTCACCAAATTTAACAACTATTCTATCATAATCAATTATTCTAGTTGTTTTTAAAGGCCATTTTATATATTTTTCTATATTTCCAACAGGTATTTTTATTCTTTGACCAACGCGTATACTACCAGCATTTTTAAGATTATTAGCAGATTTTAATATTTCTATTCCAGAATATCCAAGACCATAAGCATATGAAATTTCACTTAAAGTATCTCCAGATTTAACTATATAATTTAACTCAGATTTATTTTGAAATAATTTCTGAATTTCACTATTTCCCATAGAAAATAAAGCTGTATTTATTTTCTTTTCAATTTCTTGAATTTGAGTGGTATATTTTTCATCTAAACTGTGAGCCGGATTAGATGAAACCATTTCAAATTCATTACTTAAATTTTTTATATTATCTTGTAATACATCAACTTTTTTAGTTAAAGTTTCTATTTTTTGTATTTCTTCCTTTTTATTTTCATAATATAATTTTGAAAATTCTTGTTCTGTTTTGAGTTCAACTACATCTTTTACATATTTACTAAAATCCATTTTTGATATTTCAGAATTTATTTCATTAGAAATAAATTCTTTTAAATTTCCATTTTCCATTAAATATTTATCTGAATTTTTATAACTACTTTCTAAATAACTAATCTTTTCGCTTAATTTGTTTAAATTATCTATTATTGATTCATTTTCCGAATAAATATTTTTAATTTTGTTAGTAATAGTTTCTAAATTAACCTTTGTTGAATCTCCAGATAAAGAAGTAGCTATCTTATCTAAAGAATCTTCTAATTTTTTTACTCTTTCTTCTATATTATTTTTCGAATTATTGTTGACACTTTTACCATCATAAATAAAACCTTCCATTATTCTAAGCCTTTTATCCACAATATCAAAATTTTCTTTTAAACTATTTATATTCGTCTTTGTATTATCATTATAATCAGAATTCTCTTCAACTTTTTTAGATATATAATTTACTTTATCTTCTAATATTTTTATTTTATCATTTAAATTCTTTAAGTTAGTATTTATTTCACTTAATTGATTTTCAGGAAGACTTGGATCTTTTTTTAAAGTAGTACATCCTGTAAAAATCAAAATAGTTATCAGTAAAATTAAAATATACGCCTTCTTCACTTAAGTTCCCCTCTCAATTCTTTAGAAGCTCTTATATAAGGGCTTCTTGCATTTTTATACTTACTATTTAGTCTATCCAAATATCTAGCAGCATCATTTAAATTCCCAAATCTATAACTTATATATCCAGAATAAAATAAAGCAAAAATAGTATCATCATCTGTATATGCTTCTTCAAAATACATAGTTGAAATTTTCAAAACATTATTTAATATTTTTAATTCTCTTCTTTCATCATCAATATCTCTATAATGCCAAGCTAATTTCAAAAGCAACTTTGCTACTTCAAATGGTTTTTTTAATATAGAGTATATTTCTGATCCCATTACTAACTGTTGTTTATAAAATTCAGGAGATTTATTTTCACTATTATCTATTTTAAATATATCTTCTTCTGTTATATTAGAAAGATACTTATTTATTAATTCAAATTTTTTTGGAGAAATATTATTTTTTATTTTATCTTTATCTTTTTCATTATAGGTAAATTTACAGTTCGTACATGTTATAATAGAAAACATCAACGGATTATAATCTACATAATTAGGTTTTAAATCTTGATCATAAGATTTAACCTTTATAGCAGAAGACATAATCTTTGCATACGTAAATTCAGTTTTGCAAATAGGACAAGTCGTAATTTCTTTATAAAAATTTGCCATACTTTATTCCTCCAATCCAAGCAAAGCATCACAATATTCATGTGGAACAAATGGTTGTAAATCATCTTCTTTTTCTCCAACTCCAATCATTCTTATTGGAATATTTAAATCATGATCTATAGCAAAAGCTATACCTCCCTTTGCAGTTCCATCTAATTTTGTAATTACAATTCCTGTTATATCTACAGTTTCTTTAAATGCTTTTGCCTGTACTATACCATTTTGACCTGTTGTTCCATCTAAAATCAATAATGTTTCATCAATACCTTCAGGCAATTCTTTTTGTACAACTCTTTTTATTTTTTTTAACTCTTCCATAAGATTTGATTTATTATGTAATCTACCTGCAGTATCTATTAAAACAACATCTTTTCCTTTTGCTTTTGCATGTTTAACTGCATCAAAAGCAACAGCTGCCGCATCAGATCCATGTTCATGAGCTATTACTTCTGCGCCTATTTTTTCTCCCCAATGTTTTAATTGTTCAATAGCAGCTGCCCTAAATGTATCACCAGCAGCAAGAACTACAGATTTTCCATTTTTTATATATTGATTTGCAAGTTTTGCAATTGTAGTTGTTTTACCATTTCCATTAACACCAACAACTAATATGACATATGGCTTTTTTGTTGGATTTAAGTTTATAGGTTCATTAGTCAAATTTTCTTCCATTATATCTCTCAAAAGTATCAAAGGATCTGAATCATCACTTTTTTTATAAAATTCTTTTAGTTCTTTTAAAATCTTTTGAGTAACTTCAACACCCATATCAGACATTACTAATATTTCCTCTAACTCCTCTAATGTTTCATCATCAAGTGTTTTCCCTGCAAAGATTGTTTTTATACTACCAAAAAAAGTATTTCTTGCTTTTTCAAGACCTTTTTTAAATTTATCAAAAATTCCCATAAAACAAATACACCTCCGATAATTTACATAAAACAATTATAACATTTTTTGTTTAAAATAAAAAGTTTTTTTATTTCAATTATTTTTCTAATTTTTTCTTAGTTTAAAGTATACAAGAAATAAAAATAAATTCAAAAAAATATTAGTTTTAAAATTAAAAAAATTAAACACAAAATTATATTTTATAATATTTTATTTATTTTTTTAAAAATATTAAAGGTTTTAATTGACAAATCTAAAAAAAAAGAGTATAATTTTTTTAGATTTGAATTAATTTTAAAAATTTTTATAAAATTTTATAGAATATGGAGGCAAAAAATATGATAGAAAAAAAAAGATTATCTACCTGCCCAGCTTGTGGAGGAAGACTAAAAATCACAAGATATAAATGTGAAAGATGTGGAACAGAAATTTCAGGAGATTTTAAATTAGAAGATTTTGCATCATTAACAAATGAACAAATGTTATTTTTAAAAATTTTTATAAAAAACAGAGGCAATTTATCAGAACTTCAAAAAGAAATGAATATTTCTTATCCAACAGCAAAGGCAAGATTAGAGGATTTAGTAAGTGCTTTAGGTTATAGAAGAGAAGAAGATAATAGAATTAAAACATTTGAAATACTCGAAAAAATTGAACGTGGAGAAATAACTCCAGAAGAAGCAAAAGAAATTTTAAAAAAAAATAAAAAAAGATAACTTTAATTTTTATTAGGGGGGAAAAAAATGGGAATAATAAACATGATACCACTTAAAAATTTAGAAATTGAAGCTCCAAAAATAAACTTAGATTTAAATGTAAAAAAAGGAGATTCGTTACAATTAGAATTTGATGATGATAATGAATTAAATATTGAAAATTATAGTAATTCAGATACAAATATAATAAAGTTTCAAAATAAAAAAGAAGATTTTTTTACTAACTTTTTAGGTTCTTTTATTTCTGGAAAAAATATTGATTGTGTATTAACTATACCACCAGAAGTTAAATCAATAAGTATTAAATCAACAAATGGTGATGTTTATATGAGTGATTTAAATATTGATTACTTATATACTAAACTTACAACAGGTGATATAGAAATAAAAGATTGTTCAATAGATGTTTTAGAACAAAAAATAATAACTGGTGATTTATCAATAAAAAATACAAAAATTTTAGATTTCATTTCAAAAGTAACCACTGGTGATGTTTCAATAAAAAATTCAGATTTAAATAGAATAGAAGTTTCATTAATAACAGGTGATATACATTTAGATTCATTATCCGAAAACTTTAATAAAAGTACTTTAAAAGTAATAACCGGTGATGCGGAGTTATACATTAAAGGTACTGACCCTGTATACTTAGAAAAAAAATTAACTCCTTATTCAGCTTCACTAAAAACAAATATCCCAACAATTAATGGATATGGAAATAATAGAAATTTAGAAATAAAAGCAACAGCTTCTACAGTAAGATTAATTGGGAAAAAAAGCAATGATACTAAAATAAATTTAGGAAAAAATGATACAGAAATAATGAGCGAAGAAGAAAAAAAGATAATTGATCTTTTAAAACAAGGAAAAATATCAAGAGAATTTGCATTAGAATTATTAATTGAACTTGGATACGATTCTAATTCAGGTGAAACCTTTTTAAAAAAAAGAGATATTTAAAGGAGGTTCTTTATGAAAAGTTTTTCTATAACTTTAATGATATTAGGAATTTTATTATTAATGATAGTTTTTTCTGGATATTCAATGAATATATGGAGTATATTTGAATTTATATTGGGAATTTTATTAATTTCAACTTCTTTTTTTCACAAAAATTCAAACTTTCATTTAATATATAAAGATAAAATAGTAAGAGATAAAAATATGATAAAAAATACTTTAGAAGAAGCTGAAGAAGAAATAAGTTCTGAAAATGAAATGCCTGAATTTGCAAAAAAAATAGCTACAAAAACTATTGGTGTAGTAAAAGATCATTTATTACCAAATGAAAAAAAGAGAATTTTAAAGTATTTAATTTTTGGGTTTTTATCTGGAACAATATTAATATTAGATTCATTTAGTTTATTCGGACTAAATTTTAATTTTTGGCAAATAATATTAGTTATTTTTTCTTCATATTTAATAGGGCTTGGAATTTCAAACATTATATTTGGCGGTGAAAAAAAATGAGAAATGGATTAATAAGCATTCTTATTGGAATATTAATATTGTTAAATATTGTATTTAAAATAGAATTGGGATTAAACAGTACTCTTTTAATAATATTCTCTTTAATATTTTTAATAGATGGATTAAACTTTAAAAAAATGAAAGGTGAAAGATTCGGAAGTCTTATTTTTGGTATTTTTTTAATTTTAGAAGCATTTAAAATAATTCCAATTTTATCTTTTTGGCAAATAATATTAGTTTTAATAGCTTCATATATGATAGGACATGGCTTATATTCAGCTTTTTATAGTGGAACATTTTTATTTTCAACAAAAAATGATATGCCAAAAGAATTTAAAATCCCTTACAATAAATTAGACAAAGAAATAAGTTTAAATATAGATGCAGATTGGACAAAAATAAATCTAAATAGCAATAATATTGAACATGCATTAATTGCAAAATATATATCAAATAGTAAAATATACAATATGTCATTAAATAATGACGAGAATATAATAACATTTAAAAATAAAATAAACGTAACATCTCCTAAAATTCCAGAAAGAGCTAAAGTAAGACTACAGTTAAATAAAAATATACTTTATCATTTAAATAGCGATTTAAATGTTGCTGATGTATTTTATGATTTTCGTGAAACTAATATAAAAGATACATATATTTCTGCAACTGCCTCAAAAATAGTTATTATACCAATAGATAAATCAGATTCAACAATGGATATAAATCTTGAAATTTCTTCTTTAACAATAAAATTACCAAGAAACATCGGATTAATTTTAACTCATTCTGGAGATTTAAATTTTAAAACATTTGAAGGATTAATCAAAACAGAAAGTGGTTCTTATATTTCATCTAATTATGATAATTCTGAATACATATGTCATTTAACAATATCTTCTGATGTCTCAAAGTTAAACGTAGTTATTATATAAAAAAATGCGAACAATGTTCGCATTTTTTTATAGTTCTATTTCATTTACAAATTTATTTATTTTCTTTTGAATTTTTCTTATTTCTTTAACATTAGCAATTTTTGGTTTCCTATCCCACATAGCTATTTTACCGCTTGTAATAGTTCCAAAAACTTCAAGTTCAGATCCTATTTTAAAAGAAATTTCTGTAAACGGTGTCTTTGTTTCAAATTGAAAAACTCCAGTTCTTGAATTTAATATTGTTATATCAGCTTCTTTTCCTGGCGCAATCTTTCCAAGTTGTACTCCAAACTCTTCCGATGTAAATAAATAATTATTCATAAAAATTGTTCTTTCTACTTCATTGTATACTATATTAGATTTAGCTTTATTACTTGATTTTTCATTAACCAAAAGTGTTTTTGCTTCATCAAAAATAGAATAATCTGTAGTTCCAGTTCCAATAGAAACCTTCATACCTCTTCCAAGCATATCTAATAAATCAGGAGTTTTTTCAAGTTCAGATAATTCAGCTCTAAGACTCTTTATCAATCTCACACTTTTTGAAGAGAAAAAATCAATTATTTCTGAATTAACATTACCAGCAAATATTATATCTATATGTTTTGATAATATATTATTTTCTTTAAAAACGCTTAATAGATCTTTTCCATGTTTTAATTTACAATATCTTTCTTCTTGTTTAAAATCAATAATTACTATTCTTACTCTTTTTCCAGAATTTATAAATTTCTTTAAAAATTCATAATCTTCTTCTTCTAATCCCCAAGCGCCCAAAAGAGTAATTGAAGAAATTTCTTTATTATTTATTAAATCATCTCTATATGCTCTAGGAACTCCTCTTTCAGTTAAAAAAACAGGAGAAGGTTTTATTTTTATTCCTATTGAATTACAAAGTTCATTAACTTTAGAAATGTTTTTAGAATAAGGTATTGAAACAATTGTTGAAGTTATACCATTTATCATAGACTTATATCCACCTAATTTAATAATATACTCAAATAATTGTTCTTTTTCTACAAGTTTTTCTGAATATCCAACAATTTTTGAAAATTTTTCATATGGTGGAAATTTGGAGTTTATAAGTTTATAAAGCATTGAAAGTTCGTTTATATAAAAACTTGTATAAGGATTAGAAAGCCCTGGAAGTATTATTTTTCCATCTAAATCCTTTGATTTTTCATCTGGATATTTTTTTAAAATTTCTTCAGTTTCTCCAACATCAACTATTTTTTCTTCTTTTATATATACAGCACCATTTTCAATAATTTCTCCAAGGGTTCCTGTTAAAATTTTACAATTTTTTAAAATCATATTTTACACCTCCACTACATATTTATTTTTTCATATATATTTTTAAATAAAATTTAACTAAATCAGGAAATTTTTTTAAACGTTTAGGCTCACAAATCATTCTGTATAACCACTCTAATCCAAATTTTTGAAAAAAAGCAGGAGCTCTTTTTACTTTCCCAGCAAAAACGTCTATACTTCCACCAACTCCCATAATAAAATCAATATTTAACTTTTCATAATTTCTCATTATAAAAAGTTCTTGTTTTGGTATACCCATTCCTACAAATAAAAATTTTGCCTTCGAAGAGTTAATATCTGATATTATCTTTTCCTCATCATTTATTGAAAAATATCCATGATGAACCCCAACAATATTAGTATTAAATAATTTTTTTAAATTCTTTGCAGCATTATTTACATTGTTTTCTTTAGATCCTAAAAGATAAATTCCATCTTTTGAATTTTTACAAATTTCTTTCATAGTTTCTATTCCAGAACATTTTTCTGTGAAAATATCATATTTTTTTAAAAGTTTTACTATTCCAAACCCATCTGGAATTGAAAAAGTTGATTCTTTAATTGCTTTATTGTAATCAGATTTTTTTAAATATTCCATATACATTAAGGCATTTAATGTTGTTATCCATATTTTTTCTTTTGTTTTTTGATTTAAAATAAATTCAAGTATATCATTATTTTTACCAGTAATAATATCAATTTCATTAAAATTCACTTTTTTGATCATATGATACCTTCCTAAAAAATTTTTATACAATTAATAGTTACTTATCTTAAAATTCACTCTCGATTAATATTTTACCATATTATTAGTACAATTTATATTATAGTATAATAAATTTAATGTAAATTTAACTATAAGAAAAAAATGGTTAAAAATGTCTTTGTTACACTGAATTTTACACAAGACAATGAAATTTGACTTAATTTTAACAAAATAAAAGTATTTAAACTGTATAATATAAAGGCAAAAAAATATTATGGAGGTATTATAAAATGGAAAAACAAATACTATCAGAGGATAAAAATATTAAAAGAATTCTTGTAAAAATTCCTAGTGATGAAGTTAAAAAAACTGAAGATTATATAGTTAGAGAAGTTAATAAAGAATATTCATTTGAAGGTTTTAGAAAAGGTAAAGCTCCAAAACAAATAATAAAAATAAGATTAGGTGAAAATTTCAATAATTGGTTAAATGATACACTTTTAGAAAAAGCAGTTCAGGATATTGAAAAAGAAGAAAAATTTCTTTTTTCTCCAACAGTAGAATCAACAGCTAATGAAAATGGTAATGTTGAATTTGAAATATTGGTTCATGCTTATCCAAAACTACTAAATACAAAATTTGAAGAAATTGTAGTAGAAGCTCCTAAATCAGATAAAGTTGTAGAAAAATTTATAGAAGATAAGATAAAAACATTACTTGAATCAAATGCCATTGTTGAACCAAAAGAAGGTAAAGCAGAATTAAACGACTTCATAAGAGTTAAATATACTGTTTTAAACGAAGAAGGAAAAGAATTACAAAAAGATAAAGAAAATGAATATGTTCTTTATGAAGATGATAAAAGACCTATGGTTACTAAATTAGTTGGAAAAGAAAAAGGTGATGTTGTAGAATACGAAAAAGAATATGAAAATAAAAAATACAAATATATAGTAACTTTAGAAGAAGTTTATAATAGAACAATTCCTGAATTAACAGATGAATTTTTAAGAGAAATAGGATCAGAATTTAATTCAATTTCTGAATTAAAAGCAAAATATGAAGAAGAAGGAAAAGAAGTATTTAGCAAATGGAATGACGACTTCGTAAGAAACTACATAATTGGAGAAATCCCAGCAAAAACAGAAGTTGACTTATCAGAAGAAACTAAAGAATTTTATGTTAAAAGCTATATGGAATCAATGGAAAAAGAAGGTAAATTAGAAGAAGAATTAGCAAAATATGATAATGATAAAGAAAAATTAATTGAAGAAGTTAAAAAAACTGCTGAAAGATGGGTAAAGGAATTAGTTGTTGTTGATACATTAACTAAAGAACACAATCTCGAAGTAAAAGAAGAAGAAATAATGGAATCTATAAAAGCAATAGCTCAAATGTGGTATATGCCTGTTGAAAGAGCAAAAGAAACAATTTATTCAAATCAAAAGCTCTTAAATGATGTAGTTTGGGATGTATTAAAATCAAAAGTAGCTGATATAATAAAAGAAAAAGTAACAATAAAAGAAGTTGAAGAAAAAGAAGAAGAAACTAAATAATAGTAACAAAATTTTAACTATTAATAACTTGAAATGTAATCACTAATACGGTAAAATATTTCCGTAGTGGGGACGTGGTGCAGTTGGTTAGCATGCGGGTCTGTCACACCTGTGGCCGCGAGTTCGAGTCTCGTCGTCCCCGCCATAAATAAAGAGTTTCTTTGGAAACTCTTTATTATTTGAGGCAACGTAGCCAAGTGGTAAGGCATCGGTCTGCAAAATCGATACGCATGGGTTCGAATCCCATCGTTGCCTCCATAGATATTTATGTGAGTTCTAATAATGTCGATGCGATTCGTATCGACATTTTTTTGTTATTCATTTTATATGGAACACTTTATTAAGGAGTGTTTTTATTTTTTATATCTATATCTATTTTTTTTAATTCATCAATTTTTTTATATTTTTCCCACTCTTTTTTTACATAATCTGGAGCATCTTTTTTTAATTTCCAATTATCTAATTCTATTTCCATCCATTCCATATACTTAAATAAATTAATCATTTTTAATCTTATCATCTGTTTTTTTCATAATAACCACAACCTTTTTCAATTTTATTTAAATATATTAATAAATAATTTTTCAGATATTTTTAATCTCACTAAATACTTCAACAGTTCTTTTTTATTAATTATTAATATAAAAAATTTTTTTATTTATATTCTTTCTAAATATTTTAATTCTTTTCTATCCATACTAGAAATTCTTGAAAGCCTATCTATTAACTTTTTCTTTTCTCTTCTTAAAATATTATCGGTGTTTTTCAATATTAATTTTATTTCTTTTTTATTTTTAGGATCTTTTAATTTTCTGAGTTTTATTATTGCCATTTTACGAAAATATGCAGCATCTTCAGTATAATATGGATCTTCTTCATATCCTATAATAGCTGAATAATATCTTTTAGCATATATTAAAGCATCTATTTCTTTTTTCACAAAAATCCCCACTTTTTTAATAAATAATGATTTTATATTTTTAAAAACTAGTTTTGTAGAATTAGAAAAAAAATTCATGTCGAAACATCATATTTATTTTAGTTTTTACTATATCATATAGCTTATACATATAAATCACTTCTTTTTATTTTTATACTCAATTCAACATACACTTCACTATTAATTATATCATTTTTTTAATTTAGTTTTATTTAATTTTTTTATTAATAAAAAAAATACACTCTAATTAAAGAGTGTATTTTTTTGTTTTATTATTCAATAACTAAATCCATTATTTCTGCAAGTTCAACAAATGCTTCTGTTAAAGAAGCACCTCCAACTAATCCACCATCAATATCTTTTTTAGTGAATAAACCAAAGTAATTATTCGGTTTAACACTTCCACCATAAAGAATTGATATAGAATTTGCTGTTTCTTCGTCATACATTTTTGCTAATAAGCTTCTTATATAAGCGTGAACTTCTTGAGCTTGAGCTGGTGTTGCAACTTTTCCAGTACCTATTGCCCAAATTGGTTCATAAGCAATAATAACTTTTTTTGCATCTTCTGCATTAATTGAATTAAATCCTTCTTTTATTTGTCTTTCTATTACATTGAAAGTTAAATCTTTTTCTCTTTCTTCAAGGTGTTCTCCTATACAGAAAATAGGGTTTAATTCTTCTTTTAAAGCTTTTATTATTTTTTTATTTATTAATTCATCGGTTTCACCAAAAATATCTCTTCTTTCTGAATGTCCAAGTACAACATATTCAACATTTATATCTTTTAACATGTGTGAAGATATTTCACCAGTAAATGCACCTTTATCTTCATAATGCATATTTTCTGCACCAATTTTTATATTTGTAGAAGATACAATATCCACTGCTTTTTGTAATGAAACAGCAGGTGTACATACAACAACATCATAAGAACTTTTATTTCCTATTTTTCCAGAAAGTTTTGCTAAAAATTCAGCTGTTTCAGTTGTTGTTTTGTTCATTTTCCAGTTTCCTGCTAAGATATATCTTTTATCAGTTACTTTTTTTTTTGAAACAATAGCTTCTATTCCTGGTAATTTTTTACCTTCAAGATATTCTAATGAAGCACCACCACCTGTAGAAACATGAGAAAACTTCTTTGCAAGTCCAAATTTTTCAGCAGCAGCTGCTGAATCTCCACCACCAATAACACTTGTTGTTCCTTTTTCTGTAAATTCAACTATCATCTCGGCTACTGACTTTGTACCATTTGAAAATTCATCTATTTCAAAAACACCCATTGGTCCATTCCATACTATTGTTTTTGAGTTTGCCATCTTTTCTTTAAATAATTTTACAGTTTCTGGTCCTATGTCAAGTCCCATCCAACCTTTTTCAATTCCATCTTCTATTTTTACTACTTTTGTTTCTACCCCTGCTTTTAATTCTTGAGCAATTACAGTATCAACAGGAAGTATAAAATTAACTCCTTTTTCTTCTGCTTTTTTCAAAAGTGACTTTGCAAGATCTAATTTATCTTCTTCAAATAAAGATGAACCTATTTCTTTCCCCATAGCTTTTAAGAAAGTAAACATCATAGCTCCACCTATAAAAATATTATCTGCTTTTTCAAGTAAGTTATTTATAACGCCTATTTTATCTGAAACTTTAACTCCACCAAGAATTACAGAGTAAGGTTTTTCTGGATTATCATTAACTCCGCCAATAAACTTTATTTCTTTTTCCATTAAAAATCCTGCAAAACTTGGAATATTAGAAGCTATTCCAACATTAGAAGCATGAGCTCTATGAGCTGTACCAAAAGCATCATTTACATGAATATCTGCAAGTGAAGCCCAATATTTAGCTAATTCTTCATTATTTTTTGTTTCACCTTTTTCAAATCTAGTATTTTCAATTACTAAAACTTTACCTTCTTCTAAGCTTTCTACAGCTTTTTCTACTTCTTCACCTCTTGTTTTGTCTATAAAACTTACCTTTCCATCGAGCAATTCATTTAATCTATTAGCAACAGGTTTTAAAGAAAATTCAGGTTTTACTTCTCCTTTTGGTCTTCCAAGATGAGATAATAATATAACCTTAGCCCCTTTCTCAAGAACATATTTTATAGTAGAAAGAGCTGCTTTTATTCTTGTTTCATCTGTTATTTTCCCATCTTTTAGTGGAACATTAAAATCAACTCTCATTATAACTTTTTTACCTTTTAAATCTATATCTCTAACTGTCATTTTTGACATTATTATTCCTCCCTATTAATAAAATAGCGGAACTCGAAAGCTCCGCTCATTTATTACTTAATTAATGTTGCAAAATGTTTTACGAGTCTTACAAGCTGAGCTGTATAACTCATTTCATTATCATACCAAGAAACAACTTTTATCATTTGTTTTCCATCTGATTCTACTATTTTTGTTAATTGTGCATCAAAGTAAGAACCGTATGTTATTCCAACTATATCTGTTAAAACAATAGGATCTTCAGTATAACCCAATGTATCTTTTAAGTTTGTTTCAGAAGCTTCTTTCATTGCTGCATTTATTTCTTCAACAGTTACATTCTTTTTCAATTCAACAACTAAATCAACTAAAGAACCTGTTGGAGTAGGAATCCTCATAGCCATTCCATCTAATTTACCTTTTAATTCTGGAAGAACTAAACCAACTGCTTTTGCAGCACCTGTTGTTGTTGGAACTAAGTTAACTCCAGCAGCTCTTGCTCTTCTCATATCTCCTTTTCTATGTGGAGCATCAAGAGTATTTTGATCATTTGTATAAGAATGAACTGTTGTCATTATACCTTTAACAATTCCAAACTTATCATTTAAAACCTTTGCAACTGGTGCAAGACAGTTTGTTGTACAAGAAGCACCAGAAATTATATCTTCTTCACCAGAAAGTATATCGTGGTTTACATTGTAAACAACTGTTGGAACATCACCTTTTGCTGGTGCAGAAATAACAACTTTTTTAGCTCCAGCTTGAAGATGTAAAGCTGCTTTATCTTTTTGTACAAAGAAACCTGTACATTCTAATACAACATCTACTCCCATTTCTCCCCAAGGAAGATCTGCAGGATTCTTTTCTGCTAAAATTTTAATTTCTTTTCCATTTACAATAATAGCATTTTCTCCTGCTTCAACTGTGCCAGGAAATTTACCTTGTGATGAATCATACTTCAATAAAAGTGCAAGTGTTTTTGCATCAGTTAAATCATTTAATGCAACAATTTCAAATTCAGGATTATCAAACATAAGTCTGAATGCAAGTCTTCCAATTCTACCAAAACCGTTAATAGCTACTTTTACTGCCATGCTAAAAAGCACCCCCTCTAAGGTTTTCTAAACTTTTTTAGTATCTGCCCTCGAATATTACTTATTAATTTTAAGTGGTTATTTTTTTCTCAATGAAATTATACTCTTATTTTTATAAAGGATAACTAAAATAATGTTAATTTATTAAAAACCAAGTCCCATACTTTGAAGTCCACCAAGATATTTTTCACTTACTTTATTACTTTCTTCTTCCTTTAAATTTGAAGCTTTTTCAATAGCTTCATTAGTTGCTGCCATTATCATATCTTTAACTATTTCTATATCTTCATCTTCAAGTTCATCAGATATAATTATATCTTTTATTCTTAAATTACCATTTGCAACAACTTTTACAACTCCTCCACCACTAGTGGCTTCTACAGTCATATCTGCAAGTTGTGTTTCTAATTTTGCCATTTCTTCTTCCATTGCTGACTGAGTTTTTTGAGCTTCTTGTAAAAGATGAGCCATACTAGGCTTTTTTGATTTTCCACCTTTAAGCGATCTTCCACCAATACTTTTTATTTTTTTAGCCATTTGAAAATCCTCCTTTATTCTATCTTACAAATAATTATACCATAAAATTGTGTATATTAAAAAAAATAGACGTTTGCTAAGCAAACATCTATTTTTATAATTCATCATCGATATCATCGTTTTCTCTATATGTTTTAAAGTGTTTTTGTGTTTTATTTGAAAAAGCCAAAATTGGATAAAAGATGAAAGGTAATATCTCAAGTCCAACAATAAAAGGTAATATTTTTTCATATTTTTTTACTAACTTATAATTTATTAACACACTAGTTATATATCCAAAGTCTATTAAATAAAGTATAAGCCACCATCCAGACATATCTAACATTTTTAATAACACATAAATATTATAAATTGGTATTAATGCTTTCCATCCTTGAATGTTATTATCACTAAATATTTTCCACAAAGATATTACATATGTAATAAAAACAATCACAAAAATAGTTACCATAAATACCCACATGGCAGAAATAAAAGAAGAGCCCATTTGATTCATATTAGCTCCAAAACCTGGATCAAAATCAAAGTTAGAAGTAGGGTATTCCCTATATTCTAAAGAAAAAATATGAGAAAAAAATGGAAAAAAACGGAAAAAAAAGTACTTAATCATACAAAAACCTCCTTAATTTTTTGATTATTTTTTAAAATAAATTATACATATAATATAAAATTAATAATATGATTATATCATAACAAAAAATAGTTTGTCAAGATTTTAAATTTTTCATATTAAAAAAATTAAAATAAATATGCTATAATTTTCATATCTTTTAATTAGAGGTGTTAAAATGAAGGCAATAATTATTGATGGATATGTTGATGAACCTGCAGTATTAGGTGTTCCACCTTATATTTCCCCATATGTTAGATACGCAGCAGGAGCTTTAAGGTATCATGGAATAGAAGTAGATTATTATACAATAGATAAAATAAGAGAAAAAAATTTATGGCAATCATTTAATTCATATGAATATCTTATAATAATAGCTGGAACTACTGTACCTGGTCATTATCTTGGTGGAACTCCTATAAATTTAAATGAAATAAAGAAAATTTTTGAATTAAATAAAGAACCACTCAGAGTAATAGGAGGACCTATAACAAAAGGATACACAATAACAGGTGGTAAAAAAGCTATATCTTTAAAAGATTTTATAGAAGAAAATGTTGAGTATATTGTTGAAGGAGACATAGAAAAATTTTTATTTGACTATCCCGTATCAGATGAGTTCGATTTAAATTCCAAGAGTAGTTATGAATTAATAGATAAAATAGCTCCCTATGGTGCTGGTATTATAAAAATGCATGAAAGATACCCAAATGTAATGTTAGAAATAGAAGTATCAAAAGGGTGCGATAGAAAAACTGGTTTTTGTTCTTTTTGCACAGAACCAATACTTCATGGAATGTATAGAGAAAGAAGTTTAAATGGCATAATAAACGAAATGAAAGCATTGAATGCAAATGGAGCCACAAACTTTAGATTTGGGAGAAGTGCTAACTTTTTGGCTTATGGAATAACATTTAACAATGGAAATCCAAACCCAGAAATATTTAATGAATTATATTCAGAAGTTTCAAATTTTTGTAATGTTTTACATACAGACAATGCAAATCCAGAATTTATAGTAAATAATGAAAAAGAAGCAAAAAAAATTCTTGAAATAATTTCAAATAAAAATACATCTGGTGATATACTGTCTTTTGGCATAGAAACATTTGATGATGAAGTTGCAAAACTAAACAACATAGCCTTAAACTCTGAAAAAGCTTTAAAAGCCATAAGAATAGTTAACGAAATAGGAAGCAAACGAGATAAAAATGGAATACCAAAATTATTACCTGGAATAAACTTATTGTATGGATTAATAGGTGAAACTAAAAACACCTATAATAAAAACAAAGAATACTTAAACAAAATATTGAATGAAAATTTATTATTGAGAAGAATAAATGTTAGACAAGTAATGATGTTCCCAGGAACATTATTATCAAAAAAACTAAATAAAATAAAAATAAATAAAAAAGAATTTATAAAATTCAAAGAATTTATGGATGTATATAACAATCAAATGATAAAAAAAGTTTTTCCAGAAGGAGCAATTTTAAAAGATTTATTCGTAGAAGAAGTAAAAGGAAATATTTCTTTTTCAAGACAAATAGCAACATATCCAATACTCGCCGGAATCAAAAAAAAGAAAGAACTTTTAGAAAAATTCGATGGAATAGTTGTTAATCATGGTTCAAGATCTTTGACTGTACTCGAATATCCATTTGATTTTAAAAATTTATCAGTTGAGGAATTATCTTCTATAAATGGAATAGGTAAAAAAACAGCTGAAAAAATTTATTTAACAAAATCACTTAAAGATATTAAAAATGAAATACTGAAAAACAAGCTGTAAAAATCAATAATTTTTACAGCTTGTTTTTAATCAATTGAGCATATTTTTAATTTTTTCAATAGATAAATTTGTTGTTCTAGAAATAATTTCTATATCAACTCCATTTTTTAATAGCTCTTTTGCAATTTTTTCTTCTGGAGTTAATTCAACATCTTTATCCAAATTACTAACAATTTCAACCTCTTTTTTATCAAAAGCTATTGAAACTTTTATTATATCATTTATTCCATAATTTTTTATATCTTCTTCATACCTTTTTTCATTTATTTGTTTTAGTCCATTTTGTGCACTGTTTAATAGTGTTTTTTCATTTTTATAAAACTTTTTAAACTCTATTATTATTCCTTTATCTGTTTTATCTTTTGGTATTAAAATAACATCTGCTCTTCCAAGTCCTGTTTCTCTATTACTCTTTATTATGTACTCTTCTTTTAATCCAACGCTCATTCCAAGTATTAGTCCATGATAAAATCTTTCTGGTTCTTCTCCGTTAACGTCAAAGTAACTCAATGTATTCATAGTTAGTTTTTGAAAGTCTTCTTTAAACTCTTCTATATGTCCATTTATTAGATTTATTAATATATTATTTAGTTTTATTCTTTCTTCTTCAAGCATAGATACTACAGTTTTATTATAAAATATTTTTACTTCTTTATTTGGTATCTTTAAAGTATATCTTTCATAATCATGATTTATATTTTTTGTCCATTTTAAATATCCGCTGAATAAAAATAATGTCCATACAGACTCTTCTAAGTTATTGTTTAAGTCTCCATAAACCATAGTTTCATTTATTGTACTTTCAATTTCTTCACCATTTATTAGTTTTTCAATTTTATCTTTTAATTCAGCACTTCCTTGTTTTATTAATTGTTTAACTAAGTAGTTTCCACTAGTATTCATCCAATATGGTCTTATCTTTTTTTCATCTACTAAGTTTATTATAGAAAAAGGATTGTAAATTTCAACACCACCAAAATTATAACCATTGTACCAATCTATAACTTCACTTTCCTCGTATTCAAGTTCATAATACTTCAATGTTTCTTCAACTTCTTCTTTAGTTAAACCATACTTATCATTGAATAGTTCATTCAATACAGTAGAAACCTTTAAGTTATTCACACCAGTAAAGATACTTTCTTTAGAAACTCTTGTTATACCAGTAAGAACTGCCTTTTCAAGGTATACGTTATCTTTTAATGCCATGCCAAACAAGTTACCAATTAAAGATATTATTTCATCATAGTAACCATGTAAGTAAGCTTGTTGAATGGGAGTATCGTATTCATCTATTAATATTATTACCTTTTTACCATAGTATCTTTCCATATATTCTGATAAACTTCTTATACAATTTTCATACTTAGCATCATCTGCTGTTTCTAACATTATTTCTTTAAATACAATTTTTTCCTTTTCACTCAATATTTCAAAAACATATTCATGTTTTGTATATAATCTTGAAAGTTCCATTGTTAATAAAGCATGCATCTTTTTTAAGTTATTAGACTTTAAATCTTTAAAGGTGATGTATATAACTGGATGTTTATTTAAATGTTTTTCTATTATATTTTTTTCTTTATATATTTTTAAGTTTTTAAAGAGGTATTCGTTATTTTGAGTAATATCAAAAAAGTACTTCATCATAGATTGACTGAGAGTTTTCCCAAACCTTCTTGGTCTTGTTATTAATAGAACGTCTCCACTTTCAATAACTTCTTTGATTAACATGCTTTTATCTACAAAGTACATATTGTCATCTATTAATGATTTAAAGTCACTTCGTCCTATTGGAAGTCTTTTTTTCATTTTCATCACCTCATTTTATTATATCATAAATTTTATATGAAGCTAAAAAATAAAAACCTTAATTTGCTTATGAAATATTTTTTTTAGTATTCAGTAATAAAAAATATGATATAATTAAAATATAAACAATAATGGGTTGGTGAAAACTTTGCTAATTTCTTTGTCAATTAAAAACTTTGGTTTGTTCAGAGAAGCTCATGTTAATTTCGATGAAAAATTTAATATATTAACAGGTGAATCAGGTGCAGGAAAATCTATGTTTATATCAGCTATAAAAGCTTTAACAACTGGAAATATACCTTCAAATATGAAAAATAATGATGGTAGTATATCAGCTTATTTTACTGTAGAAAGTATAAAAGACATACTTAATAAATATATTGATATTGAAGATAATGAATTGATTATATCTGCAAATTTTTCGTTAAAAAAAACTTTGTTTAGGATAAATGGAACAATAGTTCCAAAAAGCACAATAAAAACTGTTGGAAAATATTTAATAGAAATACATTCTCAAGATTCAAACGTTATATTCAGAGATAGCTCATATCAAAATAAATTAATTTTTAATATTTTAAGAAAAAAATTTACAAATGATTTTAAAAAATATGATAATTTATTTAATGAATATTTAAAATTAAATAAAAAATTAAAAAAATTACCTTCAGATCCATCTGAAGTATACAGAAAAATAGATTTATTAAAGTATCAAATAGATGAAATAAAAGTAGTTAATCCTAAAATTGGCGAAGATGATGAATTAACTGAACATTTTAATGCTCTAAATAATGTTGAATTAATTAAAAATAATGTATATGAAAATCTTTCTATTTTAAAAGATAGTGAAATAAATGTTTATAATTTAGTTGGAGATATAGTATACAATATAAATAAAGTATCAAAATATGGTTTTAATACTGAAGCAGATTTAGCTCTCTCTATACAAGAAGAAGTTAATGAGCTTTATAGTATGCTTGAATCAAAGCTTTTTGAATTAGATGTTGATAAGGACGAGTTACAATTGATATCTGAAAAATTAAATAATATAATTGAATTAAAAAGGAAGTATGGTCCTACAATAGAAGATATTATTGAAAAATATGAAACAATGAAAAAAGACTTATTGGAATATCAAGAATTACAAAAAATAATGGATAAAATAAAACCACAAATAAAAGATTTAAAAGAGAAAATGAAAATAGAAAGTGAATTTATAATTAATAAAAGTATGAAATATTTAAAAAAATTAAAAATAAATATAGAAAATAATTTAAAAGATTTAAATATGCCACATGCTGAAATTGATTTTTATTTTGAAAAGAAAACAGAACCAGATATAAATTCTTTTTATAGTTGTGAACTTTTATTAAAAACAACTCCACAAAGTGATTTTTTAAAATTAAATAAAATTGCTTCTGGAGGAGAAATGTCAAGAATTTTATTGGCAATGGAAGAAGTTATTGGAAAAAATCATTATGTAGATACAATGCTTTTTGATGAAGTCGATTCTGGAGTTGGTCCAAGAATGGCAGATACTGTTGGAAAAAAATTAAATGAATTATCTTCAAAAAAACAAATAATAACAATTACACATATGCCACAAGTTGCCAATTTTGGAACAAAACACTTTAAAATTCAAAAGAATAAAGAAAATAACAGTGTATATTCCAAAATTATAGAATTAAAGAACGTTGATAGAGAAAAAGAAATTAAAGATATGTATGGAAATATTGTGTATTAAAGGAGGTTATAATTATGTATAAAGAAGATATAATACAAAAAATAGTTGAAGAAAAAGGTATAGAGGCTATACCAAATCTTGTAAAGTTATTAGAAGATAGTGATCCTGATACAAGAGAACTTGCACGAGATGTAATTGGAGTAATGGGTGAAAGTGCAAATGAATACTTGTTTGAAGATTTTAAAAAGAGATTTGATAAAAACTTAGAAGATGATATGGTTATGTTATATTTAGCAGAGATTTTATCTCAAAATGGTTATAAAGAAATAATACCTTATTTAGAACGTATGATAAATAATTATACTGATGAAAGAGCATTTCCAATAATAGTAGAACATCTTTGGAGACTTACAAAAGAGGAAAGATATTTAGATATACTAACAACTTTTTTAGATGATGATGATGCTGTACAAGAAATAGCAATTATGGGTATAAGCCATGTTCCAACTAAAAAAGGTATAGATGTTTTAGTTGATAAGTATAATAATTCAAAAGAAAATTCATCAAGAGCTTTAATATTAGATTCTATTTTACAAATTATAATAAACGATTTTAAATTAGTTCCTTATTTACAAGAAAAAGATAGAGAAATAGCAAATAAATTACGTTGGCATTGGGAAACTTTTAAATAATTAAAAAGTAATTGAAATTTAAATAAAATAATGATATAATACTTTTGGGGGCGTTCCGGATTCGACGGGGATAGCTTTCTTAGAGAAGCGAGCCGAGGTTGCTGTTACCTTCGTTAAACAACAGCACAAAATATAAACGCAGAAGAAAATTACGCATTAGCTGCCTAATAGGTTAGCTCGTTCTTAGTTTGTAATGAACTCCGCCAAACTAATGAACGTCATTTAGGAGTTCTTACAAAGTAATTTTTTCGTTAGGGTTACTTTGGAAAATTTATAACGATAGGTTGATTTAGCTTTGCCTAAGTAGCGGAATTAACCGAATTTCAAACTTGGGCTGCGCTCGGAGATGCTCTAAGTGCGTTATTTCCGGACGCGGGTTCGACTCCCGCCGTCTCCACCAATAAAAAATAGAAAAACAAAAAAGCTGTTGAAATTAACAGCTTTTTTGTTTTTCTATTCCTTCAATAAATATTCTATTTTTTCCAGCTCTTTTTGCTTTATAAAGATTTTTATCAGCGGTTTCTATAATTGTAGTAATTAAATCACCTTTTTTTACAGAAGAAATACCTCCACTAATAGTTATATTTATTTTTTTATTAATTTCTTTTTCCCAATCAAAACTTTCAATATTTTTTAATATTCTTTGAGAAATATTCCCTGCTAGCTCAACATTAGTATAAGGTAATAGTATAAAAAACTCTTCTCCTCCATATCTACCAGCAAAATCACTTTCCCTTAAAGAATTTTTTATTATTTTACCAATATTTTTTAAAACTAAATCACCAATTAAATGACCATGCGTATCATTAATTTTTTTAAAGTCATCTATGTCAAACATTGCAACTGATAATTCAATATATTCTCTTTTTAATAAATGTATGTATTCTGACAACTTTGATAATATCTTTTTTTTATTATAAAGTTTTGTCAAAGAATCAATTTCTGAAGCCATTTTATATTCTATAAAAGTATTTATGGAATAAATTAATATTCCAAGATTTTCTGCTATGCTTCCATAAAAATCATATAGTTCATTTTTTTGTTTTGGATTTTCAAAAGAAATTAATCCTATTTCATTACTTTCATGAACAATTGGAAATGAAACTAAATTAGCTGGTTCTCTAAGTATTTTTTCTTCAAACATATTTCCTTTGTATACCCATTCAGATGGAGTAATTGGTTTTTGTAATAAATAAAATAATTTGTTTTTCAATATTTTTTGATTTATTTTTGAATTATTACTTGAAAAAGCATAAATTCTACCAGAGCTTGATGTAAGAATCATTAAATAAAAATTTTCAAAATCTATTAATTCTTTTAAAATCATAAATATTCTTCTCATCATATATTCATCGTCATTAATATAATTCGATAGTTTTAAAATTTCTTTATTTATTATTTCAAATTTCAAAGTTTCCTCTAATATATCAACAAGTTCTCCAAATGGTTCTTTTCTATATTTATATAATTCTCTTGACCACTCTACATTAAAATTGTTTTCTAAAAAATTAAGAATTTCATTTAACATTTTTTTATTATCAGATGATTTTTTTATAAATAAATCAACACCACTTCTTAAACTCCAAAAAGAATTAAGAGTATCTTCTGAAGCAGTTAATAAAATTACTCCAGCACTTTTAAATGTATTATAACTTCTTATAAACCGACAAAGTTGTATGCCATTCATTTTTGGCATTACATAATCTGTTATAATTACTTCTGGTAAAAAATCAAAAGCCTTATTTATTCCTTCTATTCCATCATTAGCAACTTCTACTATATGACCTTTATTTTCTAATGAGTCTTTTAAAAATTCTCTCCAAACTTTACTATCATCTACAATCAGTATTTTTTTTTGCATATTTAACACCTCATTTATATTATATAACAAATAAATTAATATGTCAAAATAATATTTGTATAATATTTATTCATGTTGTATAATAATAGTAAAGTTATTAAAAATGATGGAGGTAAAATGCATGATATTTTTATTTAGACATATATTAAATGATTATTGGAAAACTAAGATAAATTATCTTGAAAATAAGTATAAATTAAAAATAATAACTGATGAAAATGTTGATATTTCAAAAGTTGATGCTTTAATTGGAGGGACTATTTCAAAAGAAGAACTTAAAAAAGCTAAAAATTTAAAAATTATTTTTGTTCCATATTCAGGAGTAAATATATTACCTTCGAATGAAATAATTGAAAAAAAAATAATTGTTGCAAATGCAAAGGGAAATGGAAAAATAGTTGCAGAAAGAGCTATAGCATTAGCTTTATCGCTTCTTGGAAGAATTCCAGAATTTCATAATGATCTTTCAAGAGGAATTTGGCATGGATTTACTATTGGAGAAAAACCAAATACTTCTTGGACAAGCATTAGAGAAAAAAAATGTGGGATTTTAGGTACAGGGAGTATAGGTGGATACATTGCTAAGTATCTTAAACCATTTGAATGTAAAACAATTGGTTTCAAAAAAAATATTAATAATAAAGTAGAAAATTTTGATGAATTGAGTAATGATATTAATTATGTTGTTAATAAAAGTGATATAATTTTTGTGGCCCTTCCATTAACAGAAAAAACAAGAAATTTAATAAGTGAAGATATTTTATATAAAATGAAAGGTAAGTATTTAATAAATGTTGGTAGAGGACCAATAGTAAACGAAAAAGCTCTTTATGAAAGCATTAAAAATAATATTTTGGCAGGAGCAGCTATAGATGTTTGGTATGATTATCCAAATAAAGAAAATAAATATAAAATTCCTTCAAAGTATCCTATACATACATTTAAAAATGTTATAGTTTCCCCACATGTAGCTGGATTTAATGAAGAATCAGTTAGATACAGTATTGACTGGACAATTGAAAATATTGAATCGTATATTAATACTGGTAAACCAAAAAATATAGTTGATATGAAAGAAAAATATTAATAAAAAGGTAGCATAAAAAAAATAAAATTGGTTTTAAAAACCAATTTTATTTTTTTAAAAGTATTTTTTTAAAAGTATTGCTATATTTTCTAAAAATTCTTTATCTCCATCATCAAAAGCATTAACCTTATGACTATCTATATCTATTTCGCCAACAATAGAATTATTTTTTCCAAAAATCGGAACTACTATTTCAGATTTTGTTTTAGGACTACAAGATAAATAATTACTTTCTTTATTTACATCTTTTACAACAAAAGTTTTTTGAGTTTCGGCAGCTTGACCACAAATACCTTCTCCAAACTTTATTTTTTTATGTTCTGTAGGTTCACCTATGAACTCGCCTAATTTTAATTCATTATTTTCAACAAGATAAAAACCAGTCCAGTCAAAGTAGTCAAATCTTTTATCTAATATTTTTACTATTTTTTTCATTGCAATATTTTTATTTTTATTATCATAAACTACTTTTTTTATCTCATCATATGTTATCCAAAAATTAGCTTTTTTTTCATTTACTTCATTATTTTCTATAAAGTCTAATATAGCTTTGTCCATAATTTCTTTTATTGTCGTTTTTTCTTTATTTTTATAAAAATATAAATAATCAATTAATATAATAGTTCCTGCATAAGTATCAACAAATTCATAAGGTTTATCGCCAGTTAAACCAATTATTCTTACTGTATAATCTCCTCTTTGTAAATTATATTTTTGTACATTTTTCCCAACCATTTTTATAATTTCTGTTTTTACTTTTTCAGCATTTTCAAATTTATACCAAAACATTTCATCTAAATATTTTCTTCCATAAGAAAATAATTTATTTAATATTTTTTCATCACTTAATTCGTTCTTTTTTTGATACAATTCAACATATGGAACTTTAATTTTATAAATATGCCAGAATTTATTCCATTCTTCTTTTTTATATGATAAAATTTCAAAAAAATTATCTGTTATATCTCGAAAAACACTTCTCATAAAATCACTCCTTTAAAAAAAGCAGACTTTTTTGTCTGCTAAGTATGGTGCCGGAAACGGGATTTGAACCCGTACGAGATTTCTCTCATAAGAATCTGAATCTTACGTGTCTACCAATTCCACCATCCCGGCATCATTTTAAATCATTATACCCTTTTAAATTTAATTTTTTTTTACTCACTTATGAATTAAATATTTAATTTCTTCTAATTACAAAAATATCTGGTTCTTTATCCTTATAATAAACTCCAAAAAAAACAAATTTTTTATCTGGTGAAAAACTTGGGTAGTAACAGTCGTCCGATATCATATAAGTTAGATTTTTTATATTTTTATTATCATAAGAAAATATTCTAAAATTTCCAAATTGAAATTGTGAATATAACAAGAGATTTGAACCGTCTGACCATGAATCAGCTTGATTGTATTCACCGTTTAATAATGTTTTTATTTTTTCATTATCAATATAATAAATATTTAAGTCAGCATTTTTTAGATCTTGACCATAAAAAGCTATTTTATTTTTATTCCATTTTATTGGTCTAAATTTCATAATAGTTTTATCATTTGTAATTTGTTTTACTTCATCATTCAATATATCATAAATCCATATTTCCATTATGTTTTTATTTTCTTTTGTTCCCATACTAAATAAAATTAAAGAATCATCATAAAAATAAGGTGAATAAGCATTTAATCCTTCTGGAGAAATTCTTTTAAATTCACTTGTTTCAGTATTGTACAATACTATATCCCATTTTCCAAACATTGATGTTTGAAAAACTACATACTTTCCATTTGGTGATACATCAGGAAAATATTCTGAGGATAATTCAAGTTGTATAGTAGTTTGATATCCTGTTTTAAAGTTTATTATATTTATTTCTCTATTACCACTATATCTATCACTTATAAAATATAATTTACCATTAGAATAAATAGGATATTCATCTACACCTTTCCAATAAGTTAATTGTAAAACATCCCAAGTTTTATCATATAAAAATCTATTTTCTGCTATTTTTTCTAAAGTTTTTCCAGAAAAATATTCTACCCATTCTTCTGTATCTTTTATATCTGAAGACAGATCAAATGTTCCATTTTTAAAACTTCCATAGGCTCTAATTTTATTAGTAGAAGCATCTGAAGTAATATTTAAATATACATCTGCCTCTATATTTATATTTTCCCAAACTTCTGTTGAATCATCTGTTATATAACCATAAGGTGTTTTTTCTATAATTTTTGTATTATACATATACTCTGATAATTCGGAAATTTTTTTTGCAACACGATTAGTAATCCATTGTTTATCATGGATTGTTATTAACATCATATTTTTTACCATGCTTTGTGCATACATAAAAACAGAAAATAATAATATAAAGAAAACTATATATTTTTTCATTTTATCCTAAAATTTCTTTTACTATTTTTGATATTATAGAACCATCTGCTTGATTTCCAATTTTTTGAATAGCAGTTTTCATTACTAATCCAAATTGTTTAGGTGTTGCATTCATTTCTTTTATTATTGAACTTATTATATTTTTTATTTCTTCTTCACTCATTTCTTCTGGTAAATAATTTTTTAAAAACGCTATTTCTTTTTCTTCATTTACTACTAAGTCATTTCTTCCAGCATCTTTAAATTGTTTTATTGATTCGTTTCTCATTTTAACTTGCTTTTTTATTATTTTTATAATTTCATCATCATTTAGTTCTTTTTGTGTATCTATCTCCGCTTTTTTTATTTCTGATCTCAATAATTTTACTGTATTTAAAGCAATTTGATTTTTTTCTTTCATGAACTTTTTTAAATCTTCCATTAATTTTTCTTTCAACATAATTTTATTCCTCCTTGAGTTTTTAATTATAATTTTTAAAAAATTCTTCTTCTAACATAATTGATATTCCAAATTTTTTTGCTTTTTCTAATTTGCTTCCTGGATTTTCTCCAACCACTAATATTTTTGTTTTTTTAGTTACATTATTGGAAAAAATACCACCTTTACTTTCTACATATTTAGAGAATTCCCTTCTATTCATATTTTTTAATTCGCCAGTTTGTGAAACTATATACCCTGATAATTTTCCTTCTTTTACTTCTTTTTTATAAACAGTATTTACATTAGCATTTTTTAATTTCAAAAGTATTTTTTTTACATCTTCTTGATTAAAAAATTCTTTTATTGAACGCGCCATATCTTCTCCTATACCTTCAACTTCCATTAATTCATGTAATGTTGAAGTTTGAATTTTGTCAATTGATTTAAATTTTATGGCAAGATTTTTAGCATTTTTAATTCCAACAAGAGGTATACCTAATGCAAATAATAAATTTTCTAAATCAGAGTCTTTTGATTTTTCTATTTCTGATAGAAGATTATTTATGGTTTTTATGCCTATTCCACTTCCAAGCGTTGCAAGTTTAAAAGAATTTAAATAATATAAATCACTTGGATCAGAAATCAGTTTGCTTTTTACCATTCTTTCTATTAATTTTGGTCCTAATCCTTCTATATTCATCCCATCTCTTGATACAAAATTTTCTAATATTCGTATTAATTTTGCAGGACAAAGTGGGTTTAAACATCTTATTGCAACTTCTGAAGGATTAATTTTCCCTGTTTTTCCACCACATTCAGGACATTTTTGGGGTTCTAAAATAATTTTTTCTTCACCCGTTCTTTTTTCTATTTTTACACCTACAACTTGTGGTATTATACCACCAGCTTTTTCAACATAAACAAAGTCTTTTTCTCTAATATCTCTTTCTTTTATATATTCAAAATTATGAAGACTAGCCTTTTTTACAGTAGAACCTTCAAGTTGTATAGCTTCAAATTCTGCAACAGGAGTTATTATGCCACTGCTTCCAACTTGTAATTTAATATTTTTTATCTGAGTCAATTTTCTTTCAGCTTTAAATTTGAAAGCAATTGCCCATCTTGGTGCGCGTGAAGTTTCTCCAAGTTCTCTTTGCATTGAAAATTCATTTACTTTTGCAACAGCTCCATCTATATCATAATCTAAATTTTTTCTATTATTACTCCAATATATCCAATAATCGATTAATTCATTTTCATTTTTACATATTTTATTATGCTCATTTATTTTAAAACCTAGTTTTTTTAAAAAAATCATAGCTTCTTCTTGTGTTTTTAAATTATAATTATTTGGAAATAAAATATAATAAATAAAAGCATCTAATCTTCTTTTAGATACTTTTGAGGAGTCTAAAAGTTTTAAAGTTCCAGCTGCAGAATTCCTTGGATTTGCAAATATATTTAAGCCTTCAATTTCTCTTTCTTCATTTATTCTTTTAAATTCATTTATTGGCATAAAAACTTCCCCTCTAACTTCTATATCTATTTTTTCATTTAAATTTAAAGGGATACTTCTAATAGTTTTTATGTTTTGGGTTACATCTTCACCAAAAATTCCATCTCCTCTAGTTAAAGCCTGTATTAATTTACCTTTTTTATACTTTAAGGATATTGATACACCATCTATTTTTAATTCACAATAATATTTTACATTTGGAAAATTTTTAATTATCTTTTGATTAAAGTCAATTATATCTTTTTCATTATAAGTGTTATCTAAAGATAACATTGGCAATGTATGTTCTACTTTTTTAAATTCATTTACAATAATTCCACCAACTCTTTGAGTAGGTGAATCTTGAGTTTTTAATTCAGGAAAATTTTCTTCAAGAGTTATTAATTCTTTAAATATTTTATCATATTGAGTATCTGAAATTATTGGATCTGATTTTATATAATATCTATAATTGTGTTCTTCTATTTCTTTTTTTAATTTTTCATATTTTTCTCTTAATTTAGCAGGTACAGACATTTTAATCCTCCAATTTTTCTACAATAACCATTGCAATAGCATATTCTTTTTCATGAGATATTGATATGTTTATATTAACATTACCAAACTTATTTTTTAGATACTTATGAGTTTCTTTTGATAAGTAAGGAACTTCATTATCATCTTTTAATACAGAAATTTTATCCATTGGAATGAATATTTTAAAGGCTTTTGTTAAAGATTCTTTTACAGCAAATCTACCTGCAGCAAATTCTAGTTTTCTATTTATAGCATAGTTTTTACATATTTCTCTTTCGCTTTCAGTTAATATTTTATTTAATAATTTAATATTTAATCTGCTTATTTTTACTATATCGGTACCTATTCCTAAAATCATTTATAATTAAACCTCACTGATGAATTTGGTGGAAGTGTTTGCATAAAACTTTCTACTTTTTTACCATTTATATATATTTCAAAGCTTGTTATTGTTCTTGTATCTATTGAAAGATGTGCCAATAAATCTATTATAGTTGGATTTTTTTCTATTTTTTCAATAATATAATTTTCTCCCTCAGATATTTTTTTGTTTTTATCTATAATTTTATTTCCAACTTTAATTAAGCATTCTTCTTCAGGTAAAAAAATAGTTTTTCCATTAAAGTCTATTGCTCTTTTTTTTACATCAACATCTATAAAATCACCAATTACTGGTAAATCAACTTTTTCAATTTCAAATGAATCCATATTTTTTATTTCATAATCATCTTTTAAAACTTCACCGTTTTTTAATATAACGGTATTACTAGGTATTTCATAAGGTATACCATCTATGGTAAAATAAATAGTTTTATTCGAACTATTTGTTACATTTTTTAAGTATATTTTTTCTAAAGTTATTTTATCTCCATCTTTTATTATAGTATCTATATTTGATTCTTTGTTATTAACTATTATTTTTGGATAAATTTTTTGTGGTTTTCCATTTAAAAAGTATTTTATTGGATTTATTACATCTTTTACCTTTAATATTAATGGTTCACCATCTTTTGGAGTTCCAATAGTTATTCTATCTCCAGAATTTATTTTTGTTTTTAAAGAAGCTGGTCTATCATTAACTGATATTGGTGCTTCTTTTCCCATATTTCCTTTTTTTATAGTTAATTCACCATTTACTTCATAGGTTATTGCTGGTGATGGCTTTCCTATGAGTTGAGATAAAGAATATCCATCTTGTAATAATACTTGTAATACAGTTAAATTAGTACCTACCATCATCATATTTACGGTTTTTCCATTTATATAAACAGATGTAAAAACATTCCCTTCATTTTTCAAAGCCACATTTGCAATTCCAACAGGTGTAATAAATTCACTTCCTACTAATTCTTTTTCACCTTCAAATTTTATAGTATTTAATGATTTTAAATCTTTTAAAGCTATTCTATTTTTAGGTAAACCTAATTTTTCACCTAATTTTTCTTTAAAACCTGGTACTTTTCCTCCTCCACCAACAACCATTACTGCAACTGGTGGTTTTCCATTTAATTCTAAAATTCTATCAGCTATATTTGTTGTTATATTATTTATTACTGGTTCTATTATTTCTAAAACTTCTTTCTTAGTTATTTCTTGTTCAAAATCCAAAATATCTTTATATATAAATTTTTCTTTTTCGTGTAAATGCTTTTTTATTTCTTCAGCCGCTTTAAAATCTATTAATAATTTTTTTGTTATAGAATCTGTAATTTCATCACCTGCCATAGGAACCATTCCATATCCAACTATAGTTCCTTCATTTGAAACAGCTATATCACTAGTTCCTGCTCCAACATCAACCATAACAATATTTAAGTTTCTTAAATCTTCTGGAACAACAAGATTTATTGCTGCTATAGGTTCAAGAGTTATATGTGCTGGTTTTAAATCGTTTAATTCCAATACAGATATCATAGCTTCAACTACATTTTTGGGTAAAAATGCAGCAATAACTTTTACAGAAGCCTTTGTACCTCTTTGTCCTTCTAATCTTTTTATCCATTCGTCATCTAATTCATAGTAAAGTACTGAATAACCAACACAATACATTCCATTATTTTCATTTAATTTTTGAGTAGCATCTTTTACAGCTTCAATTTCAAAAGTTTTTACCAAAGAATTATCAATATATCTTGTACTACTTATATCAGCTATATGTTCTCCCGTTGTTGTTATTAAAAATCTTCCAGCAAGAGCTACAGCAACATCTTCAAGTTTTTCACCTAATTTTTCTTCAAGTTCCTTTTTTACTTTTGTTACTCCTTTTGCAACTTTTTGAACATCATGTATTTGTCCGTCAACCATTGCTCTACTTTCATGTTCTCTTATTGAAGTATGTTTTATAATTAAATTTTCATTTTCATCATAATCAGCAATAACACCAACTAATGTTCTTGTACCAACATCAAGGCTAAAAATCATTATTACACCTCCACAACGGTAACCCCTGTGCCACCTTCATTTGGTTTTCCAACCCTAAAACTTTTTATTTCTTTACAATTTCTTAAGTATTCCCATATTCCCAAAGATAATTTTCCAGTTCCTTTGCCATGAATTATATAACCTTTATTAAAATTTGAAAATAACATATCAGAAATAAGATTTTCTATTTCTGGTATAGATTCAGCTACTGTAAACCCTCTTAAATCTATTTCTGGTATTTTTGTACTTGAGTTTGAAAAAGAGGTAACTTTATTTATTTTTTCTTTTTTCTTCGTTGGTATTAATTCGTTTATATTATAAGTTAAATTAATAGGTGAATTTTCAATTTTAATTTCTGCTTTATTCTTTTTTATAGATATAACCCTTCCAATAGTTCCACCTGGAGCTTTTACATCCATACCAACTTTTATGGTATAACTATTCTTAACCTCATTTTTTTTATTTAATATTTCAATTTTATTAGAAATATCTTCTAATTTTTTTAAATTTTTCTTTAAAGAATCTGTGTTTTTTTGATTAGATGCATGTTTTATATCACTCATTATATTATAAACTTCATTTTTTAAAAATCTTATTTCATTTTTAAGTTTTAAAGTTTCATTATCAAGTTTTTCAACTTCTTTATTTTTCAATTTCTGATATTTTTTTTCATATTGTTTTTTCAATTGTTCTATTTCATATTTTTTCATTTTTATCTTATTCTTTTCTTCTTCAATTGTTTCAAAAGAATTAGCCATTTTTGAAAATAAATGCTCACTTTTTATATATTCTTCGCCTATATTATTTTGTGCATCTCTAAGTAATTCTTCATCAAATCCCATTCTTCTTGAAATTTCTATTGCATGTGAAGCACCAGGAACTCCTATTAATATTTTATATGTTGGTCTTAATGTTTGAACATCAAACGACATGGAGGCTGTTTCTAATCTTTTTTCCTCTATTGAATAAGTTTTTATTTCAGAAAGATGTGAAGTTATAAATAAAATGGAATTTTTATTTAATAATCTTTTTATTATAGCTCTACCTAAAGCAGCTCCTTCAATTGGATCTGTTCCTGTTCCAAGTTCATCTATTAAGATTAATGAATATTCATTTGCTTCATCTAATATTATTTTTAAATTTTTTAAATGCGAAGAAAATGTACTAAGATTTTGTGTTACGCTTTGTGAATCTCCTATATCTGTAAATATATTTTTTATATACGGTAATTTTGCCTCATAAGATAATATAGGAAAACCAGCATGAGATAATAAAAAAGCAAGACCTATTGATTTTAATGTGACTGTTTTTCCACCAGTATTTGGACCAGTTATAATCATTCCTTCTTCATTTAATTTTAAATTCAAAGGAATAACTTCACTTTTAGGGATTAAAGGATGTCTCAATCCATTAAAAAATATCTTTTTATCTTGTTCACTTGGAGTAACATATATTCCTTTATTATTTATTGCATAATTTGCTTTTCCTATCATACTATCTATGTATGAAATTACTTTTATATTATTTTTAATAGATTTTAATCTTTTTACCGTTTCAAAATTTATATGTGAAATAATTTTTGAAATTTCAGTTTTTTCATCAGACTTTAATTTCAAAAGTTCTTCATTTAACTCTATTAATTTTTCGGGTTCTATAAAAAAAGTTGATCCAGAATCAGATTTTCCAACAAACATTCCTTTAACTCTACTTCTATATTCACTTTTTACTGCAAGACATTGTCTTTCATTCCTAATTATTGGTCTATCTATTGATAAATATTTTCCAAACTTATTTATCAAAGATGATAAAGTTCCAGAAGTTTTATTTTTTATTCTATTTATATTTTTTCTTATTGTAAATAAAGACAAAGTAGCGTTATCTTCTATTTCACCATCTATGCTTATAGTTTTATAGAGCATAGATACATATTCTCTATGATAAATAAAATGAGAAAATTGTTCTTCAATATTTTTATCAAAGTTTTGTTTATTTTTACTAAAGATATCATATATTTGATTTAAAAAATTTGCAATATTTCTATACTCTTTTATTTCTACTAAAGAATTTAATTCTATTTTTTCTAATGTTTCTGTTATATCTGGTAAACCTCTTAAATCAATGTATTTTCCTGTATTAAAAAGATTAAAAAAACTTATTGAAATATCTATTTCAATTTTTATTTGATCTATATTGAGCATTTTAAAATTATTTTTTATAAAATCCCTTCCATATTTTGTATGACAATTTTCAGAAATTTTATTTAATGTTTCATATATTTGTAAGTCATTGTATAGTTTTTCTTTTAAAATTGTAACTCCACCCCCAAAAATACAGGTATATAATTAATTATAGTATAATCATCATTTGATTTATAATATCTTGTTTCATAACTAGAACTCAAATGGAATATTCCTATATTTAATCCACCTCCAACTAATACTTCCGTTGAAAAAGATACTAAATTGTCTTCGCTATGAACACCACCATATGCAATTATAGAGTAATTTATATTTTCTATTATTTTACCTTTATACACTACGTTTAACCCCAATGAATAAGATATTGTTCCAATTTTCGGATTATATAAATTTAACATTGTATCTTTAAAATTATTATAAAAAAAACCAAAGTATGGTCCAAAATATATTTCATTTGAATCTTCTGTTGGAACTAAATAACTTATTCTTCCTCCAATATAATCTGCTTTCAAATTTGTATCAAAATTCGTTATAGCAGATGTAGCACTTTGAGTTACTTCATAAGAATAATTAAAAAATATTTTAGAAAAATTAAATATAGTAAAAGATATGATTATAAATAAAAATATTTTTTTCAAGATAAATTCACCCTTTCAAGTATCTTTTCAAAATTAGTTTTTATAGACACTAAATCAAGTTCACAAATTTTTAAAAGTTCTTCACGCGTTCCATGAGTTACAAAATCCTTTATACCATATGCATATACCTTTTTATTTTTTATTTCTTCATTAAAACCGCCTTGTAAAATACCTTCTTCATAAGTAATTACTATAGATGCATTCTTATTTATTTCATTCATTATATTATTATCTATTGGTTTTATACTTCTTACTCCTATTATATTAACTTCATAATCTTTTAAAGCCTTATAAACAGTTTTAGATAGCGTTCCAACGGCAAGTGCATAAATATTTGAATTTGATTTTTTTAAATACTTCCAATTATAATTTACTTCTTTTAGACTCTTAAAAAGATCTTCCTCTTTTCCAAGATAATATTCTTTTGGAAATCTTATAAACCTTGGTTTATTTATTTCTTTAACTATTGACGTATAAATCATGTTTGCTAGATCAAAACCATCCAATGGAGTTAAAACTTCTATATTTGGAATTGGTCTTAAATAAGCTATATCAAAAATCCCATGGTGAGTTGGTCCATCTTCACCAACTAATCCAGCTCTATCTAATAAAAATAAAACAGGTAAAGATTGTAAAGAAACATCGTGTATTAAAGAATCATAAGCTCTTTGTAAAAATGTAGAATAAATATCAACAATAGGAAGTATACCTGTTAAAGATAGTGCTGCTGCTGTAGTTACTATACTTGGTTCAGTAATTCCCATATCAATCATTTTTTCTGGAGCTTCTTTTTTTAATTCATCAAGTCCTGTCCCTGATGTCATAGCTGCTGTAAAGGCTAAATATCGATAATCTTTTAATATCGATAAAGTTTTACCAACTATTTTGCTATAAGACAACCCTTCTTTTTTTATAGACATACCATGAAATTTAGATGGATTCTTTTCTGCTTTTTCAATTCCTTTTCCTTTTGTTGTAAGAACTTGTAAAACAGCTGGACCATTATTATAATTTTTTAAACACTTCATAAATAACTCTAATTCTTTTATGTTATGACCATCTACTGGGCCATAATACTTTATTCCCATATCTTCAAAAAAACCAGCTGGTTCTGAATAAATACTGTATTTCATTCCATTTCTTAATTTTTTTAATATTAGTTCTAAATCTTGCCCTATTTCAGAATCATTTAAACTCTCTTTTATATATTTTTTTATTGTATTATATGATTTTTTAACACGTATTTTAGAAAACAAAGTTGAAAGTGTTCCAACATTATTTGATATAGCCATATCATTACTATTTAAAATTATTTTTATGTTTGTTTTTTGATACTTTAATTGATTTAAAGATTCTAAAGCCATTCCACTTGTAAAAGCACCATCTCCAATTACAGTAACAATACTTCTTGATTTTTCTAAGACTTTATCTCCAAGTGCATAACCAATACCTGCTGCAATAGAGGTTGCTGCATGTCCTGCAATAAATCTATCAGTTCTTGATTCATTTATATTTGTAAAACCACTAATACCATTTAATTTTCTTAATGTTTTAAATGCTCCCCACCTTCCAGTGAGGAGCTTATGTACATATGCTTGATGACTTGTATCCCATATAATAACATCTTCTTCTGGATTAAAGGTTCTGTACATTGCAAGAGTTAATTCTACAACTCCTAAATTTGAAGCAAGATGACCATTTCCTTTTGACACAATATTATAAATATACTTTCTTATATTTTTTGCAAATCCATCAAGTTGTTTATAATTCATTTTTCTTGTTGCATTATAAAGCATTTTTTCTTTTTTATAATCTTTCATATTTCCTCGCAATCCTATCTAATATTCCATTAACAAATTTCCCAGACGTTTCTTCTGAATATTTTTTTGATAATTCAATAGCTTCGTCTATTATAACCTTAATGGGAGTTTCTTTTTTTTCTAATATTTCATAAATTGCTAATCTTAATACACTTTTTTCAACATTTCCTATTCTATCAAAAGACCAATTTTTTAAATTATCTTCAATTATTTTATCTATTGAAGATAAATTTTCTTTTATATACTTTACATAAATTAAAGGTTCTTCCATATTTATTTTTTTTTCTTTACATATATCATTAAGATTTTCAATTAATTCATCTAATTTTATTTCAAAAAAATTTAATTGAAATATACTTTCTATAACAGCTTCTCTAATTTTTCTTTTTGGTACAGGCACTTTATCACTCCTCAGTTTTTTCTTCATATTCTTTTGTTTCAATTATTGATTGTTCTAATTCTTCGGTAATAGGGTATTCAAGAGATTCTACAATTACTTCTATATTAGTTACATAAACATCAGCCATTTTTTCTAATTCGTTTTTTATTAATTCTTGTAATTTTTTAGAAAATTCAACTATATTTTCTCCATATTTAGCAGCTGTTTTAACTGTAACTGTTATACTTTGATCCTCATTTTTTCCTATTTTTATATTTTTTGGTAAATCTTTTTCTATTTTTAAATTATATATTTTTTCTTCCTTTAAAAATTTTTCAAGAGATTTGTAAGCTATATTTTTTAAAACAGTTTCAGAAATATTTATTTGTCCAAAATTATTTTCTTCTTTTATAGACATAGTAATTCCTCCTTTTGAAATTTAATTACTATAAAATTATACCATAATTCAAAATATTTTTATTTGCCCTTTAGGAACTTTATATCTCTTTTTCTTTACATTTTTCATTTTTTTTAAGTTATTTTCTAAATCTATCTTATTTGATATTAAATCCAAAACTTCTTTAGAACGTGTAATTATATCAATTGGAAACCCTGCCAACTTTGCAACTTCTATTCCATAGCTGTTATCACTTACACCATCCTCAATTTTGTGTAAGAAAATGACACCATTTTCAGTTTCTAAAACTTTAACCCTTTTAGTAGTAACACCTTCATAAATATCAGCCATCATAGTTAATTCAGTATAATGAGTAGCAAATATAGAAATTGATCCTATTACTTGAAAAATATATTCAGAAATTGCCCAGGCAACAGAAATACCATCTAAAGTACTCGTACCTCTTCCAACTTCATCTAATAAAACCAAACTATTTTTAGTAGCATTATTTAATATAGTTGACATTTCCAACATTTCCATTAAGAAAGTTGATTTTCCTGTAATGATATCATCTCTTGCGCCTATTCTTGTAAAAATTCTATCATAAATAGGTAAAAGTGCCTTTTTAGCAGGTACAAAACACCCAATTTGAGCCATTACACTTATTATTCCAACTTGTCTTAAATATGTCGATTTTCCACTCATATTTGGTCCTGTTAAAATTATAAAAAAGTTTTCATTATCTATATCAAAATCATTTGATGTATATTCTTTTGAAAATTTTTCAACTACAGGATGTCTTCCTTGCATTATTTTAGATTTTTTGTTTTCTGTAAAAGTTGGTCTTACATAATTATTTAACACAGAAATTTCCGCAAAAGATCTTAAAACATCTAATTCAGAAATTTTATCAGATAATTTTTTAATCTTTTGAGTATAAGAATTTAGCCATTCTAATAATTCTAAATACAATTTTTTTTCTATTTTCCTAATCTTATCTTCTGCTATTATCATCTTTTTTTCTAAATCTTTTAATTCTTCAAAAATAAATCTTTCATTATTAGTTAATGTTTGTCTTCTTATATAGTATTCTGGAACTAAATTTGCTTGCGTTTTTGAAACTTCTACATAAAATCCATATATTTTGTTTCTTCCAACTTTTAATTTAGTAATACCAGTTTTTTCTTTTTCTTTATTTTCTATTTCTTTTAATATTTTATCTATATCAAAAGATAAATTTCTATACTCATCTAATTCTTTAGAAACACCTTCTTTTATTACAAAACCTTTTCCTACATCATTATTTGCATTTTCAAATAATGTGTTATTTATTTTTTCTTTTATATTTTGAAGTAAATTAATATCTTCAAAAAAATTTGATAGCTCACTACTTTCTAATAATTCATAAATATAAGGTATAGCATTTAAAGATGTTTTTAAAGCTAAAATATCACTCGGAGTAGCTTTTAATAAAGAGATTCTTGTAGAAATTCTATCAATATCTCTTATGTATGATAAATATTCCTTTAGTTCATTCATTAAAAGTCTATCTTTGTACATTATTTCAACATTATTCAATCTGTTTTCTATGACGTTTTTATCTATTAAAGGCCTTAATAAATATTCACGTAATAATCTATTTCCCATAGGAGTCTTTGTTTTCTTTAAAATATCATATAATGTTTTTCCTTTTGTTTCATTAGAAGGTATTAATCCTAAATTTGTAACTGTATTACTGTCAATATACATATATTCTAAGGTTTTTAATCTTTTTGGAATTTTAAAATGTTTTACTTTTGAAAATTGTGTTACTTCTAAATACTTTAAAACAGCAGAAAAAGTTATTAATTCATCTTTTGAAAAACCTAATATATTAAAATCAATTGAACCATAACTTTCTTCCAATTGATTTTTATAATTTTTTGAAAAATACCATTCATCTAAAGATTCTATATAAATTTTATTATTAATTTCTTTTATTTTTTTTGATAAATCTTTTAGTTCTTCAGACAAAAGAATTTGTACAAAATTTGATGAAATAATAAAATCTATTAATTCAGATTCATTAAATTCAAAAGAATCTAAATAGACCTCTCCAGTTGAAAAATCAAAAATGCTGACAATATATTTTCTGTCATCATTTTTTTTAATCAATAATGAAAAACTATTAATTTCATCTAGCATATTTTCTTCTATAATTGTACCTGGAGTAATAATTCTAGTTACTTCACGTTTTATTATACCCTTTGCATCTTCTGGATTTTCAAGTTGCTCACAAATTGCAACTTTCAAACCATTTTCTAACAATTTTTTTAAATAATTATCAAGAGCATGATATGGAATACCAGCCATTGGATGTCCATTTCTATTAGTTAAAACTATTTGTAGTATATCACTTACTCTTTTAGCATCTTCAAAAAAAGTTTCATAAAAATCGCCTAATCTAAATAGTAAAACAGCATCTTTATATTGTTCTTTTATTTCAAGATATTGTCTTATCATAGGAGTAAGAGAAGCCATGAATAAAAAACCTCCGTTTCAAAAAACAAGGCGCTAAGCGCCTTGTTTATTTTTCAATTTCTTTTCTTGAACCTATAACTTTATCTATTAATCCATATTTTACAGCTTCTTCTGCTGACATAAAATTATCTCTATCGCAATCTTTTTCAATTTTTTTGTATGTTTGACCAGTGTGGAAACTCAATATATCATAAAGTATTTTCTTTAAGCGTTGCATTTCATTTAATCTTATTTGAACATCGGTTGCAACACCCTCAGCACCGCCAGCTATTTGATGTATCATTACTCTGGAATTTGGAAGAGCAAATCTTTTACCTTTTGTACCTCCAGATAATAATACTGCACCCATTGATGCAGCTTGGCCTATACAAATAGTAGATACATCTGGTTTTATATATTGCATAGTATCATAAATTGCAAGACCATCTGTTACAGATCCCCCTGGAGAATTTATATAAATATAAATATCTTTTTCAGGATCTTGAGATTCAAGAAATAATAATTGTGCAACAACTACATTTGCAATAGTTTCTTCTATTGGTGAACCTATAAAGATAATTCTATCTTTTAATAATCTAGAATATATATCATAGGATCTTTCATAACGTCCATTTGATTCAACAACTACCGGCATTGGAATACTCAAAGTTCATTCCTCCTCCCCTTTTTTACTTTATCTATTATTTTATTAGCATTAACGGAAGTTAAAACCATATGGCCACTATCCATAAAAATAACGGTTTCAACACTTTTTCCATAAGTTATATCAATTAATTTTATTCCACCTTTTATAGGTTTTTTTTCAAGTTGAGCTAAAACATCATTTTCTTGAAATATTTTTTTTATTTTTCTAAATTGCAAGAATTCTTCTGGAATAACAGAATGTATTCTTTCTGCAACTAAATAAGAATCTTTTGTTATTGGAATAAACATTTTTTCACCTCCGCCCATATTATACAACAAACTAAAAAAAAAACAAAATTTCTTTACATAGTTAACAATAATTTGTTATACTTAAACTAATTTAATAAACAATATTGATAAGGAGAAAAATATTATGAATGATGATAACAGAAATAAACTTGTAAATAGAGCTGCATATGCTGGAATAATAGGAAATACATTTTTGGCTATATTAAAATTATTTATAGGTATATTTACTGGAAGTTTAGCAATATTAGCTGATGGAATAGATACTACCACTGATATAGCAACTTCATTTTTAACATTAATCGCAGCAAAAATTTCTAATAAACCTCCAGATAAATCTCATCCTTATGGACATGAAAAAATAGAAACAATAATAACAAAATTACTTTCTCTTGTAATAATATTTGCAGGATACAATTTATTAATAAAATCTATAAAAAATATAATAACTCCGGAATTTAAAATTAACAATTTAATTTTAGTATTGATAACAGCATCAATTTCTGTTATTATAAAATATTTTCTTTTTAAATACAAATTAAAAATTGGCAAAAAAATAAATAGTCCATCTTCAATTGCAGATGCAATGAATATGAAAAATGATGTCTTAATATCCCTTTCAGTATTGATAGGAATAACCATTTACTATTTTACTGGAATAAAAATATTAGATCCTATAATAGCTTTATTAGTTTCATTAATGATTTTTAAAGTTGGATTTGAAACTTTTTTTGAAGCTTCAAACGATTTAATGGATGGTTCTAAAAACCTTGGTAAAATATACCTTGATATAGTAAACGTAGTAGATAAATATGAAGATATCAAAAATCCACATAAAATAAGAGTTAGAAAATCTGGATTTGTTTTTTTTGTAGACATGCATCTTGAAATAAATGGAGAAAAAACAATAAATGAAGCACATTCAATAATAATGAAAATAGAAAAAGAAATCAAACAATTAAATGTTTATATAAAAGATATAACTATCCATGTAGAACCAATAGGAAATAATGAAAAAGAATGTTTTGGATACGATGAAAATCTAATAAAAAGAACATTTGGAAATGAGGAGGAAAACAATGGAATTTGATTTTTTAGATGAAGCAAGAATATATGTTAAAGCAGGTAGAGGCGGAAATGGTTCCGTAAATTTTAGAAGAGAAAAATACGTTCCAAAAGGCGGTCCAGATGGTGGCGATGGAGGAAATGGAGGAAACGTAATAATAAAATCTGTTTTAACAAAAAATACTTTAATAGACTTTAAATTCAAAAAGAAATTTGTTGCAGAAGATGGTGTAGCTGGAACAAGAAAAAAACAATTTGGAAGAAATGGTAAAGATACAATAATTGAAGTTCCTGTTGGAACAATGATTTATGATGAAGATACGGAAGAATTAATAGCAGATTTAACTTATCCAGAACAATACGTAGTAATTGCTCGTGGAGGAAAAGGTGGAAAAGGTAATGCAAAGTTTGCAAATTCAAAAATGCAAGCTCCTAAAATTGCAGAAAAAGGCATCGAAGGAGAAGAAAGAAATATAAAATTTATACTAAAATTAATAGCAGATATAGGAATAGTTGGATTTCCAAATGTAGGAAAATCAACATTAATTTCAAAAATTTCTAATGCAAAACCAAAAATAGCAAATTATCATTTTACAACATTAAAACCAAATCTTGGCGTAGTAAAAGTTGGAGAAGGCAATTCATTTGTTGTTGCAGATATACCAGGATTAATTGAAGGAGCCCATGAAGGAACAGGACTTGGAGATAAATTTTTAAGACATATAGAAAGATGTCATGTTATAGTTCATATTGTAGATATTTCTGGAATAGAAGGTAGAGATCCTATTGATGACTACTATAAAATAAGAAAAGAATTAGAAAATTTTTCAGAAATTTTAGCCTCAAAAAAAGAAATTATTGTTGCAAATAAACTTGATTTAATAACAGAAGAAGAAACTCAAAAAAAATTAAAAGAATTTACAGAAAAAACAGGTAAAGAAATATTTGAAATTTCAGCATATACTGGATATAACACAGATAAACTAATAAGTAAAATGTGGAACTTAATAAGCAAAGATCGAATTGAATACATAAAAAGAATTCAAAAATTCTTAAAAACTCAACCAGAAAGAGTAAAATTAAAGGTAGAACCAGTAAATATACCAATCGATTTTAAAATTAAAATAGAAGTAGTAAAATGGAGTAAAGATACTTACGAAGTTACAGGCTCAAGTGTAGAAAAACTTTTAAATAAATATAATATTATGCAAGAAGATTCTAAAAGAAAAATAATCCATCTTCTTGAAGAAAATGGAATGGATAGAGCACTCCTAAGTGCTGGAATAAAAGAAGGAGATACCGTTTACATAGGTGATCTTGCATTTGAATACATACCTTAAGGAGAATTAAAAATGATTGTTTTATTTGGAGGAACATTCAATCCACCACACATTGCTCATAAAATAATAGCAGAAGTAGCTTATGATGAACTAAAACCAAGTAGATTTTTAATAATTCCTGCATCTGTACCACCACATAAAACTAATAATTTTATAGTTGATTTTAATATAAGATATAACTGGTTAAAAAAAGTTTTTTCGTCAAAATTTGAAATTAGTAATATAGAAAACAAATTACCAAAACCATCATATTCATTTCAAACTATTGAATATTTTTCAAAAAAAGATAAAGTTATTTTACTCATTGGAGAAGATTCACTACTAAACTTTAAAAAATGGTATAAATGGGAAGAAATATTAAAAAAATGTACTTTAGCTGTTTATCCACGATTTTTTAAAAATAAAATTAATACAGATATCCCATATATAAAAATAAATTCACCATTAATTGATATATCTTCTACTACTATAAGAAATCGAATAACCCAAAAGAAAACAATAAATGGAATGGTTGAAGATAAAATAAAAGATGAAATAATCAAAGTTTATACTTATTTTACACAAATTTAAAAGTAAAACTATTGACAAATAGGTATTTGTTGTGTATAATTGTTTCGTAAATGAACTTCGAGTTCTTAATGCCGGGGTGGTGGAATTGGTAGACACGTATGGTTGAGGGCCATATGGGCAATTGCGCTCGTGCGGGTTCAAGTCCCGCCCCCGGCACCAAAAAAAGAGAAGACTTAGTCTTCTCTTTTTTATTTGATATTTTTAATATTGAATATATATTCTTATTTTAAAATCTTTTTTACAAGTTTGAATTTTTTTTCTGTATATGGTGGAAATTGAACGTTTAAATTTATCTTTGTGGATTTATTTAAAATACTTTTAAAATGGGAAAATTGTCTAAAACTTGCTTCTCCATGATAAGAACCTAATCCAGAATTTCCAACGCCTCCAAAAGGCATATAATGTGAAGTAAAATGACTTACAGTCTCATTTATTCCAAAACCTCCAGAACTTGTATTTTCAATAATATACTTTTGATTATTTTTACTTTCAGAAAATATATAAACAGCTAAAGGTTTTGGCCTTTCATTAATTATTTTTGAAACATCTTCAATATTTTCATACTCTAAAATTGGCAATAATGGGCCAAATATTTCATCTTTCATAGAAGCATCATTCCAATTTACATTATTTAAAAGAGTTGGAGATATATATTTTTCTTTTAAATTATATTCTCCACCAAAAATCACTTTACTTTTATCCTCTTCAATTATTTTAATTAATCTGTTCATTTGTTTTTCATTAATTATTCTTGCATAATCTTTTGATTTTTCAATTTCATGACCATAAAAATTACTTATGGCTTGTTTAAATTCTTTTATAAATTGTTCTTTTACTGATTTATGAATTATAAGGTAATCTGGCGCTACACAAGTTTGACCTGCATTAAAACATTTCCCCCAAGCAATCCTTTTAGCTGAAACTTTAATGTTTGCTGTTTTATCTACAATACAAGGACTCTTTCCTCCAAGCTCTAATGTTACTGGAGTTAAATTTTTACTTGCTGCTTCCATTATAATCTTTCCAACTTTTACACTTCCAGTAAAAAATATAAAATCAAACTTCATATTGATTAAATTAGAAACAATTTCTTTTTCTCCTTCTACAACCCTTATATAATTAAAATCATAATTTTCAGAAATTATTTTATTTATTACTTTTGAAACATTTGGTGTATCTTCTGATGGTTTTATAACTACTGTATTCCCAGCGGTTATAGCTCCTATCATTGGTTCTATTAAAAGATTAAAAGGATAATTAAATGGTCCTATAATCAATACAACACCATATGGTTCTGGGTTAATATAACTCTTTGCACTAAACAAATGTAGTGGCGTTTTAACTTTTTTTACTTTACTCCATTTTTTTATATTTTTTATTGAATAGTTGATACTTTTTAACACGGTTCCTATTTCTGCTGCATAAGTTTCATATTTATGTCTACCTAAATCTTTTTCTAAGGCTACTATAATTTCATCAGTGTATTTAATAATTGATTTTTTTAGTTTTTTTAACTGTTCTATTCTAAAGTTTACATCTTTTGTTTTTCCTATAAAAAAATATTCTTTCATTTCAAGTAGCATATTTTGAAGTTCTTTATTATTCACATTATCCTCCTACATTTCATATTAACATTTATTTTTTATAAAATAAAGAATTTAAAAAACACTAAAGAAATTCTTTAGTGTTTTTTTTAATGTATCTTTTTTTCCATTTCCCATTGAATTAAAAATGGTTCAAAATTTAGTTCTTTTGCAACTTTATTTAAAAGATCATCTGATGGTACAGAAACCATAATTACTTTATTTTTTTCTGAAGCAATTCTTTTTAAAGCATCTTTAAAAATATCATAATACTTAGTTTCATCAGCTATTGGAGAAATATCAACAATAAAAGCATTATCTTCATTTGTTCCCCAAACTATATAACCAATAGCAAAACCTTTTGAAACTATTTTTTCAACAATATATCTTCCTTCACTCAAACCTAATGTTTTAGGTTCTCTTTGCCAATTAGGCTTTCTATGAAGATTATTCAATGCAGAAACTGCCATATCATGAACCCATTTTCCATCTTCTGGTAAATACTTATATTCTGGATCTTCTGACTTTTTTATATTATACTTTAATGATTCTAATTTTCTTTTTAATTTAAAATTATGTTTTTGATAAAACTTTACAGCTCTTTTTTCATTTTCTTCTACTTCTAAAACAACATCTCTTATTCCTTTCCATTTTAAAGTTTCCATGGTTCTTGTTAATATTTCAGAAGATATACCAGTTCCACGATATTTTTTTAATAACCCTATAGAATCAATTCTTCCTCTTTCTCCCCTTACAGAAACTATACTAAATCCTATTGGTTCATTTTTATCATATGCTACAAATGAATTTTCAAGGGATATGGAGTTTTCAACAATATCTTTTTCAAATGATTGAATTGTCCAATGAACTGGAACTATATAATCTTTAAAAACCTCATTAACAAGATTTACAACTGTCATCAAAGATGCTTCCACCAAATTTTTGTATTCCATATTTTTCCCTCCTCTCAATATTATTATACTACATTTTTATTAAAAATTTTAAATTAATGTAAGCATTTTATCTTATATTTTATGATATTATATAAATATATCTTAAAATTAGAGGGAAGTGGTTTTGTGTTTACAAAATTTAAAGAATTAATTGATTTATCAAATTCAAGTGGTCAACCTTTACATGAAGTTGTAAAAGAATGGGAAATGTTAGAAAATGGCACTGATCCAATACAAATTGAAAAAAATTCAGAATTATTAGTTGAAGAAATGATAAAATCTTATAAACATAAAATAGAAAATCTTAATGAAAAAAGTATAACAGGATGGACAGGATTTAATACTAAAATCTATTTTGAAAGAATGAAAAATAAAAAAAGTTTATTTAACAATCTTTTATCAAAAGCTATTCTTGTGGCTTTAGCTACTTCAGAAAATAATGCTTCTATGGGAAGAATTGTTGCTTGTCCTACTGCAGGATCAAGTGGGGTAATACCTGGTGTTTTAGTTTCATTACATGAAGAAAAAAATATAGATATAAAAACTCTTGGGAAAAGTTTATTAATTGCTGGTGCTGTTGGTGAATTTATAAGAAGAAGAGGAAGTTTAGCTGGTGCTGTTGGTGGTTGTCAGGCTGAAATAGGAAGTGCAACTGCTATGGGAGCAGCAGCAATTGTTTATGCAATTGATGGAAATCCAGATAAAGTTTCTAATGCGGCAGCTCTTTCTATGAAATTTTTAATGGGACTTGTTTGTGATCCAGTTGGTGGATTTGTTGAGATACCTTGTGTTAAAAGAAATCCTGCAGGATCTATACTTGCTTTTACTGCAGCTGAATTAGCTTTATCGGGAGTAAAAAGCGCCATTCCATTCGATGAAGTTGCCGATGCTATGGGAAAAGTTGGTCGATCTTTGTCTGAAGATTTAAGAGAAACAGGTAAAGGTGGCATTGCTGCCACCAAAACAGGTAAAAAATTACTTAATGACTTTATTAATAATAAAATCTAAAGATTTTCTTGCCAACGGAACTGCAATGTGAGGTCCATAACCTGCATTTTCTAAAAAAACTATTATTGAATATTTAGGTTTATCTGCTGGGAAAAAACCTGCAAACCAAGCATGAGGTTTTTTCCCTCCAGAAACTTCAGCAGTTCCAGTTTTACCTGCAACTACATAAGGAAATCCTTTAAACCCTTCGTAAGCAGTTCCCTCATTTGCAGAATCTCCTTCATAATTTCCCATATAAGTAGTAACTTCTTTCATTCCCTCTAAAACATTATCTAAATATTCTTCATTTATATTGTAAGCATCTCTTATTTTTGGAATATATTGTTCTTGTATTTTATTGAATAAATCTTTTTGAATATTAAACAAATGAAATTGATAGTATTTTCCGCGAGTTGCTAATATATTATAAAAACGCAACATTTCTAAAGGTGTAGCTTTTACATTTCCTTGCCCTATAAAAACATTCAAAGTATTTCCAGGATACCATGGTTCTTTAAAAACTTTTTCTTTCCATTCTTTTGAAGGAAAAAAGCCACTTTTTTCTCCAGGTAAATCTATATCTGTTTTTTCAATTAATTTATATTCTTTAACTTTTTTATTTATAGCATCTATCCCTATTGTTTCACCAAGCCAATAAAAATAACTATTAGCTGATACTCTAATTGCTTTTATCATATTTGTTATTCCATGACCAAGTGGCCACCAATCTTTAAATGTTCCTATTACGTATCCTTTTGAATTTTTTAGTTGATACTTTCCTGTTGAGTTTATTGTAGCTTCTGGTGAAATACCTAATTCTAAAGCCGACAAAGCTAAAAATGGTTTTATTACAGATCCCGGAGGATAATTTTGATATATTGCTCTATTGTACATTGGTTTTTTATTATCGTTTAATATTCTCTGAAACTTTAAGTTTGTAAGACCTTTTGAAAAATCATTTGGGTCTGGTGAAGGATAACTAACCATTGCTATTATTTCACCATTATTTGGGTTTGAAACAACTACAGCTCCTGGCTTATTATTCTCACTTAAATAAGTGTATATTTTTTCTTGAATATCTAAATCAAGAGTTAAATAAACATCATTTCCTGAAATAGGAATTGTTTTTTCTATTATATTTTTAATACGACCACTTGGAGTTATGTTTACTATTTTATAACCGTCTTCACCTTTTAATTTATCATTTAATGTTAATTCAAGACCACTTCGAGGATTTCCTTCGTTATCTACATATCCAGTAATATGATATAAAGATTTATGAGCATATTTTCTTATGTATTTTTCTTCTATTAATAAAGTTCTTATTGAAGATAATTTTTTTGCTGTTGTAGAGTTTATGTTTAAATTTATACTTTTTTGAAAGTTTAATTTATCTATGATAGAATCTGTATCTATATTAAATTTATTTAATATTAGTCTTATTTTTTTTTCTGTATCAGCATTTATTTCATCACTCAAGTTAGTTATTTTATATATTCTTTCATTCCAAGCTAATAATTTTCCATTTCTATCATATATATTTCCTCTTTTTGCATTTTGTTTTATTATTCTTGTACTTAAATCTTGAACTTCTATTCTAAAATCTTTCCACTTTATTATTTGTAAATAAAAACTTCTTACAAGCAATAAACTAAAACTAAAAAATATAATTATAAATATTAAAGTTATTCTATGATTTTTCATTTATAATCAACCTCATGTTTATAAAATATAAAATTATTATTATTGATAAAGTTATTATTAAAGGTATTGGAGTCCATTTTATTGAACATAAAAACAATGTTGATGGTATTGTGTAAGCAATTGTTGAAATAAAATTTTTTTGTATATTTATAAAAATTGTATCTATTATTATGTATATTACTAAAAAAATGATCGCATATAAACCTACATCATATTTTAACGAAAAATATATCAACGTATATAAAAAAGCATACATATTTTTTGTTTTTTCATTAAAATCAAGATTTTTTAAATAAACTGAAACTATTGGATAAGAAAAAAACAGATATTGACCTAACCATCTATCCCATGATGAAGAGGCTATTGTAAATAAAAAAAACAATAAATATTTCATAATTATTCCTCCAAAAAGTAAGCAAGTATTCCTTTAAATTTAAGAGGTTTAAAGAGATACATTTCACCATATTTAGAAATTATTTTTCCTGTTAATATTACTTTTTTTTTGTTTATTGTATCAATATAATAAGGTAATGTAATAGTTAATATTTTTTCATTTATTTTTTGTGGTAATTCTACAAAAAGATTTCCATTATCCTCTTTTATTAAAACATCATATCCACCTATTTCTCCAAATATTTCATTTGTTCCCCAACCTAATTTTTTTACAATTATTCTATTAGAGTATGTTTTTTCTGAAAAACCTATTAAATTTCCTTCATCATCAATTACAAAACTATTTTTAGAAACTTTTTCATTAGAATGAACTATTAAGTATTTATATTCTTCTTTTAATATTATTCCATAAGGAATAGAAAATTTTAAATTTTCTCCTTTTTTTAATTGTATTTTATTTGAAGAAATTATACTTAAAATATTTTTTAAACTTTCTGCTCTTGAATCTCTTATTAAAATTTCTTCTTGTAATTTTGAAAAAACGTAATTAAAAGGATAAGAAACCCATTGAACTATATTTCCAATGGGTTTATATATATTTATCATTATAGTCAAAACTATAAAAATATTTAAATAAAATATTTTATTTTTAAACATTTATTATCTCCTGGTTTTTGAAATGTTTTCTAATATTTTAATATTATCCAAAGCCATACCGGCACCTCTTGCAACACAGGTTAAAGGTTCATCAGCTATAACTACTCTAATTAAAGTTTCTTTTTCAATAAGTTCTTTTATTCCTTTAATCATAGCACCACCACCAGCTAAAAATATTCCTTTATTTACAATATCTGATAAAAGTTCTGGTGGCGTTGATTCAACAGCATTTTTTATATTTTCAACTATTTTTGAAACTGGGTTTTTTATAGCAGTTCTTATTTCTTTTCCTGTAATATTAACTCTTTTTGGCAATCCGCTTAGTATATCAAGTCCTATTACTTCAATACTTAGATTATCATATTCATCACATTCAAAGGTATTTCCTACTTCCATTTTAATTTGTTCCGCAGTTCTTTCTCCAACAAGTATATTATGTTCATTTTTTATATATTCAACAATATGTTCATCCAACTCATCTCCGGCAACTCTTATAGACTTTGAAAGTACAATACTACCAAGAGATATAACTGCTATTTCTGTTGTACCTCCCCCAATATCTACAATCATATTTCCTGAAGGTTCTTCAACATTTAATCCTGCTCCTATTGCTGTTGCCATAGCTTCTTCTATTAAATATACTTTTCCTGCTCCACCATCAAGTGCTGCTTCTCTAAGAGCTTGTCTTTCAACTTCAGTTGCTTCAGTTGGAATACCAACAACAACTAATGGTTTTAATATACTAAAGCCACCGACTGCATTTTTTATAAAGTATTTTAACATTGCAAGAGCTATATCATAATCAGCAATAACACCATCTTTTAAAGGTCTTATCGCTATTATATTTGATGGTGTTTTACCTATCATTTTTTTTGCTTCTATTCCAACACTTAAAGCTTCCCCTTTGTCTCTTTCTATAGCTATTACTGATGGTTCATTTATTATTATTCCTTTTCCTTTTGAATAAACAAGTGTATTTGCAGTTCCCAAATCAATCCCAAGATATGTCCTCATAAATTTCCTCCTTAAGAATAAATATCAATTATAGTATATCACACCTAATGCCATTTGAAAATATAGAAACAAAAATTTAATTTTTTTTTATTGACATGTATAATATAAAAGTATATAATATTAAACGTATTGTTTAATATTATATACTAAAGCTTTTTATAGGGGGCTTTTTCGTGAAAATTGGTAAGAAATTAAAAAGTTTAAGAATTATGAAAAACATGACACAAGAAGAATTAGCTGTTAGATCAGATTTAACAAGAGGTTTTATATCTCAATTAGAAAGAGATTTAACTTCTCCTACATTAGAAAATTTAGATATGATTCTTCATGCACTCGGAACTGATTTAAAAGAATTTTTTTCAAAATTTGATTCAGTTGAGAAAATTGTATATAAAAAAGAAGATAGAATACCAATTTATGATACTCCAAAAGGGGTAAAAGAAGAGTTATTAATGACAGCAACTGACCCTAAAAAAATAGAACCTTCATTTTTATATTTGAAACCTATGAGTAAAACAAAGGAAGAAAATTATCATGAAGGAATTGAATTTGGTTATGTAATTGAAGGGAATATTATGCTTTACTTAGATGGAATTTCTTACAAAGTAAAAGAAGAAGAATCTTTCTTTTTTACATCTAATAAAAAACATTTTATAAAAAACACATCTAAAAAAAACTGTGCAAAAGTTTTGTGGATAGAAATTTTTTAAGAGGGGGTAAAAAATGGCAATATCTCTTGGAAAACATTTAATTGCAGAATTTTTTGAATGCAATAAAGACATTTTAGACAATGTCGAAAAAATAGAATATCATATGAAAAAAGCAACAATAGAAACAGGAGCTACTATAGTAACTTCAACGTTTCATCGTTTTTTACCTCATGGAGTTAGCGGTGCTGTTATTGTTTCAGAATCACATTTAGCAATTCATACTTGGCCTGAATATGGATATGCTTCTATTGATTTATATACCTGTGGTGATCATGTTGATCCATGGAAAGCATTCGAATATTTAAAAGAAGCTTTTTCATCATCAAGAACACAAGTTTCAGAACATTTTAGAGGACTTTATAGTGAAATTGGAATAGCGGAAAATTCTCCGCATAAAGTGGAGGTGAAATAATGAATCATTTAAGATTTGAAGAATACAATATAGGAAATAATTCTGGAATTTTTTTTACAATAGATAAATTTTTATATTCAACGCAAAGCAAATATCAAAGGATAGATGTATTTGAAACACCTGAATTTGGAAGAGTTTTTACACTTGATGGACTTACTATGACAAGGGAATCAGATGAATTTATATATCATGAAATGATAACTCATGTTCCTATGTTTATACATCCTAATCCTAAGAATGTATTGATAATAGGTGGAGGAGATGGAGGAACTTCAAGAGAGGTTTTAAAACATCCATCAGTAGAGAATGTTATTATGTGTGAAATAGACTCAGATGTTGTAAACGTTGCTAAAGAATTTTTACCTACAACTTCTTGTGAATTTGATAATCCAAAATTAAAGATTATTTGTGAAGATGGATCTAAGTTGATAAAAAAATATAAAGATTATTTTGATGTGATAATAATTGATTCAACAGATCCAACTGAAGGTCAAGGTGGTCTTTTATTTACTGAAGAATTTTATAAAGATTGTTATGAAGCTATGACAGAAAATGGTGTTTTTTCTGCTGAAACCGAAGATCCGTTCCTTCATAAAAAATGGTTGAAATTAGCTTACAATAGAATTTCTAATGTTTTTAATGTATCGAATTTATATATGGGATATGTTCCACAATATCCACCAGGCACTTGGACTTGGACCTTTGCATCAAAAGGATTAGATCCAATAAAAGATTTTAATCCAGAAAAGATTAAAGCTTTTGAATCAGAATTAAAGTATTATAATGAAAGTATTCATATTGCTTCGTTTGCATTACCTAATTTTGTAAAAGAATTAATAAATATTAAATAAAAAAATATCAATGGTTAAATAACCATTGATATTTCTTATTATTTGTTTAATTTAACTATCAGTGTTTTTTAATTTTTTAATTATTTCTTCAGTTAGTCCTGTTTTTTCAGCTATTGTCTTTATATCTAAAATATCTAATAAACTTTTAGCTATTTCCATTTTACCTTGTTCGATCCCCTGTTCGATCCCTTGTTCAATACCTTGTTCAATACCTTGTTCAATACCTTGTTCAATACCTTGTTCAATACCTTGTTCGATTCCCTGTTCAATTCCCTTAGATAAACCTTTTTTAAAACCTTTATTTTCAGCTGTTTTTATTGCAGCTTCTTCATCACGAAGCCACTTTAATCTTGCTTCATAGCTTTCTCGTTCTTCATAATTTAATGACATTTCATCCAATAATTCTACAGCTTTTTTTATACTTTCTACTTCTTCTAATTCTTTTGGTAATTTATCTTTTTCATATATATCAGCTTTTTTTAGAAAGTTTACCCATCTATCCAACATGGTACTCATTTTTTCATCGTACTTTTCTAGCTCAATAAAATGTATTTCTAAATGATCAATGAATTCTTTTTTGCTTTCCATATTTACTATTTTGTATACATTATGATAATTTTCCTCTTCTAAACATTTGAAGTTTAATATGTTTATACTAATAGTTTTTTTCAAATTATCATAGTTTATTCCTGCAAAAAGTTGTCCTGAATAGACTCTTGACCAGTAATACAGTGCTCTTTTATCATAATATTCTTGATCTATTATCTGCATTTCTACATTGTACCAATGTCCCTTTTGATCTACTGCTTTTATATCTAATATTGAAAGTTTATCATTTTTAAAGTTTTTTTCATTGTATGGATTTTTTATTTCTATGTCCTTTACTTTATCTTCTTCTGATACTATTGAATTTATTAAGTCTATTAATAATTGTTTATTTGATTCCGTACCAAATAACTTTTTGAATGCAAAATCTACTCTTGGGTTTATTCTACACATGATTCTTTCCTCCTCTCTATACTTCCTTATATCACAACAAAATTATTTCATAAATTTTTTCTTGCGTTTTATTAGCTATATAAACTTTATTAAACTTATTTTCTAATACATAAAAATAATAATAATTTTTACTTTTAAAAACTTTTAAAACTTCTTCTGGTATAGTATAAGTTTCATCTTCATATTTTATGCAGGCTGTTTTTCCAGTTATTATTAAATTATTTTCTCCTTTTATTAATTCATTTTTTTTATCTTTAATTAAAGTTTCTAGAATTTCAAAAATATTATTTAATTTTTCTTCTGTAGGAATAATTATAAAATTTAATACCTTTTTTTTAGAAAAAGCTTTATATTCAAGACCTCTATATTCATAAGATGGATAAGCAATTATAGAAAAATTACTATTTTCAAAAATGAAATATCTTGAATCAAAAGTTTTTATTTCGCCATTTCCATATTTTGTAGAAATATTGTATATATTAATTTTATTAGTTAAATTTATTTCTATACTAGTATTCTTAAATTTATATGGATAATATTTTACTGTTGTATAACCGCTATCTCTTAGTTGAACATATGGATAATGTATTTTATTTTTTAAATGAAGTTCATATCTTTGCCAAGCAAAAAATGATAAAAGATATATCACTGCCATTATTCCAAGTATACTAAGAAAATTTTTTATAGTGTTTTCTTTTTCTTCTTTTGAGATCACATTAAACACCTTCTTTCCATACTTTATATCCGTTTGTTATAGGCATTCTTCTATCTTTCCCAAAACTTCTTTCCGTTAGTTTTATTCCAGGTGCAGCTTGCCTTCTTTTATATTCATTTAAATCTACTAATCTAATTACAAATTTAACTAAATTTTTATCATAATTATCTTCAACTATTTCATCAAAAGACATTTCTCTATCTATATATCTAAAAAGTATTGCATCGAGTGTATCATAATCTGGTAAAGAATCTTGATCTTTTTGATCTGGACGTAATTCAGCAGAAGGAGCCTTTGTAAATATGTTTTTTGGTATGATTTCTGATTTATGTAATTCATTATATTTTTCAGCAACTTTGTATACTTCCGTTTTATATAAGTCCTTTATTGGAGAAAAACCACCAGCCATATCTCCATAAAGAGTAGAATATCCAACTGCAGATTCACTTTTATTTCCAGTTGCTAAAACCATATAACCAAATTTATTTGAAAATGCCATATTTATAACGCCTCTAATTCTTGCCTGTATGTTTTCTTCTGTTGTGTTAAATTCTGTTCCTTCAAAATCTTTATTTAACTTTTCCATGAATGAATCAAAAATATCCTTTATAGGTACTATTGTTGTCTTTATTCCAAGATTTTCTGCAAGTGCTTTTGAATCATCTATACTTCCTTCAGAAGAATATTGAGATGGCATCATTATACCAAAAACATTATCTTTTCCAAGTGCATCAACGGCTATTGATGCAACTATTGCGGAATCCATCCCACCACTTAATCCTAGAACTACTTTTGAAAAACCATTCTTTTTAACATAATCTTTTATTCCACATTTTATAGCCATGTACATTTGTGTATAAATATCTGGAAGATTTTCATTTTTTTGATCTAATTTTTCTTTTTTGCATACTTCATGATTTATACTTTTTATTTTAATATTATTGTAAACACTATTATTATAATGTTTCCTCTTTCCTTCTCTTAAATTTGCTCTTGTTGTTTCATAAGGATCTACATCATAATATAGAATAGTTTCTTCAAACAAAGGTGCTTGTTGCATTATTTCTCCATAAGGATTTAATATAGCACTTCCTCCATCAAAAACAACCTCATCTTGTCCACCTATGAGATTACAGTAAGCAATCCAACAAGAAAGTTCAGATGCTCTGGTTTTTAACATTTCCAACTTTGAACTCTGTTTCCCTTTAAAAAATGGTGATGCAGAAAGATTTAATATTATATTTGCACCATTTTGTGCAAGAGCTAAAGCAGGGCCATTTGGAACCCATATATCTTCACAAATAGTAATTCCAATTTTTATATCATTAAATTCAATCATTGTAGGTGTATTCCCTGCAATAAAATATCTCTTTTCATCAAAAACTGAATAGTTTGGTAAAAACATCTTTTTGTATTTAGATATTAATTGACCATTGTATACAATAAAAGCTGAATTATATGTTTCTACATCCCAATCTACTGCTCCAAATGCAATTAAAATATTTTTATTTTTTGAATATTCAATTATTTTATTTATATAGAGTTTAGATTTTTTTAAATATTGAGTTTTTAAAATTAAATCTTCTGGAGGATATCCATTTAAGGTTAATTCTGGAAAAATTATTATATCTGATTTATTGTTATGTGCTTCTTCAATAGAAGTTATAATTTTTTTGTAATTTTCTTCATAATTTCCAACGATTTGATTTATTTGAGAAATTGCAATTCTTACTCTCATTATTCACCTCTAAACATATTTTGAAATTTTTTATTTATTTTTTCTGAAATTATTCTATTTTTAATTATTAAAATATATTCATCATTTTTTGCTCTTGCTCTATAAGTATAATTATAACTTCCAATTATTAATGTTTTTGAATCTATTACTATAATTTTTGCATGTATATCATTTCTTTTTTTTAACTCAATTCCTTTCATATATTTAATAGAAGATAAATATTTTTCATTCCAATCATCATATAATATTTTTATTTTTATATTTTTTGATGAAATCTTTTCTAATTCTTTTAGTAAAAAAGGATCCGTAAATGAAAAAGTAAAAATATTTATAGATTTTTTTGCTGTGTTTAATTCTTTAATAATTTTTTTATAGATTGTTTCTGATGGGGAGGTTATAAATTCTACATTTCCAAATTCTTTTGAATTTATTTTTTTATCAATTTTTTCTTTTTTTATTCCATATAAACCTCTTTTAAAATTATTTAATTCTAAATTGAATAAATTAACTATTTTTATATCTTTAGTATAAATAAAAACATTGAAATCATTTTTAAGACCACTTTCAGTAAAATTTCCAGTCCCAAATAATATACTCTTATTGTCAAATATCATAAATTTTTCATGTAAATAGCCATCTTTATTTTTATCTAGAATTATCATAGGAGAATTATTTAAAGTACTTTCAGCATATATCGTATAGTTTTTATCTTTTAATTTTGATAAAATTTCTTTATTTATAGTTAAAGTAACTACCTCTATGTTATTTGAAGAATCAATTTTATTTTTAACAAAATCTTGTAATATTTCTCCAGAGTAAAAAATTTGAGTATAAGAATTTATGGCAATTAATAGAAAAAAAACATTAAACTTTAATTTCTTCATATTCATCAGGTATTTCATAAGTTATTCTTCCCAATTTTCCATCTGAAATTTCTTTAAGCCATGTTTTTAATCCTCTTTGATAATCTCCAATTCCACCTTTTTTTAAAAAATTTCTTTTTTTTGCAAAATTTTCAATAAACTCATAAGCATTTTCAAGTTTACTTCCATTCTCAACAGAATTTTCTAAAATTTTTGGATTATTTTCTTTTAGATAATCAAAAGCAAAGAAAGCTGCATCATCTGCTTCATCATCTTCTGCCTTTAAACAACCAGCTAAAATTAATTTATATGCTATTGATTTATTGTATAGTTCAGGAAATAATATACCTGGAGTATCCATTATTTTTGTTTTTGAATCTACATTTATCCATTGAACTCCACGTGTTATTCCTGGAGTATTACCAACAGAAGTTGTTTTTTTACCCTTTAAACTATTTATAAATGTTGATTTACCAACATTTGGAGCACCAACCACAAGAGCTCTACGTTCATTAAATTTTTCTGGAATTTCATTAGCAATATTTTTTTTCAAAAAATTTTTTATGTTTATGCTTTTTAAACTTACAGTTTTCACTATGTATCCTTTATTTTCATAAATTTTAATCCATTTTTTTGTTTTTTCAATTTCACATATATCGTATTTATTAAAAATTATAATTTTTTTCTTATCTCTAAATAAACTAGCATATTCATAAGCTCTACTTGAATATGGTATTCTTGAATCTACTAATTCAATTACTGCACTAACTGCTTTTATGTTATCTTTTATTGCTCTTTTTGTTTTAGCTATATGACCTGGGTACCACATTATTTTTCCTCCACATATTTTTTTATGTCTTCATATTCGACGACATATCCTTTTGGCATAGATGTTTTTTGCCTATTAAATTCAATTTGTATAATCTTATCTAATTTTTTTAACAATAAATTATAACCTAAATAAGTTCCAACTAAGAATGCAATAGTGTAACCATATCCCATACCATTTATTCCATAAATATTTAAAATTATTGGTGTACTTATTAAATTTATTAAAAATGTCATAAAATGTAAATAAATTACTTCTTTTCTAAAATCAAAGTATAAAAGTAATAAGGTTATCATTAAGTATACACCATTTAAAAATGCGCCAACAACTGCAATTCTTAATATAAGGCTTGAAATAGTAACCATTCCCATTATATCAAGTATTTCATTTATCAAAAATAATATAACAGTTATAATTAATTGAAATTTTATAACCATTGAAATATTTGATTTCATTTCTGTAATCATATCTTTTTTGGCATATTCAATTTCTGTATAAGAGCCACCTTCTATTATTGTATTATAAAAAGTTTTATATTTTTTATAAAAATAAGTTTCTAAAACTAAAACAAACATAGCCATAGTTGGAATTGTACTAAAATAAGCTACAAACATTGGTGAGTCATAAATAAAAGAAAGTCTAAAGCCTTGTATATTTTTAAAACCTCTTCCATAGTTTGAATACCAAGTCATTAAATCATCAATCCAAAGAGCAAAATAGTAAAAAGTTCCAATTAATAAGTTTGTCCAATACTTTTTAAATCCATTAAACCAAGTGAAATCAAAGTTAAAAGAAAAGCCAAAATTGTTTCCAATTATATAAAGCATATAAGATGATCCAGCAGATATTCCAAGTCCATATCCAAATATACTACCTGAATATCCATAATTATATCCAAATATAAATGCAAATATTAAACTTGAAAATCCTGAAATAGCAAAACCTATCAAATACTTACCATAATCATCTGTTGAAACAGCTGAAACAGCCGAAATCCATAATGTACACAGAGAAACAAGCAAGTATATAAATGAAAGTTTAAAGTCTAAAGGTGAATTTGGATTGAATATAAAAAATATAATTGCTAAAAAAGAAGCTATTATATTGGTAAAAAATATAATATTTAAAGTATCAGAAAATATATTATCATATTTTTTTAAATAAATATTATCTGATATGACTCTTGAAATAACCATTAATACTCCACCAGTAATTAATGTTGAAAAAACGAAGCTATAAACTAATGCAACACTAAAATAATCATTGATTATTTTTTCAAAAGCATTTGTTTTTATAAGTGAAATTCCAAAAAAATTAGATATATTAGCTATAATTTTAAATGCACTCAAAAAAAAGTTTTTAGATAATAATAAATAAAGTGTAAAAGATGTAATTATCCAAGGACCAGCAGAAATTATAGTTGAATATGTAAAGGCAAGTATATTTCCTGATATACTTTCATTTTGCATCATTCTATTTAACTTAAAGCCTATTCCTGCCATTTTTCCACCACCATCTTATAAGCATTTCTATAATTTTCTAACATTTGGGGTAAATTATATTTTTTTTCGACTCTTTTTTTACCGATAATAGAAGCATTTTTATAAAATTTTTCATCTTCAAAAATATTTATTATTTTTTTAGCCATATCCATAAAATCTTTTGATTTAACAATATAACCACATTTACCTTCTACATCATCTACTCCGCTTCCATTTATTATTTCAGAACATGCGCCAACATCTGTAGCTATACAAGGAATACCAACAGACATAGCTTCTAAAAGTACTAAAGGTTGTCCTTCACTAACACTGGATAATAATACTAAATCTAATTTTGAATACCATTCTAAAACATTTACATTTCCAGTAAATTCAACTATACCTTCCAATTCTAAAACATTAATCATTTCTAAACATTCATTGAAATAATCTGGTTCTTCATCTGTAGGTCCAAGTACATAAAATTTTATTTTTATACTTTCACTAACTACCTTTATAGCTTTTAATGCTGTTTTTATATCTTTTATTTCTACAACTCTTCCAACAAGACCTATTGTAAATATATCGTTTTTTATTTTTTGTATAGAAGCAAATTTTTTATAGTCAACACCATTTGGGATTAGTTCGAGTTTAGAATGATCATAACATAACTCTTTTTCAACCTGTTGATTTTTATAAAATAATGTTGTTACAAGAGAAGCACTATTATAAGTTAAAGCACTTATTGTATTAAACAATTTAATCCAAGACATTCTATATTCATCTTTAACCCATTTTGATCTAAGAAGTTCAAGTTGCCTTTCTCTATGATAAATTCCATGTTCAGTTATTATAAAAGGTTTTTTATAACGTAAAGAAGCCATTAATGCAATTAATCCAGCATATCCAGTAGTAACTGAATGATAAACATCGCATTCTGGTATATCTATAGTAAGTGAATTTAAAAAAGGTATTAACATTGAACGAGTATTCCAATAATAATAATTAAAATTTTCATAAGGTATAAATTTTTTATACATACTTAAAATTGCATCCCAATAAGAATTCATTTGAAACATTTTTGTAAAGTCAATATTGTTATTTCTTTTTAAAATTTCATAAAGCTTACTACTCATATATTTTTCTTCAAAAGGATAAATTATGTTATCTGAAATTTCTTTTACAATAGAATCAGTTAATGGAGGTTTATTATAAGTATAATCTGAAAAGATAAAAAATTCAAAAAAATCTTTTATGTTTTTTGAAAATTTATATTTTGGTAATCTTCTTTCAGGATTTGCTCCTACATGTATAACTGTAAATTCTATGTCATCTAAACCACTCATTAAAGTTTTTCCCCATGAAGAAACACCACCTCTAACATATGGAAATGTTCCTTCAAATAAGATTCCTACTCTCAACATTAATCACCACTCAATATATTTTTAAAAGATTCATAAAGATTATCTTGAATATTATTTTTTGCTTTTAGTAAAAAATCCTCTTTTAATTCTTTAACTTCTTTATTATAAAACTTTAAATAAATTAAAAATTCCCCTTTTTCTTTCCAAGAGAGTTTTTTATATAAAAATTTTAGTATATTTTCATCTTGAGATGATATAGCAATTTCTTTTAATAAAATATTTTTTTGTTCTGATGTATAATAATTGTATCCATCCATTAAATATGATATATTTAATTTAAAAAAGTTTATTAATTTTATATCTGTTTCTTCAATTTCTGCACTTATATCTTCTAAAAATCCCTTGAATTTTTCTTTTTTTATATATATTAATATATTTCTATATTCTTTTAATGTTTGAATATACTTAGCACTATACCTTTCAACATTTCTTTGAGAAGTCATGCTGTTTTCTAATTTTTTAATAAGATTTTCATGATTGTTTTTATCTTGCATTAAAGTAACTTCATCACGAGATAAAATACTTGCTTCTCTTGCTGTTAAATTAGGTTTAAGATTTTTACCCGTTAATGCAATTACTAATATAATTATAATCATAAGTATAAAGGTTAAATTTTTAGGTTTTAATATAAAAATTAAAATTTTATCTTTATAATCTTTTTTCACAATATTCCCCCCGATTCAAAAAGATATTGAATAACTTCATTTTCTGTTTTGTAATCATTTTTAATAAAAATATTAGCAAATTTTTTCAAAACAGAATAATTTCTATACTTTATTGATGTTATTATTAATAATTCTAATAAATTTTGAACAGGAAAGTTATTATAAAAATCTTCTATAATTAATAGAGAATTTTCTCCTGAAAGTTCAACAAAAAAAACATATTGTTCTATTAAATCGACTCTTGTTGGAAAAAGATTTATTTTATTTTTTAATAGTTTTTTTGCATTTAATAACATTCTTTTTTTTATGTTACCTCCAACCATTCCAGATAAAAGATAATATTTTATATAATTTGTATAGGATATGATGTTATTAGGAGAATCTAATTTTTTCTTCAAACTTTCTATTTTTCTTATAAAAAAATTTTCTAACTCTGTCATAGCATCTGAAGCATACATTACAACATCAGGATGATCATCTTCTTGAAGAGTTTTTAAAACATTTAAGCTTTCACTTACATTTATTTTTTCAGATTTTATTAATTCTACTAAAAGTCTTACACTAGATTTTTTTTGAGTTGTATCTCCATATTTAGATAAAACAGAAAGAGGTGTTGTATCAACAACATCTGTTTTTATACTTTTTGATATAGAATAAATAGGTTTTTCAATTTTATATTCAACATATTTTTTTTCTTTTTGTAAAATACTAAAAACTTTTATTAAAGGAAAATAAGGAAAAAATAGAAAAAGTGCTAAAATTTCAAGTAACTTTATACCAGAAATAATATAAAATATAAAGTACATTGAAAAGAAAATAAAAAAAACTGTATTAAAATCTCTTTCAAAAAAGAATATTAATGACATAAAACCAAATACAAAAGATATCAATAACAATGATACTTTTAAGTTTTTATTCACTATAAGATCCCCTTTCAAGGATTTCAACATCATCTCCATATATATCCTTAAATCTTTCTATAATTTTTTCAAGACCTATTTTATCACAAATACCAAATATAAATTGAAGTTTTTCATTTTCTTCACCTTCAAAAACTATATCCATAGCTCTTTTAGAACTTATTATTTTTTTTCTTATTTTGAGATTTACTTTTATTTTTAAATAAGAAAATGGCATTTTAAATTTATTCCATCTAGTTAAATAATCTTCAAGAAATTTTTCATAATAATTATTTTTAATAGTACCATCCTCATTTTTCATAACAACTTCTAATTCTTTATTTATAGCTAACGAAGATGAAAGCATTGAAGATAACCAATCTGAAACGATTCTTAAATAAGATTCTGTATTTTTATTTAATTTATTAACATCAATATTTTCAACAACTACTAATCCTATTATTTTATCCAAACTTTTAATTACAGAAACCATTGAAGGTTCAAAATCTATTTTTGATTCTTCATCTGTTAAAAACATAACATTTATATTTGCTACATCATTTTTAATTGCATATTTAATAACAATTGAATCATCTGGCATTAAAGAATTTCTCAATAAACCTTTTCCTTTTCTTACCTTTAGGCGTAAAAAACCATTTTGTTCAAGATTATAAATTGAAACAGTTTCTGCACCTATAAAATTAGAAATTAATTCTACACCTTCATTATAGACATCTTCTAATTTATTTATATGAACATTTCTAAGTTTTTCAACGAGCATTGAAACACCTTTATCTTCAATGGTTAATTTTTCTTTTAAATTATCAATAGCATTTTGATGTTCTTCAATTAATTTATTTAAGTCATCTATTATTTGCTCTCTTTCTTTAACTTGATTTTTTAAATTCAAACTTCTTATATTTTCTATATCTTTTAAAATTCCAAAAATAAAAGCCATTATTAAATATATTATAGGATATTTAAAAAGATCTAATTTATCTAATGATTTACTTATTTCATCAATCGACCCATAATATGTTAAAATAGATATAAACATATAAATTATATTTATAAATGCATCAATAAAACCAAATACTGTTCCATACCTTGAAGCAGCATAAATAACTATAATTAAATAAGGATTAGGAAAAATATCAACATAAGCTGCGCTACTTTTTATAAAAAATAAATCAATAAATAATAATATGGTTGAAAGCACAATAATTTCAAAAAAAAGATAGTAATTTTTCTTAATAATATCACCCCCATTATGAATATTTTAACACAAAATTTAAGGAGGAAACAACTTGAAATATAACATTAAAGTTAATATTCCAAATGGAATAGAACCAGTAGAAATTTTAGGTGTTCACAACAATAAAGTAAGATATATCAAAAAATATTTTGATGTTGAAATAAAGTATGAAAACTTAAATATTTTGATAAATTCTAATAAGAAAGAAGAACTTAAAACTGTAGAAAAAATAATAAAGGAAGTTTTAGATGTAATATTATTAAAAAAAACTATTGAATGGAGTGAATTTATATATATAGTATCTAAACAAGTTCAAAAAAACAGTATGTCAATGAAAAATATAGTTAATACTACAATAAATGGAGTTAAAATTTCTGCAAAAACAGAAGGACAAGCAAAATATATAGAAAATTTAAAAAAATATGATATGCTTTTTTCAATTGGACCAGCAGGTACTGGAAAAACATATCTTGCAGTTGCAATGGCAGTTAAAAGCTTAAAGATGGGAGAAGTACAAAGAATAATTTTAACAAGACCTGCAGTTGAAGCTGGAGAAAAATTAGGATTTTTACCAGGAACACTTTATGATAAAATTGATCCATATTTAAAACCCTTATACGATTCTTTAATGGACTTTATAGGAACAGAAAATTTAATTCAATATAAAGAAAAAGGTATAATTGAAATAGTACCACTTGCATATATGAGAGGAAGAACCTTAAATAATTCTTATGTTATATTAGATGAAGCGCAAAATTCAACTTATCAACAAATGAAAATGTTTTTAACGAGAATTGGATTTAATTCTAAAGTTGTAGTTACAGGAGATATAACACAAATAGATTTAGAAAAGAAAAAAGAATCAGGACTTCTTGCTATAACAAAAATATTAAAAGACATTGAAGAGATAAAAATAACTTATTTAAATAAAAACGATGTAGTTAGAAACCCAATGGTGAAAAAAATAATTCAGGCATATGAAATATATGAAAACAAAAAGGAGAATTAAAATGATTAAATTAATAAAATTTTTAAAATTATCCGAAATAAAAATTCCTAATTATAGAGAACAAATATTTAGAGGTTTATTATTTATATTTTTATCTATTATAGCTGAATTTTTTTTATGGAAACAAATAACTTTTAGTTTTCAAATTATTTTTAATACAGTTTTTCTATCATTATGGATCTTTGTAATAGAGTTAATTATGAGCTATAAAAGGCTTTTTAAATTGCATAGAAAAAATTATTGGGGAGCTTTTTTAACTCCGCTAATTATAAATATTTTAATAAATTTGTTTATTTTTAAATATGTAAATATTTTTGCAGTCTCTGGAATATTAAGTACATTAATGATAACAATGTTAATTGATTTTGAATCGGGTATTATATCAGCTATAACTTTTTCTATATTTTTTGGAGGGATTTTTGGATTTGATATAAAATATATGATACTTTTATTTATTCCATCAGCCATTGTAGCATATTTTTCAAAAGGAATAAATAGAAGAGTAGAAATAATTTTTCCTTTTTTTATTTCAAGTATAATACAAATATTATTGACTTATATATTTAAATATAAACATACTACAGAAGATATTTTTTTACTTATTGGAAGCAACTTCATAAATACACTTATAACAATGGGGATTTTACCTTTTATTGAATATATTACTCGTGTATATTCAAATATAGGCTTACTTGAATTAGGTAATTTAAATAATCCTTTATTAAAAAAATTAACCTTGAGAGCTCCAGGTACTTATTATCATAGTATGATTATTTCTAATATTGCTGAAAGTGCAGCTGAAGCTATTGGAGGTAATTCAACTCTTGCAAGAGTTGGATCATACTTTCATGATATAGGAAAAATTTGGAAACCCATTTATTTTACAGAAAATCAAAAATCTGAAAACCCACACAATAATATTTCACCAAAATTGAGCTCATTAATTTTAAATAATCATATAGTATATGGTATTGAATTAGCTAAAAAAAACAGATTACCAATTTTAATTGAAGATATGATAGCTCAACATCAAGGAACACGTATAAAACAATACTTTTTTAAAAAGTATTATGATGAAACAGGAATATATGATAAAGAAATGTTTAAGTACCCAGGACCTATTCCTCAATTTAAGGAAAGTGCTATATTGATGTTTTGTGATGTAACAGAAGCAATGAGTAGATCTTTAAAAGAAATTACACCATCTATTTTAAATGAAAAATTAGATAAATTACTTGAATCATTATTTGCAGAAGGACAATTAGATGATTGTGGATTAACATTAAGAGAATTTAAAAAAATGAAAGGACAAATAATAAGAACTATGCTTGAAATGAATCATAAAAGAATTAAATATCCAAAAATAGAAGTTGACAAATTAAGGAGTTGAACTTGATGAAAATAAATATAATAAATGAACAAGAAAAAATTATAAATGAAGAATTAATAAAACATATAACAAAGTATATTATAGAAAAAGAATTTAAAGATGGAGACTTTGAATTAAATATATTAATTACAAAAAATGAGAGAATAAAAGAGTATAATGAAAATTATAGGCATAAAACAGGACCAACTGACGTTCTTTCATTTGAATACGGTTTGAATGAACAAATAATCGGTGATATAGTTATATCGACTGAACAGATAGAAAAACAAGCACCTACCTTTAATAATACATTTGAAGAAGAATTTTATTATAATATTATACATGGAATTTTACACATACTTGGATATGATCATGAGACAAATGAAGAAGACAAAAAAATAATGTTTGAAAAACAAGATAAATATTTTAAAAAATTAGTAGAAAGGGGCGAGTAATTTTGTCGATAGTTAGACCTTTTAAAGGATTAAGACCAACAGGAGAAAAAGTTGAAAGTTTTGCATGTCCACCTTATGATGTTTTAGAAGATTCAGAAGTAAAAGAAATTGTTTCAAAAAAACCAGAAAGCTTTTTAAAAGTTACAAGAGCAGAAGTTGAATTCCCTGAAGGTACAGATCCTCACTCTGATGAAGTTTATAAAAGAGCAGGAGAAAATCTAAAAAACTTTGAAAAAGAAGGTATAATATTTCAAGATGAAACTCCAGCATATTATCTTTATAGAGAAACTTGGAGAGGTCAATCTCAAACAGGATTGTTTGCAACTGTATCTGTTGATGAATATGATAAAGGATTAATAAAAAAGCACGAACTAACAAGACAAGATAAAGAAGACGATAGAACAAGACATATAACATTATTAGGTGCTCAAAGTGGACCAGTTTTTTTAACCTTTAAATCAAAAGAAACTATAAAAAATATTTTATCTGAAATGTTAGAAAAATATGACAAAGAATATGATTTAACAGATGAAAATGAAGTAAGGCATGAATTATGGGTAGTAAATAATGAAGAAGACGTTAAAAAAATTCAAGAATCATTTTCAGATATAGAAAAATTATACATAGCAGATGGACATCATAGAGCAGCAGCAGCATCAAGAACTCAAAAATTAATGAAAGAAAAAAATTCTAATCATGTAGGTAATGAAGAATACAATTATTTCCTTGCAGCAATTTTCCCACATGATGAATTAAGAGTATTAGATTACAATAGAGTTGTGAAAGATTTAAATGGCTTAAGTAAAGATGAATTTATTGAAAAAATTTCTGAAAATTTCGAAATTACAGAAACAAAAGAAACACCTTACTCTCCAAAAGAATTACATACATATGGTATGTACTTAGATAAAAAATGGTATATACTAAAACCAAAAACAGTTGATGAAAGTGATCCAGTAAAAGCTTTAGATGTATATATACTTCAAAACTATCTTTTAGACCCTATTTTAGGAATTAAAAACCCAAGAAAAGATTCAAGAATACACTTTCTTGGAGGAATAAGAGGAATAGGTGTACTTGAAGAATGGGTAGATAATAAAGATTGGAAAGTTGCTTTTTCAATGCATCCAACACCTCTCGAACAATTAATAGATGTAGCAGATGCTGATAAAGTTATGCCACCAAAATCAACATGGTTTGAACCAAAATTACGTTCAGGACTAGTTATTCATAAAATATGATATAATAATTAATACAGGGCTTGCCCTGTATTAATTTTATGGAGGTATATTATGAAAAGTTATACATTTAATTTAAAAGAAAAATCCGAAAAAATAAATACAATAAAAAATAAAGAAACCTTTGATTTTTCCGAATTTAGAAATTTCAATCATGACTCTTATGGCTTTAAAAGAGAATGGAAAACTCTTTCTTCTCATAATGACGTAGAATACGTAAAAAGAATAATTAATCCACATTATCCTTATATGTTATCTAGTTATAAAGATATACCTCAAAAAAATTCTAAATACTCTAATTATTTAATTTATATGGATTTTGGAAAATACAAATACGAAAAAAATTTTATAGAATTTTTTGATTTAGAATTAGATATAATAATAACAAAAGATTTAAAGTATACTCTTTTAGATATGGATGAATTATTAGAATCTTTTTTAAAAAGGAAAATTCCTTTTTTTGAATTAGAAACAGTTTTAATAAATATGGAAAAATTAATGAATGATTTTAATAAATATGGACCTTTAAATACATTAAAAGAACTTTATAATAAAAAAGTAATTGAATGGCTAATTGACTAAAAAATCATTCATTAAAAACATTCATTTTATTATTAATTCTTTTAAATATTTTCCAGTATAACTTTTTTGATTTTTAATTATTTCTTGTGGAGTACCAACTGCAATTATTTCACCACCATCTTCTCCACCTTCTGGTCCTAAATCTATTATATAATCAGCATTTTTTATTATATCTAAATTATGTTCTATTATTATTACAGTATTACCTTTTTCAACCAATAAATTTAAAACTGAAATTAATTTTCTAACATCTTCAAAATGAAGTCCCGTTGTTGGTTCATCTAAAATATAGATAGTTCTTCCTGTATCTCTTTTTTTCAATTCTGAAGTTAACTTTATTCTTTGAGCTTCTCCCCCAGACAATGTAGTTGCAGGTTGTCCTAATTTTATATATCCAAGTCCAACCTCTTGTAATAAATTTAAAGTTTTCTTTATTGAAGAGATATTTTTAAAAAAGTCTGCTGCTTCATCTACAGTCATATTCAAAATATCAGAAATATTTTTCCCCTTATAAGTTACTTTTAAAGTTTCTTTGTTATATCTTTTACCTTTACATACATCGCAAGTAACATACACATCAGATAAAAATTGCATATCTATTTTTATTACACCATGACCAGCACAAGCTTCACAACGACCACCTTTCACATTAAAACTAAACCTTCCCTTTGTATATCCACGAATTCTTGCTTCAGGTGTTTGAGAAAAAACATCTCTAATAGTATCAAAAATTTTTGTATAAGTTGCAGGATTACTTCTTGGTGTTCTGCCAATGGGCGACTGATCAATAGAAATTATATTATCTAAATTTTCAAGGCCAATAATATCTTTAAAATCTCCGTGCCTTGCTCTTGTTTTTCTCAATTTTTTTAAAAGAGCAGGATATAATGTATCCATTATTAAAGAAGACTTTCCTGAACCAGAAACACCTGTAACTACAACTAATTTTCCTAAAGGAATTTCAACATCTATATCTTTTAAATTGTTGTGCTTGGCTCCAAGTATTTTTATACTTTTATTTAAGTCAACTCTATTTTTTTCAAAAATTTCAACCTTTCTCTTTCCAGAAACATATTGAGCTGTTAAAGATTTTCCTGGAGCATTAAGAACTCTTTTTGTACTACCTTGATAAACAACCTCACCACCATTTACACCTGCTTTTGGTCCTAGATCAACAAGATAATCAGAAGATTTTATTACTTCTTCATCGTGTTCTACTATAATTACTGTATTTCCTAAATCTTTTAATTTTTTTAAAGTTTTTATTAATCTATCATTATCTCTTGAATGAAGACCTATAGTAGGTTCATCCAAAACATAAGTAACTCCTGTTAAACCTGATCCAATTTGAGTTGCAAGCCTTACTCTTTGAGATTCACCGCCAGATAAAGTACTTGAAGTTCTTGAAAGAGATATATACCCAAGGCCAACATCAACTAAAAATGTAACTCTTTTTTTTATTTCTAAAAGAAGCTCATCGATTATTTCTTTTTCAAAATCAGAAAATTCTAATTTATTCAATAAATTATTTAATTTATTTAAAGGCATATTCGTTATATCATGTAAATTATATTTACCAATTCTAACATTTAAAGCATCTTTATTTAATCTTTTTCCATTACATGAATTACAAGTTCTTTGAACCATAACATTATTTTCCATCCAAGAACGCATATCAGGAGATTCTGTTTGTTTATAACGCCTCTCATACCACTTCAAAAGACCTTCAAATTTTCTTTTAAAAACATAATGTTTTCCATTTTCAGTAGATACATCAAAGGATATTTTTTCTTTTGTACCATACATAAGCTTGTTTAAAACTTCTTCAGGAAGTTCTGAAAGCTTTTTGTTTGAAGCTTCACCATAAAACTCTATTATTTGCTTCATCATTTCAGCCATATAAGTATCTTTTCCCATAGTTAAAATTGCACCTTCATCTATTGATTTATTAAAGTCAAAAACATATGAAGGTTCAACTTCTAATTTAAATCCTAATCCATGACATTCAGTACACGCTCCATGCGGACTATTAAATGAAAATAATTTTGGAGTTATTTCGGGAAAACTATATCCGCATTTTGGACAAGCAAGCATTTCACTAAAATCCATTGATTTTAAAGTTTTTTCGTCAATATTCATTTCTCTTATATTAACGAAACCATTTCCTTCTTTTAAAGCTAATTCAATACTTTCATATAATCTTTCAAAATTATCTTTCTTTAGCTTCATTCTATCTATCAATAAGTTTATATTATGTCTCTTTGTTTTTTTTAGTTCTGTTAAATCTTCTAATTCATATAAAATTCCATCAACTTCAACCTTTTTATATCCAGAAAGTTTCATACTTTCTATTTCTTTTTTAAATTCTCCCTTTTTTTCTTTGGCAATTGGAGAAAAAATATATATTCTCGAATCTTCTTCAAAATTAATATAAATATTATCAACTATTTCATCAACAGTTGAACGTTCAAGTTTTGTTCCACAAGATGGACAATAAGCCTTTCCTACTCTTGCAAATAAAACTCTTATATAATCATAAATTTCAGTTACTGTACCAACTGTTGAACGTGGATTATGACTCACTGATTTTTGTTCTATTGCTATTGCAGGTGAAAGTCCTTCAATAGATTCAACATCTGGTTTGTTTAAATTACCCAAAAACTGTCTTGCATAAGAAGAAACAGATTCTAAATATCGTCTTTGTCCTTCAGCATATATTGTATTCATGGCAAGAGTTGACTTTCCAGAACCAGATAAACCACTTATTACAGTTATTTTGTTTTTTGGAATTTTTACATCTATATTTTTTAAATTATGTTCTCGGGCACCTCTTACATTTATAAAATCCATAAAATTACCTCCAAAATAAAAAAGTATACTTATATATATATTATATCATAAAAATAAAAAAAGTGGTGGCAAAAGCCACCATAAAATTGGGTTTAATCGGGGTACATTGTTACATATATTTTTCCATTATATTCTCCTGATTTTATATCATAAAACTCTTTATTTTTATAAGAAAACCTATACTCTATATTTGAATTATAAACTCCCTTTCTTAAAATAAAATCTATTGATTTATTTGAATTAAATTTATACTCATGATATCTATCTTTTAAATAAAAATTTCCAGGGCCATCATAATCAGTAGTTATTTTCAAATTAAAATTCACATTTGAATACATATACAATTTAACTTTATCTTTAAATACTTTATCTTTATCTTTATCATCTTTATCATAATTTATAGTTGTATTCAGTCCCCAAGGACAAGTTTTATCATAAATAACTTGCATCATAAAATATCTACAAGGTTTTATCTTAACTCTCACAGATATTTGACCAGGTTTTATATTTGGAACTGTTGGAGTTATTGGAACTAATGGATTTACAAAACATATACTAAAAATATTTATTATTATAAACATATAAATTGTAACAAGTAGTTTTTTCATTTTTCATCTCCTCATATGAACTTCTAAAATATTATAACAAAAAAAAATAAAAAACTACTAAAAATTTACTAAAAAAATGCTAAAAATTTTAAATTAAACTCAAATACTTATCTCCAGAATCAGGAGAAATAGTTACTATTCTTGAATTTTCATTCATGTTTTCTAAAACTCTCAAAGAAGCAACTACATTAGCAGCAGATGAAATACCTAAAAACAACCCTTCTTCTTTTGCCAATCTCTTTTTCATTTCAAAAGCTTCATCATCTTCTACTTGTACTATATTATCAATTAAAGAAATATCTAAATTTCTTGGAATAAAACCAGCTCCAATACCTTGAATATTATGCTTTCCTGGATTATTTCCAGATATAACAGAAGAATTTTTTGGTTCTACTGCTACTATTTTAACACAATTTTGGAAATATTTTCTCAATACTCTTCCAACTCCGCTTATAGTTCCTCCAGTACCAACTCCAGCAACAAATGCATCCATATTAAAGCTCATTTGTTTCAATATTTCTGGTCCAGTTGTTAATTCATGAGATAGTGGATTATTTGGATTTTCAAATTGATTTGGCATAAAAGCATCATATTCTTTTGTTAAACTTATTGCTTTATCAATAGCTCCTTTCATACCTTTTTCTGCAGGAGTTAAAACTAATTCAGCACCATAAGCTTTCAAAACTTTTCTTCTTTCTATGCTCATACTTTCAGGCATAGTTAGAATTACTCTATACCCTTTGCTTTTTCCTATTGCTGCAAGAGCAATACCAGTATTTCCACTTGTTGGCTCTATAATAACTTTATTTTTTAAGTTCCCAGACTTTTCAGCTTCACTTATCATAAAATAAGCTGGTCTATCTTTAACACTACCTGCCACATTATTTTTTTCTAATTTAATAAATATTTTTCCAGGATCAATTATATTTGAAAGAGTTATTAATGGTGTAGTACCTATCGCATTTATAATCATATTATCATCTCCTATATCACAAAGTTTGTATTTTCAGAAAGAGCAAACATCTTTGATGCATTGCAATTAAACTTTTTAATCTTTGCAGGAATACCAACAACTAAACTTTTTCTTGGTATATCCATTAAAACAACTGAATTTGAACCAATAACAACATCATCTCCAATTATTATATTACCAAGAACCTTTGCACCAGCTCCAATAGTTACATTTTTACCTATTTCAGGATGTCGTTTGCCTTTCATAACCTTTTTGGCTCCTAAAGTAACTCCATGATATATTAAAGTACCACTACCAATCTTTGCAGTTTCACCAATGACAACACCTATACCATGATCTATAACAACTCCAGCATCTATTTGTGCTGATGGATGTATATCCATTGAATACAATATCTTTGACAAAACATACAGTGGATAAGATAAAATATAAATCTTATATTTATGAAAAAAACTATAAAATCTATAAGAAATTAACCCATGTAAAGATGTTGATATAAAAAATATTTTTAATTTAGAAGTTGCTATTGGATCTTTCTTTATAAATTCATTCAAATCTTTGTTTATTGATCTAAAAATGTGAAAAAAATCCTTAATTATTTTAATCATGCATATACGCCTCCAATATTTGATTTTTAATTATTTTACATAAAAAATCAACAGACGTATATTGAGGAATTATGAAACAACTTTAAATATTTTAAACTAAAATGCACCCCATTTCTTTCACCACCTATTTTATCGTATTTAAAATATTATAGATTATAATTGTTAAATAAAAGTGTTTACGAATGTAAACACTTTTATTTGTTGTGATTAAAGGATATTTTTTTAGTTAAAAATGATAAAAGAATTTAAAGCGAAAAGTAATAGGTTATAATTAATATGGTATAATAAACATAGAATTAAAGTTTTTGGAATATTATAAAAAATACATGTTTTGGAGGTATAAAAATGTCAAGCACAGCTCAAAGAGCAGAATTACAATCTCAAATATGGAAAATAGCTAATGATGTCCGTGGTTCAGTAGATGGATGGGATTTTAAACAATATGTTTTGGGAACTCTTTTTTATCGTTTTATTAGTGAAAATTTTGCCAACTATATTGAAGGTGACGATGAAAATATAAATTATGCTGAATTATCTGACGATGTTATTACTCCAGAAATTAAAGATGATGCAATTAAAACAAAGGGTTATTTTATATATCCTAGTCAATTATTTATTAATATTGCTAAAACAGCCAATACAAATGAAAATTTAAATACGGATTTGGCTGATATATTTTCATCAATAGAAAATTCTGCAAATGGTTATCCATCAGAATTGGATATTAAAGGACTTTTTGCTGATTTTGATACAACAAGTAATAGGTTAGGAAATACAGTTAAGGATAAAAATAGTCGTTTAGCAGCTGTAATTAAAGGTGTAGCAGAATTAAACTTTGGAAAATTTGAAGAGAATAATATTGACCTTTTTGGTGACGCATATGAATTTTTAATATCTAATTATGCTGCTAATGCAGGAAAATCAGGAGGAGAGTTTTTTACTCCTCAATGTGTATCTAAACTTATAGCAAAATTAGCAACTCATAAACAAGAAACTATTAATAAAATTTATGATCCTGCTTGTGGTTCAGGTTCATTATTATTACAAGCAAAAAAACAATTTGATGAGCATATTATTCAAGAAGGTTTTTATGGTCAAGAAATTAATCATACAACTTATAATCTTGCTCGTATGAATATGTTTTTACATAATATAAATTATGATAAATTTAATATTGCTTTAGGAAATACTTTAATAGACCCACAGTTTGAGGATGAAAAACCTTTTGATGCAATTGTGTCTAATCCACCTTATTCAATAAAATGGATTGGAAAAGATGACCCAACTCTTATTAATGACGAAAGATTTGCACCTGCTGGAGTATTAGCACCAAAATCTAAAGCTGATTTTGCTTTTATTCTTCATTCACTACATTATTTATCTAGTAAAGGGCGTGCTGCTATAGTTACTTTCCCAGGTATATTTTATCGTGGAGGAGTGGAGAAAAAAATAAGACAATATTTAGTTGATAATAATTTTGTAGAAACTGTTATTTCATTAGCTCCAAACTTATTTTTTGGAACTTCTATAGCTGTTAATATTTTAGTTTTATCTAAACACAAAACAGATAATAAAATTCAGTTTATTGATGTTAGTGGAGAAGATTTTTATAAAAAAGAAACTAATAATAATAAACTTACAGATGAACATATTGAAAAAATTATTGAAACGTTTGATAGTAAAGAAGATATTAAACATATTTCAAAATCTGTTGATTATGAAAAAATAGTTGAAGAAGATTATACTCTATCTGTTAGTTCTTATGTTGAACCAAAAGACACAAGAGAAGTTATTGATATAAAAGAATTAAATAAAGAGATAAAAAGTACAGTAGAAAAGATAGACAAATTGCGATCTGAAATTGATAAGATTGTAGAGGAAATAGAAGCATAAGCGTACCCCATCTAAATCTCCCCCTTAATAAAGGGGAGACTTTAAAAGATGTTCCCTCCCTTTTACAAAGGAGAGGACTAGAGTGGAGTGATTTTTTTATGAGGAGAGAGGTTTTAAAGTGGAAGATTTAATAAAAACAGTTAATATAAAAGATACCATTTTTACCTTTCGAGGTAAACAAGTGATGATAGATAGAGATTTGGCAAGTTTATACCAAGCAGAAACAAAAAGAATAAATGAACAAGTTAAAAGAAATATAGAAAGATTCCCTAATGATTTTAGATTTCAATTAACTTCTAATGAAAAAAATGAACTGGTCGCAAAATGCGACCGGCTTGAAAATTTAAAACATTCCTCTTCATTACCTTATGCCTTTACAGAACAAGGTGTATCAATGTTAAGTGCTGTTTTAAAAAGTAAAGTAGCTGTAGAAGTAAGTGTAAATATAATGAGAGCTTTTGTAGAAATGAAACAAATAATGTTATCAAATGCTTCTCTTTTTCAAAGAATTGACCGAACAGAGAAAATATTACTAGAACATAAAGAGAAATTTGAAAAAATTTTTAAATATTTAGAAGGTGATAAACCTCCTATTCAAAGAGTGTTTTTTGATGGAGAGATTTGGGATGCTTATGAGTTTATAAACAAATTATTACGAAGTGCCAAAAAAGAGGTAACTTTGATAGATAATTATATTGATGACACTGTTTTAACTCTTCTAAAAGAGTATCCAAAATTAACTGTTACAATTATCACAAAAAAGATAGATAAAAAATTAAATCTTGATTTAGAGAAATATAATTCTCAGTATAAAAATCTAAAAGTGAAAACTTCTAATAAATACCATGATAGATTTTTGATAATTGATGAGATGGTCTATCATATTGGGGAAAGCTTAAAAGATTTAGGTAAGAAAGTTTTTGGCTTTAGTAAGATGAATATAGATAAAGAATTATTGGGGGTTGAAAATGATTAAAAAGAATTTTATGGAAAAGTTGCTTAATGGAGTTGAGGTTGAGTGGAGGACGTTGGAGGAAGTGGCTGAATTAAAACGAGGTAGAGTTATGTCAAAAACTTACTTAGCTGAAAATGCTGGCGATTATCCTGTATATAGTTCTCAGACTTTGAATAATGGAATGATAGGTAAAATTACCTCTTATGATTTTGATGGCGAGTATATTAATTGGACAACTGATGGTGCTAATGCCGGCACAGTATTTCATCGTAATGGAAAATTCTCTATTACAAATGTGTGTGGTCTTATAACAATTAAGAATGAAAAAAAATTAAGTTATAAATTCTTATATTTTTGGTTGTCAATTGAAGCTAAAAAATATGTTTACTCGGGGATGGGTAACCCAAAGTTAATGAGTAATCAAATGGCAAAAGTAAAAATCCCAATCCCACCCCTACACGTCCAAAAGGAGATAGTCCGTATCTTGGATACCTTTACAGAGCTTACAGCAGAGCTTACAGCAGAGCTTACAGCTCGTAAGAAGCAATATGAGTATTATCGTGATAAGTTGCTTACACCTATAGAAGATAATGGTAAATGGTTCTTAAATGGCAAAGAGGTGGAGTGGAAGAAAATTGAAGACATATTTTATTTAAAAAACGGATATACTCCTTCAAAATCTAAAAAAGAATATTGGAAAAATGGAGATATCCCTTGGTTTAGAATGGAAGATTTAAGAAAAAATGGGAATATTCTTAATAATTCAATACAACATGTTCACAAAAGTGGAATAAAAGGGAATTTATTTCCTGCTAATTCTATTATAATGGCGACAACTGCAACAATAGGTGAACATGCTCTTGTAACCGTTGATTACTTGAGTAATCAACGGTTCACAAATTTCACTTTAAAAGATGAGCTTTGTGAAAGATTATGTATGAAATTTGTTTATTATTATTTTTTTATTATTGATGAGAAAGCAAAACAATCAGTTAATAAGTCAAGTTTTCCTAGCGTGCAAATGGGGCAATTAAGAAAATGGGAAATCCCAATCCCACCATTAGAAAAACAAAAAGAGATTGTGGAAATTTTAGATAAATTTGAGGCTTTAACAACCTCAATTTCAGAAGGTTTACCTCGTGAAATAGAGTTGCGTCAAAAACAATATGAATATTATAGAAATATGCTTCTTAATTTTCCAGGGCTAAGGTGGAATAAAGGAGGGAACAATAAATATGACTAACTATAAACCAATAGCAGAATCAAATAACTTTATAGTTTTAGATAAATACAAAAAAATAGAGCAAGATGGTACAGGTTATCAAACAGAACCTGATTTAGAGCGAGAACTTATTCAAGATTTAGAAAATCAAGGATACGACTATCTAAAAGACTTAACAACTCCTGAAAAAATGCTTGCTAATGTTAGATTACAATTAGAAACATTAAATAAAGTAAAATTTTCAGAAGGTGAATGGCTTCGTTTTGTAGAAGAATATTTAGATAAACCTAGTGATAATATTATAGATAAAACACGTAAAATACACAATGATTATATTTATGATTTTGTATTTGACGATGGACATATTCAAAATATTTATTTAGTAAATAAAAAGACTATTTCAAAAAATAAATTACAAGTAATTTCTCAGTTTGAACAAACAGGAACTCATAAAAATAGATATGATGTAACTATTTTAGTAAATGGTTTACCTTTGGTGCAAATAGAACTTAAAAAACGTGGGGTTGCTATTCGTGAAGCTTTTAATCAAATTCATAGATATAGTAAAGAAAGCTTTAATTCTGAAAACTCTTTGTTTAAGTATTTACAGCTTTTTGTTATTTCTAATGGTACAGATAGTCGTTATTTTGCAAATACAACTAAAAGAGATAAAAATAGTTTTGACTTTACTATGAACTGGGCAAAGTCAGATAACTCTTTAATTAAAGATTTAAAAGACTTTACTGCTACATTTTTTCAAAAAAACACTATATTAAAAATATTATTACATTATTCAGTTTTTGATACAAATGATACTTTGTTAATTATGAGACCTTATCAAATAGCTGCTACAGAAAGAATTTTATGGAAAATAAAGAGTTCTCATTTAGCAAAAAAATGGAGTACTACTGAAAGTGGTGGATATATTTGGCATACTACAGGTTCTGGGAAAACTCTGACAAGTTTTAAAGCTGCTCGTTTAGCTACTGAATTAGATTTTATAGATAAAGTATTTTTTGTTGTAGATAGAAAAGATTTAGATTATCAAACTATGAAAGAATATCAGCGTTTTTCTCCTGATAGTGTTAACGGATCAGAAAATACAGCAGGTTTAAAACGTAACATTGAAAAAGATGATAATAAAATTATTGTAACTACAATTCAAAAACTAAATAACCTTATAAAAAAAGAATCAGATTTGTCTATATATAATAAACAAGTTGTATTTATTTTTGATGAAGCACATCGTTCTCAATTTGGAGAAGCTCAAAAAAATATTAAAAAGAAATTTAAAAAATTTTATCAATTTGGATTTACTGGTACACCAATTTTTCCTGAAAATGCTTTAGGATCTGAGACTACTGCATCAGTATTTGGTAGAGAATTACATTCTTATGTAATTACTCACGCAATAAGAGATGAAAAAGTTTTAAAATTTAAGGTAGATTATAATAATGTCCGTCCTAAATTTAAGAATTTAGAAACAGAACAAGACGAGAAAAAATTATCAGCAGCAGAAAATAAAGAAGCTTTATTACATCCCGAAAGAATTAAAGAAATTTCAGAGTATATACTTAAAAATTTCAAAATAAAAACACATCGAAACGCAAGTGGAAAAGGATTTAATGCGATGTTTGCAGTAAGTAGTGTAGATGCAGCAAAACTTTATTATGAATCATTGAATAATTTACAGAAAGGAAGCAATAAACCTTTAAAAATAGCTACAATATTTTCATTTGCTGCTAATGAAGATCAAAATTCTATAGGTGAAATTATTGATGAAACTTTTGAACCATCTGCAATGGATAGTAGTGCAAAAGAATTTTTAACATTAGCAATTAATGATTATAATGCTATGTTTAAAACTAATTATAGTGTAGATAGTAAGCAATTTCAAAACTATTACCGTGATTTATCTAATAGAGTCAAAAGAAAAGAAATTGACCTTTTGATTGTTGTAGGAATGTTTTTAACTGGATTTGATGCACCTATGCTAAACACATTATTTGTTGATAAAAATCTACGTTATCATGGATTAATACAGGCTTTTTCAAGAACTAATCGTATTTATGATTCTACTAAAACATTTGGAAACATTGTTACTTTTAGAGATTTAGAAAAAGCAACTATAGATGCAATAACTCTTTTTGGTAAGGAAAATACTAAAAATATTATTTTAGAAAAAAGTTATAAGGAATATATGGAAGGATTTACTGATATAATTACCGGAAAAGCTCGACGTGGATATATAGATATAGTAAAAGAGTTACAAGAGCGTTTTCCAAATGTTGAAAATATAACTACTGAAGAAGATAAAAAAGAATTTGTTAAACTTTTTGGAGAATATTTAAAAATTGAAAATATACTACAAAACTATGATGATTTTACTAAGTTAAAAGAGTTACAGTCAACAGATAATAACTTTTATATAAATGAAGAAGATGCATCAGATTTTTATGTAAGTGAAGAAAATATACCTTATGTACAAAATATTAAAATTCCAGAAGAAAGAGTTATTCAAGATTATCGTTCAACTTATAATGATATTCGAGATTGGCTTCACTCTGAAAGAGTTGAGAAAGCAAAAGAATCCTCTTCTGTTGATTGGGATGACGTTGTTTTTGAAGTAGAACTTTTAAAGTCAAAAGAAATAAATTTAGATTATATTCTTGAACTGATATTTGAAAAAAATAAAAAAACAAAAGATAAAAAGTTATTAGTTGAGGATATAAAACGTTTAATTCGTTCTAGTGTTGGAAATAGAGCTAAAGAAAGTTTAATAGTTAACTTTATTAATAATAATGATTTAGACGAGATTCAAGATAAAGCTAGCATTATTGATTCCTTTTTCTTATTTGCTCAAAAAGAACAGAAACGTGAAGCAGAAAAATTAATTAATACAGAAAAACTTAATGAAGAAGCTGCAAAAAGATATATCTTAAATTCACTAAAAAAAGAATATGCTAGTGAAAATGGGACTGAACTTAATAGTATTCTACCTAAAATGAGTCCTCTTAATCCACAATATTTAACAAAAAAACAAAGTGTTTTTCAAAAAATTGCTGCATTTGTAGAAAAGTTTAAAGGTATAGGAGGGAAAATTTAATTTAAATTAAATAAATATATTTTTAGCCAATTGAAAGGATATTATAGAATCCCCTTCGACAGGCTCAGGGAGCAAAAATCCGATCATCGAGCTTGTCGAAATGACTCCTACCCTTCGACTGGCTCAGGGAGCAAAAATCCGGTCATTGAGCTTGTCGAAATGACTCTCACCCTTCGACTGGCTCAAGGAGCAAAAATCCGATCATTGAGCTTGTCGAAAAATGACTCCCACCCTTCGACTGGCTCAGGGAGCAAAAATCCGGTCATTGAGCTTGTCGAAAAATGACTCCCACCCTTCGACTGGCTCAGGGAGCAAAAATCCGATCATTGAGCTTGTCGAAATGTCACACACACTTTGACTGGCTCAGGGAGCAAAAATCCGGTCATTGAGCTTGTCGAAATGACTCCCACCCTTCGACTGGCTCAGGGAGCAAAAATCCGGTCATTGAGCTTGTCGAAATGACTCTCACCCTTCGACAAGCTCAGGGAGCAAAAATCCGATCATTGAGCTTGTCGAAAAATGACTCCCACCCTTCGACTGGCTCAGGGAGCAAAAATCCGATCATTGAGCTTGTCGAAATGACTCCTACCCTTCGACAGGCTCAGGGAGCAAAAATCCGGTCATTGAGCTTGTCGAAATGACTCCTACCCTTCGACAGGCTCAGGGAGCAAAAATCCGATCATTGAGCTTGTCGAAATGACTCCCACCCTTCGACTGGCTCAGGGAGCAAAAATCCGGTCATTGAGCTTGTCGAAATGACTTATCAAAAGGGGGACTTTATTAATGATAGGTTATACATATATATTAAAATGTTCTGATGGAAGTTATTATACAGGAAGTACTAATGATTTACAAAAAAGATTAATTCAACATCAAGATGGTAATGGAGCAAATTATACAAGAAAAAGATTACCTGTAAAGTTGGTTTATTATGAAGAATATTCAAGAGTAGATGAAGCCTTCTATAGAGAAAAACAAATTCAAGGTTGGAGTCGAAAGAAAAAAGAGGCATTGATCAATGGTTGTCCAGAATTATTACCAGAATTAGTAAAGAATCAAAGACAAACGAAAAAATACTCTTCGACTGGCTTAGGGGGAAAAAAGCAATCCAGTCATTGAGCTTGTCGAAATGACAAATCTGTCTATTGAAAAAATTAAAAATTTACATAATAATTATTATAACATTATATAAAAACACTTGCTCTCCTAAGAGTCAAGTATTTTTTTAGAATTTTTAAATGTTAGAAATTTTTTTACTATCTCTTAAAATTTTTTTGATAAACTCTATACGGAGGTGTTTACAATAAAAATAATAGAAGAAATTAAAGAAGATATAAAACAAGTAGTTGGAAATAAAAAACTCTATATTGCTTTTTCTGGAGGATTAGATAGTACGGTCGTTGCATTACTTGCTAAAGATGCTCTTCCAAAATCTCAAATAACTCTAGTGAATGTATGTTTTGGTGCTTATTCTTATTCAAAAGGATTAGAAGCCGTACTGAGTTTATCAAATCAAATGAATTTAAATTTATTTTTTGTATCAGGAGAATCTGAACAGGAAACACTAATGTATCATGGCCCAAATTGTAATCAATGTACCAAGAGTATAAAAATTGAAAAAGTAAAAGAATTTGCTTACAAAGGTATAGTAGCTTCTGGAGCTAATCAATCTGATTCTTGGGGAAAAACAAAAATTAAAATTATGAATAATATATATTCTCCTTTAGTCATGCTCAATAAAATTCAAATAAAAGAAATATTAAGCTATTATGGATTTACAATTCCAAAAATTGGTGAAAATATTGGAAGAGAAGGATGTAAATTTAAACATCTTTTAAAAATGGCTGTAAATACACAATATCATTCAAGAGCTGATGTTATATCAAATGAAGTAATTCATGATGTTTTAGATTTTTATGAATTTAAAAGGGAAATTGCTAATGTAAAAATAATAGGTCCTTTGTCTAAAAATATAGCCATTATAAATATAAAGCCATTACCTCCACAAAACATAATAAATGATATTGTAAAACTTTTAGAAAAAGAAAGTACTATTGATGAAGTTGTTGTTGCTAATAAACCCATGAAACTAAAAATTTCAGCAAGTCCTGGAATATCTAATAATAAAGAATCAAGTTATTGGATTAAAACGGGAAGACTTCAACCAGAATTTGCAGTTCCAATAGAAGTTGAATGGTTACCTTCTAAAAATAATAAATTAAGAACTTTTTCTGTTATTGACTATGAATTTATAAAATAACAATGTAAACTTTGAATAGACCTTTATCAAATAAATCATTAACTAAATTAAAATGTTGTATATATAAATGCATGGTTTCTATAATATAGAAACCATGCATTTTATTTTAAGATTTTTTTCATTGTAATATTTAATATATTCAACTACTTTACCTTTTAATTCTTCTATTCTTTTTCTTTCTCAAGTTCACATTTTGTTTTTTTAGCTTCAGTTAATTTGTTTTCATTAATTTTAGATTTTGACTTGCATCATAATTCTTTAAATCTATGCCATCTGTTAATTCATCTTTTTATAATAAAATAAGAAATTCATTAACTACATGTTCTTTATATTTAGATATCTTTAATATACTTTTCTCATAAAAAATACTTCTTAATAGATAATCTAATTTTTATTCATTATCTACTTTTCTTTGATTTTAAAAATTTTGATAAAATTCTACTTGCATTTTTTGTAGTTCTTCTTCTAATGCATTTAAATAATATTGAGCTTTTTTTAAGTTAAAAGTTTTTCCACATATTTCTAATTGATGAGCTAAATAAAAAGATTTTTTTGTACCAAGATATCCAACAGAAGACTTTAAAGAATGAGAAATTTCCTCTAATTTTTTAAAATTTCTTTCAAGTAAAGCATTTTTTATTTCAGAAAGTATAGGCTTATAATTAGTTATAAATTCTGAAAAGATTTCTCTAAATGACTCTTTATCAAGTCCACTTCTCTCAATTCTATTTTCAAAATTATCTTCTATATGAATATTTTTAAAGTTATTTATACTTTGTTTTTTTAAGCTTGCATATTTTAATATTATATTGAACAAAGCCCTTTTACTTATAGGCTTTACAAGATAGTCATTCATTCCATTTTTTATACATACTTCTTTATATCCTTTCATGGCATTTGCTGTTAAAGCTATAATCGGTATATTTTTATTGTGTTTTCGAATTTCTTTTGTTGCCTCAAATCCATTTAATTTAGGCATTTGTACATCCATTAATATTAAATCAAAAGGTATTTTTGAAATAAGTGAAACAGCCTCTTCGCCATCTGAAGCCATGTGTATATTAAAATTTTTATCTTTTAACATCATTTTTAATATTTTTTGATTAATATCATTGTCTTCAGCAATTAATATAGTTATTTCAGAACTTTTTATTGTATCAATATTCAATGTATTATCTTTTTCAATGAACTTATTAGATTTTTCGATTTCAAGAACAAATTTAAAAGTACTTCCAGCATTTAAAACGCTTTCAACAATTATTTTCCCACCTAATTTTTCAATTATTTTTTTTGATATTGCAAGACCCAAGCCAGTACCGCCAAATTTTCTTGTTATTGAATTATCTGCTTGATTAAAACTTTCAAAAATTGTATTTATTTTCTCTTTTGGAATTCCTATTCCAGTATCTTTAACTTTAAATTCTAATTTAACAGTTTTTTCATTTGATTCTAATTCATTTATTGATAAAGAAACACTACCTTCTGAAGTGAATTTAATTGCATTTGATATTAAGTTTACTAAAACTTGTTTTAATCTTGTTGGATCACTTTTTAAATTATATTTTTTACTCATATTATTTTCAAGATAAAAATTTATTCCTTTTTTATTTGCAAGAGGTCTAAAAATATTTTCAATATTTTCAAACATTATTGAAGGACTAAAATCAATAAATTCAAAACTTAAATGTCCACTTTCTATTTTTGAAAGATCTAATATGTTGTTTATTAACTCTAATAAAGTATCAGATGAACTTCTAAGTATATTAATTAGTTCTTCTTGTTCATTTGTATAATTATATTCTGATAATAATTCAATAGCTCCTATGATTGCAGATAAAGGAGTTCTTATTTCATGACTCATGTTAGCAAGAAAATTAGTTTTTAATTTTGAAGCTTCGGCTTCTTTTTTTGCAGCCATTTGTAGTTTTTTAAGAGTTAATTCTTCAGCACTTACATCTCTTCCTACACCAAATATTAGTTTTAATTCTTTAGAAGCCTTTGCTGATATTCTTAAAGGCAGATAAGTTCCATTTTTTTTCTTCATATAAATTTTAGTGTTATTTATAAAATTTCCTTCTAAAATTTTATTATGTGTATTTTCTACAGTAATTAAATCCGAATCTTTTAAAAAATATTTAATATTTTTATTTAATAGTTCTTCTTCTTTATATTCAAATGTATCCAATATAGATTGTGATACTTTTACTATATTTTGATTGAAATCAACTATTAATATAAAGTCTGGAGATAATTCAAATAATTTTTGAGTTATTTCCAAAAGTTTTTCTTTTTCTTTTTCAAAATTCTTTCTTTTTGAAATATCACTTAAAGTTCCTATGATTCTTATTGCTTTTAAATTTTGAGTTCTTTCAATTACTTTTCCTCGTGCTTCTATCCACTTTAAAGTTCCATTTTTCATTTTTATTTGTATTTCACATGTAAAATCATCTGTTTTATTATTAACACAAGCATCTACTTTTTGAGATATTTTTTTTAAATCTTTTGGTGAAAATAAAGATTTCCAGTCTTTAAATTTTTCTTTTAATTCAATAATATTATAATCTAATACTTTTTCTATTGTTTTATTAAAATTAAATTCATTTTTTTCTAAGTCCCATTCCCATATTCCTTCATTAGAAGCACTCATTGCAAGATTCATTCTCTTTTGTTCTTTCCTAATTTTATTTTCTTTTTCTTTTTCATCGGTTATGTCAGATAAAATCAAAACAAATTTATTGAAATTAATTTTATAAATTACTCCATAAGCCCATTTTTTTGTTTTTGAAAAATAAATATCTTTAACTTTTGAATATTTCATATTTTTTTCAATATTAATTTTTAAATAATTTAATATATTTTTATTTTTTATCTTTTCGCCAAATAAAAGCTCTGCATATTCATTACAAGAAGATATTATTAATTTGTTATCTTTTTGTTTTAAGATAATTCTTCCATCAAAGTCACTCGATATTATGTTTTTAAAGAAAATTATTCTAATAAGAATATCAAAAAGTAAAACTATTAAAGTTAATAATAAAATTATATTAATCATAAAATACACCTCTTAAAAGATTTTATTAGTGATCAATTAAAAAAATTAACTTTTTTTTAATATAATTAATTATACCATATATTCTTAATCTAATCAATTAAAAAAAATGCTGACATAAGTCAGCAATAGGATATATTGGGAAATTGAAGGGGATTAACCTTTTTATTCTAAATTGGGGAGTTTTTATACTTATTTAAGAACAATTAAATTATATCATATCTTTTTAATAAAATCAACAAATTAATATTAATATTTTGTGAATGTTTTATAAAAATATTCATTGTTGATTTGTTGTTTTATAATTTATTCTTAAAAATATTATAACAAATAATTTGTGCATAATATAATTAATTTGAACAACATTTAAAATCAATTTAAACAAAATATTTTCTTTTTATGCTATAATTAAATAAATTACGTATTTCATTTTGGAGGTAAAAAATGATTGATTATGAAGTTAAAGTAAAAATAGATGGACTTAAAAATAAGTTTAAAGATTTAAAAAATTTATTTAATATTGAAAAATCAAGAAATAGAGTTAAAGAATTGGAAAAAATTATGACAGATCCAAATTTTTGGAATGATTCTAAAAAAGCTGAAAGTGTTTCAAGAGAGTCACAACACCTAAAAAACGAAATAGGAGATTTTGAAGCATTAGCAAATTTATTTGATGATCTAGATGCAGCAATAGAACTAACAGAAGAAGATTCAAGCATGGAATCTCAAATATTTGAAACACTCAATGAAATAGAAAAGAAAATAAAAGCATTTGAACTTTCAATGCTTTTATCAGGAAAGTATGACAACAATAATGTATTTCTTTCTATACATCCAGGAGCAGGTGGAACAGAATCTCAAGATTGGGCAAGTATGCTTTATAGAATGTATGTAAGATGGTGTGAAAAAAATAAAATGAAAGTAGAAACAATAGATTATCTTGATGGAGACGAAGCGGGAATAAAAAGTGTAACAATAAAAATTTCTGGACCATATGCTTATGGAAAACTAAAATATGAAAGTGGAGTACATAGACTAGTTAGAATTTCCCCATTCGATTCAAATGGTAGAAGACATACATCTTTTACATCTGTAAATGTTGTTCCTGAATTAAACGAAGATGTTGAAATAGAAATAAGAACAGAAGATTTAAGAATTGATACATATCGAGCAGGTGGAGCAGGAGGACAACATGTAAACAAAACAGATTCTGCTGTAAGATTAACTCATTTACCTACAGGAATAGTTGTTGCCTGTCAAAATGAAAGATCACAACATCAAAACAAAGCAACAGCAATGAGTATGTTAAAAGCAAGACTTTATGAAATGGAAATGAGAAAAAAAATGGAAGAAAAAATGCAATTAATGGGAGATGTTAAAAATATATCTTGGGGAAATCAAATAAGATCGTATGTATTATATCCATATCAAATGGTTAAAGATCATAGAACTTCTTATGAAACATCAGATACAGATGGAGTATTAGACGGTACAATAGATGGGTTTATAGAATCAGAACTTTTGTACTTTGCAGAGCTTTCAAGATAAAATAAATTTGACAAAAACGTTAAGGTGGTGTATAATTTTTGAGAGAGTATAAAGATTATCATAAAAGTATAATGGTGAATGAAGTTCTTGATTATCTTATTACAGTGGAAGATGGAATATATGTAGATTGTACTGCTGGAGAGGGTGGACATTCTAAAGCAATTTATGAAAAATGCAATGGGAAAGCTAGAGTAATATCAGTTGATGTTGATTATGAAGTCCTTGGAATAGCAGAAAAAAGATTAAAAGAACTTTCTTATAAAATAGATTTTTTTAAAGCACCGTATCAAGAAATAGATATTGTTTTAGCGGGACTTGGAGTTAAAAAAGTAAATGGATTTTTTATGGATTTAGGAGTTTCAACTTTTCAATTAAAAGGCGTAGGAAGAGGATTTACATTTATGAAAGATGAACCTCTTGATATGAGAATGGATTTAGAAGCTGATAAGACGGCTCATTATGTTGTGAATGAATATTCTGAACAAGAATTATCAAAAATAATATTTGAATATGGTGAAGAATTTAGATTTTCAAGGAAGATAGCAAAAAGGATAGTACAAGCAAGGCCATTAAATACTACTTTTGAATTAGTTGAAGCAATAAAATCTGCCTTTCCTTATTCTGAAATAAGAAAAAGAAAAAGACATTTTGCAACCAAAACATTTCAAGCAATAAGAATAGAAGTAAATGGTGAATTTAATAATATTAAAACGGCATTAAATAAATTTGGAAATTATTTAGAAGTTGGGGGACGGGTTGTTGTTTTGTCTTTTCATTCTCTTGAAGATAAAATTATAAAAACATTTTTTAAAAATGATGAAAGGTTTAATTTATTAACAAAAAAACCTTTGATACCTTCAGAAGAAGAAATAAAAAATAATCCACGTGCGAGAAGTACCAAACTTAGAGCTGCAGAAAAAAAGTAATCTATTAATTTGGGGGGCTTTATTATGAGTACTAAAAGCATAAGAATTGAAAAAACAGAAGTAAAAACTATTGATTTAACTTTTTGGTCTATTCTTTTTATGATTTTAATAGCAGTTGTTGTGTGGATTTCACTATTTTTAAACTTTGGAAAAAACGTAGAGAGTTATAGAGAATCTTTAGCTGTTTCTCAAAAAAAGATTAATGGTACAGAACAAAAAATAGTACAATTAAATGATGAAATTGCAAAGATAACTCAAATTTTAAACTCTTATGAAGGAAAATAATTCATGAAATTAAAAAAGTATATTCTTTTATTACTTTTGTCAATGTTATATTTGACAATTATTTTTTTTGGTGTTTTTTTTAATTATAAAGTTATTGAAAATTCAAAAGATATAAATATTAATAATAAAAATATGGCTACCCTTGTAGATTGCAAGGGTAATTTTATTGTTTATAATAAAAAAATGTATGAAGCTTGGATTGATTTATCTTTTTTAAGAAGACAAAAAAAATTTAAAGAATACGAACATTTATTACTATCTAAATATACTCAAGATGAAATAAAAGATAAAAAATTTTTAAAATGGGGAAAATTCTATACAAAAAAAGAAGCTGAAGACAATTTGGGAGTTTTAAGAAAATTCTCTAAAATATATGAAACACAAGATAGAATATATAATGATTTATTTTCACTATCTCAATTAATTGGAAAATATGACAAAACAAATTATGGTATTGAAAAATATTTATATAATAATAAGCTTTTAGAAACTCAAAAAGAACAAAATTTATCAATTGATTTAACTTTACAAAGAATATTATATGAAGAACTTAAAAAAACAGTAAAAGAAAAAAATGCATCTGGTGCAGTTGCACTTATAATGAATACTAAAACGGGTGAAATTAAAGCAAGTGTATCAATATATCCATGGAATATGGGATATATGGGATATATAGAGCCAGGCTCAACCTTAAAACCAATGATTTATGCAATGGCAATAGATGAAAATATAATAAAGCCTTATGAAACATTTAAGTGGAGCTATCAATATACTCCTAAAAATACGAATATTAAAATAAAAGAATCAGAATATTTTGATTTAGGTACAATGGATATAAAAACCGCTTTAGCTCATTCTTCAAATGTTGCAATAGCCAAAGTTATGGAAAAAATTTTAAATACATATTCTCAAGAATGGTTGTATAATAGTTTATTAAAAATGGGATTTGGGAAAAAAACAAATATAGAATTTTCTGGAGAAATTGATGGTGTATTAAAAAATCCAGATGAATGGAAATCTATAACTCCATATCAAATTGCAATAGGGCAAGGAATTGGAGTAACTCCAATACAATTAATAACAGCATTTAATGCAATAGTAAATAATGGATATTATGTTTATCCAACTTTCTTTAAAAACAAAAAAGTATTTGGAAGACAAATATATTCAGAAAGAACCTCTAAAAAGTTATTGGATTGGATGAGATATACAACTATATTAGGAACAGCAAAAGATGCCTATAAAGAAGGGCTTTTAATTGGTGGAAAGACTGGTACAGCACAAAAAGCATTAAAAGGAATTGGTTATACAAAAGAAGATTATTATTCATTATTTGAAGGATATTATCCGTCGATAAATCCAGAATATACTTTTTTAATTATTGTTGATGATCCAAAAGGAGAATATTATGGCGGAGAGGTTGCTGCACCAATAATAACTAATGTTTTTTATAATTATTCCAAAAGAAAAGAAGTTTATAATTACTTAGGTTATTATTTTAAAGGAGTTTTACCAAATTTAATAAATTTTGATATGGAAGAAGCTAAAGCATTATTGATAAATCTTGGATATAATTTTAATAAAATAATAATAACTGGAAGTGGAACTAAAGTCACTTATCAATATCCTAATCCTGGAACATTACTAAAAGATACTCAATATATAGAGTTGCGGAGTGATTAATTTGAAAAAAATTTTAATATATGGTGATTCATTAATAAAAAAAGAATTAATAATAAAAAAGTTTTTTACTAATAATAACTTTGAAAAACTTTCAAAAGAAAACTACACTTTTGAAAAAATAAATACATTATTATCAACAAGAGGAATGTTTACTAAAAAAAAAGATATTTTAATTGAAAATTTTGATGATTTTAAAACATCTCAAAAGAAAGAAATTACTTCTTTATTGAATAATGAAATATTAACTGATGGTATTTTAATTGTTTCATCAAAAAAAGAAATCAAAAATATAAATTTTGATGAAAAAAAGAAAGCTTTCTTACCAAAGCCATGGGAAGAAGATAAATGGATAAAATTTATAAATGAACTTGCTGAACCAAAAAAAATAAAAAACGAAGCATCTGAATATCTTTTATCTTTATTAGGAAATAACGATTTATATCTTTATGGTGAAATAAAAAAGTTAAAAATTTATAGTAATGAATTTATAACATTTAATGATGTTGTTGAAATAGGATCTAATTTTTCTAAATCAAACTTGGAAGATTTTTTTTATTACTTATCTTCAAAAAAAATTAATGAAGTAATAAAACATTTTAAAAATATTTCAAATAATGATTTTGATAGTATAATGTTTAATAGTTTTGCCTTTAAATATTTTTTTGATTTGTATAAAGTAATATCTTTTGTAGAAAAGAAAAATAAATATACTTGGCCAGAAGTAGAAAAAATAAAAAATGAAACTAAAGTTAATTCACAAAGAGTTAGAAATTTTTTAGGAATCAACTTTAAAAATGATAAAATAAAAAAAATAAATCTTGTAAAATTATATGAAATAAAAGAATTGAGAAATATTTTAATTGAAATTGAAAAAATAGATAGAAAGTTAAAAATTGGAGCTGATCATAGAGTTATCTTTTTGGATTTTTTTGAAAAGGTGTGTAGATATGAAAATTGATATATTTTGTACGGTAATAGATAATTATGGAGATGCTGGTTATACATTAAGAATGGCTATGGCTTTAAGATCACTAAAAACTTCACTTAAAATAAGAATTTATACAGATTATAAAGAGTTATTCTTAAAATTAAAACCAAAATTTATAAATGATATTGATATTTTGAGTTTTAATGAAATAAAAAAATATGAAGCATCAGATGTATGTATAGGAATGTTTCAGTACTTTCCAAATGATTTTTTTATTAATAAAATTAATAAAAATTCAAAAAAATTTATAGTTATAGATTATTTTACTTCAGAATCTTGGGCAGATGAAGTAAATGGAAATAATTGTTTGCACAATGGTTTAAATATTCCATGTGAATTTTATGTTCCAGGTTTATCTAATAAAAGTTTAGGCGTTTTAACATATACTTCAGCAATGAAAAAAACTAAAGTAAATAATAATATATATTTATATACACCTGAAAAATTAAAAACTTTTATAGACCTTAATGATTCAATACTTTGGAGCGGAAACATAAATAATATAAAAAAAATGAATTTTAAAACACAAGATATATTTGATTCTTATATTTTAGGTGCAAAATATAATTGGATTAGAGGAGAAGACTCTTTTCAATTAGCACTTTGGTCTGGTATACCATTTTTTTGGGAGGCTTACCCCCAAAAAAATGAAATAAAAAAGCTTAAAATAGATGCTTTTTTGAATTTTATGAAACCTTTTTTAGATGAATTTTATCAAAGTTATTATAACATAATTTTATATATAAATAATTTTAAAAAAACAAGTATAAAAGAATCATATTTATTTATAAACAATAATTATAATGATTTTAAAAATAAATTTATGAATTTAAATCAATATTTTCTTAATAGAAAAAGTTTTCAAAAAAACTTAATAAAAATAATAGAAATTTTATAGTATAATAAAAATAGAAAATCAACAAAAGGAGTGAATTCAATGATAACAGCAGCAGAATTAAAACCTGGATACGTTGTAAAAATAAACGGAAAACTTTATACAGTTTTAAAGGCAAAATACAACTGGTCTGGAAGAAATGAAGCAACAGTAACTTTAAAAATGAAAAATATTGAAAATAATTCAATGTTAGATACAGTTATGAAGGGTGGAGAAAAATTAGAAGATATACAATTAGACCATAGAGAAATGCAATTCATATATACAAGTGGAGATTATTATGCATTTATGGATAATGAAACTTATGAACAAATAGAAGTTTTAAAAGATGAACTTGGAGATATAGTTAATTTTCTTGCAGAAGATGGAATAGTAATAGTATCATTTTATGAAGAAAGACCAGTAGCTTTTTCACTTCCAAAAAATGTTATTCTTGAAGTTACTTACACTGAACCAGGTGAAAGAGGAGATACTGTTGGTAATACATTAAAACCCGCTACTCTTTCAACAGGATATGAAGTTGGAGTACCTTTATTTATAAATATAGGAGATAAAATAGTAATAGATACAAGAACTGGAGAGTATGCATCAAGAGCTTAAAATAATATAATACAAAAAAAGAGATGGAATTAATCCATCTCTTTTTTTGGTATTATTGAGTTTTACTTTATTTATTAAAATTTTTTTTATAAACTTGTTTAATTAAGCTTAGTATGTATTCTAAATTTTCATCATCATTTATAGTTGTTTCATAATCTCCATTTCCATGATGCCCTTTTTGTGAAACATCGTTAAAGATATTTCTACTATCTTCTAAATTTCCTTTACTTATATTCAACCATATTTTTAAATTCTTTTTTTGAAGTTTAAAATCAACTATATTTTTTTTATTTTTCTTAAATGCTATGTATATTTTTTTTGGTTCTACTTCAATATCTGGAATCATTTGTTCTATTTTATCACTAAATATTTTAAATAATTCAATAATTTCTTTGCTACCTGAGCTTAAACTGTCTTCTAATGTATAAGTTTTTATTTCAGAAATAACTTTTTGTACCTTTTCATCTTTACTTAAAATATTTGAAATACTATTAGTAATTCTATTTCCTTTTATTTCGTTAAAGTACAAAATATTATTTTCAAATTGTTTTATTTCATACAATTCAATCGGTAAATCTTTAAAATTGATAGTATCTTTTTGAAATTTATTAAAATTTTGAGATATGAAAATAACTTTAGATTGAGACCAATCAATATCTATTTTTTTTAAGGAATTATCGAATTTTTCATTATATTCTAAAATAAATTCAGCTTTATTGTTTAACATTGTAGCTAAATATGCATATCCTTGGTCTATAACACTATAATTTTGTCCTCTTTTATATTCGATAATTACAAAGGCTTTATTTTCTTCATCATATCCAAGAGTGTCAAATCTATAATTTTCAACTGCAAATTCGCTTTTTATAAACTTTATACCTAATAATTTTTCCATATTAATTTCACAAACTTCTTGTAATTCTTTTTCAAGTTTAAATTCTTTTTCTTTTATTTCATCAATTTTTTTATCGTTCTTCAACTCAAATAATGCCAATTAAATCACTCCTTTTTTCAATAAATAATACAATGTAATACAATTAATTGATTTGATTTGTTTTTTTCTCAAAATACTTCTTATACATTAAACATTTAACTTTTTAATTATATTATATCATGAAAATCTGTGATTGTTTATTATTTTTATTTTATTTAAGAATAAATCTAAAAAATGTAATTAATGAGAAAAATGCTCATAATTTATGATATATTATAATTTTTATGGTATAATAAAAACAGGAGGTGAGAAAAATGCTCATACAATTCAATTTTAAAAATTTTAAATCGTATAAAAATGAAGTGTCTTTAGATTTATCCGCAACATCAATAAAAGATCATGAATATAATTTAATACACGATAAAAATGAAGAAAAATTTTTAAAAATAGCTGCAATATATGGTCCCAATGCAGGCGGAAAAAGCAATATTATAGAAGCTTTTAGGTTTATGAGATATTGGGTGCTATCTTCTTTTAAGGAAGCAGGAGAAAGAAAAGGGATACCTCTTAAATGTTTTGCTTTTGATGAAAAATTTAAAAATGGTAAATCTGAATTTGAAGTTTTTTTTAAAGAAAAAGGTTATGAATATCAATATGGTTTTTTAATTGATGATAGTAAAGTATACGAAGAATGGTTATATAAAAGAGATTTTAGAGGAAAAAATAAATATAATATAATTTTTGAAAGAAAAGAAAATAATATAAAATCTTCTAAATTTTTAAAAAAAGTTGTCTCTATAACAGAAAATATTATTAATGGTTCTACATTATTTTTATCATTTTTAGGAAATATTAATGTTAAAGAGATTAAAAATGTTTTTGATTGGTTTAGAGAAATAAAAGTAATAAATTTTGGAGATAGCTTTTCTGAATTAATATATGAAACAAATTCCGAATTAAAACGAAGGTATAAAGATAAAAAATATATTAAAGGATTAGTAGAATTTTTGAAATCAATAGATATAGATATTGAAGATATTATGGTAAAAGAGCGAATATCAAATAATAAAAAAACATCAATTTTATATTCTAAACATTATGATAATAAAAAAAAATTAATAGAATTACCATTTGATGAGGAGTCAGATGGAACAAAAAAAATGCTTCTTTTATATAACATTTTTTATGATGTATTTAAAAATGGAGAAACAATATTTATAGATGAACTTGATTCAAAATTACATCCAATATTAATGAGAAAAGTTATAGCGATGTTTCATGATGAAAAAGTAAATAAAAATAATTCTCAATTAATTTTTACAACTCACAATGTTGTATTACTTACTAAAGATTTATTTAGAAGAGATGAAATTTGGTTTGCTGAGAAAAAAAGTAAAGAATCAAAGTTATATTCCTTAGTTGAATTTAAAGTTAATGGTAAAAAGGTAAGAAATGATGCATCATATGATAAGGATTATTTAAAAGGAAAGTATGGAGCAATACCAATAGTAAAAGATTTTTATTTTAGGGCTGAGAAAAATGAGTAGTAGAAAAAGAAAAAAAAGAATTAGAAAAGAAAATATTAGGAACGAAAATATTGTAAGATATCTAATAGCTTGTGAAGGTAAAGAAACAGAAGTGAACTATTTTGAAGGAATAAAAAAGAAATTTGAAGAAAAAGGATTATTAAGAAGAGATTCAACAGTATTTGATTTAAAAAAATATAATTTTGAAATTAAGGGAGTCGAAAGAGGTACTGATGAATTATTAAAAGAGGTTAATAGATATATAAATAGAAATAGTAATATATATGATAATATATGGTTGGTTTTTGATAAAGATAATTTTTCGGATGAAAGCTTTAATTATACAATTGAACAGTCTAAAAATAATGGATATTCTGTAGCTTGGTCAAATAAATGTTTTGAATTATGGTTTCTTTTATATTTTGAATATAATGACTCTAATCTTAATTGTAAAAACTATATAGAAAAGTTGGATACAAATGTAAAAAAAAATATAAATGAAAAAGGATACAAAAAAAATAGAAAAGATATGTTTGAAATTTTAGAAAGATATAGTGGATGGAAAAAAGCATATAAAAATGCTGAAAAATTAGTAAATAAGTTTAAAAATGAAAAATCATATGCTAAAAAAGCACCATATACAACTGTTTATTATCTTGTTAAAGAATTATGTGAAATTATAGAAAAACAAGATAAAAAATAAAAATAAAATTCTACTCGTACAAAAATTTTTATAGTTTTCATTAAATCAAAAAGAGATGGAATTAATCCATCTCTTTTTTTGGTATTATTGAGTTTTCAAAGTTTTTTAATTCAATTAAATCTTTTTCAGGTAAGTTCCTATTAGTTAAATAAAATAAATTTGAAATTAGTCTATGTAATGTCATATCGTTTATTCTGTTACCTTTTTTTACTAACTTCCACATTGGAGATATTTTATAAACTTTTTCATAAATAGAAGGGTATTCAAAATTTCCTGTAAAAGAAACATCGAAAATTATAGAATTTTCTTTTATTGAGTTTGTTGGTATAATAAATTTTTTCGAAGGAACTGCTGATATAATTATATCTGAGTTTGATACAAAGTTTAAGATATCTTTATAATCAGTATATTTTTGACAAACTCTAACACTTGCATTTTCATTTAAAAACATTAAAGCTAATGATCTTCCAACAGCTAAAGAATCATTAATTATAGTTACTTTTTTCCCATTTAAATTAAACGGATTTTCTTTTACAGTATCAGGATATTTTCCAAAAGTTTTCATATGTGATTCAAAAATTCTATTGTATCTTTTTAAAACATATAAAATACCTTTGGCAGTTGGTGGAATAATTAGTTTTCTTAAGCCATATTCATCTTGAAACTTTTCATGCTGCATTAAGTATCCTAAGTATTTATTATTTAGACCTTCAATATCTTTTTCAAAGGAAACTAAATTCATAAAATGAGTATCTTTTCCAAAATCAATTGGATACAAAGTTATTATTCCATTAATACTTTCATTTTTATTACATGAATTAATGATATCTGTTAATTCGTGACGTGAATATGCATAGAAATTTTCAAAATCAATATTAAATTCTTTACATATATTGTTGATACCTTTAGAATATGATAAACTTCCCAAATCATCTGAAGTAATTATACAAACTATTTTTGGATTTATATTATTGTTTTTATATAATTCAATATTTTTTTTAAAAATAGGTTTATCAAACATATCTATTATTGTTTTTATACTAAATAATTTATTTTGCATTTAGAACACCTTTAATGAATGTGGGATTTTTATTGTAAATTTTGTTCCATATCCTACTTCTGAAACAATATTTAAATCTCCACCCAATAATTTTATAGTTTTCTTTACTATAGCTAATCCAAGTCCACTTCCAGGCTTATCTTTTGAAAGTCTAATAAAAGGTTTAAATATATCTTCTAATTTATCTTTTGGTATTCCTGGTCCTGAATCTTCTACGTGAATTATAAATAATTTTTTGTTTTTATCATAAGATACTTTAACATCAACGTATCCATAATCAGTATATTTTATAGCATTTCCTATGATATTTACTAGAATTTGAGTAAATTTTGTAGTATCTGTTTCAATAAACTCTGGAATATTTGCTTCATACTTTATATTTAATTCTACATCTGGAGAAGTTAATGGTTCAACTATAGAAACAGATTCAAACATTATTTGTTTAAAATTTATTTTTTCAATACTTATTTTATTTTCTCTATTTAGTTTGTTAAAAGTAGAAATATCATTTATTAAAGAATTCATATGTTTTGAAGAAGCGTATATTTTTTTTACATGAATTCTCAATTCTTTTTCTTCTATATCTCTATTTCTAAGTATGTATTCCGCATATCCTAATGCTGAAGTTAATGGTGTCCTTAATTCATGAGTTATAAAACTCCAATAAACACTATTTAATTCATTTGCTTCTCTTTCTTTATCTCTTGAAGCTTTCAAAGTTAAAAAAGTAGATGCAAAATTACTAAAAACTTGTAATATTCTTTTGGATTCTTCTGAAAAGGATTTTATTAAGAAATTATCTATATATATGTGTCCAACTATTTTTTTATGTATTTTTAATGGAACAATTAATGTTGTCACACTTTTAGTAAATTTGTTTGATTTATCTGAATAAAGTTCTTGAGGTTTCATTTTAGCGTTTTCTATATTTTTGACTTCAATTATTTCGTCTTTTTCTAATGTTTTATAAATATAAGATTCTTCAATTGGTATTTCAACTTTTGAAATTGAATCATCATAACAATATCCAACCATTCCTTTATAAAGAGACCCATTTATTTTCCATATTGAACCACATTCTGCTTCCGGAATGCTTTTAATAGCAGCACTAAGAAGTTTTTTAAAAAAATCTTTTTCGCTTTCAGTACCAGTTATAATTGAAGATAATTCTGCCATTTCTTTAAAACTTTTAAAATAAATATCAGAACTCATATTAATAAGGCCCCCTGTTTTCAAAAATTCAATTATATTTTACCACAATTTCTTTATGAATTTTACGCTTTTTTTCGTTTTTTTCAACAAAAATTTTTTTATTTGTATTTGGATCTTTTTCAGTATAATACATTGTTGTTGATTTTGTTGATGGAGTTGGAGTGAAAATTTGTACTTGATTTGGAGTAAATCCAAAACTTTTATTTAATCTTTTTTTTAAGTATTTTTCATCTTCTAAAGTACTTCCTGGATGAGCTGCTATTATGTAAGCCGAAAAAAATTGTTTTTTTCCAGATTCTTTATTTAATTTTTTAAATGTTTCTATAAACTTTTCTGTTATTGAAAAATCCGGTTTATTCATTAAGTTTAAAACTTTTTTTGATGCGTGTTCTGGAGCTATTTTCATTCTTCCAGAAATATGATGATTAATTAATTCTTTTAAAAAATCCATACCATAAATTTTATCTTCAAAAATTAAATCTAACCGGATCCCAGAGGCCACAAAAATTTTTTTTATTCCTTTAATTTTTCTGGCTTTTTTTAATAATTCAATATACTTTGAATGATTAGGTTTTAATAGATTACAAGTTTTAATCCCTATACATCTTTTATTTTTACAAGCTCCATGTTCAATTTTTTTTGAACAATCATGTCCATACATATTTGCAGTTGGACCACCTATATCTGAAATAATACCATTAAAAGAAGAATCAGCTGTCATTTTTTTTATTTCATTTAAAATAGATTCAATGCTTCTACTCTGTATAGTTCTTCCTTGATGAAGCGTTATAGCACAAAAACTACATTCTCCATAACAACCTCTGTGAGAAGTTATAGATGTTTTAACAGTATCCAAGGCTTTAACATAACCCATTTTTTTATAGTATGGATGAACTTTTTTTGTATAAGGCAAATCATAAATCATATCCATTTCTTTAGTTGTTAAATATTTTTGTGGTGGATTTTGTATAACAAATCTATTATCATGTTTTTGTATTAATCCATCAGAGTTAAGAGGATCATTTTCATTTTGAAAAATTTTAAACATTTCCATATACTTTTCTTTAGAATTTGAAACTTCTTCAAAAGAAGGTAATGATTTATATTTAAAGTTATTTTTAGGTAACTTTGATTTCCAAAAAACTACACCACGTAATTTTTTGCAATCATCTATGTTTCCTCCATTTTTGAAAATATCAGCTACTTGTAATATAGTTTTTTCTCCCATACCATAAACTAAAAGATCTGCTTTTGAATCTAAAAGAAATGATTTTTTTACTTTATTTTGCCACCAGTCATAATGAGAAATTCTTCTTAAACTTGCTTCTATTCCACCTAGAATAACAGGTATTCCTTTGAAATTTTGTTTTATTAAATTAGAATAAACTATAGTTGCTCTATCTGGTCTTTTACCAAAATCAGCATTTGGAGTATACTCATCAGTTTTTCTTTTTCTCCTTGAAGCAGTATAGTTAGCAACCATTGAATCCATATTTCCTGAAGTAACACCAAAAAAATACTTAGGTTCCCCAAGTCTAGTTATATCTTTTGATGTTTTCCAATCTGGTTGACAAATAATTCCTACTTTTAAATTAGCAATATCTTTTAAAACACGAGCTATTATAGCAGTTCCAAAGGAAGGATGATCTACAAAAGCATCGCCACTAACTAAAATCACGTCTAATTGTTTAATTCCTAATTTATTCATTTCTTCACGTGTTGTCGGTATATCAAACATCTTATAACTCCTTTAGTTTTTTCTTTTATTATACATTAAAAAAGTTATTTGTTCATTAAGAAATTAATTAGTTTAATGTTTAAATTAGTTTAAACCAATGGATCTAATATTATTAATTTTTATTTAATAAAAAACCTATGGTATAATAAAAATTAGAGGTGATAAAAATGAAAAAACTACCAATAGGAGTACAAGACTACAAAGAATTAATAACAGATTATATATACATAGATAAAACAAAATATTTACATGAATTAATAACAAGTGGAAAATTTTATTTTTTATCTCGTCCAAGAAGATTTGGAAAGAGTTTAACGATATCAACGCTGTATTATTTGTTTAAAGGAGAAAAAGACTTATTTAAAGGAACATACATATACGACAAATGGGAGTTCAAAGAGTATCCAGTAATAAGGATAAGTTTATTGGATACAACAAATGATACAGAAGAAGAATTAAAAGATGGATTATTAAGAATAATAAAAAGAGAAGCAAAAAAATATGGAATAAATATAGAGAGCGACCATTATAAATATGCTTTTGATGAATTAATATTTGAACTATCAAGAAAAGAAAGAGTAGTAATATTAGTAGATGAATATGAAAAACCAATATTAGACAATATAAACAACAAAGAAAAAGCAGAAAGATATAGAGAAATATTGAGGAATTTTTATGTTAGTATAAAATCAAATGATGAATACATAAAGTTTGTATTCATGACAGGAATAACAAAGTTCACAAAAACAGGAGTATTTTCAGCATTGAACAACTTAAATGATATATCGTTGAATAAAAAATACGCACAGATGTTGGGGTACACACAAGAAGAGTTGGAAAGTAACTTTAAAGAGCATATAAAAGAAACAGCAATTGAAATGAAGATGGAAGAAAAAGAATTATTAAAAAACTTAAAGATGTACTACAATGGATTTTCATTTGATGGAGAGAATTCTGTATACAATCCATTTTCAATATTAAGATTTTTTAATGAAAGAAAGTTTCAAAACTATTGGTTTGAAAGTGGATCGCCATCATTTTTATATGAATACATAAAAGGAAAGAAGATAAGATACGAAGACTTAGTGAAGTATCCAGTGAGTGAATTAGACTTTTCAACCCGAGAAATAGAAGAAGCAAATGCAAGCATATTCTTTACACAAGCAGGATACTTGACCTTTAAAGGAATAAAAAGATTAGGATTGAGGGAAAAGTATATATTAGACTATCCAAACATAGAAGTAAAGAACAGCTTTTCAAAGATAATATTAGAAGCAAACTATGGAATAAGAGAAACAGAACAAATAGAAACCACAATATATGAAAGAATATATGAAAAAGACATAGAAGGAATAATAAAAGAAATAAAAAGAATAATAAGTGCAATACCATACAACTTGCACAAAAAAGAAGAAAGCTACTATCACTCATTGATATACACAATACTTGCATCAGCGGGACTGAACGTAACAGCAGAAGAATTAACGAACTTAGGAAGAAGCGATATAGTAATAGAGGAAGACACTATATACATAATGGAAATAAAGATAGACAAAAGTGCAGAAAAAGCTTTAAATCAAATAAAAGAAATGAAGTACTATGAAAAGTACAAAGAGAAAGAAATTTACATAATAGGAATAAACATAAACTCAGAAAAAAGAAACATAGACGAATACAAAATAGAAAAAATATAATCCCAGCGGGTGCTGGGATTATATTTTTATAAAAACTCATATTTTCTAAAAAACGTATTTCGTTCATGAAAAAATATTAAAAATTTAAAACTCACTATACTTGGAACTAATAACGCTCAAACAGTTGAATTTTCTTAACATATTTCCCCATTCTCTCGATGGTTTTTATAACGAAAATTCTCACAAGGCTCACTTATTCATTTTTTTCACTATTTCCTTTTAAATTTAAATATTTTTGTAATATTCACGCATTTTGTGAGTAAAAAAAATATATAAAATTAAAAATTTTAATAAAATACAATAGATTAAAGATAAAATCAAAGTAAAAAAACACTCAAATTTTTGATATTAATATTTCATCAATAATAAAAAATCAAATCAGAATATTTATAAAAAATAAATTTTTGATAGAATTTCACAAACTTTTATAATGAAAATTATTAATAATAACATTATAAAAAATATAAAATCTAAATTCACAAAGATTAACAGTTAATATGAAATTAATAACATAAAAAAATAAAATAAATGATATAAATTAATCAAAATTATATTATATTCAGGTAAAAATATTAATTAGTACACTAAAAATAGTTGATTTTTTTTTTTTTTTTGCTATAATATTTATGTAATTAAAGAGAATTGATTAATTAATTGATTAAATTAAAATAAAAATTATAATATTAAAATATTTGTGCGCACAAATAAAAATACAAATTAGAGGAGGAACAAAAGTGAAAAAGAGTTTTGTAGTACTTATGTTAGTTTTAATGACGTTTTCTGTTTTTGCCGTATCACCTAAAAGAGATCAAAGTATTCATGCTTCAAACCCAGTTATAAATAGTGGTTTATTTAATGAAAAATTAAATACTCCCAAAATGCCTACAAATATTATTGTAAATTCTTTAGAAAAAAACTCAATTAATAAAGTAGGAGAAATAGGTCAAACAACAGGTATGGGAAGATTGATGGTAGTAGCTTGGAGAATAGGTAAAAAAGGAGTTGTTGGAACAGTAAAATAGGTTTGGAAAAATGGTAAAAAAATAAAAGAATTAGTTAAGGAAGTTGTAGATGTAATTGATTATGGGGTTAAAACAGTTAGAAGTTTATCAGAAGCTCGTCAAATTGCTGAAAGTTCTGCTAATAGTAAGCTTCAATCATATGGAAAAGTATATAGTTCACATACAACATATTATAGTTCAAGTGTTCGTCAATATTTAACTCAAAAAGTTATTGCTCAACCAAATAAATAATACTTTTAAGAGACACAACTTGTGTCTCTTATTAATATAAATGAATAAAAATGGAGGAGTAAAATAAAAATGAATGTGAGAAAGTTTGAAAATATTAAAGCTCGAGAGTTTTTATCAATGTATATAGTAACAACTGGTTTGAATCATTTATATTTTTATAGGAAAAGTTTGAAAGAAGAAATTTTTTTCCTGATAATTTCTCAAATGTTAATTTTAATGTGGTTTCTTTATAAAATTAAGAAAAATAAAATTTATATAAAAAATTTTTTTAAAACAAATGGTAAAAAGTATAAAAAAAAAGATACAATAAAGTTTGTTACAGCAACTTCATTTATTTGGATAGTATACCTTACTGTGTTTATGTTGATAGCCCTAATGTATATTATGATAACAGGGAATGATATACATTTTCCAAATGACATACACTTTACAAATAAAGTTGAACCTAATATTTTAAATAGTGGTCTCTTAAATTTAATATATACAATTGCTCAATCCTTAATTATATCCCCTATATTGGAAGAGTTTATATTTAGAGGAATAATGATAAATCGATTTTCATTAAAGTGGAATGTAAAAAAAGCTGTAATTATTTCATCGATTATATTTGGATTAATACATGTAAATAAGATTAATATTATTACTGCTACTATATATGGGCTAATTATTGGAATAGTGTATGTTAATACAAAGAGTCTTAAACTACCAATGTTAATTCATTTTTTTGTTAATTTTATTACACTTATTATTGATTTTATACCAGATGATACATCAATTGAGGATATAACTATTTTTAAAAGTGATATAATATTTATACTTTTAATTGTTGTTCCAATAAGCATTTATATTTTAAAAACAATAATAAAGTTTTTAAAGAATAATTCTTTATCAAAAGTAAAAAATGTACCTCTTGAAATGGAAGAATTTGATTATGAATTAAATCAATAAGAAGGATAAAAAATAGTAGTTGAAAAAAAGGAATCTCCCGGTAAAATAAAAGTGTAGAGAGAAAACTAAAAATATTAAAAAAAGAAAAAGTCTCTTACAATGATTTTTTATTAATTTCTTAGGTATTGGAGCTTTTTGAATGTGTAAATCATTAAAATAGTATCAAATTTATTTATTTCAAAAATGATATATATCTTTCTAAAATTTCTACATTTACATTAAAAAAACTTATTTGTTAACCTTGTATGGTAAAATAACAAAAACTAACGAAATTGGAGGGATTATTATGAGATTTTCAAAGCTCTACGCACCAACCCTCAAAGAAGTACCTTCAGATGCAGATATAAAAAGCATGGAACTTCTTATTAGGGGAGGATTTATTAGAAAAGTAGCTTCAGGAGTATATTCTTATCTTCCTCTTGGATGGAAAGTAATAAGAAAAATAGAAAATATAGTTAGAGAAGAAGTTAATGCAATAGGTGCACAAGAAATGTTAATGCCTGTTGTTCAACCAGCTGAACTTTGGAAACAAACTGGTAGATGGGATGATTATGGACCAGAAATGATGAAATTAACAGATAGACACAATAGAAGTTTTACACTTGGTCCAACACATGAAGAAATGATAACACACATAGTAAAGAATGAACTCATTTCTTATAAACAACTTCCTACTACTTTGTATCAAATAGCAACAAAGTATAGAGATGAAATAAGACCAAGATTTGGTGTTTTAAGAGCAAGAGAATTTATTATGAAAGATGCTTATTCATTTCATACAAGCGAAGAATCTTTAGATGAAACTTACAATGATTTTTATAAAGCATATGAAAAAATTTTAAATAGAATGGATGTTGAATTTGTTGCAGTTGAAGCTGATACAGGGGCAATTGGAGGTAGTAATTCTCATGAATTTCAAGTTTTAGCAGAATCTGGGGAAAGTACTATCTTTTATTGTTCAGAATGTGGATATTATGCAACAGATGAAAAAGCAGAGTCTGGAACAAAGTTTGAAAAAACAATTGAAGAAATGAAAGATTTAAAGATTGTAGACACACCAAATCAAAAAACAATTGAAGAAATTTCAAAGTTTTTAAATACAACTCCTCAAAATACAATAAAATCTATTTTATTAAAAGGTAAAGAAGGTTGGGTTCTTGCTCTAATAAGAGGTGACTATGAAATAAATTTATCAAAAATAAGAACCGTTGCAAATGATCAAACATTAGATTTAGGAGAACCAGGAGAAATTTGGAATAAATTTAATGTTGAGATAGGCTTTATTGGTCCTATTGGCATAAAAGATGTAAAAATAATTGCAGATTACAGTATAAAAACCATAAACAATGGAGTAACAGGAGCACTTGAACAAGATAAACATTATATAAATGTTAATGAAGGAAGAGATTTTAATGTTGATATTTATTCAGATATTAGAATAATATCTGAAAATGAACCTTGTCCAAAGTGTGGTGCTTCATTAAAGTCTAAAAAAGGTATAGAAGTTGGACAAGTTTTTAAACTTGGAACTAAATACTCTGAAAAGATGAATGGAGTATATGCTGATGAAAATGGAAGACCAAAACCATACATAATGGGATGTTATGGTTGGGGAATTTCAAGAACCCTTGGTGCAATAGTTGAACAACTGCATGATGAAAATGGAATAAAATGGCCAAAGGCTATTGCACCATTTGAAGTAATAGTTATAAATGCAGCAAAAACTCCTGAAGCTTTACAAAAGTCCGAAGAAATTTACAATGAACTGTTAAAAAAAGGATATGATGCTGCACTTGATGATAGAAAAGTATCTCCAGGTTTTAAATTTAAGGATAGCGATTTAATGGGAATTCCTTTAAAAATTGTTGTTGGTCGTTCTTTTAAAGAAGGAAACGTTGAATTAAAATTAAGAAATGAAAAAGATGGAGAAATATTAAAAGCTGATACAGAAAGTATTTTAGAAAAGGTTGAAGAAAAATTAAACAATTATAAACCAATAAAAAAATAATCCCGTTAGGGATTATTTTTTTATTTCAGAGAGGTTTTTGGGTTATTTGTTGTTTTGTTGTCAAGATAATTATACTTTATTATTTTTTTGTATTAGTATGAATAAAGTACAAAAAATATGTTACTTTAGTAACTATTATTAAACTCCTTTTGCTATAAATTCAAATTGTGACATATACAAATTATAATAATAACCTCTTTTTTCAATTAATTCATCGTGTGTTCCGGATTCAACTATCTTTCCTTTATCTATATACATTATTCTATCAGCATCTCTAATTGTTGAAAGTCTATGAGCAATTACAAATGATGTTCTGTTTTTTAAAAGTTTCTTTATACCTTCTTGTACCAATTTTTCTGTATGTGTATCTATATTTGATGTTGCTTCATCAAGTATTAATATTTTTGGATCTGCAAGTAAAGCTCTTGCAAGAGATATTAATTGCCTTTGTCCAACAGAAAGTCTGGTACCTCTTTCATTTACATTTGTATCATATCCTTTTTCTAAACTCATTATGTAATCATGAATACCTACAATTTTTGCAACCTTAATAATTTCTTCATCAGTTGCGTTAAGTTTTCCATATTTTATATTTTCTTTTATACTTTCAGAAAACAAAAAAGTGTCTTGAAGCATTATTCCCATTTGAGATCTAAAAGATTCCAATTCAACAGTTTTTATATCTACTCCATCAACTAAAATTTTTCCAGAAGTTACATCATAAAATCTTGATAAAAGATTTATGATAGTTGTTTTTCCTGCGCCAGTTGGTCCAACAAGTGCTATTACTTCACCAGCATTAACTTTAAAATTGACTTTATGGAGAACTGGTATACCTGTTTCGTATTCAAAAGATACATTTTTAAATTCAACTTCTCCATTTATTTTTTTCATCTTATTTGTAGAATAATCTTTTATATTAGGTTCTATTTCTAGTATTTCAAATATTCTATCTGCTGCAGAAAAACTGGTAACTAATGTGTTATAAAAGTTTGCTATATTCATTATTGGACGCCAAAACATACTTATATACCATGTAAAAGCAACTAAAGTACCTATTGTTATACTTTTTTCATCTATCATTTTAACACTATAAAAATACACTATTACCATTCCAAGTCCCCATGAAAGTTGTACCATTCCCCAAAATAAGTCTTGAAGTTTAACAGCTTTTATAAAAGAATTTGTCATTTCATCAACAAAGTTATTGTAAGAATTTATTGCCTTTTCTTCGGCAACAAATGATTGGACTACTCTTATTCCAGAAAAATTTTCATGTGTATAAGCATTTAAATTAGATTTTTTCTTTCTAAATAAGTCCCACCTTTTTCTACTCAAAATTTCTATAGTAAAAAGTCCAATGAATAAAAGCGGTAATATAGATATACTAACGAGTGCCAATTTAAAGTTCATTGAAAACATTATTATAGTTACAAATACAATTCTTAATATTTCTGGTATAAATTGTTTTACAGAGTTTGAAAAGAATTGCTCTAATGATTTTACATCGCCTATTACTCTTGCAAGTATCTTACCTACAGGTCTGTCATCAAAAAATGAAAAAGAAAGTTTTTGAATATGTGAGTACAATTCTCTTCTTATGTTTACAACTATTCTATTTGTCATTTTTCCCATCATAGTTACTCTTAATTTTGAAATGATTAAGGCAAAAAAATTTAATCCTATCATTATCATTCCTATTTTTAATAATCCATATATGTCATTGGCTTTTATATACTTGTCAATAGCAACTTTTAATAAGTATGGATTTAATAAGTTTATTGCCATTACAAATATCATAAATACTGTTATTGTAAATACTGATAATTTAAATGGTTTCATATAATTTGCTAATCTCATTATTATTTCAAATTTTGATCTATGTTTTAAAAATTCATCTTGTTTTATTGCATTTTTTGCCATTATAACACTTCCTTTATTTCTTTAAAATCTTTGAACTGTTGTTCATAAATTTCATAATATTTTCCTTTTTTTTGTAATAATTCATCATGTGTTCCTCTTTCTACTATTTCACCATTTTCTATAAAAATAATTTCATCAGCATTTTTAACAGCAGAAATTCTATGCCCTATGATGAATGTTGTAACTTTATTTGGAAGTTTCTTTAAGTTTTTCAAAAGTTCAAATTCTGTATCCATATCCAATGCAGAAGTTGCATCATCAAGAATGAGTACTTTAGAATTTTTATTGAATGCTCTGGCTATTGTAAGTCTTTGTTTTTGTCCTCCAGATAATCCTATACCTCTTTCACCAATTATAGTATTTTCTTTTTCTTTTAAATTGTATACAAAGTTAGAACAAGATAGTTTAATTGCTTCATTTATACTTTCATTTTTATTTACAAACTTTATATTTTCTTTTACACTTTCAGAAAACAAAAAATTATCTTGAAATACATTTGCTATGTTCTTTCTTAAAATATTTAATGGAATATCTTTTACATTATAACCATCGAAAGTAATTTCACCTTCTGATACTTCATAAAATCTACTTATTAAATTGATCAGAGTAGTTTTTCCAGAACCAGTTGGGCCCATTATTGCAATAGTATTACCTGGTTTGGCTTCTAAATTTATATTTTTCAAGATATACTCATCTTCGTATTTAAAACTAACATTTTTAAATATTACATGACCTTTAAAAGTTTCTTTATTTAGATTATTTGTTTCTTTATTTAAAAAAATTTCTGGTTTTGTATCAAAAATTTTATTTATTTTTTTTGCAGAAGCTTTACTTTCAGAAAACATATTAAAAAGCCACCCAATTTCTCGCATAGGCCATATTAGCATCCAAATATATTGAGAAAAGCTTATTAATGTACCAATAGATAATTTTTCTCCAATAACCATCATTCCACCAAAAACAACGACTAAAACTACTGATAAATCACTTAAAAATTCTATTAGTGGAAAGTATCTTCCCCATATCCTCAACTTTTCAACATTCAAATCATAATTTTTTTCATTCATAGTTAAAAACTTTTTTATTTCGTATTTTTCTCTTGTAAAAGCTTTTACTAATCTTACTCCTGAAATATTTTCTTGAGCGGTTGTATTTATTTCAGCATTTTGATCACTGATTTTTTCAAATGCTTCTCCAATTTTTTTTTCAAATTCAAAGGCTAAATAAGCTATTAGTGGAGTAGTCAATAAACTAATTAATGCTAATTTCCAATTTAAAAAAAAGATTATAGAAGATGCTGTTATAAAATACAATATATTTTCTATTAATAATCCCATACCAAAACCAACTAATGACCAAATGTTATCAATATCATTACCTATTCTTGACATTAGTTCTCCAGTATTCATTTTATCAAAAAATCCAAAATGTAAACTTTGTATATGTTTAAACAAATCTTTTCTTATATTTCCTTGAACCTTTCCACCAATATAATCAAAGGTAAACTCTCTTAAATATCCGAGCAAAGCTCTACTCAAGGAAATACCTGCTATACCTAATAAAACTGTTTTTAATAAATTACGTTTATTTCCAATTAAAACATCATCTACCATTATTTTCATTAAATATGGATTAATCATATCAAGAATTATTCCTGCAATCATACAGAAGAAAGCAAAAAAAATCAATAATTTATATTTTTTTAAATATTTAAAAATTTTTTTCATTTTTTATCACCGTATCCTTTTTATTTTTAGTATTATCAATAATGTCAACATCAAATTCTTTAGTAAAAATATCAATAACTTCAAAAACATCTTTTTTCATAAAAATCACTCCTACCACAAAATTAACCTAAAAACTATTAAGATCAACAATTTTGACTTTAAATTCATCAAGTATAATTTGAGAAATACAAAATCTTTTTTCTTTTCTTAAACCTTTTTCAATTGTTCTTTTTAACATAGTCATCCCTCCCTAATGTTTTTACTTGAATAATGTTTATAAATAAAAAAATGAGCCTAAATAGGCCCATTTATACAAACAAATACCTATATTTTTGTTTGTAAAATTAAAGGGCCATAGCTGGATAGCTATAGCCCGATTGTATTTTACAGTTAAATCTTTATAGACAAATACTTCGAGGTAAAGCTATCCCATGAGTTACTTTGACTAAATAATCTTAAATTCATAACTTTACCTCCTTTTTATTTTTTTGCTTTATGCTTATTCATGTGTAATAATACACATTTTTTATTACAAAATTATTTCGTCAAAAATATTTTAATGTTAATAAATTCATACTTTATATTTTTTTTATAACAAAATATATTTAATTAAACTTTTTATTATAATAAAAAAATACAACCTTTAATAAATTTATTCATTAAAGGTTGTGTAAGTTTCTAAAATATTTTTAAATTCTTCATAATTTGTATTTAATTTACTACTTTCATAAAAAAGTAAGTCAAATTTGTCAGCAACACTTATAATCATACTTTCATATGGATAATTATTTTTTCCATAGTTCCAATTTTCATGATGAAATCTTATTATATTTGAATATTCCTTAAAAAAATTAATGTCTTTCAATAATAAATATGCTATTTCAACATGTTTAGAATTTTTTTCAAAAATAAAGTTAAAAATTTGCTTAGCATCATAGTTAGATATTATACCTATATCATGTATAAGAGAAGAAATAATTAATTTTTTTAAGCCTTTTTTATTCATATTTAATTTTTTACCAATTAAATAAGATAAAAAAGAGACTCTTTTCATATGACCATTTAATAGTGGAGAAGTTTTTTCAGAACATTCAGATATTGATGAAATAAATTCATTCATATTAAAACTTATTGTATATTCCATTTTATTCATCTCCAAAGAATGGGGTTAAAAATAAAAAATTTAAAATAAGTTGCTTTATATATCAATTATATCATTTTTTTATAAAAATTTTAATATTTTTACTCTTAAAATTAAATAAAAAGTAGACACAATTAGCCCAATTAATGAAATAATAATTCCTATTTTCATAAAATCAAAAAATTTAATTTTTCTTTTAAAATTTGTTTCTATTATTCCCACAATTACCATGTTAGAGGCAGCACCACTTATAGTTCCATTTCCACCTAAACTTGCTCCAAGTGCCAATGCCCACCACAATTCATTTCCATATGGATTAATCAATATTAATTTTTGAATTATTGGTATAAATATTGTAACAACAGGTACTGCACCTATAAAAGCTGCAAGTATTCCAGATATCCATAAGACCAAAATTAAAGTTATTAATGGATGATTTGAAAATGATGAAATTATTCTTGTAATATCTGTTATTACATTTGTATCTTCTAAAGCTTTTACTATTGTAAATAATCCAACAAAGAAAAATAATGTATTCCATTCTACATCTCCAGCAATTTCTTCAAAATTTTTCTTTGATACTAAAAGCATAACAGCTCCTCCAGTTAAGGCTATTAAAGAAGCTTCATAGTCTAAATATTCGTGAATTATAAAACCAAAGATTACCATAGAAAAGATTAATAATCCTTTATATAACAGTTTTTTATCTGTTATAGCTTTTGATGGTTCTATTTGAAGTAATTTCTCAAATTTTTCTGGTGTTGCATTTTTTAATTCTTTATATTTGAATAAAAAAAACAGTAAAGTTAATGAAAATATTAATAGTGTAGGCAGTATCATAACACTTAAAAATTCAATAAAGCCTTTATTTGAAGCACTTGCAACAAGTATGTTTGGAGGGTCACCTATCATTGTAGCTGTTCCACCAATGTTTGCTGCGAATATCATAGGAAATAAAAAATATTCTGGTTTTATTTCTGCTTCTTGACATATAAGTAAGATTACGGGTGAGAATAAAAGAAGTGTCGTAACATTATCTAACATACTTGATAAAACTGCTACTGCAATTAAGGTTAATATAAAAATAGAAATAACATTACCCTTTGATTTTTTTACAATATAACCAGCTATTGCTTGAAAAACTCCAGTTGTTTTTAATATTCCAACAACAATCATCATTCCAAGTAATATTCCCAAAGTATTAAAGTCTATAAAATCTCCAATTTTGGAAACTTTTATATTCTTAGAAACTTTTACGAGTGCGGCAAGTAGCCCCATAGAAAAAGCTACTACTGATTTGTTTGTTTTACCAAAAATTATCAAATAATAAGTAACAAAAAAAATCCCAATAATTAAAATTTTTGATATTGATAAATCCACTGTATCATCCCCATTTGTTTAAAAATTTATCTATATCTTTTTTTAAGTAGTTCAATAAAATTGGATAATACATAATAAAGATATAATAAATAACATATAATGAAATTAATAATATATTATTTTTTAAAGGTATATAGAGTTTATAAAAAGGTAAAAGTGCATATAACAAAAATGTATATACTATATATATAAATTTTGGTAAATTAAATTTATATATTAATATTGGTACAAAAAAGAAGACAAAAATACCAATACTTTCTATAATAAATCCACTAATAAAGATTAGAAAAATTAGTGAAACTGTATATATGATAGAATTTTTTTTGTTTAAATAAAACATTCCAAGAGGTAATAAAATACTAATAATAGTTGGTGCTATTCTTAAAAATCTCGATAAAATAAATATCATATAAAATGTTACAACGATCAGGGATGTGTAGGCAATCTTATTTTTTAGAAACAAGAGCAAAGATCCCCACCCATACACTCACAAAGAGAATCAGCACATGCTATTGATCCTATACACTGTAAACAGTCTCCACAATCATTTCTTCTATATCCATAGTAACCTTCTCTGAATTTATTTATATCTTCTTTTAGTTCTTTATTTTTGTTATATTCTGAGAATAATTTTTTGAAGTTTCCCTCTTCCATCAATGTTTTTTTTGTTTTCATTTTTATCAACTCCCATTAATATTTTTGTTATTTCTATCCTGTGAAATTGAAATGAAAAAGTTAATAATTTTTTGACAAGATATTTATTAAATTTTGAAAGTTTATCAGAATTTTCTATTATTTCTTTTGCACATATATCATACGTAAATAAAATTCTTTTTTTTTCTTCATTTTTTAGATTTTCTATTTTTTTTACATTAAAAGAAGCTCTTATGGCATTAAATTTTTTCTTTTTTAAGTCTTTTTTAAAATCATATATACTATCAACAAGATAAATCAACATACCTATACTTATTGGTACAGTATCTTCTATATCTTTAAAATAATTTTTCATCATTATTTTAGTGAGTTCTTGACTTGGTTTTGCATATTCATCTAAATCTAATAATTTTTTTTCTATTTTATCTTGTTTTTTTAAATAAAACTCATATTCTTCTATTAATTGTTCATCAAATTCTTTTAATAGTTTGTTTTTTAATTTTTTTATATAATTATTTGGAATAGGAGTTCCTTCAAACTTATAATCTAATAACTTTCCATAAATAATTAACATATTTAAATAAGAATATTTATCTAAAATGGATAAATTATTTGGTTTATATCTTTTTCCAAAATGCATCCAAGTACATCTAAATTCACTTATATCTTTGTACTCTTCATTCATCATAGCAAACAACACAACTTCTTTTATTATTGTTGGTCTATATATATTACCAAAGTTCTTTTTTAAAGAATGGCAAATTCCACAATAATAGTATAGGTATTTTTTCCTTTCTTCATCATTTGGTTTGAAGTACAATGAAATATATCCATACATTATTTAACCTCTATTTTTTGTTTTTTATTAAAGGTTTTTCCATTTATTAAAGCTATAAATTCAACATTGTATGTTCCAGCTTTATCTAATTTTATTTTTTTTGTTTTTTCAAGATCAAAAATTCCTTTTGTTCCAAATGAAGGTAAATAAACTCTAACAGGATTTACTTTTATATACTTATAAATAATTTCATCATTATAATAAACTTTTATTATCATTTGTTTTATTTCAATACCTCTATTCTCTTTATTTCTATTGTTTAGTTTTGCTATATAATAAAGTGTTTGCCCTTTTTCTATTATTGGTAAACTTAAATTACTCAAATATAATTTTGAGGATGTATAATCAATTTTTTTAGTTATATTTAAAATAGTAATGAGCATTTTTTCAAAAGCAGGAGTTTCAAAGGTTATGGTGTATGTTCCTTCATTTAATTTAGTTTTTAATTCAATATTTAATACTTTATTAGTCATTGGATTTAATGAAATACTTCCAAAATTTATATTTTCTTTATAAATTTCTTTATCTTTTTTTATTACTTTTAGTATACCTTTTATTTCTTTGGCTTCAGTTTCATTTGTTTGATTGAATATTTCTAAACCTATTTTAGGATTTTCTGTGGATAAGAAAAAATCTTTATAAGGATATAGATTTAATTTTAAATCATGTGAATAATAAAATTCTTTTGTCAATACAACATCTTTTTCATTTAATTTAAAGCTAACTCTAATTTCATAATTACCTTTTTTTATATTGGATATTTTTTTTTCTTTTGTTAAATCATAAATTGTTTGATTGACATAAGTATTAATTTTATTTTTTACTTCTTTATTATAAACAAAATTATATAATACATTTCCATCATCTTTGTTTATAATTATAAATGTGAAATTTTTTAAAGTAAATGAATTTGTTTGTTTTTTTATATTTTGCATTTTAACTTTTATATCAAGAAATTCTGGATAATAATAAGTATCCTTTGTTAAAAGTGTAAAATTAAAACCATCTATGATTTTCATATCAAATCTTTGAGGTAAAAAATTGTCTCCAAAAATTGTAAAAAGGATTACCATTAATGATATAGCAATTATTATGAAAGAGGTCATTTTTCTCATTTTCTTATAATTATTGTTATTATTATTTTTGTTTTTATCGTATTCTTCCCACTCTTTAGGACTCTTTGTTATGTATTTCATAAAGCACCTCCTACGAGGATATTTTTATATTTATTTTCTAATTCTATTATAGAAATTCCATTAATGATATCTTCTTTAATTTTTTTATTCAATATCATATATTCAAAGTTTGGTTCTACTCCATCTCTACCAGTATAATAACACTTTTTACATCCAGTTCCTTGACAATTAGTACAGTTTTTAGGTTTTAATTTTTGATTTATTATTATATCAATTGAATCAACTATATTTTTTTTATTTTCAACCAAATTTATTAATCTATTTAAAGCTGAAAAAACGCTATCAGAATGTATTGATGCGTATACTGTATGTCCTGTTGTTGAAGCATTAAAGATTAGTTTTGCAAAATTTTTATCTCTTATTTCACCAGCTACTATGATTTCCGGATCTTGCCTTAAAATATATTTTAAAATCATTTCTGATTCATCATCTGTTTTTATTGGAATTTGAACTATTTCAGGGATTATATATTCAATTGGATTTTCAATTGTATGTATTTTATATTCTGATTTAAGTTTATTAACAATATAAAGCATAGTTGTACTTTTTCCAGAACCAGTTGGACCAGAAAAAAGTATTGTTTTAGATTTTTTTTGTGTATTTTCAAATACTTTTTTTAAAAGATTATTATTAAATTCTATATTTATATCTTCAATATTTCTTAAACGTCTAATGACTGTACTCACACCAAAAAAAGAATCCATCATAGATACTCTATAATTGAAACCATTTAAATTAAAAGAACCATCCACATTGTAATTATTTCTTATAATATCTTTCTTACAATGAATTAATACTATATTTATGAATCTTAAGTATTCAGCTTTTTTTATAGTTTTATAATCTATTAATTTCCCAGAGTATCTTATTTTTATTTTTACATTATTATCATTTGATTCAAAATGAAAATCACTAATTCGTTTATCTAAATTTTCAAAAAATATATGAAAAAAGATACCTTCATCTTGAAGATATTCTTTATCTCTATAAAAAAGATCTGAAAAAGATTCTTTCTCACTTATTTTATATTTTTCTTTCTTTTTTTTATTCCATAGATTCTTCTTCATGAAGTATTTTTTCAACTTTTGAAATTTCATCTGTAACTATAGATTTCCCAAAATATCTATAAAGAGCTGGTTGTTCATATATATTATCTTCATATGTATTTTCTTCAGAAAATCTGTCATAACCAGAAGCTATTATTGTAACTTTAATTTCGTCTTCTGGTAAGTCTACAATTGAAATACCTGACTTCATATTTGCATCGTCAATAGCAGAATCTTTTAATTTATTAGAAATTGTTTTTAATTCTTGAACTGTTGGATTTTTTCCAGAAATATTTACTAAAACAGCTGTACAGTTTTTTACAGGATTATCTAATATTTTACTTTCAAGAGCTTTTCTAACGGCTTCTTCTGCTTTATTTTCACCTTTTCCATATCCAATTCCAAGCATTGCAGATCCTTTTCCTTTTAATACGGATTTTACATCTGCAAAATCAACGTTTATAAGGCCTGGTTTAGTTATTAAATTAGAAATACCAGTTATAGCTTGATATAAAACTTCATCTGCTTCTGCAAAAATTTCATCTATTGGTTTATTTTCATTTGGATCTATTAATCTATCATTAGAAATTTTTATTAAACTATCTACATTGTTTTTTAATTCTTTTATTCCTTCTGAAGCAATTTTATCTCTTGTTGTTCCTTCAAAATGAAATGGAGTAGTAACTATTGCTACTGTTAATATATTCATTTCTGTTGCTAATTTTGCAATAACAGGAGCGGCACCTGTTCCTGTTCCACCACCAAATCCAGCTGTAATAAACAATAAATCTGTATTTTCAAGGTATTCTTTTATTTTTTCTAAGCTTTCTATTGCAGATTCTTTTCCTTGTACAGGATTTCCACCAGCTCCTAAACCACGAGTTAATTTTTCTCCTAACTGTATTTTATAAGGTGCAGGATTTAATTCAAGAACTTGAACATCAGTATTAGCTGCTATCAATTCAACATCATCTATTCCTTTTTCAACCATTCTTTTAACAGCATTATTTCCAGCTCCGCCCACACCTATTACTTTTATTGTATATTTTGCCTTTTTTTTAAATAATGGCTGTTGTTTAGTATCTTCTAATTCAAATGGCATTTTTTATTCACCTCCGTCAATCTTCATTGACCAATTTTTTAAATATGCTTTTAAAGGCATTCCCAAATCCTTTTTTATTTTTCTTTGCAGTATTTATTTCTTTAGTATTTTCAACATTTCCTTCATTTATTTTCATGTTTTCATTTCTTTCTATAAGACCAAAAACACTCAAATATTCCATTTTTTTATTCAGTTCTTCTGGCACATTTTTAAAAATTTCTAAAGACAATTGACCTTTTCTAAAGTTATCCCCCATTAATTCTTGAATTGTATTTTCAATATTTTTTATTTGCGATCCTCCACCGCAATATATGACTCCACCTTGTAATCCACCAAATTCATTTGAACGTCCAAATCTTTTTTTTGATAATTCACCATTGAATCTACTAATTATTTCTCTAACTCTAGCATAAACTATTTTATTTAATAAATTCTGTGTACAATGTGCCATATCAGGTTTTGATACTGTATTAAAATCTATTTTTTTAGTTACTTTTGTATCTTTTAAACAAACAGCATGTTCTATTAATAGCCTATTTGCTTCTGCTTCAGTTGTTTTTAAAACAGTTGTTATATCCTTTAAAACATATTTTATTCCATAAGGAAATGTATGGAACATACTAGGAATTCCATCTTTAAAAACAATAGCTCTACAAGCTCTATATCCAAAATCTAAAAAGGTTATGCCATTTTCTCTATCTTGAGAAGTTGTTGCGGCATAAGCCATAGAAAGTGTTGTATCAAAAGCAGGTAACTTATTATCTGAAACTATTTTTTTGAAAGCACTTGATAATGTAACAAAAGAATTTTCTGAAGCCCAAACAACATTTAAGGATACTGTAAGCGACTTTTGTGCAGTAAATGCTATAGGATTTGAAACTATTTTGTCATCTACTATAAACTTAGTAAAACTTATATCTAAAATCATTTTTTTATCTTCACTATATTTTTTTACTACACTATTTTTTATTTTTTCTAATTCTTTTTGAACAATTTCTGTTTTTTCTGTATATTCAACTGTAAAATTTTCTGAAGAAATATAAAGTTCATTAGTTGAATATCCAGTAATTAATTCTATACTTTTACTTTTTTTAGACAAGTCTTTTGTTAAATCATTTATTAAACTTCTTATAGTTTCAGTAATTTTCTCTATATCTTTCAGTTCTCCTCCAGTTATTCCAGATGTCTTTTTACTTCCATATGAAAGTACTCTATAGTGTTTGTTTTCTTCTTCAAATAAAATTCCTTTAGTTTTAAAGCTTCCTATATCAAGTCCAATTAAGTAATTTTTTGCCATGGTATTCCCCCAATTCACTTTATTATTTTTTTATCAATAACAGTATAAGTTCCGGGGTTTAATCCGGATAAAATATCTTGTTCGCCAAATAAAAATATCAAATCCCCAAGTTTGTAAAACTTTATCCTAATTTTATTATAACAGAAAATTTCTTTTTTTTGAAAATCTATTTTTATTATATTATTTAAATTATAAAAGTTTAAAATTATTTTTTTTTCATCTTTTAAATCATTGCTAAATATAATTTCGGGTATTCCTGGTATAATTGTATCATATAAATACACTACTTCATTTTTAACATTGTAAAAAAAATATCTATTTAGTTTTTTTATTGAGTACATTGCATAAGGTTTTATATCTTTTTCTTTTAAATAAATTGCATCCTCATTATTATGAGGAGGCAATATTAAACTTAAAGAAAAAATATAAAAAAATATTAAAAACATTTTTAATATAAAAGTTTTTAAATAAAATTTCATTTAAACATCTAATTCCTTTACTCTATGTGCATTTTCTTCTATAAAATTTCTTCTCAATGATGGGTCACTTCCCATTAAAACATCTATTGTTTCATCTACCATTTCTAAATCTTCTATTTTTATTTTCAGCATTTTTCGTGTTTTTATATCCATTGTTGTTTCCCATAATTGATCTGGATTCATTTCTCCAAGTCCTTTATATCTTTGAACTTTAATTTTTTTACCTGAATACTGTGCTTTTAATTTTTCGAGTTCATTTTCAGTATAAAGATAAAAGTGCTTTTTATCAACTTCAAATCTATATAAAGGTGGTTGTGCTATATAAACATTTCCATTTTCAACTAATTCTCTTGCATATCTAAAGAAAAAAGTAAGCAAAAGAGTTCTTATATGCATTCCGTCAACATCAGCATCAGTCATTATTATTATTTTTCCATATCTCAACTTTTCTGGATTAAATTCTTCTCCTATACTTGTTCCAAGAGCTGTAACTATATTCATTATTTGTTCGCTTTTTAATAAGCGTAAAAAATCTGTTTTTTCAGTATTTAAAATTTTTCCTCTTAAAGGTAAAATTGCTTGATAGTATCTATCTCTTGCTTGTTTAGCATTCCCTCCAGCAGAATCTCCTTCTACTATAAATATTTCTGAGACATTTGGATCTTTTGAGGTACAATCTGCTAATTTACCTGGTAATGTGCTATTTTCAAAAACAGATTTTCTTTTTATACTTTCTCTTGCTTTTTTTGCAGCTAATCTTTTTTTAGATGCAAATTGAATTCTATCTAACATTGTTTTACATTCTTTATTATGAGAATCAAGATATAAGGTTAGTTTTTCATTAACAACTTGATTAACTGCATCTCTTGCGTATTTAGATCCTAATTTTCCTTTTGTTTGACCTTCAAAAATCGGATTAGCCATTTTAACATGAATTATTGCTAATATGCCCTCTCTTACATCTTCACCAGTAAAATTTGGATCTTTTTCTTTTATAATATTCAATTTTTTAGCATATTCATTCATAGTTCTTGTCAAGCATAATTTAAACCCAGATTCATGTTCTCCTCCATCAATTGTTCTTATATTATTTACAAAAGATATAATCTGGGCTTCATCAGAGTTTGTATAACAAAATTCAACTTCTACTTGCATTTCCATTTCATCTTTTTTATGCATATAAGTTCCATTTATATAAATTGGCGGAGATATTTTTATTTTTTTTCTCTTTTTTATTTCATATTCTAAAAATTCTTCTAAACCTCCTGAAAAATGAAATAATTCTTTAATTTGTTTTTTTTCATCTGAAAAATTTATTTTTAAATTAGAATTTAAGAAAGCTATTTCTCTAAGTCTGTTTTGGATAGAGTAAGATTCTACAGCAACGTCTCCTTCTTCAAAAATTTCTGGATCAGGTCTAAATTTTTGATGAGTACCAGTTCTATCCGTTTTCCCTATTATTTGTACATCATTTTCTGGTATACCTCTTTTATATCGTTGAAAATAAATATTTCCATCTTTATAAACTCTTGTTTCCATATATTCAGATAGGGCATTTACAACAGAAGCTCCAACTCCATGTAACCCACCACTAACTTTATATGCTTTTTTATCAAATTTTCCACCAGCATGTAAAACAGTCATTACGACTTCAAGAGTACTTTTCCCTTCTGTTGGATGTATATCAACAGGAATACCTCTTCCATTATCCATAACTTCTATTGAGTCATCAGAATGAATTTTTATATCTATTTCATCACAATAACCATTTATATGTTCATCTACTGAATTATCAACTATTTCATAAACTAAATGGTTTAATCCAGCTTTACTTGTTGATCCTATGTACATACCAGGTCTCATTCTCACAGGTTCTAAACCTTTAAGAATTTTTATTTCATTTCCTGAATATTGCTTTTCGGACATACTTCACCTCCGTATAACCTTTATATCAACAACAATTTCTTCATTTAATTGCTCATTGATTATTTTTATTATTTCATTTTTTTTAAATAAGATTTCCTGCATAACAATATTTTTATTGCATGATACAATTAGTATTTTATTTTTAGTTTCATAGTTTTCAATTTTTGTATATTTTTTTAATTTTTTTTCTATAACATTGTTCCAAATATCTTCTATTGAAGAAGTATTATATATTTTTTTTATTATTTTATCTTTTTTTGAAAGAGATTTCAAAATATCTTTTATAAAGTCTGACAATTTAAATTTTTTCCTCTGGATAGTCTTTTATAAAGTCTGACCAATTTTGTAATAAAGTATCTGTTACTATTCCTGGAACTGAAAATGTAAAGTGCGGATATATTCTCTTTACTGGTACAATTCCTCTTGATGTATGAGTTATAAATACTTCTTCGGCAGATAATAATTCCCAAAGTTCAACATTTCTTTCTTCAACTTCTATTGAAAGATTTTTAGAAAGCTCTATAACATTTTCCCTTGTTATTCCAGGAAGAACTCCAGCAGAGAGATAAGGGGTTATTAATACACCACTATTAACAAAAAATATGTTTGAATACGTACATTCTGTTACATATCCAAATTCATTTAAAACAATTGAATCATAGTAATAATCATATTTTTTATTTAAATATCTAGTGAACCCATTTAAAGGTGTTTTTACATAATATGGAACAACTGGTGCATGAGGTTTTCTTTCTCTGGCAATATTTAATACTACTCCTTCATCTATTAATTCTTTGTCATCTTTTATTTCTTCAACAAATAAATAAAAAGATTTTATTGAAGCAGTATATGGAGTAACATATAGTTTAAATCTGTATTCTTGAAAAGAATGTAATTTTTTAGCTTGTTCTAATATTTCTAGTATTTTTTCAAAAGAAGGTATTTCAATACCTAAAAAGTCAGATGATTTTTTTAATCTTAAGTAATTTTTACTTAAAGCAAAAAATTGTTTTGAATAAGTTCTAAAAACCTCATATATGGAATATCCTCTAACAAAACCATCATCATCAGCAGAAATTAAAGGATATTCAGACCATTCTATTCCATTATAAAACATTCGAAACAACTCCTTCCGGAATAACAGATTTTATTATTGTATTATTAAATCCTTTTTGTAAAACGTCTTTAGAATAATGATATATATAGTATTCATCATATCCACAATAAAAATTATTTTCTTTACTTTCAAAAAGTACTTTTACTTTCTTATTTTGAAAATTTTCGAGATATTTTTTTGAAGTTTTTAAAGATTCTTTATTTAAAATTTTAATTCTTTGTTTCTTTATTTCAGAAGGAATTTGTTTTTTCATTCTTTCTGCTTTTGTAAAAGGTCTTGGTGAAAATCTAAAACTATGAGTTTTTAAAAGTTTTAAATCATTTACGCCTTTTAACAATATTTCAAAATCTTTATTTGTTTCTCCTGGAAATCCTACAATTAAATCTGCTGTAATTGAAAAAAGTTCATTGTATTTTCTGAGCATTTCTACACTTTTATAAATAGTTCTTTCACTATATCTTCTTCCCATATTTTTCAAGATATTTGAAGATATATGCTGCATAGAAAAATGTACATGTTTTTCAAAAATATTGCTTTCATTCAATAATTTTGATATATTTTCATTTATTGAATCTGGATAGAGTGAAGTTAATCTTATCCTAACATCTTCTTTTGAAAAATTTTTTTCTATTTGAAATAAAAGCTTTTCTAAATTTTCGTTTAAACCATAACCAAAATATTCCATATTTATTCCAGTTAAAACTATTTCTTTATACCCAGTATTTATATATTTTTTTATGTTGTTTAGTACATCATGTATAGTTAAAGATCTAATTTTAGTTCCTCTTGCAAATATTATTCTACAATAAGAACACGCATTTAAACACCCTTCTTCTATTGGAAGAAAAATACGCGTTCTATTACCATAAGACCTTTCTGGAACTATTACTTTGTCTTCTTTTAACCAATAAGATTTATCTAAAAAAATTCCAGTTTTATTATAATATTTTTGTATTTCTTTTTTTTCATGATTTCCTAAAATTAAGTCAGCTCCGCTTTTTAGTATAGATTCAGCATCTGTATGAACATAACATCCACCAGCAATTATTTTAGAAGAATTGTTTTTTCTTTTTATTCTTCTTATCAATTGCCTTATTTTTCTTTCTGCTTCTGATGTAACAGTACAGGTATTAATAAAATAAAAATCACTTTTCCCATCTTTTTCATCAAAACATGTAGAAAAACCCAGGTCCTCAAACACTTCAGAAATTTTTTGTGTTTCGGCCTGGTTCATTTTACAACCAAATGTAATTAATGATATTTTTTTCAAAATTAAATATTTTCTCCTTTCGCTGCTTTACTCAATAAATCTATTCTTCTTATTATTCCTACTAATCTTTCTTCTTGATCGATTACTGGAATTAATTTTAATTTATTTTTTATCATTATATCTGCAACATGCAATGCAGTATCATCCACATAAACTTTATGAGGATTTTCAATCATAAATTCACTAACTGGTTTATTTATTATATTTTTTAACCCTTTAAAAAATTGTTGACTATCTGGTATAAAAGCACTACTTTCCATTAATTGTAAATATCCTGGTAAAGATGAAGAAATAATACCACTTTCACTAAGATACCCAACTAATTTGTAATCATCATTAACTACTGGAAGTGCAGAAATACCATGTCTTTGACATATCATAATAAATCTTTTTACTGTTTCATCAGACATTATAGCAGTTAAATCTCTTTCCATTATATCAGTTGCTTTCATTGTTTTCTACCTCGCTTTAATCTAATCTTTTGATTTCAAATTTGCCTAAATCATTTTTAACTTCATCTTCATTACCTAATATTTTCCCTATATATCGTGCAGAAGAAATTGCACTAGCCATTCCATACTTAGCTGCTTCAAAATAGTTTAATTCGTTTTTTAATAAATAATATATTATTCCAGCCATAAAAGCATCACCAGTTCCTAATAGATGTGAATTGTCAATTTCTTCTTTAACAGTAAATAACCAAATTCCATCATTTGTAATTACAACATCTCCAACAATATGAAAGCTCATAATTACTAATTTTGCACCATAATTTAGTATTTCTTTTCCAGTTTCAATAAAATCTTCGATTTTTTCTAATTTGCTTCCAAGTACTCTTGAAGTTCTTTTTCTTAAATCAACTCTTACAACATCAGCACAATTTTCTCTAATTGCTTGATCAAAGTGGGGACCTATTGCTTCTAAAAATGTTCTTTTATTTTCTGATTTAGCAATTTCTAAAAGTTTAGAATAAGAATTTATTGGCACGCCAGGAGGAATGCTACCTGAAATTAAAACATTTTCAGTTAAAGATATAGTGCTTCTATATCTTTTTAAAAAATGATCATAGTCTTCTTCGGTAATAAAAGGTCCCATGGAGTTTATTTCTGTTATAGTGTTATTTAGGGTATCTAGTATTTCAATATTTTCTCTAGTGCTTTCTCTTGTATACACAAAGTTAGTTGTAATTTCATTTACACTAGATAATCCTTTTTGAATAACCTTTCCAATAAAACCACCAAGAAATCCAGTACTTATTGAATTAATTCCTAAAGTTGATAACATTAAAGAAACATTTATTCCTTTTCCTCCAGGATCCATAACTGAATTTGAAGGGTTATTTATTCTAAATAATTGATCAGTTTTAAAATTGTCAACAACAACTTCTCTATCAAGAGATGGATTCATTGTAACGGATAACAAATCATATTTCATACTAATACCTCCTGTTCTTTTTTATTAAATTATACCACAAAAAAAAGCCGCACGAGCGACTTTTTTTTAATTTATTTTTTATCTAATGCTAATTTTTCTTCATGGTTTTCATATCTTCTCATTCTTGTTTCGTAATTATACACTCCTCTTTTTGAAGGCCATTTTTCAGAATAACCTTCATCTATCCACAACTTGTCAGCGTAAACTTTCCAATCTGCAGCTAATTTATCTAATTCTGGTGCTAAGTCTGTTATAGTTCTTTCTGAACCTGGATGTTGAGGAATTGCATTAAATTTATTTACCATAGATCTAAATACTTTTGGATTATCTATAATAGGACATGGTCTAAATAAATTATCTGAATATGGTATAGTTCTTTTATATGCTTCAAAAAATGGTGATTTTAATATTTCTAATACAGTTTTATCTCTTATGTTATCAACTGCGAATTGTTGGAAAACACATGGTTCTGCAAATCCTTTTGCATTTATATGTAAATATTTTGATCCAGCTGCTAAACATCCATGAGTTAAGAAACCATGATTCCAAAAGTCAGCAACAAATGCAAACTTACCGCCAAGTCTTAATTCTTCTAACTTTCTAAATCTCTCTAATCTTTGTTCTGCTGAAGGAACTAAGTCCATAGTAGCATCTTTTCCAACAGGCATAAATTGAAATACCCAAGAAAATGCATTTCCGTTATCTTTTAAGAAGTCCCAAAATTCATCACTAATAATTAAATCATGGTTTTTACTGGTAGCAGTTACAGAAGCACCATATACAACTCCATATTTTGTAAGTAAATTCCAAGCATTTTGTATTTGTTTAAATACACCTTTTCCTCTTCTCCAATCTGTCATTTCTTCAAATCCCTCAACAGATATTGCAAGAGTTGCATTTCCTAATTCTGAAAGTCTTTTTGCTTTTTCTTCATTGATTAATGTTGAGTTTGTATAAATCATAAAGAATGAATCATCAAATTCTTCCAGCATTTCAAATAAATGTGGATAAACAAAAGGTTCTCCACCTGTTATTATAAAGAAATAAATTCCTAAATCATTGAATTGTCTTATTGTATCAAATAATTCATCTTTAGAAAGTTGATATTTGTGACCGTAAAGTGCTGAATAACATCCAACACATCTTAAATTACAAGCATAAGTTGGAGAAATTATAGCTAATTTTGGTAAAACAACTTTATGTTCGTGCATTTTTTCTTGTCTTACTTTTTCACCTATTGCAAATTCATTGATTATGAGATTATTTATTATTTTCTCAACTTGTTTTGGACTTGATTTTTTAAATAATTCAGCCCAATTAACTAACATTGGATCGTGATTTTCAGCACCTTTTGCAAGTTTTACAATACCACTTTTAGTTGGTTCTTTTGTAAATTTAGATAAGGTCCAGAATAATTTTGCAAGTTGTTCAACATCTGATTTTCTAACAACATTTGTAACTAACTTCGAAACTTGTTTCATCATCATGTTTTTCATAGAATCCATCAATGACATAATTACACCTCCAAAAAAATTAATTTATTTTTTGTATATTTTTAAAATCATTTCTTTAAAGTCATTTTCAATATCATCTTTACAAAAATTAACCCCAAGAGCTTTATATATTGCTAATCCATCAAACATTGCATGAATCAATAATGATTTTTGCCTCGAACCAAAGACAGTTTCAAAAAAATCTAATGTTTGAGAATAATATGTTGAAAAAATGTTAGTTAATTCTTCCATCATTTCCTCATCATGTATGGAACTTATTAGTATTTCAAGTATTTTCATTAAATCTTTTGATGGAAATTTATTTAATATTTCTGAATATGTATTTAAAATAAAGTCAGCTTTTTGTGGGATAGAAACATCTTTTGTTTCATAAATAAAGGTTTTTTTTAATTTTTCAACTAAAATTCCAAATGCTGATATTATTAAAGAATTCTTATTTTTATAATATAAGTATAAAGTTCCTTTTGAAACATTACATTTTTGAGCAACATCTTGCATTGTAAAGTTATTTAAACCTTTTTCTGTAATTAATTCTATGGCTTTTTCAGCTATTAATTTTTTTTTTAGTAATTTTTTTTCTTTTTTCATATTTGCCATACAATGCACCTCAATAAATTATTTTTTAATTGACTGACCGTTTAGTCATTTTTATTATACATTAATTTTATCTCATAATGCAATTATGAGTTTTTTTATCTAAAATAAATAAGTTTAGTTTTTTTTCACTTTTTTTTGTTTATAATAACAAAAAAAGATACATGATCAAAAAAGTTTATTTGTAATTAAAAATTATTATAATTGTTTCAAAAAACAATTTATTCTTTATAATTTTTTCTTTAATAAACAACTTTCTACTTTTATGGTATAATACCTTTTAGGAGGTTAATAGCATGAAATTTATACATTTTTTCAATTCATTATTTTTTACTCTAGTATTTTTTGTAGGTTTCTTATTTTATGTTGGAATATATGGTGAAATAGTTTATCTTATATACCTAATTAAGTTGAAAAAAAATAAAAAAGAGGCCTTGGAATTTTTGAAAAAAAGAGCAGTAGTTTTTAGTAAAGCAACTTTTAAATTTACAAATTGTCCAGTAAACTTAATTGGAAAAGAAAATATACCAGATAATGGTCCATATGTTATTGTTGGAAATCATCAAAGCCTTATGGATGGACCGCTTGTTATTGGATTTATTGCTCCAGTTATTTTTATTTTGAAAAAACAAAATATGAAAGTACCCTTCATTTCAAAGTTTTTTAAAGCCTTAGATTTTATTCCCGTTGATAGAGATGATCCAAGAAGTGGTGCTATTACTTTAAGAACATTTGCAAAAGAATTGAAAGTAAATAAATCTATAATTTCAGTTTTTCCAGAAGGCACACGTACAAACAATGGTGAAGTTGGAAAATTTAAAGAAGGATCTTTGAGTGTACCTTATAAATTCAATATTCAAATACTTCCAATTGTAATAGATGGAACTTTTAATATGATGAAAAAAAATAGATTATTGCTAAATCCAACTAAAATAAATTTAAAAGTATTAAAACCATTACAGCCAAAGGATTTCGAATCTGAAAAGATTTTAAGTGATTACATTAGAGATTTAATCATAAAAAACAAAAATAACTTGTGATATAATTTTATGGAGGTAAAAAAATGGATTTAATTTTAGTAAAGACAAACGAAATAGCTTTAAAAAACAAAAATAAAAAATTTTTTGAAAAACAACTCATTTACAATATAAAATCTAAACTTTCTTCAAGATATACAATTATCAAAAAGTTCAATAGAATTTATTTAAAACCAAGAGCTAATGTAATAATTGAAGAAAATGATTTTAAGCTATTAAAAAAAGTTTTTGGCATTCACGCTTTTTCACCAGTTTATAAAGTTGAAAAAAATATAGAAGATATTTTTGAAAAGGCATTGTATATTGCAAAAAAAATATCTAATAAAGATAATAAAACTTTTAAAATAATAACAAAAAGGTCTGACAAAAAATTTTATCTTGAAAGCCAAGAAATATCTGCAAAAACAGGAGAATTTATTTTAAATAACTTACCCAACCTAAAGGTTAAAATGAAAAACTATGATTTTTCAATAAATATTGAAGTACGTGATGAAGGTGCTTTTTTATATTCAGAAAGTATTACTGCTTATGGCGGATTACCTGTTGGAGTTTCTTCTAAAGGTAGTTTATTGTTGTCTGGAGGTATAGATAGTCCAGTTGCAGCAATGCTAATGTTAAAAAGAGGAATGGTTTTAAATGCAATTAACTTTATGAGTCCTCCTTATACTGGTAAAAAATCATTAGATAAAATTATTAAAATTGCTTCAAAAATTTCGGAATATTCAATAATGCCTTTTTATCTTTACTCAATACCTTTTACAAAAGTACAGCTTGCAATAAAAGATTCAAATGCTGAAAGATATTCTATAATTTTACAAAGAAGATCTATGATGAGAATTGCTTCAAAAATTTCACAAATTACTGATACAAAAGTTTTAATAACTGGAGAAAGTTTAGGTCAAGTAGCTTCTCAAACAGTTGAGAATGCATTATCAATTTCTGATGCTTCTAAAAGATTAATTTTTAGACCGTTAATCGGATTTGATAAAGAAGAAACTATACAACTTTCCAAAAAATATGATTTATATAATTTATCTATATTACCTTATGAAGATTCTTGTACAGTTTTTGTTCCTACAAGACCAGCAACAAAATCAAAGATTGATATTTTAAGGAATTTAGAAGAAAAAATTCCAAATCTCGAAGAATTAGAAAAAGAAGTAATTAATTCTTCAGAAAAATTTGAGTTTATAGATGGTGAATTAAAAAAGATAGAAGATTTTGTTAAAATAAAAGGTGGAGTATTTTAAGGATTTTATCTTTTCTTCAGAGGAGGATTAAATGGAGAATTTTAAAAAGGAATTTAATAATTATATAAAATTATACTTTGAAAATAATAATATTGAAAATAAATACTTTAGAGAAAGTTTATTTTATAGTATGATTAATGGTGGCAAAAGATTACGCCCATGGATAATTAATGAAATAGGAAAATTTTTAGATATAGATAAAAATATTCTTTTAGATATAGGATTAGCTGTTGAAATCTTACATACTTCTTCTTTAATACATGACGATTTACCTTCTATAGATAATTCTAATTTAAGAAGAGGAAAGTTATCAAACCATATGAGATTTGATGTTCATACTGCTATACTTTCTGGTGATTATGGATTTATTGTCCCAAATAAAATAATTTTAAACTTACCAATAGAAGATAATTTAAAGATAAAAGTTTTAGATATGTTTTTGTCAACATCTTTAAAACTTTTTAGTGGTGAAATGAATGATGTTGCATTTGAAAAATATTCTTTAAATCCAACTTTAGATGAGATTATTAAAATGTATGAATATAAAACAGGAGTAATGTTTGGTTTTAGTTTTGCTGCTCCCTTTTTAATTGTCAATGATTCAAAAAAAGCTAAGAAATTTTATGAAGTTGGAGTTAAATTTGGATTGGCATTTCAACTTTTTGATGATTTGAAAGATTTAAAAGGAAATTCAAAAATTCTTGGAAAAGATGTAAATAAAGATATAAATAAATTAACAGCATTAAAACTTTTGGGAGTTACTAAAACAGAAGAAAAATCTAATGAATTTTTTAATTCTTGTATTAAAACTTTAAATGAGTATAAAATGAATAATTTTTCTGAAAAATTAATAAGTTTAAAAAAATTAATACAAGAAAGATAGGTGATAATTATGAGTCCAAAAAAAGAAAAAAAAATAAAAAAATCAAAAAAGGATAAAAAAGAAAATTTAGATAAAAAAAAGAAATTATCTTTTGACTTTATAAAAAAAATAAAACTTTATTTAAACAGATTAAAATTTAAATTAACAAGAAAAAATATAATTATAATGTCAATTGGTTTAATTTTTGTTATTGGGTTAATAATAGGTATAAATTATTTAAATTCAATGGTAAAACAAAAAGAACAAGCACACCAAAAAATACTTTCACAAGATTTGAAGGTTATCATACCAGATGGTGCTTTTCCTTCAAAAAAAACTTTTGATATTGTAGAACTTTCAAAAGATTCCATCGAATATCAAAATTTAGTTTCTATGGCAAATTTTACTGGAAAAATTTATTATGTAAAACCATCTGATGGTAAAGAAGAATCTTCATTGAAACCTATAATAGTTCGTTATAAAATTCCAAAAAAACTATATTTTGGGGATAATTATACAAATTTTTCATTGGCTTATGCTAACGATGATGATCCACCTATAATATCTGAATTTTCAGGATGTAGAATAGTGAAAGATGGAAATGATTATTATATTGAAGCTGAAACATTTCACTTATCTAAGATTGGATTAATTCAAAAATCTCCAAAAGAAGCTTCTTATGGATTAAGGACATTAGTTGAAAAACCACCTTCAATAAAAAATGATATAATTTTAGTGGGTGGATCTGATCTAAATTTTTCTGGATATTTATCTAACACAAAAACCGCTACAGATCCCTATGGTAAAAATCTTTGGAGTGTTTTATTTCCAGATAGAACTATATGGAAATATAATTATCCAATGGTTGAAACAAAGAGTAAGCTTTATTATGATTCTTTTTTAGCTTTTTTAATGAGAACAGGTCAAAATAGTTATATAGAATTTGAAGCAAAAAGATTGGCGCAAGAATTAAAACGTCTTCCTAATAGAACATTTGATATAATAGCTCATGGTGTAGGCGGATTAATTGCTAGAATGGCTATTGAATCTGATCCAGATATTAAAAATGTTCAAAATATTGTATTAATTTCTACTCCAAATAAAGGAACTAATATAGCAAACCCTTTGTTTTTTAATGTACTTTATGGAAAAAATATATCAGATTTAAGTAAAACATTTGGAATAAATGAAAGAACAATGGTATCAATTGAACATAATGTAAATTTTTATATTGAACAAATAAATAGTTATTATAAAGAAATAATGCCTAATTCATATGTTTTGAAAAAATTAGATTCTTTTGGATTAAGAAAAGATATACACTATATGGCTATTGCCGGTAGTGTTACAGGATTAAATGAAAGTATAAAAGGATCTATTTTAGAAAGATTTTATCCAGAATTTTTACATGGAGATGGAATAGTTACAATAGATAGTGCATTGAATGACAAATTTGAAAAAAATCTATTATTCAAAAAAAGTTTTTTTGAAATTTATACCGATCCTAAAATTTTAGATTCCATAAAATTATTTTTGAATTCAAAAGTAGATAAGATAGTTATAAAGCCTTTTGAAAATGATAATTTCATTGAAACTTATAAAGAAAAAGAATTAGCAGAAAAAAAAGAGTTGGCTAAATCTTATAATTTTTTTAAGGTTCCTAACTCTTATTCGGAAAAAACATTTATATTAAAAAATAATGACTATGGAGTCCTAAAAGAAGATTATATAAAAATACAAAAATTAAAAAATAAGCTTTTCCTTGAAACGCCTAATGGTGTATACAATGACAAATTTGAAAAAATTTTAAATGTTAAAGTGCTTGGTGGAATAATTTACAATGGAAGATATTTTATTTCTGCACCGGATGGAATTTATGCAACAGATGAAACTGGTGGAGTTTTTGTAAAAGTATCAAATTCATTAATTACTTCAAATGAAGCATATTATCTTCCTAATAATGGGTTAATAACAGTATTTAATGAAGATATGTATTCTTCTGTTTACTTAGATAATTCTTTGATATCTAACAAATTTTTATTTAAAAAAATAAAAATTATAGACAAAGATGTATATTTTGTTTTTAACAATAAAATTTCAATTATTAATAATGGAAAGCTTTTAACAGTTTTAAATAAGGAGGATTTAATAAACAAAGGATTAAACAATTTTGGAGACTTTATTGACTTTGTACCCTATAAAAAACAATTATTTATTTTAACTTCTGATTATAAATTAATAATGTATGACACAGAATACTTTAAAACTCAAATTATAGGTAATCAAGATATAGGACGTCTTTCTTTATTTTTAAATAATGATACTTTATTAGTTTTTGGAAAAACAACATTAACAAAGATAAATTTAAAAGATAGAATTTTTAATGGTGATTATCAAAAATTTAAGAATGAAATTGAAGATGTATACTTTGATAATAAAACTTTTTATTTTATAACTAAAACATTGAGAGGTAATTTATTGTGGGATGGAAAAATAAATTAGTATTATTTTTAATCATTATTTTATTTGTAATTTCATTTGGAAATTATCAGACCGCCTATAACTATTATTTATCTGGAATAAAAGCTTATAGAGCAGGCTCTTATAAGATGTCTGAAACGCTTTTAGAAAAAGCGTTGTCAATTTCTTCTAAAATAGAACAAGATATTCCAGAAATAAAATTATATATTGGAATAGATGCTTTTCATAATGAAGAATATGAAAAAGCAAAGATATACTTATCACAATTTCCAGATAATGCTTTAGCATTAGAAATTTTAAAAAATATAAAAGAAAATAATTTAACTGAAAAATTAAATTTTGATTCTTTTAAATTAGATAAATCTCAACCAACCCCACAGAGTACAGATACAAAAAAAGAAAAATTTAATTTTGTAAGTTTTATAATGATTACTTTAATAGTATTTCTTTTATCAGCACTCTCAGGTTTTTTAGTTTTTTTTGTAATAAAAAAATTTGGATTTATGAATTCAACAGTTGAAGTATTATCTAACAATGAAAATGAAGATAATAACTTTCAAAATATTAAAAATATTTCAATTGAAGAAGTTATAAATTTAAAACTTGATAATGTTGAAAATATATGGAATAAATCTAAGGCTTTAAAAAAATTATTGAATGAAGTTGAAGGAAATCCACAACAAAATCTTGAAAATGACGAAGATATAGAAAATATGGATAAAAATATTTCTCAAAATTTAGAAGAAACAACTAATACAAAAGAATTATCTTCTAAGATAGATGAAAGTTTAAAAGATGCTAATATTGATGAACTTGAAAATTTGTTAGATGAACTTGAAGGAAATATTGAAAACAAAGAAGAAGTTCCAGAAATAGATAATTCTACAGATTTATTATCAGAAAATGTAGAAGAAGATGATGATGAAGAAAGAGAAAAATTTTTGAAAGAAAAACAAGAAGTTGAAGAAAAATTAAAAACAGTAGAAACTGCTATTGAACCAGATAAAACAATGAAGAAAAATTATGAAAGCTTCTTAAAAGAAGAAACTTCTGAATTTGAAAAAGAAGCTTATTTAGCAAATGGATTTAATTCAATAGTTGAAGATATAGAAAAAGATAATACAAATAATGGTTCAAAAGTTTATTCAAAAATTCAACTTGAAAAGATGTTTAAAACATTATTTTTTGAATTAAATAATGAAGAAAATATTTTATAAAATATTAATGGAGGTGTGAATTATATTTAAAGATAAGTTTTACTTTAAAATATTTATAACTATTATTTCAATTTTTTTATTTATTTCAATATTTATTCTTCCAAAAAGTTTTTCTGGAGAATGGTATTTTAATCCAATTTTATTTAAATTTGGAGTTTTAGAAACAAGGTGGTATGGTTTATTAATTGCCATTGCAGTTATGCTTGCAGTATCTATTGCAGAAAAGCAAGCTAAAAAAGAAAAAATTTTAGAAAATGATTTTTTTGGAGCTATTATTTTTGGAATTATTTTTGGAATTATTGGTGCAAGACTTTATTATGTTACTTTTAATTGGAATTATTTTTCTCAATATCCAACTGAAATAATAAAAACTTGGCATGGTGGTATGGCTATTCATGGTGGCGTTTTGGGATCTATTTTAGCTGCTTATATATATACAAAACGAAAAAAATGTTCTATGAAATTTTTACAATCATTAGATCTTTTTACATTTGTGCTTCCGCTTGCTCAAGCAATTGGAAGATGGGGAAACTTTATGAATCATGAAGCTTATGGTGGACCAACTGAGTTGCCTTGGAAGATGTTTATTGCATTAAAAGATAGAATGCCTGGATATGAATCTTACTCTTACTTTCATCCAACATTTTTATATGAATCTATTTTAGACTTATCTATATTTTTGTTTTTATTGTATTATATTAGGAATAAAAGAAATAGTTTTGGTGAAGTAACTGCTCTTTATTTAATTTTATATTCAATAGGAAGAGGTTTTATAGAAACTTTAAGAACTGATAGTTTAATGATATTTGGAATGAAAACTGCTGTTTTAATAAGTTTTATACTTTCAATAATTGGAATTGTTATGTTTATATATATAAAAAAAAAGGAGAATAAAAAATGAATATTGCACTTGTACAATATAAATCAAAAAAAGATTTTTATGAAAATAATGTTACATTAGAAAATTTTATAGATATATTAAGTGATATGAATATTCAAATATTAATTTTGTCTGGAAATTTTTCGGGAAATATAAACAAAGAAGAGTTTGAAGACTTAAAAGAAGTTTTATCTGCTATTTCAGAGTATAATGATATAACAATAATCGGTACAATAAAATTAAATGGGACATTAAAAACATTGATACAAGTACCTTACAATGAATTAACTGTTTTAGAAAAAACTAATTATGAATTAACTATGAATAAAAAAGTATTGAATATAATAAATCCCAACATAAAAATTGATGAACATATAAAAGAAGATAAAATAAACATAATATCAACAGTAATTTTAAATGAAGAGTTTAATAATACAATTATAGCTTTACCAGAAAATAGTAAAATAAATATAAATAATTCTCAAAAAACAGGTGGAAATCTTGAAGGATATATTGTTTTTAAAGTTTAGATTATTATTTATTATAATATTTATACTAATTTTTTTTCCAATTACTATTATTGTTTCAGATAAAGATAGCATTAAATTATATTCTACAGGTATAAACTTAATTGTGTTAAATACAAAAGATACTTTTAAGAGCAATACGTTCTTTTTTTATAAAAAAATACCTTATTTTAATTATGCAATTATAAACTTTAAAAATTCATTTTTAAGATTTTCAAATGAAAAATTTTTAATTCAAAAACAATCTAAATATAATTCTGCATATGTCTATTTTAATAAAAAATTTTATAAATATAAAAATTTTTATTCAGATAAAAAATGGATATTAAGTACCGTTGATAGTATATCTAATATTTTAAAAAAACTTTCTATTCCAACACAAAATTTGTTTTTTGTGTATACTGAAAACAGGTCATTTCATATAAATCCTAATGTTATGTTTGTAAATTCTAAAAAAGATATCGCTCATGAATATTCACATTATTATTTTGGCAATTTAATAGAACATAGTTCAAAAGATACTTGGCATGAAATACTATGTGAAACAAATTCTCTATTATACTTAAAAAGAAATAATATGGAAGAGTATTTGAATGAAGCTAATTTAAAAACTATTGGATATTACAAATTTCCATATGGGAAAAATATTTTAGAATTTATAAAACGTTTTAATTATAACTTTGATAAAATTATTGACTTTGAAAGTTTTTTAACAAAAAATTTTAAAAAGTTAAATGATAAAAAATTTAATTCCATACTTAAAAAGGAGGAATTCAAATGAAATTAACTTATTTAGGTCATTCTGTACTTTTAATAGAAGGGAGTATAAATGCTATTATAGATCCTTTTATTACAGGAAATCCTCAATGCACTGTATCTTTAGATTCAATAAAAAAGCTTGATTATATATTTGTAACTCACGGTCATGGAGATCATTTTGGAGATACAATTGAACTTGCAAAAAAAACGGGAGCTACTGTGGTATGTAATTATGAAATTGGATTATATTTACAAATGAATGGAGTTGAAAATATCCATTCAATGCATATTGGAGGATCAAAATCATTTGAATTTGGTAGTGTAAAATTAATTAATGCACTTCATGGTTCTTCAATATTTGATGGAAAAAATATTATTTATGCTGGAAATCCTTGTGGTTTTTTACTTGAAATAGATAATAAAAAAATATATCATGCAGGTGATACAGGATTAACTTTAGATATGAAATTATTAGAAAAATATTCAATTGATGTTGCTTTTCTTCCAATTGGAGGTAATTATGTAATGGATATTGAAGATGCAGCTACAGCTGCTTTTTTTATAAAACCAAAGTTAGTTGTCCCAATTCATTATAATACGTGGTCAATAATAAATGCAGATGCTAATCTTTTTAAATCAAAAGTAGAATCTTTAAAAATTAACTGTAAGATAATGTCCCCTTCTACATATATGGAAGTGTGATATAATGAAAAAAATACCTATACTACTTTTAATATTATTTTTGTATTCAAATGTTTTTTCATATAAATATATTTTTTTGTTTATTGCCGATGGGCTGGGAACAAATCATATTAATTTAGCAAATATTTATTCTGAATATAAATATAAAAAAACATTAAATATGGAAAAATTAAATAATTTATCTTTAATGACATCTTATAATAAAGTAATGGATACATCGGCTGTTATGACTTCTATAATGAGTTTTAATCAAACAAATAATGGAAATATAAATATTGATTATAATGGAAATAATATATTCCCAATAACTTATTATTTGAAAGATTCTGGATATAAAATAGCTTTGATAACTACAAAAAAATTAACTTCTGCTTCTCCAGCTAGTGCATATGCACACTCTACATTTAATAATAACAAAAATATTTCTAATCAATTATTAAATAGTAATATAGATTTATTAATTGGTGGTGGAAGAGTCGATCTTCCAAATTCAATAAATAATTTTGAATATAAACTACACATTCCAAATACTCCTTCTTTAAAACCAGAATTAATAGTTACTTCTTACTCAGATATGCCATATTTTATTGATAAAAGAAAATCTATGAACGTTATGCTAAATTATGCATTAAAAAAATTTAACAATAATAAATTTTTTATTTTAATAGATTCTTCTAAAATAGCAAATGCTTCAATAGCACATGATACTTATGCAATGATAAATGAATTAATAGATTTTGACAATTCAATAAGTTCCGCTATAGAGTTTTCAAAAAAACATATAAAAGATACCTTAATTATTGTTTGTGGTAGCCATGAAGCTGGTGGATTGAGTTTAGGCGATGGTTTTATAAATATAAAAAACATTGATATTCAAAAGTATTCTTATGAAAAGATATATAAAATAATGAAAGATTCTAAAAATTTTTATGAATTTTCAAAAAAATTCTCTTTTCCAATAGATTTAAAGAAGGAATATGATTTATCTAAAAATTCTACTACTTATTTAAATCCATTAACAAAAAAAGTTTTAAATTATGTAAATAAAATTTCTGGAATTAAATGGAGTACTTATGGATATACTGTTAATTATGTTCCTGTTTTTTCTAATTATAATTATAAAAATATAATAAAAAGTACAGAATTACTTTGGATTTTATATTCATTTTAATTTAATTAAGAAAAAAATTCAAGAATATGAAATTTTTTTCATTAACTGCAAATATTCTGTAATTTTTTTCATTAACCAGATGTAAAAGAGATATTTCATATTTTGAAAAAAAAATTAACTATTGTATAATGGCTTTGCAGGTCATCCAAAGAAGGTACCCTCCCTCCTAAAGTGATCTGTCCCCGGAAATTTTTACAGATTTGAGATATCAAATTTGTTTAAAAAAGCCCTTATGGGCTTTTTTTTATTGTATTTTTTTAATAAATATGGTAATATATTCAAGGAAAGAATTTTTTATGTGGGGTGATTCTATTGAGTTTAAAAAAAGATATTAAACTTCCTTATGATATAGGGTTAATATTAAGCTTTTTAATTGTTTTGCCATTTTTTATAATACCTAAGTGGGTTTATGAATTTTCAACTCAAAAACATATGTTTTTTGCTTTGTTTTTTACAGCATTATTTATTTCGTATTTATTTACAAAAAGAAATAAAGTAATAAATATTGAATATACACCAGTTCATATTTTTTTCAGTTTTTTTGGTATATCTACCCTTTTATCTTTAATATCTGTTGCTATTGAAAATCCTATATATTTAAGGGTTTCAGTAGAAACATCTCTATATACTATATTAATAATTTCAGTTTCTTTTCTTATAACTAAAAAATTTGGAGAAAAATTTAAGTATATTGAATATGCCCTCTTTGCTTTGTTGATAACTGGTACAATTATTGCAATAGATGGATTATTAAATAAATTATTTGGATTTGATATATTTTTTGGTAAAATAGGAGATCCAAATGCAAGAATTGCTTTAAGAACAACTATTGGAAATCCTAACTTTGTTTCTGATTATCTTGCTCAACTTTTACCGATAGCAGTTTATTTTACATTAAAAAAAGATTCTAATTTATTTATAAGATTTTATGGATTATTTAATATCTTTATAATGTATTGGGTTATACTATTTGCTCAAACAAGATCTGTATATATGGGATTATTTGCTGGTATGATTGTTGCTCTTGTGTCTGTTTTAATTTCGTATAAAAATCAAGAATCTAAAGAGTATTTAAAATCAAAAAAATTTATTTATTATTTTATAACAATAATAATTATTTTTATATTTCTTTTTGGAATGTTTAACATAAAATCACCTTTTAATAAAAGTGGAGAAGTTAATGCTTCAAGTAGATTTGTTGCAATGGCAAATGGTTCTTCTTGGGATGAAAGAACTTTGTCTTGGATGGCTGCAATAAAACAATTTCAAGATAAAAATCATCCTCAACATATTATAATAGGTGGAGGTATTGATACATATCCTGTATATGCCCTTTATTACATGAAAGATGTACAAAAAGAAAATCCAGAAAGATTTTTATATGCTTGGAATAATTTTAAAAGGGCACACAATGATTATTTACAAGTTTTAGGTGAAACTGGATTAATAGGTTTTTTTAGTATTTTAGGTATAATAATTTCACTTTTATTTATATTTTTCAAGTCAATAAAACAAGAAAAAAACTTTAATAAAATGCTCTTATTTTCATTATTTGCATGGATAGCTACTATAACAATAGTACATTCTGCAACTGAATTTCCAATGCATATGCATCCAAATATTATGGTAACACTTTTCGTATTATCAGTAGCTGTTTCAAAACAATTTAATACTATAAAAATCAAAAAAATTAATACACTGTATGTTTTGATACCTATTATTTTAATTGGTATAGTAGTTTCTTACTTAAAAGTTTTATCAACAGCATCTGAAGTATACTTTAAGTATGGAAATAATGAATACAGTAAATTAGATCAATATTATGAAATATCAAATACTAAAATTCCACAAGTTTTAAATAATATAAATGCTCAAATAAATACTTATAAAAATCAATTAAAAAATTATTCACCATTTTCTGAACAGTTTAAAAAAATAAATGAAGCCATAAGTTCTTTAGAAAGTAGAAAAAATACTTTAAAAAGAGAACAAATAAATTATTTTAATAATGCAAAGAACTCTTATTTGAAGTCTAAAGAATACTTTTTAAAATCGCTTGATATGAATCCTGCTTTTGGGAAATCTGCTTTTTATTTAGCTCAATTTTTTACAAAGTATCCATTTAGATATGAAGAAGTGAACTATAATTCATTACCAGATATTTTTGAATTAAAAAGACCAGAATATAGATATATTATAAATGAATTTAAAGGTTCAATTGATTTAATGCCGTTCACTTCAAATAAATTACGCGATACAGTAAAAGATATTTATAATTTAGCTTATAATGAAGAAACTAAAAATATAATACTTTCTATTCAAACAACTTTAGATGAAATAGATGAACTTGAGTATGCTTATACTTCTTTTAATGAAAAAAATGCTTACAGACTAATTTCTAAGTATCATTTAGTTATAATAGAAAAATTGAATATTTTAAAGTCTAAAGTTAAAGATTCTAAAAAAATAGATATTTTATTGGATAATGAATTAAAAGAATTTTTTCATTGGTATGATGAAGCTATAAAATTATTACCTGGTGCATGGAATAGATTTCCAGAATGGGAGAATATATATTCTGAATATATAAAACTAAATATGATACTTTTAAATTCTAGAATTTATAACCAAAGTATTTTATACAATAAAATACTTGAAATAACAAAACAAGATGGCATGGCCAATTATTATATGGCTCTTAAATTTAGAGGAATTCCAGACGTTTCATTAGAATTATTAGATAGTCTTTATTTAGCTTCAAGTACTGAGTATAAAGATAAACTTATTAATGCAATAATAAATAATTATAAAGATGTTTATAATTATTATTTAGATCAAAAAAATAAAAATTCTAACTTATACATTAATTATAAACAAAGAATAGATAAGTTTATAGTAACATATTCTCATTATTTAAATAAGAGATGAATTTGATTGTATAAGATAACAACATTTTTATTGATACTTTCAATTAGTATTTTTTTAATTACGTTTATTTGTTACTATAAAATAACAAGAGTATCCAATAATTCTTTGGAAAAATATTATATAAATTTAATGTCTGTAAATAAAGCTAAAAAATTTATAAAAAAAGGTGATTTAGAACAAATAAAAATTAATGGATATATCATAAAGTTAGACAATGAAAAGATTGTAGTAAAGAAGGAGGATTAAAATGCCCAAAAGAGCAATTTTAATAGATAGTGGATGTGCCGTAACTGATGAAATTTTAAAAAAATATAATGCTGAATTAATTGGTATGAATGTTGTACTTGATGAAAAGACTTTTATTGATGGAATTACTATAACAAAAGATGAATATTATTCTAAAATATTTGATGTTAATGAATTTCATACATCTCAACCATCAATAGGATCAATTGTTAAAATATATCAAGATTTAAAAGATAAAGGATTTGATGAAATAGTTGATATACATTTTTCTTCTAAAATGTCTGGATTAATTAATACTTGTGAAATGGCTAGAAATATGGTTGAAGATATAAAAATTCATATTATAGATACAGAAAGTATATCTATAGGCGCTTATTTAATTGCAGAAAAAATTATGGAATTACTTCAAACAAAATCTTTTGAGGAAGTAGAAAAATTATTACCTGAAATAAAAAAATCATCATATATGCAATTTTCTGTACCAACTTTAAAATATTTAATAAAGAATGGGCGTATAGGTAAGGCTCAAGGACTTGCTGGAACAATTTTAAATATAAAACCTATACTTGGAGTTGAAGATGGATTTATAGCTCCTATAGCTAAGATTAGAGGAATGAATAAAGTTTATTTAACTATGAAAAATAATGCCATAAAATTTATTAAAGATAGACCAAATAATGTAAAGATATATATAATACATAGTTTGGAAAAAAATAAAGAACAAATGCTAAAGGCGTATAATTTATTTATGGAAGATTTTTCAAAACTTGGAATCAAAGATTACAGAGTTATAGAAGGAAGAATCTCTCCAACAGTAGCTTCTCATAGTGGACCTGAAGTATTTGGACTTGCGGTATATGGAGAAAAAGAGCCAATAAAATGATGCACATAGAGGAAATTTTAAATGAATATGAATATATTTTAGATTTAAAAGAAAAGAATATTAAAAAGTGGGAAGAAATTTTTCCTGCTTTTTATTCTATTTCTAAAATTAATACTAAAACATTAAAAGACAATAATATGCTTGAAGATATAAAAAAATTATTAGGTTATGTAAAACCATTAGCTGTATTACCAGAAGAAAGAAAGATTAAAAGATTTAAAGAATTAAAAACTGCATTAAACAAGTTAAAGAATAAATATTTAATAGATTCTTTTGAAAAACCAGAAAAAAAAATAAATTTGTTTACTGACATAAAATTTTTAAAACATGTTGGAGAAAAAAGAGCAAATTCTTTGAGAAATATTGGATTATCTAATTTATATACTACTTTTTTTTATTTGCCAAGAGATTATGAGGATAGGAGAAAAATAAAAAAGATAATAAATACAAAAGATGGAGAATTTTCTTTAATTTCTGGTAAAATAGTAAATTTTGAAGAATTAAGAATAAATAAAGGATTAACAATAATAAACTATTCTGTAGAAGATAGCACAGGTGTAATTATATTGAGTTTTTTTAATCAAAAATTTGTTAAAGATAAATTAAAAAGAGGATTAGAGTTTGCTTTTTATGGTAAGGTTGAATATTCTTATGGAAGACGTCAAATGAAATCACCTGAATTTTTTGAAATATCAAGTTTAAAAAAAGAAATTTTACCAATTTACCCCCTTACTAATGGTATTTCTCAACAAGTAATTAGAAAAATATTCAAACAAACTATTCCACAAGTTTATTATTATGAAGAATATATACCAAAACCTTTAATAGAAAAATATTCAATTTTAAATATAAACGAACGCATAAAAGGCATACATTTTCCAAAGAGTTTTTATCATAAAAAATTAGCTTATGAATCAATGAAATATGAAGAAATAATATTATTTGAGAGTGCTTTGCTTTTATCAAAAAAAAGTTCTAAACAAAAAAAGTTTGGAATATCAAAAAAAATAAGTGGAGAATTATTAAAAAAATACTTAAAAATTCTTCCTTTTAAACCTACAGAAGCTCAAATAAGGTCCCATAATGAAATAAGAAAAGATCTTATTTCAAAATCTCCTATGAATAGAATGCTTCAAGGAGACGTTGGGTCTGGTAAAACCGTTGTTTCAGAATTTGCAATAATAGATAATTTTGAAGCTGGATATCAATCTGCAATGATGGTTCCAACGTCAGTTTTAGCTAAACAACAATTTTTAAAAATACAAAAAAATTTAAAAAATATAGGAATAAATGTTGCTCTTTTATTGGGAGAAACTAAAAATAAGGAAAAGAAAGAAATAAAAGAAAAATTAGCTAATGGAAAAATTGATTTAATAATTGGAACGCACGCATTAATACAAGACGATGTCGTTTTTTCTAAATTAGGACTTATAATAATAGATGAACAACACAGATTTGGTGTGAATCAGCGTTTAAAATTAATAAATAAAGGAATATCACCAGATATTCTTGTAATGACAGCTACACCCATACCACGAACATTAGCTTTAACCATATATGGAGATTTAGATATAAGTATAATTGATCAAATGCCTAAAGGAAGGAAAAAAGTAAAGACAGTATTATCAACAGATTCTAATTTAAAAAATATATATAGATTTATACATCAAGAAATAGATCAAGGAAATCAGGCTTTTTTCATTTATCCATTGGTAGAAGAATCTGAAGTATTAGATTTAAAAGCAGCAAAAGATATGTATGAAAAATTAAAATTAGAATTTAATAATGTAGCACTTTTACATGGGAAAATGAAATCAGAAGAAAAAAATAATATTATGGAAAAATTTTCTTCTAAAGAAATTTCTATTTTAGTATCAACAACTGTTGTAGAAGTTGGTGTTGATATACCAGATGCTACGGTAATAGTTATTGAACATGCAGACAGATTCGGATTATCTCAACTTCATCAACTTCGTGGACGTGTTGGAAGAAGCAAAAAACAATCTTATTGTTTTTTAATAACAGGAAATAATATTCCAGAAACAACAAAAAATAAATTATTTGAATTTTCAAATACATTTGATGGATTTAAAGTTTCTGAAATAGATTTGTCTTGGAGAGGACCAGGAAAATTTTTTGGAACACAACAACATGGTATCCATGAATTTAAATTTACTGATATAGTTGAAGATATGTTATTACTTGATAAAATACGAAAAGAATTAGAATCGAATCAAGAAAGTTATTTTGATGAAAAATTAAAAAAAGAAATTTTAAAAAGATATGGAAAGAAATTAAACTTAATAAATGCAATATGAGGTGATTAAATTGGCTCTTAAAATCGAAACAGGAACAATGAGAGGACAAACATATGAAACAGTTAATGATAAAAGAACACGATACACACCAGGAAAATTAAAACAAATTTTAATGAATATTTTTGATTTTCAAGAAGTTAACTTATTAGAAGTTTTTGGGGGAAGTGGCGGATTTTCTTTTGAAGCTATTAGTAATGGAGCTTCTTCTTCAACTATAATAGAAGTTAATTCAAAAACCGTTTCATCAATAATTAAAAACTTAAATAAACTAAAAATTTCAAATAAAGTTCAAGTTATAAAAAATGATTTTAGAAAGGCAATTCCAAAATTAAAAAATAGTGAAAAAAAATTTAATATAGTTTTTGCTGATCCACCATTTAATTTGGGTTTTTGTAATGATTTTTTAGAAATATTAGATAAAAATCATGAAATAATAATTTCTGGTGGATATATTATATTAGAAAGATCAAAAAGAGAAAATTATAATTTAAATTTGAAAAACTTTGTTTTAGATGAAAGCAGAAATTATGGTGAAATTACTCTTGATATATTTAAAAAAATAAAATAAAATAATCCTCATAAAGTAATATACTTTATGAGGATTATTTTATTTTAAAAAGATTTAAATATAACAAAAAATAATTATTTGACAAATAAAAAAAAATATTATATAATATACATGAATATATGTTCACATATGATATATATAGGAGGTGAATTTTATGGAAGAAAAATGTTGTCTAAGTGATACACCTGAAATGATTAATAAAATAAGAGAAAGTTTGCCAAATGAAGAAATATTATTTGATTTATCTGATCTTTTTAAAATATTTGGAGATAGTACAAGAATTAAAATTATTAGTTTACTTTTTAAAGGTGAATTTTGTGTGCAAGTTATATCTAAAATTTTAGAAATTTCTCGTTCAGCAATATCTCATCAGTTGAGAATTTTGAGACAATCTAAGCTTGTTAAATATAGAAAGGAAGGAAAAATTGTATTTTATTCTCTCAATGATGAGCATATAAAAAACATATTTAATATAGGATTAGAACACATTCAAGAGTAAGGAGGTGAATTTTATGGAAAAACAAAAAATAAAATTAGAAGGATTAGATTGTGCCAATTGTGCTTCAAAGATAGAAAAACAAATAAAAGAATTAGCTGATGTGAAATCAGTAAACTTAAATTTTATAACTAAAATAATTACGATTGAATCAAAAAATGATAAATTTGAAGACGTAGAAAGTATAGTAAAAAAATTAGAACCTCATGTAAATTTATATAAAGAAGAAGAAAAAGAAGAAAAAAAAAATGAAATTAGAAATGAAACTATAAGATTTTCCATAGCTTTAATCTTTTTTATAAGTGGCTGGTTTTTTACAACTCAAAATATTTCAATATATTTATTTTTAATATCTTATGTTATATCTGGATATAAAGTAATATGGAAATCAATAAAAAATATTTTAAATAAGAATTTTTTTGATGAAAATTTTTTAATGAGTATAGCTACAATAGGAGCTATTTCAATTAAAGAATTTCCAGAAGCTACTGGAGTTATGATATTTTATGAAATTGGTGAATTATTTCAGTCAATAGCTATAAATAAATCAAGAAAGTCTATTACATCATTGATGGATATAAGACCGGATTTTGCAAATAAATTTGATGGAGAAAAAACAAAAATAATTAATCCAGAAGAATTAAAAATAGGAGATATTATTTTAGTAAAACCAGGAGAAAAAGTTCCTGTAGATGGTATTATTTTTGAAGGTAAAACAAAAGTTAATACGTTAGCTTTAACAGGTGAATCCATTCCAAAATCATTAAAAGAAAATGATGAAATTTTAAGTGGCTACATAAATGAAAGCAATACAATAAAAGTAAAAGTAAGTAAACTTTTTTCTGATTCTACAGTATCAAAAATATTGGAAATGGTAGAAAATGCGTCTTCTAAAAAAGCACAAACAGAAAAATTTATTACTAAATTTGCAAAATATTATACTCCCATAGTAGTATTTTCAGCAATAGTAATAGCATTTATAACACCTATCTTTTTAGGTAATTTTAATGACTGGTTCTATAGAGGATTATTATTTTTAGTTATATCCTGTCCATGTGCCTTAGTAGTATCTATTCCTTTGGGATATTTTGCAGGTATTGGAGCTTTATCTAAAAATGGAGTATTGGTAAAAGGTGGTAATTATATAGAAGCATTAAAAAATTTAACTAAAGTAGTATTTGATAAAACAGGTACTTTAACTCATGGTGTTTTTGAAGTTAGCAAAGTCGTGGCATTTAATGTAAAAGAAAAAAATATAATAAAATTTGCAGCTTATGCAGAAGAATATTCAAATCATCCTATAGCAAAATCAATTAAAACTTATTATAAAAATAAAATAAATATAAATTTAATTAGTTCACATGAAGAAATTCCAGGACATGGAGTAAAAGCTAATATAGATGGTTTTGAAATATTTGTGGGTAATGAAAAATTAATGAAAAAATTTAATATTAAATATGATAAAATAAGTGAATTTGGAACAGTTATTCACGTTGCTATTAATAATAAATATTCAGGTTATATAGTAATTGCAGATAAAATAAAGAATGAATCAAAAGAAACTATTGCAAAATTAAAAAAATTAAGTATAAAAACAATTATGCTCACTGGAGATAATGAAAAAGTGGCAAAATATGTTGCTAATGAATTAGGAATAGATTATTATTATTCGGAATTACTACCTAATGATAAAGTAATAAAATTAGAAAATGAATTAAACTTTACAAATACTGTTGCATTTGTAGGTGATGGTATTAATGATGCACCTGTTTTAACCAGAGCAGATGTTGGAATTTCAATGGGTGGATTAGGTTCAGATGCAGCTATTGAAGCAAGTGATGTAGTAATAATGGATGATAAAATAGATAAAATAATAACTTCTATTAAAATTTCAAAAAGAACATCAAAAATAATTTGGCAAAATATAATTTTTGTATTGTTAATAAAAATAGTTTTTTTAGTGTTAGGTGCCTTAGGCATAGCAACTATGTGGGAAGCTATATTTGCTGATGTTGGTGTAGCTTTACTTGCAATTTTAAATGCAATGAGAATTAATAAAAAAGAAGTAATTTATAAAATTTAGAATAAATAAATTCTTTTATTATAAAAAATAAGATGCATAAGTTTTTATTTTACTGAAGAACTAAAATTCATGAGTGTATTGAGTTTTACAATAAGAAAAAAATTTAAAATTAAAATGCATGATTTCTTTTAAAGAAATCATGCATTTATTTATTCATAAGTTATAATTATATCATTTTTTTTCTTTAAAGTATTTTAAAACAGATTCTTTAATAATTCCAGCAAACTTTTTTACATAGTCTGTTCCATATTTAAATTTTTGTTCTACTGTTTTATTACTTAAAAAGTCTAATTCATATAAAACAGCTGGACATCTTGTATAAGCTAAAACAGCAAATTCTGCAGAATGAATACCTCTATCTGTAATATTATTTCTTTTTATTTCATTTTCTAAAATATTAGCGAATTTTTTACTTTCTTCAATAGAGCTTTCTTTATCTTTAACCCAAGTTTCGATTATTGGTTTATCTTTTTTACTATCTAAATTCTCTTTCCAAGCAATTCTCCTTGCATAGCTTGATTTTGAAAAATCAAAGTAATAGATTTCACTTCCATTTACAGTTCTATCATCTGGATAGGAGTTTAAATGAATACTGATAAATAAGTCTGCATCTTTATTATTTGCAAACATAGCTCTATCATAAAGTTCTATAAATTCATCTTTTGTTCTTGTTAAATATACATCTATATCTTCATTTGCTAATAAATCCTTTACTTTTTTTGCAACTTCTAATGCAACTGTTTTTTCATAAAGTTTATTAAATCCAACTGCACCAGAATCATGACCACCATGACCTGGATCTATGACTAAAACAGGTCTTGTTAATTCTGGAAAATAAAAATCTAATATAACTCTTTTACTTTCAAAAGTCTTTTTTAATTCTGATTTATAATTTAAAACTATCTTTACCCATACTTCTGTTTCAGAAAAATGATAAGCTTTTATATACTTTACTTTATTGTTATATTCATGATAGTAAATAGAATCAGGAACTTCTGCACCTTTTATTTTTATTAAATAACCATAAGCATTAACTAGTGGATATACTTCTACATTGGCATCTTCACTTAACTCTATTATAGTTCGTGCATTTGATTTTCCAAAAATAGTATTTATACTTTCTATTTTAGCAACTGGTACATTTAAATAATATCCTTTAGCATTAGATATTAAATCTAAATTCATTACCTTAGAAATAACTTGTGGAGTTAAATAAACTTTCTTATCAACAATATTTATATCTTCATCAGAAAATTTGAATGATTCCATACTGTTTATAATACACATTTTATTTTTAGGAAATAAAAAGACTTTCCATTTATCATGTTTAATTATAACTAAATCTTCATCTGTTTTTACTACTTTACCAAATTTTTCAGCAACATAATTGAGTTGTATATATGTAGTATTATTTTTTTCAAAATAATACTGAGAATCTATTTTTCTCCATTGTAAGTAAACATCATTTGAAAAAGATAGTGCAAACGAAAAAATCAAAAAGAGAAAAATAGAAATAGTTCTTTTATTAAACATTATTCCCCTCCCATATACATTTTATATTCATCACTTTTTATATTATAAGCTTTATTTTTATTTTTATCTAAAAACATCATTGGATCCATACTTTTATTATCCTTAAAGTTATCTATTTCAAAATGTAAATGGGGTCCTGTTGAAATACCAGTACTTCCAACTTTTCCTATTATTTCACCTTTTTTTACGATATAACCTTTACATACATTTATTTCACTTAAATGCCCATATAAATATATTTTATTATTTAATAATACTTTTATATGTTTACCATATCCACCACTTTCACCAGCGTATATAACCTTTCCAGAATTGGCAGCAATTATTGGAGTTCCTTTTGAAGCAACTATGTCTATTCCAGTATGAAATTTTATTTTTTTGTATATTGGGTGCATTCTATAGCCATAAGGTGAAGAAACATAACCAATTATAGGCCATCCAATAGTTTGATTTTTATTATAACAAAGGCCTATAATTTTATAAGGTATTTTTAATTTTTGTCCTACTTTTAAAAAGTTTTTATCTTTAATATAATTTACTTTGAGTATTAAATCTGGATGAGTAAAAAATTTTATAGCAATATAATTTAATGAATCTCCAGGTTTTACTTCATAATAAAAAATATTTTCTTTTGGAATAAATAATTTTTGATTTAAATTTAAATATTTTTGATACACTATTTCAGGGTTTCTATCAATTAAAACTGGAACTGAAATTTTTGTTTTTTCTGATATTTTTATTATTGAATCATTTTTTTGAACTTTATAATAATACCCCGCTTCGCTAAATCCAATACCCCCGCATAAAACTATAATTAATACAATTAATCGTTTCATTTTTTGAACACTCCTATATTATTCTTTACCTTCTAAAATATCAACTATTTTGTCTGCTATTTTTGTATTAGGTAATATATAATCTGCATAGCCTTCTTCAACAATTGCTTTAGGCATACCATAGACTACACAAGTCTCTTTTGATTCAGCTATTATTTTTCCTCCATAATGTTTTATTTTAAATGCACCTTTGGTGCCATCTCTTCCCATTCCAGTAAGAACGACACTAACAATATTTTGCTTATATATTTCTGCAGCACTATCAAAAGTAAAATCAGCTGCTGGTCTAACATTATTTATTTTTTCGCTGGAATCTAAATAAAGAGAAACCTTAGTCCCAGATTTTTTCAAACCTAAATGAAAATTCCCAGGAGCAATATAAACAGTATCTTTTTCTAAAACATCTCCTTCTTCAGCTTCTTTTACAGTTAATTCAGATATTTTATTTAATCTATTGGCAAGAGATTTTGTAAATCCAGCTGGCATATGTTGAACAATTATTACTGGAACTCCAATTTTTTCTGGTAATAAAGGAACAACTTTATCTAAAGAACGAGGTCCACCAGTTGATGAGGCTATTAATAATATTTTTTTACCAACAGTTCCAACTGATTCTCTTTTTTTCCTTGTAGTAATTGATTTTTGTGGTTTTGCTAAAACATTAATAGAAACCTTTATTGCTTCATGAATTTTTTGTAAAAGATCATCTTGAACTTGTCTAAATGTCCATGAAGTACTTCCTGCAGGTTTTTGAATGAAGTCTAAAGCTCCATTTTCTAGACATTCTATTGTTATTGCAGCATCTCTTGAAGTTAAAGAACTAACCATAATAACTCTTGTAGGTGTTTTTTTCATAATTATTTTTAATGCTTCAAAACCATTTAATTTAGGCATTTCAACATCTAAGGTAACCACATCAGGTTTTAATTTTTCAACTTTTTCAACAGCTTCAAGACCGTCTTTTGCCATCCCTATAACTTTCATGTCTGGTTGTTTGTCTATTATATCTTTTAACACCATTCTCATAAAAGCAGAGTCGTCTACAACAAGAACTTTTATTTCATCCATTGTTTTTGCCCCCTCTTGAAAAAAATTTAATAAATACTAAGAAAGCTATCGCTATAATTATACCATACTTGGGATTAATTTTAAAAATTGATTCTCCAAATATTATTGTCCCTATAACAATTGAAAAAACAGATGCAATTAGAACAACTGCTGCTGATATGTCTTTTATTATACCTATAATTTCACTATAATCTGGATGAAGATAATCAAGTACCTTTTCTATAACTGTATTTAAAGCTTCCATTAATAATACAAGCATTACAGCAAAAGAAATCCATAATAATTTAACTCCATTTAAATCAAGAAATAGCGCTGTAATAAGCGCTATTAATCCTATAAATGTTTGTATTCTAAAATTTCTTTGAGTTTTATGGACTTCAAATAATCCATTTATGGCAAACTTTAAACTATCTTTAAATTTTTTTGTTCCAATAATTCTTTTCATCATTCAAAATTTCTACCTAATTTAGTAACTTTTTCTCCAGATCTTATTTTATAGGTTTTTTTAGTAAATTCATATCCAAGATTTAAAGCTTTTTCATCCATTTCATAATAATTTTCTTTAACATTTTCTTTCATTGTAGAAATTAAAACATCTAAGCTTAAAATACCTGTAACGCTAGCCAAAATACCTAATCCTACCATATTAGAAACATTTATATTTCCAATTTCATTATAAGCAATTTTTGAAGCAGATACTTTTATAACTTTTTTAGTTTTTCTTGAAACTGTTTGAGGAAGTTTTTTTACAAATTCATCATCATAAAAAACTAAACTATTTTTCTTTAAATGTTCAACTTGAGGAACGGCAACATCATGCATAACATATAATATATCAAAAGTTTCAGCTTTTGGAAAGTCTATTGGAACCTTATCAAATAAAACATCAGTATATGAAAGTCCTCCTCTAACTCTTGCACCATAATGAAGAGTTTGAACTACATTATATCCTTCTTTAACTAAAGCATTTGCAAAAACATGGCCCATCATTATATTCCCTTGACCAGCTTCACCTGCAAATCTAACTGAAAATGGTTTTGAAATTGAAAGATTCATTATTTGTCACCTCCAATTGCAAATTTGTTTTGGAGTTTTTGATAATTTTCAAGATATCCTTCTTTTTCGATGTTTTTAAATTCACCTATTACTATTTTTCCTTTTAATTCTTCTTCACTCATTTTTTCAGCTTTTGAAAGCATTATACCATTATCTTTAAAATATTGGTGTAATTGTGCTGGTTTTGGCATTTTATTGTATCTTCCAAAATAAGTATGGCAATTAGTTACTATTTCAACAACTGAAACACCCTTATGTTTAATTGCATTTTCTATATATTTTGCACTTTGCATAAAATGAAAAACTGTAGATCTTGCAACATAAGTTGCTCCAGAAGCAATAGCTAACTCAACCGCATTGAATTGATTTTCTATATTTCCATAAGGAGCTGTTGAAGCCAAGCTTTCAGAAGGAGTTGTTGGAGAATATTGACCACCTGTCATACCATAAATATTATTATTGAAAATAATAATAGTTAAATCCATATTTCTTCTACAAGCATGAATAAAGTGATTCCCACCAATTGCTAACATGTCACCATCTCCACCCATGGCAATAACTTCAAGATCAGGTCTTGCTAATTTTACTCCAGTAGCAAATGCAACAGCTCTTCCGTGAAGAGTGTGCATAGTGTTAAAGTCTAAGTACCCAGTACTTCTTGAAGAACATCCTATACCAGATACTACAGCAACCTTATTTTTATCTAAATTTAAATTACTAGCTGCTTCAAGAAATGATTTTAAAATAATTCCATTTCCACATCCAGGACACCAAACGTGTGGAAGCCTGTCTTTTCTCAAATATTCATAGTACTTTGCTGATGGCATAGTACACCTCCAAATTTAATTTGAAAAATTTTTCATATAAACATTAAATATTTTCCCCTATTTCTATTAAATTTTCAAATACTCTATTGGACAAATTAAGCCCCTTTTCAGTTAATTTTAAAGTCTCATCAATGCTTATCAACTCTGATTGTATGGCAGTAAGTTTATTTATAAAATTTATCACAAGTTTTTCAGAATATCTTTCTTTTAAAGTTTTTATACTTATTCCTTCTAACAGTCTTAAACCCATAAAAATAGTTTCTATAAAATCTTTTTTTTCATCGTTTTTATGATAGTATTCATATTCCATTTTATTTTTATTTAAAGAATTTATATATTTTAAAATTGAATCTGTATTTACATATCTTTTCTTTGAAATATGACTACCAGCAGAAACTCCAAATCCAATATAATTTTCATTTTTCCAGTATACTTTATTATGAATAGAAAAATTATTATCTTTTGACCAACTTGATATTTCATATCTATTATAGTTCATCTTTTTTAAATCGATATAAATAATATCAAGCATATCTTCTAAAAACTCACTATTTGGAAGAGTTAATTCTTTTTTTTCAATTTTTTTCATTAAAGGAGTTTCGTGTGAAGAATCAAATAAATAATAAGAAATATGTTGTGGATTTAATTCTTTTATTAAATTTAAATTATTAATAATAGTTTTTTCTGTTTCAAAAGGCAAACCTAAAATAAAGTCAAGATTTATATTTTTAAAGTATTTTTTTAAAGTATAATAACTTTTTCTTGCTTTTTCTAAAGTATGAATTCTATTAACTGTTTTTAAAATTTTATTTGATGATGATTGAATTCCCATAGAAATTCTATTTATTCCTATTTCCTTATAATCTATTAATTTAAGTTCTTCAACACTTTCTGGATTAACTTCTATTGTAAACTCTTTTAAGTCCATATTAAAGATTTCATTGATTTTATAAAAAATATTTTTTATATATTTAGAATCAACAAAGGACGGTGTACCACCACCAATATATATCGTCTTTATTAAAAAATTATTATTTTTATATAATTCTATTTCATTATTAAGCGCTTTAAAGTATTGCTCAAAATAATTTGTATTAACTATAGAATTATAATCACAATAATAACATTTGCTTTTACAAAATGGAATATGTATATATATACTACAATTCTGCAAAAATTCCACCACCACATTCATTAAAGTATATGTATATTGGAAAATTTTTAGTATCACTTATCAAATAAATTCTATACTTATACTCTTCATTATACATTAATCCAAATCCAACTATAAAATCTTTTTTTAATAAATTTAATTTAGTACTAATATCTCCTAATACATATATTTTATTTTTATTATAAGAAATACCTCCAAATATTCCTGTTGAATAGTATTTATCAAAAGATAGAACTTGTATTCCTGTTTCAAAATTTCTTCCAAAATTTAAAAAAAGTGGAAGTTCTAAAAATCTTTGTAATTTAAATCCAATTCTTGAAAAAGAATAAACTTCACTATTGATATTAAGAAAAAAATTATTAAAGCTACCTATTGTTATGGTTGGAATACTAAAATATGTATTAAATCCTTGGAAAATATAGTAGTTATTACTTTTAAAATTAAACGTATTAAAGTAATCATATTTTATTATTCCAAGTAAAATACTATTATATGTATTGTACTTAAATCCAATTCCCATTTCAGAGTTATATGTTGGAATATCTAAAAAAAAGCTAAAGTTTTGTTCTCCTGTTTTAACTTTTATTTTTTTAAAAAATAAATTTTGTTCTTTTAAAAATGGTTCTTTTTCTTCTATACTTATTCTAAAATTAATTGCATTGTCATTTGCATTAAAACTTAATTTTAATGGTTTTACTTTTAAAACTTCTAAATTTAAATTATAATTTGTTGAAAACAAACTTATAGAAAAAAGAAGTAATAAAAAAAATATATATAATTTTTTACTCATTTTTAAAAGCCTCCTTAAGCTTTAAATTACTTACTAAAAATAATTATATCATATATAAAAATAAAATTAAGAAAACAAAATAATATTATTGTTAAATTAACATAAAGTTTTTTTTTATGTCGTAAAATTATAATGGTATATAAAATTTTTGGAGGTGATTTTTATGAAAAAATTTATTATTATTGGTCTTTTATTATTATTTTCTATAATAATTTTATACTTTGGTTCTGTTTCTTTTTATAACTTTAGATTTTTGATAAAACCAAGATTTTCTACACCAGTTTATAGTGGATATGTTGATAATTTTGTTTACATTAGAAAATATGTAAATGGTAATAATAGTATGCTAATGGTAAAAAATACAAATAAAAATTTTATAGTAGTGTTGTACTTTAAACATTATAATCAAAAAAGAATTATAACATATTCAGATAGTGCTCAATTAGATTTTCCAGATATAGCAACTCCAATAATAGTTGTATACAAACAAACAGGTTTTTTAATATCTTATCCAATATCCTCCTATACGCTCAATTAAAACCATGTTTTAAAGGTTTTTTTACGAATAAATACATGGTATAATTGTTTATTGAAAGAAAAGGAGTTGGAAAAGTTTGTTTGAAGAAACTCATATAAAAACATGGTGGGGGAAAAAATGGATAAACTTCTTAAGTTTATTTGATAAAGATGATTTAAAAAAAAATCGCGGTTTAGAGTATACGAAAAATGTTGTTGATATAAAAATTAATAAGAATAAAATTTTATCTAAAGTTTCTGGTAGATACAAAGTACCTTATGAACAAACCATAATTTTTAAACAATTTACTATTTCGGAAAAAAATAAAATAAAAAGTATTTTAAAAAATAATAAAGACTTAAATTTACAATTGTATATTAATAAATTTCCAGAAGAACTTTATTCTATTATAAAAAATAATGGAATTGATCTTTTCCCTAATAGTTTAGAAGATTTAATTTTAAAATGTAATTGTGTGGATTTAAATAAACCGTGTAAACATTTGATAGCAGTTTTTTATAAATTAACAGAAGAAATAGATAAGAATCCATTTTTATTATTTGAGTTTCACGGTATAAAAAAATCAGATTTATTTTCAATTGATTATAATGAAGATATTTTTAAATATAGTAGTTTGAATGTAAAGCTTTTAAAAGAAAGGCCAAAAGAAAGAAATATTTCTAATAAAAAGATAGAATCTTATTTGTCTCTTTTACAAACTCACCCATCTTTTTATAAAGAAGATTTTAAGAAAATACTCTTAAATACATATGATGATATTTCTTATAAATTAAATAATAACTTGATGATAAATGAAGAAATAAAATATAATATGACAGACTTTAAAATACACATATCTTTTTCAAAGATTAGACCAAAGTTTTATTCTAATATTGATTCAAAAACAATTAAAAGTATATTTAAAAAAAATATATCTTTTGAAAGTATCTTTAATGTTTTTCATGAACTAAACCTTTCTGATTTTAAAGAAGATAGTAAATATACATCTTTTTTAAAACAATGTTTAGCTTTCTCATATAAACTATCCATATTAAAAGCGTATCTTCCTGAAATTTTTACTATAAACAATAATGAATTTATTATTAATTATACTCCAAATAGAACAATAAAATATGTAGATGATTATTTAAATTATTTATCCTATATTGCTCCAAAAGATATCTTATTAGATGAAAATAATAATGAATTGAATACCTATTTAGCTACTGAATTTATAGTTTCTATGTTTTTAAAAGAGATAATAAATAAATATTCGAAAAACTTTAATGATAAATTATTAAATGTTTTTTTTAAAAAGAAAATATTTAAAGTTGAAAAATACTTTGAAAAAAATATTTTTTTAAGTATTAAAAATTGGCTATTACCATTATTTTTAAAAGATAGTATATTTTCTATACTTTTATTTGTTGAAAAAATAAATAAAAGAAAATATTATTTATCAATGAATATAAAAAATAAAATAAATGAAAATGTTTATACTTTAAAAGATTTTGAAAATTCTATTGTTATAAATCAATATAAAAATGAACTATATAATCAATTAGGTATAATTGCTTCATATTCAGAAACAATAAGCAAACTAATACGAGATAAAAGAGATAAGATATTAATAAATCTAGATGAATTAAGTGAATTGGTTATATATTCTGAAAATGATTTAAAACTTTTAGGTATAAAAATAATATTAAATTTTAAACCTAATAAAATTGTTGTTCCTAAGTTACTTTTAAGATTAAGTAGTCAAGAAGATATCTTAGATTTTGAAAAAATAAATTTTAATTATACTATTAAAATCGATGATATTGAAATTACATTAAATGAATTTAAAAGAAATTTTAAAAATATAAATGGACTTGTATGTTTTAATGAAAAAAATGTTTTAGTTACACAAGAAAATTATTTTTCAATTTTGGAAAAAACAAAAAAACAAAGCACTAAAAATATAATAATAAATATTTTAAGTAAAGATTATTATGGAGTTCCAATTATTCCTGATAATAAAATCAAAAATTTTATTGATAATTTAAAAAAAATACCAAAATTAAATATACCTAATACATTAAATGGAACTTTAAGACCTTATCAAATAACGGGTTTTAATTGGTTATATAATAATTTAAAAAAAGGATTTAATGTATGTATCGCTGATGATATGGGTCTTGGAAAAACTATACAAGTTATAACTACAATTTTAAAATTAAAAGAAGAAAATAATATTAAAAATCAAACATTAGTTATATGTCCAACTACAATAGTTGGAAATTGGTATAAAGAATTTGAAAAATTTTCTCCTTCTTTAAAAGTTCATATTTTCCATGGAAATAATAGAGAATTAAATGATTCTGATGTAATAATAACAACTTATGGAACTCTTAGAAGAGATTCTCATAAGTTATCAAAAAAATGGTCTTTAATTATTTTAGATGAAGCACAAAATATAAAAAATCCACTTACTGCTCAATCTAAATCAGTAAAGCATTTAAACTCTATTTTTAAAATAGCTATGACCGGAACACCAATAGAAAATAAATTGCTGGAACTTTGGAGTATTTTTGATTTTTTAATGCCGAACTTTCTTGGTAATAAAAATTACTTTTTAAAAAATTATGCAATTCCAATTGAAAAACAAAATAATACAGAAAAACAAAATAAATTAAAAAATATAATAGAGCCATTTCTATTGAGAAGATTAAAAACAGATAAAAATATTATAAATGATCTTCCTGAAAAAAATATATACAATGAATTTATTTTTTTAAAAGAAAAACAAGAGTTGTTATATAAAAATGTAATAAAAATTTTAGATAAAAATATTTATCATTCTTATGGAATAGAAAGAAAAGGTTTGATATTAAAATTACTTACAAACTTAAAACAAATATGCAATCATCCTTCAAATTTTACAAAAGAAGAAAATTATGATATAGAGCTATCAGGAAAATCTGAAAGAACAATAGAACTCGTTGAGAAAATAGTGTCAAAAAATGAAAAGGTATTAATTTTTACTCAATACATAGAAATGGCCAAAATATTAAAAAAGATGTTATCTATTAAAAATATAAATTCTTTATTTTTTTATGGAGGATTATCAAGAAAAAAAAGAGATTTTATTGTTGATAATTTTCAAAATAATAAAAATCAAAAAGTAATGATTGTATCTTTAAAAGCTGGAGGAACGGGTTTAAATTTGATAGCTGCAAATCATGTTATTCATTATGATATGTGGTGGAATCCAGCTGTAGAAAACCAGGCAACTGATAGAGTGTTTAGAATTGGTCAAAAGAAAAATGTTAGTGTATATAGATTTATAACCTTGGGAACTTTTGAAGAAAAAATAAACCATATGTTAGAAAAAAAACAAAAATTAGCAGAAAGTATAATTTCTCCAGGTGAAAAATGGATAACCAGTCTTTCAAACAAAGAATTACAAGAATTTTTCAAACTTTTTTAAAGTGAGGTGGAAATATGTTTAGTAAAAGACCAATATGTATTGTAGAAAATGATGATAATGATTTTGAACATGTAAAAAATGAATTAAAAAAATCCAGTTTATCAAATGAAATTTTAAGATTTAAAAAAACAGAGGAAATGTTAGATTTTTTAAAAAATGAAGAAATAAAGCCAGCTTTAATATTAACCGCTTTAAGATTTCCTGGTATGAATGGTATAGAGTTTATGAAAATTGCAAAAAAAGAAAATTTATTAGATGATATTAAAGTAATTGTATTAACTTCAGCTGATGAAAATTTAAGATTAGAGAGTAAAAACGAAGGATTTATTGGATTTATTAAAAAACCATTTGTACTCAATGTTCTTTATAATCTTTTAAGAACATTTACAAGTAATAAATTTTTAGAAAGAAATAAAGTAGATGATATTTTAAAGGATATTTCCACAACTTTTAATAATAAAATTTTAAAAAGTTTAATAGCCATTAAAACTAATAAAGTATATACTCAACTTTCATTTTTTGATGGATATTCAAATAGTATAGTTTTAGAATATAAAGGTATATCATTTAGATTAAAAAATAAAATTTATGATACTTTAAAAAATCAAAAAATTTTTTCAGATACTTTTTCAATTAATGATGTAAAAAATAAATTTTGGTGGATGATAAGTAATTTACCTAAAAATGCTTATATTTATATTAGAAAAATTGAATTTGAAAATAAAGATACAGGATTGATTTTATTTATAACAAAAGAAAAAATGGATTCTGAATTAAATAAAAAAATTGATGAAAAGTTATATGAATTATCTGCTTCAATGTATACTCAAAAAAATGATTTTGAACAAAAAGTATATATGGGAAAAGCAATTTTAAATCTTGCAAAAACAACAACAGCTTATGATCCTTATATATATTTACATTCAGTAAGAATGGCAGATTTATCAGCTATATTAGCTTTATTATATGGATTTGATAATGAGAGGATAAGTTTTGTAAAAAATTGTGGAATGATACATGATCTTGGTAATATTTTCGTTTCAAAAAGAGTATTAAATAAACCAGGAATATTAACTGATTCAGAATTTAAAGAAGTTCAATCACATACATCAAAGTTAGAAGAATTGCTTTCTGACAATGAGTTTTTAAATGATTATGTTGAAGTTGCAAAATTACATCATGAAAGATTAGATGGAAGTGGATATTATGGATTAAAAATGAATGATATACCTATTGAATCTCAAATTTTGGCTATAGCAGATATTTATGATGCTTTAACACACGATAGACCATATAGAAAAGCAGAATCTATAGAAAAAACATTAAAGATTTTAAATTCTATGGCAAAAGATGGAAAGATAAATAAGGAAATAGTTAAAATTTTAGAAAATTTAGTTCCTATATTTGAAAAAACATCTTATAACTTAAATTTAACTAGTTTGTTGAGAAATAATAAAAAAATATTTATTGAAAATCCATTTAAAGAAAATTCTTTAATAGATGGGAAAATAGAAAAATTAACTGGAGGGTTTGCCTATATAAAATTAGAAGAAGTTCCTCAATTAAAGATAGGTAATAGCATAACCTTATATTCAAATTTAGATGGTATAATAGAAAAGTTTGAATGTAAGATTTTAAATATAAAAGAAGATGGATTTATAGTACTAGTAAAAACAACTGAATATGAAAGTAAAATAATAAAAACTATGTGGGCAAAAAAAATTAATCTATTTAAATTAGAAAGTGGTATAAAAAGAATGGATCAAATAGAAATAAGCGAATATACATTAAATGCAAGAATGTCAATGTTTGGTGCAAATCAATTGTCTTTTACAACTACTGAAAATTTATTTAATTTAAAAGATAAACTTATGATAGATTTTGATGCATATGGTGAAAATATAGTAATTTTTGGAGAAATAAAAAGAATTGAAAGTGAAGAAAACTTAGTTAGATACTGGGTAAAATATTTAAATATGACAGAAGATAAGATTGCTACAATAAATAGAACTCTATTTAAAAGGAAATTAGAAATACTATTATATCTTTAAGGAGGTACTAAATGAGTACAGTAATAATAGGTGGAGGACCTGGAGGATATGTTGCTGCAATAAGATTATCTCAACTTGGTGAAAAAGTTATATTAATTGAAAAAGATAATTTAGGAGGTACTTGTACAAATTTAGGCTGTATCCCAGCAAAGGCTATGTTAAGTGCTTCTCATTTGTATTCTGAGATAATAGAAAAATCTAAAAAATTTGGAATAAAATATGAAAATTTATCTTATGAAACTAAAGGAATTATGAAACATAAAAATAAATCTGTAACTATGTCTAAAAAAGGTATAGAATTTTTAATGAAAAAAAATAAAATTGAAGTAAAAAAAGGTACTGCCAAAGTCTTGGACAAAAATAATGTATTAGTAAAGGAAACGAATGAAAAAATACACTGTGAAAATATTATTCTTGCTAATGGTTCTATACCAGCTATTTTCCAACCATTTTCTAATGTAGAAGGTATATGGACTAGTGATGATATATTTAAAATGAAAAACATACCAGAAAGTATAACTATAATTGGCGGAGGAGTAATTGGATTGGAATTCGCTACCTTTTTTTCATCATTAGGAAAAAAAGTTTATATAGTTGAGTTAGCAGATCATATAGCACCATTTGAAGATGCTGATGTAGCAGATGAAATAAAAAAAGTTTTGAAAAGAAAAAAAGTTGAAATATATGAAAAATTTAAAGTAACTTCTGTAGAAAAAAATGAAAATGGCTATATATCAAAATTATCGAATGCTGAAGGTGAAATAGAGCTTATTTCTGAAAAAGTTTTATTATCTGTTGGAAGAAAGCCAAATATTTCTGAAGACTTAATAAATCTCGGTTTGGATATAGAACGTGGAATAAAAACTAATAAAAAAATGAGAACTAACATTGAAAACGTGTATGCAATTGGTGATATAAGAGCTCAAATAATGCTTGCTCATGTCGCAAGTTTTGAAGGAATTGTAGCTGCACATAATATTGCAAATAAAGAATTAGAAATGGATTATTCTGCTATTCCTTCAATAGTATTTACTAATCCTGAAATAGCTTCTGTAGGAGTAAAAGAAAAAGATGTAAATAAAGATGATGTAATAGTATCAAAGTTTCCTGTTTCAGCTAATGGAAGGGCAAGAACTATGGAAGAAAAAGATGGATTTATAAAAATAATTGCTGATAAAAAAACATCTAAAATATTAGGAGTTACAATAATTTCTCCATCGGCAACTGATATGATAATGGAAGGCGTTTTAGCAGTAAAGCATGGATTAACTATTGAACAATTAGCAAACTCTGTACATCCACATCCAACTTTAACTGAGAGTGTATTGGGTGCAATAGAAGGTTTAGAAGGATTAGCAATTCATATTTAAAAAATATCAGCTCAATGAGCTGATATTTTTTTTATTTTTTCAAAAGTATGTTGTAACCTGAGAAAGAAGATAAATGAAGAGTTTTTCCAGATAATTTGAAATTAAATTGTGAATCTAATTTTTTTAAACTTATAGGATTTCCAAAAGGTATCATAGCTTTTCCATTTTCCATTTGAATGTAACTTTCAAGATTTTCTCCAGATCCTTTTATTTCAACAGAAACTTTTTGTTCATCAACGTAAATTATTTCTCCAGAGTTTGATATACTACAAGTTGCATTTATAATAACTTTATAAGAAGTAACCTTTAAATCAGGCCATTTTGCTTTCCAATCTTTTAAAGAACTTTCAATATATTCTTTTGGAACAGTAGCTTCTAATTTTAATACTTTATTTTTAAAATCAAAAGTCAATGTTGCTTTTTCAAAATTTTTTAAAAAATTTTCATTTTTATCATTATATTCGATGACATTCCATGTTCCCTCTAAATTACCAGTTGTACCAATATACTCTTTTGTTCCAGGTAACATAAAATTATTTGGTTTTGGTGCTGAACAACTTGATAAAATTAATAAAAAAACAGTTAAACTAATAAAAAATAATAAAATACTTTTTTTCATAATGTAACCTCCTTTTTAAAAATGACTTAATAATATTATAACACATCTTTTTGTTTTTTACACAATATTAATAATAATGAATCTTTAGGATTACAAAATTGGTATTTTAGTTAATTTAATAAAAACAAGTTGAAATTTTATGTAAAGTATGCTACAATATATTATAAGGATAGTTAAAAAGTAATTCACCCTATATTTGTTTTTGTATTAGGCATGGTTATTAACCGTGCCGTTTTTATTTTAATTGTTTTACTTCTAATCCAAGTTCTTTTAAAAATTCTATTCCATCTTGATTTCTATCGTATAAATTATAAAATATAACCCTTTTTATTCCTGAATTTGCTATCATTTTAGCACAGTGTATACAAGGGCTATGAGTTACATATATCGTTGATCCCTCTATACCAGCACCTCCATTTCTCGCAAGAAATAAAAGTGCATTTTGTTCAGCATGTATTTCATATTTTTCTGAAAAATCGTGGTGTTTTTCATAATATTTATCTCCAAGTTCTTTTATTTTAACTGAATTAAATACATCATCACAATTTTTATAGCCTTTTGGAGTTCCGTTTATTCCAGTAGATATTATTCTCCCATCCTTTACTATCATTGCACCTACTTTTACTCGTGTACAATGACTACCCTTTGCTAATTCTCTTGTCATATTCATGTATATAGTATCCCATTTGTTTATTTTATCCATATAATATCACCTCAATTTTGTATTTTTATACTTAATTTAATTTTTTGTTGAGAATTCATTTTCATTTTTCCTTTTAATTCTATACTTCCTATTGAAGAATTATTTTTGAAATAATTGTTGTCATAATTTATTAATTCTAAACCAGGTTGTTTCATTTCAATAGATATTTTTTTTTCTTCATTAGAATAATTATTTATAATTAATGTATATTCTATAAATCTTGTTCTAGAAGAAGAAATAAAAGTATCTTTTGTTTTGTTTAATTTATACTTAATATTCCAACTTTTTCCTAAATCAATTTTTATATTTTCACCATTTGAAAAGTTATTAATTAATACTTTTTTTATTGCAAATGATTTATCATCAAAGATTTCATGTATTAATATTTTTCCATTTACAATATCAATTCCCATTCCATTATAATCTGTATTTTCAATAGTTCTTATTATTTCAGCAGATGTTTGAACATTGTTTAAATTTATAATGTAGTCATCAGAAAAACTTAAAATATCATAACTTTTTAAATTAATATAGTTTATTTTATTTTTTGTATTAAGCATTCCGATATTTAATGTAAATACATCTTGATAAATTTTAGGTACAGAATTTAAGCTTCTCATTAATCTTTCAGAGGAATTAATAGATGTATTTAATTTTTGATTTATTAAATAAACATTTGATTCTCCTAATATACTTCCATTTAATTCAATATTTTTATTAAATGTCCCATCATTATACATTTCATAAATAAAATCCCAAGTTCCTTTAGATTTCAACCCTATCCATCCTTTTATATCTTTATCAAAAACAATACTTTCTTTTTTACTTAAATATTTTAAATTGCTTTTATTTGTTTCACACCATCTATTTAATTGATTATTATAAAATATAATAATTTGTGTACTTTTTAAAGAAAATATATTATCTTCTATTTTTTCCATGTAATAGTCTTTATAATCATCTAAATTTATTATTTTAAATGAAAAAGAATAATCATTATTTTTATTTTTTATTTGCCAGTTTTGTACATTAGAAATCCAAAAAATTTCTTGATCAGAAGGTATTTCAAATTCATTTCCTGAAAATTCAATATAATTTATTACACAATCTTTGAAAAAAAATGTATAGTTTTTAGATAATAAAATGGTTGAAACTAGTAAAACAAAAAAAATGATTCCTTTTTCCATAAAAAGTTTTTTCATAAAACTCCTCCTTTATTTTTATGATATAATAAAATAAATTGCTTTTTAATAAATTTTACCATAATATTTTTAAGAAAATAAAAATAAGGGGGAAGTACTTTGAATTTCGATGAATTTAATAAATTCAGAAGTGAAATGAATGAAAAAATATTATCTAATGGTACACTAAACACAAAGAGGTTTTTTAACTTAGATGGAGCCGTATACAAAGAAGGAGAAATTCCTTCAAAGTATAAAGAATTAATGGGATTAGTTGCTTCAATGGTTTTAAGATGTGAAGGATGTATTGATTATCATATAGGACAATGCATAGAATTTGGAGTAACTGACAAGGAGTTTTTTGAAGCTTTTGATATTGCATTAATTGTTGGTGGATCTATTGTTATTCCTCATTTAAGAGAAGCAGTAAAATATTTAGAAACTATAAGAAATAATAATAAAAAGAATGTTTGATAATCAAACATTCTTTTTATTTAGAATTTTTTAAGGTAATTTTTTATAAATTGTTCTTGATAAGGTCCTGGCATTTTAAAATATTTAGTCAAATAATGATGCAGCATTTCATGAACTATTGTTTTTTCAAAAATACCTTTTTTTTTCAAAATATATATTGGTAATATAACAATATAATCTTTTTCATCTTTATTTTGTATGTATGCACCAGCCGTATAAGAGTATGGAAGTTTAGTTATAACTGTAAATTCATTTAAATTATCAGCTTCTAAAATACAAATTTTTTCAAAATTAAAGTTGTGTTTTTTTAAAAATGGATTTAAATATTTTTTAATTTTAAATTCATTAGAATAATGTATTGAATATGCAGATAATATTATAAAATTTATTAAAAATATAACTATTAAAAGTTTTTTCATTATTGAACCTCTAAATTATACTCTTTTGAAGTACCATAAGTTCCACTCCAATACATAGTGCTACCAAAAGCTGGTAATATTTTTATTTTACCAGAATTTATAAACTTAAAATAATAGTAAAATTTTCCATTTGTATATCCATTAGAAAAGAATGAAACTCTATCTTTTCTAAACTCTCTGCCTGAATACCAATAATCCCATGCATCATACCAATAGGAATAAAATTTATTATTATCTTGTAATACTTTTTCTTGATATCTTTTTAAGATTTGCACGTTTCCCGGTAATCTATCTTCTACATTTATATAGTTTGGAATAATACTACTTAAGTTTAAACTTATTTTTAATATATCACCATTTTTTAAGTTAATTTTTTTATTTTCAAAGGTTACTTTATAACTCCCATTTTTAGCTCCTATAAAGTTTTCATTCCCTTGAAATTTAATATTATTTAGAGTTATAGAATTTTTATTAATATTTATTATTTTATCTCCTGATACAGGAAATAATTTTTTTAATGTATTTTCTTTAAAATCATATTCATATGTATTATTTCTAAATAAGTATATTTTATTATTTAAAGTATCTATATTATAATATTTGTCTATTTTTTTATAAACATCTTTAAAGTAAACATAAAATTTTTCATTTAGTTTTATAATTGCAATTGGATTATTATTTAAAATTGAAAAAGAATAAACATTTTTTAAAATTGTTTTATATTTATTTGTTTGAGTATTGTATTCTATTAAATCATCATTTAATAGATATATATAGTCTTTAGTTTTTTGAATTTCTTTAATATTTTTAAACTTTAAGTTATTTATATAAACAAAGTTTCCATCATAGCCAATTTTTAAATTTGGTTCTATTATCCAATCCCCTTTTTCATAATTATTTTTAATTATTATAAGATTATTTTTGACAATAAATTTTGTTTCAATAAAATCAACTTTTGTGGGAATAATTTTTTCATTTATATTTATAAAAGCATCAACATATTGAATTTTATTATCTTTTGAAACAGGGATATTTATTTTTTTGTACAAGTTTTTTTCTAAGTCAATTCCATTATTAATATTAGAATTTATGTTTTCTACACTTTTAATTTCAATGTATTTATTTTTTATTAATGTATCTTCTTGTGCTTTTTTAAAGATATCTTCTTTACCAAATTTAAAATTATCTTTAAATTTAATTAAAAGCTCCAACATTCTTGCATTTTCTTTTGTTGAATACCATGAATAACTCTTTTTTTGCATAATTAAATACTTAAAAATTTTCATAATAATAGGATTATTTGGATCTTTTTTTAATAGTAATTTTAATAATGCAGAATTTATATCTACATTTGAATAGTAATAATTATTATCTTTATACTTTAAAAAAGCAATATCATTAATTTCTTCAATATCATTTAAAACATAAGAGAGTGTATCATTAAAAAATGCATAATAAACTTTATCATAAATAGTAATTGGTTTATAATTAATATTTATTCCATATAATTTTAAAACATAATATATATATCCTGAATTTATATGTTTCTTTAAAAATTCTAATCCTTTATTAATAACACTTTTTGATATATAATAATTTTTATTTAATTCATAAATACCTTCCATAACATATGCTGTTAATTCTGGATTAGATGAATCATAATTCCACCAACCCCATCCTCCATCAGTTGCTTGATATTTATAAAGTCTTTGTATAGCTTGTTTTGCTATAATATCCATATTTTTAACTGTATAACCATTTTTATAGGCTATTAAAAGTGGATATGAAGTTGATATTGTTTGTTCACTACATCTATAAGGATAATTTGATAAATAATTTAATGTGTCATCTATTAAACTATCTATTGAAAATTCTCGATAATAACTTCCTTTTTTTACTAAATAACCACTTTTAGTATTTATCAGGTCTATTTTTTCATTAATTAAATTTTGACTCTTAACTTCAAAAGGAAGTTTTACTATATCTTTATCATAATCAAATTCAATTATTTCCTTTCCAATATTTATAGCTTTCATTTGAAGATGAATAACTTTATTTGATTTAGCTGATACTGTAACTTGTCCACTTTCTGGATAAATATTTATAATATTTTTGGATATATTTTTATATGGAATAGTTATTTCTTTTTCTAAAGAGTTATAAACAACAATATCAAAATTTATAGTATCTCCTTTTATAGCAAAATTAGGTAATATTGGTCTTATATAAAAATCAAGATTTGTTTTATATTTTATACTTTGTTTTTGCATTTTTTCATTTGAAATTCCATAAGAAGTTATTCTCCATGTTGTTAATGTATCTGGATTCTTAAAATTAATTTCAGCATGTTTATTTTTAGTTTTTACAGTTAGCCACAAAGCTGTTTCTGGAAAATATTCTCTTGTATTAACCTTAACTTCTTCACTTTTTTTATATGATGCAAATTTATGAGATTGTTCAATGTCAAAGTATTTTGCACTATATGGAAAATATATATAAGAATTTCCTGTATTTATTAAAATTGAAGGGCTGTATAGTTTTGGATATAATGATTCTAATAATCTTGTGTTATCCTTTGATATTGCATACAATGATTCATCAACTACATTTAATAAAAAAATCCCATCCTGTTCAGCATCTATACTTAATTTTATATTTTCTTTTGGTTTATATAAATTTTTTTCTAATTTTAAAGTATAATTATACTTTAATGAATTTATTTTATTTAAATCTATTTCTTTGCTATCTTTGTATATTCCATTTTTTGTAAAAATTATAGCATTTAAAAAAAGATTTCTTTCTAAAGTATTTTTAGGTAATTTAAATGTATAAGAAGTGTTTTTTTCATTAAAAATTTTAATGTCATATAAATTATTTCCTGATAAAATAAAAACTCCATTTCCTTTTATTCTTGAAACATCAAATGTTATTTCATTTCCCATTTTTTTAAAGTTATTGATTAATTTTTTTTGTACTTTAACATTATTAGAGATGTAAATATTTAATGATTTTTCTGAATTTTTATATAAAAGTTTTAAATTATAATATTTTTCTTTTTTAAAATTTGCTTTTATTGTATATCTTCCATTTAAAACTTGAGCAGTTGAAATTAATGTAGAATCTTCAGTAAATAATTTTATTGTTCCGTTTTGAAAAATATTTTTTCTATCAGTTACGGTTCCTGAAATAGTTATATCTTTATTAGGTAAAGAGGTATAATAACCTTTATCTGAGGTTATTTTATAGTTTCCAGAGTAAACTTTTACTGAAAATTCATCTTTAAGCTGTCTTTGATTTTCATCAATAGTAATAATTTTTAAAGTATAATCACCTTCTATTTTTTTATTTATTTTTACAGGTATATTTAGTACTCCTTTTTCATTTGTATAATTTATCCCTGAAAAGGCTAATTGACTATTTGGATAGTTATTTGCATATATGTAAAAAGCAATTTTAGCATTACCTACAGGATTTCCATTATAATATTCAAGATTTATTTTGAAGTTTATTGTATCATTTAAATAATATTCTGTTTTATCAGAAGATATATTTATTTTATATTCTGGTTTTTCATAATCTTGAACATAAAATCCGTAATAATATTTTTCATTATTACATGTTAATTCTATATTATAATAGCCAAGAGGTGCATCTTTACTTATAAAAACACTTCCATCATACATACCATTTTTAGTTTCTATTTCATTAGTTTTTATATCTATATTTGATGGATCTTTAATTTTATAGGATATTTTTTGAATATTGGATAAATTATAAACATTATTATTTTTTAAAAAAGATAGTATTTTAAATTTTACTGTTTGACCTGGTTTATAAATATTTCTATCGGTTATTATTTTAACAGGATTATCTTTATAAGACTTCCATATTTTATAAACTCTTGTAAATCTATATGAATTTTTATACTTTACAACGATTTTTTTTAAATTCATTATTTTCATTTTTAATTCTGAAATATTAGAGAATTTTTCAATTTTATCTGTAATTAAGTAAATATCCGCTTTTACATTATTTCCATTAGAATCATAAGTCTTAACAAATAAATTTTTACCATCATAAATATTTATAAAATCAACATTTGTTACCATTACTTGGCCAGAAGAAATAATTTTATTATTTTTTTCAAATGTTATAAAATAATATCCAGGCTCAGATATTTTAAAAGAATATTCGATTTTTTTACCAGTTATAATTTTATCCATTACAAATCTTTTAGATACTTTTTCTAGTGGATATCCTTCTAAAAATATTTTTTCTGGATATATTATCTTGTAAACTTTCATCATTATTTGATTTTCATTATTGCCAATTATCTTTATTTTTTGATTGGGTAATATAACATTATTTCCTGAAATATAAACATAAGCATAGTTAATAGTTATAAATAAAATAAAAATAATAAAATTAATACTTTTTTTCATAATAACATCTCCTTTTTAATTTTGTCTTTATATTAATTCTAACATATTTTAATTTAAATAAATGTATTTTTACTTAAATTATATAATATCTTTTTTCATTTGTAAAAAATAAAACTTTTATATAAATATCTTTAACATATAATTTGTTTTTTCTAATTTTAAATTTGTTATAATGAATTCAAGGAGGCACTTATGATTGATAGAAAAAAAGCAGAATATATATTAAAATCCAAATTTAAAATTGAGAAATTTTATGAAGAACAATGGAAAACAATTAATTATTTATTAAATAATGAAAAAGTACTTTTAATTCAAAAAACTGGATATGGAAAAAGTTTATGTTATCAATTTCCTTCTATTATATTTGATGGAGTTACAATTGTATTTTCGCCACTAAAAGCCTTAATGAGAGATCAAATAAAAAGTGCTACAAATGCAGGTATACCAGTTGAAACAATAAATAGTGATAGGAATGAAACAGATAATTATCTTGCAATAGAAAAAGCTAAAAATGGTGAAATAAAAATATTATATATATCTCCAGAACGTATGGAAGATTCAAATTGGCTTGAAATAATAAAAGAAATAAAAATTTCTATGATTGTAATAGATGAAGCACATTGTATATCGGTTTGGGGACATGATTTTAGACCAGCTTATAGGAGAATTATTGAACTAGTAAAATTGCTTCCAGAATCAATACCTGTATTGGCTTTAACAGCTACAGCAACTAAAAAAGTCCAAAATGATATTCATACACAAATTGGTGGAAAATCTAAAATAATAAGAGGAGATTTGTTAAGAGAAAATCTTGTTTTAAATGTTGTAAGTGTAAAAAACGAACATGAAAAAATGGTGTTTATAAAACAAATATTAAATAGAGTTCCAGGAACTGGAATAATTTATACTGGAACAACTTCAAATGCAGAACTATTTTCAAAATGGTTTAAGTTTAATGGAATAAATTCTGTATATTATCATTCAAAATTAAAATCTTCTGATAAATATACGATCGAAAGAAAGTTAATTAACAATACAGTAAAATGTGTTGTGGCTACAAATTCATTGGGGATGGGAATAGATAAATCAGATATACGATTTATAATACACACTCAAATACCTTCTTCACCAATACATTACTATCAAGAAATAGGTAGGGCAGGAAGAGATGGGAAAAAAGCTTGGATTTTTTTAATGTACAATGAAAAAGATAAAAAATTACAAGAAAGCTTTATTGAAAGTTCAAAACCTTCTGTAACAAAGTATAACAAAGTAATAAAAAAATTAAAAGAAGAACCTTTAAAACTATCTGATTTGATGAAAAGTTTTAGAATAAAAGAGGTACAATTAAAAACTATACTCTCAGATTTAATAGAACAAAAAATAATTAGAAAAAATTCAAAAAGTTATTATGAATATATTCCAAATTCAAATGTTTTTGATGAAATGGCCATTGAAAAATTAAGAGAAAGAAAGTATTTAGAATTAAACAGTATGATTAATTACGCTTTAACAAATAAATGCAGAATGAATTTTCTAAGAAATTATTTAGATGATAAAACAACAGAAGTATGCAATAATTGTGATAATGATAGAAAAATAAAGTATGCAGTTAAAATAAATGATGATGAAAATAAAAAAATATTCGATTTTTTTGATTTATTGTATCCTCAAATAAAAGTTGATACAAAAAATGATATCTTAAATAATGGAGTGGCTTTTTTTAAAGATTCAAAAAAAATAAATTATATAATAAAAAATAAAGAAGATTTTCCTTATTATATGGTTTTAAATTTAGCCAAAGCTTTTAAAAGCAAGTTTGATAATGAAGACTTTGATATGGCATTATATGTTCCAAATGAAGATGAAATATATATAAAAAGATTTTCAGCTAAACTAGGAAAAGTTTTGAATATACCAGTAAAATATTATTTAAAACTATCAAAATATGGATTTGAATGTACTAGATCTTATGAATTTGTGGGTAAAAAAATTTTAATAATAGATGCTGTATATAAAAAAAATACTATTAATTTAATTGCTAATTTATTAAAACGTTTAGGTGCTAAAAAGGTAATTCCTTTAACAATTGCTATAGGGGAGGATGAAACTTTTGAATAAAAATGAATTAGTTTATTTTATGGCTTTTTCAAAGATAAAAAGTATAACTTTAGAAAAGAGAAATAAAATTATTTATTTTTTATATAACTATAATTATACGCTTAAAGATTTCTTTGAAAAAGAATGTATATGGAAATCAAAGTTTAAATTAAACGAAGAAGAAACAAAAGAATTAAAAGAAACAAAAAACAAATTAGCAAATTTTACCTTTATATTAGAAAAGATAGAAAATGATGGATATGAAATTATTCCATGTACTTCAAAGCATTTTCCTGTAAGATTTCAGCGAATCCCTTTAAAATTTAGACCCATTTTAATTTTTATAAAGGGAAATAAAGAGCTTTTAAAACATAAACTTTATTATATTTATGGAAAAAATAAAAAATATGAGTATATAATAAAAAATTCTGGAGATAATATTTTAATAAATAATGAGTTTACTCAAAATAAATGCATACATATGATTGATATTGATACCTTTGAAATTTCAAAAGAAGAGTACAAATTATACTCAAATAATGAAATTTTAATAATTGGAAATAATGATTTTCCTTATTATATTATATCAGACTATATATTTTTTATTGAAGTTCCAAATTTAAATTTTTATATTCCAAAAGAACCTATACTTTTTATAGATAATGATTTAAACTTTAAACAAAGTAAGTTTACTCAAATAAAAATATTGAAAAATAAGTTAATAAGAGTATAAAATTGATAAAATACTTTCAAAATAGAAAATCTAATTAAAAAATTAGATTGTTTATTAGAAGGTATTAAAGTTGTATGTCAATAATATCTAGAAATACAAAGAACATAGAGTTGATATATCTAAGCCAACAGAAAAATATATAAAATTGTCCTATATTTTAAAAATAAGATGCATGGATTCTTTAAAATATCGAAACCATGCATTTATGTCTACAATATTTTAATTTAATTGTCTACTTCATAAAAATTCTTTATTTTTTCAATATTTAAAATTTTGTCGTTTTTATCTTTATCATATTCTATTTCTATAAAAAAAATACCATTTTTTTCAAATATATATGGAATAATTTTTTTGTCTATATTTGATAAGTTTTCTTTTTTTAAATTTTCTTTTTTTATCCATTTTAAAACACCTTCATTACAGTACTTAGGAGTAAACTTTTTTATAGTTGATTTAAATATAAATAAGATCCAATTATAATATTCTGGACCAGTTTCAACAGTAATTAATTTCAATTCTAAATTATCTAATTTAACTCCTGTTTCTTCAAAATATTCTCTTTTAGCAGCTTGTTCTATACTTTCATTTTTTTCTACTTTACCCCCTGGAGCAACTAATTTTCCAAAAAAAGGTTCTTTTATTCTTTCTAACATTAAAACTTCATCATCTTCATTTTCAGCATAACATATAACTGCTTTTTTTTGTAATTCATTTTTTTTTAATCTTTTTATATCAATATTTATATTATATCTTTCAAATAATTTTTTCATATTTCCTCCATCATATAAACTTTAATAGTATCAGATATAAAATTTCTGAAATTAAACAAGTAGCTCCTATAACATCTCCCGTTATACCATTTATTTTTTTATAAGAATTTACTTTCATTATATAAGCCGAAAAAAAAGCTATTAAAATACCCAAAATAACAAATTTATAACCAAATGGTATTATTAAAAATGTAATTAAAGTAGAATAAAAAGTATATTTTTTTTTAAATGGAAAATATAGTGATCCTAATCCTTCTTTTTTTGCTGGTTTAGATATCGAAATCAAGTATACCATAGATAATCTAGAAAAAATAGGTGCAAAAAAACATCCTAATATAAATTCTTTCAAAAAAGAATAATAAATAATTAAATAAAGAATTCCAAAAAGTAATGCGAAAGCTCCTGTTCTTGAATCTTTCATTATCTTTATTCTTTCTTCTTTGCTTCTTATTTGTGCTCCAAATCCATCTATTATATCTACAAAACCATCAAAATGGAAGTATTGAAATAAATAGTAATAAATTATCATAATTGATGCCGAAAGCTGTTCTAATGTCAATATATTTTTCAATAGAAAAAAAGTTAAGTAATTTATTAATGAAGCCAAAACTCCAACTAATGGAAAATATATAGTTGATCTTTTCAAGTTTATATTTTTAACTATTGGCACTGGTATTTTACTTATACTTCCAAAAGCTACAAAAATATCTTTAAACATTTTTTAATTTTTTCACCACACTCAGAGTATCTTCAAGTTTGAATAATTCTATGCAAATTGGTAATTTAATTTTAAATTTTTTTAAAAATTTAAGGAAAACATTAAATTGATTTTCATCTGGTAAAGTATGCCCCTTTGAATTTTTTACTCCATGATAATGTATTTCTTTAATTAAATTTTCATACCTTCTATAAAACGAATCCGGTTTTTCTTCTAACATCAATAAATGTCCATAATCCATAGTAATTGATGGTTTAAGTGCACTAATTGCTCTATAATATTTGTTAAAATTTCCATCTTCTAAATTTTCTATACAAAGTTTTTCACCATATAAGTTTTTACCTTCTTCAAATACTTTTTTAAATTCTTTTATATCTCCAAATGGATGAATTGTCAATGCAAAAACATCTATATTTTTAAAGTAATGTATAGCTTTTAAACAATTATCTAAAGAATCAGTTGGAAGATGTATAGATATTTTCATAATTTTTAGTATTTCTGGTATTTCTTTATCCAATAACTCTTTAACTTCATCATTCCATGTATAAACTAAAAGTTCTGTAAAATCCACATTATCTTTAAATATTTTTATATTTTCTAAATAATTTCCTGGTACTTGCCATGAAGTAACTCCTATCATTTTATTTTCACCTCTATTCCCGACATCATCATATATACTTCATCTGATATCGATGCTATAAATTTATTTACTCTTCCCAACAAGTTAACATAAATTCTTGAAAGTTTATTTGAAGGAATTATTCCCCATCCAACTTCATTTGTTACAAAAATTACTTTTTTGGTTTTTTTACTTATTTTCTTAAGTGTATCTTTTAATTTTAATAATTCTTTTTCAATAATTTCTTCATAATTATTTTCATTATCCAATAAAATATTTGAAGTCCACATAGTTAAACAGTCAATTAATACAACTTCCGCTTTTTCTTTTAACAATGCAGAAGATAAATCTACTGATTCTTCAATTGTAATAAAATTATTTTTTCTCATTTCAACATGTTTCCTTATTTTTTCTTTTATTTCTTCATCATATGGTCTTGCCGTTGCTATATAAACTCTTGGTTTTTTTTCCATTTCTGCAAGTTTTTGAGCATAAGTTGATTTTCCACATGCCTGTCCACCAGTAATCAATACAATTTTCAAATATTATTCCTCCATTCTACCTATAAATTTTACATTATTTAATATTATATTTTCTGAAGAAGTAAATATACCACAAGTTGCAGGTCCTGCAGATTTATTAAAATCAATATCATACATTTCTATTATATTTACTTTTAAATTATTTTCTTTTTCTAATATTTTTAATTCATTTGAGATACCTTTAGATCCACATGGTAAAAAATCTCCAATTTTATGATTTTTAAATATCTCTTCTATCATTAAAGGATTTAAATTATCTTTTTCATTTTTTAAAACTTCTTTTCCAACTCTTGGTAAACCTATTAAATATACTTTATCTCCTTTTTTTGTATTTCTGAAATAAAGTTTATTACTTGTTCCCATCACTGTTAATCCAAAAGCAGTCATAGAAGTTTTAAAGTTTTCTTCTGTACTTCCATTAACTTCTATACTTTCTAAATTATTTTCTTTTAATTCAGATAAAATACCAGAATAAATATTTTTTCCCGTTTCATTCCATTCATTACTAACAATAGAAAAAACAACTTCTGGCTTCACTCCAACAGAATAAATTTCGTTTAAACACACTCTCATGTTATATTTAGCTGATATTTTAACCGGAATATTTAATTTGTCATTTTCTTTTTCGCCAATGGCTCCAACACTGTCTACAGCAAAGACAAAGTAAGTATTTTCTTTTTTAAAAATGCTTATATCTCTAAAAGTATTAATTTTTTTCGTAAAGTTCACCAACCTTTGGATATTTTTGTACCCCCAAGTTAGTAATGAATGCAAATATTATATTAATAAAACTTGCAAAAATCAAAAATGGAATAAAGCTAATAACAGCTTTCAATCCAATTAAAGGTATTACAGTTAATGGTGAAATTATCCCGTTTAAAAATACACCAATAATAATAGCAATTATTTTATTTTTTAAATACAAATTTCCAAAAATCCAAGTTATTAATAACATTTCTATTGCTATAAAAATATGATAAAACCCAAAAGGGAAACCAGAATTCCAAGACGTAAAAAAATGTCCTAAAAGTGCCACAACTCCTCCTAATAATGGAGAAAAAGTAGCCAAAAAAAATCCTGGAAATGAATCCAATGCAACAGATCCAAATGGAGAAGGTAATTTAATAAAACTCAATACAAAAGAAAAAGCAACAAAAATTCCAACTAAAGTTATTTTAGAAACTTTTTTCAAAAATAATCACTCCTTTAAAAGTTTAATCATCTTATTATACTATATTTTTCTTCTAAGAAAAAATTTTTGCATAAAAAATATAATTTTTATTAATAATCGATATTTGATAGTATTTTTTCTAACAAAAACGTCTATAACTTAATTTTTTTTAATTTTATAATCTGTTATAATAAAATCGGAAAATTTATTATATAGGGGGAATAAAAGTGAAAAAACTTTTTATAGATGGTAAAAGTCTTAATATAGAAGATTTTATAAATGTAGCAAGAAACCATTATGAAGTTCATTTAACTGAAGAAGCCAAAGAAAAAATGCAAAAATCAAGAGATGTTGTAGAAAAAATTGTTGAAAATGAAAAACCAGTTTATGGTATTAATACTGGATTTGGAAAGTTTTGTAATGTGAAAATTTCAAAAGAAGAAAGCAAAAATTTGCAAAAAAATTTAATAATGAGTCATGCTTGTGGCGTTGGAAACCCTTTAAAAGAAGATGCTGTTAGAGGTATTATGCTTTTAAGAGCAAATGCTCTTGCTAATGGTTTTTCTGGAATAAGAATTTCTACAGTTGAAACCTTACTTGAAATGCTAAATAAAAATGTTATACCAGTTATACCAGAAAAAGGATCTTTAGGTGCTAGTGGAGATTTAGCTCCTTTAGCTCATATGGTACTTGTTATGCTTGGGATGGGAGAAGCTTATTACAAAAACGAAAGATTAAGCGGTAAAGAAGCTATGAAAAAAGCTAATATAAAGACTATAGAATTAGAAGGAAAAGAAGGTCTTGCGTTAATAAATGGAACACAAGTTATGACTTCAATAGGTGCACTAGCTATTTATGATTCAAAAATATTATTAAAAACTACAGATATTGCAATTTCAATGACTTCAGAAGCTTTAGAAGGTATTACAGATGCCTATGATTCATTAGTACATGAAGTTAGAAATCAAACTGGTCAAATAATCACAGCAGAAAACTTAAGAAGAATTTTAAATGGTTCAAAAAACACAACAAAACAAGGTGAAAAAAGAGTTCAAGACGCTTATACATTAAGATGTGTTCCACAAATTCATGGTGCAAGTAAAGATGCTTTTAATTATGTAAATAATGTTATTAACAATGAAATAAATGCTGTTACAGATAATCCTATAATCTTTCCTGATGAAGATAAAATTATATCAGCAGGTAACTTTCATGGTCAACCAGTAGCACTTGCTATGGATTTTTTGGCAATTGCAATATCTGAGATGGCTAATGTTTCTGAAAGAAGAATTGAACGATTAGTTAATACAGAACATAGTAAACTTCCAGCATTTCTAGTAAAAGATGGTGGAGTAAATTCTGGATTCATGATAGCTCAATATGCTGCTGCCGCTCTTGTTTCAGAAAATAAAGTTTTGGCACACCCAGCAAGTGTTGATTCAATACCATCTTCAGCTAATCAAGAAGATCATGTTAGTATGGGAACAATTGCATCAAGGAAAGCTAGAGAAATAATATACAACGCATCAAGAGTTTTAGCTATTGAACTAATTGCAGCTGTTCAAGCTATTGATTTACGTGGAGGAAAAGAAAAATTAAGTCCAGCTACTAAATCCGTTTATAATTTAATTAGAAAAAATATTTCATATTGGGAAAAAGATAGAGAAATGTATCCTGATATAAATAATGCTGCAGAATTAATTTTAAATAATTCAATAGTTAAAGAAGTTGAAAACATAATAGGAGAAATAAAAATATAATAAAAAAGCAGCTTAGCTGCTTTTTTATTTTGATGTATCTATTATTGTTAAATAAAGTTCATCTTCTGAAACTTCCTTTTTTACTGTTTCCCAATATTTATCTTCATCTATATGATTAAAATCATATCCATCATAGTAAACAACTTTCCATTCTTCAGGAAATGCATAATTCCCCAAATTAAATCTTTTTAAATTTTCTTTCATTTGATTTAAAATAAAATCATCTTCAGGAACTTTCCCTTCAACCCTTTTTATCATATTTTCATTTGCTTCTTTTAATCCTTTGTACATACTCATCATAGTATTAACTGTTTCTTCAAAAAAATTTTTATCATTCTTATAATTTATGCACGATGAAACACTTGATTCTCCATATCTTAAAGAAGCTTTTTTAGCATTTGAATATGCTTCATTTTCTGACTTTGCTTTTATTATCATAGCATAAGTGTGCACTTTATCACCTCATATTTGTATTTTTATACACAACTTATTATACAAAATTTTTCTTAAATATTGTATACAATTTATTTGCACTTGCATCATATTCTTCAGGATTTTCCCAAGTATTTCTAGGATTAAGTATATTTGAAGGAACTTCTTTACAATTTGTTGGTATTTTTAAATTTAAAGGCTCAAATACTTCAAATTCTTCAAATTCATTATTAATAGCTGCATCAACAAGTCTTTTGGTATACCTTAATTTTATTCTACTTCCAATACCATATGGTCCTCCTATCCATCCAGTATTAACAAGAAAAACTTTTGAACCATGTTTTTTTACCATTTTCACAAGCATTTTTCCATAAACTTCAGGTTTTAATGGTAAAAATGGTTTAGCGAATCCTTCTGAAAATGTTGCTGTAGGATTTTTAACTCCTCTTTCTGTTCCTGCTAACTTAGCAGTATATCCAAGCATAAAATATTTAAAAATTTGATCTTCATTTAATTCAGATATTGGCGGTAAGATTCCAAAAGCATCTGCTGATAAAAAGAATATCGTTTTTGGATGACCTGCAATTCCATCTTTTTTTACTGTATTACCAAAAAAAGAAAGAGGAATCGATGCACGTGTATTTTCTGTAATTGACGAATCTAAATAATCTGGTAATCTTTTATCAGAATGAACTACATTTTCTGTAAAAACACCAAACTTTAAAGTATCATATATTTCTTTACCATTATCTTCAGAAACACCTATTATTTTTGCATAACTTCCACCTTCTATATTAAAAATACCTTCATCATGCCAACCGTGTTCATCATCTCCAACCATTAATCTATTTTCATCTAAAGATAAGGTTGTTTTTCCAGTTCCAGAAAGTCCAAAAAATAATGCTGGATTTTCACCATTTAAATCTGTGTTTGCAGAACAATGCATTGAAAAAATTCCATGAAGTGGTAAAAAATAATTCATATATGAAAAAATAGATTTTTTTATTTCACCAGCATACCTTGTTTTTCCTATTATAACTTCATGATCAGTTGGATTCAATATTATAAAGGCATCTGAATTTGTACCATGGAGTTTTTTATCTGCTGAAAATTCGGGAGAAGAATATATATTCATATCTGATTCTTTAAAGTCTTCTTTGGCATTTATTACTAAATTTTTAAATGTAAGTGCTTGTATTGGTGAAGTTGTAATAATCTTTACTTTTAACTTATATCTTTCTTCAGCACCAGCATAGCCATTTTCAATATAAATTTCTTCTGTGTTTTCAATATGTTCTTTTAAGTCATTTCTCAAATCAACATATTTATACTTAGAAAATGGTTGATTAATAGAGTTCCAATTTATTTTATCTTTAGTTATTTCATCTATTACTACAAATTTATCTCTTGGAGAACGACCTGTATAAGGCTCTGTTATAGTGTTTATAGTACCATTCGATAAAAGTTTTGCTTCACCTTTTTTTATTGCTTGTTCAATAAGATAAGCTCTTGATGAGTTAACGTGAACAATCTTTGTTGATAACATTTTAAAACCTCCATCATTAAAATTATAATTCTATATACATATTAAAACATTTTATTTAAAAAAATGTAAGTTTATATTTTAAAGCAAATCAAAAATTTTCTATAACAATTAAGTAAAAACACATTTTATTATTTGTAATTAAAAATAATGAAATTTTTTTCATATATAAAACAAAAGAAGGTGTAAACACCTTCTTTTGTTTTATATTACATCCATTCTCTTTTTACATAATGTGTATGCAATAAATGATGAGCTTTTTCACTACCAGGTTCACCAAGAAATTCTTTGTACAAAGTTTTAATTGATTCATTTTCATGAGATTTTCTAACTTTTTTATTTCTATCTACATTATTCAATGCTTCAGCTCTCTTTTTTATTATACTCAAATCTCCATGGTGATAAGGTTGTCCACCTCCACCAACACATCCACCAGGACATGCCATTACTTCTATTAAATGCAATTCAATTTTCTTTTTACATATATCATCAAGAAGTTTTCTAACATTACCAAGTCCAAATGCTACAGCAATTTTTATAGGTTTACCATTTATTTCTACTTCTGCAAATCTTGTCCCTTCATAACCATGTAAATCTTTAAATTCAACTTCTTCTAAAGTTTCTCCTGTTAAAACTTCATAAGCAGTTCTTAAAGCAGCTTCTGCAACTCCTCCTGTTCTACCAAAAATATCAGCAGCACCAGTTGATTCACCAAGTGGAGAGTCATATTCTTCTTCAGGAATATTATCAAAGTTCAAACCTGCTTCTTTTATCATTTTTGCAAGTTCTCTTGTAGTTAATGAATAATCAACATCTTGATACTCTTCGCTAGAATTTATTTCTGGCCTTCCTGCTTCATATTTCTTAGCTAAACAAGGCATTATTGAAACAACTTTCAATTCTTCTTTTGGATCTTTATTTACCTTTTTAGCATAATATGTTTTTGCAATAGCTCCAAACATTTGTTGTGGAGATTTTGCTGTTGATGGCATTTGTGTAAGTCCTGGGAATTGATGTTCAAGGAACTTAACCCATCCAGGACAACATGATGTCAACATAGGCATGAATCCACCATTTTTTAATCTATGAATAAATTCTGTTCCTTCTTCCATTATAGTAAGATCGGCAGCAAAGTTTGTATCAAAAACAGCATCAAAGCCAAGAGCCCTTAATGCACCTACTAATTTACCAGTTGATATTGTTCCAGGTTCATATCCAAATTCTTCTGCAATAGCAACTCTTACAGCAGGAGCAGTTTGAACAACAACATGTTTTTTAGGATCTTCTATTTCATTCCAAACTTCATCAATATAACTTCTTTCAGAAAGAGCTCCTGTAGGACATACTGCAACACATTGTCCACAGAAAGTACATGCTGTTTCTTCAAGAGGTAAATCAAATGAAGGCTTAACTGTTGCTTCAAAGCCTCTATCAACTGCTGATAATACACCAACTGTTTGAAAAACATTACATGCAGTTTCACATTTTCTACACATAACACATTTTGATGGATCTCTTATTATTGCAGACGATATATCTTTATCATATGTAGATTTTTTTCCTATGTAAGGATTTCTAACTATATTTAATTCTGCTGCTAAGTCTTGAAGATCACATTCTCCATTTTTAGGACATTTTAAACAATCATTTGGATGATCAGATAATAAAAGCTGAACAACAGTTCTTCTTGCATTAACAGCTCTTCTTGAATGAGTACTTATTTTCATTCCCTCAAATACTGGTGTAGCACAAGAAGGAGCTAAATTTCTTCTACCTTCAACTTCTACAACACAAACTCTACATGAAGCTGGTTTATTTTCAATTCCTATTTCTTCAAGATTCATATAACAAAGAGTTGGTACATATCCACCAGTCTTTTTTACTGCATCAAGTACAGTTGCATTTTCAGCAACTTCAACCTCTATATTATTCACTATTACCTTTGGCATTAACAAGTCCCTCCTTATTATGATTTAGTGATTGCACCAAATCTACAAGTTGCATAACAAGCACCACATTTGATACATTTTTCCTGATCGATTTGATGAGGTTTTTTAATTTCACCTTTTATAGCTTCAACTGGACAAACTCTTGCACAAGCTGTACATCCAACACATTTTTCAGGATCAATTTCAAATTTTATTAAATTCTTACATGCACCAGCTGGACAGGTTCTTTCATTAACATGTGCTTCATATTCATTTCTAAAATAATGCATAGTTGAAAGAATAGGATTTGGTGCTGTTTGACCAAGTCCACATAAAGATGTATCCTTTATTACCTTTCCAAGAGTTTCTAATTTTTCTAAATCTTCTGGCTTTCCTCTTCCACTTGTTATTTTTTCAAGAGTTTCTAAAAGTCTTACATTTCCTATTCTACAAGGTGTACATTTACCACAAGATTCTTCAACTGTAAAGGTTAAATAAAATTTGGATACATCAACCATGCAAGTTGATTCGTCCATTACAATCATTCCACCTGATCCCATCATAGAACCAAGAGCCATTAAATTATCAAAATCAATAGGTGTATCTAAATATGCTGCAGGTATACAACCACCAGATGGACCTCCTGTTTGAACAGCTTTAAACTTACCATTGTTTCTAATTCCTCCACCTATTTCACAAAAACAATTTCTCTTAAAGTTGTTCCCATAGGAACTTCTACTTAAAGTTGTTCCCATAGGAACTTCTACAAGACCTACATTATTAATTGCTCCAGCAAGAGCAAAAACCTTTGTACCAGGTGATTTATCAGTTCCAAAAGATCTGTACCAATCTGCACCTTTTAATACTATAATTGCAACATTAGCATAAGTTTCAACATTATTTATCAATGTTGGCTTGTTAAATAATCCACTGTTTGCTGGAAATGGTGGTTTTGTTGTTGGTTCACCTCTATATCCTTCAATTGAATGTATTAAAGCTGTTTCTTCTCCACAAACAAAAGCACCAGCTCCTAGTCTTATTTCTATATCAAATGAAAAATCAGTTCCAAATATATTTTCTCCCAAGAAACCAAGTTCTTTTGCTTGTTTAATTGCAATTTCAAGTCTGTGAACTGCTAATGGATATTCAGCTCTTATATAAATGAATCCTTTACTTGCACCAATGGCATAACCAGCAAGTGCCATACCTTCAAGAACAGCATGTGGATCTCCTTCAAGTACTGATCTATCCATGAAAGCACCTGGATCTCCTTCATCAGCATTACATATTACATATTTGATATCTCCATTAGCTTTTTTAGCAAAGTTCCATTTTAAACCTGTAGGGAATCCGCCTCCCCCTCTTCCTCTTAAACCTGAATCTAAAACTGTCTTTACAACTTCATCTCTTGACATTTCAGTTAAAGCCTTTGCAAGTGCAATATATCCATCATTTGCTACATATTCGTTTATATCTTCTGGATTTATCGAACCAGCATTTCTAAGTGCAACTCTTACTTGTTTTTTATAAAATGGCATTTTAGGTGATTCTTCTATTTTTTCATTTTTTTCTGGTTCAACATACAACAATCTTTCAACTCTTCTACCTTTTATAACATGTTCGTTAATTATTTCTTCCACATCTTTTTCTTCAACTTTTACATAAAAAGTATTGTCTGGAAGTACCTTTACAATAGGTCCTTGTTCACAAAATCCAAAACATCCTGTTCTTACAACCTGTATATCTTTATTCAAATTATTTTTTTCAAGTTTTTCATTAAAAATATCTATTATATCATTACTTCCTGATGATGTACATCCTGTTCCGCCACAAACTAGAATGTACTGTTTATAGTTAGCCATTTTTTAACCTCCTATTATTCAGCTCTTTGATGTGTTTCGCCTATAATCGAGTCTTGTAACAATTCATTATTTAAAATATGTTTTTCAATTATTTCTGAAGCTCTATTAGCTTTTATGTTTCCGTATAAAACTGGTTCTTTACCAACTTCATTAACTTCTACTGTTGGTTCAGCATGACAATATCCCATACATCCTGTCTGTACAACAACAACATTTTCTAATCCTTTTTTTGCTATTTCTTCAACAAGAGCATTAAATGTTTCTTTTGCACCTGCTGCAATACCACAAGTTCCCATAGCTACTTTAAGTATTATTTTATTTTCATCATTAGCTGCATTTCTTATTGTTAAATTCTTTTTAGCAGTTTCTTTCATTTTTAAAAGGTCTTCAAGACTTTTTATTTTAGCCATAAAATTCCCTCCTTTATATGGTTTCAGCTTCCTTATCTTTTGCTCTATATTCATCAATTAGTTTTTTCATATCAGATTTTTTTAACCTTCCATGTACTTTATCTCCTATCATAACAACTGGTGCAAGACCACAAGCTCCAACACATCTTACAGTATGAAGTGAAAACAAGCCATCTTCTGTTGTTTCACCTTCTTCAATTCCAAGAACCTTCTTTAGTTCATCAACAAGATCGCCAGATCCTCTAACATAACAAGCAGTACCAAGGCAAACACTAATAGGATATTTACCTTTTGGTTTCATAGAAAAGAAATTATAAAAAGTAACAACTCCATAAACTTGTGAAGTATGTACTTTTAATTTTTTTGCTATCAACTTTTGTACTTCAACAGGAAGATAACCTATTAAATCCTGTGCTTTATGAAGACAATTAATCAAATAACTTCTTCTTTCCTCTTCGCTCTTGTTTTCAACGCCAAGAGAGTCGATGTAAGCTTCAACTTGTTTCAACTGAGTTTCTAACATATCTGACATCTTCTTCCCTCCTAAATAAGATAAATTTTATCTAAATTGTTTTTTATTTCACATATTCACATTTTTAAAAACCTTTTAATTCAATGTTTAATTTAAATAATGTCCCTTAATACAAGTATACATCATAAAAAATTTTTAAGATTAAAATTATCTAAATTAAATTTTAAGTTTTGTTTATTTTTTATATAATATATATATATTATTTATATATTGATTTTTTATAAATAAATTAAAAGTTGTATTATTTAATAATAACAATAATTTCAAAGCTTTTTAAAAATATTTTTTGATATTATTATTAATAAATATTATAAAAAACACTTTGTGATTTTTTTAGTAATTAAAATATAAAAAAGGTAGAATGATTTTGAACAAAGTCATTCTACCATATTTTTTTTAATAATGTCAACTATGATTTTAATTGTTAATTAAATTTAATAGTTCTTGAGCTGCATTATATGGCCCATCTTTTTCGAAACCAGCAATTCCTAATTGAGTTTTTATTTGTCCAACCTTAACACCTGAAGATATCATACTTTTTAAATAAATTTTTGCAGTTTTATCATGTTGTTGCTTTTTTTGTATTGCACCAAAAGGATTTGCAAAATAACTATAAGTTAATCCTTTTTCTGAAGTTGTACCTTTTGCCATTCTTGCTCCTTTTGAAAAAATTTCGTATGCACTTTCAGATGAGTCAAAAAATTCTATTGCTTTTTCATTTTCCTTAACTTTTTCATAATTATTTGCATAAAAGAAATAATCTATCTTTGTAGGTTTTATTATCTCTGAATAATTAGAATAAGGAACTATTATTCTTGCATTTATCTCATTAGGATTCATAAATATACTTCTATCCATTGCAGAATAAGCATATCCAGGTTGTAAATCATCCAATCTAACAAATGCTCCTGTTTCAGTTCCATATGCAACTATTTCTCCAGTTTTTAATATATCTAATGATCCCATATCATCAATTAAAATATTTACTTCTGAAACATTTTTATGTAGCCTATTTAAAGCATCTAAAGTTTCTGATTTTCCCGCTCCAGAATCCCCCATAATCATTACATTAGCTTTTTTACCATTTCTAAGTTTTATTTCAGCAAGTGCTCCATGTATAGGTAATCTATTTTCATCTATAACTATTAGATTATGTATTGTTAAAATAACTTTTTTCATATATCCAAAATAATCTATTGAAGGATCATCTCCAACTATTCCAACATAAGTTCCATCTTTTTCATGATATATTACTCCATTATAATCATCATCTTCTTCAAAAAAATTTTTATCCATTCCTAAAATATAAATACCATCTGGTTTTACATTGTTTACTATTTCAAAACTTGCCAATTCAAACAAGTTTCCTAATCCAGCTGCCAAAGCTAAATATTCTTTATTAACTACTACATGAATTAATTTTTTACAAACATGTATTGGGAATACAAACCAATTTTGAGGATTTAATTTTATTTTATCTAAAATTCCTTTTTCTTTTAATTTAAACAAACCTCTTCTTTTATTAGATTTAGTATAAAAAATTACTGGTGGTTCAAAAACAAAGCTCCACACATGTTCCATTTTATACAACCATTCTGCATTTATTTTAGCTTTTTGTTTTACATTTGGTGTATCAACAATAAATCCAACTTGTGCTCCGCCTGGAAGTTGTCTAAGAATTTTTAATCTAGTATCTGAAATATTTATTAAAATTTGTCTATACATACTCAAAACCAAACTTTTTAAATCTGAATTTGTTTTTACTAAAACCATTTGTTTGAATATTCTTTCAAATCTATTATGAGTAAACTTATCTTCCTTAACTATAAACCTATGTTTATTTCTCCACAAATTAAATAAATTTTCAACAAATTTTACGAGTAAGTCTTTTTTATTTCCCAATTTTGGAAAACAATAATATGGTGAGCCATCTACTTCTTCAATTTTATTTTTAGTCAATATTAAGAGAAGCTGTATAATTGCATTTATATCATATTTCTTTAATGTATCTACAACATCCGTATCAACTAAAAAAAGATCAAAAAATGGCATAAGAGAATTCTTTTTCTTTTCTGAATCTTCAATTATTTCCCCAATTAATAATTTGAAAATATTTGAATTTAAAAGTTGTGAATTGGCATTAAATGAAACGTCACCTTTAATAATAATACTTCGCATAACTTATCCCTCCCTATTCTTCAGAAATTATATTTTTATACATTTCATCAATTTTTTCTTTTTCTTCTTTTATTAATATCATTTTTTTCTTAGCATACGTCATTATTTCCATAGATTTTTTATAAAGATCTAAAGATAATTCAATATCAGTATTTTCTTGATTGCTTTCAAAGTAACTATTTATACTTTCTAAAATAGAAATTAATTCTTTCAAAGAAAGTTTTTGTATTTCAGATTTTTTCAATTTCAAAATTTTTTCCATTTTTTACACCTCTTTTTGTTTAATTTTTGCTTTAGCATTACCATCTTTAAATAAAATATCAACTTCATCATTAACCTCAAGTTCATCTATACTTTTTATTATTTTTTTACTTTTTTTCACAACAGCTCCTCCACTTAAAAATGCAGAAAAAGGACTATTTTCTGTTAATTTAGAAAACACTTTTGTAAATTTATTCTCAACCATTAAAATATTGGTAGAAAAATATTTATCATTTTTAATAAATATTTTATTCAAATTTTTTATTTCTTTTTCAATATCTTTATGAAAAAAATTTTTTAAAAAGTTTACTTTAGGCAAAACTATTTCTTTAGTAGATCTTTCTAAATTTAATTTTATAAAAGTAGAAATGTTATTTATTTTTTTATTATAGTTTATTATTTCTTTAAATAAATAATTGGAATTCGATTTAAAATTTTTTACTGTATTTTGCTCAAATATATTAAAAAAGAAATTAAAGGATACTTTTAGGTTTTTTTCTAAATTCAATAAAATATCATTAAAATAATTTATTTGATTTACAATATCTCTTGAAACTTCAGTTGGAGTTGAATATCTTTTCCAAGAAGTATAATCAGGAATAGTTGTATCCTGTTCGTGACCAATTGCACTTAAAATTGGTATTTTAAATAAAGCAATTTCTTTGCCTAAATTAAAATTATCAAAGTATATCAAATCACTTTTTGATCCACCGCCACGTGTTATTACTACTACATCATAATTAATTTTTGATTTTTTAATTTTTGAAAGCGCTTTTAAGATATTAGGAACAGTTTTAGCTCCTTGCATGCTCGAAGAATATAAATGTATAATAGGAATATTTTTAGCGTATTGAATATTTTTTTTAAAATCTCCATATCCAGCAGCTGTTGGGGAAGTTATAATAGCTATTTTTTTTATCGGTTCAAGATCTAATAAACTATTTTGATTTTTATTAATTAAATTTTCTTTTTTTAATTTTAACAAAATTTCTTTTTTCTTTTTATCTATTTCAGAGTTTCCAAATGGAATAATTGAAGACCCATTTAAAACAAATTTAGCATTATACTTCCATAATTGAAGTGTTCCTTCTATTTTCCATTTTTTATTTAATAACTCTCTTTCATTATTTAAATTTAACCTTTTTAGCAAATAAGGTATCATTAATTTTGAAAAAAATACAGTCAATGAATAATTAGTATTTTTATCTCTTTGAGAGATTTCTAAATATAAATCTCCATTTTTACTCTTTTTTGCAGAAGTAATATCTCCTGTTATAATAACAGAAGTATTATAAATTTCTGATCTTTTATAAAAATTAGTTAAATAATCTAATAATTCAGATAATGTCTTAAATTCAAGAATTTTTTCCTGAAAGAACAACAGTAAACTCCCCCTTTATACTATCTTTACTTTCAAAAAAAGAAATAGCTTCATCTACAGTTCCTTTAAAAAACTCTTGATGAATTTTTGTCATTTCTCTTGCAAGAAAAATTTCTCTGTTTCCCATTATATTTTTTATATCCTTTAACGTTTTTAAAATTCTATTTGGGGAATCAAAAAATATATGTAAATATGGTAAATCTACTATATCTCTAAATAACCTTCTTCTATTCTTATCTCTTGGAATAAACCCATGAAACAAAAATTTAGAACCGGGAAATCCACTGGCTGCTAATGCTGTAAGAGGTGCACTTGGACCTGGGACAACATCTATTTTCACATTATTTTCTCTACATTTTTTAACTAAATGAGATCCCGGATCGGATATTACAGGCATTCCAGCATCTGAAACCAAAGAACACACATTATTTTTTACAATCAATTCAAATGCTTTTTCTAAAACTCTTTCTGCATTTGTTTGATTAAACGTAAATAATTCTTTTTGTCCTATTTCTAATTTATTTATTAATTTTAAAGTGACCCTTTTATCTTCTGTAAATATTACATCTGATTCTTTTAAAATTCTTATTGCTCTAGGACTCATATCTTCCATGTTTCCAATGGGTGTTCCTATTAAATATAATTTAGACATTTTTTCCCTCCACTAAAAGTTCTTCTGGTGAAATATTACATTTTTCAGAAAGAAAATAATTTGAAAAGTTTGCTGCTTTTGGTAAAAAATCAAATTTATTCTTTATGTAATTATCAAAAGAATCTATTCTTTTACTTTTTTCTTCTATTTCAAGTAAATATCTTATTTTTTCATAATTTTTATACTTTATTGAATTTTTTGGATTTAAAATTTCATCAATAATTATTTCAGGATCAAAAAAAAGATAGTATCTTTTTTTTATAACAACTTTAAAATCTTTTAATGAATCCATATTTGGTTTTGAAATCTTATATTCTTTTTCTATTCTTTTCAATTCATTCAATGGAATTTTTATATTCTTTGTCCATAATTCTTCATTATTTAATATTTCAACTCTTATACGTTCATTTTTTTCATTATACCACTGAATTATAACAGAATATTTAATTGCATTTTTTATTAATCTTTTGAAATTTTTTTCATTTAATATATATTTTTTTTCTTTTTCAATCAAAATTAATCACCTCAAAAAATTATATCATGAACAGTTGTAATTTTACCCAATTTTATGTTATCATTGAGTATATAAAAAAATATAAAAAAGGAGGGGTTTATTATGTCAACAGAAATAAAAATAGTAACCTTTAATCTTGGAAATGAAAAGTTTGCTCTTGACATTATGAAAATTGATACTGTAGCCGAATACGAGGATGTTACAGTCATTCCACATGTTGCAGACTATGTTGAAGGTGTAATAAACTTTAGAAAAGAATTTGTTTTACCTTTAATAAATATGAGGAAAAAATTTAAACTCCCTGATTTTGAAGATAAATCTAAATGTAAAATTTTAATAATTAAACAAGAGGATAGAAAAATTGGTATAATGATAGACGATGTTAAAGAAGTAAAAAACATAAGCTCCGATTCTATTGAAGAAACGCCTGCCGTTGGTGGAATGAATAATATTAGATTTATAAGTGGTATAGCTCGTTTAGATAATGAAATGTTAATTATCCTTGATATGGATAAACTTTTAACAGCTGAAGAAAAAATGGAATTAGACTCTTTAGTAAAAAAAATATAGTCTATAATGGCGCTCAGCGCCATTATTTTTAATGGAGGCAGATGTTGAAAAAAAGTAAATATTTAAATGGGTTCATTTTTTCAGTAATAATAACTACATTAATCATTTCTTCTTTTACAATTACTAGTGGTGTAAAACAAAATATTAAAGAACTTAAAAATTTTTCCATTAAGTTCGCTTTTTTTTCTATGTTTATAATAATTTTAAAATGGTTTGTGGAAACTTTAATTTTAAAATTATCTTTATTTGATGAAAGAAAAAAAATATCTTTTTTTAAATTATTCAAAATAATTATTTTAGGTCAATTTTTTAGTTATTTAACTCCGTTTTATACTGGAGGTCAACCTCTTCAAGTATATTACTTATCTAAAGAAAAGATAAATCCAAGTGTAGCAACGGCTTCTATACTTTATAAATCAATGTTTTTTCAAATAGTTATGGTGTTAATGGGATTTATTGGTTTACAGTACTCTTCACATTTAAATAATTATATATTTATTATTTTAATATCTGGAATTTTACTAAACGGTTTTGTTGTTTTTTTAATATTATTTTTTTCTTTAAACAAGGAATTATCAAAAAAAACTGTCAAAAAAACGACTCTTTTCTTAAAAAAAATAAAAATATTAAAAAATCCACAAAAACATATGGAAGAAATAATGAATAAAGTTGAGGAATTTGTAAATTTTTTTAAAAAAAATTCAAAAAATTATGTTTCATTATTTAGTATATTTATTTTAAGTATTATTCAATTATTACTTTATGTTTTTACAAGTATGATAATATTAAATGGTTTTGGAATAAAATTAAATTTAGATTTATTTTTTAGAAGTTTAATCTTAGATGTTGGATCTTCTGTTGTACCAACACCTGGAACATCTGGTGGAGCTGAAGGATTTTATTACTTAATATTTTCTAATAAAGCCAGTATTTATGTTTTAAATACGTCAGTATTAATATGGCGTTTATCAACATATTATTTTGTTTTATTTATTGGTAGTTTATTTTTTCTTATTTCAAAGAAAAATAGGAGGAGCACGTAATGGATTTAAAAATTTCTGAATTAAAAGATATGTCATATAAAATTTGGGAAAAAAATAAAGATAAGTGGTCTCCATTAAATCCACAAGAAGCTCGTAATACTTTTTTATGGATGATTGAAGAAATTGGAGAAACAATACAAATTTTAAAAAAACGTGGAGAAAGCGAAATAATGGAAAATACTTTTGTAAGAGAAAAATTTATTGAAGAAATGTCAGATATAATATTTTACTTTACTAAAATAATGCTTTCTTATAATATAAGCGCTGAAGAATTTTCTAAAATTTATATAAAAAAATTTGAGAAAAATATGATTAGAGATTATGAAAAAGAACATATGAATATGTTTAAGGATTAATTATATGGAAATCATAAAAAAAATTAAAAATTTTAAAAATGAAACAATTGGTATTAAAAATCACTATTCAATATTAATACCATTAATAAAAAAGAATAATGAATATTTTTTATTATATGAACTTAGATCTTCAACTTTAAAAAATCAACCATCTGAAATTTCATTCCCAGGTGGAAAAGTAGAAGAAAATGAATCTTACAAAGAATGTGCTATTCGCGAAACATATGAAGAAATTGGTGTAAAAAAAGAAAATATAAATATATTAAATAAAGGTGATGATTTTTATTCACCCTTTGGTTTTTTAATTCATTCTTATATTTGTACTATTAATACCAATGATTTTAAAATAAATAAAGCTGAAGTAGAAAAACTATTATTTGTTCCAATAAATCATTTAAAACTACAAAAACCAGAATTATACAATGTAAATATTATTGCTAAACCAAATTTATTTCCCTACAACAGAATACCAAATGGTAAAAAATATAAATGGAAAAAGGGAACTTACAATGTTTATTTTTATAAATACAACAAATATTATATATGGGGACTAACAGCATTTTTTACTAAAAAACTAATTGAAAAATTATAAATAAATTTTTTTAATCAGAATATGATATAATATTGTTATACAATTAAAATCTATTATTAACCTTAATCAAAAAGAGCGAGATGATTAAATTGACTTTAAACACTTTTGTTTTAAAGAATTTTAAAATAAATTTCATTATTTTTACTATATTAGTAATATTAATAATATTTTTATCCATATTTTTAGGATTTGAAAAAATGTATGAAACAAAAGCTTCTGAAAGTGCAAATGAGATAGTTAAAACCTTTAATTTTTTTATAAATAAAAAAATTAATTTTATTTTTGATATATTATCTTCAAAAACTATGACTTTCAGAAAATACCCCGCTAACTTAGATGAAAATACTATCATTTCAATTATAACTAACAATAAACTTAAAACAAAAGATGGCTACATTGACCTTTCAAATTGGATAAATGATAAAAAATTATACAAAATTGATAGTGGCATATTTTTCAATAAACATACTTTAAAAATCCTAAGAAAAGAACAAGATGATAATTATCTTTATGCAGAAATATGCTTAGATAAAATCTTAGATTTATTAAATTTTAAAAAAGATGAAACATTTTATTTGTGCAACTCAGAAAATATAATTCTTTTGTCTAATAACAATTCTACAATAGGAAAAAATATAGAAAACTGGAAAAACAATACAATGTTTTTAATTCCAAAATTATTTAATAAATATGTATTTTTTATAAAAAAAGAAATACCTAATGATTTATACTTTGTATATACTGTTTCTTTAAATAGTTTTTTTAAATTTTTATTCTTTATTTTATTTGGAATTTTAATAACTATTTCAATAATATTTTTTAAATTTTATAATACTATAAGTTCTAAAATTTCATTTATTGTTGATTATATAAGTGAATTTAGTATGGAACTGAGTAAATTTGATAAAAATATAGCAATTAAAGAAACTATAAATATTAAAAATTCTAATATAATAGAATTAGATAAAATAAATACTGTTTATATAAATTTAATAGAAAATCTTCAAAGTTATTCAGAAGAACTCTCAGAAAAATATTTAGAATTAAATAAACTAAATAAAGAACTTTATACAAGAAATTCACAAATTCTTTTATCTTTATCTAAAGGTATAGAATTAAAAGATAAATATACCCTTGGGCATTCTAAAGGAGTTTTAGAACTTACTAAATACATGATGAATCAATTAAATTTAAAAAAAGATACAAATTTTATGCAGCAAGTAGAAATTGGATGTATACTTCATGATATTGGTAAAATATTTATTCCAGATGAAATATTAAACAAACCAGGTAAACTATCAAAAGATGAATTTAAAGAAATAAAAAAACATCCTCAATATGGATATGAACTTTTAAAACCTATATCTAATTTGCAAATTTCAAAAAACATTATAAAGTATCACCACGAAAATTGGAATGGAAGTGGCTATCCTGAAGGACTTAATAAAAATGAAATTCCATTAGAAGCACAAATAGTTGCTTATGCTGATATGTATGATGCAATTAGAAATAAAAGAGTTTATCACAATGAATTATCAAAAGAAGAAAGCATAAAATTAATAAAATCTGTTCAAGGTATAAAATTAAATCCAGATTTATTTAATGCATTTTTAAAAGCTGTTGAAATTTATGAAAAAAATCGAGAGGAGATTAAAAAATGAAAAAATTCTTGATTTTACTAATTAGTGTTTTTATTATTATTTCCATTTTTGTTTTTCTTCCTAAAAAGAAAACTATAGCAGTTTTTAATTTATTTACAAATGATTTAGAAAGTTATCCAAGAGAAGCTATAGAAACAGCTATAAAAAATGGAATAGGAAAAAACTTTAAAATAGTTTATATACCATATGACTCAGTTGAAAGAGAAGAAGTTAGAAGTATTTTTAAAACTTCTTTAAATAAATACAAATTTAAGTATTTTATTCATGCTACCAGCAGTACAATTTTTTCTTACATTGATGACATTGTTAAAGAAAAGAAAATATTTGGAATAGGATCTACAGTTACTTCACCAAAAGTAATTGGTAAAAATCCTTACTTTTATAGTATAAGCATTAGTGATGACTTGCAATCAAAACTTATAGCTAAAGAAATAAGCAAAAGTAGTACCTCAGTATTAATAATTAAAAGTGACAAAAATTCTGTTTATATAAATACATATATAAATTTATTTTTAAAAAATTTTAATGGAAAATACGAAATAACAAATTATCAAAATATTAATTTAAATAATAAAATCAATGCAGTTTTATTGCTTTTGGAACCCAAAAATGCCGCTTTAGCTGTACAAAAAATAAAAAATATTTATCCAAATGCTTTAATATATGGAAGTGATTATATTGATAATGAACAATTTAGAGAATACGGCGGTTCTTCAATAAAAGGTACAAAAATATTTTTATTATACAATCGTGATTATGCAAAAAAAACTATCAAAGATAATAAATATCTCAATACTTCCTTCATAAATACGTATGATTCTTATTCTTTTTTAACTTATCTTATAAATAAGTATCATTCTCCAGAAAATATTTCAAAAAATATTAGAGGAGAAACCTTTACAGGACTTGGTGGAAAGTTTAAAATAAATAAACAAGGCTTTACTGAAAGAGAACCATCATTTTTAATTATTAAATAAAAATTTAATTAGAAGAAATTAAATAAATTGGAGGATGAATTTTAAAGTTTGTTCCTCCATTTTTTCTCATGATAATTGAAATTAATTGAGCTTCTCCATCTTTTTTCCCATATCCAATATACATTTCTTGAGGTTCTAATTTTTTACTTTTAGCAATATTTATAAAGTCTGTAAATATTGATGGATGAATTACAAAGTTACATATTTTTTTATTTTTTAATAAGTACTTTGTAGAATCTAAAAAATTTATCAAAGTATTTTTTTCTAATGTTCTTGCCGTTTTTCTATCAACATTTTTGCTGATTATTCCTCCTGAATAATGTGGTGGATTTGATATTATATAATCAAAACTTTCAGCTAAAAAATACTTCTTTATATTTTTCACATCATCATTTATAAAATTTACTTTAGAATCATTAATTGCAGCATTTTTTATAGAACTTGTAAATAAATCTTTTTGTAGCTCAATACCTGTTATATTTATGTTATAAAGTTTTGATAAGCAAATAGATACGTGACCAGTTCCACTTCCAAATTCGATTACTTTCATATTATTTTTAATAGTAGATGTTAATATTAAAAAAGAACTCGCATGATTTGGCATGTGAGTTTTAGAAGGTGCTTTTATTTTTAATTTTCTATACACATTATCTATTTCAATAAATTTTTTCTTTAAAACTTCAATCAATTCTATCACTTCTTTTTACAAAAATAGAATAACTATTCTTCTTTAAATCTTTTATAATTGAATTATGAGAATATAAGTAAGAAAATGTATCTAAATAAAAAATATTTACATTTGAGTTTTCAAATAATATTCTTGATTTTATTTTTGTATTTATTGAATTAAAAATACTGCCTTCAATTAATGTTTCAGCTACATTACTTATTTTCAAATCATTCATTTTTGTATTATAAAAGTATACTCCAGATGAATTATTTAAATTTATATTTACATCTTTTAATTTATTATAATATGAACAAAACCTTGTTATAGATTTTAAATTTATAATTGATTTATTTAAAAAATTAGAATTTTGTATAAAGATTACATTTCCTCTTCCTTCAATATTTATTGATTCTATATCAGTATCGAACATTATTATTGTTCCACCATCTAAATATATAGTTCCTTTCCCAGACAGTTTTGATTTTTCAATACCTTCCATAATAAACAATGTTCCTTTTATTATCATTCTTGCATTATTCGAAAAGCGTATTTCACTTCCAGATTCCACAAATAAAGTTTTCCCTTTTTCAATTAAAAAATCAAAAGGTACAAAAAATGGGGAATTTATTTTTAAAAGATATGTACTATTTTTTATATTTTCAATTGTACTTGCTGAATAGAAATTAATATTTGACGAAAATCTATAAATTGGAGTTGATGGAAATCCCAATGTTCCATTTTTTGTTTTTTTTCTTACAAACATTATATCATTATTTTTCACTTCAGCAAAAGATAATTCTGTTTCTAAAAATGGTTTCCATCCCCATTTATCTTCATAATGTTCAACAACATATGATTGTATATTTGGATCTGTTTCCCAAGAAAACAATGTATCTTTATTTGATAATAAAATAGTTGTATTTTTTACTACGTTTGGTATTTTAGTATCAAATGAAATGTTCATTAATTTTTTTGAATAGTTTCTTGATGAATCAAAAACTATTACAGTTGATTGTGTTGAATCTGTAGATAATATTTCATATGGATACAAATATTTTGAATCGTTATAGATAAAGGTCTTTAGAGATTTATCCCAATCATCTTTTGTTAAAATATTTAAATTAGAAAACAAATTTAACTTTAAAGTATCAGATAATATAACAGGTGTGGAATCTTTAGATGTGTCTAACATAAAACTTGTTTCACTCTCATTTTTCAATTTATCAAAAACTTTTAATTTAACTTTTATGTTTCCAGAATTTTTTATTAATGGTATGGTTATTGAAGAATCTTTTGTTGTACCTTCAAAAACTTCGTTCAAGTAAATATTTGAATAAGCATAATCACTAGAATCTATCTTAAATTTTATTTTTAATTTTCCATTTTCAATTTCTTTATTTATATCTTGTATTTTAGGCAAAATAGAATCATAAAACAATTCTGTAGAAACATCTGTAATTAAAGAATCTTTATTATCTAAAAACTCTACTTTTAACTTGTGCAATCCATTTTCTAAATTCTTTATATAAAATCCCTCCGGTGAAGCTATAAAATTCACCGGAGAACTATCAATTGACATTTTTATTTTTGAATAATTAAAATTTGTTTTTATTGCTAAAGGAAAATTTTTTGAAACTTTGAGATTTGGTATATTTATTTTATATTTAATACTTTGAGAACAACTAACTAATAAGAATAAAAGTATTAAAAAACTCAAAACAAAAAAAACTTTTTTCATTTATTAACCTCTTTAAAATACTTTAAAATTGGGGAATCTTGAGGAATTACAAGTATACTATCTTTAAAAGAATTTTTATACATGTCTGTTATTTTGGTTAATTCAAAAAAATCCTTGTCTTCTTCAAAAGCATTTGCTAAAATTGTAATTACACTTGCATCAGCTGTACCTTTTATTATTTCAGACTTTTTTTGAGCATCTGAAAGTATTATTTTGACTTGTTTATCTGCTTCTGCTCTTGTTTTTTGAGCTTCTCTTTGCCCCTCTGCTCTTATTAATTCTGCTATTGAATATCTTTCTGCTTTCATTCTATTGTAAACCGATTGTGTGTTTTCAGGAGGTAGATCTGTTCTTTTTACTCTAACATCTTGAACGTATATTCCAAAATCCTTTAAACTGTTTCTTGATCTACTAGTTATCTCATTTAAAATTTCTTTTCTCTTTATAGATAATATCTGTGTAAAGTTGTATTTTGCAATTATATCTCTAACATGAGAGTAAACAACATCATCAATTCTTGTTAATGCTCTTGAAACACTATTCATACTTTCCATGAATTTTTTAGCATCAGTAATTTTCCAAAGAGCATAAGTATCAACTACTATAGTTTTTTTATCTGATGTAATTACTTTTTCTGGTTTTATATCATAAAGCATTATTCTTTTTTCAAACTTTACTACATTATCTACAAAGGGTGTCTTAAATCCAAGTCCAGGATTACTTTTTATTTTTTGTATTTGACCAAAACGTAATACTACTGCTTGTTGCGTTTGATTAACTATATAAAAAGAAGAAAACAAAAAGAAAATCGCAACAATTAATATTATTATAGATATTATTTTTTTCATTTTGTTGCCTCCTTTAATACAGTATCAAGATTGAGAAGCTTTAATGTATTTCCTGATTCTGATACTATCTTTAATTTAGAATTTTTTATCATTGCATCTATTGCATCTAAAATCAAACGTTTTTTTGTTATTTCTTTTGAAATTTCATACTCTTTTAAAATAGATTTGAACCTTGCTGCTTCACCTGTAGCAAGAGCTACCTTTTCATAAGCATAACCTTCTGCATCTTTTAAAATTTGTTCTGCCTGTCCTTGAGAACGTGGTATAACATCATTTGCATACTTTTGTGATTCATTTATTAGCTTTTCTTTATCTTGCTTTGCATTGTTTACATCAACAAAAGCTTCTACAACATCTTTAGGTGGTGCCACGTCTTGTAAGTAAACATTTTCTATATTTATTCCTGCATTGTATGAATTTAAAATCTTTTGAACTTCTTCAGCTGTTTCCATGGCGATTTTATCCCTTTCAGTAGTTAAAACAGCATCTATTTTAGAAAGAGCAACTCTTTCTCTTAAAACACTTTCTGTTGTCAATTTAACTAAGTCATCATATTTAATTAAATTAAAGTATAACTTTACTGGATCACTTATTCTATACTGTACAGCAGCTTGAATTGAAAGAATATTTTCATCTCCTGTAATCATATTTGATTCACCTGGAACATCAATATAGTCTGTTTTACCATTATAAAAAGTAGTTCTAAAACCAATTTCTCTCTTTTTTAATGATCTAATATCATAGATTATATGAGTTTGAAAAGGAAAAGGTAGATGGAGACCAATACCAGGACCTTTTGAATAAGAGTATTTTCCAAATGTTTGGATTAAAGCCACTTTAGATGGTCCAACTTGAAAAATTCCTGTTGAAATATACAATAAAATAACAACAACAATTGTAATCCATAAAAATAATTTTGTTTTTTTGTTACTCTTTTTTGGTGATTCTGAATCAAAAACCTCAAACTCAGACACAAAAAACCACTCCTTTGGTGTATAATATTTTGTATTAAGAAAAAATACACTAAAAAAATTATACCATAAAAGGAGAAAATATGAAAGATCAAAAACCTCTTTATGAAATTCTAAGACCAAAAAATTTAAATGAAATTTTTGGAAATAACAAATTAAAAACTCTTTTAAAAAATTGGATAAAAAATGAAGTTGTAAAATCTTTTATACTATACGGAGATCCTGGTTGTGGTAAAACATCAATTATAAATGCTTTTTTAAATGAAGTATCTAATTATTACGATTTATACAAAATTTCAGGAGCTATGGAAGGTTCTAAAACTTTAAAAAATATTATAAAAAGTGAAAAAACTTTATTTTCAAAACCTAAAATACTTTTTGTAGATGAAATTCATAGACTGAATAAAGCAGAACAAGATGTATTGTTGTTGAGTGTAGAAAAAGGAGAAATAATTTTATTGGGTTCTACTACAGAAAATCCTGCAATAAGTATAAATCCAGCTCTTTTATCTAGAGTTTTAACTTTTAAAATTGAACAATTAAATAAAACTGACTTTCAATCTTTATTTGAAAAAATTGAAAATTACTATAATATAAAAATAAATAATGAAATAAGGAACGTACTATATAATTATTCATATGATATTAGAAGAATAATAAACATAATAGAAGCTGTTTTTGAAAGTGGCATTAAAGATATAACTATTGATTCTTTAACTCCATTTATTGATAAAATTAATTCATATAACACAAATGATAAGTATTCATATATTTCTGCTTATATAAAAAGTATAAGAGGAAGCGATCCAGATGCCGCTATTTTATATCTTGCTTATATGTTAGAAAGCGGTGAAGATCCAATTTATATAGCAAGAAGAATGGTAATATCGGCTTCTGAAGACATTGGACTTTCAGATCCAAATGCTCTTAATATAGCTATTTCTGCATTAAATGCCGTTGAAAAAATAGGATATCCTGAGTGTTATTATGCTTTAGCTCAAGCTACAATTTATTTAAGCGTTACATCTAAATCCAATAGCGTTGGAATTGCTTACAATAAAGCAAAAAAAATAATTAAAGAAAAAAATATTAAAATTCCAAAACATCTAATTAACTCTATTAATAAAAATCATAAAAAACAAGGTTTTGGAATTGGTTATAAGTATCCACATGATTTTAATGGTTTTGTAAAACAAAACTATATGCCAATAGGCTTAGAAAACTATGTTTTTTATAATCCACAAAAAAATGCTGTTGAAAAAAAGATAGAAGAAAAATTAAAAAAATTGTGGGAAAATAAAAAAAAATATGACTAAAGTAATATAAGTGGAGTAAACTCAACTATTACTTTAGTCATTAAAATATAAATTATTTTCTATGTTCTTTTAAAATTTCAAAAGAAGTATTTTCTTTTATTTTTATTGTTATTACTCTATTTGCAAGTTCAATAGTTATTAAATCATTTTCCTTTAATTTATATGATGGTTTTAAAATTTTTTCATTTTTTTTGACCTTTCCTCCTTCACACAAATCATGAGCTAAAACACGCCTTTTTACAATCTTTGAGTTCATTAAAAACTTATCCAATCTCATATAAAGTACCTCCATTTGAAATGATGAAAATTTTTTCATTTTTTAATCTTAACTATATTTTAACACACTTAAAGAACGTTCAACAAAAATTTATGACTTGACATTTAAAGTTCATATTTATTATAATATATCAGAGGCAAAATTCAAATATGGGGTGAGAATGTTGAATGAACCAGTATTGGTTGTTAAAGACCTTAAAACGTACTTTGATATAGCAGAAGGAACTGTTAAGGCTGTTAATGGTGTTTCTTTTGTTCTACACAAAAACGAAGCATTGGGTGTTGTTGGTGAAACTGGATCTGGAAAAAGTGTTACTATGAAATCAATAATGGGTATGATTAAAAAACCTGGTTACATAGTAGATGGAAGTCAGATTCTTTTTAACACTAATGAATTTTCACACGATGGAAGTATGGAACAAGTAAATTTAGCTAAATTAAGTCAAAAAGCTTTTACAAGAATCAGAGGAAAACATATTGGAATGGTTTTCCAAGATCCAATGGCTTCTTTGAATCCAATGTATACAGTTGCTGATCAAATGATTGAAACAATCGTTTATCATCAAGATGTTACTCCAGAAGAAGCAAGGAAAATAGCTATTGAACTATTAAAAAAAGTTGGTTTACCTAATCCAGAACAAAGAATTGACGACTACCCATTTCAATTTTCTGGTGGTCAAAGGCAAAGAATTATAATTGCTATAGGGCTTTCGTGTAACCCTGAAGTTTTAGTTGCAGATGAACCTACAACTGCTTTAGATGTTACAATTCAAGCTCAGATTTTAGAATTAATGAAAGACTTGCAAAAAGAATATCAAACTGGTATGATATATATAACGCATGATCTTTCTGTTGTTGCAGAAATTGCTGATAAAGTTATGGTAATGTACGGTGGAAATCAAATGGAACTTGCTGATGTTAATACAATCTTTGATAGACCTATGCATCCATATACTCATGCTTTGCTTTCTTGTATTCCAAGGCATGATGCAAAAAATGAAGAATTAAATCCTATTCCAGGACAACCACCTATAATGTTAAATCCTCCTGCTCTTTGTCCATTTTTACCAAGATGTCCAAGAGCAACCGAAAGATGTAAAAAAGAATGGCCGGAATTAACAGAAATAGAAGAAAATCATTTTATAAGATGTTTTAATCCGGTTATAACGAAAAAAACGGAGGATGATAAATAATGTTGCTCAGAGTTGACAATTTAAAAAAATACTTTCCAATGAAACATGGATTTATCATAGAAAGAACTGTAGGATATGTAAAGGCTGTTGATGGAGTTTCTTTTTCAATTGATTCAGGAGAAACATATGGACTAGTTGGTGAATCTGGATGTGGAAAGACTACAATTGGAAAAACTATTATAAGACTTCATGATCCAACATTTGGTAAGATTTATTTAGAAGATAAAGAAACAGCTCATTACTTTATGAAACATAATGAAGCTAAATCATTTTTAAAAACAGAATATGTTGAAGTTGCAAAAGATTTAAAGAAAAAATATAAGACTAATGCTCTTGATCAAATACCAGAATACCAAAGAAAGTACTTTAAAAAAATATACGATGAAGGTGAAGATGCATTCTATAATGAAATGATGCATAATTTGCATGAAAAAAGAGCTTACTTTAGAAAGAATGTTGGTATGGTTTTCCAAGATCCTACCTCATCATTAAATCCAAGAATGACCGTTGGTCAAACTTTAATAGAACCTATGTTGTTTCATAAAGTTGTTACTAGTAAGCAAAAAGCTAAAAATATTGCAATGGACTTACTTGAAAAAGTTGGTTTAAAAAGATATCATGTAGATAGATATCCTCACCAATTTTCTGGTGGTCAAAGACAAAGAATTGCAATTGCAAGAGCAATAGTGTTAAAACCAAAATTAATAATATTGGATGAACCAACATCAGCACTTGACGTTTCGGTTCAAGCACAAATTATTGCTTTATTAAAAGATTTACAAAAAGAATTGAATGCTGGATTTGTATTTATTTCTCATGATTTGGGTGTTGTTAGATTTATTTCTTCTTATGTTGGTGTAATGTATTTGGGAAGAATGGCTGAATTTGGAAATTCAGATGAAATATTTGATAATCCAAAGCATCCTTATTCAGAAGCATTATTAAACTCTGCTCCAATTCCAGATCCACATAAAAGAAGAGATAGAAAACAATTTATAATAAAGGGTCAAATTCCATCTCCAATAAATAGACCAAGTGGCTGTTTCTTTAGTCCAAGATGTAAGTATGTAAAGGCTGAATGTAAAAAATCATTCCCAAATTACTATGATGTTGGAGAAAATCACAAAGTAGGATGTTTCTTATATAAGTGATACAAAAAAACTCAGAGGGGAGGGCATTACATGAAGAAACTTTTAGTGTTGTTTGTTGTTGTTTTTGCAGCATTGGCTATGTTTGCTGATGATGTTGAATGGTTAGTTGAAAATGTTAGCGGAGGTCAAAGAGGTGGAACATTATATTTAACAACCACTGATGGCCCAAAAACTTTAAACTCTTATCAAGCACAAGAAACTTCAAGTACAGATATATTAGCATGGTTATTTGATTCTGCTATGCAAAGTAATAATAAAGGTATTACTTCATTACAAGCTATGGCAAAATCTTTTAGCGTAGAAGAAACACAAAGCGGTACATTCACTGGTGTTAAATACACATTCACCTTAAGAAAAGGCTTAAAATGGTCTGATGGTGTACCAATAACAGCTGATGATTTTGTTTTTACAGCAGAAAAAATTGCATTTGTTAATGAAATGACAGCAAATGGAAATGGTGCTTATCTTGATGATAAAGATAACTTACCTGTAGTAAAAAAAGTTGATGATTACACTGTAACATTTACTTATGAAAAATCAAAATTCAGACAAGGTTACACAATGCTTGGTGGAATGACTATATTCCCAAAACATTATTTTGCTGATAAAGTTGATACACCTGAACATTTTAAACAAACATGGACTGTAGATCAAATTGATAAATTAGTTACTTCTGGACCATTTATTTTATCAGAATATAAAGAAGGCGTTAGATTAGTATTAAAAAGAAACCCTTATTACTATGCAAAATCTAAAGACGGAGTACAATTACCTTATTTAGATGAAGTTGTATACAATATAGTTCCTAATACTAATACAGAATTACTTAAGTTTGAAGCTGGTGAATCTGATATCTTTGCACCAAATGCAAAAGATTTCCCACAAATTAAATCAGAAGCTTCTGAAAAAGGTTGGAATGTTGTTGTTGGTGGACCAGCACTCGGTTCTCAATTTATTGCATTTAACTTTAATGCTCCAGACAAATATAAAAGAGCATGGTTTAGAAACGTAAACTTTAGAAAAGCTATTGCATTTGCTTTTGATAAACAATCAATAATTGATAATCTTTACAATGGATTAGGAGTACCTCTTTATGGACCAACTTCTTCTTCATCAGGATTCTATGATCCAGAAGTAGAAAACTTAGGTTACAGATTCTCAATTTCAAAAGCTAAGAGATACTTGAAAAAAGCAGGATTTACATGGAATGCAGACGGTAAATTAGTTGATAAAGATGGAAATATTGTTAAATACACACTTTCAACAAATGTTGGTAACAATGTAAGAGAAGAAATTGGAAATATTTTATCTGACTCTCTTGCTAAACTTGGTATAGAAGTTGTATTTAGACCTATTGCATTCAATACTCTCGTTCAAAAGTTATTTGGTGGAGATTGGGATTCAATAATTATAGGTCTTACAGGTGGAGTAGATCTCGGTGACGGTTGGAATGTAAATAGATTAGACGGTGGTCTTCATTTCTGGAACTATAGCCCTGAAAGTCAAAAATGGGTAGATAAAGATGATTATTTTGTTCCTGATTATGAAAAGAGAATTGATGAAATCTTCAAAGAACAAGCAGTTACTTTAAATCAAGACAAATTAAAAGAACTTTTCAATGAATATCAAATGTTAGTAGCTCAAAATCAAATATTAGTTTATACAGTAGCTCAAAATTACTTAGTTGCTTATAAAAAATCAGTACATATATTCAACCCAACACCATCTCCAGCAGCACCAACACTTTGGAAAAGATACTGTATTTGGAAAGAAACAAAATAATAATTTAGCATGGAGAGCTTAGCTCTCCTGCTATATTTTTTAAAGGAGGATGAAAAAGTTGTTAAAGTACATCTTGAGAAGATTACTCTTTTCAATACCTGTTTTAATTGGTGCTTCTTTCATTGCATTTTTAATAATTGCTTTGGCACCTGGGGATTTCTTGGATCAACAAAGAATGAATCCTACTATTAAGCAAGAAAAGATTCATCAACTTGAAAAAGAGTATGGTTTAGACAAAAACGTCTTTATAAGGTATGGTCTTTGGATAAAGAATGTTCTTAAGGGAAACTGGGGTTATTCTTTCTCTTATAAAATGCCTGTATGGAATATTTTAGGTGGAAGACTTGAAGCTACTCTTTTATTAAGTATTACAACATTTATTTTTTCCTGGGGGATTGGAATCCCACTGGGGATATACTCAGCACTGCATCAATACACAGTGTCTGATCAATTTTTAACAGTATTTGGATTTATTGGAATTTCTATTCCTACGTTCTTTTTTTCATTGTTATGGCTTTTTATGTCAGCAAAGACACATTGGTTCCCTGTTGGTGGAATGATTTCAAATTCATTTGATAATCTTCCATGGTGGAAACAAATAGGAGATTATTTTTGGCATGTAATAGGACCAATGGTTACTTTGGGTTATGCTTCTCTTGCCAGTACAATGAGAATTATGAGAGGTCAATTATTAGATGAAATGAATAAAGAATATGTTCAATTTGTAGAAGCAAAGGGTATGCCAAGAAAAACAAAAATATATAAACATGCTTTAAGAAATGCCATTAATCCTATTGTTACTGCATTAGGGTATACACTTGCTGGATTACTTGGTGGTTCTTTAATTACAGAAAATATCTTTGGATGGCCTGGAATGGGTTCATTAATGTTACAAGCTTTAAATATGCAAGATCAATTTTTAGTTATGGCTAATCTTATGTTGAGTGCATTTTTACTTATAATTGGTAATTTAGTAGCAGATATTTTACTTGCTGCTGTTGATCCAAGAGTAAGATTTAGACTTTCTTAACGGAGGTAAAAGGATGAATCCTGATAAAAATAAGATAAATAATGATACAAAAAATAAAGAAAATGAAAAAGAAGATGTTTTTGAACAAGAATTTTTATCTACTCCACAATTAGTTTGGAGAATCATAAAAAAACATAAACTTGGTGTTATTTCAATGTGGGTTCTTGCAATACTTTACTTTTTTGCAATATTTGCTGACTTTTTCTCACCAATGGACCCTTATAAAAACCACATTGAATATAGATTTATGCATTCAACAAAGATGCACAGTACAAACTTAATAACTGGAGAAAAAACAAAGAGATATGTAAACTTATACACTTTAGAAAGAGATCCAGTTACAAGAAAAGGAACTTTTGTTGAAGCTACTCATTTTGATAAATTAAAAGCTATTAATTCTGATAATGGTAAAGAAGAAACATATCAACTTGGAAAGTATAGTGAAACTTTTAATTCTACCATTACTGAAATGTACTTTAATTACTATATAGTGAATAAAGCAGTTACAAAAGATGGTCAAGAAATACTTTTAGATAAAAAAAGTGTAAATGATCAAATTTTACTTCCTATTTCTTTATTTGAAAAAGATAAACAAGCTACAGCACCTGTAAGAGATAAAGATGGATTTTTAAAGCCTAATTTTTCAAACTTTTTAACAGGAAATGAAGTGCTCTATAAAGAAGACAAAAGAGATATAGCAATTGACGAAGCAAAGAGTAATTGGAAGTATGGTTCTAAAATAAAAGATAAAGATATAGTAAAAATAAATAAATACTTTAAGTTAGACTATATTTATGTTGGAACTGATAACTTTGATGAAGTTGATATTTATCCAGCAGATATACAAGGAGTTACCTTTAAAAGATACGATGTTAAGTTTTTCATCAAATCTTGGGATTATAAACTATTAGGTTTTATCCCTACAAATGTACATTTTATTGGTGTAGAAAAAACCAAATTACCTTCTTTAAAAGATTATATCTCAAACGATGGTATATTCTATCTTTGGGGAGCAGATAAATTTGGCAGAGATATGCTTTCTAGACTTTTATATGGTTCAAGGGTATCACTTTCAATTGGTTTTGTAGGTATATTAATAACATTTACAATAGGTCTCTTCTTTGGTGGAGCTGCTGGTTATTATGGTGGCTGGGTAGATGAAGGATTAATGAGATTTACTGAAATATTAATGTCATTACCAAGTTTTTATTTACTTATAGCTCTTGGAGCATTATTACCGGGTGATTTATCTCCGGCATTAAGATATATGCTCATCATCGTCATACTTTCATTTATAAGTTGGCCAGGTATGGCAAGGGTTATTAGAGGTATGACTCTTGGTATGAAATCTTCTGAATTTATTGAAGCTGCCGTAGCTTTGGGTTATCCTGGAAGAAGAATTATCTGGAAACATATGATACCTAACACTATGACATATATAATTGTATCTGCTACTATGGCAATACCATCATATATTATCGGTGAAGCAAGTTTGTCTTTCCTTGGTTTAGGAATTACAGAACCTTCATCATCTTGGGGACTCATGTTATCACAAGCACAGAGCTTAGAAGCTTTAACAAATTATCCATGGCTTCTTATACCAGGACTTTTAATATTTATAACTGCTCTTTCATTTAATCTCTTTGGAGATGCTTTAAGAGATGCTTTAGATCCAAGAGCTTTAGGTCATTAATAATAAATGTACGGATATTTAATCCGTACATTTTTTTATTTTAATTTTTTTATTAATTCATTTAATATTTGAAATAACTCTTCTTTTTTATTTTTTATATTTTCATATATTCTTTTAGCTTCATTTATATTATCTTCTAAGATATACTTTAATATTTTTTCTGTTTCATTATGAATTAAATTATGAATATCCCCAATTTTTTTCCATTCTTCTTTATATAAACTATTGATTTTATAAGAATTATAAAATATTCCAAAATTACAATATTTTGGATTAATTTCTAAATTTTTCAATCTCTTTGTTTTTAAAATATTCTCTACTTCTTTTAAATAATTTATATGACTTTCTTTCATATTTTCTATTTCATTTATTAAATCCAAATTTGTATATAAAGTATATTTTTTATTATTTTCTGAATATCTTTCATAAGATATTTCTTCATATTTTTTGGAATTTTCTGTTATTTTATCAAAGATCACTATTAATTCTTTCATATTTTCATATAACTCATCAAAAATTTCTGTAATTTCAAAAAGTTGTTTTGTTGAATTATCCATCGATTGTGAAATTTCAACTGTAGATGCTGATTGTTGTTGACTTACTGCAGCTAAATTAACCATTTCATCATTTACTTCTATTGTCTTATCTGTAATATTTTTTATTTGTTCAAATAAAGTATCTGTTTTATTTGTTGAATCTATAACATTTTTATTTATTTCTTTAGTTTTTTTATCAACAATTACTATGTTATTTTTTATATCATTTAATATTGTTTCTATTTTTTCAGTTGCAATTTTTGATTTTCCTGCAAGCTTTCTTATTTCATCTGCAACTACTGCAAAACCTTTACCAGCTTCTCCAGCACTTGCTGCTTCTATTGCTGCATTTAAAGATAATAAATTTGTTTGTTCTGTTATAGTATTAATAGTATTTACTATATCTGCTATATTATTTGTTTTATTAAATAATTCATCTACTGTAATCACAAATTCTGAAGATAAATTAGATAAATGATTCATATTATCATTAATTATCTTTACAAATTCATTGCTTTTTTCAGAAAAATTAGTTAGTTCTTTAGTTATAAATACTATATTTTGAGATGTTTTTTCTATTGAAGTTGCTCCAGCACTTATTTCTTCAACCCCTGAGTTTACTTCTTCAATTGAAGAAGATATTGAATGGATATTTTCCTTAGAATCATATATCTTTTCACCAATTTTTTTTATTTTTTTATTTTCTGAAGTTAATAAAATTTCCGTATTTCTAAAAACTACAACATTCTCTTTTAAATTATTTATTGTATTCAAAAACATTTTTCTTAAATTCTTTATTGCATTGTTTAACTTACTTACAGAATGAGTTATTTCATTTTTAGAATTTTCATTTACTTTTACTTTTATTATTAAATTATTATTTTCTACATTGTTTGAAATATATTGAATATCTTTTGCTTTTTTCACTATATTTCTTCCAATGATTATAAACAAATATATAGAAACAAATATTATTATTAAAAATACAATAATTAAACTCTTTCTAACATTATTAAATATAAGATTTAAAGATGTAATATTATCTTTTGTTATCAATACGCCAACATTTTTACCTGTATAGTCTTTAATAAGTATAGTTACATACAAAAAATTCTTTTTTATAAAATTTATTTCTTTTTCTTCACCATTTATTAATTTATCTAATTTATCTTTTTTAATTAATTTAGAAAAATCATCATCTTCAATAATATATTTATCTATTCTTTTTCCTGAGTAGTCATAAGGAACATAGCAAATATTATCTCCAATTATTGATTTTAAAAATTCTTTTGATATTGTAATTCCTATTTCAGATGTTCCTATAAATTCATTTTTAAAAAATACAGGTATTATACTTCTTATAACTAAACCAGCTTTACCAACCTCTATACCATCTAATCTTTTTTTAGATTTGTTTGCTTCAACTAACATATTTCTCCATGTTAAACTATCTCCATATTTTTCTGGAGAATGCCATCTTAAAAATGAAGTTATATCTTTATTATGAAAATGAAGTGTTGACATATAAAAATCATTTTTTATAGTAGAATAATAACTTTTTAAATAATTATATAATTCATCTCTCTTTTGTTCATAAAACAATTCTTTTACTTTTTCGTTTTGCATTAAAGTTATAAGAGATACTTCAGCTTTTTTATTTTCTAAATTTATAATAGTTTTTGTTTGATTAATAATATCTCTTTTTTGTTTTTCAACTATAAAATTTTTAACCTTCACTTGTGCAAAAAACATAAATAACATTGACAAAATTAAAGAAATTACTATAACACTAGGAAAAATAAAATAAAAAAACTTTTTTAAACTCATTTTCTCACCCCCCTGTGTATTTTTAACTGTTTATTAATTTAATTATAACATAAAAGAAGTAATAAAATTTTTTATTAATAAAAAAAATATTTATTTGTTACAAAAAATTAAATTTTATTTGTAGTTAAAATGCTAAAATATTATGAAAATACTCTTGGAGGTGAATTTATGTTTAAATTGAAAAAGAAAAATTTCCTTAAAAGAGTATTCTTATCTAAATTAATAATGATATCCGTCTCTATTTGAGACGGATATTTTTTTATGGAGGTGAATAAAAATTTTAATAAAAAATGGAACTTTAATTTCTCACAGTAATTCTGGTAAAAAAGATATTTTAATAAAGGATGGAAAAATAATCAAGATATCTGATCATATAAGCACTAAAAATGAAAAAGTTATTGATGCTTCCAATAAACTTATAATTCCAGGAATAATAGACATGCATGTACACTTAAGGTCGCCTGGATACGAATACAAGGAAACATTAGAAACTGGATTAAAAGCTGCTGTACATGGTGGAATTACAACTATTGGAATGATGCCAAACACTAATCCAACAATAGATACTTTAGAACTAATAAAAAATTTAAATGAACAAATTAAAAAAATAAATTTATCAAATGTTTTATTTATTCCTGCATTAACTAAAAATAGAGATGGAAAAGAACTTGTAAATATCTCTGAAATACAAAATTATGCTGTAGGTTTTAGTGATGATGGAAGTCCTATTAATAATACAAATTTAATGTTGAAAGCTTTAAAAATTCTTAAAAAGCCAATAATTGATCATTGTGAAGTTACTGGATTAAATGGAAGTATGAGAGAAGGTGTATATTCTAATTTGTACAAAATAAAAGGTATACCTGATATTTCTGAAACAATAATGGCATTTAGAGATATTGAAGTTTCAAGAAATACTGGAGCTCATATACACATAGCTCACATATCAACTAAAAGAACCGTAAAAATAATAAGAGATGCAAAAAAACAAGGCATAAATATAACTTGTGAAGCTACACATAATCATTTTTTATTTAAAGATATTGATGTAAAAAATGCAAATTACAAGGTAAATCCTCCTCTTCCAACACAAGAAGACTTAGAAGAGTTAATTAATGGAATAAAAGATGGAACAATAGACATATTGATAACTGATCACGCTCCTCATTCAAAAGAAGAAAAAGAAAGAAATATTGAAAATTCTCCATTTGGAATTAGTGGACTTGAAACTTTTCTTTCAGGAATACTAATGATTTCTAAAAAACACTCTATACCATTAAAAAAATTAATTAACATGGTTACTCATAATCCAGCAAAGATATTCAATTTAAAAAATGTTGGAGATATAAAAGAAGGATACAATGCTGATTTAACTATCTTCGATACAAATAAAAATTGGAAGGTAACAGAAGAAACATTATATTCAAAAGGAAAAAATACACCATTTTTGAATATGAACATTCCAGGAGTAGTAGAAAAAACAATAATAAATGGTGTAATAAAATATGAGGAGGGATAATGTGGAAGGAAAGATAATATTAAAAAAGATATCCAAAGAATATTGTATTTTAAAGGTAAAACTAACTGAAGATATGAATATCTTACCGGGACAATTTGTTATGCTATCTCATCCATTAAAAAAAGAGTTATCAAAACCGTTTTCAGTAATGGACTTTGAAGATGGAGTTTTAACCTTTTTTGTAAAAATAGTAGGAAAGTTTTCAAAACTTTTAAGTGAGTTAAAAGAAAATGATATATTGAATATAAAAGGACCTCTTGGAGTTCCTTATATAAATAAAATAGACAAAAATTTAAAGTATGTTTTAGTAGGCGGTGGATGTGGTGCTGTTTCATTGATATACTTTAAAAAAATTTATCCTAATCTTGTTGAAAATGAACTTTATGGATTCAAAAATTCCAGTATAAGAAAAATTTTTGAACACAAAAGTTTATTTATTGATGAAGAAAGTGGAAATCCATTAGATAAATTAGATACTATATTAAAAGAAAAAAATGGAATAATTTTTTGTGGAAGTAAGGGAATGCAAAAAGCTTTATTAAATAAGTACCCAAATAAAAAGATTTATATGTCCCTTGAAGAAAATATGGGCTGTGGAGAAGGAATGTGTAAAGGATGCCCTGTAATGACTACAAATGGTGTAAAAATGGTTTGTAAAGATGGCCCTCTATTTGATTCAAAGGAGGTATTAGAATGGAAAGATTAAAAACAAAGGTTTGTGGAATTACTTTCAATAATCCAGTAATAACAGCGTCTGGCCCTTCAGGTAATGGAGAAGAGTTAAATAAATTAATTGATATTTCAAAATTAGGTGGATTTACATCAAAAACAATAACCTTAAATTCAAAAATTGGAAATCCTCCTCCAAGAATTATAAATGTTGATGGAGGTATGTTGAACTCAATAGGACTTCAAAATGATGGATATATTGAATTTAAAAAAAATACTGTACCCTTTTTAGAAAGTTTAAATACAAATATAATTGCAAGTTTAGGTGGTTACGATTCACAAGAATTTGAAATAATGATAAAAGAATTAAATAGTACAAAAATAAAAGCATTTGAATTGAATTTGTCTTGCCCCAATGTTAGTAAAGGAGGAGCAGTAATATCTCAAAATCCAAACTTAGTATATGAAGTAGTAAAAAATGCAAAAAAAATTTCTAAAAAGCCTATTTTTGTAAAGTTTGGAATAGAAAATGTGGATGAATTGGTAGAAAACACCGTTGCAGCTGGTGCAGATGGAGTAACTTTAATTAACTGTATAAAAGGTATGAAAATAGATATCAACACAGGAAAAACTATTCTAAAAAGAAAAATTGGAGGATTGAGTGGTCCAGCAATTAAACCCATAGCACTTGCAACAGTATACAAGATAAAAAATAAATATCCTGATTTATCAATAATCGGTATGGGTGGAATCATGAATTTTGAAGATGCTTTAGAGTTTATGATGGCTGGTGCAAGTTTAGTTGGAATTGGAACTGGAGTAATGATAGATCATGAAATCCCAGTGAATATAATAAAAAATTTGAACAATTTTTTATTGAAAAAAAATAAAAAATTAGATGAAATTTTTTCATCTGCGCAGGAGGTATAAAATGTTTTACGAAAAATACTTAAAAATGAGAGAAAAAAATAATTCTGTATTGATAGTTGGGTTAGACAGTGATACAAATAAATTTAATTCTAAATTTTCAAAAGATGCAATTGGTATTTTTGAATTCAATAAATACATAATAGAGCAAACAAATGAATATGTTTGTGGTTATAAGCCAAACATAGCTTTTTATGAAAAACATGGCTATAAAGGTATACAAGCACTCGAAAAAACTGTTGAATACATAAAAAAGTATACAGAATTACCAATTATTATCGATGCTAAAAGAGGAGACATTGGAAATACTGCAGCAGCATATGCAGAAGCATTTTTTAAATATTTAAAGGTTGATTCAATAACTATAAATCCCTATATGGGAATGGAAACAATAAATCCTTATATTGAATTAGAAAATAGCCATGTATTTGTTCTTGGACTAACTTCAAACAAAGGTGCTAAAGACTTTGAATTAGAAAATGACTTATACTTAAAAGTAATAAAAAATGTTAATGAATACAATAAAAAGTTTAAAGATAAAATAGGAATTGTTGTTGGCGCTACTAATGATGAACATATAGAAAAAATAACAAAAAATTCAGGAAATATGGTTTATTTGATACCTGGAATAGGTGCTCAAGGAGGAAGTATAGAAAAATTGTTTAAAGGATTGAATGGTTATAAAAATATAGTAATAAACTCTTCAAGAGGAATAATATTTTCTGAAGATCCTAAAAAATCAGCAAAAGAATTAAAAGAAAACTTAAATAAAGCGAGGGGATTATGATGGATATTATGAACATTTTATTGGAAACAAAGGCACTTTTAAAAGGTCACTTTTTATTATCTTCAGGACTACATTCTGATACATATGTTCAATGTGCACAGGTTTTAAAGTATCCAAATTATGCAGAAGAATTTGGTAAAGAAATAGCAAATAAAGTAAATGTTGATGTTGATATTGTTGTATCTCCTGCAATGGGTGGATTAATAATTGGTCATGAAGTAGCAAGTTCTTTAAAAGTACCTTTTATCTTTACAGAAAGAAACGATGAAAGTACTATGGTGTTCAGAAGAAATTTTAATATAGAAAAAGGTCAAAAGGTTCTTGTTGTTGAAGATGTTATCACAACTGGAAAATCAACAAAAGAAGTAGTGAAGTTAATAGAAGAAAAAGGCGGAATAGTTGTAGGTACTGCATGTATAATAAATAGAAGCAATGAAGTAAAAATAAATAAAAAAGACCCCATATACCTTTTAAAAGTAGATGCTAAAACTTATACAAAAGAGGAATGCCCAATGTGTAAAAAAGGAAGTACACCAATAAAACCAGGAAGTAGAAAAAAAATTTGACAAATTATAAAAATAAGAGTAAAATTAATATTGCGTAACATAATTAAACACAGGGAGGTAGTAAAATTGAAAAAGGGTCTTAGTATCTTATTAATTGTTATTTTTGCTCTTTCAGTATTTGCAAGTACTGAATTTTATGTTGTAAAATCAGGAGATACAGTTTCAAAAATATCTCAAACTACGGGTGTAAGTGTTAATGATATTATTTCATTTAATAATCTTAATAAAAATGGATTAATAAAAGTAGGACAAAAATTAAGACTTGTTCCAGCTTATACTAAAAAAGACTTAAACGAACAAATGGTTATGGCTTTAAATTGGTATCAAACATCAGGTGAAATGAAAGCTTTATCATATCAAGCATTTAATGTAGCAAAGATGATTTATGATAATGATATGAAAAATAATACAAGTACAGAAAAAAGAGCAGTTATTGTAGATATAGATGAAACTATTTTCAACAATAGTCCAGCAGATGCAGAACACATAGGAAAAGATACATCATATCCAACTGGTTGGAAAGAATGGTGTGAAGCAGCAGTAGCAAAAGCATTACCAGGAGCTGTAGATTTTTTAAATTATGTTGTTAAAAATGGTGGAGATGTTTATTATATTTCAAATAGAAGTGATTCTTTAAAAGAAGCTACTATAAAAAATTTAAAAGCAGAAGGATTTCCAGAAGCAGATGTTGAACATGTTTTATTAAAAACGACAACTTCTGATAAAGGTCCAAGAAGAGAAATAGTTGAAAAAGATCATAGAGTAGTATTGCTCATGGGAGATAATTTGAATGACTTTACTTCAATGTATAGACATAAAAGTTTAGAAGAAAGAAATAGCATAGTTGACCAAGATAAAGATAAGTTTGGAATTAAGTTTGTAGTTTTACCTAATCCAATATATGGTGATTGGGAAGGAGCTATATACAATGGAAATTGGGGTATGAATCCTTCAGAAAAAAATAAAGCAAGAAAAGATCACATAATTAAATATGAAGGCAAATAAAAATAAAGTGCGACTTAGTCGCACTTTATTTTTACAAATTCTAATTATTTTGTATACAAATATTTGATAAAATAGATTATGAAATATTTTAATTGTGAAAAAATTAAATAATAAAAGTGAGGTAAAAGTATGAATTTAGCAGTAAAAAAAGAACTAACAGACCAACTTAGATTTGGTATTCCTTCTGAGGAATTTATGAAAGAAATTATTGAAGAGTGTGAAGTAAAAGAAGACAGTAATGTTTGTATATTGAGTTCTGACAATGGTTTTTTAACTTATACTATGATGAATAGAGCAAAGAGTATACATCTCTTTGAAGAACATGAAAGTGTTTTAAATCAATTAATGACTAAATTAGGTAGTAAAAATACGTCTTATTATAAATTTGATAAAAATTTTACTTTAGAAGATAACTCAATGGATTTTGTTTTCATTAATATAAATGAATATAACCATGATATTTATAAAGAATGCAATAGAGTTTTAAAAAATAATGGAAAAATAATATTATTCTATATAAATGAAAAAAAATATGAAGATATAATAATTGGTGGAGAAAATTTAACTCTTGGAGAAAATAGCAACGAATTAAATACTATTTTAAATAATATGGGATTTGAAAAAAATTTTGAAAAATCTTTAAGAACATATAAAATTCATTTATTAGACGACGATTCAAAAGTTGAAGAAGAACACCATGAATGTAGTTGTAATCATGAAGAAGATCATTCTTGCAGCTGTGGTGGAGAAGAGGAAGAACATTCTTGTAGTGGATGTGGTCACAATCATATACCAGAAAATGCAAAACAAGCTGAAGTAGAAATAAAGGTTATTATAGCAAAAAAATGAAAATATTAGTTTTAAGCGATTTACACATTCCCACAAGATGTAAGTTTGAAAAGCTTTTAACCTTAAATATGAATGAATACTCTCATATAATAGTAACTGGAGATATTACAGATGAAGATACATACTTTTATTTAAACTCACAAAATGCTATTTTACATGCTGTATATGGAAACATGGATGATTATTATTTAAAGAGCATTTTACCAGAAAAAAAGATTATAAAAATAAATGATAAAAAAATAGGGATAATACACGGTCATCAAACTGGTAGAGGATATACAGAAGGACTTATTAACAAATTTGAAAATTTAGACTTAATGATTTATGGTCATTCACATGTAAAAGATTTAAGAAAAATAGGAAAAACTTTAGTTTTAAATCCAGGAGCTTTTTGTGATAGAAAATATGCAGAAATAATTATAAATGATAAGATAAATATAAAAATGAAGGTAGCATAAAAACTTTTGTGTAAACGCCTCTTCTTGGAGGGTAAAAATAAATAAAATTAGTTATTATTTTTAAAGTATTTCCATAAGAATTATCGACTATATTGAAATATGCTTTAAGAGTAAATTTCAGAATTTTTTAGTAGGATTTTTGGTAATAAATAGGAGACCATAAAAAATTTTGTGTAAATAAAAAAATGAAATGAGGAAACCTCATTTCATTTTTTAATTAATTTTAAATTTATTTATATTTGCTATCAAAGTTGAAGATAAGTCTTTTAATTCTTCAGACGATGTATTTAATGATTTAGATGAAATATTTAATTCTTTTGCTATGGCAGAAATTTCTTCAGAGGTTGCTGCATTTTCTTCTGATACTGCTGCCAAGCTATCAACATCTTTTTCTATACTCATTAAACTTTGTGTTGTTGTATTAAATTCTACTATTATATCATTTATCCAAGTTTGAACACTTCCTATTTTTGATATTGCTTCCTTGGTTTCTTTAGAAACATTTAAAAGCTCGTTTGAAGAAGTTTCAACATGTCCATGTTCTTTATTAATCATTTGTGATACATTATTTATACTTTTAGTTACTGTAGAAAGAATTTCTGCAATTTGTTCAGCTGCATTTTTACTTCCTTCTGCTAATTTTCTTATTTCATCTGCAACTACTGCAAATCCTTTTCCAGCTTCTCCAGCTCTTGCTGCTTCAATTGCTGCATTTAATGCCAATAGATTTGTTTGTTCTGATATAGTTAATACAGTATCAATAATACCCTCTATTGTTTTTGTATGTGATATTAATTCTTTAGTTGATGTATTTATTTCCTCAAATTCATCTGCAACTGTTTTTATTTTATTTGAAGTATTCATTATTTTATTTCCAACTCCTTCAATTCCAGAAAAAGTTGATTTTAAAACAGATTGATAATCATTAGATTGATTTGAGATTTCTTCCATACTTCCATAAATTCTAGATACTTTATTTGATATATTGTCTATATCTCCAGCCATGTTAGTATTTGCTTGCGACATTTGATCTAATGATGTACTTATTTGAATAGTCAATGAATCGAGTTCTTGTGCCATATTTTTTAATTTACCAGAAGACATCTCAACGTCTGTTGATGAGTTCTTAATTTCTAACAGTAAAACTTTTAATGATTCACGTGTTTCATTTATTGTTTTAGCAATGCTACCTATTTCATCTTTTGATTTAACATTTAACTCAAATGTCAAGTCGCCTTTTGAAAATTTATTCATTGATGGAACTATCTTATTTTTTATTGGTTTTAAACTTATTTTTAAACTTATAATTAAAATTAGCAATATCACTATTAATGAAGTAACTACTATTATGATTAAATTATTTTTTACATAATTAAAAGCACTATCTATTTCATTTTCTTCTAAATTAAAAATTATATACCACTTTAATTCCTTTGAATAATCAACTGTTGCAAGAATATTTTTTTCTCCAATACTGTATGTAAATTGTTTTTTTGTTTTTAAATTACTTGAAAGCTCTTTAAATGCTTTATTCATATCAGTATTTTTAGAAGTTGGTTTTGAAATATCCATACCTATTAAAGTTAAATCTTTATATATTATAAGTTTATTTGTATTATCAACTATAGTTAAATAACCTGATTTCCCAAATTTCACATTTGACAATGTTTCAAATATCTTTTTTAAACTAAGCTCTGAAAGAAGAACTCCCATTAGTTTTCCATCTTCATTATAAATAGGAGAAACAAAACTTAAGATTGGCACCTTTCTCGTTTTATCATAATAAGGGGGTATTACAGTTGTTTTTTTACTTTCAACAGCTTCTTTATACCAAAATGTTTTTCTTGGATCTCCATTTACTTTAAAATCACCTTTACCATACAAATCTCCGCTTTCTTCACTTGCAAAGTACATTCCTTTAATAGTTTTAAATGGTTCTCTAACATAATCTAAAGTATCTTCAACACTTTGTTGATCAAAAAAATAGAGGGCATTTAATTCTCCTGTAGCCATTTGAATTGGACCATAAAATTGAGCAAATAAACTTTGAAGAAGTTCTTTTACTTCATCTGAACGTTCAATAGCCTGTTCATTAAATGTTTCTAAATAAAGTTTTTTTGCATTCTTAATACTCATTATTCCCATAGTAGACATCATTAAAATTAAAAAAATTACCACTGGTATGGAAATTTTTAAAACTAAAGAATTTTTAAACATACTCCCACCTTCTTTAACAATAATCTATTAAAACTAAAGTTGACATAATTACTTTTAATGATATAATTAATACGTTATACGAATTAATTATATTATATATTATTTAAGAATACATTAAATATTACAACAACTTAATTATACCATATTATTACTTTTTTAAAAAATAATTAATGTGTTAAAATATATATGGAGGTGTTAAAATGGATTATAAAGAACTTCAAAAAAAACTTAGCATGAAAAAAGAACAAGTTTGGAAAAATATTGAATTTAAGGTTATTGATGATTATGCAAAAGGTTATAAAACTTTTATAGATTCATCAAAAACAGAAAGAAAAGCCGTTAAGTACTCTATTAAAGAACTTGAAAAAAATAATTTTAAACCTTTAGATTATTATGAAAAATTAGGAAAGTTAGAAAATGGAGATAAAGTTTATTTTGTAAACAGAGATAAATCTTTATTTGCCATAAAAATTAATGGAAAAATAAAAGATGGAATTAACTTAGTTGGAGCTCATTTAGATGCACCAAGAATTGATTTAAAACCAGAACCAATATTTGAAGATACAGAAATTGCTATGGCTAAAACTCATTATTATGGTGGAATTAAAAAATATCAATGGTTAAATATCCCATTAGAACTTCATGGTGTTATAATAAAAAAAGATGGAACTCCTATTGAAGTTTCTATAGGGGATAAAGAAGACGACCCTATATTTGTTATTTCTGATTTACTACCTCATTTGGATAGAAACACAAAACCTATTAGAGAAGCTATTGATGCTGAAAAATTAAATGTTTTACTTGGGACAATATCTATTACTTATGATGAAGAAATAAAAGATGGAACTAAATTAAATATATTAAATATATTAAATGAAAAATATGGAATAATAGAAGAAGATTTTATAAGTGCAGAACTTGAAATAGTTCCTGCATTTAATGCAAGAGATGTCGGATTTGATAGAAGTTTAATTGCTGCTTATGGACATGATGATAGAATTTGTTCTTACACAGGGCTTACAGCATTAATTGAATCATCACCAGATGGAAAAAGTCCAGCATTATTATTAATTGATAAAGAAGAAATTGGAAGCGACAGTAATACTGGAGCTAAAAATCATTTTTGGATACCTGTATTAAAAAAATTATTAAAATTACAAAATGAAGATGTTGTTATTGCTATTGAAGATACTTTGCAAAATTCAACTTTACTATCCGCTGATGTTGCTGCAGCTCTCGATCCAAATTATAAAGATGCTCATGACCCTTTAAATGCACCAAAATTAGGTTATGGAATTGTTATAGCAAAATACACTGGTGTTCGTGGAAAAGGTGGTACAAATGATGCAAATGCTGAAGTTGTAGGGAAATTGAGAAAAGTATTAAATGATAACAATGTTTCATGGCAAACAGGAGAACTTGGAAGAACTGACCTTGGTGGAGGCGGAACAATAGCTAAATTTTTTGCTGAAAAAAATCTTGATGTTATTGATGCTGGCGTAGCACTTCTTGGAATGCATGCTCCTTATGAAATTGCTTCAAAAGCCGACTTATATGAAACATACAGAGCTTATAAGGTGTTTATGGAAAAGTATTAATGAAAATATTTGCAGGAGATCCAATAAATGCAATTGAATTTTTAAATGAAGACATTAATTTAATATTTTCTACTTCATCTTGGTCTTATGACCAAGGTGAAGTTATTTTTATTATGAACAAAAGGAGTATAAACTTATTCAATAATAATAAACATTATTTATTAAATAAAAAAAACAGAGAAATTCAAATAAGTAATTTTAAAATAAACTTTGGTTATATAGAAGATGTTTTAAACTTTAATTATTATTTTTATAATCAATTAATTAAAACTGATTTAATTATATTCAAATTTGAAATTAGCACTTTAAACAATCTTGAAAAAATATACAAACATGTTCAATCTAATATTAGAAAAGTCCACATACCTGTTATGATATTTTATTTTTATAAAAAAAAGATTTATATCTCATATATAGTTTCAAATAACGAAAATATGTTTGTTTTTAAAGATGCTATTTATGCTTATATTAACTTAGAAAAAAAAGAAATTATGTATACTTATGGAAGGTATAAAAAAGAATTAAAGGAAGCTTTAATTAATTTTAAATCGAGGATATATAGATGATAAAAAAAATTAAATATTTTTTTCTAAAAAATAAAATAAAAAAAATATTAAAAAATATTAATTTTAAAGAATCTGAACTAAAAAAAATAAATCTTTATATATTAAATAATTTAAAAGGTCAAACATTTTTTGATCAAATTGAAATTGGTTTAAAAAATGGTTGTATTCTTTATTTTTATGAAACTACAAAAAAATTACAAAAAACAAAGTTACAAGAATTAGCTGAAATTTTATCAGTTTTTGGAATATATTTAATAATAAAATATAAAAACTTATTTGTAAAAATTTATGAAAATAAAATAACAGTTATAAATACAGAAACTCCTTTTAAAGATAGAGAAATTCAAATAAAAACTAATAAATTATCTTTTATATTTAATACTGAAATGAATAATCCTGCTTTAATTTCTTTAATTAAATTCAAAAAATTAGATATTTTAATTACCGATGAAAAAAATGAAAAAAAATGCAAAGATTTGGCAAACAATGATATTATTTATATTTTTAATAAAGATAAAATAATTTTTCCTGATATAATAAACGAAAATAGTATTAAGCTAAAAAAAATATTAAAAATAGAAACCAAAAACTTAAAAAAATTACAAAAAAATTTTTCAAATACTAATGAAGATTTATTAAATTCCATATTAAAGTATTTATGAGTTTAGATTTCTTACTATTTTTGAATAATAAGATAAAATTCTTTTTTTAGATTTTTCAAATGTACTTTTTATATCTTCAAATGGAATATTTTTAATTAAATCTTTTAATTGTTTATCCACGTCATTTGAAGATAGCTTATAGTTTTTATTTATTAAATCAAACACTTTTAAATCTATTATTTCTGAATACTGTATGAATTTAGAAAGTTTATTCATTTTAACTAAATTATTAGAAAAAAAATCAATTAAAATATCATATATGTCATTTTCAAATATATTTTTATTTATTTCAAATAATACTGTTAAATCTTTTTTTTTATTTGAAAACTTTATATGATCTAACATACTTTTTGATTTATCTTCAGAAAATATTATATATAAATCATGAAAAAAACCAGCCCATTCGATATATGTTACTTGTCTTGCTTTTAAACCTTCTTCTTCTGCTAATATACCAGAAAGATGCCCTACATTATGAGCATGAAAAGATAAATTCTTATATTTAGATTCATAAATAACTTCTAAAATTCCAACTAAAAAATTTATAAATAAAAATTTATCTTCCTCTATTTTTTGTATTAAATTTATTCTTTCTTTAGATAACAATAATTTCTCAGCTTCAAAAATATGATTTGAAGCAATTTCAAATTTCTTTTTTAAAAATAAATTATTTATCTTTATTTTTGATTTTTCAATACTTTCAGTTAAATATAAATATTCGTCAAACATATATTCATATAAATATTCATTTATTTCTTTTTCAAAAAGGATTAAAATAGGAGAAAATATATATTTATTCTTTATAGATTCAATTACTTCTTTTTCTGAATTTTCACAAAATATTATAAAGTTTTCTTTTTTATCTTCAATATCTTCTGAATAAAAGTTTATTAAAGAAAAAAAGTTAAGCTTTTCTAAATATTTTTTTATTTTTAAATATGAATTTGGATTAGAAACAATATATGCATTCATTAGTTTCCTCCTAAAAAAATAAATGCAAAAACAAAATAGGGATAACCCTATTTTGTTTTTGCAACATTAATCCTTACAATATTTTTTTCTATTTCTGCATTTAATTTTGTTTTTTCAATGGTATCATTGGATTGTTTTAATTGATTCTTTGCAGTTTCAATAGCTTTCATAGCTGTATCAACATCAATATCTTCTGGGTTTTCTGCATCGGTTGTTAAAATAATTAATTCTTTACCATCCATTTCAAGAACTCCACCATTTATGGCAAACACATGATTATTTTCTTCTTTATCTTTTACTAAAAGTGAAGAAACCTTCAACCGAGACACAATTGGAAGTCTATCTGTTAACACACCCATGCTACCATCAACGGTAGTAAATTCTGCATATTCTACATCTAATTCTTTGAATATACCATTAGGGGTAACTATTTTTAGTTTAAACATTGCACCCCTCCTTTATTATACTTTTATACCCATACTTTTTGCCTTTTCAAGCATATCTTCTATTGTTCCAACCATATAAAAAGCATTTTCGGATATATGATCATATTTTCCAGACAATATTTCAGCAAAACCATTAATAGTATCTTCTAATTTTACATAAGCTCCAGGTATATTTGAAAACTTTTCAGCAACAAATGTAGGTTGTGTTAAGAATCTTTCTATTTTTCTTGCTCTATTAACAATTAACTTATCTTCTTCTGAAAGTTCTTCTATACCAAGAATGGCTATTATATCTTGAAGATCTTTATATCTTTGTAAAACTTCTTGTACATTTCTTGCAACTTCATAATGCTTTTCTCCAACAACATTAGGATCTAATATTTTAGAATTAGAATCAAGTGGATCAACTGCAGGATATAAAGCAAGTTCTGCACGTTTTCTTGAAAGAACTATAGTAGCTTCAAGATGTGAAAATGTCGTTGCAGGTGCAGGGTCCGTTATATCATCTGCTGGAACATAAACAGCTTGAACTGATGTAATTGAACCATTTTTTGTTGAAGTAATTCTTTCTTGTAATTGTCCCATATCAGATGCCAAAGTTGGTTGATAACCAACAGCTGAAGGCATTCTTCCTAAAAGTGCTGAAACTTCTGATCCAGCTTGAACAAATCTAAAGATATTATCTATAAACAATAATACATCTTTCTTTTCAGCATCTCTAAAGTATTCAGCCATAGTCAATGCTGTGAGTGGAACTCTAAATCTTGCTCCAGGTGGTTCATTCATTTGTCCAAAAACAAGAGCTGTATTTCCTATAACTCCTGATTCATTCATTTCAAGCCATAAGTCATTTCCTTCTCTCGTTCTTTCACCAACACCAGCAAAAACAGAAAGTCCATGATGTTCTATAGCAATACTTCTTATTAATTCCATAACAAGAACTGTTTTACCTACACCAGCTCCACCAAAAAAACCAACTTTACCACCTTTTGGAAATGGTGCTAAAAGATCTATACATTTTAAACCAGTTTCAAGTATTTCAATTTCTGTATTTTGATCTTCTAATGAAGGTGCATCTCTATGAATAGGCCAGTACTCAACATCAGTAACTTCACCTTTTTCATCTATTGGATTACCAAGTAAATTAAACATTCTTCCCAATGAACCTTTACCAACAGGAACTTTTATAGAAGAACCTGTGTGAGTTACTTCAAGTCCTCTTTTTAATCCATCTGTTGAATCCATACCGACACATCTTACTGTATTATCACCTATTAATTGTTCAACTTCTAAAACTAATTTTGTATTTGTATAAGGGTTCATAACTTCAAGGGCGTCGTATATTTCAGGAAGCTGTCCTTCTTCAAATTTTATATCAACAACTGGTCCTATTATACTAACTATTTTACCTTTATTCATTTCCACACTTTTCACCCCCGTGTGTATCATTGCTCCTGAAGTGCTTGGGCACCATTTACAATTTCTATTAATTCAGTAGTTATTGAAGACTGTCTTAGCTTATTGTAATCAAGAGTAAGATCATCAATTAAATTTTTAGCATTCTCAGTAGCATTTTTCATTGCATTTTGCCTTGCATAAAGCTCACTGACTTTTGTTTCATACATATATCTATATACTTGTGAAAGCATATATAAATATGATGCTTCTTTAAATAGTATTTCGGGAGCTGGTTCATATTCATATCTTGTATCTAATTTTGATTCATATTTTATTGGCAAAAGGTCTATTGTTTTTGGCCTTTGTATTAAAGCATTTTTTAACTCGCCATATACAATTTTCACCTTTCCTGCTTTTTTTGAATTAACAATATTTAGTATATCATCTAAAATATACTCTGCATTGTCAGAAGTTGGTATATCATACAACTTTGTTCTTGAAAGCAGTATATCACCATAATTTTTTATTTCTATTTCTCCCTTTGTTCCTATTACAAGAAATCCTTTAAAATCCGAACAATTATTTGCTTCTTTTATTGCATGAGAAGAGATATCCCCTGTAAATGATCCACAAAGTCCCATATCAGTAGAAACTACCACTATTAAAGTTCCGTCGCCTGGTTTTACTAAAGGACTATCATAATCTGGTTCTATTTTAGAAATTATCCTTTCAGCATAAGAAGCATATTCTTGTATTGAGTTTATCTTTTTTTGAACCTTACTCAACCTTGCAGAAGCAACCATTTGCATTGCTCTTGTAATCTGCATAGTTGATGTTGTAGATTCTATTCTTCTTTTTATTAAACGTAGTTTACCTCTACTCATAAAATCACCGCCAATCAGGCTTTAAACATTTTTTTGAATTCGTCAAGTGCTTGAGTAAGGTCTTTGTTTAATTCATCTGATAAAACCTTTTTTTCTTCAAGCTCATTCATTAAAGATGTTTTTTGAGTTTTTAAAAATCCTAAAAATTCTTTTTCAAATTTTTGTATTGAAGTTACAGGTAAATCATCTAAATATCCTTTTGAACCAGCAAACAACAATACTACTTGTTCTGAAACTGTCATAGGACTATATTGAGGTTGTTTTAATAATTCTTGTAACTTTTCACCTCTTATTAATTGTTTTTTAGTTGATTCATCAAGATCTGTTGCAAATTGTGCAAATGATTCAAGTTCTCTATACTGAGCAAGTTCAAGTTTCAAACTACCAGCAACTTTTTTCATAGCCTTTGTTTGAGCAGAACCACCAACCCTTGAAACGGATAAACCAACATTTACAGCAGGTCTAAATCCAGCATAAAACAAACTACTTTCAAGATATATCTGACCATCTGTAATTGAAATTACATTTGTTGGGATATATGCTGAAATATCATTTGCTTGAGTTTCAATTATTGGAAGAGCGGTTAAAGAACCACCACCATAATTTTCTTCAAGGTTTGCAGCTCTTTCTAATAGTCTTGAATGTAAATAGAATACATCACCAGGATAAGCTTCTCTTCCAGGTGGTCTTCTTAAAAGAAGTGAAACTTCTCTATAAGCTGCAGCATGTTTAGATAAATCATCATAAACAACAAGAGCATCTTGTTTATTAAACATAAAATATTCTCCAATAGATGCACCTGCATAAGGAGCTAAGTATTGTAATGAAGCAGAATCAGCTGCACTTGCAACAACTACTGTTGTATAATCCATTGCACCAGCTTCTTCAAGTTTTTTTATTATTCTTGCAACAACTGAAGATTTTTGCCCGATTGCAACATAAACACATTTAACTCCTGTTCCTTTTTGATTTATTATTGTATCTATTGCTATTGCAGTTTTTCCAGTTTGTCTATCTCCAATTATTAATTCTCTTTGACCTCTACCAATAGGTATTAAAGAGTCAATAGACTTTAATCCTGTTTGAAGTGGAGTATCAACAGGTTTTCTTGTTATAACTCCAGTTGCTTTTCTTTCAATTGGATAAAAAGTTTCTGTTTTTATTTCCCCCTTACCATCAAGAGGTAAGCCTAAAGGATTAACAACTCTACCCAGTAAAGATTCTCCAACTGGAATTTCAATAACTTTTTTCGTTCTTATAACTCTATCGCCTTCTTTGATTTTTTTATAATCTCCAAGAGTTATTATACCTACATTATCTTCTTCAAGATTCATGGCAATTCCATAAACAATATCATTATTTTCTGTTTTTATTTCTACTAATTCATTGGCTACTATTTCTTTCATTCCATAGGCTCTTGCAATACCATCACCAACTTGTATTACCCAACCTACTTCTTTTATTTCACCACTTTCATAGCTTTTTATTCTTTCTTCTATAACCTTTGTTATTTCATCAGGATTTACTCGCAAATTATTCACCCCCGACTGGAAGCATATAAACGTTCAATGCTTTCAAGATAACCCTTTACAGAGTAATCAAAGAGTTTATCATCAATTATTAGTTGTAATCCACCAATAAGATCTTCATTAATAACCTCTTTTAAAGAAATATTTCTTCCAGTTTTTTTCTTAAGCACATTTTTTATGTTCTCAAGCAACTCTTCAGAAATTTTATCTGAAAGCATTACGTCTACTTCTATGAGTTTTTTTAGTTCGTAGCTATATCTTTCAAGTATGATTTCAATAGCTTTTAAAAGTGATTGTCTCTTTTTTTGTACTATTGCATAAATAAATTTTTCAAATATTTCGTCATTTAATTCAGAAACTTTTACTAAAGAGTCTGAAATATATTTTTTTGGAAGTAAAGGACTAAATACAATATCTTTTAATGCATCATCATTTTCAATTTTTGCATTTATTTTTTTTATTCCAGATATATATTTATCCAAATCTTCCAGTTTTTCATTACTAACAAGAAGGGCAATCAATGCGTTAGTGTATCTGGTTGCAAGTGAGTAAGAAACTTTCATAAGTTTTCTCCTCTTTTTTCAAATAAGTCAATAGCTCTTTGTACCATCTTTTGATTAGCTTGTTTATCTAATTGTTCCTTTAAAATCATTCCAGAAATTGCTATTGATAAACTTACAACCTTTGATTGCATTTCCTTCATTGCTTTTTCTTTAATTTCATTTGCTTCCATTTCAGCTTTTTTTATTATGTTTCCTTTTTCTTTTTCAGCTATTTCTTTTGCTGATTCAACAATTTTTTTTGCTTCCATTTCAGCATTTTTAATCAAAGATTCTCTTTGTTCACGAACTTTTAAAAGTTCTTCTTCCGATAACTTTTTCTTTTCTTGTGCATCAATACGAAGCTTTTCTGCTTCATTTAAGTTTTTTTCTATTTCTGCACGTCTTTTATCAGTCATCTCAAAATATGGTTTATAAAGCATGTAGTATAGAGTAATCATAAATGCAGTAAAACCAATTAGATTAACTATTGAAGTCATGTTAAAACTAAGCATTTATCACACCCCTTTTCCGGGTAAAATTTAATTACATTGCAAAAAGGATAATAAAAGCAATAACTAAAGAATAAAGACCTGTTGATTCTGTAACAGCCATAGCAAGTAACATTCTTGAAGTTATTGTACCAGCCATTTCTGGTTGTCTAGCAATAGAATCCATTGCATGTGCACCAACATTACCTTCACCGACACCAGGACCAATAGCTCCTATACCCATTGCAAGCCCTGCACCTATAAATTTACCGAGAAAGTAGAGACCAATACCTAATGTACCTGCATTATCCGCAAGAGTTTTTAATAAATCCATACTCTTCTCCTCCTTTTTTTTGATGGTTGATTATATTTTTGAACATTTTTACTCAAGTAAAGCACCTATATAGGCAATTGCAAGAAGTGAAAAAACAAAAGCCTGAATTAATCCAACAAACCAGCCAAAAAAGCCCCATAAAAATACTGGTAGTACAAAATATTTTAACATTGAACTCAATATTAAAACTAATATTCCACCACCCATTATATTTCCAAAAAGCCTCAATGAATGAGAAACAGGTTTAGCAATTTCACCAATCAAGTTCATAGGCAACATTAATGGTGTTGGATCTATAAACATCTTCAACCAATTCTTAATTCCTTTAGATCTTATTGCAAAAATATGGCTAATGATGAGTACCATTACAGCATAAGTTACATTAACATTCAAATCAGATGTTGGAGTATACCATGTATCTGTAAAAAGTTCTAAAGATAATCCAGAAGATTTTGGTACAACACTTATCCCAGGCATACCGCCCAATAAATTCGATACTAAAATATAAAAGAATAAAGTTGTGGCAATTACAAATGTTGCTCTTCTAAATCTTTTATCTGGAATAGTATCTTCAACAAGTTCCCAGAAGTAATCCAATACTAACTCTACTATTGATTGTTTTCTTCCTGGAATTCTCTCAAATTTGACTGTTGAAAAAAACAATACAACTATAATCATAATTGCAGCTGAAATGATTAAAGTCATAGGGTTTATTTGTCCCCAAAAACCATCACCAAACTTATAAATCCACCTTTGACCAACGCCATCTAACATCTCTTTTAATCCTTCTTTTGACATGATGACGTTTACAATACCGAGGACAACGTAAAGCGAAAAAAACGAAATAATTATTTTTTTTAATTTATTGTCTTTTTCGTTTGACATCCTTACACCCCCAAGCTCTATAAATTTTTATTCGTAATAAAAGGAACTATCTTTAAATTAATTAAACCTATAAAAGATAGTATAAGTGCTATTTTAGAAACTAATGCCGCAGTAAATAATATAAAAGCGTAAATTGCATAACGTACAAAATAACCATTTGGAATTTTCTTATAAAAAGCCATTTTTTTTATATCTGTAGACATTAAAAGCAATGCCGATATTGTACCAATGCTTCCATAAAGTATCCAAAAAGAATTAAATTTATAAATAAAAAAAGAAATTGAAACTTCAATTATCGTTAGAAGAATCGTCTTTTTTATCATCTCTCTTAGAGTTATTTCCAATTTCGTCATATTTTTTTGCCTCTTTTAAAAGTTCTTTTATTCCATTGTACAATCCAGATATCATCCCTAAAAACAACATTATTATTAACCAAAGTTTATTATTAGTAAGTGTGTATATAAAATATCCTATTCCAAATCCAACAAATATATTTGTAATAACAACTATTCCAAAAAAAATTACTAAATTTATTTGTCCAAAAGTTTTCAAATCATTTTTTTTCATTTTGTTCCCCTCTTAAAGAATTTCGAATTTAATAAACATTAAAGTCCCTACATTGGAAATTATACTCCTTTTTTTAGAAAAATACAACACTTGTTTTATAAATAATGTTAACTAATATATTATATTTGAAAATAAAAAATAGTCAACCTTTAATAAAACAGGTATTAAGTTAATATACCTATATACCGTATATTATTCGTTATTATTATTGAATTTAAAAAAAACACTTCAAAAAATAAATAACTTCTCTTTTTTATTTTGCATATCAAAAATAAGACAAATTATAATTGAAAAATTGGTTAAAAAATAAAATATTGAAAAAAATCTACACTTTGTATATTACTAAATTTTAGTTATTTTTTTCTAACTATTTTTTTATATATTCCCTTTACTCTAATATTTTAATAAATTCTTCAGTTTCTTTTAGTCTATAACTATTTCTATTCATATTTACCAAATATGCTCTGTGAGTTAATCTATCCACAATTGCTGCTGAGAGTACTGGATTATTAAATATTTTTTCCTTACTGGACCATTTTTCAATTGTATTCCTGGCTTACTTTTATTATACATTAAACAGTAATTTTTTAATCGCTCTTGAAAATTATAAATATTTAATTACTTGATATTTTTTATAACTTTTGCAAATTAATTCTTGAAAAAATAAAATAAATATGATACAATGCAAAAAGTATTAAACGAAAACTTTTTTAAATCATTAATATTTTAGGCAGGTGTTTGTTATCATTACGGGTATTTATTTGCTTGATGAAAAGTTGAATATTAAAAATAAAATAGATGGAATAAATTTAAAAAACATTGAAAGAACAAATAATGATATAGATGACGCTAAAAAGGTTTGGGAAGATTCTTTTAAACATAGTTCACCATATGAAGATAAAAACTTTGATTTAAAGAGAACAAGCAAAGGCAAAAACAATTTTGCACATGATTTCTACAAAATATCAAACAAGGATATAAAATGAGGGTTATATGAAAAACAAAATTACTGTACTCTTCATTGTAATATTTAATATTTTTAGTTTTTCAAATTCAATCAATGATTTATTCAATGCCGTGTGCAATCAAAATATTGAAGAAGTAAAAATCATATTGGAAAATAAAAATCTTAATCTCAACTATAGGAACGAAGATTATCGTACCGTCCTCGATACCAGTTCAATCAATAATTATTTTGATACTTTTAAAGTCATTTATAACAGCGGATTAGAATTAACTAAAGAAACAATGATTTCAGCCTATGGCTATGCAATATACTATAACAGTTATAACATCGTAAAATATATACTTGATAATTATGGCACTTACGATTATACAAACTTTTTACCAGACGATAGTGCTGTTAATCTATCAATAATAAGGAAAAACTTTGAAATTACTGAATTATTGTTAGAAAGAAACGTAAAATATAATGATGAAGCAATTGTTCTTGCAGCAAAAGAAAATAATTTTGAACTCATAAAATACTTTGTAAATGCTGGTATCAGTGTAAACACCAATGGATGGCACGAATATACCCCGCTTTATTATGCAATTAAGAATAAAAATTACGAAATGACTGAATATCTCATAAAAAATGGTGCGGATACTAATGCCATTTCATGGGAAAATGAAACAATCTTAGATATAGCGATATACACCGGATTAGATTTTGTCAAACTGTTGGTGGAAAATAAATGTAATTTAAATCAAATGGGTAAATATTATCCCCCCCTCACAAAAGCCATCATTTCCAGAAAAAAAAATACTGCAGAATATTTACTTGAAAAAGGAGCTGACGTAACCTTAAAGGATAAAACTGGAAAGGCCGTGTATGATTACGTAAAAGGCAAGCCGAATCTTATGAAAATTTTAAAATCTTACCTACAATAACAAAAAACTACTCTCGAGGTAGTTTTTTGTTATAATTAATACTTTCCTGCAAGGTTATACATCTTTTAAATTCACCTGAATCATCTGTTTTTCCGTAATAGTTGTAGAACAGAAAGTTCAGCCATGGATTGTCAATTTTCAGTTCGTATGTTTTTTTATACATTATCAGCGTGTCGTTTGTGTTTCCAAACTTTTCAAGAAAGTAGCAAAACGTTACAAAGTACTCTCGCCTTTGTTTTTCCATTTTTTCTCTTTTTTTACTTATTCTTTTCTTTTGGGACACTTAGATATGCTCACCTTATTTTTTATTTACATATAATTTTTAACTTTTCAATTCACAAAAAAATGTGTAAATTTAAGTACTTTAGCAGTGAAAAGAATAGCATAAATTATGTATAAAAAGTTTATATTATACACAAAGTATGATATAATTATTAATAAAAAAACAGTTTTATAAAAGGAGGTACATTTATGTTTGGAGAACACCCTTATGTAAAATGGGCAATAAAGGTAATAGAAAATTACATAAAAAATGGAATTAAAATAAATATAGATAATAATCTTCCAGAAGAACTTTTTATAAGAAAAGCTGGTTGTTTTGTAACTTTACACAACTCTGATGGAAGTTTAAGAGGCTGCATAGGAACTATTGAACCTGTTTATGAAAATTTAGCTAAAGAAATAAGAGAAAATGCTATTTCAGCTGCTACAACAGATCCAAGATTTCCTGCAGTTTCAATTAACGAACTCGAAGATATACAAGTAACTGTCGATATACTTTCACAATTAGAGTATGTCGAAGATACAGAAGAATTAGATCCAAGTTATTATGGAATAGTTGTTGAAAGTGGCTGGCGAAGAGGTGTTTTATTACCAGATCTAGAAGGGATCGATTCTATTGAAAAACAAATAAAAGTTGCAAAAATGAAGGCAGGAATTTATGGAAATGAACCATTAGACATATATAAATTTTCAGTAGAAAGGCTTTATTAAAATGAAAAAAATACTTTCTTTTTATAAAGCTACAAATGAAAGTATAAAATGTGAATTGTGTCCTAATGAATGTCTATTAAAAAATGGGCAAACTGGTCTTTGTAAAACAATAAAAAATATAGATAATAAATTATACTCTTTAAATTATGAAGAAATTTCTTCAATATCTATTGATCCTATTGAAAAAAAGCCTATTTTCCATTATCATCCAGGAGATAAAGTTCTTTCAATTGGAAGTTGGGGTTGTAATTTAAAATGTCCTTTTTGTCAAAATTTTGAAATTTCTCAATTTAAACCAAATTACCTATCTAAAGTAAAAGCTAATGAAATCCCATTAATTATTAACGAAAAAAATGTGAATGGAATAGCCTATACTTATTCAGAACCTTTATCCTGTTATGAATATGTATATGAATCATGCGTTCAAGTAAAAAAATATAATGAAAATTATTACAATATTTTAGTTACAAATGGTTTTATAAATGAATATCCATTTGAAAAACTATTAAATTATATTGATGCTGTAAACATAGATTTAAAAACGTTTAATTCAAAAAACTATATGAAATATCTAAAAGGAAATTTAAAAAATGTTTTAAATTCTATAGAATTAGCCTTTCAAAAAGATATTCATGTTGAATTAACTACCTTGATAGTTCCAAAAATTAGTGATAATTTACATGATTTAGAAGAAGAATTTAAGTGGATTTCACATTTATCAAAAAATATTCCATTGCACATTTCAAAATACTATCCTATTTTTAAGTATAATGAATCTAAAACAAGCCGATCACTACTCATAAAAATTTATGAAATGGCAAAAAAGTATCTTAATTATGTTTATATTGGAAATCTTTGGGAAGAGAAATATGAATCTACATTTTGTCCAAATTGTGGTAATTTATTAATAAAAAGAAATGGATATAAAATTCAAAAAATTAATTTAGATGAACATGGAGGTTGTAAAACGTGTGGTCAAAAAATAATAAAGTACTAAAAACAATTTTTAGTATTGCATTTTTAGTTTCTGTATCTTTAATCCTTTTTTTAATACTTTCAAAACCTAAACCTCAATATAAAGAAAGAATTGTAAGTACCCTTGGCACTATAGTAAAGCTATACATTTCTGGTGAAAAAGTATCAACTGATACACTTTTAGATATTTCAGAAAAAGAACTTCAAAGACTAAATCAAAAATTTAGTGCAAATGTTAAAGGAAGTATAGTCTACAAATTAAATAAAAATGATGAAGTTGAATGTGATGAAGAAGCTTTATTCTTATTTCAAGCAGCATTAAATACAGCTAAAATAAGCGGAGATGCTTTTGATCCAACAATACGTCCTTTAATGAAATTATGGGGATTTGATGATGTTAATTCACCAAAAAAAGTACCCAGTAAAGAAGCTATAAAAAATGCATTACAATATGTAAATTATAGATATGTAAAAATAGATCAAAAAAATAATAAAGTTTATCTATTAAAAAAAGGTGTAGAAATTGATTTAGGTGGAATAGCTAAAGGTTATGCAGTTGATAAAGTCATTGAAAGAATAAAAGGAATTGACCCTAATGCTACAGGTTTTATTGATGCTGGTGGAGATATTGGAATAATTGGTCCTAAATATGGAAATTTACCTTGGGTAATTGGTATAAGAGATCCTTTTAAAAAAGGTATGTATAGTAGCATAGGAACATTATATTTATACAGTGGAGCTGTAGCTACCTCTGGAAATTATGAAAGATTTTTTATAAAAGATGGTATTAGATATCATCATTTAATAGATCCTAAAACTGGATATCCATCAAATAAATCTGTTAGTTCAACTGTAATTGCAAAAAAAGTAATGACAGCTGATGCATTTGCAACAACACTTTTTATTCTTGGATACAACAATCCTTCTCTTGAATACTTTACTAATTTTGGTATTCAAGCTTATATTATTTCACCAACTGGTGAAGGAACAAAAACTTCTGGTTTTGATTATTTTATGGAGAAAGGAAGATGACTTTTTTAAAAAAAGGAGACCTTTACTTTATCCTAGCTGGTATTTTATTTTTAATTTCATTATATATATTTCAAAATTTAAATAACTATTCAATTGAAGGAGCAAAAGTTTTTTTAAATGGTAAAAATATATTTAACATAACAAAAGATGGTACCTATACTATAAAAAATGAATCTGGTAATATTTTAATGCATGTAGAGTATAAAAATAAAATGGTAAGAGCTTTAGATTCAACATGTAAATTAAAGGTTTGTATTGATACTGGCTGGGTTAATAATGCCTCACAAGATATAATCTGTATACCAAATAAAATTGTAATTAAACCTATAGGCAAAAAGAAAAAAAATGGAGTTGACTTAATCACATGGTAAAATCTAAAAAAATATCTTATCTTGCAATTTTAAGTGCCATTTCTTCAGCTATATATTATTTTGAAAGTTTTTTACCTATGCCTATTCCTGTACCTGGAGCACGTTGGGGATTTTCTAATTTTCCAGTATTACTTGGTATAGTTAAAAATATGAGTTTTAGCAATATAATTTATATGATCTTAATAAAATCAATTATGGGTTCTATGTTTACAGGAAAACTTTTCACTCCAACTTTTTGGATGGGGATTACTGGTAGCTTAATAGGAAGTATTTTTATGTTTTATGCATCTAAAATTAAAAAATTTGGAATAGTTGGAATTAGTGAAATTGGAGCCTTTGTAAATAATTCAGTTCAAATTATAGTAGCTGGTATTTTTATAATACATTCAAAAGGAATTTTTTGGTACTATCCTTTTATGGTAGGAACAGGTTTCTTAACAGCTTTTATAAATGCTTCAATTGTAAAAATAACTATTAGGAGTGTTGAATTTGAATAAATACAATATTATACTAGGATCAGGTTCACCAAGAAGATATGAATTACTAAAATTATTGTTCAACAATTTTGAAGTAAAAGTATCAAATACAGTTGAAAAATATAGTTCAAAAAAACCAGAAAATATAGTTGTAGAACTTTCAGAATTAAAAAGCAACTCTATAAAAATTAGTAATGATAAACTATTAATTACAGCTGATACAATAGTTGTTTTAAATGAAAAAATTATAGGAAAACCTAATAATTTTGAAGATGCTTTTCATATGTTGAAAAGTCTTTCTGGAAAAAAACATGAGGTATTTACTGGAGTTACTATAAGAACATTAAACAAAAAAAGATGCTTTTATGAAAAAACTGAAGTTTTTTTTAATAATTTAACTGATTCTATAATTAAATTTTATTTAAGTACTTATGAACCTTTTGATAAAGCTGGAAGTTATGGCATTCAAGATTTTGGAGCCGTTTTTATAAATAAAATAATAGGTGACTATTATAATGTTATGGGACTTCCAATATCAAGATTATTTTTTGAATTACAATCTTTTTGAATACTTTATATTTTAATATTATTTATACTTAAAAAAGGAGAGTAAATATGCTTCCACGTGAAAAACTTATAAAATATGGTGTAGAAAAATTAACCAATGATGAATTGTTAGCCGTTATTTTAAGAAGTGGAATAAAAGGAAAAAATGTTTTTGAACTTTCAAAAGAACTTTTAAAAAAATATAAAACTCTAACTAAGTTAGAACAGGCAAGTTTTGAAGAATTATCTTCCATAAAAGGTATTGGAAAAGTAAAATCCATAAACTTAAAAGCTTCTCTTGAATTTGGCAAAAGATATCATCTATACAAAATGAAAGAAAAAAAAGTAAGTATAAATTCACCCGAAGATGTTTATAGAGTATCAGAAAATATGATATACTATGATAGAGAAGTTGTAAAGGTTATATCTTTAGATTCAAAATTAAATATTATAAATTCTAACGAAGTAAGTCAAGGAACTGCAAATGCTTCAATAGCACACCCAAGAGATATTTTTAAATGTGCAATAAAAAATAATGCAATCTCTATTGTTCTTGTACATAATCATCCATCAGGAAACCCTGAACCAAGTAAAAAAGATTTTGATTTAACAAATAAAATTAATGAAGCCGGTACTTTACTTGGAATAAAATTAAATGATCATGTTATAATAGGAAACAATTCATATTATAGTTTTAATTTACAAAAGAAGGTGTATATAAATGAGCGAGAATGACAAATTAGAGGCAATATATAAATTAAAAAAAGAAATGGAAAAAGACTTAAAAAAGAAAGGGGGAAAAATAAAATCTGAAGAAGAAACAGAAAAAAAGAGAACCATATACAAACCAGATAAAGTTTTATCTGGAATAAATATACCATTTGAAAAAATAAAAACGTGGTTCGATATAAACTTATATGATATAGAAATTAGTGATGAAAAATTATCTTTTTACTTTGAAAGTAAATTAACTAACAAATCGCCTGGTTACTTTTATAATCAATTTGGGCTAATGCATTTATTGAGAAATGATTATGAAAAAGCAGAAAAGTTTTTTTTACTTGGTAAAGATATCGAATCTAAATTTAACTATGGAGTTTTAAAAGTTTTTAGAAAAGATGAAGATGCTCTTGTTTATGCAAAAGAAATTGTAAATAAATACCCTCAAACAGGATATCCATATTTGTTGTTATCCTTATATTTTATTTCTGTAAATAATTTTGATGGTGCTTATAAATTTTTAACTACTGCAAATAAATTTTTAAATTATTCATTTATTTCTTTAGCTCTTTCAATATATAAGAAAGATTTTATAGCATCAAAAGCCTATTTATCAAAATGTTTTCTTGAAAACAAAGCAAAAAAAACTATAACTTTATTAGATTATTATATGACCTTATTTGGAACAGACATTGATAAAAGATTATCTATTTTCTCTTCTATTAGAAGAGAAAATACTCCTTGTGCAAAATGTATAGAAACTATACAATCAAAAAAAGGGCATGAAACTCCTGAATATTGTGCTTTTTCACAAAGAATTAACAGCATACTTTTTTTAAACGAATCATCAAAAAGTTATATTTTTGAAAAATTAGATTTAAATTTTATAAACTTTTTTAATGCAAACCTTAAAGAAGAAGCAAACAAAGTGTATCAAAGCATGATTAAAATATATGGTGAATTAGATATATTATTTATTCCCGGAAGCACAAATAAAATGGGATTGAAAACTTTAGAGTTTATTACTGAAACTACAAAATATAAAATGACTTTAAAAGGTCCAGACTATTATACTGAATTAAAAACAATTTTAAAAAGTTTAAAAAATAATTATCATAAGGATTTCGATTTTATTATAAATGTTCCTTTTTATGAATCTTTAAGATTATTATTTGGATGGAGAACGTGTAAAAGACTTTATTAATGGAGGTTCAATTATGGATTTAAAAAGGTTGGAAGAAAGTATTGAAAAAGAAATAAAAAAAGTAAATGAAAGTTTTAATTATTCTGAAAAAAACATCGAATTAAAACCAGAAAATATTGCAAGGTATATTGATCACACCTTATTAAAAGCTACTGCAACACCAAAAGATATTGAAAAACTTTGTGAAGAAGCTAAAGAAAATGATTTTTTTTCAGTTTGTGTTAACCCTGCATATGCATCACTCGCAAAAGAAAAATTAAATGGAAGTAATTCTAAAGTAGCAGTAGTTATAGGATTTCCGTTGGGTGCAAATGATAAAACTGTTAAAGCCTTTGAAACAAGAGCTGCACTTGATGATGGAGCAGATGAATTTGATATGGTAATAAATATCGGTATGTTAAAAGCAAAAAAATATGATTATGTTTTTGAAGATATAAAATCTGTTGTTGATGAAGCCGATGGTAAAACAGTTAAAGTTATAATTGAAACATGTTATTTAACTAAAGAAGAAAAAATTGCAGCTTGTGTTCTTTCAAAACTTGCTGGTGCAACCTTTGTAAAAACTTCAACAGGATTTGGAACAGGTGGAGCAACTCCAGAAGATGTTGCTTTAATGAAATTTGTCGTTGGAAATGACTTAAAAGTTAAAGCATCTGGAGGAGTTAGAAGCTTTGAGGATGCAAAAAAAGTAATTGCAGCAGGTGCTGAAAGAATTGGTGCAAGTGCTGGTATAAAAATAATAAATGGAGAAGTTTCTAAAGAAAATTATTAATAAAGTAAATACTAAAAAAAGCCAGGGGAGCTTAATGCTGAGAGGATTTTCAATCGACCCTAATACCTGATCCAGATAATGCTGGTGTAGGAAGGCGGAAAAATTATAAAACTATAATTGCTCCCGCTTGGGAGCAAATTTTTTTATGGAGGTATAATATGAAAAAAGGTATATTAGTTATTATGAGTATTTTAATTGTTATAAGTGTTTTCTCAACAACTCTCACTGTATACACTTATGAAAGTTTAAATTGGGTTGAAGACAAAGTTTTAAAAGAATTTGAAAGTATGTATGGATGTGATGTTAATCTTGTAAAACTTGGTGATGGTGGAAGTGTACTTTCAAGATTATTACTAGAAAAGAAAAATTCAAAAGCTGATGTTGTAGTTGGTCTTGATCAATCTTTATCAGTAAAAGCAATTAAAGAAGGTATTTTAGAAAAATATACACCAATAAATATATCTAAAATAAACAATAAAGATTTAATATTAAATGATTATACAGTACCATATGACTATGGAGGAATAGCTTTTGTTTATAATCCAAAAACATTAAAAACAGTTCCAACTTCTTTTGAAGATTTAACAAAATTAAATAAAAAGATAATTATTCAAGATCCAAGAACGTCAAGTACAGGACAATCTTTTCTTTTATGGACAATTGCAGTTTATGGAGATAATTGGCAAGATTTTTGGAAAAGATTAAAACCAGCTATATTAACTGTAGCACCAGGATGGGATGAATCTTTTTCAAAATTTGAAGCAGGAGAAGCACCTATAATGGTTAGTTATGCAACAGATGGAGCATACTCTTATCAATATTACAAAAGTACTAAATATAAAGCATTTATACCAAAAGAAGGTGCCTATGTTCAAATTGAAACTGCTAGTATAATAAAAAATACAAAAAATGAAGAATTAGCTAAAAGATTCATAGAATTTTTATTAATGAATAATTTTCAAAAAGAGATACCTTTAAATCAATGGATGTTTCCCGTAACTAATACCACTTTACCCGAATCCTTTAAATATGCAATAATACCAGAAAAAATAGTTTCTGTCGATTCTGAAAAAATATCTAAAAATATGGAAACTTGGTTAGAACAATGGGAAAAAATAATGTATTAAAAAAAGTAGAGTTTTATTATGCTTTACTTTGGATATTTCCTATATTTTTTATACTTAAAGATTTTTTTAATACAAAAAGTTTAATTTTAATATGGGATCTGCGAACATTGCGGATCCTATCTTTTACTTTATTACAAAGTATACTATCATCCTTACTTTCATTAATTATTTCATTGTTGCCATCTTACTATGTATCAAGAAAAAGAAATATACTTTCTAATGTTATAGAAAATTCATTATTTATACCTTTTTTCTTTCCTCCAATATCTGCTATAATAGCTTTTTCTATACTATATTCAGGAAATGGTCTTTTATCTAAAATCGGAATAAATTTAAATGTTATGTACAATCTAAAAGCCATTTTAATAGCTCATACATTTTACAATTCTCCAATATTTATCAAATACATATCTGAAGCTCTTAAAAAAATACCTCAAAATATTGAAGAAACAGTCAATATTGAGGGGGCTAATAAATTACAAAAGTTTTTTAAAATAGATTTACCAATTATAATGCCGTCTATAACAAGAGGTTTTTTTCTTGTTTTTACATACTGCTTTACAAGTTTTGCAATTGTTCTTTCATTGGGAGGTATCAAATATTCAACTTTTGAAGTTGCAATTTCTACAACATTAAGAGGATCTATGAACTTTTCCAAAGCCTTAACTTATGCAATGATACAATTTATTGTATTGACAATAATAAATATATTTCTCTCAAAAACTGAAGAATATCAAATAGAATATCAAGATTTTAAAATTAAAAAAACTAATATTTTTTTATTTATATTTTCTTTAATGTATATAATATTTGAATATTCAATAGTTATAGTAGGAATATTAGCTTCTATCTATAACTTTTATGAATCCAAATTTGATATAAGTGGAATATTAAATTTATTTTCTAAAAAAATAAATTCTAAGTATCATATAATTGAATCTATAATTAACTCATTATCATTATCTTTTATAACTTCTATAATAACTGTACTATTTTCTTATTATATATTAAAAAAATATTCTAAATTTACTAATATATTAATTACATCTACTATTGGAATATCCTCAGCATTTTTAGCCATGGGATTAGTTTATTTAAATATTCTTTTTAGTATAAATTATTTTTATCTTTTAACTATTGGATATTTTTTAATAACAGTACCTATCTGTATATCATTTATGCATTCTCATTTTTTATCTTTTGATAGAACAATAGAAGAAGCAGCAAAATTAGATGGTGCTAATAAATTGCAATTATTATATTATATCGATTTTCCATTAATGTTTCCTATTTTGTTATCTTCATTCTTACAAATATTTACTATAATATTTGGAGAATTTACAATAGCTTATACTATGCAAATTAATAATTCTTATCCATTAGTTAGTTTAGTAAATTATACTTTATCTTCTTCAAGACTATATAAAGAAAGTTCTGCTTTAAGTTCTTTAAATATTTTAATTATATTTTTTATTTTCTATATATCTAAAATTTTTTCAAAAAAAACAAAAGATGATTTTAAATAAAATCATCTTTTGTTTTTTTATTCTATTATTGCAATTGAAAATTCTGTTATTAAATAGGCTTTAAAAAAATTAACTTTTTCAAAAAGTTCCATATCTTGATCCATTAACTCTTTAAAAGTATTATATTTTTTTGATTTAACTCTAACTACCATATTGAATTCTTTTATATCCGTAACTTCTATAAAGTCCTCTAAATTATATAACCTTATATAAGTATTTACTTTTTCTGTTATATACTGATTCAACTCATCCTTAAAATTTAAAAATAATAAAAAATTTTTTCTTATCAATTTAGAAATTTCCATAGCAACAGCTTTTTTTATAGAAACCATTTCAAAAACATTATTATAAGAAAATTCTACCTTCTTACCAAAAAAATTTCCTTTTAAAACTCCAGAATCATGATTATTTTCTAAAGCTTCTTCTCCAATTGCTAAAGCAAATGGGAAAGTAGCTATTGTATTTAAATATGTATCAAAGTTAATTTTTAAGTCTTTAATTTCAAAATTCAGTTTTTTTAGTACCTTTTCAGTAATTTTATCATCAGCTTCTTTAAATTTTGCAGAAGCTTCTTTTAATTTCTCAATAATATCTTCTAACTCATCAGGATTTATATTCTTTAAAAAATCTAAATTAAAATTTCCAAGTTCTGGATTTTTATTTAATATATCATTTAAAAATTTTTCAAAATCATCAAATTCAGGCATTTTTAATCCTCCAAATACTTACTTTAAACTATTATATAATAAAAATAATGTCATTTAAGTTAAAATTAAGTACTAAGAAATTAATTATTATTTTCAATAATATATTTTCTCATCTTTACAAATGCTTGAGAAGTTAGTATAACATCTCCTTCAGCTCTATGCCTTGAAACATTTGTATTAATATTCAATCTTTTACAAATAATATCTAAATTATGTTTTCTTTCACCTTTAAAAACTCTATGAGACATTTTCATAGTATCTAAAATTTGATTTTTTATATATTGTTCATTTGATATCTCAAAGTTTAAAAATTTTAAATCAAATCTTGCATTTTGTATAACTAACACACAATTATTTATAAAATTCAAAAATTCTTCTTGTATTTCAAAAAATTTCGGACTATTTTCAACATGTTTATCTCTTATTCCGTGTATTTTTGAAGCATAAAATGGGATATTCCTTTCTGGATTTAAAAGAGTAATAAATTTATCTTTTATAATAAAATTTATATTATCTTCTAAAATTTTTATTTTATAAACGGCTATTTCTACAAGTTTATCACCATTTTGAGGAGATAATCCTGTTGTTTCTGTATCCAATACACAATAAGTATTGTTATCTTTTAAAATCTCTATCATATAATCACCTCACAAAAAAATATTTTATCATAAAATCTTTTTATTTTAAAGTCTAATACGTAAAAAACAATAATTAATTTGAATTTATTTAATAATATAAACTTTTTCAATGAAACTAAAGACGTTTTTTATATTATTAATCTATATTAAATTATTTTTTTGAGAAATATACATATATTAAAAAAAATAAATTTAAAAAAAACATATGGTATAATAAAAATTAGAGGTGATAAAAATGAAAAAACTGCCAATAGGAGTACAAAACTATAAAAAAATAAAAGAAGGAAATTATACATATATAGATAAAACAAAGTATATATTAGATTTAATAAGTTCAGAAGCACCTATTTTTTTATCACGCCCAAGAAGGTTTGGAAAAAGTTTAACGATATCAACACTGTACTATCTGTTTAAAGGGGAAAAAGACTTATTTAAAGGAACATACATATACGACAAATGGGAGTTCAAAGAATATCCAGTAATAAGGATAAACCTTTTAGATGTAGCAACGGATAATGTGGAAAGAATGAAAGAAAGTCTAACAAAGATAATAAAATTAGAAGGAAAGCGAAATGGAATAGAAATAACAGAAACAGACTACAAGTTTGCATTCAATGAACTAATAATAAAACTATCAAAAAAAGAAAGAGTAGTAATATTAGTAGATGAATATGAAAAACCAATATTAGACAATATAAACAACAAAGAAAAAGCAGAAAAGTATAGAGAAATATTGAGAGACTTTTATGTGAGCATAAAATCAAAAGACGAATACATAAAGTTTGTATTCATGACAGGAATAACAAAGTTCACAAAAACAGGAGTATTTTCAGCACTGAACAACTTAAATGATATATCGTTGAATAAAAAATATGCACAGATGTTGGGATACACACAAGAAGAGTTAGAAAGTAACTTTAAAGAGCACATAAAAGAAACAGCAATTGAAATGAATATGGAAGAAAAAGAGTTATTAAAAAACTTAAAGATGTACTACAATGGATTTTCATTTGATGGAGAAAATAGTGTATACAATCCATTTTCAATATTAAGATTTTTTAATGAAATGGAGTTTCAAAACTATTGGTTTGAAAGTGGATCACCATCATTTTTGTATGAATACATAAAAGGGAAGAAGATAAGATATGAAGATTTAGTGAAGTATCCAGTGAGCGAACTCGATTTTTCAACCCGAGAAATAGAAGAAGCAAATGCAAGCATATTCTTTACACAAGCAGGATACTTGACCTTTAAAGGAATAAAAAGATTAGGATTGAGGAAAAAGTACATATTAGACTATCCAAACATAGAAGTAAAAAATAGTTTTTCAAAGATAATATTAGAGGCAAACTATGGAATAAGAGAAACAGAGCAAATAGAAACCACAATATATGAAAGAATATATGAAAAAGACATAGAAGGAATAATAAAAGAAATAAAAAGAATAATAAGTGCAATACCATACAACTTGCATAAAAAGGAAGAAAGTTACTATCATTCATTGATATATACAATATTAGCATCAGCAGGACTAAACGTAACAGCAGAAGAATTAACGAACTTAGGAAGAAGCGATATAGTAATAGAATTTGAAGACGTTATATATATAATGGAAATAAAGATAGACAAAAGTGCAAAAAAAGCCTTAAATCAAATAAAAGAAATGAAGTACTATGAAAAATACAAAGGAAAAGAAATTTATATAATAGGAATAAACATAAACTCAGAAAAAAGGAACATAGACGAATACAAAATAGAAAAGATATAATCCCAGCGGGTGCTGGGATCATTTTTTATAAAATGTATAAAATTAAAACAAAATACAGTAGTATAAGGATAAAATCAAAATAAAAAACATTAAAATTTTCAAAGTTAATATTGAATTAATAACGAAAAAGAAAATATATTTATATATAAAAATTAGATATTTAATAAAATTTCACAAATTTTTCTTCTGAAAATGATTAATAATAACATTATAAAAAATATAAAATTCAAATTCACAAATATTAACATTTAATATAAAATTAATAATATAAAAAAATAAAATAAACGATATAAATTAATCAAAAAAATTATATTTAGGTAAAAATGTTAATTAGTACACTAAAAATAGTTGATTTTTTCTTTTTTTTTTTATATAATGTTTATGTAAAAAAAGAAAAATAATTATTTAATTTATTGTATAAAAATATTTGTGTGTACAAATATAAATATAAATTTAGAGGAGGAACAAAAGTGAAAAAAAGTTTTGTAATTATGATATTTTTGATTTTGTTAATTGTTTTTTTTGTTAGTTCGTGTACTAAAAATATTACTAATTCCGTACAAAAAAATGATAAAGAAATAACCTTAAATGAGTCTTCACATTTAGAATCAGAAACATTTTATACTTTAGATTTTACAAAAATAAAAACTGACTATTATACTAAAAAAGGAATTTTAAAGTTAACAGAATATTATAATAAAAATGGTGAAATTGTTCTTTCAAAGAATTTTATTAATAATAAAATTTTAATAAATAAGTTTAACTTTAAAAATAATTTGTATAAAATATCAAAAGGTATATCAAATTATAAAATTCTACCTGATTTTATAAGCAATAACCAAAATAATATTGTTAAAACAAAAAATACTCAGCCAGTTATTTTTAAAGTAATATCAATATCAATTTATCAATCAACATCTAATAATATAGAAAGTAAAACTTGGACCGATAAAGGGCTAATTTCAAATTCATCAAAAATATTATCAAATTTGATTTCAGCAGCTAATTATGCAGCTGATTTGTTTTTTAAAAAAAGTATTCCTGGTTATATTTTGGGTAGCGCTGCTAATCTATTAATAGATTCAACAGCAAATCAGTATATTGTTTTTACAAAATTTGGATATACAGATTTTAAATCTGGAAAAGGAAAAGTTTTAACTTACTTTAGGGATCCTAACGGTCAAAGAACCGTTTTAGATAAAAAAGCACCACAGTATGTTAGATTTTATTCCGAAATAGCTATTAGAAATTATTATGATTTGTTTAAAGATGAATATATGAATTTAAAAGCTCATTATAAAGATTCAAGTGGTATAGAGTGCACTAAAATGAAATCTTATAAAAACTCAGATATTCAAGTTGCAAAAAACAAAGAATCAAGCACATTTAATAAATATCATAATAATAGTTATTTGAGAAATTATGTAAAGACTAGATATGAAATTGATTTAGCAAATTCAGGAGTAATTGTACAATGAAAAAAATATATATAATATTATTAATAATATTGTTATTATTCATTGTAATCTTTTTTAATTATTATAATAATCAAAACCATTTTTCTAAAGAAATAACTTTTGAAAACATATTTGAATATAAAAATATAGATAACATTACTTTAAAAGATACTTACATAGATGAATCATTTGGCTGTAGTGATATACAGTTTTATTTGAATGAATTTTTTAATAAAGAAAGGCAAGAGAGTATTTTTTTAATTTTAAATTATGATATTTCAAAAAATGAATATTTTTTATCATTAAAATTTTCTGATTTAAGAGATAAAAAAATACTAAATTTTATTTTAGAAGGAAAAAATTTGTATATAAAGAAAAATTTAAAAGATATCTTTTATTTGAATGACTTTGATAAAAATGTTTTTTATTTCAAAACTTCCTATAAAAATATAAACAAACTCGTACTTAAGAATAAATTAATTTTAAAATTAATTTATAATGAAAAAAATAAAAATATAGAATATAAAGCTGTAAAAAATTTTGAATCAAGAAAAAATATTTTTAACTTTGAAGTAAATCATCATTTTCCTTATAATACTAAGAATATTGATGCATACTTTGAATTGAGTAAAGTTTTAATGAAGCTAAAAGATAAAAAAAACATCAAATTAGAAAACGCCATAGCTTATTTTTATAGCTTAATAAAATATAAGAAAGTTTTAGAAAAAAACAAATTTATTTTAAGTAAAGAAGATATGGATAAAATTAATTTATTAATTTTAAATATCAAAGGCGGAAAGTATATTAAAAATTTTAGTCAAATAACTTGGAATAGCTTCTATAAATTTGAAGATTATTTAAATAATTTATTTGATACTGCTTGCAATAAATTAGATAATTTGCTATGCAGCATAGAGGATATAACATATAATTTAATAACTGATCATGAAGGAAAAATTGTTATTAATTTTTTTTGGAAAAAAACGAAAAAAGTCGGTGAATTTGTTTTTACAGTCAAATAATAAGTATTTAAGAAAAAATATATATAGATTTTTTTAAGTGATTCCTGGTAATACAGGAATCATTTTTTGGTTAAATTTATTTCATAAATTAATAAATGCTTTATATTAAAAAAAATTTAACTTATATGATCTATCCTCAAAAAATGATATAATTAATAGTAGATTATAAATTTTTTTATATTTATTTTGATTGGAGGAAAAAATGTTTTTTGATAACATCCCAAAAGAAACTTCAGTAAATAAAATTTCACAACCATCTTTTTTTGAAGGTGGAGAAAATGCTGTTCTTTTAATACATGGTTATACAGGAACTCCACATGATATGAGATATTTAGGTCATATGTTACACAAAGCTGGTTTCACAGTTTCAATACCACGTTTACCTGGTCATGGAACTAATTCTGTTGACTTTCAAAATTCAAATTGGAAAGATTGGTTAAGAAAAGTAACAGATGAATATGTAGATTTAAAGTATAAATATGAAGAAGTATATATTTCTGGATTATCTATGGGAGGAGTTTTAACTTTAATATTAGCTTCAAAATTTAAACCTAAAAAAATAGTATTAGCTGCTCCCGCTATTGAAGCAAAAAATAAAAAAATAAAAATAACTCCTTTTTTAAAATATTTTATAAAAAAAACTGATAGAAAATATAAAGAAGTTCATGAAGACGAAAATTTAAATAAATTAGCAAAGGAATATTGGCATTATAATTGGATAAATAAAGCTGCTGATTTAAGAAAACTCCAAAAAATTTCATTAAAATGTTTATCTGAAGTTGAAGCAGATACATTAACTATTTTATCTAAAACAGATGGTTCTGTACCACTTAATGTTGGAGACATTATAGACGAAAAAATAAACTCTAAAAATAAAAAGAAAATAATTTTAGAAAAAAGCAGTCATGTTCTTGTAAATGATATAAAAAGAGAGTATGTTGCTCAAGAAATAATAAAATGGTTTAAAAATTAATATGGAGGTGAATTTATGGCATTGTCAGAAAAGATTGAAAAAATGTTCAATGAACAAATAAATAAGGAGTTTTATTCAGCTTATTTGTACTTAGCTATGGCATCTTATTTTGAAGAACAAAACTTACCAGGTTTTGCAAATTGGATGAGAATACAGTTTCAAGAAGAAGAAGCACACGCATTTAAATTCTTTGATTATTTAGTTGAAAGAAGCGGACATATAGAGTTAGAAAAAATTGAAAAACCAAAAATAACTTGGAAAAATCCGCTTGATGCTTTTAATGATGTTTATGCTCATGAACAATTTATATCCAAATCAATAAATGAAATTTTTAAAGTTGCAAGAGAAGAAAATGACTATCCAACAGAAACTTTTATTCATTGGTTTATAATGGAACAAGTTGAAGAAGAAAAGAATGCTAAAGAAATATTGGATAGACTATCTATGATTAAAGACAATATTCAACCTCTTTTTATGCTTGATTCAGAACTTGCAAAAAGAGTATTTACACCACCAGTATAAAAAATAAAAATGGGCATAGCCCATTTTTATTTTTGTAATTCAATTAATTTATTTAATACTTCTTTTATATGATTTGAAACTTTTACTTTTTCCCAAACATATTCAATAACTCCATTTGGATTTAAAATTACTGTTGTTCTCATAACTCCATAATATTCTCTTCCATACATCTTTTTCATTTGCCAAACTCCAACTTCATTTAAAACTTCATTTTCAGCACTCAATAAAGTTACCTTTAAATTATGTTTTTCTATAAACTTTATATGTTTTTTAGGTTCATCTGGACTAACTCCAACAACTTCAGCATTTAATTTTTTAAATTCTTCTAATGAATTTGTAAAATCAATTGCTTCTGTCGTACATCCTTTTGTATTATCTTTTGGATAAAAATATAATATTAGCCATTTTCCAATAAAATCATTTGAAGAAATTTCATTAGAATTACTATCTATTAAATTAAAGCTTAATTTATTTCCTATATCATATTTAAAATACTTCATTTAGTTCCTCCATCCATGTTAAAAAATGGCCTATAAATATAAGCCATTTTTTTAATTTTATAATTTTTTTACTTTAAACCACCAATCAAATCCTTCTTCAGAATTATTTCTTCTTTCCATAGCTGTTTCATAATCACTTGCTGGTGGTACAATTACCTTATCACCAATTATTTCATTATTTGGCCAATTTTCAGGCATAGCAACTTTATTTTTATCTGATAATTGTAAAGCTTTTAAAGCTCTTAAAACTTCATCAACACTTCTTCCTACTTCTTGAGGATAATACATAATTAATCTTGTTATTCCTTTATCATCTACAATAAAAACAGCTCTTACTGTATTTGTTCCTTTTCCTGGATGAATCATTCCTAATTTTTTTGCAACATTTCCCATATCGTCAGCTATTACTGGAAAAGGAATCTCTACTTTCATATTATCTTTAATCCATTCAATCCATTTAATATGAGAAAAAACTTGATCAATTGATAATCCTATTAACTCTGTATTTAATTTTTTAAATTCTTCTGATTTTTTTGCAAAACCTATAAATTCTGTTGTACACACTGGTGTAAAATCACCTGGATGACTAAACAATACAAACCATTTTCCTTTATAATCTTCTGGTAAATTTTTAACTCCAAGTGTTGTATTAACTTTTAATTCAGGAAATCTTTCTCCTAATAAAGGCATTGTATTTTCCATTTTAATTCCTCCCTTTAATTTTTATTTTTATTTTATACGATTTAATTACATTTAAATTATATTCCAAACTAAATAAAAAGTCAAGTAACTTTTTAATATAATTTATTTAGTTTTAGTTAATTATATAAAAATATAATGTATCTTTTTTTACTTTAAAAGAAAAAAGTATTTAAGTGTAAAAGTCAAGTAGAAAATGTAAGAAAAAGGCAAAAAAAAACAAAAAGAAGATGATAAATCATTAAAAAAGAGAGAGAAATTTATAAAAAAAGAAAAGAGTCAACCTTTTCGGTTGACTCAAAGAAAAGTGGCGGGACAAAAACCTACTCTTGCACACACGAAGTGTACTACCATCGGCAGATAAAGGCTTAACGGCCAGGTTCGGAATGGATCTGGGTGGTTCCCCTTACCTTATCCTCGTCCCAAATTATTCACTCACTAGTGCATAAGAAAGTTTGTCCAAAGCCTCGGGTTATTAGTACCACTCGACTCAATACATCACTGCACTTACATCTGTGGCCTATCTATGTTCTAGTCTCGAACTACCCTTACCTCATAAATGAGCGGGAAGCCTTATCTTGGAGCCCGTTTCCCGCTTAGATGCTTTCAGCGGTTATCGGTCATGTACTTAGCTACTCAGCTCCTGCCATTTGCCTGACAGCTGATTCACCAGCGGTACACTCACTCCGGTCCTCTCGTACTAAGAGCAACCCTCCTCAAGCTTCCTACGCCCGCAGCAGATAGGGACCGAACTGTCTTACGACGTTCTGAACCCAGCTCACGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGGACCGACTTCAGCCCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACAACGCCGTCGATATGAACTCTCGAGCGTCATTAGCCTGTTATCCCCAGGGTAACTTTTATCCGTTGATCGACCGCGCTTCCACTCGCCTCGGCCGGGTCACTAGGACCATGTTTCCATTCTGCTCGACCTGTCAGTCTCGCAGTCAAGCCGGCTTTTGCCCTTGCACTCACCGGTGGATTTCCAACCCACCTGAGCCGACCTTCGTACGCCTCCGTTACTCTTTAGGAGGCAACCGCCCCAGTCAAACTGCCCACCTAACGCTGTCCGGCTCATGCTCTTCACATTCCACCGTTAGTAAATCATTATAATGAGGGTGGTATCCCAACGTCGGCTCTAGAAAACCTTGCGATCTTCCTTCTTCGCCTCCCACCTATCCTGTACACATTATAACCATTTACAACGTCAGGCTACAGTAAAACTCCATGGGGTCTTTCCGTCTAACTGCGGGTTGTGGGCATCTTCACCCACTCTGTAATTTCGCCGGATCCTCTGTTGAGACAGCTCCCAGATCGTTACGCCATTCATGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGGCTTCGTTTCGTAGCTCTCACCACTCCACTTAACCTTCCGGCACTGGGCAGGCGTCAGTCCATATACTTCCACTTTTTGTGTTCGCATAGACCTGTGTTTTTGGTAAACAGTCGCCTGGGACTTTCCACTTCGACTCTCAATCGCATTTTGCAACACCATCAAGAGCACCCCTTCTCCCGAAGTTACGGGGCTATTTTGCCTAGTTCCTTAACAGAGGTTATTCCGCTCCCCTTAGTTTTCTCAACCCGTCTACCTGTGTCGGTTTACGGAACGGTCAGTATTTCTCTCAAGCAATATACGAGGCTTTTCTTGGCAGTGTGACTCCTCCCCGTTAGACTTACGTCCTTCCCTTCACAGCTTTTCCTCCACAAGCGGTTTTCCCTACTCGTTTCTTCGGCTTTACTGCTTAGAAGACCTTGCAACTTGGTCTCGGTGATTCACCTCCTGCGTCCCCCCTTATATCTCGTTCATACTGGTACAGGACTCTTTACCTGTTTCCCATCGATTACCCCTTTCGGGTTCACCTTAGGCTCCGACTTACCCTGGGTGGACGACCCTTCCCCAGGTACCCTTAGACTTTCGGGGTGAATGATTCTCACATTCATTTCGCTACTCATGCCCGCATCCGCTCTTGTGTCTCGTCCAGCAAACCTTCCAGTTTACCTTCTCCCTACTACACAATGCTCTCCTACCAATTGGATTACTCCAATTCCGCAGCTTCGGTGTATGGCTTTAGCTCCGTTACATTTTCGGCGCATTGTTCTTCAACCAGTGAGCTGTTACGCACTCTTTAAAGGGTGGCTGCTTCTAAGCCAACCTCCTGGCTGTCTTCAGAACTTCACTACCTTTCACACTTAGCCATTTCTTCGGAACCTTAGCTGGCGGTCTGGGCTGTTTCCCTTTCGACCACGGAGCTTATCCCCCGTAGTCTGTCTCCCGACTATTCAGTATTGGTATTCGGAGTTTGACTGATTTCTGAGGTCGCCCCCATACGTCAATCAGTGCTCTACCCCCAATACTTTCTTTGTCGAGGCCGTGCCTACACACGTTTCGGAGAGAACCAGCTATCACCCAGTTCGATTAGCTTTTCACTGCTATCCACATGTCATCCGAAGATTTTTCACTACCTACCGGTTCGGTCCTCCACTTAGTTTTACCTAACTTTCAACCTGCACATGGATAGATCACTGGGCTTCGGGTCTATCGCATTTGACTTTCGCTCTTTTAAAACTCGGTTTCCCTTCGGCTTCGTCTCTTTCGACTTAACCTCGCCATATACGATAACTCGCGGGCACATTAATCAAAAGGCACACGGTCACTTCCGCTCCCGTTTCCTGTAGGCATACAGTTTCAGGTTCTCTTTCACTCCCCTCACGGGGTCCTTTTCACCTTTCCCTCACGGTACTATTCGCTATCGGTCGACCAGGAGTATTTAGCCTTGGAGAGTGGTCTCCCCTGATTCACGCAGGATTCCTCGTGTCCCACGCTACTTGGGATCAGCTTCGATTAGTTTACGAGTTTTCGTCTACAGGACTTTCACCTTCTTTGGTTTATCTTCCCATATACTTCGACTTCCTCTTTACCTATTCCCTCTATTTACAGTTCGAGTTAAGCTGTCCCTCTACCCCAAATTGACAACGGCTGTACCCTTTTACATCAATTTGGTTTGGGCTTTTCCCTTTTCGCTCGCCACTACTCAGGGAATCTCTTTGATTTCTTTTCCTCCAGCTACTATGATGTTTCACTTCGCTGGGTTCGCCTCCCTTTCGGGTTCTTCCGGGTTTCCCCATTCGGATATCTACGGTTCTTCGATTGCTTGCTTCTCCCCGTAGCTTTTCGCAGCTTGCCACGTCCTTCTTCGCCTCTGGTCGCCTAGGCATCCCCTGTATGCCCTTTTTACTTTGGACTTTCTTTCTTATGCACTTGTCAATGAACTTTGTGATCTGGTGGGCCAGGGAGGATTTGAACCTCCGACCTCACGCTTATCAGGCGTGCGCTCTGACCACCTGAGCTACTAGCCCATCTCACTCAATAATGGATAGAGGTAGTTGTTCTCCTTAGAAAGGAGGTGATCCAGGCGCACCTTCCGGTACACCTACCTTGTTACGACTTCGCCCCCCTCACTAGCTCCACCCTCGATGCATCCGTTCCTTGCGGTTACAGCATCCATCTTCGGGCGTTTCCAACTCGGGTGGCGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAGTTTGGCTGACCTGCGATTACTAGCGATTCCGGTTTCATGCAGGCAGGTTTCAGCCTGCAATCCGAATTGAGGTACAGTTTGTGAGATTTGCTCCACTTCTCAGCTTCGCTTCCCTCTGTCCGTACCATTGTAGCACGTGTGTCGCCCAGAACATAAGGGGCACGCTTACCTGACGTCATCCCCTCCTTCCTCCGTCTCGTCGACGGCTGTCCCATTAGAGTAGCCCATCTTCACATGCTGGCAACTAATGGCAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACGGCCGTGCACCACCTGTGTGAGACTCCTTTCTTGCGAAAGTTAGTAGTATCTCTACTACCTTATCTCCATGTCAATTCCTGGTAAGGTTCTTCGGTTAGCTTCGAATTAAACCACATGCTCCACCGCTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATCCTTGCGGACGTACTCCCCAGGCGGTTCACTTATCGCGTTTGCTTCAGCACGGAACTTTGACATCCCACACCTAGTGAACATCGTTTACGGCTAGGACTACCCGGGTATCTAATCCGGTTCGCTCCCCTAGCTTTCGAACCTCAGCGTCAGGATTACTCCAGAAAACCGACTTCTCCACTGGCCTTCTTACCAATATCTACGGATTTCACCCCTACTCTGGTAATTCCGTCTTCCTCTAGTATCCTCAAGTTATACAGTTTCAAGCGCTGTTCCACCGTTGAGCAGTGACATTTCACACCTGACTTACATAACCGCCTACGTTCCCTTTACGCCCAGTGATTCCGGGCAACGCTCGCCCCCTACGTCTTACCGCGGCTGCTGGCACGTAGTTAGCCGGGGCTTTTCTTTACATACCTTCCTTGTACTGTCCCCAGTACTTTATATTCTGTAAATTCAGAAGTTTACATCCCGAAGGACTTCTTCCTTCACGCGGCATCGCTGGATCAGACTTCCGTCCATTGTCCAAAATTCCCCACTGCTGCCTCCCGTAGGAGTAGGGTCCGTCTCTCAGTTCCCTTGTGGCCGTTCGTGCTCTCACACCGGCTACCCGTCGTCGGCTTGGTGATCTTTTACTTCACCAACTACCTGATGGGACGCAGGCTCGTCCTTTGGCGCTTCTCTTCCTTTCCTCTCTCGAGCTTATCCGGTTTTACCTACAGTTTCCCATAGCTATCCCAGTCCAAAGGGTTGATTCCTACGCGTTACTCACCCGTTCGCCACTAATACTCTCCACCGAAGTGGATTTCTTCGTTCGACTTGCATGTGTTAGGCGTGCCGCCAGCGTTCACCCTGAGCCAGGATCAAACCCTCCATTCGAATGGTTTGATTCTCACTCTAGTTCTTTCTTACTAGCGTCTTTTCTTTCGAAAAGTTTTATTTTACTACCTCTATCCATTTTTCAATGAGCTTGTTTCTCCTTCGCTTGACTTTCGCTCAGCGACTCAATCATTCTATCACTTTCTCCTTCTTTTGTCAATTGCTTTTCTTTTACTTTTTTGTTTTTTTTATCTTACCCTTTTCCACTTGTTCGTGTGTTTTTGTTTTTTTAATATTCTCTACTATGGATATAGCACCCTTTATATACACAAAATGCCTCAATAAAAATAAATGTAAAAAACAGAAAAATCGATAACTTATGAAAAAACATTAATTGATGAAAAAACAAATACTTATTAAAATATTTCATAAGGTTAAAAGAATTAATATTTGATTAATAAAATATATTTATTATAAAACATCTATAAATTAATCAATATATATTATGGATATGTAAATTTATTTATTTTTTATTTGTAAAATTACATTTTTTTGGTATAATATTTATATAATTGAAAAAAAAGCATGTTAATTTTATATAACTTTAACATATTAAAAACTATAACCTTAAAAATATTTGTGTACACAAACACATATATATTGAAGGAAGTGTGAAAATTGAATTTTATAGTATCAAAGAAAAGAAAAAAAGTGGATATTTTTCTACCTTTGGGTTGTGCTATTATGATAGAAGAACACGGTGAATTTATGGCTCAATGTTAAGTTAAAGCACGTTTTTTAAAAACGTGCTTATTTTTAAAGAAGGAGGAGATTTGATATGAGTAAGTATTATTGGATTTCACTCACAAATGATTGTAACTTTTCTTGTGAGTATTGCTATCAAAAGAAAAAGGCTAAAACTATTATGAATGAATATACAGCTGAAAGAATTATTGATTTATTAAATTTAAATGATTCAATAGAATTAATACACTTTTTTGGTGGAGAGCCTTTTATGAACTTTCCTATTATGAATAAAATTGTAAGTAATTTAAATGTTAACGTAGAAAAGTTTTCAATAACAACAAATTTGAGTCTTTTAAATAATGATTACATTAATTTTTTAGAAAATTATAACTTTAATTTACTTTTGAGTATAGATGGGAATAAACAATCACATAATATGGGTAGAAAAACTTTAACCAATAAAGATACATTTGATAACGTTTTTAAAAATTTGAAAATTCTTTCTAAATCTAATATTTCTAAAAATATTTCTATAGCAAAAACTTTAACTATTAAAAATTATAAAAATCTATACGATGATTTTTTATTTTTTAATAATTTAGGCTTCAATACTAATGTAAATGTAGATATGAATTTAAAAGAATCAAAAGAATCATTTGATATTGAAATATTAAAAGAAAACATAAAAAAAATAATTTCTTTTGTTATGAATAACGATTGTATTGATTTTTGGAATATAAAAGAATATATAAATGTTTATAATAACTTTAAACTAGGAAAAAAATATAAAAATACTTTGAGCAGTTGTACAAATAAGGAAAACTCAATAATTTCAATATCCGAAAATGGAAATTTGTATCCTTGTCATTTTCTATACGAGTATGATAATCAAGGATACTTTCCTCAAAATATTTTTTCTTTTAATAATATTAAAGATATCGAAAGCACTTTTAAAGAATCCTTTATAAAAAATTATTACTTCAAAAATCTTTCTGAGTATGAAATTTTAAAAATTGTTGAATCTGAAATAAATTCAAAAAATTGTAATTATTGTAAGTATATAGATTTTTGTTCTGATAAAATAGTTGATTCAGCTAAAGAAAGTTGTTTTTATAAAAGATATAATTTGAGAAATAATTATAATTCAATTGAAAAAAACACATTATGTTTTCAAAAATTATTTTTTGATTCAATTTCCGAATTATTAAAAGAAGGTGAAAAAAATTTATACAACTGTTTATAGTGATAATATAAGTCTTGATATTTCAATCATTAATTATTTTAAAGCCAATGATATTCAATTTATTTATAGAAATAATTGTTTTTTTTTAAGAGAAAATGATTTTAAAAAGTACTCTAAAATAAATTATGAATTTGATTTACCAGATAATTTAAAATTTATTAAAGATAAGTTAGATGATTGTACCTTAAAAAATTTTAAAAAGAAATCTGATTTTTATATACACAATTATACAAATTTTGATTCCGAATCTATTTTTTATTCACTTACAAACAATTATAAAAGAATTTATTTTAAAAAAAATCCTTTATTGTCTGATTATAAAAAAATAGATGAGTTAAAGATCAAATCTAAATTTGAATTTCCTAAATCAAAATTTTTTTCTGATGGAATATATAAAATAGTTTATTTTAAAGGAAATTTAGTTAGTAATCCAAATTCTATACTAACTAATATTTTTTCTTTTTATGAAGATAAAGATTATGAAAAATATTTTTCTATTATGATGAATTATGAAATTTATTCTAATTATATAATTTATTATTTTATATTTCACTATGGTTATGATGAACTCAACACAAAGAATATAGAAATATATTTAAAAAATTTTTCTGAATTTGTCAATTATAATAAAAAAAATCCTTTAAAAAACTTTAAACACAATGATATGAATAATGCGTTTGAAAAAAAATATTTATCTGAGTATACTAACTCAAAAAATTTAAATAATATAGAATATCTAAAAACTATAACTTTTTGTTCAGGTGATATAAATGAATAAATCAATTAAAATTTTTTTTCATAAGAATAAAAAAAAAGGAGCAATCTTATTATTATTTCTAACTTTTAATTTATTTTCATCATTTTTTATATCAGAAAAAACAAAAATACTTATGAATAAGAATTTTTTAATATCAGAAAACACTTCAATTCTCAAGCTTTTAATTATTATAGTATTTATTTACTTGATTTTACTTTTAACAAATGTCTTTATATCATACATTTCTCATAAACTATTATATTCTGGAATTAAAAATTTAAGAAATTATATGCTTTCTAAAATAATAGACACAAAGTTTGAATACTTTATAAAAAATAAAATTGGAAATATTTGGGGAGATTTTATAAATTCAACTAATAGAGTTTCTTCATTTTATAAATCTTTAATTTTGTTACCAATAAACATAATACAATCAATAGTATATTTTTATATTATTACAAAGTCTAGTTCTAAAATTGGTATATTATTACTATTATTATCTTTACCAATAATTTTATTTTTTACCTTCTTTTTAGGTAAAAAAATAAAATTTCATGAAAATAAAGTTTTAAATATTTATAGAAATCTTTATGGAGAAAGTATAGAAACTTTTTCTGCAATAAAGCAAATAAAACTTCTCAAAACTAAAAAATTTTTTACTGAAAGATTTAATAAAATGCATTCTTTAATGAATGATGAAATAATAAAAACTGCTGTTTATTCGGAAACATGGACAAGTATTTTAAATATATTTATAAATATATTACCCATTTTAATAGTAACAATCACAATTCTTTTAAAAAATGAACCTATTTCTCAAGGAAATATAATTATACTATATACTTTTGTACCTATTTTTATTAATTCTATTAAAGAAATTTATAATTTATATTTATCCTTTTTAGGTATAACTCCTTATATAAAGTCTATGAATGATATTTTAAACTTAGAAAAAGAATATTCTGGAAGCTTAATTTTAAAAAATGTTAATTCTATTGAATTTAAAAATTTTTCTTATAATTATGATAAAAAAAAGATTTACATTCCAGATTTAAAAATAAATAGTTCAGAAAAAGTTATGATTTTAGGAGAAAGTGGTCGAGGAAAAAGCACTCTTTTTAACTGTTTAATAGGTTTATTTAGCTCATATAATGGAGAAATATTAATATCCAACTTGGAAAAAAAACATTATGATATCAATTCTTTAAGAGAAAAGATCATTTTGTTATCTCAAGATAGAGTCATCTTTGAAGGGTCTTTGGAAAAAAATTTGTTTTTTAATGAAGATAATTTTAATAAAAATGATCTCAAAAGAATTTTAAAAATAGTAAAACTAGAAAAATTTTATAAAAATAATAATCGTAATTTAAATAAAGATAAGATCTCTGGTGGAGAAAAAGCTAGAATAAATTTGGCTCAAGCTATTCTAAAAAAACCTGATGTCTTACTTTTAGATGAAGTTTTAAGTTCTCTAGATGAAAAAATGGAAAAAGATATTTTAGAAAATTTAATAAAAGAGTATCCAAATATGTGTATAGTAGTAATATCTCATAGATTAAAAAATTCAAATCTATTTGATAAAGTAATAGATTTAAACAATAAATACGTTTATTAAAAGGTTCTTTCATAAATGAAAGAACCTTTTAATTATATAATAATTTAAATTTATATGTTTCTATTCTTTTTTTAAAAAACTAAAGTCAATTTTTAACTTTAGTTTTCAAAAATTTTATATAAAAACATTTCATCCTCTGACATTATTATCAAATATTTATTATAAATGGTAGTTTTAAATATTTTTTTATCTATTTTTATTTTCTTTGATTCTTCTTCACTTGATTTATTTAAAATTGATATACTATTTTTATATGAAACAAATATATATTCTTCACTAACATTTAAATCTATTATTTGTTCCTTAGAACTTATTGTTTTTAGTTCATTGTTATCTAAATTGTATATATATACATTGTTGTTAAAATCTAAAAGGTATAAAAAATTCTTATACTTTAAAGCCTTTTTCAAATTTATATTAAAATCTTTTATCTTCTTTCCATTTGAATATATTTTTCCAAACTTTGTAACTACATAATTATCTTGTATAAGTTTTATATCTTCTTTATAATCAAATACTTTTTTTACATCATTATTTTCTATATCAAATGAATATAATTCTCCATTTTTTAATGCTACATAAAAATTTTTTTTATTTTGACAATTAATATATGATATTTGATTATCAAATTTTTGATTTTTTTCATTTTTAGAATAATATAGTTCTCCAAAAAAATTGTATGTTATATAATCATTATTTATATATTTTATTTCAATTGGTAGTTTTATTTTTGAATCTATTGATTCTAATTCTTTTAATTCTGAAATAGAAAAAACTTTTATCATATTATTTTGCATAATATAAATTTTATTATTTTGTACATTAAAATCTTTTATTTCAGAATTAATTTTTAATGTATATATTGGATCAGAAGTTTTTGATAAAAATTCAGTTTTTTCTTTGTTTATAATTTTTACATCAGTTATCTTTTTTTCATTCAAAGATGATTTTAAAATATAATTTTCATTTTGATTAGTATAATCTCCATATACAATATCATCACTTGTTGCTATTATCATTTTTTTATTTATTGGCATTTTCAAAAATGTTGTTATTATATCATTTGAAATTTCATGTTCTTGGAATGCTGTTTTTAAAGTTATTGTTTTATCATTAAATCTTTTTATATCTGCATAAAATCTTACTTCATCATTTAAAATAAAATAATACGGCATTTTTGATATCTCTTTTGAAAAACCTGCAAAAGATTTTACATATTTCATATTTGTATTGAATATACCAAAAGGTAAAGTTATTTCTAAATTTTCATTTTCATATTTTAAATCTTTAAATTTGAATAATATCCCATTAGTTAAGAGTATATTTCCATCTGGAATCTTATCAATAGTGTCTCTATACAAAATATTTATATTATCTATTGGAATAATTTCTGTCCCTAATTCTTTTACATTAAATTGAATATTACCATTTTTTATATTTTCTATTTCACCTTTATAAAACGTATTTTTTTCTATTTTTATATTATAATTTTTTGATGAATAATCCTTTTTTGTTTCTTCTTTTATAGTATTTTGTCTTATATTCCAAAATTTTATTACAGATGGATCTGTAATAAAAAATTCTCCTGATGTTGTAACTACTGTTGCTTCATTACTTTCAGCATTGTATTCTTTTACATAACCAGATAAATTATAATTAGATATCAATATTCCCTCCATATCTTTTGAAACATCATCAAAAGATATGTAAACTATATTATCAAGTGGTATTGTTATCTTTCCAGTAAATCTTGATTCTATTTCTGCTTTACCGTCTTTTATTGAAATAACCGTTATCTTTTTTAGTATATTTCCATCTATTGCTTGTATTGTTGCTGAAAAAATATTAATTGAAATCAATAATAAAGCAATAATTATTAATACTTTTTTCATTTTAACACCTCCATTAGCATGAGAAATACTACAAATATCATTTGATAAATAATTGTATCTTCAAATTTATATATATTAAATTTTTCTCCATTGAATTTTTTTAAAATTTTATGAAATACAAAAGCAAAAATAAACATCACATAAGATATTAAAACTTTTTTTAAATCAAATACATAATAATTATAACTCAAAAAGTAAAAAATGAAAAATGAAAAAAACATATATATTTTTAATGGTTTTATTTTAAAGTTTATTTTCATCCCATTTAATAATTTTATAAAATAAAGACCAAATATGAATGCATTTATTTCAAAAATTATTGGAGAATGTATTGCTTTTTTTATAAAATATAATGTTGAAGGATAAATACCGCTCATATTAAATAATAGCAATGCAGTTAAAATAAAAGTATCTAAACTTACTTCTATCTTTTTTTCATTCATTTTTTCCATATGCAAATCTTCTGCTATAAAAAATAAAAATCCTTTTGAAAATAAATGATATATAAAAAAATAAGGAAATAATTCTGGTTTTAAACATATTACAAGTAATGCATAACCCATTTGTGTCATTGTTGAATATGCCAAATATCTTTTAAAATTATTTTGAAAGTATGTAAAAATAGACGATACAATTGTTGCTATTACTGCATAATATACTAACATTCTTTTTATCTTATTATCAAAAGAACCATTAATATAATAAAGTATAAAATATCCAAGCTCAACAACTATACCAGATAAAATAGGCGATATTCCTTTCATAGCTTCAGCATGGGCATCTGGTAACCAGCCTCCCAAAAAAAAGGATCCTGTTTTTATTAAAAGACCCGTCACTATAAAAGTTTGAGCAAAAATAGGCATTGTATAATTTTGTATTTCAATAATATTTAATGTACCAGATACAGAATACCAAATCCCTACCCCTATTAAATAAAAATTTAATGCTACTCCACTCATTATCATGTATTTCAATGATGCCCAAATTCTTTTTTCAGTTCTATCTAAAGGTATTAAAAGAAATACTATCATTGAAATTAATTCAAGATGAACATATAAATTAAAAAAATCTCTACTCATAAAAAAACTATTTATTACACCATTTAAGATTAACCATAAAAATGTAAATTCACTTCCATATTTTTTAATTATTCTTATATAATTTATTAAAGAAAATAAAAATATTGATAATAAAATAACTTTAATTTCATAATTATATAAAAGTTCTATTCCATTTATTGGATTCCATTTTCCAGGTATAATAGTTCCAAATTTTGAAAATATTAAAATATAAAATTCAATTATATAGGAAAATATAGCAAAAATTTTATGTTTTTTATTAAAAATATATGCAAGTATTCCAAAACTTATTGGTAAAAGCGAAGATAATAAAAACATTTTTTTACCTACCTTTATTAATCTTTTTTTCTAATTCATCTATTCTATATGTCTTTAATTTATTAGATAAAATCATAGAAAATACTAAGATTAAAGCTAAATTTGCAAATCCAATTACAACTACTGTAAGTAAAAATGAATGTATAAGTGGATCAGAATATTTTGTAACTCCTTCAGTAATCATTGGAGCTTTTCCTTTATACGCTAAACTTACAAAAAACAATACAACACCACCTTGAAAAACACCTAAATTCATTAATTTTAATATTATATCTTTTTTTAGTATAACACCTGATAGTCCTATAAAACATATAAATATTGAAAATAATTCGTAAGTAAGCACTTTTTTCCCTCCTATTTACAACATTCCTCTATGTTTTATAAATTTATATAAAATTGTCCATGTTCCAGCAAAAACTTCTATACCTATTAAAAAATTTAGAAATATTGCTGATCCTCCACTAAATAAATGACCATAATTTCCAAGTATTGGGAAATTACAAAAGAATTCTCCTCCCCAAATTTTACCAAGCATACCATATATCACTATTATAAGTGGTGTTAAATATTTATATTTTTCTATTTTAGATTTTTTAAATACTCTTTCAATGTCTTCAATTGGTTTAACGAAAGTTACACCTAATAATGCCGTTCCTAAAATAACTCCTGCCGAAAAACCTCCTCCTGTTCCAACATGCCCTGTAACTACTGCATAAAAAGCTAATAAAGCTAATAATTGAAATAAAATAGGAGTTATAATTTCTACAATTCCACTTTCTTTTTCAAATTCAAAATCTTTTACTTCTGGAAGTTTTTTTAAATAATAAGAAACTCCTGTTATTGCTAATGTGAATACAAGGACTTCAAAAAAAGTATCCAGCATTCTATAATCTAAAACTATTGCTGAAACCATATTTTTTGAAGTGTTTTCTAATTTAATTTCTTCTGCAGTATAAACACTAATAGCATTACCTGTTTTTAAATTAATTAATAATAATAAAAATGAAATTAATAGTAATAAAAAAACAATTATCTTTTTCATCCTATATACCTTCTTACTAATTCATTATATAATTTTTCATTTTCTTTTATTTCATTTATATATTCGTTAAAATCTTTTATTAAAAATGCATTTTTTTCATTAAAAATTATTTTGTATCCAGTTTTTTTTACTTCTTCTATATCATCAAATTTTTTTCCTTTATACATCAAATGTTTATATCTTATTACATCTATTACAAAATCTTTTTTTAGTTCATTTATCATTTTTTGTTCTAAATTATTGTATAAAATTCCGTGTGTTGTCTTTAAAGAATTTCCTATTTTTAATATTTTAGTAGGTAAATGAGTTTCTGAAACATGTATACCTTCAATTTTATCTTCAACAACTATTCCACCTATTAAAATATCTCCATTTTTTTTTAATTTGCTTAAAGATTTTTCTGGATCTACTTTTATGTATTCAGCTTCATAACCTCTTTTTTTTAAAAAAGTATCTAGTATATAATATTCAAATCCATACAAATTTCCTTTTTTTATTTCAATTAAATAAGGTGTTTCTACATACAATACTTTCAAAGTTGCTGTTTTCTTTAAAGCTATTAAGTATATAAAAAAAACAAATGCTGATCCTATTGTTATTTCGACTATTGCTACTTCTGGTGCATTCATTATAAAAAATATACCAGATAAAGCTATTCCAAAACTTCCATAAGCTAAAAGAGTATTTATATGTTTTTTTTGAAATAAAATATAAAAAGATATTACAATTAAAATTAAAAATAAAAAATAAATTGTTATTGTCATTTTTCTTTACCACCTATTTTCAAACCACTTTCACTAGCTCCTTGAGCTATTACATGAGAAATAACTGGATTTAAAATTAATGTTAAAATACCTATTAAAAGTAATCTTCCAATTTCTTCTGGATATTTTATTATAAAGGCTATTACAATTGTAAAAAGCCCAACGGTATCTGAAATTCCAACTGCTTGAATTTGAGAAAATATATCTTTCATTGTAAAAAAACCTAAACTTCCAGTTATAAATAAAAAAAGTCCAAATATGATTAAAATATCAGCTATCATCTTTTAAAACCACCTTTTTTAAAAATCTGGTTGTTATCAATATTCCCCATATATTTAATATTAAAACAACTATGATCATATCTAAAAGAATTAATTGTTCACTAATAAAAGTATAGAAAATCATTAAAATTACTATTTTAGTTGAAAATGATGCATATGCTAAAAGTCGGTCCCAACTTGTAGGACCGACTATTAATTTTGTCATTGTTAATATAATTGGTATCATTAATAAAATTTCTAATATATTTTCTATCAAAAGAGTTCACCATCCCATATTCCATCCTTTGAATGAGCTTCTTCATTAGTTCTAGCAACTTTATGTATCAATAATTTATTGTCTTCTTCTTTTAAAAATAAAGTTTTTGGAGTTAAAGTAATACAATTTGCTATTGCTGCTTTTTCAATTTTACTTTTGTTTTTTACATCTAAATAAGATATACCCGAATAATGTTTTCCATATATTAATGGAATAAATTTAAATGTATTTTTATACATTTCAACAACAATACCAACTGCTGAAATAAATATTTCAACTGTACCAACAATTTTCTTATTAAAAAAAACTTTTGTTAAATAAAGAGTTATTAAAACAGAAAAAACTCCAAGTGTTATTGATAAGTCTGAAAAATCACCCATTAAAAGTAACCATATAGAAAATAAGAAAATATATATCATTTCATTATTTCTCCATTTTTTCTGCTATATAATCTGTAACTTCTTCCATTAACTTTTCTATATTATCTGATTCTTTTGAAAATCCAGCAGCTCTAACATGTCCACCACCACCAAAATGTAACGCAACTTCTGAAACATCAAAGTATTTTTTTGATCTCATTGAAGTATGAAAAACATTTTTTTCATGTTCATTAAAAACAATTGCAACTTCAACACCCTTTAATGATCTTAAATCACCTACAAATGGTGGTGTGTTTTTAGGTAATATATTATATTTTTTTAACATATCTAAACTTACATAAGTATAAGCTATTTTTTTATCTTTTTTAAATTTAAGATTTTCTATAACATCTTTAAATAAAAGAACATTTTCTATAGGTTTATTTTCTAATATTGCATTTGTGATGTACGAAATATTTCCACCAAAAGATACTAATTTCGATACATCTTCAAATACTTGTGCATTTGTATTTGAATATTTAAAAAATCCTGTGTCAGTTGCTACACCTAAAAGATTTATTGTTGCTAATTCTTCATCATATTTAACTCCAAGTTTTTGATTTAATTTAAAAACTAATTGTGCTGTTGATGCAGATGTTGCATCTACCCAATTTACATGTCCAAAATTTAAGTTTGTTGCATGATGATCTATAACAACTATTCTTTTATATTCAAATAACTCTTGTATTCTTCCAACTCTATCTGGTGAAGAAGCATCTACTATTATTATTAAATCAGCTGGAGTATTTTTTACACAATCAAAATCTCTTATTTTTTCTTTTAAAATTGGTAATTCTTCTAAATATCCTGGTATTTCATCATCTATTGCCCCAATAACTTTTTTACCATATTTTTCTAATCCCATTACCAATGAACATATAGATGAAACATCATCACCATCTGGCATAATATGACCTGCTACTAATATTGTATCAGCTCTATTGATTTCTTTTATTACTTCGTCTATCATTGATTTACCTCCTAAAACAATTTAATTGATGTTTTTACAACTAATTCAAATTTATCTTTTATTTTGTCTGCAACTTCAATTACTTCTTTATGATTCAATGGTTTTGGTAGTATTCCAGCTGCCATATTTGTAACAGCAGAAAAAGATACAACTTTTATTCCTGTGTGATTTGCAGCTATTACTTCTGGAACCGTAGACATTCCAACTAAATCTGCTCCAAAATTTGCAGCCATCTTTATTTCTGCTGGTGTTTCATATGTTGGTCCAAGCATCCATATATAAGTCCCTTCTTTTATTTCTATACCATTTTCAAAACAGTTAATCTTTATTCTTTCAAACCATTTTTTATCTATTGGTTTCGCCATAGATGGAAATCTTGGCCCAAGTTCTTCATCATTAGGACCTATAAGAGGATTTATAGCAAAATTTATGAAATCAGTATTTGCTACTATATCTCCCGGTTTAAATGTTCTATTGATACCACCAGCTGCATTAGTTAAAATTAATCCTCTTACACCAAGTTCTTTCATTACATATACTGGAAAAATTATTTTACTTAATTTGTGACCTTCATAAGCATGAAATCTTCCTTTTAATGCTATTACAGGAATACCTTCTAAATTTCCTATTATTAACTTTCCTTCATGACCAGAAACCGTTGAATTTGGAAAGTAAGGTATATCTTCATATTTTATTTCTTTTTTATTTTCAATTTTATCTGCAATATAGCCTAATCCAGATCCTAAAATCAAACCAATAATTGGTTTTTCTTCAATTTTTTCTAAAATATATTCTACAGCTTTCTTTACTCTTCCAACCATCTTACTTCCCCCCTATTTAACTATAACATACATTGCATCTTCAAGTAATACTCTTATAGTTTTAGAATTAATTTCTAATTCTATACTTGTTTCATTTTTGCTTTTTACTAAGAAATTTATTCCTGGAAAAAGCCCTAATTTAAAGATTTGTTCTTTTTTTTCATTATTACAAGATATATTTATTATTTCAGATTCTTCTCCAACATTAAGTTCTTCTAATGTTTTTCTAAATACATGTGGCATTTCTTTTTTATATTTTTTTATAAAATCTTTTAGTTTTCTATATTCTATTGGATTTCTCTTTAAAAATATCATCATTGCTTCAAGAGAAACATAAAAATCTTCTGTCATATGATGTTCTACACCACAAGATAATTTATAAGATTGTTCTTTTGAAATATTAAGAATATTTACAAAAAAATCTATTAAGGTTATATATTTTCTATAAACACTTTCGGCTTCTGCTAAACCTTTTTCTGTTAAATCAATATATCCATATTTTTCATGTGAAACATAATCCATATTTTCAAGTCTTTTTATAGCATCAAAAGCTGAAGCGTCCCTAACTTCAAGCATTTTAGATATATCTCTTATTCTTGGGATTTTCCCATCAATATGTAATATATATATTGCTCTTAAATAATTTTCTAAACTCTCAGATATTTTCTTCATAATTTTCTACCTCATCAACAACATCTACAATATATTTTTTTTCACTTTTTAAATCAATAACTTTATCTTCAATTTGAACTATTGGTTGTATATCATTTCCTTTTTGTGAAGCAACAACCGTACCGACTCTAAAATCATTTAATTTTACTATTGTTCCAGGTGGATAGAGTCCAAAAATTTTTATTAAAAGTGTAACTAATTCTGGATCAAACATTTTGTTAGAATTTTGTATTATATGAGAAATTACTCTATAATAATTCCAACTCTTTTTATAAACTCTTTTCGAAGTTAACGCATCAAAAACATCAGAAATAGTTAAAAGTCGTGCAAATAAGCTGATATTTTTTTCTTTCATACCCTCCACATATCCTTTACCATCATATCTTTCATGATGATGAAGAATACCATCTATTAAATCTTCATCCAATATATGGTTTTTTATACAAAGCTCTTTTCCATACACAACATGTTTTTTTATTTCATTAAACTCTTCTGTTGTCAACCTTCTTGGAGCATTTAAGATTTCATATTTAATTTTTGATTTTCCAACATCATGAAGGAGTCCCGCTAAAGTTAAGTTTTTTAATTCTTTTTTATCTAATCCAAATTCAGCTCCTATTAAAGATGCAACCATTCCAACATTTAAACTATGTGTGTATGTATATTCATCGTAATCTTTTAATTTTTTTAAAGGTAAGTATAAAACTTCTTTAAAATTTTTAAGTACACTTTCAGTTATTTCTTCGGACATATCCTCTACTTTTTTATCTATAACCTTATCTTCACTATCTAATTTTTTCCATAAATCTTTCATATCCATATATGATTTTTCTACTTTTTTTTCATCTATTACAGCAACATCTGCTGCTCTATTTTTTAATACTGGAACTGTAAAAATTCCATTTTTTAATAATAAATATTTGTTAGAACTATCAATTATTGTACCTTTTTTTAATTTTAAAGAAGGTATATCAGAAGCAAGAATATATTTCCATGTTTCTAATTTATCAACATCTTTAAATATCATTATCCAATTACCTCTTTAATATAAACACCAGACTTTGGACCAGTTTCAATTATATGTCCATTTAAGTTTATTATAGGGAATACAGCAGCTTTTCCTTTTTTCATAACGACTCCAACTTCATTATTATTAAGTAAAACCTTAGTTCCCGTTGGATATAATCCAGCTATTGAGAAAAAAGTGCTAACATAATATGGATCAAATATTTTCCCAGAATTTTTTAATAAATAACTCATTGCTTCATATGGAGTCTTTTTTATTTCTATGAGTGAATCATAAGCATCACCAATTTGCATAATTCTAATTAATGGACTTATTTTTTCTCCTTTTAATCCCATTAATATTCCATTACCATCATATCTTTCATGATGAGCTATTATAGAATTAACAACTTCTTTAGAAAGTTGCTTTTTTAAATTTTCAAATGCTTTATATCCAGATATTAAATGTGACTTAACATATTTACTCTGTGTTTCTTCATAATCAAAAACGATTCTTTTGTCTATAAAAGCATACCCCATATCATGTATTAAACTCAATTTTAATAGCTGATCTGAAAATATTTTTGGCATTTTCAAATGTATTGATATTATAGAAGATATTATAGAAGTATTTATAGAATGTGATTGTAACGCTTTATCTCCAATCGAATGAAATAAATTCAAAAAAATTTCATCTTTTTCTAAAAATGTACTATAAATATCTTCAACCATATCATTTAATTCAGATGTATCTTCTTGTATTTTAGTTATATCAAGAACTTTATCAAATTGTTCATTCCACGCATTATATTTTTTTGATTCTATAACTGGTGGAATTTCTTTAAACTCTATTTTTATATTACTTTCTTTTTGAAAATCATCTTCATCATAAATATATAATTCATCAACTTTATAGCGTTTTAATCTTTCTATATCTTTTTCAGTAACTACAGTCCCCTGCGTCAAAAGAATTATTGAGTCTTTTGTCAAATTTTCAGCCAAGATTAATCCTGGTTTCAAATTTCTTATCTTTATTTTTTTCATAAATCCACCTCCGGATTTAATCAGTCTCTGGTTTTAAAATAGATACATATTTTTTATTAAAAAAGATAGTTTTAGCAACTTTTTTTACATCTTCCACAGTTACTTTTGAAATATTTTCAATAATTTCATCTATATTCACTATCCTATTATAACTTAAATAAAGGTCTAAACTATTCATCCCCATTGAAACATTACTTTCAATATCCAAAGTTAGTTTCCCAGATATTCTTTTTTTACCATACTCAACCCATTCTTTTATATCTTTTCTTTCAATTATTGTTTCTAATATGTTTTTTAATTTATTTTCAAATTTTTCTTGTTTATCTTCAGAAGTGGCTGCAAAAATAACAAATAATCCACTTTTAGAATACGCATTATAATCCGTTGCTATTTCATAAACTAAACCCGTTTTTTCTCTTATATCAGTAAATAATAACGAACTCATTCCACTTCCAAGTAAGGTATTCAATACCAATGTTGGAAAATATAATTTTGAATTTTTTGCAGGTGCTTCAAATCCATTTATTATATACACTTGATTCAAGTCTCTCTTTGTTTTTTTTACAAAGACATTTTCTTGTTTTAAAATTGGACTTTTAAATGTATTTTTTTCTCCATTTCTTAAACATTTTATACTTTCAAATTTTTCTATTATTTCTTTTTCATTAAATTTACCAGAAACAACTGCTACTGTATTTTGAGGAACATAATATTTTTCATAGTACTCATATACTTTTTTATGATTAAATGCTTTTACATTTTTTTTAGATCCAAGTATTGGTCTTCCAAAATTTTCATCATAAACATTTTTAAAAAGATTTTCAAAAGCATTATCTACTGGATCATCTTCATACATTGCAATTTCTTCTAAAATAATACTTCTCTCTTTTTCTATATCTTCTTCATCTAATGAGGCATGAAAAGTAATGTCAGATAAAGTGTCTATTGCAAGTTCGACTTCTTTTTCTGGAACTTTTGAATAAAAAACCGTTATATTTCTTGACGTAAATGCATTTATTGTTCCACCTATTTCTTCAATTGGTTTTTTTATTTCAATTATATCTCTATTTTTAGTTTTTCTAAAAACAGTATGCTCTATAAAGTGTGAAACACCAGAATTTTCATCAATTTCATGAACAGAACCAGCTTTCACACAGAATAGAACGGCGGCACTTCTCATCGAATCTCTATTTATTAAAATGAGATCCATGCCACTGTTCAATTTGTGCAATTTATACAAAATCAATTCCCTCCATCTTTTTCATCTTTTTTTTCTTCAGGTTTTTTATAAGGTTTTTTTACAAACCCTTCTTCTTTTAATTGAAATTTATTAGCCCCTTCTACTCTAAGAACCTCAACTTTTATCTTATCTCCAATATTATATTTTACATTTTTATTATAGTTAGAAACATGTAATAGTCCTGTTTTTCCTGGCAACACTTCAACAAAAAGACCAAATTTTTCAATCTTTTTTATTGTCCCTTCATAATGTTCTCCTGTTTTTACAACTTTAATTATTCCATCTACATAATTAATAGCTGCTTTAACCTTTTCTCTATCAAAGCCAACTACTTTTACTAAACCTTCATCATTTATATCAGTTTCTACTTCAAATTTCTTATTAATATCTTTTACAACTCTACCGCCAGGACCTATAATTTCTCCAATTTTATCAACTGGAACTTTTGTAATTTTTACATAAGGAACATATTGTGAAAGTTCTTTTCTTGGTTCTGAAATTGTATCATACATTAAATTCAATATATGTTCTCTTGCTTTTTTTGCCTTATCAAGAGCCACTGTCATTATCTCTTCGTTTACTTTTTCAACTTTAACATCCATTTGGAAAGCTGTAATTCCATCTCTTGTACCAGTAACCTTGAAGTCCATATCTCCCAAATGATCTTCCATTCCAAGTATATCAGTTAACACAACATATCCATCTTCTTCAAATATAAGTCCCATTGCTGCACCAGCAACATGTTTTTTTATTGGTACACCAGCATCCATTAATGCAAGAGATGTTGAACAAACAGTTGCCATTGAAGAAGATCCATTAGATTCCAACACTTCAGAAACAGATCTTATTGTATATGGAAATTCTTCTTCAGAAGGTATTAAATTTTTATGTGATCTTTCAGCGAGATGACCATGTCCTATTTCTCTTCTAGCTGGTCCTCTTAAAGGTTTTACTTCTCCTGTACAAAATGGTGGAAAATTATAATGAAGCATAAATTTCTTTTCTTCATTACTAAATATAGTATCAACATGTTGTACATCTGATTGCATTCCTAAGGTTATTATTCCTAAAGATTGTGTTTCTCCTCTTGTAAACAATGAAGAACCATGAACTCTTGGAATCAAACCAACTTCACATGTAATAGGCCTTATTTGATCAACTGTTCTTCCATCTGCTCTTTTATTTTCTTCAATTATCATTCTTCTCATAACTTTTTTAAATCTTTCTTCAAATGCTTCTTTTATGAAAGACATATTTTCATTTATATACTCTTCATCCCAACTTTCATTGTTTTCAATAAAATTTGAAAAAAGTTCTTTTTTATATTCTTTTATTGCTTTATCTTTATTCTTTTTCCCTTCTTTTAACATACATTCTTTAATCATATCATTGTTAACTGTATTCATAAATGCATTTATCATTTCTTCTGGAATTTCAGGTTCTTTTACTTCCCATTTTTCAATACTTACTTCAGAAATTATTTCTTCTTGAAATTCTATTATTTCTTTTATTGCATTGTGTGAAAAAGTTAATGCTTTTACCATTTCTTCTTCAGAAGCTTCTAAAGCTTCACCTTCAACCATTGTAACTGCATCTTTTGTTCCAGCTACAACTATATCTATTTTAGAATTTTTCATTTGTTCTTCAGTTGGAAAAGCTATGTATTCTCCATTAACATATCCAACTCTCACTCCTGCTACAATACCTTTAAAAGGTATTGGAGATAAATTTAAAGCTATTGAAGAACCTGTTATTCCCCAAGTATCTATATAATCTTCATTTCTCATTGAAAAAACTGTATTTATAACTTGAACTTCATTATGAAAAGACTTTGGAAATAAAGGTCTTATTGGTCTATCTATTAATCTTGAAGATAAAATAGCTTCCTCACTTGGTCTACTTTCTCTTTTAATAAAACCTCCTGGAATTTTACCTACAGCATAAAATTTTTCTTTAAACTCTACTGTAAGCGGGAAAAAATCTATACCAGGTTTTTCTTCTTCACTTGCATTTGCAGTAACTAAAAGTGAAGATTCACCATAAATTAATAAAATTGATCCTAACGATTGTTTTGCCATTTTTCCATATTCTATTCTTAGTTTTTTACCAAATAGTTCTTTTTCCCATATTTTCATTTTTTCACCTCACAATTATACTTACTATAATTTTACCATATTTTTATAAATAAATAAAACGGGGCATAAGCCCCGTTTTTTATTAACCTCTTATTCCTAATTTTTTTATTATTTCTGAATAAAGTTCTGTTTTTTCTCTCTTTAAGTATTTAAGCATTTTTCTTCTCTTACCAACCATTGACATAAGTCCTCTTCTTGTATGGAAATCCTTTGGATGAGTTTTTAAATGTTCTGTTAAATGTTTTATTCTTGCTGTTAATAAAGCAATTTGAACTTCTACAGAACCTGTATCCTTTTCGTTAATTCTAAACTCTTTGATAATTTCTTGTTTTCTTTCTTCTTCAATTCCTCTTGACATTTGTCGTTCCTCCCATTTTTTCAATTCCTAAAACTAAGTAATAGGATATTCCTAAAACTGAGTATTAGGTATCGAAATTATAACATATATATTTTTTTTAGTCAATTAAATATTTGTAACTTAAAAATATTTTTTATATTCCTTTTCTCTACTTAAAATTCTATCTATATAATTAGCAGTTTCTGGATGAGTTTTTGTTTTTATTAAATTATAAACATCTTTTACAGACATCTTGTTTACATTATACTTTTTCATTAAATTAAGAACATTAGTTGGTCCATGATTATAACTTGCTATTGCTAAATAATGTCTTTTGGTATTATCCGTAACTACCTTCATATATTGATTTGTTAATATATTTAAATACCCAGCACCATATTTTATATTTAATTCAGCTTTATATAAATCATCTATTCTAACAAATTTTCTTTTACCATAATAATAATAATATCCATCAGCAGCACCATACTTTGGCATCAACTGCATCATACCATAAGCACCTATTTTAGAGTATGCTTTTGGATTAAATGAAGATTCTGTATGAACTATTGCCATTACTAATTCAGCTGGTATTTTTGCTTCTTTTGCATACTTTTTTATTATTGGAATATATTCTTTTGCTTTTTTTAAAATAAAATTTTTTTCAAGAGGAACCTTTACTTTATAAACCTTCTTATCTCCTTTATTTTCTACTTCTACTTTATCAACAGAAATACTTTTTGGTGCTATATCTTTTAAAATTGGCTGTCCTGTAGATTTATCCCTTTCTGAAGAAATTTTGTTATACTGTGTTTTTATATTTGATTTTGCTTTATTTATAGAATCATTTTTATTTAAAATTGTTTTTATTTCTATATATCCACCATTTTGTTCATCAAAGTTAACTACACTATAAGTTTTTTTATCATAAGAATACTCTATCCATTTTTTTGCCGTATAATCTTCTATTTTTCCCCAAATAGCTTCTATTTTTCTCTTATTTTCATTCCATTTTGATTGAACAAGTTGATAATATTTATCCCATTCTTTATTAGTTTTATCTTGCTGATCTTTCCATAATTTTTCCGTTTGTTCAATTTGTCTTTCCCATTGACTTATTTCTGAAAAATTAAATATGAAAGTAATTAAAAAAATAAAAATCAAATACTTTTTCATTAAATCACTTCCTTTGTCATTTTTATATGTTTAATTCCAGCCTCCTCAAATACTTCTCCATCTGCTTTATATCCTAATCTTTCATAAAACTTTTTTGCATAGAGTTGTGCATTCATAGTTAAATTTTTTATCTTCATAATTTTAGCTTTTTCTTCTATTGCTTTCATTAAATCTATACCATATCCATTTTTTCTAAATTCTTTTAAAATAGCAATTCTTTCTACTTTCATAGTATTTGCGTTTATATATCTAAGTCTTCCGGTACCTATTGCTTTCTCTTCTAAAAATATTAAAAAATGAATACAACCAGCATCAAGACCATCTAATTCTTCTTGTGGAGATACCTTTTGTTCATCAATAAAAACTGTTTTTCTTATTTCATATGCTTTTTGAAATAAATCAAAATCTTTAAATAAAAATGATACGGTTGATACATTCATAAAAATCACTCCTTAATTATTTTTACATTATAATAATAATTATATCAAATTCTCATTAATATTCAATGAAAAAAAATAAATGGTACAATAAACAAAAGAAACAATGCAAAAATTAAATTTAAAAAATTTTAATTTTTTTGTTAACCTAAATTTAATTGTTTTTTTTTAAAATAAATGTTAAAATTTATATGAAAAATAAATAAGAATGAAAAGTACGGAGGCGCATCTGCGATTAGTAATCTATTTTCGCTTGAGGAAGCATGGGATAGACGAAAGGCAAAGATGCCGAAGGATATAAAGGTTCCTCACTTTATATTCCTGGTTACTCGGGAAATACCCGTTTAACTGTCACAGTTATGTGGAGAGCCGTTAGCATAAAATTTAATGCTTCCCACAAACTTGTGAGAAGCATTTTTTTAATATTTTTCTGGCAAGGGTTCGGAATGGGCATCCGACCCTTTTTTATTATATCATAAATTCAATACTTTCCTTCATACATTTCCTTTAAATATTGATCATACTTTCCACTTTCTTTCAATTGTTTTAATCCTTTATTAAAAAGCTTAATTATATTTTCATTATTTTTATCTTTTTTATTTAATATTAAATAATATGGGCTAACCTTTGTTGGCTTTTTTGTATTAGTTATTTGTTCTATTTCTTCTTTTTTGAATTTATTCTTTAAAATATCCATTGCTATATCATAAGTTAGAATTGTACAATCTATTCTTCCTGCAAGTAATTTTTTTAAATTAATTTCATCTGATGTAGACTGATCTACTTTAAAAATCCCTGCTTTTTGAGCTTTTTCAAATTCTTTTCCATAATAGTAACCTATAACTATCCCTATTGTTTTACCTCTTAAATCTTCATAACTTTCAAATTTTATTTTTTTATCTTTTTTATAAAATAAAAAATCTTTTAATTCTATAACCGGATCACTATAATAAAAAGATTTTTCTCTTTCTTCATTACGTGACCATCCAAGTGATCCATCCCAACTTCCATTTTCAGCTAAAACATATGATCTTTTCCACGGAAAAAATCCATACTCTACTTTTATACCTACATTTTTAAATGAATCCGTTACAACTCTTGAAAAGAAACCATAATATTTTAATTTTTCTGATAAGTATGGGGCCCATTCTCCATTCGTCAACCTTATAGTTTATTCAGAAAACATTAAAATAGTCACTACTAATACCAATAAAATCAATAAGCTTTTTTTCATATACTTCACCTCCATAAATAATTATAATAATATATATTCTATTTTTATTAGTATTTATTTTCATACATTTCCTTTAAATATTGATCATACTTTCCACTTTCTTTCAATTGCTTTAATCCTTTATTAAATAATTCTATTATTTTTTTATGATTTTCATCTTTTTTATTTAAAATTAAACTATAATGTCCTACTCTTACTACTTTCTTTGAAATACCTATTTGTTCTATTTCTTCTTTAGTAAAGTTTTTTCTCAGTATACTTAAACCAACGTAATAAGATTCAACTATAAAATCAACTCTACCTGCAAGCAATTTTTTAAAATTAATTTCATCTGATTTTGCTTCGTCTATTTTGAAAATTTTAAGTTTTTTTGCTTTTTCAAATTCTTCACCATAGTAAAATCCAATTACTGTTCCTATCGTTTTTCCAATTAAATCTTCATAACTTTCAAATTTTGTTTTCCCACTTTTTTTAAAAAATAGAACATCTTTTAAATCTAAAAAAGGCATTGAAAAATAAAAATCTTTTCCTCTTTCTTCATTATACGACCAACCAATAGAACCATCCCATTCTCCAATCTTTGCTAATTTATATGATCTTTTCCATGGGAAAAATCCATATTCTACTTTTATATTCACATTTTTAAATGCGTCTGTTACTATTCTTGACGCTACTCCATAATATTTTAGCTTTTTTGATAAATATGGGGTCCATTCCCCATTTGTTATTCTTATTGTTTTTTCAGAAAATATTAAAATATTTAATATCAAGATTAATAAAATCATAATTTTTTTCATTAAAACCCACCTCTATGTTAATATTATATCACAAAATCAATTAATATTAAAAAAAATATTTATTACTGATAAATTAATTTTAATTAATAAAAAGTTTATATTGACAAGTTATTTAATTCATGATATCATTTTATAACAAGATTATCTTTAATTGGTGGTGTAAAACATGGATAATTCAAACAAATTAAATAAAAACTTTTTTGAAAAAATTGAAAAAGAACTTATTTTTAATTTTAATGAAGATAAATTTATAAAACTTTTAAATCAATATCCAAAAGAACAATCTAAAATATTAAATAATATAGCAAATTCAATAGAACAAGGTATTGTTCTAATAGAAAAAGATAAATTTATATTTGTAAACAATAGTTTTTGTAATTTAATTGGATATACCAAAAACCAATTAACACATATGAAAATTTGGAAAGTTATTAATTCTAATTATAAAGAAATAGTAATCAAACACAAAGAGTTAAGAAAAAAAAAGATTAAATCAATGTATGAAATTAAAATCATTGATATAAACAAAAAAGATATTCCAGTTTTAATCACTGGAATTCCTGTCTGTACATCTAAAAATCCTGATTTGTTTTTTGGACTTATTACAGATTTAAGGAATCAAGAACATATTGAAAAATTACTATTAAAGCATTCTACTTATGATGATTTAACTGGAGTTTATAATTATAAATCTGGTTTTGATATTTTAGAGAGAGTTTTTAAATATTCTAAAAGATATAAAAAAAAGTTTACTCTTTGTTTTATGGATACAGATAATCTAAAAAAAATAAATGATAAATTTGGACATTCTACTGGAGATACCTTCTTAAAAGATTTTATTAATGTAATACAAGATTCAATTAGAGAAAGTGATTTTATTATAAGAGTTGGAGGAGATGAATTTTTGTTAGTGCTCACTGATGCTAACTTAGATACAACTCAATTAGTTTTTGAAAGAATACAAAAAAATTTAAATTTATTTAATAAAACTTCTACTAAATATAAATTGAGTTTTAGTTATGGCTTTTCTGAATTTAATAATCAATCAATAAAGGAAATGATAATAGAAGCAGATAACAATATGTACAAAATGAAAAAACAAAAAAGGTTCAAATAATTTTTTTATAATATATAGATAATTTTTTAAATTAAATATTTTAAATTTATAATATTTTAATTAAGGGAGATGTTTATTTTGTTTGAATTTGAAAGAATAAAATTTAGAAATTTTATTTTGTACTTTTTTATATTTGCAGTTTGTTTGGAAATTTTATTTGAGCATTTTAATATTAATACAGAAAATTCAATTCTTTTTAATTTTTTTACAGATATTTTCACACTATTTTGGCTTCTTATAAAATTTAAAAAAAATAATATTATTGTAAAAGATCAATATAAAATATCTGAAAACAAGTTTGAAAAAAAATACATTTTGAAATTAACTATAAGTTTAATAGCTATATCAATAATGTTTAGTTTTTTACAAGATTTTATAATTTCATTTTTTCATTTTCCATCTCTTTATAATGACAAGGATCTTGTAAACTTTTATATGAAAAAAAGGCAACCTTTAGAAGAATTGTTTTTTGCTTTTAATTTAATTATTTTTGTACCATTTGTTGAAGAACTATTTTTTAGATTTTTTTTAATTAACAGATTTGCATTAAAATGGGGAATAAAAAAAGCAGTTATACTCTCTTCAACAATGTTTGCTTTAATGCATCCAAATTTTTTTGGTACATTTTTATTTGCCATTGCAGTTTCAATAATATACTTAGAAACAAAAAGTTTGAAATTGAATACTTTTATTCACATGCTCAATAATCTTACAGCTTATATATTTCTAAAAATTTTATTTATTTCAAACTTATTTGTATATTTATTAATACCAATATTTATTTTAATTATATTCTACTCTTCAAAATTTTTATACTCATTTTTTTCAACTTATAGACTTTCAAAATATGATAAAGAATTTTCAAAAAAAATAAATGAAGAAATATCACAAGCAAAATATGATAAATTATAAAAAATTCAAGATTAAAATCTTGAATTTTTTATTTTTTTATTTATTTATTTTTTATATTTTAAAATTGGAAATAAAAATGCAACAACAATAGATATTATACTAACACTAAAAATAACAAATGGAACATTATTACCAAAAATAGCCGAGTATCCACTAGCAATAAATCCTCCTATTGACCACGAAAATCCCATAGCAATAGATGATGCAAAACTTTTATTTTTAGGCATTAAAACTTGAGCTTCAACAAGATTTGCAGACATAGTTAAAAATCCAAAAATATCAAATGACATAAAGGATAAAATTCTTAAAAAATCATTTTCTGAAAAATAAAACAAAAGTCCAAAAACTCCCATACCTAAAAATCCTATCAAGTTTATAACTTTTATTCCACTTTTTTCTCTTAAGTATGCACCAAAATAATTAGTAAACATACCTGCAATTAAACCTATAGAAAGTATTACTCCTCCCATTACCATACTTGAACCTTTTAAATTAACAAATATTGGAACAAAAGTATGAAATATATTCATAATAAATCCTCTTGTTGCTACTAATAAAAAAACTGGTAAAAGAACCATAGTATCTTTTAACTTTGGAATTGTTTTTTCCGAAACTTCTTTCTTTTCATATTTCCATATCTTAGAAGCAGGTATCAAAAGAATCATAAAACTAATAATAGCTATTATATAAACTTTAGAAAATTCATAATTTTTCATAAATAAAGTTATTACCACTGGACCTACTGCAGCTCCAAGCGCTCCAAAAACAGAAAATAAAGCAACATGATTTCCCTTATTGTGTCTACCAGCAAAACTTGCTCCAATAGGATGAAAAGCAGAATTAGTTAACCTCATTAAAAAGATCATCATTATTAACAAATAAAATCCATTTACAAATCCTGTTAAAGAAATTATTATTATTTCTAAAAAGACTAAAAGCACTACATACAAACCATCTCTTTTTTTTCTATCAAAATAAAGTCCAAAAAATATTTGAACAATTGAAGAAAAAGCACCTATTAAAGCTATAGAACTTGTAAATGTTCTACTATCTATTCCATATTTTTCAATAAAATAAGGTCCAAGGGGCTTAAAAAAAGAGTTTAAAAAATCTGCTAAAAAATGTGTAAAAGCTATATAAATTGTCAAACCTCTCACTCCTTTAGTTAGTTTTACTAACTTTTTTATTGATTATATCACAATAAATATTAAATTTTTTTTATTTTATATTAATTTTGTATATCAAAAAAAGTATCCAATTAAAATTGGATACTTTTAATTTTTTTATTATTTAACTACTTTACTAAACCAACTATACAAACTAAACCAGCACCCGCATGAACCGTCATTGCTGAAGAAACTTTTCCAATTAATATTTCTTTATCATAAAACTTTTCTACTTTTTCTTTCAATTCATTTACAAAGTTTATTGTTCTTTGAAGTTCTCCAGATCTATAAATAGCAACTTTTTCTATTTCTTTTCCATTTGTAAATGTTTTAAAATATTCATATAAATTATTTACTGCATTTTTCATTCCACGAGCTTTAGAAACTGTAAAATATTTTCCATATGTATCAACAGATATAACTGGTTTCATATGTAAAACACTTGCAATAGTTGCTTTTAAATGACTTATTCTCCCTCCTGCTTTTAAATACTTTAAAGTTGGTATTGTATATCCACCATCAGATTTTTTCTCTTTAGCTATACTTTCTATTGTCGAAACAATTTTATCAAAAGATTCTCCATTTTTATTCATTTCAGCAGCCTTTAAAACCATTAATCCAGTTCCAATTGAAACACTCAATGAATCTATTACCTTAATTTTAACACTTTTATGTTTATTCATAATGTCTCTTGCAACCATGTTAAATAGATTGTATGTACCACTTAATCCACTTGAAATATTTATAGCAATTATTTCATCATAGCCTTTATTTATCATTTCTAAAAAAACTTCTTCTATTTCCGTATATGAAGGCAATGATGTTTTTGCAAAACTATTTTCCATGTACTTTAAAACTTCTTCTTCATTTATTTCAATTATATCTTTATAAGATTTTTCACCAAGTATTATTTTTAAAAAAACAACATTTATTTCATATTTTTTTATAAGTTCTTGGGGTAAATCAGTTGCAGAATCACAAACTATTCCTATCATAATTTCACCTACTTTTTACAAAATATTATACTTTTATTATATCATAAATAATAAAAAATAAGCATTTAAAATGCTTATTTTTTATTTTGTTTCTAAAAATAATTTTAGTCTATTTATTATATTTATCTCACTAGTTCCCGATTCATAATCTAAAAGAAGTAGGTTCACATCTAATTTATCTTTTAATTCCCTATAAATTCCCTTTGCTATAATATGATTTGAAATACATCCAAAAGGTTGTAAAGATATTATATTTTTTATCCCTTCTCTTGCCATATCTCCTATTTCATTTGCCAAAAGCCAACCTTCTCCAAATTGTAAAGAAAGAGGCAATATGTTATTATTACTTTTTATAGTTTTTCCAAGTTTTGATTCTGGAATATATCTAATAAAATTAGAAAGGATTTTTTCTGAAATATTCCTATAATGGTCTATAGTATTTTTTATAACTGCTTTTGTTAAATACATTTTATTATCATTTTCAATTTTTTCTCTCTTATTATATTGTTTACTATAAAAATCATACTCTAAAAACTTCAAAAATGTTGGAACAATAACTTCATATCCATCATTTTCTAATCTTTTGATAATTTCATTATTAACAAAACAATTTGTTTTCATGTATATTTCTCCAACTAAACCTATTCTATTTCTTTTTTTGGGCATATTAACTTCTATTTTATTGAACTCATTAACAGCTTTAATTAAAAATCTTTTCATCATCTTTTTGCTTGGTTTTTCATTAAACATTTGTTCTTTTATTTCTGATAAAAGCTGTGAAAAAACTCTATTCGTTTCTCCTGAATGTCTTTCATAAGGAGCTGTTGCTAACTTTAATTTTAAAAGGCTATCTCCAATAGAAAATGCTATAACACTATACTTTAAAAGTTTTATAAGATTTATTTTCAACCCTTCAACTGAAGCATTGGTTCCTATTGAAATTACTGGTGTATCTTCAAAACCAGCATCTATTAATGCCTTTTTTAACAGAGGAACATAATTTGAAGCTCTACACTGTCCACCAGTTTGAGAAAGTCCAACCACTGTATTTTTAGGATCAACATCTCCACTTTTTAAAGCTTTAATTACATCTCCAATTACAACTACAGCTGGATAGCACATATCATTATTTACATATTTCAACCCTTCATCTATTGCTTCTTTATTTTGATTCATTATAGTTTTTAATTTATATCCTAAATTATACATTACTCCTTCATACAAAGCTGAGTAGAGCTTTGAAAATTTTGGTACCAATATAGTTTTTCTTTGATCATCTTTCGTATAAGGCTTTACGTTTTTTCTTTTCTTTACAAGATTTATTCCCTTAGTATTATTTAATGCCTCAAAAGCTGATCTAATTCTAATTTTTGCAGCACCTATATTGGACATTTCATCTATTTTTAATACAGTGAATATTTTACCTCCTGATTCAACCAATGATTTAACTTCATCAACAACTACAGCATCTGGTCCACAACCAAAAGAATTTAATTGTAAAGCTAACACTTTATCATATTTTTGCTTTGCTATCCATTTTGATGCTAAGTACAAACGATTATGATAAGACCATTGAGTTAAAGGTAAAACACCATCTAAGTTCATTTCATACAATTCTGGTATATCACTTTCTGTTATTCCATATGCGCCAAGCTCATATATTAAATCCATTACCCCTGCATTTACCATTGGATCCATATGATATGGTCTTCCCAAAACTATTACAAGAATTTTTTTATTTTTTTGTGCTTCTTCAATAACATCCTTTGCCATTAATTTTAAATTTAATAAAAGTTTTTCTTCTTTCTTTTTAGCCAATATATAAGCATTTTTAAATTCTTTTCTATTAATTCCAAATTTATTTACATACTTAAATAAATTTTCTTCTAATCCCTTTTCATATTTAAAACTAAGTGAAGGAGTGTCTATTGGAATATTTGTTTTTATATTTCTTTTTAAAACTTCTCCATAACCAGTTACTATAGGACAATTATAAGCATTTTTAGCATCATTTCCTTCTGTTTTTTCAAATATTATAGTTGGTATAAATATTCTATCTACTTTTTTATCTATTAAATTTAAAACGTGACCATTCGATATTTTAGCTGGAAAGCATATATTGTCTGCAGATACTGTCCTTAATCCTTTATAATATAGCTTTTGTGTTGTTCTATCAGATAAAACAACTTTAAATCCCAAATTTTTAAACAAATTATAAAAAAATTGAAAATGCTCATATATAGATAACATTCTTGGTATTCCAATTACAGGTTTATTTTTATCATATTCATAATTTTCATCAATTTCAAATATCATTTTTTCTTTTTCTTTAAAAAAATTTATACTTTCTTTATCTTTTTGTACCTTTTTATTAGAAAAATACTTCTCACATTTATTTCCAGTATAAAAAATATTATTATTATCAAATACAAATTTTGTAATATTACAATTATTTCCGCATCCTTTACACTGTATAAATTGTTTTTTATACTCTATATTGTTTATACTTTCTATATTAAATTTTGTTTTATAATCTTCTCTACTTTTATATAAATTTCTTGCATATATTGCAGCTCCAAATGCTCCCATATACTCTGAAATATTTAATCTATAAACATTTTTACCAGTTATTTTTTCAAAAGCTCTCAAAACAGCATCATTTTTAAAGGTTCCACCTTGAACAAATATATTATCTCCAAGTTCATCAACATTTTTTAATTTTATAACTTTGTAAAGAGCATTTTTAACAACAGAATAAGCTAATCCAGCAGCAATATCTCCAACATCTACTCCATCTTTAAGAGCTTCCTTGACTTTACTATTCATAAATACAGAACATCTTGTTCCTAAATCAACAGGAAACTTTGCATTTATAGCCTTTTCAACAAATTCATCTAAAGTCATATTTAAATTTTTTGCAAAGGTTTCTATAAAAGAACCTGTTCCAGAAGAACAAGCTTCATTTAATCTTATATCAGTTATTATTTTATTTTCTATTTTTATTGCTTTTATATCTTGACCACCAACATCAACTATAAAACTCAACTTATCATTAAAACTTTGTCCAGAAACAAAATGCGCCATTGTTTCTACAATACCACCATCTAAATTTAAAGCTTTACTTATAAACTCTTCTCCATATCCTGTTGAAAATACAGCTTTTAAATTATTATTTTTTATATATTTTTTAAACTTTTTTAATCCCTCAACTGCAACATTTAATGGAGAACCAAAATTATTTTTATAAAAACTATCTATAATATTATTTTTATCATCAATCATTATTAACTTTGTCGTAGTAGATCCCGCATCAATACCTATGTATAAATTTTTCTTCTCTTTCTTTTCTTTTTCATCTAAATATTTTAAATTAAGATTGGAATGTCTCATTTTAAAATTTTCATACTCATCTTTATCTGTAAAAAGAGGTTCTAAAGTTCTTATTGTTCTTTCTACTTTTTTTTCACTTTTTATTTTATTTATAATTTCATCAATTGTATATTGTTTATCATTATTTTCAGAATATAAAGCAGCACCAACAGCAACTAAAACTTCTGAATTATCAGGAAGTATAAATTTATTTTCATTTAACTTTAATGTTTCATGAAAAGACTTTCTTAATTCTGATAAAAAAGTTAAAGGTCCTCCTGCAAAAATAACCTTTTCTCTTATATCAGCTCCTGATAATAATGTAGTAATTGTTTGATTTGCAACAGCTAAAAATACGGCTTTAGCTATATCTTCTTTACTTTCTCCTCTATTTAATAAAGCCTGTACATCTGTTTTTGCAAAGACTCCACATCTTGAAGCTATATACAATGTTTTGTTTGATTTTTTTGCCAATTCATTTAATTCTAATGGATCAACATTTAATAAAACAGACATTTGATCTATAAAAGACCCTGTACCTCCTGCACAACTTCCATTCATTCTCATTTCAGGGATTTTTCCTTCCTCAAATAATATTATCTTTGCATCTTCTCCACCAAGTTCTATTAAGGTATGAGCTTCTTTATATAAAAGTTTTATGGCTTTTGAAATTGCTATTACTTCTTGAACAAAAGAAAAGTCATTTCTATTTGCAAGTCCCATTCCAGCAGTTCCTGTTATTGAAATAGAAAGCTTTTTATTTCCTACTTTCTTTTTTAATTCTTCTAATTCTGAAATTAAAACTTCTTTTATTTTTCCATTATGTCTTACATATTTTTTATGCTCTATATTAAAATTTTTGTTCAGTAAAACTACCTTTGCTGTTGCTGAACCTAAATCTATTCCTAACATTTTTCCCTCCATATTCATATATATTTTAATATTTTTTTATTTTATATTTTTTAAAACAAAACATCTTGTACCTCCAAAATGAAATTTATACTCATTTATTTTTTCAAATTTATCTTTTGTTATGCTTTCTAATCCACCATTTTTTATAAATTTTCTAAAGTTTCTAAAATGATCTCCACCAACCATAGCTTCAACTATAAATATTTCTAATACACCTAAAATAAATGCGTGTTTATCAAACATATAGTCTACAACAATTAAATATCCATCTTTTTTTATTACACGTTTTGCTTCATTTAAAACCAAATTTTGTACTTCTAATGGTTTTTCATGAAGTGCTAAACTTATTATTCCTAAATCAAAATTATCATCTTTAAAAGATAATTTTGTAGCATCTTGCTGTTGACATTTTAATTTATATTTTCCCCTATTTGCTACTTTCAACATATTTTCAGATAGATCTATTCCAGTTAAATCATCATATCCAGATCTTTTTAACATTTTTAATTGATTTCCTGTCCCACAGCAAATATCTATTATACTTTTTACTCCTAAAGTTTTAATTATTTTTTTTACTTTCAATCTAATGGATATTAAAGGTAAATATAAGAGTATATCATAAACGTTTGAAATAATTTTATACATAATATACACCTCCTAAAATTAGTTTTTATAAACTAAAAAGTCAAACATAATTATATATGGTTATATGTACATATATTATATTCTTTTTATTTTTAAATGTCAATACATTTTTATTTAGATTAAATTAATTTATTTATAAGTGATTACTTACTTTTTAACACATTATATTATATCATATTTTTATTGGAAAAAGGCAATAACTCATTGAGCTATTGCCTTTTTTATATATGCTATTTCTTTTCTGTGATCTTCATCAGTTCCAGGAGTTTCAAGTAATAAAGCTGTATTTAATACTTTTTCATATTTAAAAAAATTTTTAAATCCTTCTTCTCCTATAAATCCTTTTCCTATAATTTCATGCCTATCTTTTCCAGCACCTAGATCAAATTTTGAATCATTCAAGTGTATCATCTTTAACTTATCAATTCCTACATATTCATTGATTTCAAATAAAAGATTATCCATTCCATCTTTTGTTCTTATATCATAATTTGAATCAAATCCATGGCAGGTATCATAAGTTATTCCAATTTTTTCTTTGTAATTCGTTCTTTTTATTATATCTCCAAGTTGATTTATTTTATATCCTATATTTCCACCTTTTTTTGCTACATTTTCAAGTAATATCATAATATCAAAATCTTTGATTTGTTCTATTATAATATCTAAAGCATTTGCAACTCTGTCTATTCCAAAATCTTCTCCTTCACTCAAATGACTTCCTGGATGAACATTGAAATATTTTATACCAAGACTTGCTGTTATCTTTATCTCTTCTATCATAGTATCAATTGACTTTTTCCACCCTTCATCTTTTGGTGAAGCTAAATTTATTAAATATCCAGAATGCACCAACATCGATTCTTTATCAATTTTCATTTTTTTTATTTTATTTTTAAAATTTTCTACATCAATTACATTTAGTTGTTTTATTTTCCATGTTCTTGGAGAATGTACAAATATTTGAAAAGCATTTGCTCCTATTTCATTCATAACTTCTGGTACATTTGCAAATCCTTTTGAAATTCCAAAATGTGCTCCTAACTTTATCATATTCACCTCAAATACTTTCTATATCAATTTCTAATATTTTTTTTGCTGTTTCCTTATCAACAGTAGATAATACACCAAGTGCTGCAAATATATAATTCTTATCATATGCAAATTTAACTTTTTTATTTGGCAACAATTCATTTGGAAAGTTTGCTTCAAGAAAACTTTCCATAATTTCTTTTCTAAACTTAGAACGAGTTAATATTCCACCAGTTCCAAATATATGCTTTACAGCTGTTAAATCCTTTCCACTTGCTATTTCTTGCCTTCCATTTGGTCCATATAAATGTTTTTTCCTTCCTGCATGTCTTCTAATTCCATTGGTAAAACAATATTTTGCTATGAAAGCAGCAAACTTTTCTTGTCTTTCTGTTTTAGGATATGGAGATAAATTTTTTTTCAATTCTTCATAATCAGAAAATTCTTTTTTTATTTCTTCTTCACCTATCATATCTAAAACATTATGAGCATTTACAAATAAACCCATATCTCCTTCAACAGTTCTTTTTGATATTGGTTCTGGTGCAAGCATTATTTTTTGTACTTTTGGATCCCCTTCTGTTACAGAATCAACATCTGTTGTTGCTCCACCAATATCAACAGTCAAAACATCTTCATACATTTCAGCCAACAATTCTGTTGTTAACATAACAGCACCAGGAGTTGGAATTATTTCATCATCAGTCATATTTTGTATTTTCTCCATACCTGGAGCGTGTATTATATGTTCTGAAAAGACTTCTTGTATAGCCATTCTTGCAGGTTTTACATTCAATTGATCAACCTTTGGATATACATTTTCTGTTATTATCACTTTTTTATCTTTTAAAATATTTTTTACTTCATCTGCAACTGCACAATTTCCAGAATAAATAACTGGAACATCTATTGGAAGTTCATTTATTAATTCTGCATTATGAAGAACCGTTTCTTCTTCTCCATAATCAACTCCACCCGCAAGTAAAATTAATTTGGGTTCTATTGCTAAAATATTTTCAAGATGTGTTTTTCTCATCTTTCCAGCAGTAGCATACTTCAAAACAGCTCCTGCACCAAGAGCTGCTTCTTTTGCTGCTTTTACAGTCATATCGTAAACGAGTCCATGAACTGTCATCTTTAATCCACCCGCAGCTGAAGAACTTGCCAAAAATTTATTCCATTTTAAATTTATATTTAATTTTTTTTCTATTTCTTTTATAGCTCTTTCAATTCCGATTGTAACATCACCTTCAAAAACTGTTGTATAATGTTCTCCTTGACCTACTACAATTGGTTTTTCTGTATTTATTTTATCAAAGGCTGTGACTACTGTTGTTGTACTTCCTATTTCTGCAATTAATAAGTCTACAGTCAATTTAATTACCCCCTGAGTTTGTTTACAAAACTTTCTAATCTTTCAAGTGCTTTTTTTAAGTTTTCTTTTGATGTTGCAAATGAAATTCTTATAAATCCATCTTTAAAAAATCCTGATCCAGGAACAACCGCTAACTTTACTTCATCTAAAAGTTGTTTTGCAAAATCTGTATCTTTTATGCCAAATTCTTTTATGTTTATAAAAAAATAAAATGCTCCTGCTGGTTCTACAAATTTTAATCCAATTCTTTTTAATTCTTTAGAAACATACTCTTTTCTTTCTTTAAATGATGTATACATTTTTTCTACTTCATCTTTTACATCAAAGGCTGCAAGTGCTGCATATTGAGCCGGTGTATTTATATTTGATGTTGTATGAGATTGAATTTTAGACACTTGTTTAATCAAATCTTCAGGGCCAACACAGTATCCAACACGCCATCCTGTCATAGACCATGTTTTTGAAAGTGCATTTATAATTATGGTTCTTTCAATCATATTATCTATATTAACTATTGAATAATGTTTTCCTTCATATACCAATAATTCATAAACTTCATCACTTATAACATAAAATCCATATTCTTTTGATAATTTTGCTATCATTTTTAATGTTTCTAATGGATAAACCGTTCCTGTAGGATTATTTGGAGAATTTATTAGTATAGCCTTTGTTTTTGAAGTTATAGCCTTTCTTAATTGTTCTTCTGTTGGTAAAAAGTTATTTTCTTCTTTCAAAGAAACATGTACTGTATTTCCACCAGCAATTTTTATTTGAGCTTCATAACTAACCCAACATGGATCAAAAATTATAACTTCATCTTTTTCATTTAAAAGCGCTAATAGAACATTGTATAATGCTTGTTTTCCTCCATTGGAAACAACTATTTGATTTGTTTTATATTCTATATTTGTTCTACCTTTTATATATTCAGAGATTTTTTTTCTTAGTTCTATTATTCCACTGGAATTAGTATACTTTGTTTTACCTTCTTTCATAGCCTTATATGCAGCTTCAATTATAGAATTTGGTGTTGGGAAATCTGGTTCTCCTGCTGTTAATTTTACAATATCTATTCCTTGTTTTTCTAATTCAATAGCTTTAGAGTTTAATTCAAGAGTTATTGATGGTGTAACTTCTAATACTTTTTTTGAAAAATTCATAAAATCCTCCTTGCTTTTGAAGACGTTTGTATAACAAAAGTCTGATTTTTTATCAAATTGTTTCACCTTTATTTTACTACACGGTTATTACATTAGCAACTTGCTTTTTTACATTTATTATTCTTTAATGCTATTTATTATAATCTTTCTATTAAATACTTATCCTATTTAAATAATAAATATAAATAACGGTTTTTTTCTTTTTTGTCATTACTATTTTTCTGTTTTTTTTGTGATTTTTTTACAAATTTTCATTAATTAGATTCAATTTAGTTAACTTTAAATTAACTATAACGAAATTTCAAATTAATATTTTTGGGTTATAATGTACATAACAAGCTTAGGTATACATTCGTATAAAAGGGGTGGTTTTATGTTTAAAAAAAGAAAAAATTTTTCCATAAAAAAACATTTTGTTTTGAATGAAAATGTAAATTTTGAGCAATTATTTAATTCTGATCCTTATTTTGCTGAAAAAATCGCTGTCTTATACAGAGAATTAAAAGAAAAAGATATGGATATAAAAAACTTTGAAATTGATATAAATTCAACAAACAATGAAATGACAATAAAAATCCCAATATAAAGTTCCTCAAGCTTTAACCCCAAAAATAAAAACCCGCAAAGCGGGTTTTTATTTTATAAACATCATATTTGATTCAATTATCTTATTTTCTTGAGCTATTGTTGCATAAATTTTTCCAGAATTTCTTAAATAAAAATTCATATTACTATAATCAGTTTTATATAGGCCAAATCTCATACTTCTACCTTCTGACCATTCAAAATTATCCATAAGACTCCAGTGCATATATCCTTTTACATCTATTCCTTCTTTTATTGAATTTGCTATTTCATATAAAGTTCTCAATATGTACATTGTTCTATATCTGTCTTGAGAATCTGCTATTCCATTTTCTGTTATTATTATTGGCTTTTTATATCTTTTAAACCTTTTTAATACTTCTTCTATTCCTTCAGGATACACTGGCCAACCTATATCTGAAAGCATATCATTTCTATTTTCTATTATTATTTTATTCTTTGAATACTTAATATATCTTTTGGTATAATAATTTATTCCTAAAAAATCAAAGTCAGAATTAAAACTATATTTTTCGTTCTTTCCAATTGGTTTCTTTATTTGACCTTCTAAAATAGAATCAATAAAAGAATGATCAAAATATTTCATTACTTTTTTGTATGCTATTTGATCAAATATATTAGAACTTCTATATGGTTTATAAACAGCTGTATGTTTTGCAATTGATACTTTAGTATCAGGGTTTATTTTTTTTATTATTTGATAAGACGTATCATAAACATACAATAAATTTTTAAGTATTTTCATTGCTTCATCTTCATTTCTTTTTCCTGGCGGCCAAATTCCTTCAACATATGATTGATATGCATAAACTACTGGTTCATTTATTATTGTATAATATTTAACTTTATTTCCAAACTTTTTAATCATTTTTTCAATATACTTATAAAAATAATCTAAATTTGAACTTTCTTGAAATCCACCCTTTTTAGAAAACCATTTTGGAAGTGAAAAATGAAATAAAGTAACAATAGGTTTTATATTATTTTCCAATAAATTTTTTATAAAAGAATCATACATTTCAATGTATTCTTCATCAAAAGTATCTTCATTTGGTTGTATTTTTGCCCATTCTATAGAAAATCTATAAGTATTCATATTTATATCTTTAATCATTCTTAAATCCCTATCAAAATTATGTTCTGAATCACAACCTGGATCCGAATACGTATTATCTTTTATCCTACCTTTTTCATTTTCCCATTCATACCAATCACTATTTTTATTATTTCCTTCTATTTGGTGTGAAGAGGTTGAAACTCCCCACATAAAATTTTCCGAAAAAACAATATCCCTCATAAAATATCCCCCTTTTACTTCACCCAAAACTATTTTACCACAAAAAATAAAAAAAATGACCATAAAGGTCATTTAATGGTGCCGAGGGCGGGACTCGAACCCGCACGAGAGTATCAGTCCCAGTGGATTTTGAATCCACCGCGTCTACCAATTCCACCACCCCGGCACAACACAAAGTATTATACTATAAAATAGTTATTTTGTCAATACTCAAAATTTAAAACCAAAAGCTTTAAGCTTTTGGTTTTAGATTTTATTTATTTAATTCATTAAATATATATTTCAATACATTTTCTGCTAATTTTGAATCATCTCCCCATTTCCAACCATTGTGTAACATATCGCCTGCATCACCTGTTCCATCATCAAAAGGTGAAGAATCTCCTATTGCAATTACACTTCCTTTTTCAAAGTTTGTTTTTATCATAAATGGTTTGTTTTCTGATGTTCTTATCAATACTTTTACATCTTTTTTTAACACTTTTATTGAAGATCCATTCCACAATCCTATCTTTTTTATTCCTTTAGTTATTTCATCTGATAGTATATGGGCTAATGGTGCTTCTTCTAAGTTATCTCCTACAAATTCAAATCCAAATTTATCTACAAATTCATTAAATATTCTTACAGAATCCCATCCATTTCCATTTCTATCTGAATGTCCATGATCTGATATTATGAATATTCCACCACCATTTTTTACAAAATTAATAATTGCATTTATTTCTTCTTTTGTATATGGTGCATTAGGTTCTGGCAAAATTAAAATTCCAAAAAATTCTAAAAGTTCTTTAGTTATTTTCAATTTTTCTGAATAAAAATTCATTCCAAGTTCTTTTACTTTATCTCCAAAATCCGAAAAGGCTCCATCTGTTACCCAATCAGCATTCCCTGCTTTTTGAGCATGTGCTGCATCAAATAATACATTTTTTATTTTTTTGTTTTTTTCATAACTTACAGATATGGAACTCATATTTAATTTATTACCATTTAAATCTTGAAGAAGTCTAAATATTATTTTTTGATTATTAATTGGATTTTTTGCAGTGATTTTTATTATAGAGTCTGTTAAATACTCTACTTTTTCAACTGAATTTTTTAATATTCTAACAGTTTTATTTGCTTTTAAATTTCTTAATATTGGTTCATTAAACATTACTAATACAGTTTTATCATCTTCCATAGAATAATATCTTACTTTTGGTGGATATAAGTCTTCAGCTATTATATCTTTTTTATCTCTTGGCCATAACTCTCTTTTGGATAAGTATTGACCTTGTATTCCTGTTACTTCAATTTTTATTCCCTTTCTAAAGATAGTGGTATCTATTCCTGTGCCTTCACGTATCCAAACCATCCCTTCACCGCTTCCATCGTCCATTAAAAAGTCCTGTCCTTCTATTTTGGTAATCTTTCCAGAAACTTTTATTAACTTACCTTCATATTTTTCTTTATTTATATCATCTGTTTTTACAGATATTGGATTAATAATTTTTTTTTCTTTTGAAATTATTTCTATTTTATTCTTAGGATTATCAGGATCAACAACTATTTCTAGGTTACCTTTATGTTCCCATACATATCCATTTACTTTTACTTTATATCCTCTTTTTATATTCATTTTTGTTAAATCAATACTTTTAGTATAAATATCAACTCCTCCAGTTTCATCTTGAAGAAAGATATGATTAATATCATACAAACCTGGTTCAACTGTAACTATTCCTTCAAATTCAACTCCATCTAATTGTTTTTGACTTCTAACTTCTTCAATAGTCATTGAATATACTATTAAAGAAAGTATAGAAAACATTAAAATTAAAAAAGCTTTTTTCATTTTCAACCTCCCAATATTTTTTATATAGAACTTAATTATATCATAAAATCAACTAAAAAAGCAAAAGACAAATTTTAATAATTAAAATTTGTCTTTTGCTTTTTATTTTCTATTTAATAATATTATTAATGAATCTATACCAGTTGTTTCTTCAGAGTTTTTACTTGAAACAAAAAAACCAGATAAAATTAGTTTTTTATCATCTATAATTAATGAGTTTCCTATATCTGTTCCTAAAAAATTAGATAAATCTAGGTAATCTTTTTCTCCTTTTAAATTTAATTTTAAAATATATGAATCTTCATCATTTTTAGTAGTTATACTATAACCAGTTATGTATATCTTTTGATCTTTTATTTTAATATCATTTATTTCATCTAAAAATCCACTATCATACAATTTTGACCAAATTATATTTCCCTCATTACTCAATCTCAAAATCCAAATATCTTTATTATTTTTCTCATTATAAGATTCATTTGTTCCTCCAATAATTATAGAATTATCATAAATTTTTATTTTATATCCCTTATCATCAGATTTTCCACCGAATGTTTTTGTCCATAAAACTTTATTTTCTATTGTTCTAACTGATATATACATGTCTAATTTAGAATCGGTGTTATCTTTCCAACCTGTTATATAAAATGTATCATTATAAGTATCTACATCATTTATTTTTATAAAACCTTTTTCAATATTTTCAAAAGTAGATTTTTCATTTAGCATTTCATCATATATTATTTCTTTAAATATACTATTTTTCCCATCATATTTATCACAAAAAACAACTATATTATTTTCTTTATACAACATTTTTATAGGAGTATACCCATCTATAAAATAATAATTTTTTTTAATTATATTCAATTCATTATTTAATAAATAAATTGATGCATAGTTCTTACCTTCAAAATTATATTTTCCAAATAATACATAACCATTTTCTTTTTTTTCAACATTTATTAGTAAAAAATCATTTAATTTTACTTCTTTTATTTTTTTACCCTCTTTACTAAAAGTAATTATATTCATATTTTGTGTTTGTTCTACATTTTCAAAAAAAATATAAGTATCTTTTGCCATTAACGATGCAACAATTTTATTATCATTTATATTTCTATTTTCATAACGCCATTCCTCAATAAAATTTTCAAAAGAAAATGAATATATTGATATAAGTATAAATATAAAAAATAAAAACTTTGTATGTATTTTCTTCATTTTTTAATCCTCCCTTTAATATTAATATGTTATACTATATTATACATCAAAATTTATTTTATTTCAAAAAACAGGAGGGGTTTTATGTCTATATTAGATGTAATAGGCCCAGTAATTGTAGGTCCTTCTAGTTCTCATACTGCTGGTGCTGCAAAAATAGGGAAATTTTGCCACAATTATCTTGGTGGATTACCTGATTCCGTTGAATTTATACTTCATGGTTCATTTGGTAGCACTTATTTTGGGCATGGTACTGATAAAGCTTTAGTTGGTGGAATACTTGGATTCGATGTTTCTGATCTTAGAATTAAAAATTCATTCGAAATTGCAAAAGAATTGAATTTAAAATATTCTTTTTCTTCAGATGATTTAGGAGATGTTCATCCAAATACTGTAAGAGTTATTTTAGAAAAAAATAACTCGCTTTATAAAATAGAAGCAGCTTCTATAGGTGCTGGTGAAATTTTAATTACTGAAATAGATGGAGTTAAGGTTAATTTAAGCGGAAAATCTCCAACATTAGTTATTATAAATAAAGATGAACACGGATCATTAAGCTCTATTTTAAATATAATATCCAGTACAGGAATAAATGTAGCAAATTTATCTTTAACTCGTATAAGTTTAATTCTTGAAGAGGCCACTTGTGTAATAGAACTTGATGATATTCCAGAAAAATGCTTAATAGAAAGATTAAAACAATCTGAATTTGTAATATCTTGTAGATATATATCAAAAATATGAAATAAAGAAATCTTTATTTCATATTTTTGTTCTTTTTACTTTATACCATTTTATATTTTTTTTAATTGATTTAAACAAACTAAAAATCATATTAATATGTTGAGTGCATATCAAACATGGAATGACTATAAATATAATTTTAAATATGTTTAAATTTATACTTTTTAAGTTAAAAATATAACTACTAACTATAACACTCCATATAGAAAAATATATCGGCATTACAAAATATTTTATTAATTTTAATTTATAAAAATAATCTAAAACCACAAATAAAAATGGTGAAAAAACGATAAATAAGCCGATTATAAATGTTAATAGCATACTATAATTTCCTGATTTTATAAAAGAAATTGCTTCTTTTATACCTCCAATATACCATCTTGTATGTTGATTCCAAAGATCTTTAAAGTTTGTTGCATATTGTATTTTTACTTTTGGTTCTATTATAAAATATTCTTTTATTTTACTCTTTTTCAATTTCAATGCCATATGGAAGTCATCAACTAAACTATTTTTATCAAATGGGAGTTCTTTTTCTAAAGTTTCTTTTCTTATAAATAGTCCGTTTCCCATAAATATCATTTTTGAAAATAAGTTTGAATAAAACAGATTTTTAACAACTTCAAAATACAATCTTTGATATTCAAATATTATTTTATTTTGATAATTATATGGTTCAAAATCTGTAAAAATCATTTCTATTTTTTCTTTAGAAAATAATTTTACATAATTTTCTATATAATCTTTCTCTATTAATGAATCTGCATCTAAAAATAAAATTATATCTCCATTTGAATATTTCACTGCTTCATTTAAAGATTCTGGTTTTCCTTGCTTCCCTTGCTTTTTATATAAAAATAAATTTTTATATTTTTGCGTCATATTTTTTACAATATCATAAGTTGAATCTTTTGAATTATCATCTAAAACAATTACTTCTAAATTTTCATAAGTACTATTTAAAATATTAATTAAAGTTTTTTCTATTACTACTTCTTCATTCCATACAGGAACTATTACTGAAACAAAATTTTTTGGCTTTTCTAATTTTACTTGTTTTTTTAAAATATAAGTTTTTAATAAATTTTTATATCTACCCAAAACAGTAATTAACATTGCCAATATAAATATATTAGTATAAATATAAACCATTATTACTTCCTTTCAAAATATGTATCGAGTTTATTCAAATCTATATCCATTGCTATTGGTCTACCATGTGGACAAGTTAATAATTTCATATCCATCAAATTTTGAATTAATGTTTCTATTCCCACAATATTATCTCCTGTTTTTACTGCTGCTCTACAAGACATTGTAGCTATTGCATTATCGTAAATTTTATTCATATTTTCTATACCCTCTAATCTAAAATTATCTAAAAGTTCAAATACAGTGTTTTCAATATTTTCAATTTTAAACTCTGCTGGAACTCCTTTTATGTAAAAGACATCTTCTTTTTTTTCTATTTCAATACCAAGTTTCTTTAAGTTTTCTATATTATTTTTCAATGTTTCTTTTCTTAATTCATCTAATTTTATTTTTATTGGATTTAAAAGTAATTTTGTATTTATTTTTTTATCAAAAAATTGCTTTTTTAATTTTTCAAAAATAACTCTTTCATGAGCAGCATGAAAATCTATTAATTTAATTTTATTTTTAAATTCAAGAATTATATACCTTTTAAAAATTATACCTACTATTCTATAATCATCTACATCTTTAGTATTACTTATAAAAATTTGATTTTTTGAAATATTTTTTAATGTTGATTTGGGAGATTCATTTAAATTTTCCCAATTTAATTTTTTTTGTTCAGTATTATACTTAAAAGTTGACTTTTCTTGATTAAAATATTTTTTATTACTATCTTCAATTGAAAAATCATTGTTTAAAAAATTATTGTATGTTGTTTCTTTTTGTTCAACATTTTCTTTTATTTTATTTTCATAAAATCTATAATCTTCTAACTCATTACTATCTTTTGTGTTTTTTATATCTTCTTTTACTTCATTATCTTCATAAAATTCTAATTTAAATTCTGTTTGATTATCAAGTTCTTCTCTAATAGAAGTTTTTAATAGTTTTAATAATTTACTTGCATCAGAAAATTTAACTTCTAATTTTTGAGGATGTACATTAACATCAACTTCTCTTGGATTTACATCTATAAAAAGAACTCCATATGGATGTCTTCTTGTTTCAAGCATCTCACCATATGCTCTTTCAAAAACAGAAAATAAATCTCCTGATTTAACGTATCTTCCATTTACAAAAAATATTTGTGCACTTCTATTAAATCTTGTAATCTTAGGATTAGAAATGATTCCATTTATTTTTAACCAATTATAATTTTTATTTAAAATTATCAAATCATTATCTTTTAATTCTGGAAATAGTATTTTAAATTTTTCTTTTAAAGTATAATCTTTTGATATATTGTATATTTCTTTATTTTCTCTTTTATAAACAATAGATGTATCTGAAGATAATATAAATTTTTCTATTATTTCAGTTACCATTCTTCCTTCTGCAGAACTGCTTTTTAAAAATTTTCTTCTTGCAGGGATATTAAAAAACAAATCTTCAATTTCTATCTGTGTTCCTACACTTGCAGAAACCTTTTTTTTATTTACTTCTTTACCCCCAATAAAACTTATCATTGTAGCAAGTTCTTCATTATTTGTTCTCGAGGTTATTTTCATTCTTGAAACTCTACAAATTGAAGATAAGGCTTCTCCTCTAAACCCATATGTTTCAAGATTATATAAATCATCTATTTTATTTATTTTACTCGTTGTATGTGGTTGAACTGCATACTTTATCTCTTCTTCATTCATACCAATTCCATTATCAATTACTTTTATAAGCGATTTACCTCCATCAATTATTTCTACATTAATAGCGGTAGCATTTGAATCTATTGAATTTTCAATTAATTCTTTAACAACAGCATACGTACCAGTAATAACTTCACCAGCTGCTATTTTCATAATTGTTTCATCAGAAAGTTTGTGTATTCTCATTACTTACTCCTAATATCTCTTTGTTTTTTTGCTTCAAATAAAATTATTCCACAACTAACTGAAACATTTAATGAATCAACATTATTGTTCATAGGAATTGATACTATACCATCTGAATGTTTTTTTACATTTTCTCTTACGCCTTTGCCTTCGTTTCCCATAACTATACAAGTTCCATATGTCATATCGAGTTCATAATATGGAGTCCCTTTCATGTCTGCAGAATATACCCATATATTTTTTTTCTTTAATTCATCTATTGTTCTACTCAAATTTGTTACTTTTATTATTGGAAGTTTAAATATTTGTCCAGCAGATACTTTTATTACAGTTGAAGTAACTTCTACCGAATTATTTTTAGGTATAATAATAGCATCTACTCCACTTGCAACGGCAGATCTTATAACTGCACCAAAGTTATGAGGATCACTTATTTGGTCTAAAATAACTATTAATGGTTCATGATCAACTGAGTTTAAAACATTAAGATCAGCATAATTAAATTCTCTTCCAATATCTATAATAACTCCTTGATGTTTTGTTGTTTCAACTAATTCTTCAAGCTTTTCATTATCTAAAAAAATATGGCTTATTCCAAGTTCACTAACTTTTTTTATTAATTTTTTTAATTCAGAATCTATATTTTTACTATTCGTAAAGTAAACTTTTTTTATACTATATTTTGCATTTAAAATTTCTTTTAATACGTTTCTTCCGTATGCATACAACTTTCAATCACCTCAAATATTTTTAGAAGCCTATCATATCTTTCTTTTAAAAATAAATATCCTACAACAGCTTCAAATCCCGTTGATTTTCTATAATTTAAATCATTTCCTCTTTTTTTAGCTCCTTTAGAGTTCAATGCTCTTTTATAAACACCAAACTCTTCTTCCGAAAATTTATCTAAAACTTTATCAATAAATTTAGAATGAGCTTTAGCACTAATGAAGTTTATCGAGTCATCATTTATTTTTCTTGTTTTTTTTCTTCCATCTTCTAAAACCTTCATTTTATATCTAAGAGCTATTACTGCATCTCCTATATATGCAAAGTTATCTATTGGAATTTCCCTAAAATCAGCTAAATCTAAAAAAGTAAATAATTTTTTTAGATCTTTAAACTTATCCAAAATTACACCTCTATTTTATTAAGTACTTTTCAACTTTTTCAAATGCAGCATTAATTACTTGATCCATATTATAGTACTTATATTCAGCAAGTCTACCTATAAATAAGTATTTTCCAGTTTTTTCAAGTTTATTTACCTGTTCCATATACTTGTCTTTTTTATTCATGTTTTCTTCTGTCATTACTATATAATATGGTTCACCTTCTGATTTTGGATATTCAAAACAAACAGTTGTTTTGTCAGATTTTTCATTTAAAAAATGTTTAAATTCTGTTATTCTCGTCCAATCATAATCATTTGGATAGTTCACTGTAGCTACTGGTTGGTATTCTTTTTGATCTAATGTTTTAAACTTTAAATCCAATGATCTATATTCAAGCTTTCCATATTTATAATCAAAAAACTTATCAAGTTCTCCAGTATAAACTGTCAATTCTGGTTTAAACATATCTTTTATGTTAAAATAATCTTCTCCTGTTAACACTGCTATATTTTCGTGGTCTAAAATATTTTCAACCATTTTTGTATATCCATGAAGAGGTATACCTTGATATTTATCTGCAAAATACCTATCATCTCTATTTTCTCTAACAGGTATTCTTTTAGCTATTTCTGCTGATAGTTCTTCTGGATCTCTTTCCCATTGTTTTATTGTATAATTTTTAAAAAACATTTCATACAATCTTTCTCCAACTTGTGATACAACAGCATCTTTAAAGTTTTTTGGTGGATTATTGTATTTTGATTTTTCAACTTCTTTATTTAAAAATTCTCTTACTTCATTTGCTCCTATTTCTATTCCATATACCTTACACAATGTATCTCTATTTATTGGAAAAGGTATTAGATCACCATTTGCATAAGATAATACTTTATGTTGGTAAAAATTGAAATCTGTAAATTTATTTAAAAAGTCCCAAACTTTCTTATTTGTTGTATGAAAAATATGTGGCCCATAGGTGTGTACTGTTATTCCATGCTCATTTTTATAATCATGACAATGACCTGCTACATGTTTGTGTTGTTCTACAACTAATACTTTTTTCCCTTTTTCTGCAAAAATTCTTGCTGATGTCGCACCTGCAAGTCCTGCTCCTACTATTAATATATCATACATTATTTTTTCACTCCTTAATTTCTTTTTGCCCTGGTTTTACTATCTTTCCATATACACAATTTAATCCATCTTCCAATCCTTTTTTTGCAAAAGGTACTGTTTCGGGATTTATTCTTTTCCACATTTTCATATCTAATTTAAAGTATAATTTCAAGAAAAATTTTACAAATTCATTATTTTTATACATTAAAAAAGGATTTCTAAAGATATAATAAATTTTCCACAAAGGTAAGTTTAATTCCTTCTTTTTTAAGATATAATCTAATTGAGTTGTCCAAACTGGATGAAATATATAACTTCCAATTACTGTTTCAACTCTATATCCCATCTTCCAAACTCTATTTGTATACTCAACATCATCTGAATAAATAAAAAAATCTTTTTCAGGGAAACCTATTTTACCTACTACTTCTGTTTTTATAAAATATCCAACAAAAGTTCCAACTTTTCGTTTTTTAGCAGTTAATTCAAAAGATTTTCCATTTATTTCATCAAATTTTTTTCTATCTAAAATTCTTTTGTTTTGCAAAACTCCTATTTTTCTTTTCTTTTTTTCAGAAAGACTTTCATAATACGCAATTAATGTTTCTAAACTATTTTTAGCTGGAAGAGCATCATCATCCATTAGCCATATCCAATCATATTCTTGTTTATCATATATATGCTTTATGCCAGCATAAAAACCTCCAGAACCTCCTAAGTTCTCATTTAAAGTTACTACTTCTATGCATTTATTCTTTTCTTCATAATTTTTTAAAATCTCATCTGTTCCATCTGTACTTGCATTATTCACTATAATTATCTTATCTGGTCTTCTTGTTTGTTCTAACATAGAATTTATCGTATCTACAAGTAATTTTTTCCTATTGAAGGTTACTATCAACCCTGCTACTTTCATTCATTTTCCTCCTTGATATTAAAAGAACTATTATTTGAAATGCTATTTGTAAGTAATATGTTGTAAATCTCCATAAAAATATAGCAGCTGTCACATAATGTGGAGTTCCAACAAAACCTACAAGAACCATATTGTATATTCCTTCAACTCCACCACTTGACCCCGGCGTTGGTACATAATAAATAACAAAATTTAATAAAATAAATATTAAAAACAAACTAAAAAAATCAAAGTTCTTGCCTGTTAAACTTGTCAAAACTACAAAAAAAGCATACGTCTGAAAAACTGCACTTAACACGCCTAATGCAAAATCTATTAAAACTATTAAAAATCTTTCTTTCCATAAAAAACTAATACTTTCTCTCAATTCATCTGTCCAATTTTCTAAATTTTCTAAGAGTTTTTTTCCTCTTTTAAACCTAAATATTTTATTTAAAAAATGCAACGTTCTATATATTATTTTAGGATTAATAAAAATAGACAAAATAAAAATGGTTATTCCCATAGAAGCAATTAATCCAATTATTAAAACCTTTGAACCTAAAAATTCTCCATTCATTATTTCAAGAATTTTTTTTAAAAATATTAAAACAGTTACTGTAGAAAAAATTAAAAATTCTATTAACCTTGAAAAAATTATATTAGTAGAAGTCTTTGAATCAACTCCTAATTTTGTTAAATGATAAATTTGATAAGGTTGTCCACCACTTGCCATTGGAGTTAAATTTGCTATAAAATAACCAGAAACACTGTTGTATAAAGCATCTTTAAATTTTATTTTAAAATTCATACTTCTCAACACTAATTTTGTTCTAAAAACATCTATCAAATATATTAATGAGTAAATCAAAAATGCTTTTAAAACAATTAAATAATTTGCATTTTTTAATATAGAAATTATACTTTTAAAATCTGAAAAAAAAGCCATTGAAATATTTGTCAACAAACCTATAATTATTACTAATACTATATTTATTAAATACTTTTTTTTATTTTCAAATGGATTATCATTATTATTATTATTATTATTATTATTATTATTCATATAAACTCACCTTAAATATTTTTCATAAACTTTTATCATTCTTTCAACAAAAACTTCCATTGAATAGTTTTTAGATATTTCCACTGCTTTTTTTGACATTTCTTTTCTTTTTTCTTCATCATCTAATATTTTTATTACGCCTTCCCACATTTGACTTTTATCTTTATATTTATATCCATTAACTTCATTTAATATCATTTCATCAATACTTGGATCATCGTATGCTACTACAGGTAATCCACTTGCAATAGCTTCTATAAAGGTCATAGGATGAACTTCACTATGTGATGCACTCATGAATATATTAGATGCTCTATAAGCTATTGAAATTTCTATAGGCCACTTTAAATATCCTGCAAAAATTACTTTGTCATCTATACCAAGTTTTGATGCATATTTTTGAAGTGCATGCTTTTCTGGCCCATCACCTATTAATAATAATTTAATATCTTTTCTTTTTTCATTCAAAACTTTCATGTTTTCTAAAAGCTTATCAATACTTTTTTCTTGTGCTATTCTTCCTACAAACACAAGAACTTTTTCATTATCTTTTATTCCAAAGTTTTTCTTAAATATCTTAACCTTTTCATCTATATTTTCAACTTCTGGATTATAAAATTTTGATAGATCAATTCCATTTGGAACAACTTCGATAGGTTTACTTACATCATAGCCTAATAAAACATTTTTTATTTTATTTGAAGGAGCTATAACTGCTCTTTGTCTATCACAAATTTTTTTCATTTCTTTTTTTAAATAAAACTTTGAAACTTTTTCAAATAAAGGTACATAATGTAAATATTCTTCATAAAAAGTATGTGTAGTATGTACTGTAGGAATTTTTAACTTTTTAGATATATACTTTGCATAAGTTAAAAGTGAAAACTCTGTATGAGAATGTATTATATCTAAGTTCAATTTTTTTACTTTTTTTGTTATGGTAGGTGAAACAGGAACTCCCAATCTATGCTGTGGTTCCCAAATAAATTTTATTGAGGGTAATCTAAAAACATTATCCATAGGCATAGCTTCTGGATGTTCTACAGTAAATATATATACATTGTGTCCTTTTTCTTTCAATCCTTTTTCTAAATTTCTTATAACAGTTACAACACCATTTACTTGTGGTACATAAGTATCAGTAAAAATACCTATATTCATTTAAATTCCTCCTAAATAAAAATACATTAAAAAAATACATTAAGTATATTATACCAAATAAAAAAATCATATTTGAAACAATTATATTAAAAATAAAACCTAAATACTATAATATTATACACTAAAATTTATTTTTAGTTAAAAAAATAAAGAAGATGTTATTAACATCTTCTTTAATCTTCAAATAACTTTCTTAAATTTTCTTTAAATGGTGGTTTTACAACTCCTTTTTCTGTTATTATTGCAGTTATTAATTCATTAGGAGTCACATCAAAAGCTGGATTAAAGACTTTTACATTATCTAGAACCATCTTTGATTTATGACAAAATCTAACTTCATTGTGACTTCTTTCTTCTATTGGTATTTCTTCTCCTGTTGGTGTATTTAAATCTATTGTAGAAAGTGGAGCAGCTATATACATTGGAATTCCATGCTTTTTAGCAAGAATAGAAACTGAATAAGTTCCTATTTTATTTGCAGTATCTCCATTTGCAGCTATTCTATCGGCACCAACAATTACTGCATTTATTTTCCCTTGTTTCATAACCCAACCAGCCATATTGTCTGAAATTAAAGTTGTATCTATATTGTCTTGCATCAATTCCCAAACTGTTAAACGAGCACCTTGTAAGTAAGGTCTTGTTTCATCTGCATATACCTTAATGTTTTTGCCTGATTCAATAGCTGCTCTTATAACTCCAAGTGCAGTTCCATAATCAACAGTGGCAAGTGCGCCTGCATTACAATGAGTTAAAACTGTATCGCCATCTTTTAATAATTCTGCTCCATTTTTTCCCATCTCTTTGTTTATTTTAATGTCTTCTTCAGCTATTAAAAGTGCTTCTTTTTCTAAAATCTTTGATACTTCTTTTAGATCATTATTTTTTATTACATCATTCATCTTTTTTTCCATTCTATCTAACGCCCAAAATAAATTTACTGCTGTTGGTCTCGTTGCTGCTAAAACTTCTTTTACTTCTTTCATTTTATCCATATAGTCTTTTTTTGTTAGTGTTTCAAATTGAAATGAACCAAGAGTATATCCAAATCCAGCTGTAGCTCCAATTGCTGGTGCTCCTCTTACTATCATATCCTTGATACCAACTGCAGCTTCTTCAAATGTCTTACATTCAACATATAATTCTTCTACTGGTATATATCTTTGATCTATGAGTATGAGTGTATCTCCTGTCCATTCCATAGACATTCCTTTTAATGTTCCCATAAGTATTTCCTCCTTATAAATCTAAGTATTTGAGTATTTTAAAATATATGTACCAATTAATTTTATCATCTTTTTCATTAAAATTTTTAAAATAAGGATCTCCATATCTTCTATACTTTCCATCATAAAATGCTAAACCAAAGTTTATATCATTTTTTTTCATATATATTTTTCCTTCAAAGGTTTTAGTAATATTTGAAAAATCAATACTTTCATCTTTTTTATACTGATAATCATAGTATCTTTTTAAATCAAAATTAAATACACCATATTTAATTTGTAGTTCTGGCATTAAAGTCACATCTGTTGTTCCATTTTCTTCATACATTTTAAAATCAGTTTTAAATATTACTGGTCTTAAGGTGTATCTTCCATTTAGATTTAAATAAAATGCATCAGAAAGTTCTTTTTCTTTTATACTATTTAGTTTCACATAATAATTATTCAATGCATACAATGAAAAATCTTTAGTCACGTAAAACAAATCTAATCCTGCATTTATCGTAGAAGCTTCTTTTGTCAATAACCCCAATCCTTTAAACTCATATCTTTTTTTCATGTAATGATCGTATCCTAATGTATTAACTCCATACCACATTTTTTTATAGTATAAGTTCACATGTGGCTTTACAATAATTCCTCTCATTGGAATTATTGTAAGATTATAATATGTATCAGTTAAATAATAAAGGTTCATTTCTTTTTCTATACTTTTATATTTATAATTAATAAAATCTGTACCAGATGTAATTGTCGTTGTTGAAGTGGTACTTTCATCTGATAATTCTTGAGTTATTAAATTATAGTTTGCACTTATTATTTCGGAATTATAAACTGCAGAAGTATCTGCTTTATAATAAACAGAAGAATTACTCCTAAAACCCTTTAAAAAGCCTGTTTTAAATGAAAAATTTAAATTTCCATAGTATTCTTCTACATTGTATTCAAATTTATTGCTTCTTATATTATTTTCAATACTTCCATATACATATGTCTTTATTGTTGCATTACTTCCATCAATAGTTATTTCTTGTTTTGAACCATCTTTAAATTCATCATATTTTTTTTCATCTGAAGAAGTAGAAAACTTTCCTCCTTCTGTTTTTAAAGTTTTATTATTATACGAAACCTTAAAAGTATATCTATTTCTATTGAAGGTAGCATCTTGCGATATTCCAAATTCATCATTTTTTATTATATTTTTCAAATCAAAATCTTCATTTTCCGTTCCCATAAAAAAATTATTTAAGTTTTCTCTATACTTACCATTTAAATCCTTATAATAAACATACCAATTTTTTGTAAGAATGTAAGGATACAGCCTAATTTCTCCATTTTTATAATAATCAGTAACTAATGAAAGTTGAAAGTTTTGAAACTTTATATCGAGTTTCCCAAAATTAAGATAAAGATAGTACTTTGAATTAGTACTATATAAATATTTAAAGTCAAGATTAACAACAAATTTTGGCTCTTTTAAAAAATCATACTTCATTTCTCTTGTATGAAAGTACATCTTAAAATCATTTTCTGAATCTATACCATCTTGATTAAAATATAAGTTGTATTTAACTTTAAAGTATGAATCTTTAAAATCAATAGAAAAGTTCATACTCATTAATATTAATAAAAACACAATACTAAAAATTATTTTTTTCATAAATACCCTCCATTAAAAAAACCCGGCAAGAATATGCCGGGTTTGATTGTTTTATTATTAGAATGAGTAACTTGCAAAAGCTGATAAATACCAGTGAATAGCTGCAAAGTCTCCCCAGTTTGATTCATTTCCTAAGTGTCCACCAAGTGTTAAGATTGAATTTGGTTTGTAGTTAACACCTAATTCATAAACTGGTTTAGAAACTTCTGAAATTACTGAATAATTTCCATCTGAATCTTTAGCATAGTTGTAAACAGATGCTGTCATTTCTACTTTATCCATTGTGTATGTTAAGTTTGCTTCATAAGCCATATATTTCTTTGTTAAATCAGAAAGTGCATCAAATGCTACATTTGCATTTCCTAAATCCATAACTTGTACAAAGTAATCAAATGAAAGATTATCCATTGTTGTGCTACCATTTAATTTTGCTGTAAATGTGAATGGAGTTGCTGCTTCTGATCCATCAGTTTTTTCAACATTAACATATACATTTGCTAAATCTACTGTTGTATCTGTTAATTTTACACCATATTTATAAGATAAGCTAGAGTCTGCCATAGCATAAGTTACTGTATCATAAACTTCTAAAGTTGTTTTATTCATTTCAGCTTTAAAGTCAACTCCACCATTTGCACAAGATGCATCTGATGTGTAATCTTGATGAGCTAAAGGTAAGTTAGCAACATCTTTTCTGTATTTCATAGAAACGTGTGGAGTTACTGTCATTGTTGGAGCTGAAGTTAAATTGATATCTTTTGAATATGATGCGTCAAAACCCATTCCTGAATTTTTAGCCATCATACCATATGCACCATTAACTGTTAAACCATCTAAATCATTTGCACCAGCAAATTCGAAACCAGCTGCATAACCAATTGTTGTTCCTGCTGTTGTTGGAGTTGAAGTAGCTCCAGCATCAACATCAATATTTCTTGATCCTGCTTCTGCTGCCCACATAGCTGCAGAAAGATTTAATGTACCAACTGAAACATCTAATGATTTTTTTGCACCAAAAACATCTGCCCAAAGCATTTCACCAGTTTCTGTTGAATGCTTTGATTCTTTGTTATCAAGTGTTATGTAAAGTAAGTCTGCATTTAAGTCTTTTAAATTAACTGTTAAGTATCTTGTACCTAAAGCTTCTGTAGGATTTCCATCACCATCAAGTTGGTTTCCTAAGAAATATTTATTTAATGTATCTCCATAAGCACCATTGTTGTAATAAGCTTTTAATAGATTATCTTCATATGTTGCTGAATATAAAGAAGCGCCTACATAATCGCTACCTTCTTGCATTGAACCACCCAAAGCTAAGGTCAATGTTGCATTATCAGATGCAACTGCATCTATAGAAACACTAAAACCCCAATATGCTTGGTATTGAATCCCATTATTCAAATAAAGATCTAATCCTGTTTCATCAAAGATAAGACCAAAAGTTGCACTACCTTCAATAGCTGTTGTTAAAGATGGACCTGTTGCTGTTATACCAGCAAATGCGGCTACTGCGAATACAGTTATGAGCATTACTGCTAAAAGTTTCTTCATATAAACTTAACCCCCTTCAAAAGTTGTCTTTTTGTTTTAAACCTTATTTATTATATCAAATACATTTTTATTTGTCAATAGAAGTTAACAATTCTGGCATAAAATGCCAGAATTGTTTTAAATTATTTTACTATAATTCCAGCTACACCTAAAGCAGCGGCCACAGCAATACCTATCCAAATCATTGTATGGTCTGTTTTTCCTTCAAGTGTTGTAACTTTTTTATTTGTTTCTTCTACTTTTGAGCTTAAAGAAGCCATATCTGTTGTTGCTTCATCTAATTGATCTTGTAAGTCCAAAAGATCTTCTGTTAAAGAATTTGCCATATTTTTTCCTCTATAAGCTGCCATTTTTACGTCATTATAAGAGGCTTGTACTGATTTTAATAAATCTTCATACTTTTTCCAACCTTGATCTACACCATCAATTTTTTTATCTAATTCTTTAATTTTACTGTTTAATTCATCGATTTGTCCAAATGAATCATATTTGAGTTTTAAAATATTTCTTGTAATTCTTTGTTCAAATTCTGGTATTCCTTCTAATTGTTTTGCTAATTCTTCTGATTTCATATTTGTAGCTTTAAGTAAATTTTCTACTCTTTGAATATCTTCATACTTTGCAATCATTGGAGAATTTTCAACATAAGTTAAAAGTCTTGTCAACCAAACTGATGCATCTGCTCTCGTAAGTGGTTGAAATCCGTTAAAGCTATCTTCATCTGTTGGGATAATCCCTTTTTCCGTAAGATTTGTAACATAATCATATGCCCAATAATCTTCCGTAACATCTTTAAAACCTAAGGAAAAAGCAGCAATTGCCACAACAAGAACAACAATCAATGAAATGAGTTTCTTCATCCTTCCTTACCCCCTTTAGTAAAGTGATTTTTTGTTTAAGAATAAATTCCCACTTAATTATACTACATAAATAGCTTTTTTTCAAAATGGTTAATTTAACAAATTTTTATTTTAAAAAATTTTCTTTTACCAACTTTCAATATATCCCCATCTGAAAGAGTTAAAGTTGTTGTAAAATCTGTTATTTTTTCATTGTTTAGTTTAATGCCACCTTGTTTTATTAACCTTTTTATTTCACTCTTACTTCCAAACTTAGTTTTGAAAACTAACTCAACTATATTTATTTCTTTTAAGGTTTCTAGTTCTGGAATTTCGTCTGGTAAATCTTTTTTTCTAAATACATTTATAAATTCTTGTTCTGCATAATTAGCTTTTTCTTCGTTGTAAAACATTTTAACAATTTCTTTTCCAAGAATCATTTTTATATCTCTTGGATTTACTCCATCATTCATTTCTTTTTCATACTCTTTATAATTTAAATCTGTTAATAATTTCATGTATTTTATTATTAATGTATCTGGAATAGACATAACTTTTCCAAACATATCCTTTGGTTCATCAGTAAAAGCAATATAATTATCAAGACTTTTACTCATTTTATTGTGCCCATCTGTTCCTTCAAGTAAAGGTAATGTAACTACAACTTGAGGTTTCATACCAGCTTCTTCTTGTAATTTTCTTGCAACAAGAAAATTAAAAAGCTGATCACTTCCACCAAGTTCAACATCTGCCTCTATTGCAACAGAATCATGACCTTGAGCAAGAGGATACAAAAATTCTGCAACACTTATAGATTGATTTTCTTTATATCTTTTATTAAAATCATCTCTTTCAAGCATTCTCGCAACCGTATACTTTGCAGCCAATCTTATTACATCTTCAAAATTCATTTTATCAAGCCATTCACCATTGAATCTTATTTCTGTCATTTTTGGATCAAGAATTTTAAAAACTTGTTCCTCATAAGTCTTGGCATTTTCAAAAACTTCTTCTTTTGAAAGCATTGGTCTGGTTTTACTTTTACCCGTTGGATCACCTATTCTTGCCGTAAAATCTCCTATTATTAATACTATTTTGTGACCTAATTTTTGAAAATCTCTTAATTTTTTCATTACTACAGCATGACCTAAATGCAAATCCGGTCTTGAAGGATCTGCACCAAATTTTACTCTCAATTGCTTTTTTTCTTTTAATTTTTCAATAAATTCTTCGTCTGAAATAAAATCAATAGTATTATTTTTTATTATTTTTAATTGTTCTTCAGGAGTTATATCAACCCTCTCCTTTCTTTATCTAGTTAAAAATATTGTTGTTACAAAACAAGATATCATGAAAAAAATCCCAAACCACATTGCCAATTTTGCTGCTGGATCGAATCCTTTTTCTCTACCAAATTGAGTATTTGCTGCTCCACCACCAAAAGCACCACCTAATTCAGAATTTTTTTGCATTCTTTGTAATGCAAAATAAATTAATCCTAAAGACAAAATAACGTGTACAATAACAAATATAATTCCAAGTGCACTCATCTTAATATCCTCCTTCAACTTTTTATTAAACTTTATCACTTACGATTATACATTATCAGAAATTTATTTTCAAGTCAAATGATAAAAAAATTTTAATATCTTTAAAAATTTTACTGATTTCATTTTTTATTTTATTCAAAACATCTATAATCTCTATTAAATATCTATAAATATATTAGTTATCTTTTAATTAAAAGGTTAAAATAAAAATAGAAAACGATTTCATTTTTTAGGAGGAATTTTTATGATTAACAAAGAACCAACAATAAAAGACGTAGCAAGACTAGCAAATGTTGGTATAACAACTGTATCAAGAGTATTAAATAATTCAGGAAAAGTTCACGAAAAAACACGAGAAAAAATATTAAGAATTATAGAAGAAATTGGATATGTTCCAAATATGAATGCTCGTTTTTTATCTAGTAAAAGAAGCTATTCATTATCCTTTGTTGCCCCCGATGTTGGAACAAAATTTTTTGGAATAATGTATACTGAAATGGAAAAAAGACTATCTTTAAATAATTATAGATTAATTTATTTTCCTTTAATCGATGATTTTTCACTTCAAATGATAAAAAGGAAAACCGATATAATTTATCATACAGATGCTGTTTTTTTAGCTTCAATACCTGTAAAAAATATTTTTAAAGATAAGATTCCAACAAAAAAGTTAATACTAATGGATTCTAAAGATGAAAGATTTGATTCTGTTTATGTTGATAACTATAAAATTGGACAAATGGCTGCAAAATACTTATTAAAAAATTCTGATAAAAACACTGAATTTTATTTAATTACTTTTAAAGAATTTAAAAATGAGTTCAATTCAGGCGTTTTTGAAAAAAGGGGTCAAGGATTTATTGATACAATTGGAAAGGAAAAAGTAAAAGTATTTTATGGTGATTTAAGATGGAATGGTGGATATAAAGCATGCGAAAAATTATTTAAAACAAAAAAAGAAAAGAAAATAGCTGTTTTTACAATTAGTGACATTATTGGATATGGTGCAAAAATATTTTTTGATAAAAATGAATATATTCCTAATAAAGACTATAATTTAATTTCCACAGATGATTTGCCACAAAGTAAAATAATAGGTTTAACAACTATAAGGCAACCAATAGCAATGATGGCAAAACAAGCTTGTGAATTATTTTTCTCACACTTAAATGGAAGAAAAGAAGTTGAAAATATAGAACTTGAATCAAAATTAATTAAAAGAGAATCTTGAGGAGGGATTTTATGAAAAAAAAGTTTTTTATGGTACTTGTTTTTAGTTTATTGTTGAATGTTATTTTTGCTTCTCAGTTTAAACCATTGGCTCCGAGCATAACATCTAAATCTAAAACTACAGTTATAATTCATTATAATAGACCTGATGGGAACTATGAAAAATGGAATTTATGGATTTGGCCAAAAGCACCTGTTGGTTTAGATGGAAAAAGATATCTTTTTACAGGAAAAGATAATTTTGGAAAGTATGCCATAATAAATTTTGATGATAAATACACAAAAATAGGATTCATAGTCAGAACAGATAAATGGGAAAAAGATGTTTCTATTGATAGATTTATTGACATTCCAAAAAATGGTATTGCTGAAATATGGGTTTTATCTGATACAGAAAAATTTTATACAGATCCTCAAAAAATTGATCTTGGCCCAAAAGTAAAAAGTATAATAATTGATTCATTAGACTCTATAAAAGTAAATTTAACTAAAGGGCTTAATGTTAAAACTTGGAAAAATAAAATAAAAGTTTTATCTGGAAATACTGAATTAAAAATTGATTCAGTTGTAAAAACAGATCCAACAGATATCTCAACTACTACTTCAATAACAATAAATCTTTCTAATAAAATCACTGATGTATCTAAATTGCTTACTGTAAAAATAAGAGGATTTACTTCAAATAATTATGGGATAATGAGAAATGTATTAGATAATGAGATTTTTAGATATGAAAAAAATGATCTTGGCTTAACTTACACAAAAGAAAAAGCAACTTTTAAAGTATGGTCTCCAGTTTCTTCAAAGGTAGAATTAATACTTTATGATGACTTTTATTCAAATAAAAATAAAAAATTTCCAATGAAAAAAAATAAAGAAGGAGTATGGGAATTATCCATAAATGGTGATTTAGAAGGTAAAAGCTATCTTTACGAATTAACTTCTTATGGAGAAAAACACTTAACTCCAGATATATATTCAAAAGCGGTTACTTTAAACTCTCAAAGATCTGCCATTATTAATTTGAATAAAACTAATATAAAATGGAGAAAAAGACCAATTTTAAATGATCCTGTAGATTCAATTATTTACGAAACACATGTAAAAGATTTTACTTTAAATAAAAATTCAGGAGTTACTAATAAAGGTAAATATATTGGATTAGTTGAAGAAAATACTTCTTATAATGGTTATAAAACAGGATTAGAACATTTAAAAGAACTAGGAATAACACACATACATTTAATGCCATTTCAAGATATTGGTTCATTAGATGAAAATAATTTTTCACAGTATGGCTGGGGTTATGACCCTAAATTATACTTTGTTCCAGATGGACTTTATTCTACAAATCCAAAAGATCCTTATACAAGAATAAAAGAAGTAAAAGAAATGGTAAATACTTTACATAAAAACGGAATAAGATTAATCATGGATGTTGTTTACAATCACACATTTCAAATAGGTAAAGATTCTCCATTTGATCAAACTGTTCCATACTATTATTATAGAACAAATTCCACAGGAAAATATATAAATGGATCGGGATGTGGTAACTCAATAGCAACGGAAAGATATATGGTAAGAAAATACATTCTTGATTCATTAAAGTATTGGATAAATAACTATCATGTTGATGGTTTTAGATTTGATCTTCTTGGTATGTTTGATAAAGAAACAGTTGAATTAATTTCTAAAGAATTACATAAAGAGCTACCTTCTATTTTACTCTATGGAGAACCATGGACTGGTGGAGGAAAATTAAGATTTGGAAAAGGCGATCAAAAAAATTTAAATATTGCCGTTTTTAATGATGATGTTAGAAATGCAATACGAGGAAGTGTTTCTGTTGTAAAGCTAAAAGGATTTGGATTAGGCGGATTTGGAAAAGAAACTAGAATTAAAAGAGGTATTGTTGGATCAATAGAATATAACTCATTAATAAGATCTTGGACAAATTCTCCACAAGAAACAATAAATTATGTTTCTAACCATGATAATAATACACTATGGGATAAAAATGCGCTTGCTCTTGGTTTAAAACCTTGGAAAAACAAAATTTCTGAAAAAGATTTAAATCTTTTAAAACAATCTCAAAAATTTTCAAACGCTATAATATTAACTATGCAAGGAATTCCTTTTTTAAGTGGAGGAGTTGAATTTTGTAGAAGCAAAGAAGGTAATGGAAATCCATATAATATAGAAAAGCCAAATATATTTGATTGGTCGTTAAAAGAAAAAAATTATGATGTTTTTAAATATTACAAAGATCTAATTTCTCTTAGAAAAGATCATCCTGCTTTTAAATTAACTAATTCAAAGGATATTAAGAATTCTATAACTTTTTTTAAATCTCCAAAAAAAGTTGTTTCATTTGAAATAAATTATGAAAAAGATTCTTGGAAAGATATAATTGTAATTTATAATGCAAACTTAGATAAAACAATAGAATTTAATCTACCTAACGGAGTTTGGAATTTAGTAGTTAATGGAAACACAGTAAATATGAATTCTATAAAAAATATGAAAAATAATATTGAAGTAACTCCTCTTTCTATTTATATACTTTATAAAAACAACTAATAAAATAGCCAAATCATAATAGATTTATTATTAAATATGATTTGGCTATTTATATTTTTATGGTATAATAAAATGTTGAAAATTCTTTTGTAAAAAATTTTTTGGAGGTGCCATCTTTGTACAACCCAGAATTGATAAGAAATATATCTATTATCGCTCATATAGATCATGGTAAAACTACACTTGTAGATAGAATACTTGAATTAACTCATTCTATTGATGAAAGAAAAATGAAAGATCAATATTTAGATATGATGGATATAGAAAGGGAACGTGGAATAACTATAAAATCTCAACCTGTAAAAATTTACTTTAATTCAAAGGATGGAAATAAGTATGAAATAAATATAATAGATACTCCTGGCCACGTTGATTTCACATATGAAGTTTCAAGAAGTTTAGCAGCATGTGAAGGCGCTGTATTGCTTGTTGATGCATCACAAGGAGTTGAAGCTCAAACAGTTACGAATACATATCTTGCTATTGAAAATGATTTAGAAATAATAGCTGCATTAAATAAAATAGATTTACCAAATGCAAATCCAGAAGAAACAATGTTAGAACTCGATGATCTAATTGGATTAGATGTAGATAGCATTAAAACAATTAGTGGAAAAACAGGAGAAGGTGTTGAAGAACTATTAGAAACAATTGTTTCAAAAATCCCACCACCAACTTCAAAAGGAACATCTAAAGATAAATTAAAAGCTTTAATATTTGATGCAATATATGATAGATATAAAGGAATAATAATTAACACAAGAGTATTTTCTGGCACCATAAAAAAAGGAGACAAAATAAAATTAATGGCCACCGGAAAAGATTATGAAGTAATAGAATTAGGAATTTTTCATCCAGAGATGACAGAAAGCGATAGTTTATCAGCTGGTGAAGTTGGATACATAGTTGCTGGTATTAAAAATATTGAAGAAGCAAAAGTCGGAGATACAATAACATCTTCTCTTGATCCTATTTCTAAACCTCTTGAAGGGTATCAAGAAGTCAAACCTATGGTTTATGCTGGATTATATCCTGGTGTTCCCGATTATTACGAAGAACTCCGTAAAGCTCTTGATAAATTAAAACTAAATGATGCATCATTTAGTTTTATACCAGAAAATTCTCCAGCAATGGGTTTTGGATTTAGATGTGGATTTTTGGGATTATTACATATGGAAGTAATTAGAGAAAGAATTGAAAGAGAATTCGAACTTGCAGTAATATTAACTGCTCCAAGTGTTGTTTATAAAGCAAAATTAAGAAATTCTGAAATTGTAGAAATAAATAATCCAGCAGAATACCCAGAACCTGATAGTATAGACAAAGTTTTTGAACCTTATGCAAAATTAGAAATAATAACTCCTCCTGAATATATGGGCAATTTAATAAACCTTGCTCAAGTTGAAAAAAGAGGAGAATTTTTATCAGTTTCAAATGCTGGTAAAAATAGAGTTGTTTTACATTTTGAAATTCCTTTAGCTGAATTAATCTTTGATTTCTTTGATAAAATGAAAGCAATAAGTCGTGGCTATGCTTCTATGGATTATGAATTTTTAGATTATAGACAATCAGACTTAATTAAAGTAAAAATATTAGTAAATAAAGAACCAGTAGATGCTTTATCTTTTATTGCTCACAAATCAAAAGCTTATGAAACGGCAAGAAAAGTTGTAGATAAATTACAAGATTTAATTCCTAAACATCAGTTTGAAATACCTGTTCAAGGATATGCAGATGGAAGAATAATAGCTCGTTCCACTATAAAAGCCTTTAGAAAAGATGTTTTGGCTAAATGTTATGGTGGAGATATAACAAGAAAAATGAAATTACTCGAAAAACAAAAAGCAGGAAAGAAAAAGATGAGAGAAATAGGAAATGTAAATATCCCACAAGATGCTTTCTTAGCTCTTTTAAGAATAAATGATGAAGACACTAAAAAATAGCTAATTACCAGTTATTTTTATATTTGAAAAATTTTTCATTTTAATGTATAATGTTTTTGAAAATACAAAGTTTATTGTGGAGGTGTGTGTTTTGACTGCAAAAACAGTTACTAACGCAAAGGCTAATAATACTAATTGGCTTTTTGTGTATAGAGTTTCACTATGGGTTGCGGGTTTTGCTATTCTCATTATTTTTTCACCATTATGGAAAAGTATACCTAGTTTAAATCAACCTTTATTATTAGCTATTCCAGTTTTCTTGGCTGCAATTTCTAAAGAATGGTTACTTGGCCTTTTATTAACAGTTGTAAGAGGAACTGGATACTTTGGAATGGCACCAAAAGGTATTGAGATGTTGTGGATAACTTTTACACTTCTCATAATATTTTCATGGGGAATTTATACATTCTTCTTTGATTCAAAAAGATTTTTGAAAATAAAAAGAAAATAAACGGGTATATCCCGTTTATTTTTTATATTGTTTTTTTACTTTATTTATTTCATCTCTATATTCAGCTGCTCTCTCATAATTTAATTCAGATGCCGCTTTATACATTTCTTCTTCAAGTAATGCTATGTAATCTTCCATAGATGTATCTTCTGCTACTTCAAAAATAAATTCATTTTCTTTTATTGTTTCTTTGTAAGTTTCAAATATATCTTTTGGAAGTTCTTTAATTATAGACTTAGGAATTATATTATTTTTTTCATTAAATTCTTTTTGTAATTTTCTTCTTCTATTTGTTTCATCAATTGCAAATTTCATAGCTTTTGTCACTTTATCTGCGTACAATAACACCTTCCCATTGACATTTCTTGCAGCTCTTCCTATAGTTTGAATTAATGTTGTTTCAGAACGTAAAAAACCTTCTCTATCTGCATCCATAATTACAACCAAAGAAACTTCAGGTAGATCAAGCCCTTCTCTAAGTAAATTAATACCAACTACAACATCTATATCACCATTTCTTAATTTTTTTACCACCTCTGTTCTTTCTAATGTATCTAACTCAGAATGCAAATAAGCAGATTTTATCCCTATTAAATTTAAATGTTCTGAAAGCATTTCAGCATCTTTCTTTGTCAACACAACAGCAAGAGATCTTTCATTTCTTTTTATTACCTTATTGAGTTCCTCAATAAAATCATCTATTTGTCCTTCTGTAGGCTTAACAACTACTTCTGGATCTAATAATCCTGTTGGTCTTATTATTTGTTCAACAATAGAGTCTGAAATTTCTAATTCAAATGGGCCAGGAGTTGCAGAAACATATACAGTTTGATTTGTTTTTTCCATAAATTCATCAAATCTCAAAGGTCTATTATCAAATGCAGCCGGAAGTCTAAATCCATACTCTATTAAATTTTTCTTTCTTGCATGATCTCCACGATACATTGCTCTTATTTGTGGAATTGCTATATGAGATTCATCTATAAAAGTTATAAAATCTTTCTCAAAATAATCTAATAAAGTTGAAGGTGTATCTCCAGGATTTCTACCATCAAAAAATCTCGAATAATTTTCTATTCCCTTACAGTATCCCATTACTTCAAGAAATTCTATATCTTGTCTAACTCTTTGTTCAATTCTTTGAGCTTCTAATAATTTTCCATTTTCTTTAAAAAAATTAATTCTTTGATTTAATTCTTCTTCTATTGAAGATAAAGCATTCATAATTTTTTTTTCACTTGTAATAAATTCTTTAGCTGGATATAAAGTTATTTTATCAAATTTTTCTATTGTTGTTTTATTTAAAATTTCAAACGATTTTATACTTTCAACTTCATTATCAAAAAATTCAACTCTTATTCCAAAATCATCATATGGTGGGAAAATATCTAAAATTTCTCCTTTTAATCTGTACGTTCCACCAGCAAAATCATCTTCTTTTCTTGTATACTGCATTTTAGAAAGCTTTTCTAAAATCTTTCTTCTATTATATTCTTCTCCAACCTTTAAATAAAGATTTGTTTCTGCAAAATCTGCTGGATTTCCACTTGCATATATAGCCGAAACACTTGATACAACTATAACATCTTTTCTCGTTAAAATAGATTTTAATGTTGAGAGTCTCATTTTCATTAAAACATCATTTATATCAGCAGTTTTTTCAATATACATATCTCTAGTTGGTAAATAAGCTTCTGGTTGGTAATAATCATAATAACTAACAAAAAACTCAACTCTATTTTCTGGAAAAAATTCTTTAAATTCTCTATAAAGTTGAACAGCTAAAATTTTATTTGGTGAAAGAATCAATGCAGGCCTTTTAGTTTCTTCAATAATTTTTGCCATAGTATAAGTTTTTCCAGAACCAGTTACACCTAATAAAGTATTATATTTTATTCCCATATTTATATTTTCAACTAATTTTTTTATTGCTTCTGGTTGATCACCTTGTGGTTTAAACTTTGATTTTAATTTATACATACCTTTACTCCATATATTTTTTTAATTCATATAAATTTTTTATTTTAAGTGCATATTTATATTTATTATCTCTATCAATTAAAATAGATTTTATTCCAGCATTTACTCCACCTTTTATATCTGTGTCTAAATTATCTCCCACAAATAAAACTTCACTTGTTCTTAAATTACTTTTACTCAATGCAATATCAAAAATTTCTTTTGATGGTTTATAAAATTTTACTTCTTCTGAAATTATTAATTCATTATAAAAAAGTCTATTATTTATTAATCCTTCTTTTACAAAAGATGAATCTGCATTACTAAGAATTATTATCTTATAACCATTTTGTCGTAATTCATTTAAATATGTCACATCTGCATAAAGTGGTAATTTTGAAAATGATTCATACATAAAATCTATAATTTCTTCTATACTTGAAATAAAAGATATTTCTTCTTTTAATTTCTTAAATAATTTCCCATAATAATATCTCTCTGATTTAAATTCATTTAAATAATAATTTTTAAAAATATCATCATACAATTCATAAATTCTATTTTCTATTATTAAAGGATCTATATTAGTTTCATCAGATAATTCAAATGCAACTTTTTTAAATAAAGAACTTGCATCTATAAGAGTTCCATATAAATCAAAAATTATACCTTTTATCATTTTTTTTACCTCCCTCAACTTTTTATTTCAAACTTATTATAGCATAAAAAAAGAAGAATCAGATTTCTGATTCTTCTTTTTTTTATTATTTTATCCTGCTTGTTCTGTAGTTTCTGTTTCTTGACTTATTTTTGTAACTGTTTCAAAATCATTTTCAGAGTATATTTTTAATCCAGTTCCTGCAGGTATAGGTTGTCCTACAATTACATTTTCTTTTAATCCTTTTAAGTAATCCATTTTTCCTTCAATTGCTGCTTCTGTTAATATTTGAACAGTTTGTTGGAATGAAGCAGCTGAAAGCCATCCTTCTTTTTCCAACGAAGCTTTTGTAATTCTTAAAAGTTTCCTTTCATATTTAATTGTACTTCTTGGAGTTATAAGATATGTCTTTTTTACACCTGTTAATACTATTTCTTCTTTTTCATTAATATCTTCTTCATAACTTTCAAAAACTTCTATTTCTTTTACTTTTATTTTTATCATTTCATTCAACATTTCTTTTGTAACTATTTCACCAACATTAAATATTTTTTCTTCATCAGTATCTTCATTTATTTCTATAATGACTCTTTTTGCTAGCTTTTTACCTAGAACAAGTTCTCTATTTTCAGAAATTTTAGAATTTTCATATAAAATTTGTTCATTTATTTTTCTTGCTCTATTGTAACTCAATAAATCTCCAGGCATGAAATCTGTATCTCCACTATCAGTTATTTCAACTTTATTCAACATTTGTTTTATAATTATTTCAAAATGTTTATCGTGGATTTCAACACCTTGTTCTGCATATATTTTCTTAATTTCTTTTAATAGATAGTTAGAAACAGCATCTACACCAAGTTCATCAAGTACTTTCCTTGGCTTAATGTTTCCAGAAGTTAATCTTTCTCCAGGCAATACCTTTGAACCAACATTAACAACAGGTTTAGTTCTAAAGTCTGCATCATATACTTCTGTATCTCCATTTAAACTTTCAACAACAAATCTTAATACAGTTGATTTTTTACTCTCTTCTCTATCTATTGCTTTGATTATACCTTTTATCTTAGAAAAAGTTCCATCTGGACCTTTTGTCTTTTTTCTAGCTTCAAATAATTCTTCAGCTCTTGGCAATCCTTGAGTAATATCTGAAGCAGTTGCAATACCACCTGTATGGAAAGTTCTCATAGTTAATTGCGTTCCAGGTTCACCAATTGATTGAGCAGCAATAACCCCAACTGATTCACCTATGTTAACAGGTTTATGAGAAGCAAGATCCATACCATAACATTTTGCACAAAGACCATTTCCCGCTTCACAAGTCAATACTGATCTTATATAAATTGAAGGTCTTACTTCAACAGTTTTTATGTTGAATTTTTCTAATAATTTTGCCGTTTTTATATCTATTTTTTCTTGATATTTTAATAATTCAATTTCTTTATCATTTTCGTCTTTTACTTTTAATGATTCTCCAATGTGAATAAAATTAACTGCCTTATATTCTTTTACTTTTATTGATTTTATATTATGTAAGGTTAATTCTTTAACAACATCTACAGTTAATCTTTCACCTTTTTCTAAAATAACTTCATTTTCTACTTCTAAATCTTCTAATAATTCATAATAAACATTTTCATTTATATTCTTTACTTTTAATTCTTTTTCTTCAAAAACATTTATTGTTCTATTATAATTTGATAAGAAGGTTCCATCAATTTCATCTAACATCATATTTCTTAAATATTTTTTACCATCTTTTTCTATAATTTTATCCGTTACAGGATCTAAAACATCTTTAGCAAGAACTCTTCCAAATAATAAATCTGAAAGATCTTCTATCTTTGAACCATCTGACCATAATTCTTCTGCTTCAACACCACGATGTGTTCCACAATCATTTTCTGTTATTGTTATTGATTGAGCTACATCTACAAGTCTTCTAGTTAAATAACCTGCAGTTGACGTTCTTAAAGCAGTATCAGCTGATCCTTTTCTTGAACCATGAGTTGAAGTAAAGAATTCAAGTTCTGAAAGGCCTTTTTTAAAGTTTGATTTAATTGGAACCTCTATAATCTTACCAGAAGGATCTGCCATCAAACCTCTCATACCAGCAAGTTGTTTCAATTGGTCAATATTACCTCTTGCTCCAGAATCAACCATCATCCATATTGGATTAAATACATTTTCAGGTTTCATATATTCATCAGCAGTTACATCAGTAACATCTTTTGTAGTATTTTCCCAAATATGAACTATTTCTTTATATCTTTCATTATCCGTCAAGTATCCTTCTTCATACATTTGTTCAATTTCAAAAACTTTTTCTTCAGAATTTTTAATAATTTCTTGTCTTTTATCAGATACTAAAACGTCTCTTATAGATACAGTTAATCCAGAAATAGTAGCATAGTGGAATCCAAATGTTTTAACTTCATCAAGTATATCTGCTGTTTTGTCAATTCCATACTTTTTAAACGTATTAAAGATTAATTTTTTTATTGACTTTTTACCTATTTTAGCTTCGTAATCTCTTAAATCTTCTGGTAAAGCTTCATTGAATCTTATCTTACCAATTGTCGTTTTTATTAATTTATCATTTTTTCTAAATGCAATTGTATTATGTAAGGTTAATTTTGCTCTACTCCAAGAAAATTTATCCTTATTATAAAAAACTCCAGCTGTTGTTACCTTTGAAAATTCATGTGCATATTCTGCATGTAAATTATCTGAGAATATATTCTTTATATATCCTTTTTTATTTAAATCACTGTATTTTTTAGGAACCTTTAATTTATTAAATTCAACAGGATCATGTGTCGTTAAATAATATGAACCTATTATTATATCTTTTGCAGGCATTGATACAGGTTTACCATTAGCAGGTGATATAATATTGTATCTTGATAGCATCAAGAATTTTGCTTCTGCCTGTGCAACAGCAGATAATGGAACATGTACAGCCATTTGGTCTCCATCAAAATCAGCATTAAAAGGAGGACAAACTAATGGATGTAATCTTATAGCATTACCTTCTATTAATTTTGGTATAAATGCCTGTATTGAAATTCTATGAAGAGTTGGAGCTCTATTTAACATAACAGGGTGTCCTTTTATAACTTCTTCAAGTATCTCCCAAGCTTGTGGCATCTCTTTTTCAATTATTGTTTTCTTTAATTTTCTTGCATTTTTACTAGCAACATTTGAATCTTTTAATAATTCTGCAAGTACAAATGGTTTAAACAATTCAAGAGCCATTTTCTTTGGAAGACCACATTCGTGAATTTCAAGATCAGGACCAACTGTAATAACAGCCCTTCCAGAGTAATCAACCCTTTTTCCAAGTAGATTTCTTCTAAATCTACCTTTTTTACCTTTTAATAAATCTGTTAAAGATCTCAAAGGTCTTTTACTTCTATCAGTCATGGCTTTTCCGACTCTACCATTATAAATTAATGAATCAACAGCTTGTTGTAAGATTCTTTTTTCATTTCTTACAATTATTTCTGGAGCTTCCATATCCATTAATTTTTTCAATCTGTTGTTTCTATTTATAACTTTTCTATAAAGGTCATTCAAGTCAGTAGCAGCAAAACGGCCACCATCTATTTGTATTAAAGGTCTTAAATCTGGTGGAATAATTGGTAAAATTTTTATAATCATCCATTCAGGTTTATTTCCAGATTTCAAAAAGTCTTTTACAACCTTTAATCTTTTTAAAAGTTTAAGAGCTTTTTGACTTCTCTTATCTAATTTTTCTAATTCATTTTCAAGTTTAGCTTTTAAAACTTCAAGATCTAATTCTTGTAATAGTTTTCTTACAGCTTCAGCACCATAACTAGCTTCAAACTCTTCATACAAATTTATTTGAAGTTTCTTTTCTTCATTTTCATTTGTAATAACAAGAACATCTTTTATTCCATAATCAATCATTTCATCAAGAAATTCTTGATCTATTTCTATACCTTTTTCATATTTTTTACCATTAACAAATATATCTTCAGATAGAGTAGTCCCTATAATCTCTTCTCTTTGATATTTTACTTTTGAATTAAGAATTCTCATTACTTCTTCATAAGCTCTTGCTTCATCTTCTAAAAGAATATCACCAACTTTTTTACCAATTCTTTTTGAAAATCTTTTATCTATTTCACTTATAACAACTATTGGTGTATCCCTTTCTATATCCCTTTCTATTTCTATTCTTCCTGGATAATAATCAGAAAAAATAGTATACTCTTGATGAGTTAAATAATCTTCTTCAAAAAGGAATCTATCTGCAAGTGCTGTACCTGCTTCTATTTCTTGACCGTCTTCTACCATTAAGGTAACGCCTTCAAATAAAGGATACTTTCTTATTGTACCATCTTCCGCTTTTACCTTTACCCAAGTAATTTCTCTTTCTGTATGAGTCATTTCTGTTTCTAATTCAACTGTTCCAGAAACTTCAGTAGTAGGTAGTCCTTTTATTCTACTAATTCTAATTGCAGGTTCAACTGCCATATCCATATATTGAGAATATATATCATATTCTCTTTGATATAAAATTTCACCTGGATAATAATCTAAATCTAAATCTTCTGTTTCCTCAGAATTTTCGTTTGCAAGAGTTAAATAAGATCTTTCTATAACTCTTTTAGAACCATAATAAATAATATTTTCAAGATCTTTTACACTTGTTCCAAGAATTATAGACAATATTGAAGGAGAAGACTTTAAAAACCATATATGAGATACAGGTGTTGCAAGTTCAATATGTCCCATTCTTCTTCTTCTTGATTCTTTTGATTCAACACGAACTCCACAACGTTCACACACTGTTCCTTCGTATTTTTTGCCTTTATACTTACCACAAGCACATTCATAATCCTTTGTAGGACCAAATATTTTTTCACAGAACAAACCATCTTTTTCTGGTTTACTAGTTCTATGATTCAATGTTTCTGGTTTTTTTACTTCTCCATTTGACCATTCTAAAACTTTTTCAGGAGAAGTTAATCCAACTTTTATCTTAGCGATTTTTCTCTGAAAAGAAGATACCTTTGTCATCCATCTTCCCTCCTTGAGGGTATATTTTTAGAGAATGGGCACACCCTTGTGCGCCCTTCATTATAATTTATCGACATCAAGCTCATTACCATCTTCATCATATAATCTTATATCTAACATTAAACCTTGTAATTCTTTTACAAGAACTTTAAAACTTTCAGGAATTCCTGGTTCAGGAAGATTTTCTGCTTTTAATATAGCTTTATAAACATCATTTCTTCCCCTTATATCATCTGATTTATAAGTCAACATTTCAGTTAATGTATGTGCTGCACCATATGCCTCAAGAGCCCAAACTTCCATTTCCCCAAATCTCTGTCCACCAAAATGAGCCTTTCCTCCAAGAGGTTGTTGATGTATTAAAGAATAAGGTCCTGTTGCTCTTGCATGAATTTTATCTTTAGCAATATGAGCAAGCCTTAACATATACATATAACCTATATCTACTGGATAATCAAATGGAACACCTGTTCTTCCATCTCTCAATATAATTTTACCAGTTATATTTTCATCAGTTTCACCAAGTTCTAAACCATTTTCTTTTCTTAATTTATGTAATTCATTCATTATTTCTTCTTCACTTGCACCATCAAAAATAGGAGTTGCAAAGTATCTATTTGAAAGATTTGCAATCCATCCAAGATGTAGTTCTAATACCTGTCCAATATTCATACGTGATGGAACTCCTAAAGGAGAAAGCATCATTTGTATTGGAGTACCATCTGGTAAAAATGGCATATCTTCTTTATGAAGAATGTTAGAAACAACACCTTTATTACCATGCCTTCCAGAAAGTTTATCTCCTGCAAGTAATGTTTTTTTAGTTGCAATGTAAACCTTAACATAAGTATTTACTCCAATTTCAAGATTAGGTATATCATCTCTAGTAAATACTTGTACATCTATTACTCTTCCTTCTATACCATGATGAAGGGTTAAAGATGAATCTTTTACATCTCTTCCTCTATCACCAAATACAGATTTTATTAATTTTTCTTCAGGAGAAGTTTCAGATTCTCCTCTTGGAGTTACCTTTCCAACTAAAATATCTCCTGATGAAACGTAAGCACCTATTCTTACTATTCCTCTTTCATCCAAATTCTTTAACAATTCTTTTTTTACATTTGGAATATCAGCAGTTATTTCTTCAGGTCCAAGTTGTGTATCCATAGCCTTTGTTTCATAAACTTCTATATGTACTGATGTAAAAGAATCTTTTTCAAGTAATTCTTCACTAACAACTATAGCATCTTCAAAATTATAACCTTCCCAAGGTAAAAATGCTACTAAAATATTTTTACCAAGAGCAAGTTCGCCCATTTCAGTTGAAGGTCCATCTGATAATGGTTGCCTTTTTTCAACTTTTTGCCCCAAATGAACTAATGGTCTTTGGTTAATACACATATCTTGATTCGAACGTACATATTTTGAAAGTATATATTCATCTTTTAATAAGTTTCCATATTTATCCTTTAACGGATTGTCCTTGTCATCAGTTCTTTGAACAATTATCTTACTTCCATCTACAAACTCAACAATACCTTTATGCTTAGCTAAAGATAAGTATCCTGAATCTCTTGCTGCAAGCCATTCAACACCTGTTCCAACATATGGTGCATCAGTATACAATAATGGAACTGCTTGTCTCTGCATGTTTGATCCCATTAAAGCACGGTTAGCATCATCATGTTCTAAGAAAGGTATCAATGAAGCTGATACAGAAGCTATTTGTTTTGGAACTAATGCTATATATTCAACATCTTCCCTATGAACAAAAGTAACTTTACCTAAATGTCTTATTTCAACGTATTCTGGAACTAAATATCCTTTTTCATTTCTTTCAACAGATGCTGGAGCTATTTTATAAACTTCTTCTTCATCCGCCGATAAATAGATTGGTTCATCGCTTAAAACTCTACCTTTTTTTACTTTATAATATGGAGTTTTTAAAAATCCAAATTCATCAGTTTTTGCAAGAATTGCCAAAGAAGTTATAAGACCTATATTAGCACCTTCAGGTGTTTCAATAGGACACATTCTACCATAATGAGAATGATGGACATCTCTAACTTCAAACTTTGCATGTTCTCTTTTTAAACCACCAGGACCAATTGCAGACAATCTTCTTTTATGTGTTAATTCAGATAAAGGATTTACCTGATCCATAAACTGTGAAAGTTGGCTAGTAGCAAAAAATTGATGAAATGCTGTAATTATTGCTCTCGAATTTATCAATGATTGTGGATTTATTTTATTTAAATCTTGAGCCATTGTTATTTTTTCTGGTATGTGTTGAAGCATTTTTGAAAAAGCTTTTTCAAATTCAATTTGCATTAATTCTCCAACAGCTCTAACTCTTTTATTACCTAAGTGATCTCTTGTATCTAAAAATTCCAAGTTCTTTTCAAGTTCTAAAAGATGTCTTGCAGAAATTATAATATCAAGCTTATCTATTGTTCTATTGCTAATTGGATATTCTATTTTTTCTTCATCTTCTCCAAGATCTCTGTTTTCAACTTCTTTTAAATATCTTATATAAACATCTTTTAATCTTGTTTGAATTTTCTTTCTACCTATCTCAGAAAAATCAAATTTATCATCAACAAAATACATATTGTCAATTTCTTCTTTTGCCTTTTGACCCTTTGGAATTTCAGTAGGTCTCAATTTTATATACATTTCTTTATAAGCTTCAAGAGAAGTTAATGGCCCTTCTTTTTCATATCTTTTTTTCATCTTATCTAAAGTTATTTGAGAAACTCTATGAGCAACTCTAACTTTTTCTATACCGTATTTTTCTAAATAAGGCATAGCTTCTTGAAGTCTCATCCCTCTAATTGAAGTTCTAGGTGGTTCTAATTCATCCAACTCTTGAAAATTCATATCCGAAAGAACCATTGAATCTAAATATGATTCAATATCGACTTCAGAACTCAATTCAAGGTCTACAGGGAATAAATCTAATATATCTAAATCATTTTCATACCCTATAGCTTTTAAGAATAGAAAGAAATTAAATTTTCTTTTTCTATCAATTCTTATTTGAAGAATTTCTTTACCAGGATTAGGATTAAACATTATTTCTAACCATGCTCCCTTTACAGGAAGAAAATGAGAAATAAATAATTCCTTGTTAGAATCCTTTTCTTCTTCTTTAACAAAATAAATTCCTGGTGACCTTACAAGCTGACTAACAATAACTCTTTCTGCACCATTAATAATAAATATACCTCTATCTGTCATATAAGGTATATTACATAAAAACACGTCATCTTTTTCGATTGTTTCACCAGTAGAAGTATCCGTAATTTGAACTTTTAAAAAAGTTCTACCCGAATAAGATAAATTTTTTAATTTACACTCTATTTCGGTAATTTTTGGATCTTCATACTTAATACCAGAAAAGTTAACAATAACTTCTTTTGTTTTCTTTCCCGTAATTTTGATTGGAACCTTCATAGGCATATGTTTTTTTATAGATTCCATCAAACCCGTTCTCAAAAATTCATTAAATGATTCTTTTTGAATTTTGATTAAATCATCATAAATGGCAAAATCCTCTTGAACCTTACCAAAAAATACTCTTTCCCTGTTTCCGACCTTTAAGGTGCGGGTGTTCACAATGAATCACCTCGACTTTTAAAAATATGGTTTTCATATAAATAATTTCCGAAAAAATATTTTCGGAAAAATTATGATTTAAATTTGTAATTTGAAACAATTTTAAATTTATTTTATAAATAAAATTCTAAGCAAAACGAAACCGCATTAAACTAATTAGCCCAATGCGGTTTTAATTTTACCATTGTTTTATAAAATTCATATTAAAAAAGCAAAACAATTAGTTAAATTATTTTACTTCTACTTCTGCTCCAGCTTCTTCTAATTTTTTCTTTAATTCTTCTGCTTCATCTTTAGAAATACCTTCTTTAATTTTGTTAGCTGGTCCTGCTTTTTCAACTAAGTCTTTAGCTTCTTTTAAACCTAAACCAGTAATTTCTCTTACTGCTTTAATAACTTTTATTTTTGCTGATCCAAAGCTTGTTAAGATAACATCAAATTCTGTTTTTTCTTCAGCTGCTGCTGCACCTGCTGCACCTGCAACTGGCATTGCCATCATTGGAGCTGATGCACTTACACCAAATTCTTCTTCTAAAGCTTTTACTAATTCTGCTAAGTCAGCAACCTTCATTTCTTTAATAGCTGTAATTAATTCTTCTTTTGTCATTTAAAAACACCTCCACTAAATTTATAATTATTCGCTTTTTTCTTTTTCGTCTTTAATTGCGCTTAAAACATTTACTAAACTTCTAACTGTTCCTGCAAGAACATTTACAATTCCAGAAATAGGAGCATTTAAGCTGCCAACCAATGTTGCAAGAAGTTCTTGTTTTGATGGTAATTTAGAAAGTTCAATTGCTTCTTCAGCTGTAAATACTTTACCTTCAAGCAAACCACCTTTAATAATAGGTAAATCTTTATGTTTTTTTGCAAAATCTGTTAAAAGCTTAAGTCCTTCAATAGGATCGCCCTCTTTAACATAAAAAATACCTGTACTACCCTTTAAAATTTCTTCAAAGTCTTCAACATTTAACTCAGCTTTTTTTATAGCAGTTTTAATTAAAGAGTTTCTAGTTACTTTATAGTTTGCTCCACCTTCAAATTTTTTGAAAATTTCAGTTCTCATTTCATTTGAATCAGAAACTGGAACACCTTTAAAATCTGTAAAAGCAACTATTGAAGATTCCTTTAAAACAACAGCTAATTCATCTAATAATTCAACTTTTTTTGCTTTTGTCAACACTTTTTGCACCTCCTTAAACAAAACTGCGACCTTGAGGTCGCAGAAAAATTATGGACTATTATGCCCTTGTATTCTACATACCTCGGCAGGCGTCTTAATTTATTAAGACTTTAATACAAGTACCTACTGTCTTTGGTATTATATTCATTTTTTAAATTTCGTATTATTATACTATATCCATACCTGTTGTGTCAAGTTTAACTCCAGGTCCCATTGTAGGTGCAATTGAAACTTTCTTTATAAATTTACCTTTTGATGATGAAGGTTTTAGTTTACTCAATTGTTCTAAACCAGAAATTATATTTTCTTTTAATTTTTCATTATCAAAAGATTTTTTTCCAGCTGGAAAATGCACATTACCAGTTTTATCATTTCTAACTTCTAATCTACCAGCTTTAAATTCTTTTACTGCAGCAGTTACATCTGCTGTAACAGTTCCTGCTTTAGGAGAAGGCATTAAACCTCTAGGTCCTAAAAATCTTCCTAACTTTCCAACAACTCTCATCATATCAGGTGTTGCTATTGCTACATCAAAATCAGACCATGCTTCTTTTACTATTTTATCTGCTAATTCATCAGAACCAACGTAATCTGCACCTGCTGCTTTTGCTTCTTCTGCTTTTTCACCTGTAGCAAAAACTAATACTTTAACATCTTTACCTGTACCATGAGGCAAAGAAACTGTATTTCTAACATTTTGATCACTTTTTGTAGAATCAATACCAAGTTGAACATGAACTTCAACTGAATCATCAAATTTTGAATAAGCAACTTTTTTTACTAATTCCACTGCTTCATCTATACTGTATAATTTCAAACTATCAACTAATTTTTTAGCTTCAAGATATTTTTTACCTCGTCTCATTTATTCTCCTCCTCTCTTATCCTTCTATTACTTCTATACCCATTTGTCTTGCAGTTCCTTCGATTATTTTCATTGCTGCATCGATATCTCTTGCATTCAAATCAGGCATTTTTATTTCTGCTATTTCTTTTACTTGGCTCTTTTTAATCTTACCAGCAATTTCTTTTCCAGGATTACTTGCTGCTGATTTTAAACCAAGAGCTTTTTTGATAAGAAATGAAGCTGGAGGAGTCTTTACTACAAATGTAAATGATCTGTCTTCATAAACTGAAATTTCAACAGGTAAAAGTGTACCAGCTTTATCTGCTGTTGCTGCATTAAATTTTTTACAAAATTCCATTAAATTAACTCCAACTTGACCTAAAGCAGGTCCTACAGGTGGAGCTGGTGTTGCCTTAGCAGCTTGCAACTGTAATTTTATAACTCTTGTTAATTTTTTTGCCATTTTTCTACCTCCTTGTGGTTATATCGGAAAAATTCCTCCCACGATTTACTTCTTTATAATAATATATTATTTTTAAAATAAAAAGCACAATCGTAAAATATTGATTTAGAAAAAGTTAAATTTAATCAAGAATTTTTTCTATTTCCGATAAAGAAAGTTCCACTTCTGTTTCTCTACCAAACATAGTAACAGAAACTGTAACTTCTTGTTTTTGTAAATTTAATTCTTTAATTTTACCAGTAAAGAATTCAAAAGGTCCTGAAATTATTTTTACATGTTCATCAAGAGAATAATCCGATCTCATTTTAACTTTCTTTTCCTTATATTCTTCTTCACCAGATGTTCTTAATAACACCCTTATCTCTTTTCTATTCAATTTAATAGGCTTTCCACCAACATTTAAAAACGTTGAAACATAAGGAATAGATTGTATTAATTTTTCAGATTCTTTTAAATGAATCATCTCAATAAAAATATATCCAGGAAATAACTTTACTCTGCTTGTCTTTATTATTTTAATTTCTTTTCTCATAGAATGTTCTTTAATTTCTATTCTTCCAGACGATTTTGCAAAATATTGTTCTCCACTCGCCAATTTTTCATCTTTATTGACAGTTGTTCCAACTTTAAATACCTTACTATTAAAAAGTTTCAATGGAACAACGTAAACATCATTTTCACCATCTGTTGTTTCAACAACTAGCCTTTTTACTTTTATTACTGCTCCAACTTCTCCATCAACATCACTTTCATATGAAAAATCTTTTGTAAATGGAGTACCTGGTTTTACATTTTTACCAACACGAATACCAGGAATTATTCCAGCTCTTTCTGGAATCAAAAATGTTTTTGAATATTTTTTATCATTTGTTTCTACTATTATTTTTCTATAATTCTTTGATTCAATTATTTCTCCGGAATGTTTAACTAATGTAGCGGGTTCTTCTGCGATTAAATCATTCTTTTTTACATCTTTACCTTTTTTTATAAAAATTTCAGCATTTGGAGATACAAAAAATCTATCTCCTTTTTTATTAGAATAATTTATTTCTTCAACTTCTGGAATTAAAATTTTTCCAAAATAATTTTGAATTCCATGCATCTTTGCTTTTTCTTGTATCATTTCTTTTACTTTATTTTCCATTCCGGAGTATGCTTGTAAAACATACCACTCTTTACGCACTTAACATCACCCACTTTTTATTTTTTTTACTTACCGGGTGGCAAAGTTGCTGATGCACCTCCAAGTAATAATGGATAAACTAGTTTTTGGAAAAAGTTCAACATACCAAAATCTACTAGCATAAGGTATAAGGCTATAAAAACTATTATTACTAATACAACAGCTGTTGAATTTAATAGTTCTTTTCTTGATGGCCAATTAACCTTTCTTGCTTCTTGCATTACAGAACTTAAAAAAACCCAAAATTTAGACACAAGTCCACCTCCCCGAGAAAAAGTCGCAGTCATGAAATAAAGCCCCTCACCATGCCGAGGGGCTTATATTATATCTTAGATTCTTTATGTAGAGTGTGTTTATTACACTTCGGACAGTACTTTTTCATTTCAAATTTTTCTTTAACGTTTCTGTTTTTTACTTTATAGTAATTTCTTGTTCCGCACTCTGTACACTTTAAAGAAAAATGGACGATCTGATTCTTTGCAGCCATTTTTTCCACCTCGCAAGTATTTATTTTATATAAAAATGGTGGTGAAGGAAGGATTCGAACCTACGAAGGCAATCCGCCAGCGGATTTACAGTCCGCCCCCTTTGGCCGCTCGGGCACTTCACCACTTTTTAAAAAATGGAGCCGACGAAGGGACTTGAACCCCCAACCTGCTGATTACAAGTCAGCCGCTCTGCCAATTGAGCTACGTCGGCAATTACTTAATTACTTTAAAGATCCTTTGTGTTTTTCGCATTTGTTTTCTGCGCCAAACGTGAATTATTATAGCAGAGATTTACTACGTTGTCAATTTCATTTGTGTTACATGTATATTAAAAATTAAAAAGCTGTTTGAGGGAATACTTTTATATCTAAAACCACTACATGATTCCCAGGCTCTAAATTGCTTGGAATATACATATTCGAATATAATTCTAACTCTGGAAATCTATAAAATCCACTCCAAATATCCCAAGATATTATTGGAAATAAATTTTCTATATGTAATTCTTTTTTTCTATAATTATAAATCTGTTTAATTTTTCTTACTCCAGTAGCAATCGTTGGAAAAGTTCCTCTTCTAAGAGTAATTGTATTTGAATTCCAATTTAAATAAGGATCATATGGAGAATTTTTTGCATAAAGGTATGTAATTGTATTACCTATATTTTTTCTTTGATCTATTTGAGTTATTGTATCAACTGAAATGTCTACATTAACATAAGTATATGCAAAAAGGGCTTTTAATAAATTTTTAGCAATTCCGCGTGGAACTATATCATTTGGAAAAGTTAAATCAAAAAAAGTTCTAACTATACGATAAGCATAACAATTCGAGCTCTCATTTAAAATAGTTCTTACATCATTAAAATTTATTTCTGGAAATAAGCCATTATTATTTTCGGCAAAAGATTCATATAATAAAGGATAAATCATATCTCCTATAGCTAAAACACCGAGTAATTTATCTTTATTTTCACCAGGTTTATTTATTAATATATAATTATTTAAATTTAAACCTCTTCCATTTGCATATTCTTCTCTACTAACAAATTGAACCATAAGTAATCTATCTAAGTTTTTTTGAATATGAGGGTTATTAAAAATATCACCATAATTTATAGTAAAAAAAGATATCAACAAAATACTAAAAATTAAAAATTTATTTTTCTTCATAAAAATCACCTCAATTTTATTTTTTCTACAGTTTAATTTTAATATATTTTACAAAAAATAACAACTCGAATGAAAAGTATTTGTTAAATTAATATTAAAAATTCAAAAACTTTTTTTAAGTTGCAAAAATAATCAATATAAATAAAATTTTTTTTGATTTTTAAATATATTCGTGATAAAATATAAGTAAAAGTGTCGAAAAATTAAATTTATTTAAAAAAATTAGCTTTTTGACTCTCGGAGGTGGAAAAAATAATGTTTGATAATTTTACCGAAAGAGCTGCAAAAGTATTTATTGAAGCTCAAAATGAAGCTAAAAATATGGGACATCCCTATGTTGGAACAGAACATATATTACTTGGACTATTAAAAGTTGGCGGTAAATATTTAGATATAATCTTCAAGGAGTTTGATATTTCATACAATAAAATGAAAAATGAAATTACAGGAGTAGTTGGTGTAAACTCTTCTCAAGGAATAATAGGATCTCCTCAACCAACTCCAAGAGCAAAACGAATAATAGAATTAGCTTATGATGAATCAGAGTTAATGGGGTCAACTAGAATTGACGCCGAACACTTACTTTTAGGTATTTGCAGAGAATCAGAAGGAATAGCTTCTCATATTTTAAAAAGATTAGGAATAAAACTTTCAGAAATGAAACAAAAACTTTCTGAACTAATGCTAAAAAGCAACACCGAAGATATAAATTCTTTAAATTCAAATGAAGAATCCGAAGAAAGAATGCGCCAAAAGCAAACAGCTTTAAGGCAATTAGAAGATTTTGGTACAAATTTAACAGAAAAAGCTTGGAAAAACAAATTAGATCCAATAATAGGAAGAAACACAGAAATAAAAAGAGTTATGGAAATTTTAGCCAGAAGAAAAAAGAACAATCCTGTTTTAATTGGCGAAGCTGGAGTTGGAAAAAGTGCTATTATAGAAGGATTAGCTATAAAAATAGCTTCAGGTGATGTACCAGAAATACTAAAAACAAAAACTATTTTTTCATTAGATATAACTTCTCTTGTAGCTGGCACTAAATATCGTGGAGAATTTGAAAAAAGAATGAAAAAATTAATACAAGTTTTAGAAAAAACAGACGACATAATTTTATTTGTAGATGAACTTCATATGATAGTAGAAGCTGGTGCTGCCGAAGGCTCTTCTATGGATGCTGCAAACGTTTTAAAACCGGCTTTAGCTAATGGTACTATTACTTTAATTGGAGCAACTACTTCAAGTGAATATAGAAAATTTATTGAAAAAGATCCTGCACTTGAAAGAAGATTTCAAAAAATATATGTTTCAGAACCAACAATAGATGAAGCTATTGAAATTTTAAATGGAATAAAAATAAAATACGAAGAACATCATAAAGTAAAGTATACAGAAGATGCTATAAAAGCTGCTGTAAATTTGTCTGTAAGATATATTACTGATAGATATTTACCAGATAAAGCAATAGATGTTATAGATGAAGCTGGTGCAAAGTCAAGATTAGCAATATTGACATTAACAAAAAAATTAAAATCAGATCTTTCAAACATTGAACTTCTTGAAAAAGAAAAAGAAATTAATTTATCAAATAATAACTTTGATGAAGTTGAAATATTAAAAAAGAAAATTGAAAAACTCAGAAAAAAATATAACACAGCATATAATAAATGGAGAAAAGATGCAGAAACAAAAATCATAGATATAAGCGAAGAAAATATAGCAGAAGTTATTGCTCATTGGACAGGTGTCCCACTTAAAAAATTAGAAACATCTGAAATGGAAAGATTATTGAATCTTGAAGCAGTTCTTCATGAAAGAGTTGTAGGTCAAGAAGAAGCCATTGTTTCTGTTTCAAAAGCTATAAGACGATCAAGAAGTGGTTTAAAAGATCCAAAAAGACCTACTGGTGTTTTTATGTTCTTAGGTCCTACTGGTGTTGGAAAAACTGAACTTGCAAAAACTTTAGCTGAATATATGTTTGGAAATGATAGTTCTTTAATTAGGATTGATATGAGCGAATACATGGAAAAATTTAATGTTTCAAGATTAGTTGGAGCTCCTCCAGGATATGTAGGGTACGATGAAGGAGGACAATTAACTGAACAAGTTAGACGTAGACCTTATTCTGTTGTTTTACTAGATGAAATAGAAAAAGCTCATCAAGACGTATTTAACATACTTTTACAAATAATGGATGAAGGAAGATTAACTGATTCGCAAGGAAGAACCGTTGATTTTAGAAATACAATAATAATTATGACTTCTAATCTTGGTTCAGAACATATAAACAAATCAAAAAGAACTTTAGGTTTCGTTGAAAATGAATCAGCAGAGCAACAATATAAAGATATAAAAGGTCAAGTTATGTCTGCAATAAAAAAAGAATTTAAACCTGAATTTATAAACAGATTAGATGATGTTGTTGTATTCCATCCTTTAAATAAGGAAGAAATAAAAGATATTATTAAAATACAAATTAAAGAATTATCAAGTAGAATGTCTGAAAATAATATGTCTTTAAAATTAAATGATAAATCTCTTGAATATCTTTTAGAAAAAGGATATGATCCAATTTTTGGTGCAAGACCTTTAAAAAGAGCCATTCAAAAATATTTAGAAGATCCGTTATCAGAAAAAATATTACAAGGGAAATTTAAAGTTGGAGATAAAATAAATGTTTCAGAAAAAAATGGTAAATTAATTTTTAGAAAAACAGTTTCAAAAAGCAAGGTGGCAAAAATTTGAAGAAGAAACAAAAATACTACGTATGCAATGAATGTGGTTATGAATCATTAAAATGGTTTGCAAAATGTCCTGAATGTGAATCTTTTGGGACAGCTGTTGAATTTTCTGAATCTAAAGAAGAAAATAATTCAACAAAAGCTGAAATTTCATTTTTAGAAGATTCTATTGAAATACCTCAAAAAATACAATTAAGTAATTTGGAAATGAATGAACTTTTAAATGGTGGAATTGTACAAGGTGGAGTTTATTTATTGAGTGGAGAACCAGGTATAGGAAAAAGTACCTTGTTAGCTCAAATAACTTCTCAAATAAATGATTTTTTAATATATGTTTCGGGTGAGGAATCTAAAGAACAAGTAATAAGAAGATTCAAAAGATTGAATATAAAAAAAGAAAATTTAGGATTAATTTTTGAAAATGATATTGAATCAATAATAAAAACCATAAAAACAAGAAAAGAAAAACCAAAAATTTTATTTATTGATTCAATACAAACTATGAAATCCAAAGATTTTGATTCAATCCCAGGAAGCATTATACAAGTTAGAGAGTGTACTAGAAAATTAACTAACTTTGCAAAAAAAAATAATATATCTGTTATTTTGGTTGGTCATGTAAATAAAGAAGGTGCAATTGCTGGTCCAAAAGTATTAGAACACATTGTTGATAGTGTTATACAATTTGAATTAGAAAAATCTTCTGGATTAAGAATGCTTAGAGTATCAAAAAATAGATTTGGACCTACGGATAATGTATTATTGTTTGAAATGACAAATAAAGGATTAAAAACAATTGAAAACATATCAGAATATTTCATTTCAGAATATTCAAATGAACCTGGTAATACATTAACAATGATTAAAGAAGGAAATAAAATAATACCAATAGAAATACAAGTATTAGTAAGTAAACCCGTTTATGGTAGTCCAAGGAGAGTTACATCTGGAGTTCCTATAGACAGAGTTTTAATGATAATTGCTGTTTTATCAAAAAAAATGAAACTACCTTTAGAGTCTAAAGATATTTTTGTTAATACATCTGGTGGATTTAAATTAAACGATAGTGGTATTGATGCTGCTATAGCAATTTCAATGTTATCTTCTTTGTTTGATAAACCAACTCCATCTCCAACTATTGCAATAGGGGAAATAGGTCTTGATGGTAAATTAAGAACCGTACACATGTTAGATAAAAGAATAGAATTCGCAAAAAAAATTGGCATTGATAGTATTTTAGTTCCAAAACATAAAAATTCTTATAAAAAAATCTTAGAAATTAAAAATATTTCTGAGTTTATAAATTTATTTAAAGGTGATAATAATGATTGAAACCTCTATGGAAAGTATTTTAAACCTTTTAGCTCCAGGTAAACCTTTAAGAAAAGGTATAGATAGAGTATTAGAAGCCAATTTAGGTGCCCTAATATTTTTATCAAGTAAAACTGAAGAATACTTAAACGAAGGATTAATTCAATTAGGTTTTAAAATAGACTCTGACTTTCAACCAGAAAAAATATATGAACTCGCTAAAATGGATGGTGCAATAATTTTAAATACAGAAGCCACAAAAATATTATATGCAAATGTTCAATTAAATCCAGATAGAAGTATTCCAAGTACAGAAACTGGCATGCGTCACAGAACTGCAGAAAAAATTTCAATGCAAACTGGAGATATTGCAATAGCTGTTTCAAAAAGAAGAAATATAGTTTCTGTTTTTTATAAATGGTCTAAAAATGAATTATTGCCAGAAAGTGTATTATTTGCACGATTAAATCAAGAAATAACTATTGCGCAAAGATACAAACAAAGTTTTTTAGAACAAGTTGAATTTTTAAATATAGAAGAAACAAAGAAAAAAATAAGCCTTTCCGATGTAACCGAAACTCTTTCAAAAGGTTTATTAACCATAATGATAACAAAGGGAACAGACAAATATATGAGAGAACTTGGAGAAGTTTCTGGAAGTGCTAAATTAGAATACGATGAAATTTTAAAATCTATATCTAAAATAGTTGGTTCAATAATAATGGACTATCATAGTGAAGATTTAAAATATCAAAAAGCAGAAGAAGCTATAGAATTATTTGAAGATATAAAAACAGAAGATCTTGTTAATCAATTTATAATAGCAAAAAAAATTGGCTATGATGTTTCTTCCGATGATGAACTAGAAGAAAAAATGTTAACTCCAAGAGGATATAGAATACTTTATTCAACTAAATTACCAAGCCAAGCAATAAAAAATGTTATTGAAACATTTAAAACTTTGAGTAGTTTAATGGAAGCTTCATTTGAAGATTTAACCGATGTATCAGGAATTGGTAAACGAAGAGCTGACACTATAATGGGATTACTTTATAGAAAGAAAAAAGGAGCAGAAGATGAAGATACTTTCAAACAATAAAAAAGCTTATCATGATTACTTCATATTAAAAGAATACGAAGCCGGAATTGAATTATTTGGATCTGAAGTTAAATCAATAAAAGAAGGAAGATGTAATTTAAAAGATGGATACTGTAAAATTAAAAATAGAGAAGTTTTCTTGTACAATATTCATGTTAGTCCTTATACAAATGCTTCTATATTTAATCATGATCCAGAAAGGCCTAGAAAATTATTAATGCATAAATATGAAATTTTAAAAATTCATAACAAAATAAAAGAAGAAGGATTAACTTTAATACCTTTAAAACTTTATTTGAAAAATGGATTAATAAAAATAGAAATAGGTCTAGCAAAAGGTAAAAAAATTTATGACAAAAGAGAAACTTCAGCAAAAAAAGACTTTGAAAGAAAAATTAAAAAAAATCTCAAATATACAAACTTATAAGGAGAGACTTTAATGAAGGCTATTGAAACAAAAAATTTAAGTAAAAAATTTGGAGAATTATACGCAGTAAAAAATGTATCTCTTGATATTGAAAAAGGTAAAATTTTCGGATTACTTGGACCTAATGGAGCCGGAAAATCAACAATAATGAAAATGTTATCAACCTTAATGCTTCCAACAAGTGGAAGCATAAAAGTATTAGGTCATGATATTAAAACCTCAAAACAAAAGATAAGATCTTTAATAAGTTTAGTTTCTGATTATACAGTCCTTGAAGATGATTTAACTCCCATTGAAAATTTAGAAATGTTCGCTGAAATTTCAAATGTAAAAAATTATAGTAAAAAAGTAAAAGATTTGATAGAAGATTTTGGCCTTGGTATTTACAAAGGAAAATTAACTAAATATCTTTCTTCTGGAAATAAACAAAAATTAAACATAGCAAGAGCCTTAATAAAAGAACCAAAAATTCTTCTTTTAGATGAACCAACTAATGCCATAGATGTAGAAACCTCTAGATTTATACGTGAATATATTATAGAAGAAAATGTAAAATCAGAAATGACTATTTTAATTTCTTCTCATTATATTTGGGAAGTTGAACAATTAGCAACTGAAGTTGGTGTAATTATAAATGGTAATATAATAATAAAAGAAAAAACTAATGATTTAATTAACAAATTCAACTCTATGTTTGGCATATATGAATTAACTTTTAAAAAAGAAAAATTTGAAAATGTTTTAAACAATTTAAAAAAACAAAAAGATATTTTAACAATAAAACCAATTACTAAAGAAAAGATAATAATCGAAGTCTCTAACAAAGATTTCAATATAAAAGATATGAATTTAAGAAAAATTACACCTTCACTTGAAGATATTTATTCTTATATAGTAAAAAATAAAAAAGTAAAGTAGGAGAAAAATGAGATTAGATAAATATATTTCAAATGCTAAAATCGGAACAAGAAGAGAAGTAAAAGCACTTATAAAATCTGGAAAAGTCAAAGTAAATGAAAAAATAATAAAAAAAAGTGATTATAAAGTAACAAACGAAATAATAGAAGTAAACAACAATATAATAACTCCACACAAAAAAATATATATAATGTTTAATAAACCTAAAGGTATACTTTCAGCTAATAAAGATTATAAAAGAAAAACTGTATTTGACCTTATAAAACATCCTTATGTTAATGAGCTTTCAATTGCTGGAAGACTAGATTTAGATGTTCATGGATTACTTCTTTTATCAAATGATGGAACATTCATACATAAAGTAATAAGTCCAAAAAAAAATGTATATAAAACTTATGAAATTATTTTTGAAGGCGTTTTTACAGAAGAAAAAAAGAAAAGATTAGAATCTGGAATTAAATTAAATGAATTTACAACAAAACCAGCTATTGTATCTTTACTTTCTAAAAATAAACTTGAATTAAAAATATTAGAAGGAAAATTTCATCAAGTAAAAAGAATGATAGCTTCAATAGATTTAAAATTAATAGATTTAAAAAGAACATCAATTGGAAGTTTAAAAGTAGATATTCCAGAAGGAACTTATAGAGAATTAAAAGAATTTGAATATTTATCTTTTTTAAAATAGGAATATCAATAATAATTATAGTAATATAAAGTAGAATTGGAGGGTTTTGGGTTATGAAAAAAAAATCAAAAGATATTGAAAAAATTTTTAGAACCATTTGTTTTAACATAAAAGTTGGAGGAAGACGTGTATTAAAAGATTTTGATATTTCTTCTGCTCAATTTGATGTTTTACAAATGCTTTATTTTAAAGGTCCAAAAAGATTAAGCGATATAAGTAAAAAGCTTGGAGTTACAAAAAGTACTACAACTGGCATTGTAAAAAGATTAGAAAATCAAGGACTTTTAGAAAGAAAACAATCTGATGATGATAAAAGAGTATTTGTAATATCCATAAAAGACCCCGGAAAAAAAATTATAGATAAAGTTATAAATGAAAGAAAAAAATTAATGAAAAAAGTCATAGCCGACATGAACTATGATTCTTATTTTATTGAAAAATTAGAAGACTTCTCGAAAAAACTTCAAGAGGTGACAAATGATGTTTAAAAAATTTTTTCTACTCTTTTTTATATCAATATTTAGTTTTTTAACTATCTTTGCATATAACGTTGAAATAAATTCAATAAAAAATAGTTATGTATACATTGATAATGTATACAATACCAAATCTGATACTGGAAAAAACATCTTAAATTTAAATGGACATCATACCTTAAAGATAATTAAAGATGGTTATACTGATTTTATTAAAGATTTAGATATAAATAAAGATCTAAAAATAAATGCATATCAAATCCCATTATCAAATATTTTGATAAATTCTAACCTTTCTAAAATTAATATTTGGTATAATTGGAATAATGAAAAAAAAGAAGTTATATTAAATTCTGGAGAAAGTTTAAAAGTACCTTATACTATTAAAAAAATTTATATTGCTAAAAAAGGCTACAATGAAAAAGAAATAAATATAGAACTCAAACCATTTTCATCAACTGTATTAAACATACATTTAAACTCTTTACAAAAATGTTTAATAAAAACAACTCCTTCAAATGTAAAAGTTTATTCAAATGGTACTTATATAGGAACTACTCCAATAGAATTAGATAAAAATTATAAAAACTTAATATTGAAAAAAGAGGAATATGTTGATTATTCAATAGATGAATTATTAAATTCAGAATACAACATTAATTTAAAAAAAGGAAAAAAATTATCCATTAATTCAAATATTTCTGATGCTATTGTAATTATTAATAAAAAATACACTGGTACAACACCTTTTTCAAAAACACTCCCAGTTGATAATTATTTTATTGAAGTAAAAAAATTAGGATATGATTCAAAGTATTTAAATGTGGATTTATCAAATAATTTAAACTTATCAATAAATCTTAAAAAATCTTTGAAAAAAATAACTTTATTAAATACAGAAAATTATGAATTTAATATTGATGGTAAAACAATTAAAGGATTAAACGAAATTTTATTTGACAATAAAAATCATTTATTGAAAATAAAAAACGGAGATTCTATATATTCAATTTTAATAGATGAAAAAACACCTGAAGTATTAGACTTCAATAAAGTTGGTGTTTTAAATGTTTTTTCAATAAAAAACGACTTTGCTAAAGTATTTGATAAAATAAAAAACTTACCTACTCAATTTTTTATAAATATGATTTCAGAAAGATCTACAGTAACTTTAAAAACCACTCAAAATTACTATAATTTAATAATAAATAAAGGAAAATATGGAAATATTTTTACAGAAAAAAATATTGGAGGTATTTTTGTTTCTTCAAATATAAACAATACTTCTTATTATTTAGATGGAGAATATATTGGAACAAACCCATTTATGTATGGACTAAAAGCTGGGACTCATGAAATCGAAGCAAAAAATGGAAATAAAATAAAAAAAGAACAGTTAAATATTAAAAATAATAATGTTTATTATACAAACTTTATTTTTGATGAAAAAGTTCCTGTTAGACTTTATACAAGTAAAAAAATTAAAATAAATAATATAGAAATAAATAAAACACCTTATTATTTTTATTTAAATAAAGGTGCAAATTATATTGAAGTAAACAATAAAAAGATAGTAGTTTTTATATATGGTCCACAATCAATAAACATAGATGACATACTGTGATGGAGGTGTAATGATGAAACGTAATGTTTTAATACTAACTATTGTTTTAATTTCTATTTTTATATTTTCAGAACCAACGATAAAGGATTTAAAACCTTCATCACCAACGTATCCTCATGTAATAAGAATGATTGAAAATCAAATAATGACTGTAGATAATCAAGCAAGATTTAATGGTGCAAATCCTATAATTAAATATGATTTAGCTGTTTTTGGTTCAAAATTTTTAGATTACTTCAAAGGAAAGTATGGAGTAAAGATAAAAGAGTTTGAAGATAGATTATCTATTTTAGAGAATATGAATTTAGATAAAAGAATAAGTACATTAGAAACATCATTTTATAATTATTCAGAAAAATCTATTTTAATTGAAAATAATATAGATGAAATAAATAAAAAAATAAATGATATATTAATGGTAATAGATCCAAGCAGTAGTATAAATTCAAATAATGCTGTATTTACTGAAATTGAAAACAAAGCCCAAAAAATCGCTCAAAAAGTTGCTTTAGAAGAATTAAAAAGAGTAAGCGATACAACTTTAGCAACAGTTAATGAATTTTCTGATAGGCTTTCAAAATTTGAACAAAGTGTTCAAGATTTAAATAACAAATATGATAAATCAATAGAGTACTTAAACACTATAATAGTTTCAAATGAAGAAAAAAGTAGAAATGAATTAAAAAATTATGTAAATCAAAAATTAAATATAGAAATAGATGCTTTAAAAGCATCCATGAGAAATATTGCTAATTCAGAAGTTGGATATTTAAATGCAACTCTTGATGCAACTTTTTCTAATCTTGATTCAAGAATAAACAAATTAGAAACTAATTCAAATCAAAAAATTGATTCTTATATAAATGGAATAGATTCCAGATTATTGAATTTAGAAGCTAAAATAAATAGTATTGCAAACTTTAATAGCGAAAATATAAAAACAAATACAACCGGAGAGATCCTTAAAATAAAAACAGATATAGAAGTTCTTAGAAACACTTTAAATACTCTTGAAACTTCATTGAAAAATTTAAACAATCAAAATGAATATAATAAATCATATATTGATTCTTTTAACTTAAAAGAAGAATATTATACAAAAAAAATAAATGAAATAGAAAAAAAATATGATAACTTGGTATCTAATTTAATATTTCAAAGTAAAAAAGTTGATGGAATTATGTTTGAAATGTCTAAAATATCCACATCAAATAATATAAATATTGATAATAGTTCCTTAAATGAAAGAGTAGCTAGTTTAGAAAGATTTTTTTCAAATTATTCTGATGAAATTAAAAAAGTAGATATTTATTCTAATGATATAGATAAAACACTAAATGAATTTCAAACTATTAAAGATCAATTCAAAGCTAATAATTCAAAAATAGAAAATATAAACAATAGCTTTGATACAATTAATACTAAAATAGACAGCTTATCAAAAATTTTAAATATTGATTCTCAAAAATTAAAAGATATTAAAAATTTATATGATGTAAATGAAAAAATATTAAATAATCAAAACATCATTGAAAACCTCAATAAAAAATCTTCAAACAATGAAATGAGTATTATAGATCTCTCTCAAAGGTTAAAAACTATTGAAAATGAAATAAATTCTTTTAATGTTAATACTGGAAAAATGGATGAATTAAATAAATCCTATGGAGAATTACTTCAAGAATATTATAAAATAAAATCAAATGTAATTTTTAGTATTAATCCAGATAAAATGAAAGATGAAATAACATCAACAGTTGAAAATAAAATAGCAATAGAATTAGCAAATAATAATCAAAAAATAATGGATTTATCAAAAAAAATAGAAACATTGTCTACTAATTCTAATAATTCAGAAGAACTAACTTATAATAAAAAAATAGAAGATAACAAAAGTAAGTTAAATAAATTAGAAGAAGAAATAAAAATGTTAAAAAAACCTCAAGAAGTTTCTTTTATATCTTCTTTAACAAGTGGTTTAATTGGTGTAGGTGTTGGAGCAGCAATAACTTGGATTTTACTTTCATCTGGATTGTGAGGTTATTATTATGAGATATGGACTTGCTTTAGGTAGTGGTGGCATACGTGGAGTAGCTCATCCAGCATTAATTGAACGACTTATGAATAAAAGGAATATCAATTTTGATGTTGTTACTGGATGTAGTGCAGGTGCAGTAACTGCTGCATTATTTGCTCTTGAAGGACCTAATAAAATAATGAATAAATTTGAAATAGTTATGAATAAGTATAGTAAAAAACTTGATGAATTGAGTAAAGATTTATCTTCAAAAATAAATATTTTTGCAAAATTACTTGCATCAAAAGGTATAGCAAAAAATGATATTGTTTATGATTTTTTAACTGATTTATATGGAAATAAAAAATTTTCTGATTGTAAAATAAAATTAGGAGTAGTTTCAGTAGATATAAATTCTGGAAAGTTACAAGAAATAACAGAAGGATATATTGTTGATGCTGTCATGGCATCATCAAATGTTCCTGGAGCATTTGTTCCTCAACGTTTAGGAGGAATGAACTTAATAGATGGTGGTGTATTAAATGAAGTTCCTGTTGAATTAGCAAGAAAATTAGGAGCAGAATATGTTATAGCTAATCATGTTTCTCCTATTGAATTAAGAACTAAATTTAAAGATGGAATGGATTATATGAGTTATATTGATAACTTTAAAATAGATAGAATAACTAAAAATTCTTTAAAAAAAGCTGATGAATACTATGAATACAAAGGTAAATACATGTGGTTTGAATTCAATAAATATATGAAAGTTTATGAAGAGGGAAAAGAATTGTATGGTGATATAAAATGAATATAGCTATTGGAGATTTATTAGAAGGATTGTACTGGAATTCTGGAGTACTTGAAGGTTTAATAAAATCAAAAAAATCTTTTAACTTATATACAAGTGGAACAGGAAGTTTAATAGGTATATTTTATGGAATGTATGGCGAAACTTTTTTTGGAAGATTAAAAACCTTTTTATTGGAAAAAGAAAACCATTTAAAAAAAATTTTTAACATAAATAAAATATATTCAAACAGATACTCACAAGCCTCTATGTTATTAAAACTCGGTGGTGGGAAATTAGAACTTTATAATCAAAAAGATTTAAAAACATATTTAAATTCCTATTTTAAAGATTTAAAAATAAAAGATTTGAAAAACAAAGTAAACTTTGAAGTATTTAATATAAAAACTGGAAAAAGCTGTTATTTAAAAGAAGAAACAAAACTATCTGATGTATTGTTAATGGAATTAGCAATATCACCATTCTATAAATATTATGAATATAATGATGGATTTTATATTGCTTCATCAAAATTGGGATTTGTGCCAATAGATGTTCCAAATGATACCCTTTACACATCTTATGAATATAAAATATGTCTTGAAAATCCAAAAAATGCATCTGAAATTCTTTTAAAATCATCTTTTTTATTGGCTAAAAAAAATTTTGAAATAATAACAGAAAATCACAACACCATTATACCTTTCAAAGTATCTGAGAATCCTTTCAATATACAAACTTTTTTTGATGGTGTTAAAGCTATTCAAAATTATTTGGAGGAGAATAAATGAAGAAACTTTATATTATTTTATTTATATTAATTACTTTAAGTACTTTTTCAGGAACATTTAGAGTTAAAGCAGAAAATATGTTTGGAAGTGATAAATATTATGTTTTAAAAGGAAATGCTGAAATAAAAAAAGATAATATAACTATAAATACAAATGAAGCAACTATATCATTAGTCGATGATGATTGGAGAAATTTAGAAAGTTTAAATACAAAAATAAAAACTGACACCTTCGAAGCTTCTTCTAATAAAATAAAGTTTGATATGAAAACAGAAAAAGGTGTGCTAAATGGAAAAGTTATAACCATAATAAAAGTTGATGATTCAAGTTTATCAATATACTGTGATAGTATGAATATTGATAATAAAAACAAAAAATATAGTGGTATCTCCGACACTTTAATAGAAATATACAAAGATGATTATATTATAAAAACTAAAAAATTTGAATATAATGAAACTTCAAAAAAATTAATTTTAACTGGAGATGTAAATATAAAAAATGATGTAAAAAAAATGTCTATGAAATCTCAAAAAGCTATATTTAATACTGATACAAATGAAGTTACTGGAGAAAATGTATCTATAACTTTGAAAATAAAAGATGAAGAAAAAAATAATACACAAGATACTAAATAAATTTATTAAATACCACTTAAAGGAGGAAAAATATGTTAGATATAAAATATGTTAGAAATAATTATGAAGAAATAAAAGATATTTTAATAAAAAGAAATGCTGATACTAAATTATTGGATGAATTAATACCTTTAGATGAAAAAAGAAGAAACTTATTGAAAAAAGTAGAAGTCTTAAGGGCTGAAAGAAATAACAACTCAAAGAAGGTTTCAAAATTAAAAAAAGAAGGAAAAAATGAAGAAGCAAATAAAATAATAGTAAATGGGAAAAAAATAGGAGAAGACATAAAAAAAATAGAAGAAGAAATGAAAGAAATAGATGAAAAGTATATGCAAAAATTATTATACATACCAAATATTTTCGAAAAAGATACACCAATTGGTAAAGATGATAATGATAATATAGAGCTTAGAAAGTGGGGAGAACCCAGAAAATTTAAGTTTGAACCAAAACCTCATTGGGATCTTGGCACAAACTTAAATTTAATAGATTTTGATAGAGCCGCTAAATTAAGTGGATCAAGATTTGCTGTTTTAAAAGGACAAATAGCAAAACTTGAAAGAGCATTGATAAACTTCATGTTGAACTTACACACAATTGAACACGGATATACAGAAGTACTTCCACCATTTATGGTTACAAGAGAAACAATAACTGCAACGGGTCAATTGCCAAAATTTGAAGAAGATTTATACAATACAAAACCGGATGATATGTTTTTAATACCAACAGCTGAAGTAACACTTGTTGGACTCAGAAGAAATGAAGTAATTGAAAATAAAGACTTACCTGCAAAATATGTAGCTTACACTCCTTGCTTTAGAAGAGAAGCTGGAAGTTACGGAAGAGATGTTAGAGGAATAATAAGACAACATCAATTTGATAAAGTTGAACTTGTATGGCATACAAAACCAGAAACATCTGAACAAGATTTAGAAACTTTAACTTCACAAGCTGAAAAGGTATTACAATTATTAAAATTACCTTATAGAGTAGTTAGATTGTGTAGTGGCGACTTAGGATTTTCTGCAATGAAAACATACGATATAGAAGTTTGGCTTCCAAGTTATAATTCATACAAAGAAATATCTTCTTGTTCAACAACAGGAGACTTTCAAGCGAGAAGAGCTAATATAAAGTTTAGAGACAAAGATAATAAATTAAAATATGTTCATACATTAAATGGCTCTGGTTTAGCAGTTGGAAGAACTCTTGTTGCAATAATGGAAAATTATCAACTTGAAGATGGTAGAATAGAAGTTCCAGAAGTATTAAGACCATTTATGGGAATGGATGTTATAGGCTGATGCCAAATGCTTTTTATGGAAAATTAAAGAACAATAGTATTTATTTAGATAAAAATGAAACTTCTCATTTAAAGATCGTAAGAAAAAACATTGGAGATACAATAGATGTTTTTACTGGAGACGGAAATATTTATAATTGTATTATTGAAAGTATTAAAAAAAAGGAAAGTATCTTAAGTATAATAAATACTATAAAATTTAAGAAAGAATTTAATCCTAATATAAATTTATATGTTGGAATGAGTAAATGGGAAAAAATGCGTGAAATTATAGAAAAAGCTGTAGAATTAAGAGTAAATTCAATAAATATTTTTAAAGGTAAAAAATCTCAATTGAGCTATAAAAATATTGAAAAATTTAAAAAAATAATAATAGAAGCTTGTAAACAGAGTTACTTACCACTTTTTCCAAACTTAAATTTTATTGAATTTCAAGAAATTCCAATAATCGACTCTATTGTATTTGATTTTAATAATACTTATGACTTTAAAAGTGAAATAAAAAAAATTAATAAAAGTATTAATCTTATATTTGGACCAGATATGGGATTTTCAAATGAAGAAAAACAGTTTTTTTCTGAAAAAAACTTTAAAATAACAAATCTTGGAAATACTGTTTTTAGAATAGAAACAGCAGTTACTTATGTTTTAAGTACTATAAACTATGAATTTAATAGATTAAACCCAATAAAATGACGAATTTATTCGTCATTTTATTTATTTTTATATTAAATTTGGACAAATTATCTTTAAAATAGTATAATACTTTAGAATGATTATTTTAAAACTTATTCTTTTATTCTTTGCTACTCGTTTTTTTAGGAAAAAAAGTCTTTATATGGAAATATAAACTGTAAGGAGGTTTAAAATGGCTGAAAAGAAAAAAGGTGGAATTAAAACTATAATAATATTTTTTATAATAGGTCTTGTTGTTGCAGTTGCATTACTTTTTGTAGGATACATATCATTTGAATTCAATAGATTATCTTATATGAACCTTAATTTAAAATCTGATTGGAGAAGTTATTTAGCTTATTTAACTAAAGATATTCCTTATGTAAATAAAATGGTAAAATACGAATATCTTAAAGTTGGAGATCCAATATTATTGCAAACAAAACTAATAGAAGAAAAACAAAAAGCTATTGAAGATGAAAAAAAGAAACTCGAAGCTCAAAAAAAAGAAATGCAAAAGTTACTTGAAAAAATTACTAAAGATTCAAGTGATTTAATTTTAAAAAAAGAAGAAGTTCAAAAATTAAGTTCTGAATATGAAAAAAAAATAAATGATTATAACAATTACAACAATAGAGTAAAAAAAATTGCAGAATGGCTATCCTCATCAACTCCTTCAAAAATAATTAAAGCATTACAGCAAAGTCAAGTAAAAATAGATTTAATAGTTGATGCATTGTATATTTTACAACCAAGCATAGTTGGAGAACTTTTAGATGCGATGTCTGAAGTTAATCCAGATAAAGCAGCACAAATAATCTCTAAACTAGGAGAAAAAGGAAGTGGAAGTAGTGGAAACTAGCTTATTAATAAAAAATATTCCTATTCCAAAAGAAAATATTAAAGCTATTAAAAATAATGAAAAAAAAGATGATTTTAATAAAGTTTTAAATAAAACAAAATCTAACAAAAAAATTGTAAACCATCATATTCCTAAAAAAAATAAACCTTACGAAGAAGATGCCATAAAAACACCTGTTTTATTAAAAAAAATTATTATTCCTAAAAAATCAAAAATTACTTTAATAGATGAAGAATCTAAAAACATTCTTAAAACAACAAAAAAACAAAATAAAAATGGTACTATTACTTCAATAACAAAAGAAATAAATGAAATTTTAAAAGCTATCAATGATACTCTTAATTTAAAAATAACAAAAAAATCTATGATCAAAAAATTAAAAAAATTATTTCCAAACAAAGATATTTCTTTAAAAAAAATCGTTGAAAAAAATGGTTCAATATCAAATTTAATAGAAGTTTCAGATAAAAATAAAAAAATATTAATTCCTATCAATAAAAAAGAAAACTTAAAAAATATTGAAAAAAAATTTATATTAATAAAACATCTTCCAATAGCTAAATCTAAAAATAATAAAAAAATAAGTCCAACAAACAATATTTTAACTAACACTAAAAAACTTAAAAATAATAATTTAAAAGAAAAAACTTCAATAAAAGAAGTAAAAGATAAATTTAAAATAAAAAATAATTCAGAAAAAAACACAATTTACTTTGTAATACCAAAAGACTTAACTCAAAATAATTCATTAAATAAAGCCTTAAATATAGATATTTCAAAAGGAAAAAATATTCCAAATAATTTTATCACTAACAAAAAAATACAAATACAAAAAAATACAAATTTAAAAAAAATATTTTTAAAAATTTCTAAAAATACTAACTTTAATAAACAAAAAAAATTAAAAAACGAAACTACTTTAAACTTTATTAAAAATGATTTATTAAAAAACAATAGTTTTAATTCAAGTATTTTAACCTTGAAAAATTACAAATTTAAATCTTTAGAAACTCCAAAAAGATCTATAGAAAAAGATTTAAAAACAAACAATTTAAAAATTGATACTTTAAATTTTAACAATTCAAATATTAATAAAAAAAATATTAAACTTTCAAACCTCAATAATGTAAACTCACACAATAAGAAAATATCATCTAACGAAAATATAAAAATAAAAAAAATGCCTTTGAGCATTAACAAATTTAAAATAAAACATGAAATACCTCAAATTAACCTTAATTTAAGTAAATCTAATAATAAAATATCTAATGAAAATATTAAAATTTTACCAAAACAACCTATTCAAAACATACCTCTTGAAAAATTTAATACAAAAGTAGAAGAAGTATTAAATAAAAATATAACTCAAAACATGCTAAAAGAAAGTATTTCAATGAAAATAACTCCACCAGAAATTGGAAAAATAAATGTTGAAATAATAAAAAATGGAAAAGCAGTTACAATAAACATATTAACAGAAACAGAAAATGCAAAAAACACATTATCAAAAACACTTCATTCTTTAGTTGGAAACTTAAGAGACAACGGTTATAATCCTGTAACTGTAAAAGTTGATTCACAACAAAAAGAAGATTTAATGCAACAAGAAAAAGATGATCAACAAAATCAACAAGAACAAAAGAAAAGAGAAGAAAAAGAAAAAACCAATACATTCGAATCATTATTAAGAGGTGAAGAAAATGCTTGATGAAATGAATGGAATATATATGGGAACACTTCAAGCTCAAAGAAGTAAAGCTCCAAAAAAAAGTTTGGATAAAGAAGCATTTTTGCAATTATTAGTTACTCAATTACAAAATCAAGATCCTACAAATTCAATGGATACAAAAGATATGTTGGCTCAAATGTCACAACTTTCAACAACTGAACAAATAATGAATATGAGCACTTCTTTTCAAAACATGATAGATTCTCAAATGAATATGAATAAAATGCAAGCTGCTTCAATTGTTGGAAAAAATGTTGTTGTTGAAAATAATGAAGTAAATCTTATCGATGGAAAATCAGAAAATATATATTTTAAAGTTGATGAAGAATCACCAATAGTAGTTGAAATTTACGATTCCAACGGTAAAGTTGTTAAAAGAGAAGACATGGGAATAAAATCTGCAGGAGGCTATCCTTATTTGTGGGATGGAAAAGATAATAATGGTGTTTCCATGGCAGATGGGAGCTACAAAATAAAAGTTTTTTCATATTTAAATGGTCAAAAAACTGAAATATCTCCTATCGATGGTGGAAAAGCTCAAGCAGTTCAATTTTTAGACAATAAATATTATGTAATAGTAAACAACAAAAAGTATCCAATAAGTTCAATAAAAGAAATAAGTGAAGATGCATAAGGAGGTAATTTTGAAATGATGAGAGCAATGTACTCTGGTATAACTGGATTGAAAAATTTTCAAACTGAAATGGATATAGTTGGAAATAATATTGCTAATGTAAATACAACAGGATTTAAAGCTTCAAGAATAACCTTTCAAACTACTCTTTTACAAACACTAAAAGCAGGAAAAGCTTCAGAAGGTGCTTTGGGTGGAACAAACCCTATACAAATAGGACTTGGTTCAAAAATATCTTCTGTTGATAAGGTTATGAGTCAAGGATCTTTTCAAAATACAGGGAAAAAAACTGATTTAGCAATACAAGGCGATGGCTTTTTTGTTTTATCTGACGGAGAAGCAAATTATTTTACAAGAGCTGGTAATTTTACTCTTGATAAAACTGGTTACCTTGTAAATCCCGCTTCTGGATTTAAACTTCAAGGTTGGAGTGCAAAACTTTCAAATACTGGTCAAAGATATGTTGATACTAATGATCCAATAGGAGATGTTAAAATATCAACAGGACTTGTAATGCCTGCAAAGCAAACATCTGCAATAACATTAGCACATAATTTAAATACAGATGTTGGACTTCAAGAAACAACTATGGAAATAACTTCAAAACTTGGTACAAAGTTGCCAGTAAAAATGACCTTTAGTAGAGATATGAAATCAGAATATAGAGATAGATATGTTTATAAATGGAATGCAAAACTTGTTGAACCTGGTGATAAAATGAAATTTTTAGATGAAGCTAGTGGTAAATCTGACTTAGATGAATTAAATGGATATCTTGAACTCGATGAATCTGGAAATGTTATAAATTGGGTAACTTATAAAGGAGATACTACAAATGCAGCTACAGATACAAAATTTAAAATATTAGATGTTGGTGGAGATTTAAAAACATCAACAGGTGCAGATGTAACATTAACTACTACTAAAAGTGGTGGTGGTGCAGGATCTGGTGCAACTTTTTCGGGAAATATTAAAGTAACAAAATCTGACGGTTCAGAAGTTTATTATAATCCAGCAGATATAAAGATGGATTGGAATGGAACAGATTATAAGATAACTTTATCAGATGTTGAAGGTACTAATGTTGTTTTTGACTACACTCCAGCTGATTCTAAAATATCAACTTTAAATTCAGACTTTGGATCGACTAAATTTGCACTTGCAAATAAATATTCAATTCCAACATCTAATGGTAGTGTTACTTTAGATGGTACAAAAATAACTGCAAAAGATTCATCAGATATCGATGTTACCAATAAAATTTCGGATTTTAATTTATCTTATAATAGCGCTTCTAAAACAGTTACAATAAATGCAACTATCGATGGAAAACAATTGACCTTTACAAATACAGATACAAATCCTATTGAAAACCCTAATGATTTAGCTACCACATTTTCATCAGGAGGTTATACTATAGATTTAAGTTCCGCATTATCTGGAACAGATTCTTTAAATGATTTTTCTATTAATGGTTATAATCTATCTGGATTTAGTTTATCAGGTGAAAATTCTGATACAGTAGACAATTTTTCTGGAACGTATTATTCGGTTAGAGAAGTAATTCAACCACCATCTGGCGGAAATATAAAATTAGTTGATGTTTCAAATCCTCAAAATTTTGCTGTTGTAGATTATTCTAATCCAACAGTTTCAACATCAACTTTAGTATATGATGCCCTAGGAAAAGACTATAATGTTTATACAAAATTTACTAAAATAGATACAAATACATGGTATTGGAAAGCAGAACTCGCAGATGGTACACCGCTTTATAAATTAAACTCTGATGGAACACGCGACACATCTGGTGCAATCGCTGAAGGTGTAATTGCATTTGATGGAAATGGTTCTATAGCTGCAACTAAATGGAGAATAAAAGATGATGGTAGTATAGATACAAATATTACAGATGCTACAAATGGTTCTGCTGGTTTTTGGTTTGATCCATCTCAAACTGGAGCTGCTTTAAATCCAACAGTTACTCCATCATCTACTGCTGGTGCTGGACCTGTTAATGTTGAAATAAAATTCAATGAAATAACTCAATTTTCATCTCCACACTCTATTCAAGTAACTGATCAAGATGGAAATGCTCAAGGGACTCTTGATGCATTTGCAATAAATGAAGTTGGAGATATTGTTGGAACTTTTACAAATGGTAGAACTGATAAATTAGGAAAGGTTTCTCTTGGTGTATTCAATAATCCAGCAGGTTTATTAGAAATAGGTAATTCAATGTATGCACAAAGTTCTAACAGCGGGCTTGCACAAATTGGAGTTGCTGGGGTTGGTGGAAGAGGAACTTTAATACCTGGAGCACTTGAAATGTCGAATGTTGATCTTGCAGAAGAATTTACAAATATGATAGTTGCTCAAAGGGGATTTCAAGCTACTTCAAGAATAATAACTACTTCTGATGCAATTCTTAATGAACTTGTAAACATGAAAAGATAATATGAGGCGATAATATGATAGAACTAAGCAAATTAAACAATATAAAGTTTATAATAAACTGTGAACAAATTGAAAAAATAGAAAGTCGCCCTGATACTACTATTACAATGATGAATGGACATTTTTATGTTGTAAAGGAAAGTATTGAAGAAGTTATAGAAAAAGTGATAAAATATAAGAGAAGCTTTTATTTGCAAAAGGGGGACTAATAAGTGGATATTTCAAGTTTGGCGGGAATTGTATTGGCCTTAGTTGCTTTCATGCTTGGTGTTGGTGCAAACATTGGAGATATGATAGATCCAACTTCTATATTTATTACCGTTGTTGGATCAATAGGAGCTACTCTAATAGCACATCCTAAAGACAAATCATTTAAAATTGTTAATATAATGATGTCTGCTATTAAAAATCCAACGATTGATAATCTTGGTACACTTAGAACATTGTACTCTTTTGCTGAAAAAGCAAGACGTGATGGTATGATTGCACTCGAAGAAGATATACCAAGTATAGATGATGAATTTATAAAAGATGGATTACGTGCAGCAGTTGATGGAACAGATCCTGAAGAAATTAGAAAAATATTAGAAATAAAAATGGAATTATTTGAAGAAGATGACGGTGCGAATGCTGCTGTCTTGGATAGTTGGGGTGCTTTTGCTCCTGCTTTTGGAATGATTGGTACATTAGTTGGTCTCGTTTTACTTTTAAAAACATTAAACGATCCAACGACACTTGGTCCAAAAATGTCAGTTGCTTTAATTACAACACTTTATGGTGCTTTAGTTGCAAATATATTTGCTTTACCTATGGCAGAAAAATTAAAAAAAAGAACTTCAAAATTTGTAAATCAAAAAAGAATGTCAATGGAAGGAATACTTTCAATAGTACAAGGTGAAAATCCAAGATTAATGGAAGAAAAATTAAAAGCTTTTTTATCAGCTGAAGAAAGAAAGGCTTATGAAGCTGAAAAAGGTGAAAATGCATAATGAGGTGAGACAATGGCTAAAAAACAAGAGTGTCCAGCTGGTTCACCTGCATGGATGGCTACTTTTAGTGATATGAACCAACTTTTAATGACTTTTTTTATTGCTTTATTTGCAATGTCAAGTATTTCACCTGGTAAGTTTCAACAAATGGCTCAAAGTTTTAATAATGTTTTTGAAGGAAAACCTATAGGCGTTTTAGTTGGAGGTAAATCAATACAAGATGAACCTTTAATAACAGAAAATAATGGTGTCAAACAAGATTTAATGAAAATAATAAACGATGAAAGATTTAAGGGAAAAATAACTATAAAAGAAACTGATAGAGGAACTATAATTTCATTAAAAGATATGTCATATTTTAAACAAGGAAGTGCTGAATTAACTGCATTAGCTAAGAGTATTCTTGCAGAAATAGGAACTATAATAATTGAACATACAACTAATGAAATAGAAATATATGGTTTTACTGATGATAGCGCAGTTACTCCTAATAATATATATCCATCTAACTGGCATTTAGGTGCTGCGAGAGCAGCAAGTGTTGCTTATTTCTTTACCAATGAATTAAAAAAAAGAAGAATGTTAGAAAGAATAGGAGAAGTTAAAACAGGAAATTTTGATATAGATTATTTTTATAATCCAGATAGATTTTTTCCTATTTCAGTTGGAGATAGAGATATAAAAAAAGAAATAACAAATCTAAAATCAGAATTAGAATCTCAAAAGAGTATTTATACAACAAAATTTCAAACAGGAGAAATAACTGCTGTTGATTTAAAAGAAAAAGAAAAAGAATTAAATAAAAACTATGAAAATGAATTAGAAAGATTAAGAAAGATTTATAGAAGAATAGATATTTTAATCTTAAGACAAAGAATAAGATAATGGAGGTATAAAAATATGGCTGATGAAGAACAAAAATTGCCAGAACAAAAAGAAAAGAAACCATTGAATCCTATTTTATTAATAATAATTGGTGCTGTTTTGATGTTAATAATAGCTGGAGGTGTTTCTTTTTTTATGGTAAAACTCCTTGGAAGCAATATACCATCTCAAGAAAATAAAGCCAACACATCTACTTTAAGGGCTCCAGTTATTTCAAAAGCCGAATTAATAAAAGATGGTTCAAGAGAACCAGTTATGTTAAAAGGCGGTAGAGAAGTTGCCGTAATCAGTGCACTTGAATTTAAAGTAGGAAGCGAAGAATGTGGTAGTACTATAGGTGCTAATAAAGTTGAAATAAAAGATGCTATAAGAATGTTATTTTTAAATAAAACAAGAGCCGAAGTAACCACCCAACAAGGCATGGAGCTATTAAGAAAACAAATAAAAGATGCTGTTAATGAAATAACTGGTTATACTGGTGAAAGAGAAAATTTAGGAGTTAGAAGTGTAAACATTATTATAATGACAATTCAGCAACAATAAACGAGGTGTTACTATGGCTGATACTTTATCTCAAGAAGAAATAGATCAACTTTTAAATTCTATTGGTGATGAAGAACAAACAGATGGAGAGTCCGTTCAACCAATAATAGAAGAAAAAAAAGTAAGAGAATATAATTTTAGAAGACCTACAAAATTTTCACGTGAACAGTCGAGAACATTACAATTAATCCATGAAAATTTTGCAAGGGAACTTTCTACTTATTTATCTGGAAGATGTAGAACTTATGTTGAAGTTAGATATGCAAGTTTGGATCAAATAACTTTCTCTGAATTTCAACAATCTTTAACTTCTCCAACATATATTTCAATTTTTTCTACTGATGTTTTGAGCGGAAATTCAATTTTACAAATAGGTTTAGATGTTGGATATGTAATTATTGATACATTACTTGGTGGACCTGGAACAGCCATTGATGAACTTAGAGCTCCAACAGAAATAGAAACTTCAATTTTGAGAAAAGAATCAAATGTAATGTTAAGATCTCTTTCCAAATCTTGGTCAATAATAGCAGATTTTGATATATCTCTTGAAAAAGTTGAAACTAATCCGCAATTTGTTCAAATAGCTCCACCAAATGAAATGATTGTACTTATAACGCTTTCTATAACAATTAAAGATACTCAGGGATTTATAAATTTATGTTTTCCATCATCAACTTTAGAACCTATAAGCGATAAACTTTCAACAAGAATGTGGCAACAAGTCTTTAAAAAATCAGAAATGTCTCATAAAAATTTAGAAAATTTATTAATGCTTTCAAAATTAAAACTTTCAGCTGTTTTGGGTAAATCCAAATTATATTTAAACGATATTTTAAATTTAAGTATAGGCGATGTCATAAGATTGGATTCTTTTTATGAAGATCCAATAGATTTAAATGTACAAAATACTCCTATATTCAAGGTGAAAGTTGGTACAAATAAGGGATTTTATGCTGTTAAAATTGAAGAAGAAAATGAAGCTTTATTAGAAAAAATTATCATAGAAAAAAATATAAAAGAAGCTACAAATAATAAAAACAATAAAAAAACTGACGGTGGTGTAGAAAATGTTGGGTGATGAATTTTTAAGTCAGGAAGAACTTGATTCTTTATTAAACGGATTAAATGAAGAACCATCTATAGATAATTCCTTATTAGATATGATGGGTGAAGTTGGAAATATCTCAATGGGTGCTGGTGCAACTACCATGTCTACTCTATTGAGAAGAAAAGTTAATATAACATCACCTGAAACAAGTCTTGTAAAATTTAAAGATATAAAAGAAAAATTTAATGGGAATCAATTAGTTATTACAATACAGTATAAAAAAGGATTAGAAGGATTAAATTCATTTGTTTTACCTGAGAATGTAGCCTTAATAATTGCAAATTTAATGATGGGTGGCGACGGAAATATTGATGAAACTCAATCATTGGACGAAATTAGTATGAGTGCTGTTGGTGAAGCAATGAATCAAATGATGGGATCTTCTTCAACTGCCATATCAGAATTTATTAAAACACCAGTTGATATTTCTCCTCCAGAAGTTGGAATTATAGATTTTTCAAATAAAGATACTCAATTTCCACCTATTGAGAGTGATGCTGATGCTGATATAATATCTGTAAAATTTAATATGGACATTGAAGGATTATCTAGCACAACATTTTGGCAATTTATTCCAGCAAAATTTGCAAAACATATTGAAGAATTAATGAAAAAAGTTATGGCTGGAGATGATTCTGAACAATCTACTCAGCAACCCGTTCAACAACAGCCTGTTCAACAAACACAACAACCTATGCAACAACCTATGCAACAACCTATGCAACAACCTATGCAACAAATGCAGCAGCCTTCAGGATTTAGTCAAAATGTAATACAACAAGGGAGTGGAGTAAATGTGAATCCCGTTAATTTTGGAGCAATTTCAGGAAATCAAACTATACCAAATGAAAATGTTGATATGTCAAAATTACAACTTCTATTAGATGTTCCACTAGAAGTTACTGTTGAACTCGGAAATACTTCTATGAGTTTAAGAGAAGTACTACAATTACATCAAGGATCAATGCTTCAATTAGATAAGCTTGCAGGTGAACCTTTAGATATATATGCAAATGGAAAACTAATAGCTCGTGGTGAAGTTGTTGTTATTGAAGAAAGTTTTGGTGTTAGAATAACAGAAATAGTATCTTTAGATGAGAGGTTAAGATCTTTAAAATGATGAAAAAATTGTTATTATTATTATTTTTAATTATCATTTTAATACATGGTTTTTCCATAAATTATTTTGAAAAATACATATCCAGTTTTACGTCTTTAAAAAATTTTTCTATAAAAATAAAAATTGATTTTGAAATAACTGATAAAAAAAATATTTTAACAACAATGAGCGTTATAAATAATAGATTTTATATATTTAATGTAAAAAAGCCGGAGTTATTCTCCGGCATTGTTTACGTATATGATTTGTATACTAATAACTTGTATACAAAAGTAAAAAATAGTTATGATTTTTCATCTGATTTAAATTTATTTACTTCAGAAATTCCAAATATAATGAACATACTAACTTCAATATTTGAACCAACAAAATTTAAAGAAAGTACTATAAAAATTAGAAATTCATTAATAAGTATATATGAACCAAAAGATAAAATTGCTTTAAAACTTTTTCTAGGAATAGACTATGCAAAGTTTAAAGTTTATTTAAAAAATCCAATGAATGATATATATTTTTTTGATAGATTTGAAATTTTAAACTCAACTGAAAAGCAAAAAGCAATAATAACAATTTCACAAATAACTCAATTGAATGATAAAGAAGCAAGCAATATTTTAAATAATTATCTTCCTTGAACTATTTCAGATAACACATAATCATAATATAAATTTTTTAAATTTCTATTTTTTTTATAACTATTCAAATATTCTATTTGATTTTTTATCAACTTTATATCTCCTGGTATACCATGTCCTGGAGATATTTTATTTATATTCATAGTTTGCAATCTTTTTAATATTTTTATCCATAAATCTATATTTTCATTTAAAAATTCCGTATGAACTCTAGAAAACACTAAATCCCCACTTATTAAATAATTTAAAGGTTTTAACATATATATGGTTGAATCATTTGTATGACCACCAACATTTTTTCCAGATATAATAGTATCTTCAATAACTTTAAAAAAAGTATCTTCAAAAATTTCAATATTTTTTAAGTTTAATTTATTTTTTATATTTGTACAATTATATCCAGAAATTTCTGAAACATCTTCTAAATACTTTGAAGTTAAATTATTTAAATTAGAAAATGTCTTTATATTCATTATTATTTCAAAATTTTTTTTAGAAGTCAAACAGCCAAATGAATGATCTGGATGAAAGTGAGTTATAAAAACTTTTTTTAATTTTTTTGAAGTTTTTTCTTCCATTATGTTAGTCATTTCATCAAACTTAGAACCATAAAAGGAACTATCAAAAGCAATTAATTCATTTTTAGTTTCTAAAAAAGTAACATTACTTGCTCCATTTTCAAACCAAAAAACATGTATATTATTATACTGTTCAAGCATACTAATCTCTCCTTAATAATCTTTTCATTTAATTTTTCTTTTTTTATTAGTAAAATCCTTTTTTTAGTGTTATAATATTAGTAAACAAAGCTAACTATTAAAAAAAATAAAAATTATGGATGGTGATCGATTTGCTATTGAAAGAATTTTATAAAAAAGAGTGGTGGAGATATTTACTTGGTATTTTAGTTTTGTTAGTTGTAGATTATATACAAGTAATTATTCCACAAAAAATTGGACAAATTTTCGATATTTTAAATACTAATTCTAGTATGGATTATCTTAAAATATTGATCTCTTCTATATTATTTTTAGCTTTTGGTTTAGTACTTGGTAGATTTTTATGGAGAATATTTATATTTGGTTCTGCAAGACTTTTTCAATACAAAACAATAGATAAAATGTTTTCAAGAATAATAACATTAGATCAAAATTTTTTTGATAAATGGAGAACTGGAGACTTGATGACAAGATTTACATCTGATACACAAATGGCAAGAAGATTAACTGGGAACGCAGTAATAATGCTAGTAGATACAACTTTTATGACAATTTTAACTATATATAAAATGAATCAAGAGGTTAGCTGGAAGTTAACTTTAGTTTCAATACTTCCTTTACCTTTTATAGCACTTGTTTCTTTAATTTTAGGAAAATTAATACACAAAAAATTTATTGAATTACAAGAAAGTACATCTGATCTATCTAATATAACGGAAGAAAGTATAGCAGGAATGAATGTAATAAAAGTTTTTTCAAATCATAAAACAATACAAAAACTTTTTGAAAAGAAAGCAAAAAGAAATTATGATGCTCAAATAAGCCTTATTAAAGTTTGGGGATTTATGTTTCCAGTAATAATGTTTTTAGGTGCATTGGCCACTATCTTGGTTTTTAGATATGGAGGAGAAATGGTAATAACAAAGCAAATTACATTGGGAAACTTTATAGCAACCAATCAATATGTTGGTATGCTAGTTTGGCCAATGATGGCTTTTGGATGGTTAGTTAATATAATACAAAGAGGAAAAACATCAGTAAAAAGAATAGAAGAAGTATTAGAACAAAAAAGTAGTATAGAAGATCCTAAATATATTTCTAAAAATTTTAATGGAGTTATAAAAATAAAAAATTTAACTTTCAAATATCCAGAAACTGAAAGAAACGTTTTAAAAAATATCTCTTTAGATATAAATTCTGGAGAAATGGTAGCATTTGTTGGAAAAATAGGATCTGGAAAATCAACTTTATCAAAATTAATAACTAAGTTATACAAAGTAAAAAATGATAGTATTTTTATAGATGATGTTGATATAAATAAATTAAATAGTAAGTTTATAAGAGATAATATTGCATACGTACCTCAAGATACCTTTTTATTTTCAATGCCAATAAAAGATAACATAATGTTTTCTAATACAGACTCAAGTAAAAATTATAAAAAGTATACTAAAATTGCAAATGTTCACGAAGATATAAATGCACTCGATAAAGGATATGATACTCAAGTTGGTGAAAGAGGAGTTTCTTTATCTGGTGGTCAAAGACAAAGAGTTACAATAGCAAGAGCTCTTGCAAAAGATTCTAAAATGATCATTTTAGATGATTGTCTATCTGCTGTTGATACAGAAACAGAAGAAAAAATTATAAAAAACCTTAGAGAAGAAATTAAAAATAGAACTATACTCGTAATATCTCATAGATTAAAAGCTGTAAAAGAAGCTGACAAAATATTTGTTTTTGAAGATGGAACAATTATTGAACAGGGAAATCATGAAGAACTTATTAATTTAAATGGAACTTATTATTCCATGTATCAAAAACAACTAATTGAAGAAAAACTAAAGGAGGAATAAAAAGTGGCCTCAAGTTATGAAAATATATTAAAAGAAGAAAATGAAAAAGGATTGAGTGATAGACACACTTTTAAAAAACTCTGGGAATATATTAAAAAGTATAAATTAATTTTAGTAATTGCTTTTGTATCATTATTTTTTTCTACAATAATAGATTTAAATATTCCAAGAATAATAAAATTTGGAATAGATAATGTAATTTCATCAGAAAAAACTTATATAAAAAATAAAGACAATACATTTATAGAAAGTGAAAAAGGAGATTACAAATTAACTTATACAGATAATTCTTATTACTTCATTAAAGATAATACTAAAATCAAAGCTTCTGAAAATCAAGTACAAAAAGATCAAAAAACTAAAATAGATAAATTGAGCTTTTTTACAATAATAGTTCTTTTAATACTAATTCTACAATTATTTACAAATTATGGACAGGTTTATTTTTCAAATTTATTAGGACAAAAGGTTGTTTATGACATACGAAAAAAAATGTTTGAACAAATAAATAAAACAAAGTTTGAATTTTTTACAAAAAATCCTTCTGGAAAAATAACAACAAGAGTAGTAAATGATACACAAAATCTATCAGATTTTTTTACAGATGTAATGACCAGTTTAATAAAGGATATAGCAATAATCGTTGGTGTTATTTACTTTATGTTTGTATATTTAAACGTAAAATTATCTTTATATACAATGATTACATTCCCAATAGTCCTTATATCAATGTTTTTATTTAAAACACTTGATAGAAAAGCCTATAATAAAGTTAGAACAAGAATATCTGCATTGAATTCTTATCTTGCAGAAAATATTTCTGGAAGTTTAGTTACAAAATTATTTAATCAAGAACAAAGAAAAAAAGATGAGTTTCAAAGTATGAATAAAAAATTACATAAAGCAAGAATGCAACAATTACTCATTTATGCTATATTCAGACCTGCAATGAATTTATTATATTACCTAACTATAAGTACAATTTTATGGGTTGGATCTAAAGAAATAAAAAATGATTTTATCTCATTTGGAACGCTTTATGCATTTATAGCTTATATAGATATGTTTTTTAAACCATTATTTGATATTGCAGAAAAATATGATATAATGCAAAATGCCTTTTCATCTGCTGGAAAAATATTCAAAATAATGGATGAAGAAAAAGAAGATATTGGAAAAGGACAAATAAAAACTTTAAAAAATGGAAATATTGAATTTGATAATATTAAATTTTCATACTCTCATGATAATAATTATGTATTAAAAGGAGTAACCTTCAATATTAAAGATAATGAAAGAGTTTCAATAGTTGGTGAAACTGGTTCTGGAAAGTCTACTATAATAAAATTAATGAATGGATTATATAAATTTAATGAAGGCAATATAAAAATAGGTAATGAAAATCTTTATGAATATGATTTAAACTATTTAAGAAAAAAAATAGCTGTTGTTCCTCAAGATGTTTACTTATTTACTGGGAATATAATAGAAAACATCCGCCTCTTCAATGAAAATATATCAATTGAACAAGTTAAATCGGCTGCAAAAATGGTTTATGCTGAAGAAATTATTAAAAAATTTCCAGATGCTTATGAAACAAAAATTTTAGAAAGAGGATCTACATTATCAGCTGGTGAAAAACAATTAATAGCTTTAGCAAGAGCAGTAATCTTTAACTCAAAAATAATTATATTAGATGAAGCAACAGCAAATATAGATGTTGAAACTGAACATTTAATACAAAAAGCCTTAAATGATTTATCAAAAACAACAACTATTGTATCAATTGCACATAGACTTTCAACAGTTAAAAATTCCGAAAGAATAATTGTAATACACAAAGGTTTAGCTGTTGAAGAAGGAACTCACCAAGATTTATTAAATAAAAAAGGTATTTACTATGACTTGTATAGATTGCAATTTGAAAATATTTAA