##gff-version 3
sequence1	MetaGeneAnnotator	CDS	1	978	.	+	0	ID=MGA_1;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVNDILKELKLSLMANKNIDESVYNDYIKTINIHKKGFSDYIVVVKSQFGLLAIKQFRQTIENEIKNILKEPVNISFTYEQEYKKQLEKDELINKDHSDIITKKVKKINENTFENFVIGASNEQAFIAVQTVSKNPGISYNPLFIYGESGMGKTHLLKAAKNYIESNFFDLKVSYMSGDEFARKAVDILQKTHKEIEQFKNEVCQNDVLIIDDVQFLSYKEKTNEIFFTIFNNFIENDKQLFFSSDKSPELLNGFDNRLITRFNMGLSIAIQKLDNKTATAIIKKEIKNQNIKSEVTSEAINFISNYYSDDVRKIKGSVSRLNF;locus_tag=LOCUS_00010;note=WP_039275826.1 chromosomal replication initiator protein DnaA (Mycoplasma mycoides) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:72.2%25%2C Eval:4.5e-172%2C partial hit],internal stop codon at [976:978](+),MGA_1
sequence1	MetaGeneAnnotator	CDS	1177	1353	.	+	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLTKEILNHTLAQIGEEFGGRDHTTVINAERKIETMLKKDKQLKKTVDILKNKILTK;locus_tag=LOCUS_00020;note=WP_039275826.1 chromosomal replication initiator protein DnaA (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:3.0e-26%2C partial hit],internal stop codon at [976:978](+),MGA_2
sequence1	MetaGeneAnnotator	CDS	1512	2639	.	+	0	ID=MGA_3;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166213.1;translation=MNFSINRMILLDNLSKAAKVIDPKNVNPSLAGIYLNVLSDQVHIIATSGILSFKSILNNQNSDLEVKQEGKVLLKPKFVLEMLRRLDDEFVVFSMVEDNELIIKTDNSDFSIGVLNSEDYPLIGFREKGIEFNLNPKEVKKTIYQVFVSMNENNKKLILTGLNLKLNNNQAIFSTTDSFRISQKILEIQSDNNEDIDITIPFKTALELPKLLDNAENLKIIIVEGYITFIIDNVIFQSNLIDGRFPNVQIAFPTKFETIITVKQKSILKVLSRFDLVADDGLPAIVNIKVNEDKIEFKSFISEVGKYEEDFDDFVIEGNKSLSISFNTRFLIDAIKTLSEDRIELKLINSTKPIVINNVYDEHLKQVILPTFLSN;locus_tag=LOCUS_00030;EC_number=2.7.7.7;note=WP_011166213.1 DNA polymerase III subunit beta (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-200],MGA_3
sequence1	MetaGeneAnnotator	CDS	2676	3050	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIKQIIIVEGKTDSDKLKHIYGNDLKTIQTKGLSLNKKTLEMIKEFNNKTGVIIFTDPDGAGKKIRQTIIDYLDNKVLNAFINKNDISKTSKKVGIAEASDDAIKKALDNLIIYDKNNVSLS;locus_tag=LOCUS_00040;note=WP_011166214.1 ribonuclease M5 (Mycoplasma mycoides) [pid:92.7%25%2C q_cov:100.0%25%2C s_cov:70.1%25%2C Eval:1.6e-59%2C partial hit],internal stop codon at [3048:3050](+)%2C[3153:3155](+)%2C[3162:3164](+),MGA_4
sequence1	MetaGeneAnnotator	CDS	3209	4009	.	+	0	ID=MGA_5;product=16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166215.1;translation=MKAKKYYGQNFISDLNLINRIVDVLDQNKDQLIIEIGPGKGALTKELVKRFDKVVVIEIDKDMVEILKTKFNHSNLEIIQADVLEIDLKQLISKYDYKNISIISNTPYYITSEILFKTLQISDLLTKAVFMLQKEVALRICSNKNENNYNNLSIACQFYSQRSFEFVVNKKMFYPIPKVDSAIISLTFNDIYKKQVNNDEKFIDFVRLLFNNKRKTILNNLNNIIQNKNKALEYLNTLNISSNLRPEQLDIDQYIKLFNLIYNSNF;locus_tag=LOCUS_00050;gene=rsmA;EC_number=2.1.1.182;note=WP_011166215.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Mycoplasma mycoides) [pid:88.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-130],MGA_5
sequence1	MetaGeneAnnotator	CDS	4066	4887	.	+	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166216.1;translation=MIRDFNNQEVTLDDLEQNNNKTDKNKPKVQFLMRFSLVFSNISTHIFLFVLIVIASLFFGLRYTYYNYKVDLITNAHKIKPSIPKLKEVYKEALQVVEEVKRETDKNSSDSLINKIDEIKTIVKEVTEFANEFNDRSKKVEPKVKEVIEDEKQVTTHLEQITKEIETLKSTGNGIANRFRRSLGSPFGLGTLVNGVDNDFRSVNASVTKITDLAKKLSEEGKKITANVETIKKEVDYFSKRSEIPLRDIEKLKEIYRQKFPLFERNNKRLQEI;locus_tag=LOCUS_00060;note=WP_011166216.1 hypothetical protein (Mycoplasma mycoides) [pid:81.0%25%2C q_cov:100.0%25%2C s_cov:75.2%25%2C Eval:2.0e-119],internal stop codon at [4885:4887](+)%2C[5092:5094](+),MGA_6
sequence1	MetaGeneAnnotator	CDS	5516	5635	.	+	0	ID=MGA_7;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQEYSAESIKVLKGLEAVRTRPGMYIGSTSKTGLHHLV;locus_tag=LOCUS_00070;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:6.2%25%2C Eval:3.1e-15%2C partial hit],internal stop codon at [5633:5635](+),MGA_7
sequence1	MetaGeneAnnotator	CDS	5666	6451	.	+	0	ID=MGA_8;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGYANLINVTITKENEVIVQDNGRGIPVGINSDTKKSALSLVFTQLHAGGKFDSESYKISGGLHGVGASVVNALSLYVEVEVYRNNIHYHQLFSEGGTKESELQQLGHTDLRGTKVKFKPDPEIFKETVVFDYEIIKNKVKQLAFLNKGLKITLTDERIEKTVEYLFLNGILDYIKEKNENKNKINPNIFYVDSKYEDIEVEMALQYNSDYQENIITFVNNINTHEGGTHEDGLKQALIRDINRYADTVIKNNKTPSKFS;locus_tag=LOCUS_00080;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:41.2%25%2C Eval:1.4e-143%2C partial hit],internal stop codon at [5633:5635](+)%2C[6449:6451](+),MGA_8
sequence1	MetaGeneAnnotator	CDS	6470	7258	.	+	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMCILSVRHTDPQYEGQTKTKLSNPDAKEAVNIIIGNAFEEFLLKSPEDAKAILDKNVNAQKARIAAQKAREETRRKSALDSFSLPGKLADCETKDSSIAELYLVEGDSAGGSAKTGRNRKFQAILPLRGKVLNVERVTEARAFSNNEIKSIITAVGTGIKEELDLSKLRYKKIVIMTDADVDGAHIRTLLLTFFYRYMKPLVANGHIYIAQPPLYKIEAGKKIAYAYTDSQLDELKNNEFNNLKYTIQRYKGLGEMDPLQL;locus_tag=LOCUS_00090;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:41.3%25%2C Eval:2.0e-142%2C partial hit],internal stop codon at [6449:6451](+)%2C[7256:7258](+),MGA_9
sequence1	MetaGeneAnnotator	CDS	7268	7420	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPQQRTMLQISLEDATLANEVFSDLMGEDPELRKIYIQDNAKFVENIDF;locus_tag=LOCUS_00100;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:5.9e-22%2C partial hit],internal stop codon at [7256:7258](+),MGA_10
sequence1	MetaGeneAnnotator	CDS	7436	8992	.	+	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNENNNNDSLNENQDHYHGKISPIDISTEVRKDFLEYAMSVIVSRALPDLKDGLKPVHRRIIYAMNDLGITSDKPHKKSARIVGEVIGKYHPHGDSAVYETMVRMAQEFSYRYPLIDGHGNFGSIDGDGAAAMRYTEARLAKISNYLIKDIDMDTVPFIDNYDASEREPAYLTGYLPNLLVNGTMGIAVGMATSIPPHNLKEVVSAINAYIDNNDITIDEILDNHILGPDFPTGALMTNGSKMREGYKTGRGSVIIRAKIDFEESKKHDRFVVTEIPYQTNKAKIIEKIAELVKDKTIEGIFDIRDESNYEGIRIIIELKKDANPDVVLSKLYKYTALQSSFSINLLTLNNNLPVLLDLKTIIKNYVEFQVSVIIKRSIFEKNKLTKRYHILEALHIALDNVDDVINIIKNSKTSEEAKVQLTNKYNFDEEQNKAILDMRLQRLVGLERDKITLEMTNIKERLTYLDVLINTKEEQDNVLKNQLNEIADKFGDNRRTELIDEELINIEDEELIPDLK;locus_tag=LOCUS_00110;note=WP_011166218.1 DNA gyrase subunit A (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:98.8%25%2C s_cov:61.4%25%2C Eval:4.1e-280%2C partial hit],internal stop codon at [8990:8992](+)%2C[9137:9139](+),MGA_11
sequence1	MetaGeneAnnotator	CDS	8993	9139	.	+	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLSQEGYIRRINPDEFRIQKRGGRGVSVNAEPSDPIDIATMGKAKD;locus_tag=LOCUS_00120;note=WP_011166218.1 DNA gyrase subunit A (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:5.8%25%2C Eval:6.6e-21%2C partial hit],internal stop codon at [8990:8992](+)%2C[9137:9139](+),MGA_12
sequence1	MetaGeneAnnotator	CDS	9338	9940	.	+	0	ID=MGA_13;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKRTKISEFENINRNGKKAINLRDNDQLVSVFATTGQDTVFIANESGKVIRIKESVVNPQSRVGGGVKALKLEDNDVVVGAISSFKLTHITTVSNKGLFKKTPIDDYRISGRNGKGIKVMNLNQRTGKFKAIIGARETDLIMIISSDGNLIKTKVSNIPSLSRNASGVKAIRLTDNQEINAITLEYRKHGLENEDFEED;locus_tag=LOCUS_00130;note=WP_011166218.1 DNA gyrase subunit A (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:24.0%25%2C Eval:4.2e-106%2C partial hit],internal stop codon at [9137:9139](+),MGA_13
sequence1	MetaGeneAnnotator	CDS	10211	10429	.	-	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYAMVGENPNAIDAAGISVTKYRYLAVILSGFLAGVGGGVFVVTAVSGGGLFSGNMLGYGFLGIAIMIFGQ;locus_tag=LOCUS_00140;note=WP_011166219.1 ABC transporter permease (Mycoplasma mycoides) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:22.2%25%2C Eval:4.3e-28%2C partial hit],internal stop codon at [10169:10171](-)%2C[10211:10213](-)%2C[10493:10495](-)%2C[10607:10609](-),MGA_14
sequence1	MetaGeneAnnotator	CDS	10607	10924	.	-	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGVLLFASLSSLVSEKAGVVNIAVEGMMIIGALVVSILGTYLTSNDNKSNYTQIPIVLLAGVITAVFALLHAFPAITLKANQIISGTAINILALGLGIFLSTSN;locus_tag=LOCUS_00150;note=WP_011166219.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:96.2%25%2C s_cov:31.1%25%2C Eval:8.2e-48%2C partial hit],internal stop codon at [10493:10495](-)%2C[10607:10609](-)%2C[10934:10936](-),MGA_15
sequence1	MetaGeneAnnotator	CDS	11152	11481	.	-	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSQSDVNKAVSLLNDLKTLITDNLDLNLNKQAIKSNQKTLKNALEIKSKIDEVLTQNIISEYDAPEHIKQKSKISLTTFKLITNLKKQISYVITRVEEQELIDKYQQ;locus_tag=LOCUS_00160;note=WP_011166220.1 ABC transporter permease (Mycoplasma mycoides) [pid:88.1%25%2C q_cov:100.0%25%2C s_cov:12.7%25%2C Eval:3.4e-46%2C partial hit],internal stop codon at [11152:11154](-),MGA_16
sequence1	MetaGeneAnnotator	CDS	12583	12711	.	-	0	ID=MGA_17;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTVSPNNFFASNSLPTLGFDAIAVSLVAFNNPIGIIAIGWL;locus_tag=LOCUS_00170;note=WP_011166220.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:4.9%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [12391:12393](-)%2C[12451:12453](-)%2C[12583:12585](-)%2C[12865:12867](-)%2C[13003:13005](-),MGA_17
sequence1	MetaGeneAnnotator	CDS	12689	12964	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGETVNIDKNPAIPATAPDKVSDAMICLLTLIPIYFDPVIDGPTAFNLNPKTVFENNIQIITTQIKAINKGIITVFDPILNWSDGIFFEV;locus_tag=LOCUS_00180;note=MGA_18
sequence1	MetaGeneAnnotator	CDS	13027	13305	.	-	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVYIVAGLSMAIAFKAGVFNIGASGQILTATSVATIVFFSISGKDASSITPFMIILMLITCIISAAFIAFIAGILKALFNIHEVVSTILLN;locus_tag=LOCUS_00190;note=WP_011166220.1 ABC transporter permease (Mycoplasma mycoides) [pid:84.8%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:8.0e-35%2C partial hit],internal stop codon at [12865:12867](-)%2C[13003:13005](-)%2C[13027:13029](-)%2C[13306:13308](-)%2C[13516:13518](-),MGA_19
sequence1	MetaGeneAnnotator	CDS	13526	15142	.	-	0	ID=MGA_20;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166221.1;translation=MNKEQKIDYAIEMQNITKTFLNGAIVANDDITIKVKKGDIHALVGENGAGKSTLMSILFGLYQPTSGTIKVNGKEEIISNPIKANKLGIGMVHQHFKLVEVNTVLENIILGVEQTKSNIFLNKTKMRAELIDIMNKYDLYVDLDAKIQDISVGLQQRVEILKVLYRKADILVFDEPTAVLTPQQIQSLLQIMKNLQKAGKTIIFISHKMDEIKQVANVATVIRLGKKIVDLDVSMVSGNEIAEAMVGRKLVEVKNKYKKPLSDEPILDVINLIVKKDTNHKVYGLETFNIKVRPGEIVAVAGVEGNGQRELIQAITGLVKPVSGGIVYKKINIVNSNIKTRYDMGMSHIPEDRHKYGMLLDFSVEENIVSQEIDKKPFSQFGFINKKAISRYAQLIIKEFDIRGSRNGTAIARGLSGGNQQKAIVGREIKKDHDLLIVVQPTRGLDVGAIENVHSHILKEKEKGRAILLVSYDLNEVIALADRIVVINDGKLIGELPAKKAKKEEIGALMIGQTLEQIKQNQVTKTTKNRKEMKTNAI;locus_tag=LOCUS_00200;note=WP_011166221.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-295],MGA_20
sequence1	MetaGeneAnnotator	CDS	15850	16005	.	-	0	ID=MGA_21;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVYNNKFAGKEIELTDNKKQTVKYKLKPVYYANLGSKAEVEKLNDVNESS;locus_tag=LOCUS_00210;note=WP_011166222.1 BMP family ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:88.2%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:4.2e-20%2C partial hit],internal stop codon at [15850:15852](-)%2C[16021:16023](-)%2C[16198:16200](-)%2C[16213:16215](-),MGA_21
sequence1	MetaGeneAnnotator	CDS	16021	16182	.	-	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLNSGEFSKEAIDASNSKTDMVLQGSTTGNKYISIGMFGGITNKNAVDNYM;locus_tag=LOCUS_00220;note=WP_011166222.1 BMP family ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:9.6%25%2C Eval:5.3e-23%2C partial hit],internal stop codon at [15850:15852](-)%2C[16021:16023](-)%2C[16198:16200](-)%2C[16213:16215](-),MGA_22
sequence1	MetaGeneAnnotator	CDS	16213	16503	.	-	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFINEDYEYAKQNSNNYVETPDHTIDAFRTSYNTAIYKKADALLLAAFGHLGAVDYAADRMKKAGNKTVVFLDAQYKKDNVISVIFNSELAGFNAG;locus_tag=LOCUS_00230;note=WP_011166222.1 BMP family ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:17.5%25%2C Eval:4.0e-47%2C partial hit],internal stop codon at [16021:16023](-)%2C[16198:16200](-)%2C[16213:16215](-)%2C[16519:16521](-)%2C[16630:16632](-),MGA_23
sequence1	MetaGeneAnnotator	CDS	16630	16800	.	-	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTVLTTFIGISGSVSMVISCKVPTFAEGILGQRVLVVTDGGNIRDKTFNESS;locus_tag=LOCUS_00240;note=WP_011166222.1 BMP family ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:92.9%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:5.8e-22%2C partial hit],internal stop codon at [16519:16521](-)%2C[16630:16632](-),MGA_24
sequence1	MetaGeneAnnotator	CDS	16987	17109	.	-	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEQSGLENVQIDFENLKSFSNIKFNKLNDKKVIFNRIKE;locus_tag=LOCUS_00250;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [17227:17229](-),MGA_25
sequence1	MetaGeneAnnotator	CDS	17227	17616	.	-	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSLGNVIDPVKIIELYSADALRFYIANDLPTEKDGNFSLELFIESFNAHLANNVGNLISRTHNMISKYFNGYIDLNNINYDQELIDLGIKTIDNYIFNMDQYKISEAIKVVLELSNACNKYIETKAP;locus_tag=LOCUS_00260;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:25.3%25%2C Eval:2.1e-67%2C partial hit],internal stop codon at [17227:17229](-)%2C[17638:17640](-)%2C[17698:17700](-)%2C[17767:17769](-)%2C[17842:17844](-)%2C[17887:17889](-),MGA_26
sequence1	MetaGeneAnnotator	CDS	18271	18516	.	-	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKFYITTPIYYPSGNLHLGHAYTTTLADILNRYKKEQGYETFFLTGSDEHGQKIENKAKEANLTPLEYLNPKVQAFKDL;locus_tag=LOCUS_00270;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:1.3e-42%2C partial hit],internal stop codon at [18271:18273](-),MGA_27
sequence1	MetaGeneAnnotator	CDS	18716	19177	.	+	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKATKLLLSILPISSISFLSVISCSTTNSNAKQPDKKPEKPNEKDPIIPKKPDDKKPNNKPDSNIPSENKDPSKPDKTPNTSDTNPKQPEEDSKKPDEQPHGDHPNNNHPHNNQPADQPEVNKVDFYDLDKIKTELSYKSIKLYADKDPRSA;locus_tag=LOCUS_00280;note=WP_011166224.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:43.1%25%2C q_cov:100.0%25%2C s_cov:29.2%25%2C Eval:1.3e-29%2C partial hit],internal stop codon at [19175:19177](+),MGA_28
sequence1	MetaGeneAnnotator	CDS	19096	19416	.	-	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLSLLLITFSLVLNPIKVNEITLCSLFLVNLTLTLSIKPFAKLNTGISSSKLKVYLFFIFSYSLYKRLEKVFKSFFKSNHADLGSLSAYNLIDLYDSSVLILSKS;locus_tag=LOCUS_00290;note=MGA_29
sequence1	MetaGeneAnnotator	CDS	19367	20323	.	+	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFKTSEKVINNKERYIKEKSELNSKFKGLYPSLVAFMLMYAEDSQSYKSLEQKGKTVGFDELNYPNNDLFGSDYQGINQVTKKLLLNYDYELSKLYKDKITEVKYDDINGTLGLKIEISNIENNPKTEKESVLIKEFNIKGFRSIDFKNEDKNVLSFILLQNSLKEMVQKGSLKKTIELLKPYDQYGVKIPLEQTTGTGLKDEIFKYLLINIFDNSYHIYNSTQSLSLLNNSKNDNKSILGLAGHMSIYPFHTRITKESIDNIFITINKEEDNKIKVILDFEIKIPIYSVGYSDLKSPGTGASTPLVLKINSTALID;locus_tag=LOCUS_00300;note=WP_011166225.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:44.4%25%2C q_cov:99.4%25%2C s_cov:59.6%25%2C Eval:3.2e-66%2C partial hit],internal stop codon at [19175:19177](+),MGA_30
sequence1	MetaGeneAnnotator	CDS	20353	20718	.	+	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKATKLLLSILPISSISLLSVISCSTRNSNNMESDKTPKMPENDSTKPSEDPKKPEENQLKKPDEQPQGDDSNNNVQPHNDQPADQPETHIVNFSDVDKLPREISLEHFTNYKNKPLESA;locus_tag=LOCUS_00310;note=WP_011166224.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:41.4%25%2C q_cov:100.0%25%2C s_cov:29.2%25%2C Eval:7.0e-23%2C partial hit],internal stop codon at [20716:20718](+),MGA_31
sequence1	MetaGeneAnnotator	CDS	20725	21069	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKDSTVFSHILFKNLKGYKISFENTSAVKFDHSKGVIGNVKIKFTKEGKTITRVFMFTGLKKNEEIKPNQPKNNKDNYIKPRSVDNRLSGLFPSLLAYMLLFVEDNKKYEEIQ;locus_tag=LOCUS_00320;note=WP_011166438.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:46.2%25%2C q_cov:95.6%25%2C s_cov:20.8%25%2C Eval:2.3e-18%2C partial hit],internal stop codon at [20716:20718](+)%2C[21067:21069](+),MGA_32
sequence1	MetaGeneAnnotator	CDS	21163	21855	.	+	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFEYNENDRTKYEDKITSAKYDDINGELGLEVEIKNRKDSNLSEPGITKVFNFKGFRKTNFNNQDDNVLSLSLLPSDLKDLATKGSLKSDINKAIESKEFSKKISISNNDFIKNELFKKLILNVVDNENHIYRDTQSLKLDYSNKSGESNTIIAFNDGTSLYPLHTKIDKDSIGDIFITITNEDGQNKLEIELNVNIPFYASNLNDLTSHSTSQDKTLEYKINASTRIG;locus_tag=LOCUS_00330;note=WP_011166438.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:37.9%25%2C q_cov:99.6%25%2C s_cov:41.9%25%2C Eval:1.1e-42%2C partial hit],internal stop codon at [21067:21069](+),MGA_33
sequence1	MetaGeneAnnotator	CDS	21870	23459	.	+	0	ID=MGA_34;product=LppA family lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166224.1;translation=MKKATKLLLSILPISSISLLSVVSCSTTNSNNNKPDKSEEKAPIIPKKPDSTIPSESKDPSKPNETPKTPENDSTKPEENQSKKPNKQPQGEDSNNNVKPHNDQPADQPNINKDEFVDLDKLPKEISFERFTFYTSKDATTALSHLRMDGSVIKLIFSSTYRNIFERYDINLELDGNEKEDVKKGLIDKVKVKFTNKKDKKSKIIEFTFTGFKVVQKTPDKEDKNSKKNYIKKKEKINSRLTGLYPSLVAYMIMYTQEPKNYKDLMQKDSINFEELENNNPNLFANPEINLNVVALKDLLLEYNRELGKLYKDKVIAVSYDDVNGKLGLKLLIENIEENNTMASKYSETLEFGFDGFRKIDLKNPNKNVLSLLLPQNSFKDMIKNNVFKEKIEVLKSGKQKEDKLLIKEEHAKQLIFKNLLVQIIDNENNLYRVTQTLSLQNNKKDNYTSILGLAGGGSLYPFHTIINNDSIKNIYLTINKENKKHKVTINFEVYIPIFASTTSDLTSHATSGDTNILKLDITTNALID;locus_tag=LOCUS_00340;note=WP_011166224.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-231],MGA_34
sequence1	MetaGeneAnnotator	CDS	23492	23923	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKATKLLLSILPISSISFLSVVSCSTTNSSEKQPKKPSENTPKTPLKPDDIKPNNNDDNSNNNFNPDHKKPDSTNPSENKDPSEPEEKQPDIKPQGDNPNNVQPHNDQPEINNVDLSDLDKIKKELSFDNYLIYKQKDPISA;locus_tag=LOCUS_00350;note=WP_011166224.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:47.5%25%2C q_cov:100.0%25%2C s_cov:29.2%25%2C Eval:4.5e-31%2C partial hit],internal stop codon at [23921:23923](+),MGA_35
sequence1	MetaGeneAnnotator	CDS	23927	24727	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNDLSTITTVFYNTNKNVKREYKLSLESPNKDPDFISKKGVIDKVKIKFTKENNFRILEFSFTGFKVTEIDKNKNKKYDYIKPKETVDSRLSGLYPSILAYMLLYAENTNNYKSLQETDKDAINFEGLINKPTNLFNDKFVGFSVGTKELLFDFNENYRKLYVYKLVGAGFDDINGTLTLKVEINNSEDNKEKEPGISKEFSFKEFRKVNTDDPSKNPFYVSLTPADLKKIITDKSIKKNLEDLHLDITKENNLLDFGIDSRGI;locus_tag=LOCUS_00360;note=WP_011166224.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:39.8%25%2C q_cov:96.2%25%2C s_cov:47.6%25%2C Eval:3.1e-45%2C partial hit],internal stop codon at [23921:23923](+),frameshifted%2C insertion/deletion at around 24731%2C24700,MGA_36
sequence1	MetaGeneAnnotator	CDS	24740	25063	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLTISLTDNDNHIYDSKETLTFRKSKNSDYKFILGLKHNMSLYPFNTMINNDSIKNILLSVKDKKITLDFELEVPVFATGLSDLTSFSSYNTKTLKLKISSTTSI;locus_tag=LOCUS_00370;note=WP_011166438.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:41.8%25%2C q_cov:78.5%25%2C s_cov:16.1%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [24725:24727](+),MGA_37
sequence1	MetaGeneAnnotator	CDS	25318	25899	.	-	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFITNLNSKYNKYKNNLIMFLDLITMTDYIYRNEFYEKQNYEYRIEDINLFIDKINNYDYIEVLNLTINDKKMSLDKRRSEFSARSKVLKYAIKNRIKYLSKALKTIDKERSKVSKFNINVFEKLNFYTYENAHILDVSRVKANISSIIKQVNFSSNKKDIKKAIEKNCDYIFNIKSIADKNNLLNLPVQAHR;locus_tag=LOCUS_00380;note=MGA_38
sequence1	MetaGeneAnnotator	CDS	26188	26328	.	-	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYLNNIYRMSFTTKSNESEKSKSAYASGYIDIVADFSTDIPYISS;locus_tag=LOCUS_00390;note=MGA_39
sequence1	MetaGeneAnnotator	CDS	26316	26699	.	-	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKECNHLLKYLNNDFKPTQNNITKTRLDKKYTNFNSEAYVYLAKGYGPTLTASGANSRLKFYFPKTNQLKYISPRQAFLYMGFGKNDYLSVAKQSLLNESKLLFLCGNSISIEVLEVLFKEVILCLI;locus_tag=LOCUS_00400;note=MGA_40
sequence1	MetaGeneAnnotator	CDS	27182	27388	.	-	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIHYGNTTPELELSREEMCELLSNYSFSADSKHLIRGDYFNKMKLEKLQAYFPYLYGFVNDKYFNKK;locus_tag=LOCUS_00410;note=MGA_41
sequence1	MetaGeneAnnotator	CDS	27670	28059	.	-	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNALHCSIAWFVFKNFDLNKYLYVYQALKNNKVIEFVNNYLNEVILVLNHKYNISLNELNDYKIQIIKRLNNSFIKDDLKRLARNTELKLSKNERILTILDYAKTYNLKHDTLLLSYQNRLEYLKNNR;locus_tag=LOCUS_00420;note=WP_011166228.1 mannitol-1-phosphate 5-dehydrogenase (Mycoplasma mycoides) [pid:87.6%25%2C q_cov:100.0%25%2C s_cov:39.3%25%2C Eval:6.5e-61%2C partial hit],internal stop codon at [28135:28137](-)%2C[28156:28158](-),MGA_42
sequence1	MetaGeneAnnotator	CDS	28156	28656	.	-	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIHFGAGNIGCGFIAPILSSIVDHIYFVDNNIDIVNKINTQKLIKIHTSDNKKITITNISACLLTDFINYKNTWNEVSLLTISIGIKNLKHIIYYVNQLIDYKIKNNQKLIIMCCENGIRVSSLFKSYFSNLNNNIYFIDVLVDRIVSNKNILNDYLECEDYYL;locus_tag=LOCUS_00430;note=WP_011166228.1 mannitol-1-phosphate 5-dehydrogenase (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:50.6%25%2C Eval:1.0e-87%2C partial hit],internal stop codon at [28135:28137](-)%2C[28156:28158](-),MGA_43
sequence1	MetaGeneAnnotator	CDS	28744	29454	.	-	0	ID=MGA_44;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166229.1;translation=MAIDLLTKIKDFIQTDCSQDYKNIGTYLLKNYTNIKNLTITAISKECHTSPNKITRFAEKLNLKGFNELKFRLNDISNSIIIDNELIPISSRIDDKAKFYNDYFEILLNSIKQQQINLKTQPINEVVNLINKANKIYLFAFNLSYNVSKNFIQRLRWYQKEAISESDYISIKTYLNIIKPDDLVILITISGENEYIKKIAESLNKKVKIIGIGPKQSSMISLFDKYLYFETDESEL;locus_tag=LOCUS_00440;note=WP_011166229.1 MurR/RpiR family transcriptional regulator (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:89.1%25%2C Eval:1.9e-125],MGA_44
sequence1	MetaGeneAnnotator	CDS	29653	29904	.	-	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLETKNIHLNKTFNSKQECLDHLKELLKQENVSLEYIDSINKRQEACSFNIGSKIAIPHGTYEGMLSLKKSLIIVIHLQKPLI;locus_tag=LOCUS_00450;note=WP_011166230.1 PTS sugar transporter subunit IIA (Mycoplasma mycoides) [pid:87.4%25%2C q_cov:100.0%25%2C s_cov:61.3%25%2C Eval:4.2e-36%2C partial hit],internal stop codon at [29653:29655](-),MGA_45
sequence1	MetaGeneAnnotator	CDS	29904	30302	.	-	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNNTKGNIIQINSKSGRVGSKYNSGYSAAKFGGVGLTQSLALDLAEHNIRVNSLMLGNLLDSEMFESLIPQYAKKLNIKESEVKQYYINKVPLKRGCSFEDVLNVLLFYISDKASYCTGQSINITGGQVM;locus_tag=LOCUS_00460;note=WP_011166231.1 sorbitol-6-phosphate dehydrogenase (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:52.4%25%2C Eval:7.0e-68%2C partial hit],internal stop codon at [30408:30410](-),MGA_46
sequence1	MetaGeneAnnotator	CDS	30408	30662	.	-	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVAIVAGGAKSLGKFLALGLDKNNYQVVVLDLNKEKLDQLKEENQQIDTFVCDLTNEKDVINVFEQIESKYKTIDTLVYNAG;locus_tag=LOCUS_00470;note=WP_011166231.1 sorbitol-6-phosphate dehydrogenase (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:33.3%25%2C Eval:1.4e-39%2C partial hit],internal stop codon at [30408:30410](-),MGA_47
sequence1	MetaGeneAnnotator	CDS	30662	30805	.	-	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFKDFASQKAPNALIYPVEQFIGKNTYDDLYKLIENKQQKTKEEK;locus_tag=LOCUS_00480;note=WP_020862437.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:9.1%25%2C Eval:8.7e-21%2C partial hit],internal stop codon at [30887:30889](-),MGA_48
sequence1	MetaGeneAnnotator	CDS	30887	31279	.	-	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLATMLGVVGAQFITSYLGGGTIGTPSPGSLISLIALSNGTHALLINLLAFVVGTLIAFGVSVLLLLKNRKNLQSESNQGFKITDEGIEFNEQDSDQKTIKNNNNIKKIVVCCEAGVGSSAMAAGLIRK;locus_tag=LOCUS_00490;note=WP_020862437.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:91.5%25%2C q_cov:100.0%25%2C s_cov:25.0%25%2C Eval:1.9e-60%2C partial hit],internal stop codon at [30887:30889](-),MGA_49
sequence1	MetaGeneAnnotator	CDS	31664	31807	.	-	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVGPLSALFLKKVEKLYLHKINPGLEMLVKNFGLAIYAILLGLAVF;locus_tag=LOCUS_00500;note=WP_020862437.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:93.6%25%2C q_cov:100.0%25%2C s_cov:9.1%25%2C Eval:3.4e-17%2C partial hit],internal stop codon at [31589:31591](-)%2C[31643:31645](-)%2C[31652:31654](-)%2C[31658:31660](-)%2C[31664:31666](-)%2C[31865:31867](-)%2C[31994:31996](-)%2C[32042:32044](-)%2C[32090:32092](-)%2C[32099:32101](-),MGA_50
sequence1	MetaGeneAnnotator	CDS	32592	33335	.	-	0	ID=MGA_51;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166234.1;translation=MENNRLNNAGYYLFSKNKPITVKLGKFLTDERITLIDNIRFEGNIFECINRSIEYILKNINQVYVYEDLRRVPRPEIPVKAIREIVVNSFVHMRITSGDYNEISIFPSEVRIYNPGHFPLNTIPANFAEGKISSKPMNPLIATTLYRNNLVENFGTGFQTVFSLCEKNNIKYSYDISNFGFTFSFYRKKTDNEFLSVHENSKNIEFENKNIVKNMNLTSLEENILNYCDKNEKISSLAELADEFDMA;locus_tag=LOCUS_00510;note=WP_011166234.1 ATP-binding protein (Mycoplasma mycoides) [pid:95.8%25%2C q_cov:76.5%25%2C s_cov:93.1%25%2C Eval:1.7e-103],MGA_51
sequence1	MetaGeneAnnotator	CDS	33474	33875	.	-	0	ID=MGA_52;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166235.1;translation=MFGREGEQVEFKKSTAELKEAVISLCGMLNKSGRGSVYFGVKNDGTIVGQQIGKTSTTDIANEIKNHIKPNIYPNIVVLKENNLNYISVEVNGTERPYSAYGKYYTRVDEQDQVIDNNELRKLFQTNEFTNLT;locus_tag=LOCUS_00520;note=WP_011166235.1 ATP-binding protein (Mycoplasma mycoides) [pid:85.0%25%2C q_cov:100.0%25%2C s_cov:81.6%25%2C Eval:8.9e-63],internal stop codon at [33397:33399](-)%2C[33418:33420](-)%2C[33433:33435](-)%2C[33436:33438](-)%2C[33442:33444](-)%2C[33448:33450](-)%2C[33474:33476](-),frameshifted%2C insertion/deletion at around 33470%2C33463,MGA_52
sequence1	MetaGeneAnnotator	CDS	34283	34510	.	-	0	ID=MGA_53;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166236.1;translation=MQVKKIKKRKKVNFFQKNNIKYIDYKDIELLKKFISPNGQILPRRITGTSPKDQRQLALAIKRARQMALLPYVIE;locus_tag=LOCUS_00530;gene=rpsR;note=WP_011166236.1 30S ribosomal protein S18 (Mycoplasma mycoides) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-33],MGA_53
sequence1	MetaGeneAnnotator	CDS	34536	34970	.	-	0	ID=MGA_54;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166237.1;translation=MNRVNLVGRITRDLELRVAKNGSKFVFFTVAVSEFSTKEEKTNYIPCSAFDRTAENMVKYLSKGSLISVEGRITTRNNQTPDGKFETIVNVLAERVNFLEPSKNRNNMTTEQNDNFTPNQPTQQNSDSSFDDLVVSDDDELSIL;locus_tag=LOCUS_00540;note=WP_011166237.1 single-stranded DNA-binding protein (Mycoplasma mycoides) [pid:99.2%25%2C q_cov:86.8%25%2C s_cov:85.6%25%2C Eval:2.0e-66],MGA_54
sequence1	MetaGeneAnnotator	CDS	34982	35395	.	-	0	ID=MGA_55;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166238.1;translation=MIKKYEVMYILDQDVKDTKELVTKLDAILAENGKILESNDLGLLDFTYEINHKKKGFYHVVIVEATTQAIKEFERIAKIDKNVVRTLVLNTENIQNYEQSVVLSKTDMTKYEEEQREKKNFRKPFIKREEAAVKESK;locus_tag=LOCUS_00550;gene=rpsF;note=WP_011166238.1 30S ribosomal protein S6 (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-71],MGA_55
sequence1	MetaGeneAnnotator	CDS	35996	36418	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVLVLKTTAQADEVSNSVALTNRFLEEYKKFNPDDEIIIVDLNKDEVGTSILTSETFSTFYQQEVTKKYINLLKSVDKLVIACPMYNFSTPVTLKSFIDHVSVANETFSYKYSKKGDAIGLITNLKAQILGVQGAPLG;locus_tag=LOCUS_00560;note=WP_011166240.1 FMN-dependent NADH-azoreductase (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:70.4%25%2C Eval:2.9e-72%2C partial hit],internal stop codon at [36416:36418](+)%2C[36425:36427](+),MGA_56
sequence1	MetaGeneAnnotator	CDS	36458	36595	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFLGIEFNKTVLLAGVKVAPLLQLTPEQRVETIIDEVIEAARTF;locus_tag=LOCUS_00570;note=WP_011166240.1 FMN-dependent NADH-azoreductase (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:22.6%25%2C Eval:1.9e-17%2C partial hit],internal stop codon at [36416:36418](+)%2C[36425:36427](+),MGA_57
sequence1	MetaGeneAnnotator	CDS	36638	37666	.	-	0	ID=MGA_58;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166241.1;translation=MAKDKKNTEVSINIEQIQPISKKDPDFEEIKSSKKPKKTKTIKSEPVLLEQMDQREYIVIPNDQKFEPGIKGLKQKQKLQKQLTNKYSKDILNKGHIITTQNYKPNLDKHIIELKNVQKSYITGDLETPVLKGIDIKLDKSDFIVILGPSGSGKTTFLNIISGLDKASQGDVFVLGSNLSLLKDSHMTKFRRRTVGFVFQQYNLLTNLTAKENAEVGENLSSKKNGMSIDEIFETIGMKDQMHKYPHQMSGGQQQRVSIARALAKNPDILFADEPTGALDEEMGRKVLEILVKVNKEYKTTVIVVTHNPNIAKIANTVIHIKNGIIDNLEHNPNPADPQTIE;locus_tag=LOCUS_00580;note=WP_011166241.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.3e-180],MGA_58
sequence1	MetaGeneAnnotator	CDS	37714	38355	.	-	0	ID=MGA_59;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAEYHDSKIRAYIQNKNVNIDNFNNKDLNEIICLIASNKGDLIVSRDLNLKEPYVSNIEIEYGNIDYDFMKYFNQSNQTKSFITTEVKFDDNLEIKKVVGILVEMLPNHTKEDLDYISQKLGNTSYVKDVLVKSTNYYAIVKEIDNDATILDQSTISFECTCSYQKVLSTLNLLNQNDLKDIIKDNKPVEVVCDFCNQKYQIQIQDVITLLN;locus_tag=LOCUS_00590;note=WP_020862439.1 Hsp33 family molecular chaperone HslO (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:74.0%25%2C Eval:9.6e-115%2C partial hit],internal stop codon at [38383:38385](-),MGA_59
sequence1	MetaGeneAnnotator	CDS	38383	38580	.	-	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKIRAISNKHNLRISIVDISETIKEITDLQQSNTLANMVFSKFVCCSTLIGMQFKNKEKTYVN;locus_tag=LOCUS_00600;note=WP_020862439.1 Hsp33 family molecular chaperone HslO (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:22.6%25%2C Eval:2.0e-30%2C partial hit],internal stop codon at [38383:38385](-),MGA_60
sequence1	MetaGeneAnnotator	CDS	38854	39024	.	-	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGGLSSSDPNYELSIENKKDAVSILNVFNFVLDKKDKELKKQEDQIATKYYDKNA;locus_tag=LOCUS_00610;note=WP_011166243.1 STREFT protein (Mycoplasma mycoides) [pid:78.6%25%2C q_cov:100.0%25%2C s_cov:5.3%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [38713:38715](-)%2C[38854:38856](-)%2C[39187:39189](-),MGA_61
sequence1	MetaGeneAnnotator	CDS	39187	39327	.	-	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNKLSDQDNRKTILKALAYGFDTHDNSSDVSKDALNHRPKESYYN;locus_tag=LOCUS_00620;note=WP_011166243.1 STREFT protein (Mycoplasma mycoides) [pid:67.4%25%2C q_cov:100.0%25%2C s_cov:4.4%25%2C Eval:3.2e-12%2C partial hit],internal stop codon at [39187:39189](-),MGA_62
sequence1	MetaGeneAnnotator	CDS	39982	40155	.	-	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIVKNISEVINSFKNILENKNLISVKVFGPFSVVLLNIEKVYDILEMPYKSSALK;locus_tag=LOCUS_00630;note=WP_011166243.1 STREFT protein (Mycoplasma mycoides) [pid:51.8%25%2C q_cov:98.2%25%2C s_cov:5.2%25%2C Eval:4.8e-08%2C partial hit],internal stop codon at [39739:39741](-)%2C[39982:39984](-)%2C[40195:40197](-)%2C[40324:40326](-)%2C[40327:40329](-)%2C[40333:40335](-)%2C[40378:40380](-),MGA_63
sequence1	MetaGeneAnnotator	CDS	40133	40648	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFTIIDKSKLISFDKKKISFQYFEIFKDKLFSEICTFLIVFKIVFKIPFSPNNSIFAVILANLHHCQPADISSVLFLTLTSHSPSGLPSSLTFVLTIFIIFCSIVFLRDSSLNECSMNFTNISNEFEIVFSLLSIQLIKSKIKLPVPIFESIEFESLKILFLSKRLKIKS;locus_tag=LOCUS_00640;note=MGA_64
sequence1	MetaGeneAnnotator	CDS	40540	41010	.	-	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSLSEILSDLATSQLDLKNLDKLLEKIKFIFDSNNIKQLKQKALQLIDKTMPYIATYLYSEIFFGLYYTVHEEIKDPSVLLDQKLDNNHFLALTKNKLDLSILINGVLKVLKDKNSFNRFYDFIFRRFDKNKIFNDSNSILSNIGTGNLIFDLIN;locus_tag=LOCUS_00650;note=WP_011166243.1 STREFT protein (Mycoplasma mycoides) [pid:60.9%25%2C q_cov:100.0%25%2C s_cov:14.9%25%2C Eval:5.5e-50%2C partial hit],internal stop codon at [40324:40326](-)%2C[40327:40329](-)%2C[40333:40335](-)%2C[40378:40380](-)%2C[40540:40542](-),MGA_65
sequence1	MetaGeneAnnotator	CDS	42784	43062	.	+	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLSNPNCFKKSSGKLILIFLIFVMFSKSLILFASSDILVVHLFLVCSSFSSFSSLKIALKIGNIELSSLLMSFVKNSIHFKAKSEIIFPS;locus_tag=LOCUS_00660;note=MGA_66
sequence1	MetaGeneAnnotator	CDS	43821	44597	.	-	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFIQNTVLNNREKPNFKNYKDGLNKFADVIENNKNLFSYLGKILTPKQLEKDYYNNLTVQQALIKNINQIAAAISNDHQFSKEVKEDKIPEALDKFLTELGLDSLSEIIGELINSQNGSTNLTQTFNKIKNIFTLKNFENLKTKALELLDRITPHLATYLYSEIFFGLYYAANQHIKDPNELLVQKVDSNKFLALTNNKLDLGILLNGIEVILKDKKGFERFYNFIFKRFDENKIFNNLNNISSNKGTGNLIYDLLN;locus_tag=LOCUS_00670;note=WP_011166243.1 STREFT protein (Mycoplasma mycoides) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:24.6%25%2C Eval:5.7e-105%2C partial hit],internal stop codon at [43665:43667](-)%2C[43821:43823](-)%2C[44793:44795](-)%2C[44844:44846](-),MGA_67
sequence1	MetaGeneAnnotator	CDS	45341	45655	.	+	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFIASSILTISFTTNKRLSSAYDQVVNNQKSPKFDSTYQITVGSKAKPEKGDPLFIPIFDFVDKQYTGFKDEGYDNFNLAFNDIYKNKDLLIITTSSQEFKDA;locus_tag=LOCUS_00680;note=WP_011166244.1 ABC transporter permease (Mycoplasma mycoides) [pid:91.3%25%2C q_cov:100.0%25%2C s_cov:5.8%25%2C Eval:1.9e-49%2C partial hit],internal stop codon at [45299:45301](+)%2C[45653:45655](+)%2C[45845:45847](+)%2C[45890:45892](+),MGA_68
sequence1	MetaGeneAnnotator	CDS	46226	47197	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLISSENKEQNSQDQNFFNELVRKGFKGILRPLQITYQNFGDQVDIKNVVQYSETQELRGFVSNSNIYSQNVKELPEIFKNNSFVDILAMNADPFANIGEKSVNFYTSKTNDLETTVASDFPITAAFLTHHKLTALANGYDLYIRPETIFNDPITKKTFRIVDITNKDFTNYIILDGQTPSSASEITISKQFAKANKIQIGDRLTLGNAKGLIVTGYAVDTYSFFPTSDPNVPLPKSDSGGLIYADFATINQILGDGNSATGNDQTSTFNFFLIKKNNSLNIKNVFFDHFSVANRIRDNILAKQKGTEIQTFYQEHEFSNS;locus_tag=LOCUS_00690;note=WP_011166244.1 ABC transporter permease (Mycoplasma mycoides) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:18.0%25%2C Eval:6.0e-177%2C partial hit],internal stop codon at [47195:47197](+)%2C[47210:47212](+)%2C[47237:47239](+)%2C[47387:47389](+)%2C[47441:47443](+),MGA_69
sequence1	MetaGeneAnnotator	CDS	47720	47935	.	+	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLTESGKKPFSLLLVLVFVGTLFVSAGVAIPSVTKYAKDNYFKKVNYDNQYEIYNSLSNSPLGKDVFNF;locus_tag=LOCUS_00700;note=WP_011166244.1 ABC transporter permease (Mycoplasma mycoides) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:4.0%25%2C Eval:1.3e-32%2C partial hit],internal stop codon at [47441:47443](+)%2C[47528:47530](+)%2C[47648:47650](+)%2C[47672:47674](+)%2C[47933:47935](+)%2C[48188:48190](+),MGA_70
sequence1	MetaGeneAnnotator	CDS	50156	50527	.	+	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSDYKAGIVDVDFTFETKQLLNQIAKTAIYIAIIIITAIMLCASLLIMLITDIYISQYKSFMIMLRSMGYTNTQVMFYTLGIATIFSLLISFITTIIVFSSTSIIDKVFSANGFSIPINVY;locus_tag=LOCUS_00710;note=WP_011166244.1 ABC transporter permease (Mycoplasma mycoides) [pid:82.1%25%2C q_cov:100.0%25%2C s_cov:6.9%25%2C Eval:1.3e-48%2C partial hit],internal stop codon at [49973:49975](+)%2C[50000:50002](+)%2C[50525:50527](+)%2C[50582:50584](+),MGA_71
sequence1	MetaGeneAnnotator	CDS	50773	51087	.	+	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAMLSISSSIFLITTGIILSSKDNYSSMETISLNVNYLKRHKITGGNKLEEIGYYKEGNLVRIEHIPYNVEIIACDLPREITSLKNAFVTRTNDIQWTVK;locus_tag=LOCUS_00720;note=MGA_72
sequence1	MetaGeneAnnotator	CDS	51187	51402	.	+	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEMFAYSKGFNLDLSSWDVSKVKTMEKMFLNAEKFNNGEKPLKWDNKLNEVTNMKKMFYNASSFNQNLNS;locus_tag=LOCUS_00730;note=WP_011166971.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:24.3%25%2C Eval:1.2e-22%2C partial hit],internal stop codon at [51085:51087](+)%2C[51163:51165](+)%2C[51400:51402](+)%2C[51463:51465](+),MGA_73
sequence1	MetaGeneAnnotator	CDS	51601	51969	.	+	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPKDSENNNPTEDIKNEINNQPLNDENNNHSTTPITENETTETEKTTNDSSNDLKNDIYTIPSNQNTINSSNKKSSKTLAITMGVLGSATILGVGSGVSYYYRRDLKDFYLKTKNKIFKSK;locus_tag=LOCUS_00740;note=WP_011166973.1 Myrrcad domain-containing protein (Mycoplasma mycoides) [pid:35.0%25%2C q_cov:95.9%25%2C s_cov:25.3%25%2C Eval:1.7e-08%2C partial hit],internal stop codon at [51400:51402](+)%2C[51463:51465](+),MGA_74
sequence1	MetaGeneAnnotator	CDS	52277	52645	.	+	0	ID=MGA_75;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIFFGVRDSEVQFFEKLKNKYNYELTLAQGVLTLDRIDLIKDHNCVIVRGADKLDKTLLQAIKDQGVEYVFTRTVGFDHIDIPTGHELGFKMARVASYSPTAIAELAFSLAHSLSRKSAY;locus_tag=LOCUS_00750;note=WP_011166245.1 2-hydroxyacid dehydrogenase (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:37.2%25%2C Eval:9.0e-63%2C partial hit],internal stop codon at [52643:52645](+),MGA_75
sequence1	MetaGeneAnnotator	CDS	52676	53059	.	+	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQYGFSKELKNSVVGIIGTGRIGYEAAKMFKAFGCEVLGYDIKPNSNFEDVIKYVDLDYALANADILSFHMPYIKGQNDKLINKELISKMKDGAILINTSRGQIQDEQAILDAIKSNKLAGAGLDV;locus_tag=LOCUS_00760;note=WP_011166245.1 2-hydroxyacid dehydrogenase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:38.7%25%2C Eval:2.1e-67%2C partial hit],internal stop codon at [52643:52645](+)%2C[53057:53059](+),MGA_76
sequence1	MetaGeneAnnotator	CDS	53074	53250	.	-	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSPVVKYSFKLSNEYSIIFEAASSVYEPMCGVNKTFGYKSNNPLITGSSILSKVLNK;locus_tag=LOCUS_00770;note=MGA_77
sequence1	MetaGeneAnnotator	CDS	53438	53575	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIAVPALVLTGFMKTANIQQLKEQGVVLGVSFAFYILLNLIAFL;locus_tag=LOCUS_00780;note=WP_011166246.1 AEC family transporter (Mycoplasma mycoides) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:12.0%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [53333:53335](+)%2C[53411:53413](+)%2C[53573:53575](+)%2C[53681:53683](+)%2C[53774:53776](+)%2C[53837:53839](+),MGA_78
sequence1	MetaGeneAnnotator	CDS	54242	54376	.	+	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVILAATPPATVVVLYAIQYKMRDEFAAQCSTLTTLLAVIMLPL;locus_tag=LOCUS_00790;note=WP_011166246.1 AEC family transporter (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:11.8%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [53993:53995](+)%2C[54071:54073](+)%2C[54131:54133](+)%2C[54137:54139](+)%2C[54374:54376](+),MGA_79
sequence1	MetaGeneAnnotator	CDS	54745	55161	.	-	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVESPDSNNVMVFILSLTILPAPLCNTPLWVGVDEPVKMKRPFLLYLSTSSLVASHKLGTSCHSSIILGNSPFNTYSGLRIANCLLEKALAALPTRNSLFEFCLDVHVLPHHLGPSTQIAPAILRYFCIILSIILGI;locus_tag=LOCUS_00800;note=MGA_80
sequence1	MetaGeneAnnotator	CDS	55118	55261	.	+	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTMTLFESGDSTGILSLKDLLLDDIKTEYVDELDFKKLAYLIVRGG;locus_tag=LOCUS_00810;note=WP_014584314.1 DUF4143 domain-containing protein (Mycoplasma leachii) [pid:91.5%25%2C q_cov:100.0%25%2C s_cov:11.0%25%2C Eval:1.2e-17%2C partial hit],internal stop codon at [54824:54826](+)%2C[54839:54841](+)%2C[54971:54973](+)%2C[54992:54994](+)%2C[55259:55261](+),MGA_81
sequence1	MetaGeneAnnotator	CDS	55298	55810	.	+	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPRSYIDSILESKLLDENDNAYNSNYIKLILKSLARNVSTTVSERSIINDISQNEVDSISRPTLSKYLDFLNNMFLFSNLEPYSLNPRSSLRVKRQEKRYFCDPSLACALLDLTPNKIMSDLNLYGLLFEGLVIRDLKVYAQANDAKVYHYQDYLDNELDAVIEFKNGE;locus_tag=LOCUS_00820;note=WP_014584314.1 DUF4143 domain-containing protein (Mycoplasma leachii) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:39.7%25%2C Eval:3.7e-88%2C partial hit],internal stop codon at [55259:55261](+)%2C[55808:55810](+),MGA_82
sequence1	MetaGeneAnnotator	CDS	55829	56008	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLNQVEQAAKQLNKAIDAITRSKNKPPINKCIIVGFGNLVYKRKEDGIIVIPINALKD;locus_tag=LOCUS_00830;note=WP_014584314.1 DUF4143 domain-containing protein (Mycoplasma leachii) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:13.8%25%2C Eval:8.1e-27%2C partial hit],internal stop codon at [55808:55810](+),MGA_83
sequence1	MetaGeneAnnotator	CDS	56051	56833	.	-	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVREGKTVIGINEIDEAIDRVVGGPAKKSRAMTMHDKEIVSYHESGHALIGLKLESASKVQKVTIIPRGNAGGYTIMTPKDETLFSSKTDLYAMIAGYLGGRAAEEIKFGKDNVTTGAHDDFDKATAIARRMVMQFGMSELGITKFLTMADEAYGKTEGSYSEKTAAKIDAEVERILEESYKLAIKVISENMETLELLAESLRVLETITAEQIDYINKNKKLPEAVIHEKEKYKQEQEKINSGKIIDLDINDVKEEDKEK;locus_tag=LOCUS_00840;note=WP_011166250.1 ATP-dependent zinc metalloprotease FtsH (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:99.6%25%2C s_cov:40.0%25%2C Eval:1.1e-137%2C partial hit],internal stop codon at [56909:56911](-),MGA_84
sequence1	MetaGeneAnnotator	CDS	56909	57580	.	-	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKGGAAGAGANGLFGMGKNKARREKSNVKFSDVAGIEEEKSELVELVDYLKQPAKYASAGARAPKGVLMEGPPGTGKTLLAKAVAGEANVSFFSIAGSEFEEMFVGVGASRVREMFNEAKKAAPAIIFIDEIDAVGRKRNSAIGTGTNEQTLNQLLVELDGFETNSGIIVMAATNRVDVLDPALLRPGRFDRVIQVSLPDIKEREQILKLHARNKKIDPSID;locus_tag=LOCUS_00850;note=WP_011166250.1 ATP-dependent zinc metalloprotease FtsH (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:34.4%25%2C Eval:2.3e-114%2C partial hit],internal stop codon at [56909:56911](-)%2C[57686:57688](-)%2C[57758:57760](-)%2C[57779:57781](-),MGA_85
sequence1	MetaGeneAnnotator	CDS	58226	58450	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYYLNFYLDESGNAISDFFVVGGFYLNDSDYSNIQIHESKIKSNILKTEKSIREYRNTVETDLKPYDSKKEVK;locus_tag=LOCUS_00860;note=WP_020862448.1 DUF3800 domain-containing protein (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:26.3%25%2C Eval:1.1e-36%2C partial hit],internal stop codon at [58448:58450](+)%2C[58544:58546](+),MGA_86
sequence1	MetaGeneAnnotator	CDS	58592	58774	.	+	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMVKNLIERTIKSLSSQKVINNKDILNIKVYIDQRKTMIKTKNKQQKLEALEGYIKTEFY;locus_tag=LOCUS_00870;note=WP_020862448.1 DUF3800 domain-containing protein (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:21.4%25%2C Eval:5.2e-26%2C partial hit],internal stop codon at [58448:58450](+)%2C[58544:58546](+)%2C[58772:58774](+)%2C[58910:58912](+),MGA_87
sequence1	MetaGeneAnnotator	CDS	59055	59204	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKSITTIANKKTNRYFIDRKISYKTRLLSPVVYNVKDKVILNKIKKHY;locus_tag=LOCUS_00880;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:12.2%25%2C Eval:8.6e-21%2C partial hit],internal stop codon at [59409:59411](-),MGA_88
sequence1	MetaGeneAnnotator	CDS	59409	59966	.	-	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIASKYQIYNLLVAHNLNDLIETYLLQLQRNNLVDYYGLKPVSHYKDLVVYRPLLDIKKSEILNYLNTNKISYAIDSTNSNTKYQRNKIRATLNENNFTKILDQINKSNNNLNSTKKIVDNYLKNNIINNELNLTKELFLLDQTYIQRIIYTYFKLINKENLLLNRSNKTISEIVKRLINSNKNY;locus_tag=LOCUS_00890;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:89.2%25%2C q_cov:100.0%25%2C s_cov:46.1%25%2C Eval:2.0e-88%2C partial hit],internal stop codon at [59409:59411](-)%2C[59997:59999](-),MGA_89
sequence1	MetaGeneAnnotator	CDS	59997	60260	.	-	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFNINKSKKYLIAVSGGPDSVFLLCNVVKIVDPNNLVVCHVNYNFRSDSNNDQMIVTNLCKQFNLKLEILNINKDYSLLKQNFES;locus_tag=LOCUS_00900;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:21.7%25%2C Eval:2.7e-43%2C partial hit],internal stop codon at [59997:59999](-),MGA_90
sequence1	MetaGeneAnnotator	CDS	60557	61090	.	-	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVTKLILKLDQLSKEHSSASGITSRIILDNIELITNSTISKVAQITYTSPATITRFCQRHLDISGFSELQTLLRVYLNQQEEQNRLLLQNKDKKISKFEEISKAINATDALIETNQVDKLVKAIYNTKTVALISYDNSVNHAVTELAEKMNLIGIPPVIINQQDLLDYYTKISDSS;locus_tag=LOCUS_00910;note=WP_011166254.1 MurR/RpiR family transcriptional regulator (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:64.4%25%2C Eval:1.4e-88%2C partial hit],internal stop codon at [60419:60421](-)%2C[60557:60559](-),MGA_91
sequence1	MetaGeneAnnotator	CDS	61142	61864	.	-	0	ID=MGA_92;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166255.1;translation=MKVLNDLLGYKNRKLYQDNKMFNFTLDSVLVARFCNLNSKKKKICDFGTNNAVIPLILSKYTKAKIIGVEIQHKAVEIAKQNIKLNGLEDQIEIVHADIKEFSKLHNQEFDLVVCNPPFFKMDGNPKLKEISLEVANARHELLITLEDIIKSASRCLKNKGNFTIVHRSERLSEIINLFYKYNIYPKRLRLIQSKKIDNAKMILLDGIYQGNEGMELLPTLITHNDDETYTDELLKYFHD;locus_tag=LOCUS_00920;note=WP_011166255.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-132],MGA_92
sequence1	MetaGeneAnnotator	CDS	61864	62037	.	-	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNELIKMIDDAYNRTIIYQFTNLISCTLELLDDLKFLPLTNIAIDNYLIRIVEQI;locus_tag=LOCUS_00930;note=WP_011166256.1 DNA polymerase III subunit delta (Mycoplasma mycoides) [pid:89.5%25%2C q_cov:100.0%25%2C s_cov:23.2%25%2C Eval:5.2e-23%2C partial hit],internal stop codon at [62164:62166](-),MGA_93
sequence1	MetaGeneAnnotator	CDS	62164	62337	.	-	0	ID=MGA_94;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLSATATQNIKFFIIKNAQNLKQSAANSLLKFLEEPPINTYGILLTNNYSEIINTI;locus_tag=LOCUS_00940;note=WP_011166256.1 DNA polymerase III subunit delta (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:23.2%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [62164:62166](-)%2C[62503:62505](-),MGA_94
sequence1	MetaGeneAnnotator	CDS	62582	62797	.	-	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIRGENSKNRLDKEKSDFKQKVYQGYLELVKNNPKRIKVIDANQDIDQVYNQAIKIILEKLKENEKRTSN;locus_tag=LOCUS_00950;note=WP_011166257.1 dTMP kinase (Mycoplasma mycoides) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:33.3%25%2C Eval:8.3e-32%2C partial hit],internal stop codon at [63041:63043](-),MGA_95
sequence1	MetaGeneAnnotator	CDS	63041	63223	.	-	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFITFEGMDGSGKTTALLKVKEELERLNYQVLITREPGGEAIAEQIRQIILDNKNKDMDA;locus_tag=LOCUS_00960;note=WP_011166257.1 dTMP kinase (Mycoplasma mycoides) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:28.2%25%2C Eval:1.8e-26%2C partial hit],internal stop codon at [63041:63043](-),MGA_96
sequence1	MetaGeneAnnotator	CDS	63226	63816	.	-	0	ID=MGA_97;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862453.1;translation=MLETTFDEIIESIRTNQGLTKKTSERLLVDLLINKDKLDQFIDQLNKAKQLISTCKICGYLSENDKCLVCSLENRNQNIICIVSTILDAKNIENTNKYKGVYHILNGEINLNKNITFDKLNISSIFKRINDNTEIILALNSTFEGELTANYLYKLLSTKNIKITRLAKGIPMGASLDYMDEFTLQSAFLNRKKYGE;locus_tag=LOCUS_00970;gene=recR;note=WP_020862453.1 recombination mediator RecR (Mycoplasma mycoides) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-107],MGA_97
sequence1	MetaGeneAnnotator	CDS	64040	64534	.	-	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLTKDLEDQTLIKNTIENDKPLDSTNLDDPINEFDFYNQKEQTIDEICKTLSELKIKFNIHISQAIDSKVKMLFNEDLISILIETKNYKNQIHNIEQLLEDLFLQNDDQLVNAQIASELFMLLDSKIISLTNDVIVLKTQTKAQANLINDSMLDNHVLQQIYN;locus_tag=LOCUS_00980;note=WP_020862454.1 DNA polymerase III subunit gamma/tau (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:24.6%25%2C Eval:1.3e-84%2C partial hit],internal stop codon at [63995:63997](-)%2C[64040:64042](-),MGA_98
sequence1	MetaGeneAnnotator	CDS	64940	65779	.	-	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNKQSLYRTYRPKDFNSVAGHNNIKEILEKQIKDNRINHALLFSGQRGTGKTSVARIFAKTINCLNLTNSTACEQCNNCKLANQNQLIDIIEIDAASNNGVDEIREIKNSVSTLPLNSKYKVYIIDEVHMLTKQAFNALLKTLEEPPVYAIFILATTEFNKIPQTILSRCQIFNFTKIDKNSLKNRLQYIANQENYQIEKEVLDEIFYLSEGSLRDAINILEQLMLATDDLITIKTLKSIFLIATKQEQLQVIHQSLNNNTSFIISYFQKANDQGMN;locus_tag=LOCUS_00990;note=WP_020862454.1 DNA polymerase III subunit gamma/tau (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:41.8%25%2C Eval:2.3e-155%2C partial hit],internal stop codon at [64940:64942](-),MGA_99
sequence1	MetaGeneAnnotator	CDS	65861	66304	.	-	0	ID=MGA_100;product=nucleoside deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862455.1;translation=MSDFNNILDLMINQSKKAIKHNDIPVCCCIIDNNNNILTMSINTRYKNKNISQHAEINAINKLINKLNTFNLSEYKLITTLEPCMMCYSAIKQAKINTIYYLVDSYKFGIQNNYSINDQNLNLIQIKNHNKQSEYIKLLNNFFINKR;locus_tag=LOCUS_01000;note=WP_020862455.1 nucleoside deaminase (Mycoplasma mycoides) [pid:92.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-74],MGA_100
sequence1	MetaGeneAnnotator	CDS	66445	66747	.	-	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGASFCMIGSLFAAHLESPGKEVEIDNCIYKEYYGSASEYNKSEKRYVEGKKELIKIRGSIFDTLKEMTEDLQSSISYAGGKDLQAIKRVDYVLLGDYKD;locus_tag=LOCUS_01010;note=WP_011166261.1 GMP reductase (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:31.2%25%2C Eval:1.3e-50%2C partial hit],internal stop codon at [66847:66849](-)%2C[66931:66933](-),MGA_101
sequence1	MetaGeneAnnotator	CDS	66931	67407	.	-	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFDYDDVQLIPEMCIVNSRKECNTTATLGKHTFKLPVVPANMATIINEELAEKLAKNGYFYIMHRFNVDQIKFIKNMKDKNLITSISLGVKPDEYKLVDQMVEQNLIPDYITIDIAHGHALSVKNIISYIREKMKDQVFIIAGNVATPKAVRDLEL;locus_tag=LOCUS_01020;note=WP_011166261.1 GMP reductase (Mycoplasma mycoides) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:49.4%25%2C Eval:5.1e-83%2C partial hit],internal stop codon at [66847:66849](-)%2C[66931:66933](-),MGA_102
sequence1	MetaGeneAnnotator	CDS	67504	68118	.	-	0	ID=MGA_103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013448027.1;translation=MKKLFNILGLNFLLISTIIFSAYLKNNDLNNSNLVLKSQTSVELEKLKKEVMEYKELLDQEFSSNKKLLEENKELKAKLKDYLKIKTELLEFKEFLNNEYNSNNELLKEKEKLKIKLKEYEQLFKVLNSDEKYFKNNDPSQIIDLINESKNKLDSNQLDKTQQIAISIGAGLTLLAISICGAVVGLNKRIFKKSKKISKIIITR;locus_tag=LOCUS_01030;note=WP_013448027.1 hypothetical protein (Mycoplasma leachii) [pid:42.8%25%2C q_cov:92.6%25%2C s_cov:94.6%25%2C Eval:6.7e-38],MGA_103
sequence1	MetaGeneAnnotator	CDS	68261	68485	.	+	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSAFFSAKVPFFKMILNKSINSRIPSVKKRNNQNKSLHNASLNILLLLYLVPVALIPQDGLPLIYKIIKIIR;locus_tag=LOCUS_01040;note=MGA_104
sequence1	MetaGeneAnnotator	CDS	68672	69031	.	-	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTIADQFSTLYTNIPFGQLALKQGASGSMVIDSSFNVIGILNTEVQDVPGSKYISIPLPDYAGKKFTLPAYVQTNGVILFNSLSNDYLTKNNQSPKIIDGLIEKLKKDKLKTISLNP;locus_tag=LOCUS_01050;note=WP_011166263.1 DUF31 family protein (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:1.1e-60%2C partial hit],internal stop codon at [69071:69073](-)%2C[69125:69127](-)%2C[69230:69232](-)%2C[69302:69304](-),MGA_105
sequence1	MetaGeneAnnotator	CDS	69302	69640	.	-	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVYLKANRTKKIDNKNGLVETDVDKNKSFDAFDAYSQYLVAPYYTPRYGADNIYFKDFNKKSLYFKDNDYLSKTNNSGADFLTLRLKIEKNKLKQLLPSLAEVIDKKEEKD;locus_tag=LOCUS_01060;note=WP_011166263.1 DUF31 family protein (Mycoplasma mycoides) [pid:90.2%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:3.4e-54%2C partial hit],internal stop codon at [69071:69073](-)%2C[69125:69127](-)%2C[69230:69232](-)%2C[69302:69304](-)%2C[69704:69706](-)%2C[69839:69841](-)%2C[69914:69916](-),MGA_106
sequence1	MetaGeneAnnotator	CDS	69914	70048	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTKNKKYYYKTDKDKNNFLKTNNDYFKYIHERSFQLEINVKQ;locus_tag=LOCUS_01070;note=WP_011166263.1 DUF31 family protein (Mycoplasma mycoides) [pid:79.5%25%2C q_cov:100.0%25%2C s_cov:6.4%25%2C Eval:3.4e-14%2C partial hit],internal stop codon at [69704:69706](-)%2C[69839:69841](-)%2C[69914:69916](-),MGA_107
sequence1	MetaGeneAnnotator	CDS	70376	70780	.	-	0	ID=MGA_108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLINKLKFVFISSIVVIPSVSTISCYKTDSNKIDQKPNNNSNSNNNQNQNNQTNQNQNQNQSDSKNKIDKNDEIQLFNSHFLDINQLQNLTPYQIHKQTKDYIIGQKEFNNFVKNNNIDFTLYDHKEYQKNY;locus_tag=LOCUS_01080;note=WP_011166263.1 DUF31 family protein (Mycoplasma mycoides) [pid:74.4%25%2C q_cov:87.3%25%2C s_cov:16.6%25%2C Eval:5.4e-44%2C partial hit],internal stop codon at [70375:70377](-),frameshifted%2C insertion/deletion at around 70725,MGA_108
sequence1	MetaGeneAnnotator	CDS	70928	71377	.	-	0	ID=MGA_109;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166264.1;translation=MKNYQLKDHKNNLVELNSLVGQKGLIIFFYPKAKTSLCTLEVIEYQKHLDEFKQLGFNVVGVSQDEPNKNDEFCCEQNLSFLLLSDLNKDLVNEFNLTSETIVLDDEPFVKYERSTFVLDNQLNLLKEFRNVDHIEHVSDLLEYLKKND;locus_tag=LOCUS_01090;note=WP_011166264.1 peroxiredoxin (Mycoplasma mycoides group) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-81],MGA_109
sequence1	MetaGeneAnnotator	CDS	71487	71894	.	+	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKKIKFKNTDFKQLSSNITAVLQKFGRGLMLPISILPFAGLLLGIGGAIGANISSTNEVGLIISRSLKAMSEIVFANLAILFTISIVITFTNESGSAAFLAILGYLVFNSTQAAFIHYNNNVLVDVFYIHKGE;locus_tag=LOCUS_01100;note=WP_011166265.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:80.0%25%2C q_cov:100.0%25%2C s_cov:23.3%25%2C Eval:9.1e-55%2C partial hit],internal stop codon at [71892:71894](+)%2C[72108:72110](+),MGA_110
sequence1	MetaGeneAnnotator	CDS	72126	72407	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINQIGIGLSKTPTGVDGFIYGVFGRALMPFGLHHILITLAYQTQFGGILEYDKLISQLEKMNVDQNTINQISEAFKSFTKNNSQIIIGDQNI;locus_tag=LOCUS_01110;note=WP_011166265.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:76.3%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:6.1e-35%2C partial hit],internal stop codon at [71892:71894](+)%2C[72108:72110](+)%2C[72405:72407](+)%2C[72462:72464](+),MGA_111
sequence1	MetaGeneAnnotator	CDS	72534	72833	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIGLAFILTSNKETRKQTASVILSAMGVSFLTGITEPLEFTFLFITPVLYYAVYVPFSGLSYLFMSLVNAHVGVGFARGFIDLIVYGALPVLKGTRFY;locus_tag=LOCUS_01120;note=WP_011166265.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:91.9%25%2C q_cov:100.0%25%2C s_cov:17.1%25%2C Eval:2.3e-47%2C partial hit],internal stop codon at [72405:72407](+)%2C[72462:72464](+)%2C[72831:72833](+)%2C[72888:72890](+),MGA_112
sequence1	MetaGeneAnnotator	CDS	73349	73600	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387668.1;translation=MFRKIFKILISLVLAAIIILIGIIVLGFSTSTTDLNFLQRATNILKSHNFIDLLKLNLSSVQEKIGVVLVVYVGPLIFIAGFI;locus_tag=LOCUS_01130;note=WP_011387668.1 hypothetical protein (Mycoplasma capricolum) [pid:63.9%25%2C q_cov:100.0%25%2C s_cov:86.5%25%2C Eval:2.0e-22],MGA_113
sequence1	MetaGeneAnnotator	CDS	73734	74240	.	+	0	ID=MGA_114;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166274.1;translation=MSSLLTVIALTTSMIQIAGTGLFQVADGLFLSLTFFIPGPMMLVVGCVYAMIFDLVSGAVFYVPISIIIHILMFATIKLLMYKLPFYLNIMIAELFIFLYVLYAYLINYYSNSSDTSQANVKALISLITDFIQYLVSVISAIVLYNVFNTQSFLNLFKKLDIDIYKNK;locus_tag=LOCUS_01140;note=WP_011166274.1 membrane protein (Mycoplasma mycoides) [pid:95.8%25%2C q_cov:100.0%25%2C s_cov:87.0%25%2C Eval:2.2e-85],MGA_114
sequence1	MetaGeneAnnotator	CDS	74355	74549	.	+	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGLPKEIKQNENRVGITPMGVVELIRNNHEVLVESGAGLGSGFSDLEYEKAGAKITKNVEDV;locus_tag=LOCUS_01150;note=WP_013448114.1 alanine dehydrogenase (Mycoplasma leachii) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:2.2e-29%2C partial hit],internal stop codon at [74547:74549](+),MGA_115
sequence1	MetaGeneAnnotator	CDS	74559	75347	.	+	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVKVKEPLKSEYKYFYENQIIFTYFHLAGLKDLTEELIKNKVIAIAYETVQTPDKALPLLRPMSEVAGRMAVIIASNLLLKNTDKDALGVLVSGTPGTPKANITIIGGGVAGTSALRLAIAMEANVTIIEFNENRIRQLYETYGHKANILKSNYANIAKAVKESDVVISTVLIPGKLAPKLVTTEMVKTMKPNSVIIDVAIDQGGSVETVDHISSHADPTFIRHNVIHYSVPNIPGAVPRTSTIALTNATLTYVVEIASKG;locus_tag=LOCUS_01160;note=WP_013448114.1 alanine dehydrogenase (Mycoplasma leachii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:70.4%25%2C Eval:4.5e-142%2C partial hit],internal stop codon at [74547:74549](+)%2C[75345:75347](+),MGA_116
sequence1	MetaGeneAnnotator	CDS	75769	75960	.	+	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFCNLKTSISQNKKQYLIRLGCLLIGLYLFSLSIALYVPTAVGASHVDFTNFSILALFKD;locus_tag=LOCUS_01170;note=WP_011166276.1 hypothetical protein (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:23.0%25%2C Eval:8.5e-29%2C partial hit],internal stop codon at [75958:75960](+)%2C[76117:76119](+)%2C[76225:76227](+),MGA_117
sequence1	MetaGeneAnnotator	CDS	76676	77107	.	+	0	ID=MGA_118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDINYIEQNLDEVIQRLNKRNQQDYSEDLKYAVEKNFKRKEILVKSEALKSRKNQLSKEIGILIKDNKNKEAEKAKAEVVSLNEQIIKLDDELRIVNEQILEKLSYIPNLPHKDIYFGKSDEDNVEIRKTKHNPLLTHSTPH;locus_tag=LOCUS_01180;note=WP_011166277.1 serine--tRNA ligase (Mycoplasma mycoides) [pid:90.2%25%2C q_cov:100.0%25%2C s_cov:33.9%25%2C Eval:2.3e-67%2C partial hit],internal stop codon at [77105:77107](+),MGA_118
sequence1	MetaGeneAnnotator	CDS	77294	77695	.	+	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGTGQLPKFSEDMYQVGEQYLIPTSEVPLTNLHANEILTYDMLPLKYTSFTQCFRQEAGSAGRDTKGMIRLHQFNKVELVKIVHPDQSMNELELLVKDAEDVLNMFDLPYRVVELCSGDIGFSSAKTYDLEV;locus_tag=LOCUS_01190;note=WP_011166277.1 serine--tRNA ligase (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:31.5%25%2C Eval:2.3e-71%2C partial hit],internal stop codon at [77105:77107](+)%2C[77693:77695](+)%2C[77873:77875](+),MGA_119
sequence1	MetaGeneAnnotator	CDS	78362	78616	.	+	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRDIQIDGKVVQGPMAGVSNEAFRIISKQHGASLVYAEMVSVAGMVHDNKKTLNMLNVNEIEHPMSMQIFGNDVDEFIKATQ;locus_tag=LOCUS_01200;note=WP_011166279.1 tRNA dihydrouridine synthase DusB (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:25.9%25%2C Eval:1.3e-40%2C partial hit],internal stop codon at [78614:78616](+)%2C[78797:78799](+),MGA_120
sequence1	MetaGeneAnnotator	CDS	79549	80349	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYREAGKKAAFVNIDDQDSSIQLYVRLDEIGDQSFEDFRNFDLGDIIGVKGIMMRTDHGELSIRCKEVVLLSKALRPLPDKHAGIQDIEEKYRRRYVDLIMNHDVRKTFQARTKIIRTLQNFLDNKGYMEVETPILHSLKGGASAKPFITHYNVLNTDVYLRIATELHLKRLIVGGFEGVYEIGRIFRNEGMSTRHNPEFTSIELYVAYEDMFFLMDLTEEIFRVCNAAVNSSSIIEYNNAKIDLSKPFKRLHMVDGIKQVTGVDF;locus_tag=LOCUS_01210;note=WP_011166280.1 lysine--tRNA ligase (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:53.2%25%2C Eval:1.1e-148%2C partial hit],internal stop codon at [79438:79440](+)%2C[80347:80349](+),MGA_121
sequence1	MetaGeneAnnotator	CDS	80356	80841	.	+	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVQQALELAKKHKVHVEKHQESVGHIINLFYEEFVESTIVEPTFVYGHPKEISPLAKSNPSDPRFTDRFELFILGREYANAFSELNDPIDQYERFKAQIEEESKGNDEANDMDIDFIEALEHAMPPTAGIGIGIDRLVMLLTNSESIKDVLLFPQMKPRE;locus_tag=LOCUS_01220;note=WP_011166280.1 lysine--tRNA ligase (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:32.2%25%2C Eval:2.1e-87%2C partial hit],internal stop codon at [80347:80349](+),MGA_122
sequence1	MetaGeneAnnotator	CDS	80931	81134	.	-	0	ID=MGA_123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAPILHDFAKKVEGVKFLDVDVDLNRQVAEEFRIMSIPTLITFENGNQVNKHIGFATPDQLKKLID;locus_tag=LOCUS_01230;note=WP_011166282.1 thioredoxin (Mycoplasma mycoides) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:65.7%25%2C Eval:2.4e-31%2C partial hit],internal stop codon at [81150:81152](-),MGA_123
sequence1	MetaGeneAnnotator	CDS	81250	82092	.	-	0	ID=MGA_124;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166283.1;translation=MDKKNIIIFSDLDGTLLYDDYIFSPKTIEVVEKLYKKGIYLVPITARTIKDLKQKASLLQIDKFKGIIVASNGAQIYDYKTDKIIFDKTLPKEFIKEMFNRYHNKFFAKMIFYSPNCCYVFAEGKNSKYWAHQVMGLKYISVDSPDQIDEPITHFYIVTNSKATPEENLNEYKYLMNNYADNYKVDSYNNRVFDISVKGVDKGCGVAEVMKYLNLDEKTTHSYGFGDGPNDFSLLKACTTGIAMKNGIIELKEIADDITDYSNDKDGVARYICDKILNVD;locus_tag=LOCUS_01240;note=WP_011166283.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-162],MGA_124
sequence1	Barrnap:0.8	rRNA	82239	82317	.	-	.	ID=Barrnap_1;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;note=aligned only 66 percent of the 5S ribosomal RNA,Barrnap_1;locus_tag=LOCUS_r00010
sequence1	Barrnap:0.8	rRNA	82388	85287	.	-	.	ID=Barrnap_2;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00020;note=Barrnap_2
sequence1	Barrnap:0.8	rRNA	85524	87041	.	-	.	ID=Barrnap_3;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00030;note=Barrnap_3
sequence1	Aragorn:1.2.38	tRNA	87327	87410	.	-	.	ID=Aragorn_1;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence1	Aragorn:1.2.38	tRNA	87413	87488	.	-	.	ID=Aragorn_2;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence1	MetaGeneAnnotator	CDS	87678	88406	.	+	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIKLFLIDFYNFLILKHYFLLFLLLSICMSASFILSLNIHYLILAIFFLSLTIILNHKNTLKIVLIFISINLIFIMYMFWFKHSNLSYLNNKTIISKVIDKKTNYAILQHKNIKFYVNDFNNKFLLDQIIEISGVFNKLESNTSFYQFDFFNYLNKQFIDFEMINYKVEKISNGIRSNFILTNYFYTNKLASMFLFESIDRSTKLGELIKDLNLSFLIVISSYNIHFFTKFFYKLNTKFN;locus_tag=LOCUS_01250;note=WP_020862472.1 MBL fold metallo-hydrolase (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:99.6%25%2C s_cov:35.0%25%2C Eval:1.7e-124%2C partial hit],internal stop codon at [88404:88406](+),MGA_125
sequence1	MetaGeneAnnotator	CDS	88641	88826	.	+	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYYEKIFRNKFLDLCLKSLIFTFYFIPLQIFYFYSFSIVIQSLLIVLRPLFSFLYFSIFI;locus_tag=LOCUS_01260;note=WP_020862472.1 MBL fold metallo-hydrolase (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:8.9%25%2C Eval:8.6e-29%2C partial hit],internal stop codon at [88404:88406](+)%2C[88824:88826](+)%2C[88989:88991](+)%2C[88995:88997](+),MGA_126
sequence1	MetaGeneAnnotator	CDS	89016	89360	.	+	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSYLISWLIKPSVFLVMLNVGNGNCFIFHDKFKNTTIINDCGVGKGFSKNIGYEFLKYFGINHVDLIIISHNHADHYNAIDAIKKNIKVYETITYNNFLPFKSIKNVNIYFF;locus_tag=LOCUS_01270;note=WP_020862472.1 MBL fold metallo-hydrolase (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:3.4e-62%2C partial hit],internal stop codon at [88824:88826](+)%2C[88989:88991](+)%2C[88995:88997](+)%2C[89358:89360](+),MGA_127
sequence1	MetaGeneAnnotator	CDS	89400	89744	.	+	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEYRNIRILFTGDVEKEAEQLLVNNDYFKYVINLKPIDILQVPHHGSNTSSTDEFISLIKPKYGLISGNKRTYNFPRIQTLETLYKHNVKYFISQINNNTFYNFLTNSFWFKK;locus_tag=LOCUS_01280;note=WP_020862472.1 MBL fold metallo-hydrolase (Mycoplasma mycoides) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:8.4e-61%2C partial hit],internal stop codon at [89358:89360](+),MGA_128
sequence1	MetaGeneAnnotator	CDS	90380	90817	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAYIFVFAVGVGPFAGSLALAVGTIGMLTKYNREIYETINFKIVNQLKALGLNKFQVFRYGIFAQTQNEIISYIIYRFEINFKEVATLGIVGAGRLGSLLKGYFEEALYAEFGALVFGLIIFTLIVESISNTLRVKFLENKNPK;locus_tag=LOCUS_01290;note=WP_011166287.1 ABC transporter permease subunit (Mycoplasma mycoides) [pid:89.7%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:4.4e-69%2C partial hit],internal stop codon at [90284:90286](-)%2C[90371:90373](-)%2C[90380:90382](-)%2C[90968:90970](-)%2C[91046:91048](-),MGA_129
sequence1	MetaGeneAnnotator	CDS	91046	92071	.	-	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMIIAGYFLTGYGSSVIGIIFFSFSVAGKLFYEKIEQIDTKVFTTMQATGANKFQSFRKAVVPQISTNLLSISLYTLETNIRYFSVIAIVTGLDSYGELIKSTLDSSEYSKAGFLLTIFAVTILLIELFIFLIRNYIIEEKDYLLEKKLINKIQKPYKNIDKLSNLKFYINYILTKEINDKIAKTTDPNELQSLKLEKKKLISEFKKQYNLDVKKDKDKYKKLFKENKENLFVKVDFVDHLVRIDKITQTKLANECLIIREQIKRQVEDTIKTETTKFKKTLTPEVVLKKMPKTYIKRIVFFAIILFLFIFLIKDVNFSLASSSSIKETNQRVLSILNIN;locus_tag=LOCUS_01300;note=WP_011166287.1 ABC transporter permease subunit (Mycoplasma mycoides) [pid:83.0%25%2C q_cov:100.0%25%2C s_cov:37.4%25%2C Eval:5.9e-154%2C partial hit],internal stop codon at [90968:90970](-)%2C[91046:91048](-)%2C[92228:92230](-)%2C[92285:92287](-)%2C[92300:92302](-),MGA_130
sequence1	MetaGeneAnnotator	CDS	92360	92509	.	-	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKKIIKDRNLFKIGNHYTKPPKRVFTICFTVGIIIFVVLGFALADER;locus_tag=LOCUS_01310;note=WP_011166287.1 ABC transporter permease subunit (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:98.0%25%2C s_cov:5.3%25%2C Eval:1.5e-20%2C partial hit],internal stop codon at [92228:92230](-)%2C[92285:92287](-)%2C[92300:92302](-)%2C[92360:92362](-),MGA_131
sequence1	MetaGeneAnnotator	CDS	92513	92998	.	-	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQEYNNIANKTVLQNVLNARVSSQKGINKILGFFKREDKMIALNSLDKLNLLDYAYIRADNLSGGQQQRVALARTLAQQPFLIIADEPVSALDPILANQVMKDFKNINKKDGITVIINIHHVDLAKKYATRVIGLNNGEIVFDDVPSKLDAQAMKKIYGE;locus_tag=LOCUS_01320;note=WP_011166288.1 phosphonate ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:64.4%25%2C Eval:1.5e-85%2C partial hit],internal stop codon at [93233:93235](-),MGA_132
sequence1	MetaGeneAnnotator	CDS	93282	93770	.	-	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTEKDTSRRFVKALSFTDSATTIGSKDAKAESSKYAITFGFSDIRFRDRQTDGKDENKIREERQKEKELFENSLVIGASQSIYNDGISYSKSSKSVFKDKQLLDDVRQSFVDLIEKNDEAKKIFKIYNHERYIIPGSKIDEEISKSNTNIEAIKKLVKDIN;locus_tag=LOCUS_01330;note=WP_011166289.1 phosphonate ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:58.4%25%2C q_cov:99.4%25%2C s_cov:34.0%25%2C Eval:1.8e-46%2C partial hit],internal stop codon at [93813:93815](-)%2C[93987:93989](-),MGA_133
sequence1	MetaGeneAnnotator	CDS	93691	93888	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPIVVAESVNERAFTNLLLVSFSVNILVISVSLNPTKSFSHKTGYKNPELDVLDLPIPILTLGF;locus_tag=LOCUS_01340;note=MGA_134
sequence1	MetaGeneAnnotator	CDS	93987	94649	.	-	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLISLMGISLLATSATVVTVACGKRDNELRVVFVPSQNQTEVESTTASLERLLTESLKEKASKRGAKFDKKVKVTTSQNYEIAGQSLANGNEDIGFLPINTYSAYRGEKQNDGTYSKLGVLLTAGRSGVTPETTLQDFKNGDKFDNEKATTQISDETSFNLIKNYKDSVEKAKPNADKDGYSKGIYDSQNPANYYRSYVFANIPILKSISVDNNSNGE;locus_tag=LOCUS_01350;note=WP_011166289.1 phosphonate ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:69.8%25%2C q_cov:99.1%25%2C s_cov:49.4%25%2C Eval:1.6e-83%2C partial hit],internal stop codon at [93813:93815](-)%2C[93987:93989](-),MGA_135
sequence1	MetaGeneAnnotator	CDS	94940	95068	.	-	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGYYKSAGFGLGFERLVMYITGASNIRDVIPFPRTPKNLLF;locus_tag=LOCUS_01360;note=WP_011166290.1 asparagine--tRNA ligase (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:3.9e-18%2C partial hit],internal stop codon at [95084:95086](-),MGA_136
sequence1	MetaGeneAnnotator	CDS	95084	95608	.	-	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPEVAFADLKDNIQLIQDMVKYIINYIFKHNRRELEFCNEHLENGLIDKLNNVRNSEFKITTYTQAIEILKQAVKDGHKFEVSDIEFGLDLGTEHERYICEQVNKAPTFVTNYPKEIKAFYMKQNDDNKTVAAVDLLVPGIGELVGGSQREDNYEKLIKRCKEVNIDIDQLE;locus_tag=LOCUS_01370;note=WP_011166290.1 asparagine--tRNA ligase (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:38.5%25%2C Eval:6.6e-96%2C partial hit],internal stop codon at [95084:95086](-)%2C[95609:95611](-),MGA_137
sequence1	MetaGeneAnnotator	CDS	95609	96304	.	-	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRQIFEQHSELLDKEVEILGRVRSNRQGKFVSFMILNDGTTFTDLQVVYKTKTKGYEQALQARVSSIVKVIGRVVLTPEKQQKFELQADEIELIDQAIEDYPLQKKEHTTEYLREIAHLRAKTKTFNAIFKIRSAAAYAIHRFFNERNFVYIHSPIITSNDAEGAGEAFLVTTREDADYEKDFFGKKASLTVSGQLHAEAFAQAFKKVYTFGPTFRAENSNTAKHAAEF;locus_tag=LOCUS_01380;note=WP_011166290.1 asparagine--tRNA ligase (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:50.7%25%2C Eval:5.0e-123%2C partial hit],internal stop codon at [95609:95611](-),MGA_138
sequence1	MetaGeneAnnotator	CDS	96313	96594	.	-	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNHIETIPIYEFTNITATKGKAIKKMAEILNVDINDVVVFGDNMNDMTMFEEIPNCVAVENAVDQIKQKAKYITDTNINGGVGKFIEKYILN;locus_tag=LOCUS_01390;note=WP_011166291.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:33.3%25%2C Eval:3.7e-48%2C partial hit],internal stop codon at [96631:96633](-)%2C[96745:96747](-)%2C[96790:96792](-),MGA_139
sequence1	MetaGeneAnnotator	CDS	96790	97152	.	-	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNIKLIVTDLDGTVLHHGKLANDIDKPILEKAIKNNIHVTIATGQPYKSAKPRADLFSIGEHVDLAVLANGALISKISSFEPVYVNKIDNAIVNKMVKKLTELNICTVIFTATASDVY;locus_tag=LOCUS_01400;note=WP_011166291.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:43.0%25%2C Eval:2.2e-61%2C partial hit],internal stop codon at [96631:96633](-)%2C[96745:96747](-)%2C[96790:96792](-),MGA_140
sequence1	MetaGeneAnnotator	CDS	97163	97522	.	-	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFDKYEKQHIIPAKIPILFIHSIEDKISSHNDSIRMFINRKKFNLNDELLIYETSKHCLSLKEHYYQTIYRILQFENKIIKDNNKTSIALEKMGIIDKIILNNFNEKKEISTFFYKD;locus_tag=LOCUS_01410;note=WP_011166292.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:31.6%25%2C Eval:8.2e-64%2C partial hit],internal stop codon at [97529:97531](-),MGA_141
sequence1	MetaGeneAnnotator	CDS	97529	97843	.	-	0	ID=MGA_142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLLESKDLIAAINYLNQTQKVQTIGLLGLSMGAFVINYLTLTQQKFLEENKVKFIISDSSYASISSLLNKLLKLSFKRFFSKKYDIYLIKQILKKQKDLTLSD;locus_tag=LOCUS_01420;note=WP_011166292.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:76.9%25%2C q_cov:100.0%25%2C s_cov:27.7%25%2C Eval:7.2e-36%2C partial hit],internal stop codon at [97529:97531](-)%2C[97931:97933](-)%2C[97943:97945](-)%2C[97964:97966](-)%2C[97982:97984](-),MGA_142
sequence1	MetaGeneAnnotator	CDS	97982	98293	.	-	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAKQKRALIKKSGNKIFRSINKSFAKFHKLLETSVFFKKSHSKKHIYMNPEINKMNKIMRLFFKHKELEFKINDNLIPIKFKTSDNITISALKYITDHKSKK;locus_tag=LOCUS_01430;note=WP_011166292.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:27.4%25%2C Eval:3.3e-49%2C partial hit],internal stop codon at [97931:97933](-)%2C[97943:97945](-)%2C[97964:97966](-)%2C[97982:97984](-),MGA_143
sequence1	MetaGeneAnnotator	CDS	98317	99015	.	-	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVGKLVAETISLYINKPILALDHIQGHIFGASIENEFIYPVLAMVVSGGHTQIEIINSANDFQIIGSTRDDAIGECYDKVARVLGLSYPGGPILDKLALKGNKDSYLLPVLKDEDNYDFSYSGLKTACINLIHNLNQKNQEINLEDFAASFQYTATNIVEKKLEKAIKEFKPKTLTVAGGVSANSEIRKIILRLGEKYNIKNTFVPKMSYCTDNAAMIAKLAYEKILLNNK;locus_tag=LOCUS_01440;note=WP_011166293.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:72.7%25%2C Eval:2.0e-127%2C partial hit],internal stop codon at [99106:99108](-),MGA_144
sequence1	MetaGeneAnnotator	CDS	99106	99273	.	-	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILAIESSCDEFSISIIDNNKILTNVISSQIKDHQVFGGVVPELAARLHVQNFN;locus_tag=LOCUS_01450;note=WP_011166293.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [99106:99108](-),MGA_145
sequence1	MetaGeneAnnotator	CDS	99788	101062	.	+	0	ID=MGA_146;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166295.1;translation=MLINDTVVAPATNISTQAIALIRVSGSEAFLIVNKLIKDKKLEEKRGLFLRKLYFENELIDEVVLSCFVAPNSFTGENVVEIACHGGILNTNKIINILIQSGARMALRGEFSQRSFLNGKIDLIQAEGINNLIHAKNDLALKIGVANMSGSNNKAIIELKDNLLDIISRIQVSIDYPDYDDVEGSSIEDLTNLLEIINDQINKLLMRSKMAFKNSEGIKTAIIGQTNVGKSSILNALINEDKAIVTDIPGTTRDIVEGQINLENVSLNLIDTAGIRKTSDVVENLGILKSKNLINEADLVLFVVNKENINDSDNQEIFELLKDKTYILIVNKAEKLSQTEKQNLEKKYENIVFTSAINHDIDQLVLRINQMFLNEEISKNDELILIGLNQITLVEQIKNKLSTALSVIKSGMPIDIVNVDLYDA;locus_tag=LOCUS_01460;gene=mnmE;note=WP_011166295.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:93.8%25%2C Eval:1.0e-225],MGA_146
sequence1	MetaGeneAnnotator	CDS	101195	101440	.	-	0	ID=MGA_147;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362910.1;translation=MANIKSQEKRVLTNEKSRLANKAFKSEIKTAIKKALNAKSNDDANKAELVNHAVSLVDKGLKKGIFKDNKAAREKSRLMSA;locus_tag=LOCUS_01470;gene=rpsT;note=WP_008362910.1 30S ribosomal protein S20 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-38],MGA_147
sequence1	MetaGeneAnnotator	CDS	101733	103133	.	-	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAILGSVIISASTATLVIACKVSDNKIIKTTKGTDSTTKNLTKSNNNNSENPNNNSNDQKNSDIKKENELIEVDKNDVKTLKLKIEDLKSQKLKIEAEYNKKELELKNKATKTITEAKNNLENNKSTIKQEIEKNNNKLENLTKDLTIEDEIDDIKEELEQLNELLLETKQLEKDNKQKLDVYEKELNEVKQLDKKIEEISSLIELVNNISMIEKQIQSTEDTYKQFIAVEEKILEEIKQKNKTLETIKNDLITTDNFSDLFFLNNRRNYVFNYEYINNLKEEIAKNNKQEQEIKKTKAQQEELKNKALEQLTKNKKLAEENKSKISELQNSLQEINGKKDIAAKRVLDNNNLYSQTKKLDSEYKDELKNLQKEILKFTNDQKNLSNKLKEHQDQLNKLFIEKTQLENSLFELETKTKNIIDQTIKDLDKDIQDLDLEAYQKEVKIDSQINKLEELINKNKK;locus_tag=LOCUS_01480;note=MGA_148
sequence1	MetaGeneAnnotator	CDS	103388	104113	.	-	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNLDKYIKEREGLIAVASNFKKIIEETNTNSKKLIDENKMKLAKAEEKQKMLESIRTDANDTNNSSYEFYYNFGKTRYEILSELPSKIKEAKEEKEQLNKLVKQLEEQKQKLIDDLVIKKITAKQVKDRLPSLMTELDSITKEKQMLDEHLSEVNPQIVEIKKELESSKNDIKNLEKGLQDANKIQEGLIKKLDEAKREITQLESQKVELEKSLFELEAKTKETIDQTIEDLDQDIQDLD;locus_tag=LOCUS_01490;note=WP_052846723.1 DNA double-strand break repair ATPase Rad50 (Sulfurisphaera tokodaii) [pid:24.3%25%2C q_cov:90.0%25%2C s_cov:27.4%25%2C Eval:6.4e-07%2C partial hit],MGA_149
sequence1	MetaGeneAnnotator	CDS	105173	105517	.	-	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSIMISTSGAALVIACKTPSAKQPTNSDKNPSNNGDSSNPSGSGENKKPENTKPSDSTTPTNPTDPKKPDQPDSTKPKPGEKEKDETKPNETTPITPKQPKPTTIS;locus_tag=LOCUS_01500;note=MGA_150
sequence1	MetaGeneAnnotator	CDS	107453	107626	.	-	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSLAIISSGASVIVSYNKTNVSSSEIKKEEEIIKPTDPNNFTINKSKST;locus_tag=LOCUS_01510;note=MGA_151
sequence1	MetaGeneAnnotator	CDS	107887	108063	.	-	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKTLEDSILKTELTFEKETEELDKQAFEKEDKIDKQILELENLIKKIEEFVSQFQK;locus_tag=LOCUS_01520;note=MGA_152
sequence1	MetaGeneAnnotator	CDS	108142	108402	.	-	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNKLKESTIEKLTKDKNQAEKARNDLPSLESSLNKMKIEKEEIDKHLHLINDQVSKDKKYLTEYKKNVGLLEEEIEQATKSENY;locus_tag=LOCUS_01530;note=MGA_153
sequence1	MetaGeneAnnotator	CDS	109243	109578	.	-	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSVGLIAATSAAVIACGDKTPSAKQPTNSNEKPSSNGDSSNPSGSDKDRKPGNNKPSESDSNNSTTPVNPEKPNESDSKPTRKPDKSNNDQTTPIKPKLVTIS;locus_tag=LOCUS_01540;note=WP_011167149.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:51.2%25%2C q_cov:75.7%25%2C s_cov:19.2%25%2C Eval:1.2e-14%2C partial hit],MGA_154
sequence1	MetaGeneAnnotator	CDS	109740	110162	.	-	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQSLDQMNKQKEEIDTYLRENNNEISKIKNFSSLYKNDVRRTQGEIEDSKQKLEELTKKVSEFESQLSQLEMQKSQIQKSISELEKSTNRVISEVESNYKKDLLELDNESNKKEKEINSKIKKLEKMINKLEEKKKQLK;locus_tag=LOCUS_01550;note=MGA_155
sequence1	MetaGeneAnnotator	CDS	110664	110825	.	-	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKKQFEEGKARLDQQIKEYDKKINDLLEQIKQDDTKDKKEKEEENLKELTE;locus_tag=LOCUS_01560;note=MGA_156
sequence1	MetaGeneAnnotator	CDS	110967	111359	.	-	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEILDKNYKDNFANLMAIKASQTVKELFSDEFSNLVKAAIKNRLIRTYSDSISGADINFYLTKEEVEKEVKDILDKNYSDNYARFLEHLASRDTNKLFNDEYTDLIKAVLKNRFIKTYSDSITGDDIS;locus_tag=LOCUS_01570;note=MGA_157
sequence1	MetaGeneAnnotator	CDS	111822	112112	.	-	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSIMISTSGAALVIACKTPITKQPTNSNENTNQNEPTKPSEKDKDQTDPKKPVEPANPSNKPENNPTKPSEKDNNQDTPVKPKPATIS;locus_tag=LOCUS_01580;note=WP_011387457.1 lipoprotein (Mycoplasma capricolum) [pid:36.0%25%2C q_cov:83.3%25%2C s_cov:28.8%25%2C Eval:8.2e-08%2C partial hit],MGA_158
sequence1	MetaGeneAnnotator	CDS	114509	114694	.	-	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGILGTLVISSIGASLVVACKTPNTKPIKIDSKNPTNKIEEPTKPINKPVNTITHHL;locus_tag=LOCUS_01590;note=MGA_159
sequence1	MetaGeneAnnotator	CDS	114929	115516	.	-	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYIYGNNELKKEVPNIIKNLEKELQTTKQQNIEKIKQLKEQNTKIQAEVSEMTKSLEPLNAEKNKIDKQLSDINPEVVKTNKNIELYTNNLKTLEEEITSNSELQKQIIAQIDQYTSDQLSLEKQKEEILNSIKEFENSTNKIILESKQQYEDELLKLEKQAHSLESKEDEKIKEIEKAIAKLKESIKLLNQK;locus_tag=LOCUS_01600;note=MGA_160
sequence1	MetaGeneAnnotator	CDS	115577	116542	.	-	0	ID=MGA_161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIKASQTAKELFSDEFSDLVKEAVERYKHHGDTHARESAKITEEIFSDEFSNKVKEAVERYKHHGDTHAKESAKATIELFSDEFSDLVKQAVERYKKHGDTHAKESAKAAEKLFNDKYNLVNEYKHNLETKLAKLNEEVNTHILERTRIEKEYNNKEKELEELATNNLVTLKKEYETGKQSLENRKTENETKLDKITLELPKLKDQKEKIKEEIKDSTELLEEAKLLLKENQDKQVEHNKVLDQAKDLERQIDSINKQIESKNKLITDNNNKEKKLLDIEKELDKELSEEKVIIKQLDDENKLYEKIIDDLKKETYDSDL;locus_tag=LOCUS_01610;note=MGA_161
sequence1	MetaGeneAnnotator	CDS	117080	117370	.	-	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSIMISTSGAALVIACKTPSTKQPTNKDKDENPSNGGGSKKPDKTDEEKTPSEDKKPDDNKKPTNNYDSKTYPHTIFNRHFVSGNPSP;locus_tag=LOCUS_01620;note=MGA_162
sequence1	MetaGeneAnnotator	CDS	118115	118309	.	-	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRFNQFRQQRSFKLELIISSILLFFAISCLVLYFITKSVGLYNKKTLSADVIFLQDITFLSE;locus_tag=LOCUS_01630;note=WP_020862490.1 hypothetical protein (Mycoplasma mycoides) [pid:92.2%25%2C q_cov:100.0%25%2C s_cov:25.0%25%2C Eval:1.1e-25%2C partial hit],internal stop codon at [117827:117829](-)%2C[117884:117886](-)%2C[118010:118012](-)%2C[118115:118117](-),MGA_163
sequence1	MetaGeneAnnotator	CDS	119124	119705	.	-	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINIANEVVENLANVILRVVEDEEQHEERIEVTDKDIEEILFETGLQPSDINNKAINQRFDELEEEFKDDKQKLRRLRIQRDVMLGLVLELERRAEMIISPQNDQQAITQLIKELQNDIDIASITIEQIHQNFNNMVEQINDPEKLKHLVIAKDVLLQLVARMDDIKEQEKQTRKKKKKKPHEDESSKTKIG;locus_tag=LOCUS_01640;note=WP_011166299.1 preprotein translocase subunit SecA (Mycoplasma mycoides) [pid:90.7%25%2C q_cov:100.0%25%2C s_cov:20.4%25%2C Eval:1.0e-90%2C partial hit],internal stop codon at [119820:119822](-),MGA_164
sequence1	MetaGeneAnnotator	CDS	119820	121958	.	-	0	ID=MGA_165;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166299.1;translation=MVSDKRLLKKFGKIADKIIALEPQMRQLKDEDFILKTQEFKQMLEDGKSLDDILIEVYAVAREAARRVLGLNAYKVQLIGGIILNSGDIAEMRTGEGKTLTGIFPAYLNALSGKGVHIVTVNEYLSKRDSEINGQVFDLLGISVGLNGSSLTKTEKREAYNKDITYTTNAELGFDYLRDNMVSDYSLKVQRKLNYCIIDEADSVLIDEARTPLIISGGTSTRINLYKAANNFALTLKEHDDLDIDLESKQVYLNEQGMKKANEFFSLKNLFAIENTEIFHLIMNALKAQFAFKEGVEYTVRDNEILLIDQFTGRIMHGRSYSDGLQQALQAKENVDIEEETVTLATITYQNFYRLYSKIAGMTGTAKTEEEEFIKIYNTRVIQTPTNKPVIRKDEPDLTFGTKNAALKKLVEDVLEAHEKGAPILIGTTSVESSEQIARYLKKANLKFETINAKNHDREAEIVSKAGEIGAITLATNMAGRGTDIKLAKGVAELGGLRVFGVERNEARRIDNQLRGRSGRQGDPGLSRFYISMDDDLMMRFTAPKTRQRFKALGDDYIKSKMFTRAVTNAQKKLEGMNFDQRKNVLDYDNILAQQREIIYAQRDDILEASDLSVVIEKMQITAAYELIEKHSTLVHGEKTINKKELLDAIDGTLVPKNKFRVDDFNNKEKMDLAVEIAEAMMQLYKARISDIPDDVIIGMERKIILDSFDKY;locus_tag=LOCUS_01650;gene=secA;note=WP_011166299.1 preprotein translocase subunit SecA (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:75.4%25%2C Eval:0.0e+00],internal stop codon at [119820:119822](-),MGA_165
sequence1	MetaGeneAnnotator	CDS	122049	122492	.	+	0	ID=MGA_166;product=YigZ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166300.1;translation=MKTIKKEIYKNEFIIKNSKFITIATNINSKDELEEFLNKYSDINATHNCYAYMIYDQKLIGGYNDDHEPKNTAGKPIFNVISKNNLVNIVILVIRYFGGIKLGASVLTRTYSNAASLIIKDLEIIEIKTYYQYLISFDIKNLKLVNQ;locus_tag=LOCUS_01660;note=WP_011166300.1 YigZ family protein (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:77.0%25%2C Eval:6.8e-78],internal stop codon at [122490:122492](+),MGA_166
sequence1	MetaGeneAnnotator	CDS	122700	122918	.	+	0	ID=MGA_167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITNETKPILLIDGYHLLHKGYYGTLKRTIVSKNKDGIVINAIYSFVANILKFVQSDRYHSVIVAFDFDENC;locus_tag=LOCUS_01670;note=WP_011166301.1 5'-3' exonuclease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:23.7%25%2C Eval:4.3e-36%2C partial hit],internal stop codon at [122916:122918](+)%2C[123027:123029](+),MGA_167
sequence1	MetaGeneAnnotator	CDS	124417	124674	.	+	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIITFHLKDRETIKVYDPTSGSGSLLLNIGEEFKKYNNKTSPVSYYAQEIKPDTFNLTRMNLIMKGINPTEIHARCGDTLEQD;locus_tag=LOCUS_01680;note=WP_013390020.1 type I restriction-modification system subunit M (Bifidobacterium bifidum) [pid:56.5%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:2.7e-22%2C partial hit],internal stop codon at [124672:124674](+)%2C[124759:124761](+),MGA_168
sequence1	MetaGeneAnnotator	CDS	124879	125673	.	+	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIVLPHGVLFRGNQEGVIRKRLIERSNIDTIIGLPSNMFYGTGIPTIIMILKKYRKGNDILFVDASQLYIKDDKKNKFTKSHIKKISDIVNNRLEVKNLSKKVSLKEIEQNDYNLNISRYIDNFKKQEQYDLYSLMYGGISNQELDKYQDFFDVFKNLKDKLIKLNKNSYYEFLKDIDIRKIIYDDIQVKTYLDNVKDKSEKFKNYFKTLITSINDIKDVNLMKLEQQLSEYVFNNFNDISFVDVYDIYQIIINNLEPIKEDI;locus_tag=LOCUS_01690;note=WP_011068835.1 type I restriction-modification system subunit M (Bifidobacterium longum) [pid:39.5%25%2C q_cov:95.8%25%2C s_cov:29.2%25%2C Eval:4.1e-50%2C partial hit],internal stop codon at [124672:124674](+)%2C[124759:124761](+),MGA_169
sequence1	MetaGeneAnnotator	CDS	126500	126832	.	+	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNLLIYEQPTNYIVKSEKYTKSGIPVLTAGKSFILGYTRENFGIKYVNNEKPVLIFDDFTTAIHLINFNFKVKSSAIKLLSNRKNNDNLFFNFLLIKSLNFEPEAHERH;locus_tag=LOCUS_01700;note=WP_002681379.1 restriction endonuclease subunit S (Treponema denticola) [pid:53.2%25%2C q_cov:99.1%25%2C s_cov:17.5%25%2C Eval:3.1e-23%2C partial hit],internal stop codon at [126485:126487](+)%2C[126830:126832](+),MGA_170
sequence1	MetaGeneAnnotator	CDS	127268	127576	.	+	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGPFISSQNHIIESKSNDIVANKFLYFFICKVGRTFYGSQSTYPMFTRVDFEDTRLLFPLIIEQEKILKIFNNLDSLITLHQRKLLLLKNIKNTLLEKMFV;locus_tag=LOCUS_01710;note=WP_012027693.1 restriction endonuclease subunit S (Streptococcus suis) [pid:46.3%25%2C q_cov:52.9%25%2C s_cov:13.5%25%2C Eval:1.1e-07%2C partial hit],MGA_171
sequence1	MetaGeneAnnotator	CDS	127813	128280	.	+	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQIIQLVNNCKSFVDSNTLISNEFITIKRTNKDDQKSFNKEVALRLINKRDINSGYTTYQIAQQIRTDKLEDSKSRRGDLMLLINGMPLIHIELKNNTQSIGNAVAQLHNYSRLGFYNGIFKLVQVIVAMTPNEMMYMPNAVDHKDISKERFLK;locus_tag=LOCUS_01720;note=WP_011068838.1 HsdR family type I site-specific deoxyribonuclease (Bifidobacterium longum) [pid:43.0%25%2C q_cov:91.0%25%2C s_cov:13.0%25%2C Eval:3.7e-27%2C partial hit],internal stop codon at [127747:127749](+)%2C[128278:128280](+)%2C[128311:128313](+)%2C[128518:128520](+),MGA_172
sequence1	MetaGeneAnnotator	CDS	128611	129294	.	+	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRIELGTQTKSAFKNFNSSGKISVLEAESTNDLVELLSDNSSRHQLIITSIHKQSRANQENYEKQLQQISKKKIVFIFDEAHRSTFGDMFKNIITSIPNSVVFGFTGTPIFKENKKEDRTTEDNFGPLLHKYTMDDGMNDGKVLGFTSEYVYLDRLLLPTIDQYDNRSSLNNNPTEIAFEKLQKLQNLIKEKDEHLLKYEKNLYKFLQSDKNNNYKEQVVDDILKK;locus_tag=LOCUS_01730;note=WP_011068838.1 HsdR family type I site-specific deoxyribonuclease (Bifidobacterium longum) [pid:46.0%25%2C q_cov:64.8%25%2C s_cov:13.6%25%2C Eval:9.1e-29%2C partial hit],internal stop codon at [128518:128520](+)%2C[128581:128583](+)%2C[129292:129294](+)%2C[129307:129309](+),MGA_173
sequence1	MetaGeneAnnotator	CDS	130270	130773	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNNYLKKLFNDYNYKKENKEITEEYRIWFKKELENKFIIKFPKEYQQIARGCLDSLIGGLNKNVSEFDLKDEVIRRVRNKIYQEISDFSGAMNLNTEELKKIIDSDDPINAYGRFEDLCKNGLTEQAKSAIARYLDTSIEEIKPGPYKKEIKAFIKEQKKKRMKI;locus_tag=LOCUS_01740;note=MGA_174
sequence1	MetaGeneAnnotator	CDS	130831	130980	.	-	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAGVSIASVAKRLGHSSMNTTERIYLHIINELENKDIDLVMRSISTLN;locus_tag=LOCUS_01750;note=WP_007058548.1 site-specific integrase (Bifidobacterium longum) [pid:72.9%25%2C q_cov:98.0%25%2C s_cov:15.5%25%2C Eval:5.4e-15%2C partial hit],internal stop codon at [131161:131163](-)%2C[131233:131235](-),MGA_175
sequence1	MetaGeneAnnotator	CDS	131233	131610	.	-	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCDLDRVTYQEIINEYAQQHERQTTMDFHHHLKSCLLDAFDEGLLTKDPTRKVVIKGKAAKPKKIKFLSNFELQLLLKQLNLKDKLNFDWLIFLIAKTGLRFSEAIALTPEDFDFTKQLLNISKT;locus_tag=LOCUS_01760;note=WP_012028462.1 site-specific integrase (Streptococcus suis) [pid:58.5%25%2C q_cov:98.4%25%2C s_cov:39.9%25%2C Eval:4.9e-37%2C partial hit],internal stop codon at [131161:131163](-)%2C[131233:131235](-)%2C[131638:131640](-)%2C[131707:131709](-),MGA_176
sequence1	MetaGeneAnnotator	CDS	132441	132773	.	-	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNLLIYEQPTNYIVKSEKYTKSGIPVLTAGKSFILGYTRENFGIKYVNNEKPVLIFDDFTTAIHLINFNFKVKSSAIKLLSNRKNNDNLFFNFLLIKSLNFEPEAHERH;locus_tag=LOCUS_01770;note=WP_002681379.1 restriction endonuclease subunit S (Treponema denticola) [pid:53.2%25%2C q_cov:99.1%25%2C s_cov:17.5%25%2C Eval:3.1e-23%2C partial hit],internal stop codon at [132441:132443](-),MGA_177
sequence1	MetaGeneAnnotator	CDS	133628	133777	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKSIKEKRDDLISKQKIINGILQEDQEFSSSSYASVFVLGRSSNGKQE;locus_tag=LOCUS_01780;note=WP_011166302.1 DUF4357 domain-containing protein (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:4.7e-19%2C partial hit],internal stop codon at [133565:133567](+)%2C[133775:133777](+),frameshifted%2C insertion/deletion at around 133906,MGA_178
sequence1	MetaGeneAnnotator	CDS	133896	134135	.	+	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIVKKTNENKFVVLKNSDIEMIEANHFKTKLLHIHNLRKECIKNKIIVDYKLLDYVEFKSLSSASSFVLGRSSNGNID;locus_tag=LOCUS_01790;note=WP_011166302.1 DUF4357 domain-containing protein (Mycoplasma mycoides) [pid:90.2%25%2C q_cov:51.9%25%2C s_cov:22.3%25%2C Eval:4.0e-15%2C partial hit],internal stop codon at [133775:133777](+),frameshifted%2C insertion/deletion at around 133906,MGA_179
sequence1	MetaGeneAnnotator	CDS	134943	135653	.	+	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLYHPITKTKLRENFLSKKVVVLYCTCDDFSKDALLRSMNQDYKNYEIVILDDSKKLEQIKEIDEFSNQYNIKVIRRTNRIGYKAGNLNNYLKNNPDYDYFVVLDSDEIIPNNFITESLKYFQFDEKIGAVQAYHAASKGKNLFQYLLGDSNNNTALSFHIMRDIFGETSLLGHGMILSKQAYEKTGGFPHLLVEDTSMSAELKKQGFKIAYASNILCYEDFPTNYIALKKRQSR;locus_tag=LOCUS_01800;note=WP_010964794.1 glycosyltransferase (Clostridium) [pid:27.3%25%2C q_cov:75.4%25%2C s_cov:23.7%25%2C Eval:1.7e-09%2C partial hit],MGA_180
sequence1	MetaGeneAnnotator	CDS	136398	136826	.	+	0	ID=MGA_181;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167140.1;translation=MAKKITRVAKLEFMAMQAKPGAELASLGINMPAFTREFNDATKDRAGDVVPVVITAYDDKSFDFVLKTTPTAYMLKKVAKIEKGASNSRTQTVATVTLDDIRSIAEYKMPDLNANTIEAAMKQVIGTAKNMGIKVTGMEDFK;locus_tag=LOCUS_01810;gene=rplK;note=WP_011167140.1 50S ribosomal protein L11 (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-74],MGA_181
sequence1	MetaGeneAnnotator	CDS	136826	137149	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKISKRFKEALSKVEKNKVYPLTQALDLAKQTSTTKFDSTVEIAFNLNIDPRKADQQIRGAVVLPAGTGKTQRVLVLTNTKTKEAEQAKADIVGGEELINRIKNEN;locus_tag=LOCUS_01820;note=WP_011167141.1 50S ribosomal protein L1 (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:47.3%25%2C Eval:2.9e-53%2C partial hit],internal stop codon at [137147:137149](+),MGA_182
sequence1	MetaGeneAnnotator	CDS	137183	137506	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAKLGAIGKILGPKGLMPNPKTGTVTLDVAKAVDDIKKGKVEYRADKEGNIHLIIGKVSFEIEKLEENFKAVVDEIRRVKPQTVKGDYIKNVTLSTTMGPGIKVEF;locus_tag=LOCUS_01830;note=WP_011167141.1 50S ribosomal protein L1 (Mycoplasma mycoides) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:47.3%25%2C Eval:1.7e-53%2C partial hit],internal stop codon at [137147:137149](+),MGA_183
sequence1	MetaGeneAnnotator	CDS	137734	138231	.	+	0	ID=MGA_184;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167150.1;translation=MSNSRPAHARKAEIVAEIVSKIKSAQGVAIAEYKHLTVAKMTELRVQALKQNIDIKVYKDSLVRRAAEELGLVDLIPFLTQQNVFIFSNEDSISAAKLVANFAKKNDALKLKAGIYEGKVVDTAGINEVASLPSKEELYSMFASSLLYPLRKVMAAINAVAETRN;locus_tag=LOCUS_01840;gene=rplJ;note=WP_011167150.1 50S ribosomal protein L10 (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-82],MGA_184
sequence1	MetaGeneAnnotator	CDS	138304	138672	.	+	0	ID=MGA_185;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167151.1;translation=MPITKDEIIKALEEMKLNELNELVKAIEDHFGVVASVGVAAAAPAEAANAAPTEVSVVMTSVGQQKVAVIKVVKELTGVGLMDAKKIVDGTMPVTIKEHVKPEEAEEMKAKLVEAGASIDLK;locus_tag=LOCUS_01850;gene=rplL;note=WP_011167151.1 50S ribosomal protein L7/L12 (Mycoplasma mycoides) [pid:86.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-51],MGA_185
sequence1	MetaGeneAnnotator	CDS	138843	139523	.	+	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFDYFLNNKSLNKINRKLENNIFKTPLPYSLKSKFNYNFIDKISKDRFLSYYTKAFYDDFLESSVEKKLKTYELALLVMNETKTDLDFLSVLKIFRDIKKGKTPTNYLERLIFNIIYAYEYIKKPKVLINEENLEMLISILLVGLEYDLDLKTNYYRTPKTKTLISNVLSNQLISKELENLLDYLKFLQANNLCTYSQTYLIFSTLVLISPFQKYNLIFATLLSQ;locus_tag=LOCUS_01860;note=MGA_186
sequence1	MetaGeneAnnotator	CDS	139743	140018	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIFEDDLSFFVLILILQNTKNLSFNNIKTLLTINKIKLFTDEQIKSTLANLIANQVLQTTSTSVVKYVLVDKYLEKSKYLVNMKGLYNGL;locus_tag=LOCUS_01870;note=MGA_187
sequence1	MetaGeneAnnotator	CDS	140521	140736	.	+	0	ID=MGA_188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MICNVSIYKSGEVFLGDFPLMTEAGTFIINGSQKVIVSQLVRSPGAYFNKELNRKTGEMIYFADIIPSRGT;locus_tag=LOCUS_01880;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:5.5%25%2C Eval:2.3e-34%2C partial hit],internal stop codon at [140380:140382](+)%2C[140734:140736](+)%2C[140947:140949](+),MGA_188
sequence1	MetaGeneAnnotator	CDS	141238	143478	.	+	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVDLNYLSDIPGTRKVQKIKVYKDSELKTDTTCLIGLTSSSNEEFITVADILSTVSYLLNLKYNIGEIDDIDNLGNRRVRTVGELLQNQFRMGLNRIDKNVKEKLATSDLYKVKTSTIINAKPLTAIIGEFFNLSQLSQFMDQINPLSELTNKRRLTALGPGGLSRDRAGLEVRDVHPSHYGRICPIETPEGPNIGLINNLSTYARVNEYGFITTPYRKVINGIIQNDQVEYLTADQEKNFIIAQSNVNQDENGKILDEIIVSRFNGDDYMAKVEEIDYIDVSPKQIVSVATSGIPFLENDDANRALMGANMQRQAVPLIRPESPIVATGIEFEAARDSGEAIVAKEDAIVKYVDSKTIITDGESGIRTYILSDYERSNNGTSLTQSPIVKVGDVVKKGEIIADGPSMDQGELAIGQNVVVAFSTYNGYNFEDAIVMSERIVIDDRFTSIHIDEYTLEVRNTKQGQEEVTREIPNMSEQAKRHLDAEGIVAIGTEVKVGDVLVGKVTPKGQVQLSPEDKLLHAIFGEKSRNVKDNSLRVPNGGEGIVQSIKRFKAKSALNPDGIELPADIIEVIKVYVVQKRKIQEGDKMSGRHGNKGIISRILPIEDMPHLEDGTPVDIILNPQGVPSRMNIGQILEIHLGMAAKKLNQKVITPVFEGLNEKELEEIMAEAGMTNYGKVTLIDGQTGEPFDKPIAVGVMYMLKLSHMVDDKIHARNVGPYSLITQQPLGGKAQNGGQRFGEMEV;locus_tag=LOCUS_01890;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:57.8%25%2C Eval:0.0e+00%2C partial hit],internal stop codon at [140947:140949](+)%2C[143476:143478](+),MGA_189
sequence1	MetaGeneAnnotator	CDS	143623	143883	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKEIMGLGFNMYMIDETGEKSVINAYDKKDFDADNYEDDEILVKTDTLYIDDEDVDAEFEDLTYVDENDILRSFESENDIDEEE;locus_tag=LOCUS_01900;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:6.7%25%2C Eval:3.5e-43%2C partial hit],internal stop codon at [143476:143478](+),MGA_190
sequence1	MetaGeneAnnotator	CDS	144216	144731	.	+	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVAPYRIAAILDLKAKELEEVVYFVSHIVLEQGNQKHFIEKEVLDLGSSRITKTREKLQLTILDVIDLINDPNHRDTKKANRLLEELKNTAVPFSIDEATSLISKYTGAKFGIGARAVEYLLEKVDLKKEIEAIKVQLENSKKTPNERTKLLKRLETFDALKRSNQRPE;locus_tag=LOCUS_01910;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:13.6%25%2C Eval:4.9e-88%2C partial hit],internal stop codon at [143961:143963](+)%2C[144213:144215](+)%2C[144729:144731](+),MGA_191
sequence1	MetaGeneAnnotator	CDS	144732	145175	.	+	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVMRVIPVIPPDIRPIIQLDGGRFTTSEINDLYRRIIIRNERLKKVKEMGAPSIIVNNEKRMLQEAVDALFDNERKPKLVQGKNKRPLKSLTSVLKGKQGRFRQNLLGKRVDYSARSVIAIGPDLKMYQAGLPREMAITLFKPFVIQ;locus_tag=LOCUS_01920;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:95.2%25%2C s_cov:11.2%25%2C Eval:3.3e-72%2C partial hit],internal stop codon at [144729:144731](+)%2C[145173:145175](+)%2C[145248:145250](+),MGA_192
sequence1	MetaGeneAnnotator	CDS	145419	145793	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVHVPITKEAVAESRALMLGSSAILGPKDGKAIVTPGQDIILGNYYLTTEEKDAQGQGMIFSSLDEAFMAYKSNQVHLNSLIGIALSALPEQKFSDKNQRLNSYLLTTVGKLYFNQIFDDNFP;locus_tag=LOCUS_01930;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:1.5e-62%2C partial hit],internal stop codon at [145173:145175](+)%2C[145248:145250](+)%2C[145791:145793](+)%2C[145812:145814](+),MGA_193
sequence1	MetaGeneAnnotator	CDS	145974	146174	.	+	0	ID=MGA_194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDKMKDLGFSFSTKSGTTISAGDVVAFTHKYDEFKQADQKVEQITDFYNMGMLTNSEKKRRIIEV;locus_tag=LOCUS_01940;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:5.3%25%2C Eval:4.0e-31%2C partial hit],internal stop codon at [145791:145793](+)%2C[145812:145814](+)%2C[146172:146174](+),MGA_194
sequence1	MetaGeneAnnotator	CDS	146250	147473	.	+	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDSGARGNVSNFTQLVGMRGLMNDTKGDIKEIPIKSSFREGLTVSEYFVSTHGARKGMADIALKTADSGYLTRRLVDVSQEIVVVNEDCEPTKGFEVSAIIDTKHDNVIVPLKDRLVGRFTFEDIYDDNKNLIVSANTLIDKNIADKIIMAGISSVIIRSVLTCDNKRGVCQKCYGLNLATASVVNIGEPVGVIAAQSIGEPGTQLTMRNFHTGGVAGNVDITQGLPRIKELLDVTTPKGAVAIISEVDGVVSEIEDYNGVFVINIVTENEEVKKYKTEFNSVLRVEQGSSVVAGQKLTEGAIDLHQLLEFGGIQDVQNYILKEVQKVYRLQGIEISDKYIEIIIKQMLNKVKITDSGDSDLLPGEVITIQNYKEVVQDCIVKSIRPPLSKAQIFGIKKAPLESSS;locus_tag=LOCUS_01950;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:32.4%25%2C Eval:2.9e-222%2C partial hit],internal stop codon at [146172:146174](+)%2C[147471:147473](+),MGA_195
sequence1	MetaGeneAnnotator	CDS	147747	148292	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSLISLFSLITSSSLLVISCTNNYSNTNKIPTIPNTNKKPGIKPEIPNQRIPENVPNSSDNKPEIPKTPDNNNLDPNNQNNHSNDQSNPNYTIPNNITKLVYEPNKIYESEKNPEYFKDSHLFSSDFLLNNSAYTISRSTNKFHTGTHNMNVFLKTGNYNNPVDFRSIYNSNTDNEF;locus_tag=LOCUS_01960;note=WP_011167050.1 lipoprotein (Mycoplasma mycoides) [pid:72.4%25%2C q_cov:100.0%25%2C s_cov:24.2%25%2C Eval:5.8e-69%2C partial hit],internal stop codon at [148290:148292](+),MGA_196
sequence1	MetaGeneAnnotator	CDS	148386	148757	.	+	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKQAYLKNFEEKEIGSSKFLNFDFNSFILKNPFGFLPSNLSQLFYYMNFESISKLFKINNILKIRANFDDEKGEFEVLITDKNNQNYYQKIDQSITNSLKKNLDFYQYIYDRSFSILVGVNK;locus_tag=LOCUS_01970;note=WP_011167050.1 lipoprotein (Mycoplasma mycoides) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:1.3e-45%2C partial hit],internal stop codon at [148290:148292](+)%2C[148755:148757](+)%2C[148821:148823](+)%2C[148869:148871](+)%2C[148974:148976](+),MGA_197
sequence1	MetaGeneAnnotator	CDS	149031	149552	.	+	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTRAKETLLKSSIISDVSDFKPTFKAEEQYLTAPYYTLRYKVSGFKTDTPYAGLVNLEDFNEATRIGSTKNGGADFVILRLKIKKEKLEYILPELNKVIDKPEEKNWHIGLGKNELFTPLKTQFYAGYPSLKRYADYNGIYQPLYEFKGNKSIGGIISTQNRYVNEGNFQSL;locus_tag=LOCUS_01980;note=WP_011167050.1 lipoprotein (Mycoplasma mycoides) [pid:53.2%25%2C q_cov:98.8%25%2C s_cov:23.1%25%2C Eval:3.0e-40%2C partial hit],internal stop codon at [148755:148757](+)%2C[148821:148823](+)%2C[148869:148871](+)%2C[148974:148976](+)%2C[149550:149552](+)%2C[149583:149585](+)%2C[149604:149606](+),MGA_198
sequence1	MetaGeneAnnotator	CDS	149646	149951	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKTVLAQHSSLFTRIEKNEDHKALDEGSSGSMAIDSSFNLIGINYLLTKDDKHNTITNGISLMQGQSTYENGFDGNIRTDFIKKLKKDNLTTIKLNPNKK;locus_tag=LOCUS_01990;note=WP_011167050.1 lipoprotein (Mycoplasma mycoides) [pid:93.1%25%2C q_cov:100.0%25%2C s_cov:13.9%25%2C Eval:9.4e-49%2C partial hit],internal stop codon at [149550:149552](+)%2C[149583:149585](+)%2C[149604:149606](+),MGA_199
sequence1	MetaGeneAnnotator	CDS	150335	150778	.	+	0	ID=MGA_200;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862995.1;translation=MSNRIYIGNDHSAVEMKQAIVKHLQEKNYEVIDLGNNDGKSCNYAKIGQVVAEHVVNDTNSRGIVICGTGIGISIAANKVKTARAALVYEKETAELARIHNDANILALGARIIAISKAINLVDVFLNTPFEGGRHIERVNTLNEYKN;locus_tag=LOCUS_02000;gene=rpiB;EC_number=5.3.1.6;note=WP_020862995.1 ribose 5-phosphate isomerase B (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-78],MGA_200
sequence1	MetaGeneAnnotator	CDS	150762	152003	.	+	0	ID=MGA_201;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167047.1;translation=MNTKINPLIKESLNKELKRQQSHIELIASENYVSQAVLELNGSVLTNKYAEGYPGKRYYGGCEFIDEIESLGIKTAKELFNAEHANIQPHSGSQANDAAYKALLEPKDRVVAMSLDAGGHLTHGYHINFSGNTYDFRFYGVNKDTEQLDYQEIEKIVLEHQPKLIVAGASAYSRIIDFKKFKEIADKVGAYLMVDMAHIAGLVAAGVHPNPMEYADIVTTTTHKTLRGARGGLILCKQEFAKKVDSAVFPGSQGGPLENLIAGKTQALLEASTDEFKEYGKQIVKNTKALANVLQENGLRLVAGGSDNHLINVDVKSTLQITGKKAEKILESIGIICNKNMIPFDTEKPFYTSGIRLGTPAMTTRGFKEEEFKQVGLIIVNALKDPSEENLEKLAKQVNSLCEKFPIYQNIKY;locus_tag=LOCUS_02010;note=WP_011167047.1 serine hydroxymethyltransferase (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-230],MGA_201
sequence1	MetaGeneAnnotator	CDS	152104	152547	.	+	0	ID=MGA_202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFTEIKHPLIIDKLTRMRKTETSSKDFRENLNEIAQLMVYEIFRDLKLEPVEITTPVAKTTGYTINQPVVLVPILRAGIGMLDGIQKLIPTARIAHVGLYRDEETLEIHQYFAKTTKDIDKSYVIVVDPMLATGGSACKAIDIVKQ;locus_tag=LOCUS_02020;note=WP_015545345.1 uracil phosphoribosyltransferase (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:71.0%25%2C Eval:1.2e-77%2C partial hit],internal stop codon at [152545:152547](+),MGA_202
sequence1	MetaGeneAnnotator	CDS	152933	153265	.	+	0	ID=MGA_203;product=MG406 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167045.1;translation=MILIIIFIVLSVIKTLNWINLISLVIAYFCSYIAIFLLFLTKLLIIKYQNPYLVYLMFLLRIGIYVIPLFIALLLSDENIFSYLGILIGYSSNLAIPFFIHKRLEKKGGT;locus_tag=LOCUS_02030;note=WP_011167045.1 MG406 family protein (Mycoplasma mycoides) [pid:92.0%25%2C q_cov:90.9%25%2C s_cov:79.4%25%2C Eval:4.4e-46],internal stop codon at [152927:152929](+)%2C[152930:152932](+),MGA_203
sequence1	MetaGeneAnnotator	CDS	153421	153822	.	+	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGFLVLVNVFVASVENIVVSILGKKYQKLTPYIMYLFAYIFIGCLLSILGLEAQGTSFTVTLSMGMVTFIMIYYFGIKYQKLAFFKRFRNPVELFTQFTPLISISFRLFGNLIGGSIILGLLYGLLIGFQLS;locus_tag=LOCUS_02040;note=WP_011167044.1 F0F1 ATP synthase subunit A (Mycoplasma mycoides) [pid:85.7%25%2C q_cov:100.0%25%2C s_cov:46.3%25%2C Eval:5.6e-57%2C partial hit],internal stop codon at [153310:153312](+)%2C[153820:153822](+)%2C[153859:153861](+)%2C[153877:153879](+)%2C[153925:153927](+)%2C[153928:153930](+)%2C[154042:154044](+),MGA_204
sequence1	MetaGeneAnnotator	CDS	154158	154463	.	+	0	ID=MGA_205;product=ATP synthase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167043.1;translation=MLHTAFISNILANYLGAMSIILPNILAVEGNIKYIGAGLASVGILGTGVGQGLIGQGACLAIGRNPEMASKVTSTMIVSAGISESGAIYSLVIAILLIFVV;locus_tag=LOCUS_02050;EC_number=3.6.3.14;note=WP_011167043.1 ATP synthase subunit C (Mycoplasma mycoides) [pid:91.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-43],MGA_205
sequence1	MetaGeneAnnotator	CDS	154492	155037	.	+	0	ID=MGA_206;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167042.1;translation=MLFQGFNVVINATTQGVPKIVESLFPNLPNFIAHLLATIILVIVLTKLVYKPYKQMIEKQRQKITEVLSDAIEKQTQANIKIKQANTLLEDAKTESVSILKTARMDAEIQKNKIIDNANLQARNIQSYAQNSIKQEKIKAQLEIKNTIVNLAINSAEKILNKEIDKKTNKQLIEEFIKDLD;locus_tag=LOCUS_02060;gene=atpF;EC_number=7.1.2.2;note=WP_011167042.1 F0F1 ATP synthase subunit B (Mycoplasma mycoides) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-86],MGA_206
sequence1	MetaGeneAnnotator	CDS	155039	155584	.	+	0	ID=MGA_207;product=F0F1 ATP synthase subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167041.1;translation=MILKETTINNYATALFNIAVKEKLVDDYIIQVDALIKSLKDKDEFNKLVSFSNKQEKQDAILIIENTFSSFGFDIYLINALKILVENQLFINTRMILKVLYKKLLAYKNIVLGEVYSTEKLTKTQLNAIKKKISNKVNKKVELVNKIDPTLIGGIKVSVEDKVFDGSIKAKLEALKKQMNT;locus_tag=LOCUS_02070;EC_number=7.1.2.2;note=WP_011167041.1 F0F1 ATP synthase subunit delta (Mycoplasma mycoides) [pid:91.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-86],MGA_207
sequence1	MetaGeneAnnotator	CDS	155596	156342	.	+	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFNIKEISEMIEKQIRNYNKEIVQTEQGTVVSVGDGIALIYGLDNAIMGEFLKFPNNVYGMVLNLEESAVGAVILGDETLIREGDIVKRTNKVVETPVGDALLGRVINALSKPIDNLGPINFTKTKPIERVATSVMARKSVSQPLETGILAIDSAIPIGKGQRELIIGDRQTGKTAIAIDAIINQKNKNVKCIYVAIGQKDSTIVQVVEKLKKYGAMEYTVVVNAGASQPAPLQYLSPYVGITIAEE;locus_tag=LOCUS_02080;note=WP_011167040.1 F0F1 ATP synthase subunit alpha (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:47.2%25%2C Eval:6.0e-133%2C partial hit],internal stop codon at [156340:156342](+),MGA_208
sequence1	MetaGeneAnnotator	CDS	156343	156936	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENGSDVLIVYDDLSKHAVSYRQMSLLLRRPPGREAYPGDVFYLHSRLLERAARVNENYGGGSITALPIIETQAGDISAYIPTNVISITDGQIFLSSELFNQGIRPAVDIGPSVSRVGSSAQIKSIKQVSGTLKLELAQYYELESFAKFGSDLDESTKATLDQGAKIIQMLIQKQHNPLEQVDQAILLLTIKSHLIK;locus_tag=LOCUS_02090;note=WP_011167040.1 F0F1 ATP synthase subunit alpha (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:37.5%25%2C Eval:9.6e-103%2C partial hit],internal stop codon at [156340:156342](+)%2C[156934:156936](+),MGA_209
sequence1	MetaGeneAnnotator	CDS	157175	157408	.	+	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNLKGLKTEILSVKNISKITNAMQLVASAKLRKISKKVIDTHNYVSEVYSLFNDIISQTDKSVFLKDSNFETKKTL;locus_tag=LOCUS_02100;note=WP_011167039.1 ATP synthase F1 subunit gamma (Mycoplasma mycoides) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:27.5%25%2C Eval:1.8e-34%2C partial hit],internal stop codon at [157406:157408](+),MGA_210
sequence1	MetaGeneAnnotator	CDS	157631	158017	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTNHEFDEIKIVYTKFINNVTFEPAIIRIFPIVKSELHFTHKQKIIFEPDADQILNNTISIYINAIIYGTVIESQVSEQASRRTAMENATNNGQNLEHELSLKYNRQRQGAITQEISEIVSGANAQS;locus_tag=LOCUS_02110;note=WP_011167039.1 ATP synthase F1 subunit gamma (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:45.7%25%2C Eval:8.7e-66%2C partial hit],internal stop codon at [157406:157408](+),MGA_211
sequence1	MetaGeneAnnotator	CDS	158026	159453	.	+	0	ID=MGA_212;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167038.1;translation=MVSKNITDKKKNQSIGKVIQVLGPVVDVKFSENNIPKIYDALIVDNNGKKLVLEVEQNIGDEIVRTIAMGPTEGLKRGLDVINTNSPITAPTGIEVLGRMFNVLGDPIDEKPDLDVKREPIHKDAPKYEELVTTTEILETGIKVIDLMIPFTKGGKVGLFGGAGVGKTILIQELINNIAKAHNGVSVFAGVGERTREGNDLYHEFIEAGVLNKTCLVFGQMNEPPGARMRVALTGLTIAEYFRDQKNMDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLSTEMGSLQERITSTKNGSITSVQAVYVPADDLTDPAPATTFTHLDARIVLDRSIASLGIYPAVDPLASSSRVLDPEIVGQEHYDIALRVQIALQKYQDLQSIIAILGMDELSEEDKLIVQRARKIRNFLSQSFFVGEKFTGRPGVFVKVNDTVRSFKSILDGEVDYIPETYFLYSSTIDDVIEKYNKDKDK;locus_tag=LOCUS_02120;gene=atpD;EC_number=7.1.2.2;note=WP_011167038.1 F0F1 ATP synthase subunit beta (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-262],MGA_212
sequence1	MetaGeneAnnotator	CDS	159453	159752	.	+	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167037.1;translation=MGIKLKILTPNGTFVENKEVDIINLKTIDGDIGVLANMAPFVTALRNDILNFKEKNTYTYIHVDQGLVVISKNQCKIITENLYLVDKQDRELPTPLKLT;locus_tag=LOCUS_02130;EC_number=3.6.3.14;note=WP_011167037.1 hypothetical protein (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-49],MGA_213
sequence1	MetaGeneAnnotator	CDS	160263	160400	.	-	0	ID=MGA_214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHRTEEYQAQKLHIPYPKKPEEGIPPLLIKKMYEKQIKKPYYAN;locus_tag=LOCUS_02140;note=WP_020862988.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.4%25%2C Eval:3.8e-21%2C partial hit],internal stop codon at [160008:160010](-)%2C[160191:160193](-)%2C[160263:160265](-)%2C[160500:160502](-)%2C[160530:160532](-),MGA_214
sequence1	MetaGeneAnnotator	CDS	160530	161009	.	-	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDYNSSNNRNNHNNYQSNNSQRNNQNDRYYQNDNKNNNYHNQYYDNRYDQNQYSDYDDDRYYDQDYRYDQNYQDQYYDQQEYNLQQVEYNNSNSDQQVKFIPDKKIRRIVRFNSIKSFISIFILVGLIGYFTVFLINHYYQFLYDPNNIKQYHKTLQS;locus_tag=LOCUS_02150;note=WP_020862988.1 hypothetical protein (Mycoplasma mycoides) [pid:91.6%25%2C q_cov:52.2%25%2C s_cov:21.0%25%2C Eval:6.0e-39%2C partial hit],internal stop codon at [160263:160265](-)%2C[160500:160502](-)%2C[160530:160532](-),MGA_215
sequence1	MetaGeneAnnotator	CDS	161354	162379	.	+	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLFKKRKFSPKKITRHKKKTHFANERFIKQVSNLEQNEVLEIMQLQHFGLTNEQYESRLKKYGTNELKKKRFNLIAEFLHAFFGPFNIVLLLISLYNFISYATNGFYQDTNSSDSKFELVGALIILVMVLASGLASFIQSLRSHLVTKKISSIVKSTTNIIRHKNDEDVEDYLKITKRNQLDLIRLGEEIDVKQLVPGDLIYLSSGDMLPADARIIQSTDLFINQSSLTGESIPVEKHANNKKNTNNILDLENICYTGTSVVSGSALAVVLATANDTYFSTISKAILEKRPDSSFTKGIKQVTRMLLIFMLVMVPTVYLAKSIIGTISSGGSFDNIKDNP;locus_tag=LOCUS_02160;note=WP_011167035.1 HAD-IC family P-type ATPase (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:53.0%25%2C Eval:7.9e-183%2C partial hit],internal stop codon at [162377:162379](+),MGA_216
sequence1	MetaGeneAnnotator	CDS	162431	163594	.	+	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPMIVTTNLANGASKMSKQKVVVKQLEAIQSLGAIDVLCTDKTGTLTNDKIELVDYLRVDKKADPTLLKYLYINSYYQTGLKNPMDKAIVDYVNKHNHNFSIQDITKIDEIPFDFNRRKLTIIFDDENEKRFMVTKGSVEEILNSCTRVIQDDKVVNLTDTFKRQIIAYYETINQQGKRLLGVAYKKIRDNQAKFSPKDEESLIFMGFASFLDTPKPSTKQTIKLLKKYGVDLKILTGDSEPITRAICKMVNLDIKGLVTGEEIDAASEYELKKIVEDNNIFVKLNPLQKVKIIQVLKQNNHVVGYMGDGINDAPVLRQSDVAISVNNATEIAKDASDIILLEKSLLVLEKGIIQGRTIFGNILKYIKITTASNFGNALSVLIGTV;locus_tag=LOCUS_02170;note=WP_011167023.1 magnesium-translocating P-type ATPase (Mycoplasma mycoides) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:41.1%25%2C Eval:2.7e-214%2C partial hit],internal stop codon at [162377:162379](+)%2C[163592:163594](+),MGA_217
sequence1	MetaGeneAnnotator	CDS	163595	163897	.	+	0	ID=MGA_218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFSPMAPAQILLQNLIYDFSQFGVALDRVDSTFLTSPQRWQSKDLLPFTTINGSISTIFDLITFAIAGYYFGFITSYNSAIAQNNSLLAAQSLAQFHAC;locus_tag=LOCUS_02180;note=WP_011167023.1 magnesium-translocating P-type ATPase (Mycoplasma mycoides) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:10.6%25%2C Eval:2.1e-48%2C partial hit],internal stop codon at [163592:163594](+)%2C[163895:163897](+)%2C[163982:163984](+),MGA_218
sequence1	MetaGeneAnnotator	CDS	164018	164176	.	+	0	ID=MGA_219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFSIVYISQIGTLVQLQSPGLIYIPISIAIIFSYCLIAQLAKVGYKKVFKK;locus_tag=LOCUS_02190;note=WP_011167023.1 magnesium-translocating P-type ATPase (Mycoplasma mycoides) [pid:88.5%25%2C q_cov:100.0%25%2C s_cov:5.5%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [163895:163897](+)%2C[163982:163984](+),MGA_219
sequence1	MetaGeneAnnotator	CDS	164443	165018	.	+	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALNLKGRSFLKLLDFCPREIRYLLDLSRDLKRAKYTGNEIQTMQGKNVVLLFQKDSTRTRCAFEVAALDQGAHVTYLGPSGSQFGKKESVADTARVLGRMYDAIEFRGYDQAVVEELAKYSGVPVYNGLTNEFHPTQILADFLTVEEYKGNLKGLKFVFAGDTRNNVATSLMIGCAKMGMHFVGAAPKQL;locus_tag=LOCUS_02200;note=WP_011986907.1 ornithine carbamoyltransferase (Clostridium botulinum) [pid:66.1%25%2C q_cov:98.4%25%2C s_cov:56.8%25%2C Eval:6.4e-69%2C partial hit],internal stop codon at [165016:165018](+)%2C[165139:165141](+)%2C[165169:165171](+),MGA_220
sequence1	MetaGeneAnnotator	CDS	165211	165438	.	+	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAIKVAKPDVIFMHCLPSFHDLNTEIGRQIYEKFNIPEMEVTNEVFESKHSVVFEQAENRLHTIKAVMVATIGK;locus_tag=LOCUS_02210;note=WP_001830522.1 ornithine carbamoyltransferase (Staphylococcus) [pid:70.4%25%2C q_cov:94.7%25%2C s_cov:21.3%25%2C Eval:6.3e-24%2C partial hit],internal stop codon at [165016:165018](+)%2C[165139:165141](+)%2C[165169:165171](+),MGA_221
sequence1	MetaGeneAnnotator	CDS	165823	166074	.	+	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFFSICGTTVGLAEEVIAFQMICIPLMVAAGFDKFTGLIAVLIGTGVGVLTSTVNPFAIGIAVTNLNKGLDKQITSVSDGLV;locus_tag=LOCUS_02220;note=WP_020862985.1 YfcC family protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:16.3%25%2C Eval:3.7e-40%2C partial hit],internal stop codon at [165574:165576](+)%2C[165586:165588](+)%2C[165805:165807](+)%2C[166072:166074](+)%2C[166087:166089](+)%2C[166237:166239](+)%2C[166306:166308](+)%2C[166351:166353](+),MGA_222
sequence1	MetaGeneAnnotator	CDS	166585	166980	.	+	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELFVESLSNSLGSLKSPILILLIMFIFFIPLSFLIPSTSGFATAVFPLLGGVVIKNTDILASGSITAFSFASGLVNLITPTSGIVMGSIAVARMDYAKFIKSMAPYMLILTTSSLTLLLIGASIGKTIA;locus_tag=LOCUS_02230;note=WP_020862985.1 YfcC family protein (Mycoplasma mycoides) [pid:89.3%25%2C q_cov:100.0%25%2C s_cov:25.7%25%2C Eval:7.3e-57%2C partial hit],internal stop codon at [166306:166308](+)%2C[166351:166353](+)%2C[166564:166566](+),MGA_223
sequence1	MetaGeneAnnotator	CDS	166993	167430	.	+	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIVIAIGGNALGNSPTEQLEIVKKTAKSLVDFIVQGNDIVIVHGNGPQVGMINNAFDIANKNEVKSPILDFPECGSMSQGYIGYHLQQAIDNELKLRNINKPTVSLITQTLVDKNDAAFLKPTKPIGSFMNESEAKKLAEQNN;locus_tag=LOCUS_02240;note=WP_011166870.1 carbamate kinase (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:46.8%25%2C Eval:8.2e-76%2C partial hit],internal stop codon at [167428:167430](+),MGA_224
sequence1	MetaGeneAnnotator	CDS	167542	167925	.	+	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAGGGGGIPVYLKDDKLVGIAAVIDKDFAAAKIAEIIGAESLIILTAIDKVMINYKKENQQALDQITLAQAQEYIDQNQFAPGSMLPKVQAVMSFVKKTNGKPAYIGSLEQADKVLQNLNGTKFIK;locus_tag=LOCUS_02250;note=WP_011167019.1 carbamate kinase (Mycoplasma mycoides) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:2.0e-62%2C partial hit],internal stop codon at [167428:167430](+),MGA_225
sequence1	MetaGeneAnnotator	CDS	167993	168352	.	-	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFYNKHFLNIKNLDMKLLFEIYNNLNKPIELKNSLLEVYDELFNHMSLLIHALDPEVVVIGGGSLAGNNLLELFQLGVKNKLTDSYKDIVDFKLALLKNDAGMIGAAFYALEQSLKTN;locus_tag=LOCUS_02260;note=WP_013729890.1 ROK family protein (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:37.4%25%2C Eval:2.5e-60%2C partial hit],internal stop codon at [168554:168556](-),MGA_226
sequence1	MetaGeneAnnotator	CDS	168692	168955	.	-	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILGIDLGGTSAKVGVILQNGDLEHSFSITNPKTKIIENLYFEISKILKTLNIDENDIMLVGITAPGFVDHNKGIVVMAPNIENG;locus_tag=LOCUS_02270;note=WP_013729890.1 ROK family protein (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:27.1%25%2C Eval:7.9e-43%2C partial hit],internal stop codon at [168554:168556](-)%2C[168692:168694](-),MGA_227
sequence1	MetaGeneAnnotator	CDS	169552	169692	.	-	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSRVIEVVSNKSYRDFVKEEIFNKLNMNDSDYYLFDKNRKANVFR;locus_tag=LOCUS_02280;note=WP_011167029.1 serine hydrolase domain-containing protein (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:14.2%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [169297:169299](-)%2C[169552:169554](-)%2C[169714:169716](-)%2C[169795:169797](-)%2C[169882:169884](-),MGA_228
sequence1	MetaGeneAnnotator	CDS	169882	170178	.	-	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFVNIEKTINSFIDKKYFKNAAIRIAKDKKIIYSKQFGYNDQNNTILLKGDEIYQAYSMTKPITTLAALLLIDKKLISLDDDLSKYIPSFKNKNIKI;locus_tag=LOCUS_02290;note=WP_011167029.1 serine hydrolase domain-containing protein (Mycoplasma mycoides) [pid:83.7%25%2C q_cov:100.0%25%2C s_cov:30.2%25%2C Eval:2.1e-40%2C partial hit],internal stop codon at [169714:169716](-)%2C[169795:169797](-)%2C[169882:169884](-),MGA_229
sequence1	MetaGeneAnnotator	CDS	170273	171145	.	-	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSATSAFGVLGVAVVLAPIYFCAFYFLIKLFNVKTPGRDGNAEAKLYTKADFKASKGLNVDGSKMSSSTDDKEQARLAKAAAIIEYLGGEENIVDVDSCASRLRLTVVDAKKADIDGIKSLGGTTGALVKGNNIQIVYGGEQEAIKPRMQKLLEQQRQEKMMGHLEMKSEEMKSENMGMTCESDQACDKKDEACGCEKDCMCEEPNKVEEQPVSEMKVEEKVADEMKVEKPKATRAKSTKAKSSASKSTKSTSKSSSKSTKSTSSKTKSTSSKPKTTKAKSTSSKTKTTK;locus_tag=LOCUS_02300;note=WP_020862982.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:93.0%25%2C q_cov:79.0%25%2C s_cov:30.7%25%2C Eval:4.6e-117%2C partial hit],internal stop codon at [171245:171247](-)%2C[171290:171292](-)%2C[171413:171415](-),MGA_230
sequence1	MetaGeneAnnotator	CDS	171413	171697	.	-	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSAGEQAQNAFKESYNAIHGTSHSSFSEIYNAIKAVDSLYSAQGDQFMAQQILANLKTLNFIDAQNLGLNIGRFQSGKFGFMLLGLPAAALAM;locus_tag=LOCUS_02310;note=WP_020862982.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:44.6%25%2C q_cov:88.3%25%2C s_cov:11.1%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [171245:171247](-)%2C[171290:171292](-)%2C[171413:171415](-)%2C[171737:171739](-)%2C[171740:171742](-)%2C[171854:171856](-)%2C[171881:171883](-),MGA_231
sequence1	MetaGeneAnnotator	CDS	172118	172336	.	-	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTMGDVCFANLPVLFCISVALAYTKDSGVAAITALVGFLVLNGIQSALLHDVTTEVMVNGKKETVTHIHLL;locus_tag=LOCUS_02320;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:82.4%25%2C q_cov:70.8%25%2C s_cov:7.2%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [171853:171855](-)%2C[171880:171882](-)%2C[172352:172354](-),frameshifted%2C insertion/deletion at around 172098,MGA_232
sequence1	MetaGeneAnnotator	CDS	172352	172540	.	-	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTQTNKSSFKDKLKAFGANIMPTLSKLSKAFLLPIALLPIAGVFLGVGATITANVSNTSGF;locus_tag=LOCUS_02330;note=WP_020862982.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:83.3%25%2C q_cov:96.8%25%2C s_cov:8.1%25%2C Eval:4.3e-20%2C partial hit],internal stop codon at [172352:172354](-),MGA_233
sequence1	MetaGeneAnnotator	CDS	173447	173893	.	-	0	ID=MGA_234;product=SsrA-binding protein SmpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167013.1;translation=MSEHLIVKNKKAYFNYEIIQTYQAGIVLNGPEIKSIRNHDVSINEAFVLIRKKEIYILNMNVKKYQFANYIKGLEETRTRKLLLHKKEIIKILNKIKQENLTIIPVKLYFKNDYVKLEIALAKGKKLHDKRQTIKKRDTERKELKDYK;locus_tag=LOCUS_02340;gene=smpB;note=WP_011167013.1 SsrA-binding protein SmpB (Mycoplasma mycoides) [pid:94.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-74],MGA_234
sequence1	MetaGeneAnnotator	CDS	173903	174430	.	-	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKAKYGLENIGHFGLASDCYTHFTSPIRRYPDLLVHRYLKQYLITKDLEKTSLENNTNYVNKVSNIINDTETKSVECEREVIKACMCEYMLNKVNNTYTATISAVLKFGIFIQLDNLVEGLVHISNMNSDLVYDETNRILIKPDNTYYRMGQKVKVKLINVDIKKRTIDFVLIE;locus_tag=LOCUS_02350;note=WP_011167012.1 ribonuclease R (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:7.4e-95%2C partial hit],internal stop codon at [174584:174586](-),MGA_235
sequence1	MetaGeneAnnotator	CDS	174584	174859	.	-	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDIAYELYKKLEDLKAKKGTISFDVREPKIILDKNLNVIDIKTKTADQAEKLIEQFMVSCNEAVAELIYQKDLPFLYRNHNKPDEDELIN;locus_tag=LOCUS_02360;note=WP_011167012.1 ribonuclease R (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:3.4e-46%2C partial hit],internal stop codon at [174584:174586](-)%2C[174884:174886](-),MGA_236
sequence1	MetaGeneAnnotator	CDS	174884	176017	.	-	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKIIEILKKNHHKISLNKLLTYFKALDYSLVKNYLDQLEKNNNIAISLENNIYLLDEIYKKGTIKLNPKGFGFINDVNDLTTEDHFVAGVDLNNSIHQDEVVYILKQEEDNRLKAIVIDLIKRNKVYLIGEINRSFDKRFLDFIPNDKSFDSFRFVIVNKNEFKYEEFNIIKAKIISCKERKIFIRLIKIIGNSKKASDRILAIAEEFDIKTSFDKQTLDNAKQINLATDKLEKEFLKRQNNSLINKTIVTIDGIDSKDLDDAICVEKLENNNYKLFVAIADVSYFVRYKTALDKEALLRGNSTYLANKVIPMLPNILSDDLCSLNPNTKKLVFVCEMEFDNNANMLNKKVYESVIISKARLNYDEVNNYFKTKT;locus_tag=LOCUS_02370;note=WP_011167012.1 ribonuclease R (Mycoplasma mycoides) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:53.6%25%2C Eval:1.2e-203%2C partial hit],internal stop codon at [174884:174886](-),MGA_237
sequence1	MetaGeneAnnotator	CDS	176125	176337	.	-	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINLLASTTKLAQQLILGFEIFIFIIAFIMIAIGLLQNKQSQTGLSALNGGNEELFSNSKERGLDKTLSI;locus_tag=LOCUS_02380;note=WP_011182965.1 preprotein translocase subunit SecG (Mesoplasma) [pid:67.2%25%2C q_cov:82.9%25%2C s_cov:65.9%25%2C Eval:9.9e-14%2C partial hit],internal stop codon at [176125:176127](-),MGA_238
sequence1	MetaGeneAnnotator	CDS	177164	177646	.	+	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGFLLYGGFYLPFYLSARGKLPNTSDIIRLILRDKVIHNYYSGYKYQKKVAKLPVEKQAEMKEFVFKLLYELIDLETAYLKELYAGFDIVDDAIRFSVYNAGKFLQNLGYDSPFSEEETRIEPEIFNQLSARADENHDFFSGNGSSYVMGVSVETEDED;locus_tag=LOCUS_02390;note=WP_011167011.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:47.2%25%2C Eval:4.6e-87%2C partial hit],internal stop codon at [177065:177067](+)%2C[177644:177646](+),MGA_239
sequence1	MetaGeneAnnotator	CDS	177664	178110	.	+	0	ID=MGA_240;product=class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167010.1;translation=MHSNVKKVTDKDVIKPVGIPFVVYFSSISNNTHRFIQKLEIENIRIPYELDQSISVDRDYVLVTPTYSGGGEYVEGAVPKQVIKFLNNKENRSFCRGVISSGNTNFGDTFGIAGPIISKKLNVPFLYQFELLGTQHDVSQIKQILLKF;locus_tag=LOCUS_02400;gene=nrdI;note=WP_011167010.1 class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:94.3%25%2C Eval:1.3e-79],MGA_240
sequence1	MetaGeneAnnotator	CDS	178124	179728	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENKNTIVLDDVDDEYIKLNARSKIFSKDQDNFQLDVKAAELYLKNYIEPRMKKFSSLKERLDYLLENQYYDSEILNKYSFDQINQLNDYAYSFNHHFPSFMGALKFFNAYGLKTFDTTMYLETYTDRVLMNALFLGNGNFTKAKNLLKDMMLGRFQPATPTFLNAAKKHRGEYVSCYLLRTEDNMESICRTISTSLQLSKRGGGVAICLTNLRETGSPIKNISGLSSGPIPVMKILEDSFTYADQLGQRQGAGAVYISAHHPDIISVLDTKRENADEKIRIKSLSLGLVIPDITFELARDNKDMALFSPYDVQKVYGKPLSDISITEKYYEMLENPNIKKTYISARKFFLTVAELHFESGYPYILFEDTVNRRNAHDKKGRIIMSNLCSEIVQVSTASEYSSDLSFVKTGEDICCNLGSLNIDKMMKSGKEFSDSIYNAISALDIVSRNSDLSAAPSIQKGNAQNHAVGLGAMNLHGFLATNKIMYDSPEAVDFTNMFFYTVAYNAFKASNKLAQEFEKFASFDESRFADGS;locus_tag=LOCUS_02410;note=WP_014584346.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mycoplasma leachii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:74.2%25%2C Eval:2.5e-304%2C partial hit],internal stop codon at [179726:179728](+)%2C[179762:179764](+)%2C[179834:179836](+),MGA_241
sequence1	MetaGeneAnnotator	CDS	179888	180286	.	+	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVAPTGSISYLSSCTPSLQPVVSTVEVRKEGKLGRVYVPAYQINFDNMGYYAMGAYELGPDPIINIVAAAQQHVDQAISLTLFMTDKATTRDLNKAYVNAFKQGCSSIYYVRIRQDVLENSENYECDACKI;locus_tag=LOCUS_02420;note=WP_014584346.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mycoplasma leachii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:18.3%25%2C Eval:2.0e-70%2C partial hit],internal stop codon at [179726:179728](+)%2C[179762:179764](+)%2C[179834:179836](+),MGA_242
sequence1	MetaGeneAnnotator	CDS	180394	180606	.	+	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKNKKPKYNKEKTICKEIGYFLNKNNEYQIHPFPSTVNKVPKKLPEFITNLTLAFWNNENEIICNLDK;locus_tag=LOCUS_02430;note=WP_011166410.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:51.7%25%2C q_cov:85.7%25%2C s_cov:37.3%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [180604:180606](+)%2C[180679:180681](+)%2C[180754:180756](+)%2C[180829:180831](+),MGA_243
sequence1	MetaGeneAnnotator	CDS	181113	181331	.	-	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNTDGDTFIFTPPFLKNILYNYSIFYLSNYVLEILEINFFGKYFLFLSIFELFEKLLNKLTFDTFQDEIS;locus_tag=LOCUS_02440;note=MGA_244
sequence1	MetaGeneAnnotator	CDS	181273	181626	.	+	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFKNGGVKMKVSPSVFSNKRTKISELGKDIFKNERMEFNHKYGLDGLVMLNNIKDNAIPVVFFDPQYRGVLDKLSYGNEGKRQIKRSELQQMTEEKIVHFIREMDRVLIPTGHLFL;locus_tag=LOCUS_02450;note=MGA_245
sequence1	MetaGeneAnnotator	CDS	182019	182240	.	+	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALIEKRKKERITSGSYERVFGNKELGSLISMVHSTSISNGNELEKIILNKCKKVVKDAKELNSILQKEFDDS;locus_tag=LOCUS_02460;note=MGA_246
sequence1	MetaGeneAnnotator	CDS	182538	182696	.	+	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGEEFCDLLNISKQEIQKERQRDSEKNLNFFIAELLKIDDVRNRIIEELSK;locus_tag=LOCUS_02470;note=MGA_247
sequence1	MetaGeneAnnotator	CDS	183153	183353	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEFNNKRHKVTIIPSGVFNPKVKNIIGNGTVINLKSLVNEIKRLNESNISTDNVFISDRAHLIFD;locus_tag=LOCUS_02480;note=WP_011167008.1 adenylosuccinate synthase (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:15.3%25%2C Eval:3.1e-31%2C partial hit],internal stop codon at [183060:183062](+)%2C[183351:183353](+),MGA_248
sequence1	MetaGeneAnnotator	CDS	184858	185202	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNYANLDPQIELYVANKLNMNIDSLSTQVSQRDRHIFLVEVLANIASTLEKISTEIRLFQRSDVNELAEGFLKNQKGSSSMPHKKNPISSENIAGLSRYIKSIVHIVLENNNL;locus_tag=LOCUS_02490;note=WP_020862972.1 adenylosuccinate lyase (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:26.4%25%2C Eval:7.4e-57%2C partial hit],internal stop codon at [184567:184569](+)%2C[184777:184779](+)%2C[185200:185202](+),MGA_249
sequence1	MetaGeneAnnotator	CDS	185263	185607	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVYILKRMNETLTNLVINKTQMLEHIKQAKNIYFSQRVLTFILLEQTNVTRDQVYDLIQQITFKCSKNNLDFKTEVLNSKLTEFVSVKKIEQLFDDQFFLRHVDYIFNRVFNK;locus_tag=LOCUS_02500;note=WP_020862972.1 adenylosuccinate lyase (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:26.4%25%2C Eval:2.1e-56%2C partial hit],internal stop codon at [185200:185202](+),MGA_250
sequence1	MetaGeneAnnotator	CDS	185643	186086	.	+	0	ID=MGA_251;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167006.1;translation=MYDLKNIKKVLFTKEQINERIKQVANQVKQYYLEHPPVNGPLITVGLLKGCVIFNTEFVLNFDYPIQMDFMAVSSYNGMQSTGAIKIKLDTSLDLTNRDVLIVEDMVDTGLTLSKVKEHIIYKGANSVKVVTLVDKKDFHTVDFTPD;locus_tag=LOCUS_02510;gene=hpt;EC_number=2.4.2.8;note=WP_011167006.1 hypoxanthine phosphoribosyltransferase (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:80.3%25%2C Eval:2.1e-79],internal stop codon at [186084:186086](+),MGA_251
sequence1	MetaGeneAnnotator	CDS	186450	186782	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVKQISDVLDIYKNESLKQINSDNVVVIKASGLSNIDINSLQKIKENRENKLNKKIEENSKLIIDKLTEKISSVVSNKIINFETISSDKTNLKDDIFSKQITKDFIKEK;locus_tag=LOCUS_02520;note=WP_011167005.1 hypothetical protein (Mycoplasma mycoides) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:42.4%25%2C Eval:1.8e-47%2C partial hit],internal stop codon at [186435:186437](+)%2C[186780:186782](+)%2C[186855:186857](+)%2C[186942:186944](+),MGA_252
sequence1	MetaGeneAnnotator	CDS	186999	187133	.	+	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSSKTDTNLKINKIVYLVSFNANVLNFKDAKNVAFYIEHDLNN;locus_tag=LOCUS_02530;note=WP_011167005.1 hypothetical protein (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:17.1%25%2C Eval:2.5e-17%2C partial hit],internal stop codon at [186780:186782](+)%2C[186855:186857](+)%2C[186942:186944](+),MGA_253
sequence1	MetaGeneAnnotator	CDS	187148	187495	.	+	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNDNKTIVSSNKDQLEGLKNIVAITACAAGVAHTYMAADSISKAAKALNINVHVETQGTIGAENVISDKQLQQADLVIIAADVKIDTSRFNGKKIYITGVNDAIKNPELLIRTA;locus_tag=LOCUS_02540;note=WP_011167004.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:18.8%25%2C Eval:6.9e-55%2C partial hit],internal stop codon at [187493:187495](+)%2C[187601:187603](+)%2C[187706:187708](+),MGA_254
sequence1	MetaGeneAnnotator	CDS	188027	188299	.	+	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIPIISVFIISTFVKFVIGAPIANLVLGLFDGLSALQDKFAGTSFVIALVVSMMIAFDLGGPFNKTALVFGTVVFYQSLAQVLSNGQTF;locus_tag=LOCUS_02550;note=WP_011167004.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:93.3%25%2C s_cov:13.7%25%2C Eval:1.8e-39%2C partial hit],internal stop codon at [187850:187852](+)%2C[187994:187996](+)%2C[187997:187999](+)%2C[188297:188299](+),MGA_255
sequence1	MetaGeneAnnotator	CDS	188360	188632	.	+	0	ID=MGA_256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLATLLFKKKFTQNERVMGKAAFAQGIVGITEGAIPFAATDPIRVIFANVIGAAVAGVGVTLTNAKFAAGLGSPIGVFLGYIQLDGILG;locus_tag=LOCUS_02560;note=WP_011167004.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:88.9%25%2C q_cov:100.0%25%2C s_cov:14.7%25%2C Eval:5.8e-38%2C partial hit],internal stop codon at [188297:188299](+)%2C[188630:188632](+)%2C[188642:188644](+)%2C[188849:188851](+)%2C[188852:188854](+)%2C[188897:188899](+),MGA_256
sequence1	MetaGeneAnnotator	CDS	190333	190521	.	+	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNLEKQGEISSKTKGFYSSKIIINNLKIDPFKFEILDIVQSDKKPTNSSFNNIKTNRFDI;locus_tag=LOCUS_02570;note=WP_011167003.1 glycosyl hydrolase (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:7.8%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [190519:190521](+),MGA_257
sequence1	MetaGeneAnnotator	CDS	190588	190869	.	+	0	ID=MGA_258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYAQHDFGDSYDYSPLTETNQIISKLIDIKIDKVEYSSNNNVLIQLKNTYQIPYDTTKTKYISQEFDISLLFTNDPIIKIKINTLNKATQIR;locus_tag=LOCUS_02580;note=WP_011167003.1 glycosyl hydrolase (Mycoplasma mycoides) [pid:93.5%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:4.2e-44%2C partial hit],internal stop codon at [190519:190521](+)%2C[190867:190869](+)%2C[190972:190974](+)%2C[190987:190989](+),MGA_258
sequence1	MetaGeneAnnotator	CDS	191676	191939	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEIFNINHVFIDVIANSKKQAFEIIALKFHLLGFTTDKNKALKGLKKREKEGSTGFNDGIAIPHAKIKEITKPGVFVFKFKNGVE;locus_tag=LOCUS_02590;note=WP_011167001.1 PTS sugar transporter subunit IIA (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:57.2%25%2C Eval:4.6e-43%2C partial hit],internal stop codon at [191937:191939](+),MGA_259
sequence1	MetaGeneAnnotator	CDS	192121	193014	.	+	0	ID=MGA_260;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013448125.1;translation=MRLFSMVLVFDVGGMSTKIALIDSKTDQIIIKDQIIYSNFINGQSLLFEIKKKINQFKNNDLKAICISSCGIINSISGEISGSSAIKDYYLINYKKDLKEFNIPIFIENDANCAAICESEIGVVKNNKNAVFLVIGTGIGGAIIINKMLYKGSNLFAGEFGCSLAKIQNNQYINASESYSAKAIETNYFTLTNKKITAKEIFNKYKEDKVARKVINKTINGLCKLMINITTIIDPEVFVIGGAISQNQLFINLLNKKFKKYLIMSNINLNIKIKPAMFFNDANIYGAYLLYKKDLYV;locus_tag=LOCUS_02600;note=WP_013448125.1 ROK family protein (Mycoplasma leachii) [pid:87.0%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:8.9e-140],MGA_260
sequence1	MetaGeneAnnotator	CDS	193826	193969	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEYDQSELNEIKKTRIDFLAVNYYQPARVQAPNNNLNNSNDLKLEN;locus_tag=LOCUS_02610;note=WP_014584605.1 glycoside hydrolase family 1 protein (Mycoplasma leachii) [pid:97.0%25%2C q_cov:70.2%25%2C s_cov:7.1%25%2C Eval:7.3e-12%2C partial hit],internal stop codon at [193535:193537](+)%2C[193967:193969](+)%2C[194018:194020](+)%2C[194087:194089](+)%2C[194249:194251](+),MGA_261
sequence1	MetaGeneAnnotator	CDS	194114	194251	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDENRFLNKQGYIDDQYRIDFIKEHLIYLYKAIEQGSNCFGYHM;locus_tag=LOCUS_02620;note=WP_014584605.1 glycoside hydrolase family 1 protein (Mycoplasma leachii) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:9.7%25%2C Eval:8.4e-21%2C partial hit],internal stop codon at [193967:193969](+)%2C[194018:194020](+)%2C[194087:194089](+)%2C[194249:194251](+)%2C[194267:194269](+)%2C[194273:194275](+)%2C[194357:194359](+),MGA_262
sequence1	MetaGeneAnnotator	CDS	194397	195185	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKKLGISVYCKKANFEQIIEYLKLARSYNFEILFISFVHLLKTDYFKNIDVIKKAKELNYYVIADFDQTSLNNLTKSNDLKTIKEIGIDCIRFDQQIDAQSLANLTYNPYEIDVQLNISNSFNFLDNVLDFKPILTRLSGSHNFYLLKDSALDIDFFNKTTDKFIRKNLNTSAFISSQIANITLADNYTKAVSLEFFRNIDTISQAKYLFYSNKINNVIIANMFASKKELEQLSLLNKDHLTLRINNLQKISKTEKEILL;locus_tag=LOCUS_02630;note=WP_020862965.1 MupG family TIM beta-alpha barrel fold protein (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:72.6%25%2C Eval:5.0e-141%2C partial hit],internal stop codon at [195183:195185](+)%2C[195252:195254](+),MGA_263
sequence1	MetaGeneAnnotator	CDS	195769	195912	.	-	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSLIDSTNLKLLIKNNLTNKINDRTVYIKSIIKSYEYEGFKIDIK;locus_tag=LOCUS_02640;note=WP_011166997.1 Fic family protein (Mycoplasma mycoides) [pid:87.2%25%2C q_cov:100.0%25%2C s_cov:24.7%25%2C Eval:3.8e-16%2C partial hit],internal stop codon at [195946:195948](-)%2C[195991:195993](-),MGA_264
sequence1	MetaGeneAnnotator	CDS	195991	196140	.	-	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCLARYLKQNLELVDNMKQDTFDQIIDKYVEMNICHPFREGNGRSMRI;locus_tag=LOCUS_02650;note=WP_011166997.1 Fic family protein (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:25.8%25%2C Eval:2.7e-22%2C partial hit],internal stop codon at [195946:195948](-)%2C[195991:195993](-)%2C[196273:196275](-),MGA_265
sequence1	MetaGeneAnnotator	CDS	196693	197145	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDGYMKKLLALLAVTSILTSSGLTYVIHENVTRKSNRVDERKTFEQELKDLSIKLDNYKKNLYSTDKKFKNLTAEDILNNGTIRSLEKDLAYINKQIEANNNEITAKNDQIKKLTEDIKTAQDTIKKLEKENPTNKTKIEELKNSKKE;locus_tag=LOCUS_02660;note=MGA_266
sequence1	MetaGeneAnnotator	CDS	197551	198807	.	+	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESQINKLSESKKNLEERRQILELDAQRAVKHLVDKIKELYDLIDKTNKEINKLNKESDDLKQELIQLNTNKKYLEMQKNKITGPLEEKIKKEKELQEKLKDIKDTLSKLDLKKEKLKNLEKELKEKETDIDNLNKEDKKIQEEIKKITEEVSKEQKTLLSKKSKVDELKKQIDKKDAELEQIKKDISSKANEIEGLNSQIKNLEKNKTEKESRLAELEREHKESDKQLEAEVTNLNKAIVSANNEKQDKENQKTVFESKLEKIKKEVAVEKEKKNKLEIEIEKENSNIKEKEKLILEQDSKLKENKKQNETLKNEISKTKEDIKEAERIVSEAPRRKDELQEADVTIHKVLEEQNREKETLKNKIIEKNKQIDEVKENIRKVERDKESIEKKKIARNRRVRSLEKEIQSGKNEYKKI;locus_tag=LOCUS_02670;note=WP_010979293.1 hypothetical protein (Sulfurisphaera tokodaii) [pid:21.0%25%2C q_cov:70.3%25%2C s_cov:84.9%25%2C Eval:2.8e-10%2C partial hit],MGA_267
sequence1	MetaGeneAnnotator	CDS	199246	199797	.	+	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRQIASVEQEVARANDEVEKAKRASLNSDEQLKKAEQINTELESKLKLEKDKKASNQKIKEEYEREKLQLEKELDEKTQQKNAIKSKLEEAQAENKKILESITKQNEVFEALQKQYNELKEEFTGFNIFKEEDIKEFITKINSFKTNLDNEYINKAKDFADQLAKYRDKLYEIKKEIEKLNA;locus_tag=LOCUS_02680;note=MGA_268
sequence1	MetaGeneAnnotator	CDS	199828	200511	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAVLIGLTLFTTSGVSYVAYDNITSISANQHNNRKNLLSEIDKIEKDIKDKESNSDKLRLGKLDKEISIKNFQASIDKIKKQIAEKQDQIKIIKVKRDKLAKDFAEVDKKLAPLKELDSKQQDQIKKLEDKITSDKKSIEENKKILVKETEKLTSLTKELKDSDAVLIKKQSELKTIQDKLADFEKIAKELEEKQNELNNAREKLATLGLIPKELVEAIKQKD;locus_tag=LOCUS_02690;note=WP_011962182.1 ATPase (Flavobacterium psychrophilum) [pid:30.6%25%2C q_cov:77.1%25%2C s_cov:14.8%25%2C Eval:4.0e-08%2C partial hit],MGA_269
sequence1	MetaGeneAnnotator	CDS	201355	202890	.	+	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKETVSEFIKEKEKINKQIQNINEETNKQNDLLEKTKKEETNLISTKEELKRSQVEKDREYEEILSNLSKEENELKVNTSEKEKYAKEFEKANRQALEKQKELSVFENKVIALEKVRDQKNKENSSIRKQVDSLTRMIVSKNEDLNKAKTEKADLEKEISNIDKQIESTIQKINKDKQDNKDLISKLTKELEEKRKDIDRLKKSADDIKDKTTPISAIVNSRKQELDMLIKQHKELKETVKSLENKLTTETTNLEKMNSEIEPTIVELGKKNEEGKDIFLSITKLQKQVEYLSTIDEQLSKEKTSLENKLRIVEKEILEKKLSKSSDDIKNASATIEGLKKFTEFLNKQTEEEKEELAIVVKKNQELQSEIEKESKIVESAEAANKRLKREDKELKDKLSELVNKKNKLIEKIDEIITLSVDLENIYRNNLNIAGKAKIEIELAKRTLQTYVETPVDQYKNDLNKIRRTHFKAIVKCYKDITDNEQKAAKKLEQFKTSIEDLNKQIEEFNK;locus_tag=LOCUS_02700;note=WP_010870839.1 SMC family ATPase (Methanocaldococcus jannaschii) [pid:20.5%25%2C q_cov:93.9%25%2C s_cov:54.9%25%2C Eval:1.4e-14%2C partial hit],frameshifted%2C insertion/deletion at around 201594%2C201643,MGA_270
sequence1	MetaGeneAnnotator	CDS	203289	203474	.	+	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGHSMGSFLARSYAIKYSNTIKGLILSGTNQTNSFTLLSALLLTKLTSLFLKEKQPNKII;locus_tag=LOCUS_02710;note=WP_011166996.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:85.2%25%2C q_cov:100.0%25%2C s_cov:20.3%25%2C Eval:2.0e-22%2C partial hit],internal stop codon at [203022:203024](+)%2C[203214:203216](+)%2C[203472:203474](+)%2C[203535:203537](+),MGA_271
sequence1	MetaGeneAnnotator	CDS	203622	203873	.	+	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKGMLFNLKTKNIKKMNHDLRILLLTGSDDPVSHYSKDVIKLNNKLEKLGYNSKLIIYKDSRHEILNELDKDLVIRDILKFM;locus_tag=LOCUS_02720;note=WP_011166996.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:27.6%25%2C Eval:1.7e-40%2C partial hit],internal stop codon at [203472:203474](+)%2C[203535:203537](+),MGA_272
sequence1	MetaGeneAnnotator	CDS	204060	204218	.	+	0	ID=MGA_273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAEQGISKSVVHTKYDPEFKLHVINHKKEYNLSYPETIKLFSIKNSSTVAL;locus_tag=LOCUS_02730;note=MGA_273
sequence1	MetaGeneAnnotator	CDS	204440	204670	.	-	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYRLSKLDIKEHNLDVVDMESFALFYLANHFNKKAATILTVSDNLNDHSNDLTAKQREIATLKMYQDVLEKLFAN;locus_tag=LOCUS_02740;note=WP_011166995.1 purine-nucleoside phosphorylase (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:35.0%25%2C Eval:1.4e-36%2C partial hit],internal stop codon at [204734:204736](-),MGA_274
sequence1	MetaGeneAnnotator	CDS	204734	204913	.	-	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQPSIAIYVHELFNDHNVNTIIRVGTCGTYNNDIKIGSVIEAKNAFSEVNIFEPNKTG;locus_tag=LOCUS_02750;note=WP_011166995.1 purine-nucleoside phosphorylase (Mycoplasma mycoides) [pid:94.9%25%2C q_cov:100.0%25%2C s_cov:27.2%25%2C Eval:2.8e-27%2C partial hit],internal stop codon at [204734:204736](-)%2C[205022:205024](-),MGA_275
sequence1	MetaGeneAnnotator	CDS	205296	205481	.	-	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFENNSFILSINVLEKTFKKLLINYFFIIFRSKILIDLLKTYIRTEDDNLVFNTLLTRYNK;locus_tag=LOCUS_02760;note=WP_011166994.1 hypothetical protein (Mycoplasma mycoides) [pid:90.2%25%2C q_cov:100.0%25%2C s_cov:18.7%25%2C Eval:1.3e-24%2C partial hit],internal stop codon at [205536:205538](-)%2C[205647:205649](-),MGA_276
sequence1	MetaGeneAnnotator	CDS	205647	206093	.	-	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNFDIYLDFINKEVNLLTKNSFFTNIINQNKFKNEFLQKVLDHKHRHRLVLNTNFDINNDFIIKTNPTIFSDILRIASINRFFINQQIDLNKYKFKDVFIISDKFEFVITNKNQRIYKIPKDQLEIDNKPVFIDLMNEKTYLLTVLN;locus_tag=LOCUS_02770;note=WP_011166994.1 hypothetical protein (Mycoplasma mycoides) [pid:91.9%25%2C q_cov:100.0%25%2C s_cov:45.4%25%2C Eval:4.2e-75%2C partial hit],internal stop codon at [205536:205538](-)%2C[205647:205649](-)%2C[206145:206147](-),MGA_277
sequence1	MetaGeneAnnotator	CDS	206430	207128	.	+	0	ID=MGA_278;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166993.1;translation=MIKEQRYKEILKKLEINELLSLDFLSTDLNIPLTTLRRDLKELEQRHKVIRTHGGVQLNKSNLIVEDYLDNKINLNIQAKQQIAIKALKKIKPKTCIFLDSGSTTYYLAKILDPNLDLKIVTNSILNVQELSKNNHQNIYLLGGKYQVVTSSILGYQAVNDLKNYSFDLSFIGINAVDDQNNIYTTSDDHAQLKIQVIKNSNKSYGLVDQSKKHSKSFYKFATNLELELIED;locus_tag=LOCUS_02780;note=WP_011166993.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:88.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-110],MGA_278
sequence1	MetaGeneAnnotator	CDS	207128	207997	.	+	0	ID=MGA_279;product=1-phosphofructokinase family hexose kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166992.1;translation=MIYTITLNPAIDCVIETNQIDFNNTNYYSNSYSLIGGKGINVAIILNNLKNDVISTGFLGKNNSDQFFDKFIELNLKNHFFLYDGVTRTNFKIKNLNTFDEIELNGVGCDLKSSYLNKLLKYLKDNLNKNDIVIASGSINKSFNDNVYQIIGDLVNKKQALFILDTSKKYLLEGLKTKPFLIKPNISELFAVFNEPISYEFDQIYKKIKQLQSLGARNILLSMASKGSYYFSESNDIYKIGVGQGKLVNSTGAGDSMLAGFIHGLNQQLDIIKTLKYAASCGSSTAFSK;locus_tag=LOCUS_02790;note=WP_011166992.1 1-phosphofructokinase family hexose kinase (Mycoplasma mycoides) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:92.9%25%2C Eval:4.1e-150],MGA_279
sequence1	MetaGeneAnnotator	CDS	208066	208332	.	+	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIKDLFNQNTSFFKQEFKTKTQIIDFLVSKLFEQKIISKKTAVLNAIKTREKLESTAIGDGIAIPHTLNEAVLKPTVCFISLKNPIK;locus_tag=LOCUS_02800;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:94.3%25%2C q_cov:100.0%25%2C s_cov:13.0%25%2C Eval:1.3e-40%2C partial hit],internal stop codon at [208330:208332](+),MGA_280
sequence1	MetaGeneAnnotator	CDS	208723	209082	.	+	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILAHDKAIEGMSRFNNCKVIDTSTKDAIYNGKELISNFDTHPKLKEIKNIKADDSNVGELSLKKFKDFKGNLLGGVSRMLPFVVAGGIILGIAFLLDFITGNGNAKGDFGTVNKVSG;locus_tag=LOCUS_02810;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:17.6%25%2C Eval:3.8e-61%2C partial hit],internal stop codon at [209080:209082](+)%2C[209242:209244](+)%2C[209254:209256](+),MGA_281
sequence1	MetaGeneAnnotator	CDS	209107	209244	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMMMVPILGGYIAYAIVGPQGLMPGVVAGLLADNTGGFAYGTIGS;locus_tag=LOCUS_02820;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:6.6%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [209080:209082](+)%2C[209242:209244](+)%2C[209254:209256](+),MGA_282
sequence1	MetaGeneAnnotator	CDS	209308	209736	.	+	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGGYLAAFIVFGLTIGMQKFKKPFHGVRDIVFIPILSLLGISLTMFVLNIPLGYLLYGIQLGLTYMAKNNLLIILGAIIGLMMCVDMGGPINKIAYVLGTASVAGTFGQEAIFTNIMAASMAGGMIPPLGIALCTVLFKKV;locus_tag=LOCUS_02830;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:91.5%25%2C q_cov:100.0%25%2C s_cov:20.9%25%2C Eval:3.8e-67%2C partial hit],internal stop codon at [209080:209082](+)%2C[209242:209244](+)%2C[209254:209256](+)%2C[209734:209736](+)%2C[209770:209772](+),MGA_283
sequence1	MetaGeneAnnotator	CDS	209815	210054	.	+	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTDPKHISVSALSGGFVTGLLVGAFKITLPAPHGGIFVFPLLNSELFTQHSVAKGMGIALFILAILIGTLVMTLILGF;locus_tag=LOCUS_02840;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:93.7%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:3.9e-34%2C partial hit],internal stop codon at [209734:209736](+)%2C[209770:209772](+)%2C[210052:210054](+),MGA_284
sequence1	MetaGeneAnnotator	CDS	210275	210430	.	-	0	ID=MGA_285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIEIGAGRFKKTDKIDHGAGIYFDKQYGDYVNAGDTIMTLYTNREINPK;locus_tag=LOCUS_02850;note=WP_011166990.1 thymidine phosphorylase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:4.8e-24%2C partial hit],internal stop codon at [210212:210214](-)%2C[210275:210277](-)%2C[210536:210538](-),MGA_285
sequence1	MetaGeneAnnotator	CDS	210725	211054	.	-	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIAQSDNIVPADKKIYALRDVTGTIDSMPLIVASIMSKKMIVENDGLILDVKTGNGAFMTTIEDAKDLANRMIEVGKQYNRKVAVVLTNMEKPLGRAMGNALEVKEA;locus_tag=LOCUS_02860;note=WP_011166990.1 thymidine phosphorylase (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:1.3e-53%2C partial hit],internal stop codon at [210536:210538](-)%2C[210725:210727](-)%2C[211106:211108](-),MGA_286
sequence1	MetaGeneAnnotator	CDS	211106	211384	.	-	0	ID=MGA_287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASFCMATYFTDMTAKETAYLTKAYIESGDRYDLSKVSGFKADKHSTGGVGDKTSLVYAPLVASYGIKVCKLSGRGLGKTGGTIDKLESFPG;locus_tag=LOCUS_02870;note=WP_011166990.1 thymidine phosphorylase (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:21.1%25%2C Eval:1.4e-47%2C partial hit],internal stop codon at [211106:211108](-)%2C[211427:211429](-),MGA_287
sequence1	MetaGeneAnnotator	CDS	211780	212226	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKFGTAGIRGILGAGPGRFNVYTIKKVTIAYAKLLQTKYSNDLNKGVVIGHDNRHNSKKFAKLVADILTSFNIKAYLFKNNDLQPTPVVSFATKALNCIGGIVITASHNPAEYNGYKIYDPYGCQLMPHDTDVIASYMNEITNILD;locus_tag=LOCUS_02880;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:26.5%25%2C Eval:3.6e-82%2C partial hit],internal stop codon at [211696:211698](+)%2C[212224:212226](+)%2C[212497:212499](+),MGA_288
sequence1	MetaGeneAnnotator	CDS	212293	212499	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNLEFYKNQDKSNLKIIYSAVNGTGSLYTPIVLKQSGYEVIEVKEHAFEDETFKNVINPNPEFDPA;locus_tag=LOCUS_02890;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:12.2%25%2C Eval:2.5e-33%2C partial hit],internal stop codon at [212224:212226](+)%2C[212497:212499](+)%2C[212647:212649](+)%2C[212791:212793](+),MGA_289
sequence1	MetaGeneAnnotator	CDS	212794	212937	.	+	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQEMLKEPLNGLNFVFAYEESYGYVIDDSTRDKDGIQASIIAAEAC;locus_tag=LOCUS_02900;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [212647:212649](+)%2C[212791:212793](+)%2C[212935:212937](+)%2C[213202:213204](+),MGA_290
sequence1	MetaGeneAnnotator	CDS	212956	213204	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLVDYLNQLYEKYGYYYTTTYNLNFKPEEKDSKIAPIMKLLRTTGIKQINNLKVVKIEDYINGLYNMPSEDLLKIYLEDKS;locus_tag=LOCUS_02910;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:91.5%25%2C q_cov:100.0%25%2C s_cov:14.7%25%2C Eval:1.1e-36%2C partial hit],internal stop codon at [212791:212793](+)%2C[212935:212937](+)%2C[213202:213204](+),MGA_291
sequence1	MetaGeneAnnotator	CDS	213348	213479	.	+	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKLNKYIDHTLLKPEATKQDIINLCNQAIQYDFATVCVNTC;locus_tag=LOCUS_02920;note=WP_013448021.1 deoxyribose-phosphate aldolase (Mycoplasma leachii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.4%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [213477:213479](+),MGA_292
sequence1	MetaGeneAnnotator	CDS	213621	214016	.	+	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLNIGALKDKDYDLVLNDMKEVKKAANDHVVKVILENCLLTEQEIIKACELAVQAGIDFVKTSTGFNKSGANIKDVKLMSEVVKSKAKVKAAGGVRTYDDAIAMINAGASRLGTSGSVEIMLKQENKSNY;locus_tag=LOCUS_02930;note=WP_013448021.1 deoxyribose-phosphate aldolase (Mycoplasma leachii) [pid:92.4%25%2C q_cov:100.0%25%2C s_cov:59.0%25%2C Eval:5.8e-62%2C partial hit],internal stop codon at [213477:213479](+),MGA_293
sequence1	MetaGeneAnnotator	CDS	215120	215269	.	-	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKTKIVIQAIKEVGKNNLTKKDIGRIRHRLSEVEKKNLLKEASCTTV;locus_tag=LOCUS_02940;note=WP_011166986.1 DUF6088 family protein (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:24.3%25%2C Eval:3.6e-19%2C partial hit],internal stop codon at [215120:215122](-)%2C[215429:215431](-),MGA_294
sequence1	MetaGeneAnnotator	CDS	215429	215683	.	-	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYLSQIQNRIDHFEPGTIFISNDFLDIASNETVRRTLNKLVEEQKIKRIMNGFYYSPAYSELIQEYEAFGVHELAISIARKYN;locus_tag=LOCUS_02950;note=WP_011166986.1 DUF6088 family protein (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:41.6%25%2C Eval:1.3e-40%2C partial hit],internal stop codon at [215429:215431](-),MGA_295
sequence1	MetaGeneAnnotator	CDS	215781	216479	.	-	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKYSDSITSPHIAYPPKPLTNTLGQYLSKLGLKQLRIAETEKIAHVTFFFDGGNDYFKNGLAKNDEITLANAYIDLIPSAKVATYDLKPQMSAVEITDKLLDEIKKDEFDFIVLNFANCDMVGHTGNNKATEIACKTLDEQLKRIHEEFVLRHNGIMVITADHGNAEIMIDKDGQVNKKHTTSLVPIIITDLNIKLKQNDPAIAKVAPTILDLMNIEIPKEMELESMIDHN;locus_tag=LOCUS_02960;note=WP_011166985.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:43.7%25%2C Eval:4.7e-129%2C partial hit],internal stop codon at [216537:216539](-),MGA_296
sequence1	MetaGeneAnnotator	CDS	216537	217199	.	-	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNSEVGHIHLGAGRINLESLAKLNHETKTNNIAKNEEIVKSFEYVKNNNSALHLMGLFSNGGVHSHFDHMIAIYKAAIDYGITNIKFDLITDGRDTKPKLAYDFVKDLLELIKQNNNIGVISSISGRYYAMDRDKRFDRSRIAYNAITNRNNVRSFTNILDYIQQEYMINHDDEMIIPAFNQDDLNGNLKANDAIIMTNFRPDRAIQISSILTNKNYIA;locus_tag=LOCUS_02970;note=WP_011166985.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:41.4%25%2C Eval:1.1e-121%2C partial hit],internal stop codon at [216537:216539](-)%2C[217221:217223](-)%2C[217248:217250](-)%2C[217332:217334](-),MGA_297
sequence1	MetaGeneAnnotator	CDS	217379	217519	.	-	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINHVGYKVAIKNSVEPIKKIANIYIDKTAEQGAVEEFIKHYILGE;locus_tag=LOCUS_02980;note=WP_011166984.1 HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:16.5%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [217523:217525](-)%2C[217589:217591](-),MGA_298
sequence1	MetaGeneAnnotator	CDS	217868	218215	.	-	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKPEIKLLILDMDGTSYYKMGPIIEKNIEPLKRIINKGVKVVFVTGRPVLAKLNSLKHHGLLVDHQLIAGYNAACIYDLSKDQILLSNPISTDQAKKVFDLVTSDKYKNSDIKI;locus_tag=LOCUS_02990;note=WP_011166984.1 HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:41.4%25%2C Eval:1.6e-59%2C partial hit],internal stop codon at [217589:217591](-)%2C[217826:217828](-)%2C[217868:217870](-),MGA_299
sequence1	MetaGeneAnnotator	CDS	218454	218921	.	-	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGTNESLTDFLNQVDNKIDSSKIIAGLAVPYVMLQTGLKLAKNVKIAAQNVHYKDKGAYTGEISTTMLKEIGVEYVIIGHSERREMFNETDLDVNKKAKALLENNITPIICCGETLQTKESGKTIEFVNNQINIMFEGIKKEDAIKAIIAYEPI;locus_tag=LOCUS_03000;note=WP_011166983.1 triose-phosphate isomerase (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:62.5%25%2C Eval:2.6e-81%2C partial hit],internal stop codon at [218454:218456](-)%2C[218925:218927](-),MGA_300
sequence1	MetaGeneAnnotator	CDS	219141	219785	.	-	0	ID=MGA_301;product=glucosamine-6-phosphate deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166981.1;translation=MKLIVLENEEQVANKAAQIISEQIKNKPNSVLGLATGSTPINTYKKLIQMYQEKQISFKDVISFNLDEYKDIDKNSKQSYYYFMNEQLFNFIDINKNNCYIPNASFYDNPKAYDELIKKANGIDLQLLGLGVNGHIGFNEPDSSFESLTQIVNLTNSTIKANSRFFDSIDQVPTQAISMGLQSIMNAKKILLLATGDNKSEAIYHLIQGQITKK;locus_tag=LOCUS_03010;gene=nagB;EC_number=3.5.99.6;note=WP_011166981.1 glucosamine-6-phosphate deaminase (Mycoplasma mycoides) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:87.7%25%2C Eval:4.1e-113],MGA_301
sequence1	Aragorn:1.2.38	tRNA	219893	219968	.	-	.	ID=Aragorn_3;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence1	Aragorn:1.2.38	tRNA	219977	220053	.	-	.	ID=Aragorn_4;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence1	Aragorn:1.2.38	tRNA	220056	220131	.	-	.	ID=Aragorn_5;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence1	Aragorn:1.2.38	tRNA	220154	220246	.	-	.	ID=Aragorn_6;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence1	Aragorn:1.2.38	tRNA	220289	220365	.	-	.	ID=Aragorn_7;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence1	Aragorn:1.2.38	tRNA	220377	220453	.	-	.	ID=Aragorn_8;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence1	Aragorn:1.2.38	tRNA	220458	220533	.	-	.	ID=Aragorn_9;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_9
sequence1	Aragorn:1.2.38	tRNA	220544	220620	.	-	.	ID=Aragorn_10;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence1	Aragorn:1.2.38	tRNA	220668	220744	.	-	.	ID=Aragorn_11;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence1	MetaGeneAnnotator	CDS	220950	221306	.	-	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYENKKLVPAKAASLFIHGCNDQITSHTDSLRLFINRTIYNDNDELVLYNSCNHCFSFKEHYYQTIYKILMFENKIIKDDNATKIALNKMNITNEIINNNFNEIKEVSTFSFSKNKNN;locus_tag=LOCUS_03020;note=WP_011387583.1 prolyl oligopeptidase family serine peptidase (Mycoplasma capricolum) [pid:77.1%25%2C q_cov:100.0%25%2C s_cov:30.9%25%2C Eval:2.3e-50%2C partial hit],internal stop codon at [221424:221426](-),MGA_302
sequence1	MetaGeneAnnotator	CDS	221424	221642	.	-	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFESRDLISAINYLITSENVQVLGLFGMSMGAYICNYVAINNKELLDKANVKFIISDSTYGSIESLLYKN;locus_tag=LOCUS_03030;note=WP_011387583.1 prolyl oligopeptidase family serine peptidase (Mycoplasma capricolum) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:18.8%25%2C Eval:1.2e-30%2C partial hit],internal stop codon at [221424:221426](-)%2C[221763:221765](-)%2C[221781:221783](-),MGA_303
sequence1	MetaGeneAnnotator	CDS	221781	221984	.	-	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKSNKKLGYISKIDDINKLNKIMKYYYKRDELVLCDDNKIQNVSFVTSDNIKIKAIKFITNKDSKK;locus_tag=LOCUS_03040;note=WP_013448014.1 prolyl oligopeptidase family serine peptidase (Mycoplasma leachii) [pid:89.6%25%2C q_cov:100.0%25%2C s_cov:17.5%25%2C Eval:7.6e-30%2C partial hit],internal stop codon at [221763:221765](-)%2C[221781:221783](-)%2C[222003:222005](-),MGA_304
sequence1	MetaGeneAnnotator	CDS	222236	222559	.	+	0	ID=MGA_305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILTSCSFGFLITTSIILVNKNNGENNIISYNAQRKKVNHEFADNKTKKKITKIGYYYRDGKTIISQIPPTVEVVAADLPEEITSLRNAFYGNRQSVRFEKQ;locus_tag=LOCUS_03050;note=WP_014584516.1 Myrrcad domain-containing protein (Mycoplasma leachii) [pid:57.5%25%2C q_cov:97.2%25%2C s_cov:21.6%25%2C Eval:9.0e-23%2C partial hit],internal stop codon at [222557:222559](+)%2C[222608:222610](+)%2C[222635:222637](+)%2C[222710:222712](+)%2C[222791:222793](+),MGA_305
sequence1	MetaGeneAnnotator	CDS	222955	223257	.	-	0	ID=MGA_306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSSFGNISFSKLLFFEFVVEFFVSRFLISFSDDFSTGSLIGFFCLLIGGLIMESEIRLLELSVELELEPCDNELEDSSERVSGTLELDGWFIDVLGGV;locus_tag=LOCUS_03060;note=MGA_306
sequence1	MetaGeneAnnotator	CDS	223343	223519	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPNSNNALVITGAALGTFTVLGIGAGAGYYYRKNLKNLYLRSTDKIKERISRIKSKK;locus_tag=LOCUS_03070;note=WP_014584516.1 Myrrcad domain-containing protein (Mycoplasma leachii) [pid:68.2%25%2C q_cov:75.9%25%2C s_cov:9.4%25%2C Eval:1.7e-10%2C partial hit],MGA_307
sequence1	MetaGeneAnnotator	CDS	223706	224014	.	+	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILTSCSFGFLITTSIILVNKNNGENNIIYNSKIKETNHEFADPNTKRILTKIGYKQSGNEVRIKTIPTTVTQINAQLPQEITSLKNAFVGNRQQIK;locus_tag=LOCUS_03080;note=WP_014584516.1 Myrrcad domain-containing protein (Mycoplasma leachii) [pid:57.3%25%2C q_cov:92.2%25%2C s_cov:19.7%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [224012:224014](+)%2C[224024:224026](+)%2C[224075:224077](+)%2C[224102:224104](+)%2C[224177:224179](+)%2C[224258:224260](+),MGA_308
sequence1	MetaGeneAnnotator	CDS	226026	226340	.	+	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQPKKDNEIYVEDKIENPKIDNNPYKIPSAKPNTIIKSNSPSAGLIAGSVLGSFTVLGIVGGTSYYYRKNLKNFYLNSADKTKNLYFKSKEKIKDKLSKIKSKK;locus_tag=LOCUS_03090;note=WP_011166973.1 Myrrcad domain-containing protein (Mycoplasma mycoides) [pid:62.2%25%2C q_cov:70.2%25%2C s_cov:15.2%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [225801:225803](+)%2C[225864:225866](+),MGA_309
sequence1	MetaGeneAnnotator	CDS	226493	226792	.	+	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNILTTSSFVFLITAGIAAVNKNSNENNIYFSKKLTSRPHKIEKGVLKEVGYDVLPNGVVQIKRIDYTVSTITALLPEEITSLKSAFQTNTNMIN;locus_tag=LOCUS_03100;note=WP_011166973.1 Myrrcad domain-containing protein (Mycoplasma mycoides) [pid:58.8%25%2C q_cov:97.0%25%2C s_cov:20.3%25%2C Eval:4.2e-20%2C partial hit],internal stop codon at [226790:226792](+)%2C[226802:226804](+)%2C[226853:226855](+)%2C[226880:226882](+)%2C[226955:226957](+)%2C[227036:227038](+),MGA_310
sequence1	MetaGeneAnnotator	CDS	227101	227385	.	-	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFGVSEIEGELGILSNLSTISGFFSVSDFLGDTWFSKFSGVSAGSVELFGAVLGFKDFSIGFGTSTFHFGCLSSWMPKFLLLTLLFKVHPLKF;locus_tag=LOCUS_03110;note=MGA_311
sequence1	MetaGeneAnnotator	CDS	227285	227800	.	+	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPKKSETEKKPEIVDKLDNIPSSPSISETPKNINDSIDTPNNLIIQPPIESKPEISSEKPKHPLSTENETIEKNESLKEDKIKNSKIDNNSYKIPAKPNTIIKSNSPSAGLIAGSVLGSFTVLGIVGGTSYYYRKNLKNFYLNSADKTKNLYFKSKEKIKDKLSKIKSKK;locus_tag=LOCUS_03120;note=WP_011166973.1 Myrrcad domain-containing protein (Mycoplasma mycoides) [pid:47.8%25%2C q_cov:74.9%25%2C s_cov:26.9%25%2C Eval:2.1e-22%2C partial hit],internal stop codon at [227036:227038](+)%2C[227117:227119](+)%2C[227180:227182](+),MGA_312
sequence1	MetaGeneAnnotator	CDS	227837	228238	.	-	0	ID=MGA_313;product=RidA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166961.1;translation=MKIINTENAPKAIGPYSQAVKICNGTLYLSGQLGLDPITMLLENNIELQTKRSLNNIYEILKQAGYDKTDVVKTLVLLKDINDFSLVNSIYEEFFEDHKPARSAFQAAALPKDALIEIEVIAYKKETNCCLDK;locus_tag=LOCUS_03130;note=WP_011166961.1 RidA family protein (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-70],MGA_313
sequence1	MetaGeneAnnotator	CDS	228548	228712	.	-	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLAGLKGSYLISKNKDILDKIKQQYLINGFGLSNSFYQQALISAYTNKEVLD;locus_tag=LOCUS_03140;note=WP_011166960.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Mycoplasma mycoides) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:13.6%25%2C Eval:3.4e-22%2C partial hit],internal stop codon at [228329:228331](-)%2C[228434:228436](-)%2C[228548:228550](-)%2C[228878:228880](-),MGA_314
sequence1	MetaGeneAnnotator	CDS	229570	229959	.	+	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKIIAIDIDGTVYSRKNGIHELTKLALKKAKDKGIKIVIATGRTITTTRFIAKQLDLLNTSIPFIGQNGGQVFSYEKNGSVKIRYTKNFTAQQVDQIFSIIKQHKAHAFCYTLNENIAYKNKGISIFF;locus_tag=LOCUS_03150;note=WP_011166968.1 HAD family hydrolase (Mycoplasma mycoides) [pid:91.5%25%2C q_cov:100.0%25%2C s_cov:44.9%25%2C Eval:4.5e-62%2C partial hit],internal stop codon at [229957:229959](+)%2C[229960:229962](+),MGA_315
sequence1	MetaGeneAnnotator	CDS	229963	230433	.	+	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRAQRVVKIYKPNKSLESQITKYICFGKKENMRQMRKKIEDLGFSAFSFSYVTNAKENIEINPIGVNKGYGLEYVAKELNVKPEEILFFGDGENDLEAIKFAGKGVAMKNTKLDIVKKAADDITSLTADQGGVGEYIFKHVLKEEIPIEFQIDK;locus_tag=LOCUS_03160;note=WP_011166968.1 HAD family hydrolase (Mycoplasma mycoides) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:54.4%25%2C Eval:1.7e-80%2C partial hit],internal stop codon at [229957:229959](+)%2C[229960:229962](+),MGA_316
sequence1	MetaGeneAnnotator	CDS	230655	230789	.	+	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTNKLKVALGTMLSAVSIASVGSFVVACQNTGKDPNQPQVAAK;locus_tag=LOCUS_03170;note=WP_011166967.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:86.7%25%2C q_cov:68.2%25%2C s_cov:6.3%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [230787:230789](+)%2C[230817:230819](+)%2C[231081:231083](+),MGA_317
sequence1	MetaGeneAnnotator	CDS	231294	231431	.	+	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGKKLHFDGSKYTNFYKDKELTYVYRGAVLIAGTEEQRKEVVKA;locus_tag=LOCUS_03180;note=WP_011166956.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:75.0%25%2C q_cov:97.8%25%2C s_cov:9.0%25%2C Eval:9.9e-14%2C partial hit],internal stop codon at [231081:231083](+)%2C[231159:231161](+)%2C[231243:231245](+)%2C[231270:231272](+)%2C[231429:231431](+)%2C[231444:231446](+)%2C[231696:231698](+),MGA_318
sequence1	MetaGeneAnnotator	CDS	231780	232130	.	+	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNARSMMISAKPAMPATPVTNGMNKNGSVIRTLTMTNPAGYDVVLARRGLLDKQVELLSKALQSLSLEENTYGIYTGYNKFMPLSMELFEKLVKLQVQAESKQDLVKDIDKIELKK;locus_tag=LOCUS_03190;note=WP_011166967.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:76.7%25%2C q_cov:97.4%25%2C s_cov:24.3%25%2C Eval:5.6e-41%2C partial hit],internal stop codon at [231696:231698](+),MGA_319
sequence1	MetaGeneAnnotator	CDS	232131	232880	.	+	0	ID=MGA_320;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166955.1;translation=MNKVIELKEISVQYNNKSDLVLKDINLDIFQGELVAIIGPSGVGKSTLFKIIINSLRPVKGQVKVFDKDILKFNKKQKRLFISKIGFLTQTPNLIYTDNVYNNIIRSTSKYKNNFYKFFSILTRKQKIAIFEKLDELNILDKAFFKVSELSGGQQQRVEIAKLLIKDVELILADEPTSNLDKKTSIEVLEVLKNISKQNKTILVNIHDLSLVKRYFDRVIAINNKQIVFDKKTKDIKQWQLDRIIKSRS;locus_tag=LOCUS_03200;note=WP_011166955.1 ATP-binding cassette domain-containing protein (Bacteria) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-134],MGA_320
sequence1	MetaGeneAnnotator	CDS	233399	233569	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKYYIDMLNSFDLQAYYVSISQGNSKFKAFFKEIYPRIKNRVIALFIFSFESNIR;locus_tag=LOCUS_03210;note=WP_020862930.1 ABC transporter permease subunit (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:9.6%25%2C Eval:1.1e-25%2C partial hit],internal stop codon at [233165:233167](+)%2C[233381:233383](+)%2C[233390:233392](+)%2C[233396:233398](+)%2C[233567:233569](+),MGA_321
sequence1	MetaGeneAnnotator	CDS	233678	234007	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFILVLELLNYLFKKYLVEARSKVYKQKNETKFEYYTRLSKKLNVNKIIISLIFISLTIISIITFINIPIYIFNLDYVKSFFNNLLNPNFASFNIFNKHIENNPIILI;locus_tag=LOCUS_03220;note=WP_020862930.1 ABC transporter permease subunit (Mycoplasma mycoides) [pid:82.6%25%2C q_cov:100.0%25%2C s_cov:18.7%25%2C Eval:1.7e-45%2C partial hit],internal stop codon at [233390:233392](+)%2C[233396:233398](+)%2C[233567:233569](+)%2C[234005:234007](+),MGA_322
sequence1	MetaGeneAnnotator	CDS	234035	234523	.	+	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFICIVITIIGIRLQSIRLNNLFVVIICRSLNVLIRLIPTIVYFYVFHPIFSNVLTLVIIVVSLHQASSKAKQLVEVVDNLNIQIINNLKIQGYSNNQIFLKYVLPAIKIEFISLSIFYFELIFRASITYYILASDKLYIGHLITKYLDTRAFYPRLAMSYV;locus_tag=LOCUS_03230;note=WP_020862930.1 ABC transporter permease subunit (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:27.8%25%2C Eval:2.3e-81%2C partial hit],internal stop codon at [234005:234007](+)%2C[234521:234523](+),MGA_323
sequence1	MetaGeneAnnotator	CDS	235667	235927	.	+	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFKEIIKNAIFHTVGTNAKSYLKRFKDKYSKFNSFYTSPNSKINNNINVMNENDKIIDVFTSDATYDQFCLVLTAFGYIKNVNGN;locus_tag=LOCUS_03240;note=WP_011166947.1 hypothetical protein (Mycoplasma mycoides) [pid:85.9%25%2C q_cov:98.8%25%2C s_cov:44.3%25%2C Eval:3.8e-37%2C partial hit],internal stop codon at [235925:235927](+)%2C[236144:236146](+),MGA_324
sequence1	MetaGeneAnnotator	CDS	236845	237012	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYPINDPFEEMTIFENLNSKGVPLDDLDLIKNIIMLADQNKNPKDNLRQFDKYI;locus_tag=LOCUS_03250;note=WP_011166946.1 DUF262 domain-containing protein (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:10.7%25%2C Eval:2.5e-25%2C partial hit],internal stop codon at [236644:236646](+)%2C[237010:237012](+)%2C[237034:237036](+)%2C[237091:237093](+)%2C[237181:237183](+)%2C[237280:237282](+),MGA_325
sequence1	MetaGeneAnnotator	CDS	237516	237701	.	-	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISSLALFKIVVSTTSITLFAIHLTVSLTLKSDSLTCISSGDIAFSGFLIELSFKISNKSL;locus_tag=LOCUS_03260;note=MGA_326
sequence1	MetaGeneAnnotator	CDS	238204	238557	.	+	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQKNTPGEALRTFFNPTVFGFEILAVFLLVFLVLVFRLIAILLKKQHNKLFLSTSFTIATALAFFLPYGFASIGVKTSIAPFLNPLIVFFKAVFIGFGKSGQESNQLVGSILTNGI;locus_tag=LOCUS_03270;note=WP_011166945.1 hypothetical protein (Mycoplasma mycoides) [pid:89.7%25%2C q_cov:100.0%25%2C s_cov:39.0%25%2C Eval:6.4e-53%2C partial hit],internal stop codon at [238555:238557](+),MGA_327
sequence1	MetaGeneAnnotator	CDS	239115	239777	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKKNKKSIFAVLCSLPILSTSIVIGCKTTQNQQGIYKILNFEKENQINILSEINQYFEKHDFNEQLVQFVNKDSHNYITLDSLMKNNYAAKYVKFDKDKFKQIIKKEFNLSDAYLNKLEIEVDYTNIDRDYSNNFDIVFPIRIKRQLENHKKASYQPGLFTEQIIKFRLKNVKSSPSEAFFAEELKDIFNKLKELKYDNFTAKIKTNISDELKKQIDQ;locus_tag=LOCUS_03280;note=WP_011166944.1 hypothetical protein (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:28.1%25%2C Eval:4.6e-115%2C partial hit],internal stop codon at [239775:239777](+),MGA_328
sequence1	MetaGeneAnnotator	CDS	240206	240496	.	-	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLIKSFSYNKLYFPTPIFLFNSNFLLSFNKTSKTNLAFLKSLVFSIFLISTFLTSLLRILTIKLSLVNDEKSVLEIPYLIVSILITSFNLMFFQN;locus_tag=LOCUS_03290;note=MGA_329
sequence1	MetaGeneAnnotator	CDS	240654	240812	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIGEDYVANDFQAVLMPYDGEIIAAYELTTKIPFTGVGTVVVVKIKVSDLD;locus_tag=LOCUS_03300;note=WP_011166944.1 hypothetical protein (Mycoplasma mycoides) [pid:67.3%25%2C q_cov:100.0%25%2C s_cov:6.6%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [240810:240812](+)%2C[240918:240920](+)%2C[241053:241055](+),MGA_330
sequence1	MetaGeneAnnotator	CDS	241056	241196	.	+	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHAHVNLYTNRPSYLSENYFSTKANQGLSEDRIKQYHQIVNGKET;locus_tag=LOCUS_03310;note=WP_011166944.1 hypothetical protein (Mycoplasma mycoides) [pid:93.5%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:1.2e-19%2C partial hit],internal stop codon at [240810:240812](+)%2C[240918:240920](+)%2C[241053:241055](+)%2C[241194:241196](+),MGA_331
sequence1	MetaGeneAnnotator	CDS	241720	242418	.	+	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKSKKLIIPLLTTLAVVPSLVVVSCKNPQSTQSLSEKIYLNYNLQTEKDKQEFENYNQINMLSEINQYFTKHDHNNDLVKFTTNGASGDTVEFNNIMKNNYASKYIKFDQDKFKEIIKKEFNLSDSFLNRLEFEVDYNNISRDYGNNFDIIFPIRVKLPLVSHNNFKYQQGLFIEQTFNFRIKNVKASNSEKIDVSKIKDIYNELVKLKDKNNFTASVKEVTEETKKLVDE;locus_tag=LOCUS_03320;note=WP_011166943.1 hypothetical protein (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:31.9%25%2C Eval:5.9e-124%2C partial hit],internal stop codon at [242416:242418](+)%2C[242635:242637](+)%2C[242671:242673](+),MGA_332
sequence1	MetaGeneAnnotator	CDS	242752	243276	.	+	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNLIIKSKSKFIKNIKLSSIDKTTDYRNSGVLLEVLTNESKDNVIKLHKKLGVGKYTDLYSADFTKNNIHAPNFATEKLTQENLKSINKDFFRQFDSELFSGGYAKSRGFYGEKIKSPQYMHVGEDYIANDFQAVVMPYDGEIIAAYELTSNIPFSGVGTVLVAKIPVTNLP;locus_tag=LOCUS_03330;note=WP_011166943.1 hypothetical protein (Mycoplasma mycoides) [pid:87.9%25%2C q_cov:100.0%25%2C s_cov:23.9%25%2C Eval:5.6e-87%2C partial hit],internal stop codon at [242635:242637](+)%2C[242671:242673](+)%2C[243274:243276](+)%2C[243382:243384](+)%2C[243517:243519](+),MGA_333
sequence1	MetaGeneAnnotator	CDS	243520	243906	.	+	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHAHINLYTNRPSYLSENYFSSKTTKSPVDKNRLDKYHTNDLTNKKETFTTLGNVGVEFKPESKIYQVDPKTGKEDKKMELQEIPVYLSGLNMLTIEKTKGYANPNLMYKLRDERTVSFSVKEVNKL;locus_tag=LOCUS_03340;note=WP_011166943.1 hypothetical protein (Mycoplasma mycoides) [pid:67.4%25%2C q_cov:100.0%25%2C s_cov:17.3%25%2C Eval:1.4e-42%2C partial hit],internal stop codon at [243274:243276](+)%2C[243382:243384](+)%2C[243517:243519](+),MGA_334
sequence1	MetaGeneAnnotator	CDS	244227	244706	.	+	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYFRIIHPDSLNKQGNDVGTQYRTGVYYTDINDKKVIELVFLEYKKQYDEFYVELEELKNYMTAEDYHQDYLDKNPTGYCHVNLNVDFNLTDKEKEFVQLIRKELSLDELSLNVLKYSATEKPHTSEFNDEHRKGIYVEKITKEVLFASNTKFNAGCG;locus_tag=LOCUS_03350;note=WP_011166942.1 peptide-methionine (R)-S-oxide reductase MsrB (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:51.5%25%2C Eval:1.1e-88%2C partial hit],internal stop codon at [244056:244058](+)%2C[244704:244706](+),MGA_335
sequence1	MetaGeneAnnotator	CDS	244770	244949	.	+	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHRVEVRSKTGDNHLGHVFNDGPKEMGGLRYCINGAALEFIPYEEMDEKGYSEYKKILD;locus_tag=LOCUS_03360;note=WP_011166942.1 peptide-methionine (R)-S-oxide reductase MsrB (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:19.1%25%2C Eval:1.7e-29%2C partial hit],internal stop codon at [244704:244706](+),MGA_336
sequence1	MetaGeneAnnotator	CDS	245037	245729	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLLKIISSLTVLSTSVLAVSCTNKSEQNNKDQLPNNKDNTENKDKKEEKDQPQADQPSDHPKEEPKIEISEEEKQEVIDALQKVFKEQEDAFGSFHTHQEVLDQLKVYLNDNKIKHLDHLKLTNEKEKNTNLKVDTEHKKLNKINLSFFDKNIIFSPKKVLENEVQDKYIDKKLIQVGYKLDNSITRINLKQINKNTTQVPRHLPLKINSFNESFKNLESSKIDNLDK;locus_tag=LOCUS_03370;note=WP_011166941.1 hypothetical protein (Mycoplasma mycoides) [pid:72.8%25%2C q_cov:63.0%25%2C s_cov:83.1%25%2C Eval:4.7e-57%2C partial hit],internal stop codon at [245727:245729](+)%2C[245794:245796](+),frameshifted%2C insertion/deletion at around 245768,MGA_337
sequence1	MetaGeneAnnotator	CDS	246425	246643	.	+	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFIIASQAHLDRLKTTLDSIKHQTNNSHQTIIISDSKYTDNTKRQYIKEIFDNSENIVLSENNIPQDTATD;locus_tag=LOCUS_03380;note=WP_011166939.1 glycosyltransferase family A protein (Mycoplasma mycoides) [pid:95.8%25%2C q_cov:100.0%25%2C s_cov:22.6%25%2C Eval:4.4e-33%2C partial hit],internal stop codon at [246641:246643](+),MGA_338
sequence1	MetaGeneAnnotator	CDS	246653	247081	.	+	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLANGKYVVFVKEGDFLYPNFVEEIQKISDKYNADLIEFNQNYNGLVDDQISYNLLEANKLYDLNKDYEVFTYIQRLIYTKAFKLDIIRKNNLTFRRKVRFDHLFTYKFLSYSNTCYISDDYLSLHRISVMKYSAFDLLRQ;locus_tag=LOCUS_03390;note=WP_011166939.1 glycosyltransferase family A protein (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:44.7%25%2C Eval:1.7e-75%2C partial hit],internal stop codon at [246641:246643](+)%2C[247079:247081](+),MGA_339
sequence1	MetaGeneAnnotator	CDS	247453	247716	.	+	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFARLFDLLICSIPLIIMSIFLKTKTGDIISLVIKYLVSFLWTFFYFVILSFLLRGNSLSKKLFKIELKSLKTNKISFFQILIREI;locus_tag=LOCUS_03400;note=WP_011166938.1 RDD family protein (Mycoplasma mycoides) [pid:93.0%25%2C q_cov:98.9%25%2C s_cov:34.3%25%2C Eval:3.1e-39%2C partial hit],internal stop codon at [247447:247449](+)%2C[247714:247716](+)%2C[247804:247806](+)%2C[247861:247863](+),MGA_340
sequence1	MetaGeneAnnotator	CDS	247876	248130	.	+	0	ID=MGA_341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIRLQTNHQSFIDIKLGLIVIQKQKIIKQEPIVSNQILTRNDKHISLNEQPGNFDLEFIDELKQELNNQNQDNKQNTNNKNK;locus_tag=LOCUS_03410;note=WP_011166938.1 RDD family protein (Mycoplasma mycoides) [pid:83.6%25%2C q_cov:72.6%25%2C s_cov:24.3%25%2C Eval:5.9e-22%2C partial hit],internal stop codon at [247714:247716](+)%2C[247804:247806](+)%2C[247861:247863](+),MGA_341
sequence1	MetaGeneAnnotator	CDS	248147	248425	.	+	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVDHLLDLLNPQQLAAVINTDKPVRIIAGAGSGKTRVITTKIAYLIEKKHIDPTRILAVTFTNKAAKEMKERVLQITKNQKKSPFISTFHA;locus_tag=LOCUS_03420;note=WP_011166937.1 UvrD-helicase domain-containing protein (Mycoplasma mycoides) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:12.7%25%2C Eval:2.8e-43%2C partial hit],internal stop codon at [248423:248425](+)%2C[248603:248605](+),MGA_342
sequence1	MetaGeneAnnotator	CDS	249335	250315	.	+	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFLKMISIKDDLSSQRVLSLIPKIGNITIEKIINTANLNHISIFDLITNEDKTLLQSITKNLDELIEVFKTAHQLYLDNTNIEEILKYLLIQSGYENKLKVKNEHDDLDNINALYDQLKRFDENFDANYYSEDNKLIAFLQEEALTSDIDEAQQIDKVSLLTVHAAKGLENKIVFITGLNQGIFPTRLSENNQKELEEERRALYVALTRAKEELFLTYVKGDYSHIMQSELKPSKFIHELDKDLYEFESQFLNSQIYDTNQHKTPSFYVSPKQHNLYNVGDYVEHKLFGKGIITKVINDQLQISFTNSSYGIMIIAANNSALTKL;locus_tag=LOCUS_03430;note=WP_011166937.1 UvrD-helicase domain-containing protein (Mycoplasma mycoides) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:45.2%25%2C Eval:5.7e-175%2C partial hit],internal stop codon at [249236:249238](+),MGA_343
sequence1	MetaGeneAnnotator	CDS	250380	250649	.	+	0	ID=MGA_344;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166936.1;translation=MAKFSAIITDKVGLHARPASVLAKEASKFSSHITIMAGEKQGNLKSIMNVMAMAIKTGTEVTIQADGNDEEQAIKAIKQTMIDTALIQG;locus_tag=LOCUS_03440;note=WP_011166936.1 HPr family phosphocarrier protein (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-41],MGA_344
sequence1	MetaGeneAnnotator	CDS	250705	250947	.	+	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKFSIKDTNVDQAYPFDFKFYKPKIEGMIILFSLVILPLVTVIFLNVFKKELNITDSRIGLIFQLSSIVFTIIGGLIF;locus_tag=LOCUS_03450;note=WP_011166935.1 CPBP family intramembrane metalloprotease (Mycoplasma mycoides) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:24.8%25%2C Eval:1.3e-34%2C partial hit],internal stop codon at [250945:250947](+)%2C[250969:250971](+)%2C[251080:251082](+),MGA_345
sequence1	MetaGeneAnnotator	CDS	251368	251607	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIFIILTIFIAPLCEEIIARQALFTGVSNKVLSIITSSLYFGVLHIASGDVYNIFPYVIGGFFFSLAFSFSKGNLTYS;locus_tag=LOCUS_03460;note=WP_011166935.1 CPBP family intramembrane metalloprotease (Mycoplasma mycoides) [pid:91.1%25%2C q_cov:100.0%25%2C s_cov:24.5%25%2C Eval:8.6e-34%2C partial hit],internal stop codon at [251080:251082](+)%2C[251605:251607](+),MGA_346
sequence1	MetaGeneAnnotator	CDS	251979	252221	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSTYNLCLDDMVKSYLVDKKEYDIYLENSFVVSHVHRLDKLTSGLVIYAKNKISSTILTNAFKSKDQINKYYYALTSSD;locus_tag=LOCUS_03470;note=WP_011166934.1 RluA family pseudouridine synthase (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:26.5%25%2C Eval:6.8e-39%2C partial hit],internal stop codon at [251775:251777](+)%2C[252219:252221](+),MGA_347
sequence1	MetaGeneAnnotator	CDS	252402	252569	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFYNHPILNDFRYNGKKINDLKMIYLSAFKIEFKNLEKPLDYLNNKVFIKNPE;locus_tag=LOCUS_03480;note=WP_011166934.1 RluA family pseudouridine synthase (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:18.2%25%2C Eval:3.9e-26%2C partial hit],internal stop codon at [252219:252221](+)%2C[252567:252569](+),MGA_348
sequence1	MetaGeneAnnotator	CDS	252587	252736	.	+	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVNVESTTANMPINDSKKTTSAKSGVFSALLGVVSSITNMIIQFLLIY;locus_tag=LOCUS_03490;note=WP_011166933.1 hypothetical protein (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:7.3%25%2C Eval:6.2e-19%2C partial hit],internal stop codon at [252734:252736](+)%2C[252875:252877](+)%2C[253025:253027](+),MGA_349
sequence1	MetaGeneAnnotator	CDS	253703	254008	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPYIVTGLFSKIILNDVDTTGLTKKTIEFIIFSPFFSGIFGATTGLIVLLESKITLIHAKGMHRTIAKPLNLIAFSFFITSFIITLLLNRFIGNVESKIS;locus_tag=LOCUS_03500;note=WP_011166933.1 hypothetical protein (Mycoplasma mycoides) [pid:88.1%25%2C q_cov:100.0%25%2C s_cov:15.0%25%2C Eval:1.3e-42%2C partial hit],internal stop codon at [253427:253429](+)%2C[253631:253633](+)%2C[254006:254008](+)%2C[254069:254071](+)%2C[254081:254083](+),MGA_350
sequence1	MetaGeneAnnotator	CDS	254345	254608	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFYSLPFIKRLNKEKQEKAKRDLFEKENINIDKFLLKQEDLLKAMYGFKEKKVIDQDEFEKYSKYKPKPKVYILKASDMNKDESEY;locus_tag=LOCUS_03510;note=WP_011166933.1 hypothetical protein (Mycoplasma mycoides) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:6.2e-40%2C partial hit],internal stop codon at [254069:254071](+)%2C[254081:254083](+),MGA_351
sequence1	MetaGeneAnnotator	CDS	254810	255526	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSEKFLKITHKTPMLSLGNVFSFDEFLDFNTQISKVSNTLDNQYVAELKIDGLSISLVYENGSLVSAATRGNGVVGEDVTINVKTIKSIPLKINKKERVEVRGEIYLSKAEFEKINQKRLVNNEDLFINPRNAAAGTLRQLDSKIVASRNLDAFLYYYISDDSNNLTQYESILKLNELGFKTNKETMLCKNLDEIKAYIDKYTNLKNDLDYQIDGIVFKINDKNLQNSLGFTSKIPK;locus_tag=LOCUS_03520;note=WP_011166932.1 NAD-dependent DNA ligase LigA (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:35.6%25%2C Eval:1.1e-128%2C partial hit],internal stop codon at [254669:254671](+)%2C[255524:255526](+),MGA_352
sequence1	MetaGeneAnnotator	CDS	255644	256291	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGATISAATLNNAEYIKSKDLRINSIVKIKKAGDVIPEVIEAIKDETFYKLEKFKPILYCPNCHSLLEKNENEVDQFCINSSCSMKILRSLQHFSSREAMNIVSLGDRSLEILFNLKIIQNISDIYRLEEYKDQILAIENFGLKSYLNLIDSINISKNNSLEKVLFGLGIRHIGSKTAKILARKYQNIDNLMKASYDELIQINSIGESLALSIID;locus_tag=LOCUS_03530;note=WP_011166932.1 NAD-dependent DNA ligase LigA (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:32.2%25%2C Eval:2.7e-112%2C partial hit],internal stop codon at [255524:255526](+)%2C[256289:256291](+),MGA_353
sequence1	MetaGeneAnnotator	CDS	256671	256916	.	+	0	ID=MGA_354;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166931.1;translation=MFELNDEELENLMSVEDKLFDDFKKITSIDTTDVEPTFYTVNQIHSYLRDDEPIQTNCQKEILENAPTKHDDYITIARVVK;locus_tag=LOCUS_03540;gene=gatC;note=WP_011166931.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:82.7%25%2C Eval:2.5e-41],internal stop codon at [256647:256649](+),MGA_354
sequence1	MetaGeneAnnotator	CDS	256916	257341	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDYRKKSIFEIHKDLVDKKYTVLDLTKEVLKNLKYELDSNAINYLAEIHALKQAKKIEENFDSNNLLSGIPYICKDNFSTKDIPTTASSKILENYIPNYSAALVDSLEKNQSILVGKSALDELGMGGTGLLSCNGKIANP;locus_tag=LOCUS_03550;note=WP_011166930.1 amidase family protein (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:29.1%25%2C Eval:2.2e-75%2C partial hit],internal stop codon at [257339:257341](+),MGA_355
sequence1	MetaGeneAnnotator	CDS	257387	258373	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAKGLVPFATGTDTGDSIRKPASYNGIVGFKPTYGVISRYGLLPYAPSLDTAGFFTKNVDDMAVLCDASYDNDNRDFSSTTADHVDFLKQIDDFSNIKTFGYISSVIESLDQEHKTHYYNLFETLKNKGYQIKALDFRQDLLDAVLPVYLMIANSESVSTNSCLDGIKYGKRVDGNDYSEIMINSRTQGFGEIVRRRFAIGSLVLKGENQKKYLVQAKKVRTLINRDFNNLFDQVDVLLLPPSPSIAPLIEEINNPNKKSQEKDFIENILVLANFTGSPSITIPFFKTKNMPVGINITTKVKTDLLTLQAAKLLENIIGIKNQIVED;locus_tag=LOCUS_03560;note=WP_011166930.1 amidase family protein (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:67.6%25%2C Eval:1.3e-179%2C partial hit],internal stop codon at [257339:257341](+),MGA_356
sequence1	MetaGeneAnnotator	CDS	258375	259232	.	+	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNFEIIIGVENHVELKTNSKMFSPSKVSYGQIPNTLANEIDLAYPGTLPSVNKKGVELAILACNALNMQIDTLLTFDRKNYFYPDLTKGFQITQQFNPIGTNGSLEIILENGNKKVVEIERLHIEEDTAKQVHKDNLTYLDYNRSGVGLIEIVTKPVLRSAEEACLYVEKLREILLFLNVSDVKMNEGSLRTDLNISLRPYGSDKFSNKVEIKNLNSISNIKKAVEFEINRQKEILLKNQIVEQQTRRFDDQTSSTILMRSKIDSIDYRYFREPNIFPIQLDQK;locus_tag=LOCUS_03570;note=WP_015545356.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:59.5%25%2C Eval:6.8e-158%2C partial hit],internal stop codon at [259230:259232](+),MGA_357
sequence1	MetaGeneAnnotator	CDS	259347	259814	.	+	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQFFEKTIKLTTNYNKVAKMLISEIQAKLNLENKTIDQIELSPENLASVINLIDKNIISSKQTKVIMPIILDSNNETVEQIVERLNLKLITNKDEISKLLVNIINQNKDLLNQYSTRPERVIKTIMGQLMKQTNGNVDPEIANEIVIKEIEKNL;locus_tag=LOCUS_03580;note=WP_015545356.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:32.4%25%2C Eval:1.0e-77%2C partial hit],internal stop codon at [259230:259232](+),MGA_358
sequence1	MetaGeneAnnotator	CDS	259842	260351	.	-	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVGIENELESSLVTVLNLLDLKCTNITVKAKDDNYRRVLLALGLTENQIIVPNKIAGEITATRVIFNIDFDIEVHSIDDEFISSTLEVKNPDLFNKNIQQVGLSTNKDFNIIQIRRKGKILLPDDYTELKEGDHIVVFARTTIINSLAEKIQGMIDEETDPNLLTEEQ;locus_tag=LOCUS_03590;note=WP_011166928.1 TrkA family potassium uptake protein (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:99.4%25%2C s_cov:69.7%25%2C Eval:5.6e-89%2C partial hit],internal stop codon at [260352:260354](-),MGA_359
sequence1	MetaGeneAnnotator	CDS	260352	260570	.	-	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKQNFAIIGVSNFTLSVIETLVQKRQSVTVFDIDERRLNLYLSEFDTVEGIVIDTTNKVALAKKGIQSYD;locus_tag=LOCUS_03600;note=WP_011166928.1 TrkA family potassium uptake protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:3.4e-33%2C partial hit],internal stop codon at [260352:260354](-),MGA_360
sequence1	MetaGeneAnnotator	CDS	261617	261877	.	-	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFWFLIIVKVDKSNTPKVVVLIPPAVELGADPINIKIDNIAFDPELKVEISIVENPAFLEAVVLNKISIKTTVLDLAFKTVKFSS;locus_tag=LOCUS_03610;note=MGA_361
sequence1	MetaGeneAnnotator	CDS	261771	262250	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIGSAPSSTAGGIRTTTFGVLLLSTFTIIKNQKFTSAFRKTIPSETVNRSYAAFFISTFLIFIALFIIYVDSNSVFHTLKNHNSASINTILLITSAFGTVGLSPLAHFQMYQLGVVTKISIILIMFIGQLGVSNTLLIFLKPARDKAYKYLEEDITIG;locus_tag=LOCUS_03620;note=WP_013447978.1 potassium transporter TrkG (Mycoplasma leachii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:29.8%25%2C Eval:2.0e-82%2C partial hit],internal stop codon at [261528:261530](+),MGA_362
sequence1	MetaGeneAnnotator	CDS	262259	263125	.	+	0	ID=MGA_363;product=bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447977.1;translation=MVILDGKLVSKQIKEALKQQIDTYLNKNYKKPKLAVILIGNDPASELYVSNKIKACNLVGIESVLLRFDQNITSEMLSDQINQLNNDNSVDAILLQLPLPKHLNEQEFLQAIDPLKDVDGFHYINQGKMLEGYDTIYPCTPIGIINLLKAYNIDVKSKDITIIGTSNIVGKPLAIMLSNMGATISMCNKNTKSLKKYTKRSDIVISATGKQALIKKDMIKKNAIVIDVGIIKDPITNKIVGDVDFENVKELCSYITPVPGGVGPMTVAMLLENTFELYKLHIKENYEN;locus_tag=LOCUS_03630;gene=folD;note=WP_013447977.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Mycoplasma leachii) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-159],MGA_363
sequence1	MetaGeneAnnotator	CDS	263115	263870	.	+	0	ID=MGA_364;product=tetraspanin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166925.1;translation=MKTSFKNNRPKRHYIYNDIFKKANLIIQISSAIFMLLATIGFMFGIVGITLGTVNNTTNIKLNTISGIILLVISSYVFLMCAISLCLSVISNYHKTTIYLEILAIFSIVSIVCMIGGFLIIFSSNKYKDEQEKNTNNQLENQNDNNQKTEDKQQIENQTNNQSKDNFISNPNQNVNPSQQIASDHYHANISRINNNQINNQRLEQAKKNEKYQQVKRTYQLVKEHKLSEDKLQSIFNSDPEFKQMYDELKK;locus_tag=LOCUS_03640;note=WP_011166925.1 tetraspanin family protein (Mycoplasma mycoides) [pid:87.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.6e-119],MGA_364
sequence1	MetaGeneAnnotator	CDS	263888	264565	.	+	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIFLFNFLKNTSKKIINLYNIDIKRKIVIKMLFKVLSFILVSSSALLVVSCSNKNQNNSIKKEIIKKELTIEQKQAINDIFVSQQDAFATFHTYKDVLDQLKVFLSKKNLNEVILFDENQKDKHLVLDNNANKNSVKIRVFGNVFEFKPKTVKEYVETKYSDDTKTKVTQLGYKKETIKNVDYYVLNRLDKNTNEVPIDLPLKINSLSDSFKENKNEKITNIDK;locus_tag=LOCUS_03650;note=WP_011166924.1 hypothetical protein (Mycoplasma mycoides) [pid:94.0%25%2C q_cov:37.3%25%2C s_cov:97.7%25%2C Eval:7.3e-39%2C partial hit],MGA_365
sequence1	Aragorn:1.2.38	tRNA	265246	265321	.	+	.	ID=Aragorn_12;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence1	Aragorn:1.2.38	tRNA	265329	265404	.	+	.	ID=Aragorn_13;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_13
sequence1	Aragorn:1.2.38	tRNA	265412	265487	.	+	.	ID=Aragorn_14;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_14
sequence1	Aragorn:1.2.38	tRNA	265500	265575	.	+	.	ID=Aragorn_15;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_15
sequence1	MetaGeneAnnotator	CDS	266414	266866	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKKISISTIAKECNVGVGTVSRYFNNGYVSDQKKELIKRVVEKYNFSPNFAAHSIKRKIQEVYFLIPDLTKSNTFVIKKILKYLQLEFSETMVFVIQTTYNQETYLKYLKKVVARKPAALVLFAISDDLKIKDYLKKITIPFISYGKD;locus_tag=LOCUS_03660;note=WP_014584498.1 LacI family DNA-binding transcriptional regulator (Mycoplasma leachii) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:45.7%25%2C Eval:1.8e-76%2C partial hit],internal stop codon at [266864:266866](+)%2C[267032:267034](+),MGA_366
sequence1	MetaGeneAnnotator	CDS	266900	267034	.	+	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMISLLETMNNQNEFDHQKQILYIGEKPETNKSTGYDRFYGLNN;locus_tag=LOCUS_03670;note=WP_014584498.1 LacI family DNA-binding transcriptional regulator (Mycoplasma leachii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:13.4%25%2C Eval:3.5e-19%2C partial hit],internal stop codon at [266864:266866](+)%2C[267032:267034](+),MGA_367
sequence1	MetaGeneAnnotator	CDS	267239	267400	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLPIFEKQYCIAIDYQNLVQRINESINKILNNKPIDEQNEKYLNYEIKVLDR;locus_tag=LOCUS_03680;note=WP_014584498.1 LacI family DNA-binding transcriptional regulator (Mycoplasma leachii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:4.8e-24%2C partial hit],internal stop codon at [267032:267034](+),MGA_368
sequence1	MetaGeneAnnotator	CDS	267466	267897	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKSYTEEVKELVSLLGGADNIVSYTHCISRLRLVLKDNSKADTKAIETLDNVKGVVKPVGAYHVVIGVDVTNYYKEFKNYLTNQQPQTSDSNSQTTTVKQKSNQKFYQRLLRHFSEIFIPLIPALVAGGLILGFRNILETD;locus_tag=LOCUS_03690;note=WP_020862905.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:27.8%25%2C Eval:3.3e-74%2C partial hit],internal stop codon at [267895:267897](+)%2C[267961:267963](+)%2C[267985:267987](+)%2C[268129:268131](+)%2C[268180:268182](+),MGA_369
sequence1	MetaGeneAnnotator	CDS	268483	268800	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNAVMIQNTATIGGSFIFPILCMSNIAQGSASLMFTILNRKHQKVKDAGASATVSAYLAVTEPAMYGINLRFLYPFIAAIIGSATGALLLIISGVTSNGIGVGA;locus_tag=LOCUS_03700;note=WP_020862905.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:20.4%25%2C Eval:1.4e-52%2C partial hit],internal stop codon at [268393:268395](+)%2C[268798:268800](+)%2C[268852:268854](+)%2C[268873:268875](+)%2C[268924:268926](+),MGA_370
sequence1	MetaGeneAnnotator	CDS	268818	268997	.	-	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGSVLTSNKSLRSLTKLGRVPKNQVNIIVTIVVNIALIINQVYPDPIQVLTPLTFEVA;locus_tag=LOCUS_03710;note=MGA_371
sequence1	MetaGeneAnnotator	CDS	269021	269167	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINYKEAIVYEIHPQSFYDTNNDGIGDLKGIIKKLDYLKKLGVNFL;locus_tag=LOCUS_03720;note=WP_013447967.1 alpha%2Calpha-phosphotrehalase (Mycoplasma leachii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:8.9%25%2C Eval:2.3e-21%2C partial hit],internal stop codon at [269165:269167](+)%2C[269348:269350](+)%2C[269429:269431](+)%2C[269456:269458](+),MGA_372
sequence1	MetaGeneAnnotator	CDS	269651	269881	.	+	0	ID=MGA_373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGDGRKYYTDRPLVHKYLKEMASKTYSLKNDVITVGELSSTSLKQAILYTKKESKELDMVFMFHHLKVDYLNNDK;locus_tag=LOCUS_03730;note=WP_013447967.1 alpha%2Calpha-phosphotrehalase (Mycoplasma leachii) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:14.0%25%2C Eval:1.0e-37%2C partial hit],internal stop codon at [269429:269431](+)%2C[269456:269458](+)%2C[269525:269527](+)%2C[269573:269575](+)%2C[269879:269881](+)%2C[269960:269962](+),MGA_373
sequence1	MetaGeneAnnotator	CDS	270116	270271	.	+	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNNNYSNINQLKDVESINYYRILKNKGLKKEEILNIISNRSRDNARTVMQ;locus_tag=LOCUS_03740;note=WP_013447967.1 alpha%2Calpha-phosphotrehalase (Mycoplasma leachii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:9.4%25%2C Eval:5.9e-22%2C partial hit],internal stop codon at [269879:269881](+)%2C[269960:269962](+)%2C[270269:270271](+)%2C[270311:270313](+),MGA_374
sequence1	MetaGeneAnnotator	CDS	270756	271754	.	+	0	ID=MGA_375;product=dihydroxyacetone kinase subunit DhaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166915.1;translation=MKKLINSPETLVNEMLEGLVKAYPNKLKRVEGFDVIIRNDDIKKDKVALVSGGGSGHEPAHAGYVGYGMLDAAVAGAVFTSPTPDQVYQAIKSSNANKGVLLIIKNYTGDILNFEMAQDMASMEGIEVDSVVVNDDVAVEDSLYTAGRRGVAGTIFVHKIAGAKAEMGASLQEVKNTALKVIKNVRNMGMAISPCIVPAAGKSNFSLNEDEMEIGIGIHGEPGVYRDKLKPVDQIVDTLTDKILNDIQINKDEQVAVMINGMGATPEMELLVINNHLNDILTNKGIKIYKTFVGNFMTSIEMGGFSISILKLDNELKELLDHKADTPGLKVF;locus_tag=LOCUS_03750;gene=dhaK;EC_number=2.7.1.121;note=WP_011166915.1 dihydroxyacetone kinase subunit DhaK (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-180],MGA_375
sequence1	MetaGeneAnnotator	CDS	272006	272314	.	+	0	ID=MGA_376;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166914.1;translation=MAESKMRIKLKGYDHAIVDQSIVKIIQAAEGTGAKVRGPIPLPTEKQVITILRAVHKYKDSREQFEMRTHKRLLEILNPTAATMDILKRVQLPSGVDIEIKL;locus_tag=LOCUS_03760;gene=rpsJ;note=WP_011166914.1 30S ribosomal protein S10 (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-51],MGA_376
sequence1	MetaGeneAnnotator	CDS	272390	273061	.	+	0	ID=MGA_377;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166913.1;translation=MKGILGRKVEMTQVFTSAGQLVPVTVVEVLPNTVLQVKTIDSDGYVAVQLGTTDKRVNLVNKPELGHFKKANSNPKRFVKEIRNMQGYELGQVINVSDIFVSGEYVDVTGISKGKGFAGGIKRHNYARGPMAHGSGYHRGIGSMGAIINRIFKSKKMPGHMGNAKRTIQNLEIIAIDQTNNIMLIKGSIPGPKNSFVQIKQNVKGMSSKQAVELLNRNASVEA;locus_tag=LOCUS_03770;gene=rplC;note=WP_011166913.1 50S ribosomal protein L3 (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-121],MGA_377
sequence1	MetaGeneAnnotator	CDS	273488	273700	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVVMKNLKIDDQKTLIVTKEKEELVVKSSNNITGVKTISANQLNVFDLLNATKLLITEEAAIAVEEVYA;locus_tag=LOCUS_03780;note=WP_011166912.1 50S ribosomal protein L4 (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:82.9%25%2C s_cov:27.9%25%2C Eval:1.6e-24%2C partial hit],internal stop codon at [273263:273265](+)%2C[273317:273319](+),MGA_378
sequence1	MetaGeneAnnotator	CDS	273700	273984	.	+	0	ID=MGA_379;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166911.1;translation=MHITEVLKKPVLTEKSFAGHKDNVYTFLVDKKANKVQIKKTFEEIFEVKVESVRTINYDAKEKRLGKYVGKKPSYKKAIITLKEGQKLDVLSDL;locus_tag=LOCUS_03790;gene=rplW;note=WP_011166911.1 50S ribosomal protein L23 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-47],MGA_379
sequence1	MetaGeneAnnotator	CDS	274039	274689	.	+	0	ID=MGA_380;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166910.1;translation=MAIKKYKSTTNGRRNMTTIDYSAVLTTKNNPEKSLVVSKNSKAGRNNRGLITTRHKGGGHKQKYRIIDFKRNKRDIFGTISTIEYDPNRNAFICLINYVDGEKRYILFAKGMQVGMKVVASENADIKVGNAAPLKNIPEGTLLHNVELKPGKGGQIARSAGSSVQLLGKDDDGKYVTLRLSSGEVRKVLAECYATIGEVGNEEYNLVNLGKAGRNR;locus_tag=LOCUS_03800;gene=rplB;note=WP_011166910.1 50S ribosomal protein L2 (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:76.6%25%2C Eval:1.7e-119],internal stop codon at [274687:274689](+)%2C[274798:274800](+),MGA_380
sequence1	MetaGeneAnnotator	CDS	274737	275033	.	-	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSGKIVDLRDQVLITSPSFAAVTFLNKLSSTKGPFFNDLAILSSILLSYFLLLRFLTISFSEVFLVFLVFTPKAFLPHGVTGDLRPIGARPSPPPCG;locus_tag=LOCUS_03810;note=MGA_381
sequence1	MetaGeneAnnotator	CDS	275199	275534	.	+	0	ID=MGA_382;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166908.1;translation=MEAKAKLSMIRISPRKMRLVADTIRNKAVSVAVATLKNLNKDAAEPILKLLNSAVANAVNNNGMEADKLYVKTIFVNEGPTLKRFRPRAHGRAYEIFKRTSHVVIVVSDEK;locus_tag=LOCUS_03820;gene=rplV;note=WP_011166908.1 50S ribosomal protein L22 (Mycoplasma mycoides) [pid:91.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-50],MGA_382
sequence1	MetaGeneAnnotator	CDS	276044	276163	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARTEGYLEGSVPLSTLRNNIDYALYEAPTTYGQIGVKV;locus_tag=LOCUS_03830;note=WP_011166907.1 30S ribosomal protein S3 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:16.7%25%2C Eval:8.3e-16%2C partial hit],internal stop codon at [275915:275917](+)%2C[276161:276163](+),MGA_383
sequence1	MetaGeneAnnotator	CDS	276256	276378	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQPKRTKYRKPHRVSYEGKAKGAKEINFGEFGLMALDGA;locus_tag=LOCUS_03840;note=WP_011166906.1 50S ribosomal protein L16 (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:29.2%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [276376:276378](+)%2C[276448:276450](+)%2C[276532:276534](+),MGA_384
sequence1	MetaGeneAnnotator	CDS	276669	277085	.	+	0	ID=MGA_385;product=50S ribosomal protein L29;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166905.1;translation=MAKSKMLDLRNLSVDELIKTNESKRAELFALKFQAAVGSLEQTHRIKEIKKEIARIELALSEKRLSGENTNKVIKADYNKAVAEAEKAGKEVRAKQRKFLEEQYGQQNQTEVNEADIQKAMQAAEQETVEPDTKGETK;locus_tag=LOCUS_03850;gene=rpmC;note=WP_011166905.1 50S ribosomal protein L29 (Mycoplasma mycoides) [pid:92.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-64],MGA_385
sequence1	MetaGeneAnnotator	CDS	277085	277342	.	+	0	ID=MGA_386;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_061104415.1;translation=MQRNSRRVLIGKVVSDKMDKTITVLVETYKNHPIYKKRVKYSKKYKAHDENQVAQMGDKVEIMETRPLSKTKNFRLVRVIEKATL;locus_tag=LOCUS_03860;gene=rpsQ;note=WP_061104415.1 30S ribosomal protein S17 (Mycoplasma mycoides group) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:9.7e-41],MGA_386
sequence1	MetaGeneAnnotator	CDS	277358	277726	.	+	0	ID=MGA_387;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166903.1;translation=MIQTLSKLKVADNSGAKEVRVIRNLGGSVRKFSGIGDIIICSVISATPGAVIKKGQVVKAVIVRTTRELRREDGTYIKFSENAAVLIKEDKTPRGTRIFGPIAREIKEAGFAKIASLAPEVL;locus_tag=LOCUS_03870;gene=rplN;note=WP_011166903.1 50S ribosomal protein L14 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-61],MGA_387
sequence1	MetaGeneAnnotator	CDS	278085	278627	.	+	0	ID=MGA_388;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166900.1;translation=MKSRLEIKYKNQIVPELFKELNYKSIMQVPKIQKIVINMGIGDATTDPKKLDAAISELEKLSGQKPIVTKAKKSLAVFKLREGMAIGAKVTLRGKKMYDFLDKLINVALPRVRDFRGVSKTSFDGFGNFTTGIKEQIIFPEVDYDKVIRLRGMDITIVTSAKTNKEAFALLQKIGMPFEK;locus_tag=LOCUS_03880;gene=rplE;note=WP_011166900.1 50S ribosomal protein L5 (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-95],MGA_388
sequence1	MetaGeneAnnotator	CDS	278646	278828	.	+	0	ID=MGA_389;product=type Z 30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183033.1;translation=MAKKSLKVKQAKHQKFNVRNYTRCNHCGRPHAVLKKFGICRLCFRKFAYEGQIPGIKKAS;locus_tag=LOCUS_03890;note=WP_011183033.1 type Z 30S ribosomal protein S14 (Mesoplasma) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:1.9e-28],MGA_389
sequence1	MetaGeneAnnotator	CDS	278851	279237	.	+	0	ID=MGA_390;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013729790.1;translation=MTTDVIADMLTRIRNANQRYLKTVSVPSSKVKLEIARILKEEGFISNFTVEGDVKKTINIELKYQGKTRVIQGLKKISKPGLRVYAQANEIPQVLNGLGISIVSTSQGIMTGKKARLANAGGEVLAFI;locus_tag=LOCUS_03900;gene=rpsH;note=WP_013729790.1 30S ribosomal protein S8 (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:7.4e-65],MGA_390
sequence1	MetaGeneAnnotator	CDS	279254	279796	.	+	0	ID=MGA_391;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166898.1;translation=MSRIGNRLLQIPNGVEVKIAENNLITITGSKGTLSKQFSPLIKIEVEENKLITKRLNEQKHTKQLHGTTNSLLQGMLTGVSEGFKKELQITGVGYKAAVNGSKLNLSLGYSHPVEFEIPKGVEIQAVKPTELVITGIDKQLVGQVAANIRAYRKPEPYKGKGIKYKNETIIRKEGKAAGK;locus_tag=LOCUS_03910;gene=rplF;note=WP_011166898.1 50S ribosomal protein L6 (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-96],MGA_391
sequence1	MetaGeneAnnotator	CDS	279822	280172	.	+	0	ID=MGA_392;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166897.1;translation=MKFTKAEARKRRHFRVRQKVVGTAERPRLNVFKSNTNFYAQIIDDTKGVTLVSASTLKMDLKSKSNTLAAQKVAEEIAKKALAANITQVVFDRNGYLYHGKIKAFAETARENGLKF;locus_tag=LOCUS_03920;gene=rplR;note=WP_011166897.1 50S ribosomal protein L18 (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-59],MGA_392
sequence1	MetaGeneAnnotator	CDS	280191	280955	.	+	0	ID=MGA_393;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166896.1;translation=MTEEMNVVETSSEMNSNVEKASTQVKETKKFERRTRPQSKSKQVKDEFEEKVVTIRRVTKVTKGGRHFRFAAVVVVGNKKGLVGMGTGKANEVPEAIKKAIKEAKKNLVSVTLRNTTVPHEVLGTFGAGKILIKPAKVGTGIIAGGPARAVIELAGISDVYAKSLGSNNAINMIRATFEGLSSMQTLKRVQELRYGKTFDTQKVKPVEQKVAEIKSVEKKQPKQAVKKVAVKKAENQENTVEVITNAEAESKAE;locus_tag=LOCUS_03930;gene=rpsE;note=WP_011166896.1 30S ribosomal protein S5 (Mycoplasma mycoides) [pid:89.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-119],MGA_393
sequence1	MetaGeneAnnotator	CDS	280974	281411	.	+	0	ID=MGA_394;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166895.1;translation=MKLNELKYTPGSKTKATIVGRGMASGKGKTATRGHKGQNSRSGGGVRPGFEGGQTPLFRRLPKVGFTSLNQKQYTILNLSDLETLGLEKIDHESLINSKIIKNNASLIKILANGTLTKKVDVKVNKISKAAKDAIEKLGGKVEVI;locus_tag=LOCUS_03940;gene=rplO;note=WP_011166895.1 50S ribosomal protein L15 (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-76],MGA_394
sequence1	MetaGeneAnnotator	CDS	281411	281911	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIKKPANKVDKKTTFKSSTKKKNLFKSNFFTKNKDLILRILFTLLALIIIRLGVYITVPGVTLDKRFATDSSRIQFFQLLSTLGGGSIGRFSILALGVSPYITASIIVQLLSTDVIPVLTRWSKSGERGRKKLDKLTKIIMIPFALMQAEATIFTLSSQGLIVPG;locus_tag=LOCUS_03950;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:89.2%25%2C q_cov:100.0%25%2C s_cov:34.4%25%2C Eval:4.4e-75%2C partial hit],internal stop codon at [281909:281911](+)%2C[281996:281998](+)%2C[282107:282109](+),MGA_395
sequence1	MetaGeneAnnotator	CDS	282007	282282	.	-	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCSLESVNPDPVCWIGIFLSASFIITTDNITSKNTLIYIIKFNNPEKKILASSPEFDTQYSNVAFKLVGIEIIIPIKITIEIPLPIPLMVI;locus_tag=LOCUS_03960;note=MGA_396
sequence1	MetaGeneAnnotator	CDS	282164	282445	.	+	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYISVFLLVILSVVIMNEAERKIPIQQTGSGLTDSSEHTPYLPLKLNNAGVIPVIFASAIISTPITISQIIEAVNPDSGFVIFTRDYLSFNT;locus_tag=LOCUS_03970;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:86.0%25%2C q_cov:100.0%25%2C s_cov:19.3%25%2C Eval:3.5e-38%2C partial hit],internal stop codon at [281909:281911](+)%2C[281996:281998](+)%2C[282107:282109](+)%2C[282443:282445](+)%2C[282446:282448](+),MGA_397
sequence1	MetaGeneAnnotator	CDS	282659	282856	.	+	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYVISKLTQLPSNLAIGGTGLIICISVAIQTVQQLKGRIIQQNFIEKKKEKFTNNTNKNKTSHI;locus_tag=LOCUS_03980;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:66.2%25%2C s_cov:8.9%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [282443:282445](+)%2C[282446:282448](+),MGA_398
sequence1	MetaGeneAnnotator	CDS	282987	283628	.	+	0	ID=MGA_399;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166893.1;translation=MNIMLLGAPGCGKGTQAEQLVNKLNFIQVSTGDLMRKEISLNTSLGLKCQEYMNAGKYVPDQIVNQIVSQFLKNTNDKLIFDGYPRTLEQAKSLEQMLDLYNKKIDYVFYIDINDQILIKRITNRLVCPLCKASFNLETRKPKQEGLCDFDNTKLVKRSDDSLDKVQIRLQTYKEQTLPLIDYFKTNSKFIEIKADDLSAEQVFNQIKGELKI;locus_tag=LOCUS_03990;EC_number=2.7.4.3;note=WP_011166893.1 adenylate kinase (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-118],MGA_399
sequence1	MetaGeneAnnotator	CDS	283628	283933	.	+	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITIKNQEQIQKMKIAGQVLAKGLNLLKSMIKPGVNCLDLDKAFEEFIKQNGCESNFKNYQGFPKTICISINDQLIHGIPKNRILQNGDIVSIDAGCMYQK;locus_tag=LOCUS_04000;note=WP_011166892.1 type I methionyl aminopeptidase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:40.2%25%2C Eval:9.8e-54%2C partial hit],internal stop codon at [283931:283933](+),MGA_400
sequence1	MetaGeneAnnotator	CDS	283955	284284	.	+	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVCGIANDKKNDILIRVTEKALDLAIAELKPGIRVGTIGSIIQNYVESHNFSVPRDYTGHGIGLALHEDPYIPNYGIPNTGVRLQENMVICIEPMVQMGTYKTKLADDN;locus_tag=LOCUS_04010;note=WP_011166892.1 type I methionyl aminopeptidase (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:43.4%25%2C Eval:1.9e-57%2C partial hit],internal stop codon at [283931:283933](+)%2C[284282:284284](+),MGA_401
sequence1	MetaGeneAnnotator	CDS	284395	284619	.	+	0	ID=MGA_402;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167188.1;translation=MAKETEMEFEGTVVEVLPNAQFKVKLENGVVINAHVSGKIRMHYIRILPGDKVTIVISPYDMTRGRITYRKIGK;locus_tag=LOCUS_04020;gene=infA;note=WP_011167188.1 translation initiation factor IF-1 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-36],MGA_402
sequence1	MetaGeneAnnotator	CDS	284838	285203	.	+	0	ID=MGA_403;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166891.1;translation=MARISGVEIPNNKRVVVSLTYIYGIGLPTAQSVLKTLNISEDIRVKDLTEEQIKNISMEISKYKTEGELRREVSLNIKRLMEIGSYRGLRHRKGLPVRGQSSKTNARTVKGPRKTVANKKK;locus_tag=LOCUS_04030;gene=rpsM;note=WP_011166891.1 30S ribosomal protein S13 (Mycoplasma mycoides) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-61],MGA_403
sequence1	MetaGeneAnnotator	CDS	285229	285360	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANPKPQAKKKIKKNIPKGIAHIHSTFNNTIVTVSDEKGNVLS;locus_tag=LOCUS_04040;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:76.7%25%2C s_cov:25.6%25%2C Eval:4.2e-12%2C partial hit],internal stop codon at [285358:285360](+),MGA_404
sequence1	MetaGeneAnnotator	CDS	285451	285618	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNGVKTVSVEVKGPGPGRDAAIRALQMAGLEITSIKDTTPIPHNGVRPRKRPRG;locus_tag=LOCUS_04050;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:42.6%25%2C Eval:1.1e-25%2C partial hit],internal stop codon at [285358:285360](+),MGA_405
sequence1	MetaGeneAnnotator	CDS	285622	286575	.	+	0	ID=MGA_406;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166890.1;translation=MKQFVRPEFILLKEGQDKNYGKFSVSPLERGFGITLGNAIRRTLLAATPGASVYAIKIAGATHEFTSIPGIIENVTKIILNIKQLVLKIDTSMYGDDEVVQLRIRSDIQGPVYAGDLDIPAGVEILNKDLLIATISEGGVLDLVLYAKNSRGYKTFKDNKNEKNIEPGMITIDSNYSPIIKVAYSVDSAKIGRAIDLEKLELEVTTDGSITAIDAISIASRILVAHLEFFIDLNREISVLEVIGTNQTDDKELDRTVEELDFTQRSLNCLKRAGINTLRELVSKNEDEIGSIRNLGRKSLKEIKDKVASLGLAFRQS;locus_tag=LOCUS_04060;EC_number=2.7.7.6;note=WP_011166890.1 DNA-directed RNA polymerase subunit alpha (Mycoplasma mycoides) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-168],MGA_406
sequence1	MetaGeneAnnotator	CDS	286646	286792	.	+	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLTTELIINESLEVTQTRAKELRRHFDHMITLAKRGDLHSRRQAAS;locus_tag=LOCUS_04070;note=WP_011166889.1 50S ribosomal protein L17 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:40.3%25%2C Eval:3.3e-20%2C partial hit],internal stop codon at [286631:286633](+)%2C[286790:286792](+),MGA_407
sequence1	MetaGeneAnnotator	CDS	287062	287859	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNSAIFEEFNSKKISQDDLEATITSLNNYFVKLNDLNNQYINLIRQDNIDKIEKQNIRQQQKQVKAEIKKISATTKLFKQNLKLAESLYKKIKLTNNQNDINKAKHEVEIAKSMLLQLKEVINGQGKSIKLKKLSDIAIEINHLSFKYGPEFPNAIDDVSFTINQGEYVTIIGHNGSGKSTISKILIGVLNAQHGEIKIFGNIVNDHNIEQARKFLGIVFQNPDNQFIGSTVEADIAFGLENKRIDPKKMPDIILDSAKKVGIE;locus_tag=LOCUS_04080;note=WP_011166888.1 energy-coupling factor transporter ATPase (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:65.0%25%2C Eval:5.9e-145%2C partial hit],internal stop codon at [287857:287859](+),MGA_408
sequence1	MetaGeneAnnotator	CDS	287878	288288	.	+	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSGGQKQRVAIASTLALDPDIMIFDEATSMLDPKGKREIKEIMVQLRETRTKTILSITHDMDEILNADKVIVLDHGKLVRVAKPLEIVEDKDFLRNIQLDVPFVGLVREELEKKGIKIASTQNIDELVEQICKK;locus_tag=LOCUS_04090;note=WP_011166888.1 energy-coupling factor transporter ATPase (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:33.3%25%2C Eval:5.8e-70%2C partial hit],internal stop codon at [287857:287859](+),MGA_409
sequence1	MetaGeneAnnotator	CDS	288276	289187	.	+	0	ID=MGA_410;product=energy-coupling factor transporter ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166887.1;translation=MQKVNKKTNQNLKDIDFSKDIILDNVSYTYAKKTPFEFKALNNTSLTFKKNKVTCVIGTTGSGKSTMIQLTNGLIISETGQTIVGDYAIPANTKKIKEVKRLRKEIGLVFQFPEYQLFQETIEKDIAFGPVNLGENKQEAYNKVPELLKLVQLPEDYVKRSPFELSGGQKRRVALAGIIAMDGNTLVLDEPTGGLDPKGEEDFINLFERLNKEYKKRIIMVTHNMDQVLRIADEVIVMHEGKVIAIGSPFEIFSNMELLTKIEIDPPKLYQLMYKLKNKGIDLLNKKIRTIEDFAEELAKVLK;locus_tag=LOCUS_04100;note=WP_011166887.1 energy-coupling factor transporter ATPase (Mycoplasma mycoides) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-169],MGA_410
sequence1	MetaGeneAnnotator	CDS	289201	289497	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRISFGRYIPKNSLIHKMDPRLKLFMIMVLIVSVFFPIGLTGYLIISGIIIGLFALSQLSFKMLVRLLVPVTFIFAIIVLMNFFFIHPSSNAVGQISS;locus_tag=LOCUS_04110;note=WP_011166886.1 energy-coupling factor transporter transmembrane component T (Mycoplasma mycoides) [pid:88.8%25%2C q_cov:100.0%25%2C s_cov:29.2%25%2C Eval:1.5e-41%2C partial hit],internal stop codon at [289495:289497](+)%2C[289525:289527](+)%2C[289642:289644](+)%2C[289654:289656](+),MGA_411
sequence1	MetaGeneAnnotator	CDS	289690	290175	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMRIYLMITLTCILTGSTPSLQLTLAIEDLLSPLRLIKAPVYILSMIISIALRMIPTLIDEAGRIMKAQASRGIDIKNGKFKDKVKSLTSLIIPLLVSSFQKAEDLAYAMDARGYDPNATRTRFVQFKFRIIDAIIFVLGISFAIFMMVYGSNPHGIFTN;locus_tag=LOCUS_04120;note=WP_011166886.1 energy-coupling factor transporter transmembrane component T (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:47.9%25%2C Eval:2.8e-84%2C partial hit],internal stop codon at [289495:289497](+)%2C[289525:289527](+)%2C[289642:289644](+)%2C[289654:289656](+)%2C[290173:290175](+),MGA_412
sequence1	MetaGeneAnnotator	CDS	291148	291405	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGLVLLVMIMSLIMSLISAINSRVLDKYDDLITNSNQHNLVLKLDPYENVSTSLITSNNQIQVQQQYINRLNEKLYSRYNFKFD;locus_tag=LOCUS_04130;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:84.7%25%2C q_cov:100.0%25%2C s_cov:6.2%25%2C Eval:8.8e-34%2C partial hit],internal stop codon at [291091:291093](+)%2C[291403:291405](+),MGA_413
sequence1	MetaGeneAnnotator	CDS	292261	292440	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAIGYKKRQMVLNYVMMPFFTSIVGGILGYILSCLISIIIINRFSNYFSLDYGVFSFD;locus_tag=LOCUS_04140;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:76.3%25%2C q_cov:100.0%25%2C s_cov:4.3%25%2C Eval:5.3e-18%2C partial hit],internal stop codon at [291967:291969](+)%2C[292024:292026](+)%2C[292075:292077](+)%2C[292438:292440](+)%2C[292471:292473](+),MGA_414
sequence1	MetaGeneAnnotator	CDS	292516	293160	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGAINLLENRNAKKISKLGSLIKSLSNKRKFNHRLRAALLVNSGSKLTGVGFVVLIATILFTISFVSPNLLKNNKIYAYNGVKYNQIVEYSQPTYNNPFSFIRVFNPDKKSDDKYNIIKNNNRYLATSLPTKDNQYDLQTIINDYLNQTYNNAYYSLAIDLQDKQEVQAINLALSNMKLLQAQDIALTKQYFKYISSLSITPSSIHHILLKN;locus_tag=LOCUS_04150;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:15.5%25%2C Eval:1.1e-113%2C partial hit],internal stop codon at [292438:292440](+)%2C[292471:292473](+)%2C[293158:293160](+),MGA_415
sequence1	MetaGeneAnnotator	CDS	293665	294096	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYKRDDQALIQAAYSRAPYFVKQNLKISYNSNKDYTLGFNLTTFNKNYEQLGTLLNVKTLDNKHTFKIYGILNNHDYINLYDQNKTDLIKKLFDSEQNSIIINQTIAKRLNLKPNDKISLNVLQNELQHIKNNKTTVFKTDD;locus_tag=LOCUS_04160;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:2.4e-77%2C partial hit],internal stop codon at [293539:293541](+)%2C[293653:293655](+)%2C[294094:294096](+)%2C[294328:294330](+),MGA_416
sequence1	MetaGeneAnnotator	CDS	294100	294330	.	+	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQDTSYDSFIQRSDISTNNLKVKTNNSVLELNNGFSDVNSYYKSYLDNELKLGTKIQNKTFKIVGIHDGYNENMA;locus_tag=LOCUS_04170;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:5.5%25%2C Eval:3.8e-37%2C partial hit],internal stop codon at [294094:294096](+)%2C[294328:294330](+)%2C[294385:294387](+)%2C[294388:294390](+)%2C[294412:294414](+),MGA_417
sequence1	MetaGeneAnnotator	CDS	294811	295092	.	+	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLALVLAIITILMIAFVIILLTTSLIISDNTRFIATLKVLGYSNKYITENILGMYFIVIANMLVIGFISGWFIFESTIKSLYSIIVLPIIFPI;locus_tag=LOCUS_04180;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:6.7%25%2C Eval:1.0e-42%2C partial hit],internal stop codon at [295090:295092](+),MGA_418
sequence1	MetaGeneAnnotator	CDS	295414	295794	.	+	0	ID=MGA_419;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166883.1;translation=MGRLATQVALVLRGKHKVDFTPHINNGDHVIIINAEKAIFSGKKESNKFYYHHSMHPGGLKKRSVEVQRELDATKILERAIRLMLPKNVQGSNQYRALHVFKGSQHPFAAQKPEVLEISTKKGDVK;locus_tag=LOCUS_04190;gene=rplM;note=WP_011166883.1 50S ribosomal protein L13 (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:83.4%25%2C Eval:5.9e-67],internal stop codon at [295384:295386](+),MGA_419
sequence1	MetaGeneAnnotator	CDS	295794	296192	.	+	0	ID=MGA_420;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166882.1;translation=MFKDKVIYRGTGRRKSSIAQVILTPGSGSITVNGKPALEFFPYATLVQDLEQPLVATNTLKDFDIIVKVIGGGFTGQAGATRLGIARALLQASEDYRKLLRDQGLLTRDARIKERKKYGLRGARRAPQYSKR;locus_tag=LOCUS_04200;gene=rpsI;note=WP_011166882.1 30S ribosomal protein S9 (Mycoplasma mycoides group) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-68],MGA_420
sequence1	MetaGeneAnnotator	CDS	296351	297190	.	+	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILAILSSLTLVSTGVFSTVLACKKNPTPTTKPNTNNNKVLKNNSLDNIKTTSATLLKQAVLADMYGYNFDFLKSYFNNKNLNEQAKKYKLNTEIKDNITLSTDFEDALTNYFSTNLVIKKNDNVNLDGIKGTDIDFLTSVLPKTVFGTTSKQISAAISIILENISGAGITGLLDLAKNIDINSKFSDFVKNLKVSKELITTLLNTIFTNEKFLKELEEEIEKFDALTLYKDFELSELSNLALLNILDGINGILDKDYQLVSSDIKKNNGLSLNVRL;locus_tag=LOCUS_04210;note=WP_020862894.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:83.5%25%2C q_cov:100.0%25%2C s_cov:30.0%25%2C Eval:4.0e-123%2C partial hit],internal stop codon at [297188:297190](+),MGA_421
sequence1	MetaGeneAnnotator	CDS	297130	297318	.	-	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLLILAGRIVGLVLLDNDEIVATFELGSNFATLLINVFEVFHNLTFKLKPLFFLISLDTN;locus_tag=LOCUS_04220;note=MGA_422
sequence1	MetaGeneAnnotator	CDS	297980	298693	.	+	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLITDSFVYNQPLINDNFDKILENLSKILKNLKIEDLLKGLFNENNGLVGSLKSLIENYIKFDDISKKIDDFIKNKETYSLVKAGIKSFIPILGEKFFEYIYDGKVEQTFDTLANLSNDVLIRTLVEKLKIQIPAALNFILPYFKKIAMSLRTIFPPGVHLNLKNLFTIKLSDFIKLENKPNFGSDYLDKSITTILNELSNAGTSSSKLKELDNAYGFKIDSLKEFINKIFKYDYK;locus_tag=LOCUS_04230;note=WP_020862894.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:89.9%25%2C q_cov:100.0%25%2C s_cov:25.5%25%2C Eval:2.5e-117%2C partial hit],internal stop codon at [298691:298693](+)%2C[298877:298879](+),MGA_423
sequence1	Aragorn:1.2.38	tRNA	299216	299292	.	+	.	ID=Aragorn_16;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_16
sequence1	MetaGeneAnnotator	CDS	299539	299661	.	+	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPYPSGSGLHVGHIKGYTATDVYSRFKRMQGYDVLHPIG;locus_tag=LOCUS_04240;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:5.0%25%2C Eval:5.2e-18%2C partial hit],internal stop codon at [299464:299466](+)%2C[299476:299478](+)%2C[299659:299661](+)%2C[299836:299838](+)%2C[299896:299898](+),MGA_424
sequence1	MetaGeneAnnotator	CDS	301339	301581	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKIEFSNTNNHKLDYVYNDVVKKVTQMIQELKFNTAISQLMVLVNAIYKEELNTVYKQYIEGFVKMLSLFAPHLSEEL;locus_tag=LOCUS_04250;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:10.0%25%2C Eval:1.2e-38%2C partial hit],internal stop codon at [301072:301074](+)%2C[301183:301185](+)%2C[301285:301287](+)%2C[301318:301320](+)%2C[301579:301581](+)%2C[301621:301623](+),MGA_425
sequence1	MetaGeneAnnotator	CDS	301509	301727	.	-	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVPFSTSIVDLNFPLTCKAITTVFLIILVSSNSGQVCKVTLELFPSFSHNSSLKCGANKLNIFTKPSIYCL;locus_tag=LOCUS_04260;note=MGA_426
sequence1	MetaGeneAnnotator	CDS	302215	302754	.	+	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAPDSLLYTLLSPFKLILVGGVFAMFIPLLKQLLFNTIIGIKSYLKNRDMNVLFNYSKTIEFVENLKAKISEDDFEGVKAAYSSYSSLAFKPVFLTNLMNEIYKTLIKFGDIKVFENGCASVLEAIQEMYVKEKRRAMNNGRGDEMFYDIKRGFEYSSYSSRYFVKYYEAMSKDSKKLG;locus_tag=LOCUS_04270;note=WP_011166878.1 membrane protein (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:34.4%25%2C Eval:1.1e-91%2C partial hit],internal stop codon at [301981:301983](+)%2C[302068:302070](+)%2C[302080:302082](+)%2C[302131:302133](+)%2C[302161:302163](+)%2C[302170:302172](+)%2C[302752:302754](+)%2C[302920:302922](+),MGA_427
sequence1	MetaGeneAnnotator	CDS	303562	304038	.	+	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166877.1;translation=MKKLLSILAIFSLATTSVLLSLTISNNSNFINTILKVETKKENKTDSKKLESLIKQKNLGSFNKKPSTSEIIKKINQINKLENQNQIKESDVDINIKKDKIIITLKSDKNDTVTLKYKNTHKLAEIIGGVLAGVVVLSGAGFLSYKVIKKQKTSKSTN;locus_tag=LOCUS_04280;note=WP_011166877.1 hypothetical protein (Mycoplasma mycoides) [pid:48.4%25%2C q_cov:98.1%25%2C s_cov:97.5%25%2C Eval:8.8e-35],MGA_428
sequence1	MetaGeneAnnotator	CDS	304070	304387	.	-	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166876.1;translation=MVSAIGSLCFMFSCLFNKSTFVLICNGAIFTLFVASDVISQVGKALDRSFLINFKNFTILSLIDFSKVSIKNISDFYLSYIILIGIIVISTSIGVISFTRKDLPL;locus_tag=LOCUS_04290;note=WP_011166876.1 hypothetical protein (Mycoplasma mycoides) [pid:72.0%25%2C q_cov:88.6%25%2C s_cov:97.9%25%2C Eval:2.2e-32],MGA_429
sequence1	MetaGeneAnnotator	CDS	304836	305330	.	-	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKGMKQKLGLVLCLMHQPKVLILDEPTTGLDPLIKNKFIQLMLKLKQNNTTIFLSSHVFEEVEKLCNKVAIIKSGRIINKLDLDLIKTTSDREYKITFKNHNIYKNEFLTNVNDLIATYKVPINKVNYFFNELKSYEINLFEEIPFSLENYFLKFYKKEGETK;locus_tag=LOCUS_04300;note=WP_011166874.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:89.6%25%2C q_cov:100.0%25%2C s_cov:55.6%25%2C Eval:4.7e-82%2C partial hit],internal stop codon at [305361:305363](-)%2C[305391:305393](-)%2C[305514:305516](-),MGA_430
sequence1	MetaGeneAnnotator	CDS	305514	305723	.	-	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQKIIEIKNLTKKYNNGYGIFDINLEVNQGDIYGYLGPNGAGKSTTIRHLMGYIRQNKGKALIFNEDC;locus_tag=LOCUS_04310;note=WP_011166874.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:91.3%25%2C q_cov:100.0%25%2C s_cov:23.4%25%2C Eval:9.5e-33%2C partial hit],internal stop codon at [305361:305363](-)%2C[305391:305393](-)%2C[305514:305516](-),MGA_431
sequence1	MetaGeneAnnotator	CDS	305923	306351	.	-	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIICIYKSYFFTFANINPDIPAPINENTRPEYARPFSFLDKSDLKISSKLGELYLDKATETKINAISKTTYPIAAIPKFFLFGIIFSLFLYTNQERKAIAAKVIINPITLTGIISLLKPNASCSELDGAFAKIMIFYASL;locus_tag=LOCUS_04320;note=MGA_432
sequence1	MetaGeneAnnotator	CDS	306618	307226	.	+	0	ID=MGA_433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVRHFIDTQELSKKEIFEIFRLMKMLKEARYCGAVPELLKNKTLAMIFEEPSTRTRVSFEAAMTLLGGHAQYLKPGELHLGVRESLYDTTKVLSHMCDGIMCRALKHETVLNLAKYADVPVLNGLTDYNHPTQAICDVFTMLEYMPATKNLEYEDIKFEDIKVVFIGDRTNVCSSTMHITTKLGMNFVHISPQKYQSPQA;locus_tag=LOCUS_04330;note=WP_011166873.1 putrescine carbamoyltransferase (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:99.5%25%2C s_cov:55.1%25%2C Eval:4.0e-112%2C partial hit],internal stop codon at [307224:307226](+)%2C[307332:307334](+)%2C[307335:307337](+)%2C[307338:307340](+),MGA_433
sequence1	MetaGeneAnnotator	CDS	307413	307661	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAGDQALFMHCLPASRNVEVYDEVIDSDNSIAFQQAENRLTAQMGLLVYYLYPQIDKSSNAVKDYYRGKVEAFMEHQDRS;locus_tag=LOCUS_04340;note=WP_011166873.1 putrescine carbamoyltransferase (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:1.8e-39%2C partial hit],internal stop codon at [307224:307226](+)%2C[307332:307334](+)%2C[307335:307337](+)%2C[307338:307340](+)%2C[307659:307661](+),MGA_434
sequence1	MetaGeneAnnotator	CDS	308307	308624	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSFSKGVVFLPVIIYNLSGFELGSNTASEMKNPKRDIPLSTILAGITIVISYIIGTIAVNVILDVKTLDVSNGIIQTIEKVFPDWLTKILGVFLLFTFFGNMIT;locus_tag=LOCUS_04350;note=WP_011166872.1 APC family permease (Mycoplasma mycoides) [pid:86.0%25%2C q_cov:95.2%25%2C s_cov:33.7%25%2C Eval:1.9e-44%2C partial hit],internal stop codon at [308010:308012](+)%2C[308028:308030](+)%2C[308103:308105](+)%2C[308136:308138](+)%2C[308181:308183](+)%2C[308250:308252](+),frameshifted%2C insertion/deletion at around 308582,MGA_435
sequence1	MetaGeneAnnotator	CDS	310035	310262	.	+	0	ID=MGA_436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSREPEQRMPASYANYYIANNAVILPIFGDKYDDLAVKTLQSVYPNHKIETVMAREILLGGGNIHCITQQQPTSK;locus_tag=LOCUS_04360;note=WP_011166871.1 agmatine deiminase (Mycoplasma mycoides) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:20.6%25%2C Eval:2.7e-35%2C partial hit],internal stop codon at [309774:309776](+)%2C[309783:309785](+)%2C[309864:309866](+),MGA_436
sequence1	MetaGeneAnnotator	CDS	310379	310816	.	+	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIVIAIGGNALGNSPTEQLEIVKKTAKSLVDFIVQGNDIVIVHGNGPQVGMINNAFDIANKNEVKSPILDFPECGSMSQGYIGYHLQQAIDNELKLRNINKPTVSLITQTLVDKNDAAFLKPTKPIGSFMNESEAKKLAEQNN;locus_tag=LOCUS_04370;note=WP_011166870.1 carbamate kinase (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:46.8%25%2C Eval:8.2e-76%2C partial hit],internal stop codon at [310814:310816](+)%2C[310844:310846](+),MGA_437
sequence1	MetaGeneAnnotator	CDS	310928	311311	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAGGGGGIPVYLKDDKLVGIAAVIDKDFAAAKIAEIIDAESLIILTAIDKVMINYKKENQQALDQITLAQAQEYIDQNQFAAGSMLPKVQAVMSFVKKTNGKPAYIGSLEQADKVLQNLSGTKFVK;locus_tag=LOCUS_04380;note=WP_011167019.1 carbamate kinase (Mycoplasma mycoides) [pid:89.8%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:5.7e-57%2C partial hit],internal stop codon at [310814:310816](+)%2C[310844:310846](+),MGA_438
sequence1	Aragorn:1.2.38	tRNA	311432	311507	.	+	.	ID=Aragorn_17;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_17
sequence1	MetaGeneAnnotator	CDS	311608	312243	.	+	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEFKEIEVKNSRVTQKPNYLVDVIFSKQKYQEDKKEFYKLYLVISKNLRYYDESKLSNNLSDLFYSISYKNKDKLVKLISNDKKLINYQISTNKQKQFITINIPTNIFNNHQLELIFDAKFKTNNLTEEFTNTILLNNKATHNKNKYLNNLITYYKNYDQYKKKAVLFNLLSYELNYKQPSFTINKKYLKIIDFDYKFNVNLHKDFNNN;locus_tag=LOCUS_04390;note=WP_020862888.1 hypothetical protein (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:59.3%25%2C Eval:3.9e-116%2C partial hit],internal stop codon at [312241:312243](+),MGA_439
sequence1	MetaGeneAnnotator	CDS	312665	313027	.	+	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166863.1;translation=MKLSKNFKILIMFILIVSCILSTIASIYFSNVFSLNKNNLLKQSINITKPIIDNSKYLNKLLTNDNKLNINSFKTIFLKELKKQNKELFLLDDLITFSYDNTSVSVEYQNYKWSYKIVYN;locus_tag=LOCUS_04400;note=WP_011166863.1 hypothetical protein (Mycoplasma mycoides) [pid:95.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-58],MGA_440
sequence1	MetaGeneAnnotator	CDS	313051	313272	.	+	0	ID=MGA_441;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166862.1;translation=MAIYNQIVKELKSRGAKGNITKDSEFKSLGLDSLDLMDMVVTLEEKLNIRISDDQLLSLRTIDDLLKVIEELQ;locus_tag=LOCUS_04410;note=WP_011166862.1 acyl carrier protein (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-31],MGA_441
sequence1	MetaGeneAnnotator	CDS	313273	313737	.	+	0	ID=MGA_442;product=transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166861.1;translation=MIHLSKTQQTKYKQIVEKLKLKKIRLTDIRSIVIKMLIVSDHLTIQQIINNLESEINNINVMSVYNTIDLLLKEHIVFANTFNGKDISYEIAADKSVHLKCDDCLKVIHLDDKSIENYHFLELLDLCEKNGIKLSHFKIEGHGYCLECSSKENK;locus_tag=LOCUS_04420;note=WP_011166861.1 transcriptional repressor (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-81],MGA_442
sequence1	Aragorn:1.2.38	tRNA	313813	313888	.	+	.	ID=Aragorn_18;product=tRNA-SeC;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_18
sequence1	Aragorn:1.2.38	tRNA	313926	314000	.	+	.	ID=Aragorn_19;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	314301	314888	.	-	0	ID=MGA_443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFGILVDSAAVYDPAEFKNTIIDVIPLHIVFPNNDEYLDIKNIVEQEKILEKVSMGENIKTSQASPGELEKKYDELLEQYEHIIHIPITNNLSSMLQTATLVSQDEKYKDKITVYQNNDLAAQGIALTALSLAKAIKSNKIKTAQQAIDFIDNFKEKVLIAIIPGDLKKLSNGGRAKGVITTVLNLLKTKLLII;locus_tag=LOCUS_04430;note=WP_020862886.1 DegV family protein (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:91.8%25%2C s_cov:63.3%25%2C Eval:3.2e-95%2C partial hit],internal stop codon at [314301:314303](-),MGA_443
sequence1	MetaGeneAnnotator	CDS	314939	315265	.	+	0	ID=MGA_444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCDAITFVSSDFSLISNCSSFIIVSINSKVFSSVLEYEISIVFKSLISSFNKLKASFKAFLKVLAVDCLSILPSYFKMGVIFKIFANAAAAGEILPPCFKVSKFFGII;locus_tag=LOCUS_04440;note=MGA_444
sequence1	MetaGeneAnnotator	CDS	315334	315513	.	-	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKYDQVIFLPISKGLSGQYNTFKMLQQTEEKYENKVFVCDTSAVSVIMQEVVNKVFE;locus_tag=LOCUS_04450;note=WP_011166859.1 DegV family protein (Mycoplasma mycoides) [pid:94.9%25%2C q_cov:100.0%25%2C s_cov:21.1%25%2C Eval:5.2e-26%2C partial hit],internal stop codon at [315334:315336](-)%2C[315520:315522](-),MGA_445
sequence1	MetaGeneAnnotator	CDS	315520	315738	.	-	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIKIAVLTDSSFDGRVSDYKDLYVIPLMIVTQDNQTYYDDENLSKDKFYNLLNSQVLKTSQTTPGDMLQM;locus_tag=LOCUS_04460;note=WP_011166859.1 DegV family protein (Mycoplasma mycoides) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:25.8%25%2C Eval:2.0e-33%2C partial hit],internal stop codon at [315334:315336](-)%2C[315520:315522](-),MGA_446
sequence1	MetaGeneAnnotator	CDS	315807	316226	.	+	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVNSIKFGIFYSKQFNSLLVSFFNKKVTSTQQINNITILKNNDEIIGANIFNVDPNLNLKSGFCSEDPKAVNYVIQALKNIYEVKQELQFVIGRIIECEPIEGTHLNICQVDIKSEVLQIICGASNARKKSSMCCCYS;locus_tag=LOCUS_04470;note=WP_008364155.1 hypothetical protein (Mycoplasma feriruminatoris) [pid:90.7%25%2C q_cov:92.8%25%2C s_cov:63.9%25%2C Eval:2.0e-62%2C partial hit],internal stop codon at [316231:316233](+)%2C[316387:316389](+),frameshifted%2C insertion/deletion at around 316199,MGA_447
sequence1	MetaGeneAnnotator	CDS	316400	316702	.	+	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNKTKFKFDSRVKDGYFIADYFKKTVEILKNFKHDQIITMQFFQRNDNVVLCGISEVIDLLKFTSPNYDDLEIYALNDGDIINSKEPVLKITGKYQDFG;locus_tag=LOCUS_04480;note=WP_020862883.1 nicotinate phosphoribosyltransferase (Mycoplasma mycoides) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:28.3%25%2C Eval:7.0e-52%2C partial hit],internal stop codon at [316700:316702](+),MGA_448
sequence1	MetaGeneAnnotator	CDS	316712	317461	.	+	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDGILSRNTSIATNSKQIIDAASHKDVLNMLDRADNYLTLASDGYASYIGGFRLFVTQASLEYIDDKTVLQPSGTMPHALIQAFNGDTLKAADAFYKTYPNNNLVVLIDYDNDCVNMATKIGKHFKEKLYAVRLDTSENLVDKFFINNKDYINQTNLNGVSEQLVREVRKALDNVGCNHTKIIVSSSFSANKIKEFESKNVPVDIYGVGSALAKINIHFTGDAVLINNQKQAKFGRENIENLRLKKVK;locus_tag=LOCUS_04490;note=WP_020862883.1 nicotinate phosphoribosyltransferase (Mycoplasma mycoides) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:70.5%25%2C Eval:1.3e-135%2C partial hit],internal stop codon at [316700:316702](+),MGA_449
sequence1	MetaGeneAnnotator	CDS	317620	317832	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMIITLKRFADYNFKPIALIGGATGMIGDPSFKANERVLQTKDQVEHNINKISAQLKQIIPNVNFVNNNT;locus_tag=LOCUS_04500;note=WP_011166856.1 tyrosine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:5.0e-34%2C partial hit],internal stop codon at [317500:317502](+)%2C[317830:317832](+)%2C[318040:318042](+),MGA_450
sequence1	MetaGeneAnnotator	CDS	318361	318714	.	+	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKFVHQQQGLDKALKLTEAFFSGDLFSLTDDLFKMALNSLPNTQINKDTKVIDALIEVKAASSKREAREFLTNKAIMINNQIIEDENTLISSFDLIQNKYLLVKKGKKKYFVILIK;locus_tag=LOCUS_04510;note=WP_011166856.1 tyrosine--tRNA ligase (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:84.6%25%2C s_cov:23.9%25%2C Eval:2.1e-48%2C partial hit],internal stop codon at [318175:318177](+)%2C[318220:318222](+),MGA_451
sequence1	MetaGeneAnnotator	CDS	318908	320068	.	+	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYISLLTIKNQYDFLESLITIDQYIEFIKKNKLSYAFYSETHTMYGVAEFFKKATDNNIKPIIGLTIEFEDSTKLIIYAKNKKGYQILNFVSSFLNDGFNHYDYEIKEYILELVNNNVVVVGLINDLDFKTHLINKLNNDFYDVKELNLYFNQISYLDINDQKTFNILNAIKTNKTIDQIQNINNYFYPDNDYLIKNYSLENIKKVISEINLKVDFNLFDSNEKHLVKYKNINNLSSFEYLRQVCLLSLKKYQQKIKPYLDLKLYINRLNYELEVIKQMGFSDYFLIVSDYVNFAKKNDILVGPGRGSAAGSLISYLLRITDIDPLEYDLLFERFLNPDRSNLPDIDLDFQDNRREEVLEYLFEKYGKYHVGMITTYQTIGYKMA;locus_tag=LOCUS_04520;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:39.1%25%2C Eval:8.4e-216%2C partial hit],internal stop codon at [320066:320068](+),MGA_452
sequence1	MetaGeneAnnotator	CDS	320231	320935	.	+	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIVGLPRQTSTHAAGIVLTDCDLRELVPIKIGFNGINQTQFDMNYLDALGLIKMDILGLRNLTTIQEIKHLIYLNQNLKISLNKIDLNDKKAFELLKNKQTSGIFQLESKGMTDLISKMQVDSIEQISIASALYRPGPQEMIPIYLENKKTNKFKIIDKSVYEILKPTYGIIVYQEQVMQMLNKVANFSYAKADIIRRAMSKKNNKVMQSMKLEFINSAIKNNFSYNKANLI;locus_tag=LOCUS_04530;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:23.7%25%2C Eval:5.1e-123%2C partial hit],internal stop codon at [320066:320068](+)%2C[320933:320935](+)%2C[320939:320941](+)%2C[321008:321010](+),MGA_453
sequence1	MetaGeneAnnotator	CDS	321194	321871	.	+	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLTCIKSIGYEVVKKINLAKTENENMYLDIHNFILAMIKQKINVNVLQTLIKAGALDIFNYNKKTMIENLDLLISQANAYKQVNNILDDEKINLIIYDEYEDEILASFEKELYGFFIDQNPILKLKTNNFNLNLIDISKLEYNKVQVILGYILKIKEIKDKNNNKMAFVTVFDNTSEVELTIFSSDYKDISDQLIENKAYVFKVLKTKTNNKTSIKFISLIKAI;locus_tag=LOCUS_04540;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:91.1%25%2C q_cov:100.0%25%2C s_cov:22.8%25%2C Eval:5.0e-112%2C partial hit],internal stop codon at [320933:320935](+)%2C[320939:320941](+)%2C[321008:321010](+),MGA_454
sequence1	MetaGeneAnnotator	CDS	321880	322206	.	+	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKILVVDGNSLIFRAFYATAYSSNSNLLKTKSGVLTNAVYSFINMLLSVIHQRGPYDHILIAFDKGKKTFRHDLLSDYKANRIKTPNELVEQFSIVREFLTKANIQ;locus_tag=LOCUS_04550;note=WP_011166854.1 DNA polymerase I (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:2.2e-53%2C partial hit],internal stop codon at [322204:322206](+)%2C[322411:322413](+),MGA_455
sequence1	MetaGeneAnnotator	CDS	322609	322830	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFLCKDLATIKTDVTLENFSFKKLDFNVDNIYEFLNKYEMYSLKKRFTNILNLDFNPYQNKKQNLDVRIINS;locus_tag=LOCUS_04560;note=WP_011166854.1 DNA polymerase I (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:8.0%25%2C Eval:3.6e-35%2C partial hit],internal stop codon at [322411:322413](+)%2C[322828:322830](+),MGA_456
sequence1	MetaGeneAnnotator	CDS	323014	324600	.	+	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEEFLNNSNLKKYTYDIKKTTYLLKNHNYNVLASNFDFDFMVACYSLNANVVSDLSNQIKLVDNFIELETIDEIFGKGVKKNPDIDLDIKSKYISKKAYLLKKYSDQLIEQLKQTNTYDLYLKIDHPLIEVLYDIEVQGILIDKEQLKLQTQQILKKINHIEGQMKILVAEEIDNNFNFSSPKQIQELLFDKLKLPNLEKGTTSKEVLEKLITYHPIINLLLEHRKYTKLYTTYLKGFEKFIFDDNKVHTIFNHTLTNTGRLSSSYPNIQNISIRDNEQKEVRKIFITNNNKTFLSYDYSQIELRVLAQMSKETNLINAFNQNADIHLQAAKLIFNLSDDQITSEQRRIAKVFNFGILYGLTDFGLASDLNISVNQAKQMIKDYYSAFPSLLEFKEKQVEIATNQGYITTLSNRRRYINELNSTNHNIRQFGKRIAVNTPIQGTASDILKVAMISIYKKLKEQNLDARIVCQIHDEIILEVDDNQLEQTKKIVVSELENALEKLFLDLNIKEQVVVKLKVGESVGKT;locus_tag=LOCUS_04570;note=WP_011166854.1 DNA polymerase I (Mycoplasma mycoides) [pid:95.8%25%2C q_cov:100.0%25%2C s_cov:58.0%25%2C Eval:8.5e-289%2C partial hit],internal stop codon at [322828:322830](+)%2C[324598:324600](+),MGA_457
sequence1	MetaGeneAnnotator	CDS	324626	324865	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPELPEVVTVTNTIKPKIINRTILNSQIFTNKIISSTSVDQFINLTKNQKIYDVYNLAKYIVIELKEHVIISHLRMTGK;locus_tag=LOCUS_04580;note=WP_011166853.1 DNA-formamidopyrimidine glycosylase (Mycoplasma mycoides) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:28.8%25%2C Eval:7.6e-38%2C partial hit],internal stop codon at [324863:324865](+)%2C[324905:324907](+),MGA_458
sequence1	MetaGeneAnnotator	CDS	324959	325450	.	+	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGFGTLNLYNKQTFLKDSHLDKLGPIPLNNQTSVDYLFNKLQKSNKAIKTVLLDQHVISGLGNIYVNEVLFLSKINPLTNANLITKDQTNQIIKNCETVLSQAILLKGTTISDFESLPGITGGYQTKLLVHMNNKNCKICDTKISKIKVNGRGTYYCSKCQN;locus_tag=LOCUS_04590;note=WP_011166853.1 DNA-formamidopyrimidine glycosylase (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:59.5%25%2C Eval:3.4e-88%2C partial hit],internal stop codon at [324863:324865](+)%2C[324905:324907](+),MGA_459
sequence1	MetaGeneAnnotator	CDS	325607	326443	.	+	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKNFSYSVSLNFELDQEQYKSLTCLYQPLISAQAISLYLTLIQEVRISNILKEEALESKRLLNITNFSYKELIKTLDLLNAFKLIKVYVKKSDYSLIKFEILAPLKSDEFFNHTYLNNLLLNKLEANDYEITKFMLVNETKINTNQYQQIVVDLTDIYDQSLIADINIFDTEVNSFNTYLKKLNQLINVDYVLNSLKDKNIDLDFIQQSTLKSLYDLLTIKKPSEDQIIYLITNSYDFINKNIDINIFKKLLINLITKKETNFDNKELLDLINQTT;locus_tag=LOCUS_04600;note=WP_011166852.1 DnaD domain protein (Mycoplasma mycoides) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:70.6%25%2C Eval:7.2e-133%2C partial hit],internal stop codon at [326441:326443](+),MGA_460
sequence1	MetaGeneAnnotator	CDS	326657	326791	.	+	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFLKNIQSKSINYNYETMFDSNDFNLQTEAIFEFSEEELKCLV;locus_tag=LOCUS_04610;note=WP_011166852.1 DnaD domain protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.2%25%2C Eval:6.0e-19%2C partial hit],internal stop codon at [326441:326443](+),MGA_461
sequence1	MetaGeneAnnotator	CDS	326801	327088	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSDYKNNVKIKKLIEDSQNSNDIITDKVLLENQNILDEFLLNYKECNLDTKCEQVVKNYQVDLVFKDHQFYLKNVLCVHGKQTEKLFIIKKNY;locus_tag=LOCUS_04620;note=WP_011166851.1 ATP-binding protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:30.4%25%2C Eval:3.0e-50%2C partial hit],internal stop codon at [327086:327088](+),MGA_462
sequence1	MetaGeneAnnotator	CDS	327527	327739	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENQKPTFFTSNFSIDLLEKNLQFTKQYNNFLTTQDVFKLEKIKIDRLISRIKTLAKEINLTGKNKRQTN;locus_tag=LOCUS_04630;note=WP_011166851.1 ATP-binding protein (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:7.3e-33%2C partial hit],internal stop codon at [327485:327487](+),MGA_463
sequence1	MetaGeneAnnotator	CDS	327840	328094	.	+	0	ID=MGA_464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKVAINGFGRIGRLTFRQLFEKDIEIVAINDLTDTKTLAYLLEFDTAQGIFCEGEISHTDNSIIVKGKEVKVFAEKDASNLP;locus_tag=LOCUS_04640;note=WP_011166850.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:2.0e-41%2C partial hit],internal stop codon at [328092:328094](+),MGA_464
sequence1	MetaGeneAnnotator	CDS	328188	328445	.	+	0	ID=MGA_465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVISAPATGDLKTVVYGVNHKSLTSDDVIISGASCTTNCLTPFTKALDDAFTIKKGFMTTVHAVTNDQRLLDLNHKDVRRGRAAA;locus_tag=LOCUS_04650;note=WP_011166850.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:25.1%25%2C Eval:1.4e-42%2C partial hit],internal stop codon at [328092:328094](+)%2C[328443:328445](+),MGA_465
sequence1	MetaGeneAnnotator	CDS	328536	328790	.	+	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTITGSITDLTVEFENQELTVEQINNAVKKALESDADLAKAMKYETKPIVSSDIIGSKYGSIFDATLTKVMNVDGKQLVKVCS;locus_tag=LOCUS_04660;note=WP_011166850.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:3.7e-40%2C partial hit],internal stop codon at [328443:328445](+)%2C[328788:328790](+),MGA_466
sequence1	MetaGeneAnnotator	CDS	328918	329409	.	+	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFKYSRISITTIKGENMNYNNKKTLKDIDVKNKTVLVRVDFNVPIQSGVITDDNRIIAALPTINYLLENDAKIVLFSHLSRIKSKEDKLKKSLAPVAKRLEELLNKQVKFINQTRGQELEKAISSLQSKEIILVENTRFEDVLDDQVVKYESKNNHELGKY;locus_tag=LOCUS_04670;note=WP_011166849.1 phosphoglycerate kinase (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:89.0%25%2C s_cov:35.9%25%2C Eval:8.0e-74%2C partial hit],internal stop codon at [329407:329409](+),MGA_467
sequence1	MetaGeneAnnotator	CDS	329539	329865	.	+	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSQAVNEPKKPFIAILGGAKVSDKIGVIENLLPKVDKLLIGGGMSYTFLKALGKTIGKSLLEEDKIDLAKHYLEIGKDKIVVPVDTACAKEFADVSPTIFEGNIPDE;locus_tag=LOCUS_04680;note=WP_011166849.1 phosphoglycerate kinase (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:26.7%25%2C Eval:5.2e-55%2C partial hit],internal stop codon at [329407:329409](+)%2C[329863:329865](+)%2C[329938:329940](+)%2C[330103:330105](+),MGA_468
sequence1	MetaGeneAnnotator	CDS	330292	330750	.	-	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLLCLTGLIASTNLTVIACGNKTNSKLNNNNNNKNDDYDFEIKSNKNNSEKDTKTNPETTSKILIKPEIKPKLDVKPITRSKSDKRLKIIPTPITESELIAILEECPQYPQLARRPMPPQLGRKPMPPQLGKISIPDYSTGGSILPK;locus_tag=LOCUS_04690;note=MGA_469
sequence1	MetaGeneAnnotator	CDS	331059	331340	.	-	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNLASLLSKSIELDKDVMKTVAAYRSGINVNDENRSDVASQLDTTIRGLHLQIENYPDLKAHESIKQALQQNLYLQKEITAARDLYNDTVFQ;locus_tag=LOCUS_04700;note=MGA_470
sequence1	MetaGeneAnnotator	CDS	331476	331601	.	-	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANQLDEMNDPILEQGRQVNVINKQIPITVGKGSLVFEILL;locus_tag=LOCUS_04710;note=MGA_471
sequence1	MetaGeneAnnotator	CDS	332075	332230	.	-	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKENKLIIFATEKLNEINFYDNEDQYQHYSIEHIQNYFYSINKNYFKTFY;locus_tag=LOCUS_04720;note=MGA_472
sequence1	MetaGeneAnnotator	CDS	332639	332974	.	-	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAKDKQQAELNQLIEVGLEQTKSLRELIKIGTKNKLLTLTMPFIHLNRHLGLNKLNKLIDEYGFLNSSSDDTKTTVYVKSGTINNNYFLLTKDYSYEIVKKTYHGSLTIS;locus_tag=LOCUS_04730;note=MGA_473
sequence1	MetaGeneAnnotator	CDS	333158	333367	.	-	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNNEFIFEPLKEYDKYQEKNLNIIKEYFDNLIATSKVDIEENKQQVIKINKKQAELNKSNSSLKKLRI;locus_tag=LOCUS_04740;note=MGA_474
sequence1	MetaGeneAnnotator	CDS	333583	333822	.	-	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIAVFYLVIVTVELILLMIYSILRLIGNILNTARRVLQADNMFIGVLYLLFGLLSTFFQIYYVIFLTIMISQTIKGI;locus_tag=LOCUS_04750;note=WP_011166844.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:25.2%25%2C Eval:1.9e-36%2C partial hit],internal stop codon at [333583:333585](-)%2C[333946:333948](-)%2C[333952:333954](-)%2C[333973:333975](-)%2C[334006:334008](-)%2C[334075:334077](-),MGA_475
sequence1	MetaGeneAnnotator	CDS	334103	334282	.	+	0	ID=MGA_476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFGKLVKIQGVKNPPKFKLKLAKIYLFATNSSSVLFLTNLKIITAEIIVFQNIYPIVA;locus_tag=LOCUS_04760;note=MGA_476
sequence1	MetaGeneAnnotator	CDS	334527	335654	.	-	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGENGVELLMADSTNSEVEGYTQGEKSIISNIDKLFLQAKGRIFLTTFASNVHRIQHIIETAHKYNRKIVILGRSFERIIKIIRQIGHLKISEKEFIKSTDIDKYKPEELMILTTGSQGEPMAALSRIANNKHLSINIIPGDTVVFSSSPIPGNRADVEKLVNKLTRVGAIVIENTSDNKIHTSGHASQEEQKLLFSLIRPKYFMPMHGEYRMLKKHVETGESVNLEKGNGFIMANGDVLELLQGKAKIGKRVEADAVYVDGKDMTGKASNVIREREILSKDGLIAVVISLDSQTNKLISQPRIISRGSFYVKDAGSIISDSIQIITNAVNEVLMSSKPTFAAIKKAIKSSLSPYIFRVKRRNPLIIPVILNKKS;locus_tag=LOCUS_04770;note=WP_011166843.1 ribonuclease J (Mycoplasma mycoides) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:1.5e-206%2C partial hit],internal stop codon at [335697:335699](-)%2C[335820:335822](-),MGA_477
sequence1	MetaGeneAnnotator	CDS	335820	336359	.	-	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIDKKDLDILNEENENLINSFDDDGDQLNISIDEKEFKPYVFKQKEVKRQYQKTNIPTKIFALGGLEEVGKNTYCIEYDNELIMIDAGVKFPESTMLGVSAVIPDYSYLAENQKKIKALFITHGHEDHIGGIQYLVQQVKIPVIYAPKLAAMLIRDRLKEYKIEDKTIVKEYDADDV;locus_tag=LOCUS_04780;note=WP_011166843.1 ribonuclease J (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:29.3%25%2C Eval:1.0e-94%2C partial hit],internal stop codon at [335697:335699](-)%2C[335820:335822](-),MGA_478
sequence1	MetaGeneAnnotator	CDS	336732	336935	.	+	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166842.1;translation=MFKQAIYNANKTKCLEIGYFTNKNNQIQIQRFPHIIKKVPKVLQNRIINLFNAFYKKQNEFIDGIQY;locus_tag=LOCUS_04790;note=WP_011166842.1 hypothetical protein (Mycoplasma mycoides) [pid:94.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-32],MGA_479
sequence1	MetaGeneAnnotator	CDS	337391	337573	.	-	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVKEVEASFNCLFKVVMFGSIIGFNSSIGFFGCGVGFFGCLSETGFLLSIGLETFCLFL;locus_tag=LOCUS_04800;note=MGA_480
sequence1	MetaGeneAnnotator	CDS	337712	337891	.	-	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSLLFLKLSSSSISTHIFFLEMISSISKIPKETLFKVVDKDEDLLLSPVAFKLRLTV;locus_tag=LOCUS_04810;note=MGA_481
sequence1	MetaGeneAnnotator	CDS	337914	338156	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKNNYDNLDESIFNKDSYTYDFSETEVKSVSIDYKTERKGGNDYYYKKTRFTDMEPTESWYKTKMKIKKNQTKDDFVD;locus_tag=LOCUS_04820;note=WP_011166841.1 hypothetical protein (Mycoplasma mycoides) [pid:49.4%25%2C q_cov:98.8%25%2C s_cov:19.7%25%2C Eval:2.4e-12%2C partial hit],internal stop codon at [337839:337841](+)%2C[338154:338156](+)%2C[338226:338228](+)%2C[338340:338342](+)%2C[338370:338372](+)%2C[338385:338387](+),MGA_482
sequence1	MetaGeneAnnotator	CDS	338930	339187	.	-	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAAIIAIVLNACGSLLTSKSSPPKIKSFIKSLPKKSTITAKPAGIAKSGSKRHHNKKFGKFLKIRIVRSMNFPILLNIFISFLF;locus_tag=LOCUS_04830;note=MGA_483
sequence1	MetaGeneAnnotator	CDS	339303	339443	.	+	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIAFFLLQYVVSIFFDLIKLAFGLENQSASQTVIENILKTGLTRP;locus_tag=LOCUS_04840;note=WP_011166840.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:15.6%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [339024:339026](+)%2C[339441:339443](+)%2C[339504:339506](+)%2C[339558:339560](+),MGA_484
sequence1	MetaGeneAnnotator	CDS	339588	339740	.	+	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKSMELFTLFITSPIYGITAVFDGQKIFKKYIREKIIGKSFAVLGLMFI;locus_tag=LOCUS_04850;note=WP_011166840.1 hypothetical protein (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:6.6e-21%2C partial hit],internal stop codon at [339441:339443](+)%2C[339504:339506](+)%2C[339558:339560](+)%2C[339738:339740](+),MGA_485
sequence1	MetaGeneAnnotator	CDS	340185	341069	.	+	0	ID=MGA_486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKGESSIAAVNQKGIYNSKNSAELARSNFFEDKIQPAKIDKIKTPPKAYSQAQQLAKANNVDLLTITGSGQNGRILKSDVQNAINNQKAVKTLTTSNSFNNNSDDKTFFDKLTKSDSNNSIVDKLQAKEGKVNKKQPTKNNYEDIEKKKSTLEKFKENYKKLSEKEDKKLMLQELKKLNKSIEKFAKQLNKSKVISKDSDKISKTKSFKLFDFNKFNNTKPSFEVKQPNLSLQNNQKPFKINIFKKDIELKEKQDLFNNKLIQNNQNITDKKIGSKLNKLNIFKKKDKEVKK;locus_tag=LOCUS_04860;note=WP_011166839.1 E3 binding domain-containing protein (Mycoplasma mycoides) [pid:75.2%25%2C q_cov:100.0%25%2C s_cov:62.9%25%2C Eval:4.5e-112%2C partial hit],MGA_486
sequence1	MetaGeneAnnotator	CDS	341069	341218	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSKAMFPQRLRKVRFYIYKSLTLLNTLYIGFCIALGFVLYKTLTIILL;locus_tag=LOCUS_04870;note=WP_011166391.1 hypothetical protein (Mycoplasma mycoides) [pid:85.7%25%2C q_cov:100.0%25%2C s_cov:32.0%25%2C Eval:3.4e-17%2C partial hit],internal stop codon at [341216:341218](+),MGA_487
sequence1	MetaGeneAnnotator	CDS	341518	341709	.	+	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVIPIRIFITDKTYFQLKHYDFNFDLITKKNIDYFVISNGKNIFYDTDNNKFYMLTKKNTKI;locus_tag=LOCUS_04880;note=WP_011166838.1 type II toxin-antitoxin system death-on-curing family toxin (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:27.9%25%2C Eval:4.5e-30%2C partial hit],internal stop codon at [341707:341709](+),MGA_488
sequence1	MetaGeneAnnotator	CDS	341785	342162	.	+	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLNKIFFSKDGNLYFQEKEKGSLLSGINSTIFKYSYKSENYDIFDFVTEIFIKVLTGHYFINGNKRTALMLLIQLLRIFGYYFYFSDDVNLFKHYYYEKIEKELANFVQMLQKKKITYKEIKR;locus_tag=LOCUS_04890;note=WP_011166838.1 type II toxin-antitoxin system death-on-curing family toxin (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:55.3%25%2C Eval:2.7e-67%2C partial hit],internal stop codon at [341707:341709](+)%2C[342160:342162](+),MGA_489
sequence1	MetaGeneAnnotator	CDS	342772	342900	.	-	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDMFKDAKNFNQDISSLDTSRVVDMGRMFSGAESFNQNISN;locus_tag=LOCUS_04900;note=WP_011166411.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:63.2%25%2C q_cov:90.5%25%2C s_cov:8.8%25%2C Eval:5.3e-07%2C partial hit],internal stop codon at [342622:342624](-)%2C[342697:342699](-)%2C[342772:342774](-)%2C[342922:342924](-)%2C[343045:343047](-),MGA_490
sequence1	MetaGeneAnnotator	CDS	343045	344043	.	-	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKKTNIKITSKNKKEQNDKKKKKKYLIVLAGLLLGTSLITGTTVGILKNRRKVVRKDDKNNKTVINLENTININSRFLPILYTENKSDILKHINTKINKIKAYKKIINLSLDDVDLVLLKDTNSVKVVAKPSQNKYQGQIEISFKKTNVDQVFNSKDKNLGNFDNIDHKKIINKIIELNKDNLQNINFNDHFEIEIKNNVVTIKAKPSSHFYKGQITGYKFKIRTKLDDLINTKEINNYEFDLKPDNKKIIDLIIEKNPELKDLDFEKDFDIQINDQKVIITPNSDNYSDKLEIDFKVKPEPENDQKEVFDENDNSELKEIGYFKNKYGQ;locus_tag=LOCUS_04910;note=MGA_491
sequence1	MetaGeneAnnotator	CDS	344318	344809	.	-	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTELLNDNLKLNIKIIKDLHYFVLKSKKLNAGVFRKIPVSILNSVHTPVQPYLIEPKLEQLLEDYFNSNDHIIKKIAKFHLDFESIHPFIDGNGRTGRLLINYQLMRNGYYPIDIKFENRNLYYQAFDDYHQKNDLSTMTKLIANFELLRLNFYIRTLKENNI;locus_tag=LOCUS_04920;note=WP_011166394.1 Fic family protein (Mycoplasma mycoides) [pid:66.9%25%2C q_cov:100.0%25%2C s_cov:53.3%25%2C Eval:5.1e-60%2C partial hit],MGA_492
sequence1	MetaGeneAnnotator	CDS	345224	345385	.	-	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAISTTDFTKELTLKTYNKSISQNSIDKIQHVLDQMVKDKIIVEETKNVYRLI;locus_tag=LOCUS_04930;note=WP_008363296.1 DUF4011 domain-containing protein (Mycoplasma feriruminatoris) [pid:86.8%25%2C q_cov:100.0%25%2C s_cov:3.4%25%2C Eval:4.2e-20%2C partial hit],internal stop codon at [345494:345496](-),MGA_493
sequence1	MetaGeneAnnotator	CDS	346136	346261	.	-	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKFIKNAELGVDNLKHLDLDSNFKSAFEQEVYEQLVLKG;locus_tag=LOCUS_04940;note=WP_008363296.1 DUF4011 domain-containing protein (Mycoplasma feriruminatoris) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:2.7%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [345929:345931](-)%2C[345941:345943](-)%2C[345959:345961](-)%2C[346136:346138](-)%2C[346289:346291](-),MGA_494
sequence1	MetaGeneAnnotator	CDS	346835	347890	.	-	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDLFNTKKQATDFNEQLIFNTDIKDINQLLSTKQTLENMINLYNDQTISNTLLNILANQNKLDQLTNNINSFYDAYLEFLTLLNKDKTTYLKFSYLEFKNLIQNLINNKHQLDQYINFNFYKQELEKDLSDFINKIIENKITTNYEQIFLKRFYKLLIQNILDTELQNKDAIFMNSNLELFKTKDKEINNIAKDRIIMTLDKKIKESLIFENTNPQYSIIKRESAKKRLKMSFKTIFENALEFILNIKPCLMLSPLTVSYLFKDIDYKFDTVIFDEASQIKPETAISSLFRAKQVIIVGDKEQMPPTNFFNTLENDEVIEKTSIEQDISSGYESLLSLAEGNLDSIRLK;locus_tag=LOCUS_04950;note=WP_008363296.1 DUF4011 domain-containing protein (Mycoplasma feriruminatoris) [pid:84.0%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:4.0e-169%2C partial hit],internal stop codon at [346835:346837](-)%2C[347972:347974](-)%2C[348071:348073](-),MGA_495
sequence1	MetaGeneAnnotator	CDS	349505	349831	.	-	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKSLNFNIKTTKTISSKIQIIYPNLLDFLKSLDTSSKEIYEISNYKMLGLYKTDQLKNQVFYSHNLGEINKNNSFYKTKIYTQFGYFESKDILDLTLKKIYKISKT;locus_tag=LOCUS_04960;note=WP_011166830.1 DUF4011 domain-containing protein (Mycoplasma mycoides) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:3.7e-53%2C partial hit],internal stop codon at [349367:349369](-)%2C[349451:349453](-)%2C[349505:349507](-)%2C[349856:349858](-),MGA_496
sequence1	MetaGeneAnnotator	CDS	350286	350657	.	+	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGLYSFIDQIFILQFVPKYSNVFGNMNSEIMKYLDLSLHNLTTNDLFKSYNEMLDAYNQQAGMLNASKLTVINSNTIVSISTASFAPLTIFSNAIVYLVPVGSSIYYTKCIGKRLEKTGKNL;locus_tag=LOCUS_04970;note=MGA_497
sequence1	MetaGeneAnnotator	CDS	351150	351305	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKFNKKLLGPIFLLGLGGFLRTFGIGFSFLVMNLLIANSQFAMPEYFQFY;locus_tag=LOCUS_04980;note=MGA_498
sequence1	MetaGeneAnnotator	CDS	352335	352520	.	+	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIKFRIIDKYRIELLEDANRGDIIDLSNAYQIDLSIITDQINKQKDLVYLEKLEKEKQN;locus_tag=LOCUS_04990;note=WP_020862867.1 DUF2130 domain-containing protein (Mycoplasma mycoides) [pid:83.1%25%2C q_cov:96.7%25%2C s_cov:12.0%25%2C Eval:2.8e-19%2C partial hit],internal stop codon at [352518:352520](+)%2C[352704:352706](+),MGA_499
sequence1	MetaGeneAnnotator	CDS	352524	352706	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKTTQLEKIKSDLKEQNDEEFKKTTTLISQLQITNKSLSEKLENSKKEFQKELDNNKKI;locus_tag=LOCUS_05000;note=WP_020862867.1 DUF2130 domain-containing protein (Mycoplasma mycoides) [pid:51.7%25%2C q_cov:96.7%25%2C s_cov:11.8%25%2C Eval:5.2e-10%2C partial hit],internal stop codon at [352518:352520](+)%2C[352704:352706](+),MGA_500
sequence1	MetaGeneAnnotator	CDS	353151	353807	.	+	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAFKTSTLIKDNVVIKNEDELKGTKGDFIFKVYAEEEKQNLLLSVMCEMKSEQLNSHNKKKNSDHYKKLDDDRNKKNLDYALLVSELESETNDSLIYRVNDYKDMFVIRPMYFISFLGVLETIALKYKDLKLNKLQQEIMFKEKQDILNEFEEFKNNLLDNALKHIDTKVNEINKSAENIKKEANKILEATELVINKHLNTVKNKINNFKIEKVLES;locus_tag=LOCUS_05010;note=WP_020862867.1 DUF2130 domain-containing protein (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:44.5%25%2C Eval:5.3e-116%2C partial hit],MGA_501
sequence1	MetaGeneAnnotator	CDS	353813	353989	.	+	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLKTKIILTSVFSSLALISISGFVGYKIGSTNNVEYKNRNKRLLKIVGFDRFNSSDD;locus_tag=LOCUS_05020;note=MGA_502
sequence1	MetaGeneAnnotator	CDS	354399	354848	.	+	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFNHSGETATVEYKVTFDKKNPDNLLHTVSAFANTKGGRIFIGINDNNQVVGLENLQVILEDVSEAIKTKIDPNPEFYCEIEEHKGLKFIVLTIMKGEETPYRYLTKKADAAYIRSGNQSIKANANQLRNLIFRGTRQSFDTLKTKIN;locus_tag=LOCUS_05030;note=WP_011109350.1 ATP-binding protein (Bacteroidaceae) [pid:37.3%25%2C q_cov:95.3%25%2C s_cov:27.7%25%2C Eval:1.2e-24%2C partial hit],internal stop codon at [354846:354848](+),MGA_503
sequence1	MetaGeneAnnotator	CDS	354870	355025	.	+	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKLNGIGQQVKTVNQLISLDLVKDYFLTNAGALLADNKFIKSSKIHATR;locus_tag=LOCUS_05040;note=MGA_504
sequence1	MetaGeneAnnotator	CDS	355224	355349	.	+	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHRDYSIDGSQINVDIYDNRIEIISPGGMFDGTNIQETPT;locus_tag=LOCUS_05050;note=WP_011109350.1 ATP-binding protein (Bacteroidaceae) [pid:57.9%25%2C q_cov:92.7%25%2C s_cov:7.4%25%2C Eval:5.7e-09%2C partial hit],internal stop codon at [355023:355025](+)%2C[355146:355148](+)%2C[355347:355349](+)%2C[355395:355397](+)%2C[355530:355532](+),MGA_505
sequence1	MetaGeneAnnotator	CDS	355410	355532	.	+	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKRGSGIGKIIDLYASQSNYSNALKPVFMSNDQLFKVIL;locus_tag=LOCUS_05060;note=MGA_506
sequence1	MetaGeneAnnotator	CDS	355608	355811	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKEEKSQDQIVLNYIESVFSFTRKDIEKVVNVKRTRANQIINNLLEENKVVKQNDGRSTRYKVNK;locus_tag=LOCUS_05070;note=MGA_507
sequence1	MetaGeneAnnotator	CDS	356590	356967	.	+	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKGKKRLMFVMATGTGKTFVASQIIHKLLTKKIKKRILFLADRNILIDQSIAGDFRFLQKKMVKVNQKLLSSKEKINSYEVYLSLYQQLLGQNKEEYYKKFDKDFFDLIIIDEAHRGSVKEESN;locus_tag=LOCUS_05080;note=WP_000229101.1 DEAD/DEAH box helicase family protein (Streptococcus pneumoniae) [pid:57.9%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:9.2e-36%2C partial hit],internal stop codon at [356497:356499](+)%2C[356965:356967](+),MGA_508
sequence1	MetaGeneAnnotator	CDS	357010	357993	.	+	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTATPKDDADGSNFEYFGEPVYIYSLKQGIEDGFLAPYTVKRINLDIDLTGYRPKKNETDIYGNLIEDKIYTQKDYDKKLVIDNRTEIVAKYVSDFLKETNNRYEKTIFFCQDIDHAERLAQELKNQNKDIVKNEDRYVMKITGDDLEGKAQLDNFMDPDSKFPTLVTTSKLLTTGVNVKTCKFIVIDSNIQSMTEFKQIIGRGTRISEKHNKQFFTIIDFRSVTDKFADPDFDGNSANSESISKDKIDVDPIDYNEPSEFVCGEPTIEQISFSEKKYRIDNVDVNIMNEQIQIIDENGKLITTSLIDYTKRTILGEYATLSDFLTR;locus_tag=LOCUS_05090;note=WP_012027389.1 DEAD/DEAH box helicase family protein (Streptococcus suis) [pid:58.3%25%2C q_cov:99.7%25%2C s_cov:40.2%25%2C Eval:1.6e-108%2C partial hit],internal stop codon at [356965:356967](+)%2C[357991:357993](+),MGA_509
sequence1	MetaGeneAnnotator	CDS	358710	359546	.	+	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFRKQIVKSTFEDINNYMKNGILLRQVINVIDELNFDNIKEIHLFNDIYETILKEIQNAGSSGEFYTPRALTDFITEILDPKLGQTMADLACGTGGFLTSFLNRISEQKKTVEDIKTYSQSVYGIEKKGFPYLLAVINLFLHDVDDPNLLHGNSLERNVKDYSEDEKFDLIMMNPPFGGSEQSIIQNNFPKDLRSAETADLFMLVIMYRLKMGGKAAVILPDGFLFGSGVQKNIKKKLFSEFNVHTIIRLPKSIFNPYTSINTNIIFFDKNGSTKST;locus_tag=LOCUS_05100;note=WP_000029046.1 class I SAM-dependent DNA methyltransferase (Streptococcus) [pid:70.9%25%2C q_cov:100.0%25%2C s_cov:57.1%25%2C Eval:1.2e-116%2C partial hit],internal stop codon at [358509:358511](+)%2C[358551:358553](+)%2C[358602:358604](+)%2C[358611:358613](+)%2C[359544:359546](+)%2C[359634:359636](+)%2C[359637:359639](+),MGA_510
sequence1	MetaGeneAnnotator	CDS	359724	359870	.	+	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQCGYLEQSEEVLEPMELIKQYYDKRNELNNKIDNVISEIIKILEQK;locus_tag=LOCUS_05110;note=WP_012775649.1 class I SAM-dependent DNA methyltransferase (Streptococcus suis) [pid:53.2%25%2C q_cov:97.9%25%2C s_cov:9.7%25%2C Eval:5.8e-09%2C partial hit],internal stop codon at [359544:359546](+)%2C[359634:359636](+)%2C[359637:359639](+),MGA_511
sequence1	MetaGeneAnnotator	CDS	359924	360142	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKQNPDESAVDLLNKIRLEKQKLIKENKIKKDDFTNSFIYKNTSDNCYYEKFEDSIEEKIEVPFEIPNNWV;locus_tag=LOCUS_05120;note=WP_002680807.1 restriction endonuclease subunit S (Treponema denticola) [pid:43.2%25%2C q_cov:98.6%25%2C s_cov:13.7%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [359906:359908](+)%2C[360140:360142](+),MGA_512
sequence1	MetaGeneAnnotator	CDS	360155	361387	.	+	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKLIGGSQPPKSTFISYPKDNYIRLFQIRDYGDSPIPVYIPINKASKITNKGDILIARYGGSLGKVFIAEYGAYNVAMSKVTKLYINDHIDFNFLYFFYKSKIFQEIIRRNSRSAQDGFNSEEINDLLLPLPPLEEQLRIITLLDKLNLLLNKYSLIENELSELEKTFSIKLQKSVLNYAMQGQLVEQSINDNSKDLIEQIYKEKDGLLKQKKIKQNELQKSIIYKNISDNSYYENHNFVEVQLGLISNIYTGNSISKTQKDRFFRNVKGMSYIATKDIDFNREIDYANGVYIPNENLDKFKIAPKNSVLLCIEGGSAGRKIGLIDRDVTFGNKLCCINSNFVSNKFIFYYLQSDLFLNPFYKQMTGIIQGINLSLLKEIKIPVFSSCYQQAIMNKLDRIYSLINMLN;locus_tag=LOCUS_05130;note=WP_011109307.1 restriction endonuclease subunit S (Bacteroides thetaiotaomicron) [pid:60.1%25%2C q_cov:33.7%25%2C s_cov:28.9%25%2C Eval:8.1e-39%2C partial hit],internal stop codon at [359906:359908](+),MGA_513
sequence1	MetaGeneAnnotator	CDS	361513	361845	.	-	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKKLTDAINVWLKQEGKKSGYIFTNKLSQPISTRAISQQLKKIARKLGIDQNVVYPHSFRHLFAKNFLERFNDISLLADLMGHESIETTRIYLGRSSSEQKQIVDDVID;locus_tag=LOCUS_05140;note=WP_002680804.1 tyrosine-type recombinase/integrase (Treponema denticola) [pid:62.4%25%2C q_cov:99.1%25%2C s_cov:40.5%25%2C Eval:5.9e-35%2C partial hit],internal stop codon at [361960:361962](-)%2C[361975:361977](-),MGA_514
sequence1	MetaGeneAnnotator	CDS	361975	362307	.	-	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFILYLKKQNLSTNTINTYVYGVEYFINNYKINSHNLLAYKGYLLETFKPKTVNLRIHSINKYLDFINKKELKIHSIKIQNKTYLENVISNADYVFLKKSLKRMKNYK;locus_tag=LOCUS_05150;note=WP_002680804.1 tyrosine-type recombinase/integrase (Treponema denticola) [pid:61.2%25%2C q_cov:92.7%25%2C s_cov:38.3%25%2C Eval:8.9e-31%2C partial hit],internal stop codon at [361960:361962](-)%2C[361975:361977](-),MGA_515
sequence1	MetaGeneAnnotator	CDS	362397	362873	.	-	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKLIGGSQPPKSTFISYPKDNYIRLFQIRDYGDSPIPVYIPINKASKITNKGDILIARYGGSLGKVFIAEYGAYNVAMSKVTKLYINDHIDFNFLYFFYKSKIFQEIIRRNSRSAQDGFNSEEINDLLLPLPPLEEQEQIVNKINKINVLIDSMTN;locus_tag=LOCUS_05160;note=WP_011109307.1 restriction endonuclease subunit S (Bacteroides thetaiotaomicron) [pid:54.8%25%2C q_cov:98.1%25%2C s_cov:32.5%25%2C Eval:4.1e-40%2C partial hit],MGA_516
sequence1	MetaGeneAnnotator	CDS	362886	363590	.	-	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNKELFQSSQFITHKALEVIFKNYLVEKETLLMSFKLTIGRTSIAKINCTHNEGIVSIKPYFDNEFIIRDFLNIFLPVISNLGNTKNAIKGKTLNSKSIGSLLIPLPPLEEQKRIVKIINSLNVFIDEYSFLKNYLKKLEEEFPSNLKKSILNYAMNGKLVKQDENDSSINDLLKQIYREKQEIIKQNRSKEFELVNSIIYKNASDNSYYEKFEDSIEEKIEVPFEIPNNWV;locus_tag=LOCUS_05170;note=WP_000187233.1 restriction endonuclease subunit S (Streptococcus pneumoniae) [pid:38.5%25%2C q_cov:89.7%25%2C s_cov:38.3%25%2C Eval:2.3e-30%2C partial hit],internal stop codon at [362885:362887](-)%2C[363606:363608](-)%2C[363624:363626](-)%2C[363687:363689](-)%2C[363699:363701](-),frameshifted%2C insertion/deletion at around 363365%2C363326,MGA_517
sequence1	MetaGeneAnnotator	CDS	363580	363765	.	+	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFMSAIVIHGISPFQNILFPLGGVFPKLKFNILLSHTHTQLSGISNGTSIFSSILSSNFS;locus_tag=LOCUS_05180;note=MGA_518
sequence1	MetaGeneAnnotator	CDS	364089	366176	.	+	0	ID=MGA_519;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014584390.1;translation=MLIENLYKIQIKEEPKVINDTKIYECKSFQLPIINNETFFKYLKTNTFSKLVDDDFINIVKSHYKSDDILKEILSDKDKFLDINQVGKHILNSIFNKLNNTNNFISLQSEFLGNGLDLAVFSKLIQLYGNSFDQLIKALQNFLYEINFKYQITSLESIDKIFLHFNNDANNVVRIAYYLHYYCDQILNEKSSTYTNLENLKKRFDDEEKFFIPLESNEQVINEAINYALTHKLLVIAKDKVYTTQTYNDEYTIALALTKKEKVEKINYFKFKRYINQIQDEVRKETKIENFKYDKSQINALRKFINNKFVVITGGPGTGKTTLIKGLVKLFKKVYPNESFRIATPTGRAAARIKEGFEESNALTIHKLLGYDVLTDKFKVDKNNPLNDGLLIIDETSMVDNNLFSHFISAIGKAKKVVFVGDIEQLPSIGIGNVFEDIIKSEKITTVELKSTHRQKEQSKIVELAYMIRNNNFSLAKLQETTENSDLKTIFIDEQDKCLDEILNNYHFENKNGFDIPYKIQIISPFNEGKLGIKEINKMVQDKLNPNKKQGLQANGYNFYNKDKIMYLKNETTLSNGDIGVVDSINKYDNKMNTNFNEKPIQINSVDINNLTLCYACTVHKTQGSEFQKVILVLDPKNNGSFVNKKLVYTAITRAKKELVIIASKQSFNRSVNQKSTQRDTTLTERIRQMYDKKR;locus_tag=LOCUS_05190;note=WP_014584390.1 AAA family ATPase (Mycoplasma leachii) [pid:40.8%25%2C q_cov:98.1%25%2C s_cov:92.4%25%2C Eval:1.8e-132],MGA_519
sequence1	MetaGeneAnnotator	CDS	366310	366483	.	-	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAGFITKYLQTNNYIKALKFSLICGSATAFSYKIASKEFIDELSTYLDKIEVKEIE;locus_tag=LOCUS_05200;note=WP_002288484.1 1-phosphofructokinase (Enterococcus) [pid:49.1%25%2C q_cov:100.0%25%2C s_cov:17.8%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [366523:366525](-),MGA_520
sequence1	MetaGeneAnnotator	CDS	366523	367251	.	-	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNKIYIVSLSPSIDYILKFKNFLKNKTNRPKNQYMYAAGKAIHISMLLNRLNIDNELLVFTNGSFETFFYNDLKKEQIKYKKFKSNGDIRINLKIIDNEQTESSSYAPEINISELNKLKKYLNNVLQKDDVLILTGSLPINTDTNIYAELVELANLKRAYSVVDTFKEPLLKAVEQQPFLIKPNKDELEATFNKELKNNSDIINQSKILLQKGCKNVLVSLGSDGAILVTSTKIYKASLPK;locus_tag=LOCUS_05210;note=WP_011166821.1 1-phosphofructokinase (Mycoplasma mycoides) [pid:90.1%25%2C q_cov:50.0%25%2C s_cov:97.6%25%2C Eval:7.5e-56%2C partial hit],MGA_521
sequence1	MetaGeneAnnotator	CDS	367264	367587	.	-	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKDIKKLSKQTVKYEKLIEKLKQQEAKTYKIKSDILNKKLQENKLKLQTQIETQQDIIIKNSQTNYTKINNYINQLEILTNKNLRDFKTKYYNAINKIALDYKLIN;locus_tag=LOCUS_05220;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:72.4%25%2C q_cov:98.1%25%2C s_cov:16.7%25%2C Eval:3.8e-37%2C partial hit],internal stop codon at [367762:367764](-),MGA_522
sequence1	MetaGeneAnnotator	CDS	367912	368091	.	-	0	ID=MGA_523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGATIAVGIKSKKSVDKSAAIAAALPGIISGPTESCIYAINLPRFKPFILGTIAGGIGG;locus_tag=LOCUS_05230;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:9.4%25%2C Eval:1.4e-26%2C partial hit],internal stop codon at [367762:367764](-)%2C[367912:367914](-)%2C[368098:368100](-)%2C[368263:368265](-),MGA_523
sequence1	MetaGeneAnnotator	CDS	368599	369150	.	-	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKQQKQLALIEEIVINVGGKQNIKDVYNCATRLRLTLYDQSLIKLDNLKTLKKTQGCLISSGELQIIIGSEVSQITNLLKEQLQVDVDKINGFEIKNSLNENNKKVGLAKRFVKSISAIFGPLIPFLIGFGLIMALQQILIRIGLVHSIKSESVFQNDYNVFDLVINTIANSGFKLIGVMVI;locus_tag=LOCUS_05240;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:93.4%25%2C q_cov:100.0%25%2C s_cov:29.1%25%2C Eval:9.4e-91%2C partial hit],internal stop codon at [368485:368487](-)%2C[368599:368601](-),MGA_524
sequence1	MetaGeneAnnotator	CDS	369159	369896	.	-	0	ID=MGA_525;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166819.1;translation=MMLKDQRRQKILEIVNEKDFVTNKQLAKLLSSTIQTIISDISELDKEHKLYKVYGGAKSANPPTKRYELFDEEKQHINIDVKNLIAKKASEFVSDGDLIFLDTGTTTKQMIKYLINKKIIVVTNGYSIALELVEQDIEVILLGGSINPSTHATIGELALKNLDNFYFDKVFIGMNNLSSQHFYTTNIKEALIKEKAIKNSDKSFILMDSSKFGSKNVIKVDVLKETILISDKHTDEYKGLIINLE;locus_tag=LOCUS_05250;note=WP_011166819.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:91.8%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:2.6e-120],MGA_525
sequence1	MetaGeneAnnotator	CDS	370096	370335	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKASLKEELLKARNNGYAVGAFNFDNLEMLKAIVEAAEESNSPVIIMVTESAAKYIGKEIVIASANAIINNTKVPIVLH;locus_tag=LOCUS_05260;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:84.8%25%2C q_cov:100.0%25%2C s_cov:28.1%25%2C Eval:3.1e-31%2C partial hit],internal stop codon at [370333:370335](+)%2C[370366:370368](+),MGA_526
sequence1	MetaGeneAnnotator	CDS	370396	370824	.	+	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDASLDDFNTNVSKTLEIVRYAKSKSVEVESEIGHVGGKEDDTDSNINKYTGVKEAIKFANLTNVDALAIAIGTSHGFFKTAPNLNFKRIKEINSVIDTPLVLHGSSGLSDTDLKKAIKAGICKINIGTDLKIAYADSLKE;locus_tag=LOCUS_05270;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:83.1%25%2C q_cov:100.0%25%2C s_cov:50.5%25%2C Eval:5.7e-63%2C partial hit],internal stop codon at [370333:370335](+)%2C[370366:370368](+)%2C[370822:370824](+),MGA_527
sequence1	MetaGeneAnnotator	CDS	371124	372182	.	+	0	ID=MGA_528;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008363445.1;translation=MKKGAVINLIKYYVEHNDYAFRNQAYEIAYDFEKMGDYQLFDYIVGMLSGNNIFVPQDLKNDLAFASKVKIDNEKIFLPDVIKQDVIGLINATNHKVGVNKFLFTGLPGTGKTECAKLIARNLNRELFIANFSTLIDSKLGQTVKNITSLFEEINNLANPSKVIILFDEIDALALDRTNSTDLREMGRATTAVFQGLDNLNSQILLIATTNLFKHFDKALLRRFDSIINFDRYSKQDLIDISEIIFNEYIQKFDNLTKNIRLFKKIIALYEDIPNPGDLKNIIKTSLAFSDPNNPVDYFKRLYKNVLESNSINFDSTDTELKYLQLKGFTLRETEILTGVSKSQVSRDLKGE;locus_tag=LOCUS_05280;note=WP_008363445.1 ATP-binding protein (Mycoplasma feriruminatoris) [pid:61.4%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:7.6e-120],MGA_528
sequence1	MetaGeneAnnotator	CDS	372185	372337	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEILEIKPKFFYEEFSALGGSIKLPKNSKPVSLDHLLKLKKDLENVYLF;locus_tag=LOCUS_05290;note=MGA_529
sequence1	MetaGeneAnnotator	CDS	372374	372811	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYKRIIAKSNRIKGLFKSTLDENNELIVGSRFYDDSDKKQIITYCVSLRDLNKALNNLKQIIEIVKKYFSNGVSYEIIEKINDNKYDKLFNNKENMISKTRFVSIIVDAYYIEALRVDNYNKEVSNNSIITIYDTKTELKDIFK;locus_tag=LOCUS_05300;note=WP_011167180.1 S8 family peptidase (Mycoplasma mycoides) [pid:41.4%25%2C q_cov:100.0%25%2C s_cov:18.8%25%2C Eval:1.6e-26%2C partial hit],internal stop codon at [372335:372337](+)%2C[372809:372811](+)%2C[372860:372862](+)%2C[373070:373072](+),MGA_530
sequence1	MetaGeneAnnotator	CDS	372917	373072	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTDDKIYLDYETEKKIKTSIDEEFTIPDPTNEPIIGVIDTLFSNQVYFNK;locus_tag=LOCUS_05310;note=MGA_531
sequence1	MetaGeneAnnotator	CDS	373088	373312	.	+	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDKNIYVYDNDYDHGTAVSSIIVDGPRLNPKLDDGCGRFRVKHFGIAASNYFNSLSLLRVIEEIIISNRNIKV;locus_tag=LOCUS_05320;note=WP_011167180.1 S8 family peptidase (Mycoplasma mycoides) [pid:58.9%25%2C q_cov:98.6%25%2C s_cov:9.8%25%2C Eval:3.6e-19%2C partial hit],internal stop codon at [372809:372811](+)%2C[372860:372862](+)%2C[373070:373072](+)%2C[373310:373312](+),MGA_532
sequence1	MetaGeneAnnotator	CDS	374674	375534	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFFKKKKNKILIYALLASLATSLSFGSVIYYSISDANISFETSSNGITDADLTPINNAANDAIISNRDNKLKPNPEKIIKESEKQELNKLVIPKKEEKEIKEAAKPEIKPEINKPQSSTIRQNTSRSKTKISINGVEVEAEIEGPVGFHVHDQDRTRKITNPTKPYQNHTVGKIISIEVTEELKKSVLNNALVAPDGHEDKGAGLFNNTLMQVFDSELNGASDLIKALETLEAIGKVNSDFFKNNIERYQKLLDSPKVVDFLKEDAKKKYPELKTKFKTKTQEYI;locus_tag=LOCUS_05330;note=WP_020862865.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:91.6%25%2C q_cov:100.0%25%2C s_cov:38.0%25%2C Eval:6.6e-145%2C partial hit],internal stop codon at [375532:375534](+)%2C[375667:375669](+)%2C[375751:375753](+)%2C[375799:375801](+),MGA_533
sequence1	MetaGeneAnnotator	CDS	376036	376221	.	+	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEVDTSQSFKQILDELPNEIPQLELFFSDKATNTASLIALENKKIKELSLFTNGNSLREA;locus_tag=LOCUS_05340;note=WP_020862865.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:8.1%25%2C Eval:2.8e-27%2C partial hit],internal stop codon at [375751:375753](+)%2C[375799:375801](+)%2C[376219:376221](+),MGA_534
sequence1	MetaGeneAnnotator	CDS	376402	376890	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYYARNNEPFFQGAFGPGLTPDKKLGDNSYPSKLDFSRVTGIKSLKGLIFHDEYDSSNKPRKITELTLYNNQDFFEIEADELDKANLEHLSTGENSPIKPKINFSNGNSTRGIRIKGTSELTESGRKNLEKYFDYSDSLKFAGKQIQVDANSTKLKEQLRS;locus_tag=LOCUS_05350;note=WP_020862865.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:21.5%25%2C Eval:6.0e-90%2C partial hit],internal stop codon at [376219:376221](+)%2C[376888:376890](+),MGA_535
sequence1	MetaGeneAnnotator	CDS	376952	377869	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINKLLMLISSSTLLIPLTLLVSCKSVNKKTSKPLSDNEFISLVQSINSEDDLLKYADIKYKDPSGDQITKESVLPTRLSNDDISIIFKDLYDKQISANVTNIKLKTTNNPFEVINEAIIFIEFKNTSTSKTKTNKIKFTGLNTKNTVDNSGHKVLDELAYFNGEAGYTNYTNLSQKERFKFDNDKYIKRLESEFGGSNIDIQKFRGLETNQDNINNFDKQAESSNFDTYYNAALKGFTLPVYKDGKVSGLKINDASETIKGPSPIDSLGRNQKAKTNGLARTIPNKTYKTAAIQTFQVSFKG;locus_tag=LOCUS_05360;note=WP_011166809.1 DUF31 family protein (Mycoplasma mycoides) [pid:76.0%25%2C q_cov:100.0%25%2C s_cov:35.7%25%2C Eval:1.2e-131%2C partial hit],internal stop codon at [377867:377869](+)%2C[377927:377929](+)%2C[377969:377971](+)%2C[378149:378151](+),MGA_536
sequence1	MetaGeneAnnotator	CDS	378233	378631	.	+	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYINESNNKTPTKFYFGTNSHVAKAIKDDLVSVSLTRINSDINVGQTFNINSFDKNFTTFTFEAEHNNKISDAVTAIFHATDFINNDINPVNLLESSQKEKYKDAGIFADFAVIEIDFEKLLKTDNYKRSI;locus_tag=LOCUS_05370;note=WP_011166809.1 DUF31 family protein (Mycoplasma mycoides) [pid:87.2%25%2C q_cov:100.0%25%2C s_cov:15.4%25%2C Eval:2.2e-61%2C partial hit],internal stop codon at [377969:377971](+)%2C[378149:378151](+)%2C[378227:378229](+)%2C[378629:378631](+),MGA_537
sequence1	MetaGeneAnnotator	CDS	378689	378943	.	+	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITNDYSNSEQKIQFESNSLLDQTFYNTFDRKLDFNHNKSEDIQKYKDLNSFYILGYPSSKEDHYLEKYYDQKQLDYQKYDFSL;locus_tag=LOCUS_05380;note=WP_011166809.1 DUF31 family protein (Mycoplasma mycoides) [pid:84.3%25%2C q_cov:98.8%25%2C s_cov:9.6%25%2C Eval:2.2e-37%2C partial hit],internal stop codon at [378629:378631](+)%2C[378941:378943](+),MGA_538
sequence1	MetaGeneAnnotator	CDS	379732	380592	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFVKKKKNKILVYALLASLITSLSFGSVIYYSFSDANISFETSSNGITDAELTPVNNATNDAIISNRDNKLKPSPEKIIKESEKQEPNKLIIPKKEEKEIKEVAKPEIKPEIIRPETLKPKPSPTRLKTKITINGVTVDAEIEAPPGFVVQPNDKRRNIANPTKPYQNHIVEKILSIEVTNELRNSVIKDSLSGGEGYDKGAGLFKNTLTNVISREIDENKGDIHKALESLEAISNQNSNFFNSSIERYKRLLDSDKVIEYLKPDAKVQYPKLKGEFKTKTQEYL;locus_tag=LOCUS_05390;note=WP_011166808.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:86.4%25%2C q_cov:100.0%25%2C s_cov:38.1%25%2C Eval:1.5e-136%2C partial hit],internal stop codon at [380590:380592](+)%2C[380725:380727](+)%2C[380857:380859](+),MGA_539
sequence1	MetaGeneAnnotator	CDS	381094	381279	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEISSDQKFIDILSALPDEIPQLELFFSDKATNTASLIALENKKIKELSLYTNGNSLKNS;locus_tag=LOCUS_05400;note=WP_011166808.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:8.1%25%2C Eval:8.0e-27%2C partial hit],internal stop codon at [380857:380859](+)%2C[381277:381279](+)%2C[381313:381315](+),MGA_540
sequence1	MetaGeneAnnotator	CDS	381457	381942	.	+	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYYARNNEPFFQGAYGPGLSPDQALGDNSYPTGLDFSRVKGIKSLKGLRFDDEYNSSNKPRKIAELTLFNDQNYFEISADELNDANLEHLSTGQNNPIKPKIKFSNGSDTVKIRITGTTITDQARQNLEKYFEYSDSLKANNKQIEVENTNSELANKLKG;locus_tag=LOCUS_05410;note=WP_011166808.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:99.4%25%2C s_cov:21.3%25%2C Eval:1.4e-83%2C partial hit],internal stop codon at [381277:381279](+)%2C[381313:381315](+)%2C[381940:381942](+),MGA_541
sequence1	MetaGeneAnnotator	CDS	383016	383201	.	+	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHQLELNFKDDTREIEKQLKETPSDREGIIKTLNEQKDKIEAKYKKDLDKFNKLDKKGLID;locus_tag=LOCUS_05420;note=WP_020862862.1 DUF31 family protein (Mycoplasma mycoides) [pid:80.3%25%2C q_cov:100.0%25%2C s_cov:7.2%25%2C Eval:1.0e-21%2C partial hit],internal stop codon at [382914:382916](+)%2C[382917:382919](+)%2C[382977:382979](+)%2C[383199:383201](+)%2C[383277:383279](+),MGA_542
sequence1	MetaGeneAnnotator	CDS	383283	383675	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYIDENNPTKFYFGTNSHVAKAIKDNLVSFSLTRLNSDISVGQTFNLNGFDKNFTKFVFEKNENGTKLNDAVSAIFHATDFIKDDSNPLKYLEQSQKEKYKEAGIFADFAVIEVDFSKLLNNSNYKYSI;locus_tag=LOCUS_05430;note=WP_020862862.1 DUF31 family protein (Mycoplasma mycoides) [pid:94.6%25%2C q_cov:100.0%25%2C s_cov:15.3%25%2C Eval:4.6e-67%2C partial hit],internal stop codon at [383199:383201](+)%2C[383277:383279](+)%2C[383673:383675](+),MGA_543
sequence1	MetaGeneAnnotator	CDS	383790	383987	.	+	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDDNKYKTFDRKLDFNPNIDSEVKEYTDLNSLYILGYPIAVEDYYLDKYEDYKQLQNREYDYSL;locus_tag=LOCUS_05440;note=WP_020862862.1 DUF31 family protein (Mycoplasma mycoides) [pid:81.5%25%2C q_cov:100.0%25%2C s_cov:7.6%25%2C Eval:3.3e-25%2C partial hit],internal stop codon at [383673:383675](+)%2C[383985:383987](+),MGA_544
sequence1	MetaGeneAnnotator	CDS	384746	385600	.	+	0	ID=MGA_545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFLKKKKNKILTLVLVASLATSLSFGSVIYYSFSDANISFDTSSNGITDAELAPINNATNDAVVSNRDNKLKPSPKEEIRKTDSTEKLVIPTVRKDDKVTDAAKPEFKPEIRKPDSSNIKPRVSRSTRTIVISGVEVEAEVEGPPGFHVHEEDKRRGISNPKKPYQNQSVGKILNVKVTDDLRRGVIKESLTGGEGYDSGAALFNNSLFNVFDKDLSNTNDVEKTLEELEAVANQNASVYENTLERYKRLLDSDNVVNFLKEGAKEKYEELKPKFKTNKQRYI;locus_tag=LOCUS_05450;note=WP_011166804.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:91.2%25%2C q_cov:100.0%25%2C s_cov:37.9%25%2C Eval:8.5e-145%2C partial hit],internal stop codon at [385598:385600](+)%2C[385733:385735](+)%2C[385865:385867](+),MGA_545
sequence1	MetaGeneAnnotator	CDS	385880	386287	.	+	0	ID=MGA_546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSTYTKDYGFEEGKGITISELTRDKPTTAKDKINKGLVLEIDASKDYAYGKTKELIKKFKEKNQKITSYRIKNMGEKDSAQNFIEILSELPEHIPQLELFFSDKATNTASLIALENKKIDDLSLYTNGNSLRRS;locus_tag=LOCUS_05460;note=WP_011166804.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:18.0%25%2C Eval:1.1e-68%2C partial hit],internal stop codon at [385598:385600](+)%2C[385733:385735](+)%2C[385865:385867](+)%2C[386285:386287](+)%2C[386321:386323](+),MGA_546
sequence1	MetaGeneAnnotator	CDS	386468	386956	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYYARNNEPFFQGGFGPGLSPDKSLGENSYPTGLDFTRIPKIRSLRGLRFDDEYNSSNRSRKITELTLYNNSSGFDISVEELNNANLEHLSTGEGNPEKPKIYFSNGNQTTSIKITGKGTLNESGRYYLSKYFEYGDSFKGRPHLVEVESGATELQNQLRQ;locus_tag=LOCUS_05470;note=WP_011166804.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:90.6%25%2C q_cov:98.8%25%2C s_cov:21.3%25%2C Eval:6.0e-82%2C partial hit],internal stop codon at [386285:386287](+)%2C[386321:386323](+)%2C[386954:386956](+),MGA_547
sequence1	MetaGeneAnnotator	CDS	387018	387935	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVNKLLVLLSSTTLALPLTLLVACTSTKQAPKSIDDDEFLKVVDSIKSEEDLLKYADLKFKDSRGSYISKENVVPNQLEKSQIEITFKDKYKGQINSKIVNINVDNSNGFAIVNDAIIFVEFENNKTGKKQPINFKITGLNKNNTVDASGNRQTNSLKDFGGAEGFKAYTEMNQKDRFKFDNKKYVEKLEGQIGHGEKPIDLKSYRGLDTTQENIKKFDEKANNSNFDTYYNAAIKGFTLPVYDEKGSVKGLQINDGPEVNKGPSVVDSLGRDQFKTNGLARTIPNETYKTAAIQTFQVDFTG;locus_tag=LOCUS_05480;note=WP_011166803.1 DUF31 family protein (Mycoplasma mycoides) [pid:68.8%25%2C q_cov:99.7%25%2C s_cov:35.1%25%2C Eval:3.4e-118%2C partial hit],internal stop codon at [387933:387935](+)%2C[387993:387995](+)%2C[388215:388217](+),MGA_548
sequence1	MetaGeneAnnotator	CDS	388299	388697	.	+	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYLKEDNNNNPTKFYFGTNSHVAKAIKDDLVSFSLTRINDNIKVGQTFDLNGFDKNFTKFSFTPKNGKKISQAVSAIFHATDFIKQDSNPLKLLTNGQEKTYKDAGIYADFAVIEIDFDKLLNESDYSRSI;locus_tag=LOCUS_05490;note=WP_011166803.1 DUF31 family protein (Mycoplasma mycoides) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:15.5%25%2C Eval:9.2e-52%2C partial hit],internal stop codon at [388215:388217](+)%2C[388293:388295](+)%2C[388695:388697](+),MGA_549
sequence1	MetaGeneAnnotator	CDS	389412	389600	.	+	0	ID=MGA_550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGKYNLGQYDLIYGGGKDQEKDKSYREVLLKKYPDKKSALFASGFKEDNIPEEFKFKTQAK;locus_tag=LOCUS_05500;note=WP_011166803.1 DUF31 family protein (Mycoplasma mycoides) [pid:72.6%25%2C q_cov:100.0%25%2C s_cov:7.1%25%2C Eval:1.8e-18%2C partial hit],MGA_550
sequence1	MetaGeneAnnotator	CDS	389874	390731	.	+	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFLKKKKNKILTIALVASLAASVSFGSVLYYSFSDNHISFDTSSNGITDAELAPINNAINDAIVSNRDNKLKPSEEKIIKETEKKIEEKIIIPPAKKEEKVEAAKPIPKPVVRKPETKITSPKITRRKQTITIAGIEVEAEIEGPPGFVTHQRDKDRKISNPTRPYQNHSVNKILSVKVTEELKKQVAKDALSGGNGYDEGAGLFNNSIFNVFKEEFNSGKELNDILSTLESVARQNSGAFQNTLERYKKLLDSPNVINFLKPEAQKEYPKLKSKFQTKNQEYI;locus_tag=LOCUS_05510;note=WP_011166802.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:80.7%25%2C q_cov:100.0%25%2C s_cov:38.0%25%2C Eval:2.6e-125%2C partial hit],internal stop codon at [390729:390731](+)%2C[390864:390866](+)%2C[390996:390998](+),MGA_551
sequence1	MetaGeneAnnotator	CDS	391233	391418	.	+	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEKNSDQAFKDILAALPKDIQQLELFFSDKATNTASLIALENKNIKELSLYTSGNSLKKA;locus_tag=LOCUS_05520;note=WP_011166802.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:8.1%25%2C Eval:1.8e-26%2C partial hit],internal stop codon at [390996:390998](+)%2C[391416:391418](+)%2C[391452:391454](+),MGA_552
sequence1	MetaGeneAnnotator	CDS	391596	392084	.	+	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYYARNNEPFFQGGHGPGLEPDKKLGQNSYPTGLDFSRVTGIKSLKGLRFDDDLDTSNEPRKITELTLYNNESYFEISSDELNVANLEHLSTGKGNPEKPKIHFSNGNNTTSIKITGKTKLNDEGKRNLDKYLDYNETLKNSGKQIQVPNDATELRDQLKN;locus_tag=LOCUS_05530;note=WP_011166802.1 putative immunoglobulin-blocking virulence protein (Mycoplasma mycoides) [pid:86.3%25%2C q_cov:99.4%25%2C s_cov:21.5%25%2C Eval:2.1e-79%2C partial hit],internal stop codon at [391416:391418](+)%2C[391452:391454](+)%2C[392082:392084](+),MGA_553
sequence1	MetaGeneAnnotator	CDS	392151	392816	.	+	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRMNKLLMYISSSTLLLPITLLVACTTSKVVSKPIDDNEFNKLINSIKTEDDLLKYADIKFKDQRGSEISKGNILPSQLKKEDVSIIFKGKYSGQIFTEVLNVNAINQDSSLGNKVNIFVQFTNKKTGTKIPTSFIISGLNENGNFDFSGTRIVNDLDYFGGLSGFNDYSSKTQEQRFDYDNSRYITGLKNHLSGGTGTVDLKKLRGLDTKEEQITTFEN;locus_tag=LOCUS_05540;note=WP_011166801.1 DUF31 family protein (Mycoplasma mycoides) [pid:92.7%25%2C q_cov:99.5%25%2C s_cov:25.6%25%2C Eval:4.3e-113%2C partial hit],frameshifted%2C insertion/deletion at around 392810,MGA_554
sequence1	MetaGeneAnnotator	CDS	393431	393823	.	+	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYIDINNPTKFYFGTNSHVAKGIKDDMVSFSLTRLNSDIKVGQTFGLNSADKNFTKFTFAPAKKENKLNEAVTAIFHATDFIKKESSPLSLLKDDQKTKYSEAGLFADFAVVEIDFEKLLDTNNFSRTV;locus_tag=LOCUS_05550;note=WP_011166801.1 DUF31 family protein (Mycoplasma mycoides) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:15.1%25%2C Eval:3.5e-67%2C partial hit],internal stop codon at [393347:393349](+)%2C[393425:393427](+)%2C[393821:393823](+),MGA_555
sequence1	MetaGeneAnnotator	CDS	393902	394135	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGKKISFASESLLDDKNYKKFDRKLDFNPENSDELKAYRDLDSLYIVGYPTSNEDYYLDQYEDEKQLKNKKYDFSL;locus_tag=LOCUS_05560;note=WP_011166801.1 DUF31 family protein (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:98.7%25%2C s_cov:8.8%25%2C Eval:5.8e-38%2C partial hit],internal stop codon at [393821:393823](+)%2C[394133:394135](+),MGA_556
sequence1	MetaGeneAnnotator	CDS	394553	394732	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQYDLIYGGGKDQEKGKSYREALLKKYNNSSMKSALFPSGFDEKHIPSEFKFDHNKQK;locus_tag=LOCUS_05570;note=WP_011166801.1 DUF31 family protein (Mycoplasma mycoides) [pid:74.6%25%2C q_cov:100.0%25%2C s_cov:6.8%25%2C Eval:7.3e-20%2C partial hit],MGA_557
sequence1	MetaGeneAnnotator	CDS	394763	394999	.	+	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLKVEQQKFYDDGSNLILETKKNKIVSIYKTIVLSFFFVSMSLLLFLSNYSIFNKNIENSYQFLFNFSQPAFEQYN;locus_tag=LOCUS_05580;note=WP_011166800.1 hypothetical protein (Mycoplasma mycoides) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:1.0e-34%2C partial hit],internal stop codon at [394997:394999](+)%2C[395108:395110](+),MGA_558
sequence1	MetaGeneAnnotator	CDS	395396	395620	.	+	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLANNKFYEYVLNLFGIKSFLNFLIIITSFIFIGLLFIGLNIYTILKIVYKQFSFEIIRDKLNFYLTGVIVVFI;locus_tag=LOCUS_05590;note=WP_011166800.1 hypothetical protein (Mycoplasma mycoides) [pid:81.1%25%2C q_cov:100.0%25%2C s_cov:15.2%25%2C Eval:4.0e-26%2C partial hit],internal stop codon at [395108:395110](+)%2C[395297:395299](+)%2C[395366:395368](+)%2C[395618:395620](+)%2C[395744:395746](+)%2C[395822:395824](+),MGA_559
sequence1	MetaGeneAnnotator	CDS	395987	396226	.	+	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFIISLVFGFNQILLSHNNKNLFIIPLKANLLQIISIFIVAFQIINVIYPLTYMLITSIKISKTFKKELNHETQKQTN;locus_tag=LOCUS_05600;note=WP_011166800.1 hypothetical protein (Mycoplasma mycoides) [pid:93.7%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:7.8e-35%2C partial hit],internal stop codon at [395744:395746](+)%2C[395822:395824](+)%2C[395921:395923](+),MGA_560
sequence1	MetaGeneAnnotator	CDS	396201	396695	.	+	0	ID=MGA_561;product=DUF2714 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166799.1;translation=MKHKNKQTSDQSFMVFDLYEKIVNANNYIDYQKLLATVLLENQIGFDSKVYKEFENSYLLAFKNHFDIVLNDFVITFNVNLKISSDLLVPMLSETESSNTEAINLKTSNNEQYQKFLTTYNNYFISLIKQGFCVEIFPNVILFKSKNTDHLKIIFDKTKVLTRG;locus_tag=LOCUS_05610;note=WP_011166799.1 DUF2714 domain-containing protein (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-89],MGA_561
sequence1	MetaGeneAnnotator	CDS	396697	396837	.	+	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKKVETKLNNLKTIQQRLSNEKNILLIDMIKQNALLNYYVKNAL;locus_tag=LOCUS_05620;note=WP_011166798.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:15.2%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [396835:396837](+)%2C[396967:396969](+),MGA_562
sequence1	MetaGeneAnnotator	CDS	397746	398051	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLKILDLSNNQEKYLFANNVNIMVKNNHIVINTFSKQNFLVKSNRKKIYQDQLKELHKQISILQANQTIGLTIDSLLELKKLKNKYYVLKLKNLLQLKGE;locus_tag=LOCUS_05630;note=WP_011166797.1 hypothetical protein (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:75.2%25%2C s_cov:51.7%25%2C Eval:9.2e-36%2C partial hit],internal stop codon at [397704:397706](+),MGA_563
sequence1	MetaGeneAnnotator	CDS	398053	398835	.	+	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKLLSKSYKIAILLLTATSSLSLAALIKNTHHNNNNIVLKLYQDGNGGSGGSGGSGAVSGGAGSNGGSGTSGSSGTSGTGANSGGSTASESPLTPKIAAEFDTFKDKAKKKIEETAKQVYKRITTILEEELKKLPDLNKSTKKPDEYFKNLQKRVYLTELKKYFGKEEEFTKDISKYGFDVTFPNVIANDRKVDTAIVKFNGKTYNNIKISPSDETRDYTKVVEKNENNGVEKNKKEQDNVVTSHRFDALLNNYAQS;locus_tag=LOCUS_05640;note=WP_011166796.1 hypothetical protein (Mycoplasma mycoides) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:33.1%25%2C Eval:1.9e-79%2C partial hit],internal stop codon at [398833:398835](+)%2C[399010:399012](+),MGA_564
sequence1	MetaGeneAnnotator	CDS	399304	399717	.	+	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFFINPINTRFKYHVTSLSNGRATVKIKDQVKDVERTYYSSDITYGADPRFTFILENLTKKIEAKFLQLYKALLLDEKINYVELNNDHLQTSLFGLVNLATRIVSDSKYLTDVLYNIATNKYQSLSDISSDDDYAG;locus_tag=LOCUS_05650;note=WP_011166796.1 hypothetical protein (Mycoplasma mycoides) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:17.8%25%2C Eval:2.1e-67%2C partial hit],internal stop codon at [399232:399234](+)%2C[399715:399717](+)%2C[399799:399801](+)%2C[400012:400014](+),MGA_565
sequence1	MetaGeneAnnotator	CDS	400149	400418	.	-	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMYVCYLFLYSSFYPFNPIINKIIEDIVIIVEIVVEIINVNLAFLFLLRLVLIKNIRVFAIMNNNEITKNNELTIIKGFFFSLLFSSSF;locus_tag=LOCUS_05660;note=MGA_566
sequence1	MetaGeneAnnotator	CDS	400385	401662	.	+	0	ID=MGA_567;product=ATP F0F1 synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166795.1;translation=MNIKTNSKHTSPKISAIYDYIVEVKGEFDYKQQQIFTSKKNKEARLFLISATSDTAYLLANLQALKLTINDELELLDNTNEIFTSNEYFGKVIDIYGNIILPEPKTVVKKAEDISSEVFKLSHDLMKVQRLNEQLYTGLAAIDLLIPIGKGQRELIVGDRQTGKTHIALNTIINQSARNIKCVYVAIGQKKESISRIYNILAQHDALKNTIILDAPANSSYEQYLAPYIGMTHAENISNTDDVLIIFDDLTKHANIFREIALLSNRPVGKEAMPGDMFFAHSQLLERAGSYKNKKTITALPIIQTIDNDITSLIASNVISITDGQIVTSSKLFSQGILPAVDIDFSVSRTGGSVQDKTIRQIAGQINKTYRKYKRQLKLSMLDYNLNSETADLMYKGKMIDKLFTSKGFSIFSYNFILMMTKIIN;locus_tag=LOCUS_05670;EC_number=7.1.2.2;note=WP_011166795.1 ATP F0F1 synthase subunit alpha (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:82.5%25%2C Eval:8.3e-236],internal stop codon at [401660:401662](+)%2C[401849:401851](+),MGA_567
sequence1	MetaGeneAnnotator	CDS	401932	403311	.	+	0	ID=MGA_568;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166794.1;translation=MNGKILSISGDVIEVQFEKSNLPSINHLLTTHDNQTYLLVKSVINETNIKAIIIYAYKQISLSDEIINTNKSFMVPVGSKAKNNIFSFTGISLNNKKDDKQEYVEMNSTINNKRELSTEFELIETGIKAIDFFIPIFKGFKLGIFGGAGVGKTVLMKEIIFNVNNKYKNTSNIFIGSGERSREGIELYDELTESNLMKNSTMFVSKMNESPGARMSIVPIGVTAAEYLRDVKKEDVLLFIDNIYRFIQAENEVSATLGKKPSVGGYQSTLESDVANIQDRLFKNKNGAITSFQTVFLPMDDLSDPSAVAVFNHLDSNLVLSRDQAAKNILPAFDPLASSSSSVDETLIGKKHFNAIIEVKRILKAYKDLEDVILILGFDELDAESKILVKKALQLENFFTQYFFMTEQFTKQKGQYVPLNETIDSVIRIIEGKYIKQSPEIFSYIGSALDLKTDEELGL;locus_tag=LOCUS_05680;note=WP_011166794.1 F0F1 ATP synthase subunit beta (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-247],MGA_568
sequence1	MetaGeneAnnotator	CDS	403724	403927	.	-	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTSLDVKGNEKLNELQSSNISLTGLTDVAKVIDKYEYKAKDVDYKDKTHLLDILKSNSDKTLEILG;locus_tag=LOCUS_05690;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:59.7%25%2C q_cov:100.0%25%2C s_cov:8.1%25%2C Eval:6.7e-18%2C partial hit],internal stop codon at [403724:403726](-)%2C[403988:403990](-)%2C[403991:403993](-),MGA_569
sequence1	MetaGeneAnnotator	CDS	403991	404353	.	-	0	ID=MGA_570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPAFVFEGLVKEVLPIAFPITAENKNDKNSFKQLYSGEVFLPNKINEMFKQFRTTTIKKIEEIKKIAQNLPFSAKDVPFGIIRNLLSGLENGYDKIFKNAKEFNLKGLLTTPLNKMNES;locus_tag=LOCUS_05700;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:53.4%25%2C q_cov:96.7%25%2C s_cov:13.3%25%2C Eval:3.6e-27%2C partial hit],internal stop codon at [403724:403726](-)%2C[403988:403990](-)%2C[403991:403993](-)%2C[404504:404506](-),MGA_570
sequence1	MetaGeneAnnotator	CDS	404385	404552	.	+	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRLVFKEVKTTGSTLINNVDKQSYTLCVPVNKLVKVYDIHLYKCGNKSLIVFLS;locus_tag=LOCUS_05710;note=MGA_571
sequence1	MetaGeneAnnotator	CDS	404504	405901	.	-	0	ID=MGA_572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIAILSSMMMITTASLPIIACHVKEKKFDTNNSITNTQTSISLFAKELILADQLKVNLKEIKIENNKKSLTNLLKENNLKLEDTDKDIGNITTLNTLVDHYFIKDSYKNVLDSKIKLDNQIKKPSIPLFNEVFKLFGVDTTDLDKLSDDILKILDLTTSLNPMFLVSSFDSANTTLKSFFEKVKPHLKTGLEKLTNPSSEFVKDVQKFQEKIDVNKNYKELKAEDLDNAFYTSLVNAVGLGLVGSRYTSVKLDVENASKSLKDASLALTKALNGPAKPSNGNELDIVGYILEALQFLQIKLSLFESARDFTPKSANNLFGEKTTNQDFVKNTYDEKTIATITENKSSSINLKYILSFFAKPVKELKDKDSKDGFELQKLLAILFLSTTKVEYPEDDRNNQNEKLVKEYFENQSAHPIVTVLITLANDFLNEKITPLLPVISKDAKEDQLKKTINDLLPHLYK;locus_tag=LOCUS_05720;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:55.3%25%2C Eval:6.0e-142%2C partial hit],internal stop codon at [404504:404506](-),MGA_572
sequence1	MetaGeneAnnotator	CDS	406154	406459	.	-	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLSKVFNFKTNQNSDKSENAINQLAKIIASANSSLDTLFDSNIEIIFEFKDTKKNSSDQLLSETLIASVKNKNNNSESKYSFTYSRDKQDKFKFVKITKN;locus_tag=LOCUS_05730;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:61.0%25%2C q_cov:98.0%25%2C s_cov:12.0%25%2C Eval:2.7e-27%2C partial hit],internal stop codon at [406505:406507](-),MGA_573
sequence1	MetaGeneAnnotator	CDS	406769	407212	.	-	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTKTMSPILSSLIKNTTILKDKVKEKEDLIPSAPALLFALVLAPTLSIAFPIITNEKDENKNSFKVLYGGNVFLIDKLDEFFEAVKKEIKEKLSSLGVDPKQIPFDQAKPYLDLFKSIYDQIFKNVKHLNLKTLLTTPLNKIDSDS;locus_tag=LOCUS_05740;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:34.5%25%2C q_cov:98.0%25%2C s_cov:16.9%25%2C Eval:8.8e-17%2C partial hit],internal stop codon at [406505:406507](-)%2C[406769:406771](-)%2C[407276:407278](-),MGA_574
sequence1	MetaGeneAnnotator	CDS	407276	407494	.	-	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLSTAKNEYPDRGDTDDSKQYYENKKAHPSITLLTIMAKDLIEKKLEALIPNEKEGIKKFMNESIPHLYK;locus_tag=LOCUS_05750;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:44.2%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:8.9e-10%2C partial hit],internal stop codon at [407276:407278](-)%2C[407786:407788](-),MGA_575
sequence1	MetaGeneAnnotator	CDS	407786	408643	.	-	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIAILSSMMMITTASLPIIACHTKQNKFENNNSITNTHSTASLFAKELILADQLQVNLQELKNRNNQKDLALLLDEYNLKLDNTDPSIKNISSSNELISQYFEKDSYKNVLDSNIKLDSQKKLSNPLFSEIFKLFGLGTTDLDKFSDDITNILTLLVNLNPMFISSNFDKSNTTLQSFFKNLKPSLKTLFDSITAQKEGITKNVKEFQEKLNVNEKYKNLKVEDLDIAFYTSLINAIGLGIGTKDFKTVEINTQNTNETLQKSGEMLAKITDSPAKPTQNKE;locus_tag=LOCUS_05760;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:53.0%25%2C q_cov:100.0%25%2C s_cov:34.3%25%2C Eval:2.5e-80%2C partial hit],internal stop codon at [407786:407788](-),MGA_576
sequence1	MetaGeneAnnotator	CDS	409196	409354	.	-	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSLNINLTSLTDIILKIQKYDYKPSGIEYKTNSSLIDILKSNPDKVLQIIG;locus_tag=LOCUS_05770;note=MGA_577
sequence1	MetaGeneAnnotator	CDS	409463	409801	.	-	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFEQIIAPTLNVGFPITKKSSDKNSFKELYSGNIFLVNKTDEMFKTFKQKVEHLLKSFGSFIPIKSTDIPFSLIQHYFDSFKNNYEDIFKNVQQFNLKTLLNTPLNKMNES;locus_tag=LOCUS_05780;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:41.8%25%2C q_cov:95.5%25%2C s_cov:12.7%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [409196:409198](-)%2C[409460:409462](-)%2C[409463:409465](-)%2C[409964:409966](-),MGA_578
sequence1	MetaGeneAnnotator	CDS	409964	410185	.	-	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLSENKVDYNTTSTINDPKDYYEKQQAHPSIYLLSVLIKDFLIKKLSPLLVNVKKENVEKLVERSIPYFYK;locus_tag=LOCUS_05790;note=MGA_579
sequence1	MetaGeneAnnotator	CDS	410759	411334	.	-	0	ID=MGA_580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIAILSSVMMISTASLPVIACHKKEYKFETNNSLTNTKTAISLFAKDFILADQLQLNFQEIKNLNENKNLELLTNQNNLVLDKDELSLDSLKSTNQFINKYFDQNSYKNVLDKNIKLDSNKSLNNFVLDEVFKLLNLDISDTKKTSDDLIKILELTSKLNPSFMFNHFSNIDSLLKEMFEKLKPSLKT;locus_tag=LOCUS_05800;note=WP_011166793.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:76.3%25%2C q_cov:99.5%25%2C s_cov:22.8%25%2C Eval:1.9e-76%2C partial hit],internal stop codon at [410477:410479](-)%2C[410759:410761](-),MGA_580
sequence1	MetaGeneAnnotator	CDS	411536	411802	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKIIYLATTNKNKVKEFSEILKDYQIKSLLDIPEYVEIEENKKTFKQNALLKAKHLAKYINGVAIGDDTGICVKALNDFPGIYSKR;locus_tag=LOCUS_05810;note=WP_011166792.1 RdgB/HAM1 family non-canonical purine NTP pyrophosphatase (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:44.0%25%2C Eval:1.4e-44%2C partial hit],internal stop codon at [411800:411802](+),MGA_581
sequence1	MetaGeneAnnotator	CDS	411842	412138	.	+	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDKLKHINQLNKRKAYMTTAIALYDAINKKQFVYQARVNGYIDFQVNKSEFGFGYDFIFIPKGYEKAYSLMSSELKNQISARKKAIDRLIQYIDNVK;locus_tag=LOCUS_05820;note=WP_011166792.1 RdgB/HAM1 family non-canonical purine NTP pyrophosphatase (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:49.0%25%2C Eval:2.1e-48%2C partial hit],internal stop codon at [411800:411802](+),MGA_582
sequence1	MetaGeneAnnotator	CDS	412151	412351	.	+	0	ID=MGA_583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKRKINIVLYQPEIAQNVGAIMRTCVAINARLHIIEPLGFIFDDRHLSRPSANEYKYVDCIRYDD;locus_tag=LOCUS_05830;note=WP_011166791.1 tRNA (cytidine(34)-2'-O)-methyltransferase (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:36.5%25%2C Eval:1.3e-32%2C partial hit],internal stop codon at [412349:412351](+)%2C[412610:412612](+),MGA_583
sequence1	MetaGeneAnnotator	CDS	412696	413073	.	+	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNYPYILSDLDGTISLKDFSISKKTIKVIKKYQKLSNNRFSFCTGRVDGANKKIAKQLKVNLPIISCNGALISNLKTNEVLHADYLNNKLISELFKLAHEHDIDIVGYTHNMMIGTFHSERVIS;locus_tag=LOCUS_05840;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:89.6%25%2C q_cov:100.0%25%2C s_cov:43.4%25%2C Eval:4.1e-60%2C partial hit],internal stop codon at [413071:413073](+)%2C[413110:413112](+),MGA_584
sequence1	MetaGeneAnnotator	CDS	413305	413562	.	+	0	ID=MGA_585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKTNKLSGLKHFAKALNINYKDIIVFGDNHNDIEMVKGVKQGYCVENGVDELKKVAFEVCDSLENDGVAKKIEQIIKEVQNQK;locus_tag=LOCUS_05850;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:90.6%25%2C q_cov:100.0%25%2C s_cov:29.5%25%2C Eval:1.8e-39%2C partial hit],internal stop codon at [413071:413073](+)%2C[413110:413112](+),MGA_585
sequence1	MetaGeneAnnotator	CDS	413725	414609	.	+	0	ID=MGA_586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFQEKGKVTDALKKYTRDLTKDAKDNKLDPVIGREEEISRVIQILSRKTKNNPVLIGEPGVGKTAIVEGLAQRIVKGDVPTLLKNKRILELDMGSLMAGAMYMGDYESRVKAVVNEIQKSNGEIILFIDELHLIVGAGKTGNNSGMDVSNLLKPALARGELKAIGSTTLNEYRQYIEKDAALERRFQRVLVSEPTIDQTISILRGLKDRFETYHGVRIHDNALVSAAKLSSRYITDRYLPDKAIDLVDEACASIRTELASVPIELDQVNRKVMQLEIETSALEKEKDDKSKER;locus_tag=LOCUS_05860;note=WP_011166789.1 AAA family ATPase (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:41.2%25%2C Eval:4.4e-160%2C partial hit],internal stop codon at [414607:414609](+)%2C[414670:414672](+),MGA_586
sequence1	MetaGeneAnnotator	CDS	414856	415866	.	+	0	ID=MGA_587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISEEVTEHEIAKVVSKSTGILVDRLISSEKEKLLNLEDLLKKYVKGQDQAIKAVTSAIMRSRSGIKNPDKPIGSFLFLGPTGVGKTEVARSLADILFNSPKKMIRLDMSEYMEKHSVAKLIGAPPGYVGYEEGGRLTEAVRRNPYSIVLFDEIEKAHTDVFNILLQILDDGRLTDSLGKTIDFKNTIIVMTSNIASQYLLTSDELVQVDDQKIQEELNKVFRPEFLNRIDNIVYFNALSVQTIGEIVDKVLEELSTRLQDEQNYFINFSEEARNKIINEGYDRLFGARPIKRYIEKNIETLIAHYIISGEVVENTRYLIDVKNNQFTLEEFKQFN;locus_tag=LOCUS_05870;note=WP_011166789.1 AAA family ATPase (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:47.1%25%2C Eval:7.7e-183%2C partial hit],internal stop codon at [414607:414609](+)%2C[414670:414672](+),MGA_587
sequence1	MetaGeneAnnotator	CDS	415871	416893	.	+	0	ID=MGA_588;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166788.1;translation=MLTNRQIKILQTIVEEFIKTNQPVGSKRILELLNMKISSATIRNESATLEHEGYLEKQHTSSGRTPSTKGYRYYVDNIMKLDSADYTRLKIYLNQLLDLRKYDIDKTINYASEIISELTKMTAVVIKKQNIKDIKLKKIELILLSEFLASVLFIFSDGDVQNKMFNLKDVALSDLKIAIKLFSDVLVDVKLDEIDQYLNDLKHQLSLSIKQYDYVLNTFINTILESKNEQKETHGMRYMLENPEFNDTNKLKNAVKLVEQLSPFDWFNIAYESNKNMNKIAIKIGNEIDQINDDISMIATELKIGNSSTVLTLVGPKRVDYNQVNQLMNLIIEIINTKEN;locus_tag=LOCUS_05880;gene=hrcA;note=WP_011166788.1 heat-inducible transcriptional repressor HrcA (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-182],MGA_588
sequence1	MetaGeneAnnotator	CDS	416895	417497	.	+	0	ID=MGA_589;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015545681.1;translation=MTEELKNKKNNKKYYSQNRNKTKAEFQKAHIKKNQYLNLKRKFNNVLLEVQNLKELNETLKKELESEKQLNLAEISNLTKKYNQKELETKKYGASNLAKDLIQPLEILKKVVNAPNNNEVVQAYVKGFEMIINQINNVLESHHIKAMNVKVGDMFNPHLHDANEAVETDMYQTNQIVGVLSDGYMIHDKVLVYAIVKVAK;locus_tag=LOCUS_05890;note=WP_015545681.1 nucleotide exchange factor GrpE (Mycoplasma mycoides) [pid:89.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-95],MGA_589
sequence1	MetaGeneAnnotator	CDS	417554	418186	.	+	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEKIIGIDLGTTNSVVSVIEGGQPIILENPEGQRTTPSVVAFKNSDIIVGGAAKRQAVTNPNVVQSIKSKMGTTSKVNLEGKDYSPEQISAEILRYMKNYAEAKLGQKVTKAVITVPAYFNDAQRKATKDAGTIAGLQVERIINEPTAAALAYGLDKQDKEETILVYDLGGGTFDVSILAIGGGSFDVIATSGNNKLGGDNFDEEIIK;locus_tag=LOCUS_05900;note=WP_011166786.1 molecular chaperone DnaK (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:35.5%25%2C Eval:2.3e-113%2C partial hit],internal stop codon at [418184:418186](+),MGA_590
sequence1	MetaGeneAnnotator	CDS	418238	419329	.	+	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALQRLKDEAEKAKINLSSQLEVEINLPFIAMNESGPISFATTLTRSEFNKITKHLVDLTIQPVKDALSAAKKTPSEINEVLLVGGSTRIPAVQELVKSLLNKEPNRSINPDEVVAMGAAVQGGVLAGEVTDILLLDVTPLSLGIETMGGVMTKLIERNTTIPAKRTQIFSTATDNQPAVDINVLQGERAMAADNKSLGQFQLTGIQPAPRGIPQIEVTFEIDANGIVSVSAKDKNTNEEKTITISNSGNLSEAEVERMIKEAQENAANDEVKKKNIELKNKAENYINIIETSLLQAGDKISAEQKEQSQKMVDEIKELVKNENYEALEQKMAELEQAMAQAAEFANKQNESDPNNNSSEQNN;locus_tag=LOCUS_05910;note=WP_011166786.1 molecular chaperone DnaK (Mycoplasma mycoides) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:61.4%25%2C Eval:9.5e-190%2C partial hit],internal stop codon at [418184:418186](+),MGA_591
sequence1	MetaGeneAnnotator	CDS	419393	420511	.	+	0	ID=MGA_592;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166785.1;translation=MKKKDYYEVLGVSKTASEQEIRQAYRKLAKQYHPDLNKSPDAHDKMVEINEAADVLLDKDKRKQYDQFGHNAFDGSSGFSSNFADFEDLFSNMGSSGFSSFTNIFSDFFGSNKSDYQRSTKGQSVSVDIYLTFKELLFGVDKIIELDLLTNCSVCFGSGAESNSDISICNNCHGTGEVLIQKNMGFFQFQQSAKCNVCNGAGKIIKNKCKNCKGKGKYLERQKIEVNIPKGIRPNQQIKLSQKGHASINNGVNGDLIIDIYLKESKVFEIVNNNDILMTYNISYLDSILGNEIIIKTLDGDIKYKLPKSINSNEFIIINNKGLYKSINKDKRGDLIIKVNIVVPKNLNKKEKELIEQIYEQTSFNPENNIDQ;locus_tag=LOCUS_05920;gene=dnaJ;EC_number=1.8.4.-;note=WP_011166785.1 molecular chaperone DnaJ (Mycoplasma mycoides) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-199],MGA_592
sequence1	MetaGeneAnnotator	CDS	420799	421008	.	+	0	ID=MGA_593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSYIYGVKNKNHIIDLEKTITHLNTAQKLLETLGSKQQKILFVGTKRSGKNAVKEAALRSGNFYINNR;locus_tag=LOCUS_05930;note=WP_013729687.1 30S ribosomal protein S2 (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:23.6%25%2C Eval:5.6e-33%2C partial hit],internal stop codon at [420787:420789](+)%2C[421006:421008](+)%2C[421063:421065](+),MGA_593
sequence1	MetaGeneAnnotator	CDS	420990	421262	.	-	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNFFASLTAISSPFGSTTTIAAGNLCICLIPPSAFSNLAFSFKILICSFLVLKDKRPFFSSSSISHKALILIKIVFKLVKVPPNHLLLI;locus_tag=LOCUS_05940;note=MGA_594
sequence1	MetaGeneAnnotator	CDS	421180	421596	.	+	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKLPAAIVVVDPKGDEIAVKEAKKLNIPVIAICDTNADPDMIDYVIPGNDDLQESVNLIINILVEAYAEGAQIKMNPSVLKTVAPKREPRQNRVMTPVVENQSAEQQASENVSNTQVSNEPVTPVVEVEKSSEPKAE;locus_tag=LOCUS_05950;note=WP_013729687.1 30S ribosomal protein S2 (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:47.3%25%2C Eval:3.6e-72%2C partial hit],internal stop codon at [421006:421008](+)%2C[421063:421065](+),MGA_595
sequence1	MetaGeneAnnotator	CDS	422148	422495	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVAAMAPKYINMDQIPEDFKNSEMHIIKEQAKDDAKLQAKPANVLENILKGKLSKRLAEVSLLDQLFVIDESFKVGDFLKSKHVSLVKMIRYEVGEGIEKVVTNFADEVAAQLK;locus_tag=LOCUS_05960;note=WP_011166783.1 translation elongation factor Ts (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:39.0%25%2C Eval:3.0e-58%2C partial hit],MGA_596
sequence1	MetaGeneAnnotator	CDS	422495	423100	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166782.1;translation=MISFNTEYFGVISGLLIAFILVINLMFNFYLFRFTKKQALITKYNKFYFIVFYIISFISLVLAIISLVLFNLKDKIFSQTSSESQKLYPTIVLNAISFVFLISKIILLFIFLPRFAIKITENEILYLGEKIEFQTITKIIEDTNTQALYINYKPTKRTYKRIRYPKACPFNQVIKNSTTNTSLEISNQDANEYFKKIKELS;locus_tag=LOCUS_05970;note=WP_011166782.1 hypothetical protein (Mycoplasma mycoides) [pid:91.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-97],MGA_597
sequence1	MetaGeneAnnotator	CDS	423234	423401	.	+	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKYKTVLLKLSGEALKGDAEVYDKKCLDNIASQIVHLAKNGLKLAIVIGGGNI;locus_tag=LOCUS_05980;note=WP_013729684.1 UMP kinase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:23.2%25%2C Eval:9.6e-25%2C partial hit],internal stop codon at [423399:423401](+),MGA_598
sequence1	MetaGeneAnnotator	CDS	423429	423947	.	+	0	ID=MGA_599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAINADYMGMLATVMNGLALESTITKMGYDKIKVYSSLPIKTVTDDYNFKKARIKMNEGFISIFVGGTGYSYFTTDTNATIRAIEIGADVILMAKNGVKGVYDKDPKQHSDAKFIKRLTHQEVVDKQLRIMDLTAATLAKDANLKIEVFDMSGDNNIIKVLENKLESTIIE;locus_tag=LOCUS_05990;note=WP_013729684.1 UMP kinase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:72.6%25%2C Eval:2.0e-92%2C partial hit],internal stop codon at [423399:423401](+),MGA_599
sequence1	MetaGeneAnnotator	CDS	423958	424506	.	+	0	ID=MGA_600;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166777.1;translation=MTDLILKNAELQMKETIDAYVIHLRQIRTGKASGAILDKVMVNYYGSLMPLNQISQITTPEPNLIIIKPYDRNVITEAVGAIHKADLGLNPVSDATLIRIPIAPLTEDVRKNLVKKVHKELEGYKIRIRNIRRDAIDEIKKIENISKDLISDNEDQIQQITDKFIKQLDDLTKEKEKELMTI;locus_tag=LOCUS_06000;gene=frr;note=WP_011166777.1 ribosome recycling factor (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-95],MGA_600
sequence1	MetaGeneAnnotator	CDS	424508	425281	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTTIIEMFYNDLKNICQKLNITKEPIIEINKNNTPGLLSSSICLISSKQVNKKPLELAEIFKQELLLTNSYLNIDIAAPGFLNVLVKPEILSNVISNVLSLKSKYGNLEKQNKTINIEYVSANPTGYLHVGHARNAVIGSVLVNLFKKAGYNVQTEYYVNDAGNQINVLAVTVFVHYLQALNIDAKKPENCYAGDMYDDLAKIIINKYNDQFKDIKYTDNKILDDNVHSLFKQISIDYFLKIIKQQLADFNVKIKH;locus_tag=LOCUS_06010;note=WP_011166776.1 arginine--tRNA ligase (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:46.4%25%2C Eval:1.1e-140%2C partial hit],internal stop codon at [425279:425281](+)%2C[425519:425521](+),MGA_601
sequence1	MetaGeneAnnotator	CDS	425333	425521	.	+	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYESKDALYYKDDALFLKTTQFGDDKDRVLVKSDKTYTYILPDLATHNLRIKRTKADKLINV;locus_tag=LOCUS_06020;note=WP_011166776.1 arginine--tRNA ligase (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:11.2%25%2C Eval:2.9e-29%2C partial hit],internal stop codon at [425279:425281](+)%2C[425519:425521](+)%2C[425678:425680](+),MGA_602
sequence1	MetaGeneAnnotator	CDS	425552	425680	.	+	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAGLALLGNDPDILEIQMVQMVRLIKDGSEYKMSKRKGTAV;locus_tag=LOCUS_06030;note=WP_011166776.1 arginine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:7.6%25%2C Eval:1.6e-16%2C partial hit],internal stop codon at [425279:425281](+)%2C[425519:425521](+)%2C[425678:425680](+),MGA_603
sequence1	MetaGeneAnnotator	CDS	425726	426172	.	+	0	ID=MGA_604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLASKSSNSHMDLDLDLITLKNSSNPVYYAQYATARCHSILNQAKTKKITPLIKQTNLLNNPKEIEMLLILDNFKEVIKNSANNRSTQQICDYIQNICKIFHSYYAEIKIIDENDLQLTKLRLGFIKAILQVLKNAFFIIGIQPVVEM;locus_tag=LOCUS_06040;note=WP_011166776.1 arginine--tRNA ligase (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:26.7%25%2C Eval:1.7e-76%2C partial hit],internal stop codon at [425519:425521](+)%2C[425678:425680](+),MGA_604
sequence1	Barrnap:0.8	rRNA	426387	427904	.	+	.	ID=Barrnap_4;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00040;note=Barrnap_4
sequence1	Barrnap:0.8	rRNA	428140	431039	.	+	.	ID=Barrnap_5;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00050;note=Barrnap_5
sequence1	Barrnap:0.8	rRNA	431110	431188	.	+	.	ID=Barrnap_6;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;note=aligned only 66 percent of the 5S ribosomal RNA,Barrnap_6;locus_tag=LOCUS_r00060
sequence1	MetaGeneAnnotator	CDS	431333	432469	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRHIIKSYLKTFFKKNYVSTFGILLFIITLATVIIGMLATPLQLNNRINYLAKHNTSYNSILDTRSMNYDPKFTYNYFYLNKEINNKDTNYTKLSELYIKAINSELEQNFTNTSTDKKENNLYIYDSNNLEDKVKIDFIGNLINSDLFRYRNGALIKTESYIFNKDYNNDQNNLNSFSNISNQVLNRIISDFHQSMSDGISLDNNAKYDYVVSEFYKAYSRFNSFLTINEINLIDKPILTLKFTEILNKLNDNKIDEITKFLVKQLQDLKNKIKDHQKERIYLPSFLVFSDKFSKVLSDEKFLYDDRIYIVDQLLDNVENFVLQTKKTFKIQQSSVGQLLPFLTLQLTSDNQIFKNTNKDFNQIQFDKNHKNSEFAKK;locus_tag=LOCUS_06050;note=WP_011166775.1 ABC transporter permease (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:25.5%25%2C Eval:3.3e-209%2C partial hit],internal stop codon at [432467:432469](+),MGA_605
sequence1	MetaGeneAnnotator	CDS	433391	433651	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLKKSKRTKSGAITNLLSKHNIGFNYRMRLSFIKNAKGKFAVVQILFGFASLTYTLLFVAQAILFQSINQSLATIKQDVITKSM;locus_tag=LOCUS_06060;note=WP_011166775.1 ABC transporter permease (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:5.8%25%2C Eval:1.6e-40%2C partial hit],internal stop codon at [433148:433150](+)%2C[433169:433171](+)%2C[433349:433351](+)%2C[433649:433651](+),MGA_606
sequence1	MetaGeneAnnotator	CDS	433883	434038	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILPLDYAKKTLTPFLQPGKTDKNDYEVLIKDNQYYLSYISRFNLYNQNQK;locus_tag=LOCUS_06070;note=WP_011166775.1 ABC transporter permease (Mycoplasma mycoides) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:3.4%25%2C Eval:9.1e-23%2C partial hit],internal stop codon at [433649:433651](+)%2C[434036:434038](+)%2C[434324:434326](+),MGA_607
sequence1	MetaGeneAnnotator	CDS	434555	435076	.	+	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMQDLNNKLENNPIVSFNQMFYDSSTDLLSAVIRVSNSDILNPGSYALNLYRLKDHNFGDVNQFLNFKGVSIKGFQDLSKLPEKHNNLPTFNVIVPYYYVKSKNLDINSKIVVETRTTFVKKFVLNVVGINKSETLSISKTPDIFLDYDLFANEMFSEDLYKNNNPLIFNQL;locus_tag=LOCUS_06080;note=WP_011166775.1 ABC transporter permease (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:4.3e-95%2C partial hit],internal stop codon at [434324:434326](+)%2C[434384:434386](+)%2C[435074:435076](+),MGA_608
sequence1	MetaGeneAnnotator	CDS	435203	435529	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSNIFTEFNNFISKYQELDQQNDIYNTPNPAITTLSRLNSKLFNFNLVKQTISKITTITNQVMSLFILLVSLLLTIILVVVMNIVVDESKKTILTLRAIGYENSEVN;locus_tag=LOCUS_06090;note=WP_011166775.1 ABC transporter permease (Mycoplasma mycoides) [pid:88.0%25%2C q_cov:100.0%25%2C s_cov:7.3%25%2C Eval:3.4e-46%2C partial hit],internal stop codon at [435074:435076](+)%2C[435527:435529](+)%2C[435602:435604](+)%2C[435605:435607](+)%2C[435635:435637](+)%2C[435719:435721](+),MGA_609
sequence1	MetaGeneAnnotator	CDS	435970	436155	.	+	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDAIENKIDQIRNLFKKTNTACIDYLSKTNNTNFIEINYKKFLLTSYTLLRDFINQIFIN;locus_tag=LOCUS_06100;note=WP_011166774.1 hypothetical protein (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:30.2%25%2C Eval:3.6e-27%2C partial hit],internal stop codon at [435880:435882](+)%2C[436153:436155](+)%2C[436183:436185](+),MGA_610
sequence1	MetaGeneAnnotator	CDS	436219	436398	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNYQFERLELDFQKNLFNIIKAINKKINDPVIRILISAYIEDINNKQTYLNQIHKNLK;locus_tag=LOCUS_06110;note=WP_011166774.1 hypothetical protein (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:29.2%25%2C Eval:1.3e-24%2C partial hit],internal stop codon at [436153:436155](+)%2C[436183:436185](+),MGA_611
sequence1	MetaGeneAnnotator	CDS	436809	437126	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSGTEIESDLYNFQKLNLPVDHPARDMQDTFYLDNNLVLRTHCTNMTSRMLTKLASLKTEDNNLAVISYGNVYRRDDDDATHSHQFMQIDGFVVGNKISFANLK;locus_tag=LOCUS_06120;note=WP_011166773.1 phenylalanine--tRNA ligase subunit alpha (Mycoplasma mycoides) [pid:92.4%25%2C q_cov:100.0%25%2C s_cov:30.0%25%2C Eval:5.1e-50%2C partial hit],internal stop codon at [437125:437127](+)%2C[437281:437283](+),frameshifted%2C insertion/deletion at around 437072%2C437096,MGA_612
sequence1	MetaGeneAnnotator	CDS	437139	437282	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCQRLFNKDINIRLRPSYFPFTEPSVEVDVSCFKCDSKGCFICKKTG;locus_tag=LOCUS_06130;note=WP_011166773.1 phenylalanine--tRNA ligase subunit alpha (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:13.4%25%2C Eval:1.2e-22%2C partial hit],internal stop codon at [437125:437127](+)%2C[437281:437283](+),frameshifted%2C insertion/deletion at around 437072%2C437096,MGA_613
sequence1	MetaGeneAnnotator	CDS	437304	437480	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINEHVLKLNGLDPTKCSGLAFGIGIERIAMLKFNISNIRNFYENNVKFLEQFKFYSE;locus_tag=LOCUS_06140;note=WP_011166773.1 phenylalanine--tRNA ligase subunit alpha (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:8.6e-26%2C partial hit],internal stop codon at [437125:437127](+)%2C[437281:437283](+),frameshifted%2C insertion/deletion at around 437072%2C437096,MGA_614
sequence1	MetaGeneAnnotator	CDS	437558	439063	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALNSLGFEVDSVYDLNSLNSELVLGYVEQSKQIPNTHLKLNKVNIGTKSLQIVCGASNVDANQFVIIAPINATIANGLTLTSKKIQNYESQGMICALNEIGIDLSVINKEDQLKIYNVFDHNLDLKKYIGSDVKQIIGLDDYLFEIDLTLNRSDCLASFQILKELANYFDLEIKNLDNNFSDFKKNNLDLRIDLANQVKDQIKTISYSYFELNNKNDKLDSKDEIFLKLNQINSSNHLITNLSLISTLSTAQTHILIDLDKLKSSNLKLEFINHDNKELLCLTNNNKLVNIIGLETQNEFNVDNDSKNVLNIMLNIEPNLMRKQQKLLNISNTYLQRYIKPINPNLFNLANQTFSNLLNDYQLINKAYEVKILKQTFKNKQSLEIRLNEINDLLGTNLTIKQIKSLFKHLDFKITNKDDLLDFQIDQNRIDITSKNDLCEEVARLYSYDKIDEIPLSFTSFKKAKNLNLKLENKLTNYLIGLGFNNTKTYSLTSLNEAKY;locus_tag=LOCUS_06150;note=WP_011166772.1 phenylalanine--tRNA ligase subunit beta (Mycoplasma mycoides) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:63.1%25%2C Eval:3.7e-270%2C partial hit],internal stop codon at [437507:437509](+)%2C[439061:439063](+),MGA_615
sequence1	MetaGeneAnnotator	CDS	439873	440127	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIFNQTDFKLKKHYELQGQLTDLDQIKSNNILIKSFDFISYDLDLDYNETLKKITVNGVINYTITGIDSRIGNEIKYSNYID;locus_tag=LOCUS_06160;note=WP_011166771.1 hypothetical protein (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:48.8%25%2C Eval:5.2e-42%2C partial hit],internal stop codon at [440125:440127](+)%2C[440287:440289](+)%2C[440347:440349](+),MGA_616
sequence1	MetaGeneAnnotator	CDS	440406	440585	.	+	0	ID=MGA_617;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362864.1;translation=MAVPFRKTSKSAKNKRRSHLALSTASLVSCTNCGAMIKPHHVCKECGFYKNKEVKVVEA;locus_tag=LOCUS_06170;gene=rpmF;note=WP_008362864.1 50S ribosomal protein L32 (Mycoplasma mycoides group) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-28],MGA_617
sequence1	MetaGeneAnnotator	CDS	440692	440820	.	+	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFGTYEHCMDAKQRLTLPAKLRNKLSNPIYLTKGYDADLEI;locus_tag=LOCUS_06180;note=WP_011166770.1 division/cell wall cluster transcriptional repressor MraZ (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:31.6%25%2C Eval:2.3e-18%2C partial hit],internal stop codon at [440818:440820](+)%2C[440908:440910](+)%2C[441034:441036](+),MGA_618
sequence1	MetaGeneAnnotator	CDS	441102	442010	.	+	0	ID=MGA_619;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166769.1;translation=MDKHIPVLLKESIEYLNIKPDGIYVDCTLGRAGHSSEILKKLNQKGFLYAIDQDQIAIDQAKEKLEQINNNFLLIQGNFSNLSALLAINHVFNVDGILYDLGVSSPQIDIASRGFSYKMDGPLDMRMDLNSTLTAHQVINTYSESQISEILFKYGEESFSKSISKKIVESRPINSTLELVEVIKSALPQKVLKQKKHPAKKTFQALRIYINNELIALENSLKQALDLLNSKARICVITFHSLEEKIVKNIFNNSTNYYQEQLLSNLPIKADLNSKFKLVIKKPIKPSLLELEQNHRSHSAKL;locus_tag=LOCUS_06190;gene=rsmH;EC_number=2.1.1.199;note=WP_011166769.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:1.6e-160],MGA_619
sequence1	MetaGeneAnnotator	CDS	442037	442591	.	+	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKQIFTIIEFNKNIINFQVIKYFNNQEMILYKNSYISEESEILDKDQIKDSLNVYKFLTNCFTDFEKNSSFSKIKQVGLMLSNSLNITKKVTNYDLKSKDKKTSSTTNLEYIVKKINKLQLYDDTDLKIIDTNLIELQVNNKMIDYQNLKKYYIDNTQNNKLVMTFLELSITNELYFALEKLF;locus_tag=LOCUS_06200;note=WP_020862814.1 cell division FtsA domain-containing protein (Mycoplasma mycoides) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:47.7%25%2C Eval:1.2e-96%2C partial hit],internal stop codon at [442589:442591](+)%2C[442688:442690](+)%2C[442694:442696](+),MGA_620
sequence1	MetaGeneAnnotator	CDS	443066	443197	.	+	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFNEFKNNHFISNNFIGDIDFEQDSTAFIGASLFFKNPEFSS;locus_tag=LOCUS_06210;note=WP_011166767.1 cell division FtsA domain-containing protein (Mycoplasma mycoides) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:13.2%25%2C Eval:1.1e-17%2C partial hit],internal stop codon at [442889:442891](+)%2C[443195:443197](+),MGA_621
sequence1	MetaGeneAnnotator	CDS	443312	444469	.	+	0	ID=MGA_622;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166766.1;translation=MTNEFKQIARIKVLGVGGAGNNAIRRMFEENVQGVEFYIINTDAQILESSPVPNKIILGEKTTKGLGAGGNPEVGKAAAIESEEELRKVVEGADLIFIAAGMGGGTGTGAAPVIAKIAQESGALVIGIVTKPFIFEGRHRNVNAKEGLEELRKHVDSVIVVSNDKLLEYIGSIPIAESFKEADTILKQGVQTITDLIAVPATINLDFADVKSVMSKKGNALFGIGVASGKDKAVEAAKEAINSKLLEASIEGAKDIIVNITGGRTVSLNDAYDAVGVISQAVNNKELNIVFGMAINDDLTDDDEIIVTVIATGFENKNLQNQEPNIIKTPRVEPVVQQTQPSKPVQQEQEEEQEEVDEFDDEMSLTTTDDTEEDFNDDDFPTFLK;locus_tag=LOCUS_06220;gene=ftsZ;note=WP_011166766.1 cell division protein FtsZ (Mycoplasma mycoides) [pid:93.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-196],MGA_622
sequence1	MetaGeneAnnotator	CDS	444481	444897	.	+	0	ID=MGA_623;product=cell division protein SepF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166765.1;translation=MFFKKKKNFFKQNEHDQDQIELELTDSDIFEQESPVLKDSYTQTSNQFNQNHQTNTSNMNQTDMNKSPINTYVFSPMKFSEVQSIVDTLLDQKVVVVDFKNLDDNKAKRFKDFLSGVLYIKKGEYIRLNENIYKFIIN;locus_tag=LOCUS_06230;note=WP_011166765.1 cell division protein SepF (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-72],MGA_623
sequence1	MetaGeneAnnotator	CDS	445504	445899	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVKNLLQRMIKDYSPKFLSNLSKDVLDDILEIYKNEYEVDLTKLDFVDLITINTTYIPVLYIHNRLDKVTSYLDSFRMYQMKNNIENSFDNQIEIYDHGSHHTKSIIEFENEYITKSLNFVKLHQKTHHN;locus_tag=LOCUS_06240;note=WP_011166764.1 alpha/beta fold hydrolase (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:39.8%25%2C Eval:2.0e-70%2C partial hit],internal stop codon at [445237:445239](+)%2C[445318:445320](+)%2C[445336:445338](+)%2C[445480:445482](+),MGA_624
sequence1	MetaGeneAnnotator	CDS	446530	446652	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLERKKYMSNKYKDTLLIGQTDFDMRANLNQKEPKFEQF;locus_tag=LOCUS_06250;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:80.0%25%2C s_cov:3.5%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [446650:446652](+)%2C[446839:446841](+),MGA_625
sequence1	MetaGeneAnnotator	CDS	446881	447114	.	+	0	ID=MGA_626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVDRKSMSSVAFRELCYKYALEQVSNQANQFNRLGMFTDYDTKYVTLTHDFEMSELRLFEKMYQKGLIYKDLKPIY;locus_tag=LOCUS_06260;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:3.1e-39%2C partial hit],internal stop codon at [446650:446652](+)%2C[446839:446841](+)%2C[447112:447114](+)%2C[447241:447243](+)%2C[447256:447258](+)%2C[447388:447390](+),MGA_626
sequence1	MetaGeneAnnotator	CDS	448252	448416	.	+	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSTIYSNTSPYKQLVSHGMTTDEKGNKMSKSLGNGVDPIAFANDLGADILRL;locus_tag=LOCUS_06270;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:1.3e-24%2C partial hit],internal stop codon at [448051:448053](+)%2C[448135:448137](+)%2C[448237:448239](+)%2C[448414:448416](+),MGA_627
sequence1	MetaGeneAnnotator	CDS	448507	448947	.	+	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFILANLNDFNVKTDYQTKLSEVDMYSLFNLTSFKNKVIQAYEELNFSLVYTLVMNYVTKNLSAFYLDFIKDILYINSKNDLRRKQVQTVLYEQLYCLIDVLRPILVHTIEEVYQNLNDNNKVESVHLLDNKEQNFVYDKEFINK;locus_tag=LOCUS_06280;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:5.3e-78%2C partial hit],internal stop codon at [448237:448239](+)%2C[448414:448416](+)%2C[448945:448947](+)%2C[449212:449214](+),MGA_628
sequence1	MetaGeneAnnotator	CDS	448957	449214	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILRDDVNKALEISRENKIINKGFEAVVNIKLDKEYDDLKNIKDLSQIFIVNSINFVDNIDNSFIKTNISSIKVEQKQGLKCQRC;locus_tag=LOCUS_06290;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:5.1e-42%2C partial hit],internal stop codon at [448945:448947](+)%2C[449212:449214](+),MGA_629
sequence1	MetaGeneAnnotator	CDS	449439	449615	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLGETKTFISGFLNFQYVINLGMAYGKLHDKAYLVIIFATIFSLFLTTIFIFLNNKK;locus_tag=LOCUS_06300;note=WP_011166762.1 signal peptidase II (Mycoplasma mycoides) [pid:84.5%25%2C q_cov:100.0%25%2C s_cov:28.7%25%2C Eval:4.9e-21%2C partial hit],internal stop codon at [449352:449354](+)%2C[449409:449411](+)%2C[449613:449615](+)%2C[449649:449651](+)%2C[449673:449675](+)%2C[449727:449729](+),MGA_630
sequence1	MetaGeneAnnotator	CDS	449881	450813	.	+	0	ID=MGA_631;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166761.1;translation=MNKITLNSLNTTLRLDKLLVELLTSYDYSRSYIQKLIKEECISVNNQIITNNNFVVKPNSEITITIKDPILDPNLVKNDEIDLDIIYQDDDLLVINKQNNITVHPSLNNTNNTIVNALLASDVELSSINGELRPGIVHRIDKQTTGLLIVAKNDKTHKLLSEMFKNHQIYKEYLAIVTGVIKPNKGLIDAPIGRSQIDRKKMSVTAKNSKQAITTFEVVERFLKNTLVKCQIQTGRTHQIRVHFNYINHPVLNDPVYGKKHQEFTDFGQYLHAYKLKFTHPITKKEIELISPLPKEFDDKIKELRGENND;locus_tag=LOCUS_06310;note=WP_011166761.1 RluA family pseudouridine synthase (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-170],MGA_631
sequence1	MetaGeneAnnotator	CDS	450806	451282	.	+	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNSSTSDKKTLENFFIKNFKYKLLKSKVNSSVSYLYSSNEKHQVIILNFDNSISFEKEKEYIIKKVEKQIKKPVSVFHIVIDNDNQLTTKSNLIVLHSSIQTLATDLEPYFKNTNLLVFNHTIDNELKDDKQPSEETNNKLFTSFLENVKNNKITFS;locus_tag=LOCUS_06320;note=WP_020862808.1 hypothetical protein (Mycoplasma mycoides) [pid:83.5%25%2C q_cov:100.0%25%2C s_cov:36.5%25%2C Eval:2.7e-68%2C partial hit],internal stop codon at [451280:451282](+)%2C[451400:451402](+)%2C[451427:451429](+)%2C[451430:451432](+),MGA_632
sequence1	MetaGeneAnnotator	CDS	451661	451795	.	+	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIFIGVLLIDVSGSTTPMAKFSQAKTVVYILILIGFSFFLGDG;locus_tag=LOCUS_06330;note=WP_020862808.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:1.1e-17%2C partial hit],internal stop codon at [451400:451402](+)%2C[451427:451429](+)%2C[451430:451432](+)%2C[451793:451795](+)%2C[451844:451846](+)%2C[451874:451876](+)%2C[451880:451882](+)%2C[452015:452017](+)%2C[452060:452062](+),MGA_633
sequence1	MetaGeneAnnotator	CDS	452152	452295	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIAKASAMRSKDPNTQVGAIVVNELQQIVATGYNGFPRGVSDDEFP;locus_tag=LOCUS_06340;note=WP_011166759.1 dCMP deaminase family protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:4.3e-20%2C partial hit],internal stop codon at [452137:452139](+)%2C[452293:452295](+)%2C[452314:452316](+),MGA_634
sequence1	MetaGeneAnnotator	CDS	452624	453688	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFMKKLLFLLSNSVLFCLGALLIYNLNFQNNSNNIVLKQENKQETDLSKIFNDQTYISIKNKDQNIDSQVLEALKLKYEGIDYSLLTINVEVSDNDRIDVLITPKHGESKYTNKSKIPCYIKKDLSVILKDNNDLGEIPINNVDEIKKHIKNKDLLKTSFNDIDFYITNIREDSVKISATRIGDFVGEAFLKFNAKQKILSSAIYKPVLELKNLEKDFIVNILKDTYSSLRNENLDITIDQEKRKIIVKTIDSSQFVGTVTLKFNITKSITNKPVEPKTTIIDSNSTNLKTESKKSEDKSDNNFIKNNNTLISIPNKDSIKNNKNLNSSNKVTGVIIGSALGVVVLIGISVGS;locus_tag=LOCUS_06350;note=WP_011166758.1 hypothetical protein (Mycoplasma mycoides) [pid:87.3%25%2C q_cov:15.3%25%2C s_cov:98.2%25%2C Eval:3.4e-19%2C partial hit],MGA_635
sequence1	MetaGeneAnnotator	CDS	453732	453881	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNVGIDIVENKRIKLKKEFIIKVLSTNEIQTFNTKTKKQKKEFLAGR;locus_tag=LOCUS_06360;note=WP_011166756.1 4'-phosphopantetheinyl transferase superfamily protein (Mycoplasma mycoides) [pid:91.8%25%2C q_cov:100.0%25%2C s_cov:44.5%25%2C Eval:8.9e-18%2C partial hit],internal stop codon at [453879:453881](+),MGA_636
sequence1	MetaGeneAnnotator	CDS	453927	454064	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIDIEYVNQKPVIQNKELQNILISISHEKKYAIGIALKQSDNK;locus_tag=LOCUS_06370;note=WP_011166756.1 4'-phosphopantetheinyl transferase superfamily protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:40.9%25%2C Eval:1.3e-18%2C partial hit],internal stop codon at [453879:453881](+),MGA_637
sequence1	MetaGeneAnnotator	CDS	454800	455027	.	+	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFQAASLKVAQMSHAPIIPVSIINSYQVFAEKRPKKVEVKVVFGKPISPNKHISLKTEDLTRFVEKIVDTNLK;locus_tag=LOCUS_06380;note=WP_020862806.1 lysophospholipid acyltransferase family protein (Mycoplasma mycoides) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:24.0%25%2C Eval:6.7e-34%2C partial hit],internal stop codon at [454506:454508](+)%2C[454629:454631](+)%2C[455025:455027](+)%2C[455028:455030](+),MGA_638
sequence1	MetaGeneAnnotator	CDS	455043	455168	.	+	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYELRKLTKKDIKQLKEEEKKQNSKKQEKKSIKDLFKIVD;locus_tag=LOCUS_06390;note=WP_020862806.1 lysophospholipid acyltransferase family protein (Mycoplasma mycoides) [pid:68.3%25%2C q_cov:100.0%25%2C s_cov:13.1%25%2C Eval:4.1e-07%2C partial hit],internal stop codon at [455025:455027](+)%2C[455028:455030](+),MGA_639
sequence1	MetaGeneAnnotator	CDS	455218	455841	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166754.1;translation=MKLNDKLKNFFNNIKSYFTTKEKIIVKNKPKPIETKTENNNNNLDNNSQFHHDISNNKEYIDKRATLDSQNEFILKVISNKAEFLEQLVDIKNTFKHCEDCLDIYKKNLDDMKLKILRLKKHIDNNYGFLGDEKEYQNYVFIDDVQTYSQTDESAGLKLVHKLEDHFNKYSNYDIDYFIPCNKHKDLIDKYKILSIKIKDLDKIISN;locus_tag=LOCUS_06400;note=WP_011166754.1 hypothetical protein (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:87.0%25%2C s_cov:87.0%25%2C Eval:4.6e-98],MGA_640
sequence1	Aragorn:1.2.38	tRNA	455968	456043	.	+	.	ID=Aragorn_20;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_20
sequence1	Aragorn:1.2.38	tRNA	456050	456133	.	+	.	ID=Aragorn_21;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_21
sequence1	Aragorn:1.2.38	tRNA	456139	456213	.	+	.	ID=Aragorn_22;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_22
sequence1	Aragorn:1.2.38	tRNA	456218	456293	.	+	.	ID=Aragorn_23;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_23
sequence1	Aragorn:1.2.38	tRNA	456304	456392	.	+	.	ID=Aragorn_24;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_24
sequence1	MetaGeneAnnotator	CDS	456748	456870	.	-	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYGIVSGFETFSKQDQKNATKTIDNYPNGSDIRKNTYDQ;locus_tag=LOCUS_06410;note=WP_011166753.1 hypothetical protein (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [456658:456660](-)%2C[456748:456750](-)%2C[457003:457005](-)%2C[457054:457056](-)%2C[457159:457161](-),MGA_641
sequence1	MetaGeneAnnotator	CDS	457243	457548	.	-	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLACSFVITTSASFAISCKTTDKQFQEFENLINQSENKTMILYLGASDNKSAKSFEQGLEELTKTNSLEQAIKNINETSTNDATSFIYKFKSNLS;locus_tag=LOCUS_06420;note=WP_011166753.1 hypothetical protein (Mycoplasma mycoides) [pid:94.1%25%2C q_cov:100.0%25%2C s_cov:29.6%25%2C Eval:2.0e-46%2C partial hit],internal stop codon at [457003:457005](-)%2C[457054:457056](-)%2C[457159:457161](-)%2C[457243:457245](-),MGA_642
sequence1	MetaGeneAnnotator	CDS	457721	457864	.	+	0	ID=MGA_643;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183279.1;translation=MREKYILRCTVCKNENYIGKNDKKKPKIEVSKYCSNCNKHETHKQKK;locus_tag=LOCUS_06430;gene=rpmG;note=WP_011183279.1 50S ribosomal protein L33 (Mesoplasma) [pid:89.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-20],MGA_643
sequence1	MetaGeneAnnotator	CDS	457924	458811	.	+	0	ID=MGA_644;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166745.1;translation=MIIQKTYKNNKPTVYLITTPIGNLEDISLRAIQTLKQVDVICCEDTRTSKVLLDKYQITNNLLSLHKFNENLRIEQIINLLNQNKNIAIISDAGVPIISDPASYIINQLKELEINCNITAIGAGSAYIHALISSGFLIDSHYFYGFLKNKNKISKQNELNQLINQYGDSIICLYESVHRLKDTITCLNQLLDKNHKIVIAKELTKINEEIIYGSIDQINQYINSEEFVLKGEFVIVINKKINNKTTTYSDIQLIDLIDQEIKNGYKLKQACEIINLKTKISKNVLYKLYTFKKKF;locus_tag=LOCUS_06440;gene=rsmI;EC_number=2.1.1.198;note=WP_011166745.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Mycoplasma mycoides) [pid:91.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-150],MGA_644
sequence1	MetaGeneAnnotator	CDS	458834	459235	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862802.1;translation=MKEINLENTKEIIGGAGVSGALINGIAKVVESGFEGVSNLITDIASVGFAFYQASKNPIKAEYKIGNNSFKIDNTKLVDLKIQQAKAQEIKIPVLEIGNNKNNIKINYNDAYNNDEQISNIYNDFDQNISIFN;locus_tag=LOCUS_06450;note=WP_020862802.1 hypothetical protein (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-66],MGA_645
sequence1	MetaGeneAnnotator	CDS	459380	459682	.	+	0	ID=MGA_646;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166743.1;translation=MFAIIKTGGKQVKVEPGQEIFIEKIKGEVNDKVTFDEILMIDGQIGTPTVVGAKVLGTIIKQGKAKKIRVIRYHPKKNVNKIYGHRQPYTKVKIDEISAK;locus_tag=LOCUS_06460;gene=rplU;note=WP_011166743.1 50S ribosomal protein L21 (Mycoplasma mycoides) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-48],MGA_646
sequence1	MetaGeneAnnotator	CDS	459685	459999	.	+	0	ID=MGA_647;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166742.1;translation=MVDIIINYKNNKIIQFQMKGHANSDEYGKDLVCAGLTAIVSGALNAIDSYYKNDVDIEVLKNKITIIVKQENNNNLQLMLDMLKIQIQTITIQYPKNARIKEVS;locus_tag=LOCUS_06470;note=WP_011166742.1 ribosomal-processing cysteine protease Prp (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-50],MGA_647
sequence1	MetaGeneAnnotator	CDS	460001	460282	.	+	0	ID=MGA_648;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362816.1;translation=MRFLLGLQYFASKKGVGSTKNGRDSESKRLGAKKSDGQFTNAGSIIYRQRGTKIHPGLNVGRGGDDTLFALIAGTVKYEKFGKNRTRVSVIPN;locus_tag=LOCUS_06480;gene=rpmA;note=WP_008362816.1 50S ribosomal protein L27 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-48],MGA_648
sequence1	MetaGeneAnnotator	CDS	460450	461337	.	+	0	ID=MGA_649;product=N-acetylneuraminate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166741.1;translation=MKNLKGVFAALLIPYKSDGSIDEQALEKFIDYNIEVSNVDGLYVNGSTGEAFLLSNSERKRILEIVAKHVNKRVPLIAQVGSLNIYESIEQAKLAEQLGYDAISAVTPFYYKFNLDQILNYYKEIKKSTSLPLIAYYIPILSGVNFSLEAFEKLFAINGIIGVKFTATDLYTLERIKAKFPDKLVFYGFDEQQLSASIYNIDGVIGSTFNVNAKKAKKLFELIKNGQNQQALELQKEINDFIEIVLANGLYAILKEIIRQHYDLNEVFCRLPMTQVISQYALKAKEIKDKYLTDI;locus_tag=LOCUS_06490;EC_number=4.1.3.3;note=WP_011166741.1 N-acetylneuraminate lyase (Mycoplasma mycoides) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.6e-163],MGA_649
sequence1	MetaGeneAnnotator	CDS	461768	461929	.	+	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILFHVIRVGLIIYLPTIALTAVTNINPYLIAVIIGIFCVISTVLGGLNGVI;locus_tag=LOCUS_06500;note=WP_011166740.1 sodium:solute symporter (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:9.1e-23%2C partial hit],internal stop codon at [461531:461533](+)%2C[461615:461617](+)%2C[461927:461929](+)%2C[462080:462082](+)%2C[462092:462094](+)%2C[462212:462214](+),MGA_650
sequence1	MetaGeneAnnotator	CDS	462260	462538	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTLLYAFYVQKTGLTSIDEIMKNIGINANNQILPYFIVTVLPVGISGLIIAGIYSASMSTISSSLHSAATCIVEDILIRIKPNLKDKQKMY;locus_tag=LOCUS_06510;note=WP_011166740.1 sodium:solute symporter (Mycoplasma mycoides) [pid:92.4%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:1.2e-41%2C partial hit],internal stop codon at [462080:462082](+)%2C[462092:462094](+)%2C[462212:462214](+)%2C[462536:462538](+),MGA_651
sequence1	MetaGeneAnnotator	CDS	462647	462961	.	+	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGTSVTVIYLLGIFTKRTSNTGAILGAISSFIIVFVIFIINKTTKIAISDFYGIILAFIIGLLVGYLSSFIFKNKKLNQLEGLTVHTFSKQDFNKMVEDGEKE;locus_tag=LOCUS_06520;note=WP_011166740.1 sodium:solute symporter (Mycoplasma mycoides) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:18.3%25%2C Eval:4.8e-48%2C partial hit],internal stop codon at [462536:462538](+)%2C[462959:462961](+),MGA_652
sequence1	MetaGeneAnnotator	CDS	463051	463500	.	+	0	ID=MGA_653;product=YhcH/YjgK/YiaL family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166739.1;translation=MIYDKISNLNRYLNLHKNIDFAINFILNNNLKELKDGINVISDTLFYNKFITNTIDINNAVFESHKKYLDLHILISGDEFIGHEFVDDLNEQVEYNLKDDVYLYKTKTKKTIYQNNQSFALFFPTDAHSPKIKANSDQINKVVFKILYD;locus_tag=LOCUS_06530;note=WP_011166739.1 YhcH/YjgK/YiaL family protein (Mycoplasma mycoides) [pid:91.1%25%2C q_cov:82.6%25%2C s_cov:92.5%25%2C Eval:2.6e-59],MGA_653
sequence1	MetaGeneAnnotator	CDS	463493	464017	.	+	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNIKKYLSIDIGGTSIKYGIFNENLNPLFTNSITTIPIKDELLKQIIDIIISSLPLDGISIATAGVVDKNGVIKFANQNIKDYSNFDLKTYIKDFLITYKNSVPIEIINDANSASYIEYVNNKTIKNSVTLTLGTGVGMGIILNGELFLANNGIAGEIGAIKNFDQYIDTDLS;locus_tag=LOCUS_06540;note=WP_011166738.1 ROK family protein (Mycoplasma mycoides) [pid:88.5%25%2C q_cov:100.0%25%2C s_cov:59.8%25%2C Eval:7.8e-81%2C partial hit],internal stop codon at [464015:464017](+)%2C[464075:464077](+),MGA_654
sequence1	MetaGeneAnnotator	CDS	464144	464368	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCTISYILSPQIIYLGGGFSYCSEQILELINNKFKKEFVFYDINPINIKYTSNKNDSGLLGVLHLLVDKHFKN;locus_tag=LOCUS_06550;note=WP_011166738.1 ROK family protein (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:25.4%25%2C Eval:1.5e-36%2C partial hit],internal stop codon at [464015:464017](+)%2C[464075:464077](+),MGA_655
sequence1	MetaGeneAnnotator	CDS	464427	464993	.	+	0	ID=MGA_656;product=N-acetylmannosamine-6-phosphate 2-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166737.1;translation=MNLIDQIKNTLIISCQAVDDEPLNDSYVLSKMCYALVLGGAKVLRLSQVEHIKKIKEVVNVPIIGLIKKHYDNSEVFITPTIKEVDQLVDLKVDIIALDATLRKRPDQDLTNLIKTIKTKYPNQLLMADCSNINDAINAQNLGFDLISTTLRGYTKDTLNHNNIENDYQFLKDLKKVITKPIIAEGGI;locus_tag=LOCUS_06560;note=WP_011166737.1 N-acetylmannosamine-6-phosphate 2-epimerase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:83.2%25%2C Eval:1.1e-102],internal stop codon at [464991:464993](+)%2C[465087:465089](+),MGA_656
sequence1	MetaGeneAnnotator	CDS	465263	465556	.	+	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDEKELISKYFDQALNETKKVVSIPSFLTEPTADAPYGKACKEVLDYVIDLANNLGFQTYKDKNNKYGFVDYGTGEKLFVILAHLDVVPPGNIEQ;locus_tag=LOCUS_06570;note=WP_020862797.1 M20 family metallopeptidase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:21.6%25%2C Eval:2.1e-51%2C partial hit],internal stop codon at [465554:465556](+)%2C[465734:465736](+)%2C[465827:465829](+),MGA_657
sequence1	MetaGeneAnnotator	CDS	466076	466612	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYENNVHHKITDYLATNVHLDFNLKNVFGDISDETGELTQNVGLIEIKNKNSRIGLNFRIPVFTNPTQIFIPTLTKYLEKINLSLEVKKIDNSLYVHQESDLIKKIMRVYQEVTQDYKAKPIAIGGGTYAKAMPNVVAFGAEFDIENSTMHAYNEYVKIDDLKKMLEIYTKAIVLLTE;locus_tag=LOCUS_06580;note=WP_020862797.1 M20 family metallopeptidase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:39.6%25%2C Eval:3.3e-98%2C partial hit],internal stop codon at [465827:465829](+)%2C[466037:466039](+)%2C[466061:466063](+),MGA_658
sequence1	MetaGeneAnnotator	CDS	466685	467125	.	+	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862796.1;translation=MMKKYLFNLLTIIYMFMIVIIANESFGYGHNAQLHLLGRINPAYGLAVSGIVLSSLLLVIPFLLTFVKQTRKVEKILFITNFVIFVITIVLLFLASIFFMVNKIGTIGSHIGIIVLYLTVVGIVCQNYSNIFKIKLNKKNKLNTDK;locus_tag=LOCUS_06590;note=WP_020862796.1 hypothetical protein (Mycoplasma mycoides) [pid:82.2%25%2C q_cov:88.4%25%2C s_cov:88.4%25%2C Eval:3.4e-53],MGA_659
sequence1	MetaGeneAnnotator	CDS	467149	467772	.	+	0	ID=MGA_660;product=uridine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166734.1;translation=MSKKVSIILIAGGSASGKTTIASKIANEILKDKSVEHISMDNYYKDFTNLSLEQRNHINFDHPNSIDIDLLIKDLKQLLKRHDIFVPTYDYKKHIRTNKEKLIKASDVIIVDGIFSLHFEKLRELGDIKIFVKTPDDLRFIRRLVRDIKERNRTIESVIDQYLTDVKPMHDLFIEQTIDYADIVIPFKKGNDVAIDIVASKIKDLLN;locus_tag=LOCUS_06600;gene=udk;EC_number=2.7.1.48;note=WP_011166734.1 uridine kinase (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-107],MGA_660
sequence1	MetaGeneAnnotator	CDS	467852	468109	.	-	0	ID=MGA_661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKEYHSLDKLEIPFNKIVYFKYKDDLNHDSSSTIKVNLEKYNLQNNKNKNISIIVLSIILPISLITIIAIIIIIIKNKNKKHIK;locus_tag=LOCUS_06610;note=WP_011166732.1 C1 family peptidase (Mycoplasma mycoides) [pid:91.9%25%2C q_cov:43.5%25%2C s_cov:4.0%25%2C Eval:4.5e-14%2C partial hit],internal stop codon at [468203:468205](-),MGA_661
sequence1	MetaGeneAnnotator	CDS	468203	468868	.	-	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLKYVYINKNGEEEDLLFDQSKNKYYISYEIINSLKTNVLDLNYIGNKHKTNNQTYNTPIIIKPVFEEKEPTLIINNIKKYYLINQKINDEFDIKIIDNNQIKHIKPNVKIKNINNQYIDTIKYNDNKIILEFKYNNKTYNLDFNINPVKRIINIKPKLENTFIYDTNYHKLEFDTPIDKNIIKITNNEHINSGNYITTLEIIDNNYVFNNNKNKLEFK;locus_tag=LOCUS_06620;note=WP_011166732.1 C1 family peptidase (Mycoplasma mycoides) [pid:86.9%25%2C q_cov:100.0%25%2C s_cov:24.2%25%2C Eval:4.5e-110%2C partial hit],internal stop codon at [468203:468205](-),MGA_662
sequence1	MetaGeneAnnotator	CDS	470357	470590	.	-	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTNKKIILLLQSIIIFVVIFFIFLKTNQNINITYVNKMITNTSNNTNLSKENRSYYSLRDDYILFNQYQYNTGLC;locus_tag=LOCUS_06630;note=WP_011166732.1 C1 family peptidase (Mycoplasma mycoides) [pid:84.4%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:5.3e-31%2C partial hit],internal stop codon at [470129:470131](-)%2C[470237:470239](-)%2C[470357:470359](-),MGA_663
sequence1	MetaGeneAnnotator	CDS	470738	471001	.	+	0	ID=MGA_664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKTIIHIDMDAFFASCMQLKHPELKNKPIVISNSFDKSIISTASYEARKYNIKAAMPLFKAKKLYPQIISVKPDMIFINNISHQI;locus_tag=LOCUS_06640;note=WP_011166731.1 DNA polymerase IV (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:21.6%25%2C Eval:1.6e-43%2C partial hit],internal stop codon at [470999:471001](+)%2C[471260:471262](+),MGA_664
sequence1	MetaGeneAnnotator	CDS	471077	471262	.	+	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNTNVLILAKNIQKDIYDQFNLTCSIGIGFNRFSAKMSTSLHKPNGITLTTTSNFKDNI;locus_tag=LOCUS_06650;note=WP_011166731.1 DNA polymerase IV (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:15.2%25%2C Eval:6.2e-27%2C partial hit],internal stop codon at [470999:471001](+)%2C[471260:471262](+),MGA_665
sequence1	MetaGeneAnnotator	CDS	471281	471814	.	+	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGFGQSAAKLLNNTKIKTIKDLALLSDVEVYQLLNKKGLALKSEALGLGSDYINYLSNDYKSISKETTLNTPIYQYDEIETIILNLSKFISYKLHKNQLLCKTIEIKIRYKIDEKLFDKQKNLTSRHKQITLKNHTNDFEKIYNSALDCFYSLYDQNKGILLIGVGVSKLIHKNQN;locus_tag=LOCUS_06660;note=WP_011166731.1 DNA polymerase IV (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:44.0%25%2C Eval:2.6e-95%2C partial hit],internal stop codon at [470999:471001](+)%2C[471260:471262](+)%2C[471812:471814](+),MGA_666
sequence1	MetaGeneAnnotator	CDS	472297	473073	.	-	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSCLGCGSLLQTINKFEQGYVNDTEHAYCLRCFKIKNYNQLVDSEINDQQFINKISTLVNENKNNDLVFYYVLDVFDLFGSRILEIENLIKDFKVILVVNKIDLLPKSIKLEKIRNYINNVFKTSCLKNLEIFLTSANKINLVEPLLNKVIKNNKNQQYFIGASNVGKSSLINKMLEINQLIPSIVVSKYFNTTLDFIEIQLDTNTTIFDSAGVSRKNSIANLMNKRFQSYCYFKKEIQQFTYQLTPNNSIFFSGVC;locus_tag=LOCUS_06670;note=WP_011166730.1 ribosome biogenesis GTPase YqeH (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:70.3%25%2C Eval:3.1e-143%2C partial hit],internal stop codon at [472066:472068](-)%2C[472096:472098](-)%2C[472192:472194](-)%2C[472297:472299](-),MGA_667
sequence1	MetaGeneAnnotator	CDS	474078	474296	.	+	0	ID=MGA_668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKELTVSQFFLVTVQQHLINNLLEENKKKSSKNKTTKSKIKVYTKTNITSLIDKYPLRFQEMIYDLFDINN;locus_tag=LOCUS_06680;note=WP_011166728.1 hypothetical protein (Mycoplasma mycoides) [pid:75.0%25%2C q_cov:83.3%25%2C s_cov:31.1%25%2C Eval:3.1e-18%2C partial hit],internal stop codon at [474294:474296](+),MGA_668
sequence1	MetaGeneAnnotator	CDS	474348	474887	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPPSLITSQNNPENLEIVEQLKELVNLMTSINLLSLTYESLDDIEYLFPKLGENELIKNVNTEDISYLFDNLLNKLIESVKEEYLKYFDEDQQDILLLFDSIKSTNISLVKKTLLDKLFKYFENKKIEFSDSFMSDFLYGNPEKLIAGYRIVRNLIRIDFLISLSDFILLYMAEIIKK;locus_tag=LOCUS_06690;note=WP_011166728.1 hypothetical protein (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:63.1%25%2C s_cov:58.5%25%2C Eval:5.5e-56%2C partial hit],internal stop codon at [474294:474296](+),MGA_669
sequence1	MetaGeneAnnotator	CDS	474903	475172	.	-	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSKALPRAHADGIVNEYSFIKFLVSKQTEKILGCFMMIENANILINQIGLFMQQKLSFSTLQKTVYTHPTIGGALYYASRVKGIKTN;locus_tag=LOCUS_06700;note=WP_011166726.1 dihydrolipoyl dehydrogenase (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:19.7%25%2C Eval:4.6e-43%2C partial hit],internal stop codon at [475257:475259](-),MGA_670
sequence1	MetaGeneAnnotator	CDS	475257	476261	.	-	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKFDVVVLGAGPGGYSLANILSLNNKKVALIEKEDLGGTCINKGCVPTKTLIKSAKVFELVKNSEKFGINADNISFDFKKMQQRRLDNKKFFNNSIKNQIELNQISFFKGVGEVLDKNSIKINDQIISFDKLVLATGTRAKIINLEGLEQSQKNGYLLDSDQALFLENVPSSLTIIGDGPISLEFAYLYNTLGSKVTILTNTNFLLRFDIDIQKGVKQYFNEKQIKVIENANIKKIDNNKVFYNDSFIESEKILLAVGRVPNNESFINLDIKKDKNGFVIVDEFMKTNFDNIYAIGDITGLTLLSSVAYKTGDIVARNILKTNHEKFDKNLVT;locus_tag=LOCUS_06710;note=WP_011166726.1 dihydrolipoyl dehydrogenase (Mycoplasma mycoides) [pid:94.0%25%2C q_cov:100.0%25%2C s_cov:73.9%25%2C Eval:6.9e-176%2C partial hit],internal stop codon at [475257:475259](-),MGA_671
sequence1	MetaGeneAnnotator	CDS	476338	476784	.	-	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEYNLEDMSKIVELYCNKFQIKLDQDIYLYLASFCRKTPRIAINLIKRIKDHIICDNPKIIDINYIKKVLEKLEIYELGLTITEINYLKMIAKNKRIGLDNIAHLLNTTPLIIANNIEPFLIRESLIIRTIKGREITYKGLKYIQNF;locus_tag=LOCUS_06720;note=WP_011166725.1 Holliday junction branch migration DNA helicase RuvB (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:48.2%25%2C Eval:4.1e-78%2C partial hit],MGA_672
sequence1	MetaGeneAnnotator	CDS	477278	477838	.	-	0	ID=MGA_673;product=helix-hairpin-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166724.1;translation=MNDYINGLLHKIDDKYLYIESNNSGYRFLYLKSDLKDLKLNQNNQVYVAINVIDNVFKYYGFKNQLIRDLFELLININTIGEKTAFLILENYNYNELIDIFKNGRTDKILQLKGIGSYTARLIINSVQKELFNNKISDKKNKVITSLEKLGYKTKDIYKIIISIDENMSIEDLTKYVLEQLSYLYN;locus_tag=LOCUS_06730;note=WP_011166724.1 helix-hairpin-helix domain-containing protein (Mycoplasma mycoides) [pid:93.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-94],MGA_673
sequence1	MetaGeneAnnotator	CDS	477947	478111	.	-	0	ID=MGA_674;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362785.1;translation=MASVIVHDGETIEKALKRFQKVASSNKAEARKREYHLSKKEKRIYKQKQNRKYK;locus_tag=LOCUS_06740;gene=rpsU;note=WP_008362785.1 30S ribosomal protein S21 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-24],MGA_674
sequence1	MetaGeneAnnotator	CDS	478419	478850	.	+	0	ID=MGA_675;product=lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166722.1;translation=MKKLLTILSSFGLIATTGASVVACKNDQSNSLSSSEEENKNLGSAPIEEKKEENTDINKEKEKFKNQIAVLTEKEKQAENLLETIKKGVEKVNNLSNEDKEKQKHNLETLNTQKREVEKQLETIKVTKKDLELKLNKLESNNS;locus_tag=LOCUS_06750;note=WP_011166722.1 lipoprotein (Mycoplasma mycoides) [pid:43.5%25%2C q_cov:88.8%25%2C s_cov:88.8%25%2C Eval:4.5e-23],MGA_675
sequence1	MetaGeneAnnotator	CDS	479152	479586	.	+	0	ID=MGA_676;product=lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166722.1;translation=MKKLLTILSSFGLIATTGASVVACKNDQPNSLQPKEEENEGLTSSGEENTNSNKEKEKEAEKAKLKSQITVLEGEVKRAEKLLKDIEQGIQTVEKQKEPEKFKENLEKLKALKPEIEKQLETAKVTKNELETRLRALESDVSTS;locus_tag=LOCUS_06760;note=WP_011166722.1 lipoprotein (Mycoplasma mycoides) [pid:40.1%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:9.9e-26],MGA_676
sequence1	MetaGeneAnnotator	CDS	480004	480441	.	+	0	ID=MGA_677;product=lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166722.1;translation=MKKLITILSSFGLVITTGTTAVACKNNQPSSLKPTTEDQNTSLTSTPENNGLENTDSIQNKEEELTKVRAQLAQLEDAEQKAKKILGQIDEGNKKANETSEKEKIKNDVEKLNAQKLEVENALKKIKEIKQQLESKLKTLEGKNN;locus_tag=LOCUS_06770;note=WP_011166722.1 lipoprotein (Mycoplasma mycoides) [pid:54.7%25%2C q_cov:97.2%25%2C s_cov:95.5%25%2C Eval:7.0e-43],MGA_677
sequence1	MetaGeneAnnotator	CDS	481174	481461	.	-	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVIKKLVVKLKILVKMNKIVNVKNKINVLIIYVVKKINVVKIILVKIKTVFKTNAVKNLITTILVKIKNVMKIILVLLKNAKLISVVQKINVV;locus_tag=LOCUS_06780;note=MGA_678
sequence1	MetaGeneAnnotator	CDS	482393	482572	.	-	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKEVKQYLTDVLINKIDYYVSIKKFDFDTIKEMLAIDLIDYEPYMIQTIDKYIKYII;locus_tag=LOCUS_06790;note=WP_011166721.1 hypothetical protein (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:9.5%25%2C Eval:2.6e-25%2C partial hit],internal stop codon at [482231:482233](-)%2C[482393:482395](-),MGA_679
sequence1	MetaGeneAnnotator	CDS	482724	483188	.	+	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFSYFLIILIFFTSLFFINNKNQNQVNLTYNTQFNDDDNNETNKNSIKEFLWGGKALRYFLYKNSTAQTNKSFNQFTDNLLANFERVFEKRTKRNFYKQQYITELQSEEFKHAILSSILVTSAYGSTSPEEFFAESFSRYVSANEKQKNLT;locus_tag=LOCUS_06800;note=WP_011166719.1 hypothetical protein (Mycoplasma mycoides) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:50.8%25%2C Eval:4.2e-79%2C partial hit],internal stop codon at [483186:483188](+)%2C[483279:483281](+),MGA_680
sequence1	MetaGeneAnnotator	CDS	484375	484959	.	+	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166717.1;translation=MENKINHKTYKSLKYLLTISSVILAICLLLVFVQFTKAKPLFISLTPFISLLVILLILSFTCLLVYIIYRMKILKTSNYKYIKKEIIYLYTSFSLYIFSFILTVIYLIIALLIKNSESIRIMFYVVISIFFICIILSSVFETLSRLKEQILLYKQQYQFQQELKLNKETDNKEQINKEVINNNNNQSKNPFIED;locus_tag=LOCUS_06810;note=WP_011166717.1 hypothetical protein (Mycoplasma mycoides) [pid:86.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-85],MGA_681
sequence1	MetaGeneAnnotator	CDS	485082	485204	.	-	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAQIYLKDKNIDNFIYPYEFLDFTTPYIGNSKIGYLILI;locus_tag=LOCUS_06820;note=WP_011166716.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:14.9%25%2C Eval:3.3e-17%2C partial hit],internal stop codon at [485064:485066](-)%2C[485082:485084](-)%2C[485244:485246](-)%2C[485433:485435](-)%2C[485460:485462](-),MGA_682
sequence1	MetaGeneAnnotator	CDS	485460	485705	.	-	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSGITLINAFFNGILKEQWYFESNNLYQPTRLINYDILLSFFSVQVSIITTIYLLIVVINYKNPNSNINTQRTRNIILN;locus_tag=LOCUS_06830;note=WP_011166716.1 hypothetical protein (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:30.1%25%2C Eval:6.8e-39%2C partial hit],internal stop codon at [485244:485246](-)%2C[485433:485435](-)%2C[485460:485462](-)%2C[485724:485726](-)%2C[485730:485732](-)%2C[485766:485768](-),MGA_683
sequence1	MetaGeneAnnotator	CDS	485874	486011	.	+	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKNAKIVLEDKIINNGYLIIKDKKIVEIGSDYKKKNGIDLNNQ;locus_tag=LOCUS_06840;note=WP_011166715.1 N-acetylglucosamine-6-phosphate deacetylase (Mycoplasma mycoides) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:8.7e-18%2C partial hit],internal stop codon at [486009:486011](+),MGA_684
sequence1	MetaGeneAnnotator	CDS	486363	487031	.	+	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYASELDNGSYLQFLINNQIIPSIGHSNLKANQFEQVYLLGVRHITHLFNAMSGVDQHNPGLVVASFNHKDVLCEIISDGIHLDKEILKMIYNFKTADNLCIITDAMNAKGLDDGIYKLGDLEVYKKGIEIRLTNNNALAGAGATYDHNIRVIKQVCDVKMTDLIKMTSINIAKQLNIFDTVGSIEVNKLADLVVLDDDLYVNKVLVEGKIVFKNSKNKKI;locus_tag=LOCUS_06850;note=WP_011166715.1 N-acetylglucosamine-6-phosphate deacetylase (Mycoplasma mycoides) [pid:86.5%25%2C q_cov:100.0%25%2C s_cov:57.7%25%2C Eval:4.7e-107%2C partial hit],internal stop codon at [486330:486332](+),MGA_685
sequence1	MetaGeneAnnotator	CDS	487083	487643	.	+	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTANKVVLIGAGAVGTSFLYAAINQGIAEHYVLIDAFPQPAEGNALDLSDTLAVIPHSFTSIKAGTYEDCKDADVVVITAGRPQKPGETRLEMVAGNAEIMKNIATEVKKSGFDGITVIASNPVDVITHVYQKVTGFDPHKVIGSGTTLDSARLRRLVGQKLNIKPESVQAYVAGEHGDSSVAI;locus_tag=LOCUS_06860;note=WP_011166714.1 L-lactate dehydrogenase (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:58.5%25%2C Eval:5.1e-100%2C partial hit],internal stop codon at [487641:487643](+)%2C[487929:487931](+),MGA_686
sequence1	MetaGeneAnnotator	CDS	487659	487931	.	+	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRPILDYVKCGCLTLEDLDQIQKDTVDMAYKIINLKRATFYGIGACLTKIVNAVLRDEKSTLMVGAQLNGEYKNKDLYTGVPAIIGANG;locus_tag=LOCUS_06870;note=WP_011166714.1 L-lactate dehydrogenase (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:28.3%25%2C Eval:2.6e-46%2C partial hit],internal stop codon at [487641:487643](+)%2C[487929:487931](+)%2C[487947:487949](+),MGA_687
sequence1	MetaGeneAnnotator	CDS	488291	488515	.	-	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLSIICSSIGVIIGSLAKDYKIANAFSMLFYLPPAFLSGMYLPIKVIIGSNVLKIISLFLPYTYPVTIINYG;locus_tag=LOCUS_06880;note=MGA_688
sequence1	MetaGeneAnnotator	CDS	488654	488827	.	-	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLAILSKVPSFNIDDLIPGIIASACPVVGIISLSISFSDLKQTIIYKRITVLPLKP;locus_tag=LOCUS_06890;note=MGA_689
sequence1	MetaGeneAnnotator	CDS	488920	489639	.	-	0	ID=MGA_690;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183542.1;translation=MSLIEVKNVSKKYNKKTVLGPINLKINKGESVAIFGANGAGKTTLCEIIANTKSQSSGEVLYDFKKEEIAFKIGINFQSQTYPNFINVKELLDFYKTLYKNIIDKTYFDQMINKFKLKELFKQKISSLSGGQRQRVNLFVSLFNKPEIYIGDEITTGLDIKAQLEIIDLLKKEIKDKEMTLILVSHNLDEIKQLCDRIVFLDKGKIIDDAPIEKILNQYGTLLEYYLSKTNDLNKGEMQ;locus_tag=LOCUS_06900;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:37.4%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:6.6e-41],MGA_690
sequence1	MetaGeneAnnotator	CDS	490236	490388	.	-	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKITAKILYEKTMASFVDNAGRFLDDEYKIQLEKHNLEYDEISRRANED;locus_tag=LOCUS_06910;note=MGA_691
sequence1	MetaGeneAnnotator	CDS	490425	490859	.	-	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSLTLIASGGALVVACNRSQPNNNEKKPDSVNPPANDPSKEPKDGNKPGDKDGKTPEENTEPKTPEKDPTKKPKDDDKSKDKDEKTPGENTTPKKPETPKTPEKKPVKKPVRNAALASANDTQLLFDETISEATRS;locus_tag=LOCUS_06920;note=MGA_692
sequence1	MetaGeneAnnotator	CDS	491123	491293	.	+	0	ID=MGA_693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILTSTSAIFLITAGIVLVNKEDNLRINYNITYYQRNEIKDGKLVKIGYYQ;locus_tag=LOCUS_06930;note=WP_011166978.1 Myrrcad domain-containing protein (Mycoplasma mycoides) [pid:53.3%25%2C q_cov:98.2%25%2C s_cov:12.5%25%2C Eval:2.8e-08%2C partial hit],internal stop codon at [491291:491293](+)%2C[491411:491413](+)%2C[491423:491425](+)%2C[491501:491503](+)%2C[491576:491578](+),MGA_693
sequence1	MetaGeneAnnotator	CDS	491635	491832	.	-	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLVISEVSGVLGDVCFGEEFKFVVVSLFLTANVSSSFFHFGCFSSFKPKLSFFTLLDNSQLDKS;locus_tag=LOCUS_06940;note=MGA_694
sequence1	MetaGeneAnnotator	CDS	491934	492239	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSDQSNQTEPLIKPESIIENETIEESTDLKDNISSKSNNEKNLIIPHAKSSLKNVSNQKTKAIVSGVVGSTAVITTTSVAGFSYYYRKNLKDLFLKLKKR;locus_tag=LOCUS_06950;note=MGA_695
sequence1	MetaGeneAnnotator	CDS	492584	492793	.	-	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGGTISLAYQLAPELFNKLVYVCPMNKASEDVNNNFLHDYFPKTFEEFTTDFLGSLYYDPSFLTKDPK;locus_tag=LOCUS_06960;note=WP_011166713.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:25.9%25%2C Eval:1.3e-34%2C partial hit],internal stop codon at [492317:492319](-)%2C[492356:492358](-)%2C[492566:492568](-)%2C[492584:492586](-)%2C[492947:492949](-),MGA_696
sequence1	MetaGeneAnnotator	CDS	493159	493380	.	-	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAKQNFNPEMYDNDLIIKLGTPKAKTFELIEKGLDSITIPTLLILGEKDGVILRDECLDYFKKHVKNVESH;locus_tag=LOCUS_06970;note=WP_011166712.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:90.4%25%2C q_cov:100.0%25%2C s_cov:27.8%25%2C Eval:2.2e-32%2C partial hit],internal stop codon at [492947:492949](-)%2C[493159:493161](-)%2C[493381:493383](-),MGA_697
sequence1	MetaGeneAnnotator	CDS	493381	493590	.	-	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGGTLAIAYKMRPDLFKKLIFITPMNKTQLPLYPRYKIDYFPKTFDDYINNTLTSLYYDPSFLTSNKE;locus_tag=LOCUS_06980;note=WP_011166712.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:82.6%25%2C q_cov:100.0%25%2C s_cov:26.2%25%2C Eval:2.4e-28%2C partial hit],internal stop codon at [493159:493161](-)%2C[493381:493383](-)%2C[493744:493746](-),MGA_698
sequence1	MetaGeneAnnotator	CDS	493958	494179	.	-	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQAKQEFDPYVYNNDVIVELGEPKDHTFELIEQGLDAIKIPSLLILGEKDGVILRDECLDYFKQHVKSVEMH;locus_tag=LOCUS_06990;note=WP_011166712.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:71.2%25%2C q_cov:100.0%25%2C s_cov:27.8%25%2C Eval:5.7e-25%2C partial hit],internal stop codon at [493744:493746](-)%2C[493958:493960](-)%2C[494180:494182](-),MGA_699
sequence1	MetaGeneAnnotator	CDS	494180	494389	.	-	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGGVISIAYKMRPDLFKKLIFITPMNKPQRALYEQYKIDYFPKTFDEYINNTLSSLYYDPSILTSNQE;locus_tag=LOCUS_07000;note=WP_011166712.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:26.2%25%2C Eval:3.3e-33%2C partial hit],internal stop codon at [493958:493960](-)%2C[494180:494182](-)%2C[494543:494545](-),MGA_700
sequence1	MetaGeneAnnotator	CDS	494737	495078	.	+	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLFSYFKNSLIFVYKNKFTIKVMIYIKYKLNLLRKVNMKKVIKFLVIEKIDDKNEYYLRMTSEMQDDIGTVSYLQFKNTDKKHLKEDDIFLALEASKAILNLKMPLDATVVK;locus_tag=LOCUS_07010;note=WP_020862773.1 glycine cleavage system protein H (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:66.4%25%2C s_cov:65.8%25%2C Eval:5.5e-36%2C partial hit],internal stop codon at [495076:495078](+)%2C[495136:495138](+),MGA_701
sequence1	MetaGeneAnnotator	CDS	495197	495400	.	+	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNLSIKKLDDLINQNDSLIIAIGSEIYQTNKQLEFENNFSDFIKEFCFIDFKQASVYPFLDIKNY;locus_tag=LOCUS_07020;note=WP_011166710.1 deacetylase SIR2 (Mycoplasma mycoides) [pid:86.6%25%2C q_cov:100.0%25%2C s_cov:23.5%25%2C Eval:2.7e-27%2C partial hit],internal stop codon at [495398:495400](+),MGA_702
sequence1	MetaGeneAnnotator	CDS	495893	496054	.	+	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEQFNKATYLAMNKKIYRIPLEIRSKSITYTNDLNLAIKNLEEVKNGTNRTN;locus_tag=LOCUS_07030;note=WP_011166710.1 deacetylase SIR2 (Mycoplasma mycoides) [pid:88.7%25%2C q_cov:100.0%25%2C s_cov:18.6%25%2C Eval:3.8e-21%2C partial hit],internal stop codon at [495740:495742](+)%2C[495836:495838](+)%2C[495887:495889](+),MGA_703
sequence1	MetaGeneAnnotator	CDS	496173	496736	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYFQNPEVEVNFKYLKEKNLEIVRRATGGGTIYIDSNSVNICYLIPYKKGTEILGNYAKFYEPTIRILKELGAKNITQSGKNDLTIDGKKVSGAAMMLLDDVIYGGNSLLYNVDYDAMSQVLNPNRKKIEAKGVKSVSQRVAALSQYLDEPYRNLDIFEFKDLMIKKIFNVDDLKDVNRYIMTDKD;locus_tag=LOCUS_07040;note=WP_011166709.1 lipoate--protein ligase (Mycoplasma mycoides) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:54.2%25%2C Eval:2.9e-103%2C partial hit],internal stop codon at [496086:496088](+)%2C[496104:496106](+)%2C[496734:496736](+)%2C[496776:496778](+)%2C[496782:496784](+),MGA_704
sequence1	MetaGeneAnnotator	CDS	497069	497866	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYQKLFEPFEINGFKLENRFVLSPMTLSLATLDGKITTQEADYVKRRAHSAPLQITGGVYFDEFGQLFEYGISAKSDDDIPSLSSLYQAMKTDSNCVILQLAHAGKFSKTSLKKYGYLYGPSYEKNHTPIEHEVLELSKERIKQIIKDYKDATLRVIKAGFNGVEISMAQRLLMQTFFSQIINKRTDEYSTTTFENRSRFCLEVVKAIREVIDKHAPKNFIFGFRATPEETYGDILGYTIEDFIQLVDKIIEIGKISYLAIAS;locus_tag=LOCUS_07050;note=WP_011166708.1 NADH-dependent flavin oxidoreductase (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:67.6%25%2C Eval:1.5e-145%2C partial hit],internal stop codon at [497864:497866](+),MGA_705
sequence1	MetaGeneAnnotator	CDS	498497	498754	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVGLSGFVGVIGLVESVGFESVGFNDSSGFIGWSGLFGFIGSTGLFGVELCGVITGYKNQSSSLLNVDRSTALFGLIGVCGVFG;locus_tag=LOCUS_07060;note=MGA_706
sequence1	MetaGeneAnnotator	CDS	499303	499431	.	-	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKMFKNAKVFNNNISNFDIKNVKYFNNMFENASAFNQDLSK;locus_tag=LOCUS_07070;note=WP_011166707.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:8.6%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [499225:499227](-)%2C[499237:499239](-)%2C[499303:499305](-)%2C[499453:499455](-)%2C[499528:499530](-)%2C[499627:499629](-)%2C[499702:499704](-),MGA_707
sequence1	MetaGeneAnnotator	CDS	500077	500202	.	-	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKMFLNAKEFNSKIFNKVDNVTDMSSMFLNAIAFDQDLSS;locus_tag=LOCUS_07080;note=WP_011166707.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:4.1e-15%2C partial hit],internal stop codon at [499852:499854](-)%2C[499927:499929](-)%2C[500002:500004](-)%2C[500077:500079](-)%2C[500224:500226](-)%2C[500299:500301](-),MGA_708
sequence1	MetaGeneAnnotator	CDS	501058	501177	.	-	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNGATSFNKDISNFDVKGVVDFTDMFKNATSFNKNLSN;locus_tag=LOCUS_07090;note=WP_011166706.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:7.6%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [500800:500802](-)%2C[501007:501009](-)%2C[501058:501060](-)%2C[501208:501210](-)%2C[501283:501285](-)%2C[501394:501396](-),MGA_709
sequence1	MetaGeneAnnotator	CDS	501389	501667	.	+	0	ID=MGA_710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQVEIFPLNLVASKNIKLISVTFLVFHCSKSWLNFFAPSNIDSIISTFDVSQFLTLWSLNSFASLNNSFNEVISLGKSLGTEATPFGSLIA;locus_tag=LOCUS_07100;note=MGA_710
sequence1	MetaGeneAnnotator	CDS	502042	502203	.	-	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFYMKKLLALLTVSTLLVVPTSSSFLINKVSNISANYYAENNDQIETKINEI;locus_tag=LOCUS_07110;note=WP_013447753.1 hypothetical protein (Mycoplasma leachii) [pid:81.1%25%2C q_cov:69.8%25%2C s_cov:27.0%25%2C Eval:8.0e-11%2C partial hit],internal stop codon at [501994:501996](-)%2C[502042:502044](-),MGA_711
sequence1	MetaGeneAnnotator	CDS	502384	502716	.	-	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLRSVVNKNTYDDLKKRVEQLEKKLKATQDISKEPEYFNLNMLRSSLLSLNSLLKLEDGKIISKAVVTDDKTAQIIGHISKALINQTERQGYSTTNAEDLVKQFEQIVN;locus_tag=LOCUS_07120;note=WP_011166703.1 hypothetical protein (Mycoplasma mycoides) [pid:47.7%25%2C q_cov:99.1%25%2C s_cov:17.5%25%2C Eval:6.8e-23%2C partial hit],internal stop codon at [502747:502749](-)%2C[502795:502797](-),MGA_712
sequence1	MetaGeneAnnotator	CDS	502795	502959	.	-	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSQITPLITKSNTSSNSTTTNNNPGIFHEGGSSIIPINVGNEKLNTGTKKFLK;locus_tag=LOCUS_07130;note=WP_011166703.1 hypothetical protein (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:8.7%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [502747:502749](-)%2C[502795:502797](-)%2C[503119:503121](-)%2C[503128:503130](-)%2C[503227:503229](-)%2C[503236:503238](-),MGA_713
sequence1	MetaGeneAnnotator	CDS	503605	503973	.	-	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METGNTKALPNIILGAQSGAYVINQGQKLLDVSDQGINKELFSKEIGNLHSILAGQSDTNKLYNIPFDNADIDGVQYNLKLMKKMFDLIKEGGGKVEENIEIYKKAKESESGKGNPIPEKSI;locus_tag=LOCUS_07140;note=WP_011166703.1 hypothetical protein (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:19.8%25%2C Eval:3.3e-41%2C partial hit],internal stop codon at [503605:503607](-)%2C[504151:504153](-),MGA_714
sequence1	MetaGeneAnnotator	CDS	504151	504276	.	-	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKLLGLSAMALTMTTPFIAIACTTTKSDRVLFSLAQGSG;locus_tag=LOCUS_07150;note=WP_011166703.1 hypothetical protein (Mycoplasma mycoides) [pid:82.9%25%2C q_cov:100.0%25%2C s_cov:6.6%25%2C Eval:8.5e-13%2C partial hit],internal stop codon at [504151:504153](-),MGA_715
sequence1	MetaGeneAnnotator	CDS	504681	504920	.	-	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPVYQKAFLYFFIIISLIPEFSIFLSLKFVLLQINLYTTPIAYVTNAIFSFFNFTYIFNLAKSIETEKSKVMINDNLK;locus_tag=LOCUS_07160;note=WP_011166702.1 ABC transporter permease subunit (Mycoplasma mycoides) [pid:86.1%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:1.6e-32%2C partial hit],internal stop codon at [504537:504539](-)%2C[504582:504584](-)%2C[504597:504599](-)%2C[504681:504683](-)%2C[504996:504998](-)%2C[505053:505055](-),MGA_716
sequence1	MetaGeneAnnotator	CDS	505372	505575	.	-	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNDKLTLLQSFRYVYLNELSKVLFSILFTNFIFACLLLPSALLEDNFNVDLNYAHTLTSYTIKYFG;locus_tag=LOCUS_07170;note=WP_020862766.1 sugar ABC transporter permease (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:1.1e-31%2C partial hit],internal stop codon at [505354:505356](-)%2C[505372:505374](-)%2C[505648:505650](-)%2C[505675:505677](-),MGA_717
sequence1	MetaGeneAnnotator	CDS	505675	506214	.	-	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIVFMNKFLLKFKQKDSFNLKLKLKNSLPVLKIVLLMLPLLLLILLFTIIPIFHTFIKSLRFTPNEANRTIYEYNFKNYNNILSDPNFQHAILNSTFVLLFGTGISIILALIFSFIINSLISRTTKSILLSVIYSQFFISGFAIGIAFTNFFGAKNLFFYILGLNQYSFTSGNKRLPI;locus_tag=LOCUS_07180;note=WP_020862766.1 sugar ABC transporter permease (Mycoplasma mycoides) [pid:79.3%25%2C q_cov:97.2%25%2C s_cov:51.6%25%2C Eval:1.7e-70%2C partial hit],internal stop codon at [505648:505650](-)%2C[505675:505677](-),MGA_718
sequence1	MetaGeneAnnotator	CDS	506303	506617	.	-	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIVTHDQQDALKISDQIILLDKGKIQQFSSGEQMYNDPNNLFVAKFIGSPEINFIKTQDDKSYYIRHNKIKVKPNLNGKYQIIDKKSFGDKVHYLINFDKDIK;locus_tag=LOCUS_07190;note=WP_011166700.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:25.6%25%2C Eval:2.9e-53%2C partial hit],internal stop codon at [506303:506305](-)%2C[506651:506653](-),MGA_719
sequence1	MetaGeneAnnotator	CDS	506651	507061	.	-	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYFEKFLNNKELFSKKLIDQFETYKDLINDLNSKTKTKKQAFLKLVFLCLFEKQVKHKFKFLKEIKLKNLFKNEIELISKKLGIDQLLYKNVNQLSGGQKQRVAFAKGIIKKTNLVLLDEPFSALDAKIKESTID;locus_tag=LOCUS_07200;note=WP_011166700.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:33.5%25%2C Eval:1.7e-69%2C partial hit],internal stop codon at [506651:506653](-)%2C[507077:507079](-),MGA_720
sequence1	MetaGeneAnnotator	CDS	507077	507412	.	-	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKPKPNNDNVLIEINDLRFKYHKKQSNYDLLIDHLQIQKNQIISLLGPSGSGKTTLLNLLLGYIKPDKGSIHILNNPKIHEVAYIMQENSVYENTTVFNNVFLSAKNYSK;locus_tag=LOCUS_07210;note=WP_011166700.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:27.3%25%2C Eval:1.8e-58%2C partial hit],internal stop codon at [507077:507079](-),MGA_721
sequence1	MetaGeneAnnotator	CDS	507790	508017	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKVTKFFGSIPEFFKRNYVLLILALADVAIMAIPFYMDNFIPNMNANFRLAQSDYSQAGAIYGYVSLPCYILGA;locus_tag=LOCUS_07220;note=WP_013447758.1 hypothetical protein (Mycoplasma leachii) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:14.9%25%2C Eval:1.9e-36%2C partial hit],internal stop codon at [508015:508017](+)%2C[508225:508227](+)%2C[508237:508239](+),MGA_722
sequence1	MetaGeneAnnotator	CDS	508045	508227	.	+	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVLGIVITGVLGVWYVILPFVPLLAGNTEHVLQGTFRNLMVVQLCIIFAGFAFATCALF;locus_tag=LOCUS_07230;note=WP_013447758.1 hypothetical protein (Mycoplasma leachii) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:3.1e-26%2C partial hit],internal stop codon at [508015:508017](+)%2C[508225:508227](+)%2C[508237:508239](+),MGA_723
sequence1	MetaGeneAnnotator	CDS	508324	508668	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNGLIGLAIALFGTLLLELQNHEILGKVGGENGVSIGFLILISLYAGFIILSALLALFLIKEPKLQEPPSFSVKALISVVKDKTVILLAILVLGVYMLQMGLSSYVNYLKNVF;locus_tag=LOCUS_07240;note=WP_013447758.1 hypothetical protein (Mycoplasma leachii) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:22.6%25%2C Eval:1.5e-54%2C partial hit],internal stop codon at [508225:508227](+)%2C[508237:508239](+)%2C[508666:508668](+)%2C[508738:508740](+)%2C[508954:508956](+),MGA_724
sequence1	MetaGeneAnnotator	CDS	508807	508956	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLVGVGIILPGFGLDNITNDTDPNLKKASTIILQVAAGLNLVVMGAVT;locus_tag=LOCUS_07250;note=WP_013447758.1 hypothetical protein (Mycoplasma leachii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:9.7%25%2C Eval:3.3e-20%2C partial hit],internal stop codon at [508666:508668](+)%2C[508738:508740](+)%2C[508954:508956](+)%2C[508975:508977](+),MGA_725
sequence1	MetaGeneAnnotator	CDS	509110	509256	.	+	0	ID=MGA_726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIIIDGRQSIVADRLGNQLILLVVLGFGLLGLVSGIILHFVLQSRNK;locus_tag=LOCUS_07260;note=WP_011166697.1 hypothetical protein (Mycoplasma mycoides) [pid:81.2%25%2C q_cov:100.0%25%2C s_cov:39.3%25%2C Eval:3.5e-14%2C partial hit],internal stop codon at [508954:508956](+)%2C[508975:508977](+)%2C[509254:509256](+),MGA_726
sequence1	MetaGeneAnnotator	CDS	509349	510443	.	-	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKVYHSSNYAICTPTGRAAAKIRENFTESHATTIHKLLGYEKDNKFSVNKYHPLDYDLLILDECSMIDARLFSQFLSSINNAKKIVLIGDVDQLASVGYGNVFYDIINSKIICTTNLINIHRQSFNNGIIDLAYMIKNDNLDLNKLQNLDNVEFFFNKDKQACLEYLKTVYSKTINQTKNIQVISPVYADILGIENLNNFIQYNFNQNILDTNNVYDRLRFRYAVNDKVMYLKNDSELNLSNGDIGYICQINKNNNKFNSAIINFNNNLFEFTSEQFDEINLSYCCSVHKTQGSEYDQVILVLQDTLFSSFLNKKLLYTAITRAKKQLVVIGDFDLFIKASKKNARIRKTTLVEHILNKLNN;locus_tag=LOCUS_07270;note=WP_014584390.1 AAA family ATPase (Mycoplasma leachii) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:50.1%25%2C Eval:7.5e-203%2C partial hit],MGA_727
sequence1	MetaGeneAnnotator	CDS	510873	511061	.	-	0	ID=MGA_728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKILDKLKKFTDDENEIKQILTNNWFEFSFKHELGLMQDIDKIFLYFNNNDINNLTRISY;locus_tag=LOCUS_07280;note=WP_014584390.1 AAA family ATPase (Mycoplasma leachii) [pid:93.5%25%2C q_cov:100.0%25%2C s_cov:8.5%25%2C Eval:1.5e-28%2C partial hit],internal stop codon at [510873:510875](-),MGA_728
sequence1	MetaGeneAnnotator	CDS	511639	512442	.	-	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISDNDSLVYADLISSKTSYCCIITKNGYAVRYNIEDIPVQSTISKGVKAANLKDDYIISALSLDNNKDVLIFTNKNNYKRLDQNLIPIYIRPKKGIRILVEKKKNKEQVIFGFAINDQMSISILDTNDQITDINVSDLKHTNLEQNSISTNIDEISYISIKQLIRSIAFDQPALANNFNDQDTNDQIETKPKFNKLVSERIVVSKDTKNKAINNANQVHGSDLSSYLDDISSLLSKVSQNKKDKKTKQLDFEDYFSDDDQNQDDN;locus_tag=LOCUS_07290;note=WP_011166695.1 DNA topoisomerase IV subunit A (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:96.6%25%2C s_cov:28.7%25%2C Eval:1.2e-137%2C partial hit],internal stop codon at [512632:512634](-)%2C[512734:512736](-),MGA_729
sequence1	MetaGeneAnnotator	CDS	512827	513078	.	-	0	ID=MGA_730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLYRLTSTDVNKLLLEKTELIDKIKKYQEILNNNLVLDNEIISRLEEVKKQFGIKRKSQVEDLVEDLDVDQKEVIIEKEINL;locus_tag=LOCUS_07300;note=WP_011166695.1 DNA topoisomerase IV subunit A (Mycoplasma mycoides) [pid:90.4%25%2C q_cov:100.0%25%2C s_cov:9.2%25%2C Eval:2.3e-34%2C partial hit],internal stop codon at [512632:512634](-)%2C[512734:512736](-)%2C[512827:512829](-),MGA_730
sequence1	MetaGeneAnnotator	CDS	513601	514026	.	-	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGNNGSIDGDSAAAMRYTEARLTKISNLLLEDLEKNTVIFSPNFDDSETEPTVLPSYFPNILVNGATGIAAGYATNMPPHNLSEIIDATINIIKNPNITIDQILKIVKGPDFPTGAIIQNKQGIREAFLTGKGKVIISSK;locus_tag=LOCUS_07310;note=WP_011166695.1 DNA topoisomerase IV subunit A (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:15.7%25%2C Eval:6.9e-74%2C partial hit],internal stop codon at [513382:513384](-)%2C[513601:513603](-)%2C[514051:514053](-)%2C[514054:514056](-),MGA_731
sequence1	MetaGeneAnnotator	CDS	514054	514335	.	-	0	ID=MGA_732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDKSEIILYPLEELLGNRFSRYAKYIIQERALPDVRDGLKPVQRRILYAMNQLNLTFDKPYKKSARVVGEVIGKYHPHGDSSIYDAMVRMSQ;locus_tag=LOCUS_07320;note=WP_011166695.1 DNA topoisomerase IV subunit A (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:6.3e-48%2C partial hit],internal stop codon at [514051:514053](-)%2C[514054:514056](-),MGA_732
sequence1	MetaGeneAnnotator	CDS	514622	515056	.	-	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGKLTPAQGKKRELNELYLVEGDSAGGSAKSGRDRNFQAILPLRGKVINSEKAKLVDLLKNEEIQSIINAIGAGVGKDFDISDINYGKIIIMTDADTDGAHIQTLLLTFFYRHMKDLITHKKVYIALPPLYKITFNDKSFIYL;locus_tag=LOCUS_07330;note=WP_011166694.1 DNA topoisomerase IV subunit B (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:8.9e-75%2C partial hit],internal stop codon at [514403:514405](-)%2C[514523:514525](-)%2C[514622:514624](-)%2C[515189:515191](-),MGA_733
sequence1	MetaGeneAnnotator	CDS	515189	516022	.	-	0	ID=MGA_734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKTGKSTPEVIFSVLHAGGKFDSTAYKSSGGLHGVGSSVTNALSKRFKATIYRDKKIHEIEFKNGGKLEKPLTFIANTYKTGTTINFLPDDSIFSNTKFNFSLISERLKESALLNSGLKITLSDLISNRYVEYQFQDGLVEFIKELVDDKTPVTDIITINNESKNIIAEIALQYTEDDNEIILGFANNVKTSDGGTHLVGFKSGLIRAINDYAKDQKILKDKTKLDSNDLREGLVAIVTVKIPENLIEYEGQTKSKLGTSDAKTVVEQIVYEFMSY;locus_tag=LOCUS_07340;note=WP_011166694.1 DNA topoisomerase IV subunit B (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:7.1e-149%2C partial hit],internal stop codon at [515189:515191](-)%2C[516143:516145](-),MGA_734
sequence1	MetaGeneAnnotator	CDS	516143	516268	.	-	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAENKKYDESAIQVLEGLDAVRKRPGMYIGSTDNRGLHHLV;locus_tag=LOCUS_07350;note=WP_011166694.1 DNA topoisomerase IV subunit B (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:6.4%25%2C Eval:2.2e-16%2C partial hit],internal stop codon at [516143:516145](-),MGA_735
sequence1	MetaGeneAnnotator	CDS	516455	516700	.	-	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELANKSNFGLQASVYTKNLDQALTVAQKLEVGTVNINGKSQRGPDVFPFLGVKDSGFGVQGIVDTLLFSTRYKGIVINN;locus_tag=LOCUS_07360;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:5.2e-39%2C partial hit],internal stop codon at [516755:516757](-),MGA_736
sequence1	MetaGeneAnnotator	CDS	516755	517615	.	-	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSETAKPYKDCLTEVIRSVEYIDQTFYEVRNLKTLIIDGTKYGAKNKIGTFMRVAKGVGVAISPFNYPINLAVSKIFPCLVTGNTIVFKPATQGSLIGAKLGELAFKANLPKGIFNVVTGRGREIGDDIITNKLADFISFTGSVEVGKRLLEISSTKDVVLELGGKDPAIVLDDLDLEKYAKEIISGAFSYSGQRCTAIKRVITTDKIADQLVPLLKEKINKLTVGLPKDNCDITPLIDQKTADFVYGLIDDAKNKGAKIIIGDKREKNLIYPTLVDHVTSDMRLA;locus_tag=LOCUS_07370;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:60.7%25%2C Eval:4.4e-157%2C partial hit],internal stop codon at [516755:516757](-)%2C[517661:517663](-)%2C[517706:517708](-),MGA_737
sequence1	MetaGeneAnnotator	CDS	517706	517870	.	-	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKFKALLDGKLFDNNRILEIINPVDFSVAGQVVSLTKQDINDAFIAAKSSQKA;locus_tag=LOCUS_07380;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.5%25%2C Eval:2.4e-23%2C partial hit],internal stop codon at [517661:517663](-)%2C[517706:517708](-),MGA_738
sequence1	MetaGeneAnnotator	CDS	518036	518803	.	-	0	ID=MGA_739;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166692.1;translation=MEVISSVSNPKIKEILKLKDRKHRNKQKLFIVEGFHMIMEAYNDQIIKTLLGTSKALEVLKDEIPNIEQVIEISENVAKKISDTVTSQQIFAICSMPENTKIDFENNILLLDQIQDPGNLGTLIRSAASFNFKTVIASPNSVNFHNQKVLRSTQGNLFQVNLVNEYLVTVINQLHDNNYIIIGTSLHDDSKPLSKVKFDSDDKYALIIGNEGKGISPELLDLIDLNINIEMAEDVDSINAAVAGSIIMYQINNAK;locus_tag=LOCUS_07390;note=WP_011166692.1 RNA methyltransferase (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-138],MGA_739
sequence1	MetaGeneAnnotator	CDS	519345	519482	.	-	0	ID=MGA_740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVFGLLFGIIGGIFLLVSNKKDEDDPYIIIKDKMNNKDNITSK;locus_tag=LOCUS_07400;note=MGA_740
sequence1	MetaGeneAnnotator	CDS	519658	519828	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELIAIPPTIKPKKLITAHSNVKLHPIIIKINPALYKSSNLLFCFVIVEFIKSPPI;locus_tag=LOCUS_07410;note=MGA_741
sequence1	MetaGeneAnnotator	CDS	519821	520174	.	-	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMFETIIKITKPNYDLNVPIDNDNYDGLNYLTNKSFHQINQTALKGVIQAHSITGNMPNIVLEFEKMDDEQFGYLVYFFELALAMSAYLLDVNPFNQPGVEVYKYNMFKLLEKPGIK;locus_tag=LOCUS_07420;note=WP_011166689.1 glucose-6-phosphate isomerase (Mycoplasma mycoides) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:27.4%25%2C Eval:2.7e-59%2C partial hit],internal stop codon at [520196:520198](-)%2C[520292:520294](-)%2C[520295:520297](-),MGA_742
sequence1	MetaGeneAnnotator	CDS	520295	520936	.	-	0	ID=MGA_743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQVANKLRSEIEALVVIGIGGSYLGCRAADEMIRGLYHQDKVELIYVGNTMSSTYIYQLVEYLKNKNFGICVISKSGTTTEPGISFRVFEKLLVDKVGLNKAKDLIVAITDKNKGALKQLADKKGYQTFVIPNDIGGRFSVLTPVGIFPLLVSGINTDNIFNGALKAKNELINDDLSNQAYKYAVIRNYLYNQGYKTEALISYELQLQMLTE;locus_tag=LOCUS_07430;note=WP_011166689.1 glucose-6-phosphate isomerase (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:49.9%25%2C Eval:8.6e-116%2C partial hit],internal stop codon at [520196:520198](-)%2C[520292:520294](-)%2C[520295:520297](-)%2C[520970:520972](-)%2C[520979:520981](-),MGA_743
sequence1	MetaGeneAnnotator	CDS	520979	521104	.	-	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVNLDHTNIDINKVVDLNKVKQIHQMIINKTGKGNDYLG;locus_tag=LOCUS_07440;note=WP_011166689.1 glucose-6-phosphate isomerase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:9.6%25%2C Eval:2.6e-17%2C partial hit],internal stop codon at [520970:520972](-)%2C[520979:520981](-),MGA_744
sequence1	MetaGeneAnnotator	CDS	521513	521671	.	-	0	ID=MGA_745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLFDNKEIEFGKCNGALTVSENIADAGGISCALQAAQLEKDYNAQEFFIN;locus_tag=LOCUS_07450;note=WP_020862757.1 M13 family metallopeptidase (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:8.2%25%2C Eval:9.1e-23%2C partial hit],internal stop codon at [521501:521503](-)%2C[521513:521515](-)%2C[521714:521716](-)%2C[521717:521719](-)%2C[521930:521932](-),MGA_745
sequence1	MetaGeneAnnotator	CDS	521717	521926	.	-	0	ID=MGA_746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAYQVNAYYHPMYNHIVFPAGILQGSFYSINHSTSQNYGGIGAVIAHEISHAFDNNGANFDENGNLKM;locus_tag=LOCUS_07460;note=WP_020862757.1 M13 family metallopeptidase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.9%25%2C Eval:5.4e-36%2C partial hit],internal stop codon at [521501:521503](-)%2C[521513:521515](-)%2C[521714:521716](-)%2C[521717:521719](-)%2C[521930:521932](-)%2C[522134:522136](-),MGA_746
sequence1	MetaGeneAnnotator	CDS	522134	522394	.	-	0	ID=MGA_747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVRFSKYLDEKTRTIASKYSLFISGQTKVKNKEKHALNLALDYFSTPIGLYYGQKYLGSKAKKDVENMVSHMINIYKQRLENNT;locus_tag=LOCUS_07470;note=WP_020862757.1 M13 family metallopeptidase (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:13.6%25%2C Eval:2.3e-42%2C partial hit],internal stop codon at [521930:521932](-)%2C[522134:522136](-)%2C[522404:522406](-),MGA_747
sequence1	MetaGeneAnnotator	CDS	522404	522898	.	-	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTTFVYRNYSLPINFDISNDYIDSSIKTLYLTIASHILPDKSHYQNKEVKNKFYKEFKSMTKKLLSAYFNDLKKINLIIKNTLEFDEIIANYSLSSLEKVRYNELYKPYKYEDVIKNTKYLDLNNIIKTLINKDVDQIIFTDDHFATNLDQIYNNKNLELIKS;locus_tag=LOCUS_07480;note=WP_020862757.1 M13 family metallopeptidase (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:26.0%25%2C Eval:8.0e-90%2C partial hit],internal stop codon at [522134:522136](-)%2C[522404:522406](-)%2C[523169:523171](-),MGA_748
sequence1	MetaGeneAnnotator	CDS	523240	523803	.	-	0	ID=MGA_749;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166687.1;translation=MNKTLLRKQLLEKRKNFDLEYKNTSNLIITNKVIDFIKQHQFKQICIFLSTKYEIETRNIINWCLNHHILVFVPKITTDNNMDMVLLDNSYLTNFNKFNIQEPTSNILANLKEIDCVFTPVVGFDNKLNRIGMGKGFYDKFFSLNSFSYLKVGLCFDKQKVDQIIIESNDIRLDYIITENQNIYKLN;locus_tag=LOCUS_07490;EC_number=6.3.3.2;note=WP_011166687.1 5-formyltetrahydrofolate cyclo-ligase (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-102],MGA_749
sequence1	MetaGeneAnnotator	CDS	523796	524233	.	-	0	ID=MGA_750;product=iron-sulfur cluster assembly scaffold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166686.1;translation=MIDINNDSLLREIIIKHFLNPENKTLTNNKNAIIKELKSQTCADQLIIEILIENKIIKSMKFDGSACAIATSSIDLLINNLLNLDIKKAIELIKNYQDFLLTGSLINIDQLNELVVMKNIHKQKNRILCASLALNDLLEILNSYE;locus_tag=LOCUS_07500;note=WP_011166686.1 iron-sulfur cluster assembly scaffold protein (Mycoplasma mycoides) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-68],MGA_750
sequence1	MetaGeneAnnotator	CDS	524236	524802	.	-	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGPFGVGILYGKYQLLDELEPLNLGGGSSLTISKDFTSYTLKTLPEKLEAGTLNISNIYGFKKAIEFILKIGINNIHLYETKLKQYTRQQIKANHLENKITFYNLNNDSPLLLFNVNQINAQDISSFLDVKYNITSRSGAHCVRRLEDVIHIKSALRISFAIYNTTDEIDKLIDALKNTDKFLDIYF;locus_tag=LOCUS_07510;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:45.6%25%2C Eval:1.1e-100%2C partial hit],internal stop codon at [524836:524838](-)%2C[525091:525093](-)%2C[525097:525099](-),MGA_751
sequence1	MetaGeneAnnotator	CDS	525097	525474	.	-	0	ID=MGA_752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGQFEKIKKQFPLLKKHPNLIYFDNGATTLKPNSVINAQTNYLKNISTNPHSGDYKIGYQSLEILNNTRELVKNFINANHTSEIIFTSGTTQSINMIAKGLINLVNQDDEILITSLEHSSNLVP;locus_tag=LOCUS_07520;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:30.3%25%2C Eval:9.8e-62%2C partial hit],internal stop codon at [524836:524838](-)%2C[525091:525093](-)%2C[525097:525099](-),MGA_752
sequence1	MetaGeneAnnotator	CDS	525640	525804	.	-	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPKLVKKSEFSFFTCSVLQLIAKTLDDATKVIALSQVKSFFTNIILSVDFKMY;locus_tag=LOCUS_07530;note=MGA_753
sequence1	MetaGeneAnnotator	CDS	526127	526270	.	+	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPGVKKNLADLENAYKSNFILNDSSNSAFIKLKNLLMFNSTVADSM;locus_tag=LOCUS_07540;note=WP_011166684.1 lipoprotein (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:4.8%25%2C Eval:3.6e-19%2C partial hit],internal stop codon at [525833:525835](+)%2C[525845:525847](+)%2C[525968:525970](+)%2C[526106:526108](+)%2C[526268:526270](+)%2C[526301:526303](+)%2C[526406:526408](+),MGA_754
sequence1	MetaGeneAnnotator	CDS	526439	526609	.	+	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNGLGGINNQSTTSGSNGGAGSQQNDNLIITYSSSKDVKNKISGTNNGNGKKGEE;locus_tag=LOCUS_07550;note=MGA_755
sequence1	MetaGeneAnnotator	CDS	526997	527185	.	+	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTKLIERFQGIQSVLQTYLSNDDKEKETYTAGLSKFDTIFRGEEAKIKANTSTNSSTDYKN;locus_tag=LOCUS_07560;note=WP_011166684.1 lipoprotein (Mycoplasma mycoides) [pid:69.8%25%2C q_cov:100.0%25%2C s_cov:6.5%25%2C Eval:2.8e-19%2C partial hit],internal stop codon at [526751:526753](+)%2C[527183:527185](+)%2C[527192:527194](+)%2C[527327:527329](+)%2C[527333:527335](+),MGA_756
sequence1	MetaGeneAnnotator	CDS	527405	527941	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNDEASKIDSAIEQTKDKKQSKDAARLTIYNLAELFKKINQKNSSSGTSSGSGSSSSSTASTSENGENKNSNIYTILNKDEGIIAFIDGDGLHITKIDGYKLINNKNNNESLSSSIDQQQSLNDSIKQTAVLKQIRSLYSSPNASVLVPYLINSTLQINTTSTSMSSSSSGQSNGSK;locus_tag=LOCUS_07570;note=WP_011166684.1 lipoprotein (Mycoplasma mycoides) [pid:59.5%25%2C q_cov:88.8%25%2C s_cov:16.6%25%2C Eval:1.1e-45%2C partial hit],internal stop codon at [527183:527185](+)%2C[527192:527194](+)%2C[527327:527329](+)%2C[527333:527335](+)%2C[527939:527941](+)%2C[527945:527947](+)%2C[528161:528163](+),MGA_757
sequence1	MetaGeneAnnotator	CDS	528209	528349	.	+	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGSLLSVIVTTDNKADNDEIEKIFSHQAKNLKVSAIRKLQQSNQK;locus_tag=LOCUS_07580;note=WP_011166684.1 lipoprotein (Mycoplasma mycoides) [pid:68.2%25%2C q_cov:93.5%25%2C s_cov:4.5%25%2C Eval:1.9e-09%2C partial hit],internal stop codon at [527939:527941](+)%2C[527945:527947](+)%2C[528161:528163](+)%2C[528347:528349](+),MGA_758
sequence1	MetaGeneAnnotator	CDS	528443	528574	.	+	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNESKKKRYDNLLQSEIFNPEVKAQKNSNGSSSTGDSGARGDA;locus_tag=LOCUS_07590;note=MGA_759
sequence1	MetaGeneAnnotator	CDS	528574	529140	.	+	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSICLSAGTMVTAIACSTKNEKFDKPSITDELAQKIVSGLKLTNDFNFTTGEQFSKLDYKSLVLDMINETISKNKYSDNLHNLSRKFGLEISKTKELGEKKSQEVLKNLSTIKLFTEYTSKRASEEHSDNVDLEYSANYPLNPYNLDPKNGKKDTTTYAIYYKSNNTSTGGGSNGGSTSN;locus_tag=LOCUS_07600;note=WP_011166683.1 lipoprotein (Mycoplasma mycoides) [pid:76.6%25%2C q_cov:91.0%25%2C s_cov:23.8%25%2C Eval:1.0e-71%2C partial hit],internal stop codon at [529138:529140](+)%2C[529147:529149](+)%2C[529357:529359](+),MGA_760
sequence1	MetaGeneAnnotator	CDS	529405	529632	.	+	0	ID=MGA_761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYRFMYHFKTKLESKSFSDLLGHAYIDSNLYIDKQDNRSASNKKIILNNVSKLVSDVQSNYSQVERTTSNLKMV;locus_tag=LOCUS_07610;note=WP_011166683.1 lipoprotein (Mycoplasma mycoides) [pid:81.3%25%2C q_cov:100.0%25%2C s_cov:10.5%25%2C Eval:2.4e-31%2C partial hit],internal stop codon at [529138:529140](+)%2C[529147:529149](+)%2C[529357:529359](+)%2C[529630:529632](+),MGA_761
sequence1	MetaGeneAnnotator	CDS	529903	530124	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVNVPSLLTNNNRGFNSEISGNVDYVFVLPIYLNDLFSTNDVQIKKTSTNGNGGSGTSQNNNYELPIIQNT;locus_tag=LOCUS_07620;note=WP_011166683.1 lipoprotein (Mycoplasma mycoides) [pid:65.8%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:3.6e-19%2C partial hit],internal stop codon at [529630:529632](+)%2C[530122:530124](+)%2C[530239:530241](+),MGA_762
sequence1	MetaGeneAnnotator	CDS	530554	530721	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLDQLEAITAKNPDVQNAAKTELYSAYLYTDGIYYKSLFDEISKYIESEKPTLD;locus_tag=LOCUS_07630;note=WP_011166683.1 lipoprotein (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:7.7%25%2C Eval:1.6e-24%2C partial hit],internal stop codon at [530494:530496](+),MGA_763
sequence1	MetaGeneAnnotator	CDS	530724	531122	.	+	0	ID=MGA_764;product=HIT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166682.1;translation=MDCLFCKIINQEIPSYKIYENEYVYSFLDVRPVSNGHLLVIPKKHFENFSACDDKYLQEVILAKKHLVNLLKEKLNPAGFNYLSNEQAISGQTVLHYHEHIMPKYEKDKGFLLKAEIVDIDELENTFNKIVK;locus_tag=LOCUS_07640;note=WP_011166682.1 HIT family protein (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-73],MGA_764
sequence1	MetaGeneAnnotator	CDS	531207	531356	.	-	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILASHGKKEFGSPIEPVLIEAVILSALDDLDAKVYKINDELSKIEVDN;locus_tag=LOCUS_07650;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:15.0%25%2C Eval:4.3e-20%2C partial hit],internal stop codon at [531207:531209](-)%2C[531564:531566](-)%2C[531633:531635](-),MGA_765
sequence1	MetaGeneAnnotator	CDS	531981	532133	.	-	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVKDINIEDHLIDTILRIERVIVSTGSSGNNYLILHLADSTGRIEARK;locus_tag=LOCUS_07660;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:15.3%25%2C Eval:3.8e-21%2C partial hit],internal stop codon at [531981:531983](-),MGA_766
sequence1	MetaGeneAnnotator	CDS	532215	532361	.	-	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDSLLVKSNFVIKSAHPSPLSYKGFKNTKPFSQINNLLINLNLDPIN;locus_tag=LOCUS_07670;note=WP_011166680.1 uracil-DNA glycosylase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:70.8%25%2C s_cov:15.7%25%2C Eval:3.9e-13%2C partial hit],internal stop codon at [532215:532217](-)%2C[532380:532382](-)%2C[532449:532451](-)%2C[532494:532496](-)%2C[532530:532532](-),MGA_767
sequence1	MetaGeneAnnotator	CDS	533437	533646	.	-	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYVISDDQYNNLSLKELFENHKHLFNNYKGCYPLLVKIITASDYLSVQVHPDDNYALSHHNQLGKPES;locus_tag=LOCUS_07680;note=WP_011166679.1 class I mannose-6-phosphate isomerase (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:22.3%25%2C Eval:1.3e-34%2C partial hit],internal stop codon at [533341:533343](-)%2C[533437:533439](-)%2C[533671:533673](-)%2C[533737:533739](-),MGA_768
sequence1	MetaGeneAnnotator	CDS	533807	533944	.	-	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCNLGILEQENKYQSDDKFYSFNNSKNSLEEYIKQLNQILSTNI;locus_tag=LOCUS_07690;note=WP_011166678.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:91.1%25%2C q_cov:100.0%25%2C s_cov:10.3%25%2C Eval:2.5e-17%2C partial hit],internal stop codon at [534065:534067](-),MGA_769
sequence1	MetaGeneAnnotator	CDS	534065	534202	.	-	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKNYYINSPKILNFKLQVMRKKNVFFAGQITGVEGYIESASSGI;locus_tag=LOCUS_07700;note=WP_011166678.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.3%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [534065:534067](-)%2C[534272:534274](-),MGA_770
sequence1	MetaGeneAnnotator	CDS	534272	535003	.	-	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKTNNFAELVCSNTFRSQSLLNAAGILKAEMRRLNSLVMKIADSCKIDGDDALAVDREDFSKKLTEVIKNHPNITIIEQNVSHIDDENDLTLIATGPLTTNELKEDIQRLIGKQKLFFMDASAPIITKDSIDFNKVYYSGRHKLGKYICCPLNEQEFNEFADNLINAEQVQLKEFEKSIFFKGCQPIEQLAKTSKKLLLKGPMSPNNLLDQNNHQPYAVVQLRQDDAKDSLYNMVGFQTNLK;locus_tag=LOCUS_07710;note=WP_011166678.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:55.5%25%2C Eval:4.5e-133%2C partial hit],internal stop codon at [534065:534067](-)%2C[534272:534274](-)%2C[535028:535030](-),MGA_771
sequence1	MetaGeneAnnotator	CDS	535185	535799	.	-	0	ID=MGA_772;product=copper homeostasis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166677.1;translation=MFLEVIAKDLSDIRVINNSKADRIEFCKNLEVGGLTPSLDEIILANQITLKPLHIMIRNNSKDFFFDDYELIKQLEMISVIQKLPNVHGIVIGALNNDYTINEDFLQRVNKIKGSLKITFNRAFDLVDDPINALNVLVKHKIDAVLTSGGTNLNTGLEVIRQLVDQNLDIQILIGGGVDKNNIKQCLTVNNQIHLGRAARMNSS;locus_tag=LOCUS_07720;note=WP_011166677.1 copper homeostasis protein (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:89.9%25%2C Eval:5.0e-110],MGA_772
sequence1	MetaGeneAnnotator	CDS	535841	536452	.	-	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSQVTIDYTNINNPKIDTILMSIQHDPNYNEIEFKKYIKENIMDLVAKEFNLNTDFKVLINPTGRFVIGGPQGDTGLTGRKIIADTYGGYSRHGGGAFSGKDSTKVDRSAAYMCRYVAKNLVAAGLADKIEIQVSYAIGISQPISIFIETFNTHKVDLNTIYKAVYENFDFSVSSMIKTLDLKKPIFFKTSKYGHFGKKDLP;locus_tag=LOCUS_07730;note=WP_011166676.1 methionine adenosyltransferase (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:52.5%25%2C Eval:2.8e-113%2C partial hit],internal stop codon at [535841:535843](-)%2C[536465:536467](-),MGA_773
sequence1	MetaGeneAnnotator	CDS	536465	536953	.	-	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQNIEKRLFTSESVSEGHPDKICDQISDAILDEVLKQDKNAKVACEVFATTNYLLIGGQISSTAIVDYEQVARDVLKKIGYVDDAYGINANTCKIDIKIESQSPDIAQGVELSNDQIGAGDQGIMFGYATNESKTYLPLAITIAHELVYNATSQRKKGLFK;locus_tag=LOCUS_07740;note=WP_011166676.1 methionine adenosyltransferase (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:41.9%25%2C Eval:2.4e-86%2C partial hit],internal stop codon at [536465:536467](-),MGA_774
sequence1	MetaGeneAnnotator	CDS	537241	537936	.	-	0	ID=MGA_775;product=TIGR00282 family metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862745.1;translation=MKVLMIGDVYAKPGREMLEKHLKNIVDQNQIDFIVVNGENTTHGKSICKKHYDFYKSLNVDVITSGNHIFKNAEVLEYIKTTNDLLKPLNMSKHTPGNGYVIVNKNKKKIAVVSLMGQSFMDTVNNPYDALDEFLKTNTDFDILLVDFHAESTAEKIAFAFNYDGIITAFVGTHTHVMTADERLLPNKTAFISDIGMTGVIDSIIGVEVNDVIKRAKTGLPVKFNIATGKC;locus_tag=LOCUS_07750;note=WP_020862745.1 TIGR00282 family metallophosphoesterase (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:89.9%25%2C Eval:5.3e-125],MGA_775
sequence1	MetaGeneAnnotator	CDS	537936	538259	.	-	0	ID=MGA_776;product=putative DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041362228.1;translation=MKNNLLEKTLELSELFKIYKELLTDKQKQYFELYIDEDLSLSEIADEFNISKTAVYDSISKTSKLLFSLETKLHLKQKQDLLISLINKIETNQIDEKQFIKSLKEVI;locus_tag=LOCUS_07760;note=WP_041362228.1 putative DNA-binding protein (Mycoplasma mycoides group) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:94.7%25%2C Eval:1.3e-50],MGA_776
sequence1	MetaGeneAnnotator	CDS	538249	538584	.	-	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAELEKMNKIIQQVEKSAPHEVLLVIDATTGQNGVIQAEEFSKVADVSGIILTKMDSTSKGGIGLAIKELLNIPIKMIGVGEKVDDLLAFDIDQYIVHLSSGFMQGDEVEK;locus_tag=LOCUS_07770;note=WP_011166673.1 signal recognition particle-docking protein FtsY (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:27.8%25%2C Eval:1.1e-55%2C partial hit],internal stop codon at [538747:538749](-),MGA_777
sequence1	MetaGeneAnnotator	CDS	538747	538887	.	-	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVGVNGTGKTTSLAKMANYYAELGYKVLIAAADTFRAGATQQLEE;locus_tag=LOCUS_07780;note=WP_011166673.1 signal recognition particle-docking protein FtsY (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.5%25%2C Eval:6.0e-19%2C partial hit],internal stop codon at [538747:538749](-)%2C[538939:538941](-),MGA_778
sequence1	MetaGeneAnnotator	CDS	538939	539181	.	-	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKSAFNFSKDIKKLSKKYKQADDEFFEELEDVLIQTDMGMKMVLKVSNLVRKKTKRDTSFENIKDALVESLYQAYTDND;locus_tag=LOCUS_07790;note=WP_011166673.1 signal recognition particle-docking protein FtsY (Mycoplasma mycoides) [pid:92.5%25%2C q_cov:100.0%25%2C s_cov:20.0%25%2C Eval:1.7e-34%2C partial hit],internal stop codon at [538747:538749](-)%2C[538939:538941](-),MGA_779
sequence1	MetaGeneAnnotator	CDS	539554	539874	.	-	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISELYELVVEMLDIFSDIFENLKVDKEQQVLSLEEKINTKFRSFYDQLIDDIRQKTTKAEAEEIAAVLKQMFNLERAGDHLLNVQEIINFIKTSKFIEKTEKINK;locus_tag=LOCUS_07800;note=WP_011166672.1 phosphate signaling complex protein PhoU (Mycoplasma mycoides) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:47.3%25%2C Eval:5.1e-50%2C partial hit],internal stop codon at [540025:540027](-),MGA_780
sequence1	MetaGeneAnnotator	CDS	540025	540228	.	-	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNKILDRDLDQLRSLIENMIEETKIQYANSYLVIKEENKLIDAQKVIEHDKIINDMQNEFTSIAL;locus_tag=LOCUS_07810;note=WP_011166672.1 phosphate signaling complex protein PhoU (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:1.2e-30%2C partial hit],internal stop codon at [540025:540027](-),MGA_781
sequence1	MetaGeneAnnotator	CDS	540237	540503	.	-	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPKILLMDEPTSALDPIATLKVEELVLDLKKDYTIVMVTHSLQQATRISDYTGYFLKGELVEFNKTKKIFTNPKDRRTENYISGRYE;locus_tag=LOCUS_07820;note=WP_011166671.1 phosphate ABC transporter ATP-binding protein PstB (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:37.9%25%2C Eval:1.0e-42%2C partial hit],internal stop codon at [540591:540593](-),MGA_782
sequence1	MetaGeneAnnotator	CDS	540591	541046	.	-	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNEQLITNTKPKKEPLKTAIEIKDFNFFYNKGKTQSLFNINMEIKEKSITTFIGPSGCGKTTLLKSINRLNDLIDGVKMSGVIKIFDKDIFDKDIDITKLRTEVGMVFQKPNPFPISIYDNVVYGLRSLGIKDKKILDQICEESLVKAAL;locus_tag=LOCUS_07830;note=WP_011166671.1 phosphate ABC transporter ATP-binding protein PstB (Mycoplasma mycoides) [pid:93.0%25%2C q_cov:75.5%25%2C s_cov:49.1%25%2C Eval:3.4e-54%2C partial hit],internal stop codon at [540591:540593](-),MGA_783
sequence1	MetaGeneAnnotator	CDS	541039	541338	.	-	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLITIIFVLTLNLSSSKLSLLLVKTNKKVKFEFKQIYKNFINKQFYKTQLNLFKNSLKQFIKSLKKYLNITNLFKEIKKTIKYKKEYKKLKKRDNNYE;locus_tag=LOCUS_07840;note=WP_011166670.1 phosphate ABC transporter permease PstA (Mycoplasma mycoides) [pid:75.8%25%2C q_cov:100.0%25%2C s_cov:14.2%25%2C Eval:6.0e-35%2C partial hit],internal stop codon at [541342:541344](-),MGA_784
sequence1	MetaGeneAnnotator	CDS	541342	541677	.	-	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIVVLPMLIKNFEDALTSVPLSYREAAIALGLSKTKTLFKIVLPNALQAIITGTILAMARIIGESAPIYLTLGTAIKYPDRGFLSSGSTLTTGIYKIASESAPGQGNDIA;locus_tag=LOCUS_07850;note=WP_011166670.1 phosphate ABC transporter permease PstA (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:5.3e-55%2C partial hit],internal stop codon at [541342:541344](-),MGA_785
sequence1	MetaGeneAnnotator	CDS	541913	542074	.	+	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAANIPSSPSIVKNASLYFKLDSPLNIVVNTIQKVNIITKLIDSHIKTNIIVE;locus_tag=LOCUS_07860;note=MGA_786
sequence1	MetaGeneAnnotator	CDS	542044	542325	.	-	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLENSSSLHESALYAIGMFLFILVFIINLLILFVSNKNSISKKIHLVLFKNKKTHKIKHIKLYQKQTLNQIITNRAENKLFKKIYSTIMLVLM;locus_tag=LOCUS_07870;note=WP_011166670.1 phosphate ABC transporter permease PstA (Mycoplasma mycoides) [pid:86.0%25%2C q_cov:100.0%25%2C s_cov:13.4%25%2C Eval:1.1e-36%2C partial hit],internal stop codon at [542008:542010](-)%2C[542044:542046](-)%2C[542401:542403](-),MGA_787
sequence1	MetaGeneAnnotator	CDS	542401	542877	.	-	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLILIFISMLIAVPLTIFTSFFISEYLTLKSQKVTITIIKLLAGIPSVVFGLFAREQIGALFKLMGASSNDNLMVASLTMAFMAIPIMISLSYDAIKSVPFIYRDASLALGISKEKTTFNIIRKSATPKIISAVILGMARVIGETMAIMMIAGNSTA;locus_tag=LOCUS_07880;note=WP_011166670.1 phosphate ABC transporter permease PstA (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:22.7%25%2C Eval:1.3e-78%2C partial hit],internal stop codon at [542401:542403](-)%2C[542920:542922](-),MGA_788
sequence1	MetaGeneAnnotator	CDS	542920	543129	.	-	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFKKITNNVQFRMIKQKKETSFVCLKSIIITLTIFVLLALVILLGFVMIKTNVLFNKQSFFEFVFGKN;locus_tag=LOCUS_07890;note=WP_011166670.1 phosphate ABC transporter permease PstA (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:8.1e-32%2C partial hit],internal stop codon at [542920:542922](-),MGA_789
sequence1	MetaGeneAnnotator	CDS	543681	543833	.	-	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVYNIKNTGLTNQQIDQIKFNVLNNKISSDSQKALHKIYTNNKQSDLIS;locus_tag=LOCUS_07900;note=WP_011166669.1 phosphate ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:78.0%25%2C q_cov:100.0%25%2C s_cov:13.1%25%2C Eval:8.3e-16%2C partial hit],internal stop codon at [543681:543683](-),MGA_790
sequence1	MetaGeneAnnotator	CDS	544402	544737	.	-	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166668.1;translation=MAKKQKAILEIFNEKDRLIKTYNFDQVLTQSELVEKIRTELKLAYAKKTVAKIELEKHHKKYKKALRSKNNLEKEQLKQIFKLAKLNYKNKKRQIKYIKFRYKIAKRNLKD;locus_tag=LOCUS_07910;note=WP_011166668.1 hypothetical protein (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:75.5%25%2C Eval:3.1e-55],internal stop codon at [544834:544836](-),MGA_791
sequence1	Aragorn:1.2.38	tRNA	544925	545009	.	-	.	ID=Aragorn_25;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_25
sequence1	MetaGeneAnnotator	CDS	545429	545749	.	+	0	ID=MGA_792;product=Asp23/Gls24 family envelope stress response protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013729586.1;translation=MFFVSTIDEFVVQTIREAVITVPGVVGLANFSANNKKDLSTNDIHKAIEFVIDKNIQHFKIHVILLYGVNILDILKEIQIRIKYELEKNFKNNIEHKVDVIVEDLI;locus_tag=LOCUS_07920;note=WP_013729586.1 Asp23/Gls24 family envelope stress response protein (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:97.2%25%2C s_cov:100.0%25%2C Eval:1.2e-51],MGA_792
sequence1	MetaGeneAnnotator	CDS	545774	546091	.	+	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLELLKNMITSGVNNLYNHYPQIDKLNVFPVPDGDTGTNMNLTATNGYNEVIDVEYESIGKFLSAFSRGLIMGARGNSGVIFSQIIKGLSLGMNNAKELSVSE;locus_tag=LOCUS_07930;note=WP_011166665.1 DAK2 domain-containing protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.2%25%2C Eval:1.5e-54%2C partial hit],internal stop codon at [546089:546091](+)%2C[546230:546232](+),MGA_793
sequence1	MetaGeneAnnotator	CDS	546857	547417	.	+	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPSTEDFLQAIETVDAKTVFLLPNSSNVYLTAKQAEKIENKSKIYVIQTKTIQQGMVAALSFDPSLTASKNYSYLSKSFRNVVSFNITKAEKNTTYNGIEIQKDNLLAIVDNNIIGAEQTLEAIFDKQLSKYIKSKTEIITIFVGGETNEQDLVQLRKFLDEGYDVEYEIVDGGQETYNLLIAIE;locus_tag=LOCUS_07940;note=WP_011166665.1 DAK2 domain-containing protein (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:34.0%25%2C Eval:2.1e-98%2C partial hit],internal stop codon at [546716:546718](+),MGA_794
sequence1	MetaGeneAnnotator	CDS	547450	548454	.	+	0	ID=MGA_795;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166664.1;translation=MYKIAFDVMGSDLGSLTAIKAASEFIKEHDDLYLVLVGDETEINQALQQTPIDKTKYEIFPTTQVIDMNGSILDIRRKKDASIIRTLELVRDQKVDGMLTGGNSAAFIGAAHFILGELNNIVRAGFMPTMPNAKNKLTLLLDVGANSENTPEDLVNYAKMANIYYKEVLKNPNASIGLLNIGTEKSKGLELQKQTFKQLEELKNINFIGNVESRDVLTGNVDIIVTDGYSGNICLKACEGAAKVLLTEIKKEITSSFIKKLASLVLKKSFKNVAAKFDYRNHAGAILLGVKGICFKSHGSSDVRSFKATLRMTLDAIKNDIVKKIEKGLIENEY;locus_tag=LOCUS_07950;gene=plsX;EC_number=2.3.1.274;note=WP_011166664.1 phosphate acyltransferase PlsX (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-184],MGA_795
sequence1	MetaGeneAnnotator	CDS	548444	548854	.	+	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKNFFEKYNIKINNEKLFNEALTHNSYANEHKLKYSYQRLEFLGDAILQMYVSRFLFFNYSKLSEGELTRLRASTVREETLFRVAKDINLGALVKLGHGEYITKGYEKPSILADVFEALTAAIYLDQKEDGLVT;locus_tag=LOCUS_07960;note=WP_011166663.1 ribonuclease III (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:58.6%25%2C Eval:9.6e-73%2C partial hit],internal stop codon at [548852:548854](+),MGA_796
sequence1	MetaGeneAnnotator	CDS	548867	549142	.	+	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKYIKDSNFINDTKDFKSELQELLQSEKRSDLKYIIEKEDFFANENKILYTVSVNLNGQKFGVGKGFSKQEAEQNAASDCLSKLKKPTSN;locus_tag=LOCUS_07970;note=WP_011166663.1 ribonuclease III (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:39.2%25%2C Eval:5.7e-46%2C partial hit],internal stop codon at [548852:548854](+),MGA_797
sequence1	MetaGeneAnnotator	CDS	549732	550121	.	+	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNKKILSNNSKISTSPKLFKKDIFFKIAIVHKLDNGFDFKSLTIEGIKEFHNFINEILNKKMTISQVENLYMRKTSNPFNNRTVDQQIEIREIHLGKNRQPFRLFGYFNDDNYFVLTKIDPNHLFHE;locus_tag=LOCUS_07980;note=WP_011166661.1 hypothetical protein (Mycoplasma mycoides) [pid:56.2%25%2C q_cov:49.6%25%2C s_cov:71.4%25%2C Eval:1.6e-14%2C partial hit],MGA_798
sequence1	MetaGeneAnnotator	CDS	550427	550567	.	+	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLKQIRASGFKSFADLTVMDFNYDMTGVVGPNGSGKSNITDAIR;locus_tag=LOCUS_07990;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:4.7%25%2C Eval:9.2e-20%2C partial hit],internal stop codon at [550565:550567](+),MGA_799
sequence1	MetaGeneAnnotator	CDS	550610	552340	.	+	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDIVFSGNNEKKAADVAEVTLVFNNTHENFSSIKSDVVEITRKFDKNTRESEFYINSTKCKLKDVQSIALEAGLTRSSIAIISQGTVANFTESKPETKREIFDDAAGVSKYKKRKKETLSKLEKATENLTRLEDIAKEISRRLPNLERQSKKALEYQQKVNELKNIELYILTKDLKVLVNRIEELRVEKIEYETQIKKLTNEINMSQEEVNLIIDKDSEDNQKLGELNSKFNSIVEKIANLKVRKQKAEFKEQENLNTKDQDEYKAALIKKQFDEKQISIKSEKDKLTKAENSLLELKDKYDYYSNKYNEIYREIETIRTTISRISIQIEAIEHNKKAALQSYQDGVSAILNNQKQIGGVVGVLKSLINVKEEYQIAISVTASGHMNSLVMKTDQDVKKAIEFLKKNNNLGRVTFLPLNTLTPNLINPVQRQILEKSEGFVGFANELVEYSETISKAVEYALASIIVVQSYDDAINLAKNTNFRFNIVSLDGQRILPHGAIVGGSTRNANIFTKQNTQNQDNNLEELKNKIELLEQKEISKTKEITEYKTANDSLRDQINDLNGTIRNAKNNLFN;locus_tag=LOCUS_08000;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:95.0%25%2C q_cov:100.0%25%2C s_cov:58.3%25%2C Eval:3.3e-302%2C partial hit],internal stop codon at [550565:550567](+)%2C[552338:552340](+),MGA_800
sequence1	MetaGeneAnnotator	CDS	552530	553393	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKQKEMNSKNSKKRDELDELKTHAGSINTEYNVLLQRRITIIDRLSNGYQITEETALTMEVENIEDEEVARERIIELTTYIQNIGNVNMDAIEEYKNEKERFDYYDQQIKDIYDAKEKLESIILDIDIAMESQFKQIIEDVNKALPDVFSKMFGGGYAELIYTDPDNILETGIDIKIFPPGKKITNLNLLSGGEKSLVALSVLFAILKARPLPLVILDEAEAPLDPVNVERFARYVRQFSHNTQFIIVTHREGTMTQCDSLFGVTMQTKGITKIINVKLVEAKNLH;locus_tag=LOCUS_08010;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:29.0%25%2C Eval:2.9e-156%2C partial hit],internal stop codon at [552338:552340](+),MGA_801
sequence1	MetaGeneAnnotator	CDS	553748	554056	.	-	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYNSLNDFLLDVAKGEFTINEAAEKVFIKQNYSKDDEAYASIKSKIIYDTTIKNDILVDGIKNIKTTLASCCMPIPYEEVVGFVTKNNGIKVHLKECINID;locus_tag=LOCUS_08020;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:13.6%25%2C Eval:7.7e-54%2C partial hit],internal stop codon at [553712:553714](-)%2C[553748:553750](-)%2C[554099:554101](-)%2C[554105:554107](-)%2C[554261:554263](-),MGA_802
sequence1	MetaGeneAnnotator	CDS	554627	555469	.	-	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPNTIIAGLLHDILEDTPIQKEELVELFNEEVANLVESVTKVSFFAKENRQQIKSKYLRKLYLSMSKDIRVIIIKIADRLHNIYTIKNLRPEKQKIIAQETLEIYSAIAHRIGMKSAKSLLEDRSFEILNPQEFKKITDLFNSDMQNRQQIINEIIINLEQYLKKEKNIKIISIFGRPKTIYSIYRKMNVIGKNFEEISDLLAIRIIAKSIDDCYKILGFIHQKYIPLAGKFKDYIATPKNNVYQSLHTTLSDANGNIFEVQIRTEEMNQVAETGAAAH;locus_tag=LOCUS_08030;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:37.3%25%2C Eval:1.7e-150%2C partial hit],internal stop codon at [554627:554629](-)%2C[555473:555475](-),MGA_803
sequence1	MetaGeneAnnotator	CDS	555473	555694	.	-	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNKYNYISFDYREIKDFKDLLNELKKYIKNKSELERIEQAYKYAFKCHFNQTRKNGDPYIYHPLSAAYYLAQ;locus_tag=LOCUS_08040;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:9.7%25%2C Eval:9.1e-39%2C partial hit],internal stop codon at [555473:555475](-),MGA_804
sequence1	MetaGeneAnnotator	CDS	555777	556289	.	-	0	ID=MGA_805;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166658.1;translation=MNLKEFVVDVKDFPKQGIVFKDITPLLNNKDAFKYTVDQMADFVKKLDVDVVVAPEARGFLLASAVAYAANKRFVLVRKPNKLPREVYDVEYSLEYGTNHQQIHVGDLKPNDKVVVIDDVLATGGTMQAIIDLVKLSKAEVIGMSFLIDLTFLHDANLFDQYKVQKLIKY;locus_tag=LOCUS_08050;EC_number=2.4.2.7;note=WP_011166658.1 adenine phosphoribosyltransferase (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-88],MGA_805
sequence1	MetaGeneAnnotator	CDS	556409	556732	.	-	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFNKKDNSMYKDFKLKIKENKNILKHHKKHTKIEIDLIANNNAFLKETFINVFKFGITRTVLITVIYLAYAIILSFGLYAIIGMGLTIIIGILIASLVSLLIALPI;locus_tag=LOCUS_08060;note=WP_020862734.1 protein translocase SecDF%2C variant type (Mycoplasma mycoides) [pid:82.5%25%2C q_cov:74.8%25%2C s_cov:5.8%25%2C Eval:4.0e-31%2C partial hit],internal stop codon at [556403:556405](-)%2C[556409:556411](-)%2C[556769:556771](-)%2C[556772:556774](-),MGA_806
sequence1	MetaGeneAnnotator	CDS	556772	556921	.	-	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKEIMAFSNKKATRHQVHEKNHQLRVEYKTNKKNLIKQQIEQNNIKS;locus_tag=LOCUS_08070;note=WP_020862734.1 protein translocase SecDF%2C variant type (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:3.5%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [556769:556771](-)%2C[556772:556774](-)%2C[557126:557128](-),MGA_807
sequence1	MetaGeneAnnotator	CDS	556887	557123	.	+	0	ID=MGA_808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKAIISFSNISVNVLLSLDLIIDLPFPKNNTQVIIVKLNTAKIALKISIPTGTLKITTSELTKTITKTSVKAKATK;locus_tag=LOCUS_08080;note=MGA_808
sequence1	MetaGeneAnnotator	CDS	557552	558367	.	-	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFYLSRIENLNTKTKLTTKDLAKLKKFKDKYDFYLNKQEQIITNKKLKQLKKDQHNLELVNKRLLKLENKYEIYLNKQEQINNAKKAKILKKKKSEEIKNKYLLKLENKKQKIINKNSFTKSSIKNSLIKQEFLQARINSNTSSQVLETLENKNKQRRIFKINKIFTIIFIICTFLGAIIGITIGPNYNSSFGKSYSVIAYGQKINDIYDNLDEAIRNYKQFDPSTKRGKDIISMGEHLEKVKNSQDAYMKSKFKVDYSNLTKPSDKNQ;locus_tag=LOCUS_08090;note=WP_020862734.1 protein translocase SecDF%2C variant type (Mycoplasma mycoides) [pid:83.8%25%2C q_cov:100.0%25%2C s_cov:19.6%25%2C Eval:3.6e-121%2C partial hit],internal stop codon at [557489:557491](-)%2C[557552:557554](-)%2C[558380:558382](-)%2C[558422:558424](-)%2C[558461:558463](-),MGA_809
sequence1	MetaGeneAnnotator	CDS	558461	558865	.	-	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSYRLLGLFAIILAAISASLTMFVPIIFNMAIGPEIFMIMFVGIGLILDASIIYFENLKTHIYKEKLSPESSFKISNKDTLPISLDTSFIILIPSVLLFIFGSGALKNLATISVINILIIILFVILGLRLLT;locus_tag=LOCUS_08100;note=WP_020862734.1 protein translocase SecDF%2C variant type (Mycoplasma mycoides) [pid:93.6%25%2C q_cov:82.1%25%2C s_cov:7.9%25%2C Eval:2.3e-50%2C partial hit],internal stop codon at [558380:558382](-)%2C[558422:558424](-)%2C[558461:558463](-)%2C[559031:559033](-),MGA_810
sequence1	MetaGeneAnnotator	CDS	558771	559046	.	+	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIIGTNIVSDAEIAARIIANNPNNLYENNINTRTAKAKITKQAKVIINIILVISALNSLIDRTLNVNPNEVCKISDSTCFAIVLLHTGI;locus_tag=LOCUS_08110;note=MGA_811
sequence1	MetaGeneAnnotator	CDS	559031	559231	.	-	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEILFKKDTTDKNHIVNKNLDQNLFRNNILLHNNQISPENIRIVTTNPAIVTDRKTQTTKLYIPV;locus_tag=LOCUS_08120;note=WP_011166656.1 protein translocase (Mycoplasma mycoides) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:11.8%25%2C Eval:9.0e-31%2C partial hit],internal stop codon at [559031:559033](-),frameshifted%2C insertion/deletion at around 558922,MGA_812
sequence1	MetaGeneAnnotator	CDS	559523	560455	.	-	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRLASFKKVLRFIIVLILILALLTGIGFSSYKISNNISYGAKFVGGYQALVGVYDKTKNQEEEIPNGDAFKGAQSLEKKLSPFSDNTIETQQSGLYRVFIKASKKAYANNQDDFKNAIERTGGLFILDKNYQDIFFNENLMKIIGIDKVYDSSSDKRVAKKLTLEEFLGEAKAESLQPANFSNKNSPFVSFNLKNDYLKNLIDPKKNKDNNALTMITSVGHIIENLRTYYKKANSTNNQVVEQYLNTYFNQIIKPIQDYISSKASSDQLGVKILKDLFTIEYSVPTTEGSHKNLNIQRNSLVDSDIVK;locus_tag=LOCUS_08130;note=WP_020862734.1 protein translocase SecDF%2C variant type (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:1.2e-163%2C partial hit],internal stop codon at [559520:559522](-)%2C[559523:559525](-),MGA_813
sequence1	MetaGeneAnnotator	CDS	560814	561026	.	-	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQGVVIDRIYPKNKLFTVLISTTKPREVKNYLFESGYRNNIHFLENQTAKKENGYIAQSVIMIHIGLMD;locus_tag=LOCUS_08140;note=WP_011166655.1 hypothetical protein (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:27.7%25%2C Eval:5.6e-33%2C partial hit],internal stop codon at [560730:560732](-)%2C[560814:560816](-)%2C[561153:561155](-)%2C[561177:561179](-),MGA_814
sequence1	MetaGeneAnnotator	CDS	561177	561386	.	-	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINFTLLLIFVVLNTVIMPIYKIDSTAKLSVLNTLTDEQFTEIYNKAKDSGKFILDFNSHHHFYLPSN;locus_tag=LOCUS_08150;note=WP_011166655.1 hypothetical protein (Mycoplasma mycoides) [pid:94.1%25%2C q_cov:73.9%25%2C s_cov:20.2%25%2C Eval:7.6e-22%2C partial hit],internal stop codon at [561153:561155](-)%2C[561177:561179](-),MGA_815
sequence1	MetaGeneAnnotator	CDS	561924	562085	.	-	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIPIIKPKKAPPLTIEEINEIKQHSSYEKSYLKTFNKYKKKVEHRIYFKTSF;locus_tag=LOCUS_08160;note=WP_011166654.1 YitT family protein (Mycoplasma mycoides) [pid:90.6%25%2C q_cov:100.0%25%2C s_cov:21.5%25%2C Eval:1.7e-21%2C partial hit],internal stop codon at [561639:561641](-)%2C[561921:561923](-)%2C[561924:561926](-),MGA_816
sequence1	MetaGeneAnnotator	CDS	562125	563486	.	-	0	ID=MGA_817;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166653.1;translation=MKFTDFGFKKYINDTLDQIEFIAPTSIQQKVIPLLKKYQNVIALAHTGTGKTHSFLLPILNNLKLEENNNYVQAVIISPTRELSLQIYQNTKLFLKNNPLINCNLFIGGEDISKNIEQLEKKQPHIVIGTPTRLKELYDLNKLRLTTTSYFIIDECDMIFDLGFIEDVDYLISKINQDVTIGIFSATISQQLSVFCKKYIKNAHFIDDSQNKISTSNVKHILIDTKNKELEQSLIQIINSINPFLCIIFVNQKDEISKIVEILHKNNIKQVAELHGNLQPRLRLSMLKKIQNNEFKYLVATDVASRGVDIKGVSHIISINLPSDLTYYIHRSGRTGRNNSTGYSYIIYNLKNKTQIEELIKKGIEFETKKLIDNQLVDIKTNYKKVKVFKELDAESKQVINKYKNKKVKPNYKKKRKQELDKIKQKIRRKHIKENIEKIKKAKYQKRRAELFD;locus_tag=LOCUS_08170;note=WP_011166653.1 DEAD/DEAH box helicase (Mycoplasma mycoides) [pid:93.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-239],MGA_817
sequence1	MetaGeneAnnotator	CDS	563657	563923	.	-	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLKINSFKKYGKDKESNLFYLDQKISVNDLINDLKEIFNLNQIRLNSNISLDTKIKDFYLTSGSGASTMIENMLKDCTFITGEVK;locus_tag=LOCUS_08180;note=WP_011166652.1 Nif3-like dinuclear metal center hexameric protein (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:34.1%25%2C Eval:6.0e-43%2C partial hit],internal stop codon at [563648:563650](-)%2C[563657:563659](-)%2C[564206:564208](-),MGA_818
sequence1	MetaGeneAnnotator	CDS	564552	564935	.	-	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFRLHQVAKLINNSTTIADIGTDHAYLPIYLVQNNKTKIAYACDINQKPLKIALKNVEKFGLTDQIFTILSNGLEFVKNKEILNIDYVTICGLGSQTILEILKNDHQKISNYIICSNTSVKNLRL;locus_tag=LOCUS_08190;note=WP_011166651.1 class I SAM-dependent methyltransferase (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:56.4%25%2C Eval:1.1e-65%2C partial hit],internal stop codon at [564486:564488](-)%2C[564552:564554](-),MGA_819
sequence1	MetaGeneAnnotator	CDS	564935	565594	.	-	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVETINKLARVERQLTQELGREPNADEIANRVGEGITGDKVIEIKKLSIEPVSLEKPFGDEDDTHFGDFVEDKDMVSPNEYTEKEILKEVMDKVFEDMPPREEKVIRMRYGIVPTRLRTLLRLAQECNDSNAKELKQAIEELDIHLDTPIEKVRKFNNQIINNNLAKYDSARTLEEVGKELNVTRERIRQIEAKTIRKLKQPSPNNKSGKTLKEFYKGY;locus_tag=LOCUS_08200;note=WP_020862729.1 sigma-70 family RNA polymerase sigma factor (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:43.3%25%2C Eval:2.5e-121%2C partial hit],internal stop codon at [565658:565660](-)%2C[565661:565663](-),MGA_820
sequence1	MetaGeneAnnotator	CDS	565661	566455	.	-	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFNNKSELKKIASFNDFLDYTVSFASKNNNEISSEDVLEVFANIFPNASDNESEKILDVLQQKGIVFSDLIDDDIEQEELEEVEEEIEDVNLEELEELENLEDLDDLDFDLDSTSNNLDDYDENVNDDLDEFKEAKSAAIKGRKSAKSSNHMKYRVGGISNETKIQDIIKTYFYKIGQAPILTKEQEIIYAKMAVSDDPEDVQEGRNKLIESNLKLVISVARKHLNRGLDFADLIEEGNIGLMKAVDKFEYEKGFKFSTYAT;locus_tag=LOCUS_08210;note=WP_020862729.1 sigma-70 family RNA polymerase sigma factor (Mycoplasma mycoides) [pid:81.4%25%2C q_cov:100.0%25%2C s_cov:52.2%25%2C Eval:6.5e-112%2C partial hit],internal stop codon at [565658:565660](-)%2C[565661:565663](-),MGA_821
sequence1	MetaGeneAnnotator	CDS	566500	566802	.	-	0	ID=MGA_822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHPDIKHATINLINLYNKKIYQGNDINKAFDLLKEYNLTGFDKKQEEIINNSLLTSIKIRESEIDDAFSKLDSYHNDTEISNLKKLLVESKNKTERFQI;locus_tag=LOCUS_08220;note=WP_011166649.1 DNA primase (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:16.3%25%2C Eval:3.5e-51%2C partial hit],internal stop codon at [566500:566502](-),MGA_822
sequence1	MetaGeneAnnotator	CDS	567187	568296	.	-	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYISNEKINEIISQVSIVDVISSYLHLIKKGRNYLAVCPFHNDSNPSLTISPEKRIYTCFSCKASGNVINFVKDFEHVDFLTALKTVCDKANISLDEFKNYNQPIKDLEAETIFKLNSEANNIFKTKLFSNLGIQALEYLKSRNISIEQIKKFEIGFASDKTNLVQKLLNKNYNSLDIEKANLGIITNSYTKDYFINRIIFPIKDENNQVIGFSGRSFTKDNEPKYLNTKENKIFKKSHLAYNIASALKISKSLKKIIVLEGFMDVISLSKIDINNTIALMGTSLSNYHLNLFKRHNLDVLLFLDGDDPGVQANIKISHQLLKEKINVLVIDNQTNNDPDELVNNNVKYLKQIINQPIHPVNYLIDKL;locus_tag=LOCUS_08230;note=WP_011166649.1 DNA primase (Mycoplasma mycoides) [pid:92.1%25%2C q_cov:100.0%25%2C s_cov:60.3%25%2C Eval:4.1e-196%2C partial hit],internal stop codon at [567187:567189](-),MGA_823
sequence1	MetaGeneAnnotator	CDS	569006	569359	.	-	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSAQLEDYIKQNNILCKKCQKKDFTQIRKFALMFKTNQGVLEDDSSIVYLRPETAQGIFINFKNVQRSMRKKLPFGIGQIGKSFRNEITPGNFIFRTREFEQMELEFFFDPNDQKD;locus_tag=LOCUS_08240;note=WP_011166648.1 glycine--tRNA ligase (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:25.7%25%2C Eval:7.5e-62%2C partial hit],internal stop codon at [568841:568843](-)%2C[568853:568855](-)%2C[568994:568996](-)%2C[569006:569008](-)%2C[569411:569413](-)%2C[569480:569482](-)%2C[569552:569554](-)%2C[569555:569557](-)%2C[569606:569608](-),MGA_824
sequence1	MetaGeneAnnotator	CDS	569765	570514	.	-	0	ID=MGA_825;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166647.1;translation=MEKTLKGIVLNSFDFQDYDKIITIYSNLYGKISLVCLGVNKIKSKNKYGINYLSYSNFEIFKSKNKFNLSKLKRSELINSFNHISTDFNLYLYANIITSLVLSLDEQIKNYNLYKTLKLSISIINNKPDLGLKVCVLFMFYFLKIIGNQIDLSKCGFCNSKINPIIAISFTNYCSSCKFCYFDDCILIDNQLSNFINSIFKNDFITNLSQEISTNNLNILTRFILNYYQDIVGTYTTSMYLLSTLIRFN;locus_tag=LOCUS_08250;gene=recO;note=WP_011166647.1 DNA repair protein RecO (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-136],MGA_825
sequence1	MetaGeneAnnotator	CDS	570568	570843	.	-	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEIIRENILLKTGQEVPHSVAVLVEHLEQNENEINISCAIIVERQSQKSIIIGKNGVKISDIRYKSKKQIQALFKKHINLELFVKVQEN;locus_tag=LOCUS_08260;note=WP_011166646.1 GTPase Era (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:30.2%25%2C Eval:2.0e-43%2C partial hit],internal stop codon at [570568:570570](-)%2C[571000:571002](-),MGA_826
sequence1	MetaGeneAnnotator	CDS	571000	571419	.	-	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFKSGFVSIIGRPNVGKSTLLNKLIGEKISIVTNKPQTTRNNIRGILTKKDQYQIVFIDTPGVHTSKKQLDKFLNTSALKSTKDVDVILFLAPSDEAIGKNDLFLLKQIKNLDVFKILVITKADNVTKEQLILKANE;locus_tag=LOCUS_08270;note=WP_011166646.1 GTPase Era (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:46.2%25%2C Eval:8.3e-72%2C partial hit],internal stop codon at [571000:571002](-),MGA_827
sequence1	MetaGeneAnnotator	CDS	571423	571701	.	-	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTENEIKAIGFRELGDMFINLSEAKRKAIKYNHDLNSEMGFLFVHGFLHLLGYDHEDLNDEKIMFDLQDQILKLNNLEYIIKFNEDDYLESN;locus_tag=LOCUS_08280;note=WP_011166645.1 rRNA maturation RNase YbeY (Mycoplasma mycoides) [pid:93.5%25%2C q_cov:100.0%25%2C s_cov:56.1%25%2C Eval:1.5e-44%2C partial hit],internal stop codon at [571867:571869](-),MGA_828
sequence1	MetaGeneAnnotator	CDS	571922	572149	.	-	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166644.1;translation=MTKIINLETITKLETEFIKLLRIFYLDHRYLLFNDNFEIINKTDISLVLKLFTSYSNSSLIITSNDIKYNLISKD;locus_tag=LOCUS_08290;note=WP_011166644.1 hypothetical protein (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-34],MGA_829
sequence1	MetaGeneAnnotator	CDS	572876	573769	.	-	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFIKLIKQAQYNDCSIACLAMIINYYYNQNYDLDRLKLEINYVEEMLSFYDISNICSKYFLTCKALQIENDLEQINKKVYLAQVINQTGLLHFVVVEKQNNHLIIYDPLKTKKQKFTYKDFYQIFTGYILIFNSNYKKFKANYNNLFTLFDSFYLAYLFYIILNIFSILLTILEMRFLYVYSLSITNLNNSYFLYLYFLAIFIINIFLNEISKFLLNKYYQKNKSKKLETFYYYLVEKNIKLDIINTYSEIEFISSYQTYVLLNTISALINSLVILFVIFYINKTIFLVLFVFDLF;locus_tag=LOCUS_08300;note=WP_014035056.1 cysteine peptidase family C39 domain-containing protein (Mycoplasma putrefaciens) [pid:60.5%25%2C q_cov:99.7%25%2C s_cov:48.5%25%2C Eval:1.6e-104%2C partial hit],internal stop codon at [572651:572653](-)%2C[572876:572878](-),MGA_830
sequence1	MetaGeneAnnotator	CDS	573804	574157	.	-	0	ID=MGA_831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLPGGSGVTSLFDNQTLIDNILEFNKQNKLIASICAAPQVIGQTKLLDNKTITHYPNCNFYLDKANVVLDKPFVVDNNFITGSSAGSSMLFSLAIVEYLLGKEKKEEIYKNLVIFG;locus_tag=LOCUS_08310;note=WP_011166642.1 DJ-1/PfpI family protein (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:63.9%25%2C Eval:3.7e-61%2C partial hit],internal stop codon at [574188:574190](-),MGA_831
sequence1	MetaGeneAnnotator	CDS	574188	574355	.	-	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIALYLNPGFEEIEAVTACDVLKRAGILVDMVSTIDSLEVKGAHNIVIKANKL;locus_tag=LOCUS_08320;note=WP_011166642.1 DJ-1/PfpI family protein (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:30.1%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [574188:574190](-),MGA_832
sequence1	MetaGeneAnnotator	CDS	574392	574538	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRLYSFETVSKLAGFCVLILFDETINEPINEIPIIKKLTIKVQKANP;locus_tag=LOCUS_08330;note=MGA_833
sequence1	MetaGeneAnnotator	CDS	574616	574879	.	-	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISNIKNQNLLATSKTLINQITFIAISIGMLLIITVIITSALLVMLISDIYVTQYQQFMILMKALGYSNYKISKYAFGTAIVFSLVM;locus_tag=LOCUS_08340;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:5.0%25%2C Eval:2.8e-40%2C partial hit],internal stop codon at [574520:574522](-)%2C[574592:574594](-)%2C[574616:574618](-)%2C[575015:575017](-),MGA_834
sequence1	MetaGeneAnnotator	CDS	575015	575413	.	-	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQATKTKNISGITTPIIQKDAKTNYQNKDLKITIKPVGTLDSYNQKLILADQGLINLVLNLSIGKKIGIKDNFYNKQTVIKAGESYNNIISRFDRYDYNQIINYIDKTKNTKEFNDLLFSSNKAFDKAQFL;locus_tag=LOCUS_08350;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:7.5%25%2C Eval:3.7e-69%2C partial hit],internal stop codon at [575015:575017](-)%2C[575414:575416](-)%2C[575537:575539](-)%2C[575591:575593](-),MGA_835
sequence1	MetaGeneAnnotator	CDS	575591	575776	.	-	0	ID=MGA_836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDDFIYNNQFDDLLSSYIRPYYQYKNIQLYIPQSLINPDHIIHFISSKKTNKELENSFEH;locus_tag=LOCUS_08360;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:90.2%25%2C q_cov:100.0%25%2C s_cov:3.5%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [575414:575416](-)%2C[575537:575539](-)%2C[575591:575593](-)%2C[575798:575800](-)%2C[575897:575899](-)%2C[576026:576028](-),MGA_836
sequence1	MetaGeneAnnotator	CDS	576026	576502	.	-	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPPYVSAYIQKPSRKEQFSIGYNVQHYIPDHETLTTIADIKTAINQKKTDLSLTGIANNQSAFIINQKNANNLFIDYKKLLALQEVFLEKKNTDIKLNDQFVLYDSKTNTINVPVLPNKQANAFYKLNKNPDISNISTSSKQFFINTKNGYVNIPKHA;locus_tag=LOCUS_08370;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:9.0%25%2C Eval:1.3e-83%2C partial hit],internal stop codon at [575798:575800](-)%2C[575897:575899](-)%2C[576026:576028](-)%2C[576536:576538](-)%2C[576653:576655](-),MGA_837
sequence1	MetaGeneAnnotator	CDS	576653	576781	.	-	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGNNLYNVVGNQFSIGVIDQILGLILNSKNNVVNPKDTTTK;locus_tag=LOCUS_08380;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:2.4%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [576536:576538](-)%2C[576653:576655](-)%2C[576860:576862](-)%2C[577049:577051](-),MGA_838
sequence1	MetaGeneAnnotator	CDS	576860	577006	.	-	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNEELFYYKDPTAYASSSYDVNPFPKYLYKVEKFNNNNNEQINKKIA;locus_tag=LOCUS_08390;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:2.7%25%2C Eval:2.4e-18%2C partial hit],internal stop codon at [576653:576655](-)%2C[576860:576862](-)%2C[577049:577051](-)%2C[577295:577297](-),MGA_839
sequence1	MetaGeneAnnotator	CDS	577049	577195	.	-	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFISAGLAIPSIAFTIKNTYYKSIKYANEYNYSKGVSNSPLTKPTINY;locus_tag=LOCUS_08400;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:2.7%25%2C Eval:2.3e-21%2C partial hit],internal stop codon at [576860:576862](-)%2C[577049:577051](-)%2C[577295:577297](-)%2C[577334:577336](-),MGA_840
sequence1	MetaGeneAnnotator	CDS	577334	577504	.	-	0	ID=MGA_841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVNYFSIPLYSFTIEPFSLLISLLIFGLFGVIVSLLSAIIITKKQLADILAVKQN;locus_tag=LOCUS_08410;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:94.6%25%2C q_cov:100.0%25%2C s_cov:3.2%25%2C Eval:4.5e-22%2C partial hit],internal stop codon at [577049:577051](-)%2C[577295:577297](-)%2C[577334:577336](-)%2C[577541:577543](-)%2C[577772:577774](-),MGA_841
sequence1	MetaGeneAnnotator	CDS	578384	578563	.	-	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSISPIINDSSFFKLLFFNGNGTSLTNVVTVLSDTNFIKKDQIIGENPFDNINLFHNI;locus_tag=LOCUS_08420;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:3.4%25%2C Eval:2.6e-25%2C partial hit],internal stop codon at [578384:578386](-)%2C[578750:578752](-),MGA_842
sequence1	MetaGeneAnnotator	CDS	578750	578902	.	-	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFQHIYRNIYLPYFSNFKIENNNKLGNHFYVFLTGNKIDNIDENKTKN;locus_tag=LOCUS_08430;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:83.0%25%2C q_cov:94.0%25%2C s_cov:2.7%25%2C Eval:2.3e-18%2C partial hit],internal stop codon at [578750:578752](-)%2C[579176:579178](-)%2C[579182:579184](-),MGA_843
sequence1	MetaGeneAnnotator	CDS	579200	579664	.	-	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRITSFLLLLKQGLKGVFKFKIQFIIILLLSFLASFILSTSLTLTSRINKTYNNIVNNVNKFDYSSTNEIRTYRIDRNNSTTDRSVIALLDLVNNSNSYYNQSSNNKNTSYLNFILNKKNLTSNFDNKTILTELFENKEFIELFTTINGKDTN;locus_tag=LOCUS_08440;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:8.8%25%2C Eval:1.4e-58%2C partial hit],internal stop codon at [579176:579178](-)%2C[579182:579184](-)%2C[579194:579196](-)%2C[579200:579202](-),MGA_844
sequence1	MetaGeneAnnotator	CDS	579814	580155	.	+	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIGLSTFSLLVSSSSIVSCTITYQFKNNYLDQLKMILNTSSIAAQSIILSDKNTTNISTDYSLKTFSQTKISDLYKNEEKKLANKYVIDKKATYEYQFKSMFLSLENQK;locus_tag=LOCUS_08450;note=WP_011166640.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:13.8%25%2C Eval:1.0e-50%2C partial hit],internal stop codon at [580153:580155](+)%2C[580222:580224](+),MGA_845
sequence1	MetaGeneAnnotator	CDS	580714	581016	.	+	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPLHLFSKEKTNSEFLYEVLNTNLQTIYKNKSEDQIKQEINSINLKKLISFLKNTLVFDNNDKHGYKFQKFVVMLLSSASQKESQNDITNNFLLKPFYN;locus_tag=LOCUS_08460;note=WP_011166640.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:87.9%25%2C q_cov:99.0%25%2C s_cov:12.1%25%2C Eval:6.4e-45%2C partial hit],internal stop codon at [580489:580491](+)%2C[580564:580566](+)%2C[580612:580614](+)%2C[581014:581016](+),MGA_846
sequence1	MetaGeneAnnotator	CDS	581131	582012	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKAFHQDLIEQGLNKKLSSELSSYLSLAKTLLPALKVDKKVIDFLDSKSLKDFLNNPFLALYKQNFLKEVFELINQLSNKEIINNQIIDNISNVYNLTTLKLDKLLNYLLELIKKPSPSKTSLDEFQFLYGLKDLSISQIINNLSTFYNKENLNYIFNLNNFKNLSEAIFNKNITMSFKYKNQEQELKTQNSLSTILTILGLNSNYTKDLKIEIKDDTNKISEKIKQLIEQKQYGLISVILLGFDADKKQFYKDSILDNIANLFGHNDKDINKEASKNAINILIKSYLELIN;locus_tag=LOCUS_08470;note=WP_011166640.1 MOLPALP family lipoprotein (Mycoplasma mycoides) [pid:85.7%25%2C q_cov:100.0%25%2C s_cov:35.7%25%2C Eval:1.3e-138%2C partial hit],internal stop codon at [581014:581016](+)%2C[582010:582012](+)%2C[582079:582081](+)%2C[582187:582189](+)%2C[582235:582237](+),MGA_847
sequence1	MetaGeneAnnotator	CDS	582313	582936	.	+	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLKLLSLSSIISLTTTTISCSVNNSNTKNNLVIPTTNKKPNNSLDTNSKSDKNQDNNSTPKNEEFKPSNNDSNQGSNRNSANSDNQINNNYSNSETIAPIDNSGSDTLNKQTYFSTISNLNHDLTSLENNYLEKVNKDFNEININENDVKNIILKNKMPINFYSHPKYKLENQSVTLDKFANSQAKLKLIDRDTNREVPNDQIK;locus_tag=LOCUS_08480;note=WP_020862723.1 transglutaminase domain-containing protein (Mycoplasma mycoides) [pid:49.0%25%2C q_cov:92.8%25%2C s_cov:24.3%25%2C Eval:6.5e-44%2C partial hit],internal stop codon at [582934:582936](+)%2C[583033:583035](+)%2C[583216:583218](+),MGA_848
sequence1	MetaGeneAnnotator	CDS	583264	583470	.	+	0	ID=MGA_849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNVKYDYDLTTGPILKNQNAHSALVNLKTVCTGYAKGLKLILEELGIPCKFMEGQSKRETSHAKHA;locus_tag=LOCUS_08490;note=WP_020862723.1 transglutaminase domain-containing protein (Mycoplasma mycoides) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:9.2%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [583033:583035](+)%2C[583216:583218](+)%2C[583261:583263](+)%2C[583468:583470](+)%2C[583495:583497](+),MGA_849
sequence1	MetaGeneAnnotator	CDS	584080	584262	.	+	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLESIKRKDYKFEIDKEYKIKFNIKKQEQPNIKIQSIDNNKIKIINETNNLEYSFNYNS;locus_tag=LOCUS_08500;note=MGA_850
sequence1	MetaGeneAnnotator	CDS	584649	585245	.	+	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLQNYLKLLSLGSVVVVAMTTISCNINNSNTRNNLVIPTTNKNPNNNLKPGNSQTSQNNRTPENQNIEPSSNEDSSSNNNNSNIDNNNSYPENIDHIDNNDFNNNINHFSTISNLNYSLSSLDNNYLEYQEKDFQPINVEEAKIKEILLNDKLPLNFYSHPKYKPEKQNIFINPNEKIKLKLVDSKNNTEVKDDVK;locus_tag=LOCUS_08510;note=WP_020862723.1 transglutaminase domain-containing protein (Mycoplasma mycoides) [pid:69.7%25%2C q_cov:100.0%25%2C s_cov:26.7%25%2C Eval:1.9e-74%2C partial hit],internal stop codon at [584476:584478](+)%2C[584527:584529](+)%2C[585243:585245](+)%2C[585381:585383](+)%2C[585501:585503](+),MGA_851
sequence1	MetaGeneAnnotator	CDS	585549	585737	.	+	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEVKYDPGYQTNSIYKDQTAYSALVEKCTVCTGYAKGFKMIMDELSIPCIVMEGQSTRDF;locus_tag=LOCUS_08520;note=WP_020862723.1 transglutaminase domain-containing protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:7.0e-31%2C partial hit],internal stop codon at [585381:585383](+)%2C[585501:585503](+)%2C[585546:585548](+)%2C[585735:585737](+)%2C[585753:585755](+)%2C[585780:585782](+),MGA_852
sequence1	MetaGeneAnnotator	CDS	586209	586547	.	+	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYALKVTLTLDTNIQDLKPGNFNVKNAMVKEVKKVKDGYILFLDNFSKFGNVEVELQSIKRQGFKFNLDQTKFQFDVKKHEKPNVNLKIDKNNKIALIGSKKGMQYRSNMDG;locus_tag=LOCUS_08530;note=WP_020862723.1 transglutaminase domain-containing protein (Mycoplasma mycoides) [pid:92.8%25%2C q_cov:99.1%25%2C s_cov:15.0%25%2C Eval:6.9e-55%2C partial hit],internal stop codon at [586545:586547](+)%2C[586611:586613](+)%2C[586761:586763](+)%2C[586809:586811](+),MGA_853
sequence1	MetaGeneAnnotator	CDS	587021	588139	.	-	0	ID=MGA_854;product=replication-associated recombination protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166639.1;translation=MNQPLSFLLRPKTTKDIIGQTEILKSNGLINKMILNDYCTSLIFYGPSGVGKTSFAISLANDLKIDYEIFNASYDKKEKLTSIIQKALLQDRFILIIDEIHRLNKDKQDILLEYMEKGNIFVFSTTTENPFFVINPALRSRSLLIELKSVNKNELISYAKKVINQYQLKINISDEALDFLAQLSVGDVRTFLNYLELIHRLYSDEFIDIKKIKTIITVSKNPTAQDSDDFHDLKSALQKSIRGSDVDAALYYFSRLIETGDYESLMRRMIIIGYEDIGLANPTIPSRVVQACNAFRQIGFPEGIIPLGLAIVEMSLSLKSNSAYLATNSALDFVKNGNIYNVPKHLKDNHYKSAIKLGIGIDYKYPHDYEND;locus_tag=LOCUS_08540;note=WP_011166639.1 replication-associated recombination protein A (Mycoplasma mycoides) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:90.5%25%2C Eval:1.0e-194],MGA_854
sequence1	MetaGeneAnnotator	CDS	588238	589374	.	-	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGRIIQALKRAKVKNPLFLLDEIDKMASDNRGDPASAMLEVLDPEQNKEFSDHYIEEPYDLSTVMFIATANYIENIPEALYDRMEIINLSSYTEIEKMHIAKDYLTKKILEEDQLTEDELRFTDEAYDEIIKYYTREAGVRQLERHLATIARKFIVKLLNGEITNLVVTREVVVQYLGKHIFEHTSKEEESQVGVVTGLAYTQFGGDILPIEVSTYNGKGNLTLTGKLGEVMKESATIALTYVKANHEKFGISKDKFDDIDIHIHVPEGAVPKDGPSAGITLTTALISALSKQPVSKDFGMTGEITLRGNVLPIGGLREKSISAARSGLKHILIPSKNVKDIEDVPQEVQDVLKITPVSKYEDVYEIIFKNNNQQTI;locus_tag=LOCUS_08550;note=WP_020862721.1 endopeptidase La (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:48.1%25%2C Eval:1.5e-206%2C partial hit],MGA_855
sequence1	MetaGeneAnnotator	CDS	589687	590097	.	-	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLVSLNTKLLLIQSTSILEKLDLLKELIINRPKSTVKLNNNLNNNSTVDSEINKKLKDKMDKQQKEYYLREKMRIIKEELDDENSDASQLDKYKKRLEEEPFPESVKEKILSSIKRIETMQPGSAEVNVERNYVD;locus_tag=LOCUS_08560;note=WP_020862721.1 endopeptidase La (Mycoplasma mycoides) [pid:94.1%25%2C q_cov:100.0%25%2C s_cov:17.3%25%2C Eval:3.3e-65%2C partial hit],internal stop codon at [589666:589668](-)%2C[589669:589671](-)%2C[589687:589689](-)%2C[590362:590364](-),MGA_856
sequence1	MetaGeneAnnotator	CDS	590362	590598	.	-	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIKLPVVVTRGIFILPSTSKTIEFGRVKSKNALDASADLYNNQIVVVSQESPLEEEPNLEHLFYLGTVADLSVKKV;locus_tag=LOCUS_08570;note=WP_020862721.1 endopeptidase La (Mycoplasma mycoides) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:1.9e-36%2C partial hit],internal stop codon at [590362:590364](-),MGA_857
sequence1	MetaGeneAnnotator	CDS	590721	591572	.	-	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRSRFAMQKEKQADDQIQKGDIVTFDFKGYVDDQAFEGGEAKDFVLEIGSNQFVPGFEDSMIGLKVGENQEINVKFPEEYIPSLAGKDAKFVLNIKNIKEKILPAKDDELVKDLNLPDITTYEQLEQKVKEDVLEQKTKISKSEFVESIIDEIIKNSEFQIPKTIIERQIKDVKKEFEDQLAQQKITLDKYKEITKITQEEIDEELKSDATHRIKSFLVASEIKNKENIVASEEAINAKFEEFANLYGIEAEKIKSLIDNQAIKHQVESELLETFIFENNGN;locus_tag=LOCUS_08580;note=WP_011166637.1 trigger factor (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:66.1%25%2C Eval:7.6e-154%2C partial hit],MGA_858
sequence1	MetaGeneAnnotator	CDS	592024	592326	.	-	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166636.1;translation=MYIDIEKNSKGNLKIESKVINRLVENVILSMTKISDPKNVSSSIYVLDENQLHILATIKIGDEKLQDLNINEDKIFKAIDKTINQTISMKPKNINISYIR;locus_tag=LOCUS_08590;note=WP_011166636.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-49],MGA_859
sequence1	MetaGeneAnnotator	CDS	592344	592574	.	-	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINMTEFENEVLGIDLPVKVELTVVEAEAAVKGDTTSGAQKKAILETGLEIMVPLFVNQGTKIIVSSADGKYVGRA;locus_tag=LOCUS_08600;note=WP_011166635.1 elongation factor P (Mycoplasma mycoides) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:41.3%25%2C Eval:1.5e-33%2C partial hit],internal stop codon at [592602:592604](-),MGA_860
sequence1	MetaGeneAnnotator	CDS	592602	592898	.	-	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVNDLRPGTTFLYDGNIYLVLEQAFSKTGRQQGKVTVKAKNMRTGARVELTFTGGEKVDKAMIERKEMQYLYNDGNDAYLMNTETYEQVSIPMTRLE;locus_tag=LOCUS_08610;note=WP_011166635.1 elongation factor P (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:53.3%25%2C Eval:7.8e-51%2C partial hit],internal stop codon at [592602:592604](-),MGA_861
sequence1	MetaGeneAnnotator	CDS	592985	593152	.	-	0	ID=MGA_862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGTIIDINKQGIVIKTLDKALLILEIQKEGKKMILASNYYLNKLSDLKINDKFD;locus_tag=LOCUS_08620;note=WP_011166634.1 methionyl-tRNA formyltransferase (Mycoplasma mycoides) [pid:92.7%25%2C q_cov:100.0%25%2C s_cov:17.4%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [593291:593293](-),MGA_862
sequence1	MetaGeneAnnotator	CDS	593291	593938	.	-	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKIKVVFCGTPKIGADVLKALIEMNEVEVVLVISQPDKPIGRKKQIVYTPVKKLALENNLKVVQPNKIGEIYDELAKLEFDFLITCAFGQFIPTKILKLAKIDSINFHGSLLPKLRGGAPIQYAIKNGDKKTGITIMQMVKQMDAGDYYVQESIDILDSDDSGSLFEKMGQLAYSMCKKYLVDIYNHKFELIKQNENEVTFCKNISSEEEKIN;locus_tag=LOCUS_08630;note=WP_011166634.1 methionyl-tRNA formyltransferase (Mycoplasma mycoides) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:67.8%25%2C Eval:1.8e-113%2C partial hit],internal stop codon at [593291:593293](-),MGA_863
sequence1	MetaGeneAnnotator	CDS	594213	594683	.	-	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNNYFYILKQVMNKYKTLPIYMYDFETVKFAVPKYNKVNPYYQIPFQYSIDIIHDKNYDYNNPDSMIHYDFLANDYQDPRKEFIINFLKDIFSNKKGVYVAYNDAFEKSVLKRIAFLFPKLAIPILYIVNNTIDLMDFFKGVKQDSSIDANFRP;locus_tag=LOCUS_08640;note=WP_011166633.1 DUF2779 domain-containing protein (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:21.8%25%2C Eval:9.5e-87%2C partial hit],internal stop codon at [593949:593951](-)%2C[594048:594050](-)%2C[594213:594215](-)%2C[594888:594890](-)%2C[594915:594917](-)%2C[594963:594965](-)%2C[594972:594974](-),MGA_864
sequence1	MetaGeneAnnotator	CDS	594972	595421	.	-	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVLERNGYIVDNIAIARLNKNYLRDYDSNVDFDLKTSIEEFVSQYKDISFDQAKKIVDNIGDLDLGFKNIDEIDDLDLNKLIEIDYFTYGQAKTRNTLIEDYKSLINVVDIDELFLKIAYMLRLDENQIIEIFKNDSCYLHYDKKGKN;locus_tag=LOCUS_08650;note=WP_011166633.1 DUF2779 domain-containing protein (Mycoplasma mycoides) [pid:92.6%25%2C q_cov:99.3%25%2C s_cov:20.7%25%2C Eval:3.3e-75%2C partial hit],internal stop codon at [594888:594890](-)%2C[594915:594917](-)%2C[594963:594965](-)%2C[594972:594974](-)%2C[595437:595439](-),MGA_865
sequence1	MetaGeneAnnotator	CDS	596148	596303	.	-	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAKKLAQQEKEQLKKAKEKQKSQKGSLDIYQERKLNISNKKFVPSRAKSN;locus_tag=LOCUS_08660;note=WP_011166632.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:68.6%25%2C s_cov:17.1%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [596415:596417](-),MGA_866
sequence1	MetaGeneAnnotator	CDS	596415	596573	.	-	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYARKGAEYKYRDVFDVIVQLIEPKTQKVIEIRAYEVEGLTTKVNKSQYNTE;locus_tag=LOCUS_08670;note=WP_011166632.1 hypothetical protein (Mycoplasma mycoides) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:25.4%25%2C Eval:7.7e-22%2C partial hit],internal stop codon at [596415:596417](-)%2C[596703:596705](-),MGA_867
sequence1	MetaGeneAnnotator	CDS	597040	597543	.	-	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHYAKVEFNKTTKQYELIKASDTNKDQTYFLSQLNQNQLSKTLFPLANLTKEQVRKIALEQNLITANKKDSTGICFIGERHFTDFLQNYIPSQTGDIVDIKTNKVLGQHIGIMYYTIGQRKGIHLSGMSEPYYVADKDVEKKILYVCSTSDQSYLYSTSCFVNDIN;locus_tag=LOCUS_08680;note=WP_202943733.1 tRNA 2-thiouridine(34) synthase MnmA (Mycoplasma leachii) [pid:92.8%25%2C q_cov:100.0%25%2C s_cov:44.3%25%2C Eval:2.5e-86%2C partial hit],internal stop codon at [597040:597042](-)%2C[597682:597684](-)%2C[597829:597831](-),MGA_868
sequence1	MetaGeneAnnotator	CDS	597829	597966	.	-	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINFERIYMKQKVVVGLSGGVDSSVACYLLLQQGYEVEGLFMRN;locus_tag=LOCUS_08690;note=WP_202943733.1 tRNA 2-thiouridine(34) synthase MnmA (Mycoplasma leachii) [pid:89.5%25%2C q_cov:84.4%25%2C s_cov:10.1%25%2C Eval:8.4e-13%2C partial hit],internal stop codon at [597682:597684](-)%2C[597829:597831](-),MGA_869
sequence1	MetaGeneAnnotator	CDS	598046	598360	.	-	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLLKELLDIVQNKRPFEEKQKTYKDITINESLKDSILVELRFFFETKFSINQKKEADQVINQFNEEIEKLINNKNVKELEKKLIDLIKENKKLEIELKDISN;locus_tag=LOCUS_08700;note=MGA_870
sequence1	MetaGeneAnnotator	CDS	598427	598906	.	-	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLFVLSFLTILSSSILVVSCKNNKIHNSSEHKKNNDIKDNSESKNKHNNQNNTNSKNDISIKNPINKENQPKHIDDNSNKNPEIKREKNDQIDDSTNQQNDQPTEKEPISDGLEKEKERVTSLLKDLSKTSEIKYLGEELIFTKQDFYSQKIRNEE;locus_tag=LOCUS_08710;note=MGA_871
sequence1	MetaGeneAnnotator	CDS	598945	599625	.	-	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFLTIISSLLVLTTGITSVSCNKPVSNTKTNNTNKTDKNISNSNSSSSKEQHNPKINIEPNDKNKIDKTLSEFENRLDQLIKNKEFGQVKSLAFELIFKNYLSPLERQTEKKIREINEKILKLFSESNFNQIKAEITILISNSFNNNKVTDQQRKEITELLDQVSLENKEKILLKINEVFAKVTRSEIQEYQNKLINEIEQLIANKQYEKLKEKTLSLANKKTN;locus_tag=LOCUS_08720;note=MGA_872
sequence1	MetaGeneAnnotator	CDS	599636	599854	.	-	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDKVTKDNKEGILEEVKNLFGQKISKELEEKLKSETDEINNLLSKMQYETIKTKLFDIVDKTAELEKNIKQ;locus_tag=LOCUS_08730;note=MGA_873
sequence1	MetaGeneAnnotator	CDS	599990	600361	.	-	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLLSFITALSSSLIVVSCKTDNTNQKIKEKDNKNDSNQKSKELEKPNGSLNPSEQDLPKDQPSTKKEKDEKTDSFADKLKKDLKKILDKKEDLKIREYSTKLISKYFQKSSEKKLLKD;locus_tag=LOCUS_08740;note=MGA_874
sequence1	MetaGeneAnnotator	CDS	600439	600594	.	-	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKISNEFEQELKTRINEINSLLTKKDYDSIKTKLFDIVDKSARLEKSKI;locus_tag=LOCUS_08750;note=MGA_875
sequence1	MetaGeneAnnotator	CDS	600575	601156	.	-	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLLSFITALSSSLIVVSCKTDNTNQKIKEKDNKTDSNKKETETPNNNLNPSEKDLPKDQPITKEEKNEKIDDFAEKIKKEVKEVLDTKQSSKILGYSASLISKFLQRSSQKQSLEQLTNLENKISKLFDESKFDDVKTEITLLFSDSLDNNINNNETKKLKELLDKITKDNKELILDTTRELLEKKDI;locus_tag=LOCUS_08760;note=MGA_876
sequence1	MetaGeneAnnotator	CDS	601537	601737	.	-	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTDRMKTFIKYKDHQNVIYDRSILDSMVFSQTDHMYNRLSDTDYNVFKDYFLTCILPNIFDIKNN;locus_tag=LOCUS_08770;note=WP_011166628.1 deoxynucleoside kinase (Mycoplasma mycoides) [pid:89.4%25%2C q_cov:100.0%25%2C s_cov:30.8%25%2C Eval:1.0e-29%2C partial hit],internal stop codon at [601366:601368](-)%2C[601399:601401](-)%2C[601429:601431](-)%2C[601537:601539](-)%2C[601738:601740](-),MGA_877
sequence1	MetaGeneAnnotator	CDS	601738	601923	.	-	0	ID=MGA_878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIAIFGTTGAGKTTLLENLKKLLDSSYVFINETSLDCPYFNKAYDDTNKNVQDYNYKLDL;locus_tag=LOCUS_08780;note=WP_011166628.1 deoxynucleoside kinase (Mycoplasma mycoides) [pid:86.9%25%2C q_cov:100.0%25%2C s_cov:28.5%25%2C Eval:6.8e-26%2C partial hit],internal stop codon at [601537:601539](-)%2C[601738:601740](-),MGA_878
sequence1	MetaGeneAnnotator	CDS	601933	602592	.	-	0	ID=MGA_879;product=5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166627.1;translation=MKLIISAMYEELAYTLKKTNAQLIIDNDILKLYQYQNILLAISKIGLVNASCCLSYILNHYQIDQILNIGTCCSLNQEYKQNDIVIVNKAYYFSVDVTGFSYSYGQIPKLPKYFLANNFLNLSLDYKICNIASGDVFINKYEHLTQFINKINDKIDIVDMEACSLFHVAYLYKKPISSIKVISDVMFVSDSNMLQFDQFINKASKKIYQILNDLYFKID;locus_tag=LOCUS_08790;gene=mtnN;EC_number=3.2.2.16%3B 3.2.2.9;note=WP_011166627.1 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase (Mycoplasma mycoides group) [pid:78.8%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:6.8e-95],MGA_879
sequence1	MetaGeneAnnotator	CDS	602576	602815	.	-	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLDIIVFCADKISIERDYLGVDKLRELCFSDLMLGFKTLLKNQYDLAIKKHGKDHIGSMLIKTINYYLKDYNYETNN;locus_tag=LOCUS_08800;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:77.5%25%2C q_cov:89.9%25%2C s_cov:19.3%25%2C Eval:3.0e-26%2C partial hit],internal stop codon at [602876:602878](-)%2C[602915:602917](-)%2C[602987:602989](-)%2C[603047:603049](-),MGA_880
sequence1	MetaGeneAnnotator	CDS	603047	603322	.	-	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDFKVFKRNEDYNKQVLNKYNLELFEFENNYLSSTDIRNLKHLDKQIKEINDYVNYNLMYLYERLETKMDQKRYIHCLNVGKMAHDLAIK;locus_tag=LOCUS_08810;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:84.6%25%2C q_cov:100.0%25%2C s_cov:24.8%25%2C Eval:1.9e-41%2C partial hit],internal stop codon at [602876:602878](-)%2C[602915:602917](-)%2C[602987:602989](-)%2C[603047:603049](-)%2C[603347:603349](-)%2C[603587:603589](-),MGA_881
sequence1	MetaGeneAnnotator	CDS	603347	603520	.	-	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEIIKNKFSYIKIYDYEIKNKKTTPTYQTVKHILKTNPNDHFSFIMGSDQLDRFEE;locus_tag=LOCUS_08820;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:86.0%25%2C q_cov:100.0%25%2C s_cov:15.5%25%2C Eval:3.1e-23%2C partial hit],internal stop codon at [603347:603349](-)%2C[603587:603589](-),MGA_882
sequence1	MetaGeneAnnotator	CDS	604322	604573	.	-	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIYSSQLDYDCANELIKTNQLKNIEVNLEASFDAFKNSFSNLDEKPSLLAISNAKARLRMTTLYTIAQTKRYLVLGTDNLDE;locus_tag=LOCUS_08830;note=WP_013447835.1 NAD(+) synthase (Mycoplasma leachii) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:33.9%25%2C Eval:1.8e-39%2C partial hit],internal stop codon at [604175:604177](-)%2C[604322:604324](-)%2C[604574:604576](-),MGA_883
sequence1	MetaGeneAnnotator	CDS	604574	604768	.	-	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNWSEQINMQTNLKQYLDYLVEFIQQTVKKAKCDGVVVGISGGIDSAVVANLAKLAFPDNYLTV;locus_tag=LOCUS_08840;note=WP_013447835.1 NAD(+) synthase (Mycoplasma leachii) [pid:91.1%25%2C q_cov:87.5%25%2C s_cov:22.9%25%2C Eval:3.5e-22%2C partial hit],internal stop codon at [604322:604324](-)%2C[604574:604576](-),MGA_884
sequence1	MetaGeneAnnotator	CDS	605028	606047	.	-	0	ID=MGA_885;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166623.1;translation=MKFVDSADLIIKAGKGGDGAVSFLHALFVPNGGPNGGDGGDGGSVYFLGDEGKHSLLDLKLQKKYSAQDGFKGDIKNMHGAKGEDKIIKVPVGTILYDKKTNTILADINENNKLVLIAKGGKGGKGNARFANSRNKAPTIFEAGELGQEFEIRAELKVLADVGFVGLPNAGKSTLLRAISNSKPVVADYPFTTITPQLGVARTKNNDTFIVADLPGLIQGASLGKGLGHQFLKHIERCLVICHIIDASGNFGSEDIIKNYELIRDELKAYNLNLEKRPEVIVLNKMDLDEAQLNLLDEKIINYFKDKKVVQISGLKKENIDQLLFMIYEELKVAKKQPL;locus_tag=LOCUS_08850;gene=obgE;note=WP_011166623.1 GTPase ObgE (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:78.3%25%2C Eval:9.9e-178],internal stop codon at [604755:604757](-)%2C[604878:604880](-)%2C[604929:604931](-)%2C[605028:605030](-),MGA_885
sequence1	MetaGeneAnnotator	CDS	606208	606462	.	-	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKQVYLKMNNINFDPKNYKYFKDYNFFMVKFFNITCSLCDSYEISFVTNQSPIPIGSLIKKQTKKLSEKEVEQLVNEQIVI;locus_tag=LOCUS_08860;note=WP_013447837.1 hypothetical protein (Mycoplasma leachii) [pid:78.9%25%2C q_cov:84.5%25%2C s_cov:68.9%25%2C Eval:6.5e-29%2C partial hit],internal stop codon at [606145:606147](-)%2C[606208:606210](-),MGA_886
sequence1	MetaGeneAnnotator	CDS	606791	607174	.	-	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYYEQTLDQIRDLIDNNKFDQALKLINQELEISYIPNDFEKSLYKFLKEIKEKQATNLNKTYSVLEIKNLLNSKNQLDQIIAIKNLININIRLIIDDIINYLLNLENVYENKALLLISLADQQID;locus_tag=LOCUS_08870;note=WP_011166621.1 DUF3196 family protein (Mycoplasma mycoides group) [pid:58.3%25%2C q_cov:100.0%25%2C s_cov:50.8%25%2C Eval:1.6e-35%2C partial hit],internal stop codon at [606791:606793](-),MGA_887
sequence1	Aragorn:1.2.38	tRNA	607229	607305	.	-	.	ID=Aragorn_26;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_26
sequence1	MetaGeneAnnotator	CDS	607556	608107	.	-	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLINKTSNQTSTIYLTNKIDPLNKNYDDSDRFLLPFLIKDYNPIQIGHHISSLKDYSKFVCDKDRIIDFLDAVLLSTNYINLIDILKVDSNYLADFLIQRKKLALVDTLHLYKLNDHNIYKKQYNSISLEDLKFNQDVLKEIIKKEFRIEVLKTNNQFVNMLKIISLILALVPSTARRYNYS;locus_tag=LOCUS_08880;note=WP_011166620.1 hypothetical protein (Mycoplasma mycoides) [pid:83.6%25%2C q_cov:100.0%25%2C s_cov:34.2%25%2C Eval:8.5e-84%2C partial hit],internal stop codon at [607556:607558](-)%2C[608159:608161](-)%2C[608252:608254](-)%2C[608288:608290](-),MGA_888
sequence1	MetaGeneAnnotator	CDS	608288	608926	.	-	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKIKTDRFKKVDELLKKKINEIFEITHYGLFQYQILKDKPLINIDDSSISEICKYITNNYSRFFEYLNYNNSKTSVYSSKLTKNELEEISFIIENISIRYIADNLILTNNNNYNSDFLTLLLIELSKMHRFDTNFLARNNDKIVYHSLVYPLFLTMLVIDITNEAQMFNNIKKIYTKQNILNALKSGRPLSSNELNYFKSHIDILEYDEE;locus_tag=LOCUS_08890;note=WP_011166620.1 hypothetical protein (Mycoplasma mycoides) [pid:84.0%25%2C q_cov:100.0%25%2C s_cov:39.6%25%2C Eval:7.4e-99%2C partial hit],internal stop codon at [608159:608161](-)%2C[608252:608254](-)%2C[608288:608290](-)%2C[608942:608944](-),MGA_889
sequence1	MetaGeneAnnotator	CDS	609002	610570	.	-	0	ID=MGA_890;product=ABC transporter B family permease/ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447839.1;translation=MIGINLLIIIICEYFTNFTVSLYSAQIEVMQRLKILKALTDQDVDFYFDHVSGNILTRLVGDTQFLALGVQQFLTNLIYALSGSITAIIIMYSQNLVMIATLALIYLLVANLFCIGFFIDMRRKLILAFDVKRETDADMTDRINNISLIKASGTEEFEIKRLEQKNQNYEDGLTKFTYSSALLNTSLTFVIQLLIPIIFIIIAVQYLTNNQSSNNLGAEIALIFPLLSTLIGGIAILLPSLRSATAASNAANRISELTDPKPMIHSNLKGYKIDKIDSIVFDNISFSYPKKPERIVIPPTYLTFEKGKSYAFVGQTGSGKTTIAKLLLRFYAPTGGKILINNEYNLNRINLPAYLDHIGYVEQEPQILYGTFLDNIKYSKFDATDEQVIEACKKAELHDFIMSLPDQYNTVLGQRGFILSGGQKQRLVIARVFLKDPDVVILDEATSALDNVVEKEIQDKLDELIKGRMCITIAHRLTTIKNVDHIYVLGANGTGIVQSGTFDELKKQPGHFRNLYEAGLMQ;locus_tag=LOCUS_08900;note=WP_013447839.1 ABC transporter B family permease/ATP-binding protein (Mycoplasma leachii) [pid:90.7%25%2C q_cov:99.2%25%2C s_cov:84.0%25%2C Eval:8.7e-270],internal stop codon at [610577:610579](-)%2C[610601:610603](-)%2C[610613:610615](-)%2C[610811:610813](-),MGA_890
sequence1	MetaGeneAnnotator	CDS	610613	610756	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVEIAKQNPLLFFGVVFFTSLDAIFSAMLPLFSSKVINTLVENNTQ;locus_tag=LOCUS_08910;note=WP_013447839.1 ABC transporter B family permease/ATP-binding protein (Mycoplasma leachii) [pid:87.2%25%2C q_cov:100.0%25%2C s_cov:7.6%25%2C Eval:9.9e-17%2C partial hit],internal stop codon at [610577:610579](-)%2C[610601:610603](-)%2C[610613:610615](-)%2C[610811:610813](-),MGA_891
sequence1	MetaGeneAnnotator	CDS	610871	611152	.	-	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLKNPDILILDEATSALDNVVEKEIQAKLEELMQGRTSITIAHRLSTIRNVDQIIVLAPKKGIIQIGTFKELVKKPGEFKDLYEAGFSKYDA;locus_tag=LOCUS_08920;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:94.6%25%2C q_cov:98.9%25%2C s_cov:14.8%25%2C Eval:1.4e-42%2C partial hit],internal stop codon at [611234:611236](-),MGA_892
sequence1	MetaGeneAnnotator	CDS	611234	611791	.	-	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLICAGMLIGPIMQLLRAIIGMVQASTSAQRIDEITDATQLINNHSLDKKGIRIHKIEGNLVFKNVNFSYPDKPENVILPNFNLVLEKGKSYAFVGQTGAGKSTISKLLLRFYDPTSGEVLINDNINIKDVFLPSYLNHIGYVEQDPSVLLGTVFDNLRYVKPSATDEEIILACKKAELHDLVMT;locus_tag=LOCUS_08930;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:29.7%25%2C Eval:2.0e-93%2C partial hit],internal stop codon at [611234:611236](-)%2C[611837:611839](-),MGA_893
sequence1	MetaGeneAnnotator	CDS	611837	612247	.	-	0	ID=MGA_894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQASVIPNIIFTAFFTMVFTLITLFITTSLYIGLFFISLFLMFGILFGLSFLPMRKLVFNLRKIITDINGDVTDRINTIKLIKANGTEEYEKTRFVQIHDIYYKKYKQISYFQAVMISILFFAINTVQILMTLIAL;locus_tag=LOCUS_08940;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:89.0%25%2C q_cov:100.0%25%2C s_cov:21.8%25%2C Eval:5.9e-62%2C partial hit],internal stop codon at [611837:611839](-)%2C[612443:612445](-)%2C[612464:612466](-)%2C[612476:612478](-),MGA_894
sequence1	MetaGeneAnnotator	CDS	613118	613279	.	-	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLVNIIGQLEGDATVAYTSKDGEKKLYKFIVKVPKPYKSKEVDSLDYINIKA;locus_tag=LOCUS_08950;note=WP_011166617.1 single-stranded DNA-binding protein (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:52.5%25%2C Eval:4.1e-23%2C partial hit],internal stop codon at [613118:613120](-),MGA_895
sequence1	MetaGeneAnnotator	CDS	613672	614181	.	+	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIVFILKIIFDFYNINLISNISNTNDISILTLIGSFIIGFCIIITSNCASGILVDLAKGKLKGLIGVIFFIIGSVIGYISLKLFSKTNLFIKTSSKVFLANNIYYLTILICSLLILFIFYLIIKKYENKYLKQDFNLKINNNLNDQLINNSSKKLFSYKNYYRLFIKN;locus_tag=LOCUS_08960;note=MGA_896
sequence1	MetaGeneAnnotator	CDS	614326	614586	.	+	0	ID=MGA_897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDEFIKITNNGLLNDSSTLINISLFIGCLVCFLLANKFKFELKINKKEFFCFIIGGFLLGFGASLANGCSVGAMYSKISTFDLSG;locus_tag=LOCUS_08970;note=WP_002681018.1 YeeE/YedE family protein (Treponema denticola) [pid:43.5%25%2C q_cov:75.6%25%2C s_cov:16.5%25%2C Eval:7.5e-09%2C partial hit],internal stop codon at [614179:614181](+)%2C[614251:614253](+)%2C[614584:614586](+),MGA_897
sequence1	MetaGeneAnnotator	CDS	614793	616121	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLDRSNSDYFDYLVKEAKNTDNLMLYNPEHFKEKYNINIQLGIDIHQIKDKKQKVLLKRAQQNLQAFEESYDYLIICKELKSNFDLLSVALNSKKGLHNTYIVENEEKIKILSDFFTKNNIKDIVVVPGNLLGLKVVKELKSTNKNITLVQIGYQILNALDYDMVQMLNKDLIDNNVELILKDAVSEFYENKVKLLISDKEIKAQAIVYTDKSLAILDSLTGEENNLFTYYNNSQNNETKKLPIYNDKQIRVDKNYKTNLKNVYAIGNCIKLPDCMINTEKTELQVDTIKKQINNLLNHIFKKQIKPNKIITQTSYFKLFDFNVCYTGLSKSECKSLKINYKTAHVIPTNNSDDVLKQQPIHFQLIFENKTKKILGAQVISKVNVKSKVDVITKMINNNATLDNLKKYCKENKLENDVVGIVTKVALNVSDNKFNQIDHT;locus_tag=LOCUS_08980;note=WP_032728587.1 FAD-dependent oxidoreductase (Francisella tularensis) [pid:27.2%25%2C q_cov:95.0%25%2C s_cov:71.6%25%2C Eval:3.7e-32%2C partial hit],internal stop codon at [614790:614792](+)%2C[616119:616121](+),MGA_898
sequence1	MetaGeneAnnotator	CDS	616161	616445	.	+	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSKEAYNKAHIINAINIPLDELKQRYNEIPNNRPVYIHCRTSRSSYKAIKLLEELGFNNLINIQGSFLQLSYFEYFNDKITNRKKILTDYNFE;locus_tag=LOCUS_08990;note=WP_011949122.1 FAD-dependent oxidoreductase (Clostridium botulinum) [pid:55.9%25%2C q_cov:98.9%25%2C s_cov:16.4%25%2C Eval:4.7e-27%2C partial hit],internal stop codon at [616119:616121](+),MGA_899
sequence1	MetaGeneAnnotator	CDS	616464	617087	.	-	0	ID=MGA_900;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166614.1;translation=MIDRKLFDDQIKLDHNITYLSGSDEAGRGCLAGPLVVASVILKPDYFNPLIKDSKKLNPKTRQLLYDEIIKNCLDYQIIVISSKQVDELNPLQASLLGFKTTISNLKITPDLGLIDGNQNINLENIKTLSVIKGDDKSFSIACSSILAKVTRDKILDEYDQIYPNYGFKSHKGYCTKHHLLAIQKYGILDIHRKSYKPIKKISKETS;locus_tag=LOCUS_09000;EC_number=3.1.26.4;note=WP_011166614.1 ribonuclease HII (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-108],MGA_900
sequence1	MetaGeneAnnotator	CDS	617084	617239	.	-	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERILSSFLKDLEKGKLGKISFEKVLEVVPEEIQKAINPEDNKQGNDISSL;locus_tag=LOCUS_09010;note=WP_011166613.1 ribosome biogenesis GTPase YlqF (Mycoplasma mycoides group) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:16.1%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [617264:617266](-),MGA_901
sequence1	MetaGeneAnnotator	CDS	617264	617395	.	-	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYVYNNYDDVIEKYYKINLRLQKPISVIDSYKIFETIGIEKK;locus_tag=LOCUS_09020;note=WP_011166613.1 ribosome biogenesis GTPase YlqF (Mycoplasma mycoides group) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:13.6%25%2C Eval:3.9e-18%2C partial hit],internal stop codon at [617264:617266](-),MGA_902
sequence1	MetaGeneAnnotator	CDS	617813	617998	.	-	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTLKDIEARIEMVDVVVEVIDSRAPYSSKNTTFKKLLKDKPIVYIFSKADIADSKITQQ;locus_tag=LOCUS_09030;note=WP_011166613.1 ribosome biogenesis GTPase YlqF (Mycoplasma mycoides group) [pid:86.9%25%2C q_cov:100.0%25%2C s_cov:19.3%25%2C Eval:9.2e-23%2C partial hit],internal stop codon at [617813:617815](-)%2C[618011:618013](-),MGA_903
sequence1	MetaGeneAnnotator	CDS	618130	618513	.	-	0	ID=MGA_904;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166612.1;translation=MSSKATKTVKSKFDIINNQLRNDLIDFRSGDTIRVDVKIKEGDKFRIQSFEGLVIKTQGSGITYSVVVRKMSNGVFVERTFPLHSPIIDSVTLIKRGKVRRSRIYYIRNLSGKAARIKEIMPTKQAK;locus_tag=LOCUS_09040;gene=rplS;note=WP_011166612.1 50S ribosomal protein L19 (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:4.1e-63],MGA_904
sequence1	MetaGeneAnnotator	CDS	618629	619237	.	-	0	ID=MGA_905;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166611.1;translation=MKFSIITLFPKIINSYIEESIIKRAINKQAIQIEVIDLRDFSTLSHNQVDDYQYGGGSGMVLMIEPLIRAIESVKTTNSIVLLTTPQGKTLNQSIVKKYANNDEHIIIICGHYEGYDERILDYIDDEISIGDYVITGGELASLILVDSISRIIPNVIKQESHENESFENNLLDHPVYTKPYEFRNKKVPDVLLSGHHQNIKK;locus_tag=LOCUS_09050;gene=trmD;EC_number=2.1.1.228;note=WP_011166611.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mycoplasma mycoides) [pid:94.6%25%2C q_cov:100.0%25%2C s_cov:84.2%25%2C Eval:3.9e-107],internal stop codon at [618629:618631](-),MGA_905
sequence1	MetaGeneAnnotator	CDS	619323	619733	.	-	0	ID=MGA_906;product=16S rRNA-processing protein RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166610.1;translation=MNANLIKIGVIVNTFSIKGQVKVILNDDIMIDDLNKIDTFFIKTNNNFQVLRIQNITLNKTKNQLIVKFLNLDNINDVIKYKNQEIYCLKDKNISQIISLIGFKFVSLKTNGIISDYMNNTYQQLVKVKSENQKEF;locus_tag=LOCUS_09060;note=WP_011166610.1 16S rRNA-processing protein RimM (Mycoplasma mycoides) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:82.7%25%2C Eval:2.6e-54],internal stop codon at [619323:619325](-),MGA_906
sequence1	MetaGeneAnnotator	CDS	619876	620043	.	-	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLRLKRIGKKQAPFYRIVAADSRINRNGQYIELVGTFNPLKDEVKIDKELTLK;locus_tag=LOCUS_09070;note=WP_011166609.1 30S ribosomal protein S16 (Mycoplasma mycoides) [pid:94.5%25%2C q_cov:100.0%25%2C s_cov:50.9%25%2C Eval:2.4e-23%2C partial hit],internal stop codon at [619876:619878](-),MGA_907
sequence1	MetaGeneAnnotator	CDS	620134	620601	.	-	0	ID=MGA_908;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166608.1;translation=MKIKIICFGKLDKKFYIDAFNDYFKRLEKYADIEIIELKEEINGELNKIKELNSDLLLNKLESYKDFEKVILDVNSKLISTENLVDLIQTNLNYKNAKILFVIGPSDGYSKKFLNFFNNKISLAKITLPHQLCRIVLIEQIYRVFKIIKNEKYHK;locus_tag=LOCUS_09080;note=WP_011166608.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Mycoplasma mycoides group) [pid:85.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-73],MGA_908
sequence1	MetaGeneAnnotator	CDS	620605	621948	.	-	0	ID=MGA_909;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166607.1;translation=MGFGDFLSKRMQKSIEKNMKNSTLNEENIKETLKEIRLSLLEADVNIEAAKEIINNVKQKALGGYISEGASAHQQMIKIVHEELVNILGKENAPLDINKKPSVVMMVGLQGSGKTTTANKLAYLLNKKNKKKVLLVGLDIYRPGAIEQLVQLGQKTNTQVFEKGKQDPVKTAEQALEYAKENNFDVVILDTAGRLQVDQVLMKELDNLKKKTSPNEILLVVDGMSGQEIINVTNEFNDKLKLSGVVVTKLDGDARGGATLSISYLTKLPIKFIGEGEGYNALAAFYPKRMADRLMGMGDIETLFERAVENIDERSIQKTMNRMFLGQFDLEDLRNQLAQIAKMGSLNKLMKMLPINKVSESQIQEAQRKLAVFSILMDSMTLKERRDPRVLKAISRKNRIIKGSGRSEKEFNELINSFEKGKKQVLEITKMIKSGRMPNLSKGGFKF;locus_tag=LOCUS_09090;gene=ffh;note=WP_011166607.1 signal recognition particle protein (Mycoplasma mycoides) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-232],MGA_909
sequence1	MetaGeneAnnotator	CDS	621982	623313	.	-	0	ID=MGA_910;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166606.1;translation=MLFLKRSELEKNELDRVKEQLDLRANDLKRSQEIVESKSQRLDAGILDLEKRKFLVDQKEEYLIKLLEDVSGLTKYQAKELLIKQIKNKSEKELISILKNAELQAHSKAKIISNNILISAMERIKVELTSQRTTNIVKLPSDDLKGRIIGKDGRNMKTFEQIGGVDIVVDETPNVVVVSSFNPIRREIATRTLEQLIIDGRIQPVKIENELKKQEQELEYIIQETGLNTIKELNINDIDIELVKLIGKLKFRTSYGQNVLAHSIEVAKLSGAIASELGLDVEKAIRAGLLHDIGKAIDFEKQGSHVVLGAEIARKYNEDPIIINSIESHHEDKEKSSEIAAIVAIADSISASRPGARYNAIDEFILRMHEIEKIGNSIPGVAKTYALQSGRQIRLIVDPLVASDLDLALILEKMKEQIKNKVIIPGEITITVIREKKETDILK;locus_tag=LOCUS_09100;gene=rny;note=WP_011166606.1 ribonuclease Y (Mycoplasma mycoides group) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:87.0%25%2C Eval:6.8e-220],MGA_910
sequence1	MetaGeneAnnotator	CDS	623769	624581	.	-	0	ID=MGA_911;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166605.1;translation=MFGKGSIMVLGQSDNLNIETFSSGSLLLDNALGIGGYPKGRIIEIYGPESSGKTTLSLHAICEVQRLGGIAAFIDAEHSLEPKYCQTLGIDTNKLLVSQPDNGEQALDILEMLINSNSIDLIVVDSVAALVPKTELDGEMSDQSIGLQARMMSKALRKLNGLIAKSNTTVIFINQLREKIGVIFGNPETTTGGKALKFFSSIRLEVRKSENILNNSEIIGNKIKIKVVKNKTAIPFKTTTISLLYNKGIDKLGELVDLLVSYEIIEKSGV;locus_tag=LOCUS_09110;gene=recA;note=WP_011166605.1 recombinase RecA (Mycoplasma mycoides group) [pid:93.0%25%2C q_cov:100.0%25%2C s_cov:78.3%25%2C Eval:2.5e-138],internal stop codon at [623715:623717](-)%2C[623769:623771](-)%2C[624624:624626](-),MGA_911
sequence1	MetaGeneAnnotator	CDS	624726	625274	.	-	0	ID=MGA_912;product=nicotinamide-nucleotide amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447851.1;translation=MIDAEKYKTWVIDKISSFFLIDCGDFMSLKKLVKLLIKNNLTISTCESFTGGLFSNLITNIKNSSKTFYGSFVCYQTMFKENILNIDKQVIKKNGVISFECAKEMLIKTYELTKTNIVLSFTGNAGPNSMENKPVRLAYIGIKFNDQIKVYEFKPKFIGSRRCFKKRAIKFVIKILKKMILF;locus_tag=LOCUS_09120;note=WP_013447851.1 nicotinamide-nucleotide amidohydrolase family protein (Mycoplasma leachii) [pid:83.3%25%2C q_cov:85.7%25%2C s_cov:100.0%25%2C Eval:3.1e-70],MGA_912
sequence1	MetaGeneAnnotator	CDS	626411	626887	.	-	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIFLNSLLVISLTSLVVSCYQLDTQTLEMLSTKIKDELNEVDLKITNLQKENNSLESQLQELKNIEKISYKFEPFTRLYDKANGYRYKASKINLPTKNQYFKIKIKLNKFKNNQQVKVLLNDIQIKENQILNQEKINYQLKQNIENTKEDLSKF;locus_tag=LOCUS_09130;note=WP_011166603.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:91.8%25%2C q_cov:100.0%25%2C s_cov:38.8%25%2C Eval:9.3e-77%2C partial hit],internal stop codon at [626135:626137](-)%2C[626210:626212](-)%2C[626411:626413](-)%2C[627135:627137](-),MGA_913
sequence1	MetaGeneAnnotator	CDS	627735	627923	.	-	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYYDDEGENYLKPFNKNIHYVQAFEMPTNISKISALLPREVNSLSKVFNQITSANVDGIEK;locus_tag=LOCUS_09140;note=WP_011166602.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:13.0%25%2C Eval:2.5e-28%2C partial hit],internal stop codon at [627510:627512](-)%2C[627585:627587](-)%2C[627660:627662](-)%2C[627735:627737](-)%2C[627984:627986](-)%2C[627999:628001](-),MGA_914
sequence1	MetaGeneAnnotator	CDS	627999	628238	.	-	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKEKLPKKISDTIDLNGSLYENTVSKLTKDENNKLNQKVKVLVNKDVIELEVGSVKYGQQSIKYKTKEGKIVEKNKDE;locus_tag=LOCUS_09150;note=WP_011166602.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:86.1%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:1.8e-31%2C partial hit],internal stop codon at [627735:627737](-)%2C[627984:627986](-)%2C[627999:628001](-)%2C[628296:628298](-),MGA_915
sequence1	MetaGeneAnnotator	CDS	628296	628439	.	-	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLFSSLAMISTTGFLVVACNNTNNNPVKSEVIINNKQAVIDL;locus_tag=LOCUS_09160;note=WP_011166602.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:74.5%25%2C s_cov:7.4%25%2C Eval:5.1e-13%2C partial hit],internal stop codon at [628296:628298](-),MGA_916
sequence1	MetaGeneAnnotator	CDS	628744	628983	.	-	0	ID=MGA_917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLSVNQIQNKKFNIVYKGYKIEEVNDFLDEIIKDYVCLENQISNLNDQLEQANQKISKLITDKQKTETELDQYVKKN;locus_tag=LOCUS_09170;note=WP_013447854.1 DivIVA domain-containing protein (Mycoplasma leachii) [pid:78.5%25%2C q_cov:100.0%25%2C s_cov:63.2%25%2C Eval:7.6e-30%2C partial hit],internal stop codon at [628744:628746](-),MGA_917
sequence1	MetaGeneAnnotator	CDS	629047	629463	.	+	0	ID=MGA_918;product=Holliday junction resolvase RecU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166600.1;translation=MYPLKNKGQYLETILNITNQKYLDENICIVTKIPTNINLIKINNKIITNATFKDNFNCDYIGIYNGLYFEFDAKETSKDEFNFNAIRKNQQQKLDLVTKHKGLAFIILYFSKYDDFYLISYEQIKQYVSKNKKTIPRD;locus_tag=LOCUS_09180;EC_number=3.1.21.10;note=WP_011166600.1 Holliday junction resolvase RecU (Mycoplasma mycoides) [pid:78.8%25%2C q_cov:99.3%25%2C s_cov:93.2%25%2C Eval:3.8e-61],MGA_918
sequence1	MetaGeneAnnotator	CDS	629540	630103	.	-	0	ID=MGA_919;product=DnaD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166599.1;translation=MTTFLLALKRNFMILKMLEKGIISKKKLLLEYYKKLNLTDNQALIILMIMYLNDQTRKMTTPNLLANYLNLSSVEIEKELELLAEKDLIEIKSDFIDFSNLFQKIGLLVNDSFLIEQNITFFNDLEKNLLFSLTENQKLKLLDLLKTSIKKEQVLQLSINKKLFSFEELLKEVEIFLKSTNKFKQFD;locus_tag=LOCUS_09190;note=WP_011166599.1 DnaD family protein (Mycoplasma mycoides group) [pid:69.7%25%2C q_cov:93.6%25%2C s_cov:97.8%25%2C Eval:3.4e-59],MGA_919
sequence1	MetaGeneAnnotator	CDS	630122	630394	.	-	0	ID=MGA_920;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166598.1;translation=MTKKELIEEIIINENISKVDAEKVVNRIFQTISKHLIDGKEVSVAGFGKFVISERASREGVNPSTGEKIVIPASRSARFKPAKQLKESLM;locus_tag=LOCUS_09200;note=WP_011166598.1 HU family DNA-binding protein (Mycoplasma mycoides group) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-38],MGA_920
sequence1	MetaGeneAnnotator	CDS	630435	631415	.	-	0	ID=MGA_921;product=glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166597.1;translation=MKKNITIIGSSFYGVLLSNVLADNHHNIIIYSENELIVNNINLNHTFNQLKINNKIIATTDLIASLENAEILILACLNDQVESIINQIKKYLKKPVILINTVNGFDENNLDLLSNFIIKQFINTDLLKEYVSLYGPSNASEIILKKPSTAMIVSPNLNLANQLVDIFSNEYFFSYPSLDLITCELVVYFKDLINISLGILNELNAGNNAKASLITIIINFIYQIAKNYNAKLESFLNFATLANLIENILSNDSVYFKLGVDIVKLNDVNKALVKNNLTINKIKVVKIAYLLCIKYEISNEFINTLYKILYNNIRPIALLNHSFKGV;locus_tag=LOCUS_09210;EC_number=1.1.1.94;note=WP_011166597.1 glycerol-3-phosphate dehydrogenase (Mycoplasma mycoides group) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.1e-132],MGA_921
sequence1	MetaGeneAnnotator	CDS	631840	632421	.	-	0	ID=MGA_922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAKILHKSKKPVILAVNKYDKKTIDDHNYQFMSLGFSDLYFISSTHGIGVGDLLDKVISYISKNEEIIKDDSTKIAIIGRPNVGKSSLVNSLVNENRMIVSEIEGTTLDAVDISFSYNKKKYTVIDTAGIRKKSKLGQTIEKYSYLRSLSAISNADIVLLMIDATKPITDQDTNIGGLIYDEKKPVIIVVNK;locus_tag=LOCUS_09220;note=WP_011166596.1 ribosome biogenesis GTPase Der (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:44.4%25%2C Eval:6.1e-99%2C partial hit],internal stop codon at [631840:631842](-)%2C[632581:632583](-),MGA_922
sequence1	MetaGeneAnnotator	CDS	632581	632724	.	-	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQVVAIVGKPNVGKSSLFNRIIKEKKSIVDDKPGVTRDRIYSSAE;locus_tag=LOCUS_09230;note=WP_011166596.1 ribosome biogenesis GTPase Der (Mycoplasma mycoides) [pid:87.2%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [632581:632583](-),MGA_923
sequence1	MetaGeneAnnotator	CDS	632809	633075	.	-	0	ID=MGA_924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKAQQQLVKNKGYIVVGRDITSVVLPNADLKIFLDCDLEIRTKRRFEQNIKNHILDKSYKQIYNDLYNRDKTDKSRLIGPLVLVDDA;locus_tag=LOCUS_09240;note=WP_011166595.1 (d)CMP kinase (Mycoplasma mycoides) [pid:79.5%25%2C q_cov:100.0%25%2C s_cov:39.6%25%2C Eval:7.9e-35%2C partial hit],internal stop codon at [632809:632811](-)%2C[633265:633267](-),MGA_924
sequence1	MetaGeneAnnotator	CDS	633265	633393	.	-	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLIVAVDGTSSSGKSVICKKVAEILNYQFVDTGLMYRAFT;locus_tag=LOCUS_09250;note=WP_011166595.1 (d)CMP kinase (Mycoplasma mycoides) [pid:90.5%25%2C q_cov:100.0%25%2C s_cov:18.9%25%2C Eval:3.4e-14%2C partial hit],internal stop codon at [633265:633267](-),MGA_925
sequence1	MetaGeneAnnotator	CDS	633471	634097	.	-	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166594.1;translation=MNKEYTSRNQLFNKEIDLVNQQIKSAKSLGNYTKFINNSLNVLTKLDEKYFTNSFTNLYDEFEKGSFYLAKTKISQTINQELLNNIDKQINLLKNISTNDLVDLKNYSDFIVLDEQKFHFVNLLNMTKDIEFHKKTTSQSFESSKIINNDFTNLTKVDFEQNDLKQVQNNNDLKQVLITDLIKKTKSENLKKIFELERKKQMYQIKKN;locus_tag=LOCUS_09260;note=WP_011166594.1 hypothetical protein (Mycoplasma mycoides group) [pid:75.5%25%2C q_cov:100.0%25%2C s_cov:90.0%25%2C Eval:6.9e-86],MGA_926
sequence1	MetaGeneAnnotator	CDS	634247	634450	.	-	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVLVAIVSTLGFILALYIDSKTNNTSIVSNNSQLFFHAGHDHGHVHDDNMLTFNKVNMFIVIAVFG;locus_tag=LOCUS_09270;note=WP_011166593.1 ECF transporter S component (Mycoplasma mycoides) [pid:56.7%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [634196:634198](-)%2C[634247:634249](-)%2C[634466:634468](-)%2C[634553:634555](-)%2C[634598:634600](-)%2C[634730:634732](-),MGA_927
sequence1	MetaGeneAnnotator	CDS	634730	635053	.	-	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKESKSLKEQLNDVVCNVDKDLETHIEHEDENHKNKDHYHGIHHFDQFGNHDDIQNQKFELKTVFQFNKRKLIFKIALTGIFLALTASVSALDILLESIKIPVSDQV;locus_tag=LOCUS_09280;note=WP_011166593.1 ECF transporter S component (Mycoplasma mycoides) [pid:75.7%25%2C q_cov:100.0%25%2C s_cov:36.3%25%2C Eval:1.3e-42%2C partial hit],internal stop codon at [634466:634468](-)%2C[634553:634555](-)%2C[634598:634600](-)%2C[634730:634732](-),MGA_928
sequence1	MetaGeneAnnotator	CDS	635192	635353	.	+	0	ID=MGA_929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNVISMVVEIPKGSSNKYEVDEKTKRIKLDRVLYGANFYPGEYGMIENTLD;locus_tag=LOCUS_09290;note=WP_011166592.1 inorganic diphosphatase (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:28.5%25%2C Eval:2.2e-24%2C partial hit],internal stop codon at [635351:635353](+)%2C[635615:635617](+),MGA_929
sequence1	MetaGeneAnnotator	CDS	635444	635617	.	+	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDAGEVDTKLFGVFNDDPRFKEYKTLNDVPKHYRDEIENFFLQYKALQNKVVKING;locus_tag=LOCUS_09300;note=WP_011166592.1 inorganic diphosphatase (Mycoplasma mycoides group) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:30.6%25%2C Eval:2.7e-27%2C partial hit],internal stop codon at [635351:635353](+)%2C[635615:635617](+)%2C[635723:635725](+),MGA_930
sequence1	MetaGeneAnnotator	CDS	636020	636553	.	-	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPLLERKVNETLKKVKTVISDAQDNVNELQNIFNNQLKKLTKYHVESSTNSFQEAKSTTYYLAFYDKKSKRFKEASLNTNELSEDQNGEIQPIDTPNIEYLDEYKNVINLQSGLKAKFVIEKISEILNAIYNGVESYLKDNLEKTLALNYYEQELLKINNEEFVNLLARNDLKFVD;locus_tag=LOCUS_09310;note=MGA_931
sequence1	MetaGeneAnnotator	CDS	636633	636977	.	-	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGVKKFSIYQNLGNHYQSLFYKNKDFQTTYNEGFDKVVDFSKGISIVSTRNADLDFGLLTDLLNFRFKAKDFTYNSLQTVTLIGRVDDNTPTNNDQQNNNASDNSENNSNTSD;locus_tag=LOCUS_09320;note=MGA_932
sequence1	MetaGeneAnnotator	CDS	637095	637304	.	-	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDAYYKGIEIMLEEFHKFYGIRKANPNFPYTTDKDVKTEIHYSQRKNLFNMTGKPSNLEDFEDKDFNI;locus_tag=LOCUS_09330;note=WP_013447862.1 hypothetical protein (Mycoplasma leachii) [pid:56.5%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:2.1e-16%2C partial hit],internal stop codon at [637086:637088](-)%2C[637095:637097](-),MGA_933
sequence1	MetaGeneAnnotator	CDS	638091	638846	.	-	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLLKLLTLSSFITLAASPVVACIRDKSEDKKPDSNTKPDSNTKPDPTTKPDSSDRNKSILDLIKSFNSQMRDAYNEAVRPYIVSRTAILSKDLDENQSFFSKESIRQLVSERDPNEDKDGYHSFYSNLTNRRKEEFQKTLETVLGIHSAKRLFLEQVKKTGIDKYRILLDNFNNNLVVGFKFRLDNSKMKFLEEDNGSFNSTIKIGLDFNYQYKDGHGQTKREIISNDFIINISSENAVIELVHNIQKF;locus_tag=LOCUS_09340;note=WP_013447862.1 hypothetical protein (Mycoplasma leachii) [pid:50.6%25%2C q_cov:99.6%25%2C s_cov:35.8%25%2C Eval:3.7e-61%2C partial hit],internal stop codon at [638091:638093](-),MGA_934
sequence1	MetaGeneAnnotator	CDS	638974	640371	.	-	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLLKLLSIISFTPVISFLVLSCNNTNQSPNNNTNSNNSSSNNEQLHPNNVFNENKEILLKLKNELITIDNNIKTSTKNLKEIQIDIYNIENELNRLTNSDIKKDQLAKLNENLQTIKTKTNSFLQTINKSTKDYQLVKQTLDQSNNEQLNKKELEELKKEIKIIKNNVLLITLNIENVLNELKHLLKTINDIKETIFTKEQIQRAKVGLTNLEKQLNELKNIIQKIEYTNVIKKELDNLKQIVKNAQTKITPANDNLVKFELDLKQLYDRIQNLDSTNFNIDQLNVIKSFSSSAKEKLLTINNSLLDSQNQLKEIKVILKDIKDVNIVIDTKISELDNLKQKIEDLKKEFENFKLDLDQFDIKKINTVKINALKTFFNNSYQKISLLKKQTIETKKSFESVQEAFDDFNDAINNGSIFKVELDKFNNSLNKFEQDIKNIHQILKNIEEQKQTKLLMINNLTNQ;locus_tag=LOCUS_09350;note=MGA_935
sequence1	MetaGeneAnnotator	CDS	640733	641017	.	-	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDNLKNSNYLIKTNDLNSEKYNLTKDDIKSIYEYELLGFNSDGFKFFNSKNLINKLNFNLMYIARILENYFIRYSSSYIMLSTSSVLKDQSD;locus_tag=LOCUS_09360;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:75.5%25%2C q_cov:100.0%25%2C s_cov:15.6%25%2C Eval:5.2e-34%2C partial hit],internal stop codon at [640619:640621](-)%2C[640733:640735](-)%2C[641219:641221](-),MGA_936
sequence1	MetaGeneAnnotator	CDS	641321	642190	.	-	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKKVKNSKKLDDSLNLIKYKKIPFRKLIKFCLKNLIKERLFSILNILNILASILIGILLGFLKSGEKQVIIFNFYILFFTCCLLFVLILKMIQFFYNKNLEDKTTYIVLTNQVSRTKFFFSQYFLINLIILINIFLSFVFINLVYSIFNSFKYDSFILKMTLVYFLYNLFASFCLINFISMLMFLFSLQTTTIICTLLVSLCFVANIPLSFVKANEKSYNIQFLDKNNKVEIFKLTDIYDTFTLNENILNSQIKYPYLSKYIYSYFINNKFLKDQFSNPNNIDLRIKI;locus_tag=LOCUS_09370;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:79.2%25%2C q_cov:100.0%25%2C s_cov:48.6%25%2C Eval:3.3e-128%2C partial hit],internal stop codon at [641219:641221](-)%2C[641321:641323](-),MGA_937
sequence1	MetaGeneAnnotator	CDS	642206	643321	.	-	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKTKITFKNNISLQHVEQILNKNDILTFNINYDQNSLVVGLKEFQTFSDVLDLLKKHDFFIKSIESLSIDIDMIKKALEDKNTINVKYQKNSLDSLNENLDYNNTLSLNKTINNISNITNLRDSASTNYEVEILNNNNNNNNNNLLNNNLEKTFLHIFDEIKNLKQQVNQNDLDTYQILLDDLKAQINDILQIKTDFLKKVDLLNQQNNTFNNSEKNLKEILELKDFIKNQVNKIEQTLFIQSKNMNDPCNNKSKTHLSDSDLTDQYLDLKNQINILKTQINHNYSNQSDLVNNYELNQLKSEISAYHQDLEQFKKELHFEKMLDQKLESFDNKLKEKESVLELNRLKQEIKEEQNKLRELLFLEKLVK;locus_tag=LOCUS_09380;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:53.9%25%2C q_cov:99.7%25%2C s_cov:60.6%25%2C Eval:2.0e-102%2C partial hit],internal stop codon at [643481:643483](-)%2C[643613:643615](-),MGA_938
sequence1	MetaGeneAnnotator	CDS	643634	644035	.	-	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKNVSKNLHSDVLNEKYSIVVDNFYKKFKDIEIGPFSFNVEKGKITALLGTSGSGKSVFINSLLGTSINYQGNIFINKNERKKNNSIQNNSDIGFYSQMDFSLYSISAYDFLYNMCYVMGLEDKLVKDKLEY;locus_tag=LOCUS_09390;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:86.5%25%2C q_cov:100.0%25%2C s_cov:21.8%25%2C Eval:2.6e-62%2C partial hit],internal stop codon at [643481:643483](-)%2C[643613:643615](-)%2C[643634:643636](-),MGA_939
sequence1	MetaGeneAnnotator	CDS	644433	645149	.	-	0	ID=MGA_940;product=lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166586.1;translation=MKKLLTILGSVGLVATSGAFVIACGDKTKMNDATTTQEEKIDLNKLVKVRDLGFVSKNDKEIIKNAFIKQNGLGDPKIKDKIEVTVKSNGGTTSSGSSTTTSNGNSSDSAVIEIKNKTNGNGTKTVTVIFDVNNNLKTLVKVTKLKSLPDNKDDTILAAVAKANPKSNLDVKELKIERIDKKVLVKAKTNNQTYTDEAELQIESKVGVYVGLSLLSVALLASSGFIIYRSVKKKKKQM;locus_tag=LOCUS_09400;note=WP_011166586.1 lipoprotein (Mycoplasma mycoides) [pid:56.1%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:1.3e-60],MGA_940
sequence1	MetaGeneAnnotator	CDS	645320	645532	.	-	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKNVVKQLDLPIQITHTNLNSFDPNDESILAVVCGIDLQNSIDFKQKIVLENLLDQNEAKQKIIEFLN;locus_tag=LOCUS_09410;note=WP_011166584.1 PTS ascorbate-specific subunit IIBC (Mycoplasma mycoides) [pid:84.3%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:4.1e-28%2C partial hit],internal stop codon at [645716:645718](-)%2C[645746:645748](-)%2C[645821:645823](-),MGA_941
sequence1	MetaGeneAnnotator	CDS	645582	646133	.	+	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCFLRSYLLVIILLSFIISTCSLVVLIFLNIVFLVKKLYIGRIVQLIILISSKTQIPALLPINFNKIPIGNPNKKSPSPQAMCCLELAMLGIISKPINKNGTNEIINPLINEPIIAPLIPPVEFPNTPQVAPTKKCGTILGIIIIQRLTLMFFKLTIKIVILIAIIPPINDEINPIKTAFGA;locus_tag=LOCUS_09420;note=MGA_942
sequence1	MetaGeneAnnotator	CDS	646019	647128	.	-	0	ID=MGA_943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFGKYVLNFFTEFISTPAILVALFAFIGSLLQKKKFSECLTSTIKTAIGFLIIGAGAGIIAGSIQKLGFAFNLLFQRSGAIASNDVLPGLFLSISKIVLAGSLIMICAMVLNIVLARISKFKYIYLTGHVLFYFSTMFASVMHVAGLNLDEVKNLTTVVISGALLVSIYMVLTPALLNKHVVKITNNNNLALGHTGSLGYFLSALIGSLIAKISKKKIRYTEDVNFPKGLAFLRNTNVAIGLTMLLLYLIIYFTTFIVHGYEQMVVHKIIENQKDVFVQGLLQALTFAAGVEIVLIGVRMFIAEIVPSFQGISQKIVPNAKPALDCPIVFPYAPNAVLIGFISSFIGGIIAMSITILIVSLKNINVNL;locus_tag=LOCUS_09430;note=WP_011166584.1 PTS ascorbate-specific subunit IIBC (Mycoplasma mycoides) [pid:87.3%25%2C q_cov:100.0%25%2C s_cov:61.3%25%2C Eval:2.7e-176%2C partial hit],internal stop codon at [645746:645748](-)%2C[645821:645823](-)%2C[646019:646021](-),MGA_943
sequence1	MetaGeneAnnotator	CDS	647140	647289	.	-	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFAKDNYSHIDLLEKFANLFSNKEFLNELEKVKNTQDILLVLQKYDK;locus_tag=LOCUS_09440;note=WP_011166583.1 PTS sugar transporter subunit IIA (Mycoplasma mycoides) [pid:79.6%25%2C q_cov:100.0%25%2C s_cov:32.9%25%2C Eval:7.5e-17%2C partial hit],internal stop codon at [647377:647379](-)%2C[647536:647538](-),MGA_944
sequence1	MetaGeneAnnotator	CDS	647808	648218	.	-	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVIKLLTLLGSISIVASTASVAIACTDKVPTATSNNNSHSDNSNENDDMNDGSKGTEIKNEKLKEEKTEGSNDLNNGLGDSKVTEQREPNEGNSEMPKESETVTEHSESDSSTQGNTTSSRSRETNSSVSSNTSS;locus_tag=LOCUS_09450;note=MGA_945
sequence1	MetaGeneAnnotator	CDS	648744	649094	.	-	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVVVKKTADSGTLSQKSEQSDEARQDSSTEKSAGSPSVGKNSEEEMKKELEEVEKAYKDAKKELRDANQKYQDALKEGKPYENKGNLPSTIANKIDKAEQALTLVNKKFTEIEKK;locus_tag=LOCUS_09460;note=MGA_946
sequence1	MetaGeneAnnotator	CDS	649707	649895	.	-	0	ID=MGA_947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFNYLSFSLIICLFINYYISIIIKNKIELYYNDEVSKLVSSSLEMYEYDFKAARIYALNIK;locus_tag=LOCUS_09470;note=WP_011166578.1 hypothetical protein (Mycoplasma mycoides) [pid:79.0%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [649653:649655](-)%2C[649671:649673](-)%2C[649707:649709](-)%2C[649902:649904](-)%2C[650115:650117](-),MGA_947
sequence1	MetaGeneAnnotator	CDS	650115	650456	.	-	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSLVNFVLLIVNLLMIFLILLIYLITTRSYLNHQVPFINSSNLVINSTDINKAIRQFQIMFNLTDYQIIYTDTDNMIKVFKNINKNKKQIIISKRIFESVGYELDYLISRL;locus_tag=LOCUS_09480;note=WP_011166578.1 hypothetical protein (Mycoplasma mycoides) [pid:85.7%25%2C q_cov:80.5%25%2C s_cov:33.1%25%2C Eval:8.5e-37%2C partial hit],internal stop codon at [649902:649904](-)%2C[650115:650117](-),MGA_948
sequence1	MetaGeneAnnotator	CDS	650556	651269	.	-	0	ID=MGA_949;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183444.1;translation=MGRAHEVRAASMAKTAAKKSAANGRAAKEIYMAAKQGGIDPNSNLALRSVIDKAKANQIPRDVIERAIKRAAGGDAENYVSNRYEGIGPSNVAILVDTLTSNVNRAAAMIREVFNKNKGNPDGKVSFLFEDVAMFAFKNKKEDEVLEALMSDEVEINDLICEDDTIIIYAPFKAYNSVKHSLDKLNIDEYLISEIRAIPIDKRIEIKDEQAKLQLQTLLDKLDELEDVQNVYHNAEL;locus_tag=LOCUS_09490;note=WP_011183444.1 YebC/PmpR family DNA-binding transcriptional regulator (Mesoplasma) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-92],MGA_949
sequence1	MetaGeneAnnotator	CDS	651425	651898	.	-	0	ID=MGA_950;product=deoxynucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166577.1;translation=MKIAIFGTVGAGKSTISAEISKKLGYEIFKEPVEENPYFEQYYKDLKKTVFKMQIYMLTARSKQLKQAKNLENIIFDRTLLEDPIFMKVNYDLNNVDQTDYNTYIDFYNNVVLENLKIPENKLSFDIVIYLRVSTKTAISRIKKRGRSEELLIGEEY;locus_tag=LOCUS_09500;note=WP_011166577.1 deoxynucleoside kinase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:76.6%25%2C Eval:1.2e-84],internal stop codon at [651425:651427](-),MGA_950
sequence1	MetaGeneAnnotator	CDS	651908	652666	.	-	0	ID=MGA_951;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183446.1;translation=MSLERLQKVISSRGYCSRRAAEKLILENRVKVNDQIINTLGVKIDPKAEIKIDNKLVLSDSNNQKYYYLFYKPRLVLTTMYDPKKRKTVNDFFKDLNHRVYPVGRLDYDVSGLLLMTNDGVLSNFIMHPKYEFLKTYQGLCQGQVNKQQINQLIKGVYIDNDYLTKAYSAKLVKYDKLKNTSIVELTINEGKKHHVKKMFESIQAQLLKLKRTKIEFLEIADLKPGQYRELKTHEVKRLYGIYHSLKQNNNK;locus_tag=LOCUS_09510;note=WP_011183446.1 pseudouridine synthase (Mesoplasma) [pid:64.7%25%2C q_cov:98.8%25%2C s_cov:98.4%25%2C Eval:9.0e-92],MGA_951
sequence1	MetaGeneAnnotator	CDS	652734	653363	.	-	0	ID=MGA_952;product=SMC-Scp complex subunit ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166575.1;translation=MNQQYSAIIEGLLFIYGDDGVSLLDIQTVLDNLKPTEIKEIIIQLNKKYLADPSSAFCIQTYKKNNYRLQTKPELHEYFAKLEQYNENKKLSHSTIEVLSIIAYKQPITKQQIDEIRNVDSTYQLYKLREKKLIKVVGKDLENNRSNLYGITDNFFKVFNIKGGIEELPTISDDDIKQAIENNNEIKQEQQNLDLYGNIDDFNLDSQNQ;locus_tag=LOCUS_09520;gene=scpB;note=WP_011166575.1 SMC-Scp complex subunit ScpB (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-112],MGA_952
sequence1	MetaGeneAnnotator	CDS	653347	653505	.	-	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLAVLDLVRYQILVIDSIDDQIYISLRKEVIENENLIAQQLEVIANESTI;locus_tag=LOCUS_09530;note=WP_011166574.1 segregation/condensation protein A (Mycoplasma mycoides) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:18.7%25%2C Eval:8.0e-19%2C partial hit],internal stop codon at [653557:653559](-),MGA_953
sequence1	MetaGeneAnnotator	CDS	653557	654120	.	-	0	ID=MGA_954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEKKLDIIELSLIEIVDQYLAYIKQNQQLDIEIASEYLIIASQLIELKSRHLLFKDQQVDQEQVVDYDDLVYQISQYNQIKEISDRLFNAQEAYLQTFSKKRSKQNFKKDLVFENPDPLIDLNDLDLDKLTEIFYSVITNSNAFKYQADFDLETEIYQTLTTPSLTVHEVILDVVNKITSQKLKE;locus_tag=LOCUS_09540;note=WP_011166574.1 segregation/condensation protein A (Mycoplasma mycoides) [pid:91.4%25%2C q_cov:100.0%25%2C s_cov:67.3%25%2C Eval:2.0e-88%2C partial hit],internal stop codon at [653557:653559](-)%2C[654124:654126](-)%2C[654172:654174](-),MGA_954
sequence1	MetaGeneAnnotator	CDS	654376	654954	.	-	0	ID=MGA_955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166573.1;translation=MTEYELITTKLNELIKMSRKKELSQDQLFDICIYLTNVIDDVLLKKNLKDDLINQNDQFYYLLYLLKTLLAILFTRNAFFNFDIFNKLNPVLLFYIKQSLDHQFYDDPKKNYLLENSELHSLTSMYLYVFSIFNKLIKKINYLNLKYNLKPNLNEFKRSSFINDFTNLSYAFFKTRGTQYRSEQFFKLVKHS;locus_tag=LOCUS_09550;note=WP_011166573.1 hypothetical protein (Mycoplasma mycoides) [pid:81.8%25%2C q_cov:100.0%25%2C s_cov:75.9%25%2C Eval:2.5e-84],internal stop codon at [654376:654378](-),MGA_955
sequence1	MetaGeneAnnotator	CDS	655863	656111	.	-	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAFLSNVNITSIIFISLFLAVGISAQIIYFLFFNEQFNERLFPVFSSIKAGFVISFATFISYEVYSLLNLNLISNHNSYTN;locus_tag=LOCUS_09560;note=WP_023905937.1 hypothetical protein (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:16.4%25%2C Eval:5.9e-38%2C partial hit],internal stop codon at [655602:655604](-)%2C[655863:655865](-)%2C[656142:656144](-)%2C[656148:656150](-)%2C[656181:656183](-)%2C[656328:656330](-),MGA_956
sequence1	MetaGeneAnnotator	CDS	656041	656223	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTAKNKLIKIILVIFTLLKKAIITLKKQLNKLIQIQILLLCNFKVSHNANGFRIVAYKK;locus_tag=LOCUS_09570;note=MGA_957
sequence1	MetaGeneAnnotator	CDS	656927	657295	.	+	0	ID=MGA_958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGTVFRFRNLDNTLPITRDRYFEPIDTSGKKLHRPYVVFYSDDKVYYLSVKTLKKKENEASVYRNQDTNVILLNKTVYYEPVKGEALGNVIDCSSVNIMDRKLFEQLFEKDSFKNNYQLAP;locus_tag=LOCUS_09580;note=MGA_958
sequence1	MetaGeneAnnotator	CDS	657959	658306	.	+	0	ID=MGA_959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIEAGKIYKNRNQEYNFFIAKDKDDEVIKGHGINRPFIIFYSDDKVYYLSAKSISKKNRKKTLADKFNVVFKTDLYGEDKEVAINCSVINIMDRKLFESLYVKDDDMNNFQTTP;locus_tag=LOCUS_09590;note=MGA_959
sequence1	MetaGeneAnnotator	CDS	658505	658786	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDNPDKFFSLVTSFYERVKFETQEDFDEYVITHQEMESIKYEVHIKNAIKELKQNLEKEKEQHKLLEQEIDVVKKLNYKNSKIQEMNQELKD;locus_tag=LOCUS_09600;note=MGA_960
sequence1	MetaGeneAnnotator	CDS	659346	659723	.	+	0	ID=MGA_961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSGMYGKVFRFRNLDNTLPIARDSLFKNIPTDNSKLHRPYVVFYSDDKVYFLNVKTLKEKNKNNVDKYIDTNVILLNKTIYNQPIKGEALGNVIDCSVVNIMNRKLFEQLYQEDEYYNNYQLAP;locus_tag=LOCUS_09610;note=MGA_961
sequence1	MetaGeneAnnotator	CDS	661631	661960	.	+	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFILPITLIPLLTITSCSTNFQLPESNKKYDKNNIKKEIKNFTYNGITYNLIKEDNIDPENVYYANEVLENDAKQFKSYIPDYKKYFYNQVDNKLKLATPDLGAS;locus_tag=LOCUS_09620;note=MGA_962
sequence1	MetaGeneAnnotator	CDS	662048	662422	.	+	0	ID=MGA_963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKDKTTKQQLTSEEYNNLVNKILEILKNQNNLIKTINNEEVDFSSINNSKNEKVSDQLPSTLEHRKQEMGFNDTSSNKDYWGTYTETKLESGAIKKEYSETPLKDSKATAFLDGSLKQIPVYL;locus_tag=LOCUS_09630;note=MGA_963
sequence1	MetaGeneAnnotator	CDS	662603	662773	.	+	0	ID=MGA_964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIAYLEFQKAMTTLGNISDENLSLEKNLENNGVINALINFENKLLEYMKLSQLFG;locus_tag=LOCUS_09640;note=MGA_964
sequence1	MetaGeneAnnotator	CDS	663142	663690	.	-	0	ID=MGA_965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166570.1;translation=MVDKSKIQELDPYRIESKRRNPILANIFSMLKLMERRGSGIKEILNIYAIQENYSLKHTPEFISDDKSFIVILKNLNYEQDQSSNISVSEYLNKVNTKIHSNIRQDIIQDTDTDKNKSRSTTTEQIEIVLEFAKNHTKFKRIDIDKLLNVSPTRSREILNQLVKKNKLITTGSFKDKEYLLA;locus_tag=LOCUS_09650;note=WP_011166570.1 hypothetical protein (Mycoplasma mycoides) [pid:90.1%25%2C q_cov:78.0%25%2C s_cov:98.6%25%2C Eval:6.7e-65],MGA_965
sequence1	MetaGeneAnnotator	CDS	664153	664599	.	-	0	ID=MGA_966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVPIESSTHENKELFDENKPKNILKTICAFANTNNGSIYIGVNDNGQIIGIDNVKNKINKLSSFIKDKINPIPKFSIKSEVINKKTIIIIEVEKGDNTPYYLFDQGTLTAYVRYGDQTHIASREEIFSLGLSGKNLSYDSLQTDIP;locus_tag=LOCUS_09660;note=WP_011022342.1 helix-turn-helix domain-containing protein (Methanosarcina acetivorans) [pid:32.8%25%2C q_cov:91.2%25%2C s_cov:26.5%25%2C Eval:2.3e-12%2C partial hit],MGA_966
sequence1	MetaGeneAnnotator	CDS	664943	665347	.	-	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTLLGSFALIASSAAITVACKTPSQEIKTDESNKAKNGETKEEKKAETATITTTVAKKEVKAKSDAEIASELTKELFLLMDDSKPIENKKPTNETEDILKKQKERAERSVSVSHAPRSVNNEDDSSLVSS;locus_tag=LOCUS_09670;note=WP_011166558.1 hypothetical protein (Mycoplasma mycoides) [pid:88.9%25%2C q_cov:26.9%25%2C s_cov:35.6%25%2C Eval:5.1e-10%2C partial hit],frameshifted%2C insertion/deletion at around 665339,MGA_967
sequence1	MetaGeneAnnotator	CDS	665913	666041	.	-	0	ID=MGA_968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIGKSLGAGVISLAYLKQPLLFKKLILITPINQTQLSLEF;locus_tag=LOCUS_09680;note=WP_011166559.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:16.1%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [665811:665813](-)%2C[665913:665915](-)%2C[666174:666176](-),MGA_968
sequence1	MetaGeneAnnotator	CDS	667421	667627	.	-	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEVKYDFNLTDGPMLKNQNAHSALVKKYTVCTGYAKGLKLILDELDIPCRFMEGESSRETRSTKHA;locus_tag=LOCUS_09690;note=WP_020862723.1 transglutaminase domain-containing protein (Mycoplasma mycoides) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:9.2%25%2C Eval:1.6e-16%2C partial hit],internal stop codon at [667196:667198](-)%2C[667394:667396](-)%2C[667421:667423](-)%2C[667628:667630](-)%2C[667673:667675](-)%2C[667799:667801](-)%2C[667856:667858](-),MGA_969
sequence1	MetaGeneAnnotator	CDS	667955	668116	.	-	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLNNDVAPNFYSHPRFELDKELIVLDKFTNNEVKLELIDKSTSKPISRNEIK;locus_tag=LOCUS_09700;note=MGA_970
sequence1	MetaGeneAnnotator	CDS	668166	668807	.	+	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSIYVLLTSLRFADELIVMLSNVSGSYLIGCDLGIDGCDTLEELIGVAGVKVIKGLTFFSSVNGVKATLFLITFSFLTIGSSLISRFFLGCCLVELVGSNLNAEISSDSFELFCLDSSLLSRTVFTVELVGFVIIASAFGSIFGFLSSIGLIESPGIISDSLFNCSLIGSLISKLISIVPKYFFESLTLIIKVEPSFFIISKLLIVKSFKTV;locus_tag=LOCUS_09710;note=MGA_971
sequence1	MetaGeneAnnotator	CDS	668921	669307	.	-	0	ID=MGA_972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKLISILTCLTALTSSIVVVSCSNDKTTTLHNKQINISKLDLNTNLYDIKDNTPKTIIKTFLDINNHKLSNLNENQLEVKMINDSNAIINIKNSNQFIGNTNIKFEAKENKINETNLNTITNTIN;locus_tag=LOCUS_09720;note=MGA_972
sequence1	MetaGeneAnnotator	CDS	670003	670866	.	-	0	ID=MGA_973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDMGSGKTILSLGFCEINQVDAIIVIASRSKTLETVEQNASFTNYLQNDLNFKVYLKTDLKNADFRNNQKEAIIINYHSFLLNINKENFFNYLAKFISVHKNQKIAIIIDESQNIKNSRALISISIKNFVDLVKKLAFKTYLYLLSGTPQTTGAIDMFNQLRFLGLKMTRYQFEDQFCIKTQFNNAYRRVYKINGYKNIKQLEQLINQFALTSKNIPPIYLPKQQFIGIKLPISSEFELFTNKKVTEYDLLNFCNKNNIKSNYKPNQLNLIKNPYYKNLSYPDDK;locus_tag=LOCUS_09730;note=WP_011166561.1 SNF2-related protein (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:55.8%25%2C Eval:8.6e-161%2C partial hit],internal stop codon at [669778:669780](-)%2C[669919:669921](-)%2C[669976:669978](-)%2C[670003:670005](-)%2C[670912:670914](-),MGA_973
sequence1	MetaGeneAnnotator	CDS	671009	671254	.	-	0	ID=MGA_974;product=YneF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166562.1;translation=MLLTTTFSAGALAGMLIGVIIAAIVIGLILGFVITRYMVKKQLKDNPPITEKQIRAMYMSMGRKPSEADIKKTMNAIKRAK;locus_tag=LOCUS_09740;note=WP_011166562.1 YneF family protein (Mycoplasma mycoides) [pid:82.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-30],MGA_974
sequence1	MetaGeneAnnotator	CDS	671411	672142	.	-	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIGGSADLSSSTRIKGADNQFTSLNKTGRNIMYGVREFGMGAINNGIAAHKGLIPVASGFFVFADYLKPAMRLASIMQLQQLYVFTHDSIAVGEDGPTHQPIEQLSMLRTIPNHVVLRPADFSETIACYKVALTKLTKTPTSIILTRQNVRQLQHNDVLNQVERGAYIISDQTDATVSLIASGSEVGLAIDVQKELLNHNIKSKVISMVSTNLFDKQDKQYQDQIINKNTKRIAIEMGSSAI;locus_tag=LOCUS_09750;note=WP_020862658.1 transketolase (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:37.0%25%2C Eval:3.1e-126%2C partial hit],internal stop codon at [671411:671413](-)%2C[672323:672325](-)%2C[672365:672367](-)%2C[672410:672412](-),MGA_975
sequence1	MetaGeneAnnotator	CDS	672608	672907	.	-	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTGPLGQGVGMGVGMAVAEAHLASVYNKHDFNLIHHYTYVLCGDGDLQEGISQEAISFAGKHKLNKLILIHDSNDVQLDSNVVDVQIEDMHKRFKACN;locus_tag=LOCUS_09760;note=WP_020862658.1 transketolase (Mycoplasma mycoides) [pid:90.9%25%2C q_cov:100.0%25%2C s_cov:15.1%25%2C Eval:1.2e-46%2C partial hit],internal stop codon at [672323:672325](-)%2C[672365:672367](-)%2C[672410:672412](-)%2C[672608:672610](-)%2C[672959:672961](-)%2C[673076:673078](-),MGA_976
sequence1	MetaGeneAnnotator	CDS	673076	673240	.	-	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTSKNDNLNALRILGVSAINKAKSGHPGIVLGAAGIVYVLFNKIMNFNPKNPE;locus_tag=LOCUS_09770;note=WP_020862658.1 transketolase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:8.2%25%2C Eval:1.6e-24%2C partial hit],internal stop codon at [672959:672961](-)%2C[673076:673078](-),MGA_977
sequence1	MetaGeneAnnotator	CDS	673323	673451	.	-	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166564.1;translation=MSDNIKDLPFDEIIKRIKFYADLKAKNLITEEQNQEYELLKS;locus_tag=LOCUS_09780;note=WP_011166564.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:84.0%25%2C Eval:4.3e-17],MGA_978
sequence1	MetaGeneAnnotator	CDS	673696	674307	.	-	0	ID=MGA_979;product=folate family ECF transporter S component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166565.1;translation=MLFFLTNGAAICVIILLFAIAYMMDPKFLKTITTTKITMMAMQVALIVLLTNFLGYSGVFGARLMLGNFILFLSGMLFGPMGGALVGALSYTAGMVNPGIFIHFSFMAAYMIYAMLGSLVFIKKQKSRLSFMISVFVLLFIASFTLTFISHPIAMLAIGKNAYVYVTLVKKFIVFPIDAVIEPILIISTFEVSILVLKRVPNT;locus_tag=LOCUS_09790;note=WP_011166565.1 folate family ECF transporter S component (Mycoplasma mycoides) [pid:94.1%25%2C q_cov:100.0%25%2C s_cov:83.2%25%2C Eval:1.1e-101],internal stop codon at [673684:673686](-)%2C[673696:673698](-),MGA_979
sequence1	MetaGeneAnnotator	CDS	674526	674810	.	-	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYGVMHKNNYINTKKILNLGVQLKTHKNIFFAGQIIGVDGYVESVCSGLISAINLDRYLNNKKMILPNKNSTIGSLYHYLLKTDSNFSPMRIN;locus_tag=LOCUS_09800;note=WP_011166566.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:22.2%25%2C Eval:3.1e-47%2C partial hit],internal stop codon at [674526:674528](-)%2C[674865:674867](-),MGA_980
sequence1	MetaGeneAnnotator	CDS	674865	675686	.	-	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIRIIGAGLSGCEAAYYLLKKGYFVELYEIKTIKKNPIQHYDYFCELAYSDSFRSIDLNTSVGTLKKELELLDSLIIKAAKYASINQNNELVVNRIEFSKYITNYLKTFNNLKIIEQEYLNIDLNIPTIIAIGPISTPSFLNKLENLINKKNLKLFDSVEPTILKQSINTNICYSLDNNLDYLYSDLNKEQFEKFYNALISAKTFNSPLKNEIKLLEKNNYFSIESLAKNKQEFINNFKPINNNAYITITLKKDSVINNLYSIVNFQTSLM;locus_tag=LOCUS_09810;note=WP_011166566.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:92.7%25%2C q_cov:100.0%25%2C s_cov:64.4%25%2C Eval:5.9e-140%2C partial hit],internal stop codon at [674865:674867](-),MGA_981
sequence1	MetaGeneAnnotator	CDS	677071	677769	.	-	0	ID=MGA_982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVQIYLDNLNITDKFKITNNNSVTNVSYENKDNKLKPGSYTVKLNYKYKSKSEPNKLKTQQETRQIYIFDGSENLYSGSAVYTNSNNDYSLVVHSSNSYSANNKIPVFLTSKKQHETNYDLNYGYAPTYLNADNDIEYRIGSDKIGSLEKSTYAFNLNLNLLNDKYKENHFKIDIDKYVNNIKTDTKKYQVFRLDTNKQYIIAKLYFDTNNRQLNNLVNEVVFENNNNSFK;locus_tag=LOCUS_09820;note=WP_011166732.1 C1 family peptidase (Mycoplasma mycoides) [pid:39.4%25%2C q_cov:91.8%25%2C s_cov:21.2%25%2C Eval:9.1e-32%2C partial hit],internal stop codon at [677071:677073](-)%2C[677827:677829](-),MGA_982
sequence1	MetaGeneAnnotator	CDS	677827	678018	.	-	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYLPYNTSVLYMNLYGYKYIGDKLITSKSTNSIINKYSGYYNSQNNQKPNSDSKPLNQNVFN;locus_tag=LOCUS_09830;note=WP_011166732.1 C1 family peptidase (Mycoplasma mycoides) [pid:49.2%25%2C q_cov:100.0%25%2C s_cov:6.9%25%2C Eval:5.0e-13%2C partial hit],internal stop codon at [677827:677829](-)%2C[678103:678105](-)%2C[678196:678198](-),MGA_983
sequence1	MetaGeneAnnotator	CDS	678196	678537	.	-	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNNEMYDLSEASIAAQLENRVANGANFFDFHNALKNGISFESDFIFSDLYYLPNSGTYYKKILDLYKPKFIHNLADKLQMVIFDRYNIKNDLNDIKYHISNNSALMVGIEY;locus_tag=LOCUS_09840;note=WP_011166555.1 hypothetical protein (Mycoplasma mycoides) [pid:90.4%25%2C q_cov:100.0%25%2C s_cov:68.0%25%2C Eval:6.9e-55%2C partial hit],MGA_984
sequence1	MetaGeneAnnotator	CDS	679027	679452	.	+	0	ID=MGA_985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTIILIILISILTIICISILFYLIKTKNNDSKIDLTSLKDNLNNKFDTNKELITKEIEKDTEITKTNLINLKETVNKQKEDLTKSLDKLEENIKKFNEITNNINTIDKKVDTSVKNINELSLIFKNSKTRGNLGEFTLE;locus_tag=LOCUS_09850;note=WP_011166554.1 DNA recombination protein RmuC (Mycoplasma mycoides) [pid:88.7%25%2C q_cov:100.0%25%2C s_cov:38.5%25%2C Eval:1.6e-62%2C partial hit],internal stop codon at [679450:679452](+)%2C[679495:679497](+),MGA_985
sequence1	MetaGeneAnnotator	CDS	679864	680115	.	+	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSQQISIKEYKISKNINEIQKLIKTITDDVKRLLDRNEKMSKIYEKYKTETEEVFKEFQTSANKIDKNYSKLEAINIDDNQE;locus_tag=LOCUS_09860;note=WP_011166554.1 DNA recombination protein RmuC (Mycoplasma mycoides) [pid:90.1%25%2C q_cov:97.6%25%2C s_cov:22.8%25%2C Eval:5.2e-34%2C partial hit],internal stop codon at [679783:679785](+)%2C[679831:679833](+),MGA_986
sequence1	MetaGeneAnnotator	CDS	680170	680385	.	-	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKEDFINICFAFFNNSKIRINLYEDLELALSLIFGNKEFIKQATDVINAGPPTLKYFILNQLIKVEKTK;locus_tag=LOCUS_09870;note=MGA_987
sequence1	MetaGeneAnnotator	CDS	680500	680628	.	-	0	ID=MGA_988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDYLKKVYEQLFINKLKEFKTECEKYQDVLFVDLFITKLEE;locus_tag=LOCUS_09880;note=WP_011166553.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:20.0%25%2C Eval:6.7e-18%2C partial hit],internal stop codon at [680464:680466](-)%2C[680500:680502](-)%2C[680629:680631](-)%2C[680716:680718](-)%2C[680746:680748](-),frameshifted%2C insertion/deletion at around 680355,MGA_988
sequence1	MetaGeneAnnotator	CDS	680746	680970	.	-	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIRSFNLLEFVNRFSLLELLRYEFKNQKTLTNKEKEFLDIAKQYTLTYPLKVSIDDMLKQIESNKIENDDVK;locus_tag=LOCUS_09890;note=WP_011166553.1 hypothetical protein (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:35.2%25%2C Eval:5.7e-33%2C partial hit],internal stop codon at [680464:680466](-)%2C[680500:680502](-)%2C[680629:680631](-)%2C[680716:680718](-)%2C[680746:680748](-),MGA_989
sequence1	MetaGeneAnnotator	CDS	681084	681218	.	+	0	ID=MGA_990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKKNNYFSDIEILLTYDYDSCVLFLLNKYGQVKGDYIKYSYN;locus_tag=LOCUS_09900;note=WP_011166552.1 hypothetical protein (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:14.8%25%2C Eval:1.3e-18%2C partial hit],internal stop codon at [681216:681218](+)%2C[681261:681263](+),MGA_990
sequence1	MetaGeneAnnotator	CDS	682192	682692	.	-	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGELSRMTQFKDKSLKAESVNGKGYIPTGLFTYPALMAADILLYDPKYVPVGIDQKQHIEITRDIAIRMNNKYGEMFSIPEPLINSEIKIMDLQDPTKKMSKSSTNPKAIITMLDSIDEIKSKIKAAVTDSENLIKYDPINKPGVSNLITIYCQLKNISIKQAEKH;locus_tag=LOCUS_09910;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:49.4%25%2C Eval:1.8e-89%2C partial hit],internal stop codon at [682075:682077](-)%2C[682192:682194](-)%2C[682714:682716](-),MGA_991
sequence1	MetaGeneAnnotator	CDS	682714	682992	.	-	0	ID=MGA_992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKQIMVSGITPSGTMTLGNYLGVVKRFIQYQNEYDLFIFIANLHAITLPQEKEKLKKNTKEIAALYFACGLDINKTTIFLQSDVLEHAQLG;locus_tag=LOCUS_09920;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:27.4%25%2C Eval:5.9e-46%2C partial hit],internal stop codon at [682714:682716](-),MGA_992
sequence1	MetaGeneAnnotator	CDS	683727	684218	.	+	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPHAVPSDKVINNNELITIDMGCFYNGYCSDQTRTIALGDVDPKLVEIYNIVYEAQSLGISLVKEGVIAGDIHKQVYDFIDKKGYGKYFDHGLGHGIGVEIHEEPSVGSTGSEVLKENMTITIEPGIYIPDLGGVRIEDDVLVTKTGCKLLTSSPRILLKLQK;locus_tag=LOCUS_09930;note=WP_020862650.1 aminopeptidase P family protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:45.5%25%2C Eval:3.3e-91%2C partial hit],internal stop codon at [683439:683441](+)%2C[683478:683480](+)%2C[683541:683543](+),MGA_993
sequence1	MetaGeneAnnotator	CDS	684417	684716	.	+	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTIINKDENKIKQIKKNLKTRLISATILVLLLGVYLAFPILYYFTNDSSSKLIIAYNVISLVLSSCVLFLSIRELLISFEIKNLDQKLFIEILTVILF;locus_tag=LOCUS_09940;note=WP_011166549.1 phosphatidate cytidylyltransferase (Mycoplasma mycoides) [pid:91.9%25%2C q_cov:100.0%25%2C s_cov:29.0%25%2C Eval:1.3e-42%2C partial hit],internal stop codon at [684714:684716](+)%2C[684780:684782](+)%2C[684981:684983](+)%2C[684987:684989](+),MGA_994
sequence1	MetaGeneAnnotator	CDS	685191	685445	.	+	0	ID=MGA_995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDLLLNKDDNLMLITYIFLTVLVSLFTQFGDLIFSYIKRSIDIKDFSNLIPGHGGILDRLDSFYFVFFIIYIILHISLTFNRI;locus_tag=LOCUS_09950;note=WP_011166549.1 phosphatidate cytidylyltransferase (Mycoplasma mycoides) [pid:91.2%25%2C q_cov:95.2%25%2C s_cov:23.5%25%2C Eval:8.8e-34%2C partial hit],internal stop codon at [684981:684983](+)%2C[684987:684989](+)%2C[685083:685085](+)%2C[685134:685136](+)%2C[685161:685163](+),MGA_995
sequence1	MetaGeneAnnotator	CDS	685454	685777	.	+	0	ID=MGA_996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTKILGIFKKIGIELDQTDYIYFKDAILVETPRISQIKNKGYLHIEIKDFLPIDVLKKIEDKLKNNQYFNFKLIIDVKNQQFNKDLLIQYLEFIKMHKSLFNNRSS;locus_tag=LOCUS_09960;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:7.2%25%2C Eval:1.8e-55%2C partial hit],internal stop codon at [685775:685777](+),MGA_996
sequence1	MetaGeneAnnotator	CDS	686147	686350	.	+	0	ID=MGA_997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVINKEFKLSKTGRKIFYIDITDFQSSIRCMYFAKSDALCEFDDLTEDELKSKEIEQIKENKIQIND;locus_tag=LOCUS_09970;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:92.5%25%2C q_cov:100.0%25%2C s_cov:4.5%25%2C Eval:3.8e-29%2C partial hit],internal stop codon at [686348:686350](+)%2C[686555:686557](+),MGA_997
sequence1	MetaGeneAnnotator	CDS	686756	687049	.	+	0	ID=MGA_998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFFDLETTGLSPELDEIIEFGAIEYNLKTGERKKIDILIKPKTKLKAFTQKLTNITEKMLEDKPSIEQAFKQINEIIKDAILVAHNANFDFTFLSY;locus_tag=LOCUS_09980;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:6.5%25%2C Eval:4.3e-49%2C partial hit],internal stop codon at [686555:686557](+)%2C[686711:686713](+)%2C[687047:687049](+)%2C[687290:687292](+),MGA_998
sequence1	MetaGeneAnnotator	CDS	687494	687892	.	+	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGASCVNSEIFELARTSTLENLKQAIGFYDYIEIQPISVYKNLLQNDSLDLDQLKQIITNIINIAKQENKLVVASSDCHYTNPELKQIREVYINAKGLGGIRHPLFDFNNRVKDYPDQHLRTTKEMLNEFE;locus_tag=LOCUS_09990;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:94.7%25%2C q_cov:100.0%25%2C s_cov:8.9%25%2C Eval:2.4e-68%2C partial hit],internal stop codon at [687290:687292](+)%2C[687890:687892](+)%2C[688148:688150](+),MGA_999
sequence1	MetaGeneAnnotator	CDS	687953	688150	.	+	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDSNVIPIKDGLFTPKIANVNEKLKDKCYQTAKQMYGEMLPEIVEKRLEKELGSITKHGFAIVY;locus_tag=LOCUS_10000;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:4.4%25%2C Eval:1.8e-31%2C partial hit],internal stop codon at [687890:687892](+)%2C[688148:688150](+),MGA_1000
sequence1	MetaGeneAnnotator	CDS	688238	688777	.	+	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQITEVNPLKAHYRCLNCKYSDFNTDPTYKCGYDLPEKNCPNCNQKLIGDGHDIPFETFLGFDGDKVPDIDLNFSGEYQNQAHNFTKKMFGENNVFRAGTISTVAEKTAFGYVKTYFEETKKDASLPRKTEINRLAKLAQGVKRTTGQHPGGIIILPNEYEIEDFTPVNYPADDLNST;locus_tag=LOCUS_10010;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:12.1%25%2C Eval:5.4e-104%2C partial hit],internal stop codon at [688148:688150](+)%2C[688775:688777](+),MGA_1001
sequence1	MetaGeneAnnotator	CDS	688826	689113	.	+	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILGHDDPTALKMLRDLTNIDPITIPTDDKNVYSLFSSLQALNLTSDKINDEITGAIGIPEFGTGFVRNMLKETQPKTFADLVQISGLSHGTDV;locus_tag=LOCUS_10020;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:6.4%25%2C Eval:5.7e-49%2C partial hit],internal stop codon at [688775:688777](+)%2C[689111:689113](+)%2C[689279:689281](+)%2C[689315:689317](+)%2C[689402:689404](+),MGA_1002
sequence1	MetaGeneAnnotator	CDS	689462	689902	.	+	0	ID=MGA_1003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDLKTALGGYDAVLLKLKSQQQRVKNGEKLSKKEEDLEVVYEVLLEMFARGIKFSNIDFEKSEATKFKVDILQDNSKIIIPPFNVIDSLGEAVALSIINARNTKPITSVNDLKNRTQTTQTQIKIFEEFNILDSLSVDEQLAFDF;locus_tag=LOCUS_10030;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:4.3e-72%2C partial hit],internal stop codon at [689279:689281](+)%2C[689315:689317](+)%2C[689402:689404](+),MGA_1003
sequence1	MetaGeneAnnotator	CDS	689915	690319	.	+	0	ID=MGA_1004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKEYIKELMLNRKSARDFDLNKSISDQDLEIILTSMRMSPSAFNLMNLRLLIIDRNCSFKTELSPLFYNQLNFINADKVILFVSDKTNKILNHTIDKTVNKMFNETQIEIANKFKKNVINATSQLAQINELDN;locus_tag=LOCUS_10040;note=WP_011166547.1 nitroreductase family protein (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:62.0%25%2C Eval:2.8e-69%2C partial hit],internal stop codon at [690317:690319](+),MGA_1004
sequence1	MetaGeneAnnotator	CDS	690678	690995	.	+	0	ID=MGA_1005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFESLKFQINELVNKELEVLNLKVYQINNLTEFENDMIQILVEDSLQANKPLDFDILIKANDLVSNKIDQLIKTKDKYLLEISSSGIEKQIRSQEELLKALEQ;locus_tag=LOCUS_10050;note=WP_011166546.1 ribosome maturation factor RimP (Mycoplasma mycoides) [pid:94.3%25%2C q_cov:100.0%25%2C s_cov:64.0%25%2C Eval:8.2e-48%2C partial hit],internal stop codon at [690993:690995](+),MGA_1005
sequence1	MetaGeneAnnotator	CDS	691002	691172	.	+	0	ID=MGA_1006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLNNEIKKVKEFEGYVTKYNDQTNTFTFSFFIKGQKKNLDVKFDDIKFIRYAVRF;locus_tag=LOCUS_10060;note=WP_011166546.1 ribosome maturation factor RimP (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:34.1%25%2C Eval:3.9e-26%2C partial hit],internal stop codon at [690993:690995](+),MGA_1006
sequence1	MetaGeneAnnotator	CDS	691181	691408	.	+	0	ID=MGA_1007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNGTELLESIKLIEKEKGISKESIINSLKEGLQKAYERFYDTDAIIKIDINENTGLITMHQELKVVDDEQLDDD;locus_tag=LOCUS_10070;note=WP_011166545.1 transcription termination factor NusA (Mycoplasma mycoides) [pid:82.7%25%2C q_cov:100.0%25%2C s_cov:12.8%25%2C Eval:9.4e-28%2C partial hit],internal stop codon at [691406:691408](+)%2C[691682:691684](+),MGA_1007
sequence1	MetaGeneAnnotator	CDS	691508	691684	.	+	0	ID=MGA_1008;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVNQVRQIFQQKIREAERARIYEQFVSLEGEVVQAKVVGMNRENNYVLDINGTTAYL;locus_tag=LOCUS_10080;note=WP_011166545.1 transcription termination factor NusA (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:1.1e-25%2C partial hit],internal stop codon at [691406:691408](+)%2C[691682:691684](+),MGA_1008
sequence1	MetaGeneAnnotator	CDS	691847	692023	.	+	0	ID=MGA_1009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVEIKAVSREPGKRSKVAVITHNNNVEPIGAIIGVGGNRINRISDILKGEKIDIIR;locus_tag=LOCUS_10090;note=WP_011166545.1 transcription termination factor NusA (Mycoplasma mycoides) [pid:91.4%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:8.9e-23%2C partial hit],internal stop codon at [691682:691684](+)%2C[692021:692023](+)%2C[692246:692248](+),MGA_1009
sequence1	MetaGeneAnnotator	CDS	692057	692248	.	+	0	ID=MGA_1010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPVKVISINKIGDEYDIVVPDTQLSLAIGKQGVAAKLIASLLKTKINIFSYSTALKENMDIL;locus_tag=LOCUS_10100;note=WP_011166545.1 transcription termination factor NusA (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:9.4e-28%2C partial hit],internal stop codon at [692021:692023](+)%2C[692246:692248](+),MGA_1010
sequence1	MetaGeneAnnotator	CDS	692477	692935	.	+	0	ID=MGA_1011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKEYDNNFNDFENEKEILLAEKQLESQNQIIKEPVVEVQEVEIEKQSEAQDQITENKQPEIKTEVETKPNIVEQVNKLNTNKSNNKFEQNRFSYKKQKQKEEELELDFDIKNEPDIDEIDANLKAFNDAILKQEDDEDLDIDLDDYDKYYD;locus_tag=LOCUS_10110;note=WP_011166545.1 transcription termination factor NusA (Mycoplasma mycoides) [pid:79.2%25%2C q_cov:85.5%25%2C s_cov:22.3%25%2C Eval:3.2e-52%2C partial hit],internal stop codon at [692246:692248](+),MGA_1011
sequence1	MetaGeneAnnotator	CDS	692910	693197	.	+	0	ID=MGA_1012;product=YlxR family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166544.1;translation=MIMTNTMINKNKNLRKDIASNQMLEKHQLIRIVKNKNNEIFIDTTYKANGRGVYLKPDLNSLNIARQKNLIAKSLKSKIDVSIYDQIEEFINAKR;locus_tag=LOCUS_10120;note=WP_011166544.1 YlxR family protein (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-46],MGA_1012
sequence1	MetaGeneAnnotator	CDS	693184	693483	.	+	0	ID=MGA_1013;product=ribosomal L7Ae/L30e/S12e/Gadd45 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166543.1;translation=MQKDKLLKAIGMAYTSNNLITGFRLLEEIKLKKVKFVILSSDMGLAQQKKYINKCLSRNIECVFNVLTKQELAKACGKDILVAIGLKDDNFIKLIKSNL;locus_tag=LOCUS_10130;note=WP_011166543.1 ribosomal L7Ae/L30e/S12e/Gadd45 family protein (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-49],MGA_1013
sequence1	MetaGeneAnnotator	CDS	693505	695367	.	+	0	ID=MGA_1014;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166542.1;translation=MKKQVKNIKKQKAQNQTKNIKKQLKEEVNTGLIDGIFVYTEPLSVIEFATKINKPLTAILKHYFNQGLLLNQNTLLTEEQMGELCLEFGFDFKKETTVTKENILQTLLETVDDEKHLKERPPIVTIMGHVDHGKTTLLDSIKNSNVVASEAGGITQAIGAYQITTKHNKKITFIDTPGHEAFTEMRSRGANVTDIVVLIVAADDGVMPQTEEAIDHAKLANVPIIVFINKIDKPGADPNRVKTELMKYGLVAEEFGGDIPFIEGSAIKKINLDKLQDTIILISELENLKANPDKFASGVVLEAHLDKAKGPVASVLVQQGTLEIKDIMIAGTTFGSIKHIEDEFKHKVLKAEPSKPVVVYGLNQVPKAGDKFVVINDEKMAREISEAQLKKQQEEERRTKQAFTLDAIKQHIDEGELKNITLIIKADTQGSVEALKNSLSKINISGVKINIIRASVGAISLSDISLASTVRDGLVIVYGFNVRPDAIVRKKAEEDHIEIRLHNIIYKVIEELEDAAKGILDPEIKEVVLGQAQVRALFRHSAIGTIGGFYVLDGVIPRNAKIRVIRNGVVVYDGEINSLQHQKQDAKEIKAGFEGGLTIKNFNDIKEEDIFETYKIEQIK;locus_tag=LOCUS_10140;gene=infB;note=WP_011166542.1 translation initiation factor IF-2 (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:0.0e+00],MGA_1014
sequence1	MetaGeneAnnotator	CDS	695386	695619	.	-	0	ID=MGA_1015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLGVLFGTFISIIFKNKEYQKEEENLAILNAYLNNQIVPTKKQLKQIKKQEYKLSKQKEYEELLKFKENLYKKKTD;locus_tag=LOCUS_10150;note=WP_011166541.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:36.0%25%2C Eval:1.7e-37%2C partial hit],internal stop codon at [695674:695676](-)%2C[695872:695874](-),MGA_1015
sequence1	Aragorn:1.2.38	tRNA	696128	696201	.	-	.	ID=Aragorn_27;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	696261	696527	.	-	0	ID=MGA_1016;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166540.1;translation=MVSKEQKLALIKEFGGDEKNTGLAEVQIAILTAEISNLTEHLKMHKKDIPTRRTLLKKVAQRRHFLDYLVKKDVNRYKEVIEKLGIRK;locus_tag=LOCUS_10160;gene=rpsO;note=WP_011166540.1 30S ribosomal protein S15 (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-42],MGA_1016
sequence1	MetaGeneAnnotator	CDS	696740	697819	.	+	0	ID=MGA_1017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAAIFLIPTLSLVLVGCTKNKQNNNSVQKQPNITNVYKKTIKDKEQNIENKINKPSFISKPTNTNKKPGFSNLLNDEFEPKNDDKLLDQNVSKKEPKVNHNSMTNNNSTLEVENKLKKITEQNNKFQVFEDTQYSVKSLLNSISFSNNKININKYKDINYIGLDQYLNLLKDIIEINSKSKDVFYNNVSYTLTKELKKETNNNITTITLINKYSSKDKNKNSDFTLSEFVKFDYLTQQTTISSVNFYNLLNPYENETNLEYKYSKTLDKNPLIIDLNKYNIYIFNKNNQLYLPLLVLNQVFLAESERQIYFNNKDLFVFEVFDLYDHNNNNTKKMLSSNKQDTELSKDLKEFSYNYL;locus_tag=LOCUS_10170;note=WP_011166539.1 hypothetical protein (Mycoplasma mycoides) [pid:87.5%25%2C q_cov:15.6%25%2C s_cov:51.9%25%2C Eval:4.1e-20%2C partial hit],MGA_1017
sequence1	MetaGeneAnnotator	CDS	697901	698236	.	+	0	ID=MGA_1018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKLEHFKANNLLIRDLNDIHTKVLLHSPLYDLKTRDEVLLVKENNRTDRVGNFRKYERELINLSGDLNERNIRYTNDNKTAIIKIDIISRYTVEGIKRQLEEIKKQKYS;locus_tag=LOCUS_10180;note=WP_011166538.1 S41 family peptidase (Mycoplasma mycoides) [pid:80.6%25%2C q_cov:97.3%25%2C s_cov:40.1%25%2C Eval:4.7e-43%2C partial hit],frameshifted%2C insertion/deletion at around 698218,MGA_1018
sequence1	MetaGeneAnnotator	CDS	698732	699694	.	+	0	ID=MGA_1019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFLSSLFLLSNTITPSLANSINVVNNQNSSINLKEYNLNFLAKNIRDIKKKKINIHTHKDVAYISVNEFLDSIEPIIKRNEIAHQFKDNKATISLKSSSFSNLKVEFDHKAQDIIVSDNNIFTEILKDKERGEEKLNLEFKGIKNENPIKQFKYHLKDYDIEMLKNNKDIYLPIVLLNQIFLSDSNIQVYFNQDEVNVFRFADSLKDFFSIANLKMSKANMQTEIPKNLKEFQYKYLSFLFDHYYGIKLNNKSYKEFFKKYESKILGSNDSHYLATRQIIADLDDPHSAYILDGYFNKMKDIEKVPISKESNKVRSDN;locus_tag=LOCUS_10190;note=WP_011166316.1 S41 family peptidase (Mycoplasma mycoides) [pid:48.0%25%2C q_cov:98.1%25%2C s_cov:43.7%25%2C Eval:4.2e-74%2C partial hit],internal stop codon at [698595:698597](+)%2C[699692:699694](+),MGA_1019
sequence1	MetaGeneAnnotator	CDS	699920	700768	.	+	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFLTDKPFKVYNYNPLSKEQKVETIKSKYNKFDFNYYILTSPYSFSAGNIFPQITRDNKVAKLIGYKTFGGASSIGYFILPTGDIIQLSTNNVFTSSKFKSLEFGVNPDVKLDGDVLTNAKDLYDKNKLLDLISKADKIPFGNDTESTIKPSETLPIKPDDNSQPNSKPKFFLSKYIKNKNLKITKNDPITLLVELFETNPELKFDQDIRISLKDKNKAEIYLENNPEDKVIINFSVINNDQKQIKTNNKTKLIIGLVSSSIIVFIVLISAFFIIKKRRQK;locus_tag=LOCUS_10200;note=WP_011166316.1 S41 family peptidase (Mycoplasma mycoides) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:44.3%25%2C Eval:1.1e-62%2C partial hit],internal stop codon at [699692:699694](+),MGA_1020
sequence1	MetaGeneAnnotator	CDS	700799	701353	.	-	0	ID=MGA_1021;product=FAD synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166533.1;translation=MIYINDSFDKLEKLNTKKAIITIGNFDGFHIFHQKIINQVINIAKQENLTSIVMSFDKKIKNNKTYTNLATKKQKLEFINTKLTDLDYFIDIKVDDSLIKTTKDQFIDILLNKLNVIKIVEGQDFTFGYLSQGNINDLIRVFSKENVIIFKRDNDISSTKIKKLLDENLVDKAQELLGINLKLK;locus_tag=LOCUS_10210;EC_number=2.7.1.26;note=WP_011166533.1 FAD synthetase (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-98],MGA_1021
sequence1	MetaGeneAnnotator	CDS	701568	702218	.	-	0	ID=MGA_1022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKSGIFILNKPSNISTYQLINQVKKKLNIKKVGHCGTLDLLATGVVICLVNNATKISDYLLNANKAYQVKIKLFTLTDSFDAEGNIIQTQTPFNISLDQINKVINKYNNYTYNQYPPIYSSIKVDGKKLYEYALTNQDVEIKSRKVTIYKTSLLDYDQKNYEIFLDVKCSKGTYIRSLAVDICKDLNTIGYVVYLNRTLSGNFKLENAIDLNNIS;locus_tag=LOCUS_10220;note=WP_011166532.1 tRNA pseudouridine(55) synthase TruB (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:74.0%25%2C Eval:8.6e-119%2C partial hit],internal stop codon at [701568:701570](-),MGA_1022
sequence1	MetaGeneAnnotator	CDS	702361	702621	.	-	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANIKTQKRKESLLLRELNLILQREIKSEILKSVSVVETRLSADNSHVKIFYQFIPIPEDLTIQSIEEELENKLKEIRMILASKLD;locus_tag=LOCUS_10230;note=WP_011166531.1 30S ribosome-binding factor RbfA (Mycoplasma mycoides) [pid:91.9%25%2C q_cov:100.0%25%2C s_cov:73.5%25%2C Eval:4.2e-36%2C partial hit],internal stop codon at [702361:702363](-),MGA_1023
sequence1	MetaGeneAnnotator	CDS	702916	704037	.	+	0	ID=MGA_1024;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166530.1;translation=MFESKELFIRSIGSTSDIVSKEMYEFVDKKNRSLVLKPEGTASVVRAVVENKLYAEDYLPFKTYYISPMFRYERPQNGRYRQFHQLGIEVYGSDSIQQDYEVLNIANNIINDFKLNKNIKIYTNYLITGNNREQYILELKKYLTDFKLCTDCNIRIEKNPLRVLDCKIDDKQFNNVPSMKDFLTDEEQKRYQQTLDLFKEMNILTIHDDKLVRGLDYYTGFIFEIKYESKNIEQTIIAGGRYNNLVYEIGNINLPACGFGMGLERFINIIKEQNDKLNTNDQSIDLYTICLDQSAIKLNQQILELSRSIGLISDSNYYNLSLKSALKKSDKLNPKYLIILGEKEATSNQFIIKNKINKTEIKTTLTNLVNDLK;locus_tag=LOCUS_10240;gene=hisS;EC_number=6.1.1.21;note=WP_011166530.1 histidine--tRNA ligase (Mycoplasma mycoides) [pid:79.6%25%2C q_cov:100.0%25%2C s_cov:90.1%25%2C Eval:1.1e-169],MGA_1024
sequence1	MetaGeneAnnotator	CDS	704145	705296	.	+	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFIDLKDRYGITQLVIEQENINLINNIKNEYVIEISGIVVKRKSVNKELITGEIEVIVKDLLVINKSELTPFVLENDVNVNEDTRLTYRYLDLRRPIMQNNLIIRAKINHIIRNYLTDLNFLEVETPYFAKSTPEGARDFLVPSRLNKNKFYALPQSPQLFKQLLMISGIDRYYQIVRSFRDEDLRIDRQPEFTQLDLEMSFATSEDVMQISESLIKKILKEVKNFEIKGPLLRLSYKDAIDLYGSDKPDLRYDLKIHTLNDIFKNTNIKFLNNPDLFIRAICIDQLLSKKQLEDLNQQAKQFHFNSIAFIKFENNNWSGSLASQLTENEKELLIKEFDIKNKATIILNIGKYAEISQLMGAIRISLAKMFNLETKDDFKLL;locus_tag=LOCUS_10250;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:66.7%25%2C Eval:8.1e-203%2C partial hit],internal stop codon at [704115:704117](+)%2C[705294:705296](+)%2C[705558:705560](+),MGA_1025
sequence1	MetaGeneAnnotator	CDS	705630	705770	.	+	0	ID=MGA_1026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTDSNSIRDVIAFPKNSLGIDMMSNAPDLVSEKQLEELNIKIVK;locus_tag=LOCUS_10260;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:8.0%25%2C Eval:3.9e-18%2C partial hit],internal stop codon at [705558:705560](+)%2C[705609:705611](+),MGA_1026
sequence1	MetaGeneAnnotator	CDS	706018	706152	.	-	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYDLVELIKIALESDTNEIFIEYLYEIDEVLSECIDEIDDDGF;locus_tag=LOCUS_10270;note=WP_011166527.1 hypothetical protein (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:15.4%25%2C Eval:8.7e-18%2C partial hit],internal stop codon at [705817:705819](-)%2C[705820:705822](-)%2C[705835:705837](-)%2C[706018:706020](-)%2C[706306:706308](-)%2C[706444:706446](-),frameshifted%2C insertion/deletion at around 705825,MGA_1027
sequence1	MetaGeneAnnotator	CDS	706151	706345	.	+	0	ID=MGA_1028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSNFVDGFRSISVFKELVKYVLVKYKKVSLIFKSTPYSSQKFGFFLSNVLYQKEKSSKKLNNF;locus_tag=LOCUS_10280;note=MGA_1028
sequence1	MetaGeneAnnotator	CDS	706758	707534	.	-	0	ID=MGA_1029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYCGIYPIDTNKYQDFKEALEKIELSDSSLVYEPETSQALGFGFRCGFLGLLHMEVIQERLEREYNLELIATAPSVVYKVHLTNKQVIELDNPALLPEAQKIAKIEEPFVEIKIATPSEYIGDLMNLCQNKLGIYKNMEVIDNNRRILVYQMPLAEIIFDFFNKLKSISKGYASFEYELIGYKESKLVRMDIKLNGEMVDAFSMIVNQKFAYQRGSALTLKLKELIPRQNFEVPVQATIGNKVISRETIKAYRKDVT;locus_tag=LOCUS_10290;note=WP_013447641.1 translation elongation factor 4 (Mycoplasma leachii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:43.0%25%2C Eval:1.4e-140%2C partial hit],internal stop codon at [706758:706760](-)%2C[707643:707645](-),MGA_1029
sequence1	MetaGeneAnnotator	CDS	707643	708422	.	-	0	ID=MGA_1030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKSKIRNFSIIAHIDHGKSTLADRILELTNTVEKREMQDQLLDSMDIERERGITIKLNSVQLKYRSKDNQDYIFNLIDTPGHVDFTYEVSRSLAACEGAILVVDASQGVEAQTLANVYLAIDSNLEIIPVINKIDLPSADVDKVKQEIEEIIGLDCSNAPLISAKTGLNVEDVLQAIVEKIPSPSDAIDNAPLKALIFDSYYDKYLGVVMSIRLKQGMLRVGDKIKLMSTNAEYEVTSLGIKTPKIVKKDFLEAGEVG;locus_tag=LOCUS_10300;note=WP_013447641.1 translation elongation factor 4 (Mycoplasma leachii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:43.2%25%2C Eval:1.2e-139%2C partial hit],internal stop codon at [707643:707645](-),MGA_1030
sequence1	MetaGeneAnnotator	CDS	708446	709333	.	-	0	ID=MGA_1031;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166525.1;translation=MKQIDIQTIDNHQIKTYVFDKVKKPIAVLHIISNNLNIIDFYTGFFKLLNEHQIIVVCNSIQNSLAIRNQQKILNHNAKIIIEDFKEVNHFIKKQYKLPIFMFSHSITCVFSKAYAIKYSETINGIILSNFIQFNKTVIFKEMIRLIFIKLFSKNKKPYSLYQDTYTQTFLQEFNQNNEFLSDNLNRYLDLLEDDFISKKFEIISLLDIYKTMYFNLKTKRFSFIRKNLPILLIANDNNFDEEKYYLKSSYKLLKQFLKKDYFIQLNYVNDLKNKMFNNKNQLENQIVTFINKHH;locus_tag=LOCUS_10310;note=WP_011166525.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:92.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-155],MGA_1031
sequence1	MetaGeneAnnotator	CDS	709962	710573	.	-	0	ID=MGA_1032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTHSDDNGLVLPSKISPIQIQIIQIKNNEQIDQVVEIIKDKLSDYRINVDNSDKSFGFKISEAEIKGIPIRIEIGPRDLENNQITISRRDQQENKIKIDYKNVKKVVDQMIKDYDLSLYNNALENRKNRTFKADTIEEYIEILKQNQGFVLVPFCGRVECEQDIKTKTATNSRCIPFDQKEVKAKCFNCKKDTCLQVIFARAY;locus_tag=LOCUS_10320;note=WP_011166523.1 proline--tRNA ligase (Mycoplasma mycoides) [pid:91.6%25%2C q_cov:100.0%25%2C s_cov:42.8%25%2C Eval:2.2e-102%2C partial hit],internal stop codon at [710607:710609](-),MGA_1032
sequence1	MetaGeneAnnotator	CDS	710607	710810	.	-	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVICGKKTEKEKFAGAKDTYTIESLMFDGQALQCGTSHFFADNFTKVYDIKFQNKENKLEHAYSTS;locus_tag=LOCUS_10330;note=WP_011166523.1 proline--tRNA ligase (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:14.1%25%2C Eval:1.1e-33%2C partial hit],internal stop codon at [710607:710609](-)%2C[710910:710912](-)%2C[710955:710957](-)%2C[710973:710975](-),MGA_1033
sequence1	MetaGeneAnnotator	CDS	710973	711158	.	-	0	ID=MGA_1034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKEKDHIEGFSPEIATVTRVGEKQLEENLFIRPTSEVVMMDYFSNEINSYRDLPLIYNQ;locus_tag=LOCUS_10340;note=WP_011166523.1 proline--tRNA ligase (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:4.3e-28%2C partial hit],internal stop codon at [710910:710912](-)%2C[710955:710957](-)%2C[710973:710975](-)%2C[711243:711245](-)%2C[711333:711335](-),MGA_1034
sequence1	MetaGeneAnnotator	CDS	711367	711513	.	-	0	ID=MGA_1035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRDYDLYKKAEEYLRKTLLNDSIRIYYKNNDQFEQIEGNNDNEKTTR;locus_tag=LOCUS_10350;note=WP_011166522.1 hypothetical protein (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:21.2%25%2C Eval:1.5e-20%2C partial hit],internal stop codon at [711517:711519](-)%2C[711577:711579](-)%2C[711583:711585](-)%2C[711670:711672](-)%2C[711676:711678](-)%2C[711742:711744](-),MGA_1035
sequence1	Aragorn:1.2.38	tRNA	712167	712256	.	-	.	ID=Aragorn_28;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_28
sequence1	MetaGeneAnnotator	CDS	712593	712784	.	+	0	ID=MGA_1036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITNPLLFLKLGTRHKIERINVTIVAGIVNQAKNQIKTIEIGSTIMIPTIDKTAPTITNGFGF;locus_tag=LOCUS_10360;note=MGA_1036
sequence1	MetaGeneAnnotator	CDS	713044	713310	.	+	0	ID=MGA_1037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNYVFNKDYIFLNVNLKTKQEVFEFIASKAKELKIVTSKKALIDGFKLREAENTTGFEDGFAIPHPKDVKQIKKPAVFVLKFTNPIE;locus_tag=LOCUS_10370;note=WP_009897772.1 PTS sugar transporter subunit IIA (Clostridioides difficile) [pid:45.2%25%2C q_cov:95.5%25%2C s_cov:55.3%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [713308:713310](+),MGA_1037
sequence1	MetaGeneAnnotator	CDS	713599	714198	.	+	0	ID=MGA_1038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEEKLLQQALKQNYQIRVETQGSKGIGTPLTNKEIKEADVVIIATDTAVDLTRFNGKKVYKTKVSNAIKDPEKTINDALKLATIHNQTNQEFETKNIKNQEKVGVLQHILSGISYMVPIIILGGICLAVSLGLAKAIYGADAAPKGFLKYLEAIGGASFTLMIAILGGFIANSIAGRAAIVPAMVGSFIGNNPSNFAN;locus_tag=LOCUS_10380;note=WP_011037515.1 fructose-specific PTS transporter subunit EIIC (Xanthomonas campestris) [pid:42.4%25%2C q_cov:97.0%25%2C s_cov:34.0%25%2C Eval:1.0e-32%2C partial hit],internal stop codon at [714196:714198](+)%2C[714283:714285](+)%2C[714295:714297](+),MGA_1038
sequence1	MetaGeneAnnotator	CDS	714219	714437	.	-	0	ID=MGA_1039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHDEMWFIINPIGAPKTNIKINEIPIPPTNGIKKIGIAGANVFGTFQLLTHFTKYPTINPAIIAPTNPIGV;locus_tag=LOCUS_10390;note=MGA_1039
sequence1	MetaGeneAnnotator	CDS	714502	714864	.	+	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGFDMGGPVNKIAFVTCSALITEKIYEPMGAMAAAIPVAPLGMGLTTLLFKKFFNSTERQLGVAALIMGSIGISEGAIPFAIRDPRRAILCNVVGSAVAGGIAGSLKVQDFAAHGGPIV;locus_tag=LOCUS_10400;note=WP_005478109.1 fructose-specific PTS transporter subunit EIIC (Vibrio parahaemolyticus) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:19.2%25%2C Eval:2.8e-27%2C partial hit],internal stop codon at [714283:714285](+)%2C[714295:714297](+)%2C[714430:714432](+)%2C[714466:714468](+)%2C[714862:714864](+),MGA_1040
sequence1	MetaGeneAnnotator	CDS	715237	715458	.	+	0	ID=MGA_1041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKKSEITDYKKQTHSKYNQQISDLKQNNNLETKQLHKEIKNLKTKEKQDIVDYSKNLRNQFSNKFKMINNL;locus_tag=LOCUS_10410;note=MGA_1041
sequence1	MetaGeneAnnotator	CDS	715685	716023	.	-	0	ID=MGA_1042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLTLLGSISLVATTSAALIACGDKTQQKSPEKKDDKLLSSKKEGKENTKEKINELQSDKPKEDNIYHPKKSKEENFNLIKKYGLKIFDFVFPRADKLNELKEKPEYSYL;locus_tag=LOCUS_10420;note=WP_011167179.1 lipoprotein (Mycoplasma mycoides) [pid:47.5%25%2C q_cov:71.4%25%2C s_cov:55.3%25%2C Eval:3.3e-12%2C partial hit],MGA_1042
sequence1	MetaGeneAnnotator	CDS	716375	716758	.	-	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLITLIGSVVLITTSSSLVIACKIQQSSNDKIINFKSDKSNDNLKTQKNDIDKNNIKSVIKESKKDKTDIEVKEKNELYKKEDIKKTKEEKLEKYVLKRSKEENFSFTKDYGLKHANFIFDKRDK;locus_tag=LOCUS_10430;note=MGA_1043
sequence1	MetaGeneAnnotator	CDS	716891	717328	.	-	0	ID=MGA_1044;product=lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166748.1;translation=MKKILIMFSFTSLSILTSITTVACKSIDQKQSYTKEIKNQNKSNPFEKKDNQKIDKTNEANFNLIKKYGLEINNLLESSKNKVEELVKKPELGKVFKLISNLIQLYQELNKFDTLDKFTNALKSQLENKQPKISYGEFLNKIFTQ;locus_tag=LOCUS_10440;note=WP_011166748.1 lipoprotein (Mycoplasma mycoides) [pid:29.0%25%2C q_cov:100.0%25%2C s_cov:90.6%25%2C Eval:2.6e-13],MGA_1044
sequence1	MetaGeneAnnotator	CDS	717532	718077	.	-	0	ID=MGA_1045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSITLITTTSTAVIACKNIKQLELKNKETEQEDKKESIESTDDNQKEKTNESENDSKPNEHPQGDQPHNAQPFDLPRKNNKELVKNNKMNFDLIKKYGKEFSELFSSLPKDKAEKISEDPKNTNGLTIAGKILKFYEELKSYSNFDTFKSKLKEKFNKSESEFSNFISTLEKD;locus_tag=LOCUS_10450;note=WP_011166515.1 hypothetical protein (Mycoplasma mycoides) [pid:80.0%25%2C q_cov:47.0%25%2C s_cov:70.8%25%2C Eval:1.5e-32%2C partial hit],internal stop codon at [717460:717462](-)%2C[717532:717534](-),MGA_1045
sequence1	MetaGeneAnnotator	CDS	718313	719500	.	-	0	ID=MGA_1046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNIDLSLGSLKQIASIKGLYGILNLPNELDTLKNLLNTFGLSSFISKVEKAVEPLQKILDLLKDFGFISDTKKFIQQFDSYTKKIIKYIPDKYQSVNMQLNYDLISNLYPKTKTNTNFINDFTTRLAEFLFPKNNKDQDDELLLPIIRLIRNDKDKKITSVEQIKKDLTNYSEKILSKDSLFKNITDIRDLKIQLPDNLLKHLKIENIKDLTVLELLQITSKYINQFLKNNPDKSLTFDLSSIGFILKALSASVDITYIDNKKITNKNLFKALYDDLDSFNHKNDENDKGRKEESFYNWSSIVLNLGDDIKRTIDLEQIKNDFSYSPLHLLLGIDLNKVQYIKNTIGYALATLIGGINITDPNYELANQNRKSVITIFAILNFVLQNQETILKI;locus_tag=LOCUS_10460;note=WP_011166513.1 STREFT protein (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:99.7%25%2C s_cov:37.7%25%2C Eval:1.4e-213%2C partial hit],internal stop codon at [718130:718132](-)%2C[718271:718273](-)%2C[719744:719746](-),frameshifted%2C insertion/deletion at around 718321,MGA_1046
sequence1	MetaGeneAnnotator	CDS	719744	720244	.	-	0	ID=MGA_1047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYVINEQYSNPSQLLNQKIEDKRFDPLINNKLDLSLLINGFSKVLEDKKYTTRLLDFLFKRTDKTKIYFDHKTIPQNIGTSSLILDVINLIQKTILKTNQLIKEAIEGLENYIKENMYELREKIRNTILGVLKSKVNSFSHSVHFGYIHTNEDYNKLTVQIYTNL;locus_tag=LOCUS_10470;note=WP_011166513.1 STREFT protein (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:9.1e-89%2C partial hit],internal stop codon at [719744:719746](-)%2C[720386:720388](-),MGA_1047
sequence1	MetaGeneAnnotator	CDS	720386	720937	.	-	0	ID=MGA_1048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKVSDIYRTYFGKSIDVIEKDLKLQYRDNNKNLVDITDLKNGEFTPKNIDKITALTRSSEDFLNGFSPSLASLGLSFFQSQALENEDHLNKIKNNNIIKSVVDFINNNQSLIKLLSKIFSTKNVDKSFYKDLTIKQVFNKNINLITSSFTKKTYSDNNNDYFADDVSDLIISDVKNIVLQE;locus_tag=LOCUS_10480;note=WP_011166513.1 STREFT protein (Mycoplasma mycoides) [pid:94.0%25%2C q_cov:100.0%25%2C s_cov:17.5%25%2C Eval:3.5e-93%2C partial hit],internal stop codon at [720386:720388](-)%2C[720962:720964](-)%2C[721199:721201](-),MGA_1048
sequence1	MetaGeneAnnotator	CDS	720962	721183	.	-	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMFAFISGFLFFIRSYVDSSKQNYLNKIQSYIDASSYLAKSKILKSVEDLNEDYVNKKLSEQYLEQEFGKDFI;locus_tag=LOCUS_10490;note=WP_011166513.1 STREFT protein (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:7.0%25%2C Eval:4.0e-34%2C partial hit],internal stop codon at [720962:720964](-)%2C[721199:721201](-),MGA_1049
sequence1	MetaGeneAnnotator	CDS	722387	723334	.	+	0	ID=MGA_1050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLNTNKEDTFFYDIIKKGFKGILRPLIVYYSEDDNYIDIQKVSQYSETNELRGFLSGSNVYTQNVDKLPDIFKNNELVDLLVLNTNPFLNITNKASGFFISNDDIKKSTNKDFMISAAFLTHHKIVAIANGYDLYIRPETIFNDPITKKTFRIINISDQNHTNYLVLNGNKPINASQITVSRQFAKANKIKIGSSLNLGQAVGLVVSGYAVDTYSFFPTSDPNVPLPKSDSGGLIYASDKTIDQIIGDETDPSNNDQTTIYNFFLIKKQSDANLNNLYLDHFSKSTKIRENINAYNSKDKANTFYKTYDFDKS;locus_tag=LOCUS_10500;note=WP_020862624.1 ABC transporter permease (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:17.8%25%2C Eval:3.3e-180%2C partial hit],internal stop codon at [722219:722221](+)%2C[723332:723334](+)%2C[723347:723349](+)%2C[723536:723538](+)%2C[723578:723580](+),MGA_1050
sequence1	MetaGeneAnnotator	CDS	723857	724072	.	+	0	ID=MGA_1051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLTESGKKPFSLLLILTFIATLFISIGIAIPSIAIHTKNNYFKNINYNNEYQIFNNITNTPLGKDTLNL;locus_tag=LOCUS_10510;note=WP_020862624.1 ABC transporter permease (Mycoplasma mycoides) [pid:87.3%25%2C q_cov:100.0%25%2C s_cov:4.0%25%2C Eval:2.3e-29%2C partial hit],internal stop codon at [723578:723580](+)%2C[723665:723667](+)%2C[723785:723787](+)%2C[724070:724072](+)%2C[724313:724315](+),MGA_1051
sequence1	MetaGeneAnnotator	CDS	724679	725053	.	+	0	ID=MGA_1052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSPYSNNLKTNYQILGLDKTQNSFKIDDQLKNKVFLSNSDIQNIYQIINSPYQKQGDDLISSSTNQILYNRKTNTLNVPTILNQTLNNHFLNNQNILDNISSYNSQLMYKTKSNDFKILPKQA;locus_tag=LOCUS_10520;note=WP_020862624.1 ABC transporter permease (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:7.0%25%2C Eval:1.5e-65%2C partial hit],internal stop codon at [724535:724537](+)%2C[725051:725053](+)%2C[725108:725110](+)%2C[725261:725263](+),MGA_1052
sequence1	MetaGeneAnnotator	CDS	726152	726514	.	+	0	ID=MGA_1053;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDYSPHYYYNTIFSNSNEPLTITSSISIIPEKRLGLAIIDLLNLSDYKTAISNVNFINQTKQLIDQLTKTSIYIAIIIITAISLSASLLIMLITNIYISQYKSFMIMLRSMGYTNKQTI;locus_tag=LOCUS_10530;note=WP_020862624.1 ABC transporter permease (Mycoplasma mycoides) [pid:83.2%25%2C q_cov:99.2%25%2C s_cov:6.7%25%2C Eval:1.3e-48%2C partial hit],internal stop codon at [726095:726097](+)%2C[726122:726124](+)%2C[726512:726514](+)%2C[726647:726649](+)%2C[726650:726652](+)%2C[726704:726706](+),MGA_1053
sequence1	MetaGeneAnnotator	CDS	726490	726723	.	-	0	ID=MGA_1054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLVEIHIAIKNENKTIIKQTNKDHHCTDIGIEILLITSSLFNNIIGRKILLIVKIITNILKIFVIPKTYQIVCLFV;locus_tag=LOCUS_10540;note=MGA_1054
sequence1	MetaGeneAnnotator	CDS	726801	727331	.	-	0	ID=MGA_1055;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166509.1;translation=MIYLLEKDNQIIDSLIILNNKKLSDIAILKLEEFLKNNNLTLNDLKAFYLTIGPGSYTGVRVGLTIVKTLKVLNNNFDVFIINSLLYQAGLNKIISCIDARSNKYYVSVYNNAKQLLEISLIDQDQINNLINQYQDYKLVNDYQFDYLKHYLDLKKHFIKIDDDNKLNPLYIKSFI;locus_tag=LOCUS_10550;gene=tsaB;EC_number=2.3.1.234;note=WP_011166509.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Mycoplasma mycoides) [pid:94.9%25%2C q_cov:100.0%25%2C s_cov:94.1%25%2C Eval:6.5e-91],MGA_1055
sequence1	MetaGeneAnnotator	CDS	727465	727782	.	-	0	ID=MGA_1056;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862622.1;translation=MKVKVNNLEQTYKIAKKIKKIIQNQKIPFYILLKGDLGAGKTTFTKALLEQFNIKDNITSPSFVIMNQYFIDDLKINHMDAYRLNNDSEIEMYLDEFLDGLNIIE;locus_tag=LOCUS_10560;gene=tsaE;note=WP_020862622.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Mycoplasma mycoides) [pid:94.3%25%2C q_cov:100.0%25%2C s_cov:76.1%25%2C Eval:6.0e-51],internal stop codon at [727465:727467](-),MGA_1056
sequence1	MetaGeneAnnotator	CDS	727902	728321	.	+	0	ID=MGA_1057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLTLLSSMNLTNIKEPNLIKTNIIQNYRSEFNLSEKVNISRSIKASNTPSKNNDNNFYILKSSANFYNQTVENILKGFNFKLSDEYISFIKDGFKLEISLTVNLEFINTKDQYFNNKYDLVFYLSNNSFTNQSSKDVI;locus_tag=LOCUS_10570;note=WP_020862621.1 hypothetical protein (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:29.6%25%2C Eval:8.9e-74%2C partial hit],internal stop codon at [728319:728321](+)%2C[728385:728387](+),MGA_1057
sequence1	MetaGeneAnnotator	CDS	728478	728684	.	+	0	ID=MGA_1058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSFNSLKYNIDTIKYRFYTPLSLYSQIKDFNFNINKDNISIDDIKKQIYIQQTSLKNSEFYKQNKVL;locus_tag=LOCUS_10580;note=WP_020862621.1 hypothetical protein (Mycoplasma mycoides) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:14.5%25%2C Eval:2.6e-22%2C partial hit],internal stop codon at [728319:728321](+)%2C[728385:728387](+)%2C[728682:728684](+)%2C[728748:728750](+)%2C[728859:728861](+),MGA_1058
sequence1	MetaGeneAnnotator	CDS	728940	729311	.	+	0	ID=MGA_1059;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLTAFDTEIKDNILIIKPKKEYEYKFYNQKQILLKFKDENINTINSDTNNQNQLTNSNINQNQQIESRVNQTNITNNSTNNTILKSPYFYMSVAISLLFIICLLFLLNKIVIKYLNKKRKST;locus_tag=LOCUS_10590;note=WP_020862621.1 hypothetical protein (Mycoplasma mycoides) [pid:80.5%25%2C q_cov:100.0%25%2C s_cov:26.2%25%2C Eval:3.9e-50%2C partial hit],internal stop codon at [728682:728684](+)%2C[728748:728750](+)%2C[728859:728861](+),MGA_1059
sequence1	MetaGeneAnnotator	CDS	729340	729570	.	+	0	ID=MGA_1060;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKAVGLSEKGNFRKENQDFLNYYKNSDGSFLAIICDGMGGHKRGEIASRLAVDTLVDLFKKTSFDKKESKEIFS;locus_tag=LOCUS_10600;note=WP_011166505.1 protein phosphatase 2C domain-containing protein (Mycoplasma mycoides) [pid:94.7%25%2C q_cov:100.0%25%2C s_cov:53.9%25%2C Eval:1.2e-35%2C partial hit],internal stop codon at [729568:729570](+)%2C[729697:729699](+)%2C[729757:729759](+),frameshifted%2C insertion/deletion at around 729696,MGA_1060
sequence1	MetaGeneAnnotator	CDS	729604	729852	.	+	0	ID=MGA_1061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYVEDFIEAKDMGTTLSAILIANNNAHIINIGDSRIYHLKDQSLNQITIDQNLMNSNYDIQKIRQQAQRYYGTKFNENTY;locus_tag=LOCUS_10610;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:48.8%25%2C q_cov:100.0%25%2C s_cov:32.3%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [729568:729570](+)%2C[729850:729852](+),MGA_1061
sequence1	MetaGeneAnnotator	CDS	730098	730400	.	+	0	ID=MGA_1062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKTKKDLGINKEELLNQVVNNRYKLIKYLNSGAFAVVFKALDLDASVLEKKDVFVAVKIILKAKNKNIETIKKRLFLETNTFAKLSFSKNIVKMKDVFS;locus_tag=LOCUS_10620;note=WP_011166504.1 serine/threonine-protein kinase (Mycoplasma mycoides) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:27.0%25%2C Eval:1.5e-46%2C partial hit],internal stop codon at [730398:730400](+),MGA_1062
sequence1	MetaGeneAnnotator	CDS	730422	731060	.	+	0	ID=MGA_1063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELIEGADLSKKFNAYNNVLSNKEFIYYFLQITKGLKEIHDNNIIHRDVKPANILITNDSKVRISDFGISKIKSIILDDHHNHISPGTPRYTAPEQFINFESRKDAFYFESDIYSIGVIMYEFLTGSMLYLNYGSNHTSSKEKERTNFQQNILKDITRPREINPNISQALENIIMKCLAKDYKNRYHTFDQIIEDLEQARQQPDVNIDFPNM;locus_tag=LOCUS_10630;note=WP_011166504.1 serine/threonine-protein kinase (Mycoplasma mycoides) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:57.1%25%2C Eval:9.6e-115%2C partial hit],internal stop codon at [730398:730400](+)%2C[731058:731060](+)%2C[731061:731063](+)%2C[731154:731156](+),MGA_1063
sequence1	MetaGeneAnnotator	CDS	731223	731612	.	+	0	ID=MGA_1064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGILIKKDSNESYVFYKNNIYKVYAKGNLKKELKPKVGDIVEFSILEDGNGYIKEIKPRKNSLDRPKIANVDQVLIVTALYEPLFSSFLLNKYIMMLETLKIKPILIFTKVDLLKQTPYYQEVMHKIN;locus_tag=LOCUS_10640;note=WP_011166503.1 ribosome small subunit-dependent GTPase A (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:43.0%25%2C Eval:1.2e-67%2C partial hit],internal stop codon at [731610:731612](+),MGA_1064
sequence1	MetaGeneAnnotator	CDS	731622	731951	.	+	0	ID=MGA_1065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYEVLIINNKDNLENKKAIIEKLKSFLENKISVFTGQTGAGKSTTLNNFLDMNNQIKTNEISKKLNRGKHTTTSIQLYNLENNIFIADTPGFSAFDLNNIDIEHILYS;locus_tag=LOCUS_10650;note=WP_011166503.1 ribosome small subunit-dependent GTPase A (Mycoplasma mycoides) [pid:90.8%25%2C q_cov:100.0%25%2C s_cov:36.3%25%2C Eval:1.6e-51%2C partial hit],internal stop codon at [731610:731612](+)%2C[731949:731951](+),MGA_1065
sequence1	MetaGeneAnnotator	CDS	732238	732804	.	+	0	ID=MGA_1066;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166502.1;translation=MDFDFVPNLTFGSKILHDIKKNIDINVDVHFMVSVKTKQFEDFFLDYIKAKPEMMTMHIESLKDDNTINKFINLCKQNNILASLAISPKTDVSLIYPYLDKLDNVLVMSVEPGFGGQKFISSSLEKIQILDQLRNTKNYKYTIEVDGGINEQTSVLVKQAGVDMIVAGSYLFGSDDFTKRAKGLFDEL;locus_tag=LOCUS_10660;gene=rpe;EC_number=5.1.3.1;note=WP_011166502.1 ribulose-phosphate 3-epimerase (Mycoplasma mycoides) [pid:94.1%25%2C q_cov:100.0%25%2C s_cov:83.6%25%2C Eval:1.6e-96],internal stop codon at [732220:732222](+),MGA_1066
sequence1	MetaGeneAnnotator	CDS	732794	733009	.	+	0	ID=MGA_1067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKTILIVTAKTNLNLEIFNNDSTYVIGVERGCLDLISRNMKIDYAIGDFDKVTDQELELIKSKIKNVEI;locus_tag=LOCUS_10670;note=WP_020862618.1 thiamine diphosphokinase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:34.1%25%2C Eval:6.8e-34%2C partial hit],internal stop codon at [733007:733009](+),MGA_1067
sequence1	MetaGeneAnnotator	CDS	733507	733680	.	+	0	ID=MGA_1068;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQLNPKYDHLQVEKDKYQYWLDKNLFKADINSNKPKFSIILPPPNVTGKLHIGHA;locus_tag=LOCUS_10680;note=WP_011166500.1 valine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:6.5%25%2C Eval:6.4e-29%2C partial hit],internal stop codon at [733678:733680](+)%2C[733858:733860](+)%2C[733864:733866](+)%2C[733900:733902](+),MGA_1068
sequence1	MetaGeneAnnotator	CDS	733738	733860	.	+	0	ID=MGA_1069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLPGMDHSGISTQVKVEAKLKQQGIDKNKLGREKFLLEA;locus_tag=LOCUS_10690;note=WP_011166500.1 valine--tRNA ligase (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:4.6%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [733678:733680](+)%2C[733858:733860](+)%2C[733864:733866](+)%2C[733900:733902](+)%2C[734038:734040](+),MGA_1069
sequence1	MetaGeneAnnotator	CDS	734104	734589	.	+	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYFKYMLEDSNEYLTVATTRPETMFADQCLVVNPNDSRYQKYINKKVINPVNKQVIPIISDEYVDIEFGTGVMKCTPAHDLNDYHLAIKHNLKMPICLNIDGSVNHLGGKYQGLDRFVARKEIIKNAIDEDLFVKEEDIINQVGFSERSNAIVEPYLSDQ;locus_tag=LOCUS_10700;note=WP_011166500.1 valine--tRNA ligase (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:18.5%25%2C Eval:9.4e-88%2C partial hit],internal stop codon at [733858:733860](+)%2C[733864:733866](+)%2C[733900:733902](+)%2C[734038:734040](+)%2C[734587:734589](+)%2C[734692:734694](+)%2C[734713:734715](+)%2C[734734:734736](+)%2C[734737:734739](+)%2C[734758:734760](+)%2C[734851:734853](+)%2C[734869:734871](+),MGA_1070
sequence1	MetaGeneAnnotator	CDS	734986	735219	.	+	0	ID=MGA_1071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFQTLEYTKQIPFKDVLIHGLVRDELNRKMSKSLGNGIDPMDVINNNGCDSLRLFLLTNSTPGQDIRYSNEKILAS;locus_tag=LOCUS_10710;note=WP_011166500.1 valine--tRNA ligase (Mycoplasma mycoides) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:8.8%25%2C Eval:7.6e-38%2C partial hit],internal stop codon at [734692:734694](+)%2C[734713:734715](+)%2C[734734:734736](+)%2C[734737:734739](+)%2C[734758:734760](+)%2C[734851:734853](+)%2C[734869:734871](+)%2C[734974:734976](+)%2C[735217:735219](+)%2C[735238:735240](+)%2C[735331:735333](+)%2C[735418:735420](+)%2C[735430:735432](+)%2C[735448:735450](+),MGA_1071
sequence1	MetaGeneAnnotator	CDS	735679	736125	.	+	0	ID=MGA_1072;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITSIREFRNTKNIKNDVCLSVNISNTNQNHTKLFKKHFDQIYSFLINFCNTKLVDEAIKNKTSLSIDEYFIEIANDSFINKNELIKELEQKQNHLNNEITRSQKILNNQEFIKKAKPKKIQSEKIKYQNYLDQLQAIKDKLKELKND;locus_tag=LOCUS_10720;note=WP_011166500.1 valine--tRNA ligase (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:17.0%25%2C Eval:1.6e-77%2C partial hit],internal stop codon at [735418:735420](+)%2C[735430:735432](+)%2C[735448:735450](+)%2C[735625:735627](+),MGA_1072
sequence1	MetaGeneAnnotator	CDS	736236	737033	.	+	0	ID=MGA_1073;product=NAD(+)/NADH kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166499.1;translation=MKYSFITNKYEESSDIVDELLNILKNTDFKKDQNNPDICFVIGGDGTFLHAVHKYQSILDKLIFIPIKFGGIGFYTNKNRVDDLKKIDLNKIIEQPNITELGLIEVNYDDQKVYAINEIKITNQVRPLNLDIYINNEFLEQFKGTGLVFSTPSGSTGFMKSANGAIIYPVVSLFEMQELMPISTNKFRTLNAPIIFSDNEHITLKLEDLNNVTLSADTYEYQFKNKELLIKLSRKKIKLLNLNKDKFNKIKILRDIFVLNDKTKN;locus_tag=LOCUS_10730;note=WP_011166499.1 NAD(+)/NADH kinase (Mycoplasma mycoides) [pid:90.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-134],MGA_1073
sequence1	MetaGeneAnnotator	CDS	737045	737764	.	+	0	ID=MGA_1074;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166498.1;translation=MKPLVVITGASSGIGLACAKYFSNKGYPLLILARRKEILDNLNLPNTITAKVDVRDFNQLNDAVKKAENIYGPVDLLINNAGIMPMDQYVDQSLEDKYNTLDVNIKGVINGMDAVLKSMLKQNRGTIVNISSVAGRYTYADHSIYNGSKFAINAITEQVRRELSDTNIRFSLIEPAIVDTNLLSTTKNQKILDSYIARKNSLNGGLKPEQLAEVIYYIYSLPQDVVIPELMISHTNQKV;locus_tag=LOCUS_10740;note=WP_011166498.1 SDR family oxidoreductase (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-130],MGA_1074
sequence1	MetaGeneAnnotator	CDS	737890	738966	.	+	0	ID=MGA_1075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDIKFTALGGQDERGKNLYVLEIDNDFFILDAGVKYPEKDILGIDTVIPKFDYIKQNKKKIKGIFLTNPSAYNMGAVPYLLKEIEAPIYCNEITELIAKIKFQKLRLKNKDHILKVVHDKDILKIGNTKVEIFRTTSSSPQSFGYVFHTELGSIVYAGDYIIDGKEQSYFSTDYTHLSQIAKNGVLALISDAEFASRKDFTVPNHKIDKYILAPFKEKKTKIIVAIFEEDIHKLSQICMAAKENNRKIAVYGRTMDAVLRSNLIHENLVIKPEDLMSIQEYVNSDNGVLIISGTGDDLYSKLAKIATSNDSLVEFTEKDLIILTNTPVAGVEKRHAQILDELARTDARLLALSDKNI;locus_tag=LOCUS_10750;note=WP_011166497.1 ribonuclease J (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:61.4%25%2C Eval:1.2e-200%2C partial hit],internal stop codon at [738964:738966](+),MGA_1075
sequence1	MetaGeneAnnotator	CDS	738970	739641	.	+	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRASYEDIKMLTSILNPKYFIPVKALYKDFLNAEKAAIEAGVNNQNIGIIDNGEILKLSKNHLAISEHSAEHGNVYVDGSGIGDVGSIVLNERKQLATDGVIIVGATIDSRNKELISLIDTQMRGVLYIQEDNPIFKILQREITNLILEGQALYKKEPKKYDLNEIKKDITSKIKQLIKQESGKTPIVLVIINESDGKAYVPRNNKKRYNNNNKSTKSKKDKS;locus_tag=LOCUS_10760;note=WP_011166497.1 ribonuclease J (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:91.0%25%2C s_cov:34.8%25%2C Eval:1.7e-109%2C partial hit],internal stop codon at [738964:738966](+),MGA_1076
sequence1	MetaGeneAnnotator	CDS	740401	740634	.	+	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFNAFSKAFVSCFFFFSGFESFATAGKNIKDPEKNLAKGIMITMLVSSIFYIVIMAIFFAAVNPKQGFSQNMTTGL;locus_tag=LOCUS_10770;note=WP_011166496.1 APC family permease (Mycoplasma mycoides) [pid:80.5%25%2C q_cov:100.0%25%2C s_cov:14.3%25%2C Eval:2.7e-27%2C partial hit],internal stop codon at [740143:740145](+)%2C[740146:740148](+)%2C[740176:740178](+)%2C[740254:740256](+)%2C[740293:740295](+)%2C[740368:740370](+)%2C[740632:740634](+)%2C[740662:740664](+)%2C[740878:740880](+),MGA_1077
sequence1	MetaGeneAnnotator	CDS	740689	740880	.	+	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFISQIALRANTSVQNALYGGTMLQPMAVEGFISEKYNKLNKDNIPVKASLLNIYVILLVSFI;locus_tag=LOCUS_10780;note=WP_011166496.1 APC family permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:2.5e-28%2C partial hit],internal stop codon at [740632:740634](+)%2C[740662:740664](+)%2C[740878:740880](+)%2C[741049:741051](+)%2C[741055:741057](+),MGA_1078
sequence1	MetaGeneAnnotator	CDS	741091	741237	.	+	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFFYHYYALFDVIVKYANKNSNIELEDLIGAIVELLFVIISLTFAII;locus_tag=LOCUS_10790;note=WP_011166496.1 APC family permease (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:8.9%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [740878:740880](+)%2C[741049:741051](+)%2C[741055:741057](+)%2C[741235:741237](+),MGA_1079
sequence1	MetaGeneAnnotator	CDS	741435	741617	.	+	0	ID=MGA_1080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKKDQNFKSKMFLIYKTDFKKTKIIAILMLVFLIISMFRLTLVGQFLDDLLFSFLFG;locus_tag=LOCUS_10800;note=WP_011166495.1 membrane protein (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:80.0%25%2C s_cov:13.6%25%2C Eval:6.2e-19%2C partial hit],internal stop codon at [741615:741617](+)%2C[741639:741641](+)%2C[741693:741695](+)%2C[741819:741821](+)%2C[741867:741869](+)%2C[741906:741908](+),MGA_1080
sequence1	MetaGeneAnnotator	CDS	742290	742496	.	+	0	ID=MGA_1081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLKLEQTNFNKDEIFENKNKTNITDQFKQNHKSGILTDSEISPFKRNKPVKKISDNDFFNELFDEK;locus_tag=LOCUS_10810;note=WP_011166495.1 membrane protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.3%25%2C Eval:6.6e-34%2C partial hit],internal stop codon at [742056:742058](+),MGA_1081
sequence1	MetaGeneAnnotator	CDS	742506	744260	.	+	0	ID=MGA_1082;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166494.1;translation=MSLKQQVDLLPNKPGCYLFFNKDNDVIYVGKAKNLKKRVSTYFNKAYNIKTTRLVREITDLKYFIVDNEKESLLLEKNLIKKYHPKYNVLLNDDKTYPYIIITNQKDPMYKYVRKYDKKALKNYGPLPIGSNARSILLTLQRLFPLRMCQGNLNKPCLYYHLNQCSGACFKQVDPSYYEYQIKQVDKFFKGEINQVKQTLIKQMQKASDNLQFEQAQRIKDQITSLDFITAKQNVDIVTNKNIDVINYEINQDKICFVMLFYRLGQLTYKDEYIQNYEGQNLSELFNSYLQQIYQKNIYPDVLLIPNEIQLLDLDQNLLEFSSYSLNKQDDIFIKLAKQNAIDSLNKSVISHNVNSGDEIEILEQLKQISNASKYLKRIEVFDISNIYNQFITGACIVYINAKPIRNEFRKYNIDPSYTSDFSRMKFMLEKRFLKQIKEKEQLPDLIIVDGGIIQIHAAKEVLNKLNLKIDVIGLSKDDHHKTRYLIDIFEQTIDIKNFKKLYNFLTSLQIRVDEYAKSGFRKKYHNQLNDQILLIKGVGKKTNLKLYKHFKTIDNIKNASFDELNKVINNKKITNLIISNLNK;locus_tag=LOCUS_10820;gene=uvrC;note=WP_011166494.1 excinuclease ABC subunit UvrC (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_1082
sequence1	MetaGeneAnnotator	CDS	744383	744856	.	+	0	ID=MGA_1083;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166493.1;translation=MSKEIILTQEGLEELKAELKHLLEVVRPKVIEELVEARNQGDLSENADYDAARNRQAEVEARIKEVETLINRAKVIDDSKTHSTGEVKIGSTVQFVSSLDNKLKEIKIVGAIEADPFSNLISNESPIAKAIIGKKVNTTVEIKDISKPYKITIKSIK;locus_tag=LOCUS_10830;gene=greA;note=WP_011166493.1 transcription elongation factor GreA (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-76],MGA_1083
sequence1	MetaGeneAnnotator	CDS	744899	745621	.	+	0	ID=MGA_1084;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166492.1;translation=MKKLVVITGASSGIGLACAKYFSDKGHPLLILARRKELLDDLNLPNTLTARVDVRDFNQLDQAIKQAENIYGPVDLLINNAGIMILEKYQDQKLEDKYNMIDINIKGVINGMDAVLKSMLKQNHGTIVNISSVAARYTYTDHSVYCGSKYAINAITEQLRRELSHTNIRFTLIEPAIVNTNLLSSTTNKQVKDDYQKSIDEINGGLKPEQIAQTIYYVYSLPDDVMIPELMIAHTNESEV;locus_tag=LOCUS_10840;note=WP_011166492.1 SDR family oxidoreductase (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-129],MGA_1084
sequence1	MetaGeneAnnotator	CDS	745766	746182	.	-	0	ID=MGA_1085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPNDYLDFNTIEQVSLDKFFRSTNNYLHFFNPKLSHILTNKKLLAKFQNQIRTYIRLVGFNFAILAMIDFYNQLDDDQILNKKELVLMISNKTLKDKFQRFTIEVLKLIPNQYKSNLKDLYNENINNQLFNSTEFVR;locus_tag=LOCUS_10850;note=WP_011166491.1 hypothetical protein (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:60.0%25%2C Eval:3.9e-74%2C partial hit],internal stop codon at [745766:745768](-)%2C[746240:746242](-),MGA_1085
sequence1	MetaGeneAnnotator	CDS	746396	746563	.	+	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKEIFNTDFFESGLAYILTNLDFIQEELEQEKLQTSLVEKLITDFEDVEDYET;locus_tag=LOCUS_10860;note=WP_011166490.1 hypothetical protein (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:24.0%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [746561:746563](+),MGA_1086
sequence1	MetaGeneAnnotator	CDS	746954	747085	.	+	0	ID=MGA_1087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNNSFKFNNKQDLLKLEVLNNAQSLIDFLTFYESSLFDDEEE;locus_tag=LOCUS_10870;note=WP_011166490.1 hypothetical protein (Mycoplasma mycoides) [pid:93.0%25%2C q_cov:100.0%25%2C s_cov:18.8%25%2C Eval:2.8e-16%2C partial hit],MGA_1087
sequence1	MetaGeneAnnotator	CDS	747088	747228	.	+	0	ID=MGA_1088;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSKLIAIIIFTVIYLIFLLITFILTYFYQIKNKDFIEFNKKYLNE;locus_tag=LOCUS_10880;note=WP_011166489.1 hypothetical protein (Mycoplasma mycoides) [pid:73.9%25%2C q_cov:100.0%25%2C s_cov:24.0%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [747226:747228](+),MGA_1088
sequence1	MetaGeneAnnotator	CDS	747445	747666	.	+	0	ID=MGA_1089;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLYLTNLHLVIDDNNQFYKYKISEIKSCSICVIRDKNLLQKGCVLKTNDQSLTILGDVFLLVLSIKKLKKEF;locus_tag=LOCUS_10890;note=WP_011166489.1 hypothetical protein (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:38.0%25%2C Eval:8.0e-35%2C partial hit],internal stop codon at [747226:747228](+),MGA_1089
sequence1	MetaGeneAnnotator	CDS	747793	747963	.	-	0	ID=MGA_1090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPIIINSYKKFSFNKFLNFKIVKITRIQSQNMQLKIFIDLIFEYLFLLKLNSRF;locus_tag=LOCUS_10900;note=MGA_1090
sequence1	MetaGeneAnnotator	CDS	747962	748150	.	+	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCEFFIFVILTYLISNLIFVKTEKYLVIVNRLIDLRSVFKIEISERFIKVIYINAFHTKSRL;locus_tag=LOCUS_10910;note=WP_011166488.1 hypothetical protein (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:33.3%25%2C Eval:6.1e-27%2C partial hit],internal stop codon at [747752:747754](+)%2C[747869:747871](+)%2C[748148:748150](+)%2C[748178:748180](+),MGA_1091
sequence1	MetaGeneAnnotator	CDS	748206	748421	.	-	0	ID=MGA_1092;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKKFNNLVFPGVFEIFASLLLFVSEFIKLDFPTLLLPIKQISLTSSLIQLLLFAAEVIKLACFIIVYPF;locus_tag=LOCUS_10920;note=MGA_1092
sequence1	MetaGeneAnnotator	CDS	748504	748812	.	+	0	ID=MGA_1093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMEEYFINRKNLKGVFLLLDLRHKPSNDDIMMYQFLKHYNIPVVIIGTKLDKLKKSEYIKNEKMIKETINFYQEDDFIKISNLDKTNIIKCYELIDKLLGSK;locus_tag=LOCUS_10930;note=WP_011166487.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:52.0%25%2C Eval:4.2e-52%2C partial hit],internal stop codon at [748270:748272](+),MGA_1093
sequence1	MetaGeneAnnotator	CDS	748821	749663	.	+	0	ID=MGA_1094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNLEQKTIHEVQQELNTNIKTGLSNQTASELLIKNGKNELAKNKQTPAILIFLKSLIQPIQIVLFIAAIISVIAPLISSKHFEVKFDDFIDFIVIMGVILLDATLETVQQIKARKSVDALKSLSKPSAVVLRDSIVKEIDASELVVGDIVILEAGKYVPADLRLLESSDCMVEESILTGESVPVEKSSKSIKQTNILAEKKNICFMSTFVTSGRAIGVVIKTGIDTEIGKISKTISDNEEQVTPLEKKMNRFSYLISILAIIISIFVFISFMISSNKSN;locus_tag=LOCUS_10940;note=WP_011166486.1 cation-translocating P-type ATPase (Mycoplasma mycoides) [pid:93.6%25%2C q_cov:100.0%25%2C s_cov:28.9%25%2C Eval:2.0e-138%2C partial hit],internal stop codon at [749661:749663](+)%2C[749889:749891](+),MGA_1094
sequence1	MetaGeneAnnotator	CDS	749676	749891	.	+	0	ID=MGA_1095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISITLAIGVIPESLSAIVSIALSFATKRMAKNNVIVKKLESIETLGSVNVICTDKTGTLTQNKMAIKKLI;locus_tag=LOCUS_10950;note=WP_011166486.1 cation-translocating P-type ATPase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:7.3%25%2C Eval:3.2e-31%2C partial hit],internal stop codon at [749661:749663](+)%2C[749889:749891](+),MGA_1095
sequence1	MetaGeneAnnotator	CDS	749955	751094	.	+	0	ID=MGA_1096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLKSLVLPNDSITENDERIGDPTELALVDFAEQMQIDEQEFRKKYPRIFEIPFDSERKLMTTVNVLENEQQFVFTKGALDQILKKCTKIFINNKVVKLTNTHKKEIKKLSTSLSDDALRVLGFGVKQIITQDQKTEDDLIFIGAVGMIDPIRKEALIAIQQAKAAGIKTIMITGDHAITALAIARDLELAYTQYEVMSSEKLEQYTDQELESAIDNIKIFARVNPEHKVRIVQALQKKGYIVSMTGDGVNDAPSLAIADIGVAMGVSGTDVAKQAADVILTNDDLNTMMVGVLEGRNVYQKIRRAIVLLLGFNFANVISIVIISLLLKISPLTATNILFINLVVDSCLAFGIGMSPIDRTLLKNKPQLRNKSILNEII;locus_tag=LOCUS_10960;note=WP_011166486.1 cation-translocating P-type ATPase (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:39.2%25%2C Eval:2.4e-199%2C partial hit],internal stop codon at [749661:749663](+)%2C[749889:749891](+)%2C[751092:751094](+)%2C[751215:751217](+)%2C[751362:751364](+)%2C[751386:751388](+),MGA_1096
sequence1	MetaGeneAnnotator	CDS	751754	752002	.	-	0	ID=MGA_1097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166485.1;translation=MSQSLTNDDKLRYQKLKSDFKKTQKQNHDLAKAALKGSVGKDRLTKLHNKKMQALQDKINFYKEVSKFYPQKRFIIKTSLES;locus_tag=LOCUS_10970;note=WP_011166485.1 hypothetical protein (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-39],MGA_1097
sequence1	MetaGeneAnnotator	CDS	752348	753211	.	-	0	ID=MGA_1098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLQKYAPDGLDLIIALLIIAPLTALTAKFGANVVAPLLKGIGSSIEVAINLSPIPMAIVVGGFLTVVGTSPLSSMALAVGLGLQGSAMAVGSVSAMGSSFMNGVLFARMKYGEKKQTIACSIEPLSQADIISMNPVSVYITNFIGAAATGILVIVYGQNILNIEQTVFMINSNSYEVVRGFTQQGVGLATPFGPVAMFGQGGGQTAEVLTKTSTQYATWQLNMHLAILLVLTAILNVGAGLLGGYMFRNSRRTTYFEIYNLPLPLKHQYLLEEIELFQTNKRRFA;locus_tag=LOCUS_10980;note=WP_011166484.1 PTS sugar transporter subunit IIC (Mycoplasma mycoides) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:45.6%25%2C Eval:1.2e-146%2C partial hit],internal stop codon at [752117:752119](-)%2C[752342:752344](-)%2C[752348:752350](-)%2C[753215:753217](-)%2C[753416:753418](-),MGA_1098
sequence1	MetaGeneAnnotator	CDS	753215	753388	.	-	0	ID=MGA_1099;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKTFETIKSNLVINEQKDILKTIFSTQYMPNFAMHLRTTVGAFNILAGLVAGYTMY;locus_tag=LOCUS_10990;note=WP_011166484.1 PTS sugar transporter subunit IIC (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:9.1%25%2C Eval:3.3e-25%2C partial hit],internal stop codon at [753215:753217](-)%2C[753416:753418](-),MGA_1099
sequence1	MetaGeneAnnotator	CDS	753416	753592	.	-	0	ID=MGA_1100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGNPLFAILCGTAVFGVGLSVDVDGISKSIAKTLINTNTPDGQKLLAEDNAIRVIAE;locus_tag=LOCUS_11000;note=WP_011166484.1 PTS sugar transporter subunit IIC (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:9.2%25%2C Eval:1.9e-25%2C partial hit],internal stop codon at [753215:753217](-)%2C[753416:753418](-)%2C[753695:753697](-),MGA_1100
sequence1	MetaGeneAnnotator	CDS	753567	753779	.	+	0	ID=MGA_1101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANNGFPPIKIITSIVHAGAAKVPATLPITLVKSPITGILPKTQKLKTSIKKVAQTAPDRPDIALLPLGT;locus_tag=LOCUS_11010;note=MGA_1101
sequence1	MetaGeneAnnotator	CDS	753695	753895	.	-	0	ID=MGA_1102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIIVFSQSVSFGQQAVAFLKGTSLLMLVLVFFTIFSYYVPKGKRAMSGLSGAVCATFLIEVFNF;locus_tag=LOCUS_11020;note=WP_011166484.1 PTS sugar transporter subunit IIC (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.5%25%2C Eval:2.0e-30%2C partial hit],internal stop codon at [753416:753418](-)%2C[753695:753697](-),MGA_1102
sequence1	MetaGeneAnnotator	CDS	756667	757410	.	-	0	ID=MGA_1103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166482.1;translation=MKKLLYTLSTLAVSVLSVISLIACSNKNNNEPTQLSKLEQLKNEISSLESNVKQYNEQINKTELEKQQLLKEIQKIEQEIKDLKKQENSKKEELNILNNRKNNLNNQIDNLNSQIATVDEVSKKDKQKITSLLKQIEQVKTNLDNATNQKNINIEKIQDLETEVQNLKNKTNNLEKELLENKSKKENLIKLQQQTETESKESKDMLDKLNKQKTDLTIQKTELEKQIQTEISQDGKNDQQLSKLQSE;locus_tag=LOCUS_11030;note=WP_011166482.1 hypothetical protein (Mycoplasma mycoides) [pid:56.0%25%2C q_cov:87.4%25%2C s_cov:99.1%25%2C Eval:2.3e-60],MGA_1103
sequence1	MetaGeneAnnotator	CDS	758529	759764	.	-	0	ID=MGA_1104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLYALSTLLLGVFSTVSLVSCTKKNNNEPEQLSKLEQLKNEISSLETNVNKYNEQINKTELEKQQLLEEIQKIEKEITSLKIEENNKVKELNLLTNKKNSINQQIDKLNSQINSIDKTSKKDKQQINLLTEEIQKIKNNLTNATNQKNINLQQISNLENQVNQLKTKTSQLEKELLEKKLNKEELLLNKKETESKVNKFKAVLDNSNKEKQDLINQKTNLEEQIENQIFESSQKDENYLKLKNKLDHLLVEIKKLEKNDKENNQKINELKNSNKNNSEEFIKLEELKNQTHSQLNQLNKQKDELEKQIKEKQDLFISKNTEAKKVQDQLKEINKKVNQTDQKAKEINDLYQQQLEKSKKIDKQIQDIKNGIKVQDEELQKLLNKQTEKQQQVNQLKNENINAESKISE;locus_tag=LOCUS_11040;note=WP_011166482.1 hypothetical protein (Mycoplasma mycoides) [pid:76.1%25%2C q_cov:53.0%25%2C s_cov:100.0%25%2C Eval:2.8e-84%2C partial hit],MGA_1104
sequence1	MetaGeneAnnotator	CDS	759805	761460	.	-	0	ID=MGA_1105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKALKVFSIYSLDPVDKLKQINKKIDNKKLSFKKILKIASSLGLVLFSTTFLVVLNLDKLNFSDNKNLEQQLESYKIELNNKISSLKISHNNQIDQIKEFKKNHNLLKTISLKELEDKVSNLDDQNKKALKQIEHNNKLLKTHQDKLNYLTNLKNQYSKQITTLEQNKNENLKQINQINLQTKSLETKIINLNQQIKQTNELLVNKTNQNKLLKTQITTLSNQITDNNALIRSTNQLISDIQAEKNKLLEQLEQLINKLNEAKNSTKQKSQQISNLEKQINDNNQKLEDLKTKNNQAINTIAKLTNDNQNNNDSIDKLTKALLNNQNSIKQITHNNSILTNNLNELNKKNQKVLSELIKLSELIKSKQLELDNKTKQLEKQTNLLQALINNNSENDNKLKLLINTNSENQNKIASLTIQNKELDNLINSTKQQKEKLIEKLKELSRNETNLNEQITNFHSEKLNLESQINSLNEQIKNLKNINLQLTNDIKEHESEIEHLNNILKENNIKFKDLESQISLTEQQISQADEQIKELEDKKDPLERRKNDLE;locus_tag=LOCUS_11050;note=WP_011166479.1 hypothetical protein (Mycoplasma mycoides) [pid:88.2%25%2C q_cov:49.4%25%2C s_cov:100.0%25%2C Eval:6.1e-128%2C partial hit],MGA_1105
sequence1	MetaGeneAnnotator	CDS	761579	763534	.	-	0	ID=MGA_1106;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166478.1;translation=MKLVKKIGFLSLSAISILGPIAMINNLTTDNNLLITKRFLSSSNSNVGLKSYDYINLINNKYIPTKINLHDHNGIAYIGVKEFLKSLDGLISFSKIKVRPYQNANFYKEKEISYNYKDNKVVLNSISKYSNNNKTTNYQLEIDSKNKTITVSDNDFFTDIFTFYRRGEEDLNIDFLNTEIVNKNKHIVFDLNKYGIEILNDQNDLYLPLVLINQLFLNQSNVQLYFNGQSVNLFAYSKTLGKVDLLKQLKHSYLNNQNHIPAGLKDFQYKYLGFLFDHFYGIKLDKNASYKDLFKKYEKYIKADNTTHYLTSRYLIEQLDDLHSSYLLTGYYNKDLETINKAVLKTTTPRSDRFKDIARRLSAYYDKELNYKNVYTPDKKTSVISFKNFEANSAFKIEESLKQAQRDGIKNIVLDVSFNSGGYLGTAFEIMGFLTDKPFKSYSYNPLTKEQKVETIKSRFKKYDFNYYVLTSPFSFSAGNIFPQLVKDNNVAKVIGFKTAGGASAISQAILPTGDIIQLSSNNVLTNKSHQSLEYGVSPDITLGFDPFKQTEKFFDPAYIQQAINKDTNTLNSVPATHSSAVEPNYVHELVEQPQPLQLSRKTDETEIKNLNNLFSSIKETERKDAYFVLGALGVVISLAISFVIIKKLLK;locus_tag=LOCUS_11060;note=WP_011166478.1 S41 family peptidase (Mycoplasma mycoides) [pid:87.1%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_1106
sequence1	MetaGeneAnnotator	CDS	763743	764852	.	-	0	ID=MGA_1107;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166477.1;translation=MKYILIRYGELTLKGNNRFQFIDKLISNIKFKLKQFDKEDIKFIKDHNSLTLEIKDELETQIIEQLKTVFGIYSISIINYVNKDLEQIKKAALQIAKNSKAKTFKLEVSRKNKSFNYTSIELKHILATEILKNTDHLSVDVHNPELVIEIVVKKDHVDVFDNRIDGLKGLPVGISDKGLCLLSGGIDSPVSAFLTLKRGMQVDFIHFMTPPHTSYQALDKVFNLAKKLAKYNLSNFKLHICDFNLLLQELQHLIDPSYKITIMRRMFLRIANIIAKNNNNKAIITGESLGQVASQTIQSINVINNVSDLPILRPVITYDKEEIIKIAKFIDTYETSILPFDDVCSMFVPKDPIIKPKLDIANKLEENIY;locus_tag=LOCUS_11070;gene=thiI;EC_number=2.8.1.4;note=WP_011166477.1 tRNA 4-thiouridine(8) synthase ThiI (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:93.4%25%2C Eval:3.6e-200],MGA_1107
sequence1	MetaGeneAnnotator	CDS	764860	765144	.	-	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELEANTFTNDYDALLVLNNQLDNQIEQVEQLHLNIEQVVVIYKIAQQIIIYIAKNLAYISNNNAFEEILTKFKEKNHKKVINLAIHLIRKNQL;locus_tag=LOCUS_11080;note=WP_020862599.1 hypothetical protein (Mycoplasma mycoides) [pid:91.5%25%2C q_cov:100.0%25%2C s_cov:15.8%25%2C Eval:6.7e-42%2C partial hit],internal stop codon at [765205:765207](-),MGA_1108
sequence1	MetaGeneAnnotator	CDS	765205	766233	.	-	0	ID=MGA_1109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKTSKAIYQKVNLMYSETQQVTNIEFLLRDYRIILQNHINDLFDIVFKEQENNELNIDKKIINNYQESIFKKMIVCEYYIKIGNFKEAFSKLNLLSNNVIEYIKFLDDHYKITKFLEFNGILDSKLQEIKNKVQLDVNQKNNQLIKYQINLLEQQFIDQKQAVEKLLFHGKNNQAFLIIETLIKNIQNLDVILKYDQQILSLFETNVKNIRTILLSFNTELLKTEELINFNNNLNNDISDIKIQFDQLKTSFNNITTEFDKEYQKISSNFIQFNSLIVDYVNYIRNVLIDIKKHYTQLIDIKTLLKNKSLVLRDLETKYDNIKTLLFLSQAIIKKYEKVIN;locus_tag=LOCUS_11090;note=WP_020862599.1 hypothetical protein (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:57.5%25%2C Eval:8.2e-188%2C partial hit],internal stop codon at [765205:765207](-)%2C[766375:766377](-),MGA_1109
sequence1	MetaGeneAnnotator	CDS	766375	766632	.	-	0	ID=MGA_1110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIITKLSETKAINIVFLTIFLLAFFCSLFTIFKLYVYRNTLKKLHFTFLNIEKTLKHPLANRLVRMQFIVTNSNNQNLSKALEI;locus_tag=LOCUS_11100;note=WP_020862599.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:14.3%25%2C Eval:1.5e-41%2C partial hit],internal stop codon at [766375:766377](-),MGA_1110
sequence1	MetaGeneAnnotator	CDS	766900	767502	.	+	0	ID=MGA_1111;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166475.1;translation=MSRFIGSTFKKSRRFGFSILETGKEFSKGKKRITTPGQHGKERAKVKVSEYGQQLQEKQKVKFMYGLSERQFRNTFAKAKKMQGILGTNFLVLLESRLDNIVYRLGFSATRQGARQLVNHGHILVNGKKVDIPSYLLSVGDLVEVKASMKKNEKVLEALQNNEATLEFVKVNKNEVKGEFVRLPERTELSSEISESLIVE;locus_tag=LOCUS_11110;gene=rpsD;note=WP_011166475.1 30S ribosomal protein S4 (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:93.5%25%2C s_cov:89.9%25%2C Eval:5.3e-101],MGA_1111
sequence1	MetaGeneAnnotator	CDS	767570	767749	.	-	0	ID=MGA_1112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAQMAIEMLEPDKQNKIKIIDAALVEGTILAAINSSMNKNIDQIQQELINLKLNKIEE;locus_tag=LOCUS_11120;note=WP_017697966.1 dihydroxyacetone kinase phosphoryl donor subunit DhaM (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:45.0%25%2C Eval:2.0e-25%2C partial hit],internal stop codon at [767798:767800](-),MGA_1112
sequence1	MetaGeneAnnotator	CDS	767798	767965	.	-	0	ID=MGA_1113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGIVVISHSNKIANGVVDLAKQMANEVKIIPAGGTKDNLIGTDIDLIIDAINKA;locus_tag=LOCUS_11130;note=WP_017697966.1 dihydroxyacetone kinase phosphoryl donor subunit DhaM (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:42.0%25%2C Eval:1.1e-23%2C partial hit],internal stop codon at [767798:767800](-),MGA_1113
sequence1	MetaGeneAnnotator	CDS	767973	768599	.	-	0	ID=MGA_1114;product=dihydroxyacetone kinase subunit DhaL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166473.1;translation=MSLKIEAVKQILLKIAEVIDNNKEELTKLDQIIGDGDHGHNLSRGFLKVKEDLENNSYTDISSMFKKVGMVLVSNVGGASGPLYGTAFLKASMSLNDKTEMNIDDFSVCLNDAVSGIKLRGKANIGDKTMVDVLEPVSDLIKELINKNENAKEILNKAVQLAYLKVEETKNIIAKKGRASYLGQRSVGHIDPGSYSSYLILKCISENI;locus_tag=LOCUS_11140;gene=dhaL;note=WP_011166473.1 dihydroxyacetone kinase subunit DhaL (Mycoplasma mycoides) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-112],MGA_1114
sequence1	MetaGeneAnnotator	CDS	768963	769397	.	-	0	ID=MGA_1115;product=glucose PTS transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166471.1;translation=MAPCDGKIITLDEVEDDVFRERMLGDGFAIYPTSNDFHAPVSGKLVTAFPTKHAFGIQTKNGVEILLHIGLDTVSLDGNGFESYVIQDQEVNAGDKLVTVDLQEVSKKVPSIKSPIIFTNNGGKTLEIVKMGEVKKGDVVAILK;locus_tag=LOCUS_11150;note=WP_011166471.1 glucose PTS transporter subunit IIA (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:93.5%25%2C Eval:1.2e-76],MGA_1115
sequence1	MetaGeneAnnotator	CDS	769509	769730	.	-	0	ID=MGA_1116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGEMAGDSKALPILLGLDLDAFSMSATSVLKARSLMSKIESIKAKQLANKALECQTSQQVNDLVEEFLKNLD;locus_tag=LOCUS_11160;note=WP_011166470.1 phosphoenolpyruvate--protein phosphotransferase (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:12.7%25%2C Eval:2.4e-31%2C partial hit],internal stop codon at [769737:769739](-),MGA_1116
sequence1	MetaGeneAnnotator	CDS	769737	771230	.	-	0	ID=MGA_1117;product=phosphoenolpyruvate--protein phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166470.1;translation=MSKQIKGIAASDGISLAKALVIKEIKLDVQKQLIDDVDQQIVKLEQAINQTITDLKKIQKITLEKLGEEKAAIFDAHQDIANDPTIKEEVVQLIKTEKVNAEYALFIVSNNYFEMFSQLEDPYFKERSADIKDVSSRIISHILGLEIHDLSTIDKEVIIISDDLTPSQTAQLDKKFVKGFLTNVGGRTSHAAIMARSLEIPAILGLKNITELVKTDDLIALDGSSGIVELDLNDDDIKNYQTKVKQYLELKDQLKKFKDKPSLTKDKIKKLIEANIGSTNDIQSVLDSGAEGIGLFRTEFLYMDNDHFPTEEEQFEAYKKVVSQINHLVVFRTLDIGGDKKLSYFKFDEEMNPFLGYRAIRFTLDRKDIFKDQIRALLKASAFGKLGIMFPMIATIDEFKQAKAFVEECKLELDKENIKYDKQVQIGMMIEIPSAAILADQFAKYADFFSIGTNDLIQYSFASDRMNQNVSYLYQPLNPSLLRLIQLTISGAHKHNK;locus_tag=LOCUS_11170;gene=ptsP;EC_number=2.7.3.9;note=WP_011166470.1 phosphoenolpyruvate--protein phosphotransferase (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:86.7%25%2C Eval:1.1e-274],MGA_1117
sequence1	MetaGeneAnnotator	CDS	771324	771746	.	-	0	ID=MGA_1118;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166469.1;translation=MKTAIYPGSFNPFHKGHLNILKKAILLFDKVYVVVSKNVNKSLDPDLQSRVENIKNFIKDFSNVEIIINENKLTTTIAKELNASFIIRGLRSQADFEYEIKYYDGFKSLDPNIEVVYFISDYDKRSLSSTILREIEFYKK;locus_tag=LOCUS_11180;gene=coaD;EC_number=2.7.7.3;note=WP_011166469.1 pantetheine-phosphate adenylyltransferase (Mycoplasma mycoides) [pid:91.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-68],MGA_1118
sequence1	MetaGeneAnnotator	CDS	771756	772019	.	-	0	ID=MGA_1119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGIYNNVRSNVEFGDLLQHATIAPFLQSDNIKIGDNIIYAYNLIDGTDKTRYKYQKSSFRENLQKLYPDGFSDGLKSTKLFDNIFN;locus_tag=LOCUS_11190;note=WP_011166468.1 DUF31 family protein (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:13.4%25%2C Eval:2.1e-43%2C partial hit],internal stop codon at [772122:772124](-)%2C[772272:772274](-),MGA_1119
sequence1	MetaGeneAnnotator	CDS	772122	772271	.	-	0	ID=MGA_1120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNNPVERNLDKLTIYSRTSKTNKETFAYPNEFETSIGFVSNFGIRDNY;locus_tag=LOCUS_11200;note=MGA_1120
sequence1	MetaGeneAnnotator	CDS	773058	773726	.	-	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLKYLSSLSLILVPLVTISCTHTNKIKPGFIPTINSPNKKDIIDLNNQLEEFKSILENNPKIDKNLKDKIIKKTKEINSKSISSNKLSNINNILSELKNFSNDFNSDNLLSFLKKAKELLLELESNELVNEVDQHINKIINDKQNNQLIINADSNNVEDKFIEGSIYSPANHSYPEFINKFTTVSAEEIYKELYDRTFSIKFLTKLNNGGFLSNGTGTG;locus_tag=LOCUS_11210;note=WP_011166468.1 DUF31 family protein (Mycoplasma mycoides) [pid:67.1%25%2C q_cov:100.0%25%2C s_cov:33.9%25%2C Eval:3.1e-74%2C partial hit],internal stop codon at [772833:772835](-)%2C[773058:773060](-),MGA_1121
sequence1	MetaGeneAnnotator	CDS	773795	774310	.	-	0	ID=MGA_1122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLTPLAGLMMGTRSGDIDVSICEYIAKQTNSDIFTITQTLNKQSGLLGLSQVSADMRDVLEQYDKNDKKAVVAVEKYVQIVADFIVKYANYLDNIDAVVFTAGIGENADVIRDLICKKVKLLDLQIDQDKNQAKYSDYKLISSEKSKIPVYAIRTNEEKMICLDTLNLIK;locus_tag=LOCUS_11220;note=WP_011166467.1 acetate kinase (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:43.5%25%2C Eval:1.2e-89%2C partial hit],internal stop codon at [774488:774490](-),MGA_1122
sequence1	MetaGeneAnnotator	CDS	774488	774976	.	-	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVINSGSSSIKFKLFDTSKTIEPILDGLAERIGIDGFLKFEHNNQKYKFEDPLPDHEHAIQLILNKLLELKIISNIDEINGVGFRVVHGGEISHSSIITDEILSKIQDSVKLAPLHNPAAIIAIKAVKKLMPNTNMVACFDTAFHQTMPEVNYLYTVPYK;locus_tag=LOCUS_11230;note=WP_011166467.1 acetate kinase (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:41.2%25%2C Eval:6.5e-84%2C partial hit],internal stop codon at [774488:774490](-),MGA_1123
sequence1	MetaGeneAnnotator	CDS	774989	775957	.	-	0	ID=MGA_1124;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166466.1;translation=MYTLEEIKNQLVLKSEKKSIVFPEGESEIIQSVAKTLVDEKLGLPILLFKSSKEVPSEIKNNSSIKTICLDEFDTKEFSEEFVKLRKGKATIEVAHQVMQLPNYVGAMLVKLNQADCMLSGLNNTTADTIRPALQIIGTKPGYNIASSIFIMSKGDENYIFTDCALNIKPTSEQLVEITQMAVDFAKTLNVKNVEAALLSYSTNGSGKGEDVDRVHKAVEILKSSQNDYVCEGEIQFDAAFDKKTRDKKFKNCLLTKQTPDIFVFPDINAGNIGYKIAQRMGGFEAIGPFVLGLNQPVNDLSRGATFIDVLNTAIMTLHLSY;locus_tag=LOCUS_11240;gene=pta;EC_number=2.3.1.8;note=WP_011166466.1 phosphate acetyltransferase (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-179],MGA_1124
sequence1	MetaGeneAnnotator	CDS	775979	776752	.	-	0	ID=MGA_1125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDKDIIDAMTKELKNRYNIEVITNASVKEFKNGAVVYQIDGKDQMVKGEYVLESVGRKTSLTGFENIGLELTPRKGIVVNEYQETNLDGVYAIGDVVGKVMLAHTAVKGAIVAANRIAKKANKDHAEDIVMDYDRIPSCIYTHPEVSMIGKTEQQLKQENIEYKTFKFPFSAIGKALADDDTSGFVKIIIEPKYKTILGAHIIGNRATEMISEIAAVIECEGTITEIANTIHPHPTMSEAIGEAAEALETGKAIHF;locus_tag=LOCUS_11250;note=WP_011166465.1 dihydrolipoyl dehydrogenase (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:43.2%25%2C Eval:5.9e-139%2C partial hit],MGA_1125
sequence1	MetaGeneAnnotator	CDS	777140	777868	.	-	0	ID=MGA_1126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVAEVLVKVGDVVKEGQPLYFVETDKVNSEIPSPVAGKIAIINISTGQEIKVGDVVIEIDDGTSSSTTEPKVEVIEENASVVGATPVSNDVLPSRAPKPKAETKKTEQVEENASVVGATPVSNDVLPSRAPKPKTEAPKVDVQIEDTFDVCVVGAGIGGYVTAIKSAQLGLKTLIIEKEYYGGVCLNVGCIPTKTLLKTSHVYHDIMHKAKELGIVLQNTEKVVID;locus_tag=LOCUS_11260;note=WP_011166465.1 dihydrolipoyl dehydrogenase (Mycoplasma mycoides) [pid:84.7%25%2C q_cov:100.0%25%2C s_cov:35.0%25%2C Eval:2.1e-106%2C partial hit],internal stop codon at [777140:777142](-),MGA_1126
sequence1	MetaGeneAnnotator	CDS	777887	778561	.	-	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGVRKATVKAMTKSHTEIAAFTGMKNTDITETHKMRTELKDHAAASGIKLTYLAFIIKAVAKSLRDMPNINVRGDFANNKIQFMHNINIGIAVDTPNGLMVPVIKGADHLSVFEIAIKISELANKAKDGKLTRAEMTEATFTVSNFGSVGLDYATPIINSPESAILGVGTMSQTPLYINGELQKRFIMPLSMTCDHRIIDGADAGRFLIKVQDYLSKPVLLFM;locus_tag=LOCUS_11270;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:52.3%25%2C Eval:7.6e-121%2C partial hit],internal stop codon at [778574:778576](-),MGA_1127
sequence1	MetaGeneAnnotator	CDS	778574	779218	.	-	0	ID=MGA_1128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVAEVLVKVGDVVKEGQSLYFVETDKVNSEIPAPVAGKIAVINIKAGQEIKVGDVVMEIDEGSGASVASEPKAEAKQEAKVEVVEENASVVGATPVSNDLIVRKQASTVTKSSTIKATPLARKVAADLNVDLSLVTPTGPNQRILVADIKNYHSSSAQPVSQPAAAPTPAPVASQPAPTPAPAITPTIKVVEPSAPLS;locus_tag=LOCUS_11280;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:78.5%25%2C q_cov:100.0%25%2C s_cov:46.5%25%2C Eval:7.5e-83%2C partial hit],internal stop codon at [778574:778576](-),MGA_1128
sequence1	MetaGeneAnnotator	CDS	779247	779495	.	-	0	ID=MGA_1129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVESVKKTGRLLVVHEAVKSFSVSAEIITTVNEECFEYIKAPLSRCTGYDVITPFDRGEGYFQVNPKKVLVKMQELLDFKF;locus_tag=LOCUS_11290;note=WP_011166463.1 alpha-ketoacid dehydrogenase subunit beta (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:4.4e-41%2C partial hit],internal stop codon at [779505:779507](-),MGA_1129
sequence1	MetaGeneAnnotator	CDS	779505	780236	.	-	0	ID=MGA_1130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIINNIKAVTDALDCAIQRDPNVIVFGEDVGTEGGVFRATQGLAVKFGNDRCFNAPISEAMFAGVGLGMAMNGMKPVVEMQFEGLGLASLQNIFTNISRMRNRTRGKYTAPMVIRTPMGGGIRALEHHSEALEAVFAHIPGVQIVCPSTPYDTKGLILAAIDSPDPVIVVEPTKLYRAFKQEVPDEHYIVPIGEAYKIQEGNDLTVVTYGAQTVDCQKAIALLKETHPNATIDLIDLRSIKP;locus_tag=LOCUS_11300;note=WP_011166463.1 alpha-ketoacid dehydrogenase subunit beta (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:73.9%25%2C Eval:3.6e-135%2C partial hit],internal stop codon at [779505:779507](-),MGA_1130
sequence1	MetaGeneAnnotator	CDS	781046	781348	.	-	0	ID=MGA_1131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYLGKFDPLKNEKVCVLDKDGKVINPKLMPKISDQEVLEAYKIMHLSRRQDIYQNTMQRQGRLLSFLSSTGQEACEVAYINALNKKTDHFVSGYRNNAG;locus_tag=LOCUS_11310;note=WP_011166462.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mycoplasma mycoides group) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:27.0%25%2C Eval:4.1e-52%2C partial hit],internal stop codon at [780758:780760](-)%2C[781004:781006](-)%2C[781046:781048](-),MGA_1131
sequence1	MetaGeneAnnotator	CDS	781748	782047	.	-	0	ID=MGA_1132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSGRNDMVIDGYKVSGNAQLKTNEKTLVHGTLLFDVDLSKMPKYLVVDTEKLKHQQIRSKPARVRNIKEFFKDINIDIDLNTFINDVVSSYVQNEKIK;locus_tag=LOCUS_11320;note=WP_011166461.1 lipoate--protein ligase (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:29.6%25%2C Eval:3.0e-50%2C partial hit],internal stop codon at [781676:781678](-)%2C[781682:781684](-)%2C[781748:781750](-)%2C[782288:782290](-),MGA_1132
sequence1	MetaGeneAnnotator	CDS	782398	782556	.	-	0	ID=MGA_1133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMLALGIQKDLTIDELPLVDIFFLPHFNKPFNFISLAGLEVLGLNYFKKEK;locus_tag=LOCUS_11330;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.5%25%2C Eval:8.2e-24%2C partial hit],internal stop codon at [782620:782622](-),MGA_1133
sequence1	MetaGeneAnnotator	CDS	782620	783210	.	-	0	ID=MGA_1134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVYYDQEFTDLMQEKMTKAGVKLSLGAKVIEFKGENGKVTQVVTDKGNIDVDYVIFSVGVRPQSAILEGICDLDDRKAIVTNDFMQTTNPDIYAIGDCAQVYNKAMNKNVPIQLATTAVRTGVIAAFNVIKGNGLKSPGFTGANGISVFGLHMASVGISVEAAKRMGYDIDFINFKDLDRPEFMSTANEVLFKVV;locus_tag=LOCUS_11340;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:43.2%25%2C Eval:5.7e-108%2C partial hit],internal stop codon at [782620:782622](-)%2C[783421:783423](-),MGA_1134
sequence1	MetaGeneAnnotator	CDS	783421	783594	.	-	0	ID=MGA_1135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFYATPEILRSEGVNVFMNHEVLSVDDKAKTVTVKDLKTGEVKTDNYDKLIVATGT;locus_tag=LOCUS_11350;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:12.6%25%2C Eval:6.6e-26%2C partial hit],internal stop codon at [783421:783423](-)%2C[783622:783624](-),MGA_1135
sequence1	MetaGeneAnnotator	CDS	783622	783762	.	-	0	ID=MGA_1136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIVLGTNHAGTTAVRTLKRLDPTCEVTTYDKNDAISFLGCGIAL;locus_tag=LOCUS_11360;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [783421:783423](-)%2C[783622:783624](-),MGA_1136
sequence1	MetaGeneAnnotator	CDS	784764	784907	.	-	0	ID=MGA_1137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNKFDLTYIDKDQKLVRPIMIHRGLIGTYERFIATLLEQTKGVLPL;locus_tag=LOCUS_11370;note=WP_011166459.1 threonine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:7.4%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [784764:784766](-)%2C[785070:785072](-),MGA_1137
sequence1	MetaGeneAnnotator	CDS	785070	785447	.	-	0	ID=MGA_1138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQPFNGGKGSDEQFILRPMNCPHHIAVYKQEQRSYRDLPLRICEHAIQHRFESSGSLTGLERVRGMKLTDSHIFVRSDQIEDEFRSTYKLISEVLKTFNIQIDYLSLSLRDPNDKVKFYKDDLM;locus_tag=LOCUS_11380;note=WP_011166459.1 threonine--tRNA ligase (Mycoplasma mycoides) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:19.6%25%2C Eval:3.1e-68%2C partial hit],internal stop codon at [785070:785072](-)%2C[785466:785468](-)%2C[785538:785540](-)%2C[785598:785600](-),MGA_1138
sequence1	MetaGeneAnnotator	CDS	785598	785759	.	-	0	ID=MGA_1139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQRVHGLCATSSSELKNKKAILEDRRSRDHRLINKTLNIFGFDQLVGAGLPL;locus_tag=LOCUS_11390;note=WP_011166459.1 threonine--tRNA ligase (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:8.3%25%2C Eval:6.9e-23%2C partial hit],internal stop codon at [785466:785468](-)%2C[785538:785540](-)%2C[785598:785600](-)%2C[785781:785783](-),MGA_1139
sequence1	MetaGeneAnnotator	CDS	785781	786380	.	-	0	ID=MGA_1140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLLDGSIKEYNQEISVKDISSEIGLKNVIGAKINDQLFDINYLIKNDCDLELITNKSKEYDLMLNLTAAFITSYAINNLKPISQAENFYNADEMEFSTTFNTEPRLVLDDLKNIQTNINQLLTSNLEIKSDIYDLNKALEILNNDYQKYLAKQMYEKYNYVKVYSINDFYMVIDKALILNSNFIKIIDIEQLTGSY;locus_tag=LOCUS_11400;note=WP_011166459.1 threonine--tRNA ligase (Mycoplasma mycoides) [pid:93.0%25%2C q_cov:100.0%25%2C s_cov:31.1%25%2C Eval:1.8e-101%2C partial hit],internal stop codon at [785538:785540](-)%2C[785598:785600](-)%2C[785781:785783](-),MGA_1140
sequence1	MetaGeneAnnotator	CDS	786818	787213	.	-	0	ID=MGA_1141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLETMTENPSPTRAEVTDVYFATELGADATMLSGESAAGDYPFLTVHTMSTINKRAEVEFYNKIYYQVQLDNARNSTSGPRAEIADLLATKTKDGEYKYAIVLSKTGELLKTISKFRPNVTILGVSPDKKL;locus_tag=LOCUS_11410;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:27.4%25%2C Eval:6.4e-69%2C partial hit],internal stop codon at [786716:786718](-)%2C[786800:786802](-)%2C[786818:786820](-)%2C[787274:787276](-),MGA_1141
sequence1	MetaGeneAnnotator	CDS	787274	788083	.	-	0	ID=MGA_1142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKETLQKRMKRTKVITTIGPSTHSAEAIKELFNNGMTTIRLNFSHGSYEEHGYRIKAAKKISKALNKPISIILDTKGPEIRLGKFKDNKQEIVKGQSITIYTDTYSYLNKECVQGEMTVAYDMSVDLKPGDMILIDDGKLELTVDSVEPQIIKATAFNHHIVKTNKRVNLPGIDFSLPFLSEKDEKDILFGCEQGVDYIAASFVNTAENVRQIKEILNKANANHIQIISKIESQVGLDNIDEIIEESDGIMIARGDLGLEIPYYDVPY;locus_tag=LOCUS_11420;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:56.3%25%2C Eval:1.9e-146%2C partial hit],internal stop codon at [787274:787276](-),MGA_1142
sequence1	MetaGeneAnnotator	CDS	788154	788813	.	-	0	ID=MGA_1143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAQKLTEMGINCVGLPGTIDNDISSTDYTIGFHTALNTIVEAVDRIRDTMQSHNRADVVEIMGNGCGDLVTYTAVATGAEIFSPAEDLLTIEQMGQKAKQFRLLGKKSLIILVSEKSYGISAEEIAEKIQKISGYETKATVLGHIQRGGRPTAMDRYIAFTAGMFAVEKLAEGKGGLFIGLENNKLVARDIDSTLNMKKEDKKPFINYLREINGYFSK;locus_tag=LOCUS_11430;note=WP_013447579.1 6-phosphofructokinase (Mycoplasma leachii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:67.2%25%2C Eval:8.0e-120%2C partial hit],internal stop codon at [788988:788990](-),MGA_1143
sequence1	MetaGeneAnnotator	CDS	788988	789134	.	-	0	ID=MGA_1144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIGILTSGGDAPGMNNAIAGVVKTAASKGIEVYGINDGYKGLVNG;locus_tag=LOCUS_11440;note=WP_013447579.1 6-phosphofructokinase (Mycoplasma leachii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:14.7%25%2C Eval:8.6e-21%2C partial hit],internal stop codon at [788988:788990](-),MGA_1144
sequence1	MetaGeneAnnotator	CDS	789470	789703	.	+	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQTKVDICIIGGGIIGASVARELAKFDKKIVVLEANPRLALETSSHNSGLVHGGFDPRPETLNAKLNVLGKKRYED;locus_tag=LOCUS_11450;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:6.0e-35%2C partial hit],internal stop codon at [789701:789703](+),MGA_1145
sequence1	MetaGeneAnnotator	CDS	789713	790597	.	+	0	ID=MGA_1146;product=type 2 glycerol-3-phosphate oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447578.1;translation=MDFPYLRIDSTIVAFNDEEMKHVHMLYDRGLINGLDPKEMEIIDAKELQKREPNISKQAVGALVCNSSIAIDPVVLTTTLMRNAIKNGVELKVNSKVVDIKKVDNIFEIKTAKDEIIQAEVIVNVAGHYADIIANMAGYGDFKLTTRRGEYRILDKSEAGIVNSVVFMVPTIHGKGVIVAPMLDGRVMVGPTALDGVPKEETLLVTQQQYDNIGKIGKHLIPNINMDKTCTVYAGSRPIDVETNDFVIRPAKADKKFINVAGMKSPAIASAPAIADMVCDLVKNAFDKLDKKAN;locus_tag=LOCUS_11460;gene=glpO;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:76.0%25%2C Eval:9.9e-160],internal stop codon at [789701:789703](+)%2C[790595:790597](+),MGA_1146
sequence1	MetaGeneAnnotator	CDS	790650	790787	.	+	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDNKKYILTLDEGTTSARALITDKQGNIIAVEQSEFTQYFPKEG;locus_tag=LOCUS_11470;note=WP_011166455.1 glycerol kinase GlpK (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:8.9%25%2C Eval:1.7e-18%2C partial hit],internal stop codon at [790785:790787](+)%2C[790812:790814](+)%2C[790920:790922](+)%2C[790962:790964](+)%2C[791079:791081](+),MGA_1147
sequence1	MetaGeneAnnotator	CDS	791844	792023	.	+	0	ID=MGA_1148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKDMKKPIEIFKVDGGAANNKFLMQFQSNISQSKVIKPTNVETTAMGAAFMAGLAVGY;locus_tag=LOCUS_11480;note=WP_011166455.1 glycerol kinase GlpK (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:11.7%25%2C Eval:1.2e-25%2C partial hit],internal stop codon at [791604:791606](+)%2C[791652:791654](+)%2C[791727:791729](+)%2C[792021:792023](+)%2C[792117:792119](+)%2C[792147:792149](+),MGA_1148
sequence1	MetaGeneAnnotator	CDS	792355	792573	.	+	0	ID=MGA_1149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIAAGISAGLGGVAHLNPAVTIMFAIKAANNTFGFDADAIKQISGVGLFFIVLIVQFIGAILGSIFVDLLY;locus_tag=LOCUS_11490;note=WP_011166454.1 MIP/aquaporin family protein (Mycoplasma mycoides) [pid:86.1%25%2C q_cov:100.0%25%2C s_cov:27.8%25%2C Eval:3.3e-28%2C partial hit],internal stop codon at [792322:792324](+)%2C[792343:792345](+)%2C[792571:792573](+)%2C[792715:792717](+),MGA_1149
sequence1	MetaGeneAnnotator	CDS	793164	793613	.	-	0	ID=MGA_1150;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166453.1;translation=MQKLHPLVKEVLFTREQIQKRTKDIAKEIESYYKDKHLKDNSLLVVGLLKGCVPFYTDFCMVCDLTMEMDFMVVSSYHGSTSSNSAPKINLDLNTDVKDRDILIVEDIIDTGFTLKYVKEYLLNKGAKSVKILTMLDKPSGRKIDLVAD;locus_tag=LOCUS_11500;gene=hpt;EC_number=2.4.2.8;note=WP_011166453.1 hypoxanthine phosphoribosyltransferase (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:78.4%25%2C Eval:2.5e-78],internal stop codon at [793164:793166](-),MGA_1150
sequence1	MetaGeneAnnotator	CDS	793619	794050	.	-	0	ID=MGA_1151;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166452.1;translation=MTQSIIALDIGSKTIGLAYSSGIIASSLDTIRFEEYNFDQGLKQLETYLKKYNPSIIVVGYPKNMNNTIGERAEMVDYVIEMFLDMYKNFNKDQIIKIDERRTTKIAKNILIQANLTREKQKKYKDSLAAQLILELYLESRKL;locus_tag=LOCUS_11510;gene=ruvX;EC_number=3.1.21.10;note=WP_011166452.1 Holliday junction resolvase RuvX (Mycoplasma mycoides group) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-73],MGA_1151
sequence1	MetaGeneAnnotator	CDS	794334	794873	.	-	0	ID=MGA_1152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKINHYYIYSGIVFIILISLFILGSVYDFKIASFKRAENLSLAVFISNLGVVIPSIPLTIALIYLIKSLKLKNKLKINNIIETLIYFIIPLVFIVFNFLYEKQSIVYSIISNLLCLIIISSLIYYFHINKEIISDPDLSIYKSIIVLITIIGLLILVNILKLTFNRPRPTNLELYRN;locus_tag=LOCUS_11520;note=WP_011166451.1 phosphatase PAP2 family protein (Mycoplasma mycoides) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:65.6%25%2C Eval:1.2e-66%2C partial hit],internal stop codon at [794196:794198](-)%2C[794211:794213](-)%2C[794310:794312](-)%2C[794319:794321](-)%2C[794331:794333](-)%2C[794334:794336](-),MGA_1152
sequence1	MetaGeneAnnotator	CDS	795553	795735	.	+	0	ID=MGA_1153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPAFLIASTNRSKAISAGVFALNDFKSCFSYAHSKLGANPPSSPTAVISFLDFNNDFKA;locus_tag=LOCUS_11530;note=MGA_1153
sequence1	MetaGeneAnnotator	CDS	795750	796013	.	-	0	ID=MGA_1154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDLDGTEFKTKLGANGILAVSLAVAKAAASELDIPLYKYLGGVQAKKLPVPMLNVINGGEHADSAIDFQEFMIMPVGAKSFSEALR;locus_tag=LOCUS_11540;note=WP_011166450.1 phosphopyruvate hydratase (Mycoplasma mycoides) [pid:93.1%25%2C q_cov:100.0%25%2C s_cov:19.3%25%2C Eval:1.4e-39%2C partial hit],internal stop codon at [795651:795653](-)%2C[795750:795752](-)%2C[796215:796217](-),MGA_1154
sequence1	MetaGeneAnnotator	CDS	796707	797540	.	+	0	ID=MGA_1155;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862581.1;translation=MTEKQIIRTIKKISLDTDHRFCFIANYVLNNLDSIEKMTINQLAKATYTSVATINRFVKFLNLDGYKELVHIIKYFKNSLQGDQITYSLTSNSLILNAYNNIISSLNETFKLTIEQQDTIKNLISKIKNALKIAVFAVGGTFNVAKDFEQKLLRIGFNITAVNDFHNAYLLACQLNKNDLAIFISYSGETLDLIKLAQVCTKNNVQIAVVCKATNNTLSNLSNYLINISSNEKIDRLVSSTSRFSLLFALDLIYTFLLSTDLKKYTKLLEKTMISKF;locus_tag=LOCUS_11550;note=WP_020862581.1 MurR/RpiR family transcriptional regulator (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-145],MGA_1155
sequence1	MetaGeneAnnotator	CDS	797662	797997	.	+	0	ID=MGA_1156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKDPKITAKEILQIIKIDNINSYTNCLTRLRLNIKENNIDFEKLKSIPNVLGVINVSSNELQIVLGPGFVNKVAQEFAQLLKVESKKDDAFMSASEVGNIVKQNLRANKN;locus_tag=LOCUS_11560;note=WP_011166447.1 PTS transporter subunit EIIB (Mycoplasma mycoides) [pid:86.5%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:3.7e-48%2C partial hit],internal stop codon at [797995:797997](+)%2C[798151:798153](+)%2C[798214:798216](+)%2C[798232:798234](+),MGA_1156
sequence1	MetaGeneAnnotator	CDS	798093	798299	.	-	0	ID=MGA_1157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLANTGENKAAVIAPKTPLPPQISQVLHPTMIINAFFEIFNIKFKALNQETAIAGAVFKLTVPLYAD;locus_tag=LOCUS_11570;note=MGA_1157
sequence1	MetaGeneAnnotator	CDS	798873	799031	.	+	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRRQIQGAIIPAIFGIGEPMIYGITLPRIRPFVTASIAAGFGGFFLGSIYL;locus_tag=LOCUS_11580;note=WP_005464862.1 PTS N-acetylmuramic acid transporter subunit IIBC (Vibrio parahaemolyticus) [pid:62.0%25%2C q_cov:96.2%25%2C s_cov:10.3%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [798651:798653](+)%2C[798849:798851](+)%2C[799029:799031](+),MGA_1158
sequence1	MetaGeneAnnotator	CDS	799059	799322	.	+	0	ID=MGA_1159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGPSGILATFMMTTQDKNIGLGVCIYLLGCLVSVIFGILITLFGYSKISRIGTEKMKNIYKKGQYKLSLKIFLTLTFITIIGIFIY;locus_tag=LOCUS_11590;note=MGA_1159
sequence1	MetaGeneAnnotator	CDS	799391	800299	.	+	0	ID=MGA_1160;product=N-acetylmuramic acid 6-phosphate etherase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166445.1;translation=MKNNNLLNIETENINKNSLDIDKKSTSEIIKIINNEDIKVAYAIKKELNQISNVIDLIFERFKKGGRLIYIGSGTSGRLGILDASEMYPTYGINPNRIIGIIAGGNKAIKNPIEGAEDNEKLAIIDLNKIKLNSLDTVIGIASSGKTPYVLSALKYANKKDALSVGLCMTKNSEMTKIANQVISVKTGAEIITGSTRMKAGTATKLICNMITTTLMIKLGKVYKNLMIDLVATNDKLKKRAFKIVKQITNAKDHIIYKALNESNFSCKHAIIMILKNISYSESVLLLENCDNSLTKLLEEKV;locus_tag=LOCUS_11600;gene=murQ;EC_number=4.2.1.126;note=WP_011166445.1 N-acetylmuramic acid 6-phosphate etherase (Mycoplasma mycoides) [pid:89.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.0e-148],MGA_1160
sequence1	MetaGeneAnnotator	CDS	801092	801385	.	-	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILALLTSFSLIATSSVLVVSCKTNNEKPKIIKPKNKDIPKKDQERSESTNKTYQTDQQKDNNRNSSSSTSPNDLKDNIFSSTEDEKEFIYAYYN;locus_tag=LOCUS_11610;note=WP_008363716.1 BspA family leucine-rich repeat surface protein (Mycoplasma feriruminatoris) [pid:44.6%25%2C q_cov:97.9%25%2C s_cov:38.5%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [800861:800863](-)%2C[801092:801094](-)%2C[801543:801545](-)%2C[801618:801620](-),MGA_1161
sequence1	MetaGeneAnnotator	CDS	801924	802217	.	-	0	ID=MGA_1162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLTLLTSFSLIATSSVLVVSCKTVDIKKLFEKPKNITENSSKKDEKKLESINKDSEDNHLKNKSELGSSNKYNIFSSAEDDRIFFKEYVNEYNN;locus_tag=LOCUS_11620;note=WP_008363716.1 BspA family leucine-rich repeat surface protein (Mycoplasma feriruminatoris) [pid:46.5%25%2C q_cov:93.8%25%2C s_cov:38.5%25%2C Eval:1.2e-14%2C partial hit],internal stop codon at [801693:801695](-)%2C[801924:801926](-),MGA_1162
sequence1	MetaGeneAnnotator	CDS	802462	802773	.	+	0	ID=MGA_1163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNQKIINIAVIAHVDAGKSTLVDALLKQSGVFRQNQEVIEQVMDSNDQERERGITIYSKNCSITYKDYKINIVDTPGHADFSSEVERIMKTVDTVILLVDSS;locus_tag=LOCUS_11630;note=WP_013447566.1 translational GTPase TypA (Mycoplasma leachii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:4.2e-52%2C partial hit],internal stop codon at [802771:802773](+),MGA_1163
sequence1	MetaGeneAnnotator	CDS	802780	804246	.	+	0	ID=MGA_1164;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447566.1;translation=MPQTRFVLQKALEIGLNPILFINKIDKKDQRSLEVVEEVIELFLELNATDEQLDFKTLYGIAKNGIAQYSLEEQSNDLTPLFETIINQVGSYPIELSNNDLVMQVSSLAYDSFIGRIGIGRIFEGSIKENQIVSIVKNDRTVKQGKIAKLMVYQGLNRVQVKQAFAGDIITFAGIEDISIGDTINNLNVIKPLKPIHIEEPTMSMNFLVNTSPFAGRVGKFVTSRNIKERLEKEVEVNVGLRIEPLINSEIEGFKVLGRGELHISVLIEAMRREGFELAISKPEVIFQRNPMTGDLLEPIEKVIINTPTEYSGTIINKLNQRKGIMLDMDSDGIRDKITYSIPLRGLIGFRSEFTNDTHGEGIMVKSSSGYELYKGEIVSRQNGVLVSMANGKSLPYALNNLEERGILFIGPQVDVYEGMIIGQHSRDNDLYVNPTTAKKLTNTRASGTDDAVKLTPARKMSLEEALEYISNDELVEITPTDIRLRKR;locus_tag=LOCUS_11640;gene=typA;note=WP_013447566.1 translational GTPase TypA (Mycoplasma leachii) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:80.1%25%2C Eval:1.3e-267],internal stop codon at [802771:802773](+)%2C[804244:804246](+),MGA_1164
sequence1	MetaGeneAnnotator	CDS	804295	805554	.	-	0	ID=MGA_1165;product=16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447563.1;translation=MNSRSIAFDILKKVFVNKAYSNVLLNKISKKNLNQQDKDFVFNLVHGVISNKIHLDYLLAKLIDVKKTSIDLQIILLISLYQMIYLNSIPNYAIVNESVNLIKTTSQKQANFINAILNKFLRFKDKYLEINLDNKDLELCILHSFSYELYLMLIKQYDKEIVNQIVVNNHQIPKLYIRVNTLKITSDQLFNKYKDIYLLEKTNVNDCLIANKTIINSDLYKNGFITIQDKASILVSQILNPSLNTKVLDMCSAPGGKLTHLSMILKNTGNIVANEINESKIKLIKENITRLNCLNISVINMDARKIKQKQEFDYILLDAPCSGFGVFKRKPEIKLRFDQTQVNSIINLQEELLESAYYNLKNNGEMVYSTCTINQDENQNQINKFLNKHKDMIKLYEQQIFGFEENTDGFYICKLKKQH;locus_tag=LOCUS_11650;gene=rsmB;EC_number=2.1.1.176;note=WP_013447563.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Mycoplasma leachii) [pid:94.5%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:4.5e-226],MGA_1165
sequence1	MetaGeneAnnotator	CDS	805784	806437	.	-	0	ID=MGA_1166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGKMIIISGPSGVGKGSVNGELLQNPDLRLKYSVSMTTRKPRNGEINGVNYFFVSNEEFAKAIVNDELIEYAHFVGNSYGTPRKYVEQELKKGNNVILEIEVDGATQVLNKEANVLSIFLMPPNLTELANRIRGRQTEDEEKIKARLDKALLEIPLKHNYQYVIENDNVANAVAKITDVLHLEGLTDIKTPTVYERLEQIVEQIVKEKYMYFVNN;locus_tag=LOCUS_11660;note=WP_011166418.1 guanylate kinase (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:73.1%25%2C Eval:2.4e-116%2C partial hit],internal stop codon at [805784:805786](-),MGA_1166
sequence1	MetaGeneAnnotator	CDS	806560	807012	.	-	0	ID=MGA_1167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGVIMHIISGKYKKMKLQTLDSSITRPTLTRIKEDMFNIISNYFIFENKTSLDLFGGSGSLSIEGLSRGIKFAIINDLNKDANKIISFNLKKIPTSDYVLYQKDYLELLNLLKIQHQKVDLVYLDPPFKQIEYYYVVFDFLINNNLLND;locus_tag=LOCUS_11670;note=WP_014034959.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Mycoplasma putrefaciens) [pid:67.6%25%2C q_cov:90.7%25%2C s_cov:71.6%25%2C Eval:6.7e-47%2C partial hit],internal stop codon at [806560:806562](-),MGA_1167
sequence1	MetaGeneAnnotator	CDS	807332	807520	.	+	0	ID=MGA_1168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYVRFQLDNNKIEQYAMINTKLISTSTQIACLKNGEGCLSVDNDHLGFVPRHYKIVVQGYD;locus_tag=LOCUS_11680;note=WP_011166420.1 peptide deformylase (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:31.0%25%2C Eval:7.7e-30%2C partial hit],internal stop codon at [807116:807118](+)%2C[807518:807520](+)%2C[807656:807658](+),MGA_1168
sequence1	MetaGeneAnnotator	CDS	807862	808407	.	+	0	ID=MGA_1169;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166421.1;translation=MENRNRNSRPIKNQDPINEFIRAHQVLVIDEDKQNLGVMSKRQALEIARSKNLDLYQVGVQPDGTVITRIVNFGKLKYEQQKKSKEAKKHQTKIENKEIRITVNIGKHDLETKARKAKEFLEEGSRVKVSLKFRGREVVYLDLGQQTLNNFFELVSDVGKMEKEAKLNGKFLDMYIVPKKN;locus_tag=LOCUS_11690;gene=infC;note=WP_011166421.1 translation initiation factor IF-3 (Mycoplasma mycoides group) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-98],MGA_1169
sequence1	MetaGeneAnnotator	CDS	808433	808624	.	+	0	ID=MGA_1170;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166422.1;translation=MPKMKTKKSLAKRVTVKSNGTLKRAKAYRSHRATGKTTKQKRQLSKATIISKVDMKNLKGLLQ;locus_tag=LOCUS_11700;gene=rpmI;note=WP_011166422.1 50S ribosomal protein L35 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-28],MGA_1170
sequence1	MetaGeneAnnotator	CDS	808880	809002	.	+	0	ID=MGA_1171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGLKLANININRKMLSELAINNSEEFKQIVQQAKKALNK;locus_tag=LOCUS_11710;note=WP_011166423.1 50S ribosomal protein L20 (Mycoplasma mycoides) [pid:92.5%25%2C q_cov:100.0%25%2C s_cov:33.1%25%2C Eval:5.9e-14%2C partial hit],internal stop codon at [808691:808693](+)%2C[808823:808825](+),MGA_1171
sequence1	MetaGeneAnnotator	CDS	809376	810068	.	+	0	ID=MGA_1172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNILELRNVTKEYDGQVVLKGISFNVKEGEFITLLGPSGCGKTTILKIIGGSQKPNSGEILFEDKNLIPIPINKRQFNTIFQSYALFPHLNVFDNVAFGLTIKKTKKDIIEREVMRQIRQVGLEGYENKKIDELSGGQKQRVAIARALVMKPKVLLLDEPMAALDVKLRKTMQEELKRLQQDIGITFIMVSHDQEEALSMSDRIVVMNQGTIQQIGTPEEIYNEPENA;locus_tag=LOCUS_11720;note=WP_011166424.1 spermidine/putrescine ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:65.5%25%2C Eval:3.6e-126%2C partial hit],internal stop codon at [810066:810068](+)%2C[810294:810296](+)%2C[810330:810332](+),MGA_1172
sequence1	MetaGeneAnnotator	CDS	810431	810619	.	+	0	ID=MGA_1173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKNLKDNNVIENKIINQDELEHVIETIEKQKKRESARLKVKDVNHYLSKTKLFHFTKDKV;locus_tag=LOCUS_11730;note=WP_011166425.1 ABC transporter permease (Mycoplasma mycoides) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:18.8%25%2C Eval:5.2e-26%2C partial hit],internal stop codon at [810617:810619](+)%2C[810899:810901](+),MGA_1173
sequence1	MetaGeneAnnotator	CDS	810647	810901	.	+	0	ID=MGA_1174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVILVILPLVSILIYAFIQPADGITLFKISFEKFVKLFTSNGILYSLFLSILYAIVAGMLCVLIGYPIALMMAQMKSKILARNM;locus_tag=LOCUS_11740;note=WP_011166425.1 ABC transporter permease (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:95.2%25%2C s_cov:24.2%25%2C Eval:3.8e-37%2C partial hit],internal stop codon at [810617:810619](+)%2C[810899:810901](+)%2C[810923:810925](+)%2C[811136:811138](+),MGA_1174
sequence1	MetaGeneAnnotator	CDS	810932	811138	.	+	0	ID=MGA_1175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLKVLGLQTLFYLLADFAIGTPIAIIIGMTYMFLPFAIAPIYDSLESRQTDLEEAALDLGASKFRTF;locus_tag=LOCUS_11750;note=WP_011166425.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:20.6%25%2C Eval:1.8e-31%2C partial hit],internal stop codon at [810899:810901](+)%2C[810923:810925](+)%2C[811136:811138](+)%2C[811409:811411](+),MGA_1175
sequence1	MetaGeneAnnotator	CDS	811160	811411	.	+	0	ID=MGA_1176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGVLTAFSLVLVQAATSLIVVHYMGGGRIYLVSAAIESYFFQGNDFGYGAAVSVVLAILVFGLMLVMKLISNKFEMKGNKRK;locus_tag=LOCUS_11760;note=WP_011166425.1 ABC transporter permease (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:25.2%25%2C Eval:2.4e-39%2C partial hit],internal stop codon at [810899:810901](+)%2C[810923:810925](+)%2C[811136:811138](+)%2C[811409:811411](+),MGA_1176
sequence1	MetaGeneAnnotator	CDS	811750	812139	.	+	0	ID=MGA_1177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVFLIMGLKFGLLTLIMAHISFNVPYVLVTIMPRLKKIDPSLIDASYDLGAKNHQVMFKVILPILKPAIITAAAIAFAMSFDDFIISYFTGGMQTNVSTFIYTAKKTRPFIFVFGTCLVLVIALSIIT;locus_tag=LOCUS_11770;note=WP_011166426.1 extracellular solute-binding protein (Mycoplasma mycoides) [pid:88.4%25%2C q_cov:100.0%25%2C s_cov:12.4%25%2C Eval:8.7e-58%2C partial hit],internal stop codon at [811519:811521](+)%2C[811540:811542](+)%2C[811690:811692](+)%2C[812137:812139](+)%2C[812305:812307](+)%2C[812386:812388](+),MGA_1177
sequence1	MetaGeneAnnotator	CDS	813865	814518	.	+	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSQKLYQKVNLTKKSEIDEVGKELSKLLSNSGVSLHSDDLISLVVREKFDFAVMYNGDAAYANYVHNEGDEDYEKAGNSINFIYGRPNKKNEKNNRHESTNVFSDNIVLYKDAQNLDLAYEFINFLYENSTKISDYVGVTSPLDSAIEEMTAASKGENGEDEGGTYQDFKNIYDPITHQNNGSKYETNNEQLSFTYNGKIDEYLVNSFNNLLANK;locus_tag=LOCUS_11780;note=WP_011166426.1 extracellular solute-binding protein (Mycoplasma mycoides) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:20.7%25%2C Eval:2.1e-117%2C partial hit],internal stop codon at [813652:813654](+)%2C[813793:813795](+)%2C[813805:813807](+),MGA_1178
sequence1	MetaGeneAnnotator	CDS	814864	815316	.	-	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFGNMSFMFKILKDEDRNQIILFYVMRFLNQNNKKVIPTKFRSETFLSGLKILNLARNICAHEERMYNAQFDRVKTKDISKLLEYSDYDGSKLISVVLFLKVVLIEKSFALLKKDLLEIFTKFQNRFKTIKFGDILKEMGIKLESFYQL;locus_tag=LOCUS_11790;note=WP_023905931.1 Abi family protein (Mycoplasma mycoides) [pid:94.0%25%2C q_cov:100.0%25%2C s_cov:47.0%25%2C Eval:6.8e-76%2C partial hit],internal stop codon at [815332:815334](-),MGA_1179
sequence1	MetaGeneAnnotator	CDS	815495	815692	.	+	0	ID=MGA_1180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYFLLKLYAIVVLKSLSKINMYFNKIDLNSLSNKNSEYSSSKVVFSTNTSSLPFKVFLISLYNH;locus_tag=LOCUS_11800;note=MGA_1180
sequence1	MetaGeneAnnotator	CDS	815658	815825	.	-	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMKRSKEFKTFGEQIEILKSRGLIIKDEQKAIEILKQENYYNIVNGYKDLLKIL;locus_tag=LOCUS_11810;note=WP_023905931.1 Abi family protein (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:89.1%25%2C s_cov:15.4%25%2C Eval:3.2e-20%2C partial hit],frameshifted%2C insertion/deletion at around 815666,MGA_1181
sequence1	MetaGeneAnnotator	CDS	816148	816366	.	-	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFTYLAFVLPAIFMMMIAIKYSQKFHQSTFFKKLIDIMNPVVAGIIIALAIEIFISCMFPYFVFNESVSEY;locus_tag=LOCUS_11820;note=MGA_1182
sequence1	MetaGeneAnnotator	CDS	816801	817067	.	-	0	ID=MGA_1183;product=chromate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166429.1;translation=MLPGPAAIQTTAYIAFKSLSKFKAYLVVSLASMPHTFFAVGLIFAFNKIPTQYLVVVQLGVLIAITGALLGFGYNYFKKGKKVMKLSL;locus_tag=LOCUS_11830;note=WP_011166429.1 chromate transporter (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:93.2%25%2C s_cov:94.3%25%2C Eval:7.6e-38],MGA_1183
sequence1	MetaGeneAnnotator	CDS	817557	818684	.	+	0	ID=MGA_1184;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387086.1;translation=MIINRDFYLNQLINKMNNNKIKIITGIRRCGKSFLLFNLFYKYLISINIPSDQIIKISLDGYDNRMYRTPTNLNNFIKSKITNKNKKYYLLIDEIQYCEPEINEFAPNTEKITFVDVLLSFYNNPNLDVYVTGSNSKMLSTDILTQFRGRGDEISLNTLSFFEIYELFENKDKALKHYMLYGGLPAIYNLKTDEEKQKYLKNTFDETYIKDILERNSLTSETGEILDTLLNFISSAIGSLTNPLRLANRFMSEKNIKINSTTISKYLNIFKESFLIRSSIRYDVKGNKYFNTPLKYYFTDIGLRNAKLSFRQYEENHIMENIIYNELYRRDFNIDIGIVEIQQNKNNKRTRTTLEIDFIASKNHQKYYIQSAYSI;locus_tag=LOCUS_11840;note=WP_011387086.1 ATP-binding protein (Mycoplasma capricolum) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:87.0%25%2C Eval:1.3e-205],MGA_1184
sequence1	MetaGeneAnnotator	CDS	818965	819957	.	+	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKFNDKKEELTLVCLTDVKNKKYVVDTDLSTSFISEEKTIYMLIKKDQKDLFRKLKIAFKNFVLENKYNINIDVDSFFNLLNECDCKEKLINTIYETIAFETYDQISYKKDTKPNEVVYNLLTSFDVKELEQKEAIKMEFVNFARMLQDTPPNIATSEYLAEKVVQKAKEIEGLKVTVLCKKEATKLGMNLFLAVNAGSPYEPQAVVLEYVGDENEPKKALVGKGITFDSGGYNLKPAKYLEGMKFDMSGAAIMLSTVMALAKMKAKVNVVGIGMFTDNRIGSTATLPQSVVKSMNGLTVEIDDTDAEGRLVLADGITYVIREKQATEI;locus_tag=LOCUS_11850;note=WP_020862568.1 M17 family metallopeptidase (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:73.2%25%2C Eval:9.2e-181%2C partial hit],internal stop codon at [819955:819957](+)%2C[820039:820041](+)%2C[820084:820086](+),MGA_1185
sequence1	MetaGeneAnnotator	CDS	820816	821019	.	+	0	ID=MGA_1186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYKQRVEEIFELDGKESINKKLELVNIQSNLIAFFDQALRKMDEIITKLSEQNAELIKKLESQEK;locus_tag=LOCUS_11860;note=WP_011166435.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:29.5%25%2C Eval:2.6e-30%2C partial hit],MGA_1186
sequence1	MetaGeneAnnotator	CDS	821238	821378	.	+	0	ID=MGA_1187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDTNQADEVYRTLEALLMNVLQDIEIETSFISPETKKIGFETISK;locus_tag=LOCUS_11870;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:7.7%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [821052:821054](+)%2C[821088:821090](+)%2C[821376:821378](+),MGA_1187
sequence1	MetaGeneAnnotator	CDS	821514	822041	.	+	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDTLAYADRQEETINYKGVDQVLTNSLFLEILQDSDPIKDQDLRLKASEIFSKNFSLKKHSFALIYEGILQSDHEDTKLRNYDSSLQASLSSDSVPVDIYLKLLEVGKKYIKPLEDFLLLTKKHFKLDKFYPSDRQLKLVKEYNQTFTVEQAKEHIKKALSILGEEYLKNLEIA;locus_tag=LOCUS_11880;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:8.4e-91%2C partial hit],internal stop codon at [821376:821378](+)%2C[822039:822041](+)%2C[822138:822140](+),MGA_1188
sequence1	MetaGeneAnnotator	CDS	822300	822548	.	+	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNTKSKEEKIYLLQERIFNLVSTFYRQIQFADFEYRASQLVSKQTPLTSEVLNNLFKEVETDYGYKVFDKLDDNIKSGYG;locus_tag=LOCUS_11890;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:13.8%25%2C Eval:1.4e-39%2C partial hit],internal stop codon at [822039:822041](+)%2C[822138:822140](+)%2C[822546:822548](+),MGA_1189
sequence1	MetaGeneAnnotator	CDS	822841	823560	.	-	0	ID=MGA_1190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDKKNKEITERQKIVNYLLDLIEHKKVDLKTPLPSEYFLVTKFKVSRGTVRSAFSDLKTKGLIKSSKGAGYFINPDFSFNRIKSIRNQLLSNKQEVIIETELDTSNLITIIHKLHLNLDINPDDYFSYIKVFYVNDLPVRYAKSFINKNLFENEIDSEKIRSSLIEYLEQNNIEPFKLTCVLESKLKDQMTRNLLVDNHQDYVICRYSILYDKDDNIVEITQHTINIDHFETSYIKYL;locus_tag=LOCUS_11900;note=MGA_1190
sequence1	MetaGeneAnnotator	CDS	824114	824248	.	-	0	ID=MGA_1191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSRYGNDHKYRIDSAKTLLTTFFLMQGTPFIHQGDEIGMTNVK;locus_tag=LOCUS_11910;note=WP_000415207.1 oligo-1%2C6-glucosidase (Bacillus thuringiensis) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [823928:823930](-)%2C[823970:823972](-)%2C[824114:824116](-)%2C[824285:824287](-)%2C[824312:824314](-)%2C[824474:824476](-)%2C[824510:824512](-),MGA_1191
sequence1	MetaGeneAnnotator	CDS	825348	825536	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKAYEFYNRTARLDLDNYNNDTDDGLHITSMTGSYLAIVEGFGGMLVRNNIPCFSPKLPKQ;locus_tag=LOCUS_11920;note=WP_011861487.1 glycoside hydrolase family 65 protein (Clostridioides difficile) [pid:64.5%25%2C q_cov:100.0%25%2C s_cov:8.1%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [825348:825350](-)%2C[825654:825656](-)%2C[825720:825722](-)%2C[825726:825728](-),MGA_1192
sequence1	MetaGeneAnnotator	CDS	826560	826850	.	-	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENNFDIPRFSYACYATNSYNLKTKDISFDQSNLYAKTTYKFDLKANETLIFYKLVTLVHSLNYSEDKLKENAIKINNQINQFDYEQLKEKHTSL;locus_tag=LOCUS_11930;note=MGA_1193
sequence1	MetaGeneAnnotator	CDS	827594	828679	.	-	0	ID=MGA_1194;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011836860.1;translation=MKVELRNISKKYEGNSFYTLENIDLTINDNDFCVILGPSGCGKTTLLRIIAGLNSITKGDLLFDGVKVNNLLPKDRDIAMVFQSYALYPHYNVYKNLAFGLEMKKEKKEIINHRVRGAAKLLNIEKYLFKKPKELSGGQQQRVALGRAIVRKPKLFLMDEPLSNLDAKLRESMRTELVSIHRILGTTTIYVTHDQLEAMTMATKIVLMNNQVIQQVGKPEEFYNKPNNLFVAKFIGTPTMNVLEGKLENNYFISNINNYKVELSDEELELIKKEEVTKLYLGIRSEDAQLVESTDITANIVASVINTELLGMNKQVTCELTPGNNFVITTSKDNNIKIDDKVGIKIHKYHLFNGITENRIG;locus_tag=LOCUS_11940;gene=ugpC;note=WP_011836860.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Streptococcus sanguinis) [pid:45.6%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:1.1e-86],MGA_1194
sequence1	MetaGeneAnnotator	CDS	828681	828839	.	-	0	ID=MGA_1195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATGLNSLLNRSGEIAQGAFAAGSLLVAVPISTLFIMLQGNITGGLSGGVKG;locus_tag=LOCUS_11950;note=MGA_1195
sequence1	MetaGeneAnnotator	CDS	828972	829481	.	-	0	ID=MGA_1196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPITQVVLQAFNWYSANESTSTAGKLGTLGRFDFKRFAFSFANFSYLFERTFFGYWLLNSLVIATITMIFMVLITAMVGYAFSRFRFKGKRISLMTVMLIQMIPTVSSFIVFYVMFQLLQETVHITGQIMLILIYVGGGIPGNVFVLKGYLDNISTDIDDAAKIDGCSI;locus_tag=LOCUS_11960;note=WP_002288156.1 sugar ABC transporter permease (Enterococcus) [pid:38.3%25%2C q_cov:95.3%25%2C s_cov:56.2%25%2C Eval:1.5e-28%2C partial hit],internal stop codon at [828843:828845](-)%2C[828909:828911](-)%2C[828972:828974](-),MGA_1196
sequence1	MetaGeneAnnotator	CDS	829857	830378	.	-	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCSEEINERLAKELRLLTNPKVLDKSETKKEEQNEKFVHYNTLKINNKSYKIDAESLKFAKLIFKEKDLIDFQASLSETYFRSKHLNFNKYYNHLYIIKLSSLAYLYALKNKDNKINFNKAKELFELLILKTAYEISESFAKKIEKIIFNEEHLENEFFKKTKIDQLGRYKN;locus_tag=LOCUS_11970;note=MGA_1197
sequence1	MetaGeneAnnotator	CDS	830424	830624	.	-	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFVSLNIIQHEHLSEDYAFNKINDLLEQAFNELVNNNVENITIQETIILALKKSLTYQVDTHKKS;locus_tag=LOCUS_11980;note=MGA_1198
sequence1	MetaGeneAnnotator	CDS	830736	830876	.	-	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQIIENKYVEKEIINEINVYEKQKSLKDFDHFDFKNLELYEFLNS;locus_tag=LOCUS_11990;note=MGA_1199
sequence1	MetaGeneAnnotator	CDS	832004	832234	.	-	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSKNNAKRMRIGSRASTFSQTRKFLKSHGIPYILSIPAIIGIMFIVLVPIISTILIAFTNYGKGNDPGRPGQIIK;locus_tag=LOCUS_12000;note=MGA_1200
sequence1	MetaGeneAnnotator	CDS	832235	832432	.	-	0	ID=MGA_1201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLTLPLFVIFGAYAFGIGNVGGNGLLGLIDFGADNPDGDGRFYLIEGIISLIIAFWICISIFST;locus_tag=LOCUS_12010;note=MGA_1201
sequence1	MetaGeneAnnotator	CDS	832922	833653	.	-	0	ID=MGA_1202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHIEFYKSLKTKEEVFNELKKVKYSDFEKEFEELDQTQKNTANSSYTFSNKELAKIFLEFAKNNIHNNMYAKLKENFAMYLNKTADNKFVFDIKSIEQSFVNKDEDYIQDMFKIKARLQLSQIIYDARNQEIKNLKTKANSYYVAYLKFLNDFTYKYKKKFISITYKIAKRKVQELRLLFSTNDYTFHIKSHNKNAATFIEEKNAVSQKIKQELNEIKNLDPITKAKRTSEIYQQGIEYNYD;locus_tag=LOCUS_12020;note=MGA_1202
sequence1	MetaGeneAnnotator	CDS	833962	834159	.	-	0	ID=MGA_1203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFQQAFGHKTNIKKYNVYFILAICLVFVVMLSTAMLIDYRLIVVKQQNLSKEALKNPHAYFLKT;locus_tag=LOCUS_12030;note=MGA_1203
sequence1	MetaGeneAnnotator	CDS	834367	834690	.	-	0	ID=MGA_1204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTSAALEFIKEISKKEYATEMAFVDGKISAYKDVADNLVKELKNGTNIPELNDKGKKKTTEEINAEKENRKIIGEAYESIVKGYEKTGKDADVAPRADNEMFGIY;locus_tag=LOCUS_12040;note=MGA_1204
sequence1	MetaGeneAnnotator	CDS	835918	836037	.	-	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTMLASIVVVGGSALTVLACKTRDNTNVVVQANDK;locus_tag=LOCUS_12050;note=MGA_1205
sequence1	MetaGeneAnnotator	CDS	836458	836781	.	-	0	ID=MGA_1206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTSAAIEFIKEISKKEYATEMAFVDGKISAYSDIADFLVKELKQGNNIPPLNEKGKKKTEDDLKAEKENRKIIGEAYQSIIDGYEKTGKDADVAPRADNELFGIY;locus_tag=LOCUS_12060;note=MGA_1206
sequence1	MetaGeneAnnotator	CDS	836974	837141	.	-	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKDDFNQTTQTIVDYVKSLGGHITEIYGGAAGQISQILDDALRDGTTAMTLVGP;locus_tag=LOCUS_12070;note=MGA_1207
sequence1	MetaGeneAnnotator	CDS	837208	837483	.	-	0	ID=MGA_1208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNEPSGKKLSGKPKASIENLIILNKAQTNNYKFENLNEIEDKENVNKGAPLAFVDAGASFQGGMFLNSILNKRADDISKLKADNSSLGMV;locus_tag=LOCUS_12080;note=MGA_1208
sequence1	MetaGeneAnnotator	CDS	837431	837820	.	+	0	ID=MGA_1209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAFGFPDSFLPEGSLSIYFSSLSLTFSSSEPTKYAYNLLSSPFSFLIPNLFSSNNQIIFSIDIGIIPYKRLPFKSLPKTVFQVLTFFSNLIASTPDLLLSIFIPKRSSSSLVFIKSFLIYSVKSFKVF;locus_tag=LOCUS_12090;note=MGA_1209
sequence1	MetaGeneAnnotator	CDS	838012	838131	.	-	0	ID=MGA_1210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTMLTSLVVVGGSALTVLACKTTNNTDIVVQANDK;locus_tag=LOCUS_12100;note=MGA_1210
sequence1	MetaGeneAnnotator	CDS	838385	838627	.	+	0	ID=MGA_1211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMVNIERAAILHIPKSNMAYCYDKDRIHIVLRAKKNNLKEVIFHCSEPFEPKVVVETNNYDLNLEKTAMRKVGSTEIYDY;locus_tag=LOCUS_12110;note=MGA_1211
sequence1	MetaGeneAnnotator	CDS	838994	839170	.	+	0	ID=MGA_1212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLCPIFKARTNHKYDTIDYFEIDPHFGDKKTFKKLVEECHKRNIKVMLDAVFNHFGY;locus_tag=LOCUS_12120;note=WP_000471779.1 alpha-glycosidase (Bacillus cereus) [pid:77.6%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:9.9e-22%2C partial hit],internal stop codon at [838772:838774](+)%2C[838808:838810](+)%2C[838826:838828](+)%2C[838895:838897](+)%2C[839168:839170](+)%2C[839180:839182](+)%2C[839225:839227](+)%2C[839390:839392](+)%2C[839417:839419](+)%2C[839456:839458](+),MGA_1212
sequence1	MetaGeneAnnotator	CDS	839687	839872	.	+	0	ID=MGA_1213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNCLASHDTARLLTLCENDPNRLKLAYSILFTLSGSPSIYYGDEIGLDGEHDPDCRKCMI;locus_tag=LOCUS_12130;note=WP_000471779.1 alpha-glycosidase (Bacillus cereus) [pid:63.3%25%2C q_cov:98.4%25%2C s_cov:10.2%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [839390:839392](+)%2C[839417:839419](+)%2C[839456:839458](+)%2C[839516:839518](+)%2C[839534:839536](+)%2C[839678:839680](+)%2C[839870:839872](+)%2C[839885:839887](+),MGA_1213
sequence1	MetaGeneAnnotator	CDS	840303	840539	.	+	0	ID=MGA_1214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIDRVAIHHQQRSNMAYCYDKDYIHIILRTKKDDLKKVIIHHGDPFLRGHYLLGNDYIDLKPKEMTKSGSTKLYDY;locus_tag=LOCUS_12140;note=WP_002900063.1 glycoside hydrolase family 13 protein (Streptococcus sanguinis) [pid:42.7%25%2C q_cov:96.2%25%2C s_cov:11.8%25%2C Eval:4.6e-11%2C partial hit],internal stop codon at [840537:840539](+)%2C[840675:840677](+)%2C[840693:840695](+)%2C[840729:840731](+)%2C[840747:840749](+)%2C[840816:840818](+),MGA_1214
sequence1	MetaGeneAnnotator	CDS	840915	841091	.	+	0	ID=MGA_1215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLCPIFKAKSNHKYDTIDYLQIDPNFGDKKTFKKLVEECHKRNIKIMLDAVFNHAGY;locus_tag=LOCUS_12150;note=WP_000471779.1 alpha-glycosidase (Bacillus cereus) [pid:75.9%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:4.4e-22%2C partial hit],internal stop codon at [840729:840731](+)%2C[840747:840749](+)%2C[840816:840818](+)%2C[841089:841091](+)%2C[841101:841103](+)%2C[841146:841148](+)%2C[841311:841313](+)%2C[841338:841340](+)%2C[841377:841379](+),MGA_1215
sequence1	MetaGeneAnnotator	CDS	841605	841790	.	+	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNCLTSHDTTRLLTLCNNDIRKFKLAYSLVFMLAGAPSIYYGDEIGLDGAHDPLNRKCMN;locus_tag=LOCUS_12160;note=WP_011262518.1 glycoside hydrolase family 13 protein (Aliivibrio fischeri) [pid:60.7%25%2C q_cov:91.8%25%2C s_cov:9.2%25%2C Eval:3.9e-13%2C partial hit],internal stop codon at [841311:841313](+)%2C[841338:841340](+)%2C[841377:841379](+)%2C[841437:841439](+)%2C[841455:841457](+)%2C[841530:841532](+)%2C[841788:841790](+)%2C[841803:841805](+),MGA_1216
sequence1	MetaGeneAnnotator	CDS	842841	843323	.	+	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKFNKLFLTILPISSISTFSVISCTTNTKNNAEIPTVPNNKKPDNQKQPDKNKPESTEEHTNKKPNENTNDQKQPNSSEKSDAEPSPGKPENKPDNSHNPKQPENPENNNSNNDQPQGDQPQYDKMPDNNVDFSDLKTIKREISLDRFYKYSQMTALSS;locus_tag=LOCUS_12170;note=WP_011166438.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:3.9e-54%2C partial hit],internal stop codon at [843321:843323](+),MGA_1217
sequence1	MetaGeneAnnotator	CDS	843633	844091	.	+	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLYTEESGINRYDRDIKQSGNVINFDDLINNNQDLFDYNFSGFSVGTKDLLFDYNRKDEKLYKDKIVESKYDDINGTLGLKVEISNRDDNHSNESTITKEFNFNGFRKIDIDNYKNNPFTFSLLPKNLSEIIKNDKIRKTLEESGVYIHKN;locus_tag=LOCUS_12180;note=WP_011166438.1 LppA family lipoprotein (Mycoplasma mycoides) [pid:52.1%25%2C q_cov:93.4%25%2C s_cov:25.8%25%2C Eval:5.2e-34%2C partial hit],internal stop codon at [844089:844091](+)%2C[844131:844133](+),MGA_1218
sequence1	MetaGeneAnnotator	CDS	844509	844889	.	-	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSDKHKDEVIRVLTKYQDAIKIQSDILYGITTSKTKPVITLTNKNADKGFASIFLAQYYNKDIRDVIAFGDQLNDLEMLKTVGCSVAMKNGVNSLKFVAKGITHYTNDEGGLGHYLNLLLDGKEV;locus_tag=LOCUS_12190;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:43.0%25%2C Eval:4.5e-67%2C partial hit],internal stop codon at [844920:844922](-)%2C[845016:845018](-),MGA_1219
sequence1	MetaGeneAnnotator	CDS	845016	845390	.	-	0	ID=MGA_1220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKDLNLKRLILIDLDGTTLTNQNDKIHKITKKAILDAQKKGHIVCIVTGRPFRAVEHIYKELKLTTLLANFDGAHIHDPNNKLMKRVVLPINYEIIKQIINEPVIKDNVENILIEYYDKSLL;locus_tag=LOCUS_12200;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:42.3%25%2C Eval:5.2e-63%2C partial hit],internal stop codon at [844920:844922](-)%2C[845016:845018](-),MGA_1220
sequence1	MetaGeneAnnotator	CDS	845853	846188	.	-	0	ID=MGA_1221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKSKLTSSNGTNGQKREKDIKLELKDNDKTVDKEVLEKAYADLKNIIQHFTNELTYIDENEADIYKRYTQLAKLENYYTLSSAIIIPTHTHLADTLPSISYVDEFSKPT;locus_tag=LOCUS_12210;note=WP_011166386.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:10.6%25%2C Eval:3.7e-56%2C partial hit],internal stop codon at [845649:845651](-)%2C[845661:845663](-)%2C[845853:845855](-)%2C[846195:846197](-)%2C[846273:846275](-),MGA_1221
sequence1	MetaGeneAnnotator	CDS	846273	846713	.	-	0	ID=MGA_1222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLNRDPKTVKFKNEDLAKEFANLIGVYDAGYNPKIDTKKQDNVLKNLYKKINLLKRQVKEDLQKIAGITNYNKPITIPFLLYPNGADDFKIKFAQFFGSFNYLVRKHDTNDIDSPIVFDIVKPIDLSNYLKELREGKYGLASFG;locus_tag=LOCUS_12220;note=WP_011166386.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:88.4%25%2C q_cov:100.0%25%2C s_cov:13.9%25%2C Eval:1.4e-70%2C partial hit],internal stop codon at [846195:846197](-)%2C[846273:846275](-)%2C[846897:846899](-)%2C[846924:846926](-)%2C[846954:846956](-)%2C[846963:846965](-),MGA_1222
sequence1	MetaGeneAnnotator	CDS	848136	848276	.	-	0	ID=MGA_1223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFIDKLSDPKYDKSNGQAKAHSLYDSRFNKDLPGDLRTNELSSSY;locus_tag=LOCUS_12230;note=WP_011166386.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:4.4%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [848136:848138](-)%2C[848424:848426](-)%2C[848454:848456](-)%2C[848481:848483](-),MGA_1223
sequence1	MetaGeneAnnotator	CDS	848481	848759	.	-	0	ID=MGA_1224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLGMTLLGSIIATAAASAVSCSVGISLDKILNRKNSNTKVLRELTNYSLANLNSATNNTSNDSDIIANLQDVLLTVNRHDHYEGALAEY;locus_tag=LOCUS_12240;note=WP_011166386.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:83.7%25%2C q_cov:100.0%25%2C s_cov:8.8%25%2C Eval:2.5e-36%2C partial hit],internal stop codon at [848424:848426](-)%2C[848454:848456](-)%2C[848481:848483](-),MGA_1224
sequence1	MetaGeneAnnotator	CDS	848878	849237	.	-	0	ID=MGA_1225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPKFVVADEPISALDVSIRAQIMNLLAKFQKQFDLTYIFIAHDLSVVRFATDRIAVIYRGDIVELAESNELFDLPLHPYTRSLLSAIPLPDPIQESKKVHFVYQPEVEHHDYLVDFPK;locus_tag=LOCUS_12250;note=WP_014584437.1 ATP-binding cassette domain-containing protein (Mycoplasma leachii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.3%25%2C Eval:3.1e-63%2C partial hit],internal stop codon at [848878:848880](-)%2C[849424:849426](-),MGA_1225
sequence1	MetaGeneAnnotator	CDS	849424	850644	.	-	0	ID=MGA_1226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKKNEAILKVRDLLIEFGNGRNKLKAVKGVTFDVYKGETFGLVGESGSGKTTIGRAIIGIQPVSDGAIYFENKLLRGKSPDVYKINQKIARHLYIMQQNQLTTSLSLNDYSNEFKRVYYKYVQSKFFDFKTQELKDYEDGKSRIIKEGVNLNTTKLVSVKKNANLSIVIQAITDNLKRLLKIIRLQEKASRITKNISKHTSVKVELQDAINKYQDFVHDSILKVKDLENTIYNTLQEMLAIRNDVNDGKYTSVTKFFDQMGSRLKLVIKSQKLITPKLEDASHDQLMNLALTCPKYKNSYYLKKLKQRIEYLNLNNKTKLAEEYQSVIQTVQNSDFYDNLKTAEIFKSPNKKELKENKKDMQMIFQDPSSSLNERMAVEEIIKEGLDNFPELYSNDEVKKAYQQ;locus_tag=LOCUS_12260;note=WP_014584437.1 ATP-binding cassette domain-containing protein (Mycoplasma leachii) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:66.0%25%2C Eval:1.5e-223%2C partial hit],internal stop codon at [849424:849426](-),MGA_1226
sequence1	MetaGeneAnnotator	CDS	850812	850994	.	+	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLGANASALISLNNEGGVPLIEYNSSPLVPNCGSDDNNAQVYGCFELKNTSCVVPYSII;locus_tag=LOCUS_12270;note=MGA_1227
sequence1	MetaGeneAnnotator	CDS	850931	851389	.	-	0	ID=MGA_1228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLNPLLSVGYQISEVLRNHSKLNRAEAKVEAINLMKRVGIPNAEKRYKDLPGKYSGGMRQRVVIAIALACRPKVLICDEPTTALDVTIQAQILDLIKELKEEYKFTVIFITHDLGVVANIADRVAVMYAGQIIEYGTTQDVFFNSKHPYT;locus_tag=LOCUS_12280;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:26.9%25%2C Eval:2.5e-81%2C partial hit],internal stop codon at [850736:850738](-)%2C[850931:850933](-)%2C[851462:851464](-)%2C[851489:851491](-)%2C[851612:851614](-),MGA_1228
sequence1	MetaGeneAnnotator	CDS	851810	852346	.	-	0	ID=MGA_1229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVILSIKDLVVKFRVRSKVLTSIRNISFDIYDGETVAIVGESGSGKSVLTKTLTNMLESNGYIANGSIMYYPNKATRENESAVFKKDTDLVDFHKNSLESESRKGIKKYNNKKIKDALLTIKELKESTIESLNLKIDELQQKANLLKKYEFTNSTKKLVKRNEYLEQIKQLKEQIE;locus_tag=LOCUS_12290;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:92.7%25%2C q_cov:100.0%25%2C s_cov:31.4%25%2C Eval:4.5e-87%2C partial hit],internal stop codon at [851612:851614](-)%2C[851810:851812](-),MGA_1229
sequence1	MetaGeneAnnotator	CDS	853194	853370	.	-	0	ID=MGA_1230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKQLEQPDFSALLDSEREAFFKRHGLDIYQIDHSLFELVGSQAQTSETIITKPYSY;locus_tag=LOCUS_12300;note=WP_011166383.1 ABC transporter permease (Mycoplasma mycoides) [pid:91.4%25%2C q_cov:100.0%25%2C s_cov:17.3%25%2C Eval:6.2e-24%2C partial hit],internal stop codon at [852903:852905](-)%2C[852987:852989](-)%2C[852999:853001](-)%2C[853032:853034](-)%2C[853194:853196](-),MGA_1230
sequence1	MetaGeneAnnotator	CDS	853386	853541	.	-	0	ID=MGA_1231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRLIKESAGGNDFFVFLGFTVLSSFVSIFAKLLADLVHVLLDPRVSLTKD;locus_tag=LOCUS_12310;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:12.3%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [853554:853556](-)%2C[853791:853793](-),MGA_1231
sequence1	MetaGeneAnnotator	CDS	853554	853718	.	-	0	ID=MGA_1232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVDYAKFALAKGTSSNKTYYVHIFRNAGVRIIRSIPSEIILTVFGSSMIVETQ;locus_tag=LOCUS_12320;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:13.0%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [853554:853556](-)%2C[853791:853793](-),MGA_1232
sequence1	MetaGeneAnnotator	CDS	853791	854033	.	-	0	ID=MGA_1233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYSFAIGSVSVLISYALAILIGVRAAKKKGKLFDNVFNGISALLLAIPSIVIIIGTFIFSVAVLGNSGIYNTGSFATRF;locus_tag=LOCUS_12330;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:19.3%25%2C Eval:3.7e-37%2C partial hit],internal stop codon at [853554:853556](-)%2C[853791:853793](-)%2C[854109:854111](-),MGA_1233
sequence1	MetaGeneAnnotator	CDS	854109	854366	.	-	0	ID=MGA_1234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITPDTKYLPPDIEKTGLSRAQQDKLLEDRMKRFGVYGPLIPQILTYLKNITPFIPKQIVLGSEVTILQNGNAIIDSSKLITETR;locus_tag=LOCUS_12340;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:20.5%25%2C Eval:1.1e-41%2C partial hit],internal stop codon at [854109:854111](-)%2C[854499:854501](-),MGA_1234
sequence1	MetaGeneAnnotator	CDS	854499	854630	.	-	0	ID=MGA_1235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSTLKTKQEAFDLNSELLLDDFSLLNETNQQHKVSKWTTFKY;locus_tag=LOCUS_12350;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:2.3e-18%2C partial hit],internal stop codon at [854499:854501](-),MGA_1235
sequence1	MetaGeneAnnotator	CDS	854848	855015	.	+	0	ID=MGA_1236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSKVFKELKDIDKFTKEQHEKQVNKSISQVYDSDDFKMNFYDYQQAKKLRLIG;locus_tag=LOCUS_12360;note=WP_011166381.1 membrane protein (Mycoplasma mycoides) [pid:90.9%25%2C q_cov:100.0%25%2C s_cov:33.5%25%2C Eval:6.9e-23%2C partial hit],internal stop codon at [855013:855015](+)%2C[855103:855105](+),MGA_1236
sequence1	MetaGeneAnnotator	CDS	855548	855742	.	+	0	ID=MGA_1237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATLKPYFDGRKTPPSPRLTNSQKAIRTNDIENVGVTARHHTMFEMLGNFSIGDYFKKEAIELA;locus_tag=LOCUS_12370;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:7.1%25%2C Eval:5.3e-31%2C partial hit],internal stop codon at [855452:855454](+)%2C[855533:855535](+)%2C[855740:855742](+)%2C[855833:855835](+)%2C[855896:855898](+)%2C[855959:855961](+)%2C[856028:856030](+),MGA_1237
sequence1	MetaGeneAnnotator	CDS	856463	856771	.	+	0	ID=MGA_1238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFYPYLIDKKTLVEQTIKDEEEKFLKTLSKGYDLLENIIKTKNTVSDKDALLLFESYGFPIEQTIEISELSNVTVDVEGFKKLLEQTKQATRNARKDLKA;locus_tag=LOCUS_12380;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.4%25%2C Eval:2.1e-51%2C partial hit],internal stop codon at [856769:856771](+)%2C[856826:856828](+),MGA_1238
sequence1	MetaGeneAnnotator	CDS	856865	858106	.	+	0	ID=MGA_1239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTDQKQVESITDQEVFVILDKTPFYAEKGGQAADSGIIFNDQMKGFVIDVQQGPMHQNIHRIKVQGTLKVNDLINCRVDEEKRIYTMKNHSGTHMIHYALREVLGTSVMQSGSYNDENGLRMDFTYHRLPTNQELLKAQNLVLEKIKNKVDRQTYFCSLEESVNKHQALAFFTEKYDQIVRVIKFGDFSSELCGGTHVNNTSEIEDFIITGIESKGSGLYRIKCLTSFKTVNEYLNEQFKIYKDQAEIIIDKYNKNKDLLKNDQLENIYLQIKNITINKDNLLVIKDLLDKLKEINKDYDKKVNDLITANKLLKYKDLTPSLNKDNVNEIKLETTDLNIKDLKQLADDLRNKYDDLIVILLSSTNENNFVVVAVSQSLQNKYKAIDIFNNLEGYETKGGGNANLAQGKFVKK;locus_tag=LOCUS_12390;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:46.1%25%2C Eval:4.0e-219%2C partial hit],internal stop codon at [856769:856771](+)%2C[856826:856828](+),MGA_1239
sequence1	MetaGeneAnnotator	CDS	858220	858876	.	+	0	ID=MGA_1240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTFLSSFGLIATSSLLVISCKNNISASKKEDHKDNENIQSDQSDNKKVEKEKEKPKPKRQATEEEKKKLETIFKEQENAFGTFHTYKDVVDQLLVYANEKGLKDITLVDGLNPNEHLKEDKDGKGQNVVKLKLYGSDVTFKPKKVLKDEVETIYSKDKKILKQIGYKKISSTEIKISRITENIQEVPLHLPLKITSLREAFSESKVSKVKNLDK;locus_tag=LOCUS_12400;note=WP_011166379.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:68.7%25%2C q_cov:100.0%25%2C s_cov:56.2%25%2C Eval:2.7e-83%2C partial hit],internal stop codon at [858874:858876](+)%2C[858949:858951](+)%2C[859024:859026](+)%2C[859099:859101](+),MGA_1240
sequence1	MetaGeneAnnotator	CDS	859909	860505	.	-	0	ID=MGA_1241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166372.1;translation=MGDKTETPNKLEIKTNSKMYANILKSIDNAGLKLKENKKFEIIKNNAYFSYKTINYLLEPKQKLETKDIQVKNVEKYIEKDKSKTLGHYAIKINLSEKVDGLKSGNFIIENAMIKELKQEDNSYILYLDHFNNFNKVTVKINDIKKRGYKFTLSNNTIEFNVQKFKDTPQAIVKAIDENEVLITNVKPGMQYRNNINK;locus_tag=LOCUS_12410;note=WP_011166372.1 hypothetical protein (Mycoplasma mycoides) [pid:69.5%25%2C q_cov:89.4%25%2C s_cov:99.4%25%2C Eval:1.0e-64],MGA_1241
sequence1	MetaGeneAnnotator	CDS	860737	860940	.	-	0	ID=MGA_1242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEVKFDYIVANSYDNQTAYSALVNKKTVCTGYAKGFQMLMDELGILSTLITSDVSPRDLSGVKHV;locus_tag=LOCUS_12420;note=WP_011166371.1 transglutaminase domain-containing protein (Mycoplasma mycoides) [pid:91.0%25%2C q_cov:100.0%25%2C s_cov:47.5%25%2C Eval:2.4e-28%2C partial hit],internal stop codon at [860710:860712](-)%2C[860737:860739](-),MGA_1242
sequence1	MetaGeneAnnotator	CDS	861244	861732	.	-	0	ID=MGA_1243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKYNKKQIILSSLVLGSLIGISAITTSCSLSSNLKNGEIPLAKNYKKLNNNLLNNNSNLLVNNISDIKINDSLDLSNYSKTSLVKLENFYPNQHVEEFKENNFSEEKIKEIIFDHNIASNYYSHPKFKLEKKYLTLDNEKKTEKLKLIDSKTNQEIQDVK;locus_tag=LOCUS_12430;note=WP_020862723.1 transglutaminase domain-containing protein (Mycoplasma mycoides) [pid:37.3%25%2C q_cov:63.0%25%2C s_cov:12.8%25%2C Eval:2.3e-09%2C partial hit],internal stop codon at [860986:860988](-)%2C[861100:861102](-)%2C[861244:861246](-),MGA_1243
sequence1	Aragorn:1.2.38	tmRNA	861858	862268	.	-	.	ID=Aragorn_29;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_29
sequence1	MetaGeneAnnotator	CDS	862413	863270	.	+	0	ID=MGA_1244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDLENKEQEILELYENKEFDKCIEIIKKLRYADVGEIFNYLDEQIAFNLYKKLEINKASEIFNYLSFDLKEYILTNLSQTKIKQLINDLYTDDIINAVENMPVEVVKKVFNAASKEQKKEIASILKYDIDTAGSIMSVNFLSVKQTTTVSKTIKEIQKNHDDYDEIDDVFVVNKLNQLVGSIEVKDLILNDMNTKIENIMNTKVISINSNQSQEDASNALKKYDISTLAVVDNNNVLVGIITSDDIIDVLIEETNEDMQKYTGIRTNETNYFDTSIFKMFISRI;locus_tag=LOCUS_12440;note=WP_011166369.1 magnesium transporter (Mycoplasma mycoides) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:61.0%25%2C Eval:1.2e-151%2C partial hit],internal stop codon at [863268:863270](+)%2C[863343:863345](+),MGA_1244
sequence1	MetaGeneAnnotator	CDS	863382	863627	.	+	0	ID=MGA_1245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIPLVVILSTVIICCANQTLVMIRRAISLEEINKKSLKTIVLKELVVSLMIAFVLIAINILRMILIYAVQYNANLTNINM;locus_tag=LOCUS_12450;note=WP_011166369.1 magnesium transporter (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:17.3%25%2C Eval:5.9e-35%2C partial hit],internal stop codon at [863268:863270](+)%2C[863343:863345](+)%2C[863625:863627](+),MGA_1245
sequence1	MetaGeneAnnotator	CDS	864016	864192	.	+	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSSTITGVALKKSLKEFENQLKEMTNLKYFNNFAEDLSQMFSSDSFNKIYLNFSDP;locus_tag=LOCUS_12460;note=WP_011166368.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:26.2%25%2C Eval:3.0e-26%2C partial hit],internal stop codon at [863839:863841](+)%2C[864190:864192](+)%2C[864346:864348](+),MGA_1246
sequence1	MetaGeneAnnotator	CDS	864643	864918	.	-	0	ID=MGA_1247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLSNSIKQEHLENIVSEEDYMGYNFAIEEIIDLYFKNCNDKLAKPIFEMYIRDVPKKHIFTKFNISRNKLKKIIEKTTTDLKKIIEPLMD;locus_tag=LOCUS_12470;note=WP_011166367.1 hypothetical protein (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:92.3%25%2C s_cov:41.0%25%2C Eval:8.6e-42%2C partial hit],internal stop codon at [864658:864660](-)%2C[864973:864975](-)%2C[864997:864999](-)%2C[865060:865062](-),frameshifted%2C insertion/deletion at around 864672,MGA_1247
sequence1	MetaGeneAnnotator	CDS	865060	865245	.	-	0	ID=MGA_1248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFKIEEKIKPFLEMDLSKLELEDKTKLFLLLSPPINYGIKKAMSKFHSLPLEHHDLMSYA;locus_tag=LOCUS_12480;note=WP_011166367.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:29.8%25%2C Eval:8.6e-29%2C partial hit],internal stop codon at [864973:864975](-)%2C[864997:864999](-)%2C[865060:865062](-),MGA_1248
sequence1	MetaGeneAnnotator	CDS	867050	867280	.	-	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIFDEHLEKVKADSVNADLTNAAKGREAGSSTAAAFLSAFAEEKPFVHFDIAGTADKAGRGQGVLVRTLFEIFNK;locus_tag=LOCUS_12490;note=WP_011166365.1 M17 family metallopeptidase (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:7.2e-36%2C partial hit],internal stop codon at [867284:867286](-)%2C[867329:867331](-)%2C[867413:867415](-),MGA_1249
sequence1	MetaGeneAnnotator	CDS	867413	868405	.	-	0	ID=MGA_1250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFNDKKEELTLVCLTEVNNKPYVSDADLSTTFISEDKTIYMVIKKDHKCLKTKIRNAFKKFVSTNKFNINVDVDSFLVFFDMCGCKKDAIEGIYESIAFETFDKVSYKKDTKPNEVVYNLITNEDVKELEQKEAIKMEFVNFARMLQDTPPNIATSEYLAEKVVQKAKEIEGLKVTVLNKKEATKLGMNLFLAVNAGSPYEPQAVVLEYVGDENEPKKALVGKGITFDSGGYNLKPSSAMEGMKFDMSGAAIMLSTVMALAKMKAKVNVVGIGMFTDNRIGSTATLPQSVIKSMNGLTVEIDNTDAEGRLVLADGITYVIREKQATEI;locus_tag=LOCUS_12500;note=WP_011166365.1 M17 family metallopeptidase (Mycoplasma mycoides) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:73.2%25%2C Eval:2.0e-180%2C partial hit],internal stop codon at [867284:867286](-)%2C[867329:867331](-)%2C[867413:867415](-),MGA_1250
sequence1	MetaGeneAnnotator	CDS	868852	868989	.	-	0	ID=MGA_1251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLENQNNKIARLIDDQYYIGENLLICPILKQNSTNRDVFLPDGS;locus_tag=LOCUS_12510;note=WP_011166364.1 alpha-xylosidase (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:6.0%25%2C Eval:4.6e-19%2C partial hit],internal stop codon at [868786:868788](-)%2C[868852:868854](-)%2C[869032:869034](-)%2C[869074:869076](-)%2C[869113:869115](-)%2C[869176:869178](-)%2C[869239:869241](-),MGA_1251
sequence1	MetaGeneAnnotator	CDS	869326	869484	.	-	0	ID=MGA_1252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNGYKAKDFKQYFMYLYVKCCYEAGEEFFGTGRNVVVSRPGYIGTQKFVGK;locus_tag=LOCUS_12520;note=WP_011166364.1 alpha-xylosidase (Mycoplasma mycoides) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:6.9%25%2C Eval:1.3e-24%2C partial hit],internal stop codon at [869032:869034](-)%2C[869074:869076](-)%2C[869113:869115](-)%2C[869176:869178](-)%2C[869239:869241](-)%2C[869326:869328](-)%2C[869572:869574](-)%2C[869641:869643](-)%2C[869743:869745](-),MGA_1252
sequence1	MetaGeneAnnotator	CDS	869729	869893	.	+	0	ID=MGA_1253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGLIQKHISKPLALTSSNSFLKSPKASVLYSKLQLFVYLFFNHLGSKVITSSG;locus_tag=LOCUS_12530;note=MGA_1253
sequence1	MetaGeneAnnotator	CDS	870812	871000	.	-	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRLRVKVKDKAKVDNKFKELTGAVGVLNKGSSLQIVYGPKADIYKGEILELLERNKNAKAK;locus_tag=LOCUS_12540;note=WP_010922696.1 PTS transporter subunit IIBC (Streptococcus pyogenes) [pid:50.0%25%2C q_cov:87.1%25%2C s_cov:7.6%25%2C Eval:4.1e-07%2C partial hit],MGA_1254
sequence1	MetaGeneAnnotator	CDS	871265	871660	.	-	0	ID=MGA_1255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQAYEIVLDSVVPVRFKVGQMITSSGSLVGAGLGMAFAIPKEKRAKYSSIYFSGLAACLLTGVTEPIEFIFMFSAPLLYVLHAILTGIAFGISDFIPMRIHAFGGIETLIKYLFVFAPTSVSGIGLKGIL;locus_tag=LOCUS_12550;note=WP_002379197.1 PTS transporter subunit IIBC (Enterococcus) [pid:52.8%25%2C q_cov:82.4%25%2C s_cov:15.0%25%2C Eval:5.5e-28%2C partial hit],internal stop codon at [871250:871252](-)%2C[871265:871267](-),MGA_1255
sequence1	MetaGeneAnnotator	CDS	871745	871915	.	-	0	ID=MGA_1256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITIPMNYSQLGGSVDFTSASQFINTTNENAKVIAEFFNSLENNKEALKAQGQEKI;locus_tag=LOCUS_12560;note=MGA_1256
sequence1	MetaGeneAnnotator	CDS	872042	872227	.	-	0	ID=MGA_1257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIRYDAIGGIIMGFVGATIYNKYYNFNKLPQALSFFNGARFVPFMVIIIVLPISVGIGLI;locus_tag=LOCUS_12570;note=WP_000705542.1 PTS transporter subunit IIBC (Bacillus) [pid:80.0%25%2C q_cov:65.6%25%2C s_cov:7.3%25%2C Eval:7.8e-14%2C partial hit],internal stop codon at [872042:872044](-)%2C[872267:872269](-)%2C[872405:872407](-)%2C[872459:872461](-),MGA_1257
sequence1	MetaGeneAnnotator	CDS	872459	872677	.	-	0	ID=MGA_1258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLDFRKAKESNLHEFFSKFAKSILTFVALLPAAGLTIILGKIIGPLGLGQIKASAKVFNQIGGVIETVG;locus_tag=LOCUS_12580;note=WP_011166363.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:86.1%25%2C q_cov:100.0%25%2C s_cov:40.7%25%2C Eval:6.2e-27%2C partial hit],internal stop codon at [872267:872269](-)%2C[872405:872407](-)%2C[872459:872461](-),MGA_1258
sequence1	MetaGeneAnnotator	CDS	872813	873424	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAVDEYIPTPQRDADKTFLMPVEDVFTITGRGTVATGRVERGTVKVNEEVEIIGLKEEPTKTVVTGLEMFRKLLDFAVAGDNVGALLRGVDRHSVERGQVLAKPGTIKPHTVLKASVYALTQEEGGRHKPFFNKYRPQFYFRTTDVTGEVTLPEGTDMVMPGDNVEMEIQLIKPVAVEEGTKFSIREGGRTIGAGTVISIEK;locus_tag=LOCUS_12590;note=WP_011166362.1 elongation factor Tu (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:51.4%25%2C Eval:3.1e-112%2C partial hit],internal stop codon at [873446:873448](-),MGA_1259
sequence1	MetaGeneAnnotator	CDS	873446	874000	.	-	0	ID=MGA_1260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEQFDRSLPHVNIGTIGHVDHGKTTLTAAITKVLSEQGNAEFKDYANIDNAPEERERGITINTAHVEYKTANRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLSRQVGVPKIVVFLNKCDMVEDDEMIDLVEMEIRDLLTEYDFDGEGAPVIRGSALGALNGDSK;locus_tag=LOCUS_12600;note=WP_011166362.1 elongation factor Tu (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:46.6%25%2C Eval:2.9e-103%2C partial hit],internal stop codon at [873446:873448](-),MGA_1260
sequence1	MetaGeneAnnotator	CDS	874132	874536	.	-	0	ID=MGA_1261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDVKATIVDGSMHEVDSNEMAYKIAASMALKEASKKMNPVVLEPIMNVEVTVPDEYYGDVMGNISSKRGIIEGSEQRGNAQTIKSKVPLTEMFGYATELRSFTQGRGNYTMIFSHYAEAPKAIADEIIKKSGK;locus_tag=LOCUS_12610;note=WP_011166361.1 elongation factor G (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.4%25%2C Eval:8.8e-71%2C partial hit],internal stop codon at [874639:874641](-),MGA_1261
sequence1	MetaGeneAnnotator	CDS	874639	875793	.	-	0	ID=MGA_1262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTGADFIYSVKTIGDRLGAKAAPIQLPIGAEENFTGIIDLVEMKAYEFDGKPEENYKEIEIPTNLLEQAKELRAHLVEVAVEYDEELLMKFLDGGEISISELKSAIRKGVINADFFPVLAGSAFKNKGVKLLLDAVVDYLPSPLDIPSIKGILPTGEEVERHADDTEPFSALAFKVMTDPFVGKLTFFRVYSGILTKGSYVLNSTKQQKERVGRILQMHANNRTEIEEVYSGDIAAAVGLKNTKTGDTLCDEKGEIILESMVFPEPVIQLALEPKTKADQEKMSIALSKLAEEDPTFRTYTDDETGQTIIAGMGELHLDIIVDRMKREFNVATNVGAPQVSYRETIKSPGKAEGKYIKQSGGRGSYGHVVIEFEPNKDKGFE;locus_tag=LOCUS_12620;note=WP_011166361.1 elongation factor G (Mycoplasma mycoides) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:55.7%25%2C Eval:8.3e-216%2C partial hit],internal stop codon at [874639:874641](-)%2C[875842:875844](-)%2C[875986:875988](-)%2C[876046:876048](-),MGA_1262
sequence1	MetaGeneAnnotator	CDS	876046	876201	.	-	0	ID=MGA_1263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAREYSLLNTRNIGIMAHIDAGKTTTTERILFHTGKIHKIGETHEGASQMD;locus_tag=LOCUS_12630;note=WP_011166361.1 elongation factor G (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:7.4%25%2C Eval:3.1e-23%2C partial hit],internal stop codon at [875842:875844](-)%2C[875986:875988](-)%2C[876046:876048](-),MGA_1263
sequence1	MetaGeneAnnotator	CDS	876229	876351	.	-	0	ID=MGA_1264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKLANEIIDASNNIGGSVKKREDTHKMAEANKAFAHYR;locus_tag=LOCUS_12640;note=WP_011166360.1 30S ribosomal protein S7 (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:25.8%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [876388:876390](-),MGA_1264
sequence1	MetaGeneAnnotator	CDS	876388	876693	.	-	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKNRAEKRDVLADPIYNSKLVTRAINKIMLDGKRGIAQSIIYDAFNIIKEKTNKEPIEVFNKAIENIKPHLELKVRRIGGANYQVPVEVSAERQITLALR;locus_tag=LOCUS_12650;note=WP_011166360.1 30S ribosomal protein S7 (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:65.2%25%2C Eval:1.3e-50%2C partial hit],internal stop codon at [876388:876390](-),MGA_1265
sequence1	MetaGeneAnnotator	CDS	876780	877043	.	-	0	ID=MGA_1266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPKKPNSALRKYARVRLTNGMEVNAYIPGEGHNLQEHSVVLIRGGRVKDLPGVRYHVIRGTLDTQGVAKRSQGRSLYGVKRPKVKK;locus_tag=LOCUS_12660;note=WP_008362393.1 30S ribosomal protein S12 (Mycoplasma mycoides group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:62.6%25%2C Eval:8.4e-45%2C partial hit],internal stop codon at [877149:877151](-),MGA_1266
sequence1	MetaGeneAnnotator	CDS	878139	878384	.	-	0	ID=MGA_1267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKDIKNAKHYILLNFYIFKDGKLLDELTNLLIKKLKENVKVYIIYDFAGSYTLFEEAKIKLLEYGCQIVCYAPIRFPFIK;locus_tag=LOCUS_12670;note=WP_011166358.1 cardiolipin synthase (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:5.6e-41%2C partial hit],internal stop codon at [878022:878024](-)%2C[878139:878141](-)%2C[878658:878660](-),MGA_1267
sequence1	MetaGeneAnnotator	CDS	879368	879559	.	-	0	ID=MGA_1268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKIIKKNLALVKKKRLFLDFLKNNQLEDIYLKNTDFNKKSNILLNNFIIILKINNLNYKNF;locus_tag=LOCUS_12680;note=WP_011166357.1 hypothetical protein (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:58.7%25%2C s_cov:15.7%25%2C Eval:7.7e-14%2C partial hit],internal stop codon at [879368:879370](-),MGA_1268
sequence1	MetaGeneAnnotator	CDS	879788	880096	.	-	0	ID=MGA_1269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYISNLDAIVIFSINNKTFQLIGLYSKNEIDVLELLDAIVPKGISLIEFYFVPNIKSKFVVKELRKVMAADCQHRSFLYVRQSTTNLEASKFVVPLLNRLK;locus_tag=LOCUS_12690;note=WP_020862536.1 hypothetical protein (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:33.6%25%2C Eval:8.0e-51%2C partial hit],internal stop codon at [880277:880279](-),MGA_1269
sequence1	MetaGeneAnnotator	CDS	880277	880597	.	-	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNNNFDSAYIPVTIVNERNGVLAVSGFIKSKAIINKTVLNTILLTNTFTKAKESNPLMVNELIQGVVKKYENISDFIYTFSNVENDEVLIRNGFKKIKEYTYFMQ;locus_tag=LOCUS_12700;note=WP_020862536.1 hypothetical protein (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:34.9%25%2C Eval:4.4e-54%2C partial hit],internal stop codon at [880277:880279](-)%2C[880598:880600](-),MGA_1270
sequence1	MetaGeneAnnotator	CDS	880817	881317	.	-	0	ID=MGA_1271;product=Sua5/YciO/YrdC/YwlC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166355.1;translation=MLTDIKINKAVELLKNNQIIILPTDTIYGLSAIYSLENQIRVNQVKNADITKPLIVLISSLDQLNDLEITDLTDKDYLLNDEPTTVIFKTKSSSIAIRLVKREDIKQIINKTGPIISTSVNLHNFKPLIKENDLINFNKNIEVFFDTQLNNKPSKIYSSIIKKYLR;locus_tag=LOCUS_12710;note=WP_011166355.1 Sua5/YciO/YrdC/YwlC family protein (Mycoplasma mycoides) [pid:90.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-78],MGA_1271
sequence1	MetaGeneAnnotator	CDS	882013	882186	.	-	0	ID=MGA_1272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVTSISLQNITFFEYEKNSEDKYINYFVQKNKVIYQNRIKLYVNNLFSFTDKTLSN;locus_tag=LOCUS_12720;note=WP_011166354.1 hypothetical protein (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:3.9e-26%2C partial hit],internal stop codon at [881878:881880](-)%2C[881920:881922](-)%2C[882013:882015](-)%2C[882211:882213](-)%2C[882214:882216](-)%2C[882235:882237](-),MGA_1272
sequence1	MetaGeneAnnotator	CDS	882235	882507	.	-	0	ID=MGA_1273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIVITMFISFKALVNMSNNKRYKQAIIALIIIFGILTILFQGISQYFYGYFQDFFNYQVISGLDNKISDFKKITTQFIEFEKNTSSIYN;locus_tag=LOCUS_12730;note=WP_011166354.1 hypothetical protein (Mycoplasma mycoides) [pid:91.1%25%2C q_cov:100.0%25%2C s_cov:18.4%25%2C Eval:1.6e-40%2C partial hit],internal stop codon at [882013:882015](-)%2C[882211:882213](-)%2C[882214:882216](-)%2C[882235:882237](-)%2C[882535:882537](-),MGA_1273
sequence1	MetaGeneAnnotator	CDS	882535	882798	.	-	0	ID=MGA_1274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNKNFKIKIINNKFSMRIKDIDPKIEQKNFSIYLKAILGLVVFLITLLPFYAYLHLIFKHESLSFYFANYSIISKYVDLPSKSQI;locus_tag=LOCUS_12740;note=WP_011166354.1 hypothetical protein (Mycoplasma mycoides) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:17.8%25%2C Eval:7.4e-41%2C partial hit],internal stop codon at [882535:882537](-),MGA_1274
sequence1	MetaGeneAnnotator	CDS	882921	883307	.	-	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCTGSGCLGISCALLNDQNKVILTDISYKALKVANKNIKKFNLTNTTCLNGNFIDVLIKNNLKANLIICNPPYIDINDQNIDKNVIDFEPSIALFAPNKGLYFYEILIKNIDKIVDTNKNFLIVLEFG;locus_tag=LOCUS_12750;note=WP_011166353.1 peptide chain release factor N(5)-glutamine methyltransferase (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:45.4%25%2C Eval:3.2e-68%2C partial hit],internal stop codon at [882834:882836](-)%2C[882864:882866](-)%2C[882921:882923](-)%2C[883542:883544](-),MGA_1275
sequence1	MetaGeneAnnotator	CDS	883648	884241	.	-	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKGDRVYSKLKFESGAHRVQRVPKTEAKGRIQTSTATVAVLPEMSEVEIEIKSNDLRIDTYRASGAGGQHVNTTDSAVRITHLPTGIVVTSQDGRSQHDNKDIAMTMLRAKVYEAEVEKQQAQADATRKNAVGTGARSEKIRTYNYPQNRVTDHRVGLTLNKLDQVMEGNIDEFIIALINEEQRQKVAEQLEKNNE;locus_tag=LOCUS_12760;note=WP_011166352.1 peptide chain release factor 1 (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:54.1%25%2C Eval:7.1e-106%2C partial hit],internal stop codon at [884302:884304](-),MGA_1276
sequence1	MetaGeneAnnotator	CDS	884302	884742	.	-	0	ID=MGA_1277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAKTYEALETMQKRLLQILKDLEDENILKDIKKFTELNKEKSNLEEVVEKFVEYKQAVEHIKDAKAILENEKDQELIELAKIELDENNDKVEHLQQVIEEMLLPKDPNDDKNVIVEIRGAAGGDEANIFAGDLLRMYKLYAETQN;locus_tag=LOCUS_12770;note=WP_011166352.1 peptide chain release factor 1 (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:40.1%25%2C Eval:1.3e-76%2C partial hit],internal stop codon at [884302:884304](-),MGA_1277
sequence1	MetaGeneAnnotator	CDS	884832	885296	.	-	0	ID=MGA_1278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAGKTEEFIRRLRVLSYAKKRVLAFKPSIDNRYSVENIISHSGSKLDSYLVHSSDEIKQIIEKENQIQQVDVIGIDEVQFFDEQVVELIEQLANQGIIVIVNGLDKDFRCLPFKNVDKLLVTAEFVTKLRARCHLCGNFANRSQRIVNGQPAL;locus_tag=LOCUS_12780;note=WP_011166351.1 thymidine kinase (Mycoplasma mycoides) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:73.7%25%2C Eval:1.6e-78%2C partial hit],internal stop codon at [884832:884834](-)%2C[885318:885320](-),MGA_1278
sequence1	MetaGeneAnnotator	CDS	885919	886164	.	-	0	ID=MGA_1279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSRISDDDSFFIDETNLSDEFVKNSLIITVDTATKKRVDFNRFDLSCDSFKIDHHINVEDYCNNDLVDDSSISNTQVISL;locus_tag=LOCUS_12790;note=WP_011166350.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Mycoplasma mycoides) [pid:98.7%25%2C q_cov:93.8%25%2C s_cov:24.1%25%2C Eval:3.4e-38%2C partial hit],internal stop codon at [885634:885636](-)%2C[885718:885720](-)%2C[885919:885921](-)%2C[886237:886239](-),MGA_1279
sequence1	MetaGeneAnnotator	CDS	886336	886458	.	-	0	ID=MGA_1280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFALTEEKEKIYFYDRTNLYKDNDEIVLYISKDSISNIN;locus_tag=LOCUS_12800;note=WP_020862530.1 hypothetical protein (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:6.3%25%2C Eval:4.8e-16%2C partial hit],internal stop codon at [886597:886599](-),MGA_1280
sequence1	MetaGeneAnnotator	CDS	886597	886806	.	-	0	ID=MGA_1281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFIFLNDSINDVYDLNKSIYYTNNKLELKEMLTVDIFDSLLKKQDNNINKISYKKINENEIKFLNEST;locus_tag=LOCUS_12810;note=WP_020862530.1 hypothetical protein (Mycoplasma mycoides) [pid:89.9%25%2C q_cov:100.0%25%2C s_cov:10.9%25%2C Eval:1.9e-28%2C partial hit],internal stop codon at [886597:886599](-)%2C[886984:886986](-),MGA_1281
sequence1	MetaGeneAnnotator	CDS	887986	888234	.	-	0	ID=MGA_1282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYKIKELTFRSKNPSLNKVDFIADDGQIVDIVIDNKKEMDFFIKVLLGKKKNSSGRFQIDDFDIINRAYTKKHVEFIKRDT;locus_tag=LOCUS_12820;note=WP_020862530.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:13.0%25%2C Eval:4.4e-41%2C partial hit],internal stop codon at [887698:887700](-)%2C[887959:887961](-)%2C[887986:887988](-),MGA_1282
sequence1	MetaGeneAnnotator	CDS	888849	889451	.	-	0	ID=MGA_1283;product=glycerophosphodiester phosphodiesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862528.1;translation=MILVAHRGFRGLYGENREYDFKNALTICKAVEFDIRLTKDDKIIIFHDHNFKRIGNLNRGVKTLTYDEITKIPYFVENPLATPILFEVFMDRYFDQYEMINVEIKPDHYTEDELDIIFNAIKKYCNKGVEIIVSSFSPVVLKEILKRKENYYKSGYLFEKMSQFDVELGKKFDFLHPPITLLKKQSNCELFKKLNIPLNV;locus_tag=LOCUS_12830;note=WP_020862528.1 glycerophosphodiester phosphodiesterase family protein (Mycoplasma mycoides) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:85.5%25%2C Eval:1.6e-113],MGA_1283
sequence1	MetaGeneAnnotator	CDS	890041	890325	.	+	0	ID=MGA_1284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTTKPNPFTNFINKTFKTFDKKTLFVIMLLAVSDTLVFIFPSYLRNVMSSEVISLYLGVKTEHLSQASAIYGYISLAIYFFGSILGDKLSVK;locus_tag=LOCUS_12840;note=WP_020862526.1 MFS transporter (Mycoplasma mycoides) [pid:88.3%25%2C q_cov:100.0%25%2C s_cov:19.0%25%2C Eval:2.0e-38%2C partial hit],internal stop codon at [890323:890325](+)%2C[890368:890370](+)%2C[890488:890490](+)%2C[890512:890514](+)%2C[890524:890526](+),MGA_1284
sequence1	MetaGeneAnnotator	CDS	890538	890675	.	-	0	ID=MGA_1285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFPANKGVSTKNKIYPIETKTVPANPLKLPCIPFKIPFCSGLPC;locus_tag=LOCUS_12850;note=MGA_1285
sequence1	MetaGeneAnnotator	CDS	890707	890850	.	+	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYMFCGLIALTVILLIFTVKEDKSEKEENASFNIKDVFGILKNVKI;locus_tag=LOCUS_12860;note=WP_020862526.1 MFS transporter (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:9.5%25%2C Eval:8.1e-19%2C partial hit],internal stop codon at [890488:890490](+)%2C[890512:890514](+)%2C[890524:890526](+)%2C[890692:890694](+)%2C[890848:890850](+)%2C[891121:891123](+)%2C[891145:891147](+),MGA_1286
sequence1	MetaGeneAnnotator	CDS	890869	891123	.	+	0	ID=MGA_1287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVYMYQMGLSILVSYLEVSLQVAAVAVFVGGLLRTYLFRFIFSAPAGKIADKTGKYIKFLMTGILIGTFLVTTVLLLPGFRVG;locus_tag=LOCUS_12870;note=WP_020862526.1 MFS transporter (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:17.0%25%2C Eval:3.5e-38%2C partial hit],internal stop codon at [890692:890694](+)%2C[890848:890850](+)%2C[891121:891123](+)%2C[891145:891147](+)%2C[891154:891156](+)%2C[891208:891210](+)%2C[891229:891231](+)%2C[891319:891321](+),MGA_1287
sequence1	MetaGeneAnnotator	CDS	891667	891909	.	-	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPMVLHGGSGIPQEQVKKAISMGIAKINVNTELQLAFRDATRKYVEERKDLDDAKKGFDPRKLLKPGYDALKTTFLELTN;locus_tag=LOCUS_12880;note=WP_011166343.1 class II fructose-1%2C6-bisphosphate aldolase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:26.9%25%2C Eval:6.2e-40%2C partial hit],internal stop codon at [891667:891669](-)%2C[891958:891960](-)%2C[891961:891963](-),MGA_1288
sequence1	MetaGeneAnnotator	CDS	891961	892347	.	-	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGVNTVVGMVNGLLDYLNITVPVALHLDHGQSLEMAKKCILAGYSSVMFDGSHFPYAENLEMTKELIKFAEEYEVSVEAEIGSIGGEEDGVIGQGELGDPLQAEEISKTGITMLAAGIGNIHGKYPS;locus_tag=LOCUS_12890;note=WP_011166343.1 class II fructose-1%2C6-bisphosphate aldolase (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:4.6e-67%2C partial hit],internal stop codon at [891667:891669](-)%2C[891958:891960](-)%2C[891961:891963](-)%2C[892426:892428](-),MGA_1289
sequence1	MetaGeneAnnotator	CDS	893301	893648	.	-	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRINLLILTIAKLSLLSFSSIVFLKNENHFNINYKMKIEMKSEKTEQPHKYKDGDKTEIVEIGFYKRGNEITIKQIPYYVKKVPEKLPEEIVSLYRAFAHRYKDQNHPTVTGFEK;locus_tag=LOCUS_12900;note=WP_011166340.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:85.2%25%2C q_cov:100.0%25%2C s_cov:35.7%25%2C Eval:9.9e-54%2C partial hit],internal stop codon at [893070:893072](-)%2C[893145:893147](-)%2C[893226:893228](-)%2C[893301:893303](-),MGA_1290
sequence1	MetaGeneAnnotator	CDS	893663	893881	.	-	0	ID=MGA_1291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLAKIINRTNETKPTLKPNSDQELPKSNITTSKQENKKLSTPAIVGIVVGSQVVLTSLAAGIPYLIKRFKK;locus_tag=LOCUS_12910;note=WP_011166339.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:1.3e-32%2C partial hit],internal stop codon at [894065:894067](-)%2C[894140:894142](-),MGA_1291
sequence1	MetaGeneAnnotator	CDS	894865	895161	.	-	0	ID=MGA_1292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTKLEKDSLVSKLYNSDVALERHRHRYEFNNEYKKDLESVGLRFSGIYEEKNLVEVVEMPSLKFFVASQFHPEFTSRPNKPTPLFKGFIKAIVENNK;locus_tag=LOCUS_12920;note=WP_011166338.1 CTP synthase (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:18.4%25%2C Eval:2.3e-50%2C partial hit],internal stop codon at [895270:895272](-),MGA_1292
sequence1	MetaGeneAnnotator	CDS	895633	895869	.	-	0	ID=MGA_1293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASLGIQPDVIVCRSDSSSPKDIKEKISLFCNVPITNIIDAIDQDSIYRVPLALAKQNLQDIIIEQLQLKAKNIDLSL;locus_tag=LOCUS_12930;note=WP_011166338.1 CTP synthase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:14.7%25%2C Eval:4.9e-37%2C partial hit],internal stop codon at [895480:895482](-)%2C[895510:895512](-)%2C[895633:895635](-)%2C[895924:895926](-),MGA_1293
sequence1	MetaGeneAnnotator	CDS	895924	896463	.	-	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFIFVTGGVVSGLGKGITASSIGALLKASGLKVFMQKFDPYLNVDPGTMSPYQHGEVFVTKDGGETDLDLGHYERFIDEELTKLSSTTSGKIYLSVIQGERKGVNSGKTIQVVPHITDAIKQKVYQAAEQSQADVIISEIGGTVGDIESQPFIEAIRQIRLEQGKENVMFVHVVLLL;locus_tag=LOCUS_12940;note=WP_011166338.1 CTP synthase (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:33.6%25%2C Eval:7.0e-96%2C partial hit],internal stop codon at [895633:895635](-)%2C[895924:895926](-),MGA_1294
sequence1	MetaGeneAnnotator	CDS	897008	897376	.	-	0	ID=MGA_1295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDIFKNCSSEKDLILSDLSKRLTDRKLFTIRDEKLINKTTLISKLNKLGLDPTYYLLEANIRPLSMYNPVIKNNKDENIYLYDSNNQQVHELSYYSKLVKFFQKSNSQKNLRKIIFPKEIV;locus_tag=LOCUS_12950;note=WP_011166336.1 HD domain-containing protein (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:30.2%25%2C Eval:2.6e-62%2C partial hit],internal stop codon at [897509:897511](-)%2C[897665:897667](-),MGA_1295
sequence1	MetaGeneAnnotator	CDS	897509	897664	.	-	0	ID=MGA_1296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRNAFIIGDRIVFPKKTIYAIESYLLGRYHMYQQVYNHKTSTIFDAMFIS;locus_tag=LOCUS_12960;note=WP_011166336.1 HD domain-containing protein (Mycoplasma mycoides) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:12.6%25%2C Eval:1.6e-22%2C partial hit],internal stop codon at [897509:897511](-)%2C[897665:897667](-),MGA_1296
sequence1	MetaGeneAnnotator	CDS	897665	898222	.	-	0	ID=MGA_1297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLKVIRDNVHGDIYFDDVIYIQLINTYEMQRLRRILQLAGTQLAYPSATHTRFSHSIGTYYILKEFFKNKAFLKISSYEQKLVKIAGLLHDIGHGAFSHTFEKITHKNHEQYTSEIILNKKGNIYPILKKHHINPQDIVDIINGTYKNKIINLLVSSQIDADRFDYLKRDSISCGVDYATLDFK;locus_tag=LOCUS_12970;note=WP_011166336.1 HD domain-containing protein (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:45.8%25%2C Eval:2.4e-102%2C partial hit],internal stop codon at [897509:897511](-)%2C[897665:897667](-),MGA_1297
sequence1	MetaGeneAnnotator	CDS	898225	898344	.	-	0	ID=MGA_1298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMPIRIFATKSEHGPSLADVIYLLGKTTVLNNINSLER;locus_tag=LOCUS_12980;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:8.1%25%2C Eval:5.4e-15%2C partial hit],internal stop codon at [898411:898413](-)%2C[898597:898599](-),MGA_1298
sequence1	MetaGeneAnnotator	CDS	898411	898587	.	-	0	ID=MGA_1299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLYKKELEYAEQINDHLDLFFNKNTLDNNTLDVLNNLTNYKNVVEIFKNQINDLKD;locus_tag=LOCUS_12990;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:74.5%25%2C q_cov:94.8%25%2C s_cov:11.4%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [898411:898413](-)%2C[898597:898599](-)%2C[898705:898707](-)%2C[898816:898818](-),MGA_1299
sequence1	MetaGeneAnnotator	CDS	898816	898962	.	-	0	ID=MGA_1300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGHLTLIVDNTGKKLSKRSGNALFFIEQYKKQGYLSQAIFNYIALLG;locus_tag=LOCUS_13000;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:97.9%25%2C s_cov:9.7%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [898597:898599](-)%2C[898705:898707](-)%2C[898816:898818](-)%2C[898972:898974](-)%2C[899179:899181](-),MGA_1300
sequence1	MetaGeneAnnotator	CDS	898972	899097	.	-	0	ID=MGA_1301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATYNFAVVIDDYDMQITHVLRGEEHISNTPRQMMIYDAFN;locus_tag=LOCUS_13010;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:8.5%25%2C Eval:2.6e-17%2C partial hit],internal stop codon at [898705:898707](-)%2C[898816:898818](-)%2C[898972:898974](-)%2C[899179:899181](-),MGA_1301
sequence1	MetaGeneAnnotator	CDS	899179	899427	.	-	0	ID=MGA_1302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSQKFDRYKQLAEQLVDQNKAYRCFCTSEELEKDYEEQTSKGIIATKYSQKCLSLTQDQIQKNLENKKEYSIRFKVPENKT;locus_tag=LOCUS_13020;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:88.9%25%2C q_cov:98.8%25%2C s_cov:16.8%25%2C Eval:3.3e-36%2C partial hit],internal stop codon at [898972:898974](-)%2C[899179:899181](-)%2C[899488:899490](-),MGA_1302
sequence1	MetaGeneAnnotator	CDS	899488	899676	.	-	0	ID=MGA_1303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFRLRYAPSPTGFLHIGNTRTALMNYLFAKHYNGSFIVRIEDTDLARNVDGAIESQFENLN;locus_tag=LOCUS_13030;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:12.8%25%2C Eval:4.5e-30%2C partial hit],internal stop codon at [899488:899490](-),MGA_1303
sequence1	MetaGeneAnnotator	CDS	899809	900216	.	-	0	ID=MGA_1304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFATYFITFYFLIKKLNILTPGRENQLEIQKQTIQKVNEKQIIENITTNDSDINKYELMAQKILEIVGKDNIELVDSCSTRLRLTVKNNSKTVIDDQKIKQIGAFGVVRLGKNNYQIIIGTDVEHVADKLKKILN;locus_tag=LOCUS_13040;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:74.1%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:1.5e-49%2C partial hit],internal stop codon at [900232:900234](-)%2C[900238:900240](-)%2C[900256:900258](-)%2C[900280:900282](-)%2C[900289:900291](-)%2C[900352:900354](-),MGA_1304
sequence1	MetaGeneAnnotator	CDS	900352	900498	.	-	0	ID=MGA_1305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAFYGGAAFVAFITGIDEPLTFNFIFISPILYFLNALFTGIFYMFVT;locus_tag=LOCUS_13050;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:91.7%25%2C q_cov:100.0%25%2C s_cov:8.6%25%2C Eval:4.7e-19%2C partial hit],internal stop codon at [900232:900234](-)%2C[900238:900240](-)%2C[900256:900258](-)%2C[900280:900282](-)%2C[900289:900291](-)%2C[900352:900354](-)%2C[900694:900696](-),MGA_1305
sequence1	MetaGeneAnnotator	CDS	900844	901077	.	-	0	ID=MGA_1306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRATQLLYFLKGNSVKYQLDSGVVGGIVVGCLVALIYNKYKEVTLPQALSFFGGRRFIPLLGVLMIIPLGLSFAII;locus_tag=LOCUS_13060;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:84.4%25%2C q_cov:100.0%25%2C s_cov:13.8%25%2C Eval:6.9e-31%2C partial hit],internal stop codon at [900694:900696](-)%2C[900838:900840](-)%2C[900844:900846](-)%2C[901126:901128](-)%2C[901177:901179](-),MGA_1306
sequence1	MetaGeneAnnotator	CDS	901177	901512	.	-	0	ID=MGA_1307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFLKAKDKQNKENSFYNNLLNALQRLGKTLMFPIAVLPIAALLARFGALIQDPLANGGLNISEIQKFIGLIIATPGQIVFDNLAIIFAIGISFGLAKDNRGEAALVGGIV;locus_tag=LOCUS_13070;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:91.0%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:1.2e-49%2C partial hit],internal stop codon at [901126:901128](-)%2C[901177:901179](-),MGA_1307
sequence1	MetaGeneAnnotator	CDS	901856	902065	.	-	0	ID=MGA_1308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFTVVLIIISGVTLLQGLDKVLVSSIQLVIIIVATLISLIGILMLKEPHPEYPMFPTKKDSTKNVSIK;locus_tag=LOCUS_13080;note=WP_011166327.1 MFS transporter (Mycoplasma mycoides) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:14.6%25%2C Eval:2.9e-29%2C partial hit],internal stop codon at [902078:902080](-)%2C[902096:902098](-)%2C[902165:902167](-)%2C[902330:902332](-)%2C[902357:902359](-),MGA_1308
sequence1	MetaGeneAnnotator	CDS	902165	902308	.	-	0	ID=MGA_1309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVLFVLSTLTFVFGVAKYGKSQNNSMFVFSAIMFIILGFLTGLCV;locus_tag=LOCUS_13090;note=WP_011166327.1 MFS transporter (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:10.0%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [902078:902080](-)%2C[902096:902098](-)%2C[902165:902167](-)%2C[902330:902332](-)%2C[902357:902359](-)%2C[902411:902413](-)%2C[902507:902509](-)%2C[902528:902530](-)%2C[902573:902575](-),MGA_1309
sequence1	MetaGeneAnnotator	CDS	902768	903013	.	-	0	ID=MGA_1310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIALLLAKFAHKYTTIIALGMTLAGIPAAFMPATRSGYALFLILRTIMAIGGTTLVILTQPVVANFFGSKQKSIVSQFGI;locus_tag=LOCUS_13100;note=WP_011166327.1 MFS transporter (Mycoplasma mycoides) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:1.4e-36%2C partial hit],internal stop codon at [902507:902509](-)%2C[902528:902530](-)%2C[902573:902575](-)%2C[902690:902692](-)%2C[902768:902770](-)%2C[903044:903046](-)%2C[903167:903169](-)%2C[903209:903211](-)%2C[903248:903250](-),MGA_1310
sequence1	MetaGeneAnnotator	CDS	903589	903717	.	-	0	ID=MGA_1311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVDESTLTVLDVYYEDKTGGVVVKSTKLSDEIKFIFSVKEK;locus_tag=LOCUS_13110;note=WP_011166326.1 hypothetical protein (Mycoplasma mycoides) [pid:90.5%25%2C q_cov:100.0%25%2C s_cov:17.6%25%2C Eval:3.4e-14%2C partial hit],MGA_1311
sequence1	MetaGeneAnnotator	CDS	904114	904305	.	-	0	ID=MGA_1312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMKSLLTILSSLMISASGVGLVVACNNTDSTKAPSTNQNKDKDKKDGNEKSEEKPKVISKSH;locus_tag=LOCUS_13120;note=WP_011166326.1 hypothetical protein (Mycoplasma mycoides) [pid:85.5%25%2C q_cov:87.3%25%2C s_cov:23.1%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [904081:904083](-)%2C[904114:904116](-),MGA_1312
sequence1	MetaGeneAnnotator	CDS	904855	904983	.	-	0	ID=MGA_1313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGGTVYSFISKYNNKIANKFIVDAGYNSFLDIAIQSGFKKV;locus_tag=LOCUS_13130;note=WP_011166325.1 alpha/beta fold hydrolase (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:14.7%25%2C Eval:5.7e-17%2C partial hit],internal stop codon at [904588:904590](-)%2C[904855:904857](-)%2C[905107:905109](-),MGA_1313
sequence1	MetaGeneAnnotator	CDS	906069	906266	.	-	0	ID=MGA_1314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDNIFDKLHVKEERVSQKKYEEVKQANKLNQELTLKQIILNKNFIIGLIFFLIVIGTVQAFGSI;locus_tag=LOCUS_13140;note=WP_011166324.1 MFS transporter (Mycoplasma mycoides) [pid:86.2%25%2C q_cov:100.0%25%2C s_cov:12.4%25%2C Eval:6.3e-24%2C partial hit],internal stop codon at [905883:905885](-)%2C[905910:905912](-)%2C[906069:906071](-)%2C[906273:906275](-)%2C[906336:906338](-)%2C[906474:906476](-),MGA_1314
sequence1	MetaGeneAnnotator	CDS	906474	906704	.	-	0	ID=MGA_1315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSAAALIASFISGPILVYAITKKKTYKFFILPILLALSIMMFFIMPVISSVLLLATVFTPLFGMLYSYRTALDS;locus_tag=LOCUS_13150;note=WP_011166324.1 MFS transporter (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:94.7%25%2C s_cov:13.7%25%2C Eval:2.8e-32%2C partial hit],internal stop codon at [906273:906275](-)%2C[906336:906338](-)%2C[906474:906476](-)%2C[906924:906926](-)%2C[906969:906971](-),MGA_1315
sequence1	MetaGeneAnnotator	CDS	907237	908463	.	-	0	ID=MGA_1316;product=threonine ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166323.1;translation=MSHPFTVDEIKQIHQEISKIIHYTPLHYADKLSALTGNNIYLKLENLQKTGSFKLRGATNKISKLTDEEKRHGIIAASAGNHAQGVAYAATNLGLKSTIVMPENAPMAKIQATEKYGGKVVLSGRYFDDALAKAIELKEKENLTLIHAFDDIEIIKGQATIAYEIDQQIKNIDYCLVPIGGGGLMSGIATYLKQVNPNIKMIGVEAANVNSYQQAKALNKPVMIDSKPSIADGIAVKKVSDLTFSILNQYVDDVVVVSEEEIAETMLFLMENCKFVTEGSGAVTAAALMFDKLNIKNQNKTIVGLVSGGNIDIAMVGNIINKALIKTNRRLVLSVNIPSDNKELMNIISIINSCGAKIIKIKTNRDIMYLELNEIHTTFIIDLSNPDQQQQIIDKITQANYNITSITD;locus_tag=LOCUS_13160;gene=ilvA;EC_number=4.3.1.19;note=WP_011166323.1 threonine ammonia-lyase (Mycoplasma mycoides) [pid:93.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-212],MGA_1316
sequence1	MetaGeneAnnotator	CDS	908658	909173	.	+	0	ID=MGA_1317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNISGLYDTHCHLNDSRFMEIDMTSNEIVIEAKRSGVKYINNVGYDVKSSKTAVFQANLDPNVFAVVGIHPSQIHLYADQAFESIEELANSNKVVGIGEVGLDFFETNKYEKQQILGFEKQIDIAKKLDLPIVVHLRDAVNHFRVYEIAYKIFKEKRVKKAVIHGFRGPLE;locus_tag=LOCUS_13170;note=WP_011182945.1 TatD family hydrolase (Mesoplasma florum) [pid:49.1%25%2C q_cov:98.8%25%2C s_cov:64.3%25%2C Eval:3.9e-45%2C partial hit],internal stop codon at [909171:909173](+),MGA_1317
sequence1	MetaGeneAnnotator	CDS	909177	909455	.	+	0	ID=MGA_1318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIDLGFYISFDAAITHDVELEQVVKNVSLNRLLVETNSPFLPPSPYKKGLSYPKYLPLIVKHIAKIKKVSDSIVAENTKNNAERLFLRSY;locus_tag=LOCUS_13180;note=WP_011182945.1 TatD family hydrolase (Mesoplasma florum) [pid:48.8%25%2C q_cov:93.5%25%2C s_cov:32.7%25%2C Eval:5.8e-17%2C partial hit],internal stop codon at [909171:909173](+),MGA_1318
sequence1	MetaGeneAnnotator	CDS	909523	910392	.	-	0	ID=MGA_1319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISHDVEFINRVAKIIYAIENQKINRYVGDYNKYLELSALKADQYDKARESQQQQIAKLKDYIARNAARFSTAKSAQSRQKQLDKMDVLDERKKLVKPKMSFKYKRPNSAVVIKSQNLEIGYNFSLTAPLTFELREGQKCIVKGYNGIGKTTFLKTISNQLKPISGWCKLGDGVEVRYFEQVEKFHEYETPISYLSSRHKEVLDPEIRATLSRFGIKSELMLNPMSDLSGGEQTKVRLASLSLEPASLLILDEPTNHIDVLAKESLLEAIKEFQGTVLITTHDINFETN;locus_tag=LOCUS_13190;note=WP_011166322.1 ABC-F family ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:56.4%25%2C Eval:4.8e-159%2C partial hit],internal stop codon at [909523:909525](-)%2C[910432:910434](-),MGA_1319
sequence1	MetaGeneAnnotator	CDS	910432	910701	.	-	0	ID=MGA_1320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIEYKESDLIKALELQDYLTSHNFDTIDKTIGNLVSGLGINPNNMKKKLSELSGGQRGKILLAKLLLKNDDFILLDEPTNFLDIEQVE;locus_tag=LOCUS_13200;note=WP_011166322.1 ABC-F family ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:17.4%25%2C Eval:2.4e-44%2C partial hit],internal stop codon at [910432:910434](-)%2C[910837:910839](-),MGA_1320
sequence1	MetaGeneAnnotator	CDS	910837	911022	.	-	0	ID=MGA_1321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIVLENITHQNGEKILYKNSEMRINKGEHVALIGPNGAGKSTLLNIIAQKITPDHGTIE;locus_tag=LOCUS_13210;note=WP_011166322.1 ABC-F family ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:3.3e-28%2C partial hit],internal stop codon at [910837:910839](-),MGA_1321
sequence1	MetaGeneAnnotator	CDS	911375	911530	.	+	0	ID=MGA_1322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKAENIEATLTFLEIATLINQIIKKIIKYKTLTTNKSPKKQLTALPPLNL;locus_tag=LOCUS_13220;note=MGA_1322
sequence1	MetaGeneAnnotator	CDS	911917	912168	.	+	0	ID=MGA_1323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNKSGLILLKEVFINNYSNKIDFLKTIFSDKQINELESITNIKELLTNLKELLNNQILIHQNKIKEYQLELKKTNKKILNKL;locus_tag=LOCUS_13230;note=WP_011166320.1 hypothetical protein (Mycoplasma mycoides) [pid:89.9%25%2C q_cov:83.1%25%2C s_cov:47.3%25%2C Eval:1.6e-27%2C partial hit],internal stop codon at [912166:912168](+)%2C[912172:912174](+)%2C[912175:912177](+),MGA_1323
sequence1	MetaGeneAnnotator	CDS	912178	912357	.	+	0	ID=MGA_1324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPIIGMFIFFIIYNTRLQNPYYANQLVDIKVKITDLDIKNIYIDKLLEEINSSVKLKF;locus_tag=LOCUS_13240;note=WP_011166320.1 hypothetical protein (Mycoplasma mycoides) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:40.4%25%2C Eval:5.2e-26%2C partial hit],internal stop codon at [912166:912168](+)%2C[912172:912174](+)%2C[912175:912177](+),MGA_1324
sequence1	MetaGeneAnnotator	CDS	912544	913428	.	+	0	ID=MGA_1325;product=UTP--glucose-1-phosphate uridylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166319.1;translation=MTIRKAVIPCAGFGTRFLPFTKSQAKEMLPIIDTPTIEYIVKEAVDSGIKEILIVLNDKKSEIMNYFSRNIQLEGFLYNKDKIAELEQIKTKYDADIHYIMQDEPLGLGHAISLCKGFINNESFAVLLGDDLFKCQTPAIKQLMDLYEEKHSTILGTILIDKKDCKKYGICKTESSDDNVYKVCSVVEKPDEQNAPSNVAIAGRYILTPEIFNYLDLQLKGETGEIELTDSILKTISDVDCYAKVIDGKRYDIGNKLGYLEAFVDFGLQRQDLREEFLHLIKSRSEDEPSSNNE;locus_tag=LOCUS_13250;note=WP_011166319.1 UTP--glucose-1-phosphate uridylyltransferase (Mycoplasma mycoides) [pid:92.7%25%2C q_cov:98.0%25%2C s_cov:99.3%25%2C Eval:6.9e-153],MGA_1325
sequence1	MetaGeneAnnotator	CDS	913772	914482	.	+	0	ID=MGA_1326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYDYIINSELKDEFKNKKVILLYCTCDDFDKDALKKSMNQNYNNYEVVILDDSKKPEYIKRVDEFSKKYNIKVVRRNDRVGYKAGNLNNYLKNNPDYDYFVVLDSDEIIPNNFITDSLKYFQTNKKIGAIQAYHLISKGKNLFQEAVGNSSNIASLSIHVLRNFYGETSLAGHGMMLSKEVYEKTGGFPHLLVEDTSMSAEIKKNNYEIVYAPNIVCYEEFPINYIALKKRQGR;locus_tag=LOCUS_13260;note=WP_010964794.1 glycosyltransferase (Clostridium) [pid:28.1%25%2C q_cov:69.9%25%2C s_cov:21.6%25%2C Eval:9.1e-11%2C partial hit],MGA_1326
sequence1	MetaGeneAnnotator	CDS	914708	914974	.	+	0	ID=MGA_1327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLFVNVLELSKQRKLGWATPSFISTIITYTSMTIFLVASSFFALFNKRLKFVVTPKESKKMKFAYVMAHSIVPIIFGISVAVLTYFS;locus_tag=LOCUS_13270;note=MGA_1327
sequence1	MetaGeneAnnotator	CDS	915230	917071	.	+	0	ID=MGA_1328;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166316.1;translation=MKITAILSSLFLSPTLLNGSSILTVNNQTKIETKEFNLDNLTIKGKWTTKKIKALLHNDVFYTSIDEFLKSIDSVINYSNLNISFKDNKTTVRLKSDPNFYIEFDANKKKITVSNNKIFTKILKDYKRGEEDLKIKFLEEKNLNNDNQFEIDLSKYDIDILKDQNNLYLPAILLNQVFLSESNIQTYFNGGDFKIFKFYEALSFPGTFYLKQSDKNNEKTVPLGLRKFQYEYLSFLFDNYYAIKLNNNISYKEHFKKYQSKILSESSNEHYLATKQIINELDDPHSAYVLDGYYDKDRDFHKKIFDNQKRVKNKNEVLELLAKNDPNKIDYELKSISNDTSVISFSKFDEKSAEYIQKSLKEAQSKSVKNIIFNLTQNGGGYIGTAYEIMGFLTDKPFNVYSYNPLSKEKKVETIKSEYEKFNFNYYILTSPYSFSAGNIFPQIAKDNKLAKLIGYKTFGGASAINYYVLPTGDIIQLSSNNVFTNKNFESLEFGVSPDVELKEDVFKNPSAIYQKETLLDLIKKADNIKEVKKEIKTEKLTKILDISKRLKEDKTKLKIKKSKVVQPSKPEQPNKILDQNNSTTQPKLRKITNNLVDLTPIYKPEKPISTRP;locus_tag=LOCUS_13280;note=WP_011166316.1 S41 family peptidase (Mycoplasma mycoides) [pid:75.1%25%2C q_cov:94.9%25%2C s_cov:82.3%25%2C Eval:8.2e-254],internal stop codon at [917069:917071](+),MGA_1328
sequence1	MetaGeneAnnotator	CDS	917102	917416	.	+	0	ID=MGA_1329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSTTKPINKTESEEVENKLLEKKANIELLNIKNLDLGKLDKIDKDQILNALKNKNPDTLIDTKDLKVENITNNSAQILLKDSDQKITVHFLISQSNKTNKNTI;locus_tag=LOCUS_13290;note=WP_011166316.1 S41 family peptidase (Mycoplasma mycoides) [pid:53.1%25%2C q_cov:92.3%25%2C s_cov:13.2%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [917069:917071](+)%2C[917414:917416](+),MGA_1329
sequence1	Aragorn:1.2.38	tRNA	917573	917648	.	+	.	ID=Aragorn_30;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	917723	918277	.	+	0	ID=MGA_1330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNQIIALFCDFKYITTKLLNKFNKNQLIIFGYSLNKDDFDYICSDFQLEIFKKQNYKFIDLKNENIDQLVKKYQISKIHITKSFKNYDHFLNFFPNTITEDDLLDINNIKKALINADINSFYKIAGFNYTFSGIVTHCNHLGRTIGFPTANILTNDSLVIKNGVYLVKVIIDDKNIQFGMGDH;locus_tag=LOCUS_13300;note=WP_011166315.1 riboflavin kinase (Mycoplasma mycoides) [pid:88.0%25%2C q_cov:100.0%25%2C s_cov:73.6%25%2C Eval:2.3e-92%2C partial hit],internal stop codon at [918275:918277](+),MGA_1330
sequence1	MetaGeneAnnotator	CDS	918468	918737	.	+	0	ID=MGA_1331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVLLGCHVSMNKQNNYLVGSVNEAISYKANTFMIFTGPPQSTLRTNTNHLYINQMHELMNSYKIDAKDLVVHAPYIINIANSVDQNK;locus_tag=LOCUS_13310;note=WP_011166314.1 deoxyribonuclease IV (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:30.8%25%2C Eval:5.8e-46%2C partial hit],internal stop codon at [918735:918737](+),MGA_1331
sequence1	MetaGeneAnnotator	CDS	918921	919061	.	+	0	ID=MGA_1332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGKGTEVCSKLEDFKYILDNVKNKDKVGVCLDTCHLHDAGYDLSK;locus_tag=LOCUS_13320;note=WP_011166314.1 deoxyribonuclease IV (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:2.2e-21%2C partial hit],internal stop codon at [918735:918737](+)%2C[919059:919061](+),MGA_1332
sequence1	MetaGeneAnnotator	CDS	919080	919337	.	+	0	ID=MGA_1333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNFDLNKVLCIHLNDSKNMISSHKDRHANIGYGYVGFDTLVNVVFDKDFSNISKILETPYIDKNAPYKIEIEDLLNKTFTNRL;locus_tag=LOCUS_13330;note=WP_011166314.1 deoxyribonuclease IV (Mycoplasma mycoides) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:5.1e-42%2C partial hit],internal stop codon at [919059:919061](+),MGA_1333
sequence1	MetaGeneAnnotator	CDS	919363	919722	.	+	0	ID=MGA_1334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSIITGFSLLITPSLFAISCSSKVQVINKFDDITSIKNTGAFKNNQAFISRNELKEIVSSNNTTSSSTASSTAVMTSTSTTSTGTQTNNNNDAKYASERLKALAANNFTKNKKQA;locus_tag=LOCUS_13340;note=WP_020862504.1 lipoprotein (Mycoplasma mycoides) [pid:77.3%25%2C q_cov:100.0%25%2C s_cov:31.9%25%2C Eval:8.0e-43%2C partial hit],internal stop codon at [919720:919722](+),MGA_1334
sequence1	MetaGeneAnnotator	CDS	919744	920487	.	+	0	ID=MGA_1335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFYKKVQPTAVNVLGYEQITKDNVEKLDKELKTVFLVFKDNNKETEKLEVELLPEINTNNGNKVIDNGNLYLDLLEKPENLKLANQKSIIEVLRPEITKIKVVLQNTKNNNSTNKEDIKNTEVFNVLIKQLSIYLANAVKYFNSESGIITTSPTFSYKTRSNQIYDYIVKNKKDELYKKLETAFTSEFNKINFIDIFKDFQFDENNSTDNKKITTKIIKSSTNSSTSSSNSSTTTTTTEPSSTNTR;locus_tag=LOCUS_13350;note=WP_020862504.1 lipoprotein (Mycoplasma mycoides) [pid:95.1%25%2C q_cov:83.0%25%2C s_cov:54.9%25%2C Eval:6.3e-106%2C partial hit],internal stop codon at [919720:919722](+),MGA_1335
sequence1	MetaGeneAnnotator	CDS	920499	920717	.	+	0	ID=MGA_1336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METKISFSKKRKLLIQTFYKYQLLNASIDYIHQDILDDVQNINNKDVLFEIEQIAKKQTDLINHININVSSS;locus_tag=LOCUS_13360;note=WP_011166311.1 transcription antitermination factor NusB (Mycoplasma mycoides) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:54.5%25%2C Eval:4.1e-31%2C partial hit],internal stop codon at [920715:920717](+)%2C[920721:920723](+),MGA_1336
sequence1	MetaGeneAnnotator	CDS	920899	921078	.	+	0	ID=MGA_1337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKILTVQELNEALKTLIENKQEFKDIYVQGELSNLTFNKSGHIYFSIKEQDAAINCMM;locus_tag=LOCUS_13370;note=WP_011166310.1 exodeoxyribonuclease VII large subunit (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:12.6%25%2C Eval:3.6e-27%2C partial hit],internal stop codon at [921076:921078](+)%2C[921268:921270](+),MGA_1337
sequence1	MetaGeneAnnotator	CDS	921124	921270	.	+	0	ID=MGA_1338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIICYGRLTYYIPTGRVSFEVRDIKIYGIGDLQKIFEQRYKELEQKG;locus_tag=LOCUS_13380;note=WP_011166310.1 exodeoxyribonuclease VII large subunit (Mycoplasma mycoides) [pid:95.8%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:8.6e-21%2C partial hit],internal stop codon at [921076:921078](+)%2C[921268:921270](+)%2C[921535:921537](+),MGA_1338
sequence1	MetaGeneAnnotator	CDS	922298	922513	.	+	0	ID=MGA_1339;product=exodeoxyribonuclease VII small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166309.1;translation=MSNKNKSYDELISEIKEDTKKLSSNEISVEQAMEIFEQNIEKIKLAKEKLTQYKGQIYKVMQDDELEEFKD;locus_tag=LOCUS_13390;gene=xseB;EC_number=3.1.11.6;note=WP_011166309.1 exodeoxyribonuclease VII small subunit (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-33],MGA_1339
sequence1	MetaGeneAnnotator	CDS	922513	922734	.	+	0	ID=MGA_1340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRLDEYIYKNNLTQSRNKAKEHILNKEVYVNNIAIIKPSFLVDSNDLIEIRSTKLEYVSRAYEKLKKAINK;locus_tag=LOCUS_13400;note=WP_011166308.1 SAM-dependent methyltransferase (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:49.0%25%2C Eval:2.3e-34%2C partial hit],internal stop codon at [922732:922734](+),MGA_1340
sequence1	MetaGeneAnnotator	CDS	922894	923262	.	+	0	ID=MGA_1341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQYNFRNAKKQDFLKNIDFVCCDVSFISLEKIFLPLKDIVEFNTSGVFLIKPQFELQPKNIKNGRINSKLDHKQAILKVISYANNNSFDVINLDYSPILGNKKQNIEYLAYVIKKENNYKI;locus_tag=LOCUS_13410;note=WP_011183226.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Mesoplasma florum) [pid:56.9%25%2C q_cov:99.2%25%2C s_cov:46.1%25%2C Eval:4.3e-33%2C partial hit],internal stop codon at [922732:922734](+)%2C[923260:923262](+),MGA_1341
sequence1	MetaGeneAnnotator	CDS	923620	923889	.	-	0	ID=MGA_1342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYKMIIGIYGKIGSGKTYISNKFINFHPEFKIINADNVSKKVLENQEIKSKLFQIDNNIIKNNNVDKKYLRKKLFTNKKLKQQVDSLL;locus_tag=LOCUS_13420;note=WP_013447415.1 dephospho-CoA kinase (Mycoplasma leachii) [pid:83.5%25%2C q_cov:95.5%25%2C s_cov:45.9%25%2C Eval:1.7e-34%2C partial hit],internal stop codon at [923620:923622](-),MGA_1342
sequence1	MetaGeneAnnotator	CDS	923879	924184	.	-	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166305.1;translation=MLFYIDSGVVMSYYYRHNFSFSYHGLQRAKERLKLKDKKDYEVKEICLEHIRNSTKSFMSGNEIYISASNTNIFFVVNKTNNLIITVTEISAEKQLRMHGI;locus_tag=LOCUS_13430;note=WP_011166305.1 hypothetical protein (Mycoplasma mycoides group) [pid:97.8%25%2C q_cov:90.1%25%2C s_cov:100.0%25%2C Eval:2.6e-46],MGA_1343
sequence1	MetaGeneAnnotator	CDS	924418	925338	.	+	0	ID=MGA_1344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKRDFYLNMLIEKMNNKKVKIITGIRRAGKSYILFKLFYNYLLSKQVPKDQIITIALDNIDFLEYRQPLKLNEYIKSRIMDQNKQYYVLIDEIQYCEIIKNPYFQNSSYDVSFVDVLLSLVKKDNVDVYVTGSNSKMLSTDVFTQFRGRGDEIYVSPLSFFEIQNLFENKRQALDHYMLYGGLPEVYNLQLDKNKTEYLKDLFEKIYIKDILDRHNIYKDKLVLETLLNFISSSIGSLTNPNKLSKRFLSNMEIKISSSTISNYLDYFEESFIISKAQRYDVKGAKYFTTPLKYYFTDIGLRNA;locus_tag=LOCUS_13440;note=WP_008363502.1 ATP-binding protein (Mycoplasma feriruminatoris) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:71.0%25%2C Eval:1.7e-117%2C partial hit],internal stop codon at [925336:925338](+),MGA_1344
sequence1	MetaGeneAnnotator	CDS	925372	925719	.	+	0	ID=MGA_1345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIIYNDLIRRGYSVDVGVVEIRQKDGEALKRTQLEIDFIVNISHQRYYIQSALNVDTLEKRQQETRSLINVNDSFKKIVIVKEDIIPRHDDNGILYVGLEKFLLDDSFLDSLV;locus_tag=LOCUS_13450;note=WP_011015782.1 ATP-binding protein (Fusobacterium nucleatum) [pid:63.7%25%2C q_cov:88.7%25%2C s_cov:23.7%25%2C Eval:3.7e-32%2C partial hit],internal stop codon at [925336:925338](+),MGA_1345
sequence1	MetaGeneAnnotator	CDS	927003	928244	.	-	0	ID=MGA_1346;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020863027.1;translation=MSKYYIEKQPFKKALYRSIRKGTNEMLNAYKNRKTVVEIRNLDIVYGFGAKEFTAIKDLNLNIYDGEVLGLVGESGSGKSTIGRSIIGLTPHSFGQIKILDRIIPKNLEKTNKFSKKHKDIINFMVNKVQMIFQDPTNSLNPFKDVKTVVGEGLSNTKNAKLIYITDFDEKVYNNTTSQIKDSDKLTNKIFDYVDQMTKLTYTLDNSYKVVYEDLLNILNNLKANDKEFYTPIYNRLVESQLQRQTLIKLSEKECKHRLIVEILKQVGLDESVLSRYPLEFSGGQQQRLGICRSVVLRPKLLIADEPISALDVSIQAQVINIFNELKKKYNLTILFIAHDLRMVEYISDRIAVINKGVLLEIGPTDEIINNAYHPYTKSLLDAVPSIENEKGSLIGSIYDHNIHKYDENNQPE;locus_tag=LOCUS_13460;note=WP_020863027.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:93.9%25%2C Eval:2.2e-233],MGA_1346
sequence1	MetaGeneAnnotator	CDS	928408	928641	.	-	0	ID=MGA_1347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDYNKGEKLQVIRGSVPANLNKIQGDAFAVRNDYALDIDFYEEPPVYQISPTHFVKSNLLGSQAPNYTPSKTILNL;locus_tag=LOCUS_13470;note=WP_011167116.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:4.5e-38%2C partial hit],internal stop codon at [928408:928410](-)%2C[928657:928659](-),MGA_1347
sequence1	MetaGeneAnnotator	CDS	928657	929145	.	-	0	ID=MGA_1348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISAVFQNPMSILDPTMKIGNQIIEGMLVSKIVQTKKQAYEQALNYLKLTKINNPEQIMKKYPHELSGGMIQRVAIACIISLKPKILVMDEPTTALDPTVQALVLDVIRELQEQFKIAIAFITHDLGVVASIADFINIMYAGQIVESGTKEEILLNPQHPYT;locus_tag=LOCUS_13480;note=WP_011167116.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:33.7%25%2C Eval:6.5e-84%2C partial hit],internal stop codon at [928408:928410](-)%2C[928657:928659](-)%2C[929170:929172](-),MGA_1348
sequence1	MetaGeneAnnotator	CDS	929536	929682	.	-	0	ID=MGA_1349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDQIKNKQGYSKKFKTPLVYNNMPIPLDLFEIKDKNNKSIIQVFIDY;locus_tag=LOCUS_13490;note=WP_011167116.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:10.0%25%2C Eval:1.5e-20%2C partial hit],internal stop codon at [929536:929538](-),MGA_1349
sequence1	MetaGeneAnnotator	CDS	929690	929914	.	-	0	ID=MGA_1350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHIPGIILSETSLAFIGLSIPNVATLGNLISDGSKNFTVFPRYVLIPSFMLILVTTSIQLMANSVQDTLLRQR;locus_tag=LOCUS_13500;note=WP_011167115.1 ABC transporter permease (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:22.0%25%2C Eval:4.0e-34%2C partial hit],internal stop codon at [930005:930007](-)%2C[930062:930064](-)%2C[930095:930097](-),MGA_1350
sequence1	MetaGeneAnnotator	CDS	930305	930526	.	-	0	ID=MGA_1351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNQKNAFIEFFYRFSRSFAGVFGFVILATLIVLSLIIPLTTKDPLIIDVENRNETFFTNGHILGTDALGRDL;locus_tag=LOCUS_13510;note=WP_011167115.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:21.7%25%2C Eval:9.4e-36%2C partial hit],internal stop codon at [930062:930064](-)%2C[930095:930097](-)%2C[930293:930295](-)%2C[930305:930307](-)%2C[930569:930571](-)%2C[930668:930670](-),MGA_1351
sequence1	MetaGeneAnnotator	CDS	930702	930944	.	-	0	ID=MGA_1352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPIATFFPVVIFGSFIGSLFIEQIFFITGSGGLLLNAITSKDFNIILFMVTLFSLLTILSYTCRDALYKVIDPRVRKKA;locus_tag=LOCUS_13520;note=WP_011167114.1 ABC transporter permease (Mycoplasma mycoides) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:1.5e-38%2C partial hit],internal stop codon at [930966:930968](-)%2C[931173:931175](-),MGA_1352
sequence1	MetaGeneAnnotator	CDS	930966	931172	.	-	0	ID=MGA_1353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLGRSAGIPYIFDQANLASYILPGFSLSLGSIIVYIKYIRTELNRELNSQHCKFIYLKGITKRRFV;locus_tag=LOCUS_13530;note=WP_011167114.1 ABC transporter permease (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:19.0%25%2C Eval:3.6e-32%2C partial hit],internal stop codon at [930966:930968](-)%2C[931173:931175](-)%2C[931347:931349](-),MGA_1353
sequence1	MetaGeneAnnotator	CDS	931173	931304	.	-	0	ID=MGA_1354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLLIGIPLGVYVGMNPDKLPDHIATVLVSIFSSIPSLVFAL;locus_tag=LOCUS_13540;note=WP_011167114.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:12.0%25%2C Eval:3.3e-17%2C partial hit],internal stop codon at [930966:930968](-)%2C[931173:931175](-)%2C[931347:931349](-),MGA_1354
sequence1	MetaGeneAnnotator	CDS	932135	932734	.	-	0	ID=MGA_1355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTKVDNKKAIPVQNYKHIDHLSKSYNFEHVDRTDKGFDLNIANKYLDLFKQKHPNVKSLTLKYISNSTDEQQNAGIALQDFMRKAFNGFINIEIKSLPENVYEYARTKGEFDLLYRNFDAFGSDAYSYVRVFFRTDGIDSKNAKTTGFRNNPSGSFTYEKYFSEIGYKLDESGKVIIDEKYKSEADKLRTRLRINEKL;locus_tag=LOCUS_13550;note=WP_011167113.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:20.2%25%2C Eval:2.1e-110%2C partial hit],internal stop codon at [931892:931894](-)%2C[931988:931990](-)%2C[932135:932137](-)%2C[932801:932803](-)%2C[932828:932830](-)%2C[933023:933025](-),MGA_1355
sequence1	MetaGeneAnnotator	CDS	932828	932998	.	-	0	ID=MGA_1356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSAGFGTIALAFNLDQERYETLDKNSDSRYIYDSDLRNAIYYAINRDEMLNIVG;locus_tag=LOCUS_13560;note=WP_011167113.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:5.7%25%2C Eval:7.3e-25%2C partial hit],internal stop codon at [932801:932803](-)%2C[932828:932830](-)%2C[933023:933025](-),MGA_1356
sequence1	MetaGeneAnnotator	CDS	933023	933325	.	-	0	ID=MGA_1357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSTLFPINRKFVELNGGINDFGLTKERFLTTGAFNLDDAVLGPQGYLLLSKNPNYYSAPKTISNKIKIFFSSNPNINAALYDDKYIAATRIPAISQLPY;locus_tag=LOCUS_13570;note=WP_011167113.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:1.8e-52%2C partial hit],internal stop codon at [932801:932803](-)%2C[932828:932830](-)%2C[933023:933025](-)%2C[933413:933415](-),MGA_1357
sequence1	MetaGeneAnnotator	CDS	933413	933709	.	-	0	ID=MGA_1358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPNLEYLNPNLSSEQRKNTLQRKAVKIKKYLFSDPRQKFSKEFEKLLQQSRELKSHINTTYSENNLENYNKEVNKAYKNSDTLSNEFIDSFDAKKYR;locus_tag=LOCUS_13580;note=WP_011167113.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:1.9e-49%2C partial hit],internal stop codon at [933413:933415](-)%2C[933788:933790](-),MGA_1358
sequence1	MetaGeneAnnotator	CDS	934211	934732	.	-	0	ID=MGA_1359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKITKFSIIFGGISAAILATSIPLIVANTRSKKEVRNYDLGLVAEPINSLNYIKFASVSKVLPSLVEAPLKSGPSENLKRILSIPEIPMGAYTNDIKLTDSDIEKGITSIDKYYTTKEPSANLTSRFYALDGFGNTTGTLSADKSTYHPASILLSNNKVQSVNILLNNGQSR;locus_tag=LOCUS_13590;note=WP_011167113.1 ABC transporter substrate-binding protein (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:17.6%25%2C Eval:1.6e-89%2C partial hit],internal stop codon at [934211:934213](-),MGA_1359
sequence1	MetaGeneAnnotator	CDS	934742	934999	.	-	0	ID=MGA_1360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYQNALLTPGQKYSVYFSSDKKGTKDIIKTDLGDFQSIAENGKTFSQAPIRMEKSKNPVKVDANGFKHYENTLYVYDQFNGVK;locus_tag=LOCUS_13600;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:94.1%25%2C q_cov:100.0%25%2C s_cov:4.3%25%2C Eval:4.4e-41%2C partial hit],internal stop codon at [935018:935020](-),MGA_1360
sequence1	MetaGeneAnnotator	CDS	935018	935290	.	-	0	ID=MGA_1361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGYLSSDVANKANYLAFKNQETGEVKTVKINKQFSSNMFYYKTQNIENEAKYEAATTQEQKDKIRHTLAHEKYDYKDTNGHHKGTGFVS;locus_tag=LOCUS_13610;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:4.6%25%2C Eval:1.4e-44%2C partial hit],internal stop codon at [935018:935020](-)%2C[935318:935320](-)%2C[935372:935374](-)%2C[935492:935494](-)%2C[935507:935509](-),MGA_1361
sequence1	MetaGeneAnnotator	CDS	935729	936151	.	-	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNAYDKFAKELKVEIKQLNLVDALVFDNKIQLYTDQTKIHIANKKFDLLSIFSSLATAQFHTSPSQDVLEYFHNKTERKFNELFSDYTYSFAEVINRDNLQITYSPSNHDFGNMPSFLSNISEATTGLEYVVDGTTTAK;locus_tag=LOCUS_13620;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:7.1%25%2C Eval:3.7e-75%2C partial hit],internal stop codon at [935492:935494](-)%2C[935507:935509](-)%2C[935729:935731](-)%2C[936170:936172](-)%2C[936248:936250](-)%2C[936347:936349](-),MGA_1362
sequence1	MetaGeneAnnotator	CDS	936581	936772	.	-	0	ID=MGA_1363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKSEQVVSLDNSKDNTILDVVKLKLNYGDALKTLDHNIINGLFGSFNNFEKNRLEFSDIQK;locus_tag=LOCUS_13630;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:85.7%25%2C q_cov:100.0%25%2C s_cov:3.2%25%2C Eval:7.5e-25%2C partial hit],internal stop codon at [936347:936349](-)%2C[936515:936517](-)%2C[936581:936583](-)%2C[936776:936778](-)%2C[936833:936835](-)%2C[936959:936961](-),MGA_1363
sequence1	MetaGeneAnnotator	CDS	936959	937255	.	-	0	ID=MGA_1364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKIYGNYVSNRDVDKGSYKDTNKDGNKIKYYNLDGTENKISHKYKDQQSSLIYANPKNSKPVNGNGQINFASLLATMFTAGSSQDNPTNGGSAQVL;locus_tag=LOCUS_13640;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:5.0%25%2C Eval:6.2e-48%2C partial hit],internal stop codon at [936776:936778](-)%2C[936833:936835](-)%2C[936959:936961](-)%2C[937358:937360](-),MGA_1364
sequence1	MetaGeneAnnotator	CDS	937358	937723	.	-	0	ID=MGA_1365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKDENGELKFRPASLKMLNGILKDGKGNPVQFQINNNGNNETVEPIVVKGEKDSEGNYTKITEVLIYNRDGSPIINVPLGVDLKNESVNAAQTIEFVNEKIKTVEKTIKSLVVDKYTING;locus_tag=LOCUS_13650;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:95.0%25%2C q_cov:100.0%25%2C s_cov:6.1%25%2C Eval:1.4e-60%2C partial hit],internal stop codon at [937358:937360](-)%2C[937808:937810](-)%2C[937829:937831](-)%2C[937973:937975](-),MGA_1365
sequence1	MetaGeneAnnotator	CDS	937973	938350	.	-	0	ID=MGA_1366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDKNFKGISTDFLKFVGAHEYGHHITLNGAHDLGNKGSDPIFISALTPGATPNINNYYSREAVDLFLKARTHIELETKRLLDQFGAIKDYGEYATFNFAKKDKNGSISFDTKSNKKGLEDDSDI;locus_tag=LOCUS_13660;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:6.3%25%2C Eval:6.3e-69%2C partial hit],internal stop codon at [937808:937810](-)%2C[937829:937831](-)%2C[937973:937975](-)%2C[938363:938365](-)%2C[938474:938476](-),MGA_1366
sequence1	MetaGeneAnnotator	CDS	938474	938620	.	-	0	ID=MGA_1367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSPSVLKEESDLRNPITGEIEKTFDVYTDAYEDLIDELLEKVPYAAQ;locus_tag=LOCUS_13670;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:95.8%25%2C q_cov:100.0%25%2C s_cov:2.4%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [938363:938365](-)%2C[938474:938476](-),MGA_1367
sequence1	MetaGeneAnnotator	CDS	939068	939454	.	-	0	ID=MGA_1368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFSKAVEEFKSKLKNIETQIKDLKKSKIDKNAQFEELEKEVKSISDKSSKLNNNNDLKNGLEQSKILKEVSKSLFDLETQILQTLNQSTKNRQFKEQNYYNVDFAYTLPELISIESLVENRNKLKLN;locus_tag=LOCUS_13680;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:85.2%25%2C q_cov:100.0%25%2C s_cov:6.3%25%2C Eval:2.9e-53%2C partial hit],internal stop codon at [939068:939070](-),MGA_1368
sequence1	MetaGeneAnnotator	CDS	939845	940174	.	-	0	ID=MGA_1369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGNSITLGAHSNKNKEETTIKFYPDAFFGTLPIYSSLSGRGNAHESLTYKLNQQVLTKKDLESFLTNISNYNSLANLSQQTIDKSYFRGITNVSFLKGQKVFAYKQKD;locus_tag=LOCUS_13690;note=WP_011167112.1 PDxFFG protein (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:5.5%25%2C Eval:5.5e-57%2C partial hit],internal stop codon at [939845:939847](-)%2C[940226:940228](-),MGA_1369
sequence1	MetaGeneAnnotator	CDS	941163	941393	.	-	0	ID=MGA_1370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVPNLEEIEQAHEQEQQEENLKNEAVNKKELFTANFKVGDVVRVKSGIHENEEGTVKDMDFSKGVAFVAIEMFGR;locus_tag=LOCUS_13700;note=WP_011167111.1 transcription termination/antitermination protein NusG (Mycoplasma mycoides) [pid:89.5%25%2C q_cov:100.0%25%2C s_cov:35.7%25%2C Eval:1.4e-31%2C partial hit],internal stop codon at [941163:941165](-)%2C[941490:941492](-),MGA_1370
sequence1	MetaGeneAnnotator	CDS	941506	941679	.	+	0	ID=MGA_1371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILIKIYPGNLFLIEDFPDLLTKLAFEILIEKTSSSILADLIFCCRSPKTFSSCPV;locus_tag=LOCUS_13710;note=MGA_1371
sequence1	MetaGeneAnnotator	CDS	941947	942093	.	-	0	ID=MGA_1372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEINIDQVEQIEQVEHIKPKNTQKISKTTKKKLKVKKEKEPKNFRK;locus_tag=LOCUS_13720;note=MGA_1372
sequence1	MetaGeneAnnotator	CDS	942093	942254	.	-	0	ID=MGA_1373;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182986.1;translation=MKSSTNKKATLVCVECLSRNYSVNKSGLTQKQRLEIKKFCTTCNAHTLHKETR;locus_tag=LOCUS_13730;gene=rpmG;note=WP_011182986.1 50S ribosomal protein L33 (Mesoplasma) [pid:71.2%25%2C q_cov:98.1%25%2C s_cov:96.3%25%2C Eval:1.3e-16],MGA_1373
sequence1	MetaGeneAnnotator	CDS	942345	942512	.	-	0	ID=MGA_1374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIDFANKTAVIIGNEQKGVSELLTKNSDFNIYVPSNKNIDSFNASVPCSIICF;locus_tag=LOCUS_13740;note=WP_011167109.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:1.6e-24%2C partial hit],internal stop codon at [942345:942347](-)%2C[942549:942551](-),MGA_1374
sequence1	MetaGeneAnnotator	CDS	942549	942707	.	-	0	ID=MGA_1375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNVDGIIILDKKQVQVNSTVLKTSSGSAFDIKICKTNNLNNAIKILKNNDF;locus_tag=LOCUS_13750;note=WP_011167109.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Mycoplasma mycoides) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:21.3%25%2C Eval:5.5e-20%2C partial hit],internal stop codon at [942345:942347](-)%2C[942549:942551](-)%2C[942969:942971](-),MGA_1375
sequence1	MetaGeneAnnotator	CDS	943129	943590	.	-	0	ID=MGA_1376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSLGNVILVRDFIKQHNKNTLRWIFLTTNYTQPLNISDDLIYQANKFFEKLTNLSKKTIQFIIKNDLKIQSINSSEYIKKFNEYMEDDLNTSLVLSLIDLLIKQINKDIVDKNLDNFSLLIGSLNYILDVLGFDNVFNYKFDNKTKELFLK;locus_tag=LOCUS_13760;note=WP_011167108.1 cysteine--tRNA ligase (Mycoplasma mycoides) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:34.7%25%2C Eval:3.2e-79%2C partial hit],internal stop codon at [943129:943131](-)%2C[943627:943629](-)%2C[943777:943779](-)%2C[943810:943812](-)%2C[943837:943839](-),MGA_1376
sequence1	MetaGeneAnnotator	CDS	943627	943764	.	-	0	ID=MGA_1377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLIDEYFNHQTIDIHVGGIDLKFPHHENERIQFIAKNNKELAHI;locus_tag=LOCUS_13770;note=WP_011167108.1 cysteine--tRNA ligase (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [943627:943629](-)%2C[943777:943779](-)%2C[943810:943812](-)%2C[943837:943839](-),MGA_1377
sequence1	MetaGeneAnnotator	CDS	943837	944376	.	-	0	ID=MGA_1378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLYDSLSKTKKTLNKKTINLYCCGPTVYNYIHIGNARPVLLVDVLTRYLKSRNIKVNYLQNITDIDDKIILKALDNNLNELEVSQKYTTAYLEDLKSLNINQPDKIILISQKMNEMIDFIKNLVDINAAYVLDGDVYFNIKKYENEYCKLSGYKLDELISGKRVEIDSKKHYSLDFSL;locus_tag=LOCUS_13780;note=WP_011167108.1 cysteine--tRNA ligase (Mycoplasma mycoides) [pid:90.5%25%2C q_cov:100.0%25%2C s_cov:40.6%25%2C Eval:2.2e-89%2C partial hit],internal stop codon at [943627:943629](-)%2C[943777:943779](-)%2C[943810:943812](-)%2C[943837:943839](-),MGA_1378
sequence1	MetaGeneAnnotator	CDS	944385	944537	.	-	0	ID=MGA_1379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGLRNSSGSENPFITMVVVRIIQIPIKIFFNTAILTTVYIVLRPLIKVK;locus_tag=LOCUS_13790;note=WP_011167107.1 ECF transporter S component (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:5.6e-20%2C partial hit],internal stop codon at [944550:944552](-)%2C[944625:944627](-)%2C[944787:944789](-),MGA_1379
sequence1	MetaGeneAnnotator	CDS	944625	944783	.	-	0	ID=MGA_1380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGMKQINPETSLFGIKIPADIYPFLFLIMISITLIFIYGLVLVLHIKKRDK;locus_tag=LOCUS_13800;note=WP_011167107.1 ECF transporter S component (Mycoplasma mycoides) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:2.0e-22%2C partial hit],internal stop codon at [944550:944552](-)%2C[944625:944627](-)%2C[944787:944789](-)%2C[944844:944846](-)%2C[944886:944888](-),MGA_1380
sequence1	MetaGeneAnnotator	CDS	944886	945311	.	-	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKFRHLLLDGHNLAITSLCITLSAILIYSIFRLARARFKNYGSGFHISNKVKFSTRKITYLAMMVGVSVATTTVISLTLPITVLPPIRVAFEGVMIKITGMIFGPFVGLVVGLVTELLTLMFVPSYIHVAYLVVAFSFGF;locus_tag=LOCUS_13810;note=WP_011167107.1 ECF transporter S component (Mycoplasma mycoides) [pid:94.3%25%2C q_cov:100.0%25%2C s_cov:45.8%25%2C Eval:2.0e-68%2C partial hit],internal stop codon at [944625:944627](-)%2C[944787:944789](-)%2C[944844:944846](-)%2C[944886:944888](-),MGA_1381
sequence1	MetaGeneAnnotator	CDS	945586	945756	.	-	0	ID=MGA_1382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKDPETLELQIIHSIENKDFTFYVQFGGLRKIYTPIVESYTPKDSKENMKYSFVG;locus_tag=LOCUS_13820;note=WP_011167106.1 hypothetical protein (Mycoplasma mycoides) [pid:82.5%25%2C q_cov:100.0%25%2C s_cov:13.2%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [945586:945588](-)%2C[945787:945789](-),MGA_1382
sequence1	MetaGeneAnnotator	CDS	945787	945948	.	-	0	ID=MGA_1383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVIGENKDPDIKTLKPTIKYSTEKLTKKDDSYINLSNNGNNNNQFVYNINQK;locus_tag=LOCUS_13830;note=WP_011167106.1 hypothetical protein (Mycoplasma mycoides) [pid:97.1%25%2C q_cov:64.2%25%2C s_cov:7.9%25%2C Eval:1.9e-12%2C partial hit],internal stop codon at [945586:945588](-)%2C[945787:945789](-)%2C[946216:946218](-),MGA_1383
sequence1	MetaGeneAnnotator	CDS	946627	946767	.	-	0	ID=MGA_1384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGILMFGSVTIFPTLTTISCSTTITHTIKTSFNDGTQVDKFV;locus_tag=LOCUS_13840;note=WP_011167106.1 hypothetical protein (Mycoplasma mycoides) [pid:71.1%25%2C q_cov:97.8%25%2C s_cov:10.4%25%2C Eval:2.7e-11%2C partial hit],internal stop codon at [946627:946629](-),MGA_1384
sequence1	MetaGeneAnnotator	CDS	946837	947238	.	-	0	ID=MGA_1385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRDHNIKLCVIDYLQLIVGSQNKDRQNEVSEISRQLKQIARETSIPIICLSQLSRRAETREDKRPMLSDLRDSGAIEQDADIVAFLYRDDYYKKDLTDLDKEKTELILAKHRNGATGTVLLRFIKDFGVFRD;locus_tag=LOCUS_13850;note=WP_011167105.1 replicative DNA helicase (Mycoplasma mycoides) [pid:94.0%25%2C q_cov:100.0%25%2C s_cov:30.4%25%2C Eval:2.8e-64%2C partial hit],internal stop codon at [947341:947343](-),MGA_1385
sequence1	MetaGeneAnnotator	CDS	947341	947475	.	-	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKYPVAFFSLEMPAEQLTQRLFTRLTSVDSTNLRTGKGLSKQN;locus_tag=LOCUS_13860;note=WP_011167105.1 replicative DNA helicase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.0%25%2C Eval:3.9e-18%2C partial hit],internal stop codon at [947341:947343](-)%2C[947560:947562](-),MGA_1386
sequence1	MetaGeneAnnotator	CDS	947560	948150	.	-	0	ID=MGA_1387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQELTVAELLYAERFVLGVAMSFSNALADIVSVLKVDDFSIPANKYIYQAIIDLNNKNKSISPISVINRLEAINKLEQVGGDVVVYEIAAENYTDQGLEEYIDIIHKAGVIRKLDIVIKELELKRNNSNTDVDELLKVAQTKLLDIDLSIKRFEIEPIGEVAKRVVEKIKELEMKAEIISGVPTGYNYLDLVTSG;locus_tag=LOCUS_13870;note=WP_011167105.1 replicative DNA helicase (Mycoplasma mycoides) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:44.7%25%2C Eval:2.8e-102%2C partial hit],internal stop codon at [947341:947343](-)%2C[947560:947562](-),MGA_1387
sequence1	MetaGeneAnnotator	CDS	948153	948596	.	-	0	ID=MGA_1388;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015545494.1;translation=MKVIFLKDVPNQGKKNEIKEVSDGYARNYLLPNQLVKIATNNSIQTLKDHLKADQEEKELAKAQTKQIKKTLEELTLHFKLQTNDDKVFGSISSQDIVNQLKDVHRIEIDKKKFIHFKNINKIGINYVKVKLDFGIEALIKVDVKEV;locus_tag=LOCUS_13880;gene=rplI;note=WP_015545494.1 50S ribosomal protein L9 (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:96.1%25%2C Eval:6.4e-76],MGA_1388
sequence1	MetaGeneAnnotator	CDS	948858	949277	.	-	0	ID=MGA_1389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIIGLGNIGKEYEKTRHNAGFIAIDLLLEKYNYSSVKQEFNSLIYTTMINNQKVLLVKPLTFMNNSGIAVRQIINFYKIDLNDLIIIHDDKDLNISRIQFKKDGSSAGHNGIKSIINNLQTQNFYRLRIGVNQVPKE;locus_tag=LOCUS_13890;note=WP_011167103.1 aminoacyl-tRNA hydrolase (Mycoplasma mycoides) [pid:95.0%25%2C q_cov:100.0%25%2C s_cov:74.7%25%2C Eval:3.5e-70%2C partial hit],internal stop codon at [948843:948845](-)%2C[948858:948860](-),MGA_1389
sequence1	MetaGeneAnnotator	CDS	949695	950729	.	-	0	ID=MGA_1390;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020863017.1;translation=MDNKDIYVFGLSASQQLAKEVCHFLGVEQKVVKTTRFADGEILVESIDSVRGKEIYVIQSTSMPVNENLMELLIAIDAFKRGSAEKINVVIPYYGYARQDRKAKGRQPITAKLVADLLTKAGADRVIVFDIHSTQTMGFFDIPMDNFHTSQSLANEIVDTIIREKFDPEKCILVSPDYGGLNRVHKVDSYTANMTNGIAVIGKRRPEPNKAEVEFVLGDIEGRTCFIIDDMIDTGGTIISGAKALKANGAKDVYIFACHGLFNGPAKERMTQAIKEGIVKNVVVTNTVEIPQERQFEGLKIVSVAPLLANMIKESQEHHSLTEVYNKNKDEIQLKIQDFMNHKN;locus_tag=LOCUS_13900;EC_number=2.7.6.1;note=WP_020863017.1 ribose-phosphate diphosphokinase (Mycoplasma mycoides) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-192],MGA_1390
sequence1	MetaGeneAnnotator	CDS	950995	951171	.	-	0	ID=MGA_1391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLPLHQISYLLAIGLIIVSIILFILAISSVILIIYLYKKKKRQNNQLVLKNSKKHSF;locus_tag=LOCUS_13910;note=WP_011167097.1 hypothetical protein (Mycoplasma mycoides) [pid:86.7%25%2C q_cov:51.7%25%2C s_cov:44.8%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [950995:950997](-),MGA_1391
sequence1	MetaGeneAnnotator	CDS	951173	951574	.	-	0	ID=MGA_1392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIRDQKDQFQAYDDVIEIIKDLNQITKVVHCFSANAIYAQKFLDLDCYINIGGAVTFKNAKDLQEAVKIIPLEKMLLETDAPYLAPHPYRGQVNHPKYIYLTALKIAELKNVDVKEVIRITTLNSKKIFNLN;locus_tag=LOCUS_13920;note=WP_011167096.1 TatD family hydrolase (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:50.2%25%2C Eval:2.0e-70%2C partial hit],internal stop codon at [951854:951856](-),MGA_1392
sequence1	Aragorn:1.2.38	tRNA	952107	952181	.	-	.	ID=Aragorn_31;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00300;note=Aragorn_31
sequence1	MetaGeneAnnotator	CDS	952345	952635	.	-	0	ID=MGA_1393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASALVIASLIITILTLILAVVLIIVNPKLDREKIVKATLEHQKAVMAVMQGQKYEMDPSLYEEDEIEIKHPSKLKLFFLKLKNKKKKEDNKESND;locus_tag=LOCUS_13930;note=WP_011167095.1 hypothetical protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:57.3%25%2C s_cov:11.2%25%2C Eval:2.2e-24%2C partial hit],internal stop codon at [952729:952731](-),MGA_1393
sequence1	MetaGeneAnnotator	CDS	952601	952900	.	+	0	ID=MGA_1394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINEAITKADANLNFSPCSFKSSSKNLLISRSVLLVNPIKNTFQEALNFSIEVNSYKLIVKPIKNIIKKIIGNNGIRYFSLGFERVFLVYVQIKIAGII;locus_tag=LOCUS_13940;note=MGA_1394
sequence1	MetaGeneAnnotator	CDS	953008	953814	.	-	0	ID=MGA_1395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELYLKLLNLSLNILKTDKLKYFILKNEEFKLKYLNLINDILTLETNHNQSLDDKVFAKTFAKAFILITKPTTKQRFEVNDEITIEQIETNYKQLVSYIVKEFKVVKSKLVSENEQISEEIINQNAILTDQAISKIESRLSKQEQLKEQKTSENTQKTATIMSEEPVVENQVNDQNQSNQQADFLNSFNPNMFANLNNADLPVLPSQDPRFYPYKGKPKFMPYLKIALCVLAVISTILLASSLLYLSYTTIDISSSTYASIIEQSKS;locus_tag=LOCUS_13950;note=WP_011167095.1 hypothetical protein (Mycoplasma mycoides) [pid:86.5%25%2C q_cov:97.0%25%2C s_cov:53.2%25%2C Eval:1.1e-119%2C partial hit],internal stop codon at [952729:952731](-)%2C[952963:952965](-)%2C[953008:953010](-),MGA_1395
sequence1	MetaGeneAnnotator	CDS	954384	954767	.	-	0	ID=MGA_1396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFFYSEDIFLLNNQTKKTIKELQQKDQYDVLSFSLIEDDFNIIYDNVTNLNFFNPKSIIVISDAYFVTEIKTNFNKNYSLNKLEIMLKNFNPNNIIIFTLNSNKFSKKLKIAKYIESNFNVKHLSL;locus_tag=LOCUS_13960;note=WP_013448044.1 DNA polymerase III subunit delta (Mycoplasma leachii) [pid:94.5%25%2C q_cov:100.0%25%2C s_cov:40.2%25%2C Eval:2.4e-63%2C partial hit],internal stop codon at [954384:954386](-),MGA_1396
sequence1	MetaGeneAnnotator	CDS	955022	955555	.	+	0	ID=MGA_1397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIANNKYKLVTKYKPSGDQNQAIEKLNKGIIENKKHQVLLGATGTGKTFTIANIIAKHNKQALVIAHNKTLAMQLYYELKEMFPENRVEYFVSNFDFFQPEAYIPSKDLYIDKDSRQNMELDMMRLSACNALLTRNDTIVVASVAALFALQNPLEYSSAFIELKVGQKIKRNELLT;locus_tag=LOCUS_13970;note=WP_013448045.1 excinuclease ABC subunit UvrB (Mycoplasma leachii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:1.5e-95%2C partial hit],internal stop codon at [955553:955555](+)%2C[955646:955648](+),MGA_1397
sequence1	MetaGeneAnnotator	CDS	955661	957019	.	+	0	ID=MGA_1398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRISLFDDEIESIHTLNTITNSILDNITTVTIHPAQSYITPQDKLKTICNNIRNELVQRLAELQSENKLLEAQRLEQRTKYDLESLEEFGFCSGIENYSSHLDFRSKGQRPYVLLDYFNNDFITIVDESHITLPQIRGMYNTDRSRKLTLVEYGFRLPSALDNRPLNFDEFNSLIKQVIYTSATPGDYELDLVNHQVVQQIIRPTGLLDPQIEIRKTTNQIDDIINEIHLRKLQNERVFITTLTIRMSEDLTAFLQEKNIKVAYLHSELKTLERSEILNDLRKGVYDVVVGVNLLREGLDLPEVSLVCILDADKQGFLRNYRSLIQTIGRVARNVNGKAIMYADTVSQAMDEAIKETNRRRKIQEEFNKKYNIVPKTISKAISESILSEQTKKTLAKAKKIKDKKQKLQTIQQTIDTLRQEMLQAAKELDFERAAILRDTIIELENEKNTN;locus_tag=LOCUS_13980;note=WP_013448045.1 excinuclease ABC subunit UvrB (Mycoplasma leachii) [pid:94.9%25%2C q_cov:100.0%25%2C s_cov:68.0%25%2C Eval:4.6e-240%2C partial hit],internal stop codon at [955553:955555](+)%2C[955646:955648](+),MGA_1398
sequence1	MetaGeneAnnotator	CDS	957028	958002	.	+	0	ID=MGA_1399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTDKIIIKGAREHNLKNIDLELPKNKLIVFTGLSGSGKSSLAFSTIYQEGRRRYIESLSAYARQFLGGNEKPDVDSIEGLSPAISIDQKTTSHNPRSTVGTVTEIYDYLRLLYARIGQPYCINNHGQIKAVSIKEIVENIKQSTSDGEQIHILSPVIRDKKGTHIDILEKLRNDGFIRVIVDDQLRMLDDQINLEKNQRHNIDIVVDRIIYHNNDEINSRIFTAVEMGLKYSNNLIKIAFPNSNKQEKLFSTSFSCKVCDFVVPELEPRLFSFNAPLGACELCNGLGVSLEPDINLILPDLKLSINQGGVVYYKNFMHTKNIE;locus_tag=LOCUS_13990;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:34.2%25%2C Eval:3.9e-184%2C partial hit],internal stop codon at [958000:958002](+)%2C[958093:958095](+)%2C[958231:958233](+),MGA_1399
sequence1	MetaGeneAnnotator	CDS	958246	959868	.	+	0	ID=MGA_1400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSKICKQCKGSRLNDIALSVKINEKSIFDYTNMSISEQLDFLLNIDLTPTQATIAKLVLDEIISRTNFLNEVGLGYLNLSRTATTLSGGESQRIRLAKQIGSQLTGILYVLDEPSIGLHQKDNDKLIRTLKHLRDLGNTLIVVEHDEDTMKSSDWIVDIGPRAGEFGGEITFSGTYQDILKSDTITGRYLSRKEGIVVPKTRRGGNGKKIEIIGASENNLKNINVTIPLNKFITITGVSGSGKSTLLEDIVYKGIHNNLSKEYLPIGKVKEIKGIENINKAIYISQEPIGKTPRSNPATYTSVFDDIRDLFTNLPEAKIRGYKKGRFSFNVAGGRCEHCQGDGVITISMQFMPSVEVVCEICEGKRYNDETLTVKYKNKSIADVLNMSVSEAYVFFENIPQIKQKLETILEVGLGYIKLGQNATTLSGGESQRIKLSTYLLKKQTGNTMFLLDEPTTGLHVDDVKRLIGVLNKLVDLGNTVLCIEHNLDFIKVSDHIIDLGPDGGEYGGQVVVTGTPEQIINHPTSYTAKYLKDYIIND;locus_tag=LOCUS_14000;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:57.1%25%2C Eval:1.6e-306%2C partial hit],internal stop codon at [958000:958002](+)%2C[958093:958095](+)%2C[958231:958233](+),MGA_1400
sequence1	MetaGeneAnnotator	CDS	959861	960199	.	+	0	ID=MGA_1401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISVDQELFPINQRLNKEVVFDKVLDELNHPEKFLKVINVVGTNGKGSTSFYLSKGLLKKYQKVGLFISPAFLYQNERIQINNIPISDNDLKNYLDKIDYLIKKYQLHFFEI;locus_tag=LOCUS_14010;note=WP_011167091.1 Mur ligase family protein (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:30.4%25%2C Eval:2.8e-56%2C partial hit],internal stop codon at [960197:960199](+),MGA_1401
sequence1	MetaGeneAnnotator	CDS	960209	960835	.	+	0	ID=MGA_1402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILYFKDQKVDIVVCEAGIGGIKDTTSFLTNQLFSLCTSISYDHMDLLGNSIDEIIYNKINIAKPNTKLFISYDNLKYKDKINEQLINKNVELIYTDLYEDQIIYQQANKGLVKKVLEYLNIFQTDIFQLQPPLGRFTTIRTFPNHIIIDGAHNVDGINKLIQSVKMLNKEFIVLYASINTKEYLKSLELLDQNFNEVYICEFNFIKS;locus_tag=LOCUS_14020;note=WP_011167091.1 Mur ligase family protein (Mycoplasma mycoides) [pid:86.1%25%2C q_cov:100.0%25%2C s_cov:56.4%25%2C Eval:1.7e-100%2C partial hit],internal stop codon at [960197:960199](+)%2C[960833:960835](+)%2C[960875:960877](+),MGA_1402
sequence1	MetaGeneAnnotator	CDS	961080	961325	.	+	0	ID=MGA_1403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFSLKTFTIKNIAIIGTLVALSVILSYVVNRNFLQILGTRITLGYFVNFLIGMIFGPLAGILAGIATDLIGTMIVGSGG;locus_tag=LOCUS_14030;note=WP_011167090.1 folate family ECF transporter S component (Mycoplasma mycoides) [pid:91.1%25%2C q_cov:97.5%25%2C s_cov:35.3%25%2C Eval:1.1e-33%2C partial hit],internal stop codon at [961020:961022](+)%2C[961062:961064](+)%2C[961077:961079](+)%2C[961323:961325](+)%2C[961404:961406](+)%2C[961422:961424](+),MGA_1403
sequence1	MetaGeneAnnotator	CDS	961750	961908	.	+	0	ID=MGA_1404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFTIKDLTDNLKFEIISGQDKLDTEIKSYGINRAGLELADYFKPFKDQSE;locus_tag=LOCUS_14040;note=WP_011167089.1 HPr(Ser) kinase/phosphatase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [961906:961908](+),MGA_1404
sequence1	MetaGeneAnnotator	CDS	961921	962505	.	+	0	ID=MGA_1405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTKESGYMLQFDEKTKIRKYTQLMKCGIPVLIITNKFKDKTLIKVAKRLNFPLLKSDYPITVQLVQKIQDIYDIYFSPTSEVHAALMNIFGTGVLIKGKSGIGKSELCLELIKHNHLFVGDDRIILTNKSNKIIGRVHPILKNLIEIRGIGIFDIVKSNGYQVIMNESPVELVIELVEYKEKNIDNSDRLGND;locus_tag=LOCUS_14050;note=WP_011167089.1 HPr(Ser) kinase/phosphatase (Mycoplasma mycoides) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:62.0%25%2C Eval:3.2e-103%2C partial hit],internal stop codon at [961906:961908](+)%2C[962503:962505](+),MGA_1405
sequence1	MetaGeneAnnotator	CDS	962795	962968	.	+	0	ID=MGA_1406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLGISSVIIASIICLKLKAIPLKEFEISIFIIVPFGILGATIFGKVFLPFYQHSNT;locus_tag=LOCUS_14060;note=WP_011167088.1 prolipoprotein diacylglyceryl transferase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:1.9e-25%2C partial hit],internal stop codon at [962723:962725](+)%2C[962966:962968](+)%2C[962987:962989](+)%2C[963047:963049](+)%2C[963086:963088](+)%2C[963143:963145](+)%2C[963203:963205](+),MGA_1406
sequence1	MetaGeneAnnotator	CDS	963779	963979	.	+	0	ID=MGA_1407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFQNTKSNCKHQLDLINKKYKFKLNNLNKNSLEYQKIINLKTEEVKRNKDLLMISKNNYYQKYGF;locus_tag=LOCUS_14070;note=WP_011167088.1 prolipoprotein diacylglyceryl transferase (Mycoplasma mycoides) [pid:78.8%25%2C q_cov:100.0%25%2C s_cov:12.5%25%2C Eval:1.9e-25%2C partial hit],internal stop codon at [963488:963490](+)%2C[963509:963511](+)%2C[963539:963541](+)%2C[963680:963682](+)%2C[963977:963979](+)%2C[964244:964246](+),MGA_1407
sequence1	MetaGeneAnnotator	CDS	964266	965198	.	+	0	ID=MGA_1408;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167087.1;translation=MKNLTNEIYDVIIVGSGPAGLTSAIYTARAGLKTVIYEQSAPGGKLIKTDLIENYPGFETIQGPDLASKMYLQALSLNASVEFVGVDSIFKNADDIFEISLANGETKKAYAVILATGTQENKLGIKGEDELYGKGVSYCAVCDGAFYKNKPVAVVGGGYSAVQEAMYLSQLVDKVYLIVRRDVFRADANKVAKLKAQPNVEFLLKSQVKEIHGTDKVESLTITTPNGEKKLEVSAIFPYIGSTPLIDSVKHLCIENEKGYIPTNDKMQTEIKGLFVAGDVRDVPLRQIAIACGDGAIAGQMAVEYVQEIK;locus_tag=LOCUS_14080;gene=trxB;EC_number=1.8.1.9;note=WP_011167087.1 thioredoxin-disulfide reductase (Mycoplasma mycoides) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-168],MGA_1408
sequence1	MetaGeneAnnotator	CDS	965438	965623	.	+	0	ID=MGA_1409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLGMLVAIGFSLYNFNKKDLSISELAIGVIFIIPCSLLGASFFGKLNADGIGRHANGATF;locus_tag=LOCUS_14090;note=WP_013448052.1 prolipoprotein diacylglyceryl transferase (Mycoplasma leachii) [pid:93.4%25%2C q_cov:100.0%25%2C s_cov:12.8%25%2C Eval:3.6e-27%2C partial hit],internal stop codon at [965264:965266](+)%2C[965330:965332](+)%2C[965621:965623](+)%2C[965639:965641](+)%2C[965795:965797](+),MGA_1409
sequence1	MetaGeneAnnotator	CDS	966650	967579	.	+	0	ID=MGA_1410;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167084.1;translation=MSFALEVKEEIVMHSFNDEQKLAYLSGFIRYSSDIIFSNNTSKIRFSTISNKIARTLLSFCRHIFDGQVEISIIQSQVLKKHKSFVLTLIGDTNKFLQKLRIYDQNNQKVYGFKVSSEIKDKTSILRAYIAGIFTAIGSVNSPKTSNYHLDLQFKNKIDANYFIDLTNDLGFEFKLLERNANRFICYIKKSIMVSDFLKLIDASNSVMQFENERISRDVYNSINRVNNFDISNQTKTLVTGQKQIQTINYLKQTNQFHLLSKKAQVLANLRLEYPDYSYNELVEEMKKVGYEITKSGISNLFKTIEKLG;locus_tag=LOCUS_14100;gene=whiA;note=WP_011167084.1 DNA-binding protein WhiA (Mycoplasma mycoides) [pid:90.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:4.2e-156],MGA_1410
sequence1	MetaGeneAnnotator	CDS	967943	968200	.	-	0	ID=MGA_1411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTIFSSISLITMTSATAIACSNNNKKEDKQSATTETTDNKESKEMDKNQTSSSTSTNMNNNQSPNPSATTSMSTQPKNEAF;locus_tag=LOCUS_14110;note=WP_011166748.1 lipoprotein (Mycoplasma mycoides) [pid:46.0%25%2C q_cov:97.6%25%2C s_cov:37.5%25%2C Eval:4.4e-09%2C partial hit],MGA_1411
sequence1	MetaGeneAnnotator	CDS	968507	968635	.	-	0	ID=MGA_1412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYMFEEAERFNQNISSWKVQSVQNFNGMLRNAKEFEQDLNK;locus_tag=LOCUS_14120;note=MGA_1412
sequence1	MetaGeneAnnotator	CDS	969182	969547	.	-	0	ID=MGA_1413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIRKEIIAMKKLLTILGSTTLLVIPTISVLSCKTINAISTAEEYNPESIKDQVGKYLQKAKYKDNECVQIGFFENKNKEIQIVPFKPTTTKVPSSLPNQITSLKEAFKGLQSSSVEGIQN;locus_tag=LOCUS_14130;note=WP_011166410.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:44.6%25%2C s_cov:33.5%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [969032:969034](-)%2C[969107:969109](-)%2C[969182:969184](-),MGA_1413
sequence1	MetaGeneAnnotator	CDS	970122	970487	.	-	0	ID=MGA_1414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKPKNFLSINCTENRKITSFEDLEIRIKKLLEDNNIKEYKLVNRYSEYIPNLNTINEIEFLKKISKDYDYYVELRNDEIVIFNNLTNEIKTIKKGRAYLQHYIQSIFYLNYQATLNTKKS;locus_tag=LOCUS_14140;note=MGA_1414
sequence1	MetaGeneAnnotator	CDS	970640	971134	.	-	0	ID=MGA_1415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPCENIIDKIYLGDQFSKRLVNPDKELKISNVFYNILKKDTSEILYQTKNFVLTKNKLAINLLDSHDVRDFSDDLFIPAIKFLIENPNDKSLYTHCQLGISRSASTIFMFLVIKGVIDNNLSFEQALEKYVKDIYPFMKVNLGVYTYLKNNYPFYNIKSKLNTD;locus_tag=LOCUS_14150;note=MGA_1415
sequence1	MetaGeneAnnotator	CDS	971134	971523	.	-	0	ID=MGA_1416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKFNYKTPGREENGLTHLVSKKEYKELQKEKREIEKLEAESKKDEINDEFINNIIKGCGGAENIKIMANCVTRLRVTMHDISKFDKSIVDKTRPYGYKEISNQVQIIYGPKVTNIATLVREKLGVES;locus_tag=LOCUS_14160;note=WP_011948069.1 PTS transporter subunit EIIC (Clostridium) [pid:40.2%25%2C q_cov:97.7%25%2C s_cov:22.6%25%2C Eval:4.8e-16%2C partial hit],internal stop codon at [971581:971583](-)%2C[971626:971628](-),MGA_1416
sequence1	MetaGeneAnnotator	CDS	971626	971886	.	-	0	ID=MGA_1417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSLTGAAFAMFFVIPKANRKVYGSSIISAAIVSFLSGVTEPIEFTFLFVAPLLYVFHALFAGLQNMLMYLFNFGSVTTRGSGIIT;locus_tag=LOCUS_14170;note=WP_000838205.1 glucose-specific PTS transporter subunit IIBC (Staphylococcus) [pid:49.4%25%2C q_cov:98.8%25%2C s_cov:16.7%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [971581:971583](-)%2C[971626:971628](-)%2C[971914:971916](-)%2C[972007:972009](-),MGA_1417
sequence1	MetaGeneAnnotator	CDS	972199	972705	.	-	0	ID=MGA_1418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGAIGYTGQAILAQVYPKGGAKPPVGLELAINAIKDLGMIAITNIDFFVAIGLAAGLAKSEKVSAALSGLMAYAAMHLATALILKIIYGDPSKTEIVFEGVKKTVKDVFGLKIRFGVLSFQYSAFGGMLAGLLGYTIHKYTYKLKFPEVLSFFGGPKFSPVASTLVG;locus_tag=LOCUS_14180;note=WP_002262358.1 PTS transporter subunit IIBC (Streptococcus mutans) [pid:27.7%25%2C q_cov:92.9%25%2C s_cov:23.7%25%2C Eval:5.3e-07%2C partial hit],internal stop codon at [972169:972171](-)%2C[972199:972201](-),MGA_1418
sequence1	MetaGeneAnnotator	CDS	972909	973364	.	-	0	ID=MGA_1419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFGPIMGGIYFAIFYFMIKQFNYKTPGREEGGLTHLVSKKEFKELQKEKKEIEKLEAESDKKESKKDEINDEFINNIIKGCGGAENIKIMANCVTRLRVTMHDISKFDKSIVDKTKPYGYKEIGNQVQIIYGPKVTNIATLVREKLGVES;locus_tag=LOCUS_14190;note=WP_009890719.1 PTS transporter subunit EIIC (Clostridioides difficile) [pid:35.5%25%2C q_cov:91.4%25%2C s_cov:21.9%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [973415:973417](-),frameshifted%2C insertion/deletion at around 973384,MGA_1419
sequence1	MetaGeneAnnotator	CDS	973415	973645	.	-	0	ID=MGA_1420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFVIPKANRKVYGSAIISAGAVSMLSGVTEPIEFTFLFVAPVLYLIHIFLSGFQNMIMYLLNFGSVTTRGSGIIT;locus_tag=LOCUS_14200;note=WP_012027342.1 PTS transporter subunit EIIC (Streptococcus) [pid:46.7%25%2C q_cov:98.7%25%2C s_cov:14.9%25%2C Eval:1.5e-12%2C partial hit],internal stop codon at [973361:973363](-)%2C[973370:973372](-)%2C[973415:973417](-)%2C[973703:973705](-)%2C[973799:973801](-),frameshifted%2C insertion/deletion at around 973342,MGA_1420
sequence1	MetaGeneAnnotator	CDS	973991	974497	.	-	0	ID=MGA_1421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGAIGYTGQAILAQVYPKGGAKPPVGLELAINAIKDLGMIAITNIDFLVAIGLAAGLAKSEKVSAALSGLMAYAAMHLATALILKIIYGDPSKTEIVFEGVKKTVKDVFGLKIRFGVLSFQYSAFGGMLAGLLGYTVHKYTYKLKFPEVLSFFGGPKFSPVASTLAG;locus_tag=LOCUS_14210;note=WP_002262358.1 PTS transporter subunit IIBC (Streptococcus mutans) [pid:27.5%25%2C q_cov:89.3%25%2C s_cov:22.4%25%2C Eval:3.1e-07%2C partial hit],internal stop codon at [973961:973963](-)%2C[973991:973993](-),MGA_1421
sequence1	MetaGeneAnnotator	CDS	974883	975050	.	+	0	ID=MGA_1422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKNIEYKYDISDKNNSFKREIVAFLNTKGGEIHLGVTDDGLIDKQQILENRKQ;locus_tag=LOCUS_14220;note=MGA_1422
sequence1	MetaGeneAnnotator	CDS	975267	975791	.	+	0	ID=MGA_1423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLESVSIQCDNSLIYTTDLTFNYVEQKFNNANIAFNKAALSLINKNGIYTKTALFLSDQNPLITKFAVYQSIDNKVFLDRQNLDGSMIKQIDSLLFLCNLKNETKTIITNQAKRIEIKNYPESSLREIILNCFCHRDYLSTEDIKVEIYSDRIEFYSPGSFPYNLTLQEAKNG;locus_tag=LOCUS_14230;note=WP_011022343.1 helix-turn-helix domain-containing protein (Methanosarcina acetivorans) [pid:27.1%25%2C q_cov:71.8%25%2C s_cov:28.2%25%2C Eval:4.1e-13%2C partial hit],internal stop codon at [975789:975791](+),MGA_1423
sequence1	MetaGeneAnnotator	CDS	976259	977074	.	-	0	ID=MGA_1424;product=SIS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167081.1;translation=MNIIEKIKQNKINLSPQELKVCDYILTNISDYHNFSVKSICKKLNVQPSVITKTLVKLEIGGLKQLISYLENNSNFFKDETKVSFDNIIDEFENRLEDSLKQLKTNLDINYLKEVVCKILSSKKIILFCTGKTKILANFLFFQLLELNLSVELFSNLFDSRAYNVKQACIIVISTSGNNSKINRYLNFISKRKPNTIIGITSSPILKTDIKVDYHIHGSENNFFINDNRSNPMIEKYKIQYILDLIFLLIINQIDLNNLKFQEKVKTTNLV;locus_tag=LOCUS_14240;note=WP_011167081.1 SIS domain-containing protein (Mycoplasma mycoides) [pid:88.0%25%2C q_cov:92.6%25%2C s_cov:100.0%25%2C Eval:6.1e-121],MGA_1424
sequence1	MetaGeneAnnotator	CDS	977262	977402	.	+	0	ID=MGA_1425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLVLLESPSKIEKIKHYLEESFPENQFVVLASGGHINSIADKGA;locus_tag=LOCUS_14250;note=WP_011167080.1 DNA topoisomerase (Mycoplasma mycoides) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:7.2%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [977400:977402](+),MGA_1425
sequence1	MetaGeneAnnotator	CDS	977427	978311	.	+	0	ID=MGA_1426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQPDFVIDSSRKKIISQIKKEGKTADLIILASDPDREGEAIAYHLANLFKDHTNIKRITFNEITSEAITNAFNNLRDIDMNLVNAQISRQILDKIIGYLVSKSLQKSTGLMSAGRVQTPALNILTTRDTLIKNFKEVLYKKIFVIESKRAINLSLVKDKNNVLVNTEKTYYIDEKQAKTIVDELGEVYRCTDYKSTAYETRSFKPYSTAGLLQDGFTKLKLSTSQITLAAQKLYELGYITYIRTDSVKYSSQFINEVKDYISKNYSSDLFKAPVVGKKDQNSQEAHESIRPTNI;locus_tag=LOCUS_14260;note=WP_011167080.1 DNA topoisomerase (Mycoplasma mycoides) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:45.7%25%2C Eval:3.9e-156%2C partial hit],internal stop codon at [977400:977402](+)%2C[978309:978311](+)%2C[978378:978380](+)%2C[978381:978383](+)%2C[978432:978434](+)%2C[978471:978473](+),MGA_1426
sequence1	MetaGeneAnnotator	CDS	978669	978935	.	+	0	ID=MGA_1427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNQASLIKELKNLGIGRPSTYNPILTKLKDREYVEFPKSKPIVVTNKGYSANQYLYDHYLDFFNLNYTAEMEEKLDEITKGSFDYVN;locus_tag=LOCUS_14270;note=WP_011167080.1 DNA topoisomerase (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:13.7%25%2C Eval:3.8e-45%2C partial hit],internal stop codon at [978378:978380](+)%2C[978381:978383](+)%2C[978432:978434](+)%2C[978471:978473](+)%2C[978933:978935](+)%2C[979128:979130](+),MGA_1427
sequence1	MetaGeneAnnotator	CDS	979453	979578	.	-	0	ID=MGA_1428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDDTIAEATYKYDLEKRKKESAEFNDAVVRNSDTINGRAN;locus_tag=LOCUS_14280;note=MGA_1428
sequence1	MetaGeneAnnotator	CDS	979804	980094	.	-	0	ID=MGA_1429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSLMIGTSSAALVVACNNTNPSQPANKDKDENPSNSGGSEKPGKKDDDKKPGEDKKPDGEKKPTDNYNPKTYPDTIFNRHFVSGNPSS;locus_tag=LOCUS_14290;note=MGA_1429
sequence1	MetaGeneAnnotator	CDS	980970	981203	.	-	0	ID=MGA_1430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNLVYKDLKQKDKYIQEQKLLDTNKSLNNLKDYLAYSNGVVANYSYDGAESGQKEKEPLLRKENSKKLDEFLKNN;locus_tag=LOCUS_14300;note=MGA_1430
sequence1	MetaGeneAnnotator	CDS	981234	981380	.	-	0	ID=MGA_1431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKKYLYVIISLISILLISLVTYFSFSNKNKDIQKIELKLENNKAK;locus_tag=LOCUS_14310;note=MGA_1431
sequence1	MetaGeneAnnotator	CDS	981823	982197	.	-	0	ID=MGA_1432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKKTILTYISIFFAIIPFIVIPFLLKVNKNDKDEVFKPVSGFNINVSINDVKENQTKEMIDVLLANTFKNHLAQQEQFIKSQTKENNIKELFLKAKELSEEYKKNQDQNNINKLFDFYSTN;locus_tag=LOCUS_14320;note=MGA_1432
sequence1	MetaGeneAnnotator	CDS	982184	982501	.	-	0	ID=MGA_1433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSEKIKKELEETVNKISEELNSIDFPNTNKNENNEEKIKKDFLEKYKVKNDDLAFYELHAKRQYTDIFIEVLDEINNIKGNEESKNDIDLKVIRYSMRNIYEEK;locus_tag=LOCUS_14330;note=MGA_1433
sequence1	MetaGeneAnnotator	CDS	983177	983521	.	-	0	ID=MGA_1434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167077.1;translation=MLSSLVVFLIPTTSCSIKNNNKEKIINRQEFKFYDNKNINQLLDLYIKDQQQKQLYTLKQENISDAKVSDLKFVLTFYTVFNSNRSIESVTTHYQQVALKAKKTLQNTLTNDWY;locus_tag=LOCUS_14340;note=WP_011167077.1 hypothetical protein (Mycoplasma mycoides) [pid:76.1%25%2C q_cov:95.6%25%2C s_cov:87.9%25%2C Eval:1.6e-40],MGA_1434
sequence1	MetaGeneAnnotator	CDS	983511	984239	.	-	0	ID=MGA_1435;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387629.1;translation=MLERIINSMNDILKINHLTKIFTDTNRGVNDINMSVKSGSFHAFIGENGAGKTTTIKTIIGAFSKYEGEVLINNINIKKAQAKSYIGYVPEVAIFPKELTTIQYLTYLGFLSKLDKKEVEHKIKEFLEMFNISNLINEKPYNFSSGQKKKILLIQALLHNPKLLILDEPAANLDPTARYELFSFLKKINEKENISILISSHNLSEIDKYVDSLTLIHKGKVLYSGVKTKNLEDIFYEKVIAK;locus_tag=LOCUS_14350;note=WP_011387629.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:94.8%25%2C q_cov:96.3%25%2C s_cov:99.6%25%2C Eval:8.7e-121],MGA_1435
sequence1	MetaGeneAnnotator	CDS	984283	984600	.	-	0	ID=MGA_1436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYIYFNYQNSVLLQALLKDVNKKDSYLDSQIKIKIFDHDYYIGGYDKYEKIIYEDKKENGKETKIKIRYKLTESKTNFLFNSSPSLFAITRDKQIFNKNILFGI;locus_tag=LOCUS_14360;note=WP_020863044.1 ABC transporter permease (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:9.3e-52%2C partial hit],internal stop codon at [984283:984285](-),MGA_1436
sequence1	MetaGeneAnnotator	CDS	984901	985092	.	-	0	ID=MGA_1437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAVPGLLQSHTILSSNNINNKNINSRSRDIIYARKNANDINTNFIEDENDFSRENNLVGVLK;locus_tag=LOCUS_14370;note=WP_020863044.1 ABC transporter permease (Mycoplasma mycoides) [pid:84.1%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:8.3e-24%2C partial hit],internal stop codon at [984901:984903](-)%2C[985291:985293](-)%2C[985306:985308](-),MGA_1437
sequence1	MetaGeneAnnotator	CDS	985306	985539	.	-	0	ID=MGA_1438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLSSNTTSNLNKVGYYLNQKYPYHHSNNQLNSEAYFINNKDELLVIPNGSENKEFNDEQVKYLKKATEVSNNSSTL;locus_tag=LOCUS_14380;note=WP_020863044.1 ABC transporter permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:12.4%25%2C Eval:4.0e-39%2C partial hit],internal stop codon at [985291:985293](-)%2C[985306:985308](-)%2C[985663:985665](-)%2C[985750:985752](-),MGA_1438
sequence1	MetaGeneAnnotator	CDS	985750	986088	.	-	0	ID=MGA_1439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISIFKYSQFAFFTILYKKSSYLLPIFTLIFSTIIGLIFKFVIDEKYLALSSYLYIFLLLIITVIFSAIKSLNIFKDLDQEGLEIISFSKPISRNNLILGKLLCLSFYGLI;locus_tag=LOCUS_14390;note=WP_020863044.1 ABC transporter permease (Mycoplasma mycoides) [pid:90.2%25%2C q_cov:100.0%25%2C s_cov:18.0%25%2C Eval:8.8e-50%2C partial hit],internal stop codon at [985663:985665](-)%2C[985750:985752](-),MGA_1439
sequence1	MetaGeneAnnotator	CDS	986227	986376	.	-	0	ID=MGA_1440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILDEYANAVLSVAKDRTSQAMNNFNAKFGGKPLRYVMFEVNSKYLNK;locus_tag=LOCUS_14400;note=WP_020863045.1 lipoprotein (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:3.9e-21%2C partial hit],internal stop codon at [986479:986481](-),MGA_1440
sequence1	MetaGeneAnnotator	CDS	986710	986946	.	-	0	ID=MGA_1441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQILSIAFNNDNEKIKQYKEEQFNINDKEMLSTLNKYLTYANNINAGYGTDGDNITGDDPYPVKEYGNKLYDFFNKN;locus_tag=LOCUS_14410;note=WP_020863045.1 lipoprotein (Mycoplasma mycoides) [pid:91.0%25%2C q_cov:100.0%25%2C s_cov:26.4%25%2C Eval:4.4e-38%2C partial hit],internal stop codon at [986479:986481](-)%2C[986704:986706](-)%2C[986710:986712](-)%2C[986971:986973](-),MGA_1441
sequence1	MetaGeneAnnotator	CDS	986971	987159	.	-	0	ID=MGA_1442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILEMEFYYERKNNMFKLKKSLSLVLLSIFPILSFAAISCSNNKNQDINNLSIKKDEKKDS;locus_tag=LOCUS_14420;note=WP_020863045.1 lipoprotein (Mycoplasma mycoides) [pid:91.5%25%2C q_cov:75.8%25%2C s_cov:15.9%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [986704:986706](-)%2C[986710:986712](-)%2C[986971:986973](-),MGA_1442
sequence1	MetaGeneAnnotator	CDS	987146	987307	.	-	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIDKFILFNDSIISRINIDTISDAIHLGVFHNQKDAFTSTFEKHIIKEYGYP;locus_tag=LOCUS_14430;note=WP_011167073.1 membrane protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.2%25%2C Eval:1.3e-24%2C partial hit],internal stop codon at [987128:987130](-)%2C[987146:987148](-)%2C[987527:987529](-)%2C[987581:987583](-)%2C[987587:987589](-),MGA_1443
sequence1	MetaGeneAnnotator	CDS	987587	987946	.	-	0	ID=MGA_1444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNKKTLINISIAFAILPFLVLPSLFFINKKTNNLNLVRPPGFDVYDNLNNDKEAKTVKLLQSLVDDVFKDSKLDQQEFVKSQKEKNDQLISKAKELSSEYLKNSNEENLKKIKNFYS;locus_tag=LOCUS_14440;note=WP_011167073.1 membrane protein (Mycoplasma mycoides) [pid:94.1%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:4.7e-59%2C partial hit],internal stop codon at [987527:987529](-)%2C[987581:987583](-)%2C[987587:987589](-),MGA_1444
sequence1	MetaGeneAnnotator	CDS	987978	988478	.	-	0	ID=MGA_1445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTDLFIFKDTNNLENQIQHLENTIFEKRKVEYNNNLENINKNIEATKKRKEKTQQEIQELKEKIKKLEENTNSSHTAPLALALNTRTLSAPKEDKKKEPTLEELKKDLERKEKQLQQSDENVKKYEKDIEDLPQKSNDKKFLEFHATDQYNERLKESLNDINKDG;locus_tag=LOCUS_14450;note=WP_011167072.1 hypothetical protein (Mycoplasma mycoides) [pid:67.3%25%2C q_cov:100.0%25%2C s_cov:42.0%25%2C Eval:2.0e-56%2C partial hit],internal stop codon at [987978:987980](-)%2C[988512:988514](-)%2C[988773:988775](-),MGA_1445
sequence1	MetaGeneAnnotator	CDS	988779	989129	.	-	0	ID=MGA_1446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIGFSSIFAFLTVSCSTSTPKANPTINKNENKLYKNKYVSELLNLYLSDSKLRDSYINDQENVSDSKFSELKYGLTFYPIFIHRSLDYHVGQHYRVIIQKSKNALEQTLKND;locus_tag=LOCUS_14460;note=WP_011167072.1 hypothetical protein (Mycoplasma mycoides) [pid:92.2%25%2C q_cov:100.0%25%2C s_cov:29.0%25%2C Eval:5.6e-57%2C partial hit],internal stop codon at [988512:988514](-)%2C[988773:988775](-)%2C[988779:988781](-),MGA_1446
sequence1	MetaGeneAnnotator	CDS	989214	989669	.	-	0	ID=MGA_1447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYLSEYLNNKESKIYSYNNNNITIFDQYSIKRHNKLQSQNERILYFAISFLNYIYFNYPDSLIYQAMLKNPDNDSYGDYQVKLDINSYKYNIGGYSSYQTQYEKKDKETNTVLRFSLTKSNNNYLFESTNELFSISRSKRVVNKNVLFLL;locus_tag=LOCUS_14470;note=WP_011166520.1 ABC transporter permease (Mycoplasma mycoides) [pid:47.1%25%2C q_cov:96.0%25%2C s_cov:25.2%25%2C Eval:5.4e-36%2C partial hit],internal stop codon at [989214:989216](-)%2C[989847:989849](-),MGA_1447
sequence1	MetaGeneAnnotator	CDS	990258	990575	.	-	0	ID=MGA_1448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSYKLAQKISMIIPFVLFVPLSLIGMILSINVKSNVDQASFYINKEYKNHHSGNEVNVEPYYLNNHKDELFLIPNGVNNKEFSVEQVKYLEDVVNYSNSSSNI;locus_tag=LOCUS_14480;note=WP_011167069.1 ABC transporter permease (Mycoplasma mycoides) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:21.6%25%2C Eval:3.8e-53%2C partial hit],internal stop codon at [990243:990245](-)%2C[990258:990260](-)%2C[990705:990707](-),MGA_1448
sequence1	MetaGeneAnnotator	CDS	990705	991043	.	-	0	ID=MGA_1449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNAFKYSQFAFYTILKKKSSIILPIFTLVSSLIIGLILKFVVNNKYVELLSFLYVFILITLTVVFSCIKALNIFKDLEQEGLEIISLSKPLTRKSLIIGKLLCLTFFGLI;locus_tag=LOCUS_14490;note=WP_011167069.1 ABC transporter permease (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:23.0%25%2C Eval:1.6e-51%2C partial hit],internal stop codon at [990705:990707](-),MGA_1449
sequence1	MetaGeneAnnotator	CDS	991154	991621	.	-	0	ID=MGA_1450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFIIATAAGVGYILVQTNLQSLFVKGILNSIGGINNQTAKVIVLFIVFIPLGFLIPSSSGFATTIFPLLAKSLVDSKTNQLQAYASSGSIMAFTFAIGLVNLITPTSGVVMGACSLSRMSYAKYLKAMLPIISYLFILCFILLLTGGALPDSIS;locus_tag=LOCUS_14500;note=WP_011167067.1 YfcC family protein (Mycoplasma mycoides) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:26.4%25%2C Eval:1.8e-77%2C partial hit],internal stop codon at [991649:991651](-)%2C[991751:991753](-)%2C[991796:991798](-)%2C[991841:991843](-)%2C[991910:991912](-),MGA_1450
sequence1	MetaGeneAnnotator	CDS	991629	991778	.	+	0	ID=MGA_1451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEAPSNHFLINVASPIELIIANVIEANKKNAATLSKSPFPHPGIRAVK;locus_tag=LOCUS_14510;note=MGA_1451
sequence1	MetaGeneAnnotator	CDS	992075	992332	.	-	0	ID=MGA_1452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFFSIFGTVEGFAEETLGFYMIFIPIMLMAGFDVFTGVLILMVGAGTGVIGSTVNPFTIPIAVSAINSGIDASTAKLTIGDGLV;locus_tag=LOCUS_14520;note=WP_011167067.1 YfcC family protein (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:14.5%25%2C Eval:2.2e-40%2C partial hit],internal stop codon at [991796:991798](-)%2C[991841:991843](-)%2C[991910:991912](-)%2C[992060:992062](-)%2C[992075:992077](-)%2C[992588:992590](-)%2C[992609:992611](-),MGA_1452
sequence1	MetaGeneAnnotator	CDS	993058	993243	.	-	0	ID=MGA_1453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSFENVSVKVMKAKWGLCYSKKKHIIYNTKLLHFNIEIIDYVIVHELTHILYPNHSKDF;locus_tag=LOCUS_14530;note=WP_020863050.1 SprT family zinc-dependent metalloprotease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:26.0%25%2C Eval:1.2e-30%2C partial hit],internal stop codon at [993058:993060](-)%2C[993253:993255](-)%2C[993277:993279](-)%2C[993433:993435](-),MGA_1453
sequence1	MetaGeneAnnotator	CDS	993433	993702	.	-	0	ID=MGA_1454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMYAFLNLMSKEKHQLSYQGNKITYYVHYKNQKNTILRLIDNQIIISAPINTPIYLIEQFIYKHISRIIKIQNNYEFLRVYDFYTNKP;locus_tag=LOCUS_14540;note=WP_020863050.1 SprT family zinc-dependent metalloprotease (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:97.8%25%2C s_cov:37.0%25%2C Eval:2.2e-45%2C partial hit],internal stop codon at [993253:993255](-)%2C[993277:993279](-)%2C[993433:993435](-),MGA_1454
sequence1	MetaGeneAnnotator	CDS	993863	994762	.	-	0	ID=MGA_1455;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167065.1;translation=MGLQVGIVGLPNVGKSTLFNAITNSKVEAANYPFATIEPNVGIVEVPDYRLDELFKIFNSKKRVATTIEFVDIAGLIAGASQGEGLGNAFLANIRQTDAICQVVRCFDDKEIMHVENSIDPIRDIEIINLELMLADQTTVKKRLDKILPKFKSGDKVAKVEYDLLNYLLDTLNKGILLNSLTLDEEQTDLLKSYQLLTSKPIIYVCNVSDTELLEDNDYVKKVRQFAEKSNSQVVKICAKIEEDLSEASKEEKIEFLKELGIKESGLDQLIRAAYDTLGLQTFFTAGPQEVRSWQFKKG;locus_tag=LOCUS_14550;gene=ychF;note=WP_011167065.1 redox-regulated ATPase YchF (Mycoplasma mycoides) [pid:96.6%25%2C q_cov:99.7%25%2C s_cov:81.9%25%2C Eval:2.2e-159],internal stop codon at [993863:993865](-),MGA_1455
sequence1	MetaGeneAnnotator	CDS	995000	995521	.	-	0	ID=MGA_1456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVEQFQITDQEIADIGTGAGFPGVVLKIFFPNIKLTLIESNNKKANFLKYLVQKLELNDVEILNKRAEELNEYKEQFDIVISRAVAYLDIILELGVQLVKVDGMFILLKGPKAYQEIKDLKNKDQKMNLKLVNIQELEDTGFGTRVNLFYKKINHTNNLYPRKYQQILKESK;locus_tag=LOCUS_14560;note=WP_011183558.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Mesoplasma florum) [pid:57.8%25%2C q_cov:99.4%25%2C s_cov:73.0%25%2C Eval:1.7e-51%2C partial hit],internal stop codon at [995681:995683](-),MGA_1456
sequence1	MetaGeneAnnotator	CDS	995809	995976	.	-	0	ID=MGA_1457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVVLILRDTFIDFIRMILSSKGITLAAGMGGKLKTTFQMIGLSLLFFVNLKIFG;locus_tag=LOCUS_14570;note=WP_020863053.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mycoplasma mycoides) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:27.8%25%2C Eval:2.4e-23%2C partial hit],internal stop codon at [995794:995796](-)%2C[995800:995802](-)%2C[995809:995811](-)%2C[995977:995979](-)%2C[996097:996099](-)%2C[996154:996156](-),MGA_1457
sequence1	MetaGeneAnnotator	CDS	996154	996378	.	-	0	ID=MGA_1458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNLGFIIYLVQNIFYFFKIYMYIKKGDVMKQKTINLPNILTTIRIVLVPIIIVLLLVDHYVNALVFTNFSKFA;locus_tag=LOCUS_14580;note=WP_020863053.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mycoplasma mycoides) [pid:73.3%25%2C q_cov:60.8%25%2C s_cov:22.7%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [995977:995979](-)%2C[996097:996099](-)%2C[996154:996156](-),MGA_1458
sequence1	MetaGeneAnnotator	CDS	996471	997211	.	-	0	ID=MGA_1459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFVSVFYTLIAVSLLMGSPDGSIGALLEKLFNGGKVLSSSDSSTLSRVANILTSVIIIIICSIGANNLSYVSFVVIESDVIDKLYLTSQKNISAKRIAIIQVSVATAIYSTFILVGTLATVGLTNTATVEQAVSSTNGLIYPIQIIATSNACLSFIMIITLIIGALFNRKTNKVEVEKKKGFVVLGSIAACCLVLFVTMSLFTILVPLDVINKNNNNSNWFTSNYYQGPLFILLTLLELGSVFIF;locus_tag=LOCUS_14590;note=WP_011167061.1 APC family permease (Mycoplasma mycoides) [pid:90.7%25%2C q_cov:100.0%25%2C s_cov:46.8%25%2C Eval:1.7e-116%2C partial hit],internal stop codon at [996471:996473](-)%2C[997353:997355](-),MGA_1459
sequence1	MetaGeneAnnotator	CDS	997353	997664	.	-	0	ID=MGA_1460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSMFISFFITFILMMFSTVQLKGIHFLLIFLTTGIAIIIINALINVFDLSISRKYQAFGTIFKFIPLAIALIAGVVLFDQNGAFLSGGINITNPTGGTSKVE;locus_tag=LOCUS_14600;note=WP_011167061.1 APC family permease (Mycoplasma mycoides) [pid:88.3%25%2C q_cov:100.0%25%2C s_cov:19.6%25%2C Eval:4.7e-43%2C partial hit],internal stop codon at [997353:997355](-)%2C[997737:997739](-)%2C[997833:997835](-),MGA_1460
sequence1	MetaGeneAnnotator	CDS	997833	997973	.	-	0	ID=MGA_1461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKGKLLEFLTLFAMTIGSVVGAGVYFKNKEILFDTRNPIIAIIL;locus_tag=LOCUS_14610;note=WP_011167061.1 APC family permease (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:8.7%25%2C Eval:6.0e-19%2C partial hit],internal stop codon at [997737:997739](-)%2C[997833:997835](-),MGA_1461
sequence1	MetaGeneAnnotator	CDS	998119	998499	.	-	0	ID=MGA_1462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLLLGSEPIGLLSLMLVDSSAIIGFATVFYIVKKMFIESNKSEAFAKFEILFVVFASVIATLFGGLVAYISNATFIFDLYKVPKPFGPILAVTFMFTIIKLVVNHAIFCIIYKRVKVLIKKIIRS;locus_tag=LOCUS_14620;note=WP_011167060.1 hypothetical protein (Mycoplasma mycoides) [pid:97.3%25%2C q_cov:87.3%25%2C s_cov:48.7%25%2C Eval:2.0e-54%2C partial hit],internal stop codon at [998500:998502](-)%2C[998530:998532](-)%2C[998569:998571](-),MGA_1462
sequence1	MetaGeneAnnotator	CDS	998569	998799	.	-	0	ID=MGA_1463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITYKEKKDNNLELQKDKKIKRVQSLRQYFLLSTNKIALLATLLALQILLTLFSKYVMGALVIFLSAPYLKLEINY;locus_tag=LOCUS_14630;note=WP_011167060.1 hypothetical protein (Mycoplasma mycoides) [pid:89.5%25%2C q_cov:100.0%25%2C s_cov:33.6%25%2C Eval:4.5e-30%2C partial hit],internal stop codon at [998500:998502](-)%2C[998530:998532](-)%2C[998569:998571](-),MGA_1463
sequence1	MetaGeneAnnotator	CDS	998921	999568	.	-	0	ID=MGA_1464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFAAVFYLIMSISLILGSPDGSIEQLLERVFNNGQPLKTQVNQTVKVMVAIISMIICFLGLNAYSYIGMAGLESDVIDGLSYIKSVDDKHRFKKIGLIQGVISYAIFAIFIIVGASSSISLNKQIEVGNATDSASGMLYLIQIMSSTCSCLSFAMMASLIVAALVNRKTNKVEVKKIKGFIPLAIFGLITFIFFSSMGLFTFIVPLGVIRNGDS;locus_tag=LOCUS_14640;note=WP_011167059.1 APC family permease (Mycoplasma mycoides) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:42.0%25%2C Eval:2.0e-112%2C partial hit],internal stop codon at [998843:998845](-)%2C[998918:998920](-)%2C[998921:998923](-)%2C[999710:999712](-),MGA_1464
sequence1	MetaGeneAnnotator	CDS	999710	1000027	.	-	0	ID=MGA_1465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYAPVNQAIFTSALLSYFLNIFDLKLYGYQYLLIFLLVGAVIILLTNILNVFSIKGSKAVQIFGTGFKFFPLIIALFAGFILADHFGALQNNGVDVRGIDATKS;locus_tag=LOCUS_14650;note=WP_011167059.1 APC family permease (Mycoplasma mycoides) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:20.5%25%2C Eval:2.1e-51%2C partial hit],internal stop codon at [1000082:1000084](-)%2C[1000169:1000171](-)%2C[999710:999712](-),MGA_1465
sequence1	MetaGeneAnnotator	CDS	1000463	1000747	.	-	0	ID=MGA_1466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILYFGFNIKGLDAYSIELFQTCYFIECILTHIMIILVLRTDKLSFFKSIASKQMLISMLFFSIVCFMIVFISSSFNSLGFKMMIGNFNNINLS;locus_tag=LOCUS_14660;note=WP_020863056.1 HAD-IC family P-type ATPase (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:10.6%25%2C Eval:5.3e-47%2C partial hit],internal stop codon at [1000424:1000426](-)%2C[1000463:1000465](-)%2C[1000820:1000822](-),MGA_1466
sequence1	MetaGeneAnnotator	CDS	1000820	1002061	.	-	0	ID=MGA_1467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPAIISSNLKLASKRLSKNKVVIKKLSVLQNIGSVNILATDKTGTLTLDTTNIETYLDINNQKNKLLKQYFFYNAYFQNNLFDTIDKAIIDQFKTNISDIKLIDHLSFDHNFRISSVLINFNNSNLLITKGSLEEILEITSFINVNNQVINLCDNYKNMIIDQVNSYTKKGYKVLVLSYKNSDVIDNKNLIYLGMVVFSDQIRENVKQVIDTFKAYDIDIKVLSGDNLYTCKNVCDQVGINSNTNLIGKQINNLTKEELIKISQSVNIFYKLSPLDKAKIIDSLKSNNVVGFLGDGVNDAVALKKADVGISVNNASSLAKQSADVILLEKDLNALEHAFIIGRKTFSNAIKYIKITVASNFGILLTLLLATILFKFEVMSPIQLLIQNLIFDFANLVFVFDNVDESSIKKPQK;locus_tag=LOCUS_14670;note=WP_020863056.1 HAD-IC family P-type ATPase (Mycoplasma mycoides) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:46.7%25%2C Eval:1.9e-221%2C partial hit],internal stop codon at [1000820:1000822](-)%2C[1002116:1002118](-),MGA_1467
sequence1	MetaGeneAnnotator	CDS	1001967	1002185	.	+	0	ID=MGA_1468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCNTESFLITTLFLDNLFEASFKLEEIIAGKASGVSETAIDNPKTKLEVQLLNPLFNKEIKVIINTKIEIK;locus_tag=LOCUS_14680;note=MGA_1468
sequence1	MetaGeneAnnotator	CDS	1002446	1002694	.	-	0	ID=MGA_1469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLASIVDFIQEYKAYKFNLKLTKIIENDVFVVNDQIKDFNNLNYQNIKNNLIKEKQSNLTIGDVVYLSKGDIIPSDCRII;locus_tag=LOCUS_14690;note=WP_020863056.1 HAD-IC family P-type ATPase (Mycoplasma mycoides) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:3.2e-39%2C partial hit],internal stop codon at [1002446:1002448](-)%2C[1002728:1002730](-),MGA_1469
sequence1	MetaGeneAnnotator	CDS	1002728	1003024	.	-	0	ID=MGA_1470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTKKGNLKSLDYKKQDYVIKLSNTNSNNLESVLDSKIGLNNQTRQNNISKFGSNQIVVKKFLIFKKILETLIEPFNLLLLFIGILELIIYFLFQRN;locus_tag=LOCUS_14700;note=WP_020863056.1 HAD-IC family P-type ATPase (Mycoplasma mycoides) [pid:90.8%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:4.2e-44%2C partial hit],internal stop codon at [1002446:1002448](-)%2C[1002728:1002730](-),MGA_1470
sequence1	MetaGeneAnnotator	CDS	1003108	1003650	.	-	0	ID=MGA_1471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEEVMVVEQLPMTEPEPVVEPEPMMTEPEPMMTEPEPVVEPEPKPEPKPEPKPEPEPVVVPAPIMVESETKPAKKRKKKKTYPQVTKGMLLDELYEDPEFIEMTKVSIKTIFDKAFIVASKNLVAGDHVVLAKFGKFETVEKEAQMKMNPLTQEQIEVPAHKVVKFKLSKSVKEKMNE;locus_tag=LOCUS_14710;note=WP_008363575.1 HU family DNA-binding protein (Mycoplasma feriruminatoris) [pid:82.8%25%2C q_cov:67.8%25%2C s_cov:38.6%25%2C Eval:3.7e-52%2C partial hit],internal stop codon at [1003807:1003809](-)%2C[1003852:1003854](-)%2C[1003927:1003929](-),MGA_1471
sequence1	MetaGeneAnnotator	CDS	1003814	1004089	.	+	0	ID=MGA_1472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAMLQNSSNPGPHLTGLANVTPKPVKAVIKSGPIFPVHLLTLTSFKIKMITKETKNRPRNILATSKCLLDGFFDIFISLFTSFYRLKIAI;locus_tag=LOCUS_14720;note=MGA_1472
sequence1	MetaGeneAnnotator	CDS	1004356	1004559	.	-	0	ID=MGA_1473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFTFSLIIVSSIPLLGIEKKASVAIIQVVLIVLLALLSFVGILMLKEPRDDAKTFPNFKSKQKEIK;locus_tag=LOCUS_14730;note=WP_011167054.1 MFS transporter (Mycoplasma mycoides) [pid:81.2%25%2C q_cov:71.6%25%2C s_cov:10.3%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [1004572:1004574](-)%2C[1004590:1004592](-)%2C[1004659:1004661](-)%2C[1004707:1004709](-)%2C[1004833:1004835](-),frameshifted%2C insertion/deletion at around 1004415,MGA_1473
sequence1	MetaGeneAnnotator	CDS	1005034	1005177	.	-	0	ID=MGA_1474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLYLIPLLAVLFLGTNFDVKKDSNEPKVNGFKILKGYLKTKSTYA;locus_tag=LOCUS_14740;note=WP_011167054.1 MFS transporter (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:10.0%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [1004833:1004835](-)%2C[1004860:1004862](-)%2C[1004914:1004916](-)%2C[1004962:1004964](-)%2C[1005013:1005015](-)%2C[1005034:1005036](-)%2C[1005196:1005198](-),MGA_1474
sequence1	MetaGeneAnnotator	CDS	1005196	1005465	.	-	0	ID=MGA_1475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLFGLPAIFMPGEKYGYVLFLILRTVMAIGGTMLTILFQPVAANFFTKKAKPVYSQIAIAFFPLGSIVSLVPFVIAGNSEAVQNIQNN;locus_tag=LOCUS_14750;note=WP_011167054.1 MFS transporter (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.0%25%2C Eval:3.2e-44%2C partial hit],internal stop codon at [1004914:1004916](-)%2C[1004962:1004964](-)%2C[1005013:1005015](-)%2C[1005034:1005036](-)%2C[1005196:1005198](-)%2C[1005559:1005561](-)%2C[1005682:1005684](-)%2C[1005724:1005726](-),MGA_1475
sequence1	MetaGeneAnnotator	CDS	1005988	1006287	.	-	0	ID=MGA_1476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNNIIDVDKYFQNYLDKSNLKSVRFYQNYIKKNIEDLQIKKNLLDQLKGLDCDYITINFNTPTITKKVCVSDINLKYKDYVIEQFIKMLEKSNQLVEI;locus_tag=LOCUS_14760;note=WP_020863058.1 hypothetical protein (Mycoplasma mycoides) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:46.3%25%2C Eval:6.2e-48%2C partial hit],internal stop codon at [1006315:1006317](-)%2C[1006375:1006377](-)%2C[1006558:1006560](-),MGA_1476
sequence1	MetaGeneAnnotator	CDS	1006740	1006940	.	-	0	ID=MGA_1477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIRVDAKSLSEQTKILNKTDSDLGLYHDQVLNDKLPLTIGGGIGQSRLSMFLLEKAHIGEVQVSV;locus_tag=LOCUS_14770;note=WP_011167158.1 aspartate--ammonia ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:20.2%25%2C Eval:1.5e-30%2C partial hit],internal stop codon at [1006740:1006742](-)%2C[1007004:1007006](-),MGA_1477
sequence1	MetaGeneAnnotator	CDS	1007004	1007309	.	-	0	ID=MGA_1478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIISKEQRNLEFLKQIATKIYDSIRYVEHKINFKYPDLVDKLPKQLTFIDSLDLYNEYPNLTAEQREDEVAREYKAVFIYKIGYDLPDKKPHSKRAFDYDD;locus_tag=LOCUS_14780;note=WP_011167158.1 aspartate--ammonia ligase (Mycoplasma mycoides) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:31.0%25%2C Eval:3.7e-53%2C partial hit],internal stop codon at [1006740:1006742](-)%2C[1007004:1007006](-)%2C[1007313:1007315](-)%2C[1007319:1007321](-)%2C[1007388:1007390](-)%2C[1007439:1007441](-)%2C[1007478:1007480](-),MGA_1478
sequence1	MetaGeneAnnotator	CDS	1007478	1007669	.	-	0	ID=MGA_1479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKSKLSIKQTQQAIQDIKFGLTKQLKQNLNLTRVSAPLFVTSESKINDGLNGDIPVVFTPNQ;locus_tag=LOCUS_14790;note=WP_011167158.1 aspartate--ammonia ligase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.3%25%2C Eval:5.0e-29%2C partial hit],internal stop codon at [1007313:1007315](-)%2C[1007319:1007321](-)%2C[1007388:1007390](-)%2C[1007439:1007441](-)%2C[1007478:1007480](-),MGA_1479
sequence1	MetaGeneAnnotator	CDS	1008164	1008634	.	+	0	ID=MGA_1480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYDLVKFKNVNQKPILIDYLYNIMVFLILQNILFDLLKQDFINLKDEISIKVNIDQRRNYKNSLTKSNSFKELKMYLNTRMYEKSKFINMNKIEVLQFNSKLEPNIRYADYYVGLLSSVRRILKNQAKSYDFKSDKLLCLLNNKIKHIEYKNTFS;locus_tag=LOCUS_14800;note=WP_011167159.1 DUF3800 domain-containing protein (Mycoplasma mycoides) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:61.7%25%2C Eval:4.4e-84%2C partial hit],frameshifted%2C insertion/deletion at around 1007968%2C1008079,MGA_1480
sequence1	MetaGeneAnnotator	CDS	1009865	1010503	.	-	0	ID=MGA_1481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSDKEEYSKYMRNVIKNQKNLDLITRACTGLVYDENKTVTGIYLDDQTILNAKAVIITTGTYLKSEILKGVDRYESGPNNEKTTKGISKSLIDLGIKLMRFKTGTPARVYRDSVDLSNAVLEPGTDMKLAFSFSTNTYTPIEKQQPCYLIHSTLETKKIIEDNLEKSAMYSGTVESIGPRYCPSFEDKVVRFKEKDTHQIFIEPETLNGDT;locus_tag=LOCUS_14810;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:33.7%25%2C Eval:5.1e-116%2C partial hit],internal stop codon at [1009769:1009771](-)%2C[1009865:1009867](-)%2C[1010513:1010515](-),MGA_1481
sequence1	MetaGeneAnnotator	CDS	1010513	1010785	.	-	0	ID=MGA_1482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNYDVIVVGGGHAGVESALASARLNKKTALINLYEDKIATMPCNPSVGGPAKGIVVREIDALGGEMAKAADATALQTKLLNSSRGPGV;locus_tag=LOCUS_14820;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:14.3%25%2C Eval:2.4e-44%2C partial hit],internal stop codon at [1010513:1010515](-),MGA_1482
sequence1	MetaGeneAnnotator	CDS	1010933	1011130	.	-	0	ID=MGA_1483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRTGVNVTSGAVVTTIVAKSEGLIGEESTILSKQQLEKQKIIREKKSKPEIKEAQQTNKVEVKN;locus_tag=LOCUS_14830;note=WP_011167177.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:98.5%25%2C s_cov:12.2%25%2C Eval:5.5e-28%2C partial hit],internal stop codon at [1011179:1011181](-)%2C[1011341:1011343](-),MGA_1483
sequence1	MetaGeneAnnotator	CDS	1011179	1011310	.	-	0	ID=MGA_1484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFTFFILAFVITLIASLGISGIPGTATVLTSGVLSGLGLGV;locus_tag=LOCUS_14840;note=WP_011167177.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:65.1%25%2C s_cov:5.3%25%2C Eval:2.8e-08%2C partial hit],internal stop codon at [1011179:1011181](-)%2C[1011341:1011343](-)%2C[1011539:1011541](-)%2C[1011542:1011544](-),MGA_1484
sequence1	MetaGeneAnnotator	CDS	1011341	1011475	.	-	0	ID=MGA_1485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIETLKDEIKIDDSAVSTVVPLSTTMGLMGCAGVQSGVITSLL;locus_tag=LOCUS_14850;note=WP_011167177.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [1011179:1011181](-)%2C[1011341:1011343](-)%2C[1011539:1011541](-)%2C[1011542:1011544](-)%2C[1011749:1011751](-),MGA_1485
sequence1	MetaGeneAnnotator	CDS	1011542	1011727	.	-	0	ID=MGA_1486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFMKIMPLAVMSMIASSVISKPIGALATIGKVLGLGYLGLTISLLFLTFLLFVNKVNVIA;locus_tag=LOCUS_14860;note=WP_011167161.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:75.4%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:4.9e-16%2C partial hit],internal stop codon at [1011341:1011343](-)%2C[1011539:1011541](-)%2C[1011542:1011544](-)%2C[1011749:1011751](-)%2C[1011872:1011874](-)%2C[1011905:1011907](-)%2C[1012010:1012012](-),MGA_1486
sequence1	MetaGeneAnnotator	CDS	1013040	1013381	.	-	0	ID=MGA_1487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEHFNKEIVLIEKTSRLNQRVFDQEITDLLEQNLIKNNVEIIKENGLKSITQTKDKRLSLTLDQNEEIEVDLIILAIGFRPATEFLKDTKLEMLGNGAIVVDKHGRTNLKNI;locus_tag=LOCUS_14870;note=WP_023905986.1 CoA-disulfide reductase (Mycoplasma mycoides) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:25.3%25%2C Eval:4.3e-57%2C partial hit],internal stop codon at [1013040:1013042](-)%2C[1013604:1013606](-),MGA_1487
sequence1	MetaGeneAnnotator	CDS	1013604	1013873	.	-	0	ID=MGA_1488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVIIGGAASGMTVASRLKKADKKAQIIVIQKEKYVSLGACGLPYFVANPSLKPTDLLARTVEQFIEQDILVYSESVVKKIDAENQKV;locus_tag=LOCUS_14880;note=WP_023905986.1 CoA-disulfide reductase (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:7.8e-43%2C partial hit],internal stop codon at [1013604:1013606](-),MGA_1488
sequence1	MetaGeneAnnotator	CDS	1014091	1014240	.	+	0	ID=MGA_1489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKNKNKALIIVDYQYDFCDPNGSLYVKNAYTLKPKIEKLAKELKSQG;locus_tag=LOCUS_14890;note=WP_011167163.1 isochorismatase family protein (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:29.5%25%2C Eval:3.5e-22%2C partial hit],internal stop codon at [1014238:1014240](+)%2C[1014295:1014297](+),MGA_1489
sequence1	MetaGeneAnnotator	CDS	1014781	1014972	.	+	0	ID=MGA_1490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKHIRLLAKLGVLFSVASLPLVVVSCKTSNSNNNKPNNNQQKQLSKIDISSFKGKIEPKNE;locus_tag=LOCUS_14900;note=WP_011167164.1 BspA family leucine-rich repeat surface protein (Mycoplasma mycoides) [pid:80.0%25%2C q_cov:100.0%25%2C s_cov:14.6%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [1014970:1014972](+),MGA_1490
sequence1	MetaGeneAnnotator	CDS	1016317	1016523	.	+	0	ID=MGA_1491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVETSKKNKQVIFNLKNSKYHSSYFIYICVGILFILGLIALIFSTPYKNDFKLSQFFEKITNYELGK;locus_tag=LOCUS_14910;note=WP_020863066.1 phosphatase PAP2 family protein (Mycoplasma mycoides) [pid:91.2%25%2C q_cov:100.0%25%2C s_cov:16.7%25%2C Eval:1.7e-29%2C partial hit],internal stop codon at [1016521:1016523](+)%2C[1016524:1016526](+),MGA_1491
sequence1	MetaGeneAnnotator	CDS	1016587	1017000	.	+	0	ID=MGA_1492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAIECFFAYKKQNKKVFFIKHYYLVKIIYILILFTIISIAIFRIYKVYNFDNGFGKYGDLVFQDTIIYRQILTTLILVYQVIILSLFFYTIHFKLAKRSDILTNKYFSKSIKILIIGPFLLTVITLIKGMTSRPYY;locus_tag=LOCUS_14920;note=WP_020863066.1 phosphatase PAP2 family protein (Mycoplasma mycoides) [pid:89.8%25%2C q_cov:100.0%25%2C s_cov:33.7%25%2C Eval:3.3e-65%2C partial hit],internal stop codon at [1016521:1016523](+)%2C[1016524:1016526](+)%2C[1016998:1017000](+)%2C[1017199:1017201](+)%2C[1017205:1017207](+)%2C[1017271:1017273](+),MGA_1492
sequence1	MetaGeneAnnotator	CDS	1017031	1017201	.	+	0	ID=MGA_1493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTHPEFVTYYLKQENFQLGFLASSSDFKQYDFLKLVDINQIKNMYFSNANSTDN;locus_tag=LOCUS_14930;note=WP_020863066.1 phosphatase PAP2 family protein (Mycoplasma mycoides) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:13.8%25%2C Eval:2.5e-25%2C partial hit],internal stop codon at [1016998:1017000](+)%2C[1017199:1017201](+)%2C[1017205:1017207](+)%2C[1017271:1017273](+)%2C[1017322:1017324](+)%2C[1017439:1017441](+),MGA_1493
sequence1	MetaGeneAnnotator	CDS	1017671	1017883	.	+	0	ID=MGA_1494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNTLPKKDAISTEFKLKQQKTFSFKPIFISLIIIYVLAVISLIFSTPYKYDFKLSQFFEKGLKFEIVKY;locus_tag=LOCUS_14940;note=WP_020863066.1 phosphatase PAP2 family protein (Mycoplasma mycoides) [pid:53.6%25%2C q_cov:80.0%25%2C s_cov:13.8%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [1017439:1017441](+)%2C[1017881:1017883](+)%2C[1017890:1017892](+)%2C[1017971:1017973](+)%2C[1018001:1018003](+)%2C[1018016:1018018](+)%2C[1018055:1018057](+),MGA_1494
sequence1	MetaGeneAnnotator	CDS	1019166	1020065	.	-	0	ID=MGA_1495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLESEISILNSKIQEQEKVSQELEKKIKEVEKNKNIIEKEIERLRKKLAEKQKTIKSLKDQDYVLELEYDRTDSYKENLKIETKVFEIEIRKKEHKQKEIRKELKTKEQEHKTLISETKDLSQRTKDLERQASLSKQRIEELNLEKTKKESELKELESKIDKMEFSLTKESLEKEIKDKQKEIEQLNKDKESLLATQGEIEKLLQEYESDKKDIKKQIAANMITQSNLEEEIEKTEKENRKLLSEIDDILNKKIILKQEVEHMQDTIDEIRNKEPINIDKEINTSVDLVNEIIVTMGE;locus_tag=LOCUS_14950;note=WP_011167167.1 hypothetical protein (Mycoplasma mycoides) [pid:40.0%25%2C q_cov:31.8%25%2C s_cov:97.9%25%2C Eval:6.4e-13%2C partial hit],MGA_1495
sequence1	MetaGeneAnnotator	CDS	1020300	1020578	.	-	0	ID=MGA_1496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSQIDNLKKESKILKKQFDSEKSKLSDIEAKISVAESQLINVKSEQERIKNELQQKQNEIDENNKLISNLEAQLQQLKSEFENLNSQKSED;locus_tag=LOCUS_14960;note=MGA_1496
sequence1	MetaGeneAnnotator	CDS	1020642	1021223	.	-	0	ID=MGA_1497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLTSLLAVISVITATGLGYVGYKNIAVSNNTKEQNMLNQIKSIKKELKTKELELKNIQKILNDSENKKNELTNQINNLDANINSLNDKGKTNKNRLNKLDADLVKINSEIKLDNQNISLKENEIKKLEEQIKENKRLLKTILNEFFKKEKELEDLFAKNEKINKEKSELENVKKSFSDEIYKLESIVQKSN;locus_tag=LOCUS_14970;note=WP_011167168.1 helix-rich protein (Mycoplasma mycoides) [pid:56.3%25%2C q_cov:98.4%25%2C s_cov:73.6%25%2C Eval:1.0e-53%2C partial hit],internal stop codon at [1020642:1020644](-),MGA_1497
sequence1	MetaGeneAnnotator	CDS	1021233	1021394	.	-	0	ID=MGA_1498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPIQEKINKNHKEIKDLNSKLDQSKKEIKDNIKKLEKIIYDAISSNVSELTE;locus_tag=LOCUS_14980;note=MGA_1498
sequence1	MetaGeneAnnotator	CDS	1021443	1023494	.	-	0	ID=MGA_1499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIVLLTAISVFSAAGISYVGYKNLSNDTTINNQEHEFKQLEEKLKTLQNEILNSEAKIKDLDTKDAEIIKNSNEKIKILKQQESDIANKLTQENNKINELIKNLNISKSESKAKKEQKIKLEQELAKLKREKLKNDANHTFFNGEIRKLQDELVLSNTKLNELKEQIKTYESELIKLETDKNNKQKNIDKVKSELAKKQHLILVLKLKIQEYDQLKKDYSNLEEQFNSLKESFSEKQKEIEEKTEILQRTHEQLQQLSNSNDNDKKELENKISELEQTEEKISDLNNKINQVKSEISDLNKKKDSDLMNVKSEISYIDKQLEITGTKLSQSNESLNQLKKFIEKIEKDKSDNSSENQKLNEQIEQKNAEIQKLEREQQQYLANIKKLKAQKSNLEQELEKIKKENELKEQQLKNQQLEYEKLSREYTRLLAFRIVLNSEISDLTNEIAAKKIILKNHKKFIEKEERNLESLTKKYNSIKQDLKAKQQQFEQKNSELLMLKTQKSELENKISNLTKEQNEFIEKQKQLSNEIKEINNRISSKKDELLNDKDDLKRVKEVVDSLNKTIEELKHTNENIERANTEKQEEIDKKADEILDLIKEVEMYETKISQLNRDLNLAEKEHERLSTIKANIENASNKIIEYIQQIRFGFKTTKESLAEIIKKDQELKEDLSSFSELVKK;locus_tag=LOCUS_14990;note=WP_011167169.1 helix-rich protein (Mycoplasma mycoides) [pid:29.8%25%2C q_cov:73.8%25%2C s_cov:84.5%25%2C Eval:5.0e-58%2C partial hit],internal stop codon at [1021443:1021445](-),frameshifted%2C insertion/deletion at around 1022550,MGA_1499
sequence1	MetaGeneAnnotator	CDS	1024057	1024512	.	-	0	ID=MGA_1500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKEQEISNLEKELESLDYDKNYNLLEKQKLENDEKINKLHQEQTSLKNKQKELKEKLQELETTKSDLRIKLLEKTKTRENLAGEVNHLNVENKKIEELIQKIQSKKEELEKQVELIEKPALTAIEKSNIILDSINASVYKVQNITDLMND;locus_tag=LOCUS_15000;note=MGA_1500
sequence1	MetaGeneAnnotator	CDS	1025188	1026111	.	-	0	ID=MGA_1501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLSVLLATVSVFTSTGFAYVSLKNIAVKRDTREDDITKKLNTLKKQLEQKQKAAKNIENNFNLRITKINSFNSEIKDLEKEISSLNTKLIVNNDKLTKLDSDSKKIDEDIKNNNDQMNNNKEQSSKLEKELKELEKQIYKNLVELTNEDNIATKLNEKFNDLINKKHNIEDIEHEVEHEIAKINNDLLRTKLEELRLEKILTSIKEYTEKNRSLEAKISETKNKVNEIKDNIQKLTSDKNGLVQEINNTQQKILTTTQKQNEIKKQLSDKQKEVERNNGILEQKNKDLNNIKTELEELNNQKAQN;locus_tag=LOCUS_15010;note=MGA_1501
sequence1	MetaGeneAnnotator	CDS	1026702	1028375	.	-	0	ID=MGA_1502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLVALLAAISVFSAAGFSYVVYKNIHNQRSFLNTHQNEVKELEKQLKSVSDDINTKENQLKVLLLEDEKNFISSKDKFNELKQKQKELIKKDSDQKQMISKLTRDLTNLKLESKTKNDLKIKSESELKNLKKTKEHKDELKDYFIKEIKNKESELAKKNNEINTTITDIESLKKELDQLIKNKDKKQQEIATLKNQINKDYLLIFKLKTKISHYKKLEKELLELNKQTNTLNDSKTQKQVELNQQKVVLKEKQTELANLLEELNKSTDELSKNNNKLVNINKQIKETKDQIQTIKTKISELKKEKQTDIDKVNSEIRNKENQIKDLQTQLDQTNSQISLLTQQIQELEKQKQNSTSENNTLNEQLEKKKNELKQLTTQKESYLDSIKNSKQQKQELEAKLDKAKKQEQQKQEQIKKLEKDLETLDKRIKRLKVEKTDLASQIDELNKTKTSKEKLVNSLKQIIESQQNNLSTLERQYNSIKQTLDQNQQEITRKTNELSSLNSQKQQLEKEVKKLTDQSSELNEKRDALNKEINDLDSKISNINSDKKTKKDRLD;locus_tag=LOCUS_15020;note=WP_011167170.1 hypothetical protein (Mycoplasma mycoides) [pid:39.7%25%2C q_cov:27.1%25%2C s_cov:98.7%25%2C Eval:7.8e-22%2C partial hit],MGA_1502
sequence1	MetaGeneAnnotator	CDS	1028698	1029114	.	+	0	ID=MGA_1503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILGSVGLMATTSAAVIACGDRAPNIKQKEEKTKPSEAPKNEESKKEEKKQEEFQPKFSDVENKTLGNFEPNNKNTISQGDIKKELAKKLNVNESDLQELKTNSSSNGIGFGSVRSKTFVGALEFKFEIEENK;locus_tag=LOCUS_15030;note=WP_020863074.1 lipoprotein (Mycoplasma mycoides) [pid:73.5%25%2C q_cov:78.3%25%2C s_cov:53.6%25%2C Eval:3.8e-37%2C partial hit],MGA_1503
sequence1	MetaGeneAnnotator	CDS	1029294	1029959	.	+	0	ID=MGA_1504;product=lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020863074.1;translation=MCISMNTPQKGNNNMKKLLTILGSVGLMATTSAAVIACGDKTQQKTPDKKEENKPAEEKKEEKTEEPKKEEEKKEETKQPNFSSVENQVFSNFEPDENNIIPQAKIKEELAKKLDVSKPELQELKVDYEKKTGSVFLPKHNKTLNFKFSTYLELGELQAEKKNNFSVVSQTKIKEELAKKLKTDSSKLQELKVDYEKNTGTVKGPKSSNPIEFRFSVKEAK;locus_tag=LOCUS_15040;note=WP_020863074.1 lipoprotein (Mycoplasma mycoides) [pid:46.4%25%2C q_cov:93.7%25%2C s_cov:100.0%25%2C Eval:1.2e-43],MGA_1504
sequence1	MetaGeneAnnotator	CDS	1030262	1030957	.	+	0	ID=MGA_1505;product=lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008363442.1;translation=MCISMNTPQKGNNMKKLLTILGSVGLVATTSAAVIACGDKTSQKTPDKKEEKKSADSKKEEKEKTEEESKKEKEEEKKEIDSKSPKKDLDLGVLAKDENRYNSVSQSEIKKKLAKLLQTEESSLTDLKVEYGEESGKGTVRSPKHADPVKFTFVTVLDLGNVPTTKNKDKEYVSNGKIKEELAKKLELNQGDLYNLHVDSSNANSGTGTVKSSKFSGTISFKFTIKEQKNK;locus_tag=LOCUS_15050;note=WP_008363442.1 lipoprotein (Mycoplasma feriruminatoris) [pid:38.7%25%2C q_cov:93.5%25%2C s_cov:100.0%25%2C Eval:5.5e-29],MGA_1505
sequence1	MetaGeneAnnotator	CDS	1032020	1032172	.	-	0	ID=MGA_1506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDKHFELAYLIETSNMSSECEKVFLDLYKNYDEHKLLLNKIFVNYIVIL;locus_tag=LOCUS_15060;note=WP_013448152.1 phosphotransferase (Mycoplasma leachii) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:21.0%25%2C Eval:7.8e-22%2C partial hit],internal stop codon at [1032020:1032022](-)%2C[1032185:1032187](-),MGA_1506
sequence1	MetaGeneAnnotator	CDS	1032185	1032340	.	-	0	ID=MGA_1507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSELNTSVEVISKYASLIDDILDSMEFNTPLHNDLFPFNMIQTENKIYFVD;locus_tag=LOCUS_15070;note=WP_013448152.1 phosphotransferase (Mycoplasma leachii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:21.4%25%2C Eval:1.6e-22%2C partial hit],internal stop codon at [1032020:1032022](-)%2C[1032185:1032187](-)%2C[1032482:1032484](-),MGA_1507
sequence1	MetaGeneAnnotator	CDS	1032482	1032652	.	-	0	ID=MGA_1508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKITKGGTNVSYRIDNTFLQIKNYNNFNHQINYELLKNFDFVPKLISNNQKEII;locus_tag=LOCUS_15080;note=WP_013448152.1 phosphotransferase (Mycoplasma leachii) [pid:94.6%25%2C q_cov:100.0%25%2C s_cov:23.5%25%2C Eval:2.5e-25%2C partial hit],internal stop codon at [1032482:1032484](-),MGA_1508
sequence1	MetaGeneAnnotator	CDS	1032667	1032885	.	-	0	ID=MGA_1509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNEIHAFNVSKGQAIKGLQEKLNISSDDIIVAGDDYNDLSMFEMFYDNSYICKHEHNKNIRNKAKYLINNI;locus_tag=LOCUS_15090;note=WP_011167184.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:27.3%25%2C Eval:3.6e-35%2C partial hit],internal stop codon at [1032667:1032669](-)%2C[1032958:1032960](-)%2C[1033072:1033074](-),MGA_1509
sequence1	MetaGeneAnnotator	CDS	1033072	1033446	.	-	0	ID=MGA_1510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLFSDFDNTLRNSKVKNSLKIDQKDLDFVKEFQKNNKLIVSTGRPYKQLKEHLLDEYNLLPDYFIVNTGALVCDNQGEVFYKKTIDKNIKIQLLDFLKTIVDQIDVIVFATSDNESFLFHKN;locus_tag=LOCUS_15100;note=WP_011167184.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:47.0%25%2C Eval:4.7e-64%2C partial hit],internal stop codon at [1032958:1032960](-)%2C[1033072:1033074](-),MGA_1510
sequence1	MetaGeneAnnotator	CDS	1033886	1034137	.	-	0	ID=MGA_1511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDIQLKIADIQAKYKDKKDMQSKQKQQLEIQALYKKENMSQFSALAGSFAPLPFLFAIYAIVRSTRALKIAAVGPIALIEGP;locus_tag=LOCUS_15110;note=WP_011167185.1 membrane protein insertase YidC (Mycoplasma mycoides) [pid:94.0%25%2C q_cov:100.0%25%2C s_cov:21.0%25%2C Eval:9.5e-36%2C partial hit],internal stop codon at [1033652:1033654](-)%2C[1033886:1033888](-)%2C[1034162:1034164](-)%2C[1034309:1034311](-)%2C[1034372:1034374](-),MGA_1511
sequence1	MetaGeneAnnotator	CDS	1034162	1034296	.	-	0	ID=MGA_1512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRLFSGTLNPLLDKSSQLSYGISAIFAIFLTTLLIKGITLSFG;locus_tag=LOCUS_15120;note=WP_011167185.1 membrane protein insertase YidC (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:4.3e-17%2C partial hit],internal stop codon at [1033886:1033888](-)%2C[1034162:1034164](-)%2C[1034309:1034311](-)%2C[1034372:1034374](-)%2C[1034567:1034569](-),MGA_1512
sequence1	MetaGeneAnnotator	CDS	1034372	1034554	.	-	0	ID=MGA_1513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQAQYSVNQIVDMTGKSVYAPGVSFEIILSSLGEKGSKVHHFVYDKGNYFEYGYNAITS;locus_tag=LOCUS_15130;note=WP_011167185.1 membrane protein insertase YidC (Mycoplasma mycoides) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:15.2%25%2C Eval:5.0e-29%2C partial hit],internal stop codon at [1034162:1034164](-)%2C[1034309:1034311](-)%2C[1034372:1034374](-)%2C[1034567:1034569](-)%2C[1034612:1034614](-),MGA_1513
sequence1	MetaGeneAnnotator	CDS	1034731	1035060	.	-	0	ID=MGA_1514;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167186.1;translation=MKNKRVIKKNFEFQEIINYKKTVKNFCFVIYYKDNDQSYLRYGISVGKKIGNAVVRNKVKRQIRMILRQNINEVGTISKDVIILVRKSVLELKYATLSKSLIKLIKEIK;locus_tag=LOCUS_15140;gene=rnpA;EC_number=3.1.26.5;note=WP_011167186.1 ribonuclease P protein component (Mycoplasma mycoides) [pid:94.8%25%2C q_cov:88.1%25%2C s_cov:88.1%25%2C Eval:2.3e-47],MGA_1514
##FASTA
>sequence1
ATGAACGTAAACGATATTTTAAAAGAACTTAAACTAAGTTTAATGGCTAATAAAAATATTGATGAATCCGTGTATAACGACTATATAAAGACAATAAATATTCATAAAAAGGGGTTTTCTGATTATATTGTTGTTGTTAAATCACAATTTGGTTTGTTAGCTATAAAACAGTTTCGTCAAACTATTGAAAATGAGATAAAAAATATTTTAAAAGAGCCTGTAAATATTAGTTTTACATACGAACAAGAATATAAAAAACAACTAGAAAAAGATGAACTAATTAATAAAGATCATTCTGATATCATCACTAAAAAAGTTAAAAAAATTAATGAAAACACATTTGAAAATTTTGTAATCGGTGCAAGTAATGAACAAGCTTTTATAGCAGTTCAAACCGTAAGTAAAAACCCTGGAATTTCTTATAATCCATTGTTTATTTATGGTGAATCTGGAATGGGAAAAACTCATTTACTAAAGGCTGCAAAAAACTATATTGAATCTAATTTTTTTGATCTAAAAGTTAGTTATATGAGTGGTGATGAGTTTGCAAGAAAAGCAGTTGATATATTACAAAAAACTCATAAAGAGATTGAACAATTTAAAAATGAAGTATGTCAAAATGATGTATTAATTATTGATGATGTTCAGTTTTTAAGTTATAAAGAAAAAACTAATGAAATATTTTTTACTATTTTTAATAACTTTATAGAAAATGATAAACAATTGTTTTTTTCAAGTGATAAATCTCCTGAATTATTAAATGGTTTTGATAATAGATTAATTACTAGATTTAATATGGGGTTAAGTATTGCTATTCAAAAACTAGATAATAAAACAGCAACAGCTATCATTAAAAAAGAAATTAAAAATCAAAACATTAAATCAGAAGTAACTAGTGAAGCAATTAATTTTATTTCTAATTATTATTCAGATGATGTTAGAAAAATTAAAGGAAGCGTTTCAAGATTAAACTTTTGATCTCAACAAAATCCAGAAGAAAAAATTATTACTATAGAAATAATTTCTGATCTATTTAGAGATATACCTACTTCAAAATTAGGTATTTTAAATGTTAAAAAAATTAAAGAAGTTGTTAGTGAAAAATATGGTATTTCAGTTAATGCTATTGATGGAAAGGCTAGAAGTAAGTCGATTGTAACAGCAAGACATATAGCAATGTTTTTAACAAAAGAGATTTTAAATCACACTTTAGCTCAAATTGGAGAAGAATTTGGTGGTAGGGATCACACAACAGTTATTAATGCTGAAAGAAAAATAGAAACAATGTTAAAAAAAGATAAGCAATTAAAAAAGACTGTTGATATTTTGAAGAACAAAATTTTAACAAAATAATAAAAATAGCTATTTAAACCTAGGTTATTAACAGTTATCCACAAATTAACCTCATAATATTAATAATTTAGAAATAAATATTAGAAATAGTAATATATAACAAACCCAATTATTTTCTAAAATAAAGTAAAAACAATTTGTTTTTAAAAGGAGTAATTATGAATTTTTCAATAAATAGAATGATTTTATTAGATAATTTATCAAAAGCAGCTAAAGTAATTGATCCTAAAAACGTTAATCCTAGTTTAGCTGGTATTTATTTAAATGTTTTATCTGATCAAGTTCATATAATTGCAACTAGTGGAATTCTTTCATTTAAAAGTATTTTAAACAATCAAAATTCAGATTTAGAAGTTAAACAAGAAGGTAAAGTTTTATTAAAACCTAAATTTGTTTTAGAAATGTTAAGAAGACTAGATGATGAATTTGTAGTGTTTTCAATGGTTGAAGATAATGAATTAATTATTAAAACTGATAATTCAGATTTTAGTATTGGAGTTTTAAATTCAGAAGATTATCCTTTAATTGGGTTTAGAGAAAAAGGAATTGAATTTAATTTAAATCCTAAAGAAGTTAAAAAAACTATTTATCAAGTTTTTGTTTCAATGAATGAAAATAATAAAAAATTAATTCTTACAGGTTTAAATTTAAAACTAAATAATAATCAAGCAATTTTTTCAACAACTGATTCATTTAGAATTAGTCAAAAAATTTTAGAAATTCAAAGTGATAATAATGAAGATATTGACATAACAATTCCTTTTAAAACAGCTTTAGAATTACCTAAATTATTAGATAATGCTGAAAATTTAAAAATTATAATTGTTGAAGGATACATTACTTTTATAATTGATAATGTTATTTTTCAATCTAATTTAATTGATGGAAGATTTCCAAATGTTCAAATTGCTTTTCCAACAAAATTTGAAACTATTATTACAGTAAAGCAAAAATCAATTTTAAAAGTTTTATCAAGATTTGATCTAGTAGCAGATGATGGTTTACCAGCAATTGTAAATATTAAAGTTAATGAAGATAAAATTGAGTTTAAGAGTTTTATTTCAGAAGTTGGAAAGTATGAAGAAGACTTTGATGATTTTGTAATTGAAGGAAATAAAAGTTTATCAATTAGTTTTAATACAAGATTTTTAATTGATGCAATTAAAACTTTAAGTGAAGATAGAATTGAATTAAAACTAATTAATTCAACTAAACCAATTGTGATTAATAATGTTTATGATGAACACTTAAAACAAGTAATTCTTCCAACCTTTTTATCAAATTAGTCCACTTAGTGGATTTTTCTTTTTAAAATAAGTATTATGAGTAAAATTAAACAAATTATAATTGTTGAAGGCAAAACAGATTCTGATAAATTAAAACATATTTATGGAAATGATTTAAAAACTATTCAAACAAAAGGGTTAAGTTTAAATAAAAAGACTTTAGAAATGATTAAAGAATTTAATAATAAAACAGGAGTAATTATTTTTACTGATCCAGATGGAGCTGGTAAAAAAATAAGACAAACTATTATAGATTATTTAGATAATAAAGTTTTAAATGCTTTTATTAATAAAAATGATATAAGTAAAACTAGTAAAAAAGTTGGAATTGCTGAAGCTAGTGATGATGCTATTAAAAAGGCTTTAGATAATCTAATTATTTATGATAAAAATAATGTTTCTTTAAGTTGAACTGATTATATAAACAATGATTTTTATTTAAAATCAAATAGAATAGTTATTTGTAAATATTTTAATTTTGATAATAATATTAGTTCTAAAACTTTATTTAAATGATTAAACTGAATGAATGTTTCAATTGATGATATTAAAAAAATAATAGGTGAATAATGAAAGCTAAAAAATACTATGGACAAAACTTTATTTCAGATTTAAATTTAATTAATAGAATTGTTGATGTTTTAGATCAAAATAAAGATCAATTAATTATTGAAATTGGTCCAGGAAAAGGTGCTTTAACTAAAGAGTTAGTTAAAAGATTTGATAAAGTTGTAGTTATTGAAATAGATAAAGATATGGTTGAAATTTTAAAGACCAAATTTAATCATTCAAATCTAGAAATTATTCAAGCTGATGTTTTAGAAATTGATTTAAAACAACTAATAAGTAAGTATGATTATAAAAACATAAGTATTATTTCAAATACACCTTATTATATAACTAGTGAAATTTTATTTAAAACTTTACAAATTAGTGATTTACTTACAAAAGCTGTTTTTATGTTGCAAAAAGAAGTTGCTTTAAGAATTTGTAGTAATAAAAATGAAAATAATTATAATAACCTTTCTATTGCTTGCCAGTTTTATAGTCAAAGAAGCTTTGAGTTTGTAGTTAATAAAAAGATGTTTTATCCAATTCCTAAAGTTGATTCAGCAATTATTAGCTTAACTTTTAATGATATTTATAAAAAACAAGTTAATAATGATGAAAAGTTTATTGACTTTGTTAGATTACTTTTTAATAATAAAAGAAAGACTATTTTAAATAACTTAAATAATATTATTCAAAACAAAAATAAAGCATTAGAGTATTTAAATACGCTAAATATTAGTAGTAATTTAAGACCAGAACAACTAGATATCGACCAATATATAAAATTATTTAACCTAATCTATAATAGTAATTTTTAAATTTATATAATCTAAATGTAAATATTTTAGATATTAAAAAATGAGAGGTTCATATTATGATTAGAGATTTCAACAATCAAGAAGTAACCTTAGATGATCTAGAACAAAATAATAATAAAACTGATAAAAATAAACCTAAAGTTCAATTCTTAATGCGATTTTCTTTAGTTTTTTCAAACATTTCTACTCATATTTTTTTATTTGTCTTAATTGTTATTGCTAGTTTATTTTTTGGATTACGCTATACATATTACAATTACAAAGTAGACTTAATTACTAATGCTCATAAAATAAAACCATCAATTCCTAAACTAAAAGAAGTTTATAAAGAAGCTTTACAAGTAGTTGAAGAAGTTAAAAGAGAAACTGATAAAAACTCAAGCGATAGCTTAATTAATAAAATTGATGAAATAAAAACAATTGTTAAAGAAGTAACTGAATTTGCTAATGAGTTTAATGATAGAAGTAAAAAAGTAGAACCAAAAGTTAAAGAAGTAATAGAAGATGAAAAACAAGTAACTACTCATTTAGAGCAAATCACTAAAGAAATTGAAACTTTAAAAAGTACAGGAAATGGAATTGCAAATAGATTTAGAAGAAGTTTGGGATCTCCTTTTGGATTAGGAACTCTTGTAAATGGTGTAGACAATGATTTTAGATCTGTTAATGCATCTGTTACCAAAATTACCGATTTAGCAAAGAAATTATCTGAAGAAGGTAAAAAAATAACTGCTAATGTTGAAACTATTAAAAAAGAAGTAGATTATTTTTCAAAAAGAAGTGAAATACCTTTAAGAGATATTGAAAAATTAAAAGAAATTTATAGACAAAAATTTCCTTTATTTGAAAGAAATAATAAAAGACTTCAAGAAATTTGAAGTAAATTGATGGGTATTTTTAACCAATTTACTGTAGAAAAAACTCAAAGTAATTACTATAACCATCTAATTTATATATTGTTATTCTTAATAATTGACTCAATAATTCTTCTAGTTCTTACTTATATGTCAATGATTAGTAAAACAATGAAAAAAATCTTATTATTCTACATATTTGGAATTTTAAGTTTTAATCCATTTGTGTGAGTTTCAGTAGTTATAAGTTTTCTTTCAAGACCTATAAAAAACAGAAAGAGAAAGTTTAGTTAAATAGATTTTTAATAATAATATATTCTATTAAAAGTGTTAGTTTAATAAATTAAAAAATAGGTATTGTATTTTTATAGATTGTTGATATATTTAATATATGTAAAAAGATAAATAATTAGAGTTGGTGGTTATCTTTTTACATCGATACATTCATATTAGATGAACAAATCCCTTAATTCATAGAAATTTTTTCCAATTTTAAAAACTTTCTAATGCCCTATGTCAAGCAATTGATATAGGGTTTTATTTTGCTTTTTGAAACTAGACTTTTAGCTAAATTTAAATAGGTTTTTAAGGTATAATTATATTATTGTAAAAGAGCTTTTTATTATGCAAAATTGGTGAGAGGGTGGAATAAATGTCACAAGAATATAGTGCAGAATCGATTAAAGTTTTAAAAGGTTTAGAAGCTGTTAGAACACGTCCTGGAATGTATATTGGATCAACTTCAAAAACAGGTTTGCATCATTTAGTATGAGAAATTTTAGATAACTCAATTGATGAAGCAATGGCTGGATATGCTAATTTAATTAATGTAACAATTACAAAAGAAAATGAAGTTATTGTTCAAGATAACGGAAGAGGAATTCCAGTTGGTATTAATTCAGATACTAAAAAATCTGCATTAAGTTTAGTTTTTACTCAATTGCATGCTGGTGGAAAATTTGATTCAGAAAGTTATAAGATTTCTGGTGGTCTTCACGGGGTTGGAGCTAGTGTTGTTAATGCTTTATCTTTATATGTTGAAGTTGAAGTTTATAGAAACAATATTCACTATCATCAATTATTTAGTGAAGGTGGAACTAAAGAATCAGAACTACAACAACTAGGTCACACCGATTTAAGAGGAACAAAAGTTAAATTCAAACCAGATCCAGAGATTTTTAAAGAAACTGTAGTATTTGATTATGAAATTATTAAAAATAAAGTTAAACAATTAGCTTTTTTAAATAAAGGTTTAAAAATTACTTTAACTGATGAAAGAATAGAAAAAACAGTTGAATATTTATTTTTAAATGGAATTTTAGACTATATTAAAGAAAAAAATGAAAATAAAAATAAAATAAATCCAAATATTTTTTATGTAGATTCAAAATATGAAGACATTGAAGTTGAAATGGCACTTCAATATAATTCTGATTATCAAGAAAATATCATTACTTTTGTAAATAATATTAATACTCATGAGGGTGGAACTCATGAAGATGGTCTAAAACAAGCTTTAATTAGAGATATTAACAGATATGCTGATACAGTAATAAAAAATAACAAAACTCCTTCTAAATTTTCTTGAGACGATATTAAAGAAGGTATGATGTGTATTTTATCAGTTAGACATACAGATCCACAATATGAAGGACAAACTAAAACTAAACTATCTAACCCTGATGCAAAAGAAGCAGTTAATATAATTATTGGAAATGCTTTTGAAGAATTCTTATTAAAATCACCAGAAGATGCTAAAGCTATTTTAGATAAAAATGTTAATGCTCAAAAAGCAAGAATTGCAGCTCAAAAAGCAAGAGAAGAAACTAGAAGAAAATCTGCATTAGATTCGTTCTCATTACCAGGTAAGTTAGCAGATTGTGAAACTAAAGATTCAAGCATAGCTGAACTTTATTTAGTTGAGGGAGATTCAGCTGGTGGTAGTGCTAAAACTGGAAGAAATAGAAAATTCCAAGCTATTTTACCTTTAAGAGGTAAAGTATTAAATGTTGAAAGAGTAACTGAAGCTAGAGCTTTTTCAAACAATGAAATTAAATCAATTATTACAGCTGTTGGTACTGGAATAAAAGAAGAATTAGATCTATCTAAATTAAGATATAAAAAGATAGTTATTATGACTGATGCCGATGTTGATGGTGCTCACATTAGAACATTACTATTAACATTCTTTTATAGATATATGAAACCATTGGTTGCTAATGGTCATATTTATATTGCTCAACCCCCTTTATATAAAATTGAAGCAGGTAAAAAAATAGCTTATGCATATACCGATAGTCAATTAGATGAACTAAAAAACAATGAATTTAATAATTTAAAATACACAATCCAACGTTATAAAGGGCTTGGAGAAATGGATCCACTACAATTATGAGAAACTACAATGGATCCACAACAAAGAACTATGTTACAAATTTCACTTGAAGATGCTACTTTAGCAAATGAAGTATTTTCAGATTTAATGGGTGAAGATCCTGAATTAAGAAAAATTTATATTCAAGATAATGCTAAATTTGTTGAAAATATAGACTTTTAGAAAGGTAGAAAAATTATGAATAATGAAAATAACAACAATGATTCTTTAAATGAAAATCAAGATCATTATCATGGTAAAATTTCTCCTATTGATATTTCAACAGAAGTTAGAAAAGATTTCTTAGAATATGCAATGAGTGTTATTGTAAGCCGTGCTTTACCTGATTTAAAAGATGGATTAAAACCAGTTCATAGACGTATTATTTATGCAATGAACGATTTAGGAATTACTTCAGATAAACCACACAAAAAATCTGCTCGTATAGTTGGAGAAGTAATTGGTAAGTACCACCCACATGGAGATAGTGCTGTTTATGAAACTATGGTAAGAATGGCTCAAGAGTTTTCTTATCGTTATCCTTTAATAGATGGTCATGGTAACTTTGGTTCAATTGATGGTGATGGTGCAGCTGCAATGCGTTATACTGAAGCAAGATTAGCTAAAATATCAAATTATCTAATAAAAGATATTGATATGGATACAGTACCATTTATTGATAATTATGATGCTAGTGAACGTGAACCTGCTTATTTAACAGGTTATTTACCAAACCTTTTAGTTAATGGAACTATGGGTATTGCAGTTGGAATGGCAACTTCAATTCCACCACATAATTTAAAAGAAGTAGTTAGTGCTATTAATGCTTATATTGATAATAATGATATTACTATTGATGAAATTTTAGACAATCATATTTTAGGTCCTGATTTTCCAACTGGTGCTTTAATGACTAATGGATCAAAAATGCGTGAAGGTTATAAAACAGGACGAGGTAGTGTTATTATTAGAGCAAAAATTGATTTTGAAGAAAGTAAAAAACACGATAGATTTGTAGTTACTGAAATTCCATACCAAACTAATAAAGCTAAAATTATTGAAAAAATAGCTGAATTAGTTAAAGACAAAACTATTGAAGGTATTTTTGATATTAGAGATGAATCAAATTATGAAGGTATTAGAATCATTATTGAATTAAAAAAAGATGCTAATCCTGATGTTGTTTTATCTAAACTTTATAAATACACTGCTTTACAATCAAGTTTTTCAATTAATCTATTAACTTTAAATAATAATTTACCTGTTTTATTAGACTTAAAAACTATTATTAAAAACTATGTTGAGTTTCAAGTTAGTGTTATTATAAAACGTTCTATTTTTGAAAAAAATAAATTAACTAAGCGTTATCATATTTTAGAAGCTTTACATATTGCTTTAGATAATGTTGATGATGTAATTAATATTATTAAAAATTCTAAAACTAGTGAAGAAGCCAAAGTTCAATTAACTAATAAATATAACTTTGATGAAGAACAAAATAAAGCTATTTTAGATATGCGTTTACAAAGATTAGTTGGTTTAGAAAGAGATAAAATCACTTTAGAAATGACTAATATAAAAGAACGTTTAACTTATTTAGATGTTTTAATTAATACAAAAGAAGAACAAGATAATGTTTTAAAAAATCAATTAAATGAAATAGCTGACAAGTTTGGAGATAATAGAAGAACAGAATTAATTGATGAAGAATTGATTAATATTGAAGATGAAGAATTGATTCCTGATCTAAAATGAATGATTCTATTATCTCAAGAAGGTTATATTAGAAGAATTAATCCTGATGAGTTTAGAATTCAAAAACGCGGTGGACGTGGAGTTAGTGTTAATGCAGAACCAAGTGATCCTATTGATATAGCAACAATGGGAAAAGCTAAGGATTGAGTATTATTTTTTACTAATTCAGGAAAAGTTTATAGAACTAAGTTATATAACATCAGAAGTTATTCAAGAACAGCAAGAGGATTACCAATTGTTAACTTTTTAAATGACTTAACTAGTGAAGATAAAATTACAGCTATTTTACCTTTAAGAAACAATAAAGAAAAATTTAATTATTTAACTTTTGTTACTCAAAAAGGAATGATTAAAAGAACTAAAATTTCTGAATTTGAAAACATTAATAGAAATGGTAAAAAAGCAATTAATTTAAGAGATAATGATCAACTAGTTTCAGTATTTGCAACAACTGGACAAGATACTGTATTTATTGCTAATGAGTCTGGAAAAGTAATTAGAATTAAAGAAAGCGTAGTTAATCCACAATCTAGAGTTGGTGGAGGAGTTAAAGCATTAAAACTAGAAGATAATGATGTTGTAGTTGGAGCAATTAGTTCATTTAAATTAACTCATATTACTACTGTTTCAAATAAAGGTTTATTTAAAAAGACACCAATTGATGATTATAGAATTAGTGGAAGAAATGGTAAAGGTATAAAAGTAATGAACTTAAACCAAAGAACTGGTAAGTTCAAAGCTATTATTGGAGCTAGAGAAACTGATTTAATTATGATCATTTCAAGTGATGGTAACTTAATTAAAACAAAAGTTTCAAATATTCCTTCACTTTCAAGAAATGCTAGTGGAGTTAAAGCAATTAGATTAACAGATAATCAAGAAATCAATGCAATTACTTTAGAATATCGTAAACATGGTCTTGAAAATGAAGATTTTGAAGAAGACTAAAATATAACAAAAAAATCGGGAAATCCCGATTTTTTATTATTAAATTTATAGCTATCTTTTTGCTTTATCAAAAGGTACACCAACTGCGGCTGGTGCTCTTGATGTCTTACTAAATGCAACCATAGCTAGTATTGTTAAAACAAATGGTAAAGTGTTAAATAAAGTTGAAATTGCTTGAATTGTTTTATTTGTTGAAAGTGTTCCTATTTGTTGACCTAAAGCAAATAGTCATGAAAATATAATCGAACCAATTACAATAAAACTAATTCTTCATTGTCCAAATATCATAATTGCAATTCCTAAAAATCCATATCCTAACATATTTCCACTAAATAAACCACCACCACTAACTGCAGTTACAACAAATACTCCACCACCAACTCCAGCTAAAAACCCTGATAATATTACTGCTAGATATCTATATTTAGTTACACTAATTCCAGCAGCGTCAATTGCATTAGGATTTTCACCAACCATTGCATATCTCATTCCTTGTTTTGTATATTTAAAAAATACAAATAAACCAATTGCTAGAATAATTGCAATAATTGTTCAAATTGGAAGCATACTTGCAACTTGTTGTGTTTTACCATTAACTACTTTAGTAATATTAATAACATCTATTGATGAATATCCGCTTGCAATAACTTGAGATTGTTTTCCAAATCAATTTGATGTTGATAAGAAAATTCCTAATCCTAAAGCTAAAATATTAATTGCTGTTCCTGAAATAATTTGATTTGCTTTTAATGTAATTGCTGGAAAAGCATGTAATAAAGCAAATACAGCTGTAATTACACCAGCCAATAAAACTATTGGAATTTGAGTATAATTACTCTTATTATCATTTGATGTAAGATATGTTCCTAAAATTGAAACAACAAGTGCTCCAATAATCATCATACCTTCAACTGCAATATTAACTACTCCTGCTTTTTCACTAACAAGTGATGATAAAGAAGCAAATAATAAGACACCAACCAAGGCTAATGCTCAAGTTAAAATACTAGTATTAAATAAAATTGTCATTATTTAGTCTCCTTTAACATTGTGTTTGTTAAATTTAGAATTTTTAAATTAGTTTGTTCTTTTAAAGACTTTTCTAAATTAAATAAATTTTCTAAATCAGCTAGATTTTTTCTTGGTGCTTTTTTTATTATTTGTTCGTAGTTATTTTTTTCATCTTGTACAACTTGTTTAGCTTGACTAATTCATTGTTGATATTTATCAATTAGTTCTTGTTCTTCAACTCTTGTAATAACATAACTAATTTGTTTTTTAAGATTAGTAATTAGTTTAAAAGTAGTTAAACTGATTTTTGATTTTTGTTTAATATGTTCTGGTGCATCATATTCACTAATTATATTTTGTGTTAAAACTTCATCAATTTTAGATTTAATTTCTAAAGCATTTTTTAAAGTTTTTTGATTAGATTTAATTGCTTGTTTGTTAAGATTTAAATCTAAATTATCTGTAATTAAAGTTTTTAAATCATTTAATAAGCTAACTGCTTTATTAACATCACTTTGAGAAAGATTCATATCAATTGCTTGTAAACGCTTTTGTTTTAATACGAGTGCAGCTTTTTTAGATTCTTTAAAGCGATCTTTTTCTTTATTTAAATAATTATTGTATTGATGTAAAATGTCTTGTAATTGAACTTGTTCTTGTTTAACTATATTTTTTTGATTTTTATATTTATTTTTTTGTTCTAAAATTTTAGCATTAGCTTGTTTTTTTACAACTTTTATTTGTTCTTTAAGTTGCTTAATTTTTTCAAGTTTTTCAGAATTATTAGTTTGAGTTGAACTTTTATTTAAATTAGATATTTGTTTTTCTAATCTTAGTTCTGATTTAATGTTTTTGATTTGTTCTTTAAGTTGAGCAATAGTTTTTAGTTTGTTTGCTTTAATTTCAATAATATTGTTGTGAGAATCAAATTTATAAGTAATAATTCCTATTTGACTTTCTTTAAAGACTTTAATTTGTTGAATTTTTAATCTATGTGTTTTTTTAGCTTGTTTGATGTTTGTTTGATATTCATTTAGAATGCTTGAAATTATTTTTTGTATTTTATATTTGTGATCAGCTAGTTCTAAATCAAGATCGCGTAAATTTTGAATATATTTAGAAGCTAGTAAGTTAACTTGTTTATTTAAATCATTTTTTAATCCATTAACATTAAGTGAATTTTTATCTTGATCAACAAATTTTTTAATTTCATCAATTTTAGATTTAACTAAATAAATTGATTGTTTTAAATCATTTTTTAATTCTATTTTAATGTTTTTTCTACCATTTCAAAATAGGTGAGGATTTGAAGTTTTATTTGTTATTTGATTTTGTTTAGTATAAATTTGATATTTATTATTAACTTCTTGTTTGTATTCTTTTGTAAAAATTAAAAAGATTTTTTTAAGTCTTAGTTTAAAAGTATATAGTTTTAATTTTCAATAAATTTCTCTATTAACTTTTGAAGTATATAGATTGTATTTATTTTTTAGTAATTCTCAAGGTTTAAAAGCAATAAACACTGAAACAATAGCTGTAAAGTAAATTAAAATTCCAGAAATTAAACCACTAATTTGAGTTGAAATACTATAAAGAGATGAAATAGGACCACCACCAGTTTTAATAATTGCTCATAACCAACCAATAGCAATAATTCCTATTGGATTATTAAATGCAACTAGTGAAACTGCAATTGCATCAAATCCTAAAGTAGGTAAACTATTTGAAGCAAAGAAGTTGTTTGGAGAAACTGTAAACATTGATAAAAATCCAGCTATTCCAGCAACAGCTCCAGATAAAGTTAGTGATGCTATGATTTGTCTTTTAACATTAATTCCAATATATTTTGATCCTGTTATTGATGGTCCAACTGCTTTTAATTTAAACCCTAAAACTGTTTTTGAAAATAATATTCAAATAATAACTACACAAATTAAAGCAATTAATAAAGGAATAATTACTGTATTTGATCCAATACTTAATTGGTCTGATGGAATATTTTTTGAAGTATAAGATAATCCTGAAGAAAAATCTTGATATCTTCCAAAAAATCATTTAAATATATAAAACACTGATCAGTTTAATAATATAGTTGAAACAACTTCATGTATGTTAAATAAAGCTTTTAATATACCTGCAATAAAAGCAATAAATGCAGCTGATATTATACAAGTTATTAACATTAAAATAATCATAAATGGAGTTATAGAACTAGCATCTTTTCCACTTATAGAAAAAAATACAATTGTAGCAACACTTGTTGCAGTTAGTATTTGACCTGATGCTCCAATATTAAACACTCCTGCTTTAAAAGCAATTGCCATTGATAATCCAGCAACAATATATACAGCCATTCAGTTTAAACTAATTTGATAAAAGTTCTTATCAAAATTAATTCCAAATAAAAGTGCAAAATATGTAAATGGATTAATATTTAAAAATGATAAGAAAATACCTGAAACTATAAACCCAACAATAATTGAAAAAATAGAACCTTTAATGTATTTTAGTTTAGTTTTTGTAGAATCTGAACCAAATAAATATTTAGATTTTTTAGATAATGTTCAAAATATTTTAGATTGCATTAGTTTTCATCTCCTTTCTATTTTTTGTTGTTTTAGTAACTTGATTTTGTTTAATTTGTTCTAAAGTTTGACCAATCATTAAAGCTCCGATTTCTTCTTTTTTAGCTTTTTTAGCAGGTAATTCACCGATTAGTTTTCCATCATTAATAACAACTATTCTATCTGCTAGAGCAATTACTTCATTTAAATCATAAGAAACTAGTAAAATAGCTCTACCTTTTTCTTTTTCTTTTAAAATGTGAGAATGAACATTTTCTATAGCTCCAACATCAAGTCCTCTAGTAGGTTGAACAACTATTAATAAATCATGATCTTTTTTAATTTCTCTTCCTACAATAGCTTTTTGTTGATTACCACCAGATAATCCTCTTGCTATTGCAGTACCATTTCTAGAACCTCTTATATCAAATTCTTTAATAATTAATTGAGCATATCTAGAAATTGCTTTTTTGTTTATAAATCCAAATTGTGAAAACGGTTTTTTATCTATTTCTTGACTTACAATATTTTCTTCAACTGAAAAGTCTAATAACATACCATATTTATGGCGATCTTCTGGAATATGACTCATTCCCATGTCATATCTTGTTTTAATATTACTATTAACAATGTTTATCTTTTTATAAACAATACCACCACTAACTGGTTTAACTAATCCTGTTATTGCTTGAATTAATTCACGTTGGCCATTTCCTTCAACTCCAGCAACAGCTACAATTTCTCCCGGTCTAACTTTTATATTAAAAGTTTCTAGTCCATAAACTTTATGATTTGTATCTTTTTTAACTATTAAATTAATTACATCTAATATAGGTTCATCAGATAAGGGTTTTTTATATTTGTTTTTAACTTCAACAAGTTTTCTACCAACCATTGCTTCAGCGATTTCATTCCCACTAACCATTGAAACATCTAAATCTACAATCTTTTTACCTAATCTAATAACAGTAGCAACATTAGCAACTTGTTTTATTTCATCCATTTTATGTGAAATAAAAATTATTGTTTTTCCTGCTTTTTGTAGGTTTTTCATAATCTGTAAAAGACTTTGAATTTGTTGAGGAGTTAAAACTGCAGTAGGTTCATCAAAAACTAAGATATCTGCTTTTCTATATAAAACTTTTAAAATTTCTACACGTTGTTGCAAACCAACTGAAATATCTTGAATTTTTGCATCTAAATCAACATATAAATCGTATTTATTCATTATGTCAATTAATTCTGCTCGCATTTTAGTTTTATTTAAAAATATATTTGATTTTGTTTGTTCAACACCTAATATAATATTTTCTAAAACTGTATTGACTTCAACTAGTTTAAAATGTTGGTGAACCATACCAATACCTAGTTTATTTGCTTTAATTGGATTTGAAATAATTTCTTCTTTGCCATTAACTTTAATTGTTCCAGAAGTTGGCTGGTATAAACCAAATAGAATTGACATTAATGTAGATTTACCAGCTCCATTTTCACCAACAAGAGCGTGTATATCACCTTTTTTAACTTTAATTGTTATATCATCATTAGCAACAATAGCACCATTTAAAAACGTCTTAGTAATATTTTGCATTTCAATAGCATAATCAATTTTTTGTTCTTTATTCATAGTTATGCTCCTTATTTTTTAGTAGATTGAATTAACATTTCTCAATAGTTTTTTATTCCTGCTATACCATTATTATTTAATGTTAATTTTTCTCATTCTTCATCTTTAATGCTTTTTGAAATTGATTCTAATGCTTTATCTAATGATGTTTTTGTTAAGTATTGTTTAAAAGTTTCACCTGATTTAAGTAGTGTTTCTTTAAGATTTTTTTCTATTTCTTTTGCTTTATCTTTTGAATAATCAATAGATTCAACTGATAAGTTAGCAGCATTTGTTAAAGAACCATTAACTTTTTCAATACTTCATTTAGTGTCTGCTTTTCTTGATGATGAAATAGATCAATCTGCTTGTTCTCCAACTAAAGTTGTTCCGTCTTTAATTTCTTTTTCATGTTTTGATGTATATGTTTTATCTTTAATAGTAGCTTTTTGTAGTGATCTTGCTCTATTTAAAGCATAAACTGAAGCTGAAACAATGTTTTTCTTTGCACTTGTAATAAATCTAGTTTCATTACCTTTTTTAGAAGAACCAACACTTGTAACTTGATCAGTATCAACACCAATAACATAAGGTTTATGACCAGTTGATTCTAAAACATCATTAATTTGAGGTCCAGCAACTGGAAAAATAATATCAGCTTGATTTTTAATTAAAGAATCAACTATTCCTGATTTTTTAGCTCCACCAACGTCAAATCCTTTTGAAAATCAAGAACTTTCATTAACATCATTTAGTTTTTCAACTTCAGCTTTTGATCCTAAATTAGCATAATAAACTGGTTTTAGTTTATATTTAACTGTTTGTTTTTTATTATCTGTTAATTCAATTTCTTTTCCTGCAAATTTATTATTATAAACATGCATTGCAGCAAGTAATCCTCACATATAATTATCAACAGCATTTTTGTTAGTAATTCCACCAAACATACCTATTGATATGTATTTATTACCTGTTGTTGAACCTTGTAAGACCATATCAGTTTTAGAATTTGATGCATCAATGGCTTCTTTTGAAAATTCACCACTATTTAAACTAGTCATTTTGGGGAGATTTGCTCACATTATTGCATCTCAACCCGCATTAAATCCAGCTAGTTCTGAATTAAAAATAACTGAAATAACATTATCTTTTTTATATTGTGCATCTAAAAAGACAACAGTTTTATTACCAGCTTTTTTCATTCTATCAGCAGCATAATCAACTGCTCCTAAATGACCAAATGCAGCTAGTAATAATGCATCTGCCTTTTTATAGATTGCTGTATTATAAGAAGTTCTAAAAGCATCAATTGTATGATCGGGCGTTTCTACATAGTTGTTACTATTTTGTTTTGCATATTCATAATCTTCATTTATGAACATATGTTGTTTTTCATCTCATTTAGTGTGCCCACCAATTGAACTTTTGTAATTAAATTGTCTTGCTTCTAATTCATTTTTAATATCAAAATTACTATGAATTTGAGACCCATATTTAATTACACCTTCTCAAGAACTTTCATTAAAAGTTTTATCTCTAATGTTACCTCCATCAGTAACAACTAAAACTCTTTGGCCTAAAATTCCTTCAGCAAAAGTTGGAACTTTACATGAAATCACCATTGAAACTGAACCACTAATTCCAATGAATGTTGTTAAAACTGTTAAAAGCTTTTTCATTAATAACCCCCTTAAATATATTTAAATAAAAAAACTAATGTAAATATTTTTTTTGTATAGATTAGTATTTCAATTTAGATTATTTTTTGTTGTTAATAGAATTATTTAAAACTTTGTGATCTAGTTATAAATCTTTTTAAATAAGTTTTAAAAGATCAAAAAAATCTCAGAAAAAGTCTGAGATTTTTATTCTTTAATTCTATTAAAAATTACCTTTTTATCATTTAATTTATTGAATTTAATATTAGAAAAACTCTTAAGATTTTCAAAGTCAATTTGAACGTTTTCTAATCCAGATTGTTCGATCATATCTTTATATGAATCAACTAAAACTGGTTTTAATAAATAAGAAATGATTGCAATATTTCTTTGTAAAGTAGCTAAAACAGTTTTTAGCTCTTCAATTTTGTTTTCTTTTTCTAAATTTCAAGGTGCTTTAGTTTCAATATATTTATTACATGCATTAGATAATTCTAAAACCACTTTAATAGCTTCACTAATTTTATATTGGTCCATATTAAAAATATAGTTATCAATTGTTTTGATACCTAAATCAATTAATTCTTGATCATAATTAATATTATTTAAATCAATATATCCATTAAAATATTTACTAATCATGTTATGAGTTCTACTTATTAAATTACCTACATTATTAGCTAAATGAGCATTAAATGATTCAATAAATAATTCAAGACTAAAATTACCATCTTTTTCAGTTGGTAGATCATTTGCTATATAAAATCTTAAAGCATCAGCTGAATATAATTCAATAATTTTAACTGGATCAATTACATTTCCTAAAGATTTACTCATTTTAGTATTTTTATTTAAAATTCATCCGTGACCTAGTAAATGTGTGGGTTGTTTTAAATTTAAAGCTTCTAACATTACTGGTCAATAAATTGAGTGAAACCTAATAATTTCTTTTCCAGCTAATTGTAAAATTTCACAATCATCATTTTGTCAAAACTTTTTAAACAATGAGTCATCTTCTTGAAGATATCCTAAAGCTGTTATATAGTTACTTAAAGCATCTAATCAAACATAAATTATATGTCTTTGATCTTCAGTAATTGGAATACCTCACTTAAAACTTACTCTAGTTACTGATAAATCTTTTAATCCTGGTTCAACAAAATTTTTTAACATCTCATTTCTTCTATATTCAGGAATTAAGAAGTCTGATTTTAAAACATTTTGCACAAATTCTTGAAACTGACTAACTTTTAAAAAGTAAGTATCTTCATTAACTAATTGTGGTTTTGTGTTTGAAATTTTACATAATCCATTTTCATCAATTTGTTCATTAGTTAAAAACTCTTCACAACTAACACAATATATTCCTTCATATTGTCCTTTATAGATATATCCTTTTTCTAATAAAATAGTGAAGATTTTTTGAACTGCTTTTTCATGATAATCATCTGTAGTTCTAATGAATTTATCATAATTAATATTTAATTTAGTTCATAAATCTTTAAAAGCTTGTACTTTAGGGTTTAGATATTCTAGTGGTGTTAGATTAGCTTCTTTTGCTTTGTTTTCAATCTTTTGACCATGTTCATCACTACCTGTTAAAAAGAAAGTCTCATAGCCTTGTTCTTTTTTATATCTATTTAAAATATCAGCTAGTGTTGTTGTATAAGCATGACCTAGATGTAAATTACCACTAGGATAATAAATTGGTGTGGTTATATAAAATTTCTTTGACATATTATCCTTTCATAAGTATTATTTTACCAAGAATATCTTTTATATATTTTTATATATTTCAACCTGTTTAAAATATATTGTAAGTAATTAATATTTAAAGTATGAAAAATTAAGTTTTTTTGATAAATTATGTACTAATTTTAGATATTTTAGCTATGTTGTTATAATATTTTCGAAAAAATTTTGTAGGTATATTATTATGAAAAAAGCGACTAAATTATTATTATCTATTTTACCAATATCATCAATTAGTTTTTTAAGTGTAATTTCATGTTCAACAACAAATTCAAATGCAAAACAACCAGATAAAAAGCCTGAAAAACCAAATGAAAAAGACCCAATAATTCCTAAAAAACCAGATGATAAAAAACCTAATAATAAACCTGATTCAAATATTCCAAGTGAAAATAAAGACCCATCTAAACCCGATAAAACTCCAAATACTTCAGATACTAACCCAAAACAACCTGAAGAAGATTCTAAAAAACCTGATGAACAGCCACATGGTGATCATCCTAATAATAATCACCCACATAATAATCAACCTGCTGACCAACCTGAAGTTAATAAAGTGGATTTCTATGACTTAGATAAAATCAAAACTGAGCTATCATATAAATCTATTAAGTTATATGCAGATAAAGATCCTAGATCAGCATGATTTGATTTAAAGAATGATTTAAATACCTTTTCTAATCTTTTATATAGAGAATATGAAAATATAAAAAATAAATATACCTTAAGTTTTGAAGATGATATTCCTGTATTTAATTTTGCAAAAGGTTTAATTGATAAAGTTAAAGTTAAGTTTACTAAAAACAATGAACACAAAGTAATTTCATTCACTTTAATGGGGTTTAAAACAAGCGAAAAAGTAATTAACAATAAAGAGAGATACATAAAAGAAAAATCCGAATTAAATAGTAAATTTAAAGGCTTATATCCTTCATTAGTTGCTTTTATGTTAATGTATGCTGAAGATTCACAAAGTTATAAATCACTAGAACAAAAAGGAAAAACAGTAGGTTTTGATGAATTGAATTATCCAAATAATGATTTGTTTGGAAGTGATTATCAGGGAATTAATCAAGTAACTAAGAAGTTGTTACTAAATTATGATTATGAATTATCTAAACTTTATAAAGATAAAATAACTGAAGTTAAATATGATGATATAAATGGAACATTAGGACTTAAAATTGAAATTTCAAATATAGAGAATAATCCAAAAACCGAAAAAGAAAGCGTTTTAATAAAAGAATTTAATATTAAAGGTTTTAGAAGTATAGATTTTAAAAATGAAGATAAAAATGTTTTATCTTTTATATTGTTGCAAAATAGTTTAAAAGAAATGGTACAAAAAGGAAGTTTGAAAAAAACTATAGAATTACTAAAACCATATGATCAATATGGAGTAAAAATACCACTTGAACAAACTACTGGTACGGGTTTAAAAGATGAAATATTTAAATACTTATTAATAAATATATTTGACAATTCTTATCATATTTATAATTCTACTCAATCATTGAGTCTTTTAAATAACAGCAAAAATGATAATAAATCAATATTGGGTCTAGCTGGACATATGTCAATTTATCCATTTCATACCAGAATTACAAAAGAATCTATTGATAATATTTTTATAACAATCAATAAAGAAGAGGATAATAAAATTAAAGTTATACTTGATTTTGAAATTAAAATCCCTATTTATTCAGTTGGATATAGTGATTTAAAATCTCCTGGAACAGGTGCTTCAACTCCATTGGTACTAAAAATAAATTCTACTGCTTTAATTGATTAATTTGTATAAGTTAAAGTGAGGATATAATTATGAAAAAAGCAACTAAATTATTATTATCTATTTTACCAATTTCATCAATTAGTCTTTTAAGTGTAATTTCATGTTCAACAAGAAATTCAAATAATATGGAATCTGATAAAACTCCAAAAATGCCTGAAAATGATTCAACTAAACCTAGTGAAGATCCTAAAAAACCCGAAGAAAATCAACTTAAAAAACCAGATGAACAACCTCAAGGTGATGATTCTAATAATAATGTTCAACCACATAATGATCAACCTGCTGATCAACCTGAGACTCATATAGTGAATTTTTCTGATGTAGATAAACTGCCAAGAGAAATTTCATTAGAACATTTTACTAATTACAAAAATAAGCCTTTAGAATCGGCTTGATCAGATTTGCAAAAGGATAGCACCGTTTTTAGTCATATTCTTTTTAAAAATCTTAAAGGATATAAAATTAGTTTTGAAAACACAAGTGCTGTTAAATTTGATCATTCAAAGGGTGTTATTGGTAATGTAAAAATTAAATTTACAAAAGAAGGTAAAACCATAACACGTGTGTTTATGTTTACTGGTCTTAAGAAAAATGAAGAGATAAAACCAAATCAACCAAAGAACAATAAAGATAATTATATAAAACCAAGATCTGTAGATAATAGATTATCTGGTCTTTTTCCTTCATTACTAGCTTATATGTTATTATTTGTTGAAGATAATAAAAAATATGAAGAAATTCAATGAAATAAAAATTCAATAAACTTTGACCAATTAAAAAATAAAAATACTAACTTCTTTGATGAAAGTTTTGTTGGCTTTAATGTAGGGACAAAAGAATTGCTATTTGAATATAATGAAAATGATAGAACTAAATATGAAGATAAAATAACAAGTGCAAAATATGATGATATTAATGGTGAACTTGGTTTAGAAGTAGAAATTAAAAATAGAAAAGATAGCAACTTAAGTGAACCAGGTATAACAAAAGTATTTAATTTTAAGGGCTTTAGAAAAACTAACTTTAATAATCAAGATGATAATGTTTTATCTTTATCATTACTACCAAGTGATTTAAAAGATCTTGCTACTAAAGGTTCTTTAAAATCAGATATTAATAAGGCAATAGAATCTAAAGAATTTAGTAAGAAGATATCTATTTCAAACAATGATTTTATAAAAAATGAATTATTTAAAAAATTAATATTAAATGTAGTAGATAATGAGAATCATATATATAGAGATACACAGTCACTAAAATTAGATTACAGTAATAAGAGTGGAGAAAGCAATACAATAATAGCATTTAATGACGGAACATCATTATATCCATTACATACAAAAATTGATAAAGATTCAATAGGTGATATTTTTATTACTATCACTAATGAAGATGGGCAAAATAAATTAGAAATTGAATTAAACGTTAACATACCTTTTTATGCATCAAATCTAAATGATCTAACATCTCATTCAACAAGTCAAGATAAAACATTAGAATACAAAATTAATGCGTCTACTAGAATTGGTTAAAGTAAAGGATAACTATGAAAAAAGCAACTAAATTATTATTATCTATATTACCCATTTCATCAATTAGTCTTTTAAGTGTGGTTTCTTGTTCAACAACAAATTCTAATAATAATAAACCTGATAAATCAGAAGAAAAAGCACCAATAATTCCTAAAAAACCTGATTCAACTATTCCAAGCGAAAGTAAAGACCCATCTAAACCGAATGAAACTCCAAAAACTCCTGAAAATGATTCAACTAAACCTGAAGAAAATCAATCAAAAAAACCAAATAAACAACCTCAAGGTGAGGACTCTAATAATAATGTTAAACCACATAACGATCAACCTGCTGATCAGCCTAATATAAATAAAGATGAATTTGTTGATCTGGACAAATTACCTAAAGAAATTTCATTTGAAAGGTTTACTTTTTATACATCAAAAGATGCTACAACTGCACTAAGTCATTTAAGAATGGATGGCTCAGTTATTAAACTTATTTTTTCAAGTACTTATAGAAATATTTTTGAAAGATATGATATCAATTTAGAATTAGACGGCAATGAAAAAGAAGATGTTAAAAAAGGTTTGATAGATAAAGTAAAAGTTAAATTTACTAATAAAAAAGATAAAAAATCTAAAATTATTGAGTTTACTTTTACTGGTTTTAAAGTAGTTCAAAAAACTCCTGATAAAGAAGATAAAAATAGTAAAAAAAATTATATAAAGAAAAAAGAAAAAATAAATAGTAGATTAACTGGTTTATATCCATCACTAGTTGCATATATGATTATGTATACCCAAGAACCTAAAAATTATAAAGATCTAATGCAAAAAGATTCAATAAATTTTGAGGAACTAGAAAATAATAACCCTAACCTATTTGCAAACCCAGAAATTAATCTTAATGTTGTTGCATTAAAAGACTTATTGCTTGAATATAATAGAGAATTAGGAAAACTTTATAAAGATAAAGTAATTGCTGTTAGTTATGATGATGTTAATGGTAAATTAGGTTTAAAATTATTAATTGAAAATATAGAAGAAAACAATACAATGGCTAGCAAATATTCAGAAACTTTAGAATTTGGTTTTGATGGATTTAGAAAAATTGATTTAAAAAATCCAAATAAAAACGTATTATCTTTATTATTACCACAAAATAGTTTTAAGGATATGATTAAAAATAATGTTTTTAAAGAGAAAATAGAAGTCTTGAAATCAGGAAAGCAAAAAGAAGATAAGTTGTTGATAAAAGAAGAGCATGCAAAGCAACTAATTTTTAAAAATCTACTAGTTCAAATAATTGATAATGAAAATAATTTATATAGGGTAACACAAACTTTGAGTCTTCAAAATAATAAAAAAGATAATTATACTTCTATATTAGGATTAGCTGGAGGAGGATCTTTATATCCATTTCATACTATAATTAATAATGATTCAATTAAAAACATTTATTTAACAATTAATAAAGAAAATAAAAAACATAAAGTGACAATTAACTTTGAAGTTTATATTCCTATATTTGCATCAACAACTAGTGATTTAACTTCTCATGCAACAAGTGGTGATACAAATATATTAAAACTAGACATTACTACAAATGCTTTAATTGATTAATTATATATGTCATTAGAAATGAGAGATATATTATGAAAAAAGCAACTAAATTATTATTATCTATATTACCAATATCATCAATTAGTTTTTTAAGTGTGGTTTCTTGTTCAACAACTAATTCAAGTGAGAAACAACCTAAAAAACCAAGTGAAAACACTCCAAAAACACCACTAAAACCAGATGATATAAAACCTAATAATAACGATGATAATTCAAACAATAATTTCAATCCAGATCATAAAAAACCTGATTCAACTAATCCAAGTGAAAACAAAGACCCATCTGAACCTGAAGAAAAGCAGCCAGATATAAAACCTCAAGGTGATAATCCTAATAATGTTCAACCACATAACGATCAACCTGAAATTAATAATGTAGACCTTTCTGACTTAGATAAAATAAAAAAGGAATTGTCATTTGACAATTATTTAATATATAAACAAAAAGACCCTATATCAGCTTGATCTATGTTAAAAAATGATTTATCTACAATAACAACTGTTTTCTACAACACTAACAAAAATGTTAAAAGGGAATATAAATTAAGTTTAGAAAGTCCAAATAAAGATCCTGACTTTATTTCTAAAAAAGGAGTAATTGATAAAGTAAAAATTAAGTTTACAAAAGAGAATAATTTTAGAATTCTTGAATTTAGTTTCACAGGATTTAAAGTAACAGAAATAGACAAAAATAAAAATAAAAAATATGATTATATTAAACCAAAAGAAACAGTAGATTCAAGATTAAGTGGTTTATATCCTTCTATTTTAGCATATATGTTGTTATATGCAGAAAATACTAATAACTATAAAAGTTTGCAAGAAACAGACAAAGATGCAATTAATTTTGAAGGATTAATAAATAAACCAACTAACTTATTTAATGATAAATTTGTAGGTTTTAGTGTTGGTACTAAAGAATTGCTATTTGATTTTAACGAAAATTACAGAAAACTATATGTTTATAAGTTAGTTGGTGCTGGATTTGATGATATCAATGGAACATTAACTTTAAAAGTGGAAATCAATAATAGTGAAGATAATAAAGAAAAAGAGCCTGGAATTTCTAAAGAATTTAGCTTTAAAGAATTTAGAAAAGTAAATACTGATGATCCTAGCAAAAATCCTTTTTATGTTTCATTAACACCAGCTGATCTAAAGAAAATAATAACTGACAAAAGTATTAAAAAAAATTTAGAAGATCTACATTTGGATATAACAAAAGAAAATAATCTTTTAGATTTTGGTATTGATTCTAGGGGAATATGAGGAGATCAGATATTGAAACATCTGACTATTAGTCTAACTGATAATGATAATCATATATATGATTCAAAAGAAACCTTAACATTTAGAAAAAGCAAGAATAGCGATTACAAGTTTATTTTAGGATTAAAACATAATATGTCATTATATCCATTTAATACTATGATCAATAATGATTCGATTAAAAATATTTTATTATCAGTAAAAGATAAAAAGATAACTCTTGATTTTGAATTAGAAGTCCCAGTTTTTGCAACCGGATTAAGTGACTTAACCTCATTTTCTTCATATAATACAAAAACATTGAAATTAAAAATTTCATCAACAACATCAATTTAATAAGAATCTAAAGATATTAAAAGCCTGGACTAAATCCGGGTTTTTCATTAGTTTTTAATTAATTCTTTCTACTTATTGATATTATAATTTCTAGACTGATTTCTTAGTTTTATATATTTGATTCTGTCTTTAAAATACTCATCTTTTTTAATAATTAAAGAATTTTGTAATTCTTTATGTTCTTTAGGATTAAAATCTTTTTTAAGCGAATAGCATTCTCCTTGCTCATTGTAAGTAAAATAATTGTCGTCAAATCATCTATGAGCCTGTACAGGTAAATTTAATAAATTATTTTTATCTGCAATACTTTTTATGTTAAATATATAGTCACAATTCTTTTCTATTGCCTTTTTAATGTCTTTTTTATTAGATGAAAAATTAACTTGTTTTATAATAGAAGAAATGTTTGCCTTAACTCTACTTACATCTAGAATATGTGCATTTTCATATGTATAGAAATTAAGTTTTTCGAAAACATTTATATTAAATTTTGAAACTTTCGAACGTTCTTTGTCAATTGTTTTTAATGCTTTTGATAAATATTTTATTCTATTTTTTATAGCATATTTTAGTACTTTTGATCTAGCTGAAAACTCACTTCTTCTTTTATCTAGACTCATTTTTTTATCATTAATAGTTAAATTTAGCACTTCTATATAATCATAATTATTTATTTTATCGATAAACAAATTTATATCTTCTATTCTATATTCATAATTTTGTTTTTCATAAAATTCATTTCTATAAATGTAATCTGTCATAGTTATTAAATCTAAAAACATTATTAGATTATTTTTGTACTTATTGTATTTGGAATTTAAATTAGTTATAAACATTTCAGCATGATTTTCATCTTTAAAAGTACCACCAGCATTATTACCTTTTAAAATAGAAATTATATTTTTTATACTTGAATCATAATTTTTGTTAAATCAGTCATTAACTCAAGTAATTTCAGGAAGACTTAATTTATATAAATTATTAAAATTTTGGTTTTTTCTTCTCAGTTGAGTTTTTCGTATAGTTTTAAACAATTTTTCTCTTTGTCTAAAATTTTTAGGTTTTGTTATAAACCATGATGGTGTTGTGCAAAGATCAATTGCTAATTCATTAAAATAAATATATCAAGAAGAAATGTAAGGAATATCAGTTGAAAAATCAGCAACTATATCAATATAACCACTTGCATAAGCGCTTTTAGATTTTTCTGATTCATTTGATTTTGTTGTAAAACTCATTCTGTAAATATTATTTAAATAAGGCATAAGATCACCTCTTTAAATAAAACTTCTAGTACCTCAATTGATATAGAGTTACCACATAAAAACAATAGTTTAGATTCATTTAATAAGCTTTGTTTAGCAACTGATAAGTAATCATTTTTACCAAATCCCATGTATAAAAAAGCTTGTCTTGGCGATATGTATTTTAACTGATTAGTTTTCGGAAAATAAAATTTCAGCCTTGAATTAGCTCCACTAGCTGTTAAAGTAGGCCCATAACCCTTTGCTAAATAGACATAAGCTTCTGAATTAAAATTAGTATATTTTTTATCTAGTCTAGTCTTAGTTATGTTATTTTGTGTTGGTTTGAAATCATTATTTAAATACTTTAATAAATGATTACATTCTTTCATATCATCATCATTTTTTATTATTGAGTCTATTTCTTTTTTTGTTATTAAGGGTTTTGGAAAAGTAAAATTCTTTTGTTTATCTAAATAAGATATACAGAAAACCCTTTCTCTATTTTGACAAGAACCATAATCTGTAGAATTTACTACTTTTCAAATAGACTTATATCCAAGATTTTCAAGTGCATTTAACCATTTATTAAAATCTTTTAAAAACAATTTATTAGTGAGTGCTTTAACATTTTCTAGTAATAACACTTTTGGCAAATTATCTCTGTTTAATTTTAAAATACGTTCAACCTCATATAATAAACCTGATCTAGTGTATTCATTAATTCCCCTTCTAACACCTTGTTGTGAAATATCTTGACAAGGGAAAGAATAAGTTAAGATATCAATATTTTTAGGAAGAGTATTAAGTTCTTTAATATTAGTTGTGTGACATTTCGCCCCCCCCCTAAAAATTTAGTTTTTTTAGTTGATTTTCATTTTTTATTAAAGTATTTGTCATTAACAAAACCATATAAATAAGGGAAATAAGCTTGTAGTTTTTCCAATTTCATTTTATTAAAATAATCACCTCTAATTAAATGTTTTGAATCAGCAGAAAAACTGTAATTTGATAATAGTTCACACATTTCTTCTCTAGAAAGTTCTAATTCAGGAGTGGTGTTTCCATAATGTATAGACATATATCCAATTATTGCATCAATATATCATTCACAGGCACCAACTGATTCTATTTTTATACTTAATTCTTTTTCTATGTTTTTGCATGCTTTATATTGAGAACCAATACCTGCAAATAATTCAAATATTTTTATTGTTTTCATAAGTCTTATTTTATCGGATTAATTGATAAAAAAAGTTCGAGTGTATTAGTAATTATTTAATAAATTTTTAGATTTAAGTAGTTATTATAATTTTTTTTGATACTAAAAAAATCTAGACTGTATCTAGATTTTTTGATTTTTTATCTATTATTCTTTAAATATTCTAATCTGTTTTGATAGCTTAATAAAAGTGTATCGTGTTTTAAATTATAAGTTTTAGCATAGTCTAAAATAGTTAAAATTCTTTCATTTTTACTTAGCTTTAATTCAGTATTTCTAGCTAATCTTTTAAGATCATCTTTTATAAAACTATTATTCAATCTTTTAATTATTTGAATCTTATAATCATTCAATTCGTTTAAACTAATATTATATTTATGATTTAAAACTAAAATTACTTCATTTAAATAATTATTAACAAATTCAATTACTTTATTATTTTTTAAAGCTTGATAAACATATAAATACTTATTTAAATCAAAGTTTTTAAAAACAAACCAAGCTATAGAACAGTGCAAAGCATTTAACATATAAATCTTTTTAGTTATTTGTATATCAAAATTATTTGTATAAGTTAAGTTAGGTATTTGTTTAAAATCACTTGGTCATTGAGTTTTATCAACAACTCATAAATAATAATCTTCACATTCTAAATAATCATTTAGAATGTTTTTATTACTAACTATCCTATCAACTAAAACATCAATAAAATAAATATTATTGTTTAAATTAGAAAAATAAGACTTAAATAAGCTACTAACTCTAATTCCATTTTCACAACACATAATAATTAATTTTTGATTATTTTTGATCTTATAATCTATTAATTGATTAACATAATAAATAATATGTTTTAAGTTTTTAATTCCAATTGAAATAGTTAATAAACTAACTTCATTCCAAGTATTTTTATAATTTATAAAATCAGTTAATAGACAAGCTGAAATGTTAGTTATAGTTATCTTTTTATTATCTGAAGTATGTATTTTAATTAATTTTTGAGTATTTATTTTATTAACAATATCAATATTGTTATCAACAAAATAAATATGATCAACAATAGAGCTTAAAATTGGAGCAATAAAACCACAACCGATGTTTCCTGCTCCAAAGTGAATTAAATTCATCTATTTTCTTTTAGTGCTTTTTAATCATTTAACATAAACAAAATCTAGTAATTGAATAACAAGTTGAGCTTTAATTGAATTAATACTTCACAACTCTGATTCATCAGTTTCAAAATATAAATATTTATCAAATAAACTAATCATTGAACTTTGTTTTGGACCAATTCCTATAATTTTTACCTTTTTATTTAATGATTCAGCAATCTTTTTAATATATTCATTTTCACCAGATATTGTAATTAAAATTACTAAATCATCGGGTTTTATAATATTTAAATAAGTTTTTATAGAAATATAATCTGATTCACTAATTGCTTCTTTTTGATACCAACGTAAACGTTGAATAAAATTTTTTGAAACATTATATGAAAGATTAAAAGCAAATAAATAAATCTTATTAGCTTTATTAATTAAATTTACAACTTCATTAATTGGTTGAGTTTTTAAATTAATTTGTTGTTGTTTAATCGAGTTTAAAAGTATTTCAAAATAGTCGTTATAAAATTTTGCTTTATCATCAATTCTTGAACTAATTGGAATTAATTCATTATCTATAATGATTGAATTTGAAATATCATTTAATCTGAATTTTAATTCATTAAAACCTTTTAAGTTAAGCTTTTCAGCAAATCTTGTAATTTTATTAGGACTTGTATGACATTCTTTAGAAATTGCTGTGATTGTTAAATTCTTAATATTAGTATAGTTTTTTAATAAATAAGTACCTATATTTTTGTAATCTTGACTACAATCTGTTTGAATAAAATCTTTAATTTTTGTTAATAAATCTATTGCCATGTAATCACCCTTAATATTGATACTTATTATTAATTATTGTTTTGTACAAAAACTTATAACTTTATCTATTGTTGGATTTTTTAATAAGTCATTAAATAAATCATCATTCATAGCATTAATTGCGATATTTTGTAACATATCAATTTGATCTTCTTGTTTTAATGCTAAACCTATAACTAATTGTACTTCAGAATCATCTCAAATAAGTGGTTTTTGTAAGTGTATAACAATGATTAAAGACTTTTTTAAACTCAACATACCTTCATAAGTTCCGTGAGGAATTGCTATTTTACTTCCAATGTTAAAAGAACAAGCTTCTTGTCTTTTATTGATTGAATCAATATATTCTAAACTAACATTTTCTTGTTTTAAAAGTTCTTTTAAATGATCTAGACATTCTTGTTTTGAATTAAATGTTTTATTTAAATGTATGTTTTTAGTTTCTAACATTACATTACTTGACCTCCTGTAATGTTAATAGATTGACCTGTACAATAACTAGCTTTATCTGAAATATAAAATAATAAAACATTTAAAACATCTTCAAAACTACATCCTCTTTTTAAAGGAACTTTATTAATATAGTATTGTTTAACTTCACTTTCTTTAATATTTAGTTTTTTAGCATATTGTGGGATTAAGCTTTCAAACATTTCTGAATCTAAAAGATTACCTAACATCAGTGAGTTAACTCTAATATTATGTTCAGCTAAATCTAAAGCTAGACTTTGAGTTAATCCAACTCCACCAAATTTAGCTGCTGAATAGCCTGAATTATATTTAGAACCAACTCTTCCTGATTTTGAATTAATTTGAATTATATTACCTTTTGTATTGTTTTTAATCATTATTTTTGCTGCTTGTTTTGCTGTTAAAAAATATCCATCTAAATTAATTTTTAGACTTGTAATAAAGTCTTGATATTCAAATGAAGTAATTTTTGTTGATTTTGCTCATCCTGCATTATAAACTAATGTATCAATTGTTTTGTATTTACTTTCAATTTGTTCAAAAACATTAATTACATCTTTTTCATTGGTTAAATCACATACAAAAGTATCTATTTGTTGATTTTCTTCTTTTAATTGATCAAGCTTTTCTTTATTTAAATCTAAAACAACAACTTGATAATTATTTTTATCAAGACCAAGTGCTAGAAATTTACCTAAACTTTTAGCTCCACCTGCAACAATAGCAACTTTTTTCATTATTTTTCTTCCTTAGTTTTTTGTTGTTTATTTTCAATTAATTTATATAAATCATCGTATGTATTTTTACCAATAAATTGTTCAACAGGATATATTAAAGCGTTTGGAGCTTTTTGAGACGCAAAATCTTTAAAACTTTTCATAGTTATAACAACATCATATTCATCTTTTAAATCTTTAACTGCTATATTTGATACTTGAATATCATAATTATTGTTATTAACTCATTTTCTAATTAAACCAGCAGCCATTGCAGAAGATCCTACTCCTGCTTCACAACAAACAACAATTTTTTTAATATTGTTATTATTTTTTATTGTTTTTTGATCTGAGTCTTGTTCATTAAATTCAATACCTTCATCAGTGATTTTAAATCCTTGATTTGATTCAGATTGTAGATTTTTTCTATTTTTTAATAACAATAAAACACTAACTCCAAATGCTATTAATGTACCAACAACAAATGCTAATAAATTAATTAATAAAGCATGTGTTCCATTAGATAAAGCAATTAGTGAAATTAAACTACCTGGACTTGGAGTTCCTATAGTTCCTCCTCCTAAATAAGAAGTAATAAATTGTGCACCAACTACACCTAACATTGTAGCTAATAGCATTTTTGGTTTTTTAATAATAAATACAAAATATACTTCATGAATTCCACCAATTGTATGAATTAGTGAACTAGCAGCTGCATTATATCTATCTTCTTTTTTAGTAAAAATAATATAAGCTAATAATAAGCCTAAACCAGGACCAGGATTTGGATCATATAAGAAAAAGATTGATCTAGGATTTGCAACTCCATTTGATCTTTGAATTTGAATTTCATTATAACCAATAGGTCCTAAAACACCATGATTTAAAGCATTATTTAAAAATGATACTTTAATTGGTTCAGTAAAAAAACCTAATAAAGGAGCAACTCATTTATTATCACCAAATAATTTAATAATTGAGATCATTACAAAAGTAATACCTCACATTATTCATCCTCAGCTTCAAAATACAGCTAAACCTAATAATATAGCATAAATTGCTAATCCAAAATTTTTAACTAGCATTTCTAGGCCTGGATTAATTTTATGTAAATATAATTTTTCTACTTTTTTTAAAAATAATGCTGATAAAGGTCCAACTATCATAGCACCAATAAATTGGTTTGGTGAACCAGGATGAACCCATTTATCTCCTACTTTTTGTCAAATATAATGACTATAAATATGATCAGTACCAGTGATTGTTGCAACTATAATAAAAGTTGCAATCATTCCACCTCTTAAACCATAAACTAATCTACCGCCATTAAATGCAATTAATATTGGTAAAAGTCATTTAATTCCTGGTTCAACTAATCTTCCTAACATTGGTACATCAAATCAACCTAGTTTTTTATTATGATCAAAATCATATAAAAACATAGCTGTTCAAAGTCCTCAAGCTAGTAGAACACCAATTGATGGCATAATCATACCAGCCATAAAAGACCCAGTTTTTTGAACTTTAAGTTTAAATTTATTTGCTCATTCTTTGTGAGTCATCTGAACTTTTGAATTCATCAAACATTCGCCTCCTGAAATTATATTAACTCAGGTTGTAAATATTTACAATATGTTGTAAATATTTTTACATCAGAAAATTATTAAAATAAAAAAGCGCTTTTGGCGCTGCTATTATATCTTTATTATATCTATATTATATCTTTAGACAAATGTATTATATCAATAATATATCTTATTATTTCTTTATTATATCCTTATTATATCTTTAATATATCTTATTATTACGTTTATTTTTTTTAAGATATACAAATGATATATAAAAAAGATATTACTTGTCAATGCGTACTCAGTAACCTGTTTTATTTGAACCAACTCTTTTTAATATATTCTTTTTAACTAATTTACTAACTGCTCTTTGCATTGTTATTCAAGCCATGTCAAACTCATCAGCTAATTCTGCTAATGATGAAATTTTTTCATTTTTATCACAATAGTTTAAAATATTTTCTTCTAAAGAAGTTAAGTTCATATTTTTTACTATATTTTTATTTTCAAATTCTATATTTTTACTATTTTCATGAACACTTAAAAATTCATTATCAGTTTTTTTTCTATAAAAACTAAAAGTGAAACCAAAATTTGAAATATCATATGAGTATTTAATATTATTTTTTTCACATAAACTAAATACAGTTTGAAAACCTGTTCCAAAATTTTCTACAAGGTTATTTCTATATAATGTAGTAGCTATAAGTGGATTCATTGGTTTTGATGAAATTTTACCTTCAGCGAAATTTGCTGGAATAGTATTTAATGGAAAATGACCAGGATTATAAATTCTTACTTCACTTGGAAAAATAGATATTTCGTTATAATCACCACTAGTTATTCTCATATGAACAAAACTATTAACTACAATTTCACGAATTGCCTTAACTGGAATTTCTGGGCGAGGCACTCTTCTTAAATCTTCATAAACATAAACTTGATTTATGTTTTTTAATATGTATTCAATAGATCTATTAATGCATTCAAAAATATTTCCTTCAAATCTAATATTATCAATTAGAGTTATTCTTTCATCTGTTAAAAATTTTCCTAGCTTTACAGTTATCGGTTTATTTTTTGAAAATAAATAATAACCAGCATTATTTAATCTATTGTTTTCCATCAAGTCTAATCTTATTAAGGATTCCTTGACTGAATTAAAAAGATGAGGAAACTTTCCTAAATCATATGCTTTTCTTACATAGTTAATTAAAAGTTGTTCATCAACTTCATCTTCACCATATTTTGTTAATTCTTTTTCTCAAGTTAAGTTAGTAAATTCATTAGTTTGAAATAGTTTTCTAAGTTCATTATTATCAATAACTTGATCTTGTTCATCAACTCTTGTGTAATATTTTCCATATGCTGAATATGGTCTTTCAGTACCATTTACTTCTACAGAAATATAATTTAGGTTGTTTTCTTTTAAAACAACAATATTAGGATATATATTTGGCTTTATATGATTTTTTATTTCATTTGCAATATCAGTTGTTGATGTTTTTCCAATTTGTTGACCAACAATTGTTCCATCGTTTTTAACTCCAAAGTAAACAGATCCACGGCCACTTTTATTTAACATTCCACACAATGAAATCACAGCTTCTTTTAGTTCTGCTGTACTTTTTTTAAATTCTACTTGTTCACCTTCTCTGCCAAACATATATAACCTACCCCTTAAATTATCTATTTTAATAAAGAATTTATTATATCACTATTATATCTTTAATATATCTTTATTATATCATCTATATCTCCATTATATCTTTAATATATCTATAAATAGTCTTATTATATCTTTATTGTATCTTATTATATCACTATTATATCTTTATTATATCATCTTAATATTATTAAAAGAATTAGTAAAACATTGCCAAAAAGCCTTTTTAAAAAATATATAGCATATTTTAAAAGCTTGTGATAAACTAAAATTGCTGGCAACAGCAAACTTTGATATTAATCTTTGTTTTTAAAAGGTTATTATACTATTTAGCTAAAGTCTGATTTATTAAACATGCAAAAAAGCTGCCTTTATGGCAGCTTTTTGCTTTATATTATTTTATTAAATTATTCAATTACGTATGGTAATAAAGCCATTTGACGAGCTCTTTTAATTGCTAAAGCTAGTTGTCTTTGATCTTTTGGAGAAGTTCCTGTAATTCTTCTTGGTAAAATTTGACCATTAGGTGAAATGAATTTTTTTAGTAATTCAATATCTTTGTAGTCGATGTATTTAATATTGTTTTTTTGGAAAAAATTAACTTTTTTTCTTTTTTTAATTTTTTTAACTTGCATGAAAACTATACCTTTCTACTTATTCTCATAAAATTGAAAGTTCATCATCATCTGAAACTACTAAATCATCAAATGATGAATCGCTATTTTGTTGAGTAGGTTGGTTAGGTGTGAAATTATCGTTTTGTTCAGTTGTCATATTATTTCTATTTTTAGATGGTTCTAAGAAATTAACTCTTTCAGCTAATACATTTACAATTGTTTCAAATTTACCATCAGGTGTTTGATTGTTTCTAGTTGTAATTCTTCCTTCAACTGAAATTAAACTTCCTTTTGATAAATACTTAACCATATTTTCAGCAGTTCTATCAAATGCAGAACAAGGTATATAATTAGTTTTTTCTTCTTTAGTTGAAAATTCAGAAACAGCAACTGTAAAAAAAACAAACTTAGATCCGTTTTTTGCTACTCTTAATTCTAAATCTCTTGTAATTCTACCTACCAAATTTACTCTATTCATAATTTCCTTAATTATTTGCTTTCTTTTACAGCGGCTTCTTCTCTTTTAATAAATGGCTTTCTAAAGTTTTTCTTTTCACGTTGTTCTTCTTCATATTTAGTCATATCAGTTTTTGAAAGAACAACTGATTGTTCATAATTTTGGATATTTTCTGTATTTAAAACTAGTGTTCTAACAACGTTTTTATCAATTTTTGCAATACGTTCAAATTCTTTAATTGCTTGAGTTGTAGCTTCAACAATAACTACATGATAAAAACCTTTTTTCTTATGATTGATTTCATAAGTAAAATCTAATAAACCTAAATCATTAGATTCTAGAATTTTTCCATTTTCAGCTAAAATAGCATCTAATTTAGTCACTAATTCTTTTGTATCTTTTACATCTTGATCCAAAATATACATTACTTCATATTTTTTAATCATTTAGATTATTCCTCCTTATGGTCTTTTGGGCTAAACAGCCAAGGAGCTAATTACTTTAAATTAACTCATATGAATTATATAAAAAACATACTACTAATACAACTTAAAAACATAAACAAGAATATAATTATAACTAAAATATTTTAATTAGAAAATAAAAAATATCAGATACTATCTGATATTTGATTAACTATTGATAAATAACTATTTATTTGTGATTGAAACGTTAAAAGCTTCTAGTCCTTTTATACCCTTATTTAATTCATAAGTTACTTTTTGACCTTGTTCTAAAGTTTTATAACCGTTTACATTAATATTTGAAAAATAAACAAAAACATCTTTATTATCAGAATCATTAGTTATAAAACCAAAACCTTTTTCATCGTTAAATCATTTAACTATACCAGTGTTCATATTACCTCCAATCTAAATTATTAATAGATCGAGTAATACAACTTAAATCTTTTTTAATAATATCTTGATTATACATTAAATAATAAATTATACTAGTAATAAAATATAAGTTAGGAACAATTATTAAGTTAATAATTAACTAACAAATTATTGATATTAACTATAAAATAACAATAGGGGTAAAACATGAGTAAAGTTCTTGTTTTAAAAACAACTGCTCAAGCAGATGAAGTATCTAATTCTGTTGCTTTAACTAATAGATTTTTAGAAGAATATAAAAAATTTAACCCAGATGACGAAATTATTATTGTTGATTTAAATAAAGATGAAGTTGGAACTAGTATTTTAACTTCAGAAACATTTTCAACTTTTTATCAACAAGAAGTTACTAAAAAATATATTAATTTATTAAAAAGTGTAGATAAATTAGTTATTGCTTGTCCAATGTATAATTTTTCAACTCCAGTAACATTAAAATCATTTATTGATCACGTTTCAGTTGCTAATGAAACATTTTCATACAAATACTCTAAAAAAGGAGATGCAATTGGTTTAATTACTAATTTAAAAGCTCAAATTTTAGGAGTTCAAGGAGCACCATTAGGATGATATCCTTGAGGTCAACACACTCAATATGTTGAAGGTGCTATGAGATTTTTAGGAATTGAATTTAACAAAACTGTTTTACTAGCAGGAGTAAAAGTAGCTCCACTATTACAATTAACTCCAGAACAAAGAGTAGAAACAATTATTGATGAAGTTATAGAAGCTGCTAGAACTTTTTAATAATAAAAAACAAAATGCACCAGGTGGTGCATTTTTTTATGATCATTCAATAGTTTGTGGATCTGCTGGGTTTGGATTATGTTCTAAATTATCAATAATTCCGTTTTTAATATGAATTACAGTGTTTGCAATTTTTGCAATGTTTGGGTTGTGAGTAACTACAATAACAGTAGTTTTATACTCTTTATTAACTTTAACTAAAATTTCAAGAACCTTACGTCCCATTTCTTCATCTAATGCCCCAGTTGGTTCATCAGCAAATAAAATATCAGGATTTTTAGCTAGAGCTCTTGCTATTGAAACACGTTGTTGTTGTCCTCCTGACATTTGGTGAGGATATTTATGCATTTGATCTTTCATACCAATTGTTTCAAAAATTTCATCAATTGACATTCCATTTTTTTTACTTGAAAGATTTTCTCCAACTTCAGCGTTTTCTTTAGCAGTTAAATTAGTTAATAAATTATATTGTTGAAAAACAAAACCAACAGTTCTTCTTCTAAACTTAGTCATATGAGAGTCTTTTAGTAAAGAAAGATTTGATCCTAAAACAAAAACATCTCCTTGACTAGCTTTATCTAGACCTGAAATAATATTTAAAAAAGTAGTTTTTCCAGATCCAGAAGGACCTAAAATAACAATAAAGTCTGATTTGTCTAACTTAATATCAATTCCTTTTAAAACAGGAGTTTCTAGATCACCAGTAATATAAGATTTTTGAACATTTTTTAATTCTATAATGTGTTTATCTAAATTTGGTTTATAGTTTTGAGTTGTGATTATATGTCCTTTATTTAAAATGTCTTTTGAATATTTATTAGTTAGTTGTTTTTGAAGTTTTTGTTTTTGTTTTAATCCTTTAATACCTGGTTCAAATTTTTGATCATTTGGAATAACAATATATTCTCTTTGATCCATTTGTTCTAATAAAACAGGTTCTGATTTGATAGTTTTAGTTTTTTTAGGTTTTTTTGATGATTTTATTTCTTCAAAATCAGGGTCTTTTTTACTAATTGGTTGGATTTGTTCAATGTTAATAGACACTTCAGTATTTTTCTTGTCTTTAGCCATAATTACCCTCTTTATAAAACAATAATTCTAATAGATTTTAACATAATTTAATTTAATAATGTTATCACGTCTTGTATCTGTATTTGGTATTTTTGATTACAAAAATCACATACAACTTCTACAGGTTTATTATCTTTAATAATATCTTTTAAATCATTTTGGTTTAAAAGATTTAATGTTGATAAAACTTTTTGATAAGAACAAGTACATTCAAAACTAATTGTTGATTGATCTAAAATAGTTGCATCATTATCAATTTCTTTAACAATAGCATAATAATTAGTTGACTTAACTAGTACATCTTTAACATAACTTGTATTACCTAATTTTTGTGAAATATAGTCTAAATCTTCTTTTGTATGATTTGGAAGCATTTCAACTAAAATTCCAACTACTTTTTTAATTTCTAAATTATCATCAAATTTTACTTCAGTTGTTATAAATGATTTAGTTTGATTTGATTGATTAAAATACTTCATAAAATCATAGTCAATATTTCCATATTCAATTTCTATATTTGAAACATATGGTTCTTTTAAATTTAAATCTCTACTTACTATTAAATCACCTTTATTAGAAGCAATTAAACAAATAATTTCGTTAAGATCTTTATTATTAAAATTGTCAATATTTACATTTTTATTTTGTATATAAGCTCTAATTTTACTATCATGATATTCAGCTATCATAGTTTTAGTTAAAGAAGCGGGTGCATTTCAATTAACATAAGTTTTTTCTTTATTTTTAAACTGCATTCCAATTAAAGTTGAACAACAAACAAACTTAGAAAAAACCATATTAGCTAATGTGTTTGATTGTTGTAAATCTGTAATTTCTTTTATTGTTTCAGAAATATCAACTATTGAAATTCTTAAGTTATGTTTATTACTAATTGCTCTTATTTTTAGATCCATAAAAACACCTTCTAACTAATAAATTATACCAAAACCATTATATTGACTTATAGAAAAAATAAAGTAGTTTATAACTATAAAAAAACAGCTTTAAGCTGTTTTGTAATCAAGAGCAATAATTCTATTAATTGATCAATAAGAATTGTTTTTATTTTTTAATAATTTAACTTCAAATTTAGTTCCTAGTTGTTTTGATCTAGTTGTATTTGAAGTTTTTAATCTTATTAATTGATAATTAATTTCTTTTTCACTACTATTTAAGATTTTAGTTGATCAAGCATTTTTATCATAATATTTAGTTGCAATTTGATCTTCTTGTTTTTTAAGTTCTTTATCTTTTTTATCTAGTACAAAATTAAAGACATTTAAAATAGAAACTGCATCTTTTTTATTTTCAATTGATAATTCATAGTTTGGATCACTTGATGATAATCCACCAAACAAAGTACCAAATACATAACCTAATGAATCTTTAATATAAGAAGTTTTATCAGGGTTTATTCCAAATAATATATGTAAAGGAGAATAAGATAAATCGTTTTTTAAATTAGTTCTATTAACAGTATAAGCAATATTTGAACCATTAGTATAAAAATGAATTTTATCTCAATTATAATATGATTCTTTTGGTCTATGATTTAAGGCATCTTTTGATACATCACTACTATTATCATGAGTATCAAATCCATAAGCTAATGCTTTTAAAATAGTTTTTCTATTATCTTGATCTGAAAGTTTATTGTACATAAAATCATACTTTTGTAACTCTTTTTTATATTCAACACCAACTTTTGTTGTTAAAGCAGTAAGAATTTTTCCAATACTTGATATGTTTAATCCAATCGATCTGTTAGGATATTTAGTTAAATAATCATTAAAGTATTTAGCTAAAATTTCTAAAAGTTGAACTACAGTTCTATTATTTAAACTTTCTATTTTGAATTGTTTTAATAATAGTTCTGGAAGTGTGATTTTTAGATCTCTTATTTTTGATATGTTTTCAAAATCTTGTATTTTTTTAGCAAAAGATTGAATTTTAGAATTTCATTTTTCTTTTATTGCTTTTAAATTTTCAAGGTTTTGATTTTTTATTACTAGTCTAATTATAGATAGTAGTGGGTTGTTATTATCATCAGTTTTTTGAAGTAAAAAATTAATTCATTTATAAACAAAGTCTAGTATTACATTACCATTATATAAACTTTCTGATAAGTTAAATTTCAATTCAGTTGAACTATTATAAATTTTTAAATGCTCTTGTAAATTATTTAAGTATTTTGAAAATTCTTCTTTTATCTTTTCTTCTTTTTGTATAAATTTATTTTTTACAAGAGTTTGATTTACAGATCTAATTTTATTTAATAAAGGATTAATTTTATCTTTTGCAAATGTCTGTAAAATTCATTTTAACGCACTACTTTTATAAGGCATTTCTAATATGTCATAAACTTTTTCTATATTTAATAACACAACAGAAAAAGGACCAAAGACCTTAACACTTATTAAATTTTTATTCTCTAAAATATTTTTAAAACTATTAATAACTTCAGATATGTTTTTTACTATAATAGACAAATCTAAATTAATATCATTTGATAAAAAGAAAATTTCTTTTCAGTATTTTGAAATATTTAAAGACAAACTATTTAGTGAAATTTGTACATTTTTAATAGTGTTTAAAATAGTTTTTAAAATTCCATTTTCACCAAATAATTCAATTTTTGCTGTAATACTTGCTAATCTTCATCATTGTCAACCAGCTGATATTTCTAGTGTGTTATTTTTAACTTTAACTTCTCATTCACCTAGTGGTTTACCTAGTTCATTAACTTTTGTTTTAACAATATTTATTATTTTTTGTTCAATTGTTTTTTTAAGAGATTCATCACTTAATGAATGTTCTATGAATTTTACTAATATATCTAATGAATTTGAAATTGTATTTAGTTTACTTTCAATTCAATTGATTAAATCAAAAATTAAATTACCAGTACCAATATTTGAAAGTATAGAATTTGAATCATTAAAAATCTTATTCTTATCAAAACGTCTAAAAATAAAGTCATAAAACCTATTAAAACTATTTTTATCTTTTAAAACTTTTAAAACACCATTTATTAAAATACTTAAATCTAGTTTGTTTTTAGTTAGTGCTAAAAAATGATTATTGTCTAATTTTTGATCTAATAAAACACTAGGATCTTTTATTTCTTCATGAACTGTATAATATAAACCAAAAAAGATTTCAGAATATAAATAAGTTGCTATATAAGGCATAGTTTTATCAATTAATTGCAGTGCTTTTTGTTTTAGTTGTTTTATATTATTTGAATCAAAAATAAATTTAATTTTTTCTAAAAGTTTGTCTAAGTTTTTAAGATCTAATTGGCTAGTTGCTAGATCACTTAAAATTTCACTTAAAGAATCCAAACCTAAATCTGTTAAAACATAATCTAAAGCTTCAGGTATTTTATCTGCTTCTATTTCTTTACTAAATTCTTTTTTATTAGAAATAACAGCTGCTATTTGATTAATATTTTTAATTAATGCTTGTTGTACAGTTAAATTATTATAATGATCTTTTTCTAGTTGTTTTGGAGTTAAAATTTTTCCTAAATAACTAAATAAATCTTTATTATTTTCAATTAGATCAGCAAATTTAGTTAATCCATTTTTATAGTTTATAAAATTAGGATCATCTCTATTATTTATAACTGTATTTTGTATAAAAGATAATCCTAAAGAAGCTAAAGAGGGTGCAAAACCGTTTAAAAATTTTTCAAGAGATTTGCTTATACTAAATAAAAAATCAATGTTTTGTGGAGTAATTTCTCCTTTTGAATTTTCTATATTCTTATATTCATTATTATTTTTATATTGTATTTGTAAATTTTTATCTAATACATTAGTAGATGAACCAAAATAAGTGTTTCAAAGATCAGAAACAGTATCAGTTGAAGTTGTTTTAGTATTATTAGGTCGTCAAATAAAATCGTTACTAAACTCATCTAATAAAGATTTTTTTCCGATCTTTTGATTAAGATAATCTTCATTAAGATTTTCTGTTTCTTTTAAGATTCTAGATTGAACTGCATATGAGCTAGCTTGAACGTAGTTTTGAACTTTGTTAACTATTTTTTGTTTGTTTGAATCAACATAGCTTTTTGCAAAAATTCCAAAACTACTTAAAAAGATAGCAAAAACAGAAATTATAGCTACTCATCACTTATTATTTTTAATAAACTTTAACATTTGGTTCACCTTTAATTAATTACAACCAACAAACACAAATAAATAGAATTTATCTATTGACATTACTACTATGTTTAATATAACACAATTTTAATTTTTTAAAAGTTTATAAAAAAACAGCTTTAAGCTGTTTTGTAATCAAGAGCAATAATTTTATTAATTGTTCAATAAGAATTATTTTTATTTTTTAATAGTTTAACTTCAAATTTAGTTCCTAATTGTTTTGATTTAGTTGTATTTGAAGTTTTTAATCTTTTTAACTGATAATTAATCTCATTTTCATTACTATTTAAGATTTTAGTTGATCAAGCACTTTTATCATAATATTGAGTTGCAATTTGATCTTCTTGGTTTTTAAGTTGCTTATCTTTTTTATCTAAAACATAATTAAAGACATTTAAAATTGAAGTTGCATCAGTTTTATTTTCAATTGAAAGATTATAATTTGGATCACTTGCTGATAATCCACCAAATAAAGTACCAAATACATACCCTAATGAATCTTTAATATAAGAAGTTTTATCAACATCAATACCTAATAAAATATGTAAAGGAGAATATGATTGATCTTCTTTTAAATTAGTTCTATTAATAGTAAATGGTTTATCTGAACCATTAATATAAAAATCAATTTTATCTCAATTATAATAAGATTCACTAGGTCTAATATTACTAATATTAACTATATTATCACTATAATTATCATGAGTATCAAATCCATAAGCTAGTGCTTTTAAAAGAGTTTTTGATTTATCTTTTAATGGATCTTTATCATATAAAAAGTTTTTATTTTTATTTTTAGTATTATATTCAACACTAACTTTTATTGTTAAAGCAGTTAATATTTTTCCAATACTTGATATGTTTAATCCAATTACTTTATTAGAATTTATAGATAAATAATCATTAAAGTATGTTGTTAAAGTTTGTATAAGTTGATAGATTGTTTGAGTGTTTAAGCTTTCTAATCCAAATTGTTTTAAGAAATCTTCAGGTAAATTAATTTTGATATTTTTAATTTTTGTGATGTTTTCAAAGTCTTTAATTTTATTTGCAAGTTCAGATATTTTAGTAGTTCACTTATTTTTAGTTTGTTCTAGTTTTTCAAGTTTTTCATCTTTAAAAATAGCTCTTAAAATAGGTAATATTGAGTTGTCTTCTTTATTAATGTCTTTTGTTAAAAACTCAATTCATTTTAAAGCAAAATCAGAAATTATATTTCCTTCATAAAGACTATTTAATAAGTTGAAATCAGTGATTTCTATTTCTTCATATTTTTTAATATATTTAGATAGATTTTCTAAATATTGTGGGAATTGCTTTTTTAGTTTTGTTGGATCAGTTATGAAATTATATGTTTTTAAAGATTCTAAAAAAGTTTTAAACTTTTCTACTGCTGGTTTTATATCATTTTCAGCCCTTTTATAAACTAGTCCATTTAAAAATTCTTTATTATAAGGAAGAGTTAAAAAATCATATATAGTTTTTATTTCTACATCTGGTTTTCCAAAAGGTCATAGGGTTGTTAGAGTTTGAGCAATTGTTATATGTATATTCTTATTATCTTTTAGTAAAGCATCTATATCATTTATTAATTTTTGTAATAAAGACACTGATAGTTTATCTGAGCTTTTTAAATAAAATGTATTTTTTATATATTTAAAAAATCAGTCAGATAAATAATCTACGAAGTTATTTAATGATTTTAAAATATTAATTACTTGACTCAATAATCCTGTTTGTCCAAATAAATTAGCTTTTAAATATAAAGGGGTTCTGATTCCTAAAAAACTAAGAGATATTTCAATTGATTCAGATTTGAATTCAACTTTTCATGTCCCACTATCAATTTTTGGTAATTTTTCTTTTATGAAACTAACTATTTTTTCTTGTATAGTTTTTATAATATTAGAATCATTTAAAGCTATTTCAGCAAATCTAATTAATATGTTTAATCCATTTGAAAAACCATTTAGTTTGTCTTCTAATCAATTTAGTAAGTCATAAATTAAATTACCAGTTCCTTTATTTGAACTTATATTATTTAAATTATTAAAAATTTTATTTTCATCAAATCTTTTAAAAATAAAATTATAAAATCTTTCAAATCCTTTTTTATCCTTTAATATTACTTCTATTCCATTTAATAAAATACCTAAGTCTAATTTATTATTAGTTAAAGCTAAAAATTTATTACTATCAACTTTTTGAACTAACAATTCATTAGGGTCTTTAATATGTTGGTTAGCTGCATAATACAAACCAAAAAAGATTTCAGAATATAAATAGGTTGCTAAGTGTGGTGTAATTCTATCTAATAGTTCTAAAGCTTTTGTTTTTAAATTCTCAAAGTTTTTTAACGTGAATATGTTTTTAATTTTATTAAAAGTCTGTGTTAAATTTGTAGAACCATTTTGACTATTAATTAATTCACCAATAATTTCACTTAAAGAATCTAGACCAAGTTCTGTTAGAAATTTGTCTAAAGCTTCAGGTATTTTATCTTCTTTTACTTCTTTACTAAATTGATGATCATTTGAAATAGCAGCTGCTATTTGATTAATATTTTTAATTAAAGCTTGTTGCACAGTTAAATTATTATAATAATCTTTTTCTAGTTGTTTTGGAGTTAAAATTTTTCCTAAATAACTAAATAAATTTTTATTGTTTTCAATTACATCAGCAAACTTATTTAATCCATCTTTATAGTTTTTAAAGTTAGGTTTTTCTCTATTATTTAAAACTGTATTTTGTATAAAAGACAATCCTAAAGAAGCTAAAGAGGGTGCAAAACCATTTAAAAATTTTTCAAGAGATTTGCTTATACTAAATAAAAAGTCAATATTTTGAGGAGTAATTTCTCCTTTTGAATTTTCTATATTTTTATATTCATTATTATTTTTATATTGTATTTGTAAATTTTTATCTAATACATTATTAGGTGAACCAAAATAAGTATTTCAAAGATCAGAAATAGTATCAATTGAAGTTGTTTTAGTATTATTAGGTCGTCAAATAAAATCATTATTAAACTCATCTGATAAAGATTTTTTTCCGATCTTTTGATTAAGATAATCTTCATTAAGATTTTCTGTTTCTTTTAAGATTCTAGATTGAACTGCATATGAGCTAGCTTGGACATAATTTTGAACTTTGTTAACTATTTTTTGTTTGCTTGAATCAACATAGCTTTTTGCAAAAATTCCAAAACTACTTAAAAAGATGGCAAAAACAGAAATTATAGCTACTCATCACTTATTATTTTTAATAAACTTTAACATTTTGATTTACCTATTAAATTGAATAAAAAATTTATAGTTGTAATATTAAATCACATTTTATTATTATATTATATTATTATGGTTCACTATGCTCAATATGGCATAGTTTTTGACTTTTAATAATTAACAATAGAAAAGAAGTTGTCATGAAGAATTTATATCTAATGTTAAAACAAGGGGTTAAATGAATTTTAAAATTTAAACTTCAATTAGTTGTAATTGTAGTTTTGACTTTCATTGCTTCAAGTATTTTAACAATTTCTTTTACTACTAATAAAAGATTAAGCTCAGCTTATGATCAAGTTGTTAATAACCAAAAATCGCCAAAATTTGACTCAACATATCAAATAACAGTTGGAAGTAAAGCCAAACCTGAAAAAGGAGATCCTTTATTTATTCCTATATTTGATTTTGTAGATAAGCAATATACTGGTTTTAAAGATGAAGGTTATGATAATTTTAATTTAGCTTTTAATGATATATACAAAAACAAAGACCTTTTAATAATAACAACAAGTTCACAAGAATTTAAAGATGCTTGAGCAAAGAAAAAAGAGGTTTTTGAGTACAAAGAAAATCTTGATGATATAAAACAATTATCTAAAGAACAAGAACAATTTGACTTTGCTATAAATGATGCATTTTTTAATACAATGGCTGAATTATTATCTAAGAATGATCCAGCTATTAAAAATACTGTAATTGGAAGATACACTTTATCTAATCCAGATTGATATAAACATTTTTATAATAAAGAAAAAAATATTAAAAGTAACTGATCAGAATTTATTAAAGATAAACAAAGAATTGAAAATTTAAAAAAATCTAATCCAGATGATTTAAAAACTTATTTTTATTCATATTATGCATTTGAGTCACTTTCTCAATATTTCTTTAAAACAATTCAAACATTTTTACAAAATAAAGATAGTGAATTAGCTCAACAATCAAATATTAATAAAGACAATATTCATAAATATTTTTATGAATTCTTATTTGGTAAATATTTTGATAATAACAAAGCTTCATATAAAGAAGAGTACATTGCAAATAATAATAATCTTTATACTTTAACTTTTGATTCAACAGTTTCAAGCAATGAATTTAACAAAATGAATTTTTTAATAAGTTCAGAAAATAAAGAACAAAATTCACAAGATCAAAACTTTTTTAATGAGTTAGTTAGAAAAGGATTTAAAGGAATTTTAAGACCACTTCAAATCACTTATCAAAATTTTGGTGATCAAGTTGATATAAAAAACGTTGTTCAATATAGTGAAACTCAAGAACTAAGAGGTTTTGTTTCAAATTCAAATATTTATTCTCAGAATGTAAAAGAACTACCTGAAATATTTAAAAATAATAGTTTTGTAGATATATTAGCTATGAATGCTGATCCGTTTGCAAACATTGGTGAAAAATCTGTTAATTTTTATACTAGTAAAACAAATGATCTTGAAACAACAGTTGCTTCAGATTTTCCAATCACAGCTGCATTTTTAACTCATCATAAACTGACTGCTTTAGCTAATGGTTATGATTTATACATTAGACCTGAAACTATATTTAATGACCCAATTACTAAAAAAACATTTAGAATTGTTGATATTACTAATAAAGACTTTACTAATTACATAATTTTAGATGGACAAACTCCAAGTAGTGCTAGTGAAATAACAATAAGTAAACAATTTGCAAAAGCTAATAAAATTCAAATTGGTGATCGTTTAACTTTAGGTAATGCTAAAGGATTAATTGTTACAGGTTATGCTGTTGATACATATTCATTTTTTCCAACTTCAGATCCAAATGTTCCTTTACCAAAATCTGATTCTGGTGGTTTAATATATGCTGACTTTGCAACTATTAATCAAATTTTAGGTGATGGAAATTCAGCAACAGGAAATGATCAAACTTCAACATTTAATTTCTTTTTAATTAAAAAAAATAATTCTTTAAATATTAAAAATGTCTTTTTTGATCATTTTTCAGTAGCAAATAGAATCAGAGATAATATTTTAGCTAAACAAAAAGGAACTGAAATTCAAACATTTTATCAAGAACATGAATTTAGTAACTCTTGATATTCTTTAAACTGAACTTTATATCAAAAAATTGCATTTTGATATTCATTAGCTACATTTCTAACGGCTAGTTTAATCGCTCTTGTTTCAGCATTAGCTGTATTTGTTGGAGTTATTAAATCAATTCAAGCAAACTCTAAACAAATCGGTATTTTAAAAGCAAATGGAGCTTCAAGTGCAACTATTTCATGATCATATGTTTCATATGCTGTGATTTTAGTTTTTATAGCAATACCTTTAGGTTGAATGGCTGGAACAATGTTACAAGTTCCATTTGTTGCTATTTTTAAAGATTATTTTAGTTTTAAGACAAATGTATTAATTTATGATTGATTAGCTCCTTTAATATCTATTATTATTTTTGGAGTTTTAATTGGAGTATTTTCATTTTTAGTTGCTTTATTTCATATTAAAAAACCAGTTCTAGATATTATAAAAAGTTCTAAGAAATGATCTAAACCAAAAATTACAGATTGATTACATAAACGTATTTTTAAAAAACCTAGATTTGCTACTTTATTAATGTTAAAACTAACTGAATCTGGTAAAAAACCATTTAGTTTGTTATTAGTATTAGTGTTTGTTGGAACTTTATTTGTTTCAGCTGGTGTAGCTATTCCTAGTGTTACTAAATATGCTAAAGATAATTACTTTAAAAAAGTTAATTATGATAATCAGTATGAAATTTATAATAGTTTATCAAATAGTCCATTAGGAAAAGATGTATTTAATTTTTGAAATGGTCATGAACAAATTGATAATACTTATAAAGAAATTAAAGATCCTAGTGGAACTATTAATTATTATGAAAATCCAAATAGTTATACTTTATCAAATCAAAACTCTTCAGTTCTACCTCAACTAATTTATAAAATTAATACTAATAAAGACAATGATTCTAATAATGCTGAAATCCTTACTCCATATAAATCAATTATTAAAGAATATTTAAAAACTGGAGTTTCTAATTTATATAAAAACTTATTAGATTGAGCTTCATATCAAATTAGTATTTCTAATGGTAAAAGTATTTCAATTGGTACAATAGAACAACTTTATGCTTATATTTTAAATGATGCTGATTTAAACGAACGTTTTAAAAATGACATAGATAAAGTTAAAGAAACTAATAATGTTACTCAACCTTTAACTCAGTTTGTTGGAGAACTTTTAAAGACTATTTTTAAAGATAAAGTGCAAACTACAGGTGAATGAAAAGAAAAAATTTTAAATTTAATTTTAGGTTATTCTCCTTCATTTATTAAATCTTATTTAACAAGTGAATCTAGAAGAAGTCAATTTTCTTTTGGTTGACAAAAACAAACTATAATTCCACAAAAAGATCAATTAGCAACTATTTTTAAACCTAAATCAAATAATGTTGAAACTAATTATAGTATTTTAGGATTAGATAAAAATCAACAAACTTATAAGTTAAGTGATAAACAAAAAAATCAGTTATTTTTATCAAATAATCAAGTTCAAAAACTTTATCAAATTATTAATAATCCTTATGATAAAAATCAAAACAATGATATTTATTTAAATAATATTAAAGTTTATGATCACAAAACAAATACTTTAACTATTCCAACCATTGTTAATAAAAACTTAAATTATAAATTAAATAAATTTGGTGATAATATCATTTCAAATTTATCTGCAAACAATATTCAATTATCATATAAAACAAGAAATAATGATTTTAATGTTTTACCAAAACAAGCTTGAATATATGATGATTCAGATTATTTAAAAACTGAATATGTAAATAAACATACTAAATGAGAAGATCAACCAATTCAAATTATTAATAATAAAAACAACAGTTCTTCTTATGGATATGAAGTGGTTGAAAATGATAATGAAAAATACTACTATTTAAATCCTTATAATTTAGATGTTAATAAATTTACTCAAAGACAAGTTATAGATATTTGATCTAATAATTCAAATAATTCTTTAGTTGCAAAACAACATGAAAATATTGTTGATGAGTCTCCTTTATTTGGTGATTTTGTAGTTAATAATAATGGACAAATTACAAAATCATTTATAAGACCATATTATCAATTAAGAAACTTATTATTATTTGTTCCAATAACTAATCAAGTTAGTTGAGAAGACTTTGCTTTATATGCAAGTGGATGAAGTGAAAGCGCAGAACACGGATTAGATATTAAAAGAGTTATTAGTGATTTAGATAAAACTGATGATCATACAAGAAACTATAAATATCCAGCTATTAAAAAACTAAATGCTAGTTTAGTTCCACAATCAGTTAAAAATGGTTGACAATCAGTAATTAAAGATCTTAAATCTGATACAGCTTATTTAGCTATTAGACCTTATGATTTTTCTATTCAACAAGAAAAATGAGCAAATAATCATTATGAGTATTTTATTTTAGATAATAATACTAAAAAAATTCTTGGAGTTAATCCACCTTCAGCTGATAAATCTATTCCAAATATTTTATTAAATTCAGTTCCTCATTTTTATAGAAGAGCTGTTGGAAAAAGAAAAAGTATTCCAGCAATTTTAAAACTACAAGATAAAAATGTTAGTTATGTAAATAAAGATTTAAAAATCAAATTACAAAAAGTTGATGATATTGATATTTATGGAAAAGCTTATGCTTTAGTTGATTCTGATTTAGCTAATATGTTGTATGGATTTGATATTAGTAGATCAACTAATTATGACTATCGCCCATTTGATACTTCTAAAATTATTAAAAAAGGTGAGTTATTTAATACTTATAAAACTACAAATTGATTAAAAGTAAATAATAAGGATCCTTGAAAACAAGCGTTTATTAATCAAAAAGACACGTTTAGTTATTCACCACATTATTATTACAATACTATATTTTCAAATTCTAGTGAGCCTTTAATTATTACTAGTTCAGTTTCATTAATTTCAGAACAAAGATTAGGAATTGCAATTTTAGATCTAATGAATCTAAGTGATTATAAAGCAGGTATAGTTGATGTTGATTTTACTTTTGAAACTAAACAACTATTAAATCAAATAGCTAAAACTGCTATTTATATAGCAATAATTATAATTACAGCCATTATGTTATGTGCTTCATTATTAATCATGCTAATAACTGATATTTATATTTCTCAATATAAATCATTTATGATAATGTTAAGATCAATGGGTTATACAAATACTCAAGTAATGTTTTACACACTTGGAATAGCTACTATATTTAGTTTATTAATTTCATTTATTACAACAATAATTGTCTTTAGTAGTACTTCAATAATTGATAAAGTCTTTTCAGCAAATGGCTTTTCAATTCCAATTAATGTATATTGAGTATCAGTAGTATTTTGTATTTTACTAATTTTAGTATCATTCTTTACTTCTTTATGAGTTTCAACAAAAAGAGTAAGAAATGCTGAACCAAGTACAATGCTAAGCGAAGTTGATGAATAATAAAAGATTAAACCAAATACATTGTGTTTGGTTTTTTATTTACTATTGAAAAAAAAAAAAAAAAAATAATATAATTTGCATACTATAAAAAATGTTTTTCAAATAAGTAATCAGGAGTAAATTTAATGAAAAAGTTATTGGCTATGTTAAGTATTAGTAGTTCTATTTTTTTAATAACAACAGGAATAATCTTAAGTAGTAAAGATAATTATTCAAGTATGGAAACAATAAGTCTTAATGTTAATTATCTTAAAAGACATAAAATAACAGGAGGAAATAAATTAGAAGAAATAGGTTATTATAAAGAAGGTAATTTAGTTAGAATTGAACATATACCATATAATGTAGAAATCATTGCTTGTGATTTACCAAGAGAAATTACGAGTTTGAAAAACGCCTTTGTTACAAGAACAAATGATATACAGTGGACTGTTAAATGAGACACTAGTAATATTGTAGATATGAGTGGCACTTTTTATAATACAAGAGAAATTACAGATAAGAGTATTCAAGATTGAAACACTTCAAAAGTTACAAATATGAGTGAAATGTTTGCTTATTCAAAAGGATTTAACTTAGACTTATCAAGTTGGGATGTTTCTAAAGTAAAAACTATGGAAAAAATGTTTCTTAATGCTGAAAAATTTAATAATGGAGAAAAACCTTTAAAGTGGGACAACAAACTAAATGAAGTAACTAATATGAAAAAAATGTTTTATAATGCTTCTAGTTTTAACCAAAATTTAAATAGTTGAATATTAAAAAAGAATGTAAAAAAAGATAATTTTGGATTAGAAGAATCTAAACAACCTATGTGAAAGGTAGAAGAAACAACATTTTCTACAACTAGTTCTTCTGCTGATCAACCTGATAATTCATCTAACATTTCGCCAAGAAGCGATGAAATAATAGAACATAATCCAACATCAAATTCTGAATCCGAATTAAATGGTATGTCACCTAAAGATAGCGAGAATAATAATCCAACTGAAGATATTAAAAATGAAATAAATAACCAACCTTTAAATGATGAAAATAATAATCATTCTACAACACCTATAACTGAAAATGAAACTACAGAAACTGAAAAAACCACTAATGATAGTTCAAATGATTTAAAAAATGATATTTATACAATTCCATCTAATCAAAATACTATAAATTCTTCTAATAAGAAATCATCTAAAACATTAGCTATAACAATGGGTGTTTTAGGTTCTGCTACAATTTTAGGAGTAGGTTCTGGAGTTAGCTATTATTATCGTAGAGACTTAAAAGATTTTTATTTGAAAACTAAAAATAAGATATTTAAATCTAAATAAAAATACAAGAAATCTTGTATTTTTTTATGTTCTAAATTATTAAATTTTTTATTTTAAGTATTAAACAATATCAAATTATTATAAATAAAACAAGATTACTTTCTAATTCTTGGTGCTAATAAAAATTTAAATTTGGGAAATTATATAATTTTATTGTATGGTAAATAGTTAAATTAAGGGCATGATGTATCAGATAAATTTGAATATAAATTTTAGAAATTTTATTAAAAGTAAGTATAGTCTTTGAAAATTGTTTATTAGATATTTTATGTCTAAATTTAAAATACCTAAATAAACAGGAGAATATATGAAAGTTATATTTTTTGGGGTAAGAGATTCAGAGGTTCAATTTTTTGAAAAACTAAAAAATAAATACAACTATGAATTAACATTAGCTCAAGGGGTTTTAACACTAGATAGAATTGATCTAATTAAAGATCATAATTGTGTTATTGTTAGAGGTGCTGATAAATTAGATAAAACTTTATTACAAGCTATTAAAGATCAAGGTGTTGAATATGTCTTTACTAGAACAGTTGGATTTGATCACATTGATATTCCAACAGGACACGAACTTGGATTTAAAATGGCTAGAGTAGCTTCTTATTCACCAACTGCTATTGCTGAATTGGCATTTAGTTTAGCTCATAGTTTATCTAGAAAATCAGCTTATTGAGCATATCAATCAGTTAATAAAAACTTTAAGATGGATCAATATGGATTTTCTAAAGAATTAAAAAATAGTGTTGTTGGTATTATTGGAACTGGACGTATTGGTTATGAAGCAGCTAAAATGTTTAAAGCTTTTGGTTGTGAAGTTTTAGGTTATGATATTAAACCAAATAGTAATTTTGAAGATGTAATTAAATATGTTGATTTAGATTATGCGTTAGCTAATGCTGATATTTTAAGTTTTCATATGCCTTATATTAAAGGGCAAAACGATAAACTGATCAATAAAGAATTGATTAGTAAAATGAAAGATGGAGCTATTTTAATTAATACTTCACGTGGTCAAATCCAAGATGAACAAGCTATTTTAGATGCTATTAAATCTAATAAATTAGCTGGAGCTGGATTAGATGTTTGAAATACAGAAAAAGATTATTTATTTAAAACTTTAGATAGTATAGATGATCCAGTTATTAAAGGATTATTAGATTTATATCCAAAAGTTTTATTAACACCACACATTGGTTCATATACAGATGAAGCAGCCTCAAATATGATCGAATACTCATTAGATAATTTAAATGAATATTTAACAACTGGGGATTGCAAAAATAAATTATAGAATGAGTTAAGGAGATATATGAACGGGGTTAAAGAAGCTTTTATTCAGACCATGACTAATCAAAAATTATGAGGAGCAATTGTTGCTACAATAGTTACTATTTTATTAAGTTATGGCTTAACAAAAGCAAACATATTAAAAAAGGAATGAAAAGCAGGATTAGTTAAAGTAGTTATGACAATTGCAGTTCCAGCACTTGTTTTAACTGGATTTATGAAAACTGCAAACATTCAACAATTAAAAGAACAAGGTGTTGTTTTAGGAGTTTCATTTGCATTTTATATTCTTTTAAATCTTATTGCATTTTTATGAAGTAAATTTGCACCAAATTTTGCTAAAAAATCAGCAGAAATGATTCAAGATAATAAAGCATTAAATTCTGATGGTTCAATGAGTCAAAGTCGTGCTTTAATTATGTGAATGATGATTATTTTTGGTTCAACTACATTTTTTGGATTTCCAATTATCCAAGCTATTTATCCAAATTCTGGGTTCGTAGCTGCTAACATTTGAAATATTGCTTATAGAGTATTTTCATATTCATTTTGCTTTATGATGATTTCAGGTGTTAAATGATCAAAGAAAAACTTTAAAGATGCTATGAAAAAGACATTTGTTAATCCTATAGTTATTTGTACTTTTTTAGGATTAATCTTATGATTAACAACTTTAATTCCAGGTCAAAGTTTTGGAGAAAACTTTAAAACAGTTGAAAAAGGTGGTGTTGCTTGATTTGAGTTTGGTAAAACTTTACCAATAATTCATACACCACTTCAAAAACTAGGTGCCTTAGCAGCCCCTATTACTTGAATTGCGATTGGTATTACTTTAGCAAGTTCTGATATTAAAAAAGCAGTTAAAGATAAATGAGTATGAATATTTAGTATTCAAAAACTAGTTTTATTACCTTTATTTGTATTTTTAATTTTCTTAGCATTAAACAAAACTGGAGTAGTTTCAAAAGAAGTAGCAGTTTCAATGGTAATACTTGCTGCAACTCCACCAGCAACAGTTGTAGTATTATATGCTATTCAATATAAAATGCGTGATGAATTTGCAGCTCAATGTTCAACACTAACAACTTTATTAGCAGTTATAATGTTACCTTTATGAGTTGTAATTAGTAGTATAGCTTTTATATAAAATAAATTTATAACAGAGTGAAGTTAAAGACTTCACTTTTTTATTGTTTTAAAATGCGCCTTAGTAATGTGTTTTTTATGAAAAATCAAAAAATTAAAATTGACTTAAAATCATAGCTATTAAACATATTTTAAAAAGATATTTAACAAAAATGCTAAAGAATTTAAAATATTTTTTACATTAAATTCGACAAATTTGGTAAACTTTTAATGTCAAATTTGGTAAACTTTTATTAACTAATTTGGTAAAATAATTTCAATTATTTCTACAAATATTTATGTGAAACTTAAATAAGATTCGATAAAAAGAGGGGTTATGATGAAAATAAACAATGATAATTATATTCCTAGAATAATGGATAAAATTATACAAAAATATCTTAAAATAGCAGGTGCAATTTGCGTTGAAGGGCCTAAGTGATGCGGTAAAACATGAACATCGAGACAAAACTCAAATAGTGAATTTCTTGTTGGTAGTGCAGCTAATGCTTTTTCTAATAGACAATTAGCTATTCTTAATCCTGAATATGTGTTAAAAGGAGAGTTCCCAAGAATGATAGATGAATGACAAGAAGTTCCTAGTTTATGAGATGCTACAAGAGAAGAAGTAGATAAATATAGTAAAAATGGCCTTTTCATTTTAACTGGCTCATCAACTCCAACCCATAAAGGTGTATTACATAGCGGAGCTGGAAGAATTGTAAGACTTAGAATGAACACCATGACATTATTTGAGTCGGGAGATTCTACTGGCATACTATCTCTTAAAGATCTTTTATTAGATGATATTAAAACTGAATATGTTGATGAATTAGATTTTAAGAAATTAGCTTATCTTATTGTTAGAGGTGGATGACCTAAAAATATAAAAACTAGTTTTGATGATTGTGAAGTGTTACCAAGGTCATATATTGACTCTATTTTAGAAAGTAAATTATTAGATGAAAATGATAATGCATACAATTCAAACTATATTAAATTGATTTTAAAATCCTTAGCAAGAAATGTATCTACTACTGTTAGTGAGCGTTCAATAATTAATGATATTTCTCAAAATGAAGTTGATTCAATTTCACGTCCTACTTTATCTAAATATTTGGATTTTTTAAATAATATGTTCTTATTTAGCAATTTAGAACCTTACTCTTTAAATCCAAGATCTTCTTTAAGAGTAAAACGACAAGAAAAAAGATACTTTTGTGACCCATCTTTAGCTTGTGCTTTATTAGATTTAACACCTAATAAAATAATGAGTGATTTGAATTTATATGGTTTATTATTTGAAGGATTAGTGATAAGAGATTTAAAAGTTTATGCTCAAGCAAATGATGCTAAAGTTTATCATTATCAAGATTATTTAGATAATGAATTAGATGCTGTCATTGAATTTAAAAATGGTGAATGATGTGCTATTGAAATAAAATTGGGACTTAATCAAGTAGAACAAGCAGCAAAGCAATTAAACAAAGCAATTGATGCTATAACTAGAAGTAAAAATAAACCACCTATTAATAAATGTATAATAGTTGGATTTGGTAATTTAGTATATAAAAGAAAAGAAGATGGAATTATTGTAATTCCAATCAATGCATTAAAAGATTAAAAAAAACCAAGATTTGTAAATCTTGGTTTTTTGTTTATATTATTATTTTTCTTTATCTTCTTCTTTAACATCATTGATATCTAAATCAATAATTTTTCCAGAATTTATTTTTTCTTGTTCTTGTTTGTATTTTTCTTTTTCATGAATTACAGCTTCTGGAAGTTTTTTGTTTTTGTTGATGTAATCAATTTGTTCAGCTGTAATAGTTTCTAATACTCTTAATGATTCGGCTAATAATTCTAAAGTTTCCATATTTTCACTAATTACTTTAATAGCTAATTTATATGATTCTTCTAGAATTCTTTCAACTTCAGCATCAATTTTAGCAGCTGTTTTTTCTGAATAACTACCTTCAGTTTTTCCATAAGCTTCATCAGCCATAGTTAAGAATTTAGTAATACCTAATTCTGACATACCAAATTGCATTACCATTCTTCTAGCAATAGCAGTAGCTTTATCAAAGTCATCATGAGCTCCAGTAGTTACATTATCTTTACCAAATTTAATTTCTTCAGCAGCTCTACCACCTAGATATCCAGCGATCATAGCATATAGATCAGTTTTTGATGAAAATAGTGTTTCATCTTTTGGAGTCATTATAGTATAACCACCAGCATTACCACGTGGAATAATTGTAACTTTTTGTACTTTTGAAGCACTTTCTAGTTTTAATCCAATTAAAGCATGACCAGATTCATGATAAGAAACAATCTCTTTATCATGCATTGTCATAGCACGTGATTTTTTAGCAGGTCCACCAACTACTCTATCAATAGCTTCATCAATTTCATTTATACCAATTACAGTTTTACCTTCTCTAACCATTAATATAGCAGCTTCGTTTAAAACATTTTCAAGTTGTGCACCTGAAAATCCTGGAGTTCTTTCAGCAATTCTATGTCAATCAATTGATGGATCAATTTTTTTATTTCTTGCGTGAAGTTTTAAAATTTGTTCACGTTCTTTAATATCTGGTAGAGAAACTTGAATAACTCTATCAAAACGACCAGGTCTTAATAAAGCAGGATCTAATACATCAACACGGTTAGTTGCAGCCATTACAATAATTCCTGAATTAGTTTCAAATCCATCTAATTCAACTAATAATTGGTTTAGAGTTTGTTCATTTGTTCCTGTACCAATTGCTGAATTACGTTTTCTACCAACAGCATCAATTTCATCAATAAAAATAATTGCAGGAGCAGCCTTTTTAGCTTCATTAAACATTTCTCTAACTCTACTTGCACCAACCCCAACAAACATTTCTTCAAATTCTGAACCAGCTATAGAAAAGAAAGAAACATTGGCTTCACCTGCTACAGCTTTTGCTAGTAAAGTTTTACCTGTTCCAGGAGGTCCTTCCATTAAAACTCCTTTTGGAGCTCTAGCACCAGCTGATGCATATTTAGCAGGTTGTTTTAAATAGTCAACTAGTTCTACTAATTCTGATTTTTCTTCTTCAATACCAGCAACATCACTAAATTTAACATTAGATTTTTCTCTACGTGCTTTATTTTTACCCATACCAAATAAACCATTAGCACCAGCACCAGCTGCTCCACCTTTAGCCATAAAGTAAAATAAACCAATGTAGAATAAAATTAAAATTAGCATTGGTAATAATGATGAAAGTAATGAGAACCAAGATGACTCAGTATAACGAGTAGTATTAGAACGTCATACAAAATTTTTAAAAGCATCACTAAAACCATTAATAGCATTTGGATTTGTATTAACAGTAAATTTAGTTCAACCACTTCCATTGTTATATCATCCAGTGATTATATCTATACCTTGGATATTATTACGCTGCAAAACAACATTATTAAATGGTTTACCTTGATCAAATAAATTATTTAATTGTTCAATAGTTAAATTTTGAGTAGTTCCTCTAGAAGTTATACTAATAACTGATAGTAAAATTATAAAACCTACTATTAGAATTATTCAAAACCAAAACGTAGATTTTTTCTTCTTTTTGTTCATCTGTTTCTCCAGTCTATTTAATGTCCATAATATTTAATATTATCACATCCAAATATAAATAATGACGGCTTTATCATTGTAGTTTTTAAATTGGTATTTTCTATGTTATTATAATATTGGTAAGACGTAGGGAATGAAGAATATCTTGATCGTATGTACTATTAAGTGCAGAGTACGGGCACCCCTATGCTGGAAGGAGACTATGTCTCCTTTTTTTAAAGTGGTGATTTTATGACTTATTATTTAAATTTTTATTTAGATGAAAGTGGTAATGCTATTTCTGATTTTTTTGTTGTTGGTGGATTTTATTTAAATGATTCTGATTATTCAAATATTCAAATTCATGAATCTAAAATTAAATCTAATATTTTAAAAACTGAAAAATCAATTAGAGAATATAGAAACACTGTTGAAACTGATTTAAAACCTTATGATAGCAAAAAAGAAGTTAAGTGAAACAGTTTATCTTTAAGTAATAAAAAGGCCTTATCATCAAAAATTAGATTCAACAACCAAACTAATATTGCTATGGTTAGTAGTTTAAAAAACTGAGATTCAAAGTATGGTAAAGAAATCAAAATAGAAGCAATTTATAATATGATGGTAAAAAATTTAATAGAAAGAACTATTAAATCTTTATCAAGTCAAAAAGTAATTAATAATAAAGATATTTTAAATATAAAAGTTTATATTGATCAAAGGAAAACAATGATCAAAACTAAAAATAAACAACAAAAATTAGAAGCTTTAGAAGGATATATAAAAACAGAATTTTATTGAAACTTACACTTTAAAGATATTCAAATAAAAGTTGTTCAGTTTGAATCAAATTCTCATCCTTTAATTAGATATGCTGATTATTTTGTTGGAAGTATTGCTAGTATGTGTCATTTTTTAAATCATTCAAATAAATCTTGATACCAACAAGCAGATGTTGTTTTTGAACAAATACATAAAAAAGTACCTTGTATTTGTAGTCAAACTATTATTAATCAATCAAGTGTTGTTAAAAAATTGATTAATTTATGTAATCAAAATAATCAAATCAGAGAATCAAAAACTAATAATGCTTTTTAATTTTATTTAAAATAACTTTATCTTTAACATTATATACAACAGGTGATAACAACCTAGTTTTATAACTTATTTTTCTATCTATAAAATAACGGTTAGTTTTTTTATTTGCAATTGTTGTTATTGATTTATACATTTCATAGCTATTTGTAATTACATAACTAAAATTTTTATCTCTTAAAATGATTTGTTCAATTTCTTTAATATTTTTAAAACTTGTTTGATTAATTAAATCATTTAAATCGTTAATAATAATAGTTTTTGGTTCTAATAAACTATTTTTAATAACAAATAACTTATTATAATCTTTAATTAAACTATGATCATTTAAGTTAATTTTTCAATAATTTTTATTTGAATTAATTAGTCTTTTTACTATTTCACTAATAGTTTTATTACTTCTATTTAATAATAGATTTTCTTTATTAATTAATTTAAAGTATGTATAAATTATTCTTTGAATATAAGTTTGATCTAATAAAAAAAGTTCTTTTGTTAAATTAAGTTCGTTATTAATAATATTATTTTTTAAATAGTTATCAACTATTTTTTTTGTGCTGTTTAAATTATTATTTGATTTATTAATTTGATCTAAGATTTTAGTAAAGTTATTTTCATTTAAAGTTGCTCTAATTTTATTTCTTTGATATTTAGTATTACTATTAGTTGAATCAATTGCATAACTAATTTTATTAGTGTTTAAATAGTTAAGAATTTCAGATTTTTTAATATCTAATAAAGGTCTATAGACTACAAGATCTTTATAATGACTAACAGGTTTTAACCCATAATAATCAACTAAATTATTTCTTTGTAATTGTAATAAATAAGTTTCAATTAAATCATTTAAATTATGAGCAACTAACAGATTATAAATTTGATATTTAGATGCAATCACATTAAAAAAATCATAACGTTGTACTCTAGCTCAAGATTCAAAATTTTGTTTTAATAAACTATAATCTTTATTTATATTTAATATTTCTAGTTTTAAATTAAATTGTTTACATAAATTAGTAACAATCATTTGATCATTGTTTGAATCTGATCTAAAGTTATAATTAACATGACAAACTACTAAATTATTTGGATCAACTATTTTAACAACATTACACAATAAAAAAACACTATCAGGTCCACCTGATACTGCTATTAGGTATTTTTTAGATTTATTAATATTAAACAAGCTCATAATTATTCAATTTTTAAAGTTTTAATTATTTTTTCAAAACGGTCGTGATCTTTAGTTAAGATTCTATTAAATAGAACCTGAACAACATATAGTAAAGAAAAGTTTGCAGAATGCTTAATTTTTTGTAATGGGTCAGCATCAGTAACTGCGTATTTAATTCAATAATCACAAACACTAGAATATTTGTTTGGTTTATTCATTGAAATTAATCCAATTCTAGAACCATTTTTCTTTAATTGAACAATTGATTGATAAGTAGTAATGTTTTCTGCAAAGTGAGAAATAACAATAAATACTCAAGATGAATCAGAAATTTTAGTATAGTAATCTAATAAATCTTGTTGATTAATGATTACTGGTGGAATACCAATTAGATTCATCTTTTCAGCAAGCTCAGTAACAGCATGATTTACACTATTATCATAAGAAATTAAAGCAACAGTTTTAGTGTTATAAATTGCTTTAACTAGCTTGTCAACTTGGTTTGTTTCAATTAAAGCATCAGTTGCATTAATAGCTTTACTAATTTCTTCAAATTTAGAAATTTTTTTATCTTTGTTTTGAAGTAAAAGTCTATTTTGTTCTTCTTGTTGATTTAAATAAACTCTTAATAAAGTTTGAAGTTCACTAAACCCTGAAATATCTAAATGTCTTTGACAAAATCTAGTAATAGTAGCTGGAGAAGTATAAGTGATTTGAGCTACTTTTGAAATAGTTGAATTAGTAATTAATTCAATGTTATCTAAAATGATTCTACTAGTAATTCCAGATGCACTAGAGTGCTCTTTTGATAATTGATCAAGTTTTAAAATTAATTTTGTAACATCCATATACTTATTCTTTCTATTTGAATTATATAATACTTCCTAGTATTTAATATACTAGTCGTGAAAGTATTTTAACAATTCATCAGTATAAGTTTCATCATCATTATGTGTAATTAAAGTTGGTAATAATTCCATTCCTTCATTTCCTTGATATATTCCATCTAATAAAATCATTTTTGCATTATCTATTTTTTTAGATTGAATTAATCTTAATCTTTTTGGATAAATATTATATTTATAAAATAAATTAATAATTTCACTTAGTCTTTCACTTCTATGAACTATAGTAAAATTACCTTTATTTTTTAAACATCTAGAAGCACTTTTAATAATATCTTCTAAAGTAATTAATAATTCATGTCTAGCATTAGCAACTTCTAAAGAAATTTCTTTTAGTTTAGGATTACCATCCATTTTAAAAAAAGGAGGATTACATACAACTAAATCAAATTCTTGATTATGTAATTTACTAAACTCTTTAATATCAGCATGTACAATTTCAATTTGATCTTCTAAGCCATTTAACTTAATATTTTGTTTTGCTATTTCAACTGCTTTATGTTGAATTTCAACTCCAATGATTTTTGCTTTTGTGTATTTAGATAAAATCAAAGGAATAACAGCATTATTAGTCCCAAAATCACAAATCTTTTTTTTCTTACTATTTAAATTACAAAATCTAGCTACTAATACACTATCTAAAGTAAAATTAAACATCTTATTATCTTGATATAATTTTCTATTTTTATATCCTAATAAATCATTTAAAACTTTCATTAAATTTGTTCTACAATTCTAATTAAATAATTATCTATAGCTATATTTGTAAGTGGTAAAAATTTTAGATCATCTAATAATTCTAAAGTACAACTAATTAAATTAGTAAATTGATAAATAATAGTTCTATTATATGCATCATCAATCATTTTAATTAGTTCATTTTTATTCATAGCTTTTATTTCTTTATTAAATAATAAAATCTCATCTTTATTTTTAGATATTAATAATTCTTCAAATTTATTAAGCTTATTATCTATTTTAGTTTCATTGTCTATATTAATTAACTGACAACGTGATCAAATAGTATTAATAATTTCACTATAATTATTAGTTAGTAAAATTCCATAAGTATTAATAGGTGGTTCTTCTAAAAATTTTAATAAAGAATTAGCAGCACTTTGTTTAAGATTTTGAGCGTTTTTAATTATAAAAAACTTAATATTTTGTGTTGCAGTTGCTGATAAAGACATTTTATTAATTAGATCTAATACCTCTTGATTTGTTATATTAATATTATTTCCAATAGTTAGTATATCAACATGTGTGTTATTTTGTATTTGATCTTTTAATTTATTAAAATCAAGATCACTTACATTCTTATTAAAAGCATAATAAATAATTTGATAAATAACATCTCAACTAGTTTGTTCATCTTTACAATTTAAAATAATGTTTGAAAATAAGTTATTATTGTCAATTAGTTTTTTTAATCTGCTAATTACTTGTTCTTTTTTCATTTTCTTTAAGCTTTTCTAAAATTATTTTTATAGCTTGATTATAAACTTGATCAATATCTTGATTAGCATCAATTACTTTAATACGTTTGGGATTATTTTTAACTAGTTCTAAATAACCTTGATATACTTTTTGTTTAAAATCACTTTTTTCTTTATCTAGTCTATTTTTTGAATTTTCTCCTCTTATTTGCATTCTTTTTTCAGCTTCACTAAAAGAAACATCAAAAAATAATGTTAGATCAGGTAAACAATTTTTTAAAACAATTTGTTGAACTTCACTAACTACATCAACACCAATATTTCTAGCACTTCCTTGATAAGCACTAGTTGAATCAATAAAGCGATCTGAAATAACAATAATATTTTTTTCTAAAGCTGGCTTTATTACTTTTTGTAGATGTTGATTTCTTGAAGCTATAAATAATAAAGCCTCAGTTCAAGCATCCATATCTTTATTTTTATTATCTAAAATAATTTGTCTAATTTGTTCAGCAATAGCTTCTCCACCAGGTTCTCTTGTAATTAAAACTTGATAATTTAATCTTTCTAGTTCTTCTTTTACTTTTAATAAAGCAGTAGTTTTTCCACTACCATCCATTCCTTCAAATGTAATAAACATTATTATTCTCCATATTTTTTTCTATTAAGAAATGCACTTTGTAAAGTGAATTCATCCATATAATCTAAACTAGCTCCCATTGGTATTCCTTTAGCTAATCTTGTAATTTTAATGTTTTTAGTACTTAGTAATTTGTATAAATAATTAGCAGTTAACTCACCTTCAAAAGTAGAATTTAAAGCTAAAATAATTTCAGTATTATCATTAATTCTTTTAAAAATAGAACTAATGTTTAATTTATCAAATGTAATGTTTTTATTTAGATTAATTTCACCATTTAAAATATGATAAACCCCTTTGTATTTATTAGTATTTTCAATGTTTTTTGCATCTAAAATTGTTGAAACTATACAAATTATATTTTGATTTCTATTCTCTAAACTGCATACTAAACATTTATCATTTTCACTTAAATACCCACATATTTTGCAAGTTGAAATTAATTGTTTTGCTTTATTTAATTGATCAATAAATTGATCTAGTTTATCTTTATTTATTAATAAATCAACTAATAATCTTTCTGATGTTTTTTTAGTTAAACCTTGATTTGTTCTAATTGATTCAATAATTTCATCAAATGTAGTTTCTAACATTTTAATCACCTATCATAAAATCATCATTAAATAGATCTTTAGCTTTATTAATTAAATCTTGATCAATTTCATCATTAATAGTTAAATATTTTTCTTTTAATTGTTTTAAATTAATTTCACTATATTCAGATAATTTATTTTTATTTTTTAAATCAATAAAAATAGTTTTAATTTCATCTCACTTCATTTTATCAATAGCAAAAATTAAATATGGTTTTTTAAATCAATTATAAATTTGTTGTAAAACATGATTATCTAACATTGAATCATTAATTAAGTTAGCTTGTGCTTTTGTTTGAGTTTTTAAAACAATTACATCATTAGTTAAAGAAATGATCTTACTATCTAATAACATAAATAATTCAGAAGCTATTTGGGCATTTACTAATTGATCATCATTTTGTAAAAATAAGTCTTCAAGTAATTGTTCAATATTATGGATTTGATTTTTATAGTTTTTAGTTTCTATTAAAATACTAATTAAATCTTCATTAAAAAGCATTTTTACTTTACTATCTATTGCTTGAGAAATATGAATATTAAATTTTATTTTTAATTCACTAAGAGTTTTACAAATCTCATCTATTGTTTGTTCTTTTTGATTATAAAAATCAAACTCATTAATTGGATCATCTAAATTAGTACTATCTAGTGGTTTGTCATTTTCAATAGTGTTTTTAATTAAGGTTTGATCCTCAAGATCTTTTGTTAATGACAAATCATCAATTATAGGTTGTTGTATAACAGGTTCATCAATTATAGCTTCATCAATTATAGGTTCATCTAAAACTTCAGGTGTTATATCATTTGGTTTTAAAATTTCTTGATTTTGTTCAACTTGTTTTGTGCTTATAGTTTTTGATACTGCTTGTAAGTTGTTATTATTTGAATTAATTGTTTTTAATAAACTTAATAATAAATAATTAAAACTAATGTTAGCGGCTTTTGTTTTAAAATAAGCTTCAGCTAGATTATCAGCTAGTATAAAGAGATTATTAACATTTATATTATTAAATTGTTCAACTTCATTTTTTTCTAAGATATTTAAAAACTCAGTGTTATTAGTTAGTTTATATTCAATAATTTCTTTTAAAATCTCAATTAAACCTAAAGCAAAAACATCTCAATTCATTCCCTGATCATTTGCTTTTTGAAAATAAGAAATTATAAAACTAGTGTTATTATTTAATGATTGATGAATAACTTGTAATTGTTCTTGTTTTGTTGCAATTAGAAAAATTGATTTTAGAGTTTTTATAGTAATTAGATCATCTGTAGCTAACATTAATTGTTCTAAAATATTAATTGCATCTCTTAAAGAACCTTCTGAAAGATAAAATATTTCATCTAAAACTTCTTTTTCGATCTGATAATTTTCTTGATTTGCTATATATTGCAAGCGGTTTTTTAAAGAATTTTTATCAATTTTTGTAAAGTTAAAAATTTGACATCTTGATAGAATAGTTTGAGGGATTTTATTAAATTCAGTAGTTGCTAAAATAAAAATTGCATAAACTGGAGGTTCTTCTAAAGTTTTTAATAAAGCATTAAAAGCTTGTTTTGTTAACATATGAACTTCATCAATAATATAAACTTTATATTTACTATTTAATGGTAAAGTTGAAACCGAATTTTTAATTTCTCTAATTTCATCAACACCATTATTTGAAGCAGCATCGATTTCAATAATATCGATTAATTGGTTTTGATTTGCTAATTTACAATTATTGCATTGTTCACAAGCTGTTGAGTTTGTTAAATTTAAACAATTAATAGTTTTTGCAAAAATTCTAGCAACACTTGTTTTTCCAGTTCCTCTTTGACCAGAAAATAATAAAGCATGATTTATTCTATTATCTTTAATTTGTTTTTCTAGTATTTCTTTTATGTTATTATGACCAGCAACACTATTAAAATCTTTTGGTCTATATGTTCTATATAAAGATTGTTTATTTGTATTCATTTTACCCTCCAACTAATATAATTTTATCTTATATTAGTACTTGATTAGATAAACAAATACTAGTAGTTTATATTAGAAAAATTATCTTTTGTTAATAAAAAAATTATTTAATAATTTAATGTATTCTGATTGTTTATTGTGGTTTTTTATTTGAATTAAATTAAGGTTTTGATCATTAATACTATAGTTATTTTGAATACCAAATTTATAACTATCAACTAAATAATAAATAGTATTAATTTTTGCTTGTTTAATTGCTGAATAACACATCATACAAGGCTCTAAAGTTGTAATTAGTTTATATTCAGATAAATTAAAAGTATTTAGTTTGTTAATTAGTTTGTTAATAGCATTAATTTCAGCATGCTGAGAAATATTTTTATTTTTATATCTTGTATTAATAGACATAGTCAAAATATTGTTATTGTTATCAATAATACAACAACAAACTGGTATATCATTATGTTTAATTGCTTTTTTAGATTGATTGATCATTAGATCTAAGATGTTATTAAAATCACTCATAGTTTTTCAAATAAAAAACCGCAATACAGAACACTTTTCCTTATAGCTGCTACCTTCCGGTCCTAACTCGTTCAGATGTTATTCTTATCGCGGCGTTATAATTATATTATATTTTTAAGTCTTATTCAATTAAGTAGATATTAATCTTTATAATCACCTAATAAAACATAATCAACACGTTTTATTGCTTGTAAATCTTTTCCACCAGCATATGAAATTGATGATTGTAAGTCTTCAGTCATTTCTTTTAAAGTATCAAAAATACTTCCTCTAATTTTAATTAGTTCTTTTTTACCTTCAACATAACGTTTTTCACTTTTATTATATTCACTAGCTGATCCATAATATTCTTTATAAATACAATTATCGATTTCAACTTCTTTTCCAGGTGATTCTAAATGTGCAGCAAACAAACTTCCAATCATACAAAAACTAGCACCCATTCTAATAGATTTTGCAATATCTCCATGAACTCTTAATCCACCATCAGCAATAATTGGTTTTGATGCAGTTTTTGCACAATATTTAAGTGCAGATAGTTGTCATCCACCAGTTCCAAAACCTGTTTTTAATTTAGTAATACATACTTTTCCTGGACCAATTCCAACCTTAGTAGCATCAGCTCCTCATAATTCTAAATCTCTAACTGCTTTTGGTGTTGCTACATTTCCAGCAATAATAAAAACTTGATCTTTCATTTTTTCTCTAATATAACTAATTATATTTTTAACACTTAAAGCATGACCATGAGCTATATCAATTGTTATATAATCTGGAATTAAATTTTGTTCAACCATTTGATCTACTAATTTATATTCATCAGGTTTAACACCTAAAGAAATTGAAGTTATCAAGTTTTTATCTTTCATGTTTTTAATGAATTTTATTTGATCAACATTAAATCTATGCATTATATAAAAATAGCCATTTTTTGCTAATTTTTCAGCTAATTCTTCATTAATTATTGTTGCCATATTTGCAGGCACAACAGGCAATTTAAAAGTATGTTTTCCTAAAGTTGCAGTAGTATTGCATTCTTTTCTTGAATTAACAATACACATTTCAGGAATAAGCTGCACATCATCATAATCAAATATCTTCATAAAAATTTCTCCTTAAAAAACATATTATAAATTAATAGAGTAAAAATATCTATTTAAACATAATAAAAACGGCTATGCCGTTTATTTAAAAACAATTTATCTAGTAATTATTATTTTACTTATCTTTTTAGATTTTTTAAAAATCCTTTTATTTAAACCAACCACAGCTCCACAAATTGATATTGCTAGTAATGTTAAACCAGCACCAATACTAATTGCTATTTGTTGTGTTTTATCTAATTGATTTGAATCTAGTTTATTTTTTGACTCATTAATTAAATCAATAATTTGAGAAGGATCATTATTTTTAAAGTATTTTTCATCACTATTTAAAACTTTAAATAGTTGTTCATATTCTTTTAACTTAATCTTAAGTTTTTCTTTTTCTTTTAAAAGTTCATTATTTGAATTATATTCATTATTTAAAAATTCTTTAAATTCTAATAATTCAGTTTTAATTTTTAAATAATCTTTTAATTTAGCTTTTAATTCTTTATTTTCTTCTAGTAATTTTTTATTAGAAGAAAATTCTTGATCTAATAGCTCTTTATATTCCATAACTTCTTTTTTTAGTTTTTCAAGTTCTACTGAAGTTTGGCTTTTTAAAACTAAATTAGAGTTATTTAAATCGTTATTTTTTAAATAAGCACTAAAAATAATTGTTGAAATTAATAAAAAATTAAGACCCAATATATTAAATAACTTTTTCATAATTATTTAACCCTCATACATTTGTATTCTATAAACTATTTAATTATATTAATGTTTTTTAGATATTACAATGTGGGTTTTAATTAGTATTAAAGCTAAATAAAAAAAGAAGTATAAACTTCTTTATTTTTGGTTTATAACAATGAAATTGTCAGCTTTTTTTTCTGCAAAAGTTCCCTTTTTTAAAATGATTCTAAATAAATCAATAAATAGTAGAATTCCAAGTGTTAAAAAGCGTAATAATCAGAATAAAAGTCTTCATAATGCAAGTTTAAACATTTTATTACTACTATATTTAGTTCCAGTTGCTCTCATTCCTCAAGATGGGCTACCTTTAATATATAAAATAATAAAAATAATTAGGTAAATACCTAAAGTAAATACTAATGCTAAAGAGTCAATAAGACTTTTAAAAACTCTTCTTCAAAATCCGGCTATTTTCATTTCTGTCCTTCTAATTTTTTTTTTTTTTTTAAACTATTCAATAATAAGTATATTATTTTACTTTTTAATGAAAAGTACTAAAGTAAAAAAATAAGGCTTTTAAACAAGTTTATGGATTCAAACTAATAGTTTTTAACTTATCCTTTTTTAATTTTTCTATTAATCCATCTATTATTTTAGGTGATTGGTTATTTTTTGTTAAATAATCATTACTTAGTGAATTAAATAGAATAACACCATTAGTTTGCACATATGCAGGTAAAGTAAACTTTTTTCCAGCATAGTCAGGTAGTGGAATTGAAATATATTTACTTCCAGGAACGTCTTGAACTTCAGTATTTAAAATTCCAATTACATTAAATGATGAATCGATAACCATAGATCCAGATGCACCTTGTTTTAGTGCAAGTTGACCAAAAGGAATGTTTGTATATAAAGTTGAAAATTGGTCAGCAATTGTTAGATTCATCCCATGTTCTTTGTCAACAAATGGTTTTTCATATTTTTGTCAATTATTATTTAATGAATTGTATTCCTTATTTTTGTTTTGATCATATTTTAGTCAAATATCTCTAAAGTAAATATCTTCTAAAATCTTTCTTTGTGTTGAAATTAGGCCACCTTCAGATTTAAGTCCTCTAAACTGAGTGCCACTTATAAAAGGATTTCAGTTCTTTGGATATCCTGCATAAAATTGAGTTTGTAAAGGACTAAATTTATTTTTATTAAACTTAATGTATCAATCTTTTTCTTCTTTTTTGTCAATTACTTCTGCTAGGCTTGGAAGAAGTTGCTTTAATTTATTTTTTTCAATCTTTAAACGTAAAGTTAAAAAATCAGCACCAGAATTATTGGTTTTAGATAAATAATCATTATCTTTGAAATACAAAGACTTTTTATTAAAATCTTTGAAATAAATATTATCAGCACCATATCTAGGTGTATAGTAAGGAGCAACTAAATATTGTGAATAAGCATCAAAAGCATCAAATGATTTATTTTTATCAACATCTGTTTCAACTAAACCGTTTTTATTATCTATTTTTTTTGTTCTATTAGCTTTTAAATAAACTTTCATATTTCTATTGTCATCAGTATCTTTGGTATTTTTACCATCATAAAATCCAACAGGAAATTCTTTTCATTTTTGATCTGATACTTTATTATTAAAAATACTTTTATCAAAAGTTTTTCTTAAACTAAATACATGAATATTTGTAGCTAATAAAAGTTCATAATTATCTTTATCAGTTTTATTGTCAATTCTATCTATTACTCAAGCAGTTCCTGAAGCATTAGCAAAATTTAATCTTGGATGTTCTTTTAAAGTTTTTTCGTCTTGATCAATAACTCATTGTTTTACATTAATTTCTAATTGAAAACTACGTTCATGAATGTATTTAAAATAATCATTATTAGTTTTTAAAAAATTATTTTTATCTTTATCAGTTTTATAATAATATTTTTTATTTTTTGTTTTAATCAATAGCTCAAAACTTCCTTTAATATCATCATGTTTAGACTTTAAAAAAATAATATCTTTTATTTTAAAAAGTTTTTCTAGTGATTCAAAATTAGCATAAGATAATAGCTGACTTAAATTTGATGGTAAAAACCCAAAAGGATTTGTTTTAACTAGGTTTTTAAAGTCAAAATCTGTAGTAGTTAAATTTCTAATTTCTTCATCTTTTAATTGTTCTAGTTTTTGTTGTTTTATTGAATAAGAAAGTGGAATGTGTGGATTATAAAATTTAGTTCTACTAATTTTATCTTCTCCGATGTTTCCATATTCTCCTAATTTTGAGGCAAGTTCTCAATAGTTTTTTTGATATTCTTTATGATCATAAAGAGTAAAATCAATATTATTATTTTTTACAAAGTTATTAAATTCTTTTTGACCAATTATATAGTCTTTAGTTTGTTTATGAATTTGATATGGTGTTAGATTTTGTAATTGATTAATATCTAAAAAATGTGAGTTAAATAGTTGAATTTCATCATTTTTATCTATTTTATTTTTTGAATCACTTTGATTCTGATTCTGATTTTGATTTGTTTGATTATTTTGATTTTGGTTATTATTTGAATTGCTATTGTTATTAGGTTTTTGATCAATTTTATTTGAATCAGTTTTATAACAAGAAATAGTTGAAACACTTGGAATAACAACAATACTTGATATAAAAACAAATTTAAGTTTATTTATTAATTTATTCATGTAGGAATTCTCCAACATAATTTTAGTATTAATTTATAGTATTTATTATTTCAAAAATTGAATTTAATTTAACAAAAAAACCTTAATAAAACTATTAAGGTTAATTACAATTTAATATCATAAGTTATAGTAGAATTTACTAATTTATTAGTCATTCTTTTTTAAGTACTCTAAAAGATCGCTAACATGTTCAATGTGATCAACATTTCTAAATTCTTTTAATAAATTTAATTGGTTATCTAAAACAAATGTTGAACGTTCATATTTAACAAATGGTTCATCATCTAAAACAATTGTTTCACTTGTTAAATTAAATTCATTTACTAAATCTTTGTTTAAATCAGAAAGTAATAAAAAACTTAAATTTTGTTCACAACAAAATTCATCATTTTTATTAGGTTCATCTTGACTGACTCCAACTACATTAAATCCTAATTGTTTAAATTCATCTAAATGTTTTTGATATTCTATAACTTCTAAAGTACATAAAGAGGTTTTAGCTTTAGGATAAAAAAAGATAATAAGACCTTTTTGCCCAACTAAGCTGTTTAATTCTACTAAGTTATTTTTATGATCTTTTAATTGATAATTTTTCATAACTTCCTCCTTGAAATCATATGAATATTGTAGTCCTTTTTTTAAAAAAAACTAATCTAAAATATTTAATCAGTGTTTTTTATATAATTTATGTATAGAAAGGTCGATTATGAATTTTAAAAAAATAAAATTTAAAAACACTGATTTTAAACAGCTATCATCAAATATTACAGCGGTTTTACAAAAATTTGGACGCGGATTAATGTTACCAATTTCAATATTACCTTTTGCTGGTTTACTACTAGGAATTGGTGGAGCAATTGGAGCAAATATTAGTAGTACTAATGAAGTTGGTTTAATTATAAGCAGATCGTTAAAAGCAATGTCTGAAATAGTTTTTGCAAATCTAGCAATTTTATTTACTATTTCAATCGTAATTACTTTTACAAATGAATCAGGATCGGCTGCTTTTTTAGCAATTCTAGGTTATTTAGTTTTTAATTCAACTCAAGCAGCATTTATTCATTACAACAATAATGTTTTAGTTGATGTGTTTTATATTCATAAAGGTGAATGATTAAAAGCAATTATTGGTTCTAATTTAGGAATCACTTCGCTTCAAACTTCGTTATTTGGTTCTATTATAGTTGGAATTATTATTGTAAAAATTTATAACAAATTTAAATATATTCAACTACCAAATGCTTTAAGCTTTTTTTCAGGAATTAGATTTTTACCAATTTTAATTATTCCAAGTATGTTTTTATTGGGATTATTATTTTTAATAGTTTGACCTTATGTTGGTTTTGTGATTAATCAAATAGGAATAGGTTTATCTAAAACTCCAACTGGTGTTGATGGATTTATTTATGGAGTTTTTGGAAGAGCGTTAATGCCATTTGGACTACATCACATTTTAATTACTTTAGCTTATCAAACTCAATTTGGTGGAATTTTAGAATATGATAAGTTAATAAGTCAATTAGAAAAAATGAATGTTGATCAAAACACAATAAATCAAATAAGTGAAGCATTTAAAAGTTTTACTAAAAATAATTCACAAATTATAATTGGAGATCAAAACATTTGAAACTTCATTAATTCAATTCCATTAAATAATATTCAAAAAACACCAATTTTTCAATGATTTTCTTACAATTTAAATATTAATGCAGGAAGATTTACTCAAGATTATCCAACTTATCTAGGAACTTGTATGGGAATTGGATTAGCATTTATTTTAACAAGTAATAAAGAAACTAGAAAACAAACAGCTTCAGTAATTTTAAGTGCTATGGGTGTGTCATTTTTAACTGGAATTACTGAACCATTAGAATTTACTTTCTTATTTATTACACCAGTTTTATATTATGCAGTTTATGTGCCTTTTTCAGGATTGAGTTATCTATTTATGAGTTTAGTTAATGCTCATGTTGGAGTAGGTTTTGCTAGAGGATTTATTGATCTAATAGTTTATGGAGCTTTACCTGTTTTAAAAGGAACTAGATTCTATTGAGCATTTGTTTTTGCTTTAATTCAAGGACTTGTTATTTTTGTGATTTTTTACTTTTGAATTATTAAAAAAGATCTACCAACTCCTGGAAGAAAAGATAATGTATTAGGATTAATTAGTAAAAAAGATTATCAAGAATTAAAGAATAAAAATAATAATGAACAAAGAATTTTAGAAATAATTAAAGCTTTAGGAACAATAAAAAACATTAAATCAGTTTCAGCGTGTGCTACTAGATTAAGAGTTGAAATAGTAGATCAAAGTTTAGTAAATATTGAAGAACTAAATAAATTAGGTAGTCATGGAAACATTATTAAAAACAATAATATTCAAGTAATATTTGGTGGAGAAGCTACTATTTTGTCAGAAAAAATAAACAATATATTAAACAAAAAATAATAATAAAATCACAAATAAACTTGTACACATAGTAAGTTACAAATTTTTTATTAAAATTACTTATTGTAATAGATAATATATTGTGCTATGTTATTATAGTTTTAGAAAGAGTGTAATATATGTTCAGAAAGATTTTTAAAATTCTTATCTCTTTAGTTTTAGCAGCTATTATTATTTTGATTGGAATTATTGTTTTAGGATTTTCAACAAGTACTACTGATCTAAACTTCCTACAAAGAGCAACCAATATTTTAAAAAGTCATAATTTTATAGATCTATTAAAACTAAACTTATCATCAGTACAAGAGAAAATTGGAGTTGTACTAGTTGTTTATGTAGGACCTTTAATTTTTATAGCTGGGTTTATTTGAAACTTCTTTAGATTATTATCTACTATATTTAAAAAATAAAATAAGATAAAATAAATTAATGAATAAAATAAAATTAATTATTAATTGAATATCTTATTTTAAAAGTATTAAATACGTAGTTTTAACAGCAATTTTGTCAAGCTTATTAACAGTTATAGCCTTAACTACTTCTATGATTCAAATCGCAGGAACTGGTTTGTTTCAAGTTGCAGATGGGTTGTTTTTAAGTTTGACTTTTTTTATTCCTGGTCCTATGATGCTAGTTGTTGGTTGTGTTTATGCAATGATTTTTGATTTAGTTTCAGGAGCAGTTTTTTATGTTCCTATTTCAATTATTATTCATATTTTAATGTTTGCTACAATCAAATTATTAATGTATAAATTACCATTTTATTTAAATATAATGATTGCTGAACTCTTTATATTTTTATATGTTTTATATGCTTATCTAATTAATTATTATTCTAATTCTAGTGATACTAGTCAAGCTAATGTTAAAGCATTAATATCTTTAATAACTGATTTTATTCAATATTTAGTATCAGTAATTTCTGCAATAGTTTTATACAATGTGTTTAATACTCAGAGTTTTTTAAACTTATTTAAAAAATTAGATATTGATATTTATAAAAATAAATAAGCTTTTTGCAATTTTATATTTGATTTATATGTAGTGATAAAATAAAACCGTAAATGCCAATCATAAATAATATGACATTTTATTATATATATTTGTTTGATTAAGGAGAATAATATGAAAATAGGATTACCTAAAGAAATTAAACAAAATGAAAATCGTGTTGGTATTACTCCTATGGGAGTTGTTGAATTAATTAGAAATAATCATGAAGTTTTAGTTGAATCAGGAGCTGGATTAGGTAGTGGTTTTAGTGATCTTGAATATGAAAAAGCGGGAGCAAAAATCACTAAAAATGTAGAAGATGTTTGAAAACAAGAAATGATTGTTAAAGTTAAAGAACCTTTAAAATCAGAATACAAATATTTTTATGAAAACCAAATTATTTTTACTTATTTTCACTTAGCTGGTTTAAAAGATTTAACAGAAGAATTAATCAAAAATAAAGTCATTGCTATTGCTTATGAAACTGTTCAAACACCAGACAAAGCTTTACCTTTATTACGTCCAATGAGTGAAGTTGCTGGAAGAATGGCAGTTATTATTGCTTCAAATTTATTATTAAAAAATACAGATAAAGATGCTTTAGGTGTACTTGTTAGTGGAACTCCTGGAACTCCAAAAGCTAATATTACTATTATTGGTGGAGGAGTTGCTGGGACTTCAGCTCTTAGATTAGCAATAGCTATGGAAGCTAATGTTACTATAATTGAATTTAATGAAAATAGAATTAGACAACTATATGAAACATATGGACACAAAGCAAACATATTAAAATCAAATTATGCAAATATTGCAAAAGCCGTTAAAGAAAGTGATGTAGTTATTTCAACTGTATTAATTCCTGGTAAATTAGCACCTAAATTAGTAACAACAGAAATGGTTAAAACAATGAAACCAAATAGTGTTATTATTGATGTTGCTATTGATCAAGGTGGAAGTGTTGAAACTGTTGATCATATTAGTTCACATGCTGATCCTACTTTTATAAGACATAATGTCATTCATTATTCAGTTCCTAACATTCCTGGGGCAGTTCCAAGAACCTCAACAATTGCTTTGACTAATGCTACACTTACTTATGTAGTAGAAATCGCATCTAAAGGGTGAAAAAAAGCTATTCAAGACAATAGTGCATTAAAATTAGGTGTACAAACTGTTAATGGTAAATTAGTTTATAAAAACGTTGCTGATTCATTAAATATTCAATATACAGAAATAGATAATGCAATATAATAAAAAAACAAAATCTAGCAATTGCTAGATTTTTTATATCTATTTTTAAATCTTAATTAAGTTAATTAATAACTATAAAGATATTATTTTTTTAATTTAAAAAATAGATTTATTTTTTAGGATTTGAGTTTTTTATTATAGATTCTATTATGTTATTAGTGAGTTGTATTTATGTAATGCTTTTATCAATTAATAGATTAGATATTGATATTTACCATATACCTTATTTTAAAAAAATGTTAAAATAAACATTTAATAGGTTATAATATTATGAAAACTAAAAAGGAGATAGAGAATGAAGAAATATTTTTGTAATTTAAAAACAAGTATTAGTCAAAACAAAAAACAATATTTAATTAGGTTAGGTTGTTTACTAATTGGATTGTATTTGTTTTCATTATCAATTGCTTTATATGTGCCAACAGCAGTAGGAGCAAGTCATGTAGATTTTACAAACTTTAGTATATTAGCATTGTTTAAAGATTGAGCAAAAGTTGAAGACAAAACTGTTGAAGGATTAGTTGCTGCAACTAATTACAAACTAGCTTTAATGTCATTATATGGATTTTTATTACTAGTTTCAGTTGTGTTTCTAGTGTTATCAATTATTAGAGAATACAAAGTCACAAAAGATAAAAAGCTATGATTGCAATTAATACCACTAATTGTTTTAGATGTAATAATTAACGTTGGATTATCATATGTAATTGATGGTCAAATTGAAATGTTAAAAGTAATTGGATATTTAGATTGAATGTTTAATCAATCAACTGCTTACCAATTTAGAACAATATTTTTCACAATTGCATTTGTTTTATATATTGCTGGACTAACATTTTGAATTCACTCAGGTTGATTATTAGGATCATATAACTCAATCAACACAAACTTTATGAGATTAACTAAATTACCATTTAATGTTTCAAGAGTGTTAATGGATGTATTAATTATTATTCCTGGAGTTATTATGCTTTTAGTAAATCCTATATCTTGAGATATTAAAGCTAAATTCTTATTAAACTATGTAAATATTGGTACTATAGGATTCTTATTCTTAGCAGGACCAATGTTAGGAAAAACATTAGGATTACTTAATAAAATTACAAAAATATATCAATAATATCAAAACAAGCCACGGCTTGTTTTTTTGTTTTAAGAATTACTTATAATATAATTAATGTTAATAAAAGGAGTTTTTTGTAATGCTAGACATTAATTATATTGAACAGAATTTAGATGAAGTAATTCAAAGATTAAACAAGCGTAATCAGCAAGATTATAGTGAAGATTTAAAATATGCAGTAGAAAAAAATTTTAAAAGAAAAGAAATATTAGTTAAATCTGAAGCATTAAAATCTAGAAAAAATCAATTATCAAAAGAAATTGGAATATTGATTAAAGATAATAAAAATAAAGAAGCTGAAAAAGCAAAAGCTGAAGTTGTTAGTTTGAATGAACAAATCATTAAATTAGATGATGAGCTAAGAATTGTTAATGAACAAATCCTAGAAAAACTATCATATATTCCTAACTTACCTCATAAAGATATTTATTTTGGTAAAAGTGATGAAGATAATGTTGAAATTAGAAAAACAAAACATAACCCTTTATTAACTCACTCAACTCCGCATTGAGAAATAGCCACAAAACTAGGTTTAGTTGACTTTGAAAAAGGTGTTAAATTAAGTGGTTCAAGATTTTTAATTTACACTGGATTAGGCTCAAAATTAGTTAGAGCAATTGCTGATATTCTATTAAAAAGACATGAAAAACATAACTATAAAGAAATTTTTTGTCCTTTAATTGTAAATAAAAGTGCTATGTTAGGAACAGGGCAATTACCAAAATTTAGTGAAGATATGTATCAAGTTGGAGAACAATATTTAATTCCAACAAGTGAAGTTCCTTTAACTAATTTACATGCTAATGAAATTTTAACTTATGATATGTTGCCTTTAAAATATACTTCTTTTACTCAATGTTTTAGACAAGAAGCAGGAAGTGCTGGAAGAGATACTAAAGGAATGATTAGATTACATCAATTTAATAAAGTTGAATTAGTAAAAATTGTTCACCCAGATCAGTCAATGAATGAATTAGAATTACTAGTAAAAGATGCTGAAGATGTTTTAAATATGTTTGATTTACCTTATAGAGTAGTTGAATTATGTAGTGGAGATATTGGATTTAGTTCAGCTAAAACTTATGATTTAGAAGTATGATTCCCAGAACAAAACAAATATAGAGAAATCTCTTCTTGTTCAAATTGTACTGATTTTCAAGCTAGAAACATTCAAACAAGATTTAAAGATAAAGATTCAAAAATTAAATTAGTTCATACATTAAATGGTAGTGGAGTAGCAGTTGATAGATTAATTGCAGCTATTTTAGAAAATTATTGAGATGGTGAAAAACTAGTTTTACCAACTATTCTAAGACCCTATTTTGACAATAAAGAGTTTTTAAAATAAAAGTTCAAGCAATTTTAAGTTTTGAACTTTTTGTATTTCTCATTAATTTATTTATTTTAATTTTGTAATAAAATTACATAGAAAAAAGGAAGAATAATATTATGCCAATTATTAAATTTAGTGGACTAGATAAAGAACAAGTTAACCAATTTTCTAAAAATATTCAAACAATTGCAGAATTAGTAAAAGCAGACCCAAAAAACATTTTTGTTATTTGAGAAAATTCAGAAATTTTTGTAACAGAACCTGATACTAAACCAATTTATGTAACAGTTGAATGAATGTCAAGACCAGATAAAGAACAATTATTAGCTGATTTTATTGTTGATTATTTTAAAGATTATTCACAAAAAGTATGAGTTTTCTTTACTGATGTAAATTCTAAGTTATATGCACATAGAAAAAAAATAGGATAAGATGAAAATCAGAGACATACAAATCGATGGTAAAGTAGTCCAAGGCCCAATGGCTGGTGTTAGTAATGAAGCTTTTAGAATAATTTCAAAACAACACGGAGCTAGTTTAGTTTATGCTGAAATGGTTTCAGTTGCTGGTATGGTTCATGATAATAAAAAAACACTTAATATGTTAAATGTTAATGAGATTGAACATCCAATGAGTATGCAAATATTTGGAAATGATGTTGATGAATTTATTAAAGCAACTCAATGAATTGAAAAAAATGTTGATTGTGACATTATTGATTTAAATTTAGGCTGCCCTGCACCAAAAGTTGCTATACGTTCTCAAAGTGGTTCAGCTTTATTAAAAACTCCAGATTTAATTTATGAAATTGTAAAAAATGTTGTTAAAAATACTACTAAACCAGTAACTGCAAAAATTAGGTTAGGATGAGATAAAAATAGTGTTAATGCTGTTGAAGTTGCCAAACTGATTGAAAAGGCTGGAGCTAGTGCAATTGCCGTTCATGCTAGAACTAGAAATGATTTTTATACTGGGCATGCTGATTGGGAAAAAATTAAAGAAGTAAAACAAGCTGTAAGTATTCCTGTAATTGGAAATGGTGATGTTATTGATGCCAAATCAGCTAAAAAAATGTTAGATGAGACTGGGTGTGATGCTGTTATGGTATCAAGAGCTTGTCAAGGTAACCCTTGAATTTTTGATCAAATTAATCATTATTTAAAAACAGGAAAAGAACTAGAAAAACCTAGTTTTGAAGAATGAAAAACAACAGTTTTACAACATTTAGATTTATTAGTAAAGTTAAAAACCGAGCAACATGCAATTAAAGAATTTAGAAAACATTTAACTTGATACTTAGATGTTTTAAATAATAAAGCACTAACTAAAATTCTAAAAGAAAAAGCTAATAAAATAGAGACTATTAAAGATGTAGAAGAGATTATCAAGGAGTATAAAGAAGAATAAGTATGTTAGATGATAGAAAATTTAGTGAACAAGAATTAGTCAGAAGAAATAAATATAAAACATTAGTTGAACAAAACAAAGATCCTTATAAGATTACTAATTGAAAAAGAAACACTACATTATTAAAGTTAAATGAAAAATATAAAGATTATAGTAAAGAAGATTTATTAAATTTAAATCAAGAATTAGTAGTAGTTGCTGGAAGAATTAAGTTGTATAGAGAAGCTGGTAAAAAAGCTGCTTTTGTTAATATCGATGATCAAGATTCAAGTATTCAATTATATGTAAGATTAGATGAAATAGGTGATCAATCTTTTGAAGATTTTAGAAACTTTGATTTAGGAGATATTATTGGGGTTAAAGGAATCATGATGAGAACCGATCATGGTGAATTATCAATTAGATGTAAAGAAGTTGTTTTATTATCTAAAGCTTTAAGACCACTACCTGATAAACACGCTGGAATTCAAGATATAGAAGAAAAATACCGTAGAAGATATGTTGATCTAATTATGAATCATGATGTTAGAAAAACATTTCAAGCTAGAACTAAAATAATAAGAACTTTACAAAACTTTTTAGATAATAAAGGCTATATGGAAGTTGAAACTCCAATTTTACACTCATTAAAAGGTGGGGCTTCTGCTAAACCATTTATTACTCATTATAATGTTTTAAATACTGATGTTTATTTAAGAATAGCTACAGAACTACATTTAAAACGTTTAATTGTTGGAGGTTTTGAAGGGGTTTATGAAATAGGTCGTATTTTTAGAAACGAAGGAATGAGCACAAGACACAACCCTGAATTTACAAGTATTGAATTATATGTAGCTTATGAAGATATGTTCTTTTTAATGGATTTAACAGAAGAAATTTTTAGAGTATGTAATGCTGCAGTTAATTCAAGTTCTATAATTGAATATAATAATGCAAAAATCGATCTATCAAAACCATTTAAAAGATTACATATGGTTGATGGAATTAAACAAGTAACAGGTGTTGATTTTTGACAAGAAATGACTGTACAACAAGCTTTAGAATTGGCTAAAAAACATAAAGTTCATGTTGAAAAACATCAAGAATCAGTTGGACATATTATTAATTTATTTTATGAAGAATTTGTTGAATCAACTATTGTTGAACCAACTTTTGTTTATGGTCATCCAAAAGAAATTTCTCCACTAGCAAAATCTAATCCAAGTGATCCAAGATTTACTGATAGATTTGAATTGTTTATTCTTGGAAGAGAATATGCTAATGCATTTAGTGAGTTAAACGATCCAATTGATCAATATGAAAGATTTAAAGCTCAAATTGAAGAAGAATCTAAAGGAAATGATGAAGCCAATGATATGGATATTGACTTTATTGAAGCCTTAGAACACGCAATGCCACCAACTGCTGGAATTGGTATAGGAATTGATAGATTAGTAATGCTTTTAACTAATTCAGAATCTATTAAGGATGTATTATTATTTCCACAAATGAAACCAAGAGAATAATTGAGTAGAACTTATATGTTCTACTTTTTTATTACAAAACTAAAATTTAATAATAAAAAAACCAACCTGTTATAAAAGTTGGTTATGTATTAATCAATCAATTTCTTTAATTGGTCAGGAGTAGCAAATCCTATATGTTTATTTACTTGATTTCCATTTTCAAAAGTTATTAGTGTAGGAATTGACATTATTCTAAATTCTTCAGCAACTTGACGATTTAAATCAACATCTACATCTAAAAATTTAACACCTTCAACTTTTTTAGCAAAATCATGAAGAATTGGTGCTAACATTTTGCAAGGTCCACATCAAGTAGCATTAAAATCTACAAGTACCTTTCCTTCTTTGATTTCTTTGTCAAATTGTTCTTTTGAAGTGATTTTAATTATATCTGCCATTATATCTCTCCTAGTCTACATTTAAAATTTTATCACAAATATATCTAGCAACACCATCTTTATCATTTGAATAATCGGTGATATCATCAGCTATTTCTTTTAATTCTATAATCCCATTTTTCATTGCAATACCTGTTGTGCAAGCTTTTAATAATGAAAAATCATTTGGTCCATCACCAAATCCATATGAGTGAGTAGTTTTTTCATCTAAGTTTAAATATTTCATAACTTCAGCTACCCCACAACCTTTATCAACACCTTTAACTGAAATATCAAACACTCTATTGTTATAACTATCTACTTTATAATTATCAGCATAATTATTCATTAAATATTTATATTCATTAAGATTTTCTTCTGGTGTAGCTTTACTGTTTGTAACGATATAAAAATGAGTAATTGGTTCATCGATTTGATCTGGTGAATCTACTGATATGTATTTTAAGCCCATAACTTGATGAGCCCAATATTTACTATTTTTACCTTCTGCAAAAACATAACAACAATTTGGAGAATAAAAAATCATTTTAGCAAAAAATTTATTATGATATCTATTAAACATTTCTTTGATAAATTCTTTTGGTAAAGTTTTATCAAAAATTATTTTATCAGTCTTATAATCATAAATTTGAGCACCATTACTTGCAACAATAATCCCTTTAAATTTGTCAATTTGTAATAAGCTGGCTTTTTGTTTTAAATCTTTAATTGTTCTAGCAGTTATAGGAACTAAATATATTCCTTTTTTGTATAATTTTTCAACAACTTCGATAGTCTTTGGTGAAAAAATGTAATCATCATATAGCAATGTACCATCCAAATCTGAAAAAATAATAATATTTTTCTTATCCATTTCATTTCTCCCTTTGTTTTAAAATAATTATACCTATAAATTACTAAATTAATATTCTATAGCATTTTAACTTTATTTCAAGCATATATTAAAAAAAGAACCATTAAGGTTCTTTAGAAACTGGCAGCTTGCTATCTTCTCACATAAGTAATATTTTCACCGTAATAGAGCTTAACTTCTGTGTTCGGCATGGGAACAGGTGTGACCTCTATGCTATAACCACCAGATTATTTTTTTGATTGTTCTTTGAAAACTGATTATTAGCTTGAAATGTAAGTTAAAATTGCATTTTCTAAAATTCACTCGATCTATTAGTAATGGTTAGCTTAATGCCTCACAGCACTTACACATCCATCCTATCAACCATGTGGTCTACATGGGATCTTACATCTAAAAGAATGGGAAAATTCATCTTAAAGGAGGCTTCTCGCTTAGATGCCTTCAGCGATTATCCTTTCTGCACATAGCTACCCTGCTGTGCCACTGGCGTGACAACAGGAGCACCAGGGGTGCATCCATTCCGGTCCTCTCGTACTAGGAACAGCTCTTTTCAATTTTCCAACGCCCACAACAGATAGGGACCAAACTGTCTCACGACGTTCTGAACCCAGCTCGCGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGAACCGACTACAGCTCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACCTCCCCGTCGATGTGAACTCTTGGGGGAGATAAGCCTGTTATCCCCGGGGTAACTTTTATCCGTTGAGCGACGGCCCTTCCACACGGGACCGCCGGATCACTAAGTCCTACTTTCGTATCTGTTCGACTTGTAAGTCTCGCAGTTAAGCATCCTTCTACCTTTGCGCTCTATGTATGATTTCCAACCATACTGAGGATACCTTTGAGCGCCTCCGTTACTTTTTGGGAGGCGACCGCCCCAGTCAAACTACCCACCAGACACTGTCCTTAATCCAGATAATGGATCCAAGTTAGAAATCCAATATAACGAGGGTGGTATTCCAAGGTTGACTCCACTAGAACTAGCGTCCTAGTCTCATAGTCTCCCACCTATCCTCTACACGTCATACCAAATTTCAATATCAAGTTATAGTAAAGCTCCACGGGGTCTTTCCGTCTAGTTGCGGGTAACCGGCATCTTCACCGGTACTAAAATTTCACCGAGTCTGCAGCCGAGACAGCGAAGGGATCATTACACCTTTCGTGCGGGTCAGAATTTACCTGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACCGGGGCTTCAATTCAAAGCTTCGCTTGCGCTGACTTCTCCTTTTAACCTTCCGGCACTGGGCAGGTGTCACCCCCTATACATCGTCTTGCGACTTAGCAGAGAGCTGTGTTTTTGTTAAACAGTTGCCCCTCCCTCTTCACTGCGGCTTATCATAGATAAGCACTCCTTCTTCCGAAGTTACGGAGTTATTTTGCAGAGTTCCTTAGCTACAGTTATCTCGCTTGCCTTAGGATTTTCTCCTTGACCACGTGTGTTCGTTCTAGGTACAGGCAGTTAATTATTAAGTTAGAAGCTTTTCTTGGAAGCATGGAGTCATATACTTCGTTACTAGGCGAACCGTTCACTCCCCTATTTTCACACTTCAATGTTAATACAATGCGGATTTTCCAACATTGCCATCTTTGTGCTTAGCCCGGGACATCCAGCACCCGGGATATACTATCCTTCTTCGTCACTCCATCACTAATTAACTGGTACAGGAATATCAACCTGTTGTCCATCGACTACGCTTTTCAGCCTCGCCTTAGGTCCTGACTAACCCTGGGTGGACGAACCTTGCCCAGGAAACCTTGGTCAAACGGCATGGAAGATTCTCACTTCCAAACGTTACTCATGCCGGCATAATCACTTCTAAACACTCCACCAGTCTTCACAGTCTGACTTCATCATATTTAGAACGCTCCCCTACCACTGTATTTACATACAATCCGTAGCTTCGGTGGTAAACTTAAGCCCCGGTACATTTTCGGCGCAGAATCACTCGACTAGTGAGCTGTTACGCACTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTAGCTGTCTGTGCAGTTCCACATCCTTACACACTTAGTTTACACTTAGGGACCTTAGCTGACGATCTGGGCTGTTTCCCTCACGAGCATGGACCTTATCACCCATGTTCTGACTGTTGTGCACAAATTATGGCATTCGGAGTTTAATTCTAATCAGTACCGCTAGGTGCAGCCATCATAGATTCAGTGCTCTACCTCCACAACAATTCACACAACGCTATCCTTAAAGATATATCGGGGAGAACTAGCTATCTCCAGGTTCGATTGGAATTTCACCGCTAGCCACAAGTCATCCAAAGTCTTTTCAACGAATACTGGTTCGGTCCTCCATTAGGTTTTACCCTAACTTCAACCTGCTCATGGCTAGATCACCTGGTTTCGTGTCTACTACTGCATACTAAACGCCCTATTAAGGCTCGCTTTCACTACGGCTCCGTTTATATCAACTTAACCTTGCATGCAATAGTAACTCGCCGGCTCTTTCTACAAAAAGCACGGTATTACCCATTAACGGGCTCTACCTTCTTGTAAGCATATGGTTTCAGGGACTATTTCACTCCCCTTTCGGGGTGCTTTTCACCTTTCCCTCACGGTACTGGTTCACTATCGGTAAAATGGTAGTATTTAGGCTTACCAAGTGGTCTTGGCAGATTCCGACAAAATTTCACGTGTTTCGCCGTACTCAGGATACTTTATTGAGGTCATTACATTTCATATACGGGGCTATCACCCTCTATGGCGCTACTTCCCAGTAGCTTCTATTATATAATGACTTTCTAACTCGAACAAAAGTCCTACAACCCCACTCCGTAAAGTGGTTTGGCCTGTTCCGTTTTCGCTCGCCGCTACTAACAGAATCATTATTATTTTCTTTTCCTCTAGGTACTAAGATGTTTCAGTTCCCTAGGTTCCCTTCTTATAAGCTATGTATTTACTTATAGATAACATGAGATAAATCATGTCAGGTTCCCCCATTCGGAAATTCCGGGATCGAAGCTCACTTCCAGCTCCCCCAGACTTATCGCAGGTAGTCACGTCCTTCTTCGGCTCCATTTTCCAAGGCATTCACCATATGCTCTTACTATTTTTTAGAAAATCTTACTAGCAATTTGTAACTCAATTAATTTTAGTTAATTGTTTTTGATGTCATTACGAATATAATTTCGTAATAATTTATCTAATTATAAATATTGTTATAATCAGAAAATTGCATTTCATCTAATATTCAGTTTTCAAAGAACAATCTATATTTCAGAGATGTTTTACGATCTCTGAAAACTAAATAGAATTAAATAGTCAGTAATATAAATATCTCCATAGAAAGGAGGTGATCCATCCGCACGTTCCCGTACGGATACCTTGTTACGACTTCACCCCAATCGCTAGTCCTACCTTGGGAAGCGCTCTCCAAACGGTTAAGCTACCTACTTCTGGTATTACCAACTCTCATGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCGACATAGCTGATTCGCGATTACTAGTGATTCCGGCTTCATGAAGTCGAGTTGCAGACTTCAATCCGAACTGAGACTGGTTTTTTGAGATTAGCTCCCCTTCACAGGATTGCAACTCTTTGTACCAGCCATTGTAGCACGTGTGTAGCCCAGGACATAAGGGGCATGATGATTTGACGTCATCCCCACCTTCCTCTAGCTTACACTAGCAGTCTCGTTAGAGTTCTCAACTTAATGTTAGTAACTAACGACAAGGGTTGCGTTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAACTGACGACAACCATGCACCACCTGTCTCAATGTTAACCTCTACTATATCTCTATAGCTTTGCACTGGATGTCAAGCCCTGGTAAGGTTCTTCGTGTTGCTTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCACTCTTGCGAGCATACTACTCAGGCGGAGTACTTAATGCGTTAGCTGCAGCGCTGAGTTACCCCAACACTTAGTACTCATCGTTTACGGCGTGGACTACTAGGGTATCTAATCCTATTTGCTCCCCACGCTTTCGTGCCTCAGCGTCAATAACAAGCCAGTAAGCCGCTTTCGCCACAGGTGTTCTTCCATATATCTACGCATTTCACCGCTACACATGGAATTCCGCTTACCTCTCTTGCATTCTAGTAATACAGTTTTCAAGGCGAACCGGAGTTGAGCTCCGGACTTTAACCTCAAACTTGCAAAACCGCCTACGCACCCTATACGCCCAATAAATCCGGATAACGCTTGCCACCTATGTATTACCGCGGCTGCTGGCACATAGTTAGCCGTGGCTTTCTGGTAAGGTACTGTCAAGATAAAGTCATTTCCTACTTTATTTTTTCTTCCCTTACAACAGAGCTTTACAACCCGAAGGCCGTCATCACTCACGCGGCATTGCTTCATCAGACTTTCGTCCATTGTGAAAAATTCCCTACTGCTGCCTCCCGTAGGAGTCTGGGCCGTATCTCAGTCCCAATGTGGCCGATCAACCTCTCAGTTCGGCTACGTATCATCGCCTAGGTGGGCTATTATCTCACCTACTAGCTAATACGCCGCATCCCCATCTCATAGTGAACCAAACGGTTCTTTTGATCTTTTCTCATGCGATAATAAGATCTACATGCGGTATTATCTTTCGTTTCCAAAAGTTATCCCCCGCTATGAGGTAGGTTAGATACGTGTTACTCACCCGTTCGCCACTGAGGTGCAAGCACCTCCGTTCGACTTGCATGTATTAGGCATGCCGCCAGCGTTTATCCTGAGCCAGGATCAAACTCTCATTTTAAAAATTGTTAAATAAAAGTGATTCTGACTATTTTTATTGTTATAAGTTTTTTATTACTCAAATAAATCTTTTGACAAGATTTGTACAATAATTATTCTATTTAGTTTTCAAAGATCGTGGTCACTAAGATATCTATATCTTAGTCATATAATATAGAGTATATAATTATTTAAATTTTTTTTCAATAATTGACCATTGTTTTTTTAACTTTTTTTCTTTTTTATAAAAGTTAACTTTTTTCAAATAAAAAACCAGAAATATCTGGTTAGATTTCAAAAAAATGGTGGGGGATAAGGGACTTGAACCCTTACGTCAAAGACGCTAGATCCTAAGTCTAGTGCGTCTGCCAATTCCGCCAATCCCCCAATGGTGACTCGTCGGGGATTCGAACCCCGGACCCACTGGTTAAAAGCCAGTTGCTCTACCGGCTGAGCTAACGAGTCACAATGACCTATATAATAATAGCATTCTTAAATTTTAATTTCAATTAAACTAGTTAAGATTTTATTTATATATTAAATAAAATTATTAGATTTATTAAAAAAAATAAAAATTTAGTAAATAATTAATAAATTTTTAAAAAACTAATAACTTTTAAAAGTTTTTTTCTAAAACCAAAATGAGGATAGAAAATGAAAACTATAAAGTTATTTTTAATTGATTTTTATAATTTCTTAATTTTAAAACATTACTTTTTATTGTTTTTATTATTAAGTATTTGTATGAGTGCTAGTTTTATATTAAGTTTAAATATTCATTATTTAATTTTAGCTATTTTCTTTTTAAGTTTAACTATTATTTTAAATCACAAAAACACTTTAAAAATAGTTCTTATTTTTATATCTATTAATTTGATTTTTATAATGTATATGTTTTGGTTTAAACATTCTAATTTAAGTTATTTAAATAATAAAACTATTATAAGCAAAGTGATTGATAAAAAAACTAATTATGCTATTTTACAACATAAAAATATTAAGTTTTATGTTAATGACTTTAATAATAAGTTTTTATTAGATCAAATAATAGAAATATCTGGTGTGTTTAACAAATTAGAAAGTAATACTAGTTTTTATCAATTTGACTTTTTTAACTATTTAAATAAACAATTTATTGATTTTGAAATGATTAATTATAAAGTAGAAAAAATTAGTAATGGGATTAGAAGTAATTTTATTTTAACTAATTATTTTTATACAAATAAATTAGCTAGTATGTTTTTATTTGAATCAATAGATAGATCTACTAAGTTAGGTGAATTAATAAAAGATTTGAATTTAAGTTTTTTAATAGTTATTAGTAGTTATAACATTCACTTTTTTACTAAGTTTTTTTATAAATTAAACACCAAATTTAACTGAACAACAATAATTACTTATTTATTTTATTTAATAGTTTTTTTATTATCTTATTTATCAAATTTTTCTTATGCTAGTTTAAGAATAATAATTTTTTTTATTGTTAGTTTATATTTTAAAAAGTTTAATAAAAACACAGAATTAGTTTTTAAAAGATTTTTAACTCTTTTAATTTGTTTTGTTTTAACTCCCAGTTTTTTAACTTCAAGTAGTGCTGTTTTTATAATTGTTAGTTTTATGTTTTATTATGAAAAAATTTTTAGAAATAAATTTTTAGATTTATGTTTAAAATCTTTAATTTTTACTTTTTATTTTATTCCTTTACAAATTTTTTATTTTTATAGTTTTAGTATAGTTATTCAAAGTTTATTAATTGTTTTAAGACCATTATTTAGTTTTTTATATTTTAGTATTTTTATTTGAATTTGGTTTGATCATAATTTTTTAACTAATATATTAATTAAGATTTTTGAGTTTATTAAAAAGATTAATATTAATTTTAATATAGGATATGTTAATGTTATTTTTTTAATTTTAGCTTATTTAAGTATTTTAATAATAATTAAATATAACTTTAAATCAATATGAAGTTGAATAAGTTTAATTCTTATTTTGTTATTAAGTTATTTAATTAGTTGGTTAATTAAACCAAGTGTGTTTTTAGTAATGCTAAATGTTGGTAATGGTAATTGTTTTATTTTTCATGATAAGTTTAAAAACACAACTATTATAAATGATTGTGGAGTTGGAAAAGGTTTTTCTAAAAATATTGGTTATGAGTTTTTAAAATATTTTGGTATTAATCATGTTGATTTAATTATAATTTCACACAATCACGCTGATCATTATAATGCAATTGATGCTATTAAAAAAAATATTAAAGTTTATGAAACAATTACTTATAACAACTTTTTACCTTTTAAAAGTATTAAAAATGTAAATATATACTTTTTTTGAAATAACTTAGAAAATGAAAACGATAAATCTTTAGTTTATTTGTTTGAGTATAGAAATATCAGAATTTTATTTACAGGAGATGTTGAAAAAGAAGCTGAACAATTATTAGTTAATAATGATTATTTTAAATACGTAATTAATTTAAAGCCAATAGATATTTTACAAGTACCACACCATGGTTCTAATACTAGTTCAACTGATGAGTTTATTAGTTTAATAAAACCAAAATACGGATTAATATCAGGTAATAAAAGAACTTATAATTTTCCAAGAATTCAAACACTAGAAACTTTATACAAACATAATGTTAAATATTTTATAAGTCAAATTAATAATAATACTTTTTATAATTTTTTAACCAATAGTTTTTGGTTTAAAAAATAAAAAACCTGGAATTTTTAAAATCCAGGTTTTAATTAATAATCTAAATTTCAAAGTTTGATAGTTCTAGTTTGTTTTGTAAATAAAACAGTTTTTTTATACTCTCTTTTTAGTGATTTTAACAAGTCTTTAATACTTGTTAGTTTAGTTTTTTGATCTTGTAATTTTTGATTTAAATTATTTGAATCAGTTTGTAGTTTGATTTGTTGTTCAATGTTTTTAATATCAGCTTTTAACTCAATTAGTTGTTTTTTTAATTTTAGTTTAGAATCTAAATAATTAGTTTTAGCTGTTTTTAAATAGTTATTAGCTTGTTGATTAATTTGATCAACTAATAGTTTTCTATTATCTTTAAATTCTTTTATATATTTTTTATGTAAACTAATTAATTCTTGATATTTTTGATCAACTAAAGTTTTATTATCATAATCAATATCAACTTTTAAGTTTTTTAAAAAGATAATCTTTTTAGAAATAAGTTTATCAGGTAGTTTATCTAAACTTATTTTACTTTTAACATAACTATTAAAAGCATTAGCTTGTCAATAACTCATATCAACTTCTTTTTTAAATAGTTTTAAAGTAGCTTTGTAAGTTGCAAAACAATAATGTTGATATTTATTTATTAGTCAATCTATTCATTTAGGATTTTTATTTTCTAAAAATTTTACTCTTAATGTATTTGAAATGCTTTCAACAATTAAAGTAAAGATAATTAAACCAAATACTAAAGCCCCAAATTCTGCATATAATGCTTCTTCAAAATATCCTTTTAATAAACTTCCTAGTCGTCCAGCTCCAACAATACCTAAAGTAGCTACTTCTTTAAAGTTAATTTCAAAACGATAAATAATATATGAAATTATTTCATTTTGAGTTTGAGCAAAAATACCGTATCTAAATACTTGAAACTTATTTAACCCTAAAGCTTTTAATTGGTTAACTATTTTAAAGTTTATTGTTTCATAAATTTCTCTATTATATTTTGTTAGCATTCCAATTGTTCCAACAGCTAAAGCTAATGATCCAGCAAATGGACCTACTCCAACTGCAAAAACAAAAATATAAGCATACATATATGTTGGAATTGCTCTAATTAAAGTAGTTAGACATAAAACTGGTTTTGCAATAATAGGATGAACTATTTTTGATGAACTTAATAATCCTAATATATAAGCAAATACAGCTCCAATTACAGTTCCTAAAATAGCAATTGTTAGTGTTTCTCAAAGTATATAAAGAACAGAATATGATTGAGCAGTTTTATTAGTAGCGCTAAGCGGATTAGCATAATATAGTGATTCTCAATTAATATTTAAAATACTTAAAACTCTTTGGTTTGTTTCTTTTATTGATGAACTACTTGCTAAAGAAAAGTTAACATCTTTAATTAAGAAAATAAATAAGAATAAAATAATTGCAAAAAACACAATTCTTTTAATATATGTTTTTGGCATTTTTTTTAAAACAACTTCAGGTGTTAGTGTTTTTTTAAATTTTGTAGTTTCTGTTTTTATTGTGTCTTCAACTTGACGTTTAATTTGTTCTCTAATAATTAAACATTCATTTGCAAGTTTAGTTTGAGTGATTTTATCAATTCTTACTAAATGATCTACAAAATCAACTTTTACAAACAAGTTTTCTTTATTTTCTTTAAATAACTTTTTATATTTGTCTTTGTCTTTTTTAACATCAAGATTATATTGTTTTTTAAATTCAGAAATTAGTTTTTTCTTTTCTAGTTTTAAAGATTGAAGTTCATTAGGATCTGTTGTTTTTGCTATTTTGTCATTAATTTCTTTTGTTAAAATGTAGTTTATATAAAATTTAAGATTACTTAATTTATCTATATTTTTATATGGTTTTTGAATTTTATTTATTAGTTTTTTTTCTAATAAATAATCTTTTTCTTCTATTATGTAATTTCTAATTAAAAAAATAAATAATTCAATTAATAAAATAGTTACTGCAAATATTGTTAATAAGAATCCGGCTTTGCTATATTCTGAAGAATCAAGAGTTGATTTAATTAATTCTCCATAACTATCTAATCCTGTTACGATTGCAATAACTGAAAAATAACGAATATTAGTTTCTAAAGTATAAAGTGAAATTGATAATAAGTTAGTGGAAATTTGTGGAACTACTGCTTTTCTAAATGATTGAAACTTATTAGCTCCAGTAGCTTGCATTGTAGTAAATACTTTTGTATCAATTTGTTCTATTTTTTCATAAAACAATTTACCAGCTACTGAAAATGAAAAGAATATAATACCAATTACAGATGACCCATACCCAGTTAAAAAATAACCAGCTATAATCATAGCCATTGCAAAACTTGGTATAGTTCTAAATAGTGATAAAAATCCTCTTGAAAAATTGTTAATATATCTATTTGAAACTATACTTCTTGAAGCTAGTACTGAAAAAGGAAGACATAATATTATTCCTAAAAAAGTACCAATAAATGAAAGTTTAATAGTTTGTCATAAATTATAAAAACTAGTTTCTAAAAAAGTATTTGGTAGCCCGTGTTTTTGATTTCAATTATTAAGATCTCATTTAAAAAAATCTTTAAATAAACTAACTAATTTATCAAAATTATCAAAAAACTCACTTCATCTTTCATCAGCTAAAGCAAATCCTAAAACTACAAATATTATTATTCCAACAGTAAAACAAATTGTAAAAACACGCTTTGGTGGTTTTGTGTAGTGATTACCTATTTTAAATAAATTTCTATCTTTAATTATTTTTTTATTAAACATTATCTATTCTCCATAGATTTTTTTCATTGCTTGAGCATCCAATTTACTTGGAACATCATCAAAAACAATTTCTCCATTATTTAATCCAATTACTCTTGTTGCATATTTTTTTGCAAGATCAACATGGTGAATATTGATTATTACAGTAATTCCATCTTTTTTATTAATGTTTTTAAAATCTTTCATTACTTGATTTGCAAGAATTGGATCTAAAGCAGAAACAGGTTCATCAGCAATGATTAAAAAAGGTTGTTGAGCTAAGGTTCTAGCTAGTGCTACACGTTGTTGTTGACCACCACTTAAATTATCAGCTCTTATATAAGCATAATCTAATAGGTTTAATTTGTCTAAAGAATTTAAAGCAATCATCTTATCTTCTCTTTTAAAGAATCCAAGAATTTTGTTTATTCCTTTTTGACTACTTACTCTAGCGTTTAAAACATTTTGTAAAACTGTTTTATTTGCAATGTTGTTATATTCTTGAGACATTAAACCAATTTTTTGTCTAAGTTTTTGAAGTTTTTTACCTCTAGTTTTAGTTACTTCATAATGCTCTTTTGTTTTATCAAAATCAATAATAATTTCACCTGAAGAAATATCATTAATTTTATTAATGGTTTTTAAAAGTGTAGTTTTTCCAGCTCCAGATAACCCAATAACTGCAACTAATTCACCTTTATTAATTTCTAAATTTATATTTTTTAAAACTTGTTTTCCATTAGGTCAAACTTTATTTACATTATTAAATAGTATCATTATTTACCAATCTCTATCAATTAATATCTTTTACTAATTTTTTAATAGCTTCGATATTTGTATTAGATTTTGAAATCTCTTCATCTATTTTACTTCCAGGAATGATATATCTTTCATGGTTGTAAATTTTAAATATCTTTTTAGCTTCATCATTTTTTTCAATTAGATCAACAAATGATTGTCTTACATCATCTAAAAGTTGTTTATCTTTAAAAACTGATTTTGATGATTTTGAATAAGAAATACCATCATTATAAATTGATTGTGAAGCACCAATAACTAATGAATTTTCAAATAATTCTTTTTCTTTTTGTCTTTCTTCTCTTATTTTATTTTCGTCTTTACCATCTGTTTGTCTATCTCTAAAACGAATATCAGAAAAACCAAAAGTAATTGCATATTTACTACTTTCAGCTTTTGCATCTTTGCTTCCAATAGTTGTTGCTGAATCAGTAAATGAAAGAGCTTTTACAAATCTTCTGCTAGTATCTTTTTCAGTTAACATTTTAGTAATTTCAGTTTCACTTAATCCTACAAAGTCTTTTAGTCATAAAACTGGATATAAGAATCCTGAACTTGATGTTTTAGATTTACCAATTCCAATTTTAACTTTAGGATTTTGAAATAGCATTTTTAAAAGATCTTTGTATTTTTTTACATTACCATTTTTATTACCATCTTTTAATAAAGAATCAATAGCTTCATAGTAATTTTTACCTTTTCATTCACCATTTGAATTGTTATCTACACTAATAGATTTTAAAATTGGAATATTTGCAAAAACATATGATCTATAGTAGTTTGCAGGATTTTGTGAATCATATATTCCTTTTGAATAACCATCCTTATCAGCATTAGGCTTAGCTTTTTCAACAGAATCCTTATAATTCTTAATTAAGTTGAATGATGTTTCATCACTTATTTGAGTGGTTGCCTTTTCGTTATCAAACTTATCGCCATTTTTAAAATCTTGAAGTGTAGTTTCAGGAGTTACACCAGATCTTCCAGCAGTTAATAGAACTCCTAATTTACTATAAGTTCCATCGTTTTGCTTTTCACCTCTATAAGCTGAATAAGTATTTATAGGTAAAAATCCAATATCTTCATTTCCATTAGCTAATGATTGACCAGCAATTTCATAGTTTTGACTAGTTGTAACTTTAACTTTTTTATCGAATTTAGCTCCTCTTTTTGAAGCCTTTTCTTTTAAAGATTCAGTTAACAATCTTTCTAGTGATGCTGTTGTTGATTCAACTTCAGTTTGGTTTTGAGATGGAACAAAAACAACTCTTAGTTCGTTATCTCTTTTACCACAAGCAACAGTAACAACAGTAGCACTAGTAGCTAATAAACTTATTCCCATTAATGATATTAATTTTTTCATATTATTCTCTTTCTTTAGTTTTTGTTTACAAACTAAATAATTTATTTAGTAAGTAAAGATATATGTTACATAATTTATTATATAAGAATTAATATACTCAAAATATTAATAAAAGGCTTTTATAGAACCGATATAAACATAAAATACATTCCAAAAAATAAAAATATTTTTACATACAAGTATGCAATTGTGCTTTATTTTTTAATATTTTATGCTTAGATATTTAAAAATTAGAGAATAAAAACAAATGCAATAGCATTTAATTTTGTATTGCATTTGTTTGTTAATAATTAAAATAATAAGTTTTTTGGAGTTCTTGGGAATGGAATAACATCTCTAATATTTGAAGCTCCAGTAATATACATAACTAGTCTTTCAAATCCTAACCCAAACCCAGCTGATTTGTAATATCCATACAATCTTAAATTGTTATATCATTCTAATTGATCAATATCAATATTTACTTCTTTACATCTTTTGATTAGTTTTTCATAATTATCTTCACGTTGACTTCCACCAACTAATTCACCAATTCCAGGAACTAATAAATCAACAGCAGCAACAGTCTTATTATCATCATTTTGTTTCATATAAAATGCTTTAATTTCTTTTGGATAATTAGTTACAAAAGTTGGAGCTTTATTTACTTGTTCACAAATATATCTTTCATGTTCAGTTCCTAAATCTAATCCAAATTCAATATCTGAAACTTCGAATTTGTGACCATCTTTTACTGCTTGTTTTAAAATTTCAATAGCTTGTGTATAAGTTGTAATTTTGAATTCTGAATTTCTAACATTATTTAATTTATCAATTAAACCATTTTCTAAATGTTCATTACAAAATTCTAATTCTCTTCTATTGTGTTTAAAAATGTAATTAATGATATATTTAACCATATCTTGAATTAGTTGAATATTATCTTTTAAATCAGCAAAAGCAACTTCTGGTTCAATCATTCAAAATTCAGCAGCATGTTTTGCAGTATTTGAATTTTCAGCTCTAAAAGTAGGACCAAATGTATAAACTTTTTTAAAAGCTTGAGCAAAAGCTTCTGCATGCAATTGTCCTGAAACTGTTAAGCTTGCTTTTTTACCAAAAAAGTCTTTTTCATAGTCTGCATCTTCACGTGTTGTTACTAAAAATGCTTCACCAGCTCCTTCAGCATCATTTGAAGTAATAATTGGTGAATGTATATAAACAAAGTTTCTTTCATTAAAAAATCTATGAATAGCATAAGCAGCTGCTGATCTGATTTTAAAAATAGCATTAAATGTTTTTGTTTTTGCTCTTAAGTGAGCGATTTCTCTTAAATATTCAGTTGTGTGTTCTTTTTTTTGTAATGGATAATCTTCAATTGCTTGATCAATAAGTTCGATTTCATCTGCTTGTAGTTCGAATTTTTGTTGTTTTTCTGGAGTTAAAACAACTCTTCCAATAACTTTAACAATTGAACTAACTCTTGCTTGTAATGCTTGTTCATATCCTTTAGTTTTAGTTTTATAAACTACTTGTAAATCAGTAAAAGTTGTTCCGTCATTTAAAATCATAAATGAAACAAATTTACCTTGTCTATTAGATCTAACTCTACCAAGTATTTCAACTTCTTTATCAAGTAATTCAGAGTGTTGTTCAAATATTTGTCTGATTTCCATAATATCTCCTAATTTAAAATATATTTTTCTATAAATTTACCTACACCACCATTTATATTTGTATCAGTGATATATTTTGCTTTTTGTTTAATTTGATCAACTGCATTTTCTACAGCTACACAATTTGGGATTTCTTCAAACATTGTCATATCGTTCATATTATCACCAAATACTACAACATCATTAATATCAACATTTAAGATTTCAGCCATTTTTTTAATAGCTTTTCCTTTAGTTGCTGTAATATTTGTAAATTCATAAATTGGAATAGTTTCAATATGATTTCTCATACTTGTTAAATGTTCATCTAATTTTTCAGCTTTAAATCAATCTTCTAGAATTTGATTTTTTTCTAGTGGAACAAAAATCATAATCTGAACTGGATCAATAAAATCAAAATTTCCATCAGTAGAACATATTGTTTTATTAAATCTTTCAAATCAATTTCTTTTAATCATACTATCAACTTCAAAAGGAATATTGTTTCAATAAACATCACTAGCTGTTGCTGTAAATATTACTGTACAAATATTTAATTCAGTTAATTTTTTAACCATTTTATTAACAATAGCATTATCAATTTTATTTACATAAACTGGTTCAAAACTACTGATTTTTGAAATTAAAGCTCCATTAGCTAAAACAGCTAAATCAACGTGCTCACCTATACTAAATAAATCTGCTCTAGGTTTTGCTGATTTATAAGGTTGGCCTGTTGCTATTGTTACATGGATATTGTTTTTAATAGCTTTTTCTAATATTGGTTTATCAATATCGTTTGCTAATTTTCCATGATGTAAAACTGTTCCATCTAAATCTGTAACAATTAGCTTAATATTTTTTAACATTTACTACTCCTTAGTCTTTATAAAAAAATGTTGAAATTTCTTTTTTTTCATTAAAGTTATTTAAGATGATTTTATCAATAATACCCATCTTTTCTAAAGCTATGCTTGTTTTATTATTATCTTTTATAATTTTGTTTTCAAATTGTAAAATTCTATATATAGTTTGATAATAATGTTCTTTTAAACTTAAACAATGTTTTGAAGTTTCATAAATTAAAAGTTCATCATTTAGATTAAATTTTTTTCTATTTATAAACATTCTTATTGAATCATTATGACTAGAAATTTTATCTTCAATTGAATGAATAAATAAAATTGGAATTTTAGCTGGAATAATATGCTGTTTTTCATATTTGTCAAACAAATTCATTTTATTTCAATCAGATAAAGTTAAATCTTTTTGCTTTTTTAAAATTTGTTTAATTAAATAAATATCATATTTTTTAGAAAAAAATCTTTTAAAGCTTAGTTTTAATAACTTATTTAATAAAGAACTAATGCTTGCATAACTACTATCACTAATAATAAATTTAACTTTGTTTTCTTCTAAGAATTTTTGCTGAGTTAAAGTTAAATAATTAATAACAAAAGCCCCCATACTTAAACCAAGTAAACCAATAGTTTGTACTTTTTGAGTTTGATTTAAATAATTAATTGCTGCAATTAGATCTTTACTTTCTAATAAGCCCATTGTTACAAATGGTGTTTCTTCAGAATCACCATGATTTCTAAAATCATAAACTAATACATTATATCCAAGTTCAATAAAAGCTTTAGATCAATACAAACTTCAATATTTATCACCTAAAAATCAATGACTAACAATAACTCATTTTTTAGACTTATGATCAGTTATGTATTTAAGTGCAGAAATTGTTATATTATCACTAGTTTTAAATTTAATTGGAATTAAATTATCGTTGATCTTAAATTCTAGTTCTTTATGTTTAAAAAATAATCTCATAATCTTATTCATTTTATTGATTTCAGGATTCATATAAATATGTTTTTTAGAATGAGATTTTTTAAAAAATACTGAAGTTTCAAGTAATTTATGAAATTTAGCAAATGATTTATTTATTGATCTAAATATCTTATTCCCACTTTTTTTAATAAGAGCTCTTTTTTGTTTAGCTGTCATAATAATCTTTCTTTTTAAAATTATTATTTGTTATTTAAAAGAATTTTTTCATATGCTAATTTAGCAATCATAGCAGCATTATCTGTACAATAACTCATCTTAGGAACAAATGTATTTTTAATATTGTATTTTTCACCCAATCTTAAAATTATTTTTCTAATTTCACTATTAGCACTTACCCCACCAGCAACAGTTAATGTTTTTGGTTTAAATTCTTTAATTGCTTTTTCTAGTTTTTTTTCAACAATGTTTGTTGCTGTATATTGAAAACTAGCTGCAAAATCTTCTAAATTAATTTCTTGATTTTTTTGATTCAAATTATGAATCAAATTTATACAAGCAGTTTTTAATCCAGAATAAGAAAAATCATAATTATCTTCATCTTTTAAAACAGGTAATAAATAAGAATCTTTATTTCCTTTTAAAGCCAATTTATCTAAAATTGGTCCTCCTGGATAAGAAAGCCCTAAAACTCTAGCTACTTTGTCATAACATTCACCAATAGCATCATCTCTAGTTGATCCAATGATTTGAAAATCATTTGCAGAATTAATAATTTCAATTTGAGTATGTCCACCAGAAACAACCATTGCTAAAACTGGATATATAAACTCATTTTCAATACTAGCTCCAAAAATATGTCCTTGAATATGATCTAAAGCTAATATTGGTTTGTTTATATATAAACTAATAGTTTCAGCTACAAGTTTTCCAACAATCAAAGAACCAATTAATCCTGGAGATTTTGTATAAGCTACATAATCAATATCTTTGATACTTAAATTAGCTTCGGTTAATGCTGCTTTTAATACTCAATTAAAATTTTGTACATGTAATCTTGCTGCTAATTCAGGAACAACACCACCAAATACTTGATGATCTTTTATTTGAGATGAAATAACGTTTGTAAGAATTTTATTATTATCAATAATCGAAATAGAAAATTCATCACAACTTGACTCAATAGCTAAGATTTTCATTTCTCTCCTTTAAACTACTTTAAATAAAAAAATAAATAATAAAAAAAGAATACCCACAATAGTTTTTTAGATGGTTGAGTAATCTTATATTTATTATTTTTTCTTGTCTTTGTTATTAATGCTATCTCTAACTTGACCTGTAGTTCTATGAATGATTACTGAACCTTGGCGTTTTTTTGTTAACTCGTTAGCATAAGCAATGGCTTCTTTTTGAGTATCAAATAATTTAGTAGGACGTGTGTTACCTACACCTTTTACTTGTCATTTACCATCATATGGTGTAACATGATAAACTGTTGCTTGTTTTTCAGCCATATTTCTCCTTTATTTAAATATAAATATATATTTTATTTTACTATAGAGTTTTTTTAAATGCTCTAATTTTAAATGCAAAATATTTGACAATAATTATAAAATTAAAGATATTTATTTTAATGATTATTAAATACAAGTTTTCAACTAATGAACTTATAGATTTAAATAATATAATTTAATTAAGAAAAGAGATGATTTTATGTTAATAAATGATACAGTAGTTGCTCCTGCTACAAATATTTCAACTCAAGCTATTGCTTTAATTAGAGTTAGTGGTTCTGAAGCTTTTTTAATAGTTAATAAGCTAATTAAAGATAAAAAACTAGAAGAAAAAAGAGGATTATTTTTAAGAAAATTGTATTTTGAAAACGAATTAATTGATGAAGTAGTTTTATCTTGTTTTGTTGCTCCTAATTCTTTTACTGGTGAAAATGTTGTTGAAATTGCTTGTCATGGTGGAATTTTAAATACTAATAAAATCATCAATATTTTAATTCAATCAGGAGCTAGAATGGCTTTAAGAGGAGAATTTAGTCAACGTTCTTTTTTAAATGGAAAAATTGATTTAATTCAAGCTGAAGGTATTAATAATTTAATTCATGCAAAAAATGATTTAGCTTTAAAAATTGGTGTTGCTAATATGAGTGGATCTAATAATAAAGCAATTATTGAATTAAAAGATAATTTATTAGATATTATTAGTCGTATTCAAGTTTCAATTGATTATCCTGATTATGATGATGTTGAAGGCTCAAGTATAGAAGATTTAACTAATTTATTAGAAATTATTAATGATCAAATTAATAAACTTTTAATGAGATCTAAAATGGCTTTTAAAAACTCTGAAGGAATTAAAACTGCTATTATTGGTCAAACTAATGTTGGTAAATCATCAATTTTAAATGCTTTAATTAATGAAGATAAAGCAATTGTTACAGATATTCCAGGAACTACTAGAGATATAGTTGAAGGACAAATTAATCTAGAAAATGTTAGTTTAAATTTAATTGATACAGCTGGAATTAGAAAAACTAGTGATGTTGTTGAAAATTTAGGAATTTTAAAATCTAAAAACTTAATCAATGAAGCTGATTTAGTTTTATTTGTTGTTAATAAAGAAAATATTAATGATTCAGATAATCAAGAAATTTTTGAACTTTTAAAAGATAAAACTTATATTTTAATTGTAAATAAGGCTGAAAAACTAAGTCAAACTGAAAAACAAAACTTAGAAAAAAAATATGAAAATATTGTATTTACTAGTGCTATAAATCACGATATAGACCAATTAGTTTTAAGAATTAATCAAATGTTTTTAAATGAAGAGATTAGTAAAAATGATGAACTAATTTTAATTGGATTAAATCAAATTACTTTAGTTGAACAAATCAAAAACAAACTTTCAACTGCTTTAAGTGTAATTAAATCAGGAATGCCTATTGATATAGTAAACGTTGATTTATATGATGCTTGAAACCTATTAAATGAACTAATTGGTGTTGAGTATGAAGATGAAATTATTGATAATATCTTTAGAAAATATTGTTTAGGAAAATAAAAAAAATCAACCTGATAGGTTGATAACATTATTTTATGGATTGAAAAACTAAGCACTCATTAAGCGTGATTTTTCTCTAGCAGCTTTATTATCTTTAAAGATTCCTTTTTTTAAACCTTTATCTACTAAACTTACTGCATGATTAACTAATTCAGCTTTATTTGCATCATCATTAGATTTTGCATTTAAAGCTTTTTTAATAGCAGTTTTAATTTCTGATTTAAATGCTTTATTTGCTAATCTTGATTTTTCATTAGTTAAAACACGTTTTTCTTGAGATTTAATATTTGCCATTTTTTCAACTCCTTTTATAAACAATAATTTATAATACAACAATAAGTATAACAAAATTTAAACAAATTTTTAAAAATATTAGTTTATTGGTTGGATTATTAAATAAAAAATGAGCTTGTAAAAACTCATTTTTAGTTCTACTTCCTTATTTCATGACCATTACGAAGATCAAAGGGCCGGCAAGAACCACGACCGCCTATAAGTGCGATTAAATAATAAATATTTAAATACAACTTTATAATATCAATAAAAACACTTTTATAGAATTATTTCATAAATATTTAGTTTCAAACTACTTTTTATTTTTATTAATTAGTTCTTCTAACTTATTGATTTGTGAATCAATTTTTACTTCTTTTTGATAAGCTTCTAAATCTAAATCCTGAATATCTTTATCAAGATCTTTTATAGTTTGATCAATTATATTTTTTGTTTTAGTTTCTAGTTCAAAAAGTGAGTTTTCAAGTTGAGTTTTTTCTATAAATAGTTTATTTAATTGATCTTGATGTTCTTTTAATTTATTAGATAAGTTTTTTTGATCATTAGTAAATTTCAAAATTTCTTTTTGAAGATTTTTAAGTTCATCTTTATACTCTGAGTCAAGTTTTTTAGTTTGAGAATAAAGATTATTATTATCTAAAACACGTTTAGCTGCTATATCTTTTTTACCATTAATTTCTTGTAGTGAATTTTGTAATTCAGAAATTTTTGATTTATTTTCTTCAGCTAATTTCTTATTTTTAGTTAGTTGTTCAAGTGCTTTGTTTTTTAGTTCTTCTTGCTGTGCTTTTGTTTTTTTGATTTCTTGTTCTTGTTTATTATTTTTAGCTATTTCTTCTTTTAAGTTATTTATATATTCGTAATTAAAAACATAATTTCTTCTATTATTTAAAAAGAAAAGATCTGAAAAATTGTCTGTAGTTATAAGATCGTTTTTAATAGTTTCTAAAGTTTTATTTTTTTGTTTGATTTCTTCTAATATTTTTTCTTCAACTGCAATAAATTGTTTGTAAGTGTCTTCTGTACTTTGTATTTGTTTTTCAATCATTGAAATATTATTAACTAATTCTATTAAAGAGCTAATCTCTTCTATTTTTTTATCTAATTGTTTAACTTCATTAAGTTCTTTTTCATAAACATCTAGTTTTTGTTTATTATCCTTTTCTAGTTGTTTAGTTTCTAATAATAATTCATTTAATTGCTCTAGTTCTTCTTTAATATCATCTATTTCATCTTCAATGGTTAAATCTTTAGTTAGATTTTCTAATTTATTATTATTTTTTTCAATTTCTTGTTTTATTGTACTTTTGTTATTTTCAAGGTTATTTTTAGCTTCAGTTATAGTTTTTGTAGCTTTATTTTTTAATTCTAATTCTTTTTTATTATATTCAGCTTCTATTTTTAACTTTTGAGATTTAAGATCTTCAATTTTTAGTTTTAAAGTCTTAACATCATTTTTATCAACTTCTATAAGTTCATTTTCTTTTTTAATATCTGAGTTTTTTTGATCATTAGAGTTATTATTTGGATTTTCAGAATTATTATTATTTGATTTTGTTAAGTTTTTTGTAGTTGAATCAGTTCCTTTAGTTGTCTTTATTATTTTATTATCAGAAACTTTACAAGCAATAACTAAAGTAGCTGTACTTGCACTAATTATTACTGATCCTAGTATTGCTAATAATTTTTTCATATATTCACACCTATTTGATAAATCTTATTTTTCATTCAATATATTATACTAATCAAAGTTATAAAAAATAAGACTTAAAAATAGAAGTTTTTATGGTTGTGTAGTTAATAATTAAAAAAAGCAAGAAAAAATTCTTACTTTTGTTTTGATTAATAGTATTTTTCAATTTCTTTAATGAATTCTTGAATTTGAGAAATTGCTTTTTCTAATTTAGTGATTTCATCTTCTATTTTCTTTTCATCATCATAAACTTCTCAGTCTAAATCTTGAATGTCTTGATCTAAATCTTCTATGGTTTGATCAATTGTTTCTTTTGTTTTAGCTTCTAGTTCAAAAAGTGATTTTTCAAGTTCAACTTTTTGAGATTCTAATTGAGTTATTTCTCTTTTTGCTTCATCTAGTTTTTTAATTAAACCTTCTTGAATTTTATTAGCGTCTTGTAAACCTTTTTCTAGATTTTTAATATCATTTTTTGATGATTCAAGTTCTTTTTTGATTTCAACTATTTGAGGATTTACTTCTGATAAATGTTCATCAAGCATTTGTTTTTCTTTTGTTATTGAATCTAATTCTGTCATTAATGATGGAAGTCTATCTTTTACTTGTTTAGCAGTTATTTTTTTAATTACTAAATCATCAATTAGCTTTTGTTTTTGTTCTTCTAATTGCTTTACTAATTTATTTAATTGTTCTTTCTCTTCTTTAGCTTCTTTTATTTTAGATGGTAATTCAGATAAAATCTCATATCTTGTTTTACCAAAGTTGTAGTAGAATTCATATGAAGAATTATTTGTATCATTAGCATCAGTTCTAATAGATTCTAACATTTTTTGTTTTTCTTCAGCTTTTGCAAGTTTCATTTTGTTTTCATCTATTAACTTTTTACTATTTGTATTAGTTTCTTCAATAATTTTTTTGAAATTAGATGCAACTGCAATTAAACCTTCTCTTTCTTTTATATACTTGTCTAAATTTGTCATTCTTTTGTCTAACTGTCTAGCTGTTTCAACTTCTTTATCAAATTCTTTTTCTTTTTCACTATATTCTTTAACTAAAGCACGAGAATCTTTTAAAAGCTCGTTTATATCATCTATTGTATCTTTTGATTTAGCTATTTCATCTTCAATATTTTTTTCTATTAAATCTTTTTCAAATTGACTGATTTTATTATCTATTTCTTCTAGTTTTTTAATTGTAGATTTTTTAGTTTTTTCAAGAGTATTTTTAGCTTCAGTTATAGTTTTTTCAGCTGCGCTTATTAGATCTTTTTCTTTTTTATTAGTTTCATTTTCAATTTTAGCTTTTGCTAAATTAAATTCATCTATTGCTTTTTTAAGTTCACTAATAGCTTCTTTATGAATTCTTATATTACGATCTTTAGCTTTTTGTAATTCTTTTTTAATAATTTCTTCTTGTTTTTTATTTTCAGCATCAATTTGTTCTTGAGTTAGATAAAAGTTAATATCACTTCCTGTTGGACTATAGTTATAAACACGATTATCTCATATACTTTGAATATGTTTTTTAAATAAGTCTTTGTTGTACTTTTCAACTTTTTCTAAATATATTTTTACTCATTCATCTAGAATTTTTTCAGCTCTTTTAACTGAATCTTTATCATAATGAATTTTAATATCTAGTCCAGTTGGACTATCACTAAATATTTCATCAATTTTAGTTTTGATTAAATAATCTAAAAGAGCTTGATTTTCTTTTTTATTTTTATCTAAGTATTCTTTTACTCATCTATCTAAACGTTCATTTTCGCGTTTAATTTGTTCTTCAGTTGGGTTTAGGTTGATATCTAGTCCTGAAATACTATCTCTATAAATTTGTATTTTTAAATCTTTAGAAAATTTATTTCATCAATCTTTGTGTTCTTTTACAAATTTACTAAAAGCTTGATCATTGATTTTGTTGTTGTCTTTTAAGATATTTTTAACAAGTTCTTATAATTTTTTTTCTTCTTTTTCAATTTGTTCTTTAGTTGGATTTAAATTAATATCAGCTCCAGTTGCACTATCTCTAAAAATACTATTTCAGCTAATAGTTGTAGGTTTTGGTTGTTTTGGAGTTATTGGGGTTGTTTCATTTGGTTTAGTTTCGTCTTTTTCTTTTTCACCTGGCTTTGGTTTAGTTGAATCAGGTTGATCTGGTTTTTTTGGATCAGTTGGGTTAGTTGGAGTGGTTGAATCACTTGGTTTAGTGTTTTCTGGTTTTTTATTTTCACCAGATCCACTTGGATTTGAAGAATCACCATTATTTGATGGATTTTTGTCTGAATTTGTAGGTTGTTTAGCACTAGGAGTTTTACATGCAATAACTAATGCAGCCCCACTTGTACTAATCATTATTGAACCTAATATTGTTAGTAATTTTTTCATATATTCACACCTATAATTTTTTAATAAATTATTAATACATACTCTTAGTATTTGTATATTACAATTTTACTTTTACTAAAGTTATCAAATATCACTTTACAAAAAAAAAAAAAAAAAAAGCAAAACAACTAGTACTCATCACACTTTCTAGTTATTAAGCTTTTATATTATGTTTTTTTAAATAGGTTTTTATTAGTTTTTATATAGGTAACTTTTGAAATATTATTAACAATATTTTAAAATAAATAAATTAAATTCAATTTACTATTTATTTAATTGTATTAAAACTCTTTTTAGTTTAGAAGTTAAAAGATCTGATACTCATTTTCCTTCAAAAGTTAAATATTTTTTACTTTCTTTGGTTCTATGAATTACTTTAGGAATATATTCATTTAAAACTTTTTTATCTGTTTTTTCTAGCAATTCTTTAATTTCTTCATTTTGTTTTTTATTTTGTTTAAGTCATTCATCAAGATCAGGTTCATTTTTATTTGTATTTGGAATTAATCCTTCTAGATCATTAATAAAGTCATTAATTGCATCTTCAGTTTCTTCTCTATCGATTTGAGCATCAATTTCTTTTTTGATTTTGTTTATTTCATCATCTCATTTTTTAAACTCAGCTTTTAATGCATCATCTAATCTATTAATTTCTTCATTAAATTCTTTACTGAAATCTTCAGCTTCATCTTTTTCAACTAGTTTATCAATTTCATTTTTAACAGCATTTGGTTCTGCTCATTCTTTGTTTTCAACATCTGTATTTGGAGTTAAATCTCTTAAATCACTGATAAATTTATCTGTAACTTTTTTTATAAATTCTTTATGTTTTCTATTAGCTCAATCAGATTGTTCTTTATCAGTATTTGGAGTTAAACTAGCTAAATCATCAAAGAATTTAGCAATTTCATCTTCGATTTCTTCTTTTTTGATTAACTCATCAATTTCTTTTTTAATTTCGCTTGGATATGCTTTTTCATCTAATTCTTTTTCTAAAGCATCACTAAATTTAGAAATTTCAATAAGTAGATCTTCTTCATTTTCTTTATCAATTTGAGCATCAATTTCTTTTTTGATTTTGTTTATTTCATCATCTCATTTTTTAAACTCAGCTTTTAATGCATCATCTAATCTATTAATTTCTTCATTAAATTCTTTACTGAAATCTTCAGCTTCATCTTTTTCAACTAGTTTATCAATTTCATTTTTAATTCTTGATTCTCAATGATTTATTTCATTTCTTAAAGCTTCATTTAATCTTGACATCTCACTATCAAAATCTTGAGATTCTTCTCTATCGATTTGAGCATCAATTTCTTTTTTAATTTTGTCTTCAGCTTTTTTATCTGCTCAAGATTTATTTTCAGCATCAGTATTTGGAGTTAAATCCTTTAAATCATTAATAAAATCTTTTATAGCTTTATCGTGTTTTCTATTAGCTCAATCAGATTGTTCTTTATCAGTATTTGGAGTTAAACCAGCTAAATCATCAAAGAATTTAGCAATTTCATCTTCGATTTCTTCTTTTTTGATTAACTCATTAATTTCATTTTTAACAGCACTTGGTTCAGCTCATTCTTTATTTTCAGCATCAGTGTTTGGAGTTAAATCTCTTAGATCTTTAATAAACTTAGCTTCTGCATCCTTTTTGTTAGCTTCTTCTTTTTTCTTAGCTTCAGCGTCTTTTTTATCACTTCAAACTTTATTTTCAGCATCAGTGTTTGGAGTTAAATCTCTTAGATCTCTAATAAAATCTTTTATAGCTTTATCATGTTTTCTATTAACTCATTCAGCTTGTTCTTTATCTGTATTTGGAGTTAAATCTCTTAGATCTTTAATAAACTTAGCTTCAGCCTCTTTTTTATCATCTTTTTTATTTTTAGAACTATAACTAAAAATATCAGCTCCAGTTATACTGTCTCTGAAAATGTCTTGTCAAGTAGATTTAGATTTGTTTATAGTAAAGTTATTTGGATCAGTAGGTTTTATTATTTCTTCTTCTTTTTTAATTTCAGAAGAACTTACATTAGTTTTATTATAAGAAACAATTACACTTGCACCTGATGAAATAATTGCTAAACTTCCTAATATTGTTAATAATTTTTTCATATATTCACACCTATATTTTTAATCTGTTTTTAGACACATTAATACTAATTTTAATGATTAAAATTTATGTGAAATATATTTTTGCAAAAAAAAAAAAAAAAAAAAACAAAACAGCTCAGTACACATCGCATATCTTGTTTTTAGAAATTATATTTTTTCATTAAATTTTAAGTCAAAATTGTATATACAATTAGCGTTAATTTTAGATTAATTTTAATAGATATTTTATTAAAAATTTAGCCTATTAAATTTAATTTATTTTATTTTTGAAATTGAGATACAAATTCTTCTATTTTTTTAATTAAGTTTTCTAGTTCTAAGATTTGTTTATCTATTTTGTCTTCTTTTTCAAATGCTTGTTTATCTAATTCTTCAGTTTCTTTTTCAAAGGTTAATTCAGTTTTTAAAATAGAATCTTCTAGTGTTTTAGTTAACATATTAATTGAATTTTCAATTTCTGATTTTTCTGATAATAATTTATTTAAATCAGTTTCATATTCATTTAATGTTCTAGTTCAATAGTTTTCTGATTTAGTTGCTTGTTCGATTTCTTCTTCTAAAAGACCAACGTTTTTCTTGTATTCAGTTAAATATTTTTTATCCTTAGATACTTGATCGTTAATTAAGTGTAGATGTTTATCTATTTCTTCTTTTTCGATTTTCATCTTATTTAATGATGACTCTAATGATGGTAAATCATTTCTTGCTTTTTCAGCTTGATTTTTATCTTTAGTTAATTTTTCAATAGTAGATTCTTTTAATTTATTTAGATCCACTTCTATTTTTCTTATTTCATCTCTGGTTTCATTATTATTTTTAATAAATTCATCTAAAGAAGATATTATTTCATGTCTAAATGCATTCTCAAGTCTACCATTATAAATAAATGAATCAAATTCATCGTATGAGGTTGTTAATTCTTCTTTACGTTTTTTTAGTTCTTTATCATCATCATCAAGTTCTTTAATTCAGTTTTGTTTTTCAGTAATTTCCTTATTATATTGGTCTTCAACTTTTTTAATATCTTCAGTGATTTTTTCAATAGATTCAGCTAATTTTTTATTTGTTTTGATTTCTGATTCAGTTTTTGTTATTTCAGTATCTAGTTCTTTTGCTTTAGTAACTTGATCAGTATATTCTTTTTCTTTAGTAGTATACTCATTAACTAATTCATTAGCTTCTTTTAATCAGTCTTTTAAATCTTCTAATTCTTTTTTAGCTTGTTCTGATTTAGCTTTTAAATTTTGTTTATCAAAAACTTCTTTTATTAGATAATTTAGTTTATGGTCGTTTTCTTGTTTTTTCTTATCTAATATCTCTTTATTTGTTTCAAAATCTTTTGTAGTTTTTCTAATATTAGTGTCTTTTAAAGCTTTTAATTCTTTTTCTTTTTTATCAGATTCTTTTCCAATAACAAATCTATTAGATCTAAGATCAATAATTTCATTTTTTAGAACATCAATGTTTTGTTTATGAAATGATATATTGTATTCTTTATTTTTGTTTAATTCATTTTTAATAATTTCTTCTTGTTTTTTATTTTCAGCTTCAAGTTGTTCTTTAGTTGGGTTTAAGTTAATATCAGCTCCTGTAGCACTATCTCTAAAAATACTATTTCAACTAATAGTTACAAGTTTTGGTTTTATTGGAGTAGTTTGATCATTATTGGATTTATCTGGTTTTCTTGTAGGTTTGCTATCAGATTCATTTGGTTTTTCTGGATTCACTGGAGTAGTTGAGTTGTTTGAATCAGATTCACTTGGCTTATTATTTCCAGGTTTTCTGTCTTTATCTGATCCACTTGGATTTGAAGAATCACCATTACTTGATGGTTTTTCATTTGAATTTGTAGGTTGTTTTGCACTAGGAGTTTTATCACCACAAGCAATTACTGCAGCACTTGTTGCAGCAATTAGCCCAACAGACCCTAATATTGTTAATAATTTTTTCATATATTTACACCTATTTTTGACATTCAATTAGTGCTTTTTGAGCACCAAAACATTTTATCAATCAAAATTTTTAAAAAGATAAATTTGCAAAAAAAAAAAAAAAAGCAACAAGGTGTGATCGCACCATTTGCTTTTAAAAGTAATTTTCATAACAAATATGATTATTTTAATTGTTTTTTCTTTTCTTCAAGTTTATTAATCATTTTTTCTAGTTTTTTAATTTTAGAATTTATTTCTTTTTCTTTTTTATTAGATTCATTATCTAATTCTAAAAGATCTTTTTTATAATTTGATTCAACTTCTGAAATTACTCTATTTGTAGATTTTTCTAACTCGCTAATACTTTTTTGAATTTGAGATTTTTGCATTTCTAATTGAGATAATTGAGATTCAAATTCACTAACTTTTTTAGTTAATTCTTCTAGTTTTTGTTTAGAATCTTCAATCTCACCTTGAGTTCTTCTAACATCATTTTTATATAAACTAGAAAAGTTTTTTATTTTAGAAATTTCATTATTATTTTCACGTAAATAAGTATCAATCTCTTCTTTTTGTTTATTCATTTGATCTAGTGATTGAGTCATTTGGTCAACATCACTTTTTGCTTTTTCAGCTTCTTGTTTTTCTTTATTTAGCTTTGTACTTATTTGAGTATTTGATTCTTCTATTTCTTTAATATTTTTGTCTATTTGTTCTTTAACTTCAGTGTTATTTTTAATTTCTTCAGTTAAATGATCAATAAATTCGTGATTAAATCCGTAATCTTTTCTACTACTATAGAAGAATGAATCATAAAAATCAGTCTCTGAAACAAGATCTTTTTTATAACTTTCTAAAAGTTTAATTTCTTCACTAATTTCTTTAGCTAATGATTTTTGTTCTTCTGAATCTTTTTTATAAGATTGTTCTTGTTGTGAAATTTTTTCTTTAATTTCATCTAAATGACTAGCAATTTGTTTATTCTTTTTTAGTTCTTTTTCAGTTTGCGAAATGGTATCTCTTAACTTGATAGCTTCTTGTACTTTTTGATCATATACTTTTTCAATAGCTGCATATTCATTTTCAAGTTCTTTAGCTAGTTCTAATCATTCTGTTAGTTCTTTTAGATTTTCTTCTTCTTTTTCTTTTTTATCTTTAGTGTCGTCTTGTTTAATTTGCTCTAATAGATCATTGATTTTTTTATCATATTCTTTTATTTGTTGATCTAGTCTAGCTTTACCTTCTTCAAATTGTTTTTTAGTATTCATAAGAGTAGTTTCAAATAAATTATTTAAACTATCTTCTTTTTTACCAAATTCATCTTCATTTGCTTCTTTTTCTACTAATTGGTCTTCTATTTCTTTAGTTAATGTAGAAAGATGTTTTTCAATTTGATCTTTAGTTGGAGATCAAGAAATATCATCTCCAGTTATAGAATCAGAATAAGTTTTAATAAATCTATTTTTTAATACAGCTTTTATTAGATCAGTATATTCATCATTAAACAATTTATTAGTATCTCTACTTGCTAAATGTTCTAAAAAACGAGCGTAGTTATCAGAATAATTTTTATCTAAAATATCTTTAACTTCTTTTTCTACTTCTTCTTTAGTTAGATAAAAGTTAATATCAGCACCACTTATTGAATCACTATAAGTTCTAATCAATCTATTTTTTATAGCAGCTTTTACTAAGTTACTAAATTCATCACTAAATAATTCTTTAACAGTTTGACTTGCTTTAATTGCCATTAAATTAGCAAAATTATCTTTATAGTTTTTATCTAGAATTTCTTTAATCAATTGTTCTTGTTTTTTATTTTCAGCATCAATTTGTTCTTTTGTTAAATAAAAGTTAATATCTAATCCAGTAGGACTATCTCTAAAGATTTCATCAATTTTAATTTTGATTAAATAATCTAAAAGAGCTTGGTTTTCTTTTTTATTTTTATCTAAGTATTCTTTAACTCATTTATCTAAACGTTCATTTTCACGTTCAAGTTGTTCTTTAGTTGGATTTAAGTTGATATCTAATCCTGAAACACTATCTCTATAGATTTGTATTTTTAAATCTTTAACAAATTTAGTTCATCATTCTTTATGTTCTTTTATGAAGTTGTTAAAAGCTTCATCATTAACTTTTTTATTATCTTTTAAGATATTTTTAACAAGTTCTTCTAGTCTTTTTTCTTCTTTTTCTAGATCTTGTTTAGTTGGATTTAGATTAATATCAGCTCCAGTAGCACTATCTCTAAAAATACTATTTCAACTAATAGTTGCTGGTTTTGGTTTTACTGGAGTGTCTTGATTATTATCTTTTTCACTTGGTTTTGTAGGATTATTTTCAGGTTTATTAGAAGGATTAGCTGGTTCAACTGGTTTTTTTGGATCAGTTTGGTCTTTATCTTTTTCACTTGGTTTTGTAGGTTCATTTTGATTAGTATTTTCATTTGAATTTGTAGGTTGTTTAGTAATAGGGGTTTTGCATGCAATAACTAAAGCAGCACCACTTGTACTAATCATTATTGACCCTAATATTGTTAATAATTTTTTCATATATTCACACCTATTTTTGACATTCAATTAGCGCTTTTTGAGCACCAAAACATTTTACCAATCAAAATTTTTAAAAATAGAAATTTGCAAAAAAAAAAAAAAAAGCAAAACGACCTAGTAAATATCGCACTTTTTGGTGTCTTGCTTTTATAAATTACTAATTTTTTTACTTTACTATAGATTTGTAATTAATATTTCAATTGGTTTTATTAATAGAATTAATACTTTATACTATTATCTAATATTACAATTAATCATATATCAATTATTATAGGTGAAATATATTATTTTAAATGACATTAGCAAACATATTATTGATATAAGAGAAAAGTAACTCAAATTTAAATTATTAATCCAAAGTATTTAGTTACAAGTAATTATTATTTTCTTGATTTTTTTTATTTAAGTTTATTAAATTCTTTAAGAGCCTCTTGTCATTTATGAAGTCTTAATTGATATCTTCAAAGATTTTCACTATGTTGATTTTTTTCTAATGCTTCTAAGTTTTTACTTATATTTTCATTTATTGTTTTATTAGCAAAAGTTCTATGATATGGATTTCTCTTTAATATTTTAAATAATGCTGATATTTCTGCATCTAATTTCTTGTTTTCATCTTCTCATTTTTTAAACTCAGATCTTATTACTTCATCTAATCTTTCAATTTCAGCATTAAATTCAATACTAAACTCTTCAGCTTCTTCTTTATCAAGTTGCTTATCAACTTCTTTTTTAGCTTGATTAATTTCATCTTCTCATTTTTTAAACTCAGATCTTATTACTTCATCTAATCTTTCAATTTCAGCATTAAATTCAATACTAAACTCTTCAGCTTCTTCTTTATCTACTTTAGCATCAATTTCTTTTTTAACATCTTTAATTTCTTCAGTTCATTTTTTAAACTCAGCTTTTAATGCTTCTTCTAGTTTGTCAATTTCAGTGTTAAATTCTTTGATTTCTTCATTATCAACTAGTTGATTGATTTGATCTTTAATTCTTGATTCTCAAAGACTTAACTCATTTGTTAAAGCTTCTTCTAGTTTTTCAATTTCAGCATTAAATTCAATACTAAACTCTTCAGCTTCTTCTTTATCTACTCTAGCATCAATTTCTTTTTTAACATCTTTAATTTCTTCAGTTCATTTTTTAAACTCAGCTATTAATGCTTCTTCTAGTTTGTCAATTTCAGTGTTAAATTCTTTGATTTCTTCATTATCAACTAGTTGATTGATTTGATCTTTAATTCTTGATTCTCAAACATTGATTTCGTTTCTTAAAGCATCTTCTAGTTTAGAAAACTCAATGCTAAATTCTGTACTATATTCTTTATCAAGTTTTTTATCAATTTCTTTTTTAATTTTGTCTGTTTCTTCAGTTCATTTTTTAAACTCAGCTTTTAATGCATCATCTAATCTATTGATTTCTTCATTAAATTCTTTACTGAAATCTTCAGCTTCATCTTTTTCAACCAGTTTATCAATTTCATTTTTAATTCTTGATTCTCAAAGACTTAACTCATTTGTTAAAGCTTCTTCTAGTTTTTCAATTTCAGCATTAAATTCAATACTAAACTCTTCAGCTTCTTCTTTATCTACTTTAGCATCAATTTCTTTTTTAACATCTTTAATTTGTTCAGTTCATTTTTTAAACTCAGCTTTTAATGCTTCTTCTAGTTTGTCAATTTCAGTGTTAAATTCTTTGATTTCTTCATTATCAACTAGTTGATTGATTTGATCTTTAATTCTTGATTCTCAAACATTGATTTCGTTTCTTAAAGCATCTTCTAGTTTAGAAAACTCAATGCTAAATTCTGTACTATATTCTTTATCAAGTTTTTTATCAATTTCTTTTTTAATTTTGTCTGTTTCTTCAGTTCATTTTTTAAACTCAGCTTTTAATGCATCATCTAATCTATTGATTTCTTCATTAAATTCTTTACTGAAATCTTCAGCTTCATCTTTTTCAACCAGTTTATCAATTTCATTTTTAATTCTTGTTTCTCAAAGACTTAACTCATTTGTTAAAGCTTCTTCTAGTTTTTCAATTTCAGCATTAAATTCAATACTAAACTCTTCAGCTTCTTCTTTATCTACTCTAGCATCAATTTCTTTTTTAACATCTTTAATTTCTTCAGTTCATTTTTTAAACTCAGCTATTAATGCTTCTTCTAGTTTGTCAATTTCAGAGATTAAATCAAATTCTTCTTCTTTATCGATTTGACTATCAATTTCTTTTTTAATACTGTTTGGTTCAGCCCACTCTTTATTTTCTTTATCTGTGTTTGGTGTTAGTCCTCTTAACTCATAGATAAAATTACTTACAGCTTGTTTTCTAATTTCTTCAATTTGATGATTTTGTATATCTGCCCCAGCTATACTATCTTTAAAGATATCACTTCATAAGTGGTGAGTAATTGTGTTTACTGGTTTGTTTATTGGTTTTGTAGGTTCTTCTATTTTATTTGTTGGATTCTTGCTATCAATTTTTATTGGTTTAGTATTAGGAGTCTTACATGCAACTACTAAAGATGCACCAATCGAACTAATAACAAGAGTTCCCAAAATTCCTAATAATTTTTTCATATATTGCGCCTCTATATATAATTTAAAAAATAGATTCCACTATTAGTATTTCTATGTTATAATTATATAATTGCCAAATTAGCAAAATTGACTTTCTAAAAAAAAAAAAAAAAAGGCAAACAGACCTAGTACGCATCGTACTTTTGTGTTGTTTGCTTATATTATGTTTATTCAATTATATTAACTTTAATCTTAAATTTATAAATTATAGGTGTGATTTTTATTTTATTAAGACTATTTTTGGTTTAACAATTTGATAGATTCTTTTAATTTAGCTATAGCTTTTTCTATTTCTTTAATTTTTTCATCTTCTTTTGATTCTAAACTATGAGCTTGTTTTTCTAATTTTAGTAATTCATCTTCATATTGTTGTTTAGATTCTAAAATGATTTTATTAGTTGAGTTTTCAAATTCTTTAATAGAATTTAAAATTTCTTCTTTTTGTTTTTCTAAACTTAATTGATCAGAAGTATATTGATCAATTTGCGCAATTATTTGTTTTTGAAGTTCACTATTTGAAGTTATTTCTTCTTCTAAAGTTTTTAGATTATTTGTATATAATTCTATATTTTTATTAGTTTTTACAACTTCAGGATTGATATCAGATAGTTGTTTATCAATTTTGTTTTTTTCTGCATTAAGTGGTTCTAAAGATTTTGTCATTTCTGAAACTTCAGCTTGTATTTTTGTATTTTGCTCTTTTAATTGCTTAATTTTTTCTATATTTTGTTGTTTTGTTGTTTGTAGTTCTTTTTCTAGGTTTTTTATAATGTTAGGAACTTCTTTTTTTAGTTCATTGTTTCCATAAATATAGTTTTTCAATCTAGCTATTTTATTGTGATTAAATCCAGTTCATAAAGTTCAATCACCATAATCATAGAATCATAAATCAGAATCATAAGTTTCTTTTTTTAGATCATCTATAATTTTTTCATACAATTTATTCTCATCATCTAATTGTTTTATAATAACTTTTTCTTCACTAAGTTCTTTATCTAATTCTTTTTCTATATCTAAAAGTTTTTTTTCTTTATTGTTATTATCTGTTATTAATTTATTTTTAGATTCAATTTGTTTATTAATTGAATCTATTTGACGTTCTAGATCTTTAGCTTGGTCTAAAACTTTATTATGTTCTACTTGTTTATCTTGATTTTCTTTAAGAAGTAATTTAGCCTCTTCTAATAATTCAGTAGAATCCTTAATTTCTTCTTTTATTTTTTCTTTTTGATCTTTAAGTTTAGGTAATTCTAGTGTTATTTTATCTAGTTTTGTTTCATTTTCAGTTTTTCTATTTTCTAGACTTTGTTTTCCAGTTTCATACTCTTTTTTAAGTGTTACAAGATTATTAGTTGCTAGTTCTTCTAGTTCTTTTTCTTTATTGTTATATTCTTTTTCTATTCTAGTTCTTTCTAAAATGTGAGTATTTACTTCTTCATTTAATTTAGCTAACTTAGTTTCAAGATTATGTTTATATTCATTAACTAGATTATATTTATCATTAAATAGTTTTTCAGCTGCTTTTGCTGATTCTTTAGCATGAGTATCACCATGTTTTTTGTATCTTTCAACTGCTTGTTTTACTAAATCACTAAATTCATCACTAAATAATTCAATTGTTGCTTTTGCTGATTCTTTAGCATGAGTATCACCATGATGTTTGTATCTTTCAACAGCCTCTTTTACTTTATTTGAAAACTCATCGCTAAAGATTTCTTCAGTAATTTTTGCCGATTCTCTAGCATGAGTATCTCCATGATGTTTGTATCTTTCAACAGCCTCTTTTACTAAATCACTAAATTCATCACTAAATAATTCTTTAGCAGTTTGACTTGCTTTAATTGCCATTAAATTAGCAAAATTATCTTTATAGTTTTTATCTAGTATTGCTTTAAGTTGATCTTCTTGTTTTTTGTTTTCAGCTTCAATTTGTTCTTTTGTTAGATAAAAGTTAATATCAGCTCCAGTAGGACTATCTCTAAAGATTCGATCATATTCTATTTTAATTAGATAATCAAAAAGTGCTTGGTTTTCTCTTTTATTTTTATCTAAGTATTCTTTAACTCAATCTTCTAATCTTTTTTCTTCTTTTTCAATTTGTTTTTTAGTTGGGTTTAGATTAATATCAGCTCCAGTAGCACTATCATTATAAACGCTGTATCAAGTAGTAGTTGATTCACCTGGTTTAGTTTCAGGTTTGTTTGTTGGAATAGATGGTTGAAGTGGAGTTAAAGGTCTTGAATCATTTCTATTATCATCAGGTTTATGTGATGGAGTATTTGGTTTGTCTGGTTTTTTTGGAGTAGTTGATTCGTTTGGTTTAATTTCATTATTAGGTTTAAATGGACTACCATATATAAAACTTGAATTATGAATTGTTCCAACTCATGGACTTGGATTACCACTTACAAAATGTCTATTAAAAATAGTATGTGGATAAGTTTTTGAATCATAATTGTTGGTTGGTTTTTTATTATCATCAGGTTTTTTATCTTCACTTGGAGTTTTTTCTTCATCTGTTTTATCAGGTTTTTTAGAACCACCACCATTAGATGGATTTTCATCTTTGTCTTTATTTGTAGGTTGTTTAGTACTTGGAGTTTTACATGCAATAACTAATGCAGCCCCGCTTGTACTAATCATTATTGACCCTAATATTGTTAGTAATTTTTTCATATATTCACACCTATATAATTAAAAAATAAATACTTTTATCTTAGTATTTGTATGTTAAAATTATATATTTGCTAATTTAACAAAAGATCCTTTGTAAAAAAAAAAAAAAAAGCAAACAAACCTAGTACACATCGTACTTTTAGTTGGCTATGCTTTTTAATTAAAAAGTTATTTTGTAATAATTTCTTTTGTTTTATTTATATTTTTACTAACAGTTATTCTTTTATAAATAAATTTATTAGAATAATAAGTTAATATATAACCACCAATAAACACACTAAATATACCTATATTTACAAAAATATATTTAATAACACCTATATTATATGGAGAAATAAATGAATAAGGTATTTTATTAATTCAGATTTTATCATCTAAACTAATTCCAGGTAATAATCTTAATAACAATCATAAAGAATAAAAACATAAAATGCTAAAAGTTTGTAAACATCCTAATCATAATTGTTTTTTAGTTTTTTGATCATTTAAAGGAAATAAACTAAAATAAGTAATTCAAGTTATAGGAATAAAAACATGAATTGCTAAAGCTCTATATAAAGTTGGAAAATCTTTATCATCATTAATAATAGCCTGACCCATAATAAATCCAGCTATATATAATAAAAAGATAAATATTGATCATGAAGTAAAACTATATTCTGTATATTTATATAAATAAACTTGTTTACTTGTTAGCATTCTTGAAATTTTAAAACTACAAAAGATCATTACAAATACTGCGTATCATTCACTTAAAAAAGTAATATCTTGTAAAAAAATAACATCTGCTGATAATGTTTTTTTATTATATAACCCAACTGATTTAGTAATAAAATAAAGTACTAAACAAGAAATAGCAAAAAATAGTAATATTGATGAAATGATTAATTCTAATTTAAAACTTCTTTGTTGTCTAAATTGGTTAAATCGTTTTAGCATCACAACCTCCATATTTATCATTAATTTTATTATTAATTAAAACTATTATTAAATAAGTTAAAAAATATAAAATAAATGAACTAAAAGACAAGCTCATAAAGATTGCTCATCCAATATTTGATGGTTGCAATGAAGTGTATAAAAACGGTTTGTTTATTAAATTAACTTGAACATTTGGAACTGTTCTATAAGTAATTCAACTTATATAACTCAAACCAACAGCTAAAATTCTTCACATTCCAACTAGCTTACTTTTTTTAGAAATTATCATATTAGTTCTAAAAAAGATTAAATACAATAACATACTAGTTGGTAGTAAAAAATGAACATTAACAACTCTTAATAAAGCAGATCAATTATTAATATTTGCTGTTTTATTAATAATTGAGATTCCTATAAAAATTAGTCCAGTTGAAATTAACATACTAATAATAAATAGTTGTAGTAAATAAGCTTGATAAAGCTGTTTTTTAATAAAGCTATGATATAAACAAATACCTGCATAAAATGTACTTATTCATAATCCTCAAATAGCAATTGAAGCTGAATCTAGAGCTAAAACTATATCTAAATTAGTTGGTTCATCAACATAAACTACATTAAATGCGTGAGTTATTCAATATATAAAATTAGTTAGTAAATTTAAAAAAAGAATTACTGAATAAAATATAGTATCACTTTTAATCGTTCTTTTTTGCATTTTTTTAACCTCTAATCATAACAATATACTATCAAATATCTTTTAAAATATAGAACAGAATTAATTTTATCTTATAAATAGTAAAAAAGTGTTATAAATTTATAACACCTTAGATTAGCCTATTTTAGTTTTACTACTCTCATCTTCGTGAGGTTTTTTCTTTTTCTTTTTTCTAGTTTGTTTTTCTTGTTCTTTAATATCATCCATTCTAGCAACAAGTTGTAATAAAACATCTTTTGCTATAACTAAATGTTTTAGTTTTTCAGGATCATTGATTTGTTCAACCATATTATTAAAGTTTTGATGAATTTGTTCAATAGTAATTGATGCAATATCAATATCGTTTTGTAATTCTTTAATCAGTTGAGTTATTGCTTGTTGATCATTTTGTGGACTGATGATCATTTCAGCTCTTCTTTCTAATTCTAAAACTAAACCTAACATTACATCTCTTTGGATTCTTAAACGTCTTAGTTTTTGTTTGTCATCTTTAAATTCTTCTTCTAATTCATCAAAACGTTGATTAATTGCTTTATTGTTAATATCACTTGGTTGTAAGCCAGTTTCAAATAAAATTTCTTCAATATCTTTATCTGTAACTTCAATACGTTCTTCGTGTTGTTCTTCATCTTCAACAACTCTTAAAATAACATTTGCTAAGTTTTCAACAACTTCATTTGCTATATTAATTTTCATTTTATTAAATAAATCAGTTGCTTGTTCAACATAAATAGCTAATGGGTTGTTTTGTGCATATTGTTGTAGATAAATTCCACTTTTTAATTTACCAGCAATATCTAAATGCTTAGTTCAATATTTATCAAATGAATCTAGAATTATTTTTCTTTCCATTCCAATAATTACATCATCTGGAATATCTGAAATTCTTGCTTTATATAATTGCATCATAGCTTCAGCAATCTCAACAGCTAGATCCATTTTTTCTTTATTATTAAAATCATCAACTCTAAATTTGTTTTTAGGAACTAGGGTTCCATCAATAGCATCTAAAAGTTCTTTTTTATTAATAGTTTTTTCACCATGAACTAAAGTTGAGTGTTTTTCAATTAATTCATAAGCTGCAGTAATTTGCATTTTTTCAATAACAACACTTAGATCACTTGCTTCTAAAATATCATCTCTTTGAGCATAAATAATTTCACGTTGTTGAGCTAAAATATTATCATAATCTAAAACATTTTTACGTTGATCAAAATTCATTCCTTCAAGTTTTTTTTGAGCATTTGTAACTGCTCTTGTAAACATTTTAGATTTAATATAATCATCACCTAAAGCTTTAAAGCGTTGTCTTGTTTTTGGTGCTGTAAATCTCATCATTAGATCATCATCCATAGAAATATAAAATCTTGATAATCCTGGATCACCTTGTCTTCCAGATCTACCTCTTAACTGGTTATCAATTCTTCTAGCTTCATTTCTTTCAACACCAAATACACGCAATCCACCAAGTTCAGCCACACCTTTTGCAAGTTTAATATCAGTTCCTCTTCCAGCCATATTAGTAGCTAAAGTAATAGCTCCAATTTCTCCGGCTTTTGAAACAATTTCAGCTTCTCTATCATGATTTTTAGCATTAATAGTTTCAAATTTTAAATTAGCTTTTTTTAAATATCTTGCAATTTGTTCACTTGATTCAACACTAGTAGTTCCAATCAAAATTGGAGCACCTTTTTCATGAGCTTCTAAAACATCTTCAACTAGTTTTTTTAAAGCAGCGTTTTTTGTTCCAAATGTTAGATCTGGTTCATCTTTTCTGATTACTGGTTTATTAGTTGGAGTTTGAATAACTCTTGTATTATAAATTTTAATAAATTCTTCTTCTTCAGTTTTTGCAGTTCCAGTCATTCCAGCAATTTTTGAATATAATCTATAAAAGTTTTGATAAGTAATTGTTGCTAAAGTTACAGTTTCTTCTTCAATATCAACATTTTCTTTTGCTTGTAAAGCTTGTTGTAGTCCATCTGAATAACTTCTTCCATGCATTATACGACCAGTAAATTGATCAATTAATAAAATTTCATTATCTCTAACTGTATATTCAACACCTTCTTTAAATGCAAATTGAGCTTTTAATGCATTCATAATTAAGTGAAAAATCTCAGTATTTTCAATAGCAAATAAGTTTTTTAAAGAAAAGAATTCATTAGCTTTTTTCATTCCTTGTTCGTTTAAATAAACTTGTTTTGATTCTAAATCAATATCTAAATCATCATGTTCTTTTAAAGTTAAAGCAAAATTATTAGCAGCTTTATATAAATTAATTCTTGTTGATGTTCCTCCAGAAATAATTAAAGGAGTTCTTGCTTCATCTATTAAAACTGAATCAGCTTCATCAATAATACAATAGTTTAATTTTCTTTGTACTTTTAAACTATAATCACTAACCATATTATCTCTTAGATAATCAAATCCAAGTTCAGCATTAGTTGTATAAGTAATATCTTTATTATAAGCTTCTCTTTTTTCTGTTTTAGTTAATGATGATCCATTTAACCCAACACTAATTCCTAATAAATCAAAAACTTGACCATTAATTTCACTATCTCTTTTTGATAAATATTCATTAACTGTAACAATATGAACACCTTTACCAGATAATGCGTTTAAATAAGCAGGAAAAATTCCTGTTAAAGTTTTACCTTCACCAGTTCTCATTTCAGCAATATCACCAGAATTTAAAATAATTCCACCAATTAATTGCACTTTATAAGCATTTAAACCTAAAACTCTTCTAGCTGCTTCTCTAGCTACTGCATAAACTTCAATTAAAATATCATCTAATGATTTTCCATCTTCTAACATTTGTTTAAATTCTTGTGTTTTTAATATGAAATCTTCATCTTTTAATTGACGCATTTGTGGTTCTAAAGCAATGATTTTATCAGCAATTTTTCCAAATTTTTTTAACAGTCTTTTATCAGAAACCATTAGATCCTCCCAAGAAAATAAGATTGTACAATATAATAATTATATAGCAAATATGCATTAAACTAATGATATAGATTATAAAAATAAAGTATGAAAACTATTAAAAAAGAAATTTATAAAAATGAGTTTATTATTAAAAATTCTAAGTTTATAACAATTGCTACAAATATAAATTCTAAAGATGAATTAGAAGAATTTTTAAATAAATATTCGGATATAAATGCTACTCATAATTGTTATGCTTATATGATCTATGATCAAAAATTAATTGGTGGATATAATGATGATCATGAACCAAAAAACACAGCTGGTAAACCTATTTTTAATGTCATTAGTAAAAATAATTTAGTTAATATTGTAATTTTAGTAATTAGATATTTTGGAGGAATTAAATTAGGAGCTAGTGTTTTAACTAGAACTTATAGTAATGCTGCAAGCTTAATTATTAAAGATTTAGAAATTATTGAAATTAAGACTTATTATCAATATTTAATTAGTTTTGATATTAAAAATTTAAAACTAGTTAATCAATGAATTAATCAAAATAATATAGAAATTATTAGTAAAGATTTTAGTTTAAATGTAGTTTTTAAAATTAGATCAACTAGTAAAATAAGTAGTTGTAATTTTTTTAAAATTATTGATTTTAAAACTATAAAAAATTAATGTTTGTAATAACAAGTTATTAAAAATTCTTACTAACTATAATGATATTATTAAAAAGTAAGGATTTTTTTAAAAATGATTACTAATGAAACCAAACCAATTTTACTAATTGATGGTTATCATTTACTACATAAAGGATATTATGGTACTTTAAAAAGAACAATAGTTTCAAAAAATAAAGATGGTATTGTGATTAATGCAATTTATTCTTTTGTAGCAAATATATTAAAATTTGTTCAATCAGATCGATATCATAGTGTAATTGTTGCTTTTGATTTTGATGAAAATTGTTGAAGAAAAGAACTTTATTCAGAATATAAAGCAAAAAGAAAACCAACTCCCATTGATCTAGTTCCACAGCTTCAAATAGCTAGAGATTTTTTAACTAGTGCAAATATTTCTTGATATGAAAAATATAATTATGAAGGTGATGATGTTATTGGATCAATTTGTAGAATTGCTAATAAATTAGGATATGATGTATGTATTCTTACAAATGATAAAGATATTTACCAATTAGTAAATAATAAAACTTCTATTATTACAAATATAAGTAAAAAAGAAAAAACTAAAATTATAAAACCACAACAAGTATATGAACACTTTTTATGTCAACCAAATCAAGTAGCTGATATTAAAGCTATTTTAGGAGATCAATCAGATAATATTAAAGGTGTTAAATATATAAAAAGAAAACAGGCTGAGAGTTTAATTAATAAATATGAGAATGTTGAAAACATTTTAAATCATATTAATGAATTAAATGAACCTTTAAAGACTATTATTTCTGAAAACAAACAACTAATTATTGATAATAAAAAGATTACTAAAATATTAACTAATGTTAAATTAGGAAGAATAAATTTTAAACCAACTAAAATTACTTATTATCGATTAATTAGATTTTTAAAAGAACAAGAAATGTATGCTTTTATAAAACCTATTAGAAGGTATTTAGAAAGAACTAATAAAAAAACAGTGAACAAATAAGTTCACTGTTTTTAGTTATAAGTATTAGTAAATAGCTTTTTAGTAGTTTATTAAAATGCAAGTAATTAATAAGTAGTTTGCTAATTGTTATAATTTTAAGTGACAAATATATCAGTGTAATTTTTAAAAAATATTTATAGGAGAAAAGATGGGTAATAAAATAACTAAGCAAAAATTAGGTTCTATTATTTGAGAATCAGCTAATAAATTAAGAAAGAATTTAGATGCATCTGAATATAAAGATTATGTTTTAGGATTAATTTTATATAAGTTTTTATGTGAAAGACAAACTGAATATTTATTAAGAGATTGGTTAAAAAAAAGTGATCTAAAATATTTAGATACTAAGTTAAATTTTGAATCTATTAAAATAGAACAAGATTGTGAAATCCAATCAAAACATGATGTTAATGAGTTAAAAAATGAATGCATAGAAAATTTAGGATATTATATAGACTATAGTAATTTATTTAACTATTGATTAGATAACAAAAGTGAGTTTAATATTCAGAGTTTTCAACAAGCTTTTAATGAATTCAACAACAATATTAATGAAAAATATAAAACTTTATTTAAAGATATTTTTATTAAATTTGAAACCGGATTAAATAACCTTGGTAGTGATACTAAAGAAAGAACTAAAGTTATTTTAGATTTATTAGATACTATTAAAAAAATACCAACAACAAACCAAGATTATGATGTCTTAGGATTTATTTATGAGTATTTAATTGCAAGATTTGCTTCAACTGCAGGTAAAAACGCAGGCGAATTTTATACTCCTCATGAAGTATCTGAATTAATGTCAAAAATCATTACATTTCATTTAAAAGATAGAGAAACTATTAAAGTCTATGATCCAACTAGTGGATCTGGATCTTTACTTTTAAATATTGGTGAAGAATTTAAAAAATATAATAATAAAACTAGTCCTGTTAGTTATTATGCTCAAGAAATTAAACCTGATACTTTTAACTTGACAAGAATGAATTTAATTATGAAAGGAATTAATCCAACTGAAATTCATGCAAGATGTGGTGATACTTTAGAACAAGACTGACCAATGTTTGAAAATAATGATATTAATTCTTATCAACATTTAAGTGTTGATGCAGTAGTTTCAAATCCACCTTATTCTCAAAAATGAAATCCAGAAGATCATGAATTTGATTCGCGTTATAGTGAATATGGGATTGCTCCAAAATCAAAAGCAGATTATGCGTTCTTACTTCATGATCTATATCACGTTGCTAGCAATGGAATAATGGCTATTGTTTTACCCCATGGAGTTTTATTTAGAGGTAATCAAGAAGGGGTTATTCGTAAAAGATTAATCGAGAGATCAAATATTGATACTATTATTGGACTACCATCAAATATGTTTTATGGAACAGGTATTCCTACAATTATTATGATTTTAAAAAAATATAGAAAAGGAAATGATATTTTATTTGTTGATGCTTCTCAACTGTATATTAAAGATGATAAAAAAAATAAATTTACAAAATCTCATATTAAAAAAATATCAGATATTGTAAATAATAGATTAGAAGTTAAAAACCTTTCAAAAAAAGTTAGTTTAAAAGAAATTGAGCAAAACGATTACAATTTAAATATTTCAAGATATATTGATAATTTCAAAAAACAAGAACAATACGATCTTTACTCATTAATGTATGGAGGAATTAGTAATCAAGAGCTAGATAAATATCAAGATTTTTTTGATGTATTTAAAAATCTTAAAGATAAATTAATCAAACTAAATAAAAATAGCTATTATGAATTTCTAAAAGATATTGATATTAGAAAAATAATTTATGATGATATTCAAGTTAAAACTTATTTAGATAATGTTAAAGATAAATCTGAAAAATTTAAAAATTATTTTAAAACTTTAATTACTTCAATTAATGATATTAAAGATGTTAATTTAATGAAACTTGAACAACAATTAAGTGAATATGTTTTTAATAATTTTAATGATATTTCTTTTGTTGATGTTTATGATATCTATCAAATAATTATTAATAATCTTGAACCTATTAAAGAAGATATTTGATTAATTTCTAAATACTATCTAAACAATTTCCAATATAAAGATAATATTTGTTATGAAATTTTATTAAATGAAATAGATACCTTAGAAAAAGAAAAGAAGTCTAAATTAGTTAAGAAATGAAGTTCTAATATATTAGATAAAACATTAATAGAAGAGACATACTTTAAAGAGACATTTGATCAAATTAGTGAGTTTGAACAACAATTAGAATTTTTAAATAGCCAATTAGAAGAAATATTTTCATCTATTAATGAAGAAGATAAAACTGATGAGATTTATGATAGTGAAAAAGAAGAGTGAAAAGAAAAAGAGATTAAAGATTTAGCTAAATCATTAATTAAATCTAAAGAAGTATTTGATCAAGATAGTTTTGAATATAATATCATCAAAGCAAATGATGTTTATGTAGAACAAGATAAGTTTAAAAAATCTAAAAATAAACTATTTAAACAATTGATTAATGATTCATACAATAAATATCTAAGTTTAAATGAAACTGAGTTTTATGATCTTTTGATAAAAAAATGATTAGATAAAATAGTTGGTCAATTAAAACAAGTTTCAACTGATGCAATTGATAATTATGTATCTCAATTTGAAAGTTTAGAAAATAAATATAAAGACACTTTAAGTGACATTAATGATCAAATATTGGACAATGAGAGACAGTTATCAACTTTATTAAAAGACTTAAAAGGTGAAGAAAGTGATTTAAAAGCGATTCAAGAGTTAATAAGCATACTAGGGAGTGAATAAAATGGGTGAAAAATTACTAGTTCCAAAGATTAGATTTAAGGAATTTACTAACGCTTGAGAACAGGAAAAGTTGGGTAATCTACTTATATATGAACAACCAACGAATTACATTGTTAAATCAGAAAAATATACAAAGTCAGGAATTCCTGTGTTAACCGCAGGTAAGTCATTTATATTAGGTTACACAAGAGAAAATTTTGGAATCAAATATGTAAATAATGAAAAACCTGTTTTAATATTTGATGACTTTACAACAGCAATACACTTGATTAATTTTAATTTTAAGGTAAAAAGTTCAGCTATCAAGTTGTTGTCAAATAGAAAAAATAATGATAATTTATTTTTTAACTTTTTATTAATTAAAAGCTTAAATTTTGAACCAGAAGCTCATGAAAGACATTGAATATCAAAATTTTCTTTATTTGAAATGAAACTTCCTAAATTAACTGAAAAAATAAGAATTTCATCATTATTTTCTAACCTAGATTCACTAATCACCCTTCATCAGCGTAAGTTAATTTTGCTAAAAAACACAAAAAATAGACTTTTTGAAAAGATGTTTTGTGATGAAAAATCAGAATTTCCAAGCATCAGATTTAAGGAATTTACTAACGCTTGAGAACAGGAAAAGTTGGGGAATTTAACTATTTTAAATCGTTTTTCTCAAATTAGTGCTGATACTCTACAAAAAATAAACGAACATAAAGGAAATATATTCCTTTTACCATCTTCAAATAACAATAATTGAAAATCTAATTACAGTGAAAAGATATCACATCTAATAAATAATGCAGAAATTATAACAGTTGGTAGAGCTAGAAATCCTAATCCCAAGTATGTGAATGGCCCTTTTATTTCCTCTCAAAATCATATTATAGAATCCAAAAGTAATGATATCGTAGCAAATAAATTTTTATATTTTTTTATTTGTAAAGTAGGTAGAACTTTTTATGGTTCTCAAAGCACATACCCAATGTTCACTAGAGTAGATTTTGAAGATACTAGATTGTTATTCCCACTTATAATTGAACAGGAAAAAATATTAAAAATTTTTAACAACCTAGATTCACTAATCACCCTTCATCAGCGTAAGCTTCTATTATTAAAAAACATAAAAAATACATTATTAGAAAAAATGTTTGTATAGGAGAAAATATGCATTTTATTTCAGAAAAAGATTTTGAAAAAACAATAATTAATAATTTAAAAGAGTATGGATGAAAAGGATTTCCTAATAATTTAGATGATCACTTAACTAAACAAAATAACTATAAAGTTGTTCTAACAAATCCTGATGAAAGACAACTTATCCAAAACTGAAAAAACATAATTTTTTCTAATAATAAAGACATACTAAATGGTATTGAACTTTCTTCTGATGAAATGGATCAAATTATTCAATTAGTAAATAATTGTAAATCTTTTGTTGATTCTAATACATTAATTAGTAACGAATTTATAACAATAAAAAGAACAAATAAAGATGATCAAAAAAGTTTTAATAAAGAAGTTGCATTAAGACTAATAAATAAACGTGATATTAATTCTGGATATACTACCTATCAAATTGCTCAACAAATAAGAACTGATAAATTAGAAGATAGTAAGTCTAGAAGAGGAGATTTAATGTTGTTAATCAACGGAATGCCTCTAATTCACATAGAACTAAAAAACAATACACAATCTATAGGTAATGCTGTTGCTCAATTACATAATTATTCAAGATTAGGTTTTTATAATGGTATTTTTAAACTTGTTCAAGTAATAGTTGCAATGACGCCAAATGAAATGATGTATATGCCGAATGCTGTTGATCACAAAGATATTTCTAAGGAAAGATTCTTAAAATGAACTGATGAAAATAATAAACCAATAAATGATTGAAAAACTATAGTAAAACAGTTTTTTAGAATTCCCTTTGCTCATAGATTAATAGCTGACTTTGCAATAGCTGATAGTAGTGATAATAATTTAAAATTATTGAGAAGTTATCAAATTCATGCGGTTAATAAAATACAAAATAAATTCTTTAATAAAGAAATTTTTATTGAAAAATTGTCTAAAATAAGTCAAAAAGGTGGGTATGTTTGACATACAACAGGTAGTGGTAAAACGTTAACAAGTTTTAAATTATCAACATTATTATTAGAATGAAATCAAGCAGATACTGTTGTTTTTGTTGTGGATAGAATAGAATTAGGAACACAAACAAAAAGCGCATTTAAAAACTTTAATTCATCAGGAAAAATCTCAGTATTAGAAGCAGAATCGACTAATGATCTAGTAGAACTACTATCTGATAATTCTTCAAGACATCAACTTATTATTACTTCTATTCATAAACAATCAAGAGCTAATCAAGAAAATTATGAAAAACAATTACAACAAATTTCTAAAAAGAAAATAGTTTTTATTTTTGATGAGGCTCACAGATCAACATTTGGAGATATGTTTAAAAACATTATTACAAGCATTCCTAATTCTGTAGTTTTTGGTTTTACTGGAACTCCTATTTTTAAGGAAAACAAAAAAGAAGATAGAACAACTGAAGATAATTTTGGTCCATTATTACATAAATACACTATGGATGATGGTATGAATGATGGTAAAGTTTTAGGTTTTACATCTGAGTATGTTTATTTAGATAGACTATTACTTCCAACAATTGATCAATATGATAATAGATCTTCATTAAATAATAATCCTACTGAAATAGCATTTGAGAAACTTCAAAAACTTCAAAATTTAATTAAGGAAAAAGATGAACATTTATTAAAATATGAGAAAAATCTTTATAAGTTCTTACAGTCAGACAAGAACAACAATTACAAAGAACAAGTTGTTGATGATATTTTAAAAAAATGAAGAAATAAAAGTTGAAATAATTTTTTTAGTGCAATTTTTGCTACTTCATCTATTAAAGATGCTATCGACTACTTTGAAATATTTTCTAAAAAAGTAAATGACAAAAAAGTTCAAATTAAATTTACTGCACTTTTTGATCCATCAACTGATATTTCAGAAGAATATGACAATATTTCAAAGGGATTATTAAAGTCAGAAAAAATAAAAGAAATTATATATCAATATAACAATGACTTTAATACTAATTTTGATGCATCATCAACAAATGATTATGCTAATTTTAAAATTGATATTCAAAAAAGATTAGCTAGAAAAGATAAATATACTAATTTAGATAATAAAGAAAATAAAGATCAAAGATTAGATTTATTAATAGTAGTTAATCAATTATTAACAGGTTATGATTCTAAATATATTAATACGGTATATTTTGATAAGAAACTAGAAGATGAACATTTGATACAAGCAATTTCAAGAACTAATAGAATTTATAAAAAAGAAAAAAAACCTTTAGGTGATGTTGTGTTTTACAATAGACCTGGTCAAATGAGATGAAATGTTGACAAAGCGCTAGTATTATATACTAATACTAATCCTGAAATGGGTGCTCCTATGAGTTTAGAATTGTTATATTCAAAAATAGATGAATCATTTACAAAAATAAAATGTCTATTTGAGCAATGAAACTATCCAAATTTTGAATCAGTTCCTAATTCTGAGCAAATAAAAAAAGATGACGCTAAACTATTTTTATCTGAATATCAAAATATAAGAACTAATTTAAGAACAGCTATTATTTTAGGTTTTGATTTTGATAATAACAAAAAAATTATAATGACAAAAGATCAATGAGAATTAATTGAATCAAGAATTAAAGATATTGATTTTTCACAATTTAAGGATTCAATTCAAGAAGATGATGAGCTATTTTTAATATTAGAATTAGCTGATGTAGAAAACACATCTTGAACATTTGTGATTGATAATAATTATTTAAAAAAACTATTTAATGATTATAATTACAAAAAAGAAAACAAAGAAATTACAGAAGAGTATAGAATCTGGTTTAAAAAAGAATTAGAAAATAAATTCATTATTAAATTCCCTAAAGAATATCAACAAATAGCAAGAGGATGTTTAGATTCATTAATTGGTGGCCTTAATAAAAATGTTAGTGAATTTGATTTAAAAGATGAAGTTATTAGAAGGGTTAGAAATAAAATATATCAAGAAATTTCTGACTTTTCTGGAGCAATGAATCTTAATACTGAAGAATTAAAAAAAATAATTGATTCAGACGATCCTATTAATGCATATGGTAGATTTGAAGATCTATGCAAAAATGGGTTAACTGAACAAGCAAAATCAGCTATAGCAAGATATTTAGACACAAGTATAGAAGAAATAAAACCCGGTCCGTATAAAAAAGAAATAAAAGCATTTATTAAAGAACAAAAAAAGAAGAGAATGAAAATATAAAAAACAAAAAAACGCCGCTAATAAAAGCGACGTTTTTTGCGTGGGTCTTCATTTATATTAGTTTAATGTTGATATAGATCTCATAACTAGATCTATATCTTTGTTTTCTAATTCATTAATAATGTGCAAATAAATTCTTTCTGTTGTGTTCATACTAGAATGTCCTAATCTTTTTGCAACTGAAGCTATAGAAACTCCAGCATACAATAAAATAGAAGCATGAGTGTGTCTTAAACCATGAATACTAATAATTGGAATATTAGCTTTTTTACATCTTCTAGCTAATGTATCGTTTATAGTAGAGTTAAATATTTTTTCTTTAAAGATAAAAATTGGTTTATTTTTTTCAAGATTGTTAATAAGTGAAGCAAATCTTGAAACAGTTTGTCAGTCTAGTTGTATTTTTCTTATTGAAGATTTATTTTTAGTTGGTAAAAATCCACCAGCTTCTTTATAATTTCAAGTTTTTGAAATATTTAAAAGTTGTTTTGTAAAATCAAAATCTTCAGGAGTTAGTGCAATAGCTTCAGAAAACCTCAATCCTGTTTTTGCAATTAAAAAAATTAGCCAATCAAAATTTAATTTATCCTTTAAATTTAATTGTTTTAATAGTAATTGCAATTCAAAGTTACTTAAGAATTTAATTTTTTTAGGCTTTGCTGCTTTACCTTTTATTACAACTTTTCTAGTTGGATCTTTAGTTAGTAATCCTTCATCAAATGCATCTAATAAACAACTTTTTAAATGGTGATGAAAGTCCATTGTAGTTTGTCTTTCGTGTTGTTGGGCATATTCATTAATGATCTCTTGATATGTCACTCTATCTAAATCGCACAATCTAGTAGTTGGTGCTATTTTTATGATTCAGTCTAATGTAAGCTCATATTTTTTAAAACTAACATTTCTAATAGAACCTCTTTTATATACATTTATTCAATTTTGAAAATATTTGTATAGCAATATATCGTCTTTTTTCATTTATTTTCCCTTCATTTATACCCACGCTGATGAAGGGTGATTAGTGAATCTAGGGTTGAAATTAATAAAGATATCTTTTGTTGTTCTTTTGGATCGGAACTAGATATAATTTTCATCTTTTCCATTTCGCTTGTTGTTAACATCGGCATTGCAACTCATGTTACGCTTTTACTTGTATTTTTTGAAATGATTATCGAGAAATATTCGTTCACATTAAAGTGTTTTTTAGTTAGTATTCCGCAATGAGAAGTTGCAAAAAAACTATGTTTTCTGTAAAAAACCGTCCCCGCTTTAGCACCATCGGTTGTTCAAGTTATTGCATCCTCAAATGTGTATTTATTATAATAGCCGATTAAACCATTTTCGGTTGTTTGTGATGAATAAACGGGGTATTTAAAGTCACCAGTCTTTATAGAACTCATGTCTTTTTTTGTTATTCCTAAACCCCTATCAATATTAAATATTTCTCCTATTTTTCACTGTTCTCAAGTGTGAGTGTATTTTTGTACTTTTTTTAAAAATCGAGTTGAAAATTTTAAAAAATCAAAGACAAAATTTCTGAATTTTCAAAAATTACACTCTCACTGATGAAGGGTGATTAGTGAATCTAGGTTAGAAAATAATGATGAAATTCTTATTTTTTCAGTTAATTTAGGAAGTTTCATTTCAAATAAAGAAAATTTTGATATTCAATGTCTTTCATGAGCTTCTGGTTCAAAATTTAAGCTTTTAATTAATAAAAAGTTAAAAAATAAATTATCATTATTTTTTCTATTTGACAACAACTTGATAGCTGAACTTTTTACCTTAAAATTAAAATTAATCAAGTGTATTGCTGTTGTAAAGTCATCAAATATTAAAACAGGTTTTTCATTATTTACATATTTGATTCCAAAATTTTCTCTTGTGTAACCTAATATAAATGACTTACCTGCGGTTAACACAGGAATTCCTGACTTTGTATATTTTTCTGATTTAACAATGTAATTCGTTGGTTGTTCATATATAAGTAGATTACCCAACTTTTCCTGTTCTCAAGTGTTTGTTAATTTTAAGTTGTTTTTGGTTTTATTAAAATCAATATAGACTAAAAAATACACTTTAAATTTGTTAATTTAGTTAATATCTAAAATTGATAAAATTGTAAATAGAGGTTAATATGTCAATAAGTACTTTTCATACCTATCTTTTAGATAGCACAGATTATATTAAATATGTCAATAAAAGTTGAACTGGAGTAATATATAAAATTTCAAAAAACTTTATTAATAATGAACAAGTAAAAAATGAAGTAGATCTTAAATCTGCTGGTATTTATTTTCTAGTCAAACAAGATGTTACAAATAAAAGTGTTTATATAGGTCAAGCAGATGTAAGAAATGATAACACAGGAATACTTACAAGAGTACTAGCTCATTTTAAAGAACCAAAAACAAAAGATTTTGATTATGTTTATATTTTAACTAGTACAAATAACTTGCTAGGAGCAACTGAACTTAAATACTTAGAGTATTGTTTTATTAATAGAGTTGATAATAAATTAATTAGTCTAAAAAATGAGAATTCAGGAAGTAAGGGTAATATATCTTTATATGATCAAAAACATTGAGAAGATTTTTTAGATAATACAATTACTATTTTTAGATCTATAGGTTTTGATATTTTTACAAGAAAAATAAATACTAAACAAGAATCTTTAAACCTATTATTGGATAACAAACAAACTAGTAAGAATAGTTATTTTAAAATGGTAAAAAAAGATAAGCATACAAAACAAATCTTAACTGCTTATTGTATAAAAAGAGATGATAAATGAGTTGTTCTAGCAGGTTCTCAAATAAGATTAAATAATAGTAATTTTAATTATTTTAAAAATATGTTCAAATCAATTAAAGAAAAAAGAGATGATTTAATTTCTAAGCAAAAAATAATTAATGGAATATTACAAGAAGATCAGGAATTTAGTTCAAGTTCTTATGCTTCAGTTTTTGTTTTAGGTAGATCTAGTAATGGTAAACAAGAATGAAAACCTTGTAATAAAATACCAGACTTGAGTAATTTATTATCAAAATCAAATAGTATAGATAAAGAAATTTTATATAGAATTTGTAAGAATAGAAGAAATGATAAGAATAAAAAAATAATTGCTTATTGTAAAAAAAACTAATGAAAACAAATTTGTTGTACTAAAAAACTCAGATATTGAAATGATTGAAGCTAATCACTTTAAAACAAAACTTTTACATATTCATAATTTAAGAAAAGAATGTATAAAAAACAAAATTATAGTTGATTATAAACTTTTAGATTATGTTGAATTTAAATCTTTATCTAGTGCTTCATCTTTTGTTTTAGGTAGATCTAGTAATGGAAATATTGACTGAGAAAAACAATAACATGATATAAAAAAACTAGATTCCCCAAATCCCCATACTCCATTTCTATAATTTAGATTTAAAAAAATTCTATTATTATTTATATTTCTAGATCAGAATAACTATTTTACATATGCTATTTTAAAAAAAAGAAAGCTATTTTAAAGATTAAAACATACACAATTAATTTGTAAAACAAGAAATAATTTTAATAATTTATATTTTTGGGTTAACAAAAACAATAAAATACTTTTTTAAAACTTTCATAATTAAAATTACAAAATAAAAATGCATTATTAAAAAAGTTATATTACTTTAATAAAAATAATTCTTTTAAAAAAGAGTAGTTTTTTTAGAATATAAAAAAATCGTTGCAAATAATTTTAGAGTCTACTATTGTTTTTATAGGTAAATAGTGTTACATTTGTTTTTAAGAATTTGTAGCCCTTTGTTAAAATACTATAAATTCAACAAAAATAATTTACATGTTTTAAGTGTGTGGTTATTTTTACATAAAACCTAAATTAAAGATAAAGTTTTATCTAAATTATAGAAAAAAATAATCCTATGAAAAAACATTCTTATTTATACAAGTGAATATTAATTATATGATTTATTATTTCACTTTCTATCACAATACCTCTAGTATTTAAATTTATACATCTTTTTAATGCTGATGATAGTCATTCTTTAACTACTAAAATTATAATTGCTGTTTTATTAACTATTAATGGAACGATTTTTTGTTTATTTTGATTAAAATCAACACGAGATTTAATTTTTTCTCTATTTTTCATTATCAAAAAAAAGAGTTTGTTGAAACTATATCACCCAATTACAAAAACTAAACTTAGAGAGAATTTTTTAAGTAAAAAAGTAGTTGTATTGTATTGTACTTGTGATGACTTTAGTAAGGATGCTTTATTAAGATCAATGAATCAAGATTATAAGAATTATGAAATAGTAATACTAGATGATAGTAAAAAACTAGAACAAATTAAAGAAATTGATGAATTTAGTAATCAATATAACATTAAAGTTATTAGAAGAACAAACCGTATTGGTTATAAAGCTGGTAATTTAAATAATTATTTAAAAAATAATCCTGATTATGATTATTTTGTTGTTTTAGATAGTGATGAAATTATTCCAAATAACTTTATAACTGAATCTTTAAAGTATTTTCAATTTGATGAAAAAATTGGTGCAGTTCAGGCATATCATGCAGCAAGCAAAGGTAAAAACTTATTTCAATATTTATTAGGAGATTCTAATAATAACACAGCACTTTCATTTCATATTATGAGAGATATTTTTGGAGAAACTTCTTTACTTGGACATGGGATGATTTTAAGCAAACAAGCTTATGAAAAAACAGGAGGATTCCCACATTTATTAGTTGAAGATACTTCTATGTCAGCTGAACTTAAAAAACAAGGTTTTAAAATAGCTTATGCATCAAACATTTTATGTTATGAAGATTTTCCAACTAATTATATTGCTTTAAAAAAAAGACAAAGTCGATGAACTGCTGGTAATGTTCAATATATAAGAAAGTATGGCAAGCAAAATAGAAAAATAGATTATAAATGATTTGAGAGAATAGATTTATTATTAAATCATTATTCTCTTCCATTAGTCCCAATATTTGGATTTATATTTTTAATAAACTTCATTATTTTAGGTTTCATAGATTTTCAGGCTAGATTTTATGAAACTGCTTTTATAATTATTTGAATTTTATTTTTATTATCTCCAATTTTAGTAAATGCAATTCATCATAGTAAGAATAAAAAAATAATTTGAATTATTCCAAATTTTATTGCAACAATTGCTACTTACACCAGTCTAACTATAACTTTACTACTATCAGTTTTTTTAGCATTGTTTAATAGAAAACCTAAGTTTATAGTCACTCCAAAAACGAATACAAAAATCTCTTTAAAATATATAATATTGCATTCGCTAATTCCTATTTTATTTGGTGCAGTTGTAATTCTTTTAACTTATTTTTCTTGAGATTCAGTATTACCTACATTAGTAATCAGTTTGCCCTGTTTATTAACACCATTTATTATTCTTTTTTCAAACTTTAAAATAAATGCAAAATAATTTTAATAATTTAATATTACTAATTTAATTACTCACTTTTTATAGAAAAAATGTATAATATTTTTTAGGCGATTTTTATTGTGGGAGAACTTATTTTTATAATTCATATGAACCACAGCGGATAAAAAACGACCTTAAAATTATAAGGAGAACAAATTCGTGGCTAAAAAAATCACACGTGTAGCTAAATTAGAATTTATGGCTATGCAAGCAAAACCTGGTGCAGAATTAGCTTCACTAGGTATTAATATGCCTGCATTTACTAGAGAATTTAACGATGCTACTAAAGATAGAGCAGGAGATGTAGTTCCTGTTGTTATTACAGCATATGATGATAAATCATTTGACTTTGTTTTAAAAACTACACCAACAGCATATATGCTAAAAAAAGTTGCAAAAATTGAAAAAGGAGCAAGTAACTCTAGAACTCAAACTGTTGCAACTGTTACACTAGATGATATTAGATCTATAGCAGAATACAAAATGCCAGATTTAAATGCAAATACTATTGAAGCAGCTATGAAACAAGTTATTGGAACAGCTAAAAATATGGGAATTAAAGTTACTGGTATGGAGGACTTTAAATAATGGCTAAAATTAGTAAAAGATTCAAAGAAGCTTTAAGCAAAGTTGAAAAAAATAAAGTTTATCCATTAACTCAAGCTCTAGATTTAGCAAAACAAACTTCTACAACTAAATTTGATTCAACAGTTGAAATTGCATTTAATTTAAATATTGATCCTAGAAAAGCTGATCAACAAATTCGTGGTGCTGTAGTTTTACCAGCTGGAACTGGAAAAACTCAAAGAGTTTTAGTTTTAACTAATACTAAAACTAAAGAAGCTGAACAAGCAAAAGCAGATATTGTTGGTGGAGAAGAACTAATCAATAGAATTAAAAATGAAAACTGATTTGATTTTGATATTATTGTTGCTACTCCAGAAATGATGGCAAAATTAGGAGCAATTGGTAAAATTTTAGGTCCTAAAGGATTAATGCCAAACCCAAAAACTGGAACTGTAACTTTAGATGTTGCTAAAGCAGTTGATGATATTAAAAAAGGAAAAGTTGAATATCGTGCTGATAAAGAAGGAAATATTCATTTAATTATTGGTAAAGTTTCATTTGAAATTGAAAAATTAGAAGAAAACTTTAAAGCAGTTGTTGATGAAATAAGAAGAGTTAAACCTCAAACTGTAAAAGGTGATTACATTAAAAATGTAACTTTATCAACAACAATGGGTCCTGGTATCAAAGTTGAATTTTAATAATTAAACAACTCATATATGTGAGTTGTTTTTTTGTAAATAAATATAAACATAATAAAAATAAATGATAATATTATATTGCTATTAATACCTAAGACAGTAACGGGGAAATTCCCTTAATCATGTTACCGAGGAAAAGACTTGTTTTAAAAAACATTTTTTGTTTTGTCCTTGGTTTAGTGTTACTAGCCAAGGTTTTTATTTTATTTAATAAAGGAGGAGTCTAAATGTCAAATTCAAGACCTGCTCATGCACGTAAAGCTGAAATAGTTGCTGAAATTGTTTCAAAAATTAAAAGTGCTCAAGGTGTTGCAATTGCTGAATACAAGCATTTAACAGTTGCTAAAATGACTGAATTAAGAGTTCAAGCCTTAAAACAAAATATTGATATTAAGGTTTATAAAGATTCACTTGTAAGAAGAGCTGCTGAAGAATTAGGTTTAGTTGATTTAATTCCATTTTTAACTCAACAAAACGTGTTTATCTTCTCAAATGAAGATTCAATTTCTGCAGCTAAATTAGTTGCAAATTTTGCTAAGAAAAATGATGCTCTTAAATTAAAAGCTGGTATTTATGAAGGTAAAGTTGTTGATACTGCTGGAATCAACGAAGTTGCTTCATTACCATCAAAAGAAGAACTATACTCAATGTTTGCTTCAAGCTTACTATACCCATTGAGAAAAGTTATGGCTGCTATTAACGCAGTTGCTGAAACTAGAAATTAATAAACTATACAATTATTCCGTATTAGTAGCAAGATTTTAAACAATTTATATATATAAAGGAGAATTAATATCATGCCAATCACTAAAGATGAAATTATTAAAGCATTAGAAGAAATGAAATTAAACGAATTAAACGAATTAGTTAAAGCTATTGAAGACCACTTTGGAGTTGTTGCATCAGTTGGTGTTGCAGCTGCTGCTCCAGCTGAAGCTGCAAATGCTGCTCCAACTGAAGTTTCAGTTGTTATGACTTCAGTAGGACAACAAAAAGTTGCAGTTATTAAAGTAGTTAAAGAATTAACTGGTGTAGGATTAATGGATGCTAAAAAAATTGTTGATGGAACAATGCCTGTAACTATTAAAGAACACGTAAAACCAGAAGAAGCTGAAGAAATGAAAGCTAAATTAGTTGAAGCTGGAGCTTCAATTGATTTAAAATAATCAAATTTTTGAATAATTTTTAAACTCACCATAATGGGTGAGTTTTTGTGTGTTTAATTGCTTTTTATACTAAAAAAAAATATAATTAAATAATCGAGTGTAGTTTAGTTGTTAAGAGCTTCTGCTATGCTCTATCTTATTTTTTGGTCAACTATAAAAGGATTAAATCTATGAGTTTTGACTATTTTTTAAATAATAAATCACTTAATAAAATTAATAGAAAACTTGAAAATAATATATTCAAAACCCCTTTGCCTTACTCGTTAAAATCTAAATTTAATTACAACTTCATAGATAAAATTTCAAAAGATCGGTTTTTAAGTTACTATACTAAAGCTTTTTATGATGATTTTTTAGAATCTAGTGTTGAAAAGAAACTAAAAACATATGAATTAGCATTATTAGTAATGAATGAAACTAAAACAGATTTGGATTTTTTATCTGTTTTAAAAATATTTAGAGATATTAAAAAAGGTAAGACTCCTACTAATTATTTAGAACGACTGATTTTTAATATTATTTATGCTTATGAATATATTAAAAAACCTAAAGTTTTAATTAATGAAGAAAATTTAGAAATGTTAATTAGTATTTTATTAGTAGGTTTAGAATATGATCTTGATTTAAAAACTAATTATTATAGAACACCAAAAACTAAGACATTAATTTCTAATGTTTTATCTAATCAATTGATTAGTAAAGAATTAGAAAATTTATTAGACTATTTAAAATTTTTACAAGCAAATAACTTATGTACTTATAGTCAGACTTATTTAATATTTAGTACATTAGTTTTAATTTCACCTTTTCAAAAATATAATTTAATATTTGCAACTTTATTAAGTCAGTGAATCTCATTTCAATATAATAATTCATACAAATTAGTAATTCCAATTTGTCATTTTTTAAAAAATCAAAATGAATATATGTATGAATTAGAAAATCTTTTAAACAATGATTTTAATGCTGATAAATTAATTAATCTTTTTAATATTGATTATTTAAAAAATATTAATATGTACAATCATGCAAGCTGTATTTATAAATGAGTTAAAAAAGATAAAAAAAGGTTGTTTATATTTGAAGATGATCTTAGTTTTTTTGTTTTAATTTTAATTTTACAAAATACTAAAAACTTATCTTTTAATAACATTAAAACTTTATTAACAATTAATAAAATTAAGTTATTTACAGATGAACAAATTAAAAGCACATTAGCTAATTTGATAGCTAATCAAGTGTTACAAACAACAAGTACTAGTGTTGTTAAATACGTATTAGTTGATAAATATTTAGAAAAATCTAAATATTTAGTTAATATGAAAGGACTATACAATGGCTTATAAAATTAGAAAAATTAATCGTAATGTAGAACGTCGTGATTATACTAAAGTGTCAATGAACCTTTCTCTACCAAACTTAATTGGTATTCAAACTGAAACTTTTGAATGATTTAAAACTAAAGGAATTCAAGAAGTTTTAGATGAATTTTTCCCAATTTTATCATTTGATGGATCAAGTGTTTTAACTTTAGAAAACTGAGGGTTTAAAGAACCTAGATTAAGTGTAAGACAAGCTAGAGAAGAATCAAAAATTTATGATGCACCAATTTATGCTAATCTAAAATTATCAGTTAATAAAACAGAAGAAATTCAAAAAGAATTTGATGGTGTTGTTTTAGATGATACTTTAAAAATTTTAACTAATTGATTAGAAGAAAAAACTGTAAGTAAGAACATAACTTTTAAACAACAATCTCAAAACTCATACTTTTTTGAATTAACTATTAAAAAATCAGATAAACCAGATCTAATTCAAATTGATATTATTGAAGATAAAAAAACTTCATTGATTTGTAATGTTTCTATTTATAAATCAGGTGAAGTGTTTTTAGGTGATTTTCCATTAATGACAGAAGCTGGAACTTTTATTATTAATGGTTCTCAAAAAGTCATTGTATCTCAATTAGTAAGATCTCCAGGAGCTTATTTTAATAAAGAATTAAACCGTAAAACTGGTGAGATGATTTATTTTGCAGACATTATTCCAAGTAGAGGAACTTGATTAGAATATGAAACTGATTCTAAAAAAACTGGAGCTGATGCAATCAATCCTTTATATGTAAAAATTGATAAATCAAGAAAAACTACAGCTACTTCTTTATTATTAGCTTTTGGTATTAGTAAAGATGATATTTTAGATATTTTTGATAATGATGAAGTACTAGTTGAAACTTTACAACAAGATTCAATTATTGGTGATTTTAAAATAGATTGATCAAATCAAGTCCAAGAAATTTATAAAAAAATTAGACAAGGTGAAACTGCAACTAGTGAAGGTGCTTCTAAATTTATTAATAGTATTTTATTTGATAAAAGAAAATATGATTTAACTAAAGCTGGAAGATTTAAACTAAAACAAAAATTATCAATTAAAAATAGAATTTTAAATAGAGTAATAGCAGAAGATGTTGTTGATGCTAATAATAATGTATTAATAGCTAAAGATACTGAAGTTAATAAACATAATATTAAACAAATTAGTGAAATATTAGATCAAGATGTAATGAGTGTTGATCTAAATTATTTATCAGATATCCCAGGAACTAGAAAAGTTCAAAAAATTAAAGTTTATAAAGATAGTGAATTAAAAACTGATACTACTTGTTTAATTGGTTTAACTAGTTCATCTAATGAAGAATTTATAACTGTAGCTGATATTTTATCAACTGTTTCTTATTTATTAAATTTAAAATATAACATTGGTGAAATTGATGATATTGATAATTTAGGAAACAGAAGAGTTAGAACTGTTGGTGAATTATTACAAAATCAATTTAGAATGGGATTAAACCGTATTGATAAAAATGTTAAAGAAAAATTAGCTACAAGTGATTTGTATAAAGTTAAAACTTCAACAATTATTAATGCAAAACCTTTAACTGCAATTATTGGTGAATTTTTCAATTTATCACAATTATCTCAATTTATGGATCAAATTAACCCATTATCAGAATTAACTAATAAACGTAGATTAACAGCTTTAGGACCTGGTGGTTTATCAAGAGATAGAGCTGGATTAGAAGTGCGTGACGTTCATCCTTCTCATTATGGAAGAATTTGTCCTATTGAAACACCAGAAGGACCAAATATTGGATTAATTAATAACTTGTCAACTTATGCAAGAGTTAATGAATATGGATTTATTACAACTCCATATAGAAAAGTTATTAATGGAATTATTCAAAATGATCAAGTTGAATATTTAACAGCTGATCAAGAAAAAAACTTTATTATTGCTCAATCTAATGTTAATCAAGATGAAAATGGAAAAATTTTAGATGAAATTATAGTTTCACGTTTTAATGGTGATGACTATATGGCTAAAGTTGAAGAAATTGATTATATTGATGTTTCTCCAAAACAAATTGTTTCAGTTGCTACAAGTGGTATTCCATTTTTAGAAAATGATGATGCCAACCGTGCTTTAATGGGTGCTAACATGCAACGTCAAGCAGTACCTTTAATTAGACCAGAATCACCAATTGTTGCTACTGGTATTGAATTTGAAGCAGCACGTGATTCAGGTGAAGCTATTGTTGCAAAAGAAGATGCAATCGTTAAATATGTTGATTCAAAAACTATTATTACTGATGGAGAATCTGGAATTAGAACTTATATTCTATCAGATTATGAAAGATCAAATAATGGAACTTCATTAACTCAATCACCAATTGTTAAAGTTGGAGATGTTGTTAAAAAAGGTGAAATTATTGCTGATGGTCCATCAATGGATCAAGGTGAATTAGCAATTGGTCAAAACGTGGTTGTTGCTTTTTCAACTTATAATGGATACAACTTTGAAGATGCTATTGTTATGAGTGAAAGAATTGTTATAGATGATCGTTTTACTTCAATTCATATTGATGAATATACTTTAGAAGTAAGAAATACAAAACAAGGTCAAGAAGAAGTAACTAGAGAAATTCCTAATATGTCAGAACAAGCTAAAAGACATTTAGATGCTGAAGGAATTGTAGCTATTGGTACTGAAGTTAAAGTTGGAGATGTTTTAGTTGGAAAAGTAACTCCAAAAGGACAAGTTCAACTTTCTCCAGAAGATAAATTATTACATGCTATTTTTGGTGAAAAATCTAGAAATGTTAAAGATAATTCATTAAGAGTTCCAAATGGTGGAGAAGGAATTGTTCAATCAATTAAACGTTTTAAAGCAAAAAGTGCATTAAATCCTGATGGAATTGAATTACCAGCTGACATTATAGAAGTAATTAAAGTTTATGTTGTTCAAAAACGTAAAATCCAAGAAGGAGATAAAATGTCTGGTAGACATGGAAACAAAGGTATTATTTCAAGAATTTTACCTATTGAAGACATGCCACATTTAGAAGATGGAACACCAGTTGATATTATCTTAAACCCACAAGGGGTTCCTTCACGTATGAACATTGGACAAATTTTAGAAATCCATTTAGGAATGGCTGCTAAAAAACTAAATCAAAAAGTTATTACTCCTGTTTTTGAAGGATTAAATGAAAAAGAATTAGAAGAAATAATGGCTGAAGCTGGAATGACAAATTATGGTAAAGTTACTTTAATTGATGGTCAAACTGGTGAACCATTTGATAAACCAATTGCTGTTGGAGTTATGTACATGTTAAAACTATCTCACATGGTTGATGATAAAATTCATGCACGTAATGTTGGTCCTTACTCATTAATTACTCAACAACCATTAGGAGGAAAAGCTCAAAATGGTGGTCAACGTTTTGGAGAAATGGAAGTTTGAGCTTTAGAAGCTTATGGAGCTGCTCATACACTACGTGAAATTCTAACAATTAAATCAGATGATATTAAAGGTCGTTCAAAAACTTATGAAGCAATTGTTAGATCAAAAAGAATTCCTGAACCTGGAATTCCAGAATCATTTAACGTGTTATCAAAAGAAATTATGGGTCTAGGATTTAATATGTATATGATTGATGAAACTGGTGAAAAATCAGTAATTAATGCATATGATAAAAAAGACTTTGACGCAGATAATTATGAAGATGATGAAATTTTAGTAAAAACAGATACTTTATATATTGATGATGAAGATGTTGATGCTGAATTTGAAGATCTAACTTATGTTGATGAAAATGATATTTTAAGATCATTTGAATCAGAAAATGATATTGATGAAGAAGAATAATTGGGGGAAATATGGAAAATCTAAATCGTAAAAAAGCAATAAAAATTGAATTAGCTAACCCTGATACAATTCGTTCATGATCACATGGTGAAGTTTTAAAACCAGAAACTATCAACTATAAAACATTAAAAGCTGAAAAAGATGGGCTATTTGATGAAAGAATTTTTGGACCAACTAAAAACTATGAATGTGTTTGTGGAAGATATAAAAAAGCCAACCCTATGAATAAAGGGAAAAAATGTGAAAAATGTGGTGTTGAATTAACTGAATCAATTGTCAGAAGAGAAAGAATGGGACATATTGAATTAGAAGAACCAGTTACTCACATTTGAATGTTAAAAGTTGCTCCTTATAGAATTGCTGCAATTTTAGATCTAAAAGCAAAAGAACTAGAAGAAGTAGTTTATTTTGTTTCACATATTGTTTTAGAACAAGGAAATCAAAAACATTTTATTGAAAAAGAAGTTTTAGATTTAGGTTCATCAAGAATTACTAAAACTAGAGAAAAATTACAATTAACAATTTTAGATGTTATTGATCTAATTAATGATCCAAATCATAGAGATACAAAAAAAGCTAATAGATTATTAGAAGAACTAAAAAATACTGCTGTGCCATTTTCAATTGATGAAGCTACTAGTTTAATTAGTAAATATACTGGTGCAAAATTTGGAATTGGAGCTAGAGCTGTTGAGTATCTATTAGAAAAAGTAGATCTAAAAAAAGAAATTGAGGCCATTAAAGTTCAACTTGAAAATTCTAAAAAAACCCCAAATGAAAGAACTAAATTATTAAAACGTTTAGAAACTTTTGATGCTTTAAAACGTTCTAACCAACGTCCTGAATGAATGGTTATGAGAGTAATTCCAGTTATTCCACCAGACATTCGTCCAATTATTCAATTAGATGGTGGTAGATTTACTACTTCTGAAATTAATGATTTATATAGAAGAATCATTATTAGAAATGAAAGATTAAAAAAAGTTAAAGAAATGGGTGCGCCATCAATTATTGTAAATAACGAAAAACGTATGTTACAAGAAGCTGTTGATGCTCTATTTGATAATGAAAGAAAACCAAAACTAGTTCAAGGTAAAAATAAACGCCCATTAAAATCTTTAACTAGTGTTTTAAAAGGAAAACAAGGTCGTTTTAGACAAAACCTATTAGGAAAACGTGTTGATTATTCAGCTAGATCAGTTATTGCAATTGGACCAGATCTAAAAATGTATCAAGCAGGTTTACCAAGAGAAATGGCAATTACTTTATTTAAACCATTTGTTATTCAATGACTTCAAGATCATGAGTATGCTGAAAATGTAAAAATAGCTGAAAAAATGTTATTACAAAATGACCCAAAAGTTTGAGAAGCACTAGAACAAGTAATTAAAGATCGTCCAGTTTTATTAAACCGTGCACCAACTTTACACCGTTTAGGAATTCAAGCATTTGAACCTAAATTAGTTAAAGGAAAAGCAATTCGTTTACACCCACTAGTTACAACTGCATTTAATGCTGACTTTGATGGTGATCAAATGGCAGTTCACGTTCCTATTACAAAAGAAGCTGTTGCTGAATCAAGAGCTTTAATGTTAGGATCAAGTGCAATTTTAGGACCAAAAGATGGAAAAGCTATTGTTACTCCTGGTCAAGATATCATTTTAGGAAATTACTATTTAACTACTGAAGAAAAAGATGCTCAAGGTCAAGGAATGATCTTTTCAAGTTTAGATGAAGCATTTATGGCTTATAAAAGCAATCAAGTTCATTTAAACTCATTAATTGGAATTGCTTTATCAGCTTTACCTGAACAAAAATTTAGTGATAAGAATCAAAGACTAAATTCTTATTTATTAACAACTGTTGGAAAACTTTACTTTAATCAAATTTTTGATGATAATTTCCCATGAATTAATTCAAATAATATTTGAAATGCTAAAGAAGCAGTTAAAGAATTTATTTATGATTTTTCACAAGACATTGATAAAGTAATTGAAAATGTTCAAGTTCAACAGCCAATCAAGAAAAAAGAATTATCACTAATTATTGAAAGATACTTTGAAACTCATGGAGCTAGAAAAACTGCTGAAATGCTAGATAAAATGAAAGATCTAGGATTTAGTTTTTCAACAAAATCAGGAACTACAATTTCAGCTGGAGATGTTGTTGCTTTTACTCATAAATATGATGAATTTAAACAAGCAGATCAAAAAGTTGAACAAATCACTGATTTTTATAACATGGGTATGTTAACTAATAGTGAAAAGAAACGTAGAATTATTGAAGTTTGATCTGATGTTAAAGATAAAATTCAAAATGAATTAGCAACAGTACTACGTAAAGATGTTAAAAATCCAATTTTTGTAATGGTTGATTCAGGAGCCCGTGGTAATGTTTCAAACTTTACTCAATTAGTTGGTATGCGTGGATTGATGAACGATACTAAAGGAGATATTAAAGAAATTCCTATTAAATCATCATTCCGTGAAGGACTAACAGTTTCAGAATATTTCGTTTCAACTCATGGAGCTAGAAAAGGTATGGCAGATATTGCCTTAAAAACTGCTGACTCAGGTTATTTAACTAGAAGATTAGTTGACGTTAGTCAAGAAATTGTTGTTGTTAATGAAGATTGTGAACCAACTAAAGGATTTGAAGTATCAGCTATTATTGATACAAAACACGATAATGTTATTGTTCCATTAAAAGATAGATTAGTTGGAAGATTTACATTTGAAGACATTTATGATGATAATAAAAACCTAATTGTTTCTGCTAACACATTAATTGATAAAAATATTGCTGACAAAATCATTATGGCAGGTATTAGTTCAGTAATTATTAGATCAGTTCTAACTTGTGATAACAAACGTGGTGTTTGTCAAAAATGTTATGGACTAAACTTAGCTACTGCTTCAGTTGTTAATATTGGTGAACCAGTAGGAGTTATTGCTGCTCAATCAATTGGAGAACCAGGAACTCAATTAACAATGCGTAACTTCCATACAGGAGGAGTTGCTGGTAATGTTGATATTACTCAAGGACTTCCTCGTATTAAAGAATTATTAGACGTTACAACTCCAAAAGGTGCTGTTGCTATAATTTCTGAAGTTGATGGAGTAGTTAGTGAAATTGAAGATTATAATGGTGTATTTGTAATTAATATTGTTACTGAAAATGAAGAAGTTAAAAAATATAAAACTGAATTTAACTCAGTATTACGTGTTGAACAAGGATCAAGTGTTGTTGCTGGTCAAAAATTAACTGAAGGAGCTATTGATTTACACCAGTTATTAGAATTTGGTGGAATTCAAGATGTGCAAAATTACATTTTAAAAGAAGTACAAAAAGTTTATAGATTACAAGGTATTGAAATTTCAGATAAATATATTGAAATCATCATTAAACAAATGTTAAATAAAGTAAAAATTACTGATAGTGGTGATTCTGATTTATTACCTGGAGAAGTTATTACAATTCAAAACTATAAAGAAGTTGTACAAGATTGTATTGTTAAATCAATTAGACCACCTTTATCAAAAGCTCAAATCTTTGGTATTAAAAAAGCACCTTTAGAATCAAGTTCATGATTATCTTCTGCTTCATTCCAAGATACTGCTAGAGTATTAACTAGAGCAATTATTAAAGGAAAAGAAGATAAATTAGAAGGACTAAAAGAAAATATTATGTTAGGTAATTTAATTCCAGCTGGTACTGGTTTAACTGGAACTCAAGAAGTTGAATTACTAGCTGAACAATACCATAACAATGAATATTAATAATTAAATCTCATTTAAATGAGATTTTTTTATTTTAAAAGATTAGTATAATTAATACATATATAAAAATGTTATTTAAAAATTATGAAAAAGATTTTAAGTTTAATCAGTTTATTTAGTTTAATTACTAGTTCGTCTTTATTAGTTATTAGTTGTACTAATAACTATTCAAACACTAATAAAATTCCAACAATTCCAAACACTAATAAAAAACCTGGAATTAAACCAGAAATTCCAAATCAAAGAATTCCAGAAAATGTACCAAATTCTAGTGACAATAAACCAGAAATTCCTAAAACACCTGATAACAATAATCTAGACCCTAATAATCAAAATAATCACTCAAACGATCAATCAAATCCAAATTATACAATTCCAAATAATATAACTAAATTAGTTTATGAACCTAACAAGATTTATGAATCTGAAAAAAATCCTGAGTACTTTAAAGATTCTCACTTATTTAGTTCAGACTTTTTGTTAAACAATTCAGCTTATACAATTAGTAGATCTACAAATAAATTTCATACTGGTACACATAATATGAATGTGTTTTTAAAAACTGGTAACTATAATAATCCAGTTGATTTTAGAAGTATTTATAATTCAAATACTGATAATGAATTTTGAAAACATACAAAAGATATTGGTTGGTATGGTGATTTTGGAAATTCAAAAGAAGAAAAAATTGATTTTTATAATGACAATATATCAGTTGATGGAATGGTAAAACAAGCATATTTGAAAAACTTTGAAGAAAAAGAAATTGGTTCTAGTAAATTTTTAAACTTTGATTTTAATAGTTTTATTTTAAAAAATCCTTTTGGATTTTTACCATCAAACTTAAGTCAGTTGTTTTATTATATGAATTTTGAATCGATTTCTAAATTGTTTAAGATAAATAATATTCTAAAAATAAGAGCTAATTTTGATGATGAAAAAGGTGAATTTGAAGTACTAATTACTGATAAAAACAACCAGAATTATTATCAAAAAATTGATCAATCTATCACTAATTCATTAAAGAAGAACTTAGATTTTTATCAATATATTTATGATAGAAGCTTTTCTATTTTAGTTGGAGTAAACAAATGAGATAGAGATGAATTCAAACTTAGAGATGATATGCTTTCAAAAGGTTATCAAGGTGGAACTGCTTGAGTTTTAGATAGAATTATTAATGAACAAGCTGAAAAAGAAGGATATTGAGAGCTTTTATTAGCAACAAATATTCACGTATTTAGTTTCAATAAAACTTTTGATAAATCACTTTATTTTGAAAAGAATAGTAAGAGAAAATATCATGATAGTTGAAAAGGTAGTTTTTTTGATTTTACAAACTACTCTGATTCTAAAAAAGCTGAATTTATGACAACAAGAGCAAAAGAAACATTATTAAAATCTAGTATTATTTCTGATGTTTCTGATTTTAAACCAACTTTTAAAGCCGAAGAACAATATTTAACTGCCCCTTACTATACACTTCGTTATAAGGTCTCAGGATTTAAAACTGATACTCCATATGCAGGCTTAGTTAATTTAGAAGATTTTAATGAAGCTACTAGAATTGGATCAACAAAAAATGGTGGAGCTGATTTTGTAATATTAAGATTAAAAATTAAAAAAGAAAAATTAGAATACATATTACCTGAATTAAATAAAGTGATTGATAAACCTGAAGAAAAAAACTGGCACATAGGTTTAGGAAAAAATGAATTATTTACTCCATTAAAAACTCAATTTTATGCAGGTTATCCTTCTTTAAAGAGATATGCAGACTATAATGGGATTTATCAACCACTTTATGAATTTAAGGGTAATAAGTCAATTGGTGGAATTATTAGTACTCAAAATAGATATGTTAATGAAGGTAATTTTCAAAGTTTATGAACTAAGTATGATGAAAAAGAAAATAAAGACTGAAATTCACATCATGAAAATTGAAAAAAGTATACTGAGCCATTTATAAAAGATCAACATGGAATGGTTAAAACTGTTTTAGCTCAACATTCATCTTTATTTACTAGAATAGAAAAAAATGAAGATCATAAAGCTTTAGATGAAGGCTCATCTGGATCAATGGCTATTGATTCTTCATTTAATTTAATTGGTATTAATTATTTACTTACTAAAGATGATAAACATAATACAATAACAAATGGAATTAGTTTAATGCAAGGTCAAAGTACTTATGAAAATGGATTTGATGGAAACATAAGAACTGATTTTATTAAAAAATTAAAAAAAGATAACTTAACTACTATTAAATTAAATCCAAATAAAAAATAGCTAAAACTCTAAAGTCCAGCTATTCCTGTATCTAGTACATAAACATTATAATAACCAAGTTTGTTTAAGTGTCTAGCTGTTAAACCTGATCTGTTACCGTGATTACATACAAAAATTAGTTTAGTATCTAAATTAGGTCATCTCTTATTAACGTTATCTAAAACTTCTGGATAAGAGATATTAGTACTTGGTAAAAATTTTTCAAAATTTTCATATTCATACTTATCTCTAACATCAATTACTTGTCAACCTTTATCCAATAATTCAAAAAATTTATCATTAGAAATTTCAATAGAATTTTTCATTAAGCTCACCTAATAATATTTTACTTGCTAAAAATTCTTAAAAATATTATTGTAAAATATTTTAAAAGAGAGGTTAGTATGTCAAATCGAATTTATATAGGAAACGATCACAGTGCAGTTGAAATGAAACAAGCAATTGTAAAACATTTACAAGAAAAAAACTATGAAGTAATTGATCTAGGAAATAATGATGGTAAATCTTGTAATTATGCAAAAATAGGTCAAGTTGTAGCTGAACATGTTGTAAATGATACTAATAGTAGAGGTATTGTAATTTGTGGAACTGGAATTGGTATTAGTATAGCTGCTAATAAAGTTAAAACCGCAAGAGCTGCTTTAGTTTATGAAAAAGAAACAGCTGAACTAGCAAGAATTCATAATGATGCAAACATCTTAGCATTAGGAGCTAGAATTATAGCAATTTCAAAAGCTATTAATCTAGTTGATGTATTTTTAAATACACCATTTGAAGGTGGAAGACATATAGAAAGAGTTAATACTTTAAATGAATACAAAAATTAATCCATTAATTAAAGAATCATTAAATAAAGAATTAAAAAGACAACAATCTCATATTGAATTAATTGCTTCTGAAAACTATGTTTCTCAAGCTGTTTTAGAATTAAATGGTTCTGTTTTAACTAATAAATATGCTGAAGGCTATCCTGGTAAAAGATATTATGGTGGTTGTGAATTTATTGATGAAATTGAAAGTTTAGGAATTAAAACAGCTAAAGAATTATTTAATGCTGAGCATGCTAATATTCAACCTCATTCAGGAAGTCAAGCAAATGATGCTGCTTATAAAGCTTTATTAGAACCAAAAGATCGTGTTGTTGCTATGAGTTTAGATGCTGGTGGTCATTTAACTCATGGATATCATATTAACTTTTCAGGAAATACTTATGATTTTAGATTTTATGGAGTTAATAAAGATACTGAACAATTAGATTATCAAGAAATTGAAAAAATTGTTTTAGAACATCAACCAAAATTAATTGTAGCTGGAGCTAGTGCTTATTCTAGAATTATCGATTTTAAAAAATTTAAAGAAATTGCAGATAAAGTTGGAGCTTATTTAATGGTTGATATGGCTCATATTGCCGGACTAGTAGCTGCTGGAGTGCACCCAAATCCAATGGAATATGCAGATATTGTAACAACAACTACTCATAAAACTTTAAGAGGAGCACGTGGTGGATTAATTTTATGTAAACAAGAGTTTGCAAAAAAAGTTGATTCAGCAGTATTTCCTGGTTCACAAGGTGGTCCTTTAGAAAATCTAATCGCTGGAAAAACTCAAGCTCTTTTAGAAGCTTCAACTGATGAATTTAAAGAATATGGAAAACAAATTGTAAAAAATACTAAAGCTTTAGCTAATGTTTTACAAGAAAATGGTTTAAGACTAGTTGCTGGTGGTAGTGATAATCACTTAATTAATGTTGATGTTAAGTCTACTTTACAAATTACAGGTAAAAAAGCTGAAAAGATTTTAGAATCAATTGGCATTATTTGTAATAAAAATATGATTCCATTTGATACTGAAAAACCTTTTTATACTTCTGGAATTAGACTTGGAACTCCTGCAATGACAACTAGAGGATTTAAAGAAGAAGAATTTAAACAAGTAGGATTAATTATTGTTAATGCTTTAAAAGATCCATCAGAAGAAAATTTAGAAAAACTAGCAAAGCAAGTTAATAGTTTATGTGAAAAATTCCCAATATATCAAAATATTAAATACTAATTTTAAGTACTCTTTTTTTGAGTACTTTTTTTAAAAAAATTTGCTAATTAGAATTATTTGTTATACAATCATTCGAGCGCATAAAAAAGGAGAACATATTATGGCATTTACAGAAATTAAACATCCACTGATTATAGATAAGCTAACTAGAATGAGAAAAACTGAAACTTCTTCAAAAGATTTTAGAGAAAATCTAAACGAAATAGCTCAATTAATGGTTTATGAAATTTTTAGAGATTTAAAATTAGAACCAGTTGAAATAACTACACCAGTTGCAAAAACTACAGGATATACAATTAATCAACCAGTAGTTTTAGTTCCAATTTTAAGAGCAGGAATTGGAATGTTAGATGGGATTCAAAAATTAATTCCAACAGCAAGAATTGCTCATGTTGGTTTATATAGAGATGAAGAAACATTAGAAATTCATCAATATTTTGCAAAAACTACTAAAGATATTGATAAAAGTTATGTAATAGTAGTTGATCCTATGCTAGCAACTGGTGGAAGTGCATGTAAAGCAATAGATATTGTTAAACAATGAGGAGCTAAAGAAGTTAAATTTGTTTGTTTAGTAGCTGTAGAACCTGGTATTAAAAGGCTGCAAGAACAACATCCAGATGTTGAAATTTATGCAGCTTCAAAAGATGAAAAATTAAATGAAAAAGGTTATATCGTTCCAGGATTAGGAGATGCTGGAGATAGAATTTTTGGAACAAAATAATTCATATTTATAAATGATACATTATGTATCATTTTTTTTATTTACTCTAAGTTATACACTTTAAAAAATAAATGTTTTTTTTAAAAAGAGAGTAGAATATATATAAGGAGTTTCATATTTCAAGAAAGGTTCATTAACAATGTTAAAGCAGATTTTTTTAGATAAACAACTGAAAAAAGCTTTAATATTTAACACTGTTTGATGATTGATACTTATTATAATTTTTATAGTATTATCAGTGATTAAAACACTAAATTGGATTAATTTAATAAGTTTAGTTATTGCTTATTTTTGCTCATATATAGCAATATTTTTATTGTTTTTAACTAAATTATTAATTATAAAATATCAAAATCCTTATTTAGTTTATTTAATGTTCCTTTTAAGAATAGGTATATATGTTATTCCACTTTTTATTGCTTTGTTATTAAGTGATGAAAATATTTTTAGTTATTTAGGTATTTTAATTGGTTATAGTTCAAATCTAGCAATACCATTTTTTATACATAAAAGACTAGAAAAGAAAGGAGGAACTTAATGAAACTAGTAACTTTTGCATCAATAAAAGATAATTTAGCTACTTGAAATAAATTTAATGGAATTTTAATAACAATTCTATTAGTTGTTATTATAGTTTGTACAATTTCAATTATTTATAATAAAAAAGTTAGAAATTATAATATTGATGATAAAATGCCAGGCTTTTTAGTACTAGTAAATGTTTTTGTAGCAAGTGTTGAAAATATCGTAGTTTCAATATTAGGTAAAAAATATCAAAAACTTACACCTTATATAATGTATTTATTTGCATATATTTTTATAGGGTGTCTTCTTTCAATATTAGGTCTTGAAGCACAAGGAACTTCTTTTACAGTTACTTTATCTATGGGAATGGTAACTTTTATAATGATTTATTATTTTGGGATTAAATATCAAAAACTGGCTTTTTTTAAAAGATTTAGAAATCCAGTTGAATTATTTACTCAATTTACACCACTAATTTCTATTTCATTTCGTTTATTTGGTAATCTAATTGGTGGATCTATTATTTTAGGTTTATTATATGGATTATTAATTGGTTTTCAATTAAGTTGAGGTGTAAATAATATTGAAGTTGATGGAATGACAAGATGAGCTTCATATGCAATTTGAAATCCTGAATTAGTTGAAAATGGTTATTTAAAACAATATGAATATTGATGAGCAGGACTGAACTTATTTACAACACCAATTATGCCATTTTTACATATGTATTTTGATTTGTTTAGTGGTGTAATTCAATCAACTGTTTTTGCAATGTTAACACTTTCATATTGATCTGCACAAATTGATGATAATGAAAAAAGAGCTGATTTAGTTGATCAAGTTAAAGAAGAAATAACTAATAAATATCAATCATAATATTCTATTAATTAAAGGAGGAATATAACATGTTACACACAGCATTTATTTCAAATATTTTAGCTAATTATTTAGGAGCAATGTCAATAATTTTACCAAACATTTTAGCAGTTGAAGGAAATATTAAATACATTGGAGCTGGACTAGCTTCTGTTGGAATTTTAGGAACTGGGGTTGGGCAAGGTTTAATTGGACAAGGAGCTTGTTTAGCAATTGGACGTAACCCTGAAATGGCTTCAAAAGTAACTTCAACAATGATAGTTTCTGCTGGTATTTCTGAATCTGGAGCGATTTATTCACTAGTTATTGCTATTTTGTTAATCTTTGTTGTTTAGATTTGTTGTTAAGAAAGGATAATAAATTGTGTTATTTCAAGGTTTTAATGTAGTAATTAATGCTACAACTCAAGGTGTTCCAAAGATTGTTGAATCACTTTTTCCAAATTTACCAAACTTTATAGCACACTTATTAGCAACAATTATTTTAGTTATTGTTTTAACAAAATTAGTTTATAAACCATATAAACAAATGATTGAAAAACAAAGACAAAAAATCACTGAAGTATTAAGTGATGCTATTGAAAAACAAACACAAGCAAACATTAAAATAAAGCAAGCAAATACATTATTAGAAGATGCTAAAACTGAATCAGTATCAATTTTAAAAACAGCAAGAATGGATGCTGAAATTCAAAAAAATAAAATTATTGATAATGCTAATTTACAAGCAAGAAACATTCAATCATATGCTCAAAATTCTATTAAACAAGAAAAAATTAAAGCACAATTAGAAATTAAAAATACTATAGTTAATTTAGCTATTAATTCAGCTGAAAAAATTCTAAATAAAGAAATTGATAAAAAGACTAATAAACAACTTATTGAAGAATTTATAAAAGACCTAGATTAATATGATTTTAAAAGAAACTACAATAAATAATTATGCAACTGCTTTATTTAATATTGCTGTTAAAGAAAAGTTAGTTGATGATTATATTATTCAAGTTGATGCTTTAATAAAAAGTTTAAAAGATAAAGATGAATTTAATAAGCTTGTAAGTTTTTCTAATAAGCAAGAAAAACAAGATGCTATTTTAATTATTGAAAATACTTTTAGCTCATTTGGGTTTGATATTTATCTAATTAATGCACTAAAGATATTAGTTGAAAATCAATTATTTATAAATACAAGAATGATTCTAAAAGTTTTATATAAAAAATTACTTGCTTATAAAAATATAGTTTTAGGTGAAGTATATTCAACTGAAAAACTAACTAAAACCCAATTAAATGCAATTAAGAAAAAAATTTCAAATAAAGTTAATAAAAAAGTTGAACTAGTTAATAAAATTGATCCAACTCTAATTGGTGGAATAAAAGTTAGTGTTGAAGATAAAGTTTTTGATGGTTCTATTAAAGCTAAATTAGAAGCTCTTAAAAAGCAAATGAATACATAAGGAGGTTTAAGATGAGTTTTAATATCAAAGAAATCTCTGAGATGATAGAAAAACAGATAAGAAATTATAATAAAGAAATAGTTCAAACAGAACAAGGAACAGTTGTTAGTGTTGGGGATGGAATTGCATTAATTTATGGATTAGATAATGCAATTATGGGTGAATTTTTAAAGTTTCCAAATAACGTTTATGGAATGGTTTTAAATTTAGAAGAATCAGCAGTTGGAGCTGTTATTTTAGGTGATGAAACTTTAATTAGAGAAGGAGATATAGTAAAAAGAACTAATAAAGTTGTTGAAACTCCAGTTGGTGATGCTTTATTAGGTCGTGTTATTAATGCTTTAAGCAAACCAATTGATAATCTAGGTCCAATTAATTTTACAAAAACTAAACCTATTGAAAGAGTAGCAACTTCAGTTATGGCTAGAAAATCTGTTTCTCAACCTTTAGAAACTGGAATTTTAGCAATTGATTCAGCTATTCCTATTGGTAAAGGACAACGTGAATTAATTATTGGAGATAGACAAACTGGAAAAACTGCTATTGCAATTGATGCTATTATTAATCAAAAAAACAAAAACGTTAAATGTATTTATGTAGCAATTGGTCAAAAAGATTCAACTATTGTTCAAGTAGTTGAAAAACTTAAAAAATATGGTGCTATGGAATATACAGTTGTTGTTAATGCTGGAGCAAGTCAACCAGCTCCACTACAATATTTATCACCATATGTTGGAATAACTATTGCTGAAGAGTGAATGGAAAATGGAAGTGATGTTTTAATTGTTTATGATGATTTATCAAAACATGCTGTAAGTTATAGACAAATGTCACTATTATTAAGAAGACCACCAGGTAGAGAAGCTTATCCTGGAGATGTGTTTTATTTACATTCAAGATTATTAGAACGTGCTGCTAGAGTAAATGAAAATTATGGTGGTGGTTCAATTACTGCTTTACCAATTATTGAAACTCAAGCAGGAGATATTTCAGCTTATATTCCAACTAATGTTATTTCAATTACTGATGGACAAATCTTTTTATCAAGTGAATTATTTAATCAAGGTATTAGACCAGCTGTTGATATTGGTCCTTCAGTTTCAAGAGTTGGATCTAGTGCACAAATTAAATCAATTAAACAAGTATCTGGAACTTTAAAATTAGAATTAGCTCAATATTATGAATTAGAATCATTTGCAAAATTTGGATCTGATTTAGATGAATCAACTAAAGCTACTTTAGATCAAGGTGCAAAAATTATTCAAATGTTAATTCAAAAACAACACAATCCTTTAGAACAAGTTGATCAAGCTATTTTATTACTAACAATTAAATCACATTTAATAAAATGATTACCTGTTGAAAGTATTTATAATTTCAAACATGAAATTTTATCACACTTTAAAAATGATAAAAATGCCTTTGAACTTAGAAAAAAACTAGATGAACAAAAAACTTTTGATGATCAATTACAACAACAAATACTAAAAGAAGCTCAAAAAGTAGTTTTAAAAATTACTAAAAATATTAATGAATATAAACCAGAAACATTTGGTAATATTTCAGAATATCAAAATTTAGGTAAATAGTATGCCAAATTTAAAAGGATTAAAAACAGAGATTTTATCTGTTAAAAATATTTCAAAAATTACTAATGCAATGCAATTAGTAGCTTCAGCAAAACTAAGAAAAATTAGTAAAAAAGTAATTGATACTCATAATTATGTAAGTGAAGTTTATTCTTTATTTAACGATATTATTAGTCAAACTGATAAATCTGTTTTTCTAAAAGATAGTAATTTTGAAACTAAAAAAACTTTATGAATTGTTATTAATTCTAATTTAGGTTTATGTGGTGGATATAATTCTAATGTTAATAAATTAGTTTTACAAAACTTTAAAACTAATGATGAAATTTTTGCAATTGGTTCTAAAGCTGTTTCTTTTTTTAAATCTAAAAAAATTAAAATTAGAGATCAAGTTACAAACATTGATATTAATTTTACAAATGAAAAAGCTAAAATTATTAGTAATGATTTATTAGCTATGTATACTAATCATGAATTTGATGAAATTAAAATAGTATATACTAAATTTATTAATAACGTTACTTTTGAACCAGCAATTATTAGAATTTTTCCAATAGTTAAATCAGAATTACATTTCACTCATAAACAAAAAATTATTTTTGAACCAGATGCTGATCAAATCTTAAATAACACTATTTCTATTTATATAAATGCGATTATTTATGGAACAGTTATAGAATCACAAGTTAGCGAACAAGCTTCAAGAAGAACTGCTATGGAAAACGCAACAAACAATGGTCAAAATCTTGAACATGAGTTAAGTTTAAAATACAACAGACAACGCCAAGGTGCTATTACTCAAGAAATTAGTGAAATTGTTTCTGGAGCAAACGCCCAATCTTAGGAGGATATATGGTATCTAAAAACATAACAGATAAAAAAAAGAATCAATCTATTGGAAAAGTTATTCAAGTATTAGGACCAGTTGTTGATGTTAAGTTTTCAGAAAACAATATACCAAAGATTTATGATGCTTTAATTGTTGATAATAATGGTAAAAAACTAGTTTTAGAAGTTGAACAAAACATTGGTGATGAAATAGTTAGAACTATTGCAATGGGTCCAACTGAAGGATTAAAAAGAGGATTAGATGTAATTAATACTAATTCTCCAATCACAGCTCCTACTGGAATTGAAGTTTTAGGGAGAATGTTTAATGTATTAGGTGATCCAATTGATGAAAAACCTGATTTAGATGTTAAAAGAGAACCAATACATAAAGATGCTCCAAAATATGAAGAACTAGTTACAACAACTGAAATTCTAGAAACTGGAATTAAAGTTATTGATTTAATGATTCCATTTACAAAAGGTGGAAAAGTTGGATTATTTGGTGGAGCTGGAGTTGGTAAAACTATTTTAATTCAAGAGTTAATTAATAATATTGCAAAAGCTCATAATGGGGTTTCAGTTTTTGCTGGAGTTGGTGAAAGAACTAGAGAAGGAAATGATTTATATCATGAATTCATTGAAGCTGGAGTTTTAAATAAAACTTGTTTAGTATTTGGTCAGATGAATGAACCACCAGGAGCTAGAATGCGTGTTGCTTTAACTGGTTTAACTATTGCTGAATATTTTAGAGATCAAAAAAATATGGATGTTTTATTATTCATAGATAATATTTTTAGATTTACTCAAGCAGGTTCAGAAGTTTCAGCTTTACTAGGTCGTATGCCTTCAGCTGTTGGATACCAACCAACTTTATCAACTGAAATGGGTTCACTACAAGAACGTATTACTTCAACAAAAAACGGATCAATTACTTCAGTTCAAGCAGTATATGTTCCTGCTGATGACTTAACAGATCCAGCACCAGCTACAACTTTTACTCACTTAGATGCACGTATTGTTTTAGATAGATCTATTGCTAGTTTAGGAATTTATCCAGCAGTTGATCCTTTAGCTTCTTCATCAAGAGTTCTAGATCCAGAAATTGTTGGACAAGAACATTATGATATTGCTTTAAGAGTACAAATTGCACTTCAAAAATATCAGGATTTACAATCAATTATTGCAATTTTAGGTATGGATGAATTAAGTGAAGAAGATAAGTTGATTGTTCAAAGAGCAAGAAAAATCAGAAACTTCTTATCTCAATCATTTTTTGTTGGTGAAAAATTTACAGGAAGACCTGGGGTTTTTGTTAAAGTAAATGATACTGTTAGATCATTTAAATCAATTTTAGATGGTGAAGTTGATTATATTCCTGAAACATACTTCTTATATTCTTCAACTATTGATGATGTTATTGAAAAATATAACAAAGATAAAGATAAATAATGGGAATTAAATTAAAAATCTTAACACCTAATGGTACTTTTGTTGAAAATAAAGAAGTAGATATAATTAATCTTAAAACTATAGATGGAGATATTGGGGTTTTAGCTAATATGGCTCCATTTGTAACAGCTTTAAGAAATGATATTTTAAACTTTAAAGAAAAAAACACATATACTTATATACATGTTGATCAAGGCTTAGTAGTTATTAGTAAAAATCAATGTAAGATTATTACTGAAAATTTATATTTAGTAGATAAACAAGACAGAGAACTACCTACTCCTTTAAAACTAACATAATAAAATAAAAACCTATACTAGTTCTAAATTAATAGAAATAGTATAGGTTTTTTTAATGCTTGTTTAAACTTATTTACCAGGTCTTTTAAATAAGCTAAATATAGAACCTTTTCTTCTTTCAACTTTAAAAAAGATAAAGAAGAATGCAAGAATAAAGAAGGCAATTACAATTAAAATAATAAAGATAATTAGAGATCTACGGTTAGCTTTTTTTTCTAAATCTTTAATTTTTTCATCAGATAAAATTGGTACTTGTCAATATTCTTCTAAGGCATTTTTAACATATTTAACTGATAATAAAACAATTATATGAATTAAAATTATAGCTAAAAATATACCTAATAAAATGTAATAAGGTGTTAGTTGTCCTGGTTGAACAAAATATTGTTTTAAAGTTATTCTAACAACTGTTTCATGATCTTGAAGTTTAGCTGAACCTCATTTAAATATCACATACATTGTATAAATAATAGCAGCTACAATTAAATAAATATATGCAGCTAAACAAAATCAGTTAGCATAATATGGCTTTTTAATTTGTTTTTCATACATTTTTTTAATTAATAAAGGTGGAATACCTTCTTCTGGTTTTTTAGGATAAGGTATATGTAGTTTTTGAGCTTGATATTCTTCAGTTCTATGTTGCATATCTTTTAAATATTTATTATAGTTACTAAATAATGTTGAAGCTACAACGATATAAATAATACAACAAACACTAAGAATAGCTATTATTACAGATAAATGTCATACTTTAAAACCATTCATTGTAAATAATCAACTTTGAAGAGTTTTGTGATATTGTTTAATATTATTTGGATCGTATAAAAATTGATAATAGTGATTAATTAAAAATACTGTAAAATAACCAATTAATCCTACTAAAATAAAAATACTAATAAATGATTTTATACTATTAAATCTAACTATTCTTCTAATTTTTTTATCAGGAATAAATTTAACTTGTTGATCTGAATTTGAATTGTTATATTCTACTTGTTGTAAATTATATTCTTGTTGGTCATAATATTGATCTTGATAATTTTGATCATATCTATAATCTTGATCATAATATCTGTCATCATCATAATCACTATATTGATTTTGGTCATATCTATTATCATAGTACTGATTATGATAATTGTTATTTTTATTATCATTTTGATAATATCTATCGTTTTGATTATTGCGTTGCGAATTATTAGATTGATAATTATTATGATTATTTCGATTATTAGATGAGTTATAATCGCGCATTGATTTCTCCTTATTTGTAAGTATATTTTTATATAATTTTATAAAAATCAAGTAATTCAAATTATTTAACAACAAAACTTTTTTATTTAAATATACAAATTTGACAATTCTATTTTTTATTAAAGATAACTTATTTTAAATTGTATTATATATTAGGTTTTTAAAGTATAATTAAATAGTTAAGGTGGTGATTATTTTATGATAAGTATAGTTTTTTCAGTCGATGAGAGTCCTGAGTCCCATAGTAAGAAAAAATATCGATTAAATACTGTTATAAATAATCCCATAACTAGTGTTTTATAGGTGTTTTATAACATTATTTAATCCTGTAAAGGAGTGAAGAAATGTTTTTATTTAAAAAGAGAAAGTTTTCTCCTAAAAAAATAACAAGACACAAAAAAAAGACTCATTTTGCAAATGAAAGATTTATAAAACAAGTTAGTAATTTAGAACAAAACGAAGTATTAGAAATAATGCAATTACAACATTTTGGTTTAACTAATGAACAATATGAATCAAGATTAAAAAAATATGGTACTAATGAATTAAAAAAGAAAAGATTCAATTTAATAGCTGAATTTTTACACGCTTTTTTTGGACCATTTAATATTGTTTTATTACTAATTTCTTTATACAATTTTATTTCATATGCAACAAATGGGTTTTATCAAGATACAAATTCAAGTGATTCTAAATTTGAATTAGTTGGAGCATTAATTATTTTAGTAATGGTTTTAGCTAGTGGGTTAGCTTCATTTATTCAATCTTTACGTTCTCATTTAGTGACTAAAAAAATTAGTTCTATTGTTAAAAGTACTACTAATATCATTAGACATAAAAATGATGAAGATGTAGAAGATTATTTAAAAATTACTAAAAGAAATCAATTAGATTTAATTAGACTTGGTGAAGAAATTGATGTTAAGCAATTAGTTCCAGGTGATTTAATCTATTTATCAAGTGGTGATATGTTACCAGCTGATGCTAGAATCATTCAATCAACTGATTTATTTATTAATCAATCATCTTTAACTGGAGAATCAATACCAGTTGAAAAACATGCAAACAATAAAAAAAATACAAATAATATTTTAGATTTAGAAAATATTTGCTATACAGGAACTAGTGTTGTTTCTGGTAGTGCTTTAGCTGTAGTTTTAGCAACTGCAAATGACACTTACTTTTCAACTATTAGTAAAGCCATTTTAGAAAAACGTCCTGATTCAAGTTTTACTAAAGGAATTAAACAAGTAACAAGAATGTTATTAATTTTTATGCTTGTAATGGTTCCAACTGTTTATTTAGCAAAATCAATTATTGGAACTATTTCAAGTGGTGGAAGTTTTGATAATATTAAAGACAATCCTTGATTTCAAGCAATCTTTTTTGCTGTAGCAGTTGCAGTTGGATTAACTCCTGAAATGTTACCAATGATAGTAACTACTAATTTAGCAAATGGAGCTTCTAAAATGTCAAAACAAAAAGTTGTTGTAAAACAATTAGAAGCAATTCAGTCACTTGGAGCTATTGATGTTTTATGTACTGATAAAACTGGTACATTAACAAATGATAAAATCGAACTTGTTGACTATTTAAGAGTGGATAAAAAAGCAGATCCAACATTACTAAAATATTTATATATTAATAGTTATTATCAAACTGGGTTAAAAAATCCAATGGATAAAGCAATTGTTGATTATGTTAATAAACACAATCATAACTTTTCTATTCAAGATATTACTAAAATTGATGAAATACCTTTTGATTTTAATAGAAGAAAACTAACTATTATTTTTGATGATGAAAACGAAAAACGTTTTATGGTTACAAAAGGTAGTGTTGAAGAAATTTTAAATTCTTGTACAAGAGTTATTCAAGATGATAAAGTTGTTAATTTAACTGATACTTTTAAAAGACAAATTATTGCTTATTATGAAACTATTAATCAGCAAGGTAAACGTCTATTAGGTGTTGCTTATAAAAAAATTAGAGATAATCAAGCTAAGTTTAGTCCAAAAGATGAAGAATCATTAATCTTTATGGGATTTGCATCATTTTTAGATACACCAAAGCCATCAACAAAACAAACTATTAAGTTATTAAAAAAATATGGTGTTGATTTAAAAATTTTAACTGGAGATAGTGAACCTATAACTAGAGCTATTTGTAAAATGGTTAATTTAGATATCAAAGGTTTAGTAACTGGTGAAGAAATTGATGCTGCTAGTGAATATGAATTAAAAAAGATTGTTGAAGATAATAATATTTTTGTTAAGTTAAATCCGTTACAAAAAGTAAAAATTATTCAAGTTTTAAAACAAAATAATCACGTAGTTGGTTATATGGGAGATGGTATTAATGATGCTCCTGTGTTAAGACAATCTGATGTTGCTATTTCAGTTAATAATGCAACAGAAATTGCAAAAGATGCTAGTGATATTATTTTATTAGAAAAATCATTACTAGTTTTAGAAAAAGGAATTATCCAAGGAAGAACTATTTTTGGAAATATTTTAAAATATATTAAAATTACAACTGCTTCTAATTTTGGTAATGCTTTATCAGTTTTAATTGGAACAGTTTGATTGCCATTTTCACCAATGGCACCAGCTCAAATTTTATTACAAAACTTAATTTATGACTTTTCACAATTTGGAGTAGCATTAGATAGAGTTGATTCTACATTTTTAACTTCTCCACAACGATGGCAATCAAAAGATCTTTTACCATTTACAACAATTAATGGTTCGATAAGTACGATTTTTGATTTAATTACATTTGCAATTGCTGGTTATTATTTTGGCTTTATTACTAGTTATAATAGTGCAATAGCTCAAAATAATAGTTTATTAGCAGCTCAATCACTAGCTCAATTCCATGCTTGTTGATTTATTATTGGATTATTATCTCAAACATTTGTTTTCCAAATATTGCGTACTGAACAACTACCAGTAATTCAATCTCGTTCAACTTGACCAGTTTATGTAATTGGAGCACTAGCTACAATAATGGCGTTTTCTATTGTTTATATAAGTCAAATTGGAACTTTAGTTCAACTGCAAAGTCCTGGTTTGATTTATATTCCAATTTCTATAGCTATTATATTTAGTTATTGTTTAATAGCTCAATTAGCTAAAGTAGGTTATAAAAAAGTCTTTAAAAAATGATTATAAAATAAGATATATAATTTTACTACAAAAGTTCAAATACAAAATTTGTGTTTGAACTTTTTCTTTTTATTAAAAATATTTTTACAAATTAATTTTAAAAACCATAATTTTGATAAATTTGTCAAAAATTCTTTAAATGCTTTAAAGAGAGATAATTATTATACAAGGAGATGATAACATGTACACTTTTGCATTTATTTCTTTAAGTAGTTTATATAATTAATTTCATATTTAAATAGAATAATAGAAAATGAGTGATTTATATGGCTTTAAATTTAAAAGGTAGAAGTTTTTTAAAATTATTAGATTTTTGTCCAAGAGAAATTAGATACTTATTAGATTTATCTAGAGATTTAAAAAGAGCAAAATATACTGGTAATGAAATTCAAACAATGCAAGGAAAAAATGTTGTTTTATTATTTCAAAAAGATTCAACTAGAACAAGATGTGCATTTGAAGTAGCTGCTTTAGATCAAGGAGCTCACGTTACTTATTTAGGACCATCTGGATCACAATTTGGTAAAAAAGAATCAGTAGCAGATACTGCTAGAGTTTTAGGCAGAATGTATGATGCTATTGAATTTAGAGGATATGATCAAGCTGTTGTTGAAGAGTTAGCAAAATATTCAGGAGTTCCAGTTTATAATGGATTAACTAATGAGTTTCACCCAACTCAAATTCTTGCTGACTTTTTAACAGTTGAAGAATACAAAGGAAATCTAAAAGGTTTAAAATTTGTTTTTGCTGGAGATACTAGAAACAATGTTGCAACTTCATTAATGATAGGTTGTGCAAAAATGGGAATGCATTTTGTTGGTGCTGCTCCAAAACAATTATGACCAAGTCAAGATTTAATCGATCAATCTAAAGAAATTGCAAAAGAAACTAATGCTATTATTTCATTTACTGAAGATATGAAACAAGCATGCAGTGATGCTGATGTAATTTATACTGATGTTTGAGTTTCAATGGGAGAACCAGCTGAAGTATGAGAATCACGTATTAATCTATTAAAACCATATCAAGTTAATATGGATGCAATAAAAGTTGCTAAACCTGATGTAATCTTTATGCATTGTTTACCATCATTTCACGATTTAAATACTGAAATCGGAAGACAAATTTATGAAAAATTTAACATTCCTGAAATGGAAGTAACAAACGAAGTATTTGAATCTAAACATTCAGTTGTTTTTGAACAAGCTGAAAACAGACTTCACACAATTAAAGCTGTTATGGTAGCTACAATTGGTAAATAATTCTAATTTATGATAGTAAGTGAAGAAAAACTCATAAATAAACAGAACAAAATTGCTAAGAAAAAACATAAAGTTGAGATGATTTCAGCTTTTTCCATTCTATTTCTAATTATTGCAACTCTAATAATACTTTCATGAATATTTAAATGAACAAATACTACTGTTAAAATAGGACAAAATCAAGAAAAAATAATTGCACTAGGATTTTTTGATCTATTTAAAGCTCCATTAAAAGGTTTTGTTCAAAGAGCACAAATTATAGTTTTTGTTTTAACTATGGGAGCTTATATTAATGTTATTGTTGCTTCTAAAGCTTTAGAAGGTTTTTCTCAAACTATTGTTAGAAAAATGAAAGGAAAAGAAATCTGATCACTTATTCCGTTGATGATTTTCTTTTCTATTTGTGGAACAACAGTAGGATTAGCTGAAGAAGTAATAGCATTTCAAATGATTTGTATTCCTTTAATGGTAGCTGCAGGATTTGATAAATTTACTGGACTAATAGCAGTGCTAATTGGAACTGGAGTTGGTGTTTTAACATCAACTGTTAATCCGTTTGCTATTGGAATAGCTGTAACTAATTTAAATAAAGGATTAGATAAACAGATTACAAGTGTATCTGATGGCTTAGTTTGACGTATAATTTGTTGAATAATTCTAACTGCTCTTTCAATAGTTTTAGTAATGTTATATGCTAAGAAAGTAAAAAAAGATCAAACAAAATCAGTAGTATTTAAAACTTTAACAGAAGATAAAGAATTTTATTTATCTAATTCAGCTGAAAAAATAGTAATGGATTGAAAAAAGAAAACTAATTTAATAGTCTTTTTGATATCACTTATATTAATGGTTGTTTATTTAATAGGTTGAGATGATATTTTTCATACAACACATTCAGCTGATTTTGCAAGATGAATAAGAAATAATATACCTTATCTAACAGGAACAGATAAAGGATTTGGTAATGGTTCAGTTGATTCAGTAGCTGCTATATTTTTAATCACAGCAATAATTATGGGTATTATTAATGGATCTAGTGAAAAACAATTTTTAAAAGATTTTATTAATGGTGCTTCTAGATTGTTAAATGTATGTTTAATTATTGCGGTTGCTGCTGGTATAGGATGAATTTTAAAAGAAAGTCATATGCAAGAATTATTTGTCGAATCTCTTTCTAATTCTTTAGGTTCACTTAAATCTCCTATTTTAATTCTTTTAATAATGTTTATTTTCTTTATACCATTATCATTTTTAATACCATCAACTTCAGGATTTGCAACTGCTGTATTTCCTTTATTAGGTGGAGTAGTTATTAAAAATACAGATATACTAGCTTCTGGATCTATTACAGCATTCTCATTTGCTTCTGGATTAGTTAATTTAATAACTCCAACATCAGGTATTGTTATGGGTTCAATAGCAGTTGCTAGAATGGATTATGCTAAATTTATAAAATCAATGGCACCTTATATGTTGATTCTTACAACTAGTTCTTTAACTTTATTACTAATTGGAGCATCCATTGGAAAAACAATTGCTTAAGAAAGGGAAAATATGTCAAAAATCGTAATTGCAATTGGTGGAAATGCTTTAGGTAATTCACCAACTGAGCAATTAGAAATTGTTAAAAAAACAGCAAAATCTTTAGTAGATTTTATTGTTCAAGGTAATGATATTGTAATTGTTCATGGTAATGGTCCTCAAGTTGGAATGATTAATAATGCTTTTGATATTGCAAATAAAAATGAAGTTAAATCTCCTATTTTAGACTTTCCTGAATGTGGGTCTATGAGTCAAGGATATATTGGATATCATCTACAACAAGCAATAGATAATGAATTAAAACTAAGAAATATTAATAAGCCAACAGTTAGTTTAATTACTCAAACTTTAGTTGATAAAAATGATGCAGCATTTTTAAAACCAACTAAACCAATTGGATCATTTATGAATGAAAGTGAAGCAAAAAAACTAGCTGAACAAAATAACTGAAATATTTCTGAAGATGCAGGACGTGGTTGTAGAAGAGTCATTGCTTCACCAAAACCAATTGATATTATTGAAAAAGATGCAATATTACAATTAGTTAATAATTCATTTATTGTGATTGCTGGAGGTGGTGGTGGAATTCCTGTTTATTTAAAAGATGATAAACTAGTAGGAATTGCTGCTGTTATTGATAAAGATTTTGCAGCAGCTAAAATTGCTGAAATAATTGGTGCAGAAAGCTTAATTATTTTAACTGCAATTGATAAAGTAATGATTAACTATAAAAAAGAAAATCAACAAGCTTTAGATCAAATAACTTTAGCTCAAGCTCAAGAATATATTGATCAAAACCAATTTGCACCAGGTTCAATGCTTCCAAAAGTACAAGCTGTTATGTCATTTGTTAAAAAAACTAATGGTAAACCAGCTTATATTGGTTCACTAGAACAAGCTGATAAAGTTTTACAAAACCTAAATGGAACTAAATTTATTAAATAATAAAAAAAGTAGTTATTAACTACTTTATAAGTTCAAATGTTAAAAGCATTTGAACTTTTTTATTATATTAATTTGTTTTTAGTGATTGTTCTAGTGCATAAAAAGCAGCACCAATCATACCAGCATCATTTTTTAATAAAGCTAGTTTAAAATCAACTATATCTTTATAAGAATCTGTTAATTTATTTTTAACTCCTAATTGAAATAATTCTAATAAATTATTTCCAGCTAATGAACCACCACCAATAACAACAACTTCAGGATCTAAAGCGTGTATTAGTAATGACATATGGTTAAACAATTCATCATAAACTTCTAATAAACTGTTTTTTAATTCTATTGGCTTGTTTAAATTATTATAGATTTCAAATAAAAGTTTCATATCTAAATTTTTAATATTTAAAAAATGCTTATTATAAAATTCCAAATATTTATTCTTTAAAATTGTTAAAAGTGAATTTGGTATAGTTGTTGCTGAACATACTTTTTCAATACAATTATTTAAACCACAATTACATTTTAAAATGTGATTATTACTTCCACCATGTCCAAATTCTCCAGCAAATCCATGCGATCCAGAAATTAGTTTTCCATCACAAATAATTGCTCCACCAATTCCAGTTCCTAATCAATAAAATAATCCTGATTTATAAACTAATCCTGAACCTTTTCTATATTCACCAAGTGCAGCAGCATTAACATCATTAATAACATAAACAGGTTTTTTAAATAGAAATTCAGCTTCGGTTTTTAAATCATAATTAAATCATCCATTTTCAATATTTGGAGCCATAACTACAATTCCTTTATTATGATCAACAAACCCAGGAGCTGTAATTCCAACTAACATAATGTCATTTTCATCAATATTTAAAGTTTTTAAAATTTTTGAAATTTCAAAATATAAGTTTTCTATAATTTTAGTTTTTGGATTAGTTATAGAAAAACTATGTTCTAAATCTCCGTTTTGTAAAATTACTCCAACTTTTGCTGAAGTCCCACCAAGATCTATTCCTAATATTTTTTTCATCTTTTTCCTTAATCATTAAATTTCACTTATTCTAATTATCACATTAAAATTTTTTTAATTTTTATATTAGAATAAAACTAGTAAAAATTAAAAAATTAAGCTAAATTGTTTAATCTTAAATCTTGATATAAAGCATCAAAAAACTCAGTTTCAACTAGTTTGTTATGTCCGGGATGTGATGATAACATTATTGTCATTGTGATTTTGTTTTTAGTATCAACTAAACCAGATGACCCTAATAATCCATCTCAACCATATTCACCAACTTCAGTTAGTGGATATAATTGATTTTTAATTCTAACTCTTCCACCAAAACCATAACTATAATCTTCATTTAAATTTCAATTAAAAAACTGTTTTAAATTGTTTTTTGTAAGTTGATCTGATTTCATTTGATTTAATAAATCTAAAGAAATTAATTCATCACCATTTTCTAATTTTCCATCAATTAAAACATTTAAAAATTTTAAATAGTCATCAGCTGTTGTAAATAACCCACTACCACCTAAATTACATACTGGTAATTTATCAATTGATTGAAATAAAAAATCAAAATTTTCTACTTGATCTAAATGATTTTGATCATCTTTATAAGTTCATCTAAAAACATTTGCTTTTCTATTTTTATCAAATAAATAATAATCAGAATCATTCATATTTAATTTGTTAAAAATTTCTTCTTTTACAAAGTCTCTATATGATTTATTTGAAACTACTTCTATTACTCTACTTAACACATCTAAACTTAGTCCATAATATCAATTAGTTGAAGGAACAAATAATAAATCAACCTTACTTAATTCATCACATAATTGCTTTAAAGTATAATTATTAATTTTTCAATCATCTAATACTTTTTTAATTTGAAGTTGAGTATTTGTTTTATTACCACTATAAGTCAAACCAGAAGTCATAGTTAATAAGTTTCAGATTTTGATGTTTTTATTTTTAAATGAAGGAATGTATTTAGATAAATCGTCATCTAAACTAATTAATTTTTTATCTATTAAAAGTAAAGCTGCTAGTGTAGTTATTGGTTTTGTCATTGAATAAGCTTGATAAATTTCATCACCCTTTAATAAGATAGTATTATTTTGGTCATTATATCCAAATTGTTTAGAATAAATAATCTTTTTATCTTTAGCAATTCTAATAGCTGCATTTTTAAAATATTTTTTATCTATAAAAGAGTTAATTGTTTTTTCGATGTTAACAAATTCCATTATTTTTTTACCTCTTTTTAATTTTAAAATAAATTTTAAAATCACTATAAAAAAAATACTCAATAGATAAATTGAGTACTTTAATTAAAAATTATTATTTTGTTGTTTTAGTTTTAGAACTAGTTGATTTAGCTTTAGTTGTTTTTGGTTTAGAAGATGTTGATTTAGTTTTAGAACTAGTTGACTTAGTTGATTTTGAACTTGATTTAGAAGTAGATTTTGTAGATTTTGAAGCTGATGATTTAGCTTTAGTTGATTTTGCTCTAGTTGCTTTTGGTTTTTCAACTTTCATTTCATCAGCTACTTTTTCTTCAACTTTCATTTCACTTACAGGTTGTTCTTCAACTTTATTTGGTTCTTCACACATGCAATCTTTTTCACAACCACAAGCTTCATCTTTTTTATCACAAGCTTGATCTGATTCACAAGTCATACCCATGTTTTCTGATTTCATTTCTTCAGATTTCATTTCTAAATGACCCATCATTTTTTCTTGTCTTTGTTGTTCCAAAAGTTTTTGCATTCTTGGTTTAATAGCTTCTTGTTCTCCACCATAAACAATTTGAATGTTATTTCCTTTTACTAAAGCTCCAGTTGTTCCACCTAAAGATTTAATTCCATCAATATCAGCTTTTTTAGCATCAACAACAGTTAATCTTAATCTTGAAGCACAAGAATCAACATCAACAATGTTTTCTTCTCCACCTAGATATTCAATAATAGCTGCAGCTTTTGCTAATCTAGCTTGTTCTTTATCATCTGTTGATGAACTCATTTTTGAACCATCAACATTTAATCCTTTAGAAGCTTTGAAATCTGCTTTAGTGTATAATTTAGCTTCAGCATTTCCATCTCTACCTGGTGTTTTAACATTAAATAATTTGATTAAGAAGTAGAATGCACAGAAGTAAATTGGTGCTAATACAACAGCAACTCCTAATACTCCAAATGCTGATGTAGCACTCATAGCTTTTGAACCAAAGTATGGAATTACTGCAAAGATAATATAATCAATAAATCCACCACTAACTGTTTGAGTAACATGAGTTTGTAATGCTCCAGTTGCTCAGAAAGCAAGTGAAGCTAATGGCATATGAACACCATAGAATAATCATGGAGCAACAAATAAGAATGTATATTCAATAGGTTCTGTAATACCTGTTAAGAAACAAGTAAACGCAGCTGAGAAATAAATCCCAAATACTTGTTTTCTATTTTCTTTTGGTGCTGCTAGTCACATAGCTAATGCTGCAGCAGGTAAACCTAATAACATAAATCCGAATTTACCAGATTGGAATCTACCAATATTTAGTCCTAGGTTTTGTGCATCAATAAAGTTTAATGTTTTTAAGTTAGCTAGGATTTGTTGAGCCATAAATTGGTCACCTTGTGCACTATATAAAGAATCAACGGCTTTAATAGCATTGTAAATTTCACTAAATGATGAGTGTGAAGTGCCGTGGATAGCATTGTATGATTCTTTAAATGCATTTTGTGCTTGTTCACCAGCACTATTCATTTTATCTAATGCGTCAGCGATTGACCCTCCAGCACTAGTTCATCATAATGGAGCATAAAACACGTGGTGTAGTCCAAATGGAACTAATGAACGCTCAACAACTTCAAACATTAATGAATCTGTTCCATAAGGTAAAGTTCCTGAATTTTCACCAATTCATGAAAATCCAATACCAATAACTGGTCATGCCATTGCAAAAATTAAAGCTAAAGGAGCAACCACAGCAAAAGAAACAATAGGTACAAATTTAGTACCACTAAAGAAACTAATTGCTGAAGGTAGTTGAACAGCATGGAACTTGTTATATATTTTTGCTGATATTGCACCAACAAATATACCAGCAAGAACCCCTGTATTTAATGATCTAATTCCTAAGTTATTTGTAATTAATTTTTCAGGAACTGATCAATTACCATAATATCATAGTAAATGAATGTGAGTTACAGTTTCTTTTTTACCATTAACCATTACTTCAGTAGTAACATCGTGAAGTAATGCTGATTGAATTCCATTTAATACTAAAAATCCAACCAAAGCAGTAATTGCTGCAACTCCTGAATCTTTAGTATATGCTAAAGCTACAGAAATACAGAATAATACAGGTAAGTTAGCAAAACAAACATCCCCCATTGTTTTCATAACACTACCAACATATCAAAAACCTGATGTATTTGACACATTAGCAGTGATTGTAGCTCCAACTCCTAAAAACACACCAGCAATCGGTAATAAAGCAATAGGTAATAAGAATGCTTTACTTAGTTTAGATAAAGTAGGCATAATATTAGCACCAAATGCCTTTAATTTATCTTTAAAACTACTCTTGTTTGTCTGTGTTAACATGAGTATGTTAAATCCTTTCTATAAAAAAGATGTTAATTAGTTTTGTGTTATTATTTTGTTATTAGTGTTATAATTGCTGTTATTATAAATAAAAATCCAATAGTTAATACTAGTAAGTAAAAGTTTTTTTTAACAAATTCTCAAGCATTTTTTGATTCTCTGTTTTGGTTTTCAAAACCATAGCGGTTTTTGTTTTTTTGTTTTCAAAATAAAAACAAACCTAATAAGATAAATAAAATCCCAAATCCTAAAACCCCTAAATTAACTATTAATTCAGTTTTAACTACTAACATTAATAACATAAAAATATTTGTACACCTCTTTATAATAGTATATTAAAAAAAAGAAGTTTAATTTGCATAAATTAAAATTTTGGAATTTAATGCAATTATTGACTTCTTTTTTTATTTCACTTAGTATATTAGGGACTTATTAAAGAATTTCATTCTATTAAAAGCTTATCTAATTCATCAGAATTTTCAACTTTTTCTATAATAATAAATACTAAATCTTTAGTAGTTAAATTGTATTGTTTTAAATAATTAATTATGTTTTTATAATCATTTATATTAGATTTAAATTTACTAATATCATTTTTTAAATCTGTTATTTTTAATAAAGTAATTAAAGGTTTGTTTTTATTATAATCAGAATCTTTTAAAGTTATACCTATTAAAAAATAACCTTGTTGATCTATATTATCAATTTGAGTTCAATTATAAGCTTGACGTGTTGATAAAAGATTTAAAACTTTTTTATAATTGTTTTTATTTTTTAAGTTTTTATTATATTTAAAAGCAGTACTTGCTCCATATAATGAAATGATTAAACCAAAAAAACCTAAAACTAAAATTAAATAAACAGCTCATGTTGGTATATGACTAGTTTGTTGAGTAAATATAATCATTATTTATAATCTTTTAATTCTTTTCTTTCTGTATCTCTTTTTTTAATAGTTTGTCTTTTATCATGAAGTTTTTTACCTTTAGCCAAAGCGATTTCTAATTTAACATAATCATTTTTAAAATATAGTTTAACAGGAATAATTGTTAGATTTTCTTGTTTTATTTTATTTAATATTTTAATTATTTCTTTTTTATGTAATAACAATTTTCTAGTTCTAGTTTCTTCTAAACCTTTAATATAATTAGCAAACTGGTATTTTTTAACATTCATATTTAAAATATAAATCTCTTTTTTTCTAATTAAAACAAAAGCTTCATTAATAGAAACATCATGATTTCTAATTGATTTAATTTCTGGACCATTTAAAACAATTCCTGCTTGATAAGTTTGAATGATTTCATAATTAAAATAAGCTTTTTTATTTTTAACAATTAAATGTTCAGACATAAAAACCTCTTATTCTATTAAAACAAAATCAATTGTTCTTTTTTTAATATCAACATTAATTAGTTTAACTTTGACTTTTTGACCCATTCTATAATAAGTATTATCAGGTTTAATTAAAATACGGTTAGTTTCATCATAAACTAAATCACTATTCATATTTGAAATATGAACTAATCCTTCAACTAAATTATCTAATTGAATAAAAATTCCAAATTTTAAAACTGCTGAAATTGTTGCTGTATAAGTATTATTAACTTTATTTAACATATATTCACACATACACGCTTTAATAACTTCTCTTTCACATTCAACACTTTTAGTTTCAGTATCATTAATAATATTACTTACTTTATTAACATAATTTGTATTATTTTCTAAACTAGTTTTTTCTAGATCTTTTGTAATTAGATATTGTTTTAGATATCTATGAACTAATAAATCTGGATATCTTCTAATTGGAGAAGTAAAATGAGTATAACAATCACTAGCTAAACCAAAATGACCAATATTTTCTAATCCATATTTAGCTTTATCCATATATCTTAATAAAGAAATATTTAATAATTCAACTTCAGTTTCATCTTTAATTTGTTCTTTAATTTGACTTAAAGTGTGATTAATAAATATTGGATCTAAAACTTGTTTATTAGTTAATTTAGGATTAATTCCAAATGTTTTTAGTGATTTATATCAATTAATTAGTTCATCTTCATCTGGTTTATTATGATTTCTATATAAAAATGGTAAATCTTTTTGATAGATTAATTCAGCTACTGCTTCATTACAACTTACCATAAATTGTTCAATTAATTTTTCAGCTTGATCAGCTGTTTTTGTTTTAATATCAATTACATTTAAATTTTTATCTAAAATAATTTTTGGTTCTCTAACATCAAAACTAATAGTTCCTTTTTTAGCTTTTAGATCTTCTAGTTTTTTATACAACTCATATGCTATGTCTAACATTTTTTTAGTTTGATCATCATGAGTTCAAGTTTTAGTTTTAAAGTAATTATTTACTTCATCATAATTTAATCTAGCTTTAGAAATAATCACTGATTCATAAACTTTTTTATTTAACATGTTTGCGTTATTATCAAATTCCATTTCACATACAAAAACTAATTTTTTAGTATTTGGATTTAATGAACACAAATCATCAGATAAAATGTTTGGTAGCATTGGAATTACTTTATTTGCTAAATAAGTTGAATTACCTCTTAACAAAGCTTCTTTATCTAAAGCGGTTTTATATCTAACAAAATAAGAAACATCAGCAATAGCAACAAATAGTTTATAATTATTGTTTTCTAATTTTTCAACACAAATTGCATCATCTAAATCTTTTGAATCAATTCCATCAATTGTAACGATCGTTTTATTAATTAAAGAATTATTTTGTCTTTTTAAAAATTCTTTTTCTAGTTTATCAGTTGCTAAATTAATTTGTTTTGCATTATCTAGAGTTTGTTTATCAAAACTAGTTTTTATGTCAAATTCTTCAGCTATTGCTAAAATACGATCGCTTGCTTTTTTACTATTACCAATAATTTTTATAAGTCTTATAAAAATTTTACGTTCTTTACAACTTATAATTTTTGCTTTAATAATATTAAATTCTTCATATTTAAATTCATTTTTATTAACAATTACAAATCTAAAACTATCAAATGACTTATCGTTTGGAATGAAATCTAAAAATCTTTTATCAAAACTTCTATTTATTTCACCAATTAAATAAACTTTATTTCTTTTAATTAGATCAATAACTATAGCTTTTAATCTATTATCTTCTTCTTGTTTTAAAATATAAACTACTTCATCTTGATGAATACTATTATTTAAATCAACTCCAGCAACAAAATGATCTTCTGTAGTTAAATCATTAACATCATTTATAAAACCAAAACCTTTTGGATTTAATTTAATAGTTCCCTTTTTATAAATTTCATCTAATAAATAAATATTATTTTCTAATGAAATAGCAATGTTATTATTTTTTTCTAATTGGTCTAAGTAGTTTTTAACTAATGAATAATCTAGAGCTTTAAAATAAGTTAAAAGTTTATTTAAACTAATTTTATGATGGTTCTTTTTTAAAATTTCAATAATTTTAGATTCCATACTACTCCTTTTTAAATAAAAAAATAAACACTAGTTTATAACATAGTGTTTGTAATGATGCTTATTGTTAAAGCTATTATAAAAAATATAATTCCTAAAACCAGCATTCAAATAGAAAGAGTTTTGTCTAACCCACGTTCTTTTGAATTAGAAAACAATTCTTCGTTTCCACCATTTAAAGCACTTAGTCCAGTTTGAGATTGTTTATTTTGTAATAAACCTATAGCGATCATTATAAAAGCAATAATAAAAATAAAGATTTCAAATCCTAAAATTAATTGTTGAGCTAATTTAGTTGTTGAAGCTAATAGATTTATCATAAAAACCTCCAAAATGTTACTATATAATAATATCTTAAAATAAGTGAAATTTAAACATTTACTCTTAATACGTTATATAAAATTATATACTTTTTTAATGTGTTATTACTTTCTAGAAATTGATTTTTCCTATTTTTAAATATCACAAAAAAAATAAAAATCTAGTTAAATATACTCAATTTTTACTATTAAAATACTATTACAAGTCATGAAATTCTTTTTAAGTGGTTAAATCTTAACTTTATCAAATTTATAATATAATGAGTTTACATGACAAAAAAAGAAAGGATAAATTACTATGGCAAAAGAACAAAAATATTATCATGAATCAGTTTCACCAATCGAATTTGTTAAAAATAATTTTAAAGGAAATTTAAGATCAGTTAATTGAAATGTTATTAATGATGAAAAAGATCTAGAAGTTTGAAATAGAATTACTCAAAACTTTTGATTACCAGAAAAAATTCCAGTATCAAATGATTTATCATCATGAAGAAGTTTATCTAGTGAATGACAACAATTAGTAACTAGAACTTTTACTGGTTTAACTTTATTAGATACAGTTCAAGCAACTGTTGGAGATGTTGCTCAAATTGAACACTCATTAACTGATCATGAACAAGTAATTTATTCTAATTTTGCTTTTATGGTTGGTGTTCATGCGCGTTCTTATGGAACTATTTTTTCAACATTATGTTCAAGTGAACAAATTGAAGAAGCTCATGAGTGAGTTGTTAAAACTGAAACTTTACAAAAAAGAGCAAAAGCTTTAATTCCATACTATACAGGAACTGACCCATTAAAATCTAAAGTTGCAGCCGCTTTAATGCCTGGATTTTTATTATATGGGGGATTTTACTTGCCATTTTATTTATCTGCTAGAGGTAAATTACCAAATACTTCAGATATCATAAGACTAATTTTAAGAGATAAAGTAATTCATAATTATTATAGTGGTTATAAATATCAAAAAAAGGTTGCTAAATTACCAGTTGAAAAACAAGCTGAAATGAAAGAGTTTGTTTTTAAATTATTATATGAATTAATTGATTTAGAAACTGCCTATTTAAAAGAATTATATGCTGGATTTGATATTGTTGATGATGCTATTAGATTTAGTGTTTATAATGCTGGTAAGTTTTTACAAAACCTAGGATATGATTCACCATTTAGTGAAGAAGAAACTAGAATTGAACCAGAAATTTTTAACCAATTATCTGCAAGAGCTGATGAAAATCACGATTTCTTTTCTGGAAATGGTTCTTCATATGTGATGGGAGTTTCAGTTGAAACAGAAGACGAAGACTGAGAATTTTAGGAGTTATTATGCACTCAAATGTTAAAAAAGTTACAGATAAAGATGTAATTAAACCAGTTGGTATACCTTTTGTAGTTTATTTTTCTTCAATTTCAAATAACACTCATAGATTTATTCAAAAACTAGAAATTGAAAATATTAGAATTCCTTATGAATTAGATCAATCAATCAGTGTTGATCGTGATTATGTTTTAGTTACTCCAACTTATAGTGGTGGGGGAGAATATGTTGAAGGTGCTGTACCAAAACAAGTAATTAAATTTTTAAATAATAAAGAAAATAGAAGTTTTTGTAGAGGTGTTATTTCATCTGGTAACACTAATTTTGGTGATACTTTTGGAATTGCTGGACCAATTATTTCTAAAAAATTAAATGTTCCTTTTTTATACCAATTTGAATTATTAGGAACTCAACATGATGTTAGTCAAATAAAACAAATACTATTAAAGTTTTGAGAGGATGGTAATAATGAAAGAAAATAAAAACACAATCGTTTTAGATGATGTTGATGATGAATATATTAAATTAAATGCTAGATCTAAGATTTTTTCAAAAGATCAAGATAATTTTCAATTAGATGTTAAAGCAGCTGAATTGTATTTAAAAAACTATATTGAACCTAGAATGAAAAAGTTTTCTAGTTTAAAAGAAAGATTAGATTATTTATTAGAAAATCAATATTATGATTCAGAAATCTTAAATAAATATAGTTTTGATCAAATTAATCAATTAAATGATTATGCTTATTCATTTAACCATCATTTTCCAAGCTTTATGGGAGCTTTAAAATTCTTTAATGCTTATGGATTAAAAACTTTTGATACTACAATGTATTTAGAAACTTATACAGATAGAGTATTAATGAATGCTCTATTTTTAGGTAATGGTAATTTTACTAAAGCAAAAAACTTATTAAAAGATATGATGTTAGGTAGATTTCAACCAGCAACTCCTACTTTTTTAAATGCAGCTAAAAAACATAGAGGAGAGTATGTTTCATGTTATTTACTAAGAACAGAAGATAACATGGAATCAATTTGTAGAACAATTTCAACTTCATTACAACTTTCAAAAAGAGGTGGGGGAGTTGCGATTTGTTTAACAAATTTAAGAGAAACAGGTTCTCCTATTAAAAATATTTCAGGTCTAAGTTCAGGACCAATTCCAGTAATGAAGATTTTAGAAGATTCATTTACTTATGCTGATCAATTAGGTCAACGTCAAGGAGCTGGAGCTGTTTATATTTCAGCTCATCATCCAGATATTATTTCAGTTTTAGATACTAAAAGAGAAAATGCTGATGAAAAGATTAGAATTAAATCTTTATCATTAGGATTAGTAATTCCAGATATCACTTTTGAATTAGCTAGAGATAATAAAGATATGGCTTTATTTAGTCCTTATGATGTTCAAAAAGTATATGGTAAGCCATTATCAGATATTTCAATTACTGAAAAATATTATGAAATGTTAGAAAATCCTAATATTAAAAAAACATATATTAGTGCTAGAAAATTTTTTTTAACTGTTGCTGAATTACATTTTGAAAGTGGATATCCATATATTTTATTTGAAGATACTGTTAATAGAAGAAATGCTCATGATAAAAAAGGAAGAATTATCATGAGTAATTTATGTAGTGAAATTGTTCAGGTAAGTACAGCAAGCGAATATAGTTCTGATTTATCATTTGTAAAAACTGGAGAAGATATTTGTTGTAATTTAGGTAGTTTAAATATTGATAAGATGATGAAATCTGGAAAAGAATTTTCAGATTCTATTTATAATGCAATTTCTGCTTTAGATATTGTTTCAAGAAATTCAGATTTAAGTGCTGCTCCTTCAATTCAAAAAGGAAATGCACAAAATCATGCTGTTGGATTAGGAGCTATGAATTTACATGGATTTTTAGCAACTAATAAAATTATGTATGACTCACCTGAAGCTGTTGATTTTACTAATATGTTCTTTTATACAGTTGCTTATAATGCTTTTAAAGCTTCAAATAAATTAGCTCAAGAATTTGAAAAATTTGCTTCATTTGATGAATCAAGATTTGCTGATGGTTCTTGATTTGATAAATATACTAAATGTGAATTTGATAAATGAACACCACAAACAAATAGAGTAAAAGAATTATTTAAAGATTATGATGTTCAAATTCCAAGTCAAACTGATTGAATAAAATTAGTTGAAGAAATTAAAAAAACAGGTTTAGCAAACTCACATTTAATGGCAGTTGCTCCAACTGGATCAATTAGTTATTTATCATCATGTACTCCTTCACTACAACCAGTAGTTTCAACTGTTGAAGTTAGAAAAGAAGGAAAATTAGGAAGAGTTTATGTTCCAGCATATCAAATTAATTTTGATAATATGGGATATTATGCAATGGGCGCTTATGAATTAGGACCAGATCCAATTATTAATATTGTAGCAGCAGCTCAACAGCATGTTGATCAAGCAATTTCACTAACTTTATTTATGACTGATAAGGCAACAACTAGAGATTTAAACAAAGCATATGTTAATGCTTTTAAACAAGGTTGTTCTTCAATTTATTATGTAAGAATCCGTCAAGATGTTTTAGAAAATAGTGAAAACTATGAATGTGATGCATGTAAAATTTAAAAGCTTAAATTCAACAATTTACCTTGCTTTTTTTAAAAAATGCAAGGTTTTTTTGAAAAAAATGTAATATTTTTAATTATTTTTCTAATACTAATATGAGGTGAATTATGTATAAGAAAAATAAGAAACCAAAATATAATAAAGAGAAAACTATTTGTAAAGAAATAGGTTATTTCTTAAACAAAAATAATGAATATCAAATACATCCTTTTCCATCAACTGTTAATAAAGTTCCTAAGAAACTACCTGAATTCATTACTAATTTAACATTAGCTTTTTGGAATAATGAAAATGAAATAATTTGTAATCTTGATAAATGAAATCTTAAGAATGTTACATCATTAAATAGAATGTTTAAAGGTGCTAAAAGTTTTGATCAAGATATATCTAACTGAAACACTAGTAATGTTGTTGATATGCAACTTTTATTTGATGGAGCTGAAAATTTCAATCAAAATCTAAATAAGTGAGATACATCAAATGTTTTAAATATGGAAGCTATGTTTAGATCTGCTTATCTTTTTAACATAGACTTAAATAAGTGAAATACATCTAAAGTACAAAATATGAGATCTATGTTTTATGAAGCACGCTCGTTTAATGGCGATATTTCAACATGAGATGTAAGCAGTGTTAAGTATATGGAATATATGTTTTACGGTGTCTTAAAATTTAATCAAGATATTTCATCTTGAAATATCAAAAACGTAATTAATACAAGATCTATGTTTAAGAATGCAATAGGATTTAATCAGAACATTTCATATTGAAACACTTCTAATATTAAGGAAATGAGTTGAATGTTTCATAATGCTAGAAATTTTAATCAAGATATTTCATCTTGAAATGTATCAAAAGTTAATTTATTTAATAGTTTTTCGAATAATTCGAAAATAGATAAAAATAAGAAATATTTACCAAAAAAATTTATTTCTAAAATTTCTAAAACATAATTACTTAAATAAAATATACTATAGTTGTATAATATGTTTTTTAAAAATGGGGGTGTAAAAATGAAAGTATCACCATCTGTGTTTAGTAACAAAAGGACTAAAATCTCAGAATTAGGAAAAGATATTTTTAAAAATGAGCGTATGGAATTTAACCATAAATATGGCTTAGATGGTCTTGTTATGTTAAACAATATAAAAGACAATGCCATTCCTGTTGTTTTTTTTGACCCTCAGTATAGAGGTGTTCTAGATAAATTATCATATGGCAATGAAGGCAAACGACAAATAAAAAGATCAGAATTACAACAAATGACTGAAGAAAAAATAGTTCATTTTATAAGGGAAATGGATAGGGTTCTTATCCCAACAGGTCATTTATTTTTATGAGTCGATAAATTTCATTTATGTCAAGGAATTTCGGATTGAATAAAAGATACATCATTATCTATTGTTGATATGATTGTGTGAGATAAAGAAAAAATGGGTATGGGCTATCGTACAAGACGCCAATGCGAATATTTAATTGTTTTACAAAAAAAACCAATTAGAGCTAAAAATGTCTGAAGATTAAGAAATATAAGAGATGTTTGAAAAGAAAAAATAGTAGACAAAGTTCATCCTCATCAAAAACCTATAGAGCTACAAAAAATATTAATTCAAGCAGTCTCAAATCCTGGTGATGTTATTATGGATGTTGCTGCTGGTAGTTTTTCAGTTTTAACAAGCTGTATTGAAACAGGTAGATTATTTATAGGAACCGATATAAAGGAAAAGCAATAATGGCATTAATAGAAAAAAGAAAAAAGGAAAGAATAACAAGTGGTTCTTATGAACGTGTTTTTGGAAATAAGGAATTAGGTTCCTTAATAAGTATGGTGCATTCTACATCTATCTCAAACGGTAACGAATTAGAGAAAATCATCTTAAATAAATGCAAAAAAGTGGTGAAGGATGCAAAGGAGCTAAATTCCATTTTACAAAAGGAATTTGATGATAGTTGAGATGTTATTATAGTTCCTAAAAAAGTTATTAAAAATTCATCAATTAAAAATTCAATGGAACCAGACTTTTTAATAATCCAAAAATCCAGTGAGACATTAAATATAATAGAACTTAAAGATGGATGAGTTTTTGATACAAAAAAGGTCGCAGGAGAGTATCAGCAGTTAATAAATTTTCAAAATGAAATATCTAAATCAATAAGTTTTATAACAAAAATTTGGATATGCAGTTTCAATAATGATAGTAAAGAAGAAATTTTTTTAGGTTTAAAAAGTAAAGTTCCTATCAAACATATTATGACAGGTGAAGAGTTTTGTGATCTATTGAATATAAGTAAGCAAGAAATTCAAAAAGAGAGACAAAGAGATAGTGAGAAGAATTTAAACTTTTTTATCGCTGAACTTTTAAAAATAGATGATGTAAGAAATAGAATAATTGAAGAATTATCGAAATAATCACAAGTTTAAACAAGGTTGCTCTTCAATTTATTATGTAAGAATCCGTCAAGATGTTTTAGAAAATAGTGAAAACTATGAATGTGATGCATGTAAAATTTAATAAATTTTTAACCAAGTATTAAAATTTTAGTATTTGGTTTTTTTATTTTTTTAATAATAAAAAAACAATTTTTAAAAAGTAGTTTTTAATTCTTATCTTAATTTTTTATTTTTAAATTTTTACTAATTTTATTGGAATAGAAGTTAAATAATATTATAATGAATTTTTCGATATCTTTTTTAGAAGATATTTTTAAAACACGTTCTTAAGGAGAATTTATGAAAAACAACTATAAGTCATTAGTTATTGTAGGTAGCCAATGAGGGGATGAAGGTAAAGGAAAAATAACAGATTATTTTAGCCAAAAAGCTGATGTTGTTGTAAGATTTGCTGGTGGAGATAATGCTGGGCATATGATTGAATTTAATAATAAACGTCATAAAGTAACAATTATTCCATCAGGAGTATTTAACCCTAAAGTAAAAAATATTATTGGTAATGGAACAGTAATTAATTTAAAAAGTTTAGTTAATGAAATTAAAAGATTAAATGAATCAAATATTAGTACTGATAATGTTTTTATTTCAGATAGAGCACATCTAATTTTTGATTGACATACTTTAATAGATCAATTACAAGAAGAAAATAGAAAAGAAAATAAAATAGGTACAACAAAAAGAGGAATTGGTCCTACTTATGCTGATAAAGCAGCTAGATATGGAATTAGAATTTGTGATTTTCAAAACCCTAATTTTAAAGAGATATTAAAAGAAAACTTAGATTATCATAATCAAATCATTACTAAAGTTTATAATCATGAACCTTTAGATTTTGATGTTATTTATAATGAATTAATAACAAATTATCAGTTTATTAAAAATAATATTATTGATAGTGGGTATGAAGTTTCTAATTTAATTAATGAAAATAAATTTGTTCTATTTGAAGGAGCTCAAGGAGTTTTATTAGATATAGATCATGGGACTTATCCATTTGTAACTTCTTCAAATTGTTCAGCTAATAATGCTTCAATTGGAACTGGAATTCATAATAAACAAATTAATAAAGTTTTAGGAATTGTTAAAGCTTATAATACTAGAGTTGGGTCTGGAGCTATGGTTAGTGAAATTAAAACAGAACTAGCTCATAAATTAAGAGAACGTGGAAGAGAATATGGATCAAACACTGGAAAACCAAGAAGAATTGGATGATTAGATTTAGTTGCTTTAAAATATGCAATTAGAGTTGGTGGAATTGATCAATTATTTTTAACTTTATTTGATGTTTTAGATACAGAAACAAAAATTAAAATTTGTACACATTATAAACTAGATGGAAAAATTATTGATTGATTTCCAGCAAGTGATTATGAATTAAAAAGATGTGAACCAGTTTATGAAGAATTAGATGGTTGAAATCAAGATATTACTAAAGTAACTTCTTTTGAAGAACTACCAATTAATGCTCAAAAATACATTAAAAGAATTGAAGAAATTGTAAAAGTTCCATTTCTAGGATTTTCAGTAGGACCAGATCGTAAGCAAACAATCTTAATTAAAGGTGAATTTGATGATTAGTAGATATCAAGTTAAAGAAATCACAGATATTTGAAGTGATCAAAATAAATACAACACTTGGTTAAAAATTGAACAATTAGTAACTAATGGCTGAGCTGAAATTATAAAAATCAATAAGGATGATCTTTTTAAAATTAATAATGATTTAAAAGTTGATTTAAATAGAATGTTAGAAATTGAACAAGAGACAAAACATGATGTTGTTGCTTTTACTAGAATGTTATCAGAACAATTAGATAATGAAAGTAAATGAATTCATTTAGGAATTACTTCAACTGATATTGTTGACACTGCTCAAAATTATTTAATTAAACAATCTAATCAAATTGTTTTTAATGAATTAGAAAATATTTTAAAGACCTTAAAAACACTAGCTTTAGAACATAAAAATACATTAATTATGGGAAGAACTCATGGAATGTATGGTGAACCTACTAGTTTAGGGTTAAAGTTTTGTTTATGATATGATGAATTTTTAAGACATATTAAACGTTTTGAATTAGCTAGAAATGATATAGAAGTTGTTAAAATATCAGGATCAATGGGAAATTATGCTAACTTAGATCCACAAATTGAATTATATGTAGCTAATAAATTAAATATGAATATTGATAGTTTATCAACTCAAGTAAGTCAAAGAGATAGACACATTTTTTTAGTTGAAGTTTTAGCAAATATTGCTTCAACTTTAGAAAAAATTTCAACTGAAATTAGATTATTTCAAAGAAGTGATGTTAATGAACTTGCTGAAGGTTTTTTAAAAAACCAAAAAGGTAGTTCTTCAATGCCACATAAAAAAAATCCAATTTCTAGTGAAAATATAGCTGGATTAAGTAGATATATTAAATCAATTGTTCATATTGTTTTAGAAAATAATAATTTATGACATGAAAGAGATATTTCTCATTCTTCAAATGAAAGAATTTATTTACCAGATATTTTTAATTTGACTGTTTATATATTAAAAAGAATGAATGAAACATTAACTAATTTAGTTATTAATAAAACTCAAATGTTAGAACACATTAAACAAGCTAAAAATATTTACTTTTCTCAAAGAGTTTTAACATTTATTTTATTAGAACAAACAAATGTTACTAGAGATCAAGTTTATGATTTAATTCAACAAATCACTTTTAAATGCTCTAAAAATAATTTAGATTTTAAAACTGAAGTTTTAAATAGTAAATTAACTGAATTTGTTTCAGTAAAAAAAATAGAACAACTTTTTGATGATCAATTCTTTTTAAGACATGTTGATTATATTTTTAATAGAGTGTTTAATAAATAAGTTTTTATATTGGTATTAATTAAAATGGAGTTAAAATGTACGATTTAAAAAACATAAAAAAAGTTTTATTTACTAAAGAACAAATCAATGAACGTATTAAACAAGTAGCTAATCAAGTTAAACAATATTATTTAGAGCATCCACCAGTTAATGGTCCTTTAATAACAGTTGGATTATTAAAAGGTTGTGTTATTTTTAATACAGAATTTGTTTTAAATTTTGATTATCCTATTCAAATGGATTTTATGGCTGTTTCTTCATATAATGGAATGCAATCAACTGGAGCAATTAAAATTAAATTAGATACTAGTTTAGATTTAACTAATAGAGATGTTTTAATTGTTGAAGATATGGTTGATACTGGATTAACTTTAAGTAAAGTTAAAGAGCATATTATATATAAAGGAGCTAATAGTGTTAAAGTAGTAACTTTAGTTGATAAAAAAGATTTTCATACTGTTGATTTTACTCCTGATTGAAATTGTTTTAATATTGATGATTATTATATTGTTGGTTATGGTTTTGATTGTAATGAAGATTATAGAAACCTACCATACATAGCTTTATATCAACCAGATAATAATTAATAAGGTTCTTAAATATTTAAGAACCTTTTTTATTATCTTATTACAAGTTTGTATTAAATTGCTTGTAAAAAAAAAAAAAAAAAAAGTATTGCGAGTTGATAATATTGGATTAACCAAGCATATTGGTAATAAATAAAAAAATAAAGAAAGGTTGTGCTTTAAGTGAAAAAAGTCTTAACTACATTAAGTGTTTTAAGTATGATAACTATACCTATAACAATAACAGTTTCTTGTTCATCATGAAGAACAGCACCAATGACAGTTAAACAAATTTCAGATGTTTTAGATATTTATAAAAATGAATCTTTAAAGCAAATAAATTCTGATAATGTTGTAGTAATTAAGGCCAGTGGTCTTTCTAATATAGACATAAACTCTTTACAAAAAATCAAAGAAAACAGAGAAAATAAATTAAATAAAAAAATTGAAGAAAATTCAAAACTTATTATAGATAAACTAACAGAAAAAATATCATCTGTTGTTTCAAATAAAATAATCAATTTTGAAACTATTAGTTCTGATAAAACCAATCTAAAAGACGATATTTTTTCAAAACAAATAACAAAAGATTTTATTAAAGAAAAATGAAAACCATATTATCTTACTATTAGTTTAGCTGATATTAATTTCAATTCTTTAGTTTCTCAAAATAAAGATCAGTGATTATCTAAATTAAATGGTTTACAAACTGTTACTTTTAGAAATAAAGATAAATCTATTTCTATTGATAAAACAAATAAGCCTAAATGATTTGATACTAGTATAAACAAAGTATCTATTATAGATTCACTAAAATTAGACTCTATGTTATCTTCAAAAACTGATACAAATTTAAAAATAAATAAAATTGTTTATTTAGTATCATTTAATGCTAATGTTTTAAATTTTAAAGATGCAAAAAACGTAGCTTTTTATATTGAACACGATTTAAATAACTAGAAAGGAGAATTAGTATGTCAAACGATAATAAAACAATTGTTTCTAGTAACAAAGATCAATTAGAAGGATTAAAAAATATAGTTGCTATTACTGCTTGTGCTGCTGGTGTTGCTCATACTTATATGGCAGCTGATAGTATTAGTAAAGCTGCAAAAGCACTTAATATTAATGTTCATGTTGAAACACAAGGAACAATTGGTGCTGAAAATGTTATATCAGATAAACAACTACAACAAGCTGATCTTGTTATAATTGCAGCTGATGTTAAGATTGATACTTCTAGATTTAATGGTAAAAAAATTTATATAACAGGTGTTAATGATGCAATTAAAAATCCTGAATTATTAATTAGAACAGCTTGACAACAAGCAGTAGAACAAGGTAAAAAAGGAACCAAAGTTGGTGTTTTTACAATTGGAGCTACTAAGAAAAAAGGTATATTAAACCATTTAATGACAGGTATTTCATGAGTATTACCATTAATTATTGCAGCAGGAATATTAATGGCTATAGCTAATTTATCTGCATTTCAAACTATTTATTCAGATCAGGTTGGAGATTATACTCAAGCTTGAGTATTATATGAAAGACCTTTTCCACAATTTTTAATGAATGTAGGTTCTTTAGGATTTAAACTAGTAATACCATTATTTTCTGCATTTATTGCATATTCAATTGCTGATAAACCAGGTATAGCTCCTGCTTTAATTGGTGGTTGAATTATTAATGATAATAAAATGCTAGGAATAAATGTTCCGGTTTCAGAAAATTCTTCTATTGAGCCAGGTGCTGGTTTTTTAGGAGCAATTATTGTTGGATTATTAGCTGGATATCTTGTTAAATTATTAAAGTCTTTACGTTGATGAAAAATTTTAAAACCTGTTGTTCCATTAATGATTATTCCTATTATTTCAGTATTTATAATTAGTACTTTTGTTAAATTTGTTATTGGAGCACCTATTGCTAATTTAGTTTTAGGATTATTTGATGGTTTATCTGCTTTACAAGATAAATTTGCTGGAACTTCATTTGTGATTGCTTTAGTTGTTTCAATGATGATTGCTTTTGACTTAGGAGGGCCATTTAATAAAACTGCATTAGTATTTGGTACTGTTGTGTTTTATCAATCACTAGCTCAAGTGTTATCAAATGGACAAACTTTTTGAGATGCAAACTTTGTTCCTGGAACAGCAGCTCAAGCAGCTATTTCAGTTCCACCTTTAGGAATGTTTTTAGCAACTTTATTATTTAAAAAGAAATTCACACAAAATGAACGCGTTATGGGAAAAGCTGCTTTTGCTCAAGGTATTGTTGGTATTACAGAAGGAGCAATACCATTTGCTGCAACAGATCCAATTAGAGTAATTTTTGCAAATGTAATTGGTGCTGCTGTTGCTGGAGTTGGTGTAACTTTAACTAATGCTAAATTTGCAGCAGGTTTAGGTTCACCTATAGGTGTATTTTTAGGATATATTCAATTAGATGGAATATTAGGTTGACCAATGGGATGAATTATTCCTATTTTACTAGGTATTTTAACAACTGCTTTAATCATAGGATTTACAAAACCAAAAATTAAAGGAGAAGAATTAGAACAATTAGAAAAAGAATTAAAAGATAAAAAACTAAAACGTATTCAAGCACATAAAAACTTTAAACAAGCAATTAAAAGTCCTAAAATGATGTTTACTTTAATTAAAAAAGTGATTAAAAAATGATGAACTAACTATATAAGTGAAGTTAAAGAATTTTATTTAAATGCTTGAAAAGAAATTAAAAAATACTTTATTTTAAAATGAATGAATACTAAAAATTTCTTTAATAGATTAAAACAAATGTTTAGTAAGAAAAAATAGGAAACTTTATTATGTCATGAAACATATATGTTGTTTGTCACACACATTGAGATAAAGAATGATATTTTACAAAACAAGATAGTGATGTATTATTATGTTCAAATTTAAATCAAATAACTAAAATATTAAGTTCAAATGATGAATATAAATCATTTACTTATGATGGTCAAGTTTCAATTATTGATGATTATTTAACATATTATCCAGAAAATGAAGCACAAATTAAAAAACTGTGTGAACAAAAAAAGCTTATAGTTGGACCATGATATACACAACCAGATTTTTTTAACACAACTTCTGAATCAATAATTAGAAATTTATTAATTGGTATTAATTTATCTAAAAAATACAATGCAGATTATTTAAAAACAGCTTATGTACCTGATTCTTTTGGGCATAATAACCAAATGCCTCAAATTTATAAAAGCTTTAATTTAAATAATTTTATTTATTGAAGAGGTATAAAAAATAGTCAATTAAAAAAAGCTGGTACTTTACATTATTGACAAGGAATAGATAAAACTAAAATCACCTCTTATAACTTTTATTATGGTTATTGAGTACTTGGTTCAAAATTTGCTTATACTAAATTAACAAAAGATAATTTAAAAAAAGAAGCTATAGAGTTTTTAAAAAATATTACTCCAATCTTAAATCAATTAAAAAAAGTAACCAAAAATTCAAATAATAATTTATTATTACCACTTGGTGGAGACCAAGCTCCAATTGTAGAACTAACTCCAGAATTTTTTAAACAAGTTAACAAATTATCTAATGATAATTGAATATTAACTGATTATGACGCTTATTTTAAAAATATAGATAATAGCAATTTAAAAACTATAAAAGGCGAATTAAAATCACCATCTAAAGCAAGAATTCATAAAACAATAGCTTCACAAAGATATGATATTAAACAATTATTAAAAACAGTTGAACATAATTTATATAACGTTTTAGAACCACTAGCTATATATTACAAATATTTAACTAATAAATACGAAAAACAAATCATTAATAATGCATTAAAACTAATTTTAACTAGTCAAGCTCATGATTCAATAGGGTGTTGTAATTCAGATGAAACTAATTTAAATATTTATAATAGATTATTACAAGCTAATTATTTAATTGAATCTCAAATTACTAAACTTATTAAAAATTTATCTTTAAATATTAATTTAAAAGAAAATCAAGTTTTAGTATTTAACTCTAATTCATTTTATAAAAACAATATTTTTAAAGAACTAAATATTTTTACTTCATTTAATAATTTTAAAATTTATCATAATAAAAAAGCTGTTGATTTTATTTTATTAGATCAACAATATCATGATGATGGAATGATTGTTAATTTAGAAAAACAAGGAGAAATAAGTAGTAAAACTAAAGGCTTTTATAGTTCAAAAATTATCATTAATAATTTAAAAATAGACCCTTTCAAATTTGAAATTTTAGATATAGTTCAATCTGATAAAAAACCAACAAATTCTAGTTTCAATAATATAAAAACTAATAGATTTGATATATGAATTAATGATGATAATACTATTACTTATTTAGATAAAATCACTAATAAAAAATACCATAATCAATTTATGATTTATGCTCAACATGATTTTGGTGATTCTTATGATTATTCACCATTAACTGAAACAAATCAAATAATTTCAAAACTAATAGATATAAAAATTGATAAAGTAGAATACAGTTCTAATAACAATGTTTTAATTCAATTAAAAAATACTTATCAAATACCATATGATACAACAAAAACAAAATATATAAGTCAAGAATTTGATATTAGTTTATTATTTACAAATGATCCAATTATTAAAATAAAAATTAATACTTTAAATAAGGCAACACAAATAAGATGAAGAATAATTTCAAATTGTGATCAAATAAATAATTATTCTTATGCTGATCAATGCTATTGTGAAATAAAAAGACCAGTAGAACTAACTAAAGACTTATTAGTTTGAAAAAAAGAAAATTGAGTAGAAAAACCTGTTGGAATTGAAACTAATGAAAGTTATGTTTATTTAAAATCTAATAGATCAAAAACAGGATTTGTTACACTTGGTACTAATGAGTATGAAATTATTAATAAAAAAGAAATTCATTTAACTTTATTTAGAAGTATTGATGTATTAGGAAGAAATAATTTATTATGAAGACCAAATAGAGCTAGTGGTACTAGTGAGTTTAGTATAAAAACTGATGATGCTAGATTATTGTATAAAAATCTTGAATTTAATTTATATTGATTTGATATAAATAGTTCTACTAATATAGCTCAATTAGCAAATAATTTAATAACTCCAGTTTGTTATTATCAAAATCAAAGATTTAATAATTTAAAAAAACGTTTTGACAGATTTTTATTTATAAATGACAAAATAGATACTAATAAAATACCAATTTATTCACTTATTAAAAACTTAAATAAAAATATCATTATTAAAACAATAAAACTTGCTGAAAATGATGATTTTGTTATCATTAGATGTTTTAACAATTCAAAAACAAACCAACAATTTAGTTTATTAATAAATAATCAATTAGTAAGTTTTAATAAGTTAAATATGTTAGAAGAAATAAAAAATAAAGATCTTAAAACTGATTGATTAAGACCATATGAAATAGGTACTTATTCATTAAAATTATTTAAATAAAGGAAGATATGAATAAAGAAATATTTAATATAAATCATGTTTTTATAGATGTTATAGCTAATTCTAAAAAACAAGCTTTTGAAATTATTGCTTTAAAATTTCATCTACTAGGTTTTACAACAGATAAAAACAAAGCTCTTAAAGGTTTAAAAAAAAGAGAAAAAGAAGGTTCAACAGGATTTAATGATGGAATTGCTATTCCTCATGCAAAAATTAAAGAAATCACAAAACCTGGAGTATTTGTTTTTAAATTTAAAAATGGTGTTGAATGAGATTCTATTGATAATAGTTTAGTTACAATCGCTATTGCTTTAGCTATTCCAGAAAATGATAGTGCAAATGATCATTTAAAAATTTTAAGTAGTATTGCTAGAAAATTAGTTGATGATGATTTTAGAAAAGACTTAAATAAAGCTAATAATGTTGATCAGTTATATCAATTAATTAGTAAAGTTGAGATTATTTAGTATGGTATTAGTTTTTGATGTTGGTGGAATGTCTACTAAAATTGCTTTAATTGATAGTAAAACAGATCAAATTATAATAAAAGATCAAATAATTTATTCTAATTTTATAAATGGTCAATCTTTATTATTTGAAATTAAAAAAAAGATTAATCAATTTAAAAATAATGATCTAAAAGCAATTTGTATTTCTAGTTGTGGAATTATTAATTCAATTAGTGGAGAAATTTCAGGTTCTTCAGCTATTAAAGATTATTATTTAATAAACTATAAAAAAGATTTAAAAGAATTTAATATACCAATTTTTATTGAAAATGATGCTAATTGTGCTGCTATTTGTGAATCTGAAATAGGAGTTGTTAAAAATAATAAAAACGCTGTTTTTTTAGTAATTGGAACTGGAATTGGTGGAGCAATTATTATAAATAAAATGCTATATAAAGGAAGTAATTTATTTGCTGGAGAATTTGGATGTAGTTTAGCTAAGATTCAAAATAATCAATATATTAATGCTTCAGAAAGTTATTCAGCAAAAGCTATTGAAACTAACTATTTTACTTTAACAAATAAAAAAATAACAGCTAAAGAAATTTTTAATAAATATAAAGAAGATAAAGTTGCTAGAAAAGTTATAAATAAAACAATTAATGGTCTTTGTAAACTAATGATTAACATCACAACTATTATTGATCCAGAAGTGTTTGTAATTGGTGGAGCTATTAGTCAAAATCAATTATTTATCAACTTATTAAATAAAAAGTTTAAAAAATATTTGATTATGTCTAATATTAATTTAAATATAAAGATTAAACCAGCAATGTTTTTTAATGATGCTAATATTTATGGAGCTTATCTTTTATATAAAAAGGATTTATATGTTTAAATTTAAAAAAGATTTTTGGTGAGGTGCTGCTAGTTCTGGGTGTCAGACTGAATCAGATAAAGATAAACCAAATTTAAATATTATGGATTATTGATACAAACAAACACCAACAGATTTTTATGATAATAAAGGACCTAATATTACTTGTGATACTTATTCTAACTATAAAACTGATGTTAAATTAATGAGTGAAATTGGATTAAATAGTTTTAGAACTTCTATTCAATGAACAAGATTAATAAAAAATTTATATACAGGTGAAGTTGATTTAAAACAAGTAGAGTTTTATAGAAATTATTTTTTAGAAATTAAAAGAAATAATATTAAATTAATTGTTAATTTATTTCATTTTGATACACCTATTGAATTAGAAAATATTGGTGGTTGAACTAATAAAAAAACAGTAGAATTATATTTTTTATATGCTAAACAATGTTTTAAATATTTTAGTGATTTAGTTGATTATTGAACAACATTTAATGAACCTGTAGTTTTAGTAGATGGATGTTATTTAAATAAGTGATATTATCCAAAAATTAGTAACTTAAAATTAGCAGTTCAAGCAGCATACAACACAATACTTGCTCATTGTAAAGTAGCTAATTATTTTCACTCTTATTTTAAAAATGATCAAAATAAAAAAATATCAATAATATTAAACCTTACTCCAACAATACCAAAAAACAGTGAATTAAAACATTTAAAAGCAGCAAAAATTAGAGATGAATTACTTAATAAATCTTTTTTAAATGCAGTTATAAAAGGACAATTTAGTACTTTTTTAATCAAATTTTTAAATGAAAATAATCTAATGCCTGAATATGATCAATCAGAATTAAATGAAATTAAAAAAACAAGAATTGATTTTTTAGCTGTGAATTATTATCAACCAGCAAGAGTACAAGCACCAAACAATAATTTAAATAACTCAAATGATTTAAAACTAGAAAATTGATTTGAAGTATATGTTGATAAAAAAAGTAGAATTAATCCTTATAGAGGTTGAGAAATTCACCCACAAACACTATATGATATAGCTATAGATATTAAAAATAATTATGATAATATACCTTGAATAGTTTCAGAAAATGGAATTGGTGTGAGTGATGAAAATAGGTTTTTAAACAAACAAGGTTATATTGATGATCAATATCGTATAGATTTTATAAAAGAACATTTAATTTATTTATATAAAGCAATAGAACAAGGTTCAAATTGTTTTGGTTATCATATGTGAACATTAATTGATAATTGAAGCTGAGCTAATGGTTTTAAAAATAGGTATGGATTTATAAGTTTAGATACAAAAACATTAAAAAGAAGAATTAAAAAATCAGGTTATTGAATTAAACAAGTAATTAAAGATCAAGGATTTGAATAATATGGAAAAAAAGAAATTAGGAATTAGTGTTTATTGTAAAAAAGCAAATTTTGAACAAATTATTGAGTATTTAAAACTAGCTAGAAGCTATAATTTTGAAATATTATTTATAAGTTTTGTACATTTATTAAAAACAGATTATTTTAAAAATATTGATGTTATTAAAAAAGCAAAAGAGTTAAATTATTATGTTATAGCAGATTTTGATCAAACTAGTTTAAATAATTTAACTAAATCTAATGATCTAAAAACCATAAAAGAAATTGGAATAGATTGCATTAGATTTGATCAACAAATTGATGCTCAAAGTTTAGCTAATTTAACTTATAATCCGTATGAAATTGATGTTCAATTAAATATTAGTAATAGCTTTAATTTTTTAGATAATGTTTTAGATTTTAAACCTATTTTAACTAGATTAAGTGGCAGTCATAATTTTTATTTACTAAAAGATTCAGCACTAGATATAGACTTTTTTAATAAAACAACTGATAAATTTATAAGAAAAAATTTAAATACTTCAGCTTTTATATCAAGTCAAATAGCAAATATTACTTTAGCAGATAATTACACTAAAGCAGTAAGTTTAGAGTTTTTTAGAAACATAGATACAATCAGTCAAGCTAAATACTTATTTTATTCAAATAAAATTAATAATGTTATTATTGCAAATATGTTTGCTAGTAAAAAAGAACTAGAACAATTATCACTACTTAATAAAGATCATTTAACTTTAAGAATAAATAATTTACAAAAAATATCAAAAACAGAAAAAGAAATTTTATTGTGAAACAATCACTTTAGAAGAAGTGATATTAATACTAGTTATATAAGATCAACATTTTCAAGAACTATTTGAAATTCATTTGATATAAAACCAAATAATATTAAACAAGTATTTAATAAAGGTGATATTGTAATTTTAAATAATAATGCTAATAGGTATAAAGGTGAATTACATATTATATTAAAAGATAATTATATTGATAATAACAATTTATATAACTACATAGCATCAGTTTATCCTGATGAATTATATTTATTAGATTTTATTGATTCTAATAGTCATTTTAAAATATCATTGTAGTTTAAATAAAGATAATGTAATTAAAAAGAGAGATTTTAAATCTCTCTTTTATTTATTAAAAATTTGATTTATTATTTTTTATTATTTTTGCTTAGTTTCCAATGTATATATTTTTATTTTTGTTTGACTATTAAACAATAAACAAGAAATAAAAAACATTAATAAAAAAAGAATTTTAGATTTTTAATGGCAAACCTATTATTCCTAACAATACTTATAAATAATAACTAGTATTAATCAACTTTAAGTATTTTAAAAGTATCTAGGAACTTTAAAAATTCATAGTTTATTTAATATCTATTTTAAAACCTTCATACTCATAAGATTTAATAATACTTTTAATATATACAGTTCTATCATTAATTTTATTTGTTAAGTTGTTTTTAATTAGTAATTTAAGATTAGTTGAATCAATTAAAGAATTAATCATTGCTAATAAGTAATCATCTTTATTTATATTAGTTCAATTAACAACTACATTTAGTTGTTTTTTTAATATTAAATCTAATCAAATTCTCATAGATCTGCCATTACCTTCTCTAAATGGATGACAAATATTCATTTCAACATATTTATCTATTATTTGATCAAATGTATCTTGTTTCATATTATCAACAAGTTCTAAGTTTTGTTTTAAATATCTTGCTAAACAGAACATAGCATTATTTTTAGATATATTTACATTTCTAATTTGTCCATTAAAGTCAAATACATCTTTAAAAACATAAGAATGTATTTGGCTTAAACCTTTAAAAGTACCTATTTCAAATGTATTTAATAAATTCTTATCTCATAACTCTAATAAGTGTTTAACAGATAAATTAATCTCAAATTCTTCTTCTATAAAATTAGCTTTCATATATTTACTATTATTATTAACGTATTTATTTATGAATTAATTATATATTTTATTAAGTTTATAAAAAGTTAAATATTAATAAAAAATCTTATTAAATTAAGTCTAAAAACCATTTTTATTTTAAATTATAAAAAAACACAAAAAGTGTAGTAAATACAGGGTTTATTTAAAAAACCAGGTATTTTTAGCTTATTTAGAGAATTTTTTTTAAATTTCGTCAAAAATAGTATATACAAAAGAGAATAATTGCTTTATAATATATTGTTTTTTTTAAAAATAGTGCCAAAACCCCTTTTCTAATTTATAAATAAAATAAAATTAAATAGAATACAAATTATTTGAAAGTAAAACATGAAAAAGGATGGTTATATGAAAAAACTATTGGCCTTACTTGCAGTTACAAGTATTCTAACATCATCTGGATTGACTTATGTAATACATGAAAACGTTACTAGAAAATCTAACAGAGTTGATGAAAGAAAGACTTTTGAACAAGAATTAAAAGATCTTTCTATAAAATTAGATAATTACAAAAAAAACTTATATTCAACTGATAAGAAATTTAAAAACTTAACAGCTGAAGATATTTTAAATAACGGAACTATTAGATCATTAGAAAAGGATTTAGCTTATATTAATAAACAAATTGAAGCTAATAATAATGAAATTACAGCCAAAAATGATCAAATTAAAAAATTAACTGAAGATATTAAAACAGCACAAGACACAATCAAAAAATTAGAAAAAGAAAATCCAACTAATAAAACTAAGATTGAAGAATTAAAAAATTCTAAAAAAGAATGAGAAACAAAAGCATTTAATAGTAAAAAAGAACTAGAAAAAAAACAAAAAGAAGTTAGTGAATTAAAATCTCAACTAGAAAATGTTCAAGCTCAAAAACTTTCAATTGAAAAAACAATTAAGAATATTTCAAAAAACCTTAATTCATTAGATAAAAAATCAAAAGAAGAACAAGATCAAATTCAAAAACTTCAAAAAGATATTGATAGTTTATCTAAAATAATTAAGAAAAAAGAAGAAGAACTTGAACCTGTTATAAAAGTAAAAGATGAATTTAAAAGAGAAATTTTAAGACTATCTAGTGAAAAAAGTGCTATTGATTCACAATTAAATAAATTAAATGCAAATCAACAAAAATCTACTGAACTTAAAAATAAAGTTGAAGCTTTAAAAAAACAAAACAAAGAGTTGGAAAGCCAAATTAATAAACTTTCAGAAAGTAAAAAAAATTTAGAAGAAAGACGTCAAATATTAGAACTTGATGCCCAACGTGCTGTTAAACATTTAGTTGATAAAATTAAAGAATTATATGATCTAATTGATAAAACAAATAAAGAAATTAATAAATTAAACAAAGAATCAGATGATTTAAAACAAGAACTTATCCAATTGAATACTAATAAAAAGTATTTAGAAATGCAAAAAAATAAAATAACCGGACCTTTAGAAGAAAAAATTAAAAAAGAAAAAGAATTACAAGAAAAATTAAAAGATATTAAAGATACACTTTCTAAATTAGACCTTAAAAAAGAAAAACTTAAAAATCTAGAAAAAGAATTAAAAGAAAAAGAAACTGATATTGATAATTTAAACAAAGAAGATAAAAAAATACAAGAAGAAATTAAAAAAATAACTGAAGAAGTATCTAAAGAACAAAAGACTTTACTTTCTAAAAAATCTAAAGTAGATGAACTAAAAAAACAAATTGATAAAAAAGATGCAGAACTTGAACAAATTAAAAAGGATATTTCTTCAAAAGCTAATGAAATAGAAGGATTAAATTCTCAAATCAAAAATCTTGAAAAAAATAAAACAGAAAAAGAATCAAGATTAGCTGAGCTTGAAAGAGAACACAAAGAAAGTGATAAACAATTAGAAGCTGAAGTAACCAATTTAAATAAAGCTATAGTTTCAGCTAATAATGAAAAACAAGATAAAGAAAACCAAAAAACTGTTTTTGAATCTAAATTAGAAAAAATTAAAAAAGAAGTTGCGGTTGAAAAAGAAAAGAAAAATAAATTAGAAATTGAAATCGAAAAAGAAAATAGCAATATTAAAGAAAAAGAAAAATTAATATTAGAGCAAGATTCTAAACTAAAAGAAAACAAAAAGCAAAATGAAACTCTTAAGAATGAAATTTCTAAAACCAAAGAAGATATTAAAGAAGCTGAAAGAATAGTATCTGAAGCCCCAAGAAGAAAAGATGAGCTTCAAGAAGCAGATGTTACAATACATAAAGTTTTAGAAGAGCAAAATAGAGAAAAAGAAACTTTAAAAAATAAAATAATTGAAAAAAATAAGCAGATAGATGAGGTAAAAGAAAATATTAGAAAAGTTGAAAGAGACAAAGAATCTATAGAGAAAAAGAAAATTGCTAGAAATAGAAGAGTACGTTCATTAGAAAAAGAAATTCAATCTGGTAAAAACGAATACAAAAAAATTTGAGAAGATTTCTACAACAAAAATAGAAATACAATTTTAAATTACGACAAAGAAGAATATGAAATTGGTAATGAATATTTTGAATTACTAAGAAAATATAACGAAAATAATGATTTAGTATCTGAAATAACTCAACGAACTGGTGATATTGGATTAGAAATTGCAGTTTATACAAAAGAAAAAACTAAATTAGAAGAAAAGATAGCTTCTATTTCTAAAAAAATTAGTGAAGTTAAAATTTTAAAAAATACTTTAGATCAAGAAGCTTTAAGTATAGATAAAGAAAATAAAGATCAATTAGAACTTAAAAATGTATTAGAAAAACAAAAAGAAGAGTTAATTGCCAAGATAAATAAAGATCAAGTTGAACGTTCAGAAAAAAGTAAATTATTAGAAAGAAAAAGACGTGCATTAATAGAAGTTGATAAATCTGCAGAATCTATGCTAAGACAAATTGCTAGTGTTGAACAAGAAGTAGCAAGAGCTAACGATGAAGTAGAAAAAGCTAAACGTGCATCTCTTAACTCTGATGAACAACTAAAAAAAGCAGAACAAATAAATACTGAGCTTGAAAGTAAATTAAAACTAGAAAAAGATAAAAAAGCTTCAAATCAAAAAATAAAAGAAGAATATGAAAGAGAAAAACTTCAACTAGAAAAAGAATTAGATGAAAAAACCCAACAAAAAAATGCAATTAAATCTAAATTAGAAGAAGCGCAGGCTGAAAACAAAAAGATTTTAGAATCTATTACTAAACAAAATGAAGTTTTTGAAGCTCTTCAAAAACAATATAACGAACTAAAAGAAGAATTTACTGGATTTAATATATTTAAAGAAGAAGATATCAAAGAATTTATTACTAAAATAAATAGTTTTAAAACCAATTTAGATAACGAATACATTAATAAAGCCAAAGATTTTGCAGATCAACTAGCTAAATATAGAGATAAGTTATATGAAATCAAAAAAGAAATAGAAAAATTAAATGCTTAATTTAATAAACAATAATAAGGAGAAAATATTATGAAAAAGTTATTAGCTGTATTAATTGGACTAACTCTTTTTACAACATCAGGTGTATCATATGTAGCTTATGATAATATAACTTCTATTTCTGCAAATCAACACAATAATAGAAAGAATCTGTTATCTGAAATTGATAAAATTGAAAAAGATATTAAAGATAAAGAATCTAATAGTGATAAACTAAGGCTAGGTAAATTAGATAAAGAAATAAGTATTAAGAATTTTCAAGCTTCTATTGACAAAATTAAAAAGCAAATTGCTGAAAAGCAAGATCAAATCAAAATAATTAAAGTTAAAAGAGATAAATTAGCTAAAGATTTTGCTGAAGTTGACAAAAAACTTGCTCCACTAAAAGAACTTGATTCTAAACAACAAGATCAAATCAAAAAATTAGAGGATAAAATAACTTCTGATAAAAAATCAATTGAAGAAAATAAAAAAATATTAGTTAAAGAAACTGAAAAACTTACCTCATTGACAAAAGAATTAAAAGATTCTGATGCTGTTCTAATAAAAAAACAAAGTGAGTTAAAAACTATACAAGATAAACTAGCTGACTTTGAAAAAATTGCTAAAGAATTAGAAGAAAAGCAGAATGAATTAAATAATGCAAGAGAAAAATTAGCTACTTTAGGTTTAATTCCAAAAGAGTTAGTAGAAGCTATTAAACAAAAAGATTGACTAGAAAAACAAATTAAAAAAAATAAAGAAGATCTTACTTTAAAAAAATTAACTGAAGAAGAAGTTTTAAAGAAAATAGAAGAATTAAGTAAAGAACTTCCAACATTCGAATCTAACAACAAGAAATTAATAGAAGCTTATAATTCAAAAAAAACTGAAGTAGAAATTCTAAATAAAGAAGTCCAAGAATTAGAAAAAGAAACAATAAAATTAAAAGAATTCTATAAAGAAAAAGTTTTTGTTCTAAAAACTCAATATGATAATTTATCAAAACAAAAACAAGATCTGCATAACAAAATTTCAGATAGAACTAATTATAAGAACAAAATAGAATCAGAAATTAAGAACCTTAAAGATCAAATAGCTGAAATTGAAAGACAAACTGGTGAAAAACATCAAAGTATTGATAAGTTAGAAAAAGAATTAAAATCTTTAGCAGGTAAAAAAGAACAAGCTTTAAAAGAAATTAAACAATTAACTACAAAAATATCTTCATACCATCAAAAAATAGAAGCTAAAGAAAAAGAAATATCAAAACTTAATAAACAAATAAAAGACAGAAAAGCAAACAAAAAGACTGTTGAGGATGGATTAAGTAGTCTAAAGAGATCTATTAAAAGAGTTGAAGCTGATATTATCTTAAAAGAATCTATTATTAAAGAATCTGAAGACAGCATTTCTAAATTAGCTTCAAGTAAAAAACAACTTGAAGAAAATAAAAAACAAATAGAACAAAAAATTGACAATATTAAAAAAGAAATTGAAAATCTTGAACAAAAAATAGCTGAAAAAATTACTTCAAATGCTAATTCTAAAAAAGAATATGAAGATAAAATAGAAAAATTGAAAGAAACTGTTTCTGAATTTATAAAAGAAAAAGAAAAAATAAACAAACAAATTCAAAATATAAATGAAGAAACAAATAAACAAAATGATCTTTTAGAAAAAACTAAAAAAGAAGAAACTAACTTAATAAGTACTAAAGAAGAATTAAAGAGATCTCAAGTTGAAAAAGATAGAGAATATGAAGAAATTCTATCTAACTTATCTAAAGAAGAAAATGAGTTAAAAGTTAATACTAGTGAAAAAGAAAAATACGCTAAAGAATTTGAAAAAGCTAACAGACAAGCTTTAGAAAAACAAAAGGAACTTAGTGTTTTTGAAAACAAAGTAATAGCTTTAGAAAAAGTAAGAGATCAAAAAAATAAAGAAAATAGCAGTATAAGAAAACAAGTTGATTCATTAACTAGAATGATTGTTTCAAAAAATGAAGATTTAAATAAAGCAAAAACTGAGAAAGCTGATTTAGAAAAAGAAATTTCTAATATTGATAAGCAAATAGAATCTACTATTCAAAAGATTAATAAAGATAAGCAAGATAATAAAGATTTAATTTCTAAATTAACAAAAGAATTAGAAGAAAAACGAAAAGATATCGATAGATTAAAGAAATCTGCAGATGATATCAAAGACAAAACAACACCAATCAGTGCAATTGTCAATTCAAGAAAACAAGAATTAGACATGTTAATTAAGCAACATAAAGAATTAAAAGAAACTGTCAAAAGCTTAGAAAATAAACTTACAACTGAAACTACTAATTTAGAAAAAATGAATTCTGAAATTGAACCAACTATAGTTGAACTAGGTAAGAAGAACGAAGAAGGTAAGGACATATTCTTATCTATTACTAAATTACAAAAGCAAGTTGAATATTTATCAACTATTGATGAACAATTAAGTAAAGAAAAAACATCATTAGAAAATAAACTTAGAATTGTTGAAAAAGAAATATTAGAAAAAAAATTAAGTAAATCATCAGATGATATCAAAAATGCAAGCGCTACTATAGAAGGCTTAAAAAAATTTACAGAGTTTTTAAATAAACAAACTGAAGAAGAAAAAGAAGAATTAGCTATAGTTGTTAAAAAGAATCAAGAACTACAAAGTGAAATAGAAAAAGAGTCTAAAATAGTTGAATCTGCTGAAGCTGCTAATAAAAGATTGAAAAGAGAAGACAAAGAGCTAAAGGATAAACTTTCTGAATTAGTTAACAAGAAAAATAAATTAATTGAAAAAATTGATGAAATTATTACTTTAAGTGTTGATCTTGAAAATATTTACAGAAATAATTTAAATATTGCAGGTAAAGCTAAAATTGAAATTGAACTAGCAAAAAGAACTCTTCAAACTTATGTTGAAACTCCAGTTGATCAATACAAGAATGATTTAAACAAAATTAGAAGAACTCATTTTAAAGCTATTGTAAAATGCTACAAAGATATCACAGATAATGAACAAAAAGCTGCTAAAAAATTAGAACAATTTAAAACTTCTATCGAAGATTTAAATAAACAAATAGAAGAATTTAACAAATAATAATATAAACAAACATTAACTCATCTTAGGATGAGTTTTTGTTACATAATTTATTTGATAAATAATTAGGAGGTTATATGAAAAGTGAAATTCTAATTAGTAAAGATAATAAACAATTAGTTTTATATAAATGAGATGAAGTAATTAGACCACTAGCTGTAATTCAACTAGTTCATGGTAGTTGTGAACATATAAAAAGATATGAAGATTTTATAAAACAAATGAATCAAAATAATGTAATAGTAATTGGTATTGATCAAAGAGGTCATGGACAAACTAGTGTATTAAATAATGAACTTGGGTATTTTAATAAAACTAAAGGTTGAGAGTGTTTAATACAAGATCAATTATTAGTTAATCAATATATTAAAACTAATTATTCTGATTTACCTATTTATATGTTTGGTCATTCAATGGGAAGTTTTCTTGCTAGAAGTTATGCTATTAAATATAGTAATACTATTAAAGGATTAATTTTAAGTGGAACTAATCAAACTAATAGTTTTACTTTACTTTCAGCTTTATTATTAACAAAATTAACTTCTTTATTTTTAAAAGAAAAACAACCAAATAAAATTATCTGAAATATTAGTTATAAACAATTAAATAAAAAGTTTAAAACTAATAATAGTAATGGAGTTGAATGACTAACTAGAGATACAAATATTCAAAATCAATTTTTAAATGATAAATTATGTGGGTTTGTATTTAGTAGTAGTGCTTTTAAAGATATGTTTAAAGGAATGTTATTTAACTTAAAAACTAAAAACATAAAAAAGATGAATCATGATCTAAGAATTTTATTACTAACTGGTAGTGATGATCCTGTAAGTCATTATAGTAAAGATGTAATTAAACTAAATAATAAATTAGAAAAATTGGGTTATAATTCAAAACTAATTATTTATAAAGATTCTAGACATGAAATCTTAAATGAATTAGATAAAGATTTAGTAATTAGAGATATTTTAAAATTTATGTAATTTATTAATTTTTATCTTTATAATATAACTAATAAATAGAAAAAGAGTAGAAATATGCTGCCAAAAGATCTTGATTTTAAGCTACAAATTATAGAAGAACATAAAAAAGGAGCTTCAGTTAAAGCTTTATCAGATAAATATAATATTGGTATTTGAACAATCAGAGATTGGATTCACCAGTATAAAATGTTTGCTGAGCAAGGAATTAGTAAAAGTGTAGTTCATACTAAATATGATCCAGAGTTTAAATTACATGTTATTAATCATAAAAAAGAATATAACTTAAGCTATCCAGAAACTATAAAATTATTTAGTATTAAAAACTCTTCAACTGTTGCTTTGTGAGAAAAACAGTTTAAAGAAAAAGGAATACAAGGTTTAAGTAATCAAATCGGCAGACCCAAAAACAGCTCTACTTCTTATAAACAGCTCTTTTTACAATTAGAAGAAAAAATTGCTGATTTAGAACATCAAATTGATGAACTAAAACAGCAATTAAATATAAAAGATACAAAATAAACATACTTATAAAAAATTAGACCTTAGCAAACAAAAAGCTAAGGTTTTTAATTTGCAAATAGTTTTTCTAAAACATCTTGATACATTTTTAGTGTAGCTATTTCTCTTTGTTTTGCAGTTAAATCATTTGAATGATCATTTAAATTATCTGAAACAGTTAAAATAGTTGCTGCCTTTTTATTAAAATGATTTGCTAAATAAAATAAGGCAAAACTTTCCATATCAACAACATCTAAATTATGTTCTTTTATATCTAGTTTAGATAATCTGTAAAACACATCACTACAGTGAACATTTGCTTTTAAACCAATATTTAGATCTAAACTAGGTTGATTTTTTTGTCATCCTGTTTTATTTGGTTCAAAAATATTAACTTCACTAAAAGCATTTTTAGCTTCAATTACACTTCCTATTTTAATATCGTTATTATATGTTCCACAAGTTCCAACTCTAATAATAGTATTAACATTATGATCATTAAATAACTCATGAACATAAATAGCAATTGATGGTTGACCCATTCCACTAGTAGCAAAACTAACTTTATGGTTTTTATAATACCCAGTATAAACAAAAGCATTTCTTATTTCACTTACTAATTTATAATCAGTTAGTAAGTTTTCTGCTGCTCATTTAGTTCTTTTTGGATCTCCTGCAATTAGTACAATATTAGCAATATCGGCATTTTTATCAATATGCATATTTTTTTCTCCTAACTAAAGTTTATTTATATCTATTTATAGATTACTAAAAACAAATAAGTTAATAAAAGTTTTAAACTAGTTTTTTACTAGTTTTAATTAATTTTTTTAAATATTTTTAATTTTTAATCACTTTTTAAATTTTTTTTCTAATACTATAATGAAAGCAAAATAAGCTTTAATTATTTTATTAAATTTTAAATTATTTATTATATCTAGTTAAAAGAGTGTTAAATACTAAATTATCATCTTCAGTTCTAATATAAGTTTTTAAAAGATCAATTAAAATTTTTGAACGAAAAATAATAAAAAAATAATTTATAAGTAATTTTTTAAAAGTTTTTTCTAATACATTAATAGAAAGGATAAATGAGTTATTCTCAAACACTTCTTTAATTGCATTAACTAAATGTGTTTCATTTAAAGTTAGATTATATAAATGTCAGTTTAAATCAGTTGTAAAGTTATTTTTAAAAATTTTAATCAGTTGTTGTTGTAAATCATTAATGTTATTAATATCTTCATATTCTAGTTCTAAAACTATTTGATGAGATCAATTTAATACAGTAAGTAAATAAGTTTTTTCATTCATTAAATCAATAAAAACTGGTTTGTTATCAATTTCTAGTTGATCTTTTGGTATTTTATAAATTCTTTGGTTTTTATTAGTAATAACAAATTCAAATTTATCACTTATTATAAATACATCTTTAAATTTATATTTATTTAAATCTATCTGTTGATTTATAAAAAATCTATTAATAGATGCAATTCTTAAAATATCTGAAAAAATAGTTGGATTAGTTTTAATAATAAAATCATTATTAATATCAAAATTAGTGTTTAATACTAATCTGTGTCTGTGTTTGTGATCTAAAACTTTTTGTAAGAATTCATTTTTAAATTTATTTTGATTAATAATATTTGTAAAAAAACTGTTTTTAGTTAAAAGGTTAACTTCTTTATTTATAAAGTCTAAATAAATATCAAAATTTAACATATAATAACCAACTAAATCACCCTTTAAACAATAATACTTTAAAGCTCTATTTCAATTAGCTGAAGTATATAAACTATTTAGAATATAACTTGGAATTTGTTCAAAGACTTGATCACCAATTAAATAGTTATCATCTAGTTTATTTATTTGGATTAGAACTGAGTGTGTAGCATAATAAAACATATATTTTTTCTTTCTATTAATAAATTTAACAAAAAATAGACTAGTTATTAAGTTTAAGTTAATAAAGATTGTAGTTGGTTTTATTTGGTGTAATTTGGATTTTTTTGGTTTATTTTAGAAAATAGTTGTTTATAATAAAATCGAGGGATTCATATGATTAAAGAACAAAGATACAAAGAGATTTTAAAAAAACTAGAAATAAATGAATTACTTTCTTTAGATTTTCTATCAACTGATTTAAATATTCCCTTAACTACTTTAAGAAGAGATCTTAAAGAACTAGAACAAAGACATAAAGTTATTAGAACGCATGGAGGAGTACAACTTAATAAAAGTAATTTAATTGTTGAAGATTATTTAGATAATAAGATTAATTTAAATATCCAAGCTAAACAACAAATTGCTATTAAAGCTCTTAAAAAAATTAAACCTAAAACTTGTATTTTTTTAGATTCAGGCTCAACAACTTATTATTTAGCAAAAATCTTAGATCCTAATTTAGATTTAAAAATTGTTACTAATTCAATTTTAAATGTTCAAGAATTAAGTAAAAATAATCATCAAAATATTTACTTATTAGGTGGAAAATATCAAGTAGTTACTAGTTCTATTTTAGGTTATCAAGCAGTCAATGATTTAAAAAACTATTCTTTTGATTTAAGTTTTATTGGCATTAATGCAGTTGATGATCAAAATAATATTTATACAACTAGTGATGATCATGCTCAATTAAAAATTCAAGTGATTAAAAATTCAAATAAAAGTTATGGGTTAGTTGATCAATCTAAAAAACATTCTAAATCATTTTATAAATTTGCTACAAACTTAGAACTAGAACTAATTGAAGATTAATGATTTATACAATTACTTTAAACCCTGCTATTGATTGTGTAATTGAAACTAATCAAATAGATTTTAATAATACTAACTATTATTCAAATAGTTATTCATTAATTGGTGGTAAGGGAATTAATGTAGCAATTATTTTAAATAATTTAAAAAATGATGTTATAAGTACAGGTTTTTTAGGTAAGAATAATAGTGATCAATTTTTTGATAAATTTATAGAATTGAATTTAAAAAATCATTTCTTTTTATATGATGGTGTAACTAGAACTAATTTTAAAATTAAAAATTTAAATACTTTTGATGAAATAGAGCTAAACGGTGTTGGGTGTGATCTGAAATCAAGTTATTTAAATAAGCTTTTAAAATATCTTAAAGATAATTTAAATAAAAATGATATTGTTATAGCTAGTGGAAGTATTAATAAATCATTTAATGATAATGTTTATCAAATTATAGGTGATCTTGTTAATAAAAAACAAGCTTTATTTATTTTAGATACTTCTAAAAAATATCTTTTAGAAGGTTTAAAAACAAAACCATTTTTAATTAAACCAAACATTAGTGAATTATTTGCGGTTTTTAATGAACCTATTAGTTATGAATTTGATCAAATTTATAAAAAAATCAAACAACTACAAAGTTTAGGAGCCAGAAATATTTTATTAAGTATGGCAAGTAAGGGAAGTTATTATTTTTCAGAAAGCAATGATATTTATAAAATAGGAGTTGGGCAAGGAAAACTAGTTAATTCAACTGGAGCTGGTGATTCAATGTTGGCTGGATTTATTCATGGATTAAATCAACAATTAGATATTATAAAAACTTTAAAATATGCTGCTAGTTGCGGTTCAAGTACTGCTTTTAGTAAATGACTAGCAACAAAAAAAGAAATTAATAAGCAATTAAAAAATATTGAAGTTAAAAAAATAGAAAGGTAGTTATGCAAATAAAAGATTTATTTAATCAAAATACTTCTTTTTTTAAACAAGAATTTAAAACAAAAACACAAATAATTGATTTTTTAGTTTCAAAATTGTTTGAACAAAAAATTATTAGTAAAAAAACTGCAGTTTTAAATGCAATTAAAACAAGAGAAAAATTAGAATCAACTGCAATTGGTGATGGTATTGCAATTCCACATACATTAAATGAAGCAGTATTAAAACCAACAGTTTGTTTTATCAGTTTAAAAAACCCAATAAAATGAAATAATGATGATAACCAATTAGTTGATTTAGTTTTTTTAATAGTAACAAATGATCAAAATGGTGATGATCATATAACTGCAATTGCAGGTCTTTCATCTAAATTTTTAGATTCTAATGTTTTAAATAAATTAAGAGAAATTGAAAATTTTGATGAATTAGTAGAAATTTTTAATGATAAAGAAGAATTAAAAGAAGAACAAATTAATAAAAATGAATTTTTTGATGTTGTTGGAATAACTGCTTGTCCTACAGGAATTGCTCATACATATCTAGCTAGTGATAAGTTAACTGAATATGCAAAAAGTTTAAATCTAAGCAGTAAGATTGAAACACAAGGAAGAAGAGGAATTGAAAACAAGTTAACTGAACAAGATATTAAAAATGCTAAAGTGATTATTTTAGCTCATGATAAAGCAATTGAAGGAATGTCTAGATTTAATAATTGTAAAGTTATTGACACAAGTACAAAAGATGCAATTTATAATGGAAAAGAATTAATTTCTAATTTTGATACACATCCTAAATTAAAAGAAATTAAAAATATTAAAGCTGATGATTCAAATGTTGGAGAATTAAGCTTAAAAAAATTTAAAGACTTTAAAGGTAATTTATTAGGTGGAGTTTCTAGAATGCTACCTTTTGTAGTAGCTGGTGGAATTATTTTAGGGATTGCTTTTTTATTAGATTTTATTACTGGTAATGGTAATGCTAAAGGTGATTTTGGAACAGTTAATAAAGTTTCTGGTTGATTTGCAGCAATTGGTAAAACTGCAATGATGATGATGGTTCCAATACTTGGTGGTTATATTGCTTATGCGATTGTAGGACCACAAGGATTAATGCCTGGTGTTGTAGCTGGACTATTAGCAGATAATACAGGTGGTTTTGCATATGGAACTATAGGATCTTGATCTGGATTATGAAAAAGAATTCTACCAGATCATTTACCAACTAGTTCAGGATTTATTGGTGCTATGGTTGGAGGTTATTTAGCTGCTTTTATTGTTTTTGGTCTGACTATAGGAATGCAAAAATTTAAAAAACCATTTCATGGTGTAAGAGATATAGTATTTATTCCAATTTTATCTTTATTAGGAATTTCTTTAACTATGTTTGTGTTAAATATACCGCTTGGATATTTACTATATGGAATTCAATTAGGATTAACTTATATGGCTAAAAATAATTTATTAATTATTTTAGGAGCTATTATAGGGTTAATGATGTGTGTTGATATGGGTGGTCCTATTAATAAGATTGCTTATGTTTTAGGAACAGCTTCAGTAGCAGGAACATTTGGACAAGAAGCTATATTTACAAATATTATGGCTGCTTCAATGGCTGGAGGAATGATTCCACCTTTAGGTATTGCTTTATGTACAGTTTTATTTAAAAAAGTTTGAACCTCAAAAGAAAGAGATGCTGCAAAAGCAAATTGATTAATGGGATCATTTTTCATAAGTGAAGGAGCTATTCCATTTATGGTAACTGATCCAAAACATATTTCAGTTTCAGCTTTAAGTGGTGGATTTGTTACAGGTTTATTAGTTGGTGCATTTAAAATTACTTTACCAGCTCCACATGGTGGAATATTTGTATTTCCTTTATTAAATTCAGAATTATTTACTCAACACAGTGTTGCTAAAGGTATGGGTATAGCTTTATTTATACTAGCTATTTTAATAGGAACACTTGTAATGACATTAATACTAGGGTTCTGAAAAAAAGTAGATATTAATAAAGGACGTTTACAATTAGTTCAAGTTTAAAATAGATCCTCTTTTTAAGAGGATTTTTAATTAGAAATAAAAAATCCTATTTTATAACTAAAATAGGATTAATTATTATTCATTATTTCACATCTTCAGATATGATTTCTCAGATCACTTTTTTGACGGGCTGTTGCTCTAGTAATTCGTATGACTCATGTATTTCTTTTTCTCATTTTGGATTAATTTCTCTATTTGTATAAAGAGTCATAATTGTATCGCCAGCATTAACATAATCACCATATTGCTTATCAAAATAAATTCCAGCTCCATGATCAATTTTATCTGTTTTTTTAAATCTTCCAGCACCAATTTCTATTAAAATCATTCCGATTTCTTCAGCTCTTTTATATCTAATATATCCACTATTTGTTGCTTTAATTTCTAGTTTATTTTTACAACTAAAGTGTTTATCATAATTTTCTAAAACACTTCAATCTCCACCTTGAGCAATTACAAAGTCTTTTAGATAATGTGCAGCTTCTTTTGATTTTAATTTCTTTAAAACATCTTGTTTAGCTTCATTTAAATCAGCAAATACTTTAGCTTGTAATAAAGTAATTCCAACTAGAGTTGCAATTAGTTCATTAAAATCACTAGGTCCATTACCATTTAAAGTTTCTCAAGCTTCTTTAACTTCTAAAGCATTTCCCATAGCTCTACCTAATGGTTTTTCCATATTAGTTAAAACTACAGCTACTTTTCTATTATATTGTTTTCCAACTTCAATCATACGATTAGCTAAATCTTTAGCATCTTCAATTGTTGTCATAAATGCACCATTACCAGTTTTAACATCTAATATTAAACCATCATTTTCAACAATCATTTTTTTACTCATAATTGAAGCAACAATTAAAGGCATTGAATCTATTGTTCCTGTTACATCTCTTAAGGCATAAATTTTTTTATCAGCTGGAACAATATTATCTGATTGAGCAATAATGCTCATATTTGTTTTATTAATTACATCTACAAACTCATCATTTGTAACTTCACATTTTCATCCTGGAAATGATTCTAATTTATCAATAGTTCCACCAGTTTTTCCTAAACCTCTTCCAGATAATTTACATACTTTAATTCCATAACTTGCAACTAGTGGTGCATAAACTAAACTAGTTTTATCTCCAACTCCTCCAGTTGAGTGTTTATCTGCTTTAAAACCACTAACTTTAGATAAATCATATCTATCTCCAGATTCAATATAAGCTTTAGTTAAATAAGCAGTTTCTTTAGCTGTCATATCTGTAAAATAAGTAGCCATGCAAAAACTAGCCATTTGATAATCAGTAATTTCACCTTTTGTATAACTATTAATTAATCAAGAGATTTCTTGTTCAGTTAATTCTATATTATGTTTCTTTTTTTCTATTATATCTGCAAATGTAAACATTTATATACCAACTTTCTATTTGTCTATTTTTATTATACTTTTAAAATCAATATTATTTTGAACATTAATTTTGACAATTTTAGTATTGGGTTTTAAAATAGTAAAATATTTCATAGGTGCTATAATAACTATACATAAAAATGTCATTAAGGAGTAAAAAAATGAGTTTTAACAAATTAGATCAAACTTATTTAGATTGAATTAATCATCCTAATTTAGATCAAGAATTAAAAGAATTATTAAATAAAGCAGATGATAATGAATTAAATGCTGCTTTTAATTTGGAATTAAAATTTGGAACAGCAGGAATTAGAGGAATACTAGGAGCTGGTCCTGGTAGATTTAATGTTTATACTATTAAAAAAGTAACAATAGCTTATGCTAAATTATTACAAACAAAATATAGTAATGACTTAAATAAAGGTGTTGTTATTGGTCATGATAATAGACATAATTCTAAAAAATTTGCTAAATTAGTAGCAGATATTTTAACAAGTTTTAATATTAAGGCTTATTTATTTAAAAATAATGATCTTCAACCAACACCAGTAGTTAGTTTTGCAACAAAAGCTTTAAATTGTATTGGTGGAATTGTTATAACTGCTTCTCATAATCCAGCTGAGTATAATGGATATAAAATTTATGATCCATATGGGTGTCAATTAATGCCACATGATACTGATGTTATTGCTAGTTATATGAATGAAATTACAAATATTTTAGATTGAACATTTATATCAAACAATAATTTATTAGAAATTGTTGATCAAAGTGTAATTGATAAATATTTTGAAATGATTAAAAACTTAGAATTTTATAAAAATCAAGATAAATCTAATCTAAAAATTATTTATTCAGCTGTAAATGGAACTGGAAGCTTATATACTCCAATTGTTTTAAAACAATCAGGATATGAAGTTATAGAAGTAAAAGAACACGCTTTTGAAGATGAGACTTTTAAAAATGTAATTAATCCTAATCCTGAATTTGATCCAGCATGAAAAATACCACTAGAATATGCTAAAAAATATGATGCTGATATTATTATTTTAAATGATCCAGATGCTGATAGATTTGGTATGGCTATTAAGCATAATAATGAATTTATTAGATTAAATGGTAATCAAACTGGAGCTATTTTAATTGATTGAAAACTAAGTAATTTAAAACGTTTAAATAAATTACCAAAAAACCCAGCTTTATATTCTAGTTTTGTTACAAGTGATCTTGGTGATAGAATTGCTAGTGAAACTTATAATGCTAATGTAGTTAAGACTTTAACTGGATTTAAATGAATGGGTCAAGAAATGTTAAAAGAGCCTTTAAATGGTTTAAATTTTGTGTTTGCTTATGAAGAAAGTTATGGTTATGTAATTGATGATTCAACAAGAGATAAAGATGGAATTCAAGCATCAATTATTGCAGCTGAAGCTTGTTGATATTATAAAAATCAAAATATGACTTTAGTTGATTATTTAAATCAGTTATATGAAAAATATGGATATTATTACACAACTACTTATAATTTAAACTTTAAACCTGAAGAAAAAGATTCAAAAATTGCTCCAATTATGAAATTATTAAGAACTACAGGAATTAAACAAATTAATAATTTAAAAGTAGTTAAAATTGAAGATTATATTAATGGGTTATATAATATGCCTTCTGAAGATTTATTAAAAATTTATTTAGAAGATAAATCTTGAATTGCAATTAGACCATCAGGAACAGAACCTAAATTAAAAATTTATTTTGTAATAGTTGATAGTTCCTTACAAAAAGCAGAAAATAAAGCTGAAAAGATCTATACAGAATTAAAAACAATTTTAAATATTTAGAAAGTAAATTTATGGAAATTAAATTAAATAAATATATTGATCACACTTTATTAAAACCAGAAGCAACCAAACAAGATATTATTAATTTATGTAATCAAGCAATCCAATATGATTTTGCAACAGTTTGTGTTAATACTTGTTGAACTAGTCTTTGTAAAGAATTATTAAAAAATAGTAATGTAGGTATTACAAATGTTGTTGGTTTTCCATTAGGTGCTTGTCTAACTGAAGTTAAAGTTTTTGAAACTAAAAAAGCAATTGAAAACGGTTGTGATGAAATTGATATGGTACTAAACATTGGTGCTTTAAAAGATAAAGATTATGATTTAGTTTTAAATGATATGAAAGAAGTCAAAAAAGCAGCTAATGATCATGTTGTTAAAGTTATTTTAGAAAACTGTTTATTAACAGAACAAGAAATTATTAAAGCTTGTGAATTAGCTGTTCAAGCAGGAATAGATTTTGTTAAAACTTCAACAGGGTTTAACAAATCTGGAGCTAATATTAAAGATGTTAAATTAATGAGTGAAGTTGTTAAAAGCAAAGCCAAGGTTAAAGCTGCTGGTGGAGTTAGAACTTATGATGATGCAATTGCAATGATAAATGCTGGAGCAAGTAGACTTGGAACTAGTGGATCTGTTGAAATAATGTTAAAACAAGAAAATAAAAGTAATTATTAATATAAAATAAGCCCCTTATTATTTGATTAAAAATCAAAAAAGGGGCTTTTATTATTGTAATTTTTTAATTTGTTTTTAGTTTATCATTAATTTCAACTTCTAGTTTTTTTAGTGTTTCAAATATTTGTTCTATTGATGGTATATGTCCATAAAACATATTTTTCATATCAACATAATCTTTTTTAACTTGCTCTAGTCTAAAATCATTTGGTATTAATTTTAAATTCTTATTTTCTAAAACATCATCATAATTTGCAGATTTTGATCAATAAAATTTCTTTTTAAATTGAGTAGCATCTAAAAGTAAATTTATATCATCAAGAGCTTTTTTCTTATAAACTGAATTATATAAGCAATACAAATCATAATAATGTCTAGCATATCTAGTATTAAGTGGTTTTTCTTCAGACTTATTACATACAGAGTGTAAAATAAGTGTTTTTTCTCAAAAAGTTCTTTCAGGACTAATAGTTCTTATAATAGCAGATTGTTTAAATACATCAGGATATACTTCAGAAATTAAAGGCTTGATTTTTACATCTTCAGCAGGAGTTGACTTACCAAGACAACCTATTTCTAGTCTAATATTTTTAGTTAAATAGGTTTGAGAAAATAGCTTAGGATAACTACATAAAACACTGTTTGGATCTTCTGGATCAATTCAAAATTCTAAATTATATTTATTTAAATCTTCATTTAATGTTTTTACAAATTCATCTTTTAAAAAGACTATTGTTTTTTCATTTAATGCTGTATTAAATCTACTTTGGCTGCTTTTAGTTCTTTCAATGTATGGTTCGTTGTTTTCATAACCTACAACTTTTCAATCTAATATTAAATCTATATCTTCAGAAAACCTTTCAATTAAATTAAAACATTTAGAAAGTGAGGTTCCACCTTTAAAAGTAAATGAATTAGATCATTTACTTTCACTAAAAATATAATCTAATAAAAAACTAACTCAATAATCTTTTTCTACAACCTCTCTTGGTCAATCTCTTATATCAGCTGCATTTGATATTAAAACTCTTAGTTCTGAATCTGTTTTTACATAAAATTTATTCATATTGTTCCTTACAAATTTCTTTAATATAATCATAGATTCATACAGTTGTACAACTTGCTTCTTTTAGCAAATTTTTCTTTTCAACTTCAGATAATCTATGTCTGATTCTACCAATGTCCTTTTTTGTTAAATTGTTCTTACCAACTTCTTTAATAGCTTGAATAACAATTTTTGTTTTTAAAGACATATTTGAAATTTCTTTATTACTAACTTTTTTAAATTCTATAACCTTTCTATTTATTCTATATGTTTTATTTTTTCCATTGGTTACATAAATATTTTTAGCTGGAACTTGCGTTGATAAACCTAATATATTAAGACAAGCAATACCAAAAGGAGCAATTTCTCAATTATATTTTCTAGCAATAGAAATTGCTAATTCATGAACTCCAAATGCTTCATATTCTTGAATAAGTTCACTATAAGCAGGACTATAATAAAAACCATTCATAATTCTTTTGATTTTTTGTTCTTCTACTAGTTTATTTAAAGTTCTACGAACAGTTTCATTAGAAGCAATATCTAAAAAATCATTACTAATAAAAATTGTTCCAGGTTCAAAGTGATCAATTCTATTTTGAATTTGTGATAAATATGACATAATTTTTTACTCCTTTCTCCCAAAAATTATATCATATTCGGGATAAATTAGAAAAAATAAAAACTAGCACCCTGATAGTGCTAGTTATTTTTAGATTCTAATTATGATCAATCATTGATTCTAATTCCATTTCTTTTGGAATTTCAATGTTCATTAAATCTAAAATAGTTGGAGCAACTTTAGCAATTGCTGGATCGTTTTGTTTTAGTTTAATATTTAGATCAGTAATTATAATTGGAACTAATGAAGTTGTATGTTTTTTATTTACTTGTCCATCTTTATCAATCATTATTTCAGCATTACCATGATCTGCTGTAATCACCATAATTCCATTATGTCTTAAAACAAATTCTTCATGAATACGTTTTAATTGTTCGTCTAAAGTTTTACATGCAATTTCAGTGGCTTTATTATTTCCAGTATGACCTACCATATCACAATTTGCAAAGTTTAAAACTATAAAATCAAATTCATCTTTTTTAATTTCGTCTAATAGTTTATCTGTAATTTCAACGGCTGACATTTGTGGTTTTAAATCATAAGTTGCAACTTTTGCTGAAGGAATTAAATCAATATAAGCATTAGCTAAAGTAATTTCATCATTTTTTGCTAAACCATTTTTAAAATAGTCATTTCCTCCATCAAAAAAGAAAGTAACATGAGCAATTTTTTCAGTTTCAGCAATTCTTAATTGTTTTAATCCAAGTTTAGATAAATACTGACCTAAAGTATTTGTTAAAGGTTTTGGTGGATAAGCAATATGTGGTGAAGTTATACTATCTGAATATTTCATCATAGAAACAAATCTAATTTTATCTCCAATAAACTCAGCATCACTAAATGCTTCACTTTGTCAAGCTATATAGTTTTTATTAGTTAAAATTGATGAAATTTGAATAGCTCTATCTGGACGAAAATTAGTCATAATAATTGCATCATTTGCTTTTAAATTACCATTTAAATCATCTTGATTAAATGCTGGAATAATCATTTCATCATCGTGATTTATCATATATTCTTGTTGGATGTAATCTAAAATATTTGTAAATGATCTAACATTATTTCTATTAGTAATAGCATTATAAGCAATACGTGATCTATCAAATCTTTTATCACGATCCATTGCATAATATCTTCCACTAATTGAAGAAATCACACCAATATTATTATTTTGTTTTATTAATTCTAATAAATCTTTAACAAAATCATAAGCTAATTTTGGTTTAGTATCTCTTCCATCAGTAATTAAATCAAACTTAATATTTGTAATACCATAATCAATTGCTGCTTTATAAATAGCTATCATATGATCAAAATGAGAATGAACACCACCATTTGAAAATAATCCCATTAAATGTAAAGCGCTATTATTATTTTTTACATACTCAAAACTTTTAACAATTTCTTCATTTTTTGCTATGTTATTAGTTTTTGTTTCATGATTTAGTTTTGCTAAAGATTCTAAATTAATTCTTCCAGCTCCTAAATGAATATGTCCAACTTCAGAGTTTCCCATTTGATTATCAGGTAGACCTACTCATTTTCCTGAAGCGTGAGCTTTTAGTCAAGGATAAGTTTTTTTTAAGTACTCTACAAATACCATATTTGCATTATCAACAGCATTTCCTTTATCAGGTTCACTAATTCCTCAACCATCTAGAATTGCTAGTAAAACTGGTCTTTTTACTTTCATTTTTATTCTCCTAGTATATAGTGTTTAATAAATTCTTCAACTGCGCCTTGTTCAGCTGTTTTATCTATATAAATATTTGCTATTTTTTTAATTGGTTCAACTGAGTTTTTAATAGCTACTTTATATCCTACATGATTTATCATTTCTCAATCATTCATTCCATCACCAATTGCTGCAATGTTTTTTAAATCAATATTAAAATAGTTTGAAAATCATTCTACAGCTAATTTCTTATTAACATTTTTTTTATTAATTTCTGCTAGTTTATTATCATTTGTAGCTATGTTAAAATTCAATTCATTAACTAAAATATCATAAAATTCTTTGTTTGCATCAAAACCTAAAAGCTTAAAGAATTTAAAATTAAAATCATCTTTAATATCTTTATATTCAAGAACTTGACCATCAAAAAAAACAGTTTCATCATGATAATCACTTGGATTTTGAGTTCATTTATTAGTTATTACAGTTTTTAAATCATCAACATATCCTCAAATTTTAATATCACTATTTTTATATTTATCACTAGTTACTAAATCAAATACTTTTTTTGCTTGATCTGTACTAATTGGATTTGATAATAAAATTTGATCTTTACTTAAATCATAAATACAAGCTGCGTTATATCCAGCAATTAATTGATGATCAACTAACAAACCGTGATGTTTTAAACTATTTAGTTTTGCTAAAACAGGTCGTCCTGTAACAAAAACTACTTTAACTCCTTTATTTATTATTCTTTTTAATGGTTCAATATTTTTTTCTATAATAGGACCCATTTTATAATAACTAGTCCCATCCATATCTAATATTAATAACTTAATCTCTGGTTTATTCATTATAGTTAACTAAACCTAAATAATCACTAGCTAATAAAGAAGCTCCTCCAACTAAAGCTCCATCAATATTTGGCATTTTTAAATATTCTTGAATATTTGATGGTTTAACACTTCCACCATACTGAATAATAATTTGTTCAGCTGTATTTTTATCATAAATTTTTGCTAAATTATTTCTGATTTGTTTACATACTTCTTCAGCATCAATACTTGTTGCTGTTTTTCCAGTACCAATTGCTCAAATTGGTTCATAAGCAATAATTGCTTTGATTGCGTCTTCTTTTTTAATACCTTCAAACATTATATTAATTTGATTATTTACAAATTCAATAGTTTTTCCACTTTCTTTAGTTTGTAAAGTTTCACCACAACAAATAATTGGAGTTATATTATTTTCTAATAAAGCTTTAGCTTTTTTATTAACATCTAAATCAGTTTCATTAAACATTTCTCTTCTTTCAGAATGTCCAATAATTACATATTCAACTCCGATTTCTTTTAGCATTGTAGTTGAAATTTCTCCAGTATAAGCACCCTTATCTTTATAATGTACGTTTTGAGCAGCTATTTTAACATTTTTTGCAAGTTTTAGCCCAGTTTGTAACATTACATAAGGTACAGCTAATCCCGCTATAATTTTTGAACTATCTATTTTATTATCTACTTGGTTTAAAAAATCTGTCAAACTTTCATTAGTTCCATTCATTTTTCAATTACCAAAAATTACCTTTTTTTTCATAATAGATTTACCTTTCAGATTAAATGCCTATATAATTATATATTTTTAAAACTCAATAAAATAATTATTATAAATAAGCAAATAAAAAAAGCTAATCTAATTAGCTTTTAAATTAGTTAATTTACTTGCTGCATTTTTATCAATAATTATTGTGACATCATTATGTTTTTGTAATATTGTACAAGGTCATTTTTTTGTAATTTGTCCTTGAATTAAATGATAAATAGCTTCAGATTTATTATCTCCAGTTGCTAGTAATAAAATTTTTTTAGCATTCATTATTGATTGTAAACCCATTGAAATTGCTTGAGTTGGTACTTGATCTATTGAATCAAAAAATCTTGAATTTGCTTTAATAGTTGAATTTGTTAAATTAACAATTTGAGTTAAGGACTCAAAACTTGAATCTGGTTCATTAAATCCAATATGTCCATTAACTCCAAGTCCTAAAAGCTGTAAATCAATACCATTAGCTTTTTTAATTAGTTCATCATAAGCTTTTGGATTATCATAAAAACTAGCATTAGGTATATAACAATTATTTTTATTTATATCAATAAAATTAAATAGTTGTTCGTTCATAAAATAATAATAAGATTGTTTACTATTTTTATCTATATCTTTATATTCATCTAAATTAAAACTAATAACATCTTTAAAGCTAATTTGTTTTTCTTGATACATTTGAATTAGTTTTTTATAAGTATTAATTGGTGTGGAACCAGTTGCTAAACCTAATACACTATTAGGTTTATTTTTGATTTGTTCACTTATAATTTGCGCTGCTTTATTTGCAACTTGTTCTTCATTTTCTAAAACTATTAGTTTCATAATTATTGCTCCAATTACTAGTAAAAATATAAAGTAATTATATACTTATTAGTTTTTTAAAATAAAAAAAAGTAGTCTTATGACTACTTATAATTTTTGTGTTCAAGTGGTGGTCGTGGACGGAATTGAACCGCCGACACGCAGAGCTTCAGTCTGCTGCTCTACCGACTGAGCTACACGACCATAAAAAATGGCGACCCCAACGGGACTCGAACCCGTGATCTCCTCCGTGACAGGGAGGCGCGATAACCAACTTCGCTATGGGGCCATTGGTTGCGGGGGCAGGACTCGAACCTGCGGCCTCCGGGTTATGAGCCCGGCGAGCTACCAACTGCTCTACCCCGCGTTGTTTTTAAATTCTTAATAAATGGCGGAAGATGAGGGATTCGAACCCCCGCTCGGGTTTCCCCGACTCTCGGTTTTCAAGACCGATCCCTTCAGCCGGACTTGGGTAATCTTCCGTACTACCATTCTTTCATACTAAAAATATTTTTATTTTAATATGGTGGACCTTATTGGACTTGAACCAATGACCGTCCGGTTATGAGCCGGATGCTCTAACCAACTGAGCTAAAGGTCCATAAATAAATATGGTAGCGGGGGAGAGAGTTGAACTCTCGACCTTTCGGGTATGAACCGAACGCTCTAACCAACTGAGCTACCCCGCCATAATGGTGGACCCTAACGGGATCGAACCGTCGACCCCCTGCGTGCAAGGCAGGTGCTCTCCCAGCTGAGCTAAGGGCCCATTATTATAATGGTCGGGAAGACAGGATTTGAACCTGCGACCCTTCGGTCCCAAACCGAATGCTCTACCAAACTGAGCCACTTCCCGAATACTTGTTATTATGTTTTAAAGATAATAACAATTTATTTTCTAAATGGTGCGCCCGGAGGGACTCGAACCCCCAACCTTTTGATCCGTAGTCAAGCGATCTATCCAATTGATCTACGGGCGCATATAAAATTTATCTTTGTTATTATCTTATCATATTAAATGACTTTATTATTATAGATAATATCTTTACCATTTACAACATAAATAAGCAAAAAATATTAATAATTTTAAAAATATTTATAAAAATAATTTCTAAAATAAATCTATAAAAAATTAAAACTAAACTAAAGACATTTAAAATTATAAATCTTTAATTTAGTTTTAGATTAATTATTCTTATTTTTAGAAAAACTAAATGTTGAAACTTCTTTTATTTCATTAAAGTTATTATTAATAATTTCATTAGTAATATTCATTTTATTTAAAGCTATTTTAGTAGCATTATCATCTTTAATGATTTTATTTTCAAACATTAAGATTTTATAAATAGTTTGATAATAATGTTCTTTAAAAGAAAAACAATGATTACATGAATTATATAAAACTAATTCATCATTATCATTATAAATAGTTCTATTAATAAATAGTCTTAATGAATCAGTATGACTTGTTATTTGATCATTACACCCATGTATAAATAAACTAGCTGCTTTTGCTGGAACTAGTTTTTTATTTTCATACATATCAAATAAATTTAATTCCTCTTGGTTATGATTTGTTGCTAAAGTTTGTAGATCAATAGTTTTATTAATAATTTTTCTAGCTAATTTTTTATTAATAAAAAACTTTAATCTTTGTTCTCAGTTTTTATATAATAGTGATTCAATAGATCCATAAGTTGAATCACTGATTATAAATTTAACATTAGCTTTATCTAGTAACTCTTTGTTATTAATAGCTACATAATTACAAATATAAGCACCCATACTCATTCCAAATAATCCTAAAACTTGTACATTTTCACTTGTAATTAAATAATTAATAGCACTAATTAAATCTCTACTTTCAAATAACCCCATACTAATTACTTCAGTTTGATCAGATTCACCGTGATTTCTATAATCAAAAGATAATATATTATATCCAAGTTCTATAAAAGCTTTAGTATGAATTAATCCTAAATACTTATGTCCAGCAAATCAGTGAGATGAAATAATTCATTTTTTACTATCTTTATTAGTAATAAATTTAATAGCTTTAATTTTTATATTATCACTTGTAACAAAACTAACATTTTGTATTTTATTATCATCACATAATACTAATTCATCTCTTTTATAATAGTATTTCATGATTTTATTTAACTTATTAATATCATCAATTTTACTAATATATCCTAGTTTTTTATTTGATTTAAACACAGTTAAATTACCTGCTAATCAATAAATAAACTTAAAAGGTCTTTTAGCAGCTTTAAAAATTTTTCTACCTAGTCTTTTTTTAAAAGATTCATTATTTTTATTTTTCATAAACTTATTTTAATATGTATTTTAATTAATTAATAGCACACTTAAAAGTTTTTAGAAAATATAATTTACTATTGAAAAAAAAAAAAAAAAAAAACTATAATGAATATTTGCAATATAAAAGATAAATAAGGAATGAATAATTAATGAAAAAATTATTAACCATTTTAACTAGTTGTAGTTTTGGATTTTTAATAACAACTTCAATAATACTAGTTAATAAAAATAATGGTGAGAATAATATAATAAGTTATAATGCTCAGAGAAAAAAAGTTAATCATGAATTTGCTGATAATAAAACTAAAAAGAAAATAACAAAGATTGGTTACTACTACAGAGATGGAAAAACAATAATAAGTCAAATTCCTCCAACTGTTGAAGTGGTTGCAGCAGATCTACCAGAAGAAATAACTAGTTTAAGAAATGCTTTTTATGGAAATAGACAAAGTGTTCGCTTTGAAAAACAATGAGATACTAAAAACATAACTGATATGAGCAGTGTTTTTTATGATGCTAATTGAATAAATGATGCTAGCATTAAAAATTGAAATACTTCAAAAGTAACTGACATGAGTAAAATGTTTAAAAGAGCAAAAAGTTTTAATCAAGATCTTTCTAATTGAGATGTTTCAAATGTTAAAAATTTTGAGGGAATGTTTGACGATGCAAGCGATTTTAATAATGGAAACACTCCTTTAAAATGAGAAGGAAAACTAAATAAAGCTGAAAATATGAAAAGCATGTTTAAAAAGGCTTCTGATTTCAAACATAGTTTAGATAATTGAATAATGACAAAAAAAGTTGATTATCATGATTTTGGGTTAGAAGAAAAGAGACAACCTAAATGATTTATTGAACCACTAGTTCAAACTCCACCTAGTACATCTATAAACCAACCATCTAATTCTAGTGTCCCACTTACTCGTTCAGATGAGTCTTCAAGTTCATTATCACAAGGTTCCAATTCTAATTCTACTGATAACTCTAATAGCCTAATTTCAGATTCCATTATTAATCCACCAATTAATAAACAAAAAAACCCTATTAAAGAACCTGTAGAAAAATCATCAGAAAATGAGATTAAAAATCTTGAAACAAAAAATTCTACTACAAATTCAAAAAAAAGCAATTTAGAAAATGAAATATTACCAAAAGAAGAAAAGTTCAATCCAATAAATAAATCTCTAATACCAAAAGAAAATAAGGATAATTTATATAAAATACCTTCTGCACAACCAAAACCTAATACGATATTGAAACCAAACTCAAATAATGCTTTAGTTATAACTGGAGCTGCTTTAGGAACATTTACAGTTCTAGGAATTGGAGCTGGAGCTGGATATTATTATCGTAAAAATCTAAAGAATTTGTATTTAAGATCAACAGATAAAATAAAAGAGAGAATATCAAGAATTAAATCTAAAAAATAGTAAAAATGCAGAATTAACAATCTGCATTTTTTAGTTTTAATTATCATTTATTCTCTAATTTATATTTTGTAATTTCACAATATGTTTTGTAAATTTTAAACACTAATTAATATTTACTCTTGAAAAAAAAAAAAAAACTATAATGAATATTTGCAATATAAAAGATAAATAAGGAATGAATAATTAATGAAAAAATTATTAACCATTTTAACTAGTTGTAGTTTTGGATTTTTAATAACAACTTCAATAATACTAGTTAATAAAAATAATGGTGAGAATAATATTATTTATAATAGTAAAATTAAGGAAACAAATCATGAATTTGCAGATCCAAATACTAAAAGAATATTAACAAAGATAGGATACAAACAATCAGGAAATGAAGTTAGAATCAAGACTATTCCAACCACTGTTACTCAAATTAATGCACAACTTCCACAAGAAATAACAAGTTTAAAAAACGCATTTGTTGGAAATAGACAACAAATAAAATGAGGAACACCATGAGATACTAAGAACATAACAAATATGAGTGGTGTTTTTTATGGTCAAATATGAGTTAACGATCCTAGTATAAAAAAATGAGATGTTTCAAAGGTTACTGATATGAGTGATATGTTTCATGGAGCATTAGGTTTTAATCAAGATCTTTCTGAATGAGATGTTTCAAAGGTTGTCAATATGAATGGAATGTTTGATGGTGCAACTGAATACAACAACGACAATAAGCATCTAAGATGAGAAAATAAACTAGATTCAGTAAAAACAATGAAAAAAATGTTTAATAAAACTCCCTTCAAGCATGATCTAAAAAGTTGAAAGATGCCTAATGTTGTTAATAATGATGAGTTCGGCTTAGATTCTTCAAAACAGCCCGAATGAAAATTACCAACACCACCCTCTACTTCTATTTCGATACCTAGATCTGATTCACCAGTAGAAACGCCTAAAAAACCTGAAATTGATACTGATTCATCATCATTAAAGGACAAAAAAGAGGGTATTGAAACAGAATCAAGATCAAAATCTAGTTCATCTAGTAGTTCATCTAGTGAATCAAGACAAGAGACTCCATTATCAAATGATGATCCAAATTCTTTTACTCAACCTATAGAATCTGACTTAAATAATCAAATAGATTCTCCTAATGAAGATGTAGATCAAAAACAACCAGAAACACCTAAAGGTGAAAATGAGACTACTCAAGATACAAATAATATAAAAGATAATGTTAATAATCATAAAAATGATGGCATTCTTTATAAAATTCCACCGGTAAAACCTAATACCATAATAAAACCAAATTCACCAAATATAGCAATCATTACTGGAATTATTGTAGGAACATTTACAGTTTTAGGAATTGGGGTTGGAACTGGATATTATTATCGTAAAAATCTAAAAAACTTTTATTTAAATTCAGCTGACAAAACAAAGAACTTATACTTCAAATCTAAAGAAAAAATTAAAGATAAATTATCTAAGATGAAATCTAAAAAGTAAGAGAGATGCAGAATTGCCAATTAAGGTAATCTGCTTTTTTTGTATTTTATCTCTTTAAATTTACAGCCAGCTATTGACAGAATTTTTATATTCTATATAATGGAAGGGCACATTTTTATAATTAAAAATAAAAATAATCAAGCAAGAGAGTAAATTTATGAAGAAATTATTACCCATCTTTATGAGTTTTAACACCGCATTTTTAGTAACATCAACAATTTGAATGGTGACTCATTATAATGAAGACCATAAAATAAATTATAATGCTATAAGTTGAATAAAAAAGCATAAAACATCTGGTGATAGACTAACTGATATTGGTTATTACAAATCTGGAAATAATTACATAATACAGCAAATTCCACCAAGTGTTTCCGTAATTGCAGCACAATTGCCAGAGCAAATAACTAGTCTAAGAAATGCTTTTTACGGTAATAAACAACGTATTCGTTGAGAAAAGCAGTGAGATACAAAAAATATAACTGATATGAGCGCTACTTTTTATGATGCAATATGATTTGATGATGCAAGCATAAAGAATTGAAATACTTCTAAAGTGACAGATATGAGTAGAATGTTTCATAAAGCAAAAAGTTTCAATCAAGATTTATCAAATTGAAATGTCTCAAATGTTAAAAATTTTCAAAGTATGTTTGAAGAAGCAAATAGATTTAATAATGGTGACAAACCATTGAATTGAGGAGAAAAACTTAAGAGCGCTAGTAATATGAGCAAAATGTTTAAAAATACACCAGAATTTAAACAAAATTTAAATAATTGATTAATGACAACTGAAGTTGATAAAAATGATTTTGGGCTAGATTCTAGTTTACATCCAAAGTGATATGCTAAACCCCAATTACAGCCTCCCACAACTTCAAGTTCAATACCGAACAATTTTAATAATTTACCTAGATCAGATAATTCAAATTCTCCAATTTCTATTGATAATAATGTAACGCCTGATAGCGAAACATCAATTATAAAACCTAATACACCTGCAGTGCAACCTAAAAAAGATAATGAAATTTATGTAGAGGATAAAATAGAAAATCCCAAAATTGATAATAATCCTTACAAAATTCCATCAGCAAAACCTAACACTATAATAAAATCAAATTCGCCAAGTGCAGGACTTATTGCTGGATCTGTTTTAGGTAGTTTTACAGTTCTAGGAATAGTCGGTGGAACTAGTTATTATTATCGTAAAAATCTAAAAAACTTTTATTTAAATTCAGCCGACAAAACAAAGAACTTATACTTCAAATCTAAAGAAAAAATTAAAGATAAATTATCTAAAATTAAATCTAAAAAGTAAGAGAGATGCAGAATTGCCAATTAAGGTAATCTGCTTTTTTATGTTTTATCTATCTAAATTAAAAATTGATCATTGACATAATTCTTATATATAATGTATAGGCATATTTCTTACAATTAAAAATTAAAATAATTAAACAAGAGAGTGAAATAATGAAAAAACTATTAAATATTTTAACTACTAGTAGTTTTGTTTTTTTAATAACAGCAGGAATTGCTGCAGTTAACAAGAATAGTAATGAAAATAATATATATTTTAGTAAAAAGCTAACTTCTAGACCACACAAAATTGAAAAAGGTGTGTTAAAAGAAGTTGGATATGATGTTCTTCCTAATGGTGTTGTTCAAATTAAAAGAATTGATTATACTGTATCAACAATTACAGCTTTGTTGCCTGAAGAAATAACTAGTTTAAAAAGTGCTTTTCAAACTAACACCAATATGATTAATTGACAGGTTGTATGAGATACTAAGAATATAACTGATATGAGTTATGCTTTTTATAACACAACTTGAATAAATGAAAAATCAATAGCAAATTGAAATACTTCAAATGTAACAAACATGGAGGGTATGTTTGGTTTATCTAAGTCATTTAATCAAGATATTTCAAATTGAGATGTTTCAAAAGTAAAAAATTTCAAACAAATGTTCTATCATTCAACTGCATTTAATAATAATGAAAAACCGTTGAATTGAGATGTTAAATTAAAAAGTGCTGTGAATATGGAAAGTATGTTTGACAAAGCCTCTGCCTTTACTCAAAATTTAAGTGGATGAACTTTAAATAATAGTGTTAATAACAAAAATTTTGGCATCCAGCTAGATAGACAACCAAAATGAAAAGTAGAAGTTCCAAAACCTATTGAAAAATCTTTAAAACCTAATACAGCACCAAATAACTCAACACTGCCAGCAGATACTCCAGAGAATTTAGAAAACCAAGTGTCTCCCAAAAAATCAGAAACGGAGAAAAAACCTGAAATAGTAGATAAATTAGATAATATACCTAGTTCTCCTTCAATCTCTGAGACACCAAAAAACATAAATGATTCTATTGATACCCCTAATAATCTTATTATACAACCGCCTATTGAATCTAAACCTGAAATCAGTTCTGAAAAACCTAAACATCCATTAAGCACTGAAAATGAAACAATAGAAAAAAATGAATCACTAAAAGAAGACAAGATTAAAAACTCAAAAATTGATAATAATTCTTACAAAATACCAGCAAAACCTAACACTATAATAAAATCAAATTCGCCAAGTGCAGGACTTATTGCTGGATCTGTTTTAGGTAGTTTTACAGTTCTAGGAATAGTCGGTGGAACTAGTTATTATTATCGTAAAAATCTAAAAAACTTTTATTTAAATTCAGCCGACAAAACAAAGAACTTATACTTCAAATCTAAAGAAAAAATTAAAGATAAATTATCTAAAATTAAATCTAAAAAATAAGAAAAATGCAGGCCTATAATGATCTGCATTTTTTTATTATTTATCTAAACAACAATTTGTTTCTTTTTTATAAGCAATTACTTCAATTTCAATTAAAGCATCTTTTGGAAGAGCTGCTGCTTGAAAAGCACTTCTAGCAGGTTTGTGATCTTCAAAGAATTCTTCATAAATACTATTTACTAATGAAAAATCATTAATATCTTTTAATAAAACTAAAGTTTTAACTACATCAGTTTTGTCATATCCTGCTTGTTTTAAAATTTCATAAATATTATTTAAACTTCTTTTTGTTTGTAATTCAATATTATTTTCTAAAAGCATAGTTATAGGATCTAATCCTAATTGCCCAGATAAATACAAAGTACCATTGCAAATTTTAACAGCTTGACTGTATGGTCCGATTGCTTTTGGAGCATTTTCAGTATTAATTATTTTCATAATTACCTCCTAATTTAATTTTAAACAGATTTTTAGTTTTTCAACTAATTGTATTAATTCACTTCTAGGACAAGCAATATTTATTCTAAATCAGTCAGTTTGGCTTGTATAAAAATCAGAAGCTAAATTAATAATTAGATTTTGGTGCTGTAAATTGTTTTTAAATTCTTCACAACTTATATGATTAAACTTAATTCAAACTAAATAAGTTGCTTTTAGATCTATATAATCTAGTTGTTTATATTTATCTAAAAGATTTTCTTTTAAATATAAGTAGTTATTATAAATATATTCTTTAAACTCTTTTACTCAATCTAAAACTTCTTTATTTGTATATGCACTAATTAAAGCTTGTTGATAAAAAGAATTAGATAATCCAAATCCATTAATTAAATATTGTTGTTTAATTTTATCTAGTATATCTTTATTTTTACTAATTAAATAAGAACCTTTTAATCCAGCTAAATTAAACATTTTATTTGGAGAACTAACTACTACAAAATTATTATTTTTAGTTTCAAATTCTAATAAAGAATAAAATTTATCTTTTAAAACAATATCTCCATGAACTTCATCACTAACTATAATGACATTATACTTATTACAAATTTCAACAATTTTTAAAAGATCTTGAGCTTTTCAAACTACTCCAGAAGGGTTATGTGGACTACATAAAATAAACATTTTTACATTATGTTTTTTTATTTTATTTTCAAAATCAAGAAAATCAATTTCATAATTATGATCTTTATAAACTAATGGATTATCTATTACATTTCTATTATTTGTTTGTATTACATTATAAAAAGGTTTATAAACAGGAGATTGAATTAGAATATTATCATTTACATTAGTAAGTGCTTGAACAGCTTGTATTAAAGCACTAATAGTTCCATGACCTAGAATTATTTGATTAGTATTTAAATCAATATTATGTAATTGTTTATATCAAGTTTGAATAGCATCTAGACTATTTTCAATACTACAAGTATAACTATAAGATTGTTGTTTAGCTATTTTAACAATTGTATCAACTATAACTTTTGGAGTTTTAAAATTAGTGTCAGCTATTGAATAGTTTAAAAAATTATCATAATCATCTAATAAATAAAATTGTTTAATATTATCTTTACATCATCTTCTTTCATGAGTTTTTGATCTATTAAAAGGTTTATCAAACTCAGTTTTAAACTTATTCATTATTTCACCTCAAATTAATTATAAAAGTTCTTATATTACTTATTAACTCCTTATATTAAGAAACTAAAATTCATCAAGATATTAGAATAATTGATTTTGTTATAATCATAATAATAGAAAAAGGAGTTTTTATGTATAAAATAATTGCTATTGATATTGATGGAACAGTGTATTCTAGAAAAAACGGAATTCATGAACTAACTAAACTTGCTTTAAAAAAAGCTAAAGATAAAGGAATAAAAATAGTTATAGCAACTGGAAGAACTATAACAACTACTAGATTTATTGCAAAACAATTAGATTTGTTAAATACTAGTATTCCTTTTATTGGACAAAATGGTGGACAAGTGTTTAGTTATGAAAAAAATGGTAGTGTAAAGATTAGATATACAAAAAACTTTACAGCTCAACAAGTTGATCAAATCTTTAGTATTATAAAACAACATAAAGCTCATGCTTTTTGTTATACACTTAATGAAAATATTGCTTATAAAAATAAAGGTATTTCTATCTTTTTTTGATGAATGAAAAAAAGAGCTCAAAGAGTTGTAAAAATATATAAACCTAATAAATCTTTAGAATCTCAAATTACTAAATATATTTGTTTTGGTAAAAAAGAAAATATGAGACAAATGAGAAAAAAAATTGAAGATCTAGGTTTTAGTGCTTTTTCTTTTAGTTATGTAACAAATGCAAAAGAAAATATTGAAATTAATCCAATTGGTGTTAATAAAGGTTATGGTTTAGAATATGTTGCAAAAGAATTAAATGTTAAACCAGAAGAAATTTTATTTTTTGGTGATGGAGAAAACGATTTAGAAGCGATTAAATTTGCAGGAAAAGGAGTTGCTATGAAAAATACAAAACTAGATATAGTTAAAAAAGCAGCTGATGATATTACAAGTTTAACTGCAGATCAAGGTGGAGTTGGTGAATATATTTTTAAACATGTTTTAAAAGAAGAAATTCCTATAGAGTTTCAAATAGATAAGTAATTAATTAGTATTTTTTCAGTTTTTAGTATTTTGAATTATTGTTTTATTTCACAAATTATTCTATTAAAGTATAATTAAAGCAAATAAGGGTGCTGTAAAAAGCTGAGATTATACCTATTAGCAGATCATGGTAATTCATGCGTGGCTAGATTTTTTACAGGTTATACCCTTTAAAAGGTATAACCTTTTATTTTCCCCTTATTTTAAAAAAGGAGATAAATATGTATACAAATAAATTAAAAGTTGCATTAGGAACAATGTTATCGGCTGTTTCTATTGCTTCTGTAGGTTCATTTGTTGTTGCTTGTCAAAATACCGGAAAAGATCCTAATCAACCTCAAGTAGCTGCAAAATGAGATAGTAAAATAACAATTAACAATGGTTGAGTTAATGATGGTTTTTTTAGTAAATTAGATTCTAATACTGGAGCTGTAACTCCAAGTGAAAAAAGTAAGAAATTTATTGAATTATTAAGTCAAAGATTCAATGAATTAAAAAATAAAGATGAAGAAGCTAGAAAATTTGAAGATGTTAAGTTTGATATAAAAGTTGATCTTAATAAAAAGAGTTATTATTCAAAATTGGAAAAAAACGATTCTGAAAATGATGTTTATATCACTAATTACTCATATTACTTAGATAACGTTTGAGATGCTAGAAATAATACTTTAAAGAAAGACTTAGATTTTAAATTAGTTTCTCAAGCGGCTACTTTAAAATTTAACTGACAATCAGAAGATAATACTTTCTATAAGGATGGAAAATCAGATGATTCATTGCGTAAACTAGCAGAAGAAAACAATAATAAATGACTAGAATATGGAGAATACCCAGATTGATATTCTAGAGAAGACAAAGAAATGAATGGTAAAAAATTACATTTTGATGGCTCAAAATATACTAATTTTTATAAAGATAAAGAATTAACTTATGTATATCGTGGTGCTGTTCTAATTGCCGGAACTGAAGAACAACGTAAGGAAGTTGTTAAAGCTTGAGAGGATAAAAACTGAGAAGCATTTCTAAAAAAAGGAATTGTTTATGAAAAAGCAAGTAGAGCAGGTGGTTATAAGTACCAGGTAGCTTTATTTGCCCGTCATTTTAACAAGGATATAAAGGATATTAAACATGATCTTGAAAAAAATGAAGCATACAAACAATATATTGTTAAAGGTAAAGCTGTATCTGATCAATTAGGAAAAAAACAAGAAAATATTAGTTTAACACCACTAATTGGATTTGATGATGAGGGTTCATATAATTGAACTAAATCAGAAAAAGATAGTGTAAAATATAAACCAACTGATTTTAAATCTAGTGTAAATGGTTCATCTACTTCTACTTCAATGAACGCTAGATCTATGATGATATCTGCAAAACCAGCAATGCCAGCTACACCTGTAACTAATGGTATGAATAAAAATGGTTCTGTTATAAGAACTTTAACAATGACTAATCCAGCTGGTTATGATGTTGTTTTAGCTAGAAGAGGTTTATTAGATAAACAAGTTGAACTTCTTTCAAAAGCGTTACAATCATTATCATTAGAAGAAAATACTTACGGAATTTATACTGGATATAATAAATTCATGCCATTAAGTATGGAATTATTTGAAAAATTAGTAAAATTACAAGTGCAAGCTGAATCAAAACAAGATTTAGTTAAAGACATCGATAAAATTGAATTAAAAAAATAGATGAATAAAGTTATAGAGTTAAAAGAAATATCAGTTCAATATAATAATAAAAGCGATCTAGTTTTAAAAGATATTAACCTAGATATTTTTCAAGGTGAACTGGTTGCTATAATTGGTCCATCTGGAGTTGGAAAAAGTACATTATTTAAAATAATTATTAATTCATTAAGACCAGTAAAAGGTCAAGTAAAAGTCTTTGATAAAGACATTTTAAAATTTAATAAAAAACAAAAACGTCTTTTTATCTCAAAAATAGGTTTTCTAACCCAAACTCCTAATCTTATTTATACAGATAATGTTTATAACAACATTATTAGATCAACTAGTAAATATAAAAATAATTTTTATAAGTTTTTTAGTATTTTAACTAGAAAACAAAAAATAGCAATTTTTGAAAAATTAGATGAATTAAATATTTTAGATAAAGCTTTTTTTAAAGTAAGTGAACTTTCTGGTGGTCAACAACAGCGTGTAGAAATTGCAAAACTTCTAATAAAAGATGTTGAACTAATTCTAGCTGATGAACCAACAAGTAATTTAGATAAAAAAACTAGTATTGAAGTACTAGAAGTACTTAAAAATATCTCAAAACAAAATAAAACTATTTTAGTAAACATTCACGATCTTAGTTTAGTTAAAAGATATTTTGATAGAGTAATTGCAATTAATAATAAACAAATTGTATTTGATAAAAAAACTAAGGATATAAAACAATGGCAACTAGACAGAATTATAAAAAGCCGTTCTTAGTTAAAGAATCTAATTTCTTTAAATATCGTTATATAAACAGAACTACTAATACAAAAACAAGTTGAAAATTCCACCCAATTTATTTTCATTTACTAGCTTTTTTAGTTTTAGTATTAGTTGGTTATTGTTTTTATAATCAAGCGAGTTTGATTAAAATTGATAATTTTTATCAAGTAACTAAAAAACTAATTTTACTATTTAGTTTTGAAAATAAAAACTTTTTAGATACTAGTTATATTTCAAATGAATATACTAACTTATTTTTAGATACGCTTAGTTTGTTATGAGTAACAATTAAACTAGCTTTAACTGGAACATTTATAGGTTTTATATTAGCTGTTATTACTAGTTTTTTATCATTTAGTAAAGTTAATAATAAATTTTTATCTTATTTATTAAGTGCTGTTATTTTAATTTTAAGAAGTACGCCTGAATTGATCTTTATTACTCTGATAACTTCAACTTTTAGAAATGATTTAAGTTTATTATTAGTTTATATTTGATTTACTTGATTATGATTGCATAAATACTATATTGATATGTTAAATTCATTTGATTTACAGGCATATTATGTTTCAATAAGTCAAGGTAATTCAAAGTTTAAAGCTTTTTTTAAAGAAATTTATCCAAGAATAAAAAATAGAGTAATTGCATTATTCATTTTTTCATTTGAATCAAACATTAGATGAGCTTCAATTCTAGCAGCTTTAAGTTTACCTGGAATAGGTAGATTAATAGTTTATGGAAGTGAAAACACTGCTCATTTTAACCAATTAGGTATTCCATTATTAGTATTAATGAGTTTTATTTTAGTTTTAGAATTATTAAACTACTTATTTAAAAAATATTTAGTTGAGGCTAGATCTAAAGTTTATAAACAAAAAAATGAAACTAAATTTGAATACTATACAAGATTATCTAAAAAACTAAACGTTAATAAAATTATTATTAGTTTAATTTTTATTAGCCTGACTATTATAAGTATTATTACTTTTATTAATATTCCAATTTATATCTTTAATTTAGATTATGTTAAATCATTTTTTAATAATTTGTTAAACCCAAACTTTGCTAGTTTTAATATTTTTAACAAACATATTGAAAATAACCCAATTATTTTAATTTGAAACTCATTACAGTTTACAATTGTTGCTATGTTTATTTGCATAGTAATAACAATAATAGGTATTAGATTACAATCAATAAGACTAAATAATTTATTTGTTGTAATTATTTGTAGAAGTTTAAATGTTTTAATTAGATTAATCCCAACTATAGTTTATTTTTATGTTTTTCACCCAATATTTAGTAATGTTTTAACACTAGTAATTATTGTTGTTAGCTTACACCAAGCTTCTAGTAAAGCTAAACAACTAGTTGAAGTAGTTGATAATTTAAATATTCAAATCATCAATAATTTAAAAATACAAGGATATAGTAATAATCAAATATTTTTAAAGTATGTCTTGCCCGCAATTAAAATTGAATTTATCTCATTGTCAATTTTTTATTTCGAACTAATATTTAGAGCTTCAATTACTTATTATATTTTAGCTAGTGACAAATTATATATAGGTCATTTAATAACTAAGTACTTAGATACAAGAGCATTTTATCCAAGATTAGCTATGAGTTATGTATGAATTGGAACATTTGCTATACTAGTTATAAATTTAATTGCTAGATATATTAATAAAAAAATTAGAAAGTAATTAATAAACTATATTTTTAAATAATAAGTTAAATTCCCTTAAAAAAGGGAATTTTTTATTTGTTTAAGTTTAATAAATGTTAGAAAATATCAAGTTTTAAAATATTAAAAATCTAAATTATTAACTTTATAAACTATAAATAAAAACTACAAATTAAGACTAACTCAGATCTAAATTTCACCATTTTATGCTGATTGCTTGCATATATATATCATTAACTCTATAGGTAATATGGAGGTTTTTGCTATGCACAATAAAATAGATAATAGCAAAAATTCTCTATCAAATGACTAAATATGTAGTATGAGCTTTATATGATGATGCTGAAAGTAGTTATCAAAAAGCTATTAAAAAATACTTTGATAATGAATTTATAGTCTATTCAATTGGTATTAATGATTCTAGTAAAATAAAATTCAAAGAATCAGAAAATTATAAATATAAACAAATTGATTTATCATTACTTAACTTTAATTTAATAAACCAATTAAAGCAATTAGAAAAACCAGATATTATTCTAGCTTCTCCACCATGTGAAAGTTGAAGTGGAGCTGATTGTGGTGGTAAGATGTTTTCTAAAATAACTACTACTTCAGAAAAAGTTGAAGATGATACTTCAATTTGAAAAGTAAGAAATAAAAAATATTATGATGAATATAATAAAACTGCTCATCCAGTTAAAAGAAGATTATTTTTACAAAAAGAAGTGGGGAGAATATTAGGAATTAGTACAATAGGAGCTACTATTCATATAATTCAAACTTTTAAACCTAAGATATGAATTATAGAAAATCCAGCAACAGGTAAGACTTGAGATTTTCAAAAACACCATTGAAATTTTTATGAGAATTTTTATGAAAATAAAACTTATTACTCATCTTATGATATTCATTTTTCTTTAAAACCAACTATTTTTAAAAGCAATATAAAACTTGATCTACTAACAAATAGAAATAAGGGAAACAATGATCATATGGCAAGAGGGAATTATTCAAAAAGAAGTTCAATTCCAAGCGAATTGATCAAAGATATTATTAATCAAATCAAACTAAAACTAAACAAGAATAAATAATTATGGAATTTAAAGAAATTATAAAGAATGCTATATTTCATACAGTTGGTACTAATGCTAAATCTTATTTAAAAAGATTTAAAGATAAATATTCAAAATTTAATAGTTTTTATACTTCACCAAATAGCAAGATTAATAACAACATTAATGTGATGAATGAAAATGACAAAATAATTGATGTTTTTACTAGTGATGCTACTTATGATCAGTTTTGTTTAGTTTTAACTGCTTTTGGTTATATTAAAAATGTAAATGGTAATTGAAAAATAATTAATAAAGAATTATCTACAAAACAAATTGCAGATAATATTTTTTCAAAAACTTTTGATAAGAATGTTTCAATATATAGACAAAGTAAAATAATCACACTTTTAGTAAATTTAAACATTATTAATGAAAATAATTATCAAGATTTCAAATTAAAAGGCAAAAGAACTAATCAAGTTAAAATTAAAAATTTAAAAGCAGAAGTATCTCCTTGAGAAAAAGATGTCTGTTTAGATGCTGAATTAATAACATATTGTCTTAAAAAAATAGAAAATTATGAGTTTATAAAAAAGGAAAAATAATTATGATAAATCACTTAATTACAGTTAGTCCTAGAAGTGTTAAAGAAATGTTTTCTTATTTACAAATAGTTGAAATACCTTTATATCAAAGACAATATTGTTGAAGCAAAGAAAATATTCATTCACTTTTAAATGACTTATTAGATAGAGATCAAGATAATCGTCAGCACTTTTTTGGAACAATTACTGAAGCAATAGCTCCAACTGATACAGATAGTCCTAATGGTTTAAAACATCGAATAATTGATGGTCAACAAAGATTAACTACTTGTCTTTTATTAATTCATTTTTTTAATAGCAAAATAATCAGAAATAAAGAATCGAATATTTTACAACAATCAGTTTTTAAAGAAAAAGGTTTAACAATCAAAGAATTTAATTTAGAAAAACGCTCTGATGATCAAGAAACTTGATCTATATCAGAAGATATTAAAAAAATAATTAATTATTATACAAGTAACGAGCTTGATAATAGTGAAATAAATTTTAGTGATAAAAAAATAAAAGAAAATTATGAAATTATTCAAAACTTTTTTGATTCTAAAAAATTTATTGTTGATGATTATAAAAGATTATTAGATATTTTTTTAAATAAGTTTATTTTTTCATCATTGATTTATCCAATAAATGATCCATTTGAAGAAATGACTATTTTTGAAAATTTAAACTCTAAAGGTGTACCTTTAGATGATCTAGACTTAATTAAAAATATTATAATGTTAGCAGATCAAAATAAAAATCCAAAAGACAACTTAAGACAATTTGATAAATACATTTGAAATTTAGTTTCAAATGGAGATTGAAAAAATAAAGATAAAGAAAAAGTAATTAGAGACTTTTTTGAAGAATTTTTAAAATGATACTTAAAAGATAATTATAAAAAATATGGATCTTATGAAATTTATAAAAATTTCAAATATTATATAAAGTCTAGTAAAGACAAAAACTGAACTTTAACTAATATTTTACAAGAGTTAAAAAAATATCTGATTTTATATTTAACAATTACTAAACCAATAAAAGCTAATCATATTGGAAATAATTTATGAATAAGAGTAATTGATCAAAAAAGAGTTTATATAGGTTTATTATTTGCATTATTTAATAAATTTTCAAACTTTGATACTAGTAGTGAAGAATGAAAAGAAAATATAACAATTATTAATTATATGAAAGTATTTTCAATACATATTATAAGATTAATGTCTTATCAAGGTACAGGTCAATCACTTTCAGATTTTTGTTTATGATTTGAAGAACAAATAACTAAAGAAGAAAAAACTTATAAAGACTTATTTGAAATTTTAAAAGATAATTCTATTAAAAAACCACTAAATGCAATATCTCCTGATGATATACAAGTTAGAGAATCACTTTTAAGTGTCAAAGACACAGTTAAGTGAATTGCAAAAAGTGTTATTGATGTTGTTGAAACTACTATTTTAAATAATGCTAATGAAGAAATCAATCATACTAAAAAAACTACACTAGAACATATAATGCCTCAAACTTTAACTGGTGAATGAATTAAATATATAGCAAGTAATGAAAACACTTCAGAACAAGATGTTATAGATAAGCATAAAGCATATTTAAATAAAATAGGAAATTTATGCTTTATTGATTTAAGTAAAAATTCTAAAATAAGTAATTATTCATTTGAAGATAAAAAATCTAAACTTTATCGTCTTGTTTCATCACCTTTAATTAATGGATCTGATAATTTAAAAGACTATAATATTGATTCTATTAATTCTTATAGTGTTTGAGGATTTAGTGAAATTCAAAAAAGAACCGAACAAATTGTTGATCAATTTTTAAAAATCATTAATCAAATTAATTAATTATTTGTAAGTATGTATAGCAATAGCTAATAGCTATTGCTTTTTATTTTATTAAGATTTCTAATTAATTTTTCTAATTATTTATAATAAAAAAAGAGGGGTTAATATACACTAGAAAGGGTTAGTATGATACAAAAAAATACACCAGGAGAAGCGTTAAGAACGTTTTTTAATCCAACAGTCTTTGGTTTTGAAATTCTAGCAGTATTTTTACTAGTATTTTTAGTTTTAGTTTTTAGACTAATTGCAATATTGTTAAAAAAACAACATAATAAGTTATTTTTATCAACTAGTTTTACAATAGCTACAGCTTTAGCTTTCTTTTTACCTTATGGATTTGCTTCAATTGGAGTAAAAACTTCTATAGCTCCATTTTTAAACCCATTAATTGTCTTTTTTAAAGCAGTGTTTATTGGGTTTGGAAAATCTGGTCAAGAAAGTAATCAATTAGTAGGATCTATTTTAACTAATGGGATTTGATATATTTTATTTGCTCAATTTATTGGAGTAATTTTAAGTATTTTAGTATTTTATTTATTTTTTTATAGTATTAAAAAAGTTAATAATAAAAAAATCGAATATCAATTTTTAAATACATTAACATTAAGAGAATTTTTTAAAAGCTCATCTGATTTATCAATACTAGGTTTTAGTATTAAAGAGTTTGTGTTTATTACTTTATTAATAATAGTTTTACCATTTATATCAGCAATTGATACAGCTATTTATAAGTTTGATCAATTTGGAATTATATTAATGGAATTGTTATTTATTTGAACTATTTTATTTATTTCTTCATTTTTTGAATTCTTTTCATTTCATTTAGCATTTCCATTTATAGATATTATTTTTAAAACAATAGATTTCATTTTATTAAAAAAAGAAAATCAAATTAGTATTAAGTCATACTTATTTGATTTATTAAAGTTTGTTTTAGTAATTATATTTTCAATAATAATACCTATAATAATTGGATTTATTAGTATAGCTATTAAGATGAAAACCGGAGTAGTTATATCAGTTGCTTAAGGAATTATATGATAAATAAAAAAAATAAAAAATCAATTTTTGCTGTACTTTGTAGTTTACCAATACTTTCAACTTCTATAGTTATTGGGTGTAAAACAACTCAAAATCAACAAGGTATTTATAAAATACTAAATTTTGAAAAAGAAAATCAAATAAACATATTATCTGAAATTAATCAATATTTTGAAAAACACGACTTTAATGAACAACTAGTACAATTTGTTAATAAAGATTCACATAATTATATAACTTTAGATAGTTTAATGAAAAATAACTATGCAGCTAAATATGTTAAATTTGATAAAGATAAATTCAAACAAATTATTAAAAAAGAGTTTAATCTTTCTGATGCTTATTTAAATAAGTTAGAAATAGAAGTTGATTACACTAATATTGATAGAGATTATTCAAATAATTTTGATATTGTTTTTCCTATTAGAATAAAAAGACAATTAGAAAATCATAAAAAAGCTAGTTATCAACCTGGATTATTTACTGAACAAATAATTAAGTTTAGATTAAAAAATGTAAAAAGTTCACCTAGTGAAGCGTTTTTTGCTGAAGAGTTAAAAGATATTTTTAATAAATTAAAAGAACTTAAATATGATAACTTTACAGCTAAAATTAAAACTAATATTTCTGATGAGCTTAAAAAACAAATAGATCAATGAAATATTAATGAATTAGACTCAACTCAACTTTCAAATATTTTTGAAATAAATACTTCTGAATTTAATCAATTAAAAACAAATAATCCTAATTTTGTTTTTAAATCAACAATTTTTGGTGTTGATTTTAGTGATAAAAATTTAGCTTTAAATGAAGGTTATTTAAAAGTTAGATTTGCAGTTAAAGAAGGTTTTGATTCATCTAAAAAAGCTAAAAAACTAATTGAAATTAATAAAGAAATTAATGAATTAGTTACAAGAAAAAAGAAATTAGAAAAAGATAATAAAAATGATTCAAATAAAACAGAAATTGATAAACTAACTGAACAAATTAAACAAAAAACAATAGAACTAAAAACAATTCAAAAAAAAGCTTTACCAGCTGAAGCAGGAATAACTAAATTAATAAAATTTAAATTTGATTGAAATGATCAATTTTGAAAAAACATTAAATTAAATGAAGTTATTAAAATTGATACTATTAAATATGGAATTTCTAATACTGATTTTTCATCATTAACTAAAGATAATTTAATAGTTAAAATTCTTAATAAAGATGTTAAAAATGTTGATATTAAAAAAATAGAAAAAACTAATGATTTTAGAAACGCTAAATTAGTTTTAGATGTTTTATTAAAAGATAATAAAAAATTAGAATTAAACAAAAAAATAGGTGTTGGAAAATATAGTTTATTATATGAAAATGACTTTATCAAAAACAATATTCAAGCTCCTTATTTTACAACTGAAAGATTAACTCAAGAAAATTTACAATCTGTAAATAAAGACTTTTTTAGACAATTTAATTCAGAATTATTTTCTGGTGGGTATGCTTCATCAAGAGGATTTTATGCTCCAAAAATTACTACACCAATATTTATGCATATTGGAGAAGATTATGTAGCTAATGATTTTCAAGCTGTATTAATGCCATATGATGGAGAGATTATAGCTGCATATGAATTAACTACTAAAATACCATTTACTGGAGTTGGAACAGTTGTTGTTGTTAAAATAAAAGTTTCTGATTTAGATTGAACTCCTAAAGAAAAAGAAATCTATTTAAATGATAATAAAGATCATATTTATATGTCATTTTTACATTTAGATGCCTCAAGAACTTTAAATAATCAAAAATTAGGATGAAGCGCAGAAAAAGTTGTTTTAAATAACAATAGAACAATTCAAGTTGTTAAAAGTTTAACACCAGAAAAACCTCAAAAAGTAGCAAAAAATACTATTATTGGTTATTTAGGTAATAATGCATCTAATGGTGGATGAATGAGTCATGCTCATGTTAATTTATATACAAATAGACCTAGTTATTTATCTGAAAATTACTTTTCAACTAAAGCTAATCAAGGATTGTCTGAAGATAGAATCAAACAATATCATCAAATAGTTAATGGTAAAGAAACTTGAAGACAATTTGGAAATATTGGTTTACATCAATCACCAGAAAAATCACCATTTAATATATATGAAGTTGATCCAATTACTGGAGTAGAAAAACTAGATGAAAATAAAGAGAAAATCATAATAAAAAATGAACAAGCTTTATTTTTACCAAACTTAAGTATGAGTTTATTTGAAAAAAGATTAGGTTATGCTAATCCAAATTTAGTGTATAGATTAAGAGATAATAAAACAGTTTCATTTAGTGTAAAAGAAGTTAATAAATTAGCATAAAACTAAAGCAGATCTTATGATCTGTTTTTTTGTTTTATATCAAAATAAATAGTTATAACTATAACTTATTTAAAACTTTTAATACTAATATTTAAAAAAATATTAAAAAAGGTCATTCTCAAATATTCATATTTTCAAGTATTAAAATTTAGTTAGTAATTAATTTACTAACTTTATTCCTATAATAATAAATTTTTTATTAACATACTTATTTATAAAAAAACTGAAAAAATAATTACAGTTATCAAGGAGATTTATGTTTAAGAGCAAGAAATTGATAATTCCTTTACTAACTACACTAGCTGTTGTTCCTTCACTTGTTGTAGTTTCTTGTAAAAATCCTCAATCTACTCAATCTTTAAGTGAAAAAATTTATTTAAACTATAATTTACAAACTGAAAAAGACAAACAAGAATTTGAAAACTATAACCAAATTAATATGTTAAGTGAAATTAATCAATATTTTACTAAACATGATCATAACAATGATTTAGTTAAATTCACAACTAATGGTGCTTCTGGAGATACTGTTGAATTTAACAATATAATGAAAAATAACTATGCATCAAAATATATAAAATTTGATCAAGACAAATTTAAAGAAATTATTAAAAAAGAATTTAATTTATCTGATAGCTTTTTAAACAGATTAGAATTTGAGGTTGACTATAATAATATATCAAGAGATTATGGTAATAACTTTGATATTATTTTTCCTATAAGAGTTAAACTTCCTTTAGTTAGTCATAATAATTTTAAATACCAACAAGGTTTATTTATTGAACAAACTTTTAACTTTAGAATTAAAAATGTAAAAGCAAGTAATAGTGAAAAAATAGATGTATCTAAGATTAAAGATATATATAACGAACTTGTTAAATTAAAAGATAAAAATAACTTTACAGCTAGTGTTAAAGAAGTAACTGAAGAAACTAAAAAGCTAGTTGATGAGTGAGGAATTCATGAATTAAATTCAAAACAACTAGGTGATATTTTTGAAGTTAAAACTGAAGAATTTGACAAGTTAGTTAAAGATAAAGAAGTTGAACATAAAGTTACTATTACTGATGTAGATTTATCTGACTCTAATTTAGCTATTAATGAAGGATTATTAAAATTAAGACTAGGTATAAGAAGTAAGGAAAAAGAAACTGAAACTGGTGTTAATGTTTGAGTTAAGTTTAACTTTGATCAAAAAGATACATTTTGAAAAGAATTAAAAATAAGTGAATCTATTAAGGTTAATACTGTTAAGTTTTCTGAAACTAACACAGATTTTACTAAATTAATGAATGATAATTTAATAATAAAATCTAAGTCTAAATTCATTAAAAACATTAAGTTAAGTTCAATTGATAAAACAACAGATTATAGAAATTCTGGTGTACTTTTAGAAGTATTAACTAATGAAAGTAAAGATAATGTAATAAAACTACATAAAAAACTTGGTGTAGGAAAATACACTGATTTATATAGTGCTGATTTTACTAAAAATAACATTCATGCTCCTAACTTTGCAACTGAAAAATTAACTCAAGAAAATCTAAAAAGTATTAATAAAGACTTCTTTAGACAATTTGATTCAGAATTGTTTTCTGGAGGATATGCTAAATCTAGAGGATTTTATGGTGAAAAAATAAAAAGTCCACAATATATGCACGTAGGTGAAGATTATATAGCTAATGATTTTCAGGCAGTAGTAATGCCATATGATGGAGAAATCATAGCAGCTTATGAATTAACAAGCAATATTCCATTTAGCGGTGTAGGTACAGTTTTGGTAGCTAAAATCCCAGTTACCAACTTACCTTGATCTCCTAAAGAAAAAGAAATTTATTTAAACGATAGTAAGGAACATATATTTATATCATTTTTACATTTAGATGCGCAAAAGACATTAAATAATGATAAATTAGGTTGATCAGCTGAAACTACAGAATTAGGAAAACAAAGAACCATAAAAGTTGTAAAAGAAGTTACACCAAAAAACCCTAAAAAAGTTTCTAAGGGAACTATTATTGGTTATTTAGGTGATCATTCATCAAATGGTGGATGAATGAGTCACGCTCATATTAACTTATATACAAATAGACCTAGTTATTTATCTGAAAATTACTTTTCATCTAAAACAACCAAATCTCCAGTTGATAAAAATAGACTTGATAAATATCATACTAATGATTTAACTAATAAAAAAGAGACTTTCACTACTCTTGGAAATGTTGGTGTTGAATTTAAACCAGAAAGTAAAATCTACCAAGTTGATCCTAAAACTGGTAAAGAAGATAAAAAAATGGAATTACAAGAAATACCAGTATATCTATCTGGTTTAAATATGTTAACCATTGAAAAAACTAAAGGTTATGCTAACCCAAATCTAATGTATAAATTAAGAGATGAAAGAACAGTTTCATTTAGTGTAAAAGAAGTTAACAAATTATAATAATTAGAAAAACAAATCTATTAAGATTTGTTTTTTATTATTTTAATTAAAGTTTATAAATTTATATTTTTTATATTAAAATAAATAACAATAAAAAAAGGAAGTAAAAACATATGAATAAAGTTATTTATTTAGCTGGTGGTTGTTTTTGAGGTGTTGAAGCATATTTTTCTAAACTAAAAGGTGTAATTGATGCTGAAAATGGATATGCTAATGGAATTAGTGAAAAAACTAAATATTATAGTTTAGCTAAAACTTTACATGCTGAAACAGTAAAAATTACTTATGATCCAAATCAAATTTCACTAGAAGAATTATTAGTGCATTATTTTAGAATTATTCATCCTGATTCATTAAATAAACAAGGAAATGATGTAGGAACACAATATAGAACTGGTGTTTATTATACTGATATAAATGATAAGAAAGTTATTGAATTAGTGTTTTTAGAATATAAAAAACAATATGATGAATTTTATGTTGAACTAGAAGAACTAAAAAACTATATGACAGCTGAAGATTATCATCAAGATTATTTAGATAAAAACCCAACAGGTTATTGTCATGTTAATTTAAATGTAGATTTTAATTTAACTGATAAAGAAAAAGAATTTGTTCAATTAATTAGAAAAGAATTAAGTTTAGATGAATTAAGCTTAAATGTTTTAAAATACTCAGCAACAGAAAAACCACACACTTCAGAATTTAATGATGAACATAGAAAAGGTATTTATGTTGAAAAAATAACTAAAGAAGTGTTATTTGCTTCAAATACCAAGTTTAATGCTGGTTGTGGTTGACCTAGTTTTGCTACTCCAATTAATAGTAAAGCTGTTGAATATAAAGCAGATTATTCTCACAATATGCACAGAGTTGAAGTTAGATCAAAAACTGGAGATAACCATTTAGGTCATGTTTTTAATGATGGTCCTAAAGAAATGGGTGGTTTAAGATATTGTATTAATGGTGCTGCTCTTGAATTTATTCCTTATGAAGAAATGGATGAAAAAGGATATTCAGAATATAAAAAAATCTTAGACTAATTTATAGAATTTATTAATAAAATATTAATATAAAAATACTGCGAATTTAAAATTCGTATTTTTTTGTTTTTAAGAAAGGAGAAAAAAATGAAGCATTTATTAAAAATAATAAGTAGTTTAACTGTACTAAGTACTAGTGTTTTAGCAGTTAGTTGTACTAATAAATCAGAACAAAATAACAAAGACCAACTACCCAATAATAAAGATAATACTGAAAATAAAGATAAAAAAGAAGAAAAAGACCAACCACAAGCTGATCAACCCAGTGATCATCCTAAAGAAGAACCTAAAATTGAAATAAGTGAAGAAGAAAAACAAGAAGTTATAGATGCACTACAAAAAGTATTTAAAGAACAAGAAGATGCATTTGGTAGTTTTCATACACACCAAGAAGTATTAGATCAGTTAAAAGTTTATTTAAATGATAATAAAATCAAACATTTAGATCATTTAAAATTAACAAATGAAAAAGAAAAAAATACTAATCTTAAAGTAGATACTGAACATAAAAAATTAAATAAGATAAACTTAAGTTTTTTTGACAAAAATATAATTTTTAGTCCTAAAAAAGTGCTAGAAAATGAAGTACAAGACAAATATATTGATAAAAAATTAATTCAAGTTGGTTATAAATTAGATAATTCGATTACCAGAATTAATCTGAAGCAAATTAATAAAAATACGACTCAAGTTCCAAGACATTTACCATTAAAAATAAATTCTTTTAATGAATCATTTAAAAATCTAGAATCATCTAAGATAGATAATTTGGATAAGTGAAATACTAGAAATATAAAGTATATGACTGAAACTTTTAGCGAGACATCAAGTTTTAATCAAGATTTAAATTCTTGAGATGTTTCAGGGGTTATTGATATGACAAATATGTTTGCAGGGGCTAAAAAATTCAATCAGAGTTTAAATTCCTGAAATACAGCAAACGTAAAGAGTATGTCGGGAATGTTTTGGGAAGCTGAAAGTTTTAATGGAAATATTTCAAATTGAAATGTTATGAATGTTGATGACATGTCAGTTATGTTTTCAGGAGCTAAAAACTTTAATCAAGACATTTCAAGATGAGACACTTCAAAAGTTGGTTCTATGAAGGGAATGTTTAGTGATGCTAAATCATTTAATCAAGACATTTCAAGATGAGACACTTCAAAAGTAGGAACTATGGAACAAATGTTTGAAAATGCTAAATCATTTAATCAGAACCTAAAAAGATGAAATGTCGAAAAAGTAACACACGCAGAGAATTTTAGAAGAGGTACTGAAAATAATTTTCTTGAAGAAAACCAACCTAACTTTGGACCGAACACCGCTAAATAACCATTAAAGTAATAATATAAATAGATTTGAGACTGTCTATATTTATTAAAAATGAAACTTATAACAACAAAATAAGTTTCATTTTTTAATTTTTAAATAGTGTAAAATATAAATAGTATAAGAAAGTTGGTGTCAAAATGCTAGTGTCTTTTATAATTGCTTCACAAGCACATTTAGATAGATTAAAAACAACGCTTGATTCTATAAAACATCAAACTAATAACTCACACCAGACTATTATTATAAGTGATTCTAAATATACAGATAATACTAAAAGACAATATATAAAAGAAATTTTTGATAACTCAGAAAATATTGTTTTAAGCGAAAATAATATTCCACAAGATACAGCAACTGATTGAAATTGTGCAATGCAATTAGCTAATGGAAAATATGTTGTTTTTGTTAAAGAAGGCGACTTTTTATACCCAAATTTTGTTGAAGAAATTCAAAAAATCTCAGATAAATATAATGCAGATTTAATTGAATTTAATCAAAACTATAATGGTTTAGTTGATGATCAAATTTCATACAACTTATTAGAAGCTAATAAATTATATGATTTAAATAAAGATTATGAAGTTTTTACTTATATTCAAAGACTAATTTATACTAAGGCATTTAAACTTGATATTATTAGAAAAAATAACTTAACATTTAGAAGAAAAGTTAGATTTGATCATTTATTTACTTATAAATTTTTATCTTATTCAAATACTTGCTATATTTCTGATGATTATTTATCATTACATAGAATTTCAGTAATGAAATACTCAGCATTTGATTTGTTAAGACAATGACCACATATTATTAATTATTTTAGACAAATTAATAAATATAAACTTCTTAGTGATCAATTAACTTATGCTCATTATTATCAAACTTGTTATAAATTTTTAGATTTAATTGAAAAATATAACAACCCTGTTTTATATAAAAAAGCTTTAAATATCACTGAAAACAAACTAAAAACTAAAATTAATCGTTTTGTTAAAAAAAATAAAGTCTTTTTAGAAAATAAAGATACTAAATTTAACCAAAGAATGAATGATTTTGAGCGCTTTATATATAGTGAGCTTAAAAAAATAAAATAATGAATAATTCTTTAATCACTAGTAAACAAACTGATTTTAAACTAGATAATAACTATAAACTAGCTAGTTTGTGAAAAGTGTTTTTTGCTAGACTTTTTGATTTGTTAATTTGCTCAATACCACTAATTATAATGTCAATTTTTTTAAAAACTAAAACTGGAGATATTATAAGCTTAGTAATTAAGTATTTAGTGTCTTTTTTATGGACTTTTTTTTATTTTGTTATTTTAAGTTTTTTGTTAAGAGGAAATAGTTTATCTAAAAAACTTTTTAAAATAGAGTTAAAAAGTTTAAAAACAAATAAAATTAGTTTTTTTCAAATACTAATTAGAGAGATTTGATTTATTTTTATTCCTTTATTTATTGGGTTTATTTTCACTTTAATTTTTGCTTTTTTACTACCAGTTAGTTTTACAAAAACTCAGAGTTGAAGAATTTCTTTATCTTTAATTATTTATCAAATCGGACTAGTAATTGTTTTGTTTTGATTTTTAGGATTAATGATTTCAATTAGATTACAAACTAATCATCAGTCTTTTATTGATATTAAATTAGGTTTAATTGTTATTCAAAAACAAAAAATTATAAAACAAGAACCAATTGTATCTAATCAAATTTTAACTAGAAATGATAAACACATTTCTTTAAATGAACAACCAGGTAATTTTGATTTAGAATTTATAGATGAATTAAAACAAGAATTAAATAATCAAAATCAAGACAATAAACAGAATACAAATAACAAAAACAAATAGAAAAATTGGTGTAAATATGTCAGTAGATCATTTATTAGATTTATTAAATCCTCAACAACTAGCAGCAGTTATAAATACAGATAAACCAGTAAGAATTATTGCTGGAGCCGGTAGTGGAAAAACTAGAGTAATTACAACTAAAATTGCTTATTTAATTGAAAAAAAACATATTGATCCAACTAGAATTTTAGCTGTAACTTTTACAAATAAAGCAGCTAAAGAAATGAAAGAGCGTGTTTTACAAATTACAAAAAATCAAAAAAAATCTCCTTTTATTTCTACTTTTCATGCTTGATGTTCTAAAGTATTAAGAATCGATGGAAAACATGTTGGTTTAAAAGATAAGTTTTTAATAATTGATTCTGATGATCAAAAAAGAATTATTAAAAATGCTTTAAAAGAATCAAATATAGAATTAAGTGAAAATGATAAAAAAACTTTTGATAAAAAGATTTTATATAAAATTAAAGAATGAAAAGAAGAACTAGTTGATCCAGATGAAGCAATTTTAAATGCTAATAGTACTTATGATAGAAATTCTGCTATTATTTATAAACTGTATCAAGAAACACTTTTAAAAAATAATTCTATTGATTTTGATGATCTACAAATTTATGTTTATTTATTATTTAAAAATCATCAAGAAATTTTAAATAAATGAAGAAATGCTTATGATTATGTATTAGTTGATGAGTTTCAAGATACTAATGATATTCAATTTAGTCTAATTAAATTTTTAACTATAAATACTAATCATTTAACAGTAGTTGGTGATCCTGATCAAACTATTTATTCTTGAAGAGGTGCTAAATTAGATATTATTTTAAACTTTAATAAAACATATAATAATGCTATAAGTATTGTTTTAAATCAAAATTATAGATCAACAAAACAAATACTAGATATTTCTAATAGTTTTATTAAAAACAATAAATTTAGAGAACATAAAGAAATTTTTACAAATAATAAATCAGGTAAAAAAGTAGTTTTAAAAGAATGTAATTCAAAAACTAGTGAAGCTAGTTATGTAAGTTTTAAAATTAAAGAACTAATAAAACAAGGTTATCATTATAAAGATATTTTTATTTTATATAGAATGAATGCTTGATCTCAAGAATTTGAAAAAGAACTAATTAATAAAAAAATTCCTTTTCAATTAATTGGTGGAATTAAGTTTAGAGAAAGAAAAGTAATTAAAGATGCTATGGCATTTTTAAAAATGATTTCAATTAAAGATGACTTGTCATCTCAAAGAGTTTTAAGTTTAATTCCAAAAATTGGAAATATTACAATTGAAAAAATTATAAATACTGCAAATTTAAACCATATAAGTATATTTGATTTAATTACAAATGAAGACAAAACATTATTACAATCAATTACTAAAAATTTAGATGAACTTATTGAAGTGTTTAAAACAGCTCATCAATTATATTTAGATAATACAAATATTGAAGAAATTCTAAAATATTTATTAATTCAATCTGGTTATGAAAATAAATTAAAAGTTAAAAATGAACATGATGATTTAGATAATATAAATGCTTTATATGATCAATTAAAAAGATTTGATGAAAATTTTGATGCAAACTATTATAGTGAAGATAATAAATTAATTGCTTTTTTACAAGAAGAAGCTTTAACTAGTGATATTGATGAAGCACAACAAATCGATAAAGTTTCATTACTAACAGTTCATGCAGCTAAAGGATTAGAAAATAAAATAGTTTTTATTACTGGATTAAACCAAGGAATTTTTCCAACAAGACTATCTGAAAATAATCAAAAAGAATTAGAAGAAGAAAGACGTGCTTTATATGTTGCTTTAACTAGAGCAAAAGAAGAATTATTTTTAACTTATGTTAAAGGTGATTATTCTCATATTATGCAATCTGAATTAAAACCAAGTAAGTTTATTCATGAACTTGATAAAGATTTATATGAATTTGAATCTCAATTTTTAAATAGTCAAATTTATGATACAAACCAACATAAAACACCTTCATTTTATGTTTCACCAAAACAACATAACTTATATAATGTTGGTGATTATGTTGAGCATAAATTATTTGGTAAAGGAATTATAACAAAAGTTATAAATGATCAATTACAAATTTCATTTACAAATTCTAGTTATGGAATAATGATTATAGCTGCTAATAATTCGGCTTTAACTAAGCTATAATAATTAGATATGGTATAAATAAGAATGGTATAATATTATTGTTAAATTTTAGGAGGATTAAATAATGGCAAAGTTTTCAGCTATTATTACAGATAAAGTAGGTTTACATGCCAGACCAGCTTCAGTATTAGCTAAAGAAGCTTCAAAATTTAGTTCACATATTACTATTATGGCTGGTGAAAAGCAAGGTAATTTAAAATCAATTATGAATGTAATGGCAATGGCTATTAAAACTGGAACTGAAGTAACTATTCAAGCTGATGGAAATGATGAAGAACAAGCAATCAAAGCAATTAAACAAACCATGATTGACACAGCTTTAATTCAAGGATAATTTAATTAAAAACAACCATTTAGGTTGTTTTCTTTATTAAAAGAAAGTATTAACTATGATTAAAAAATTTAGTATAAAAGATACTAATGTTGATCAGGCTTATCCATTTGATTTTAAATTTTACAAACCTAAAATCGAAGGAATGATTATTTTATTTTCATTAGTTATTTTGCCTTTAGTTACTGTAATATTTTTAAATGTTTTTAAAAAAGAATTAAATATAACTGATAGTAGAATTGGTTTGATTTTCCAACTTTCAAGTATAGTTTTTACTATTATTGGTGGATTGATTTTTTGATCAAGAAACCCTGTTAGTTTTTGAAAATCAGGAGTTGGTATATTATTTGGCTTTCCAATCTTTTTACAGTTATTTGCTATATTTTTTAGTTTATTAGCAAATGTATTTAATGTTTTAAAAAATGGTGGTGTTTGAACTCAAATTTATAATCTTTTAATTCAAACAGTTGCTGAAATTTTAATAATTATTTTTGCATTTAATAAAATCTCAAATTTAAAAAATAAAGTTAAACAAACTTTAAAAGAAAATAAAAAACTATTAATACCTATTAGTATAGGTTTTGCTGTTGTTGCTTTTATTGTTGGTAATACTTTATATAGTTTAATTATTTCTCAATTAAATCTAAATTTAGGTGAATCAGAAAATCAAAAAAGTTTAGTCTCTCCATTTCAAAATGATGGAATTGGTAAATATATTTATATGATTATATTTATTATACTAACTATATTTATTGCTCCATTATGTGAAGAAATTATTGCAAGACAAGCTTTATTTACTGGTGTTTCAAATAAAGTTTTATCAATTATTACTTCAAGTTTATATTTTGGAGTTTTACATATTGCAAGTGGAGATGTTTATAATATTTTTCCATATGTGATAGGTGGGTTTTTCTTTTCTTTAGCTTTTAGTTTTTCTAAAGGTAATTTAACTTATTCATGATTTTCACATTCAATTTATAATACTATTTCAGTAGTTTTAATAATAGCTAGTTTATATATAAAATAGTTATGACAAAATTTGTTGTTAATAAAAACGATCAAAATCAAACTTTATTTAAGTTTTTAAAAAAGACTTTTAAAACTACACCAATTAGTGTGATTTATAAATGAATAAGAAATAAATCTATTAAGATAAACTCTAAAAGAATTAGTGATAAAAATTATTTATTAAAAATAAATGATGTTATTGAAGTTTATGATTCAAATAAACCAATAATTAGAGATCAGTTTAACTATATTAGTAATGTTAATTTAGATATTGTTTATGAAGATAATAATATTTTAATAGTTAATAAACCTAATAACTTAGAAATGCATTCAACTTATAATTTGTGCTTAGATGATATGGTTAAATCTTATTTAGTTGATAAAAAAGAATATGATATTTATTTAGAAAATTCTTTTGTGGTTTCTCATGTTCACCGTTTAGATAAATTAACTAGTGGGTTAGTAATTTATGCTAAAAATAAAATTAGTTCAACTATTTTAACTAATGCATTTAAATCAAAAGATCAAATTAATAAATATTATTATGCACTAACTAGTAGTGATTGAAATTTAGATGAGTTCTTACAAGTTAATGGTTATATTAATTATGATAGTAATATAAAAAAAGCTGACTTTAGTTTAGATAAAAAAAATAATTATAAATATTGTCAAACCGAGTTTAAACTAATTAATAAAAACTTAATTTTAGTAAAATTAATAACAGGAAAAAAACACCAAATTAGAAGTGTGTTAAGTTTTTATAATCATCCTATATTAAATGATTTTAGATATAATGGTAAAAAGATAAATGATTTAAAAATGATTTATTTATCAGCTTTTAAAATTGAATTTAAAAACTTAGAAAAACCATTAGATTATTTAAATAATAAGGTGTTTATAAAAAACCCAGAATGAATTAGTAAGGAGTAATTATGCAAGTAAATGTTGAATCAACAACTGCAAATATGCCTATTAATGATTCTAAAAAAACTACTTCAGCTAAAAGTGGTGTTTTTAGTGCTTTATTAGGTGTTGTGAGTTCAATAACTAATATGATAATTCAATTCTTATTGATTTATTGAGTTTTACAAAGTTTTGGTACTGAAATTAGTGGGTTTATTAGAATTTCAATGTCATTATCAATAATTGGAGGAACTGCTGAAGGAGCTTTAGCTTTATCAACAGTTTTAATGTTAACTGAACCTTTAAGTAAAAAAGATTGAATTACAGTTAATGAAATTTTTTCAACTGCAAAAAGAAATTATAATAATAAAATTGTTTCTGGATTTATTTTAGTTTTTTTATTATCTATTTTATATCCACTACAAATTGCAATTTCTCCACTAATTACTAGTGGTGAATCAATTAAATGAGGAATTGATTTTACTACACCTTTATCAAAAACAACTTCTACTTTAAAGTTTTGAGAATTAAGTGCAATCTTTTTAATTTTAGGAACTAAACAAACTTTATCAGCTGGATTATTTGGTGTTCATGAAAACATAATGCAAGCTGATCAAAAGAATGCTAGTAAAAAATTAGTAGTTTTATTTTGTGATGTATTGTTTTATGGAATATTTTTTGTATTATTAAATTCTTATATTTATTGAAACGATAGACATACTCCAGTTTTATTATTTTTACCGTTTTTATTTTATCCAGTTATTAGAGGATTACTAATTACATCTTATGTTAAGAAAAAATATCCAGCTATAAAGTTTTATAATGATTTTAATAATTTAAATTTAATTAGAAGATCTACAAAAATTTATTGATCTTCAATTGGTCAATCTATTTTAGTTAATAGTGATTTAATTATTATCTTTTTAGCATTAGGTTCAATTGGTTTGAAAGTTTCATCTTTAATTTCTTTATATATGGTTGTTGCAATTAATTTAAGAATTATTATGACTTCTTTAGTAACTTCATTTAAAGAATATTTTTCAAGTGTAATTATTAAAAAAGGTCGACTAGATTGAGAAACTTATTCAAACTATGAGTTTTATTCTTATATAGTTGGTGTATTTTCATTTCTTATAACAAGCATAATGACTCCATACATAGTTACAGGATTGTTTTCAAAAATTATTTTAAATGATGTTGATACAACAGGACTAACTAAAAAAACTATTGAATTTATTATTTTTAGTCCATTTTTTTCAGGTATTTTTGGAGCAACAACAGGTTTAATTGTTTTATTAGAATCAAAAATTACTTTAATACATGCAAAAGGGATGCATAGAACTATAGCAAAACCACTGAATTTAATTGCTTTTAGCTTTTTTATAACTAGTTTTATAATTACTTTATTATTAAATCGTTTTATTGGAAATGTTGAAAGTAAAATTAGTTGAGTAATTATTGTATTTTATAGTTCTAAAATTTTATTTTTAATAATTGCTTATATTTATTTATGAATTTTTTCTTGAGATAAATTAGTTTATAATGCTAAATTTAATAGAATTATTCCAAATATTTTATTTTTAACTTTATCAGCTTGTTTAGTAATAGCATTTTCATTTAGTGCTGATGATATTTATATATTATTAAAATTTGATACAAATAAAAAAGTACCAGTTGATATACTTCATATTATTTTAGGACTAATTATAATATTTATAGCAAGTTTTTTTATAGGTATACTAACTTTTGTTTATAACAAAATTGTTAAAAATACTTCAGTTACTAGATTGATTTTTTATAGTTTACCTTTTATTAAAAGACTTAATAAAGAAAAACAAGAAAAAGCTAAAAGAGATTTATTTGAAAAAGAAAATATTAATATTGATAAGTTTTTATTAAAACAAGAAGATCTATTAAAAGCTATGTATGGGTTTAAAGAAAAAAAAGTAATTGATCAAGATGAGTTTGAAAAATATTCTAAATATAAACCAAAACCTAAAGTTTATATTTTAAAAGCTAGTGATATGAATAAAGATGAATCGGAGTATTAAAATATGTCAAAAGATAAAGCTTTATTAAGAATTAATCAATTAAAAGAACAATTGAACTTATGATCAAAACAATATTATGTTGATGATAATCCAAGTGTTGATGATATTGAATATGATCTAGCTTTAAAAGAATTAATTAGTTTAGAAACTTTATATCCAGAATTAATTACAACTGATTCACCAAGTCAAAAAGTTGGTGGAATGGTTAGTGAAAAGTTTTTAAAAATCACTCATAAAACTCCAATGCTAAGTTTAGGTAATGTTTTTAGTTTTGATGAGTTTTTAGATTTTAATACTCAGATAAGTAAAGTTTCAAATACTTTAGATAATCAGTATGTTGCTGAATTAAAAATTGATGGTTTGTCAATTTCATTAGTTTATGAAAATGGAAGTTTAGTTTCAGCTGCTACTAGAGGTAATGGTGTTGTTGGTGAAGATGTTACTATTAATGTAAAAACAATTAAATCAATTCCTTTAAAAATCAATAAAAAAGAACGTGTTGAAGTTAGAGGAGAAATTTATTTATCTAAAGCTGAATTTGAAAAAATTAATCAAAAAAGATTAGTAAATAATGAAGATCTATTTATAAATCCTAGAAATGCAGCTGCAGGTACTTTAAGACAATTAGATTCAAAAATAGTTGCAAGTAGAAATCTTGATGCTTTTTTATATTATTACATTAGTGATGATTCAAATAATTTAACTCAATATGAATCGATTTTAAAATTAAATGAATTAGGTTTTAAAACTAATAAAGAAACAATGTTATGTAAAAATTTAGATGAAATTAAAGCATATATTGATAAATATACTAATTTAAAAAATGATTTAGATTATCAAATTGATGGAATTGTTTTTAAAATTAATGATAAAAATTTACAAAATAGTTTAGGATTTACTAGTAAAATTCCAAAATGAGCAATTGCTTATAAGTTTCCAGCTGAAATCAAACAAACCAAATTATTAGATATATTTGCAACAGTTGGAAGAACTGGAAAAATTACTTATAATGCTAAATTAGAACCTGTTTTTTTAATGGGAGCAACCATTAGTGCTGCTACTTTAAATAATGCAGAATATATTAAATCAAAAGATTTAAGAATTAATAGTATAGTTAAAATAAAAAAAGCTGGAGATGTTATTCCAGAAGTTATTGAAGCTATTAAAGATGAAACTTTTTATAAATTAGAAAAATTTAAACCTATATTATATTGTCCAAATTGTCATTCTTTATTAGAAAAAAATGAAAATGAAGTTGATCAGTTTTGTATAAATTCTTCTTGTTCTATGAAAATATTAAGATCTTTACAACACTTTAGTAGTAGAGAAGCTATGAATATTGTTAGTTTAGGAGATAGAAGTTTAGAAATTTTATTTAATTTAAAAATCATTCAAAATATTTCAGATATTTATAGATTAGAAGAATATAAAGATCAAATTTTAGCAATTGAAAATTTTGGTTTAAAAAGCTATTTAAATTTAATTGATTCAATTAATATTTCTAAAAATAATTCTTTAGAAAAAGTTTTATTTGGTTTAGGAATTAGACATATTGGAAGTAAAACTGCAAAAATTTTAGCTAGAAAATATCAAAATATAGATAATTTAATGAAAGCTAGTTATGATGAATTAATTCAAATAAATTCAATTGGAGAATCATTAGCTTTATCTATTATTGATTGATTTAAAATAGAAGATAATTTAAAACTAATTGATGAGTTAAAATCATTTAACATTAATTTTAATTATTTAGGAGCAAAAATTAATTCTGATTCAATAATTGCTAATAAGTCATTTGTAATTACTGGAACTTTAACAAGACCAAGAGAAGAATTTAAAACATTAATTGAAAATAATGCAGGTAAAGTAATTGGATCTATTTCTAAACAAACTGATTATTTATTAGCTGGTAATAATGTAGGTTCTAAACTAGAAAAAGCAAAAAAATTAGGTGTTAAAATTATAGATGAACAACAATTTTTTGATTTATTAAAATCAGAGAAAGGATAATATGTCAAATAGATTTAATAAAGAGTTTTGAAAAGAATTAGCTCATGATTTTATGTTTGAATTAAATGATGAAGAGCTTGAAAACTTAATGAGTGTTGAAGACAAACTTTTTGATGATTTTAAAAAAATCACTAGTATTGATACAACAGATGTTGAACCAACTTTTTATACAGTTAATCAAATTCATTCATATTTAAGAGATGATGAACCAATACAAACTAATTGTCAAAAAGAAATTTTAGAAAATGCGCCAACTAAACATGATGATTACATCACAATAGCAAGGGTGGTTAAATAATGCAAGATTATAGAAAAAAAAGTATTTTTGAAATTCACAAAGATTTAGTAGATAAAAAATATACTGTTTTAGATTTAACTAAAGAAGTATTAAAGAATTTAAAATACGAATTAGATTCTAATGCGATTAATTATTTAGCTGAAATTCATGCACTAAAACAAGCTAAAAAAATTGAAGAAAATTTTGACAGTAATAATTTGTTATCTGGAATACCATACATTTGTAAAGATAATTTTTCAACAAAAGATATTCCAACTACTGCTTCATCAAAAATACTAGAAAATTATATTCCAAACTATTCAGCTGCCTTAGTTGATTCACTTGAAAAAAATCAATCTATATTAGTTGGAAAATCTGCTTTAGATGAACTTGGAATGGGTGGAACTGGATTATTATCATGTAATGGTAAAATTGCAAATCCATGAGATAAAAATCGTATAGTTGGTGGTTCTAGTTCTGGGTCTGCTTATTTGGTTGCTAAAGGATTAGTTCCATTTGCAACAGGAACTGATACTGGTGATTCAATTAGAAAACCAGCTAGTTATAATGGAATAGTTGGATTTAAGCCAACTTATGGAGTAATTTCAAGATATGGATTATTACCATATGCTCCAAGCTTAGATACAGCTGGATTTTTTACAAAAAATGTAGATGATATGGCAGTTTTATGTGATGCTAGTTATGATAATGATAATAGAGATTTTTCATCAACAACAGCTGATCATGTTGACTTTTTAAAACAAATTGATGATTTTTCAAATATTAAAACTTTTGGATATATTAGTTCAGTAATTGAAAGTTTAGATCAAGAACATAAAACTCACTACTATAATTTATTTGAGACATTAAAAAATAAAGGTTATCAAATTAAAGCTTTAGATTTTAGACAAGATTTATTAGATGCAGTTTTACCTGTTTATTTAATGATTGCAAATAGTGAAAGTGTTTCAACTAATTCTTGCTTAGATGGAATTAAATATGGAAAAAGAGTAGATGGAAATGATTATAGTGAAATTATGATCAATTCAAGAACTCAAGGTTTTGGTGAAATTGTTAGACGTAGATTTGCAATAGGTTCACTAGTTTTAAAAGGTGAAAATCAAAAAAAATATTTAGTACAAGCTAAAAAAGTTAGAACTTTAATTAATCGTGACTTTAATAATTTATTTGATCAAGTTGATGTTTTATTATTACCACCATCACCATCTATTGCTCCATTAATTGAAGAAATTAATAATCCAAATAAAAAATCTCAAGAAAAAGATTTTATTGAAAATATTTTAGTTTTAGCTAATTTTACAGGTAGTCCTTCAATTACTATTCCATTTTTTAAAACTAAAAATATGCCAGTTGGAATTAATATTACAACAAAAGTTAAAACAGATTTACTAACACTACAAGCAGCTAAATTATTAGAAAATATTATTGGAATTAAAAACCAAATTGTTGAGGACTAATATGCAAAATTTTGAAATTATTATTGGAGTTGAAAACCATGTTGAATTAAAAACTAATTCAAAAATGTTTTCACCAAGTAAAGTTAGTTACGGACAAATTCCAAATACTTTAGCAAATGAAATTGATTTAGCTTATCCTGGAACTTTACCAAGTGTTAATAAAAAAGGAGTAGAGTTAGCTATTCTAGCATGTAATGCTTTAAATATGCAAATTGATACTTTATTAACTTTTGATCGTAAAAACTATTTTTATCCAGATTTAACTAAAGGTTTTCAAATCACTCAACAATTTAATCCAATTGGAACAAATGGTAGTTTAGAAATAATTTTAGAAAATGGAAATAAAAAAGTAGTTGAAATTGAACGTTTGCATATTGAAGAAGATACTGCAAAACAAGTTCATAAAGATAATTTAACTTATCTTGACTATAATAGATCTGGTGTTGGGTTAATTGAAATTGTTACAAAACCAGTATTAAGAAGTGCTGAAGAAGCCTGTTTATATGTTGAAAAACTTAGAGAAATTTTATTATTTTTAAATGTTAGTGATGTAAAAATGAATGAAGGTTCACTAAGAACTGATTTAAATATTTCTTTAAGACCTTATGGTAGTGATAAATTTTCAAATAAAGTTGAAATTAAAAACTTAAACTCTATTTCAAATATTAAAAAAGCTGTTGAATTTGAAATTAATAGACAAAAAGAAATTTTATTAAAAAATCAAATTGTTGAACAACAAACAAGAAGATTTGATGATCAAACTAGTTCAACTATTTTAATGAGAAGTAAGATTGATAGTATTGATTATAGATATTTTAGAGAACCAAACATTTTTCCAATTCAACTAGATCAAAAATGAGTTGATAAAATTATTTCAAATTCTCCTGAACTAGCAGATCAAAAACGTATTAGATATGTAAATGAATTAGGTTTAACTATTGAAGATGCTAATATTATTTTAACTAGTTTAGAAATGACACAGTTTTTTGAAAAAACTATTAAATTAACTACTAATTATAATAAAGTTGCTAAAATGTTGATTTCAGAAATTCAAGCTAAATTGAATTTAGAAAATAAAACAATAGATCAAATTGAATTAAGTCCAGAAAATTTAGCTAGTGTAATTAATTTAATTGATAAAAACATTATTTCATCAAAACAAACAAAAGTAATTATGCCAATTATATTAGATTCAAATAATGAAACTGTTGAACAAATTGTTGAAAGATTAAATCTAAAATTAATTACAAATAAAGATGAAATTTCAAAATTATTAGTAAATATTATTAATCAAAACAAAGATTTATTAAATCAATATTCTACTCGTCCTGAAAGAGTAATTAAAACAATTATGGGTCAATTAATGAAACAAACTAATGGTAATGTTGATCCTGAAATTGCAAATGAAATTGTAATTAAAGAAATTGAAAAGAATTTATAACAATAAAAAATGGGCAATGCCCATTTTTTATTGTTCTTCAGTTAAAAGGTTTGGATCAGTTTCTTCATCAATCATACCTTGAATTTTTTCAGCTAAACTATTAATAATAGTAGTTCTTGCAAAAACTACAATATGATCTCCTTCTTTTAGTTCTGTATAATCATCTGGTAATAAGATCTTACCTTTTCTTCTAATTTGAATAATATTAAAATCTTTATTTGTTGATAAACCAACTTGTTGAATATTTTTATTAAATAAATCAGGGTTTTTAACTTCTAAAGTTGAAGAGATAAATTCATCATCAATTGAATGTACTTCAATATCAAAATCAATATTAAAAATTACTCTAGTAGCTGTAATTTCTCCAGCAATTTTATTAGGAACAATAATTTGGTTTTCAGTTAAACCTAACGCTAGTAAAACTCTTCTATAATTATCATCTTTTGCTTTAACTGTAATATTAGTACATTTTAAATCTAGTAAGTTTAAAACTGTTACTAGTGATGATTCTAATTCGTTTTCAATTCCAACAATCACTCAATCATATGATTGAATTCCTTTTTTTGCTAGAGCTACTTTATTAGTTGTATCAATTACAATTCCTTCAACTGTATCAAATTCAGATAAATATAAATTCAAACGTCTTTCATCAATATCAAAAACAGTTACAGATTGTCTTTTTTGTACTAAAGTTTCAATAACAGATAAAGTAAAGTTAGAAACACCAATGATTGCAAAGTTTTGTTTTTTTGCCATAAATTATCCCTTCTTACCTAATTAAATTATACATTTTTATCAAAATGATATAATAATATATTGAAAAGAGGTGGATTTATGTTTTTTAAGAAAAAAAATAATAAAAAACACAAGCTAAAATTCACCTCAAGACTTTTTAAAAAAACTTCAAATTTTAATGAAGAAAAGTATAAATTTTTCCGACTAGTTAAAGATATTTGACCACTTTCTAAAACTTCAGGAAAGATTTTTTTAATTTATGTAGCAATTATTTTATTAGGTGGGTTATTATTATCAATTCCTAACTTTTCACTAACTAAAAGTGGATCTAAATATAATTGAGATTTTTTAACTGGAATATTTATTGCTTCATCTGGATTTAGTGATACCGGTTTAACTGTTTTAGATGTTTCTCATTCTTATACTTTTTGAGGGCAGTTAATTTTATTATTACTAATTGAATTTGGTGGAATTGGTGTTTTAACTTTTAAAATTGTTTTATTTTTAATTATTAATAAAAAAATCTCAATTTCAGATACTATAGTTGCTCAATCTGAAAGAGGAAGTGCTACAACTAGTTTAACTATTGATCTAATTAAAGATGGGTTTATTTGATTAACTTCAGTTCAAGTAGTTTCAGCTTTTATTTTATTCTTTTTATTCTTTTTTAACCAACCTTCAAACAATCCAAATTTAGAAGTGGTTTCACCATATCATGATTTTTGAAAATCATTATGATTTGCTGTTTTTCATTCTACTAGTGCTGTAAATAATGCTGGGTTTGATATTATTTCACCAAACTCATTACAACCATATAATGTAGATAATCATAGAGTTTATGCTATTCAAGTAATTTTTATGCTTGAGTGAATAATTGGTGGATTAGGTTATCCTACTTTTCATGATATTAAGCGTAAATTAAAAGCTAGAAAAACTAAAGAAAAAATTAATTTTAGTTTATTTACAAAAATTAATTTCTGAGTGTATTTAGTATTATTTATTTTTGGTCCTTTAGCTGTTTTTGCAACAGAATATTCAAATTACAATCATTCATTAATTTTTCATTATTATGATGAAAACTTTACTGTTTTAAATGCTAAATCTAATACTGTTGTTTTTATGGATATTTTATTTAATACAACAGCTTCAAGAAATGCAGGATTTTCAACAATTGATATTTCAACTTTTAATTCAGGATCAAAAGCTATATTATCAATTTTAATGTTTATTGGATCAGCACCAAGTTCAACTGCTGGAGGAATTAGAACTACAACTTTTGGAGTATTGCTTTTATCAACTTTTACAATTATTAAAAACCAAAAATTCACAAGTGCTTTTAGAAAAACTATACCTAGTGAAACTGTTAATAGAAGTTATGCAGCATTCTTTATTTCAACATTTTTAATTTTTATTGCTTTATTTATTATTTATGTTGATTCAAATAGTGTTTTTCATACTTTAAAAAATCATAATAGTGCTTCAATTAATACTATTTTATTAATTACTAGTGCATTTGGGACTGTTGGATTATCTCCTTTAGCTCATTTTCAAATGTATCAATTAGGAGTTGTTACTAAAATATCAATTATTTTAATTATGTTTATTGGTCAATTAGGAGTTTCAAATACTTTATTAATCTTTTTAAAACCTGCAAGAGATAAAGCTTATAAATATCTTGAAGAAGATATAACTATAGGATAGGTGATAGTATGGTTATTTTAGATGGTAAGTTAGTTTCAAAACAAATCAAAGAAGCTTTAAAACAACAAATTGACACATATTTAAATAAAAACTATAAAAAACCTAAATTAGCTGTAATTTTAATTGGAAATGATCCAGCAAGCGAATTATATGTTTCAAATAAAATAAAAGCTTGTAACTTAGTAGGAATTGAATCAGTGTTATTAAGATTTGATCAAAATATTACTAGTGAAATGTTATCTGATCAAATTAATCAATTAAATAATGATAATAGTGTTGATGCAATTTTATTACAATTACCATTACCAAAACATTTAAATGAACAAGAGTTTTTACAAGCAATCGATCCTTTAAAAGATGTTGATGGATTTCATTATATTAATCAAGGAAAAATGTTAGAAGGTTATGATACTATTTATCCTTGTACACCAATTGGAATTATTAATTTATTAAAAGCTTATAATATTGATGTTAAATCAAAAGATATAACTATTATTGGAACTTCAAATATTGTTGGAAAACCTTTAGCAATAATGTTATCTAATATGGGTGCAACAATTAGTATGTGTAATAAAAATACAAAGAGTTTAAAAAAATATACTAAAAGATCTGATATAGTAATTTCAGCTACTGGAAAACAAGCACTTATTAAAAAAGATATGATTAAAAAAAATGCTATTGTAATTGATGTTGGAATTATAAAAGATCCAATTACTAATAAAATAGTTGGTGATGTTGATTTTGAAAATGTTAAAGAACTTTGTTCATATATTACTCCAGTTCCAGGTGGAGTTGGGCCTATGACTGTTGCTATGTTATTAGAAAATACATTTGAATTATACAAATTACATATAAAGGAAAATTATGAAAACTAGTTTTAAAAATAATCGTCCTAAAAGACATTATATATATAATGATATTTTTAAAAAAGCTAATTTAATTATTCAAATATCAAGTGCTATATTTATGCTATTAGCAACTATTGGGTTTATGTTTGGAATAGTTGGAATTACTTTAGGAACTGTTAATAACACTACAAATATTAAATTAAATACAATTAGTGGAATTATTTTATTAGTAATTAGTAGTTATGTGTTTTTAATGTGTGCTATTAGTTTGTGTTTATCAGTTATTAGTAATTATCATAAAACTACAATTTATTTAGAGATTTTAGCAATTTTTAGTATAGTTTCAATAGTATGTATGATTGGTGGTTTTTTAATTATATTTAGTAGTAATAAATATAAAGATGAGCAAGAAAAAAACACTAATAATCAATTAGAAAATCAAAATGATAACAACCAAAAAACTGAAGATAAACAACAAATTGAAAATCAAACTAATAATCAATCTAAAGATAATTTTATTTCTAATCCAAATCAAAATGTTAATCCAAGCCAACAAATAGCTTCAGACCATTATCATGCAAATATAAGTAGAATAAATAATAATCAAATTAATAATCAAAGATTAGAACAAGCTAAAAAAAATGAAAAATATCAGCAAGTAAAAAGAACTTATCAATTAGTAAAAGAACATAAACTAAGTGAAGATAAACTACAATCTATTTTTAATTCTGATCCTGAATTTAAACAAATGTATGATGAGTTAAAAAAATAATTAGACAAAATAAGCAATTGCTTATTTTTTTATTTAATTTTTTAAAAAATACTAGTAAAAAAATAATAAATTTGTACAATATTGATATTAAAAGAAAGATTGTTATTAAAATGTTGTTTAAAGTTTTAAGTTTTATATTAGTTAGTAGTTCAGCATTATTAGTTGTTAGTTGTTCAAATAAAAACCAAAATAATAGTATAAAAAAAGAAATTATTAAAAAAGAATTAACAATAGAACAAAAACAAGCTATTAATGATATTTTTGTATCTCAACAAGATGCTTTTGCAACTTTTCATACTTATAAAGATGTTTTAGATCAACTAAAAGTATTTTTAAGTAAAAAAAATTTAAATGAAGTTATTTTATTTGATGAAAATCAAAAAGATAAACATTTAGTTTTAGATAATAATGCTAATAAGAACTCTGTTAAAATCAGAGTTTTTGGTAATGTTTTTGAGTTTAAACCAAAAACTGTAAAAGAGTATGTAGAAACTAAATATAGTGATGATACTAAAACTAAAGTGACTCAATTAGGATATAAAAAAGAAACAATAAAAAATGTAGATTATTATGTTTTAAATAGATTAGATAAAAATACAAATGAAGTTCCAATTGATCTGCCATTAAAAATTAATTCATTAAGTGATTCTTTTAAAGAAAATAAAAATGAAAAAATCACTAATATTGACAAATGAGATACTAGAAACATTATTTCTTTAAAAAACATGTTTTATTCAGCAAAAAGTTTTAATCAAAATATTTCTAGTTGAAATATTTCTAATGTTGTAAATATGTCAGCTATGTTTTTTGAAGCTGAAAAATTTAATCAACCAATAGGTAACTGAGATGTTTCAAAGGTTACTGATATGGATTTTTTGTTTGATGGAGCAATAACATTTAATCAAAATATAAATGATTGAAGAACTGATAGTTTGACAGATCTAACTTATACTTTTAGAAGTGCTATAAGTTTTAATCAGCCATTAAATAATTGAAATGTTTCAAAAGTTAAAAGTATGGATGGTATGTTTACTGAAGCTACTAGTTTTAATCAAGATATTAGTTTGTGAAATACAAGTAATGTTGAATCAATGAATGGAATGTTTTCTTCAGCAGATAAATTCAATCAAAATCTAAGTTCTTGAAATGTTAAAAAAGTTGGAAATGCTCAAAATTTTGCAAATGGTTTAAAATCAGTTATGACTAAAGATAAGCTTCCAAAATTTAATGAAAAGTACTCAGATGATAAATACATTTATGGTAGTTAAAAAATAATTTATAAAAATAAAAAAATATTAAGTAAAATCTTGAAAATGATAATCAGTAATGGTATTATTTTTAGTGTCTTAGATAAATATGACCAATTAAAAGATATGGCTTTTTAGCTCAGCAGGTAGAGCAACCGGCTGTTAACCGGTTTGTCACAGGTTCGAGCCCTGTAAAAGCCGCCATTATCTTGGCCTGTTGGTGAAGCGGTTAACACACACGGTTTTCATCCGTGGACACACGGGTTCGAACCCCGTACAGGCTACCATATTTTCGGAGTGTTAGCTCAGCTGGGAGAGCTCCTGCCTTACAAGCAGGCGGTCATAGGTTCAAGTCCTATACACTCCACCATTTTTTATTTATGCTGACTTAGCTCAGCAGGCAGAGCAACTGACTTGTAATCAGTAGGTCGTAGGTTCGATTCCTATAGTCAGCACCATTAGAAAACTCGAGCACTACTGTGCTCTTTATTTTTAAAATTTAAACAACCAAATATCTTACAAATTGTTCTATTTGACATTCATATTACTAATAAGATAAATTAATTATTTATATAAGAATTTAATTTACATAATTTAAGAAGATCATCTTGATCTTCTTTTTTTGTTTTATAGTAAATAAAAATAAAAAAAGTAAGTTTTAAAACTTACATTGTTATATATTTAATTAAATTATTATGACTTATTTTGATCCATAATTCACTTTCTTTTCCATTTTTATTAAACACAAATATACGTTTAATCCAATAAATTATATTTTGTAAAAAAATGAGCATAAAATTGATCCTCCTGGATAAGAAAGTCCTAAAACTCTAGCCACTTTGTCATAATACTCACCAATAGCATCATCTCTAGTTGATCCAATAATTTGAAAATAATTTAACAATTTGAAAAATAATTCAGTTATTAAAATTAAAAATTTTTTAAAAAAGTGCTAGTAGCTTTCTAATATATCAACTAATAAAAGTATTATTTTTTTAAATGATAAAATAATTTTAGAAACTTAGATTTATGAGACTAAAAGTATGAATGAATTTAATTTAGCAAAAGATAAAACAATGATCTCTAAGATATTTAAAAAAATTCCTTGATTTTATCATTTAATATTTTTTTTGATTGGCTTAGTAGTTGGATTATTATTTCAATTTTTACGAGTAAAACTTTTTGCTTTTCCTTATTTTTTTATATTCTTTTTTGCTATTTTAATTACTTATTGTGTTTTATTTATAATAATCAGTCCAATGATTAAACAAAATTGATTCATTAAAAGAATTAAAAATGAAAAATAAAAAAATATCAATTAGTACAATAGCAAAAGAATGTAATGTTGGTGTTGGAACAGTTTCACGTTATTTTAATAATGGTTATGTTAGTGATCAAAAAAAAGAACTAATTAAAAGAGTAGTTGAAAAATATAATTTTTCACCTAATTTTGCTGCTCATTCAATTAAAAGAAAAATTCAAGAAGTTTATTTTTTAATTCCAGATTTAACTAAAAGTAATACTTTTGTCATTAAAAAAATTTTAAAATACCTACAATTAGAATTTTCTGAAACAATGGTATTTGTAATTCAAACTACTTATAATCAAGAAACTTATTTAAAATACTTAAAAAAAGTAGTAGCAAGAAAACCGGCTGCTTTAGTTTTATTTGCTATTAGTGATGATTTAAAAATTAAAGATTATTTAAAAAAAATTACTATTCCTTTTATTAGTTATGGAAAAGATTGAGGAAAGTTTTATTTTATTAATAATGATCAAGAAATGATGATCTCATTACTAGAAACTATGAATAATCAAAATGAATTTGATCATCAAAAACAAATTTTATATATTGGTGAAAAACCTGAAACTAATAAGTCAACTGGATATGATCGTTTTTATGGTTTAAATAATTGATTTAAAAATAAAAATATTAAATTTGATTATTTATTTTTTGAACATAATAGTGAAACTAGTATTTATAATTTAATAAAAGAATTAAATCTAAATAACAAAATCATTATTTGTGGAACTCATACTTGTCATAAAATTTTATTAAAATATATAGTTAATCAAAAGTTTAAAAACATTACTTTAACTGATATTTATCAAAAAAATAGTTTGTTATTACCGATTTTTGAAAAACAATACTGTATAGCTATTGATTATCAAAATCTAGTACAAAGAATAAATGAAAGTATTAATAAAATTTTAAATAACAAACCTATAGATGAACAAAATGAAAAATACTTGAATTATGAAATTAAAGTTTTAGATAGATAAAATTTTAGTTTCATTTTTTATTATATAATTATAGTGTGGAAACAATTCCATATTATGAGGTCTTTATGGCAAAAAAATCATATACAGAAGAAGTTAAAGAACTAGTTAGTTTACTTGGTGGAGCTGACAACATTGTTTCATATACTCACTGTATATCTCGTCTTAGATTAGTTTTAAAAGATAATTCTAAGGCAGATACTAAAGCAATTGAAACTTTAGATAATGTTAAAGGAGTAGTTAAACCTGTTGGTGCTTATCATGTTGTGATTGGTGTTGATGTAACAAATTATTACAAAGAATTTAAAAATTATTTAACTAATCAACAACCACAAACAAGTGATTCAAACTCTCAAACTACAACTGTAAAACAAAAATCAAATCAAAAATTTTATCAACGTTTATTACGTCATTTTTCAGAAATATTTATTCCTTTAATTCCAGCACTAGTAGCTGGTGGGTTAATTTTAGGATTTAGAAACATTTTAGAAACTGATTGAACTGGTGAAGGTAAATCATTAGTTGCTTTATCAGCATTCGCAAAAGGCTTAAATGAATTTTTATGAATTCCTGCTCAAGCAGTCTTTTGATATTTACCTGTAGCAATTTGCTGGTCAATATTTAAAAAAATGGATGGTTCTCCAGTATTAGGAATTATTATTGGACTTACTTTATTATTACCACCATTAGAAAATATTTATGCTATTTCAGCATTAGCAAAAGATAGTATTTGAATATTTAAAGATGCTCCTGCTTTTGATTTTGGTGCATTTAAATTCCCTTGAAAACTTCAATATACTGCTCAAGTAATCCCAGCAATTGGTGTAGCATTTTTTGGAGTTTATTTAGAAAAAGGATTAAATAAAATTATTCCTGCTATTTTAAAACAAATCTTTGTTCCATTATTAGTTATTGTATTATCATATACTGTTGGATTAGCAATTATTGGTCCTATTGGATTTGTAATTGGTTCTGCAATTTCAGTTGCTTCAAGTTGAGCATTAACTCATCCGATTGCAAAATATTTCTTTGCTCCAGTATTTGGATTATTATATGCTCCAACTGTTGTTACTGGATTACATACAATGTATAATGCTGTAATGATTCAAAACACAGCAACAATTGGTGGTTCATTTATTTTTCCAATTTTATGTATGTCAAATATTGCACAAGGTAGTGCGTCATTAATGTTTACTATTTTAAATAGAAAACATCAAAAAGTAAAAGATGCTGGAGCTTCTGCTACTGTTTCAGCTTATCTAGCAGTAACTGAACCAGCAATGTATGGAATTAATTTACGTTTCTTATATCCATTTATAGCAGCAATTATTGGATCTGCAACAGGTGCTTTATTATTAATAATTTCAGGAGTAACTTCAAATGGTATTGGAGTTGGTGCTTGATTAGGAGTTTTATCAATTCAAGCTACTTCAAAAGTTAAAGGAGTTAAAACTTGAATTGGGTCTGGATATACTTGATTTATGATAAGTGCAATATTAACAACTATCGTTACTATGATATTAACTTGATTTTTAGGAACTCTACCTAACTTTGTTAAACTACGTAATGATTTATTAGATGTTAAAACCGATCCCATCATTAAAATTAAAAAATAATATTTAAATGAAAAAAATTAATTATAAAGAAGCGATTGTGTATGAAATTCATCCACAATCTTTTTATGATACTAATAATGATGGAATTGGTGATTTAAAAGGAATTATTAAAAAACTAGATTATTTAAAAAAACTAGGTGTAAATTTTTTATGATTAAATCCAATTTATTTATCTCCTAAAAAAGATAATGGATATGATGTTAGTGATTATAAAAAAATTGATCCAATGTTTGGTAGTATGACTGATTTTAATAACTTAGTTAAAGAAGCTAAAAAAAGAAATATCTATATTATGATGGATATGATTTTTAATCATTGTTCAACTGAACATGAGTGATTTAAAAAAGCTTTAATTAATAAAAAATATCAAAATCGTTTTATATTTGTAGAAAATAAAAATAAACTACCTAACAATTGAAAAAGCAAATTTGGTGGTTCTGCTTGAGAATATAATAAAACATTAGATAAATACTATTTACACTTATTTGATAAAACTCAAATTGATTTAAATTGAAAAAATAAAGCTTTAAGAAATGATATTTATGAAATTATTAATTATTGATTAGATAAAGATGTTAAAGGGTTAAGATTTGATGTTATTAATTTAATTTCAAAACCAAAAACTTTTAAAGATGATTTGATTGGTGATGGTAGAAAATATTATACTGATAGACCACTAGTTCATAAATATCTAAAAGAAATGGCTAGTAAAACTTATAGTTTAAAAAATGATGTAATAACAGTTGGAGAATTATCTTCAACTTCATTAAAACAAGCAATTTTATATACTAAAAAAGAATCTAAAGAACTAGATATGGTATTTATGTTTCATCATTTAAAAGTTGATTATTTAAATAATGATAAATGACAAATTAAAAAATATGACCCAAAACAATTAGTTAAAGTTCTTAAAACTCAGCAAATAGCTTTTAATAAACATAACGCTTGATGCGCTAATTTTTTAAACAATCATGATCAACCAAGAGCTATTAGTAGGTTTGGTGATTATAAAAATTATTATTATCAATCAGCAACTAGTTTAGCTAGTGTAGTTTTACTATTAAAAGGCACGCCTTATTTATATCAAGGTGAAGAGTTTGGAATGTTAAACAATAATTATTCAAATATTAATCAATTAAAAGATGTTGAATCAATTAACTATTATAGAATCTTAAAAAATAAAGGTTTAAAAAAAGAAGAAATTTTAAATATTATTAGTAATAGATCAAGAGATAATGCAAGAACTGTTATGCAATGAGATGATAGTTTATATGCTGGATTTTCTTCTCATAAACCTTGAATAGATGTAAATAATAATTATTTAGATATTAACTTTAAAAAAGATTATTCAAAGTCTCAATCAATTTTTAAAGCTTATCAAAAGCTAATTAGATTACGTAAAAAACATTTAGCTTTTAGTTATGGAGATATTAAATTTATTAATATAAACCCTAATGTTTTAAGTTTTTATAGAATTTATTTAAATGAAAAATACTTAGTAATTATTAACTTGTCTGATCTAAATATTAATTCTAATAAATTAAAACCATTTTTAAATTTAAAAGTTATTTTTAATAATTATAAAAGCTTTAAACAAATTAAACCTTATCAAGTAGTAGTTTTAAAGTGTAATTAGTTAAAACATATTTTAATATGTAAAATTTGTAAAATTCATATAAATTTTATTAAATAGTATAATTTAAGTAAGTCTAATAAACAAAACTCAAAAATGAAAGGTAGATATGAAAAAGTTAATAAATAGTCCTGAAACATTAGTTAATGAAATGTTAGAAGGTTTAGTTAAAGCTTATCCAAATAAATTAAAAAGAGTTGAAGGTTTTGATGTAATTATTAGAAATGATGATATTAAAAAAGATAAAGTAGCTTTAGTTAGTGGTGGAGGTTCTGGTCATGAACCAGCACATGCTGGTTATGTTGGATATGGAATGTTAGATGCAGCTGTTGCTGGAGCTGTATTTACTTCACCAACTCCAGATCAAGTTTATCAAGCAATTAAAAGTAGTAATGCTAATAAAGGAGTATTATTAATTATTAAAAACTATACTGGAGATATTTTAAATTTTGAAATGGCTCAAGATATGGCAAGTATGGAAGGAATTGAAGTTGATAGTGTAGTTGTTAATGATGATGTAGCTGTTGAAGATAGTTTATATACTGCTGGAAGAAGAGGAGTAGCTGGTACTATTTTTGTTCATAAAATAGCTGGTGCTAAAGCTGAAATGGGAGCTAGTTTACAAGAAGTAAAAAATACAGCTTTAAAAGTTATTAAAAACGTTAGAAATATGGGAATGGCAATTTCTCCATGTATTGTTCCAGCTGCTGGTAAATCTAATTTCTCATTAAATGAAGATGAAATGGAAATTGGAATTGGAATTCATGGTGAACCTGGAGTTTATAGAGATAAATTAAAACCAGTAGATCAAATTGTAGATACTTTAACTGATAAAATTTTAAATGATATACAAATTAATAAAGATGAACAAGTAGCAGTTATGATTAATGGAATGGGTGCTACTCCTGAAATGGAATTATTAGTAATTAATAATCATTTAAATGATATTCTAACTAATAAAGGTATTAAGATTTATAAAACTTTTGTTGGTAACTTTATGACTTCAATTGAAATGGGTGGATTTTCAATTTCAATTCTAAAACTAGATAATGAATTAAAAGAATTATTAGATCATAAAGCAGATACACCAGGTTTAAAAGTTTTTTAATAAATAAATAATATTAAAATTACATCAATTTTGATGTAATTTTTTTTGCTTTTTAACTACTTTAATACTTAAAAAAATAATAAAAATAACTATTAAAATTTATCAATAAATTAATTAAAAAAATATTTGACACTATTCTAGTATTTCTTATTAAAAAAGTATAGAATATTAATTGCATGTATATTTTGTGTGCTTTTTTACAACACACCCATAGGAGTTGTTGATTAAATTAGTAAATTTAGGAGGTTAGTATGGCAGAAAGCAAAATGAGAATTAAATTAAAAGGCTACGATCACGCTATTGTTGATCAAAGCATTGTAAAGATCATTCAAGCTGCTGAAGGTACTGGAGCTAAAGTTAGAGGACCAATCCCATTACCAACAGAAAAACAAGTTATTACTATTTTAAGAGCTGTTCACAAATACAAAGATTCACGTGAACAATTCGAAATGAGAACACATAAAAGATTATTAGAAATTTTAAATCCAACTGCTGCAACAATGGACATTTTAAAAAGAGTTCAATTGCCAAGTGGTGTTGATATTGAAATTAAATTATAATCTTCTATTTATTTAAAAATATACAAAATATCAAATTAGCAGAATATACGTGATTATCAATTAGGAGGAAATAAAATGAAAGGAATCTTAGGTCGTAAGGTAGAAATGACTCAAGTATTTACTAGTGCTGGTCAGTTAGTTCCAGTAACAGTAGTTGAAGTTCTACCAAACACAGTTTTACAAGTTAAAACTATTGACAGTGATGGATATGTTGCTGTGCAATTAGGTACTACAGATAAAAGAGTTAACTTAGTAAATAAACCTGAATTAGGACACTTTAAAAAAGCTAATTCAAATCCTAAGCGCTTCGTAAAAGAAATCAGAAACATGCAAGGATATGAACTTGGACAAGTTATTAATGTAAGTGATATCTTTGTTTCTGGTGAATACGTTGATGTTACAGGAATTTCTAAAGGTAAAGGTTTTGCTGGAGGAATTAAAAGACATAATTATGCAAGAGGACCAATGGCTCATGGATCAGGATATCACAGAGGAATTGGTTCAATGGGAGCAATCATTAACCGTATTTTTAAATCAAAAAAAATGCCAGGGCACATGGGTAATGCAAAAAGAACTATTCAAAATCTAGAAATTATTGCTATTGATCAAACAAACAACATTATGTTAATCAAAGGATCAATTCCTGGACCAAAAAATAGTTTTGTACAAATTAAACAAAATGTAAAAGGTATGAGTTCTAAACAAGCAGTTGAATTATTAAATAGAAATGCATCAGTTGAAGCATAGTTGAGGTAAGAGATGAAATTACAAGTTTTAGACATTAAAGGTAATGAAGTTAAAGAAATTGCTTTAAATGATTATGTTTGAGGAATTGAACCTCACCAACAAGCTATTTATGATACTGTAATAAGTCAACAAGCTGCTTTAAGACAAGGAACTAAAAAAGTTAAAACCCGTGCTGAAGTATCTGGAGGAGGACGTAAGCCTTGAAAACAAAAAGGAACTGGACGTGCTCGTCAAGGATCAATTAGAGCTCCACAATGAAAAGGTGGGGGAGTTACATTTGGACCAACACCAGATATTAACTATAAAAAATCTGTTAATAAAAAAGTAAGAGCTTTAGCTTTTAGATCAGTTTTATCTCTAAAAGTTAAAGAAAACAATCTTGTAATCGTTGACAAATTTGAGTTTGCTAAACCATCAACAAAAGAAATGGTTGTAGTAATGAAAAATTTAAAAATTGATGATCAAAAAACATTAATTGTTACTAAAGAAAAAGAAGAATTAGTAGTTAAATCTTCAAATAATATTACTGGAGTTAAAACAATTTCTGCTAACCAACTAAATGTATTTGATTTATTAAATGCTACTAAATTACTAATTACAGAAGAAGCTGCTATTGCAGTTGAGGAGGTATACGCATAATGCATATCACTGAAGTATTAAAAAAACCAGTATTAACTGAAAAATCATTTGCTGGTCATAAAGATAATGTGTATACATTCCTAGTTGATAAAAAAGCTAATAAAGTTCAAATTAAAAAAACTTTTGAAGAAATTTTTGAAGTAAAAGTTGAATCAGTTAGAACTATTAATTATGACGCTAAAGAAAAAAGATTAGGAAAATATGTTGGTAAAAAACCATCATATAAAAAAGCAATCATTACATTAAAAGAAGGTCAAAAATTAGACGTGCTAAGCGACTTATAGAAAAATCGACCCGGATAAATTATTATAAGCGCATCAAAATAGAAAGGGAAAAACATGGCAATTAAAAAGTATAAGTCAACAACTAATGGTCGTAGAAATATGACTACAATTGACTATTCAGCTGTTTTAACAACAAAAAACAATCCTGAAAAGTCATTAGTTGTTTCTAAAAACTCTAAAGCCGGAAGAAATAATCGCGGTTTAATTACTACTCGCCATAAAGGTGGAGGACACAAACAAAAATACCGTATTATTGACTTTAAAAGAAATAAAAGAGATATCTTTGGAACAATTTCAACAATTGAATATGATCCAAACAGAAATGCATTTATTTGTTTAATTAATTATGTAGATGGAGAAAAACGTTACATTTTATTTGCAAAAGGAATGCAAGTTGGAATGAAAGTGGTTGCTAGTGAAAATGCTGATATTAAAGTTGGAAATGCAGCACCATTAAAAAATATTCCTGAAGGAACTTTACTTCATAATGTAGAACTAAAACCTGGAAAAGGTGGACAAATTGCAAGAAGTGCTGGTTCATCAGTTCAACTTTTAGGAAAAGATGATGATGGTAAATATGTAACTTTACGTTTATCATCTGGTGAAGTTAGAAAAGTTTTAGCTGAATGTTATGCAACAATCGGTGAAGTAGGAAACGAAGAATACAACTTAGTTAACTTAGGAAAAGCTGGACGTAATAGATGAAGAGGTATTCGTCCAACTGTTAGAGGATCTGTAATGAATCCAAATGATCACCCACATGGTGGAGGAGAAGGACGTGCTCCAATTGGACGTAAGTCTCCAGTTACTCCATGAGGTAAGAAAGCTTTAGGTGTAAAAACAAGAAACACTAAAAAAACCTCAGAAAAACTAATTGTAAGAAAACGTAGTAATAAAAAATAAGAAAGGAGAATAGAAGATAATATGGCAAGATCATTAAAAAAAGGACCTTTTGTTGATGAAAGTTTGTTTAAGAAAGTTACAGCAGCAAAAGATGGTGAAGTAATTAAAACTTGATCACGTAGATCAACTATTTTCCCTGAATTCATCGGTAAAACATTTGGTGTTTATAATGGAAAAGAATTTATTCCAGTTTACATTACTGAAGATATGGTTGGAAATAAATTAGGTGAATTTGCTCCAACTCGTAAATTCGGTGGTCATGGTGATGACAAAGGTAAGAAAAAATAATTAGGAAGGATAAGAATTAAATAATGGAAGCAAAAGCAAAATTAAGTATGATTCGTATCTCTCCTAGAAAAATGAGATTAGTTGCAGATACTATCAGAAATAAAGCTGTATCAGTTGCAGTTGCTACTTTAAAAAATCTAAACAAAGATGCTGCTGAACCAATTTTAAAATTATTAAATTCAGCAGTTGCTAATGCTGTTAATAATAACGGTATGGAAGCAGATAAATTATATGTTAAAACAATTTTTGTTAATGAAGGACCAACTTTAAAACGTTTTAGACCTAGAGCTCACGGTAGAGCATATGAAATTTTTAAAAGAACTAGTCATGTTGTGATTGTAGTTAGTGATGAAAAATAAGAAAGGATAGTTAGGAAATGGGACAAAAAGTATCACCAAACGTTTTACGTTTAGGAATCGTTAGAGATTGAGAAAACAGATGATATGCTGAAAAAGATCAATATGTTAAATGATTAGATCAAGATATCAAAATCCGTACTGCTTTATTTAAATTATTAAAAGATGCAGCTGTTTCAAAAATTGATATTGAAAGAACTACAAAAGATCTAACTTTATTTATCAAAACTGCTCGTCCAGCTATCGTTTTAGGTCAAGAAGGTAAAAACATCGAAAAAATTGTTTTAGCTGTTAGAAAAACTGTTAAAAATAAAAAATTAATTGTTAATGTTAGAGTTATTGAAATTAAAAGTCCTGATGCAGATGCAACTTTAGTTGCTAGATGAATTGGTGAACAAATTTCAAACCGTGCTTCATTTAGAACAGTTCAAAAATTAGCTATTAAAAAAGCTTTAAAAGCTGGAGCTAAAGGAATTAAAACTGCTGTAAGTGGAAGATTAGGTGGAGTTGAAATGGCTCGTACTGAAGGATATTTAGAAGGTTCAGTACCACTATCAACTTTAAGAAATAATATTGATTATGCTTTATATGAAGCTCCAACAACATATGGTCAAATTGGAGTTAAAGTATGAATTAACCATGGTGAAGTATTTAAAAAAGAAAGAATGAATAATTCACAAATAATGGCAAAACCAAGAACTAATAAAGGAGGAAAAAGATAATTATGTTACAACCAAAAAGAACAAAATATCGTAAACCTCATAGAGTTAGTTATGAAGGAAAAGCTAAAGGAGCTAAAGAAATTAACTTTGGTGAATTTGGTTTAATGGCTTTAGATGGTGCTTGAATTGATAATCACCAAATAGAAGCTGCACGTATTGCTATGACACGTTATATGAAACGTGATGGAAAAATTTGAATGAGAATTTTCCCACATATGGCAATGACTAAAAAACCTGCTGAAGTTCGTATGGGTTCAGGAAAAGGAAATCCTGAAAAATGAGTAGCAGTAGTTAAAAAAGGAACAATTATGTTTGAAGTTGCTCAAGTAAATGAGCAAGTAGCTAGAGAAGCTTTAAGACTAGCAATGCACAAATTACCAATTCGTTGCAAATTTGTTAAAAGAGGTGAAAATTAATGGCTAAATCAAAAATGTTAGATTTAAGAAATCTATCTGTTGATGAATTAATTAAAACAAATGAATCAAAAAGAGCTGAACTATTTGCTTTAAAATTCCAAGCAGCAGTTGGAAGTTTAGAACAAACTCACCGTATTAAAGAAATTAAAAAAGAAATTGCAAGAATTGAATTAGCATTATCAGAAAAACGCTTAAGTGGAGAAAACACTAATAAAGTTATTAAAGCAGATTACAACAAAGCAGTAGCAGAAGCAGAAAAAGCTGGAAAAGAAGTTAGAGCAAAACAAAGAAAATTCTTAGAAGAGCAATATGGTCAACAAAACCAAACTGAAGTAAATGAAGCTGATATTCAAAAAGCAATGCAAGCAGCTGAACAAGAAACTGTTGAACCTGATACTAAAGGAGAAACTAAATAATGCAAAGAAATAGTAGAAGAGTACTAATTGGTAAAGTTGTATCAGATAAAATGGATAAAACTATTACTGTATTAGTTGAAACTTATAAAAACCACCCAATTTATAAAAAGAGAGTTAAATATTCTAAAAAATATAAAGCACATGATGAAAACCAAGTTGCTCAAATGGGTGATAAAGTTGAAATTATGGAAACACGTCCTTTATCAAAAACTAAAAACTTCAGACTAGTTAGAGTTATTGAAAAAGCAACTTTATAATAGGAGATAAAAAATATGATTCAAACATTATCTAAATTAAAAGTAGCAGATAACTCAGGTGCTAAAGAAGTTCGTGTTATTCGTAATCTAGGTGGTTCAGTTAGAAAGTTCTCAGGTATTGGCGATATTATCATTTGCTCAGTAATTTCTGCAACTCCAGGTGCTGTTATTAAAAAAGGTCAAGTTGTAAAAGCAGTAATTGTTAGAACTACTCGTGAATTAAGAAGAGAAGATGGAACTTATATTAAATTCTCAGAAAACGCAGCAGTATTAATTAAAGAAGATAAAACACCACGTGGAACTCGTATTTTTGGTCCAATTGCACGTGAAATTAAAGAAGCTGGATTTGCAAAAATTGCATCTTTAGCTCCAGAAGTATTATAGGAGGAACCAGTTTATGGCAAAATCAAGAATCTTAAAAGGTGATGTAGTTAAAGTTATTGCTGGTTCACACAAAGGACAAATTGGACCAATCACTTCAATTACAAAAGACAAACAATGAGTTTCAGTTCAAGGTATAACAGTTAAAAAACATGTTAAACCAACTAATGAAGATAGTGAAGGTGGAATTAAAGATATTCCTGCAAAACTTCATATATCAAACGTTGCATTACAAGACCCAAAAAATAAAGATCAAGTTACAAAAGTTGGATTTGAAATTATTGATGGTAAAAAAGTTCGTATAGCTAGAAAATCTAAAACTCAAATTAAAACAGCTAAATAAGAAAGGAAATAAATTAGTATGAAATCAAGATTAGAAATTAAATACAAAAATCAAATTGTTCCTGAATTATTTAAAGAACTAAATTACAAATCAATAATGCAAGTTCCAAAAATCCAAAAAATCGTTATTAATATGGGAATAGGAGATGCTACAACAGATCCTAAAAAATTAGATGCAGCTATATCTGAATTAGAAAAATTATCAGGACAAAAACCAATTGTTACAAAAGCTAAAAAATCATTAGCCGTATTTAAATTAAGAGAAGGTATGGCAATTGGTGCTAAAGTTACTTTAAGAGGTAAAAAAATGTATGACTTTTTAGATAAGTTAATTAATGTTGCTTTACCAAGAGTACGTGACTTTAGAGGAGTTTCAAAAACTTCATTTGATGGATTTGGAAATTTTACAACTGGAATTAAAGAACAAATTATTTTCCCAGAAGTAGATTATGATAAAGTTATTAGATTACGTGGTATGGATATTACTATTGTAACTTCTGCTAAAACAAATAAAGAAGCATTTGCATTACTACAAAAAATAGGAATGCCATTTGAAAAGTAGAACAAGGGAGATATTATAATGGCTAAAAAATCATTAAAAGTTAAACAAGCTAAACACCAAAAGTTTAATGTTAGAAATTACACACGTTGTAATCATTGTGGAAGACCTCATGCTGTGTTAAAGAAATTTGGAATATGCCGTTTATGTTTTAGAAAATTTGCTTATGAAGGACAAATTCCTGGTATTAAAAAAGCTTCATGATAGAAAGAAAGGATTCAAAAGTATGACAACAGATGTTATTGCAGATATGCTAACTAGAATTAGAAATGCTAATCAAAGATACTTAAAAACTGTAAGTGTTCCATCTAGCAAAGTAAAACTAGAAATAGCAAGAATTTTAAAAGAAGAAGGATTCATTTCAAACTTTACTGTTGAAGGTGATGTTAAAAAAACTATTAATATCGAATTAAAATACCAAGGAAAAACTAGAGTAATTCAAGGATTGAAAAAAATTTCTAAACCAGGTTTAAGAGTTTATGCACAAGCTAATGAAATCCCACAAGTATTAAACGGATTAGGTATCTCAATTGTTTCAACATCACAAGGAATCATGACTGGTAAAAAAGCTCGACTAGCTAATGCTGGTGGAGAAGTTCTAGCATTCATTTGATAATAGGAGTTTAAATATGTCTCGTATAGGTAATAGATTATTACAAATTCCAAATGGTGTTGAAGTTAAAATAGCAGAAAACAATTTAATAACAATTACAGGATCTAAAGGAACTTTATCAAAACAATTTTCACCTTTAATTAAGATTGAAGTTGAAGAAAACAAATTAATCACTAAAAGATTAAATGAACAAAAACATACAAAACAATTACACGGAACTACTAATTCATTACTACAAGGTATGTTAACTGGAGTTAGTGAAGGATTTAAAAAAGAATTACAAATTACTGGGGTTGGGTATAAAGCTGCAGTTAATGGTTCAAAATTAAATTTAAGCTTAGGTTATTCACACCCTGTTGAATTTGAAATTCCAAAAGGTGTAGAAATTCAAGCAGTTAAACCAACTGAATTAGTTATTACTGGAATTGATAAACAATTAGTTGGTCAAGTAGCAGCAAACATTAGAGCATATAGAAAACCTGAACCATACAAAGGTAAAGGAATTAAATACAAAAATGAAACTATTATTAGAAAAGAAGGGAAAGCAGCTGGTAAATAGTACCAGAGCTTAAGGATTACTAAATATGAAATTTACTAAAGCTGAAGCTAGAAAACGTAGACATTTCAGAGTAAGACAAAAAGTTGTTGGTACTGCTGAAAGACCTAGATTAAATGTATTTAAATCAAATACTAATTTCTATGCTCAAATTATTGATGATACTAAAGGAGTTACATTAGTATCTGCTTCTACTTTAAAAATGGATTTAAAAAGTAAATCAAATACTTTAGCTGCACAAAAAGTTGCTGAAGAAATTGCTAAAAAGGCTTTAGCAGCAAATATTACTCAAGTAGTATTTGACCGTAATGGGTATTTATACCATGGTAAAATCAAAGCTTTTGCAGAAACTGCAAGAGAAAATGGATTAAAATTTTAAGAAAGGGTAGAAGAGAGTATGACTGAAGAAATGAATGTAGTAGAAACATCATCAGAAATGAATTCTAATGTTGAAAAAGCTTCTACTCAAGTAAAAGAAACTAAAAAATTTGAAAGAAGAACTAGACCTCAATCTAAATCTAAACAAGTAAAAGACGAATTTGAAGAAAAAGTTGTAACAATTAGACGTGTTACAAAAGTAACTAAAGGTGGACGTCATTTTAGATTTGCAGCAGTTGTTGTTGTTGGAAATAAAAAAGGTTTAGTTGGAATGGGAACTGGAAAAGCAAACGAAGTTCCTGAAGCAATTAAAAAAGCAATTAAAGAAGCTAAGAAAAACTTAGTAAGTGTTACTTTAAGAAACACAACAGTTCCTCATGAAGTTTTAGGTACTTTTGGAGCAGGTAAGATTTTAATTAAACCTGCTAAAGTTGGTACTGGAATTATTGCTGGAGGACCAGCTCGTGCTGTTATTGAATTAGCAGGAATTTCAGATGTTTATGCTAAATCATTAGGAAGCAATAATGCAATCAATATGATTAGAGCAACTTTTGAAGGACTAAGTTCTATGCAAACTTTAAAAAGAGTTCAAGAACTAAGATATGGTAAAACTTTTGATACTCAAAAAGTAAAACCAGTTGAACAAAAAGTTGCTGAAATTAAAAGTGTTGAAAAAAAACAACCTAAACAAGCTGTTAAAAAAGTAGCTGTTAAAAAAGCTGAAAATCAAGAAAATACAGTTGAAGTTATTACAAATGCTGAAGCTGAAAGTAAAGCTGAATAATAGAAAGGAGTCATAATAATGAAATTAAATGAATTAAAATACACACCAGGTAGCAAAACTAAAGCTACTATAGTGGGTAGAGGTATGGCTTCTGGAAAAGGAAAAACAGCTACTAGAGGACATAAAGGGCAAAACTCTAGATCAGGTGGAGGAGTTCGTCCTGGATTTGAAGGTGGTCAAACACCACTATTTAGAAGACTTCCAAAAGTTGGATTTACTTCATTAAACCAAAAACAATACACTATTTTAAATTTAAGTGATTTAGAAACTTTAGGTTTAGAAAAAATTGATCACGAAAGCTTAATTAATAGTAAAATTATTAAAAATAATGCATCATTAATTAAGATACTAGCTAATGGTACATTAACTAAAAAAGTTGATGTAAAAGTAAACAAGATCTCAAAAGCAGCTAAAGATGCAATTGAGAAATTGGGAGGAAAAGTAGAGGTGATTTAATGGTTATTAAAAAACCAGCTAATAAAGTTGATAAAAAAACTACTTTTAAATCATCTACAAAAAAGAAAAATCTTTTTAAATCAAATTTTTTTACAAAAAATAAAGATTTGATTTTAAGAATTCTTTTTACATTATTAGCACTTATTATTATTAGACTTGGTGTTTATATAACTGTTCCTGGTGTAACATTAGATAAAAGATTTGCAACAGATTCAAGTAGAATTCAATTCTTTCAGCTACTTTCAACTTTAGGTGGAGGAAGTATTGGTCGATTTTCAATACTAGCTTTAGGAGTTTCTCCATATATTACTGCTTCAATTATTGTGCAACTTTTATCAACTGATGTTATTCCTGTTTTAACAAGATGGTCAAAATCTGGTGAAAGAGGAAGAAAAAAGCTTGATAAACTAACAAAAATTATCATGATTCCGTTTGCTTTAATGCAAGCAGAAGCTACGATATTTACTTTATCAAGTCAAGGACTAATTGTTCCTGGTTGAGATAGTACTAATGTAATAGCAAATTCGGCATTTTATTATGTTTTAATTCCTTTAGTAATGTTAGGTGGTTCATTTTTTATGTTATGAATTGCTGATCAAATTACCATTAAAGGAATTGGTAATGGGATTTCAATAGTAATTTTTATAGGAATTATTATTTCAATGCCAACTAACTTAAAAGCAACATTTGAATATTGAGTATCAAATTCTGGTGAAGAAGCTAATATCTTTTTTTCAGGATTATTAAACTTTATGATATATATTAGTGTATTTTTACTAGTAATATTATCAGTTGTAATTATGAATGAAGCTGAAAGAAAAATTCCAATCCAACAAACTGGGTCAGGATTAACTGATTCAAGTGAACACACTCCGTATTTACCATTAAAACTCAATAATGCGGGAGTTATTCCAGTGATCTTTGCATCAGCTATTATTTCAACTCCAATAACAATTTCTCAAATTATAGAAGCTGTTAACCCTGATAGTGGATTTGTAATATTTACAAGAGATTATTTATCATTTAATACTTGATGAGGAATTTCAATATTTGGAATTTTAATTGTTTTATTTACATTTTTATATTCTCAAGTACAAATCAATCCTGAAAAAGTTGCAGAAAACTTTCAAAAGTCTGGAACATTTATCCCAGGTATTAAACCAGGAAAAGATACTACAAAATATCTAACAGGAATCATTAATAGACTATCAGTTGTTGGATCAGTATTTTTAGCAATAATTGCCTTATTGCCTTATGTGATTTCAAAATTAACTCAATTACCATCAAATCTTGCAATTGGAGGTACTGGATTAATTATTTGTATTTCAGTTGCTATTCAAACTGTTCAACAATTAAAAGGAAGAATTATTCAACAAAACTTCATTGAAAAGAAAAAAGAAAAATTCACTAATAATACTAATAAGAATAAAACATCTCATATTTGATAAAAAAGGCAATATGCCTTTTTTATTTGTATTAATTAATTGAAACTTAACTATTTTATTTGGTTATGTTATTTAGAATATAGATTGTTATAAAATACATTTATAGTGCTATAAAAAAGGAACTTTATTTATGAATATTATGCTATTAGGAGCACCTGGTTGTGGAAAAGGAACACAAGCAGAACAACTTGTAAATAAATTAAATTTTATTCAAGTATCAACTGGTGATTTAATGAGAAAAGAGATTTCATTAAACACTAGCTTAGGTTTAAAGTGTCAAGAATATATGAATGCTGGTAAATATGTTCCAGATCAAATTGTTAATCAAATTGTTAGTCAGTTTTTAAAAAATACTAATGATAAATTAATATTTGACGGATATCCAAGAACTTTAGAACAAGCTAAATCATTAGAACAAATGTTAGATTTATATAATAAAAAAATTGATTATGTTTTTTATATTGATATAAATGATCAAATTTTAATTAAAAGAATTACAAACAGATTAGTTTGTCCATTATGTAAGGCTAGTTTTAATTTAGAAACTAGAAAACCAAAACAAGAAGGTCTTTGTGATTTTGATAATACTAAATTAGTTAAAAGAAGTGATGATAGTTTAGATAAAGTTCAAATAAGACTACAAACTTATAAAGAACAAACTTTACCTTTAATTGATTATTTTAAAACTAATTCTAAATTTATTGAAATTAAAGCAGATGATTTATCAGCTGAACAAGTTTTTAATCAAATCAAAGGAGAATTAAAAATTTAATGATAACAATTAAAAACCAAGAACAAATTCAAAAAATGAAAATAGCAGGTCAAGTGTTAGCAAAAGGCTTGAATTTATTAAAATCAATGATCAAGCCCGGTGTTAATTGTTTAGATCTAGATAAAGCTTTTGAAGAATTTATTAAACAAAATGGATGTGAATCTAATTTTAAAAATTATCAAGGATTTCCAAAAACTATTTGCATTTCAATTAATGATCAACTAATTCATGGAATACCAAAAAACCGAATTTTACAAAACGGAGATATTGTAAGTATTGATGCTGGATGTATGTATCAAAAATGACATGCAGATAGTGCTTTTACTATGGTCTGTGGAATTGCAAATGATAAAAAAAATGATATACTTATAAGGGTCACTGAAAAAGCTCTTGATCTTGCTATTGCTGAACTAAAACCAGGAATAAGAGTAGGAACAATTGGTTCAATTATTCAAAATTATGTTGAATCACATAATTTTAGTGTTCCAAGAGATTATACTGGTCATGGAATTGGTTTAGCTTTACATGAAGATCCATATATTCCAAATTATGGAATACCAAACACTGGAGTTAGATTGCAAGAAAATATGGTTATTTGTATTGAACCAATGGTTCAAATGGGAACTTATAAAACTAAACTTGCAGATGATAACTGAACAGTATATTCAGCTGATCATAGTATGACAGCACATTTTGAACATACTATTTTAATTACAAAAGATGGTTGTGAAGTGCTGACAAAAGAAGAAAGATAGGTGCATTATAGATGGCTAAAGAAACAGAAATGGAATTCGAAGGCACTGTTGTTGAAGTATTACCTAATGCCCAATTTAAAGTGAAATTAGAAAATGGAGTAGTTATTAATGCCCACGTGTCAGGTAAAATCCGCATGCATTACATCCGCATTTTACCTGGAGATAAAGTAACTATTGTAATTTCACCATATGATATGACACGTGGAAGAATTACTTATAGAAAAATTGGTAAGTAATTATTTAAAACAATTTAAATCATTTAAATGATTATTGTTTTATTTTAAAAAATACGGAGGATTTAAAGATGAAAGTTAGATCATCAGTCAAGCAAATTTGTGACAAATGCCGTGTAATTAGACGTAAAGGCCGTGTAATGATCATTTGTGTTACTCCAAAACACAAACAAAGACAAGGATAATTGTTTAATTAATAATTAGAAAGGATACCCTAAAATATGGCTCGTATTAGTGGAGTAGAAATCCCAAATAATAAAAGAGTTGTTGTTTCTTTAACATATATTTATGGAATAGGGCTACCAACTGCTCAAAGTGTTTTAAAAACTTTAAACATTTCTGAAGATATTAGAGTAAAAGATTTAACAGAAGAACAAATTAAAAATATCTCTATGGAAATTTCAAAATACAAAACTGAAGGTGAATTACGTAGAGAAGTATCATTAAACATTAAACGTTTAATGGAAATTGGAAGTTACAGAGGACTAAGACACCGTAAAGGTTTACCTGTTAGAGGACAATCATCAAAAACTAACGCAAGAACTGTTAAAGGTCCAAGAAAAACTGTAGCTAATAAGAAAAAATAGAAAGTAGAAAGAAAGGAAAATAATCATGGCAAATCCAAAACCACAAGCTAAGAAAAAAATTAAGAAAAATATTCCTAAAGGTATTGCACATATTCATTCTACTTTTAACAACACAATTGTTACAGTTAGTGATGAAAAAGGAAACGTTCTTTCTTGATCTAGTGCGGGAGCAATAGGATTTAAAGGTTCTAAAAAATCTACACCTTATGCAGCTCAATTAATTTCAGAAGCAGCAGCTAAAGGTGCTATGGATAACGGTGTTAAAACTGTATCTGTTGAAGTTAAAGGACCTGGTCCAGGACGTGATGCCGCAATTAGAGCATTACAAATGGCTGGTTTAGAAATTACATCAATTAAAGACACTACACCAATCCCACATAACGGAGTGCGTCCAAGAAAACGCCCAAGAGGTTAATTTATGAAACAATTTGTGAGACCAGAATTTATTCTTTTAAAAGAAGGACAAGATAAAAACTACGGAAAATTTAGTGTATCACCTCTAGAAAGAGGATTTGGTATAACTTTAGGTAATGCGATTAGAAGAACTTTATTAGCAGCAACTCCCGGAGCAAGTGTTTATGCGATAAAAATTGCTGGGGCAACTCATGAATTTACTTCAATTCCAGGAATTATTGAAAACGTAACAAAAATTATTTTAAATATTAAGCAATTAGTTTTAAAAATTGACACTTCTATGTATGGTGATGATGAAGTTGTACAATTAAGAATTCGTTCAGATATTCAAGGACCTGTTTATGCTGGTGATTTAGATATACCAGCTGGTGTAGAAATTTTAAATAAAGATTTATTAATAGCAACTATTAGTGAAGGTGGAGTTTTAGACTTAGTATTATATGCTAAAAACTCACGCGGATATAAAACATTTAAAGATAATAAAAACGAAAAAAATATTGAACCAGGAATGATCACTATTGATTCAAACTATTCTCCAATTATAAAAGTTGCATATAGTGTTGATTCAGCAAAAATCGGAAGAGCTATAGATCTTGAAAAATTAGAATTAGAAGTTACAACTGATGGTTCAATTACTGCAATTGATGCAATTAGTATTGCTTCAAGAATTTTAGTTGCTCATTTAGAATTCTTTATTGATTTAAATCGTGAAATCAGTGTATTAGAAGTTATTGGAACTAATCAAACTGATGATAAAGAATTAGATAGAACTGTTGAAGAATTAGACTTTACACAAAGAAGTTTAAATTGCTTAAAACGTGCTGGAATAAATACATTAAGAGAATTAGTTTCTAAAAATGAAGATGAAATTGGATCAATTAGAAACTTAGGACGTAAATCATTAAAAGAAATTAAAGATAAAGTTGCTTCATTAGGATTAGCATTCAGACAATCATAATTATAGGAGGTAAAAACTTATGTCATACATTCAAAAACGTGGCCAAAATACCGCTTGAAGAACTGCTTTAATGCGTAATTTAACTACTGAATTAATCATTAATGAAAGTTTAGAAGTTACTCAAACAAGAGCAAAAGAATTAAGAAGACATTTTGATCATATGATTACATTAGCTAAACGCGGTGACTTACATTCAAGACGTCAAGCTGCTAGTTGATTAAGAGATATTGATGCTGATAAAAAAGAAACAGCATTACAAAAATTGTTCAATAAATTAGCTAAAAAATATGAAAATCGAAATGGTGGTTACACAAGTATTTTAAAATTAGACAACCGTAAAGGTGATAACGCACCTATGGTTATTATTAAATTAATCTAGTCTCAAATTATAAGGTCTTTGTACCTTATTTTTTTATTTCTATTATTTTTTTAGATACTTTTTAATTTATAATTATTATAATGAACAAATAGAAGCGGGGCTTTTAAATGGATAATTCAGCAATATTTGAAGAATTCAATTCTAAAAAAATATCTCAAGATGATCTAGAAGCAACTATTACTTCTCTTAATAATTATTTTGTTAAATTAAACGATTTAAATAACCAATATATTAATTTAATTCGCCAAGATAATATTGATAAAATTGAAAAACAAAATATTAGACAACAACAAAAACAAGTTAAAGCTGAAATTAAAAAAATATCAGCAACTACTAAACTTTTTAAGCAAAATTTAAAACTTGCTGAAAGTTTGTATAAAAAAATAAAATTAACTAATAATCAGAATGACATTAACAAAGCAAAACATGAAGTTGAAATTGCTAAAAGTATGTTATTACAATTAAAAGAAGTAATTAATGGCCAAGGAAAAAGTATTAAGTTGAAAAAACTTTCAGATATTGCTATTGAAATTAATCATTTATCTTTTAAATATGGTCCTGAATTTCCTAATGCAATAGATGATGTTTCATTTACTATTAATCAAGGTGAATATGTAACTATTATTGGTCATAATGGTTCTGGAAAATCAACTATTTCTAAAATTTTAATTGGGGTTTTAAATGCTCAACATGGTGAAATTAAAATCTTTGGAAATATTGTAAATGATCATAACATTGAACAAGCTAGAAAATTTTTAGGAATCGTATTTCAAAATCCTGATAACCAATTTATTGGTTCAACTGTTGAAGCTGATATTGCTTTTGGATTAGAAAATAAAAGAATTGATCCTAAAAAAATGCCAGATATTATTTTAGATTCAGCAAAAAAAGTTGGTATAGAGTGAGCTTTAAAAAAAGAACCATTGAACTTAAGTGGTGGTCAAAAACAAAGAGTAGCAATCGCTTCAACTTTAGCTTTAGATCCAGATATTATGATTTTTGATGAAGCAACTAGTATGTTAGATCCAAAAGGAAAAAGAGAAATTAAAGAAATTATGGTTCAGTTAAGAGAAACTAGAACTAAAACTATTTTGTCAATTACTCATGATATGGATGAAATTTTAAATGCTGATAAAGTAATTGTTTTAGATCATGGAAAACTAGTTAGAGTTGCAAAACCACTAGAAATAGTTGAAGATAAAGATTTTTTAAGAAATATTCAACTAGATGTTCCATTTGTTGGATTAGTTAGAGAAGAATTAGAAAAAAAAGGGATTAAAATAGCAAGTACACAAAATATAGATGAATTGGTTGAACAAATATGCAAAAAGTAAATAAAAAAACAAATCAAAATTTAAAAGATATTGATTTTTCAAAAGATATTATTCTAGATAATGTTTCATATACATATGCTAAAAAGACCCCTTTTGAATTTAAAGCTTTAAATAATACTAGTCTAACATTTAAAAAAAATAAAGTAACTTGTGTAATTGGAACAACAGGTTCAGGTAAATCAACAATGATCCAATTAACAAATGGATTAATTATTTCTGAAACTGGTCAAACTATAGTTGGTGATTATGCTATTCCTGCAAACACTAAAAAAATTAAAGAAGTTAAGCGTTTAAGAAAAGAAATCGGCTTAGTTTTTCAATTTCCTGAATATCAATTATTTCAAGAAACTATTGAAAAAGATATTGCTTTTGGTCCTGTTAATTTAGGTGAAAACAAACAAGAAGCTTATAATAAAGTTCCAGAACTTTTAAAACTAGTTCAATTACCTGAAGATTATGTTAAACGTTCTCCTTTTGAATTATCTGGTGGTCAAAAAAGACGTGTGGCTTTAGCTGGAATTATTGCTATGGATGGTAATACTCTTGTTTTAGATGAACCAACTGGAGGATTAGATCCTAAAGGTGAAGAAGATTTTATTAATTTATTTGAAAGATTAAATAAAGAATATAAAAAACGTATTATTATGGTTACTCATAATATGGATCAAGTACTAAGAATTGCTGATGAAGTAATTGTTATGCATGAAGGAAAAGTAATTGCAATTGGATCACCATTTGAAATTTTTTCAAATATGGAGTTATTAACAAAAATTGAAATTGATCCACCAAAACTTTATCAATTAATGTATAAGTTAAAAAATAAAGGTATTGACTTATTAAATAAAAAGATCAGAACCATTGAAGATTTTGCTGAAGAACTAGCTAAAGTCTTAAAATAGAAAGGATAAAAATATGAGAATTTCTTTTGGTAGATATATTCCTAAAAATTCATTGATTCATAAAATGGATCCAAGATTAAAACTATTTATGATTATGGTTTTAATTGTTTCTGTATTTTTTCCTATTGGTTTAACTGGTTATTTAATTATTAGTGGAATTATTATTGGTCTTTTTGCTTTAAGTCAATTAAGTTTTAAAATGTTAGTAAGACTATTAGTTCCTGTTACTTTTATTTTTGCTATTATTGTTTTAATGAATTTCTTTTTTATTCATCCTTCAAGTAATGCTGTTGGTCAAATTTCAAGTTGAGTAGAAAATAATCCTAATAAAATTTTTTGAACTAAGTCTAATGGAACAATTGTTGGTCAATTAGATGTTGATGCTGTTAGTCAAATTACTAGCTCACTTGGAAAAGAAATAAAAAATTTACAACCAATTGGATACTTTTTTAATTGAAAAGTATTTTGATTTAGTGAAAAAGCTTTATATAGTGCTTTAGTAATGGGAATGAGAATTTATTTAATGATTACTTTAACTTGTATTTTAACAGGAAGCACTCCTTCATTACAACTTACTTTAGCTATAGAAGATTTATTATCTCCACTAAGATTAATAAAAGCTCCAGTATATATACTTTCAATGATTATTTCTATTGCTTTACGTATGATTCCAACTTTAATCGATGAAGCTGGAAGAATTATGAAAGCTCAAGCAAGTAGAGGAATTGATATTAAAAACGGAAAATTTAAAGATAAAGTTAAAAGTTTAACTTCATTAATTATTCCTTTATTAGTTTCATCATTTCAAAAAGCTGAAGATCTAGCTTATGCAATGGATGCTAGAGGATATGATCCAAATGCTACAAGAACTAGATTTGTTCAATTTAAATTCAGAATCATTGATGCTATTATATTTGTTTTAGGTATTAGTTTTGCTATCTTTATGATGGTATATGGTTCAAACCCACATGGAATATTTACTAATTGACATATTAGTCATATTGATTCACTAGTAGCATATTAAAAATGAAAACCGGTATTTTATTAAGTTTGTGTTATGATGGTAGTAATTATCATGGTTGAATTAATCAAACTAATGCAATAAGTATTCAAACTACTTTAAATAAAGCTATTAAAAAAGTTATTAAAACTGATCAATTTAAAACAATTGGAGCTAGTAAAACTGATACTAATGTTCATGCTTTAGATCAAAAAGTTTTATTAATTATTTACTTTACTCCAATTTTAGAAAAATTTATTAAAGCTATTAATAAAGCTTTACCTAGTGATATTAAGATTTTAGATGCTAAATTTGTTGATCCAAATTTTAATATAAGAGAAGTTGAATATAAAATTTATCACTATTATATTAATGACCATCAATTTGATATTTTTACTAATCGGTATGAATATTTTTGAAAACATCAAAAAATCGATATTATAAAACTACAAGAAATTTTTAATCTTTTTATTGGTGAACATGAGTTTAAACTATTTTCTGGGTTAAAAGAAAATGAGTGAAATCAATATCAAACAAAAAGAACTATTGATGATATTAAAGTTTTAAGAATCAATAATAAAGTAGTAATTGAATTTAAAGCATCTGGTTTTATTAGATATCAAATTAGAATTATTATTGCAAATTGTTTAAATGCTTATTTAAATCATAAAATTTCAACTACTAAGTTAGTTGAAATGTTAAAAGGAATTGGAAAAAAAACTCCTTTTATAATTGATGCTAAAGGTTTAGTATTACAAAAAATTCAATTTAATAAAAATTAAATCACCTGATTTGTTATTGTTACAAAAATGGTGTTTTTTTACTATATTGATATAATAAAAAAGAACGGTTATTAGAATAAAAGAAATGATGAGTATGAAAACTAAAAATAAAAAAAATAAATGATTAGGATTAATTTTAAAAAACTCTTTAAAAAATTCTTTTAAATATAAATCACAATTGTTTGGTTTAGTTTTATTAGTAATGATTATGAGTTTAATTATGTCTTTAATATCTGCAATTAATTCTAGAGTTTTAGATAAGTATGATGATTTAATTACTAATTCTAATCAACACAATTTAGTTTTAAAACTAGATCCTTATGAAAATGTATCAACTAGTTTAATTACTTCTAATAACCAAATTCAAGTTCAACAACAATATATAAATCGCTTAAATGAGAAATTATATTCTAGATATAATTTTAAGTTTGACTGATCAAGAACTGAATCTCGCGAATTTAAACAAGTTAAATCTTTAAATAATTTACAAACTTTAAAAGCTGTTTCTAAACAATATTTAACTGATAATAAAGTTGATCAATTAGTAATTGTTAAAGGTAGAAATATAAATTCTAATAAAGAAGTTTTAATTGATCCAATTTATGCTAAAAAACATAATATTAAAATTAATGATATTATTAGATTTCAAAAAGATGTTTTAGGAGATCAATTATTAGTAAATTCATTAGAAAATAAAACTACTACAAAACAACAATTTGAAGATATTAATAAAATCACAAAGCAAGGACTAACTGATAATAATGGTATTTATCAAATTAAGTACGCAAGTAGTTTTGATTGATATCAAGTTGTTGGTTTTGCAAACTCTGCTGATTTTATTTTTCCAACAATTAATGCTTATTCACCAATCCCAAACCGTTTAAATGAAGGAATTATTTATGTTGATCCTTTAAGATTTGGTTTAATTAAACAAACTGATGGATTTTATAAATATGATTCAACTAGTTCTAAATTAGTTGTAAGTTCAAATAATGAGTGAGAATCTTTTTATTCACTAAAAACTAATCAAAAATTAAGTGATGAAATTATTGATTGAATGAATCAATATTTTAGTCAACTAATTAATAAAAAAGCTCAAGATAAATGAATTTATAAATTAGAAGATCCAAATTATAGATTTAATTCTAGAACTAGTGTTATTAAAAAAACAATCGGTGCTTATAATATTTATTCATTTATTGTTTTATTAGCAGTTATTAGCGTTGTTTTATATACTACTTTTTTAATTACTAAAAAACAAATTTTAAACTCTCGTGGTCAAATTGGAACAATGAGAGCTATTGGATATAAAAAACGCCAAATGGTACTTAACTATGTGATGATGCCATTTTTTACAAGTATTGTTGGTGGAATTTTAGGATATATTTTATCTTGTTTAATTTCAATAATTATTATTAATAGATTTTCTAATTATTTTAGTCTAGATTATGGTGTTTTTAGTTTTGATTGAATTGGGTTATTAAACAATCTAATTTTTATGTGACTAATAATTTCAGCTATTTCATTTTTAATTGGTTATTTAATTATGAAAAAAGGAGCTATTAATTTATTAGAAAATAGAAATGCTAAAAAAATCTCAAAATTAGGTAGTTTAATTAAAAGTTTATCTAATAAGAGAAAGTTTAATCATCGTTTAAGAGCTGCTTTATTAGTTAATTCTGGATCTAAACTCACTGGAGTTGGATTTGTTGTTTTAATTGCTACAATTTTATTTACTATTTCTTTTGTTTCACCAAATTTATTAAAAAATAATAAGATTTATGCTTATAATGGTGTTAAATACAACCAAATTGTTGAATATAGTCAACCAACTTATAACAACCCTTTTTCTTTTATAAGAGTTTTTAATCCTGATAAAAAATCAGATGATAAATATAATATTATAAAAAATAATAATAGATATTTAGCAACCTCTTTACCTACTAAAGATAATCAATATGATTTACAAACTATTATTAATGATTATTTAAATCAAACTTATAATAATGCTTATTATAGTTTAGCTATTGACTTACAAGATAAACAAGAAGTTCAAGCAATTAATTTAGCTTTATCTAATATGAAATTATTACAAGCTCAAGATATTGCTTTAACAAAACAATATTTTAAATATATTTCAAGCTTATCTATAACACCTAGTTCAATTCATCATATTTTGTTAAAAAATTGACCTGATTATGATAATTTAATTAATAAGTTAAAAGAAATTAAAGAAAATGAATTTGAAACTTTATTAAACCAGTTTAAATATTTACAACAATTTTATGCAACTTATACAAATAGTATTGGTTTAGCAATTAATAGATCTTATATTAATAGTTTTGATTTAAAAGATAAAAAAGATTTAAGAATTCAAAAATTTAATAATAATAGTTCTGAACAAAACAATTTAAAAACTAAAGCTTATGATGATATTTTAAATAGTGATTTATTAGCATTATCTAAATCAAGTTTTTCTTCAAAAGAATTTAAGGATAACATAATTGATCAGTTTAAATTAACTAATAGTGATTCTAGTTTAGGTATGTATCATATTTTAGATAATAAGTGAAATAAATCTAATTCTATATCTGATCAATTTTTAGATATTTCTGCTTTTGATTTTATTAATAAAAAATATAAATTAGATGATTTAAAAGATTTAGTTGCAAAATTAGTTTTATGATTTAGTGTAATGTTTTATAAAAGAGATGATCAAGCTTTAATTCAAGCAGCTTATTCACGTGCTCCTTATTTTGTAAAACAAAACTTAAAGATTTCATATAATAGTAATAAAGATTATACTTTAGGATTTAATTTAACTACTTTTAATAAAAACTATGAACAATTAGGAACTTTATTAAATGTAAAAACATTAGATAATAAACATACATTTAAGATTTATGGAATTTTAAATAACCATGATTATATTAATTTATATGATCAAAATAAAACTGATTTAATTAAAAAGTTGTTTGATTCAGAACAAAATAGTATTATTATTAATCAAACTATAGCAAAAAGATTAAATTTAAAACCTAATGATAAGATTTCATTAAATGTTTTACAAAATGAACTACAACATATAAAAAATAATAAAACTACTGTTTTTAAAACTGATGATTGATCTATGAAACAAGATACAAGTTATGATAGTTTTATTCAAAGATCAGATATTAGTACAAATAATTTAAAAGTTAAAACTAATAATAGTGTTTTAGAATTAAATAATGGTTTTTCAGATGTTAATAGTTATTATAAAAGTTATTTAGATAATGAATTAAAACTTGGAACTAAAATTCAAAACAAAACATTTAAAATAGTTGGTATTCATGATGGATATAATGAAAATATGGCTTGAATCAAAGAAAGTGATGCTCAAGAAATTTTAAATTATAAACAAAACAAATCTATTTGATGAAAAGATATTTTTGCACCTCAATGAAACAAAACTTTTTCATCAATTCAAGCAAAACAAGTTTTAAATGATAGTTTAGATTTAAATAATAAATCTTTAACTGATTATAGTTATGAACAATTTGTTAATGAATTTATTAATAATAAAAATCATAAGAATCATAAAATAGCTAAAAAAGTTTTACAAATCTTTGATAATCAATTTCCAATTTTTAATTACAAATATTCAAAAAGTAATGATATTGGTAATTTAGATACAATAGTTTCAACTTATTCAAAAATTGCTGATTATAATCCTGTTAGTTTAAATGGACAGCATTTAGAAAATAAAACTAGTTATGATGGAATTGGACAAGGAGTAATTCAAACTATTACTCCAATTCAAATCACAAAACAAATTCTAGATCAAATCTCTAATTTAGTAATGTTAGCTTTAGTTTTAGCAATTATTACAATATTAATGATTGCATTTGTAATTATTTTATTAACAACATCATTAATTATTTCAGATAATACTAGGTTTATTGCTACTTTAAAAGTTTTAGGTTATTCAAATAAATACATTACAGAAAATATTTTAGGAATGTATTTTATAGTTATTGCTAATATGTTAGTAATTGGATTTATTAGTGGTTGGTTTATTTTTGAGTCAACTATTAAGTCATTATATTCAATTATAGTTCTACCAATTATTTTTCCAATTTGATTACCTTTTGCTGTGATTCTTGCAGTTAGTGGAATATATTTGATTACTTTAATTGTTGGATTTAATTCAATTTATAAAACTGATGCAACTTTAACTTTAAAAGATAATGATGTATAAAAAAAGATGTATGAATCAATTGCATTTTTAGTAGTTATATTGATAAATAGCTTAAGATTATATATAATAAATTAATGCTTATCACACTTTAAAGACCCCGGACAAGTCAATTAAAGGAAGTTAGCACAAATGAAACAAACTACAATGATTTCTGCAAAAGACATCAATAAAAAATGATATATTGTTGATGCAGAAAATAAAACTGTGGGGAGATTAGCAACTCAAGTTGCTCTTGTATTAAGAGGAAAACATAAAGTTGATTTTACTCCACATATTAATAATGGAGATCACGTTATTATAATTAATGCTGAAAAAGCAATTTTTTCTGGAAAAAAAGAATCTAATAAATTCTACTATCACCATTCAATGCATCCTGGTGGATTGAAGAAAAGAAGTGTTGAAGTTCAAAGAGAACTAGATGCTACTAAGATTTTAGAAAGAGCTATTAGATTAATGCTTCCAAAAAACGTTCAAGGTTCAAACCAATACAGAGCTTTACATGTATTTAAAGGTTCACAACATCCATTTGCTGCACAAAAACCTGAAGTTTTAGAAATTTCAACTAAAAAAGGAGACGTTAAATAATGTTTAAAGATAAAGTTATTTACAGAGGAACTGGTAGAAGAAAATCATCAATTGCTCAAGTTATCTTAACTCCTGGATCAGGTTCAATTACAGTAAATGGAAAACCAGCTTTAGAATTCTTCCCATATGCTACTTTAGTTCAAGATTTAGAACAACCATTAGTAGCAACTAATACTTTAAAAGATTTTGATATTATTGTTAAAGTTATTGGTGGGGGATTTACAGGTCAAGCTGGAGCAACTAGATTAGGTATTGCTAGAGCTTTACTACAAGCTAGTGAAGATTATAGAAAACTTTTAAGAGATCAAGGGTTATTAACTCGTGATGCTCGTATTAAAGAACGTAAAAAATATGGTCTACGTGGAGCACGTAGAGCACCTCAATACTCAAAACGTTAATCTCCAGAGCAACACATTTTGTGTTGCTTTTTATTTGTTTAGTATAAAATTAATATGTCATAAAATTTTGTGTCACTTATTAAGCTTGTTGTATTAAAAATAAGATATTCTTAATATGTTATAATTTTTATAATTGTCATTATTTTAAAGGAGTTTTTATGAAGAAAATACTTGCTATTTTGAGTTCATTAACTTTAGTAAGTACTGGTGTATTTTCAACTGTTTTAGCTTGTAAAAAAAACCCAACTCCAACAACAAAACCAAATACAAATAATAATAAAGTACTTAAAAATAATTCTTTAGATAATATTAAAACAACTTCAGCTACGCTTTTAAAACAAGCTGTTTTAGCTGATATGTATGGTTATAATTTTGATTTTTTAAAATCTTATTTTAATAATAAAAACTTAAACGAACAAGCAAAAAAATATAAATTAAATACTGAAATTAAAGATAACATTACTTTATCAACAGATTTTGAAGATGCTTTAACTAATTATTTTTCAACTAATTTAGTTATTAAAAAAAATGATAATGTTAATTTAGATGGGATTAAAGGAACTGATATAGATTTTTTAACTTCGGTTTTACCAAAAACAGTATTTGGAACTACTAGTAAACAAATTAGTGCTGCTATTTCTATTATTTTAGAAAATATAAGTGGTGCTGGAATAACAGGTTTATTAGATCTTGCAAAAAATATTGATATTAATAGTAAGTTTAGTGATTTTGTTAAAAATCTAAAAGTAAGTAAAGAATTAATAACAACACTTTTAAACACAATATTTACTAATGAGAAATTTTTAAAAGAATTAGAAGAAGAAATAGAAAAATTTGATGCTTTAACTTTATATAAAGATTTTGAATTATCTGAACTAAGTAATTTAGCTCTTTTAAATATATTAGATGGTATTAATGGTATTTTAGATAAAGATTATCAGTTAGTATCTAGTGATATTAAAAAAAATAATGGTTTAAGTTTAAATGTAAGATTATGAAACACTTCAAAAACATTTATTAATAAAGTAGCAAAATTTGATCCAAGTTCAAATGTTGCTACAATTTCATCATTATCTAATAGTACTAGTCCAACAATTCTTCCTGCTAATATCAAAAGAAATATCAAAACAGCTGCTAGCTTAATTAGAGGATTAGAGCTATTTCAGTATTTATTTAGTTTATTTGATGAATCTAGAAAAGATGAATTTAAAATTTCTGATGAAAATATTTTTGATAAAAGCAAAAAAAATAGTCAGTTTTTTAAAGAAACATATAAGTTAAATGACTCAAATGGTGGATCTAATAATGGTTCTAAAATAGAGAGTCTAAAGAAAAATGGGACTTCAAATGGTTCTACTTCTCAAACAACATTAAATTTAAAATATATAATTGATACTTTACAATACTATTTAGGAAATTTAGATAAATCTGATAAAGCTTATCGCTTAAGACAATTTATAGGTATTTTATTTTCTGGAAAGTATACTGAAAATAGTTATAAATCAGAAAATAATAGCAGCAATAATTCTAATGAATATAAGAGTCTTTTCTTTGAATTTAATGGAAATAGTGGAAATCAAATAAAAGAAATTAAATTAAATGGTTTTCAAATTTTTCTAACTTCAATTTTATTTGAATCTCTTTCAAATATTAAATTACAAAACATAAAGATTGAAAGTGGTATATTTAGTTTAGCAAAACCATTTATAGAAAAAATTAACCTTAAAAATTTCTTTGAAAGTGATGTATTTCTTAAACAAGGCTTGGCAGACTTTCTTATTTCATTAATGAACTTAATTACAGATTCTTTTGTATATAATCAACCACTAATTAATGATAATTTTGATAAAATACTAGAAAATTTATCTAAAATACTAAAAAATTTAAAAATAGAAGATTTATTAAAAGGTTTATTTAATGAAAATAATGGATTAGTAGGCTCTCTTAAATCATTAATAGAAAATTATATTAAATTTGATGATATTTCTAAAAAGATAGATGACTTTATAAAAAATAAAGAAACATATTCTCTAGTTAAAGCAGGAATTAAGTCATTTATTCCAATTCTTGGTGAAAAGTTTTTTGAATATATTTATGATGGTAAAGTAGAACAAACATTTGATACACTAGCTAATCTATCAAATGATGTTCTTATAAGAACACTTGTAGAAAAACTAAAAATTCAAATACCAGCAGCATTAAATTTCATACTACCTTACTTTAAAAAAATCGCTATGAGTTTGAGAACAATTTTTCCACCTGGTGTTCATTTAAATCTTAAGAATTTATTTACTATAAAATTATCTGATTTTATTAAATTAGAAAATAAACCAAATTTTGGTTCTGATTATTTAGATAAATCTATAACCACAATTTTAAATGAACTATCTAATGCAGGAACTTCATCATCTAAATTAAAAGAATTGGACAATGCATATGGTTTCAAAATAGACTCATTAAAAGAATTTATTAATAAAATTTTTAAATATGATTATAAATGAAATGGCGCTAACTCAGAAAACGGAGGAAATCTAATTTCATTACTTTTAAATAACCCTAATAAATTTAAAGAGATTATAGGTTTAACCGAAGAAGGAATGAAAAAAGATTCAAATTCATTAATTGATATTTTATCAAACAAATTAATTCCAAATGATAAATCTAAAAATCAAGATAGTTTACAATGATTTGCTAGTGTATTAAATAAAGTTATTATTAATTTAAACAAAAAACCTAATTTTACAACTAGTTTAGAAAAACATTTTAATGATGATAAATTTAATAATTTTGAATTTAGTGATACAAAAACTGAAAAATCTGGTTTAATAACTTCTCAAACTATTTCAACTACAATTAACAATCAAAAATATACATTAGTTATAACTAGAGATCCTAAACAGCCTACATTTATAGTAGAATCTTTAACAAAACAATTAGTACAAAATAATTAATTAATATTTGAATAAAATTTAAGATATTATCTTGAATTTATAATAAAAAAAATATAATATTATTTTGTTATTCGGAATATAGCTCAGCTGGTTAGAGCACTCCGCTGATAACGGAGAGGTCGTTGGTTCAAGTCCAATTATTCCGACCATATGAATATTAATTTTGACACCAATTGGTGTCTTTTTTTTATACTTTTTTATATAATTAATTAATAGTTATTCATATTCTTATTTAAATATTTTTTTTACAAAATAAAAGTTAATTAATTACATTAAGGAGTAATCATATGGATTTTTCACATAAAGCTATTGAAAAGAGATGACAAAAGTATTGAAAAGAAAATAACATTTATAAAACTACTAATAATAGTGAAAAAAAAGCTTATATTTTAGATATGTTTCCTTATCCAAGTGGATCTGGATTACATGTTGGTCATATCAAAGGATATACAGCAACTGATGTTTATAGTAGATTTAAAAGAATGCAAGGATATGATGTTTTACATCCAATTGGTTGAGATGCATTCGGATTACCAGCTGAACAATATGCTTTAAAAACAGGAAATGATCCTAGAGAATTTACTTTACAAAACATTGAAAATTTTAAAGTTCAACTTAATAAAATGGGATTTAGCTATGATTATGATAAAGAAATAAATACAGCTGATCCAAATTACTATAAAATTACTCAATGAATTTTTAAACAACTTTATAAAAAAGGTTTAGCTGAAAATAGAGATATTGATGTTAATTGATGTCAAGAACTAGGAACTGTTTTAGCAAATGATGAAATTATTGAAAAAAATGGTTTAATGGTTAGTGAAAGAGGAGAATATCCTGTTGTTAAAAAAAAGATGCGTCAGTGAGTTTTAAAAATTACTGATTATGCAGATAAACTTTTAGATGGGTTAGATAATTTAGATTGACCAAATTCTGTAAAAGAATTGCAAAGAAATTGAATTGGTAAATCTGAAGGTTGTGAAATTAACTTTAAATCAAATGATATTGATATTCCAGTTTTTACTACTAGAGCTGATACTATTTTTGGAGCAACTTATATTGTTTTAGCTCCAGAAAATGAACTTGTTTTAAAACTAACAACACCCGAAAAATTAGATGAAGTTAAAAAATATATTGAACTAACTGCTAATAAATCTGAAATTGAAAGAAAAGATGAATCTAGAACTAAAACTGGAGTATTTATTGGAAGTTATGCAACAAATCCATTAACTAAAGAACAAATTCAAATTTGAATTAGTGATTATGTTTTAAATGATTATGGATCAGGAGCTATTATGGCAGTTCCAGCTCATGATAAAAGAGATTGAGATTTTGCTACTAAATTTAATTTACCAATTAGATTTGTAATTCAAACTAAAGATCAATCTAAAGCTTTTGTTGGTGAAGGAATACATATTAATTCAGAATTTTTAAATGATCTTGATAGAGTTCAAGCTTTACAAGTAATCCATGATTATGTTGAAAAAAATAATTTAGGTAAGAGAAAAATTAATTATAAATTAAGAGATTGATTATTTTCAAGACAAAGATTTTATGGTGAACCTTTTCCTGTTTTATATGATAAAGATAATAATATTGTTTTAATTGAAGATAACAATTTACCAATTACACTTCCAACAACAGATTATATAAAACCAACTAATACTGGTGAAAGTCCTTTAGCTAATGTTAAAAATTGAGTAAATGTAAAAATTGGTGATAAAGAATATAAAAGAGAAACTAATACTATGCCTCAATCAGCAGGATCTAGTTGATATTTTATTGCTTATATTCTAGCTAATTCAAAAAATAATTTAATTGATTTAACTAGTGATGAAGCTAAAAAAAGATTAGAAAAATGACTACCAGTTGATTTGTATATTGGTGGTCAAGAACATGCAGTTGGTCATTTGTTATATTCTAGATTTTGAACTCATTTTTTATATGATTTAGGATTATTACCAACAAATGAACCATTTCAAAGATTATTTAATCAAGGAATGATATTAGGACCTGATAATAGAAAAATGTCTAAATCTTGAGGAAATGTTATTAATCCAGATGATGTTATTGATACACATGGTGCTGATGCATTAAGATTGTATGAAATGTTTATGGGTCCATTAGATGCTAGTTTACCTTGAAGTTTTGATGGATTAGATGCTAGTTTGAAATGATTAAATCGTTGTTATAGAATGATTAATAAAATTGAGTTTAGTAATACTAATAATCACAAATTAGATTATGTTTATAATGATGTAGTTAAAAAAGTAACTCAAATGATTCAAGAACTAAAATTTAACACAGCAATTAGTCAATTAATGGTTTTAGTAAATGCAATTTATAAAGAAGAACTAAATACAGTTTATAAACAATATATTGAAGGTTTTGTAAAAATGTTAAGTTTATTTGCTCCACATTTAAGTGAAGAATTATGAGAAAAACTAGGAAATAACTCTAGTGTAACTTTACAAACTTGACCAGAATTTGATGAAACTAAAATAATTAAAAATACAGTTGTTATTGCTTTACAAGTTAATGGAAAATTAAGATCAACAATTGAAGTTGAAAAAGGAACAGACAAAGAAACTTTAATAAATTTAGCAGAAAAAAATGAAAATATTATTAAATTTATTAAAGATCATAAAATCTTAAAACGTATAGCAGTTATTGATCGAATTGTCAATATAGTAATTGAGTAAAAAGGTAGAAAATACCTTTTTTATTTTGCAAAATTATATAATTACTTTTGTAGAAAAGGAGTTAAAATGAAAAAAACCGTTAAATTAACAATCATTTTATTAGTTGTTGCAGTAATTTATTTTGGTTATTCAGCTTGACTTGACGGGGTTGCTATTTATGCAATTAGAGGTGTAAAAGAAGACGGTAATTCATTCTTTTCACTAATGACTTCAACTTCTGCATGAGTTAATAATTGAAAGACTATTTTAATTGAAAAACTAGGAAAAGAGACTGATTTAGGTAAATGAGTTGATACCTTTAATGGTTCAACTGCATGAACTGATTGAGTAAAATCAATTGAAGCTTCTGGTTATAAACTAACTGGATTTATGGCTCCAGACTCACTATTATATACATTATTAAGTCCATTTAAACTAATTTTAGTTGGTGGTGTTTTTGCAATGTTTATACCTTTATTAAAACAATTATTATTTAATACAATTATTGGTATTAAATCATATTTAAAAAATAGAGATATGAACGTTTTATTCAATTATAGTAAAACTATTGAATTTGTAGAAAACTTAAAAGCAAAAATTAGTGAAGATGATTTTGAAGGTGTTAAAGCTGCTTATTCATCATATTCATCATTAGCGTTTAAACCTGTATTTTTAACTAATTTAATGAATGAAATTTATAAAACATTAATTAAATTTGGTGATATTAAAGTGTTTGAAAATGGTTGTGCTTCAGTGTTAGAAGCAATTCAAGAAATGTATGTTAAAGAAAAAAGACGTGCTATGAATAATGGAAGAGGAGATGAAATGTTTTATGATATAAAACGTGGATTTGAATATTCTTCTTATAGTTCAAGATATTTTGTTAAATATTATGAAGCAATGTCTAAAGATTCTAAAAAATTAGGATGAAAAATCTTTAGTATTGAAATTTCACGTTTTTCATTATTCTTATTATTTGCTTTATTACCAAGTATTTTATTATCTGGAATAATTAGTGGTGTTTTATTACAAGTAATAGATCAAAATTCATCAAATATTACAGCACTAATTACAATTGGTTCATTTATAATGTTGTGAGCAATTTTTGCTATTATCTTCCATGCTATTTATATTTTCTTTAAAAAAGAATACAAAATTAACAAACATATATTAGTAAAACCAGCAATTACTTATTATTCATTATTGTTATTAGTATTTATGACATTAACTGCAGGATGTGTTGGTATTGCTCAAGTTGGAAATATTGCTGAACCATTTACAGCACCATTAATGACTAAATGATTTGGTGCTTTAGCTTATTTAGTATTAACAACTTGTTTAGTAATGTATGTGTTAGCTACTTTAGTTGATAACTATAGATCAGGAAAACAATTATCAGTTAAACTAATTATTAATAATATTGTTTTACCTGCAATTATTTGAACTATTACAACTGGAGCTAACTTTGTTGCATTATTTGCTAAATCTCAAGAAGTAATGGATTATAGTAATTTAATTTCTGGTATTAATACTTTAGTAATGGTACTATTTTGAATTTATCTATTTACAGCACAATTTTTAATCAATAACTTAATTACTTCAAAAACAGCCAAAATGTTAAAACAAACTAAAGTTGTTGAAAAATAAATAACTTAATAAATATTAATAATAATTAATTTTTGATAATTTATAGTTTAAAATAATAACAAAAATTAATTAATTATTGATGGTTCTTATATGAAAAAATTATTAAGTATTTTAGCTATTTTTTCACTAGCTACTACTAGTGTTTTATTAAGTTTGACTATATCTAATAATAGTAATTTTATTAATACTATTTTAAAAGTAGAAACTAAAAAAGAAAATAAAACTGATTCTAAGAAATTAGAAAGTTTAATAAAACAAAAAAATCTTGGTTCTTTTAATAAAAAACCAAGTACTAGTGAAATTATTAAAAAAATTAATCAAATAAATAAATTAGAAAATCAAAATCAAATTAAAGAATCAGATGTTGATATAAATATTAAAAAAGATAAAATAATAATTACTTTAAAATCAGATAAAAACGATACAGTTACATTAAAGTATAAAAATACTCACAAACTTGCTGAAATAATTGGTGGGGTATTAGCAGGTGTTGTTGTTTTAAGTGGAGCTGGGTTTTTATCTTATAAAGTTATTAAAAAACAAAAAACATCTAAATCAACAAATTAACTAAAAAAGAGAAGATATAATCTTCTCTTTTTTATAATGGTAAATCTTTTCTAGTAAAACTAATAACACCAATACTAGTTGAAATTACTATAATTCCAATCAATATAATATAGCTTAAATAAAAATCTGAAATGTTTTTAATTGAAACTTTGCTAAAATCAATCAAACTTAAAATAGTAAAGTTTTTAAAATTAATTAAAAAACTTCGATCTAGTGCTTTTCCTACTTGACTAATAACATCACTTGCTACAAAAAGTGTAAAAATCGCTCCATTACAAATTAAAACAAATGTTGATTTATTAAAAAGACAACTAAACATAAAACATAATGATCCAATAGCACTAACCATTATTCAAAATGAAAAACATTGTAAAGCTCAATTTAATAAATTAAATTGTTCAGTATTTATATGATTTATTTTCATAAACACTGCATTTATTACAAATACAACAAATACATAGACTGTAATACTAAATAAAAAGTAAAAAAATCTACTTAATACAATACTAGTTCTTGATAAATTAGATGATAGTATAAAAGTTAAATGACCTTTTTCAATCGGTCTTGTAATTAGTGAAATCGTTCCTGAAATTAAAAAAGTAGAAATTACTAATATTCCATATTGATCAAATAGAATTTTTATAATATTTTGATAAACAGTTAAACTAATATTTTCATTATTGTATCTTATAGAAACTAATAAAATGATTGTTATAAAACTAAAAAAAGGAATACAAAATAATCAAACTATTAAAGTATTTTTAAATGAATTTTTTCATAATTGTGAATTAAACATATTATTTTGTTTCTCCTTCTTTTTTATAAAATTTTAAAAAGTAATTTTCTAATGAAAAAGGAATTTCTTCAAATAAGTTTATTTCATATGACTTTAATTCATTAAAAAAATAATTAACTTTATTAATTGGAACTTTATAAGTTGCAATTAAATCATTAACATTAGTTAAAAATTCATTCTTATAAATATTGTGATTTTTAAAAGTAATTTTATATTCTCTATCGCTTGTAGTTTTAATTAAATCTAAATCTAACTTGTTAATAATTCTACCGCTTTTAATTATTGCTACTTTATTACATAATTTTTCAACTTCTTCAAAAACATGAGAACTTAAAAAAATAGTAGTGTTATTTTGTTTTAGTTTTAACATTAATTGAATGAATTTATTTTTAATTAAGGGATCTAATCCTGTTGTTGGTTCATCTAAAATTAAAACTTTAGGTTGATGCATTAAACATAAAACTAATCCTAGTTTTTGTTTCATTCCTTTAGACATTTTTTTAATTTTAATATTTGGATTAAATTCTCAATATTTAATTAATTTTTCAACATAATCTCAATTTTCTTGTTTTCTTAACTTATAAATAAATTTAATGTAACTTAGACCATTTTCATGTTCTGGATAATTAATTTCTCCAGGTAAATAACCAACACTTGGTTGAATTTTATAAGAATGTTTTCAACAATCTTCATTAAAAATTAAAGCTTTACCTTTGTTTTGTCTAATATATCCCATTAGATGTCTAATTGTTGTAGATTTTCCAGCTCCATTTGGTCCTAAATAACCATAAATATCGCCTTGATTAACTTCTAGATTAATATCAAAAATCCCATAGCCATTATTATATTTTTTAGTTAGATTTTTAATTTCTATAATTTTTTGTTGCATAAATTTTCCTAACTATAATTTGCTTATAAAAATAAATCCATATTCTAAAAGAAAAAATTATTTTAATAATTTAATTTTTTAAAAGAACTTAACTTTTTGAGTGTGAGCTAATTTTAACATTAAATACTTAATAAGAAAAGACAAAAATTTTTTTGTTGGTGCTCTTAAACTAAAGATAATTTGAAAATTATAAAATATTTTACAAGGAGGCATAAAATATCATGATTTTAGCAAAAGCACCATCAAGTTCAGAACAAGAAGCATTTGGCTTAAGTAAAGATATAATACCTGTTAGTGTAATTGGATTAATTATTACTTTAGCTGCTATCGCTTTTCTTTCTTGATTAGTATATAAAAACAAAGAAAAAATTATTCCAAACAAAAAGAACTTAGGTATTGCTGCAATAGGATATGTAGTTTTACTTATTGCATTAATTTTAGTTTCAGTAGCTTTATCTAAATATAATTCACCTAGCTTTGATGATATTTTCAGATCAGATTTATCTAAAAAACTAAAAGGTCTTGCATATTCAGGTCTTGTATTTTCATTAATTGGAGCTGGAATATCAGGATTTATATTTGCAAAAGTAAAAAAATAAGACTTATAAATACAAATGATCTTAATCAAAAATGATAAAGATCATTTTTTATTTTGTTTTCTTTTTTAAATACTTTTTAGCCATAGACTAATTATAAAGATAAATTTAATTTTAAAAAGACCTAAATTTTTAAAAAAAAATTAACTTAATTAATAACTATTTTTGAATAATAGAATATTTTATATTCTATTATTTTTTTATCTTTAAATAGTTGTTCAAACCACCTAAATCTTTTGTAATTAAAAAAAAAAAAAAAACCGGAATGTTAAAATGAAATTAAGAAGGGAGTTCTTATATGAACAAAGTTAGACATTTTATAGATACTCAAGAATTGAGTAAAAAAGAAATTTTTGAAATTTTCCGATTGATGAAAATGCTAAAAGAAGCTCGTTATTGTGGTGCAGTACCAGAATTGTTAAAAAACAAAACTCTAGCCATGATATTTGAAGAACCATCAACTAGAACTCGTGTTTCATTTGAAGCAGCTATGACACTTTTAGGTGGTCATGCTCAATATTTAAAACCAGGTGAATTACATCTTGGAGTTCGTGAAAGCTTATATGATACAACTAAAGTTTTATCACATATGTGTGATGGAATTATGTGTAGAGCATTAAAACACGAAACAGTTTTAAACTTAGCAAAATATGCTGATGTTCCAGTTTTAAATGGACTAACAGATTACAATCACCCAACTCAAGCAATTTGTGATGTATTTACAATGTTAGAATATATGCCAGCAACAAAAAACTTGGAATATGAAGACATTAAATTTGAAGATATTAAAGTGGTATTTATTGGAGATAGAACTAATGTGTGTTCATCAACAATGCATATTACTACAAAACTAGGTATGAATTTTGTACACATTTCTCCACAAAAATACCAAAGTCCACAAGCATGAGTTGATATTGCTAAAGAAAATATCAAACAAGCAAACAGTGGATCTGTACTAGTAACTGATGACTTAGAACAAGTTAAAGGTGCTGATATTATCTATACTGATTTATGATGATGAGTAGATCAAGAAGATGAAGCAGAAGAAAGAGTAAAAGCCTTTAAACCAACCTACCAAGTTACTCCTGAATTAATGAAAAAAGCAGGAGACCAAGCATTATTTATGCACTGTCTACCTGCTTCAAGAAATGTAGAAGTTTATGATGAAGTAATAGATTCAGATAATTCTATTGCTTTCCAACAAGCTGAAAACAGATTAACAGCTCAAATGGGTCTGTTAGTTTACTATCTATACCCACAAATTGATAAATCATCAAATGCTGTTAAAGATTATTATAGAGGTAAAGTTGAAGCATTCATGGAACACCAAGATCGTTCATGAAAACAACGTTATACATATAATAATGACTATGCTGAAAATAAAAATAAAAAATAATATTAAAATAAAAAAATATTTTTAAATATGTCTAAAACAAAAAAAGGTCTAAGACTGTTTGACATAATTGCTTTTACATTTAGTGCAGTTTTTGTCTTAGACTCATTTGCATCAGCAGCAGCAATTGGTTGACAATCAATAATTTATTGAATTTTATTAGCTATTTTATACTTTTTACCTTATGGATTAATTACAGCTGAATTAGGTGCAGCATATAGTGATAATGGTGGAATTTATACGTGAGTTAAGAGTGCTTGTGGTAACAAATGAGCTGCTAGAACTAATTGATTCTATTGATTAAATGTTGGTTTGTGAATGTCTTCAGTTTATATTGCATTCTCATCAACATTATCAAAAATCTTTTTTGCTCACGCTCCATTATCATTATGAACTCAAATAGGAATAGCTATTGGTATAACTTGAGTAACTGTTTTAGTTGGATTATTAAATTTTAAATATACTAAGTGATTACCAAACTTTTCTTCTATTTCAAAACTTGTTGTAACTATTGGTTTAATTGCAGCAGCAATTACTTGATTAGCTCAAGGAAACCCAGTATCTACAAAAATAGATGATGCTGAATTTGGAATTTTGCCATCATTTAGTAAAGGTGTTGTGTTTTTACCAGTAATTATTTATAACCTTTCTGGTTTTGAATTAGGTTCAAATACTGCAAGTGAAATGAAAAATCCTAAACGTGACATCCCATTATCAACTATTTTAGCTGGAATAACAATTGTAATTTCTTATATCATAGGAACTATTGCAGTTAATGTTATATTAGATGTAAAAACTTTAGATGTTTCTAATGGTATTATTCAAACAATTGAAAAAGTCTTTCCAGATTGGCTAACTAAAATTCTAGGTGTATTTTTACTATTTACTTTTTTTGGAAATATGATTACTTGAAGTACAGGTGCTAATAAAGCAATTCAAGAAGCAGCAAGTGATGGAGAATTTCCAAAAGTCTTTGGTACAGTTTTAAAAAATGACTCTCCATTATGAGCAACTATTATTACTGGAAGTGTATGTACAGTGTTATTAATTATTGCAGGTTTATTATCTCCAAGTGGAGAAATTTCTGAAATCTTTTGACAATTATATGCATTTTCATCAATTATATTCTTGTTACCTTACTTATTAATATTTCCAAGCTTTATTATCATTAGATACAAATATCCAGATCTAAAAAGACCATTTAAAATCCCAGGACCTAAGTGATTCCAATGAATTGTTGTAATTACTCCTATGATAATTTTATGCTTAAGTATAATCTTATTCTTATTTGGTGAAATTATGGTAGGTGCAAAAACTTGAGAATTAAGTTCAGGTGGTGGAAATGTTCTATTTGCTTTAATTGGAACTGTGATCTGTATTGGTATTGGTGAATTATTAATATGATGATCTAGTTATAAAAATAAAAAAAACTTAGCTAAAGGAGAATAGATTAATATGAGCAAAAAAATAAATTCAACTCCTAAAAAAGATGGTTTTTGAATGCCTGGTGAATGAGAAAAACATGATCAATGTTGAATGATTTGACCAGAACGTTCTGATAACTGAAGACTTGGTGCAAAACCAGCTCAAAAAGTATTTGCAAATGTAGCTAATGCTATTGCAAAATATGAAAAACTAACAATGTTAGTTTCACATCAACAATTTGAAAATGCACGTAACCTTTTAGATGAAAATGTTAGAGTGATTGAAATGTCAAATGACGATTCTTGAATGAGAGATGTAGGACCAACTATTGTTAAAAACAAAGATGGAGAAATTCGTGGTGTTGATTGAGTCTTTAATGCTTGAGGAGGATTTAAAGGTGGATTGTACTTTCCTTGAGATAAAGATGATGCAATTGCTAGAAAAGTTTGTGAAATTTGTAATATAGATTATTATAGAACTGATTTTGTTTTAGAAGGTGGATCTATTCATACTGATGGAGATGGAACATTATATACAACTGAAGAATGTTTATTAAATGAAAACCGTAACCCAGATTTAACTAAAGAACAAATTGAAGAAAATCTAAAACAATACTGTGGTGTTGAAAAAGTAATTTGACTACCATGAGGAGTTTATAATGATGAAACTAATGGACATGTTGACAACTTATTAAATGTTGTTAGTCCAGGTCATGTTGTTTTAACTTGAACAGATGATACAACTGATCCTCAATATGAACGTTCTAAATTAGCTTATGATATTTTAACAAATACTTTAGATGCTAAAGGACGTAAGATTAAAGTAACTAAATTACATCAACCAGGACCATTATTTATTACAAAAGAAGAAGCTGAAGGTATAGATGTTTGCGATACTATGTCAAGAGAACCAGAACAAAGAATGCCAGCAAGTTATGCAAACTACTATATTGCAAATAATGCAGTTATTCTACCTATTTTTGGAGATAAATATGATGATTTAGCAGTTAAAACACTTCAATCAGTTTATCCAAACCATAAAATTGAAACTGTAATGGCTCGTGAAATTCTATTAGGTGGTGGTAATATTCACTGTATTACTCAACAACAACCAACAAGTAAATAAAACTATTCTTATAAATAAATTTTATTAATAAACTACCACTCATTAAAAATAGAAACATTTTATAATGAGTGGTTCTTTTTTTAAAAAATAAATCTTTAAAGAAAGGAAGAATTGATATGTCAAAAATCGTAATTGCAATTGGTGGAAATGCTTTAGGTAATTCACCAACTGAGCAATTAGAAATTGTTAAAAAAACAGCAAAATCTTTAGTAGATTTTATTGTTCAAGGTAATGATATTGTAATTGTTCATGGTAATGGTCCTCAAGTTGGAATGATTAATAATGCTTTTGATATTGCAAATAAAAATGAAGTTAAATCTCCTATTTTAGACTTTCCTGAATGTGGGTCTATGAGTCAAGGATATATTGGATATCATCTACAACAAGCAATAGATAATGAATTAAAACTAAGAAATATTAATAAGCCAACAGTTAGTTTAATTACTCAAACTTTAGTTGATAAAAATGATGCGGCATTTTTAAAACCAACTAAACCAATTGGATCATTTATGAATGAAAGTGAAGCAAAAAAACTAGCTGAACAAAATAATTGAAATATTTCTGAAGATGCAGGACGTGGTTGAAGAAGAGTAATTGCTTCACCAAAACCAATTGATATTATTGAAAAAGATGCAATCCTACAATTAGTTAATAATTCATTTATTGTGATTGCTGGAGGTGGTGGTGGAATTCCTGTTTATTTAAAAGACGATAAACTAGTAGGAATTGCTGCTGTTATTGATAAAGATTTTGCTGCAGCTAAAATTGCTGAAATAATTGATGCAGAAAGCTTAATTATTTTAACTGCAATTGATAAAGTAATGATCAATTATAAAAAAGAAAATCAACAAGCTTTAGATCAAATAACTTTAGCTCAAGCTCAAGAATATATTGATCAAAACCAATTTGCAGCAGGTTCAATGCTTCCAAAAGTCCAAGCTGTTATGTCATTTGTTAAAAAAACTAATGGTAAACCAGCTTATATTGGTTCACTAGAACAAGCTGATAAAGTTTTACAAAATCTAAGTGGAACTAAATTTGTTAAATAATAATTTATAATTAATAAAATAAAAATTTAAAGTAGTTAATTTTTTAACTACTTTTTTAGATTAAAAAGCTCAATTATATTGACTTTAACTAATAAATTTTAGATAATAAAATAGTTAATGGCGTAGGTGGTGAAGTGGTTAACACATCAGGTTGTGGCTCTGACATGCGCGGGTTCGATCCCCGTTCTACGCCCCATTTAGAAAATAACAAACAGCACTTAGGTGTTGTTTTTTTATTTTTAATTAAAATTAGTAATCTTTTTTTATTTTTTTCTAATACTTATATGAGGTGTAATATGAGTATTGAATTTAAAGAAATAGAAGTTAAAAATAGTAGAGTTACACAAAAACCTAATTATTTAGTTGATGTAATCTTTTCAAAACAAAAATATCAAGAAGATAAAAAAGAATTTTATAAACTTTATTTAGTTATTTCTAAAAATTTACGTTATTATGATGAATCAAAATTATCTAATAATTTGTCTGATTTATTTTATTCAATTAGTTATAAAAATAAAGATAAGCTAGTTAAACTAATTAGTAATGATAAAAAATTAATTAATTATCAAATATCAACTAATAAACAAAAACAATTTATTACAATAAATATTCCAACTAATATTTTTAATAATCATCAATTAGAGTTAATTTTTGATGCTAAGTTTAAAACAAATAATTTAACTGAAGAATTTACAAACACCATTTTATTAAACAATAAAGCAACACATAATAAAAACAAGTATTTAAATAACCTAATTACTTATTATAAAAATTATGATCAATATAAAAAGAAAGCTGTTTTATTTAACCTTTTAAGTTATGAGTTAAACTACAAGCAACCTAGTTTTACAATTAATAAAAAGTATTTAAAAATAATTGATTTTGATTATAAATTTAATGTTAATTTACATAAAGATTTTAATAATAATTGAGAAATAAATTATTTAATAAATAATCTTTTAAATTCTAGAACAAATAATTTTATTCAAATCAATAAACTACAAATTAATGATTTTATTAGACCTAATAAGTACTATAAAGATTTACCTAAAGCTATTGTTTTAGATGATGGGGTTTATTTTAATAATTATTTAGAAATTAAAGATCAAACTATAATTAGTAATTCAAATACAAAAGGGTTTATATTTAATGGATTAGTTGACAATACTTTTTATTATGATTTAAAAATTTTTGATAACATACTAAACTTTAAAACTAAAATAAATAGTTTGAAATTTATAGATTGTAATGATTGTAATTTAATTAATCCAAACATTAGTAAATATCTTTTTTCAAAAGAGTTCTTTTTAAATTTAGAAGTTCATCCTAATTTAGAAAGTGAGTTAAATAAATATGAAGTTAAGTAAAAATTTTAAAATTTTAATTATGTTCATTTTAATAGTTTCATGTATTTTATCAACAATTGCTTCTATTTATTTTTCAAATGTCTTTTCATTAAACAAAAATAACTTATTAAAACAATCAATAAATATTACTAAACCAATAATTGATAATTCTAAATATTTAAATAAATTATTAACTAATGATAATAAATTAAATATTAATTCATTTAAAACTATCTTTTTAAAAGAGTTAAAAAAACAAAATAAAGAGCTTTTTTTACTTGATGATTTAATAACATTTTCATATGATAATACTAGTGTTAGTGTTGAATATCAAAACTATAAATGGTCTTATAAAATTGTATATAATTAAATAGAGAAAGCTTAGGTGAAATAATGGCTATTTATAATCAAATTGTTAAAGAATTAAAAAGTAGAGGTGCTAAGGGTAATATTACAAAAGATAGCGAATTCAAATCTCTAGGTTTAGATTCTTTAGATTTAATGGATATGGTAGTTACATTAGAAGAAAAATTAAATATTAGAATCAGTGATGACCAATTACTAAGCTTACGTACTATTGATGATTTATTAAAAGTAATAGAGGAATTACAATAAATGATTCATTTATCTAAAACTCAACAAACTAAATATAAACAAATAGTTGAAAAATTAAAATTAAAAAAAATTAGACTAACAGATATTAGAAGCATTGTAATTAAAATGCTAATCGTTTCAGATCATTTAACTATTCAACAAATTATTAATAATTTGGAATCTGAAATCAATAATATCAATGTAATGAGTGTTTATAATACTATTGATTTATTATTAAAAGAACATATTGTTTTTGCAAATACTTTTAATGGTAAAGATATTTCTTATGAAATAGCAGCAGATAAATCGGTGCATTTGAAGTGTGATGATTGTTTAAAAGTAATTCATTTAGATGATAAAAGTATTGAAAATTATCATTTTTTAGAGCTATTAGATTTGTGTGAAAAAAATGGTATTAAGCTAAGTCATTTTAAAATTGAAGGCCATGGCTATTGTTTAGAATGTTCTAGTAAAGAAAATAAATAACTTTAGTTACTAATGATATGTGTTTAACCTTGAAAAACTTATTATTTGACTTTATAATATAATAGAAGTTTTAATAGGGGCATAGTTCAGTAGGTAGAACATCGGTCTTCAAAACCGAGTGTCACGAGTTCGAGTCTTGTTGCCCCTGCCATTTTGAAATTAAATCACACTTTGTGTGATTTTTTTATAGGAGAGTAGTTCAATGGTAGAACGTCGGTCTCCAAAACCGAGCGTTGAGGGTTCGATTCCTTTCTCTCCTGCCATAGAAAATTAAAAAAAACTGGATTAGTCCAGTTTTTTTATTCTTCTATTGCAACAAAACCAATTGTTTCAACTCCTGCATGAATAGTATAAATGTTTGGTACATTTCCATGAACAAAATTTATTTTTTCATCACTTAGAATTTGTTTTACAATTTCAACAGTTTTACTTGATGTTAGAGGGGTTGATAAAAAGTATAGCTTGTATTTATTCTTTTTAAACTTATTAGAAAGGTTTTTAATTAATTTTTCAATAAGACTATTATAAGTTCTACCAATAGCTTCTTTTTTAGGTTCTTTTGCTCAAATGATTAATAACTTAGTTTTTAAAAGATTTAAAACAGTTGTAATAACTCCTTTTGCTCTTCCACCATTTGATAGTTTTTTTAAATCTCCTGGAATAATAGCTATTAAAACTTTTTCTTTAAAGTTATCAATAAAGTCAATAGCTTGTTGTGCAGTTTTAATTTTATTACTTTTAATAGCTTTTGCTAAACTTAAAGCAGTAAGAGCAATACCTTGAGCAGCAAGATCATTATTTTGATAAACTGTTATTTTATCTTTATACTTTTCATCTTGACTTACTAGAGTTGCAGTTTGCAACATTGATGATAAATTGTTAGTAATTGGAATATGAATAATATGTTCATATTGTTCTAATAATTCATCATATTTTTTTTCTAGTTCACCAGGGCTTGCTTGACTAGTTTTAATGTTTTCACCCATTGAAACTTTTTCAAGTATTTTTTCTTGTTCAACAATATTTTTAATATCTAAATATTCATCATTGTTTGGAAAAACGATATGTAAAGGAATTACATCAATGATTGTATTTTTAAATTCAGCTGGATCATAAACAGCAGCACTATCAACTAATATACCAAATTTCATTTTACCACCCCTATTTCTTTCAACCAACTAAAGCAACAGTATCAGTTCCAGTGTGTGATGCTATTACATTTGTTAGTTCAGATTTTAGTCTTATTTCTAATTGTTCTTCTTTTATAATAGTTTCAATCAATTCTAAAGTTTTTTCATCGGTTCTAGAATATGAAATATCTATTGTTTTTAAATCTTTAATTTCTTCTTTTAATAAACTTAAAGCTTCTTTTAAAGCTTTTTTAAAAGTTCTAGCTGTTGATTGTTTGTCAATACTTCCATCATATTTTAAAATGGGAGTAATTTTTAAAATTTTTGCTAATGCAGCAGCAGCTGGAGAAATTCTTCCACCTTGTTTTAAAGTATCTAAATTTTTTGGAATAATATAAGTTACAAAGTCATTAGCTAAATATGAAACTAAATCACAAATTTCATTTGCAGGTTTATTTTGTTTAATTCATTCAAACACTTTATTAACTACTTCTTGCATAATTACACTAACTGCACTAGTATCACAAACAAACACTTTATTTTCATATTTTTCTTCAGTTTGTTGTAACATTTTAAAAGTGTTGTATTGTCCACTTAATCCTTTTGAAATTGGTAAAAAGATCACTTGATCATATTTAGTTAACAAATCGTCTCACATTTGTAACATATCTCCAGGAGTTGTTTGACTTGTTTTTAAAACCTGACTGTTTAAAAGGTTATAAAACTTGTCTTTTGATAAATTTTCATCATCATAATATGTCTGATTATCTTGAGTTACGATCATTAAAGGAATCACATATAAATCTTTATAATCACTAACTCTTCCATCAAAAGATGAATCAGTAAGAACCGCTATTTTTATATTAACCACCTATTTCTATTTCTTTAATTAAATTATATAAATTGATATAATATAATACAATGGTAATAAGGAGGATATTGACTGTGAATAGCATAAAATTTGGAATTTTTTATAGTAAACAGTTCAATAGTTTATTAGTAAGCTTTTTTAATAAAAAAGTTACATCCACTCAACAAATAAATAATATAACAATATTAAAAAATAATGATGAAATAATTGGGGCAAATATTTTTAATGTAGATCCAAATTTAAACTTAAAATCAGGTTTTTGTTCTGAAGATCCAAAAGCAGTAAATTATGTTATTCAAGCTTTAAAAAATATATATGAAGTTAAACAAGAACTTCAATTTGTTATTGGAAGAATTATTGAATGTGAACCTATTGAAGGAACTCATTTAAATATTTGTCAAGTAGATATTAAAAGTGAAGTTTTACAAATTATTTGTGGAGCAAGTAATGCTAGAAAAAAAAGTAGTATGTGTTGTTGCTACTCTTAATAGTTGATTACCAAATGGCCAACAAATTATTCAAAGTAAAATTAGAGGTGTTGATTCATTTGGAATGTTATGTAGTTATAAAGAGTTAAATATAGAAAATGATCAACAAGGTATTATTGAATTAGGTAGTGAATATAATAATAAAATTGGTGAAAGTTTTTGAAAGGAATATTATGCAAAACAAGACCAAGTTTAAATTTGACTCTAGAGTAAAAGATGGTTATTTTATTGCTGATTATTTTAAAAAAACTGTTGAAATATTAAAAAACTTTAAACACGATCAAATAATAACAATGCAATTTTTTCAAAGAAATGATAATGTTGTTTTATGTGGGATTAGTGAAGTTATAGATCTTTTAAAATTTACATCACCAAACTATGATGATTTAGAAATATATGCTTTAAATGATGGAGATATTATTAATAGTAAAGAACCAGTTTTAAAGATTACTGGAAAATATCAAGATTTTGGATGATTAGAAGGAATGATTGATGGAATTTTATCAAGAAATACTTCTATAGCAACTAATTCAAAACAAATTATTGATGCAGCTAGTCATAAAGATGTTTTAAATATGTTAGATAGAGCAGATAATTATTTAACACTAGCTAGTGATGGTTATGCTTCTTATATTGGTGGGTTTAGATTGTTTGTAACTCAAGCTAGTTTAGAATATATTGATGATAAAACTGTTTTACAACCATCAGGTACAATGCCTCATGCATTAATTCAAGCTTTTAATGGAGATACTTTAAAAGCAGCTGATGCCTTTTATAAAACTTATCCAAATAATAACTTAGTTGTTTTAATTGATTATGATAATGATTGTGTTAATATGGCAACTAAAATTGGAAAACATTTTAAAGAAAAATTATATGCAGTTAGATTAGATACTTCTGAAAATTTAGTTGATAAATTTTTTATAAATAACAAAGATTATATTAATCAAACTAATTTAAATGGAGTAAGTGAGCAATTAGTTAGAGAAGTTAGAAAAGCATTAGATAATGTTGGATGTAATCATACAAAAATTATTGTTTCATCAAGTTTTTCAGCAAACAAAATTAAAGAATTTGAAAGTAAAAATGTTCCAGTAGATATTTATGGAGTTGGATCTGCTTTAGCTAAAATAAATATTCACTTTACAGGAGACGCTGTTTTAATTAATAATCAAAAACAAGCAAAATTTGGTAGAGAAAATATTGAAAATCTTAGATTAAAAAAAGTTAAATAGGAAGTTTTATGAAAAATAGTATATTAGAAGAATTGAAATGAAGAGGGTTAATTAAACAAATTACAAATGAATCTAAAATTTTAGATGCTCAAAATAATAATGATGCAGTTTATTGTGGGTTTGATCCAACAGCAGATTCACTACATGTTGGTCATTTAATGATGATTATTACTTTAAAAAGATTTGCAGATTATAACTTTAAACCAATTGCTTTAATTGGTGGAGCTACAGGAATGATTGGTGATCCATCATTTAAAGCTAATGAAAGAGTCTTACAAACAAAAGATCAAGTTGAACATAATATTAATAAAATTAGTGCTCAATTAAAACAAATAATCCCAAACGTTAATTTTGTAAATAATAATACTTGATTATCAAATATTAGCTTAATTGATTTTTTAAGAGATATTGGAAAGCATTTTAATTTAAGTTATTTATTAGCAAAAGAATCAATTGCTACAAGAATTCAAACAGGTTTATCTGTAACTGAGTTTTGTTATACTATGCTACAAGCTTATGATTTTTATTATTTATATAAAAATAATAATTGTAGTATTCAAATTGGTGGATCTGATCAGTGAGGAAATATTACTAGTGGTATTGATTTTATTTCTGATACTATTAATAAAAATAATAAAGCAGCAGGATTAACTATTAATTTATTGACTAAATCAGATGGTCAAAAGTTTGGAAAAACTGAATCTGGAGCTGTTTGATTAGATAAAACTAAAACTAGTGAATATGAATTTTATCAATTTTGATTTAATCAAACTGATGAAGATTCTATTAATTTATTAAAATGTTTAACGTTTTTAACAAAAGAGCAAATTGATAATTTAATAAAAGAACATCAAAATCAACCTTCAAAACATCTATTACAAAAAGCTTTAGCTAGTGAAATGACAAAATTTGTGCACCAACAACAAGGATTAGATAAAGCTCTAAAATTAACAGAAGCTTTTTTTAGTGGTGATTTATTTTCATTAACTGATGATTTATTTAAAATGGCTTTAAATTCTTTACCAAATACTCAAATTAATAAAGATACTAAAGTAATTGATGCTTTAATTGAAGTAAAAGCTGCTAGTTCAAAAAGAGAAGCTAGAGAATTTTTAACTAATAAAGCAATTATGATTAATAATCAAATAATAGAAGATGAAAACACTTTAATAAGTAGTTTTGATTTAATTCAAAATAAATATTTATTAGTTAAAAAAGGTAAGAAAAAATATTTTGTTATTTTAATAAAATAAAAATCTAAGTTACTTAAAACTTAGATTTTTTTGTTTATATTTTCAAAAATATTATTAATTTATTGTTTTTTTTATAGTTTTATAATTTGTTTAATAACTTATTTTTTGATATTTTTTAAACTTATATCTCAACTTATAACTAGTATTATTTTAAAACTATAAAAAACTCACTAAAATTAATATAAGGAGTAATATGAACTATATATCTTTATTAACTATTAAAAATCAATATGATTTTTTAGAATCTTTAATTACTATTGATCAATATATAGAATTTATTAAAAAAAATAAACTTAGTTATGCTTTTTATAGTGAAACTCATACTATGTATGGTGTTGCTGAGTTTTTTAAAAAAGCTACTGATAATAACATAAAACCAATAATTGGTTTAACAATTGAATTTGAAGATTCTACTAAACTAATAATTTATGCTAAAAACAAAAAAGGTTATCAAATTCTTAATTTTGTTTCTAGTTTTTTAAATGATGGATTTAATCATTATGATTATGAAATTAAAGAATATATTTTAGAACTAGTTAATAATAATGTAGTTGTTGTTGGATTAATTAATGATCTAGATTTTAAAACACATTTAATTAATAAGTTAAATAATGATTTTTATGATGTTAAAGAATTAAATTTATATTTTAATCAAATAAGTTATTTAGATATAAATGATCAAAAAACTTTTAATATTTTAAATGCGATTAAAACTAATAAAACAATAGATCAAATTCAAAATATTAATAATTATTTTTATCCAGATAATGATTATTTAATAAAAAATTATTCATTAGAAAATATTAAAAAAGTTATTAGTGAAATTAATTTAAAAGTTGATTTTAACTTATTTGATAGTAATGAAAAACACTTAGTAAAATACAAAAATATAAATAACTTATCTTCTTTTGAATATTTGCGTCAAGTTTGTTTATTGTCATTAAAAAAATATCAACAAAAAATTAAGCCTTATTTAGATTTAAAACTATATATTAATAGATTAAATTATGAATTAGAAGTTATTAAACAAATGGGGTTTAGTGATTATTTTTTAATAGTTAGTGATTATGTAAATTTTGCAAAAAAAAATGATATTTTAGTAGGTCCTGGTAGAGGAAGTGCTGCTGGTAGTTTAATTAGCTATTTATTAAGAATTACAGATATTGATCCATTAGAATATGATTTACTATTTGAAAGATTTTTAAATCCAGATCGTTCTAATTTACCAGATATTGACTTAGATTTTCAAGATAATAGAAGAGAAGAAGTTTTAGAATATTTATTTGAAAAATACGGTAAATATCATGTTGGTATGATTACAACTTATCAAACTATTGGTTATAAAATGGCTTGAAGAGATGTATGTAGAGTTTTTAATATTGATTTATTAATCGTTAATAAAATTTCTAAAGTTTTAGATCAATACACAAATTCTGATTTTTTAGAATTTATTAAAGAAAATAAATTATTAAATGATTATTTTCAAAATGATTTATTTAAAGAAATATTTATAACAATGGATAAAATTGTAGGCCTACCACGTCAAACATCAACACATGCAGCTGGAATTGTATTAACTGATTGTGATTTAAGAGAACTTGTTCCTATTAAAATTGGGTTTAATGGAATTAATCAAACTCAATTTGATATGAATTATTTAGATGCTTTAGGTTTAATTAAAATGGATATTTTAGGGCTAAGAAATTTAACCACTATTCAAGAAATTAAACACTTAATATATTTAAATCAAAACTTAAAAATTAGCTTAAATAAAATTGATTTAAATGATAAAAAAGCTTTTGAGCTTTTAAAAAATAAACAAACCTCAGGAATTTTTCAACTTGAATCAAAAGGAATGACTGATTTAATTTCAAAAATGCAAGTTGATTCTATTGAACAAATTTCAATAGCTTCAGCTTTATATCGTCCAGGTCCTCAAGAAATGATTCCTATTTATTTAGAAAATAAAAAAACTAATAAGTTTAAAATCATTGATAAAAGTGTTTATGAAATTTTAAAACCAACTTATGGAATTATTGTTTATCAAGAACAAGTGATGCAAATGCTTAATAAAGTAGCTAATTTTTCTTATGCAAAAGCAGATATTATTAGAAGAGCTATGAGTAAAAAAAATAATAAAGTAATGCAATCAATGAAACTAGAATTTATTAATAGTGCAATTAAGAATAATTTTTCTTATAATAAAGCTAATTTAATTTGAAATTGAATTGAAAAGTTTTCAAATTATGGATTTAATAAATCACATTCTATTTCTTATTCTTATATAAGTTATTGATTAGCTTATTTTAAAGCTCATTTTACAACTGAATTTTATACTAGTTTATTAGATCAAAATATTGGTAATGAAATCAAAACTCAACAATATATTAAAGAATTATATGATTATAAAATTAAAGTTAATAAGCCAAGTGTAATTAATTCTAATTTTAATTATCAAATTATAAATAAACAAATTTATATGCCTTTAACTTGTATTAAATCAATTGGTTATGAAGTAGTTAAAAAGATTAATTTAGCTAAAACTGAAAATGAAAATATGTATTTAGATATTCATAATTTCATACTAGCTATGATTAAACAAAAAATTAATGTTAATGTATTACAAACCTTAATAAAAGCTGGAGCTTTAGATATTTTTAATTATAATAAAAAAACAATGATAGAAAATCTAGATCTATTAATTAGTCAAGCTAATGCTTATAAACAAGTTAATAATATTTTAGATGATGAAAAAATTAATTTAATTATTTATGATGAATATGAAGATGAGATTCTAGCAAGCTTTGAAAAAGAATTATATGGTTTTTTTATTGACCAAAATCCTATTTTAAAACTTAAAACTAATAATTTTAATTTAAATCTTATAGATATTTCTAAACTTGAATATAATAAAGTACAAGTGATTTTAGGTTATATTTTAAAAATTAAAGAAATTAAAGATAAAAATAACAATAAAATGGCATTTGTAACAGTTTTTGATAACACTAGTGAAGTTGAACTAACAATTTTTAGTAGTGATTATAAAGATATTTCTGATCAATTAATAGAAAATAAAGCTTATGTTTTTAAAGTATTAAAAACTAAGACAAATAATAAAACTTCAATAAAGTTTATTAGTTTAATTAAAGCTATTTAGGAGGTTATATGAAAACTAAAATTTTAGTAGTAGATGGTAATTCTTTGATTTTTAGAGCTTTTTATGCAACTGCTTATTCATCAAATAGTAATTTATTAAAAACAAAAAGTGGTGTTTTAACAAATGCAGTTTATTCTTTTATTAATATGTTATTATCTGTAATTCATCAAAGAGGACCTTATGATCATATTTTAATAGCATTTGATAAAGGTAAAAAAACTTTTAGACACGATTTATTAAGTGATTATAAAGCTAATAGAATTAAAACTCCTAACGAATTAGTTGAACAATTTAGTATTGTTAGAGAATTTTTAACAAAAGCAAACATTCAATGATTTGAACAAGAAAACATTGAAGCTGATGATATTGTTGGATCAATTTGTAAATACGCTGAAAAACAATTTGATGATTTAGAAGCTGAAATTTTAAGTAGTGATAAAGATATGTATCAACTAATTACAAATAAAGTAATTTGTTTAAACCCAGTTCAAGGAGTTAATGAACTTGAAGAAGTTGATACTAATAAATTGTTTGAAAAATGACAAATTTCACCAAACCAAGTTCCAGATTATAAAGCAATAGTTGGTGATTCTTCAGATAATTTAAAAGGAGTTAATGGGATTGGGCAAAAAGGAGCTATTAAATTAATTCAACAATATCAAAATTTAGAAAATATTTATAATAATTTAGAACAAATAAAAGGTGCTATTAAAACTAAATTAGAACAAGATAAAAAAATGGCTTTTTTATGTAAAGATTTAGCAACAATTAAAACTGATGTAACTTTAGAAAATTTTTCTTTTAAAAAATTAGATTTTAATGTTGATAATATTTATGAGTTTTTAAATAAATATGAAATGTATTCTTTAAAAAAACGCTTTACAAATATTTTAAATCTTGATTTTAATCCTTATCAGAATAAAAAACAAAATTTAGATGTTAGAATAATTAATTCTTGATCAAAAGATTATGAAGATTCTATAAATTATTTATATGTTGAATCATTAGAAGAAGATTATCATAAAGATAAAATTATTGGAATTGGTATTTCAAATAATAAAGGTAATTTTTATTTAGATTTTAAAAATAAAGCTCAACAATTATCTTTTTTTGAAGATACAACACTAAGTTCAATTGATAGTTTGTTTGAAGAATTTTTAAATAATTCTAATTTAAAAAAATATACTTATGATATTAAAAAAACTACTTATTTATTAAAAAATCACAACTATAATGTTTTAGCAAGTAATTTTGATTTTGATTTTATGGTTGCTTGTTATTCTTTAAATGCTAATGTTGTTTCTGATTTATCTAATCAAATTAAATTAGTTGATAATTTCATTGAATTAGAAACTATTGATGAAATTTTTGGAAAAGGTGTTAAAAAAAATCCAGATATAGATCTTGATATTAAATCTAAATATATTAGTAAAAAAGCTTATTTATTAAAAAAATATTCTGATCAATTAATTGAACAATTAAAACAAACTAATACTTATGATTTATATTTAAAAATTGATCACCCTTTAATTGAGGTTTTATATGATATTGAAGTTCAAGGAATTTTAATAGATAAAGAACAATTAAAACTACAAACCCAACAAATATTAAAAAAAATAAATCATATTGAAGGACAAATGAAAATTTTAGTCGCTGAAGAAATTGATAATAATTTTAATTTTTCTTCACCAAAGCAAATTCAAGAATTACTATTTGATAAATTAAAATTACCTAATTTAGAAAAAGGTACTACTAGTAAAGAAGTTTTAGAAAAATTAATAACTTATCATCCAATAATCAATTTATTATTAGAACATAGAAAATATACTAAGTTATATACAACTTATTTAAAAGGTTTTGAAAAATTTATTTTTGATGATAATAAAGTTCATACTATTTTTAATCATACTTTAACAAATACTGGTAGATTAAGTTCTTCTTATCCAAATATTCAAAATATTTCTATTAGAGATAATGAACAAAAAGAAGTTAGAAAAATTTTTATTACAAATAATAATAAGACTTTTTTAAGTTATGATTATTCTCAAATTGAACTAAGAGTTTTAGCACAAATGTCTAAAGAAACAAATTTAATTAATGCATTTAATCAAAATGCTGATATTCACTTACAAGCTGCCAAATTAATTTTTAATCTTAGTGATGATCAAATCACAAGTGAACAAAGAAGAATAGCTAAAGTTTTTAATTTTGGAATTTTATATGGTTTAACTGATTTTGGTTTAGCAAGTGATTTAAATATCAGTGTTAATCAAGCAAAACAAATGATTAAAGATTATTATTCTGCTTTTCCAAGTTTATTAGAATTTAAAGAAAAGCAAGTAGAAATAGCAACAAATCAAGGTTATATTACAACTTTATCCAATAGAAGAAGATATATTAATGAATTAAATTCAACAAATCATAACATCAGACAATTTGGAAAAAGAATAGCAGTAAATACACCAATTCAAGGAACTGCTTCAGATATTTTAAAAGTAGCTATGATAAGTATTTATAAAAAGTTAAAAGAACAAAATTTAGATGCTAGAATTGTTTGTCAAATTCATGATGAAATTATTTTAGAAGTTGATGATAATCAATTAGAACAAACTAAAAAAATTGTTGTTAGTGAATTAGAAAATGCTTTAGAAAAACTATTTTTAGATCTAAATATAAAAGAACAAGTAGTTGTTAAATTAAAAGTTGGAGAATCAGTTGGTAAGACTTGATTTGATCTAAAATAGAAAGGTTAATATGCCAGAACTACCAGAAGTTGTTACAGTCACAAATACAATCAAACCAAAAATTATAAATAGAACTATTTTAAATTCACAAATATTTACAAATAAAATCATTTCTTCAACTAGTGTTGATCAATTTATTAATTTAACAAAAAATCAAAAAATCTATGATGTTTATAATCTAGCAAAATATATTGTTATTGAATTAAAAGAACACGTAATTATTTCTCATTTAAGAATGACTGGTAAATGAGTAATTGAAAATTCTGATCAATATGCTTATAAAAAGTCATGATTAAGAGCTGAATTATTATTAGATAATAATTTAGTTTTTAGATTTTATGATATGCGCGGATTTGGAACTTTAAATCTTTATAATAAACAAACTTTTTTAAAAGACTCACATTTAGATAAATTAGGACCAATTCCTTTAAATAATCAAACTAGTGTTGATTATTTATTTAATAAATTACAAAAATCTAATAAAGCTATTAAAACAGTTTTACTAGATCAACACGTTATCAGTGGATTAGGAAATATTTATGTTAATGAAGTATTATTTTTATCAAAAATTAATCCTTTAACTAATGCTAATTTAATAACAAAAGATCAAACTAATCAAATTATTAAAAATTGCGAAACTGTTTTAAGTCAAGCAATTTTATTAAAAGGTACTACAATTAGTGATTTTGAATCACTTCCAGGAATAACTGGTGGTTATCAAACTAAACTTTTAGTACATATGAATAATAAAAATTGTAAAATTTGTGATACTAAAATTTCTAAAATAAAAGTTAATGGAAGAGGAACATATTATTGTTCAAAGTGTCAAAATTAAATGTGGATAAGTGGATAAGATATAGATAACTACTATTTAAAACTACTATTTATAACTTCTAACAAGCAATTAATTACCAATTAAAAATAATTGCTTTTTTTCTTTTAAAAAAAATATAAACTTAGGTATTATAACTAGTAGAAAAGAGGTAAAGATATGTTAAGTAAGAACTTTTCTTATTCAGTTAGTTTAAATTTTGAACTAGACCAAGAACAATATAAGTCTTTAACTTGTTTATATCAACCTCTTATTAGTGCTCAAGCTATAAGTTTATATTTAACATTAATTCAAGAAGTAAGAATTAGTAACATTTTAAAAGAAGAAGCCTTAGAATCAAAAAGATTATTAAATATCACTAATTTTTCTTATAAAGAATTAATTAAAACACTAGATTTATTAAATGCTTTTAAATTAATTAAAGTTTATGTTAAAAAAAGTGATTATAGTTTAATTAAATTTGAAATTTTAGCACCACTAAAAAGTGATGAATTTTTTAATCATACATATTTAAATAATTTATTGTTAAATAAATTAGAAGCAAATGATTATGAAATTACAAAATTTATGTTAGTTAATGAAACTAAAATCAATACTAATCAATACCAACAAATAGTAGTTGATTTAACTGATATTTATGATCAAAGTTTAATTGCTGATATTAATATTTTTGATACTGAAGTTAATAGTTTTAATACTTATTTAAAAAAATTAAACCAATTAATAAATGTTGATTATGTATTAAATAGTTTAAAAGATAAAAATATTGATTTAGATTTTATTCAACAAAGTACTTTAAAAAGTTTATATGATTTATTAACTATTAAAAAACCTAGTGAAGATCAAATTATTTATTTAATTACTAATTCTTATGATTTTATAAACAAAAATATTGATATAAATATTTTTAAAAAATTATTAATTAATTTAATTACTAAAAAAGAAACTAATTTTGATAATAAAGAATTACTTGATTTAATAAATCAAACTACTTGATCTGAATATAGTAAGAAAAAATATGATATTGATCTAAGTTCATATACAACTGTATTTGAAAATATTAAACAAAATTATTGTTTATCTAATGGAATAATTAATTGTTTAATTGATTTTTCTTATAAAAAAAACAATGGTCAAATTATTGTTAAATATATAGCAAAAATTGCAAAAACTTTATTTGATAAAAACATTAACACTACTTTAAAAGTAATGCAATTTTTAAAAAATATTCAATCTAAATCTATAAATTATAACTATGAAACAATGTTTGATTCTAATGATTTTAACTTACAAACTGAAGCTATTTTTGAGTTTAGTGAAGAAGAGTTGAAGTGTTTAGTATAGAAAGTATTTATGAAATTAAGTGATTATAAAAATAATGTCAAAATTAAAAAATTAATTGAAGATTCACAAAATTCAAATGACATTATTACTGATAAAGTTTTATTAGAAAATCAAAATATTTTAGATGAATTTTTATTAAACTATAAAGAATGTAATTTAGATACAAAATGTGAACAAGTAGTTAAAAATTATCAAGTTGATTTAGTTTTTAAAGACCATCAGTTCTATTTAAAAAATGTTTTATGTGTTCATGGAAAACAAACAGAAAAACTATTTATTATTAAAAAAAATTATTGATTTTGTGATTTTGATTTAAATTTATTTCATTTAACTATTGATGAATATTTTAATACTCAACTAAATAATGCATCATTTACTTTATTAGATCAAAATGAAAAAAATATCCGTAAAACTATTTTAAAAACAATTATTAAACAAATACAAAAAGGTTATAAAAAAGGATTTTATTTATACGGTAATTCAGGAGTTGGTAAAACTTATATTTTTAAAGTTTTAGCAAACACTTTAGCTAGTAAAAATAAAACTGTAATTTTTTCAACACTAAGATCTTTAATTGATAAATTAAAAGAATCATTTAATTCTTCAGAAATTAATTCTTTAACATTAATTAAAAAAATTAAAACTGTAGATTTCTTATTTTTAGATGATATTGGAGGAGAAAATTTAAGTTTATGAGCTAGAGATGATTTTTTATTTGAAGTATTAAACTATCGAATGGAAAATCAAAAACCAACTTTTTTTACTTCTAATTTTTCTATTGATTTATTAGAAAAAAATTTACAATTTACTAAACAATATAATAATTTTTTAACTACTCAAGATGTTTTTAAATTAGAAAAAATTAAAATTGATCGTTTAATTTCAAGAATAAAAACTCTAGCAAAAGAGATTAATTTGACAGGTAAAAACAAAAGACAAACCAACTAAAATGCTTTTATTTATAAATATTCTATAAATTTATTTGTATAATTTAAAATGTTATAATTTTTTTATATGAATGAATTAAACAAAAAGAAAGGTAACTAACATGTCAAAAAAAGTTGCAATTAATGGATTTGGTAGAATTGGTCGTTTGACATTTAGACAATTATTTGAAAAAGATATTGAAATTGTTGCTATTAATGATCTAACTGACACTAAAACATTAGCTTATTTATTAGAATTTGATACAGCTCAAGGAATCTTTTGTGAAGGTGAAATCTCACATACAGATAATTCAATTATAGTTAAAGGAAAAGAAGTAAAAGTATTTGCTGAAAAAGATGCTTCTAATTTACCTTGAAGTGAATTAAAAGTTGATTTAGTAATTGAATCAACTGGATTTTGTACAGATAAAGAAAAAGCTTCAGCTCACATTAAAGCAGGAGCTAAAAAAGTGGTTATTTCAGCTCCAGCAACTGGAGATTTAAAAACTGTTGTTTATGGGGTTAACCACAAATCATTAACTAGTGATGATGTAATTATTTCTGGAGCATCATGTACAACTAACTGTTTAACACCATTTACTAAAGCTTTAGATGATGCATTTACTATTAAAAAAGGATTTATGACTACAGTTCATGCTGTAACTAATGACCAAAGACTATTAGATTTAAATCATAAAGATGTACGTAGAGGAAGAGCAGCTGCTTGAAACATTGTTCCATCAACTACTGGAGCTGCTAAAGCAGTTAGCTTAGTATTACCTCATTTAAAAGGTAAATTAGATGGATATGCATTACGTGTGCCAACTATTACTGGATCAATTACAGATTTAACTGTTGAATTTGAAAATCAAGAATTAACAGTTGAACAAATTAATAATGCAGTTAAAAAGGCATTAGAAAGTGATGCTGATTTAGCAAAAGCAATGAAATATGAAACAAAACCTATTGTTTCATCAGATATTATTGGTTCTAAATATGGATCTATTTTTGATGCTACTTTAACAAAAGTTATGAATGTTGATGGAAAACAATTAGTTAAAGTTTGCTCATGATATGATAATGAAAGTTCATACGTTTCACAATTAGTAAGAATAACTATTTACTTTATGTCATTATAAAACTAAAAAATCTAAACTTTTTATTATGTTTTAATAAAGGTTTAGATTTTGTTTTTTAATTATGAATTTATTTAAATATAGTAGAATAAGTATAACTACTATAAAAGGAGAAAATATGAATTACAATAACAAAAAAACATTAAAAGACATAGATGTTAAAAATAAAACTGTATTAGTTCGTGTGGATTTTAATGTACCAATTCAATCTGGAGTTATTACTGATGATAATCGTATAATTGCTGCTCTTCCTACTATAAATTACTTACTTGAAAATGATGCAAAAATTGTTTTATTTTCACACTTATCAAGAATTAAATCAAAAGAAGATAAACTAAAAAAATCTTTAGCTCCAGTTGCTAAAAGATTAGAAGAATTATTAAATAAACAAGTTAAATTTATTAATCAAACTAGAGGACAAGAACTAGAAAAAGCTATTAGTTCACTACAATCTAAAGAAATTATTTTAGTTGAAAACACTAGATTTGAAGATGTTTTAGATGATCAAGTTGTTAAGTATGAATCAAAAAACAATCATGAATTAGGAAAATATTGAGCTAGTTTAGGAGAAGTTTTTGTAAATGATGCTTTTGGAACTGCACATAGAGCACATGCTTCAAATGTTGGAATTGCTTCAAATATTAAAGTCTCAGCTATTGGATTTTTAGTTGAAAAAGAACTAAAAATGTTATCACAAGCAGTTAATGAACCTAAAAAACCATTTATTGCTATTTTAGGGGGAGCTAAAGTTTCAGATAAAATTGGTGTTATTGAAAATTTATTACCAAAAGTAGATAAATTACTAATTGGTGGGGGAATGAGTTATACATTCTTAAAAGCACTAGGAAAAACTATTGGTAAATCATTATTAGAAGAAGATAAAATTGATTTAGCAAAACATTATTTAGAAATTGGTAAAGATAAAATTGTAGTACCTGTTGATACTGCTTGTGCAAAAGAATTTGCAGATGTTAGTCCAACCATTTTTGAAGGAAATATTCCTGATGAATGAGATGGATTAGATGCTGGACCAAAAACAATTGAATTATTTAAACAAGAAATTAAAAAAGCTAAGACTATTGTTTGAAATGGACCTGTTGGAGTATTTGAATTTAAAAACTTTGAAAACGGTACAAAATCAGTGTGTCAAGCTATTGCTGAACAAACACAAAATGGTGCATTTACTTTAATTGGTGGTGGAGATAGTGCTTCAGCTGCAATTAATATGGGATTTAAAGATAAATTTTCATGAATTTCAACTGGTGGAGGAGCTTCGCTTGAATTTATGGAAGGAAAAGAATTACTAGGTATTTCTGCAATTCAAGATAAATAATTTTAATACTAATTAATGGATTAAAAAACTCACTTTATAGTGAGTTTTTTATTGCTTGATATATTCTTTATTAACTAATATTTTAAACGCTTCCTGACACTTTAATCATTTAGGAAGTATAGAACCTCCTGTTGAATAATCAGGAATAGATATTTTTCCTAACTGAGGAGGCATGGGTTTTCTTCCTAACTGAGGAGGCATGGGTCTTCTTGCTAACTGAGGATATTGAGGACATTCTTCTAATATAGCTATTAACTCTGATTCAGTTATTGGTGTGGGTATTATTTTTAATCTTTTATCTGATTTGGACCTTGTTATGGGTTTGACATCCAATTTAGGTTTTATTTCTGGTTTTATTAATATTTTAGAAGTTGTTTCAGGATTTGTTTTAGTGTCTTTTTCACTATTGTTTTTATTAGATTTTATTTCAAAATCATAATCATCATTCTTATTATTATTATTATTATTTAATTTAGAATTTGTTTTATTTCCGCAAGCAATTACAGTTAAATTAGTTGAAGCTATTAAACCTGTTAAACATAGTAAAGTTAGTATTTTTTTCATTTAATCCCCCATCAGAAAGCATTTATTTCATATACATAAATGTTTTATTTTAGCTTTAACATCATATATAATATCAGGTTCAAAAAATACATTTTTTGTTTAAACAAAAATATCTAAAAACTAATAAAAAAATAATAAAAAACTAAATCAATTGTAGACTTAGTTTTTAAAGTTAATTATTTTTATTTAAAGAAATCTTGACTTGCTAGTTTTTTAGTTTCAGCACTTGCTGCAAAAGGAATTCTAGTTGTGTAATGCATTTTAGCAGCAACTATCATTTTAGCTGGTCATTCATTAATTGAACGGTTTCATTGAAAAACAGTATCATTATAAAGATCTCTAGCTGCAGTAATTTCTTTTTGTAAGTATAAGTTTTGTTGTAAAGCTTGTTTAATTGATTCATGAGCTTTTAAATCAGGATAATTTTCAATTTGTAAATGTAATCCTCTAATAGTTGTATCTAATTGAGATGCAACATCAGATCTATTTTCATCATTTACATTAATTCCAGATCTATAAGCTGCAACTGTTTTCATAACATCTTTATCTAGTTCGATTGATTTAGATAATAATGAAGCTAAATTTTGCATAACAACAGCTCTTTGATCTAAATAGTTATCAATTTGTGAAGCATTGTGTTGTACTTTTTGTTCTAGTTGAGCTAAATGATTTTTAGCCTTAATTTTTATAAATGTAAAAATAATTCCAGGAATAATTCCTAATATTCATAATAGTATTTCAAAAACTAATGAACCTTTTCCAACAGTTATTGGAATTTGTTTGTTAATAACATTTACCTGTCTTCCTTGTTCTAAAATAGGGTCATTCATTTCATCTAATTGGTTTGCCATTTTTATATTTCCTGTTCTATTATTTCAACAGCACCATATTCTGTTAAAATATCATTTTCATTGTATTTAGCTTCTACTTCTTGATCTCATAACTCATTATCAATAGGTGAATGCTTAAAAATTTTAATTTTTAGATTAGTAATTTTATCATATGCTATATATTCATCTCAAGGAACTGGAACATCATGATATCTTCCATCTCCTCCTCAAACTGGAATATAATCAATTCTTGGTATAATATCAAATCCAATGGAAGTTGCTTGAACATAGTCAGTACCATCTTTTTTAGCAATTAATTGTGTTTTAATAATTGAATTAGTTTTAATGTTTGGGTGATCTAATAATTCTGATGGTATTGAATTAGCACAAACTTCATACTCATAATCAGTAAGAGTTAAATTAGTTTCAGGATTTTCCTTGTATTCTAAATTTATTTGAGCTAGTGATGGGATTGAAAAGTATGGAGCTAGTGCTCAATAAAATGTTTTAAAGTAATTTTTATTTATACTATAAAAATAATTTTGTATATGTTCAATACTATAATGCTGATATTGATCTTCATTATCATAAAAGTTAATTTCATTTAGTTTTTCAGTTGCAAAAATAATTAATTTATTTTCTTTTAGCATGTGATAATCATCACCAAAACTCTTGTTATGATCTTGAACTAATTGAACTAAATTGTTTTGAGCTAATGGAGTAAATAATAATCTAAATTCTCTTTCATTATTTCTATCAAAACAAGATCAAAATGATTCAAATTTAGTATTTGATAAAGGAGTGAAATTAATATTTTTTTGACTATATTTTTTTAGTTCTTTCTCAATTTGCTTTTCTAATTTTACTTTTTCTTTTTCGCTTAATTTATCAATTTGTTGTGGTTTTCTATAAAATTCTAGGTTTGGAGATAGATCAGTTGCAAAACAAATTTTTGAAAAATCAGAAAATTGAACAAAAGGTTTAGTAACACTTGCTGTTAAAACTTGAGTCTTAGTAACTGTTTTTCAATTTCCATTACTATCAGTATATGATTCAGTTCAACTAATTGTTAAAGAACCATGATAAGTTTTTTTAACAATTTCATAACTGTAATCTTTAGTTAATAAAAAATAATTATTATTAATAGTTCCAGATTTTACATAAACTGTTGTTTTAGTATCATCAGATGAACTATTTAAAAAACCATATTCATCTATTAATTTATTTAGTTTATTTAATCCTAAATGTCTATTTAGATGAATAAAAGGCATTGTTAGAGTTAAAAGTTTATTTTTAGTACCAATTTTAATTAATTCTCTTAGACTTTTAGTTTGTTCTAGTCCAACTTCAATTAATTGGTTCAATTCAGCTTGTTGTTTATCTTTAGCATTCAAAGCTTCTTTTTTCTTTTTATTAATTACTAAAAAATGAATTAATATAAAAACAATAAATAAAATTAAATCAATAACACAAACTAGTACTTCATATCATTTATAAGTTGGATCTGTAACTAAACTATAAATGAAAGCTACACCTAATACTCCAGTTAAACATATTAAAACTATATTAGTAATAAATCAAATTCTTAGTTTTTTTAAACTAGAATTAGACTTATTTAACTCAGCTTGTTTTTTATTAATTTTTATTACTTGTTGTTTATTTTCTTCTATATCTACTTTTGAAGTAGCTATTAAATTATCAAAATATTCTTTAATAATATTTAAGTTTTTTTCTTGATACTTGTCATATTCTTTAAGTGGTTCAAAGATAAATTCGTTATTTCCCATTAATATTCCCTTCTAATATTTTTCCTTTATTTTTTATTTTATATTTTAAAAAAATAAAACATAAAATAGTTTCTGAAAGTTTCTGAAATATTTATTAAAAAGAAAAAACCCTGAACTTGTTCAGGGTTAAATTAATTTATTTATCTTAAATCGTATTTATTTTTGTTGTCTTGGATTTTGTCATATACTTTAATAGTTATTACACCATCTTTTCTTCAAATTCCTTTGATTGTTTGACTAATCATTATTGTTAAAAAGATTACATAATAGATTTGAAAGAAAGTTGATAATAATCCAAATAATAAGTATAAAACACCAATAAACATATTATCAGCTTGTAATACTCTTCTAGCAGTATTTAAAATGTTTCCAATTAATCTTAATATTGAATAAATCATTAATAATATTAGTTCAACAGTTACAATTACTAAATAAAATACAGCAATTGTTTTCATTAAAAAGCTAGTAAATGTATTTCCTTCAAAACGTTCTTTTGAATTTTTATTAAAAAATAGAACAAATGCTAATAATCCAACTACTAATAAAACACCATTACCAATAATAAATCCTAATAAAATTCAATATCATTCTTTTGTTTGATCAAATCAATTTATATTTGGTCCAATTGTTTTTAATTGTCAAAATAAAATACCTAAAAATATAGCTGAACCAATTGTTGTAATAATTGCAAATGATCTTGATAAAAATCATTTAGGTTTAATAGTTGACTGAGTAGTGACATTTGGTAAACTTGTTAAAATTCAAGGAGTTAAGAATCCTCCTAAATTTAAACTTAAACTAGCTAAAATATATCTATTTGCAACTAATTCTTCATCAGTACTTTTTTTAACAAATCTTAAAATAATTACTGCTGAAATAATAGTTTTTCAAAACATATATCCCATAGTTGCATAACCTAAAGAGAGTAATACTTGTTTAGGTTGATCTAATTGTTGTGGATTAATTTTACTTAAAAAATAAAGAGATATAAGCATTCCAATTACAGCAAAAATTGTTCCAACTCATTGAAAAACTTTTATTTGAGTTCTTGGTGAACTAAAAAAACTTGAATTATTATTTTTCACTTTTTTCTCCTTTAATACAAAAGATATTATATATCAATTGATTAACTATAACAAATTACAATTTTAATTACTTATTAAGATTTTTTATTTAAGATTACTGGAATAATTAATGGATTTCTTCTTTTTACTCTAAAAATATATGGGCTTAAAGAAGATTTAATCGCTTTTTTAATAGCTGCAAAAGTTGGTTTTGATGACATTAATACTTCATTAACTGCATTAGTAATAATTTGAATTGAATCACTAATTATTGATCCTGCATCTTTTACATAAAAACTACCACGAGAAATAATTCTAGGTTGAGAGATTAATTTATTAGTTTGTGAATCTAATGAAATTACAACAGCAATTAATCCATCTTTTGAAAGAATTTCTCTTTCTCTAATAACATTACTTGCTTTTCCAGTCATATCTTTTCCATCAACATAAACTGCATCAGCTTCAACACGTTTTCCGATTTTAGCTTTACCTTGTAATAGCTCTAAAACATCACCATTAGCCATTATAAAACCATTACCTTTTTCTAAATTAACACTTTCGCCAGTTTCAACATGTTTTTTTAACATACGATATTCACCATGCATTGGCATAAAATATTTTGGTCTAATTAAACTAAATAATAATTTTTGTTCTTCTTGACTAGCATGACCTGAAGTATGTATTTTATTATCTGAAGTATTTTCAATTACTATAGCCCCAACTCTAGTTAACTTATTAACTAACTTTTCAACATCAGCTCTATTTCCTGGAATTGGTGATGATGAAAATACAACTGTATCACCAGGAATAATATTAATTGATAAATGTTTATTATTAGCAATTCTAGATAAAGCAGCCATTGGTTCACCTTGACTACCTGTTGTTAAAATCATTAATTCTTCTGGTTTATATTTATCAATATCAGTTGATTTAATAAATTCTTTTTCACTAATTTTTAAATGACCAATTTGACGAATGATTTTAATAATTCTTTCAAATGATCTACCTAAAATAACAATTTTTCTATTATATTTGTGAGCAGTTTCAATAATGTGTTGAATTCTATGAACATTTGAGGCAAAAGTTGTTAAAAAGATTCTTCCTTTAGCTTGTAAAAACAATTTATCAATATTTGAAATAATACTTTTTTCACCTTGTGTATATCCTTCAACTTCACTATTAGTTGAATCTGCCATTAATAATTCAACTCCATTTTCACCCATTGAGGCTAATTTAGTAAGTTCAGCAAAATGTCCTAGTGGTGATCAGTCAAATTTATAATCTCCTGTTGAAAAAATATTACCATTAGGAGTTTGAACTAAAATTCCAAACGCATCAGGAATAGAATGATTTAATGCAGCATAACTAACTTTAAAGTTTTTAGTTTTTCACACATCATCAGCATCATATTCTTTAACAATGGTTTTATCTTCAATTTTATATTCTTTTAATCTATCTCTAATTAACATGGCAGCTAATTTTGGAGCATAAATTACAGGAATTTTTACTTGTTGAACTAAATATTGAATTCCACCAATATGATCTTCATGACCATGAGTAATAAATAAAGCTTTAATCTTTTTTTGATTTTCAGCTAAATAAGAATAATCAGGAATAACAGCACTTACTCCTAACATAGTTGATTCAGGAAATTTAACTCCAGCATCAATCATAATTAATTCATTATCATACTCAATACAATAAGTGTTTTTTCCAACTTCTTCTAATCCACCTAAAGCAAAAATTTTAGTAGGTATATTTGTTTTTTGATATTGTCTTTTAACTTCTTTTTGCTTAAATACATATGGTTTAAATTCTTTTTCATCAATACTAATATTTAATTGGTCACCATCATCATCAAAGCTATTAATTAAATTTTCATTTTCTTCATTAAGTATATCTAGATCTTTTTTATCTATATTTGACATTTGTTCCTTTCCAAATAAAAAATATTAAAATAAGTTAATTTCTAAACTTTTTGTATTTGGCTTATTTTAATTATTAAATATTATCATTAGTTAATTAATTTTATAGTTAGTTACTTATTAATATTGTATAACATTATTTGTTATAAAAGAAATTAAAAATAGTTATATAAACTTATAAAAATTATAATATTACTAATAAATTAAAAATAAAGTAATATTAATTTTAACCTAAATATTATTATTTTATTTAATTTTAAAGTAATAGTTATTTTTATATAAGCAACCTAAGTGGTTGCTTTTTTCATTTTTCTAAGTTCTTGCAAGTAAAAGTGTTAACAAACACTTTTAAAATAGAAAAGAAATAAAACAAATATGTTTAAACAAGCAATTTATAATGCTAATAAAACTAAATGCTTGGAAATTGGATATTTTACTAACAAAAACAATCAAATACAAATTCAAAGATTTCCACACATCATTAAAAAAGTTCCAAAAGTTTTACAAAACCGAATTATCAATTTATTTAATGCTTTTTATAAGAAACAAAATGAATTTATTGATGGAATTCAATACTAAGATACATCAAACATAATAGATATATAAATATGTTCTTGGAAGCAAAAAAAATTTAATCAAGATATATCAAGTTGAAATACTTTTAATGTAATAGATATGACACAAATGTTTTCTGGAGCAAAGTCATTTAATCAGGATTTATCTAAGTGAAACGTTTTTACGGTTAAAAATTTCAACTATTTCAAATCATTTACTTTATTTAGATTTAGCCATAAAAAGCTTCCAAAATTTAATAAATAAGGTATATCAAAATATACATTTTTATATACCTCAAATAAAAAAAAAAAAAAAAGTATTCAATTAATAATGAATAACTAAAACAAATAAAATTATTACAAATAATAAAAATCAATATTAATAGAAAGGATATTTATGAAACTTAAAAAAACTGTGTGAATTCCTTTAGTTTGTGCTCCTGTTTTACTAACAGCTATAATAGTTCCACCTGTAGTTATTTATAAAAATAAACAAAAAGTTTCTAAACCAATTGATAATAAAAAACCTGTTTCTGATAAACAACCAAAAAAACCAACCCCACAACCAAAAAAACCAATTGATGAATTAAAACCTATAATTGACCCAAACATAACCACTTTAAATAAGCAATTAAAAGAGGCTTCAACTTCTTTAACATCCACACTTTCTAATAAAAAATATAAGAATTTAGAAAAACTTCAATCTGAAATATCTGCTCATTTAACTAACAATAATAATTCTTTTAATAATATCTCTTTTGAAATAACTAATAAATCTATCTTACCAGAACGTGCTAGAAATCAAACTGTTAATCTTAATTTAAAAGCAACTGGACTTAATAATAAATCTTCATCTTTATCAACAACTTTAAATAATGTTTCTTTAGGTATTTTAGATATTGATGAAATCATTTCAAGAAAAAAGATGTGAGTTGAAATTGAAGAACTTGAAAGTTTTAAAAATAATAATGACCCTAGCAAAGTAAAAGATGACTTTTTCTACTTGTTAAAGAAAAATAATTATGATAACCTTGATGAATCCATTTTTAATAAGGATTCTTATACTTATGATTTTAGTGAAACTGAAGTAAAAAGTGTAAGTATAGACTATAAAACAGAAAGAAAAGGAGGAAATGATTATTACTATAAAAAAACTAGATTTACTGATATGGAACCAACAGAAAGTTGGTACAAAACAAAAATGAAAATCAAAAAAAATCAGACAAAAGATGATTTTGTAGACTGAAATAATAAAGCTGAACTAGAACTTACTTTATATGCATATATTCCCAAACTTTATGATAGCAATTTTAGTTGATATTTTAAGAATAAAGTTGAAGGTAACGATGGTGCATTTATTGTAATTGATAAAAATGGTGAAGAAAAAAGAACAAAAAAAGATGATTTAAAAGACCCATATAATGATATTTGAACTTCCTCTTACTATGATTATAATAAATGAAAAAAACAAGGTTGAAAAGTGGAAGAATGTGTTTCTTGAGATGGATTGTTTGGAACAATTTCTTTCCCAAGAACAATTAAACGTGTACCTAAATATTTACCAAAAAATAAGTGATCTTTAAATTATTTATTTGATAACGCAACTAATTTTAACCAAGATATTTCAATGTGAAATACTTCAAATGTAGAAGATATGGAAGATATGTTTAGAGGAGCTAGTTCATTTAACCAAGATCTTTCTAGGTGAAATGTTTCAAAAGTTCTTGGCAAATCAAGCCAAGATATTTATGTTTCTAACCGCAACTGAAAGAAAGAACACTGACCTCAATTTAATAAAAATAATAGTTAAATTTATATATTCAAAATATCTATAAATTATGTTAAAATTAATTTAACATCGAAAAATTAATTAATTTTTTCAAGTCTTTTAACAGAATTGAAACCATATCAAAAAAACGTTATTTTTAGATAATGTTTTTTGTTTTACACAAGCAACCACTTAGGTTGCTTTTTTCATTTTTTCTAAATTTCTACAAATCAAAGTGTTAACAAACACTTTTAAAATAGAAAGGAAATAAAAATGTTTAAAAGTATAGGAAAATTCATAGACCTGACAATACGTATTTTTAAAAATTTGCCAAACTTTTTATTATGATGTCTTTTACTCCCACTTTTAGCTATTCCAGCAGGTTTAGCTGTTATAGTTGATTTTTTTGGTAGAGATTTAATAAAACTTTTAATTTTTGGTGGTGATGATTTTGATGTAAGTAAACTTCCACAAGCATTTAAAACAATTGCAATAATAGCAGCTGCCATTGCTATTATTTCGTTTATCTTCTTTTTTGTTTTTTTAATTGCAAAAGAAGATTCCAGAAAACACATTAAACAAACAATTAAAGGAATAGTTATAGCAACATTATTTGTTTCTACAATGCCAATAGCTTTCTTTTTACTACAATATGTTGTTTCAATCTTTTTTGATTTAATCAAACTTGCATTTGGATTAGAAAATCAATCTGCTTCACAAACAGTAATAGAAAATATTTTAAAAACAGGTTTAACTAGACCTTGAGATGATGAAATGAAAGTTGAATCTCTTTCTCTAAATATGAAAATAGAAATCTTTTTAAATTGAGTTGAATATGTTAATCCAGTTTTTCCATTAATAACCACTGTTTTAGTAACTTGAACTTATATTCAATTTTCAATTGCGATTATGCAAAAATCAATGGAATTATTTACTTTATTTATTACTTCTCCAATTTATGGAATTACAGCAGTTTTTGACGGTCAAAAAATCTTTAAAAAATATATTAGAGAAAAAATAATTGGAAAATCATTTGCTGTTTTAGGTTTAATGTTTATTTGAAATGTTTCATTCTTATTTTTAAATTATTTTACAAATAGATTATTAGATCCAATAGTTGCTGCTATTACTTCAAGTGGAAAAGCAGGACATATTTCAAACTTTGGTAACAATATTATCAAAAGTCTTGTAACTTTAGTTGGAATTGTTTCTTCAGCAACGTTTGTTTCAAAAGGAGCTAATCTTTTAGGTGATTTAACTGGTGAATCAATTAGTGTTTCATCACCAGCTACAGTATTAAAACTTGCTGGAAAAGTTACTACAGCTGGAATTGGTGCTGGAATTTCTAAATTTAAAAATAAAAAGAATAATACATTATCAAATCCAACTGATACATCTGAAACTACTACAAGTTCTTCAATAACAAATAATAATTCTACTCCAGTAGTTAGACAATCAATTTCTGATAAAGTAAATAAATCAAAACAACCAAGTAGAAATTCTGGTGTGATTTTAAAAGGAGAAAGTTCAATAGCAGCTGTAAATCAAAAAGGAATCTATAATTCAAAAAATTCTGCTGAATTAGCTAGATCAAATTTCTTTGAAGATAAAATTCAACCAGCAAAAATTGATAAAATCAAAACTCCACCAAAAGCTTATAGTCAAGCTCAACAACTAGCTAAAGCTAATAATGTTGATTTATTAACAATTACTGGGTCTGGACAAAATGGAAGAATTTTAAAATCAGATGTACAAAATGCTATAAATAACCAAAAAGCAGTTAAAACACTTACTACATCAAACTCATTTAATAACAATTCTGATGATAAAACATTCTTTGACAAACTTACTAAAAGTGATTCTAATAATTCTATAGTTGATAAATTACAAGCAAAAGAAGGAAAAGTTAATAAAAAACAACCAACTAAAAATAATTATGAAGATATTGAAAAGAAAAAATCAACTCTTGAAAAATTCAAAGAAAATTACAAAAAACTTAGTGAAAAAGAAGATAAAAAACTTATGCTTCAAGAATTAAAAAAATTAAACAAATCAATTGAAAAATTTGCAAAGCAATTAAATAAATCTAAAGTTATATCAAAAGATTCTGACAAGATTAGTAAAACTAAATCATTTAAATTATTTGACTTTAATAAATTTAATAACACAAAACCTAGTTTTGAAGTTAAACAACCTAATTTATCATTACAAAATAACCAAAAACCTTTTAAAATAAATATCTTTAAAAAAGACATTGAATTAAAAGAAAAACAAGATTTGTTTAATAATAAGTTAATTCAAAACAATCAAAATATAACTGATAAAAAAATCGGTTCTAAATTAAATAAACTAAATATATTTAAGAAAAAAGATAAGGAAGTGAAAAAATAATGAGATCAAAAGCAATGTTTCCTCAACGTTTAAGAAAAGTTAGATTTTATATATATAAATCACTTACTTTACTAAATACTTTATACATTGGTTTTTGTATTGCTCTTGGTTTTGTTTTATATAAAACATTAACAATTATTTTATTATGAAATTATTGCTTAGTACCAGGAATATTTATTCCACTAATATTATTAGTTTTCATTCTACCAGTAAATTTCAAAAAACCTGAATCTCTTCTATTATCATAAACACTGACTAAAATTCAAAAAAAGGTTTGAGAGAAAAAATAGAGATAAATTTAAGATTTTTAAAAAATTAATAAAGGCTGTTAAATAATAATTTTTCATAGATTTAATTAACTGTTTTTTTTATTATTTAATATACAGATATTAGTTATATTGTCTATAATAATATTAATTTCTTTTAGTAAAAAAAGTGTGATGATAAAATGGTAGTTATTCCCATAAGAATCTTTATAACAGATAAAACATATTTTCAATTAAAACATTATGATTTTAATTTTGATTTAATAACAAAGAAAAATATAGATTATTTTGTTATTTCTAATGGTAAGAATATATTCTATGATACAGATAATAACAAGTTTTATATGTTAACTAAGAAAAATACTAAAATCTGATTTGACTTTAATTTTTCTGTTATAGATTTTAATGAGAAGTTCTCTAACCTAATAAATAATGTATATCATTATTCAATGAATAAACTTAATAAAATTTTCTTTTCAAAAGATGGTAATCTTTATTTTCAAGAAAAAGAAAAAGGGAGTTTATTAAGTGGAATAAATTCAACTATATTTAAATATAGTTATAAATCTGAAAATTACGATATATTTGATTTTGTTACCGAAATTTTTATTAAAGTTTTAACTGGCCATTATTTTATTAATGGGAATAAAAGAACAGCATTAATGTTATTGATACAACTATTAAGAATTTTTGGTTATTATTTTTATTTTTCTGATGATGTTAATCTTTTTAAACATTATTATTATGAAAAAATAGAAAAGGAATTAGCAAATTTTGTTCAAATGTTGCAAAAAAAGAAAATTACTTATAAAGAAATAAAAAGATGAATATATTTAAGAACAATTGTTGATCTTAAATTTTAATGCACTATTATTTATAGTATATAGAAAAGGAGTGACAACTAATGAAAGATAATAATAGTAGATTCATACCCTGAGATTCTATTTCTGAAGAAGAACTACTAGAAAATGCTAAACGTAAAATTGATGACACATTTAATGATAAAGAGTTTGTCGCTCTTTTAAAAAAATTAGAAAAAATGTAATTTTAATCTACAAAGGCTAAAGTATATTGTTTCTAATCGTTTTATGCTTACTTTTCATATTTAAATTTGTTTGAAAAACCGATAAAAAATAAAGATTAATTAAAAAAGAGCTTTTAGCTCTTTTTTAATAATTTGCTTAATTTTTTAATAGATCAACAAATTTTTTAGGTATTTTTTTATCATCAAATTCTGGATGTGAATTAGTGTTAAAACTTGTTACATAACTAACTCTATGAACATCTCAATTTGATAAATCTTGGTTAAATGAAATTGCATTATTAAACATACTATTCATATCAGTAACTCTTGAAGTATCTCATTTTGATATATCCTGGTTGAATTTTTTTGCTCCTTTAAATAGTTCACCCATATTTTGAACTCTATGAACATCTCAATTAGAAATATTTTGATTAAATGATTCAGCTCCTGAAAACATTCTACCCATATCAACAACTCTTGAAGTATCTAGACTAGATATATCTTGATTAAAGTTTTTAGCATCTTTAAACATATCAATCATGTTTGTAACATTAGAAGTATCTCATTTTTCTAATCCAATGATTTCTGTATTAACATTATCTTTAAAAGCACCTTTTAAATTTGTAATAAATCCTGGTAATTTTTCTGGAACTTTTTTAACATAACTTGGAATTGGTCTAATTTGTCATTGACCATATTTATTTTTAAAATATCCAATTTCTTTAAGTTCAGAGTTGTCATTTTCATCAAATACTTCTTTTTGATCATTTTCAGGTTCTGGTTTAACTTTAAAATCAATTTCAAGTTTATCTGAATAATTATCTGAATTTGGAGTAATAATAACTTTTTGATCATTTATTTGTATGTCAAAGTCTTTTTCAAAATCAAGATCTTTTAGTTCAGGATTTTTTTCTATAATTAGATCAATAATTTTTTTATTATCTGGTTTTAAATCAAATTCATAATTATTAATTTCTTTAGTGTTAATTAAATCATCTAGTTTAGTTCTAATTTTAAATTTATAACCTGTAATTTGACCTTTATAAAAATGTGAACTAGGTTTTGCTTTAATAGTTACAACGTTATTTTTAATTTCTATTTCAAAATGGTCATTAAAATTAATATTTTGTAAATTATCTTTATTTAATTCAATAATTTTATTAATAATTTTTTTATGATCAATATTATCAAAATTACCTAAATTTTTATCTTTTGAATTAAAAACTTGATCAACATTAGTTTTTTTAAAACTAATTTCTATTTGTCCTTGATATTTATTTTGACTTGGTTTTGCAACCACTTTTACACTATTAGTATCTTTTAATAATACTAAATCAACATCATCTAAGCTAAGATTTATAATTTTTTTATAAGCTTTTATTTTATTAATCTTGGTATTAATATGTTTTAAAATATCAGATTTATTTTCAGTATAAAGAATTGGTAAAAATCGAGAATTAATATTAATTGTATTTTCTAAATTAATAACAGTTTTATTATTTTTATCATCCTTTCTTACTACTTTTCTTCTGTTTTTTAAAATCCCAACAGTAGTTCCTGTTATTAAACTAGTTCCAAGTAATAAACCGGCCAACACAATTAAATATTTTTTCTTTTTCTTTTTATCGTTTTGTTCTTTTTTGTTTTTACTTGTAATTTTAATATTAGTTTTCTTTTTAGCCATACATTTATTTTTTATAAAATTTTTGAATAAATTTCAAATTTTTTACAAAAAAACTTTTCAAAAACAACAAAAACATATATAATAATTAGTTAATTTGTTAAAAAATGCTTACTTTTATTAAAATTGATGTAATTTTTCATAAAAAAAGACTAGAGCACGTATGCTTTCTAGCCTAGTTCGATCGGGGCGCGTACGCTTGCTGATCTGGTCATTAATCTATAATATTACAAAAATACAAAATCTAAAAAGGATTATTTTTGTATTTTTTAGTTTTTTAAATATTATTTTCTTTTAAAGTTCTTATATAAAAATTTAGTCTTAATAACTCAAAATTAGCAATTAATTTAGTCATAGTAGATAGATCATTTTTTTGATGATAATCATCAAAAGCTTGATAATATAAATTTCTATTTTCAAATTTAATATCAATAGGATAATAACCGTTTCTCATTAATTGATAGTTAATTAGTAATCTACCAGTTCTACCATTTCCATCAATAAAAGGATGAATTGATTCAAAATCTAAATGAAACTTAGCAATCTTTTTAATAATATGATCATTAGAATTAAAATAATCTTCTAATAATTGTTCTAGTTTAGGTTCGATTAAATAAGGTTGAACTGGAGTATGAACTGAATTTAAAATACTTACAGGAATTTTTCTAAAAACTCCAGCATTTAGTTTTTTACTTTTTAAAACAAAGTAATGTAAATCTTTAATGATTTTAATATTTAATTTCAAATTATCATTTAATAATTCAGTCATATATTCAAAAGCTTGTTTATTTCCAATTGCATCTAAATAATATTCATAAACAATATCATCATCAATATCTTTACTTAAAATTAATCTAGTTTGTTCTAAGCTTAATGGACTATTTTCAATAGCATTAGTATTATAAGTATAATTAATTAAAAATTCTTCTAATATTTCTTGATTTAGCTTTTCATCTAGTGGTTTTAATGATTGAATTATTTTTAATTTTTGATTTATTAAATCTAATAAATTAGCATTTTTTAATTCTAATGGATTATCTAAATCTATTGGAATTAAATAATCATCAGATTGTTTAACATATCCAAAGATTTGATCATTTTTAATTAAATTTAAAATTTCATCTTCACTAATATTTCACTTTTGACTAGCTTTTTTAACAGTTAAATACATAAAAATTCTTTCTTATATTAAACGATAAACATTTTTAGTTTCTTCTACTATAATTTTATCTTTAACCATTTGATCTAAAACATGTTGAATTTTATCAATACTATTTTGAGATATTGATTTATTATAAGTTTTTAATGTTAATTCTTTTGTAAAATCAGTTGTACTAATTGCCATATTATTAGTTTTAAATATTGTTAAGATAAAATGTTTAATTTCTTTGTCGTGAATTTCACTTATTGATCTTTTATTATCATTATTAGTACTTTGTCTAAATTTAAATTCTCATCCATAAGGAATTAAAAATTGATCTTTATCTAATGATCCAATTGAACTAATCATACGACTGACTGCTAATTTAACAGTATCACTAACTCTTTGTTGTTTTGTAATATCTCTAACTATTTTATAAACTGAAGTTAATAATAATGGACCTGTTTGATTTAATATATAACTAGTTGCATTTTCTAAATCACTAACTTTTTTTATAAAAAAACCAGTTTGATTTGCTAAGCTATGATATCCTACTTGTTTTATTAATTTATTAATTGATGGATATGTTTGAAATATTTCAGTTGGTTGATTGGTTTTTTTAACAAATTTATCAGCATTAGTTTGATCTGAAATAATTTTAGTTTCTATTTTATTTTCTTTATTAATATTTAAAAGCTTATTTAGTTTTTCTTCAATTAGATCAATTTGTAAACTTGGGTTTTTAAATCAATCAGTTGATCAAATTCTATGAAATGCTCAACCACGTGATTCTAAAACTTGTTGATATAATCTATCTCTATCTCTTGTTGATTTTGCTAAATTAAAAGCAGAACCATCACATTCAATTGCTAGTAAAAATTTGTTTTGATTTCTAGGATCAACTACAGCTAAATCAATTTTAAATTCTGAAGATCCAACTTGTTTTTTAACTTTTCAACCTTTTAAAACTAGTTGTTCATAAACTTCTTGTTCAAAAGCAGATTTGAAATTAGAATCTAAATCTAAGTGTTTTAAATTATCTACACCAAGTTCAGCATTTTTAATAAATTTTTCTAGCATTTTAATTCCATCTTGTTCACTTTTAAATCAATCAACATCATTATGTTTGAAATTAGAAACAACTATCATTCCTCTTTTAGCTCTTGAAATAGCTACATTTAGTCTTTTATATCCATTTTGTTTATTAATTTCACCAAAAACAACTCCAACTCGATTATTTTTATTAATTTTTCCATTAATAATAAAGATAATAAAATCACGTTCATCTCCTTGAACTGTTTCTATATTTTTAATAAAAAATGGTTCTTTAACATCTTCATTAAAAAACGGTAATAAATTAGGATTTTGTTCTAAAAATTTATCTAAATATTCATTTGCTTTTGCTTCAATTTCAGTATTAAATACAACAATTCCAACTGAATATTTATTTTGATAAGTTAAGATTATTTGTTTTAAAGTTTGTAAAGCTTTTAAAATTGTGTGATATTCATCAGTTTGTTGATTTGGGTTTGAATATATAAATCTTAATCCTTCATAATCTTTAGGCAGTTTTGAGTTAGGAAAAGTAATTAAATCATTATAAATAAATTTATTTGAAGTATAAATTAAATCTTCAAATTTAGATCTATAATGTCATTTTAATCTAATAGAATCTAAATTTCCTTCAGCTAAACTTAATAAAGATTCATACCCTGAAGAAATATCTTGTTCAATACTAGTTTTTTCAATTACTTCATCATTTTCTAATGTATTAAAAAAATTAGTTGGTGGCATTTGTTCTTTATCTCCAACTATAATTACTTGTTTTGCTCTAAATAAAGAACTAATTGCAGTTTCTGGTTTAATTTGTGATGCCTCATCAAAAATTACAGTATCAAATTTATAATCAATATCTTTAAATAAATAACTAACAGTTAAAGGAGATAACATTAAACAAGGTTTAATATTTAAAATAAATTCTAAAGCATTTTCAAAAATAGTTTTAAAAGACATTTTTAATCTTTTTTTAGCAGATTCTCTTTTTATAATGCTGTATTGAGGATTTGTGTTTTCAAAAATCAATGATTCTTTAATTTTTTTATCTAGAGTCATAATGATTCTATCTTTTGCAATATTATTAATTTCTTTATCTTTAGTTTTAAATAGTTCTAAATTACTATTCATAAAAATAGCATCTTTATTTTGTAATTCAGTATCTAAAATATTTTGAATTAATAATTTATAAAAACGTTTTAAAAAGATTTGTTCATAATTAGTTGTAATTTTATTTTCAATAATTTTATTAATAAAATCACTTAAATCTTTTTCTAGTTCTTGTTTGTAAAAATTAAAGTTAATATATTGATCTAATTGGTGTTTATTATTTATTAAATTTTGTATTAGATTTTTAAATTCTAAATAACTAAATTTTAAATAAGTAGTTTTATCTTTATTTAATAAAGTTAAAAATTCTAAATAAGCATCATAAAAACTATTAATATTATTTGTTAGTTGATCTAATTTATTTTGATTAGCTAAAATATTTAAAAGTGTATTACTAATAGTTTGATCATTATATAAATTAATCATATTTTCTAAGGTTTGTTTAGTACTTAGTAATTGATTAATATCTTTTATATCAGTATTAAAAATTAGTTGTTCATTAAAATCAGTAGCTTGTTTTTTTGTATTAAATAAATCTAAAAACAACTCAAGTTCTTTAATAAGATCAATTTGTTTAATATCAATTTTATTTTTTAAATTCTTTTTAAATAACTTATAATATTTATTTCACTTTAAAGATAAAACTTTTAATGGTTTATTAATTGTTTTTTTAATATAATCAATAATTTGTTTAATTTGATTATCATTTATAAAATCTAAATTAGTTCAATTATTATTTAAAGTTTGAATTAATAAATTTTTAATATAGTAAAACTCAACTAATTGATTAACTTTTTGTAGTTGTTCATTTAATGTCTTAATTTCTAAAATTTGATTTTTATATAAAGGTTTAACGTTTTTATATAAATCTGTAATTTCTTTTAAATAAGTAATTTTTAAAATAAATTCTAAATTAATAGTATTAGTATTTGCTAAAACATTAGCTTTGTTAATATAGTTTTTAATATTTTCAATTTCAGAATTAAATTTAGTTAGGTTTTCAAAAATTTGAGTCTTTGTTAAAAAGTCAAGATTTGTTTTATTAAATCCATATCATAAATTGTTTTTATAATTAAATCCAATAAGTTTATATGATTCATAAAATCTATTAATTAATTGTAAGTATTGTTCAAAATTTTGATTTGTAATTTTATTAATATTATTAATTTCAAAATTTAAATCTAAATAATTTTTATATAAATAATATTTATTAATATATCCATAAACATTATCAAACTCAATACTACGTTTTTTTAAAAGTACGTCTTTATAATTTGAAAAAATCTCTTTTATTTTTTGATAATTAGAAATAAAACTTTCTAGTTTTTGATCATCTAATAAAAATAATTGTGAATTATTTGCTGAATTAATTAATTCGTTTAAAATTTCAGATTTATTAATTTTTGAATCGTGAATTGGAATTGCATATTTTTCTAATCCAATTTTTTTTAAATTATTATAAACAACTTGTAAAGCTGCGTTTTTTTCAGCAACAAATAAGATTTTTTTATTTCTTGAAATTAATTCAGTAATAATGTTTGTAATAGTTTGAGATTTACCAGTTCCAGGAGGACCTTGTAAAACAAAACTTTTTCCTAAAATAGCGTTTTGAATAGCTATTTCTTGAGATGAGTCAGCATCTAAAATTTTATATTGCTCTAAAATATTTATTTTAGTATCAATATTTTGTTCATTAATAGTTGAAATATCATTATCTAAATTATTAGTTTGATCAACAATTTTTTTAAAAAAATCACTTTCTATAATGCTATTAATATTTGCTTCTATATCTTTATAAATATTAATTCTTGAAAAGTCAAAATTAGCTAAATAAATATCATCAATAATTTCTCATCTCTGATCAATAACTTGGTTTAGAATTTTTTGAGAATAAGTTTTATAGATGTTTATTAAATCATCTTTATTTAAATCTAGTTCAGCATCAATATCAAAATCATTTTTTAATTTTTTAACTAAAGCTTCGTTTTGAATAAAGTTTTCAGCTTTTTTAATATGAATAGATCAAGTATTTAAATTCTTTTTTAATTCAATTGGTAGTAATAATAAAGGAGCATATCTAATTTCATTACTATCATTTGTTTCATATCATTTTAAAAATCCAAAAGCTAAGTATAAAACATCAATTGAGTATTCATCTTTTCAAGTTTTACTAATTTTATAAATTTTTTTTAGTGTTAAATCTAAAATATCTTTTGATTCAAAATAACCAAATTGAGTATAAATTTTAGTTTTATAAAAAGAATTATTTTTATTAATTTCTCCTAAATTATGAGAATAAAATACTTGGTTTTTTAATTGGTCTGTTTTATATAAACCTAGCATTTTATAATTACTTATTTCATAAATTTCTTTAGAACTTGTATCAAGACTTTTTAAAAAATCTAATAAATTAGGATAGATTATTTGAATTTTTGATGAAATAGTTTTAGTAGTTTTAATATTGAAATTTAAAGACTTATTTTTCATTCCTAAATCTAATAATTTATGTTTTCAATTATTAATATTTTTAATTAATATTTCTCTTTTGTCTTGATCCATAATATATCTCCTAGTAGTGTTCTTATTTTATTTTATATGATTGAAAAACATTTAATAAAAGAGACAATTTAAAATAAAAAAATCATAATATTTATTAATTTAATTTAAAAAAATACTAAAAACAACAATAATTACCAATATATAAAATTATTACTAGTTTTCTATTACTAGATATTAAAAAAAGTGAAATAATTAATAATATAACAATTGAACTTTAATTTATTATATCCAATTGCTTACTTCTGATTTTCATAAAAAAAGGAGGTTTTTTATGAGTAGTACGATTAATGAAAAACAGCAAAGAGCAAGAAAATTATTTGGTGAAACACCTATTTCAAAAGCAATATGAATAGTTGCTATTCCTAGTTTATTAGCTTCATTAATGGTTGGGCTATATTCTTTTATAGATCAAATTTTTATACTACAATTTGTACCTAAATATAGTAATGTTTTTGGTAATATGAATAGTGAAATAATGAAATATTTAGATCTTAGTCTTCATAATCTAACAACTAATGATCTATTTAAAAGTTATAATGAAATGCTTGATGCTTATAATCAACAAGCAGGCATGTTAAATGCTTCAAAATTAACTGTAATAAATTCAAACACTATTGTTTCAATTTCAACTGCTTCATTTGCTCCATTAACTATTTTTTCAAATGCTATTGTTTATTTAGTTCCAGTTGGATCTTCAATTTACTATACAAAATGTATTGGTAAAAGATTAGAAAAAACAGGAAAAAACCTGTGAGCAACAATGTTTTGAGTATGTATAATGCTTTCGATTTTTTCTTCATTTTTATCTTTTATAGCAATATGATCTGGTTTAATAGATAAAATTGCAGGAGTTACTCAAATTGATCCAAATATTGCAAGTAGAGCAAATATTGATGTTTTAAGATTACAAGATTTTTATAATGCAGCTCACAAATTAAGTGTTCAATGAGCAAAACAATATGTTTATATTTATGCTAGTGCAACTATTTTAAATTCTTTAACTCTTTATTTATCATATTTTATTCGTTCAGAAGGTTATAACACATATGTAATGTTTTGTGCTATTGTAGCTAATCTTATAAATATTGGTTTAGATGCTTTATTTATTATAGTTTTTAAAATGGGAGTACTTGGTGGAGTTGTTGCAACAGTTATTGGTTGAGTATTTAATACATTTGCATATATTATTTATATAGTTATAAAAGATCATAAACAAAAAACGTGACTTTCTATTAAAAGTTTATTTATGTTTAAGTTTAATAAAAAATTATTAGGTCCAATCTTTTTACTTGGTTTAGGTGGTTTTTTAAGAACATTTGGTATAGGATTTTCATTTCTTGTTATGAATCTACTTATTGCAAATTCACAATTTGCAATGCCTGAATATTTCCAATTTTACTGAGCAAAAGGTCAACCAATTGTAACGTTATTTTTAATTACAATTTTTGGAATTAGTGATGGAGCAAGAAGCTTATTTTCATATAATTACACACTAAGAAAATTTGATAGATGTAAAGAAGTTTATTTATGAACAATGATTATTGCTTTATTATATTCAATAATTGTTTATATTTTTGTTAGTCTTACTGCAAATAATATATGAGTATGAATTTTAAATGTTGATAGTGATAAAATACAAGGAACTGCAACATTTATTAGAGTTATTTCATTAAGAATTATAGCTGTATCATTAGTTATTAATTCACTTCTTGCTTTTCAAGGAGCAAATGATATTGACAAAACTATATTTTCATCTGCTTTTGAAAACTTTATTTCATTTATAATTGTGATTCCAGTATCTTATGGTATTGCTTATTTTGTTTATAAAACAAGTGGAAATAAAGAAATTGCTAACTGAATTATAGTTGGAGCTTTTGTGTTTAATTGTTTGTTAGCATCACTAGTTTTAATGGTCTTTTCATATTGATTTGTTTTTAAAAAATTAGAAAAAATTGATCAAGCAAAATTAAGTTGAAGTAGAAAAATTGAACACAAATTTTTTCAAAGAGCTCAACAAGATGAACTATTACAAGTACAAACGACAAATTAATAGTTTTTAAAAAGAACACAATACATTGTCTAAAAATTATTTTTAGAAAATGTTTAAATAGTGTTCTTTTTTATATGTAAGAAACATTTTAAAAAAAGATAACTTGAAATAAAATTTTATAAATATTTCAATGTTTTTAATAAAAAATAAATATTTATAGATGTTCATAAAATCTTTTTATTTTTATGTTACTCTAGATTTGTTTTAAATAAATTATGAAGAAATTAATATATAAAAAAATAAATTTAATAAACTTTAAAATTATTTAATTTTAACTATTTGTTATTATTAAATAATTTTTTTATTTATTCTACTTATCAAATAGATTAAAAGATTAGTTCTAATAATTAGATAAAATTATAAAGTAACATTGGAGGAATTATGTCTAATATAAAATTTAGAATTATTGATAAATATAGGATTGAATTATTAGAAGATGCTAATAGGGGAGATATTATAGATTTATCAAATGCTTATCAAATAGATTTATCTATTATTACTGATCAAATTAATAAACAAAAAGATCTAGTTTATTTAGAAAAATTAGAAAAAGAAAAGCAAAACTGAGAGTTGTTAAAAACTACTCAATTAGAAAAAATTAAAAGTGATTTAAAAGAACAAAATGATGAAGAATTTAAAAAAACAACTACTTTAATTTCACAACTTCAAATTACTAACAAATCTCTTAGTGAAAAACTAGAAAATAGTAAAAAAGAATTTCAGAAAGAACTAGACAATAATAAAAAAATATGAGAGACTAATAGCGATAAAAATATACAAGAAATTAAAAATGAACTTTTAGAAAAAAATAAAAAAGATTTTGAACAACTTATAAGTCAAAAAATTAAATTAGAATCAGATATTAAATTATTACAAGATCAATTAAATAATCAAAAACAATTAATAGAATTACAATTAGAAAACAAATATAATAAATCATTAAATGAACAAAAAACTAATTTAGAAAATAAAATAAAACAATTAGAAAATAATTTAACACAAAACAAACACCAACTTGAAAATAAAGACTTAATATATAAAAACGAACTTAATGAACTAACAAATACAAAAGATAATGAAATTAATAAACTTCAAAAAGAACTAGAATTTATTAAAAGAGAAAAATCAACTAAAAATATTAAATTAATTGGTGAAGAATTAGAAAACTATTGTTTAAATCAGTTTAATGAAGCATCGATGTTTGCTTTTAAAACTTCAACTTTAATAAAAGATAATGTTGTTATTAAAAATGAAGATGAATTAAAAGGAACTAAAGGTGATTTTATTTTTAAAGTTTATGCTGAAGAAGAAAAACAAAATTTATTATTAAGTGTAATGTGTGAAATGAAATCAGAACAATTAAATTCACACAATAAAAAGAAAAATAGTGATCATTATAAAAAACTAGATGATGATAGAAATAAAAAGAATTTAGATTATGCTTTATTAGTTAGTGAATTAGAATCTGAAACTAATGATAGTTTAATTTATAGAGTTAATGACTATAAAGACATGTTTGTTATAAGACCGATGTATTTTATTAGTTTTTTAGGTGTATTAGAAACTATTGCACTAAAATATAAAGATCTTAAGTTAAATAAATTACAACAAGAAATTATGTTTAAAGAAAAACAAGATATTTTAAATGAGTTTGAAGAATTTAAAAATAACTTATTAGATAATGCTTTAAAACATATTGATACTAAAGTTAATGAAATTAATAAATCTGCTGAAAATATTAAAAAAGAAGCTAATAAAATTTTAGAAGCAACTGAACTTGTAATTAATAAGCATTTAAATACAGTTAAAAATAAAATTAATAATTTTAAAATTGAAAAAGTTTTAGAATCTTAATTAGTATGGTATTAAAAACAAAAATAATTTTAACTAGTGTATTTAGTAGTTTAGCTTTAATTAGTATAAGTGGATTTGTTGGTTATAAAATTGGATCAACAAATAATGTTGAATATAAAAATAGAAATAAAAGATTGTTAAAAATAGTTGGATTTGATAGATTTAATAGCTCTGATGATTGAATAGATTATAGAAGAGGTTATAACTATCAAGGTGAGTTTAGAAAAAGAAAAAATGAACTATTATTAATTAAAGACAATATATATAAAATTAATTCTGAAAATTCAATAGTAACATTTTTTTATAATAGAGGGAATGAAATTTATAAGTATGTAATTAGTAATATTTCTTATGATGAAAAAGAAATTATTAATTTTCTACTTGAAGGTTCTAAAAACAATAAAGATATTTTAAATATTCAAGAAGCAATCATTACAAAAACAAAAGTAGAGTAGAAATAAAGTAATTTTCTACCACCAGTTTTAGTTTTTATACCACTAATCTACCACTAATCTACCACAACCGGTAGAAAAGTGGTAGAATAACTATGTAATATTTTTTTAATTACTATTTATAATGGAGAGCAACAAAATGAATTTTAATCATAGTGGTGAAACTGCAACTGTTGAATATAAAGTTACTTTTGATAAAAAGAATCCTGATAATTTATTACATACTGTGAGTGCTTTTGCAAACACAAAAGGTGGAAGAATTTTTATTGGTATAAATGATAATAATCAAGTAGTAGGTTTAGAAAATCTGCAAGTTATTTTAGAAGATGTTAGCGAAGCTATTAAAACAAAAATTGATCCAAATCCAGAATTTTATTGCGAAATAGAAGAGCATAAAGGATTAAAATTTATTGTTTTAACAATTATGAAAGGCGAAGAAACACCATATCGTTATTTAACTAAAAAAGCTGATGCAGCATACATAAGGTCTGGTAATCAAAGTATAAAAGCAAACGCAAATCAGTTAAGAAATCTAATTTTTAGAGGAACTAGACAATCATTTGATACATTAAAAACTAAAATAAATTGAAAACAAGCAAGTTTTAAAAGTTTGAATCAAAAACTAAATGGAATTGGTCAACAGGTAAAAACTGTTAATCAATTAATTTCTCTTGATTTAGTAAAAGATTATTTTTTAACAAATGCAGGAGCTTTATTAGCTGATAACAAGTTTATAAAATCTTCAAAAATTCATGCTACAAGATGAAATGGAAATGATAAATTAAATTCTGAAATTTTAACTTTAAATACAAAAGAATTTGAAGGTAGTTTAATAGATATTTTTCAAAAAGCTGAAAAATTTATAGATGACTATAATTTTGTTATGTGAAAAAAAACTGATCAAAAAAGAATTGATTATCCAAATTATCCATTTTTAGCAATTAGAGAAGCTTTAGTTAATGCATTGATTCATCGTGATTATTCTATTGATGGATCACAAATTAATGTTGATATTTATGATAATAGAATTGAAATCATCTCACCTGGTGGAATGTTTGATGGAACAAATATTCAAGAAACACCAACATGAGCTGTTGTTTCAAGAAGAAGAAATGAAGCTATAGCTAATATTTTTTGAAGAATAAATTATATGGAAAAACGTGGTAGTGGGATAGGTAAAATTATTGATTTATATGCAAGTCAGTCTAATTATTCAAATGCTTTAAAACCAGTTTTTATGTCTAATGATCAACTATTTAAAGTAATTTTATGAAATTTAAACTATAAAAAAGATGATCCTATTACAGGTGATAAAACAAATACTAATATAGAAACTAAAACAATAGAATTGGAAAACAAAGAAGAAAAATCACAAGATCAAATTGTTTTAAATTATATAGAAAGTGTTTTTAGTTTTACAAGAAAAGACATAGAAAAAGTTGTTAATGTTAAAAGAACTAGAGCAAATCAAATAATAAATAATTTATTAGAAGAAAACAAAGTTGTTAAACAAAATGATGGTAGATCAACTAGATATAAAGTTAATAAATAAATATTGTATTTGCTAGGAATTGATTATTTCTTACATTATATTTAAAAAAGTAATTGATTAGAATTTTTATAAATTGAATTAAAATCTTTATATTTGTTTTAAGTTTATATGTTTTAGTTATTATTTGTCATTAATTGTATTAGAACAGATTAAAGATGAAAATTAAAAAATTGCAATTGATATAATAAAGAAAATGTACTATATAGTCTCTTGTTAATTTTAAGAAAAAAGTGAGGCGTTTTTAATGATGAAAAAAAGTGAAATGTCAGAAGAAGATATCAAGATAAAATTTATAAATCCAACAATTGAAGAAAAAGGATGAAAAATTGGTGAAAATTATAGAACCGAATATACATTTACTGATGGACAAATTCAGATTTCATCAAATGGAAAAACTATAAGAGCTAAAAAAAAGAGTGCTGATTACTATCTTTATTATAAGGATATACCATTAGCTATTATTGAGGTTAAAAAAAATACTAAATCACCTAGTTTTGGTATTCAACAAGCAATTGGATATGCTAAAGCGTTAAATTGTCCTTTTGTTTATTCTACTAATGGCGACAGTTTTATAGAATTTGATAAAACTACAGGAAAAGAAATAGAAATAAAGTTAGAAGACTTTCCTACTGTTGATGAATTAATAGATAGATTTAAGCAGGAAGGTAATATAAGTCAAAAAGAATGAGAGGTATTATCTACTAAGAACTACTATGTTCAAAGTTTTAATGAAGCTAGATATTATCAAAATAATGTAATAAATAAAGTTGTTCAAGAAGTGACTAAAGGTAAAAAAAGGTTAATGTTTGTTATGGCTACTGGTACAGGAAAAACTTTTGTTGCTTCTCAAATAATTCATAAACTTCTTACAAAAAAAATAAAAAAAAGAATTCTTTTTTTAGCAGATAGAAATATCCTAATTGATCAATCTATCGCAGGTGATTTTAGATTTTTACAGAAAAAAATGGTTAAAGTTAATCAAAAATTATTGTCTTCAAAAGAAAAAATAAATTCCTATGAAGTGTATTTATCTTTATACCAACAACTACTAGGTCAAAATAAAGAAGAATATTATAAGAAATTTGATAAGGATTTTTTTGATCTTATTATAATTGATGAAGCGCATAGAGGTTCTGTAAAAGAAGAAAGCAATTGAAGAGACATACTTGAATATTTTGAATCAGCTACACAAATAGGAATGACAGCAACACCAAAAGATGATGCTGATGGATCTAATTTTGAATATTTTGGTGAACCAGTATATATTTATTCTTTAAAACAAGGAATTGAAGATGGTTTTTTAGCCCCTTATACAGTTAAAAGAATTAATTTAGATATAGATCTAACAGGCTATAGACCTAAAAAAAATGAAACAGATATATATGGTAATTTAATTGAAGATAAAATATATACTCAAAAAGATTATGATAAAAAATTAGTAATAGATAACAGAACAGAAATTGTTGCAAAATACGTATCTGATTTTTTAAAAGAAACTAATAACAGATATGAAAAAACAATCTTCTTTTGTCAAGATATAGATCACGCTGAGAGATTAGCACAAGAACTTAAAAATCAAAATAAAGATATTGTAAAAAATGAAGATAGATATGTGATGAAAATTACAGGAGATGATCTTGAAGGTAAAGCGCAGCTAGATAATTTTATGGATCCTGACTCAAAATTCCCTACTTTAGTAACTACTTCAAAATTATTAACAACGGGAGTTAATGTTAAAACTTGTAAATTCATAGTTATTGATTCTAATATCCAATCAATGACAGAATTTAAACAAATAATAGGTAGAGGTACAAGAATAAGCGAAAAACACAATAAGCAATTTTTTACTATTATTGATTTTAGATCTGTTACAGATAAATTTGCAGATCCTGATTTTGATGGCAATAGTGCTAATAGTGAATCAATTAGTAAAGATAAAATAGATGTTGATCCAATTGATTATAATGAACCATCAGAATTTGTTTGTGGTGAACCCACTATTGAGCAAATATCTTTTAGTGAAAAGAAATATAGAATAGATAATGTGGATGTAAATATTATGAACGAACAAATTCAAATTATAGATGAAAATGGTAAACTAATTACCACTTCTTTAATTGACTATACAAAAAGAACAATTCTAGGAGAATATGCTACACTTAGTGATTTTCTTACTAGATGAAAAAAAGAAGATAGAAAAAACGTTATTTTAGAAGAACTAGAAAAAAAAGGAATCAATATAGAAGATCTAAGAAAGAAAAATAAAAATTATAAAGATTTAGATGAATTTGATCTCTTATTACAAATTGCTTACAATAAAGAACCATTAACTAAAAAACAAAGAATTCAAAAGTTTAAAGATAGTGATTTTTTACAAAATTACCAAAACAAAACTAAAGAAGTTTTAGAAATTTTAATTGAAAAATATTTAGATGGTGGTATTAAAGAAATTGAAGATATTCAAATTCTTAGAACAAAAGAATTTGAAAATATAGGTAGCATAACAGATATTATAAAAATGTTTGGTGGAAAATCACATTATATTAAAGTTGTTAGATCGCTATCAAGACAAATTTATTCAGATTATTAAAGGAGTATAAATAAATGTCAGTAGATGCTTTTATAAGTAGAATAAGAAATATTACAAGACAAGATCAAGGTATTAATGGTGATGCTCAAAGAATCGAACAAATGTCATGATTACTTTTTTTAAAAATATATGACAGTAAAGAAAAAATATGAGAAATAGAAGATGATAATTATAAATCTATTATTCCTGATAAATTAAAATGAAGAAATTGAGGCACTAGTTCAAATCCACTTACAGGTGATGACTTATTAGATTTTGTTAATAATGATCTTTTAAAAACTTTAAAAGAAATCGAAATTACTCCTGATATGCCTTTTAGAAAACAAATTGTTAAGTCTACTTTTGAAGATATTAACAACTATATGAAAAATGGTATTTTGTTAAGACAAGTTATAAATGTAATTGATGAATTGAATTTTGATAATATTAAAGAAATACATTTATTTAATGACATATATGAAACTATATTAAAAGAAATTCAAAATGCTGGTAGTTCAGGTGAGTTTTATACTCCAAGAGCATTGACTGATTTTATAACTGAGATATTAGATCCAAAATTAGGTCAAACTATGGCAGATTTAGCATGTGGAACTGGTGGATTTTTAACTTCTTTTTTAAATAGAATAAGTGAACAAAAAAAGACTGTTGAAGATATTAAAACATACTCTCAATCGGTTTATGGAATTGAAAAAAAAGGATTTCCCTATTTATTAGCTGTTATAAATCTTTTCTTACACGATGTAGATGATCCTAATTTATTGCATGGAAATTCACTAGAAAGAAATGTAAAAGATTATAGTGAAGATGAAAAATTTGACCTAATAATGATGAATCCTCCTTTTGGTGGTTCTGAACAATCAATAATTCAAAATAATTTTCCAAAAGATTTAAGAAGTGCAGAAACTGCTGATCTTTTTATGCTAGTTATTATGTATAGATTAAAAATGGGTGGAAAAGCAGCTGTAATACTACCTGATGGATTTTTATTTGGTTCAGGAGTGCAAAAAAATATTAAGAAAAAACTATTTTCTGAATTCAATGTTCACACAATCATAAGATTGCCAAAATCTATATTTAATCCATACACAAGCATTAATACTAATATTATTTTCTTTGATAAAAACGGTTCTACAAAAAGTACTTGATTTTATAGATTAGATATGCCAGAAAATCAAAAAAATTTCTCTAAAACAAAACCGATGGAATCAAAACATTTAGATCCTATAAGACAATGATGAAATAATAGAAATGAAATTATAGAAGATACTTTTTATAAATCAAAACAATTCAGTATTAGTGAAATTGAAGAATTAGAATATAATTTGAACCAATGTGGTTATTTAGAACAATCTGAAGAAGTACTTGAACCAATGGAACTTATCAAACAATATTATGATAAAAGAAATGAATTAAATAACAAGATTGATAATGTCATATCTGAAATTATAAAAATATTGGAGCAAAAATAATGACAGCTGAACAATTAAGAAAAAGTATTTTACAATGAGCAATTCAAGGCAAATTGACTAAACAAAATCCTGATGAATCAGCTGTTGATTTATTAAATAAAATCAGGTTAGAAAAACAAAAATTAATTAAAGAAAATAAAATCAAAAAAGATGATTTTACTAATTCTTTTATATATAAAAACACTAGTGATAATTGTTATTATGAGAAGTTTGAAGATAGTATAGAAGAAAAAATAGAAGTTCCGTTTGAAATACCAAATAACTGGGTATGAGTAAGACATAATATGATACTAAAACTAATAGGTGGTTCACAACCTCCTAAAAGTACTTTTATAAGTTATCCTAAAGACAATTATATAAGATTGTTTCAAATTAGAGATTATGGTGACTCTCCAATTCCTGTCTATATTCCAATTAATAAAGCATCTAAAATCACTAATAAGGGGGATATATTAATAGCTAGATATGGTGGTTCTCTTGGTAAGGTTTTTATAGCAGAATATGGGGCATACAATGTGGCTATGTCCAAAGTAACAAAATTATATATTAATGATCATATTGATTTTAACTTCTTATATTTTTTCTATAAATCAAAAATATTTCAAGAAATAATAAGAAGAAATAGTAGAAGTGCACAAGATGGATTTAATAGTGAAGAAATCAACGATTTGTTATTACCACTACCACCACTTGAAGAACAACTAAGAATAATTACTCTTCTGGATAAGTTAAATTTATTACTGAATAAATATAGTTTAATAGAAAATGAATTGTCAGAATTGGAAAAAACATTTTCTATAAAATTACAAAAATCAGTTCTTAATTATGCTATGCAAGGTCAACTTGTAGAACAAAGTATAAATGATAATTCAAAAGATTTAATAGAGCAAATATATAAAGAAAAAGATGGATTATTAAAACAAAAGAAAATAAAACAAAATGAACTACAAAAATCTATCATTTATAAAAATATTAGTGATAACTCATATTATGAGAACCACAATTTTGTAGAAGTACAATTAGGTTTAATTTCAAATATTTACACTGGAAACAGCATTTCAAAAACACAAAAAGACAGATTTTTTAGAAATGTTAAAGGAATGAGTTATATAGCAACAAAAGACATAGATTTTAATAGGGAAATAGATTATGCCAATGGTGTTTATATTCCAAATGAAAATCTTGATAAATTTAAAATTGCTCCTAAAAATTCCGTTCTTCTATGTATTGAAGGTGGAAGTGCAGGAAGAAAAATAGGCTTAATAGACAGAGATGTTACTTTTGGTAATAAACTATGTTGTATTAATTCAAACTTTGTATCTAATAAATTTATTTTTTATTACTTACAAAGCGATTTATTTTTAAATCCATTCTATAAGCAAATGACAGGAATCATACAAGGTATTAATCTATCATTGCTCAAGGAAATAAAAATCCCAGTATTTTCTTCTTGTTATCAACAAGCCATTATGAATAAACTAGATAGAATCTATTCATTGATTAATATGCTAAATTAGATAAAAAAACAACAGTGAATATTGAATATTCACAATACTATTGAGTATAATAAATTAATGCAGTTTTATATATTTATTAATAAATATGGTATTTAAAAAGGAGTTTTTTTAAAACTCCTTTTTTATCAATCTATAACATCATCGACTATTTGTTTTTGTTCTGATGAACTTCTTCCTAGATAGATTCTTGTTGTTTCAATACTTTCATGACCCATTAAATCAGCTAATAGTGAAATATCATTAAATCTTTCTAAAAAATTTTTTGCAAATAAATGTCTAAACGAGTGTGGATAGACAACATTTTGATCAATTCCTAGTTTACGTGCTATTTTTTTAAGTTGCTGAGAAATAGCTCTTGTTGAAATTGGCTGAGATAATTTATTTGTAAAAATATACCCACTTTTTTTGCCTTCTTGTTTTAACCACACATTTATTGCATCTGTTAGTTTTTTAGGCAAATATAATCTTCTTAGTTTGCCACCTTTTGAATATATATCAAAATATTCAAGTTTAATATGTTCAACTTTTACTTTTATAAGTTCACTTACTCTTGCACCTGTAGCAGCTAAAAATCATACTACAAAATATCATTTATAATTTTTCATTCTTTTTAAACTTTTCTTTAGAAAAACATAATCAGCATTACTTATAACATTTTCTAAATAAGTTTTATTTTGAATCTTTATACTATGTATTTTTAGTTCTTTTTTATTTATAAAATCTAAATATTTATTTATACTATGTATTCTTAAATTAACAGTTTTAGGTTTAAATGTTTCAAGTAAATACCCTTTATATGCTAAAAGATTATGTGAGTTAATTTTGTAATTATTAATAAAATATTCAACACCATAAACATATGTATTAATTGTATTAGTTGAAAGATTTTGCTTTTTCAAATATAATATAAACTTTTCCATTTTTATATAACTCCTTATTAAATGCTATAGAGTGTATATAATAATGCTTTTTTATAAAATTTATACTATAAAGATAGTCAAAATCGCCATTAATTAGTCATTGAATCAATTAAAACATTAATTTTATTAATTTTGTTAACAATTTGTTCTTGTTCTTCAAGTGGTGGTAGTGGTAATAACAAATCGTTGATTTCTTCACTATTAAATCCATCTTGTGCACTTCTACTATTTCTTCTTATTATTTCTTGAAATATTTTTGATTTATAGAAAAAATATAAGAAGTTAAAATCAATATGATCATTAATATATAATTTTGTTACTTTGGACATAGCCACATTGTATGCCCCATATTCTGCTATAAAAACCTTACCAAGAGAACCACCATATCTAGCTATTAATATATCCCCCTTATTAGTGATTTTAGATGCTTTATTAATTGGAATATAGACAGGAATTGGAGAGTCACCATAATCTCTAATTTGAAACAATCTTATATAATTGTCTTTAGGATAACTTATAAAAGTACTTTTAGGAGGTTGTGAACCACCTATTAGTTTTAGTATCATATTATGTCTTACTCATACCCAGTTATTTGGTATTTCAAACGGAACTTCTATTTTTTCTTCTATACTATCTTCAAACTTCTCATAATATGAGTTATCACTAGCATTTTTATAGATAATTGAGTTTACTAATTCAAACTCCTTACTTCTATTTTGTTTAATTATTTCTTGTTTCTCTCTATAAATTTGTTTTAATAAATCATTTATAGAAGAGTCGTTTTCGTCTTGTTTTACAAGTTTGCCATTCATAGCATAGTTAAGAATAGATTTTTTAAGGTTAGAAGGGAATTCCTCTTCTAATTTTTTTAAATAATTTTTTAAGAATGAGTATTCATCTATAAAAACATTTAAACTATTAATTATTTTTACAATTCTTTTTTGCTCTTCTAAAGGAGGCAGAGGAATTAATAGACTACCTATACTCTTAGAATTTAACGTTTTTCCTTTGATGGCATTTTTTGTATTTCCAAGATTTGAAATTACTGGTAAAAATATATTTAGAAAATCTCTAATTATAAATTCATTATCAAAATAAGGTTTTATAGAAACAATTCCCTCGTTATGTGTACAATTTATTTTAGCAATTGATGTTCTTCCTATAGTTAATTTAAAACTCATAAGCAATGTTTCTTTTTCTACAAGATAATTTTTAAAAATAACCTCTAATGCTTTGTGAGTTATAAACTGTGAAGATTGAAAAAGTTCTTTATTGTTTTTCATGTCAGCTATTGTTATTCATGGAATTTCACCATTTCAAAATATTTTATTTCCTCTTGGCGGTGTCTTTCCTAAATTAAAATTTAATATACTCTTAAGTCATACCCATACTCAATTATCAGGTATTTCAAACGGAACTTCTATTTTTTCTTCTATACTATCTTCAAACTTCTCATAATAACAATTATATAAACTAAAATATAAACTTAAATTCTAAAATTAATCTATAAATAATAATAAAACAAATACTAAAATTTTATATAGTTAAACAAATTTTCCATATATAAAAATTAGATAAAATAAAAATAGAAAACTTATATAAAAACTTTTTAAATAATAAATATAAAGTCAATTTTAATTAGTAATTTTAAGGAAAATTTTATGAAATCTCTTATAGGTTATATAAATAAATTTACTCGTATAGATAAAAACTGAGCTGTTGCAGAATTTTTTGTTTTAGAGAAAAATACAGCTATTAAAATTAGTGGAAATATTAACAGTATGTTAATTGAAAATTTATATAAAATTCAAATAAAAGAAGAACCAAAAGTAATAAATGATACTAAGATTTATGAATGCAAATCTTTTCAACTACCAATTATTAATAATGAAACTTTTTTTAAATATTTAAAAACTAATACATTTAGTAAACTTGTAGATGATGATTTTATTAATATAGTAAAATCACACTATAAATCAGATGATATTTTAAAAGAAATACTTTCTGATAAAGATAAATTTCTAGATATTAACCAAGTAGGAAAGCATATTTTAAATAGCATTTTTAACAAGCTTAATAATACTAATAATTTCATTAGTCTACAATCAGAATTTCTTGGTAATGGTCTTGATTTAGCTGTATTTAGTAAACTAATACAACTATATGGAAACTCATTTGATCAATTAATAAAAGCACTTCAAAATTTTTTATATGAGATTAATTTTAAATATCAAATAACTAGTCTAGAATCTATAGATAAAATCTTTTTACACTTTAATAATGATGCGAATAATGTTGTGCGAATTGCTTATTATTTACATTATTATTGTGATCAAATTCTAAATGAAAAATCTAGTACTTATACAAATTTAGAAAATCTAAAAAAACGTTTTGATGATGAAGAAAAATTTTTTATTCCATTAGAATCAAATGAACAAGTTATTAATGAAGCAATAAATTATGCTTTAACTCATAAACTACTTGTTATTGCTAAAGATAAAGTTTATACAACTCAAACATATAATGATGAATATACTATAGCTTTGGCTTTAACTAAAAAAGAAAAAGTTGAAAAAATTAATTATTTCAAATTTAAAAGATATATAAACCAAATTCAAGACGAAGTTAGAAAAGAAACAAAAATAGAAAACTTTAAATATGATAAAAGCCAAATTAATGCATTAAGAAAATTTATTAATAATAAGTTTGTAGTGATTACAGGAGGACCTGGAACAGGTAAAACTACTTTAATAAAAGGTTTAGTAAAATTATTTAAAAAAGTTTATCCAAACGAAAGTTTTAGAATAGCAACACCAACAGGAAGAGCAGCAGCAAGAATCAAAGAAGGTTTTGAAGAGTCTAATGCTTTAACTATTCATAAATTATTAGGATATGATGTGTTAACTGATAAGTTTAAAGTAGATAAGAATAATCCTTTAAATGATGGTTTATTAATTATTGATGAAACTTCAATGGTTGATAATAATTTATTTAGTCATTTTATTTCAGCTATTGGAAAGGCAAAAAAAGTAGTTTTTGTTGGTGATATAGAACAATTGCCAAGTATTGGAATTGGTAATGTATTTGAAGATATTATTAAATCTGAAAAAATAACAACCGTTGAATTAAAAAGCACACACCGTCAAAAAGAACAAAGTAAAATTGTTGAACTAGCTTATATGATTAGAAATAACAATTTTAGTCTTGCAAAACTTCAAGAAACTACAGAAAACAGTGATTTAAAAACTATTTTTATTGATGAACAAGACAAATGCTTAGATGAAATTTTAAATAATTATCATTTTGAGAATAAGAATGGTTTTGATATCCCATATAAGATTCAAATTATTTCTCCCTTTAATGAAGGAAAATTAGGAATAAAAGAAATAAATAAAATGGTTCAAGATAAACTTAACCCAAATAAAAAGCAAGGTTTGCAAGCAAATGGTTATAACTTCTATAATAAAGATAAAATAATGTATCTAAAAAACGAAACCACTTTATCTAATGGTGATATTGGAGTTGTTGATAGTATAAATAAATATGATAATAAAATGAATACGAATTTTAACGAAAAACCAATTCAAATAAATAGCGTAGATATTAATAATTTAACTTTATGTTATGCTTGTACAGTTCATAAGACTCAAGGTAGTGAATTTCAAAAAGTAATATTAGTATTAGATCCAAAAAATAATGGTTCTTTTGTTAATAAAAAGTTAGTTTATACAGCCATAACTAGAGCTAAAAAAGAACTTGTTATTATCGCAAGTAAACAGTCCTTTAATAGAAGTGTTAACCAAAAGTCAACCCAAAGAGACACAACTTTAACTGAACGTATAAGACAAATGTATGACAAAAAAAGATAATTTCTTTTTAGAATAATAAAGTATTTATTGCAGAATAAAATATTTATAAAAAGAAACGTTTTATAAATTCTACTACTTTTTAAAACACAACATAATAAAAGAAAAAGAGGCTTTTTAAGCCTCTTTTTAATTATTATTCTATTTCTTTAACTTCTATTTTATCTAAGTAAGTAGATAGTTCATCAATAAATTCTTTTGAAGCTATTTTATAACTAAAAGCAGTTGCACTTCCACAAATTAAAGAAAATTTCAAAGCTTTTATATAGTTATTTGTTTGTAGATATTTGGTTATAAAACCAGCAATCATACTATCACCAGCCCCAGCAACATTATCTACTTTATAATTTCACTTTGGTAAACTAGCTTTATAAATTTTTGTACTAGTAACTAAAATAGCTCCGTCACTTCCAAGTGAAACTAGAACATTTTTACAACCTTTTTGTAATAAAATTTTTGATTGATTAATAATATCAGAATTGTTTTTAAGTTCCTTATTAAATGTAGCTTCTAATTCATCTTTATTTGGCTTTATTAAAAATGGTTGTTGTTCAACTGCTTTTAATAATGGTTCTTTAAACGTATCAACAACACTATAAGCTCTTTTTAAATTAGCTAATTCTACTAGTTCTGCATAAATATTTGTATCAGTATTAATTGGCAAACTTCCTGTTAATATTAAAACATCATCTTTTTGTAATACATTATTTAAATATTTCTTTAATTTATTAAGTTCACTAATATTAATTTCTGGAGCATAACTACTTGATTCAGTTTGTTCATTATCTATTATTTTAAGATTAATTCTAATATCACCATTTGACTTAAATTTTTTATATTTAATTTGTTCTTTTTTTAAATCGTTATAAAAAAATGTTTCAAAACTACCGTTTGTAAATACTAATAATTCATTATCTATATTTAATCTATTTAATAGCATAGATATATGTATTGCTTTACCAGCAGCATACATATACTGATTTTTAGGTCTATTAGTTTTGTTTTTTAAAAAATTCTTAAATTTTAAAATGTAGTCAATTGAAGGGCTTAATGAAACGATATAAATTTTATTATGCATTTTTATTTCTTTCTAATTAATCAATTTATAATCAAGAGCTATTTTATTAATTGCATTATAATATTTGGTTTTAAAATCTCTTAAATTTTTATTAGTTAGTATCTCTAATTGGTTAATATAATTGTTGATTTTTGTATAGTTAGTTTGTGAATTTTTAATAATAATATCTTGTTGAGTCTCAATTTGAGTTTGTAATTTAAGTTTATTTTCTTGAAGTTTTTTATTTAAAATATCACTTTTAATTTTATAAGTTTTAGCTTCTTGCTGTTTTAATTTTTCAATCAGCTTTTCATATTTAACAGTTTGTTTTGAAAGTTTTTTAATATCTTTACACATTAAATCTATATTTTTATATGCTTTAATAATTTCAGTTTGATTACTATTAGTTTGTTGTTTTTTAATTTTTAATTTTACTAAAAGATTTTGTAATCTAGAAACATAATGTCCAGTTTGAATTTTTAATTCCTTTGTAATGTTTTTAAATAATATTTCTTCAACTTGTTCTTCATTTCAAAATACATAAGTAATTAGAATACCTAAAACAAATGAGGCTAAATCAATTATAATTGCTAAAACAAGTTTATCAGTATAAGCTAAAAATCCTACAATTCCACCTAAACCAGCTAGATTATTTAACCCAACATTAAATATAGAAATTAGTCAACCACCAATTCCTCCAGCAATAGTTCCTAAAATAAATGGTTTGAATCTTGGTAAGTTAATTGCATAAATACAAGATTCAGTTGGTCCTGAAATTATTCCAGGTAAAGCTGCAGCAATAGCTGCTGATTTATCTACACTTTTTTTAGATTTAATACCAACAGCAATAGTTGCACCCATTTGAGCTCAAGCTGCAGCAAAAGCAGCCGCTAAAAATATTGATGGGTTATTAGTAGTTGTTAGATCAGCAACAGCTGTAAAAAATAGAACGTTATGAACTCCTAAAACAACTAGTGGTTGCCAAGTTAATCCAATAATTAAACCACTAATTCCATAAGGTAAAGTTACAAATCAATTAAATGCTTTTAAGACATATGATTCGATTATTGACATTATTGGACCAATAACAAAAAATGCTAGTAATCCACCTATTAGTAATGATAAAAGTGGGTTTAAAATAAAATTAGCAACTGAATGAAAATATTTATTCATTAATTTTTGAAAATAAGAAATAACTACTCCAGTAAAAATAAATACTAAAATTGTTGAATAAAATGGTTTTATAACAATTTCTCAAGAACCAATATTTAACAAATGTAATCCTTGTTCTGGAATAATTGGTGAAATCATAATTAAACCTAAAGCAATAGCAATTGCAGTATTTCCTTTTAAATATCTAGTTGTTGATCAAATTACCATTACTCCTATTAATTTAAATCCTGAGTTAGCTATTGTATTTATAACTAAATCAAAAACATTATAGTCATTTTGAAACACTGATTCTGATTTAATTGAATGTACTAAACCAATTCTAATTAGAATTTGTTGTAAAGCCATAATTAATCCAAATCCAATTAAAAATGGAATTAGTGGACCAAATATTGCTGAAATTGATTTAACAAATCTTTTAGCAAGTCCTACTTTTTTATTATTTTCATTTAATGAATTTTTAATTTCAAATCCATTAATTTTATCTACATCAACTTGTAGTTGTTCTTTTAAAAGATTAGTTATTTGACTAACTTCTGAACCTATAATAATTTGTAATTCTCCACTAGAAATTAAACAACCTTGTGTTTTTTTTAAAGTTTTTAAATTATCTAATTTAATTAAACTTTGATCATAAAGTGTTAGTCTTAATCTTGTTGCACAATTATAAACATCTTTAATATTTTGTTTCCCACCAACATTAATAACAATTTCTTCAATTAATGCTAGTTGTTTTTGTTGTTTTGTCATATAGATCCTTATTCAAGGTTTATAATTAGTCCTTTATATTCATCTGTATGTTTATCACTTATTAAAATAGTTTCTTTTAAAACATCTACTTTAATAACATTTTTAGAACCAAATTTAGAAGAATCCATTAATATAAAAGATTTATCAGAATTTTTAATAGCTTTTTCTTTTATTAATGCTTCTTTAATATTTGTTGTGTAAAAATGTTGTGATGACAAATTATTCATTCCTATAAAAACCTTATCAAAATAAAAATTATCTAAATTTTTCAGAGCAAGTTCACCAATTGTTGCATGTGTAGAAGGATTAATTGATCCACCTAATAAAATTACTTCTATGTCTTGTTCAACCAACTCTAAAGCTATTGAATATCCATTAGTAACAACAATTATTTTTTTATTAATTAAGTACTTGATCATTTGTTTTGTTGTTGTTCCAGTATCTAAAAAGATTAGATCACCATCACTAACAAACTCACTAGCTTTTTTTGCAATAAGATTTTTTACATCTATATTTATATGTTGTTTTTCTTCATCAAATAATTCGTAGCGTTTTGTTGGTGGATTGGCAGATTTTGCTCCACCATAAACTTTATAAAGTTTATGTTCTTTATCTAGTTCAGAAATATCACTTATAATAGTTTGGATAGTTGATGATAATAATTTAGCTAGTTGTTTATTAGTAACAAAGTCTTTTTCATTAACTATTTCAAGAATTTTTTGTCTTCTTTGATCTTTTAACATCACTCTTGCTCCTTAACTTTATTTTATAGTTAATTTTAAAAAAGTTTAAAAAAGTTTAAAATAATTTAAAGCTTATGTAAAATTTAAGTAGATATAAGTTGAAACTTTTTATTATATCTTTAATTTAATTAAACAAAATTATTAGTTTATTAAGATAAATTTCATATTTTATTGTTAAATAAACTATTTTAAAGGATGATTTATGAAAGCTAGTTTAAAAGAGGAATTATTAAAAGCTAGAAATAATGGGTATGCAGTTGGTGCTTTTAATTTTGATAATCTTGAAATGTTAAAAGCAATAGTTGAAGCGGCTGAAGAATCAAATTCACCAGTAATTATAATGGTTACAGAATCTGCTGCTAAATATATAGGAAAAGAAATAGTTATAGCTAGTGCTAATGCAATTATTAATAACACTAAAGTTCCTATAGTTTTACATTGAGATCATGGTTATGATTTAGATTTACTTAAATGAGCTTGTGATAATCATTTTTCATCAGTAATGTTGGATGCTTCATTGGATGATTTTAATACTAATGTAAGTAAGACCTTAGAAATAGTTAGGTATGCAAAATCAAAAAGTGTGGAAGTCGAATCTGAAATTGGTCATGTTGGTGGTAAAGAAGATGATACGGACTCAAATATAAATAAATATACTGGTGTTAAAGAAGCAATTAAGTTTGCTAATTTAACTAATGTTGATGCTTTAGCTATAGCTATAGGAACAAGTCATGGATTTTTTAAAACTGCACCTAATTTAAACTTTAAAAGAATAAAAGAAATTAATAGTGTCATAGATACACCTCTAGTTTTACATGGATCAAGTGGTCTTAGTGATACTGATTTAAAAAAAGCAATAAAGGCTGGTATCTGCAAGATAAATATTGGAACTGATTTAAAAATAGCATATGCTGATAGTTTAAAAGAGTGATTTGAGCTAAACACAAATAGTTATGATGCTAGAAAATTTGGCCGCTTTGCAATTGATAAAATAAAAGAATTAGTTAAAAATAAACTTGAAATTTTAGGTTCAGTAAATAAGGCTAGTTAATCTTTTAATATTTTTAAAAAGTTTGTATCTTATTTTTAAGCATTTTATATGAGGTAAAATTAAATATTCGAAAAATATAGATAACTACGTACAATTATTTTTTAAAAAGTAGAATTTGTCCCTTTTAATATCATTTTGTCCCTTGAGTTGTTATACTAATATTAAAGGATTGATGTGTTATGAAAAAGGGTGCAGTTATAAATCTAATCAAGTATTATGTTGAACACAATGACTATGCTTTTAGAAATCAAGCTTATGAAATAGCTTATGATTTTGAAAAAATGGGTGATTATCAATTATTTGATTATATAGTAGGAATGTTATCTGGAAACAATATATTTGTTCCTCAAGATTTAAAAAATGATTTAGCTTTTGCTAGTAAAGTCAAAATTGATAATGAAAAGATATTTCTACCAGATGTTATTAAACAAGATGTTATAGGTTTAATTAATGCTACAAATCATAAGGTTGGAGTAAATAAGTTTTTATTTACAGGCTTACCTGGAACTGGTAAAACTGAATGTGCGAAATTAATTGCTAGAAATTTAAATAGAGAGTTATTTATAGCGAATTTTTCAACTCTAATTGATAGTAAATTAGGACAAACTGTAAAAAATATTACTAGTCTATTTGAAGAAATAAATAATCTAGCAAATCCATCAAAAGTAATTATTTTATTTGATGAAATTGATGCTTTAGCTTTAGATAGAACTAATTCAACTGATCTAAGAGAAATGGGAAGAGCAACAACTGCTGTTTTTCAAGGATTAGATAATTTAAATTCTCAGATTTTATTAATAGCTACAACTAATTTATTTAAACATTTTGATAAAGCTTTATTAAGAAGATTTGATTCAATAATTAATTTTGATCGTTATTCTAAACAAGATCTAATTGATATTAGTGAAATTATTTTTAACGAATATATTCAAAAATTTGATAATTTAACAAAAAATATCAGATTGTTTAAAAAAATAATTGCTTTATATGAAGATATTCCAAATCCTGGTGATTTAAAAAATATTATTAAAACCTCTTTAGCTTTTAGTGATCCAAATAATCCAGTTGATTATTTTAAAAGGTTATATAAAAATGTTTTAGAAAGTAATTCGATAAATTTTGATTCAACTGATACTGAACTTAAATATTTACAATTAAAAGGTTTTACTTTAAGAGAAACTGAAATTTTAACTGGTGTTTCAAAAAGTCAAGTTTCAAGAGATCTTAAAGGAGAGTAAGTATGAATGAAATATTAGAAATAAAGCCTAAATTTTTTTATGAAGAATTTAGTGCTTTAGGTGGATCTATAAAATTGCCTAAAAATTCAAAACCAGTTAGTTTAGATCATCTTTTAAAATTAAAAAAAGATTTGGAAAATGTTTATTTATTTTGAATCAAAAAACAAGTTAGTTTTAATCCAATAGTTAGTGTGTATTATAAACGTATTATTGCAAAAAGTAATAGAATAAAAGGGTTATTTAAAAGTACATTAGATGAAAATAACGAATTAATAGTTGGTTCAAGATTTTATGATGATAGTGACAAAAAACAAATAATTACTTATTGTGTTAGTTTAAGAGATCTAAATAAAGCATTAAATAACTTAAAACAAATTATTGAAATTGTGAAAAAATATTTCTCTAATGGTGTGTCATATGAGATTATTGAAAAAATAAATGACAATAAATATGATAAATTATTTAACAATAAAGAAAATATGATCTCTAAAACTAGGTTTGTAAGTATTATTGTTGATGCCTATTATATAGAAGCTTTAAGAGTAGATAACTATAATAAAGAAGTTTCTAATAATTCTATAATCACTATTTATGATACAAAAACAGAGTTAAAAGATATTTTTAAATGACTTAATATAGATGTTTCAAAAATGAATAAAATTGATGAAACTACTTTTTGAGCAACTCCTGAGATTTATGAAATATTTAAATTTAAAGCACCTTATTTAATTGCAATGTCAACTGATGACAAAATATATCTTGATTATGAAACTGAAAAGAAAATAAAAACTAGTATTGATGAAGAATTTACTATACCAGATCCAACTAATGAACCAATAATTGGTGTTATTGATACACTTTTTTCAAATCAAGTTTATTTTAATAAATGAGTTGAATATAAAGAAATGATAGATAAAAATATTTATGTTTATGATAATGATTATGATCATGGAACTGCTGTAAGTTCTATTATTGTTGATGGTCCTAGATTAAATCCAAAACTAGATGACGGATGTGGAAGATTTAGAGTAAAGCATTTTGGAATAGCTGCTTCTAATTACTTTAACTCTCTTTCATTATTAAGAGTAATAGAAGAAATTATTATTTCAAATAGAAATATTAAAGTTTGAAACCTTAGTTTAGGATCAAAATTTGAAATAAATGAAAACTACATATCTATAGTAGCTTCTATATTAGATAAATTACAATATCAATATGATGTAATATTTGTTATTGCTGGAACTAATAAAATTATCAATAGTGATACTGTTAAAATAGGTTCTCCTGCTGATTCTATTAATGCTTTAGTAGTTAATTCAGTAGACTTTAAAAATAATCCAACAAATTATTCTAGAACTGGTCCTGTACTATCTTTTTTTAATAAACCAGATGTTTCATATTATGGTGGAACTATTGATGAACCTATTTATGTTTTTACTCAAAATAATAAATTAGAAAAATCAGGAACTTCATTTGCTGCTCCTTGAATAGCAAGAAAACTAGCTTATTTAATTCATATTATAGGTCTATCAAAAGAAGTGGCTAAAGCTTTAATTATTGATTCAGCTTGTAGTTGAAATACAGATTTTGACAATAAACATATTATCGGATATGGTGTTGTACCAATTCATATAAATGATATTTTAAAAACTCCAAAAGATGAAATTAAATTAATTGTTACTGGTGTAAATGAAAAATATAATACTTATAATAACAATATTTTAATTCCAACATATGATAATAAATATCCTTTTGTTTGCAAAGCTACATTATGTTATTTTGTAGATTGTTCAAGACAACAAGGTGTAGATTATACTAATACTGAATTAAGTATTAAATTTGGGCGAATTAAAAAAGATAAAAATAATAAACTACAAATCATAGATATAAACAAAAATAACCAAGACACAGATCAATTAATTTATGAAAAAGAAGCTAGAGAATGATATAGAAAATGAGATAACGTTAAACACATTAAAGAAAAACTATTTACTACAAAACAACAAAAGCTAAGACCTAAAAAAGTCTATGATAATCTTAATTGAGCTATTTCTATTAAAACAAAGCAACGAATAAATTCTAAAAATAAAAAACAAATAAATTTTGGTCTTGTTATAACTTTAAAAGAAATCAATGGAGTTAATAGAATTGATGAATTTATTAAGCTTTGAACTTCTAATTTTCATCCTTATATAGTACGTAGAATTAGTATTGAAAATAGTTTAAAAAATTATCAAAAAAACTTTGAAGAAATTAATTTTGAATAATACTAGTTAAAACATTTAACAATTACATGCAAAGATAAAATAAATATTAAAAATTTTTACAATATTTTTTTATCTTTTTTTTATAAATTTTAATAAATGTTTTAATTAATATGAAACAATACTTTATTTGTATATAATAAAAAATACTTTAAAATATATTAGTTAAGTAGGTATATTTTTTTAATAGATATAAACATATAAAATTCTATTTAAGGAGTAAAATAGTGTATTTTTTTAAAAAGAAGAAAAACAAGATTTTAATATATGCTTTACTAGCTAGTTTAGCTACTTCTTTATCATTTGGTTCGGTTATATATTATTCAATTTCAGATGCAAATATTTCATTTGAAACTTCATCAAATGGAATAACTGATGCTGATTTAACTCCAATTAATAACGCAGCAAATGATGCAATTATTTCAAATAGAGATAATAAATTAAAACCAAATCCTGAAAAAATTATTAAAGAATCTGAAAAACAAGAATTAAATAAACTAGTAATTCCTAAAAAAGAAGAAAAAGAAATAAAAGAAGCAGCAAAACCTGAAATAAAACCAGAAATTAATAAACCACAAAGTAGTACAATCAGACAAAATACTAGCAGATCAAAAACTAAAATTTCAATAAATGGTGTTGAAGTTGAAGCTGAAATTGAAGGACCAGTAGGATTTCATGTTCATGACCAAGATAGAACTAGAAAAATAACAAATCCAACTAAACCATATCAAAATCATACAGTTGGTAAAATTATTAGTATTGAAGTAACTGAAGAATTGAAAAAAAGTGTTTTAAATAATGCATTAGTTGCTCCTGATGGTCATGAAGATAAAGGTGCGGGTTTATTTAACAATACATTAATGCAGGTTTTTGATAGTGAATTAAATGGAGCATCTGATTTAATAAAAGCATTAGAAACTTTAGAAGCAATTGGAAAAGTTAATTCAGACTTTTTTAAAAATAATATTGAACGTTATCAAAAATTATTAGACTCTCCAAAAGTTGTAGACTTTTTAAAAGAGGATGCAAAGAAAAAATATCCTGAACTAAAAACAAAATTTAAAACTAAAACTCAAGAATATATTTGATTAATTCATAATTTAGATAAATCTAAATTTACAACAATTGCATCTCGATCTGAAAAATATTTAAAAGAAGGTTTAACAATTTCACCAAGAAATGCTTTTATTAACGAAAATGGAGAAATTGATTCTCATTCGTGAGGACCTCCTGCTCAATTTAACACAGTAACTTCTAGAATGCAAAGAGATAATTCTGAATATAGAATTTTTGATTATGACGCATGACAAACTAGAACTCCTGGAGATATTGATGCTGGTAATTTTCCTGGTTGAAAAAAAGAAAATGTAACTTCACAATTTGCTAATAAATTCAATTTTTCTGAAAATGATGGAATCACAGTTACTAGATTAACTAGAGAAAAACAAACTAATGCAAAAGATAAAATTAATACTGGTTTAGTTTTAGAATTAGATGTTTCAAATCCTAATGCTTATAAAAAAGCTAAAGAACTAATTAATAAATTTAAAACAAATGATGAAAAAATCACTTCTTATAGAATTAAAAATATGGGTGAAGTTGATACTTCTCAAAGTTTTAAACAAATATTAGATGAACTTCCAAATGAAATTCCACAATTAGAATTGTTCTTTTCAGACAAAGCAACAAATACTGCTAGTTTAATTGCTTTAGAAAATAAAAAAATTAAAGAATTATCATTATTTACTAATGGAAATTCACTAAGAGAGGCTTGATCATATAATCCTTTATCATTTAGAAATACAACATATATTAATAATTTAGATTACAATGTTAGTTATGATTATTCAAAATATGAAAAAATATCAACAAGAATTACTTTTAATACACTAGCTTTTGATGAAAATGATTATAAAAACAATGGTGATTATCAAAGAATTAATGATGGGTTACGAATGGTTTATTATGCAAGAAATAATGAACCGTTCTTCCAAGGAGCATTTGGTCCTGGATTAACTCCTGATAAAAAACTTGGAGATAATAGCTATCCATCTAAACTAGATTTTTCAAGAGTTACTGGTATTAAATCATTAAAAGGTTTAATTTTTCATGATGAATATGATTCATCAAATAAACCTAGAAAAATCACTGAACTAACTTTATATAATAACCAAGATTTCTTTGAAATAGAAGCTGATGAATTAGATAAAGCAAACTTAGAGCATTTATCAACTGGAGAAAATAGTCCAATTAAACCAAAAATCAACTTTAGTAATGGTAATTCAACTAGAGGTATAAGAATTAAAGGAACTAGTGAACTAACTGAATCTGGTAGAAAAAATCTTGAAAAATACTTTGATTATAGTGATAGTTTAAAATTTGCTGGTAAACAAATTCAAGTTGATGCAAACTCAACTAAGTTAAAAGAACAATTAAGATCTTGAGGATATAGTGTTTCTGATTCAAATACTAGATCATTTACTTAATCTAAAAGGAAAATAAATAATGAAAAAAATTAATAAATTATTAATGTTAATTTCTTCATCAACTTTACTTATTCCACTGACTTTGTTAGTTTCTTGTAAATCAGTAAATAAAAAGACAAGCAAACCTTTAAGTGATAATGAATTTATTAGTTTAGTTCAATCTATTAATAGTGAAGATGATCTTTTAAAATATGCTGATATTAAATATAAAGATCCATCAGGTGATCAAATCACTAAAGAAAGTGTTTTACCTACAAGATTAAGTAATGATGATATATCTATTATTTTTAAAGATCTATATGATAAACAAATTAGTGCTAATGTTACAAATATAAAATTAAAAACTACTAATAATCCATTTGAAGTTATAAATGAAGCTATTATTTTTATTGAATTTAAAAATACTTCAACTAGTAAAACTAAAACTAATAAAATTAAGTTTACTGGTTTAAATACTAAAAACACAGTTGATAATTCAGGTCATAAAGTTTTAGATGAACTAGCATACTTTAATGGTGAAGCTGGATATACTAACTATACTAATTTAAGTCAAAAAGAAAGATTTAAATTTGATAATGATAAGTATATAAAAAGATTAGAGTCTGAATTTGGTGGTTCTAATATTGATATACAAAAATTTAGAGGTTTAGAAACTAATCAAGATAATATAAATAATTTTGATAAGCAAGCTGAATCAAGTAATTTTGATACTTATTATAATGCTGCTTTAAAAGGATTTACTTTACCTGTTTATAAAGATGGTAAGGTTAGCGGATTAAAAATTAATGATGCCTCAGAAACTATAAAAGGACCATCACCAATTGATTCATTAGGTAGAAATCAAAAAGCAAAAACTAATGGATTAGCTAGAACTATACCAAATAAAACCTATAAAACTGCTGCTATTCAAACTTTTCAAGTAAGCTTTAAAGGCTGAAAAGATTATGCTCAAGAAATAGCTGAAGCACAATATTATATAAAGTTGTTTGAAAAATGAACTGATGAGCAAATCAAAGCTTATATTGATAGACAATTATGACAATTAGAACAAAATCTTAAATATGATTTAAATTTAGTAGAAAAAGATATTGCTACAACTAGATCTGATTTAACTGGAGTAATTGCTGAACATAACAAAAAAAAGGCACGAATTCAATCTGAATTTGAACAAGAAAAGAAAAAAATATCTGCTTTAAATAAAAATGGATTAGTTCAATGACAAAAAGAAGAAATTGAAAAATATAAAAAGAAAAAAGAAGAAAAGATTTTTCAAACTTCAGAATCTGGAACTATGTGAATAATGGATTATATTAATGAAAGTAACAATAAAACTCCAACCAAGTTTTATTTTGGAACAAATTCACATGTTGCTAAAGCTATAAAAGATGATTTAGTTTCAGTTTCATTAACTAGAATTAATTCAGATATTAATGTTGGTCAAACTTTTAATATAAACAGTTTTGATAAAAACTTTACAACTTTTACATTTGAAGCTGAACATAATAATAAAATTAGTGATGCTGTTACTGCTATTTTTCATGCAACCGATTTTATCAATAATGATATTAATCCAGTTAACTTATTAGAATCTAGTCAAAAAGAAAAATATAAAGATGCTGGGATATTTGCTGATTTTGCTGTTATTGAAATAGATTTTGAAAAACTACTAAAGACTGATAATTACAAACGCTCTATTTGAAATGAAAAAACAGAAATTTCGTCTAAATCACCAACTAATCAAGATGAATTAATTAAAATGATTACTAATGATTATTCAAATAGTGAACAAAAAATTCAATTTGAATCTAATTCACTACTAGATCAAACGTTTTATAATACTTTTGATAGAAAGCTTGATTTTAACCATAATAAATCTGAAGATATACAAAAATATAAAGATCTAAATAGTTTTTATATTTTAGGTTATCCGTCTTCAAAAGAAGATCATTATTTAGAAAAATATTATGATCAAAAACAATTAGATTATCAAAAATATGACTTTTCATTATGAGTAAATAGTGAGTATAAATATTATAAAAACATAGTCAAAAAAGAAGGTTATACTAGTTCTTTTAAAGATTATGAATTAGATAAAGGAAACTTTTTATCATATCAAATCGGATATAGATCATTTATTGATAAACCAGGATTAACTGATGCATTTTTAGCAGCTCATAGAATCGGTAATGATTTATACACACTTTATGATAAAGATAAAAAAGAAGTTAAACGCTATTTTAATTATGGATTAGAAATACTACCAAGATTTTATGCTCCAAGTGGTGGAGCTAGTGGGTCTAGTGTTAGAACAAAAGACAATAAATTAATTGCAGTATTTCATGCAGCAAATTATGTTGCAAAAACTGGGTTAGCTGCAACATTTAGATCTAATGGTTATGATTATAAGAATTTATTTGGTAATTATAAATTAGGTCAATATGATTTAATTTATGGTGGTGGAAAAGATCAAATTAGTGGTAGATCTTATAGAGAAGTTATGCAAAAATTATATAAAGATAAAAAGAGTGCATTATTTGCTAATGGGTTTAACGAAATTCCTGAAAGTTTTAAATTTAATAATTAATAAAACAAAATAAAATATGAAAAATCCTTTAGCTAGTACTAAAGGATTTTTTAACTTAGATTTGATGTTGAATATATAAAAGAATTACTTTAAAATATCTAAGTTAATATATTGATCATATTAAATTTAATTTTGTGTTTAAGTTTTTTAATTTTTTATAATAATATAAATTAAATAAAAAATAGCTATTATATTAATTTTTAAGGAGAACAATAGTGTATTTTGTAAAAAAGAAAAAGAATAAAATTCTAGTGTATGCTTTATTAGCTAGTTTAATTACTTCTTTATCATTTGGTTCAGTTATATATTATTCATTTTCAGATGCAAATATTTCATTTGAAACTTCATCAAATGGAATAACTGATGCTGAATTAACTCCAGTTAATAATGCAACAAATGATGCTATTATTTCAAATAGAGATAATAAATTAAAACCAAGTCCTGAAAAAATTATTAAAGAATCTGAAAAACAAGAACCAAATAAACTAATAATTCCTAAAAAAGAAGAAAAGGAAATAAAAGAAGTAGCAAAACCTGAAATAAAACCAGAAATTATAAGACCAGAAACTTTAAAACCAAAACCAAGTCCAACTAGACTAAAAACTAAAATTACAATTAATGGAGTAACAGTTGATGCTGAAATTGAAGCTCCGCCTGGTTTTGTTGTTCAACCAAATGACAAAAGAAGAAATATAGCAAATCCAACAAAACCTTATCAAAATCATATAGTTGAAAAAATACTAAGTATTGAAGTAACAAATGAGTTAAGAAATAGTGTTATTAAAGATTCACTATCTGGTGGTGAGGGTTATGATAAAGGTGCTGGATTATTTAAAAATACACTAACAAATGTTATTAGTAGAGAAATTGATGAAAATAAAGGTGATATTCATAAAGCTTTAGAAAGTCTTGAAGCAATTTCAAATCAAAATTCTAACTTTTTTAATTCAAGTATTGAACGTTATAAAAGATTATTAGATTCAGATAAAGTAATAGAATATTTAAAACCTGATGCTAAAGTTCAATATCCTAAATTAAAAGGTGAGTTTAAAACTAAAACTCAAGAATATTTATGATTAATTCATAATTTAGATCAATCTAAATTTACAAAAATTGCATCAACTTCAGAAAAATATTTAAAAGAAGGTTTAACAATTTCACCAAGAAGCGCATTTATTAATGAGAATGGAGAAATTGATTCTCATGGATGAGGACCTCCTGATGCATATAATAGTGTAACTTCAAGATTACAAAGAGATAATTCAACTTATAGAGTTTTTGATTATGATCAATATTATAATAGATCATCAGATAGGATAGAAAATGGAACTTATCCTGGTTGAACTAAAACTGATGTAACTAATGAATTTACTTCTAGTTTTGGTTTTAAAAAAGGTGATGGAATCACAATTAGTAGATTAAAAAGAGATAAGCAAACTAATGTTGAAGGAAAAATTAATTCAGGTTTAGTTTTAGAATTAGATGTTTCAAATCCTACTGCTTATCAAAAATCTAAAGAATTAATAGAAAAATTTAAATCAAATCCAGAAAAAATTACTTCTTATAGAATTAAAAATATGGGTGAAATTAGTTCTGATCAAAAATTTATAGATATTTTATCAGCACTACCTGATGAAATTCCTCAATTAGAATTATTCTTTTCAGATAAAGCAACAAATACAGCTAGTTTAATTGCTTTAGAAAATAAAAAAATTAAAGAATTATCATTATATACAAATGGAAATTCATTAAAAAATTCTTGATCATATAACCCATTAGCTTTAAGAAATACTACTTGAATAAATACAATTGATTATAATGTTAGTGCTGAATATCCAAGTAATGCAAAAATATCAACTAGAATTACTTTTAACACTTTAGCATTTGATCAAATTGATTTTAAAGATAATAAATATGACAGAATTAATGATGGTTTAAGAATGGTTTATTATGCAAGAAATAATGAGCCATTTTTCCAAGGAGCCTATGGTCCAGGATTAAGTCCTGATCAAGCATTAGGTGATAATAGTTATCCAACTGGATTAGATTTTTCAAGAGTAAAAGGAATTAAATCATTAAAAGGACTAAGATTTGATGATGAATATAATTCATCAAATAAACCCAGAAAAATTGCTGAATTAACATTGTTTAATGATCAAAATTATTTTGAAATCTCAGCTGATGAATTAAATGATGCAAACTTAGAACATTTATCAACTGGACAAAATAATCCAATTAAACCAAAAATTAAATTTAGTAATGGTAGTGATACTGTAAAAATAAGAATTACAGGAACTACTATAACAGACCAAGCTCGACAAAATTTAGAAAAATACTTTGAATATAGTGATAGTTTAAAGGCTAATAATAAACAAATTGAAGTAGAAAATACTAATAGTGAGCTTGCAAACAAATTAAAAGGTTGAGGTTATAATGTTAGTCAAGCCTCAAATAAACAATTTACTTAAAAAACTATAAATTTATGAAAAAATGAAATAAATTATTAACACTACTATCTTTATCAAGTTTAGCTTTACCTTTAACTTTATTAGTTAGTTGTACTCCAGCTAATAAAAAAGCAATTACTAAATCTATAAATGATAAAGAATTTGTCGATTTAATTAATTCAATTAAAACTGAAGATGATCTTTTAAAATATGCAGATATTAAGTTTAAAAATTCTTTAGGATCTTATATTAATAAAGCTGATGTTATTCCTACAAAATTAGAAAAAAATCAAATTGAAATTACATTTAAAGATCAATATAAAAATCAAATTGATTCTGAAGTTGTAAATGTAATTACTAATAAAAGTAATGGATTTGCAACTATAAATGAAACTACACTTTATGTTGAATTTAAAAATAATAAAACAAATAAAACTAAATCTGTTAATTTTAAAGTTACTGGATTAAATAAAAATAATACATATGATGCTTCTGGAAATGTTATAAGTAATGGATTAGATTATTTTAATGGAGAAGCTGGTTATGTTTCATATACTAAAAAAGATCAAAAACAAAGATTTGAATTTGATAATAAAAAATATGTTAAAGCATTAGAAAATCAGGTTAATAACGGTTCAACTATTGATTTAAAAACATATAGAAATTTAGATACTAAACAAGAACATAAAGAAAAATTTGATAAATTAGCAAAAGAAAATAATTTTGATAGTTATTATAATGCTGCAATTAAGGGATTTACTTTACCTGTTTATAATGAAAAAGGTGAAGTTAGTGGGTTACAAATTAATGATGCACCTGAAGTTAATAAAGGACCTTCAGTAATTGATTCACTAGGAAGAGATCAATTTAAAACTAATGGTTTAGCTAGAACTATTCCAAATGAAGTTTATAAAACAGCCGCGATTCAAACTTATCAAGTAACTTTTAATTGATGAAAAGACTATAGTGAAGAAATAGAACAGGCTCAAGAATATATTGATTTATTTACTTCTTGAACTGAAGATCAAGTTAAAAATTATGTCGATAGACAATTGCATCAATTAGAATTAAATTTTAAAGATGATACTAGAGAAATAGAAAAACAATTAAAAGAAACACCAAGTGATAGAGAAGGTATTATAAAGACTTTAAATGAGCAAAAAGATAAAATAGAAGCTAAGTATAAAAAAGATTTAGATAAATTTAATAAATTAGACAAAAAAGGTCTAATTGATTGACAGCAAAAAGAGATAGAAGAATATAAAAAGAAAAAGAATCAAACTACTTTAAGAGCATCTGAATCTGGAACTATGTGAATAATGGATTATATTGATGAAAATAATCCAACTAAGTTTTATTTTGGAACAAATTCTCACGTTGCTAAAGCAATAAAAGATAATCTAGTTTCATTTTCTTTAACTAGACTTAATTCAGATATTAGTGTTGGTCAAACATTTAATTTAAATGGGTTTGATAAAAACTTTACTAAATTTGTTTTTGAAAAAAATGAAAATGGAACTAAATTAAATGACGCAGTTTCAGCAATTTTTCATGCAACTGATTTTATAAAAGATGATAGTAATCCACTTAAATATCTTGAACAGTCTCAAAAAGAGAAATACAAAGAAGCTGGAATATTTGCAGATTTTGCTGTTATTGAAGTCGATTTTTCAAAACTTTTAAATAATTCAAACTACAAATATTCAATTTGAAGTGAATCTAAGGAAATATCTAATCAATATCAAAATAAAAAAGAAGATTTAATTAGCTTAATTACTAATAATTATGCTAAAAGTAATAATAAAATTCAATTTGAGTCTGAATCATTGTTAGATGACAATAAGTATAAAACATTTGATAGAAAACTAGATTTTAATCCAAATATAGATAGTGAAGTAAAAGAATATACTGATTTAAATAGTCTTTATATTTTAGGATATCCAATAGCAGTTGAAGATTATTATTTAGATAAATATGAAGATTATAAACAATTACAAAATAGAGAATATGATTATTCTTTATGAGTAAATAGTGAATATAAATATTATAAAAACCTAGTTAAAAAAGAAGGAACTCCAAGTTCATTTAAAGAATATGAAACAAACAAAGGTAACTTCTTTTCATATCAAATAGGATATAGATCATTTATAGATAAACCTGGATTAACTGATGCTTTTTTAGCAGTTCATAGAATTGGTAAAAAATTATATACATTAGATAATAATGACAAACCTAAAAAATACTTTAATTATGGATTAGAAATATTACCAAGATTTTATGCTCCAAGTGGTGGAGCATCTGGATCTAGTGTTAGAACAAAAGATAACAAGTTATTAGCAGTATTTCACGCAGCAAATAATTCAGCAAAGACTGGATTAGCAGCTGTTTTTAGATCTCATGGTAAAGATTATAATAACTTATTTGGTAAATATAATCTAGGTCAGTATGATTTAATTTATGGTGGTGGAAAAGACCAAGTTGAAGGTAGATCATATAGAGAAGTTTTAAAACAGAAATATAAAGACAAAAACTTTAAATCTGCTTTATTTAAAGATGGTTTTGATAAAATACCTGATCAATTTCAATTTAAAAATAACTAGTAATAAACTTAATATCCTTTAGATTTTTATCTAAAGGATTTTTTTTATATTGAATTATTTAATAAATATAACTTGTAAAAAAATATAAATTTTAATTAAAAGTTACTAAAACTATTATGTTTTTAGTAACCTTTTTATAATGATATAATCAATATTGATATAGATTTTAAGGAGTTGAAAGTGTGCATTTTTTAAAGAAGAAGAAAAATAAAATTTTAACATTAGTATTAGTTGCTAGTTTAGCTACTTCTCTTTCTTTTGGTTCAGTAATTTATTATTCATTTTCTGATGCAAATATTTCATTTGATACATCATCAAATGGAATAACTGATGCTGAATTAGCTCCAATTAATAATGCAACAAATGATGCAGTAGTTTCAAATAGAGATAATAAATTAAAACCAAGCCCTAAAGAAGAAATTAGAAAAACTGATAGTACTGAAAAATTAGTAATACCTACTGTTAGAAAAGATGATAAAGTAACTGATGCTGCAAAACCTGAATTTAAACCAGAAATTAGAAAACCAGATAGTTCTAATATAAAACCAAGAGTAAGTAGATCAACAAGAACCATTGTAATTAGTGGTGTTGAAGTTGAAGCTGAAGTAGAAGGCCCACCTGGATTTCATGTTCATGAAGAAGATAAAAGAAGAGGAATTTCTAATCCTAAAAAACCTTATCAAAATCAATCGGTTGGAAAAATTCTTAATGTTAAAGTAACAGATGATTTAAGAAGAGGTGTTATTAAAGAATCATTAACTGGTGGAGAAGGTTATGATAGTGGGGCTGCTTTATTTAATAACAGTTTGTTTAACGTATTTGATAAAGATTTATCTAATACTAATGATGTAGAAAAAACTCTAGAAGAATTAGAAGCTGTTGCAAACCAGAACGCTTCAGTTTATGAAAATACTTTAGAACGTTATAAAAGATTATTAGATTCAGATAATGTTGTTAACTTTTTAAAAGAAGGTGCTAAAGAAAAATACGAAGAATTAAAACCAAAATTTAAAACAAACAAACAAAGATATATTTGATTAATTGCAAATTTAGATAAAAATAAATTTACAAAAATTGCTTCAACTTCAGAAAAATACTTAGCACAAGGTCTAACAATTTCACCAAGAAGTGCATTTATTAATGAAAAGGGTGAAATTGATTCAAATGGTTGAGGACCACCTAATGAATTTAATACTGTAACTTCAAGAATTCAAAATGATAATTCTAACTATAGAACTTTTAGTTATGATACTCCATATAATAGACCATCTGATTCTATTGAAAGTGGAAATTATCCTGGATGAACTAAAAAAGATGTGACAAGTACTTATACTAAGGATTATGGTTTTGAAGAAGGAAAAGGAATCACTATTAGTGAATTAACTAGAGATAAACCAACCACTGCTAAAGATAAAATTAATAAAGGATTAGTTTTAGAAATTGATGCTTCAAAAGATTATGCATATGGTAAAACTAAAGAATTAATTAAAAAATTTAAAGAAAAAAATCAAAAAATCACTTCTTATAGAATTAAAAATATGGGAGAAAAAGATTCAGCTCAAAACTTTATAGAAATTCTTTCTGAACTTCCAGAACATATTCCTCAATTAGAACTATTCTTTTCAGATAAAGCAACAAATACAGCTAGTTTAATCGCTTTAGAAAATAAAAAGATTGATGATTTATCATTATATACAAACGGTAATTCACTAAGAAGATCTTGATCATATAATCCACTTGCTTTAAAAAATACAGCTTGAATTAATACAATTGATTATAATGTTAGTGCTGAATATTCTAAACATGAAACAATAAGTACTAGAATTACTTTTAACACTTTAGCATTTGATGCAATTGACTATAAAACTGATGGAGATTATTCAAGAATTAATGATGGTTTAAGAATGGTTTATTATGCAAGAAACAATGAGCCATTTTTCCAAGGGGGATTTGGTCCTGGACTAAGTCCTGATAAATCATTAGGAGAAAATAGTTATCCAACAGGATTAGATTTTACAAGAATACCAAAAATTAGATCACTAAGAGGATTAAGATTTGATGATGAGTATAATTCATCAAATAGATCGAGAAAAATTACAGAATTAACTTTATATAATAATAGTTCAGGATTTGATATATCAGTTGAAGAACTAAATAATGCAAACTTAGAACATTTATCAACAGGGGAAGGAAATCCTGAAAAACCAAAAATTTATTTCAGTAATGGTAATCAAACAACAAGTATTAAAATAACTGGTAAAGGTACATTAAATGAATCTGGAAGATATTATCTAAGTAAATACTTTGAATATGGTGACAGTTTTAAAGGAAGACCACACCTAGTTGAAGTAGAATCTGGAGCTACTGAATTACAAAACCAATTAAGACAATGAGGATTTAATGTATCTGTATCTAATGGAAGAGAATTTACATAATAAAAGGAAGTAATATTTTATGAAACGTGTGAATAAATTATTAGTATTATTATCTTCAACAACTTTAGCATTACCCTTAACTTTATTAGTTGCTTGTACTTCAACAAAACAAGCACCAAAATCTATTGATGATGATGAGTTTTTAAAAGTAGTTGATTCTATTAAATCTGAAGAAGATCTTTTAAAATATGCTGATCTTAAGTTTAAAGATTCTAGAGGTTCTTATATTAGTAAAGAAAATGTTGTACCTAATCAGTTAGAAAAAAGCCAAATTGAAATTACTTTTAAAGATAAATATAAAGGTCAAATTAATTCAAAAATTGTAAATATAAATGTTGATAATTCTAATGGATTTGCAATTGTAAATGACGCAATAATTTTTGTAGAATTTGAAAATAACAAAACAGGTAAAAAACAGCCTATAAATTTTAAAATTACTGGATTAAATAAAAATAACACAGTTGATGCTTCTGGCAATAGACAAACTAATAGTCTTAAAGATTTTGGTGGTGCTGAAGGATTTAAAGCATACACTGAAATGAATCAAAAAGATAGATTTAAATTTGATAATAAAAAATATGTTGAAAAATTAGAAGGTCAAATTGGTCATGGTGAAAAACCTATTGATTTAAAATCGTATAGAGGATTAGATACAACTCAAGAAAATATTAAAAAATTTGATGAGAAGGCTAATAATAGTAATTTTGATACGTACTATAATGCTGCAATTAAAGGTTTTACTTTACCAGTTTATGATGAAAAAGGTTCAGTAAAAGGCTTACAAATTAATGATGGTCCTGAAGTTAATAAAGGACCTTCGGTTGTTGATTCACTAGGAAGAGATCAGTTTAAAACTAATGGTTTAGCTAGAACTATACCAAATGAAACATATAAAACCGCTGCTATTCAAACATTTCAAGTAGATTTTACTGGTTGAAAAGATTATGCTGCTGAAATTGAAGAAGCTGAAGATAATATTAAATTATTCAATTCCTGAAATGAACAACAAATTAAGAATTATCTTGATCAACAACTAAAACAATTAACGTTAAACTATGAAGATGAAACTAGACAAATAGACAAAAAACTTTCTGAAAATTCAACTGAATATGAAACAATAATAAAAAACTTAAACGATCAAAAAAATAAATTAAAAGAAGAATACGATAAAAAATATAAAGAAATATCTGAATTAACAAAAGAGAAATTAGTTGAATGACAAACAAAAGAAATTGAAGAATATAAGAAAAAAAGTAAAGAAAATAAATACCAAACTTCTGAATCTGGAACTATGTGAATAATGGATTATTTAAAAGAAGATAACAATAATAATCCAACAAAATTTTATTTTGGAACAAATTCACATGTTGCTAAAGCGATTAAAGATGATTTAGTTTCATTTTCTTTAACAAGAATTAATGACAATATAAAAGTAGGTCAAACATTTGACTTAAATGGATTTGATAAAAACTTTACAAAATTTTCATTTACTCCTAAAAATGGCAAAAAGATTAGTCAAGCAGTTAGCGCAATATTTCATGCAACTGATTTTATAAAACAAGATAGTAATCCTTTAAAACTACTTACAAATGGACAAGAAAAAACATATAAAGATGCAGGAATATATGCTGATTTTGCAGTTATTGAAATTGATTTTGACAAACTATTAAATGAAAGTGATTATTCTCGCTCTATTTGAAGTGAATCTAAAGATATTTCACACAATTATGAAAAAAATAAAGATAAATTAATTTCAGATATTACTAATAAATATGCAAGTAATACTGATAAGCAAGTTAAGTTTGTTTCTAACTCTTTATTAGAAAATGAAAATTATAATAAATTTGATAGACCTCTTGATTTTGATCCTAATAAACCTGAAGAAGTTAAAAAATATGAAGAATTAGAAAGTATTTATATTTTAGGATATCCAACCGCTAATGAAGATTATTATTTAGATCAATACGAAGATCATAAACAAATAGAAAGAAAAAGATACGATTTTTCACTATGAGTAAATAGTGAATATAAGTATTATAAAAAACTAAGCAAAAAAGAAGGAACAACTAGTTCATTTAATGAATATGAAACTAAAAAAGGAAACTTCTTTTCATATGAAATCGGGTATAGATCATTTATTGATAAACCTGGATTAACTGATGCTTTTTTAGCTGCACATAGAGTTGGTAGAAAATTATATTCATTACCTGTAGATAATAATGGTAAATCTAAAAAATACTTTAACTATGGTTTAGAATTTTTACCAAGATTTTATGCACCAGCTGGTGGAGCTAGTGGATCTAGTGTTAGAACAAAAGATAATAAATTATTAGCTGTATATCATGCATCTAATAATGTTGCAAAAACTGGATTAGCAGCTGCATTTAGATCAAATGGTTATGACTATAAAGAATTGTTTGGTAAGTATAACTTAGGACAATATGATCTAATTTATGGTGGTGGAAAAGATCAAGAAAAAGATAAATCTTATAGAGAAGTATTATTAAAGAAATATCCAGATAAGAAAAGTGCTTTGTTTGCTAGTGGATTTAAAGAAGATAATATTCCTGAAGAATTTAAATTCAAAACACAAGCCAAATAAATAAATAAATATTAATAAATAAACAAATAATATCCTTTAGATAATATCTAAAGGATTTTTTAACTATATTTACTATTAAATGACAATTTTAAATTTATTTGTTCAAAAATAATAAAATACTTTATAATATAATAGTTAAATATGCTTTTGTGCAAATTTACTTAAAATAAAATACAAAAATAATAAAAATTGCCTATTTACAATACCTTTAAGTGACTTTATAATTAGTCAAATTACATACAATTAATAATTCTATTTCTAGGGAGAGAAATTGTGTATTTTTTAAAAAAGAAAAAAAATAAAATCTTAACAATAGCTTTAGTAGCTAGCTTAGCTGCTTCAGTTTCATTTGGTTCAGTTCTTTATTATTCATTTTCTGATAATCATATTTCTTTTGATACATCATCAAATGGAATAACTGATGCTGAATTAGCTCCAATTAATAATGCAATTAATGATGCAATAGTTTCAAATAGAGATAATAAATTAAAACCAAGTGAAGAAAAAATCATTAAAGAAACTGAAAAGAAAATTGAAGAAAAAATAATAATACCACCTGCTAAAAAAGAAGAAAAAGTTGAAGCAGCAAAACCAATACCAAAACCAGTAGTAAGAAAGCCTGAAACAAAAATAACTTCACCAAAAATAACCAGAAGAAAACAAACTATTACAATTGCTGGAATTGAAGTTGAAGCCGAAATTGAAGGCCCACCTGGATTTGTAACTCATCAAAGAGATAAAGACAGAAAAATATCAAATCCTACAAGACCTTATCAAAATCATTCAGTTAATAAAATTCTTAGTGTAAAAGTAACAGAAGAATTGAAAAAACAAGTTGCAAAAGATGCTTTATCTGGTGGTAATGGTTATGATGAAGGTGCAGGATTATTTAACAATAGTATTTTTAATGTATTTAAAGAAGAATTTAATTCTGGTAAGGAATTAAATGATATTTTAAGTACTCTTGAATCAGTAGCACGTCAAAACTCTGGTGCTTTTCAAAATACTTTAGAACGTTATAAAAAATTATTAGATTCACCAAATGTTATAAATTTCTTAAAACCTGAAGCACAAAAAGAATATCCAAAACTAAAATCTAAATTTCAAACTAAAAATCAAGAATACATTTGATTAATTGCTAATTTAGATCAATCTAAATTCACAAAAATAGCATCAACTTCAGAAAAATATTTAGAAAAAGGACTAACAATTTCTCCAAGAAGTGCATTTATCAACGAAGCTGGTGAAATTGATTCTAATGGTTGAGGACCACCAGATGAATATAATACTGTAACTTCAAGATTAAGAAGAGATAATTCTGAATATAGAGTCTTTGATTATGATGAATATTACAATAGATCATCAGATAGAATAGCAAATGGAACTTATCCAGGTTGAGTTAAAGAAGATGTTAGTGAAGCATATAGTAAAAAATATAATTTTAAAGCAAGTGATGGTATTAGATTTAGTAAATTAGAAAGAATAAATCCAAATCCAGCAAAAGGTAAACTTAACTCAGGATTAGTACTAGATTTAGATGTTTCAAATGATGAAGCTTATAGAAGATCTAAGGAATTAATAGAACAATTACAAAAAGATGGTGAGCAAATCACTTCTTATAGAATAAAAAATATGGGTGAGAAAAACTCTGATCAAGCGTTTAAAGATATACTAGCTGCACTTCCAAAAGACATTCAACAATTAGAATTGTTCTTCTCAGATAAAGCAACAAATACAGCTAGTTTAATTGCTTTAGAAAATAAAAATATTAAAGAATTATCATTATACACTAGTGGAAATTCATTAAAAAAAGCTTGATCATATAATCCATTAGCTTTAAGAAATACAACTTGAATCAATACAATTGATTATAATGTAAGTGCTGAATATTCTAGTTATGACAAAATTACAACTAGAATTACTTTTAATACTTTAGCATTTGATCAAGAAGACTTTAAAAATGGCAGTTATGAAAGAATTAATGATGGATTAAGAATGGTATATTATGCAAGAAATAATGAACCATTCTTCCAAGGTGGACACGGACCTGGATTAGAACCTGATAAAAAATTAGGACAAAATAGTTATCCAACAGGTTTAGACTTTTCAAGAGTTACAGGTATTAAATCATTAAAAGGACTAAGATTTGATGATGATTTAGATACTTCAAATGAACCAAGAAAAATTACTGAATTAACCTTATATAATAATGAATCTTACTTTGAAATTTCTTCTGATGAATTAAATGTAGCTAACTTAGAACATTTATCAACTGGAAAAGGAAATCCAGAAAAACCAAAAATTCATTTTAGTAATGGAAATAATACAACAAGCATAAAAATAACTGGAAAAACAAAATTAAACGATGAAGGAAAAAGAAATTTAGACAAATATCTAGATTATAATGAAACACTTAAAAATTCAGGAAAGCAAATTCAAGTGCCAAATGATGCTACTGAATTAAGAGACCAGTTAAAAAACTGAGGATATAATGTTGTTACTGCAACTGATCGAACATTTACATAGTCAACAAAAAGGAATATACAACCTATGAAAAGAATGAATAAATTATTGATGTATATATCATCATCAACACTTTTACTCCCGATTACTTTATTAGTTGCTTGTACTACTTCTAAAGTAGTCTCTAAACCTATTGATGACAATGAATTTAATAAACTTATTAATTCTATAAAAACAGAAGATGATCTTTTAAAATATGCTGATATTAAATTTAAGGATCAAAGAGGTTCTGAAATAAGTAAGGGTAATATATTGCCATCACAATTAAAAAAAGAAGACGTAAGTATAATCTTCAAGGGTAAATATAGTGGGCAAATTTTTACAGAAGTCTTAAATGTAAATGCTATTAACCAAGATTCTTCTTTAGGAAATAAAGTTAATATTTTTGTTCAGTTTACTAATAAGAAAACTGGAACAAAAATACCTACAAGTTTTATTATTAGTGGTCTAAATGAAAACGGTAACTTTGATTTTTCAGGAACTAGAATTGTAAATGACTTGGATTATTTTGGTGGTCTTAGCGGTTTTAATGATTATAGTAGTAAAACTCAAGAGCAACGATTTGATTATGATAATTCAAGATATATAACAGGATTAAAAAATCATTTATCAGGCGGAACAGGAACTGTTGACTTAAAAAAACTTAGAGGTTTAGATACAAAAGAAGAACAAATTACAACGTTTGAAAATTAGCAAAAGAAGTTAAGTTCGATAGTTATTATAATGCTGCTTTAAAAGGGTTTACGCTACCAGTTTATGATAATTCAGGTAAATTTACTGGTCTAAGTGTAAATGATGGACCAGAAATAGGAAAAATTGCTTCTCATGTAGATTCACTTGGGAGAACTGAAAAAGCTAAGACTAATGGTTTAGCTAGAACTATTCCAAATGATACTTATAGAACGGCTGCAATTCAAACATATCAAGTAAATTTCACAATTTATAAAGACTATGCTAAAGAAATTGAAGAGGCAGAAGATAGTATTCAATTATTTAGCAAATGAGATGAAAAACAAGTTAAAAGTTATATTTCTGCACAGCTAAATCAATTAAGATCAAACTTTGAAGATGAGGTATCTCAAATAGAAAAAGAACTTTCCCAACCTTTAGAAGGTAGAACAACTATAGTAGAAAATCTTAAGAAGAGAAAATCTGAAATAACTGCTGAATATGAAAAAAATATAAAGGAAATATCATCGCTAAATAAGGATAGTCTTGTAGAATGACAAAAAAAAGAAATTGAAAAATATAAAAAGAAAAAAGAAGAGAAAATTTTTCAAACTTCTGAATCAGGAACAATGTGAATAATGGATTATATTGATATTAATAATCCAACTAAATTTTATTTTGGTACAAATTCACACGTTGCTAAAGGTATAAAAGATGATATGGTTTCATTTTCTTTAACTAGATTAAATTCAGATATAAAAGTAGGCCAAACATTTGGATTAAATAGTGCTGATAAGAATTTTACAAAATTTACTTTTGCACCTGCTAAAAAAGAAAATAAACTTAATGAGGCAGTAACAGCTATTTTTCATGCTACTGACTTTATAAAAAAAGAAAGTAGTCCACTTTCCTTACTTAAAGATGATCAAAAAACTAAGTATAGTGAAGCAGGCTTATTTGCAGATTTTGCAGTTGTTGAAATAGATTTTGAAAAACTTTTAGATACAAATAATTTCTCACGTACAGTTTGAAGTGATTCTAGTGATATTTCAAGTAAATATCAAGATAATAAAAATGAATTAATAAAGACAATAACTAACGATTATGCAATGAGTGGTAAAAAAATTAGTTTTGCATCAGAATCTTTATTAGATGATAAAAATTACAAAAAATTTGATAGAAAACTTGATTTTAATCCTGAAAATTCAGATGAACTAAAAGCATATAGAGATTTAGATAGTCTATATATTGTAGGTTATCCAACTTCAAATGAAGATTATTATTTAGATCAATACGAAGATGAAAAACAACTAAAAAATAAAAAATATGATTTTTCTTTATGAATTAATAATGAATATAAATATTATAAAAAATTAGTTAATGGGGAAGGAACTTCAAGCTCATTCAAAGATTATGAATTAGAAAAAGGAAACTTTTTCTCTTATCAAATCGGATATAGATCATTTATTGATAAACCTGGACTAACTGATGCATTTTTAGCAGCTAATAAAGTTGGCAAAAAATTATATTTTTTAGATGAGCAAAACAAAGGTAAAGCTAAGAAATACTTTAATTATGGTTTAGAAATATTACCAAGATTTTATGCACCAGCTGGTGGGGCTAGTGGATCAAGTGTTAGAACAAAAGACAATAAATTATTAGCTGTATACCATGCAGCTAATGGATCAGCTAAAACTGGTTTAGCAGCTGTATTTAGATCTAATGGTTATGACTATAAAAATCTATTTGGTTCATATAAATTGGGGCAATACGACTTAATTTATGGTGGTGGAAAAGATCAAGAAAAAGGTAAATCCTATAGAGAAGCCTTATTAAAGAAATATAATAATAGTAGTATGAAAAGTGCATTATTCCCTAGTGGTTTCGATGAAAAACATATTCCTAGTGAATTTAAATTTGATCACAACAAACAAAAATAAAACTTTCATCTATTCAAGGAGACAAGATAAATGATTTCTTTAAAAGTTGAACAACAAAAATTTTATGATGATGGTTCAAACTTAATACTAGAAACAAAAAAGAATAAAATAGTATCTATTTATAAAACTATTGTTCTTTCATTCTTTTTTGTATCAATGTCATTGTTACTATTTTTATCAAATTATTCAATCTTTAATAAAAATATAGAAAATTCATACCAATTTTTATTTAATTTTTCTCAACCAGCATTTGAACAATATAACTGAGTAGTACTTTTTAGAATTTGTTTATTAGGATTTTTATATTTTTATGGATTAAAAAAAGCTTATATAAATATAGAACCAAATAAACCATATTTAAAACAATACACGATTTGATTTAGTTTATATTTAATAACTAGTATTTCTGCATTTATATTATTTTTTACTTATTCACCACTAGAAGCACAAAATATAATTAATCTAATTTATAGTTTAATCGGTTTATTATTAATAGATATTTCTTATGTGTTATTTAAATATAAAACAAGAAAAAAACTAAACCCATTAGTATATCAAAATAAATGAAGTTTAATTGTTGATTTAATTAGTAGAACAATTTTAGTTAGTTTAGTTTTAGCTATTTTTCTAGTTTGAATAAATCAAGGTGGAACAACTTATGAAATGCTAGCTAATAATAAGTTTTATGAATATGTATTAAACTTATTTGGAATTAAAAGCTTTTTAAACTTTTTAATTATTATTACTAGTTTTATATTTATTGGTTTATTGTTTATTGGATTAAATATTTATACTATTTTAAAAATAGTTTATAAACAATTTAGTTTTGAAATTATTAGAGATAAGTTGAATTTTTATTTAACTGGAGTAATTGTTGTATTTATTTGATTAATAAGTTTAGTGTTTTTAAAAATACCATCAACTCATGAAGTATTTGTAAAAAATGATAACTTAGAATATTTATACTTATTATTTTCTTTATTAAACATTATTATTACTATTGTTTATTTATGATTTAAACAATTTAAAAATAGATTAAATAGTCCTTTAATTAAAATCAGTTATTTAACTATTTTTCATTTTATTATTTGAACTGTATTTATGGTTGCTAGTTTTTTAACAACAAGTTCAACTGTAAGTATGATTAATTTATTAATTACTATTGTTTTAGTTGCTATTAGTTATTATTGACATATTAAATCATCAAGATTTAACAACTATTATAATTACTTATTAATTACTTTAAATGTAATAATGATTTTTATAATAAGTTTAGTATTTGGATTTAATCAAATATTACTATCACATAATAATAAAAATTTATTTATTATTCCTTTAAAAGCTAATTTATTACAAATTATAAGTATTTTTATAGTAGCATTTCAAATTATTAATGTAATTTATCCATTAACTTATATGTTAATTACAAGTATTAAAATTTCTAAAACTTTTAAAAAGGAGCTAAATCATGAAACACAAAAACAAACAAACTAGCGATCAATCTTTTATGGTTTTTGATTTATATGAAAAAATAGTTAATGCTAATAATTACATTGATTATCAAAAACTACTAGCAACAGTATTATTAGAAAATCAAATCGGATTTGATTCAAAAGTTTATAAAGAATTTGAAAACTCTTATTTACTAGCTTTTAAAAATCATTTTGATATTGTTTTAAATGATTTTGTAATTACTTTTAATGTTAATTTAAAAATTAGTAGTGATTTATTAGTACCAATGTTAAGTGAAACTGAAAGTAGTAATACTGAAGCAATTAATTTAAAAACAAGTAATAATGAACAATATCAAAAGTTTTTAACTACTTATAATAACTATTTTATTTCACTAATTAAACAAGGTTTTTGTGTTGAAATTTTTCCAAATGTTATTTTATTTAAATCAAAAAACACAGATCATTTAAAAATAATATTTGATAAAACTAAAGTTTTAACTAGAGGTTAATATGGATTTAAAAAAAGTAGAAACCAAGTTAAACAACTTAAAAACTATTCAACAAAGATTAAGTAATGAAAAAAACATTTTATTAATAGATATGATTAAACAAAATGCCTTATTAAATTATTATGTTAAAAATGCTTTGTGAAATCAAAACATTATTTCATTACTACAAAATGAATATAAAATTAAAAATAATTTGATTAGTGAGATAAAAATTAGTAAAAATAAACTAATTAATAAATTAAAAGACTTTATTTCTCAACCAAAAGAACTTTGAATTTATTTAACTGAAGAACAAAAATACTCAACTGATTCTTATTCAAGATATGAAAATCATATTTTAAATAGTATTAAAAAAAATAATGCTGATTTTATTGTTATTGGAGATCGTGCTAAACAGTTTTGTAGTGATAATAAATTAAATGTCATTTATAATGTTGATCAAAAACAAGCGATTTCAAAACTTTCATGAACACTAACTTTAATTATTAAATTCTTATTTTCTCAATATAATTATAAAAGTTTACGCTTTGTAATTAATTCTAATAAAAATAAAGATAATAGTTTTACTATTCTTCCACTAACTAAATTTAATGTAAATAGTTTAAGTGAAACTGAAACTAAATTTGATTTAGATCATATTAAAGAATTTAAAATCTTTCCAGATATAAATAATTATATTCAAACTCAAATTGATAATTATATAGAAAATTCAATTCAATCTTTATTAGTTGAATCTTCATTTTATAAAACTAAAAATGAATTAATTAAAACTAATAAAACTATTAATGAAGTAGATGAAGAAATTAAAAAGCTAAATAAAAAGATTATTAGAATCAAACGTGAAAAAGAAATTGAAGAAATTGTTTTACTAACAAGTAATAATAAGAAATTTTTAATCAGGAGAGATCAATAATGGCTTTTAGTGTTGAAATTAATTTTATTGAAAATAAACAAACTATTAATTTTAATAAAGCAATTGTTTATTTTAATGCTGATGAAGAAAATGAATGAATTTCATTAACTAATAATTCAATATTAGGATATGAAATTATGTTATTAAAAATTTTAGATCTATCTAATAATCAAGAAAAATATTTATTTGCAAACAATGTTAATATTATGGTTAAAAATAATCATATTGTAATTAATACTTTTTCAAAACAAAACTTTTTAGTTAAATCAAATCGTAAAAAAATTTATCAAGATCAGTTAAAAGAATTACATAAACAAATTAGTATTTTACAAGCAAATCAAACAATTGGTTTAACAATTGATTCATTATTAGAATTAAAAAAATTAAAAAATAAATATTATGTTTTAAAGTTAAAAAATCTATTACAGCTAAAAGGAGAATAATATGAAAAAAAATAAATTATTATCTAAATCATATAAAATAGCTATTCTTCTTTTAACAGCTACTAGTAGTTTAAGTTTAGCTGCACTAATTAAAAACACTCATCATAATAACAATAATATTGTTTTAAAATTGTATCAAGATGGAAATGGTGGATCAGGTGGAAGTGGTGGTTCAGGAGCAGTATCAGGTGGAGCTGGATCAAATGGTGGTTCAGGCACAAGTGGTTCAAGTGGAACTAGTGGAACTGGTGCTAATAGCGGTGGTTCAACCGCGTCAGAATCGCCATTAACGCCGAAAATAGCAGCTGAATTTGATACCTTTAAAGATAAAGCTAAAAAAAAGATTGAGGAAACTGCAAAACAAGTTTACAAAAGAATAACAACTATTTTAGAAGAAGAATTAAAAAAACTTCCTGATTTAAATAAAAGCACTAAGAAACCTGATGAATATTTTAAAAATTTACAAAAAAGAGTTTATTTAACTGAACTAAAGAAATATTTTGGTAAAGAAGAAGAATTTACTAAGGATATTTCTAAATATGGATTTGACGTTACATTTCCAAATGTTATAGCAAATGATAGAAAAGTTGATACTGCTATAGTTAAATTTAATGGTAAAACATACAATAATATTAAAATATCTCCAAGCGATGAGACAAGAGACTACACAAAAGTAGTAGAAAAAAATGAAAATAATGGTGTTGAAAAAAATAAAAAAGAACAAGATAATGTTGTAACTAGTCATAGATTTGATGCTTTATTAAATAATTATGCACAAAGCTGATTAGGTAAACTAAAAGACATTATCTATAAAGAAGATCAAGATCTTCCAGAATTTGGAAAAGATATATTTTTTGATAAATATAAACCTGGCAGTTCAGACTCTTCAACAGATTCATCAAATAATACAACTGTAGTTGATGGTTATACTGTTAAATTAGATCAAAAACATAAAGATTGAAACAGTTACATTAAAACCAAAGTTAAAAATAGATTTGTTGATTTTGATTTAAATCAAAATCAAAGTTTTCAGTTTAATACTCAATCAAGTAATTCAAGTAAACCAACACCACCAAATATTCCTGATCTAAACAAAAAACCACTAGATCCAACTGAAAAAAGAGATCAAAATTCAGTTGAGTACGCTGAACAACTTCCTAGATTACAACCAATTTTAAAATGACAATATGCTGATCATAGTAAAGACAGCATACAAAATTCATTTAATTCATCTAATGAAGAAAAAAATCCAATGTTTTTCTTTATTAACCCAATTAATACTAGATTTAAATATCATGTAACTTCACTAAGTAATGGTAGAGCTACTGTTAAAATTAAAGATCAAGTTAAAGATGTTGAAAGAACTTATTATTCTTCAGATATAACTTATGGTGCTGATCCTAGATTTACATTTATTTTAGAAAATCTAACTAAAAAAATTGAAGCTAAATTTTTACAACTTTATAAAGCTTTATTATTAGATGAAAAAATTAATTATGTTGAATTAAATAATGATCATTTACAAACAAGTTTATTTGGATTAGTAAATCTAGCTACTAGAATAGTTAGTGATTCAAAATATTTAACTGATGTTTTATATAATATAGCAACAAATAAATATCAGTCACTTAGCGATATTTCTAGTGATGATGATTATGCTGGATGAATTAATAGAGTTTCAAATCAAGCATTTGCAAGACTATTACATGCAATTAGTGCTTCACAATTAAATAATCAAAATAATCCTTGAAGTGTTTTAACTGGTGGGTTTAAAAGTGTTCAAGAAATCTATCAAGAACTAGCTAGAGTAACTGATACTAGAAAACAAATTATTAAAAAAGCTAATGACTATAATGTTGATTTAAGTCATTTAGATCAAATATATGATTATTTAGATACTTCTATATTAAAAGCTCAAACCAGTGCAAATCAAATTGGAAAAGCTTTAAACATTTTAAGTTGATATGATAATTTTACAAATCATGTTAAAGATACATCTGAACATTCAGCTTTATTAAAAGTTTTAACTGATACTTCAGATATTAAAAGTGATGAGAAAAAAGTACAAGAATTCCAACAAACTTATCAAAAAGCTATTCAAAAACTAGAAGAAAATAACAGAGAAAAGAAAAAACCTTTAATAATTGTTAGTTCATTATTTTTAGTAATTTCATTATTGTTCATTATAGCAAACACTCTGATATTCTTAATTAAAACTAAACGTAGTAAAAATAAAAATGCTAAATTAACATTTATTATTTCAACTACAATTTCAACAATTATTACTATATCTTCAATTATTTTATTAATAATAGGATTGAAAGGATAAAACGATGAATATAAAAACAAATAGCAAACATACATCACCTAAGATTAGTGCAATCTATGATTATATTGTTGAAGTTAAGGGTGAGTTTGACTATAAACAACAACAAATTTTTACTTCTAAAAAAAATAAAGAGGCAAGATTATTTTTAATTAGTGCTACAAGTGATACTGCTTATTTATTAGCTAATTTACAAGCTTTAAAACTAACTATTAATGATGAATTAGAATTATTAGATAATACTAATGAGATATTTACTTCAAATGAATATTTTGGAAAAGTAATTGATATTTATGGAAATATCATTTTACCTGAACCAAAAACTGTTGTTAAAAAAGCTGAAGATATTTCAAGTGAAGTTTTTAAATTAAGTCATGATTTAATGAAAGTTCAAAGATTAAATGAACAATTATATACTGGTTTAGCTGCTATTGATTTATTAATTCCAATTGGTAAAGGACAACGTGAGTTAATTGTTGGAGATAGACAAACTGGAAAAACTCATATAGCTTTAAATACTATTATTAACCAATCTGCTAGAAATATTAAATGTGTTTATGTTGCTATTGGTCAAAAAAAAGAAAGCATTTCAAGAATTTATAATATTTTAGCTCAACATGATGCTTTAAAAAACACAATTATATTAGATGCTCCAGCTAATAGTAGTTATGAACAATATTTAGCTCCATATATTGGAATGACTCATGCTGAAAATATTTCAAATACTGATGATGTTTTAATTATTTTTGATGATCTAACTAAGCATGCAAACATTTTTAGAGAAATTGCTTTATTAAGTAATCGTCCTGTTGGAAAAGAAGCTATGCCTGGTGATATGTTTTTTGCTCATTCTCAATTACTAGAACGTGCTGGATCTTATAAAAATAAAAAAACTATTACAGCATTACCAATTATTCAAACTATTGATAATGATATTACTAGTTTAATTGCATCAAATGTAATTTCTATTACTGATGGTCAAATTGTTACAAGTAGTAAATTATTTTCACAAGGTATTCTACCTGCTGTTGATATTGATTTTTCAGTTTCAAGAACTGGTGGAAGTGTACAAGATAAAACTATTAGACAAATTGCTGGTCAAATTAATAAAACATATAGAAAATATAAAAGACAATTGAAATTATCAATGTTAGATTATAACTTAAATAGTGAGACTGCTGATTTAATGTATAAAGGTAAAATGATTGATAAATTATTTACTTCAAAAGGATTTAGTATATTTTCATATAACTTTATTTTAATGATGACTAAAATTATTAATTGATCACTAATTAAAGATATTAAAGATGAACAAAAAGCTTTAAAATTTATTGATGAATTAATTAATAAATCAGTTGATGGTAAAAAACAATTTGAAATCATTAAATCAGGTAATAATTATGATGATAAAATGATGAAAAATTATTTCTTATTTGCTTTAAAAGAATACTCTGATTATGTTGGATTAAATTGAGAAATTGATAATGAATATGACTTCTTATCACTAGATCAGTCATTTTTAGAAAAAACTGCTAAAAAATTAGGAGATAAATAATGAACGGGAAAATATTAAGTATATCTGGTGATGTAATTGAAGTACAATTTGAAAAAAGCAATTTACCTTCAATTAATCACTTATTAACAACTCATGATAATCAAACATATTTATTAGTAAAAAGTGTTATTAATGAAACTAACATTAAAGCAATCATCATTTATGCATATAAACAGATTTCACTAAGCGATGAAATCATAAATACTAATAAAAGTTTTATGGTTCCAGTAGGAAGTAAAGCAAAAAACAACATTTTTAGTTTTACTGGAATTTCACTAAACAATAAAAAAGATGATAAACAAGAATATGTTGAAATGAATTCAACTATTAATAATAAAAGAGAATTAAGCACTGAATTTGAACTAATTGAAACAGGTATTAAAGCTATTGACTTTTTTATTCCAATTTTTAAAGGATTTAAATTAGGAATTTTTGGTGGAGCTGGTGTTGGTAAAACAGTTTTAATGAAAGAAATTATTTTTAATGTTAATAATAAATATAAAAACACTTCAAATATTTTTATTGGATCAGGTGAACGTTCAAGAGAAGGTATTGAACTTTATGATGAACTAACTGAATCTAATTTAATGAAAAACTCAACTATGTTTGTTTCTAAAATGAACGAATCTCCAGGAGCACGTATGTCAATTGTTCCAATTGGAGTTACTGCTGCTGAATATTTAAGAGATGTTAAAAAAGAAGATGTTTTATTATTTATTGATAATATTTATCGTTTTATTCAAGCAGAAAATGAAGTAAGTGCTACACTTGGTAAAAAGCCTTCAGTTGGTGGGTATCAATCTACATTAGAAAGTGATGTTGCAAATATTCAAGATCGTTTATTTAAAAATAAAAATGGAGCGATTACTTCATTTCAAACTGTGTTTTTACCAATGGATGATTTAAGTGATCCATCAGCTGTAGCTGTATTTAATCACTTAGATTCAAATCTAGTTTTATCAAGAGATCAAGCTGCAAAAAATATTCTTCCAGCTTTTGATCCACTAGCAAGTTCATCTAGTTCAGTTGATGAAACTTTAATTGGTAAAAAACACTTTAATGCAATTATTGAAGTTAAAAGAATTTTAAAAGCTTATAAAGATTTAGAAGATGTAATTTTAATTTTAGGATTTGATGAATTAGATGCTGAAAGTAAAATCTTAGTTAAAAAAGCTTTACAATTAGAAAACTTCTTTACTCAATATTTCTTTATGACTGAACAATTTACAAAACAAAAAGGTCAATATGTACCTTTAAATGAAACAATTGATAGTGTTATTAGAATTATTGAAGGTAAATATATTAAACAATCTCCTGAAATCTTTTCATATATCGGTTCAGCTTTAGATTTAAAAACTGATGAAGAATTAGGATTATAATTTTAGATAATAAAAGCAAGACTTTAAGTCTTGCTTTTTTACTAACTAATTTTTATTATTCTTTTGTAATTTTTGTAAATTTAAATTTGTCTTGTTTATCTCTTAAATAACTAAATGAATAAGTTGATTCACTACTATCTTTTTTATTTTTAACTTTAGCTATTAAAGTTTCACTTAATAATTGTTCAAATTTATTTTTCTTTTGATCTTTAAATTCAAAATTAATTTCAACACTAGATTGATCAATTGTACTTTCATTTAATGAACTATTTAATGAAGTTATAAGTTTAGATAATTGATTAATAGCATTTTCAGATTTATTATCTTTTTTACTTAGATCAATATTAAATACTTTATTTAATAAAGTATCTAGTAATGAACTTTTACCAATTGGTTCTTTACTATCTGAAGTTCAACCTAAAATTTCTAAAGTTTTATCAGAATTTGATTTTAGAATATCTAATAAATGAGTTTTGTCTTTATAATCAACATCTTTTGCTTTATATTCGTATTTATCAATTACTTTAGCAACATCAGTTAAACCAGTTAAACTAATATTTGAACTTTGTAGTTCATTTAATTTTTCATTTCCTTTAACATCTAAACTAGTTAACAAAGTGTCTAAAATATCAGCTACAGATTTATTTTGTAAAGGTTTAACAAATGATTTATCTTTTCATCAAGATTCATTCATTTTATTTAAAGGAGTAGTTAGTAAACCTTTTAAGTTAAATTCTTTAGCATTTTTAAATATTTTGTCATATCCATTTTCTAAACCACTTAAAAGATTTCTAATTATTCCAAAAGGAACATCTTTAGCACTGAATGGTAAATTTTGTGCTATTTTTTTTATTTCTTCAATTTTTTTAATAGTTGTAGTTCTGAATTGTTTAAACATTTCATTTATTTTATTTGGTAAAAATACTTCACCAGAATATAGCTGTTTAAATGAGTTTTTATCATTTTTATTTTCTGCTGTTATTGGAAATGCAATTGGTAACACTTCTTTTACTAAGCCTTCAAAAACAAATGCTGGGATCACAGGTAAAAGACTAGCATCTACTTCTTTTAAAATGCCTAGATTAGTTTTTAAAGAAGTTAAAACAACAGGAAGTACCTTAATAAATAATGTAGATAAACAATCATATACATTGTGTGTTCCTGTTAATAAACTAGTTAAAGTATATGATATTCATTTATATAAGTGTGGCAATAAATCATTGATAGTTTTTTTAAGTTGATCTTCTTTAGCATCTTTTGATATTACTGGTAAAAGTGGTGTTATTTTTTCATTTAAGAAATCATTAGCTAAAGTTATTAGAACAGTAACAATAGGATGAGCACTTTGATTTTCAAAATATTCTTTTACTAATTTCTCATTTTGATTATTTCTGTCATCTTCTGGATATTCTACTTTAGTAGTTGATAAGAATAAAATAGCTAATAGTTTTTGCAATTCAAATCCATCTTTACTATCCTTATCTTTTAATTCTTTAACAGGTTTTGCAAAGAATGAAAGTATATATTTTAAATTGATTGAAGATGATTTATTTTCTGTGATAGTAGCTATAGTTTTCTCATCATAAGTATTTTTAACAAAATCTTGATTTGTTGTTTTTTCACCAAATAAGTTATTAGCAGATTTAGGTGTAAAATCTCTAGCACTTTCAAATAAACTTAGTTTAATTTGTAAGAATTGTAAAGCCTCTAAAATGTAACCAACAATATCTAATTCGTTACCATTTGATGGTTTAGCAGGACCATTTAATGCTTTAGTTAATGCTAAACTTGCGTCTTTTAGTGATTTAGAAGCATTTTCAACATCTAGTTTAACAGAAGTATATCTACTTCCAACTAAGCCTAGACCTACAGCATTAACTAATGATGTATAAAATGCATTATCTAAATCTTCAGCTTTTAATTCTTTATAGTTTTTATTAACATCAATTTTTTCTTGGAATTTTTGAACATCTTTTACAAATTCAGAACTTGGATTAGTTAATTTTTCTAATCCAGTTTTTAAATGAGGTTTAACTTTTTCAAAAAATGATTTTAAAGTAGTATTAGCTGAATCAAAACTACTTACTAAAAACATTGGATTTAAACTAGTAGTTAGATCTAATATTTTTAAGATATCATCACTTAATTTATCTAAATCAGTTGTATCTACTCCAAATAGTTTAAACACTTCATTAAATAATGGAATTGAAGGTTTTTTAATTTGATTATCTAATTTAATTTTTGAATCTAATACATTTTTATATGAATCTTTTATAAAGTAATGATCAACAAGAGTATTTAATGTTGTTATATTACCGATATCTTTATCAGTATCTTCTAGTTTTAAATTATTTTCTTTTAATAAATTAGTTAGTGATTTTTTATTATTTTCAATTTTAATTTCTTTTAAGTTAACTTTTAGTTGATCTGCTAAAATAAGTTCTTTAGCAAATAAACTAATAGAAGTTTGAGTATTTGTTATCGAATTATTAGTGTCAAATTTTTTTTCTTTAACATGGCAGGCAATTATTGGTAAACTAGCAGTTGTTATCATCATCATTGATGATAAAATTGCAATTAATTTCTTCATAATTTCTCCTATGTAAAACAATTTAAAAAATGTTTTACATTAAGATATTGCCAATAAAAGTAGTCTAAAAGTAGAAAATAACATAAATATAAGAAAACTACAATAGTTTTTAGAAAATATGAATTAATTTTTACAAAATAAATTATCTTTTTAATAAAAGTAGTTATTTTTTGATATAAAGCGTTTTATAAAAAATTCTTTTAAATAAAAAAACAAGATCTTAAATAATTTAAGATCTTGTAGGTTAATTAATTAGTTTTTTGTAATTTTTACAAATTTAAATTTATCTTGTTTATCTCTAGAATAAGTAAAGGAATATTTAGATTCAGAATTATTATTTTTATTTTTAACACTAGCTATTAAAGTTTCACTTAATAATTGGTCTGAACTATTTTTCTTAGTATCTTTAAATTCAAATATGATTTCTATATTACTATCAAATAAAGTATCTAATGAACTATTTGCTGATGCAATAATCTTAGCTAATTGATTAATTGCATTTTCTGATTTATCACTATTTTGATTTGTTTTAAAATTAAATACTTTAGATAAAAACACATCAATTAATGAACCTTTACCAATTGGATTCTTACTATCTGAAGTTCAACCTAAAATTTCTAATGTTTTATCTGGATTAGCTTTTAAGATATCAGCTAATTGAGTTTTATTTTGATAATCAACTCCATTTGCTTTATAAGTGTAATTATCAATTAAAGTAGTAATATCAGTTAAATTAGTTAAGTTAATATTTGAACTAGATAAATCAGCTAATTTTTCATTACCCTGAATATTTAAAGATTTTAATAAAGTGTCTAAAATATCAGCAACAGATTTATTTTGTAATGGCTTAGCAATATTTCTTTCTTTTCAACTATCAGAATCTATTTTATTAAGTGGGGTAGTTAATAAAGTTTTTAAATTTAAATGTTTAACATTTTTAAATATTTGATCATATATACTTTTAAATAAGTCTAAATAAGGTTTAGCTTGATCAAATGGGATTTGTTTTGGATCAACTCCAAGACTAGATAATTTTTCTTTAATTTCTTTTTTTACTGCTTCAAAGAACTCATCTAATTTATCAATTAAAAATACATTCCCACCATATAAAACTTTGAATGAATTTTTATTTTCGTCTTTTTCGTTAGTAATTATTGGAAATGCAATTGATAAAGTTGGAGCAAGTACAAGTGCAAATAAAAGTGCAGGTGCTGATGGAATTAAATCTTCTTTTTCTTTAACTTTGTCTTTTAATATAGTAGTATTTTTAATTAAAGAACTTAAAATAGGTGACATTGTTTTAGTAAACAATATACCTAAAGTGTCATAAGCATTTTTAGCACCAGTTAGTAAGTTGTTTGAAGCAAATGAGATTCATTTGTATAAATGAGGAATAGACTCATTCATAAATTTCTTAATACCTTCTTTTTCATTAGGAATTAAAGCTTCAAGTTTCTTTTCTATAAGATCCTTAGCCATTATTGTTAATAAAGTAATTGAAGGATGAGCCTTTTTATTTTCATAATACTGTTTTGAATCATCTGTATCTCCTCTATCTGGATATTCATTTTTAGCAGTTGATAAGAATAGCATTGCTAAAAGCTTTTGTAGTTCATATCCATCAAGTTGTTTTTCATCTTTTAATTCTTCAACAGCTTTTTTAAAGAATGAAAGTAAGTATTTTAGATTAATTGATGATGATTTCTTTTCTGTTATATTTGCTATAGTTTTATCTTTATAAAGTTCAGTTAGGAATTCTTGATTTGTTTTTTTATCATCAAATAAATTATTAGCTGAACTAGGAGTATGAGTTTTAACATTTTCAAATAAGCTTAATTTTAGTTGTAAAAATTGAAGAGCTTGTAAAGTGTATAAAACAATATCTCATTCTTTATTTTGAGTAGGTTTAGCTGGTGAATCAGTTATTTTAGCTAACATTTCACCTGATTTTTGTAAAGTCTCATTTGTATTTTGAGTATTAATTTCAACAGTTTTGAAATCTTTTGTTCCTATTCCTAAACCTATTGCATTAATTAAACTTGTATAAAAAGCAATGTCTAAATCTTCAACTTTTAGATTTTTGTATTTTTCATTAACATTAAGTTTTTCTTGAAATTCTTTAACATTTTTTGTTATACCCTCTTTTTGAGCAGTAATTGAATCAAATAATGTTTTTAAACTTGGTTTTAAGTTTTTAAAAAATGATTGTAAAGTAGTATTACTTTTATCAAAGTTTGAAGAAATAAACATTGGATTTAGATTAACTAATAAAGTTAAAATATTTGTAATATCATCGCTAAATTTATCTAAATCAGTTGTACCTAATCCAAATAATTTAAAAATTTCACTAAATAAAGGATTTGATAATTTCTTTTGTGAATCTAATTTAATATTTGAATCTAATACATTTTTATATGAATCTTTTTCAAAATATTGGCTGATAAGTTCGTTTGATGAACTAATATTTTTAATACTTGGATCAGTATTATCTAATTTTAAATTATATTCATCTAATAAAAGAGCTAAGTCTTTTTGGTTATTTCTATTTTTAAGTTCTTGTAAGTTAACTTGTAATTGATCTGCTAAAATAAGTTCTTTAGCAAATAAACTAGCAGTTGAGTGGGTATTTGTTATTGAATTATTATTTTCAAATTTATTTTGTTTAGTATGACAGGCAATTATTGGTAAACTAGCAGTTGTTATCATCATCATTGATGATAAAATTGCAATTAATTTCTTCATAATTTCTCCTATGTAAAACAATATAAAAACTTGTTCTACATTAAGATATTGCCAATAAAAGTAGTCTAAAAGTAGGAAATAACATAAATATAAAAAAACTACAATAGATTTTAATAAAAAATGAACTATATTTTACAAAATAAAAACAAGACCTTAAATATTTAAGATCTTGTCAAATGCTAATAATTTTATTAACTAATTTTTTGTGATTTTAATAAATTTAAACTTATCATCTTTGTTAGTTCTAGAATAATCAAACACATATTTAGTTGTAATCTTGTCTTTATTATTTATAAATTTAGCTTCTAGTTGTTGAGAAACTAATTGGTTAAATTTATTTTTCTTATCATCTAAAAATGTATAAGTAATATTAAACTTTTTGTCATTAAATTCAGTGTTTAGTGAATTATTAACAGATAATAAGAATTTTGATAATAAATTAATAGTGTTTTGTGAACTATTATTTTTATCATTTAAGTTAATATTTAAAGTTTTAGAAAATATTATATCTAATAATGAGTCTTTAGCTATCAGATTATTTTTATCTGATGTTCAACCAATGATTTGTAAAACTTTATCTGGATTAGATTTTAAAATATCAATTAAACTAGAGTTAGTTTTATATTCAATACCACTTGGTTTATAGTCATATTTTTGAATTTTTAAAATTATGTCAGTTAAACTAGTTAAATTAATATTTAAACTTTGCAAATCATCTAATTTTTCATCTCCTTTAATATCTAAATCTTTTAATAATTTATCTAAATTATCAGCAATAGATTTATTTTGATATTCTTTTGCAAATGTTTTATCTTTTCATCAAGATTCATTCATTTTATTTAAAGGAGTATTTAATAAAGTTTTTAGATTAAATTGCTGAACGTTTTTAAAAATATCTTCATAGTTATTTTTAAAACTATCAAAGTAATGTTGGATTAAAGAAAATGGAATATCAGTAGATTTTATAGGTATAAAACTACCAAATGATTTTAAAAGATGTTCAACTTTTTGTTTAAAGGTTTTAAACATTTCATCAGTCTTATTAACTAAAAAAATATTTCCACTATAAAGTTCTTTAAATGAATTTTTATCACTTGATTTCTTTGTAATAGGAAAACCCACATTTAAAGTTGGTGCTATTATTTGTTCAAATAACACAGGAAAAGCAAGGTCTTTAAAAGTTATTATTTCTTTACTTAAAAGTTTTGTTTCATCTTGAATTATTACAACTATAGAAGGTAGAACCTTAACAAATAATGCACTTAAAGTTTCATATATGTTAGCTGATCCAGTTAATAAATTAGTTGTTGCATAAGATAATCATTTATAAAAATATGGAATAGAACGCTCAACTAGTTTTTCAACATTTTCTTTTTTAACATTAACTAATAAAGGACTAAGTTTTTTAATTAAAAAATCTTTTATTAAAACAGATAAAAGATAAATTGAAGGATGAGCTTGTTGTTTTTCATAATAATCTTTAGGATCATTAATAGTTGATGTTGTATTATAGTCAACTTTATTTTCTGATAAAAACAGCATTGCTAGTAATTTTTGTAATTCATATCCATTTTTATTATTAGGATCTTTTAATTCTTCAACTGGTTTTTTAAAAAATGATAATAAGTATTTTAGATTAATAGATGAAGGTTTATTTTTTGTAATATCACTAATTTTTTTAGAACTATAAGCATCTTTTATAAAGTCTTGGTTTGACTTAGTATCACTAAATAAATGCTCAGCAGATTTAATTTGATAATTTTTAGTACCATCAAATAAACTTAGTTTTAGTTGTAAAAATTGTAGAGCTTGTAAAATAAAAGCTACAATTTCTCATTCTTTATTTTGTTTTATTTCTTTTTTATTGCTAATTACACTAGCTAGATTTTCACTAGCTTGTTTTAAAGAGTTATTAGTATTTTTAATATCTAGTTCAACTATTTTATAAGTTGTAGAATTTAATCCTAAACCTATAGCATTAATTAAACTAATATAAAAAGCTTTATCAAGATCTTCTAGTTTAAGATCTTTATATTTGTTATTAACATCAATCTTTTCTTTAAAGTTATTAATGTTATCAATTAAATTTTTATCTAAATTAGATAGTGATTCTAATCAAGTTTTTAAACTTGGTTTAAGTTTTTCAAACATTTCTTTTAATAAAGAATCTATATTTGAAAAATGATTAAACATAAAACTCGGATTTAATTTAGAAGTTAATTCTAAAATTTTAATAAGATCATCACTTGTTTTTTTAGTATCACTTATATCTAAATTTAATAATTTAAAAACTTCATCTAATACAAAATTATTTAAACTTTTATTAGAGTCAAGTTTTATGTTTTTATCTAGAACATTTTTATATGAATTTTGATCAAAATATTTATTTATAAATTGATTAGTTGATTTTAATGAATCTAAACTTAGTTCATCTTTATCAAGAACTAAATTATTTTGATTAGTTAATAGTTCTAGATTTTTATTTTCATTCAAGTTTTTAATTTCTTGAAAATTTAGTTGTAGTTGATCTGCTAAAATGAAATCTTTAGCAAATAAACTAATTGCAGTTTTTGTATTTGTTAATGAGTTGTTAGTTTCAAATTTATATTCTTTTTTATGACAAGCAATTACTGGTAAACTAGCTGTACTTATCATCATAACTGATGATAAGATTGCAATTAATTTCTTCATAATTCCTCCTGTATAAAACTTAAAATCGGTTAGGATAAAAGTTTTATACTTTGATGTTTTATAACAAATTTTAAAAAAATGCAAAGTTTTTTAATTTCTAAAAAAGTGTATAATTTGGGAAAAACATTTTTAAATTTAAATAATATGTAAACTTTATTTTTAATATTTTAAAATTAATATAGTAAAGAAAAAAGAGGGCTTATGGATAAAAAAATAATTTATCTAGCAACAACTAATAAAAATAAAGTTAAAGAATTTAGTGAAATTCTAAAAGATTATCAAATTAAAAGTTTATTAGACATACCAGAATATGTTGAAATAGAAGAAAATAAAAAAACATTTAAACAAAATGCCTTATTAAAAGCAAAACATTTAGCTAAATATATAAATGGAGTTGCAATTGGAGATGATACTGGAATTTGTGTTAAAGCTTTAAATGATTTTCCAGGAATTTATTCTAAAAGATGAGCTTATCCTTTAACAAATCATTATGATATATGTAATAAATTGTTAGATAAACTAAAACATATAAATCAATTAAATAAAAGAAAAGCTTATATGACAACAGCTATTGCTTTATATGATGCAATCAATAAAAAACAATTTGTATATCAAGCTAGAGTTAATGGATATATTGATTTTCAAGTTAATAAAAGTGAATTTGGTTTTGGTTATGATTTTATTTTTATTCCTAAAGGTTATGAGAAAGCTTATTCATTAATGAGTAGTGAGTTAAAAAATCAAATTTCAGCTAGAAAAAAAGCAATAGATAGATTAATACAATATATTGATAATGTAAAATAATTAAGGATTTATATGAATAAAAGAAAAATTAATATTGTTTTATATCAACCAGAAATTGCTCAAAATGTTGGAGCAATTATGAGAACTTGTGTAGCTATTAATGCAAGATTACATATAATTGAACCATTAGGTTTTATTTTTGATGATCGTCATTTATCAAGACCTAGTGCAAATGAGTATAAATATGTTGATTGTATTAGATATGATGATTGAAATGATTTTATAACTAAACATCCAAATATTACTTTATTTTGTTTATCTAGATATGGTCAAAAACCAATTTCTGACTTTGATTTTTCAAAAATTAATGATAATGTTTATTTAGTATTTGGAAAAGAATCAACTGGGATTGCAAAACCGATTTTAAAAGAACATTACAATACAACTTTTAGAATACCAATGATAAGTGAAACTAGAAGCTTAAATATCGCAAATACTGTAGGAATTGCTAGTTATGAAGTTTTAAGACAATGAGACTATTTAGATTTAGTTAAATATGAAACTCAAAAAGGCAAAGATTATATTTTAAGTGAACGTTGAAAGGGAATTGAAGAATAATGAACAATTATCCATACATTTTATCTGATCTTGATGGAACTATTTCTTTAAAAGATTTTTCTATTAGCAAAAAAACTATTAAAGTAATTAAAAAATATCAAAAATTAAGTAATAACCGTTTTTCATTTTGTACAGGAAGAGTTGATGGTGCTAATAAAAAAATAGCAAAACAATTAAAAGTTAATTTACCTATAATTTCTTGTAATGGAGCTTTAATTTCTAATTTAAAAACTAATGAAGTTTTACATGCTGATTATTTAAACAATAAACTAATAAGTGAGTTATTTAAATTAGCTCATGAGCATGATATTGATATTGTTGGATATACTCATAATATGATGATTGGTACTTTTCATTCTGAAAGAGTGATTTCTTGACAAAACTATATGAATAAAACTAAGAAAAAATATCATTGAGAAATTAAAAAATATAATGATTTATTAGAAATTTCAAATGAATTAAAAAATAACAATTTAAAAATTGTTGAAGTAATTATTAGTTTACAAAATCTTTCAGATGATAAAGCAAAAGAAAAATTAGATCTCATTAAAGAATGCATTAAAGATAAATTTGATTTAGTTCAATCACTACCAAAACTATTTAACATTATGAAAAAAAAGACTAATAAGTTGTCTGGATTAAAACACTTTGCTAAAGCTTTAAATATTAACTATAAAGATATTATTGTGTTTGGAGATAATCATAATGATATTGAAATGGTTAAAGGTGTTAAACAAGGATATTGTGTTGAAAATGGTGTTGATGAGCTTAAAAAAGTAGCATTTGAAGTTTGTGATAGTTTAGAAAATGATGGAGTAGCTAAGAAAATAGAACAAATTATTAAAGAAGTACAAAATCAAAAATAATTTATTTTAATTTCTTAATTAATATATTTAATTAAAATTATTTAACATTTTAAGACCTTAAAGGTCTTTTTTATTTTTTTAGCACTCACTATATGCAATTGCTAAAAATGTGTTACAATAGAAATAGTTAAAAAAAGAATTTAACTTAAAGGAGCTGAGATAGTGGAATTTCAAGAAAAAGGAAAAGTAACTGATGCTTTAAAAAAATATACAAGAGATCTAACAAAAGATGCTAAAGATAATAAATTAGATCCTGTTATTGGAAGAGAAGAAGAAATTTCTCGTGTTATTCAAATACTATCTAGAAAAACAAAAAATAATCCAGTTTTAATTGGTGAACCTGGAGTTGGTAAAACTGCTATTGTTGAAGGATTAGCTCAACGTATTGTTAAAGGTGATGTACCAACATTATTAAAAAACAAACGTATATTAGAACTTGATATGGGTAGTTTAATGGCTGGAGCTATGTATATGGGAGATTATGAGTCTCGTGTTAAAGCAGTTGTTAATGAAATTCAAAAATCTAATGGCGAAATCATTTTATTTATTGATGAATTACACTTAATAGTTGGAGCTGGAAAGACTGGAAATAATAGTGGAATGGATGTTTCTAACTTATTAAAACCAGCGTTAGCTAGAGGTGAACTAAAAGCAATTGGTTCAACTACTTTAAATGAATATCGTCAATATATAGAAAAAGATGCTGCTTTAGAAAGAAGATTTCAAAGAGTTTTAGTTAGTGAACCAACTATTGATCAAACTATTTCAATTTTAAGAGGATTAAAAGATCGATTTGAAACTTATCATGGAGTAAGAATTCACGATAATGCCTTAGTTTCAGCTGCTAAGTTATCTAGTAGATATATAACTGATAGATATTTACCAGATAAAGCTATTGATTTAGTTGATGAAGCTTGCGCTTCTATTAGAACAGAATTAGCAAGCGTTCCAATTGAACTAGATCAAGTTAATAGAAAAGTAATGCAATTAGAAATTGAAACATCTGCTTTAGAAAAAGAAAAAGATGACAAGTCTAAAGAAAGATGACAAGAAGCTAAAAAAGAATTAGATAGTTTAAAAATTGAACAAGCTAGTTTAAATGAAAAATGAGAAAAAGAAAAAGAAGAACTAAGTAGAATTAATTCAGTCAAATCAAGTATTGAAAGTTTAAAACAAGAATTAGAAACTGCTCAAAATGATGGAAATTATAAAAGAGCTGGAGAAATTCAATACTCATTATTACCATCACTTGAAAAAAGTTTAGCTTTATTTGAAAAACAAACCGGATCAAAAATGATTTCAGAAGAAGTGACTGAACATGAAATTGCAAAAGTTGTTTCAAAATCAACAGGAATTTTAGTTGATAGATTAATTTCTTCAGAAAAAGAAAAGCTTTTAAATCTAGAAGATCTATTAAAAAAATATGTTAAAGGTCAAGATCAAGCTATTAAAGCAGTAACTTCTGCAATTATGAGAAGTAGAAGTGGAATTAAAAATCCAGATAAACCAATTGGTAGCTTTTTATTTTTAGGACCAACTGGAGTTGGAAAGACTGAAGTTGCAAGAAGTTTAGCTGATATTTTATTTAATTCACCTAAAAAAATGATTAGACTTGATATGAGTGAATATATGGAAAAACATTCTGTTGCTAAATTAATTGGTGCTCCTCCTGGATATGTTGGGTATGAAGAAGGTGGAAGATTAACTGAAGCTGTTAGAAGAAATCCTTATTCAATTGTTTTATTTGATGAAATTGAAAAAGCTCATACTGATGTATTTAACATTTTATTACAAATACTAGATGATGGAAGATTAACGGATTCACTAGGAAAAACTATTGATTTTAAAAATACAATTATTGTAATGACTTCAAATATAGCTAGTCAATATTTATTAACTTCAGATGAATTAGTTCAAGTTGATGATCAAAAAATTCAAGAAGAATTAAATAAAGTATTTAGACCTGAATTTTTAAATAGAATTGATAATATTGTGTATTTTAATGCTTTATCAGTACAAACAATTGGTGAAATAGTTGATAAAGTTTTAGAAGAATTATCAACAAGATTACAAGATGAACAAAACTATTTTATTAATTTTTCAGAAGAAGCTAGAAATAAGATTATAAATGAAGGTTATGATAGATTATTTGGTGCTAGACCTATTAAAAGATATATTGAAAAAAATATAGAAACGTTAATTGCTCATTATATTATTAGTGGAGAAGTTGTTGAAAATACTAGATATTTAATTGATGTTAAAAATAATCAGTTTACATTAGAAGAGTTTAAACAATTTAATTAAGACTATGCTAACAAATAGGCAAATTAAAATTTTACAAACAATTGTTGAAGAGTTTATAAAAACTAATCAACCAGTTGGATCTAAAAGAATTTTAGAACTATTAAATATGAAAATATCTTCAGCAACAATTAGAAACGAATCTGCAACTTTAGAACATGAAGGTTATTTAGAAAAACAACACACTTCAAGTGGAAGAACACCCTCAACTAAAGGTTATAGATATTATGTTGATAATATTATGAAACTAGATTCAGCTGACTACACTAGATTAAAAATTTATTTAAACCAGTTATTAGATTTAAGAAAATATGATATTGATAAAACAATTAATTATGCTAGTGAAATTATTAGTGAATTAACTAAAATGACAGCTGTTGTAATTAAAAAACAAAACATAAAAGATATTAAGTTAAAAAAAATTGAACTAATATTACTATCAGAATTTTTAGCAAGTGTGTTATTTATTTTTTCTGATGGTGATGTGCAAAATAAAATGTTTAATTTAAAAGATGTTGCTTTATCTGATTTAAAGATTGCTATTAAATTATTTTCAGATGTTTTAGTTGATGTTAAATTAGATGAAATAGATCAATATTTAAATGACTTAAAACACCAATTATCTTTAAGTATTAAACAATATGACTATGTTTTAAATACATTTATAAATACTATTTTAGAATCAAAAAATGAACAAAAAGAAACTCATGGAATGAGATATATGTTAGAAAATCCTGAGTTTAACGATACTAATAAATTAAAAAATGCAGTTAAATTAGTTGAACAATTATCTCCTTTTGATTGGTTTAATATTGCTTATGAATCTAATAAAAATATGAATAAAATAGCAATTAAAATTGGTAATGAAATCGATCAAATAAATGATGATATTTCAATGATTGCAACAGAATTAAAAATTGGTAATTCTTCTACTGTTTTAACTTTAGTAGGTCCAAAAAGAGTAGATTATAATCAAGTAAATCAATTAATGAATTTAATTATTGAAATTATTAATACAAAGGAGAATTAAGATGACTGAAGAATTAAAAAATAAAAAAAATAATAAAAAATACTATAGTCAAAATAGAAATAAAACAAAAGCTGAATTTCAAAAAGCTCATATTAAAAAAAATCAGTATTTAAACTTAAAAAGAAAATTTAATAATGTTTTATTAGAAGTTCAAAATTTAAAAGAATTAAATGAAACTTTAAAAAAAGAACTTGAATCTGAAAAACAACTTAATTTAGCTGAAATTAGTAATTTAACTAAAAAGTATAATCAAAAAGAATTAGAAACTAAAAAATATGGTGCTAGTAATTTAGCAAAAGATTTAATTCAACCTTTAGAAATTTTAAAAAAAGTTGTTAATGCTCCTAATAATAATGAAGTTGTTCAAGCTTATGTTAAAGGGTTTGAAATGATAATAAATCAAATAAATAACGTTTTAGAATCACATCATATTAAAGCTATGAATGTTAAAGTTGGTGATATGTTTAATCCACACCTTCATGATGCTAATGAAGCAGTTGAAACAGATATGTATCAAACAAATCAAATTGTTGGTGTTTTAAGTGATGGATATATGATTCATGATAAAGTACTAGTTTATGCAATAGTTAAAGTTGCAAAATAAAAACAATAATAAATAAATAAAAAAAAGAGACAAAAGATACAAGGAGAAATAAGATCATGGCAAAAGAAAAAATTATTGGAATAGATTTAGGAACTACTAATTCAGTTGTTTCAGTTATTGAAGGTGGGCAACCTATTATTTTAGAAAATCCTGAAGGTCAAAGAACTACACCAAGTGTTGTTGCTTTTAAAAATTCAGATATTATTGTTGGTGGAGCTGCTAAACGTCAAGCTGTAACTAATCCAAATGTTGTTCAATCAATAAAATCAAAAATGGGAACTACTTCTAAAGTTAATTTAGAAGGAAAAGATTATAGTCCAGAACAAATTTCAGCTGAAATTTTAAGATATATGAAAAATTATGCTGAAGCTAAATTAGGACAAAAAGTAACTAAAGCTGTTATTACAGTTCCTGCTTATTTTAATGATGCACAAAGAAAAGCTACAAAAGATGCTGGAACAATTGCAGGATTACAAGTTGAAAGAATTATTAATGAACCAACTGCTGCTGCTTTAGCTTATGGACTAGATAAACAAGATAAAGAAGAAACAATTTTAGTTTATGATTTAGGTGGAGGAACTTTTGATGTTTCTATTCTAGCTATTGGTGGTGGAAGTTTTGATGTTATTGCAACTAGTGGAAATAATAAATTAGGTGGAGATAATTTTGATGAAGAAATTATCAAGTGATTATTAGGTAAAATTAAAGCTGAATACAATATTGATTTATCTAAAGAAAAAATGGCTTTACAAAGATTAAAAGATGAAGCAGAAAAAGCAAAAATTAATTTATCTAGTCAATTAGAAGTTGAAATTAATTTACCATTTATTGCAATGAATGAAAGTGGACCAATTTCTTTTGCAACAACTCTAACAAGAAGTGAATTTAACAAAATTACAAAACATTTAGTTGATTTAACTATTCAACCAGTTAAAGATGCTTTAAGTGCTGCTAAAAAAACTCCAAGTGAAATTAATGAAGTCTTATTAGTTGGTGGATCAACAAGAATACCAGCTGTTCAAGAATTAGTAAAAAGTTTATTAAATAAAGAACCAAATAGATCAATTAATCCAGATGAAGTTGTTGCTATGGGTGCTGCTGTGCAAGGTGGAGTTTTAGCTGGTGAAGTTACTGATATTTTATTATTAGATGTAACTCCATTATCATTAGGTATTGAAACAATGGGTGGAGTTATGACAAAATTAATTGAAAGAAATACTACAATTCCAGCAAAAAGAACTCAAATTTTTTCAACTGCAACAGATAATCAACCAGCTGTTGATATTAATGTTTTACAAGGTGAAAGAGCAATGGCAGCTGATAATAAATCACTAGGTCAATTCCAACTAACAGGAATTCAACCAGCTCCTAGAGGTATTCCACAAATTGAAGTTACTTTTGAAATTGATGCTAATGGTATTGTAAGTGTTTCAGCAAAAGATAAAAATACTAATGAAGAAAAAACTATTACTATTTCAAATTCAGGAAATTTAAGTGAAGCTGAAGTTGAAAGAATGATAAAAGAAGCTCAAGAAAATGCTGCAAATGATGAAGTTAAGAAAAAAAATATTGAATTAAAAAATAAAGCTGAAAACTACATTAATATAATTGAAACTTCATTATTACAAGCTGGTGATAAAATTAGTGCCGAACAAAAAGAACAATCACAAAAAATGGTTGATGAAATCAAAGAATTAGTTAAAAATGAAAACTATGAAGCTTTAGAACAAAAAATGGCTGAATTAGAACAAGCAATGGCTCAAGCTGCTGAATTTGCTAACAAACAAAATGAGTCAGATCCAAATAATAATTCATCAGAACAAAATAATTAATCAGAAAAATATATAAAAACTAACATTAGTTAGTTTTTGTTTTTATAGAAAAGAAGAGAGAATATGAAAAAAAAGGATTATTATGAAGTTTTAGGTGTATCAAAAACTGCTAGTGAACAAGAAATCAGACAAGCTTATAGAAAACTTGCAAAACAATATCATCCTGATTTAAATAAATCTCCAGATGCTCATGATAAAATGGTTGAAATTAATGAAGCAGCTGATGTATTACTAGATAAAGATAAAAGAAAGCAATATGATCAATTTGGACATAATGCTTTTGATGGATCTTCTGGATTTTCTTCAAACTTTGCTGATTTTGAAGATTTATTTTCTAATATGGGTTCATCTGGCTTTTCATCTTTTACTAATATATTTTCTGATTTTTTTGGATCTAATAAATCTGATTATCAAAGATCAACTAAAGGACAAAGTGTCAGTGTAGATATTTATTTGACATTTAAAGAACTTTTATTTGGTGTTGATAAAATAATTGAATTAGATTTACTAACAAATTGTAGTGTTTGTTTTGGAAGTGGTGCTGAATCAAATAGTGATATAAGCATTTGTAATAACTGTCATGGAACTGGTGAAGTTTTAATTCAAAAAAATATGGGATTTTTCCAATTTCAACAATCAGCTAAATGTAATGTATGTAATGGTGCTGGAAAAATTATTAAAAATAAATGTAAAAACTGTAAAGGTAAGGGTAAATATTTAGAAAGACAAAAAATTGAAGTTAATATTCCAAAAGGAATTAGACCAAATCAACAAATTAAACTTTCTCAAAAAGGTCATGCTTCAATAAATAATGGAGTTAATGGTGATTTAATTATTGATATTTATTTAAAAGAATCTAAAGTATTTGAAATTGTTAATAATAATGATATTTTAATGACTTATAATATTAGTTATTTAGATTCGATTTTAGGAAATGAGATTATAATTAAAACTTTAGATGGTGATATTAAATATAAATTACCAAAATCAATTAATTCTAATGAATTTATTATTATTAATAATAAAGGATTATATAAATCTATAAATAAAGATAAAAGAGGAGATTTAATAATCAAAGTAAATATAGTAGTTCCTAAAAACTTAAACAAAAAAGAAAAAGAATTAATAGAACAAATTTATGAACAAACTTCATTTAATCCAGAAAATAATATAGATCAATAAGCAGATTATATTTCTGCTTTTTTAATTAATGCTTTTGTTTATTAATTGTAAAATTAGAAAAAATTGATAAAATATAAAAGTTGGTTAATTTTAAAAAAAATTATTCAATCAAAAATAAGGATTCATTTTCCTAGTGCTCAAATTAAATAAAAAGAGTGGAAAATGTTCGAATTATTTTGAAGTTTAACAAATAAAGAAAGGCTATTATGTCAAGAGAAATAACAAGAGAAGAATTATCTGCAGCTGGAGTTCAATATGGACACCAAACTAAAAGATGAAATCCTAAAATGAAATCTTATATTTATGGAGTAAAAAATAAAAATCACATTATTGATTTAGAAAAAACTATTACTCATTTAAATACAGCTCAAAAATTATTAGAAACTTTAGGAAGCAAACAACAAAAAATTTTATTTGTAGGAACTAAACGTTCTGGAAAAAATGCTGTTAAAGAAGCAGCTTTAAGAAGTGGAAATTTCTATATTAATAATAGATGATTAGGTGGAACTTTAACTAATTTAAAAACTATTTTAATTAGAATTAAAGCTTTATGAGAAATTGAAGAAGAAGAAAAAAAAGGTCGTTTATCTTTAAGAACTAAAAAAGAACAAATTAAAATTTTAAAAGAAAAAGCTAAATTAGAAAAAGCACTTGGTGGAATTAAACAAATGCATAAATTACCAGCAGCTATTGTTGTTGTTGATCCAAAAGGTGATGAAATTGCTGTTAAAGAAGCAAAAAAATTAAACATTCCTGTAATTGCTATTTGTGATACTAATGCTGATCCTGATATGATTGATTATGTAATTCCTGGAAATGATGATTTACAAGAATCAGTAAACTTGATTATTAACATTTTAGTTGAAGCATATGCTGAAGGTGCTCAAATTAAAATGAATCCTTCAGTTTTAAAAACTGTTGCTCCAAAAAGAGAACCAAGACAAAATAGAGTTATGACACCAGTTGTTGAAAATCAATCTGCTGAACAACAAGCTAGTGAAAATGTTTCAAACACACAAGTTTCAAACGAACCTGTAACTCCAGTAGTTGAAGTTGAAAAATCAAGTGAACCAAAAGCTGAATAAGGAGAAAAAATATGGCAGTAGATGCAAAATTAATTAAAGAATTACGTGAAATCACTCAAGCAGGAATGATGGATTGTAAAAAAGCTTTGGAAGCAAGTGATAATAATATTGATAATGCTATTGTTTGATTAAGAGAAAATGGTTTAGCAAAAGCTGCTAAAAAAACTGATAGAGTTGCAGCTGAAGGAATTGTTTTAGCAAAAGAAAATGATCAAAAAATTGTAATTTTAGAAGTTAATTCAGAAACTGATTTTGTTGCAAAAAATGACAAATTTTTAAGTTTAGTTGATGAAATTGCTAATGCTTTATTAAATTCAAATGCTTCAAGTTTAGAAGAAGGTTTACAAGTAAAAACTAATTCTGGATTAACTATTGAACAAAGCTTAATTTCAGCAACTGCTACAATTGGTGAAAAAATTGCTTTAAGAAGATTTGAATTAGTTAATAAAACAGAGGGAAGTTCAGTAATTTATAATCATGCTAATAAAAGAGTTTCAACTTTATTAGTATTTGATAACAAACTTGATTCAACTGATGCTTATAATGTTGCAATGCATGTTGCTGCAATGGCTCCAAAATACATTAATATGGATCAAATTCCTGAAGATTTTAAAAATTCTGAAATGCATATTATTAAAGAACAAGCTAAAGATGATGCTAAATTACAAGCAAAACCTGCTAATGTTTTAGAAAATATTTTAAAAGGAAAATTATCAAAACGTTTAGCTGAAGTTAGTTTATTAGATCAATTATTTGTAATTGATGAAAGTTTTAAAGTTGGAGATTTTCTAAAATCAAAACATGTTTCATTAGTTAAAATGATTAGATATGAAGTTGGAGAAGGAATTGAAAAAGTAGTAACTAATTTTGCTGATGAAGTTGCTGCTCAATTAAAATAATGATTAGTTTTAATACAGAATATTTTGGAGTTATTTCAGGTTTATTAATTGCTTTTATTTTAGTAATTAATTTAATGTTTAACTTCTACTTATTTAGATTTACTAAAAAACAAGCTTTAATAACAAAATATAATAAGTTTTATTTTATTGTATTTTATATAATTTCTTTTATAAGTTTAGTTTTAGCAATTATTAGTTTAGTGTTATTTAATTTAAAAGATAAAATTTTTAGTCAAACAAGTTCTGAAAGTCAAAAATTATACCCAACTATTGTATTAAATGCTATTAGTTTTGTATTTTTAATTAGTAAAATCATTTTATTATTTATTTTTCTACCAAGATTTGCTATTAAGATTACTGAAAATGAAATTTTATATTTAGGTGAAAAAATTGAGTTTCAAACTATTACTAAAATAATAGAAGACACAAATACACAAGCTTTATATATAAACTATAAACCAACTAAAAGAACATATAAAAGAATTAGATATCCAAAAGCTTGCCCATTTAATCAAGTAATTAAAAACAGCACTACAAATACTAGTTTAGAAATTTCTAATCAAGATGCTAATGAGTATTTTAAAAAGATAAAAGAATTATCATAGAATAAAAAGTATGATTATAAATCATACTTTTTTTATAAACAACTTATTAATATTTTTTAAATCTTATACTAAAGAGTATTTAGGTTTTTTGTATAATTATAAAGAGTTATTTTGAAGTATTTTGAGGTGAAAAATGAATTATAAATATAAAACGGTGCTATTAAAATTAAGTGGTGAAGCTTTAAAAGGTGATGCTGAAGTTTATGATAAAAAGTGCTTAGATAATATTGCAAGTCAAATAGTTCATCTTGCTAAAAATGGTTTAAAACTAGCAATTGTAATTGGTGGAGGAAATATTTGAAGAGGCAAATTAGGTGAAAACATTGGAATGGATGCTATTAATGCTGATTATATGGGTATGTTAGCAACTGTTATGAATGGATTAGCACTTGAAAGCACTATTACTAAAATGGGTTATGACAAAATTAAAGTTTATTCTTCACTACCAATTAAAACAGTAACTGATGATTATAATTTTAAAAAAGCAAGAATTAAAATGAATGAAGGTTTTATTTCTATTTTTGTAGGAGGAACTGGTTATTCATATTTTACAACTGATACTAATGCAACAATTAGAGCAATTGAAATTGGAGCTGATGTAATTTTAATGGCAAAAAATGGTGTTAAAGGAGTTTATGATAAAGATCCAAAACAACATAGTGATGCCAAATTTATTAAACGTCTTACTCATCAAGAAGTTGTTGATAAGCAATTAAGAATTATGGATCTAACAGCAGCTACTTTAGCAAAAGATGCAAATTTAAAAATTGAAGTTTTTGATATGAGCGGAGATAATAATATTATAAAAGTATTAGAAAATAAGTTAGAATCAACAATTATAGAATAGGAACAAATTTATGACTGATTTAATTTTAAAAAATGCTGAATTACAAATGAAAGAAACTATTGATGCATATGTAATACATTTAAGACAAATTAGAACTGGAAAAGCAAGTGGAGCTATTTTAGATAAAGTAATGGTAAATTATTATGGAAGTTTAATGCCATTAAATCAAATTTCTCAAATTACAACTCCTGAACCAAATTTAATTATTATTAAACCATATGATAGAAATGTAATTACTGAAGCAGTTGGAGCTATTCATAAAGCTGATTTAGGATTAAACCCAGTAAGTGATGCTACTTTAATTAGAATTCCAATAGCTCCACTAACTGAAGATGTAAGAAAGAACTTAGTTAAAAAAGTTCATAAAGAATTAGAAGGTTATAAGATTAGAATCAGAAATATCAGAAGAGATGCTATTGATGAAATTAAAAAAATCGAAAATATTTCAAAAGACTTAATTAGTGATAATGAAGATCAAATCCAACAAATAACTGATAAATTTATTAAACAATTAGATGATCTAACAAAAGAAAAAGAAAAAGAGTTAATGACAATTTAATATGAGTACAACTATTATTGAAATGTTTTATAATGATTTAAAAAACATTTGTCAAAAACTAAATATAACAAAAGAACCAATTATTGAAATTAATAAAAATAACACACCAGGTTTATTATCAAGTTCGATTTGTTTAATTAGTAGTAAACAAGTAAATAAAAAACCACTAGAACTAGCAGAAATTTTTAAACAAGAATTATTATTAACAAATAGTTATTTAAATATTGATATAGCAGCTCCAGGATTTTTAAATGTTTTAGTTAAACCTGAGATTTTATCAAATGTTATTAGTAATGTTTTAAGTTTAAAATCTAAATATGGAAATTTAGAAAAACAAAATAAGACTATTAATATTGAATATGTTTCAGCTAACCCTACTGGTTATTTACATGTTGGTCATGCTAGAAATGCTGTTATTGGTTCTGTTTTAGTTAACTTATTTAAAAAAGCTGGATATAATGTACAAACTGAATATTATGTAAATGATGCAGGAAATCAGATTAATGTTTTAGCTGTAACTGTGTTTGTTCATTATTTACAAGCTTTAAATATTGATGCTAAAAAACCAGAAAATTGTTATGCTGGTGATATGTATGATGATTTAGCAAAAATAATTATTAATAAATATAATGATCAATTTAAAGATATCAAATATACTGATAATAAAATTTTAGATGATAATGTACATTCATTATTTAAACAAATTTCAATTGATTATTTTTTAAAAATTATTAAACAACAATTAGCTGATTTTAATGTAAAAATTAAACATTGATCTAGTGAACAAGAAGTTTATGATACTCATCAAATAGAAAAAGTTTTAAAATTGTATGAATCTAAAGATGCTTTATATTATAAAGATGATGCTTTGTTTTTAAAAACTACACAATTTGGTGATGATAAAGATAGAGTTTTAGTTAAATCAGATAAAACTTATACTTATATACTTCCAGATCTTGCTACTCATAACTTAAGAATTAAAAGAACTAAAGCAGATAAGTTAATTAATGTTTGAGGTGGAGATCACCATGGTTATATTAAAAGAATGCAAGCTGGTTTAGCATTACTAGGAAATGATCCAGATATTTTAGAAATTCAAATGGTTCAAATGGTAAGACTAATTAAGGATGGTAGTGAATATAAAATGTCTAAAAGAAAAGGAACTGCTGTTTGATTAGTTGATATTTTAGAATTAGTTGGTGTTGATGCATTAAGATATATGCTAGCAAGTAAATCTTCTAATTCACATATGGATTTAGATTTAGATTTGATTACTTTAAAAAATTCATCAAATCCTGTTTATTATGCTCAGTATGCTACAGCTAGATGTCATTCAATTTTAAATCAAGCTAAAACTAAAAAAATAACACCATTAATAAAACAAACTAACTTATTAAATAATCCTAAAGAAATTGAAATGTTATTAATTTTAGATAACTTTAAAGAAGTTATTAAAAATAGTGCAAATAATCGTTCAACTCAACAAATTTGTGACTATATTCAAAACATTTGTAAAATTTTTCATTCTTATTATGCAGAAATTAAAATTATTGATGAAAATGATTTACAATTAACTAAGTTGAGATTAGGTTTTATAAAAGCTATTTTACAAGTGTTAAAAAATGCCTTTTTTATCATTGGAATTCAACCAGTTGTAGAAATGTAAAAATTTTTAAAAAAAATAGCAAAAAATATTGCATATCTATTCTTGATTTTATATACTTATCATTGTGTGTTAAGAAGCTTATTCTTAACGAGACGATCTTTGAAAACTAAATAGAATAATTATTGTACAAATCTTGTCAAAAGATTTATTTGAGTAATAAAAAACTTATAACAATAAAAATAGTCAGAATCACTTTTATTTAACAATTTTTAAAATGAGAGTTTGATCCTGGCTCAGGATAAACGCTGGCGGCATGCCTAATACATGCAAGTCGAACGGAGGTGCTTGCACCTCAGTGGCGAACGGGTGAGTAACACGTATCTAACCTACCTCATAGCGGGGGATAACTTTTGGAAACGAAAGATAATACCGCATGTAGATCTTATTATCGCATGAGAAAAGATCAAAAGAACCGTTTGGTTCACTATGAGATGGGGATGCGGCGTATTAGCTAGTAGGTGAGATAATAGCCCACCTAGGCGATGATACGTAGCCGAACTGAGAGGTTGATCGGCCACATTGGGACTGAGATACGGCCCAGACTCCTACGGGAGGCAGCAGTAGGGAATTTTTCACAATGGACGAAAGTCTGATGAAGCAATGCCGCGTGAGTGATGACGGCCTTCGGGTTGTAAAGCTCTGTTGTAAGGGAAGAAAAAATAAAGTAGGAAATGACTTTATCTTGACAGTACCTTACCAGAAAGCCACGGCTAACTATGTGCCAGCAGCCGCGGTAATACATAGGTGGCAAGCGTTATCCGGATTTATTGGGCGTATAGGGTGCGTAGGCGGTTTTGCAAGTTTGAGGTTAAAGTCCGGAGCTCAACTCCGGTTCGCCTTGAAAACTGTATTACTAGAATGCAAGAGAGGTAAGCGGAATTCCATGTGTAGCGGTGAAATGCGTAGATATATGGAAGAACACCTGTGGCGAAAGCGGCTTACTGGCTTGTTATTGACGCTGAGGCACGAAAGCGTGGGGAGCAAATAGGATTAGATACCCTAGTAGTCCACGCCGTAAACGATGAGTACTAAGTGTTGGGGTAACTCAGCGCTGCAGCTAACGCATTAAGTACTCCGCCTGAGTAGTATGCTCGCAAGAGTGAAACTCAAAGGAATTGACGGGGACCCGCACAAGTGGTGGAGCATGTGGTTTAATTCGAAGCAACACGAAGAACCTTACCAGGGCTTGACATCCAGTGCAAAGCTATAGAGATATAGTGGAGGTTAACATTGAGACAGGTGGTGCATGGTTGTCGTCAGTTCGTGCCGTGAGGTGTTGGGTTAAGTCCCGCAACGAACGCAACCCTTGTCGTTAGTTACTAACATTAAGTTGAGAACTCTAACGAGACTGCTAGTGTAAGCTAGAGGAAGGTGGGGATGACGTCAAATCATCATGCCCCTTATGTCCTGGGCTACACACGTGCTACAATGGCTGGTACAAAGAGTTGCAATCCTGTGAAGGGGAGCTAATCTCAAAAAACCAGTCTCAGTTCGGATTGAAGTCTGCAACTCGACTTCATGAAGCCGGAATCACTAGTAATCGCGAATCAGCTATGTCGCGGTGAATACGTTCTCGGGTCTTGTACACACCGCCCGTCACACCATGAGAGTTGGTAATACCAGAAGTAGGTAGCTTAACCGTTTGGAGAGCGCTTCCCAAGGTAGGACTAGCGATTGGGGTGAAGTCGTAACAAGGTATCCGTACGGGAACGTGCGGATGGATCACCTCCTTTCTATGGAGATATTTATATTACTGACTATTTAATTCTATTTAGTTTTCAGAGATCGTCACACATCTTTGAATATAGATTGTTCTTTGAAAACTGAATATTAGATGAAATGCAATTTTCTGATTATAACAATATTTATAATTAGATAAATTATTACGAAATTATATTCGTAATGACATCAAAAACAATTAACTAAAATTAATTGAGTTACAAATTGCTAGTAAGATTTTCTAAAAAATAGTAAGAGCATATGGTGAATGCCTTGGAAAATGGAGCCGAAGAAGGACGTGACTACCTGCGATAAGTCTGGGGGAGCTGGAAGTGAGCTTCGATCCCGGAATTTCCGAATGGGGAAACCTGACATGATTTATCTCATGTTATCTATAAGTGAATACATAGCTTATAAGAAGGGAACCTAGGGAACTGAAACATCTTAGTACCTAGAGGAAAAGAAAATAATAATGATTCTGTTAGTAGCGGCGAGCGAAAACGGAACAGGCCAAACCACTTTACGGAGTGGGGTTGTAGGACTTTTTTAAGAGTTAGAAAGTCATTATATAATAGAAGCTACTGGGAAGTAGCGCCATAGAGGGTGATAGCCCCGTATATGAAATGTAATGACCTCAATAAAGTATCCTGAGTACGGCGAAACACGTGAAATTTTGTCGGAATCTGCCAAGACCACTTGGTAAGCCTAAATACTACCATTTTACCGATAGTGAACCAGTACCGTGAGGGAAAGGTGAAAAGCACCCCGAAAGGGGAGTGAAATAGTCCCTGAAACCATATGCTTACAAGAAGGTAGAGCCCGTTAATGGGTAATACCGTGCTTTTTGTAGAAAGAGCCGGCGAGTTACTATTGCATGCAAGGTTAAGTTGATATAAACGGAGCCGTAGTGAAAGCGAGCCTTAATAGGGCGTTTAGTATGCAGTAGTAGACACGAAACCAGGTGATCTAGCCATGAGCAGGTTGAAGTTAGGGTAAAACCTAATGGAGGACCGAACCAGTATTCGTTGAAAAGACTTTGGATGACTTGTGGCTAGCGGTGAAATTCCAATCGAACCTGGAGATAGCTAGTTCTCCCCGATATATCTTTAAGGATAGCGTTGTGTGAATTGTTGTGGAGGTAGAGCACTGAATCTATGATGGCTGCACCTAGCGGTACTGATTAGAATTAAACTCCGAATGCCATAATTTGTGCACAGCAGTCAGAACATGGGTGATAAGGTCCATGCTCGTGAGGGAAACAGCCCAGATCGTCAGCTAAGGTCCCTAAGTGTAAACTAAGTGTGTAAGGATGTGGAACTGCACAGACAGCTAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAGTGCGTAACAGCTCACTAGTCGAGTGATTCTGCGCCGAAAATGTACCGGGGCTTAAGTTTACCACCGAAGCTACGGATTGTATGTAAATACAGTGGTAGGGGAGCGTTCTAAATATGATGAAGTCAGACTGTGAAGACTGGTGGAGTGTTTAGAAGTGATTATGCCGGCATGAGTAACGTTTGGAAGTGAGAATCTTCCATGCCGTTTGACCAAGGTTTCCTGGGCAAGGTTCGTCCACCCAGGGTTAGTCAGGACCTAAGGCGAGGCTGAAAAGCGTAGTCGATGGACAACAGGTTGATATTCCTGTACCAGTTAATTAGTGATGGAGTGACGAAGAAGGATAGTATATCCCGGGTGCTGGATGTCCCGGGCTAAGCACAAAGATGGCAATGTTGGCAAATCCGCATTGTATTAACATTGAAGTGTGAAAATAGGGGAGTGAACGGTTCGCCTAGTAACGAAGTATATGACTCCATGCTTCCAAGAAAAGCTTCTAACTTAATAATTAACTGCCTGTACCTAGAACGAACACACGTGGTCAAGGAGAAAATCCTAAGGCAAGCGAGATAACTGTAGCTAAGGAACTCTGCAAAATAACTCCGTAACTTCGGAAGAAGGAGTGCTTATCTATGATAAGCCGCAGTGAAGAGGGAGGGGCAACTGTTTAACAAAAACACAGCTCTCTGCTAAGTCGCAAGACGATGTATAGGGGGTGACACCTGCCCAGTGCCGGAAGGTTAAAAGGAGAAGTCAGCGCAAGCGAAGCTTTGAATTGAAGCCCCGGTGAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCAGGTAAATTCTGACCCGCACGAAAGGTGTAATGATCCCTTCGCTGTCTCGGCTGCAGACTCGGTGAAATTTTAGTACCGGTGAAGATGCCGGTTACCCGCAACTAGACGGAAAGACCCCGTGGAGCTTTACTATAACTTGATATTGAAATTTGGTATGACGTGTAGAGGATAGGTGGGAGACTATGAGACTAGGACGCTAGTTCTAGTGGAGTCAACCTTGGAATACCACCCTCGTTATATTGGATTTCTAACTTGGATCCATTATCTGGATTAAGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCGCCTCCCAAAAAGTAACGGAGGCGCTCAAAGGTATCCTCAGTATGGTTGGAAATCATACATAGAGCGCAAAGGTAGAAGGATGCTTAACTGCGAGACTTACAAGTCGAACAGATACGAAAGTAGGACTTAGTGATCCGGCGGTCCCGTGTGGAAGGGCCGTCGCTCAACGGATAAAAGTTACCCCGGGGATAACAGGCTTATCTCCCCCAAGAGTTCACATCGACGGGGAGGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGAGCTGTAGTCGGTTCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTTGGTCCCTATCTGTTGTGGGCGTTGGAAAATTGAAAAGAGCTGTTCCTAGTACGAGAGGACCGGAATGGATGCACCCCTGGTGCTCCTGTTGTCACGCCAGTGGCACAGCAGGGTAGCTATGTGCAGAAAGGATAATCGCTGAAGGCATCTAAGCGAGAAGCCTCCTTTAAGATGAATTTTCCCATTCTTTTAGATGTAAGATCCCATGTAGACCACATGGTTGATAGGATGGATGTGTAAGTGCTGTGAGGCATTAAGCTAACCATTACTAATAGATCGAGTGAATTTTAGAAAATGCAATTTTAACTTACATTTCAAGCTAATAATCAGTTTTCAAAGAACAATCAAAAAAATAATCTGGTGGTTATAGCATAGAGGTCACACCTGTTCCCATGCCGAACACAGAAGTTAAGCTCTATTACGGTGAAAATATTACTTATGTGAGAAGATAGCAAGCTGCCAGTTTCTAAAGAACCTTAAGTGGTTCTTTTTTTATTTTTAAAATTATTTCTTTTATTAATAATTTATATAAAATAGTATGTTAATTTATAATAATAATAGACTAAAGAAAGGAGAATAATATGCGACATATTATAAAAAGCTATTTAAAAACCTTTTTTAAAAAAAATTATGTCTCAACATTTGGGATTCTTCTTTTTATTATTACTTTAGCAACTGTTATTATAGGAATGCTTGCTACACCATTACAATTAAATAATAGAATTAATTATTTAGCAAAACATAATACTAGTTATAATTCAATACTAGATACAAGATCTATGAATTATGATCCTAAATTTACTTATAATTATTTTTATTTAAATAAAGAAATTAATAACAAAGATACTAATTACACTAAATTATCTGAACTTTATATAAAAGCAATTAATAGTGAATTAGAACAAAATTTTACTAATACTAGTACTGATAAAAAAGAAAATAATCTTTATATTTATGATTCTAATAACTTAGAAGATAAAGTAAAAATTGATTTTATAGGTAATTTAATTAATAGTGATTTATTTAGATATAGAAATGGTGCTTTAATTAAAACAGAATCTTATATTTTTAATAAAGATTATAATAATGATCAAAATAATTTAAACAGTTTTTCAAATATTTCTAATCAAGTTTTAAATAGAATTATTTCTGATTTTCATCAAAGTATGAGTGATGGAATTAGTTTAGATAATAACGCTAAATATGATTATGTAGTTTCAGAATTTTATAAAGCTTATTCTCGTTTTAATAGTTTTTTAACTATTAATGAAATTAATTTAATAGATAAACCTATTCTAACTTTGAAATTTACTGAAATTTTAAATAAACTTAATGACAATAAAATAGATGAAATAACTAAGTTTTTAGTAAAACAATTACAAGACTTAAAAAACAAAATAAAAGATCATCAAAAAGAAAGGATTTATTTACCTTCCTTTTTAGTGTTTTCAGATAAATTTTCAAAAGTATTATCTGATGAAAAATTTTTATATGATGACAGAATTTATATAGTTGATCAATTACTAGATAATGTAGAAAATTTTGTTTTACAAACTAAAAAAACTTTTAAAATTCAACAAAGTTCAGTAGGTCAATTACTTCCGTTTTTAACCTTACAACTAACTTCAGATAATCAAATTTTTAAAAATACAAATAAAGATTTTAATCAAATTCAATTTGATAAAAATCATAAAAACTCAGAATTTGCAAAAAAATGAGACGTTAATATTAATTATCAACAAAAAGTTAATCCAACACAAATAGTAATTTCATCATCATATGCAAAAGCAAGAAATTTAAAAATTAATGATGAATTTATTATTCCTAGTTCTAATATTTCAGATATTTATTTAAGCTTAATTAATAAAAAAGATGCTTATTATTTAGGTTCTATTAATAGTAAAATAGTTGGAATTGGTTCAACTTTTGATGATATTGTTTCAAAAAACTCAGCTACTGATTATTTTCAAGATAAAACTAGTTATGTAGTTGGTTATACTAGTAAAGAATTTATTAATTCAATAAGAAATTCTAGATGAAATTTTTCAAATAAATTTGATACTTCTTATCAAGTAAACTTTAGAGTAAAAAATTTAAATAATAGCACTAGTAAAGATTTAAACAAACATTTTATTATTAAATTTGATAACTGATCAGATGAAAGTTATTCTGTTTTTGATAAAAGTAGCTCACTAATTACTGAATGATATTCACTAAGAACTTCTCAAGCAATTAGTTCAATTAAAGTTCAAGTAATTATTTATATTGTTATTGGTATTTTTGTTTTATTATTATCATTTGTTTTCATTAATTTTGCACTAAAAAAAGAAATGAATGAAACAAGAAGACAAATTGGAATTTTTAAATCGTTTGGTTATAAAGTAGTAGAACTTTCTTGAATATTTGCACTAAAAACTTGATTGACAATGTTTTTTGGATTAATTATTGGTTATATTTTATCAATACCAATTCAAATATATTCATCTTCAAATTTTGTAAATTCAGTCACTTTTACTTTTAATAGTATTTATATTTCACCTTTATTAATAATCTTTTTAATTTTAATTATTCCTTTTATATTTTTAATGGGATCTTATTGAGCTTCAATTATTTATATAAAAGAACCTGTTTTATCTTTAATGAATAATTTAAAAAAATCAAAAAGAACTAAAAGTGGAGCTATTACTAATTTATTATCAAAACATAATATTGGATTTAATTACAGAATGCGTTTATCTTTTATTAAAAATGCTAAAGGTAAATTTGCTGTAGTTCAAATTTTATTTGGGTTTGCTTCTTTAACTTATACTTTATTATTTGTAGCTCAAGCTATTTTATTTCAATCAATTAATCAAAGCTTAGCAACAATCAAACAAGATGTAATTACAAAATCTATGTGAAATGTTAATAAAAAAATTGATAATACTAGTACAAATGATAAGTTAAGTTACACTAATAAAAATGATCCTAAGACTAGACAAACTCTAAGTTATCATGATTTAAATAAAAAAAATATTAACACTTATTTAAATAATGATTCAAAACAAACAGATATTAGATATAGAGTTGAATTATTTTTAAAACTTTTAAATAACACTTTTAACTCACTTTCAAATGAAAAAAAAGTTTCAATGATTTTACCACTAGATTATGCTAAAAAAACTTTAACTCCTTTTTTACAACCAGGTAAAACTGATAAAAATGACTATGAAGTTTTAATTAAAGATAATCAATATTATTTAAGTTATATTAGTAGATTTAATTTATATAATCAAAATCAAAAATGACAAAGTGCTTTAAATGATTTTAAAAATAATAAAGAAATTAAATTAACATTAAATGATCTTTCTAAAAAACATGATTCATCTGATCTATTTTATGATTTAAATCATCCTAAAAAAGACGAATTACAAAATACTATTATAGGTTTACAATCAACTAGAAATAATTCAAATAACACATTATTTTTAAGTTCTTTTGCTAAAATATTTTCTTATAAATTAGTTCAAGCTTATAGTTTATTTCAAGTAGTTAGTCATTATAAACAATTTAATAATGATATAAATAAAGCCTGAATGCATTTACAAAAAGATAATGATTTATTATCATTTAATCCTGATGATCAAAAATATTGAACTATTGCAAATAATCCTTTATTAGAAAAAATTATTAACAAAAATTTAAAAAATAAACCTAATAAAGATAAAAAAGAACTTTTTGATACAACTTCTAATTTTTCAATAGACTCATTATTAAATTCAACTAATTTATCAAATGCTAGTCAAAGTATTTTATTAGCTTCAATGATTATGCAAGATTTAAATAATAAATTAGAAAATAATCCAATTGTTAGTTTTAATCAAATGTTTTATGATTCTTCAACTGATTTATTATCAGCAGTGATTAGAGTTTCAAATAGTGATATTTTAAACCCTGGATCATATGCTTTAAATTTATATAGATTAAAAGATCATAATTTTGGTGATGTTAATCAGTTTTTAAATTTTAAAGGTGTAAGTATTAAAGGTTTTCAAGATTTATCAAAATTACCAGAAAAACATAATAATTTACCAACTTTTAATGTAATTGTTCCATATTATTATGTAAAATCTAAAAACCTAGATATTAATAGTAAGATTGTTGTTGAAACTAGAACTACTTTTGTTAAAAAATTTGTTTTAAATGTTGTTGGTATTAATAAATCTGAAACTTTATCAATTTCAAAAACTCCTGATATTTTTTTAGATTATGATTTATTTGCTAATGAAATGTTTTCTGAAGATTTATATAAAAATAATAATCCTTTAATTTTTAATCAATTGTGAAGTAAAAATAAAATTTTAGAAGGAACAATTAATTTTACTAAATTAGATGATTCATTTAAAACAATTAAATATTATGGAAATAATTTAGCAATTGATATAAGAAAAGATGCACCAATCTTTTTATCAATGTATTCAAATATTTTTACTGAATTTAATAATTTTATTTCTAAATACCAAGAACTAGATCAACAAAACGATATTTATAATACACCAAATCCAGCAATCACTACTTTAAGTCGTTTAAATTCTAAATTATTTAACTTTAATCTAGTAAAACAAACTATTAGTAAAATTACAACTATTACAAATCAAGTGATGTCGTTATTTATTTTATTAGTAAGTTTATTATTAACAATTATTTTAGTAGTTGTTATGAATATAGTTGTTGATGAATCTAAAAAAACAATTCTAACATTAAGAGCTATTGGGTATGAAAATAGTGAAGTTAATTGAATTGTTATGGGTAGTTATATAATTGGAGCTATTATTTCATTTATTATTGCTTATTTATTATCTAATTTAATTTGATGATCATTTTTATATTATGTAAGTTATAAATGACATATTTATATATTCTTAGCGTTTGATTTTAAAACTTTATTTGTAACATTTAGTGTAATTGCTTTTGTTTTATTTATTGGTTGATTATTTTCACATAAACAAGTTAAAAAAACTGCACTAACTCAAGTTACTCAAGCTGAATAGGATAATTTATGACAGATTTTATATTAATTAGAAATAATTTTTTTAAAAATAATGTTTCAAAAATTCAAAAGACTAAATATTTAAATATGAATATTAATTGAAGTTTTTCTGATTTTGAAGATATTTTAAATAAACCTAATTTCATTACATATTTACAAAATTCATCTAAATTAAACTTTTCTTATTTAATGATTGATGCTATTGAAAATAAAATTGATCAAATTAGAAATTTATTTAAAAAAACAAATACTGCTTGTATTGATTATTTATCAAAAACAAATAACACTAATTTTATTGAGATTAATTATAAAAAGTTTTTATTAACTAGTTATACATTATTAAGAGATTTTATTAATCAAATTTTTATTAATTGAATTTTTAATGATGCTTTAAATAATCATTGAATTGAATTTAATAAAGCTTATGATAATAATTTAATGTTTAACTATCAATTTGAAAGATTAGAATTAGACTTTCAAAAAAACTTATTTAACATAATTAAAGCTATTAATAAAAAAATAAATGATCCAGTTATTAGAATTTTAATTTCAGCTTATATTGAAGATATTAATAATAAACAGACTTATTTAAATCAAATTCATAAGAATTTAAAATAAAATATAAAAGTATTTAGAAAGAAAAAAATATGATAGAACAATTAAATGAAATTTTAAATAATTTTAAAGTAAAACTAGAATTAGTTAAAGATTTAAATAGTTGAGAAGAATTAAAAAAAGAATTCATTGGAAAAGATTCTAGTTTAACTACAATTTTAAAATCAATTAAAACTATTAGTAGTGATAAAAAACAAGAAATTGGAAAATTAGCAAATCAAATTAGAGTTGAAATTATAAATCAATTAGATGAAAAACAAGAACAATTAAAAAATAAAGAATTATTAGTAAAATTAGAAAAAGAAAAAATTGATGTTACTTTAACAAATTCAAGTTTAAAATTTGGTTCAAAACATGTTTTAAATATAGTTATTGAAGAAATTAGTGATATTTTTACTGAAATTGGTTTTGAAATGGTCAGTGGAACTGAAATTGAATCTGATTTATATAATTTTCAAAAATTAAACCTACCAGTAGATCATCCTGCAAGAGATATGCAAGATACTTTTTATTTAGATAATAATTTAGTTTTAAGAACACATTGTACTAATATGACTTCAAGAATGTTAACTAAATTAGCTAGTTTAAAAACTGAAGATAATAATTTAGCTGTAATTAGTTATGGAAATGTTTATAGAAGAGATGATGATGATGCTACTCATTCTCATCAATTTATGCAAATAGATGGGTTTGTTGTTGGAAATAAAATTAGTTTTGCTAATTTAAAATGAATTTTAAAATATATGTGTCAAAGATTATTTAATAAAGATATTAATATTAGATTACGTCCAAGTTATTTTCCTTTTACTGAGCCAAGTGTTGAAGTTGATGTAAGTTGTTTTAAATGTGATTCTAAAGGATGTTTTATTTGTAAAAAAACTGGTTGAATTGAAATATTAGGTGCTGGAATGATTAATGAACACGTTTTAAAATTAAATGGATTAGATCCAACTAAATGTTCAGGATTAGCTTTTGGAATTGGTATTGAAAGAATTGCTATGTTAAAGTTTAATATTTCAAATATTAGAAACTTTTATGAAAATAATGTTAAATTTTTAGAGCAATTTAAATTTTATTCAGAATAGGAGTTTATATGATTATTACAAGAAATTGATTAAAAAAATATCTTAATTTAGATAATATTTCAAATGATCAAATTAATATGGCTTTAAATTCTTTAGGATTTGAAGTTGATAGTGTTTATGATTTAAACTCACTAAATTCTGAACTAGTTTTAGGGTATGTAGAACAATCAAAACAAATTCCAAACACTCATTTAAAATTAAACAAAGTTAATATAGGAACTAAAAGTTTACAAATTGTTTGTGGAGCTAGTAATGTTGATGCTAATCAATTTGTAATAATTGCTCCAATTAATGCAACTATTGCAAATGGTTTAACTCTAACTAGTAAAAAAATTCAAAATTATGAATCACAAGGAATGATTTGTGCTTTAAATGAAATTGGAATTGATCTATCAGTTATTAATAAAGAAGACCAGTTAAAAATTTATAATGTTTTTGATCATAATTTAGATTTAAAAAAATATATTGGTAGTGATGTTAAACAAATTATTGGTTTAGATGATTATTTATTTGAAATTGATTTAACTTTAAATAGAAGTGATTGTTTAGCTAGTTTTCAAATTTTAAAAGAACTTGCAAATTACTTTGATTTAGAAATTAAAAACTTAGACAATAATTTTTCTGATTTTAAAAAAAATAATTTAGATTTAAGAATTGATTTAGCTAATCAAGTTAAAGATCAAATTAAAACAATTAGTTATTCTTATTTTGAATTAAATAATAAAAATGACAAATTAGACTCAAAAGACGAAATCTTTTTAAAATTAAACCAAATAAATTCTTCTAATCATTTAATTACAAATTTAAGTTTAATTTCAACTTTATCAACAGCTCAAACTCACATTTTAATTGATTTAGATAAATTAAAGAGTTCTAATTTAAAATTAGAATTTATAAATCATGATAATAAAGAACTTTTATGTTTAACTAATAATAATAAATTAGTAAATATTATTGGATTAGAAACACAAAACGAATTTAATGTTGATAATGACTCAAAAAATGTTTTAAACATTATGTTAAATATTGAACCTAACTTAATGAGAAAACAACAAAAACTTTTAAACATTTCAAATACTTATTTACAAAGATATATAAAACCAATTAACCCTAATTTATTTAATTTAGCAAATCAAACTTTTTCTAATTTATTAAATGATTATCAATTAATAAATAAAGCTTATGAAGTTAAAATACTAAAACAAACTTTTAAAAACAAACAAAGTTTAGAAATTAGATTAAATGAAATTAATGACTTATTAGGAACTAATTTAACTATTAAACAAATTAAAAGCTTATTTAAACATTTAGATTTTAAAATCACTAATAAAGATGATCTTTTAGATTTTCAAATAGATCAAAACAGAATTGATATAACTAGTAAAAATGATTTATGTGAAGAAGTTGCTAGATTATATTCATATGATAAAATTGATGAAATTCCACTAAGCTTTACTAGTTTTAAAAAAGCTAAAAACTTAAATTTAAAACTAGAAAATAAATTAACTAATTATTTAATAGGATTAGGATTTAATAATACTAAAACTTATTCACTAACTAGTTTAAATGAAGCTAAATATTGAAATTTATTTAATATATCTGAATTTATTAATTTAGTATCACCATTATCAAATTTAAGACAAACTTATAGAACTAATTTAAGTAAATCATTAATTGATGTAGCTATTTTTAATCATTCAATTAATAATAAAGAATTAAAATTATTTGAAATAGCTGATATTTATGATTTAAATAATTTAAAACAAAGACATTTAGTATTTTTAACAAGCAATCATATTTATAAAAACAGTTTAAATCAACAATTAATTGAAAATAATTTTTACTACAATAAAGAAATTTTAGAAAATATCTTTAATTTATATAATTTAGATTTATCTCAAATTCAATATCAAAATGATTTAAATCTTATTAAAGAAATTCATCCATATATTAATACAACTATTTATTATCAAAATCAATTAATTGGATATTTATATAAATTAAATCCTAAATTTGAATCAGAAAATAAATTAAATCCTACATTTGTATGTGAAATTAATTTAGATATTTTAAATCAATTTAAAAATGGTTTTATAGAAGCAAAAAATTTAAGTAAATTTCAAAGTTCTTCAAGAGATTTAACTATAGAAATTTCAAATGATTTAACTTATCAAAAAGTTTTATTTAATGCTTTAAGTGATGTTAAATATTTAAAAAGTCATAAAATTGTTGATTTATATTTAGATGATAATCTAATTAAAAATAATACTAAAGCTTTAACTATTCAATTTGTTTTTAATGATCTAGAACATCAATTAACTGAAAATGAAATCAATCAAGAATTTGAAAAAATAATAAAAAATATCAAACAAATGAAAGTAGTGATTAGATAATGAAATTAATATTTAATCAAACTGATTTTAAGTTAAAAAAACATTATGAACTACAAGGACAACTAACTGATTTAGATCAAATTAAATCAAATAATATTTTAATAAAATCTTTTGATTTTATTAGTTATGATTTAGATCTTGATTATAATGAAACATTAAAAAAGATTACTGTTAATGGAGTAATTAATTATACAATTACTGGTATTGATTCAAGAATTGGAAATGAGATCAAATATAGTAATTATATTGATTGAAATGATGAGTATAGTTTTACAAATAGTAGTGATTTTAATACTAATATTATTATTAATGAAGAATTTAACTTAAAAGATTATATAATTGAACAAATAAATCTGAATATTCCTTTTAATTTATCTTTAAATAATGATATACTTAATAAGTATGGTCTTGGATGAAGTCTAGAAAGTGAAGAAGAATTTCAAAAATCTCAAGCTGATAAAATTGATCCAAGATGAGAACAACTTGATAATATTAAAATCGATGATAACAACAAATAAGGAGGTGTATTAACATGGCAGTACCATTTAGAAAAACTAGTAAATCTGCAAAAAATAAAAGAAGAAGTCATTTAGCACTTTCAACTGCTAGTTTAGTGTCATGTACTAATTGTGGGGCTATGATTAAACCTCATCATGTATGTAAAGAATGCGGATTTTACAAAAACAAAGAAGTTAAAGTAGTAGAAGCATAATAACAATTATTAATTAATTTGGTTGTATTTAATACAACCTTTTTTTATTTGTGTTTTAAAGTGGTATATTAATTATAAATAGTGGAGCAAAGTGGGTGATAAATAAATGTTATTTGGTACATATGAACATTGTATGGATGCAAAACAACGTTTAACTTTACCAGCAAAACTAAGAAACAAACTTTCAAATCCAATTTATTTAACAAAAGGATATGATGCTGATTTAGAAATTTGATCAAAAGATGATTTTTTATTACAAATAAAAGAAATTTTAAATCAGCAAAATGATCAAAAAGACATTAGAAATATAGAAAGAATTATCTGATCAAATACTGTTGAAATTGATATTGATAATTTAGGAAGAATTAAAATTCCTTATAATCTAATCCAAAATCTAAATATTGAAAAAGATGTTTTTATTTTAGGATTAGGAAATCGGTTAGAAATTTGAAGTAAAAATAAATACAATCAACACAAAAATCAATTTATTAAAAATATAAATAGTTAGGAAATTATATGGATAAACATATACCAGTTTTATTAAAAGAAAGTATTGAATATTTAAATATTAAACCTGATGGTATTTATGTTGATTGCACATTAGGTAGAGCTGGTCATTCTAGTGAAATTTTAAAAAAACTTAATCAAAAAGGTTTTTTGTATGCCATTGATCAAGATCAAATAGCAATTGACCAAGCTAAAGAAAAACTAGAACAAATTAATAATAATTTTTTATTAATTCAAGGTAATTTTTCTAACTTATCAGCTTTATTAGCAATTAATCATGTTTTTAATGTTGATGGAATCTTATATGATTTAGGAGTTTCTTCACCTCAAATTGATATTGCATCTAGAGGGTTTAGTTATAAAATGGATGGTCCATTAGATATGAGAATGGATTTAAATTCTACATTAACTGCTCATCAAGTTATAAACACTTATTCAGAATCACAAATTTCTGAAATTTTATTTAAATATGGAGAAGAATCTTTTTCAAAAAGTATTTCAAAAAAAATTGTTGAATCAAGACCAATTAATTCAACTTTAGAATTAGTTGAAGTAATTAAATCAGCTTTACCTCAAAAAGTATTAAAACAAAAAAAACATCCAGCTAAAAAAACTTTTCAAGCTTTAAGAATTTATATAAATAATGAACTAATTGCTTTAGAAAATTCATTAAAACAAGCTTTAGATTTATTAAATAGTAAAGCAAGAATTTGTGTAATAACTTTTCACTCTTTAGAAGAAAAGATTGTTAAAAATATTTTTAATAATAGTACAAATTATTATCAAGAACAATTATTAAGTAATCTTCCAATTAAAGCTGATTTAAATTCTAAATTTAAATTAGTAATTAAAAAACCAATTAAACCTAGTTTATTAGAATTAGAACAAAACCACCGGTCTCATAGTGCAAAGCTTTGAGTAATTGAAAAAAACTAGAGGTTAGTATGGATAAACAAATTTTTACAATTATTGAATTTAATAAAAATATTATTAATTTTCAAGTTATTAAATATTTTAATAATCAAGAAATGATCTTATATAAAAATAGTTATATTTCAGAAGAAAGTGAAATTTTAGATAAAGATCAAATTAAAGATAGTTTGAATGTTTATAAATTTTTAACAAATTGTTTTACTGATTTTGAAAAAAACTCTAGTTTTTCAAAAATTAAACAAGTAGGTTTAATGCTTTCAAATTCATTAAATATTACAAAAAAAGTAACAAATTATGACTTAAAATCAAAAGATAAAAAAACTAGTTCAACTACAAATTTAGAATATATTGTTAAAAAAATTAATAAATTACAACTTTATGATGATACTGATTTAAAAATTATAGATACTAATTTAATTGAACTACAAGTAAATAACAAAATGATCGATTATCAAAATTTAAAAAAATATTATATTGATAATACTCAAAATAACAAACTAGTAATGACTTTTTTAGAATTGTCAATTACTAATGAACTTTATTTTGCACTAGAAAAACTTTTTTGAAAATTTTATAAACAAATTTTATTTATAAAACCAAGAATTGTTTGTTTAAACCAATTAATAAAAGATCAATGTCAAGATCATAAATTAGTAGTTGATTGAAATTGAGATGAAATTGAAGTTGGTGTATTTAATAATAATGTTTTATTAAAAATATTCAAATTTTCATTTGGGATAAATAAGATCATTAAAAATCTTAGTCAATCATTAAATATTAGTTTTGAAATGAGTAAAGATTATTTATTTAATAATTTAGATTTTAGTTCTTATAATATTGATAATTTAAATGTTTTAAGTTTGTGAAATAATTCAGAAAATAAATTAGATATAACTAATGGAAAGCAAATAAAACAACTAATTAAATCTATTATTAGTGAAATTTATACAACTATTAATCAAAGCATTTTAAAAGAACAAAATATTAATAATTATCAAATTTATAATTTTGGTTTAATTAGTAAAATTGTTGGAATTGATATGATCTTTAATGAATTCAAAAACAATCATTTTATTAGTAATAATTTTATTGGTGATATTGATTTTGAACAAGATTCTACTGCTTTTATTGGAGCTAGTTTATTTTTTAAAAACCCTGAATTTTCTAGTTAAAATCAAAAATTTAGCAATTTTTTTAAAGCTTTTTTGATAAATTCTAAAAAGCACTACTAAGATAAAAAAACTTTTTAAAAATCAATATATTATTATTATTAGAAAGGGCTAAATATGACAAACGAATTTAAACAAATAGCAAGAATTAAAGTACTTGGTGTTGGTGGGGCTGGAAATAATGCCATTAGAAGAATGTTTGAAGAAAATGTTCAAGGTGTTGAATTTTATATCATAAATACCGATGCACAAATATTAGAATCATCACCAGTACCAAACAAAATTATTTTAGGAGAAAAAACTACTAAAGGATTAGGAGCTGGAGGAAATCCTGAAGTAGGAAAAGCAGCAGCTATTGAAAGTGAAGAAGAATTAAGAAAAGTAGTTGAAGGTGCTGATTTAATCTTTATTGCTGCTGGAATGGGAGGAGGTACTGGAACTGGTGCTGCTCCTGTAATCGCTAAAATTGCTCAAGAATCTGGAGCTTTAGTAATTGGGATTGTAACTAAACCATTCATTTTTGAAGGAAGACATAGAAATGTTAATGCAAAAGAAGGTTTAGAAGAATTAAGAAAACATGTTGATTCAGTAATTGTTGTTTCAAATGACAAATTATTAGAATATATTGGATCTATTCCAATTGCTGAATCATTTAAAGAAGCTGATACTATTTTAAAACAAGGTGTTCAAACTATTACTGATTTAATCGCAGTACCTGCAACTATTAACTTAGATTTTGCAGATGTTAAATCAGTTATGTCAAAAAAAGGAAATGCTTTATTTGGAATAGGAGTTGCTTCTGGAAAAGATAAAGCTGTTGAAGCTGCAAAAGAAGCAATTAATTCTAAATTATTAGAAGCTTCAATTGAAGGAGCTAAAGATATTATTGTAAATATTACTGGTGGAAGAACAGTAAGTTTAAATGATGCTTATGATGCAGTTGGAGTTATTAGTCAAGCTGTAAATAATAAAGAATTAAATATTGTTTTTGGTATGGCTATTAATGATGATTTAACAGATGATGATGAAATCATTGTAACTGTTATTGCCACTGGTTTTGAAAATAAAAACTTACAAAACCAAGAACCAAATATTATAAAAACACCAAGAGTTGAACCTGTAGTTCAACAAACTCAACCAAGTAAACCTGTTCAACAAGAACAAGAAGAAGAACAAGAAGAAGTAGACGAATTTGATGATGAAATGAGTCTAACTACAACAGATGACACTGAAGAAGATTTTAATGATGATGACTTTCCGACATTTTTAAAATAGGAGATAAGAAGATGTTTTTTAAAAAGAAAAAGAATTTTTTTAAACAAAACGAACACGATCAAGATCAAATTGAACTAGAATTAACTGATTCTGATATTTTTGAACAAGAAAGTCCTGTTTTAAAAGATAGTTATACTCAGACATCTAATCAATTTAATCAAAATCATCAAACAAATACTTCGAATATGAACCAAACTGATATGAATAAAAGTCCTATTAACACTTATGTATTTAGTCCTATGAAATTTTCTGAAGTTCAATCAATTGTAGATACTTTATTAGATCAAAAAGTTGTTGTTGTAGATTTTAAAAACTTAGATGATAATAAAGCTAAACGTTTTAAAGATTTTCTTTCTGGAGTTTTATATATTAAAAAAGGTGAATACATCAGACTTAATGAAAATATTTATAAATTTATAATTAATTAATAATTTATAAAGATGAATGAAAAATATCCAAACCTAGCAAAAACTATGATTAATATGTGAAACTCTAGGTTTTCAAAAACTATTCATAAAAGAGATGAAGGTTTTGCTATTAATTTTAGCCCTATTAAAATATTTTCATTTTTAAATTCAATCAATAGAAATTCAAATAAAAAATTAAAAATTAAAGAGTATAAAAATCCTAATTTAAATTTTTGAATTTATTCATTAGATAACACTAAATTAGCTGCAAGTATTTGATTAAATGAAAAACAATCTAATAAATGAGTAATTGGAGTTCATGGATATAATTCTAATCGTTTAGAAGTCTTATATTTAGTATGACATTATCAAAGTTTAGGTTATAATATTTTAACTTTTGATTTTAGAAATCATGGTATTAGTGATTCTAATTGTATTACTTGAGGTTATAAAGAAAAATGAGATTTAATTTCAGTAATCAATTGGTTAATCAAACATTATGATGTTGAATTAATTGGACTAGTTGGAACTAGTATGGGTGCTTTTACAACTAATTATTTTTTACTAACTGAAAATGAATTAATAAAAAAAGCAAACATTAAATGAGCAATTTCAGATTCATCATATATGTCAGTTAAAAACCTTTTACAAAGAATGATTAAAGATTATTCTCCTAAATTTTTATCTAATCTTTCAAAGGATGTTTTAGATGACATATTAGAAATTTATAAAAATGAATATGAAGTTGATTTAACTAAACTTGATTTTGTTGATTTAATTACAATTAATACTACTTATATTCCAGTTTTATATATTCATAATCGTTTAGATAAAGTCACTAGTTATCTAGATAGTTTTAGAATGTATCAAATGAAAAATAATATTGAAAATAGCTTTGATAATCAAATTGAAATTTATGATCATGGCTCACATCATACAAAATCAATTATTGAATTTGAAAATGAATATATAACTAAAAGTTTAAATTTTGTTAAATTACATCAAAAGACCCATCATAACTAATTTAACAAAATCGTTTTATCATAATAAAATAGTTGTCTATTAAATATTTATTATTTAATCAACTTGATTAACGATAATAGTTCTTATCTGCCCATTGATCTTTAAATGATCTAAAAACAAGAAAATAAAACTAGAAAATAAGCTTATATAAAGCTTATTTTTTTATCTAATATTTAAAGATTATTTTATTAATTTCATAAACATATTTAATAACAAATTAATTGCCTACATATTATGATTTTTTCTAATAAAAATGTTTATGAAAAGAAATAAAACTAGTAATACTATAAATGCTATTTATAAACATCAATAATAAGAGACTATCTGAATGTTTAATAAAATATCTAACTAAATAATCAAATAAATAGACAATAAGTCTAATTTAATATAAAATATTTTTATCATAAAAAGACACATTTTATAAATAAACTTTTTACAGAGAGCTAATGGTTGGTGAAAATTAGTAAAAGAATTTATAAAATATCACTTTTTATTTCCAAAAAAGAAAAGCTATAGCTGAGTAGAATTTTGCGGTTGTCACGTTAAAACTATAAAGATGAATTATAATAATATTTTTATAATTTAATTAGGATGGTACCGCGGTAAATCGCTCCTTTTGGAGTGATTTTTTTGTTTTTAGAAAGGAAAAAATATATGTCAAATAAATATAAAGATACTTTATTAATAGGTCAAACTGATTTTGATATGCGTGCTAATTTGAATCAAAAAGAACCTAAATTTGAACAGTTTTGACAAGAAAATCAAATCTATAATAAAAAATTAAAATTAAATGAAAATAAAAAAGTTTTTGTTTTACATGATGGTCCACCTTATGCAAATGGAGATTTACATATAGGACATGCTTTAAATAAAACTTTAAAAGATTTTATTATTAGATTTAAAAACGCAACTGGATATTATGCTCCTTTTATTATGGGATGAGACACTCATGGTTTACCTATTGAAAGTGCTGTTACTAAAATGGGTGTTGATCGTAAATCTATGAGTAGTGTTGCTTTTAGAGAACTTTGTTATAAATATGCTTTAGAACAAGTTTCAAATCAAGCAAACCAATTTAATCGCTTAGGAATGTTTACTGATTATGATACTAAATATGTAACTTTAACTCATGACTTTGAAATGTCTGAATTAAGATTATTTGAAAAAATGTATCAAAAAGGTTTAATTTATAAAGATCTAAAACCTATTTATTGATCACCATCAAGTGAATCTGCTTTAGCTGATTCTGAAATTATTTATAAAGATATAACTTCTCCTTCAATTTATGTAGGTTGTGATGTTATTAATAGTGATGAATTTAAAAATACTCAATTAATTATTTGAACAACAACTCCATGAACTTTACCATCAAATCAATTAATTGCAGTTGGTTCAAAAATTAAATATAGTTTAATTCAAGTAGAAAATTCAGATAAACAATTTATTTTAGCTTCTGATTTAATAAATCAAGTATCTCAAAACATTGGTTGAGAAAATGTTAAAGTAATTAAAGAAATTGATGCTAATAAATTAGTTGGTTTAAATTATGTTCATCCATTATATGATACAAAAATCAGTAAAGTAGTTTTAGGACATCATGTTACAAGTGAATCTGGTTCAGGTTTAGTTCATATTGCTTCAGGATTTGGTGAAGATGACTTTTTAATTGCAAAACAAAATAATATTAAGCCTTTTGCTCCAATTGATAATCAAGGTAAATTTACAACTGAAATTAGTGATTTAGATCCACAATTAGTTGGAATGTTTTATGATGATACTAATAAAATCATTACTAAAAAATTAGAAGAAAATAAAAAATTATTAAAACTAAAATTTTTAACTCACTCATATCCACATGACTGAAGAACTAAAAAACCAGTTATTTATAGATGTACTTTACAATGATTTGTTAATTTAGCTCCAGTTAAAAATGAAATTTTAAAAAATGTTGATCAAATCAATACTCATCCAAAATGAGCTAAAAAACGTTTATATCAAGTTTTAGATGAAAGAACTGATTGAACTATTTCTCGTCAAAGATTATGAGGAGTTCCAATTATTGCTTTTTATGATCAAAATAATAATTTAGTTTTAAATGAACAAATTTTAAATTATGCAATTAATAAAATTGAACAAGTTGGAACTAATGCTTGATTTAGTTTAGATGCTGATGAATTTTTACCAGATGAATATAAAAATAAATCTTTAAAAAAAGAAAAAGACATTTTAGATGTGTGATTTGATTCAGGAAGCAGTGCAATTGCTTTAAGTCAAAAATATCCAAATTTAAAATTACCATATGATATGTATTTAGAAGGAAATGATCAGTATCGTGGTTGATTTAATGCATCAATGATTAATTCAACTATTTATTCAAACACTTCTCCATATAAACAATTAGTCTCACATGGAATGACAACTGATGAAAAGGGAAATAAAATGTCTAAATCACTTGGTAATGGAGTTGATCCAATTGCTTTTGCAAATGATCTAGGTGCTGATATTTTAAGATTATGAGTTGCATCAACTGATTTTACTGATGATCAAAAAATTGGAAAAGAAATTATTAAACAAATTAGTGAATCATATAGAAAAATTAGAAATACTATGCGTTTTATTTTAGCTAATTTAAATGATTTTAATGTTAAAACTGATTATCAAACTAAATTAAGTGAAGTTGATATGTATAGTTTATTTAATCTAACTAGTTTTAAAAATAAAGTAATTCAAGCTTATGAAGAATTAAACTTTAGTTTAGTTTATACATTAGTTATGAATTATGTAACTAAGAATTTATCTGCTTTTTATTTAGATTTTATTAAAGATATTTTATATATTAATAGTAAAAATGACTTAAGAAGAAAACAAGTGCAAACTGTTTTATATGAACAATTGTATTGTTTGATTGATGTTTTAAGACCAATTTTAGTACATACAATTGAAGAAGTTTATCAAAATCTAAATGATAATAATAAAGTTGAATCAGTTCATCTATTAGATAATAAAGAACAAAACTTTGTTTATGATAAAGAGTTTATCAATAAATGAGATCAAGTAATGATTTTAAGAGATGATGTTAATAAAGCTTTAGAAATTAGTAGAGAAAATAAAATTATTAATAAAGGATTTGAAGCTGTTGTTAATATTAAATTAGATAAAGAATATGATGATTTAAAAAATATTAAAGATTTAAGTCAAATTTTTATTGTTAATAGTATTAATTTTGTAGATAATATTGATAATAGTTTTATTAAAACAAATATCTCATCAATTAAAGTTGAACAAAAACAAGGATTAAAATGTCAAAGATGTTGACAAATTTTTGATAATTTAATTGATGATGAAATTTGTAATCATTGTAATAACGTAGTTAAATCATTATTGGAGACAAAATGTGAATAAAAGATAAATTAGTAGAGACAAAAGTTTTTTTAAAAAATCACAATTATCTTTGAAAATTCAAACTAATAGTATGTTTGCCTATTTTTATAAGTTTAATTAGTTTTGATTGAATTTCAAAAGCTATTGTTGTAAGTCATATGAAATTAGGAGAAACTAAAACGTTTATTAGTGGGTTTTTAAACTTTCAGTATGTGATCAATCTTGGAATGGCTTATGGTAAGTTACACGATAAAGCTTATTTAGTCATTATTTTTGCAACAATTTTTAGTTTATTTTTAACAACAATCTTTATTTTTTTAAATAATAAAAAATGATTAATTGTTTTAATAATTATTTTAGCTGGTTCTTGAGGAAATTTATTAGCTAGATTATGAGCTCCAGGTAATGAAAATAATGTATATTATGGAGTTGTTGATTTTTTAACTTGAGATTTTAGTTTATTTAATTCAAGAGATTATGTATTTAATTTAGCTGATTTGTATGTCAATATTGCAATTGGTTTAACAATTTTATTTACTATTATTGAATTAGTTTTATATATAAAAAGTAAAATTAAAACAAAAAAAGAAAAAATAGAAAATGAACAAAATAACTCTTAATTCACTAAATACAACTTTAAGATTAGATAAATTACTAGTTGAATTATTAACTAGTTATGATTATTCAAGAAGCTATATTCAAAAACTAATTAAAGAAGAATGTATTAGTGTTAATAATCAAATTATTACTAATAATAATTTTGTAGTTAAACCAAATTCTGAAATCACAATTACTATAAAAGATCCTATTTTAGATCCAAATTTAGTTAAAAATGATGAGATTGATTTAGATATTATTTATCAAGATGATGATTTATTAGTGATTAATAAACAAAATAATATTACAGTTCATCCAAGTTTAAATAATACAAATAATACAATTGTTAATGCTTTATTAGCAAGTGATGTTGAACTTTCATCAATTAATGGTGAACTACGCCCTGGAATTGTGCATAGAATTGATAAACAAACAACAGGTTTATTAATTGTTGCAAAAAATGATAAAACTCATAAATTATTAAGTGAAATGTTTAAAAATCATCAAATTTATAAAGAATATTTAGCAATTGTCACTGGAGTAATTAAACCAAATAAAGGTTTAATTGATGCTCCAATTGGTAGAAGTCAAATTGATCGTAAAAAAATGAGTGTAACAGCTAAAAATTCAAAACAAGCGATTACAACTTTTGAAGTAGTTGAACGATTTTTAAAAAATACTTTAGTTAAATGTCAGATTCAAACTGGAAGAACTCATCAAATTAGAGTACATTTTAACTATATTAATCACCCCGTTTTAAATGATCCAGTTTATGGTAAAAAACACCAAGAATTTACTGATTTTGGTCAATATCTTCATGCTTATAAATTAAAGTTTACTCATCCAATTACAAAAAAAGAAATTGAATTAATATCACCTCTTCCTAAAGAATTTGATGATAAAATTAAAGAATTAAGGGGTGAAAATAATGACTAATTCTTCTACTAGTGATAAAAAGACTTTAGAAAACTTTTTTATTAAGAACTTTAAGTATAAGTTATTAAAATCTAAAGTTAATTCTAGTGTAAGTTATTTATATAGTTCTAATGAAAAACACCAAGTGATTATTTTAAATTTTGATAATAGTATTTCATTTGAAAAAGAAAAAGAATATATTATTAAAAAAGTTGAAAAACAAATAAAAAAACCTGTGAGTGTTTTTCATATTGTAATTGATAATGATAATCAACTAACTACAAAATCTAATTTAATTGTTTTACACTCTTCAATACAAACTCTAGCTACTGATTTAGAGCCATATTTTAAAAATACTAATTTATTAGTTTTTAATCACACAATTGATAATGAACTAAAAGATGATAAACAACCTAGTGAAGAAACTAATAATAAATTATTTACAAGCTTTTTAGAAAACGTTAAAAATAATAAAATTACATTTTCTTGAGCAGTATTATTAATTCTAATTTTAATTCCTAGTATGTTACAAATTGTTGGGTATTTTATTTTAGAAACTAATCCAAACAGTAAAAATGTTTTAATTTTAGCTTTTGGTGGAACTAATTGAAATTTAACAATTGTTGGAAAACAGTGATGAAGAATCTTTACTTATGGAATTGCTCCAATTAAACAAAATGGATTAATTGTTGATATTTTAAGTTTATTAATTTTAGGAACTAGTTTTTTTAGCATTTCAAAAATTACTGAAATCCAATTAGCAAATACTAAAAAACTAATTTTAGTTACAATATTAAGTTATTTAATTTTAGGATTATTTTCAAGTAGTGTCTTACCAACAATTTATACTGGTGGACTAATTAGTACAATGGGAATATTTATTGGTGTTTTACTAATTGATGTTTCTGGTTCAACTACTCCTATGGCTAAATTTAGTCAAGCTAAAACTGTAGTTTATATTTTAATTTTAATTGGATTTTCATTCTTTTTAGGTGATGGTTGAACTGGGTTATTAATTACTGGAACAGCTGTTATATTAGGAAGTGCTTTTTGAGGAATATTAAAAGTTAATATAAAAGAATGAGCTTGAATTCAATATGTTCATATTTTTTTAATCTTAGCAATTTTAGCTATTAGTTTAACTTTTATTTTCTTACCTCATCTAACTCCTGCTTTAGATCAACATATCTTAATAACTCTTTCAACTTATTATAAAAAAGGTTGATTTAGTATTAATAGTTTAAATAAAATAGTGAATAATATCGGTTGAGATGGTCAATTTAATCAATTTGGAAAGTTTATTACTAATTTTTAGATATGAGTAAAAGATTAGATTATTTATCTTGACAACACTATTTTATGTTAATAGCAAAAGCTAGTGCTATGAGAAGTAAAGATCCAAATACTCAAGTTGGAGCTATTGTTGTTAATGAATTACAACAAATTGTAGCAACTGGATATAATGGTTTTCCACGTGGAGTGAGTGATGATGAGTTTCCATGATCAAAAAATAATGAAGATTGATTAGAAAACAAATATGCTTATGTTGCTCATGCTGAATTAAATGCAATTGTAAGTAGTAGATCTGATTTAAGTAATTGTGATTTATATGTTACTTTATTTCCATGTAATGAATGTGCTAAGATCATTATTCAAGCTGGAATTAAAAGAATATATTATGCAAATGATCCATATCATGATAAAAAAGAATTTATAGCGTCAAAAAAAATGTTAGATGCTGTTAATATTAAATATATAAAATTACCAGATATTGAAATTAGTCTTAAAGTAAAAGATTAATTTTTATATCTTTTTTATTGAAAAGAAAGCATTGTTATTTATGAAAAAACTATTATTTTTACTATCAAATAGTGTGCTATTTTGCTTAGGTGCATTATTAATTTATAATTTAAATTTTCAAAATAATAGTAATAATATTGTTTTAAAACAAGAAAATAAACAAGAAACTGACTTAAGTAAAATATTTAATGATCAAACATATATATCAATTAAAAACAAAGATCAAAATATTGATTCACAAGTTTTAGAAGCTTTAAAATTAAAGTATGAAGGTATTGATTATTCTTTATTAACTATTAATGTTGAAGTTAGTGATAATGATAGAATAGATGTTTTAATAACACCTAAACATGGTGAAAGCAAATATACTAATAAATCAAAAATCCCTTGTTATATAAAAAAAGATTTAAGTGTTATTTTAAAAGATAATAATGATTTAGGTGAAATTCCAATTAATAATGTTGATGAAATAAAAAAACATATCAAAAATAAAGACTTATTAAAAACTAGTTTTAATGATATTGATTTTTATATAACTAATATTAGAGAAGATAGTGTAAAAATTTCAGCAACTAGAATTGGAGATTTTGTTGGAGAAGCTTTTCTTAAATTTAATGCTAAACAAAAAATTTTAAGTTCAGCTATTTATAAACCTGTTTTAGAATTAAAAAATCTAGAAAAAGATTTTATAGTGAATATATTAAAAGATACCTATTCATCTTTAAGAAATGAAAATCTAGATATAACTATTGATCAAGAAAAAAGAAAAATAATAGTTAAAACTATTGATAGTTCTCAGTTTGTAGGAACTGTTACTTTAAAATTTAATATAACTAAATCAATAACAAATAAACCAGTTGAACCCAAAACAACAATTATTGACTCTAATTCAACTAATTTAAAAACAGAATCTAAAAAATCAGAAGATAAAAGTGACAATAATTTTATAAAAAATAACAATACTTTAATTTCTATTCCAAATAAAGACTCAATTAAAAATAATAAGAATTTAAATTCATCAAATAAAGTTACTGGTGTTATAATAGGTTCAGCTTTAGGGGTTGTTGTGTTAATTGGTATTAGTGTTGGATCTTGATTTTATTTTAAAAAGCGAAAATAAATAAATAATAGGTAATATTATGATTAATAATGTTGGTATAGATATAGTTGAAAATAAAAGAATTAAACTAAAAAAAGAATTTATTATTAAAGTGTTATCAACAAATGAAATTCAAACATTTAATACTAAAACTAAAAAACAAAAAAAAGAATTTTTAGCTGGACGTTGAGCTGTTAAAGAAGCGATTATTAAAACTTTAGATCAAGCGATTAGTATGAATAAAATAGATATTGAATATGTTAATCAAAAACCTGTAATTCAAAATAAGGAATTACAAAATATCTTAATTTCTATTTCTCATGAAAAAAAGTATGCTATTGGAATTGCACTAAAACAATCTGATAACAAATAAGATATAAATTAAAACATTTTCTAATAAGCAAATAAATATGTATATAAGAGAATATTCTAGTAAAATAATTGATGATAAAATTATTTATAGAGTATTCTTTTATTTTATAAATCTGAGTAAATAAAGATTAAGATAAAATAGCATTTAATAGAAAGAATGAATAAAATGAATCAAGTTAATAGTATGCAAGAACCAATATCACAAAACAACAAAGAACAAGAAAAAAAAATTAAAGATCATATTCATGTTAATCATTGAAAAATGTTATTTATGTGATTGCCTTTATTACATATTAAATTTAAAGCAGCAAAAATTGTAAGAAAAAATAAAAAACAACCAGATAGATATACTGAAGAATATAGATATAATTGAGTTAAAAAAGCTGTTAGCAAGTTATTATATGTTTTAGATGTCAATATAAAAGTAGAAGGTATTGAAAATTGAATTGATAAAGGAGTAATTTTAGCTGCTAATCATCAATCAAATATTGATCCAGCTATTTTATTTGCTATTAATGATTTTTCAAAACAACAACCTTTAGCTTTTATTGCAAAAGAAGAGCTTTGAACAAGTAAAAAATTTAAAAATTTTGTTAGATTAATTGACTGTATACCTTTAAATAGAAAAAGTCCTAGAAGCGCTTTAGAAGCATTTAAAGAAGCAAAAGATTTAATTGTTGATTACAAACGTTCTTTAGTAATTTTTCCAGAAGGTACTAGAAGTCATTCTCAACAAATGAATAGTTTTCAAGCAGCTTCATTAAAAGTTGCACAAATGTCTCATGCTCCTATTATTCCTGTTTCAATTATTAATTCATATCAAGTATTTGCTGAAAAAAGACCTAAAAAAGTTGAAGTTAAAGTGGTTTTTGGTAAACCTATTTCACCAAATAAACATATTTCTTTAAAAACTGAAGATCTAACTAGATTTGTTGAAAAAATTGTTGATACAAATCTAAAATAATGAGAAAACAAAGAAATGAAATATGAGTTAAGAAAATTAACTAAAAAAGATATTAAACAACTTAAAGAAGAAGAAAAAAAACAAAATTCTAAAAAACAAGAAAAAAAATCAATTAAAGATCTATTTAAAATTGTTGATTAATCAACAATTTTGTTATTTTATAATTTAATATTAGAAAAGAAGTGATTTTATGAAACTAAATGATAAGTTAAAGAATTTTTTTAATAATATTAAATCTTATTTTACAACTAAAGAAAAAATTATTGTTAAAAACAAACCTAAACCAATAGAAACTAAAACTGAAAATAATAACAATAATTTAGATAATAATTCTCAATTCCATCATGATATTTCTAATAATAAAGAATATATTGATAAAAGAGCTACATTAGATTCTCAAAATGAATTTATATTAAAAGTAATCTCAAATAAAGCTGAATTTTTAGAACAATTAGTAGATATTAAAAATACTTTTAAGCATTGTGAAGATTGTTTGGATATTTATAAAAAAAATCTTGATGATATGAAATTAAAGATTTTAAGATTAAAAAAACATATTGATAATAATTATGGTTTTTTAGGTGATGAAAAAGAATATCAAAACTATGTTTTTATAGATGATGTTCAAACTTATTCGCAAACTGATGAATCAGCTGGATTAAAATTAGTACATAAATTAGAAGATCATTTTAATAAATATTCTAATTATGATATTGATTATTTTATTCCTTGTAATAAGCATAAAGACTTAATTGATAAATACAAAATACTATCAATTAAAATCAAAGATTTAGACAAAATCATTTCAAATTAATTACTGATCTTTTCTTAAATTCGCACTTCTATTAAAAAAAATTCATTTTTTATGTAAACTATTGAAATATGTTATAAATGATATAAAATTATTTGTGTCTTGTGTTAGAGGAAGCGAATTTATCTTGCTGACTTAGCTCAGTTGGTAGAGCAATTGACTAGTAATCAATAGGTCGAAGGTTCAAATCCTTTAGTCAGCACCAGTTATTGGAGGGGTAGCGAAGTGGCTAAACGCGGGTGGCTGTAACCCACTTCCTTACGGTTCGGGGGTTCGAATCCCTCCCCCTCCACCATTTATTGGGCTATAGCCAAGCGGTAAGGCAAGGGACTTTGACTCCCTCATGCGCCGGTTCGAATCCTGCTAGCCCAACCATCTTGACTCGTTAGCTCAGCCGGTAGAGCAACTGGCTTTTAACCAGTGGGTCCGGGGTTCGAATCCCCGACGAGTCACCATTTCTATTTTCCCCAAGTGGCGGAATAGGTAGACGCATTGGACTTAAAATCCAACGGGCTTAATATCCTGTGCCGGTTCAAGTCCGGCCTTGGGGACCATATTTGAAATTAAACATGTCTTAAAAAGACATGTTTTTTTGTATTTGACAACTATTTTTAGATAAAAAAAATGAACTTAAAAGTTCATTTATTATTTTGCAGGAGCTGGAGCGGGAGCGGCTGGAGCAGGAGTAGGAGTTGGCGTAGGTTGTGGTGCTGGTGCTGGACTTGGAGTAGGTTTTTCTTCTTTTGCCTTTTCTTTTTCGTCTTTATTATTCTTTTTATCGTCTTTTTTATTTTCTACTTTATCTGTTCCTTGGTATTTTCATTCAGTTTTAGGAGTAATCATTGGATCTGAATCTTGTAAAAGTTTAACTACATCATACATTTCAATAGCTTGTTTTAAATAGCTTATTCATTGATCATAAGTATTTTTTCTAATATCTGAACCATTAGGATAATTATCTATTGTTTTAGTAGCGTTTTTTTGATCTTGTTTACTAAAAGTTTCAAAACCACTTACAATTCCATAAAACATCTTATCTCTTAAAACTAAAAATATTGGTCCTTTTAGATTTTTAACTTTATCTTGTAATTTTTCTACTTTTTCAGTTACTGTATTATCATTTTTATTAAAACTTGAACTAGTTTCACCATAAAATGCTTTAGCTCAGTTTTTAACAAGATATTCATTTAGTATTTTAGAAGTTAAACCTTTAGTTCATATTTCATCATCTGAATCATATTTAAAGTTTTTAATCACAACATCATTTGTCATGTTTTTAAAGATTTGTTTAGAATTTGATGAAGTCTTTTGATCAATTATTCATCTTTCTTTTTTAGTTTTACTGTTTTTGTCTTTTTTAACCTCAACATCATTTAAAACTTTTGTGTGATTATTTGTACTATTTCAGCTTAAATTACTTTTAAATTTATAAATAAAACTTGTAGCATCATTTGTACTAGTTTCATTAATATTTTTAATAGCTTGTTCTAATGAATTAGTTTTAGTTAATTCTTCTAATCCTTGTTCAAATGATTTTGCTGATTTATTATCACTAGCTCCTAAATAAAGGATCATAGTTTTATTTTCAGATTGATTAATTAGGTTTTCAAATTCTTGAAATTGTTTATCTGTTGTTTTACAACTTATAGCAAAACTAGCACTTGTTGTAATAACAAAACTGCAAGCTAATAACGATAGAAGTTTTTTCATTGTAATACTCCTTTGTCTACAAAAATAATTTTACTATAATTCATTTAATTTTTAGTTTTAAATTAGGATATAAAATTAATAAACTCTTAAAAAACTTGAAAACCTGTTTTGAAATTGGTAATATTTTATAAGTGTTATAAAAGTTTGATATGTGTGAAAGGTGGTAGTTAAGATGCGTGAAAAATACATTTTACGTTGTACAGTTTGTAAAAATGAAAACTACATCGGTAAGAATGATAAAAAGAAACCTAAAATAGAAGTTTCTAAATACTGCAGTAATTGTAATAAACATGAAACCCACAAGCAAAAAAAATAGTCTTATGACTATTTTTTTATTTATTCAATTTAAAATAAAAATAAGGATTTTAAAATTTTATGATTATTCAAAAAACTTATAAAAATAACAAACCAACAGTTTATTTAATTACAACTCCAATAGGAAATTTAGAAGATATTAGTTTAAGAGCAATTCAAACTTTAAAACAAGTTGATGTTATTTGTTGTGAAGATACAAGAACTAGTAAAGTTTTACTAGATAAATATCAGATTACTAATAATTTATTATCACTACATAAATTTAATGAAAATTTAAGAATTGAACAAATTATTAATTTATTAAATCAAAATAAAAATATTGCAATTATAAGTGATGCCGGTGTTCCTATTATTAGTGATCCTGCAAGTTATATTATTAATCAATTAAAAGAATTAGAAATTAATTGTAATATTACAGCAATTGGAGCTGGATCTGCTTATATTCATGCTTTAATTTCTAGTGGCTTTTTAATTGATAGTCATTATTTTTATGGGTTTTTAAAAAATAAAAATAAAATTAGTAAACAAAATGAATTAAATCAATTAATTAATCAGTATGGTGATTCAATTATTTGTTTGTATGAATCAGTACATCGTTTAAAAGATACTATTACTTGTTTAAATCAGTTATTAGATAAAAATCATAAAATAGTTATAGCTAAAGAATTAACTAAAATTAATGAAGAAATAATTTATGGATCTATTGATCAAATTAATCAATATATTAATAGTGAAGAATTTGTTTTAAAAGGTGAATTTGTAATAGTAATTAATAAAAAAATAAATAACAAAACTACTACTTATTCAGATATACAATTAATAGATTTAATTGATCAAGAAATTAAAAATGGTTATAAATTAAAACAAGCTTGTGAAATTATTAATTTAAAAACTAAAATTTCAAAAAATGTTTTATATAAACTGTATACTTTTAAAAAAAAATTCTAATACCTTAATAGGAGGTATTATTATGAAAGAAATTAATTTAGAAAATACAAAAGAAATTATTGGTGGAGCTGGAGTTAGTGGAGCATTAATTAATGGAATTGCTAAAGTTGTTGAATCAGGATTTGAAGGAGTAAGTAATCTTATAACTGATATTGCAAGCGTTGGTTTTGCTTTTTATCAAGCTAGTAAAAATCCAATAAAAGCTGAATATAAAATCGGAAATAATAGTTTTAAAATTGATAATACAAAACTAGTTGATTTAAAAATTCAACAAGCTAAAGCTCAAGAAATTAAAATTCCAGTTTTAGAAATCGGAAATAATAAAAACAATATTAAAATTAATTATAATGATGCTTATAATAATGATGAACAGATAAGTAATATTTATAATGATTTTGATCAAAACATTAGTATTTTTAATTAATTAAAAGCTTTTTAGTAGTTATCTTGTTTTATTAAGTTTGTTATAGTAATATATAAATGTTGAAAAAAAGTTTCAACCGCTCTTTTGTATGTTCTAAAGCAGTATATCTCACGTACATAGGCGAGTCTAGACTGGAGGAAAATAATGTTTGCAATCATCAAGACTGGTGGAAAACAAGTTAAAGTTGAACCAGGTCAAGAAATTTTTATTGAAAAAATCAAAGGTGAAGTTAATGACAAAGTTACATTTGATGAAATTTTAATGATTGATGGTCAAATTGGAACACCAACTGTAGTTGGAGCTAAAGTTTTAGGAACTATCATCAAACAAGGTAAAGCAAAAAAAATCCGTGTTATAAGATATCATCCAAAGAAAAATGTAAATAAAATTTATGGTCATAGACAACCTTATACAAAAGTAAAAATTGATGAAATTAGTGCTAAGTAATTATGGTAGATATCATAATTAATTATAAAAATAATAAGATAATTCAATTTCAAATGAAAGGTCACGCTAATAGTGATGAATATGGTAAAGATTTAGTTTGTGCTGGTCTTACTGCTATTGTTAGTGGCGCTTTAAATGCAATTGATTCTTATTATAAAAATGATGTAGATATTGAAGTTTTAAAAAATAAAATAACAATAATTGTAAAACAAGAAAATAATAATAACTTACAACTAATGTTAGATATGTTAAAAATACAAATACAAACTATAACTATTCAATATCCTAAAAATGCAAGAATAAAGGAGGTGTCTTAGAATGCGTTTCTTATTAGGTTTACAATATTTTGCTTCTAAAAAAGGAGTTGGATCAACAAAAAATGGTCGTGATTCAGAATCAAAACGTTTAGGAGCTAAAAAATCTGATGGTCAATTCACTAATGCAGGTTCAATTATTTATAGACAAAGAGGAACTAAAATTCATCCTGGTTTAAATGTTGGACGTGGTGGAGATGATACTTTATTTGCTTTAATTGCTGGTACAGTTAAATATGAAAAATTTGGAAAAAACCGTACTAGAGTAAGTGTTATTCCTAACTAATTTAAAGAACTCATATGAGTTCTTTTTTTTATTAAATAAATCAAGTCAAGAGTAAAATAAGAAAAGATACTAGATTAGATATAATAATAGTATAAGGGCAGTAATAAATAGTTTTACATCTCTTATTTTAAATTTTTATTAATAATAAAGAAAGGCAGTAGATATATATGAAAAACCTAAAAGGTGTGTTTGCTGCTTTATTGATACCATATAAAAGTGATGGTTCAATAGATGAGCAGGCATTAGAAAAGTTCATCGATTATAATATTGAAGTTTCAAATGTTGATGGACTTTATGTTAATGGATCAACAGGTGAAGCATTTCTACTTTCAAATTCTGAAAGAAAACGTATTTTAGAAATTGTTGCAAAACACGTTAATAAAAGAGTACCTCTAATTGCTCAAGTTGGTTCTTTAAATATTTATGAATCAATTGAACAAGCAAAATTAGCTGAACAATTAGGTTATGATGCAATTAGTGCAGTTACTCCATTTTATTACAAATTTAATTTAGATCAAATTCTAAATTATTATAAAGAAATTAAAAAATCAACTAGTTTACCTTTAATTGCATATTATATTCCAATATTATCTGGTGTTAATTTTTCACTTGAAGCATTTGAAAAATTATTTGCTATTAATGGAATAATTGGTGTAAAATTCACAGCAACTGATTTATACACTCTAGAAAGAATTAAAGCAAAATTTCCTGATAAATTAGTATTTTATGGATTTGATGAACAACAATTATCTGCTTCAATTTATAATATTGATGGTGTAATTGGCTCAACTTTTAATGTTAATGCTAAAAAAGCTAAAAAGTTATTTGAATTAATTAAAAATGGACAAAACCAACAAGCTTTAGAATTACAAAAAGAAATTAATGATTTTATTGAAATAGTTTTAGCTAATGGGTTATATGCTATTTTAAAAGAAATTATTAGACAACATTATGATTTAAATGAAGTATTTTGTAGATTACCAATGACTCAAGTAATTTCTCAATATGCACTAAAAGCAAAAGAAATTAAAGATAAATATTTAACTGATATTTAGTATGAATAATTTAATATTTTTACAAAGTACATCTCAATCTACATCTAAATCATTTCACTGAGCTGATTATTTAGTATTAGTAATTTATTTATTATTTACACTAGGAATTGGTTTATACTTTCAATTTAAATCAAAATTACAAAAAGCTGAAAATACAGATGAATATTTTAAAGCTGGAGGAAAAACTCCTGGTTGAGTAGCTGGTTTTTCAATTTATGCAACAACACTGTCAGCTATTACTTATATGGCTACACCAGCTAAAGCCTTTTCAACAGACTGATTATTTGCATTTGGAAACTTAACAATTTTTATAGCAACTCCTTTATTAATTAGATTTATCATTCCATTTTTTAAAAAATTAAATGATGTTTCTGGGTATGGTTTTTTAGAAAAACGTTTTAGTTATTTTTTAAGAGTAGCTGCTAGTTTAATGTTTATTTTATTTCATGTTATTAGAGTTGGTTTAATTATTTATTTACCAACTATTGCTTTAACTGCAGTTACAAATATTAATCCTTATTTAATAGCTGTTATAATCGGAATATTTTGTGTAATTTCAACTGTTTTAGGTGGATTAAATGGAGTTATCTGATCTGATTTTATTCAAGCTGTTGTTTTAATAGGTGGGATTTTATTAGCAATTATTTTTGCTTTAATAAAAATGCCAAATTTAAACGAAGTTAATAGTATTGTTATAAATAATCATAAACTATTAGCAAAAGAATCAATTATTCCTCAATCTTGAGCTAAACCTTGAATATTAATTTTATTTTTTGGTCAATTGATTAATACATTTTATCAATACATAGGATCTCAAGATGTAGTTCAAAGATATCAGTCAAACCAAAGCTTTAAACAAGTTAAAAAAGGGTTATGAACTAATGCAATTCTATCTTTAATTACTATTTTATTATTTTATGGAATGGGTACATTATTATATGCATTTTATGTTCAAAAAACAGGTTTAACTAGTATAGATGAAATAATGAAAAATATTGGAATTAATGCAAATAACCAAATTTTACCTTATTTTATAGTAACAGTTTTACCAGTTGGTATTAGTGGATTAATTATTGCTGGAATTTATTCAGCATCAATGAGTACTATTTCTTCATCACTACACTCAGCTGCAACTTGTATTGTTGAAGATATTTTAATAAGAATAAAACCAAATTTAAAAGATAAACAAAAAATGTATTGAGCAAAAGGTTTAATATTAGGAATTGGATTATTAGGAATAATTGCTGCTTTAGTTTTAATTGTTACTAAAGCTGATAACTTATTAGATCTATTTGCTGCAATTATTGGATTGTTTGGAACTTCAGTAACTGTAATTTATTTATTAGGTATTTTTACAAAAAGAACTTCAAATACTGGAGCTATTTTAGGAGCAATTAGTTCATTTATTATAGTTTTTGTTATTTTTATAATAAATAAAACTACTAAAATAGCGATTTCAGATTTTTATGGAATTATTTTAGCTTTTATTATTGGATTATTAGTTGGATATTTATCAAGTTTTATTTTTAAAAACAAAAAATTAAATCAACTTGAAGGTTTAACTGTACATACTTTTTCAAAACAAGACTTTAATAAAATGGTTGAAGATGGTGAAAAAGAATGACAAGAAATTAAAGCTAGTGAATCTCAATTTAAAAAAGATTTAATTAATAAAATTAAAAATAAAAAGGTAGCTAAAAATTAGGAGAAATTATGATTTATGATAAGATTTCTAATTTAAATAGATATTTAAACCTTCATAAAAACATTGATTTTGCTATTAATTTTATTTTAAATAATAATTTAAAAGAACTTAAAGATGGAATTAATGTTATTAGTGATACTTTGTTTTATAACAAGTTTATAACAAATACAATAGATATAAATAATGCAGTTTTTGAATCACATAAAAAATATTTAGATTTACATATTTTAATTAGTGGAGATGAATTTATTGGTCATGAATTTGTAGATGACTTAAATGAACAAGTTGAGTATAATTTAAAAGATGATGTATATTTATATAAAACAAAAACTAAAAAAACTATCTATCAAAATAACCAATCATTTGCATTATTTTTTCCAACAGATGCCCATTCACCAAAAATCAAAGCTAACTCAGATCAAATTAATAAAGTAGTTTTTAAGATTTTATATGACTAATATAAAAAAATATTTATCTATTGATATTGGTGGAACTTCTATAAAATATGGGATCTTTAATGAAAATTTAAATCCTTTATTTACTAATAGTATTACAACTATTCCAATAAAAGATGAGTTATTAAAACAAATAATAGATATTATTATTTCTAGTTTACCACTTGATGGAATAAGTATAGCAACTGCTGGAGTTGTTGATAAAAATGGAGTAATTAAATTTGCAAATCAAAATATAAAAGATTATTCTAATTTTGATTTAAAAACTTATATAAAAGATTTTTTAATTACTTATAAAAATTCAGTACCAATTGAAATTATTAATGATGCTAATAGTGCTAGTTATATTGAATATGTCAATAATAAAACTATTAAAAATAGTGTCACACTAACTTTAGGAACTGGAGTTGGAATGGGAATTATTTTAAATGGTGAATTATTTTTAGCAAATAATGGTATAGCTGGAGAAATTGGAGCTATTAAAAACTTTGATCAATATATTGATACTGATTTATCTTGATCAAAGTTTATAAAAAAACTTAATCAAAATAAATATCATTATAATTCAAATGATATTTGAACTTTATATAATAAAAATGATTTTTATAAAACTGAAATTGAAAACTATTTAGATAAATTAGTTAATTTGTTATGTACAATATCATATATTTTATCTCCACAAATTATTTATTTAGGTGGTGGGTTTAGTTATTGTAGTGAGCAAATTTTAGAACTAATTAATAATAAATTTAAAAAAGAGTTTGTATTTTATGATATTAATCCAATTAATATAAAATACACTTCAAATAAAAATGATTCTGGACTTTTAGGAGTTTTACATTTATTAGTTGATAAACATTTTAAAAATTAGATTAAAACAACCTTTAATAGGTTGTTTTATAATGTTAGAACTAATTTAGAAAGGTATTATGAATTTAATAGATCAAATAAAAAATACATTAATTATTTCTTGTCAAGCAGTTGATGATGAACCATTAAATGATAGTTATGTATTAAGTAAAATGTGTTATGCATTAGTTTTAGGTGGTGCTAAAGTACTTAGATTAAGTCAAGTTGAACATATTAAAAAAATTAAAGAAGTTGTAAATGTTCCAATTATTGGATTGATTAAAAAACATTATGATAATAGTGAAGTGTTTATTACTCCAACAATTAAAGAAGTAGATCAACTAGTTGATTTAAAAGTAGATATTATTGCACTTGATGCTACTTTAAGAAAAAGACCAGATCAAGATTTAACAAATTTAATTAAAACAATTAAAACAAAATATCCTAATCAATTATTAATGGCTGATTGTTCTAATATAAATGATGCTATTAATGCTCAAAATTTAGGATTTGATTTAATAAGTACAACTTTAAGAGGTTATACTAAAGATACTTTGAATCATAATAATATAGAAAATGATTATCAATTTTTAAAAGATTTAAAAAAAGTAATTACAAAACCAATTATTGCTGAAGGTGGAATATGAACTCCACAACAAGCAAAAGAGATTTTAAATCTAGGAATTCATTCTGTTGTTGTTGGTTCTGCTATAACTAGATTACATTTAATAGTTAAATATTGAAATGATAATTTAAAATAAAGATTGTATAAACAAATATTTTTTAATGCTTATTTTTAATAGAACTATAGTGGATAATGATTTTTAAAATCAGTAGTTTTTAGTGATTTTATGTCTAAGTTGATAAATAATTATTAAAGTTGATTTGTTATATTATTATATTGGGAGTGTTTATTATGAAAATTGATGAAAAAGAATTAATATCTAAATATTTCGATCAAGCTTTAAATGAAACAAAAAAAGTTGTCTCAATTCCTTCTTTTTTAACTGAACCAACAGCTGATGCTCCTTATGGAAAAGCTTGTAAAGAAGTATTAGACTATGTAATTGATCTTGCTAATAATTTAGGTTTTCAAACTTATAAAGATAAAAATAATAAATATGGGTTTGTTGATTATGGAACTGGTGAAAAATTATTTGTCATTTTAGCTCATTTAGATGTAGTTCCTCCAGGAAATATTGAACAATGAGTTACTGATCCTTTTACTCCAATCATTAAAGATAATAAATTAATCGGAAGAGGAACTTTTGATGATAAAGGTCCAGCTATGATGAACTTATTTGCTTTAAAATATTTAAAAGACCATAATTATGTATCTTCAAAATATAAAATTAGATTAATTTTTGGATTAACTGAAGAAACTACTTGAGATTCAATTAAAACTTATGTTAATGATCATGGAGTTGCTGATTTAGGTTATACTCCAGATGGTGAATTTCCTGTAGTTTATGCTGAAAAATGAATTACAAATTTAGATATTATTTCAGATGAACCAACTGATATTCAAATTAGTGGTGGAGCTGCTTATAATGTAATTTGTGATACAGTTTCATATAAAGGACCAAAAATAAAAGAAATCCAAGACTATCTAATAAAAAACAACATAACTACTAAAATTGAAGATGATAAATTAATTGTTCAAGGAAAAGCAGGACACGGAAGTTTACCTTGATATGGAGTTAATGCAGCAACTTGATTAGCTAAAAGTATGTATGAAAATAATGTTCATCATAAAATTACAGATTATTTAGCAACTAATGTGCATTTAGACTTTAATTTAAAAAATGTCTTTGGTGATATTTCAGATGAAACTGGTGAATTAACTCAAAACGTAGGACTTATTGAAATTAAAAATAAAAATTCTAGAATTGGATTAAACTTTAGAATTCCTGTATTTACTAACCCAACTCAAATATTTATCCCAACATTAACTAAATATTTAGAAAAAATTAACTTATCATTAGAAGTTAAAAAAATCGATAATAGTTTATATGTTCATCAAGAATCAGATTTAATTAAAAAAATTATGAGAGTTTATCAAGAAGTAACTCAAGACTATAAAGCAAAACCAATTGCTATTGGTGGAGGAACTTATGCTAAAGCTATGCCTAATGTTGTAGCTTTCGGTGCAGAATTTGATATTGAGAACTCAACAATGCATGCTTATAATGAGTATGTTAAAATTGATGATCTAAAAAAGATGCTAGAAATTTATACTAAAGCCATTGTTTTATTAACTGAATAATTTTTTGTCTAATATTTTTATATGTTTTATGTTATAAAAAAGTTAGTAACATAGATATAAAAAGGAAGAGATATGATGAAAAAATATTTATTTAACTTATTAACTATAATTTATATGTTTATGATCGTTATAATTGCAAATGAATCATTTGGTTATGGTCATAATGCTCAATTACACTTACTAGGTAGAATTAATCCTGCTTATGGTTTAGCTGTAAGTGGAATTGTTTTAAGTTCATTATTATTAGTTATTCCTTTTTTACTAACTTTTGTTAAACAAACTAGAAAAGTAGAAAAAATTTTATTTATAACTAATTTTGTAATTTTTGTTATTACTATAGTTTTATTATTTTTAGCAAGCATATTTTTTATGGTTAATAAAATAGGCACTATTGGATCACATATTGGAATTATTGTTTTATATTTAACTGTAGTTGGTATAGTTTGTCAAAATTATTCTAATATTTTTAAAATTAAACTAAATAAAAAGAATAAACTAAATACAGATAAATAAAATAATGATTATTAAGGAGAAATATGAGTAAAAAAGTTAGCATTATTTTAATAGCTGGTGGTAGTGCTAGTGGAAAAACAACTATTGCTAGTAAAATAGCTAATGAGATTTTAAAAGATAAATCTGTAGAACATATTTCAATGGATAATTACTATAAAGATTTTACTAACTTATCTTTAGAGCAAAGAAACCATATTAATTTTGATCACCCAAATTCAATTGATATTGATCTTTTAATTAAAGATTTAAAACAACTTTTAAAAAGACATGATATTTTTGTTCCAACTTATGATTATAAAAAACATATTAGAACAAATAAAGAAAAACTAATTAAAGCTAGTGATGTTATTATAGTTGATGGTATCTTTTCATTACATTTTGAAAAATTACGCGAACTTGGAGATATTAAAATATTTGTAAAAACTCCTGATGATTTAAGATTTATTAGAAGATTAGTCAGAGATATAAAAGAACGTAATAGAACTATTGAAAGTGTTATTGATCAATACTTAACTGATGTTAAACCTATGCATGATCTTTTTATAGAACAAACTATTGATTATGCAGATATTGTAATACCATTTAAAAAAGGAAATGATGTAGCTATTGATATAGTTGCTTCAAAAATTAAAGACTTATTAAATTAAAATTACTTAATAAAAAACAAAATAAGTATTATTTAAAAAGCGTTACTAAAAAAAGTAACGCTTTTTTATATCTAAGTATTTATTTGATATGTTTTTTATTTTTGTTTTTAATTATAATTATGATTATTGCAATTATAGTTATTAAACTAATAGGTAAAATTATTGATAAAACTATAATTGAAATATTTTTGTTTTTATTGTTTTGTAAGTTATATTTTTCAAGATTAACCTTTATTGTTGATGAAGAATCATGATTAAGATCATCTTTATATTTAAAATAAACTATTTTATTAAAAGGAATTTCTAACTTATCAAGTGAATGATATTCTTTAAACACTTTATTATCATATGAATATAAAACTTTATTATCAAATATTAATTTATCTTTATTTATAATTGATGATTTTGAAATCTGTTTTGGTTTTATTGATCATTTAAATTCTAATTTGTTTTTATTGTTATTAAATACATAATTATTATCAATAATCTCTAATGTTGTTATATAGTTTCCTGAATTAATATGTTCATTATTAGTTATTTTTATAATGTTTTTATCAATTGGTGTATCAAATTCTAGTTTATGATAGTTTGTATCATATATAAATGTATTTTCTAGTTTAGGTTTGATATTTATTATTCTTTTTACAGGATTGATATTAAAATCAAGATTATATGTTTTGTTATTATATTTAAATTCTAAAATAATTTTATTGTCATTATATTTTATTGTATCAATGTATTGATTATTAATATTTTTAATTTTTACATTTGGTTTTATATGTTTTATTTGGTTATTATCTATTATTTTAATATCAAATTCATCATTAATTTTTTGATTTATTAAATAGTATTTTTTAATATTATTTATTATTAAAGTGGGTTCTTTTTCTTCAAATACAGGTTTAATAATAATTGGTGTATTATATGTTTGATTATTAGTTTTATGTTTATTACCTATATAATTTAAATCTAATACATTAGTTTTTAAACTATTTATAATTTCATATGATATATAGTACTTATTTTTAGATTGATCAAATAATAAATCTTCTTCTTCTCCGTTTTTATTTATATATACATATTTTAAAAACTTCAAATTATTATTTGTAGGTGTTTCTAAATACTTTTTATCAAAATAACTATTTTTAAAAAAAGGAATTTCATTAGTTAAGTTTTTAATTTTAGTATTATTTGTTAAATAAATTTTTACAAAATAATAATTAATATTATTATCTAGTCTATAAAATTGATACTTATTTGAAGCTATTTTTTTATTATCTACATATTTATCTATATCTAATTGAAATTCATTTTGATCCTTATTTAAGATAGTTTCAGGTTTTAAGATATCTTTTTGATTTATTTTATAGTTTATTTTATCTTTTTTATCACTATAAAGATAAAGAGGTTTGTATTCAAAATTAAGATTATTGTTTTTATCTATAAGAATTACAGGTAAATTGTCATTTGCAACAAAACTATTATAGTTATGAAAAACTAAATGTTGTTTATTATTATAATCTCAATATGAGTTAGCTGAAATTGTATTTGTTTGATCTAAAAGATAAATTTGTCTATGTTCATGTTTAACTTTTATTGTATTTGTTTTATCTTTTAATAAACTATATTGATAGATTAGTTTAACTGTATAACTACCAGATTTTAATTTATCTTTACTTTTTATTATTATTTTATTTTGATCAGCATTTATTTTAAATAAATCAGAAACATCAAGATCATTTAAATAAATATAAGCATTAATATTATAGAGTTTAGCAAGATTATTATTAATGTGATATTCTATTTTTACATCTTGAGTTGTATTAAAAATATTTGTGTTTTTTGCTTTTGAACTATAGTTTTTTTGACCATAATTTTTTGTATTGTAATAATTAGAAAATTCGTTATTAAAATTATTATTACTTTTTGAAATTAATAATTTATCAGCAATATATTCATACCCATTTAAATCATTAATAATTGCTTTTGAGTTATAAGGTAAAAAATTTATTCCATCATTATTACTATAATAACCATCACTATTTAAAACAATAAAAGCACCTTTAGAATTATCACTAGCTAAATATTGATCATCTCATCCAATAATACTTACAGCATGTGCATTTATTTTACTAGTATAAATTAGTTCATGAACTTTAGTTTTATTATTAGTTTTTATACTAATATGTTTGTAGTTTTGATTTTCTTTAGTAGCATAGTTTTTAATTGGAACAAATAATGAACCATTATTTACTATATGTTTTTTTATATTTAAAAGATCGTATCTATTAAAACTAACATCTTTTACTTGATCTCTAAATGATTTAATGTTTTTAGAATTGTATATTTTTTGTAATCAAGTTTTATATTGACCTTTATTTGGTACATAATATAAATCACCAAGCTTAAAATCAGATTCAAAACTGATTCCATTTTCTTTAATTAGTTGATCATAATCAAAAAATCAAGCACCACCAGCAATTAGATCTTTTTGATTGATTGAAATGCTTGCTTCTGATAAATCATACATTTCATTATTATTAATCATTAATGAGGTTTCTAATGATTTTGTAGCACTAAAATCTCAACACAACCCAGTATTATATTGATATTGATTAAATAAAATATAATCATCTCTTAAAGAATAATATGATCTATTTTCTTTTGATAAATTAGTATTATTTGAAGTATTAGTAATCATTTTATTAACATAAGTTATGTTAATATTTTGATTTGTTTTTAAAAATATAAAAAAAATAACAACAAATATTATTATTGATTGTAATAATAAAATAATTTTTTTATTAGTTTTTTTCATAATCTTATTAGTAATTAAAATTAAAACTGTAAATTAATTTTATAATTACAGTTTTTTTATTTAAATAATAGTTTTAATATTTATTATATTTTAAAATTTATAATTTATATATCTACTTCAATATTAATTATAAAACATAGGAGAAAGATGTTTAACAAAACTATTATTCATATAGATATGGATGCTTTTTTTGCAAGTTGTATGCAATTAAAACACCCTGAATTAAAAAATAAACCTATAGTAATTTCTAATAGTTTTGATAAATCTATTATTTCAACAGCTAGTTATGAAGCTAGAAAATATAATATAAAAGCAGCTATGCCTTTATTTAAAGCAAAAAAACTTTATCCTCAAATTATAAGTGTTAAACCAGATATGATTTTTATTAATAATATTTCACATCAAATTTGAGAATTTATAAAAAATAATTATACTAATAAAATTGAAGTTGCTTCAATTGATGAAGCTTATTTAGATGTAAGTGATTTGGTTAAAAATACAAATGTACTTATACTAGCTAAAAATATTCAAAAAGATATTTATGATCAATTTAATCTAACTTGTTCAATTGGAATTGGGTTTAATAGATTTAGTGCTAAAATGTCAACTAGTTTACATAAACCAAACGGAATTACTTTAACAACAACTAGTAATTTTAAAGATAACATTTGACCTATTTCAATTAATAAAATGTATGGTTTTGGTCAATCAGCAGCTAAACTTTTAAATAATACAAAAATTAAAACTATTAAAGATTTAGCTTTATTAAGTGATGTTGAAGTTTATCAATTATTAAATAAAAAAGGTCTAGCTTTAAAAAGTGAAGCTTTAGGTTTAGGAAGTGATTATATTAATTATTTATCAAATGATTATAAAAGTATTTCAAAAGAAACAACTTTAAATACACCAATTTATCAATATGATGAAATAGAAACTATTATTTTGAATTTATCTAAATTTATTTCATATAAATTACACAAAAATCAATTATTATGTAAAACTATTGAAATTAAAATTAGATATAAAATTGATGAAAAACTTTTTGATAAACAAAAAAACTTAACAAGTAGACACAAACAAATTACTTTAAAAAACCACACTAATGATTTTGAAAAAATCTATAATAGTGCATTAGACTGTTTTTATAGTTTATATGATCAAAATAAAGGAATTTTATTAATTGGAGTAGGTGTTAGCAAACTAATTCATAAAAATCAAAATTGAGTACAACTTGATATTGAAAATCAAACCAAAGTTGATAAAAATCAAATAGATAATGCTTTAAAAATAGAAAATATGATTTTTGATATTAATAAAAAATTTAAAAAACCAGTTATTTTAAAAGCTAAAGATTTAAAAAAATCTAGCTAATAACTGGTTTAAATTAAAGGTTCGTTTAAGCTAACTAGTACAGTTTTTTGATCTGATGGAATATTAATTCTAATAATCATTTCAGTTTCAACTTTAAAATTAATTCACCCTAATCCAGATATTGAAATATCATATCAATTGTTTAAATGTTCTTTTGTAAATTTAAATTCATAAACTTGAATTTTTTCACTATTGTTTATATATGGAATTAAGTTTTTTCTATTATTATTTCAATACCTTATAACATTTTTAGTATTAGTTCTATGTAAGTTAATTTCTTTATTTGTATAAATATGAAAATTAGTTTTTTGATTAGATGAACTTAAATAATCAAATCAACAAACTCCTGAAAAAAATATTGAATTATTAGGTGTTAATTGATAAGTAAATTGCTGAATTTCTTTTTTAAAATAACAATAACTTTGAAATCTTTTATTCATTAAATTAGCAATACTGTTTTTTCTACTAACTCCAGCACTATCAAAAATAGTTGTATTTGTATCTAATTGAATTTCAATAAAATCTAAAGTAGTATTAAAATATTTTGAAACAACTATACTTGGAATTAATTGATTTATTTCTAGCATTTTATTAATCAAACTAGATTTACCAACATTACTTGCTCCAATAAAGTATTGTTGGTTTTTATTATTTTTAATTACTTTGTTTAATAAAGGTTCAACTAAGTTAATCTTATTAGCACTAGTTAAAAAGATTTCTAAATTTTTTAAACAACTAGTTTTAAAGACATTATTAATATAATTTCTAATTTTTTCAAGTTTAATAGATTTTGGTAGTAAATCTATTTTATTAACTACTAAAATAACTTTAAAATCTTTAATTAAGTTTTCTATTTCTAATATTCTTGATCCAAATAAATCGAAAACATCTAAAACATAATAAAAAACTAAATCATTATTTTTATTTTCATTAACTAATGTTGAAATTTTATTAATAAATTGTTGATCATTAATTTCACTATCTACTAATTGATTGTAGTTTTTAATTTTAAAACATCTTAAACAATAAGCGTGTTCAGTATCATTTACATAACCTTGTTCAAATTTATTTATTGTTTGTAATAAACTCCCACAACCTAAACATGATTTCATAAAAACTCCTAATCTTTTTTAATATATTTATTATTAGTGTTCTTAAATTTAGAAAAAGCATAAATAAAATCTATTAAATATAAAATCTTTAAAACATCATTAAAACAATGAGTTTTTGCTAATTTCACACTTTTATTTAAAACTTTAAATTCATCTATACTTATTTTATCTAGTGAAAATAATTTTAAAGCATTACAACAACTTAAATAAATATCTTCAGTATCATTTAAATTATTATCATTAAAAATATCTTTAGCATAATCAATGAATTTTCTTAAACTAGGAATTGTAATTGTATTTTCTCCTATTCAGCCTTTTTGAATGTTTTTAGGATTATAAAATTGTTGATTTTGATTATCTAAATTAACAAATGACAAATGATTTAACACTTGATAAATATCTAAACTATTAATTCTATATTCATTAGTAGTTTTATCTAATATAAATAAATCGGATTTTTTATTTTTTAATAAATTCTTATTTTCATTTACTCAAGATTCAATAATCTTTTTATCATTACTTTGTCCAGCAAAAATAATGGTTTTAATTTTTTTATTAATACACATATTAATAAAGCTCTTTTTTAACAAATTATATTGTTTAAAAAAGTCATAAGTTTTATCATTATAATTTCTTTTTATAGCTAATGATTTAATTGCTTTGCGATTAATTCTGTTATAAATTTCTTCTAAGTTTTTTGCAAATGAGTATTGTAAAATATAAACTAAATCTTTTTGAGTATCATTATATAAAGTTGGTTGAATTTCTTCTTTATTATGACTTTTGTTAAAAAACTCAGTATCAACAATTATTGCTGGTCAATTAATTTGGTTTAGTATTTTAGTAATTTCTTTTTTGTTAATATAAAAGTATTGATATTTGTTTAAATAGTATTTTTCATTTTCAACGATAATTTTATTAAAATTCATCTTTATCATCTTTTCTATTTATAATAATATCAAAATATGATATTTAATATATTGTTAAAATAAGAAAAGGTAAATATGTCAAAAGAACTTACAGTTAGTCAATTTTTTTTAGTGACAGTTCAACAACATTTAATTAATAACTTATTAGAAGAAAATAAAAAGAAATCATCTAAAAATAAAACAACAAAATCAAAAATCAAAGTTTATACTAAAACAAATATAACTTCTTTAATTGATAAATACCCACTTAGATTTCAAGAAATGATCTATGATCTTTTTGATATAAATAATTGAAGTGAATTAAAAGAATTTTTAAATTTTAGAAATGAAGAAATTAAAAATGAAATGACACCACCATCTTTAATAACTTCACAAAATAATCCTGAAAATTTAGAAATTGTTGAACAATTAAAAGAACTAGTAAATTTAATGACAAGCATTAATCTTTTATCACTTACTTATGAATCTTTAGATGACATTGAATATTTATTTCCTAAATTAGGTGAAAATGAATTAATAAAAAACGTTAATACTGAAGATATTTCTTATTTATTTGATAATCTTTTAAATAAATTAATTGAAAGTGTAAAAGAAGAATATTTAAAATATTTTGATGAAGACCAACAAGATATTTTATTGTTATTTGATAGTATAAAATCAACTAACATATCACTTGTTAAAAAAACACTATTAGATAAACTTTTTAAATATTTTGAAAATAAAAAAATAGAATTTTCTGATAGTTTTATGTCTGATTTTTTATACGGAAATCCTGAAAAATTAATTGCTGGATATAGAATTGTAAGAAATCTAATTAGAATTGATTTTTTAATTAGTTTATCTGATTTTATTCTTCTTTATATGGCTGAAATTATTAAAAAATAAAATTTTTAAATTAATTTAGTTTGTTTTTATTCCTTTAACTCTTGAAGCATAATATAAAGCTCCTCCAATAGTTGGATGAGTATAAACAGTTTTTTGTAGTGTAGAAAAACTTAATTTTTGTTGCATAAATAATCCAATTTGGTTAATTAAAATATTAGCATTTTCTATCATCATAAAACATCCTAAAATTTTTTCAGTTTGTTTTGAGACTAGAAATTTAATAAACGAATATTCATTAACAATTCCATCAGCATGAGCTCTAGGAAGAGCTTTTGAATTAATCATAATTGATTCAAATTCAATATTTTGTTCTTTTAGTTGTTGTTCAGTTAAACCAATTCCAGCAATTTCAGGATTTAAATAAATTGCTCAAGTTACTAAATTTTTATCAAATTTTTCATGATTAGTTTTTAAAATATTTCTAGCTACAATATCTCCTGTTTTATAAGCAACAGATGATAATAAAGTTAAGCCAGTAATATCACCAATTGCATAAATATTATCAAAATTAGTTTTCATAAATTCATCAACTATTACAAAACCATTTTTATCTTTTTTAATATCAAGATTAATAAATGATTCGTTATTTGGAACTCTACCTACAGCTAATAGAATTTTTTCACTTTCAATAAAACTATCATTATAAAATACTTTATTATTATCAATTTTTTTAATATTTGCATTTTCAATAACTTTAATTTGTTTTTCATTAAAGTATTGTTTTACACCTTTTTGAATATCAATATCAAATCTTAATAAAAAATTGGTATTAGTTAAAATAGTAACTTTTGATCCTAAAGTATTATATAAATATGCAAATTCTAACGAAATAGGTCCATCTCCAATAATTGTTAGTGAGCTTGGGACATTTTCTAAAAATAAGGCTTGATCTGAATCTAATAAATATCCATTTTTTTGTGATTGTTCTAGTCCTTCTAAATTAATAATTTTTGCTCTAGTTCCTGTTGCTAGTACTAATTTATCAAAACTAATAATTTGATCATTTATTTTAATAGAATTTTTATCTAGAACTTCGCCAACACCTTTAAAAAAACTAATCTGATTTAACTCAATTTGGTTTTTTATAGAATTGTTAAAAAACTTTTTATTATCAAGTCTTCTTTGTTGCATTTTTTTAAAATCAAATGAAATATTATCTGCATTAATTCCAAATTTTTCACTATTTTTAACTAGTTCAAAAACTTTAGCTGATTTAATTAAAGTTTTAGTAGGAACACATCCTTTATTTATACAAGTTCCACCTAAATCTTCTTTTTCAATCAAAGCAACTTTTTTATTATTTAAACTTAAAATATTTGCTAAACTATAACCACCAGGTCCTGCACCTAAAACTACTACATCAAATTTTTGCATAACTACTCCTTTAATGTTTATCTTATTTAATATCTTAATTTAAATATAAAAATATTAGGATTTTTAAATGTTTAAATTAAAAGTTTTGTATATATTTTAAACCTTTATAAGTAATTTCTCTTCCTTTAATTGTTCTAATAATTAAACTTTCTCTTATTAAAAAAGGTTCTATATTATTTGCAATAATTAAAGGAGTTGTATTTAATAAATGTGCTATGTTATCTAATCCAATTCTTTTATTTTTAGCAATCATTTTTAAATAATTAATTTCAGTTATTGTTAAACCTAGTTCATAAATTTCTAGTTTCTCTAATACTTTTTTAATGTAATTAATATCAATTATTTTAGGATTATCACAAATGATGTGATCTTTAATTCTTTTAATTAAATTAATAGCAATTCTTGGAGTTTTTCTACAAAAACTAGCTAAATATAAATAAATATCTTGATCAAGTTTAATTTGAAATTTATTACAATATAATTCAACAATTTTACTCATATCTTCTAAATTATATTCTTGCATTGTGAAATTAATTGGAAATCTATTTAACAAAGGTAAAGGAATTTTATTAATCTCAGTAGTAGCACAAATAATTGTAAATTTAGGTAAATCAATATTTACAACTTTAGAATTATAGTCTTTACCAATAATAATATTTAGTTTATTTTCTTCTAATACTGGATAAATAATTTCTAAAACTTCTTTATTAACTGCATGAATTTCATCAATAAATAAAACATCTTTTTCTTTAATACTAGTTAGAATTGAAATAATATCACTAGCTTTTTGTAAATTAGGACCATTTAAAATTCTAATGTTTGTTTTTAATTGTTTTGCTAATAAATAAGCTAAACTAGTTTTTCCATACCCACTTGGTCCATAAATAAAAATATGATCAACAACTTTATTTTGTTTTTTTGCAGATTTAATAAAGACTTTTAAATTATCTAAAATATTAGTCTGACCAATATATTCTTCTCATTTTTCAGGTCTAAACATAAAAAACTTCTTTCTATTAGTTATATAAATAACTTAATTGTTCTAATACATATTTAGTTAAATCTTCAATACTCATATTTTCATCTATACTAATAATGATTTTATAAATGTCTTTAGTTTTATAACCTAGTTTTTCTAAACTTGTAATCACTTTGTTTTTCTTATCACTAATTTTGTTATTAAATAATTCCTTTTGTACACTATTAATTATTAGTCTTGCTGTATAACTTCCAATTCCTTTTAGTTGTAGTATTTTATCAGTTCTTCCATTTTTAAAAATATCAATTAGTTCATTATAGTTATAATTTTCTAAAATCAAAAAAGCAGTTTTTTCTCCAATTGTATTAATATTTATTAAAAGTTCAAAAAGATCTCTTATTAATTGATTTTTAAACCCATAATATTTAAAAACATTATCAATTACATTAATTGCAACATATACTTGATTATTTTGATTTAGTTTAAGATCTTTAAGATCACTTTTTAAATATAAAAATCTATACCCAGAATTATTTGATTCAATATATAAATACTTATCATCAATTTTATGTAATAAACCATTGATATAATCGTTCATAATCTCACCTCATATAAGTATTAGAAAAAAATATTTAAAAGTAACTAAATATTTAAAAAAGTATAAAAAAAGAGTCATTAAAGACTCTTAATTATAAATTATTAACCACTATTTGTATTTACGGTTTTGTTTTTGTTTGTAAATACGTTTTTCTTTTTTGCTTAAGTGGTATTCACGTTTTCTAGCTTCTGCTTTATTTGATGAAGCAACTTTTTGAAAGCGTTTTAATGCTTTTTCAATTGTTTCTCCATCATGAACAATAACACTTGCCATTAACTTTTTCAACTCCAATTCAATACAAAAATAATTATATCTTAAGTTGTTAAAAAAATAAAGACTTTTAATGTTTTTGTGTTGGAATTTTTAATAATTTTTCAAATTACTTTTTTAAATAAAAATAGATTTTATTAGTAAATAAGTAGTATATTTACTATTTTTCTACTTTATAAACGGTCACTATTATACCATATTTTCATTAACATATTGCATTATATATATATATATATAATGAATGTATGTTATATATGTTTGGATTTGTATATAACAAGTATTTTTAAAGTTTTTATAAGGAGATATTAAATTGAAAAAATTATTAACTATTTTAAGTTCATTTGGTTTAATTGCTACAACTGGTGCTAGTGTAGTAGCTTGTAAAAATGATCAATCAAATTCTTTATCATCTAGTGAAGAAGAAAATAAAAATTTAGGTTCTGCTCCAATAGAAGAGAAGAAAGAAGAAAATACTGATATAAACAAAGAAAAAGAAAAATTCAAAAATCAAATAGCAGTATTAACTGAAAAAGAAAAACAAGCAGAAAATTTATTAGAAACTATTAAAAAAGGTGTTGAAAAAGTAAATAATTTATCTAATGAAGATAAAGAAAAGCAAAAACATAATTTAGAAACATTAAATACACAAAAACGTGAAGTTGAGAAACAATTAGAAACAATAAAGGTAACTAAAAAAGATTTAGAATTGAAATTAAACAAGTTAGAGAGTAATAATTCATAATCTAATTTATTTAATAAAAAACTTTATAAAAATATAGATCTATTTATTTTTTGTATGTAAATAGCTTTTTTTAATTTTTAATAATTTTTCAAATTACTTTTTTAAATAAAAATAGATTTTATTAGTAAATAAGTAGTATATTTACTATTTTTTCTACTTTATAAACGGTTGCTATTATACCATATTTTCATTTACATATTGCATTATATATATATATATATATATATAATGAATGTATGTTATATATGTTTGGATTTGTATATAACAAGTATTTTTAAAGTTTTTATAAGGAGATATTAAATTGAAAAAACTATTAACTATTTTAAGTTCATTTGGTTTAATTGCTACAACTGGTGCTAGTGTAGTAGCTTGTAAAAATGATCAACCGAATTCTTTACAACCTAAAGAAGAAGAAAACGAAGGTTTAACTTCTAGTGGAGAAGAAAATACTAATTCAAACAAAGAAAAAGAAAAAGAAGCTGAAAAAGCTAAACTTAAATCTCAAATAACAGTTTTAGAGGGTGAAGTTAAGAGAGCTGAAAAATTATTGAAAGATATTGAACAAGGCATTCAAACAGTAGAAAAACAAAAAGAACCAGAAAAATTTAAGGAAAACTTAGAAAAGCTAAAGGCACTAAAACCTGAAATTGAAAAACAATTAGAAACAGCTAAGGTAACTAAAAACGAATTAGAAACAAGATTAAGAGCTTTAGAAAGCGATGTTTCAACTAGTTAATTAAATTTAATTAAATAGAAGTTTAATAGGTTTTGTTTTTTACAAATATAATGGGTATTGGTTTTAATATCACAAACATTTATATATTTACATACCATCTTATTAAAAATAAAAATCTTAAAAACAGTAATATTTATATAAAATTCGTATGAAATTTTATATAAATAATAAATTAATAATGAAACAAAGGCTTGGATAATTTCCGAGCTTTTTATTATGATTTCTTACTAATTAATAAGTAATAAAACAAGCTATTTTTATAAATATTTCTTTCAAAATATGAAAGAAAAACGCTAATCTTATCATATTTAAATTTGTATATTGACATTACAAACATTCTATATATAATGCACTCTGTTATATATGTTTTGAATCGTATGTAACAAGTATTTTATTTTTTAATAAGGGGTGTGTAAAATGAAAAAGTTAATTACAATTTTAAGTTCATTTGGATTAGTTATTACAACTGGTACAACTGCAGTTGCTTGTAAGAATAATCAACCAAGTAGTTTGAAACCTACAACAGAAGATCAAAATACAAGTTTAACTTCTACTCCAGAAAATAACGGATTAGAAAATACAGATTCAATTCAAAATAAAGAAGAAGAATTAACAAAAGTTAGAGCTCAACTAGCGCAATTAGAAGATGCTGAACAAAAAGCTAAAAAAATATTAGGACAAATTGATGAAGGTAATAAGAAAGCAAATGAAACATCTGAAAAAGAAAAAATTAAAAACGATGTAGAAAAATTAAATGCACAAAAATTAGAAGTTGAAAATGCACTTAAAAAAATAAAAGAAATTAAACAACAACTAGAATCTAAATTAAAAACCTTAGAAGGAAAAAACAACTAAACTTAATCTATTTTTTCTAATTAAAAACAAAGGCTTGGATAATTTCCAAGCCTTTTATTATATTAATTTTTTTCTAGTATTTTTTAATGAACTTAACTTCTGTAATTTCATAAGGTTTGTCTTGAGATTCTAATCTTAAAACAGGTATTTCATGACCAAATACATCTTTTTTAATTTTGATTCCAACTACATAGTAAGTTTTATCATTTCATTTAACTTGTTGATATAGTTTAACTGGTTTATTTAATTCTATAACTTTTGGAGTTTCATTATTTTTATTAGGATTTAAAGCTACTTGTTGATTTGTAATAACTTCATTATTTGAAGTTTGATCAGCTTGAGATGAAGTTATATCTAAATTATTAGTTTCTTGATCAACTGAATCATTTGTTTTAATAGTTTTATTTCTAATTTCTTGATCTGTTTTTGAATCTAAAAAGTCTTTATCATTACTATATTCTTTTAAATCAGTTTCAGGACTAATAGTTCAAATTTTATTATTTATAGTTTGATTAGTTTTAATTAATGGTTCTTGATTATTAGTTTGTTTTAGATCAGTTTCTGGTTGATTAATTCATAATTTATTTATTTCAGTTTGATTTGAAATATTATTATCTAATTGTTCAGTTAATTCTTCTTGGTTTTGATCACAAGAACTTTGACAATCACAATTAGTTATACTACATTCACAACCATCTTTTTTATTACATTCTTCTTGACAGTTTGAATTATCTACACAACATTTATTTTCTGTACAACACTTATCAGTTTTGCATTCTTTAATAGAACAAGAATTATTTTCATCACATTTTTTATTTTCACAAGAATTGTTGTTATTAGATTCTTCACAGCATTTGTCTTGAACACAGTTTTTATTTTCACAAGAATTATTTTCACTACATTTATTTTCTTCACAACATAAATTATCAGAACATTTATCTTGTTTTTCACATTCACAATCTTGTTCATCTTGACAAGTATTTTCAACTTCACAACAAGCTTTTTGATCACAAGAATCATCAGAGCATTCTTCTACTTTTTCTTCACAAGTTTTATCACATTCACATTTATCTTCTTGTTTTTCTTCAACTCAATGTTCTGTGCTTAGTTCATGTTCTTTATTAAAATCTTCTTCATTTATATGCGCGTTTTCTTCAACTCAGTGTTCTTTACTTAATTCTTCAACTTGATTATTATCAACTAGTTCTTCTGGATTTTGAACTATTGGTTCGCTAATTAATTTTTGATCTAAACTAGTATTAGTTTGTTGATCATTTTCAATTCAACTATCTTTTGTTATATCTATTTTTTTGATTAAATCACTAGTTAAATCTTTTTCTTCAATTCATGAATCTTTAGTTAAATCTTGTTCATCTAAAGTTGGTTCAATTTCTTGTTTTATTTCTTGGTTGTTTTTACTACCATTTTGAATTTCTCATTTATCAATATTAACAGTAGCTGTACCAAATTCTTCTGGATCTAGTTCAATTTCTTCTAGTTCTTCTAGTTTTTGATTAGCTAATAATATATCATCAAGATCATCTTTTAAACTTTCATCACTATTAGTTTTTAAATCATCTAAATTAATAGTTGAATTTTGATAAAAAGTATTATCACTAGTAATTAAGTTAACTAAATCTAAATCTTTATCTAGAATTTCTTCAACTTGTTCTTCATTAGTTTGATCTTGTAAAAATTCTTCAAAGTTATTTATTTTAGTTTGACTATCTAAAGGTGATTCTTCATAAACATGATATTTAGCTTTTTGTTTTCTAAAATATTGATCTAATCAAGTTTGGTGTTTTTTTCTTTGTTGATAATCACTTAAATTATCAGAATTAGTTTGTATACTATTTGTTTCTACTAAAGAAGAATTATCATCAAGATCTTGTTGGTATTTATCTAAAAACTTTAAAAATGCTTCAGATTTGTTTTTATTTTTTTGATCTAATCAAATAATATATTTAATATATTTATCAATAGTTTGAATCATATAAGGTTCATAATCTATTAAATCAATTGCTAACATTTCTTTAATAGTATCAAAATCAAATTTTTTAATAGAAACATAATAATCAATTTTATTAATTAAAACATCAGTTAAATATTGTTTGACTTCTTTTTTTGCCATAGCTTTAATCCTAATTTTCTTCTATTCTTTCTATATTATAGTTTATATAAAATATACATGTATAAAGTTAGTAAAAAATCAATATTTATTATTAAATTATCTATATAAGCAATTTTTGCTATAATTTTTAAGTTATAGAAAGTCTGGTTTTATGAAAAAAGTTTTTAGTTATTTTTTAATAATTCTAATATTTTTTACTAGCTTATTTTTTATTAATAATAAAAATCAAAACCAAGTTAATTTAACTTATAATACTCAATTTAATGATGATGACAATAATGAGACTAATAAAAACTCTATTAAAGAATTTTTATGGGGAGGAAAAGCGTTAAGATATTTTTTATACAAAAACTCAACAGCTCAAACTAATAAAAGTTTTAATCAATTTACAGATAATTTATTAGCTAATTTTGAAAGAGTTTTTGAAAAAAGAACAAAGAGAAATTTTTATAAACAACAATATATTACTGAATTACAATCAGAAGAATTTAAACATGCCATTTTATCAAGTATTTTAGTAACTTCAGCATATGGTTCAACTTCACCAGAAGAATTTTTTGCTGAATCATTTAGTAGGTATGTTTCAGCTAATGAAAAACAAAAAAATCTTACTTGATATTTATTAGAACACTTTTTTACTAAAACTTTTTATAAGTTAAAACAACAAAATATTGGTATTTTACCATCAAATGATAAAGAGATAAATTGAAAAAAAATCAAAAATGTTATTGATAGTGAAAATGATGTTAAATATAAATATGAATTAGAACCAGAAAATCACACTTTAAATTCTGAATATGATCGATTAAATTATTTTGATTTAGGTTATCATACTAATCAATATGGATATAATAATGGTTTATATATTTTTGAAACTATTAATTATATTTATAAAAACACTTTTGCACCTCAAATTAGTAATTTAGATTTTTTAAATCTTGATAGAAGTGTTTTAAATGGAGATAGATTTGCTCATTATTATAGAGATAATTATGATATTTTTTCAGATTATATGAAACTAAATTTATATAAACCAAAAAATATTATTACTACAAATTCTAATGATCAGTTTTTTAAAGATTTTGATCAATTAGATGCTTATTGAAAAGAAAAATCAAAATTTAATTTTGGTAAAAGTAGTGCTATTCAAATTAAAGAAAATCTTGAAAATATTTGAAATGCTATTCCTAAACCAAAAACTTTAAATAAAGATTATTTTGATTTAGATAAATTAAAAACTAATACAGTTCATTTATTTAATACTTTACAAAAAGTTACTCATAATAATTTAGATAATATTTTTATTAACTTAATTTTAACTAATGATGATAGATTTAAAGTTAATAATAATCTTTTAGATCCAAAAATTAAAGGAATAACTAGTACTAGTTTTTCAAAAAATACTTTGTCTTCTTCATATAGTTATGTATTAATTAAAGCTGATAGTTTTAATAAAGCTGAAAACCAAGAACAATATGATAGATCTTGATTTGCTTCAAATAATCAATTTCAAACTTTAAATCATGAATTTGGTCATGTTTTAGATAGTTTTTTAGCTTTAAATTCTTATCAAACCCAACTTAATAAAAATACATTTTCTAGTTTAAGCTTTTGAGCAGATCATCAACAAGCAAATCTATATCATGGAAATATAGTTATTAGTAAAAATAGAAATTGAAGTTTATATAGTATTTTTATTATTGGAGTTATTGGAATTAATTTAGTTCTACTTATTTTATATATTGGATATGATAAAATCTTTAAACCAAAAAATAAAAAAACTATTGTAATAAAATAATCTTATGGAAAATAAAATAAATCATAAAACTTATAAGTCATTAAAATATTTACTAACAATTAGTAGTGTTATTTTAGCAATTTGTTTGTTATTAGTTTTTGTTCAATTTACAAAAGCTAAACCTCTTTTTATTAGCTTAACTCCTTTTATTAGTTTATTAGTGATTTTATTAATACTAAGTTTTACTTGTTTACTAGTTTATATAATTTATCGAATGAAAATCTTAAAAACTAGTAATTATAAATATATAAAAAAAGAAATTATTTATCTATATACTAGTTTTAGTTTATATATATTTAGTTTTATATTAACTGTAATTTATTTAATAATTGCTTTATTAATTAAAAATAGTGAATCTATTAGAATAATGTTTTATGTAGTTATAAGTATCTTTTTTATATGTATTATACTAAGTAGTGTTTTTGAAACTTTATCAAGATTAAAAGAACAAATTTTATTATACAAACAACAATATCAATTTCAACAAGAATTAAAACTAAATAAAGAAACTGATAATAAAGAACAGATTAATAAAGAAGTAATTAATAATAACAATAATCAATCTAAAAATCCTTTTATAGAAGATTAAAAAAATCGTAACTAATTTAAAGTTACGATTTTTTCTTTTTTCTTATTTTTAATTTTAAATATCAAGTTATTAATTAATAAAATAATTAAATGATTTAATGTTAATCAAATAACAAATATTATTCAAATTAATATTAAATAACCAATTTTTGAATTACCTATATATGGTGTTGTAAAATCTAAAAATTCATAAGGATAAATAAAATTATCAATATTTTTATCTTTTAAATAAATTTGAGCTCTCATTAAAACAAAAAGTGTGTAAAAAAATGGATAAGAATAAACTCAAAATAACTCTTTTATATTTTTATAAAACTTTTTAATTTCATACTTATTATTACCTGATTCAAATAAGTAAATAAATAATAACAATAATGGAATTATAAAATGAGTAATAACTGTTGAAAAGATTTGCGTTTTTGTAAGATATGGTAATTGTCCTGCAATTGTATTTTTAAACCCAATAATACCAATTCAAAAAATCATAAAATCTAATAAATTTCAATTCAAAATAATATTTCTAGTTCTTTGAGTATTAATATTTGAATTTGGATTTTTATAATTAATTACAACAATTAGTAAATAAATTGTAGTTATAATACTTACTTGTACTGAAAAAAAGCTTAATAAAATATCATAATTAATTAGTCTTGTAGGTTGGTATAAATTATTTGATTCAAAATACCATTGTTCTTTTAAAATACCATTAAAAAAAGCATTAATTAAAGTAATACCAGACAATAACATTACAAATAACTGAAAATATCATTTTCAATTTACAAATCTACTGTTTTTTAATTTAGTTTTTCAATCAAATTTCATGACAAATATATATTAACACTTTATTAAGATGATAAATTAACAAATTATTTAAATGGCTTTAAAAAGTAATATTATAAAGTTATAGAGGTAGTTATGATATTAAAAAATGCCAAAATTGTTTTAGAAGATAAAATCATTAATAATGGTTATTTAATTATTAAAGATAAAAAAATAGTTGAAATTGGATCTGATTATAAAAAAAAGAATGGAATTGATTTAAATAATCAGTGATTATTACCAGGATTTATTGATTGTCATGTTCATGGTGGTTATGGAGTTGATTTTGAAACTGGAAATAAGAATAGATTTAAACATTTTGCAGATAACATAATAAAAGAAGGAGTTACTAGATATATTCAAACAAGTGTAACTAATAGTGTTAAAAAAAACAATCAAATATATAAAGAATTTGGAGAGTTTATAAAATTAAATAATGGTAAAGCCAAATGTCTGGGAGCTCATTTAGAAGGACCTTTTATTTCTAAATTTAAAAAAGGTGCTCATCAAGAAAATTTATTATTAACTCCAGATATTAAATTAACTGAAAAATGAAATAAATTATCTAATAATAGTTTAAAAATAGTGACTTATGCTAGTGAATTAGATAATGGTTCTTATCTTCAGTTTTTGATTAATAATCAAATTATTCCAAGTATTGGTCATTCTAATTTAAAAGCAAATCAATTTGAACAAGTCTATTTATTAGGTGTTAGACATATTACTCATTTATTTAATGCAATGAGTGGAGTTGATCAACATAATCCTGGTTTAGTTGTAGCTAGTTTTAATCATAAAGATGTTTTATGTGAAATTATAAGTGATGGAATTCATTTAGATAAAGAGATTTTAAAAATGATTTATAATTTTAAAACTGCAGATAATTTATGTATTATAACTGATGCTATGAATGCTAAAGGTTTAGATGATGGTATATATAAATTAGGTGATTTAGAAGTTTATAAAAAAGGTATAGAAATTAGATTAACTAATAATAATGCTTTAGCTGGAGCTGGAGCAACTTATGATCATAATATAAGAGTTATAAAACAAGTTTGTGATGTTAAAATGACTGATTTAATTAAAATGACTTCTATTAATATAGCTAAACAATTAAATATTTTTGATACTGTAGGAAGTATAGAAGTTAATAAATTAGCTGATTTAGTAGTTTTAGATGATGATTTATATGTTAATAAAGTACTAGTTGAAGGTAAAATAGTTTTTAAAAATAGTAAAAATAAAAAAATATAAAAGTTTTTTAGATGTTATATAATAAAACTAGAAGATAGGAGAAAAAACAAAATGAAGAAAACCGCAAATAAAGTTGTTCTTATTGGAGCAGGAGCTGTTGGAACATCATTTTTATATGCAGCAATTAACCAAGGAATTGCTGAACACTACGTATTAATTGATGCATTCCCACAACCAGCTGAAGGAAACGCTTTAGATCTTTCAGATACATTAGCAGTTATTCCTCACTCATTTACTTCAATTAAAGCAGGAACTTATGAAGATTGTAAAGATGCTGATGTTGTTGTAATTACAGCAGGAAGACCACAAAAACCAGGTGAAACTAGATTAGAAATGGTTGCTGGAAATGCTGAAATTATGAAAAATATTGCAACTGAAGTTAAAAAATCAGGATTTGATGGAATTACTGTAATTGCTTCTAACCCAGTTGATGTAATAACTCATGTATATCAAAAAGTAACTGGTTTTGATCCACATAAAGTTATTGGATCTGGAACTACTTTAGATTCAGCAAGACTAAGAAGATTAGTTGGTCAAAAATTAAATATTAAACCAGAATCAGTTCAAGCTTATGTTGCTGGAGAACATGGTGATTCTTCAGTTGCAATTTGATCTCAAGCAAATATCATGGGAAGACCTATTTTAGATTATGTAAAATGTGGTTGTTTAACTTTAGAAGATTTAGATCAAATCCAAAAAGATACAGTTGATATGGCTTACAAGATCATCAATTTAAAAAGAGCTACATTCTATGGAATTGGAGCTTGCTTAACAAAGATAGTTAATGCAGTTTTAAGAGATGAAAAATCAACATTAATGGTTGGAGCACAATTAAATGGTGAATACAAAAACAAAGACCTATATACAGGAGTTCCAGCTATAATTGGTGCAAATGGTTGAGAAAGAATTATTGAATGAGATTTAACTAAAGAAGAACAAGAAAAATTTGACAAATCTTGTGAAACTTTACACAAAACAATTGACTCAGTTAAACATTTATTTGAATAATAGTTTAAAATGTGAGTTGTTTTTAAATAAAAATTTGACAAAATAATACCAAAATAATATAAAAGATAATAACAATAATAAAAAAATGCAGGTTTTCCTCCTCTATACCTGCATTTTTTATTTAATTATTTTTTCTTTTTTAGTTTATATATTAATATAGCACTTGTTATAAAACCAATTACTAATAGTAATGAAATTAGAATAAATACTCATAATTCTGAATTAAATATAAAACTTGATTTAGTTTTATTTCATCCATAATTAATAATTGTTACTGGATAAGTATAAGGTAAAAATAAAGAAATTATTTTTAAAACATTTGATCCAATTATAACTTTTATTGGTAAATACATACCACTTAAAAAAGCAGGTGGTAAGTAAAACAACATAGAAAATGCATTAGCTATTTTATAATCTTTTGCTAAACTTCCAATTATTACTCCAATTGAAGAACATATAATTGATAAAAAAATCACTCCAAGTATTATAAAACCAGCATGTATATTAACTAAATTTATTTGTGAGTGTCAAAAAATTAATGCAAAAATAAAAATTCAAATTGCACTTAATCAAGTTAAAATTGTAAAAAATGAAATAATACTAATAATAAATATTCAAGGTTTTAAAGGTAAAACTGTTATTCTTTTATAAATTATAGTTTGTTTTAAGTCACTAAAAGAAATTGATAAAGAAATAATTCCAACAACAGGACAAGCTGAAGCTATAATTCCTGGAATTAAATCATCAATATTAAAACTTGGTACTTTTGATAAAATTGCTAAAAACATACAAGGAAAAACAAATGAAAAGAAAATGTTATGAAAGGATTTTTTTCAATAATTAAATAGCAAGTTATACATTGCTTTAAATTGTTGTAACATTATTGCATTTCTCCTTTATTTAAGTCATTTGTTTTTGATAAGTAATATTCTAATAAAGTACCATATTGATTTAAGATTTTTTCAATTGGAGCATCATCAATAATTTTTCCTTTATCTAGAAATACTATACGATCACATAGTTGCTTTATTTCATCTAAATTATGACTAACTAGTATTAAAGTCATTTCTTTATCCTTAATTTCTTTTTTTAATAAATCAATAATTTCTAATTGAGCTTTTATATCTAATCCAGTTGTGATTTCATCACCTATATAAATTTCAGGTTTATTAAATAATGAAACAAATAAATTAACTCTTTGACGTTGACCACCAGATAAAGAACTGATTTTTTGTTTAAATAATTCTTTTAATTTAAACTTATTAATCATTTGATCAAAGTAAGTTTTATCAATAATGTTTTTATATAAAGTTTTATAAAAATCTAAAAGTTCTTTTACATTAATAAAGTTTGGATAAGTTTGAGATTGGAAGTTTATTCCAATTTTAAAAGCAATTTCTTCTTTTTTAAAATCATATAAAACTTCACCACTACTTTGAGATTTAGTATTTGCTATAATTTCACATAATGTAGTTTTACCAGCTCCATTAGCTCCAAATATAGCAACACTTTCACCTTTGTTGATTTTTAAATTAATAGGTCCTAGAACTGTCTTTTTATTATATTTTTTACTAACATTTTTAACTTCTATTAGGCTCATAAAACCCCCATCTAATGTTTTATTCTAGTACTTTGATTTTTAAAGAATTTAAATTTGCTTACTTTAATAAAAAAACTTGCACTAAGTGCAAGTTGTAATTATGTTATTTATTGATTTTTTGGCTTACCACCATTTAATCCATCTAATCAGCTGTTTGTTCTATCTGAACCTTCAGCAGTTGGTTTAACTCTAGGTTTTCTAGAAACTGCAGAATCTCCATTATCTTTTTGTCTTCTTATATATTCTTCAAGTTCTTTTCTTGCTTTTCATTCTTTTGTTTCTTTAGTAGTATCTAGAACTTTAAAGTATTCTTCAGTTGTATTACTTGAATTAGTTGCGAATTCTTTATAAATTCTTTCTTTTTCAGCTTTATTTTTAGCTCAAGTTTTTTGTTCCTTAGTTGTATCTAAAATTTTAAAGTATTCTTCAGCAGTTGAACTAGCAGTATTTTCAAATTTTTCTCCTAGTTGTTTAAAGAATTTAATTTTTTCATATTTTTTAGCTCAATCTACTTTAGCTTTACTTATTGTTTCATCAAATAAATCTTTAGTAATATCAGAAGAAGCTTCAATAGCATCTAAAACATCAAAAACTTCTCAATCTTCATTTGCTCTTCTACTAATTTCATCATATTCAAGATTATGTTTTTCTAGTTGAATTTTATATTCATCATCAAGAAATCTTCCTGCATTATCTACAAAAGAAGCCATTGTTTTTTCATAAAGAATTTTAGCAGTTATTTTATCCATTTCAGCTTTTGAAACTTTTTCAATATGAGCTCTATTTCAAGATCTTGTCGCTTCACTTATTGTTTCATCAAATAATAATTGAGTATCGTTTGCTGAAGCAAGTGCAGCATTTCGCACAGGTTTTTTAACTGGTTTTTTTTCTGGAGTTTTTGGAGTCTCTGGTTTTTTTGGAGTTGTATTTTCTCCAGGTGTTTTTTCATCCTTATCCTTAGATTTATCGTCATCTTTTGGTTTTTTAGTTGGATCTTTTTCTGGAGTTTTTGGTTCTGTATTTTCTTCAGGTGTTTTTCCGTCTTTATCTCCAGGTTTATTTCCATCTTTTGGCTCTTTAGATGGATCATTTGCTGGAGGATTTACTGAGTCAGGTTTTTTCTCATTATTATTTGGTTGAGATCTATTACATGCAACAACTAGAGCTCCCCCACTTGCAATAAGAGTTAAAGAACCTAATATTGTCAATAATTTTTTCATTTTGCCCACCTACAATTTTGTTCTCATTTGTATATGCAACGCATATATCTTAAGTAATTCTACTATTTTAAAGGCTTTACATAGGCTTTTTAGCAAAAAAAAAAAAAAAAAAAGCATTGCAAAATTTTATTTACTGTTATATAATTAATCACTTTTTTACAAATAAACTAGTGCACATCGTACTTTTTAATATTGAACTATAAAAGTGTTTTTGATATACTTTTGTTTACTTTATATATTTTTATAAGAATGGAAAAGATTTAATGAAAAAACTATTAACAATTTTAACTAGTACTAGTGCTATATTTTTAATAACAGCAGGAATAGTTTTAGTTAATAAAGAAGACAATCTGAGGATAAATTACAATATTACTTATTATCAAAGAAATGAGATAAAAGATGGTAAATTAGTTAAAATTGGATACTATCAGTGAGGAAAACATAAAAGAATTGAACAAATACCTACTACAATAAATGTAATAGCAGCTCAACTACCAAAAGAAATAACTAGTTTAAGATATGCATTTGCAGGAGCTAGACATAATGTAACATGAGAAGTAAAATGAGATACTTCAAATGTTACTGATATGAATAGTCTATTTTATGGACGTGATCAGTTTAATAGTTCAGACATATTAGATTGAGATACTTCAAATGTTACAGATATGAGTGAAATGTTTGCAGGAGCAACTGAGTTTAATCAAGATTTATCAAAATGAAATGTTTCTAAAGTAAAAGATATGAGTAAGATGTTTAATGGTGCTATTTCTTTTACTTATGATTTATCAAGTTGAGAATTATCTAATAATGTAAAAAAAGATAATTTTGGTTTAAATGAAGAAAAACAACCAAAATGAAAGAAGCTAGAAGAAACATTGGCTGTTAAAAATAATGAAACAACAACAAATTTAAATTCTTCACCAAAACAAACGTCACCTAAAACTCCAGATACTTCTGATATTACTAATAACAATATTTGATTTATCTAATTCAACAATAGAATTAGAAAATGAAAAAATTTTAGAAAATACACCTACTAAAGAAGATGAACCAAAACTAGAAGAATCAACTAATATGAATTCTGATCAATCAAATCAAACTGAACCACTTATAAAACCTGAATCAATTATAGAAAATGAAACTATAGAAGAATCAACTGATTTAAAAGATAATATATCTTCAAAATCAAATAATGAAAAAAATCTAATAATTCCTCATGCTAAATCTAGTTTAAAAAATGTTTCTAATCAAAAAACAAAAGCTATTGTTAGTGGTGTTGTAGGATCAACAGCAGTTATAACAACTACATCAGTAGCTGGTTTTAGTTATTATTATCGCAAGAATTTAAAAGATTTATTTTTAAAACTAAAAAAAAGATGATTTAAATCTAACTAAGTTAGAAATCATCTTTTTTATTTATTTAATAAGAATGGTTCTAATATTTTTATAAATGAATCTCAGTCTTCTTCAAATACCATATGACCAGTTTTTGGAATTCAAGTAGTAATTACATTTTTAACTTCATCTTGATAGTATTTTAAACAAGCTTTTCTATTTACAACACCATCTTTTTCACCAAGAATTAATAAGGTAGGTATTTTAATAGTTTTAATTGCTTGATAAATTTGTTCATGTAGTTCTTTTGAAACTAAAGTTTTTCCTAGATCAGTTAATTCTTTAGTATTATAATCATTACCTGAAAAATGTCATTTAGCTAATCGCATTCATTTAGGATCTTTAGTTAAAAATGAAGGATCATAATATAGTGAACCTAAAAAATCAGTTGTAAATTCTTCAAATGTTTTTGGAAAATAATCATGTAAAAAATTATTATTAACATCTTCACTAGCTTTATTCATAGGACATACGTATACTAATTTGTTAAATAATTCAGGAGCTAGTTGATAAGCTAATGAAATAGTTCCACCACCCATAGAATGACCAATTAAAGTAACGTTTTTTAAATTATTATTTTTAACAAATTCAACTACTAGTTTTGCAAATTGTAATACTGAAATTTCATGATCTTTAATTGGTTTTACATTATTATTTCCTGGAAATTGTAGTGCATAATAATTTGATTTAGTTCAATAATTTTTAAAAATATTAAAAACATTTATTGAAGCATTAAAACCATGACAAAAGATAATATTTTCTGTTTCATTATTATTATCTTTAAATATATAGTCATAATCATAAATTATTTTTTTCATATCTAACCTATTTTTAAAAAGTTTTCTACTATTTTAATAAACTCATCAAAGTTTTCTTCAAATACTCTATGGCCTGTTTTTCTAATTCAATGTGATTCAACATTTTTTACATGTTTTTTAAAATAATCTAAACACTCATCTCTTAAAATCACACCATCTTTTTCACCAAGAATTAATAATGTTGGAATAGTAATTGAATCTAAACCTTTTTCAATTAGTTCAAAAGTTTTAGCTTTAGGTGTACCTAATTTAATGATTAAATCATTATCATACATTTCTGGATTAAAATTTTGCTTTGCTTTTTTCATTCATTCTTTATTTGAAGTTAAAAATGATGGATCATAATATAAAGAAGTTAGTGTGTTATTTATATAATCATCAAATGTTTTTGGAAAATAATCAATTTTATATCTTGGATATAATGGAAGTTGAGTTTTATTCATTGGTGTTATAAAAATTAGTTTTTTAAATAAATCAGGACGCATTTTATAAGCAATAGCTAATGTTCCTCCACCCATAGATTTACCAACAGCAACTACATTTTTAATTTGGTTTTGTTCTATAAAATCAATTAATAATTGAGCAAAACCTTCAACTGTAACTTTATGATCTTTAACTGGTTTTACTAATTGAGATCCTGGAAATTGAATTGAATAATAATTTGTTTTAGTTCAATATTTTTCAAAGATTTCAAAAGCTTTATATGATGAGTTAAACCCATGTACATAAATAATGTTTAGATCAGAATTATTATTGTCTTTAAAAACATAGTCATAATCATATATTAGTTTTTTCATACTAATTAGTTTTATTTAAAAAGTTTTCAACTATTTTAATAAACTCTTCAAAGTTTTCTTGAAAGACCATATGACCTGTTTTTTTCATTCAATGCATTTCAACACTTTTTACGTGCTGTTTAAAATAATCTAAACACTCATCTCTTAAAATCACACCATCTTTTTCACCAAGAATTAATAAACTTGGTATTTTAATAGCATCTAGTCCTTGTTCTATTAATTCAAAAGTATGATCTTTTGGTTCACCTAGTTCAACAATAACATCATTATTATAAACATAAGGATCAAATTCTTGTTTTGCTTGTTTCATTCATTCTTGATTTGAAGTTAGAATTGATGGATCATAGTATAAAGATGAAAGTGTATTATTTATATATTCATCAAATGTTTTTGGAAAATAATCAATTTTATATTGTTCATATAAAGCACGTTGTGGTTTATTCATCGGAGTTATAAAAATTAGTTTTTTAAATAAATCAGGACGCATTTTATAAGCAATACTAATAACTCCTCCACCCATAGAATGTCCAATAGCAACAACATTTTTAATTTGATTTTGTTCTATAAAATCAATTAATAATTGAGCAAAACCTTCAACACTTACTTTATGATCTTTAACTGTTTTTACTAGATTTGATCCTGGAAATTGTAGTGCATAATAATTTGATCTTGTTCAATATTTTTCAAATATTTCAAAAGTTCTTGGTGAAGAATTATACCCATGAACAAAAATAATACTTTCATCATCATTATTATTGTTTTTAAATACGTAATTATAATCATAAATTAGATTCATATCATTCTCCTAATGTAATTCTAAAAACATTTTATTACATCATATTAGTTTTTTGTTAATTCTAAAAACATATGTTTTTATTTTCATATTTTAAAAATAGTTTGATATTTGTATATAAAAATAAGTTTACAATTAAGGTGATGATTTATATAAAATATAAATTAAACTTGTTAAGAAAGGTTAATATGAAAAAAGTTATTAAATTTCTAGTTATTGAAAAAATAGATGATAAAAATGAATACTATTTAAGAATGACTTCAGAAATGCAAGATGACATTGGTACAGTTTCTTATTTACAATTTAAAAACACAGATAAAAAACACTTAAAAGAAGATGATATCTTTTTAGCTTTAGAAGCTTCAAAAGCTATTTTAAATTTAAAAATGCCACTTGATGCAACTGTAGTTAAATGAAATCAAAAAGCATTAGAAAATCCTAAATTAATTAGTTCTCATGATGATAATGAAAACTGAATTATGGTTTTAAGTGATATTGATGAAAATAAATTTATGAGTTTAGAAGACTTTTAAAATGAATACAAATCTTAGTATAAAAAAACTTGATGATTTAATTAATCAAAATGATAGTTTAATAATTGCAATTGGATCTGAAATTTATCAAACTAATAAACAACTTGAATTTGAAAATAACTTTAGTGATTTTATAAAAGAGTTTTGCTTTATAGATTTTAAACAAGCTAGTGTTTATCCATTTTTAGATATTAAAAACTATTGAGCATTTTTTTCAAGATATATTAAGTTAAATTATTTTGATCAAAAACTAGATAATAGCTTTATTGATTTAAAAAACTATTTAAATAATAAAAATTATTTTATTATTACAACTAATCGTGATAATAGTTTAGAGTTAGCTGGATTTGATTTAAATAAGATTTTTTATTTAGATAGTAAATTAAACTTATTAGAATGTTCTAAAAAATGTAGTGATGAACTTTATATTAATGATGATGCTATTTTAAATATGGCAAATAATCAAAAAAATCTAAAAGTAGAATTAGAACAAATTCCAATTTGTAAAAAATGTAATAGTTATTTAAAAGTACATCAGCGTTTTTGATGTCAAGTGTTTATTAAAGATGATGAATTTTTACAAACTCAAAATAACTATCAAAAATTTATTAATCAAAATAAAGATAAAAAAATGTTATTTTGAGAAATTGGTATTAATTTTAATAACCAATTAACTGTTAAAAAACCTTTTTGACAAATGGTTGAACAATTTAATAAAGCAACTTATTTAGCTATGAATAAAAAGATTTATCGCATTCCTTTAGAAATTAGATCTAAATCAATTACATATACAAATGATCTTAATTTAGCAATTAAAAACTTAGAAGAGGTAAAAAATGGTACTAATAGAACCAATTAGAAATGGTAAGTATATAAAAGATGGTGCTTATTGATTAGCAATTCAAATTTGAGCAGCTAGTAATTTAAAAATAGATGATATTATTGTTTTTCCAAGTATTGCAGATCCTCATATTCAAATGGGATATTTTCAAAACCCAGAAGTTGAAGTAAACTTTAAATATTTAAAAGAAAAAAACTTAGAAATAGTTAGAAGAGCTACTGGTGGAGGAACAATTTATATTGATTCAAATTCAGTTAATATTTGTTATTTAATTCCATATAAAAAAGGTACTGAAATTTTAGGAAATTATGCTAAGTTTTATGAACCAACTATTAGAATTTTAAAAGAACTAGGAGCTAAAAATATTACTCAATCTGGTAAAAACGATTTAACTATTGATGGTAAAAAAGTTTCTGGAGCTGCTATGATGCTATTAGATGATGTTATTTATGGTGGAAATTCATTACTTTATAATGTTGATTATGATGCAATGAGCCAAGTATTAAATCCAAACCGTAAAAAAATTGAAGCTAAAGGTGTTAAATCAGTTTCTCAAAGAGTAGCAGCTTTAAGTCAATATTTAGATGAACCTTATAGAAATTTAGATATATTTGAATTTAAAGACTTAATGATTAAAAAAATCTTTAATGTTGATGATTTAAAAGATGTTAATCGCTATATAATGACTGATAAAGATTGAGAACAAGTTGATGAATTAATTAAAACTAGATATAAAAACTGAGAATGAACTTATGGTTTAAGTCCTAGATATGAATATAACCGTGATGCTAGATTAGCAATTGGTACTATTAACTTTTCATTAGCTATTGAAAATCAAAGAATTGAAAAAATTAAAATTAGTGGTGATTTTTTTGCTAAAAAAGATTTATTAGAATTAGAAAAAGCTTTAATAGGAACTAAAATGACTCATGAAGATTTATTAAAAGCATTTAATGATGCTGATCTTCAAAGTTACTTCTTTAATGAAATTAAACCAGAAGAAGTAGTAAAAATCATTTTAGATGAAGAATAATGAATAAATATCAAAAATTATTTGAACCATTTGAAATAAATGGATTTAAATTAGAAAATCGTTTTGTACTTTCACCAATGACTTTAAGTTTAGCTACTTTAGATGGAAAAATAACAACTCAAGAAGCTGATTATGTTAAAAGAAGAGCTCATTCAGCACCACTTCAAATAACTGGAGGAGTTTATTTTGATGAATTTGGACAATTATTTGAATATGGAATTAGTGCAAAAAGTGATGATGATATACCTAGTTTAAGTAGTTTATATCAAGCAATGAAAACTGATTCTAATTGTGTTATTTTACAATTAGCTCATGCTGGAAAATTTTCAAAAACCTCATTAAAAAAATATGGTTATTTATATGGTCCATCTTATGAAAAAAATCATACTCCAATTGAACATGAAGTTTTAGAATTATCAAAAGAGAGAATTAAACAAATTATAAAAGACTATAAAGATGCTACTTTAAGAGTAATTAAAGCAGGATTTAATGGTGTTGAAATTTCAATGGCTCAACGTTTATTAATGCAAACTTTTTTTAGTCAAATAATAAATAAAAGAACTGATGAATACTCAACAACAACATTTGAAAATAGATCTAGATTTTGTTTAGAAGTAGTTAAAGCTATAAGAGAAGTAATTGATAAACATGCTCCAAAAAACTTTATTTTTGGATTTAGAGCAACTCCTGAAGAAACTTATGGAGATATTTTAGGATATACAATTGAAGATTTTATTCAGCTTGTAGATAAAATTATTGAGATTGGAAAAATCTCATATTTAGCGATTGCTAGTTGAGGTCATGATATTTATTTAAATAAAGTAAGATCAAATACTAAATATAAAAATCAACTAGTTAATAAAGTAATTTATGATGTTTATAAAAATAAATTACCTGTTATTTCATCTGGTGGAATTAATACACCAGATAAATGTTTAGAAGCCTTAAAATATTCTGATTTAGTTGGATTAAGTTCAGTATTTGTAGCTGATCCTGAATTTGTTTTAAAAATTAAGAATGACCAAATTGATCAAGTTAATTTATCAGTTAAACATGATCAATTAAAAGATTTAAAAATTCCTGAATCTTCATTTCAAGATGTAGTTAATATGTTTAGTTTTTGTGAAACTATTCCAAGTGAAACTATTAAAACATTTGAAAATAATTCAAAAGAATAAACAGATAATAAAAACCTCTACTTTTTAAAAAGTAGAGGTTTTCTTTTTTATTATTTATTCTTTTTCTTTTTAATTAATATAACAACTGAACTTATTGCTAGAATCGCTAATATAGAAACAGCACTAACAGCTACAAAAGCAGTTTTATTATTTACATTTTTAGTTTGTGGTTTATTATCTGGTTTTACTTGATTATCAGGTTTTTTATCAGTATTAGTTGGTTGATCTGGTTTTGATTCAGGTTTTTTATTGTCAGTTGGTTTATCAGGTTTTGTTGGAGTTATTGGTTTAGTTGAGTCAGTTGGTTTTGAATCAGTTGGTTTTAATGATTCATCAGGTTTTATAGGTTGGTCAGGTTTATTTGGTTTTATTGGATCAACTGGTTTGTTTGGAGTTGAATTGTGTGGAGTTATTACTGGGTATAAGAATCAATCATCTTCATTGTTAAATGTTGATCGTTCTACAGCATTATTTGGTTTAATAGGTGTATGTGGTGTTTTTGGTTGATCATTTCTAAAGAATCAATAATCATTATCATCAAATATAGAGTTTTCTCAAATTATACGATCTGGTTTTTTAATATTAAATGATACTAAAACATCTCCTAAATATTTACCACTCTTTTTAGCACTAATAATAGCTGATTTTTTTTCTATGTTTCTTACATATAAATATTTAATTTCAACATCTTTATTTAAACTAACAAGTTTTTTAAGTATTTCATTAGCAGATCTATAACTAATTTCACCTAATTGATCTTTTTTAATTACTTTTAATAAAGAAGTTTTATTTGTAGTTATAGGATGAATAGGTTTAACAGGTGGAGTTGGAACTGGTTGAGGTTGAGGAATTGGAGTTGGAGCTGGAGCTGGTTCAACTGGATTAGGAGTAGGAATTGGTTCAACTGGAGCTGGTTTTGGTTGAGGTTGAGGAACTGGAGCTGGTTCAACTGGAGTATTTGAAGAGCTATCTGGTTTTCATTCTGCTTTTCAAGAAGTAGCATTTAAATCATAAGATTCAGTAGCTATGTCTTTATTTTTTAAGTGTTTAAAAGTTCATTTAGATAAGTCTTGGTTAAATGCTGAAGCATTTTCAAACATATTATTAAAGTATTTAACGTTTTTAATATCAAAATTACTAATGTTATTATTAAATACTTTAGCATTTTTAAACATTTTACTCATGTTATTTACATTTGAAGTGTTTCATTTAGATAATTCACCATTAAATTTGGCAGCTCCACTAAACATACCTTCCATATCAGTTACTTTAGATACATCTCAAGCTTTTTTATTTGACATATCTTTAGTATTGATATTTTGATTAAAGTTTATAGCATCACTAAACATATATGACATATCTTTAACTTTAGAAGTATCTCAGTTTGAAATATCTTTATTAAATGAAGTAGCACCTTTAAACATACTACTCATTGACTCAACATTTCTAGTATCTCAGTTTGAAATATCACCATTAAATTTAGTTGCTAATTCAAACATACCTTCCATATTTGAAACACTAGTTATATTTCAATCTTTTAGATCTTTATTAAATGTTGAAGCGTTTTTAAACATGTCTTGCATATTTTTAACACTAGATACATTTCAACTTGAAATGTCTTGATCAAATTTTATTGCTCCTTCAAACATATGAGACATATCAATTACTTTTTTAGGTTTTCATTTTGATAATTCATTATTAAATGAAGTTGCATTTTTAAACATTGCACTCATATCAGTAACATTTTCAACGTTTCATCCATTTAAGTTTTGATTAAAATTAGTTGCTCCTAAAAACATTGAGTTCATGTTTTTTACTTTATCAGTTTTTCAACTACTTAAATCTTGATCAAATGCTATAGCGTTTAAAAACATCGAACTCATATCAGTAACATTATCAACTTTATTAAAGATTTTTGAGTTAAATTCTTTAGCATTTAAAAACATTTTACTCATGTTTTTTACATTAGAAGTATCTCAACCTGATAGATCTTGATTAAATTTAGTTGCTCCTAAAAACATTCCTGATGTATCTTCAATATTTGACATATCTCATTTTTTAATATTTTCATTATTAAATTGATTTGAAAATGCAAACAATTCTTTTGTTGAAGTGATTTCTTTTGGTAAATGATTTGGAACAATTTTTACATCTTTTGGTAGCTTAATTGCTTGAATTTGTTCTCCATCATCATAATAACCTAATTCATAAACTTCAAAATCTTTATCATCTCAATATGAAATATCTCATTCATTTTCTTTAGAAGAAGCATGCTCACCATTAGTTTTTCCTTTAAATTCAACTGCTTTTCAAGCTCTTTTAACTTTACCTACTTCTAAATCTAACTGTTTATCATTAAATTTAATTTGAAATACTTGTTTAGTTTTTAAATCATCAGAATCAAACTTAAATCTATTTTCTTGTTGTTTTTGATCTAATAAATTAATTTGGATATTCTTTAATAAATCTTCATTTTTAAATTTATCTTTTAGTTCTTCTAAAATTCATTTAAACTTTTTAGCACTATCTAGTTTATCTTTAAAATCTTTATTTCAAATATCTTTAATTTTATTTGGGATTTCTTTTTGTTTTCTAGCTTCTGCTTCTGCTTTTTGTTTTTCAATTTCTATTTTGTGTTTATCAATTAATTTAGTAATTTCTTCATCATATAAAGAATTAGTAGTTTTTAAATAACCCTCATCTGATTTTTTAATAATATTTGAAGTATCTCTTGTACTACGTGGTTTATAATAGCTAATTCAAGAAGTAGCTCCACTATCTAAATCCGCAGGTTCGCTATTATAAAGTGCTCAATTAGATAAGTTTTTATTAAATGAAGTAGCATTTTTAAACATATCAGTAAAATCAACTACTCCTTTAACATCAAAGTTACTGATATCTTTATTAAAGCTAGTAGCTCCATTAAACATGTCTCTCATAGCTGAAACTTTTCTTGTATTTCAATTATAAAGATCACTATTAAAACTAGTAGCTCCTTCAAACATACTTTGCATGTTTTTAACATTTGATACATCTCAAAATACACTATATTTATTATTATTTTTTGAGTATTTTGTATTAATGTTCTGATTAAAGTTTTTTGCATCTTTAAACATTTGACTCATTGTTGTAACTTTTGAAGTGTTTCAAGTTGAGATTTTTCCATTAAATTTAGTTGCATCTAAAAACATAAAACTCATATCAGTTACATTTTTAGTATTTCATTGTTCTAAATCTTGGTTAAATTTTTTTGCACCCTCGAACATAGATTCCATAATTTCTACATTTGATGTATCTCAATTTTTAACGCTTTGGTCATTAAATTCTTTTGCATCTTTAAATAATTCTTTTAATGAAGTAATTTCTCTTGGTAAATCTTTAGGAACTGAAGCTACACCTTTTGGTAGTTTAATTGCTTGAATCTGTCCTTTACCATCGTCATAGTAACCTAGTTCATAAACTGTGAAATTTTGATCATCTCATCCTGAAGCATCAAATTCATTATCTTTTGAATAAGCATCTTCGTTATTATTATTTTTACCTCTAAATTTCATTGGTTTTCAGGCTTTTTTAACATTTCCAGTTTCTAGAGAAATCGCTTTACTATTTACTATAATTTCTAATTTTTGGTCTTTTGCATTAAGTTTAAATCTACTTGTTTTTCCTTTTTCAGATTGATCTTTTAATTTAATATCAATTGAATCTAAACCTTCTCTTCTAAGTTTTTCTTTAAGATCTTCTAGAATTCATAAAAATTTTTGAGCACTATCTATTCTATTTTTAAAATCCCTATTTCAAATTTCATTTATTTTAGTTTCTATTTGATCATTATTTTCAGCATAATAATTAGCACTAATATTTGAAACTTTATTTATTAAAAAACTACTACTAGTTGGTACAACTAATAAAGTTGATACAGTTAATAAAGCTAACAACTTTTTCATATAAAACCCCATTATAAATTAATACATATCTAAAGTAATTTTATGAAAAGAGCATATTAGTAAAATATTGTCAATATGTAATTTAAAAAAATGTTGTATATACTAAAAAAAGTTAATCTTTAAACGGTTTTTTATTAATTAAAAAATGAAAAAGTTAGCTTAAGCTAACTTTTTAAAAGAATTAATGAGCTATTAATTTACTATTTGTTCAAATTGTTTTACTAGATCTTCAGCGTTAGTTGTTGAATAGCCTTGACGTTCAGTTTGATTTATTAAGGCTTTAGAAATGTGTCCTATTATTTGCGCAGTTTTATCATCAGTAACAACAGCTTTAGAAATAATTTTACCATCCTCTAATTTTAGTAATGAATTTAATGAAAGAAGTGAAGATCTTAACATATTAAGATTGAAGTATTCAGGTTCTTTAGAAATGTCTTGAGTAGCCTTTAGTTTTTTTTCTAATTGTTCAACTCTTTTCTTAAGATCATCATAAGTATTTTTATTAACAACACTTCTTAATGGCATTATATATCCTGAAGTTTTTGCAAGAGTTAATCAGTTTTTTTCTTTAACTGTATTTATTTGATTTTCTCCCATATATAGTCATTTTAAGAATTTTTTTGTTCCTGTGTTTAATTTTTCATTACCAACATTAATCGGAATAATACTTGAACCACCTTCGTGAAAAATACCTGGATTATTATTTGTAGTAGTAGAATTTGAGGAAGTATTAGATTTTGTTATTAAAGGTGTTATTTGTGAATCCATAAATACATCATCTTCTTTAGCGTTAACTAAGTCAAATTTAGGATCTTCTTTAATATCATCTCCAAAATAAGGATGATTTCTAGTTAATTGACTAACTTTATTTTGATGCGCCCCAACAGATGCTGCTAAACTAAATGCACTTTGGAATCTAAAAATATTTCATGAACCTCATTCTTTGTCTTCATTTGCCATGAATTTTACTGATTGAAATACTTTTTTATCAAGTGATCCTTCCTTTGTTTTTTCTTGTCTTTTTACAGTATCACTTCATTCTTTTCACAACTTTTTAAATTCATCTTTTATTGTAGTGTCAGTAACTAAGTTATATTTAACTTTAGGTGGTTGTCCATTTTTATTAGTTTCTAATTCAAAAATGGATTTATTTTTATCAATTCTAGAATGTAATTCCTTATTAAAAACGTCTTCTTGATAATCAATTGAAAAAACTTCACCTGAAATAGTATCTTTTGTGACCTTACTTTCATCGATTTCTACACCATCGACAAACTTAGCTGCTAAGTCTCTAAGTTCTTTAATAGATTGAAATGTCTTATCAGTAACATGAATATCTTTTAATGAACCATTATTTGATGTAGAACCATTTCCACTATTTTGATTTCCTTTAGTTTTAACTTTTAATGCATGTCATATACTTTTTTCTGGTATAGGGTTACCTTTTCCAGATTCTGATTCTTTAGCCTTTTTATAAATTTCAATATTTTCTTCAACCTTTCCCCCACCTTCTTTAATTAAATCAAACATTTTTTTCATTAATTTTAAATTATATTGAACTCCATCAATATCTGCATTATCAAAAGGAATATTATAAAGTTTATTTGTATCAGATTGACCTGCTAAAATTGAGTGTAAGTTACCAATTTCTTTACTAAATAATTCTTTATTGATACCTTGATCAGAAACGTCTAGTAATTTTTGTCCTTGGTTAATAACATAAGCTCCAGATTGAGCCCCTAAAATAATGTTTGGTAATGCTTTTGTATTGCCAGTTTCCATATCTTCTTTAACTTTTTTAATTAATTTAAATTCACCATAAATTTTATGACCTTCTTCAGCGTTTGTATCATCTTTACGAATGTCAGCAAACTTAAATTTAACAGGAACAAAACCTTTTTCGTCTTTGAAAGTTGTATTATAATAGTTTACTAAAGGTTTTAAAGATAGAGCTAATGGTCATCCAGAACCTTGTGCTAATGAAAATAAAACTCTGTCTGATTTAGTAGTTGTACATGCAATTGCAATAAATGGAGTTGTCATAGTTAAAGCCATAGCTGATAATCCAAGTAATTTTCTTTTCATTTCTTTATTTTCCTTGTTTTATTTTTTTTCTTTTTTTCCAATTTATATTTTATATTACGAATTTTTTAAAACTTTTAAAAACTAAAAAATGAATTAAAAAAAGAAAGGCAGTTTTATTTAGTAAAATTCTACTAATTAAATCTACCAATCTTTTTAGAAAAACTCATATAAATAATTAATGGTACTAATATTGAAATCATAGCTCCAGCTGCTTGAACGTTTTTTAAACTTGCTTCTTGTTCTCTACCTAATGTTAAATATCAAATAGAAATATTAGTAAATTTTTCTGAAAGTATAAATTGTGGTCATAAATAATCATTTCAAACTGAAATAAATGAAAAAATAATTAATAAGAAATAACCCAATTTCATTTTAGGTAAATAAACATAAAATAATTTATCATATCATTTTAAATTATCATTTATCATTACTTTTGATTTTTCAGTTTCAATACTTTTTGCTAAGTTAAAAATATATGTAAAGTTAAAAAATGAAAAAATAGCATTTGTAACATAAGCAATTGGAGTTGTATATAAATTAATTTGTAATAAAACAAACTTTAAACTTAAAAATATAGAAAACTCAGGAATTAAACTAATTATTATAAAAAAGTATAAAAAAGCTTTTTGATATACAGGTTTCATTTTTAATAAGCCAATAATCGCTAGAGAATATACAATTATTCTTATACTAATTAAAATTGTTGAAAATAATATAGTTCAACCAAAGGCTTTTAAGAAATTACTTTGAAAAGCCTTTAAAAAGTTAGACCAATTTCACTCCTTAATTACTAGATAAGTTTTTTTATCTAGAATTGATAAATTGGAAAGCAAAGCTTGTAATAACAAGTAATATAAAGGAAATAATAACAACAAACACAACAATGCGATTAATAAGTATTTAATAATCTCTTTAATTATTATTTTTGTTTTCATACTTACCTCTATTTTTTAAAATAACTTTTTTAATTAATTTATAAATACTTTTAATTGTTTTTGGTCTTAATAATAAAATTAAACATAATAATAAAACTAAATAAGAAAAACTAAAAAATGCCGCTGAATAACCTCTTTCATATCATAGACTTGATGAACCTCACCCAAAATACTTAATTGTATAACTTGTTAGAGTGTGAGCATAATTTAAATCTACATTAAAATTATCTTCTAATAAAGCTGAAGGTAATAATAAACAAGCAAAAATAAAATTAGTAAATAAAATTGAAAATAATACTTTAGATAATTCATTTAAATAAACATATCTAAATGATTGTAGTAATGTTAATTTATCATTTAACATTAATTTTTTATATTTATAATCACTTCTTGATAAAGCTGCTGCAAATAAAATTAAATTAAATGGTAATGATCTTCAGATTTGATAAATAGCATAATAAATTCAAATTGGTAAACGCTTATTTCCACTAGTAAAACTATATTGATTTAAACCTAATATATAAAAAAATAAGTTTTTAGCTCCAAAAAAGTTAGTAAAAGCAATACCAATAGCAAATCCTGATATAAAAAATTGAGAATAAATTACTGATAGTAAAATACTTTTTGTAGTTCTACTAATTAAAGAATTAATAATAAAACTAAAAATTAATGCTAGAATTATTGAAATTCCAGTACCAAATAATAATACAAACGTTGAATTTAAAATAGCATGTTGAAAATTTGGATCAGATAAAATGTTATTATAGTTTTTAAAATTATATTCATAAATAGTTCTATTTGCTTCATTTGGTGTAAATCTTAAAGATTTTATAAAAGTATGAAAAATAGGAATAATTGTAAATAATAAAATTAAAAGTAATAAAGGTAACATTAATAAAACTATTTTTAAAACAGGTAGTGAGTTTTTTAATTTTAGTTTTAAATTAAAACTATCTTTTTGTTTAAATTTTAATAAGAACTTATTCATAAATACGATTTCCATTCTTATTAAAAACTAATACATCAGATTGATTGTATTTAAGATCAATTAGATCATTAACTTGTAGTGAATTATCATTTAAAACTAAAGTTCATTTAATATCTTTATCAAAGTTAATTAAATAATGTACTTTATCTCCAAAACTTTTTTTATCAATAATTTGATATTTACCATTTAAATTAGGTTTAACTTTGATTTTATTATGTCTTATATAATAACTTTTATCATCTTGTGTTTTAATAAAATTAATTTCAGGACTTCCTATAAATTTTGCAACAAACAAGTTGTTTGGATCATTATACATTTGTTCTCCAGAACTAAATTGTTGGATTTTACCTTTATCTAGTAAAATAATTTGATCACTAATCTTTAAAGCATCTTGTTGGTCATGAGTAACAATTATCATACTTAAATTAAATTCTTTTTTAATCTTTATTAATCAATCAATAGTTGATTCTTTAATTTTGGCATCAAGTGCTGAAAATGGTTCATCTAATAAAACTAAATTAGTTTTTTTAATAATCCCTTTTGCAAAAGCTACTCTTTGTTTTTGACCACCAGATAACTGGTTAACATTTTTATATAATAATTGATCAATACCTAATTTTTTAGAAATTAATTCTATTTCATTTTTAAATAAATTTTTTAATTTAATTTCTTTTAAAAACTTAAATTTGTGTTTTACTTGTTTTTCAAATAAACATAAAAATACAAGTTTTAAAAAAGCTTGTTTTTTTGTTTTAGTTTTTGAGTTTAAATCATTTATAAGATCTTTATAAGTTTCAAATTGGTCTATTAATTTTTTTGAAAATAACTCTTTATTATTTAAAAATTTTTCAAAATAATTCAAATATGTTTGTTCAACTCATTTTGAATAATTTTTAGCACTTAAAAAAACATTATTAAAAACAGTTGTATTTTCATACACTGAGTTTTCTTGCATAATATAAGCAACTTCGTGAATTTTAGGATTATTTAAAATGTGAATACTTCCTTTATCTGGTTTAATATATCCTAATAAAAGGTTTAATAAAGTTGTTTTTCCACTCCCAGAAGGTCCTAGTAAAGAAATAATTTGGTTTTTTTGTATTTGTAAGTGATCTATTAATAAATCATAATTTGATTGTTTTTTATGATATTTAAATCTTAAGTCATTAATTTCAATTAAAACATTATCATTATTTGGTTTTGGTTTTTTCATAAGATTTTAATTTAATTCTTTCATTTATATTAATTAGTTAATAAGAACTAATTTCAATTTTATTTTGTTAAATATTATTAAATTATATTTAGTAAGTCTATATAAGATCTATAAGTTTTTAAAACAGTCAGAATTTTAAAATACTCCTTTCTTTTAAAATTTACTTTTTTAAAAATTTTAACAAAAATAAGAATGAATTATTAGTTAGTTTTAATATTATTATTTTTTAACTAGATTTAATGTTGTAATATAAAAGTGTATAGACTAGTTATTGTTCTATATAAACTGCTAATTAGTTATTAAATTAGTTTAATTATTAATTTAATAACTAATTATTTAAGATTAAATAAAAATAAAAATTGATAGAATGGATTAATATGGACAAGGTTACTAAATTTTTTGGAAGTATTCCTGAATTTTTTAAACGTAATTATGTTCTTTTGATTTTAGCTTTAGCCGATGTTGCTATTATGGCTATTCCATTTTATATGGATAATTTTATTCCTAATATGAATGCTAACTTTAGATTAGCTCAATCAGATTATTCACAAGCTGGAGCTATTTATGGTTATGTTTCACTTCCATGTTATATACTTGGAGCTTGATTAGGAGATAAATTTAGAGCCAAATCAATGGTTGTATTAGGTATTGTTATTACTGGAGTTTTAGGAGTTTGGTATGTTATTTTACCATTTGTTCCTTTATTAGCTGGTAATACAGAACATGTTTTACAAGGTACTTTTAGAAATTTAATGGTTGTTCAATTATGTATAATTTTTGCAGGATTTGCTTTTGCAACTTGTGCATTATTTTGAGCACCATTATGAAAACTTGTAAAAAACGTTAACACTGAACATTTACCAAAAGAATTACAAGAAAAACAAGTTGGAAAAAACAATGGTATTCAAGGAATGTTAAATGGGTTAATTGGTTTAGCAATTGCTTTATTTGGTACATTACTTTTAGAATTACAAAACCATGAGATTTTAGGTAAAGTTGGTGGAGAAAACGGAGTTTCAATAGGATTTTTAATTTTAATTTCTTTATATGCTGGATTTATTATTCTTTCAGCACTATTAGCTTTATTTTTAATTAAAGAACCTAAATTACAAGAACCACCAAGCTTTTCAGTTAAAGCTTTGATAAGTGTTGTTAAAGATAAAACTGTAATCTTATTAGCTATTTTAGTTTTAGGAGTTTACATGTTACAAATGGGGCTATCTTCATATGTAAACTATTTAAAAAACGTGTTCTGAGTTCCTGGATTAGCTGTTATGTTAATTGGGTTAATGAGAACATATGCTATGAGATTTATGATTTCAGGATGATTTGGTAAATATGCTGATAAGAAAAATTCTTATATTCCACTAATTTGTATAGGTTTATTACTTGGTATGTTATTAGTTGGAGTTGGAATAATTTTACCTGGATTTGGATTAGATAATATTACAAATGATACAGATCCAAATCTAAAAAAAGCTTCAACTATTATATTACAAGTTGCAGCTGGATTAAATTTAGTTGTAATGGGAGCTGTTACTTGAGCTGTTGTTACAATTAGATGATCTCCAATTGGAACTGATTTAAGAATTGCAAATGAAAAATATGCAGCAGCAGTTAATGTTGTTAGTGTTATTGCCTTTACTCCAGATGCATTCTTTAAACAAATTAGATCAGCAATTGAAGCAAAACACGAAATGACTATTATTATTGATGGAAGACAAAGTATTGTTGCTGATAGACTTGGTAACCAATTAATTTTATTAGTAGTTTTAGGATTTGGTTTACTTGGTTTAGTTTCTGGAATTATCCTGCATTTTGTTTTACAATCAAGAAATAAATGAGAAGCTTTAGAATCAAGACTACAAGTTATTGAAAGCAAAATTAAGAACTAATAAAAAGTCATAAGGTCTAACTTATGACTTTTTTATTTACACTAATTATTTAATTTATTTAAAATATGTTCAACTAAAGTAGTTTTTCTAATTCTTGCATTTTTTTTACTTGCTTTTATAAATAAGTCAAAATCACCAATCACTACTAGTTGTTTTTTTGCTCTAGTAATAGCTGTATATAAAAGTTTTTTATTTAAAAAACTACTAAATAAAGTATCTTGTAAAACTAAAATTACTTGATCATATTCACTACCTTGAGTTTTATGTACACTACAACAATAACTTAAATTAATTTCATCAAATTGTTCACTTGTAAATTCAAACAAGTTGTTATTAAAGTTAATAATAGCTGAATTAAATTTATTATTATTTTTATTAATTTGACAAATATATCCAATATCACCATTTGATAAATTTAATTCACTATCATTTTTTAAATACATAACTTTATCATTAACAGCATATCTAAATCTTAATCTATCATAAACATTATTAGTATCTAAAATATTTTGATTAAAGTTATATTGAATAAAATTATTTAAATTTTCAATTCCTAAAATATCAGCATAAACTGGAGAAATCACTTGAATATTTTTTGTTTGATTAATAGTTTTACTATAAACTGTTTTTAAATACTCTAAACAAGCTTGTTTATCTTTATTAAAGAAAAACTCTACATTATCTAAGTTTTGTAATTTGTTTAGATCTAAATTATCATTTTTTATCATATAAGCTAGATCAATAATTCCATTATTAAAACTTTGACGATGAATGTTTATTAAATTAGTAGTACAAATAATTTTAGAATTAATAATATCATAAAAAACATTTCCATACCCAACACTTGCTAACTGATCAACATCACCAATCAAAACAATTTTTTTAGCATTATTTATTGAAGATAAAAACTGAGAAAATAAGCGAGCATCGATCATTGAACACTCATCAAGTATTAATAAATCATAATCTAGTGGATGATATTTATTAACACTAAATTTATTGTCTTTTTCATAACCTAAAAGTTTATGAATAGTTGTTGCATGACTTTCTGTAAAGTTTTCTCTAATTTTTGCAGCTGCTCTTCCAGTTGGTGTACAAATTGCATAATTACTAGAATGATAAACTTTTTTAAACAATTCAACTATTGCTTTAATAATTGTTGTTTTACCAGTTCCAGGTCCTCCAGTTATAATACTGATTTTATGTTTAATAAAGTTTTTTAAAGCTAAAACTTGATCTTGGTCATATTTAAAATCTTTAATTTGTGTATTTAGTTGAATTTGATTAATATAACTAGTTAATAAATCATCATCAATATCATTAGTCTTTAAATGATTATTAACTAAAACTTCACTAATTATTAATTCATCATTAAATGATTCATAAGTATAAATCTTTTCATTTTTTAAAACTAATAATTCATTTTTAATAGCATAATCTAAACCATTATTTAATAAATCTAAATCATTAATTTTTATTAAATCAGAAACTTTTTTAAATAAGTAGTTTTTATAAGTATAACTATCTCCTAAATTAAATAAAATTTCATTACAAGCATATAAATGTCAATAACTAATTCTAGTTAAATTATTAATATCATTATTATTAAAATATAAAAATATCTTATCAATATCTTGCATTAAACCAAGTTCATGTTTAAAACTAAATTCAAACCAATTATTAGTTAGAATTTGTTTTATTTCATTTTCATCATCAGTAAACTTTTTTAGTTTATCTAGTATTTTTAAGTTCAAATTATGATTAATAAATTCAATTCTTAAAAAGTTTTGTTCATTAATTTGTTTGATTTTATTATAAATTAATTCTAATTTATCTTTACTAATATCTTTGATTTGAAAAAACTGCTCTTTATTATTTAAAATTTCTTGTATAAAGTTTTTTGAATAAAGTTTAGCTATTTTACTAGCTGTTAAATTACCAATTCCTGGAAAAACATCAGATTTTAAAAAGTTAATAATTTGTTGTTCTGTATTAATACTTGCTAAAGTAAAACTACTTACTTCAAAACTTGTTCCATATTTAATATGACTTGTTTGTTTTCCTACTAATTCATATAAAATTTTTGGTTTTAAATCACTAATTTCACCTTTAATTTTTATAGTTTTATTAGGATTATTTTCACTTGTAAAAATAGCTAAAGCTCAAGAATCTGATTTGTATAAAAACTTAGATAAATAACCTCTGATTTTTATTTGTTCTTCCATAATATGTTCCAATCTTAAAATCTATTTTAATAATATCAAAACATTATTAAATTGAAATTTAATAAAATAAAACTAATTAAATAAAAAAGTTCAAATAATTTGAACTTTAATTATCATCTTGATTTTGATCATCATCACTAAAATAATCTTCAAAATCTAATTGTTTAGTTTTTTTATCTTTTTTATTTTGACTAACTTTAGATAGAAGTGAAGAAATATCATCTAAATAAGAACTTAAATCAGATCCGTGAACTTGGTTTGCGTTATTTATAGCTTTGTTTTTAGTATCTTTTGAAACAACAATACGCTCACTTACTAATTTATTAAACTTTGGTTTAGTTTCTATTTGATCATTTGTATCTTGATCATTAAAATTATTTGCTAAAGCAGGTTGATCAAAAGCAATTGATCTTATTAATTGTTTAATAGAAATATATGAAATTTCATCAATATTTGTAGAAATACTGTTTTGTTCTAAATTAGTATGTTTTAAATCACTTACATTAATATCAGTGATTTGATCATTTGTATCTAAAATACTAATACTCATTTGATCATTAATTGCAAAACCAAATATTACTTGTTCTTTGTTTTTCTTTTTTTCAACTAAAATTCTAATTCCTTTTTTTGGTCTAATATAGATCGGAATTAAATTTTGATCTAATCTTTTGTAATTATTTTTATTTGTAAAAATTAAAACATCTTTATTATTATCTAAGCTTAAAGCACTAATTATATAATCATCTTTTAAATTAGCTGCTTTAACTCCTTTTGAGATTGTTGATTGAACTGGAATATCTTCAATATTGTATCTAACAGCATATCCATTTTTTGTAATAATACAACAATATGAAGTTTTAGAACTTATCAAATCAGCATAAACTAAACTATCATTATCACTAATTTTCATTATTTTAAATGATTTGTTAAAAATTTTAGTTTCTAAATCACTAATTTGAGTTCTTTTAATTAATCCATTTTTGCTAACTAATAATAAGTGTTGAGTAGAGTTTGTGAATTCTTTAATTATAAAAGCATTAATAATAGTTTCATTTGGTTGAGTAGTTGCAACACTGTTTATATGAACACCTTGATCTTTTCATTTACTATTTGCTATTTTATATAAAGGAATTGAATAATAATTTGCTTGATCTGAAACTAAAATCAAGTGATCTAAATTTGAACAAGCTCCTTGACTAATTCACATATCATTTGGTTTTTTACCAAAAGAACTTAATTCATTTTTATTTAAAATATTATTATCAATAACTTTAATATAACCATCTTTTGAAATTCATAAATTAATTTCTTTTTCAATGATTACTTCTTTTTGATCAACATCTAAATCTTCAACTAAATCTTCAACTTGAGATTTTCTTTTTATACCAAATTGCTTTTTAACTTCTTCTAATCTTGAAATGATCTCATTATCTAAAACTAAATTATTATTTAAAATTTCTTGATATTTTTTAATTTTATCAATTAGTTCAGTTTTTTCTAATAATAATTTATTAACATCAGTTGAAGTTAATCGATATAATCTCATATCAACAATAGCTGTTGATTGATTTGTTGTAAAATTAAAAGTTTTAACTAAGTTATTAATTGCATCAATTCTATTTTCTGATTTTCTAATTACTTTAATAACTTCATCTAAAATTGATAAAGCTTTAATTAAACCATTAACAATTTCTAATCTTAGATTTGCTTTGTTTAAATTAAATTCAGTTCTTTTAATAAATACTTCTTTATAATGAGAAATATAAGCTTTAATAATATCAATTAAACCTAGTTGTTTTGGTTGTTTATCAACAATAATAATATTGTTATAGTTATATGAAACACTTAATCAAGTTGATTTAAATAAAAACTTTCTAACAGTTTCTAAGTTAGCTTTTTCATTTAATTCAATAACTATTCTTAAACCTTTTCTATCAGTTTCATCTCTAATTTCTTTAATTCCTAAATTAGGATTATTATCAATAACATCACCAATTTTTTTAACAAGATCTTGTTTAACTACTTCGTATGGAATTTCATCAATTACAATATTATTTTTTTCTTGATGTCATTTACTACTAATAATTACTTTTCCTTTACCTGTTAAAAAAGCTTCTCTTATTCCTTGTTTATTTTGAATAATAGCTCCAGTTGGAAAATCAGGTCCTTTAACTATTTTTAAAATTTGATCAATAGTAATATTTGGATTTTTAATTATATTAATAGTTGCATCAATAATTTCACTTAAATTGTGTGGAGGCATATTTGTTGCATAACCTGCAGCAATTCCAGTAGCTCCATTAACTAAAATATTTGGAAAATAACTAGGTAAAACTGTTGGTTCAGTTTCACTATCATCAAAGTTTGGTGAAAATATAACTGTGTTTTTTTCTAAATCTTCTAATAAAAGATTTGAAATTTTAGTAAGTCTTGCTTCAGTATAACGCATAGCAGCAGCGCTATCTCCATCAATTGATCCGTTATTTCCTTGCATATCAACTAGTGGAATATTAACTTTTCATCACTGAGACATTCTTACCATTGCATCATATATAGAACTATCTCCATGTGGGTGATACTTACCAATAACTTCTCCAACAACTCTTGCTGATTTTTTATAAGGTTTATCAAATGTTAAATTCAATTGGTTCATTGCATATAAAATACGGCGTTGAACTGGTTTTAATCCATCTCTAACATCAGGTAAAGCTCTTTCTTGAATAATATATTTTGCATATCTACTAAATCTATTACCTAGTAATTCTTCTAATGGATATAAAATAATTTCTGATTTATCTGACATTTTATTTTTCCATTTCTATAATTTGTATTTGATCATCTTCTAAAGTGAATTTAACATTTTCTTGAATTCATAATTTACGTTTTTCAACATCATCACCCATTAAAGTTTTAAACATTCTTTCAGCTAATAGACCATCTGAAATACTTACTTGAATAATTTTTCTATTTCTAGGATCCATTGTTGTTTGTCATAATTGATCAGCATTCATTTCTCCTAATCCTTTATAACGTTGGATCTCATATTTTTTAGTATTAGTTTTATTAAATTCATTTAATTCTTCTTCATCTCATAAATAAATAAAACTTTTATCATTAAAAGTAATTTTATATAAAGGTGGTAAAGCAATATAAACTTTTTTATGAGTAATCAAATCTTTCATATGTCTGTAAAAAAAAGTTAATAATAAAGTTTGAATATGTGCTCCATCAGTATCAGCATCAGTCATAATAATGATTTTTCCATAATTAATATCTGAAATATCAAAATCTTTTCCAACACCAGCTCCAATTGCATTAATTATTGATTGAATTTCTTCATTTTTTAATAAATCAACTAATTTAGCTTTTTCTGAATTAATTACTTTACCTCTTAAAGGCAAAATTGCTTGAAAGTTACGATCTCTTCCAGATTTAGCACTACCACCAGCAGAATCACCTTCTACTAAATATAATTCATTTAATTCTCTTTTTTTACCTTGAGCTGGTGTTAGTTTTCCTAACATTAATTTGTTAACATTTTTTTTACCTTTAACACTTTTAATTGCTTGTCTTGCTTGTTTTGCTGCTATTCTTGCTTTTTGAGCATTTAATGCATTTTCAATAACTTTATTTGCTAAGACCTTATTTTCAATTAATCAATAACTCATAAACTCATAAACAATTTGTTCAACAACAGTTTTTGCATCAGAAGTTCCAAGTTTTGATTTTGTTTGTCCTTCATATTCAATTAGATTTTCAGGAATTTTAACTGTTACAATAGCAACTAAACCTTCTCTTAAATCATTTGAATCTAATTTAGTTTTATCTTTTAAAATTTTTTGATCTTTTGCATAATCATTAATTGCTCTAATTAAACCTGATTTAAACCCAACTAAATGAGTTCCACCATCACTAGTTTTAACATTATTTGCAAAACCTAAAATAATTTCATTATCATCTTCAGTATATTGTAAAGCGATTTCAGCAATAATATTTTTACTTTCATTATTAATAGTAATAATATCTGTAACTGGTGTTTTATCATCAACTAGTTCTTTTATAAATTCAACTAATCCATCTTGAAATTGATACTCAACATATCTATTTGAAATAAGATCTGATAAAGTAATTTTTAATCCTGAGTTTAATAAGGCTGATTCTTTTAATCTTTCACTAATTAATGAAAAATTAAATTTAGTATTACTAAAAATACTATCATCTGGTAAAAAATTAATAGTTGTTCCAGTTTTATAAGTATTTGCTATAAAAGTTAGTGGTTTTTCTAATTTACCACCATTTTTAAATTCAATTTCATGAATTTTTTTATCTCTATAAATAGTTGCTTTAAACCTTTTTGATAAAGCATTAGTTACACTTGATCCAACTCCATGTAATCCACCACTTGACTTATAAGCAGTACTATCAAATTTACCTCCAGCATGTAAAACTGAAAAAATAACTTCAGGAGTTGATTTACCAGTTTTATGCATACCAGTTGGAATTCCTCTTCCATTATCAATAACTGTAATAGAGTTATCTTTTTCTAAAATAACATCAATTTGAGTACAATATCCAGCTAAAGCTTCATCAATAGCATTATCTACTATTTCTCATACTAAGTGATGCAATCCTCTATTATCAGTTGAACCAATATACATTCCTGGTCTTTTTCTAACAGCATCTAATCCTTCTAAAACTTGAATCGCTGATTCATCATATTTTTTATTTTCAGCCATATATCTCCTTTTAAGAACATCTACTATATTAATTATATTTATTCTAAAGTGATTAAAATTAAATACTTAAAAAATTATCATATCAATTTTACAAATAAAATAATATTTTTAAAACTAGATTTTTATATAAGATTTTAAATAAAAGAAAATCCAAGCTGATTTTGCTTGGATTTTTTAATTATTATATTAATTATTAATTACTATTCCTTTATATCTAGTTGAAAATAATAAAGTATCAACAATTCCTTGTACTCCAAATCCAGAATCTTTAACTCCTAAAAATGGAAAGACATCCGGTCCACGTTGAGATTTTCCATTAATATTTACTGTTCCAACTTCTAATTTTTGAGCAACAGTTAAAGCTTGATCTAGATTTTTAGTATAAACACTAGCTTGTAATCCAAAATTAGATTTATTTGCTAATTCAATCATTTGATCAACACTATTTGTTCTTATAATTGGTAGAACTGGTCCAAATGGTTCTTCTCAAGCTAATCTCATATCACTTGTAACATGATCAACTAAAGTTGGATAAATTAGATTTTTTTCTCGTTTATCACCAATTATTATTTTTGCACCTTTATTTTTAGCATCATCAATTAAACCATATACAAAATCAGCAGTTTTTTGATCAATTAAAGGAGTAATATCACAATTATCTTTTGGTAAACCAACAGTTAGTTTATTAATTTTTTCTTTTAAAAGTGGAACTAGTTGATCTGCTATTTTATCAGTTGTAATTACTCTTTTAATAGCTGTACATCTTTGACCTGAATAACTAAAAGCACCACTAATAATTTCTTTTGCATATTTTTCTAAATCCAAATCATCTAAAACAATAGCAGGATCTTTTCCACCTAATTCTAAAACTACATCTTTTGTTGATGAGATTTCTAAAAGACGTTTTCCAACTTCAACACTTCCAGTAAATGAAATAAAATCAGCTAATTTATTTGTAATAATATCATCACCAATTTCTCTTCCTCTACCAGTAACAACATTAAAAATTCCTTTTGGTAAATTTGCTTTGAATGCTAATTCACCTAGTTTTGCACCAATTAAACTTCCTTGAGTAGCTGGTTTAAAAACAATGGTATTTCCAGTTACTAAACAAGGAAAGATTTTTGAAACAGCTAAATTAATTGGATAGTTAAATGGACTAATTGCAACTCCTACTCCTTTTGCAACTCTCATAAAAGTTCCAATTTTATTTTTAGCTCCATATTTAGTTCCATCAATAATTAAAGTTTTTAAATTTCTAACTTCATAAAAAGTTTGATCAATATATTCAACACTTCTAATCACTTCAGTTAAACAATCTTTGTAAGGTTTAGCTGTTTCACTCATAATAATTTGAGCTAATTCTTCTTTGTTTTGATCAATTAATTGTTTTCATTTATCTAAAATAGAAATTCTTTTTTCTAAATCAGTGTTTTCTCAAGCTTTTTGACTAGATTTTGCTGCTATAAATGCATCATTAATATCTTGTTTAGTTAAACTAACAACTTGTCCAGCAACACTAAAATCAACAGGATTAATAATTTCTAAAATTCTATTATTATCAAATAGTTTACCATCTAAAAGTGCTTTGAATTTGTACATATTTTTTCTCCTTTGCTTATATTCTATTATATAAAAATAATAATTTTTAACTTGATTTTAATAAGCAATATTTTTTTAACTTTTAAAAAGAATTTTATTTAAATATAAAAAATAGAATAATAAAAAAGTTCGATAATTATCGAACTTTATCTAATTATTAATAAACTATTTAGCATTATTAATTTGATACATAATAATAGATCCAGCAACAGCTGCATTAATACTATCAACATCTTCAGCCATTTCAATATTAATATTTAAATCTATTAAATCTAGTAATTCTGGTGAAATTCCTTTACCTTCATTTCCAATAATTAATGCATATTTATCATCTGAATCAAATTTCACTTTACTTAAAGGTTTACTATCATCATGAAGTGAAGTTCCAATAATAATGTAGTTATTATCATGTAATTGATTAATTACTGTAACTAAATATTCATTAACTAAATTAACTTGAAATAAATTACCTTGAGTTGATCTTAAAACTTTTTGGTTATGAAAATTCACACTATTTGGTGAAGCAATCACTGTTTTAAAATTAAAGCTAGCAGCACTTCTAATTAGTGTTCCTAAATTGCCTGGATCTTGAATTTGATCTAATAATAAAATATTGTTTTCAAAATCAATTTTAGTGTTTTCAGGCATACTACAAATTGCAAAAATTTGCTGACTTGTTACTGTATCACTAATTTTTTTAGCAACATTTTCTGAAATCTCAATTACTTGTTCTATGTTTGGGATTTCATCTTTTAAAACTTCTAAAGCTTTACTAGTACCTAGTAATGTTTTTATAATTTGATCATTATAAGCTTCCATAATCATATGAAAACCTTCAACTATAAAAAGTTTTTGTTTGTTTCTATGCTTTCTATCTTTTAATTTTAATATCTCTTTTATTTTTGGATTAGAGACCGAGCTAATGACTTCCATAAATTCTTCCTATTTATTAATAATTGTTATTTTGTCTTTGAAAATTAATTTCATTTTTAATATTATATGCATTAATAATTTGTTCTTGAGTATAGTTTTTAATTTCACAAATATTTAAAAATGCATTTAATAAGTTAGAGTAGTTTGTATTATTATTTTCTTTAATAAAACTATTTAAACAACTAATAATTTCAAAATAAATCTCAATAATAGATTCTTTATTTAAAAAATTATAGTTAAATTCTAAAAAATTATAATTGATTTGATTTCCAACACTAATAATAAAATGAATCCCATCAATATATTCATCTAATTGAATTTCTAAATCAGATGGTTTTTTATTAGATCAATATTTAAAACTTCTTTCTTCATTAGCATACTCACCAAGTTCAACTAAAAAAGCTGTTAGTTTTTTATCTAATAAAGTTTTATCATTTTTAAAGTTTCATTTATTTTGAATAAATTGATCTAATATTGTTTGTTTTTCACTTAATCATTTTAATGTTTTATTATCTATCATTTTAACCTACTCTTTTCTTTTTTATTTTGAAGTGATGTTATCTTTATTATTCATTTTATCTTTAATAATAATGTAAGGATCATCTTCATCTTTTTTATTTGATACTAATAAAAATATTCCACCAATAATACCAAATAATAAACCAAAAACAATTCCCATAATTCCGCAAATTACTTTGTATTTATATGTTTGATATTTTAATGATTTAATAGCAAATAATAAGGTAATTAGTGCAGGTAGTGAAGCTATAATAATTATAATATTAATTCCAGTTAAAGTTGCAGCAATACCAGCTCTAGATACATGATCATCATAATTTGGATAATAATTACTAGTGGAACTTATAGCAATACCACCAACAATTAAACCAAAAAAACTAATTACTGCTCATAGTAATGTAAAACTACATCCAATAATAATTAAAATTAATCCTGCTTTATATAAATCATCTAATCTTTTATTTTGCTTTGTTATTGTTGAATTCATTAAATCACCTCCTATTTAATTCCGGGTTTTTCTAATAGTTTAAACATATTGTATTTATAAACTTCAACTCCAGGTTGGTTAAAAGGATTAACATCTAATAAATAAGCACTCATAGCTAAAGCTAATTCAAAAAAGTAAACTAAATAACCAAATTGTTCATCATCCATTTTTTCAAATTCTAAAACAATGTTTGGCATATTTCCAGTAATTGAATGTGCTTGAATTACTCCTTTTAAAGCAGTTTGATTAATTTGGTGAAATGATTTATTTGTTAAATAATTCAATCCATCATAATTATCATTATCAATTGGCACATTTAAATCATAATTTGGTTTTGTAATTTTAATAATTGTTTCAAACATCACATTTCTAGGTCCTTCTTGAACTCATTGACCTAAAGAATGTAGATCTGTTGAAAAAATCATACTACTTGGTAGTAATCCTTTATTATCTTTTCCTTCAGATTCACCAAATAATTGTTTTCATCATTCAGTTAACATTTGTAATTGTAATTCATAACTAATCAAAGCTTCAGTTTTATATCCTTGATTGTATAAATAATTTCTAATTACAGCATATTTATAAGCTTGATTTGATAAATCATCATTAATTAATTCATTTTTTGCTTTTAAAGCACCATTAAAAATATTATCAGTATTAATTCCACTAACTAATAAAGGAAATATCCCAACTGGAGTTAGAACTGAAAATCTACCACCAATATCGTTTGGAATTACAAAAGTTTGATATCCTTTTTTATCAGCTAATTGTTTTAAAGCACCTTTATTTTTATCAGTAATAGCAACAATTAAATCTTTTGCTTTATTTAGTCCAACTTTATCTACTAATAGTTTTTCAAAAACTCTAAAACTAATTCCAGGTTCAGTAGTTGTTCCTGATTTTGAAATTACACAAATTCCAAAGTTTTTATTTTTTAAATATTCAACTAATTGGTAAATATAAGTTGAAGACATTGTGTTTCCAACATATATTAATTCTACTTTATCTTGATGATATAATCCACGGATCATTTCATCAGCTGCTCTACAACCTAAATATGAACCACCAATTCCAATTACAACTAAAGCTTCAATTTCACTTCTTAATTTATTTGCAACTTGTTTCATTTGCTCATATTCAGTTTTATTATAATCATTTGGTCAGTTTAATCACCCTAAATAATCATTACCTTTACCAGTTTTATTAATGATCATTTGATGAATTTGTTTAACTTTATTAAGATCTACAACTTTATTAATATCAATATTTGTATGATCTAAATTTACTTTAATCATATTACTCCTTTTACTTTAATATTTTACTAATAAATTTGTTTTTCAGTAATAATACATTCTAATTTCATCAAATCATATTAGTAAAATAAGTACTTAAATAAGGTTTTAAATAATAAAAGCACTAATAATTTAAAGAAATTTAGCTATTTAACATATGTTATAAAGTATAGTTTTTAAAGTAATAAGTTAATAAATTTGCTAATAAAATTTAATTATTTATTATCAAATTTTTACTCTTTTTTGTGGTTCTATATACATTTTATCTTCTGGATTAATATTAAAAGCATCAATAAATTCTTCTAAATTAGCAGCTTGGATGTTTGCTCTTAGTTCAGTTGGAGCATGAGGATCTGTTTCTAATAATCTTAAAGCAGTTTGTTGTTTATATTTAGATTTTCAAATTTTTGCTCAATTTATAAAAAATTCTTGAGCATTATAATCTTTTTCTAATTGAGCTGCTTGTAATGCACAACTAATTCCACCAGCATCAGCAATATTTTCACTAACTGTTAAAGCTCCATTACATTTTCCAAATTCAATTTCTTTATTATCAAATAAATCAATCATCTTTTGAGTTTTTTGTTTAAATTTGTCAAAATCTTCATCTGTTCATCACATTTTTAAATTCCCATTTTCATCAAAATTAGCTCCATTATTGTCAAAAGCATGAGAAATTTCATGAGCAATAACAGCTCCAATTCCCCCATAATTTTGTGAAGTTGAATGATTTATTGAATAAAATGAACCTTGTAAAATTCCAGCTGGAAAAACAATGTGATTATACATTGGATGATAATAAGCATTTACTTGATATGCAGCCATACTTCAATAATTTTTATTAATTGGTTTTTTATATTCACTAAAAAGATATTGATTAATCACTTGATTAAAACTAAAAACTGTATCAATTAAATTAGTTGAATTTGTAATTAGATTTGTATAAAAAGGTTCAATTTCACTTGGATATCCAATATGTACACCTAACTTATCTAATTTTAATAACGCTTTATTAATAGTTTGGCTTGTTAATCAAGTGTTATTTTCAAGTCTTTGTTTATAAATATTAATCATATGACTAACCATATTTTCAACATCTTTTTTAGCTTTAGATCCTAAATATTTTTGACCATAATATAAACCAATTGGAGTTGAAAAATAATCTAAAGCTAAGTTTAAAGCGTGTTTTTCTTTATTTTTTACTTTAGTTTGACCACTAATAAATAAAGAATATTTACTTGCTATTGTTCTTGTTTTTTCATCTAAATATTTAGAAAAACGTACAACTAACATTACAACTAGTCAAGATTTAATTAATTCTAAGTTTTTATTATTATAAATTTGATCTAAATTAGTTGCAAAATGATCATCTGTAAATATGATTTGATCAACATCTTTATTAATTAAAGTTTTAATAATATTATTTAAATCTAAATATTTAGTATTTTTAATTACATCTTCATATTTATAAGGTTTATATAACTCATTATATCTAACTTTTTCTAGTGAACTTAAAGAATAATTAGCTATAATTTCATCAAATTCTAAAGTATTTTTAATAATTAAATTTATCTTTTTTAAATCATTAAAATAAGCTGATAATAACTTTTTAGTCATTGATTTAAATTCTTTATAAAACTTGTTTTTTACTTCTTTATTTTGATAATGACTTTTATCTGGTAATATGTGAGAAGCAATTGTTAAATAAAGAGTTTTAATACTTGAATCAATATAATCATTAGAAATATCAAAATTAATTGGTAAAGAATAATTTCTATAAACAAATGTAGTATACATTTGATTTAATTGATCTAAATCTTTAATTTCTAATATTTCATCAACATATTTTTTTAATGGTTCTATATGATTTTTATTTCTTAATTCAAAATTACTAGTTAAACTATAAAATTTAGCAAAGTTAATTAAATTAGGGTCATCTAATAAATTATTAGCTTGTTTTTTTAATAAATCTTTTGCTATTTTTTTAATAATTAGTTCATTTTTAATATCAAGTTCAACAAATTCTCCAATTGAAGAACGATCATTTGGAATTTCAGTTTTTTCTAATCAATCTTGATTTACTGCTTTAAAAAGGTTATCTTTTATTTGATATTTCATATTTTCTCCTATTAAAACTATTAATTTAATTTATAAATATTTTGATTTTCTGTAATAATGTAATCTAATCTAATATCATTAGATTCAATTATAATTTGATCAACTTTTTGTTTATCAAAACATAAACCAACTTTTAAATAACTAAATGAATTTAAACTAAAGAATTTATCATAAAATCCTTTACCCATACCAATTCTATTTAACTTGTTATCAAATCCAACAACTGGAGTAAAAACACAATCAATTTCTTTTAAATTAGCTAATATATTACTAGTTGGTTCTTGAATATTAAACTTATTAAAATTAGTTAAATAACTATTATCTAATAACACCATATCCATATTATTATCAGTTGTAATTTTTGGTACAAATACTAAAATATGATGATTTAAACACCAATTAATAATATTTCTAGTTTCAATTTCATATTTAGTTGATAAAAAGATACAAATTTGTTTAAATTGATGTTGTTTAATAAAATCAATTACTTTATTTGTAATTATTAAATTACTAGTATTTTTATACTCTAAGTCAAAGTTTTTTCTTTTTTCTAGTAATTGTTTTCTTAATAAAGTTTTATTCATATGAATTTAAGATTTCTAATAAATCATTTAAAGCTAAACTAGCACATAAAATTCTATTTTTTTGTTTATGTATGTTTTTCATTACAACTAATTCATTTAATTGATCAATATTTATTAATGATCCAGTTAATAAAAAGTCTTGATAGTTTTTTATAAGTTCTATTGCTTTTTTAATATCTAAATTTAATAAATTATTAATTAATAAATCAATTGAACTTGTAGCTATTGCACAAGCTGAGCCATCAAATTTCATTGATTTAATAATTTTATTTTCTATTAAGATTTCAATAATTAATTGATCAGCACAAGTTTGAGATTTTAATTCTTTTATAATTGCATTTTTATTATTTGTTAAAGTTTTATTTTCTGGATTTAAAAAGTGTTTGATTATTATTTCTCTTAATAAAGAATCGTTATTTATATCTATCATATTTAAAAGTATATATCTAAAAATTTATCTGTGTTTTTTAATGCATCAATTAATTTATCAATTTCATCAGTTGTATTATAAATTGCAAAACTAATTCTTAATGCACTTTTTATATGAATTACATCTTCTAATCTTCTAACACAATGTGCTCCAGATCTACTAGTTATATTATATTTAACATCTAAAAAACTAGAAATGTCTTGAGCATTAATTTGATTAACATTAAATAATAATAAAGGAGAATCATTATTTAAATTATAAAAAGTAATTTTATTTTCTAAATGATTAGCTTTAATTTGTTGTCTAGTATATTGTTTTAATTTAGTTTCATATAAATGTATATTATTAATTCCTATTTTTAAAATAAATTCAATTGCTTTTTTAAAACCATAAATATTTGAAATATTTAAAGTACCAGCTTCTAGTTTTTCTGGTAAAGTTTTTAAAGTATAACTGGTAAAATCTTTACTAATAGTTAAACTAGAACCACCACCTAAATTTAAAGGTTCTAATTCATCTAATAATTGATATTTACCATATAAAATACCAACTCCAAATGGTCCATACATTTTATGAGCTGAAAAGGCAATAAAATCTACATCTCAATCTTTAACATCAACTTTAAAATGAGCAATTGATTGAGCAACATCAACAACAATTATTACATTTTGATTAATTGATCTAATTTTTTTAATAATTTTTTTAACATCATTAATATATCCTGTTGTATTTGAAATATGAGCAAAACTAACTATTTTAGTTTTAGGTGTAATTAATTGATCTAATTTATTAATATCAATTCCAAAATCATTTGTTAATTCTAAATTTTTAATAACAGAATTAGTTTTTTGTTTTAATCAAATTCAAGGAACTAAGTTTGATGAATGTTCTAAACTAGTAATTAGAATTTCATCATCTTGATTAACTAAGTTAATTAAACCTTTTGCAATCATATTAATAGATTGAGTAGTTCCTGAAGTAAAAATAATTTCACTTGTGTGATTTGCATTAATAAAGTTTTTTACAAGTTCTCTAGTGTTGTTTAAAATTTCTAAACTTTGATATCCAATTTTATAATCACCTGAATGTGGGTTTGTTGAAATATTTTTTAAATAATTAGTTTGAGCATTTATTACAGAATTTGGTTTTAAAGTTGTAGCTCCATTATCAAAATAAATTAAATTAGGATGTTTTTTTAATAAAGGAAATTGTTTTTTAATTTTTTCAAATTGACCATTCACTATCTCAACTCCTTTTATTTATTAATAATTATATAGTTTTACAAAATATTTATTAGTGAGTAGATAGTCAAATTTTATTAGTATTACAAGTAAACGATAATTATAAATAATTATTTTAAATTAAGTTATAATTAATTGGTATATGTGATTTTAAAAAAGTGTTTTTTAATACATTTTAAAATCAACAGAAAGGATGATATTAGTGAAAAAGCTTTTAACTTGACTTAGTGCTATAACCTTAGTTGCATCATCAAGTGTTTTAGCTATTAGTTGTAAAACTGAACAAGTAAAAAATGAAAATTCACTTTTTTTAACTAATTTTGGAGACATTAAGATTGATTCAAAAAGCTTATTAGAATGAAATCAAAAATGAAACGGAATTAGTTCAAATAACCAAGAACTTATTAATAAAACTAATAATTTATTAGCTGCTGGAATTTTATTAGCAATTAGAGATAATAAATTACAACTACCTGAAAAAAATGAAAATGGATGAGATTCTAGTGTTAATCCTCAAATTAAAAATTTATTAGGAGATAAAAATAGTACTGATACAGCTACTTTATATGGTTTAGCTAATAAAAGTTTAAATGATTTAAAAGATAATAAATATAAAAATGATCCAAAAGGTTGACAAAAACATTTAGAAGAAATGTTTCCTGGTGTTAAAAAGAATTTAGCTGATTTAGAAAATGCTTATAAGTCAAACTTTATTTTAAATGATAGTTCAAATAGTGCTTTTATTAAATTAAAAAATCTTTTAATGTTTAATTCAACAGTTGCTGATTCTATGTGACAAAAAGGAATTCAAACAACTAATTTAGACTGAAAAACTTTAACTAATAATTTTGCTAATGCATATCCTGGAAAAAAGGATCTAGATCAACTAGCTAAAGCTATTAAAGAAGCATTTGATAAAGCTAACAGTAACTGAAATGATGCTAAAATAGTTACTTTTACTAATATGGTTAACGGTCTAGGTGGAATTAATAATCAAAGTACAACTAGTGGTTCAAACGGAGGGGCCGGAAGTCAACAGAATGATAATTTAATAATTACTTATAGCTCTTCAAAAGATGTTAAAAACAAAATTTCTGGTACTAATAACGGGAATGGCAAAAAAGGTGAAGAATGAATTAAGGAAATTTTAAATAGAGTTTCATCTAATGCACAGAGAGGTTCTGTTGCCTTTAGTGAATGAAATGTTTCCTACAATTATAATTCGCAAAATGGACCAAAAAACTTTATAAACTATAATAATCAAAAGCCTTCATCTTGAACAGAAATAGTAAAAGAAATTCCTCTTTTAGAAAATGGTGACTTAAAGGCGGACCCCATTAAGGGTGAATATGGTGCTATTTCTAACTCACAAAAATATGCTATAAATAATTACTTTAATTCTGAAAAACCTGTTATTTTTTCTGATTTAATTTTTAAATTTGCAAACAATAAAACAGCAACAGATATTGAAAAAAATTTATCATTAAAAGCATTAATACCAACCGAATCTTCAGGACAAGATTTGACCACTAAATTAATCGAAAGATTTCAAGGAATTCAATCAGTTTTACAAACCTATTTATCTAATGATGATAAAGAAAAAGAAACATATACAGCTGGTCTTTCTAAATTTGACACAATCTTTAGGGGAGAAGAAGCCAAAATAAAAGCAAACACAAGCACTAATAGCTCAACTGATTATAAAAATTGAACTGAGTGAGATATTAAAAACGATCACCATAAAATCAATGCAAGTGGTAAATTACTTACACTTAGCGACACCACTTACTCGGATACAGTTAAATTTTCTATTTATGATTTTCTGACAAGTAATGATAAAAAAGAAAATACTTGAAGCTGAAAAGAAGAATCATCAATTAATGGAAATTTAGAATCACAAAAATTTAAACAAGCACTAATAGATGGTGGTTTGTCAAATGATGAGGCAAGTAAAATAGATAGCGCTATAGAGCAAACCAAAGACAAAAAACAATCAAAAGATGCTGCAAGATTAACTATTTATAATCTAGCAGAGCTATTTAAAAAGATTAATCAAAAAAATAGTAGTTCTGGAACATCTTCTGGTTCTGGTTCATCATCATCTAGCACAGCTTCAACTAGCGAAAATGGAGAAAATAAAAATTCGAATATTTACACTATATTAAACAAAGACGAAGGGATAATAGCATTCATTGATGGAGATGGATTACACATCACTAAAATTGATGGGTATAAACTAATTAATAATAAAAACAACAATGAATCTCTGTCATCATCAATTGATCAACAACAAAGTCTTAATGACTCTATTAAACAGACTGCTGTTCTAAAACAAATCAGATCTTTATATTCTTCACCTAATGCTAGTGTTTTAGTTCCATATCTAATAAATTCAACTCTTCAAATTAATACAACCTCAACAAGTATGTCTAGTTCATCATCTGGACAATCTAATGGCTCAAAATGAGATTGAACAAAAAAAGATTTAGATTATGCAAATTCTGTTAAAAATCTTGGTGTAGATATTAGTTTATTAAACAAGAATATCAAAAATGATTATGAAAGATTTCTAATAAATACTTCATTAATTGATGCTTCTAAAACTAAGTCATTTTATAATATCGATATTCTAAGTGAAGTATCAAAATCTATTCAGTCTGGTAATAATGCTTCACTACAATCTAATTGATTAGTTGAATTATTTACAAAAATATTAAAAGATAAAGGTAAGGCTTTGTCAGGTAGTTTATTAAGTGTGATAGTAACAACTGATAATAAAGCTGATAATGATGAAATTGAAAAAATATTTTCACATCAAGCAAAAAACTTGAAAGTATCAGCTATTAGAAAATTGCAACAATCAAATCAAAAGTGAGTAAATAAAGTTAAAGAAAATTATAAGAAATATTCAAAAGACGCTTCACTAGATAAGAGATTTATTCCAGATCAAACTATAGATCTAAATTCTATGAATGAAAGCAAGAAAAAAAGATATGACAATCTTTTACAATCAGAAATTTTTAATCCGGAAGTAAAAGCACAGAAAAATAGTAATGGATCATCATCTACCGGTGATTCTGGAGCTAGAGGTGATGCATAATGAAAAAATTATTAACAATATTAGGTTCTATTTGTTTATCTGCTGGAACAATGGTTACAGCAATAGCATGTAGTACTAAAAATGAAAAATTTGATAAACCTTCTATTACTGATGAATTAGCTCAAAAGATAGTTAGCGGATTAAAATTGACTAATGACTTTAACTTTACAACTGGTGAACAATTTTCTAAATTAGATTACAAATCATTAGTTTTAGATATGATTAATGAAACTATTTCAAAAAACAAATATTCAGATAATTTACATAATTTATCTAGAAAATTTGGGTTAGAAATATCAAAAACAAAAGAGCTAGGTGAAAAAAAATCTCAAGAAGTCTTAAAAAATCTATCAACCATTAAATTATTTACTGAATATACTTCAAAAAGAGCTTCCGAAGAACATTCGGATAATGTTGATCTAGAGTATAGTGCTAATTACCCATTAAATCCATATAATCTAGATCCAAAAAATGGTAAAAAAGATACTACCACATATGCAATTTACTATAAATCTAATAACACAAGCACTGGTGGTGGATCAAACGGGGGTTCTACTTCAAACTGATTAAGATGACAAACAACAGGTGAATTTGACACTCTAGAAAGTAAAGTACCCGGTGTTCCTCAACTTCCAAGTATTAGTCTATTAACCGAATCTGATAAGAACAATTTTAGAATCGCTAAGTTAAGTTCACCTAAAGATCAAGATTATATTAATAAGACTGCAACCGTTGATGATGAAGGTAAAGGTACAAACGGTGGTAGTGATAAGAAAATAGAATGATATAAAAATTCTAATAGTAAATTTGAGACTGATGGTCAAGGAATTATGCAATATAGATTTATGTATCATTTTAAAACTAAATTAGAATCTAAATCGTTCAGCGATTTATTGGGGCATGCCTATATCGATTCAAATCTATATATAGATAAACAAGATAATAGATCAGCTTCAAATAAAAAAATAATTTTAAATAATGTAAGTAAATTAGTTAGTGATGTTCAATCCAATTATTCACAAGTAGAAAGAACTACTTCAAACCTTAAAATGGTATGAGCTTTTTCACTAGATCAACAAAAAATATCACAAGTAAACGATAAAATTCAAGAATATGTTTATTCTGATGGTTCTTTAAAAGATAAAGATAATAAGACACTAAAAAAAGTTTTTGATCAAATAAAATCAACAAAAATAAATAACGAAAGCAAACAGGGAACAGATTCATTATTTTCAATAAGTGGATTTAATGGATTTGTAAAAAATAAAGATAATAGCATTGAAAGCCTGAGTGGTGATTTAAAAATAACTGAAGATGCTAAGAAAGCTGTGGCAAAAGTAAATGTACCATCATTATTAACTAATAATAATAGAGGATTTAATTCAGAAATAAGTGGAAATGTAGATTATGTATTTGTATTACCTATTTATTTAAATGACTTGTTTTCAACAAATGATGTTCAAATAAAAAAAACATCAACAAATGGAAATGGTGGCTCAGGAACATCTCAAAATAATAATTATGAATTACCTATTATTCAAAATACATGAATGAATCTAAATGAAAAATATTCAATTAATGAACGTTACTTTAATAATATGAGTATTAAAAAGGTTGATTCAAAAAGTGGTGATGATGTGTTATTAGCTAATAAAAATGATACATGATATGTTTTATTAAAAAGTAACAAAGAAACTGCAAATATTCAAGTAACTTATTCAGATAGAACAACTAAAACTATTACATTAAAAAAACTTGAAGAAAAAAATAAAAAATCATTAGATTTTACCTATAAATTATCAAAAACTTCTGATTTTAATAAATTACTATTTAATAAAAATATGGATGCAAACATCACTTATGATATCAATCTAAAAAATTACGATAATATCAAAGATAAACAAAATGATGCTTATATTTGAAACAATGATCCTAAAAAATCAAATGATATTCAAGATTTATCAGCAGCTAAAAAACAAGTGTTATTAGATCAACTAGAAGCAATTACAGCTAAAAATCCTGATGTACAAAATGCTGCTAAAACTGAACTGTATAGTGCTTATTTATACACTGATGGAATTTATTACAAATCTCTATTTGATGAGATTTCAAAATATATAGAAAGTGAAAAACCTACATTAGACTAATTATGGACTGTTTATTTTGTAAAATTATTAATCAAGAAATTCCATCTTATAAAATTTATGAAAATGAATATGTATATAGTTTTTTAGATGTAAGACCTGTAAGTAATGGTCATTTACTAGTCATTCCAAAAAAACATTTTGAAAACTTTAGTGCTTGTGATGATAAATATTTACAAGAAGTAATTTTAGCTAAAAAACATTTAGTTAATTTATTAAAAGAAAAATTAAATCCAGCTGGATTTAATTATTTATCAAATGAACAAGCTATTTCAGGACAAACTGTTTTACATTATCATGAACATATAATGCCAAAATATGAAAAAGATAAAGGGTTTTTATTAAAAGCTGAAATTGTTGATATTGATGAACTAGAAAACACTTTTAATAAAATAGTTAAATAATAAATTACAAAAAAATAGAAGCCTTGGCTTCTATTTTTTATGTTTATAAAACATTTTATTATCAATACTGATTATTTTTTGAGTTCAATTATCTACTTCTATTTTTGATAATTCATCATTAATTTTATAAACTTTAGCATCTAAATCATCTAAAGCTGATAAAATCACTGCTTCAATTAATACTGGTTCGATCGGGGAACCAAACTCTTTTTTACCATGACTAGCTAAAATCATATGTTGTAGTAAAGTAATTTCTTTATTAATTTTATTATTTTGATCTTTATATAAATTTAGTTTATCTGCTAGTTTATTGATTTCAGCATTTCCTATTGAAATATGACCTAATAGCTTTCCTTCTAAACTATAATCACTACCATTAACATCACTAATTTCAATTACTTTACCAATATCATGCAGAATTGCTCCACATATTAATAAATCTCAATCAATATTTGCATAAAGATAGTTTTCTTTTAAACTCAAAACGTTTTTTACAAGAGTATAGCTATGTCAAAACAACCCACTAGTAACATTGTGATGAATACTCATAGCTGCAGGAAAAGTTAAAAACTCTTTTTTATATTTTTCTATTAAATTAAGTGTAATAGTTTTATAAGTCTGATTATTAATACTATTTAAAAGACTAATTAATTCTAAATAACTAGTTTTAATATCTAAAGGAGCAGTTATATATAAATCAGTTTTATTTAAATGATACTTTAATAAATCTTTTTCATCAATTACTTGATAATCTTCAACTTTTAATTGTAATATGTTTCTATATTCATGAACAATAGTATCTTTTAATAAAACAATAGTATTTGGTTTTAATAACTGTTTGTCTTTTTCATTAACTACTCATTTTCTAGCTTCAATTCTACCTGTACTATCAGCTAAATGTAATATTAAATAATTATTTCCACTACTTCCTGTTGAAACTATAACTCTTTCAATTCTTAAAATAGTATCGATTAAATGATCTTCTATATTAATATCTTTAACTTTTTTCATTAGTTGTCTTCTTTCTAATCTATCTATATTATTTTATATGATTAATTAGATATAAACTAATATTGCAACTTTTTAAAGACTTCAGTTAATAGGATCTAAATTTAGGTTAATTAATAAATTATTAATTTGACTAAAAGGTTTAGTATTTTTAAAACCTTTATAACTTAGTGGTGAAGGATGAGCTGATTTAATAACAAAATTAGACTTAACTAATAAAGAATCATACATTTTAATAGCAAAATTACCTCACAAACAAAAAATTACATTTTGATTATGTAATATAATTTGTTCTAAAATTTTTTTAGTAATTTTTTGTCATCCTAAATTAGTATGAGAATTTGGTTTATGAGCAATTACAGTTCAACAAGTATTTATTAAAAACACTCCTTGTTTTACTCAATTTGTTAAATCATTATTATTAAAATGATCAATATTTAAATCAGAGTAAAGTTCATTAAAAATGTTTTTTAAACTAGGTGGAGTTTTTAAAGCATTACTACTAAAAGCAATTCCGTTAGCTTGATTAAAATCATGATATGGATCTTGACCTATAATTACTACTTTAATATTATTTAAATCACTTAATTTAAATAAGTTTAAAACATCTTTTTGTTTTGGAAAAACTATATCATCACTACTATAAGCTTTATTAATTAAATTATTAATTTGATTAAATAAATTTAAATCAGTAAATAGTTTATTTCAACTAGGATGTAAATTAGTCATTAGTTTTAATTCAAGATATTATAATCTTAATTTTTCCTTTAACTATTAGTTTGTCAATTCCATTAATAGTAATTGCTGATTCACCTTTTGTAAAATACATATCATTAATATAACCAGATCCACTAATAATTGTTAATTGTAATCAATCACATTTTTCATCTACTTCAAATTCTTTTAAATCATCACATTCTAAAACATATAATGAAAAATAATCTGAAGAAAATACTTTATTATTAGCATTATGAATAATGTGATCTTTTATATCTGGAGTTATTGTAGACTCTATTGAATTAAAAATATCTAATGGTCTAGGTTTGTTTGTAGTTTTATCAATTCTGTTATAATCATAAAATCTATAAGTAATATCACTAGATCTTTGTAGTTCATAAATTACTAAATTAGGTGAGATTGCATGAACTTTACCAGGAGCTACATATAAAAAATCATTTGGTTTAACTTTAACTTTTTTTAATAATTGATCTCATTTATTTTGATTAACTAAATCAATTAATTGATTTTTATTTTTAGCTGTATGTCCATAAATTAATTCAGAATCTTTATTAGCATCAATTACATATCAACTTTCAGGTTTACCTAATTGGTTGTGATGAGATAAAGCATAATTATCATCAGGATGTACTTGAACTGATAAATAATCACTAGCTGTGATAATTTTTACTAACAAAGGATAACAACCTTTATAGTTATTAAAAAGGTGTTTGTGATTTTCAAATAACTCTTTTAAACTTAAATTATTATATTGATCATCACTAATTACATAACTCATTCCGTTTTGATGAGCTGAAATTACTCAAGCTTCACCAATGTTTTGATTATCTTTTATATCAAAGCCAAATTCTTTTAATCTATTTCCACCTCAAATTTTTTTTGAAAAATAAGGTTTAAGTTTTAAAATTTTCATACTTACTTTCTATAATTAAACTTTATTAAATATTAGTACTTAAAATTTGATTTAATTGTTTTATATATTCTTCTAAAGAATTTTTAGAATTATTAAAAGAATAAAATTTATCATCACTTTGATATTTATTTTCTTGTTCTAAAATACCTAAATTACATTTCATGGGTTTTAAACTATAGATTTTAGAATTAGTTATATAGTTAGTTAGTGCACCTAAAATTGTTGTGTTTGGTAAAGGTTTTATTTTTTTATTATTAATAAAAGCTAGAATGTTAATAGCAGCTCATATACCAGAACTAGCTGATTCAATATATCCTTCAACTCCAGTAATTTGTCCTGCAAAAAAGACATTTTTCTTTCTCATAACTTGTAGTTTAAAGTTTAAAATTTTTGGAGAATTAATATAATAGTTTTTATGCATTACTCCATATCTAACTATTTTTGCTTTTTGTAATCCTGGGATTGTTTGAAAGACTCTTTTTTGTTCTGGTCATTTTAAATTAGTTTGAAATCCAACCATATTATATAAACTATCTTTTGCATCATCTTGACGCAATTGCACAACTGCATAAGGTTGATGATTATTTTGATCTAATAAATTATTAGGTGACATTGGTCCTTTTAAAAGAAGTTTTTTACTAGTTTTTGCAAGTTGTTCAATTGGTTGACAACCTTTAAAAAAGATTGATTTTTCAAATTCTTTTAGTTGTACTTGTTCAGCGTTAATTAAATTATCTGCAAATTCATTAAACTCTTGTTCATTTAATGGACAACAAATATATTTACCAAGTTTATGTCTTCCTGAATAATAAACTTTATTAAAATCAATTGAATCTTTTGTAATAATTGGAGCTGAAGCATCCATAAAAAATAATTTTTGTTTTCCAATTAATCTTTGAATATCTTCTTTTAACTCATTTGTAGTTAAAGGTCCAGTTGCTATTAATGTTAAATCATTTTCATCATCAATATGACTTACATTTTGTTCAATAATTGTAATGTTTGGATGATTTTTAATAACTTCAGTTAGTTTTTTTGAAAAATCTTCTCTATCAACAGCTAGTGCATCATCTCCATCAATTTTACAACTATCAGCTATTTTCATAACTAAAGAGTTTAAACGTCTCATTTCTGCTTTTAAAATACCAGCAGCATTTAATAATGATTGACTTCTAAAAGTATTAGAACATACTAATTCAGCAAAGTTATTTGTTTTTTGCACTTCATTTTTAATCAGAGTTTTAACTTAATATAATTCAACTTGTATATTATTATTTGCTAAAAAATATGCAGCTTCACAACCAGCTAAACCAGCACCAATGATTTTTACTTTTTTATTCATTATTTTGTTCTCTATCTAAATCTTTAAATAAATTAATTTCATCAACTGAAATATCAGAGTTTCAAGATGAATTCATTCTAGCTGCGCGACCTAAATGGATTTGATTATTAACTGTTAAACATTGTTTAATATTGTTTTTATCAACTCCACCACCAATTAAAATTTGAATATCTAAGTTTTGATCAACTAGTTGTCTAATCACTTCTAAACCAGTGTTTAGATTTGTTCCTCCACTAGTTAAAACAGCATCAATTTTATGTTTAACTAAAACATTTAAGGCATTAATTGGATCATCAACTAAATCAAAAGCTCTATTAAAAGTAATTTTTAAGCTTCCTTTGATTTTATTTACTCTTTGTAAAAAATCTTCATTAATTGTATAGTCATTGTTTAAAGCTCCAATTACAATTCCATGAACATTTGGAAGTTTTTGAATAACTGAAATCATTTCTAATTGTTTAATTAATTCATAATCATCAAAAAAGAAGTCTTTAGAATTATTTCTAATCATTATATGTAAAGGTTTTAAAGTAATTTGATTAGCTAAAATAATTTCATCTAGACTTGGAGTTAAACCGCCAACTTCTAAGTTTTTACAAAATTCAATACGATCAGCTTTAGAATTATTAATTACTCTAATATCACTAAGATCTTTTGCAATCACTTCTAAGAACATTTTTTATACTCCTTTAGTACTTCTATTTTATCTAATTTTTCTCATGGTAAATCTTTTTTACCAAAATGACCATATTTAGAAGTTTTAAAAAAGATTGGTTTTTTTAAATCTAAAGTTTTGATCATACTACTTACACTAAAATCAAAATTTTCATAAACTGCTTTATAAATAGTATTTAGATCTACTTTATGTGTATTAAAAGTTTCTATAAAAATTGAAATTGGTTGACTAATTCCAATAGCATAACTTACTTGAATTTCTATTTTATCAGCTAAACCAGCAGCTACTAAGTTTTTTGCAACATACCTACACATATAAGCAGCAGAACGATCTACTTTAGTTGAATCCTTACCACTAAAAGCTCCACCACCATGTCTTGAATAACCACCATAAGTATCTGCTATAATTTTTCTTCCAGTTAAACCAGTATCTCCTTGTGGTCCTCCAATTACAAATCTACCTGTTGGATTAATTAAAACTTTAAAATCAGTATTTAAATTAAATTCTTTAGCAACTAGATCCATTATATTTTCTTTAATATATTTTTTAAATTCAATTTCATTATAATTTGGATCATGTTGAATAGACATTAAAATAGTATCGATTTTAGGATTATTAATATTTGTATAATCAATTGTAACTTGAGATTTCATATCAGGTCTTGCTCATTTAAAAAGACCTTTTTTTCTTTGAGATGTAGCATTATAAACTAATTCATGAGCAATAGTAATTGCTAGTGGTAAATATGTTTTTGATTCATTTGTAGCATAACCAAACATAATTCCTTGATCACCAGCTCCAATTTGATCATTACTTAATTCAACACCTTGGGCAATATCTGGTGATTGTGATTCAATTTTTATATCAATTTTACAAGTATTAGCATTAATACCATAAGCATCATCAACATAACCAATTTTTTTTAATACATCTCTTGCAACTTGTTCATAATCAACAATTGCAGTTGAACTAATTTGACCACCAATTAATAAATAATTAGTTGTTGCAAATACTTCACAAGCTACTTTAGCATTTTTATCTTGTTTTAGTACTTCATCTAAAATAGCATCTGAAATTTGATCACAAATTTTATCAGGGTGTCCTTCACTAACGCTTTCACTAGTAAATAATCTTTTTTCTATATTTTGATTCATTTTTATTTTCCTTTTATTTTGAATTAATGAAAATTAAAAAACCATAACAATAAAATTGTCATGGTTTAAGACAATCTCATTGTTAGCTTAAAGCCCTTATTTAAGCACCTAATCTAATAGGTTGCTACCACTTCACTAAGTTTTATCTCTCCATGGTTCTTAATAAGATATTATTTGGTTTTCTAATCTTTATTATTTTAACACAACTATTAATCTTTAATAGTTAATCTTTTAATACTTGTTGCTTTATTTGTTTTATCATCAATTTCAATAACTACAGCATTTAATCAACACTTACCAGTTGCTATATTAAATTTAACAGGTAAACCAGTTTTTGCCCTTTTAATTACATCATTAACTTCAACACCAATTATTGAATCAATCACACCAGTCATTCCAATATCTGAAATAAAAGCAGTTTTATTTGGTAATAATCTTTCATCAGCAGTCATCACATGAGTATGAGTTCCAACAAATGCTGTTATTATTCCATCATAATTAAAAGCAAAAGCAATTTTTTCAGCTGTACTTTCAGCATGAAAATCTACTAATAAAATATCAAAATCAGTATTAGTTTTTAAAAACTCATCTAGTGCATCATATGGATTATTAACTGTATCCATAAAGCTTTGTCCCATTAAACTAACAACAGCTATCTTTTTTTTATTTTTATTAACTATAACATATCCATTACCTGGAGTATGTTTACTCATATTTAAAGGTTTTAATAAATCATTAGTTGTTTTAATATATTCTAAAACTTCAGCATTTTTAAAAATATGATTACCACTAGTAATAACATCAACATTTAATGATTTATAAAAATCATAATGCTTTTTACAAATAGATTTTCCATGAGTTGTGTTTTCTCCATTAACAACAATAAAATCTATTTGATTTTGATCAACAATATTTTTTAAATGTTTTTCTAACATTTCTCTTCCCGGTTTTGCATAAACATCTCCGATCATTAATACTTTCATCAAATCACCTCTTTTAAACTTTTTATAAATTGTTTTTCATCTATTTGATTTGTTTCAATTTTATTAATTAGAGAAATTAGTAAATCTTGTTTTTGTTTTAAATGTAATTTTGTTTCTAAACTAAATAATAATTTACTAGTTTTAGAAATAGAATCATAAACTGCTGTTTTTGAAATATTAAATTCATCAGCAATTTCAGATAATGATAAATCTTCATCAATATATAATTCAAAATATTGTTTTTGTTTATCAGTTAATAGTTCTTTATAAATTTTAAATAACTCAGATAATTCTAATGTTTTTTCTAATAAATTATTTTTCAACTTCATCACCTTGCATAAATCCAGAAGATAAATGAACAATATATTGATCAATATCAAAAGCTAAAAGATCATCTACTTTTTCACCAACTCCTATCATTTTAATAGGAATATTTAATAATTCTTTAATAGCTAGACCAATTCCACCTTTACTTGTTGAATCCATTTTAGTTAAAATAATTCCACTAACATCAGCAACTTTTGAAAATTCTTCTGCTTGAATTACTCCGTTTTGTCCTGTTGTTGCATCAATTACTAATAAAACTTCATGTGGAGCTGATTTTTCTACTTGTTGAATAATTTTATTCATTTTTTCTAATTCAGCCATTAAATTAGTTTTGTTTTGTAATCTACCAGCAGTATCAATTAATAATAGATCATAATTTTGTTCTTTTGCTTTTTTAATAGCATCAAAAACAACACTTGCAGGGTCAGCATTTAATTTATTTGCTTTAACTAAATCTACTTTATTATTTAATCTAGTTTTGATTCACTCTTCTAATTGTTGAGTAGCTCCAGCTCTAAAAGTATCAGCAGCAGCTATTAAGACTTTATATCCTAATTCAGCATAATAATTAGCCATTTTAGCTAAAGAAGTAGTTTTTCCTGTTCCATTAACTCCAACTAGCATAAAAATGTTTAATCTATTTTCTTTAAAATCTATACGATATTTTTTATTAGTTCAATCATTATCTGTATAAGCTTGGTATAAAGATTCAACTAAAGCATCTTTAATGTTTTCAAAAGAAGTATCTCTTTTAGTTTTTTTTCTAACTAAATTAGAAACTTTTAAAACCATTTTCATACCCATATCAGTTTGGATTAAAACATCTTCTAGTTCTTCAAAAAACTCATCATCTGCTTGTTTATATTTTTTAGAAAGTTTTTTAATATCTTTAGAAAAGTTAAAAGCTGATTTAAGCATTGCTTTTTCAACTTTTTTATCTTTTTCTTTTTGTTTTTCTCTTTTCTTTTTTTCTTTTAGAGTTTCAGTTTGCTTTTCTTGTTTTTTAGTTTCACTAGTTTTTGTTTTTTTAATTTTATTTTCTTTTATTATTTCAACTTGTTTATCTTGATTAACAACAGGTTCTTGTTCAATTTCTTTTTCAATAATTTGTTCTTGTTCTTCTTGTTGATCTTGTTGTTCTTGTTGATCTAAAATAGGTTCATCTTGTTCAACTTGATTAGTTTTTTTAGTTAGTTTTTCTTTTAATTTAGCTCAAAAACCCATAATATTCTCCTTTTAAAAACTAGTTAACTTAATTTTATAATCTATTATTAATTAATTCTAATTACTCTATTTATTTATTTTTTCAGTTTTTTCTATAAACTTACTTGTTTTTATGAAATTAATGATTTCTTGAACATTTAATAAATGATCTCCAGCTCTTTCTAAATTAAACATTTGTTTTAAAACAGCTGCTATTTCTTCAGCTTCTGCTTTTGTTGTTTTTTGTCTAATATCATCTATTAATTGATCATAAAATGATCTAAATTTTGTATTAATTTTTTCTTCTAAACTTAAAACTTGTTGTTCTTTATCAACTTTTAAATTTTCAAAAATATCTGAAAAAATATCTAACATTTCAACAACTAATTCATATAATTCACTAATCATTAAAAGATGTTTTTCATTTGGTTTATAATAAATAAAAAATTTAGAAATTCCTTTTGAATAATCAGCAATTCTTTCAATTTCTCTAGTAATTAAAATTCCACCAATTGCTAATCTTAAATCTTTTGCTACTAATTTTTGTTTTGAAATTTTTCATAAAGCAATTGAAGTAAACTCATTTTGCATATCATTAATGATTTTGTCATGTTCAATTACTTTTTGAGCATCAATTAATTTGTTTTCTTCTTTAATTACAAGATAACTATTTGCATATTGAATTTTAGTTTCTTCTATCATATTTTCAATAAGTGATCTTAATTGGTCAAGATCGCGATCTAATATTTTATTACTTGACATATTATTTCCTATTCATATCTACCTGATATATAATTTTCAGTTCTTCTATCTTTTGGGTTTGTAAAGATTTTTTTAGTTTTATTAAATTCAACTAATTCACCTTTTAAAAAGTATCCTGTATAATCACTTATTCTTGTAGCTTGTTGTAAAGAGTGAGTTACCATAACAATTGTATAATCTTTTTTTAGATCTAAAACTAATTCTTCTACTTTTAAAGTAGCAATAGGATCTAGTGCACTTGTTGGTTCATCCATTAATAAAATTTTTGGTTTCATAGCTATTGCTCTAGCTATACATAATCTTTGTTGCTGTCCACCAGATAATCCTAAAGCTGGTGAAGTTAAAATATCTTTAACTTCATCTCATAAAGCAGCTTTAACTAATGATTCTTCACAAATTTGATCTAAGATTTTTTTATCTTTAATTCCTAAAGAACGTAATCCATAAACAACATTATCATAAATAGAAATTGGAAATGGATTAGGTTTTTGAAATACCATTCCAACTTCAGTTCTTAATTTTGTAATATCAATATCTTTATCAAAAATATCTTTATCAAAAATTTTAATAACTCCAGACATTTTTACTCCATCAATCAAATCATTTAATCGATTAATAGATTTTAATAATGTGGTTTTACCACAACCTGAAGGTCCTATAAATGTAGTAATTGATTTTTCTTTAATTTCCATATTTATATTAAATAAAGATTGGGTTTTTCCTTTGTTATAAAAAAAGTTAAAATCTTTAATTTCAATAGCAGTTTTTAAAGGTTCTTTTTTTGGTTTTGTATTAGTTATTAATTGTTCATTATTCATAATTGTTATCTCTTTTTTTAAGTTTTTTATATTCTTTTTTATATTTAATAGTTTTTTTAATTTCTTTAAATAAATTAGTGATGTTAAGATATTTTTTTAAACTTTTAATAAACTGCTTTAAACTGTTTTTAAATAAATTAAGTTGTGTTTTATAAAATTGTTTATTGATAAAGTTTTTATAAATTTGTTTAAATTCAAATTTTACTTTTTTATTAGTTTTAACTAGTAATAATGAAAGTTTAGAACTTGATAAATTTAAAGTTAAAACAAAAATAATTGTAATTAATGACATTAATCAAGCAATATCATTACCTTGACCAGGAGCTGATTCACTAGCTATTTTATAAATTCCTGTAGTTAAAGTTGATCCTGAAGATAAAAATCCTCTATCTGGATATTTAATAGCTGTACCTAAAGTTAAATAAATAGGAGCTGATTCACCAATAATTCTAGCCATAGCTAAAATAGTTCCAGTAATAATTGCTTGTAAGGCATTTGGTAAAACTATTTTAAATAAAGTTTTAGTTTTACTTAACCCTAAAGCAATAGCGGCTTCTCTATATGAAAGTGGAACTGAAGTTAAAGCATCTTCAAAATTTTTAATCAACATTGGTAAAACAACAATTGTCATTGTAATTGATGCTGAAAAAATTGAAAAAGGTAATTTTAAATAAATAATAAATACAGATAATCCAAAAATTCCAAAAATAATTGATGGAGTTGAAGCTGCTAGATTTAATAAAAATCTAAAAAACTTAGCAAAATAAGAATTTTTATTAGCAAACTCACTAAGATAAATAGCACAAGCTAAAGCTAAAGGTATAGCAAATAATAACGTACATAATATTAATAATAATGTAGTTAGAATGGCTGCAAATATTCCATCTTCACCTTCAATAGTTAAAAATGCTTCACTATATTTTAAACTTGATAGCCCATTAAATATAGTTGTAAATACTATTCAAAAAGTAAACATAATTACAAAACTAATTGATAGTCACATTAAAACTAACATAATAGTTGAATAAATCTTTTTAAATAATTTGTTTTCAGCTCTATTAGTAATAATTTGATTTAGTGTTTGTTTTTGATAAAGTTTAATATGCTTTATTTTATGAGTTTTTTTATTTTTAAATAAAACTAAATGAATTTTTTTTGAAATTGAATTTTTATTTGAAACAAATAAAATCAAAAGATTAATAATAAATACTAAAATAAATAAAAACATTCCAATAGCATATAATGCAGATTCATGTAAACTACTACTATTTTCTAACATTTCTAATCCAATAGTTGAAGATAATGTTCTAATTGATGAAAATAAAAATCCAGAAACTCCATTGTTTGTATCAAATCAAGCAGTTGAATTACCAGCAATCATCATTATAGCCATAGTTTCACCAATTACTCTAGCCATTCCTAAAATAACAGCTGAAATAATTTTTGGTGTTGCTGATTTTCTAATAATATTAAATGTTGTTTTTTCTTTTGAAATTCCTAAAGCAAGTGAAGCATCTCTATAAATAAAAGGAACAGATTTAATAGCATCATAACTTAAACTAATCATAATTGGTATTGCCATAAAAGCCATAGTTAAAGAAGCTACCATTAAATTATCATTACTTGAAGCTCCCATTAGTTTAAATAAAGCCCCAATTTGTTCTCTTGCAAACAACCCAAAAACAACACTAGGAATACCAGCTAGTAATTTAATAATTGTTATTGTAACTTTTTGAGATTTTAATGTTAAATATTCTGAAATAAAAAAACTTGTAAAAATTGTTAAAGGTACAGCAATTAACATTGAAATAAAAATTAAAATCAATGTCATTAATGTTATAGTTAGTATTCCAAATTCTTTAGAATCTGGACTTCAATTTTTACCAAATACAAATTCAAAAAAAGATTGTTTATTAAATAAAACATTAGTTTTAATCATTACAAAACCTAATAAAATAACTAATGCTAGTAAAACAAAAATAGTTAATGTAATAATAATAGATTTTAAACAAACAAAACTAGTTTCTTTTTTTTGTTTTATCATTCGAAACTGAACATTATTTGTTATTTTTTTAAATAACATATATTAACCTACTTTTTTCTAATAATACTATTCATATTAATTTTTTATTACTAATTAGATATTTTTCTAATTAAACCTAAATGATCATATATTTTTTTAACCTTTTGATCATTTGAATAACTAAATCAATAAACAAAATCTAAAATATCATCATTTAATTTTTGATTATCTGTAAATTTATATAAAGCAACAAAAGGTCTACTTAATGGATAAGTTAACAGATTGTCACTTCTTTTATTTAAATTTCATTCTTGATTATTTTGTTTAATAATTACTGATCTTAAATTAGGATATTTTTTTAAATCTTGAGCATATTGCATAGAAACAAACCCAAATGAACCATCAGAAGCATCTAGTTGTGTAAAAATAGCTCCATTTGAATTATATTCATTAACTGCCTGACCAATTTTTTTATTATTGTCTTTTAGTCCTGAGATTTGTTCAAATGAACTTCTAGTTCCAGATCCACTATTTGTTGAATATGGTCTGACTTTAATTAAACTACTAATATTATTTTCATCTTTATTAGTTAGTAGTTTATAAAATTCTTTTCAACTAATTAAATCAGATTGTTTATTATTTGTATAAATTTTATGTAATGCTTTTTGAGAATCACTACTAATTTTATTATTTAAAACATTGAACTTAATTTGATCAATTTGTTGATTTGTTAAACCTGTATTTTTAATATTATAAACAAACACAATTGAATCTTTTACAAAATCAATGTAATGGTATTTATCTTTAAGAGTTTTTAAATGATTAAAAACTTGTTTTTTTGATAATTCATCATTAATTTTTTTAAACTCAGTTAGATCATCATATAAATTATTTCTAATTTCTTTTGGAATTGAAAGATCATTTTGAGATTTTGAAACAAATCCAATACTATAAGTTTGATTAATTACATTTCTAGCACCAGCTCCAGAACCAGTTGAAGAATAATTAAACTTCTTATTAGTTTGTTTTTGATATTCTTTAATTAATTTTTGTAGTACTAAATCAGCACTAGCACTACCACCAATATTAATTAAATTAGATTTAATTGAAACAAAAGTTCATATTCAGATTGAAACAATAAAAAGCACACAAAGATTTAAAAATAATAAAGACTTTTTATTTGTAAAAAAATGCTTAAATTGCTTTTTGGTTTTATTGTCTGATTTTTTAATTTTTTGCATTAAAAACTCCTAATAATAAAGATTAACTATTTTAGTAATTATAACAAATTGAACTATTATTAATATTTAGTTAATTTTACAAGTTTAATTATCAATCTTTAAGATTTCTTTTTGCAATTTTATATCTAAATTTTATATATTTAATTTGCCTTTTTTTATTTTTATAATTTAATTTGGCCAATTTAAAAATTTGTTTTAGTTGTTCTTTTTCTAAATTATTTTTTGATCTTAAAGCTTTTTTATACTTTTTATGATGTTTTTCAAGTTCAATTTTTGCTACGGTTTTTTTAGCATAAGCTAGTTTTAATTCAGTTCTAATTTTTTCAACTAGTTCAGATTGAGTTAGTACTTGATCAAAGTTATAAGTTTTTATTAAACGATCTTTTTCATTAAAAATTTCTAGAATAGCTTTTTGTTTTTTTGCCATTCTAATAGCTAGATTGACTGCTTTACTATAATTTAAAAAAGAGCCATTTTCATCTTTTTTAACAGCAAGTTTTTTATCACTAACTTTTTTTATGCTTCAGTTCATAATAACACCAATTCATATTATTATTTTATATTAATTAATATAAAATAAAAAAACTTGGAATAATCCAAGTTTATTAATCGATTGGTGCCCTTTATCGGGGTCGAACCGATACGAATTTCTTCGTTAGATTTTGAGTCTAATGCGTCTGCCAATTCCGCCAAAAGGGCTTAATAATAAATTTATTATATAAAAAAAATATGACAAATGTCATACTATTATTATTTTACTTATTAAACGATTTTTTCTTGTTTTTTTAGAGTTCTTAATGTTCTAGCAGATACTTTGATATTAAATACACTACCATTTTCATCCATTACTCTAACCTTTTGTAGATTTAAGTTTCATTTTCTTTTAGTTGCATTTAATGCGTGTGATCTTGATTGACCTGATAAAGCACTTTTACCAGTTAATGCATCTCTTCTTGCCATAAACTTCACCTCTTAATTCTAAAAATTAACCATACTATTAAATAGTACTATATTTATTTTAAAATTCAATAAATTATCTATTTATAAAATAATATTTGCTAATTTTGTTAACAAATAATTATATTTTTTTATGTTAAAATAATTAAGATGAAAGATAGGTGTTTTTTGTGAGTACAATTGATGAATTTGTTGTTCAAACAATAAGAGAAGCCGTTATTACAGTACCTGGTGTAGTAGGGCTTGCTAACTTTTCAGCAAACAATAAAAAAGACCTGTCTACAAACGACATTCACAAAGCTATTGAATTTGTAATAGATAAAAATATACAGCACTTTAAAATTCATGTTATTTTACTTTATGGAGTTAATATTTTAGATATTTTAAAAGAAATTCAGATTCGCATTAAATATGAATTAGAAAAGAATTTTAAAAATAATATTGAACATAAAGTTGATGTAATTGTTGAAGATTTAATCTAAAAAAATAAGAAAGATCTGAGTAAAATGAAAAAATTAGAATTATTAAAAAACATGATCACAAGTGGAGTTAATAATCTATACAATCATTATCCACAAATAGATAAATTAAATGTCTTTCCAGTTCCTGATGGAGATACTGGAACTAATATGAATCTTACTGCTACAAATGGTTATAATGAAGTCATTGATGTTGAATATGAAAGCATTGGCAAATTCTTATCAGCTTTTTCTAGAGGACTAATAATGGGAGCTAGAGGTAATTCTGGAGTTATTTTTAGTCAAATTATTAAAGGTTTATCACTTGGAATGAATAATGCTAAAGAATTATCTGTAAGTGAATGAAAATCTGGATTTAGTAAAGCTAGTGAAATTGCTTATAAAGCTGTTATGAAACCAGTTGAAGGAACAATTTTAACAGTTATCAGAGAAACTAGTGAAAAAGTTAGCCAACTTGCTGATGATACTGATATTAAAGATTTTTGAAAACAAGTAGTTAAAAACGCTAATCAATCTTTAGAAAATACACCAAACTTATTACCATTATTAAAAGAAGTTGGGGTTGTTGATTCTGGTGGTTATGGATTAGTTAAGTTTTTAGAAGGTATTGAATACTACGTTTTAAATGATCAAATTGTTAACAAACTAGATAAATTAGAAGTTAATAACGGTGGAAATATTGATATGCAAATTGAAGAAGAATTTGGATATTGTACTGAAGCTATTGTTATGTTAAATGATGATTGAATTAATAAATTACAAAACTCAGTCATTAGAGATCAATTACAAATTTTTGGAAATACTTCTATAGTTGTAGTTGTTGATAATGATATTTTAAAAGTACATACTCACTCGCTTTCACCAGGTCAAGTTTTACAATTTTTACAACAATATGGAGATTTTCAAACTCTAAAAATTGAAAACATGAACTTACAAGCTAATAAGCAAGTAAAAAATAAAGATCAAAAATGAAAAGAAAACTCAGATATTAAAACTGAAAGAAAACTTATTAATGAAACTGCAATTATTTCAGTAGTTTCTAGTGAAAAACAAAAACGTTATTTTGAAGATGAATTAGGAATTGCTTTTGCAATTAATGCAGGAGCAAAAATGAATCCTTCAACTGAAGACTTTTTACAAGCAATAGAAACAGTTGATGCTAAAACAGTATTTTTACTACCAAATAGTAGTAATGTTTATTTAACTGCAAAACAAGCTGAAAAAATAGAAAATAAATCAAAAATTTATGTAATTCAAACTAAAACTATTCAACAAGGAATGGTTGCTGCTTTAAGTTTTGATCCTTCATTAACAGCTTCAAAAAATTACTCATATCTATCTAAATCATTTAGAAATGTAGTTTCATTTAATATTACTAAAGCTGAAAAAAATACAACTTATAATGGAATTGAAATTCAAAAAGATAATTTATTAGCAATTGTTGATAATAATATTATTGGAGCTGAACAAACATTAGAAGCAATTTTTGATAAACAGCTATCAAAATATATTAAAAGTAAAACTGAAATTATTACAATTTTTGTTGGTGGAGAAACTAATGAACAAGATTTAGTTCAACTAAGAAAATTCTTAGATGAAGGTTATGATGTTGAATATGAAATTGTTGATGGTGGTCAAGAAACTTATAATTTATTAATAGCAATAGAATAATCCCTTATAGGGATTTTTTAAAAGGAGTAATTATGTATAAAATAGCTTTTGATGTAATGGGTTCTGATTTAGGAAGTTTAACAGCTATAAAAGCAGCTAGTGAATTTATAAAAGAACATGATGATTTATATTTAGTTTTAGTTGGAGATGAAACTGAAATTAATCAAGCTTTACAACAAACTCCAATAGATAAAACAAAATATGAAATTTTTCCAACAACTCAAGTAATTGATATGAATGGATCAATTTTAGATATTAGAAGAAAAAAAGATGCATCTATTATTAGAACTTTAGAACTTGTAAGAGATCAAAAAGTTGATGGAATGTTAACAGGTGGAAATTCAGCTGCTTTTATAGGTGCTGCACATTTTATTTTAGGTGAACTAAATAACATCGTTCGTGCTGGATTTATGCCAACAATGCCTAATGCTAAAAATAAATTAACTTTACTATTAGATGTTGGTGCAAATAGTGAAAATACACCTGAAGATCTAGTAAATTATGCAAAAATGGCAAATATTTATTATAAAGAAGTATTAAAAAATCCAAATGCTTCTATTGGGTTATTAAATATTGGAACTGAAAAATCAAAAGGTCTAGAATTACAAAAACAAACTTTTAAACAATTAGAAGAATTAAAAAATATTAATTTTATTGGAAATGTTGAATCTAGAGATGTATTAACTGGTAATGTTGATATTATTGTAACTGATGGTTATAGCGGAAATATTTGTTTAAAGGCTTGTGAAGGTGCTGCTAAAGTTTTATTAACTGAAATTAAAAAAGAGATTACTTCATCATTTATTAAAAAACTAGCTAGTTTAGTTTTAAAAAAATCATTTAAAAATGTTGCTGCTAAATTTGATTATAGAAATCACGCTGGAGCTATTTTATTAGGTGTTAAAGGAATTTGTTTTAAATCTCATGGTTCAAGTGATGTTAGATCATTTAAAGCAACATTAAGAATGACACTTGATGCAATCAAAAATGACATTGTTAAAAAAATAGAAAAAGGATTAATAGAAAATGAATATTAAAAACTTTTTTGAAAAATATAACATAAAGATTAATAATGAAAAACTCTTTAATGAAGCTTTAACTCATAATTCTTATGCTAATGAACATAAATTAAAATATTCTTATCAAAGATTGGAATTTTTAGGTGATGCAATTTTACAAATGTATGTATCAAGATTTTTATTTTTTAATTATTCTAAATTAAGTGAAGGTGAATTAACTAGACTAAGAGCAAGTACAGTAAGAGAAGAAACTTTATTTAGAGTTGCAAAAGATATTAATTTAGGTGCATTAGTAAAGTTAGGGCATGGTGAATATATTACTAAAGGTTATGAAAAACCATCAATTTTAGCTGATGTGTTTGAAGCTTTAACTGCTGCTATTTATTTAGATCAAAAAGAAGATGGATTAGTAACTTGATTAGATCAGACTTTGTTTAAATATATTAAAGATTCTAATTTTATTAATGATACAAAAGATTTTAAATCTGAATTACAAGAATTATTACAATCAGAAAAAAGAAGTGATTTAAAATACATTATTGAAAAAGAAGATTTTTTTGCTAATGAAAACAAAATCTTATATACAGTTAGTGTTAATTTAAATGGTCAAAAATTTGGAGTAGGTAAAGGTTTTTCAAAACAAGAAGCAGAACAAAATGCTGCTAGTGATTGTTTATCAAAACTAAAAAAACCAACAAGCAATTAAAAGAACATAAGTTCTTTTTTTGTTTTTTGTAAATGTTTTCTTATTTAAAGATAAAACAGTAAGTTTTAAAATACCATAGTAAAATAATTATACAAACATAAACAAGTAATCTATTAAAGGAAGTGATAATAATGTATAAAAAATATAGTTATAAAGATATCTCAGATTGATTCTTAGCAAAAGAAAGTATGACTCATAAAAAATTACAAAAATTAACTTATTATGCTGAGGCTTGATCTTGAGCATTACTTAAACATGGTATTTTAAATGACACTGCCTTTCAAGCATGAATTCATGGTCCTGTTTCACCAGAATTATGAGAAGTTTATAAAAACTATGGCTGAAATGATATTCCTAAAAAAGATCTTAGAAATGATTATTTATTTGATGAAAAAACATTAGATGTATTAGATGCGGTTTGAACTACTTATGGTCAAAAATCAGGATATGAATTAGAATGCTTATCACATTCTGAAGATCCTTGAAAAAAGGCAAGAAATGGGTTACTTGAGTTTCAACCATCTAATAATGTAATTAATTCAGAAGATATGAAAATTTATTACACTAGCATTTATAATGGTGATTAAGATTGAATAAAAATAAGAAAATATTATCTAATAATTCAAAAATAAGTACAAGCCCCAAGCTTTTCAAAAAAGATATTTTTTTCAAAATTGCAATTGTACATAAATTGGATAATGGGTTTGATTTTAAATCATTAACAATTGAAGGTATAAAAGAATTTCATAATTTTATAAATGAAATTTTAAATAAAAAGATGACCATTTCTCAAGTAGAAAATTTATATATGAGAAAGACTTCAAATCCATTTAATAATAGAACTGTAGATCAGCAAATTGAAATTCGTGAAATCCATTTAGGAAAAAATAGACAACCTTTTAGATTATTTGGTTATTTTAATGATGATAATTATTTTGTATTAACTAAAATAGATCCTAATCATCTTTTTCATGAATAATTTATAAAATAAATTTTATATCAAAATTTTTACTAATAAATATTAAAAAAACTAGTAATCAATAGAAAAAATAGTGTTATTTAGATTTAATTCTATTAACACTATTTTTATTTTGTTTAATATCTAATATAATGTGTTTTTAAGCAAGTATAAGTTGTTTAAAAATATCAAATAAAATTATCTCATTTAAAAGTTTATTTTTTAGAATTTTTATCAAAAACCATAGAGTTTTTATACACTAGTTTATTTTGTTATTTTTTAAAATAATATAATATAAATGTGTTATATAAAGGAGTTATTAATTAATGTTATTTTTAAAGCAAATTAGAGCCAGTGGGTTCAAATCATTTGCCGATCTTACAGTAATGGATTTTAATTATGACATGACTGGGGTAGTTGGTCCAAATGGATCTGGAAAGTCAAATATTACTGATGCAATTAGATGAACTTTAGGAGAACAATCAACTAAAACTTTACGTGGAAGTAAAATGGATGATATTGTTTTTAGTGGAAACAATGAAAAAAAGGCAGCTGATGTTGCTGAAGTAACATTAGTTTTTAATAATACTCATGAAAACTTTTCATCAATCAAAAGTGATGTTGTTGAAATTACTCGTAAATTTGACAAAAATACTAGAGAAAGTGAATTTTATATTAATTCTACTAAATGTAAATTAAAAGATGTTCAATCTATTGCTTTAGAAGCTGGATTGACTAGATCAAGTATTGCTATTATTTCTCAAGGAACTGTTGCTAATTTTACTGAATCAAAACCTGAAACTAAAAGAGAAATTTTTGATGATGCAGCTGGGGTAAGCAAGTATAAAAAAAGAAAAAAAGAAACATTATCAAAACTAGAAAAAGCAACTGAAAACTTAACAAGACTAGAAGATATTGCAAAAGAAATTTCAAGAAGATTACCAAATTTAGAACGTCAATCTAAAAAGGCTTTAGAATATCAACAAAAAGTAAATGAACTAAAAAATATAGAACTATATATCTTAACAAAAGATCTAAAGGTTTTAGTTAACAGAATTGAAGAATTAAGAGTAGAAAAGATTGAATATGAAACTCAAATTAAAAAATTAACAAACGAAATTAATATGAGTCAAGAAGAAGTTAATTTAATTATTGATAAAGATTCAGAAGATAATCAAAAATTAGGTGAACTTAATTCTAAATTTAATTCAATAGTTGAAAAAATTGCTAATTTAAAAGTAAGAAAACAAAAAGCAGAATTTAAAGAACAAGAAAATCTTAACACAAAAGACCAAGATGAATATAAAGCTGCTTTAATAAAAAAACAATTTGATGAAAAACAAATTAGTATAAAATCAGAAAAAGATAAGTTAACTAAAGCAGAAAATTCATTATTAGAATTAAAAGATAAATACGACTATTATTCAAATAAATATAATGAAATTTATAGAGAAATTGAAACTATAAGAACAACAATTTCAAGAATTAGTATTCAAATTGAAGCAATAGAACATAATAAAAAAGCAGCGTTACAATCATATCAAGATGGAGTAAGCGCTATTTTAAATAATCAAAAACAAATTGGTGGAGTTGTTGGTGTTTTAAAATCACTTATTAATGTAAAAGAAGAATATCAAATTGCTATTTCAGTAACTGCTAGTGGTCATATGAATTCATTAGTTATGAAAACTGATCAAGATGTTAAAAAAGCAATTGAATTTTTAAAGAAAAACAATAATTTAGGTAGAGTAACATTTTTACCACTAAATACTTTAACTCCTAATTTAATCAATCCAGTACAAAGACAAATACTAGAAAAAAGTGAAGGATTTGTTGGATTTGCAAATGAACTAGTAGAATATTCAGAAACTATTTCAAAAGCAGTTGAATATGCTTTAGCAAGTATTATTGTTGTTCAAAGTTATGATGATGCTATTAACTTAGCAAAAAATACTAATTTTAGATTTAATATAGTTTCACTTGATGGACAAAGAATTTTACCACATGGAGCTATTGTTGGTGGTTCAACTAGAAATGCTAATATTTTTACAAAACAAAATACACAAAATCAAGATAATAATTTAGAAGAATTAAAAAATAAAATTGAATTATTAGAACAAAAAGAAATTAGTAAAACTAAAGAAATAACTGAATATAAAACAGCAAATGATAGTTTAAGAGATCAAATTAACGATTTAAATGGAACTATTAGAAACGCTAAAAATAACTTATTTAATTGAACTGAAAATTTAAAAGAGTTTTCAGATGAACATAAAAGTTTAACAGGAAGAGATTTATTTACTGGTGTATATAGCAAGTCAGATGAATCTGAATCAATAATTTTAGCAAAACAAATTTCAGAACTTGAAATTCAAAGAGATGAAATTCAAATTGAAATTAATTCAATTTCTTTTAAACGTACTCAAAGTATGGAAAAACAAAAAGAAATGAATTCTAAAAACAGTAAAAAAAGAGATGAATTGGATGAACTAAAAACTCATGCTGGATCAATCAATACTGAATATAATGTTTTATTACAAAGAAGAATTACTATAATTGATCGTTTATCTAATGGATATCAAATTACTGAAGAAACTGCATTAACAATGGAAGTTGAAAATATTGAAGATGAAGAAGTTGCAAGAGAAAGAATAATCGAACTAACAACTTATATTCAAAATATTGGTAATGTTAATATGGACGCTATTGAAGAATATAAAAATGAAAAAGAGCGTTTTGATTATTATGATCAACAAATAAAAGATATTTATGATGCTAAAGAAAAACTAGAAAGCATTATTTTAGATATTGATATTGCAATGGAGTCTCAATTTAAACAAATTATTGAAGATGTTAATAAAGCTTTACCAGATGTTTTTTCAAAAATGTTTGGTGGAGGTTATGCAGAATTAATTTATACAGATCCAGACAATATTTTAGAAACTGGAATTGATATTAAAATTTTTCCACCAGGTAAAAAAATTACAAACTTAAATTTATTATCTGGAGGAGAAAAGTCTTTAGTTGCTTTATCAGTATTATTTGCAATTTTAAAAGCAAGACCTTTACCATTAGTAATTTTAGATGAAGCTGAAGCTCCTTTAGATCCAGTTAATGTTGAAAGATTTGCAAGATATGTAAGACAATTTTCACATAACACTCAATTTATTATTGTTACTCATAGAGAAGGAACAATGACTCAATGTGATTCATTATTTGGTGTAACAATGCAAACTAAAGGTATTACTAAAATCATTAACGTTAAATTAGTTGAAGCTAAAAACTTACACTAATTTATAAAATAAAATCCGGAGGTCCCGGATTTTTTATTATTTAATTTTTTGGTTTGAAATTCCTCTTTCAACTCCATTAATACCAGGAATTGATCTTAAAGCTGAAATTGTTTGTGTTAACTGATTGCTGTTTTTAATTTTAATAGTAATTACTCCACTTGATAATAAAGATTTTTCATCTGTAAAAATATTTGCATTAATAATTGATACTTTTAATCCAGAAATAATTTTACTTATATCATAAAGTAGTTTGTTTCTATCAATACCAAAATATTTTAATTTAGTAGTATATGTATTTTTTTCAGCAACAGCTTCATTTCATTGTACAACTACTAATCTTGATTTCATATTAGTTCAATCAATATTTATACATTCTTTTAAATGTACTTTAATTCCATTATTTTTAGTAACAAATCCAACAACCTCTTCATAAGGAATTGGCATACAACAACTAGCTAAAGTAGTTTTAATATTTTTAATACCATCAACTAAAATATCATTTTTAATAGTAGTATCATAAATGATTTTTGATTTAATACTTGCATAAGCTTCATCATCTTTTGAATAGTTTTGTTTAATAAAAACTTTTTCAGCAGCTTCATTAATTGTAAATTCACCTTTAGCTACATCTAATAAAAAATCATTTAGTGAATTATAGTCCATTGTTTTAACTGTTTCTAATATTTCATCAGCTGTTTTTTTCTTTCATTTTCAATCTTTTTGATTAATATAAGCATTAATATTAGCTTCAGTTTTTCTAATTAATTCTTTTTGTTGGTCTTTTTTATCTAATGTTTCTTCATTAATTTTCTTTTGTAAATATTTTTTAATTCTATTTCTAGCATTTGAAGTAACAACGATTTTTAATCACTCATGAGTTGGTTCTTGTTTTGGTGAAGTTTTGACTTCAACAACTTCTCCAGATTTTAAAACAGTATTGATTGGTAAAAATACTCCATCAACTCTTGCACCAATTGTCTTTTCACCAATTTCAGTATGAATTCTATAAGCAAAATCTAAAACAGTTGATCCATAAGGTAAAGTAATTACAGCTCCATTTGGAGTTAAAACATAAATAGAAGCGGTAAATAAATCATCTTTAATTGATTGTTCAATTGATGATTGTTGATCTTCAGATTTATCTAAATCTAAAATACGACTAAAAATATCAATTTTTTCATCAATTTCTTTTTGCTTTTTAGCAATATCAATAATTTCTCCTTCTTTATATCTTCAATGAGCAGCAGCTCCAGTTTCAGCAACTTGATTCATTTCTTCAGTTCTTATTTGAACTTCAAAAATATTTCCATTTGCATCAGATAAAGTAGTGTGAAGTGATTGATAAACATTATTTTTAGGTGTTGCTATATAGTCTTTAAATTTTCCAGCTAAAGGAATGTATTTTTGATGAATAAAACCTAGGATTTTATAACAATCATCAATAGATTTTGCAATAATTCTAATTGCTAAAAGATCTGAAATCTCTTCAAAATTCTTACCAATTACATTCATTTTTCTATAAATAGAATAAATAGTTTTAGGTCTTCCAAAAATACTAATTATTTTAATATTTTTTTCTTTTTTTAAATATTGTTCTAAATTAATAATGATTTCATTAATAATTTGTTGACGATTTTGCATATCACTATTAAATAAATCAGTGATTTTTTTAAATTCTTGTGGATTTAAAATTTCAAATGATCTATCTTCTAATAGTGACTTAGCACTTTTCATTCCAATTCTATGAGCAATTGCTGAATAAATTTCTAATGTTTCTTGAGCAATAATTTTTTGTTTTTCAGGACGTAAATTTTTAATAGTATAAATATTGTGCAATCTATCAGCAATTTTAATAATAATTACTCTAATATCTTTTGACATTGATAAATAAAGTTTTCTTAAGTATTTAGATTTAATTTGCTGACGATTTTCTTTTGCAAAAAAACTTACTTTAGTAACTGATTCAACTAAATTAGCAACTTCTTCATTAAAAAGTTCTACAAGTTCTTCTTTTTGAATAGGAGTATCTTCTAAAATATCGTGTAATAATCCAGCAATAATAGTGTTAGGACCCATTCTTCACTGAGCTAAATAATAAGCAGCAGATAGTGGATGATAAATATAAGGATCGCCATTTTTTCTAGTTTGATTAAAATGACATTTAAACGCATATTTATAAGCTTGTTCAATACGTTCTAATTCACTTTTATTTTTAATATATTTTTTTAATTCATTTAATAAATCTTTAAAATCTTTGATTTCACGATAATCAAAAGATATATAATTATATTTATTATGCATCCTATCACATCCTTATATTAGAATAATTATAAAAAAATAAAGACAAAAAGTCTTTATTTTTAATGTTTTATCATCACTAATTTTAGTATTTAATTAATTTTTGTACTTTGTATTGATCAAATAAATTTGCATCATGTAAGAATGTTAAATCAATTAAAAATGACATTCCAATTACTTCTGCTTTACTTAATTTAACTAAATCAATAATCGCTTGCATAGTTCCACCAGTAGCTAAAACATCATCAATAACAACTACTTTATCATTTGGTTTTAAATCTCCAACATGAATTTGTTGATGATTTGTACCATATTCTAAACTATATTCAACATCATAAACTTCTCTTGGTAGTTTATTTGGTTTTCTAACTAGAACAAATCTTTTATTAGCAGCATAAGCTACAGCTGATGCTAATAAAAATCCTCTAGCTTCAGGAGCTACAACTACATCAACATCTAATTTTTTTACAAAATCAGCCATTTGATCAACTGTATATTTAAATGCATCCTTATTGTTTAATAATGGGGTTATATCTTTAAAAACAATTCCTTGTTTTGGAAAATCTTTAACATCAACTACAAACTCTTTTAAATTCATATTCTGCCTTTCTAGTCATTAATTCCATTAATGATTTGTTCTTCTTGATTTATTTTAAAGTTTTGAACATAGTATCTATATCCTAAAACATATATCATACGTTTTTTTTCTAATCAAATTCAAATTGGTAAAGCTATAAGTAGTGAAACTAAACTAGCTATTAAGATTCCAATAATAATAGTTAATCCCATTCCAATTATTGCATACAACCCAAATGATAAAATGATCGCATATGCTAAATAAATTACTGTTATTAAAACTGTTCTAGTTATACCAAATTTAAAGACATTAATAAAAGTTTCTTTTAAAAAGGCATTATTATTAGCAATTAAATCAATTTCAATTTTTGTATGTTTTTTATGGTGTTTTAAGATGTTTTTATTTTCTTTAATTTTTAATTTGAAATCTTTATACATACTATTATCTTTTTTATTAAAACGCAATTTGATATTTTGTTTTAATTTAAAAAAGATTTTAGATCATCAAGATTTAATATTGTTTTGTTCTATTTGTTGTTTAATTAAATTCTTTTTATTAGTTTTATATTCAACTCTTAATTGATGATTTTTTTCATGTACTTGATGTCTAGTAGCTTTTTTGTTTGAAAAGGCCATAATTTCTTTTTCAAACATTTCAGTAAATGTTTTATTATCTTTAGATTTAATAATAGATTTACCTTTTCCTAAAAATAATACACAAGTTATAATAGTAAAGCTTAATACAGCTAAAATAGCACTTAAAATTTCAATTCCAACTGGTACTCTAAAAATAACTACTAGTGAACTTACTAAAACTATTACTAAGACTAGTGTTAAAGCTAAAGCAACAAAATAAGTTCATTTAAATCTAATTAAAATATAAACTAATAAAGCTAATAATGTAATTGCAAATATAATTGCTATATTTTTAATTTCACCATAAGCAGTGTATGGAACATTTATTAAATTAATTATTCCATTAGCTGAACTATTATCATCATGATCATATTTAATAGATAAATCAGGATTTTGTAAATTATCTTTAACAAGTAATTTTTCAAAAATACTAATTATTTTATTATCTTGGGCATTAATAATATTAAATCCAACATAAGCTAATTGTTTATGATCAAGATTTAAACTATTAGTATCAATAAAATCATAACCATAATCAACATCAACACTAGCTCTAAAATACTTATTATAAGAAACTGGATTTTTTCATAAACTTACATAGTTTTTCTTAACAATTTCTTTATATATATTACCAACAACATAACTAGCTCATTGGTTTTTATCACTAGGTTTAGTTAAATTAGAATAATCAACTTTAAACTTAGATTTCATGTAAGCATCTTGACTATTTTTAACTTTTTCAAGATGTTCACCCATACTAATGATATCTTTTCCTCTTTTTGTAGATGGATCAAATTGTTTGTAGTTTCTGATTGCTTCATCTAAATTATCATAAATATCATTAATTTTTTGTCCATAAGCAATTACTGAATAACTTTTTCCAAAACTTGAGTTATAATTTGGACCAATTGTAATTCCAATAATAGCTCCTAAAAAAGTACAAATAATAAAAATAATTGTAAAAATTTTATTAATTTTAAAAATTCTTCTTTGTTTATTTTTATTTTCTAAAGTTTCTAGAACCTGACTTGAAGTATTTGAATTAATTCTTGCTTGTAAAAATTCTTGTTTTATTAAACTATTTTTAATTGATGATTTAGTAAATGAATTTTTATTAATTATTTTTTGTTTTTTATTTTCAAGTTTTAATAAATACTTGTTTTTTATTTCTTCAGATTTTTTCTTTTTTAAGATTTTTGCTTTTTTAGCATTATTGATTTGTTCTTGTTTGTTTAAATAAATTTCATATTTATTTTCAAGTTTTAATAAACGTTTATTTACTAGTTCTAAATTGTGTTGATCTTTTTTAAGCTGTTTTAACTTTTTATTAGTAATAATTTGTTCTTGTTTATTTAAGTAAAAATCATATTTATCTTTGAATTTTTTTAGTTTAGCTAAATCTTTTGTAGTTAATTTAGTTTTAGTGTTTAAATTTTCAATTCTTGATAAATAAAAACTTAACATTAAATCATTAAATCAAGTTGATTGACTATTTTTAATAGTATTTAAAGGTAATAATCAAGGATATTTTGTAAATAATTTAGCTTTTAAAACTAGTCAAGTTAATAAACGTAAACCTAAAATTACAAATAAAATAATTATTAATATATTAATAACACTAATTGTTGCTAGATTTTTTAAAGCCCCAGACCCAAAGATAAATAACAACACACTAGGAATTAAAATAATAAATGAAGTATCTAAAGAAATAGGTAAAGTATCTTTATTACTAATTTTAAATGATGATTCTGGTGATAATTTTTCTTTATAAATATGAGTTTTTAAATTTTCAAAATAAATAATACTTGCATCTAATATTAAACCAATACCAACAAACATTATCATAAAGATTTCAGGACCAATTGCCATGTTAAAAATAATTGGAACAAACATTGTAAGTGATGCTGAAATTGCAGCAAGAATTATTGCAAACAATCCTAATAATCTGTATGAAAATAACATAAATACTAGAACTGCTAAAGCTAAAATCACTAAACAAGCTAAAGTAATAATTAACATTATATTAGTAATATCAGCACTAAATTCTTTAATTGATAGAACTTTAAATGTGAATCCTAATGAAGTTTGTAAAATATCAGATTCAACTTGTTTTGCCATTGTATTACTTCATACAGGAATATAAAGTTTGGTTGTTTGAGTTTTTCTATCTGTAACAATAGCAGGATTAGTTGTAACTATTCTAATATTTTCTGGTGATATTTGATTATTATGTAATAAGATATTATTTCTAAATAAATTTTGATCTAAATTTTTATTAACAATATGATTTTTATCAGTAGTATCTTTTTTAAATAAAATTTCAGTCATTAATATTTTTATTAAAGAATTTGAAACTTTATCAATATAATCTAATTCTATATCTTGAGAAGTAGAATTATCACTACTAATTTTTAATTTATTATAGTACTTACCAACATTACCTTTATCATCTTTGATAAAGTCTTTTTCACTAGCATTAGCATCATAAATATATTTATTAGCTGAATTTGTAAATCTAAAAATATGATCTGATTTTTTATTATTTAAATTATCAGTTCCAAATAAAACATATTTTAAATCTTTTGTATTATCAATTTTACCTTTTGTATTACTATTTCATCATTTAACAATATCACTATCAACTAAACTATTTCTTTGAATATTTAGATTTTTATGACTTCCTTCAGTAGTAGGAACACTATATTCAATAGTAAATAGATCTTTTAAAATCTTAACACCTAATTGATCTGATGAAGCTTTACTACTAATATAATCTTGAATTGGTTTAATAATTTGATTAAAGTAAGTATTTAAATATTGTTCAACTACTTGATTATTAGTTGAATTTGCTTTTTTATAATAAGTTCTTAAATTTTCAATAATATGACCAACTGATGTGATCATAGTTAAAGCATTATTATCTTTATTTTTTTTAGGATCAATTAAATTTTTTAAATAATCATTTTTTAAATTAAAACTAACAAAAGGAGAGTTTTTATTTGAAAAGTTAGCTGGTTGTAATGATTCAGCTTTAGCTTCACCTAAAAATTCTTCTAAAGTAAGTTTTTTAGCAACTCTTTTATCTGATGAACTATCATAAACTTTATCAATACCAATAATTTTCATTAAATTTTCATTAAAGAAAATATCTTGATAATTTTTATCTAAAATAAATAATCCACCAGTTCTTTCAATGGCATTTTTAAAGTCATCTTGATTATTAGCATAAGCTTTTTTTGATGCTTTAATAAATACACGATAAAGACCAGATTGTTGAGTTTCAATAGTATTATCTGAAAATGGTGATAGTTTTTTTTCTAATGATTGAGCACCTTTAAAAGCATCACCATTAGGGATTTCTTCTTCTTGATTTTTAGTTTTATCATAAACTCCAACTAAAGCTTGATAACCACCAACAAATTTTGCTCCATATGAAATATTATTAGAGATTTTATAACTAGAAAAACCAATTCCAGTTAGTAAAGCTAAAATTAGGATTAGCACAATAATAAAACGTAGAACTTTTTTAAAGCTAGCTAATCTATTTTTCATTATCTACTTCTCCTTTTAATTTTTAAAATTTAAAAAAACCTATTATTTAATAATTTATAAACAAAAATTAAGCTTAGTAAAATAATTATAACACTATAAAATTTTACACCTAAAACTAAAATGTTTTGCTTTTGCTTTTTAATTTTTTATCATTAGTGATTTTTTGTTTAGTTAATAAAATAGATTCTTTTTCAATTCTAGCCATTAATCTTCTATCAGTAATCACTTTTTTATACAATGATAATTCTCTTTTTTGAGTATCTAATGAATAACTTCAAGGTCCTTTAACTTGTTTTGTTCTAATAAATGAAATCATCATATCTGGGTCAATATTATTAGCTCCAGCTTGTAATGGTTTTCAATCCATTAATCCGATATGAATCATAATTACACTTTGAGCAATATAACCATTTTCTTTTTTAGCTGTTTGATTTTCTAAAAAATGAATATTATTTCTATATCCAGATTCAAATAAATAATTTTTTACTTCTCTTGGTTTTGTTGTTGAAATTAAAACTGTAAATAATTTATTTTTTGGATAAATTCTATCAATAACAACACCTTGAATCACAAAACAAATAAATGAAGCAAATAAACTTGGACCAAAAACAAATTTCAATTTAATAATAGTTGTTAAATTATCATAATTTGTAAAATTAGTATTTGAAGCAATAATTTGAGCAATTTGTTGTCTTGTTCATATTTGTTGATCAGAAACAGATCAGTTTGATGGTAAATAAAAATGATGATGAGAATTAAAATCTAAAATAAATTTACCTGAATCTTTTGCTTTATTATAAATTTCAGTAAATTGTTCATCAGTAAGTGTATTTAAAACACTTAGTTTTGCAGTTGAATCAATTTTATAAATTGGCATAATTACAGTATTTAAAACAACAAAAATTAATAATAAAGTAAAATTAATTTTCATATTAATTGAACCAATTTGCTTATTGTATTTTTTTGAAACATATGCACTAATAAAATCAGTTCCAGCTGTTGAAGAACCTACTCTATAAGTTAATGAATAAGTTATTCCTAAAAAAAATCCACCAAAAATTGAAAAAACAAATAACCATAATTTAGATGATCATTCTGTTGGAAGTGATGATATTAACTTATAATTAATAATTAATGATCATTCATTTGGATTGATTATTGGAAGTCTTGTAATAATTTGATTTCATCCAATACTTAATAAAATATATAATAACGATGTTAAAGTAAATTTAATACCAACCTTTATAAACCCAAAAACAAAAAACGGCAAATTAACTATAAATAAGAAAATAAAAAATGAAGAAGAAGTAGAAATACTTGTAATATGTTTATTTAAAACAATACTTAAAAATCTAGCAATTGTAGCAGTTCCACCAGGAAATAATCCAGTATCTCCAGTTACTAAAATAAAATAATCAGTTGTAATAGTATTTGCTAAAGCAGCTAAAGCAATAATAAAAATATCTCATCAAAAACTAGTTTTAAAATAGATTCGATGCTCGACTTTCTTTTTATATTTATTAAAAGTTTTTAGATAACTTTTTTCATAAGATGAGTGTTGTTTTATTTCATTAATTTCTTCAATAGTTAATGGGGGGGCTTTTTTAGGTTTAATGATTGGTATTTGCATGATCTATTCCTTATAAAATAATATTATTACATAAATTAGTTAATCAAATAGTTCTGCTCTTCTTTTTTGATATTTTGCTTTTTTAATTTTTTCAATATTTTCTTTAATGTGTTTTCTTCTTATTTTTTGTTTGATTTTATCTAGTTCTTGTTTTCTTTTTTTCTTATAATTTGGTTTTACTTTTTTATTTTTATATTTATTTATAACTTGTTTTGATTCAGCATCTAATTCTTTAAAAACTTTAACTTTTTTATAATTAGTTTTTATGTCAACTAATTGGTTATCAATAAGTTTTTTAGTTTCAAATTCAATCCCTTTTTTAATTAGTTCTTCAATTTGAGTTTTATTTTTTAAATTATAAATTATATAACTATATCCAGTTGAATTATTTCTTCCAGTTCTTCCAGATCTATGTATATAATAAGTTAAATCACTTGGTAAATTAATTGAAATAATATGACTTACACCTTTAATATCAACACCTCTAGAAGCAACATCGGTTGCAACTAAATATTTAAATTCATTATTTTGAATTTTTTTTAACATCGATAATCTTAATCTTGGTTGTAGATTACCATGTAATTCAGCAACTTGTTTAATATTATTTTTATGTAAAATTTCAACTATTTTACTAATTTCATCTTTTTGGTTAACAAAAATAATACATAAAAAAGGATTAATTGAATTAATAATTTGTATTAAACTTTGCTCTAGTTCTTTGTTTTTAGTATCAATTAAAATATGTTTAACATTACTTGTTGAAATTTTATTTTGACTATCATCAATAAAATGAGCATTTTTAATATATTTTTTACAAAATACACTAAGTTGTTGAGAAATAGTTGCACTAAATATTCCAATTGTAACATCTTGATTAATTTTAGAAATTAAATAATCAACATCTTCAATAAAACCTAGATCAAAAATCATATCACATTCATCAATAATAAAATAACTTGTAGTTGTTAGTCTTAGTTTATTTAAATCATAAAGTTCTTTTAATCTAGTTGGTGTTCCAATTACAATATGTGGTTGTTTTTTTTCTAGTTGCTCAATATTTTTACTAATATCTTCTCCACCAATAAATAAATTACAATTAATTAAAGGATTATTTTTTAAAAATAGTTTAGTGTTTTGATAAATTTGTAAACTTAACTCTCTAGTTGGACTAATAATTACTGCTTGAACGTAATTATTATTTTCTTCTAATTTTAAGTTATTTAAAATAGGTAATAAAAAACTGTGAGTTTTACCTGTTCCAGTATGTGCTAAAGCAATAACATTTTGGTATTTTTTTAATAAAGGAATTACTTTTTGTTGAATTGAAGTAGGAGCTATAAATTCAATTTGATCTAAAGTATCATTAATATACTTTTTAAAACCAAAATCAGTAAATTTCATTTTCTCACCTATTTTTCTATAAATTGATTTTTAATATCATAACTAAATATTTTTATATCTTTAAATTTAATTTCTAATTTATTTTTAAGATCATCTATAAAATGATTTTCAGCATAATGTCCAATTTCTATTAAATTAACATTATTACTATTTGCATAAATTCATTGATCTCATTTAACTTCACCAGTTATAAAAGTACAATCTTTTAACATATTTTCAATCATTGTACTAGCTCCAGAACCACTAGTTAAATAAAAATCTTTAATTTTAGTATCTAAGCTAATATTTGAATTTAACCTAATTTGATTTAAATTAAAAATTTCTTTAAGATCATTTATTAAATCATTTACACTGATTTTTTGATCTAAATAAAATAAATTTGATTCTTTGTCTTTACCATATTTTTTAAAAGAATTAATTTTTAATTTCTTATTCAAAATTTCTAATAGATTTTGTTTAATACTAGAATCATAATTTGTATGAATTGAAAAAACTAATATTTTATGTTTATTTAATTTTTTAATTATTTGTTTTTTATTAGGATTTTTCTTTTCTAGTTTTAATTCATTAAAAATAAAAGGATGTCTTGTAATAATTAATTGAATTTGATTACTAATAGCAAATTCTAAACAATCATTAGTTAGATCTAAACAAACTAAAACTTTAGAAATATTTATATTATTTAATTTTTTATAATCAAATTGAAAACCAACATGATCTCAATTACTTGCTTTTTTAGGGTTAAATAATTGATTTAAATAACTAATTATATTATCTAATAACATCTATATACTTTCTAATTTTATTAATTCTATTTTGGATTTCTAAATATTTAATGTTGTTTGGATTAATTTGATTCAAAATTCTAGTTAAATTACTAATTTCATTTTCTAAATAACTAATATATAAACTATTTTTATTAAAAAACTGTTTTGAACCAAATTCTATTTCTAATTCTTCTAAATGATCAGAAAATTTATTTTTATTAATTTCAATTAATCAATAATAATGATCATCTTCATAAATAAATGATTCATATTTAATTAAATAATTATGACTAACAGCTCATAGTCTTAAATTTTTAACACTAGTATTTGAACAAATTATATAATTACTAATTTTTTGATGATCATTTTTTAAAATTTCTAAAATAGTTTGACTACCTAACCCACAAATTGTTACATAATCAATATTTAGAATTTCTTTATTTTTAACAAACTCTAAACCATTAGATAAAATGGTAAAAATTTGGTCTGTTAAACCAAATTTTTCAACGTTTTTTAAAGCTATTTTTAAAGGTTTTTGATTAATATCACAAGCATAAGCAATTTTAGTTTTATTGTTTTGAACTAAATATATTGGTAAATAAGCATGATCAGTACCAATATCAGCTATTGTTGTTGAGTTATTAATTAGTTTTGCAACTTGGTGTAATCTAAAAGATAACATTAATATCCTTTATAAAATTCTTTTAATGTTTTTCCAGATTTATTATTTGGTGATGGTTGTTTTAATTTTCTAATAGTTTTTGCTTCAATTTGTCTGATTCTTTCTCTAGTAACATTTAATTCTTTTCCAACTTCTTCTAAAGTTCTAGCTGAATCATATTTTGCTAAATTATTATTAATGATTTGATTATTAAATTTTCTAACTTTTTCAATTGGTGTATCTAAATGAATATCTAATTCTTCAATTGCTTGTTTTAATTCTTTAGCATTTGAATCATTACATTCTTGAGCAAGTCTTAATAAAGTTCTTAGTCTTGTTGGAACAATTCCATATCTCATTCTAATCACTTTTTCTTCTCTTGGTGGCATATCTTCAAAAACTTTATCCATTACTTCTTTTAAAATTTCTTTTTCAGTATATTCATTTGGAGAAACCATGTCTTTATCTTCAACAAAATCTCCAAAATGAGTATCATCTTCATCACCAAAAGGTTTTTCTAAACTTACTGGTTCAATTGAAAGTTTTTTAATTTCAATAACTTTATCACCAGTAATTCCTTCACCAACTCTATTAGCAATTTCATCAGCATTAGGTTCTCTTCCTAATTCTTGAGTTAATTGACGTTCAACTCTTGCTAATTTATTAATTGTTTCAACCATGTGAACTGGAATTCTAATAGTTCTTGCTTGATCAGCAATAGCTCTTGTTATTGCTTGACGAATTCATCAAGTAGCATAAGTTGAAAATTTAAATCCTTTTTCATATTCAAATTTATCAACAGCTTTCATTAAACCAATGTTTCCTTCTTCAATTAAATCTGCAAAATCTAATCCACGGTTTAAATGTTTTCTAGCAACAGAAATAACTAGTTTTAAGTTAGATTCAATTAATTTGTTTCTACCTTCTTGTACATCTTCAGGATCATCACTAACTGCCATTTTAGCATATATTATTTCTTGTTCTTTTGTTAAAATTGGTGCTTGACCTATTTTATAAAAATAAGTTTTAATAATGTCTTGGATTTTAGTTTCATTACTAATACCACCAACGCGATATTTCATATGATTTGATGACTTAGCTGATTTTCTACCTTTTATAGCTGCACTTTTTGCTTCTTTAAATTCATCTAAATCATCATTAACATTTTCATCATAATCATCTAAATTATTTGAAGTACTATCTAAATCAAAATCTAAATCATCAAGATCTTCTAAATTTTCTAATTCTTCTAGTTCTTCTAAATTAACATCTTCAATTTCTTCTTCTACTTCTTCTAGTTCTTCTTGTTCAATATCATCATCTATTAAATCTGAAAAAACTATTCCTTTTTGTTGTAAAACATCTAATATTTTTTCTGATTCATTATCTGATGCATTTGGAAAAATGTTTGCAAAAACTTCTAATACATCTTCAGATGAAATTTCATTATTATTTTTACTAGCAAATGAAACTGTATAATCTAAAAAATCATTAAATGAAGCAATCTTTTTTAATTCTGATTTGTTATTAAATTTAGCCATAATTACCTCTTTTTCTTTTTGTTTTTCAGAGTATCAATTCCATTTCAAATTTGAAATCTCTCTGTTTTATTTTTGCTTTCAACAAGCAGTTTTTTTAAATTTGAAATTTCTGTATCATTGTGATATGAATCTAGTTTACTAAAAGCATCATCAATTTCAGATTCTCGAATTTTTATACTTGTAAGTAAAGAATTATTAATAATTTCTTCTTGTTTTTTATCAAAGCCTGTAAGATTATACTCTTTAAGTAAGTCAAATGCTTTATTAATATCATTTCCTTGATAAATTTTTTTATTATAAAGATTAATTAAGTTAATTGTTGCGTGTTTTATATCTGGATGAATCATTTTATCAACATTAGCAGCTATTTTATCTAAAAATTGATCACTAATTAAAAGTGAGATAAAAATTCTTCTTTCAGCATTAATATATTCTTTTTTTATAAAATCATTTGGTTTTGATTTAGATTGTTGTTTATTAACTTTATTAGTTTGAGTATTTGTTTTAAATACTTGTGTTGTTGAATTTTTATTAAAACTATTATTTGGTTTTGATTGTTTTTTTAATTCTATTAAGTTATTTTTAATAGTTTGTTCTGAAATTTTAGTTAGTTCAACAAGTTTATTAATAGTAGTTTCAACTAAGATTTCATTATTAAGATCAAAAATAAAATTTAAAACTTTTTTAATGAAATTTTCAATTTGGTTAGGGTCATTAATATCAACTTTATTTCATAATTTGTCTATTAAATAATTAACAGGGTGAATTGGTTGATTAATAATTTGTTTTAAATATTTTACATTATTATTTACTAATTCATCAGGATCATTATTAGTTTGATTATCAATTACTAAAACATTAATTTTTTCTTTTAATAATTGGTGACTAATTTTAATATTTGCTTGAACTCCAGGATCATCACCATCTAAAAATAATAACACATCTAAATTGTGTCTTTTAAAAAGATTTAAATGATAATTAGACAAGCTAGTTCCCATTAAAGCAATTGTGTTATTAATATCAATTTTACTTAAACTAATAACATCCATAAATCCTTCTAAAACAATAATTTTTTTTAAAGATTTACTAATTTTTAAAGCACTAGCTATATTATAAGCTAAATGTGATTTTTTAAAAATTTTATTTTCTTTAGTATTTAAGTATTTTGGTTCATTATCTTTTGTAAAACTTCTACCACTAAACCCAATAACTTGATTATTTTCATCTTTTATAGGAAAAATAATTCTATTTATAAAATAATCTTTTGTATAACTATTTGTAATAATTCCTAAATTGGCTTTTTCAATATCTAAACTATTGTAATTTTTATTTAAAAGTTTTTGTACTAAGTTTGTTTTATCACTAGCAAACCCAATTTCAAATTTTTTAATTTGTTCAATACTAATATTTCTTGATTTTAAATATTCTAAAGCCTGAATTCCTAAATTTGAAAATAGTTTAGTTTTAAAAATATTATTAGCTTCTGAGTTTAGTTTAAAAATTGTTTCTGCTTCTAAATCTTTTATTGGCTGATTATAATTTTTGAACTCATCTAATGAAATATTTGCTTTATCACAAACAGTTTTTAAAGCAGTTAAAAAATCAACATGTTCAAAGTCTTTAACAAAATTAATTACATTCCCAGATGCTTTACAACTAAAACATGTATAAATTCTTTTTTCTGGTGAAATTGTTAAAGAAGGATTTGAATCATTATGAAAAGGACAAACAGCTAAATAGTTTCTTCCCTTTTTAATTAAATGCAAATAAGAAGAAATTACATCAACAATACTAACTTGTGAAATAATTTCATTAATTTTCTCATTTGAGATATATACCATGCAGTCACCTCATTAATCTTTTAAATATATTTGATTAATTAAATTGTGAGTTTAAAAAGTCTTTTAATTGAGAAATCAAAATTCTTTCTTGCTTCATTGTATCTCTGTATCTAATAGTTACTTTTTGATCTTCTAAAGTTTGAAAATCATAAGTTATAACAAAAGGAGTACCAATTGCATCTTGTCTTCTATAACGTTTTCCAATATTTCCTGTTTCATCATAAACAGCATCAAAATCATTTAGTAAGTCTAAAAATAATTGATTAGCATTTTGGTTTAATTGTTTTGATAAAGGGGTTATTGCTACTTGGTATGGTGCTAAATTATAAGGTAGTTTTAAAACTGTTCTTGAATTATTTTCTTCTAATTGTTCTTCAGTGTATGCTTGTCAAAAAATTGCTAACATCAATCTTTCAACTCCAACACTTGGTTCAATAACATTAGCTAAAACTTTTTGATTAGTTTCTTCTTTTAAAACAGTTAGATCTTCTTTACTTAAATTTTGATGAACTTTTAAATCAAAATCAGAACGGTGACTAATTCCTCACAATTCTCCTCAACCAAAAGGAAAATTAAATTCAATATCACTAGTTTTTAAAGCATAGTGAGCTAATTCATCTTTTAAATTTTCTCTAATTTTGTAATTAGATTTATCAAGACAAATTTTTTTAGTTAAAAATAACTCTATTTGGTCTAATCAATATTTAAATCAATCTTTTTGATCGTTTGGATCAAAAAAGAATTCTAATTCCATTTGTTCAAATTCTCTAGTTCTAAAAATAAAGTTACCTGGTGTAATTTCATTTCTAAAAGATTTTCCAATTTGTCCAATTCCAAATGGAAGTTTTTTTCTCATACTTCTTTGAACGTTTTTAAAATTTATAAAAATTCCTTGAGCTGTTTCAGGTCTTAAGTATACAATTGATGAATCATCTTCTAAAACACCTTGATTAGTTTTAAACATTAAAGCAAATTTTCTTATTTGAGTAAAATCTTTTTTTTGGCATTTTTTACATAAAATATTATTTTGTTTTATATAGTCTTCTAATTGAGCACTTGTCATAATTCCAGTATTAATTGATGAATCAAATTCTTCAATTAATTTATCAGCTCTTCATCTGCTCTTACAATTTTTACAATCAATTAATGGATCATTAAATCCGTCAATATGACCAGAAGCTTTTCAAACTTTAGAATTTAAAATAATTGAGCTATCTAATCCCACATTTAAAGGATTTTTTTTAACAAAAAAATCTCATCAAACTTTTTTTAACTTGTTTTTAACTTCACATCCTAAAGGACCATAATCTCAACTATTTGCTAAACCTCCATAAATTTCTGATCCTTGAAAAACAAACCCCTGATTTTTCAAGTGACTAATCATTTTTTCTATTGATTTAGACATATTTTTCTCCTAAAAGTAAGTAACTAATAAATTATAACATTTTTATAAATGTTATGTTTAAAACTAATTAAATCGAATTAGTGTAGATAATAAGTACATACTTGTTGTATATGTTCCTACAATATCTTGGTAATAATTTAAGATAAATCTAGTTAAAATGTTTAAATTGTTAGTTGAAATTTCTTGACTTAAGTTAGTTATAAAATCATTTTTAAAAATTGAATTTATAAAATTTGATAATTGATTATCTATTAATATACAGTCATCAAAATAACAAAATTTACAACTTGAACAATAATTAGTAAAACTAATTGCTATAATCGGATTTATTTTAGAATTACAAAACCCACATTTAGATAAATCGATTTGATTTCCAATTATTTTTAAAAAATAAAACATAAATAAAACACAAACCTTTAATCCTAAATCAGGTTTATTATTAATAATTGAAATACTTAATTTTAATGTTTTATACAAGTTATAATTTTTAATTTGTTCATCTAAACTTAATACTAATGAAGTAATAATATTTGCATATAAATACAAATTAAAATCAGTTGAAATATGATTAAAACTATTAATCAATTCTGATCTTTTTAATTTAGATAAATTAAATTTATTTTTTGATTTAAAAATCTCAAAATTTGAATATGATAAGTAGTTAATACCATATTTATTTTTACTTTTTATTTTATTAACACCTAAACAAACTAGACTAATTTTTCCATACAAATTAGAATAAATTGTAATAATTTTATCATAATCTTGAAAATCAAAACTATTTAAAACTATTCCCTTTAAGGTTTTTTCCATTAATATTGATCCTTGTTATAACCCATTTTTTTAATTAAACTAGGTGAGTTTCTTCAATTTTCTTGAACTTTTACAAATAGTTCTAAATTAATATGCTTTTTAAATAATGCTTGAATTTGTTTTTTAGATTTATATCTAATATCTGAAATTTTTACTCCATTTTTACCAATTATTATTGATTTTTGAGATTGTCTTTCAACTATAATTGCACAACTAATATTAATTTCATTTTCATTTTGTTCTAAATGCTCAACTAAAACTGCAACACTATGAGGTACTTCTTGACCAGTTTTTAATAAAATATTTTCTCTAATAATTTCTTTTATCATAAAACGATCTGATTGATCAGTTAAAATATCATCATCATAAAATTGATAATCATTATCTGATAAATTACTTACAATTAATTCTAATAATTTTTCAATATTTAAATTAGTAATTGAGCTTGTAATAATAATTTCATCAAATTGATCTTGATAATTACTTCATTCATTTGCTTTTAAAATCAATTGTTCTTTTGTAACATTATCAGCTTTAGTTATTACTAAAATTTTAAAAACATCCAAGTTTTTAATTTGTTTTAATAAAAATAAATCATTTTTTCCAATAGCTTCATCACTTGGAGCTAAAAACAAAATTACATCAACATCTTTTGTAGATTTTAAAGCACTTGTATTTAAAAATTTATCTAATTGTTTTTTTGAAGTATGCACTCCTGGAGTATCAATAAAAACAATTTGATATTGATCTTTTTTAGTTAAAATTCCTCTAATATTATTTCTTGTAGTTTGTGGTTTGTTTGTCACTATTGAAATTTTTTCTCCAATAAGTTTGTTTAATAAAGTTGATTTTCCAACATTTGGTCTTCCAATAATACTTACAAATCCAGATTTAAAATTACTCATTTTTTAATTACTTTCTAAATAATCATCTTCATTAAATTTAATTATATATTCTAAGTTATTTAGCTTTAAGATTTGATCTTGTAAGTCAAACATAATTTTTTCATCATTTAAATCTTCATGATCATAACCTAATAAGTGTAAAAACCCATGAACAAATAAAAAACCCATTTCTGAATTTAAATCGTGATTATATTTAATTGCTTTTCTTTTAGCTTCACTTAAATTAATAAACATATCACCTAATTCTCTAAAACCAATTGCTTTAATTTCATTTTCAGTCATTTCTACTGGAAAAGAAGTTACATCAGCAATATAAGAATGATTGCGATATTGTTGATTAATTTGTTGAGCTTTTAAATCATTTACAAATGTAATGCTTAACTCAATATCATAGTTAAAATTAAAATAATTATAAGCAGTTTTTAAAATTTTATTACAAAACTTTTTTCAAAAGTCCATATTAATATTAGTTTCATTAAAATAGTTGATTCTTATCATTTTTTTAATCCTTACTAATTAAATTATACTTGATATCATTACTTGTTATTATTAATGAACTATTTGAATAACTTGTAAATAATTTTAAAACTAAACTTATATCAGTTTTATTAATAATTTCAAAGTTATCATTAAATAATAAATAGCGATGATCTAAATAAAAAATTCTTAATAGTTTAATAAATTCAGTTTCTAGTTTTGTTATAGTTTCTAAATTAATAATTTTTGTCAAATTAATTTGGTACTTATTTATAAGATCTTTAATGATTTTATGAGTAAAAATATTTAAATCTGATTGATTAACAATAATGTTTTGTAAAACAGTTGAATATTTAATTTCAAGATTATCTAAATAAATAAAATGTTTATTTAAACTAAATGTTGAAATATCTTTAAGATTTATTTTATTAATTAAAATTAAAATATGATCTTTAGAATTTTTAGTTTTTATAAAAGTTTTTAAATCATATTCATTTGATAAGTAATTAATTTTTTGATCTAAATTAATATTTAAATTAGTTAAAAGATTTCTAATTTGAATATTATTAATTTGTTCTAGTTCTATATAGTTATTTGCTAATTTAAAATTATTAAATTTAATTAAAAGTTGTTTGTATTTATTAAAGTTTTGTAAAAAATAAACTAGTTTTTTTAAATCATTTGTATGAATTGCTTTAAATAAAACAATAATTAATAAAATACTAAATTCAATATAATTAAACTTTAATAAATCTCAACTTATATAATAAATCACTAATAAACTAATCTTTTCAAAAAAGTTAAATAAAATATGTAAATAATCAGTTTGATTTTTATTTAAATCTTTATTAATTAGTTCTAAACTAGTTTTTTTATCAATTAATTTTGTTTTATTTAATAAATGTGTAATTAAATTGAGATTTTGATTATTAGTTTTATTTTGATTTGTAAAAAAGTTATAAATAAAACTAATAACTAATCAAAAAAGATCAAAAACAAATAAAACTAAAAAAATAGTTTTGTTAATATAAAAAATTACAAATAAAATAACTAAACTATTAATTAGTGCACTAATTGTATTTAATAAAACATAAGTTTGATAACTACTTATAAACTCAATTTCGCTATAAGTATTTATAATATCTAGTTTGATATTTTTTTCAACTAAATAATAATAAAAAGTTTCTAGTTTTTTACTTTTGTTTTTTTGATAATACTTATTTAATAAAAACTTAGAAATTTCATTTAAAAAAATATTAATTATAAAAATTGCTAAAAAATATAAATACAAAAAATAAGAATTATTTAAATTTGTTATAGATAATGAATAAACATATAAAAACCGCATTTCTAAAATAGTTAATAAAATACTAAAAATATTTAAAATAATATAAAACAAATAAGCTAAATAAAAACTATCAAACAAAGTAAATAAATTATTATAATTAGCTTTAAATTTTTTATAATTAGAATTAAAAATTAATATATAACCTGTAAAGATTTGATAAAAATCTTTATAAGTGAATTTTTGTTTTTTTGTTTTTAAAGGGTCATAAATTATTAAATGATTATTTTGTTTTTCAACTACAACAAAATGTAATAAACCAGTTTGATTAATAACTTGAGCTAAATAAACTTTTTTATTTATTTGTTCTAAGTCATTTTCGATTTGTAAAGCTTTACAAGTTAAAAAATATTTTGAGCAAATATTTGAAATATCATAAAAACTTAACATTTCTTCAACATAATTGATTTCTAGTTTTAATCTATCTAAATCATAGTTTTGATTATAATAATAATTAATTATCATAGCTAAGCAAGCTATAGAACAATCATTATATTGTGCTTGTTTAATCAGTTTAATAAAAATCACCTCTCATATATGTATTAGAGGTGATTTTTTAAAATTAACCAAAAATTACTAAATTTTTATAAATTTCTTCTTTTTTTTCTTTTCCTAGTAGATATTCAACAATTGCTAAACTAAATAACATACTACTTCCAGCACTAGATCCAGTTATAAAATTATTATCAACAACAAATGGTTTATCTAAAACTACATTAGCTTTATCTAAATAAAAATTACAATTTGGATAATGAGTAATTGTTTTATTATCTAATAGTTTAGTTTGTCCAATTACTTGAGGAGCTGCACAAATTGAAGCAATTAATTTATTTTGTTTATTAAATTCTAAAATATTATCAATTAAAGTTTGATTATCAAATAAACTAGTAACTCCACTTCCACCAGGTAAAACCATACCATCATAATAATTAATATTTAACTCTTTTCATAATTTATTTGCTTTAATTACGATATTATGAGCACCTTTTACTTCTAGTGAATCAATTGTTGAAACCATATCAACTAAAATACCAGCTCTTTTTAAAACATCACAAGCTGTAACTGCTTCTATTTCTTCAAAACCAGGATTTAAGTACAATGCGATTTTTTTCATATTTCTCCTTTATTTAATTATACAAAAAAGAGTCTTTTGTCAAGACTCTATTCGTTTGAAACTGTTAGTAAACTAGCAGGTTTTTGTGTTCTAATTTTATTTGATGAAACAATTAATGAACCAATAAATGAAATACCAATAATTAAAAAGCTTACTATTAAAGTTCAAAAAGCAAATCCATAAGGTATTGCAAAACCTAAACTTGTAATAATTTGAATAATTAATGTGATTAAAATTCAAGTAGCTAAAGTTGAAATTGCTCACATAACTAAACTAAACACAATTGCAGTTCCAAAAGCATATTTACTAATTTTATAATTTGAATATCCTAAAGCTTTCATTAAAATCATAAACTGTTGATACTGAGTTACATAAATATCTGAAATTAACATTACTAGTAAAGCTGAAGTAATAATTACTGTAATTATTAATAACATTCCAATAGAAATAGCTATAAAAGTAATTTGATTAATTAAAGTTTTTGATGTAGCTAATAAGTTTTGATTTTTAATATTACTGATCATATCATCATCACCAGAAGCAGATGAAGCTCCATGACCATTTAAAATATAAAATCCATTATATGCAGTATCTGGAATAAAACTAATTCCACTAGTTAAATCTAATGCTTCTTCAATATTTGAATATTTAGCATTATGTCATAAAAACTGAGCTTTATCAAAAGCTTTATTTGAACTAAATAACAAGTCATTAAATTCTTTAGTGTTTTTAGTTTTATCTATATAATTTATGATTTGATTATAATCATATCTATCAAATCTTGAAATTATATTATTATAACTTTCACCAGCTTTAATTACAGTTTGTTTATTATAAAAATTATCTTTAATTCCAATTTTTTTACCAATTGAAAGATTTAATACTAAATTAATTAACCCTTGATCAGCTAAAATTAATTTCTGATTATATGAATCTAGTGTACCAACTGGTTTTATAGTAATTTTTAAATCTTTATTTTGATAATTGGTTTTTGCATCTTTTTGAATAATTGGTGTAGTTATTCCTGATATATTTTTAGTTTTTGTTGCTTGATACATTCAATATTCAGGTTTAGCTGTTAAATTACTTAAACCAGATTTATAAACATTATCAACTAATAAACTATATCTTAAATCATATGGTCTAATCATTAAAAACTTTTCACTAGTATTTTTAATATCTCAAGCTTTAATTACTGATTTTGGAACATTATTATAATCAATATCTTTTTTATATCAGTGTTCAAAAGAATTTTCTAATTCTTTATTTGTTTTTTTAGAACTAATAAAATGAATTATATGATCAGGATTTATTAAACTTTGAGGAATATATAATTGAATGTTTTTATATTGATAATAAGGTCTAATATATGAACTTAATAAATCATCAAATTGATTATTATAAATAAAATCATCAAACATATAACTATTATTTAATAAACTTCACTCTTTATTATCATAAGATGAATCATTATCAAATTTATCATTATCATATAATAGTTTTAAAGTGAATTTATTATTATCTAAATTATATGGATCTAATCATCTTATATCTTGATCACTAACTGCTTTACTATTTCTACCAGTTCTATTTTTACTAATTAGATTTTTTTGTTCAGAAGTTAATGAATTATAATATTTTGATTTAATAAAGTTTAAATCATCATAAATTCAAGCATGTTTTGGAATATTTACATATCCGTTTTTAGTATTTATAAAAAACTGTTTAGATGAAGTTGAAATATTAGAAATATCAGGATTTTTATTTAATTTATAAAAAGCGTTTGCTTGTTTATTTGGTAAAACAGGGACATTAATTGTATTTGTTTTACTATCATATAAAACAAATTGATCATTTAATTTAATATCAGTATTTTTCTTTTCTAAAAATACTTCTTGTAAAGCTAATAGTTTTTTATAATCAATAAATAAATTGTTAGCATTTTTTTGATTAATGATAAAAGCTGATTGGTTATTTGCAATACCAGTTAAACTTAGATCAGTCTTTTTTTGATTAATTGCTGTTTTAATATCAGCAATTGTAGTTAAAGTTTCATGATCTGGAATATAGTGTTGAACATTATAACCAATTGAAAATTGTTCTTTTCTTGATGGTTTTTGAATATAAGCACTAACATAAGGTGGCACTGCTTTTAAAATAGCATCAAAGATTTTTGTTTTTCAATCATCACTACTACTTGTTGATAAATCACCTACTAAAATTGAAATTGCTGTAGTTCCAGTTTTTGTAAAGTTATTAGTTAATTCTTTAAAAATTAAATCTTTTTGTTCATCAGTTCATTTAGTAGTTGTATCTTTTGGATTAACAACATTATTTTTTGAATTTAAAATCAAACCTAATATTTGATCAATAACTCCAATTGAAAATTGATTACCAACAACATTATATAAATTATTACCAAACATTTCAGTAAATAATAGATCTAATCCATTAGTATGATTTGCACTAGTTTGGTCTTTATTTTGTATTAGTTCTAATAAGGTTCAAGCTATTTTTTTATTAATTTGTTCATTATTATTATTATTAAATTTTTCAACTTTGTATAAATATTTTGGAAATGGATTGACATCATAAGAACTAGATGCATAAGCAGTTGGATCTTTATAATAAAATAATTCTTCATTATTCAAATTAGTTGATAGTATATTTTTATCTAAACTATCTTGACCAGATCAATAATTAATTGTTGGTTTTGTTAAAGGAGAATTTGAAACACCTTTTGAATAATTATATTCATTTGCATATTTAATACTTTTATAATAAGTATTTTTAATAGTAAAAGCAATTGATGGAATTGCTAAACCTGCTGAAATAAACATAGTTGAAATTCCAACAACAGTTACTAATAAAAAGATATTTTTTTTACCAGAAGAAGCTAAAGTTAAACTAAATTTAGTAGTAAACTTAGCTTTTTTAAATCAAGTTCTTTTTAATCTATTAATAAATTTAGAACTAGATCAATTTTGCTTTACAGCTAAAATATCAGCTAATTGTTTTTTAGTAATAATAATTGCACTTAATAATGAGACAATAACACCAAATAATCCAAAAATTAATAAACTAATTAATAACGAAAATGGTTCAATAGTAAATGAGTATAAAGGAATACTAAAATAATTTACAAACAATTTAACAAATACTGATTGAGTAGATAAACCAATTATTCAACCTAGTGGAACTGAAGTTAAAATAATCACTATCACATAAGCTAAATAACTAATTGAAATTTGAATAGGTGAACTTCCTAATGCTTTTAAAATTCCAATTTGTTTAGCATTAAAATAAATTGTTTTTCTAATACAAATTACTAAAGCAATAATTGCAATTAAAGAAACAACTAAAGCTGCTATTAAAGTAGCTCCTTTATAACTATTAATAGCAAGTGGAGCTATTGTTCAGTTAAATCTAAAAATAGAATGATCAAAATCTTTAATATTTAATCAAGTTGTAACTTTATTTTTTTGATCTTTTTGATATTTAATAGAATCATATAATTTAGAAATATCATTCATTTGATAAGAATTAAACAAATCAATTGAAGCATTATTTTGTTTTTTTCTTAAAAAAAATGATAAATATCCTTTTGATACTCTATTAGTATTTGATTGAGAAGTTGCTCCTAAAATATCATTAATAGTACTTCTAGTTACATATAAAATAGCACCTAGTTCAGATTGAGGAATTGGAAAATCTGGATCTGTTGTTTGGAAAAATGAATAAGTATCAGTAGCAAAACCAGTAATTGTTAATAATGCTCCATCAACTATTATTTGTTGACCTAATTTTAACTTGTGAGCTCTTGCAAATTGTTCTGAAATTAAAGCCTCACCTTTACTTGGTGATCTTGCACCTTGATTTTTATTTAAAATAGTTAGATTTGTTGTGTGATCATCATTTAAGATAACTAAACGATATCTAATTTGAGTAACACTATCATAATTAAAAACTTCAGTTCTAAAATTAATATCATACCCACTAGCTATAGCAGTATATTTTAAATGTGCTAATCAAATATTGTGAAATAAATTAATATTATCAAATGGATTTTCACCAATTATTTGATCTTTTTTAATAAAGTTAGTATCTGATAAAACAGTAACAACATTAGTTAAAGAAGTACCATTACCATTAAAAAATAATAATTTAAAAAATGAACTATCATTAATTATTGGACTAATTGATTGCACTTTATTATTTGAATCAATTGTTGATAAAACTAAATCAGTATTACCTTTAAACCCTTTTTCTAAAACTAGTTTTTTAATATCATCTTTAGAGTCTGCTTTTATTAAAACACTATTATCATTTTTATTAATAGTTGTTTTATTTAGTTCAAATTCAATTAGATAAGATTTATTAGTTTGAGAAATTATTCAATTTTTAGTTTTATTTTCATCAATATTATCAATTTTATTTCCTGTTAAAAAAACATAAAAATGATTACCTAATTTATTATTATTTTCAATTTTAAAATTACTAAAATAAGGTAAATAAATGTTTCTATAAATATGTTGAAATAAAGACATTCCACTTATATAAATATATGAAAATAGTTCTTTATTTTGAATTTGTTTATTAAAAGTATTTTTAAACTCTTTAACATTAAAATTATTTTTAATATTTTCAAATTTTAAATTTTCTAATACTTTAGCATCATTTAAAAACTCGTTTTTATCTTTAAAACTATTAGATAAATATTTTCCAATTACAGTATTTTTTAAATAAGAATAATCTTTATCATTTTTTAAAAATTGATCATAAGAGTGATAAACAAACTTATTAAAATGTAAAGAAAGTTGTCATAATCAAATATTTTCTCAAATTCAATTAGTATCTTTACCATTGATTGTTGTAAAAAGTTCAATAAATTCTTTATTTTCAAATAATTCAGTTAATATAGTTTTATTATCAAAATTACTAGTTAGATTTTTTTTATTTAATATAAAGTTTAAATATGAAGTATTTTTATTATTAGAGCTTTGATTATAATAAGAATTTGAATTATTAACTAAATCTAATAAAGCAATAACTGATCTATCTGTTGTTGAATTATTTCTATCAATTCTATAAGTTCTGATTTCATTAGTACTACTATAATCAAATTTATTAACATTATTAACTATGTTATTATAAGTTTTATTAATTCTTGAAGTTAATGTTAAAGAAGTACTTAAAATAAATGACGCTAAAAAAGATAATAAAAGAATGATAATAAATTGGATTTTAAATTTAAAAACACCTTTTAGACCTTGTTTTAATAACAATAAAAAGCTAGTTATTCTTTTCATTATCTTTCTCCATAAAAGCAAATCATTTGTCTTTTTAATACTATCATTTTTTTATCTAATCTACACTTTTAAAGGGTTTTTTAAAATAAATCAATATAGGTGTATGTTAATATTTAATTGATAAAATTTAATATTTACAAGGAGAATAGATGAAAAAAATATTAATAGGTTTAAGTACATTTTCTTTATTAGTTAGTTCATCTAGTATAGTTTCTTGTACAATAACTTACCAATTTAAAAATAACTATTTAGATCAATTAAAAATGATCTTAAACACTTCATCAATAGCTGCTCAATCAATTATTTTAAGTGATAAAAATACTACAAATATTAGTACTGATTATTCATTAAAAACTTTTAGTCAAACTAAAATTAGTGATTTGTATAAAAATGAAGAAAAAAAATTAGCTAATAAATATGTAATTGATAAAAAAGCTACTTATGAATATCAATTTAAATCAATGTTTTTATCACTTGAAAATCAAAAATGAACTGAAACATTAAAAAAAATAACTACTATTGATAAAAATAATCAAACTACTAATTTAGATTTAGCTTGAAATGATCAAAATACAAAAACAACTGATAATAATATTTTTAAAACTCTAAGTTTAGCTTCAGCTGGGTTTAATTTTTTATTTTCTGGTGATTTTACACCAAACCAACAAGGTGATTTAATTAATAATTTTTTATCTAATCAATTTGGTTTATTAGAATCAACTGTTTTTAAAGATAATCAATTTACTAATTTAATAGATCAACTTAATAATATTGATAATAATCAATTTTATAATCTTACTAATAGTTTATTTACTCAACCAGAGTGACTTAATAAAAATAATAATGAATTTTTAAAACAAACATTAAAAGAAATTTTAGAATCTTCATCAAAAAAACTATGAGATCAAATACTACCAAAAGCTGAAAAACAAGATTTTAAAATAGATTGATCAAAAGTATTTAAACCTTTAATTGATTTATTAAAGGCTTTTAGTATTTATTATGAACAAATAGAACAAAGATCAGATAAAAATTTAACTTATCAAACTATGGATCCTTTACATTTATTTAGTAAAGAAAAAACAAATAGTGAGTTTTTATATGAAGTTTTAAATACTAATTTACAAACTATTTATAAAAATAAAAGTGAAGATCAAATTAAACAAGAAATTAATTCAATTAATTTAAAAAAATTAATTAGCTTTTTAAAAAACACTTTAGTTTTTGATAATAATGATAAACACGGTTATAAATTTCAAAAATTTGTTGTTATGTTATTGAGTAGTGCTAGTCAAAAAGAATCACAAAATGATATTACTAATAATTTTTTACTAAAACCCTTTTATAATTGATATGAACAAAACCAAGAACTTGTTAAAAAAATTATTACAAATAAATTAGAAAAGATAGAAAGCATAAAACCTTATGCAAGTTTTGTTTCTAATATAACTCCTATTTTATTTAAAGTGATTAAAGCTTTTCATCAAGATTTAATTGAACAAGGTTTAAATAAAAAACTAAGTTCAGAATTAAGTAGTTATTTAAGTTTAGCAAAAACACTTTTACCAGCTCTTAAAGTAGATAAAAAAGTGATTGATTTTTTAGATTCAAAAAGTTTAAAGGACTTTTTAAATAATCCGTTTTTAGCTTTATATAAACAGAATTTTTTAAAAGAAGTTTTTGAATTAATTAATCAATTATCAAATAAAGAAATTATTAATAATCAAATTATTGATAATATTTCAAATGTTTATAATTTAACTACTTTAAAATTAGATAAACTACTTAACTACTTATTAGAATTAATTAAAAAACCATCACCAAGTAAAACTAGTTTAGATGAATTTCAATTTTTATATGGTTTAAAAGATCTATCAATCAGTCAAATTATTAACAATTTATCAACTTTTTATAATAAAGAAAACCTAAATTATATTTTTAATTTAAATAATTTTAAAAACTTATCAGAAGCAATTTTTAATAAAAATATAACTATGAGTTTTAAATATAAAAATCAAGAACAAGAATTAAAAACTCAAAATAGTTTATCAACTATTTTAACAATATTAGGTTTAAATTCAAATTATACAAAAGATCTAAAAATTGAAATCAAAGATGATACAAATAAAATTTCTGAAAAAATAAAACAACTAATTGAGCAAAAACAATATGGATTAATTTCAGTTATTCTATTAGGATTTGATGCTGATAAAAAACAATTTTATAAAGATTCTATTTTAGATAATATAGCTAATTTATTTGGTCATAATGATAAAGATATAAATAAAGAAGCTTCTAAAAATGCTATAAACATTTTAATAAAATCTTATTTAGAATTAATTAATTGATTTCAAAATGTCTCTTTAAAAAAATATGCCAAAGATAATTTTTCTACTTATTTAGATCAAAACAACTGATCAACTGAACTTATAGATAAAAAGGGTAATATAGAAAATCTAAGCGAACCATTAATAATAAATTATATGTTAAAATATAAAAACCCAAAAGATGATAATCAAAATTGAAAATTTAAAGTTTCAATAACAAGAACTTCAGATTTTGAACAACCTTGAAAAATAAGTGAAATAACTAAATTGACTAATAATTAAAATTTTGTTAAGTTGTAAAGTATAAGTTTAGGAGATGTTATGAAAAAGTTATTAAAATTACTATCATTAAGTTCAATTATAAGTTTAACTACAACTACTATAAGTTGTAGTGTTAATAACTCAAATACTAAAAATAATCTTGTTATACCAACTACAAATAAAAAACCTAATAATAGTTTAGATACAAATTCTAAAAGTGATAAAAACCAAGATAATAACTCAACTCCTAAAAATGAAGAGTTTAAACCATCAAATAATGATAGTAATCAAGGATCAAATCGTAATTCAGCTAACAGTGATAATCAAATTAATAACAATTATTCCAACAGTGAAACTATAGCTCCTATTGATAACAGTGGTAGTGATACATTGAACAAACAAACTTACTTCTCAACAATTTCTAATCTAAACCATGATTTAACTAGCTTAGAAAATAACTATTTAGAAAAAGTTAACAAGGATTTTAATGAAATAAATATTAATGAAAATGATGTCAAAAATATTATTTTAAAAAATAAAATGCCAATAAATTTCTATTCTCATCCTAAATACAAACTAGAAAATCAAAGCGTAACATTAGATAAATTTGCAAATAGCCAAGCAAAATTAAAACTTATTGATAGAGACACTAATAGAGAAGTTCCAAATGATCAAATTAAATGATACCAACGAATTTCCTATCCTGAAGATAAAATTATTACACCAAATGAAGATCAAAATAAAGCAACTTTCTTATTATCTAGTGATGGTACTATAAAATGAAAAGATACTACAGAAGAGAGTGGAAGAGAAGTTGAAGAAAAATTTGCTAGACTGTGGGCAAATTACAAAGGTTATTTATATTCAGCAATAGTAAAGGTTTATTCAGCAGAAAAAAGTAAAATATTAAAAGATGAAGATGAAGCTGTAAAAATGGCTAAAAAAATTGTTGATGAAAATGGTTGAAAAAATTTACCAGTTTTAGAAAAATTAACAAAAGCCTATGAATGAATGACCAAGAATGTTAAATATGATTATGATTTAACAACAGGACCAATTTTAAAAAATCAAAACGCACACTCAGCTTTAGTAAATCTAAAAACTGTATGTACTGGTTATGCTAAAGGGCTTAAGCTAATATTAGAAGAATTAGGAATTCCTTGTAAATTTATGGAAGGTCAAAGCAAAAGAGAAACTTCTCATGCTAAACATGCTTGAAACTTAGTGCAATTAGATAACGAGTGATATCACATTGATACAACATCAGATAGAACTGATAATATAACTAAATTTAATTTCTTTTTAAATACAAATGATGATTTCTTAGAATCAGATATTTTTGATAATAAATTCAAAGATCAAGGATCACGACTAAGAAACCTAAAATTTAAAAATTTTGTTGAAACTGAAGAAGATGTTCTAGTATTAATTGATAATAATTTTAACCCAACCAATAATCTAGTTAATAGAATTAACATGGTGGTTGATAGAGGTAATTTTAGCATTGTAAATAAAGCTCTTAAAGAAAGAAATTTAGATGTACACAACTGAAATTATGGTACTAACACATCTGCAAGCCCTAATAAGTCAATTATCTATACATTTAATAATAATTTTAAACAAAACATAGAAGACATAAAAATTGAAAATGTCACACAGTATAATAACAAAAATGCAATTAAAATAGAATTTGACAAGGGAGTTAAAGATTTAAAAGCCGGCAACTTCAATATAACTAATGCTCTAATTAGAAGAATTGAACAATTACAAAATGGAAAAACATATATTTTATATTTAGAACACTTTTCTAATTTTGGACAAATAGAAGTGAAACTAGAATCTATTAAAAGAAAAGATTACAAATTTGAAATAGATAAAGAATATAAAATAAAATTTAACATTAAAAAACAAGAACAACCTAATATAAAAATTCAATCAATAGATAATAATAAAATTAAAATTATCAATGAAACTAATAACTTGGAATATAGTTTTAATTATAATAGTTGAAAAGATGTCCCTACTAACGGAATAATAAAAGATGCTACTATAGGCAAACTATATGTTAGATATAAAGAAAATGAAAATAGTCCAAGTTCAGATATTGTAGTTTTTGAAATTCAAAAAGCAAGTGAAGTTGATAATCTAGTTAAATTAATAAACAATAATATGTTAGTTGGCCTAGATAATAGTATGGAATATAAAAAAGAAAACGAGGAAAAATGAACTTCAATTTCAAAAACAATGCTAAAAGATTTAAATAAAGGAACTTATTGAATTAGAACAAAAGCTTCTAGTTCAACTCTAGCTTCAGATATTTCAAAAGTAGAAATAAAATAAAGACATTCACTGGTATTTAATTTATTAACTTTAATTAAAGATCTAAGGAAAAGATTATGAAAAAATTACAAAATTATCTTAAATTATTATCATTAGGTTCTGTTGTAGTTGTAGCTATGACTACTATAAGTTGTAATATTAATAACTCAAATACTAGAAATAATCTTGTTATACCAACTACAAATAAAAATCCTAATAATAATTTAAAACCAGGAAATAGTCAAACTTCTCAAAATAATAGAACTCCTGAAAACCAAAATATCGAACCATCAAGTAATGAAGATTCAAGTTCAAACAATAACAATTCAAATATAGATAATAATAATTCTTATCCAGAAAATATAGACCACATTGATAATAACGACTTTAACAACAACATAAATCATTTTTCTACTATATCAAATCTAAATTACTCACTAAGTAGTTTAGATAACAATTATTTAGAATATCAAGAAAAGGATTTTCAGCCGATTAATGTTGAAGAAGCAAAAATTAAAGAAATTCTTTTAAATGATAAATTACCTTTAAATTTTTATTCTCATCCTAAATACAAACCAGAAAAGCAAAATATTTTTATAAATCCTAATGAAAAAATTAAACTTAAATTAGTTGATAGCAAAAATAATACTGAAGTTAAAGATGATGTTAAATGATATCAACGATTAAGATATCCAGAAAATCAAATTTTAAAAGCTGGAGAAGATAAAAATGATAAGTTAACATTATCAACTGATGGAACAGTTATTGGAAAAACACATACAAAAGAAAATGATCCAACAACTTTAATATGAGCTGGATATAAAGGTTATTTATATCCTTTTTTTGTTGAAGTTTCTTCACAACACCACTACAATGGTGAATCAGATAAACAAAAAGCTAAAAAAGTTGCTCAAGAATTAGCTCAACAATGAAAAGACTTGCCTACACTAGAAAAAATAACAAAAGCTTATGAGTGAATGACTAAAGAAGTAAAATATGATCCTGGGTATCAAACAAATAGTATTTATAAAGATCAAACTGCATATTCAGCACTTGTTGAAAAATGTACTGTATGTACTGGGTATGCTAAAGGATTTAAGATGATTATGGATGAGTTATCTATTCCTTGTATAGTTATGGAAGGTCAAAGCACACGTGATTTTTGAGCTGCAAGACATGCTTGAAATTTAATTGAAGTTGATGGTGAATGATATCATGTTGATGCAACTTCAGACAGAACCAATAATGAACAAACATTTAACTTTTTCTTTAATAGTAACGATGATTTTAATAAAAGTGATAGTTTTCAGCGCAATTTAGGAGTTTATGGTTCTAGATATAGAAATTATAAAAATAATAATTTTGTTCACTCAAAAGAAGATACATTAGCATTAATTGATAATCAAATTTCAGATAAAAAAGATCAAACTTTATCTTTAGAATTAACTTCTGATAATTTTATAAATGTTAATAAAGCATTTGATGAAAGACAATTAGAAGTAGAAAAACATACTAAATTAGAAACCAAATTACCTTTTAAAAGAATAAAATATACACTTAAAAATAAAAATACCACTGAAATCAAAACATTAGAAGCAAAAATTAAAAAAGAAGAAATAAAAAACAATCCTTTAGGTATGTATGCTTTAAAAGTAACATTAACTTTAGATACAAATATTCAAGATCTTAAACCAGGAAATTTTAATGTGAAAAATGCAATGGTTAAAGAAGTTAAAAAAGTTAAAGATGGTTATATATTATTCTTAGATAACTTTAGTAAATTTGGTAATGTAGAAGTCGAACTTCAATCAATTAAAAGACAAGGATTTAAGTTTAATTTAGATCAAACTAAATTTCAATTTGATGTTAAAAAACATGAAAAACCAAATGTTAATTTAAAAATAGACAAAAATAACAAAATTGCTCTTATTGGTTCAAAAAAAGGAATGCAATATAGAAGTAATATGGATGGGTGAACAGATATAACAAAAGATGATTTTGTAATCAATAACCCTAAAGTAGGAAAACTATCTATTAGGTGAAAAGATTATGATAATAAATTTGCTTCAGACATTCAACTATTTGACGTGCAAAGAGCTAATGATGTTGTTAATAAGGTTAAGCTAGTAGACAATATGCTTATTGGTCTTGATAACACTATAGAATATAAAAAAGAAGCAGATACTTCATGAACAAATGCTACAACTCAAAGATTAAATTTAACTAGTGGAACTTATTGAATTAGAACAAAAGCTTCTAATTCAACTTTAGCTTCAGACATTTCAAAAGTAGAAATAAAGTAAAAATAGTTAGTAATTGTCACTATTACTAACTATTTTTTATTTTTCATTCTATTATATAATTCATAAACTTTAGATTCATACTGATTATTTTTGTGATTATAAAACTTTTTGTTTTTAATTTCATCTGGTAAATATTGTTGTTCTACTCAATCATTTTCATAATCGTGTGGGTATTTATAATCAATTCCTATACCAAGCTTAATAGCAGATTTATAATGATTATCTTTTAGATGTTTTGGTACATTATAAATGTTTCCATTCTTAACAAAGTCTAAAGCAGAATTTGTAGCTAAATAAGCTGAATTAGATTTTAAACTTAAACTCATTTCAACAATTGCTAAACCTAGTGGTATAATTCCTTCTGGAAAACCAATTTGTCTAAAAGCATTACATGCTTGAACTACTCTACTTGGAATTGTTGGATTAGCTAAACCAATATCTTCATAACCAATTATTATCATTCTTCTCATTAAGCTTTCATAATCACCTGTTTCAATTAACCTACTAAAATAATATAAAGCAGCATCAACATCACTACCTCTAATTGATTTTTGTAATGCTGATTTTAGATCATGAAAATCATCACTATCTTGAGCTGTTGGATTTTTTGAAACTGTTATAATAGTTTTAATTTTTTTTATATCTATAAATTCATCACTATAAAGTCTATGGATTAATTCTAAATAATTTAAAAAAGTTCTAACATCACCAACACTTAGTTGAGCTAAAAAATCTAAAGCTTCATCTGAGATATTAATTTTTAATTGATATTGATTAATAACTTTTTTAGCATAACTAATCAATTCATTTTTATTAACTGATTTTAATTCTATTAATAAGCTTCTACTTCTTAAAGCGGGATTAATTACAAAAAATGGGTTTTCAGTAGTTGTTGAAAAAACAAAGATATTTCCTTTTTCCATATATTCTAATAAAATATCTTGTTTATCTTTATTTAATCTATGTATTTCATCAATTATTAAAATAAATCTATCTTGTAATAAAGCTTTTTGAATAATACTAGTAAGTTTTTCTTTTTTATCATAACTTGCATTAAAAATTTCATAATCAATTTTTAGATCATTTGCTAAACTAATTGCAAAACTAGTTTTTCCAACTCCAGATGGACCATAAAAAATTAATGAAGTACAATAATCATTTAAAATCATTTTATTTATTAATCCATTAGACTTTAATATTTCAGTTTGCCCGATTATATCTTTAGTAGTTTTTGGTCTTAATAAAAAAGATAGTGGTTGATTCATATTAACACCTCATTTCTATTTTATTATTTTTTAATTACTCAAATCTTATAGTTAAAAATAAAAACTCACAATTTAATTGTGAGTCACTTATCTATAAATTAGATTGTTTGTTGATTATTATTTTTAAAAATTATTTCATAAACATCTTCATATTTTGAAACAGGAGTGATTTTTAAAACATCTTGAACTTCTTGAGGAACATCTTCAATGTCTTTAACATTTTTTGAAGGAATTAAAATATGTTTTAAACCACTTCTAGCTGCTGAAATAGATTTTTCTCTTAACCCACCAATTGGTAAAACATTACCTCTTAAAGTTATTTCTCCAGTCATTCCAAAATCTTTTGAAACAGGTTGTTTAGATAAAGCTGAGATTAAAGCTGTTGTTAAAGTAATACCAGCACTTGGTCCATCTTTTGGAACAGCTCCTTCTGGAACGTGAATATGAATGTCAATATCATCAAATTTGTCTTTTGAAATTCCAAATTTTTCATGATTTGCTTTTACATAAGTTAAGGCAATGGTTGCAGATTCTTTCATTACTTCACCAAGTTTACCAGTTAAAGTTAGATTTCCTTTTCCATTATAAGTACTTACTTCTATTGGTAAAATATCTCCACCAAATTGAGTATAAGCTAAACCTGTAACAACACCAACTTGTGATTCTTCTTCTTTTGAAGTGTGTTCAAAAATATGTTTTCCTAAATATTGAACTACAACTTCTCTAGTAACTACTAAGTTAGTAATTTCTCCATTTAGAAGTTTAACAATAAATTTTCTAGCAATTGTTGCTAAATGTCTTTCTAATTGTCTTACTCCAGCTTCTCTTGTATAGTATTTAATAATTTCATCATAAGCTTCATCAGTAAATCTTAATTCATCTTCAGTTAATTGATCTTCTTCAAGTATTTTTTTAGTTAAATAATCTTTTGCAATATGCATTTTTTCAATTTCTGTATAACTAGATAAATTAATAATTTCCATTCTGTCATATAATGCTTCTGGAATATTTTCAATATAATTAGCAGTTGCTATGAACATAACAGTACTTAAATCATAAGGTTCTTCAATATAATGATCTGAAAATTCTTTATTTTGTTCTGGATCTAGTACTTCTAGCATTGCTGAAGCTGGATCTCCTCTATTATCACTAGCCATTTTATCAATTTCATCTAGTAAGAATAATGGATTTTTAACTTTAGCTCTTTTTAATGCTTGAATAATTCTACCAGGCATTGAACCAACATAAGTTTTTCTATGTCCTCTAATTTCAGATTCATCTTTAACTCCACCTAGTGAAACTTTAACAAACTTTTTACCTAAAGCTTCAGCAATAGATCTAGCTAAACTAGTTTTTCCAACTCCTGGAGGACCTACAAATGTAATAATAGGACCTTTTAATGATTTAGTTTTTTGTTTAACAGCTAAATATTCAATAATTCTTTCTTTAACTTTTTTTAAACCAAAATGATGTTTTTCTAAAATTTCTTGAGCATATTTTAAATCATCAATATCTTCTGATTGTTCTCATCAAGGAATTGACATCATTCAATCAACATAGTTTCTTTCAACATTAACTTCAGCACTGCCCGGTTGCATTGTTTCTATTCTTTTAATTGATGATAAAATCTTTTCTTTTACACTTTCAGGAAATGGTTCTTCTTCTAAACGTTTTTTATATTTATCTAATTGAGAAGCATCAGAATTTTCATCATCTAATTCTTCTTTAATGATTCTCATTTTTTCTCTTAAATAATATTCTTTTTGTTGTTTATCCATTTTATCTTTTAATTTTTTATTGATTTCAGAATCAACAGTAGAATTATTATTTAAATTATTATTTAGTTTAACAGTTGATTTTGGTCTGTTAATAATTAGTTCTTTTAATAAGTCTAATTTTTCTAGTATAGAAGTAGATTGAATTAAAAGCAATTTAGTGTTTAAAGAAACTAGAGGCATTTTGTCAATTATTTGATAAATTAATGAGTTTAATTTATTAAAGTCATTTTCATTAAATGCTAAAAGTAATTCAGAAGTATTAAATGAATGTTTTTCTTGTAATTCTTCAAGAGCTTCTTTTATTTTAGTTTTTTGAGCATCTGTTTTTGGTAATTTGTCTTCAAAAACAGAACCAATAGCATAAATAATATTATCTTCTTCAACAAATTCATCAATTTTAATCTTTTGATTATAGTTTAATTCAACTGAAATAGTGCCATCTTTTCAAACTTTTTTAACTGATAAATCAGCAACTGTTCCTAAATAAAATAAATGCTCTAAATTTGGTTCTTCTTCTAAAGGACTTTCTTGAGAAACTACAACAATTTGGTTATTATACAAATCAGCAGAAGCATCTAAAGCATTCTTACTTTTAACTCTTCCAAACTCAATAGTTTTAGAAGTACTTGGTAAAATAAATATTCCTCTAGTTACAACAACAGGTAGCTTTATAGTCTTCATAAAACTCACTCCTTTTATTTTCTTTAAATATTGTAACACACTTTTTTAGCACTTAACATACTAAAGTGCTAAATTAATAAAAACTATCCTCTAAGGATAGTTTAAATTTAATTTATTGTTTATTAATTTCCGTTGTTTTCAAAAATAAATGTTTCTAATAATTCTGATTCAACTTGGTGTTTAATAGCTTGATTATCAATTAATGATTTAATTTTTTCAGCTTCAATTCCATAAAGATTTGCAAATTCTTCAAATTTAGCATTAATAGCTTCTTCACTTGCAACAATATTTTCTTTATTTTTAATTTCACTTGCAACTAAAAATGACTTAATTCTATGAGTAGCATCACTTTTTAGTTCTTCATCAATTTCTTCTTGAGTAATTTTTGTAATTTCTTTATATTTATCTAGTGTAATTTTTTGTTGAGCTAATTGATCTTCAAATTCTTTTTTAACATCTTTTATTTGTCTTTCAATAATTGTTTTTGGAATTTGGAATTCTGAATTTTTAATAATTTCATCAATAATGCTTTCAACAAATTCTGATTTACTAATTTTAGTTTTTTGTTCTAAAACATCTTCTTTAACTTTTTGTTCTAATTGTTCATAAGTAGTAATGTCTGGTAAGTTTAAGTCTTTAACTAATTCATCATCTTTTGCTGGTAGAATTTTTTCTTTAATGTTTTTAATATTTAAAACAAATTTAGCATCTTTTCCAGCTAATGATGGGATGTATTCTTCAGGGAATTTAACATTAATTTCTTGATTTTCACCAACTTTTAATCCGATCATTGAATCTTCAAAACCAGGAACAAATTGATTTGAACCAATTTCTAAAACAAAGTCTTTAGCTTCTCCACCTTCAAAAGCTTGATCATCAACATAACCTTTAAAATCAAAAGTTACAATATCTCCTTTTTGAATTTGATCATCAGCTTGTTTTTCTTTTTGCATAGCAAATCTTGAACGATACATATCAATAACATTATCAACATCTTCTTGATTTACTTCAAGAACTGGTTTTTTAACAGTTGTTATGTTTTTATATTCTCCAACTTTTAATTCTAAAACTAAATCAAAAATAAAATCAATAACAATTTCTTTATCTGATACTTTAACAATTACAGGAGTTGGTGAATTATCATTTTGAATTTTATTTTCTTGGCTTAAAGCAAAATCAAATGCTGGTTTAACAACAATTTTAAAAGCTTCATTATAAATTTTAATTGGTGTTAAATATTTAGCAGTTTCACTTTCAGGAGCTTTACCTTTTCTAAATCCTGGAACTACTAAATTAGCTTTTAATCTATTTTTAGCTTTTTTTAAAAATTCTGTTCATTGATCATCTTGTATAGTAACAGTTCATTTCCCTTGACCTTGATCAACAAATTTTTCTTGTGCAAAAATCATTTTAATATTTCCTTTTCTATCTTATATATGATATATTGATGTTTTTAGGTTTCATAGAAATTGTTTGATTAATTGTTTTATCAATAGCTTTAAAAATTTTATCTTCATTAATATTTAAATCTTGTAATTTTTCATCACCAATTTTAATAGTTGCTAAAATGTGTAATTGATTTTCATCAAGTACATAAATTGAAGATGAAACATTTTTAGGATCAGAAATTTTAGTCATTGATAAAATAACATTTTCAACTAATCTATTAATAACTTTACTTTCTATTTTTAAATTACCTTTAGAATTTTTTTCAATATCTATATACATATAAATACCTCTATTAATTAGGCTCTTCCTACATATTTTCCATCAGCACTTGAAACAATTATTTTAGTTCCTTGATTTACAAATAAAGGCACCATTATTTCTAATCCAGTTTCTAATATAGCTTTTTTTTGAGCCCCACTTGTAGTATCACCTTTAACAGCAGCCTCAGCTTCAACTACAGTTAGTTCAACTTTAACAGGAAGATCAATACCTAAAACTTCATTTTCAAATTCAGTCATATTAATCATTAAACCATCAACTAAAAAGTTTTTTTCTCATTCTAATCTAGTCATTGGTATTGAAACTTGTTCATAAGTTTCTGTATTCATTAAATAAGCATCATTTCCATCATTATATAAGTACTGCATTTCTTTTCTTTCAATCATTGCTTTATCAACTTTTTCACCACCTGTAAAAGTTAATTCAACTCTAGCACCAGTTCTCATATTTTTTGCTTTAACAGTTACTTTTCCTTGTTGTCTTCCTGTTTTTGAAAATGCTTGTTCTAATACTAAATAAATATTTCCATCATATAGAAATGTTGTACCTGGACGTAAATCGTTAACTGACATTATATTCTCCTTTATAGCTAATTAAAAAAGCAAAATTCTTTATAATTATATCATTTATTTATAATTGCTTATTTGTTATTTTATGCTTAGTCAAACTTATCGTTTATTTTTAAATCACTTAATTTATTTAAATAATAATTAGAAGCTAAAATCATTTTTTTACCTTCTTTTTGAATTTCTAAAATTAATAAAGCTTTATCTAAAGTTTTAATAACTATTCCTTGCTTATTAATATCAATAATAGTTCCAGGCATAACATTTTCATTTTGATTATCTAAATCAATTACTTTAGAACTTTTAATTTTATATCTTTGATTATTAATAGTTGTATATGAAATAGGACTTGGTGATAGTGATCTAATTAAATTAAAAATATCTAAACTAGTATTATTTCAATTGATTTTTTCTTCTTCACTAGAAATATTTTTACAAAAAGTCACTTCATTTTCATTTTGTTTAATTAACTCAAACTTATGATTATAAATATCAACTAAATATTTTTTACACATACTATAAGCTAATTGACCCATTTTTTCAAACAAACTACCAGAATCATCACTATCTAAAATATCAATACTTTCTTGAACATAATAATCACCAGCATCCATTTGCTTAACCATTTGCATAATTGTAATCCCAGTTTTTTTATCTCCATTTTTAATAGCATATTGAATAGGAGCTCCCCCTCTTAATTTTGGTAATAAACTACCATGAAAATTAATTGAATCAATTTTTGCTAATTTTAAAATTTTAGTTGGAATAAACTGACCAAAAGCACAAGTAATTAAAAAATCAAACTCTAATTTAGCTAATTCATCATAAATTTCACCAATTTTATTTGGTTGAACAACTTTTAAATTATTTTCTAAAGCTAATTTTTTAACTGGTGTATAAACTATTTGTTTTTTTCTACCAATTGGCTTGTCTGGTTGACTAATTACTAAAACAACTTCAACTTCATTCATTTCAATTAAAGCTTTTAAAACATCAGCTCCAATTTTTGGAGTGCCACAAAAAACAACTTTAATTTTATTTTCCATGTTTAGCCTCTCATATTTTTATTATTTCATCTACTTTTTTTAATATTACTACCATAGCTAAAGTATCTCTATTACAATACTTAATCATATCTTTTCTAATTAAATTATCTCAAACTGTTCTTTCAATTCTTTGTTCTAAAAATCTTCTAAATGTTTCGCTTGCTTTACTTCCATTATTAATTGTTAAATTTTTATAAGTAAAAGTTGAATCTAAAGCAGGTTGAGTTTTTTTAATAGAATAAGAACCATAAAAATTTTTATTTGCAATTAAAAATCAAGGCCTAAAATTAGCATCAATACTACTATCTTGTTTTACACCTTTAAAAAAGTCCATTAAATCAATTGTATTATTAACAATATATAAAATCGGTATTGCTAATTTTGGAAATAAAAAGGCAATTCTTTTTAAAACAGATTTTTCAAAAGCATCATTATAAGCAACATAAACACCTTTTTTATTACTAAAAATATCTTTTAAAAAATTAATAATAAATTCTTTTCTTGGATCTTGATAATCATTTGCTAAAAAATCATAATGAATCATACTATCTGGATTATTATAATCATAGTTTTTATCATGAATTATATCAATTGAGTATTGAAAAGGAATTTGATAATAAGGATTAACTTTATTATATTTTGGTACAGCAAATTTAACTGTTTCAAAATCATACATATAAATTGGTAATGTTTTATATTTATTCATTACTTGTTTTAAAATATAAAAATAATTATTATCAATCATTAATGATGGATCTGATTTAATTTGATCATCTAATTTACTAATTTTAAAAATACGATTATATTTATAATTAATAAATTTATCATATTGATCATTTAATAAATTAGTAATTTCACTATCTAATAATGAATTATAATCTTTAAAATATGGTGAGTGTAAATGTCTAATTAAAAAAGCTTTTTGCGTTTGTTTAGCTCCTCCAAAATGTCAAAAATTAGGAGTTTTTTCATCAAATCAATTTAATACGTGTTGACAAGCCTTATAATCTGAAATTTCTCTAGTTCACTTAATTCAATTTTTACCTTTTTTATCATAATGTAAATAACAAGAATCATTTTTAAAAATTTCTATAATTTGATTTTCATCTAATCTTAACATATAAGCTATTTTTAAAAATAATTCATCTATATCAACAACATTAATTAAACTTTTATAATCTTCAATTAATGTATTTCTAGTTTTTGCTTGACCATAAGTAAAATAATCAATTTCAATTAATTTATTTAAATCTAAATCATCAATTTCATCTATATTTTTAAATCCTAAATCTAAATCACCAATATTATCAACAATTTTTTTAGCTTGATCAAAACTAATATCTTTATATTGTGATACAAATTCTTCAATACTTGTTTTTAAATCAAAATCAACATTACTATCATAATCTCTTAAATAATTTTTATTTAATCTGGCAATCGCAATATTATCAACAATATAACCATTTCTTTCTAAAACATACACTTGATAAACTAAATCTCAAAAATGTTCTTTTTTAACTTTACTAGTTGCTTTTGCTTCAATTATTTCAACATGATTATCACCATTTAATTTCAAAACATCACATTTAACTTTTAAATTAAAATTATCAAACTCAAAAGCTGGTTCATATAAATAAACATATTGATCTTGGTGATTTTTTAATAATTCTTTAGTTTGATTAACAGCATCATATATATTTGCTGTGTCATTAAAATCTTTAGTTAATTTATTTGGATATTCTTTGATTTGTTTTAAATCAAAATATTCAATTACTTTTTTACCAAATTCTAATCCATCTTCAATAGCATCACCTTTAAACTCATCAAGTCTAAACCCATCATCACTATTAAAAAAACTTTCTCACTTTTTTAAAAACTCATCTTTTTCTTGTTCAGTTTTTAAATCTGTGTTTGTGTATTCTTCAAATAAATTAATACTAGTAGAATCACTTGAAAAATCATCTTCAGATTCTAAATCATGATCAATATTAAAAAAATATTTTTTAGTTTTATTTCATTCAACAGCCTTTTTAAAATTATTAATATTTTGCAATATTCAAGCGATTTTAATACATTTTAAATTAGCGATTTTAAAAATTTCTTTAGAAATATTAATTTTAAAAATACTATTCATAAATTATTCTTTTCTAATATGCTAAGTAAAATTATACTTTATTAAAAATAAAAAAGGCATCATTAGTGCCTAAGTTTAATTACTTTTAGCTCTTGAAGGAACAAACTTTTTATTAGAAATATTTAACTTTCTTTCTTGATAAATATCTAGTGATCCTTTTTGAGATTTTTGTTTTTCTTTTGCTTTTTTTAGTTGTTCTTTTTCTTGTTGAGCTAATTTTTTAGCTTGCATTTTTTCAACTTCTTTTAGTTTTTGTTTTTCAGCTTTAGTTAATTTAATAGTTTTTTCACCAATTGCTATTCTTCTTTTGGTTTCTTCTAAATCAATTTGACTATTAACTATTCATTCAGTATTATATTGTGATTTATTAACTTTAGTAGTTAAACCTTCAACTTCATATGCTCTAATTTCAATTACTTTTTGAGTTTTTGGCTCAATTAATTGAACAATAACATCAAAAACATCTCGATACTTATATTCAGCACCTTTTCTAGCATACACTTTTTCAAATTCGATTCTTAAATTTTTTTTATGTTCATTTTTTAAAATGTACTCTTTAATTTTTTCTCTTACTTGATTGTATCTTTTTTCTTTTTCTTTTTTGTTTGCTTTTTTACCTGTAATAGTACTTCAAATTACAAAACCAACTACAAAAACTAAAAGCACAATCATCAATATTGTAGATGTTTGCATAAAATCATTTCTTTCTATAACAATATAATTATAAAGTATTTTATTTTTATTTAACTACTTTATCAATAACAGCTCCACCTAGACAAATATCATCTAAATAAAAGACAGCTTGTTGACCTATTGTAATTGCTTTTAAAGGTTTTTCAAAAATTACTTGATAATTATTATCATCTATTTTTTTAACTACTACATTATTATCATTTTGTCTATATCTAAATTTTGCTTGACATTTAAACTCATTTACATCACTTACATATTTAGATAAATCTAAAATTCAATTAATATCATTTACAAAACAACTTGTTGAATATAAATAACTTTGATCAGATGTACTACATACATATAAAATCTTTTTTTCAACATCTTTATCAGCTACATAATAAGGTTCACTCATTCCAGATAAATGAATACCTTTTCTTTGACCAATTGTATAATACATTATACCTATATGTTGTCCTAAAACTTTATTAGTTTTAATATCAACAATATCTCCAGTTTGACTTGGAATATAATTTTGTAAAAAATCAGTAAAATGACGTTCACCAATAAAACAAATTCCAGTTGAATCTTTTTTATTAGCTGTAATTAAATTTTGTTCTAAAGCTATTTTTCTAACTTGTTCTTTTGTTAGATTTGCTAAAGGAAATAAAGTTTTACTTAATTGATTTTGATTTAATTGACTTAAAAAATAAGTTTGATCTTTATTAGTATCACTTGCTTTAATTAATTCATATTGTTTTGTTGTTTTATTAAATTCAACTTTTGCATAATGACCCATTGCAATATAATCAGCGTTTAATTGATTAATTGCATAATTTAAAAACTTATCAAATTTAATATATTTATTACATAAAATATCTGGATTTGGTGTTCTTGCTTTTTTATATTCTTCTATAAAATATGAAAAAACATAATCTCAATATTCTTTAATAAAATCAACTCTATGTAATTTAATATTTAATTTATCAGCAACCGCTTTTGCATCTAAATAATCTTGTTCTTGAGGACATATATCATTATTAATATTTGTATTACCTAAAATATCATTATTAGTTGCAGAATCTCAGTTTCTCATAAATAATCCTTCAACTTCATAACCTTGTTGTAATAATAAATAGCAAGCAACTGAAGAATCTACTCCACCAGATAATCCAACTACAACTTTTTGTTTCATATATATCCTTTCAAAATTAATATCCATATAAATTATAAATTAGTAAAAATGTTATATGTTATACTTACAAAAAAGCTCCTAAATATTTAGGAGTTTAAATAAGTATTTAATTTGATATGTCTTTTAATTCTATTTCTAATTTTTTGTTTTCTTTTATTAAGTCGATTAATTTCTTTTCAAGTTCTTTAACGTTTTTATTATTAATTAATTTTTCTATTTCTTCATTAAATTGATTAATCACTTGATCAGCTTCTTTTTTTTGATTTATAGAAAATTTAGTCTCAAAGAAAAATCTTAGCTCAACTAATATACTATCTTTTAAAGATTCATTGATAGTTATATCTTTATAAGTTTTTTGTTTTTCTTCAAAAGGTCTTTTATTTTGAACAATATCTAAAAGTTCTTTTAAAAGTTTTAACAATTCTTCTTTAACATCATTAAATTTCTTTTCTTCAAATAATTTTAAAATTCTTTGTTTATATTTTATTCATTCTTCGTTTCTTATTTTTTGACTATAAAAATCTTGTTTTGTAAAAATTAGTTCTTCGCCTAAATATTTGATTTCACTAGTTTTACTTAAATCTTTTAATAAACTTGTGACACGTTCTTTTTCTTTTTCTAAACCATCAGAGATAGGTTCTTTTTCAGTAGGTTGATCATTTTGTTGATTTGTAGAATCATCTATTTGATCATTTTTTTCTCTTTTAATCTCAGGATTTTTATTTGAATTATCATCTATATGCTTTGGTTGATTTTCTTTATTAATTGGATTTTTTATAGAAATATCATTTTTAGAATTTGTATTATTTTGATTATTATGCTTATTTTTAGATTCAGAATTATCTTTTATATCATTATTTTTTTTATGTTCAGAACTATTGTGAATCTTATTATTTTTACATGAAACAACTAATATTGAAGAACTAAGTATTGTTAAAAAACTTAGGACAAATAAACTTTTTTTCATTTTAATACCTTTGTAAAATTTGTATATTTTAGTTATATTTAATTAGTTTTTTTATTAGCTAAAGAAAGTGTTTTTTCTTTTAGTTTTTCATATTGTTTGTTTGCAATTAGTTGTTCTATTTCGTTAATTAATTTATTTTGATATTCTTGGATTTCACTTCTAGTAACTTTAGCAAATACTTCATTGATTTTTAGTAATATTTTTTCTTTATTTTCTAGAGAAACTTGATCTAGTAATTCTGTTATTTCTTTTCTTTGTTGGTCTGTGACTTTGTTGTTATTAAAACTATTGCTAATTAAAATAGTTATTTCAGCTTTTATTTGATTAAAATTAGATTCACTAAATAATTTTAAAATCTTTTCATTAATTTCGCGTATTTTCTTTTCAGTTTGTCTTTCTAATGGACTTAAATAATTTTTAAAAATAAGCTCAAAAGCAAGACTTTTAACTTGGCCAAATTCTTTATTTTTTATTAACTGATCAAGCCTATTTTCAAATTCACTTAATGTTTTATCTATTTTATTTTTATCGTTAGGCTCTATATTTATTTTAGGGTTATGTTGTTCTTTTGAACTAGAAGAATTACTATTTGAAATATTTTTATCAGTTTTATTTGTATTATTAGTTTTTGTATTAGATACAGGTTTATTACATGAAACACTTGTAATTCCAGTAGTTAAAACTAATAAAGAACTTATTATTGTTAAGAACTTATTCATGTTTTTTTACCTATTGTTTAATATTTTTCTCTAATTCAGCAGTTTTATCAACTATATCAAATAGTTTAGTTTTTATAGTTTCATATTGCATTTTAGACAATAAATTATTTATTTCATCTGTTTCAGATTTTAATTTTTCTTCAAGTTCTTTAGATATTTTTTGGCCAAATAAATTTTTAACTTCTTCTAGAATACCTTCCTTATTATCTTTTGTTACTTTGTCTAACAAATTCTTTAGTTTTCTTGATTCTTGATTATTAGAATTATTATCAAGACTTTCACTAAATAAAATTGTTATTTCTTTTTTTATGTCATCTAATTCAGACTCATCAAATCATTTTTTAATTTTCTTTTCTAAATCAAATCAATCTTTAAGTAATTTCTTTTCACTAGATTTTTGAAAATATTTAGAAATAAGTTTTGTAGAATATTCTCTAATCTTTAAGTCTTCTTTTTTATCTAAAATTTTTTTTAGATCTTTTTTTAATTTATCTGCAAAACTGTCTGTTTTTTCATCTTTTTCTTTTTTAGTAGAAGGCTGATCTTTTGGTAAATCTTGCTCACTAGGATTTAAACTACCATTGGGTTTTTCTAATTCTTTTGATTTTTGATTAGAATCGTTTTTATTATCTTTTTCTTTTATTTTTTGATTAGTATTATCTGTTTTACATGAAACAACAATTAGTGAAGAACTTAAAGCTGTTATAAAACTTAATAATGTTAAAATTTTTTTCATATATTTTCCTTAGATTTTTATTTTTATTATTTATTAAATATAAAAAAAGACACTCTTAATTTTTGGGGCTAAAATGCTTAAATTTTGCTTTTTTCTAATCTGGCTGATTTATCAACTATATCAAATAATTTGGTTTTTATACTATCATAATCTTTTTTAGTTAATAAACTATTTATTTCATTTATTCTAGTTTTTAATTCTTGTTCAAATTCATTAGATATCTTTTTTTTCAAGTAATTCTCTAGTAGTGTCTAAAATTAACTCTTTGTTATCTTTTGTTATTTTATCTAATAATTCTTTAAGTTTTTTTGTTTCATTATTATTAATATTATTATCTAAACTATCACTAAATAAAAGTGTTATCTCTGTTTTGACATCATCAAATTTAGATTCATCAAATAATTTTGAAATTTTATTTTCTAAATTAGTTAATTGTTCAAGTGATTGCTTTTGACTAGATCTTTGTAAAAACTTAGAAATAAGACTTGCTGAATATCCTAAAATTTTTGAACTTTGCTTTGTATCTAAAACTTCTTTTACTTCTTTTTTAATTTTTTCAGCAAAGTCATCTATTTTTTCATTTTTTTCTTCTTTAGTAATAGGTTGATCTTTTGGTAAATCTTTTTCACTTGGGTTTAAGTTATTGTTAGGTGTTTCTGTTTCTTTTTTATTTGAATCAGTTTTATTATCTTTTTCTTTTATTTTTTGATTAGTATTATCTGTTTTACATGAAACAACAATTAGTGAAGAACTTAAAGCTGTTATAAAACTTAATAATGTTAAAATTTTTTTCATATATTTTTCCTAGATTTTTATTTTTTATTATTTTTTAAATAAATATGAACCAATAAAACTATTAAAGATTAAAAAATAAGATCTACTAAAATAAACTAAAAAAGTTTTTTAATTTATTTTAATCTATCTTATTTATTATCAATGTTTTTTATCATATTAGCAATACTACTTGCAATATAGTTAGGATCATCAACATTAGCATCAATTACTCAAAAAGGAACAACTTCTTTATAAATGTTGTATCAAAACTCATAAGCATTAGTTAAATTTAATCAAAATAAATCATTTGTATCTAGTTCAACATCTCTTGAACGTTTATTAATTCTTTGAATAGCTTTATATGGATCAACTTTTAAATATATCACAACATCAAAAGTTTTTCAATTATTTTTTATATCAAATATATTTGGAAGAATGCAAGTTAAAAAATAGTCTTTAAAAACATTATAATCAGTATCACTTAACCGATTATACATATGATCAGTTTGACTAAATACCATTGAATCTAAAATACTTCTATCATAAATAACATTTTGATGATCTTTATATTTAATAAAAGTTTTCATACGATCAGTTAGCATTCATAAATCTAATTTATAATTATAATCTTGAACATTTTTATTAGTATCATCATATGCTTTATTAAAATAAGGACAATCTAAACTAGTTTCATTTATAAAAACATAACTTGAATCTAAAAGTTTTTTTAAATTTTCTAATAAAGTAGTTTTACCAGCACCTGTTGTTCCAAAAATTGCTATTCTCATTTTTTCTTTCTAATCTATTTTAAAATATAGATCATTTAATATTTGATAAATTTTTTTTGAAGCTTTATTTATAAATTGATCAAATTGTAACATATTTGAATCACTTACAAACATAACATCACTTATAACTTTAATACTACTAATTGGTTTTTTATATAAATAAGCAACATGAAATAAACTACAAGCTTCCATATCTACTATATCTATTTTGTCATTGATTTTATTAATAAATTGAGTTAAATGCTCATACTTATTAATAAAAACATCTCCACTTGCAATATTACATATTTTATAATCTAAACTTAGATTTAAAAAATTATTAGCTAAAAAATATTTAGGTAATTTTGGAATTTGACCATAAGAATAACTAAACCCAGTCACATCAACACTAAAATAATAAGCCTTATTAACTATAACAATATCATTTTGTTTATATTCTTGATTTAAACTACAACAAGTCCCTATATTTAAAATTTGATCAATTTGATAATGATTTAATATATAACTTAAACAACAACTAGCATTTACTAATCCAATCTTACTAATAGCTAATAAAATATTTTGATATTGATATAGTTTTAAAATATCATTATCAATAATTAATTGAGCATTAGTTTTTTTTAAAGTGTATGCTAGTTCTTCATACATTGCACTAATTATTAGTTTCATAATTGTAATCTTTTAAATAATAATTTATAGTTTTTATTAACATTGATCCAATATGATCTTTTCCATGTTTTTTTATAGCTAAATCATATTGGTTTTTTAATAAAGTTTTAAATCCTAACATTAAATCAGAAAAACATAATTCTCTTAATTTATCAACACCTAAATAATCTCTTTCAATACTAATCTTATCTGCACAAAAAACAATAATATCTAATAAAGACATATTTTCAGATCCAACTGTGTGATTAAATACAGCATTTAAAATTTCTTTATCATCAATTAATCAATCATATAATAAATGTAAATAAGCTGTATATGAATGTCATACTGGATATGGTTCATTTATAAGTTGTGGTAAATAAGTTTTTAAATAATTTAAAGATTGTTCTTTTGATCATCTTTTTGTAATATCGTGAAGTGTTCCAGCTATTAAGGCTTTTTTAGGATCAACATTTCATTTAATAGCTAAATCATGAGCCATTTTTCCAACATTTAAACAATGTATATAACGTTTTTGATCCATTTTAGTTTCTAAACGTTCATATAAATACATTAAATTATAATTTACATAATCATTAATTTCTTTGATTTGTTTGTCTAAATGTTTTAAATTTCTAATATCTGTTGAACTTAAATAATTATTTTCAAATTCAAATAATTCTAAATTATATTTATTTAAAACTTGTTTGTTATAATCTTCATTTCTTTTAAAAACTTTAAAATCAATCATTTTTATAAGTTCATCAAAATTATTTCACTCTTCAAAACGATCTAATTGATCTGAACCCATAATAAAAGAAAAATGATCATTTGGATTAGTTTTTAGTATATGTTTTACTGTTTGATATGTTGGTGTTGTTTTTTTATTTTTAATTTCATAATCATAAATTTTAATATAACTAAATTTATTTTTAATAATTTCTAACATATTTAAACGATCAACTATACTACTATTTTGTTTAGTTTTAAAAGGATTTAAATAAGCTGGAATTAGTCAAACTTCATCAAATTTTAATTTTTCATAACAAGTTTTTATGATATTAACATGATCAGTATGAATCGGATCAAAACTACCACCAAATAAAGCGATTTTTTTACTCATTATTGCACCTAAATTATTTAAATATTCTGATTTTGTTTTTCTTTTTTAAGAATTTCATCAATTTCTTCATCAATTATACTGATTTCAACTTCAATTGGCTGTTTATCAATATTATTTGAATTTTTTTGATTTTTTTTAGAGTTTTTCTTTTTTCTTGTTTTAAATTTATAACGTAAAAAAGAAATTATAAAAATTATTAAAGCTAAACCAGCAATTGTTCCAAGAATTGTAGCAATGATTCAAAAAGGAATAGCTATTCCAAAAACTTCAATTGGTTTAAAATTTTTTATATACATTTAATAAAAATTGTTTCTATCTGATAATTTTTTTTGGCTTTATTGCTAATGATCTTTTATGTTTACTAATTTTATGTAAATAATCAATACGTTTTTTTAATTTAGGATCATTATTTTGCTTTAATAAATAGCTATCAATTAAATCATAACTAAACCCAATTTCACCTTCATCAGTTTGTCCTTCTCACAATCCTGCTGTTGGTTTTCTATTAATTATAATTTCTGGAACATTTAAAATTTGTGCAGCTTTTTTAACTTCAGATTTTAATAAATGAATAATAGGAACAACATCAACTCCGCCATCACCATACTTAGTAAAATAACCTATATGTCATTCATCTAAATTATCAGTTCCTAAAACTAAATATCTTTTAGTTTGAGCAATTGTGTATAAAGTTGTCATTCTCAATCTAGCTTTAGCATTTGAAATAGCTAATAAACTTGGTTTTTCATCTAAATTAGAAAAACTATTTTTAAATGCATCAAAACTAGCTTCTAAGTTAACTTCAATATTTTTTAACTGATTAGTTTTAATAAGTTCATTAGCACAATCATAATCTAGTTGTGAAGAATAAATTGGCATTCATACAGTTAAATAGTTATCTGGAAAGGCTAGTTTTGCTAGATTTGCAACAACTGCTGAATCAATTCCTCCACTAATTCCAACAACAACACCATCACATTTAGCTTTTTTTACAGTTTGTTGAATAAATTCAACCAAATAATCTAAATATTGTTTTAAATTAGTTTGCATATTAATCTGTTCACTCCAATTCATAATCAAAAACTTTTACAAAATCACCTTTTTTAATACCTTTTTTAACTAATGTTTCATAAACACCGGTTTCTTTTAATTTTTCATTAAACATTAACAAGTTATCTTCAGTTCATATTGGGAATTTTTGATAAATTTTAAAAATGGTTTCTCCAGCAATTTCTCAACGATTATTACCTTTGTTATAAACTTGAATATCTTCTTTTTGTTCTTCAAATTTATAAATTGCTATTTCATCTTGATCATTATTTTTATCTAATTCTCATAAAGGTTGTTTTTTTGCAACTTTTAATTCTTCATAAATCATAAATAATAATTGATCTATATTTTCTTTTTTTAAACCTGAAATTTGTACAACTTTTTTATCTTTAAAATAATTAATTATTTTTTCATCTAATAAATTTAGTTGAGCTTCATCTAAATCCATTTTATTTAAGACAATAACTTCAGGTCTTTTTTCTAAATTAAGATTATAAGCCTTTAGTTCATCTCTAATTAATTCATAATTTTTTATAATATCTTCTGAACCAAAATTTCCAGAAGCATCAATTATATGACAAATTACTAAACATCTTTCAATATGTTTTAAAAATTGATGACCAAGACCTTTTCCTAAACTAGCTCCTTGAATTAATCCAGGTAAATCAGCTACTATAAAAGTATCATTATTTTTAGTTCTAGCAACTCCAAGTTGTGGAGTAATTGTTGTAAATGGATAATCAGCAACAACAGGTTTAGAATTTGAAATTGCTCTTAATAAAGTTGATTTTCCAGCATTTGGTAAACCAACAAATCCAACATCAGCTAATACTTTTAATTCAGCTCTAATTTCAAATTCTTGACCTAATTCTCCGGCTTCAAAAATAGTTGGGGCTTTGTTTCTTGAATTTGCAAATCTTGCATTTCCTTTTCCACCCTTACCACCTTTAGCAATTAAAACTAGTTTATTATTTTCATTAATATCAGCTAATATAGTATTAGTTTTTTTATCATATAAAATAGTTCCTACAGGCACTTTAATGATTTTATCTTCACCTTTAGCACCGTGCATATTTTTAATATCACCTTTAAAACCATCTTGAGCACTATATTTTTTTTGCAATTTTAGATCTAATAGTGAGTGTTTACCTTCATCTCCTAAAAAATAAACAGATCCACCATCACCACCATCTCCACCATTAGGACCACCATTAGGAACAAATAAAGCATGTAAAAAACTAACAGCTCCATCTCCACCTTTACCTGCTTTAATAATTAAATCAGCAGAATCAACAAATTTCATATAGCACCTACTTTATATTTCTTGTTTATAATATTTTAATATTATAAAATTCATTTTTAAAAATATCTCTTTAATTGCATTGATTAGTTAAAGTATTTCAACACTCGTCACATAAAAAAGTTGGAATATTTTTTTTATAATTATTTTCTTCTAATTTATCTCAAATAACAATTTGTTCATTTACAAGTTGTTCAACTTCTTTTTCACTTAGTTTTTTAGTTTGTTTTTTTATTAAAGATCCAATTGGAATTGGAGATTGATTAGTTACAAAACTAATCTCATAACTATCACATAAAGAACAAGTGATATTAAAAAACTTAACCATAAAAAAATTATAGTCTTTAAAATACTTATAGTTTTTAGGATCAAAATTAATATTATTCATTTTCAAATACACCTGTTTTTTTAATTTCATCAATGATTTTATCTACTTTTTTATTATCAAATTCTATTAACTTGTTTAATTTTTTTAAATCAAATTCTAAATCATTTAACTGATAAGATAACTTAATAACAGCTATTATAGTTTCACTTGATTTTAGTATTTCAACATATGGAAAACTATAAATAAAATATGAGAATAATATTTGTTTACAAGTTTGATTTAAAAAAATGTCTTTTTGATCAATACAATCTAAAATATTTTGTTCAATTTGATAATAAGTATTAAAAATTTCATTTGTATTTAATAAAATCGGATTAATTTTAAAACTAGTATTTTTATTTTTAACAACATCAAAATTTCAATCTATTTGTTGATCAGCTAAACTAATTAATAATAAAGCTTTATTTTCATAAACATTTTCTAAATTTAATAAATAATTTATAATATCATCTATTATTAATCTAATGTTTATATTTATTAAATTTTTAATTGCAATAATTTGATCTAATTGATTTTTAGAATTTAATAAATTTTTAATTTCTAAAACACTATAAGTTTTATTTAAATTAGTAGCTTGTTTTTCTTTAATTTCTTTTAAAAACTTATATAAAGATTTTTCAAAATCATTTGGAATATAACTTATTTCTAGTTCTTGATTAATTAGTTTTAAAGCTTGGTCAAATTTATTATTATCAATTAGATCTCTAATTTGATCTAGTGTTTGTTCATAGTAGTTTTTCATGATGGTTCTCTTTAAAATAAAAAATCGTGCTTTGCACGATTTTAGTTTTCTAGATGGTGCCCACGAGAAGGCTCGAACTTCCGACCTCACGCTTAGAAGGCGCGTGCTCTATCCTACTGAGCTACATGGGCAATAACAATCATATATAAATTTATCATATTTATATATGAAAAGAAACAATCTTAATTAATTTTTAAAATTTTCTAATTTGTGAATAATTAATAAAGTCTGACTATAGTCATCTTTATTTTTTACATGTTTAAAATTTGATAAAAGTTTAGATATTTTATAAGTAATTTCATTAATAGTTTTTTTATCATATAAAGCTTTTTTTCTTTTATATGGACCAAATGTAATAATAAAATATTTAACAATTAATTCTCAAGAATAGTTATATCTTCTAGCAGTTGAAGGAACTAAAGCTAAAATTAAAGAAATAATTTTTAACATATTAACAAATTGATTATTAGTTTTTAAAACTTCTATTCTAAACTCTTTTTTAATAATTTCTTTTAAAACATCTTGATTAAATTTTAAATCTTCTAAACTAATTGAATTATATTGTTTTTTATAAATATTATGATCATTTAATTTGTATAAATGTAAAGTATCAACTAAAGCTAATTTTTTTCTTTGAATTAAAAAATCAGCTAAATAATTACTATCAACTTTTAAAATATCAATTAAATTAATATAGTTTGTAGATAATAAAACTGCATCTAAAAAATCAATAATACGATCTTTATCACATACAAATTTAGAATAATCTTTTAATGATGAAATATGATGTCCAATTTGAATTGGATTATAGTCTTTAATTAAAAATGGTAGTAAAAATCTATCACTATCATCATAATTTTTATTTAATGGATCAATTTTATTAGTTAAATAAATAGTTGAAGTTTGATTTGAAGTTTTATTAATTAAAAACAAGTTTATATAATTATAAAAACTATCAAATATTTCTTCACCATCACTTAAAGCTCATACTGATTTAATACGGTCTTTTAAAAACAAAGCAGTATATTTTGCTAATTGAAAAACTAATTTATATTTTTTTTCAACAGAAAAACTAGTTCAATTTTCTTGTTTAAAGTTTAATAAAAAAGTGTTTCACTCTTCATCATATTCTAAAATATCAATATGTGATTTAAAGTAATTTAATTCATTTGATGATAATGGTCGTCCTGATTTTAAAGCATTTAAGATATTTTGTTTAGTATAGATTTTTTTAATATTATTAAACATTTGTGCTTCATTTGTAATATCTATAACTAACATAGTTAAAAATAAAGGATAAACTAGAGAATGATAAACTATCTTATCATTATTTCTTGCTAAAAAGTTTGTATCAAAACGATGCATTTTAGATAATTCAATTAATAATAAAGTTAAAAAATCACTATTGTAGTTATTATTATTAGTTAGGATTAAATTATCTGCAATATATCTAATTGAAATATTTTCAATAATAAAAGAAATTTCTTCCAGTTCATTTTTAGTTAATTTTGAACTATAAACTGAGGTTTTTGAATTATTATAATTTAAATATTCAAAAAATCTTGAATAATTATTTGTAATATATTTACAAATTTCACTAATAGATGAATCATCAATATTTATTAAAGGTTTATCTTTTAAAATTTGATATTGAAACAATCCATAATGAGTGATTTCAAAAATTTCATTAATCTTTTTTTTCAATAATTCATCAACTTTTTTAAATCTATCTGTTTTTATTTTCTTAACCATATCATGAAAATAAACTCAATATATAGATTCTTGTACTGGCATAATTACACCTACTTTATAAATAAGAATTTAATCTTATTGCATCAATCCTGCTTCATATAAGTTTCTAAAATGACCAGGTTGTTTTTTTAATTCATCAAATGTTCCAGATTGAACTATTCCAGTTCCATTAGCTCCTAAAACATAAATATGATCAACATTTTTAATTGTTGTTAGTCTATGAGCAATTGTAATACACATTCTACCTTTAATCAATTCATCTAATTTATCTTGAATTTCTTTTTCAACAACATTATCTAATGCACTTGTTGCTTCATCTAAAATAACAACATCAGGATCTTTTAAAAAGACTCTAGCAATAACTAGTCTTTGTTTTTGACCACCAGATAAAATAAATCCTCTTTGTCCTAAAACAGTATTATATTGATCTGGTAAAGACATAATAAAATCATGTAGTTCAGCTTTTTTGCATGCTTCAATTACTTGTTCATCTGTTGCATCAAATTTAGAGTATTTAATATTATCTAAAAAAGTACCATATAAAATTTGTGGTTCTTGTTCAACATAACCAATGTGATCTAAATAAGCTGGTAAATTAATTCTATTTAAATTATATTCATTATTAATTAAAATTTTTCCACCAGTTGGAGCATAAAATCTTAATAAAAGTTTTGCTATAGTAGTTTTACCACTACCAGTTTGACCAACAAAAGCATAACTTTTGCCTTTTTCAAAAGTTAAATAAGTTGGTGGAATAACAATTCTTTCAGGTTTTTTTGGATATGAAAAGCTAATATTATCAAAAACAATACTATCAATTTTATCAATCTTATAACCTTTTAAATTAGAATGGATCATTGGTTTTGGATCTGTAAGTTCACTAATTCTATTAGCAGCATTAGAAGCAGCAGTTGCTGATCTTAAACTTGGTAATAAAATAGCAATTCCACCAATTAAAGTTGATAATAATGGAAAAATTAAAGCAATTTCAGCACCTAAATTATTACTTGATTGATTATTAGTTAAATATTGAACTGCAATAATTATAAAAATAATTGGAATTAATAATTGAATAACAAAAGTTAAAGAAGTATTTAATAAAGCTGATGAATAAGTAAATTTAGTTAAACCATCTTCATAATTTTGATTTTTTTGTTCTAATCTTTTGATTTCAAATTCTTCAGTACCACTTGCTTTAATTAATGAAATGTTATTAATTCTATCTGTCATATCAGCATCAGTTTCTCTTTTAACATCAAATGCTAATATTAGCTTTCTTCTCATATCTATAAAAAAACCAATACAAAATAAATTTGCAACTAATAAATAAATTAATGCTAAAGTTGCTATCATAACTAAATTTTGAGAATACATAATTATGATTGCTGTAATTGAACCAGATAAAGCATAAATTAAATTAGTTAAAAACTGTTGTACTCCTAAAGCTAAAAATTGAGTATCTCCAACTAATCTAGTTAAAATGTTTCCAGAAACATGATCAAAATAAAAGTCAACATCTTGATCAGTTAAAGCTTTTAAAATTTTAAGTCTTTGCATTACTTCAATTTGAGCAGAATATAAAGATACTGTAAAGTTTGTAAAATATTCACAAATAATAATAATTAATAAATTAATACCAATCACATATAATCAACCAGTTGAATTTAATTCCATTCAATTAAATAATCATTGTGTATTATTTTCTACTAATGTATTTATTACTTTTGATGAAAATAAAGGAAGCATTGCAGAAAAAATAGCATCTAGAGATGTAAAAAATACAACACCAAAAAACAGTAAAGGATTTTGCTTAGCTATTTCAACATTCATTCTAATAAAAAGACCAAATTTTTTAAAAGTAAATTTACCTGTATTATCAAAGCTTCACTTTTTTTTGATTTTTGTATAAACTTTTTTTACTTTTGACATATTTTCACCTCCCTTTTAAGCATCATATTTAGAAAATCCAGCTTCATATAAATCCTTAAATTCACCTGGTTTTTTAACTAATTCTTTAAAAGTACCAATTTGAATAATTCCTTTTTTTGGAGCTAAAACAATAATTTGATCAACATTTCTAATTGTTGAAAGTCTGTGAGCAATTGTAATACTTGTTCTTCCTTGCATTAATTCTTCTAATTTTGCCTGAATTTCTTTTTCAACAACATTATCTAATGCGCTTGTTGCTTCATCTAAAATTAAAATATCAGGATTTTTTAAAAACATTCTTGCAATTACTAGTCTTTGTTTTTGACCACCAGATAAAATAAATCCGCGTTCTCCTAAAATTGTATTGTATTGATCTGGTCAAGTCATAACTAAATCATGTAATTCAGCTTTTTTACAAGCTAAAATAATTTCTTCATCAGTAGCACTTGGTTTTACATATCTTAAATTATCAAAAACTGTTCCTAATAAAACTGATGGGTCTTGTTCAACATATCCAATATGATTTAAATAACTTGGTAAAAACACATCTTTAATGTTTATATTGTCATTAATTAGTACTTCTCCAGAAGTGGGATCATAAAATCTTAATAATAATTTTGAAATAGTTGACTTTCCAGCTCCAGTTTGTCCAACAAAAGCATAACTTTTACCTTTTTCTAAAACTAAATTAAAGTTAGGTAAAATAACATTTTCAGGTTTGTCTGGATAAGAAAAATTAACGTTTTTAAATACTAGGTTTCCTTCAATTTTATGTATTCTAATACCTTTTTTATCTAATGAATGATTATTAATAAGTTGAGTTGCATCAGTAATTTCATCAATTCTTTGAGCTGAAGTACTTGCTTGTACCATACCAATAATTGCTCTTAATAATTGCATAATTGGACCTATTAACATTCCAGCACAAATTAACATAGGTCCTAAAATAGTTTTTAATGTAGTAATATCATTTTTATATAATCACAAAGCAATTAGTGTCATTAAAATTTGTACTGTATTAATAGCAAAAAATAAAATACTAATCATTACAGCCTGAAAATAACTGATTTGTTTATATTTTTTATAATAAATATCATGAATTTGAACAAATCTAGTTTTTTCATATTCTTCTGTACCATTAGCTTTAATTAATTTAATTGTATTAATTCTATCAGTAACATCACCATTAATATCAGTAATTATTTTTCTTAAATTAAATACAAGTTTTCTCATTGGTAAAAAAGATAATCCAAATAAAATACCAAACATTAAAAATAATGAAATAAAAAATAAACCAATATATAAACTAGTTGTAATAAATAAAGTAATTAAAGTAAACACCATTGTAAAAAAAGCAGTAAAAATAATATTCGGTATAACAGAAGCTTGCATACCAATAATTTGTGTATCAGAAACTACTTTAGTTAAAATTTCACCTGTTTTTTTATTTGAATAATAATGAATATCAGTTGTGATTAGCTTTCTTGTTAATTCATTTCTTAAACTAATTTCAATTTTTTTACCTAATTCGTTTCCAAATAAGTTAGCAATATAAGTTAAAACTGCAGTAATTACTAAAATAACAATTCATATTGCTAAAATTACTTTTCAACTAAGTCCTCAAGAACTAGAAAAAATTTGGTGAGTTTTTTCAAATTCAACAGCAAATTGTAATTGTTGCATTAATAAAGGATTTAACGCAGCAAAAAAAGCAGAAAAAATCGCAGTAATCAATAATCCGATAGCTCATTTTTTATTAATTTTCATATGTTTTCAAATAACATTAATAAAACTTTTTCTACCGCGATTAAAAGATTTTCTATCTGCTTTTATTTCTTCATCAGTCATTGGTTTATAAAAATGATCGAAATTATTTTTAACTTTCATTCTTATTCTCCTTATAGTAAAATCATTATTAATTATAACATTTAGGTATTTAAAAAGAAAAAGAGACCAAGTTATAGTCTCTAGTGCTATTTAAAAAATCTTTAATCTTTTTTTACTAGTTTAATTTTTATTATTTTATTAATTTTTAGATAAATGAGAAAACTACTTTTTTAATTGCAAATATAAAATATCTAAAATTTTTTAAATAAAAAATACAATGATTTTAATAAATTAGTTTAAATATAAAATTCTGCTTGCAAAAATTTCATTTCTAATATTTGCTAAATCATTATTTGAAGTAAATGATTGAATTCTTCCTTCAATCCCAACAACTGCTTGATCGTGTAATAAAAACTCATCATCAACAGCATTTGATCAAGCTTTGATATTAATATAATCAAGTGAGTCTACTTCTTTTGATTTATATGGTTTTGGAACTTTTACAATAAACTTATAAAGCTTTTTTTCACCATCTTTTGAAGTATAAGCAACAGTGGCATCTCCTTCTAATTGACCAATAATGTTTACTAAATTCATCTGTTTTCTCCTTTTGTTTTCTCATTATGGTATTAGATAAAAATTTTTAAAAGTAACTCATTTTTATAAAATTTTTAATAAAAAATAAAATTTTAGATAAATAGTCTAATCAAAAATTAACTTATTTTTAAAAATATAAAATATAAATAGTGATAAAAATTATGAAAACTAAATGAATTCAACCACTTATTGCTTTATTTTTTATAGTTTTATTAAGTATTTTAACTATATTTTTAAAATCAACTAGTTTAAGATTATCTTTAATTATTGGTTTTATATTAGGTTATGTAATTAGTAGATCTAGTTTTGATTTTTCATTAGGAATTAAACAAGTTTATTTATATAAAAACACTAGTTTAACAAAAGCTTTTATACTTTTACTAGCTTTAAGTATGATAATAGTTTTTATATTAAAAATAATTTTTGATTTTTATAATATTAATTTAATTTCAAATATTAGTAATACAAATGATATTAGTATATTAACTTTGATTGGTAGTTTTATTATTGGATTTTGTATAATAATTACAAGTAATTGTGCTTCAGGTATATTAGTTGATTTAGCTAAAGGAAAATTAAAAGGTTTAATTGGTGTGATCTTTTTTATAATAGGATCAGTAATTGGATATATTAGTTTAAAGTTATTTTCTAAAACTAATTTATTTATAAAAACTAGTAGTAAAGTTTTTTTAGCAAATAATATTTATTATTTAACAATACTTATTTGTAGTTTATTAATACTTTTTATTTTTTATTTAATAATTAAAAAATATGAAAATAAATATTTAAAACAAGATTTTAATTTAAAAATAAATAATAATTTAAATGATCAATTAATTAATAATTCATCAAAAAAATTATTTAGTTATAAGAATTATTATAGATTATTTATAAAAAATTGATCTTTTATGATTAGTAGTGTTTTAATAAGTATTTGTGCAACACTAATTTTAGTTATAAACAACAAAACTTGAGGAGTTTCAAAACCCTTTTTAACATTTTTTGTTTATTTATGTAGTATTTTAAAGATTAATTTATCAAATGTTATGTTTGATGAGTTTATAAAAATTACTAATAATGGGTTATTAAATGATAGTTCTACACTTATAAATATCAGTTTATTTATAGGTTGTTTAGTTTGTTTTTTATTAGCAAATAAATTTAAATTTGAACTAAAAATTAATAAAAAGGAATTTTTCTGTTTTATAATTGGTGGATTTTTATTAGGATTTGGAGCAAGTTTAGCAAATGGATGTAGTGTTGGAGCGATGTATTCAAAAATTAGTACATTTGATTTATCTGGATGAGTGTTTTTAATTGGTATGATTATTGGAATATTTATTGGAATTAAAATTTTTATTAAAAAACAAAATAATATAATTCAAATTAATAGGAGGTAGTTATGAGCAAAAAATATGTAATAATTGGAGCTGGATTAACTGGTACACTTTTAGCTTTAGAAATTAGAAAGCGTGATAAAAAAGCTCAAATTTATGTTTATGATAAAGGTTGATTGAGCTTTTTAGATCGTTCAAACTCAGATTATTTTGATTATTTAGTTAAAGAAGCTAAAAATACAGATAACCTGATGTTATATAATCCAGAACATTTTAAAGAAAAATACAATATTAACATACAACTTGGAATAGACATTCATCAAATAAAAGATAAAAAGCAAAAGGTTCTATTAAAAAGAGCACAACAAAACCTTCAAGCGTTTGAAGAAAGTTATGATTATTTAATAATATGTAAAGAATTAAAATCTAATTTTGACTTACTATCTGTAGCGTTAAACTCAAAAAAAGGATTACATAATACTTATATAGTAGAAAATGAAGAAAAAATTAAAATACTAAGTGATTTTTTTACTAAAAATAATATAAAAGATATAGTAGTTGTACCAGGCAATTTATTAGGTTTAAAAGTTGTAAAAGAACTAAAATCAACAAATAAAAACATTACTTTAGTTCAAATAGGATATCAAATTTTAAATGCATTAGATTATGATATGGTTCAAATGTTAAATAAAGATTTGATTGATAATAATGTTGAACTAATTTTAAAAGATGCTGTATCTGAATTTTATGAAAACAAAGTAAAATTATTAATTAGTGATAAAGAAATTAAAGCACAAGCTATAGTTTATACAGATAAATCCTTAGCTATTCTTGATAGCTTAACTGGTGAAGAAAATAATTTATTCACATATTATAACAATAGTCAAAATAATGAAACAAAAAAACTTCCAATATATAATGATAAACAAATTAGAGTTGATAAAAACTATAAAACTAATTTAAAAAATGTTTATGCTATTGGAAATTGTATTAAACTACCTGATTGTATGATTAATACAGAAAAAACTGAATTACAAGTTGATACTATTAAAAAACAAATAAATAACTTATTAAATCATATTTTTAAAAAACAAATAAAACCAAATAAAATTATTACTCAAACTTCATATTTTAAACTTTTTGATTTTAATGTTTGTTATACAGGATTAAGCAAAAGTGAATGTAAGTCTTTAAAAATTAATTACAAAACAGCTCATGTAATTCCAACAAATAATAGTGATGATGTTTTAAAACAACAACCAATTCATTTTCAATTAATTTTTGAAAATAAGACTAAAAAGATTCTTGGTGCTCAAGTTATTAGTAAAGTTAATGTTAAATCTAAAGTAGATGTAATTACAAAAATGATTAATAATAATGCTACTTTAGATAATTTAAAAAAATATTGTAAAGAAAATAAATTAGAAAATGATGTTGTTGGAATTGTAACTAAAGTTGCTTTAAATGTTTCAGATAATAAATTTAATCAAATCGATCATACTTGAGTTAGAGATTTAGTAGAAAGTAATCAATTTATTTTAGATGTGAGATCTAAAGAAGCTTATAATAAAGCTCATATTATAAATGCTATAAACATTCCTTTAGATGAATTAAAACAAAGATATAATGAAATACCAAATAATAGACCAGTTTATATTCATTGTAGAACTAGTAGAAGTAGTTATAAAGCAATAAAACTATTAGAAGAACTAGGTTTTAATAATCTTATAAATATTCAAGGTTCATTTTTACAACTAAGTTATTTTGAGTATTTTAATGATAAAATAACAAACAGAAAAAAGATTTTAACAGATTATAATTTTGAATAAAAAAGCAAAGATTCTAGTTTAACTAGTTTCTTTGCTTATTTTTTTAATTGGTTTATAAGATTTTCTATGAATATCTAGAATACCATATTTTTGTATAGCTAATAAATGATGTTTTGTACAATAACCTTTATGAGATTTAAACCCATAATTTGGATAAATTTGATCATATTCATCTAATATTTTATCTCTTGTAACTTTTGCTAAAATACTACTACAAGCAATAGAAAAACTCTTATCATCACCTTTAATGACTGATAAAGTTTTAATATTTTCTAAATTTATATTTTGATTACCATCAATTAAACCAAGATCTGGAGTGATTTTTAAATTACTAATTGTTGTTTTAAAACCTAATAAACTAGCTTGTAAAGGATTAAGTTCATCAACTTGTTTACTTGAAATTACTATAATTTGATAATCTAAACAATTTTTTATAATTTCATCATATAATAGCTGTCTAGTTTTTGGATTTAATTTTTTAGAATCTTTTATTAAAGGGTTAAAATAATCAGGTTTTAATATCACACTAGCAACAACTAAAGGACCAGCTAAACAACCTCTACCAGCTTCATCGCTTCCTGATAAATAAGTAATATTATGATCTAATTTAATTTGATCATCAAATAATTTTCTATCTATCATAATGAACTAATATCATTACCTTGTTTATTATCTTCTGGGTTAATTGCTTTTTGAATCTCTTCAGGAACTACTTCTAAAACTTTTTCAAATGAAATTTTTCCTAGTTTACCTTTTTCTAAATCTTTTAAAAATGAAGATAAAATTCTTTCCATATCTAAAATATCTTCAGTAACATATCATTTTTTTTCAATTCCAATTGTTTCAAAAATCTTATAAGAATCAATAACTGAAATAGGTTTTTGTAATCTTAAATTTATTTTGTAATATTTTTCAATCACATCATCATAATTGTTATAAACATAACTCATTAATTTAGCTGCAACTCTTTCTTTTGGAAAGACATTGTCTTTTATTGAATTAATAGCACAAATATTTACAGCAACTGTTTCAGATTCTAATTTTGAAGGTAAAACTCCTGGTGTATCTAATAAATTAATAAATGGGTTTAAATGAATTAATTGAATTCCTCTAGTAACACCTGGTTTATTTCCAACTTTAACGTTTTTTCCTTTAATTACTCTGTTTATAAAAGTAGATTTTCCAACATTTGGAATTCCAATAACTAAAGCATTAATTAAAGTATTTTTAATTCCTTTAGCTTTATCTTTTTCACGTTTTTTAGCTGTTAATTCATTAATTACATTAATTAAATCATTAACAATATCAGTATGTCTATTATATAAAACTATTACTTTTGAGTTTTCATTTTTAACATAATAATCAACTCATTGTTGAGTAATTTTAGAATCAGCAATATCAGCTTTTGAAAAAATATAAACAATTGGTTTATCTTTTAAAAGCTTTTTAAAAGTAGTGTTTTTTGATGAATAAGGAGCTCTTGAATCAATTACTTCAACAACAACATCAACCATTTCAATTCTTGCTTCAATATCTTTTAAAGTTTTATTCATATGACCTGGAAATCAGTTGAACTCAGCACTCATAAAATCACTTCTTTCTTTTTTTCTAATATAATCTTATCAATAAATAAAAAACATCATAATAAAGTATGAAAATACTTTACATGATGATTAAATTATTATTATTTAGCTTGTTTTGTTGGCATAATTTCTTTAATTCTTGCAGCTTTACCAGAAAGATTTCTAATGTAATAAATTCGAGATCTTCTAACTTTACCACGTTTAATTAAAGTAACTGAGTCAATAATTGGTGAGTGTAATGGGAATGTTCTTTCAACAAATACACCATTTGACATTTTTCTAACAACTACAGAATAAGTAATTCCTGATCCTTGAGTTTTAATAACTAATCCTTCAAAAGATTGGATACGGAATTTGTCTCCTTCTTTAATTTTTACATCAACTCTAATAGTGTCTCCTGATCTAAAATCTATTAAATCATTTCGTAATTGATTATTTATGATATCAAATTTTGACTTAACAGTTTTTGTAGCTTTTGAACTCATATTATTGTTCTCCTTTCATTTTTTTATAAATTTCTAGTTGGTGTTTATTTAATTTATTTACATCAATTAAATCTGGTCTTTTTTTAAGTGTTTTTATTACTTGTTGTTCTTCTCTTCACTTTTTAATGTTTTGATGATGACCACTTAATAAAACATCTGGAACTTTCTTATTTCTAAATTCATATGGTTTAGTATAAACTGGATGATCTAATAAGTTATTTTCAAAGCTCTCATTTTCATGTGATTCTTGTTTTATTACGTTTGGTATAATTCTTGAAATTGAATCAACTAAAATTAAACTAGCTAATTCTCCTCCAGTTATTACATAATCACCAATTGATATTTCATCATCAATATAATCTAAAATTCTTTCATCATATCCTTCATAATGACCACAAATAATAATAATATGTTCATCATTATTAGCATATTTTTTTACAATGGATTGATTTAAAGTTTTTCCTTGTGGTGTTGTTAGTAAAACAATTGAGTTTGTTGTTTTTACTGATTCAATTGCTCTAATTAGTGGTTCAATCATTAAAACCATTCCACTACCACCACCATACTGATAATCATCAACTTGGTTATGACTAAGTGTTGAAAAGTCTCTTAAATCAATAACTTCTATTTGTATAGCTTGTTTATTAATTGCTCTTTTAATAATTGATTCTTCTATATATGAATTAATGATTTTTGGAAATAAAGTAATAATAGAAAATTTCATACTATTTTAGTCCTTCAACATCTTTTGCAATTATTACTTTGTTTTGGTAATCAATCTCTTTTATAAAAACATCAACTAAAGGCACTCAAAACTCTTTTTGATTTTCAGATTTAACTTTAACTAATTGTTGATAAGTATTATTCATATAATCACTAATAATTCCATTTGTTTTTAAACTTACAAACTTAAAACCAATTAATGAAATAATTTGACTAATATTTTTATCTTTTAAACAATAAATTTCTTGATTTTTATATTTAATAACATCATTAATATTATCTAAATTTAAAAATTTAACAATTAATTGATTTTTAGTTTTATTTAAAGTAATGTTTTGTATTCTTAAAACTTGAAAATTATTATTAGTTTTTATAAAAAAGGTATCGATTTTATTTAAATCATCAATCATAATATCATCATTTAGAATAACTTTAACTTGCCCTTTAATAGAAAAAGTATTGACTATAACACCTATTTTAATAAGATTAGCATTCATTGATTTTCAATCTAGTTAATAGATACAGGTTTTATTTTTTTTCAGTATTTTTAGAAAATTTAGCTTCATGTAAGGCTTTTAAAATACCTTGTTTTGAAAGTAAAGTTCTTACTGTATCAGTTGGTTGAGCACCATTATTTAGTCATTTTAAAGTTAATTCTTTGTCAATTTTAACTTCATCTTTTAATGGGTTGAATGTTCCAACTAATTCAATATATTGACCATTACGATTAATACGTGAGTCAGCTGCTACTATTCTATAAAATGGCGCTTGTTTTTTACCGATTCTTTTTAATCTTAATTTAACCATTGTTTCCTCCTATAATATATTTTTAAAACCTTAATAATATTATCAATTTTAAAAAAAGGTGTCAAGTAATTATACTTAACACCTTAAAAATTATTTATGATATTTTTCATTTTTTATAATCTTAAAAACTCGATAAATTTGTTCAATTAAAACTATTCTACATAACTGGTGTGGTAGAGTGATTTTTGCTAAAGAAATTTTATTATTAAAGAAGTTTAAAAATTTTTTTGAATACCCATCACTAGGACCAATTACAAATAAAATTTTAGCGTTTTTATAATTTAAATTAGTTTGAATTAAATCAACTAAGTTTTCAGTTGAAATTAATTTTGAATTAACATCCAAAATAACTTTTTCAAAATCTTTATAACTTTCTAATTTGTTTAATAAAAGATCTGAATTTAGTTCTTTTATTTTATTTAATTCACCATTTATTTCTTCTTTTAATTCAATTATTTCTATATCAGCATATTTTTCTAATCTTTTAAAATAATCATTAAAAGCATCAATATAAAATTTTTTATCTAATTTACCAAAACAAATGATTTTAATTTTCATAAATTAAAATTTAAATCCACCTTTTGATAGATTTGGCATTCTTCCACTTTTAATCATTTTAGTGATTTCTAAAACTTGTTTTTTACCTTTTTCAAATGAATTAATTAATTCATTAAATTCTTTTTCGCTTCGACCTGATCCTTTAATAATTCGATTTTTTCTACTTATTGCTTTTAAAACTCTTGGATCACGTCTTTCTTTTAAAGTCATTGAATCCATTAAAATTGAAAAGACAGCTAATTTTCTTTGAGCTTCTTGAATTTGTGATTCACTTACTTTATTAATAGGTAACATTTTCATTAATTTATTTAAACTACCCATTTTTGCAATTTGAGCTAATTGGTTTCTTAAATCTTCTAAATCAAATTGACCTAAAAACATTCTGTTCATAGTTTTTTGAATAGAACGTTCATCAATATTTTCTACAGCTCTTTCAAATAAAGTTTCAATATCACCCATTCCCATCAATCTATCGGCCATTCTTTTTGGATAAAAAGCAGCTAAAGCATTATATCCTTCACCTTCACCAATAAACTTAATAGGTAATTTAGTTAAATAACTAATAGATAAAGTAGCTCCCCCTCTAGCATCTCCATCTAATTTAGTAACAACAACTCCAGATAGTTTTAACTTATCATTAAACTCATTTGTAACATTAATAATTTCTTGACCACTCATTCCATCAACAACTAATAAAATTTCATTTGGTGATGTTTTTTTCTTTAAATTATCTAGTTCTTTCATTAAAACTTGATCAACTTGTAGTCTTCCTGCTGTATCTAAAATTACAACATCAAAATTATTTTCTTTTGCATACTCTAAAGCTTGTTCAGCTGTTTTAACTGGATCTTGTTTTCCTTTTTCAAATACTTGTGTATTTGTTTTTTGTCCAAGTTGAACTAATTGTTCAATAGCTCCTGGTCTATAAATATCTAATCCAACTAATAAAACTTTTTTCTTATTTTTTTTATTTAATAAATAAGCAAGTTTGTTAGCTGTTGTAGTCTTACCACTTCCTTGTAGTCCAACCATCATAACAACACTTGGTTTTTTATTTATATCTAAAGGTGCATTTTCTTTTCCTAAAATATTTACTAATTCTTCATGAACAATTTTAATCATTTGTTGATGAGCACTAGCACCTTCTGAAATATATCCACCTAAAGCTTTTTGTTTTACATTATTAATAATTTCTTTAGCAGCTTCAATATTAACATCAGCTTCTAGTAATGATAATCTAATTTCTTTTAAAGTCTCTTTAATGTTTTCTTCATTTAAAGTAGAATTTTTCATATTTTTTTCAATGCTTTTTTGCATTCTTTTTGATAAAAAATCACCAAATCCCATATTAACTCCTTTAATAATTTCTAATTAAATTATTTATTTTAAAATATCTGTTTCTTTTTTTTCTCTTATTACAGTTATAGTTATTTCACCAGGAATAATTACTTTATTTTTAATTTGTTCTTTCATTTTTTCTAAAATTAAAGCTAAATCTAAATCAGAAGCAACTAATGGATCAACAATTAATCTAATTTGACGACCTGATTGTAATGCATAAGTTTTAGCAACTCCAGGAATTGAATTTCCAATCTTTTCAATTTCATGCATTCTTAAAATAAATTCATCAATAGCATTATATCTAGCTCCTGGTCTTGAAGCTGAAATAGAATCAGCAATAGCAACAATAGCAGCTATTTCACTAGATTTTTCTTTATCTTCATGATGTGATTCAATAGAATTGATAATTATTGGATCTTCATTATATTTTCTAGCAATTTCAGCACCTAATACTACATGACTTCCTTGCTTTTCAAAATCTATTGCTTTACCAATATCATGTAATAAACCAGCTCTAATTGCTTTTTCAACATCTAAACCTAGCTCAGAAGCAATAGCTCCAGATAATTTAGCAACTTCAATTGAATGAGCTAAAACATTTTGTCCATAACTAGTTCTAAACTTTAATTTACCAATTAATTTAACTAATTCGATATCAATATCATTAATATTTAATTCTTTAATAGTATTTAATCCTGTTTCTTGAATAATATATTCTAGTTCTTGTTCTTGTTTTTTTAACTCATTTTCAATTTTAACTGGTTGAATTCTACCATCAATAATTAATTGTTCTAATGTTCGTGTTGCTATTTCTCTTCTAATTGGATTAAATGAAGAAACTACAACAACATTTGGTGTTTCATCAACAACAATATCAACTCCACCGATTTGTTCAAAAGTTTTCATGTTTCTTCCATCTTTTCCAATAATACGACCTTTAAGATCATCTGATGGTAATTTAACAATATTTGTTGTTCTTTGACTTGTAAGTTCTACTTTAATTCTTTCCATTGCTGAAATCAAAATATTATTAGAAATAATTTTAGCTTTGCTATGAGCTTGTAGTTCAGCATTTTTTAAAATAGAGATAAGTTCTTTTTCAGACTTATTTTTTATTTGTTTAATTAACAATTCTTTTGCCTGATATTTTGTTAAACCTGACACATCTTCTAAAAGCTTAATTAAATATTCTTCTTTTTGATCTACTAAAAATTTTCTTTTTTCTAAATCTAAAATTCCAGCATCTAATCGTTGAGATTTAGATTCAACAATTTCTTGACTTCTTTTTAAATCATTAGCTCTTAGATCTAATTGTTCTTTAACTCTATCTAATTCGTTTTTTTCTAATTCACTTCTTTTTAAAAAAAGCATTTTAGCTTCACTAATTTCTTTATATCCATTAGCTAAAACTTGTTTTTTAGCTTGTTTAGCTTCTTTTGTATATTGTTCAATAAGATTTTTTCTTGATTTAGATTTTCAAAAATAAAGTAAAATAACACTAGAAATAACAAAGCAAATAAAAAATATACCAAGAAAAACTGAAAGTATTATAATTATGTTTTCTTCCATATTATCTATTTTCTTTCTGCTTAAAAATTACATTATACTTAAACACTAATTTATTATAACATTTATAAAATAAAGAAATTTTGACAATAAATACAGAAAAGCAAAAAAGCGCTCTAGCGCTTTAATTTTATTTTTTAATCTTGTTTAATTAGTTTTTTAACTTGTTCAGTTAGTTCATTTATTCTATTTTCATCAGCATTTAATCATTGAATAACACTAGTTCTACCTTGACCAATTTTTTCATTTTGATAAGAATATCAAACTCCTGATTTTTCAATAATTTCATAGCTAACTAATAAATCTACTAATTCACCAAGCTTATCAATTCCTTTATTATATAAAAGTGAAATTGTTGTAGTTTTAAAAGGAATTGCTGTTTTATTTTTAACAACTTTGATTTTGATTTTATTTCCAATAATTTCTGAATTATTTAAAATATTTTCTGATTTTCTAACTTCTAATCTAATTGATGAAAAAAACTTTAAAGCTTTACCACCTGTTGTAGTTTCAGGATTTCCAAAAATAACTCCAATTTTTTCTCTTAATTGGTTAATAAAAATTACTGTAGTATTTGATTTTGCAATTAAACCGTTTAATTTTCTTAATGCTTTAGACATCATTCTTGCTTGTAATCCAATTGACTGATCACTCATTTCACCATCTAATTCAGTTTTTGGCACTAAAGCAGCAACTGAATCAACAACAATTAAATCAATACTATTTGAATTAATTAACATTTCTAAAATATCTAAAGCTTGTTCTCCATTATCTGGTTGGCTAACTAGTAATTTATTTGTATCAATTCCTAAAGTTTGACAATATTTAGGTTCTAAAGAATGTTCTGCATCAATAAAAGCAGCAATTCCACCTAGTCTTTGAACTTCACAAATAGCATGTAAAGATAAAGTGGTTTTTCCAGATGATTCTGGTCCATAAATTTCAATAATTCTTCCTTTAGGATAACCACCAATTCCTAATGCGTTATCTAATAAAAGTGATCCTGATGAAAATGTTTCAATATTTAAATTATCACTTTGGCCAAGAACCATAATAGAACCTTTACCAAACATTTTTTCAATTTCTTTAATAGCTTCTTTTAGCTCTTTTGAATTTCACATTTGAGATTCTCTTATATCATTATTTTCTATTGTATTTTGTAATTCTGTACTCATCGATCCTTTTTATCCTTTCATATTAGTATTAGGAAAAGTTTTTTAAAAAAGGATCATTTTTTTTAAAATTTTTATAACAAATTTAATTGCTCTTTTTTTAAAGCATCGTCTAGATCCTATAAATTTAGGTTTAAATTCATAAACTTTGATTTGATCATTAAACTTAATTCCAATATATGCTAGTCTTACAGGTTTATTTTCCATACTATTAGGACCAGCATTACCAGTAAAGCTTAATACAATATTTGTTTTTGTTAATTCATAAGTTTTTATCAACATTTCTTTTGCACACTCAAAAGAAATAACACCATTTTTTTTAATAACTTGTTTGTCTATATTTAAAATATTTTCTTTAAACATAGTTTGATAACAGACAAATGATCCATAAAAAGTCTTTGAACTGTTTTTAATATTTGTAATTAAATTACTAAATAATCCACCAGTAAATGACTCACAAGTTGAAATTGTTAAATTATTTTTAATTAATAATTTAACTAATTTTTTCAAACTCATAAAATCACCACAATCTATTAAAAAAAATGACGAGATTTTATCTATAACCCACGTTTTGTACTTTTCAGCGTCAATCATCTATCTAGTTAATAATAACTTCTGATTTTGATTCTTATTCTCTTAATCAGATTCCTCTACCAAAACTTGAGTTTCTTACTTATGGGGTTTACCGCGTTCCATTTCAAGATTTCTCTTTATTCGTCTCTGTGGCACTTTAATAACATCACCATAGCAAAGCCTTAGGTTAGTTAAGCCGTCAGTAATTACTTACTGCCTAAATTTATTTTTTCATTTAGCATAAACACTACAATCATCACAGATTGTGTAAGCGTGGAGTTTCCTCTATATTCTTTTTCAAATACAGCGATTGACCAATAAAATCTCTTATTAATTTTACAACATAAATAAAATAAAAGATTAGATAAACAATCTTAGTTTACTTATTAAAATTTTTTAAAAATTGTTTTTTAATTATTAAAGTTAGGAAGTTTTTTATTATCATTATTTATTTTAGATCTAGAAGCAAAATCATCAAAAACAACATTTTTGTTAACTTTTCATTTACTTAAATCTTGATCAAAACTAGATGCTTCAAAAAACATTTTACTCATATTAGTTACATTTAGAACATTTCAATTTGAAATATTTTGATTAAATGAAGTTGCTCTAAAAAACATATTACTCATATCAGTTACATTAGACACATCTCAATTTGAAATGTCTTGATTAAACATACTAGCACCTAAAAACATCGATCTCATATTAGTTACATTTTTAGTATTTCATACTAGTTTTTGATTATTATTATTAAAGTTTTTAGCATCAACAAACATTGAATCCATATTAATAGCATTATCAGTTTTTCAATTACTTAGATTCTGATTAAATTGTTCAGCTTCATTAAACATTGAATTAAATTTAGTTACATTAGAAGTATTTCAATTTGATATATCTTGATTAAAGTTTTTAGCACTTTCAAACATTTCACTCATATTTTTAATATTATCTGTTTTTCAATTTTCTATACCTTTAATTTTTGAATTTATATTTTGTTGAAATGCTAATTTTAAAGAAGTGATTTCTTTAGGTAAATGATCTGGTACTTGATTTGTTTCAGGTTTAATTTTTTCTATTTGAATTTCAAAATCTCTAGTTAAAAAATATCCAATTTTTACTAACTGATTTTTGTTATAAACTGGATTAATTCCATAACCTCAAAACTTAGATAAATCTTCTTTTGTATTTTCAATATTTTGTTTTAGTTGATAATTTATTTTTTCTTGATTTAAAATTTGATTTTCTTTAATTTGAATGTCATTTAAAAGTACTTTGACTTGTTGATTATTTTTAAATTTATTTAATTTAATTTTTATTTTAAAGTATTGATTTTTAGTAGGTAAGTTTATTTTACTTGCTTTATATCTATAACCATTAGCTTTATCATATAACCTAGTAAAAGGTTCAAACTTATAGCTTATTTTTTCTATATTTTTTAATTCTTGTAGTTGAGATTCTAAACTATTATTTTCTTTTTGTAAATTAGTAATTTTTAAATCAACTTCATTTAGTTCATCTTTAATTTTTGTACTTAACATTTCTAGAGTTTGTGTATCAAGTTGATAACAAGAAACAACTAAACTAGTTAAACTAATTACTAATAGTGAATTTAAAAATATTAATATTTTTTTCATACAAATTAATTCTCAATACTATTTTAAAAGATAAATCTCATTATAGAAAATAAAAAGTTCAAATAAATTTATTTGAACTTTAATAAAAATTATATTTTTATTTCATTTTAGGTTTAGCTACTGATGGAGTTGATGGAGTTGTAGATGAAGTTGTAGATGAATCTTTAAATTTAGGAAGTTTATCCATTTGTTTTTCTATTTTTGAACCAGTTGCAAAATTATTGTGTTTTACTTTTTCATTAACTTTTCATTCACTTAAATTTTGATCAAAACTAGAGGCTTTATTAAACATAAAGTTCATATTAGTTACATTAGAAACATCTCATTTTGATATATTAGAATTAAATTTTTCAGCTTCTGAAAACATATTACTCATATCAACTACTTTTTTAGTATCTCATTTAGAAATATCTTGACTAAAATTTTTAGCTCTTCTAAACATTGAAGCCATTGTTTTTACATTAGTAGTATTTCAAGATGAAATATTTCCATTAAATGCTTTAGCATCAGAAAACATTTGTTTCATAGATTCAACATGAGAAGTATCTCATTTATCTAAATTAGAATTAAATTTTTCTGCTCCATCAAACATTTGTTCCATATTATAAACATGAGAAGTTTGTCATGAACTTAGATCTTGATTAAATTCTTTTGCTCTAGCAAACATTTTTCTAGCAAATGCTAAATTATATGGTTTTCATTTTCCTAAATTTTGATTAAATTTAGCATTATCAGCAAACATTGAATTAGCATCTCTTAAAATTTTTACATCTCAATTTGAAATATCTTGATTAAAGTTTTTAGCACCATCAAATAAGAAACTCATTTGACAAACTCTAGAAACATCTCATTTTTCAATACCATCAACATTTGCAGACGTGATTTGATTAAATACTTTACTTAAACTATTAACTTCTCTTGGTAAAAGTGCACTTATTTTAGAAATATTTGTTGGCATTTCAAATGCTTGTACGTAATGAATATTTTTATTAAATGGTTTTAGATAATTTTCACCTTCATCATCATAATAACCCATTTGAATAACTTCAACAATGTCACTTATTTCTTGTTTGTTTCTTTTTTTAACTGGATCTTTTCAAACCATTTTTTCTCATTCGTCTTTATTTTTTTCAACAATCTTTCCTTCTTTTGTTTTATATTTTATTGATTGTTGACCATATTTAACAGATCCAACTTCTAATTCAATAACATCTTTATTTACTAAAACTTTAACTTTTTGATTTAATTTATTATTTTCATCTTTAGTTAATTTTGAAACAGTATTTTCATACAAACTACCATTTAAATCAATAGTATCACTAATTTTTTTTGGTAATTTTTCTTTAAGCATTTCAACAATTAAACTAGTATTTTTAGCACTATCTAATTTGTTTTTAAACTCTTTATTTCACAAATCTATAACAGCTTGTTTGTTATTGATAATAACTTCTGATTTAACTGGATTATTATTTGTATTATTACATGCTACTACTAAAAAACCAGTAGTACTAATCATTGCTAATGAGCTAAATAATGTTAATATTTTTTTCATCTTTATAGCCTTTTATAAATTATTTTTCTTATTACTAAATATTTAAATATTGTATTAAGTTGACCTTTAATACCACTTTTATTATAGTAAATTAATAATTTTGAGATAAAAATCTAACAAAACTAAAAAATAAATAAAAAAAGATAGAAATTTTGGTTGATCATTTCTATCTTGATTTACTTATTAATAATTTATAAATTTCATCAATTTTATTTAGTTTTTCTTCATACTCAACTAAATTTTTTTCAATTCTAGTTATTCTTTTAATAACATCAACATCATTTAAGTTATCTTTTACTAGTTTTCAATTCTTTTTAACATATTGATCTAGTTCAGTTTCAGTTTTTTGTTTATCAGTAATTAGTTTTGAAATCTTTTGATTGGCCTGTTCTAGTTGATCATTTAAATTAGAAATTTGATTTTCTAAACAAACATAATCTTTAATAATCTCATCTAAAAAATCATTTACTTCTTCAATTTTATATCCTTTATAAACTATATTAAATTTCTTATTTTGGATCTGATTAACTGACAACTTTTTCATATAATAACTCCTTTTTGATAATTATTATAACATCTTTTTCTAATACTATAATAAGGAGGAAATATGTATCCATTAAAAAATAAAGGACAATATTTAGAAACAATTTTAAATATTACAAATCAAAAATATTTAGATGAAAATATTTGTATTGTAACTAAAATTCCAACAAATATTAATTTAATTAAAATCAATAACAAAATTATTACAAACGCTACTTTTAAAGATAATTTTAATTGTGATTATATTGGTATTTATAATGGTTTATACTTTGAATTTGATGCTAAAGAAACATCAAAAGATGAATTTAACTTTAATGCTATTAGAAAAAATCAACAACAAAAATTAGATCTAGTTACTAAACATAAAGGTTTAGCTTTTATTATTTTATATTTTTCAAAATATGATGATTTTTATTTAATTTCATATGAACAAATAAAACAATATGTTAGTAAAAATAAAAAAACAATTCCAAGAGATTGAATTGTTTTAAATTGTAAAGAATTATTTTTAACAAACAAATTAAAACTAGACTATATTAAACATTTTGATCATCTAATCAATCAAATTGCTTAAATTTATTTGTTGATTTTAAAAATATTTCCACTTCTTTTAATAACTCTTCAAAACTAAAAAGCTTTTTATTAATACTTAGTTGTAAAACTTGTTCTTTTTTAATACTAGTTTTTAATAAATCTAAAAGTTTTAATTTTTGATTTTCTGTTAAACTAAATAATAAGTTTTTTTCAAGATCATTAAAAAAAGTAATATTTTGTTCTATTAAAAAAGAATCATTAACAAGTAAACCTATTTTTTGAAACAAATTAGAAAAATCAATAAAATCTGACTTAATTTCAATTAAATCTTTTTCTGCTAATAACTCTAATTCTTTTTCAATTTCAACACTAGATAAATTTAAATAATTAGCTAATAAATTAGGAGTTGTCATTTTTCTAGTTTGATCATTTAAATACATAATCATTAAAATAATTAAAGCTTGATTATCAGTCAAATTTAGTTTTTTATAATATTCTAATAATAGCTTTTTTTTAGAAATGATTCCTTTTTCTAACATTTTTAAAATCATAAAATTCCTTTTAAGTGCTAATAAAAAGGTTGTCAAGCAACCTTTTTTAAATTATTACATTAATGATTCTTTAAGTTGTTTTGCTGGTTTAAATCTTGCTGATCTAGAAGCTGGAATAACTATTTTTTCACCAGTTGATGGGTTAACTCCTTCTCTAGATGCTCTTTCAGAAATAACAAATTTTCCAAATCCGGCAACTGATACTTCTTTTCCATCAATTAAATGTTTTGAAATTGTTTGAAAGATTCTATTAACAACTTTTTCTGCATCAACTTTAGAAATATTTTCATTAATAATGATTTCTTCGATTAATTCTTTTTTAGTCATATTAAATTATTTCTCTTTTCTACTTTTCAACTTAAACCAGTCAAACACCTTTAAATGAATGGTTTAAAAGCGCTATTGGTCTAATGTTATTATATAAAATTTTATATAGTGTGTTAATAAATTCATTGCTAATTTCATATTTAATACATAGTAAATAAGCAATTTTTACTACTTTAATTTTATTAATTGTTAGATTATTTTTAACTAGTGCTTTATTAACATCATTAAGTTTTACAATATCAACACCTAACTTAAAATAAACTGAATCATTAGATAAAATATTTTCTATTAAATTAGCTAAAGTGGCAAAATTTAAAAATGATTCTAATTTAGCATTATAATTTTTAGCAATTTGATAAATGAAATTAATTATGATTGTAATTAAACTAGCTTTAGCATTATTTCCAGCATTAAGCTCATTTAAAATACCTAATGAAATATTAATTAAATCTTTAAAATAAACTACTAATTCACATGTAATTAGATCTAATGAAGGATAACTAAAAAAATATTCATTTGAAAAAATATCTACTAATTGATTGGCTAAGTTTAAATTAGGTGAAACTATCATAGCTGTTGATGGTTTTTTTAAAATAATTTCACTGGCATTACTAGGTCCATACAAGCTGACATATTCTTTTAATAAATCAGTATTTATAAATTGCTTAATAATAAAATTTGATAATAAGTCTAAATTATTTTCATCAAATCCATTAACAGTATTTATTAAAATCACAGGTTTTTTTAAATACTTTTTAATTTGATTAATAATTGATTCAACTTGATCATTTAAACAAGCTAAAATTAAAATTTCAGCATTTTCTAAACTAGCAATTAAATCAGTTGTAGCAATGATTTTATTATTAATTTTTAATTGATTAAAAGTATGATTTAAATTAATATTATTAACTATTAATTCATTTTCTGAATAAATGATTATATTATGATGATTATCAGCTAAAACATTACTTAATAAAACACCATAAAAACTAGACCCAATAATAGTGATATTTTTTTTCATATTATTTTTTCTCTCTAAAAATTAAATTAATTGGAATACTATCAAGAGCAAAACTAAATCTAATTTGATTTTCTAAAAATCTTTTATATGAAAAGTGTAAATAATTTGGATTATTACAAAATAAAACAAATGTTGGAATATAAGCTTCAACTTGACTAGCATAATAAATTTTTAATCTATTTCCATTAAATTCAGGAGCTGGATTAATTAATTGAGCTTTATTTAATACTTCATTTAAAACATAAGTTTTAATTTTAATATCTAAATTTTGTTTAATTTCATCAACTAGATCTAAAATTTTAGTAATTCTAGTTTTATCAAGTGCTGAAATAAAAATAATTTTTGCATAAGAAATATATTTAAAATATGCTCTAATTTTTTCTTCTTTTTTTAAAATTTCAGTTTCTTTATTTTTAATTAAATCTCATTTATTTACAACAATAATTACAGGTTTTTTTTCATCATAAATTAATCCACCAATATTAGTATCTTGATCTGTTATTGGTTTTGTTGCATCAATCATTAATAAAACAATATCAGCATTACTAATAGCTGATAATGATCTTAAATAACTATATTTTTCAATAGTCTGACCTAGTTTTGATTTTTTTCTAATTCCTGCAGTATCAATTACTGTATACTTTTTTTTATTATAAGAAAATGAAATATCAACAGCATCTAAAGTAGTTCCTTCAATTTCACTAACTATCATTCTATTTTCATTAACTAAAGAATTTACTAAACTAGACTTTCCAACATTTGGTCTTCCAATAATTGCTATTTTTGTTGAATCATCTTTTATAATTTCTTCATTTTTTGAAATATAAGAAATTACTTTATCTAATAAATCTCCAACTCCAATTCCATGAGTTGAAGAAATAAAATACAAATCACTAAATCCTAAACTCATAAATTGATAATTATGATCATCAATAGTTTTTTTATCATATTTATTAACTGCTAAAATTACTGGTTTTTTTGATTTGTGTAAAATTTTTGCAATCATTTTGTCATCATTATCTAAATTGTTTAAAAAATCAACAACAAAAATAATAACATCAGCTTGTTCAATAGCAATTTGAGTTTGTAGTTTAATTTCATTTGAAAATAATTGATCAGATAAACTAATTCCTCCAGTATCAATTAAAATAAATTCTCTAGTTAATCATTCTGCACTACTATAAATACGATCACGAGTAACACCAGGTTTATCATCAACTATTGATTTTTTTTCTTTAATAATTCTGTTAAATAAACTAGATTTTCCAACATTTGGTTTACCAACAATTGCTACAACTTGTTTTTTCATTATTTTTTAACTTTCTAAACTTTTTATTTTATTTACAATCATTTCAACAGCTTGATTGATTGTTAAATAAGAATTATCTATATATCAAGCATCATCTACTAATACTAAAGGTCCAATTAGTCTTGATTTATCTGTTTTATCTCTATTATATAAATCATTATAAATTTGTTTATATGATTTGTCTAAAATATGGTTTTTAATATTTTGTTCAAAACGTCTTTTTGTTCTAATTTCAAGATCACAATCTAAAAAAATCTTTAAATCAGCATTAGGTAAAACTACACTTGTTATATCTCTTCCAACAACAATATAACCTTTATTTTTTACTAGTTGTTGTTGAGCTTTAACCATATAATCTCTAACTTGTTTAATAACTGTGATTTGATTAATTACATTTAAAATATCACTACTTATTAATTTATTAGTAACATTAATATCATTTACAAAAATCTGATCATCTTTGATTTGATAATTAAAACTATCTAATAAACTAATAATTTGATTTTGCTTTTTTAAATCAATATTTTTAAATAAACAATATCAAGTAAAAGCGCGATACATCAATCCAGTATCTACAAATTGATAATTTAAAATTTCAGCAACTTTTTTACAAATCACTGATTTTCCACTACTACTTGTTCCATCTACAGCAACAATTAACTTTGACATACTTTCTCCTATAAAACAATAAATAACAATAATGAAAAAATCATAATAGCTATAAAAATAGAGATTCAAATTAAAAATCAATTCTTTTTAATTTGATACATTTGTTTTTTTCTTTCTAATTCAAAAATCTTTTTTAAATTTTCACTTTTAGTTTTTTTAATTAAATCAGTTATTAAAACTTGTTTTAAATCATTATTATTTTGAACTTGTTTTAAATCATTTTGTTCAAAATCAACTTTTGTTAGATTAGTAAAATCATTATTAATAATTTTTGATGATTCAAAACTCTGACTAGTTGTTTTTTTATGAAATTCTATATCTTTAGTCATATTTAATAAGTTAACAAAATGAAATTTTTGTTCATCTAAAACTATAAAATCAGAATAGTTTTTTAAATCAACTAAATCATTAGTAGAAATATTTTTTAATAAATTAATTTGTTTATCAATATTGTTTAAAAGCTCTTGGTTAATAGTTTGACTAATTTTAGTTTTTGCTAAATAAAAACTTCCTTTTTCAAATTCATCATAAAGATTAGTAAAACTATTAGTAAAATATTTTTCATCTAATTTAGTTAAAACATTTAAACTGTTATTAATAAATTTAGTATAGTTACCTAAACTTTTAGCACTTTTTATTTGCTGATTTACTAAATCAATTTCTTTATTAAATAATTGATTTCTAGAAGTATATTCTTTATTCATAAAACACCTATTACTAAGTTATATTTTATAATAAACAAACATAATAAAAAATGCCAACGGCATTTTTATTTGTATCTATGATTAATTGGTCTCATTTTTCATTCAACTAAAATAAATAATAATAAAGCAATAGCATATCTTAAAACATTTCAACCAAACACAGCAATAACAATAAACATATTAACTTTATTAAAAGTTAACATATTATCATCATGAACATGACCATGATCATGACCAGCATGGAAAAATAATTGCGAATTATTTGAAACTATGCTTGTATTATTTGTTTTTGAATCTATATATAAAGCTAAAATAAATCCTAAAGTTGAAACAATAGCAACTAATACACTCATAATTGGCAGTGGCGTTCATCTTTTAAATCTAGCTACATTTTTATTAGTATCGTGATGAATTGGTGAATTACTAAACATTACATTAAATATTAAGAACACAATTCAAACAATAAAAACATTAATAACAGCTTCAATTGGTGGTTGTATTCAACCATGTTCCATTCCATGAATAAAGTTATGTAAAATTGGAGCTAAAAATCCTAATAAACTAGCAAAAATTGGTCCTAAAGTAGCTATTGAAATGCACACAACTGAAATATCTAAAAATCTAGATTGAATTCATACTTGATCACTTACAGGAATTTTAATTGACTCTAATAATATATCAAGTGCACTAACTGAAGCAGTTAAAGCTAAAAAAATACCAGTTAATGCAATTTTAAATATTAATTTTCTTTTGTTAAATTGAAAAACAGTTTTTAGTTCAAATTTTTGATTCTGAATATCATCATGATTTCCAAATTGGTCAAAATGATGTATTCCGTGATAGTGATCTTTGTTTTTATGATTTTCATCTTCATGTTCAATATGTGTTTCTAGATCTTTATCAACATTGCAAACTACATCATTTAATTGTTCTTTTAATGACTTACTTTCTTTCATAATAGCCTTTCATTTATATAATAAATATTATACCAATAATATCTTATTTATAAAATTTATAAATAATTAAATATCAGTTTATTTGAAAATATTTATTATAAAATAAATAATAAGTAATTAAAAAAGCGAGGTTTTATAATGAAAAATAATGTAATTAGTATGGTAGTTGAAATCCCAAAAGGTTCATCTAACAAATATGAAGTTGATGAAAAAACAAAAAGAATCAAACTAGATCGTGTTTTATATGGAGCTAATTTTTATCCAGGAGAATATGGAATGATTGAAAACACTCTAGATTGAGATGGAGATCCATTAGATGTAATTTCATTATGTACTTATCCAACACTACCAGGAGTTGAAGTTAATGTTAGAATTTTAGGTTCAATTAAAATGGTTGATGCTGGAGAAGTTGATACTAAATTATTTGGTGTATTTAATGATGATCCAAGATTTAAAGAATACAAAACATTAAATGACGTACCAAAACACTACAGAGATGAAATTGAAAACTTTTTCTTACAATATAAAGCTTTACAAAACAAAGTTGTAAAAATTAATGGTTGAGGAACTTTAGAAGAAGCTTTAGAAGAACTTGAAGAATGTAAAGCTAGATTTGAAGAATACAAAGATCGTTTAGCTAAAGGACAAAAAGATGAAATTTTAGCTGAATGAAAAGAAAAAGGTTTAGGTCAAGCCTAAATAATTTAATAAACTTGAAAAAATAATAATGGATTACTTATAGTAATCCATTTTTTTAACTAAAAAAATACTCCTAAAAAGGAGTATTATAGAAGTTATATTAAATTATTTTTTAATTTGATCATCAATACTATCAATTTGTTTATCAATCATAATATTAATGTTAGCTAATTCACTAATTTTATTATTTAAACTAATTATTTGGTTATTTTTATCAATTAATGCATCTTTAATATGATTAATTTTTTGTTCAAGTGATTGAGAATTTCAATCAACAAATTTTAAATCATTTCTTGCTAAAAGATTAACAAATTCTTCATTATTAATTTTTAAAAGTTCTTGTTCATAGTAATTAAGTGCTAAAGTTTTTTCTAAATTATCTTTTAAATAAGATTCAACTCCATTATAAATAGCATTTAAAATTTCACTAATTTTTTCAATTACAAATTTAGCTTTTAACCCAGATTGTAAGTTAATCACGTTTTTATATTCATCTAAATACTCAATATTTGGAGTATCAATTGGTTGAATTTCTCCGTTTTGATCTTCACTAAGTTCATTTGTATTTAAACTAGCTTCTTTAAATCTTTTTGATTTTTTATCATAAAAAGCTAAATAATAAGTAGTTGATTTAGCTTCTTGAAAAGAATTAGTTGAGCTTTCTACATGATATTTAGTTAATTTTTTTAATTGATTATTAAAAATATTTTGTAGTTCATTAACATTATCTTGAGCATCAGAAATAACTGTTTTTACTTTTTTTAAAGTTTCATTAACTTTTCTTTCTAATAAAGGATTCATAATTAACCTCCTTTAGATCATTTTTATTTGTAAAATATTTTATTTTTGATTTTTATTATTTATTTGTAGTTGGTTGTGTTTAATCGCTTGTATTTGAATTGTTCTCTGAATTATCTGATGCATTGTTATTTTGTTGATCATTATTAGTTGGAGTATTATCATCTACTCGACCTATTAATGTAACAGTTTGTAAACTATTATAAGTAAAGTCTTTAGCTTTAAATCTAAAGTTTAATAAATCTGTTAAAAGACCAAAATCTAAATCGGCATTACGTGTTGAAACAATTGAAATACCTTTAGAAAAATCAACTACTTTATCAAATCCTTCGTTATATGTAGTTTGAAAATCTTTGTTTTTATAGAATAATGATTGATAATGATTACCTAAATTTTGATAAATACTAAACTTTTTAACTCCTAACATATTAGAAGTTAAATACTGGTCTTTTAACCTTTTAGCATCAGCACTAAAATCTAAACTATAAAAACTAGTTGGATCTGTTATTTCGTTACTATTATTTAGGTATTTTTCTCATTCAGATCAAATGTTAAAATCTTTATCTTCAAAATCTTCTAAATTACTTGGTTTTCCTGTCATATTGAATAGGTTTTTTCTTTGTGAATAATGAATTTCAGTTTTAACATCTTTATCTGTTGTGTATGGGAAATTAGGATTTGCTTTTCTAATTCCATAAAATTTATGAAATTCTTCTAACATAATTTCAATACCTTTATAATATGCATCAAACATATTAGATTTTTTATAACCTTCATATTTTAGTTTTTCTTTGTTGTCAAAATCTATATTTCTATCATTTTGATCAATTTGTACTACATAATTAAAATTAATGTTTCCTAGATCATGAATATATCCACTTTTTAGTTTTAATTGTAAACCTTTTAATTCAAAACTTTCAATTGCAGTTGCTGATTTAAATAGATTTTTTAAAAGATCGTCTCTATCAAATTTTTTACTAAATTCAGATATATCTTTTTCATCTAAAAATTCAAATTTTGAATAAATATCAGTTAGTTTTTGTTTAATTACTTCTTTAAAACTAGTTAATTTATTTACTCAAGGTTCAATTAGATCTTGAACTAAATTCATATCTCCCTGTTTTGTAGTAATTAAATCTAGTTTTTGATTTTTATTAACTTCACCAAAATATAGATGCAATAATTTGTATGCCTCTTCTTTTAAAGAGCCACCATCTTGATTATTATAATTTCTTTCTAAAGGACCAATTTTTAATTCTGTTTTAATTCTATCAACATCAGTTTTTTGCTCTGGATCTTTATATGAAATTTCTAAATTCTTAACTACTTGATTTTTATTGTTTTTTATTAATTTTTCTGAAATTTCATCTTTGATTTTATCGGCTAATTTTTGACTATAAAGATATGTTGCATTTTTATAATTATAGCTAGTTGCTGTTAGTAAATCTTGAGCAGTTAAAGATTCGTGTTCATTTAATAATTTTTTTAATTCTTTAAAATCAACTGTTAAAAGATCTTTATTATTAAATAGTGAATTAGATCAAAATTTCTGAATATTATGAACTAATTCAATAACAGCATTTTCACTAGAAATATTAATTATAAAATCATTTGAAATAATTTCTCTTTTAGTTTGTCCATGACCATCTTTATATTGATAATTAAAGTCTAATCCAATTTTAATAGTTGAATTAAATGAACCATTATCTTCTTCTAAAAATTTCATTTTAGAATTATCTAATCTAAACTTAAATCCTACAACTAAATTGTTATTAAAATTATCTAATAGAATTCTATATTTATCAATTCCTGTTTTTTTTACTTGTTCTAAAAACAACCTTTTAGCACTATGAATACCTAAAACAGTTTCTAAAGTTTTTTGAAATTCTTCTTTTCTTCTATTTGTAAGATTAGAATAAAAACTATGATATCCATCTTTATCTTCATTTGGATCTCTTTCGCTTACAAGTTGCCTAATACTTTCTTTTGAAAAAAAGCTTTGATTCTCATCTAGATCTTTTGATAAAATAGCTGTTCTTGAAACAATATAAGGTCTTACAGCCTCATTATAAGCATCTCTCATTTGACTATTAAAACTCTTAATTAAGTCAAGTATTGATTTATTTCTATCACTACTATCAGGTTTAGTAGTTGGATCAGGTTTAGTGTTTGAATCAGGTTTAGTATTTGAATCGGGTTTTTTGTCTTCTGATTTATCTCTAATACATGCAACAACTGGACTTGCAGCTAGTGTTATAAAACTAGAAAGTGTTAATAATTTTAGTAGTTTATTCATTTTTTATCCTTTCTTTTTTAGATTTTTTTATTGTTGAAAATCTAATTATTCTAAGGTTTTAATTCTTTTTTAAAATGTGATTGACTGCTATTTTTAAATGTACTAAAAGTTTTTATTATAGTTATTATCATTGATTAGTTAAATTATTGATCATTAGTAATTTTGTTTGCTTTTGTTCTTCTATGTTTTTAAGAATTTGATGAATATTTTTTATATCTTGTTCAAATTTATTTAATGAATTATTAAATTTATCTAATTCAACTTTAAAAATACTTCCATTATTTATCGCATCATTAAAATCATCAAACGCTTCTTGTACTGATTCAAAGCTTTTTTTAGTCTCAATTGTTTGTTTTTTTAATAATGATATTTTTTGATATGAATTATTAAAAAAGGTTTTTAATGCATTTATTTTTACTGTATTAATTTTTTTAATATCAAATTGATCGAGATCTAATTTGAAATTTTCAAATTCTTTTTTTAGGTCTTCTATTTTTTGTTTTAAATTATCTAGTTCACTAATTTTAGTATCAATAACTATATTTACATCTTTAATATCTTTAAGTATTACTTTAATTTCTTTTAATTGATTTTGACTATCTAATAAGCTGTTATTTATTGTTAGTAACTTTTCTTTAGCACTACTAGAAAAGCTTTTTATAACATTTAATTGATCTATATTAAAATTTGTAGAATCTAGGTTTTGGATTCTATCATAAAGTTGTTTTAAGTCTAATTCAAACTTAACTAAATTATCATTAGCTGGTGTTATTTTTGTTTGAGCGTTTTTAACAATTTGTTTTAAATTATCTAGTTCTTTTTTAATAACGTTTGTATATTCTATTTTTTGAATTATGTTTTTAAGTTCATTTAGTTGTTTTTCTAAATTAGTTAATCCTACTTTAGCTCTTTGGATTTGTTCTTTTGTAAAAATTGTTTCTTTTATATCATTAATAGTTTTTAAAAGATGTTTTAATTCATTTAAAACATTTTCTATATTTAAAGTTATAAGTAACACATTATTCTTTATTATTTTAATTTCTTTTTTTAATTCTTCTAACTCTTTTTTATTAAGTTGTTCATTATTTGATTGATCTAGTGTTTGTTTAACTAGTTGATAATCTTTTGTACTTTTATTTATAGTTTGTAAAAAAGAGTTTGTTTTTGTTTTTATTGTTTGTAAGTTTTCATTTAATTTAGCTAATTGATCTTTTTTAATATCACTATTAGTTAATCTATTAAGTTCATTTTCAATATTATAAATATCAATTTGAATTTCTTTTAAGTTCTTAGTTGAGGTTTTTATATTATTATCTATTGTTATTAATTCATTTTTTAGTTTTAAAAGTATTTCTTTATTTTCATTAAAAACATTATTAGGATGTAATTGTTCATTATTTGATGAACTGTTATTAGAGTTAGTGTTATTATTAGGACTTTGATTTGTGTTATTACAAGATAAAACTAAAAAAGAAATAACTGGTGTAAAACTAATAATAGATAATAATTTTAATAAACTTTTCATTGTATTCCTTTCTTTAGTTAAATAGGTTTTAAAAATCTCTTTTTTTGAATTTTAAAAAAGCTATTAAAAAACTAAAAATATTTATTATAAGTAAAATAATTAAATACAATTCAGGTTTAGTATAGTTGTTAATTGTGTTGGGGTTAATAATATTATTGTTTAAAAGTTCGAGATCATATTCTAAATAACCTAAAAATAAGTTTTTTTGATTTTCTAAGTTTATATATGAATCTGAAGCTGGACTAAATCAAATCTCATTATAATAAAACCCTAAATTACTAGTATAAAAAGTCCATAACCCATTATATAAGTTCAAATATGAAAAATATCTCATTTTTTTTCTAGTATTAAAATAAGCTGATCAATCTGATTGATCTTTTAAAACAGAACTAGTAGATAACATAATATAACTACTAGAATATCTAATAAAATAATTTTCAAGTATTCTTGCTATATACATTAGATTAAAGTTTAGTTTATTTATTAGATTTTTAGAATTAAAGAACTTAAAACCATCACTATTAAAACCTAGTAATTCATATTCATAAATACTTTTTATATCATCTTTAGTAAGGTTGTATTTTTCTGAATTTAAATCATTAGTTTTGATTAAATAATTACTATTTTTTAAATTATCTAAAAACAAGAAATCATAAAGTAAATCATATTTACTAGTTTGTAGATCAGTTTTAAAAAAACTATTTATTTCATTAGAAAAATTTTTAAAATCAATTAGAATTCTTTTTTTATTAATATCAGTTGTTTGATCAATTAATAAGTTTAATTGTTGATTAGAAATAAAAGTATTATTTAATACTAGTTGTAAGTTAAATAAATCGTTTTTATTTCATTTATTTAAAATCTTGTTATTTTCTTGTGGTTTTGAAAATAACTTTAAATTGTTTTCTTTAATAATTACTTTTTGATCATTAACAAGACCAAGATCTTTTCATATTTTAATTCTTAAATCAATATTATTTGGATTAGAAAATTGATCTTTTAAAAATTTATTATTTATAAAATATGAATAAATATATTTAGATAAGTAAGGATATTTAATTTGAGAATTTAAAATGTTTTCATTTAGTGTAAATGTATCATAAATATCAGTTAGTTTAAAAATTTCAACTTTGTTATTTTTATCTAAAAACTGAATGTTATAACTTTTTTCATTAGCTTTAACAAATGACAATGGTATATTTGCTACAAAACATAAACTAACTAGTAGAGTACAAATTATAGTTGTAGTTTGTAAAGAAAAAAGAAACATTAACATACTTATAAAATTAATTAGACAAAATGAGGCAAACAAATTGTATAAAAAATATACTAATGTCATTTTTAAAATAAAACTATCGTATTTAAAACTATTAAAAATACTATAGACTAAATTGATAAAAACAAAACTTAAAAATATATTTATTAAAATAATTAAATTAATTAAAAAGTATTGTGAGAAAAAAAACTTAGTTCTACTGACTTGGTTTGTTAAAACAATATAAGTAGTTTTATCTTCTAAATTTTTATTATAAAAAAATTGAATCATTTTTAAAATAAGGACAAATAATAAACAGCAAGTAAAAAATAAGATGTAAAAATTAAAGATAATCACTTGTTTTTCTCCACTTTTTAAAAAACCAAGTAAGATTCCAATTAGAATTGAAGCTAAAATATTTAAAATGTTTAAAATAGAAAATAAACGTTCTTTAATAAGATTTTTTAAACAAAATTTAATCAGTTTTCTAAAAGGAATTTTTTTATATTTAATTAAGTTTAAAGAATCATCAAGTTTTTTAGAATTTTTGACTTTTTTAGGCATTTTTAAAAGATTAGATTATTTAACTAGTTTTTCTAAGAACAATAATTCACGTAGTTTATTTTGTTCTTCTTTAATTTCTTGTTTAAGTCTGTTTAATTCTAAAACACTTTCTTTTTCTTTTAATTTGTTATCAAAACTTTCTAGTTTTTGATCAAGCATTTTTTCAAAGTGCAATTCTTTTTTAAATTGTTCTAAATCTTGATGATAAGCTGAAATTTCAGATTTTAATTGATTTAATTCATAGTTATTTACTAAATCAGATTGATTAGAATAATTATGATTAATTTGAGTTTTTAAAATGTTAATTTGATTTTTTAAATCTAAATATTGATCAGTTAAATCAGAATCACTTAAATGAGTTTTTGATTTATTATTACAAGGATCATTCATATTTTTTGATTGTATAAAAAGTGTTTGTTCGATTTTATTAACTTGATTTTTAATAAAATCCTTTAATTCTAAAATTTCTTTTAAGTTTTTTTCAGAGTTATTAAATGTGTTATTTTGTTGATTTAATAGATCAACTTTTTTTAAAAAATCTGTTTTGATTTGTAAAATATCATTAATTTGAGCTTTTAAATCATCTAAAAGTATTTGATAAGTATCTAAATCATTTTGATTAACTTGTTGTTTTAAGTTTTTGATTTCATCAAATATATGTAAAAATGTTTTTTCTAAATTATTATTAAGTAGATTATTATTATTATTATTATTATTATTATTTAATATCTCAACTTCATAATTAGTTGAAGCTGAATCACGCAAGTTAGTTATATTAGAAATATTATTTATAGTTTTATTTAAACTTAATGTATTGTTATAATCTAAATTCTCATTTAAAGAATCTAGTGAGTTTTTTTGATATTTAACATTTATAGTGTTTTTATCTTCTAAAGCTTTTTTTATCATATCAATATCAATTGATAGACTTTCAATACTTTTTATAAAAAAGTCATGTTTTTTTAAAAGATCTAAAACATCACTAAAAGTTTGAAATTCTTTTAAACCAACTACTAAAGAATTCTGATCATAATTGATATTAAAAGTTAAAATATCGTTTTTGTTTAAAATTTGTTCTACATGTTGTAGTGAAATATTATTTTTAAATGTAATCTTTGTTTTTTTATACAAATTTAATTCTTGTTTAGTACCACAAAATAGTAATTTACCTTTTTCTAAAATTATAAAATTATCAATAATGTCATAAACTTCATCAATATTATGAACTGTTAGAATAATAGTATTAAAGTTTTTCTTAAATTCATTTAAGATCGTATAAATTTCTTTTCTTCAATAAGAATCTAAATTTGCTCCAGGTTCATCACATACTAAAATTTTAGGTTCTTTTATAAAACATAAAATTAAATTAATGCGATTTTTCATTCCCCAAGAAAAACTTTTTAAAGGTTTATCTTTTGATTCTCATAAATCAAATCTTTTTAGTCAATATTCTAGTTTGTCTTTAACTAGCTTATCTTCTAAACCCATAACATAGCACATATTGTATAAAAAATCATAAGCTGAGATTGAGTACAAAGAAAAGTCCATTTGTGAATAAAACCCAATATCAGAATTGTTTTGAATTGAGTTATTCTTTTTTCTTTCGTTTTTATTAATAAAAATGTTTCCTTGATAATTAATACTAGTTCCTAATAAAGAATTGATAAACACACTTTTTCCTGAACCACTAGTTCCTAGTAAAGCAGTGATTTTTCCTTTTTCAACATTAAAAGAAAAAGGCCCAATTTCTATATCTTTAAACTTTTTATAAAAATTATCAACTACAATTGAGTATTTCTCATTTAATACATCAGAATGTAGATTCTTAGAAACATTTTTCATCATAAATTCCTTTGTACTATATATGCAGATTTGAAACTCAACTAAACTACTTTTTTAGTTTTTTTAATATAGTTTTGGTTGATCCAAATCTTACTTTTATTTTTACAAAAAAAAAAAAAAAAAAACAAGCCTAAAAAATATACTTTAAAGGCGTTGTAATGTTGATAAGTATAATAAAAAGCCTAGAACATAGGCTTTTTTGCAATTAGCTTTAAATTGAAAATTTTTATTTTTTTTTATAAAAAAAATTAAAATAATCATATTTTTAAGAAATTCTTTTAAATAAATCAAAAAAGTTAATTGATAAAAGATAATAATTTTTTAACTTTATTTTAAGTTAGTTACAAAACATATAGTTTTCTTATTAAAAAAGGCATACTTAAGTATGCCTAAAATTACATTACATTTGTTTCTTTTTCTTTTTTACACTTCTATAAATTATAAATCCAGAAGAAGCTAATAAAGCAACTGACAGTAGAGAAAGACCAACATAAACTCCTACTTTAGATTCAATTTGAAGTTCAGCTTCATCTGTGTAAGTTTGATTATTTGTTTTAGCCTTTACAAGAACTTTTTTATCTATTCTTTCAATTTTTAATTCCTTAACATCTAAATTTGATTTAGGATTAGCTTTAGCAACTGCTGCTAAAATTGTGTCATCTTTATTATCTGGTAAACTCTTTAATTTAGTTACTTTAACTAGTGTTTTTAAGTTATTATTTACATCAAATATTACAGTAACTGTTTTAGTTCCGTTTCCATTAGTTTTATTTTTTATTTCAATAACAGCACTATCACTAGAATTGCCATTACTTGTTGTAGTACTTGATCCAGAAGAAGTAGTGCCTCCATTAGATTTAACAGTAACTTCTATTTTATCTTTTATTTTAGGATCACCTAGTCCATTTTGTTTAATAAAAGCATTCTTAATTATTTCTTTGTCATTTTTGCTAACAAATCCTAGATCTCTTACCTTAACTAATTTGTTTAAGTCAATCTTTTCTTCTTGAGTAGTTGTAGCATCATTCATTTTAGTTTTATCACCACATGCAATAACAAAAGCTCCACTTGTAGCTACTAAACCAACTGAACCTAATATTGTTAATAACTTCTTCATTTATATCCTTTCATAGGCTAATAGAATATTAATATCATCAAAATTTATTATATACCATCTACTAAAAACAACTATAAAATATAATTAAATTCAATAGGTTTTCATAAAATAAAATCAGTATTTTTAAATAGAATAATTTTAGATAAAAAACATTTTTTATAATATGAATTTTAGTTTAAAAATTCTATAATTTTTTGCTTTGCTTCGTTTTGATCTAAAAGGTTTTCTAAAACAATTTTTTGTTTAAAATCAATACTATTTTGCAAATCTATTCCACAAACTACAGCTAGAATAGATTCATCATTTGGATCAAAAGAATTTAAATTAGTATGTGTTATTTGAATTGGTAGATCTAATTGTTTAACTACATTTTTTAAATTCATTTCAATTAATAATGATGATCCTAAACCCTGACCACAAACAGCAACTATTTTGTATTGCTTTTTAAGATCATATTTATTAGTTATTATCTTATTATCATTTATAATTTCAACTTGTTCTTTAGTAGTTTTAATATTTTTAAATATAGTTTTTTTAGTTAAAAAACTATATATTGGTAGAATAGTTCAACTAATAATACTAATTAGTAGTAAAACTCAAATACCAGCTTTACTTCCAATTAATTTTAATAAAATTCCAATTGGTAATCCTAATAAAAAGTCGCCATCACCTCAAGCTATGTGTTGTTTAGAACTAGCTATGCTTGGTATCATTTCTAAACCAATAAATAAAAATGGTACAAATGAAATAATTAACCCATTAATAAATGAACCAATAATAGCTCCTTTAATACCACCTGTTGAATTTCCAAACACTCCACAAGTAGCTCCAACAAAAAAGTGTGGAACTATACTTGGAATAATAATTATTCAAAGATTAACATTAATGTTTTTTAAACTAACAATTAAAATAGTAATACTCATAGCTATAATTCCACCAATAAATGATGAAATAAACCCAATTAAAACTGCATTTGGTGCATAAGGAAATACAATGGGACAATCTAGTGCTGGTTTTGCATTAGGAACTATTTTTTGTGATATTCCTTGAAATGATGGAACAATTTCAGCAATAAACATTCTTACTCCAATTAAAACAATTTCAACTCCTGCTGCAAATGTTAAAGCTTGTAATAAACCTTGTACAAAAACATCTTTTTGATTTTCAATAATTTTATGTACTACCATTTGCTCATATCCATGAACTATAAAAGTAGTAAAATAAATTATTAAATAAAGTAATAACATAGTTAACCCAATAGCTACATTAGTATTTCTTAAAAATGCTAATCCTTTAGGAAAATTAACATCTTCAGTATAACGTATTTTCTTTTTACTAATTTTTGCTATTAATGATCCAATAAGTGCTGATAAAAAATAACCTAATGATCCAGTATGGCCTAGTGCTAAATTATTATTATTTGTAATTTTAACAACATGTTTATTTAATAGTGCTGGAGTTAAAACCATATAAATTGAAACTAATAAAGCTCCAGAAATTACTACAGTTGTTAGGTTTTTAACTTCATCTAAATTTAAACCAGCAACATGCATAACACTTGCAAACATTGTTGAAAAATAAAATAAAACATGACCTGTTAAATAAATATATTTAAATTTACTAATTCTAGCTAAAACTATATTTAAAACCATAGCACAAATCATAATTAATGATCCAGCTAAAACTATTTTTGAAATACTTAAAAATAAACCTGGTAAAACATCATTACTAGCAATAGCTCCAGATCTTTGAAATAACAAGTTAAAAGCAAAACCAAGTTTTTGAATAGATCCAGCAATAATACCAGCTCCAGCTCCAATAATTAAAAAACCAATAGCTGTTTTAATTGTTGAAGTTAAACATTCACTAAACTTCTTTTTTTGTAATAAACTACCTATAAAAGCAAATAAAGCTACTAATATAGCTGGTGTTGAAATAAATTCTGTAAAGAAATTTAAAACATATTTTCCAAACTCCATATTAAGCCTTTCTATTTATCATATTTTTGTAAAACTAGTAGTATATCTTGTGTGTTTTTAACCTTTTCTAATTCATTTAAAAATTCTTTATTGCTAAATAAATTTGCAAATTTTTCCAATAAATCAATATGAGAATAATTATCTTTTGCAAATAATGACAAGCAGTATTTAACATGATATTTTGTATCATCTTTAAAAACTACAGGTTCTTTAAAAACAGATAAACTAATAGCATTATTTTTATTTTTTCATTCATCTTTTGGTGTTAAATGAAGTAAAGCTATTTGTGGAGCAATAATATAGTATGGTCCTAGTTTATTTGTTAATTCTATTAATTCTTTTGAAAAATCATCATCAATATAATGATTATTTATTAATAATTGATTAGCTATTTGTATAGCTTGTTGTCAAGAAGTAATCTTTGTATCTATATAAGTTACAAGTTTTTCTTTAAATAGCATAATACCTTTCTATTTTAATAACACACTTAAATTTTATAATTTGTATTAGTGAATAAAAAACTAAAAAATGAAAGGGTAATATAATATTAATTAAAATATAAAGCTTGGATTTTTTATATAGATGTCATTGAATAAATAAAAAAGAAGAATTTTATAATTCTTCTTTAGTTGATTTATTGTACTGTGTTGTATTCTTCCATATCTAAATCATCGATATTTCATGAAGAAGTATTAGATGAAACAGAGCTGTTTGTTTCTCTACTTCTTGAACTTGTTGTATTTCCTTGAGTTGAACTATCAGATTCTGAGTGCTCAGTAACAGTTTCTGATTCTTTTGGCATTTCAGAATTACCTTCATTTGGTTCACGTTGTTCAGTTACTTTTGAATCTCCTAAACCATTATTCAGATCATTTGATCCTTCAGTTTTTTCTTCTTTTAATTTTTCATTTTTTATTTCTGTTCCCTTAGAACCGTCATTCATATCATCATTTTCATTAGAATTATCTGAATGAGAATTGTTATTTGAAGTAGCAGTTGGCACCTTATCAGTACATGCAATTGCAACTGATGCTGTTGAAGCTACTATACTAATTGAACCTAATAAAGTTAATAACTTTATCACTAACATTACCTCCTAAATAACTAATTTAATTAGCAATATCTGATTTATAAACATAACAACATTATATATGTATATATAAAATATATCTAAGGTCAATATTATTTTTTAATAATTTAAATATGTTAAAGATATATGAATAATTTTTAGTTTATTTTTATCACTAAGACTTAGGTTTTAAAAATTTTTTTTTCTAAAACTATATAAATAAAAAAACTTATTAATTATATAGACTGATAATTATCTACATAACTAACAAGATTTTACGAATTAAAAATTAAAAATATTCTTCAAAAATAGATTTTAGTCTAAATTTATTATACTAGAACTTCATCTTAATAATTTATTAGATTTTTACTAGCTAGTAATTCTATATTTTTAAAGAATTTATATATTTTAGTTTCAAATATAACTAGAAGCTAAGCCAATTGAAGCACCCGATGGGTCTCCTGCTCCTGGAATTCTATCTTTTTTTGGTGTTTTTTGTTCTTTTGGAGCAGGAACTTTTTCTCCTTTAGTTGGGTTTAGTTCTTTTCATTTTTTTTCAATTTCTGTAAATTTTTTATTTACTAATGTAAGTGCTTGTTCTGCTTTATCAATTTTGTTTGCTATTGTTGAGGGAAGATTGCCTTTATTTTCATATGGTTTTCCTTCTTTTAGAGCATCTTGATATTTTTGGTTAGCATCTCTTAATTCTTTTTTGGCGTCCTTATAAGCTTTTTCAACTTCTTCTAATTCTTTTTTCATTTCTTCTTCTGAATTTTTACCTACACTAGGTGAACCTGCAGATTTTTCAGTAGATGAATCTTGTCTAGCTTCATCAGATTGTTCTGATTTTTGAGATAAAGTTCCACTATCAGCAGTTTTTTTTACAACTACACCCAAAGTTTTTCCCTCACAAGCAATAGCAACTGCTGCAGTTGAACCAATAACAGCTACTGATCCTAATAATGTTAATAATTTTTTTATTAATATGTATTTTGATAATAATTAAATTTGCTAGACATCTGATTTAAAAGATATTACATAGCAATATAGTATTATATATATTAGATATATATTATGTCAATATCTTATTTTAAAAATAAAATGTGATATAATACGGATTTTTAAGAGTTATAGTTTTGGTCTGTTTTTTTTTTTTTTTAATTTTTAGTGGGATTGTTTCTTATTTGTGAGGATGAGCAAATAAAAAAAATAGATCCTAAGGATCTAAAAAATTTAATAATTATTAAATTTATGACATTTTTAATTAACCTTAACTCTATTATTTACACTAACTTCACTATTTTTACTTTAATCTATAAATTTATCTAATGAATTACTTTAAAGTTATTAATTCTAATGATATTAATAAATTTTTATAAATAAAAAATCTTATTATTTACATACAAATACTTTATGTATAAATAATAAGATTTAAACTATTGTAAAAGGACCAGTTCATTTATAATGATTAGTTCAAAAGTTATTTATTTTAAAAACTGGTATATAAGTTCATTTAATATTTAATGCATAAATTCTAGCTGCTTTAAAATCATATTCATACATTTCTAAACTTGAAGACACTAACTTACTAACTTCATCATTATAATATAGTTCAATTTTATTTTTAATAATAATAGAAATATAGTAATTAATAAATAAACAAATAATTAATGAAAAACTTAAATAATTAAATATCATATACTTTCATAATTTGTATAAAAAATTAATATTCATATTATTTTGATTATTAGTTAAATTACTAATTTGAAAATTATCTGTAATCACATTATAAACAAATAAAAACAAATTAATTAACATAGATAAACTTAATAAAATAATTAGTAAAGTAGGAATAGTTAAAAGAGTTAGTCTATAAGCTTTTAATAAACTGTCTTTTTTTATTTGCTTTGCTGAAATTCATAACCTTGAAATTAAATAATCTAATTCATAACCAACTGATTCAAATATACGTTTACTAATTATAATTTGTTTTTTATTTTTATTAATATTTTTAAAAACTTTAATCATATTATCAGTATCAGTATAAATAATTTGATAATCAGTTAAATTAAACATGATTTGAAATTGTCTAATTGCTTTATTAATATCTGTTGAATTAATTACTAAATTACTAGAATTAATAAAAGGTACTTGGTGATTTAAATAACTTCTAGTAGTTATTAAATAAATTAATAATATTAAAAATATCATTAATAAATTCACTATTAATAAAACAAAATTAACTAAACTAAAGTTCATACAATCACCTAACTTAATTTAAATATTTTTAAACTTATTAATATTTTATTAGTATTATTAAATAATTAGCTAATATTTGTAAATAAAAAAGTTGTATTTCTACAACTCGGCATTGTGATAAACGTTTTGTACGTCTTCTAGTTCATCTAATTTATCTAATAAAGTTTGTAATTGTAATTTAGCTTGCTCATCTTTAATTTCTATTCTTTTATCAATTGGAATAGCTCTAATTTCTGAAATTAAATATTCATCAATATTTAATTTATCTAATGAGTGTTTTACACTATTATAAGCTTTAAAAGGAGCATAAATAATAATAGTGTCATCTTCACAAATTAAATCATTAATTTCAACTTCATCACTCATTAAAGCTTCTAAAACTTCATCTTCTTTTTTATTTTTAAAAGCAAACATTGCTACATCTTCAAATAAAAAGCTTACTTTTCCATCAGGATTACCTTTATTTTTATTAAAAACTTCTCTAATCATAGCAGCTGCTCTATTAACATTACTTGTTAAAGTATCAACTAAAATTGCTACATTAGATGGACCTATTCCTTCATATCTATTTGAAACATAATTTTCAGCATCACCACCAGCAGCTCTTTTAATTGCTCTTTCAATTACATCTCTTGGGATTTGATTAGCTTTAGCTTTATCAATTACAGATCTTAAAGCTAAATTTGAATTTGGATCAATTCCACCTTGTTTTGCAGCCATATAAATTTCTTTTGCTGCTCTTCCGTTTGCTGCAGATTTTTTAGCAGCAGTCTTAGCCATTGAAGCGGCTCTTACTTCATGTGCTCTTCCCATATTAATTACCTCTAATTTGGATTTTTCATTGAGTTTAACTTATTCATAATTAATTCTATTTGAGTTTTGACATCTAATTCAGCATCAACTACAAAAAAAGGAAAATCATAAACATTTTGTTTGTAAAACTCTTCATAGTTTTTATTTAAAGTCTCTCAGTATTCTTCACCAATTAGTAATTCTTCACTTCTTCCTCTTTTTTTAATTCTACTAATTGCAGTTTTAGTTGAAACTCTTAAATAAATAACAATATCAAAACTTAGTTTGTTTTCAGGAATTTTTAAGTTTTCTAAAACAACATTATTATAAAAATCAATATATGTATTATAGTCAGTTTGATCAACATTATTTAAATCATAATTAACTTTCATAAAAATAGGATCTTCTAATAAAGTTCTATCAAAAATAATGTTTTCTAAATTTTTTGCTTGTTTTAATTGTTTAGATCTAGCTGTTAACATGTAAATTTGCATTTTAAAAACAGTCTTTTTTAAATCTTTATAGTATTGTTCAAAATAAGGATTTTCTTCAACTGGTTCTTTAAAAATCTCATATCCTAATTTTTTACTAATTTCAGCTGAAATTGTTGATTTACCAGCTCCAACAGTACCAAAAATTGCAATTTTCATTTTTCTCCTTTATTTATTATTGTTTTGTTTTAAAGAATGATAAATTCCATAAAGTCTTTTAACTTCATGAGTTTTTAATTCACGATATTGACCTGGTTTTAAATCAGCAATTTCTAAAAATTCAATTTTAGTTCTTTTTAGCTTTAAAAGTTGAGCTTGAATAGATTCAAACATTTTTTTAACATGATGTTTTTTGCCTTCATTAATAGTTAGTTCTACAATTGAAGTATTTTTTAATTTGTCATATTTAACTAATTTAGCACTATAAGCTTTTGTTAAATAATCATTATCAATATATACACCTTTAATTAATTGGTTTATTTGTTGTTTATTAACTTGGCCTTGACAAAGACCTTGATATGTTTTTAAAAACTCATATTTTGGATGCATTATAAAATTAGATAACACCCCATCATTTGTCATTAATAATAAACCACTAACATCATAATCTAATCTTCCAACTGGATAAACTCTATGATTTAAATCTTTAAAAAAATCATTAACAGTTTTTCTTTTTTTAGGATCATACATAGTAGTTAAAACTAGTCTTGGTTTATAAAATAAATAATAATATTTTTGATTATTTGAATCAGATAAAACTAATTTATTATCTATTTTAATTTCAGCTTTAGGATCAATTTTTACTCCTAAAGTATTAATGATTTGATCATTAACTTTAACTCTATTTTCTAAAATTAATTTTTCAGCAGCTCTTCTTGAACAATACCCACGAGAACTAATTACTTTTTGTAGCCTTTCTAAACTCATTTTTTCTCCTTAACTAATAATAAGGTTATTAGATGCTTTGTTTATAATATCAAATAAATAAACAAAGCTATTGATTTTGACTATCTAAATTAAAATCATCAATATTACCATACAAATCAAGATTTTGTTGTTCTTGCTTTATTTCATTATTATTTTCTATAGCTTGTTTAATATCATCATCACTAATTGTTGGTAGTTCTTCAATCCCACCTTTTATATTAAACACTTTAAAAAAGTTATCTGTTATTCCATACAAATTACTTCTATTATTTTCAAGATCTTTTCCAACTACTTTAATTAGTTTTTTTTCTCTTAGTTTATATAGTTGATAAGTTGAATCAACATTTCTAATTTCATCAATTTGTTGTTTTGTAATTGGTTGTTTGTATGCAATAATTGATAAAACTTCTATAGTTGAATGAGATAACTTTTTATTTTCATTATATTGTTCTAATTTAGCAAAATATTCATGTAATTCAGGTTTTGTTTGTAATCTGTAATTATTTTTTTTATAAGTTTGAATACAAAAAGCAGAAGATGGATCTGCTAAATATTTTTTATTTAATTGGATAATGATTTCTTTAATTTCAGTTGGTTTTAAATTATCTAAAACAGTTTGAATATCTAATAAAGAAACACCATCATCACCATAAATAAACAATAACCCTTCAATAATAGCACTATATTGTTGATTCATTTGCAATCACCTCTAGTTGTTGAGCAATTAAGTTTTCATTTTCAATTACTTCTTTTCTTAAAGATATATAGATTTGATCATCTATACTATCAATTACTAAAATTTGATATCTCACTAAATCTAAAACTGCTAAAAATATCACAACAAAGTTTTTTAAATTTAGTTCTAAGATTTCTAGTAATTCTTCTAGTTTTCATTCTTTAAGTTTTTGAGAAGTTATTTTATTAACTACATCTAAAATCACTTCATGAACTGTTAGACTTGGAGTAGTTAAAGTTTGATAAATTTCAGTTTCTAAATCAAAATCAGCTTGGTATTTAAAAGCATTTGAATTAGTAATTACACTATAAAAAATTTCAGTTAATTTGTCTAAATCTAAATCATTTAAATCAATTAAAGGATCTGGATTTTCAAAAACTAAATCTTTTTTAAAGTTTTGTTTTGATCTTTTTTTTGAAAAAGTTTGTAAATAAGCTTCTTGAGCATTAAAAAGTCTGTCAGAAATTTCTTTAATTTGGTTATATTGACTAATTTGATAAACTAAATCATCATAATCAACTACTTGTTCTTGATCTACTTGTTGATCTTTAAATAATAAATGTCGAGATTTTAATTCAATTAGTTGTGATGCAATAATTAAATATTCACTAGCAATTTCAATATCTAGTTGTTGATTTTGTTTAATATATGCTAGATATTGATCAACAATTTCTATTAAACTTAGTTCAATAATATCTAGTTTTTTTTCTTTAATCATTAATCACAATAATTCAATTGGACCTGAAAATTGGTCAATTGTTAATTCTTGTCAGTGTTTCATATTAGCTTTCTATAAGTTAGTTGAATTGATTTCAAGTAATTTATTAATCTCATAATTTGTTTTAAAATCTAAAGTAATTTGAATAAAAATCCTACAAATAATTATAAATAAACACTCTAATTCAAATACTAAATTTACTAAATAATCTGAATTATCTAAATTAGTTTTTATTTCTAATAAGTGGTTAAAAATTCAAGAGTGTTTTACAAGTTTAAAAAACTGTTCACTTCTATATTGAGTCCCTCTTGTTTTAAAAAAAGCATAACTTAAATTAGTAAAATCATTTATAAAACTAGAGCGCTTAAACTCATTTAAATTTGGTTTTAAATTATATTTTAAATTTAAGTAATTAATTTTTTTAATTAGTTTATTAAATATAGAAAATACATATAAATACATACTAGTTAAACTATGTAACTCACTATTTTCTAATAAATAATTCTTTTTAGGATCATCATAAAATTGATGATCTAAACTTTGTTTTATATAAAATAATAAAACTGGATTTAATTTATTAAAAATATCAAAATTAAAAAAAGCATTTCTTGTAAATAAAATTGCTAGTAAAGTTTTTAATAAATATAACAAATAATAAAACTGATCATTTTGATTGATTAAATCATCTTTTAAATTCTTTTTTAATAACACATCATCAATCACGTTTGTTAAATAAATACAAATATCAAATAACTGGTCTTGAGAAAGTTCTTTTTTTCTACTCATTTTAATTAGTTCATTTAATTTAGTAGTAATTAATTCATATTCAGTCATATTAAACTCTTTTCTTTTTATTCTCTAATTAATCTAGTAATCATTTTTGATTGAATATCTGATTTAGCTAAACTTGTCATTTTTAATTTAATTTGTTTTAAATCCATATATTCAGCAATAATATAGTTTGCAGTTCATATAAATGTTGTTAGATAAATTCCTAATAAACAAAAAATTAATATACAGCAAATATAATAAACTTCAGTAATTTTTTTAATAAATAAATAGTTTTTATCTAAATCAGTATTATTAATTACTTCAAATACTGATTTAAATATACTAAATAAACCAATATTATTAACTTTACAAATACTAATTACTAAATATCAAACTGATAAAGTTAAAAATGTAACTGTTAAAAAAGTAGATAAAACAGAAACTTTAGTACTTCTATAATCTCACATTAAAGCAATGCCAAATCATAAATAAAACATTACAAAGAAAAATAAACCAAACACTCACATCATTATTGTTAGTAAATAAATATTATGAATAAAAGTAATTAGAATTACTCCAAACATCGTTAGACTAGTTAGAATAGAAATTGATTTAACAATTCCAATCACTTTAATAACTAGTTTATAAAATAAATAACCTAATAATAATTGTCCTAAAACAAAACTTAATCTAAATGATTGTAAGTAATTTCAGACATTTAAATTAGTATATGATTGTTGTTTTAATTTACTTACTAAAAATAGTTCAAAAATATCTGATTTAATAATTACATTAACACTTGTAATTAAAAAACTCATCACAATTAAACCAATTAAAACTTTATAATCATATCTTTGTAATTGTTCAACTATATCTTCTTTATATTTAATAACTTTGATTTTTCTTTCTTTTACAAATATAGAAACTACTAAACAAATAATTAAACAAACTAAACTTAAACTAAAAATTATTCAATTTGTATAACTATTATGATTAGAAATTAGATTTAAGTTTAATAAACTATAAACTTCATAACTAATAAAAGTTGCAAAACTTATAACAAATCCAGCTTTTATACTACTAAAAACTGGAAATAATCTTTCATTAAACTGTTCATTAAAAAATAAAAAGTAAATAATTTGAGCTGAAATGCCTACTGCTAAAAATAAACTAATAAAAATAATACTTGTTATATTTACATTACTTAAAAAAGCAATCATTACACTTAAAAAACAGCTAAATAAACTAATTCAAATTCAAATTCTTCTACTTTGTAATTTTAAAGTTAGTCATAATGCAAATGGATTCAGAATCGTTGCGTATAAAAAATAACTACTTAAAAAAAGTAAAATAGTTAAAGTAGAACTTGAAAATGTTTTTAAAATTGGTGAATCAATATAATTTGTAATTATTTGAATTAAAAAATTAATTACAATTCAAAAACTACTAATTTCTAAATAAAATAATCCTTTTTGTTTAGAAATGCTATTTTTATAAAATAAATAACTAGCAACAATTAATCAAATCACTATTAATAAAGGATTTATTATATATAAATCTCAACTAAACAACTTATTCACCACTTCTCTAATTAACTATTTATATTATAAATAAAAGCATATAAATAAAAGTTAAAATTAGTTATAAAACTCAGTTTATAGTCATAAAATTTAGCTATTTGCTTTTAATTAATAATTATAGTTTAAAGTTTAGAAATTAAAATTCTAATTTAGATTTAATAACTATACAAAATGTAAAAAAGTTTTATTTAGAAGATTATTAAAAATGAAAATGAGTAAATAATAAATAACCATTCTTAGTCAGATTACTTGAAATATTAAAATCAGTATGGTATGTTAATAATATAAATATTTTATATTTATACGTTGATTGCGAAGAAGGTTCACTGAACGAAGGCTTCCGGCGGTGAAGCCAGAAATAAATAGAACCAAAAATAGAACTCCTTTTAGGGTTCTTTTTTTATATATAATTAGTATCTAATTAGAAAGATAAACTAAGATTTATTAGTAGTTTAATGTTTGGTACAGTATTTAGATTTAGAAATTTAGATAATACATTACCAATAACAAGAGATAGATATTTTGAACCTATAGATACCAGTGGTAAAAAACTTCACCGTCCTTATGTTGTTTTTTATTCTGATGATAAGGTTTATTATTTATCTGTTAAAACATTAAAAAAAAAAGAAAATGAAGCTTCTGTTTATAGAAACCAAGATACTAATGTAATCTTATTAAATAAAACTGTTTATTATGAACCAGTTAAAGGTGAAGCTCTTGGTAATGTAATAGATTGTTCATCTGTAAATATAATGGATAGAAAATTATTTGAACAATTATTTGAAAAAGACAGTTTTAAAAATAATTACCAACTAGCTCCTTGAATTTATGATCAAGTAATGAACAAACTTTATGAAAATAAAAATAATTTAGTCTTCCATGAAGTAACTGGTTTTAATGACAACAAGGTTGAATGAATGATTGATAAAACAAAAACTGAGCAGGGTCGTTTAGAGTATGAAAAATGACGAACAAGAGTTGAAAAAGTAATCACAACTGTAATAGAAATTTATCATTCAATTTCAAGAGATGATATAGAAAAAAGATTAAACAATCAAGAAGAATACGTTAAATTTATTAGTCCAATCTATTATGATGAATTAGAATACGTTTATAAATCTTTTGAAATAGATGATAAATGAGAAGAATATCAAAAAAGTAATTCTAATAAGCATAAGATGTAATTAAGATTATAGGGGTTCTTTTTTTTATACTTATTGGGTATCGCTTCCTAATATATACTAAGTAAATGTAAAATATAAATATATAAAATAGTTTGCTTGCTATTAATTACAACATCAAAAATTATTATGATATAGTTAAAGTATAAATATTTTATATTTATAAGATTGGTGGTTGTAGTTCTTCCGGCCCTGTCTACCATTTGAGATGACGAAATTGAGAATAGAACTAAGTTAGAACTCTCTTAAAGGAGTTCTTTTTTTATATAATTTAGTTATATATCTTAAAAAAATAGTAGGTATCAAATGGGTATAGAAGCAGGTAAAATCTATAAAAATCGAAACCAAGAATATAATTTTTTTATAGCAAAAGATAAAGATGATGAAGTAATTAAAGGTCATGGTATAAATAGACCATTTATTATATTTTATAGTGATGATAAAGTTTATTACTTATCTGCTAAAAGTATTAGTAAAAAGAATAGAAAAAAAACTTTAGCTGATAAGTTTAATGTTGTTTTTAAAACAGATCTATATGGAGAAGATAAAGAAGTAGCTATAAATTGTTCAGTTATAAATATAATGGATAGAAAATTATTTGAAAGTTTATATGTTAAAGATGATGATATGAACAATTTTCAAACTACTCCATGACACTATGATAAGATAATGGGAACTTTATATAGATATTTTGATGAAATAACATATGCTGAAGCTTCACATATTGATAATGATACGCAACAATTAGTGTGAAAATCTACTTTAGAATCTAAATTAAATAAATTAGATTGTTTAAAAGTAATCAAAGGGTATAACTATCTTTTATTTGAAAGTGATATATCAAGAAAAGAGTTGCTAGATAATCCTGATAAATTTTTTAGTTTAGTTACAAGCTTTTATGAAAGAGTTAAATTTGAAACTCAAGAAGATTTTGATGAATATGTTATTACACACCAAGAAATGGAATCTATCAAATATGAAGTGCACATTAAAAATGCAATTAAAGAACTAAAACAAAATCTAGAAAAAGAAAAAGAACAACATAAACTATTAGAACAAGAGATAGATGTTGTTAAAAAACTAAATTATAAAAATAGTAAAATACAAGAGATGAACCAAGAGCTTAAAGATTGAGAAGAATTAGTTGAAATATCATCACATAAAACAAATAAAACTAATTCTGATAAAAAAACTGATGAACCAGATAAACCTAAGCAAAATCAATCTAGCAAGCTTAAAATGTAATTAAAACTATAATATCTTACTATATATTAAGTAAGTAATAAAGATATAATAAAGATATAAATATTTTATATTTATAGGTTGAGCGGTAGCAAGTTCATCTAAACCGTGACTTCCGGCGGTGAAGTCTAAATAATTTGAACTAAAAATAGAACTCCTTTTAGGGGTTATTTTTTATACTTAATATATACTAAGTAAGTATAAAATATATTATAAAATATGAACTTTATGCATATTAAATAATTTATTTTGATGTTATTTTCAAATACAAAAATTAATATGATATAGTTAAAGTATAAATATTTTATATTTATACATTGAGCGGCAGTGGGTTCATCTGGTCATGGCGTCCGGAAGTGATGCCGAAAATAATTGAACTAAAAATAGAACTCCTTTTAGGGGGTTCTTTTTTTGTATAATCAATATGTAATAGAAAGATAAACTAAGATTTATGAATAGTGGAATGTACGGTAAAGTGTTTAGATTTAGAAATTTAGATAATACATTACCAATAGCAAGAGATAGTCTTTTTAAAAATATACCAACTGATAATAGTAAACTTCACCGTCCTTATGTTGTTTTTTATTCTGATGATAAAGTTTATTTTTTAAATGTTAAAACACTAAAAGAAAAAAATAAAAATAATGTTGATAAGTACATAGATACTAATGTAATCTTATTAAATAAAACTATTTATAATCAACCAATTAAAGGTGAAGCTCTGGGTAATGTAATAGATTGTTCAGTCGTAAATATAATGAATAGAAAATTATTTGAACAACTTTACCAAGAAGATGAGTATTATAATAACTATCAATTAGCTCCTTGAATTTATGATCAAGTAATGAATAAACTTTATGAGAATAAAGATAATTTGATAGTTCATCAACTCAAAGCTTTTGATTTTGAAAATAATAAAACTCTTTGATATGAAACTACAAAATCTAATGACAAGCAAAATTCAACTGATAACAATAAGTGATTAGCTAGAGCTAAAAAAGTAATCACAACTGTAATAGAAACTTATCATTCAATTTCAAGAGATGAAATAGAAAAAAGATTAAATAATCAAGAAGAATACATTAAATACATTAGTCCAATCTATTATAACGAATTAGAATACGTTTATAATTCTTTTGAAATAGATGATAAATGAGAAGAATATCAAAAAAGTAATTCTAATAAACATAAGATGTAATTAAGACTATAATATAGTCTTTTTTTTATACTTAATATATACTAAGTAAGTATAAAATATTATAAACATATAAACTTTATGCATATTAAATAATTATTTTGATATTAATTGCAATACCAAAATTATTATGATATATTTAAAGTATAAATATTTTATATTTATACGTTGAGTGGCAGTGAGTTCATCTGGTCATGGCGGACGATTGGTGAAGCCGAAAATAATTGAACTAAAAATAGAACTCCTTTTAGGGGTTCTTTTTTTATACTTAATATATACTAAGTAAATATAAAATATAAGAATAATATAAACTTTATACATATTAAATAGTTTTCTTGCTATTAGTTGCAATACCAAAATTATTATGATATAGTTAAACTATAAATATTTTATATTTATGATATCGGTGGTTATAGTTCTTCCGGCCATGTCTACCATTTGAGATGACGAAATTGAGAATAGAACTAAGTTAGAACTCTCTTAGAAGAGTTCTTTTTTTATACTTAATATATACTAAGTAAATATAAAATATATTAGAACGTATAAACTTTGTATATGTATTAAGTATTTTTTTATTTTTGCAAGTCCAGAATTAATATGATATAGTTAAAGTATAAATATTTTATATTTATAAGTTGAGCGGTAGCAAGTTCATCTAAACCGTGACTTCCGGCGGTGAAGTCTAAATAATTTGAACTAAAAATAGAACTCCTTTTGAGAGTTCTTTTTTTATACTTAATACGTACTAACTAACTTTAAAATATATTAGAAAAATTAAATTTTATCTATATTAAATAGTTTGCTTGTTATTTATTTAAAATAATATTAAAAATAAATTAAAGATTATGATGAATAAAATTATAAAACAACCAGTTTATAATACTAATCAAACTGAATGCTTAGAAATTGGATATGAATGATATGATAATCAAATATCAATTATTCCATTTCCTCATACTATTAAAAAAGTTCCAAGAGTTTTACCAACTCAAATTACTAGTTTAGAAAATGCCTTTATTTATAATCAAAATGAATTTATTGATGGAATAGAGTACTGAGATACATCAAATATAACTAATATGTATTCTATGTTTTATGAAGCTAATAATTTTAATCAAAATATTAGCATGTGAGATGTAAGTAATGTTGTTGATATGAGTTATATGTTTTGTTGAGCTTATAAATTTAATCAAGACATTTCAAATTGAAATGTAAGTAATGTTAAATATATGAATGATATGTTTTATTGTGCTAATAATTTTAATCAAAATATTTCTAAATGAAATGTAAGTAATGTAAAAAAGGATTATCAAAATATTGGTAGTGGTGGGTTTAATTGAAAAGATGAGTTTAAACCTAAGTTTAATAAATAGAATTAATAACAAGATATAAAAGCAGTCTTAGACTGCTTTTTTTGTTAAATGTTTTTTTAAAAAAATAATCATTTTTAAATAATAAAATAAGTGTTTATGAATAAAAACAAACTTATTAAAAAAGTAAAATTATAGTAATAAAAGGTATTTAAAATATAGAAAGACATTATGAAAAAACTATTATTTATACTTCCAATAACTTTAATACCACTATTAACTATTACTAGTTGTTCAACTAATTTTCAATTACCAGAATCTAATAAAAAATATGATAAAAATAATATTAAAAAAGAAATAAAGAATTTTACTTATAATGGTATTACATATAACTTAATTAAAGAAGATAATATTGATCCAGAAAATGTTTATTATGCTAATGAAGTATTAGAAAATGACGCAAAACAATTTAAATCATATATTCCTGATTATAAAAAATACTTTTATAACCAAGTAGATAATAAACTAAAACTTGCCACTCCTGATTTAGGCGCATCTTGATTTGATTTTCCAACTATTGCTAAACTTAGTCAATTTGTCAGAAGTTTAGAACATTATAATGTAGTAAATTCATTCAACTCATCTTTTATGTTAAAAGACAAGACTACTAAACAACAATTAACAAGTGAAGAATATAATAACTTAGTTAATAAAATACTAGAAATTTTAAAAAATCAAAATAACTTAATTAAAACTATTAATAATGAAGAAGTTGATTTTAGTAGTATAAATAATTCTAAAAATGAAAAAGTTTCTGACCAATTACCATCAACACTAGAACATAGAAAACAAGAAATGGGATTTAATGATACATCATCTAACAAAGATTATTGGGGAACATACACTGAAACTAAATTAGAATCAGGTGCTATTAAAAAAGAATATAGTGAAACTCCATTAAAAGATAGTAAAGCAACAGCATTTCTTGATGGTTCACTAAAACAAATTCCTGTTTATTTATGAAAACTTAAAAAGATTTTTGATTTTAATGGTAACTTTAAAAACGAATATTTCTTACAAAGAGAGTTTTTTGAAAAATCATCTGAATTTAATAGAGAAAAGCAAGACTTAAATAATGAAATTAGTGATTATTTTTATAGAAATAAAATCAAGATTTATGCAATGCAAAAAGACTTGTGAAATATGTTGATTGCATATTTAGAGTTTCAAAAAGCAATGACAACTTTAGGTAATATTAGTGATGAAAATTTAAGTTTAGAAAAGAATTTAGAAAATAATGGAGTTATAAATGCATTAATTAATTTTGAAAATAAGTTATTAGAGTATATGAAATTATCTCAATTATTTGGTTGATTAATTGATCCAAGTAAAGAAAATTTAAATTTACAACTATTTCCTGGTGGTACTCATTATTCATTTGAAACTGATTATAGACAAGCTTATATTTGAGCTTATAGAGAATATCACGAAATTATTCAACCATTAAGTAAGCAATTTACCAAAACAAACACAAAATCTAAATTTGAAAAAGCATTAAAAACTCCTGAACTAGAAAAATATTATGAGTTTATCTGAGCTAACATTAAAGCAATTGATAATGTCGATAAACCTTATGTATTAGGTGAAAGTGAAGCTAAAACTAAATTTAATAAAATAATTGATTATTATGCTAGAACCTTTAATTGAAAATACAAAAAAGATTAATAAAAAAATAAAGAAATCTAAGCTAATAAATATTCTTTATCTTTAAAACTACCAGTAGTAATTAATTTATTCTTTTTAACTAGTTGATTTAATATTTCTCTACTTCTAGTTGGTGATACATTTAATAGTTTATCAATATCAATTCTTTTAAATTTAGTGTGGTTTTTAGCAAATTCTAAAACAATTTCTATTTGTTCAGTTGTAGTAGAACGAGACTTGTTTTTATCTGTATCAGTGTCTTGTATAATATCTTGTCTTATATTAGAGTGAATTTTAGTATTAACTTTATTTAAATATTCACTAACACTAATATTTGATGATTGATCTTGCTCATAATTTAAATTTTTTAAAATAACAATAAATGATTTATCATCAGATATAAATTCTGGAGTATGTTTTAAACTGTAATTTTCTTGTATTGCATAAATATTTAAAATTTCTTTAATACCACTACCTCTTCTTTCCATTAGTTTTAACATAGAAAAAATGTTTGCTAAAATTGGATTTCTTCTTTTAGATTCGATTCTATAAGGGTCTAATTCTTGTATTTTACTTTTATCAACCATTCCACCAGGTGAAATTATTTCTAATCTATCAGTATAAATATTAATATTAATTTGATCATAAAACTTAGTGTAATCTCTATGAACTAAAGCATTGACTAAAGCTTCTCTAATAGCTAATTTTGGATAATCAGGATATTCTATACGTTTAGTATCTGTTTTTTTAAAGTCTACATTAGATTTGTTTTCTATAAATTGTTGACTATTTTTTAGTATTTCTAATAAATTTCCATCAAAATTTTCAATACTTTTACCACTTTTTTTATTTGATTTTTCAAAATCGTTTCAATATGTTGCAAAGACTAAAGAATGTTTAATAAATTTTTGATCTGCTAATAATGCACCTGCATTTGTAAGTACATTATTTTTAGCTAATTCTAGTGAAACTAAATCATTATAATCTTCTATAATTCTTATACCAAGTTCTTTAAAATAGCTATTAAGTAAATTAAAAGTTGCACTATTTCATGGTATATCTGTTTGTAATGAATCATATGAAAGGTTTTTTCCACTTAACCCTAAACTAAATATCTCTTCTCTTGAAGCAATATGAGTTTGATCACCATATCTTACATATGCAGTTAAAGTTCCTTGATCAAATAAATAATAAGGCGTATTATCACCTTTTTCAACTTCTATAATAATTATTGTTTTTTTATTAATAACTTCTGATTTTATGCTAAATTTTGGAATAGGATTTATTTTATCTTTTATAAAACTTGATAATTTATTTATTTTATTTTTGACATTATCAATACCAATAATTTGACCATTATCATTAACACCTATATAAATAGAACCATTATTTGTATTTGCAAAAGCACAGATTGTTTTTAAAATGTTTTTAGGTTTGTTTTCATCAAATAATTCTTTGTTTTCATGTGTTGATGATTCAATAGGTACTTTAAACATTATATATTCTCCTATATTTTATAGAGCAATTCGATATATTAATTATACCAACACTTATAAAAAATATAAACACTTTTACCAACACTTATTCTGAAATACAAACACTTATTAAAAAATGAATGAAAATACAAAAACTTATTAAGAAATACCAACACTTATACTAACACTTCTTGTGAAATACCAACACTTATAGGCAAATAGACTAAAATACAAACACTTTTATGTGACTTTTGCATATTAACAAATTAAGATTTCCTTTATTATTAGAGTTTTCACCCTACTAAATAAAAAAAACTTGCTGTATTGCAAGTCTAAATTTTAGTTATCCATTTATACCTTTTAATCAACTGCTAACTAAAGAAGAGTCATCTTCATTATTAACGCTTCTTGGTGCATGACTTACTGAAACTGATCTTTCAGCTCTTTCTTTTTGTTTTTTTAATATATCTTCAGTTTCATTAGTTGGTTTTTTATTTTCAATTGGTTTTGAATCATCCATTAATAAAAATAATTCTTTAGTTAATTCTGAAGCAATTTCAGCATCACTTTTAGCTTTTACCTCTTTTTTAGCTACTGTAGTAGTTATTGTTGCTGTTTCAGCTTTCTTTTCTTCTTTAGTTTCACCATTTTTAGCTTTGTTAGATTCATCTGTTTTTATTTCTTGACTGGGAGTTTTACAAGCAACAGTTATAGCTGCACTTGATGCTATTAGAGCAAATGAACCTAATAAAGTTAATAATTTTTTCATAAATAATTCCTTCTAATAAGGTTAGTTTATTCACACGATTTTTTTGTATATTCACACATTAAAAATTGTACTAATTATAAAAATGATTTTTTTAATTTCTAATAAAAAATAAAAAACTTGAATTACAAAATTCAAGTTTTTGTTATTTATTCTAATTATTAGTTATAAAATCATCAATTATTTTATTTAGTTTTTCAGATTGATCTTTATAAACCATATGAGAAGCATTATTAATAATAACTGTTTTAACATTTTTAATAGTTTTATTAAAAAAATCTAATGAATCATCACAATCAATAATTCTATCATTTTTTGCTAAAACTACTAAAGTTGGAATATTAATAGATTGATATGCTTTTGTTATTTTATTATGTAAGTTTATATCAGTTAAACTTTTTGCTAATTGAAGTATATATCTATTAGTATAATAGTTTAAATTAAACTTTGACTTAGCATTATTAACTCAATTTAAATTATTTAATAAATTATCATAATTATAGTAAATATATGGAACAAATTTAGTTAAATAATCATCAAATGAATTAATAAACACATAGTCTTTTGTTCAAAATTCTAAACTTAATTGAGTTTGATTAATTGGAGTAATTAAAATTAATTTTTTAAACAATAAAGGTTGTTTTAAATAAGCTAAACTAATAACACCAGCTCCTAGTGATTTACCAATTAAAATCACATTTTTTAAATTATTGTTTTTAACAAAATCAATTAATAAATCTGAAAATTGTTCAACACTAATTTGATGATTTTTAATTGGTTTTATTAGATTTGACCCTGGAAATTGTAAAGCATAATAATTTGATTTTGTTCAATAATTACTAAATGCATTTAAACTAGTAAGCTTAGAATTAAACCCATGACAAAAAACTATATTTTGCTTATCATTGCAATTATTTTTAAAAATAAACTCATAATCATAAATAATTGACATAATTTTTATTAATCTATATTAACTTCTATAATTTCTGAAGCTAAAGCATTTTTTAATGGTTTAACTCTGATTTGATAAGTTCCTGAAGCTAAACCTTGAACTTTATTTTTAGTTATATCAGTTCAACTACCATTGTTTTTTAATTTATATTGCATTTTATCATTTACACCAGTTAGTGTTTTATTAATTGATTTAATATTGTTATTAGTTGGTATTTCTGATCTAATTAAATCAATTTTTTGACTATCTGAACTTAGTTTTTCATCTGATCCTTTATATCTTAAATAAAGAGTTCCAATAGTTGCACTAGGTATTATAAAGTCAGTTGGAACATCTTTTCAACTAGTGTTATTAAAGTTATATTCTAAATTGTTTAAATTATTAGTAATTTTAATAGAATCATTATCTAATATTAAAATTTCAGCATTAGGTTTATTTTGTCTTTGAACGTTAATATTAACTGAAGTATTACCATTTAAATTAAATTTATAATCTTTTTTCTTAATTAATTCTAATTGAATATTAACATCATCATAAGAATTAAAATGACCTAAAGTTAAAATATAAGAATTACCTTCTTGTTTTACATCTTTTATAAGAGCATTTTTAATACTAAAGTTTCCTGCTTTTAAATCATTAACTTTTTGATCTAATTCAACTTTAATTGCATATTTATTATTATACTGTTGAACACTTTTAACATTTACATTAGTTAAACTGGTTTTTGTTTGAGTTTCAAAATTATAACTAATAGCTTTATTAGGTCCAATTATTGAAGTAACCTTAAACCCTTTTTCTTTAACATCTAATCCTCTTTTATTAAATGCACTATTAACAACTTTGAAGTTTTTAGAATTAGTTATTAAATCTAAATTAGTTATTTGCTGAGTTTCTGTATTTCAATTATTATCAATTAAAGCTAAAACATCATCTTCTGTAGTTACAAAGTTTTTAAATTTTAAGTTTCTATAACGTTTACCTTGATTATCAAATTCTTTATTAAATTTATCAGAGGTTGTAAAATCGTCATTTGTATTTAAAAAGAAATTAAAGCTAGTGTAAGTATCTGTTCTATCTGAAGTAGCATCAATATGATATCATTCATTATCTAATTGAACTAAGTTTCAAGCGTGTTTAGTACTTCTAGTTTCTCTACTACTTTCACCTTCCATAAATCTACATGGAATATCAAGTTCATCTAAGATTAATTTTAATCCTTTAGCATAACCAGTACATACTGTATATTTTTTAACTAAAGCTGAATGAGCGTTTTGATTTTTTAACATTGGTCCATCTGTTAAATTAAAGTCATATTTAACTTCTTTAGTCATTCACTCATAAGCTTTTATAAGTCTTTCTAAAGGTGGTAGTTCATTTCATTTTTTTTCAACAACCAAATCTTTAGCTGCTTTTTTAGCTAACTCTTCATTATTTGCTAATTCACTTGTGTACTCTGAAAATACTTTAACAACAGCTGAAAATAAATAGCCTTTATAACTTGCTCATATTCTAGCTGATTTTTCATCTGGATGATTACCATATGTATCTTTAGTATCTTTTCATTTTAAAGTTCCATCACTTGTTAATGTAAAAGTTACATCTTTTTGATCGTCATTTGAAGTTATAATTTCATCCTTTGGATAAGAAGTTCTTTGATATCATTTAATTTCATTTCTTGAAATTGGTTTTGAAGTACTTTTATCAATAAGCTCTAATTTTACTTCATTATTTGTAAACTTATCTAGTACGATTAGTTCTTTATCAAGTTCAAATCTAGGATGAGAATAGAAATTTGGAGCAACATCATTATTTAGCATCATTTCTTTTGCTTTATTTTCATCTAAATCAATTTTATTAAAAGCTTTAAGTGTGCGATCTATATATGTATTGTTAACATCACTAAGATTTGCAGATGAACTAATAGTAATGCTTTCAAATGTTTCTGGTTCATATTTAATTGGTTGTGATTTAGGAATTGATGGTTGTGATACACTTGAAGAACTTATCGGAGTAGCTGGAGTTAAAGTTATTAAAGGACTAACTTTTTTTTCTTCTGTTAATGGTGTTAAAGCAACATTATTTTTAATTACTTTTTCTTTTTTAACAATAGGTTCTTCTTTAATTTCACGTTTTTTTCTTGGTTGTTGTTTAGTTGAACTAGTTGGTTCTAATTTAAATGCAGAAATTAGTTCAGATTCATTTGAATTATTTTGTTTAGATTCATCTCTTTTATCAAGAACAGTATTTACAGTTGAACTAGTTGGTTTTGTTATAATAGCTTCAGCTTTTGGTTCTATATTTGGTTTTTTATCATCAATTGGTTTAATTGAAAGTCCGGGTATAATATCTGATTCATTGTTTAATTGTTCATTAATAGGTTCTTTAATTTCAAAATTAATTTCTATTGTTCCAAAATATTTCTTTGAATCTTTGACTTTAATAATTAAAGTAGAACCTTCTTTTTTTATAATTTCAAAATTATTAATAGTTAAATCTTTTAAAACAGTTTGATTAACTTTTAAAAACTCGTTTAAAATAGTTGTATTATTAGAATTATTTAAATTTGTTAAATTAGTAATTAAATTTAATGAGTTAATATTAATTAAAGCAGGAGTTAAATTAGTTCAATTAATAGTATTAGTTATTGTATTTAAATTAGTTTCATTAATTTTATTTTCTTTAGCTTCAAATTTAATATTAGTATTACCTATAAATTGGTTTGAATTTTTAATATTAATAATAGCATTAGAATCATTAATCATTTTTACTTCTAATTGGTTTTCATTTAAATTAGATAGTTTGTGATTGTTTATATCTAAAAAAGTTTTAATAATAGTTTTTGGAGTGTTATCTTTTATATCATACAAATTAGTATTTAAATCTAATTTACTAATATTTATTTGTTTATTATGTAAAGTGGTTGTTTTATCATTACTACAAGAAACTACAACAATACTACTAGTTAAAGCAGTTAAACAAGTTAAAATGGATATTAATTTAGTTTTTTTCATTATTTATATTTATTTTCTATTGATCTAATTATTTAATTTTATTTACTAATAAATAAAATGTCGCAAATATATAATATATCATAAAATCATTAAAAATTAAAAGTTAGATTCTTATATTGAGATTTTAATTTATTAAAATCTTTAGTACTTTTAATAAAGATTTCTGTATTATAAATTTGACGTTTTTGTATTGAGTCTCACATTGATTTATCTAAATAGTTATCTTGTAAAAACAAATAATAAGTAATTGTGTTTTTTGTTCCAATTCTATGATTTCTTTTTAAAGCTTGAATATGATAACCATAAGTTGCTAAAGAAAATAAAATAGTCTTATCATATTCTTGTCAATTATTTCCTGTACTTGCTGAAAAATAATTTGCAATAATCACACGTTTTTTACTACTATTTTTATTATTTTGATCTAAATTTAAAAATTCTAAATAATTAGTAATATTTTTTTTATTACCATTTCAAATATCAATTTTATAATCTAGTTTTTTACAAATTTTATAAATTTCATCAAACTCAGGATCATAGTTATAAAAAATAATATAGTTATCAATCTTATCAGTTAAGAGTTGTTCTAATTTATTTAATCTTGAATAATCAAATCAATAATAATCTTTACTATTTCCTTGAAATCCAATTGAAATTTGTCTAGTTCTTAATCAAAAAGTAGCATCATCACCAGCTATTCATTTATCATCAGGATAACTTAAATTTTTATAATATGGGTTTTTAATAAGATTTAATTGATTTGGTTTGTAATTTGATTTAATGTTATTTTTATTACAAAAATTTAATAAATCATATTCTGTTACTTTTTTATTTGTAAATAGTTCAAATTCACTACTAATTGGTAATTTAATACCAATGAATTGTTGTTTTGGTAAATAAATAGGTGGGATATTTTTACTAGTTAAAGCAAATTGATTAATTAATTGTTCTAATTGTTTTATATTTTTATATCCATTAATTTTATAAACTCTTCTATAAGCATTATTAAATTGGGTTTTAATACAAAACTGATCTTCAAACTGATATCTAGTCATTTTTAAACCTAAAAATCTTAATTGATTAAACATATCAATAGCCCCAGTTGTTTGAGGAGTGCCACTTAATAAGTATAAATAAGTTTTAAAAGCTAGTTTTTTAACTAAATCAACAAAGTTTTTAATACTAATGGAAATTAAAGCTCTTGAGTTTTTAATATTTTGACTTTCATCAATAATAATTGCGATTTTTTGATTTTTATGTACACTAATAAATTTAGCTAAATAATTAAAAAAGTTTTCTTTATTAATATTTAATAAAAATGAATGATAATTAATAATAATTGCTTCTTTTTGATTGTTTCTAAAATCAGCATTTTTTAAATCAGTTTTTAAATAAACTTTGAAATTTAAATCATTTTGTAGATAATTTGTAAAACTAGCATTTTGTTCAACAGTTTCTAAAGTTTTACTTCTACTAGCAATTACAATAATTGCATCAACTTGATTAATTTCACAAAAACCTAAACTTAAAATTGTTTTTCCACTACCCATATCTAAAAACAATCCTAATTGATTTTTATGCTTATTTTTAATAATTAATTCTTTTTGTCAGTCAAATAATTGATCAATAATTGCCATATTTTTTTCCTATTTTTATACTATATTTTTAATAATAAAAAAACAAGTACTAGAAAAAGTACTTGAATTATTTTGCTCTTTTAATAGCGTTCATAGTTTTTTTAATATCAGCTTCTGATGGTTTTCTTCCCATACTCATATACATAGCTCTAATTTGTTTTTCAGTAATTGGTGGATTATCTTTTAATTGTTTTTTAACCATATATCTAGTAATTACAAATCCTAAAATTAATCCAATAACAATTGCTGCAATAATCACACCAATTAACATTCCAGCTAAAGCACCTGCTGAAAAAGTTGTTGTTAATAACATTAAAATTTCTCTTTTCTATTTATTTAAATATTCTAATATTTTTTTTGTTAGATTTTCTTTTATAAATCCAAATTCTTTAATGACACTATTAGCAGGAGCTGATTCACCAAAACGATCAATTCCAAAAACTAAGCCATCATCACCAACATATTTATATCAAATTGCACTTGATCCCATTTCAATAGCAATTCTTTTAGTATTTTTATTAATAATTTGATCTTGATATTGTTTATCTTGTTTATCAAATAAATTAGTTGATACCATTGAAATAACTTTTGATTTAATATTGTGATTTAATAATTCTTTTTGCACATCAATTGCTAATCCAACTTCACTACCACTAGCAATTAAACTAACAGTTGCATCAGTTTGATCACTAATTATATAAGCTCCACGTTCAACTTGATTTAAAACATCATTGTGTTGTAGTTGTCTTACATTTTGTCTAGTTAAAATAATTGAAGTAGGAGTTTTAGTTAGTTTTGTTAAAGCAACTTTATAACAAGCAATAGTTTCACTAAAATCAGCTGGTCTTAAAACAACATGATTTGGAATAGTTCTTAACATTGATAGTTGTTCAATTGGTTGATGAGTTGGTCCATCTTCACCAACTGCAATAGAATCATGAGTAAAGACATATAATTGTTGTAATTGCATAATTGAAGCTAATCTCATTGCTGGTTTTAAATAATCTGCAAATACAAAAAACCCACTAGCTACTGGAATTAATCCTTTATGAGCTGCAATTCCATTATTAATTGCACCCATTCCAAATTCTCTTACTCCATACATTATATTTCTACCAGTTTTATTTAAACTAGTAAATTGGTTATCAGCACCTTTAATTCTAGTTGAACTAGATAAATCAGCACTTCCTCCAATTAGCATTTTTTCATGATTTGCAATTTGTTCAAAAATCTTTCCTGAACTTAATCTTGTTGCTTCATCATTATTTGGTATATCTTTTAATAAACTAGAAAAATCAAAAGTGATATTTTTATTAATAGCATTATCTAAATAAGTACTTAATTCAGGATATTTTAAACTATATTTAGCTTTTAATTGATTTCAATATTCTTCTTCAATTTCACCTTTTTTAGCATTAATTGATCAGTGTTTATAAACTGAATCTGGAATAATAAAATCATCATAATCTCAATCAAAATATTTTTTTACCTTAGTTATATCATCATTTAAAGGAGCACCGTGAACATCTTTAGTTCCTTGTTTAGTTGAACCTAATCCAATAACAGTTTTAACTTCAATATATGTTGGTTTATCTGAAAGTTGAGCTTTTCTAATAGCTTTATAAATGGAATTTAAATCTTCTCCATCACTAACTTTTATTGTATTTCAATTACATGCTTTAAAACGTTTGTGCATATCTTCAATTTGTACATCAACTACATTTGAATCTAATTGCACATCATTTGAATCATGAATTAAAATTAATTTATTTAACTTATGTTTACCAGCAAAAGAAATAGCCTCTTGACTAATTCCTTCTTGTAAATCACCATCACCACATAAAACATAAGTATAATGATGAATTAAATTAAAATCATGTTTATTATAAACACTTGCTAGATGAGCTTCAGCAACAGCCATTCCAACTCCCATTCCAACACCTTGACCAAGTGGACCTGTTGTCACTTCAACTCCACATGTTAAAGTTTTTTCAGGATGTCCTGGAGTTTTACTATCTCATTGTCTAAATTGTTTTAAATCATCAATAGATAAATCATATCCAGATAAATGTAAAGCTGAATATAATAACGCACTACCATGACCAGCAGATAAAATAAATCTATCTCTATTAAATCATTCTGGATTTTTAGGATTAAAATTCATAATTTTATTAAATAAAACATAAACTATTCCAGCTGCTCCTAAAACAATTCCAGGATGACCAGATTTTGCTTTATTAATTGCACTTACACCTAATATACGTAATGCATTTAAATTATCATTTTTACTAGTTTTCATTTTTCTCCTTATATTTAATAGATATATCAATTGAATTTATGAATTAAGTTTGAGATTACTATTTTAAAACTATTTCTAAATATCAACTTTTTAATAATTCATATTCTTGATTTTGTTCTTCAGTAATTAAATTTTTAGCTTTTAAATCAGCATAGAATTTAATTCTTTTTATGATTTCATCAAAAGGTAAATCTTTAATATTATCTGACATTTTTTCTCCTATATATTATTTTATACCATTATAAAGATCAGTTTTATAGATTACTAATTAGTAGTTTTTAATATCTTAGTAAATATAAAAAAACACTTTATTTTATTAAAGTGTTTTAAAACTAATTTGAAGCTTGACTAGTTATTATCGGTTTATTTTGAGTAATTTTTAAATCTTTTTTAGATTTCTTTTCTTGTTTATTTAAAAATTCTAAGCTATCAAATCTTGTACATCATAATTGATTTCAAGTATTTGGCACTCTTTTTAAAACTAAAATAGAAACTTCAAAAGTTGAAATAATTAAAATTGGTTCTATAACAGCATCAATTGGAAAGACAATAAATTTCTTTACTAAAGTTACATAAACATATGCATTTTTACCAATAGCTAACATAGCAATTGGGTGAGAAATGAATGTTAGTGTAAAACTTGCAATAAATAGTAAAACAAAAACTGAAATCATAAATGATAATCTTGATTTTTGTTTTTTAATAAAAACTAATGATCCTAACATTGCATAAATCATATATGCAGCCATAAATGAAAAATGAATAAAAATACCTGGGTTAACCATTCCAGCTGTATAACTTAAGGCCCCAACTAAAGCTCCACCCATAGGACCAAACAACATACCAGATAAAAATAAAATAAAGTTACCAAGCATCAAGCGCGCACCAAAAACACCACTATAACCAAGAAAATTTGTTAATAAAACAATTAATGCTACTTGCATTGCCATCATTGTTATTTTAGTAGTTGTAATAGTTTTTAAAAATTTTGGATCCATCATGTAAGCTATTGCAAATAATAAAATGATTACACAAATAGCAGCTCCATTTGTTAAGAAAAACAACATTTTAGCAGCCTCTCATTAAAATTTAATATTTTACATTAATTATTGTATCAAGTATCTAAACTATTAAAACACATATAAATTATTTTTATTTTTTAAAAATTATTTTACTTATAATTAATTTTTTTTAAATATTGTTTTATTAGTTGAATCGCTCTTTTTGAATAAAATTTTTTACTATTATCAGATAATTCAAAACCATCAATCATATCAACTAAAGCTCAATTAATTCTCATTGGACTAAAATTAGAATCAGTTTTTAATAAATAATGATAAAGTGAACCTATTGTTGAATTTTTATTAGGTAGAATCATTTTTTTATTATTTAAATATCTATCTAAATTAATTGCACTAATTAATCCAGAACAAACTGATTCAACATATCCATCAACTCCAATAATTTGACCTGCAAAAAAAATATTTTTATGTGTTTTTAATTGCACACCTAAATTTAATATTTTTTTAGTGTTAATGTAATTATTTTTATGCATAACACCATATCTCATAATTTTTAAATTTTCTAATCCAGGAATTAAGCTAAAAACTTTTAATTGTTCATTTCACATTAAACTAGTTTGAAAATTAACTATTGAATATAAATTATTAATAACACTATCTTTTTTTAATGTAATAGTTATATAAGCATTATTATTAATTGGTTTAAAATTATTAATAAATTCTTGTTTGTTTTTAGCTAAACTTTCAATGCTAAAATAATTGTTTTTTTCTAGTAATTTAATTTCATTTTTTAATGGTGAATTAAAAGTTTTTGCACTAATTAAAGCATTGTAAAATTTTTCAAATTGCTCTTTATTTAAATCAGAATATAAATAATCTAAATTATTATCTAAGCTATAACAAATATTTGTATTTATTGATTGTTTTAAAATAGTTGGTTCTACACTATCAAATAATTTTAAATTCTTCTTATTAATTAAATTTTCTAATTTATTTAAAAAACTTGGTGTTGAAATAGGACCAATTGCTATAATTGTTGGAATATTTAAATCAATATTTAAATATTCTTGTTCTATAATTTTTAAGTTATTAAAAGTTTTTAAATAATTAGTAATGTATTTACTAAACTCAATTCTATTTACAACTAATTCATTATTTTGATTTATACTAGCATATTTTGCTGCTTTTATAATTAGTGAATCTAAAAGTTCTAATTCTTTTTTTAAAGTACCAACACTAGTGTTTAAATCAATTGATCTAAATGAATCTGAATATGCTAATTCACAAAAATAATCATAATGTTGAATTGGATTTTTTTTAATAGTTTTAATTTCATACAATTCAACAAAATAGCCTTTTTTTAATAAATAATAAGCAGCTTCACACCCTGATAGTCCTGCTCCAATGATTCTTATTGTTTTCATAATATTCTCTTTATATTTATAATCATAAAAAAAGTAATTAATAAATTCTATTAAAGTCTTAAATAAAGATAATAATTTTTAATTAAATTATATTTATAGTTTTAGATTCTATTGTTTTTTTTATTATAAAGTGTAATATTAATTCAAATCCTGATTGTGATCAGTTGACAACATCTTGAGTCTAACCGTATGTTAAGTACGGAGCCCACCAGGTAAAAAGCACCGTGACGTGATACAGGTGCTTTTTTTTATTTAATTTAAAATAATATGAAAAAAAATTATATTTATGATTTTTAATACAAAAAATACTAATTAATAACTTTTTTATAATATAACTACATATTTTATAGCATTGATAACTATACAAATTATTATTTAAATTAATTACTAAAAAGAGCTTTTAAAGCTCTAATTTTTAGTTTTTAGTTTTTTTATTTCTTTTTATTATTCATATTAATAAACCAGTAAATGCAATACTACTCAAGCTTATTAAAAGTGAAATAACTATTCAAAATGTATTAGTTTTTTTATATTGTTGTTTTTGAGTTATATTTGAAAGCTTTTCTAAAATTTGATCTTTATTTTCTTTATTAGTAGATATATCATTTGAATTATTGTTTAAAACAGAAACATTTTGACTAGAAGTATTGTTATCATTAGAAATAATATCAGATGATAAATCATCAACAACATATCATTCTAATAGCATAGTATCTTTTTGATTTTCAAACACATAATTTGGATCTAGAATTTTTAATACTACAGCATACTTACCAATTTGATTTTTTCAATTTTCTCTAATTTCAACTAAATTAGTATCAATAAGTTGATTAAACTCAGGAGAAACACCATTGATTGGATCATGTTTTAATTTATTACTTATTAACTGTAAACCTTGATAAATAACTTTTTTATTAACATTTATATCAACTTTTTGATCATAAACTTTGTTCTTATAGTGATATTGTAAAGTTATTGATTTGTGATCACCTTTAAGAATGCTTTCATTATTTTGATAAACAATTCTATCTGGGATTAAAGTTATATTTTGACCTTTATCAGTGATATTTATTTCAAAATCAATAGGTTGTACTATATCATTTGCTTGAAAAGTTTCTTTTAATCTATTAACTTCAACTTTAAAATCAGGAGTATTATTTTCAAATATAGGTTTAATTATAACTGGATAACGATATGAATTAGTTTGATTTGTTGTTGAACCAATATAATTTAAATTACCATTACCTGTTTGTAGTTTTTTTACTAACTCTTGATCAATATAATATCCTTTTTCATCTTTTAATAAAGTTTGATAATTACCATTACTATCAACATATTGATATTCTTTTATTTTTAAATCACTATTTGTATTATTATCTAAATATCATTTAAATGAATTATTATTATTTTCAAAAACAACTTCATTTACTAAGTTATTTAACTGTCTATTATTTGTATCAAAATACAATTTAGCTATAATATATTGTTTATTTGTATCTAATCTAAAAACTTGATATTTTTTAGTATCAGTTTTTATATTATTAACATATTTATCAATATCTATTTTAAAATGATTCTCTTTATATTTGTCATTTAATAAATTTAGGTTTAAATTAAAAGCATATGTAGATTTTTCTAAAGACCCAATTTTATCAGAACCGATACGATATTCAATATCATTATCAGCATTTAAATAAGTTGGTGCATAACCATAATTTAAATCATAATTAGTTTCATGTTGTTTTTTAGAAGTTAAAAAAACTGGTATTTTATTATTTGCTGAATATGAATTTGAGCTATGAACAACTAAACTATAATCATTATTTGAATTTGTATAAACAGCAGAACCTGAATATAAGTTTTCACTACCATCAAATATATAAATTTGTCTTGTTTCTTGTTGAGTTTTTAATTTGTTAGGTTCAGATTTTGATTTGTATTTATAATTTAATTTAACTGTATATGAACCTGGTTTTAATTTATTATCTTTATTTTCATATGATACGTTAGTAACACTATTATTATTAGTTATTTTAAATTTATCAGTAATATTTAAATTATCTAAATAAATTTGCACATCCATTTTAATTAGATCAGCTATATTTGTATTAAAATGATATTCTATTTTAATATCATCAGTTCAATTAAAAACATTTTGATTTAAAGGCTTAGAATCTGAATTTGGTTTTTGATTATTTTGTGAATTATAATAACCACTATATTTATTAATAATTGAATTTGTACTTTTTGATGTTATTAATTTATCACCAATATATTTATAACCATACAAGTTCATATATAAAACACTAGTATTATATGGTAAATAGTTCACTCCATCACTATTTTCATACTTATTATCACTATTTAAAACAATAAAAGCACCTACTGATCCATCAATACATTTATAATTATCATCTCAACCAATAATTGAAACTGCATGTCCATTTGCTCCATAATCACTAACAATTTCACTAGTTTTTTTATTATTAGAATCATTTGATTTTATATTTCAATATTCAATTCCTACCATTAAAGCTGAATTATTAGAAATGTGATACTTTATATCATTTAAATCATTTTTAATATTGTATCTATCAAATATAACCATTTGTAGTTTATCAGCTAAATTATGAATGAATTTAGGTTTATAAAGATCAAGAATCTTTTTATAATAAGTTCCAGAATTTGGTAAATAATAAAGATCACTAAAGATAAAATCTGATTCAAAAGATATTCCGTTTTTTAAAGCATTATGAAAATCAAAAAAATTAGCTCCATTTGCGACTCTATTTTCTAATTGAGCAGCTATACTTGCTTCTGATAAATCATACATCTCATTATTATTAATCATTAAAGCAGTTTCTAAAGCTTTAATTGAAGAAAAATCTCAGCATAATCCACTTTGATCTTGAAGTTGATGAAATAAAAGATAATCATCTCTTAATGAATAATATTTTCTATTTTCTTTTTTAGATTCATTGTTTATTTTTTGATTATTAAATGTAACTAGATTAGTTGAATAGTTACTAGTTAGTGTTTTATTTAAAAATAATAGAGCTGGAGTAGTTAGTATAATATTAGAACAAACTAATAAACTTATTTTTTTATATCAATACTTTTTCATATTTTATTAATTTCTACAATTTGTTATTCAATCATTTCTTAATTACTTATAAAATTTCTCATTTTTGCAATGATATTATTATAACTTAAAGACTGATTTTATCTAATAATAAAATCAAAAATCAATACAAAAGATCAATAAATCTTAAATAAATTAAAACTAAACTAAAAGTTGTTTTTTATATAATTTAATTAATAAACAATAAGAAAGGATTATATGAATTTAACTATCATTTTAATAATTTTAATAAGTATATTAACTATTATTTGTATTAGTATTTTATTTTATTTAATTAAAACTAAAAATAATGATTCTAAAATTGATCTAACTAGTTTAAAAGATAATTTAAACAATAAATTTGATACTAATAAAGAATTGATTACTAAAGAAATAGAAAAAGATACTGAAATTACTAAAACTAATTTAATTAATTTAAAAGAAACAGTTAACAAACAAAAAGAAGATCTAACAAAATCATTAGATAAACTAGAAGAAAATATTAAAAAATTTAATGAAATTACTAATAATATAAATACAATTGATAAAAAAGTTGATACATCAGTTAAAAACATTAATGAATTATCTTTAATTTTTAAAAATAGTAAAACTAGAGGAAACTTAGGTGAGTTTACTTTAGAATGAATTTTGACTAATGTTTTAGGTGAAAAAACAGATAATGGAATTTGACAAACTCAATATCAATATAAAAACTCTAAGGTAATAGTTGATGCTATTATTAAAACACAAATTAATGATAAAAAGATTGCAATTGATTCTAAGTTTCCTTTAACAAAAGCAAATGTCTTAATTTCAGAAAATACTGATACTTATTTATATAAACAAGCTGAAGATGAATTTAAAAAAACAATTAAAAATATGATTAAAGAATTAAATAATAAATATATTTCTAATTCTGAAAATGTTTCTAGTGTAATTATGTTTATACCTTCTGAAGCTATATTTGAACTAATTTGATCTAAATTTACTGATATCTTTAGTGAAGCTATTAAAAATAAAATTTGAATTTGTTCACCAACTACTTTACCAGCTGTTTTGTATTCTCAACAAATTAGTATTAAAGAATATAAGATTAGTAAAAATATTAATGAAATTCAAAAACTAATTAAAACAATAACTGATGATGTTAAAAGACTATTAGATAGAAATGAAAAAATGTCTAAGATTTATGAAAAGTATAAAACAGAAACAGAAGAAGTTTTTAAAGAATTTCAAACTTCAGCAAATAAAATTGATAAAAACTATTCTAAACTAGAAGCAATAAATATTGATGATAACCAAGAATAATTAAATATTTAATAAAAATAGACCAATAGGTCTATTTTTGATTCAATTCATTATTTATTTAGTTTTTTCAACTTTAATTAATTGGTTTAAAATAAAGTATTTAAGTGTTGGTGGACCTGCATTAATCACATCTGTTGCTTGTTTTATAAATTCCTTGTTTCCAAATATTAGTGAAAGAGCTAGTTCAAGATCTTCATATAAATTAATACGGATTTTAGAATTATTAAAAAACGCAAAACAAATATTTATAAAATCTTCTTTTTTGTTCATAATAGTTTGGTCTTTAAACTCTTTTTTATCTAAATAATTATAAAAATAATTAAAACCATCTCGATTTTTATTTAAATATCATTCAAATGTTTTAATGTCATTTTTATCATTAATTCATTCTTCTAATTTAGTTATAAAAAGATCAACAAATAAAACATCTTGATACTTTTCACATTCAGTTTTAAATTCTTTTAACTTGTTTATAAAAAGTTGTTCATAAACTTTTTTAAGATAATCAAACATTCATTGTTCAGTTAAGTCTTTACTATCAATAATAGTTTTTTTAGCTTTAAAATCTTTTAAAAAAATATCTATTAATTCTGTTCCAATTCAATGTTTAATAACAGCTATTTGAGTTTCTCATTTTACATCATCATTTTCTATTTTATTTGATTCTATTTGTTTTAACATATCATCTATTGAAACTTTAAGTGGATAAGTTAATGTGTATTGTTTTGCAATATCTAAAAATTCTTTTTCTTTATTTGTTAAAGTTTTTTGATTTTTAAATTCATATCTTAAAAGTTCTAATAAACTAAAACGATTAACAAACTCTAATAAATTAAATGATCTAATTTCTTTCATACTAATCCTTATATAAAAAATACTTTCTTAATATTATTTTAAATAATAGAAAATAAGAATTTTTAATAAGATTTAAAATACTAGATTTTAAAAAAGTTTTATATAATCTAAATATGGAAAATAAGAAAAATAATTATTTTAGTGATATTGAAATTTTATTAACATATGATTATGATTCATGTGTGTTATTTTTATTAAATAAATATGGTCAAGTTAAAGGTGATTATATTAAATATTCTTATAATTGATTTGTTAAAAATATAGAAGAAAATTTAGCTATTAAAAAATCTTGATATGGTTTAGAAATTCATCATATAGATGAAGATAAAATCCCTAATTTATCATCAAAAGAAAATAGACAAAAATATATAGAATATCAAAGAGCTGATCGTTTAGTTTATTGTAATTTAATTGAACATTTACTTTTACATATTAAAATTTATGAAAAAAATAAAAATAATTTAAGTAAAAATGGGATTAGATTAATTATTAGAAAAATTAATGATTATTATTCTTATCATCAATTTGATGATGATAGAAATAAATTGTTTTATCAATCAATTAAAGATAAAAAGTTAGATTATTTTAATTGTTTAGCTTATATTAATGATCATAAAATCTTAACAGGAAATAAATGATATGCACGTTCTTTATTAGAAGATGAGCATAATAACTTATACCAATTAAGTGTTTTATATGATGAAATTGATCTTTATTTAAAAGCTAGAGTTATACCAAGCGAAGTTGATGATAGTATTAATCGTCCTAAAACTTTTAAACTTGAAAAACTTGATGATTTAGATTATTATGTTGAGCAAAGAAAAAGAGAAATGCAACAACAAAAACAATCTAGAATTAGAATTTCTAATAATACTACTAAACCAAGTAATTCAAATAAATCAAGTTATAAATGATCAGTTATTATTTTGACATTTTTAGTTTTACTTATATTCATATTTATCTTTTTTGTATTTCTTCGCTAAAAAGGGCTTAATTTTTTTAAGCCCTTTTTTATTTTCTATTATAGTTTAATCCCATTAAATTTTGTACTTTATTAAGTTTTTTATTAGCAATATGTCTAGCTTTATTAGCACCAAGTTCTAATCATTGTTCAACTTGTTTTGAATTATATAATTCTTTAAATTTTGTTTGAATTGGAATAATTTCATCAATTAGAACTTGAGTTACATCATCTTTTAGATCTTTATAGTTTTTGTTTTCTCAATGTTTTTCAGCTTGTTTAATTGAAATATTTTTTAACTGACAATAAATAGTAATTAAATTAGAAACACCAGGTTTATTAATTGGATCATATTTAATTAAATTTTCTGAATCAGTAACTGCAGCTTTAATTTTTGATTTAATTTCATCAATTGAATCTAACATTGTAATTATTGCTTTTGGATTAGTACTAGATTTAGACATTTTTTTAGTTGGATCTTGAAGATCCATAATTTTAATTTCACTATTAATTAAAGGTTCTGGAATACTAAACATTTCTCCATATTTATTATTCATTCTAATAGCAATATCTCTAGTAATTTCAATGTGTTGTTTTTGATCAATTCCAACTGGTACATATTTTGGATCATATAATAAAATGTCTGCTGCCATTAAAGCTGGATAAGTAAATAAACCTGTTGGAATATATCCTTTTCCATTAACTGATTCAGCTTTTAAAGATTTATCTTTAAATTGAGTCATTCTAGATAATTCACCCATACTAGTATTAGTTGTTAAAATTCAACCTAATTGAGCATGTTCTAAAACATCTGATTGTAAAAAAATAGTAGTTTTATTGATATCTAACCCACAAGCAAAATACAAAGCAGCAATTTCTTTAGTATTTTTTTTCAATTTTTCTTTTTCTTGAGGTAGTGTAATTGCATGTAAATTAGCAATAAAAATAAATAAGTCATATTCATTTTGATATTGTATAAATCTTTTAACTACTCCTAAATAATTACCCAAAGTCATAGTTCCACTTGGAGTAATTCCTGAAACCATTATTTGTTTTTGCATAATTTTCTCCTAAGATATAAATTAATATAATTCTATAAAAAATTTTTACTAAATAAAAATACTTATCTTTATTTGTTTTTATTAAAAACTAAAAATAATAACTTTAAATTAATATAATATAATATTAAAAATATGAAATGAGGGCTATTATGACTAAACATGAAATAATTAATGAATTATTAGAAAAAAATAATGCTGATGCAATTTTGTTATATTCACCTGAAAATAGATACTGATTTTCTAAATTTCACTCTTCACTTGGATATTTAATTATTACAAAAACTCAAAGTCACTTATTTTTAGATGGAAGATATATAACAGCTGCTAGAAATAATAAAAATATTAATAAAGATATTGAGTTACATCATTTTTCAAAAAATTTAAAACAAGATCTAATAGATATATTAAACCAAAATAATGTAAAAACTTTAGCATTCGAATCTGATTGAACTTATTTTGAACAATACCAAGCTTATAAAAACCACTGATTCAAAGATTTTGATTTAATTGGAATTAATTGCTCAAAAATAAGAATGATAAAAGATGATTGAGAAATTGCTAACATAAAAAAAGCTTGTGATATTACCGATCAAGTATTTCAAGCAGCTCTTGATTTTATAAAACCAGGAATTACTGAAAAACAATTACAAAGATTTATTGATGATAAATTTTTAGAATTTGGTGCTGATAAAATCAGTTTTGATACAATAATTGCTTCTGGAGTTAATGGAAGTATGCCTCATGCAGTTCCAAGTGATAAAGTAATTAATAATAATGAATTAATCACTATTGATATGGGTTGTTTTTATAATGGATATTGTTCAGATCAAACAAGAACAATTGCTTTAGGTGATGTTGATCCAAAACTAGTTGAAATTTATAATATTGTTTATGAAGCTCAAAGTCTAGGAATTAGCTTAGTTAAAGAAGGTGTAATTGCTGGAGATATTCATAAACAAGTTTATGATTTTATAGATAAAAAAGGGTATGGAAAATATTTTGATCATGGATTAGGTCATGGAATTGGTGTTGAAATTCATGAAGAGCCAAGTGTTGGATCAACTGGTAGTGAAGTTTTAAAAGAAAATATGACTATTACTATTGAGCCAGGAATTTATATTCCAGATTTGGGTGGTGTAAGAATTGAAGATGATGTTTTAGTAACTAAAACTGGATGTAAATTATTAACTTCTTCACCAAGAATTTTATTAAAATTACAAAAATAATAAATAATTACAAAATGACCAAAAATTGGTCATTTTTTTAATGTCTTTTAATAAATTATTAGTTAATTAAAATCTAGAAATTAATAAAATAGATAAATAATTTAACAAAAACTCATTTTTTATTTTTTGATTTTAAGCTAAACTAAAAACTATTAGTAAGATGATAAAATATAATCTAGTTAGAAAGATAGAACTAATATGAATACAATTATTAATAAAGATGAAAATAAAATCAAACAAATTAAAAAAAATCTAAAAACAAGATTAATTTCAGCAACAATTTTAGTATTGCTATTAGGTGTTTATTTAGCATTTCCAATATTGTATTACTTTACTAATGATAGTTCTTCTAAACTTATAATTGCTTATAATGTAATTTCATTAGTTTTAAGTAGTTGTGTGTTATTTTTATCAATTAGAGAGTTATTAATTTCATTTGAAATTAAAAATTTAGACCAAAAACTATTTATTGAAATTTTAACAGTCATTTTATTTTGAATTCCATTTAGTAATATCGAAGCAAAAATTCCAGTTTATAATGATTTAAACTTAAAAGAATATTGATATTTAATAGTAATTGCAATTGGTTTATACTTATTTTTAATTACCTTTTTTTTAATGAAATTTTGTAATAAAAACATTTATCAAGTAACTAAAATCATCTTTGTTTTATTAATTATGGTTCTTGCTTTTAAAGCGATTAATTTTTTAGGTTTTTTAAAAGCATATAACAAAATTTTGTATGGATTTAGTTCTATTATTTGAATATGAGCAACTATTATTCTAACTGATAGTTTTGCTTATTTATTTGGAATTAGATTTGGTAGACACAAATTAGCTCCAACTATTAGTCCTAAAAAAAGTTGAGAAGGAGCTATTGGTGGATTTTTTTCTAGTGTAATTATTAATTTAATTTGAGTTTTAACTATCTTTTTTATTCCATGAACAAAAAGTTTTGCTCCATTTATAGGAATGTATGACTTATTGTTAAATAAAGATGATAATTTAATGTTAATAACTTATATATTTTTAACTGTTTTAGTTTCTTTATTTACTCAATTTGGAGATTTAATTTTTAGTTATATTAAAAGAAGTATCGATATTAAAGATTTTTCTAATTTAATCCCAGGTCATGGTGGAATTTTAGATAGATTAGATTCATTTTATTTTGTCTTTTTTATCATTTATATAATTTTACATATTAGTCTAACATTTAATAGAATATAGGAGGTTTTATGCAAACAAAAATACTTGGTATTTTTAAAAAAATCGGTATTGAATTAGATCAAACTGATTATATTTATTTTAAAGATGCTATTTTAGTTGAAACTCCTAGAATTTCTCAAATTAAAAATAAAGGTTATTTACATATTGAAATTAAAGATTTTTTACCAATTGATGTTTTAAAAAAAATTGAAGACAAACTAAAAAATAATCAATATTTTAATTTCAAGTTAATTATTGATGTTAAAAACCAACAATTTAATAAAGACTTATTAATTCAGTATTTAGAATTTATTAAAATGCATAAGTCTTTATTTAATAACCGCTCTTCTTGAAAATTATTAGATATTTATAATTTTGAATTAATTAATAATCAATTAGTATTTTTAGTAAATAGTCAAACTATTAAAAATGAAATTAGTTTAGAACTTGATTATTGTTTAGCTAAATTAAATCAGTTTGGGTTTAAAGATTTAAGTTATTTAATTAATGTTAATGAAATTAGTTTAGATACTTTAGATACAAAACAACAAATTAATAAAACTTATGATAAACCTGAATATGAACAACAAATAATTAAACCAATTGAAAAAAAACCTAGTACAAATAATAGTTATAAAAACAAAAGACCTAGTTTAGATAAACCTAGTTATAATTCTTTATTAGATGTTGAAGATGATGCTCAAAATATTGTTATTCAAGGAATGGTTATTAATAAAGAATTTAAATTATCAAAAACTGGAAGAAAAATTTTTTATATAGATATAACTGATTTTCAATCTTCAATTAGATGTATGTATTTTGCAAAAAGTGATGCGTTATGTGAATTTGATGACTTAACTGAAGATGAACTAAAATCAAAAGAAATTGAACAAATTAAAGAAAATAAAATTCAAATTAATGATTGAATTAGTGTTAAAGGAAAAACTAGTTTATCTATTTATGATCAAGAACAAATCTTTTATATAGATGATTTTAAAAAAATCAAAAAACAAGTTGATTTGAGAATTGATGATGCAAAAATCAAACGTGTTGAATTACATGCGCATACTAAAATGAGTGTAATGGATGGAGTTAGTGATCCAATTGATTATTTAGAACTTATTAGTAGTTGAAACCATAAAGCAATTGCATTTACAGATCATACAAATGTTCAAGCTTTTCCAGATATTTATAAAGCTTTAAGTAATGTTAATAAAAAGCGTAGCGATCAAGATAAAATTAAAGCTATTTATGGATTAGAAATGAACATGTTAAATAATGATTTATGATATGTTAAAAATCCAAAAAACCAAAATCTAAAAGATGCTAGAATGGTCTTTTTTGACTTAGAAACTACTGGGTTAAGTCCTGAATTAGATGAAATCATTGAATTTGGTGCTATTGAATATAATTTAAAAACTGGTGAAAGAAAAAAAATCGATATTTTAATTAAACCAAAAACAAAATTAAAAGCATTTACTCAAAAACTAACTAACATTACTGAAAAAATGTTAGAAGATAAACCAAGTATTGAACAAGCTTTTAAACAAATAAATGAAATTATAAAAGATGCTATTTTAGTTGCTCATAATGCTAATTTTGACTTTACATTTTTATCTTATTGATCTGAAAAACTAGGTTATGGTAAATTAGAAAATACTATTATTGATACTTTAACAATTTCAAGAATTATTTATCCTGATTTAAAATCACACAGATTAGGATCATTAGCAAAAAGAGTAAATATTTCATATGATCCAAGTATTGCTCACCGTGGAGATTATGATGCTGATATCTTAGCTGATATTTATGAAAGAATGCTAGATGAAACGAGAAAAAAAATCAAAATTATAACAGATAGTGATTGAAATAAAATAGATCCAATTAATTATGCTGATAATTTAAATTATTATAAAAACAAAGGTTTTCATACTAACATTTTAGTTAAAAACCAAGCTGGATTAAAAGAATTATATAAACTAGTTACAAAATCACATACTACTAATTTTTATGCATTTCCAAAAATCTTTAAAGATGATTTAATTCAAATTAAACAAAATAATAATTTATTGTTTGGAGCAAGTTGTGTTAATAGTGAAATTTTTGAACTAGCTAGAACTAGTACATTAGAAAATTTAAAACAAGCAATTGGTTTTTATGATTATATAGAAATTCAACCAATTAGTGTTTATAAAAACTTATTACAAAATGACTCACTAGATTTAGATCAATTAAAGCAAATAATTACAAATATTATTAATATAGCAAAACAAGAAAATAAACTAGTTGTTGCAAGTAGTGATTGTCATTATACAAATCCTGAACTAAAACAAATTAGAGAAGTTTATATTAATGCCAAAGGACTTGGTGGAATTAGACATCCATTATTTGATTTTAATAATAGAGTTAAAGATTATCCTGATCAACATTTAAGAACTACAAAAGAAATGTTAAATGAGTTTGAATGACTTAATGATGATGATTTAATTAATGAAATTGTAATCACTAATTCAAATAAAATAGCAGATATGATAGATAGTAATGTCATTCCAATTAAAGATGGTTTATTTACTCCAAAAATTGCTAATGTTAATGAAAAATTAAAAGATAAATGTTATCAAACAGCAAAACAAATGTATGGAGAAATGCTTCCAGAAATTGTTGAAAAAAGATTAGAAAAAGAACTAGGTTCAATTACAAAACATGGATTTGCGATTGTTTATTGAATTTCTCATTTATTAGTAAAACAATCACTAGATGATGGTTATTTAGTAGGATCGCGTGGATCTGTTGGTTCATCATTTGTAGCAACAATGGCTCAAATTACAGAAGTTAATCCTTTAAAAGCTCACTATAGGTGTTTAAATTGTAAATATTCAGATTTTAATACAGATCCAACTTATAAGTGTGGATATGATTTACCAGAAAAAAATTGTCCTAATTGTAATCAAAAATTAATTGGAGATGGTCATGATATTCCATTTGAAACTTTTTTAGGTTTTGATGGAGATAAAGTTCCAGATATTGATTTAAACTTTTCTGGTGAATATCAAAACCAAGCTCATAATTTTACTAAAAAAATGTTTGGTGAAAATAATGTTTTTAGAGCTGGAACAATCTCAACAGTTGCTGAAAAAACAGCTTTTGGTTATGTAAAAACTTATTTTGAAGAAACTAAAAAAGATGCAAGTTTACCAAGAAAAACTGAAATTAATAGATTAGCAAAATTAGCTCAAGGAGTAAAAAGAACAACTGGTCAACATCCAGGTGGAATCATTATTTTACCAAATGAGTATGAAATTGAAGATTTTACTCCAGTAAATTATCCAGCTGATGATTTAAATTCAACTTGAAAAACAACCCATTTTGATTTTCATTCAATTCACGATAATTTATTAAAAATGGATATTCTAGGTCATGATGATCCAACTGCTTTAAAAATGTTAAGAGATTTAACAAATATTGATCCAATCACTATTCCAACTGATGATAAAAATGTTTATTCATTATTTTCATCTTTACAAGCTTTAAATTTAACTTCAGATAAAATTAATGATGAAATCACTGGAGCTATTGGGATACCTGAATTTGGAACTGGTTTTGTTAGAAATATGTTAAAAGAAACTCAACCAAAAACTTTTGCTGATCTAGTACAAATTTCTGGTCTTTCACATGGTACTGATGTTTGATTAGGTAATGCTAGAGATTTAATTAAAGATAAAAAAGCAGATATTTCTACAGTTATTGGATGTAGAGATGATATTATGGTTTATTTAATAAGCATGGGATTAGAAAGTTCTTTAGCTTTTATGATTATGGAATCAGTTAGAAAAGGTAAAGGATTAAAAAAAGAATGAATTGATGTTATGAAACAATATAATGTTCCAGATTGATACATTGATTCATGTTTAAAAATTAAATATATGTTTCCAAAAGCACATGCTACTGCTTATGTGTTAATGGCTTATAGAATTGCTTGATATAAAATCTATTATCCAACTGAATATTATGCAACCTATCTAACAACAAGAGCTGATGTGTTTGATTTAAAAACAGCGCTTGGTGGTTATGATGCAGTTTTATTAAAATTAAAATCTCAACAACAAAGAGTAAAAAATGGAGAAAAATTATCTAAAAAAGAAGAAGATTTAGAAGTTGTTTATGAAGTTTTATTAGAAATGTTTGCAAGAGGAATTAAATTTAGTAATATTGATTTTGAAAAATCTGAAGCTACTAAATTTAAAGTAGACATTTTACAAGATAACTCTAAAATAATTATTCCACCATTTAATGTAATTGATTCACTAGGTGAAGCAGTGGCGCTTTCAATAATTAATGCTAGAAACACAAAACCAATTACTTCAGTTAATGATTTAAAAAACAGAACACAAACTACACAAACTCAAATTAAAATTTTTGAAGAATTTAATATTTTAGATTCATTATCAGTTGATGAACAACTTGCTTTTGATTTCTAATAGAAAGATATTATGCAAAAAGAATATATAAAAGAATTAATGTTAAACAGAAAAAGTGCACGTGATTTTGATCTAAATAAATCAATTAGTGATCAAGATTTAGAAATAATTTTAACATCTATGAGAATGTCTCCTAGTGCTTTTAATTTGATGAATTTAAGATTATTAATCATTGATAGAAATTGTAGTTTTAAAACTGAACTTAGTCCTTTATTTTATAATCAGTTAAATTTTATTAATGCTGATAAAGTTATTTTGTTTGTTTCTGATAAAACTAATAAAATTTTAAATCACACTATTGATAAAACTGTTAATAAAATGTTTAATGAAACACAAATTGAAATAGCAAATAAATTTAAAAAAAATGTTATTAATGCAACTAGTCAATTAGCACAAATTAATGAATTAGATAATTGAAGTAAAACAACTGCTCATATAACTGCTGGAATAGCTACAATTGCTGCTGCTAGTTTAAATATTGATAGTTGTATAATTGGTGGGTTTAATGCTAAAGTTTTAGAAACTTTCTTTATTCAAAAAAATTACTTATCAGAAGATGAACAAATTGTTTTAACAATGAGTTTTGGATATATGAGTAAATCAATTAAACCTAAGCCAAAAATTAGAATTGATGAAAATGAATATATTACTTTTGTCAAATAATTTGAAAACAATATCATAAGCATATATAATTTATATGTATTAAAAATAATATATAAAGCTAGAAGCAAGGTTTTTAATACCTTGCTTTATTTTTTCTAAACTAAGGAGTGTTATGAAAGATTTTGAATCACTAAAGTTTCAAATTAATGAATTAGTTAACAAAGAATTAGAAGTTTTAAATCTAAAAGTTTATCAAATTAATAATCTTACAGAATTTGAAAACGATATGATTCAAATACTAGTTGAAGATAGCTTACAAGCTAATAAACCATTAGATTTTGATATTTTAATAAAAGCAAATGATTTAGTTTCAAATAAAATAGATCAACTAATTAAAACTAAAGATAAATACTTATTAGAAATTTCAAGTAGTGGAATTGAAAAACAAATTAGAAGTCAAGAAGAACTACTCAAAGCTTTAGAACAATGAGTTTATGTGCAACTAAATAATGAAATAAAAAAAGTTAAAGAATTTGAAGGTTATGTAACTAAATATAATGATCAAACAAATACATTTACTTTTTCATTTTTTATAAAAGGTCAAAAAAAGAATTTAGATGTTAAGTTTGATGATATTAAATTTATAAGATATGCAGTTAGATTTTAAGGAGATATATGCTAAACGGAACAGAATTATTAGAATCAATTAAATTAATAGAAAAAGAAAAAGGAATTAGTAAAGAAAGTATTATAAATAGTCTTAAAGAAGGTTTACAAAAAGCTTATGAAAGATTTTATGATACTGATGCAATTATTAAAATTGATATTAATGAAAATACAGGATTAATTACTATGCATCAAGAATTAAAAGTAGTTGATGATGAACAACTTGATGATGATTGATTAGAAATTACACTATCAAAAGCAAAACTAAAAAATCCTGATATTCAAATTGGTGATACTATTTATAAACCAATTGAATTTAGTGAAGAATTTTCAAGAATGGTAGTTAACCAAGTAAGACAAATTTTTCAACAAAAAATCAGAGAAGCTGAAAGAGCAAGAATTTATGAACAATTTGTTAGTTTAGAAGGTGAAGTTGTTCAAGCTAAAGTAGTTGGAATGAATAGAGAAAATAATTATGTTTTAGATATTAATGGTACAACTGCTTATTTATGAAAATCAAAAACTATTAATAATGAAATTTTTCAAATTAATGAAATTATTGATGTTTATATTGAAGTTGTTGAAAAAGAAAGCAAATTATCTCAAATCTCAATTTCAAGAACTGCTCCTAATTTTTTAACTAAATTAATTGAAAGAGAAGTTCCAGAAGTAAGAATGGGAATTGTTGAAATCAAAGCTGTTAGTCGTGAACCTGGAAAACGTTCAAAAGTTGCTGTAATTACTCATAATAATAATGTTGAACCAATTGGAGCTATTATTGGAGTTGGTGGTAATAGAATTAATAGAATTAGTGATATTTTAAAAGGTGAAAAAATCGATATTATTAGATGAGATGAAGATCAAATCACTTATTTAATTAATGCAATGACACCAGTAAAAGTAATTTCTATTAATAAAATTGGTGATGAATATGATATAGTAGTTCCAGATACTCAATTATCATTAGCAATTGGAAAACAAGGAGTTGCAGCTAAACTAATTGCTAGTTTATTAAAAACTAAGATTAATATTTTTTCATATTCAACTGCTTTAAAAGAAAATATGGACATTTTATGAAATGGTGATACAACTAAACAAGAAGTTGAAACTAATACATACACTCCAAAAACTAAAACAACTAAAAAAGAAGAAAAACCAGCAATAACAAATATTAAAAAACCTGTAAAACAAACAATTAAAAAAGAAGAAAATCAAATTGATGTTGATGCTTTAATTGCTTTTCAAGCTGAAGTTGAACATGAACAAGAATTAAAAGATCAAGAAGAGTTATTAAAACAAGAATCTATGTATAAAGAATACGATAATAACTTTAATGATTTTGAAAATGAAAAAGAAATTCTTTTAGCTGAAAAACAATTAGAATCTCAAAATCAAATAATAAAAGAACCAGTTGTTGAAGTTCAAGAAGTTGAAATTGAAAAACAATCAGAAGCTCAAGATCAAATCACTGAAAATAAACAACCAGAAATTAAAACTGAAGTTGAAACTAAACCTAATATAGTTGAACAAGTTAATAAATTAAATACTAATAAATCAAATAATAAATTTGAACAAAATAGATTTAGTTATAAAAAACAAAAACAAAAAGAAGAAGAACTAGAACTTGATTTTGATATTAAAAACGAACCAGATATTGATGAAATTGATGCAAATTTAAAAGCATTTAATGATGCAATTTTAAAACAAGAAGATGATGAAGATCTTGATATAGATTTAGATGATTATGACAAATACTATGATTAATAAAAATAAAAATCTAAGAAAAGATATTGCTTCAAATCAAATGTTAGAAAAACATCAATTAATTAGAATTGTTAAAAACAAAAATAATGAGATTTTTATAGATACTACTTATAAAGCTAATGGTAGAGGTGTTTATCTAAAACCAGATTTAAATAGTTTAAATATAGCAAGACAAAAAAATTTGATTGCAAAAAGTTTAAAATCAAAAATAGATGTTTCTATTTATGATCAAATAGAAGAATTTATTAATGCAAAAAGATAAATTACTAAAAGCTATTGGAATGGCATACACTTCTAATAACCTAATAACTGGATTTAGATTACTTGAAGAAATTAAACTAAAAAAAGTTAAATTTGTAATTTTAAGTTCAGATATGGGATTAGCACAACAAAAAAAATATATCAATAAATGTCTTTCAAGAAATATCGAATGTGTTTTTAATGTTTTAACAAAACAAGAATTAGCAAAAGCATGTGGAAAAGATATTTTAGTAGCTATTGGATTAAAAGATGATAACTTTATCAAATTAATCAAATCTAATTTATAGATAGAGAAGAGGTTTTAAGATATGAAAAAACAAGTAAAAAATATTAAAAAACAAAAAGCTCAAAATCAAACAAAAAATATTAAAAAGCAATTAAAAGAAGAAGTTAATACAGGTTTAATTGATGGGATTTTTGTTTATACAGAACCACTATCAGTAATAGAATTTGCTACTAAAATTAATAAACCATTAACTGCTATTTTAAAACACTACTTTAATCAAGGTCTATTATTAAATCAAAATACACTTCTAACTGAAGAACAAATGGGTGAATTGTGTTTAGAATTTGGTTTTGACTTTAAAAAAGAAACAACAGTTACAAAAGAAAATATTTTACAAACTTTATTAGAAACTGTTGATGATGAAAAACATTTAAAAGAAAGACCACCAATTGTTACAATCATGGGTCATGTTGATCATGGTAAAACTACTTTATTAGATTCAATTAAGAATTCTAATGTTGTAGCTAGTGAAGCTGGAGGAATTACTCAAGCGATTGGTGCTTATCAAATTACTACAAAACATAATAAAAAAATTACATTTATTGATACTCCAGGTCATGAGGCTTTTACTGAAATGAGAAGTAGAGGTGCTAATGTAACTGATATAGTTGTTTTAATAGTTGCTGCTGATGATGGAGTAATGCCACAAACTGAAGAAGCTATTGATCATGCTAAATTAGCAAATGTTCCAATAATTGTATTTATTAATAAAATTGATAAACCTGGAGCTGATCCAAATAGAGTAAAAACTGAACTAATGAAATATGGTTTAGTTGCTGAAGAGTTTGGTGGAGATATCCCATTTATTGAAGGATCAGCTATTAAAAAAATTAATTTAGACAAATTACAAGATACTATTATTTTAATTTCTGAATTAGAGAACTTAAAAGCAAACCCAGATAAATTTGCTTCTGGAGTTGTTTTAGAAGCTCACTTAGACAAAGCAAAAGGACCAGTTGCTTCAGTTTTAGTTCAACAAGGAACTTTAGAAATTAAAGACATTATGATTGCTGGAACAACTTTTGGATCAATAAAACACATTGAAGATGAATTTAAACATAAAGTTTTAAAAGCTGAACCAAGTAAACCAGTTGTTGTTTATGGATTAAATCAAGTTCCAAAAGCTGGAGATAAATTTGTTGTTATTAATGATGAAAAAATGGCTCGTGAAATTTCTGAAGCACAATTAAAAAAACAACAAGAAGAAGAAAGAAGAACTAAACAAGCATTTACTTTAGATGCAATTAAGCAACATATTGATGAAGGTGAATTAAAAAATATTACTTTAATTATTAAAGCTGATACTCAAGGAAGTGTTGAAGCTTTAAAAAATTCTTTATCAAAAATTAATATTTCTGGAGTAAAAATTAATATTATTAGAGCTAGTGTTGGAGCTATTTCACTTTCAGATATTTCACTAGCTTCAACAGTTAGAGATGGTTTAGTAATTGTTTATGGATTTAATGTAAGACCTGATGCAATAGTTAGAAAAAAAGCTGAAGAAGATCATATTGAAATCAGATTACACAATATTATTTATAAAGTAATTGAAGAATTAGAAGATGCTGCTAAAGGAATTTTAGATCCTGAAATTAAAGAAGTAGTTTTAGGTCAAGCACAAGTGAGAGCTTTATTTAGACATTCAGCAATTGGAACTATTGGTGGATTTTATGTACTTGATGGAGTAATTCCAAGAAATGCTAAAATTAGAGTAATTAGAAATGGTGTTGTTGTTTATGATGGAGAAATTAATTCATTACAACATCAAAAACAAGATGCTAAAGAAATTAAAGCTGGTTTTGAAGGTGGATTAACTATTAAAAACTTTAACGATATTAAAGAAGAAGATATTTTTGAAACTTATAAAATAGAACAAATTAAATAATTAAAAAGACAGACTCTTCTAGTCTGTCTTTTTTTTATACAAATTTTCTTTAAACTTTAAAAGTTCTTCATATTCTTTTTGTTTAGAAAGTTTGTATTCTTGTTTTTTAATTTGTTTTAATTGTTTTTTTGTTGGTACTATTTGATTATTTAAATAAGCATTTAAAATAGCTAAATTTTCTTCTTCTTTTTGGTATTCTTTATTTTTAAAAATTATACTTATAAAAGTTCCAAATAATACTCCTAAAACCATACTAATAATTATTAAAACAAATCTTAAAATAGTTTTAATTACTAAAGTTGTATTTCAATAATAAAACAAATTACCAGTTAAAATTATTAAAATCCCAACAAAAGCTAAACCAAAAGAATAAGTAAAACTATCACTTTTTATAACTTTAAATAAAACTAATAACAAATTAATTAAAAATACTGTTATTAAATAAGCTAAAGAAATTAAAAATAAATATAAATAAGTTAATTTACCTAGTTTGTTAAAATGATTTCAAGAATAGTTTTGTAGATCTGCGCCTATAAAAAATAATATTATTAAAAATAAACCAATTGTTGTAAATAATTGAACTAGTAGATTAATTCAAAATGGTGTTCTAGTATTATTAAACTTGATATTATCTAATAGTTGTTCTTTATTTTGATTTTCCATAATTTTTATTTTAGCACTTTAAATACATCAAAATAGTAATAATAAAAAATGAATATAAAAAAACAACACTTATAAAGTGTTGTTGAGTTATTTTCAATGGAGCAGGTGAAGGGAATCGAACCCTCACAATCAGCTTGGAAGGCTGAAGTTCTGCCATTAAACTACACCTGCATGATTAATACCTTTATATATTATTATATAAAAATATCAATGTCAATATTTTAGTATGATTATTTTCTAATTCCTAATTTTTCAATAACTTCTTTATATCTGTTAACATCTTTTTTAACTAGATAATCTAAAAAGTGTCTTCTTTGAGCAACTTTTTTTAATAAAGTTCTTCTTGTAGGAATATCTTTTTTATGCATTTTTAAATGTTCAGTTAAATTTGAAATTTCAGCTGTTAGAATAGCAATTTGTACTTCAGCTAATCCAGTGTTTTTTTCATCTCCACCAAACTCTTTAATTAATGCTAATTTTTGTTCTTTTGAAACCATTTTTTCTCCTTGTGTAGTATTTAAATGTCTATCAAAGGCATATTTGAGAAAGAATAATGTCTCTGGTAAACTACTAACTTTAAAATATTATCATAAATCAGTTACTTTGTCTTAGTTATTAAAATGTTTTTTAAAAAAAGATAAAAATTGTAAAAATATCAAATAATTTTTAGTTTTATATAAAATACTTTTAGAAAGTTTAGAATACCAAAATGAAAAAGGCTGCTATTTTTTTAATACCAACTTTATCATTAGTATTAGTAGGATGCACAAAAAATAAACAAAATAATAATTCAGTACAAAAGCAACCCAATATAACTAATGTTTATAAAAAAACAATAAAAGATAAAGAACAAAATATAGAAAATAAAATAAATAAACCAAGCTTTATTAGTAAACCCACAAATACTAATAAAAAACCTGGTTTTTCAAATTTATTAAATGATGAATTCGAACCAAAGAATGATGATAAACTTTTAGATCAAAATGTCTCTAAAAAAGAACCAAAAGTAAATCACAATTCAATGACTAATAATAATTCAACTTTAGAAGTTGAAAATAAACTTAAAAAAATTACTGAGCAAAATAATAAATTTCAAGTTTTTGAAGATACACAATATAGCGTTAAAAGCTTATTAAATTCAATATCTTTTTCAAATAATAAAATCAATATCAATAAATATAAAGATATAAATTATATAGGTTTAGACCAATATCTAAACCTACTTAAAGATATTATAGAAATTAATTCAAAAAGTAAAGATGTTTTTTATAATAATGTATCTTATACATTAACTAAAGAACTTAAAAAAGAAACTAATAATAATATAACTACTATAACTCTTATTAATAAATATAGTTCAAAAGATAAAAATAAAAACAGTGATTTTACACTAAGTGAGTTTGTTAAATTTGATTATTTAACTCAACAAACAACTATTTCTAGTGTTAATTTTTATAATTTATTAAATCCTTATGAAAATGAAACTAATTTAGAATATAAGTATTCTAAAACACTTGATAAAAATCCTTTAATTATTGATTTAAATAAATATAACATATACATATTTAATAAAAATAATCAATTATATTTACCATTACTTGTTTTAAATCAAGTATTTTTAGCTGAATCAGAAAGACAAATTTATTTTAATAATAAAGATCTTTTTGTTTTTGAAGTTTTTGATCTTTATGATCATAATAACAACAATACTAAAAAAATGCTTAGCTCAAATAAGCAAGATACTGAACTAAGTAAAGATTTAAAAGAGTTTTCATATAATTATTTATGATTTTTATTAGATAATTTTTATCCTTTAAAACAAAAAAATCAAGACTATAAAGACTATTTAGAAAAATATAAAAAAGATCTAATGTCAAATAAATTAGAGCATTTTAAAGCAAATAATTTATTAATAAGAGATTTAAATGATATTCATACAAAAGTATTGTTACATTCACCACTTTATGATTTAAAAACTAGAGATGAAGTTCTATTAGTTAAAGAAAATAATAGAACTGATAGAGTTGGAAACTTTAGAAAATATGAAAGAGAATTAATTAATCTATCTGGTGATTTAAATGAAAGAAACATTAGATATACTAATGATAATAAAACAGCTATTATTAAGATTGACATTATTTCAAGATATACTGTAGAAGGTATTAAAAGACAACTTGAAGAAATAAAAAAACAAAAATACAGTTAAAAATGTTATTTTTGATCTAACTTTAAATCGTGGTGGAAGTGTTCCTGCAACTTTTATTCTACTTGGTTATTTAACAGATCAAAGTTTTAAATATCATAAATTTTATCCAAACACTAATAATAAAGAAATACTAGATATTAAATCAAAAATAGGTAAATTTGATTTTAAATACTATATTTTAACTTCACCTATTAATTATTCAGCTGGAAATACATTTGCTTCAATTAGTAAAACTAATAAAATAGCTAAAATTATTGGATATCAATCAGGTGGAGGAGCTAGTGAAGTTAGACTAAGTATTTTACCAAATGGGATGATAATTAGAAAAAGTTCAATGTATACTCTAACTGATAATAATTGAAATTCATATGAATTAGGTGTTAAACCTGATATAGAATTTGACAAATCAAAAAGTTATAATTTTAAAAAACTATTTGATTTAAATTACATTCAAAATATTGTAAATAAAAACTAAAAATATAGAACGGAGTTATTATGAAACTATTTTTATCAAGTTTATTCTTATTATCAAATACAATAACTCCAAGTTTAGCAAATAGTATAAATGTAGTTAATAATCAAAATTCATCTATTAATCTAAAAGAATATAATCTTAATTTTTTAGCTAAAAATATTAGAGACATTAAAAAGAAAAAAATAAACATACATACTCATAAAGATGTAGCTTATATTTCTGTAAATGAATTTTTAGATAGTATTGAACCAATAATTAAACGTAATGAGATTGCACATCAGTTTAAAGATAATAAAGCTACAATTAGTTTAAAATCATCTAGTTTTAGTAACCTAAAAGTTGAATTTGATCACAAAGCTCAAGATATTATAGTTTCAGATAACAATATTTTTACTGAAATTTTAAAAGATAAAGAACGTGGAGAAGAAAAATTAAATCTTGAATTTAAAGGAATAAAAAACGAAAATCCAATTAAACAATTCAAATATCATTTAAAAGATTATGATATTGAAATGTTAAAGAATAATAAGGATATTTATTTACCTATAGTTTTGTTAAATCAAATTTTTTTAAGTGATTCAAATATTCAAGTGTACTTTAATCAAGATGAAGTTAATGTTTTTAGATTTGCTGATTCACTAAAAGATTTCTTTAGCATAGCAAATCTTAAAATGTCAAAAGCAAATATGCAAACAGAAATTCCTAAAAATTTAAAAGAATTTCAATATAAATATTTGTCATTTTTATTTGATCATTACTATGGAATTAAACTAAATAATAAATCATATAAAGAGTTTTTTAAAAAGTATGAGTCTAAAATTTTAGGCTCAAATGATAGTCATTATTTAGCAACAAGACAAATAATAGCAGATCTTGATGATCCTCATTCAGCTTATATTCTAGATGGTTATTTTAATAAAATGAAAGATATTGAAAAAGTTCCAATATCAAAGGAATCTAACAAAGTTCGCTCTGATAATTGAAACAATTTACTTCATGTACTAGCTAAACTAGATCCAAATAAAATTGAATATCAAAATAATTTTATTTCAGATACTACTTCAGTAATTTCATTTAAGCAATTTGAAGAAAATACAGCTTCACATATTAAAAAAAGCTTAGAGGAAGCTCAAAAAAGGGGAATTAAAAACATTATTTTTAATGTAACTCAAAATGGTGGTGGATTTATTGGAGCTGCTTATGAGCTAATGGGATTTTTAACAGATAAGCCATTTAAAGTTTATAATTATAATCCACTTTCAAAAGAACAAAAAGTTGAAACAATTAAATCAAAATATAACAAATTTGATTTTAATTACTATATTTTAACTTCTCCATATTCTTTTTCAGCAGGTAATATTTTTCCTCAAATCACAAGAGATAATAAAGTAGCTAAATTAATTGGTTATAAAACTTTTGGTGGAGCTAGTTCTATTGGATATTTTATTTTACCAACTGGAGATATTATTCAATTAAGTACTAATAATGTTTTTACAAGTTCTAAATTTAAAAGTTTAGAATTTGGAGTTAACCCAGATGTTAAATTAGATGGTGATGTTTTAACTAATGCAAAAGATTTATATGATAAAAATAAACTTTTAGATCTAATTAGTAAAGCAGATAAAATTCCTTTTGGAAACGATACTGAATCAACTATTAAACCAAGTGAAACATTACCTATAAAACCAGATGATAATTCACAACCAAATTCAAAACCAAAATTCTTTTTATCTAAATACATAAAAAATAAGAATTTAAAAATTACAAAAAATGATCCTATAACTTTATTAGTAGAACTTTTTGAAACTAATCCTGAACTTAAGTTTGATCAAGATATAAGAATTAGTTTAAAAGATAAAAATAAAGCTGAAATTTATTTAGAAAATAATCCAGAAGATAAAGTAATTATTAATTTTTCTGTTATTAATAATGATCAAAAACAAATAAAAACTAATAATAAAACTAAATTAATTATTGGTTTAGTATCTTCATCTATTATTGTATTTATTGTTTTAATATCAGCATTCTTTATTATTAAAAAAAGAAGACAAAAATAAAAAATAGTACATACTTTTATAAAGTGTGTACTATTTTAATTTTAGATTTATTCCTAATAATTCTTGAGCTTTATCTACTAGATTTTCATCTAGTAGTTTTTTTATTTTTGTTGAAGAAATATCATTATCTCTTTTAAAAATAATCACATTTTCTTTACTAAAAACTCTAATTAAATCATTGATATTTCCTTGAGATAAATAACCAAATGTAAAGTCTTGTCCTTCAACTATTTTAATAACATTTAATTTGTTTAATAAAATATCTATAAATTGATCTTTAGTTGTTTTGATTAAACTGTCATCAACTTTTATATCAATAAAATAATCTAGGTCTGTTAATTTAGTATTAATAAATTCTAATTTTTGTTTTTTAGTTGCTAAATTAGTATAAGTTTTGTTATTTTTAATTTTTTTATCAAAAGACATTACTATACTAGTTAAATTTTCTTGTTTTGCTATATTAATTACTTGATTAATTATTTTTTGATGAAAAATATGAAAACCATCAAAATTACCAATAGTAATAATTGCTTTTTTAGTATTTAGTTTTTCTAATTTATCAAAGGAGTCATTAATATATATCATTATTTAATCCTCCTCTTTTAATTTTAAAGATATTATTATCATATTTTTGATAAACAGCTAGAATATTATTTTGATCATCACTAATAAAAACTAAACCATCATTAATATCATTTAAAATAATTTTTTTACCTTGTATTATTTCTAAACTATTTTGATATTTAACTACTTTATAATCATTAGTTTTAATTGCATCATTTATTGAGATTAAATGATCTCAACTAATATTATTTAAATCAATAGCATTTTCTAGTTTAAAATTACCAGAAAGTGTTCTATTTAAATAAACTACATATCCTATTGTATTTAAATCTTTACAAATATCTACAGCTAAACTTCTAATATATGTTCCTTTACTACACTTAACATCTAAAAAAATCTCATAATTTTTTTGATCATAGTCTAATAAACTAGTTTTATAAATAGTTACCTTTCTACTTTTAATTTCAACATCTTGATTAGTTAAAGCATACTCATATAATTTTTTACCATCAACTTTTATAGATGAGTAAATTGGTGGGTATTGGTTATAAGTATAGTTATTATATTTATTAATTACTTTATTGATTTGATCTAAACTAATATTAAAAGGAGTTTGAGTTTGAATAATATTTCCTTCAGCATCAAAACTATCAGTTAGAGTAAATAATTTAATTTTTACTTGATAAGCTTTATTAGCGTTTAATAAATAATCACTAATTTTAGTAGCATTATTTACTAAACAAATTACAACTCCAGTTGCTAGTAAATCTAAAGTACCACAATGACCAACTTTTTTAATATTTAACTTTTTTTTAACTTGATTAATTAATTGATAAGTTGAAATATTACTAGGTTTATTTAAAATAAAAATTCCTGATTTTTGCATAATTTAATTTCTATTTAAAAATCCAAGTATAAAACTTGGAAATTTAATATTATTTATTTTTGTCTTCTTTTAAAATTTTATCAATTTGATTAGCTCTATCTAAACTAGTATCATAAACAAAAGTTAATTCAGGAACAGTTCTTCAGTCTAGTTTACTTGCTAATATCATTCTAATTTCTTTTAATTTATTTTCTAGTTCTTCTTCAATACTTTGTATTGTTAAATCTTCAGGAATTGGAATAAATTGATAAAAGATTTTAACATGACTATTATCAGCAGATAATCTAGTTTCTACAACTGAAACAGATTTTAAAATTTCACTTTTAATTTCACGTTGTAAAATTAAATTTAACTCTCTTAAAAGTAATGACTCTTTTCTTTTTTGAGTTTTTATATTTGCCATAAAATTCTCCTTTTGCTATTTAAATTATACCACTTACAAAAATTGTAAATTTTATAAAAAATGCAACCTAGTTTTATTTTATATAAGAATTTATCTATAATATGAATAATATTAGAAAATAAAAAGCTGTTTAGTCTATAATTTTAATTAATATAGAAAAGGACATAGTTTATGTTACAAAAACCTCGTGGAACTCAAGACTTTTTTTTAGATGAAACAAAGTTATGAATTAAAGTTGAAACTAAATTAAGAGAAATTTTAAATAAGTTTAATTATAGTGAAATAAGAACACCAATGTTTGAATCAAAAGAACTATTTATTAGAAGTATTGGTTCAACTAGTGATATTGTTTCAAAAGAAATGTATGAATTTGTTGATAAAAAAAATCGTAGTCTAGTTTTAAAACCAGAAGGAACAGCTAGTGTTGTTAGAGCTGTTGTTGAAAATAAACTGTATGCTGAAGACTATTTACCTTTTAAAACTTATTATATCAGTCCAATGTTTAGATACGAAAGACCACAAAATGGAAGATATCGTCAATTTCATCAATTAGGAATTGAAGTTTATGGAAGTGATTCAATACAACAAGATTATGAAGTTTTAAATATAGCTAACAATATCATTAATGATTTTAAATTAAATAAAAATATTAAAATTTATACAAACTATTTAATAACTGGAAACAATAGAGAACAATACATTTTAGAATTAAAAAAATATTTAACTGATTTTAAATTATGTACTGATTGTAATATTAGGATTGAAAAAAATCCTTTAAGAGTACTAGATTGTAAAATTGATGACAAACAATTTAACAATGTTCCTAGTATGAAAGACTTTTTAACTGATGAAGAACAAAAAAGATATCAACAAACACTTGATTTATTTAAAGAAATGAATATTTTAACTATTCATGATGATAAATTAGTTAGAGGTTTAGATTATTACACCGGATTTATTTTTGAAATAAAATATGAATCTAAAAATATTGAACAAACTATTATAGCTGGTGGTAGATATAATAATTTAGTCTATGAAATTGGAAATATTAACTTACCAGCTTGTGGTTTTGGGATGGGATTAGAAAGATTTATAAATATTATAAAAGAACAAAATGACAAGCTAAATACAAATGATCAAAGCATTGATCTTTATACAATATGTTTAGATCAATCAGCTATAAAATTAAATCAACAAATTTTAGAATTGTCTAGATCTATTGGTTTAATATCTGATAGTAACTACTACAATCTGTCTTTAAAATCTGCATTAAAAAAATCAGATAAACTGAATCCAAAATATTTAATTATTCTTGGTGAAAAAGAAGCAACATCTAATCAATTTATAATTAAAAATAAAATTAATAAAACTGAAATTAAAACAACATTAACTAATTTGGTTAATGATCTAAAATAAGGAGATATATGAAAAGAACACATACTTGCGGTGAATTAACATTACAAAATGTTGATCAAAAAGTTATTCTACAAGGTTGAGTAAAAAAAATTAGAAAACTAGGAGCTATGGTTTTTATTGATCTAAAAGATAGATATGGAATTACTCAATTAGTTATTGAACAAGAAAATATTAACTTAATTAATAATATTAAAAATGAATATGTAATTGAAATTAGTGGAATTGTTGTTAAAAGAAAATCAGTTAATAAAGAGTTAATTACTGGAGAAATTGAAGTTATTGTTAAAGATCTTTTAGTAATTAATAAATCTGAATTAACTCCTTTTGTTTTAGAAAATGATGTTAATGTTAATGAAGATACTAGATTAACTTATAGATATTTAGATTTAAGAAGACCAATTATGCAAAATAATCTAATTATTAGAGCAAAAATTAATCATATAATTAGAAACTATTTAACTGATTTAAATTTTTTAGAAGTAGAAACTCCTTATTTTGCAAAATCAACTCCAGAAGGTGCGCGTGATTTTTTAGTACCATCAAGATTAAATAAAAATAAATTTTATGCTTTACCTCAATCACCACAATTATTTAAACAATTATTAATGATTTCTGGAATTGACAGATATTATCAAATTGTTAGATCTTTTAGAGATGAAGATTTAAGAATTGATCGTCAACCTGAATTTACTCAATTAGATTTAGAAATGAGTTTTGCAACTAGTGAAGATGTAATGCAAATTAGTGAATCTTTAATTAAAAAAATCTTAAAAGAAGTTAAAAACTTTGAAATTAAAGGACCTTTATTAAGATTAAGTTATAAGGACGCTATTGATTTATATGGTAGTGATAAACCAGATTTAAGATATGATTTAAAAATTCATACTTTAAATGATATTTTTAAAAATACTAATATTAAATTTTTAAATAATCCTGATTTATTTATTAGAGCGATTTGTATAGATCAATTATTATCAAAAAAACAACTTGAAGATTTAAACCAACAAGCAAAACAATTTCACTTTAATTCAATTGCTTTTATTAAATTTGAAAATAATAATTGGTCAGGCAGTTTAGCAAGCCAATTAACTGAAAATGAAAAAGAATTATTAATTAAAGAGTTTGATATTAAAAATAAAGCAACTATTATTTTAAATATTGGAAAGTATGCAGAAATTTCTCAATTAATGGGTGCTATTAGAATTAGTTTAGCTAAAATGTTTAATTTAGAAACTAAAGATGATTTTAAATTATTATGAGTTGTTGATTTTCCTTTATTTGAGTTTAATGAACAAGAAAATAGATATGTAGCAGCTCATCATCCATTTACAAGTCCAAAAGAAGAATGCTTAACTGATTTTGATACTAATAAAAAAGATGCTTTAGCTTGTGCTTATGATCTAGTTATGAATGGATTTGAAATTGGAGGAGGAAGCCAACGTATTACAGATCCAGAAATTCAACAAAGAATGTTTGATGCAGTTGAATTAACTGCTCAACAAGTTGAAACTAATTTTGGTTGATTTATGAACGCTTATAAATATGGTGCTCCTTATCATGCAGGAATTGCTTGAGGATTAGATAGAATTAATATGATTTTAACTGATTCAAATTCAATTAGAGATGTTATTGCTTTTCCAAAAAATTCACTAGGAATTGATATGATGAGTAATGCTCCAGATCTAGTAAGTGAAAAACAATTAGAAGAATTAAATATTAAAATAGTTAAATAAAAAGTAAAAGTAGGGTCTAAAACCCTACTTTTTTTCCCATCATATAATCATCAAAATTTTTATCTCAATCAATTTGTTGCATTCTTTTTGCAACATATACTTTATTTGCAAAATCAAAAATGCCAATATTTAATAATTGATCAAATTCTAAAAATTCAAAAATTAAAATAGCATAATAAAGATATGTCTGAAAAATAATAATAAATTTAATAAATTCATTAGCTAAATCTAATTGATTTTTAATATATCAAAAACCATCATCATCAATTTCATCAATACATTCGCTTAAGACTTCATCAATTTCATATAAATATTCAATAAATATTTCATTAGTATCTGATTCTAAAGCAATTTTGATTAATTCAACTAAATCATATCTCATGTATTCTAATTTTGTTGATGGATTTAGATCAATAAGTGTTTTTAAAGAATTAGTTAAATATGTTCTTGTTAAATATAAAAAGGTTTCTCTAATATTTAAATCAACACCATATTCATCACAAAAATTTGGATTTTTTTTATCAAATGTTTTATATCAAAAAGAAAAATCATCAAAAAAGCTTAATAATTTTTGAAGTCTAATTACAATAATTTCATAAAAATCGCTTTGAATTATCTTTTTTAAATCTGCAACTACAAATTTAGGAGTAGTTTTTGATTCTATTTGATTAATTCATTTTCTAAAAGTTGAGATATTTGGTTTTTTTAGTCATTGCTCAACAGCTTTTTTAGAAAATTCAGATATTTTCTTACCTGGTTGTTGTGAAATTAAATAAAGTTCATCAACAAGTATTTTTAAAAAATTACCATGATATTTAAACATTTTTCTTTCCTCTAATTACTATAATTTTAATCATCTATTTTTAAAATAGCAACAAAGGCTTCTTGTGGAACCTCTACAGTTCCAATTTCTTTCATTTTTTTCTTACCTTCTTTTTGTTTTTCTAATAATTTCTTTCTTCTTGATTTATCTGCAGCATGAAGTTTTCAAGTAACATCTTTTCTATAAGCTTTTATAGTTTCTCTTGAAATTACTTTATTTCCAATTGTTGCTTGTACTGGTACTTCAAAGTTTTGTCTTGGAATTAATTCTTTTAGTTTTAAAGTTAAAGCACTTCCTCTTTGATAAGCAAATTTTTGATTAACTATCATTGAAAATGCATCAACCATTTCTCCATTTAATTTAATATCCATTCTTACTAATTTTGATTCTTTATAACCAATAAGTTCATATTCAAAAGATGCATATCCTTTAGAAATAGATTTTAATTTATTAAAAAAGTCAAAAATAATTTCAGCTAATGGCATTTGATAAACTAAAATTCGTCTATTATTGTCAATTACTTCCATATTTTTATAAATACCAAGTTTGTTTTGACACAAATTCATTAAATCTCCAATATATTCGCTTGGAGTTGCTATTTTAATTTCAACAAATGGCTCTTCAATTTTTGCAATTTTTTGAGCTTCAGGTAGTAGTGCAGGATTATCTAATTCAATTACTTGTTTATTTGTTAAGTGAACTTTATAAACTACACTTGGAGCAGTTGCAATTAGTTCAAGATTATATTCTCTTTCTAGTCTTTCTTGAATTACTTCCATATGTAATAATCCTAAAAAACCACATCTAAAACCAAATCCTAAAGCTTGACTAGTTTCTGGTTCATAAACTAAAGAAGAATCAGATAATTCAATTTTTTCTAAAGCTTCTTTAAAATCTTGATATTTATTAGTATCAATTGGATAAATTCCACAATATACCATTGGTTTTAATTTTTTATAACCTTCTAATGGTTCATCAGCTGGATTTAAAACACTTGTAATAGTATCTCCAACATTAACATCTTTAATAGTTTTTATTGAAGCTGCAACTCAACCGACTTCACCAGCTTCTAAAAAGTCTTTTTTAACAATTTTTGGAGTTTTTATTCCTAAAGAAGTAACTTCATATTCAGCATTAGTAGACATTAGTTTGATTTTATCACCAACTCTTAGCATCCCTTGTTTTAGTCTTATTGACATAACAACACCTAAATATTTATCATAATAAGAATCAAAAATTAAAGCTTTTAAAGGTGCATTATCAATAGCATCACTTGGTGATGGAATTTTTTCAACTATTGCTTGTAAAACATCTTCAACATTTAATCCAGTCTTTGCTGAAATTAAAGGGGCATTACTACAATCTAATCCTATAATTTCTTCAATTTCTTGTTTAACTTTATCAACATCAGCACTAGGTAAATCAATTTTATTAATTACTGGAATTATTTCTAAATTACTATCGATTGCTAAATAAACATTAGCTAAAGTCTGAGCTTCAACTCCTTGAGAAGCATCAACAACTAAAATAGCACCCTCACAAGCAGCTAAACTTCTTGAAACTTCATAAGTAAAATCAACATGACCTGGAGTATCAATTAAATTAAAAATATAATCTTGATTATCTTTTGAACGATATTTTAATTGAACTGAGTTTAATTTAATTGTAATTCCTCTTTCTCTTTCAATATCCATTGAATCTAATAATTGATCTTGCATTTCCCTTTTTTCAACTGTGTTTGTTAGTTCTAAAATACGATCAGCTAATGTAGATTTACCATGATCAATATGAGCAATAATACTAAAATTTCTAATTTTAGATTTATCCATATAAAACCTTTCTATTAAACATATTAATGATGTTTATTAATAAAAGTAACTATTTGATTTTCTAGTTGATTTTTGTTGTTAAACATTTTATTTTTTAAATCATTTACATAATTTAATTGTATAAAATAATCTTTTTTTAAAAACTGTTTTAATAGTTTATATGATGATTTTAAATAGTATTTTTCTTCATCAAAATTATTATCATTAGCTATTAATAAAATTGGTAAGTTTTTTCTAATAAAACTAAAACGTTTAGTTTTTAAATTAAAATACATTGTTTTATATATATCTAATAAACTAATAATTTCAAATTTTTTAGAAATAAAATCATCTTCTAAAAGATCTAAATATCGATTTAAATTATCTGATAAAAACTCATTATTTTGATTAAACTCTTGTAAAAAAGTTTGTGTATAAGTATCTTGATATAAACTATATGGTTTTTTATTTTTAGAAAATAATTTAATAAAAATTAATCTAATCATTTCTTTAAAAATTACTGTTTTATTAAACTGAATAAAATTAGATAAAATTATACCATTAATAGTTTCTGAATATTTAATAGCATAAGCTTTGCTAAAAACACAAGTTATTGAATGAGAAAACATAAAGATTGGTAATTTATATTGTTTTTTTATAAAATGATTAACTTCTTTAAAATCTTCAATAATAATTTTGGCATTATGATTTAAAATTTTTTGTTGATTTCTAATTGCTAAAGAGTTTTGAATTGAATTGCAAACAACTATAATTTGATGTTCATTTAATAATTTAAAAAAACCTGTGTAAAAATCAATAATGTTTAAGTTATTACTAATTATATGTAATACAGCTATTGGTTTTTTTACTTTATCAAAAACATAGGTTTTAATTTGATGATTATCAATTGTTTGAATATCAATTTGTTTCATTTTAAACCTCTTTTAAAACAAATTCTAAACTTGCATTTTTAGCTAATTTATCGGCTAAGTCATTATATTTATTATTTGTATGTGATTTGATTCATTTAAATTCAACTTCAACTTGATCTTTATATTTATTAAAAAATTCTTTATATTCTTTTGTAAAGTCTAAATTAGCTTTTCATTGATCTAAAGCTCATTTACTTACTCCTTGATAATCATGACAAATAAGTACTTTTTTAATTTTATTTGCAACACAAAACATAATTGTTTGTTTAACAGCTAGAACTTCACCAGCTACATTTCTTAAACTAGAAATATTTTGATTATCAAATCTCTGACTTAAATGAAATTCTCTATTTTTTCAAAAAACAACAACACCATATGAAAAAGTATTATCTAAAGTATTATAACTACCATCAGTATAAGCTATACAACTATTTTTATCACTATTTAAATTATTAGATTGCTTATTATCATTTAAAAAATCTTTAGCTTCTTTTAAAGTTGAAAAAGATTTATAAATAGCATTAGAATAATTTTCAACTTGCTTTTTAGCTTCATCTCAAGTTGTATAAATACCAGGTTTTAAACCTTTTTTTATTGCATAATACTTTTTTGACATATTTTTTTCTTTCTAATAAGCTCTTGCAAATATTACTTGTAAACAAGTGTCTTTTTTACAATTAAAACATTTTGCTTTAACTTCTTTTTGATCAAAAGGAATACATCTTGAATTAGTTGCTGTTTTTGTTTTAATATCTTGTTCACATTCAACTCTTCCACAAAATGGAACTAATACAAAACCTTGGTTTTGTTTTAAAATTTCAATATATTCTTCAATTGTATCAGCTTTAAAAGTTCTGTTTTTTCTATTTTCTAAAGCATTATTATAAAGTGATAAATCATAATCTTTAATCATTTGATCAACTACTTTTTTAACATTTTTATAATCTATTTTGATTTTATTTTCTTGTTGGTCTCTTCTTGAAATAGTAATTTGATTATTTTCTAAATCACGAGGTCCTATTTCAATTCTAATTGGTATTCCTTTAATTTCAGCTTCACTAATTTTAAATCCAAAGCTTTTATCAGAATTATCTACATTTATTCTATAATCAGATAATTTATCTTTAATAATCTCAACAACTTGATCAATTTGTTCATTATTTTTAATTTGAATAATTTGGATTTGAATTGGAGAAATTTTACTTGGTAAAACTAAACCATTATCATCACTATGAGTCATAATAAGAGCACCAATTAATCTTGTTGAAACTCCTCAACTTGTTGAATAAGCATGTTCTAATTTATTTTCTTTGTTTTGGAATTTAATATCATAAACTTTTGTAAAATTATCAGCAAAAAAGTGAGAAGTACCACACTGTAAAGCTTGACCATCAAACATTAAAGATTCAATAGTATAAGTATCTTTTGCTCCTGCAAATTTTTCTTTTTCAGTCTTTTTACCACAAATTACAGGCAATAATAAAATTTCTTTTGCAAACTTTTCATAAATGTTTAATATTTTTAAACAAAAATCTTCTGCTTCATTATAAGAACTATGAACAGTATGACCTTCTTGTCATAAAAATTCACTAGTTCTTAAAAAAGGACGAGTAGTTTTTTCTCATCTCATTACATTACATCATTGATTATAAATTAAAGGTAAATCACGATAAGAATTTATTTCATTACTAAAATAATCCATCATTACAACTTCACTAGTTGGTCTTATAAATAGATTTTCTTCTAGTTGTTTTTCTCCAACTCTAGTAACAGTTGCAATTTCTGGAGAAAATCCTTCAATATGATCTTTTTCTTTATTAAACAATGATTCAGGAATTAATAATGGAAAATAAACATTATCTACATTTATTTTTTTAAATTCTTCATCTAAATATTTTTGAATTAATTCTCAAATTCTATATCCATATGGTCTAAAAATCATAGTTCCTTTAACAGGACCATAGCTAGCTAATTTTGTATTTAAAACAATATCTGTATATCATTGTGAAAAATCAATATTTCTTGGAGTGATTTTATCTAGTTGTTTTTTCATTATCGTTATTACCTTCTATTTGTTCAAATTGATCATTATTTTTATAATAAATTCTAATTGAATCATTTAATAATGTTTTTCTTAAATATTCTTCTGCTTTTTTATATAAGTCATAATCTCTAAACAAGATTCATTCAATACATTCTATTTGAATAGCTTCGTTAATAAAAACCATAGATAAAGATTTATCTCAAACTCAATCTTTTTTTGTTACTCTATATAAAGTATTTGGATTAATTGCTATTGTTAAAAATTGATCAGTTTTAATATCAGTATCTTTAAGTCATTTTCAAAATTGAGCCCTTGATGAAATATCAAAAGCTAAACCAATTGAATAATCTTTTTGTTGAAATGATCAAACAACATATTCTTCATCGGCTTTTAATTTAATTTCTTTAACAGGACAAATTCCATATTGTAAAATGTTTAATCAGTTTTTTGAATTGGTATAAAATAAAAAATATTGAATGTCTTGTTTATTTATAAAATCTAAAACGTTTTTCTTTTCGTTTTCTTTAGTAATAAAAAAAGGATATAAAATATTTTCAAAATAATTTTGTTGTGTTAAATCATTTTTAGATTTTCAAAACATTAATTTTGATCAAAAACTTTTTATATTTTTTGATTGATTTTTAATATTTTTATCAACTTTTTTATTCATTACTACTCCATTTATTATCTTTATATATTATATATTGTTTTAAATTGTTTAAATTAAATTAAATCTATACGATATTAAACAAATAAAAAAGACTACCTAAGTAGTCTGTTAATTTCAAATGGCGGGTTAAGAGGGACTCGAACCCTCGCGCCGGAGACCGACCTAACACCTTAGCAGGGTGTCCTCTTCACCAACTTGAGTATTAACCCATAAGTAATACTTTTTAATTATACACAAAAATATAAATAAATTGCACTAGATTTAATAAACCTAATTTTTTTACATAATAAAAAAACTACTTATCAAATAAAAATAAAAAATTAGAGAGAATAGGTTTTGATAAATAGTTTTTAAAAAATTAAATGAAATTAGTTTAATAAACTATTTTTATTAATTTTATGTTTTATTTAAGTTTTAATTAACATTAAATAATTTTAGTATTACTTTTAATAATTTAATTTTAAGATTTACTAATTTTAGCTCCACCAATTATTAATAAAATACCTGGAATTAGTGCTGCTCAAAATAAAGCAAATATACCAGTTGTGATCACTAATCCTTTATTGTTTCTTAAACTTGGAACTAGACATAAAATTGAAAGAATAAATGTCACAATAGTTGCTGGTATTGTTAATCAAGCTAAAAATCAAATAAAAACAATTGAAATAGGGAGCACTATAATGATTCCAACAATTGATAAAACAGCTCCAACTATAACTAATGGATTTGGTTTTTGATTCATATTTTTTCCTTTCTTTTTTTTAGATACTTAGACAACAAAATACCTAAAATTTATATTTCCATTACAAAAAAAAAAAAAAAGCTATTTTTTACAAGTTCAAAGTAATTTTTTAAAAATTTGCATATACAAAAAATATCTAAAAAGATAATAGTTTTAGTTTTTTACCAATTCATATAAGTGTGATAAATTAATGAAACTAAATATTATCAACTAGTAAAGTAATACAATTAAAGTAAATAGAAAGGAGATATAAAATGGATAATTATGTTTTTAATAAAGATTACATTTTTTTAAATGTCAATCTTAAAACTAAACAAGAAGTATTTGAGTTTATTGCATCAAAAGCTAAAGAGTTAAAAATAGTTACTAGTAAAAAAGCATTAATTGATGGGTTTAAATTACGTGAAGCTGAAAATACAACAGGATTTGAAGATGGTTTTGCTATACCACATCCAAAAGATGTTAAACAAATTAAAAAACCAGCTGTATTTGTTTTAAAATTTACAAATCCTATTGAATGAAATGCACTAGATAATAAACCTATTGAAATTGCTATAGCATTATTAACTCCACAAACTACTGATGAAAATAACTCACATTTAACTTTATTAAGTCAAGTTGCTGTTAAACTAACAAATCAAGAGTTTAAAACTGCTTTAAAACAAGCAAAAACTAAAAAGGAAATTTTAAATATTTTAAATTCAGATCAAAATATAGAAATTAAAAAAGAAAATAATAATCTAGAAAATACAAAACAATTAAAAATAGTAGCTGTTACTTCATGTACTGTAGGTATTGCTCATACTTATATGGCTGAAGAAAAATTACTACAACAAGCTTTAAAACAAAATTATCAAATTAGAGTTGAAACACAAGGTTCAAAAGGAATTGGAACTCCATTAACTAATAAAGAAATCAAAGAAGCAGATGTTGTTATTATTGCAACTGATACTGCTGTTGATTTAACTAGATTTAATGGTAAAAAAGTATATAAAACTAAAGTATCTAATGCTATTAAAGATCCAGAAAAAACTATTAATGATGCTTTAAAATTAGCAACTATTCACAATCAAACAAATCAAGAATTTGAAACTAAAAATATCAAAAACCAAGAAAAAGTTGGAGTTTTACAACACATATTATCTGGTATTTCATATATGGTTCCAATTATTATACTTGGTGGTATTTGTTTAGCTGTTTCACTAGGTTTAGCAAAAGCTATTTATGGAGCTGATGCAGCACCTAAAGGATTTTTAAAATATCTTGAAGCAATTGGTGGAGCTTCATTTACTTTAATGATTGCAATACTTGGAGGATTTATAGCAAATTCAATTGCCGGAAGAGCAGCTATAGTTCCTGCTATGGTTGGATCATTTATTGGAAATAACCCAAGTAATTTTGCTAATTGAATTCCAGGATTAGGACAAATTCAAACTCCAATGGGGTTTGTTGGAGCTATTATTGCAGGATTAATTGTTGGATATTTTGTAAAATGAGTTAATAGTTGAAAAGTGCCAAAAACATTAGCTCCAGCTATGCCAATTTTCTTTATTCCATTAGTTGGGGGTATTGGTATTTCATTTATTTTTATATTTGTTTTAGGTGCTCCAATTGGATTTATAATGAACCACATTTCATCATGAATCAAAAGTGCTTATATAGGTCAAACTAGTGTATGAATAGGTTTAGCTTTAGGAATTATACTTGGTGCTATGGCTGGATTTGATATGGGTGGTCCAGTTAATAAAATTGCTTTTGTAACTTGTTCAGCATTAATTACTGAAAAAATTTATGAACCAATGGGAGCAATGGCTGCTGCTATTCCAGTTGCTCCACTTGGAATGGGATTAACTACTTTATTATTTAAAAAATTCTTTAATTCAACTGAAAGACAACTAGGAGTAGCTGCTTTAATTATGGGAAGCATAGGAATTTCAGAAGGTGCTATACCATTTGCAATTAGAGACCCAAGACGTGCTATTTTATGTAATGTTGTAGGTTCAGCTGTTGCTGGTGGAATTGCTGGAAGTTTAAAAGTTCAAGATTTTGCTGCTCATGGTGGACCTATTGTTTGAGTTTTAGGAGCAGTTCCTTATGGAATTCAATCACTATACTTCTTTATAGCAGTTTTAATTGGAGTAATTGTTACAAGTTTAATGTATGGATTTTGAATGGTTCAAGAAAGTGGTAAACTTGGTTCTGTTAGAGAAGCTTATGTTTGAAGTTTAATTCAAACTAAAAAGGCTAAATCAGAATTTATAAATGAAAAGAAACAAGAAATTAAAGATATTAAAAACAATACTAAAAATAAAAACTTATCTGAAGAACAAATAAATCAAATTCAAAACATTAATGATCAAATAACTAATTATATTAATGAATATAAAACTAAATTAAAACAATTAAAACAAAGCTATTTAAATCTAAATAAAGAAGAAAAAGCATTTATGAATAATAAAAAATCAGAAATTACTGATTATAAAAAACAAACTCATAGTAAATATAATCAACAAATCTCTGATTTAAAACAAAATAATAACTTAGAAACAAAACAACTTCATAAAGAAATTAAAAACTTAAAAACTAAAGAAAAACAAGATATTGTTGACTATTCAAAAAACTTGAGAAATCAATTTAGTAATAAGTTTAAAATGATTAATAATTTATAGTAATTAATACAAAAAAGACTTTCTTAGAAAGTCTTTTTTTTAAGTTTTACTTGATTAGGTTTAATAAATCTCAAATCTTTTGTTCTTCTTTTTCATATAGATCAACAATTTGATCAAAGTCTTTATATAATTTCTCATTTACTGATCTATTCTTAGTTTCAAAATCTCTTAAATCTGAATAACTTACTATTTTATGATAAAAACTAGTAATCTTTGTGGCTATTCCTCATAGATAACTATATTCAGGTTTTTCTTTTAACTCATTTAATTTATCTGCACGTGGGAATACAAAATCAAAAATTTTCAAACCATATTTTTTAATTAAATTAAAATTTTCTTCTTTAGATTTTTTTGGATGATAAATATTATCTTCTTTTGGTTTATCACTTTGTAATTCATTTATTTTTTCTTTAGTATTTTCTTTTCCTTCTTTTTTAGAAGAAAGAAGTTTATCATCTTTCTTTTCAGGAGATTTTTGTTGAGTTTTATCACCACAAGCAATTAATGCAGCACTTGTTGTAGCAACTAAACTAATAGAACCTAATAATGTTAATAATCGTTTCATATTTTTCCTTTTGGTTTAGAAATAGTTAAAATGTAGGATTCTCTAAACCGAATTAATAATTTAAAATATAAGGTATTTTTCTAAATAAAAAGTATGTTTTTATTTTGATTGTATTGATTCTAATTGATTTCAAATTGTATCTTTTTCTTTTTGATAATCTGTAACAGTTTTATCAATTTGTTCGATAAACTCATCAAATGATTTATATTTCTTTTTTTTATTAAATTTAGTGTCAAACTCTTTCTGAAGATCTTCTATACTAGAGTATTGTGAAATTTCAGAATAAAAAGAAGTTAATTTACCAGCTAAAGAAGATAATAAATTATTTTTATTATCATTTTTTCACTTTTCTCATTTATCACGCTTGTCAAAAATAAAATTAGCATGTTTTAAACCATAGTCTTTAGTGAATGAAAAATTTTCTTCTTTGCTTCTTTTAAGCACATATTTTTCTAGTTTTTCTTCTTTTGTTTTTTTAATATCTTCTTTTTTATATAATTCATTCTTTTCCTTAACTTCTATATCTGTTTTATCTTTTTTAGATTCTTTAATAACACTTTTAATATTATTTTTGTCGATATCATTTTTTTGAGTTTTTAAATTATCATTAGATTTGTCACTCTTAAAATTAATTATTTTATCATTAGAGCTCTGTTGAATTTTACAAGCAATAACTAAAGAGCTACTTGTAGTAATTAATACAACAGATCCTATTAAAGTTATTAATCTTTTCATAAATTTTCCTTTAGTTTTTAAAATTTTGTATATATTCTTAAAAATAAAAAATGCTTTTTTAAATTTATAGTTTTAGTTTAAAAGTTTTAAAATTGTGTTTCTTTCTTTTTCATATTCTGTAATAGTTTCTTGTCATTGTGTAAAAATCTTATTTAAGAATTCACCATATGATATTTTTGGTTGTTTATTTTCAAGTTGAGATTTTAGAGCATTAGTAAATTTATCTAATGTGTCAAATTTATTTAACTCTTGATATAGCTGGATCAGATTTGATATCAATTTAAATACTTTACCTAGTTCTGGTTTTTTAACAAGTTCTTCTACTTTATTTTTAGAAGACTCTAATAAGTTATTTATTTCTAAACCATATTTTTTAATTAAATTAAAATTTGCTTCATTTGTTTTATCTATTTTCTGATTATCTTTTTTCTCAAATGGATTAGATTTATTTTGATTTTTTATTTCCTTTGTATATGATTGTTTTTGATCTATGCTTTTACACGCTACTGTTGTAATGCTAGTTAAAATAGATAAACTAGTAAAACTAAACATTATCAATATTTTTTTCATATTAATTCCTTTTTAAAACTTATTATTGTATTTTGTTTGTAAATATAAATTGAAAACTATATTATAAAAATCTTATAAAATCGTTTAAAAAAGACTTCTTATTTTATTGAAGTCTTTTTATTTAATAAACCTTATTTACTAGTTTCTTTTAAAAGCTTTAAAATATTTTCTCTTTCATTTTCATAATTTTTAACTATTTTGGTTCAATCTTTTTCTAAAGTACTAATAAAATTTGAAAATTCAGACTCTGATTTATTAAATTTTTCTTTTAGCTTAGATTTAAAAGTATCAAAGTTAGAATAGCTTTTTAGTTCCTCATAGAACTTCAATATTTTTCCAGCTATTGTTAGACCATTTGTATTCTTGGGATCCTCACTAATTTTTTCTGCTTTATCTTTAGGTAAAGAAGAAAATAATTCAGAAAATTCTTTTCCGTATTTTTTAATTAAATCAAAATTCATTTTGTTATTTTTTACTAATTCTTTATTATTTTTTCTAGGCAAATCAAATGGTTGGGCATTATGTGGTTGATCACCTTGAGGATGTTCATTAGGTTTTGAATCATTTTCAGATTCATTAGTTTTTTCTTTTTGGTTATCATCTGTTGATTCAATAGATTCTTTTTTATCTTCTTGTTCAGTTTCTTTGTTTTTTAATTCTAACTGTTTTATATTCTTACAGGCAATAACAGCTGTACTAGTTGTTGTAATTAAAGTAATAGAACCTAAAATAGTTAATAGCTTTTTCATTTAATCTCCTATTTTTAATTTTTATAATCTAGAGCAACAATATTTGAAATTTTTCAATAAGAACTATTATTATCATTTGTTAATGTTATTTCAAAACGTTTTCCAACTCTTTTATTAATTTCATTTTCTGATGTTAAATTTCTAATTAAATAATATTTAATTTCTTTATCATTACTATTTATTAATTTTGTTGTTCAAGAATCTTTTTTATAATAAATACCTGCTTTTTGATACTCTAAATTTTTAAAATAGTTTCTTGATTTTGTAAAACAAAGTTTAATATAGCAAAAATTGTAATTACTGATTTTCTATTTTGATTAGCTAATTCATAATTTGGATCAGTTATATTAATTCCACCAATCAAAGTAGCTAAAGCATAACCAATAGTATTTTTAATATATTGAACTTTATTTAAATCAATTCCTAATAATAAGTGCAAAGGAGAATATGAAAAGTCATTTTTTATTTGTTCTAAATCAATAGTTCTTTTTATATCATCACCAAGATTTAAAACAATAGATGACCAGTTGTAAAACGATTCTTCTTTTCTTCCTTTATCATTTTCATCATTTTTATGATTAAAAGAATCTAAATCATCATATAATGCTTTAAATAAATTCTTATTTGTAATTTTTTTATTATCTATATAAGTAATATCAACACTAGCACTTAATGCTTTTAAAATAAATCCAATTGAAGATAAATCAAATGTTAGTGATTTATCAGGATTATTTTTTAAAAATTGATTAATATACTTACTTGTAATTTGAAGTAATTCTAATACAGTTAGATCTTTGATGTTTTCTATTTTTAAATGTTTTAAAAGATTATCTGGTAATTGAATTTTTAAATCTCTTATATCTGTAATGTTTTTAAATAAAGAATCTTTTGAAAGAATTTTTTCAGAATAATTAGTTAAATCTTTTTTAATTTGTTCAACACTAGTGATTTTTTTATCTTTATCATTTCTTATTAATCTAATAATAGGTAATAAAAGTTCATCATCTTGATCTTTATTATTTTTTGGAAATAAAAACTCAGCTAGTCTAGTTGTAAAATCATTTATAAAATTAGTATTAGTTTTTGTTTTTGGATATAAATTAGAAATTAGATCATAATTTAATTGCATATTTACACTTTGATATTTATCTGGTATGTATTTAATTATTTTTTTAGTATAACTATCAAATTGTTGAATAAATTTCTTAGTATCACTAATAAATCCAAAGTCTTTTAAAAGATCTAATATTTTTTGTAAAGGCTCTACTGCTTTTTCAACTTTACTAATAAAAGAACTTAAACCAAACGTATTTAATAAGTTTTTTAATGTGTCTAATTCATTTGGTAAATTTAAAATTCCATACAACCCTTTAATACTTGCTATTTGTTTTAAACTACCTAAAGATAAATCAATATTTAACATTTTTTGATCACTAAATAAGTTATGTCCTATATCTATAAGTTTTGAAATTTCTTCAAAATTATCTTTAAATCCTATATTAGAATCTAAATCTCTATATAAAACTGATTTTAAAAAATTAAAACTATCAGAACTAGTAGCTGAAATAGAATTTCCAATTTGTTTAAATAAATCAAAGATTTTAGTAACTAAACCATTTTTTCCAAAAATATATATATTAGCATCTACATAATAAAATTTTGTTAATCATAAATTAGTATATATTTGAACAGTTAGTTTATTATAATCTTCATTTGTATGAATATATCCAAAATGTACTGAATGAGAAAAACTATTAACTTTACTCTTTAAAACACCAAGAATTGTATTTCTAATTTTTTCTCTTAGTTCATACATATTTTCTTTAATATAATTTTCTAAACCTTCAATTGCTTCTTTTATTAATTGATTTGTTTTTAATATAGTTTTTTGAATTAAGTTTATAACATCTAAAATAAGACTACTTGTTCCTATATTTTGTGGTATTGTTTTATGATCAAAATATATTTTTGTTTTATCTGTTCTTTTAAATAAAAAATCTAATAATCTAGTTGTATATTTTTTATCTTCTAAAACTTTACTAAACCCATTAATTAATAAAGAAAGGTCTAATTTATTATTAATTAATGGATCAAATCTTTTATCTTCTATTTTTTGATTTAATAACTGACTTGGATTTGAATATTGTTCGTTAATCACATAATACATACTAAAATATAATTCAGATTGAACATATCTAAATAAGTTATCTAGTATTTTTAAATAATCAAACTTTAAAAAATAATCTTTTACTTTATTAAAAATAGTTTTAAATTTATCTAATATTTCAATATTTTTTTTATCTTTATTTCATTCTTGTAAAACTATATTTTTAACATCACTAATAATAAGATCACTAACATCATCAGCAAAATAATCATTATTATTATCACTATAAGTTTTTTTAGTAAAACTGCTTGTAATTAAATTAATGTTTTTATTAAATACTTGTTTAATAGTTAAGTCTTTATAAAAACTTTTATCTACATTTTTAGTTGAAAAAATCTTTGATAAAAGCTTAATCAAAGATTGGTTATTATTAATAAAATCAACAACACTTTTTATAATATTGTTGTTTTTGATCTTATTTAAATGATCTTCATTTTCAAGAGCTTGAGATTGAAAAAAAGATAAACCTAATGATGCTAAAGAAGGAGAAAAACCATTTAAAAAATCTTCTGAAGATCTAGTTAAAGCAGTAATTTTATCAATATTTTTAGGAGTAAATTCACCATTTTTTAAATCAGTAATATCAACTAAATTCTTATTATTATCTCTATATTGTAGTTTTAAATCTTTTTCAATTACATCAATTGATTTTCCAAAATAAGTTCTATAAATATCTGAAACTTTGTTTTTCAAATTAGCATCAGTTTTTTCTGGTTTTCAAATAAAATCTTTTCCAAATTCTTGTTCTAAATATTGTTCACTTAATTTTTTATTCACATAGTCTTCATTTAAATCTTCAACACTTTTTAAAATTTTACTTTTTGCTAAATAAGAACTAGCATCAATATAACTTTGAATTTTGTTTAAATAATTTTGTTTTGATGAATCAACATAAGATCTAATGAAAAATAAAAATCCACTAATAAAAGCAAACATCACTATTAAACTAATTAATCACGGTTTTGCTTTTTTAATAGATTTTTTCATATTCCCTCTAAAAGTATTTTTGTACTTATTTTATTAAAGAAGAATTGTTAATCAATACTTGATTTTTTAAAGGTGTAACTATATACTTAAATGGCATTTTTGTTTTTTTGTTTTTTATTATTAAAAAAAATAAATTTGGTATTTATATTTTTAATAAATGCTTATAAAATGTAATTAATAGTAAATTTATGAATTTAGATATGGAACAAATAGATGAGTAATTTATTTTTAATGTTTAAGCAAGGCTTAAAATGAATCTTAAAATTTAAATTACAACTAATTATTATTATTTTTTTAACTTTTATAGCTTCTAGTATTTTAACAATCTCTTTTACAACTAATAAACGTTTAAAAACTGCTTATGATCAAATAGTTAATAATTCTAAAAGTCAGAAATTTGATTCAACTTATCAAATAGTTGTTGGAAATAAAGCAAAACCTGAAAATGGTGATCCTTTATTTATTCCTATTTTTGATTTTGTAAATAAAGAGTATACTGGATTTAATGATGAGGGTTTTAATAATTTTAATTTGTATTTTAATAAGTTTTATGGAAAAGAAACTTTATTAACTAAAGTAATTAGTTCAGATGAATTTAAAAAAATTTGAACTAATCAAAAAAATAAGAATTTATTTTTAAAAGATCAAGAAGATGAACAAGTAGCAAAAAATCAAGAAGATTTTGATTTTGAAATTAATGATTTATTATTTAGTACAATGATTGATCTATTAAATAAAAATGATCAATCTATAAGTAATACAGTTATTAGTAAATATACTAAAACTAATCCAAACTGATATAAACATTTTTTAAAAGATGATAAACCTTTTACTTGATTAGAATTTTTAAACAATAAAGAATTAATTAATAAATTAGAAAAAAAATATCCTGAAGAATTAAAAATCTATTATTATTCTTATTATGCTTTTGAATCTTTTTCTCAATATTTATTTAAAACAATTAGAACTTTTATAAGACATGATCAATGAAAAGATCAAACTGAAAATATAGCAAAAATTGTTTATGAATTTTTATTTGGAATTGAATTTGAGAACAACTTAAAACATGATTTTCAAAAAGAATATATAACTACAAATACAAATAAATACACTACTCATTTTAATAAAACAGTACTAAAAACTGAATTTGAAAAAATGAATTTTTTAAACACAAATAAAGAAGATACTTTTTTTTATGACATTATAAAAAAAGGCTTTAAAGGAATTTTAAGACCTTTAATTGTTTATTATTCAGAAGATGATAATTATATTGATATTCAAAAAGTTTCTCAATATAGTGAAACAAATGAATTAAGAGGATTTTTATCAGGTTCTAATGTTTATACACAAAACGTTGATAAATTACCAGATATTTTTAAAAACAATGAATTAGTTGATTTACTAGTTTTAAATACAAATCCTTTTTTAAATATTACAAATAAAGCATCAGGTTTTTTTATTAGTAATGATGATATTAAAAAATCAACTAATAAAGATTTTATGATTAGTGCTGCATTTTTAACTCACCACAAAATAGTAGCTATTGCTAATGGATATGATTTATACATTAGACCTGAAACTATTTTTAATGATCCAATTACTAAAAAAACATTTAGAATCATTAATATTTCAGACCAAAACCATACTAATTATTTAGTTTTAAATGGTAATAAACCAATAAATGCAAGCCAAATTACAGTTAGTAGACAATTTGCAAAAGCTAATAAAATTAAAATTGGATCAAGTCTAAATTTAGGTCAAGCTGTTGGATTAGTAGTTTCAGGTTATGCTGTTGATACTTATTCATTTTTCCCAACTTCAGATCCAAATGTGCCTTTACCAAAATCTGATTCTGGTGGATTAATTTATGCTAGTGATAAAACAATTGATCAAATTATTGGTGATGAAACTGATCCAAGTAATAATGATCAAACAACTATTTATAATTTCTTTTTAATTAAAAAACAAAGTGATGCTAATTTAAATAATTTATATTTAGATCATTTTTCAAAATCTACTAAAATTAGAGAAAATATTAATGCTTATAATAGTAAAGATAAAGCAAATACTTTTTATAAAACATATGATTTTGATAAATCTTGATATTCATTAAACTGAACTTTATATCAAAAAATTACTTTTTATTACTCATTAGCAACATTTTTAACTGCTGGTTTAATTGCTTTAATTGCAGCATTAGCAGTATTTGTTGGTGTTATTAAATCAATTCAAGCAAATGCAAAACAAATTGGTATTTTAAAAGCAAATGGAGTTTATAGCAAAACTATTGCAAGTTCATATATTTGATATGCTTTAATTTTAGTACTAATATCTATACCAATAGGTTGAATGTTTGGAACAGTACTACAAGTTCCATTTGTAGGAATTTTTAAAGATTATTTTAGTTTAAAAGTTGAAGTAATTGAATTTGATTGAATTTCAGTTTTAATTAGTGTAGCTATTTTTGGATTTTTAATTGGTTTATTTTCATTTATTGTTGCTTTATTTAATATTCATAAACCAGTATTACAAGTAATTAATCATACTAAAAAATGATCAAGACCAAGATTAACTGATTGGTTAAAAAAATACTTATTTAAAAAAATTAAATTTAATAATTTATTAATGTTAAAACTAACTGAATCTGGTAAAAAACCTTTTAGTTTATTATTAATTTTAACTTTTATAGCAACTTTGTTTATATCAATTGGAATAGCAATTCCATCAATTGCTATTCATACTAAAAACAATTATTTTAAAAATATTAATTATAATAACGAGTATCAAATTTTTAACAACATTACTAATACTCCACTTGGAAAAGATACTTTAAATCTTTGAAATGGACATGAAAATTTAGATAATAGTTATAAAACTATTAAAACAAGACAACAAGATATTAGTTATTATGATGATCCAAATAGTTATACTTTATCAGTTAATAATTCTTCTATTCTTCCAACTTTAGTTTATAAAATAGATCAAAAAGAAAATAAAGCTGAAATTTTAACTCCATATAAATCATTTATAAAAAATTATTTAGAAACTGGAATTTCAGATTTATATACTAATTTATTAGATTGATCTGTTTATCAGTTAAGTATTGCAAATAGTAGAAGTATTTCAATTGGAACTATTGAGCAATTATATGCATATATTTTAAATGACGCTGATCTTAATAAACATTTTGAAAATGATCAAGCAAAACTAGATTTTTTAAATATTACCACTCAACCTTTAACTCAGTTTGTATCAAAGATATTAGAAGTTGTGTTTGATAATAAAGTACAAAAAAACACTGATTGAAAAGATAAAATTTTAAACTTAGTTTTAGGTTATGCTCCTACTTTTATAAAATCTTATCTAACAAATGATTCAAAAAAAACTCAATTAGCTTTTGGGTTTCAATCTCAAAATGTTATTAGTCAAAAAGACCAATTAGCAACTGTGTTTAGTCCTTATTCAAATAATTTAAAAACTAATTATCAAATTTTAGGATTAGATAAAACTCAAAATAGTTTTAAAATTGATGACCAATTAAAAAACAAAGTATTTTTATCAAATTCAGATATTCAAAATATTTATCAAATTATTAACTCACCATATCAAAAACAAGGTGATGATTTAATTTCAAGTTCAACAAATCAAATTCTTTATAATAGAAAAACTAATACTTTAAATGTACCAACTATTTTAAATCAAACTTTAAATAATCATTTTTTAAATAATCAAAATATTTTAGATAATATTAGTTCTTATAATTCTCAATTAATGTATAAAACTAAATCAAATGATTTTAAAATTCTACCAAAACAAGCTTGATTATATGATGATACTGATTATTTAAATACTAAATATGTAACTAAACATACTAAATGAATAGATCAACCAATTCAAAGTATTAATGATCAAAATAACTATTCTTCTTATGGATATGAAATGGTTGAAAATGATAATAAAAAACATTATTATTTAAATCCATATAATTTAGATGTTAATAAATTTACTCAAAGACAAGTAATTGATTTGTGATCTGATAAAAATGAAAATAATAATGATTTAAGTATTGAAAAACAAGTAGATAATATTGTTGAAAATTCTCCTATTTTTGGTGATTTTGTCATTAATAAAAACGGAGAAATAATTAAGTCATTTTTAAGACCTTATTATCAATTAAGAAACTTAAAATTATTTATTCCAATTTCTGATGAAATTAGTTGAGAAGATTTTGCAAAATATGCTTTAGGTTGAGGAAATAATCAAGAACCAAACGATGATTGAAAAACTAATTTAGAAAAACAAGACGAACACACTAGAGAATATATTCAACCAGCTTTAAAAAAATTAAAAATTAATCAAGTTCCATTATCTGTAAAAAATGCTTGAGATTCAGTTTTAACAAATAAAAACATAACAGATTATATTGAAATTAGACCTTATGATTTTTCAATAGAACAAGAAAGAAGAATTGATAGACGTCATATTTATTTTCAATTTACTCCAGGATATATAAATATTAAAGGAGTTTTAAAATCAGCTCCAACAACATCTTTAGATAATTTAATTTTAAATGGTAGTGCTTTATTTTATAGAAGAGCGCTTGGTAAAAGAAAAAATATAGCTCCTATTTTAAAACTTGAAAACAATAAAGTTAATTATGTTAATAAAGATTTAAAAATTAAACTAACAAATATAGGAGTTAGTGATATATATGGAAAATCATATGCAATTATTGATTCAGATTTAGCTAATATGATTTATGGATATGATATTAGTAGATCTATAAATTATGATTATCGTCCATTTGATACTTCAAAAATTATTAAGAAAAATCAATTATTTAATACTTATAACACTACAAATTGAGAAAAACAAAATATTATAGATCCTTGAAAAAATACTTATTTAAAATCAAAAAATGTGTATGATTATTCACCACATTATTACTACAATACAATTTTTTCAAATTCTAATGAACCTTTAACAATTACAAGTTCAATTTCAATTATTCCTGAAAAAAGACTAGGTTTAGCAATTATTGATTTATTAAATTTAAGCGATTATAAAACAGCAATTTCTAATGTTAATTTTATAAACCAAACTAAACAATTAATTGATCAATTAACTAAAACTTCAATTTATATAGCAATTATTATAATAACTGCAATTAGTTTATCGGCTTCACTTTTAATTATGCTTATTACTAATATATATATAAGTCAATATAAATCATTTATGATTATGTTAAGAAGTATGGGTTATACAAATAAACAAACAATTTGATATGTTTTAGGAATTACAAAAATCTTTAATATATTAGTGATTATTTTAACAATAAGTAGTATTTTTCTACCAATTATGTTATTAAATAAACTACTAGTAATTAATAATATTTCTATACCAATATCAGTACAGTGATGATCTTTATTAGTTTGTTTAATTATAGTTTTATTTTCATTTTTTATTGCAATATGAATTTCAACTAAAAGCATTAGAAACACACAATTAAGTGAAATTTTAAATCAATCAGAATAAAAACAAGATGAAAAAATCATCTTGTTTTTTTATATTAAATAAAACTTTTTATATATAAAGGGTTTAATTTGTTATCATCATCAATTTTAATAAAATGTTTTTTTAAATCTAAATAATGTTTTAAATAATCAAATTGATAATCATTTACTAATTTATAATCTTGATACTGATTAATTAAATTATTGATTTGATCTTGATCAATTAAACTAATCTCTAATAATTGTTTAGCATTATTATAAACACTAACATAATACTTATTACTTCTTGCATCAATACATGAAATTATTTTATTTAATCCTGCTTGATATAATAATGAATTTATAATAAATACATCAAAATTATTATTTAATACTTTTAAGGTTTTAACTATTGTTAATCCAACTCTAACACCAGTATAACTACCAGGACCAATTGTTAAATAAAAAGCTTTAAGATCATTTAAAGTTAAATTATTATTTTTTAAAAATTCTTCTAATTTTAAAATAGCAATATCTGAAAGTTTTTTATTATTTAAAATAATTAAAGAATCAATAATTTGATTATCTTTTTCTAATAGATAAATCAATTTTCAATTAGTAGTATCTATAAATAAGTTCATCTTATTCTCCTATAAAAAATAAACGTTGGTTTTCATCTATAATTTTAATTTCAATAATTAACTTATTTATAACATTTAAATCTAAATCTAAATTTTCATATCATTCAATAATATTTAATCCATCTAAAAATTCATCTAAATACATTTCTATTTCACTATCATTATTTAATCTATAAGCATCCATATGATTGATTTTTAAATCATCTATAAAATATTGATTCATTATTACAAAACTTGGTGAAGTAATATTATCTTTTATATTAAATTGTTCTAATAAAGCTTTTGTAAAAGTAGTTTTACCAGCTCCTAAATCTCCTTTTAATAAAATATAAAAAGGGATTTTTTGATTTTGAATGATCTTTTTTATTTTTTTTGCTATTTTATAAGTTTGTTCTAAATTATTGACTTTAACTTTCATATATAACCTCATTTACTTTAATTATAAAACTGTTTTTTATAACAAATTATTGTAATTATTCATTCTAATAGTTAATTTTAAAAACTTTTTTTCTAATACTTTAATAGGAGATGATTAGAATGTTTTTAACTTTATTATCAAGTATGAATTTAACAAATATAAAAGAACCTAATTTAATAAAAACTAATATAATACAAAATTATCGATCTGAATTTAATCTAAGTGAAAAAGTAAATATTTCAAGAAGTATTAAAGCTTCAAACACACCTAGTAAAAATAATGATAATAATTTTTATATTTTAAAAAGTTCAGCTAATTTTTATAATCAAACTGTTGAAAATATTTTAAAAGGTTTTAATTTTAAATTATCAGATGAATATATTAGTTTTATTAAAGATGGATTCAAACTAGAAATAAGTTTAACAGTAAATTTAGAATTTATAAATACTAAAGATCAGTATTTTAATAATAAATATGATTTAGTCTTTTATTTATCTAATAATAGTTTTACAAATCAAAGTAGTAAAGATGTGATATGAAAAAATGTAAGATATCAAACTTCAGATAAAATGATTACTGATTATATTGATACTAAAAATCATTGACAGTTTTCATTTAATAAAGAACTTTATTTATTTAATTTAAGACACGTTTTTAATAAAAAGTATAATTTTAGATTTACAGACTTTAATAATTTGTATAGTTTTAATTCTTTAAAATATAATATTGATACTATTAAATACCGTTTTTATACTCCGCTTTCTTTATATAGTCAAATAAAAGATTTTAATTTCAATATTAATAAAGATAATATAAGTATTGATGATATTAAAAAACAAATTTATATTCAACAAACTAGTTTGAAAAACTCTGAATTTTATAAACAAAACAAAGTTTTATGAGATGGGTTATATGACAATTTAAAACTAGAACTAGAAGAAGAAAAAAAATTCAAGCGTTTTATTTGAGATGATAAAATCGTTGTTAAAATCACTTTACCAATAAAATCAAAATATAAAAAATATTTAAAAGATATTTATTTTATAAATACTTATTTTAAAAAAATAGATTTAAATTGATTAATTGAAATAGATGAACTAGAAATAAATAAAACTGATTTAAATAATATTAATAAATTATTTGATGATTTAAATTTATTGTTTTTAACAGCTTTTGATACTGAAATTAAAGATAATATTTTAATTATTAAGCCAAAAAAAGAATATGAGTATAAGTTTTATAATCAAAAACAAATTCTTTTAAAGTTTAAAGATGAAAATATAAATACAATCAATTCTGATACTAATAATCAAAATCAGTTAACTAATTCAAATATTAATCAAAATCAACAAATAGAATCTAGAGTTAATCAAACTAATATAACTAATAATTCTACTAATAATACTATTTTAAAAAGCCCTTATTTTTATATGAGTGTTGCTATAAGCTTACTTTTTATAATTTGTTTATTATTTTTATTAAATAAAATTGTCATAAAATACTTGAATAAAAAAAGAAAAAGTACTTAAATGATAAAATAAATTTCATAGGTAGATTATGAAAATAAAAGCAGTAGGTCTTTCAGAAAAAGGAAATTTCAGAAAAGAAAATCAAGATTTTTTAAATTATTATAAAAACAGCGATGGTTCATTTTTAGCAATTATTTGTGATGGTATGGGTGGACATAAGCGCGGAGAAATTGCTTCAAGACTAGCAGTTGATACGCTTGTTGATCTTTTTAAAAAAACTAGTTTTGATAAAAAAGAAAGTAAAGAAATTTTTTCATGACTAGAAAAAAGTGTCTCATATATTATTAATGTTATGAAAAAATATGTTGAAGATTTTATAGAAGCAAAAGATATGGGAACAACGCTATCTGCTATTTTAATAGCAAATAATAATGCTCATATTATTAATATTGGAGATTCACGAATTTATCATTTAAAAGATCAAAGTTTAAATCAAATTACAATTGATCAAAATTTAATGAACTCTAATTATGATATACAAAAAATCAGACAACAAGCTCAAAGATATTATGGAACTAAGTTTAATGAAAATACTTATTGAAAAAGTTTAACAAGTGCTTTAGGTCCTGCTAAAAAACTAAAAATTGATAGCTATTTTTTAAAAAATAGTAATGGTTTATTTTGTTTAACAACTGATGGAATACATGATTTTATTGACTCAAAAACTTTTAAAGATTACTTAGATTTAAAATCTTCATTAAAAACTAAAGCAAAAAACATCATTAAATATTCTATTAATAACTTATCAACAGATAATTTATCAATAATTTTATTAGAGGTTTTATAATGCCAAAAACTAAAAAAGATTTAGGAATAAATAAAGAAGAATTATTAAATCAAGTTGTTAATAATAGATACAAATTAATTAAATATTTAAATTCTGGAGCTTTTGCAGTTGTTTTTAAAGCACTTGATTTAGATGCTTCTGTTTTAGAAAAAAAAGATGTTTTTGTTGCTGTAAAAATTATTTTAAAAGCTAAAAATAAAAATATTGAAACAATTAAAAAACGTCTATTTTTAGAAACCAATACTTTTGCAAAATTATCATTTTCAAAAAACATTGTAAAAATGAAAGATGTTTTTAGTTGACAAAATTATTATGTAATTGTTATGGAACTTATTGAGGGTGCTGATTTAAGTAAAAAGTTCAATGCATATAATAACGTCTTATCTAATAAAGAATTTATTTATTATTTTTTACAAATTACTAAAGGTTTAAAAGAAATTCATGATAACAACATTATTCATAGAGATGTTAAACCAGCAAATATTTTAATTACAAATGATTCAAAAGTAAGAATTTCTGATTTTGGTATTTCTAAAATTAAAAGTATTATTTTAGATGATCATCACAATCATATTTCACCAGGAACACCAAGATACACAGCTCCAGAGCAATTTATAAATTTTGAATCAAGAAAAGATGCTTTTTATTTTGAATCAGATATTTATTCAATTGGTGTGATAATGTATGAGTTTTTAACAGGTAGCATGTTGTATTTAAATTATGGATCTAATCATACTAGTTCAAAAGAAAAAGAACGCACTAATTTTCAACAAAACATTTTAAAAGATATTACTAGACCAAGAGAAATTAATCCAAATATTTCTCAAGCACTAGAAAACATTATAATGAAATGTTTAGCAAAAGATTATAAAAATAGATATCACACATTTGATCAAATCATTGAAGATTTAGAACAAGCAAGACAACAACCAGATGTTAATATTGATTTTCCAAATATGTGATGAGAAGATGAAAATTATTTAAATATTAAAAATAACAATACTTTAAAATATAAATATTTTTTTAAAAACACCAACTTTAAATACTTTTTATTTTGAATTTCAATAGTTATTAGTTTATTTATTGTTTTTTTAATAGTATTAATTTTGAAATAAGGTGAGTAAATGCAAGGGATTTTAATTAAAAAAGATAGTAATGAAAGTTATGTTTTTTATAAAAACAATATATATAAAGTATATGCAAAAGGTAATTTAAAAAAAGAACTAAAACCTAAAGTTGGAGATATTGTTGAATTTAGTATTTTAGAAGATGGAAACGGTTATATTAAAGAAATAAAACCAAGAAAAAATAGTTTAGATAGACCAAAAATCGCAAATGTTGATCAAGTACTAATAGTTACTGCATTATATGAACCTTTATTTTCATCATTTTTATTAAATAAATATATTATGATGTTAGAAACACTAAAAATTAAACCAATTTTAATTTTTACTAAAGTTGATTTATTAAAACAAACACCATATTATCAAGAAGTTATGCATAAAATTAATTGATATGAAAAAATGCATTATGAAGTTTTAATCATTAATAATAAAGATAATTTAGAAAATAAAAAAGCAATCATTGAAAAACTAAAAAGTTTTTTAGAAAACAAAATTAGTGTTTTTACAGGACAAACTGGAGCTGGTAAATCTACTACTTTAAATAACTTTTTAGATATGAATAACCAAATTAAAACTAATGAAATTTCAAAAAAACTAAATAGAGGAAAACATACTACAACTAGTATTCAACTTTATAATTTAGAAAATAATATTTTTATAGCTGACACTCCAGGATTTTCAGCATTTGATTTAAATAATATTGATATTGAGCATATTTTATATTCTTGAGAAACATTTATTCCTTTTTTAAACAAATGTAAATTTGTTGATTGCACACATACTCATGAAAGTAAATGTGAAGTAAAAAAAGCTGTAGCTGAGCATTTACTACCAACATTCATTTATAATGATTATGTAAAAGTGTATGAAGAATTAAAGCAAAATAGAAAGAATAAATATTAAGATGAAAAAGTATATTATCGCTCCTTCAGTATTATCAGCTAATTTTATGGATCTAAAAAATGAATTAGAATTATGTAAAAAAAATAATATAAATTGAATTCATTATGATGTTATGGATTTTGATTTTGTTCCAAATTTAACTTTTGGTTCTAAAATTCTACACGATATTAAAAAAAATATTGATATTAATGTTGATGTGCATTTTATGGTTAGTGTTAAAACAAAACAATTTGAAGACTTTTTTTTAGATTATATAAAAGCAAAACCAGAAATGATGACAATGCATATTGAATCATTAAAAGATGATAATACAATCAATAAATTTATTAATTTATGTAAACAAAATAATATTTTAGCTTCTTTAGCTATTTCACCAAAAACTGATGTTAGTTTAATTTATCCTTATTTAGATAAATTAGATAATGTCTTAGTTATGAGCGTTGAACCAGGGTTTGGTGGTCAAAAATTCATTTCATCTAGTTTAGAAAAAATTCAAATTTTAGATCAATTAAGAAATACAAAAAATTATAAATACACTATTGAAGTTGATGGTGGAATTAATGAACAAACTTCAGTTTTAGTAAAACAAGCTGGAGTTGATATGATAGTAGCTGGTAGTTATTTATTTGGTAGCGATGATTTTACAAAAAGAGCAAAAGGATTATTTGATGAACTATAAAACTATTTTAATTGTTACAGCAAAAACTAATTTAAACCTTGAAATTTTTAACAACGATTCAACTTATGTTATTGGAGTTGAAAGAGGTTGTTTGGATCTAATTAGTAGAAATATGAAAATTGATTATGCAATTGGAGATTTTGACAAAGTAACAGATCAAGAATTAGAACTAATTAAATCAAAAATAAAAAACGTTGAAATTTGAAGTCCTGAAAAAGATTATTTTGATGGTGAATTAGCTATTTTAAAAGGTTTAGAAGCTAGTAAAGATGCTAAAATTATTTTTATAGCTAATGCTACAAAAAGATATGATAAAAATTACTCTATCTTTCATTTTATTTTTAAATACGATCTTACTTTTATTAATGATGATTCGATTTTATTTAGATTTGATAAAGGAACAAATATTTTAAAATTTGAAGATTATCAAGATTATACTTATGTTAGTTTTATTGCAAAAGATAATACAAAAATCACAATTAAAGACCTTAAATATGAGTGTGAAAATTTAAGTTTATCTGCATATAGTAATTCTTGTTTATCTAATGCTTTTTTACCTTATAAAGATGGAATTATTTGATCTAATAATCCAATAATCTGCATATTAACAAAATAATTATTTACATTGCCTCACTAGAGGCATTTTCTAACTTTATAGTTTTTTTATAATGTTAAAATATTATATAGTTATCAAGGAGATATATGAAAAAACAATTAAATCCTAAATATGATCATCTTCAAGTTGAAAAAGACAAATATCAATATTGGTTAGATAAAAATTTATTTAAAGCTGATATTAATTCTAATAAACCTAAATTTTCTATTATTTTACCTCCACCAAATGTTACTGGTAAATTACATATAGGACATGCATGAGATACTAGTTTACAAGATGCTATTATTAGATTTAAAAAATTAACTGGATATGATACTTTGTTTTTACCTGGTATGGATCATTCTGGAATTAGTACTCAAGTAAAAGTTGAAGCTAAATTAAAACAACAAGGTATAGATAAAAATAAACTAGGTAGAGAAAAATTTTTATTAGAAGCTTGAAAATGAAAAGAAGAATATGCAAACATTATTAGAAAACAATGAGCTAAATTAGGTTTAAGTTTAGATTATTCAACTGAAAAATTTACTCTAGATGAAGATATTAATCAAATTGTTAAAGAAATATTTGTAAAGTTTTATAATGATCAAATAATTTATAAAGACAAACAAATAGTTAATTGAGATCCAGAACAAAAAACTGCTATTTCTAATGTTGAAGTAATTTATAAAGAAACTCAAAGTAAAATGTATTATTTTAAATACATGCTAGAAGATTCTAATGAGTATTTAACAGTTGCTACAACTCGTCCTGAAACTATGTTTGCTGATCAATGTTTAGTTGTTAATCCAAATGATTCTAGATATCAAAAATATATTAATAAAAAAGTAATCAATCCAGTTAATAAACAAGTTATTCCAATTATAAGTGATGAATATGTTGATATTGAGTTTGGAACTGGAGTTATGAAATGTACTCCTGCTCATGATTTAAATGACTATCATTTAGCAATTAAACATAATTTAAAAATGCCAATTTGTTTAAATATTGATGGTTCAGTTAATCATTTAGGTGGAAAATATCAAGGTTTAGATAGATTTGTTGCTAGAAAAGAAATCATTAAAAATGCAATTGATGAAGATTTGTTTGTAAAAGAAGAAGATATTATTAATCAAGTTGGATTTAGTGAAAGATCAAATGCTATTGTCGAACCATATTTATCTGATCAGTGATTTGTTAAAATGGATAAATTTAAAAATATGGTAATTGATTTACAAAATTCAGATAATAAAATTAATTTTTATCCAAATAGATTTAGTGATGTTTTAAATAGATGAATGACTGATGCTCATGATTGATGTATTAGTAGACAATTATGATGAGGTCATCAAATTCCTTGTTGATATCACAAAAAAACTAATGAAATGTATGTTGGAATTAATCCACCAAGTGATATAGAAAATTGGACTCAAGATCAAGATGTTTTAGATACTTGATTTTCATCAGGATTATGAGCTTTTTCAACACTTTTAAATAATAAAGGCTTAGAAAGTGAATATTTTAAAAATTATTTTCCAACTAGTGTTTTAGTTACAGGATATGATATTATTTTCTTTTGAGTAGCTAGAATGATTTTTCAAACTTTAGAATATACAAAACAAATTCCATTTAAAGATGTTTTAATTCATGGGCTTGTAAGAGATGAATTAAATAGAAAAATGTCTAAATCTTTAGGTAATGGAATAGATCCTATGGATGTTATTAATAATAATGGTTGTGATTCGTTAAGATTATTTTTATTAACTAATTCAACTCCAGGTCAAGACATTAGATATTCAAATGAAAAAATTTTAGCTAGTTGAAACTTTATAAATAAATTATGAAATGCAAGTAGATATGTGTTTTTAAATTTAGATGAAGATTTTAAATTTGATCAAAACTTTTATAAAACTGATTTAGAAATAACTAATCAGTGAATTTTAACAGAACTAAGTAAAACACAAGCTTATGTTTATAAAAAAATGAACAAATATGAGTTTAGTTTAGCTGGAAATCATCTTTGAGATTTTGTATGAAATAAATATTGTTCTTGATATATTGAATTTAGTAAAGTTAATTTAAATAATGATAAATTTAATCATCAAACTAAACAAACTTTATTTTATGTATTAAAAGAAATTTTAATTATGCTTCATCCTTTAATACCATTTGTAAGTGAAGAAATTTATTTAAATATGATGTTAAAAGAATCTATTCTTTTAGAACAATGAACTAATTTAAATTCTAATTATGATACAAGTTTTATTGATGATGTTATTAAAATGATTACAAGTATTAGAGAATTTAGAAATACTAAAAATATTAAAAATGACGTTTGTTTATCAGTAAATATTTCAAATACTAATCAAAATCATACAAAATTGTTTAAAAAACATTTTGATCAAATCTATAGTTTTTTAATTAATTTTTGTAATACTAAATTAGTTGATGAAGCTATTAAAAATAAGACTAGTTTATCAATTGATGAATATTTTATTGAAATTGCAAATGATTCATTTATTAATAAAAATGAACTAATAAAAGAATTAGAACAAAAACAAAATCATTTAAATAATGAAATAACTAGAAGCCAAAAAATCTTAAATAACCAAGAATTTATAAAAAAAGCAAAACCTAAAAAAATTCAATCAGAAAAAATAAAATATCAAAATTATTTAGATCAATTACAAGCAATTAAAGACAAATTAAAAGAATTAAAAAATGATTAAAAATCTCTTTTAAAAGAGATTTTTTTATTATGTATTCTAAAGTTGATGATTTTAGCTATTTTCTATAATAACAAGTATCTAAGATATAATTAAATTAGTTAGGAAATATTATGAAATATAGTTTTATAACAAACAAATATGAAGAATCAAGTGATATTGTAGATGAATTATTAAACATATTAAAAAACACTGATTTTAAAAAAGATCAAAATAATCCTGATATTTGTTTTGTAATTGGTGGGGATGGTACTTTTTTACATGCTGTTCATAAATATCAATCTATTTTAGATAAATTGATTTTTATTCCAATTAAATTTGGGGGAATTGGATTTTATACTAATAAAAACAGAGTTGATGATTTAAAAAAAATTGATTTAAATAAAATTATTGAACAACCAAATATTACTGAATTAGGACTAATTGAAGTTAATTATGATGATCAAAAAGTTTATGCAATTAATGAAATAAAAATTACTAACCAAGTAAGACCATTAAATTTAGATATTTATATTAATAATGAATTTTTAGAACAATTTAAAGGAACTGGTTTAGTTTTTTCAACACCAAGCGGATCTACTGGATTTATGAAATCAGCAAATGGAGCTATTATTTATCCTGTAGTTTCACTTTTTGAAATGCAAGAATTAATGCCAATATCAACAAATAAATTCAGGACTTTAAACGCTCCGATTATTTTTTCAGATAATGAACATATCACTTTAAAATTAGAAGATTTGAACAATGTCACTTTAAGTGCTGATACTTATGAATATCAATTTAAAAATAAAGAACTTTTAATTAAATTAAGTAGAAAAAAAATTAAGTTATTAAATTTAAATAAAGATAAATTCAATAAAATAAAAATTTTAAGAGATATTTTTGTTTTAAATGACAAAACAAAAAATTAAATAGGAGAAAAATGAAACCATTAGTTGTTATTACTGGAGCAAGTTCTGGAATCGGATTAGCTTGTGCAAAATATTTTTCAAATAAAGGTTATCCTTTATTAATACTTGCAAGAAGAAAAGAAATATTAGATAATTTAAATTTGCCAAACACAATCACAGCAAAAGTTGATGTTAGAGATTTTAATCAATTAAATGATGCAGTTAAAAAAGCAGAAAATATTTATGGTCCAGTTGATTTATTAATTAATAATGCTGGAATTATGCCAATGGATCAATATGTTGATCAAAGTTTAGAAGATAAATATAATACTTTAGATGTCAATATTAAAGGTGTTATTAATGGAATGGATGCTGTTTTAAAAAGTATGTTAAAACAAAATCGCGGAACAATAGTTAATATTTCAAGTGTTGCTGGAAGATATACTTATGCTGATCATTCTATTTATAATGGATCAAAATTTGCTATTAATGCAATTACAGAACAAGTTAGAAGAGAATTAAGTGATACTAATATTAGATTTAGTTTAATTGAACCTGCAATTGTTGATACTAATTTATTATCAACAACTAAAAATCAAAAAATTTTAGATAGTTATATAGCAAGAAAAAATAGTTTAAATGGTGGTTTAAAACCAGAACAACTAGCTGAAGTTATTTATTATATTTACTCATTACCTCAAGATGTAGTAATTCCTGAATTAATGATTTCTCATACTAATCAAAAAGTTTAGACTTAATTTATAACTAGAAAAATATTTTAAATAAATTTAAATATATATTATTAGATTTATAATATATATTAGTTTTTTAATTGCTTTTAGATATTTAAAATAATAATAATTGAAAGGACAATATAATGCCAGATATTAAATTTACTGCTCTGGGCGGTCAAGATGAAAGAGGAAAAAATCTATATGTTTTAGAAATAGATAATGATTTTTTTATTCTTGATGCTGGAGTTAAATATCCTGAAAAAGATATTTTAGGAATTGATACAGTGATTCCTAAATTTGACTATATTAAACAAAATAAAAAAAAGATAAAAGGAATTTTTTTAACAAATCCTAGTGCTTATAATATGGGAGCAGTTCCGTATTTATTAAAAGAAATTGAAGCTCCAATTTATTGTAATGAAATTACAGAATTGATTGCAAAAATTAAATTTCAAAAATTAAGACTAAAAAATAAAGATCACATTTTAAAAGTAGTTCATGATAAAGATATTTTAAAAATTGGAAACACTAAAGTTGAGATTTTTAGAACAACTTCATCTTCACCACAATCATTTGGATATGTTTTTCATACTGAATTAGGTTCAATTGTTTATGCTGGTGATTATATAATTGATGGAAAAGAACAATCTTATTTTTCAACTGATTATACTCATTTATCTCAAATTGCAAAAAATGGGGTTTTAGCTTTAATTAGTGATGCTGAATTCGCTTCAAGAAAAGACTTTACAGTTCCAAACCATAAAATAGATAAATATATTCTTGCTCCATTTAAAGAAAAAAAGACAAAAATTATTGTTGCTATTTTTGAAGAAGACATTCATAAGTTAAGTCAAATATGTATGGCTGCAAAAGAAAATAATAGAAAAATTGCAGTTTATGGAAGAACAATGGATGCTGTTTTAAGATCTAATTTAATTCATGAAAATCTAGTTATAAAACCAGAAGATTTGATGTCAATTCAAGAATATGTAAACTCAGATAATGGGGTTTTAATTATTTCAGGAACAGGTGATGATCTTTATTCAAAACTAGCAAAAATTGCTACTTCAAATGATAGTTTAGTTGAGTTTACTGAAAAAGATTTAATTATTTTAACAAATACTCCAGTTGCTGGTGTTGAAAAACGTCATGCACAAATTTTAGATGAGCTCGCAAGAACTGATGCTAGATTATTAGCTTTAAGTGATAAAAATATTTGATCTATGAGAGCAAGTTATGAAGATATTAAAATGTTAACTTCTATATTAAATCCAAAATATTTTATTCCGGTTAAAGCTTTATATAAAGATTTTTTAAATGCTGAAAAAGCAGCTATTGAAGCTGGAGTTAATAATCAAAATATCGGAATTATTGATAATGGTGAAATTTTAAAACTATCAAAAAATCATTTAGCAATATCAGAACATAGTGCTGAACATGGAAATGTGTATGTTGATGGTTCTGGAATTGGAGATGTTGGATCAATAGTTTTAAATGAAAGAAAACAATTAGCTACTGATGGAGTAATTATAGTTGGAGCAACTATTGATAGTAGAAATAAAGAATTAATTTCTCTAATTGATACACAAATGCGTGGAGTATTATATATTCAAGAAGATAATCCTATTTTTAAAATTTTACAAAGAGAAATCACTAATTTAATACTAGAAGGACAAGCTTTATACAAAAAAGAACCAAAAAAATATGATTTAAATGAAATCAAAAAAGACATAACATCTAAAATTAAACAATTAATCAAACAAGAATCAGGAAAAACTCCTATTGTTTTAGTAATTATTAATGAATCTGATGGTAAGGCTTATGTTCCTAGAAACAATAAAAAAAGATATAACAATAATAACAAAAGCACTAAATCTAAAAAAGATAAATCATAATCTGGTTTATCTTTTTTTATAAAAATGAAATTATATTTTAAGTAAAAAAAATTATAGATATGTCAGTTATATAATTAAATTGGATTATAAAATTGGTACAAAATTATGAATGATGAAAAGAAAATGTCGTTAAAAGAATTCATTTGAATGGGTTTTAACTACACAGTTGGTGTTGGATTTATAGGTAATTTGGCAATATTTTCTAATATTGTTGATAGTAAAGGTAATATTAATGTTCAATCTACAGGATTGCATATTTTTTGAATATTTGGATTATTAGGATTTATAGCTTCAATTTGTGCATTAGCATTTGCTAAACTTTCAACTATTCATAAATCTGATAATAATGGTGGGACTTATTTATATGCAAGAACTGCTTTTGGAAGATTTACTGGATTAATGGTTGCATTTATTCAATATGTAATGTTGCCATTTATTATTGCATATCAAATTTGAGGACTTTTAAAAACTTTTTTATTAACTGATTTATCAGGATTAGATTGATGATTTGATAAAATTCCAAGTCTTGGTAATTGAAGTTCATTAGTTTTAGATGTTTTAGGTATTATTATATATTTTGCATTTGCATTAGTGATATTTGGTGGGATGAAATGATTTAAAAAAATGGCAAATTATTCATCAGCTGTAAAATGAGCAACTTCTTTTGTTTTAATTTTAGCTGGTATAGTTATGGCTTTTATGAATGGTTCATCAAACTATCAAATGTGAAATCATAATTATAATGAATCAATACATGGTTTGAGTTTTAATGCTTTTTCAAAGGCATTTGTTTCTTGTTTTTTCTTTTTTTCAGGGTTTGAATCATTTGCAACAGCAGGTAAAAATATTAAAGATCCAGAAAAAAATCTAGCTAAAGGAATTATGATCACAATGTTAGTTTCTTCAATATTTTATATTGTGATTATGGCTATTTTCTTTGCAGCAGTTAATCCAAAACAAGGGTTTAGTCAAAATATGACAACTGGATTATGAAATATGCATCCTATTAGTCAAATAAAATGATTATCTGTTTTAGGTGTTGTTATTATGTTTATTTCACAAATTGCACTAAGAGCAAATACTTCAGTGCAAAATGCTTTATATGGTGGAACAATGCTTCAACCTATGGCTGTTGAAGGATTTATCTCAGAAAAATATAACAAATTAAATAAAGATAATATTCCTGTTAAAGCATCATTATTAAATATTTATGTAATTTTATTAGTTTCATTTATTTGATTAATTATTCCAGATATTATTTATGGTTTTCAAAAACCTGGAACTAAATTGATTTTTAATGTAGCTCAATTAACAGAAGCTTCAAGTGCTATTATTATTTCTTTATATATTATTAGTGTTTTAGCTTTAATAAAAACTGCTATTTTAAAATATATTAAATTACGTATTTGAGAATGAATTAGTTTTAGTTTTGCTTTAATATTATTAATTGTGTTATTCTTTTATCACTATTATGCATTATTTGATGTGATTGTAAAATATGCTAATAAAAATTCAAATATTGAATTAGAAGATTTAATAGGAGCTATTGTTGAGTTATTATTTGTAATAATTTCACTAACATTTGCAATCATTTGATACTTTACTTATTATAATAAAAAATTAAAACAAAGACTTTCAACTACACAAGGTAGAAAACTACAAGAACAACTAGATGCTGAATTTGTATTAATTAATACACAAAAACCTTACATAAGAACAAAAAAATAGCTAATTCTTTAAATAGTAATTAGCTATTTTTTATAATTTAATTAAAATAATAAAGAGAGAAGTTTATGAAAAAAATCAAAAAAGATCAAAATTTTAAATCTAAAATGTTTTTAATTTATAAAACAGATTTTAAAAAAACTAAAATAATTGCAATCCTAATGTTAGTGTTTTTAATTATTAGTATGTTTAGACTAACTTTAGTTGGCCAATTTTTAGATGATCTTTTATTTTCTTTTTTATTTGGTTGATTTAAATATTTATTATACTTTTGACTTTTTTTTATTAATTTTTGTTTATTTAAAAAACTTTTAATTTCAGTTAAATGAAAACAATTTTTAAAAACTAGCTTTTTTATAATGATTTTAGCTAGTTTTTTAACATTAAATTTTTTAATTATACAATTTGTTAATAATCAAACAAAAACAGATAATTTTAATATTTATGCTTTATGACAAAATGATATTTTATTACAAGTTATTAAATTTTATGATTATCATTGATATCAAAACTCAATCTTTTTAATAGATTTTAAAAATTGAATAAATTATTTTTTTAATACAAATACTTATTTTAATTTATATTTATTTGGTGGATTTATTTCTTATTTAGTTTGTGGAATTATTTGATATACAACTTTACCAGCAGCTTATTTAACTTTAGTTATTTTAATAATTATTAATTTAGTATGACTTAAAACTAATGATCCATTTTATCTATTTAAAAATAAAAAAAATTTAGTTAAAACTACAACTAATTTAAATAATAAAATTATTACTAATAACCAAAATAATGATCAAAAGTTAGTAATTTTTGAAAATAAATTAGATGATGATTTAAAACAACCAGTTTATAAAAACGAAGAAAACAATTTATTAACTAACTTAGAAAATGTATTTTTAGATACAAACTTTATTGATAAAATGCTTTTTTTAAAACTAGAGCAAACTAATTTTAATAAAGATGAGATTTTTGAAAATAAAAATAAAACAAATATAACTGATCAGTTTAAACAAAATCACAAATCAGGAATTTTAACAGATAGTGAGATTAGTCCTTTTAAAAGAAATAAACCAGTTAAAAAAATTAGTGATAATGACTTTTTTAATGAGTTATTTGATGAAAAGTAGGTAAAGATTATGAGTTTAAAACAACAAGTTGATTTATTACCAAATAAACCTGGTTGTTATTTATTTTTTAATAAAGATAATGATGTGATTTATGTTGGAAAAGCTAAAAATTTAAAAAAAAGAGTTAGTACTTATTTTAATAAAGCTTATAATATCAAAACAACAAGACTAGTTAGAGAAATTACTGATTTAAAATATTTTATTGTTGATAATGAAAAAGAATCATTATTATTAGAAAAAAATCTAATTAAAAAATATCATCCAAAATATAACGTTTTATTAAATGATGATAAAACCTATCCATACATAATAATTACTAACCAAAAAGATCCAATGTATAAGTATGTAAGAAAATATGATAAAAAAGCTTTAAAAAACTATGGACCTTTACCAATTGGAAGTAATGCTAGATCTATTTTATTAACACTACAACGTTTATTTCCTTTAAGAATGTGTCAAGGTAATTTAAATAAACCTTGTTTATATTATCATTTAAATCAATGTTCTGGAGCTTGTTTTAAACAAGTTGATCCTAGTTATTATGAATATCAAATAAAACAAGTTGATAAATTTTTTAAAGGAGAAATTAATCAAGTAAAACAAACTTTAATTAAACAAATGCAAAAAGCTAGTGATAATTTACAATTTGAACAAGCTCAAAGAATTAAAGATCAAATTACTAGTCTAGATTTTATTACTGCAAAACAAAATGTTGATATTGTTACAAATAAAAATATTGATGTAATTAATTATGAAATTAATCAAGACAAAATTTGTTTTGTAATGTTATTTTATAGATTAGGTCAATTAACTTATAAAGATGAATATATTCAAAATTATGAAGGTCAAAATTTAAGCGAATTATTTAATAGTTATTTACAACAAATTTATCAAAAAAATATTTATCCTGATGTTTTATTAATTCCAAATGAAATTCAATTATTAGATTTAGATCAAAACTTATTAGAATTTAGTTCATATAGTTTGAATAAACAAGATGATATATTTATTAAATTAGCAAAACAAAATGCTATTGATAGTTTAAATAAATCAGTTATTTCACATAATGTTAATAGTGGAGATGAGATTGAAATTTTAGAGCAATTAAAGCAAATCTCAAATGCATCAAAATATTTAAAACGTATTGAAGTATTTGATATATCAAATATTTATAATCAGTTTATAACTGGAGCTTGTATAGTTTATATTAATGCAAAACCAATTAGAAATGAATTTAGAAAATATAATATAGATCCAAGCTATACTTCAGATTTTAGTAGAATGAAGTTTATGCTAGAAAAAAGATTTTTAAAACAGATAAAAGAAAAAGAGCAATTACCAGATCTTATTATTGTTGATGGTGGAATTATTCAAATTCATGCAGCTAAAGAAGTTTTAAATAAATTAAATTTAAAGATTGATGTTATTGGTTTAAGTAAAGATGATCATCATAAAACTAGATATTTAATCGATATTTTTGAACAAACTATTGATATTAAAAACTTTAAAAAATTGTATAACTTTTTAACAAGCCTGCAAATCAGAGTTGATGAATATGCAAAATCTGGATTTAGAAAAAAATATCACAATCAATTAAATGATCAAATTCTTTTAATAAAAGGTGTTGGTAAAAAAACTAATTTAAAATTATATAAACATTTTAAAACAATTGATAATATTAAAAACGCTAGTTTTGATGAGTTAAATAAAGTTATAAATAATAAAAAAATTACTAATTTAATCATTAGTAATCTTAATAAATAGCTTTTTAGTATATATTTTAATTTTAATTCTTAGATTTGATATATTAATAGTAAAATACTTCATTAGTAAATAGATATTAATTGGTCTTTATTATATAATTAATAAGTTATAAGGAGAAAGTCATGTCAAAAGAAATTATTTTAACTCAAGAAGGATTAGAAGAATTAAAAGCAGAACTTAAACATCTTTTAGAAGTTGTTAGACCTAAAGTAATTGAAGAATTAGTTGAAGCACGTAATCAAGGAGATTTAAGTGAAAATGCTGATTATGATGCTGCTAGAAACAGACAAGCTGAAGTTGAAGCAAGAATTAAAGAAGTTGAAACTTTAATTAATAGAGCTAAAGTTATTGATGATTCTAAAACTCATTCAACTGGTGAAGTTAAAATTGGATCAACTGTACAATTTGTTTCAAGTTTAGATAATAAATTAAAAGAAATTAAAATTGTTGGTGCTATTGAAGCTGATCCTTTTTCTAATCTAATTTCTAATGAATCACCAATAGCTAAAGCTATAATTGGTAAAAAAGTTAATACTACTGTTGAAATTAAAGATATTTCAAAACCTTACAAAATCACAATTAAAAGCATTAAATAATATAGCTATTGTCATTTCAATAGCTTTTTTTATAGGAGTAATATGAAAAAATTAGTTGTTATTACTGGAGCAAGTTCTGGAATCGGTTTAGCTTGTGCTAAGTATTTTTCAGATAAAGGTCATCCTTTATTAATACTTGCAAGAAGAAAAGAATTATTAGATGATTTAAACTTACCAAATACTTTAACTGCTAGAGTTGATGTTAGAGATTTTAATCAATTAGATCAAGCAATTAAACAAGCAGAAAATATATATGGTCCAGTTGATCTATTAATTAATAATGCTGGAATTATGATTCTAGAAAAATATCAAGATCAAAAATTAGAAGATAAATACAATATGATTGATATTAACATCAAAGGTGTTATTAATGGAATGGATGCTGTTTTAAAAAGTATGTTAAAACAAAATCATGGAACAATAGTTAATATTTCAAGTGTTGCAGCTAGATATACTTATACTGATCATTCAGTTTATTGTGGATCTAAATATGCCATTAACGCAATAACTGAACAATTAAGAAGAGAACTAAGTCATACTAATATTAGATTTACTTTAATTGAACCAGCAATTGTTAATACTAATTTATTAAGTAGTACAACAAATAAACAAGTAAAAGATGATTATCAAAAATCAATTGATGAAATCAATGGTGGATTAAAACCAGAACAAATTGCTCAAACTATTTATTATGTATATTCACTACCAGATGATGTGATGATTCCTGAATTAATGATTGCTCACACTAATGAATCTGAAGTTTAATTATAATCTATTAATAAATTCTTTAATAAGTAAGTTAAATGAATGATTAAATTCATTTTCTAAAATACAATAATAAACTATTTTTAAATAATCTAGTTCTTTAATTTTTTTAGTTTTATATAATCTAGTTACATATTTATTTGTTCATCTAACAAACTCAGTAGAATTAAATAATTGATTATTAATATTTTCATTATACAAATCTTTTAAATTAGATTTATATTGATTTGGAATTAGTTTTAAAACTTCAATAGTAAACCTTTGAAATTTATCTTTTAAAGTTTTATTTGAAATCATTAAAACTAATTCTTTTTTATTTAAAATCTGATCATCATCTAATTGGTTATAAAAATCAATCATTGCTAAAATAGCAAAATTAAATCCAACTAATCTAATATATGTTCTGATCTGATTTTGAAATTTAGCTAGTAATTTTTTATTAGTTAATATATGAGATAGTTTTGGATTAAAAAAATGTAAGTAATTATTAGTTGATCTAAAAAACTTATCCAAACTTACTTGTTCAATCGTATTAAAATCTAAATAATCATTTGGATTCAAATTAAAATGTGAAATGAATTTTTTTAATTTAAATATTAGTTTATTTATTTTTTTATTTCACCAAGGATTAATGTGACTATATGAGTTTAAGTCTTTAGATTTTAGTTCTCTTAGTCTATAAATTTCAATCATTTCTTATGCTCTTTTCTATATTATATATTAAAATAAAATATTACTAGTAATGTATAATTAAGGTAGTTTAAAGGAGTTTTTATGAATAAAAAAGAGATATTTAACACTGATTTTTTTGAATCAGGTTTAGCTTATATTCTAACTAATTTAGATTTTATTCAAGAAGAATTAGAACAAGAAAAACTACAAACTAGTCTAGTAGAAAAATTAATAACTGATTTTGAAGATGTTGAAGATTATGAAACATGAGATTTATTAACTAATAATTTAATTCAATCTGAAGATAAGATTTTAGAAGAAATTCTAAAAATAAAAGACTCAACAAAATTCAATTTATTAAATAGTTATTTTTTAGCAAAAAATCTTGCTATTTATTTAAAGTCTAATAGTTTTTTAATAGAACAAATAAACAAATTACAAACAAATTCTCCTGATGATTTATCAGAAGATAAAAAAGAAGAATTTATTAATAACTTAAAACAAGAAATTTTAAAAAATAATTCAGAATTATACAAACAAAATGAAAAATTATTTAAAGAAATATTTGATAAAAAAGTTGAGTTTAAAAAAATCTATCAACTTTTAATTAAAGAAACTGAGTTTGAAGATTTTAATTACGCAAATGAATTATTATTTAATATGTTAAATAACAGCTTCAAATTTAATAACAAACAAGATTTATTAAAATTAGAAGTTTTAAATAATGCTCAATCTTTAATAGATTTTCTTACTTTTTATGAATCTAGTTTATTTGATGATGAAGAAGAATAAAAATGTCTAGTAAACTAATAGCAATAATAATTTTTACAGTTATTTATTTAATTTTTTTATTAATAACTTTTATATTAACTTATTTTTATCAAATTAAAAATAAAGATTTTATTGAATTTAATAAAAAATATCTAAATGAATGAAGCAAATATAAGTTTGATAATAAAAACTCAACATTAAATCAAATTGATTTTAAATATCAATTACCAGAAAATGAAATTGGATTATTTCAAAAAGAACTTTTAATATCAGGAATTAATCAAAAAATTAAAGATTATAAAGATTATTTTGATGATGATTATTTAATATTAAAAAAGAGTTTAAGTTTATATCAAACTACAAGTTATGACTTTAAACAAGTGAAATTATATTTAACTAATCTACATTTAGTAATTGATGATAACAATCAATTTTATAAATATAAAATTAGTGAAATTAAAAGTTGTAGTATTTGTGTGATTAGAGATAAAAATCTTTTACAAAAAGGTTGTGTTTTAAAAACAAATGATCAAAGTCTAACAATTTTAGGGGATGTTTTTTTACTAGTATTATCTATTAAAAAACTTAAAAAGGAGTTTTAATATGAAAGTTGATTATTCAGCAAGTATCGTTTTAAGTTTTACAGTTTTTATATTAACTTTAGTATTATTTTTAATAAATTTTTATTGATTAAGCAAAGTAAAAAAGATTTATAACCAAATAAAAGATCAAAACCTAGAATTTAATTTTAATAAAAATAGATATTCAAATATTAAGTCAATAAATATTTTTAATTGCATATTTTGACTTTGTATTCTAGTAATTTTTACAATTTTAAAATTTAAAAATTTATTAAATGAAAATTTTTTATACGAGTTAATAATAATAGGTTCAATCATGTGTGAATTTTTTATTTTTGTAATTTTAACTTACTTAATATCTAATTTAATATTTGTTAAAACTGAAAAGTATTTAGTTATAGTTAATAGATTAATTGATTTAAGATCTGTTTTTAAAATTGAAATTTCAGAACGATTTATAAAAGTTATTTATATAAATGCATTTCATACAAAAAGTAGATTATGATTTTATAATACAAATAATTTAGATCAATGATTTGAAACACACTTTAAAGAATTAATCAGAAAGGATAAACAATGATAAAACAAGCTAGTTTTATAACTTCAGCAGCAAATAAAAGCAATTGAATTAATGATGATGTTAGTGAAATTTGTTTAATTGGTAGAAGTAATGTTGGAAAATCTAGTTTTATAAATTCACTTACAAATAATAATAAACTAGCAAAAATCTCAAATACTCCTGGGAAAACTAGATTATTAAATTTTTTTGAAATCAATAAAGGAGAGTATCGCTTAGTTGATGCTCCAGGATATGGTTATGCTAAAGTTGATGATAATTTAAAAATTCAATTTGCAAAAATGATGGAAGAATATTTTATTAATCGCAAAAATTTAAAAGGGGTTTTTTTATTATTAGATCTAAGACATAAACCTAGTAATGATGATATAATGATGTATCAATTTTTAAAACATTACAATATACCAGTTGTTATAATTGGTACTAAATTAGATAAATTAAAAAAGAGTGAATATATTAAAAATGAAAAAATGATCAAAGAAACAATAAATTTTTATCAAGAAGATGACTTTATTAAGATTTCTAATTTAGATAAGACTAATATTATTAAGTGTTATGAGTTAATAGATAAACTTTTAGGGAGTAAATAGTTTTATATATGGATAATTTAGAGCAAAAAACGATTCACGAAGTTCAACAAGAACTAAATACAAATATTAAAACTGGATTATCAAATCAAACAGCTAGTGAATTACTAATTAAAAATGGTAAAAATGAACTAGCAAAAAATAAGCAAACTCCAGCTATTTTAATCTTTTTAAAATCTTTAATTCAACCGATTCAAATTGTTTTATTTATTGCTGCAATTATTTCAGTAATTGCTCCATTAATTTCATCTAAACACTTTGAGGTTAAATTTGATGATTTTATTGATTTTATAGTAATTATGGGTGTTATTTTATTAGATGCTACTTTAGAAACTGTTCAACAAATCAAAGCCAGAAAATCAGTTGATGCTTTAAAATCACTTTCTAAACCATCTGCTGTTGTTTTAAGAGATTCAATTGTTAAAGAAATTGATGCTAGTGAATTAGTAGTTGGTGATATTGTAATATTAGAAGCCGGAAAATATGTTCCAGCAGATTTACGCTTATTAGAATCAAGTGATTGTATGGTTGAAGAATCAATTCTAACTGGTGAATCAGTTCCAGTTGAAAAAAGTAGTAAATCAATTAAACAAACAAATATTTTAGCTGAAAAGAAAAATATTTGTTTTATGTCAACTTTTGTAACTTCAGGAAGAGCAATTGGAGTTGTTATTAAAACTGGGATTGATACAGAAATTGGAAAAATTTCTAAAACAATTTCAGATAATGAAGAACAAGTAACACCACTAGAAAAGAAAATGAATAGATTTAGTTATTTAATTTCTATTCTTGCAATTATTATTAGTATTTTTGTATTTATTAGTTTTATGATTTCATCAAACAAAAGCAATTGAGCTACTTATTTAATGATTTCTATAACTTTAGCAATTGGTGTTATTCCTGAATCACTTTCTGCTATTGTTTCTATTGCTTTATCTTTTGCTACAAAAAGAATGGCAAAAAATAATGTTATTGTTAAAAAATTAGAAAGTATTGAAACTTTAGGATCAGTTAATGTTATTTGTACTGATAAAACTGGAACATTAACTCAAAATAAAATGGCTATTAAAAAACTGATTTGAAATAATGAAATTATTTTAGCTGACGAATTTATCAATAAAACTAAAAACGAACAGGCAAAGAACTTGTTTTTAAAATCTTTAGTCTTACCAAATGATTCAATAACTGAAAATGATGAAAGAATTGGAGATCCAACTGAACTTGCGTTAGTTGATTTTGCTGAACAAATGCAAATTGATGAACAAGAGTTTAGAAAGAAATATCCAAGAATTTTTGAAATACCTTTTGATAGTGAACGTAAATTAATGACAACTGTTAATGTTTTAGAAAATGAACAACAATTTGTTTTTACAAAAGGTGCTTTAGATCAAATATTAAAAAAATGTACTAAGATTTTTATTAATAATAAAGTTGTTAAATTAACTAATACTCACAAAAAAGAAATTAAAAAGCTTTCAACTTCATTAAGTGATGATGCTTTAAGAGTTTTAGGATTTGGTGTAAAACAAATTATAACTCAAGATCAAAAAACTGAAGATGATTTAATTTTTATAGGAGCAGTTGGAATGATTGATCCTATAAGAAAAGAAGCTTTAATTGCTATTCAACAAGCAAAAGCAGCTGGTATTAAAACAATTATGATAACTGGTGATCATGCAATTACTGCTTTAGCAATAGCAAGAGATTTGGAATTAGCTTATACTCAATATGAAGTAATGTCTTCTGAAAAACTAGAACAATACACTGATCAAGAATTAGAAAGTGCTATTGATAATATTAAAATTTTTGCAAGAGTTAATCCTGAACATAAAGTGAGAATTGTTCAAGCTTTACAAAAAAAAGGATATATTGTTTCAATGACAGGTGATGGAGTTAATGATGCTCCAAGTTTAGCAATAGCTGATATTGGTGTTGCTATGGGTGTTAGTGGAACTGATGTTGCAAAACAAGCTGCTGATGTCATTTTAACTAATGATGATCTAAATACAATGATGGTTGGAGTCTTAGAAGGACGTAATGTTTATCAAAAAATCAGAAGAGCTATTGTTTTATTATTAGGATTTAATTTTGCAAATGTTATAAGTATTGTAATTATTTCTTTATTATTAAAAATTTCTCCACTAACTGCTACAAATATTTTATTTATCAATTTAGTTGTTGATTCTTGTTTAGCTTTTGGAATTGGAATGAGCCCAATTGATAGAACACTTTTAAAAAATAAACCTCAATTAAGAAATAAAAGTATACTTAATGAAATAATATGACCATTATTTAAAGTAGGTTTATCTTTATCAGTTGCTCAAATTATTTCATTTATAATTGGAATGTCAGCAACAAATCTTGATTATTATAATAATTTAAGCAGTTATACTAAGGCTCAAAATTGATTTTTATTTATTCAACAAAATAATCAAATTCTATTATCTAATATAGAAGATATGCATGACTTTGTAGTTTTTGGAAGAACTAGTATGTTTATTACAAGTATTATTTCACCAATTTTATTTACACATTTAATCAAACTAACTAATTGAAAAGATACTAAAAAAATAGATTGAACTATTTCAAAACCTCTAATTTATTCATGTATAATCGCTTTATTAATTTCAATAATTGTTTTTTCAATACCTGTGTTTAATTCAAAAGTATTTGGTTTAGCTGGTATTAATGATACAAAAGCATATATTAATTGAAGTTCTAAAAATATGTGAATTTTATTTTCAAGTTTAGCATGTGCTTTAATTCCGTTTACATTTATATTAATAACTGATGCTATTGAATTTTATTCATATCACTTATCAAATAGAACATGAGAAAAAAGACAAAAACTAATAAAACAAATTATAGATCAAGAACAAAAAGAAAAACTTAGAGAAGATAAAAAAAATCAAGGGTAACCTTGATTTTTTATTTACTTTAATTATTAAGATTCTAAAGAAGTTTTAATAATAAATCTTTTTTGTGGATAGAATTTTGAAACTTCTTTATAGAAATTAATTTTGTCTTGTAAAGCTTGCATTTTTTTGTTGTGAAGTTTTGTTAATCTATCTTTACCAACAGAACCTTTTAATGCAGCTTTTGCTAAATCGTGATTTTGTTTTTGAGTCTTTTTGAAATCAGATTTTAATTTTTGATATCTTAACTTATCATCATTAGTAAGTGACTGACTCATTTTTTTATTTTTAACAACTAATTGATTTAAAACTTCTAGTTCATTTTTAAAATGTAGTAATAAATCTTTATATTGTTGTTTTTCTTTTTGAATTTCTAATTTATAATTATCAATTCATTTATTTTTTAAAGCAATGATTATTTGTTGTTTTTCTTTTTTAAAATTAATTTTAAATTCTTGTTTTGAAGTACTTATATGTAATAGTTCTTCTTTTTTAGTTTTAATTGCTTTTTCTTTTTCAGTAAGAAATTGATTAAAGCAATCAATAAATGTTTTTATATAAATTATTGTTTTTACTCTAATAGTTTGTTTAACCTTACTAAAGAAAATAATTGTTTTTCATTGTCATGCAAATCTACGTTTATTAGTTTGAAATAATTCAATTTCTTCTAATAAATATTGATGTTTTAGTGGTAAAGGTAAATTATATATTTCAAAATAAGTAGTTCTTCTACTATTTCTAAACATATATCCACCTAATAAACCAGCTCCAACATTTAATATAGCAGTTAATACTAATAAAATAGCTAGATGCATATTTAATTGCCAAGTTGCATATTGAGTTGAAGTTTTAGTTAACACTTCAGCAGTTTGACCACCACCCTGACCAAACATAGCAACTGGCCCAAATGGAGTAGCTAAACCAACTCCTTGTTGAGTAAATCCACGAACAACTTCATAACTATTTGAGTTAATCATAAATACTGTTTGTTCTATATTTAAAATATTTTGACCATAAACAATTACTAATATTCCAGTAGCAGCAGCCCCAATAAAGTTAGTTATATAAACAGAAACTGGATTCATTGAAATAATATCAGCTTGAGATAATGGTTCTATTGAACAAGCAATAGTTTGTTTTTTTTCTCCATATTTCATTCTTGCAAATAATACACCATTCATAAATGATGAACCCATAGCAGAAACACTACCAACAGCCATTGCTGAACCTTGCAATCCTAAACCAACAGCTAATGCCATTGATGATAATGGTGAAGTACCAACTACTGTTAAAAATCCTCCAACAACAATTGCCATTGGTATTGGTGATAGATTAATTGCAACTTCAATAGATGAACCAATTCCTTTTAGAAGTGGTGCAACTACATTAGCTCCAAATTTAGCAGTTAAAGCAGTTAGTGGTGCAATGATTAATAAAGCAATAATTAAATCTAGTCCATCAGGAGCATATTTTTGTAATAATAACAAAGCTCAATACATTGTATAACCAGCAACTAGTCCAGCTAAAATATTGAACGCTCCAACTGTAGTTCTTAAATGCATTGCAAAATTTGGCATATATTGAGTACTAAATATAGTTTTTAAAATATCTTTTTGTTCATTTATTACTAAATTAGATTTAATAGTTTCAAAAGTTTTTTGCATTTCATTTTGTAAAGTGTTGCCTTTTACTCATTCAGCAATCACTCTTATTGCATTATCTTCAGCTAATAACTTTTGACCATCAGGTGTATTTGTATTTATTAAGGTTTTAGCAATTGATTTAGATATACCATCAACATCAACTGATAATCCAACTCCAAATACAGCAGTACCACATAAAATGGCAAATAACGGGTTTCCACCCATCAAAATAATTACAAGTATTGTACATGCTGGAGCAGCTAAAGTTCCTGCTACACTACCAATAACTCTAGTAAAGTCACCAATAACTGGAATTCTTCCTAAAACTCAAAAGTTAAAGACTTCTATTAAAAAAGTAGCACAAACAGCTCCAGATAGACCTGACATCGCTCTTTTACCTTTAGGAACATAGTATGAAAAGATTGTAAAAAATACAAGTACTAACATTAGTAAAGATGTTCCTTTTAAAAAGGCTACAGCTTGTTGTCCAAACGATACCGATTGAGAAAATACTATAATAAAATTCACCTTTCTTTCTATAGCTTTAATGTAATTTTGTATTAATAAAATAAGAAATAAGACAAGTAAAAAGTAAAAATTATTAGTCTTATATGCTATTAATTTTAAACTACTTTAATAAAACTTTAAGCAAATAAAATGCGAATTTATGTATAAAATTAGTGATTATAAAATAATTGGTGAAATATTTTCTCAAAAATAAGGTTCTCTACCTTTTGTATTTTTTGGTCATTTTCATTTTGGAAATCATTTATGTTGAATATAATTTGGTCAAAAATCATATGCATCAGTAATATTTAAAACATTTCAAGTTTGTAAAGAATTTGAATAAGTAGACTTATAAAAAAGATTTCGCATAGTTTCAACATTAGAAACATCTCAAGCAGTCCATTGAATTTGATAAGCAAGTTGATTTCTTGGTGGATCATGAAATAATGTTTTAGTAACTTTTTTTGTTGAAAGATCTATTTTAATAATTTGATCGATTTTACTAGAGGTTTCAGTCATATCAATAACTTGAGAAATATCTCAATTATTTAAATCCATATTTATATACGATTTTGAAAAAATTCCCTCAATATTTTGTACATGACCAACATTTCAAAAATCTAAATTAATAATTTTTTCATTTTTATTATTTTCAAAAGCATAAGATAAATCAGTTAAGAATTCAGGAATATATTTTGGAACTTCAATAGTTGATTGTTTAAATGGTTCAATTTGATATTTTTCATTATCATTAAAAAAAAATCCTATTTTAGTACATTTATCTTTATCATATTCTGCTAGAACTCTTTTTTTATTTAAGTACTCGTATCTAGAGTTTAATTCATTAATACTTGATTCTAAACGTAAATTTTCTTCTTTTAACTCTCTTATTTTATTTTGCTAATCTGAATATTTATTTGATAATTGTTCTAATTGATCAATTCGAGATTGAATAATATTATTTTTAGAAATTAAATTATTTGATTCTTCTTGTTTTTAATTTTGATCTAATTGTTTACTTTTTTCTAGTTACTGATCATAATTTAACTTAAGTTTTTTAGTATTTTCTTCTGTTTTTTTAATATTATGATTGATGGTTTCTAGTTTAGAATTTAATTGCTTAGTTTTAAGATGATCATATTAATCTTTCAATTTCTTAAAAATTTTATGTTTTAATTAAAAGTTGAATTTAGTTTTTAAGTAGAATTTTCAGTGTATCAACTTCTTATATTTAGCAATTATTCAAAAACATGTGGTGGAGCAAGATCTTCTCAATAATTAGGTTCTCTACCTCTAGTATTTTGTGGTCATCATTCTTTATAAAAACTGCTTAACCCAATATAATGTGGGAAAAAATCATAATCATCAATTATTCCAGAAACATCTCAAGTTTCTAATGATTTATTTAATCAAGATCTTGCAAATATATCTTTCATTCTTCTTACACCTGAAACATCTCAAGCAGTTCAACTTATTGTATAAGAAAGTTCATTTCTTGGTGCATCATGATATTTGATTTTAGAAACATGTTTTGTTGAAATATCATGATATATATGACTAGATATTCTATAAAATGTTTCTGACATATCTGTTACATTTGATAGGTTTCATTCAGAAATATCTCCACAACAAAATGAAGAATTATAAAAAGCCTTTTTCATATTTTTTATATTCTTTATATTTCAATTATTTAAATTAACATCATACATATAAGAATCTAAAAAAATGCCTTCTATACTAGTAACATTATCAACATTTCATTTGTCAAAATTTTTTACTCTATAGTTATTATTTGCTTTAAATGCATATGCTAAACTACCTATAAAACTTGGTAGATAATCTGGAACTTCAGTTGTATATTTATCAAAAGTTTGAATTTGATAATCATTTATTTCATCATTAAAAAAGAATCCTATTTTAGTACACTTATTATTATCATATTCAGCATTAACTGTTTTTTTCTTTAAGTACTCGTATATAGAATTTAATTCATTAATACTTGATTCTAAACGTAAATTTTCTTCTTTTAACTCTCTTATTTTATTTTGTCTATCAGAATATTTACTAGTTAACTCTTCTAACTGATTTTGCTTTTCATTTATCTTTTTATTTTCTATTTGAATTTGTTTATTAAGATCAGAAATTTGTTTTATTAGATTGTACTTTTTTTCTTCTAATTCTTTTTTCTTTTGATGATAAGTATTAATATCATTATCTAATTTTTCTTTTTGTTTATTTAGTTCTTTGGTTTTTTGAATTAATAAACTAAGTTGATTTTTTAAATCTGTATTATTTTTTTCTCAATCACTAATTTGTTTTTCAACATTGATATTTTGAGTTTTTAAATTATCAACTTCTTTTTGTTTTTCTTCTTTATTTAAAATTAGTCTTTTTATTTCTTCTTCTTGAAGTTTTATACCTTGCTCAACATTTTCAATTTGTTTTTGTAATTGTTTACTTTTTTCTAGTTCTTGATCATATTTTGGTTTAATATCATTAATACTTTCATCTGTTTTTCTAATTTTAGAATTAATTTCATTTAGACTGTTTTGTGCGATTTGAGCTTTATTATTTTTAGAAATAAATTCATTTTGTCTAGTTTCAATTTGTTTTTCTAAATCATCTTTTTGTTTATTTAATTGAGTTAATTTAGATTCTGTATCTATCTTATTTTTTTCTAACTCTTTTAATTTTTCAGCATCATTTCTATTTGTTTTATCTAATTTGCTTATTTGATCCTGATTTTTATTGTTTTCATTTTCTAAGTTTTTTATGTTTTCTAATACATCTTTTCACTCAGATTGTAACTTAGATAACTGTTGATCATTTTTACCATCTTGAGAAATTTCTGTTTGGATTTGTTTTTCTAATTCAGTTTTTTGTATAGTTAAATCAGTTTTTTGCTTATTTAATTTATCTAACATATCTTTAGATTCTTTTGATTCTGTTTCAGTTTGTTGTTGTAATTTAATTAAGTTTTCTTTTTTTGATTTATTTTCTAAAAGTTCTTTTTCTAAATTATTTGTTTTATTTTTAAGATTTTGAACTTCTGTTTCTAGATCCTGAATTTTTTCAATATTTATATTTTTTTGATTTGTAGCATTATCTAGATTTGTTTTTACTTGTTCAATTTGTTTTAGTAATGAGGTTATTTTTTGTTTATCTTTTTTACTAACTTCATCAACAGTAGCTATCTGAGAATTTAAATTATCAATTTGATTATTTAAATTATTTTTTCTATTATTTAAAATATTTAATTCTTCTTTTTTACTATTTTCTTGTTTTTTTAGATCTTTAATTTCTTGTTCAATCTTTTGAATTTCTTTAAGTAATTGTTGTTTTTCTAATTCAGTTTTATTAATTTGTTCATTATATTGTTTAACATTTGACTCTAAACTAGATATTTCATTTTTAAGTTGTTCTAGTTTAGATAATTGTGTAGGTTCATTATTGTTTTTATTACTACAAGCAATTAAGCTTATAACTGATAAAACACTTACTGCTAGTGTTGATAAAGTGTATAAAAGTTTTTTCATACTTGTTACCTATATATTTATAAATTTATGCTCATTTTTAATTTAATAATTACTAAATTTAGCTACATTAAGTGTCATTTTATTATTGGTATAGAAACTGGTTTTCCACCTTTAGTATTTTTTGGTCATCTAGACTCATCTAATTTATCAGTTCCTATATATCATGCAAAATTATCATATTGATCTTCAATCCCTGAAACATCTCAAGTTCTAAGTGATGTATTTAAGTGACTTTGTAAAACCAAGTTTTTCATTCTTTTTACTTTTGAAACATCTCAAGCAGTTCACTTAACATCATATGAAAGTTCATTTCTAGGTGGATCAAGATAATGAATTCTTTTTGCTTGTTTTGTTGAAATATCATGTTTAACTCCATATCAAACATTTGAAAACATTTCACTCATATCTTCTACACTTGAAGTGTTTCAATCAGAAATATTTCCACAACAAAAATAAGTATTATAAAAAACTTTTTTCATATTTTTAATATTTGAAGTATTTCAATTATTTAAATCCATATCATATAAATAAGAATCAATAAACATACCTTCAATATTAGTTACATTTTGTAAATTTCATTTATCAAGATTTACTATCTTATAGTGATTATTAGCTTTAAAACTATAAGCTAAACTATCTATAAAAGTTGGTAAATAATCAGGTACTTCTCTTGTTGTTTTTTTAAATTCTTGAACTTGATATTCTTCAGTATCACTATTATAAAAAAAGCCGATCTTAGTACATTTATCTCCATCATATTCAGCATCAACTGTTTTGTTTTTTAAATATTCATATCTAGAATTTAATTCATTAATACTTGATTCTAAACGTTGATTTTCTTCTTTTAATTCTTTGATTTTATTTTGTCTATCAGAATAGTTATTTGTTAATTCTTTTAATTGATTTTCTTTTTGTTTTATCTTTTCTGATTCTTGATCAATTTGTTTTTTAAGATCTGAGATTTGCTTTACTAAGTGATACTTTTTTTCTTCTAATTCTTTTTTCTTTTCAAAATAAGTATTAATATCAGAATCTAGCTTTTCTTTTTGTTTATTTAGTTCTTCATTTTTTTTAATTAATGTATCTAGTTGAGTTTTTAAATTTTTATTAGTTTTAATTCATTCACTAATTTTGCTTTCAGCATTAATATTTTCATTTTTTAACTGGTTTACTTGTTGTTGTTTTTCAGTTTGTTTATTAAGTAATTTTTGTAATTCTTCATCTTGAACTTTTATACCATTTTTAATGTCTTGAATTTGTTTGTCAATTTTTTTACTTTTTTCTAATTGTTGTTGATACAGATCATTAATTTCTTTTGCTTTTTGATCAGTTTGATTTACTTTTTTATTAATTTCTTTTAGTTGATCTTGAACTTTCTTAGCTTCTGTATTTTTAGAAATAAACAGATCTTGTTTTTCTTTTATTTGTTTTTCTAGTTCATCTTTTTGTTTATTTAATTGGTTTAGTTGAGAATGTGTTTGGTTCTTTAATTCTTCTAGTTTTATAAATTCTTCTGAATTATTTTTATTACTATTTTTTAACTCATTAATTTTTTGATTATTTTCTTTATCATTTTTTTCTAGTTTTTTAATCTCAACTAATAAATGATCTAATTTATTTTTTAATTTTAGATAATTTTCATCTTTTTGACTAGATTCAAAGATTTGATTTTCAATTTGTTCTTCTAAATTAGTTTTTTGGTTAATTAAATCTTGTTTTTCTTTATTTGAATTATCTAAAACAGCCTTAAATTTATTTACTTTTGATTCTGTTTCTTTTTTATTTAATAAAAGTTCTTCTTTATTTAATTTCTTTTCTAAAAGTTCTTTTTCTAGCTGACTAGTTTTAGTTTTTAATTGGTTAACTTGATTTTCTAAATTACTAATTTGTTGAAGATTAATATTTTTTTGATTAGTTGCATTAGTTAAGTTATTTTTTATCTTTTGAATTTCTTCAGTTAGTAAATTAATTTGTTGTTTATCTTTTTTACTAGTTTTATCAATAGAATTAATTTGAGAATTTAGTTTATCAATTTGCTGATTTATACTATTCTTTTTATTAGTTAATAAGTTTAATTCTTTGACTTTATTATTTTCTTCTATTTTTAAACTAGTAATTTCTTTTTCAATCTTTTGGATTTCTTCAAGTAATTGCTGTTTTTCTAATTCAGTTTTATTAATTTGTTCATTATATTTATTAACATTTGTTTCTAAACTAGATATTTCATTTTTAAGTTGTTCTAGTTTAGATAATTGTTCAGGTTCATTATTGTTTTTCTTAGTACAAGAAACTAAACTTACAGTTGAGAAAACACCTAATAATAGTGTTGATAAAGCGTATAAAAGTTTTTTCATCTTAATTTTCCTATTGATATCTACTTAATGTTCTTACTCATCACTCTAAGTCATTTTTTCTTCTTTCTAGTGGATCCTTTTTATCTTCAAGCTCTTTTATTTGCTCATCAGCTTGACTAATTTGTTGTTCAGTTAAACTAATTTGAGATTCTAAATCTTTAAATTTAATATTATTTTCTTTAAGAATATTATTTAGATGTTCAATTTCTGACTCGTGTTCTTTAATATCATTAGTTAGTTGCAAGTTTATGTTTTTTAAATTCTTAATTTGTTCATTTAAACTATTAATTTGAGATTCTAAATTTAGTTTTTCTGAATGAAAATTAGTTATTTGTTCATTTAAATTAGTTTCATTTCTACTTAGTTCTTTTAGTTTTTCAATTAATTTTTCTTTTTGTTGTTTAGTTGAATTAATTAAATTATCTAATTCTTTATTTTGAATAGTTAAACTAGCTATTTTGTTTTGATTTTCAGAATTAGTATTAATTAGTAACTTTAATTTATTGTCATTTTCTGAATTGTTATTAATTAATGCTTGTAATAAATTAGTTTGTTTTTCTAATTGTTTTGTTTTATTATCTAATTCAAGTTGTTTTGATTTAATTAGTTCAGATAATTTAATTAATTCAGATAAGACTTTTTGATTTTTTTTATTTAATTCATTTAAATTATTTGTAAGTATAGAATTGTTGTGAGTTATTTGTTTAATAGAATTTTGATTATTCAATAAAGCTTTAGTTAGTTTATCAATTGAATCATTATTGTTTTGATTATCATTAGTTAGTTTAGCTATAGTATTAATGGCTTGGTTATTTTTAGTTTTTAGATCTTCTAATTTTTGATTATTGTCATTGATTTGTTTTTCTAAATTACTAATTTGTTGAGATTTTTGTTTAGTTGAATTTTTAGCTTCGTTAAGTTTATTTATTAATTGTTCTAATTGCTCTAATAATTTATTTTTTTCTGCTTGAATATCTGAGATTAACTGATTTGTACTTCTTATTAAAGCGTTATTATCTGTGATTTGGTTTGATAAAGTAGTAATTTGAGTTTTTAAGAGTTTATTTTGATTAGTTTTATTAACTAAAAGTTCATTAGTTTGTTTAATTTGTTGATTTAAATTTATGATTTTAGTTTCTAAACTTTTTGTTTGTAGATTAATTTGATTGATTTGTTTTAAATTCTCATTTTTATTTTGTTCTAAAGTTGTTATTTGTTTAGAGTATTGGTTTTTTAAATTAGTTAAATAGTTAAGTTTATCTTGGTGAGTTTTTAATAATTTATTATTATGTTCAATTTGTTTTAGTGCTTTTTTGTTTTGATCATCTAAATTACTAACTTTATCTTCTAGTTCTTTTAGACTAATCGTTTTTAAAAGATTATGATTCTTTTTAAATTCTTTTATTTGATCAATTTGATTATTATGACTAATTTTTAAAGATGAAATTTTATTATTTAACTCTATTTTATAAGATTCTAATTGTTGCTCAAGGTTTTTATTATCTGAGAAATTTAACTTATCAAGGTTTAATACAACTAAAAAAGTAGTTGAAAATAACACTAATCCTAAACTTGATGCTATTTTTAAAATCTTTTTAAAACTTAGTTTTTTATTATCAATTTTCTTATTAATTTGTTTTAATTTATCAACTGGGTCTAATGAATAAATTGAAAATACTTTTAAAGCTTTTTTCATAATGAATTCCTTTCTTTTTTCTATTCACTATAGTATTAGGAAAAAAATTTTAAAAGTGACCTATTTTTTTAAAAAAAAATAAAAAAACCTTAGTATTTTTTACTAAGGTTAATTTTTGTTATTTTAATAATTTTTTAATAATTACAAATGAGATTGCTAAACTAATAACAACACCAAGTGCTCCAAGTACAAAATATGCATCTTTTCTTTCAGTTTCTTTTATACTAGAAAATAAATTATTAAGATTTTTTATTTCAGTTTCATCAGTTTTTCTACTTAATTGTAGTGGTTGAGGTTGTTCTACAAGTTCATGTACATAATTTGGTTCAACAGCACTAGAATGAGTAGCTGGAACTGAATTTAATGTATTTGTATCTTTATTAATAGCTTGTTGAATATAAGCTGGATCAAAGAATTTTTCAGTTTGTTTGAATGGATCAAATCCAAGTGTAATATCTGGACTAACACCATATTCTAAACTTTGATGAGATTTATTAGTTAAAACATTATTACTACTTAATTGAATAATATCTCCAGTTGGTAGAATTGCTTGACTAATAGCTGAAGCTCCACCTGCAGTTTTAAATCCAATTACTTTTGCAACATTATTATCTTTAACTAGTTGAGGGAAAATGTTTCCAGCTGAGAATGAAAATGGTGAAGTTAAAACATAATAGTTAAAATCATATTTTTTAAATCTTGATTTAATAGTTTCAACTTTTTGTTCTTTTGTTAAAGGATTATATGAATAAGATTTAAATGGTTTATCTGTTAAAAATCCCATAATTTCAAAAGCAGTTCCTAAATAACCACCACTATTAAAACTTACATCTAAAACAATATTTTTAATACCATCTCTTTGAGCTTGTTTTAAGCTTTCTTCAATTTTAAAAGCTGAATTAGCTTCAAAGTTTTTAAATGAAATAACGCTTGTTTTTTTATCTGGAGTATAAACATTTTTATAGTTTAACTCTTTATCATAATATGCACTTAATCTTCTTGCAATATCTTTAAATCTATCAGATCTAGGTGTTGTTGTTTTTAAAACAGCTTTATTAATTGTTTCTAAATCTTTATTATAATATCCAGTTAATAAATATGATGAATGTAAATCATCTAATTGTTCAATTAAATATCTACTTGTTAAGTAGTGAGTAGTATTATCTGCTTTAATGTATTTTTCATATTTTTTAAATAAATCTTTATATGAAGCATTTTTATCTAATTTAATACCATAAAAATGATCAAATAAAAATCCTAAATATTTATATTGAAAATCTTTTAAACCTGCTGGTATATGATTTTGATTATTTAAATATGAGTGTTTTAATTGTTTTAATAAATCAACTTTTCCAAGTGTTTTACTATATGCAAATAAATTAACAGATTGTCCATTAAAATACAATTGCACGTTTGATTGATTTAAAAATAATTGATTAATTAGTACTAATGGTAAATACAAGTCATTTTGATCATTTAAAATTTCGATTCCATACTTGTTTAAATCAAATACTATATGTTTATTTTTATTTACAATTTCAGTATTTAAAAAGTCAATATTTAAATCTTCTTCACCACGTCTATAAAAAGTGAAAATATCTGTAAAAAAGTCATTATCAGATACTGTAATAGTTTTATTTTTACTATCAATTTCTAGTTGATAGTTAGTAGTTTTATTATTATTTGAATATTTACTAATTGAGTTTAAAACAACTTTATTGTCTTTGTAATTATAACTAATTTCTTTTTCTTTATAAAAGTTTGCGTTTTGATATGGTCTTACTTTTATTTTTGAAAAACTAATAAGTCCGTCTAGAGACTTTAGAAATTCTTTAACTCCAATATACGCAATCCCATTATGATCGTGTAAATTAATTTTTGTAGGTATATATTTGTTGTTAATTAAGTTTATATAATCATATGATTTTAACCCAACATTAGAGTTTGAACTACTTAAAAACCTTTTGGTTATTAAAAGATTATTATCAGTAGTTAGATTGTTAATCATAGCTATAGGTCCTAGTATGCTAATTGCACTTAAGCTTAAAAAGCCTATTTTTTTAACTAGTTTCATAATCTTTTTCTCCTTTTTGCTTTATTTAAATATTAGTCCATTTTTTTGCTTATGCAAGATCTATACTGGTTTTTTAGACGTTTTTTAAATAAAGAAATACAAAGAAAAAAACATTTGTATAAAAATGTTTTTATTCTTGTGCAAATTCTCCATTTTTATAAACAAATGTTTTAATATTATTTTTTATAGTCTCTTCTAATAGTTCTTTTCAATAAATATTTTCTTCTAATTTATTTGCTATATCTAGTTTTGGTTTAATGATCGGATCTTTTGGTACAAACATACTGCATACATCATCAAAAGGTAAAATAGAAGTCTCATAAGTATCTATAAATTTAGCTATTTTAATAATTTCTTCTTTATCATAAGTAATTACAGGTCTTAAAATTGGTAAATCACTTACATTATTAATTACATTAATACTTTGAATCGTTTGACTAGCAACTTGTCCTAAACTTTCTCCAGTAATAATTGCTTTATTGTTATTATTTTTTGCAATAATATTTGCAATTCTTAAAAACATTCTTCTCATAATTGTAATTTTATAACTAGGATCAATTAGATGTTGTAGCTCTTGTAATAGCAAATTAAAATCACAAATATGTAATTTAAAATTAGATAAATTATATTTTGCTAATTTTTTTGCTAAATTAAAAACTTTATCTAGTGCTTGATATGAAGTATGTGGTGGAGTCATAAAATGAATAAAATCTACTTGCATACCTCTTTTTAAAGTTAAAAATGCACTAACTGGTGAATCAATGCCTCCACTTAATAAACATAACCCTTTATCACTAATTCCAACTGGTAAACCTTTTAATCCATCAATTCTATTATCAAAAACATCAACATGATCTTTTTTAACAACTATTTCAATTACTAATTCTGGGTTATGTACATCAACTGACAAATGATCAGTATTTTTTAAAATTTCAGTTGCTAAAATGTGTTTTAATTCTATACTTGTATAATTAAATGATTTATTTTTTCTACTTACTTCTAGTTTAAAAGTTTTTGCTTTTGAGTTTTTAGCAATTTGTAAAGCTGCTTTTTTAATTTGTTCTAAATCTTTATTAACATAATTAATAATTGAAATTGAATAAATTCCAAATACAGTTTTTAGTTGTTCTATAATTTGAGTTTCTAGTTCATCTTTAATTTCTAAAGTCAAAGAATTATGATCTTTTATAAACTTAATGTCTTCTTTATCAAATTGTTTTAATTTAAATTTAATATTTGAAATTAACTTATCAATAAATTGAAATCTATTATTTCCTTTTAAAGTTAATTCACCATATCTGATTAATATATATTTCATATTTCACCTATAATTGATTTTTTCTAATCAAATGTATTGCTAAATTAATTACTTTTTTATGATTTTTTTCTTTAAATTTAGTTAGAATTTCTTCAAAAGCATTATTATTTGAAATATAAGCTAAATTTTTAGCAATATAAATTATAATTTGTTGAGCAATTTTATAAATCACTACTACTTGTTCTATATTTAAATGCAATTGTTCAACTTGTTCTATTTGATTATCTAATTGATTATTTAAAACTAATAAAGCATCATAATCATTTGTAAAGGTATTAGCCTCTAATTCCAAATTTTTATAAATAAAGTTAATAATTAAAAACTTATTATTAATTAATTCTTTATAAACACTTCAATTAATTACTTTTTCATATTTTTTAATAATAGCTTGACTTAAAAATAATAAAGTTTTAATGTTATCATACTTAGTTTCTAAATCTCTTAAAACTAATGACTTGTTTTTTAAAAGAGTTTTTATATCAATAAGTTGAGTATAGTGTTTTTTAATATCAATTAAAACATTTCTTATATAATTTACATAATCAACAATCAAACTATTAAACTGAATAAAATTAGAACTAATTTTTTGATATTCTTTATCAAACTCAGTTGTTATATTATTAAAACTAGTTTTTAGTTGGTCAAATTGAATTTTAATATCACTAATATCATTATTTAAATTATTATTAAAATTAATTAATTCTTCAGTTTTTAGTAATTCAGTATTAAACGATAATAAAATTGTTCTAATATTTTTAACATTAGTTTCAAATAAACTTAAAATTTGCTGATCATATTTTAAAATTACATCTAAGTTTTGAATATTTTTAATTAATGTTTCAATTATTAAAAAGGCTTGGTTGTTTTTACCGTGAAATAACAACTTTTCAACAGCTTGTTTTTGGTCTATAAATTGTTGTTCTAATAAGTTGATTTGATATTTAATTAACTGATTATTTTTTTGATTAACATCTAGTTGTACTTTATTTTTAATTTCTTGAAGTTTTGAATCTAATATTCCATTAAATTCTAAAAATTTAGTGATTTTATAATGATCATCTAAAAACTTAATATATTCAATAACATTATTACTTAATAAATTTAACTTACTAAAAGCTTCTTTAAAATTACCTATTTTAATGTAATATTCACAAACAATCATTTTTTTAAATATTGATTCTTGATAATTATTAATAATCTTTTTATCAATATTTAGTTCATTATTTTCTTGTTCTTTAAAAACTATATCAAATAAATCATTTATATGATTTTGTAAAATAATACGATAATCTCTTAATAAAAATTCAATATTAGTAACTTGCTGAGTTTCACTATACATTAAGTTAACTTTTTGATAAATAGCTTTACTTGTTTTATACAATTTTCTAGTTCTATAAAAATTTTTAATACTTAAAACTCTAAATAAAATTTTTTTAGAATAAGAATTTAAATCAAAATGTTCTTTAGTTTGTTTAATTAAAATATCTAATTCAACATTATAAATTTGATTATATTTAATCTTTCAGATTTCTAAAGCTTTACTTAGATTTTGATTATTTGAATTAGTTACTATAAATTGCATTCTAACTAATCTATTAGCTAGTGGATGTTTTAAAGTTTTTTCAATATTTAAAAAAGTAAAGTGTAATTTTTTTAAAGTATTTCTATAAACATAAAGTTTAAAAATAGTAAATAAACTACAAAAAAAAGCTAATAAAAAAATAGTTAAAAAAACAATATTAATTGCTTTTGTTTCACTTAGTTTTGTAATAATTAACATTAATTCAAATCACATATTAGCTTTTCCTAAACACAAATATTATACCAAAATCAAATAATAGATTATCTTATTGATATTTATATTAATATAGGTAAAAATAATATATAATAAATAAGTTATTTACTATATTCTGCAGATAATTATAGATTAGGTGCTGTCTATTTTTTAAAAAAGTAAGTTTTAGCAGTAAAACTGAATTAATAGACTGACTAGTTTAGGAATTATTTAAGATATTTTAATAACCATATTTAAATTAAGGAGAATATTATGTCAAGATTTATCGGATCAACATTTAAAAAGTCTCGTAGATTTGGTTTTTCAATTCTTGAAACTGGAAAAGAATTTAGCAAAGGTAAAAAAAGAATAACAACACCAGGTCAACATGGTAAAGAAAGAGCTAAAGTTAAAGTTTCTGAATATGGTCAACAATTACAAGAAAAACAAAAAGTTAAATTTATGTATGGACTAAGCGAAAGACAATTTAGAAATACTTTTGCAAAAGCTAAAAAAATGCAAGGAATTTTAGGAACTAACTTTTTAGTTTTACTAGAATCAAGATTAGATAATATTGTTTATAGATTAGGATTTAGTGCTACTAGACAAGGTGCTAGACAATTAGTAAACCATGGTCATATTTTAGTAAATGGTAAAAAAGTAGATATTCCTTCATATTTATTAAGTGTTGGTGATTTAGTTGAAGTTAAAGCATCAATGAAAAAAAATGAAAAAGTTTTAGAAGCATTACAAAACAATGAAGCAACTTTAGAATTTGTTAAAGTTAATAAAAATGAAGTTAAAGGTGAATTTGTAAGACTTCCAGAAAGAACTGAATTAAGCAGTGAAATTAGTGAATCACTAATTGTTGAATGATACAACCGTTTAATTAAAAAATAAAAATAAAAACTTATAATAAAAATCAAGCTTAAGCTTGATTTTTTTATTCTTCTATTTTATTTAATTTTAAATTAATTAGTTCTTGTTGAATTTGGTCAATATTTTTATTCATAGAACTATTAATTGCAGCTAAAATTGTTCCTTCAACTAAAGCAGCATCAATTATTTTAATTTTGTTTTGTTTATCTGGTTCTAACATTTCAATCGCCATTTGAGCATTCATTAAAGCTGAACCTAAATCAAATAATAAAATAACACCATCATTTGGATCTCAAGCTTTATTAATAGCATCAATTATTAAGTCAATATCAGTTCCAATTAGATTATCTTTAGTACCACCTGCTGGAATAATTTTAACTTCATTTGCCATTTGTTTTGCTAGATCAACAACACCATTTGCTATTTTATTACTATGTGAAATAACTACTATTCCTACCATACAATCCTTAAATGTTTTCACTAATACATTTTAATATTAAATAACTAGAGTAAGATCCAGGATCAATATGACCAACACTTCTTTGTCCTAAATAACTTGCTCTACCTTTTTTAGCAATTATGTTTTTAGTTTCTTCAACTTTTAAATAAGCTAATTGCACTGCTTTATTTAAAATTTCTTTAGCATTTTCATTTTTATTAATCAATTCTTTAATTAAATCACTGACTGGTTCTAAAACATCAACCATTGTTTTATCTCCAATATTAGCTTTACCACGTAATTTGATTCCACTAACTGCATCATTTAAACAAACTGAAAAATCATCAATATTCATTTCTGTTTTATCATTTAAACTCATACTAGCTTTTAAAAATGCAGTTCCATATAAAGGTCCAGAAGCTCCACCAACATTAGAAACTAAAACCATTCCCACTTTTTTAAACATACTACTAATATCAGTATATGAGTTATTTTCAAGATCTTCTTTAACTTTTAAAAATCCTCTTGATAAATTGTGACCATGATCTCCATCACCAATTATCTGATCTAATTTAGTTAATTCTTCTTTATTATTATCAATAACTTCAGCTATTTTTAATAAAATTTGTTTGACTGCTTCAATTTTTAAACTCATTTTAATACCTCTTACTATTAAAATATCTAATAAACTTGTTATTTAAATTATACTATTAAACAAAAAATAGCTCTAAAATAGAGCTATTATTCCAATTATTAAAAACGTAACACTCAAAACAACACCCACTAAATAGCAACATATTATAGTGAAATTTATTCAGAATTTTTTATCACTTTTTTTAGTTGTATTAATATAAAAACTTCTTGCTTGTTCATGTTGTTGTTTTAATTTAATTTTTTTGATAATAAATATTGCTAATATTAATAAAATTGCTAAAAGAATAGAAACTAATATAAAAATAATTGCTCAGCTTTTAGAAATTTCATTATTTAAAATAGTTACAAATAATTTGTTTAACATCTATTTTAAAATAGCAACAACATCGCCTTTTTTAACTTCTCCCATTTTTACAATTTCTAAAGTTTTTCCACCATTGTTTGTAAAAATGATTGGAGATTTAATTGATGGAACTTTTTTAGATACTTCTTGTAAATCAACAGTTACTAATTTGTCTCCAGCATTAACTTCTTGATCTTGAATTACATATGACTCAAAACCATTACCATCTAAACTTACTGTATCTAAACCAATATGTAATAGGATTTCAACACCATTTTTTGTTTGAATTCCAAAAGCGTGCTTTGTTGGAAAAGCAGTTACTAATTTACCACTAACTGGAGCATGAAAATCGTTTGATGTTGGATAAATTGCAAATCCATCACCTAACATTCTTTCTCTAAAAACATCATCTTCAACTTCATCTAATGTAATTATTTTTCCATCACAAGGAGCCAAAACTTTTAAATTTTTATTAAAAAATCACATGTTACACCTCTTTTTTTACTTATTATCTTAATTTTAACATTTAATGCCTTATAGATGTTAATAAGATAACTAACTCAAAAATTAGTCTAAGTTCTTTAAAAACTCTTCAACAAGATCATTTACTTGTTGACTAGTTTGGCATTCTAAAGCTTTATTAGCTAATTGTTTAGCTTTTATAGATTCAATTTTACTCATAAGTGATCTAGCTTTTAAAACTGAAGTCGCACTCATTGAAAAAGCGTCTAAATCTAATCCTAATAAAATTGGTAAAGCCTTAGAATCTCCTGCCATTTCTCCACACATACCAACTCATTTATTATGCTTATGAGCTCCACTAATTGTTAGTTGAATTAATCTTAATAAAGAAGGGTTTAATGGTTGATATAGATATGAAACATTTTGATTCATTCTATCACTAGCAAATGAGTATTGAATTAAATCATTAGTTCCTATTGAAAAGAAATCAGCATATTTTGCAAATTGATCAGCTAATATAGCAGCTGATGGAATTTCAATCATCATTCCAATTTGCACTTGTTTATCATATTTTATATTTTCTTTATCAAGTTCTAATTTACATTCTTCAACAAATGCTTTAGCTTGTTTAAATTCATCAATTGTAGCAATCATTGGAAACATAATACCTAATTTTCCAAATGCTGAAGCTTTTAATAATGCTCTAATTTGATCTTTAAAAATATCTTTTCTATCTAGAGTGAACCTAATTGCTCTATATCCTAAAAAAGGATTCATTTCTTCATCAAATTTAAAATATGATAGCTTTTTATCTCCACCAATATCTAAAGTACGAAAAACTACTAAATGATTTATCTGACTAACAACTTTTTTATAAGCTTCAAATTGTTCTTCTTCAGTTGGAAAATGATCATTATCCATATACAAGAATTCAGTTCTAAATAACCCAATACCTTCAGCTCCTGAATCTAGAACTGATTGAATATCATTTGTTGAACCAATATTTGCTTCAATTAGCTTTTTAATTTTATCTTTTGTTAAACTTGGTTTATCTTTAAATTTTTTTAATTGGTCTTTTAATTCTAAATATTGTTTTACTTTAGTTTGATAGTTTTTAATATCATCATCATTTAAATCTAATTCAACAATCCCACTACTTCCATCTAAAGCTATCAAATCATCAGTTTTAACTAATTCAGTAATATTTTTTAATCCTAAAATTGCAGGAATTTCTAAACTTCTTGCCATAATAGCAGCATGACTAGTTCTTCCACCAACATTAGTTAAAAATCCTTTAACAAATTTTTTATCTAATTGAGCAGTTTGACTTGGAGTTAGATCATCACTAATAATAATTACTTCTTTATCAATAGTTGATAAATCATGAATTTCTAATCCTAAAATATGAGAAATAATTCTTGAACTAACATCTTTAATATCTGCACTTCGTTCTTTAAAATATGGATCTTCTAACTGACTAAACATTTCAAAATAATTATTAGATACTATAAAAAGTGCATATTCAGCATTTACTTTTTCAGTTTTAATTAATTGAACAACCTCTTCTTTAATAGTAGGATCATTTGCAATATCTTGATGTGCATCAAAAATTGCAGCCTTTTCTTCTCCTAATTTTTCTAAAGTAATTTTTTGAATTTTTTTTAAATCAGTAATTGTTTGATTAATTGCTTGTTCTAATTTGACAATTTGTTGATCAACATCATCAATTAATTGCTTTTGAACATCAAGTTTAATTTCTTTAATAACAAGAGCTTTTGCTAAAGAAATACCATCACTTGCTGCAATTCCTTTAATTTGTTTTGACATGTTTTTATCCTTACTATAAAATAAATAACTATTATTAATTTTAATCTACTAAGATAAAAAAACAACTTTATAATCAATTTGAATTATAATAATCTATTTTTTATAAAATTCAATTTCTCTTAAAATTGTTGAAGATAAACTTCTTTTATCATAATCACTAATAAAATAAACTACTTCAATATTTGGATCTAAACTTTTAAATCCATCATAATATTTAATCTCATATTCAAAATCAGCTTGACTTCTTAAACCTCTAATTATAAAACTAGCATTTAATTCTTTTGCAATAGTAGTAGTTAGTTTATTTTCATTAATAATAATTTCGACATTACTAAAATCTTTTATAAAATTTTTAATATTTTCAACTCTACTTTGTAAATCTGGATCAAGTGATTTATTTACGTTTTTACTAACAACAACATATACTTTATCAAATAATAAAATAGCTTTTTTTAAAATATTTAAATGTCCTTTGTGAAAAGGATTAAAGCTTCCTGGATAAATTGCTGTTTTCATATTTTCTTTCTAATTAAAAATATTATCAAATAATTTAGTAGATTTTAAACCATCACTAAAACCATCTGGATATAATTTCTGAAGATTTTCTCTAAATGATGATTTTTGATATTTATATCTAGTTTTATCAGTTCCATCAATTAAGTTATAAGCATAAATAATATTATCTCCGATTTTTATGTTATCTGATTGTAAAAACGGAGCTATTGTTGCATGCTGAAGTAAATCTCCAAACTCAACATTTGATCTAACATTATTATATATACCTATCATTTGACCAAATTCATTATAAGCTAGTGAGCCTGAAGCTCCATAATATAATGAAGAAAAATTAACATTATATTGATACCCATAAAAAGTTGCAAAAACTCTGTGTCAATAATTGTCTCTAATACCAAAATTAGACACAAATCCTATGCTTGTTTCAAATTCGTTAGGATAAGCAAATGTTTCTTTATTTGTTTTAGAAGTTCTAGAATAAATCGTTAATTTATCTAAGTTTCTTTCAACTGGATTGTTTTGCATTCAATAACTTTTATTATATTGATTTGTAGAATAACCAGCTATATAAATGTCTTTTGCATTATATAAATTTTTATCTGATTTATCTTTTCTAAAAAGTGCTGAAGTATAATCTGTTGTTTGCAAATGTTTAGAAATTTCTTTATTCTGATTTGGTAAATTATCAGTGTTTTCTAGTCTTTTTAAATATCTGTTTAACCCATCAACAGCATTTTCAACTCATAATTTTAATGTATGATCAGCCTTAGACAAATCAATATCAATTTCAAAAACAGCAAAATCAACCATAATTGGTGCTTTTTTAGTTTTTAAAAAGTCGTCTCAAGCAATTTTTTCATCCTCATTAAGACTATCTTTTTTATTAGTATCATAATAACTAATAGCTGATTCATAAATTGTTTTATCATATTTACTAGTTGCATAATTATTCATAAAATCAACTGCACCAAAGACAAGTTTTGGTTCTGAAATTGCACTAGATAAAGTATGACTACTTAATTGACTTCCAGGATCATTTTTAATATACTCATTAAATTCTGAACTACTTAAATAGTAATTTGCAGTTCAATTATTTGTTTGTGTTTTATTATTTTTACTACTAAAATCATTAACATTTTCAGCTTTACCTAAACCAATTCCAACAACTTTATTATTAGATGGATCATAATAATTAAATTCTTTATTTTGCTCTTCAGTTAATGAATTACTAAATTCAGATAAAACGTGTAAGTTAGTAGCTAAAAATAATTTATATTTATTTTCATTATTATATTTATGATAATCTAATAATCATCCAGTTCCTGTACCATTACTTAAAAAACCACCATTATTTAGTTTTGTTAAAAATTTAATTGAAAAAGTTCTATCATATAGTTCTTTATAAATTTCTTCTGCTGAAACTGTAGTAAATTTATTTATAAATTCTGGATAACTATGATTTGCAGGACTATAAATAGAGCCTTCTATAAACTTGTCTTCAACATTATTACTATCAGCATTTATAATCAGTTGATTATTTTGCTTATCATTAATTATTTTATTAATATGTTGATCAACTTCATTTACTAATTCATTACTTTCTAGTTCTAATAATAATTCTTTAGCCTTTTTTAAAAAACTTAAAAGATTATCACTATTAAAATCATTAGAAAAATTTTTAAGTTCAGATAAAATGTTGTTTATATTAGATAATTTATTTGAGCTTATTGATTTGCTATTAATTTCTTTTGTTTTCTTAATAATTTTATCTTTTAAATTTTTATCAATTTTAGGATTATTTTCTAAAATAGATTTAAATTCTTCTAACTGATTATTTAAATCAATTATGTCTTTTTTATTAGGTGAATTAATAGTTGGAATAAAACCAGGTTTAATTTTATTAGTATGAGTGCATGAAATAGTAACTAATGGAACTAAAATTAAACTAAGACTACTTAAATATTTTAATGATTTTTTCATTTATTACTTTCTTTTATTAATAGTAAAAACTTAGCTTTTTAAGCTAAGTTTTTTAACTATTATATCTTTTATTTAATTAAGTTTAAAGTATCTAAACAAATCATTTTTTCTTCATTTGTTCTAATAGCATAAACTGGAATTTTTGATTTTTCACTAGAAATTAATTTATAATCTGAGTATTTAGCTTGGTTTTTATCTTGATCAATTTGTAAATCTAAAAGTTTAACTTTTTTACAAATTAGATCTCTAATAACATCAGCGTTTTCACCAATTCCTGCTGTAAATACTACTGCATCAATGTTATCTAAATAATTTGCATACTTAACTATAAAATCAGCAACAATTTGAACATATTTTTCAACAGCAACAACTGCTTTTTTGTCATTTTTATCATATTGTTCTAAAACATCTCTCATGTCAGCTGAAACTTGACTTAAACCTAAAAGTCCTGATTGTTTATTTAAAGTTTGAGTAATTGTAAAGATATCTGAATTTGTTTGTTTTGCAATATATTCACAAATTGATACATCAATATCTCCACTTCTAGTTCCCATCATTAAACCAGCTAATGGAGTTAATCCCATTGAAGTATCATAAGATTTACCATCTTTAATACATGAAATACTTGCACCATTTCCTAAATGACAAACAATTAAGTTTAAATTTTCTTTTTTCTTATTTAAAATTTCAGAAGATTTATTAACTATGTATTCATAACTAATTCCATGAAATCCATATTTTCTTACACCAAATTCTTCATATCATTTATAAGGAACAGTGTATAAATAATTTACTTCTGGCATAGTTTGATGAAATGCTGTATCAAAACAAGCTACCATATTAGTATTTGGCATTAATTTTTTAACAGCTTTTATAGCAATAATTGCAGCTGGATTATGAAGTGGAGCTAATTTAACACTATCTTGAATTTTTGATAATATTTCATCAGTAATAATTGATGAGTGTGAAATTTCACCACCATGAACTACTCTAAATCCAACTCCATTAATTTCATCAATATTTGATATAATTTTTAATTCAAGTAATTTGTTTAAAATTAATTGAATAGCATGTTCATGATCTGGAAGAGGATCTTCAAATTTATATTTTTGATTATTGTGTTCAAATTTTAAAAACCCATCAATTCCGATACGTTCTGCTAGACCATCTAATATTGGTTCAATTGTTTTTGAAGTATCAAATAATTTAAATTTAATTGAACTACTTCCAGAATTAATAACTAAAATCATTTAATTTTCTCCTTAATAAGATAAGTGTAGTGTCATTATAGCTGTATTTAAAACATCTATAAATGTAGCACCTCTACTTAAATCATTAACTGGTTGATTTAATCCTAAAACAAAAGGTCCAATTGCTTCAAAACCACCCATTCTTTGAGCAATCTTATAACCAATATTTCCGGCATTTATATCTGGAAAAACAAAGATATCTGGAGTTTGTTTAGTTAATAAACAGTTTTTGAATTTTTTATCTCTAGTTTTTTTATCAAAGGCTGCATCAAATTGAATTTCACCTTCACAAACATAATCATTTTGACTAGATTTTAAAATTTCAACTGCTTTGTGAACTCTATCAACATCTTCACCTTTACCACTACCATTTGTTGAATAGCTTAATAAAGCAGCTTCAACATTTTTTACATTTAAAGTCTTTGCAAAATCAACTGCCATTTGTGTGATTTCAACTAATTGTTCGCTTGTTGGTTTAATGTTTAAAGCACAATCAGTAAAAATGTAATTTTCATCACCTTTTGACATAATAAAGATACTACTTGCAATATTATATCCAGGTTTTGTACCAATAATTTGTAAAGCTGGTCTAATTGTATCAGCTGTTGTATTGTTTAATCCAGATAACATACAATCAGCTTGATTTAATTTAACTAACATAGCTCCAACATAATTTGGTAATTGCATTACTTGATGTGCAACTTCAATAGTTGCTTTACCTTTTCTAAGTTTTACAAATTCTTCACTAAATTCTTTTGTGTCAAATTCATCTAAACAAATGGTTTTAATTGATGAATTATTTTTAATTTCACTTGGAACTTCTTTTGAAGATTTAAATAATAGAATTGGTAATCCTAATTTTTCATCAACTAAAGTTTTAGCCACAGATTGAATAATTTCAGATTCACCTTCTGGAAAAACAATAGATTTTTTTTCTGATTTTAAAACTAGTTGATTTTTAATTTCTTCTAATGTATACATATTATTCTTTCTATAAATTAATTAAAAATGAATAGCTTTTCCTGTTTCTAGAGCTTCTGCTGCTTCTCCAATTGCTTCACTCATTGTTGGGTGAGGGTGAATTGTATTAGCAATTTCAGTAATTGTTCCTTCACACTCAATAACAGCAGCAATTTCTGAAATCATTTCAGTTGCTCTATTTCCAATAATATGTGCACCTAAAATAGTTTTGTATTTAGGTTCTATAATAATTTTTACAAATCCTGAAGTATCATCATCAGCTAAAGCTTTACCAATAGCTGAAAATGGGAATTTAAAGGTTTTGTATTCAATATTTTCTTGTTTTAATTGTTGTTCAGTTTTTCCTATCATTGAAACTTCTGGATGTGTATAAATACATGATGGAATTCTGTCATAATCCATAACAATATCTTCAGCATGATCTTTATTAGCTTTTTTAGCAATTCTATTAGCAGCAACAATAGCTCCTTTAACTGCAGTATGAGCTAGCATTACTTTTCCAACAACATCACCAATTGCATAAACACCATCTAAATTAGTTTCTTGATATTCATTAACAACAATACCTTTTCTTGGAGTTAATTCTAAACCGATGTTTTCAAATCCAGTTAATGAAGTTTTACGTCCAACTGATTCTAAAACATATTCTCCCTTAACCATTTGATCTTTTCCATCGATTTGATATACTACAGCTCCATTTTTAAATTCTTTAACTGAAGCATTTGTAATAACTTCAATGTTGTATCTGTTTTTCAACTCTTTAGTCATTGCATCAATAATATCTTTATCTAGCATTTCTAAAATAGTTGGTAATCCTTGTAAAACAGTAACTTTTGTACCAAGACTAGCAAATAAACAACTAAACTCAATACCAATAACTCCTCCACCAATTACAACTAAAGTTTCAGGAATTTTTGGAATTGATAAAATTCCAGTTGAATCAATAATGATTCCATCTTTTCTTCCTTGATCAAATCCTGGAAGTGGTAAATGATTTGGTGTTGACCCAGAAGCAATAATTAAGTTATTAACACGATAATTTTTATTATTTACTGAAATTGTGTTTTTATCTAAAGCAACAGCTTCACCTTTGATTTGAGTTACTTTATTTTTATCTAGTAGATATTTAACTCCACCTGTTAATTTCTTAACAACACCATTTTTTCTTTGAATTGCTTGAGCTCAATCAATAACTACTTTTTCAGTATTTTGTAAAACAATTCCTAATTCTTTTGCTTTATGCATTATATCGTGATAAACATGAGAAGTTTTTAGTAAAGTTTTTGTAGGAATACATCCAACATTTAAACAAACTCCACCATAATATTCTTTTTCAATAATTAAAGTTTTTAGACCTAATTGAGCAGATTTAATAGCAGTAACATAACCACCAATTCCCGCACCAACTACACAAACATCAAATGTATCTTCAATTTGAACATCCACTTTTGGAGCTTCAGTTTTTGGTTTTGGTGCTCTGCTTGGTAAAACATCATTTGAAACTGGAGTAGCACCAACTACACTAGCGTTTTCTTCAACTTGTTCTGTTTTTTTAGTTTCAGCTTTTGGTTTTGGTGCTCTGCTTGGTAGAACATCGTTTGAAACTGGAGTAGCACCAACTACACTAGCATTTTCTTCAATTACTTCAACTTTAGGTTCAGTTGTAGAACTTGATGTTCCATCATCAATTTCAATAACTACATCACCAACTTTAATTTCTTGACCAGTAGAGATATTGATTATTGCTATTTTTCCAGCAACTGGAGAAGGAATTTCACTATTTACTTTATCGGTTTCAACAAAATATAAAGGTTGTCCTTCTTTAACAACATCGCCAACTTTAACTAAAACTTCAGCAACTGTTCCTTCTGTTAAACCTTCACCTATGTCAGCAAATTTTACTTTAAACATATTTTATCCCTTCACTAATTACATAAACAATAGTACTGGTTTTGATAGATAATCTTGTACTTTAATTAAAAATCTTCCAGCATCTGCCCCATCAATGATTCTGTGATCACAAGTCATTGATAATGGCATTATAAATCTTTTTTGTAATTCACCATTGATATATAAAGGAGTTTGAGACATTGTACCAACTCCTAAAATAGCTGATTCTGGTGAGTTAATAATAGGAGTAGCATAATCTAATCCTACTGAACCAAAGTTTGAAACAGTAAATGTTGCTTCAGTCATTTCAGCTCTTGTTAATTTACCATCTTTAGCTTTGTTTGCTAATTCACTAATTTTAATTGCAATTTCAAACACACTTAAATGATCAGCACCTTTAATAACTGGAACCATTAATCCGTTTGGTGTATCTACTGCAATTCCGATATTAATGTTGTGCATAAATTGGATTTTGTTATTTGCAAAATCACCTCTTACGTTAATATTTGGCATATCACGTAATGATTTAGCAACAGCTTTAATAATAAATGCTAAGTAAGTTAATTTAATTCCACTAGCTGCAGCATGATCTTTTAGTTCAGTTCTCATTTTGTGAGTTTCAGTAATGTCAGTGTTTTTCATACCAGTAAATGCAGCAATTTCAGTATGAGATTTTGTCATTGCTTTTACTGTAGCTTTTCTAACACCATTCATTGGAACTTCATCTCAAGATAAAGGTGCACTTGGTTCAACAACTTTAATTGTTGGAGTTATAGCTGGAGCTGGAGTTGGAGCTGGTTGACTAGCAACTGGAGCTGGAGTTGGAGCTGCAGCTGGTTGACTAACTGGTTGAGCTGATGAAGAATGATAATTCTTAATATCAGCAACTAAAATTCTTTGGTTTGGTCCTGTTGGAGTTACTAAAGATAAATCAACATTTAAATCAGCGGCAACTTTTCTTGCTAGAGGTGTAGCTTTAATAGTGCTTGATTTTGTAACTGTAGATGCTTGTTTTCTAACAATTAAATCATTTGAAACTGGAGTAGCACCAACTACACTAGCGTTTTCTTCAACTACTTCAACTTTAGCTTCTTGTTTAGCTTCAGCTTTTGGTTCACTAGCTACAGAAGCACCTGATCCTTCATCAATTTCCATAACTACATCACCAACTTTGATTTCTTGTCCAGCTTTAATGTTAATTACTGCAATTTTTCCAGCCACTGGAGCAGGTATTTCACTGTTTACTTTATCAGTTTCAACAAAGTATAATGATTGTCCTTCTTTAACAACATCACCAACTTTAACTAAAACTTCAGCGACTGTTCCTTCTGTTAGACCTTCACCTATGTCAGCAAATTTAACTTTGAACATATCTTTTTCCTTTCTAAATATTTATTATTTAAAATTTAAAGTCTAACAATTCTTGCATTTTGACTAGAACTTTTTTAGGGTTAACTTGGAAGTAACCTTCTCCTCTATCAAATGGAGTAATAACATCATAACCTGTACATCTTGATAAAGGCGCTTTTATGTATTCAAAACATTCTTCATTAACAGTTGTAATGATTTCAGCTGAAACTGAGAATGATTTAACAGCTTCATGAACAACTAATAATCTTCCTGTTTTTTTAACTGATTCAACTACCATTTTTTTATCTCATGGTTTAATAGAACGTAAATCAATTAAATCAATAGTTGCGTTTGGATGAGTTTCTTTTAATAACGCAATAGCTTTTTGACAATCAACAGTTTGAGCACCATAAGTAACAACAGTTAAATCATTACCTTCTTGAATTTTATAAGCTTCTCCAATTGGTACTATGTAGTGTTCATCTGGAACTTCTTGTTTAAATGCTCTATATAGTTTTGTTGGTTCAACAACAATAACTGGATCTGGTGAATCAATTGCAGCTAAAATTAGTCCTTTTGTATCATATGGAGTTGATGGACAAACAATTTGAACTCCTGGAATATGAGCAAATACTGCTTCTAAAGCTTCACTGTGGTGTTCTAAAGCACGAATACCTCCACCCATTGGTGTTCTAATAACCATTGGAGCAGTGTATTTACCACGAGTACGGTTTCTCATTCTTGAAATGTTAGTGAAAATGTTTTGTAAAGAAGCTAATCCTAAACCTTCAAATTGCATTTCTACAACTGGTTTCATACCATTCATAGCCATTCCTAAACCAACACCAGCAAACATTGCTTCACTAATAGGAGCATTAAAGCAACGATCATTTCCAAATTTTACAGCTAATCCTTGAGTAGCTCTGAAAACTCCACCTTCAGTTCCAACGTCTTCACCAAATACAATAACATTTGGGTCACGTTGTATAGCGCAATCTAAAGCATCAGTTACAGCTTTAATATTATTAATAATAGCCATTAGTGGTGTCCTCCTTCTTTAGATTCTGGGTATTTTTCAAAGAATTCTTTAGCTTCTTTGTATTGTTCTTCTAAAAAGATATCCATTTTGTCGTATTGGTATTTAAAAATATCAATTAGATCATAGTTTTTGTTTTGTTCAACTCAAGCAAATTCATCAGCAACTAATTTATCGTGTTCAGCTACTAATTTTTCTTCTTGTTCATCAGATCATACTTTTTTATCAATTAGATATTGTTTTAATCTGATTAATGGATCAAATTTAGACATTTCTTCAAATTCACCTTTTGGACGGTAAACATCTGGGTTATCTGAAGATGAGTGAGCACCTAATCTATATGTGTCACATTCAACTAAAACAGGTCCATTTCCTTTTCTTACATATTCAACAACTTCTTTAAATACACCAATACATGCTAAATAGTCGTTTCCATCAACAATAATTGAAGGAATACCAGTAGCAATTCCTTTAACAGCGAAGTTAATTGATTTAGTTTGTTCACTTCTAGCTGTTGAAATCGCTCATTTGTTGTTTTCAATAACAAATACACATGGAACTTCATGAAGTTTTGCAAAGTTCATTGCTTCATAAGTTTCACCTTCACTAGATCCACCATCTCCAGTAGTAGTTACAACAACTCCACCAGTTTTTTTGTATTTTTCAGCAAAAGCAATACCTGTAGCTTGAGAATATTGTGAACCAATAACAATGTTTGGAGGTAAACAATTTACACCTTCAGGAGCTTTACCACCTGCTTCATTACCAATTCAATATAGCATAATGTTTCTGATTAATTGACCCATTGCTAATCAACCAGCATTATTTCTATATCCACTTACAAAGTGATCTGTTTTTTTGTTTAATGCATTAATGTAAGCAACCTCACAAGCTTCTTGTCCTGTTGAAGATAAAAATGATAACAATCTTCCTTGACGTTGCATAGTGTTTTGATAAATATCTTGTCTACGAGATAAGTGCATTATTTTGTATGCTTCAAGAACTTCTTGATCAGAAATTTTTGGCATTAACTTAGGATTAATTACTTTTCCGTCTTTATCTAAAACACAAACTTTCTCATTTTTTAGAGGATCAAATTTTCCTAAATAAGTCATTTTGATTGTCCTTTCTATTATTTGTTTTGTTTTTTGTTTTAATTAATCTTTAAATAATAAGTTGGTGATATCATCACTTGTAAAATTCTTAGCAAAAATAGCTTCTAAGTCAAATTGGTTTAAGACATTTTCTATATCTTTTTTATTAAATTTAACCCCAATTAATTTTGCTTCTAATTTTTCAGTTCCTTGAGTTCCTAAAAAATCACCATAAATTTTAATGTTAGTAATAACTCCATTATCGACATCTAAGTTTAGGGTAATAAAACCTTTAGATTCAAGGTATTGTTTTTTAACTAGAGAAAATACAGTATTTTTCCCAAATGTTCAGTCTCATTGATCAAACTTAGTTTCTTTTCTTGACTGAATGTATTGTTTTTCTTGATCAGTTAATTCAATTCATTTAATTTTCTCATTTTGTACATATGAACTAACTACATCATTAATAAAAGTATTTAAATCAATATCGATATTAATATCTTTGAAAAACTCTTTTATATTTCTAACTCTGGCAGGTTTTGATCTGATTTGTTGATGTTTTAATTTTTCAGTATCAACAACTAAATATTTAGGCATTTTAGATAAATCAACATCAAATAGTAATGTACCATGAACTAGTGTTTTTTCATTAGTTTTTAATTGAGCATTTCCTGATACTTTATAACCATCAATTACCATATCATTACGCCCAGAAAACATTGCATGAATATTTTTTTGATTTAAATAAGTAATAATTGGTTGTAAGGCTTTTTGATAATCAACATCATCAGTTGAATTATCAACAATTAATGAATAACAAACATTACCTAAATCTTGATAAACAGTTCCCCCACCTGTATTTCTTTTAACAATCTTAACGTTATCTTTTTGAGCAGCCTCTAAGTTAATTTCAGCAAAAGCATTTTGATTTCTTCCAACAACTATAGTATTAGCATTTTGTCAGAAAAATACAATAGGTTCTTTAGCTTTATAATGATAAGTTAAATATTCTTCGATTGCTAAATTCATAGCAGGATCGTGATACTTAGAAATCAATAAGTTGATCATGACTATTTTTCCTTTTTAAAGTAGTTTAGTCCTAAAACTTCTAATCCTGCTAGCGAAATAAAGTTAAATGGTTTATTAAAGTGTGGTAAGAAGAAAATATCAACTAATGGTAATTCATCAATTGTTAAGTCTTTTTGAATACCTAAAGCTAGCATGTACATAACTTCTGTATGGTTCTTTTCACTAGCTACTTGAGCTCCAATAATTTTTCTTGTCTTTTTATCTCATACAACTTTAAATAGAACTTCATTTGCTGTTGACATAAATTCAGGTCTGTCTAGATCTTTAAAGTTGATAAAGTCAATGTCATATCCCATTCTTTTTGCAGCTTCAACACTGATTCCAACACTTGCCATGTGTAATCCAAATACTGAAATACCATTAGCTCCTGTAAATCCTGGAGATTTTAATCCATTTCCTTTAATTACGTTAAATGCAGCAATAACTCCAGTTCTAACAGCTGTTGTTGCTAATTGGATTGGAACGTTTTTGTTCATTGCTTTGTTATAAACTTGAGCACAGTCTCCAATTGCATAAATATCTGGATTTGTAGTTTGCATAAAGTCATTTGTTACAATAGCTTTTCTGTCATCTAAATCACAAATACCTTCTAAAATAGCTGATTGTGGTCTTACACCTACTGAAAAGATTACATAATCAACATCAATGTTTCCTTTATCAGTTACAACTTGAGTTACTTTTCCATTTTCACCTTTAAATTCAATAACTTTTGCACCTAAAGATAATTTAACTCCAGCTTTAGTCATTTTTTCTTGCATTAGATCAGTGAATTCTTGATCATAATAAACTGGCATAATTCTGTTAGCAACATCAATTAAAGTAACATCTTTTCCATATTCATTAAATGCTTCAACTAATTCAACACCAATGTATCCTGCACCAACTACAGCAATTTTTTTATAACTTTTATCTAAGTTGTGTTCTAGAATTTTTTTAGCATGGTGGTAGTTTTTACAAATTTGTACACCTTCTAAATCGATTCCTGGGATTGGTGGAATTAATGGTCAAGTTCCTGTAGCTACAATTAATTTGTCATAGTTATCTGTTTTTACTTCACCTGTTTTTAAATCTTTAACAGTAACAGTTTTTGCTTTGTCATCAACTGATAGTACTTCGTGATTCATAAACACGTTAACTCCTTCAGATCTTAAAATTTCAGGAGTTGCGTAAAATAACATATTTGGGTCTTTAACTTCACCTTTTACTCATAAAGCAATACCACATCCTAAAAATGAAATGGCATCATTTTTGTCATAAGTAGTTACTTCACAAGTAGGATCTAATCTTTTTAAAGTTCTAACAGCTGTAGTTCCAGCATGGTTAGTACCTAGTACTATAACTTTCATTATTAAAAGCCCTTTCTTTTAAAGTTTTTAGTCTTGGTTTTTTATCTCATTTTAAGAACTATTCAATACAAAATAGTCTATTGAATATTCTAATCTTATTTTAACTTATATAAAGTAAAATAATACACATAGCAAAAAATATTACTACATAAAATGTTTATTTTCTATATAAAAGTAATAAAAATTTCAAACTAGTAAATTTCTAATATATTAAAATATATCCAACTAATATATTAAACCACTAAAAACAGAAATTTAAACCAAAAACCTACTTATTTAGGCTAAAATATACAAGTTTTTTTATGTTTTTATACTAATTTTTTAACTAATTTCTAAATTTTTAACTCTAATAAACTTGTTAAATATGATATCTAATTTAATTCTAATTTTAAGTTTTTTATGATTATTATTATAAGAATGTTTTTTATTTTATAGTTATAAAAATTACTTAGATTTATAAAAACTTAACAGGTGTTTTTAACAAAAAAATAAGTTAAAAAAATAGATTGATAATAATATAAATTTAAACAAATTTTTTTAGAGTTATTTTATAAGTTTTAATAATTTATTTAACATACATTTGTTCTAGTTTTTTAAGAGTTTTTAAATACAATTACAGATTTGTTTTTAATTTAACTAATATTTATTACAAATAAAAAAAACTTGCAAAACTATTTGCAAGTTTTACTATTATTTATCTATTTTTTATCATTAATTTGTTGTTTTAACATATCAATAAATTCTTGAATTGGTACAGTAATTTGAGCATCACTTCCATATTGTCTATAAGTAATAGTGTTATTTTCAACTTCTTTATTACCTAAAACTAGTTGGTATGGAACTTTTTTAGTTTGGGCATCTCTTATTTTATAACTTAATCTTTCATCTCTTAAATCAATATGTGATCTAATAAATTCTTTTTTTAGTTTTTGATGAACTAAATTAGCATATTCTAAATTAGATTCACTAATTGGAATAATTTCAATTTGTTTTGGAGCTAATCATAAAGGTAAAACACCTTTAGTTTGTTCTAATAAAGTTGCTATAAATCTTTCATAAGTTCCAATTAATCCACGATGAATCATAATTGGACGAACTAATTTTTGATCTTTATCAATATAAGTTAAATCAAATTTATTTGGCATTAAAAAGTCAAGTTGAATAGTTGAAACTGTAATTTCATGATTTTGAGCTGTTTTTATTTGAATATCTAATTTAGGACCATAAAAAGCAGCATCTCCAATACGTTTTTCATATTTTAAACCTAAATCAATTAATACTTTTTCTAAACTAGATTCGGCTTTATCTCACATTAAATCATCTTTATAAAATTTAACTTTATCATTTGGGTCTCTTAAACTTAAACTTAAATAATCAATTTGAATATTAAATGTTTTTAAAACTTCACTAATTAATTTATAAGTTGATCTAAACTCATCTTCAATTTGATCACTTCTTACAAAAATATGTGAATCAGTTAGTTTCATTCCTCTAACTCTTTCTAATCCAGTTAATGAACCACTTGATTCAAATCTATGTTGAATAGCATGCTCACAAATTCTTAAAGGTAAATCACGATAACTTCTTTGTTCTTGTTTATAAACTGCAATGTGATGCGGACAATTCATAGGTCTTAAAATAAATTGTTCATCACTACCTTTTCCACCATTAAAAGGTTGAAACATATCTTCACCATAATGATCTCAATGACCACTAGTTTTATATAGTTCAACAGTTCCAATTGGTGGAGTTTCTACTGGAATATAATCATATTCTCATTCTTTTTGTCTTAAATATTTTTCAATTTCATTTTTAACAATAAACCCATTTGGTAATCATAAAGGTAATCCTGCTCCAACAAGTTGATCAAACCCAAAAATATTTAATGTTTTATTAATTAAACGATGATCTCTACTTCTTCTATCTTCTAAAATAGCTTTTTTATTTTTTAATTCACTACTTGAAGTTGCACATAGTCCGTGAACCCTTTGTAACATAATGTTATTTTTGTCATTTAATCAATAAGATCCAGTTAATTGTTCAATATCAATAATTTTAATAAAGTTAGAATTTAAAATTAAAGCTTTATCTATAACCATATAAAAATCATTAATACTATAAACTTTTACATAATTATATTTTTCATACATTTGTTTTGCTAAATATTTTTGATAATCATTATTTAAAATTTCTAATGCTTTGTTTAAATCATAAATATCTGATTTAATTTCTAAATTAGAAGTTAATAACTGATTAATATTAGTTTGAATATTTTTTAAATCGTCTAAAACTAATCTAGGTTCAGTATTAAATGTTGTTGAAAATTCCATTTCATCAGCATTATAAAAATTTTCTGCTTGACTAATTGGTTTTAAGTTATTAATTGCATAACTTGTAATAAAAGCTGCAGTTAAATTTAACATTAAATCATATTCTTTACTTTTATTTGTAATTAATTCTAAGTCACAATCATTTTTAATTAAATAATTAATATCAAATAATTGATCATTAATTTTAGCTCCAATTACATTTTTTAAACCTATTTCTGAACTAATATCTTTAACTGAAATTTCTTGATTATATTCTTTAATTGAACCATCTAATAATTTAATTTTCATATATCTCCTTATAAAAAAATCGCTCCCTAATTTAGGAGCGATTTAACGCGGTACCATCCTAATTATGTAAAATATTTTACTTTACACATCTTAATTTTACTTATCGCGTAATTACGTAATACTTTTAATATGGTAGTAATTTTAGCTATCCAAATTAACTTTCACCAACCGTTAACTCTCTGTACTGTCTTTACTAAAATCGTGTCCATAGTATTAATTAAATATTAAATTTATAAATTTATTTTATAGAATATTTTTTAGTTTTTTTAAATAACTTCTATTTCTTTTATAGCTGTACTTCTTACAACTAAAACTTTTTCACCAAGTTTTGCTCCTCAAGATTTAGCAATTTCTGATAATTTTTCAACATTATTATCTAAATTATCTAAAGTATCAACTTTATTCATAAAAATTGAATATCACACACCAAATGAAGTTCATAATTTCTTATCTGGACTAACTCCTAAAATTGTTACATTTGGTCTAAATTTAGAAATGGTTTTTAATAATTCACCTGTTTTTGATAAAACAATAGCATATTTATATTCACCATCTTTTGTTTTTGTAGCTAGTAGATCTGCAATTTCGGCTCTAGGTCCTGATGTTGAGTTTCTTGCATTATCTAATTGTACTTGATAGTAAATCTTGTTGTAGAATTCAACTTCTGCTCTTTTATTAATTGTTGACATTGTATGAACTGTTAAGAATGGATAATCTCCAGCAGCTGATTCACCAGATAACATTGTAGCATCAGCACCAAGTTCAGTTGCAAAATAAACATCAGTTACTTCAGCTCTAGTTGGTGATGGATTTTCTGTCATTGTTTCTAGCATTTGAGTAGCAACAATTACAATTTTTCCTTTTTCTCTACATTTTCTGATGATAATTTTTTCTCAATAAGGTACATCATAATATGGAATTTCTAATCCTAAATCACCACGTGCAATCATAATTCCATCAGATTCTTCAATAATTTCATCAATATTATCTAATCCAACTTGTGATTCTATTTTTGAAATAATTTGAATATGATTTGCGTTAGCTTTATTTAAAATTTCTTTAATTTGTCTTACATTTTCAGCTGTATTTACAAATGATGCAGCTATATAATCAACACCTTGTTCACATCCAAATAAAATATCTTTTTCATCTTTTTCAGATAAGAATGGTAATGAAAAATCAATTCCAGGTAAGTTAACGCGCTTATTAGTTTTTACAATGTGATGATTAAATGCAGTTGCTTTAATGATTTGAGGTTCAACTGAATCAACTGTTAATTCTAATTTACCATCATCAATTAAAATCATATCTCCAGGTTTTAAATCAACTGACATATCATAAGCAACAGTCATTTCACCTTGAACACATTCTTTATTTAAATAAGAATAAGTATCAGTATAAATAGTAATTGATTGACCTTTTACTATTTCTTGTTTATTATCTTTAAATTTTCCTAATCTAATTTCAGGACCTTTAGTATCTAATATTATTGAAATTGGCTTATTTAAAGCTTTAGAGATTTTTTTAGCAGCTTTAATTCTATAACCATGTTCTTCATAACTACCATGTGAAAAATTTAAACGAATAGTTGTCATTCCATTGTTAAATAATTCTTTAATAGCTTCTGCAGAGTGAGTTGAAGGACCAATTGTTGTAATTACTTTGGTTCGTTTCATTCTCTTTTGTAATGTTTCTTTAGTCATTATATCTCCTTACGTACTACTCATTTTAATTATATTTTATTAATTAATTTCAATATATTATTATTAGATGTTATTTACTAAAATATCCATTAATTTCTCTTAAATAATTAATAAAAGGTTTTTTATCTTCTTTTTTCATATTTAAAGTTGAATCAATATCTCTTGCAACTAGTTTATTATTTTCTAATCCTATAAATAGTCCACCTTTACCTTCAGCTAGTTTTTCAACAGCAAACATACCAGCTGTAAAAGCAATATATCTATCCATAGCAGTTGGTCTACCACCACGTTGAATATGTCCTAAAACAGTTGCTTTAGTTTCATAACCACTAATTTTTTGAATTTTTTCAGCAATTTCTTCAGCAGAAATTCCATATGATTTTTCTGAAACTAAAATAATTAAACTTTTTTTACCTAATAATCTAAATTGTTTTGCTTTTTGACCCATTTGCTCAATTGTTAATAGATCTTCAGCTGGAGAAAAAATTTCAGCTCCTGTAGCAACTGCTGTATAAGTTACTAAATCACCACAACCATTTCCCATAATTTCAACAACATCAGCTCTATTATGTGATTGCATTGTATCTCTAATTCTATCAACTGCTTCAACAATTGTATTTAGTGCAGTATGAAAACCAATAGTATAATCAGTTGAAGAAATATCATTATCAATAGTTCCAGGTAACCCAACACAATTAATACCCATTTCAGTTAATTTTTGAGCACCCATATAACTACCATCTCCACCAATTACAACTAAAGCTTCAATTCCAGCTTTTTTTAAATTAGCAACAGCTTTTTGTCTTACTTCTAATTCTTTAAACTCTGGTAGTCTTGCTGAACCTAAATAAGTTCCACCTCTAGAAAGAATATCTAAAGTTTTTTCAACATTTAATTTTTCAAATCAACCATTTACTAACCCTTTATATCCATCATTAATCCCATATACTTCAATTCCTTTTGAAGCTGCTGTTTTTACAACTCCAGCAATGGCGTTATTCATTCCAGGAGCATCCCCTCCAGAAGTCAAAATTCCAATTTTTTTTATCATTAAATATAAACCTCTTTCTAAAAAAACACATTAACATAAATTTAATTATATAACAAAAAAGTATACCTCTAATTGTAAAGGTATACTTTGAACCTATTTTACAGATTGCCATTGATCATTTTCGAATAAGTTAAAATAAACAAGTAATTTAGACTAATAAAAATATAAAATATTAGTATAGAAGAAAGGAGAAAACTAAATAACTGTTCAAATTTTATACTTACTTAGAAAAGCAAAATGACTTACTTTTTTTATAGACTTAAATAATAGTAAACAAATATAATTTTTTTTCAAGTAATTCTTATAAAATTTTGAATTTTTTAAAAAAGAATATTATGAAGCAAACAAAAGTTGATATTTGTATCATCGGTGGTGGAATTATTGGTGCTTCTGTTGCTAGAGAACTAGCTAAATTTGATAAAAAAATTGTAGTTTTAGAAGCAAACCCAAGACTCGCATTAGAAACAAGTAGTCATAACTCAGGATTAGTTCATGGTGGATTTGATCCAAGACCTGAAACTTTAAATGCAAAATTAAATGTTTTAGGTAAAAAACGTTATGAAGACTGAATCAAAGAAATGGATTTTCCATATCTAAGAATTGATTCAACTATAGTAGCATTTAATGATGAAGAAATGAAACATGTTCACATGCTATATGATAGAGGCTTAATTAATGGATTAGATCCAAAAGAAATGGAAATCATTGATGCAAAAGAACTTCAAAAGCGTGAACCAAATATTAGTAAACAAGCAGTTGGAGCTTTAGTATGTAATTCTTCAATAGCTATTGATCCAGTTGTACTAACTACAACACTTATGAGAAATGCTATTAAAAATGGTGTTGAACTAAAAGTTAACTCAAAAGTAGTAGATATTAAAAAAGTTGATAATATTTTTGAAATTAAGACTGCAAAAGATGAAATCATTCAAGCTGAAGTTATAGTTAATGTAGCTGGTCATTATGCAGATATTATAGCTAATATGGCTGGATATGGTGATTTTAAATTAACTACAAGAAGAGGAGAATATCGTATTTTAGATAAATCTGAAGCAGGAATTGTAAATTCTGTAGTATTTATGGTACCAACCATTCACGGAAAAGGAGTTATTGTTGCTCCAATGCTAGATGGAAGAGTGATGGTAGGACCAACTGCTTTAGATGGAGTACCAAAAGAAGAAACTTTATTAGTAACTCAACAACAATACGATAACATTGGAAAAATTGGTAAACATTTAATTCCAAATATTAATATGGATAAAACTTGTACAGTTTATGCTGGTTCAAGACCTATTGATGTTGAAACTAATGACTTTGTAATTAGACCAGCAAAAGCTGATAAGAAATTTATTAATGTTGCTGGAATGAAATCACCAGCTATTGCATCAGCTCCAGCTATTGCAGATATGGTTTGTGATTTAGTAAAAAATGCATTTGATAAATTAGATAAAAAGGCTAATTGACAACCAAAAGAAGAAGCTATTCTTCCATGAAAATAGTATAAGGAGAATAACTATGACAGATAATAAAAAATACATCTTAACACTAGATGAAGGAACAACAAGTGCAAGAGCTTTAATTACTGATAAACAAGGTAATATTATTGCTGTTGAACAATCAGAATTTACTCAATACTTCCCAAAAGAAGGATGAGTAGAACATGATGCTATTGAAATTTGAAACACTCAACGTTCTGCATTAGTACAAGTTTTAAATAAATCTGGAATTGACCCAAGTCAAATTGAAGCAATTGGAATTACTAATCAACGTGAAACTGCTGTTATTTGAAATAAAGAAACTGGATTACCAATTTATAATGCTATAGTTTGACAAGACCAAAGAACAGCAGATTATTGTCAAACATTTGATAAAGATACTTTAGAAATGGTTAAAGAAAGATCTGGATTAATTATTAATCCTTACTTTTCAGGAACTAAAGTAAAATGAATTTTAGATAATGTTCCAAATGCTAGACAACTAGCAAAAGATGGAAAACTAATGTTTGGAACAATCAACACATGATTAATTTATCGTTTAACAGGTGGAGAAGTATTTGTAACAGATCATACTAATGCACAAAGAACTTTACTATACAATATTCACACAAATGACTGAGATGATGAATTATTAAAATTATTTGATATTCCAAGAAACATCCTTCCTGAAATTAAATCATGTAGTGAAGTTTATGGTTACACATTTAAAGGACTATTTTCTAAAGGAAATGAACAAAGAATTAAAATTGCATCATCAATTGGTGATCAACAAAGTGCTTTATTTGGGCAATTATGTTTAGAAAAAGGTCAAGTAAAAGTAACTTATGGAACTGGATGCTTTATTTTAACAAATACTGGTGAAGAAATTGTTAAATCAAATCATGGTTTATTAACAACAGTTGCTTATTCATTTAAAGATAAAGTATATTATGCTTTAGAAGGTTCAGTAATGATTGCTGGGGCTGCTGTTCAATGATTAAGAGATAATCTAAGAATTGTTTATAATGCTATTGAAACAGAATGATATGCTGGTCAAGTTAAAGATGATAGAAGAGTTTATGTTGTTCCATCATTTACTGGTTTAGGTTCTCCTTATTGAGATTCATTCTCACGTGGTGCTATTTTTGGACTAGATCGTGGAACTAGACGTGAACATATTGTTAGAGCAACTCTAGAAGCTATTGCATATCAAGCAAATGATGTTGTTGATGCAATGGGAAAAGATATGAAAAAACCAATTGAAATTTTTAAAGTAGATGGTGGAGCTGCAAATAACAAATTCTTAATGCAATTCCAATCAAATATTTCTCAATCTAAAGTTATAAAACCAACAAACGTAGAAACTACTGCTATGGGAGCTGCATTTATGGCTGGATTAGCTGTTGGATATTGAGAAAATGTTGAAGAATTGAAAAAAACTTATAAAGTTCACTTTGAATTAACACCAGAACTAAGTAAACCAGAAGTTGATAAATTAATTAAAGGTTGAAAAGTAGCTGTTCAAAGAACATTTAAATGAGTAGAAGAAATTGAATAATTTATATTTTTAAAAAATTAAATAATAATGAAAGGATAACATGTTACAACAGATTATTTTAACAGAGTTATTTGGAACTGCATTATTAGTTCTTTTAGGTAACGGAATTGTAGCAAACGTTGTACTAAAAGGAACTAAAGGGCAAAATGCAGGTTGAATCTCAATAACAGCTGGTTGAGGATTTGCAGTGTTTATTGCTGCTGGAATATCAGCTGGATTAGGTGGAGTTGCTCATCTAAACCCAGCAGTAACAATTATGTTTGCAATAAAAGCAGCAAATAATACATTTGGATTTGATGCTGATGCTATAAAACAAATCTCAGGAGTTGGATTATTCTTTATTGTATTGATTGTTCAATTTATTGGAGCAATCTTAGGTTCAATTTTTGTAGATTTACTTTACTGAAAGCATATTTTAACAACTAAAACAGATGATGATTTCCAACCTAGAGTTTTAGCAATTCACTCAACTGGAGCTACTCATAAAACACCTATTTTAAACTTCTTAATGGAATTTATTGGAACTGTAGTTCTATTAGTAGGTATTTGAGGATTAACTGCTGCTAAATCTTCAGTATTTTCAGCTATTGGTCCATTAGCTGTTGGTTTATTAGTATTTGGTATTGGTCTATCATTAGGTGGAACAACTGGATATGCAATTAACCCTGCACGTGATTTAGGACCAAGATTAGTTCATACATTCTTACCTTTAAAAGATAAAGGTTCATCAGAATGATCATATGCTTGAATTCCAGGACTAGGACCAGTGGCTGCTGCTGTTGTTATTGGATTAATAGCAATGGCTGTAAAATAAAATTTTATAGTCTAATCAATTAACCAAAATAAAAGCTCATCAATTGATGAGCTTTTTTATTATCATTTTCAATCATCTAATTTAGTTGTATCACAAACTGCTACATATGGTAGGTTTCTAATTTTTTCTTGATAATCTAATCCATACCCAATAACAAAACATGGATCAATTGTAAAACAAACTCAATCAGCAACTAAATCAATTTTTCTCCCACTTGGTTTATCTAACATAGTTAGTATTTTAACACTTTTAGCACCTTTATTTAATAAATATTCTTTAACATATTTTAAAGTAAATCCAGTATCAATAATATCTTCAACAATTAAAATATCACGATCTTTTACATCAGTATTTAAATCTAAATTAATTTTTGGAGCTGAATTTGAACTAGTTGATCCATGATAAGATGACACAACCATAAAATCCATTTCCATTGTCAAATCACAAACCATACAAAAATCTGTATAAAAAGGTACACAACCTTTTAATAAACCAACAACTAATAAGCTATTGTCTTTTAAGTGTTTATCTTTATAATAACTTTCAATTTCTTTAGCAATATCTTTAGTTCTTTTTTGAATTTGTTCTCTTGTAAATAAAACTTCTTTTACTAATGGGTGTAATTTTTGCATATCTTCTATAATTTCCTACTTTCTAAATATAGTTCTAAAATCAGTTGTGCTGCTAAACTATCTTTATATTTTTTTTGTTTTTCTCTAGTCAAATTAGCTTGAATTAAAATATTTTTAGCTATTTTTGTAGTTCTTCTTTCATCAATTTTAATAATTTGATCTTTATTAAAATTTTTATACATATCTAAAAACATTTCAATAACATAATCAACCATTTCAGCACGTTCACCAATAGTATTATTCATATTTTTTGGATAACCAACTACTATAATACTTGGGTTATACTTTTTTAAATAAGTTTCTAGTTGTTTTAAACCTTGATCAAAGTTATATTCTTCAAATCTAATAGTGTCTAAACTTGAAGCAATAATTCCACTACTATAAGCTAATCCAATAGTTTTACTGCCAATATCAAGTGCAATAATACTTTGTGTCATACTAAATAAACAATTTGCCTTTCTTTTGATTAATTATTAAAATGGTTGTTAATATTGTAAATGATAATAACATAGAAAAAACAACATCAGTTAAAAAATGTTTATTTAATACAATTCTTGACATAGCTACAATTATTATTATTAATCAAGTAAAACTAATTCATAAATAAGTTTTTTTATTGATTTTATTAAACAATAATAAAACAAATAATAAAGTTGTTGCTGAATAAGTATGACCTGATGGAAATGAGTTATGTTTTCATGAAGTTCATTTAATATTTCATCAGTTTCTATATAGTTCTAAATTAGTAGGTCTTGGTCTATTAAATGTTAATTTTAAAATATTTACTAAAATCAATAAACCTATAATAGTTATTAGTACTATTATTGATTTATAAATACTTAAATCAGGATCACTAATAATTTCTTTATTTATATGAAAATAATAAATTAAACTACTAATAATTATTAAACATAATAAATTACTAATAATTGAATAAACTATACTTTGCTTTTCATATAAAAAGTTAAAGACAATAAAGACTAAAGGAATAATAAAATAAATTAAAGTTTCAATTATATTATTGATTTTTAATTTGTTTTTTAATTTTAAGCTTTTAATAAGATAAATTAAAGCAATAGTTAAAGGAATAGATGGAATAACAACACCAAGATTTGATATAAAAACAGCTAAACTTAAATTTTCTGCTCTTTTAAAACTTGCGATTTTAAAATCATACACACTTCCTAAAATAAATAAACTGATTAAAATAATAAAAACAATTCCTGAATATATATAATAATGATTAATCTTATTTTTCATGTAGTTATTTTAACAAAATAAAAAAGAGTGACTAGACTCTTTTTTAAAATTATTTAATTACTATTATTTGTTTAAATTATAAAATGCTTCTAATCCATCATATACAGCATTTTTTTCAAGTTCAGATTCAATTTGTAATAATCTATTGTATTTTGCAATTCTATCACTTCTTGACATTGATCCAGTTTTAATTTGTCCTGTGTTAAATGCAACAGCTAAATCAGCAATAGTTGTATCTTCAGTTTCACCAGATCTATGTGATACAACTGCAGTTCATCCTGCTTTTTGAGTCATAGTAATTGCTTCAACAGTTTCACTTAAAGTACCAATTTGATTTAGTTTAATTAAAGTTGAATTTGCAGCTTTTTTACTAATTCCTTGTTTAATAAATTTAGGGTTTGTTGTAAATAAGTCATCTCCAACAATTTGAACTTTATCACCAATTTTTTGAGTTAATTTAGTAAATCCTTCTCAATCAGTTTCAGCTAATCCATCTTCAATTGAAATAATTGGATAATTATCAACAAGTTTTTCTAAATATGAAATCATTTCATCTGTAGTTAATGATCATTCTTGGTTAGTTACTTTTTCAATCTTTTTGAAATGATATTTTTTATCTTCTAAATATAGTTCAGATGAAGCACAATCCATTGCGATCATAATTCCATCTTTTCCTGGTTTGTATCCTGCTTTTTTAATAGCTTCAACTAATAGATCTAAAGCGATTTCAGCTGGTGTTTTTGCTTTAAATGATTTTAAATCGTGTTTTTCATATGCTCATTCAAAGTTAGGAGCAAATCCACCTTCATCACCAACAGCAGTGATATCTTTTTTAGATTTTAATAATGATTTTAAAGCTTGAAAAGTTTCAGAAGATCATCTTAAAGCTTCACTAAATGATTTTGCCCCAACTGGCATAATCATAAATTCTTGAAAATCAATAGCTGAATCAGCATGTTCTCCACCATTAATAACATTTAACATAGGAACTGGTAGTTTTTTTGCTTGAACTCCACCTAAATATTTATATAATGGAATATCTAATTCACTAGCAGCAGCTTTTGCAACAGCTAAAGAAACAGCTAAAATTCCATTAGCTCCTAATTTAGTTTTAAATTCTGTTCCATCTAAATCTAGCATTATTCTATCTACTGTTAATTGGTCTAAAGCATCAATTCCAATTAATTTAGGAGCAATTATTTCATTAACATTTCTAACTGCTTTTAATACACCTTTACCATTATAACGAGCTTTATCTCCATCTCTTAATTCTAAAGCTTCATTAACTCCAGTTGAAGCACCAGAAGGAGCTTTAGCACAACCATATCCACCAAATTCAGTTCAAACTTCAACTTCAACTGTTGGTGTTCCTCTTGAATCTAGAATTTCACGAGCGAAAATTCTTTCTATTCTTGACATAAATATCCCTTTCTGAAAAATAATTTCTAATACAAAAGTTATTATATTACATAATAAGTACTTATTGTTGTTTTTATAGAAAATGAAAATTTGCTAATAATTAATATTTTAATAAAATATTAATTTAAAATTTTACTCTCTTTTAGATTTTAAATCAGTAGATACGATTAAGTTATAATTTAAGTTATAAGGAATTATTTTAAAGTTATGAGCAACTTTACAAAAAAACAGAAGTTAATTTTTAATATTTTATTAATAGTATTTAGTATTGTAGGTTTAATTGGTTTTATTTTTTATTTAACTAAATTTATTAATTTAGCAATTATATTTTTATCAATATCTGGAATTAGTTTTATTTTACTTATGATAATTTGATTTGTATTTGAAAAAACAAATAAAAAGGACAAATAATTGATGACTGAAAAACAAATAATAAGAACAATTAAAAAAATTAGTTTAGATACAGATCATCGTTTTTGTTTTATTGCAAATTATGTTTTAAATAATTTAGATAGTATTGAAAAAATGACTATTAACCAATTAGCAAAAGCTACATATACATCAGTTGCAACTATTAATAGATTTGTTAAATTTTTAAATTTAGATGGATATAAAGAATTAGTTCATATTATTAAATATTTTAAAAATAGTCTGCAAGGTGATCAAATTACTTACTCACTTACTAGTAATTCACTAATACTTAATGCATATAATAATATAATTTCTAGTTTAAATGAAACTTTTAAATTAACAATAGAACAACAAGATACTATTAAAAATTTAATTAGTAAAATTAAAAATGCTCTTAAAATAGCTGTTTTTGCTGTTGGTGGTACTTTTAATGTTGCTAAAGATTTTGAACAAAAGTTGTTAAGAATTGGGTTTAACATCACTGCTGTTAATGATTTTCATAATGCTTATTTATTAGCGTGTCAGTTAAATAAAAATGATTTAGCTATATTTATTTCATATTCTGGAGAAACACTTGATTTAATTAAATTAGCTCAAGTTTGCACTAAAAATAATGTTCAAATTGCTGTAGTATGTAAAGCAACTAATAATACACTTTCAAATTTATCTAATTATTTGATAAACATTAGCAGTAATGAAAAAATTGATCGTTTAGTTTCTAGTACTAGTAGGTTTTCACTACTGTTTGCTTTGGATCTTATTTATACATTTTTACTATCAACTGATTTAAAAAAATATACCAAGTTATTAGAAAAAACAATGATATCAAAATTTTAAATTTTTACATTTTTTGATATAAAATTACAACCTATATAAATAAGAAAATTTAATATCTTCTTCTTTTTTAAAATAAAATTGTATATTAACTAAAAATATACAATTTAAGAAGTGATATTAAATGATTAAAGACCCTAAAATAACTGCTAAAGAAATTTTACAAATTATAAAAATTGATAATATTAACTCTTATACTAATTGTTTAACAAGACTACGTTTAAACATTAAAGAAAATAATATTGATTTTGAAAAATTAAAATCTATACCAAATGTATTAGGTGTTATAAATGTTTCTTCTAATGAATTACAAATAGTTCTAGGACCTGGATTTGTAAATAAAGTAGCTCAAGAATTTGCACAATTACTAAAAGTAGAATCTAAAAAAGATGATGCGTTTATGTCAGCATCTGAGGTTGGAAATATAGTAAAACAAAATCTTAGAGCTAATAAAAATTGAATTCAAGATTTTTTTACTAAGTTTTCTAAAATATTTTCACCAATGATAATAGGATTTATTGGCGCTGGAATTTTATCAGGAGTTAGTGGAATAATTCAATCTGCATATAATGGAACTGTTAATTTAAAAACAGCACCAGCTATAGCTGTTTCTTGATTTAACGCCTTAAATTTAATATTAAATATTTCAAAAAATGCATTTATTATCATTGTTGGATGAAGAACTTGTGAGATTTGAGGTGGAAGTGGGGTTTTAGGAGCTATGACTGCTGCTTTATTTTCACCAGTATTTGCAAGTAACATTTTACCTATGATTGTAATTAATAATAAAGATAGTATTAATTATTTAGGAATTAATATAACAAATCCAACTACTAATTGATTAACTGTTGGTTTTAGACCAGTTATTAAAAACGGTGAAATAATTTTTTCATATCCATCAGGAAATATTTTAGGTGCTTTGTTAACTGCAACAGCATCACTATGAATAGAAAAAATAATTCGTAAATTTACACCCGGAGTACTAGATACTATATTAACACCAACATTAACGCTATTTTTACTACTTATTATTAATATCTTTTTAATAATTCCAATTTCTGGAATATCTTTTTAATAATTCCAATTTCTGGATATTTATACACTGCTGTTGCTTGATTTTTTTCAAATTTATATACCAACCCTTTTGGTGCATTTATTTTATCTGCTATTTTTTTACTATCTGTTTCTTTTGGTGTTCACCAAGGTTTTGTACCAATTTATGCTATTTTAATTGAAAAAACAGGAGTTAATGGATTATTTCCAATTTTGGCAATGGCAGGTATGGCTCAAGTTGGAACCGGTATTGCTTTGTGATTTTTAGCAAATAAAAAAAGTTTGTTACGTCGTCAAATTCAAGGAGCAATAATTCCTGCTATTTTTGGAATTGGTGAACCAATGATTTATGGAATAACTCTTCCAAGAATTAGACCATTTGTTACAGCATCAATAGCTGCAGGTTTTGGTGGTTTTTTCTTAGGTTCAATTTATTTATGAGGAAATGTTCACTTTGGTTTAAACTCAATGTTTGGTCCTAGTGGAATATTAGCAACCTTTATGATGACAACTCAAGATAAAAATATAGGACTAGGAGTTTGTATTTATTTATTAGGTTGCTTGGTCTCAGTTATTTTTGGAATATTAATAACATTATTTGGTTATTCAAAAATATCTAGAATTGGAACTGAAAAAATGAAAAATATATATAAAAAAGGTCAATATAAATTAAGTTTAAAAATATTTCTAACATTAACATTTATTACAATTATTGGTATTTTTATATATTGAATAACAAGTTATTACAAATTACCAAAACAAGAACGAATTAAGCTTGCAAATATTAAGGTTGAATAATAATGAAAAATAATAATTTATTAAATATTGAAACTGAAAATATAAATAAAAATAGCTTAGATATTGATAAAAAAAGTACATCTGAAATTATAAAAATTATTAATAATGAAGATATAAAAGTTGCTTATGCAATTAAAAAAGAATTAAATCAAATTTCAAATGTAATTGATCTAATATTTGAACGTTTTAAAAAAGGTGGAAGACTAATTTATATTGGTTCAGGAACTTCAGGAAGACTAGGAATTTTAGATGCATCAGAAATGTATCCAACATATGGTATCAATCCAAATAGAATTATTGGAATTATTGCTGGGGGAAATAAAGCGATAAAAAATCCTATTGAAGGCGCTGAAGATAATGAAAAATTAGCAATAATAGATTTAAATAAAATCAAGCTAAATTCGCTTGATACAGTTATTGGAATAGCTTCATCAGGAAAAACCCCTTATGTTCTTTCAGCACTAAAATACGCTAATAAAAAAGATGCTTTATCTGTTGGTTTATGCATGACTAAAAATTCAGAAATGACAAAAATAGCTAATCAAGTTATTAGTGTTAAAACTGGAGCTGAAATAATAACTGGTAGTACAAGAATGAAAGCAGGAACTGCTACTAAATTAATATGTAATATGATAACAACAACACTAATGATTAAATTAGGAAAGGTTTATAAAAATTTAATGATAGACTTAGTAGCAACTAATGACAAATTAAAAAAACGTGCTTTTAAGATAGTTAAACAAATAACAAACGCTAAAGATCATATAATTTATAAGGCATTAAATGAATCTAATTTTTCTTGCAAGCATGCAATTATAATGATATTAAAAAATATTTCTTATAGTGAAAGTGTTTTATTATTAGAAAATTGTGATAATTCATTAACAAAATTATTAGAAGAAAAAGTATAATACAAAAAACTGAACAACAAAACTTTATTTTGTTAGTTCAGTTTTTTATTTTATTAACTACTTAAAATTGTTCTTTAAATTCTGGAGTATTAGATTTTTATTCAGATTTTATAAAAATTAGGAAGAACTATATATTTTAGCGTTACCTTTATCTGATTGTTATGGATATTTATAAAATATATGCATTAAATATACATTTATTATTTTTTAGTATTTGATATTTGATTAAAATTAAGTATAAATTTATTCAATTAATTTAATTTCTTTTAATTTCTAGGTAATTTTCTTAATTATTAAATGTTTTTTAACATTACTTTAATTTTTATTCCTAAATTGAGGTCATAATCTTTTGTTATCTTTAAAGCCTGCTTCATTGGCAAAGCCAGTTGTAAATGGTGCTTTGATTGCTTTTCATTTACTTAAGTCTTGATTAAATGATTCTGCGTAGGCAAACATATAGTTCATATCATCTACATTATCTGTATTTCATTGAGATATATTTTGATTAAATTTTTTAGCACCAAAAAAAGTTTGAAACATATTTCTTATTCTCGATGTGTCTCAAAATTCTATTCCGCTTATATAATCATTTTCATTATCTTTAAATGCTTTTTCTAAACTAGTAACTATTCTTGGAAGAAATTTAGGGACTTTATTAATGTTAGATGGAATTTCTTTTAGTTTATAACCATTTTTTGGGTTATTTGTTTTTTCGTATCCCAGAAATAGTATTTCTTTAGAATTTTTAGGATTTACAAAATGCGGTCTGCTATCTTTTTTAACATCTTTAAGTCAATTGTAGTAAGCATAAATGAACTCTTTTTCATCTTCTGTACTAGAAAAGATATTGTCTTTAAGATCGTTTGGTGATGTTGAGCTTGAACTATTTCTATTATTGTCTTTTTGTTGATCAGTTTGATAAGTTTTATTTGTAGACTCTGATCTTTCCTGATCTTTTTTAGGAATATCTTTATTTTTAGGTTTGATAATTTTCGGCTTTTCATTATTAGTTTTACAAGATACAACTAAAACACTACTTGTAGCTATTAAACTAAAAGAAGTTAATAATGCTAAAATTTTTTTCATATTCGCACGTCTTTCTAAAAATTAATATCAAAATATATTTAACAAATCTATCTAATAAATATTAATTTTTATTTTTAAATTTAGGTAATAATTCTTTTTTACTTTCAAAACCAGAATATTTATCAAAGCTAACAGGGAATGGATCTTTTAAAACATTTCAATTACTTAGGTCTTTGTCAAAAGCACTAGCACCAAAAAACATATAATCAAAATTACTTACATTATCTGTTTTTCATCTAGTTATATCACCATTGAAATTTTTTGCACCAAAAAAAGTCTGATACATATTTTTAATATGACTAGTATCTCAGTATTCAATTCCATCTATATTAGCATTTTCATTATCTTTAAATGCACTTTCCAAACTAGTTATCTCTTTTAAAAGAAAAGAAGGAACCTTTTTTACATTTTTTGGAATTTGCTTTAATTTAAGACCATATTTTGGATTTGTAGATTTTTCATATCCTAATATTAATATTTCTGTTGGATCTTTAGGATTAATAAAATGATCTGAATTATCTTTTGTTCTCTTTTTTAATCAATTATTATACTCATTAACGTATTCTTTAAAAAATATTCTATCATCTTCAGCACTAGAAAAAATATTATATTTATTTGATGAACCTAATTCTGATTTATTTTTTAAATGATTATCTTCTGAATCTTTATTAATAGATTCTAATTTTTTTTCATCTTTTTTAGAACTATTTTCAGTTATGTTTTTTGGTTTTTCAAATAATTTTTTAATATCAACAGTTTTACAAGATACAACTAATACACTACTTGTAGCTATTAAACTAAAAGAAGTTAATAATGTTAGGACTTTTTTCATATAATCTATCCTTACTTTTAATAAATTTATATTTTATTTGCCAATTTATAAAATAAAACTAGTATGTTCTATTTTTCTTATATATTATGCTTGAAAAACTTTACATTGAAAAGTATTTTTTTACAATATTATTTAGTGTTTTTTAATTAAAAATAAATAAAAACTTAATATTTTAAACTAAAAAATAATTAATAAGAATCAATGTAATAAAATTAATATATTGCTTAAATTTAGAGGTGTTAGAATGAATAATCAAAAAATAATAAATATTGCTGTTATTGCTCACGTTGATGCTGGTAAATCTACACTTGTTGATGCTTTATTAAAGCAAAGTGGGGTTTTTAGACAAAATCAAGAAGTAATTGAACAAGTTATGGATTCAAATGATCAAGAAAGAGAAAGAGGAATTACAATTTATTCTAAAAACTGTTCTATTACTTATAAAGATTACAAAATTAATATAGTAGATACTCCAGGTCATGCTGATTTTTCTAGTGAAGTTGAAAGAATTATGAAAACAGTTGACACTGTAATTTTATTAGTTGATTCAAGCTAAGGACCAATGCCTCAAACTAGATTTGTTTTACAAAAAGCTTTAGAAATTGGATTAAACCCAATCTTATTTATTAATAAAATAGATAAAAAAGATCAAAGAAGTTTAGAAGTAGTTGAAGAAGTAATTGAACTATTTTTAGAACTAAATGCAACAGATGAACAACTTGATTTTAAAACTTTATATGGAATTGCAAAAAACGGAATTGCTCAATATAGTTTAGAAGAACAAAGTAATGATTTAACACCTTTATTTGAAACTATTATTAATCAAGTTGGATCATATCCAATTGAACTATCAAATAATGATTTAGTGATGCAAGTTTCAAGTTTAGCTTATGATAGTTTTATTGGAAGAATTGGAATTGGAAGAATTTTTGAAGGAAGCATTAAAGAAAATCAAATCGTAAGTATTGTTAAAAATGATAGAACTGTTAAGCAAGGAAAAATTGCAAAATTAATGGTTTATCAAGGATTAAATAGAGTTCAAGTTAAACAAGCATTTGCTGGAGATATTATTACATTTGCTGGAATTGAAGATATTTCAATTGGAGATACTATTAATAATTTAAATGTTATTAAACCATTAAAACCAATTCATATTGAGGAACCAACAATGTCTATGAACTTTTTAGTAAATACTTCACCATTTGCTGGAAGAGTTGGTAAATTTGTTACTTCAAGAAATATTAAAGAACGTTTAGAAAAAGAAGTTGAAGTTAATGTTGGTTTAAGAATTGAACCTTTGATTAATTCTGAAATTGAAGGATTTAAAGTTTTAGGACGTGGAGAATTACATATTTCAGTTTTAATTGAAGCAATGAGAAGAGAAGGTTTTGAATTAGCAATTTCAAAACCAGAAGTAATTTTTCAACGCAATCCAATGACTGGAGATTTATTAGAACCAATTGAAAAAGTAATTATTAATACACCAACTGAATATTCTGGAACTATTATTAACAAATTAAATCAAAGAAAAGGAATTATGTTAGATATGGATTCTGATGGTATTAGAGATAAAATTACTTATTCTATACCATTAAGAGGTTTAATTGGATTTAGATCAGAATTTACAAATGATACTCATGGTGAAGGTATTATGGTTAAAAGCAGTAGTGGATATGAACTATATAAAGGTGAAATTGTCTCAAGACAAAATGGAGTATTAGTATCAATGGCAAATGGTAAAAGTTTACCTTATGCTTTAAATAATCTTGAAGAACGTGGAATTTTATTTATAGGTCCTCAAGTTGATGTTTATGAAGGAATGATTATTGGTCAACATTCAAGAGATAATGATTTATATGTAAATCCAACAACAGCAAAAAAATTAACTAATACTAGAGCTAGTGGGACTGATGATGCTGTTAAATTAACACCAGCTAGAAAAATGAGTCTAGAAGAAGCTTTAGAATATATTTCAAATGATGAGTTAGTTGAAATTACTCCAACAGATATTAGATTAAGAAAACGTTGATTAACTCAAGCAGAACAAAAACAACACAGAAACGATAAATATTAGTTTCTAGTGTTGTTTTTTTAATTTACAAATATAAAATCCATCGGTATTTTCTTCAAAACCAAAAATTTGTTGTTCATAAAGTTTAATCATATCTTTATGCTTATTTAAAAACTTATTAATTTGATTTTGATTTTCATCTTGATTAATTGTACAAGTTGAATAAACCATTTCACCGTTGTTTTTTAAATTATAATAAGCTGATTCTAGTAATTCTTCTTGTAGATTAATAATGCTATTTACTTGGGTTTGATCAAATCTTAATTTAATTTCTGGCTTTCTTTTAAACACTCCAAACCCTGAACAAGGAGCATCTAATAAAATATAATCAAACTCTTGTTTTTGTTTAATTTTTCTAGCATCCATATTAATTACACTAATATTTAAACAATTTAAACGAGTAATATTTTCTTTAATTAATTTAATTTTTGATTCATTTATTTCATTTGCAACAATATTTCCAGTGTTTTTTAAAATCATTGATAAATGAGTAAGTTTACCACCAGGTGCACTACACATATCTAAAACTTTTGTATTTAAACTTGGATTTAAAATTTGACTAACTAAAATTGAAGCTTTATCTTGAATAGTTATAAAACCATTTTTATACAAATCAGAATTAATAATTGTTTTATTTGCAATTAAACAGTCATTAACATTAGTTTTTTCTAATAAATAAATGTCTTTATATTTATTAAAAAGTTGGTCAGATGTAATTTTTAAAGTATTTACTCTAATATATAGTTTTGGTATTTGGTGATTATTAACAACTATTTGATTAACAATTTCTTTATCATATTGTTTAATTAGCATTAAATAAAGTTCATAAGAAAAAGAGTGAAGTATGCATAATTCCAAGTCTTTATTATCTAAATTAATTTCTAAATATTTATCTTTAAATCTTAAAAACTTATTTAAAATAGCATTAATAAAATTAGCTTGTTTTTGACTAGTAGTTTTTATTAAATTTACACTTTCATTAACAATAGCATAATTTGGAATACTATTTAAATAAATCATTTGATATAAACTAATTAATAAAATAATTTGCAAATCAATTGAAGTTTTTTTAACATCAATCAATTTAGCTAATAAATAATCTAAATGAATTTTATTACTAATAACTCCATGCACTAAATTAAATACAAAATCTTTATCTTGCTGATTTAAATTTTTTTTACTAATTTTATTTAATAAAACATTTGAATAAGCTTTATTAACAAAAACTTTTTTTAAAATATCAAAAGCAATAGATCTAGAATTCATCGTTATTATAATGTTTTTGTTCAACACTAAAGAAATTAATTTTAAACATTAATTTTTGAATTTTAAAATCAACAAAATCTTTATCTAGTAATTTAGAAAAATCACCATGTCCTAAAACTTTATGATATACCTTTTTAGTTAATAATTTAATTAAATAAGTTTCAGCATCAAAGTTTTTAGCTTTATTTTTTTCTTCTTCATTTTTAGCTAATAATTTAACATTAGTTTCTCAATTATTAACAAAATACATATATTTTTCTTTAACAATTTGTTCAACAATTTGTTCTAATCTTTCATATACAGTTGGAGTTTTTATATCAGTTAAACCTTCTAAATGTAAAACATCAGTAATTTTAGCAACAGCATTAGCTACATTATCATTTTCAATTACATACTGATAATTGTGTTTTAAAGGAATTTCTAATAAAGCTTTATCTAGTCGTGCTTTTATTTTTTCTTCATCTTCAGTTTGTCTTCCTCTAATTCTATTAGCTAATTCAGTTAGATTTGGAGGCATTAAAAAAATAGATAAAACATTTGCTTCTTTATTTAAAACTTGAGTAGCCCCATCTACTTCAATTTCTAAAATAACATTATTACCCTTTTTTAATTCTTGTTCAACATATTTTCTAGGAGTACCATAAGAATTACCAACAAAATGTGCATACTCAATTAATTCATCATTAACAATGGCCTTTGCAAATTCTTCATTTGAAACAAAAAAATAGTTTACTCCATTAATTTCACCATTTCTAGGTTTTCTGGTTGTCATTGAAACTGAATATTTCAAACGTAGATCTGGATTTTGTAAAAGTTCTCCATTAACTGAACCTTTACCAACTCCACTTGGTCCTGAAATTATGATCATTTTACCTTTTTTCATTTTTACTTTTCCAATCTAAATATGTATAAATATTTTTTGTTATAGTCTTTAAATTTTAATAGACTTAAATCTTTAATTTTAGTTAAATCTAATTTTTGGTTTGTTTCACTAATTATAATTGCTCAATCATTTAATAAATTATTATTGATTAAAAAATCAAAAACTACATAATAATATTCTATTTGTTTAAAAGGTGGATCTAAATATACTAGATCTACTTTTTGATGTTGAATTTTTAATAAATTTAATAATTCTAAATAATCTTTTTGATATAAAACATAATCACTAGTTGGAATTTTTTTTAAATTAAAAGAAATAATCTTATTAGCATCTTTATTTAAATCATTAATAATAGCAAATTTAATTCCTCTACTTAATCCTTCAATAGATAAAGAACCAGAACCACCAAATAAATCTAAACTTGTTTTATTTTCAAAAATAAAATAATTACTAATTATATTAAACATATCTTCTTTAATTCTTGTTAAAGTTGGTCTTGTTATTGATGAGTCTAAAGTTTGTAGTTTCATCTTTTTATACTTACCAGAAATTATATGCATAATTACTCCAATCATTTATATTTAATTATAACAAATCTATTTTGCTATAATATGGATGTAATGGAGCATAAATATGGATAAAAGTTATTTGTTACAAGATCAAATTCCTTCAAATAGTTGATTAGTTAAAGATCATAAAAAAGAAATTATAAGAACAAAATCTACTAAAATTATTGACCCTACAAATTTAAGTAATGATGAAGAATTAGTATTAAAAAAACTAATTGATTTTGTTACTTTTAGTCAAGATGAAAATAATAACAATATAAATAATAAAGACTATTTACGTCCAGCTGTTGGACTAGCAGCTCCACAAATTGGTGTTAATAAAGATATGTTTTATGTAAGATTTCAACTTGATAATAATAAAATAGAACAATATGCAATGATTAATACAAAACTAATTTCAACTTCAACTCAAATTGCTTGTTTAAAAAATGGTGAGGGTTGTTTAAGTGTTGATAATGATCATCTAGGTTTTGTACCAAGACATTATAAAATTGTTGTTCAAGGTTATGATTGACTAACTAAACAATATCTAACTTTAACTTTAAGAAACTATCAAGCAATAGTTTTTCAACATGAAATGGATCATAACATTGGTGTTCTTTATTATGACCATATTAATAAAACTGACCCTTTATATAAAGATAATAGTTGAATTATTATTGAATAATTTAAAATTATTGTCTTTTACTTGCATTAAATTAGATGAATATATATAATATTAACGTTTAAGAAAGAAGCACGTGCTCACCATTAGCTATTAGTGAAATGGTAATAACTTTTTTTATTTTAGTTATATGCAAAAAATGTGCTTTCTAATTCTTTAATGGCACATTTTTTTATTTTAAGGAGAACTGGATGGAAAACAGAAACAGAAATTCAAGACCAATAAAAAATCAAGATCCTATTAATGAGTTTATAAGAGCTCACCAAGTACTAGTTATTGATGAAGACAAGCAAAATTTAGGAGTTATGTCAAAAAGACAAGCTTTAGAAATAGCAAGATCAAAAAACTTAGACTTATATCAAGTTGGAGTACAACCTGATGGTACTGTAATTACTAGAATTGTAAATTTTGGTAAATTAAAATATGAACAACAAAAAAAATCTAAAGAAGCTAAAAAACACCAAACTAAAATTGAAAACAAAGAAATTAGAATTACAGTTAATATTGGAAAACACGATTTAGAAACAAAAGCAAGAAAAGCAAAAGAATTCTTAGAAGAAGGTAGTCGTGTTAAAGTTTCTTTGAAATTTAGAGGTAGAGAAGTTGTATATCTTGATTTAGGACAACAAACACTAAACAATTTTTTTGAACTAGTTAGTGATGTTGGTAAAATGGAAAAAGAAGCTAAGTTAAATGGTAAATTCCTAGATATGTATATTGTGCCTAAGAAAAATTAGTTAAGAACAAAGGAGATATTAGATTATGCCAAAAATGAAAACTAAAAAGTCTTTAGCTAAACGTGTTACTGTTAAATCAAATGGAACACTAAAAAGAGCTAAAGCTTATAGATCACACCGTGCAACAGGTAAAACTACTAAGCAAAAAAGACAACTAAGTAAAGCAACAATTATTAGCAAAGTAGATATGAAAAATCTAAAAGGACTTTTACAATAATAGGAAGGTAATAAGAATATGGCAAGAGTTAAATATGGAAAAGTAACTAGAGCAAGAAGAAAACGTTGAATTAAACTTGCTAAAGGTTATTTTGGAACTAAAAAATCATCATATAAAAAAGCACACGAACAAGTAATTCGTTCAATGGCTTATGCATTTATTGGTCGTAAAGAAAGAAAACGTGATTTTAGATCATTATGAATTGTTCGTATTAATGCTGCAGTTAGACCAGAAGGTTTATCATATTCAACATTTATGCACGGTTTAAAATTAGCTAACATTAATATTAATAGAAAAATGCTTTCAGAATTAGCTATTAATAATAGTGAAGAATTCAAACAAATTGTTCAACAAGCTAAAAAAGCTTTAAATAAATAATTTAATCTCTCTTTTGAGAGATTTTTTTAACTAAATCAGTATTTTATAAAGCTAAGAAAAAAGCAATTTAGCATTGATTTATACTTTAAAAATATTTATTATTTAATATTGGCAAAAACTTTTTAGGCTATCTTTTAATAGTAAAATTAATATAATGTAAAACGAAATTTAGAACAAAAAAAGGAGGACAAACATGCTAAAAATAATCGATCAACCAATTAAATTTTTGACATCTTGATTAGAAATTATGTTTGTTCTTTCTGAAATTAATGAAATTGTTTTAGAAACTGAGAGTCTCTCCCTTAAGTAGAAGTCTAACGACTTCTTTTGTTGTTAAAATTCTAATCTTTTTTACAATAAATTAAGGAGAAAAATGGAAAATAATATATTAGAGTTAAGAAACGTTACTAAAGAATATGACGGTCAAGTTGTATTAAAAGGTATCAGTTTTAATGTTAAAGAAGGTGAGTTTATCACCCTTTTAGGTCCATCTGGTTGTGGTAAAACTACAATTTTAAAAATTATTGGTGGATCACAAAAACCAAATAGTGGAGAAATTTTATTTGAAGATAAAAATTTAATTCCAATTCCAATTAATAAGCGTCAATTTAATACTATATTTCAATCATATGCTTTATTTCCACATTTAAATGTTTTTGATAATGTGGCTTTTGGTTTAACTATTAAAAAAACTAAAAAAGATATTATTGAACGTGAAGTAATGCGTCAAATTCGCCAAGTTGGTTTAGAAGGATATGAAAACAAAAAAATAGATGAACTTTCTGGTGGTCAAAAACAAAGAGTAGCAATTGCTAGAGCTTTAGTTATGAAACCAAAAGTTCTATTATTAGATGAGCCAATGGCTGCTTTAGATGTTAAATTAAGAAAAACTATGCAAGAAGAATTAAAGCGCTTACAACAAGATATTGGCATTACTTTTATAATGGTAAGTCATGATCAAGAAGAAGCTTTAAGTATGAGTGATCGTATAGTTGTTATGAACCAAGGTACAATTCAACAAATAGGAACACCTGAAGAAATTTATAATGAACCAGAAAATGCTTGAGTTGCTAACTTTATTGGTAGTTCAAATATTATTACTGATGGAATCTTTTTAGAAGATAATAAAATTAAATTTGATGGTAAAGTTTTTGAATGTATTGATACTAACTTTGGTGAAAATGAATCATCAATTGATATTATTATTAGACCTGAAGATATTATTATTAAAAACCCAAATAACGGATTTTTTAATGCAAAAGTTATTAAAACAACATTTAAAGGAATTCATTGAGAAGTAGTTGTTGAAACTAGTAAAAAAAGACAATGAATTATTCATACAATTAATGAATATGATATTGATCAACAAGTTTCAATTAAATGAAAACCAGCCAATGTTCATGTTATGTGAAAAGAGGTTGATAATTAATGGAATCTAAAAATCTAAAAGATAATAATGTAATTGAAAATAAGATTATCAATCAAGATGAATTAGAACATGTTATTGAAACTATTGAAAAACAAAAAAAACGTGAATCAGCTAGATTAAAAGTTAAAGACGTTAATCATTATTTATCAAAAACAAAACTATTTCATTTTACAAAAGACAAAGTATGACCAATTTTAGCACCATTTATTTTAGTAATGGTGATTTTAGTGATTCTTCCTTTAGTTTCAATCTTGATTTATGCTTTTATTCAACCAGCAGATGGGATTACATTATTTAAAATTTCTTTTGAAAAATTTGTAAAGTTATTTACAAGTAATGGTATTTTATATTCATTATTTTTATCTATTTTATATGCAATTGTTGCTGGAATGTTATGTGTTTTAATTGGATATCCAATTGCTTTAATGATGGCACAAATGAAATCAAAAATTCTAGCAAGAAACATGTGAGTAATTGTAACAATGCCTATGTGAATTTCTATGCTTTTAAAAGTATTAGGATTACAAACTTTATTTTACTTATTAGCTGATTTTGCAATAGGAACACCAATTGCAATTATTATTGGTATGACTTATATGTTTTTACCTTTTGCAATTGCTCCAATTTATGATTCACTAGAGTCAAGACAAACTGATTTAGAAGAAGCTGCTTTAGATTTAGGAGCTTCAAAATTTAGAACATTTTGATCTATTACTTTAAGATCATCTATGCCTGGAGTATTAACTGCTTTTAGTTTAGTTTTAGTTCAAGCTGCTACTAGTTTGATTGTTGTTCATTATATGGGTGGAGGACGAATTTATTTAGTTTCTGCTGCTATTGAATCTTATTTTTTCCAAGGAAATGACTTTGGATATGGTGCTGCTGTTTCAGTAGTTTTAGCTATTTTAGTATTTGGTTTAATGCTTGTTATGAAACTAATTAGTAATAAATTTGAAATGAAAGGAAATAAAAGAAAATGAAAAAACTCTTAAAAAGAAGTTATTTTGCTTTTGTTTTGCTATTTATTTATGCACCCATTTTAGCAATGGTAGTTTTTTCATTTAACAATGGAGATACTACTATTAAATGAACTCATGCTAGTTTTTCTTGATATGAATCATTTTTTAAAAATTCCCCTTTTATAAAATCAATTATTACTTCTTTATTTGTTGCTGTAATTTCAACAATAGTTTCACTAGTAATTGGAACTTTAGCAGCAATTGGATTAAGTAGAGTTAGTAGAGTAACTAGAAATAAATGAGTTTCAGTTGCAAATATTCCTTTAATTAATGCTGATGTAATTACAGCTGTATCATTAATGATTGTGTTTTTAATTATGGGATTAAAATTTGGGTTATTAACTTTAATTATGGCCCATATTTCATTTAATGTTCCTTATGTTTTAGTTACTATTATGCCTAGATTAAAAAAAATTGATCCAAGCTTAATTGATGCTAGTTATGATTTAGGAGCTAAAAATCATCAAGTAATGTTTAAAGTAATATTACCTATTTTAAAACCAGCAATTATTACTGCTGCCGCTATTGCTTTTGCAATGAGTTTTGATGACTTTATTATTTCTTATTTTACTGGTGGTATGCAAACTAATGTTTCAACATTTATTTATACTGCTAAAAAAACTAGACCATTTATTTTTGTTTTTGGTACTTGTTTAGTTTTAGTGATTGCTTTATCAATTATTACTTGAAATGCTATTAATTTAATTAAACAATCTCGTTTAGAAACAAAACAAAAATTAATTAATAATAATTACAAACTAAAGACAATTTCTAAATTAAATAAACAATTAGATGAGCTAAATCAAATTTTAAAAACTAAAACTATTATTAAAAAATCTCATAATCTTTCTTTATGAATTAAATACTTTATTTTAAAAACTAAACTTTATTTTTATAAGTTAAAAAGCTTAGATAAAAAGATTTCTAAACTTCAATGAAAACAATATAAATTAAAATCAAAAATTCAAAAAGAAGAAAGATATTATTCAAGATTAAAAAAATCAGAAAAAAAATTAAAACAATTAATTAAACAATTTAGTAGTGAAAAAGATGTTAAAAAAGCTGCTAAATTAAGTTTACAAATTGAAACTTTACAAGAAAAAGTAGAATTTTTAAAAGATCAAATTGAAGTAATTAAAGAACGTGAACAAACTGCTAATTTAAAAGTTAAAAAATTACAAAATAAAATTAAATTATTAAAACAAGATCTATCTGAAGAAGTTAATCCTTCAAAAAAAACTATTAATTGATACAATAAAAAAATTAAATATTTTGAAGAATGAATTATTGAACTTGAAGAAGGTAAAGATTATTACAAACTAAAATTAGTTGTTGAAAAATTAAAAGATTTAAAAAATATTAAAAATAATAAAATTAGTGATTTAACTGATCAATTAAATGAATTAATCAATAGAATTTATGTTCCAGTTTTAATTACTAAAGATATTGATTTAAAAATTCAAAATACAACTGATATTGAATTATTAAATAATTTAAATCATAAAAGAGAAGTAATTATTGATAAATTTACTAAACTTTATAATCAAAAAATTGATAAAACCACACTTTTAATTCAAAAAGTAAATCAAAAGACTGATAAGTTAAAAACTAGATTACTACCAAGTAGTGATGAAAATGCTTCTCATTTTAAATCATTTATATCAAGATCTTGAAAAGCTATTTTAATTACATTTATTGGAATTGGAGCTTTTAGTGGATTAACTGCTGCTTATGTTTTAAATAATATTTATGATTTAGTTGTTGCTAATTGAGGAGAATATATTGATCCCTCATTAATTGGTGAATTTGAACAACAAGCAAGTCAAAAACATAACAGAAGAATTAGAATTAATTATCAAATTTATAATTCAAATGAAATTTTATACAATAAACTTCATACAGTTGATTATGATATTATGATCCCAAGTGATTATATGGTTCAAAGACTAGCTTCAGAAAACTATTTGCAAAAAATAGATTATAGTAAGTTAAATATTTGAGGCGAATTTAACGGACATAATTTTAACAAAGATATTAAATCTAAAGATTTTGAAAAACTAAAAGTAAATAAAAGTTTATTAGAATTAATGGCTAAATCTCCTATTCATTTAGAAGATGAAACAAAAGAAGTAATAACTAAGAATCCTAATGGTACATATTTGAGTACTAATTCTATTCTTGATTATTCAATTCCATACTTATGAGGAGATCTTGTAATTGTTGTTAACCCAACACAAGAAAATATTAAATTTTTAGAAGATAATCAAATTAAATTTAAAAATCAAAAAGATGATGAAAATAATAGTGAAAATAAAGTAGAAATTGAAAACTCTACATTATCTTGAGACATTTTATGAAAAGCTGCTGCTGCTGGTAAAAAAGTAGCTTTAAATAACGATCCTAAAAATGTATTTATGTTAGGTTCTCAAAAACTTTATCAAAAAGTTAACTTAACTAAAAAATCAGAAATTGATGAAGTTGGTAAAGAATTATCTAAATTATTATCAAATAGTGGTGTTTCATTGCATAGTGATGATCTAATTAGTTTAGTAGTTAGAGAAAAATTCGACTTTGCTGTTATGTATAATGGTGATGCTGCTTATGCTAATTATGTTCATAATGAAGGTGATGAAGATTATGAAAAAGCAGGTAATAGTATCAATTTCATTTATGGAAGACCAAATAAGAAAAATGAAAAAAATAATAGACATGAATCAACTAATGTCTTTTCAGATAATATAGTTCTTTATAAAGATGCTCAAAATCTTGACTTAGCATATGAATTTATTAATTTCTTATATGAAAATTCAACAAAAATATCTGATTATGTTGGTGTAACTTCACCATTAGATTCAGCAATTGAAGAAATGACTGCTGCTTCTAAAGGAGAAAATGGAGAAGATGAAGGTGGAACATATCAAGATTTTAAAAATATCTATGATCCAATAACTCATCAAAATAATGGTAGCAAGTATGAGACTAATAACGAACAATTATCATTTACATACAATGGTAAAATTGATGAATATCTAGTTAATAGTTTTAATAATTTACTAGCTAATAAATAGAAAATACCTTGGAAAATTCCAAGGTTTTTTTATACACTTTTTAAAAAAAATAAGACATAGATTAGATGAACTATTTATAAATTTTTAAAGTGCTTATACCTAGCTGACACATACCTTACTTAAAATTAGCAAGAAACTAAATAATCTAAATATATTCTTTAAGTTTATCAGCTCTATAAAAATATTCTATAAATATTTGACAAAATAAAAAGCCAGAGGTGCGTACACTTATCTGGCGATAGTTTGGCCGGGGTGACGTACACTTTACCGACATGATCCTTATTCATATAATAGCATATTACTTTTATATATAAATGTTTTTTTATTATTTTGTAAATTTATTAATTATAGTTGATAAAAACTTTCTAATTTTATTCCCATTTCCTTTAATATATCACCAAATTTAATAGTTTTAAATCTATTTTGAAATTTAGTAAAAATCTCTAATAAATCTTTTTTTAGTAGGGCAAAACTTTTTTCTATTAAAACTACTTTTAAAAACAAGACAACAGATATGAGTTTAGAACCATCATAGTCACTATATTCTAGTAACTTTGAAATGTCTTTTGTTTTTACCCTATCAAATTGAGCGTTATACATTCTTTCTTCATGCGCACAAATATTTCTTGCTAAATTTAATATTTTTAATCCAGACAAAAAGGTTTCACTTCTAAATTTAGTTGGAATAACTTTCTTATTATTTTGATTCAAAAATCTCATTACATAAAAAAGTATAATTTGATTTCTATCTTCATCTTTTAGAATTTTAAACATAAATGACATATTACCAAAAGACATAATATTAACTGCAACTCATAAAGGGATATGACCATAATTTTCTATGTAATGCCTAATATAGTTAGATTTTTCACTTTTTGAAACTATTATATTATTAATAGAAGATATAAAATTTAAAACTTCTACATAGTTATCTTTATAATTTTCTGGATACAAATATGAATCTATTCTATTATCTTTGTTATATTTTTTACTAAAATTATATGCAATTGTAGTTTTAAAGTCTCTTTCAAAAATTAATATGTATTTTAATAAAATAGATCTTAATTCTCTATCAAATAAAAATAGTGAATATAGTTCATCAAAAGTTGTATTTTCTACAAATACATCTTCTTTACCATTTAAAGTATTTTTAATAAGTCTTTATAACCATTAACGATATTATAATAATTTTCTTGTTTTAATATTTCTATTGCTTTTTGTTCATCTTTAATTATTAATCCACGAGATTTTAAAATTTCAATTTGTTCTCCAAAAGTTTTAAATTCTTTTGATCTTTTCATATTCATCTTCTTTCTGTTATAACTAGATTTTTATAAATATAACTTCTCTTTATTTACTATATTAGAGAAACATAAAAAAACAATTTCTTTTTTTAGAAATTGTTTTAACTAAATATTTTATTAAATTATTTTTTTATCCTAATCAAGGTTCAAATAATATTAAACAAAATATAATATTTGCAAATATTAACCCAAAAATAGGAACTTTCTTAAGATATAAAAATAAACTTATAATAATTCCAATTGGAACATAACAATATAATGCAATTAGTCTTCAACCTGTAAAAAACTTCATACTATAGCTTGGTTTATTTGGATCTATAAACTTTCAATATTCACTAACTGATTCATTAAATACAAAGTATGGAAACATACAACTTATAAATATTTCAATAGCTAAAGCAATAATAATTCCAGCAACAACAGGATTCATAATATCAATTAATTTTTTAAAAAATGTTGATTGATGAAATTTTTGAGAATATTTTATAGCAATCATCATCATAAAAATAGCAGGTAAAACGAATGCTAAATAAGTAAAAATCATTGCAACAAATCCTCATCATTGACCTTGAGCAATCATATATCCAGTAATTGCTGCAAACTTTGGACTTAAAATTCCTGGTGTTGAATTTGATACAGCAAAAACTGTATTTATAAATTCTTCAGAAATTTCAATTTTAAATCAACTATTTAATGATTTTCATAATCACACAAATATTGGCATAAAAACTTGACCACCACCAAATACTGATAATGAAACAAATACTAATAAAACTAATGTAACTAAAAAAGCAATAAAACTTAACATTATTTCATTCCTTTCTTAATTTCATTTGATTCGATCTTTTTTGATTTTTTACTTCTAATTATAAAAATAGTTGAATAAATTGCTATTACTAAAATCATTACTAAAACTGGAACATTATAAGGCGTTGGAACAAATAAAGAAAATAATAAGGTAGTAAAAAATAATACTAATCACAAACTTAATTTCATTACTTTTTTTCCTTTTTTAAAATAGTTATAACCAAATCCTAATAACGCTCCTGTAATTGCTATTAATACACCAAGCTGAACAACTACTAAATATTGAGTAGGTATTTTATTAAAAGCAAAAATTAAACCTACAGCAAAAAAAGTATGTGGCATTGAAGCTAAACTAACAACTAAATAAGCTTTAAATTTAGATAAAGATTTAAAAGCAATATATGCTGTTGTTTGAATAGCAGCTGGTCCTGGTAACATATTTGTTAAGACCACATTTTGATGAAATTCATCTTCATCTAATCATTTTACTTATCAACAGCATATCTTTTAATCACTGGCATAATTGCATTTCCACCACCAAAACCAACAAAAGTAATTAATAATATAAATAGAAAAATATTTCAAAATGTTGGTGGTTTTGTATATTCTTTTTTATTCATAAAAATCCTATATTTTGTCTTATCTAATTAAATATTATAAAAATATAATATTAAATTGTTAAAAACATCTTACTTAGTAAGTTAATATGAATTTTAAAATCGTTTTTAAAAACTCATAAGAAAAAAATGTGTAAATGCACAGAAATTCCTTGTACTAATTGAGGCATTATCTTATTTTAAGAGTTTTTCATAAGGAAAAAGTGTGTAAATGCACAGAAATTCCTTATAGTATAAAGTCCTTATTCTACTTTTTAGTATAATAATAAGGAAAAAGTGTGTAAATACACAGAAATTCCTTGAGGTGTTTATGATAATAAATAGAGACTTTTACTTAAATCAGTTGATAAATAAAATGAACAACAACAAAATAAAAATAATTACTGGAATTAGAAGATGTGGTAAGTCATTTTTATTATTTAATTTATTTTACAAATATTTAATTTCTATAAATATCCCATCTGATCAAATTATAAAAATATCTCTAGATGGTTATGATAATAGAATGTATAGAACACCTACTAATTTAAATAACTTTATAAAAAGTAAAATAACAAATAAAAATAAAAAATATTATTTATTAATTGATGAAATTCAATATTGTGAACCAGAAATAAATGAGTTTGCTCCAAATACAGAAAAAATTACTTTTGTAGATGTTCTTTTAAGTTTTTATAATAATCCAAATCTTGATGTTTATGTAACTGGAAGTAATTCAAAAATGCTATCTACAGATATACTTACTCAATTTAGAGGTAGGGGTGATGAAATATCTTTAAATACTTTATCTTTTTTTGAAATATATGAACTATTTGAAAACAAAGACAAGGCATTAAAACACTATATGTTATATGGTGGGTTACCAGCTATTTATAATCTAAAAACAGATGAAGAAAAACAAAAGTATTTAAAAAATACATTTGATGAAACATATATTAAAGATATATTAGAAAGAAATTCTCTTACTAGTGAAACTGGTGAAATTCTAGATACTTTGTTAAATTTTATCTCTTCAGCAATTGGATCATTAACAAATCCCTTAAGACTTGCAAATCGTTTTATGTCTGAAAAAAATATTAAAATCAATTCTACAACCATATCAAAATATTTAAATATCTTTAAAGAATCTTTTTTAATTAGAAGCTCTATTAGATATGATGTAAAAGGTAACAAATATTTTAACACACCTTTAAAATATTATTTTACTGATATTGGTTTAAGAAATGCAAAACTAAGCTTTAGACAATATGAAGAAAACCACATTATGGAAAATATTATTTATAACGAACTTTATAGAAGAGATTTTAATATTGATATAGGAATTGTTGAAATACAACAAAATAAAAATAATAAAAGAACAAGAACAACACTAGAAATAGATTTTATAGCAAGTAAAAATCATCAAAAATATTATATTCAATCAGCATATAGTATTTGAGATTCTAAAAAAAAAGAACAAGAAACAAGACCACTAAATAATGTAAATGATAGTTTTAAAAAAATTGTTGTTGTATATGAAGATATAATTCCATGACATGATAATGATGGTATTTATTATGTTGGTTTAAAAGAATTTTTATTAGATGAATCTATTTTAAATAATTAAAAAAGCTTTTTAATATTGATTTTAACAATAATATTAAACTTTATAATACTGATTAAATTTCTTTATAATTAATGTTAAGGTCAAATCATTTTTAAAATAGATAGGAGAATATATGCTTAAATTTAATGATAAAAAAGAAGAATTAACTTTAGTTTGTTTAACTGATGTTAAAAATAAAAAGTATGTAGTAGATACTGATTTATCAACTTCATTTATTAGTGAAGAAAAAACTATTTATATGCTAATTAAAAAAGATCAAAAAGATTTATTTAGAAAACTAAAAATTGCTTTTAAAAATTTTGTTTTAGAAAATAAATACAATATTAATATCGATGTTGATTCATTTTTTAATTTATTAAATGAATGTGATTGTAAAGAAAAATTAATTAATACAATTTATGAAACAATTGCTTTTGAAACATATGATCAAATTAGTTATAAAAAAGATACTAAACCAAATGAAGTAGTATATAACTTATTAACTAGTTTTGATGTTAAAGAATTAGAACAAAAAGAAGCTATTAAAATGGAGTTTGTAAACTTTGCAAGAATGCTACAAGACACTCCACCAAACATTGCAACAAGTGAATATTTAGCTGAAAAAGTAGTTCAAAAAGCAAAAGAAATTGAAGGACTAAAGGTTACTGTTTTATGTAAAAAAGAAGCTACTAAATTAGGAATGAACTTATTTTTAGCAGTTAATGCAGGCTCACCATATGAACCACAAGCTGTAGTTTTAGAATATGTTGGTGATGAAAATGAACCAAAAAAAGCTCTTGTTGGAAAAGGAATTACTTTTGATAGTGGAGGTTATAATTTAAAGCCAGCTAAATATTTAGAAGGTATGAAATTTGATATGTCTGGAGCTGCTATTATGCTATCAACTGTTATGGCATTAGCTAAAATGAAAGCTAAAGTTAATGTTGTTGGTATTGGTATGTTTACAGATAATAGAATTGGATCAACTGCTACTTTACCTCAATCAGTTGTTAAATCTATGAACGGATTAACAGTTGAAATTGATGATACTGATGCTGAAGGAAGATTAGTATTAGCTGATGGAATTACTTATGTAATTAGAGAAAAACAAGCAACTGAAATTTGAGAAGCTTCAACTTTAACTGGATCTGTTGTTTCAGCTTTAGGAAGTTATGCTACTGGAGTATTTACTCATTGTGATAAAAGATGAGAATTAGTTGAAAGCGTTTCAAAATTTAGTGGTGAAAGAATGTGAAGATTACCACTATATGAAGAACATCTAGAAGAAGTTAGAAATGATGCAATTAATGCTGATATTACAAATGCTACAAAAAACTATGAAGCAGAAAGTTCAAAAGCAGCTAGTTTTTTAAATGAATTTAGAGAAGATAAACCTTATGTTCATTTTGATATTGCTGGAACTGATAGTATTAAAGGTAGAGGTCAAGGAGTTTTAGTTAGAACTCTATTTGAAATATTTAATAAATAAATTAAGGAAAATATTATGAAATTAAAAAACTGAACATTTTATAAAGCAAAACAATTTGTAAAACTAAATGAATCTAATGAAATTTTAAAAGATCTAGCTGTTTTAGTTTTAAGACCAGATATTAATAAAGAAAAAACACTTTTAGCTATTGGTTTAGATAAAAAAGTAGTTAATTCACTAATTATTGATTTACAAAATAAAGCATTTGAAGAAAATGAATTATTTGAAATTTTTAAAGAAAATATTGGATTTGTTTCAACTGAAGAAATTAGTGAAATTGATGCTAAAGGTTTAAATTTATCAACTCCAATTCATCCAGATAACATTAAATCAATTATTAAAATTTATAACTTATTTTTAAATATTGAACCAATTGAATTTGATACTAAAGATTATCAAGATTTAGAAACTATTCAAAACCAAGAAGATGTTTTTACTAATGTTGATTTTGAAAACATTCCACTACCTGCTTTATTACAAACTTTAAATGTTGGTATGGAAAATTATAAGCAAAGAGTTGAAGAAATTTTTGAATTAGATGGAAAAGAATCTATAAATAAAAAATTAGAACTAGTTAATATTCAATCTAATTTAATTGCTTTTTTTGATCAGGCATTAAGAAAAATGGATGAAATTATTACTAAACTAAGTGAACAAAATGCTGAATTAATTAAAAAACTAGAAAGTCAGGAAAAATAATGAAAAGACCTGAAGCTTTAAAAGAATATAAATGAGATTTTGATTATTTGTATAAAAATCAAGATGAATGAAAAAAAGATTTAAATTATTTAGTTGAGATTTCTAAAGAATTTAAAAATTTTAAAAATAAATTACATGAAAAAGAAACTTTTTTAAAATGTTTAGATTTAGAAGAAAAAGTTGATTTTATTACAAACAAGCTTTCAACTTATACAAGAATGGGAGACACTAATCAAGCTGATGAAGTTTATAGAACTTTAGAGGCTTTATTAATGAATGTCTTACAAGATATTGAAATCGAAACTTCTTTTATTTCACCAGAAACTAAAAAAATTGGTTTTGAAACTATTTCTAAATGATTAAAAGAAACTAAAGATTATCAAAGATATTTATATGGTTATAAAAAATTCTTTGAACAAGCAAAACACATTTTAAGTGAACATGATGAAGAATTATTATCAAAAATATCTAAAGGTTATACTGCAATTTCAGGAATGTATGACACTTTAGCTTATGCTGATAGACAAGAAGAAACAATTAATTATAAAGGTGTTGATCAAGTTCTAACTAATTCTTTATTTTTAGAAATTCTACAAGATTCAGATCCAATTAAAGATCAAGACTTAAGACTAAAAGCAAGTGAAATCTTTTCAAAAAACTTCAGTTTAAAAAAACATAGTTTTGCTTTAATTTATGAAGGAATTTTACAATCAGATCATGAAGATACTAAATTAAGAAATTATGATTCAAGTCTACAAGCTAGTTTAAGCTCTGATTCAGTTCCTGTTGATATTTATTTAAAACTTTTAGAAGTTGGTAAAAAATATATTAAACCTTTAGAAGATTTTTTATTACTAACTAAAAAACATTTTAAATTAGATAAATTTTATCCAAGTGATAGACAATTAAAACTTGTTAAAGAATATAATCAAACATTTACAGTTGAACAAGCAAAAGAACATATTAAAAAAGCATTAAGTATATTAGGTGAAGAATATTTAAAAAATCTAGAAATTGCTTGAGGACCAAACAAAATCGATTATTATGAAGATACTAATAAAAGAGATGGTGCTTATTCAACTGGTGGACATGGTGTTGATCCAATTATTTTAATGAACTGAGATGATAAATTAAATTCAGTTAACACTTTAGCTCATGAATGTGGGCACTCTGTTCACACTTTATTTTCAGAACAAAACCAAGTTTATCCACTAAGTCAATATCCAATTATTCTAGCTGAAGTAGCTTCAACTATTAATGAACACTTATTATTTGATTATATGTATAAAAACACTAAGTCAAAAGAAGAAAAAATTTACTTATTACAAGAAAGAATCTTTAATTTAGTTTCAACATTTTATAGACAAATTCAATTTGCTGATTTTGAATATAGAGCAAGCCAACTAGTAAGTAAGCAAACTCCTTTAACTAGTGAAGTTTTAAATAATTTATTTAAAGAAGTTGAAACTGATTATGGTTATAAAGTATTTGACAAATTAGATGATAATATCAAATCAGGTTATGGATGACCTAGAATTAGTCATTTTTTCCACTCACCATTTTATGTTTATAAATATGCAATTGATGTAACTGCTAGTTATAAATTATATGATGATATTAAAAAAGGAAACATTCAAACTACACTTGACTTTTTAAAAGCAGGTGGACATAAAGAACCTTTAGAAATTATGTTAGATGCTGGTATTGATTTTAATAAAGAACAAACTTATTTACCTTTAATTAATGGAATATCAGAACATATTAAAGAATTAGAAGAATTATTAAAAGAATAATAAAAAATCTCGGGTTTCCGAGATTTTTTTATAAATACTTAATATAAGAAGTTTCAAAGTGATCTATATTAATTGTGTGTTGAGTAATTTCAACTATATTATCGTCTTTATCATATAAGATTGAATATCGGCAAATTACATAATCTTGGTGATTATCAACTAAAAGATTTCTAGTCATTTGATCTTTTAGTTTTGATTCTAATACACAAGTTAATTTGAAAGGTTCAATATTATTTTGTTCTAGATATTCAATTAATGAACTTCTAATTTTTTCACTATCAATTTCATTTTCAAATAAATTTTTATTTATAAATGATTTTGCATATCTTACTGGTAGATCATTTACATAAAATACTTTAATATATGAAAAATAATCATCTGGATTAATATCAAGATTTAAATGTAATTTATGAATAATAGTGATTAAATTACTAGTATCTAATTCAGTTTCAATAATCACTTCTTGTTTGTTAGATAATAATTGATTTCTAATTGATTTAATTCTGTTAAAAGAAAAATCAGGATTAATAAAATAACCAGCACCTTTAGATGATTTAATTAAACCTTTAGTTTTTAAATCAGAAAATGCACTTCTAACAGTACCTCTACTTACTTTAAATTTAGTTACTAAAAAATATTCACTTGGTAAAGGAGTTTTTAAATCAACTTTTTTATGTTCTATTAGATCTAATAAGTAGTTAACAATTTTTTGACGTTCTGTGATTTCTTTATTTTTCTTGTCTTGCATATTAATTATTATAAATCTTTATTTATTCAACAACGATTGTTTGTCAAGGTTTTAAAGTATTTTGTTTAAAATCTACTTGAGTATTTAAAATAATTTTATTATAATCATTTATTAAATGACTTATATCTACTTGTTCATCACTTCAATTAGCAATTATTTTAATTGATTTATTTTGATCAATTCTAGTGTATGCAAATAACTTATCATTATTTGGATCTAATAATTCAAATTTAGCATCAATAATTAATTGAGAATAACTACTTTCTTCTCTAAATTTAATTAATTTTTTTAAATAATGATAAACACCATCAGGATTTTTTAGATCATTTTTAGCATTAATTTCTTTATAATTATCGTTTATATCAATTCAAGGTTGATGATTACTAAATCCAGCATATAAACTATCATCTCATTGATATGGAGTTCTAGCATGATCTCTACTATTTACTAAAATTCCATCAATAAATTCATCATAAGTTAAAACTTGTTTTTCTAAAACTTCACTTTGATAAGTATTTTTAATCTCAACATCTTTATACTTATTTAAATCTGTTCATTTAACATTAGTCATTCCAATTTCATCACCTTGGTGAATAAAAGGAGTACCTTGCATTAAAAAGAAAGTTGTTAGTAAAGTTTTTGCTGAATCAATTCGATATTTATGATCATTTCCATATCTTGACACCATTCTTGGTAAATCATGATTTGATAAAAATAATCCAGATCATCCTTTATTATGTAAACCTTGTTGTCATTTTTGATAAATTTGTTTAAATTCTAAAAAGTCAACATCCATAGTTTTATATTTATTAATTTTGTTAAAAAAACTAGTAATTGGTTCAAAGTTAAACACCATTGAAAATTCTTCGTTTTTTTCATTTGAATATTGAATTGCGTGATCAATATCTGCTGATCAACATTCACCAACTGTTAAAAACTCATTTGAATCTCAACTGTTTTTTCTTAGATCTTGAATATATTTATGTAACATTGGACCATTAGATAAAATCTTTTGATCAATTTTTTTACCAAGTAACTCAATTACATCTAATCTAAATCCCATAATTCCAAAATCACATCATCACTTAACCATTTTTGCAATTTCTTCTCTAACCTTAGGATTTTCTCAATTTAGATCAGGTTGTTCTTTTGCAAACATATGAAAATAATATTGATTTGTAGTTTGATCATAAGTTCAAGCAGACCCACCAAAAGCTGAAGTAATATCATTAGGTTGATCTCTTCAAATATAATAATCACGATATGGATTAGTTTTTGATGATCTTGATTGTTTAAATCATTCATGTTGATCTGAAGTATGGTTTAAAACTAGATCCATAATTATGCCAATATTTAACTCATTAGCTTTATCAACAAATTTTTTAAACTTTTCTAATCCACCATAAATTTGATTAATAGATTGATAATTTGAAATATCATACCCATTATCTACAAGTGGAGAATCATAAATTGGAGTTAATCAAATAGCACCAATTCCTAGTTCTTTTAAATACTCTAATTTTTCTATAGCACCATCTAAATCACCAATTCCATCATTATTTGAATCTTTAAATGATTGAAGATACATTTCATAAACTACAGTATTTTTCCATCAGTAATTTGCCATTTTAAACCTCTATTTTAATATTTGATTCTAAAAGATATTCTTTATCAAATAAATTAATTTTTAAAGCTTGACCTTTAATTAATTGAATTTCAACTTCTGTTTTGTGATGTTTTATTTTTAATACACGGTCTCTAAAATTAATATTAAATTCATAACCATTTCATTGTTTTGGTAGTTTTGGAGAAAAACAAGGTATATTATTTCTTACTAACATTCCACCAAATCCTTCAACAATTGCTAAATAACTTCCTGTCATACTTGTAATGTGTAATCCATCATCAGTATCGTTATTATAATTATCTAAATCTAATCTAGCTGTTCTATTATAAAACTCATAAGCTTTATCCATTAAATCAATTCTTGCAGCAATTATTGAATGAACACAAGGACTTAATGAAGATTCATGAACTGTAAATTGCTCATAAAATTTAAAGTTTTTAGTAATTTGTTCTTTACTAAATTTATCTCATAAATAATAAATTCCTTGTAAGACATCAGCTTGTTTAATATAAACACTTCTTAAAATACGATCTCAACTTCAGTTTTTATTTAAAGGTCTTTCATCTTTACTTAATAAATCTTTATGTTTTAAATCTTTATCTAAAAATGTATCGTGTTGAACAAATATATCTAAGTCTTTATCATATGGTAAATATATCTTATTAATAATATCAACTCATTTATTAGTTTCATTAGTACTTAAATTTCATTTAGATTTATTTAAGTTTAATTTATCTAACATTTCTAAAGTATAACTTAATACTCATTGACACATTAAATTAGTTAATCAGTTGTTATTAACGTTATTTTCATATTCATTTGGACCAGTAACTCCATGAATAAAGTATTTATCTTTAACTGAGTGATAATGAACTCTATCAGCTCAAAATCTTGAAACTTCAACCATTACATCCATTCCAAATTCTTTAATATAATCAAAATCTCCAGTATAGTTTGTGTAATTATAAATTGCATAAACCATAGCAGCATTTCTATGAATTTCTTCAAATGTAATTTCTCATTCGTTATGACACTCAACACCATTAAAAGTTACCATTGGATATAAAGCACCTTTAAATCCTAATAACTTAGCATTTTCTATAGCTTTATTTAAATGATTATGACGATATTTTAATAGATTTCTACTAATTTTTGGATCTGAAGTTTTTAAGTATAAAGGTAAACAATAAGCTTCTGTATCTCAATAAGTAGCTCCTCCATATTTTTCACCAGTAAATCCTTTAGGACCAATATTTAAACGATCATCATTTCCATAATAAGTACAAAATAATTGAAATAAATTAAATCTAATTGCTTGTTGATCTAAATCAGATCCAATAATTTTAACATCACTAGTTAATCAACGTTTTTCTCATAAACTAGTGTGTTTTTCTTTTAATTGTTCATAGTCAAATTGATTAATTTGATTATTTATTTTAATTGCATTTTCTTTTAATTTATCTTCTGAATAGTTTAATGAATGAACTAAAGTAACCAATTTATAAAATATAAGAGTTTCATTTGCTTTTAAATCAAATTTATAAGTAGTTTTTGCATATAAATTTGATTGATCAAAACTAATATCTTTAGTTTTTAAATTATAACTATTTGTTGCATAACAAGCATAACTAAAACGTGGTATATCAAAATTATTTTCAATCATTTTTGAAACTACTAATTGAGAGTTATTTGTAGCTAAGGAATCTAAATGTGTTCAAAACTTAGCTTTATAGTTTGAATCTCTATTAATTACATCTCCATTAATATAACTAGTTAAATCTAAACTAATATCTTTATTACTTGTAATACTATATTTAATTGCAACTAATTCTTTAGTATCAATTGAAACAAATCTTTCAGTTTCAACTTTAATCTCTTTATTATTAATATTAGTTATAAATTCTCTACTTAAAATACCTTGTTTTAGATCTAATGTTCTTTTATAACTACTTGGAGTTTGTTTAAATAAGTCTAGTTCAACATTATCTATAACTACATTTAATCCTAATAAATTAACTGCATTAATTACTTTTCCAAAATAATTTGGATATCCATTTTTTCATCAACCAACTATTGTTTTATCTGGATATCATAACCCACCAACATAACATCCTTTATGAGTATCACCAGAATAAGTTTCTTCAAAGTTTCCTCTCATTCCTAAATACTCATTTCCTAAAGAAGTAATTGATTCACTTAATCTAAAATCATACCCATTATCTGGTAGTTTGTTTTCAACTAATTTTCAAGGATCAACTTCAAATAGTCTTTTTATATTAACATCTATATTTGTTTTCATATTACTCCTATTTTATTAATATTATTAATTTTATTATCAATAAAAATAGACACATTATTAGATTGTGTCTATTTTTTATAAAAGTAAATCTAATATATAGTAATTATTTAACCAATACGGTTTTCTGTAATTCCGTTAAATAAGTGATATTTATGAATTTTAATACCAACTTTATCATCAATTTTTATATTATTATCTTTTGAAGTAGTAATTACAAAGTTATTTCCTGGAGTTAGTTCACAAGTTACTTGTTTGTTCATTCCTAATAACTCTGTATTAATTACACTAGCAACTATATTTGCAGTTATATCTGTTGATTCAACTAATTGAGCATCTTCACTTCTAATACCTAAATATAATTTAGTTACTTCTTCTTTTTTAATTAGTTCTAATTCTTCATCAGATAATTCAACTTTATAATTATTGATATTTGAAATAAAGTAATTGTTTTCAAGCTTACCTTCTAAAACGTTCATTGTAGGAGTTCCAATAAACTTAGCAACAAATAAGTTATTAGGTTTATTATAAAATTCTTCTGGTTTTCCTACTTGTTGAATAACTTGGTTATTCATTAAAACAATTTTAGTAGCCATTGTCATAGCTTCTAATTGGTCATGAGTAACATAAATTGTTGTTGTTCCTAAAATTCTATGAATTGAAACTAATTCAGTTCTCATTGATTCTCTTAGTTTTGCATCTAGATTTGATAAAGGCTCATCCATTAAGAACAATTTAGGTTTTCTAACAATTGCTCTTCCTAAAGCTACACGTTGTTGTTGACCTCCAGATAATTCTTTTGGTTTTTTAAATAAATATTTTTCAATATTTAATAACTTAGCAGCTCCTCTAACTCTATGGTTGATGATTTCCTTTTTTTCTTTTTTCATTTCTAAACCAAAGGCTAAGTTCTTATAAACATTATAGTGAGGATACAAAGCATAACTTTGAAATACCATGGCAATATCACGATCTTTTGGTAAAAGGTTATTAACTTTAACTCCATCAAATAATAGATCACCTTTAGTGATTGAGTTTAATCCAGCTATGATTCTTAATAAAGTAGTTTTACCACATCCAGATGGACCTAGAATTACACAAAAGTCATTATCATTAATTGTTAAATCAATATTTTCTAATGTATAAAATGAGTTACCTTCATATTTTTTTGATATATTTCTTAATTCAACTTTCATACTAACCTTTTACTCCTCCAGATAATCCACCTGTAATATTTCCTTGTAACATAATAAATAATGTACTAATAGGAACCGCAACAAGTAATGAACCTGCTGCAAATGCTCCTTGTGCAATTTCTCCAGATCTATTTAATAAGCTGTTTAATCCAGTAGCCATTGTTCAGTCTCTTTGATTATCTAATAGTAATTGTGGTAATAAAACATCACCAAATGGTCCTATAAATGATCATAAAGCAATAACTGAAAGCATTGGTTTTGCTAGTGGGAAGATAATTTTAGTAAATACTTGTCAAATACTACATCCATCTATTTTTGCAGCATCATCAATGTCAGTTGAAATATTATCTAAATATCCTTTTAAAACAAAGACATTTCCAGGAATACCTCCACCAACATAAATTAGAATTAACATGATTTGACCAGTAATATGAACGGTTTCTTGTAATAATTGAAACATTACATAAAACACAATGAAACTTGAAACAGTAGGGATCATTTGAATTAACATAACAGTCATTAAACTAATTCTTTTTCCTTTGAATCTAAATCTTGAAAAAGCATATCCAACCATAGCTGTGATTAATACCATAAAAATCATAGTAATAGTTGCAATAACTAGTGAGTTTAATAACCAATATCCAAAGAATGTACGTTCAAATAAATAACTAAAGTTAGCAAAACTGAATGCAAATCTCTTAAAGTCAAATCTACCAAGTGTTCCTAATTTTCCAGCAGTTGAAGTTGATTCATTAGCTGAATACCAGTTAAATGCTTGTAAAACAACTTGAGTAATTGGCACTATTATGATTAAAGCTCATGCAATTAGAACTAGATAAATAAATGCTAGTCCAATTTTTCCATAAATACTTAGTGGTGGTTTATCTGATAAATAAAGTTTTCCAAATGTTTCTGTTAAAAATCTTACATATTTAACATAAGCATTATTTTTTTCTTTTTTAAGTTCTTGTTCGATAATAAAGATTAACTCATTTTGATATTGTGATATTTCATTGTAGTTAACTAAATCTTTACTTAATAATGAGTCTGATTTTTTAACTGATTCTCAGACATATATTTCATTTTTTAAAATTTCATAAATTGTAGCTGATTGAATAATTTTAATATTTAAATTTAATTCTTTATATACAGCTATATTAATAGCTACAACTTTTGATCAGTTTTTATAACGACCTAATTGATCGATTTTTGTTTTTTTAAAAAACTCATTTTCTAAATGTTCTTCGTTAAAAATGATTTTTTCAATTTTTTTAGCAAATGATTCTGAAATTTCATAAGCTGTTTTTAAAATTAATAATTCAAATAATTCTTTTGCTTTATTAAAGTTTATTTTATTATCTTTGTTTTTTAAAGCATATAAATAAGCTAAACTAGATAATTTAATAATGTATAAGTGATTGTAATATTTATTAAAGTTTAAATGTTTTGATCTAAAATAAGTTTCACTTAAACTAGCTTGAAAATCGATTAAATCCTTTTCTTTAAAAATTAACTTAGCAAATTTTAAACTTTCAGCATCGATTTTGTAGCTTTTATTATTAATTTTTAATGTGTTATAGTGAACAAATTTTTCGTTTTGTTCTTCTTTTTTAGTTTCAGATTTGTCTAAAACTTTAGGATTAGTTAATAAACGTAGTTCTTTTGCAAGTCTTTCATTTATTTCTTCGCTACAATACAATCTAAATTTTTCTTTAGATTTTCTATTTTCAACAAGTTTTTCTCATCAACTCTTTTTATGAGTATCAACTTGATAAGTTAAAGATTTTTTTAAAGCTAAAATAATTGTTTCTTGAATAGTGATATTTTCAACATTATTATTAACTAATTCATTAAATGCTTGTTCTAATAAATCATTAATTTTATTAAAAGCATAGTCTTCTGATAGATGTTCATGTTGAATAATATTTAATGAAACAAAGTCCATAGCTTCTTTGTGAGTTTCATAAGTTAATAAAAACTCACTAGCTAAGATTTTTCCTAATTTTTCAAGATTGATCTTTTTAAAATAAGTTACAATAATGGCATTAATTTTTTTTCAACTATTTAAAAATTCATATAATTCTAAATTTTTAAAATCAAAATGGTCAAAATCTTTTAAAGATTTTTGTTTTTCATAAACATTAATTTCATTAATAATTTCTTTTTCAACATACTTGTTTTCAATGATTTGATTCATTGTTTTATTAGCAGTAGATATATTGAAATTATTTTTATCATTAAATGTTGAAAAACTATTTGCTACTAGTAGTAATAATAAACCTTCAATTAGTTTAGAATCAGTTGTAAATTTTTTATAAATATCTACAATGTTTCCAACTATATAATTACTTTTAATAAATAATTGATAATCTTTTATTTTATTTGTGCTTTTAATTGTTTCATCTTCTAATAATTTAGTTTTAATAATATTTCAGTTATTAGATTTTTTAAAACTAGAAAAGTCATATTTTTCTACAGGTTTTAATAAACTAGAAAATACTAAAGCTTTTTGATCAACATTTTGTTTTACTTCTGTTTTCATAGCTATTTTACTCCTTAGTTTTTAAATGCTTTCATTTTTCTAAATCCATTAGCTGAAGTACCAACAACAATAAATGATGAAACAATAATAAATGAAGCAGCAATACCATAAGTATATCTATCAGGGTGAGTAGATAATTTGAACACAAATGAAATTAAAATATCTGTAATTCCTGGTTGACCTGGATAAGGTTCACCTTTTGCATTTAAAGCTTGTGGGTTAGCACCAAATAGATAAATAATTCCAAAGTTACCAAAGTTAAAGACAAATTGTCCAACTAATAAAGGAGCTACTTGAGTAAGAATTAATGGTAAAGTAATTCTTGTTAATTGTTTTCATTTTGAAGCTCCATCAATTGTTGATGAGTCATATAAATCTTTAGATATACCTTGTAAAACTCCAGTAATTAATAAGAACATGTAAGAATGTCCTAATCAAGTTTGAAGTAGAATTAAAACAATACGGGCTTGTGTTTGTTGAGAAGTTCAACCACTTACTCCAATCCATTTATAAGTAAAATTATTAAATTCAATACTTGATAGTAAAATTGCAAATACCATTATCATAATAAATGCGGGAACAGCTCAAGGTAAAATGTAAATTAATCTAAAAATACGTTTTCCTTTCAATCTTTCATTATTTACTAATAAAGCAAATAATGAACCAACAACAATAACTGATATAGTAGTAGCAATAACTCAAGTAAATGTTCAACCTATAACATATAAAAATGATGGGAAGTATTCTCCTCCAAAAATAGATTTAAAGTTATCAAAACCAACTCATTTAATAATTTGTCCTGGTCTTCCTGGGTCGTTTCCTTTTCCATAGTTAGTAAAGGCAATTAAAATAGTTGAAATGATTGGAACTAGTACTATAAACATAATTCCTATAATCGCTGGAATTGATAAAATGTAAGGAATTCCATGTGATTTTAAGAATTTTCTAGTTTGACTAAAAGTACTTGCACGTGAACCTATTCGCATTCTTTTTGCATTATTTTTTGAATCCATTCACGTTGAAAAGATACTAATACAAATCCAAAAGGCAATTATTAATGAAATTATTCCTTCAATTAAATAAAAACGTCCATCACCATCGGGATTATCTGCTCCAAAATCAATTAGTCCTAATAACCCATTACCCCCAACATTACCAATACCAAAAGCATATGCTCCAAATATAACAAATAGTGGTAATGTTAAAAACATCACTATTGCTTTTTTATATTGACCATTAATTAGTGGACCTACTCCTGGAATTCAACCAAATATAATACTTAATACTTGTTTTCAAACAGGATATTCAATTGGTAAGTTGTTTTTAATATTTTCTATTTCTGAAGTGTATTCTAATCTATTTTTATTTTTTTCAACTTTGTAATTATGTTTTAAGTTTTTTCAATTATCTTTAGCTTTTTTAACAGCATTATCTGATTTAATTTCTTTAATATTTTGTTTGTGTTCTAATTTAAGGTTTTTCTTTTCACTTTTTGTTGTAGCAAATTCTAATTGAGTTTTAAAATCTTCATTAGCTTGTATAATAACTTTTTTAGTTAATTCATCATGTTGTTTTTTATTTTTTGAAATTTCAACATAATCTTGTTTAGCTTTGTTAATTTTATCTATAAAATCAGAATCTATTTGTTGTTTTTTAATTAAGAATTTTTCTTTAGCTTTAGCATTTAAACTAGCAACTTCTCAATCATAATTATATTCAATTCCTTGTTGATAGATTTCACTAGTTCTTTTAGCTTTTGTAATTGGATCTAAGTTTTTAATTTCATTTAATTCTTGTTTAATTTTTTGACTAACAGCATTTTTTTCTTCTATAAAAGTAGCTGCGTTTTTATTGTGTGATTTGATATGAAATGTATAATCGTTAGTACTAAATAATAAACGTAATTCTTGTACTTTTCTTTTTGCAATCTTATAAGTAATAGAAATAAATTTCTTTTTGTATTTATAAGTAAAATCATTTAAAAACTTTAGATAAGCTACATAATAACTATTAGCTTTTGTTTTTAAGTTTTTAATTTCTTGATTTCTTGCATCATAAATAATTTGGCTTAATTGTAAACGTGCTTTGATTTTAAACATATCTTGAATATAGTCTTCATCTTTATTAACAAAACTTTGTTCAATAGATTTAATATCAAAAACAAATTTATTATCAGCTGTTTTATTTAAATACATTGCAAAATTTTCTTTTAATTTAGCATACATATTGTTATGTATATTGTTTTTAGCAAATTCTAAAAAAATTTTTGCAAGTTCTTTATTTGAAAAAGTATAAGAACTATTAGCTGTATTTTTTTGTGTTTGATCTAATTCTTCAAATTCTTTTTCAAAATCAGAGTATTTAACTTTTTTTAATTCATTAAAAACTTCTTCTTTAGTTTTTAAGCTTTTATAAAACTCTATATGATTCATATTAACCTCACTTTCTAAAATCTATATTCTCTTTTTTTCATTTTTTGGTAACGCAAACTTCTTTTTAGCTCAGAAATATCTTTTATTATGAAATAAAAACTTATAATCACTAGTACAAATAAAACAATACTGATTATGCTTGGATAAGTTATTTTTTTAGTTAATATTAGTTCTCCAAAAGCAAAACCAAATCAAATAACAAGCCATAGACCAATATAAACATAACCAACTGTTATTCTATTCATAGCTAGTGTTGTATAAATTGCAAAAATAATTACAAGTACAACATTTAAAAGATATCTAATCATTCAAGTCTTTAAAAAATATGCATGTGGATTTTTTAAAGCTTCTTTAGATAAATTTTGCTGCTTTACAACAATTAATCTATAATCAATCAACATTGCAGTACTTAGCATTACTACAAATACTAAACAAATAGCTAAAATAAAATAAACGTTGTATTTTTTAATGTTTGTTTTGTGTCCAAAAGCTTGTTGAAAGTCCATTTGTACCTCTTGTTTTAAAAACTACCAATTTTAAAATTGGTAGTGTTATTAATTAATTAAATTATATTAAACTAATTTTTATTAGTGGAATATATATTTTGCTTTTTCAGATTTGTAAGTATTTCTAAAGATTTCAGAGAATTTTTGTTTCATTCCTTCATTTTGTTTTTTATTAAATGTTGAACCAAACGCAGTTCCATAAACTCCTCAATAAATACCAAACATTTCATTATCAGCTCTTGGTGCTACATCAGCATCTTTTCCAGTTTTTTCATAACCTTTAACGATGCTTTCATAAGCTTCACCAATTATTTTTCTGTTTTCTTTTTCAGCATTGATTTCTTCAGTAGTTTTCTTTTTACCTTTATCGTTTAATTCTGGAATGTTAGTTCCATTTTTTAATTCCTTAACTAGATTATCAGCAACATCTTTATAAGCACTAATTTTTCCATCAACAAAGGCCATTTCAGTAGCATATTCTTTTTTAGAAATTTCTTTTATAAATTCAAGAGCTGCTGAAGTTTTATCCATTTCTTCACCTTTATTATTTTTTAATTTTAGATTTGAAATAGATGATTTAATACCTCAACCATATCCACCAGCAAATCCAGTTAATTTACTATCACCATTAAAAGTAATATCTCCAATTGAAGCAAATCCAAATTTACTCTTATCTTTTGCAGCTTTTTTCATTGTTTCAAGTTTTGAACTTACTTCTCAAGGACCAACTAAAGTCATTGCTGTTGTTCCATCTCTTAAAGCATCATCTAAAATTTGACCAATTTGACCAGCTGCTCCACCATAAATTTCATTAATATGTCCACCTAATGATTGAACATACTTAACAATTGTTTCAGTAGTCTTGTCAAAATCTTCTTTAAATTTGTCATTTTCTCAAATTGAATCAAAGTCTTCTTTGTTGGTTGTGTTTATTGGCTTACCTTTTTTAACTCAAACCATTCCTAATGAAGATTTTTCGTCTTTTTCAGCTGAAATTTCTGATGATTTTCTATTTAAAATAGAGTTTAGGAACATACCCCCATGGAATGAACCACCAGCATCCATATAAGCTAAAGGAGCACCTTTATTAACATCTTCTTTTTTAGCAAGATCTTTTTCATCTGCAAATTTATATTTATTGGTTTGTGCTTGATTTAATTTAATTAAATTTTCAATAGTTGCTTTTGGCTTATCTTTAAGCTTTCCATTGGCTGGATTTTTATCATCATATTTTTCTAAAGTTCCATTTTTATTTAATTTTTCTACTTCAGAACCTACTAAATATGAATATTCTTTATCTCCAACTTTTTCTTTTTCAATTCCTATTCTTTCTTTATTAAAGATTCAAACCATGTTTTCAATTGACATAGGAATCATTCCAAATTGACGTTTACCCTTGATATCAGCACCTATAGCTGTTTTTCAAGAGTTTTCATTTTTAGTTATTTTAATTCCATCAATTCCTGTTTTATCCTCAACAGCTTGTAATCCAAAGCGTTCACTAGCTTCTTTATCACTAGCTATGCTCTTTTTAATATGTTCTGTTAAGTCTTTTAAAGTATTTTGATTTAAATATTGAGGGAAACGATCTAAAGGAACAGCAAAAACATCTGAAACTCCTTTATCTCTAACTCCTCTTAAATCAATTAATCCTTTTTCTGCAAAAATATCGATTTGTTTTAATTTAATTCTTCACTTATATCCTTGTTCTTCGAATTTTTTATTAACCTTATCAGCTGCCATTTGATAAATTGGCATTCATTTATCATTTGCTTGAACAACTACATTTGTATTATCACGTGTTTTACATGCTAACACAGTTAAAGCAGACCCACCAACAACAACTATGCTAGCTAGCATTGTTAATATTTTTTTCATAATTTATCATCTCTTTTAATAAGTTAATTTATCTCTATTGCAATATAATGCATAAAATATCTTGATTTTGCATTATTCATTTTTATTTTAATATTTATGAGAAATTCATTCTTAAACACTTGTTAAACAAAACCCATATCTTGTCTATACAATAATTGATTTGGCCAAGTAAATAAGGGACTTTTTGAAATTTTCTTAGATAAAAAACAATGGATTTTAAAAGAAAAAAGAAATAAAAAAATTCAAGTTTTTTTACTTGAATTTTTGCATAAATTTTGTTTTTAATTCTTTTTATTAATGGAACTTATATTGTGATTTTTGTTTTTTATAGGTTGTTCTGAAAATATCAGCAAATTTGTCTTTCATATGTGGGTTTTGTTTTTTATTAAATGTTGAACCAAAAGCAGTTGTATAAGCTTCTCAATAAATACCAAATAACTCATTATCAGCTCTAGGTGCTACATCAGCATCTTTTCCAGTTTTTTCATAACCATCAATAATACTTTGATAAGCTTCACCAATTATTTTTCTATTTTCTTTTTCAGCTTTAAGATCATCTTCTGTTTTTTTCTTACCTTTTTCATTAAGTGGTGGTATGTTGTTTCCTTGTTTTAATTCTTTAACTAAAAAATCAGCAATATCACTATATGCACTAATTTTTCCATCGACAAAGGCCATTTCAGTAGCATATTCTTTTTTAGAAATTTCTTTTATAAACTCAATAGCTGCTGAAGTTTTATCCATTTCTTCACCTTTATTATTTTTTAGTTTTGTATTTGAAATAGATGATTTAATACCTCAACCATATCCACCAGCAAACCCAGTTAATTTATTTTTACCTTTATTAAAACTAATATCTCCAATTGATGCAAACCCAAATTTATGTCCTTTATTTTTTGGTGCTTTTCTCATAGTTTCAAGTTTTGAACTAACTTCTCAAGGACCAACTAAAGTCATTGCTGTTGTTCCATCTCTTAAAGCATCATCTAAAATTTGACTAATTTGACCAGCAGCTCCCCCATAAATTTCAGTAATGTGTCCACCTAATGACTTAACATAATCAACAATAGTTTGTGTTGTTTGATTAAAATCATCCTTAAACATATCATTTTCTCAAATTGAATCAAAATCATTAATGTTTGTTGAGTTTAAAGATTTATTTTTATTAACTCAGACCATTCCTAAAGATGAATTATCAGCTTTTAATTTACTAATATCATCAGCTCTTTTATTTAAAATAGAATTTAAAAACATTCCACCTTGAAATGAAGCACCAGCATCAACAAATGCTAAAGGAGCACCTTTATTAACGTTTTCTTTATCTTCAATTTCATTTAGATTTTCAAATTTATAATTATTAGTTTGAGCTTTATTTAAAATAATTAGATTTTCAATGCTTGCTTTTGGTTTTCCTGATAGTTTTTTACCAGAAGGTTCATTATCCATATATTTTTCTAGCTTATCTTTAACTTTTTCAAGTTCTGAACCAACTAAATATGCATATAACTTATTATCATCACCTTTTTCTTTTTTAATTCCTAATCTATTTTCATCAAATAATCAAATCATATTTTCAATAGACATAGGAATCATTCCATATAAACGATTACCTTTTAAATCACTACCTAAAACTGTTTTTCAAGTATTAACATTTTTTTCTAATTTAATAGCATCAACTCCAGATTTACTATTATCAATTTTTATTCCAAAACGATCTTCATCTTCTTTAGTTTTTATTAAATCTTTTTTAATATATTCAGTTAAGTCTTTTAAAGTATTTTGATTTATATATTGAGGATAACGATCTAGTGGAATTGCAAAAATATCTGAAATTCCTTTATCTCTAACTCCTCTTCCATCAATTAATTTCTTTTCATCAAATAAACCAATTTCTTTTAATTTAACTCTTCACTTATATCCTTGTTCTTCAAATCTTTTATTTACCTTATTAGCAGCTTGTTGATAAATTGGAACTCATTTATCATTTGCTTGAACAACTATATCAGTGTTGTTAGTTGTTTTACATGCTAACACTGTTAAAGCAGATCCACCAACAACTACTAAACTAGTTAACATTGTTAATATTTTTTTCATAATTTATCATCTCTTTTAAATTTTTTATTTATCTCATTTTTATATAATGCATATGATTTTTCATATAGTCACTATTCATTTTTATTTTATTATTTATGCTAATTTCTTTGTAAAAGCATATCTAACAAACTTGCTATCTTGTCTATACAATAATTAGCATTAATTGATAAATAAACCTATACAATATATAAAAAAGAATTAATATTAATTAGGTATATTAGTAATTAGGTATATTAGTTTTTAAAAAGGAGAAATGATGGTAAATATAGAGCGTGCAGCTATTTTACATATACCAAAATCTAACATGGCCTATTGTTATGATAAAGACAGAATTCATATCGTTTTAAGAGCTAAAAAAAATAACTTAAAAGAAGTGATTTTTCATTGCAGTGAGCCTTTTGAACCAAAAGTTGTAGTTGAAACAAATAACTATGATTTAAACTTAGAAAAAACAGCTATGAGAAAGGTTGGATCAACTGAAATTTATGACTATTGATTTATTTCAGTTAGACCACCATTTAAACGTTTATCTTATTATTTTGAACTAGCTAGTGAAAATGAAAGAATTTATTATAGTCAAAAAGGATTTTATCCACTTGAAAAAATAAAAAGTGTACAAACTAGTCAGTTTAGTTTTCCTTGAATGAATGAAATTGATATTTTTGATGTTCCAACTTGAGTAAAAGACACAATTTGATATCAAATTTTTCCAGAAAGATTTGCTAATGGAAATCCTGAAATTTCACCAAAAAATGTTTTAGCTTGAAATTCAAAAGCTCCAGCTGCAGATAACTTTTTTGGAGGAGATTTACAAGGAATTATTGATCATTTAGATCATTTAGTTGAACTTGGTGTTAATGGGTTGTATTTATGTCCAATTTTTAAAGCAAGAACAAATCATAAATACGACACTATTGATTATTTTGAAATTGATCCACATTTTGGAGATAAAAAAACTTTTAAAAAGCTAGTTGAAGAATGTCATAAAAGAAATATTAAAGTAATGCTAGATGCTGTTTTTAATCATTTTGGATACTGACATCCTTACTGACAAGATGTTTTAAAAAACCAAGAAAAATCAAAATATAAAGATTGATTCTATATTAACAAATTTCCTGTAGAAAAATTAGATGAAAATCTAACTGAAAATACTAGTTTAGATTTAAACTATTACACATTTGCATTTACTGGATATATGCCTAAAGTAAATACAAGTAATCCTGAAGTTAAAAAATACCTTTTAGAAGTTGCTAGATATTGAGTAGAAGAATTTGATATTGATGCATGAAGATTAGATGTTGCAAATGAAATTGATCACCATTTTTGAAGAGAATTTAGACAAGTTGTAAATCAAAAAAAACGTACTTATATTCTTGGAGAAGTTTGAAGTGATTCAAATCCTTGATTAAAAGGTGATCAGTTTGATGGAGTTATGAATTATGTTCTAACAAGACAAATTATTGATTTTGTAGCAACTAGAGAAATTGATGTTAGAAGATTTAAAAATCGTGTTACAAACGTTATCTTTTTATATCAAAAAAACATTTGACCTGGAATGTTTAACTGTTTAGCAAGTCACGATACAGCTAGATTATTAACATTATGTGAAAATGATCCAAATAGATTAAAATTAGCTTATTCTATTTTATTTACTTTATCTGGTTCTCCAAGCATTTATTATGGTGATGAAATAGGATTAGATGGAGAACATGATCCAGATTGTAGAAAATGTATGATTTGAGATAAATCTCAATGAAATTTAGATATTTTTAATCATTTAAAAAATCTAATTAAAGTAAGAAAAGCTCATCCAACTATTGGATCTTATGGATTTTTAGAATTTAAATCATATGATGAAGAAAAACAATATTTAGAATATATTAAAACTGATACTAAAACTCATTATTTAATCTTAGTAAATAATAGTGATAATCAAATAGAAGTTGAGCATGCTGATTTAATTAATAACACTGAGTTATTAACTAATGAAAAACAAACTAATTCTAAAGTTGTTTTAAAACCATTATCTATGAAAATATTTAAACTAAATTAAGCATCTTAGATGCTTTTTTTTAGTTGTATGCACAATATTTTTTAATTACTAAATAATAATATTTATTATTATTTAAAACTTAATTTAGAATTTTTATGTAATTAATAAAAGGAGAGTTATGAAAGTAATAGATAGAGTTGCTATTCATCATCAACAAAGATCTAATATGGCATATTGTTATGATAAAGACTATATTCATATTATTTTAAGAACAAAAAAAGATGATTTAAAAAAAGTAATTATTCATCATGGAGATCCTTTTTTACGTGGACATTATTTATTAGGTAATGATTATATTGACTTAAAACCAAAAGAAATGACTAAAAGTGGATCAACTAAGTTATATGATTATTGATTTGTAGAAGTAAAACCAGAATTTAAACGTCTAACTTATTTTTTTGAATTATTTGGAATAGAAGATGATCATTGTTATTTTGGTGAAAAAGGCTTTTATGAAACTGATGATTTTAAAATGATAAATACTGGAGGTTGAGGGTTTAATTATGCTTGAATGAATCCAAATGATGTTTATCAAGCTCCAGATTGAATAAATGATACTATTTGATATCAAATTTTTCCTGAAAGATTTGCTAATGGAAATAAAAATAATGATCCAAAAAACACTTTAGCTTGAAATTCTACTGATCCTAGTTATGATTCTTTTTTTGGAGGAGATTTACAAGGAATTATTGATCATTTAGATCATTTAGTTGAACTTGGTGTTAATGGGTTGTATTTATGTCCAATTTTTAAAGCAAAAAGCAATCATAAATATGACACAATAGATTATTTACAAATTGATCCTAACTTTGGAGATAAAAAAACTTTTAAAAAACTAGTTGAAGAGTGTCATAAAAGAAATATTAAAATCATGTTAGATGCTGTTTTTAATCATGCTGGATATTGAAATAAATTCTGACAAGATGTTTTAAAAAACCAAGAAAACTCAAAATATAAAGATTGATTTTATATAAACAAATTCCCTTTACAAGAAAAAATAATTGATAAAAATAATCAAGAAAAAATAGTTAATAATTATTATACTTTTGCATTTCATGAAGTAATGCCAAAAATTAATACAACTAATAAAGATGCTAAAAAATACTTATTAAAAGTTGCTAATTATTGAATTAAAGAATTTGATATTGATGCTTGAAGATTAGATGCAGCAAATGAAGTTGATCACGAGTTTTGAAGAGATTTTAGAAAAACAGTTAATAAAAATAAACCAATTTATATACTTGGTGAAATTTGAGGTTATGCTCATCCTTGATTAAAAGGAGATCAGTTTGATGGTGTAACTAATTATATGATTACAAGTCCAATTTGTGAGCTTGTAACAAAATGAATTAAACCATCTAAATTTAATGACAAAACTACTGAAGTTTTAAATAATTATCCTAGAAATGTCTTTAAGGGAATGTTAAATTGCTTAACAAGTCATGATACTACTAGATTATTAACTTTATGTAATAATGATATTAGAAAATTTAAACTAGCTTATTCTTTAGTATTTATGTTAGCTGGAGCACCAAGTATTTATTATGGTGATGAAATTGGATTAGATGGAGCTCATGATCCTTTAAATAGAAAATGTATGAACTGAAACAAAGATCAGTGAAATCATGAAATCTTTAATTATTTAAAAAAACTAATTCAAATTAGAAAACAAAATCCTGTTTTAGGATCTTATGGAACTTTAAAATATACATTAATTGATGATGATAAGAACTATTTAGAATTTATTAAATATGATGATAATAATACTTATTTAATTTTAGTTAATAATAGTGATGAAAAATTAGAAATTAAAAAAGAAGAATTAGTTAATAAAACTGATCTAATTTCAGATCAAATTCAAACTAATAATATAGTTAGTTTAAACCCAATTTCTATGAAAGTGTTTAAAATAAGATAATGAAATTTAAAGGTGTTATTTTTGATTTAGATGGAGTAATTACAGATACTGCTCCTTTACATTATCTAGCTTGATCTCAAGCTGTTAAAACTATTGGAATTAATGATTTAGATAAAACTTTTTTAGATAAATTAAGAGGAATTAGTAGAAAAGAATCTCTACAAGTAATTTTAGATTTTTATAATCTGAAATTAGATCAATCTCAATTTAATAACTTATTAGAACAAAAAAACTTATTATATAAAAAAGCTTTACAAAATATAGATAAAACTTGAATATTACCTGGAATAATTGATTTTATTAAAGATTTAAAAAAACATAATATTAAAATTTGTTTAGGTAGTTCTAGTTTTAATGCAAAAGATATTTTAACTAAATTAGAATTAATTAATGAATTTGATTACTTAGTTGATCCAAGTGAAATTAGACATTCAAAACCAGCTAGTGATATTTTTATAAAAGCTAGTCAATTATTAGGTTTAGATGTTAAAGAATGCGTTGTTATTGAAGATGCTATTGCTGGAGTTCAAGCAAGTAAATCTGCTAATATTTTTTGTATAGGAATTAATGTTGATGCTGATATTAGATTACAATCAACTGCTGATTTATCAATTAATTTATTAAAATAACTCATATCTATTAGAAAAACTCTAGTTTTTAATTAGAGTTTTTTTATATATTGATATAGTTAAGCTATTATGTTATATTATTAAGTTGCAAGAAAAGTGAGTCCAAATTATGAGAAAGTTTAATAAATTATTTTTAACAATTTTACCAATTTCAAGTATTAGTACATTTAGTGTAATTTCATGTACTACAAATACTAAAAATAATGCTGAAATTCCAACAGTTCCAAATAATAAAAAACCAGATAATCAAAAACAACCTGATAAAAATAAACCAGAATCAACTGAAGAACACACTAATAAAAAACCTAATGAAAATACCAACGATCAAAAACAACCAAATAGTAGTGAAAAATCTGATGCTGAACCAAGCCCCGGTAAGCCAGAAAATAAACCAGATAATTCTCATAATCCAAAACAACCAGAAAACCCAGAAAACAATAATTCAAATAATGACCAACCACAAGGTGATCAACCACAATATGATAAAATGCCTGATAACAATGTAGATTTTAGTGATCTAAAAACTATAAAAAGAGAAATATCTCTTGATCGATTCTATAAATATTCACAAATGACAGCATTATCATCATGAATTGATTTAAGAACAACCCCTAATGTATTTAAGAATATAATCTTTAAGGACTACCCTTTTATAACAAATAAATATAACATTAAATTTGAATCTCTAACTGATGTTATAGAAGATAATCAAAAAGGGTTAATAAGTAATGTAAAAATCAGATTTACAAAGGAAAGTAAATTTGAAATACTAGAATTTACACTAACAGGTTTTAAAAAAGAATATAAAGTAGACAATAAAAATAATAAAGAAAATTATATTAAACAGAAAGATAAAATTGATGAAAAATTAGCAGGTTTATATCCATCGCTATTAGCTTATATGTTGTTATATACTGAAGAAAGTGGAATTAACAGATATGATAGAGATATAAAACAATCTGGTAATGTAATAAACTTTGATGATCTAATAAATAATAATCAAGATTTATTTGATTATAACTTTTCTGGTTTTAGTGTTGGAACTAAAGACTTACTGTTTGACTATAATAGAAAAGATGAGAAGTTATATAAAGATAAAATAGTTGAATCAAAATATGACGATATAAATGGAACTTTAGGACTAAAAGTTGAAATATCAAATAGAGATGATAATCATTCAAATGAATCAACAATAACAAAAGAATTTAACTTTAATGGATTTAGAAAAATTGATATAGATAATTATAAAAATAATCCTTTTACGTTCTCATTATTGCCAAAAAATCTTAGTGAAATAATAAAAAATGACAAAATAAGAAAAACACTAGAAGAATCTGGTGTATATATACATAAAAACTAAGTAGATGAATTTGGTGGTTTTTATTCTAGAGATAATATATGAGAAACACTTATATTTAAAAATTTATTAGTTGATTTAACTGATAATGATCATCATACATATAGATCTAATAAAACATTAAAAGTAGATTATAGTGGTTCAGATAAGAACTACAAATCAATTTTAGGATTAAAATCTAATCAGTCCTTATATCCATTTCACACAATAATAACTAAAGATTCTATTAAAAATATTTTAGTAACTATTAAAGATAAAAAATTTACATTAGAATTTGAATTGCATATTCCAATTTATAGTACTTCTTTTAGTAATTTATTATCGCATGCTGGATCCGATAAAACTCTATTAGTAAGAGTTTCTCAAACAACTCAAATCGATTAATAATTAAAACAAGAGACCATATGATCTCTTGTTTTTTTATACTTCTTTTCCATCTAATAACAAGTTTAAATAATGTCCTAATCCACCTTCATCATTAGTATAATGAGTAATGCCTTTAGCAACAAACTTTAAACTATTTACACCATTTTTCATAGCAACTGAACAACCAACAGTTTTTAACATTTCTAAATCATTTAACTGATCTCCAAATGCTATTACATCTCTTATATCTTTATTATAATATTGAGCTAGAAAAATACTTGCAAAGCCTTTATCAGCATTTTTATTAGTTAAAGTAATTACTGGTTTTGTTTTACTTGTAGTTATTCCATATAAAATATCGCTTTGAATTTTAATGGCATCTTGATATTTTGTTAAAACTCTAATTACTTCGTCTTTATGTTTATCTGATTTCAATTTTAAAACTAAATTATTACTTGGTGATTTTCAATCTGTATATGGTGAGGCTTTAATAAATTGAAAGTCTTTTGAATTTTTAGCTTTGTTTAAATGAAAGAAATCTTCTAATTCTTTATCAGTTTTTCATAATAAGGACTTATCATAATATTCAATTAAAATATTTTCAACATTATCTTTAATAACTGGTTCATTAATAATTTGTTTAATGATTTCATAATTAATTGGTAAAACTACTCTTTTCATTAATTTATTATTTGGGTCATGAATATGAGCACCATCAAAATTAGCTAATAAAGTAGTTAGCTTTAATTCTTTATAAATATGTTCAACTGCTCTAAAAGGTCTTCCAGTAACTATACAAACAATATGTCCTTTTTTTTGAGCATCAAGTATAGCTTTTTTTGTTATTTTATGAATTTTATCGTTTTGATTAGTTAAAGTAGTTCCATCTAAATCTATTAAAATTAAGCGTTTTAAATTTAAGTCTTTTAACTTCATAATAAAACCTCTTATCTATAGTAGTACTTATTATTAATTTTAATTTATTATTTAGATAAATAAAAATTAGCTAATTTTTAGTAATTAAATTCAAAATAAACTGTGAAAAATAGGGTTCGAATAAAAAAGGTGAAAATACACTTTAATTATTCGCAGATAAAAAATGTAAATAAAATATATATAAAAAAACAATACCTTAAAGTATTGTTTTTGAAATTATTTATTTAATTTTTTATTCTTTTCTTGATAATCCTTTTTTCACAGTTCTCTTCAATTTCCTTTGAATTGATCAAAGTAGATATTTTTACCAGTTTTGTCATCAAACTTCATTGGATTTAATGATTTATATCCACTAGTTTTCTCTTGTTCATATTCTTTTTGTTGTTTTGCAAAATCTTCTTTAGTAACAATTTTGTCAAATATTCTAACACCAACGTATCTTTTTGCATGTGAACCTGTTGGTCAAGTTGGTTTTGAAAATTCATCAACATAAGAAATACTTGGTAAAGTATCTGCTAAATGAGTGTGAGTAGGGATTATAATAGCTGAAGATAAAGTATAGTAGTTTTCTAATTTAGCTAATTGAGTATATCTCTTATAAATATCTGCTTCATTTTCATCAATATAAGTTAATTCATTAGTGAAGTGTTGAATAATATTTTTTAGATCAGCATAAGCTTTTTCTAATACTTCTTTATCTACAGTTTTATCATTATCTTTTAATTCTAATTTAATATCTTTTTCTCTTTTTTGACCATTAGTGCCATTTGAAGATGTTAATTTAGATTTATTAAACACTTTAGTTCAACTTTGAATATGTTCATAAACTCCACCATATTTTAATGTTGCTAAATAGTTAGTAGGATCATCATAATCTGGAGATCATCCAAAAGAAGCTAGTCCATATTTTCCTTCTCTTAATTCTTTTAGATAATTAGAAAGATCAATAGGTTTAACAATATCAAAAACAATTGGAGAATCGATATCATTAGTATCATGTTTTCTTACAAGGTAGTTAAATGAACCAAAGAACTGAGCAAATTTAATTTTAAAATCATCGGCTCCATTTGGATATAATAAGAAAGGAATAGTAATAGGTTTATTATAATTAGTAATACCAGCTATTTTTTGCAAATCTTCTTTAACTTGTCTTTTTAATAAGTTAATTTTTTTATATAAATTCTTTAGAACGTTATCTTGTTTTTTAGTGTCTATTTTTGGATTATAACCAGCATCATAAACACCGATTAGGTTTGCAAATTCTTTAGCTAAATCTTCATTCTTAAATTTAACAGTTTTTGGATCTCTGTTTAGATTAAACAATCCATTGCCTTTGCCATTACCACTGTCACCATTAGCAGCAGACTGTAGTTGATCTTCTTGTAAAAACGCTGTAAATGCTAATAAATCATTTTCTAAAAATGCATCATTACCTTCATTATAAACACTGACTTTGATTTTACTATTTGGATGTTTTGAGTCATTAACTTTACCAAAACGGTTACCTCAGTTTTTAATATTTTCTGGGTTGTGTCATTTCTTTTGTTTTAAAACTTCAATAATTCAATCACTTCATGATTTTTCATCAGTATTATTTGTTGAAGATGAAGTAGATGACACATCTCTTCTTGATCTAGTAGGAGTAGTAGAACTTGAGGAATTAGCATTATTTTTTGGACTATTATCATCATTGTATTTTCTTATATCATAATAATCTTTTGCTAAAAAATCAGCATAATCAGCTACTTTATCTATTGAACTTTCATCTATAACCTGATGCTTATTATCATTAAAAGTAGAAACATATTTACTTGTAAATGTATTTCTTAATTGTGTACTTGTAGGTCTATCAACACCATCTCTAGCTTCAGAATAAAACTTAGCATATATAGAACGATTTAATGCATATCTAGCTAGTATTCTAACTGATTTTAAAGCAAGAGCTCTGTTTAAAATACTATCTTCTTCAGGTGTTCTAGTTCTTTTTTTACCAGTTTCAACTAAACTTCCTTCACTATTAAGTTGAATGTTGTCATAAATTTGAGTTCCTTCACTATGGAAATTAAATCCTAAGGCTCAAGTAGTAGTTGGTTTTTGTTTTAAAACATTAGTTCCACTAAAAACAGGATTTTCTTCATCTTTTCCAACATATTTTTGTCAACCAGCTAAATCATTTGCATTGATTTTTGTAGATGAAACATCGCCAGTTTCAAATAAAAATCTTCTAGTTGCAGCATCAGCTTTATTAACATAACTATAATTAATTTTTTCTATGTAAACATTCTCTTTATTGTAGTAAAATTCATTTCTAGTTAGGTTTAAGTTTGACCCTGGGAAATAATCTTCAATTACATAAGGACCTGAATATCACAAACCATTATATCCAGATTTTTTACCTAACGGTTTTCCATAATTAGTTCCAGCATAAATATTAGATACTTGATCTTTATCATTAGCATAAAAAAGCGCAATTTCTGGAATAGGAGCAAAAGCTAAATATGAAATAACAGATTCAAAATAAGAAATCTTTTTAGAAAGATAAAATCCAATATCAAATATACTTTGATCTAAATCATCTTGAGATTTATCACCATTTACTGCTGATTTACCATCATTAACTATTTTTCCACCTTTAAATGATTCTTTTACTAAATCTTTAGTAGATTTTGAAGTATCTAGTGCAACTTTTTTAGCTCGAGCTTCGTCATTTGGAGTTAGGTTAAATGCTAAAATCGCTCTATCAATTCAATAACTTGAACTTAATTCATTTGTTCTTAAATCACCAGGAAGATCTTTATTAAAACGAGAATCATATAAGCTATGAGCTTTTGCTTGTCCGTTACTTTTATCATATTTTGGATCAGATAATTTATCTATAAAATCCATCAATTGGGGGACATACTTAAAGTTGGTTAGGAAGTGCTCAGTAGTTAATGCTAGGTTGTTTTTATTTAAAACATATCTAAAAGTATTAAAAATGTCTAAACCAGTTATTAAATCACCTTTAACTTGCTTACCGTTTTCAATTTTAGTTCAATAAGCATTTTTTCTAAGTCTAAATTTTCAATAATCTTTATTAGAGTTGTGATCTCAATATTCTGCTAAAGCTCCTTCATAATGATCATGTCTATTTACTGTTAATAATACATCTTGTAAATTAGCAATAATATCAGAATCATTTGAAGTATTGTTAGTTGCTGAGTTTAAATTAGCTAAAGAATAGTTAGTAAGTTCACGTAAAACTTTAGTATTAGAATTTTTTCTATTTAAAATTTTATCTAGACTAATTCCAACTGAACAACTTACAGCTGAAGCTGCAGCAGTAGCTATTATAGAACCTAGCAATGTCATACCTAAGACTTTTTTCATAAAACTTCCTCCTTTCTTATTTATTTTTTAATTGTTCTTTATAAGCTTTGATTTGTTTTTTATAAGCTTTGATTTCTCTTTCATTAGCATAAACAAAGTGACCTTTAGAAACTTCTACTCATTTTGGAAAATCTACTAAATAATCATGATGTTCAACTTCTGGTTGATAAACAAAGTGAACTTTTTTACTTTCTTGAATTGGATCTGGTAAAGGAATAGCACTTAATAATGATCTAGTGTATGGGTGTAATGGTAAATCAAATAACTCATTAGATTCAGCTAATTCAACAATATCACCACGATAAATAACAGCAATTCTGTCTGTTGCAAATCTTACAACTGATAAATCGTGAGCAATAAAAATATAAGTTAAATCAAATTGTTTTTGAAATTTAGCTAATAAGTTCATTATTTGAGCTCTAATTGAAACATCTAAAGCTGAAATTGGTTCATCAGCTACTACAAATTTAGGTTTCATAATTAAGGCTCTAGCAATACCAATTCTTTGACGTTGACCTCCTGAAAACTCATGAGGATATCTTGATAAATGTTCAGGTAATAATCCAACAGTTTCTAATAATTGATTAATTAAAAATCTCTTGATATCTTTTTTATCAATTTCTGAAATATCAGCTATTTTATTTTCTGGATTTTTTTGATTAAATCATTGTTGATATGCTTTTTTAACCTCATCATTTGAATAAAGTTCAGGAAAGTTATCTAAACCTTCTTTAATGATTTCTTCAACAGCCATTCTTTCATTTAATGATGAACTTGGATCTTGAAAGATCATTTGCATATCTTTTTTATTTTCTTTTAGTTCTTTTTTATTTGGTGATTTAAAAATTTCAGCAGTTTTTAAATTATCATAAAAATCACTATTTTGAACAGTTTGTATAACTGATTGATATTCTTCAGCTAGTTTAGTTTTATTATTTAAATTTAAATATTCAATTCTTTGTTTTAATTTTTTTAAATAATAACTGTTTTTATATTTTGGACAAGTTAAAGCTAAATTCATTAATTGATCATGACTAGCATCTTCAAGTTTAGGAGTAATTAGTTTTTGACTTTTAATAACTAATTTTAATCTAGAACCCATTTGATCAAAAAACTTAGTTACTGAAGTATATTTACCATCATTAACATCATTTCTAATAGCTAGCATTTCTTGTAAAGTGTTATAAATAGTATTTTCTAAATCTTTAACTTTTAAAATTGAATCATGAACAAAGTCTTGATATTTGTTAATTGCATCTTGTAATTCTACTTTAACACTTGTATGTTTTGAAATGTTTTTAGTAATACGTGATGCTTTTTCTTGTAGTCTAATAATTTTTAATAAACGTTTTAAATTATCAGTAATTGCTTGAATAACAATTGATAAATTAGCATTCTTTTTAACACTTACTAATTTAGTTGTATTTAGATTAACTCCTTCTTTAATAATTCTTGACTTACCATCTTCATAATCTTTTAATTCTTGAGTTTTAAAGTCAAAAAACTTAGATTGAACATATTTATAATAAACTCTTTTAAATTCATTAGAATAATCATTTAAACTAAGTGAAGTAGTTAATTGGTTTTGTTGCATTATATATAAGTGTCTTGCAATTTTTTGATTAATTTTATAAACATCTGGAGATTTACCTCTTAATAGTTTATTTTCAAAATAAATTGCTCCATCACTTACTGGTTGAATTCCAATAATTGCTCTTCCAATTGTAGTTTTACCAGATCCAGATTCACCAACTAATCCAAAAGTTTCACCTTTATAAACATCAAAAGTTACTCCTTTAACAGCTTTTAATTTATTTCTACCGTTTCCAAATTCAATCAAAAGGTCTCGAACTTTTAAAATTGCTTCATTTTTCTTTTTTATCATTTTATTCACCAACCTTTGAATCTGAAACAGCTTTTTTTAGATTATTTAACTGTTTTGGACGTTTAATTTTTGGAGCACGTGGATCTAATAATCAAGTTTTTGCATAGTGAGTATCTGATATTTTAAACATTGGTGGTTCATATTTATAATCAACTGCTAAAGCAAATGTGTTTCTTGGTGCAAATGCATCAGCTTTAATTTCTTTAAATAATGAAGGTGGAGTACCACTAATTGAATATAATTCTTCACCTTTAGTTCCTAATTGTGGAAGTGATGATAATAATGCTCAAGTATATGGGTGTTTTGAATTAAAGAATACATCTTGTGTAGTTCCATATTCAATAATTTGACCAGCATACATAACAGCAACTCTATCAGCAATATTTGCAACAACTCCTAAATCGTGAGTAATAAAGATTACTGTAAATTTGTATTCTTCTTTTAATTCTTTAATTAGATCTAGAATTTGAGCTTGAATAGTTACATCTAATGCAGTTGTTGGTTCATCACAAATTAAAACTTTAGGTCTACATGCTAAAGCAATAGCAATAACAACTCTTTGTCTCATCCCACCTGAATATTTACCAGGCAGATCTTTATAACGCTTTTCAGCATTAGGTATTCCTACTCTTTTCATTAAATTAATAGCTTCAACTTTAGCTTCAGCTCTATTTAATTTACTATGATTTCTTAAAACTTCACTAATTTGATAACCAACACTTAATAAAGGGTTTAAAGAAGTCATTGGATCTTGAAAAATTGTAGCAATAGTTCCACCACGTAAATGTTGTAGATTTTTATCAGTACTTCTTTTAATTCAAAAATTAAAACGTTTAATAAAATCTCATAACTCTTTTAAAGTTTCTAGTTTTTCTTGATCTAGTTTTTTAGTTTGATTAGATCTAATATCATATAAAATTTCTAAAGCTAAGCTTTCAAAATTATTTTTATATTCGATTTCATCTAATCACTTAATATGTGGTTCTAATTTATTTATATCTTCTAATTGATTATTATTAACTTTATTAATTAAATTAATAATTTGAAAATATCTAAATTTTTTATAAATATTAACTGTTTTAAAATTATAAATTTCTTTTTTAGCAGTTTGAATAGTTTTTTCTAGTTGTTGAATTTCAAAGTCTAATTTCTTAGGATCTTTTTTTCATTCAATTTGTTCTTTTAATTGTTTAATTTGTTCTAAATACTCATTTCTTTTAACTAGTTTTTTAGTACTATTAGTAAATTCGTATTTTTTTAATAAATTAGCTTTTTGTTGTAATTCATCAATTTTTAAATTTAAAGATTCAATAGTTGATTCTTTTAATTCTTTAATAGTCAATAAAGCATCTTTAATTTTTTTATTATTGTATTTTTTAATTCCTTTTCTAGATTCACTTTCTAAAGAATTTTTGTGAAAATCAACTAAATCAGTATCTTTTTTAAAAACAGCTGATTCATTTTCTCTAGTAGCTTTATTTGGATAATACATAATTGATCCATTAGCAATATAACCATTTGACTCTAACATATTAGTTAAAGTTTTAGTTAATACTGATTTACCTGATCCAGATTCACCAACTATAGCAACAGTTTCACCATCATAAATATCAAAACTAATATTTCTAATAGAAGTTAAAACTTTAGAACGGACACGAAACTTTACTACTAAGTCTTTAATTGATAAGATAACGTTTTTCATAAATATGTCCTTTCTATCTGTGGTTTTTTGGATCTAGTGAATCAGCAAATACTTTTAATACTAAGAAAAATAAAGTTGAAATAATACAAATAAATAAAATTGGTAAAACAATTAAGTGTGGATAAACTTGTCATTCACTTGATTGCATGATTGATTGTAAAATTTTTCCAAGTGAAGTATTTACTTTACCATCAACAAATCCTCTATCAAAATAAGCTAGAGTTGATTCAATTGCAATTGCTGTTGGAATTGAAAATGTTGATACTTGAATTAATACTGGTAAAATTTTTGGTAAAACATTTTTTCTAATAATTTTATCTGATCTAGTTCCTAGTGTAATTGAAGCAATATTATAATCAGCATCTCTAATTGATAAAACTAAAATTCTAATACTAAATGCTGGACCGATTCAAGCTTGAATAACAATTCCTAAAATCATAGGTCAATATCCAATACCAAATACTGACATAATAACAATAATTAAAATTAGTTGTGGAATAACTAGAATTAATGAAGTTAATTGGTAGAATAAAATATCTAGTTTTCTATAATATCCTCAAATTAATCCCATAATAATTCCAATTGATAATTGTAAAAAGGTCATAACAAAAGCAAAAGATAAACTACTTCTTAAACCTAATCAAATCTCGATTCAATAATCTTCACCATTTCTACCCAATCCAAATCAATGTTGAGCTGAAGGATGTTCTTGAGTAACTCCTGGAGTTTTTAAAGGAATTGCTTCTTTTCCATAAGGAACAATTATTGAAGTTAATAATAAAGCTAATAGAATAATTGAACAAATAATAAATACTTTACTAGTAATTAAAATCTTACCAACAGCTTTTCAATAACTATATGGTTTTGTAATAATAGTTTCACTAGTTTGAGCTTGTGAACCAACTAATTCAAATAAAGAGTGATCTATTTGATAAATATCTAAACCGTGTCTTTTAAAAAACGCTTCTCTTTCACTATCTAAAAGTGCTGAAAAATCTGGTTGTTCTAATTGTTTTGTTTTCATATAAATCACTCCTTTCTAATCTTTAGTTAAACTTACTCTTGGATCTAATAACACGTGAACTAAATCAGCTAGTAATTTTGCAAAAATACTTACAAATGAAGATAAAACTGTAAATCCTAAAAATACAAAAAAGTCATTTCCACCAGCTGATTCTTTAATTAATCTACCCATTCCAGGAATAGCTCATTGAGTTTCAACAATCATTGAAGATCCAAATACTGTTAAAATAATTTCACTTGGAATACTTCTTATAATTCTTACTCCAGCATTTCTAAAGATATGTACATAATATGTTTTATTTGAACTAGTTCCTTTAGCTAAAGCAAATTTAGCATAATCAACAGTCATTTCATCAACTATGTATCTTCTTACAAATGTAGCAATACCTGGTAAATTAATTACAACAATTGCAAAAATAGGTCAAAATCTAGTTGCAAAACTTCCTGTATTATAAATTCCTGAATTTCCTAAAACAGCTACTGAAAAAATAAATGTTCCAATAATAATAACAATTGATGGAATTGCTAATAATAAAGCTGAAATTCCATTAAATACATTGTCAAATAATTTTCCTTTTTTCTTAGCAGCTCTAACACCAATTAAAATTGCTAAAGCATAACTAATTAAAACTGAAACTGAACCAATAGCAAATGAGTATGGCATTGCTTTTAAAAATATTGATAAGGCATCACTACCTTCTTCAGCAATAGTTGTAGCTGTTGTTACACCTAAATAAACTCATCTAGTTTCAGTAATTAGTTTTGATGAATCAATAATTGCATTACCGTTTTGTAAAATAGTTACTTCTGAGCCTAAAACAATTTGTTTAGGAATAAATGGTGTGATGTTTTTTAAATATGTAAGAATTTGTGGAATTAAAGGACCATAAACACCAAAGCGTTTCATACGATCTTCTAATAACTTATCTTGTTGAGCTCTAGATAAACCAGTTTTTTCAATGTCTGGTGGTAGATATTTTGTATCTGGAGTAATCAAACGTATCACAACATATAAAATAATGATCGATAATAATAAAGTAATTAAACCATATAATATACGCTTAAATGAATAACCATATAATGGATGTCTTACAAAATACTTATAAATATTTGCTGATGTATCATAATATCAATATTTAAAAGTAGTCCATTTACTTACTTTATGTTGTTGATTAGTTTCATTAAGTAAACTAAAATCATCAAGAAGCAATTCAGAATTTAAATCAAACGCTTCTTGTTTAGTTTTTAATGTTGATTTCATAAAGCTTTTCCTTTCTATTAAAATATATTAAAAAGCAAAATAAGTTAACCAAATTAACTTATTTACTAGAAATATAGTGCTATTAAAACCACTCAAAAATTTATTAATATATTTTTTTAATAGTACCAAAATATTTTTCAAATTTAATAAAAAAATAAAAAAAACTCTATTTTTATAGTTGTTTTGTTATATTTAAAATTAAAAGGTAAGTTTAAGTATGAAAAAATCTAAAGTATTTAAAGAACTTAAAGATATTGATAAGTTTACAAAAGAACAACACGAAAAACAAGTGAATAAATCTATTAGTCAAGTATATGATTCAGATGATTTTAAAATGAATTTTTATGATTATCAACAAGCAAAAAAACTAAGATTAATTGGATGATTAATTGTTTTTTTAATATTTATAATTGGTAGTTTGATTGGTGTTTTAGTTGGGTATTTAACATTAAATGTTAGTAGTTTAGATAATTGAAAAGGAATTAATTATTTTAATGTTTTATATACAACAATTTTATTTTTTATTGGATTTATAATTGGAGTTATTAAAAATAGACAAGCAACCAAATTTTTTAACGATAGAAGAAGAAGATATCAAAAAACACTAGAACTAAGTGAAGCTAAACTAATTAGATTAAAAAAGATTTTTTATTTAAGTGGTTTATTAATGTTAGTTTTAACTATTATTTTATTTTTAGTTTTTAAAATTTAGATTTAATAATTAGTAGAATTAATAACTAATTTATATATCTATATAATTTAGTTAGTTATTATTAGGAGGTTTTATGAAGAAATTATCAACTAATCAAATAAGAAAGATCTGATTAGATTTTTTTATTTCTAAAGATCATTACTTTTTAGAAACAGTATCTTTAATTCCTGTTGATGATCCATCATTATTATGAATTAATTCAGGAGTGGCTACTTTAAAACCATATTTTGATGGACGAAAAACACCACCATCACCAAGACTAACTAATTCTCAAAAAGCAATAAGAACTAATGATATTGAAAATGTTGGAGTTACAGCACGTCATCACACTATGTTTGAAATGCTTGGTAATTTTTCAATTGGTGATTATTTTAAAAAAGAAGCAATAGAATTAGCTTGAGAACTTTTAACAGATAAAAAGTATTTTGATATTGATAAAAATAAATTATATATTACTGTTTTTAATGAAGATACTGAAGCTTATAATATTTGAAAAGATATTATTAAAATTGATGAAGATCATATTTTTAGATTATCTAGAAAAACTAATTTTTGAGATGTAGGACAAGGACCTTGTGGACCAAATACTGAAATTTTTTATGATAGAGGTGAAATTTGAGATCCAAATAAAATTGGACCTAGATTAATTAGTGATGATATTGAAAATGATCGTTATATTGAAGTTTGAAATATTGTTTTTTCTCAATTTAATAATGATGGAAATGATAACTATACTGAATTACCTAGAAAAAATATAGATACTGGTGCAGGACTAGAAAGATTTGCTTCAATTTTTCAAAACACTCCTACTAACTTTGAAACTGATATTTTTTATCCAACTATTAAAAAAGTTGAACAACTAACTAATGATCAATTCAAATACTCAATTGATAATTATTTTAATCCTAATAAAAAACAAACTAGAATTAATACTGCTTTTAAGGTAATAGCAGATCATATAAGAGCTACAGTTTTTGCAATTTCTGATGGTGTATTTCCTGGTAATAAAGATAGAGGATATATTATTAGAAGATTAATTAGAAGATCTTGTGTTTTTGGAAATGAATTAGGAATTAAACAAGCATTTTTATATAAATTAGTTGATAGTGTAATTGAATCAATGAAAGAATTTTATCCTTATTTAATTGATAAAAAAACTTTAGTAGAACAAACTATTAAAGATGAAGAAGAAAAGTTTTTAAAAACTTTATCAAAAGGATATGATCTTTTAGAAAATATCATTAAAACAAAAAATACAGTTAGTGATAAAGATGCTTTATTATTATTTGAATCATATGGTTTTCCAATTGAACAAACTATTGAAATTTCAGAATTATCTAATGTAACAGTTGATGTTGAAGGATTTAAAAAATTACTAGAACAAACAAAACAAGCTACAAGAAATGCTAGAAAAGATTTAAAAGCTTGAGATAAACAAAATGAATTATTTACAAAACTAAAAGTAGAATCTGAATTTACTGGATGATCTGAAACAAGTAGAGATAATGCTAAAGTTATTTATATGTTTACAGATCAAAAACAAGTAGAATCAATAACTGATCAAGAAGTATTTGTAATTTTAGATAAAACTCCTTTTTATGCTGAAAAAGGAGGGCAAGCTGCTGATAGTGGAATTATTTTTAATGATCAAATGAAAGGTTTTGTTATTGATGTTCAACAAGGACCAATGCATCAAAACATTCATAGAATAAAAGTTCAAGGTACTTTAAAAGTAAATGATTTGATAAATTGTAGAGTTGATGAAGAAAAAAGAATCTATACAATGAAAAATCACTCAGGAACTCATATGATTCATTATGCTTTAAGAGAAGTTTTAGGAACTAGTGTAATGCAATCTGGTTCATATAATGATGAAAATGGTTTAAGAATGGACTTTACTTATCATAGATTACCAACTAATCAAGAACTTTTAAAAGCTCAAAACTTAGTATTAGAAAAAATAAAAAATAAAGTTGATAGACAAACTTATTTTTGTAGTTTAGAAGAATCAGTTAATAAACATCAAGCTTTAGCCTTTTTTACTGAAAAATATGATCAAATAGTTAGAGTTATTAAATTTGGTGATTTTTCTTCAGAACTTTGTGGTGGAACTCATGTTAATAATACTAGTGAAATAGAAGATTTTATTATAACTGGGATCGAATCAAAAGGTAGTGGATTATATAGAATTAAATGTTTAACTTCATTTAAAACAGTTAATGAATATTTAAATGAACAATTTAAAATATATAAAGATCAAGCTGAAATTATTATTGATAAATATAATAAAAATAAAGATCTATTAAAAAATGATCAATTAGAAAATATTTATTTACAAATAAAAAATATTACTATTAATAAAGACAATTTATTAGTAATAAAAGATTTATTAGATAAATTAAAAGAAATCAATAAGGATTATGATAAAAAAGTTAATGATTTAATTACAGCTAATAAACTATTAAAATATAAAGATCTAACTCCTAGCTTAAATAAAGATAATGTCAATGAAATTAAATTAGAAACTACTGATTTAAATATTAAAGATTTAAAACAACTAGCAGATGATTTAAGAAATAAATATGATGATTTAATTGTTATTTTATTAAGTAGTACAAATGAAAATAACTTTGTAGTTGTTGCAGTTAGTCAAAGTTTACAAAATAAATATAAAGCAATTGATATTTTTAACAATTTAGAAGGTTATGAGACTAAAGGTGGAGGAAATGCTAATTTAGCTCAAGGTAAATTTGTTAAAAAATAATATTTAATAAATCAAGACTTAATTAATTGTTTTTAACAATATTAGGTCTTGTTTTTTTTTTTTTTTTTATTAAAATATTTTAATTAAATTCATTATATTAAAAGGATAAATAAATGAAGAAATTATTAACATTTTTATCATCATTTGGTTTAATCGCTACATCAAGTTTATTAGTTATTAGTTGTAAAAACAATATAAGTGCATCTAAAAAAGAAGATCATAAAGATAATGAGAATATTCAATCAGATCAATCAGACAATAAAAAAGTTGAAAAAGAAAAAGAAAAACCTAAACCTAAAAGACAAGCAACAGAAGAAGAAAAGAAAAAATTAGAAACTATATTTAAAGAACAAGAAAATGCTTTTGGTACATTTCATACTTATAAAGATGTTGTAGATCAACTACTAGTTTATGCAAATGAAAAAGGTTTAAAAGATATTACTCTTGTTGATGGTCTTAATCCAAATGAACATCTAAAAGAAGACAAAGACGGTAAAGGACAAAATGTTGTTAAATTAAAACTTTATGGATCTGATGTTACTTTTAAACCTAAAAAAGTTTTAAAAGATGAAGTAGAAACAATCTATTCAAAAGATAAGAAAATATTAAAGCAAATAGGTTATAAGAAAATATCCAGCACAGAAATAAAAATAAGTAGGATTACTGAAAATATTCAAGAAGTACCTCTTCATTTACCATTAAAAATAACATCATTACGTGAAGCGTTTTCTGAATCTAAAGTATCAAAAGTAAAAAATTTAGATAAATGAAATACCAAAAATATCAAAAGTATGTATTCTGTCTTTGAAAATGCAATGAAATTTAATCAAGATATATCTGCTTGAGACACTTCAAACGTAACAGATATGAGTGGTATGTTTAAAGACGCGGCTCAATTCAACCAATCTTTAAACGAATGAAAGGTTCATAATGTTGTTGAAATGGAAGATATGTTCGCTGGTGCTACAAGTTTTAATCAAGATTTAGACAAATGAAAAACTAATAGTTTAAAAAATATTAAACAAATGTTTTGGTATGCTACCCAGTTTAATGGTGATATTTCATCATGAGATGTTTCAAAGGTTACTACTTTATATAATACATTTGCTTCAGCTGAAAAGTTCAATCAAGATATTTCAAAATGAGATGTATCAAATGTAACAATAATGCAAGGTACATTTGCAAATGCTAACTCTTTTGATAAAAATTTAAGTAGCTGAAAAGTTGATAAAGTCACCACTACTAGAGACTTTAATAAAAATATTACAAACAAATTAAATAACCAAAAAACTCCTCGTTTTAGCAAAGAAATTACTTATTCTAGTTAATTTGTTTTAAATACTAATACATTGCTAATAAAGTTTATGAATTTTTTCAAGTATTAGTTTAACGAGCTTACAGAAATTAAAATCAATTTCTAAAAAAAATCAAAATAAAACAAAAAGCTCTTAGTTTTCTAAGAGCTTTTTACTAATTTATAGTAACTTGATGTGAATTAGAAGCTAATTCCTTGTCATTAGCTTTAGTTCTAATTTCATATGTTCCTGATTTTAAATTTTCTAATTTATTACTAATAATATTTCTCATTGTGAGTTTTTATTAATAACACGATACTCCATTGTATCATCAACACCAGTTATAGTGTTTGCTTGAACTTTTATCATATTATAAACGTCTATAGCTTTAGAAATTTCAATAGTTTGAACAGCAGAAGCAAATTTGTCATAACTATCTTTTCATCTAAATTGTAATTTGCCAGGAACTATATTATTTGCAATAAAACTTTCTTTAGTGATATCAATTCACTTATTAATATTATTTCTATATTGCATTCCTGGTTTTACATTAGTAATTAAGACTTCATTTTCATCAATAGCTTTAACTATTGCTTGTGGTGTATCTTTAAACTTTTGAACATTAAATTCAATTGTATTATTAGATAAAGTAAATTTATATCCTCTTTTTTTGATGTCATTTATTTTTACAGTTACTTTATTAAAGTTATTAAAATGATCTAAATATAAAATGTATGAATTATCTTCTTGTTTTAGTTCTTTAATCATTGCGTTTTCAATAATAAAGTTTCCTGATTTTAAACCATCAACTTTTTCACTTAGATTTATTTTAATTGCATAATGACCAAGTGTTTTAGATTTATCTTTTTCAATATATTTTTCTACATTTTTAACTTGAATGTCTTTTGTTTCTAATTTTTGTTTAGGTTCTAGTAAGTAATTAATAGTTTTATATGAAAAGTAAGCGTTATTTTTTATTATTTCAAACTTCTTATTTTCTTTTAATTTAAGACCTGCATTATCAATTGATTTTAAAATATTAGCATACATTTTAGAGTTTGTCTTAATTTCTAATTTATTAGGTGTTTCTGTTTTATCTCCCAATTGCTTATCAATTAAAATATCAATATCTTCTTTATTTTTTACAAAATTAGTAAGTTTTAAATTTCTAAAGCGTTGCCCAAACTCTCTTGTATTTCTTAAAAATACATCATCTTTAGTAAAATCATCATCATGTAATAAGAAAAATCTATATTCTTGTTTTTGATGACTTCCTTCTATACGATCTGAAGTAGCATCAAGATGGTATCATTGTCCATCTATTTCAACTAAATTTCAAACATGTTTTACACCACTTAAATCTCTAGGACTAACATCACTTGTAATTAGAGTTGATAAAATTCCTAGTTCATCCATTAACATTTGAAATCCCTTAGCATACCCAGTACATACTGTTTTTTTATTAACTAAAGCTGAATAAGCAGTTTGATTATCATAACTATTAGCTACAATATAATCAAACTTAACTTCTTTTGTCATTCAATCATATGCTTTAGTTATTTGTTCTAAAACAGGTAGATTTTTTCAACCTTCTTGTTCAACTATTTTTTTAGCTTCTTGTTTTGCTTTTAAAATATTGACTTCAACAATTGGAAGGATAGTAACTACTGATTTATATAAATTACCTTTATATTCAGCTCAAATTTCAACTACTTGAGCATCAGAACTATTTTTATATTGTTTAGCTGAAATTGTTCCATCAGCTTTTAAATTAACTAATGAATCATTATCTTCTTGATCTGCTCTTAATAGCTTATCAGTTGGAAATCTTAATCTTTGATATCACTTAACATCTTGAATCTCTTGATTAGTTTTTGAGTCAATTAATTTTAATTTTTCAGTTTTCTTTTCATTATCTAAAGTTAGATACTTTTTTTCTAATTTAAATTTAGGATGAGAATAATAATTTGATGCTATATTATGATCAAAAATTATCTCTTTAATTTTTTCTTCACTAAAATTATTTTCTTTAAATTCTTCAACATGTTGGTTTGGATAGAAATTTTCTAATTTAACTAATGATGTTTTAGAATAATTTGATAAATCTAAAGAATCATTAATTTTAATATCACTAATATTATTTACTAATAAATTAGAATTATTGTTTAATAAATTATTATTTAATTTTTTATAATTTTTTGCTAATGGAATTTCACCATTTTTTAAATTACTAGATAAACTACAACTTGTTGTAATTGCTGATATACCAATTAATGAACCTAAAACTAATGAACTTAAAATTATTTGCTTTTTATTATATTTTTTTATCATACTAATCAATCCTAATAAATACTTAGCTAATTTATATTAACATTAATTTTTATTATTTCATACTATGATAAGTGATTTTACAAATAAAAAAAGGCTTGATAAACAAGCCTAGTTAGTTTTCTTGATGGTGGAGATGGCGAGAATCGAACTCGCGTCCAAGATACACTAATACATACTTTCTACAGTTTAGCTAATTTTTTAATTAAAGTATCTAACTAAAATTAACTAAAGGTTAAATACTATTTGCAATTAATTTCAGATATATTTATTGCAATCATATATCCTATTAGACTTGGGTAATACGATTATAAATAAAGCCTAAAATATCTATAATGCGTGAAATACTATAACTAAACTAAGTAGTTATTAAGCAAACATATAGTTTGCTCCAGCTGATGCATTGTTGATCATAAATGCTGGCATTTCAAAGTTTTCTTCGTTTTCGTTTGCGTTTTTTCAAACCTAGTAGTATTTATAGTCTACAACACTACTGCTTATATGTACTGGTTATATCCTGTCAAATCCATGACATCCCCAGGATAGATATTTTATAATAAATTGAACTTAATTACTAGAATAAGTATAATTATTTATTACAAATTAATTATAAATTCTTTTAGCTTTATAACTTAAAATAGATAATTTTATTTTTTTGTTATTATTAATTAATAAGGAGTAAAATGGTAGATTTAGAAAATAAAGAACAAGAAATTTTAGAACTTTATGAAAATAAAGAGTTTGATAAATGCATAGAAATTATTAAAAAATTAAGATATGCTGATGTTGGAGAAATATTTAATTATTTAGATGAACAAATTGCTTTTAACTTATATAAAAAATTAGAAATAAATAAAGCTAGCGAAATATTTAATTATTTATCTTTTGATTTAAAAGAATATATCCTTACTAATTTGAGTCAAACTAAAATTAAACAATTAATTAATGACTTATATACAGATGATATTATTAATGCTGTTGAAAATATGCCTGTTGAAGTTGTTAAAAAAGTTTTTAATGCCGCTTCAAAAGAACAAAAAAAAGAAATTGCTAGCATTTTAAAATATGATATTGATACTGCTGGAAGTATTATGAGTGTTAATTTTTTATCTGTTAAACAAACTACTACAGTTTCTAAAACTATTAAAGAAATACAAAAAAATCACGATGATTATGATGAAATTGATGATGTTTTTGTAGTAAATAAGTTAAACCAATTAGTAGGAAGTATTGAAGTAAAAGATTTGATTTTAAACGATATGAATACTAAAATTGAAAATATTATGAATACTAAAGTTATTAGTATTAATTCAAACCAATCTCAAGAAGATGCAAGTAATGCTTTAAAAAAATATGATATTAGTACTTTAGCTGTAGTTGATAATAATAATGTTTTAGTTGGAATTATTACTTCAGATGATATTATTGATGTTTTAATTGAAGAAACTAATGAAGACATGCAAAAATATACTGGAATAAGAACAAATGAAACTAATTATTTTGATACTTCAATTTTTAAAATGTTTATTTCAAGAATCTGATCATTAGTTTTAATGTTAGGACTAACTATTATTACAAACACTTTATTATTAGTCTTTTTTAAAAATTATAATTGATCTCCAAGCACTCAATCAAAAGAAGAATTACTATTTATGTTAATTCCATTAGTTGTGATTTTATCAACAGTAATTATTTGTTGTGCTAATCAAACTTTAGTAATGATCAGAAGAGCAATTAGTTTAGAAGAAATTAATAAAAAAAGCTTAAAAACAATTGTTTTAAAAGAACTTGTAGTTTCTTTAATGATTGCTTTTGTTTTAATAGCTATTAATATTTTAAGAATGATTTTAATTTATGCAGTTCAATACAATGCCAATTTAACTAATATAAATATGTGAAATAGTATTTTAATTGCATCAATTGGTATTATAGCTAGTGTTATTTTTGCAAATCTTTTATCATTATTCTTACCATTAATTGTTAAAAAAATAGGAAAAGATTCATCTTCAGTTTCTCTACCATTATTTGCTTTAATTATTGATATTTTATGTGTTGGTGTATTTTTAGGAATAGGATTATTGTTTTAATATGAGGTTAAGAAAAAAGAATTGAACTGATGATTTTTTAAACCAACACTCTTTTTATTTAATTAATTATGATAATAAGAAAATAGATTTAAAACAAATATTTTTAAACAACAATCCAACTTGTTTAGAAATTGGTTGTGGTAAAGGACAATTTATAACAACTTTAGCATTAAAAAACCTAAATACAAACTATATTGGTATGGAAAAATCCTCAACAATCACTGGAGTTGCATTAAAAAAGAGTTTAAAAGAATTTGAAAATCAATTAAAAGAAATGACTAATCTAAAATATTTTAATAATTTTGCTGAAGATTTATCTCAAATGTTTTCAAGTGATTCTTTTAATAAAATTTATTTAAACTTTTCAGATCCATGACCTAAAGCTAGACATTATAAAAAACGTTTAACTTATGTTAAATTTTTAGATATTTATTCAGATATTTTAATAAAGAATGGCTATTTAGAATTTAAAACTGATAATGATTCATTGTACAATTTTACAATCGAACAATTAAACCTAACTAATAAATGAGAAGTCGTTCTAAATACTACAGATTTATATAATAATACTGAGCTTTTAAAAGATAACATTCCAACTGAATATGAAACTAAATTTCATTTAGCCAATAAAAATATTTATAAAATAGTAATTAAAAATTTAAAATAAAAATTAAACTTAAAATTAGAAAACAGCTCATATGAGCTGTTTTTTTTCTACAGTATATAAATGTAATTAATTATAAGATTAAAAAAATAATGTTTCTTATTTAAAAATATTTAATCATCTTAAAAGTAATAAAACTAGCAAAAAGCTAGTTGTAAAATTTTAATCCATTAAAGGTTCAATGATTTTTTTTAAATCAGTAGTTGTTTTTTCAATAATTTTTTTAAGTTTATTTCTTGAAATATTAAATTTTGTAAATATGTGCTTTTTTGGAACATCTCTTATATACATTTCAAAAATTGGTTTAGCAAGTTTATCATTACAATTTTTAAAATATAAATCTATGATTTCTTCTATAGCAAAGTTATAGCCCATATAATCTTCTTCTGAAACTATATTTTCAAGATGTTCTTGTTTTATAGAATTTGATAAACTCATATTTAATACTTTATGTCGATTATTAATATACTTGGTGCACGCATCTGTACATTTTCAAGTTACAGCATCAATAACTGATCATATAAACTTTTTTTTAATATTTTTAGCCTGATACACTTGTAACAATTCATCAAATGCTATTCAGGCATATGACATTAGATCATGATGTTCTAATGGAAGTGAATGAAATTTTGACATTGCTTTTTTAATACCATAATTAATCGGTGGTGATAATAACAAAAATAATTTTGTTTTATCTTCTAGCTCTAGCTTTGACAAATCCATTTCTAAGAATGGTTTAATTTTTTCTTCAATCTTAAAGCTCATTACTAAAGAATTCCTTAACATTATCTATATAGCTTTTTTATTTGAAATATAAGTAATTTCATTAATCTTTTATTTAAACACTAGTTATTTTATTAATTAGATTAATCTAATGAGGAATCAAGTAATAATAAGTAAATATCAAAGTATTCTTTTTAAAAATATTTTAATTATTTTTATAATTTTAACTATGATGTTATCAAGTTTTATAATCAAAAAATAAGCTAAATCTGTTATTAAAATTTGAATTTCTAATATTGGTAGGTAAAATTTAACAAATCTTTTCTTAACATTAGTAGTTTTTACTAATATTTTAAATAACTCTATTTTTTTAAAACTTGATTTAAGTCAGTATCTTTTATAAAATTTGCTCAAATATAAGAACTTTCTATTTATGTGGATTTTTTATAATAAGAATTTCTTATTTAAAGATAAACCTATATTGTGTATATTATTTATAAAATGTGTGTTAAATTAATAATAAAGTTTCATTTTAACTTGATATAAAATTTTGAAATTTAACAATTATATAGTTACTTCATATTTTTAAGACTTTTAAAAAAATAACATTCTTAATAGTGATTAATGAAATTTTTTGATGAATTTTTTGATGATAATTAAATCTAATAGATTTATAAAATTCTAAATATCTTTATTCTATTTTCCTTCCTATTCACTATAGTATTAGGAAAAAAATTTTAAAAGTAACCTAAAAAACTGAAAAATTCTAAAATTTTATAAATGACACTAATTTTAAAAAATTTATAAACCTTTTATTAATTAAAATAAAAACTATAATTGCTCATAATAAATAAGTAATTATAGTTTTTTTATATGTTATATAATTTATTAATCTAATAAATAATTAATTTCATTAGAATTCTATAAATTATTCTTTTTATAATTTAGAGACTATTTTAAACTTTTTATCAGAGAAATTGGTGGGGATATGTCATAAGATGTTTTTGATAACATTCTGATAATGGGGTTTTAAGAATCTCTCATCAAACCTCTTATATAAGTATTAAAATTAAATTATTTATTTATCTATGTCTTTAGTAATTTGTCATTTTGTTGACATAGTTATGTCTAATCTATATTTAGAAAACTTCGGTATGTTTAGTGTAATTTGTAAATTGTGTAAATTTTTATTTTAATAATATGAACGTTTTTTATAAGAACTTTAAATAATTCTTTAATTCATATCTTTGGTAAATGTCAAATATCTTAAAGATATATATTTATAATATGTGATTTTAAAGTTGATACTTATTAAAAATTTAAAAAAGAAGTTTTATTATTATTTGCTGAGTTAAATTTGAAATAAATTTTTTATTTTCTTTTTTAAATTTATTTTCATAACCTGTTATTAAATAATCTTTAAATTAAACTTTTTTACATCTCTTATTTGATAATAGATTAATTTTTATAAAGATTATTTCATAACTATAAAATGTATTTTTTGCTTTAACTAAAAGCATTTCGTGCATCTTCCAAACGTTATATTTTTCGTTTTTTATCCACACACTATTTTTTTATATGTTTTGTTTCAAAATTACAATATCTTTTTTTTAAAAAAATTTTCATAATATAAAAAGGGTAGATAAACACTAGGTTTTAAGGGATTTTTTGATTATTTCAAATAACTTGTATTTACAAATATTTTTCATAAGAAATTTATTAGATACTTTAAATCACTAAAAATATTTTTTTAAAATTCAAAAAATTATTAATTTATTATACCTTTAATAAATAAAAAGACAACTTGTAAAAGTTGTCTTATGTTATTACTATTTTAAAAATTTGATTATTTATTAAAGATTTCAAATAAAGTTCTTACTAAAACACCTTGTCCTCTACCAGCTTTATCTGCAGTTCCAGCTATATCAAAGTGAACAAATGGTTTTTCTTCAGCAAATGCACTTAAAAAAGCAGCAGCAGTAGAACTTCCAGCTTCTCTTCCCTTAGCAGCATTAGTTAAATCAGCATTTACACTATCTGCTTTAACTTTTTCTAAATGTTCATCAAAAATTGGCATTCTTCATACTTTTTCACTAGTTTTGTGTGATGCTTGAGAAATTAATTCTCATCTCTTATCACAATTTGTAAATACTCCAGTAGCAAAACTTCCTAAAGCAATTACCATAGCTCCAGTTAAAGTTGAAGCTTCTCAAATTTCAGTTGCTTGTTTTTCTCTAATTACATAAGTAATTCCATCAGCTAATACTAATCTTCCTTCAGCATCTGTATTATCAATTTCAACAGTTAATCCATTCATTGATTTTATTACTGATTGAGGTAAAGTAGCAGTTGACCCAATTCTATTATCTGTAAACATACCAATACCAACAACATTAACTTTAGCTTTCATTTTAGCTAATGCCATAACAGTTGATAGCATAATAGCAGCTCCAGACATATCAAATTTCATACCTTCCATAGCACTTGAAGGTTTTAAATTATAACCTCCACTATCAAAAGTAATTCCTTTTCCAACTAAAGCTTTTTTTGGTTCATTTTCATCACCAACATATTCTAAAACTACAGCTTGTGGTTCATATGGTGATCCTGCATTAACTGCTAAAAATAAGTTCATTCCTAATTTAGTAGCTTCTTTTTTATTTAAAACAGTAACTTTTAGTCCTTCAATTTCTTTTGCTTTTTGAACTACTTTTTCAGCTAAATATTCACTTGTTGCAATGTTTGGTGGAGTGTCTTGTAGCATTCTTGCAAAGTTTACAAATTCCATTTTAATAGCTTCTTTTTGTTCTAATTCTTTAACATCTTCATTTGTAATTAAGTTATATACTACTTCGTTTGGTTTAGTATCTTTTTTATAACTTACTTTATCAAAAGTTTCAAAAGCAATTGATTCATAAATTCCTTCAATAGCATCTTTTTTACATCCACACATATCAAAAAATACTAAAAATGAATCTACATCAACATTTATATTAAATTTATTAGTTGAAACAAATTTTTTAAAAGCATTTCTAATTTTAGTTTTTAAACATTTATGATCTTTTTTAATTACCATGTAAATAGTTTTATCTTCACTAATAAATGTAGTTGATAAATCAGCATCTGATACATAAGGTTTATTATTAACTTCTGTTAAACAAACTAATGTTAGTTCTTCTTTTTTATCATTAAATTTAATCATATATATCTCCTTTGGTTATTTAAATATATAATAACACTTTAAACTACCTAATAATTAATATTAAATATGTAGATATTAATACTAATATATAATTTTACACTTTTAAATTCACAATAAAAAAACTGAAACTAATTGTTCAGTTTTTAATTATTTTAATTATTTTTAATAATAATTTTATGTTTTGATAAATACTCAACTTGATTATTTTTAATAGATATTTTATTTATAATTTCATCAATTTCAAATTGATATTCTAGATTATCAATTTTTCCATAAATATCAATAATTATTTGTTGATCTTTAACATTTTTAAAATTATAACTACCATTATCAAATCTTAAAATAGCTGAATTATTTTTAACAAATATTAAAATATCATCTCACTCAACATCAAAATTATATAAACAATTTCCTTGATAAACTTTTGATTTATCATCTAATTTATATCAAGATCCATCTGGTAAAAACACATCTCTATTAGTTGAATTTTGTTTTAATATTGGACATATTAAAAGATTTTCTCCAATATAGTATTGATCATCAATTAATCTAGCAATTTTATTATTTTGATTTTCTAATACCATTGGTCTTAAAATTGGTAAACCTTTAGTAATTGATTCAAATTCTCAAACTTTAAATTCTGGTAATAAAATCTTTTTAAATTTTGCTCATTTAATTGAATTATTTAAAGTGTTTTTATCAAATCTTCAAGGCTCTCTTTGTCCTAAAGCATGATATCTTGAAAAAGTATTTAACATTCCTACTTGAGTTCAACGATTATATAAATCTAAGCTAAAATCACTAGATTGGACAAATCCACCAATATCAGTTCCTCAAATTACTTCACCAGCTAAACTTAAAGAAAGACCTGCTTGCAAATGATTTTTTAAATCACTAAAACTAGTTATACTATCTCCAGATCATTTACCAACAAATTTTTGAGTTCCAATATATCCCGGACGACTAACTACAACATTTCTACCAGTTCCAAAAAACTCTTCACCAGCTTCATAACAACACTTAACATATAAATACATAAAATATTGCTTAAAATCTTTTGCTTTATAACCATTATACAAAATAGCATCAGCTGGTAAACCATCCCCATAATCAGGTTTAACAAATCTTAATCCTAATTTAAATAGTTTTTTGATTTGATCTTTATATCAGTTATAAGCTTTTGGGTTTGTAAAATCAATTATGTAATTATTTTCTTGATATGTTTCAGTTCCTGTTCAAGGATGAGCATAGTTTCCATTTTTACTTTTAACTAATAAATCATTTTCAAATAAAAATTTAGAATTTTCTAATCCATCATTTTGAATGTATGGATTAATTCAAAAACACATTTCTAAACCATTAGCTTTAACATCATCAAATAGTTTTTTAAAATCACCAAAAGCATCAGTATTGTATTCAAAATTACAACTTTTTGTATATCTATTTTTTAATCATTTAGGATCTAAAGTAATAACATCTAGTGGATAATTTAATTCTTTTACTTTATTAATAGCTTCAAATAATTCTTCATAGTTATGATAATAAAGTCTATTTAATCAAACTCCATATCCAATATCTGGAACTTTTGAGATTCTATTAGTTAATAAAGTATAACTTGATACTAATTCTTTTAAATTATTATTACTAAATAAATATAAATCTAAATAATCCTGATCAACTTTAAAAGATAAGATATCAGTTGTTGGAGAACCTATTTCAAATGTTGTTTTACAACTTGTATTAATTAAAAATCCTCAATTATTTGTTGAATATAATAAAGGCAAACCATTATAGGCTAAATCATTATTTGTTACACAAGAATTATCAGTATTTCAAATAACTGATTCAACTCCATTTTTAACTAAAGGTCTAAATTTTTCACCAAGTCCATAAAATTTTTCATCATTTTCAATATCAAATGACATGAAGATTTTTTGATTTTTGTTTTGATCAATTTCAATTCCTAAATTAGGATTAATAAACCCTTCAAAAAATTGATAACCAGTTCTTAGTGTAGTTCTTGTTTTTATTTGATTATTACTATCTATTATTTTTAATACAAAGGGATTAATATTAAAAATTAGTTTTTCATTATTTTTTAAATCGATAATAATTTCTTTATTAGTTTTTATATAACTAATTTTTTCTGATTTTAAATTATTATTTAAATGCTCATTAAAAACTTTATTAATTGATCTTTGAGATAATTTTAAGTTGATAATATTTGATTCAAATAGTTTGATTTGAAATGTTGCTTTTTGTAAATTTGAAAAAGTGATTTCAATAAATAAACTACTATCATTAGTTCAAAGATCAGATACTTTTGTTGTTATTCAATATTCGTTTTTAGGATCAAAGATTCTTTGTTTAATTGGAAATGAATATTCTAACATTTCACTTGTGATATTATTTGGCTTTGGCATTTTTATTTCTTTCTAGTAATTCTAATATTTCGCCTTTATAAATATCAGCTTTTGGTCCATAAACAATTTGTAAAGAACTACCTTTATTTAAAACACCCACTGCTCCAGTTAATTCTTTAAACTTATTATCAACTTTAGCTTTATCTTTTACTTTAACTCTTAATCTAGTCATACATGCATCAACATCATCTAAATTATCTAATCCACCTAATAAATTAACTATTGTATTAATAGTTTGATCGGATTTTGTTTTAGCTGATTTAGTTTGCTTTTTAGCTGGTTGATCTTCTTTAATAGTTGTAATTTCACTAGTTGATGTTTCATCATTAGTAAATCCAGGAATTGCTGGTTTGAATTTTTTAGTAAAGAAGTAAAATACTGCAAAATAAATTCCACCAAATGCTATTGTTACTAATAATAATCATAATCCTTGAATTCATAAAATACCTTTTAATCCAATACCACTAACTGAAGTTGGAGCAAATACAAATAAGTATTTAATTAATGTTTCAATTCCACCAAATGCATGAATTCTCATTGGAATAAAATCACTAATTCCAAATGCTATTCCAGTTAAAATTGCATGTAAAACATATAATAAAGGAGCTGAAAACATAAAAATAAATTCAATAGGTTCAGTAACTCCAGTTAATAAACAAGCTGCTAATCCTGAAAAATAAATTGAAGAGTATTTAGCTCTTTTTTCTTTAGGAATTGCAAATGCCATACCTAATCCAGCACCAACTAATGAACCTGATGAAGTAATCATTTGTCCAACTTTAAATCTAACTGGAACAACTGAATCTAAAACAATTTCATAAGCTTGTTGCATTGTTAAGCCATTTACATTATTATGTTTTGCTGCATAATCAGCTCATCCGCTTTTTACATTACCTAATGCAGTAATTCAACTTAATCAGATTTTTTCTTGCCCTTGTGCTTTTAAAGCTTCTTTATTATTTTCTAAACTGTTGAAGAATTCAGCAATAACTTTAGCATTTTCGTTTGTTGTATTAATAAATTGACTAGCACTTGTAAAATCTACACTTCCACCTAATTGACTATAATTCATAGGAATTGTAATCATGTGGTGTAATCCAAATGGTAATAATAATCTTTCTGAAGTTCCATATAAAAATGGAGCTAAGAATTTTAATTTTTGTTCTTTTGCAAAGAAATTACCTAAATGATTAATTACAGTTTGAAATAATGGTCAAATTAATCCAATTCCAACTGAAATTGGTAATACTATAATAATCACCATAAATGGAACAAATCTTGCACCATTAAAAAATGATAATGCTTGTGGTAATTTATTAAAATTGTAATACTTATTATAAATTGTCGCACCAACAAATCCCATTATAATTCCACCAATGGCATCATATCTAATTGACATTACTCCTTCTTGGCTACTAAAAAATAATTCGTGTTTTTCTCATCTACCTAAAATATAATTTAAGAATTGTATTTCACCAGCTTCAGTTGTTCTTGTTATAAACATTGAAGAACCAACAGCTAATAAAATAAAGTAGGCAAAAGCAGCAGCAAATGATCCACCATATCTATTTTTAGATCAAGTACCACCAATTGCAACAGCAAATAATAAACCCATATGACTAAAAGCTGCTCAACCAACAGTTTCAATAACCCCACCAATTTGATTGAAAACTTTAGCTGAAGCTTTAATTTGTCCTAGCCCTAATGGACCAATTATTTTTCCTAAAATAATTGTTAGTCCAGCTGCAGGTAAAAGAGCAACAAAAGTCAAAATAGATTTAGCAAATTTTGAAAAAAATTCGTGTAAGTTACTCTCTTTAGCTTTTCTAAAATCTAGTAATTTTTTCATTCTTTTCCTTTCTAGTTCACAAAATATATTTTATAGAGAATTTTTATTTTTTTAGTTTATGATTTAGAAAAAACTAGATTTTAAAAACAAAAAAAGAACTAGAATAACTAGTTCTTTTATAAATTATTTAATTAATTATTTTTCAATTGAAATAACTGTTCCAGCACCAATTGTTCTTCCACCTTCACGGATTGAGAATTTAGTTCCTTCTTCAACAGCAACTGGTTTGATTAATTGGATTTCCATTTCAACATTATCACCAGGCATTACCATATCAGTTCCTTCTGGTAAAGTAACTTCTCCAGTAACATCAGTTGTACGGAAGTAGAATTGAGGACGGTATTTATTAAAGAATGGTTTGTGACGTCCACCTTCTTCTTGAGTTAAAGCATAAACTGAAGCTTTTAATACAGTATGTGGTTTAATAGTTCCAGGTTTTGCTAAAACTTGTCCACGTTCTACTGAATGTCTATCAACACCACGTAATAATGCTCCAACATTATCTCCAGCTACAGCAAAATCAAGTAGTTTTCTAAACATTTCTAATCCAGTAACAACAGTTTTAGTTGGTTCTTCTTTTAATCCAATAATTTCAACTTCTTCGTTTACTTTTACAGTTCCACGTTCAACACGTCCTGTTGCAACAGTTCCACGTCCAGTAATTGTAAATACGTCTTCAACTGGCATTAAGAAAGTTTTATCAGCATCTCTTTGTGGAGTTGGGATGTATTCATCAACTGCTGCCATTAATTCATTAATTGCTCCAGTTCATTTTGAATCACCATTTAATGCTCCTAAAGCTGAACCTCTAATAACTGGTGCTCCTTCTCCATCAAAGTCGTATTCAGTTAATAGATCTCTAATTTCCATTTCAACTAGATCGATCATTTCATCATCTTCAACCATATCACATTTGTTTAAGAAAACAACGATTTTTGGAACTCCAACTTGTCTTGATAATAGAATGTGTTCTCTAGTTTGTGGCATTGGTCCATCAGTTGCAGCAACAACTAAAATAGCTCCATCCATTTGTGCTGCCCCAGTAATCATGTTTTTAACATAGTCAGCGTGACCTGGGCAATCTACGTGTGCATAGTGTCTATTAGCAGTTTTATATTCAACGTGTGCAGTATTAATTGTAATACCACGTTCTCTTTCTTCTGGGGCATTATCAATATTTGCATAATCTTTGAATTCTGCGTTACCTTGTTCAGATAAAACTTTAGTAATAGCAGCAGTTAATGTAGTTTTACCATGATCAACGTGTCCAATTGTTCCAATATTAACGTGAGGTAAACTACGGTCAAATTGTTCTTTTGCCATGTTTTTTTCTCCTTAAAAATTTCTATACAAATCAAGAATAATAGATATATTTCTACTATTTTGTCTGCCCCTTTTGGGGCGTTTTTACTATTATATATTTTACACTTATTTAATACTTAATTCAAAAAATATTATTTACCTGATTTTTTGATAATTTCATCAGCAATTGCTTTTGGAGCTTCTGCATAATGACTAAATATCATAGTGTAATTTCCACGTCCTTGAGTAAATGAACGTAATTCAGTAGCGTATCCAAACATTTCAGTTAATGGTACTTTAGATTTAATTGTTTGAGCATTTCCTCTTTGTTCTGAACCTTCAATTATTCCACGTTTTGAAGAAATATTTCCCATAACATCTCCATAATATTCATCTGGAACTGTTACTTCAACATTCATAATTGGTTCTAAAACAACAGGATTCATTTTTTTAGAAGCTTCTTTTAAAGCCATTGAAGCAGCAATTTTATATGCCATTTCATTTGAGTCAACTTCATGCATTGATCCATCAACAATAGTTGCTTTAACATCTATCATTGGATATCCTGCAATAACTCCGTTTCTTAAAGCATTTTCTAACCCTACACGTGCTGAGTTAATGTATTCTTTTGAAACACGTCCTCCAGTAATTTTATCAACTCATTCAAATCCTTTGTCTTTGTTTGGTTCAAATTCGATCACAACATGACCATATGAACCACGTCCTCCAGATTGTTTGATATATTTACCTTCAGCTTTTCCTGGTGATTTAATAGTTTCACGATATGAAACTTGTGGTGCACCAACATTAGTTGCTACATTAAATTCACGTTTCATACGATCAACAATAATATCTAAGTGCAACTCACCCATACCAGCAATAATTGTTTGTCCAGTTTCATCGTCTGTATAAGTTCTAAAAGTTGGATCTTCTTCAGCTAATTTTGATAAAGCAATACTCATTTTTTCTTGGTCAGCTTTAGTTTTTGGTTCTAATGCTAATTGGATAACAGGTTCAGGAAAGACCATTGATTCTAAAATGATTTCTCCTTTTTCATCACATAAAGTATCACCAGTTTTAGTATTTTTTAAACCAACAGCTGCAGCAATATCACCTGAATAAACTTCTTCAATTTCAGTACGGTTATTTGCATGCATTTGTAAAATACGTCCAACACGTTCTTTTTGTTGTTTAGTTGAATTTAATACATAACTACCTTTAGTTAAAATTCCTGAATATACTCTAAAGAATGTTAATTTTCCAACAAATGGATCAGTCATAACTTTGAATGCTAATGCTGAAAATGGTTCAGTATCATCAGCGTGTCTTTCAACTTCTTCACCTGTTGGTAAAATTCCTTTAATTGATGGGATATCTAAAGGTGATGGTAAATAATCAACAACAGCATCTAATAATAATTTAACACCTTTATTTTTAAATGCTGAACCAGCTAATACTGGGAAGAAATCAGCATTAATTACACCTTTTCTAATTGCTGATTTTAATTCAGAAATACTAATTTCTCCACCATCTAAAAATTTCATTAATAATTCTTCATCATATTCAACAGCAACTTCAACTAAATGTGCTCTTAATTCTTTAGCTTGTTCTAATAAATTAGTTGGAATTTCAATTTCTTTATAATTTTCTTCAGGTTTTCCATCAAACTCATAAGCTTTCATTTCAACTAAATCAATAATACCTGTGAAGTTTTCTTCAGCTCCAATTGGTAATTGAATTGGGGCAGCTTTAGCACCTAATCTATCACCAATAGTTTTTACTGAATAAATAAAATCAGCACCTGTTTTATCCATTTTATTAACAAAAACAATACGAGGAACTTTATAATTTGTTGCTTGTCTTCAAACAGTTTCAGTTTGAGGTTCAACACCAGATTGACCATCTAAAACAGCAACAGCACCATCTAAAACTCTTAATGAACGTTCAACTTCAACAGTGAAATCTACGTGACCAGGAGTATCAATGATGTTAAATCTTGTGTTTTTTCAGAATGCAGTTGTAGCAGCAGATGTAATAGTAATCCCACGTTCTTGCTCTTGAGCCATTCAGTCCATTTGTGAAGCACCTTCATGTGTTTCACCTATTTTGTGAATTTTTCCAGTATGAAATAAAATACGTTCAGTAGTAGTAGTCTTACCAGCATCAATATGAGCCATAATACCAATATTACGAGTATTTAATAAACTGTATTCTCTAGCCATTTGCTATTTTCCTTTCTAATTTGATTATCAACGATAATGAGCAAACGCTTTATTTGCTTCTGCCATTTTATGAGTATCTTCACGTTTTTTAACTGATCCACCAATATTATTTGATGCATCAATAATTTCATTAGCTAATTTAATTGTCATAACTTTTTCGTTTCTTAATCTTGCATAATTAATTAATCAACGTAAAGCTAAAGTGATTTGTCTTTCAGCTGAAACTTCTACAGGAACTTGATAGTTAGCTCCTCCAATACGACGAACTTTTAATTCTAAGTGAGGTTTAATATTTTCAATAGCTTTATTAAATACTTCAATTGGTTCTTTATTAGTTTTTTCTTTAATTATATTAAATGCATCATAAATAATTGACTGAGCAATTCCTCTTTTACCATCTAACATAATTTTATTAATTGCACGAGTAACTAATTTAGAATTATAAATTGGATCTGCTAAAACATCTCTTTTTTCTGCTCTATTTTTACGCATGGTAATAACTCCTTTCTTTTTAATATAAATATGCTACTTTTAATGTGTTCTTTTTAATTCATATACACACTTATTAATTTGATTTATTATTTTTTAACTTTTGGTCTTTTTACTCCATATAGTGAACGTCCTTGAGAACGTTTTGCTACACCTTGAGTATCTAAAGTACCTCTAATTACGTGATATCTAACCCCAGGTAAGTCTTTAACACGTCCACCACGAATTAAAACAACACTGTGTTCTTGTAAGTTGTGTCCTTCTCCAGGAATATAAGCATTAACTTCCATTCCATTTGTTAATCTAACACGAGCGTATTTACGTAACGCTGAGTTAGGTTTTTTAGGTGTCATTGTTGCAACACGCGTACATACTCCACGTTTTTGAGGTGATGCGATTTTTGTAACTTTTTTAATTAAAGTATTAATCCCTCTGTTTAAGGCTGGAGCTTTGGTTTTTCATGTTTTTGCTTTACGGTTAACTTTAACTAATTGGTTAATTGTTGGCATGTATTTTCCTCCTTTCACATTTCCGAGTGTATTGAATTAACACGTTTTATATTATATATAAAAATAAGTTAGTTTCAACAAAATCATACTAATTAAAAAAATAATATTTTAAAAATAAAATTTTTATAATAAAGGTTGAATAATGTTATAAATTTTAATTACTATTTTTCTAAATCAGTTAATGTTTTTATTTGGTAAATGATCATATAAATAACTGTTTTTAAAATCTTGTTCAAATTTATTTGAAATAGTTTTATTTAATGATTTAGAATAAACTAATCCCATTGTTTGTTGATCTGCAAATAAAGCTCTAAAATCAAGATTTGTTGATCCAATAAATGTAATTTCATCATCAAATAAATAAGTTTTATTATGATTAAAAACATTATTAATAGAATAAATTTTAACTCCAGCTTTATATAATTCTCTAGTTCATTGTTTTGTTTGATCTAATAAAAAAGCTTTATCAGTTAAACCTGGAATTAAAATTCTAACATCTAATTTTGAATTAGCAGCATTAATTAAAGCAGTTCTAATTTCTTGAGGAGGAATAAAATATGGAGTTGAGATTCAAATTCTTTTTTGAGCTGAATTAATTAAATTAATAAAAATAGATAAATGTAAAGGTTCTTCATGATTTGGTCCACTTGAAACAATTTGAACTAATTGATCTTTACATTTAACAGAATAGACATTATCTAAATCTAAATCTTGTTTAATTGAATTTTTTTTAAAACTTGGTTTATAAAAATCATAATCACTAATAAAAATACGTTGAATTTCACTTACAGCATTACCTGTAATTTTTAAAGAACAATCATTTCAATAACCAAACTTATTATCTAAATTAATATATTCATCACCAATATTAATTCCACCAATATAACCAATTTTATTATCAATTATTATATCTTTTCTATGATCTCTATAATTTGCTGTTCATTTAATAAATGGAAATCTAATTGGTGCATAACAAACAATTTGACACCCATATTCTAATAACTTAATTTTTGCTTCTTCAAATAATGTATAACTTCCAGCAAAATCATAAATTATATAAACTTTAACATTTTCTTTTAATTTTTTAATTAATAAATTAGTTAATTCATCTAATAACTTACCATCTTTAAAAATATAAAAATTTAATAGAATATAGTGTTTAGCATTTTTAATATCTTTAAACAAATTTAAAAATAATTGATTACCATTTTCTAAAAACTCAACTTTACTATTTAAAAAAATATTATTAGTTTGTGAAATAGAAGCTGTTTTAAAAGCACGTTTAAATTGCGGAATTTGATTAGTTAAAATTTGATCAATTTGTTCTAATTCATTTTCTGAATGTTTGTTTTTAATGTCTAAAAATTTGTAGTTTTTTGTAATTTTATACTTATAAGATCTACCAAAAAATAAATAAGATAAAACTCCGATTATAGGAATACAAACAATAAAACAAAATCATCTAATTCTTGTTTCAAATCTTCTTTTTTTATCAGCTAATACTATAAAAGCTCAAATAATTGCAAGTAAATGAAAAATTCCAAATCCAATTAAAGGTCAAGTAAAAAAATAAATGTTTAATAGCAACAAACCAAATATTGTTAAACCAAACATAAAAATTAAAGATAAAACTGTAACAATCGGCTTTTTCATTATTTTTTCTTCCTTTTAATATCTAATTTACTAATTCATTTATTGTTTTTAATAATTAAAAGATTAAAAAAGACTGGTGTTAATTGTTTAATGTTTTTAATATAATTTTCATTACATATCATTTCTAAATTAAACAAACTATATGAGTATTTATAATTTAGTTGCAAGCTTAAATACTTTTTAATATAAATAAATAAAATTAATCAATAACAATAACTATAAGCAAGCATTTTTTTATCATTTTCAAACATTAAACTAAAACTATTACTAATATAGTGATAAATTTGATGATTATTAAAATAAGTATTTATAAAATCAGTGCTAAATTTAATATCATACTGTTTAGCAATTTCTATTAGTTGTTTTTCATAATTTATATCTAAACTATTGTATTTTCTATTTGTTGCAATTTTTTTTATAGTTATATTGATTTGATTTAATTTTTGTTCTGATAGACTTTTATAAAATTTGTGATAAAGATAATAAATACAAAAATTTATAAAAGAAATATTAGCTCAAAAGTTTTTATAATTTAAGTTATTAATTTTTAAAATAATAATAAAGTTGTTTAATAAAATATTTGATTTTTTATTAAAATCAGTGTTTTTTAAATAAATATCTTCTAGTTGATTATTTTTTAAAAAATCTAAAAACAGCCTTTTCTTTTTTACTAAAGCTAAGTTTTTTTTAATAATTTTTCTTTTCATTTTATCACCACTAAATTACTTTTATTTTATAAAAAAATAGGCTTTATTTGAAATAAGCCTATTTAATGAAAGTTATTTTTTAAAACATTTGCTAATAGCAGAGTTATATAAAAGTTAGTATTTAAAATTAAAATATTTTTAAAAATTATAACATAACTACTTTTTATTAAACTACACTACTTTAATTAGCAAAATAAAAATAACTACTATGTAGTAGTTATTTAGTCATTATTTTAATCTATTTAATAAAGGAACAACAAACTTAGATGCTTCTAAATTAGTTGTGCTTTGTCTTACATATAAAAATGATCTATGTTGACAATCAGCAGCCATTACTTTTCTTAATTCTTTTACTACAAACTTACTTTTAATGTTTGGAACAAAATAAAATTCTATTAACGAAATTCCTTTAGGAACAATTGCATCTAAAAGTTCTAAAACATCAATTTCATTTTTTGAATATAACCCAATTAATTGAAAAGTCTTATTATTAATTGAAAATATAACAATAGCATCTAAATTAGAAATATAAAACACATTGTTTCTATAGTATTTTAATAAACTATAAATTGGTAGTGCACCATCTTCTCTAATATAAAATAAAGAATTGTTTTTACTACTGTGAAATAATTCATCTTTAACAAACTCAAAATCAGCTTGATTAGTATCTAAATCTAATCTTTTTAAAACACTTAATTTTGCTTCTTTGTTAGGATCTCATTGCATAAAATAAGTATATTCTTTTATTTTTTTAAAACCATTTCTAATCAAAACTTCATCATTTTCTACATTTGAAAAAGTATAAATAAAATCAGAAATGTTTTCATATTTTTTAACAACTCCTTGAATTAATTCATTAACCATTAAAGGGTTGCTTTCTTTTGCTTTTGTAAAAGTATTAGTTAATAAAATTGTATTTAAAACAGTTTTATTAATAATTGCTTTACTTTTAATAAAACCACTAACTGCTAAAACACCATTTCTTTCATTAACAATAGTTACTGGAATATAAGCTGAATCAAAATTATTATTAACCATTCACTCTTCAAAAGTTTTTGGTCCTCTTTTTTTAATGATAGTATGCATCTCTTGTAAAAAGTGCTTGTTGTCTCTGTAGTTAAATACTAAACTATGTGAGTTCATATGTTTAAGTTCCTTTATATTCAATATAAATATATCATAATTTTCTAGATTTTAGAATGACTAGGTAGTTAAAAACCTATAGATATTTAGTTAATAATATGGTATAAAAATCTTTTACCTTAAATATTTTTTTATAATGCTGCTATATATTTTTGAGGGTTTATTATTTAGTTGTGTATCAAAAAATACTTCTATATTTTTATTAAAATTAATTAAATCGTTTTCTTTTATTAAAGGTTTAAAGTTGTGTAAATTAACGCTTGTTGAAATAATAGGTCCTGTTTTATTAATAATTTGTTTGATATCTTCTCTTTTAACTAATCTAATAGCAATACTTGAGCTTTTAGTTTTAAAAATAACAGTAGTAGGTTCATCATTTAATAAATAATCTTTATCAGTTAAGTCAGTAATTTCTAAATCATTTAATTGATCTAAACTAGAAATCAAAACAATTAAAGGCTTAGTAATATCAGCATTTTTTACTTGATTAACTCTAATTTGATTTTCTAAACTATAAATAGCTGATAATCCATAAATAGTATCAGTTGGTAAAATAATAATTTGATTATTTTTTAATAGCTCTACAGCTTTATTTATTTTTATATCTGTTAACATAATAAATCCTATTTTCTAAATAATTTCTTATTTTTAAATTGGTTTTTAACAAAATCAATTGCTAATCTTTTATCTAACATTCCTTTTAAAATAATACAAAATCCAGTAATAGTTGAAACTACTAAAAAACTAATACATACACTTATAATGTAACGATCATTAAAAATCGAATCTATTTTTTGATCAATGTTATTTAATAAAAATAGTTTTTGATCAATGCTTTCAAATACTTTTTGTCCTGTAATTTGTTTGATTGCCTGAATATAATTTGATCCAATAATTTGCTCATTATTAGAAGTATTTCAAGCGATTAATAATTTATGTAATTCAAGTTGGGAAATAAAAATACTTAATATTAATAATGATATTAAAATTGATAATAATATAAACTTAGTTCTTAAAACTAATTGTGATGATTTTTGACCTCTAATTGAAATAGTTAATAAAAATAAAACTGTTGATAAAGTAATACCTAAAAAAATAATTGGTGAAGATAGTATTAATAAAGGACTACTTTTAGTTAAATTTAATTGATTTTTATATTGATCAAAAATCGTATTTCAATTTTGATAATCTTTTAATAAATTAGGTAGTTGGTGTGTTCAATAAATTAATGATTTTTCACTACCTCTAGTTGAAATTGCAACAATATAAATTAGTATTGGAAAACAAATCATCAATACTAAAATAATTAATCAATTAGATAAAGTTTTATCAGTAAAAGAAAATAAATTATTTACATATAATTTGATTCTATTTTGATAAATCACTTTATTTTTTTGAACAAAATAATTTATGTATTTATCTTCACTATTTTTTTCATATTCAAAAAAAGTAATATTTTGTAAAGAAATACTTGTAACAAACATTAAAAAGATTTGTACAAAAATAATTCATCAAATATTATTAACATCAATTCAGTTATAAATACTACTTGTATTTTTTTCAAATTCGATAAATTGTGTAGTAATCTTTTTAAAATCACTGATTTTATTATCTAATCCACTAATTACTTGATAGTTAAAAAAGTCTTGAAAATACCCATAAAAATATTGAGAAATTCCTTGAAATAAAATAGTTAAAATTCCAAAAATAATAATTAAAGCAATAATTGCTTGTTTATATCTTTTATTATTGGACATATTTACTAATGCTTTAAAACTAATAAACATCGTAATAACAATTGCCATAAATACTAAAGCACTAATAGCTAATCCTCAAATTTGAGACTTACTTGGCAGATCTACATATTTTGAAATAATACTATAATTTGCAAAATAAAAACTTAAAGATTCATGTTTAAAAATTAAGTGTAAATAAGCATAAAAAGGTAGTAGTGTAATTAAAAAAACAACTAATCCCAAAATAGCTTTTAAATAAATAGAAAAGTTTTTTTGTTCAATTTTAGGATCAATATCTTTAATTCTCATTGAAAATTTATTATTTATTATTTTAATTTTAAAGTTTTTATTTTTATACATATTTGTCCTTAAAAATTTTTAATAATTAAATTTCTTCAATAATCATTGTAGTCTTTTTTAAATTCTCATTTATATTTTAAACAATTATTAATCAATAATTGTTCTATTGAGTCTTTTTGTAATCATCCAAACTCTAAAACAATTAAAAAGTTTTTATTAGTATCAACAATTTTATCTATATTTTTAATTAAAATTTCATAAAAATATAAGCCTTTGTTTGGTGCAAATAAAGCAATACTTGGTTCAAAATCTATTACGTTTTTATCTATATTTTGATCATTTATATCAATATATGGAGGATTACAAATTATTAGATTTGCTTTTAGATTATTTTTAATTAAAACATCAATAAAATTTCCATTTAAACAAGTGGTATTTGTTAAATTAAATTTCTTAATATTTTTATTAGCTACTTTTAAAGCTTTATAAGATATATCAGTTAAAATCACTTTATTTTGATCATTTAATAAAGCACAACTAATCCCTAAACACCCACTACCAGTACACAAATCAACTATTAATAAATTATTATTATTTTTAACAAATTCACTAACATGATCAATTATTAATTCAGATTCATTTCTTGGAATTAAAACATCTTTATTAATAAAAAAATTATTAGAATAAAAATATTTACTTTTTAAAATGTAAGCTAAAGGGTAGTTTTGTTTTAATAAATCAAGTATTTGATCTATTTTATAAATTTGTTTTTTTGTTAATTTATGATCTAAATTACTAATAATTCATTGGTAATCTTTATTTATAATATGTTCTAAAATATGATAAACATCAGCCTTATTCAGACTGATGTTAGTGTTTTTTATTTTATTTAAAACATTAAAAATAGTGTTATTCATTGTTTTTTTCTAATTGCTCAGCTACTTTTTGACGTTGTTCTTCATTAATTAAAGCAATAATAAATTCATCAATATTACCTTCCATAACTTGATCTAATTTATTTAAAGTTAAACCAACTCTATGATCAGTAACACGATTTTGTGGGTAATTATAAGTTCTAATTTTTTCAGATCTAGCACCAGTTCCAACTGCATTTTTTCTTGTTGCATCAGCTTGAGCTTGTTGTTTTTCAACTTCAGCTTCATAAACTTTTGCTCTTAACATTGTCATTGCTATATCTTTATTATCATGTTGAGATCTTCCATCTTGACTAGTTACAACAATTCCAGTTGGTAGATGTGTAATTCTTACTGCTGAATCAGTAGTGTTAACATGTTGACCACCAGCTCCAGAAGCTCTATATGTATCAATTCTTAAATCATTTGATTTAATTTCAATTTCAACTTCACTCATTTCAGGTAAAACTGCAACAGTTGCTGTTGAAGTTTGAATTCTTCCTTTAGCTTCAGTTTTTGGAACACGTTGGACACGATGAGCTCCTGATTCAAATTTTAATTTAGAATAAACTCTATCACCTTTGATCATAAATACAACTTGACTATAACCACCAGCTTCACCAACTGATGCTTCTAAAATATTTATTTTTCAATTTTGAGTTTCAGCATAAAGTTTATACATTCTTAAAAGATCACCAGCAAAAATATTAGCTTCATCTCCACCAGCAGCCCCTCTGATTTCAACAATAACGTTTTTATCATCATTTGGATCTTTTGGTAATAACATTTCTTCAATTACTTGTTGTAAATGTTCAACTTTATCATTATTTTCATCTAATTCAATTTTTGCTAGTTCAATTAATTCTTGATCTTTTTCATTTTCTAATATAGCTTTAGCATCTTTTATATGTTCAACTGCTTGTTTATATTCAACAAATTTTTCAACAACTTCTTCTAAATTAGATTTTTCTTTGTTTAGTTCAGTAAATTTTTTAATATCTTTTAAAATATTTTCATCTTCTAAATCTTTTAAAATTTGAAGCAATCTTTTTTGCATTGTTTCTAATGCTTCATATGTTTTAGCGTTCATAATTACACTTCCTTTTTAGGAGCTATAAAACAGTTTCTACATCTTGCTTCATAACTTTCTTTTCCGTCAACTAAAATTAAAGGAGAATCTCATAAAGCAGGTTGACCATTAACAATTCTTTGAGATCTATTTGCAAAATTTCCACATAAATGACATCTAGCTCTTAGTTTAGTTACAAATTCTGCTGTTACTAATAACTTATCAACGTTTTTAAATGGTAAGCATCTAAAGTCTTTATCTAATCCATTAACTATTACAATAATTCCTTGATTTGCTAATTGTTCAATTAACTCAACAACTTGTTCATCAAAAAATTGTACTTCATCAATTCCTATTACATCAACTTGTTGAATTTGATTTTCTTTTTCAATAATTTGTTTAATTTCATCACTTGAATGTACTAAATAAGAATCTAATTTACTTCCTGAATGTGAAATTATATTTTCAACTGAATATCTATTATCAATACTTGGTTTAAAAGCTAATACTCTTTTTTTAGCATAACTTAAAACTCTTAAACGTCTTATAAATTCTTCAGTTTTTCCAGCAAACATACAACCTGTAATTAGTTCAATTCAACCCATTTTATTAGAATTATATGCTTCTATTTCATTAATATCTAATTCTGTCATTTTATTGTTCTCCTTTAATTAATTGTTCTAAATCATTAATTAAATCATTAATTTGATCTAATGAACTAATTTCAGCTCCACTAGCTAATCTATGACCTCCACCATTATATTTATTTGCAATTTTATCAATACTAAAATCTCTACTTCTTAGTGATACTTTTAAAATATCTTCTACTTGTATAATTGTAAATCAAATTTTAATTTCTTTAATTCCACTCATAGCTGAAAGTGCTAATTTAGTTTCTTCATAACTCAAATCTCAACCTTTTAAATCTTCATCTAATAAAACAATATAAGCAATACCAGTATTAGTTAATTTCATTTTAGAAAAACTATACATCACTCATTGTCTTAATTTTAAATCTGATACATATAAAAAGTCATTTGCTTTTTTTAAATTAGCTCCAGCTTCTAATAGCTTAGATGCAACATAAAAAGTTGTTTGATTAGTTTTATCATATAAAAATCTATTTGAATCAGTTAATAAGCCTAAATATAAATTATAAGCAGCAGTTGGTGAAATAAATAAATCATTTTCTAAAGCTCATAAACTAATAACTTGAGTATTTGAAATACTACTATCATCTACTAAATCATTATTACAATAATCTTCAACATTTATATGATGATCAATTTTAAAACTATCACAACTTAAATCAAATCTATTAAAATCTACTCTTTTTTTTGTAGCAGTATCAACTGTAATAATTAAACTATTTTTAACAAATTCATCACTTAAATTAGTTTCATCAATAAAAAAACTATCATCATCACTAATTCTAGATCCCACTACATAAATAGTTTTATTTTTAAAATTATCATTAATAATATTTGCTAATCCAATTGCACTACCTTGAGCATCTCAATCAGGTTGTTTATGTTTTGTAATAATAATATTTTGATATTGCTTAATTTTATCTAATAATAGTTGTGATTTTTTTTGATCTAACATATAACTCCTTTAATTAATATTACTAATAGAATCTTTACTTATATAAAGTACTATTTCATCATTATCTTTATATAAATTAGTTCTATCATAAAAATAAATTTTTTCTTTTTCTTCAGTTAGTGCAAAATACATTGATTTATCTATAAATTTTTTAGATTTAATTACTGTTGCTGATAGTAATAAATTAATTCTTTTTTTAGGTTCTGTTGAGATTTTTAATGGGTTAAATGAAATATAACCAGTATCTTTTAAATTATAATTAGTTAATACTCAAGTTGATTCATTTAAAAATTTAATTTCATTTTCATTAATTTTTTTATAACTAATTTTATTAATGTTATTATCTTGTTTTTTTAATAAACTATCAAAAATATCAACAGTTAGCATTTCTTTTAATTCTAATTTGTTATTAGTATAATAAATGCTTTTATTTAAATCATATACATCATTTATAGAATCATTTAAAAAAATAAAAGTCATTAATGGATGGTGTTGTTGAATACTTTTAATAGTTTCAAATAATTGTAAAAGTTCTTTTTCTGATAGATGTTTTGTTATATTAAAAAAGATAATATTTCTTTTTTTAAGATTAATAGCTTTTAAAATTTTTAAATAAACAATATTTAAAGATAAATACTTAACACTACTTTTAATAAATCATTCAAATTTAATGTTGTAATTATCAACACTAGTTGACATTTTCTCAACTGCTTGTTTAAAAACACTTTTAATTTCTTTTTTCTTTTCTTTTTTTTGTTTTAAAAATCTTCTTTTATCAATATATTCTAATTCATCAGATAATACTCTTTCATGGTATTGATGTATTAAAAAATTGATTGTTTCACCTAATTGTTGAGTGGTTTTTCTAATTGGTTCTATGTGAAGTTCTATTTGTTGTTTTTCAAGATCATTTAAAGTGTTTTTATTAGCATTTTTTCAATCTGTAAAATATTTTTTTGTTTGTTCTCAATTATTATTTATATCTTTTTTTTCTGCTTTATTAGTAGTTGATGATAATAATGATCTTAAATATTTTTTAAATTCAAAATCTAATTGTTTTTCAAATTGTTTTAATCTTTTTTGTTGTCTAAAAATACTTAATCTCAGATCTGCTATTTTAGTACTAATTATTCTTAATTGTTTATGAACTGCATAATATGTTTGTTGATAAGCAAATTTTTTTCAACTCTTTTTAAGTTTTTTATTTGATGAATGTTTAGCATTATACTCACAACTACAATTATCTCTAAGTTCATCTAAAGCATAAACATTATCTCATAAAGTTTGTTGAAACATTAACATTAAAGTAGCTGTTTTAATTTCAGTTTTTAAGTTTTCTACTGCTTTAGAAAGTAATCGTATTTGAATAGGTCATTTTTCAGCAATTGCTAAAAACTTTTCTTGGTTGTGTTTTTTTTGAGTATTAATAGATTCGTTTAATGCTTTTTGTTCTTCTCTTGTTTTTGAAATAATATGTTTAGAAATTAAATTATCAATATTTTGTCTTAATTTTTTATCATTAGCTTCACCTTTACTTGCAACTAGTGATAAATATTCATATTTTTTTTCAAGATATTTGTTTGATGCAGTTTTTAAAAAGTTTTGGTCAAATAATAAAGAAAGTACTAAAACTCATTTACTTGGAATTATACGTTGAAATCAAGTATCACGTTTTATAAATTCAACATGTTTTTTAGTATAAGCTCTATTAATAATATCAAAATCATCAATTTGAAATCTACCAGAACTATTTTTCTTTTTACCTAGTAAAACTTTTATAAAAAAGTCCATTTCTTTTTTATTATCAATAACAATATCAACAATTTGTCCATCATCAGCAATAAAATCAACTTTATTTAAACTAGGATTTTTAGAACGAAAAGTTAATTCTTTAATCTTATATGACATAAAATTAACCTCCAACAACTAATATTATTTTAATAGATTTGTCAAATAAAAAAGGTCCTAGGGACCTCAAAATTATTTGTTTTCTTTATTTTTTGCTTTTTGAGCTTGAGATTGTTTTTCAGCTTGTGCTTTAATTGTATCTCTTTTAGCAAATTTTGATTTAAACTGTTCAACACGACCAGCAACGTTTGTATAAGTTTGAGCTCCAGTATAAAAAGGATGACAATTTGAACAAACATCAACTCTTACTTCTTCACCTTTAGAAGTTCCACAAACTCATTCACTTGCACATGTTGTACAAATAAATTTAGCTTGATCAAAGTACTTTGGTTGAATATCAATTTTTGGCATAGTTATTCTCCTTGCTATGTTATCATTATGATATTTAATTTACTACTAAAGTATACAACAAATTAGTTTAAAATAAAGCTTTATATAATTAAAAATATAAATATTAAAATAAAAAAAATAATAGCAAATTTGCTATTATTTTACTTACTATTATTTATTATTTAATTTTTTGGATATAGATCAGGATAATCTGAAATATAACCATTAATTAAATCTTTATACATCTTGTGTAAAATTTCTACATCAGACATTTTTTTAAATGTTCAAACATTTAAAGGAATATTTAATTTTTTAAATAGTTCACAATTTGATTGTTTTTTTAATAGGGTAATTGGAGGATGCAAAAAGTCAAATTTTTTACCTAATTCAACATCAAATTGAGACATTTTTTCAAATAAATATCCTGATTTGTAGTAATTTTCTTTTCTTTTTAAAATTTCTTTTAATACTACTGGACTAAATGATGAAACAATAATTTCAACACCTTTATTACAGTATTTTTTAATAGCATTAAAGATAATGTCTAATTCATCTTCAGTGTAATGATCTGGTTTAATTTCAACATTGATCATTTCATATTGATCAAAATATCTATCCATAAATACTTCAAATAAAATAGGAGTTGCTAGAGGATTTTCAACAAAGTAAGGAATTTTTGTAATTTCATCATAAGTTAAAGTTTTAACACCTCTATTTAAATTACCAATTCTTTTAAAGTTGTGATCATGGAAAATGATAATCTTGTCATCTTTTGTTAATCTGATGTCAAATTCAACAGCTTTACAAATTGTTAGTGCATTTTTAAAGTCATATTCACGGTTTTCTCCATAAAGACCTCTAAAACCACGGTGTGCTACTAAGATCATTATATTCACCTCTCTTTTATATAAGAAGAATTATTGTAGAATTATTATTTAATTATTTATTATTAAGTTTTATATTTATTATAGAAATTTTATTTATTTAATAACATTTTTTTATCAGCTTTAAATGAGAAATAAAACCAATATTAGCTAATAAATCAATAAGATCATTTAATGATTTTTATAACCTGTTTTAGTGTTTTGATTTTTAACAAGTTTTTATAATAAAGACAAATTTACTAAAAATAATATATAACTGTTTGTAGATATTCAGCTTAGTTTAATTTAAAGTTTAAGTTCATGTTAAGAATAAAAATATTTATATAAAAAGAAATAGTTATAATAACAACATCAACTAGTATTAGAATTAATAAAGTTTAAAATTTTATTTACTAGAATATTTCTTTTATATTTGTATAAGGTTATGTTACTAACCCTATAATTTAATTTTATGCCAATAGTGATTTAAATATTTAACCTTGCAAATAAAATAATAATTTGAAAATGCGTTCATCTTTATTTAGAGGACTTGTACATGAACTAAAATAATATTAGGTAATTAATTAGTTACCTAAAGAAAGGTAAATAGTTCATGACAAAAACAACAAAGCCAAACCCTTTCACAAATTTTATAAATAAAACTTTTAAAACTTTTGATAAAAAAACATTATTTGTTATTATGCTACTAGCAGTTTCAGATACTTTAGTGTTTATTTTCCCTTCTTATTTAAGAAACGTTATGAGTTCTGAAGTAATAAGTTTATATTTGGGAGTAAAAACTGAACATTTATCTCAAGCTAGTGCAATTTATGGTTATATTTCTTTAGCAATTTATTTTTTTGGATCAATATTAGGAGATAAACTTAGTGTTAAGTGATTAACTATTATAGGTCTTGCAACATTTGGAGTTTCTGGAGCTTGATATGGATCAATTGGTTTAACTGCTGGTGGAGCTTTAGTTTCTAGTGCTAATGGACCAATTCTAAATGAAACTGGAGTTCAATCTCGTTTTATTCAACTATGTATAATCTATTCAATTTGAGCTTTTGCTAAAATAATTTTTTGAGCTCCATTATGAAAATTACTATCTCAACAAGGTAAACCAGAACAAAATGGTATTTTAAATGGAATACATGGTAGTTTTAATGGATTTGCAGGAACAGTTTTAGTTTCAATTGGATATATTTTATTCTTTGTACTAACTCCTTTATTTGCTGGAAAAAACATTTCAACTCCTAGTGTATGAAACTTTTCAATTATGATTTATATGTTTTGTGGTTTAATTGCACTAACTGTTATTTTATTAATTTTCACAGTTAAAGAAGATAAATCAGAAAAAGAAGAAAACGCTTCATTTAACATAAAAGATGTATTTGGAATATTAAAAAATGTAAAAATTTGATTAGTATCACTTGTTGTTATGGGTGTTTATATGTATCAAATGGGGTTAAGTATTTTAGTATCTTATTTAGAGGTATCACTACAAGTTGCTGCAGTTGCTGTGTTTGTAGGTGGATTATTAAGAACTTATTTATTTAGATTTATTTTTTCAGCTCCTGCTGGTAAAATTGCTGATAAAACTGGTAAGTATATTAAGTTCTTAATGACTGGTATTTTAATAGGAACATTTTTAGTAACAACAGTTCTATTATTACCTGGATTTAGAGTTGGTTGAATAATAGAAAAAGCTCCTAAATGATATTTATGAACAGTAAGAGTTATTGTTTATACATTCTTTTTATGTTTAGGTGCTTTATGTTGAGGTTTAGTAACTAATAGATGAGCTACTTTATTTGAAATTGGAATTGATAGAAAACATTATGCTTCAGCTGTTGGAATTGTTAGTGTTGTAGCCTTTACACCAGATGCTTGATTTCAACAATTACAAGCAGTTCTAATTGCTAAATATAAAGTTGCTGATCCTTTAATAAAAGGTGGATATAACAATCAATTTGCTTATCAAATTTTAATGATAATAATTGTTGTTATTAGTTTAGTTGGATTTGCAGCTGGTGCTTTACTAATTTATTTAAACAATAAAGATAAAAAAATGGCTCAACTTCAAACTCAAGTTCAATAAATCAAAAAATAATTAATAATTAAATAATCGCAATTGACTCACGTATGTGAGTCTTTTTATTAAAAAAGTTGCCATTATTATACAAAGCAACTTTTAAATTAATTATATTAATTATTTAGCTTTTCCTTGGCAACCAAATCAATTTGTTAATTCTAAGAATGTAGTTTTTAAAGCATCATATCCTGGTTTTAATAACTTACGTGGGTCAAATCCTTTTTTAGCATCATCAAGATCTTTTCTTTCTTCAACATATTTTCTAGTTGCGTCTCTAAATGCTAATTGTAATTCAGTATTAACATTAATTTTTGCAATTCCCATTGAAATTGCTTTTTTAACTTGTTCTTGAGGAATTCCTGATCCACCATGTAATACCATTGGCATTTTGCAAGCTTTTTGTAATCTTTCTAAAGTATCAAATGATAAAGATTGTCATCATGATGGATATTTACCATGAATATTTCCGATTCCAGCAGCTAACATAGTAATTCCAGTTTTTGAAATTTCTTCAGCTTGTAAAGGATCTCCTAGTTCACCTTGACCAATAACTCCGTCTTCTTCTCCACCAATTGATCCAATTTCAGCTTCAACTGAAACTTCATATTCTTCAGCAAATTTAATTAATTCTTTTGTCATTTCTAAGTTTTCTGCATATGGGAAATGTGAACCATCAAACATTACTGATGAATATCCTGCTAGAATACATTTTTTAGCCATTTCTAATGATTGTCCATGATCTAAATGCAAAGCAACTGGAACAGTAATGTTTAAATAATCTAATAATCCATTAACCATTCCAACAACAGTATTAACACCACCCATGTATTTAATAGCTCCTTCACTTGTAGCTATAATTACAGGTGTTTTTGAAGCTTCAGCAGCTTCTAAAATTGCTTTTGTTCATTCTAAGTTATTAATATTAAAGTGACCAATTGCATATTTGTGTCTATGTGCATCAATAACCATTTGTTTAGCATTAACTAATTTTTTGTGGTATAACTTTGGCATTCTACTATTACTTCCTTTTTTTAATCTATTTTAATATTATCACTTTTCTATTGTTTTAGTGGTAACATATAAGCTCATAATTGGTAAATCCAAAAATATATTTAGAAACTAAGACAGTAAAAGGCATAAAAAAACCTAGTATTTACTAGGTTTAAAAATTATTTTTTAAATCTTTTAATTAAATAAGGTATACCAGCTGCTAAAGAAGTTAAAACAACTTGACTTCCAACAACAATACCAACAATTGCTGGAGTTGAAAGTTTTTTAGATTGTTGAATTGTTGTGCTTAAATTAGTTTTTGGAATTTCTGAATTTGGTTTTGATTTTATAATAGGATTTATTAGTTTAGTTAATGGTATTGATTGTTTTGGTTTTGATGGTGAAGGGTGAATTATTACCTTTGGTTCAGTAGATTCTGGTTTTTTAACAGTAGGATCATTATACTCAGCAACTTTTCAACTAGGTTTTTTATCGATATATTCAAAAATCCCACTAGCTCTAGAAAAATTCTTATTTTTAGTTACTTTATCAACATTTCAATCTTTTAAATTTTGTTTAAAGCTTTCTGCACCATCAAACATTGATTCCATTGATTCGACTTTTTCAGTATTTCAATTTAAGGGTTTGTCTTTATTATTGAATTTAATAGCATTTTTAAACATACCAGTCATATTAGTGACATTATCAGTTTTTCATTCTGATAAATCTGCATCTATTAATTGATTATCATAAAATACATAACTCATATTCTTTATTTTTGATGTATTTCATTTTTCAAAACCAGTAACTGTGGGATGATTCTGATCTTTATATCTATGAGCAAAGGCGCGATATAAGCTAACTATTTCTTCTGGTAGTTTTTCTGGAACTTTTTTAACATAATAAGGAATTTGCTTTATGGTTATTTCATTCCCTCTTTTATAAAAACCAATTTCAACAATTTCAGTTTTATCGCCATCTTTGTATTTATGTGGCTGTTCAGTTTTTTCTGATTTCATCTCAATTTTCATTTTATAGTTTATATTAAAATGATTTTCATTTTTCAAAAACACTATTGATGAAAAAGAAAGTAAAGACAATTTTGCAATAGTTAATATTAATAAATTTATTCTCATATATAGTAGGGTAATTATTTTTTAAATCTTTTAATTAAATAAGGTATACCAGCTGCTAAAGAGGTTAAAACAACTTGGCTTCCAACAACAATACCAACAATTGCTGGAGTTGATAATTTTTTATTTTCTTGTTTTGATGTAGTTATATTAGATTTTGGAAGTTCTTGATCTGAATTAGGTTTTAATGTAGGTTTAGTTTCATTAGTTCTATTTATTATTTTAGCTAAAGGCAAAGTAACCCTTGGTTTTGGAGCAGGGGTTGGATGAATTATCACTTTTGGTGTTTTATTTTCTTCTTTTTTAATAATAGGATCATTTTCTTCTTTTAGATTTTTCCATTTAGGTTTTTTATTTTCATCACTAAAAATTCCACTAGCTCTAGAAAAATTCTTATTTTTAGTTACTTTTTCAACATTTCAACTCATCAAGTTCTGTTTAAAACTTTCTGCACCATCAAACATAGATTCCATTAATTCTACATTGTTAGTTGTTCAAGACAAAGATTTACCACCATTATCAAATTTTGTTGCATTTTTAAACATACCAGTCATATTAATGACATTATCAGTTTTTCAAGCAGACAAATCTGTGTCAATAATATGATTTTCAAAAAAGACATAACTCATATCTTTTATTTTTGATGTATCTCATTTTTCAAATCCAGTAACTGGATCATGATGACTATATCTATAAGAAAAAGCGCGATACAAACTTTCAATTTCTGTTGGTAAATTAGTAGGAACTTTTTTTACATAAAATGGAATAGGTCTTATAGTAACTTTATTAGTAGTTGGGTGCTTGTAATAACCTATTTTTTTAATTTCTGTTTTATCTTCATTATATTCATGATTGGGGCTGGCTTTTGTAGTATCTTGGGCAAATAAAGATATTGTTTCTTGATTCTTTCAAAAAGTGAATGGTAAAGGGATTAATAAGCTAGTAATTATAGAATAAGGTATTAATTTCAGTATCTTTTTCATAAATAATTTAAATAGTTTCTTTTTATTTGTTTATAACAAAATTAAGTAATTTATATTGTTTTAGTAGGGTATTTAGACAAAACAAAAACTACTCTCACTAGTGATCAATTTATAACAAAGCACCTACAACTAAAACTACTTATAATTCTTATATAACATACATATCAAACTTTTACAATACCTAAAAAAATAAAAACTCACAACTAAATTGTGAGTTTAATTTAATTATTAAAATACTATTTATTATTTTCAACAATTGCTTTAATAAATCCCTTAAATAAAGGAGTTGGCTTATTAGGACGAGAAGTAAATTCAGGATGAAACTGACTAGCAACAAAGAATTTTAAACTTGGCATTTCAACAACTTCAACTAAGTTCTTTTCTTCATAAATTCCAGAAAATCTTAATCCAACACTTTCTAAATCTTTTTTATATTCATTATTAAATTCATATCTATGTCTATGTCTTTCTAAAGCAACATCTGAATTATATAACTTAGAAACTAATGAATCTTTTTCTAATTTAGTAACCATTGTACCTAATCTTAAAGTTCCACCAATATTATCTCTATCAATACCTTTAATATAATCAAAAATTGGATGAGTAGTATTTTTATTAAATTCAGTTGAATCAGCATCACTTCATTTTAATAAATCTCTTGCAATTGAAATTGTTGCTATTTGCATTCCTAAACAAATTCCTAAATAAGGAATATCATTTTCTCTAGCATACCTACTAGCTAACATCATTCCTTCAATTCCTCTTTTACCAAATCCACCTGGAACTAAAATACCTTGGCTATTTTTTAAAACTTCTTTATAATTTGATTCATCTAATTTATCTGCTTGAACTCATCTGATTTTAATTTTTTTATTAAATTCTCAACCAGCTATTTTTAATGATTCTAAAACTGATAAATATGCATCTTGTAATTCTATATATTTACCAACAAAACTAATTTCAATTTCTTCAGTTGATGAATCGATTTTTTTATTAAATTGTTTTCATAAAGATAGATCTATATTTTTAGCTTTTAATTGTAACTGTTCAATTATAATATCTTGAAGATTTTGTTTTGCTAAAGCTAATGGCACTCTATAAATTGAATCTTGATCAATTGCATCAATAATATTTGTAATAGGAACATTACAAAATAAAGAAATTTTTTCTTTAATATCTTTTGGTGAAGAAGAGTCACTTCTACATACTATAACATCAGGTTGAATTCCTAAACTAGCCATTGCTTTTACTGAGTTTTGAATAGGTTTAGTTTTATATTCTTTTGAAGCAGCTAATCATAATAATAAAACAACATGAACAAACATTACATTTTCTTTACCTTGTTCTAGTCTAATTTGTCTAATTGCTTCAATAAAAGGTTGAGATTCAATATCTCCAACAGTTCCACCAATTTCAGAAATTATCACATCAGCTTGGCTTTGTTCTGCTGCTTGATAAACTTTTTGTTTAATAGCATCAGTTATATGAGGAACTACTTGAATAGTTTTACCACTATTAACTCCTTTTCTTTCACCTTGAATTACAGATAAATAGATTTTTCCAGAAGTTGTTGAAGATAATTTAGTTAATTCTTCATCAATAAAACGTTCATAATGACCTAGATCTAAATCAGTTTCTCCCCCATCTTTTGTAACAAAAACTTCACCATGTTGATATGGAGACATTGTTCCTGGATCAACATTTAAATATGGATCAAATTTTTGCATAAATACTTTTAATCCACTAGCTTTTAATAATGCACCAATTGAACTAGCTGTAATTCCTTTTCCTAAACCCGAAACTACTCCACCAGTTACAAATATAAACTTTGCCATTTACTTATTCTCCTTTATATATGTTGTAATTAATTATAAACAACTAATTAAAATAAAAAGGTCATAAAAACTTAGTTTTACAACCTTTAATTATCGATTATATTCATCATCATCTATATATGTTTGGTCAGTGTCATCAAAATCTTCGTCAAAATCATCTAATTCTTGAGTAAAATCACTATCATAATCTTCATCTAATAACATTTCATCATCTATTGTTAATTCTTCATCTGAATCACTATATCTGTGTTTATGATCTGTATTAATAAAATCATCATATTGTTTTTTAATGTTTTCAACTGATGAATTAGAACTTAAAGCTCATAAATTATCAGTTGTTAAAGCAAATCTATTATCAAGAACCATGTCTCCATATAGATCTGCTATTACTGAGATTTCATCTTTTTTTTGACTGATTATATCTTTTGATATTGACTTTCAAATTTCATTTAAACTTGAAGGTGTTTTAGTGCTTTGTAAATATGAATACACTAAATCTAGATTTCTAACTTTTGACATATTTTCACCTACACAATTAGATATTCTACACTATTTCTTTTGGAAAAATAATTTTTCTCAAATTTTTTTGACTATTAGATTTTTGAAAAAACTTTACTAATTTACTATAATAACTTAGTTCATGAACTTGTTGATTATTACTATCATATAAGTAGATATTTTCATCTTTATTGTTTTTAATTACTGGATTATACATACTTAATGGTCTAATATTTGCTTCTAATAAATAGTAAGTAGGATCTAGTCCTAATTTGTTTAATTTACTAATTAAAGTAGTTTTATTTATTAACTTTTCATCTCTAATAGTAAATAATTTTCTATCAGTTAATCTTTTTGACAAATCACTTAAAATCAGATCTTTTTCACTACTACAATTTTTAAAAATATCAAACATTAAATAATCATCAATTTTTAAATAAGAATCTAAATCAATATCTTTATTATTAAATACATTTATAAAAAGTTCAATAATTCTATTATCTTTAAACTTGTAATTATTATTAAATAGATCAGTAACTCTTTTAAATCAACTAATAAACATAGCATCAAAAATAGTTGATGTTTTATGATTATAAACTTGTTGATACATATGATATCTACCTAATAAATATGATTCAATTGCATAAATTGTTTTTTTAGGAAAGACAATTCTATCACCAATTATAAAAGCGTTTCTAATCATTCATTTAAAATCTAGTGTTGCATAATCAACACCACAGCTAATTGAATCTCTTTTTAAATAATCAAATCTATCAGCATCAATTTGTGAACTTACTAATAAATTAATAATTTTATTTTTATAAGTTCCATTAATAATATCAACAATATCTTGAGGATTTATATGATGCTTTTTTAAAATTGGATAAATATTTCCTTTTTTATTTAAAATAATTTCACTTGTGTATTGTTCATGATTTTTATGTGTAATTTTTTCAAAAGTATGTGAAAAAGCACCATGTCCAATGTCATGTAATAATCCAGCTATTTTTACTAGTTTTTGTTCATAACTACTTATTTTTAAAAAAGCTTTATTTTTAAAAAACTCTTTTAAAATATAATAAGTTCCAATAGAATGACTAAAGCGAGTATGTGTTGCACTTGGATAAGCTAATTGTGTTCCTGCAAGTTGTAAAATTCTTCTTAATCTTTGCATTTCATAAGTATTTATTAATTGAATATAAATTACATCATCAAAATAAATATCACCATGAACATTATCTCTAATTACTTTTAAATACATAACTATCTTTCTAATGAATTAATATTGTTTAAAACAGTTGTTTTTCCTAATAAATAAATTACATCAGCTAAACTAGGTCCATGTTCTGATTTAGTTGCAAAAATTCTAATTGGCATAAACAAATCTTTTCCTTTAACATTTGCTAATGTTGAAGTGTTCTTAATTATTTGTTTAATATTTTCTATTGTTCAATCTTTTAAATCATTAATTTGATTTTTAAAAATTTCAACTACATTTTTATAATTAGTTAAATTGTTTAAAACATCAAGTGTATTATTATCAAGTGTATTTTTATTAAAGAATAAATCTAAATGATCATTAATTTGTTCTGCATATTCTAATTCTTTTTTATAAAGTAATAACAAATGATTTAATCAAGTTTCAGATTTACTAGTAATGTCAAATTTATTAGTATTTATAAATGATTTAACAAATTCTAAATATTTATCATCATCTAATTTTTTCATATAAACTGAATTAATTCATTTCATTTTAACCATATCAAAAGTTGAAGGAGATTTACTAAAACGTTTTTCATCAAAAATTTTAATTAATTCATTTTGAGATAAAATTTCTTGCTCACCTGCTGGAGATCAACCTAAAAGAGCAATATAATTAAAAATTGCTTGAGATAAATAACCTTGTTTTTTGTATTGTTCTATAAAAAATAAAGCATTTCCACTTCTTTTTGATAGCTTTTTACCAGTATTATCAACAATTAAAGTTAAATGACCAAACATAGGATAATTTCAATTAAAAGCATCATAAATCATCATTTGTCTTGGAGTATTTGAAATATGTTCTTCTCCCCTTAAAACATGAGTTATTTGCATATCATAATCATCAATAACAACTGCAAAATTATAAGTAGCCACACCATTAGATTTTAAAATTACAAAATCACCTAGATCTTTTGAATCAAAACTAACATCACCTCTAACAATATCATTAATTGTTCAAGTTTTATTTTCTGGAACTTTAAATCTAATTGAGTATTCTTTTTTATTTTCCAAGTTTTTTTGAATTTGATCTTGAGTTAAAGACAAACATTTTTGTGAATATTTAGTAGCAATAATTCCTTTACTAGTTTGTTCTTCATAATCTTTTTCTAATTCTTCACTAGTACAAAAACATCTATATGCTTTATTTTGATCAACTAATTGTTCAGCTAATTGTTTGTATCTATCAAATTTTTGCGATTGCATATATTTACCATATTTTGGATCACCAACATTAAAAATAGATTCATCAGGAAAAATTCCTAATCAATTTAAATTTTCAAATTGTGATTCAATCGCTCCATCAACATTTCTTGCTAAATCAGTATCTTCAATTCTTACAATAAATGAACCATTATAATGTTTTGCAAATAAATAATTCATTAAAGCTGTTCTAGTGTTTCCTATATGTAAAAATCCAGTTGGTGATGGTGCATAACGTAATCTAAATGACATAATTTCTCCTTAAATAACTTTTTGATTATACTACTTTAATTAATTTTAAGTTTTTTTTTAAATTACAACAAATCTATATCACTAAAAACAAAATAAAAGTTCAGATTTAATCTGAACTTTATAATTATTAAACTAATTTAGAATTTTTTTTAACTTATCTGCAACATGTTCTACATCAGTTCCAATTATTATTTGATAATTATTTTTACCTAATCTAACTACTCCAAAAGCTCCTATTTGTTTAATTTTTTGATCATCAATTACAGTTTTTGAATTATTTTTTACAGTTAGTCTTAATCTAGTTGAACAACTATCAACTAGTTCTATATTATCTTTTCCAACAATTTCTAATATCTTTTGAGCCATTAGTTCATATTTATTTATATCAGAATCATTTGTTGTTATATTTTCAATTATTTGTTTTTCATTTACTTTTTGAATTGTTTGTTTTTGAATCTCTAATTGGTTTTCTCTACCTGGAGTTAAAATATTTAACTTTTTAATCAAGAAATAAAAAGTTATAAAATATGTAGCAAACATACCTAAGGCATATACTCAAATTCATAATGGATTTGCATATCATCCAATTTTTGCTGAGATTTGTCATGAAGTTCAAAATGAAACTACATAATCAATAAACCCAGCACTAAATCCAATTCCTAAACTAATTTGAGATCAAGTTACAAACATATAAAAAATACCTGTAAATAAAGCATTTAAAAAATACAAAATAGGAGAAATAAAAATAAAATTAAAAGTTAAAGGTTCATCAATTCCAGTAATAAAAGCAACAAAAGCAGCTCCCCCATAAAAAGCAGTCATTTGTCTTTTTTTATCTTTATCTGAAACTAAAATTAATGCTAAAGCAACACCTGGTAAACCACCTAAAAATAAAGGGAAAAATCCAGTAGTAAATAATCCAGATCCAATTAATCCTTTTTGAAATGCAGGAATATCACCATTAATAATTGTTGTTGAATTATCTACTAATAATTTACCTTCTATTGGTAGTTGAAATCATACAAATGTATTTAAAATATGATGTAAACCAAAAGGATAAACTAATCTATTTAAAAATCCATAAGTACCTACTGCAAACCCTTTATAAAAACCATTTGCTTGAGATAAAGCTGTTCCTATTTTAATTAAACCAAACTGAAGTCATGGTCAAATAATAGCAAAGCTTAACCCTAGTGGAATAATCATTAAAACACCTAATAATGGAATAAATCTTCTTCCACCAAAAAATGAAAGAGCTTGAGGTAAAGTTACTTCTTTATATTTGTTATAAATTAAAGCAACTAAACACCCAACAACAATACCACCAACAACTCCAGAATCTAGTTGATATTTCACACTATTTCCTTTTAAAAAATACAATAATTGAGTAGCGCGAACCATCTGACCATTACGTTCAATTAAAAGCTTGTCTGAAGTTAGTACATTTTTTCAAATAAATGTTGGAAATAAACCTTCTTTTAATAAAGCTGTCATTCCAAATCAAACAATACCACCAACTAATGCAGCTTCTCCACGATTATCTTTTGCTAAACCAAAACTAATACCAATAGCAAAAATAATTGCTAAATTATCAAAAACAATTTGACCAGGAGTAGCTATAATCAATCCTATGAATTTTTGAATTTCAGAAATATTTAATCCTCCATTGGCTAATGGATCTTGAATTAAAGCACCAAATCTAGCTAGTAAAGCTGCAATAGGTAAAACTGCAATTGGAAACATTAAAGTTTTTCCTAAACGCTGTAGTGCATTTAAAAGATTATTATAAAAACTATTTTCTTTGTTTTGTTTATCTTTTGCTTTTAAAAAATGCATAACTTATCTCCTTTCTAATTTATTTCAATTAAATCTAATAAACTTTTTATTAAACATTTTAATTATTAATTTATAACAACCAACTTTATTAAATAGGTATTATAAATTCTTTAAACTTGTTTTGTTAATAAATTTATGCACAACACTTTTATAGATCAACTATTTATTAATTAAAGTTATTTAAAACTCCTTTCATAAATTTAATACACTAAATATACAATTTTATTTTATCTAATCTAAGGTCTTAATTTTTTTATTATTCTAATCATTATTTATAATTATTAAAAAATAAAAAAATCACAATTTTAAAAATTGTGATTTACATTAATTATTTGTATTTTTTTTATTTTATTGATACGTTTTTAGTTGAATCTTTTTTAGTTGGAAACATTGGATATTCAGGATGTGGTTCTTTTAACATTAATATACCAATTAATGATATTAATGTAGCAACAATAATAATTACTAGTTGAATTGAACTTACTAATACTTTGTCTAGTCCTTGTAAAAGTGTTACACCAGAAATTATAATTAATACAACAGTAAAGAACATGTATCCAAATCCTCAAATTAAACTAAACATTCAACCAATAGTTTTTGGATCTGCTTCTTTGTATTCATGAGGCATGTTTAACATAACTCCTTGAATACCTCAAACACATAATCCAGTTAAAAAACCTAAAATAATAAACATTATAGCTGAAAATACAAACATAGAATTATTTTGGCTTTTTCCATATTTAGCAACACCAAATACAAAAGTTAAAGTTGATAATACAAATAAAACTATTCCCATTGTAATTGCACAAGCAATAAATCATCTTCTTTTTGCTTGTTTTCTTGATCACAAACCAAGACTAATAGGACCTACAAACACAGCTGCTAAAAATGCAATCTGTCAACCTTGAATAAATTTATTAAAAGATCCATTAGCATTACTTAGTCCGTTAAAGATTGGTATTGTTAAACTTGTTAGAAAAACAGCTATACATAATCATCCACCATATAGTAGAACTCATGCATAAGTTTGTTTTTTCTTAATGTATGAACCAAGAATTTTTCAACCATTTACTTTTACTTTTGGTTCATCTTTTTTAATGTCAAATTTTGTACCTATAAGAATAAATAATATTAAAGGAATAATATTTAATGCAGCAAGCAAAGTAATTATTAGTTGTCATTGATTTCTAACTGAATCTGGCATGCTAACTAAAAATGCAGGTAAGATTGAAACAATAGTACCTAATGGATAAAATCAAATACCAAATTGTGAAACAATTGATTTTTGTTTAGAACCAAAGAAGTTAGCAACAACTGGTTGGGTTAAAATAACTAGTGTTGTTCCTCCAATAGCCATAATTGTTCTTAAAATTAAAAACAATGCATATCCAGATCTAGTTGCTGGCATAAATGCAGCTGGAATACCAGCTAATGTCATACCAAGCGCAATAATAGTTGTGTATTTATGAGCAAATTTTGCTAATAATAATGCAATAAGCACTGAACCTATAGCACGACCTAATGTAATTGATCAGTTTGAAATTTGGTTTAAAACTTGAAAACTACGGTTGTTTTCAATACCAAAGTAACCTAGAAATCCCGAATGAACTGTTCCATTACTTACACCACTACCTGCTAGTGTAACTGAAAAACCTCAGTTAGCGATAAATAGCATATATGCAAATGAAATAAATGATCATAAAATAAAGCCGTAAAGTACTTTATTTTTTTGTGATCACTGTTGGATCTTGTTATTCATATTCCCTTTCTACATAATCAGAATTTAAGATAATCGCAATTGATAAATTATTTGTTGGTAATATTTAGTTTTTTTAGAAATTTATTTTTTAGGGCGTAATAAACTATTTAAGTTTTTAATTAATGATTTGGTAGAATGAAAAAATACTGTATCAGTTGCTTTTAAAATGTTTTACTTAATATTTTGTAAAACAAATTTATTAAACTTGTAATCTAATTTTTTAAGTAGTAGGATGGTTATGTTTAGTTTAAAAAACTACTTGATTTTTAAAAATTAATATTTATTATTAACCTTGTAGTGGAATTATTGGTAAATAATTATTTTTCTTTTACAGAGAATATAAATTTTATTTCATCAGAAAGTTTTGTAGATTTAACAACTACACCACCAGTTTTATCTTCATAGTACACATCTAAAACTGTTAGTGTAGATTCATCTACTTTCAATATTTCTGCTATTTTCTTTTTAATTGTTGAATGAAATTTTGAATTATCTAGGATTTGGTCTTTAGTATAAGCACCTAATTCTAGATTTTCTTTTACTAAAAATGTAACTTTTAAAGTATCAGAGAATTTTGTTGATTTAACAATTGCTTCTCCAGATTGATCATCAAAATAAACGTTTTCAATTTTTAATGATTTTTCTTCTATTTTTAGTATTTCAGCAATTTTCTTTTTAATTGATGAATGTAAAGCACTATTATCTAGTACTTGTTTTTTAGAATAAGTCCCTACTTCAATATTTTGTTTAGGGAATTTTGGTAGATTTTGATTATTGTTTGGTTTTGAAAAATCATGATTTTCTATATCTCAACCAGTTATGCTATCTCTAAAAGCATCACTTCAGTGACTTTTTGAAATAACTTTTGGTTTTTCTTCACTTTTTTCATTACCATCTTTTTTATCTTTGTCTTTATTTTGATTAGTACTTGGTGCTTTTGTAGAATCAGTATTATTGCAAGCAACTACTAAACCAACTCCACTTGCACTAATCATTAGAGAACTTAATATTGTTAGTAATGATTTCATACTCATGTCTTTATAAAAAATTGATTAACTTTTTGAAGTTAATCGGCTATATACCTAGTGTATATAGTTAATTCCATTATATATATAATGTCAAGTTTATAACCAGATAGCAGGCCATCTTCATATCAGTTTTTTTACATTTTAAGTTTTATATTTATCATTTTAAAAAGATAATAGATTTTTAAAATTTAAACTTCATCATTTAATATATATGTTTATAAATTTAATAGATAATAAAAAATCAGCACTTAGTTGTGCTGATTTTTGTTATTATTTTTTAATTTCAATTCAATCATCTAAAACTTTATAATGTTCATCTCTTAAATAATCAATTCCCATACAATGACGAATTGGTTTTGAATAAACATGTTTGTTTTTTAGATATTTTAAGTGCTTTTTAAAATGCTTATAATCAACTAAAGCATCTCCTGTGCTTTGAATATGTAAAACATTATCTAAATTTTTAAAATCTTGTTTTTTAATAAATCTTTTAACTGGATAATGAGAAAGTTTAAATAGTATTGGTAAAAATAAATAAGATAAATAAATAAAATATCAAACCTTTTTAAATCCAGATTGAATAGCAATATCTAAAAATGAATTATATCCTGCATCAACAATAAACTTATTAGCTATTTTATTATTATATTTACTAATAAAACTATAAACAGTTCCTCCACCCATAGATTCACCATATATAACTAGTTTTTTTGGTTTAAGATCTTTTTTAACAAAATCAATAACATCTTTTAATAAATCTGCTTCTTTAATACCTAAAGTACATTTACCAAATTTATCAGATTCACCTCAACCAAAGTTATCATAACTAATTAAAGTTATATTTCTTGAAAAACAATAATCTAAAAACTTAATCGCATTTCTATTATTTGATAAAATACCATGACAATAAACAATTACAGTATCACCAGTTCCGTGTTTAAAAATTTTTAATTTTCCAAATCTAGTATTAATAGTTTTATATTCTTTATTAAAACCTGATAAATCTAAATGATCAAAATTATATCCATTTTCATTTGCTATTTGATATTCAAAATCTAAAGATTCTTGATAACTAACTTTTCTTTTTAGTTTTTTTCTAATTTGTAATCAAACATATAAAGATAAGATCATAATATCACCTATTATTTTTTAGTTTGTTTTGGTTTGTCTGGGTTATGATGAGATGGTACTAATAAGTGCTTATTAAATGTTTTATCATCGATTTCTCTTGTAATAAATTCTGGTTCTTTAAAGAAAAATAGTAATAATAAAATTGCAAATAAACAAGAAATTCCACAAATTAATCAAACTCAATATCCACCAGTTCCACTAATTCCAAACACGGGAGCTTTTGATAAAAATGTATTAACTCCAACAAATATAATTCCACCAAAACCATAAGTAATTGAGTTAAAGACAACAAATGTTGCTGGACGAGTATTAATAGTTGTTACTCTTGAAATAAACTCATATCCTAAAGCAACAGCTAATGTTCCAGTAATAGCTCCTCCAATTCCCCCAATTAAACTAGTAATAATTGGATCTTTTGGTTTTACTATATAAACTATTGTTCCAATTCCAAATCAACTAATTGTTGCTAAAACTGCTGATCATAACAAGAAGTTTTTTAATTTAATTTTAGTAATAACTTGTAATATTAAATAAGATAAAAGCAATTGCACTGGTATTGAAAACGCTTTTTGATATCCAATATGCTGAGGAGAGTTAAATGACTTTGTTGTTGAAGTAAAGTTTTCAACTGTATTTACTCAAATTGAACCAAATGCTTGTACTGTACCAATTACTATTAAAAAGAATATCAATCCAATAATAAAGTTTTTATTTAAAATAATTTGTTTTAAAGTTAATTCTTGATTAAGTTTATTAGCTTGCTTAACTTCTTCATATTTTTTTTGACTAACTCTTTCTTCTTTAACGTGTAGTTTGTCAAAAATATTATCTGGCATAAATAATCATAAAAAGATAGTTAAAATAACATAAAAAGCACCAACTACATAATATGGAGTAGCATCAGCTCAACTAATTGTTCTTTTATAATAGTTTAAATGTAAAAGTAATTGAGTAAGACCAATTGAACCTAATCCTGCTCCAACTTCATAAAACCCACGTACAAATGAAATTTTTACATTAGTTTTACGTGCAACTGAAGTAGCTCAAGAATCTAAAGCAGTTCTATAAGAATATAACATTCCAAATAGTGGAGTAAATACAGTAGCTAATAAAAGTACTGATGAAATTACTGGCATTATAAAAAACATCATTATAGATAAAGCTAAAAGTATTGGTAAAATAAAAAACTTATAAGTTTTTTTCTTAGTGATTGCATATACTAAAATAGGTCCTGAAATAAATGAAGCTATTAAAGCAGCAGCTGAAAATAACAAACCTTCTTTTTTAAATGCACTATTAATATTAATATTGTAGTATTTTGTAATTATATGATTTTCTTGATCTATTACAGCTTCTAATTGAGTGTAAAAATCATCTATTGTTTTAATATTATAATCACTAAAAACAATAGATAAATTACTATCAATTTGTGCTTTTCCAACGCTTAGATCAGTTTGTAACCCACCATTAAAAATAATTACTTTTTGAATAAATCATTCTAAGTTATAAACAAGTGTTGTTGTTATACCTACTAAAATTCAAAAAATAATTAAAGTTATTAACGACTTATTTTTTTGTTTTTTTAATTCCATAAATAGCCTAGATTGTTAAATAGACAAAACGTCTAAGTTATTAACAACAAAAATTAGACGTTTAATAAAACTTTTGTTGTTATTTTAATTTTATAATAATTGACTTTTATTTTCTTTAAAGACAATTGTTTTAAATTAGTATACTTTATAAATAAAAAAGTATCTTTTTCTAGTATAAACTAAAGATACTTTTTAGACTATATTATTTTAGAAATTAATCAGTAATACTTGTGATATTGTAATTTGCTTGTGTGATTTTATCAATGATTTGTTGTTGTTGGTCTGGATTTGATAGATCAATAATAAATGTTGTATGTATTTCATTTAACTCTAAATACATAATATCTCTATTAGTTTTAATTTTAATAATTTTAGCTCCACAAGAATTAATAATACTAATAATATTCATCAATTCTTTATTATCTGATGGAATATTTACAGATAATACTAATCTTCTATTAGTTTTAATTAAAGCTTTATTAATAATATTTCCAACCATTGCAATATCAATATTTCCACCACTAACTAATCCAACTATTGTTTTATTTTGATTTTTAATATTTAATTTATCAAACATTAAAGCAGCAGCTGTAACTGCTCCTGAACCTTCAGTTACAAACTTACAATTTTCCATTAAAAATAACATTGTTTCAGCAATCTCTTCTTCACTTACAACAACTACATCATCAACATATTGATTTAATATTGAAAAAGTTAAATCACTAACTTTTTTAACAGCTATTCCATCTGCTATTGATGGTTTTGAATCGATCATTACTGGTTTATTTAAAGCTTTTGCTTGTTGATATGAATTAACATTAGCAGCTTCAACACCAATCATTTTAATATTAGGATTAACTTGTTTTAAATAAGTAGCAATACCACTCATTAATCCACCACCACCAATTGGTACTAAACAATAATCAATATTTTTAATTTGTTGATCAATTTCATAAGCAATAGTGGCTTGACCTTTAATAATTTCAATATCATCAAAAGCATGAATTAAAGTTAAATTTTCTTTTTCTTTTAATTCAATAGCTTTGGCTAAAGCATCATCAAAATATCTACCAGATAAAACAACTTTTCCACCATACTTTTCTGTTGCTTGAATTTTTGCCATTGGAGCATTTTCAGGCATAACAATTGTTGATTTTAACCCTAAATTAGTAGCTGCATAAGCTACACCTTGTGCATGATTTCCAGCACTAGCTGCAATAATCCCATGTCTTTTTTCTTCATCAGTTAATTTACTAATTTTATTAGTTGCCCCTCTTAACTTAAAACTTCCAGTTTTTTGTAGATTTTCTAATTTTAAATAAATATTATTACCAGTTAAAGCAGACAATTTATCTGCATAATGTAAAGGTGTATAATGAATTATTTTAGAAATTTCTTGATGAATTTGTTTAATTTCATCAACTGTGAATGGGTGTGACATATTTTCTCCTTTTATAAATATCACTTTTCTACTAAATCCTTGTACATTAAATATTATATAGTCTAAAAAAATAGTGCTTTTGTTTAATAACTAAATAAAAAATAAATAAAATTAAGTGACTTTAAATGAGTGTTTTATATAAAAAAATAATTTGATAAAAATATATAATTTATATTAAGAAAAGAGATGGTTTTATGAATATATCTGGACTATATGATACACATTGTCACTTAAATGATAGTAGATTTATGGAAATTGATATGACTTCTAATGAAATAGTAATTGAAGCAAAAAGAAGTGGAGTTAAATATATTAATAATGTTGGATATGATGTTAAATCATCAAAAACTGCAGTATTTCAAGCTAATTTAGATCCAAATGTTTTTGCTGTTGTTGGAATTCATCCAAGTCAAATTCATTTATATGCTGATCAAGCTTTTGAAAGTATTGAAGAATTAGCAAATTCAAATAAGGTTGTCGGAATTGGTGAAGTTGGTTTAGATTTTTTTGAAACTAATAAATATGAAAAACAGCAAATTTTAGGTTTTGAAAAACAAATTGATATTGCTAAAAAATTAGATTTGCCTATAGTTGTACATTTAAGAGATGCAGTAAATCATTTTAGAGTATATGAAATTGCTTATAAAATATTTAAAGAAAAACGTGTTAAAAAAGCAGTAATTCATGGTTTTCGCGGTCCTTTAGAATGAGCATTGAAATTTATTGACTTAGGATTTTATATATCATTTGATGCAGCTATTACTCATGATGTTGAACTAGAACAAGTAGTTAAAAATGTTTCTTTAAATAGATTATTAGTTGAAACAAATTCACCATTTTTACCACCATCACCATATAAAAAAGGTTTAAGTTATCCAAAATATTTACCACTAATTGTTAAACACATAGCAAAAATTAAAAAAGTTTCAGATAGTATAGTTGCTGAAAATACTAAAAACAATGCTGAAAGATTGTTTTTAAGATCATATTAAAAAAACGAGAATCTAAATTCTCGTTTTTTTATTCTACTAGATCTTCAAAATTTAATACTTTATCAGCTCAATTAGTTTCGAAATTAATATCGTGAGTTGTAATTAAAACAGTGCCTTGAAATTCTTTAATTGCTTCTAGTAAAGATTCTTTTGCTAAAACATCAATATGATTAGTTGGCTCATCTAAAATCAACAAGCTAGCTGGTTCTAAACTAAGTGAAGCTAATCTAACTTTAGTTTGCTCTCCTCCAGATAAATCACTCATAGGATTTAACATAAGCTCTGATTTTATTCCAAATCTTGAAAGTGTTGCTCTGATTTCAGGATCTAAAACTTCTTTATGTCTACTTGATAGATATGAAATTGGTGTTTCATATTCATGAAATTTTTCAACTTGTTCAAAATATCTAACTTCAACACCATCACCAAGTTTACACCAACCACTAATTGGTTTTAATTGATTTGAAATAGTTTTTAAAAAAGTGGTTTTTCCAATTCCATTATATCCTTTAACAATACATTTTTGACCTTCTCTTAATTCAAAAGTTAAAGGAGCAGTTAAACTAAAATTATAACCAATTTCTAAATTTTGAGACTTAATAACAACTGCTGAATTAGGACGCTTATATTTAAAACTCATTTTAGGTTTAACTAGTTTTTTTCTTTCATCTAAAACATCCATTTTATCTAATTGCTTTTGACGAGATTGTGCACTTTTAGCTGTTGAAAATCTTGCGGCATTTCTTGCAATATAATCTTTTAGTTTTGCTATTTGTTGTTGTTGAGATTCTCTTGCTTTATCATATTGATCAGCTTTTAAAGCAGATAGTTCTAAATATTTATTGTAATCTCCAACATATCGATTTATTTTTTGATTTTCTATAGCATAAATTATTTTTGCTACTCTATTAATAAATTCAACATCATGACTTATCATTAAAAAAGCGTTCTCATAATTATTTAAAAAATTAATTAATCATTCAACTTGTTCAATATCTAAAAAGTTAGTAGGTTCATCTAATAAAATAAAATCATCATTTTTTAATAATAATTTAGCTAATAAAATTTTTCCACGTTGACCACCAGATAATTCTGATAGTTTCTTTTTCATATTATTTGGATTAATTCCTAATCCTGAAACTAAATTACCAATAGTTTTATCAATAGTATCAAAATTATGACTAGTTAAATAATCTTGTAATTCTAAAGCTTTTATTAAATCTGATTCTTTATATTCAATTGCCATATCTTCATAAATTTTATGAATTTTAGCTTCAATTTCAAAAAGATTTTTAAAAGCATCTTTTAAATACTCTTCACTAGTTATATTTGGATCTACTTCTTGGTGTTGATCTAAATATCCAATCTTTGCTTTAGGATGTCATTCTATTGTTCCATGATCTGGAGTAATTTTTTGAGCAATAATATTTAATAAAGTAGATTTTCCAGCTCCATTAGGACCAATTAAAGCAACATGTTCACCTTTATTAATTCTCATTTCAGAATTTTTATATAAAATTTTTTCTCCGTTTTGATGTGTAATATTTTCTAATACTATTAAACTCATATCTTCTCCTTAAACATACTAAAAATTAAGAAAGATAAAAGAAATAACTTGTTGTTAATTCTTTTATCTAACAGGTTTAACTTTTTTTGGAAAGGTGTCTGGTTCAGTTTTATTTTTAATTCTTTTAATATTTTGTGAGTGTCTTCAAGCTAAAATCAAGCCACCAATTAAAATAATAATATTTCCTTCTAAAATTCCACTTGCTCAAGTGTTTGATAATCAATAATGAAATGAATTTAGTAATGAAAATAAAATATAGTTTTTTCAAGCAAAACTAAATTTTTCTAACCCATTTCACTCTCATATAAAATAACTAACTCCACTTAAATAAGGAATTCACATTATAAGTAAAATGATTAAAGCAGAAAACATTGAAGCAACACTAACTTTTCTTGAAATAGCAACACTTATAAATCAAATAATTAAAAAGATAATCAAATATAAAACATTAACTACAAATAAAAGTCCTAAAAAACAACTAACTGCTTTACCACCTTTAAATTTGTAATAAATTGGATAACAATGACCAATTAAAGCAAAAATACAAGGAATAAAATAACTAGTCTGACTAAATAAATCATTTGGGATCATTGATAATAAAATAGCTGAAATTGCAGTAAACACTACTTTTAAAGCATCTAAAAAAGCTACGACTAGTCCTCACTTTTTACCTAAAGCTCTCACTGTATTAGTTGCTCCTGGATTACCTGATCCAACTGTTCTAATATCAATATTTCCCACTTTTTTAACTATAATTATTGATCAAGATATTGAACCTAAAAAATAACCAATCACACTAGCTATAATTATTCCTAAATAATGCATAAAAAATCCTTTCAATTCTTTAATAAGATTATAAAATAAATAAAACTAAACAACAATTGGAGTATAAAAATGCAAAACAAATCTGGTTTAATTTTACTAAAAGAAGTATTTATTAATAACTATTCTAATAAAATTGATTTTTTAAAAACAATTTTTTCAGATAAACAAATCAATGAATTAGAATCAATTACTAATATAAAAGAATTATTAACTAATTTAAAAGAATTATTAAATAATCAAATTCTTATTCATCAAAACAAAATAAAAGAATATCAATTAGAATTAAAAAAAACTAATAAGAAAATTTTAAACAAATTATGATTATGATGATTGTTACCAATTATTGGGATGTTTATTTTTTTTATTATTTATAATACTAGATTACAAAATCCATACTATGCTAACCAATTAGTTGATATTAAAGTAAAGATCACTGATTTAGATATAAAAAACATCTATATAGACAAATTATTAGAAGAAATCAATTCATCTGTGAAATTGAAATTCTAATAATTGGTAAAATTATATGTTAGTTCCAAAAAAAAAAAAAAAAAAGTTGTAATATTTTTCTTTAAAAAATTTATCTTTATATAATGTTATTTGAATTTAAAGGGGAATTTGGGTTGTACAGTTATTATTAATTTGTATTATACATCCTTAAGTTCACTAATATGTATAAATTTTTAAGGAGATATTATGACCATTAGAAAAGCTGTTATTCCTTGTGCTGGTTTTGGAACTAGATTTTTACCTTTTACAAAATCACAAGCAAAAGAAATGTTACCCATTATTGATACCCCAACTATAGAATATATTGTAAAAGAAGCTGTTGATAGTGGTATTAAAGAAATATTAATAGTTTTAAATGATAAAAAAAGCGAAATAATGAACTATTTTAGTAGAAATATTCAACTTGAAGGTTTTTTATATAATAAAGATAAAATCGCTGAACTTGAACAAATTAAAACTAAATATGACGCAGATATTCACTATATAATGCAAGATGAACCACTAGGTTTAGGACATGCTATTTCTTTATGTAAAGGTTTTATAAATAATGAGTCTTTTGCTGTGCTTTTAGGAGATGATTTATTTAAATGTCAAACTCCTGCTATTAAGCAATTAATGGACTTATATGAAGAAAAACATTCAACTATTTTAGGAACAATTTTAATTGATAAAAAAGATTGTAAAAAGTATGGTATTTGTAAAACCGAATCAAGTGATGATAATGTTTATAAAGTTTGTTCTGTAGTTGAAAAACCAGATGAACAAAACGCTCCAAGTAATGTTGCAATTGCTGGAAGATATATTTTAACTCCTGAAATTTTTAATTATTTAGATTTGCAACTTAAAGGTGAAACTGGAGAAATTGAATTAACTGATTCAATTTTAAAAACCATTAGTGATGTTGATTGTTATGCAAAAGTTATTGATGGAAAAAGATATGATATTGGAAATAAATTAGGTTATCTAGAAGCTTTTGTTGACTTTGGTTTACAAAGACAAGATCTAAGAGAAGAATTTTTGCACTTAATAAAATCTAGATCTGAAGACGAGCCATCTTCAAACAATGAATAAATTTAAACACTTATGTGTGTTTTTTAATAATAAGTTAATAAATAAGTATTAATTTTTTTACATTATTTTTTTAAATTTAAGAATGGAGTATATTATGAAAAAACAATCGTTACTGTATAAGTGGATACTAGTAATTTGATTTTTAGTTTCTCTAGCTATCACTGTACCACTGGTTTTTAAGCTAATTAAACTATTTTCAGTTCAAGGTAATCAAGCACTAGCAACTAAAATAGTTATTTCAATTTTACTAACAATTAACGCACTTATCTTTTGCTTATTTTGATTAAAATCAACAAAAGATATTGTATTTACTTTTTTCTTTATTCTTAAGAAAAAATCTTTATTGAAAAGATATGATTACATAATAAATTCAGAGTTAAAAGATGAATTCAAGAATAAAAAGGTAATTCTTTTATATTGTACTTGCGACGATTTCGATAAGGATGCTTTAAAAAAATCTATGAATCAAAACTACAATAATTATGAAGTGGTAATATTAGATGATAGTAAAAAACCAGAATACATTAAAAGAGTAGATGAATTTAGTAAAAAATATAATATTAAGGTAGTTAGACGTAATGATCGCGTTGGTTATAAAGCTGGTAATTTAAATAATTATTTAAAGAACAATCCTGATTACGACTATTTTGTTGTTTTAGATAGTGATGAAATTATTCCAAATAACTTTATAACAGATTCATTAAAATACTTTCAAACTAATAAAAAAATCGGTGCAATTCAAGCTTATCATTTAATAAGCAAAGGAAAGAATTTATTCCAAGAAGCAGTTGGAAATTCAAGTAATATTGCCAGTTTATCTATTCATGTACTTAGAAATTTTTATGGTGAAACTTCTTTAGCAGGCCATGGGATGATGCTAAGCAAAGAAGTATATGAAAAAACAGGAGGATTTCCACACCTTTTAGTTGAAGATACTTCAATGTCTGCTGAAATTAAAAAGAATAATTATGAAATTGTTTATGCTCCTAATATAGTTTGTTATGAAGAATTTCCTATAAACTATATTGCGTTAAAAAAACGTCAAGGAAGATGAACCGCTGGTAATGTTCAATATATAAAAAAATATGCCAAACAAAATAGAAGAACAAAATACAAATGATTTGAAAGAGTTGACTTAAGAATAAATCATTACTCTCTTCCTATTGTTCCTGTGATTTCACTTGTTTTTCTATTAAATTTCATTATTTTAGGATTCCTAAAATTTAATATAACTACTAATGACATAGCATTTGTCATCATATGATGTGCATTTTTATTCTTGCCTCTCTTTGTTAATGTTTTAGAATTATCAAAACAAAGAAAATTAGGGTGGGCAACCCCTTCTTTTATAAGTACAATAATAACTTACACATCAATGACAATATTTTTAGTAGCATCAAGTTTTTTTGCTCTATTTAATAAAAGATTAAAATTTGTAGTTACACCTAAAGAATCTAAAAAAATGAAATTTGCTTATGTAATGGCTCACTCTATTGTTCCTATAATTTTTGGTATTTCAGTTGCAGTTCTAACTTATTTTTCTTGACATACAATTTTACCAACTCTTATAGTCTCACTTCCTTGTGTTTTATCACCATTTCTAATAGCTAGCTCTAATATAAATTTAAAAGAAAAAACAGTAAAAAAATTAAAACAAAATGTATAAGTATCGCATTTTTTAAAAAGCGATACTTTTTTATATCAAATTCTTATTCAATTTAATAACTTATATATACAAAATATTAGAAAAAAAATCTAATTATATTTGTTGATTTAATATAATAAAATTGGTTTAAATATTATGAAAATTACAGCTATTTTGTCAAGTCTATTTTTATCTCCAACTCTTTTAAATGGTTCATCTATATTAACTGTTAATAATCAAACTAAAATAGAAACTAAAGAATTTAATTTAGATAATTTAACTATTAAAGGAAAATGGACTACTAAAAAAATTAAAGCTCTTTTACATAACGATGTTTTTTACACATCAATTGATGAGTTTTTAAAAAGTATTGATTCAGTTATTAACTATTCAAATTTAAATATTAGCTTTAAAGATAATAAAACAACTGTTAGATTAAAATCTGATCCAAATTTTTATATTGAATTTGATGCTAATAAAAAGAAAATTACAGTTTCAAATAATAAGATATTTACTAAAATTTTAAAAGATTATAAAAGAGGAGAAGAAGATTTAAAAATCAAATTCTTAGAAGAAAAAAATTTAAATAATGACAATCAATTTGAAATAGATTTATCTAAATATGATATTGATATTTTAAAAGATCAAAATAATCTATATTTACCAGCAATCTTACTTAATCAAGTATTTTTAAGTGAATCAAATATTCAAACCTATTTTAATGGTGGTGATTTTAAAATTTTTAAGTTTTATGAGGCATTAAGTTTTCCTGGAACTTTTTATCTAAAACAATCCGATAAAAATAATGAAAAAACTGTTCCTTTAGGATTAAGAAAGTTTCAATATGAGTATTTATCATTTTTATTTGATAATTATTATGCAATTAAATTAAATAATAATATTTCTTATAAAGAGCATTTTAAAAAGTATCAATCTAAGATTTTATCTGAATCAAGTAATGAACATTATCTAGCAACAAAACAAATTATAAATGAATTAGACGATCCTCATTCAGCTTATGTTTTAGATGGGTATTATGATAAAGACAGAGATTTTCATAAAAAGATATTTGATAATCAAAAAAGAGTTAAAAATAAAAATGAAGTTTTAGAATTATTAGCTAAAAATGATCCTAATAAAATTGATTATGAACTTAAGTCAATTAGTAATGATACTTCAGTAATTTCATTTAGTAAGTTTGATGAAAAAAGTGCTGAATACATACAAAAATCTTTAAAAGAGGCCCAAAGTAAAAGTGTTAAGAACATTATTTTTAATCTAACTCAAAATGGTGGAGGATATATTGGGACTGCTTATGAAATTATGGGATTTTTAACTGATAAACCTTTTAATGTCTATTCTTATAATCCTTTATCAAAAGAAAAAAAGGTTGAAACTATTAAATCAGAATATGAAAAATTTAATTTTAATTATTATATTTTAACTTCACCATATTCTTTTTCAGCAGGTAATATTTTTCCTCAAATTGCAAAAGATAATAAGCTAGCTAAATTGATTGGTTATAAAACTTTTGGTGGAGCTAGTGCAATTAATTATTACGTTTTACCAACTGGAGATATTATTCAATTAAGCAGTAATAATGTCTTTACTAATAAAAATTTTGAATCGCTTGAATTTGGGGTTAGCCCAGATGTTGAGTTAAAAGAAGATGTTTTTAAAAATCCTAGTGCTATTTATCAAAAAGAAACTCTTTTAGATCTAATTAAAAAAGCTGATAATATCAAAGAAGTTAAAAAAGAGATTAAAACTGAAAAACTTACTAAAATCTTAGATATTTCAAAAAGATTAAAAGAAGACAAAACAAAACTAAAAATTAAAAAATCTAAAGTAGTTCAACCTTCTAAACCTGAACAACCAAATAAAATATTAGATCAGAATAATTCTACAACTCAACCAAAATTAAGAAAAATCACTAATAATTTAGTTGATTTAACACCAATTTATAAACCTGAAAAACCTATTAGTACAAGACCATGAGCAATTATTCAACCTGCTAATAAAATCAATATGTTAAGTACAACTAAACCAATAAATAAAACTGAAAGTGAAGAAGTTGAAAATAAATTATTAGAAAAGAAAGCTAATATAGAATTATTAAATATTAAAAACTTAGATTTAGGTAAGTTAGATAAAATTGATAAAGATCAAATTTTAAATGCTTTAAAAAATAAAAATCCAGATACTTTAATTGATACTAAAGATTTAAAAGTTGAAAATATTACAAATAATTCAGCACAAATTTTATTAAAAGATTCAGATCAAAAAATAACTGTACATTTTTTAATATCTCAATCTAATAAAACTAATAAAAATACAATTTGAATTGTTCTACTAGTTATTGGTTTAACTACTTTATTAGGATTAATTAACTTTATAATAATTAGAAAATTAAAGACCAAAAAATTAAATAAATAAAAGATTATCAATTAAATTAATTAAATTATATTTATTAAAATGTATTATATAATTTAGTTATATGTCTGATTAGCGCAACTGGCAGAGCAACTGACTCTTAATCAGTGGGTTGTGGGTTCGATTCCCACATCAGGCACCATTTTTGATAACACAAAAAAAGACTTTTAAGTCTTTTTTATTTTATGCTTTAAAATTATAAATAGGAGCTTAAAAATGAATAATCAAATTATTGCTTTATTTTGTGATTTTAAGTATATAACTACTAAACTTTTAAATAAATTTAATAAAAATCAATTAATTATTTTTGGATATAGTTTAAATAAAGATGATTTTGATTATATTTGTTCAGATTTTCAATTAGAAATATTTAAAAAACAAAATTATAAATTTATTGATTTAAAAAATGAAAATATTGATCAATTAGTTAAAAAATATCAAATTTCTAAAATACATATTACAAAAAGTTTTAAAAATTATGATCACTTTTTAAATTTTTTTCCTAATACTATAACAGAAGATGATTTATTAGATATTAATAATATAAAAAAAGCTTTAATTAATGCTGATATTAATAGTTTTTATAAAATAGCTGGGTTTAATTATACATTTAGTGGAATAGTAACTCACTGTAATCATTTAGGAAGAACTATTGGTTTTCCAACAGCAAATATTTTAACTAATGACAGTTTAGTAATTAAAAATGGTGTTTATTTAGTAAAAGTAATAATAGATGATAAAAATATACAATTTGGTATGGGAGATCATTGAATAAATAGAAATAATTTAAAAGTTTTTGAAACTTATATCTTTAATTTTAGTAATGATATTTACAATAGTAAAATTACTTTTGAATTACTAGATTATATAAGAGATAATCAAAAAATAAATAGTTTAGATCAGTTAAAAACATTATTAAATAATGATAAAAAAGAATGTTTAAAAAGATTGGAGAAATATAATGAATAAAGTTCTACTAGGTTGTCATGTTAGTATGAATAAACAAAATAATTATTTAGTTGGAAGTGTTAATGAAGCTATTAGTTATAAAGCAAATACTTTTATGATCTTTACAGGTCCTCCACAAAGTACACTAAGAACTAATACTAATCATTTATATATTAATCAAATGCATGAATTAATGAATAGTTATAAAATTGATGCAAAAGATCTAGTAGTGCATGCTCCTTATATTATTAATATTGCAAATAGTGTTGATCAAAACAAGTGAAAATTTGCTGTAGATTTTTTAATTCAAGAAATTAAAAGATGTGAAGAAATTAAAATCCCAACTTTAGTATTACACCCTGGTTCTTATACTACTGGAAATTATAAAGATTCATTAAATCAAATTATTAAAGCTTTAGATATAGTAAGTAATTATCAAGTTAATGTAAAAATTGCTTTAGAAACTATGAGCGGTAAAGGTACTGAGGTTTGTTCTAAATTAGAAGATTTTAAATACATTTTAGATAATGTTAAAAATAAAGATAAGGTTGGAGTTTGTTTAGATACTTGTCATTTACATGATGCTGGTTATGATTTAAGTAAATGAGATGAATTTAAAGAACAAATGAAACAAAATTTTGATTTAAATAAAGTTTTATGCATTCATTTAAATGATTCAAAAAATATGATTAGTTCGCATAAAGATCGTCATGCAAACATTGGTTATGGTTATGTTGGTTTTGATACATTAGTTAATGTAGTCTTTGATAAAGATTTTTCTAATATTTCAAAAATATTAGAAACACCTTATATAGATAAAAACGCTCCTTATAAAATAGAAATTGAAGATTTATTAAATAAGACATTTACAAATAGGTTATAGTTCTAATTTAATAGAAAGGAATTATATGAAGAAATTATTATCAATAATAACAGGTTTTTCATTACTAATAACACCTAGCTTATTTGCTATAAGCTGTTCATCAAAAGTTCAAGTTATAAATAAATTTGATGATATAACATCAATTAAAAATACTGGAGCATTTAAAAATAATCAAGCATTTATAAGTAGAAATGAATTAAAAGAAATAGTAAGTAGTAATAATACAACTAGCTCAAGTACAGCAAGTTCAACAGCTGTAATGACTTCTACTAGTACTACATCAACAGGAACACAAACAAACAATAATAATGATGCAAAATATGCTTCTGAAAGACTAAAAGCATTAGCTGCTAATAACTTTACTAAAAATAAAAAACAAGCTTGAGATAGTTTACAAAGTGCTTCAATGACTTTTTATAAAAAAGTTCAACCTACTGCAGTAAATGTTTTAGGTTATGAACAAATAACAAAAGATAATGTTGAAAAATTAGATAAAGAATTAAAAACAGTCTTTTTAGTATTTAAAGATAATAATAAAGAAACTGAGAAATTAGAAGTTGAATTACTACCTGAAATTAATACTAATAATGGGAATAAAGTTATTGATAATGGTAATCTTTATTTAGATCTTTTAGAAAAACCTGAAAACCTAAAATTAGCAAATCAAAAAAGTATTATTGAAGTTTTAAGACCTGAAATCACAAAAATAAAAGTTGTTTTACAAAATACTAAAAACAACAATTCTACTAATAAAGAAGATATAAAAAATACTGAAGTATTTAATGTTTTAATTAAGCAATTATCTATTTATTTAGCTAATGCAGTAAAATACTTTAATTCTGAATCTGGAATTATTACAACAAGTCCTACTTTTTCATATAAAACTAGAAGTAATCAAATTTATGATTACATAGTTAAAAACAAAAAAGATGAACTATACAAAAAATTAGAAACTGCATTTACAAGTGAATTTAATAAAATTAATTTCATTGATATTTTTAAAGATTTCCAATTTGATGAAAATAATTCAACTGATAATAAAAAAATAACTACAAAAATAATAAAATCTTCAACTAATTCTTCTACTTCTTCATCAAATAGTTCAACAACAACAACTACAACTGAACCAAGTTCAACTAATACTAGATAAAAGGAGAAAATATGGAAACTAAAATAAGTTTTTCTAAAAAAAGAAAACTACTGATCCAAACCTTTTATAAATATCAATTATTAAATGCTAGTATAGATTACATTCATCAAGATATTTTAGATGATGTTCAAAATATTAATAATAAAGATGTTCTTTTTGAAATTGAACAAATTGCTAAAAAACAAACTGATCTTATTAATCATATAAATATAAATGTTTCTTCAAGCTGAAAATGAGATAGAATTCCTGCTGTTATTAGAGCTATTTTAATAGTTGGAACATATGAAATTTTATATACAAATACTCCAAAACCAGTTACTATTAATGAAATGGTTAAATATGTAAAAGAAATTGAACCTGACTTTGATTACAAATTTGTTAATGCAGTACTAGATAAATTGGTTAAATAATATGGAAAAAATTTTAACAGTTCAAGAATTAAACGAAGCCTTAAAGACTCTAATTGAAAACAAACAAGAATTTAAAGATATCTATGTACAAGGTGAATTGTCTAATTTAACTTTTAATAAATCTGGTCATATTTATTTTTCTATTAAAGAACAAGATGCTGCTATTAATTGCATGATGTGAAAAACTAATGCATATAAAATACAATCTTTAAACTTAGAAGATGGTATGCAAATAATTTGTTATGGGAGATTAACTTATTACATTCCAACAGGAAGAGTTAGTTTTGAAGTAAGAGATATCAAAATTTATGGTATTGGTGATTTACAAAAAATTTTTGAACAAAGATACAAAGAATTAGAACAAAAAGGTTGATTTGATCCAAATTTAAAAAAACCAATTCCTGAATTTGTTAAAAATGTAGGAATTATTACAGCTGATTCAGGAGCTGCAATTTATGATTTAATTAGAACTATTCATAGAAGACTGCCTCTGATTAATATTTATTTATTTCCCGCTCAAGTTCAAGGAGATAAAGCTGAAAAAGATATTGCAAACAAAATAAAACAAGCTAATGATTTTAAAGTTCAATTAGATGTTTTGATTGTTGGAAGAGGTGGGGGAAGTTATGAAGATCTTTGAGCTTTTAATGAATTAGAAGTTTTACAAGCGATAAAAAATAGTCAAATTCCTATAATTAGTGCTGTTGGTCATGAACCTGATTGAGTTTTATCAGATTATGTAGCTGATATTAGAGCAGCAACACCAACTGCAGCTGGAGAACTTGTAAGTAAAAGTATTATTGAAATTAAAAATCAGTTAAAACATTATTATCAAAACTATAAAACATTAATATTAAATAAATTAGATTTCTTTGATGAAAAATTAAATAACTATAAAAAAGAACAAACCAAATATATAAAAAATAATTTTTCTTTTAAATATTTACAATTAAAACAATTAAGTATAGATAATACTAAATGAACAAAAAATAAAATAAATCTAGTAATTGATAAGCTAGAAAATTATAAGCAATCTATAAATAATTCAACTTTACATATCATAAATTCACAAAATAAAACACTTAAAAATTATTTAATTGCAGATGAGCAAAAAATACTTAACTATTTAAAAAAACAAATAAGTGAATTTAATTACACAATATCAAGTTTTAAAGGACACATTAATCAAATATTAAAATATGAAGAGTTAAATTTTAATACACTTGAAAATAAACTTAATTCATTAGATCCTTTAAAACCTTTACAAAATGGATATAGCATAGTTACTAATTTAAATAATCAAAAAATAAGATCATATAAACAAGTTAAACTAAATGAAGATCTAAAAGTTATTTTAACTGATAGTAAACTAACAGTCACTATAAAAGAGGTGAAGATAAATGAGCAATAAAAATAAAAGTTATGATGAACTAATTTCTGAAATCAAAGAAGATACTAAAAAGCTATCAAGTAATGAAATTTCAGTTGAACAAGCAATGGAAATTTTTGAACAAAACATTGAAAAAATTAAATTAGCAAAAGAAAAACTAACTCAATATAAAGGCCAAATTTATAAAGTAATGCAAGATGATGAGTTAGAAGAATTTAAAGACTAATGAAATTAAGATTAGATGAATATATCTATAAAAACAACTTAACACAATCAAGAAATAAAGCAAAAGAACATATTCTTAATAAAGAAGTTTATGTTAATAATATAGCTATTATAAAACCAAGTTTTTTAGTTGATAGTAATGATCTTATTGAAATCAGATCAACTAAATTAGAATATGTTTCAAGAGCTTATGAGAAACTTAAAAAAGCTATAAATAAATGAAATATTGATCTAACTAATAAAATTTGTTTAGATATTGGAGCTTCAACTGGTGGATTTACTCAGTGTTGTTTAGATAATAATGCTAGTTTAGTTTATGCTGTTGATGTTGGAACAGATCAATTACACTTATCACTTTTAAGTAATTTAAAAGTTATTAATATGAGTCAGTATAATTTTAGAAATGCTAAAAAACAGGATTTTTTAAAAAATATTGATTTTGTTTGTTGTGATGTTAGTTTTATTTCTTTAGAAAAGATTTTTTTACCTTTAAAAGATATTGTTGAATTTAATACAAGTGGGGTGTTTTTAATAAAACCTCAATTTGAATTACAACCTAAAAATATTAAAAATGGAAGAATTAATTCTAAACTAGATCATAAACAAGCAATCTTAAAAGTAATTAGTTATGCAAATAACAATAGTTTTGATGTTATTAATTTAGATTACTCTCCGATTCTAGGAAATAAAAAACAAAATATTGAATATTTAGCTTATGTTATTAAAAAAGAAAATAATTATAAAATTTGAAAAGAAGATCAAATTAATCAACTAGTAAATATAGCTTGAAAAGAATTAAAAAATAGGTTAGATCAATAACCTATTTTTTTGTATATAAAACTCTAGTTGATAAAAATTACTAATAACTAAATCAGGTTTTTTTCTTTTAATTGATTTATTTTGATTTCTTCTAATTCTTAAAATATCTCTTATATTAGTTTTGTCTCTTTTTAAAACTCTAAAAATAGATTTTAATAAACTAGATTTAACTTTAACAATTAGATCTAAATTAGTTAAGTTTAATTCAAATAATAAAGCGGCTTCAATAATGTAATTAGTATTTGGATTGTTTTTGATTTCTTTTTGGATTTGTTTACTGATTAGTGGTCATAATAAACTATCTACTTGTTGTTTTAGTTTTTTATTTGTAAAAAGTTTTTTTCTTAAATATTTTTTATCAACATTATTATTTTTAATAATATTATTATCAATTTGAAATAATTTAGATTTAATCTCTTGATTTTCTAATACTTTTTTACTTACATTATCTGCATTAATGATTTTAAATTCAGGATGAAAGTTTATAAATTTATTTGAAATATAAGTTTTACCAGATCCTATTTTGCCATAAATACCAATTATCATTTTATATACCATGCATTCTAAGTTGTTTTTCAGCTGAAATTTCAGTTACTGTTATGATTAAGTTATTTGTTTTATTAACTACAAAAAAGATATTAGTATTAGAAGCTGAAATATAAATTTCATTACCTGACATAAAACTTTTAGTTGAATTTCTAATATGTTCTAAACAGATTTCTTTTACTTCATAATCTTTTTTATCTTTTAGTTTAAGCCTTTCTTTAGCTCTTTGCAAGCCATGATAACTGAAACTAAAATTATGTCTGTAATAATAACTCATAACAACTCCACTATCAATATAAAATAACAAGTATTACACTTATATTATTGTACTTATTTGAAACTATATTTTTATCTAAATTAATTATTAATAAATAATTTGTTTAACTTTTTAACAAAAAGGGTAATTTTGCCCTTAATTTTAAAAAGTTTGCCAGAAAGTGATGAAAAAACAAGATAAAATTTAATAAAAGAGGTAATTTTGCCCTTAATTTTAAAAAGTTTTTTGGAAAATGATAGATAAAAAACTCTAAAGAGGTGTTTATGGAAATAAAAAGAGATTTCTATTTAAATATGCTTATAGAAAAAATGAATAACAAAAAGGTAAAAATTATTACAGGAATAAGAAGAGCTGGTAAATCATATATACTATTTAAGTTATTTTACAATTACTTACTTTCTAAACAAGTACCAAAAGATCAAATTATTACTATTGCTCTAGATAATATAGACTTTTTAGAGTATAGGCAACCATTAAAATTGAATGAATATATAAAGTCTAGAATAATGGATCAAAACAAACAATATTATGTCCTTATTGATGAAATACAATATTGTGAAATAATTAAAAATCCTTATTTTCAAAACAGCAGTTATGATGTTAGTTTTGTTGATGTATTACTAAGTTTAGTTAAAAAAGACAATGTTGATGTCTATGTAACAGGAAGTAACTCTAAGATGTTATCAACTGATGTTTTTACTCAGTTTAGAGGACGTGGTGATGAAATTTATGTTAGTCCTTTATCTTTTTTTGAAATACAAAATTTGTTTGAAAATAAAAGACAAGCTTTAGATCATTATATGTTATATGGTGGATTACCTGAAGTTTATAATCTTCAATTAGACAAGAACAAAACTGAATATTTAAAAGATTTATTTGAAAAAATTTATATTAAAGATATATTAGATAGACATAATATTTATAAGGATAAGCTAGTACTAGAAACTTTGTTGAATTTTATTTCTTCTTCAATAGGTTCACTTACAAATCCAAATAAATTATCTAAAAGATTTTTATCTAACATGGAAATAAAAATATCTTCTAGCACTATTTCTAATTACTTAGATTATTTTGAAGAGTCTTTTATTATTTCTAAAGCTCAAAGATATGATGTCAAAGGAGCCAAATATTTTACTACACCTTTAAAATATTACTTTACTGATATTGGATTAAGAAACGCTTGATTAAACTTTAAACAAAACGAAGAATCACATATTATGGAAAACATTATTTATAATGATTTAATAAGAAGAGGATATAGTGTAGATGTTGGTGTTGTTGAAATTAGACAAAAAGATGGTGAAGCGTTAAAAAGAACACAACTAGAAATCGATTTTATTGTTAATATATCTCATCAAAGATACTATATTCAATCAGCCTTAAATGTTGATACACTAGAAAAACGCCAACAAGAAACAAGATCATTAATAAATGTAAATGATTCATTTAAAAAGATAGTTATTGTTAAAGAAGATATAATTCCAAGACATGATGATAATGGAATATTATATGTGGGACTAGAAAAATTTTTACTAGATGATAGTTTTTTAGATAGTCTAGTATAAAACTTTTTACACTAAGATATTTAACTATTAATTTTAGTAAATAAAAAATATATTAAAGTTCAAATTGTAATTATATGATAAATCATATACTGAGGTATTTAATCATATTCAAATATTTTAATTATTTGAAAATATATTTTTATCTAAATTAATATTCATAAATAATATGCTTAACTTTTTAATAAAAAGGGTAATTTTGCCTTTAATTTTAAAAAGTTTACTAGAAAGTAATAAAAATAAGTCTTTTTTTAGAAATTTGAATTATAAATACTAGTTTATGATTAGTATATTTAAAAATATTGCTGATTTTTTACAAAATTCATCACACTTTCTGAACTCAAATTTAACAAAAAGGGTAATTTTGCCTTTAATTTTAAAATGTCCCTTGGAAAGTAGTAAGAATATATATTCTTTTTACATTAAAAAGAACTACTAAATGCAGTTCTATAAATTCAATATTTCTGAACCTAATGAAGTGTTTTAGATAAATTTATAAAACATACAATATCAAACTTTTATACGAAAAATTTATATGGAATTCCAGTGTTTTTTTTTCGTAAAATTATTATTTTACAAGTTTAGAGAGAAAATTTAGTCGGATTTCCGACTTTTTTTGCACTAAATTATTGATACATAACTCAAACAATAATTCTAAACATTAAAAAAGACATTTATTTTAAACCATAAATACCATTTTTTATATTAAAAAAACTACCAAATCTCCTGAACCCCATTTTCTGGATTTTAGCCCATGTTTATGGTAGTGGGGAAAAAGGATATTTAAAAATTTTATAAAGCAGCAAATTATTTGTAACTATATTGATTAATAAAAGAAATATTTATAATTTATAATAAACAATAATAAATATTTTTATTAGTGATTTTATTTAAAAAGTAATTATAAAGTTACAATAGGTTGTAATATTTTTGATTTAATAGGTTATCTAAATTCATTTTTATAATTTTATTTTAATTAAAAAATTATCTAGTAAACGATTTTTTAAATAGGTTAACATCTTCTAAAACCTGTAATATTCTTTGCTTGTTCATTATGTCTTTTTTTGAAATTAACTTGTATAGGCATTATTTTTTTTAATAAACATGTTGATAATTTATGATTTAGATTCAATATATAAAAACCCCATTTCCTGGATTTTATTCCAGAATATGGGGTTTGAAAAGACTTGTGTTCTTTTTGTTATTTATTTATTTTGTTTTTCAAATTTATACACTTCTAATTCTTTATTTGTAGCTAATACAAAATGATTATTTCCAACATCATGTCATTCAGGTTGATTATTTTCATCATATTTATGAATGTTATGATCATAAATTGAACCAATTAAAGAACCTTTTTCATTTTCAATTGAAGGAACAGCATCTAATAAACTCTTAGTATAAGGATGATAAGCATTATTAATAATTTCATCAGTTGGTCCTATTTCTAATAAAACTCCTTTATTAATTACAGCAATTCTATCTGAAATATATTCAACCATTCTTAAGTCATGAGCAATAAATAATATAGTTAAATTATATTTTTTCTTTAACTCATTAAAAATATTAATAACTTGTGCTTGAATTGAAACATCTAGAGCTGAAATTGGTTCATCAGCAATTAATAACTTAGGACGTAAAACAACAGATCTACAAATTCCTAAACGTTGTTGTTGACCACCAGAAAACTCTAAAGGATATCTTGATAAAACACTTTCGTCAAGTCCAACTTGTTTTAGAATTTCAACAATTAAACGGTGCTTACATTCTTTTTCACTAAGTTTTATTAAAGTTTGTCTTTGTAGTTGAGATTCAACTAATCTATTATAAATAGGAGTGTAAAATTCTTTATCATTTGCTTTTAAGTTATTTAAGATATTTAATAAGTCTTCATATACAACTTTATAAGAATTATCTAGTGTATATGTTAGCTTAGTCATCTGATCAACATAATCAAATATTTTGTTAGTCAATTTATCAGAATCTTTAATTTGACTAGTAGTATTGTTATAAACTTTTTCATCAAAATCTGTAATATAAATTAATTTTGCGTTTTTAGTATTTGATAATCCTTCACCAACTACAGTCTTAACATCTTTAAAAGGATTTAATGAATTAGTTGGATCTTGGAAAATCATTTGTACTTTATTAACCATAAAATTAATAATGTCTTTATGTTTTTTACTAAATTTGTTTGTTTTTTCTAAGTTTTTAGGAATGATTCTATCTAGTATTTTGATTTGACCAAAACTATGTGGAGTTAAACCAATAATACTTCTTCCAATAGTTGATTTACCAGAACCAGACTCACCAACTAAACCTAGAACCTCTCCATCATAAATATTTAAATTTAGATCTTTAATAGCAGTAAATTCTTTTGCACCAAACCCATAAACAATATCTAAATTACGAATTTCAACAACAGTTTTTCTATTTTTATAAGCATTTAACATCTCATTAGTACCTTTTCTAATACTACGATATAAAGCTTTTTTAAAAGGTTGTTTTTCAATATAATACTTACTCATTTATAGCCTCTTGTTGTTGTTTTAGTAATTGTTCGTTTTCTTTTAGTTTTAGTGCAACTTTAATATTTTGTTGTTCTGATTTAGTTTTATAGTTGTTATAAACCATATCATCTACAAAAATATTTTCACCATAAAGATCATTAAGTATTTTGTCATATTTTTTTCATAAATTCAAAATAGTTTTTGATGGAGTGTAGTTTGGAGCTTGTGATCCTAATAAGTTACTTTTTACAAAATGAGTTGGTGAAATTTGATAAACTGGAGGTTCTTCGTAAAAATCAATATCTAATGCATAGTCATTTCTAACCGCAAAAGCATCACCTTGAATTTTATTTAAATTAGCTGGAACTGAACCACGAATAACTTGTAATTTTTCACCTTTGTTATAATCTGGCATCGAAGTTATCAATCCTCAAGTATAAGGATGTTGAGGGTTTAATAAAATTTCTTCTTTAGTTCCAGATTCAACAATTTGACCAGCATACATAATATTAATAAAATCAGCAATTGAAGCAACTACTCCTAAATCATGAGTAATAAAAGCAATAGCTATTTTAAATTGTTCTTGTAATTCTCTAATAACATCTAAAACTAAAGCTTGCACTGTTGGATCTAAAGCTGTTGTTGGTTCATCCATTACTAAAATTTTTGGTTTTAGTGAAATAATACAAGCAATAGCAACACGTTGAATCATTCCTCCAGATAATTCATGAGGATATTTTTTCATAATTTGTTCAGGATTATTAATTTTAGTTAGTTTTAAATAATTTAAAGCTTGTTCATAAGCTTGTTTTTTTGTTTGAACAATTTTACTTACTAACATACCTTCTATAATTTGATTTCCAATTTTCATAGTTGGATCTAATATAGACATAGGATTTTGAAAAACAGCTGAAATCACTCTTCCTCTTAATTTAGATTTTTCTCACTGATATTCATTAAAATTATGAACTTCTAATCCATACAATTTAACACTTCCAGATTCAATCACTGAATTTGAACCACTTAATCCATACAATAAAGAAGTAATTACTGATTTACCAGAACCAGATTCACCAATTAATGCATGAACTTTTCCTTCATAAATTTTTAAACTAGGTCCACGTAAGACTAAATTTTTTTCTTTAGGATTAGCTGGGTTTTTAAAAGATAAATAAACATCATCAATATGAGCAGCAACATTAACTAATTTTCCAAAAACTTCTTCTTGTTCGACATTTTTAAAAATATCAGTATTTTGTTCATCTTTATTCTTATTAAAAAGATTTTTAACTACATTATATTTATGTTTTCAATAATCAATAAAGACTTGAATTATGGACTTATTATTTTTATCTTTGATTTCAAATAGATCTAATGGAATTGGCATATTGTTATAAACAAGCGGTGTTTTAAACTTTTTACTATATCCTTGTTTGTTTTTAATTTGATCTTTCATATACTACCTATCTTTGTCTTAATAATGTATCTTGAACTGAATTAGCCATTAATTGAATAGAAGTAGTTACTAATATTAACATAAATGAAGGAATTAAAACATATCTAGGAAATACAGTAAAGTTTTTAGATCCATCACTAATTAAATTACCTAAAGTTGCAACATTTGGTATTGATAATCCAATAAATGCTAAAGAAGTTTCAGAAAGTATAATTCCTGGAATATGAAACACAATTTCAGTAATTAATAAAGGTATTAAAACTGGTAAATAGTTTAATAAAACTTTATAAGTTGGAGTTCCTAAAACTTTTGAAGCACTTACTCATTCAAATGATTTTGCTCTTAAAACTTGTGAACGCATTTGATTTGCAATTCCTGTTCAAGAAGTAAAAGATAATGCAAATACCATAACTCAAAATGTAGGTTTAATAATAATAGTAATAGTAATCAAAATAATAATAGAAGGTACATTTGAAATAATTTTAATAATAAAAGTCATTAATTTATCAAATATACGAAAATGACCCATCATAATTCCAATAAATAACCCAATAATTACTTGAATAAAAGTAGCTACAACAGATAAAGTTAATGAATATCTTAATCCATGTCATAATCTAGCTCATAAATCTCTACCTAATGCATCAGTTCCTAAAATATGACCATTAGTAAAAAATGTTTCATTTCTATTTTCTACATCAATTATTAATGGATCTTTTGTAGTTAAAGGAATAATTAAAGATAAAACAATTAAAGTTGCTAAAATAACAAATCCAAATACTCCAGCAAATGATCTTGAAAAACGATAAAAGAATTCTATAAAAGCATTTTTTTGATTATGCATTTTACTTGTTTCACTAAACTCTAATAAATTACCAACTAGTTGTCATTGTTGATGAGCTAACGGACGTAAAATTTTATTTGGTGCTAAATCAGATCCGCTAATATTTGTTGGACTTAATTCTGCTCTTTTTTTACGATAATGTCAGTTTTTAAATAATTGAGGTAGTTTTATCATATTAAGCTTTCTTTCTTACTCTTGGATCAATTACTTTATATAAAGCATCACGACATGTATATGACAAAATAGTTAGTAATGAAAATAGAGTTACCATAAATAAAATAATATTAAAATCTTTTGAAGTAATTGCATTTAATAACAACCCACCAGATCCAGTAATAAAGAAAATTTGTTCAATAAATAATGAACCAATAAAACTTCCAAAAATTACTACTGGAAAAAAGGTTGCTATTGGAAACAAGGCTGGTTTTAAAGCATGAGTTCAAACAAATCTACGTTTAGTGATTCCTTTTAAATAAATAAATTTACAATGTTGAGAATTTAATTCTCTATTTAGTTCAGTTCTAATATATTTAATATAAACAATAATAGAACCAAGAGATAATGAAAACCCTGGAAGAATATATGATGCTAAATTAGCTTGATCAAAAATATAAGGTATTCCAGCTGATCGGCCTAATAATAACAATCATAAAGCAAATACTAATGATGGGATTGATGAAAAAATTGAAACTAACACAGTTGCAATATGATCTGGTAATTTATCTGGATTCATACCAACATAAACTCCTAAAGGTATACCAATTAGTAAAGTTAACATTACTGAAAATATACCAATTAAAAAGCTTTTATAAAATCTTACTCAAACAAAGTCATTAATTTTTTCACCAGGAAAAACTGATAAACTAATTCCAAAATCAAAATGTAAAATGTTATATAAATAAATTCCATATCTAACAAGTAATGGTTGATTTAAACCATAATGCTCTTCAACAGCAGCCTTAGCAGCTTCATCAAGTCCAGCAGTTAAACCAGTTCCACCTGGTACTGAGTTAATTAAAAAGAAAGTAGCAGTAATAACAATAAAAGCAACAACAAAAAACTCTATAAATATTCAAATTGTTCTTAGTAATGAAGAAATTCAAGGTGTTTTGATGTTAAAAATACGTTTATGTCAGGAAATATCGTATTTTATTTTGTTACTAAAATCTACATGTTGTTTATGCTCTATAGCATTTTTTGGTAATGTAGATAAATCATCAACAAAATTAGATGTTGTTTTTGATTTCATTATTCTGTCTCCTTAATATCAGTTGGTAATTTTGGACTTGGTGGAAAGGCTGTATCGTATGCAAATTGTAATGAATAAGTAAATAGATTATCACTTCCATTTACTCTTGAAATTTCTCAATATGTATCAACTTCCATTAAAGGAACAACTGGAGCTGCATCACGAATAATTTTTTCTAAAGCTCCAATAATTCCAAATGATGATTGTTCAGTTCATTTTTCTTCATTAATTTCTTTTAATGTATATTGATTTGTAAAAAAGGCGTTAACACGTTCAGTATATTCACTTAATGATTCTTCTTTAATTACATCTTTATCTTTATATTTAGTTTTTCTAAATGATAATTCTAAGATTTTATTTCATAATTTTTCATTAATACGTAAACGTGTTCTTAGTTTGTCAGCTTCACTTTTATATTTTTCATCAATAATTACTTTTCCAGATTCATCTAGTTTATAACCAATTTCACTAAAGTATTTTTCATAAGTAAATGAACCAGATGGATTATTTCTAAATCCTGTAGTTTTTGCATTTTTACTATCAATTCCATCAGTTCTAAAAAATACTCTTACATAACTATAAGCATCAGATCCAAATGCATCAAAGTTACGATACAATAGATCAAACTCACCTTTAGTTCTTGCATATTCATACACATTTTCAGGTAAGCTTTTAATTTCAATATTAATAAATCCATTAAATGCTTTTCTCATAAAATCTTGTAAAGCAATACCGGCATTTTGTTGTTCATCAGTTGAATTTGAAATATATTTTAAAGTTAGTGATTTAACATTAGGATGCTTTTGTTTAAATAAATCTAAATACTTATTAGCAATATTTAAATCAAAACCTTTATCTGTTCTATCAACATGTTCAAAATTATAAGATTTTGATAAGTGATCTATATGTTTATAATTTTGTACTGGAATTGCTTTTTTATTATCAACTTTTGTATACATTTCATCATGATCAAATGCGATCTCAATAGCATCTCCAAATGATGAAGAACCTTGACCAAATGCTGTTCAAGTAATAACTGGATATGAAGAGTTTCAACCAACAATATTTAACATTTCATCACGATTGATTGCATAATAAATTGCATTTCTTAAATCAGAATCATAAATATAACGTGAATCAGAGTTTTTATCTAAAGTTTCATATCTTTCTTGATCTAAGTTAAAAGCTAAAGCAATTGTTCCAAATCCAGCAGATTTTTTCATATATTTTCTATATTCTTGATTAGTTCAATAAGGTAATTGACTAATTGCTGGTATTCTTGTAGCTGCAATATACTTATCATCATATAAAGCAGCATTAATATTAGGATTTGAACTAAAGAAAATTTTGATTTTGTTTGAAATAGTTTTTGGTGCTGAATAATAATTTGGATTTTTACTTAATAATAAATATCCTTGAGGACCTAAAACTGCATCATCAAGATTAAATGCTCCCGTTGTTAAAAATCTTTCTTTAGTTAAACCAAAATCATTAATTCCACCATTTAATTCAACAAATTTTCTATTAATTGGAAATAGTGTTGATAACATATCTTGAACAACATTTGAAATTGAAGTAGGTTCACTTGCAGCGTACTCAACACGTAGTGAATATTCATCTAAAGCTAATTCTCTATGTCATCTATATTTTTTAGCATCAAAACTATCAATGAACTCATTTGATAAAGTGTCAGAGTTTTTATAAGCTTTATTAACTTCTTTATTATAATTTTCAAGATTATTTTCACTATATGTTGTATTTATATGACTTTTTAATTCTCTTGATTGTTGTAGTAATTTTTCAAATTCTTTACTAAACTTTTGTCTTGGGTCAGAAAATAAATATTTTTTAATTTTAACTGCTTTTCTTTGTAATGTGTTTTTACGTTGTTCTGAACTTAGATTTGGATTTAAATACTCTAAATTAGGAAGCATTATTATAGTTTCATCAGCATTTGGATCAAAATCAGGAGAATAAGGAATACTACTTAAAATTTCTCTATTTGAATAATTTCAATATAGTCTTCCTGAATATAAACCTAGTTTTTGAACTGCTTTTTGTAGTTTATCTAAAACTTGTTTTTCTTCTTTAATTAATTCTTGTTTTTCTTTATCTGAAACAGTTCTATTTTTATACTTACTACTATTTTTTAAAATGTGATCAATTTGTGAAGCATAAAAATTCTTTTTATATCCTTCATTAAATACATCGTATAAATATTTTCCATTAATTTCTTTTATTTTTGGATATTGAAATGGATTAGTATAAGTTACACCAAATTTTCTAATGTATTCATTTTGTAAATCAACAACAGTTTGAGCGTTTGCAAATTTACGTTGTAAGATATTAGTTAGTCTTTGAGATCCAGTTGATAAATCTAAAATATAATGAAGTGCATCAACATAATCATCAGCTACAACTTCATCATTATTACTTCATCTACTTTGACCATTATTTAACAAAATATTTACTGATTGAACTTTATTATTACTTAATAAAATACTTGCAGGATGATAAGTACTTTTATCAGCACTTAAAGTTCCAGTGGTGTTTCCAAATCCATCAAGTGCATAAAACCTACTAGTTAGATTTGCACTTGGTTCTTTAGTTGTGTAGTATTTATCAATACTTGTAATACCTTTTTCTATATCACTATCTGTAAGCTTTATATCATTTGTATAAGCTCCCATTGGAATTTCAGGAATTGATAAAATTCTTTTTAAATTTTCACTAGGACCAGATTTTAATGGAGCTTCAACTAAGCTTGGTAATACTTTACTAACTGATGCAAATTTAATGTAGTTTAAAGAGTTAATTGGTTCAGCTACTAAACCTAGATCATAGTTTCTAACTTCTTTTTTAGATCTTGTATTAGCGACTATTAGTGGAATAGAGGTTGCTAAAATTGCAGCTGATATACCACCAAATATAATTGAAAATTTAGTTATTTTCTTCATAATAATCTCCTATTTAACTCCATTAAATTGATCATAAACATAAAGTGTATTTTCATAGTGTTTAAATCCATTTGCATCAACTTTAACTGGGTTTTTACTTTTTTCCATTCTAATTGGAGCTTGTGAGAATGTTTTTCCATTTTCAGCAATTGATTGAAAATCACCTAAATCAGTTTTAATAATATCTTTAGTTCCTTTTTTATCACTTGAAAAATAAACACTATATTTTTGTCCAGGTGTTAATAAGGCATTTTGATATTTAGACATAATTGCATAATCACTAACTCATGAAACAAACCCAGTTCCTTTATGATGACCATTAGTATCTTTATAGTCATATTTTTCATGGGCTAAAGTATGACGAATCTTATCTTTTTGTTCTTGAGTTGTAGCAGCTTCATATTTAGCTTCATTTTCAATATTTTGAGTTTTGTAATAAAACATATTACTACTAAATTGCTTATTAATTTTTACTGTTTTAACTTCTCCAGTTTCTTGGTTTTTAAATGCTAAATAATTTGCTTTATTTGCAACATCACTTGATAAATATCCAAACATAGCAACAGCATCTTTTGAAGCATCTCTTCAAATACCACTAATGTTTCGCTTTCCTACTCCTTGAGATTGAATGTAATATTGTCAATAAGCATTAACTCTTGAAGTAACTTTTTTGTTCTCTAAATCTTTAATTCTAATAGTGTCATCTATTATTGGTTTACCATCATCATCATAAAGTTTGAAATCTAAAAAGTCACGATATCATCTATCTTTAAATCAACCGTTATTAATTGATTGGAATTCTCCAAAATAGCTATTATTATAGTTTGAATCATCACTTAAATTAGATTTTTGAGATAGTTTAGAATTACGATATTTTAAATTTAAAGCTTCAGCTTTATTTTTAGCCTCATTATCAACTAATTTTTCATAATCTAAAATAGTATTTACAATACCATTTCTTCCATCACTATCATTAATTTTAATTGCACGTTTTTTTCATTTAGCAGTTGTAGTTCCATCAACAACATACTCTAAACCAGTTGTAGCTTCACTAATGTTTGATAAAAAGCTTGGCATATTTCCAAAATCATGATTACTTGGAGAATAAGTAATTTGTAAGTTGTCACGGTTAATTACTTCAGCAAAACTATAAGTATAATCTGAAAATAATTCATTAAATTTACGTTCAGTTTTATTATGGAAATATTCTAGTACATCTTGAGATGGAGAAGTGTGGAACTGAGCAGTTGCTAATGATGAAAATATACTTAATAGATCGAACTTTTTATTAGCGATATGAATTTTGGTTTGATCAGTATATAGTTGTATTTTATTATCAAAAACTAGTGCATCAACTAGATTTAATTGCTTAATTTCTACCTTTAATTCTTTAGCAAATTTATCATATGCATTTAGCATATCTTCAGTACTAATCTCTCATTTGTTCTTGTCTGGATCTTTAATTTTGAATTCTGTTTTTTTAAAGTCTCCATATCCATGAACTGAATCAAATATTCACCCTAATTCCTTGTTATTTTTAATATCCTCAATAGAAAGCGCACTATTATACATTGCAAAATATGAAGAGCTAAATCTGCGCATTATTTCATTTGCTCATATTTGGTCAGTTTTATCTTTGTTAGCTTTTTCGTAAAACTTTCTGAATGCTTCTTTTTGATTTGCATTCATTGAAGTAAATGAATCTAATTTATCTAAAACATATGTTTTAAAATTATTTTTAAATTTGTTAATATCAATTTTACCCTTAACATAATTTTTATCTCAATTAACAGTTTCATCAGATGCACTATATTTAGCTTTTGTTAAATCTACATTTACAAAATCTAGTCATTTTTGAATATCGCTAAATTCTAATCTGTTCTTTTCAAAATTATTAAATGAACCAAATAAACCATTTATAATATTGTGATCAAGAGTTTTTAAAGCATCACCATAATTTAGTTTTAACTTAACAACATCTAAAATAGTATTATCTTTACTATTATCAAGTGAAACTACTTGTTCAGACTTATTTATCATATTTCATATACCATCTTTATTAAATTTGCTTGCAATAAAAGTTGGGGTATATGCTGACATTCATTTTAATATTTTTTTTGCTTCGAATATTTTTTCATATTCTTTTGGTAATCTACTTAAAAAATACAAATCAGTATAAGCATCTTGCAATTTAACATTAGGCATATACATTTTATTTTTATCAATTCATAATACTTGGGCTGAACCACCATTAGTTGGATTATCTTGAGAAGAGCCTGCTGTAAACATCGTTGCTAATAATGATGCAAAATTAATTTGACCATTACCATTTACTGGTTTAGAATTTTTTGGATTTGCATATATTAAACTAGATTGTTGATCTTTGTATTTATGACTAATTTTATTTTCTGTTCCATCTAAGTTATAATATTTAATTTTGTTTCCGTCTTTATTAGTATCTTTATAAGAGCCCTTATCAACATCTCTATTTGAAACATAATTACCATAAATCTTTTTAAACATTTCATTTGCTTCATATGGTAATCTTGCACCAAAAATATTTTTAAGTGCAGGATAATTTAAATCAATTTTAGAATCTAAACTAAGACGTGAGTCTGTTTTATTTCATCCATTTATTGTATATTTATCAACTACTAAAGATTTGATTGTTTTTTCAACAGTTTTTATTTTTTCATTAACAAATTCAATGGTTTGGGCCGCATTTACACTTTCATTTTTTAAATCTACACCAAGAGGAACATTAATTATAGGAGATCCGTCTCTGTTGTAAATTAAAACTTCAGTAATCTTTGTATAATTTCCTTCTGAATCTTTTTCACCTTTTACAACAATTGGTTCAACTGTTTCATTATTTCCATTATTATTAATTTGAAATTGTACAGGATTTCCCTTTCCATCTTTAAGTATTCCATTTAACATTTTTAATGAAGCAGGTCTAAACTTTAATTCGCCGTTTTCATCTTTATACATGTATTTGACAACTTCATTATTCTTAGTAGAACTATTAACAGTTGGATTTAATGTACCTGAATAAAAATCGATTGCATTAGCAATTCATAAATCAAAAGGGTTAAGTCATTTTTTGTCATTTTCACTTGTTAAGCCATTGTCTTTTTGACGCTCTTTAACAGCTTCTAATAATCCTGCAAAATCCTGTAAAAATCTTCTCTTTTTATTACTAAAAGCAGTTCTAATATTTGGATCTTCAATATTAACTCCTCAAATATCAGAATCATCTTCTAATCCTTTTTTATTAGATTTAGTATCAAAACTTATAGAACCATTTTTATCTTTTTTAGCAAAATTAAATGTTGCATATTCTCCATAATCTTTAATTGCACCAAACTGATCTAATAAACGTTTAGTTTCTAGTTCAATATGAGTACGAGCTTTTAAAAATAAATCAACAGCTTCTCTACTATAATAGTTATTAATGTTTGGTGTTGCTCCAGGAGTTAAAGCACTAATAAAAATTGGATCACTTCCTTTATTTCCTAGATCATGAGCACCATTTAAAGTAATATGATGTCCATATTCATGAGCTCCAACAAATTTTAAAAAGTCAGTTGAAATACCTTTAAAGTTTTTATCTGACATTTTTAAAATCGCTCATAATCCAATACGATCATCTTTTGTAAATCCTAAATATTTACCATTTTCTAGCTTATATTGCATTACACCATTTTCATCAATAACTTTTTTAATATGTGGTCCTTCTAATCATTGTGCTGCGTATGGGACTTTTTCTAATAATTCATCAATTAGATCTTCATAAGCATCAGTATAAACATCAAAAGTTTTTTCAATTTCTCCTGTTATTGGATTTCTTAAGTCACTTTCTTCTTTTAATACACTAGGAGAAACCATTTTTTTATAACCTAAAACACTAAAAAAATCATTAGCTGCTCTAATTACACCGTGATTTATATCTGAATTTATAGATAAATTAACAACTTTGTTTCCAAATTGTTTTTGTTGATCTGCTTTTTTATCTTTAAGTACTTCTTTTATTGTGATTAATAAATTTTTGTTCTCTTTTTTAACATTGGTGATATCTGCTTTAAAAACAAGTTTATTAATCTCATTTTGATCAGCATTAGGCTTTAATAATTTTCTTTTAGTAAGAATATCAACTAATTCGATTTTTGTTTTTGCAACAATTAAATCATTTTCATCTAATAATTGTTTATAACTTATCTTCTCACTAGAATTGTTAGAGTTGAAAGCGTGTTTTGAATAAACAAAAAAGTCTGTTATACCTTTATTTATATTTTCTCTATCAGAAATAAATTCATCGATATTATAAAAATCTCTTCAATTTAACTTAAGTTTATTACGATTTTCAACTAGTGATTCTATTGAAATTAATTCAGGTAATGTATATGCAAAATCAACATTATAGTAATTTTGTTCTTTAAATTGTCTGTTTTTTGTTGATTGGTTAAGTGTTTGAAGTATTTGTGTTTCTAAATCAAACAAACTTTTTGAAACTTCTTTAAGAATTTTTGATTGTTCCAAACCATTTTTTAAATCGTTGTTATTGTTTAACTTGCTTGATTTATCACTAATAGATTTAACTTCTTTTTCAAGTTCTTCAAATTGAGCATTTTTGTCTATTTTTGATTTTTTTAAGTCTTTAATTTGCGTTTCAATATTTTTTAATTTACTTTTAAATTCTTCAACTGCTTTTGAAAATTGCACATAATCTTTTAACGCAACAAAAGTTGTTTTTTTCTCATTATTAGTTTGTTCTGTTAAAACATCACCAAAAGCATTGTGAATATAATATTTTGTTTTATCATTAAATGTTATAAGTAATTTTTTATCTACAACTTTATTATTACCATTAGGTTTAACTTGATCTTGTTTTACTTCAGCACTTTCAATAGTTTTTTCTTCTAAAATAACATTTTTAGGATCTATATTTTTAAATAAATTATATTTATCATTTTTCTTATACTCCGATAATTTTATTTCTAATTTATTCTTAGCTTCATTTAAATTACTAGCTGGAATAACAAATAAATAATCAGATTTATCTTCTAGTCTTTTGCCTTCTAATTCAGAAAATGAGTTAGAAAAATTGTTATATCAATCTTTTTGTTTATAAGCAAATACTTTTTGACCTTTTAAAAAACTAACATTAGTAATTCCTCTAAAATATGATTTATCGATTGTTTGTTGGGATAAATTAGCAAGTGAGTTGTAGTTACTAATGTTAGTTAAAAAACTTTCTAGATCTTTTTTTGTTAAAACTTGTTGATTTAGTTTATAAGTTAATGATTCATGAGCATTACCTCTACCAGATAAACTAGAATAAATTGGTAAAGTTCCAAAAAAGGCATCTGGATAAAACTTAATAGTTGTTTCTTCTTTGTTTTTATTACTGTGAGCACCTAAAGTAATACTATTACCATTCATCTCAACACCTTTAACAATTGAAAATGATTTTAAAGTAATAATTTCAGGTCCTCAAGAAACGTTTTTCATAAACCATTTAGTAAATTTGAAAAATTCTTGTGGACTAACTGCTTCTATGTATTGGTTATAGAAATTAAATGAACCATATCTAATATTTAAATAAGGTAAGGCATGATATTTTTTATAGTACTGATCTAAATATTTATCAACACTTAATTCTTTTCCATTGACTTTAACAACATCTTTTAATGGATCATAATCAACTTTAAATTTATTATTATGTATTTCTGAAAATTGAGTAACAGGTAAAGCATTTGGATCAATAAAAGCATTTTTAAATGATTCTTCATCACTAAAATTTTTACGACCTAATTTTTCAACAGATGTATTTGAATATTTATAAGCAGAACCTAGAATAGCAGTAGTTGCAGCAATAATTAAACTAGCAGATATAGCATATTTATGTCATACATATTTTTTAAAATTTATTTTAGGCATATTTAATACTCCTTAAACAATATTTTTATGTTGATTTTGAATAAAAAAAATAGAGATGTTTAATCTCAATATGAATAAAACGTTATAACCTTTTAATTAATTACTAACTCAACTTAAAAATATTATTAAAATAAATTTTAAAAATTAATTAGCTATCATATTAATAATATTTCTCTTTTCTAGTTGTTTATTCTATATTAATAGGTATATTATCATAAACTTTTTTATAATTGCAAATACTAAAGTGTTTTTTTATTAAAATTTTAATTAAAAATAAAAATAAAATTTTAAATAATCTTTAAAAAAGTCCTTAAAATAAGCTTTTTTTCTAATTTTATAAAAACATATTTTCTAAAAATATATTTTATTTTTTTATTTAATTAATAATAAAAAAACTAGTTTTTAACTAGTTTTAATCATTTTTGATTCAATTTTTAGATTAATATTCTTTAATAGGTTCAACATTTTTAAATGAAACTTCTAAAGTTGTTCATCTTCCAAACATTTCAATAGCAACAAAAGCTACACCTTTAGAAAAGTCCATATCTTTAACAGTACCTTCTTCATTTTCATGAATACCTGATTTAACTCTAACAACATCTCCAACTTTAAAGTTAGCAGTAAATAATTCTTTTTTATTAACAGCTTCATTTTTTAAATTTTCTTCTTGTTGTTCTTGTTCATGAGCTTGTTCAATTTCTTCAAGATTTGGTACTAACATATTTAAAGTTTCTTCAGTTGTTAAAGGAGAAGGTTTAGCTCCACGCCCACTTGATCCAATAAATCCAGTTACTCCTGGAGTATTTCTAATTAAAAATCAAGCTTTTTCACTCATGATCATATTAATAAAAATATATCCTGGAAATTTATTTTTAATTGAAGATTTTCCTGATTTGCTTACTAAATTAGCTTTTGAAATTTTAATTGAAAAAACTTCATCTTCAATACTAGCTGATTTAATTTTTTGTTGTAGATCACCTAAAACTTTTTCTTCATGTCCAGTTTGACAAGAAATAACAAATCATTGCCCTTTAGCTTCTAATATTTCATCTTCTAATTGTTTGATTTCTTCATAAGTCATAATTTGTTTCTCCTAACTAAATTGCTTTGATTAATCTAAATAAGTATTGAATCACAACATCTACACCAAAAAATAATAAAGCAAAAATACTCATAAAAATAATTACTATTAAAAACTTTTTACCCAAACTTCCTGATCCAGTTCATCTAATTTTAAAAAATTCTTTAGACATTCTAACTGGAAGTTCTTTAAATCATTTTCTAAAATTTTTTGGTTCTTTTTCTTTTTTAACTTTTAGTTTCTTTTTAGTGGTTTTTGAAATTTTTTGAGTGTTTTTAGGTTTTATATGTTCAACTTGTTCAATTTGTTCAACTTGATCGATGTTAATTTCTTTTTCCATTATCTTGTTTCCTTATGTAGAGTATGTGCATTACAAGTAGTGCAAAACTTTTTAATTTCTAGTCTCTGTTTTTGAGTTAAACCACTCTTATTAACAGAATAATTTCTACTTAAACACTCAACACAAACTAATGTTGCTTTTTTATTTGTTGAACTTTTCATATAAAACCTCCAAAGATACTAACACTTAATATTATATATGTATTTATTTTAATTAAAAAACTATGACAATTTGTTCAAATAATTTGCTATTCAAAAACAAATAATTGAACAAGGAACACTTGCATTAAAAGAGTCAATATTTTTATTAGATGGAACATAAATATTAAAATCACTATTTTTTGTTAATAGTTCACTTACACCTTTTTGTTCATTTCCAATAATTACAGCAGTTTTATTTGCAAAGTCAATTTTTGTCATATCTGTTGAATTTTGATTTAAATTAGTTGCATAAATTCAAAAATCATTATTCTTTAAAATTTTAATAGCATTATTTAAATTATTAGTTTTACAAATTTTAATATCAAAAGCTGAACCACTACTTGTTTTTAGAACTGTTGAATTAACTTGTACTTGCTTTTTATCTAAAATAATAATTCCATCAACATTTAACAAACTACAACTTCTAATAATTGCTCCAAAATTATAAGGATCGTGAATTTGATCTAATACTAAAACTAGTGATTTTTCTTTTTTATTTAAATCACTAATTAATTCATTAAAAGAAGTATAGTTATAATCTTTAATTTGTGCAATAATACCTTGGTGTTGAGTTTGAGTTTCTAATAATTGATCTAATTTATTTTCAGAAACTACATTAACTTTTATTTTTGTGATTTTTAGATCAAATTCATTTAAAATTTTTAAATCTTTAACTCAAATTTCTTTAACCATGTTTTGATGTTTTTTTAACAATTCAAAAACAACATGTTTACCATAGATTAAATTAGAATTCATATTATAAAATTCCTTGTTCTATTAACTTGTTTCTAATAAGATCAGCTTTATCAAACTCTTTATTTTTAACTAATTCTTGTCATTTTAAAAACAATTCTTTAGTTTTATTATCAAACTTATAATTAAATACATTATCAAAACCTAAAACATCTAAAATATAGTTTAATGATCCTATTAATAAACTAAAATTATCTAAATTTTTATCAACAATATCTTTATTAATTTGTTTAATTAGTAAATCAATTAAAGATAAAACCAAAGAAGTATTTAAATCATCTTCCATATATTCATTAAATTTTTTTATATATTCAGATGAGTTAATAGATTGAATTTTTAAATCATTTTTAATAATAAACTGAATAGTTTTTTTACTTAAATTAGTTAGTTTTTCAAAAAACTTATTAGCTTGATAAATTAAATCATCACTTATATTTAAAGGTTGAGTATAATTAGTTGTTAAAAAAATCCAACGTAGTGTGTTTTTATTATGTTGTTTAATAAAATCTCTTACTAAAATTACATTACCTAGTGATTTAGACATTTTTTCATCATTAATTTGTAAATGTCCATTATGTAATCAAATATGTGCAAGCTCTTTATTATTTTTTGCAATAAATTGAATTCTTTCATTTTCATGATGAGGAAATTTTAAATCAATTCCACCAACATGAATATCTATAGTTTGATGGTTAAAATACTCATCAATTAATAACACACATTCAGTATGTCACCCAGGTCTACCTAAACCAAAAACTGAATCTCATTTAATTCCTATATCAGTTTTTTTTCATAAACTAAAATCTAAACTATAGTGTTTTTTAGAATCGATTTCAACTCTTTTACCACTAATTAATTCATCTAGTTTATATCCAGATAACTTACAATATTCATTTTCATATTTTTTAATATTAAAATAAACATCACCATCTAAAACATAAGCAGCATTAATATCAACTAAATTTTTAATAAAATCAATCATTTCATTCATTTTTTGACTAATCAAAATTATCTTATCTGGTTGATTAATATTTAAAGATTTCAAATCTTCTAAATATGCAGTAGTGTATTTTTGAGAAACTTCTAATTCATTTAAATTATTATCTAAAGCTTTTAAAATAATTTTGTCATCAATATCTGTAATATTTTGTAAATAATTAACTTTGATATTTCTACTTTTTAAATATCTAGTTAAGACATCAACTAGTAAAACAGGACGAGCATTACCTATGTGAATGTAATTATAAACAGTAGGTCCACAACAATATAGATTAATAGTTTTTTTATTTAAAGTCTTTTTTGTTTTAGATAATGAATCATATAATTGCATAAAAACTCCTATTTAACTTTAATTAGAGGTCTTAAAACAATATAAACAGTAGTTAAAATAGCAGTATTAAAAAAGATCTTAATTGGTATTTGAATAATTCTTACAACAACCATTGTAATAAATGGATTTTCTGATCCTGAAGAGTTTCTTAAACCAAACATTTGATAATCCCCTCAAGCTGCAACTAAAACAGTAACTAATATTTCACTAATCACACATAATAAAATAATAGGTAAAACTACATTTAATCATTTATCTCTTTTTTTAATATGTAATACTAAAACAAGCCCATAAATAAAAATTAATGTAATTGAAATCATTATTAAAAATAAGAATGGATAAATATCAGCAGGAATTTTAATCCCAAATAATGAAGTTTCTGGATTAATTTGTTTCATTCCTTGCATTAATCAAAACATAATACCAGCAGCTATTAGTAAAAATACAGTAACAAATACTAAAGTTAATCAATTCTTTTTTAATTTAAAAGCATATGAAGTCATTCCAGATCAAAATCCAAATGAAAAAGCAACAACTAAATAAGCTACATGAATATATGATGGAACAAACATTAGTGTCAGTAATTCAGTAACTAAACCAACAACTAAACCAACAAAAGGACCAAAAATCATTCCTGTGATTTTGATCATAACCCCTTCAAATGCAACTCTAATTGGAGGTAGAACTGTAATTGGTAATGTTAGAGAAATAACAGTTGTTGTAGCAACTGATACACCAACCATCATAGCTAGATATGTAATTTTTCTTGTACTAAATTTAACTTTGTTACTAATGTGAAAACCACTACCATAATTTTTAAAACGAGCTCTAGCTAATCTAAAAATTGAATAAATAAGAATAGCAGATAAAGTTATACATAATGAAGTGATTGCTAAATTATGACCATCTAGTAATAAATGTCTAAATTTATCCATAACCTACCTTCTTTTCTATTTACCAATAAAATAAAATTCAACGTTATAAAAGTGTGGTAAATAGTCCCACACTTAATTAACTTATTATTTATTTTACCTTATTATTAAATTTATTAAAGTTGTTTTATTATTTATTACTATTCTACTTACCATTAACACTACTATTAGTTGTAGTGAATGACTTATCAGAAATTTTTAATGAAATATCTTTAAATCTATAAGGAGAGCTATTTCCTTTTGAAAAGTCATCACTAAATCTATATGAATTAAATGCTCAACCTACAAATGAGTACTTCATATTTTCTTTACTATCTTTTGGAGTATAAGATTCAACTATTGGAGTATAGATTTTTCTTAATCCACCAAATTGAACATAAAATGTAAAGTCTTTATTTTCTATTGAATGAATAATTTGTAATTCTAAAGTTTCAGGATCTTTACTCATATAGTAGAAATTATGTGCTGAACTTAATTCTCATTTTTGATTTATATTGTAAACAAATTGATTGTTGTTATTTCCATTGTTAGAAAGATTAATATATGAATCATCTTTTTTGGTTAATTTTTCTGTTGAATACTTAATAGTTGGTTTTAGAGTTTTAATGTCAGGGTCTTTATTTTCTCCAATAACATTCATTCCAAAAGGATCGTTTACTGGTGAAGTTCCAAAAACATAAGGATTATGATCTTTTAAGTTTTTAATATCTCCAACAACCTTGTTATTATTATCATTTTTTAACTCAATATTACCTTTTTCAGCAGTTGGTGCAGTTTTAACATCTTGTTCAAATGTATAAAATGATGAACTAGTCTTAGAAACTTTAGAAACTAATTTAATATCTTTAATTTTGTTATCAGTTGAAGAATTTACAATATTATCAAGATTTTTAGTAAATTCTTCTGATCAACCGTTTACATGTTCAATATCTTGTTTTAAACTTCCATTACTACTTTTTAATGAATCTACAGCAGTTTTATTTTTGTCATTTTTAACAAATTCTCTTAGTTGTAAAAGACCTTTTAAAGAAGAAATGTGAGTTTTTGAATCATCTAATTTTTTATAAAAATCTTGTTGTGAAATTTTTTGTCTTTGAGCATTTGCTCCAGTGTAATATCCAACAACACTAGTATCTTTAGCTTTTCCTCTAAATAAATCATATGATTCTTTTAAATTTCTAACTTCTTGAATATTTCTAGTAAATAAGTTTAAAACATCAGTAACAGTTCTACTATAAGCATTAGTAGTTCCATTTAAAGAATTAGTAATATCTTGAATATTAGATGATTGACCATCACTTTGATATTTACCATCTTTTCAAACAAATTTATCAACTTGTGTACCATCATTAAAACTAGTTTTTATTGTGTGAGTTATAGTAGTAGAGCATGAAATTGTTGTTAATGTAGGAAATATAGTTACTGATCCAAACATTAAAATTCCTAATAACTTTTTCATCGGTTTCTCCTTTTATCAGAATAATAATACATCAAAATATTATAACAAAATTAAGTCTTTTTTCTATTATCAGTCTCTAAATACACCAAAATCTTTAATAAATCTTAGTAAAACAGTTCCAGTAGCACCATTTCTATGCTTTGCTAAAATTAGTTCAGTTTTTTCTTTATCTAAATCAGTTAAATCTTTTTTATAATAATCATCACGATATAAAAATGCAACAATATCTGCATCTTGTTCAATAGCTCCTGAATCTCTTAAATCAGATAACATAGGACGTTTGTCTTCTCTAGTTTCAGCTCGTCTACTTAATTGTGATAAACAAATAATTGGAATAGAAGTCTCTCTTGCAATTTGTTTTAGTTGTCTTGAGATTTCACTAACTTCATTTTGTCTGTCTTTATTTTGTGATCCAACTATTAATTGTAAATAATCTATAACACATAATTTAATATTATGATCTCTTTTCATTTTATAAAGTTTAGATCTAATTTCTTGAGTAGAAATACCAGGGGTAGCATCAATATAAATTGGAATTTCTTCTAATTTTTCTTTTGCAATTTGAATTTTTTCTCAATTTTGTTTGCTTAAACCTTTTCCAGTTCTTAAATTAGTTGAATCAACACTTGTAAGTCTAGTAAATAAACGTTGAGTTAATTGTTCAGCAGGCATTTCTAGTGAAAAAAAAGCTACAGGATATTTTTGCATAGCTGCATTAAAAGCTAAATTTAAAGAAAAGGCAGTTTTTCCAACACTTGGACGAGCTGCTAAAATAATAAAATCAGATTCTTGTCAACCTGAAGTAACTAAATCTAAGTAATTATATCCAGTTGGAACTCCTGAAATAATTTCTGCTTTCATTTCAAGTTCTTTAATTTTTTCAACAACTCTTTTTGCAACTTCACCAATTGGTTCTATTTCAAATCTTTTAATAGAAAGATCAATATCTAAAAGCTTAGTTTGAGCAACTTTTAATAATTCATCAACATCAGTATTTGAATTATTTCTTTTAAGTTCTAATTCTTTAATAACAATATCTAATTTTCTAATAACTCCAGCTTTATGAATAATATCAATATATTCTTCTAATCCTTGATCTGTATAGTTTTCAGCAGCTATTTCATAAACTACAACATCTCCACCAACTTGTTCTAATTTATTAATTGCTTCTAATCTATTAATTACTGAAATTGGAGATATTGATTTATTTTTATTATTTAAATCAATAATTGCTTGATAAATATATTTATTTGCAGGAATTGAAAAATCATCAACTTTTAAAACTGAAACAATGTCAGCTAAAGCATTAGAAAAACTCATAGCTACACCTAAAACAAAACGTTCAGCATATAATAATTCAGCAACTGTTAATTCTTGTTTCATTTTTAAACTTCCTTAACATCAACTTTGATAAGAGCTTCAATACCAAAATCTAGTTTTACTTTTACATAATTAATTCCAATTTTATTAATATTTTTAAAATGAATAAATTTCTTTTTATCTATTTCAATTCTATGAACATCTTTTAACTGATTAACAATATCTTGACTTGAAATACTTCCAAATACTTTATCATCATTAGTTTGTAATTTAAAATGTAAAGTTAGTTCTTCAAGAGTCTTTTTAATTTGTTTAGTTTGTGCTTTTGCTAGTTCTTTTTCTTCTTGATCAGCTTTTAAATGATCTTTTAAAGTTTGAATACTATTATTAGTTGCAATTTTTACTAATTGATTTGGTAATAAGTAGTTTCTTGCATATCCGTCACTAACTTCTTTAATTTCATTTTTTTTACCTTGGTTAGGTACATCTTTTAAAAATATAACTTTCATAATAAGCACCTTTCTTGTTAATCTTATTATAACAATATCATTTTTATTAATACTAATTACTAAGTTCTTATGATTACAACTAGTTTAACAACTTATTAAAAAACTTCGTAAAAACGAAGTTTAATTATATTTATTCATTAAGTATATAAATGTTTTATTATTAGTAAAGTCATTGATAAATTCTATTTTATCAATAAATGATTGTTTTAATAAATTAAGTTCTTCATCACTAAATTTAGATAATACTCAATCAACTATTTTTCATTCTTTTGGAACTTGATTAACTCCAATTCTTAATCTATAAAAATTTTGAGTTTGTAAATTATTAATGATTGATTTTATTCCATTATGTCCTGCTGAAGAACCATCTTTTTTAAATTGGATTCTAGATATATTTAGATCTTTATCGTCATGAATAATTATTAAATCATTTAAATCTATTTTATAAAAGTTAATAATTTGTCTTACTGCTATTCCTGAATTATTCATAAAAGTTAAAGGCTTAACCAATAAAACTTTTTGATTATTAATCATAGTTGTATAAATTAATGAATTAAACTCTTGTTTAACTGAACTATAATTATATTTTTCTAATAAAAGATCAATAGCTATAAAACCAGCATTATGTCTAGTTTTTTCATACTCTTTTCCAATATTTCCTAATCCAATTATTACTTTCATTAAATTCCTTTATAAATTTTAAATTATTATTTTCTAGTTAAATATATTAGTTTTTCAGTTCAAATTTCATATTCAGCAGTTTTATTATCATTATTTATTAAATAGGATTCAAAGTTTCTTGAACAATTACAGTTGTTTTATCATATAATTCAAATTTTTGTTTTAAAGGTTAAAAATATGTTTTATTAAAAATAGTTAAATTGAGGTTCGCCTTTGGTTGGATTATCTCTTGGTGCTTTTAAAACAAATTCATAAAACTCAACTGCTTTTTTGATCTATCAATTAGTTTAGCATCACCTTGAATTTGACCAATAAGTGTTATAGAATTCATCTAATTTATTAATCTTTTGTATTAGTAAATACTAAAAAATATTAATTATTAGTTAATATCATTTTAGATTAATTATATTTTTATTATTAATTTTTATGATTCATGAAATCTTGAATTTTTAATTGAATTTCATCTTTGTTTTTATTATAAACTTCTGTTAAAGAATGATGTTCTTGTGATTCTTTAATCATGTTTGCTAGTAATGGGGCAACTGAAACAATTTTTAGTCCCTCAAATTGTCTTTCTTGTGGAATTTCAACAGTATTAGTTACAACAACATTTTTTACAATACCTTCTTTTATAGCTTGAGTCATTCTTTCTTTAGCAGGACCATTAAATAAACCATGACAAGCAAAAATATAAACATCTTTGGCTCCGTTTGCTTTTAGTGCTTTAGCTCCACTAATAATAGTTCCACCAGTATCGATCATGTCATCAATTATAAAGCAAGTTCTTCCTTCAATATCTCCTAAAACAAATTCAACTTCAGCTTTGTTTGGTTCAGGTCTTCTTTTTCCAATAACAGCAATACCATTAGTCATATTTGCTGTATATGAATCAACTTTATGAACTCTATTTAATCCTCCGTAATCTGGTGATACTAAAATACATTTTTCAGGATCAAATTTTTCTCTAATAATAGTATCAACTATTTCGTTTGCTAAGCTTTGTGAAGTGTGGAAATTATCCATTGGTATATCAAAAAATCCCATTGTTTGAGTTGAATGAATATCAAAAACAATTACACGATCAGCTCCTGCTTTTGTTAATAAGTCTGCAACTAATTTAGCTGTAATTGGTTGTCTACCTTTTGCTTTTCTGTCTTGTCTTGCATATCCATAATAAGGAATAACTACATTAATTTTTTCTGCACTACCTCTTTTAAAAGCATCAATAGCAATTAATAGTTCCATTAAATTTTCATTAACTGGCATTGATGTTGATTGAATAACATAGATTTCTTTTCCTCTTACTGAATCAATTGATTCAACTAAAATTTCACCATCTGCAAATCTAGTAGTTTTTACAACTTTTTGTTCAACACCTAAGAAATGACATACTTCTTTTGCTAATTGTTGACTTGCTGAAAGACCAAAAACATAAATATCTTTATTATCCATAATTACCTCATTTCAATAATAATAATAACAAAAAAGCAATTATTGATAACCTTGTTTTGCACTAAAAACTAAATTCAAAAAAGATAAATTAACTTAATTAAAAAATAAAAAAACAACTCTAAGAGTTGTTTTAACTAAATCTATTAACAATATTTTTAAATAGATGTATATTAAATAAGTTTTATAAATTAGAAATTCCTAAAAACATTAATAAAATTGCTGATAAAAAACTAGTTAGACCAATAATAAAAATTAAATACAATAATCAAAATGAATGTTTTTTACTATTTTTTAATACTAATTGATTATTTTGTCTTTTTTTCTTTTTATATAAATAAATAATTAGAATAACTGAACTAATAGCTAGAATAAATAAAATAATTGAAACAATAATTAAACCTATTGCTAATAAATAACTAATTTGATGTAAAGGTAAAAACATACTAATTTAAATTAAAAATCTTTTTACTATTTAAAGTTGTAATTCTAATTACTTCTTTAACATCTACATTTTTTAATTCAGCTATTTTTAAAGCAGTTAAATAAATGTATTTTGGATGATTTACTTGTCCTCTATATGGATGAGGAGCTAAATAAGGAGCATCAGTTTCTAATAACATTTTTTCTAAAGGAATAATTTTAACTGCTTCTTGCAAATCTTTTGCGTTTTTAAAAGTTACAGCTCCACCAATATTAATATAACAATCTAGATCTAAAAACTTTTGAGCATAAATAGCATTAGCTGAAAAACAATGTACAACTTTTGTGATTTGGTTTAGATCTTTTATAATTTCAATAACATCATCATAAGCTTGAAATTGATCTTTTTGATCTCTTATATGCATTTGTAAAACTTTATTATATTTAATTGCTAAACTTATATGTTTTTTAAAAAACTCTTTTTGTTTTTTTATATGTTCTTTTGAATAAAAATAATCTAAACCAGTTTCTCCAATACAAACTACTTTTTTATTTGTAATTAATTTTTCTAATTCATCAAAAACACTATTATCAAAATTTTGTACATCATTTGGATGAATAGCAATGCTTGCAAAAACATTTTCAAATTCTTTTGAAAACTCAACAGCTTTTTTACTAGAAATTAAATCAAAACTAGAACATAATCATCCAGTTACATGTTCATTTGATTCTTCTATTAATTGTTTTACATTTGCATCTTTATACTTTGATTCGTCATTAAAATGTATATGATTATCAAATATTTTATTATCATCAATCATATTAATTATTCCTAACTATATTTATTAATTCTAAAATAATTTTATTACTTTATAAATATTAATTAAACTAATAATCATTTCCTTATTTTAATTAATAAAAAAAATAGCCCATAGGCTATTTTTAATTTTTTCTAATTGGAGGCAATAGTCGGATTCGAACCGACGATCAGGGTGTTGCAGACCCATGCCTTAGCCGCTTGGCTATATTGCCATAAATATACTTAATAATTATATTAAAAAATTTTTTATATTAATAGTATTTAGGATTAGAAAAACTTTATTTAATAATTTATTAGTATATTTTTAAAAAATAACAAAATAAAAATCTCTATTTTATACAAACTTAAAAGTTAAGATCATATAGAGATTTTTTACTAATCATTTGATTCTTTGTTATCTTCTTTTTTCTTTTTGTTTTTTAGTTTTAAGAAGAATAATTTTAGTTTTGAAGGATGTTTAATTTCGATTTCATCTTCTTCATACAAACTAGGATCCATTTCGTATTTTTGACCTTGCATAACAGCCATAACTGCTTTTTGGTGTTCTAGTGTAGCTTTTACAATTTTTTCTCTATCTAGTTTTGGGTTAACAATTATTAAAACAACAGCTAGAATTAAAGTTAAAATAGTTATGATTAATGAAGCAATTACTAAAGCAGATGCCAATTTGAATTTTAGTCCATGTTCTTTTAAAAGTTCATCAAAGAATTTATTAATATCAAGATCAGTTTTACTAGTTAATCCTATTAAAAATACTTTTCAAGAAGCTTTAAATTTTTCAATTGAAGTAAATTCATATAAATTAATTGTTAAACCTATAAAAAACATAATAAAGAAAATTATAGGAAATAATGGAATACGATATTTTTCTCTAGGATTTGAAAGAGTTTTTTTAGTATATGTACAAATTAAAATTGCTGGAATCATATAAATTAAAATCGGCAATCCAAAAGCTCTTTTAAACATTAAAGTTATTTGAGAAATTCCAAGTGGTCAAGATTTTAAAATTTCTTTATCTCCATTTTTAATTAATTGATCTCAAGATTTACTTTGTTCAATAATTGAAGCATATGTACTACTACTAATATCAATTGTTGTATATGATAAATATAATAAACTTGAAGCTAATAAAATTGTTGAAATAACTGCTAAAACACATAAAGCTATTTTTAAATAAGGCATAAATTTAGGTTTACCTTTATAAGGATAAAATCTTGGATCTTGACTTGGTAAAACTGGTAAATCTGCATTATTTAAATTAGCAAACATATTAGGATTAAAAGAATTTAAAAAATCAGCTTGTTGATTAGATTGATTTTGATCATTTACTTGATTTTCTACAACTGGTTCTTCACTCATTATTGTTGCTGTTTTTTGTGTATTTTCACTAGTTTTTTGTTCTTTTAATTGTTCTTGTTTTGATAGTCTTGATTCAATTTTACTAATAGCTTGATCAGTTAAAATAGCATTTTGATTAATGATTTCTTCACTAATTTGTTCATTTTCACTAACTAATTTACTTTTAACAACTTTAAATTCTTTAACTATATATGAAACTAATTGTTTATAATTAGTTTCAATTTGTTCTATAGTAATCTCATCATTTACTTCAAAACGTTGTTTAGTAGTTGGTTTTGTAATTAAAATAAAAGCCTTTGCAAAAGTTTTAGCAAATACTTTATCATCTAAACTTTGATTATGATTAGTTTCTAAAGTTAAAATATCATTAATTAAATTTAAATACTTTAACTTAAATTCTTCATTTTTTAAAATAAAATATTTAAGTTTGTCTGTTTTTAAAATATTTAAACTTAAATTAAGTAATTTTAAATACAATTCTTTCATTCTTATCCTTTCATGTTTTTTATAAGCATATATTCAACAAGTGTTTTTTTATTAATATTTCAATTAATAATTCCTTTATAAATTTTATAAACTATCTTAATTTTATCATTTAATGTGTTAATATCATAAGAATTATTAACAGCTAATTTTACTCTATAAATATGAGATTTTAAAATAGTTGAAATTTGTTCTTCACTTTTAAATTGTTTTTTTAAAATAACTACATCTCTATAAAAACTTAAATTAGTATCAATTAAACTTATAAGACCAATAATATCATCATTTAATAAAATATAATCATGATAAAGTTTAATAAATTTATCAATATTATTATTAATAAAAGCATCAACTAATTTGAAAATATCTTCATTATGATACTTATTTAAATTAGTTTTAATAATCTCTATATTAAGTTCAGATTTTAAATTAGCTAATTTATTAATTTCATTAGTAATTATTTGTAAATCATTTGGTAATAAATTATATATTTGATTAGCTAAATTTATGTCAATAATTTTATTTTTAGACTTTAAATAGTCGATTATATATTTAATAGTTTGTTTTTCATCTCATAATGATAAGTGTTTAACATTAAAATTAGATTCAATGTACTTTGCTATTTTTAGTTTTTTAGAAAATTTATTAGAATTTAAAGTAAAAATGATTATGTTATTAGGATTAAAGTTTTTTAACATTATTTCTAACTTATTTAAACTATAGTTTTTATTAAAATTAGTTTTTATTTCAGTTACAAAATAAGCATCACTAATTACAATAATTGATTTAGGATTAAAAAAATTTAAATTAGTAACATTATCATAAATAATATTAAAATCATCTTCAATTAAAGAAAAACTTAAAACATCATACTGATCTTTTTGTTGTAATTCTTTAATAGTTTTTTTAGTTTGATTATTTAATAAAAATATATCTTCAGAATAAAAAAAATACATTAAAATCACTTCTATCTATAGTTATATTTTAAACTATTAAAAATATTAATTTTACTTAATATTAATTGTTTAATTTAATAAAATTTTTAATTTAGTTAGGATACTTTTATTTTTATAATTTTTTAAAAATATAAGTTTAATATTTAATCAAAATGATATAGCTAAAATAAAAACTAAGTATAGTGATAAAATAAAAAAGTAGATGATATTAAAAACCAGAAGAAAATTCTGGGTTTTTGTTATGGGAGAAAGTAATGTTTATAGCAAATAATAAGTACAAACTAGTAACTAAATATAAACCTTCAGGTGATCAAAATCAAGCTATAGAAAAATTAAATAAAGGAATTATAGAAAATAAAAAACACCAAGTGTTATTAGGAGCAACAGGTACTGGAAAAACTTTTACAATAGCAAATATTATTGCAAAACATAATAAACAAGCTTTAGTAATTGCACATAATAAAACTTTAGCAATGCAGCTTTATTATGAATTAAAAGAAATGTTTCCAGAAAATAGAGTTGAATATTTTGTTTCAAACTTTGATTTTTTTCAACCAGAAGCTTATATTCCTTCAAAAGATTTATATATTGATAAAGATTCTAGACAAAATATGGAATTAGATATGATGCGTTTAAGTGCTTGTAATGCTTTATTAACAAGAAATGATACTATAGTAGTAGCTAGTGTTGCTGCTTTATTTGCTTTACAAAATCCATTAGAGTATTCTTCAGCTTTTATTGAATTAAAAGTTGGTCAAAAAATTAAAAGAAATGAATTACTAACTTGACTAGTAAGATCTGGATATACTAGAAATGATATTGAAAATCAATTAGGAAGTTTTTCAGCAAAAGGTGATGTTGTTAAAATTGTTCCTGGTTGAGTAAATAATATTATGTTTAGAATTTCATTATTTGATGATGAAATAGAAAGTATTCATACTTTAAATACAATTACAAATTCTATTTTAGATAATATTACAACTGTTACTATTCATCCTGCTCAATCATATATAACTCCACAAGACAAATTAAAAACAATTTGTAATAATATTAGAAATGAATTAGTTCAAAGATTAGCTGAATTACAATCAGAAAACAAACTTTTAGAAGCTCAAAGATTAGAACAAAGAACTAAATATGATCTTGAATCCCTTGAAGAATTTGGCTTTTGTAGTGGAATTGAAAATTATTCTTCGCATTTAGATTTTAGATCTAAAGGACAAAGACCATATGTTTTATTAGATTATTTTAATAATGATTTTATAACTATAGTTGATGAATCTCATATCACACTTCCTCAAATTAGAGGAATGTATAACACTGATAGATCAAGAAAACTAACTCTAGTTGAATATGGTTTTAGACTACCATCAGCTTTAGATAATCGTCCTTTAAATTTTGATGAATTTAATAGTTTAATTAAACAAGTAATTTATACTTCAGCAACACCTGGAGATTATGAACTAGATTTAGTTAATCATCAAGTAGTTCAACAAATTATTCGTCCAACTGGACTATTAGATCCACAAATTGAAATAAGAAAAACAACCAATCAAATTGATGATATTATTAATGAAATTCATTTAAGAAAATTACAAAATGAACGTGTATTTATTACTACTTTAACTATTAGAATGAGTGAAGATTTAACTGCTTTTTTACAAGAAAAAAACATTAAAGTTGCTTATTTACATTCAGAATTAAAAACTCTAGAACGTAGTGAAATTTTAAATGATCTAAGAAAGGGAGTTTATGATGTTGTTGTTGGAGTTAACTTATTAAGAGAAGGATTAGATTTACCTGAAGTTAGTTTAGTATGTATTTTAGATGCAGATAAACAAGGTTTTTTAAGAAATTACCGTTCTTTAATTCAAACTATTGGTCGTGTTGCTAGAAATGTTAATGGTAAAGCTATTATGTATGCTGATACTGTTAGTCAAGCAATGGATGAAGCAATTAAAGAAACTAATAGAAGAAGAAAAATCCAAGAAGAATTTAATAAAAAATACAATATTGTTCCAAAAACTATTTCAAAAGCTATTAGTGAATCTATTTTAAGTGAACAAACTAAAAAAACATTAGCTAAAGCTAAAAAAATTAAAGATAAAAAACAAAAACTTCAAACCATTCAACAAACTATTGATACTTTACGTCAAGAAATGTTACAAGCTGCAAAAGAACTTGATTTTGAAAGAGCAGCAATTTTAAGAGATACAATTATTGAATTAGAAAATGAAAAAAATACAAATTAGGAGAAAACATGTCAACAGATAAAATTATTATAAAAGGTGCTAGAGAACATAATTTAAAAAATATTGATTTAGAACTTCCTAAAAATAAATTAATTGTTTTTACAGGCTTAAGTGGGTCTGGAAAGTCTTCATTAGCTTTTTCAACAATTTATCAAGAAGGAAGAAGAAGATATATTGAATCACTTTCTGCTTATGCTAGACAATTTTTAGGTGGTAATGAAAAACCTGATGTTGATTCTATTGAAGGTTTATCTCCTGCAATTTCTATTGATCAAAAAACTACAAGTCATAATCCTAGATCAACTGTTGGGACTGTTACTGAAATTTATGATTATTTACGTTTATTATATGCAAGAATTGGTCAACCTTATTGTATTAATAATCATGGTCAAATTAAAGCAGTAAGTATTAAAGAAATTGTTGAAAATATTAAACAATCAACTAGTGATGGTGAACAAATTCATATTTTATCTCCTGTAATTAGAGATAAAAAAGGAACTCATATTGATATTTTAGAAAAACTAAGAAATGATGGGTTTATTAGAGTTATTGTTGATGATCAATTAAGAATGCTAGATGATCAAATTAATTTAGAAAAAAATCAAAGACATAATATAGATATAGTTGTTGATAGAATTATTTATCATAATAATGATGAAATTAATTCAAGAATATTTACAGCTGTTGAAATGGGATTAAAATATTCAAATAACTTAATTAAAATTGCATTTCCAAATTCTAATAAACAAGAAAAATTATTTTCAACTTCTTTTTCATGTAAAGTTTGTGATTTTGTAGTTCCAGAACTTGAACCTAGATTATTTTCATTTAATGCTCCACTTGGTGCTTGTGAATTATGTAATGGATTAGGTGTTAGTTTAGAACCAGATATAAATTTAATTCTTCCTGATTTAAAATTATCAATTAATCAAGGTGGGGTTGTTTATTATAAAAATTTTATGCATACAAAAAATATAGAATGACAAAAATTTAGAATTTTATGTGATTATTACTATATTGATCTAAACACTCCTTTAAAAGATTTGACTCAAAAACAAAGAGATATAATTTTATGAGGAAGTGATCGAGAAATTGATATTAAAATTGTTACTGAAAATAATAATAAATATGAAAAATATGATTTTATTGAGGGTAATGCAGCTTTAATCAAGAGAAGATATTTTGAATCTAAATCAGAAGAAGCCAGAAAATGATATTCAAAATTTATGTCTTCTAAAATATGCAAGCAATGTAAAGGAAGTAGATTAAATGACATTGCTTTATCTGTAAAAATTAATGAAAAATCTATATTTGATTATACTAATATGAGTATTTCTGAACAATTAGATTTTTTATTAAACATTGATTTAACTCCAACTCAAGCTACGATTGCAAAATTAGTTCTAGATGAAATTATTTCAAGAACTAACTTTTTAAATGAAGTTGGATTAGGATATTTAAATCTATCAAGAACAGCTACAACTTTAAGTGGTGGAGAATCTCAAAGAATTAGATTAGCTAAACAAATTGGATCTCAATTAACTGGAATTTTATATGTTTTAGATGAACCATCAATTGGATTACATCAAAAAGATAATGATAAATTAATTAGAACTTTAAAACATTTAAGAGATCTAGGAAATACTTTAATTGTTGTTGAGCATGATGAAGATACAATGAAAAGTAGCGATTGGATTGTTGATATTGGCCCTAGAGCTGGAGAATTTGGTGGAGAAATTACTTTTAGTGGAACATATCAAGATATTTTAAAATCAGATACTATTACTGGTAGATATTTATCAAGAAAAGAAGGTATAGTAGTTCCTAAAACTAGACGCGGGGGTAATGGTAAAAAAATTGAAATTATTGGAGCTAGTGAAAATAATTTAAAAAATATTAATGTAACTATTCCTTTAAATAAATTTATAACTATTACAGGTGTTAGTGGATCTGGAAAATCAACTTTACTAGAAGATATTGTTTATAAAGGAATTCATAATAATTTATCAAAAGAATATTTACCAATTGGAAAAGTTAAAGAAATTAAAGGTATAGAAAATATTAATAAAGCTATTTATATTTCTCAAGAACCAATTGGAAAAACTCCAAGAAGTAACCCAGCAACTTATACTTCAGTTTTTGATGATATTAGAGATTTATTTACTAATCTTCCAGAAGCAAAAATTAGAGGTTATAAAAAAGGTAGATTTTCATTTAATGTAGCTGGTGGTAGATGTGAACATTGTCAAGGTGATGGAGTAATTACAATTTCTATGCAATTTATGCCAAGTGTTGAAGTTGTTTGTGAAATTTGTGAAGGTAAAAGATATAATGATGAAACTCTAACAGTTAAATATAAAAATAAATCAATTGCTGATGTTTTAAATATGAGTGTTAGTGAAGCTTATGTCTTTTTTGAAAATATACCTCAAATTAAACAAAAACTAGAAACTATTTTAGAAGTTGGTTTAGGTTATATTAAACTAGGGCAAAACGCTACAACTTTAAGTGGTGGTGAATCTCAAAGAATTAAATTATCTACTTACTTATTAAAAAAACAAACTGGAAATACTATGTTTTTATTAGATGAACCAACAACTGGTTTACACGTTGATGATGTTAAAAGATTAATTGGTGTTTTAAATAAATTAGTTGATTTAGGAAATACAGTTTTATGTATTGAGCATAATCTAGACTTTATTAAAGTTTCAGATCATATTATTGATCTTGGTCCTGATGGTGGAGAGTATGGTGGTCAAGTTGTAGTAACTGGAACTCCAGAACAAATAATTAATCATCCAACTTCTTATACAGCTAAATACTTAAAAGATTACATAATTAATGATTAGTGTTGATCAAGAATTATTTCCTATAAATCAAAGATTAAATAAAGAAGTTGTTTTTGATAAAGTCTTAGATGAATTAAATCATCCAGAAAAATTTTTAAAAGTTATAAATGTAGTTGGAACTAATGGTAAAGGATCTACTTCATTTTATTTATCAAAAGGTTTATTAAAAAAATATCAAAAAGTAGGGTTGTTTATTTCTCCAGCTTTTTTATATCAAAATGAAAGAATTCAAATTAATAACATACCAATTAGTGATAATGATTTAAAAAATTATTTAGATAAAATTGATTACTTAATTAAAAAATATCAATTACATTTTTTTGAGATTTGAACTTTAATTATGATCTTATATTTTAAAGATCAAAAAGTTGATATTGTTGTTTGTGAAGCTGGAATTGGTGGAATAAAAGATACTACTAGTTTTTTAACTAATCAATTATTTAGTTTGTGTACTTCTATTTCATATGATCATATGGATTTATTAGGAAATAGTATTGATGAAATTATTTATAATAAAATTAATATAGCAAAACCAAATACTAAGCTTTTTATAAGTTATGATAATTTAAAATACAAAGATAAAATTAATGAACAATTAATTAATAAAAATGTAGAACTAATTTATACAGATCTATATGAAGATCAAATTATTTATCAACAAGCAAATAAAGGATTAGTTAAAAAGGTATTAGAATATTTAAATATTTTTCAAACAGACATTTTTCAACTACAACCACCACTAGGAAGATTTACAACAATTAGAACTTTTCCAAATCACATTATTATTGATGGAGCTCATAATGTTGATGGAATTAATAAATTAATTCAATCAGTTAAAATGTTAAATAAAGAATTTATTGTTTTATATGCAAGTATTAATACTAAAGAATATTTAAAATCACTAGAACTATTAGATCAAAATTTTAATGAGGTATATATATGTGAATTTAATTTTATAAAATCATGATCTATTGATAATATTGATCATAAAAACAAAATAAAAGATTGAAAAAAATTTTTAAAAAATAACACAAAAAATATAATTATATGTGGAAGTTTATACTTTATACCTCTTGTATATAATTATTTAACTAATAATAAATTTTAATAAAGAAGGTGTTTATATGGCATGAAATAGTTCTTCTGCCTATTGAATAACAACTGCTATTTTTGGTGTTTTACTAATTGGTATATGAATTTTAGGTTTGTGAATGGAAAAATTTAGCTTAAAAACATTTACTATTAAAAACATAGCAATTATCGGTACTTTAGTAGCATTAAGTGTAATTTTATCTTATGTAGTTAATAGAAACTTTTTACAAATTTTAGGAACAAGAATTACTTTAGGTTATTTTGTTAACTTTTTAATTGGAATGATTTTTGGACCACTTGCAGGAATACTTGCTGGAATTGCAACTGATTTAATTGGAACAATGATAGTTGGTTCTGGTGGATGACATATTGGGTTTGTTTTTGCAAAATCAATGCTAGGATTTTTAGGATCATTAGTATTTTTATTTAAAAATAATAAGTATTGAGTAGCATTAATGATTTGATCTTATGCGATTGGCTTATTTTTAGTTATATTTATAATTCATCCTATTAGTTTTGTAACAGTTGGTGGACCTAGTTTAGCTATTGCTTATAGTGTAACTAAATTTATAGTTTATCCAGTTGAATTAGTTTTATATTCACTTTTAACTTATGCTTCAATAAGAGTGATTTATATTTTAATTAAAAAAGATTTAAATACAAAAAATAGACAATGAATATTAAGAAATGATGCTGTAATATTCTAATTGATAAAAAGTGCTAGCAAGCACTTTTTTATGTTTAAACATTAATATAGTAAAATTATATTAACGTTTAAAAGGAGATTATATGGAAAAATTTACCATAAAAGATCTAACTGATAATCTGAAATTTGAAATCATTTCAGGACAAGATAAACTAGATACAGAAATTAAAAGTTATGGAATTAATAGAGCTGGATTAGAATTAGCTGATTATTTTAAACCTTTTAAAGATCAAAGTGAATGAAGAGCAACTTTAATGTCTACTAAAGAAAGTGGATATATGTTGCAATTTGATGAAAAAACTAAAATTAGAAAATATACTCAGTTAATGAAATGTGGTATTCCTGTTTTAATAATCACTAATAAATTTAAAGATAAAACATTAATTAAAGTTGCAAAAAGATTGAACTTTCCTTTATTAAAAAGTGATTATCCAATTACAGTTCAACTAGTACAAAAAATTCAAGATATTTATGATATTTATTTTTCACCAACTAGTGAAGTACATGCTGCTTTGATGAATATTTTTGGAACTGGGGTTTTAATTAAAGGAAAATCTGGTATTGGTAAATCTGAGTTGTGTTTAGAATTAATTAAACATAATCATTTATTTGTTGGTGATGATCGTATTATTCTAACTAATAAATCTAATAAAATTATTGGAAGAGTTCATCCAATTTTAAAAAATCTAATTGAGATTAGAGGTATTGGAATTTTTGATATTGTTAAATCAAATGGGTATCAAGTGATTATGAATGAAAGTCCTGTTGAATTAGTTATTGAACTAGTTGAATATAAAGAAAAAAATATTGATAATAGTGATAGATTAGGAAATGACTGACAAAAAACTAAAATTCTAGGTGTTGAAATAGAACATATTCAAATACCAGTTAGTGCTGGAAGAAGTTTAGTTAATATTATTGAATCAGCTGTTGCTCAATTTAAAATTAATAAATCAAAACAATTTGAAGATGTTTTTGATGTAATTCATAAGAGAACAAAAGAATTTTTAAGTTCTAAAAAATAGAAAGAATAAAATGTCAACTACTTATTTTGAATGAATAAAACAACACGGAGATCCGTCTTTAGCTAGATCTTTTTTTCAATTAATTCCAGCTTATCCAATTTTTATGTTTTTAGGAATTTCAAGCGTAATTATAGCTAGTATTATTTGTTTAAAATTAAAAGCTATACCTTTAAAAGAATTTGAAATTTCTATTTTTATAATTGTTCCGTTTGGAATATTAGGTGCTACTATTTTTGGAAAAGTTTTTCTACCTTTTTATCAACATTCAAATACTTGATATAGAATCTTTTTTTTCTGAGAACCAGGAATGTCTTTATTTGGTTCTTTATTGTTTGGAATTCTAGCAGGAATTGCTTGATTTTTAAAACGCTCAAAAACAACAATGATTTCTTTATGAGTTTATGCTGATTGTATTATTCCAAATATTTTATTAGGACAAGTAATTGGAAGATGAGGTAATTTTTATAATCATGAAATTTTAGGACAAATAGTTGATTATAATAGTTTGTACTGATTACCTGAATCTATTAAAAATAACTTATTTTATTTTCCTAATTTTGTTGAGTTTCATCATTTAAATAATCCAACAGATCTATTAGTTAGTCACACTAATTGGTGAGATTTTAATTCAAATACTTGAAGTGAAGTACAAAATTTTGTTAATAATAACAATCAAACAATTAAAGATGTTTTAAATCAAAAAATTACTTATCATCAACCTTTGTTTTTATATGAATCAATAGCTAATTTATTTTTATGATTAATTATTATGTTTATTATTAATAATTTAACTAGATGAATTAATCATCCTCAACCTTGAGATTTATATCCTAAAGCTTATCCTGGTTGATTTAATAAACAATATAAATATTTAAGTGAAGATCAAATCACTAACTTTAATAGTATTGTTCCAATTAAATATAAAAAACTAGTAATTAATATTGATAATAAACAAACTGTTGTTTTAAAACTTTCATTTTATCAAGCTTGAAATAAAGCATTTTATTATTATGAACCAGATAATAAAAAAGTTAGTCAATTAGAAAATCAAATAGAAGAATTTAACAAAATCAAAAATAAAGACAAATTGAATTTTCAAAATACAAAATCTAATTGCAAGCATCAATTAGATTTGATTAATAAAAAATATAAATTTAAACTAAATAATTTAAATAAAAACTCTTTAGAGTATCAAAAAATTATTAATTTAAAAACTGAAGAAGTTAAAAGAAATAAAGATTTATTAATGATTAGTAAAAATAATTATTATCAAAAATACGGATTTTGAAATTTATTTTTTAATGTAAATGTTTTTAGTAAAGAAATTGAAAAACTAAATAATCCAAATCAATTTAAAGTAATTAGAAGTGGTGTAGCTACTGGTTGTTATGTTTTAGGGTATTTAATTATTAGAATTATTTTAGAAACATTTAGACAAAATCACGAATTATTTATTCAAAATCATAGAGCTATTAATTTTATAATTTTAAGTGCGATTTTATTAAGTGGAATCTTTATAATATTATTAACGCAATTTATTTCTCCATATAAGTGAAGACAGATAGGGTGGTTGTATGAAAAATCTTACTAATGAAATTTATGATGTTATTATAGTTGGTAGTGGTCCTGCTGGTTTAACTAGTGCGATTTATACTGCAAGAGCGGGGTTAAAAACTGTTATTTATGAACAATCTGCTCCAGGTGGAAAATTAATTAAAACTGATTTAATTGAAAACTATCCTGGTTTTGAAACAATTCAAGGACCAGATTTAGCTTCTAAAATGTATCTTCAAGCTTTAAGTTTAAATGCAAGTGTTGAATTTGTTGGAGTAGATAGTATATTTAAAAATGCTGATGATATTTTTGAAATAAGTTTAGCAAATGGTGAAACTAAAAAAGCTTATGCAGTAATTTTAGCAACTGGAACTCAAGAAAATAAATTAGGAATTAAAGGTGAAGATGAACTGTATGGTAAAGGTGTTAGTTATTGTGCAGTTTGTGATGGAGCTTTTTATAAAAACAAACCAGTTGCAGTAGTTGGTGGGGGTTATTCAGCAGTTCAAGAAGCTATGTATTTATCTCAATTAGTAGACAAAGTTTATTTAATTGTTAGAAGAGATGTTTTTAGAGCTGATGCTAATAAAGTTGCTAAATTAAAAGCTCAACCTAATGTTGAATTCTTATTAAAATCACAAGTAAAAGAAATTCATGGAACTGATAAAGTTGAATCACTTACAATAACTACTCCAAATGGAGAAAAAAAATTAGAAGTTAGTGCGATTTTTCCATATATTGGTTCAACTCCTTTAATTGATTCAGTAAAACATTTATGTATTGAAAATGAAAAAGGTTATATTCCAACAAATGATAAAATGCAAACAGAAATTAAAGGATTATTTGTTGCTGGTGATGTTAGAGATGTTCCGTTACGTCAAATTGCTATTGCATGTGGAGATGGTGCTATTGCTGGACAAATGGCAGTTGAATATGTTCAAGAAATAAAATAGGAGGTAAGATGAAGTCAAAATTAAAATTAAAAGTTGATAAAAGAAGTATAGTTACAACTAGTTTATGAGTAATTTTATCTATACTAATTATCAGTTTAATTATTTTATCTTCAAAACATTTTAGAATAGATTGAAATCAAAATAGAGGATTTGATACTGTTTTAGAATATGGTGGAGTTAAAGATGTTTATTTATCAAGATCAGATGGGTCAGGTGGACTTAGAGTTTATGCTTTAACAATGACACTTGGAATGCTAGTTGCTATTGGTTTTAGTTTATATAACTTTAATAAAAAAGATTTATCAATAAGTGAACTAGCAATTGGAGTAATTTTCATTATTCCTTGTTCATTACTTGGTGCTTCTTTTTTTGGTAAGCTAAATGCTGATGGAATTGGAAGACATGCAAATGGTGCTACTTTTTGAGGATTATTTGCATTTTGAGAAGGTGGATTAGCGATTCATGGTGGAGTTTATGTTGGAAGCATAGTTGGATTAATAATTTTTTATATAATTGGTAGAAAAACTAAAGTTTCATTATTAGTTTATGCTGATTGTATTATTCCAAATATTTTATTGGGACAAGCTATTGGTAGATGAGGAAACTTCTTTAATCATGAAGTTCTAGGAACACCAGTTGCAAAAATTGCAGACAATATATCATCTCATACAGATAAAGCTATTGATCAAATTTTTTCAACTTATTTACAAACTCATTCAAGACCATTATTTTTACCTGATTTTATTTTAAAAAATTGTTTGTCTATTTATTCAGGAGAAACTCAAACTATTAATAATATAACTTTAGAAAATGGAAACGTTGTCTTATTATCACCAATTTTTATTTATGAATCAATTGCTTTATTGTTAGGTTGATTTGTAATTATGTTTATTATTCCAAATGTTTGAAAATTATTTGTTAAACCAATTGATAAAAATAATAATGTTTATAAAATTGATTACAAATTTAGTTTTTATCAATTCTTTAATCCTTGATTAAAATCAACACAAACTAAATTAAGTAGTAAAGATGCTTGAAAAAAAGCGTTAAGTGATAATGTTTATGAAAATGCATCTGAAATTTATATTAATAAAACTAGTGATTTAGATAATAAAAAATATTGAGAAAAAAGAGTAATTGAAAGTCATCTTTTAAATAAATTAAATAACAAAAATAACTTCCCAATCACAAAAGCTGGAGTACAAATGTTTGCTTACTTTTTAGTATGAAACATTGTTAGATATGTTTTAGAATCACAACGCCCAAGTGATCATCTATTTATTATGCATTTAAAAAATCTTTCATTGTTTGTTATTGGATTTTCAGCAATCATTGGTTTAATTGGAATGATCGTATGTCAATATGGATTACCAAATATTTCAAGAAAACCAGGTTGATTATACGAAGTTGAGTATTTTAAAATTAGAAAATCAAATTAGAGGAAAAAAATTATGTCATTTGCTTTAGAAGTAAAAGAAGAAATTGTAATGCATAGTTTTAATGATGAACAAAAACTAGCTTATCTTTCAGGTTTTATTAGATATAGCTCTGATATAATTTTTTCTAATAATACTTCTAAAATTAGATTTTCAACAATTAGTAATAAAATAGCTAGAACCTTATTAAGTTTTTGTAGACATATTTTTGATGGACAAGTAGAAATTTCTATTATTCAGTCTCAAGTACTAAAAAAACATAAAAGTTTTGTTTTGACTTTGATTGGAGACACAAATAAGTTTTTACAAAAACTAAGAATTTATGATCAAAATAATCAAAAAGTATATGGTTTTAAAGTAAGTAGTGAAATTAAAGATAAAACTTCAATACTAAGAGCATATATAGCTGGAATATTTACAGCAATTGGTTCTGTTAACTCACCAAAAACTAGTAATTATCATTTAGATTTACAGTTTAAAAATAAAATTGATGCTAATTATTTTATTGATTTAACTAATGATTTAGGTTTTGAATTTAAGTTATTAGAAAGAAATGCTAATCGCTTTATTTGTTATATTAAAAAATCAATTATGGTATCTGATTTTTTAAAATTAATTGATGCATCTAATTCAGTAATGCAATTTGAAAATGAACGTATATCTAGAGATGTTTATAATAGTATAAATAGAGTTAATAATTTTGATATTTCAAATCAAACAAAAACTTTAGTTACTGGTCAAAAACAGATACAAACTATTAATTATTTAAAACAGACAAATCAATTTCACTTATTAAGTAAAAAGGCTCAAGTTTTAGCTAACTTAAGATTAGAATATCCTGATTATTCTTATAATGAACTAGTTGAAGAAATGAAAAAAGTAGGATATGAAATTACAAAATCAGGAATTAGCAACTTATTTAAAACAATAGAAAAATTAGGATAAGTATAATTTTAAAAAAACTATTGTAGTATTTTAAAATCTGTGATACTATAAAAAAGCTCATTATTTGTAATTTCTCTATATGAAAATACAAGTAAAAAGACCTAGTTGTGAAACTAGGTTTTTTTATTATTAAATTAAGTTTTATCTTGTAGAATTCATTAAACTATTGCTGTTTTCTAAAATTAAATCTTGAGTTTCAGCTAGTGGATCACGATTAGTAGTTTCTGATGTGGAATTTTGCATTCTTCCTTTTATTTTTTCTGAATTCTCTAAAATTAATTCTGAAGTTTTTGCAATATGTTCTTTTCTTTTAAAATATTCACTTACATAGTCTGCTTCTGAAAAAATTAAAGGTTCTTCTTTTCAAAAAGCTTCATTTTTAGGTTGTGTTGACATACTAGTTGTTGCTGATGGATTAGGACTTTGATTATTATTCATGTTTGTAGAAGTTGAACTAGAAGTTTGATTCTTATCCATTTCTTTAGATTCTTTATTATCAGTAGTTTCTGTTGTAGCAGATTGTTTATCTTCTTTTTTATTATTATTTGAACAAGCTATAGCAGTTGCGCTTGTCATTGTAATTAAACTTATTGAACTAAAAATAGTTAATAATTTTTTCATTTAAATTGTATTCCTTTTTATAATATTTGTGCTTTACACACCATTATTATAGTTTTTAGACTTATGATTTATTTTTTATAAAAAAAGTTATATTTCAATTTAAAAAATGTGAAAATTAATATTATTTTTATCTAAAATGTTAAAAAGAGTGCATATGCACTCTTTTATTATTAATATAGTAAACAGTGAAATATATTATTTTGCTGGAACTGGTTTTCAAGTTGGAAGTTTATTTTCTTGATTGGCTATTTTTGTCCCTTTAGCAAACTCAAATCTTTTATTAGATTTAATTTCGTTATTGAATATTCACTTATTTAAATCTTGTTCAAATTCTTTTGCATTTCTTAACATTCCATTAAAGTTTTGAACAGATTGAACTTTCCAACTTGAAATATTTTGGTTAAATCTTTCAGCTTCTTCAAACATATAAGACATATCAGTTACTTTTTCGGTTTTTCAAGATGAAATATCTTGATTAAATTTAACTGCTTTATTAAACATACCTTTCATACTTGTTACTTGTGAAGTATCTCAATTTTCAATGTTATTGTTAAATTCTTTGGCATTTTGAAAAGTATTGATCATTGATGTTACTTTATCAGTTTTTCAACTGTTTAAATCTTGATTGAACTTTTCAGTCTTTTTAAACATTGAAGATATATCAGTTAGAGAGTCTGTTTTTCAATCTTTAATATTTGAGTTAAATTCTTTAGCTGAATGAAACATACTATGCATATCAGTTACTTTAGATACATTTCAAGATGAAATATCCCCATTAAAATGATCAGTTTGTTTAAACATACCTCTCATAGTTGTTACTTTATCAGTTTTTCATTTATTTAGATTTTGGTTGAACTTTATAGCTCTTGTAAACATAAAGTTCATATTTGTAACTTCTGAAGTATTTCAGTTTGAAATATCTTGATTAAATTCATTAGTTGTATCAAAAACACTTGTCATATCAGTGATTTTTGAAGTATCTCAATTTTGTATTCCTTCAACTGAGCTACTTTGTAATCCCTTAAAAGCTTCTTTTAAACTTGTAATTTGATTTGGTAAGGAAGATGGCACTTTTGTTGTAGTTGGTTTAAATGGAACAATTTGAATTTCTTTATTTTTATTTTCAAAAAATCCAATTTGAACACATTCATTATCTTTATATTTAGCTTTTTGTAAGTATTTTCCTACTTGATCTTTAATAGATTCAGGATTATATTCTTCAGCTGTTGAAATTGCATTTATAGTTTTACAACTTAAAACAGAAATAGTGGGTATAACTAATAATGTTGTTGAACCTAAGATAGTCAATAATTTCTTCATAGCAATAATTTCCTTTCTTATATTCACACAATTTACATTCTAATTATACATAACATATCTATTTTTGTCTTTAGAGAAATTTATTAATAAATCCTATATAATATAGTGCTCATCGATTTTTTTACAAATAAAAAACTCAATCCTATAAAAGAATTGAGTTTAACTTTAACTACGAAAACCACTTAATAATGGACTAATTACTCCAAATAAAATTACTAAAACACCAGCTACAATAAAAGCAGTTGCTAATATAGAAACAAATGAACTTTTACTTTTATATACTTGTAGATTTTGTTCTTTTTTCTTTTTAGTTACAAAATAAATAATTATTCCAACTATTAATAAAATTAGTCCTAAAACTATACTAACTACTAAAGGGATTCATTTATCTGACACAGTTAAAGTTCTCCATGTATTTTTGATCGTATTTAATTTTTTTTGTTAAATCTAATAAGTTATTTACTTCAACATTAACTTGTTGAAAAACATTAGTTAAAAAGTCTTTATTTAAAATTTGTATATCAACATCAGTTCCAGTTATAAATGATCTACATACAACTGTTTTTATTTCTTGTTTTTGATTAATTAACTTAATTAAATCTCAACTTTTTTTAGTATTTAAAGTTGCTTGATAGTTTAAATAAAAAATACTTTGAATATAATGTTGTAAATATGCTCTTCCTTTTTTTATAGTTTTAATTTCATTAGTTAAATTATTAAAAATTACTATTTCATCATTTCTTAATTCAACATAATAATCATAATCTTTACTAATTTTTTTTAAAAACTCAATTTCATTAATTGTATTTAAATTAGGTATATATTCACTATATCTATTTACTAATTTATATTCTTTAATGTTGTTATCTTCAAGCAGTTTTTTAATTCTAATCTCAAGATCTTCAAATGATGTGATCTTTCTATTTTCTGTACAATTAATTGATAAAAAGTTTTTAGGTTTTCTCATCTCTTCATCAGTGTCATTTCCAATTGCAATAATGTTTTTAGTTAAAAGATCTCTTAGAATTAAAGCTTTTTCAGATTTAATTAATTTATCTTCATCTCAAATATTTACTATATTTCAATCAAAATCAATATAAATCATTATTTAAGATCCTTTCAATCTGTATTTAACTTAGATTTGATGTTATAAAAAGGATAGTTATTTTTTAAATAAGTATAAACTCCTAAATTTACTTTCATAAAAGGATAAATATCTTTTACATATTTTTCTAATGCTTGTTCAAAACTTAAATTATTATCAATAACTCCTTTAATTACTAAAAACATAAATATTGTTGAAGCACTTCTACTAATACCTAACTGGCAATGAGTATATAAACTTTTATCATTTGGATTTTCTATTAAAAACTTAATTGCAGGAATAAATAAATCATCACTAAAGTCTCTAACATCATGAGAATCTAATAAATTAATTGCAAGTTTATTTTTAGTTAAAACAAAATTTTTAGTTTGATACAATATTTCACTTGTATCTTTTTTTAAAATGTTATAAAAAACATTACTAATTTTTAATTCTTTATCAGGGTTAACTAATCGTTTTGAAAATTGATCACCTAAATAAATTTTGTCAATGATATTTTCACAAGGCATTAAGACTCAACTCCTAATTTTTCTCTAACTAAAGTAGCTATATTAGTTACTTTAGGTCCATAAATAATTTGAACTTGATTTGAAATTTCTTTATATCCATAAGGTCTAGTTTTATCAACAATTGATTTATCAAATTTACTAATATCATGCATTGTCACTCTTAATCTAGTTACACAGTTTGCCATGATTTTAATATTTTCAGCTCCACCACAACCTTTGATAATGTTGTTGATAAACTCATCATTGATTTCATCTTTTTTAGATTCTGCTTCTAGTTTTTCAATTTCTCTTTTTTCTTTTTGTAATTCTTTATATTCTTTTTTACTTACTAGATGAGTTAATCCATTTTCTTCACGACCTGGAGTTTTATAGTTGAATTTTTTAATCATAAAGTAAAATACAACAAAATAAATTGCTCCTATTATTGGTCCTAGAACGAATGTGCCTCATACATTAGAAATTAATTTATAGTTAATTGGATTTACAATTAATCAAGTAATAATTCCACTACCTCTAGTTGTTACAGATCCAAAGTTAAATAAATACATTAACATATTTTGTAATCCTGCAAATAAAGCATGAAATACATATAATAGTGGAGCTACAAACAAGAATGTAAATTCAATAGGTTCAGTAACTCCAGATAAAAACGAAACTATTGCTGCTGAAATAATTGAAGATCCATATACTTTTCTATTAGCTTTTGGTATTACAAAAAACATTGCAAATGCAGCACCAGTTAAACTAAACATATTATTAACAAATACACCATTTGTTGCTCAAGTATCTTGAGCTGTTATTTTTTGTTGAAATGCTAGTTTAGCTAAAGAAACATTTAAAATACCAGTAATTTGATTACCATTAGGATCAATTCATTGTGCACCAACTGGTGTGTAATAAATAAAGAAATTTAAAACTTGATGCAGACCGAATGGAATTAAAGCACGATTAAGCGAATAGTATAAAAATGGAGAAAATGCACCTAATTTTTGTAAACTATTACCACTATAAGTCAAACCTTTACTTATATAAATTCAAATATAACCTAATCCTAAACCAAATACTCAACCAACTAAAGTTGAAGCAACTGGAGAGAATTTAGGTCCTCCAAAAAATGAAAGTACTTCAGGAAATTTTAATTTATATGTGTATTTATGAATTGTATAACCTAATAGTCCAGCTAACATACCACCAAATGCACTATATTGAAATGACAATACCCCAAAACGTATTTTTAAACCAAAAACATCTTTAACAGTCTTTTTAACACCTTCAAATACAATTTCTGTTTTTGAAGGATCACCATAAATGATTTTTAAAATAAGTGCTGTTGCTAAATGCATAGCAGCATATGCCATTAATCCAGATAAGGCAGCTGAAACTTTTTCTGATTTGGCTAATCCAGCAGCTAATCCAATTGCAACGAAAAAGTCAATATTTGTAATTGCAATCATTCCTAGATCTTTAATAGCATTAATAGCTAATTCTAATCCAACTGGAGGTTTAGCACCACCTTTAGGATAAACTTGTGCTAAAATTGCTTGTCCAGTATATCCAATAGCACCAATCAAAGCTAATAAAGGAATTACAGTAACAGGAACTAAAATAGCACGACCAAAAGTCTCTAAATTTGATCTAATGTTTATAAATAAATATTTTCATTTAGACTGGTTTTTTGTTTTTAAGTTATTCTCCAATTTGATATTCTCCATTATTTTTTATTATTTTCTAATCAAGTATTGTTATGAATTTTGTATATTATTTAAATTCTTAATTAAGACTCAACTCCTAATTTTTCTCTAACTAAAGTAGCTATATTAGTTACTTTAGGTCCATAAATAATTTGAACTTGGTTTCCAATTTCTTTATATCCATAAGGTTTAGTTTTATCAACAATTGATTTATCAAATTTACTAATATCATGCATTGTCACTCTTAATCTAGTTACACAATTTGCCATGATTTTAATATTTTCAGCTCCACCACAACCTTTAATAATGTTGTTGATAAACTCATCATTGATTTCATCTTTTTTAGATTCTTTTTTATCAGATTCAGCTTCTAATTTTTCAATTTCTTTTTTTTCTTTTTGTAATTCTTTAAATTCTTTTTTACTTACTAAATGAGTCAATCCACCTTCTTCACGACCTGGTGTTTTGTAATTAAATTGTTTAATCATAAAGTAGAAAATAGCAAAATAAATTCCACCCATAATAGGACCAAAACTCAAGTTCCTCAAACATTTTGAATTAATCTAAAGTTAGCAGGGTTAACAATTAATCAAGTAATAATTCCACTACCTCTAGTTGTTACAGATCCAAAGTTTAATAGATACATAATCATGTTTTGGAATCCTGATAAGAAAATATGAATTAGATATAAAACAGGTGCCACAAATAAGAATGTAAATTCAATAGGTTCAGTAACTCCAGATAACATAGAAACTGCACCAGCTGAAATAATAGCTGAACCATAAACTTTTCTATTAGCTTTTGGTATTACAAAAAACATAGCTAAAGTAGCACCAGTTAAACTAAAGATTTTAGTTACATAAGTACCATTAACAACTCAAGTATCGTCTCTAGCTGAAATTTGTTGACCTGCTGCTAATTTTGCTAAAGCAACGTTAATAGCTCCTTCAATAGCTTTACCGTCTGGTCCAACTCATCTAGCTCCAATTGGAGTGTAATATACAAAGAAGTTTAATACGTGATGAATTCCAAATGGAAGTAAAGCACGCTCAGCTGAAGCATATAAGAATGGTGAAAATGCACCTAATTTTCTTAATCCTTCTCCACTAGCATATAAACCTTTATTAATATAAACTCAAACATAACCTAACCCTAAACCAAATACTCAACCAGCTAAAGTTGAAGCAACTGGAGAGAATTTAGGTCCTCCAAAAAATGAAAGTACTTCAGGAAATTTTAATTTATAAGTATATTTGTGAACAGTATAACCTAATAGTCCAGCTAACATACCACCAAATGCACTATATTGAAATGACAATACCCCAAAACGTATTTTTAAACCAAAAACATCTTTAACAGTCTTTTTAACACCTTCAAAGACAATTTCTGTTTTTGAAGGATCACCATAAATAATCTTTAAAATAAGTGCTGTTGCTAAATGCATAGCAGCATATGCCATTAATCCAGATAAGGCAGCTGAAACTTTTTCTGATTTGGCCAATCCAGCAGCTAATCCAATTGCAACTAAAAAGTCAATATTTGTAATTGCAATCATCCCTAGATCTTTAATAGCATTAATAGCCAGTTCTAATCCAACTGGGGGTTTAGCACCACCTTTAGGATAAACTTGTGCTAAAATCGCTTGTCCAGTATATCCAATAGCACCAATCAAAGCTAATAAAGGAATTACAGTAACAGGAACTAAAATAGCACGCCCAAATTGTTCTAAACCAGCTCTAAATGCAGATAATCAAGATTTCATACTGTCTTTTGAAAATTTTGATTTAGAATCCATATTAATTCTTTTCCTCCTTACTTATATCTTAGTTTTGTTAAACAACAGTGATAGAAAATGACAAATTATTATTTTTATATTTTTTACATATTTTGTAAAAAATCATAGTTTATAACTATTTTCAAGTTAAAAATTAATAATTTTAAATTTTGAGGTTAATAACAGCTAATCTATTATATTCAAAATTATTTAATGAATATAATATTGGGTATAATAATTATGGAAATGAGTATAATTAAAATAGTTTGGTGGGTAACTAATTATGGAAGATAAAAATATTGAATATAAATATGATATATCTGATAAGAATAATTCTTTTAAAAGAGAAATTGTAGCTTTTTTAAATACTAAAGGTGGAGAAATTCATCTTGGAGTTACTGATGATGGTCTTATTGACAAACAACAGATTTTAGAAAATAGAAAACAATGAGAACAAACTATTTCTAATTGACTAGTAGATTCATTTTATCCTGATGTTTTAGATTTTATAACTATAGATCCTAACTCTTTTCCTTTTATAATTAAAATTTCTGAAGGTAGATCAAAACCATATTGTTATAAAACTAAAGGAAGTTATGATTTTAATAATATTTATATTAGGTTTTCATCAAGAACAGTTAAAGCAAGTGTTGAACAAATTAAAAAGATGTTATTAGAAAGTGTTTCAATACAATGTGATAATTCATTAATTTATACTACAGATTTAACTTTTAATTATGTTGAACAAAAATTTAATAACGCAAATATTGCATTTAATAAGGCAGCATTATCACTAATTAATAAAAATGGAATTTATACTAAAACTGCTTTATTTTTAAGTGATCAAAATCCATTAATAACAAAATTTGCAGTTTATCAGTCAATTGATAATAAAGTATTTTTAGATAGACAAAACTTAGATGGATCAATGATTAAACAAATTGATAGCCTGTTATTTTTGTGTAATCTAAAAAATGAAACAAAAACTATTATTACAAACCAAGCTAAAAGAATTGAAATTAAAAATTATCCTGAATCATCTTTAAGAGAGATTATATTAAATTGTTTTTGTCATAGAGATTATTTATCTACTGAAGATATAAAAGTTGAAATTTATTCAGATAGAATTGAGTTCTATTCACCAGGATCATTTCCTTATAATTTAACTTTACAAGAAGCTAAAAATGGTTGATCTTATAAAAGAAATTTCACTATTTGTGATATTTTATATAAACTTAAATTTATTGAAAACTATGCTTCAGGAATAAGAAGAGTTTTTGATGAGTACAAAGGTTTTGAAAAACAACCTGAGTTTTTTATAGAGCCAAGTTTTGTAAAAGTAATTTTATATAATAGAAACTTTGATACTAAAAATGATGATCTTAAAACAAGTCTAATTCAAACTGATTTAATTTCAAATCAAACTACTAATGATAATTTAAAACCTATAATTACTAGTAAAAAAATAAAAAAAGAACAAAGAATAGAATTAATTTTAGAATTATTAGCTAAACAGCCTAATATTTCTTATAATGAATTAATGTCGATTTTAAATGTAACAAAATCAACAATTCAAAGAGATATTTCAAAATTAAAAGATAAAAATCTAATTGATAATTTAGGCGACACTAGAACAAATAAATGAATAGTAAAAAACAACTAGACTAAATTAGTTGTTTTTACTTTTTCTTGAAATTTTAAATTATTTAAATCTATTTGATTAATGATTAGTAAAAAGATTAGATCTAAAATATATTGAATTTTATATTTTTCTATCATTGGATTAGATCTATTATCATTTATAAAAAAGTTGTTTTCACTACCATGAATATGATAATCAACTTTTATGTCAGTTTTTAATATTGGTGAAGATGTAATTCCAATAATTGTATTTGGTTTTCTTTTAGAAATAAAGTTTAAATAACGATTAATTTTACTATTATTTCCTGAAGTTGAAATTACAATAATACAAGCCTGTTTAACATTATAAGCTCTTGAATCAAATAAATTAGAAAATAATTCAACAGATAAATTTAATTCTAATAATTGGAAAAATAAAAAATTAGCTAATATTTTAGTTTTTCCAGTACAAAATAAAATAATTTTTTTACTTGATAAAATTTTACAAACAACTTCTTTTAAATAATTAATATCTAAATTAGTTTTTAATTGTTTTAGTGAATCTTCTAATCTATTTTCAAATTCGTCTATGATATTATCAAAAGATACTTTTGTTTCATCTTTAAAAAAATTAGAATTATTTTCTAAATAAGAAATTAATTGTTTTAACCCACCAATTTCAAGTTTAACTAAAGTTTTAGTAATCACTGAAGGTTGAACATTTAGTTTTTTACAAATCGATTTAACAGAAAAATTATGATAATCAGAAATATTAGTTAGAATATAATCACACACTTTTAATTCTTGTGGAGATAGATTAATTTTATTTTGTTTAATCTTTTCAATAATATTCACAATTTATTCTCCTAGATTATTATTACTTAAAATAATTATAACTTTTATTGATAAGAACCATTTTAAGTCTAGAAAAAAGGATTAAATTAAAGTAAATAATTAATAAATAAATTAAATACTTTGTGTAATTTTTTATAGATAATATATAATTTTTGAGTTATCTAAATAAGTTGAGTAAGGAGAAAAAATGAAAGTTTTAGTATTATTAGAGTCACCATCAAAAATAGAAAAAATCAAACATTATTTAGAAGAGAGTTTTCCAGAGAATCAATTTGTTGTTTTAGCTAGTGGTGGTCATATTAATAGTATTGCTGATAAGGGAGCTTGAGGACTTGGTATTGATTTAGAAACTATGCAACCTGATTTTGTTATTGATAGTTCTAGAAAAAAGATAATTAGTCAAATTAAAAAAGAAGGAAAGACTGCTGATTTAATTATTTTAGCTTCAGATCCAGATAGAGAAGGAGAAGCTATTGCTTATCATTTAGCTAATTTATTTAAAGATCATACTAATATTAAAAGAATTACATTTAATGAAATTACTAGTGAAGCTATAACTAATGCATTTAATAATTTAAGAGATATTGATATGAACTTAGTAAATGCACAAATTTCAAGACAAATTCTAGATAAAATTATTGGTTATTTAGTTTCTAAATCACTTCAAAAATCTACTGGATTAATGAGTGCTGGAAGAGTACAAACTCCTGCTTTAAATATTCTAACAACAAGAGATACTTTAATTAAAAACTTTAAAGAAGTGCTTTATAAAAAGATTTTTGTAATTGAATCAAAAAGAGCAATTAATTTAAGTTTGGTTAAAGATAAAAATAATGTTTTAGTTAATACTGAAAAGACTTATTATATTGATGAAAAACAAGCAAAAACTATTGTTGATGAATTAGGTGAAGTTTATAGATGTACTGATTATAAATCAACTGCTTATGAAACAAGAAGTTTCAAACCTTATTCAACAGCTGGTTTATTACAAGATGGATTTACTAAACTAAAATTAAGTACTAGTCAAATAACTTTAGCAGCTCAAAAACTATATGAATTAGGTTATATTACATATATTCGTACAGATTCAGTTAAATATTCTTCTCAATTTATAAATGAAGTAAAGGATTATATTTCAAAAAATTATTCTTCTGATTTATTTAAAGCTCCAGTTGTTGGTAAAAAAGATCAAAACAGTCAAGAAGCTCATGAATCAATTAGACCAACAAATATTTGATTAACACCTGAAAAAGCTAGTTTAGAAATTGAAGATAATTTATTAAAAAGAGTTTATAACTTAATTTGATGAAACTCAATTAAATCTTTGATGAAAGGTCCTTCTGGATTTAATCATAGATGAACTTTTAATAATAACGGATATGAGTTTAAACAATCATGACAAGAAGTTAAGGATTTAGGTTATCAAGCAATTAAGCACTCTTCAAGTGATGAAAATATTGAATTAACTGATGATGGTGAAGAAGTTGTTAAAACTAAAGATCCAAAACCAGAGTATCAATTTAATGATGATTTTGAAATTAATGTTTCTAAAAAATATATTAAAATTGAAGACGCTAAAACTAATCCACCTAAAATGTTTAATCAAGCTAGTTTAATTAAGGAGTTAAAAAATTTAGGTATTGGTAGACCATCAACTTATAACCCAATTCTAACTAAATTAAAAGATCGTGAATATGTTGAATTTCCTAAATCAAAACCAATTGTTGTAACAAATAAAGGATATTCAGCTAATCAGTATTTATATGATCACTACTTAGACTTTTTTAACTTAAATTACACTGCTGAAATGGAAGAAAAACTAGATGAAATTACTAAAGGTAGTTTTGATTATGTTAACTGATTAAAAGAAATTTATAATGCTTTAAATATTAAAGTTAAAAAAGAGATTGGTGAAGCTAAAACTGAAGCAATTTGTCCTAGATGTGGTGCTAATTTAGTATATATTAAATCAAGATTTAATAGAGGTAGAGGATGTTCAAACTTCACTAAAACAAAATGTGGTTATAGAGAATATGAACAACCTGATGGAACTTGAAAAGAATATGTTAAAGAAGAAAAACCACAAGAAGAAAGTTCAACTGAAACAAAATCTACTAAAAAATCAAAAACTAAACAAGATAGTAAATAATATGAAATAATCCTTCGCAAGAAGGATTTTTGTTTGGTCTAGTATTAATAAAATTATTAGAAATTAAAAGTATAAAAAAGCAGTACTTTAATTAGTACTGCATTAACAATGAAAGTTTATTTATGAATTAATTGTTACCACTATTGTTACGATTTGTTCAATCAGAGTTTTCGATTATTCAATCAGAAGCTTCTTCAGCTGCTCTTCTTCCTTCTTCACTAACACCACTTCAATTTGCTCTTCCATTAATAGTGTCAGAATTTCTAACTACAGCATCATTAAATTCGGCAGATTCTTTTTTACGTTTTTCTAAATCATACTTATAAGTAGCTTCAGCTATTGTATCATCAAACAATAATTCCGTAATTTTTGAAGAAGATTCAGCATGATCTTTTCTATGTGCTTCTTCTTCAGCATCTCTTTTATCAGAATAAGTTCTAGCTATATCATGTCCGGTTGCACTATCATAATAAACTCTATCTCAAGTAAGAGTATTATTTGGTGTTTTTGGGGTAATTTCACCATTAGGTCGAACCGCTGGAGTACCGTTTACAAAACTTGAATTATGAATGGTTCCAACTCATGAACTTGGATTACCACTTACAAAATGTCTATTAAAAATAGTGTCTGGGTAAGTTTTTGGATTATAATTATCAGTTGGTTTTTTTTCTCCATCAGGTTTTTTGTCTTCACCTGGTTTTTTATCATCATCTTTTTTACCAGGTTTTTCAGAACCACCACTATTAGATGGATTTTCATCTTTGTCTTTATTTGCAGGTTGACTAGGATTAGTATTATTACATGCAACAACTAAGGCTGCACTACTTGTTCCAATCATTAGAGAACCTAATATTGTTAGTAATTTTTTCATATATTCACACCTATAATTTAAAAATTAAATAAATACACGCCTTAGGCATGTGTATATAATAATTTTACTAAGTTCGTATTTTACCAATTTTAAAGTTGCAAAAAAAAAAAAAAAAATAAATCCAGCTTAGTACTCATCAAACTTTTTATGAATAAAGAAGTATTAAAAAAAATACAAAAATTTTTGTTAAGTGCTTATTTTACTTAATGATTTGAAAGAAATTGAAAGCATAAAACTCAAAAATCTCTATTGCATAAGTTTATGCTATGTGCTATTTTAATAAGGTAGGTTGTATATTCACACGATATAATTTACAAGTTTAGTTATTTCTAGTAATATCCTACCTAGAACAACTAAAACAAAAACAGCTTTTAAAAAGCTGTTTTTTTGTATTATAAATTTTATCTATCTGTATGAATATCAACATTTATTAAAGCTAATCTTAATGGTTTACCACCAAATTGTTCATTATATTTAGTATGGGTTTGATCTTTTGCATTTTTTAAATGCAATATTTCTCCTTTAACATATTGTTTTAAATCAAAATGTAAAAATGGATCATAAAGGTTTTTATAAAAATCAGGGTGAATATGAATATAACTATTAATATCTACTTCTCATTTTTCATTTTTTTTATTAATATCAATTGTAAAAATATTTCAATCAGTTGAAAGTAAATATAATACATAATCATCATTGTTTTTTTGTTCTAAAACAACTTGTTGCATCTCATTAGATTTTATTTTTCTAAATGCATTATAGTTCAAACTATCTTTTTGAGAATTAATTGATGCTTGGTCTCTTTGATTAATGAATTGATCTGAAATATCAAATAAAACATATTCAAATTTATCAAGATTAAAAAGTGTTCATAATCAATTATTTTTTAAAAACTCATCTAGTTTTTTACTATTTTCTTTTCTTAATAAAGGTTCTTTTTCTTTTTGTCCAGATTCAGCACCATCATAACTATAATTAGCAACAACACCATTACTATAAGCTAAATAATCTTTTAAATTATTTAAAGATTTATTTGTATCTAATAATTTTTGTTCTTGAATATATTTATCTTTTTGTTTTAAGTCTTTATAAACTAAATTCAAAAGCATATCTACATAATCATAATTTAAAAACAGATCTCATTTAGCTTTATTATTTTCTAGTTTTAATTCAATTTTTTGAATATCTTTATTCTTGTTTGAAAATGAAAAATAAGTAACTAAGCTAATTAGTAATATAGAAATTAGTGAAATTATTACATAAAGATATTTTTTATTCTTTTTCATAATTATCTCCTAAAAGAAATATTCCAAGTAATGCTAAATTATATTCACCAATTATTTCTTTTTCAAAAGTTGAGTGCACTTGATCTTTATGAATAACAGCATGCAGTATATTTGATATTACTTCTAAACTTATAGTATTATGTTTTGATTGGTTAAATAAAATAATTTTATCAATAACTACTTTAGGTTCTTTTTTAGAAATTAATAGTCTAAAAATTAATTTATCTTTTCTTAGATAATAAATATTATTAGTACCATGTTTTGATTCTTCACCAAGTAAATATTTATTAAAATAATTGTCATCAAAATTGAAGGTTTTATTTAATAATTTTTCTTTTTTAGTTTCTTTTAAAAAATCTTTACTATGTTGATTTACAGGTTCTAGTTTTCAAAAATCTAAAGCTTTATATTCAAATTTAGAAATGTTATTTAGTAAAAATAATCAATTTGTTGAATAAAAATCAAATAATTTATTTATATTATTTTGATCTTGATTTTTTTTATATTCTTCACTTAATTCTTTTGCTTTTAAAAATAATTCTTTTATATTGTTTTCTTTGGTTTGTGATTTTATAAACTGTTCTTGTTGAGCTAGATGATTTTTAAAAGTATTAGCTAATAAAACATCAATCATTTCTTTAGTTTGATTTTCTTTAACATCATTAATACTTACATTAATATTAAATCCACTAACAGGTTTAAATACTTCATCTTTATCATTTTTATTTACTTTTAATAAAAAAGGAATAACAATAAAAGGAATAATTGCAAAAAAGATTGATATATAAGTAAGAATGGTTTTTTTATTTTTCTTCATAAATATTTCTCATACTATATCTAATTACTTTTAAATCTATATCATTCTTACTTTCTTCATTTCCTTTTATATTATTAATTTCATCTAAAACTTCTATAAAAATATCTGTATATTGGCGTTTTGCATGAAGTTCATAAAATGCTAAATCATCATTTTTTACTTTATATTTTTCTAAAAAATCCTTTTTTATTTTTTCTTCATTATTTTCATTTTTATTAGTGTTAGGAAAATCAATACTATTTAGCTCTTCACTTATTTTATTAACAGTTTCTTCTAATTCTTTTTTAATTTTTTCACTATCCATTATAGTATTAGAATTTTTTTCTAAAAAGTGATTAATATTTTTTAATTGTTCATCTTTTCATTTATTTATTGATTCATTTTTATTTGTAAAGGTTCTAAGAAAAGTGTTGTTTGGCATTCTTAAACTACGTTCAAATTGTCTTATTAGACTTCTATCTATATCTGAAATAATATCTTGACAATTTTCAATAAACTTGTCTCAAATGTCTTGAAGTTTATCGTTTATTTGATCATTTGCTTCTTCGTTTTCATTATCTTCTAAATCTTCAATATATTCTTTTAAAGCTTCATTCAACTTATCATTTCTTTTTTCAAAAATTTTGTTTTCAATTTGTTCTAATTGTTCTTTTAGATTTTTATAATCTTTAAATCACAAAAGATCAGTAAATATTTGAAAATAAGTTTTATCATTAATTTCATATTTTAAGATCTTTAAAACTTTAGACTTATCATAAACTAAGTAAATAGCTTGTTTATTTTTGAAACTGTCTAGATCTTTAATATCATTAATGTTAAAAACAAAAACTTCACTTGGATATTTATCATTAATTTTAGTTAATAAATTATTATGAGTTTTATATACATAATCAATTAGATTTTGTTCTAATTTAAAATGTTTATATCTATCATCAAAGGGATTAAAATTAAAATCAAATTGATTAATATGTTTTAATAATCAATACCAATCATTAGTTAAGGTGTTTTGTAAAGTTTTTTTAGCTTTTAAAGCTACTTGTTGGTAGTGAGTTGTTACTGATTCAATACTTCTATTACTATTAAAAACAGTATAAAAAGTTAAAACAAATTTTAAATCACTAACCTTAGCATCACTAATGTTTTCTTGTTTTAAAGTATAAAGTTGTTTTTGTTGTTGATCTTTTATATATAAATCCAATAATTGATTAATATTTTTATTGTCATAAAACTTAAATTCTTGTCTATTAATAATTTTTTCTTTATTATTGTTTTTTATACTACAACTAGTAGTTGGAATTAGAAAAACTACTAAACTACTTAGCAATCACTTTTTCATAAAAGATGTCCTCTAAATTCTTAGTTTTAACTCCCGAATATAAAACTTTTCCTTTATGAATTAAAGTTAATGAATCAACATATTTATCAATTTCAGATAAGTTATGTGAACTAATTAAAATAGAAATATTTTCTTTTTCATTAATTTTTTTTAAAAAAGAAAATAGTTCATATCTTGCTGTTGGATCTAAATTAGCAGCAGGTTCATCTAAAATTAAAAGTTTAGGATTATGTAATAAAGCTTGAATTAATAAAATTTTTTTCTTTTGTCCTGAAGAAAAATTATAAGGTTTTTCATTAATTAAATTACTAATGTTAAACATTTCTAAAAACTCTTTGATTTTATGTTCAACTTCTTTTTTATCTAATTTTGATAAGAACCCTAAATAAGTTAAATATTGAATTGTTGTTAGTTCTTTTGGAAAAATTGCAACTTCAGGAACATAACCAATATATGATTTAGCTTGTGCTTTTTTAATATTAATATTATTAATTAAAACTTCTCCTTCATATTTACTAAAAGCTCCAATTATAGTTTTAATAGTTGTAGTTTTACCTGCTCCATTTTCTCCAATAAAAGCATGAAAACTTCCACTTTTAACACTCATATTAATATCATTAACACCTCTATTAGTATCAGTAAATATTTTAGTTAAATGATTGATTTTTAAAATGTCATTCATACTATTTATAATCCTTTCTAACATACATATAAAACACTAAATAAAATAATAAACCAACTACAATAATTCATATTCCAAATAAAATATTTTTATTAAAAATTTGTTTATCTCTAGTTATTGCAAATAAACTAGGTGAAGAGTTAAATAAAAAGTTTGTTTTACTTTCTGTTAATTTATATCGAATTTTAATTTTTGTTTCTTTGCCGTTTTCTTTTTTATCTTCATAAATTATTTTTTCATATTTATCATATCCACCAATATAATAATCATGATCAAAGATTTTAATTTTAATTTGAGAATCTAAATAACTATCTTTTTTATTAACATCTTTTAATAAAGCTTGTAGTAAAACTGAATTTTGATAATTAAAATAAATATAATTCATTAAGCTTGTAGCTAAATATAATTGTTTTTCATAAACTGACTCTAGTTTTTTATCAATAATTGCTCTTGAATCAAAAATAGTTAAATTAGAGTTTTGATAATTATTAATTTCTGATTTATCATTATTTAAATATTTAGAAATTTCATCAATTAATTTATTATGTAAGTTATTAAAATAGTTATTTTTATCTTTAATAGTTTGATATTCTTTTAAATTAATATGTTGTTTAATAAAATTATTAACAAATCTTTTAGCAATTTGATTAAATGTTTTATCGTTTAAAACTTGAAAAACATTATTTCATTTTAAAACTCCAACTAAATTGTTTTCTCTTGAAAAATCATTTTCATCTTCAATAAAATTAGTGTTAATGTCATTAGCATTTTTTCTAGCATAAATAATATCTCTAGATCTAGAGTTAATATTTTTATTATTAATATTATTACTTGAAAGTATTGTGTGAGATTGTAATAACCCAGGTACTGCATACATTTCAACTGGCTTATCATCTTTTAAAACACTATACTTGTTATAACTAGCATTTTTAACTAATTTATACTTATAAGAAATATCATCTAAATCATTATAATAAATAAAATTATTTAAATTAGAACTAGAATTACTAAATTGATTAAAGATATTTTTATTTTTAAAATTAAAAACATTAATTAATTGATAAGGTATAGAAAATCAAGAATAAGTTGTTCATAAAGTTGAAGAGTTGTTAGAAACTTCTGTTGCTTTTTTTAAATATTTAACTTGTTCATCATTAAACTCTTTATTTTCACTACCATTTGGAATTACTAATAACTCATCTTTATTATTAATAAAATAAGCTTCTGAATTTAATTGATTATTTGAATGATGATATGGATATTTTTGATTTAAATAATATCCTACTTTATTTAAATTTGAAGTTGTATTACTTGATAAAACCATTCCTATAATTGATAAAAATATAAATAAAACTAAAGGAATAGTTAAGGCTATTTTTTGAGTTAACTTATAACTTAAAATAGCTGTTATTAAACTAATTAATAAATAAGTAATTAATCCTACAAATCATAACAATAAACTAGTTAGTACTAAAGTTATAAATGAGTAATTAGCATATAAACTAACTAAAGCACTAACTAATAAAATACTTGATCAAATTAACCCATAAAAACTTAAACACAATAATTTTCCTAATATTAAATTATTTCTTGAAATTGGTTTTGAAAAACTAATGATTTCTAATCCTTCTTGATCTAAATCTTTAAAGATATTTAATGATTTAATTGCACTAAAAATAACAGTAATAATTAGTAATAAAAATATATATAAATAACTTGATAATGCTAAATATTTTTCATCAATAACAAATTTAAATATCAATCCTATAATAGTTGAAAATATTAGAGTAAATATAGGTAAAAGATATGAACTCTTTTTATATAAAATTGTAAAAAAAGCAAATTGAGAGTATTTAAATATTGATATTTTCATATAACCCTTTGTCGTTTGTATATACTATTAATTATAAAAATTATAAATAAATAATTGATAAATGTAACACTTATTTATAAAAATTATAAATAAAGATATAAATACATGGGATTTAATAACAAAAAATAGCCTATAAGGCTATTTGTTTAGATATTTACTATTTACTTCAAACATTACATATCTTAATGGTTTTCCACCAAATTTTGCATTGAAATTATTCATTGCTTGAGATGTTCTGTCTTTTGCAACACTTAGTACTGCATTAGCATATTCATCTAAAATAAACACTTCTCTATCAAGCTTGTTTTTAGTTAATCTTGGATAAATGTTAGCATATGCAATAAATTTAAACTTATCTGGATTTTTTTCAATGTTTATTTCTAAAATATTTCAATCTTCAGTTAATAAATAAAAATTATAATAAATTAATTTACCAGATATTGAGTTGCTTTTTGTTATAGCAAATTGAGAGATGTTATTAGAATGCATTGTTTTAAACAATCCATAATCAACAGCATTCTTTTCAGCTTCTTCACCTAGCTTACTTACATTACCATTAAAACCATTATAAACATCATATAATACAAAATTAAATTTATCTAAATTATATAAAGTTCATAATCAGTTTTTATTAAAAAAGTCATATAGTTTATTACCATATTCTTTAACAGGGTAAGGATCATCACCTGTAATATTATCTCCATCAGTACCATAACCTGCATTAATATTATTAGCATAAGTTAAGTATTTATTTAAAGTAGATAACATTTCTTTATCATTAATATTAAATTGTTCTTCTTTGTATTGTTTAATTTTTTCATTGTCATTATTAAAAGCTATACTTAAAATTTGATTCACATATTCACGTTGTACGAATTGATTTCAACTATCTTTTTTTTCATCTTTTTTAATAGATAAATTATTAATGTCTTGATTTTTATTATTAGAACAAGATATAGCAGCAAAACTTAAGATAGGAAAAATAGATAGTAAAACTAAAGACAAACTTTTTTTAAGTTTAAACATATTATTTTTCCTTTCATAATAAAATTCCATCTCAAGGATATCCATATTCTTTAATTATGTGTTTTTCAAAAGTTGAAGTGAAAGCATCTTTTTGATTATGAAAAACTCCAAGGTGTATAGCATCAGAAATTGTATCTATATTTATTCTAGAAATTATAGAATCATTAAATAAAATAAACTTATCTATAGTCATTTTTTTATCATTATTTGTAAGAAGTGCTCTAATAATAAATCTATCTTTTCTTAGATAATAAACTGTTAGATTAGGTAAATCTTCATTTTCTTTTCCAATTTTTATTAAGTCTATATTATTGTTAGAAAAATAATAATTATCTTTAGGTTTTTCTCTTTTTTTAATATCATCTAAAAATTCTTTGGAGTGTAATTCGCTTCCGTTATTTGCTTTTAACTTTCAAAAATCAACGAACTTCATTTCAAATTTACTTAAATTTTGAAAAACAAATAATCAATTTTAAGAATAAAAATTCTTTATTTTTTTTAAATTTTCTTCATTTGAATTTTTTAAATATTCTGAGCTCAATTCTTTTGCTTTAGAAATTAATTGATCATTCTTTTCTTTTTGTGACTTAACAAATTCTTGTTGGTCTAGCTTAGAATCTTTAAAAACATCATCAACAAGTGATTGTAATAACTTTACAGTCTTTGCTTCTTTGTCATTGTTTAAATTATCATAAACATCAAAACCGGGAGGTCTAACTAAGTTTAAGTTATTGGTTTTTTTATTTATAAAAAATAGAGAAGGAAGAACTAAAAAAGGTAAGATAGCAAAAGCGATTGATATATTAATAAGAGTTTTTTTATTCTTGTTCATAAATACCTCTCATACTAAATCTAACTATCTTTCAACCATCCTTATTGATGTCATTTAACGACTCTTTTAAACGTTCATTATATTGGTCTGTTGCATGAAATTCTAAGAACTTTTTATCATTACTTTTTTGTGGCAGATCTTCTATATCTTTTTCATACTTCTTAACATTTTCATCAGATTGTTGTAATTGTTTTTCTTTTCTTTCAAGATCTTTTTTTAGTTCTTCAAGTGTAGGTTCTTTTTTCTTATCTTCTTTTGGTGCTGATAGTGTTCTAGTATTTAATGCTAATGCAAGTGGTGCAGTATGTGATGAATTTGTATTTTCTTCTAATTTTTTAATTTTTTCTTTTAATTCTTGAATTTCTTGTTGTGTTTTTTCTTTACGTTTTTTTGTAGCCTCTATATTTTTATTTATATTTTCTAGATTGTTATTATATTCAACTTTTCTTTTTTCAAAAATGGTGTTTTCTAAATGTTGGATTTGATTTTCTAAATTATTAGTATCTTTAAAAATAAACAGATCTGTTGTCATTAAAAACTCAGTCTTGTTTTGGTTTTCATATTTTCATATTTTAATAGCTTTATTGTTATCAAATATTAAATATAATGCTTCTTTTTTTAAATAGTCATCTTTTATTTTTTCATTAACAACTTTATCTAAATTTATTTTTATAATCTTTTGAACATTTTTATTCTTAACACTAGAAATTAATGATCCTAGATCTTTTTCTACTTGATTAAATAAATCTTCATCTTTATCAAATTCATTATAAAGATCACCATAAGGATTAAAGTTGTATTTAAAATTAGTGATGTTATCTAAAACTCAATATCAGTCATTTTTTAAAGTTTGTTCTAAAGCATTTTTTGATTTTTGAATAATTACTCTATAATGTTGACCAACATGATAATCTAAACTTCTATGAATAAAAATTGGATAAAAAGTTAGTCCATATTTTAGTTCACTAAATTTAGAATCAGAAACATTTTCTTGATCATTAATATAAGAATCTCTTAATTTAGAATCACTTAAATATAAATTCAATAACTCACTTACATATTTATTTTTATATAATTTATTTTCATTTTTATTTATAGTTGGATTAGCTTTAGGTGTACTAGTAGAACAAGAAACTGTTAAAAAAGCAAATATACTTGAAAAACCAATTAATAACTTTTTCATACAACTCCTTTTTAAATTCTACTTATAATCTTTTTTTCTATATAACTCAAATACAGCTAATAATTCAACTCCAATAACTATAACTCATAAAAGAAATAACACATTTTTATTAACTACTCTTTTTGATCTACTAATACTAAATAATTCATTTGTTGATTCAAATAAATAGTTATTATTACTTTTAGTTAAACTAAATCTTAAAACTGTATTAGTTTCTTTATCTTTTTTTTCATATTGAGTTTGATAACTACTATATCCACCAATATTATATTTATAACTATTAATATCTAATTTAACTTGATAATCTCCATAACTATCATTATCAGGATTTTTTAACATAGCTTGATAAATTAAACTATCAGGATAATTAAAATAAATATAATTTAAAAATGAAATTGCAAAATATAAAATTCTTTCATTTTGAGATTGTAATTTATTATGTCTTTTAATAGAATATTGATCAAAAATAGTAATGTTATTATTGTTATAACTATAAATTTTAGATTCTTTATTATTTAAATATTCAGATAAATAAGTCATTAACTTTTTATTAAGTTCTTTTAACTTATTATCAATTTCTTTAGTATTATTTTGTTTAACTAACTTATCAAATTCTTTATTAAAATCTTTTGTAAAATATTGTTTATTAAAACTAGTAACAAATTCTTTTGCTATTTGATTAAATACAGGATCACTTAAAGCTTCATAAACATAAATTCATCTTAATCTTCCAACTAAATTAGTTTTATTATCAGTATGTAATTGGTTTTTATCTTCTAAAAATTCTTTATCTTTATTATCAGCGCCTTCAGCTGCATAAATAATATCAAAATCAACTATTTCTTCATGACCTGAAGTATTATCATTTTTTTGACTATGAATAGAATGAGATTTTAAAATACCTGGAACTATATATTTATAAGTATTATTTGCACTTGTTTTGTATTTTTTAATATTAGGTTTTTTATCTAATTTATATTTATAAGAAATATCATCTAAATTATTATAATAAACATATTTATCTAAATTAGAATTACTTTTGTCTGATAATGAAGCAAATAAATTTTTATTTTTAAAATTAAATACATCAACTAATTGATATGGAATTGATAATCAAGAATAAATTTGTCAAATATTTGAAGAACTATTTGAATAATTAACTACATCTTCTAAATATTTAACTTGTTCTACACTAAACTCTTTATTATTAACTCCATTTGGTATTAAAAATAATTCATCTTTATGATTGTTTAAATAATAAGGTTCAACATTTACTTCATTTCCTGAATGATGATTTTTATATTCTTTATTAATATAAAAGCTAGCTTGATCAACATTAGATTTAACATTAATAGATAAAATCATTCCAATTAAGCTTAAAGGTACAAATAAAACAAATGGAATAATCATAGAAATCTTTTGAGCTAATTTATAACTTAATAACACTGTAAATAAACTAAATAATAAATAAGTAATTAACCCAACAAATCCTAATAATAAACTAGTTAAAAATAAATATAAAAATGAATAAGTTGCATATAAAGATAAAAAACCACTAATTAATAAAGTTAAAGATCAAATTAATCCAAAAAAGGTCAAGCATAATAATTTACCAATAATTAAAGATTTTCTAGTTAATGGTTTTGATAAACTAATTATTTCTAATCCTTCTTGTTCAAGGTCTTTAAAAATATTTAAAGCTTTAATACAGCTAAAAACAACAGTTAAAGTAATTAAAATAAAAACATATAAAAAACTTAATAACTCTACGTATTTATTATTAACTACAAACTTTAAAATAAGCCCAATAATTAATGAACTAACTAAAGTAAAAATGGGTAAAATTATTGAACTTTTTTTCTTTAAAATAGTGTAAAAAGCAAATTGTGAGTATTTAAAAGCATTCAGTTTCATAAAATATCTTTCTAAAAATTAAAAGTCTTATTTATAAAAATTATAAATAAAATTATAACAAAATCCAAGTTATAACAAAAAAGACTTACATTTTTTTGTAAGTCTTTTTTTTAAGATATTGAATCTGGTAATGCTCCACCAGTTAATAAAAGGATAAAACATAAAATAAATAAATATGAAATTATTGGTAACATTGCTTTTAAGTATTTAGCATAACTCATTCTAGATAATGAACAAGCTCCCATTACAACTCCTGAAGTTGGAGTAATTAGATTAACTAAACCTATTGCAAAAGTAAAGGCCATAATTGATCCAGATGAAGCATAAGCTTGTAATTGATTAGTTTTACTATCAACTAAAGATTTAGCAAGAAGTGGAAAAATAGTTGTTGCAAATCCAGATGAAGATGGAATTAAAAATCCTAGTGGAATAAATACTATAAATAAAACAATAACTTTAGCTGTTTGATTGTTAATCCCACCAATTGAATTTAAAATCCCTTTAACAAATAGAGATTGTAAATTAGTTTGAACTAAAATATATCCAACTCCAGCAGCTGTTGCTATTATAAATGCCACTGATAAAATGTCTGAAGCCCCTTCAAATCATTTTTTAATAAATGTAGCTTCACCAATTGAATTGATAATAGCTAATGTAATTGAAGCTAATAAGAAAAATGCAGCAACATTATCTAAATCTCCATTTCCTCATCCGGGAATTAGAGCAGTTAAATAAGGAATATTTTTTTTAATTCAAATAGCTTGATCTGCCATTTTAGTATTATTAAAAATTGAATCTCATCCAACTAAATAAAAAATCATTACTAAAAAACTAATTGCAAAAACAACTAAAGATACTTTCTTTTTTCAATCTAGTTTTATAGTCTTACTTACATGAGCTAAAAAGAATTCTTTATCTCCTTCTAGTGTTGAAAAAGTCACAGATTTAGAAGGATTTTTTTTAACTTTTAAAGCATATAAAAGTGTAAAAGTAGTAGAAAAACTAGTTAAAATTAATCAACAAATTATTCTTCAAACTAAACCATCACCAATTGTTAATTTAGCAGTTGAAGCATCAATTCCACTATTAATTGCAGAAACAGCAATTGGTATTGTAAATGGATTAACTGTTGATCCAATTACTCCAGTTCCAGCACCAACCATTAAAATTAAAACACCTGTAAAAACATCAAAGCCTGCCATTAACATAATAGGAATAAATATCATATAAAATCCTAATGTTTCTTCAGCAAATCCTTCAACAGTTCCAAATATTGAAAAAAACAACATTAAAGGAATAATTGCAAATGCTTCTTTTCCTTTTAGTTTAGCAATAATAGCTTGTGATAATCCTTCTAGTGCTTTTGTTGATACTAAAATATATAAAAAAGCACCAATTGAAATTGTAAAAATAATAATATTAGATTTTAAAACAAATCCTTTAATTGGAGCATAAATTACATCAATTATACCAATTGGTTGAATTGGTACTAATCCATTAAAAATAGCATCTCCACTATGTTGAATTGTATAACTATCTTTTATTCAACCATGAGAATTATAAACTCAGCCTAAAAAAGAATTGGAATTCATAAAATCAATTCAAGTTTGTGAATTTCCAGCAGTAATATTTGGATATTTACTAGTTCAAGCATTATAAATAGGGCTTAAAATAGGATCATATTTTCAATCATTAAAACTAATTGTTTTAACTAAATCAGTTTTAGTTTTTGATCAATATAATATTCAAGAAACTAACATTAAAACAAGCATAATTAAAAGAAGAATACTAAAAGAAGAAAGCATTTTTAAACGCTTTTTCTTTTTAATATTGCTATTAAAATTATTCATTTCTGTATTCTCAACTTTAATATGCATAAAGACTCTTTTCTAATATATACAAATTTAAATTATACTTAAAAAGTGCTAAACAAATAGCATTAAATTTAAATTCCTTTAGAATTTAATATTTGTTGTAGTTCTTGATAGTTAGGTAAATAACTAGCTATATGTCTTCAAAAATCTTTTGAATGATTAGGATATAAAATATGAGTAAGTTCGTGAACAATTACATAATCAATAATTTCAATATTAAAATGTAATAGTTTTGTATTATAAATAATATGCTTTTTTTTAGAATAACACAACCCCCATTTTGCTTTCATCACTTTTACACTAACATTTTCAAAACTTAAATTCATTTTTTGACTTCAAATTAAAGTTCTACTAATGAATCAGTTTTTATACTCTTTAGCTAAAAAGTTATAAATTTTTTCTAATTGAATTTGATTATCATAATAGTTTTTAATTAGTATTTTATTATTATTTTTTTTAGGGTGAATGTTTTGATCAACTAGTTCTATATCAACAGGTTGTTCAAAAATTTTTATTCAAGGTTTATTAGTATAAAAATCATAAACTCTTAAAAACTCATAATTATTCTGAATTTTTATTATTCTTGATATGTGCTTATAAATGAATTGTTCAATTAAATAAATTGGTGTATTAATTGGAGCACTAATGATTATTTGATTATCAATTAATCTTAAAATTGTGTTTTTTTGATTTTTATAATGAACATAATAAGTTATTTTATTTCCTTGATAACTTAATTGGTGTTTTTCTTTAGACATTAAATTTAAAAAAGCATACATCTCCATCTTGCATTATGTATGTCTTTCCTTCTAAACGCATTTTACCAGCTTCTTTAATTGCTTTTTCACTACCTAATACTAATAAATCATTAATCGAATAAATATCAGCTTTAATAAATCCTTTTAAAAAATCAGTATGAATTACTCCAGCACATTTAGGAGCAGTTCAACCTTTTTTAAATTGCCAACTTCTTACTTCTTGAGGTCCTGCTGTAAAAAATGTTTGTAATCCTAAAGTATCATAAGCTGCTCTAATTAATTGATCTAAACCAGATTCTTTAATTCCTAATTCTTTTAAAAATTCAATTTTTTCTTCTTTTGAAGCTTCAGATAAATCTTCTTCTATTTTTGCACAAATTTTAACTACTTGAGAATTTGATTTTTCTGCAAATTGTCTAACTTTTTTAACATAATCATTATCTTCTAATAATTCAGTATCACTAACATTACATACATAAATAATTGGTTTACTAGTTAGTAATTGATAACTTTTTAAAAGATCAGTTTGTTCTTCATCTAAAGTTAAACTGTTTAATAAAATTCCTTTATTTAAAGTATCTAATAAATAGTTTAAAAGATCATATTCAACTTTAGCTACTTTATCACCTGATTTAAATTTAGGTAATATTTTATCAAGACGTTTTTTAACTGTTGTTTGATCTGCTAGCATTAATTCTAAATTAATAATTTCAATATCTCTGATTGGGTCAATACTATTTTCTACGTGCATAATTTCTTTATCATCAAAACATCTAACAACTTGACAAATAGCATCAGTTTGTCTAATGTTTGCTAAAAAAGCATTACCTAAACCTTCTCCTTGACTAGCTCCAGCAATAAGTCCTGCAATATCAACAAATTCAATAGTTGTAGCTACTCTTTTTTTAGAATTAAAGATTTTAAATAATTCATCTAATCTATAATCTGGAACTTCAACAATCCCTACATTTGGTTCTATAGTTGCAAAAGGATAATTTGCAGCTTCAACTTTTGAATTAGTAATTGCATTAAATAGTGTAGATTTTCCAACATTTGGTAGACCAACAATTCCTACTTGTAATCCCATATTATTTACCTTTCTATTTTTTAATAATGATTAATTTATTTAATAGTTTTTTTAATGATTTTTTTTAATTGCATTTTTAAAGTTTGTCTGTTTAATTCAATAAACAAATCAAATTGATCACAACTTCTAAATTTATATTTAGCTCCAATTCTGATTAATTCTCATCTTATTGTTTTACTTGGATGAGGTTTTTTTAATTCAATAATATCTCCAATTTCAAGCTCTTCATAGTTCATATTATTTACTCTCTTTTAAAATTTGTTGATATTTTCTTGGATATAAATTATTGGTGTGATTTATCTTTTTATAAAACAAATTAACTCTAGTTCCAAACCCTGTATCTTCTAATTCTTGAATATTGACTAATTTTAAGTTCATTTTTTGATCTTTATTTTTTAAATCTTTAATTTCTTGATAAGCTTTAGGTCCTTTTAATAAAATAAACATTCCATCAACTTTAACTAATTGCACACCCAATTCTAAAATAATATCTAAATAAGCAACAGCTCGTGAAATTACTATATCAAATTGTTCTTTATACTCATTTAGTTCTTCAGCTCTTTTATTTAAAATTTCAACATCATTTAATTCTAATTTTTGAACTAAATATTTTAAAAAATTAGCTTTTTTATTATTGGATTCAATTAAAGTTAATTTAATATTTGGAAAAAAGATTTTTAAAACAACTCCAGGAAAACCAGCACCAGTTCCAATATCAGCTATTTCTTGATCTGTTATTTGAAATTGTTCAACAAACAATAAAGAATCTAAAAAGTGTTTTTCAAAAACTTCATTTAGTTGTGTAATTCTTGTTAAGTTATACTTTTGATTTTCTTGTATTAAAATTTGATAATAAAGATTAAGCTTATTTTTAATTTCTTGATTTATAGTAAAGTTTTTATAATTTAAAAATATATCTCAATTACTAAACATTAAAATAAATTAGATCTTGCTTTTAAAAAGTAAATAACTCCACTATAAATACTAAAAAATGTTGCAATATACATCGGAATCAAAACTAATTGATTTTGTCAATCTCATTCACTTCAACCAAATATTTTTAAATTAACAAAAAATAATAATGATAATCCAATCATTTGAAAAGTAGTTTTTAATTTCCCGCCCATTCCAGCAGCTAAAGTAATTCCTTTTGAACTTAAGATCATTCTAATAAAATCAATAAAAGTATCCCTTAAAATTAAAACCACTGTCATTCAAATTGGTAAAACACCTAAACTAGAGAATAATATTAAAGTAGCATTTACTAATAATTTATCTGCAATTGGATCAAAAAATTTACCAAAATTAGTTACTAAATTATATTTTCTAGCAATTCATCCATCTAAAAAATCAGTTAAAGAAGCAATAATAAAAATAGCTCCTGAAATAAATCAAGCAAATTTACTAAAATTAGTAAATACTAAGGCATTCACATAATGATCAACTAGTAATAAAACAATAATAATTGGTACTAAAACTATTCTAATAGTTGTTAAAATGTTTGGAAGATTAATTGTTTTTTGTTTCATAACATCACCTTTTTTAATATACATATAAATTTTAAAAAAATAGAATATGTTTTGCACTAAATATATTATAAAACCTAAATTTAACAAAAATAAAACCTACACTAAACTGTAGGTTTTGCTATGATTTGAATTTCAGGATTTTCTAAATCATATTTTTTTCTTCTTTTTTCTTGAATACATCAAAATATAAAGACAGAACCAAGTTCTAATAAAGTTAATAAAATAAATAACGGACCTTGGTAGTAATTACTTGTAAACCAATTTGAATTATTATTATTTTTATTAATCACATCTAGTGGAACAAGTATAGTAAATAAACTCATTGTTACAAATAAAACTAAACAACAAGCTGCAATTGATCCTAAAACTACAAATCCTTTTTTCTTTTCTACTTCTACTTTATTAGTTTTTCTATTAAATAAAGCTCCAATTATTAAAGTAATTATCATTATAAATGATAAACACGCATTAGAAGTGGCAATTATTTGAATTGGATAAATTAATCCATTTGTTGAACTAACTGCTTGTTCAACTGTTGCTGTATTTGTTAGTCCAACTGTTGCTAAAGTTCCAACTAAAATAAATGTCGAATAAATAGCTGTAGCAACACTAACTTGAATTATTGCAATTCTTTTTGCTGAAATATTTTTTTGTGAAGTTAAATATAATTTATCAATAACATCTGATTCAATAACTACAAATGAAACATAAGATAAATTATTAGCTCCGATTGAACATATTATTATAATAATCACTGAAGTTAAAATATTAGCTACTCTTGATAATGTGCTACTATCACTAGAGCTTAAAACTTTACCACCATTAAATAATTTTTCTAATAAAGCACCAATTGATCCATCTGGAGAACCCATTAGTAATGAAACGGCTATTAAAGTATAAAATACTGAAACAAAGATCATTCCAAAAATTAAAGCTTTTGGAACAACGTCTTTATATTTTGCTTTTCTTTGTGAATTACAAATAAAAATAAACCCATCAAAAGCAAATAGAATTCCACCAAAACCTCTAAAAAATAATAGTGGATTAAAATTGTTTGTTGATCATTCAACTTTAGAAGTGCCACCGGTTGGATTAGTTATATTAATTCCACCACTTAAAAAAGCACCATTTTGATCAAATAAAACTACACCTGCAATAAGTGCAATTGCTAAAGGTATAAATTTAAAAATTGTTCCGAATGCTTGATACTTTCTAGATATTGAAAGATCAAAAACATTAATTAAAGCATTAATTATTATTATTGCAATTCCTGTTGTTAAAAATATTAATAAGAAATGTATCCCTTTTAGTTGCACAGTACTAAACATCATCAAAATAAATGTTATAAAAAATGAAATAAACATTGATTGCATTACTGGTAAATAAAAAAAGGCATTTAAGATTGCAAAAAACGATCCAACTTTTCTATTAATAAATAGTTTAGTTCAAACTCCAATAGTTCCACTTCCACCATTTTTTGTTGATGAAGCTATTTCTAAAAATAAATAAACCATTGAAACACAAACTGAACCAACTATGATTCATAGAATTATTGCTATTATAGGATTTCTTGTATCAAATAAAATTTCTTTATTTTTAAAATATACTCCAGCTCCAACAACAGAACCAATCGTCATTGCAAATAAAGTTAAAAATTCTAGTAATTTTCCTTTATTTTTCATTATTTCCCTTCCTTTCTTTTTATATATATACTTATAAGTTCAAGTCTATTAATAATGATAATAACACATTCTAATTAATCATTACAACAACTATTTTGCTATTAAATAAAAAAAGACTTCTTAAAGAAGTCTAATAAATTAATAGTTATGATCTAATTATTTTTTTAATCAATACTTTTACTCTTTTATAAATTATACAAAAAATTGCATGATTAACTACTAATTTAATAATTGTAAACATAAACGTTACAGCTAGTATTGGACCAAATGGTTTTGGTACTTTATATAAATCAAATATAAATGTAGCATTTGAAATATAAGCTACTAGACCACCAAATAAAGTAGCTATTACTGAAGCAAATACAACAAATAAAATTTCAAATTTTGCAAAAGCTTCACTTTTATTTGATTCGATAAACATTTTTTTAACAATATAAAACACTGTTGCAAAACCAATAATTGCTGAACTATCAACTAGCATTAATGATAATAAACCAATAGGCTCACTACCTAATAATAGTCTCATTCAAACTGAAGCAACTGTAAAAATTAAGCTTCAAAATAGATTAGTTGCAGTTAATACTACAGTTGAAACTCAATAGTTAATTTCTAATTTTAAATAAGGTGCACTTAGAAATATAACTAATGCTCCCATTACATATTTAGAAAATAAAGTAAGTAAGATTTGTAAAGCAAGTAGAGTTGCTAATAGTGCAATTTTATTAGTAGATAATAAAAAATATTGTCTTAGTGATTGAACTCTTTTGATTTTTTTATCTTTTTGAAGTTCTAAATTATTATCTTTTTTCTCTTTGTATGTGATCATTTTTCAAACAAAGACCTCCTATAAGTCTTTTGTTTTGATTATATCAAAGGATGGCTACAAAAATTAAACCTAAAACCATTAATAATAAGAATAAAGGACCTTGAGAATGTTGAGCTGTTCATCAACTATCTCCATTTCTAATAACACCTAATGGAACTATAAAAGTAAATAATCCCATTGATGAAAAGAAAATAAATGTAATTAATCCAAATATTGCTAAAGGGATAAATCCTTTAATTTTTTTAACTTCTACTTTATTAGTTTTTCTATTAACAAGAGCAGCTACTATTAAACTAGCCATCATTGCAAATGATAAACAAGAACAAGTTGATGACATAATTTGAATTAAATACAACATCCCAGAAGCTGAATCAGTAGCATTTCCTACTTCAATTTGTTTATTTAAACTAATAGAAGAACTAGCTCCAACTATAATAAAAATTGCAAAAATAGCATAAGAAATTACACCTTGAATTAAACCAATCTTTTTAAAACGGTGTTTATCATCAACTGATTTTATATAACTTAAACCATCAATAACATCTGATTCTAATCCAGCCATTCCAATATATGAATAAGCATTTAATCCTAAAAAGCAAATAATCATTGAAATAATTGCAACCATTACTTTAACAGTTTGATTTACTTGAGTTTTTAATGGTTGACCGTTATTAAATACTCTTTCTAATAATTGTTCAATAGATCCATCTGGTGAACCTAAAATTAGTGAAATTGACATTATTAAATAAAATACAGCAGCAAACGCCATAGCTGAAACTAATGCAATTGGTACTACATCTTGATGTTTTGCTCTTTTTTTAGAATTACAAATATAAATAAATCCATCAAAAGCAAATAAAATTCCACCAAAACCTCTAAAAAATAATAATGGGTCAAAATCGTGTTTAGTTCAACTTTTAGTTGCATCAATTCCTCTAACATCAACTCCATTATTTTGTAGTGCACCAAAATGATCAGCTAGAATAAATCCTGCAAATAATGCAATAATTAATGGAAAGAATTTAAAACCTGTTCCAAAAATTTGAACTGCTTTAGAACCTTTAATACTAAAGACATTTAATATATTGGTTAATAAAATAATAACTGCACCAACTAGTAAAAAAATTAATAAATATTGATAACCATATAATTTAAGATCAAAAATATTTAAAAAATAAGATAATAAAGCTGAAGTAAAAATTGCTTGATTTACAGGAGCATAAAACATTGTTTGAAAATTAGCAAAAAAAGAACCAACTCTATGCCCAAAAAAAGCTCTTGATCAAGAACCAATAGTTCCATTTTTTGTTGATGAAGATATTTCTAAAAATAAATAAACTACAGCTATACAAGAAATTCCAACTGCAGTTCATAATACTATAGCAATTATTGGGTTGTGTGTTTCAATTAAAATATCTCTATTTTTAACATAAATACCAGATCCAACAATTGTCCCAACAGACATCATAAACAAAGTTAGAAATTCAAAAAATCTAGACTTGTTTTTCATATATTAAACCTTTCTTTTAATTTTAAAGTTATCATAAATTCTAAAAATATAATAGTTTTAAATTCAATTTTTAAAAATAATTAAATAGATTTTTTTAATTATTTCACTAATTATTCAAGCTAATATTTCTAAACCAAGCAATATTAAAAACCATCAAGATAAATTGATATTATTAAAATTACCAATCATCATTTTAAACCCTAAACTATTAAAACTACTACTTATAAATACAATCATAAAACAAACTATACTAAAAAATAACATTGAAATTAACATTTGTTTTGATGCTATTGATTTAAAAAATGATAATTTATCAGTTCTTAAAACTAAAATAATCATAATATGAGTTAATATACACTCAATAAAATAACAAGTTTGAAATAATTCAATTGAATAAGCATCTAAACCTTTTATATTAAACCCAAAATATAAAATCACAAAGTTAGTAAAACTAATAATTACTTGTGTTAATCCATTAAATATAGCAAAAGGAATAATTGATTTAATATTTCATTTTTGCGGCTTTTTAATAGATGATTCATCAACATTATCAAATACAAAAACTAAATTAGCAAAATCAAAAATTAAATTTTGAATAAGTAATTGAATTGGTGACATTACTTCAAATTTAAATAAAATTGTAGCTAATAATAAAGTTAATAAAATTCCAAAATTAGAAGCAACAGTTATTTTAATATATTTAATAGCGTTACTAAAAGTTTTTCTTCCAATAATAAAAGCGTGCTCTAAAGCGTTTAAATCTTTTTCTAATAAAATAACATCTGCAGATTGTTTTGCTAAACTTGAAGCATTATTTACTGAAATACCAACATCAGCTTTTTTTAAAGCAACTGCATCATTAACTCCATCACCTAAAAAACCAACAACATTATTAGATTTTAAACTATCTATGATTTTTGCTTTATCTAGTGGAGAAAGTTTATAAAAAATATTAACTGATTGACTTATTTTTATTAACTCTTCTTTAGTTAAATTATTGATTTGTTTTCCAATTAAATTAGTATTTGAATTAATCCCTACTTGATCACATACATTTTTACAAGTATATAAATTATCACCACTTAAAACTTTAATATCAATATCATAAGCTTTAAAAGTATCTATTACTTGTTTTACATTCTCTCTAATTTGATCACTAAAAACTACCATTCCTAAATATATTAAATTTTTATTATCAATAACATCTGAATTTTTATAACTTAAAACTAGTACTTTATAACCTTTTTTAGTATAACTATTAACTTGATCAATTATCATATTTTTATAATTGTCACAAAGATTAATAACTTGATTATTAACATTAATAAAACTAGTAATTTCTAATATTTCTTCTAAACTACCTTTAGTAATTAAAAGATTAGAGTTATTAAAATTAATCAAAACTGATGAAATTCTAAAATTATGATCAAAACTTAAATGATCAATTAATTTAATATCACTAATATTTGTTTTAAACTGATCAATGATTGCTTTATCAATAGTGTCAAACAAATTATTTTGAAAATAAGCATTATAAAAAAAGTATTGCTTTAAAAGCTTATTTTTTTGATTATTAATATCTAAATATGTTTCAATATTAGTTGTATCTAAAGTTAAAGTCCCAGTTTTATCAGTTGCTAAAATATTAACTGACCCAATGTTTTGTAATACAGAAAGCTTTTTAATAACAACTTTGTTTTTAGATAATCTTTTTGAAGCTAGTTTTAAATTAGAAGAAATAATAGCAGGCAAAGCTTCAGGAGTTAGTGAAACTGCTATAGATAATCCAAAAACTAAACTTGAAGTTCAATTACTAAATCCACTTTTTAATAAAGAAATAAAAGTAATAATAAATACTAAAATAGAAATTAAATAAATTAAAATTTTAGTAACTTTATTAATTCCTTTTTCATAATCAGTAATTATTTCATCATCAATTAAATCTAATAAAGAATTTGAATAATTATCTTTATTTATATTAATAACTACAGCTAAACAATTACCTGAAACTATTAAAGTTTCTTTAAATAAAATATTTTCTAGTTCTAAAAAATTAGTTTTAGTGTTAGTAGTTTGTTTTTTGATTGCTTTAGATTCACCAGTTAAAGTAGATTCATCTAAATAAAGATCTTCTGATCAAATAATTCTACAATCACTTGGAATAATATCTCCTTTTGATAAATAAACAACATCACCAATTGTTAAATTAGATTGCTTTTCTTTTATTAAATTATTTTTAATATTTTGATAGTTTAAATTATTAAAATCTTTTATTTGATCATTAACTACAAATACATCATTTTCTATTATTTTAGTTAATTTTAAATTAAATTTATAAGCTTTATATTCTTGAATAAAATCAACAATACTAGCTAAAAAAATCATAAAAAAGATAATAAAAGCAGATATTAAAGTAATTCAATTTCTTTGAAATAAAAAATAAATAATCAATTCTAATATACCAATAAACAATAATAATAAATTAAATGGTTCTATCAAAGTTTCTAGTATTTTTTTAAATATTAAAAACTTTTTAACAACAATTTGATTAGAACCAAATTTTGAAATATTGTTTTGTCTTGTTTGATTATTTAGCCCTATTTTTGAATCTAAAACACTTTCTAAGTTATTAGAATTAGTATTAGATAATTTAATTACATAATCTTGTTTTTTATAATCTAAAGATTTTAAATTACCTTTTTTTGTTTTAAACATATATGCCTTTCAATACAATAATAATTATATATTAAAAATAGAGCAAATAAAAAATGGCAATTATATACTTGCCATTTTTGCCCTTATTCATTCATTTTTTCTTTAACAGATTTTGATAATTTAAATTTAACAACTTTATGTGCAGGAACTTCGATTTGTTCTTGTGTTAAAGGATTCATCTTCATTTGAGCTTCTTTTTCAACTGTTTCAAATTTACCAAATTTTGCTAAAACAACATGATCACCAGCAACTAAGTTTTTGCTTGCTACAATAAATGCTTTATCAAAGATTGTTTTAATTGAAACTTTAGTCATTTCAATGAATTCAGGATCTTCATAAAGTTCGTCAAGTAACATACCTTTTGTAACTTGTGGGTAAGTTTTTTTCTTTTTACGTTTTTTAGCTGGTTTAGTTTCTGATTCAACCATAATTGGAGCAGGAACTACAACTGGTTCTGGTTCTGGTTTTGGTTCTGGTTTTGGTTCTGGTTTTGGTTCAGGCTCAACTACTGGTTCAGGTTCAGTCATCATTGGTTCTGGTTCAGTCATCATTGGTTCAGGTTCAACTACTGGTTCAGGTTCAGTCATTGGTAATTGTTCAACAACCATAACTTCTTCTTTTTTCATTGGTTGTTCTTCTGATTCAGTTTCAACAATTACATCACCTTCAGTTTTGATTGTAATGTCTACTTTAGTTGTAGAATCTTCAACTTGAATAGTTTTTACTAAGTTTTTGTAGTATAAAATGTAAAAAATTAAAGAAACAATTAGTATTAGTGGTATTCAAGTGATGAATGCAATGTTACAAAATTCATCCAATCCAGGTCCTCATTTAACCGGTTTAGCTAATGTAACACCAAAACCAGTTAAAGCTGTCATAAAGTCAGGACCAATTTTTCCTGTTCATTTACTTACATTAACTAGTTTTAAAATAAAGATGATAACAAAAGAAACAAAAAATAGGCCTAGAAATATTCTAGCTACAAGTAAGTGTTTACTTGATGGTTTTTTTGACATTTTCATATCTCTTTTTACTTCTTTCTATAGATTAAAGATTGCTATTTAATATAGCTGATCAGTACACATATATGAGTAGGTTTTGAAATGTTATTAAAAATAATACCTATAAAATAATTATATATTTTATTAATTTATGAATTTATTTAGCAGAGAAAATTTCGTAATATAGGCTTAAAATTTGATAAAACAAGCGTTCATTTGTAATAAATAAATGTGTTCTTTTAAAATTGAGCTTTTAAAAGAACAACCTTTTTTAAGCATTTAAACAAAATAAAAAATTCCTAAGATCTTTTAGATCATTAGGAATTTTTCTTATTTTATTTCTTTTTGTTTAGATTTAAAATTGGGAAAGGTTTTTGCATCATCTCGAGGCTCTTTTAACATTAATATTCCAACAAATGACAATAACGCCAGAAGAACAATTAATACTACTTGAATAATAGCTACACTTGCCTTTTTTTCTATTCCTAATAAAGGAATTGAAGAAACAATAATTAAAGAGAATGTAAAGAACATATATCCAAATCCTCAAATTAAACTAAACATTCAACCAATAGTTTTTGGATCTGCATCTTTATATTCATGTGGTAAGTTTAAAATAACTGCTTCTATTCCTCAAGTACAAAATCCTGATAAGAATCCTAAAATGTAAAATAATGCTAATCAACCTTTATAATTACCTGAAAGTGATTTATTTTCTTGACTATAATTTGTAGCCAATCCAAATTTATAAACAATAATTGAAAGTATAAATAATAAAATACCCATACCTGTAAGCGCTACAATATATCATCTTCTTTTTAAATTAAATCTTGATCATAAACCAACAATTACTGGTCCTACAGTTCCTGCAAATAAGAATAAAATTTGTCATATTCTTATCTCATTAGCTAAAGTATTAGATTCTAAACCAGAAATTCATGGAAATAATAATAAGCTTAATGATGTTGGAAATACTGCAACAACTAATCAACCACCAAAAACTAATAATCAAGCATAAGTTGATTTAGTTTTTAAGTAGCCTTTTAATATTTTAAACCCATTAACTTTAGGTTCATTTGAATCTTTTTTAACATCAAAATTAGTTCCTAAGAAAAGAACTGCAAGTAATGGTATTAAGTAAAGCAATGACATAATACCAAATACTAGTTTTCAATTATTTTGTATATTTTGAACAGCTTCACTATTTCCAGCAATTACAAATGGAACTAAAGAAACAATTGAACCTAATGGAAAGAATGCAATTGCTATTTGAGAATAAACAGGTTTTGCTTTTTTAGTAAAGAAGTTAGCAGCAACCGGTTGGAATAATATAGTTAACATAGTTCCACCAATTGCCATAACTGTTCTTAGAATTAAGAATAATACATAACCATATTTTTCACCTGGCATAAAAATTGCTGGTAATCCAAATAAAGTCATTACACAAGCAATTAATGTTGCTCTTTTATGTGCAAATTTAACTAATAAAAAAGCAACAGCAACTGAACCAATACCTCTACCAAAAGTAATTGCTCAGTTAGCAGCTGTGTTTGTTAATTGGAATGATTGATCATTTACAATTTTAAAATAACCTAAAAATCCTGGTGAAGTAACACCATCTTTAATTCCTCCACCAGCTAACCCAATAGCAAAAGCTCAGTTAGCAATAAATAATAGGTAGCCAAAACCAATAAAAGCTCATAAGATACTCCCATAAAGCATTTTATGATTTTGCGATCATTTTTCTACAGTTTTCATATACGCCCTTTCAAAATTGATCTTTTATGCTTTCTCTTGTATTTTACAATATTTAAAGACTTAGAATTTAACACAAAAACTAAATTAAGTTATTTTTGACAATTTATCATATATTTTTATATAAAAAGTAGCATAAATACATAGCAAAATAAAAAAAGCAACCATATGGTTGCTAAATTAATTTTTATAAATTTATCAAAATAATTAAATTTCAACTAATTGATTAGATTTTTCTAACATTTTAATAAATTGTTCTATTACATAATCTTTATACTTTAAATTAATATCAGAAACACAGACTTTTTTAGTTATAGTTGGAGTATTAAAATTAATAGTTATATAATCACAATCCAAACCTTTAAGTTGATCTAATAAGTTCTTTTTTATCTGTAGATCTTCTATGTTCTTTTTTATATAATTTTGATAGAAACGAACTGATTTTAAATTAGATTTATCTAAATAATTTTGAAAATATTTATCAACATCAATTATATTATTATGCATAGCAAAATCAGATATTTCATATTCTTGTCAAACATCATCATAAGTTAAAACTAATACATAAAATCTAATTAAAGCATCTATAAAAATTCATCCTAAAACATCTTTGTTTAAAATAATTTCTAAAACTCTTTTTGTAATTCTTTTTTGATAACTATTTTTAATTAACATTAAATTAAATAATGTTTTTAATTGATTGTGATTAAAAAATGGTGAGGTTTTAAATTTATTATTTTCAAAATGTATTAGCTTTTTATAAATTTTTTCTACAGTTCAATTTGAATCTAAATATTTAATTAATTCATTGATTTGACTTTTATAATTTGTTTTAATTCAAGCTAGTGTCATTTTTGTTTTCCTTTATTTAAATTAAACATAACAAAAAACAAGTTATAAAACTTGTTTTACAATAAAACTATTCCTTGTTTTTTTAACTCTTCTTTATATTGTTTTTCTCACACACTTACTTGTACTTCACCAATATGAGCTTTTTCTAATAAAAACATACTTAATCGGCTTTGACCAATTCCTCCACCAATAGTTAAAGGTAATTTATCATTAAGTACTTGATCGTGATATAAACCTAAATCAGAATCTGTTTTATTTAATATTTTAGTTTGTTCACTTAAACTTTTAGCATCAACTCTAATACCCATAGAACTAATTTCTAAAGCTTTATCATTAACTAGATCATAAAAAATTAAATCACCATTTAAATTTCAATCATCATAATCAAATGCTCTTTTTGAATGAGGTTTTTTATCTGGTAAATCATAACCAATTTTATAAATAAATACAGCTTTATATTCTCTTGCAACTTCATCTTCTCTTTGTTCAGCTGTTAAATTAGGATATTCATTATATAAATCTAAAGAATCAATAAATGTTAATTGTTTTGGTAACTTATCTACTAAATCAGGATATTTAAAATTGATTTTGTGTTCAACATATCTAATCGAGTCATAAATTTTAGTAGCAATTTGTTTTAAAAATTCAAGATTTCTTTGTTCTTTACTTATAATCAATTCTCAATCTCATTGATCAACATATAATGAGTGTTTATAATCAACAACATCATCTTTTCTAATAGCATTCATATCTGCTCAAATACCTTCACCAAAATTAAAGTTATATTTATCTAGTGCATAGCGTTTTCATTTAGCAAGTGAGTGAACTATTTCTAAGTCTTCTTTTCATTGATTAGGAGTAAATACAACTGGAATATCACCATTTAATCCATCATTAATTTTAGATTCTGAAGTTACAAAAAGTGGAGCTGAAACTCTTGTTAAGTTTAAATTTTGTTTTAATTGCTTAGTTAGACCAAATTTAATATCTTGAATAGCTTGTTGAGTTTGTTTAATACTTAGTTTAGATTTATACATAATACTCCTTTTTACATTAATAAAATTATATTATTTTAAATTTAAATATTATAAAAACATAAACTTAAACTGCATTAAATACTAATATATGACATAGATTTACAAAAGAGTTTTAATAAATATTGTTTTATAAGTTATTTATTTTTTAAAATTGGCTATTTTTTATTTTTATTTTCTAATACTAATATAGATAGGAAATAATTATGAAAACTAAAAATACTAAATACATTAGCATATATTTAGATGAAAGTGGTTCAGGAAATTCACCTTTTTTTATTGTCGGAGGATTTTATTTATTAATTTTGATAGAAAACAAATATATATTCAAGAAGTTAATATATCAAAAAACATTGAATATATTGAGTCCCAAATAAAAAAGAACAACAAAAAAACAATAGATTTAAAAAAAAGAAATCAAATTTATAAATCTAACATTTAAAAATAAAAGATTACTTTTCAGTAATATAAAGAATAATAATCAGGTTAATATTTCTATGTTATATGATTTAGTTAAATTTAAAAATGTAAATCAAAAACCCATATTAATTGATTATTTATACAATATAATGGTCTTTTTAATTCTTCAAAATATACTTTTTGATTTATTAAAACAAGATTTTATAAATTTAAAAGATGAGATTTCTATAAAAGTAAACATAGATCAAAGAAGAAACTATAAAAACTCTCTAACCAAATCTAATTCATTTAAAGAATTAAAGATGTATTTGAACACTAGGATGTATGAAAAATCTAAATTCATAAATATGAATAAAATAGAAGTTTTACAGTTTAATTCTAAGTTAGAACCAAATATTAGGTATGCAGATTATTATGTGGGATTGTTATCATCGGTAAGAAGAATTTTAAAAAATCAAGCAAAAAGTTATGATTTTAAATCAGACAAACTATTATGTTTACTAAATAATAAAATTAAACATATCGAATATAAAAATACCTTTTCTTAATATAATAAATAAATCACATTAATATATGAAAAAACACTTAAAAATGATAATATAAAAGTGTCACTTAAGACCAAAAACCCGAGGCACGTTCCTAAGCGTATGTGGATGACCACGAAATACGTTCGATTTTGGCAGCGGCGACAAGTGTTTACTTGTCTCAAAGTAAAAGAATTAATAATAAATTCTCAAAAAGCAACATCACAGACGTCTATGTTGCTTTTTGTTTTTTTATATACAAAAAAAGAACTGCTATAGCAATTCTTAATTATCGATATTTTCTAATGGATACTGCTTTTTTAAATAAAATAATAGCATTTGAATATCAGCTGGATTAACTCCAGTAATTCTTGAAGCTTGTCCAATATTTAAAGGTCTAATTTTTTCTAATTTATCTTTTGCTTCTGTTGCTAAATTATCAACTTTAGAATAATTAATATCTAAAGGAATTTTTTTACGTTCTAATTTAACTAATTTATCAACTAATTGACGCTCTTTTTTAACATAACCTTCAAATCTAATTTCAATTACTATTGATTGTAATTGATTAGTTTTTAATTTTTGTAAACTTGGGATAAATTCAATTAATTCATTAATATCAACTGTTGGAATTTTAATAATTTCATAACCACTATATCCATGAGATAAATCAGCTTGATTTTTATTTTTTAAATTTAATGCTAATTGAGATTTTGGTGTAAATCTAATTTCTTTTAATTCTTTGATAGCTTCTTCAATTTCTTTAACATAAATTAAATATTGGTTTCATTCTTGATCACTGATTAATCCAATTTCTCTTCCATATTGTTTTAATCTAGTTTCGGCATTATCATTTCTTAATAATAATCTATGTTCTGCTCTACTTGTTAATAATCTATAAGGTTCTCAAACACCTTTATTAATTAAATCATCAATCATAACACCAATATAAGCTTCGTCTCTTCTTAAAATAATTGGATCTAATCCATCTATTTTTCTAGAAGCATTAATACCAGCTATTAATCCTTGTCCAGCAGCTTCTTCATATCCACTAGTTCCATTAATTTGTCCAGCAGTAAATAAGTTTTTAACATCTTTTAATTCTAAACTAGGAGATAATTGAATTGGATCTATACAATCATATTCAATCGCATAAGCTCAATGTTTTACTCTAACATTTTCAAATCCAGGTAGTGATTTTAACATCATTTCTTGAACTTCAATAGGCATTGAAGTTGAAAATCCTTGAACATATCAAGTATCTCCATTTAAAGTTTCAGGTTCAATAAAAATTTGATGAGTATCTTTTTCTTTAAATCTGACAACTTTATCTTCAAAGCTAGGACAATATCTTGGTCCAATTGATTCAACAGTTCCTGAATACATTGCAGATTTTTCTAAATTGTCTTCAATTATTTTTTTAGTCTCTAAAGTTGAATGAATTAAATAACAAGGTTGTTGTTTTTCTATTGGAGTATAGGTATTTGTTGAAAAGCTAAAAGCTAGTTTCATATCAGTTCCTGGTTCAAGAACAGCATTACTCAAATCAACTGAATCTCTATAAACTCTAGCAGGAGTTCCGGTTTTAAATCTCATCAATTTGATTCCCAAATCAATTAGAGATTTACTTATTCCCTTAGTTGTTTTTTCATTATTAGGTCCTGATTCATATCTATCAACACCTTTTAAAATTTCAGATTTTAAATAAGTTCCAGTTGTAATGATTACTGCTTTAGCATTTAAAATAGTTTGATCATCTAAATAAATACCTGTAACAGTTTTATTTTCATCATAAACTAAACCAGTGCATGCTCTTGTAATTAAATCTAAATTTTTTTGATTTTTAATTACATTTCTCATATATTTAGAATATTCTTCTTTATCTGATTGCACTCTTAATGCTCATACACCAGGTCCTCTTGAAGAATTAAGTAATTTAGTTTGTAAAGCAGTAGCATCAGCGGCTTTGGCCATTTCTCCACCAAGTGCATCAATCTCTCTAACTACTATTCCTTTAGCAGGACCACCAACACTTGGATTACATGGCATTGTTGCAATTTTATCTTCATACAAGTTAATTAAAGCTGTTTTTTTATTTAATCTAGCACTAGCTAAAGCAGATTCAACTCCTGCATGACCTCCACCTACAACAATTACATCATAATTACTTTTCATACCAAATCACCCTTTAATCTATTCATTAATAATATTATATTTCCAATCAAATTTTAAAGCACTATATATTATTGCATAATTTATTATAATTCCACTAAAATAGAAAATAAAAAAAGTTCAACATTTGTGTTGAACTCAGGTTATTAATTAATTTTTAACTTCTACTTTATTAGTTTGTTGAGCTTCTTTTATTTCTGGTTTTGATTTCTTTTCTCTAATTATTTTTTGTTTTTCTAGTTGTTGTTTAGATAGAATTGTTGATTCTTCACCAATTAATCCTTCACTTTTTGCAACAATTGTAGTAACTACAGCTCCTGAAGTAACATTAACTCCAGTTCTTCCCATATCAAATAATCCATCTAATGAACCAACTATTGCATAAACTGGAGCAAATCAAACTCCTAAACCTAAACCAGATAAAACACCTGATGTAAGAACAGTTGCAGTTCCTGGAATTCCACTAATTCCTAAAGAAGCAATTAAGGTAATAACAAAGGCTAGTATAAAGAATGTAAATAATCCCATATTGTGAAAATCAGCATTAACTGCACCAGTTCATAATAAACTAGTAATAACTCCAGATTGAACTCCAGCACATCCCATTAATCCCATTGTTGTTGATAATGGAACGACTGTTGATACTGCCGAATCATCTATTTTAATTTCATCTTTTAATGTTTCAATACTCATTGGTAAAGTAGCATTTGAAGATTGTGTTGCAAATCCTTGAATTAAAATTTTAAATGATAATTTTCATCAAGCAATAACATTAACTTTATTTACAAATAATAAGAATGTTAAGAATAGTAATGAAATAGTTAACCCTAAATATCCTAGTCCTAAAACTTTTCCAATTGTTGCTAGTGCTCCAATTGGTTTAGAAATAACTGATGAAGCAATCATTGACATAACTGCTAAAGGCATTATTTTCATAAATGTCATTAGTATTGAAATAACAATGTTTCAAGCAACATCCATTCCTTTTCTAATAGCATCCATTTCAGCAGGTTTTTTCTTAGATAAAATTTTTACTGAATTTCCAATTAATCCTGCAATTACCATTAAAGGAATTACCATTGATCCAAGTCATGGTTGAATAAAGTTATTTGGTAAATATTCTCAAACTATTTTAGGAAGTGGTTGAGTTTCTTTTGGTGCATTTTTTACAATAGAATGATCTAAAGATAATCCAGATCCAGCACCAACTTTTATTAAATAACCCAATCAGAATGTAATTACAAATGCAAATGCAGTATTTAATAATAATAAACCTACACCTTTTAATGAAATACGTCCAACATTTTTATTACCTTTTTTTGATGTAACTCTAAAAATTGCAATAAACACAACTGGAGCTGTTAATAATAAAATACCATTAATAAAAATATTTTTTGCTAAAGAAATTCATATATCTAATTGATATACTCACAATCTAAAATCAGGGTTGATTTTTTCTATTTTTTCACCATTATTTTTAATTTCTGTTGGTAAATTCTTATTAACTAATCCATTTTGTGGAAATTTGTAAATAGCTTGAATAATAATTCCAAATACTAAACCAATTGCTAATCCAATTAAAACTCTATAAATGAATTTAAATTTAAATTTTTTAAATGTAAACCATAAACCAATTTGAATTCCGATAAATATAATAATAGCAATAGCCGCTTGTCAACTTCCAATTGCTAAGAATTTATCTAATAAAACATTAGTCTTATCTTGCATTTTTTATGTATTTCTCCTATTAATTTTTAATAAGTTTTTCTAAAGCAATGTGAATAATATCTACAACTCTAGAAAATGGTGGTGAATATGGTAAATCAACTTGAGTTAATTCTTGATTAATTTCAATTTGATTTCAAATCAATGAAATTAAGAAATTAATTCTTAATACAGATAAATTAGATCCATACATTTGAGCACCAATTAATGTATTTGTTTTTTTATTTAAAATTAGTTTTAAAGCAAGCGGCGTTGGGTTTGGATAATATGATGGATGATCAGCATCTTTAATAAAAATAGTTTTTATATCATATCCTAATTCTTTAGCTAAAGTTTCATTAACTCCAGTAGCAACTAATTCTGATTCAAATACTTTTAAAATCGCGGTTTGTAAAGTTCCAACAAATTCGCTATTAACATTTAAAATATCATCAGCTACAACTTTAGCAAATTTTCTAGCAACTGTTGCTAGTGGAGTATAAGTAATTTGGTTAGTAATTTTATGATAAACAGTAGCACAATCACCACAAGATCATATATTTTTTAAATTTGTTCTTCCATGTTTATCAACAACAATAGCTCCATTACCTAGCATTTCTAATTTTGTATCTTTTAAAAACTCAGTTGCTGGTCTAAATCCAATAGCTAAAATTATTAAATCAACTTCAATTTCTTCATTTTGATCTAAGGTTAAGCTTAATCTTTTATCTTTAGTTTGAGTTATTGATTTTAACCCATTTTCTTTAATAATTTCAACATTGTTTTTGATTAAGTTTTGCTCTAATAAATCAGTGATTTCTTGATCAAACACTCTTTGATTTAATCTACTAGTTTTTTCAATTAAAACTATTTCTTTATTAAAGTGTTCTAACATTTCACAACACTCTAAACCAATAAATCCTGAACCAATTACTGCTACTTTTTTAATATTTTTGTCTTTTAGCTTTTCTTTTAATTCAGTTGCATCTTCTAATCTTGTTAAAGTAAAAATATTTGGTAAATCAATTCCTTTAATTGGTGGAACTATAGGCTTTGCACCTGTTGAGATTACTAATTTATCATAGTCTAACTCTAGTAATTGATCATTTTTTTCATATCAAACTTTTTGATTCTCAGCATCAATTTTTTTAACAACTGATTCACTATAAACTAAAATGTCTTGTTCTATAAATTGTTCTACAGTTCTTGCTAATAAATCAGTTGGTTTTAAAGATGGATTAGCTACAAAATAAGGTAAACCACAAGCTCCTAGTGAAACGTATTTTTCTTTTTGAATAACAATTATTTGGGCTTTTTTATCAGCTTTTTTTAGTCTGCTTGCAACTGTCATTCCACTAGCTGCTCCACCTATAATTACAATTTTCATACTAGCCTTTCTTATAAAAATTGAATTAAAATTATTAAATATAAAAATAAAAATTCTCTATTTTTGCACAAATTAAAATAAGAAAAAAACTAATTTTCTTATTAAAATAATTCAAAACTAAATATTTTTTATATTAATATTATTTATAAAATAATAATTTAATCTATTTAAATTATATAATCAGAACTTAATTATTAATGCTAAGAAAGTACTATTTATGAAATCTAAAAATAAAAATAAAGCATTAATTATTGTAGATTATCAATATGATTTTTGTGATCCTAATGGTAGTTTATATGTAAAAAATGCTTATACATTAAAACCTAAAATTGAAAAATTGGCAAAAGAATTAAAGTCTCAAGGTTGAACAATTATTGCAACTAAAGATTTTCATCCAATTGATCATTGTTCTTTTAAAATTTGAAATAAACATTGTGTACAAAATACTAAAGGTAGTGAACTTTATTTTGATTATAGTGATGTTGATTTAATTATTGAAAAAGGCGTTAATAAAGATATTGAAAGCTATAGTGGCTTTTTTGATGATGCTAATAACTCAAATGGATTAGATGAATATTTAAAATCAAAAAACATAGACACTTTAAAAATAGTTGGTGTTGCTACTGAAATTTGTGTAAAAGCTAATTATGATGACGCTATTAAATTAGGTTATGATGTTGAGGTTGATTTAGAATATTGCAAAGGTTTTACTGACTAGAATTATATTGTTTTATCTTTTAATTAATTGATCAATTTTAATGTTTTGCTATGAAATCAAAAATAAATCAAATTTTTTATAGCCTAATTTTTTAATTTTTCTGATATTTTTATGATTTATAATCTCATTTTATATAATAAAAACGGAAAAAATTTATCTATTTTATAACACAAACTCTAGGAGAGAATAATGAAAAATAAACATATCAGACTACTAGCAAAACTTGGAGTTTTATTTTCTGTTGCATCACTTCCATTAGTTGTTGTTTCATGTAAAACTTCAAATTCTAATAACAATAAACCTAATAATAATCAACAAAAACAATTAAGTAAAATTGATATTTCAAGTTTTAAAGGTAAAATTGAACCAAAAAATGAGTGAAATAAAGAAAATGTTTTACAAGCATTACTAAAAATAAATGGACTAGATAAATTAACTGAAAATGATTTTGAATTTAGTATTAAGAAAGCTAATTTATTACATAATGGAAAACTAGTAATTAAATCTAAAGACGATTCTAAAATTATAAAAGGTGAACTAAGTTTAGAAATTAAAAAACTAGATAAAGTTAAAAAGGTTGAAACAAAATATAATGATAATAAAACTGAAGTTTTAGAAATTGGTTATGATGAAAATGGAAAAATTTCTAGGTTTGCTGAAACTGTTAAAAAAGTTCCTGAAAAACTACCAGAAGAAATTATTAATTTAGATGATGCTTTTAGAAAAAATCAATCTAATACAATTGAGAATCTTGATAAATGAGACACATCTAATATAGTAAGTATGTCAGCAATGTTTCAAAATGCTAAGAATTTTAGTCAAGATTTATCAAATTGAAATACAGAAAGTGTAACTGATATGAGTTATATGTTTAATGGTGCAAATAAATTCAATGGTAATTTATCAAATTGAAATACAAAAAATGTAAAAAATATGTGAAGTTTATTTGAAGATACTAAAGAATTTGACCAAGATATTTCTAACTGAGATGTAAGTAATGTTGAAAACATGAAAAGTATGTTTAAGAACGCATCAAAATTTAATAAGTCACTTTCAAATTGAAATCTAAAGAGTATAAAAACACTAGATTCTATGTTTTTTGGTGCTTCTGAATTTAATAGCGATATCTTCAAACTAGAAAATAATCTAGTAACTGATATGAGTTATATGTTTTATCAAGCTAAAAAATTTAATAAGTCTTTAGATTGAGATATATCAAAAGTAACTAATATGAATAGTATGTTCAATAACGCTCATAGTTTTAATCAAAATATAACTAATTGAAATGTTTCAAATGTTAAAACTATGAAAAGTATGTTTAGTGATGCACATTCATTTAGTCAAGATATAAAAGATTGAAAAGTTGATAAAGTAACTGATATGGAGCGTATGTTTCAAAATGCAAGAAGCTTTAATAGAAATATTTCGAATTGAAACGTAAAAAGCGTAAAAACATATGATCACTTTAGTATACACTTAAAAAATGAATATAAACCTCAATTTGGAAAAAATAAATAATCTAATTATTAAATAATATGAAATAAATAAAACCTGTAATTTTTAAAATATAATAAAAATTTAATTATTATATATTCCATTAAAACTCATTTGTTCAAACAAATGAGTTTTTTATTAGAATTTTTTTTATAAAGAATTAAGAGAGTAAATATTTAAATCTACTAATTATTAAATGATATTATACAAGTAGAAATTAAGTTAAAAGTTATGTTAGTAGAAACAAGCAAGAAAAATAAACAAGTTATCTTTAATTTAAAAAACTCAAAGTATCATTCATCATATTTCATTTATATTTGTGTCGGAATTTTATTTATATTAGGATTAATAGCTTTAATATTTTCAACACCTTATAAAAACGATTTTAAACTTTCTCAATTTTTTGAAAAAATAACAAATTATGAATTAGGTAAATGATGAGCAAGAGGAACAGAATTAATTGGAGATACCCAAGTACTTATTTATTATCTTGCATTATTTATGATAGCTATTGAGTGCTTTTTTGCTTATAAAAAACAAAATAAAAAAGTGTTCTTTATTAAGCATTACTATTTAGTAAAAATAATTTATATATTAATTTTATTTACAATTATATCAATAGCCATTTTTCGTATTTATAAAGTTTATAACTTTGATAACGGATTTGGAAAGTATGGTGATTTGGTATTTCAAGATACTATAATCTATAGACAAATACTAACTACACTTATTCTTGTTTATCAAGTTATTATTTTGAGTTTATTTTTTTATACAATACATTTTAAATTAGCAAAAAGATCTGATATTTTAACTAATAAATATTTTAGTAAGTCTATTAAAATTTTAATTATAGGTCCTTTTTTACTAACTGTTATTACTTTGATAAAAGGAATGACTTCTCGTCCTTATTATTGAAATGTAATTTTTGCAGATCTACTAAATAAAATGTCTAAAACTCATCCAGAATTTGTAACTTATTATTTAAAACAAGAAAATTTTCAACTAGGTTTTTTAGCCAGTTCATCAGATTTTAAACAATACGATTTTTTAAAACTAGTTGATATTAATCAAATTAAAAATATGTATTTTTCTAATGCAAATTCAACTGATAACTGAGCTTGATATGTATCTAATGGATTTTTTAATCCATCAAAATATACTTGTCAATTTACTTATTATCAAGAATGAGCGTTTCCATCAGGACATGCTTGTCAAACTATGGTGGTTGGTTATGCTTGATATTCGATTTTTATTGCTGATAAGAAGTTAACTACTAAAAAATTAATGTTTTGTTTTGTTTATTTATTGTTTTTAATTTCAATGAGTTTTGCTTTAGTTACTACTAGAGGGCATTGAGTTAGTGATGTTGCTTTTTCTTATGTTTTTACAATTCCTTTAATAGTTATTGTTGAAATAATTTATAAAAAATTAAGTATAAAATACTTTAAAATTTAAAATGTTTTACTGATTGATTATGAATTAAATATGTTGTTTTTTATTCTCAAATATAAACCAATAATTATTAGCAGCAAATATTTTAAAATTTGATAAATAAAAACAAAAAGTTGTATTTATAATATTTATTATGACAAATACATTACCTAAAAAAGATGCGATCAGTACTGAGTTTAAATTAAAACAACAAAAAACATTTTCTTTTAAGCCTATATTTATTAGTCTTATTATTATTTATGTTCTAGCTGTTATTAGTTTAATATTTTCAACACCTTATAAATATGATTTTAAACTTTCTCAATTTTTTGAAAAAGGTTTAAAATTTGAAATAGTTAAATACTGATCAATGTGATATGAAATAGTTGGAGATACTGAAATAATTATTGTTTATTTATCTGTAGCTATGATATTAATTGAAAGTTTTTTTAGATGAAAAACTATAAATAATCAAATTAACTTTTGATCAAAAAATAAATGAATATTAAAAGCAATTTATATCATAATAATCATTAGCTGATTAATTCAAGTTATTATAAAAAACATTAAAACATTTAATCAAGATAATGGATTTGGTAGTAGTGGTGATGCTGTTTTATTAGATAGTAATATTTATCGTAATTCAGGAAACGTATTAGTTAGTGTTATTCATACAATTTTACTAATTAGTGTATTTTATTGAATTCATTTTAAACTTGCTAGATCTAAAGATTTTTTAATTAATCAATATTGAATTGATGCTTTAAAAGTTTTAATAGTAGTATTAGTTTCAACAAGTACAGTTATTTTAAAAGGAATGACTTCAAGACCGTTTTATTATAATGTTATTTATAATGACTTATTAGAACAAGTAAAATTAAATGGAAATAATCATTGAGTTGAACATTACTTAAATCAAGATGTTTTTAAACATGGATTTTTAGATATTAAAACTAATAAATATTATAGCTAATTCAACAACCGATTGACCTTGATATGTATCTAATGGTTTTTTTAATCCATCAAAATATACTAATCAATTTAATTATTGACATGAATGAGCATTTCCGTCAGGTCATGTTGCTGCTAGTTTAGTATTAGGTTATGTTTTATACTTATTTATAACTAAAAACAATAAGATTACTTATAAGACACTAATTATACTAGGTATTTATTTATTACATTTATTTTCAATGAGTTTTGCTTTAGTTGTTAATAGGGGTCATTGAGTTAGTGATATTACTTTTTCTTATGTGTTTTATATTCCTTTAATAGTTGTTATAAATGTGTATTCTAAAAATTGAATATTAAAAATAACTGAATTTATTAATAAAAAATTAAATAGTAAAAAAGGTTGTTAAACAACCTTTTTTAATGATTATTAAATTATTAGAATGAATAAATTTATTAATTTATATATTTTATAAACAATTAGAAAACGATTATCTATTATTTTCGTTATCTACATTAAGATAATTATCATCAAAGTTATCATTGAAATTATCAATAAAACTATTTAAGGCCTCATCTAGTTCACTTATTACTTTTAATTCAGATTCAATGTGTTTAAAATGTTCTTTAAGTGAAGGTTCTAAACTATATCTAATTTTATTGGTAATATTAGGTTTTATATGAGCTAATGCTTTATTTCATTCTCCCATTGTAACAATTATTTCATTTACTAAATCAACAGACGTATTGATTTCTTTATCAATATTAATTGGTTCTTTATTTCTGATTTCATCAATGGTATCTTGCATATGTTCAACTTCTTGTTTTAGAATAATTTTTTTGTTTAAAATATCATCTATTTCAGATAGAAGTTTTCTATTTTCTTTTTCTGTTTTTTCAATTTCTTCTTCTAAATTACTTTGTGTAATCATATTTGCAGCGATTTGTTTTTTAATATCTTTTTTATCAGACTCATATTCTTGCAATAGTTTTTCAATTTCACCTTGAGTAGCTAGAAGAGATTCTTTATCTTTATTTAATTGTTCAATTTCTTTTTGTTTGTCCTTTATTTCTTTTTCTAGACTTTCTTTTGTTAAGCTAAATTCCATTTTATCAATTTTAGATTCTAATTCTTTTAGCTCTGATTCTTTTTTAGTTTTCTCCAAATTAAGTTCTTCTATTCTTTGTTTAGATAAAGATGCTTGTCTTTCTAAATCTTTAGTTCTTTGGCTTAAATCTTTTGTTTCACTAATTAGAGTTTTATGTTCTTGCTCTTTTGTTTTAAGTTCTTTTCTAATTTCTTTTTGTTTGTGTTCTTTTTTTCTAATTTCAATTTCAAACACTTTAGTTTCAATTTTTAAATTTTCTTTGTAAGAATCGGTTCTATCATATTCTAATTCAAGTACATAATCTTGATCTTTTAGACTTTTTATAGTTTTTTGTTTTTCAGCAAGTTTTTTTCTTAATCTTTCTATCTCTTTTTCAATTATATTTTTGTTTTTTTCAACTTCTTTAATCTTTTTTTCTAGTTCTTGACTAACTTTTTCTTGTTCTTGAATTTTTGAATTTAAAATACTTATTTCAGACTCTAATTGCAAACTTTCTTGCTTTTTAAAATTATTTTCATTATTAATATTTTCAATTTTTTTCTGTTTTTCTTTTAATTCATTTTGTTTTTCTAAATTATTGTTTCTTGAAGTTTTTAATTCTGATTCTAAACTACTTACTTGTTCTTTTAATCTATTTATTGTTTGTTCATTTTTAGTTATTTCAGATTTTATTTGAGTTAATTTATCTTGTTTTTCTTTTAATTGATTTTTTAAATCTTTATTTCAATCTTCACTTTTTTGACTATTTAAATTTTCAAATTCTGATTTTAATTGTTGAAGTTGAGCTTCTAAGTTGCTTATTAATTTATTATTTTCATCAATTTCATTTTGTTTTTGTTGAAGTTCATTTTTAATTCTTTCTTGTTCTGATTTAACATTAATTAGCTGACTTTCAGCAACACTAATTTTTGCTTCAATATCACTTAGTTTACTTTTTTCTGAATCAAATTGTTTTTTTAGTATTTTACTTTCTTTTTTTAAATTATCAATTTGAGAGTTCAATAAATTGATTTTTTCGTTGTATTTTTTGATATCTGATAATTTTTGATTTAAGATTAAGTATTTTCAATTACTTTTCTGAACTATTGATTCAAGTTTATATATTTCATCACTAAATGACTTTTTAACATTTTCTAATTCTGATTTTTCTTTATTTATTTTTTCATTTTTAGCAAATAGATCTTCTAATTCTTTTTCTTTTTTAAAAAATTCATTTAGTATAGTTTTAAGAAGCCTTTTATTTTCTTTTATTTGTTCTTCTAATTTTTTTATTTCATTTTCTTTTAACGAAATATTTTGGTTATCAAGTTTTATTTCACTATTAATCTTTACAAGATCAGCATCCAATTTATTTAATCTATTTTTATTTGTCTTGCCTTTATCATTAAGACTATTAATATTAGCATCTAAATTATTAATTTGATTAGTTAGTTCATTTTTTTTGTTTTCACTATCATTTAAAATTTTTTGTATATTTTTTAATTCTAGTTCTTTAGTTTTCAACTCTTTTTTTATAGATTTAATTTGATTTAGCATATTCTGTTCTTTAGTGTTATTTGAAACAGCTATGTTTTTATACCCAACATATCCAAGACCAGTAGCTGTAATAACACTAATAACTGCTAGTAAACTTGTTAGCTTTTTCATAAAACACCTCTATTCAGTTAGCTCTGATACATTACTTGAAATTGCATCATATATAATTTTTTCAAGTTTTTTGATATTATCTTTTATTTCTTTTTTAGATTGATCTAGTTTAGAGTTTAGGTCTTTAATTTCTTTGTGATTCTTATTTATTTTTTCTTGAATTGGTGTCATCTTTTTTATATATTCGTTATAGCGAACACTTAATTCTTCAGGAACTAATCATTTTTTAACAAGTTCAGAAAATGAAGATAAATCTTCTTTAAGTTCTTGATCTTTTTTAATAATTTCTGCTAGACTTTCTTTAGTAGTTTTAAAACCAAATCTAATTTGTTGTATATATTCAATTATTTTGTTTGAAGCGTTTTCTATATTAGCTTTTATTGTTGAAAGTCTTTCATGTTCTTTTTCAGCTAGATTTAAATCTCTATTTAATTGTGAAATTTTAGTTTCATACATTTCTACTTCTTTAATTAGATCCAGTATCTCATCAGCTTTTTTATCTATTTCTTCTTGTTTTTCAGTATTAGCTCTTTCTATATTTTCGTTAGTATGTTTTAGTTCTTCTATTGTTTTGTTTAAACTATCAACAACTTCTTTAACTCTTTTTAAATCATCTTTATCGTTTAACAATTCATCTTTTTTACTTGAAATTCTATTATTTATTTCTTTAATTTCATTAGATAATTGCTTTTGTTTTTCTATAAATTCATTTTGTTCTTTAGTTAAATTAGATATTTTATTTTCTAATTCTGATTTTTGTGTTTTTAACATTAACAACTCTGAATTTTTTTGTTCAAATTGTTGTTGTTTTGCTTTTAAATCTTGTTTAATAGAATTATATTTTTTAGTTAATGATTCTAAATTTCGTTCTTCTTTTTCTATAAATTTTTTATGATTTTTAAGTATTATTTTTTTAGCTGCAATTTCATTTGTTAAATCACTAATTTCACTATTTAAAACGATTCTAAAAGCAAGTAAACGTGTATACTCTCTAGAAAGTTTTTCATATTCTAGTTGTTGATTTTTTAATTGTTGTTCTTTTAATTCGTTTTCTTTTTTAATCTTTTCTAGTTCTTGTTCTAAATTAGATTTTTGAGCTTTTAATTTTTTAATATTTGCTAAATATTGTTGTTGTTCTCTTTCTAGTTTTTGGATTTCAGCATTTTTTTGTTCTATTTGTTCATTTAACTTTTGATTTTCTGATGAATTATCACTTTTATCTTTTTCAATTTTTTCTATAAATTTTTTTAGTTGATTTAGTGATTCATTAGATTGACTTAGTTTTGTGCCGGTAATTTCCAGTTGTTTATCAATATAACTTATTTCAGATTTCACATTCATTAAATCTGAATCTTTTTTCTTGTTTAAATCAGAAATTTCTGATTTAACTTGATTTATTTTGTTGTTTAAATCAGAAATTTTTTCTTCAGTTTGTTCAAGTTCAGATATTTTGTTTTCTAATTCTTTTTTATCATTATCATTTGAATTTGATAATTGTTGTAGTTGTTCATGTGTTCTTTGTAAAATTTCTGTTTTTTCTTCTATTTCTTTTTGTTTTTCACTAAAAGATTCTTTTAATGAATTAAATTGCTCTTCTAAATTTGAATAATCTTTTTTAAGTTGATCATATTCTTGAATTTTTAATTTTAAAACCAAAATTAAATGTTGCTTTTTAGCTAATTCGCTTTTTACTTTATCTATATTTTTTTGCTTATTGTTTTTATCTGTTTCTAATTTAATCAATTCAGATTCATAAGTTTTTATTTGTTCTTTAAGCTCATTAAGTTTAGTATTTGATAAAACTAACTCATCTTGAAGTTTTCTAATTTCACCATTAAAAAAAGTATGATTTGCATCATTTTTAAGTTTTTCTCTTTTAAGTTTTGCTAATTCTTGTTCTAACTTAATTTTTTGTTCTTTTTTTGCTTTTGATTCTGATTTAGAAATATTTAAATTTTTAATTAACTCGTTTATCTTGTTATTTTCTTGAGTTAATTTATTTGCTATATCGCTTTCTTGTTGTTTTAATATTTTGATTTTTTCGTTGCTATTTTTAATGATTTCAGCATCTTTAGTGTCTAAATCTTTAATTTTAGCTTCACTGTTAAGAATTTCATTTTGTAGGGTTTTTAGTTTTTCTTCTAGTTGTTTAAATTCATGCTCTTGGTTATTTATAGTTGTATCATTAGATAAATTCTTATACCCCACATAAGAAATACCAGCTGCTGAAAAAACACTAATAGCAGTAAGTAATACTATTAACTTTTTCATATAAAACCTCTAAAAATAACACTGTATAGTTTAATTTTATAATTTATGGTTTTTTTTTTTTTTTTTTATGACGACTTTACAGCCTTTTAAGGTTAAAAACTTGTATAAAAAGCCAGTTTTTTTAGTAAAATTAGTATCTTTTGTGTTTTTTTGTATTTCTAAATAAAAATAAAAAAACAATAAAACACTTATTATCAATAGTCGTATTAATTAGCTATTTTTAGAGATTTTTATTTTGCAGAGCTTGTATTATTCCTTTCTTAAAAAGAAAAATTTTTACAATAACTGTGTTTTAAAAAGATAGTTAAAATAACAAAGTAGATAATAAAAAAAGACTGGGCTTTCAGTCTTTTTAAAACAATATTTAGTTATCAATTTCAAAGAATTTATCATCAAATTTTTTGTTAAAGTCTTGGATCATTTGTTCTAGTTCTTTATCAAATTTTTCAAGGTCTTTTAGATTATTTACAATTGAGTCATAGTGTTCAACTAGTTTAGGTAAGTCACTATTTGTAATTTGCCTAGTAATTCTTTTCTTTTCTGTAATTCTAGTTGACTTATTTCAATCATTCATTAAATCAGTGATATTTTGAACTTTATATACAGAAGCATTAATACTATCAAGAATAATGTTTGATTTTTCTATGGCTGTTAGTGCTGGTTTTTCGATAAGCTCAACTTGCTTTTCTAATTCTTCTTTTTTACTTTGAATTTTTTGAATTAATTCTTCTATTTTTTTATTTTCAACATTAAGATGATTAACTTCACCAGCTAAGTTTTCTCTTGTCTTAGTTTTTTCTAATAATTTAATTCTTAAATCAGATTTGGTTGTTTCAAGTTCTTGAAGTTTTTCCTTAAGTTCTTTTTGTTTATTTTTTAATGAAGTTTGTTCTTGATGTAATTTATTTATTTTTTCATCATTCTCTAATTTCTGTTTTTCTAAGAGATTATAGTTTTTATCATAGTCAAGTGATTCTAGCTCTTTTTCTAAATTAGAAATCTCTTGTTCTTTTCTCAACTTTGTCTTTTCTAAATCTTGGATTTTTAATTTAAAAGATTCAATTTTACTTTTTAAAACTTGGATCTCTTCTGATAAATTTTTATTTTTTTCTTTTAATTCATCTAGTTCTTTTACTTTTGAGTCAAGTTTTTTTGTGACATTTTTTAAATCTGTTTTCTCATTTTTAATTGAATTAGATACATCTGATATTTTTTGTTCAATTTGAGTTTTTGTGTCATTTAAACTTTTTATTTCTTTATTAAGGTCAGAGTTTTTATTTTCTAGATTTTGAATTTCATCATTAGCTTTACTGTTTTCTTCTTTAATAGTCTTAATTTCTTGTTCTTTTGATTGTTTTTCTTGTTGTTTTACTTGGATTTTACTATCTAATTGCTTATTTAATTCTTCTTGATTTGAAATATTTCTGTTTAAATCATTAATATTAGATTCCAGATTTTGTAATTCTTGTTTTTTAGATTCGTTTTCTTCCTTAATAGTTTTAATTTGATTTTCTTTTTCTGCTATTTCAGTTTTAATTGATGAATTGTTGCTGTTAGAATTTGCTAGTTCTCTTTTTAAATTGCTAATTTTATCATTTAATTTAGAAATTGTTTTTTGATTATTAGAAATTTCTGATTCTATATTTTGTTTATCCTTTTCTTTTTTGTCTAAAATTTCTTTTAAGTTTTTTGTTCAGTTTTGTGCTTTTTGATTGTTTAATTCCTCTAATTCTGTTTTTATGTTATTTAGGTCTTTATTTTTTTGTTCTAAAATACCGTTGTTTCTTTCAACTTCTTTTTGTTTATCTGATAACTGTTTTTTAATCTCATTTTGTTTTTGTGTAGTGGTTAAAATTTTTTGTTGAGTATTATTAATTTCTTGTACTAACCCATTTTTATCACTAGTTAGTTTTTGAATATTATCTTTTATTTCATTAACTTTATTCTTAGTTTCACTTATTTTAGCTTCTAGTGATCTATTTTTTTCAGTATATTCTTTTATACTTGTTAAAATTTTTTCTAGCCTTAATTCTTCTAATTTTGTTCTTAATAAATCATTGTTGATTTTTGCTATTTCATGTTCAACTTCATGTTCTATATCTTCAATATTGTGTTTTTTGTTTATTAAATCGTTAAACTTTTCATTTAATTTTGTAGCTATATTATCTTCGTTTGTTAATTCAACTAAATTCTTATAGATTTGTTTTTCAAGTTCTTTTAGTTCTTTTTCTAATTTAGATGATTGTTCTTTATTATTATTCATTTGATCATTATTGTTTTTAATATCTTCATCTATTTTTTTAGAATCAGAATCTAATTTTGTTAATTTATCATTATTAACTATTAGTTTAGTATTTAACGAACTAATTTCTTTTTCTAAATCTTTTATTTCACTATTAAAGGAATTGATTTTAGTTATTCTTAAATTAAAATTATTTTCTATGTTTTTAGCTGCTTTTTGTTTTTGTTCTAATTGTTTTTTTAAAGTATTTAGTTTCTTTGTTATGTCATCTTCTCTAGTATCTCTTTTAACAGCAATATTTTTTAAACTAACATAAGCAAAACCAGTTGAAGTAAAGACACTAACAGTTGCTAAAAGTACTGATAACTTTTTCATAAAATCATCTCCATCCAATAGTTTTAACTTGTTATTTCTTGTATTTTTTGATTAATTTCTTTAACGATATTATCTAGTGAAGTGCTGTTATCTTTTAGTTTTTGAGTTATTTGTTTTATAGCGGTTTGTTTAGGTTCAATTTCATTTTGAAATCCAATTAAAAATAAATAATATTTTTCAAAATTTTTATCATCTTCTTTTGGATTTAGTCATTGTTCTATATATTGTATGTATTTATCACTTGATTCTTTAAGGGTTTTAATTTCTTTATTTAATTCAGAAAAATCACTTTTAATATTTTTTAAAATAGTTTTAATATTTTTAATTAAGATTTGTACACTTTCATATGCACTATCTATTTTTTTCTTCTTGTCTACTAGTTTTTCATTTTTAGCTTTTTCTTGTTTTAGTTCTTTTTTTAGAGTAAGAATTTGAGCATCTAATAACTCGATTTGGGATGCTAAATTATCAAATTCTTTTTGTTTATTTTTAACGTCAAGTTGTAATTTAAAGTTTTCACTATCTGAAGCTTTAATTTCTGATTTTAGTTTTTTTAATTCTTTATTTTGATGATCAACTGAACCTTTTAATCAATCTAATCTATCTTTTTTAGTTTTTTTATCACTATTTATATTAGAAATTTTAGAATCAAGATCATTTATTTCTTTATTTAACGCATCTCGTTTTTCATTTAATTCACTTGATTGATCAGTTAATTTTTTAACTTCTTTTTCTAGTTGTTGTTTTTGTGAATTTAAGGAAGATAATTCATTAGTTTTTCTAGTGATTTCTTGTTGATTTTGATCTAGAGTTTGTTTAATTGAATTGTATTGTCTTTCTAAGGTTGACAAATTATTTTGTTGAGATTCAATTATTTGTTTTAAACTGTTAACTAATTTTTCTTTACTAGTTTTTGTTTTATTTAATTCATCAATTTGAGAAGCTAAGTCAGTTTTTTCAACTTTTAATCTTTTTATTCTTTTATCTAAAGTTTCTAAGTCTTTTTCTAATTTTTTAATTTGTTCTTGTTTTTGTTGTTCTTGTTTTTTAGCTTTATCTAATTTAGCTTCAAGTTCTTGTTTTTGTTGTTTTGAATTTTTAATAGAATCTAAATAACTTTCTTTTTGAGTTGTTAGTTGTTTTAATTCATTTTTCTTTTTTTCTAGTTGTTCATTTAATGTATTATTTTCAGATGTTGAGTTTTGTTTTTGTTTTTCAAGTTCTTGTATTTGTTGAGTTAATAAACTAATTTGAGAATTAGTTTGATCTAATTGAGTTTGAAGATCTTTTATTTGATTTTCTTTATTTCTAATTTCTGAATTAACTTTGTCAATATCAGTTTGTTTTTCTTTTTTTAATTCAGAAATTTTAGTTTTAATAGTTTGGATTTGATCTTTAGTTTCTTTAATTTGTTTATTTATATTTACTAATTTATTATTATTTTTGCTAAGTTCATCTGTGCTTTTGTTAAGTTCCTCTAACAAATTAGCTAACTCAGTTTGTTTTTCTTTTAAAACAACTTTTTGTTGATTTAGTTCAACTTGTTTTTGAGTTTTAGAATCATTTAATGTATTAGTTTGTTTATTAAGTTCTAATAGTTCTTTTTCTAATTTCTTATAATGACTTATTTTAGTTTTTAATTTAAATATAAGTAAATAGTCTTTATTAATTTGGTTTTTTAGTGTAGCTATTTCTTGTTGTTTTTTATCTTTATTTTTAATAAGTTGGTCAAGTTCTTTTTTTAGAGATTCAATGTCAGTTATAGTAGTGTTAATTTCATTATTCTTTTTAGCTAGTTCAGATTCTTTATTTTTAATTTCTTTAATAAAGTAATCTTTTAGTTCATCTTTATGTTCTTTAGTTTTTTTAAGATTTTTTAATTCAGATTCAGATTTAATTTTTAGATCATTTTTAGTTTTTGACTCTAATTTTAGATTAGTTAAATCTCTTGTTAATTTACTAATCATTTGTTTTTGATCAGAATCTTTTTTAATAAGTTCTTTTTGTTTTTGTTTTAACTCATTAAATTTATCTTTACTACTAATAAAATTCTTTTCATCTTCTAAAAGTAAAACTTTTAATTGGTTTTCTTTAGTATTAATATCATCACTAACACTTTTTAATTGCTTTTCAAGTTCTTTAACTTCGTTTTGATGTGTATTTAAAAAGCTTCTTTGATTATGAATATTTTTATATACAACATATGAAAAACCTGCTGCTGAAAACACACTAATAGCAGCAAGTAATGCCACTAATTTTTTCATAATAACCTCTAAATTAACGTTACATTCTAATTTAATTTTATTACTTTTAGTTTTTTATGAAAAAAAGGTATTGTAATTTCCTAAAAATTTAAATAAAATAATTATTTATAGTTTTTATAAAATACGTCTTTGTTTTTAAAATAAGTAAGAAAAAAACTAGCAAAATTGCTAATTTTAATTAAAGAAAATATGTATTTAATAGTTATTTATCATAATGTTCTAAACAGTGTGTGTATCAAAAATATATTGACATTATATATATATATATATATATATAATGTGTCTTACCAAAAGATAAACAACCAATTGTAAAGGACATTATATGAAAAAATTACTAACAATATTAGGATCTGTTGGGCTAATGGCTACAACTAGTGCTGCAGTAATTGCTTGTGGTGATAGAGCACCAAATATAAAACAAAAAGAAGAAAAGACAAAACCTTCTGAGGCACCTAAAAATGAAGAGTCTAAAAAGGAAGAAAAGAAACAAGAAGAATTTCAACCTAAATTTTCAGATGTTGAAAATAAAACTCTAGGTAATTTTGAACCAAACAATAAGAACACAATATCTCAAGGAGATATCAAAAAAGAGTTGGCTAAGAAATTGAATGTAAATGAATCTGATTTACAAGAATTAAAAACTAACTCATCATCAAATGGAATTGGTTTTGGTTCAGTAAGATCTAAAACCTTTGTTGGTGCTTTAGAATTTAAATTTGAAATAGAAGAAAATAAATAAAAATATATTAAAGTCTCTAGTGATTATGTTTTTATAAAATCCTAGAGATTTTTATTAATATTTAATTCCACATATTACTTAATAGTAATTTATCATAATGTTCCAAATAAGCATTTACCAGGGATACACTTGACATTATATATATATATATATATAATGATTATTGATACGAAAAATATATGTGTATTTCTATGAATACACCACAAAAAGGAAATAATAATATGAAAAAATTACTAACAATATTAGGATCTGTTGGGCTAATGGCTACAACTAGTGCTGCAGTAATTGCTTGTGGTGATAAAACTCAACAAAAAACTCCTGACAAAAAAGAAGAAAATAAACCAGCCGAGGAAAAGAAAGAAGAAAAAACTGAAGAACCTAAAAAAGAAGAAGAAAAGAAAGAAGAAACTAAACAACCTAATTTTTCAAGTGTTGAAAACCAGGTTTTTAGTAACTTTGAACCTGATGAAAATAATATAATTCCTCAAGCAAAAATAAAAGAAGAGTTAGCTAAAAAATTGGATGTTAGTAAACCTGAATTACAAGAATTAAAAGTTGATTATGAAAAGAAAACTGGAAGTGTATTCCTTCCAAAACACAATAAAACATTAAACTTTAAATTTAGTACTTATCTTGAATTAGGTGAATTACAAGCAGAAAAGAAAAATAATTTTTCTGTAGTATCTCAAACAAAAATAAAAGAAGAGTTAGCTAAAAAATTAAAAACTGATTCAAGTAAATTACAAGAATTAAAAGTAGATTATGAAAAAAATACTGGTACTGTTAAGGGACCAAAATCTTCTAATCCTATAGAATTTAGATTTTCAGTAAAAGAAGCAAAATAATAGTAAAATCTCTAGTTTCACAGCTTAGAGATTTTTTTATATCTACTTTTGATATTTACACATATATTTAGTTATATATTTATTTTTTATTTTTTTTATTATAAATAATATGACTTTAAACAATTGAATTACAAAAAAACACAATAAATCTAGTCTTGATATCCTACAAAAAATTTTTATTTTTTTCTTTAATCTTAAAGTGTTATTAAAATTACAAAATAACTCAACTCAACCTACCCTAAGAATACACTTGACATTATATATATATATATATATATAATGGTTATTGATAGGGAAAATATATGTGTATTTCTATGAATACACCACAAAAAGGAAATAATATGAAAAAATTACTAACAATATTGGGATCTGTTGGACTAGTTGCAACAACTAGTGCTGCAGTAATTGCTTGTGGTGATAAAACTTCACAAAAAACTCCTGACAAAAAAGAAGAAAAAAAATCTGCTGATTCTAAAAAGGAAGAAAAAGAAAAGACTGAAGAAGAATCTAAAAAAGAAAAAGAGGAAGAAAAGAAAGAAATAGATAGCAAAAGTCCTAAAAAAGATTTAGACTTAGGTGTTTTAGCAAAAGACGAAAATAGATATAATAGTGTCTCTCAGTCTGAAATTAAGAAAAAACTAGCTAAACTATTACAAACAGAAGAATCTAGTCTTACAGACTTAAAAGTTGAATATGGAGAAGAAAGTGGAAAGGGAACAGTTAGATCTCCAAAACATGCAGATCCAGTAAAATTTACTTTTGTTACTGTACTTGATTTAGGTAACGTTCCAACAACTAAAAACAAAGATAAAGAATATGTATCAAATGGAAAGATAAAAGAAGAATTAGCTAAGAAATTAGAATTAAATCAAGGGGATTTATATAATCTGCATGTTGACTCTTCTAATGCTAATTCAGGAACTGGAACAGTTAAATCTTCAAAATTCTCTGGTACTATAAGTTTCAAATTCACAATAAAAGAACAAAAGAATAAATAATAATTCGTCAGTCTCTAATTCTTATTAAAAGATTTAGAGATTTTTTATTTACCTTTACAATTGTTAATTAATATTTCAATTTATTTTGTTGCAAAACCTTTTTTTAAATTGATTTAAATCAATATCTTTTTGAGTAACATTTTTATAAAGTCTTTTTAGATAATCAAACTTACTGTTTGGATCACTAAAATCTAAAGAGGTTCTAATAACATTTTCTAAAATTTCAGGATATGGAATTTTTTCATATAAAGAAATAATCTTTTTAAATAATCTAATATTTTTACTTATATTATGGATTTTTTTGAGTAATTATTAAATATAACTTCTAATCCTTATTTGTATATCTATTAAAATTAACTACATAATCAAATCTTCTAATAAGCTCTTTATTTAAATAATCATATAAATTAAAGTATAATTTCTTTATTTAAATTATCTAGACATTGTAAAACTGTTGAAATTACTATTCCCATTTCTCTTAGATCATTACTATTAGTTCTATCTAAAAAGCTAATGCAACTATTTCATCAAATAAAATAATTGGTTTTTAGGTTGAAATAATTTATTAATCTCATCAAATAATTAAATTATATTGATTTAAATAATAATCAACTCAATCGTTATGTTTATCTAATCTAAGCTGTTCTAATAAATCACCATAAAGAATATTGTAATAATAAGGTCTAGATCTCATTTTTTTTAATAAAACTATAAAACAATTATATTAAATAACATAAAAACTACTAATTCAGTAGTACCTAAAATACCATAAAATATTCATCAGTATCTAACTATTTATTTTTTTAAAAAATATAGTTAATTTAAGATCAATAGAAAAAAAGAAAGAATTAAATAAAAAACCAATAATTTTGTCCTACTCTTTTATAATTACTGGTTTTTTTTATTTTTAATTTTAAATTGGTTATTTATAATTAATTTTTTCTAATATTTGTCTTTATTATATTAAAAACTTATTTTTTAAATATTTAATTTAGCTACATAATTTATGATTTTTTGTTCAAAAAAAGTAGTGTTGTGTGGAGCTTTGGTTTGTGTTCTTATTCATAAAATAACTATATAATTTACAAATATTTTATTTAATAATAGTTTATGTTCATCATAGTTTTTATATAAATCTAAAAACACTTTTTCACACTCACTAGACATATTTGAAGTTTCAATTAAATAAGCTAATTCAAAATGTTTATCTCCCATTGTTGCATATTCTCAATCAACAAAATAAATTTTATTTTCAGTTTGAATCATATTAAAAGGAAATAAATCATTATGTAAAGGAGTATTAAATTCCATACTATCTAAAATATCATCAATTAAACTAGCATATTTACTTATAACTTCAACACTAGTATTTAACTCACTCATTTTAGTTTTATAATATTCAACTCTTTGTTTTAAATTATTATCTGGAAACTTTAAATTAGAACTATGTATTTGTTTAATTTGATTTGCTATTAAATTAATATTATTTAAATCAATTATAGGTTCAACTCCATCAATATATTCTCAAATGATTTCTTTTTGATTATTACTAATAAGTTTTGGAACAAAATCAAAGTTTTTTAAAAGCTCATAATTGATTTGATGATTAAAGTTGTTATAGTTTTTAATCTGTAAAAAAGTGTTATCTATACGATAAGAAACATTAGTTCCACCTTTAGTTATTTTAATTTTCATTAGTATTCAATCTCTCAAATATTATTTATTAAATATTTTGCTTTATTTCTAATATTTTTATTATGTTCGTGTTTACAAATATAAGAGTTATCATAAAACATTTCAAACATAGAAAGATCATTATAATCATCACCAGCAACAATAATATCATCACTAGAAATGTTTAATTTTTCTTGTAAACCTTTAATCGCTTGACCTTTACTTACATTAAATGCATGAATTTCATTAAACAACTTATTATTAATATTATTAAAAGTAATATTGACTTCTAATTTATTTTTATTAATAAAGTTTTCAATTTGATCTCAAGTATTTTGACTACATTCAATTTTTAAACATAATAAATCTTTATCGTATAAATAATCTAATGTTTTATTTAAATTTTCAAGACCAAAAAAGAATTTTTCTACATCAGTTGATCAATTTTTATGAAATAAAAATGATTCATTATCACTTGTAGCAAACACGATTACATCAATCTGATCAACTATAGTTTTTAAAAAATCTAATAACTGAATTTTAATATTTTTATCAATTGTTTTTTTATAAAAAACTTCACCTTGATTATCACAAACCAAAGCTCCGGTATTAACAATAAAATAATCAGGTAATAAATTATACTCATCTAGTAAATGTTCTTTTAATTGTTTATATGGTCTTCCTGTTGAAACTATTAATTTATTATTTTTTTGAAATTCTTTTACAAAATCTAAATCTTTTTGATCAATTTTTAAACTATTTTTAACTTTTGAGTTTCTTAACGTATTATCAAAATCTGAAAATAAATATTTCATACTAGCACCTACAATATTATCTTAATTTATTTATATTCTTTTAAATACAAAAAAAGAGAGTTTTAACTCTCTTAAATTATTTTAAATTCATTCTTTCCATTTGACGTAAACGTCTTTGGCGTTCTTGATTACCAGCTTTTCTTTTCTTCTCATTATATAAATAAAAAGCATAAGTTTGAATAATTTGTAATACTGAAGAAAAAATTCAATAAATACATACTCCTGTTGCAACTGAAACAATAATGATAATAAATACAAACATCATTACAACTTGCATTATTAATTGTTTTTTTCTTGATTTTTTCTGTGCTTCAGTTAGAGTAATTGATTTTTGTTTTTTCATCTGTAGTAATGTTGGTAATAACATTGAAACAGCTTGTAAAGGTAAGTAAATTGCAAGAATAATAATATATATGTAGTTTCCTGATGTAATTTGTTGTCATGGCCCTTCAATTAAAGCGATTGGACCAACTGCTGCTATTTTTAGTGCTCTTGTTGATCTAACTATTGCATAAATAGCAAATAAGAAAGGTAGGGGAGCAAATGAGCCAGCTAGTGCAGAAAACTGTGACATATTTTCTTTTTTATATAAAGCTTGGATTTCTAATTGCTGTTTTTGTTTAGATTGCATATCCTTTTTATCTTTATATTTTGCTTGAATATCAGCAATCTTTAATTGTATGTCTTGCATTTTTTCTTGGTTAATTTGTGATTTTCAACCAAATGATAATGTAATTCCTTTAATTAATAAAGTTGTTAAGAATATTGCAAAAATAGCTGAAATTCCATAACTTAATTGAGAAGATTTATCTAATAAGGGATTTAGTGTTCCAGAAAATAATCTAACCATTCCAGCTAAAACTCAAGCTGTTGGATAAACGAAAAATCCATAAAACGGTGATTGAGTTAATTTAAAAGTTTCTTTTCAAGAAGTAATAGCATTATATCCATATTCAAAATAATTACCCTTATCATAAACAAAATGATGGACCTTAGATCCTTTTTCACCTAAAGAGCTTAGAATAATTTCAAATGAAACCCCAGGAGCATAAACACTTTTACCTGTCATATCAACTATTTGATTAACACTATATTGAGCTTGATACATCTGTACACAACCTCAAAGCATTGAAACTAAAATAAATAAAAACCCAAACACTTTTAATCATTTAATTACTAATTTAATAGTTTCTTTTTTAGTTTTAGGAGCTTTTTTATTTTTTGAAGCATTTAGATAACTCATAACTTTATATGACTGTTTGTACAAAATAATCCCTCCTTTCTTTATTTAATCTCTTTTATTAATTTAATTAATGATTTAGATAATGTTGCATATTTAAGTTCTAAAACACTTTTTCTAACTAGAATAATAACATCTTTTGAAATAGTTCCAACTTCATTAATGTTTTGTCTTAATATCATTCTAATTTGTCTTTTTACTTTATTTCTAACTACAGCATTACCTATTTTTTTCCCAACACTAATACCATACCTTAGATATGATTGATCGTTATCTTTATAGTAAATAACAAAACAAAAATTCTTAACAGTTTTTTTGTAATTAATTATTTCTTGAAACTCAAAATTTTTCTTAATTACTCTTTTGTTTTTCATAAATTATTAAGCAGATAATCTAACTCTACCTTTAGCTCTACGAGCTTTAATTACTTTTCTACCATTTTCAGTAGCCATTCTTGCTCTAAAACCATGAACACGTGCATGTTTTAGTTTTGATGGTTGTCAAGTTCTTTTCATACCACTACCTCCTTTACAAAAAAATAAATAATTCACACCTAATTATATAATATTTTGCTTTAAAAATACACTTATAAACTTAATTTTTAGCTTCTCAATTAAATGTAGATAAAAGCACAAATTACTAACAGAAATATTAGTTAATTGTTGATAAGTTGATAACTATAAAATAACACCATTAAAATAAGATTTTAGAATTTGTTAATTTGTTAATATATCTATGTTATAAGGATTTTTTCCACGTTTTCCACATTTTTAACAAGTGTTTAACTATAATATTTTTGGAGACAAAT