##gff-version 3
sequence01	MetaGeneAnnotator	misc_feature	1	551	.	+	.	ID=MGA_1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010869973.1:50S ribosomal protein L32e,WP_010869973.1 50S ribosomal protein L32e (Methanocaldococcus jannaschii DSM 2661) [pid:49.1%25%2C q_cov:63.7%25%2C s_cov:79.5%25%2C Eval:5.0e-28%2C partial hit],MGA_1;locus_tag=LOCUS_0010
sequence01	MetaGeneAnnotator	CDS	558	1001	.	+	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNLKIKKKLAARVFGVGQHRLKINSKESDKLEDAITRGSIRSLKKDGIITLPKKQGISLGRQRIKKKKTKRGRTQGSKEGAKFSRVTKKRRWIIKVRAQRKRLKIFKDRQEISNASFWQLYKMSSSGDIRSIKHLNELISKHKGED;locus_tag=LOCUS_0020;note=MGA_2
sequence01	MetaGeneAnnotator	CDS	1004	1483	.	+	0	ID=MGA_3;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875664.1;translation=MVTGTYIPIFRRRRTGKTDYSKRKSMLISKSIILCIRISNKHSTFQFIEPKIQGDLVKSGSHSSQLKKLGWNGSGKNLSGLYLTGYLAGKKAKSVGVNDAILYIGRQEFQSGQKLIYGLKGVIDAGVNIPASEDIFSNLEKFKTDTLQKIVEQIDLQYG;locus_tag=LOCUS_0030;note=WP_010875664.1 50S ribosomal protein L18 (Methanothermobacter thermautotrophicus str. Delta H) [pid:38.4%25%2C q_cov:91.8%25%2C s_cov:76.0%25%2C Eval:5.0e-25],MGA_3
sequence01	MetaGeneAnnotator	CDS	1483	2202	.	+	0	ID=MGA_4;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763044.1;translation=MTMDKQKTSNKTDDKGKSAGNNKTIGGRPAGRKRTYERKPIVVPPWAPRTRLGTLVQSGSVQSLDTIFQNGWKIKEYEIVNKLIPDIKSFVVHIGVVQKQTDAGESTRFKSVVAIGDENGWFGVGTGKKPQMKDAIDSATQNALLNIIPVKLGCGSWECRCGTNHSIPYRTIGRGGSVKIELIPGPKGLGLVAGETIRNLLALAGIKDVWSKSFGSTSTMPSVANAIYDSIRQLHGMSV;locus_tag=LOCUS_0040;note=WP_011763044.1 30S ribosomal protein S5 (Pyrobaculum islandicum DSM 4184) [pid:48.9%25%2C q_cov:79.5%25%2C s_cov:94.1%25%2C Eval:1.9e-51],MGA_4
sequence01	MetaGeneAnnotator	CDS	2212	2676	.	+	0	ID=MGA_5;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879397.1;translation=MSAFIVVNLRGTINQSHHIKKTLEHLHLETRFRATIIPDNEIYRGMLQVVKNHVAWIDADPSVIESLITNRGEKTNSIKYDSDFAQKDGFKDIAELSHALTDNKIKISSVSNLKPSFRLSSPKGGFRKSIRRMHSQGGSLGYNPDLSKLILNMI;locus_tag=LOCUS_0050;note=WP_010879397.1 50S ribosomal protein L30 (Archaeoglobus fulgidus DSM 4304) [pid:34.9%25%2C q_cov:97.4%25%2C s_cov:98.7%25%2C Eval:1.5e-20],MGA_5
sequence01	MetaGeneAnnotator	CDS	2694	3098	.	+	0	ID=MGA_6;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875667.1;translation=MGTRNRKIRRLRGSRSHGWGQVKGHRSHPGGRGNAGLMKYKWSWTVKYDPDHFKKPSLNPPNRIIIKKWINVGDLDGLFSNYQKDSPIDLEKLGYEKLLGSGFVKGSYDILIDSFTKQAKLKLEKAGGKIVVRS;locus_tag=LOCUS_0060;note=WP_010875667.1 50S ribosomal protein L15 (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.0%25%2C q_cov:96.3%25%2C s_cov:96.6%25%2C Eval:1.8e-18],MGA_6
sequence01	MetaGeneAnnotator	CDS	3101	4513	.	+	0	ID=MGA_7;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867440.1;translation=MGVITQFVRQIASILPEVEKPKQKSSLTNRLLWTALALTIYLVMAQIPLYGVASGMQDQLSYTAIIFASSQGTLMALGIGPIVTAGLILQLLKGAEIVKLNFDKPDDRALFSAGTKILALIVTFAEAVAFMIGGSFGLDLSFSTSAVIIIQLMISGLTVILLDELIQKGWGLGSGISLFIAAGVAQLIFWNMFSLIPAGQSYFGVIPHVVTTLLSGSPESMFMRPGGLPSVLTLLLTLIVIALIVYAEGIRIEIPITSTKYRGFQGTYPIKLLYVSVLPVILTGALLANITFFSQIVWSRFNAANANTFLNLFAQYNTADPSAGPIGGFAYYVSPPRGIEVLSVEPLRAISYMLFYVVMCTIFARVWVEIGGLGSKSVAKKLLGANVQVPGFRRSEASVEILLERYIPVITIIGGILMGILASGADILGIFGGGTGILLMVSIFINYYQILMRERLESMMPGLASFLGKD;locus_tag=LOCUS_0070;note=WP_010867440.1 preprotein translocase subunit SecY (Pyrococcus abyssi GE5) [pid:38.8%25%2C q_cov:96.0%25%2C s_cov:96.4%25%2C Eval:1.7e-91],MGA_7
sequence01	MetaGeneAnnotator	CDS	4520	5101	.	+	0	ID=MGA_8;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846302.1;translation=MAQTKRVVIVGIPGVGKTTVVTEVFSILEKKNLKIENLTFGTIMFQEAKKLGISNRDEMRTLSTDKQQELQIKAAQFIANINSDVILLDTHLFVKNTSGYMPGLHMSILKSLVPTNLILVEALPEDILSRRENDPTRNRDTVTIESIELDNQIARSMLSSVGVLTGASLFIVTNADGKSQEAAQFIVNSLEFD;locus_tag=LOCUS_0080;note=WP_052846302.1 adenylate kinase (Sulfolobus tokodaii str. 7) [pid:39.7%25%2C q_cov:94.8%25%2C s_cov:97.4%25%2C Eval:2.7e-30],MGA_8
sequence01	MetaGeneAnnotator	CDS	5114	5671	.	+	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGIILSGMPAVGKTTVAHSLCKEFNIKYCSGGDLLKEIAKEKGFEVSGLDWWDTDNGMKFLSNRMNDSSFDKLVDQRLTNLLNVGNVVLTSYTLPWLTSNGISIWLDASKDNRILRLCSRDNISLIQSKKIIDARDIKNKQIYEKLYGMKLGEDLSVFDIIIDTNDMDINQVCRNVINSVNESL;locus_tag=LOCUS_0090;note=MGA_9
sequence01	MetaGeneAnnotator	CDS	5658	6659	.	+	0	ID=MGA_10;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869643.1;translation=MNHFKLNNTEQIIIDEEPDILDSGSYPDKRQISDLIDNCIIFVDKQSGPTSHQVVSWIKSMLNQSKAGHSGTLDPMVTGLLPISLGNATKALQILLYGPKEYIAVIRLHNSVNKSKLYDCLKQFTGPIYQRPPQRSAVKRQTRIRNIYEIEVLDDTSRLLCLRVLCEAGTYIRKLVYDIGEIMQCGATMIELRRTRVMHIDEENNFVRLHELNDAIHRFKTQNDETRFRQLVHPIELIVKPLKSITVRCSAIDSLCHGAQLAIPGILKLSKNISLNENISILSQKGELVALAESLMTTDDILNNEKGIACKTKRVIMKIGTYPKLWTKHDTKD;locus_tag=LOCUS_0100;note=WP_010869643.1 tRNA pseudouridine(55) synthase TruB (Methanocaldococcus jannaschii DSM 2661) [pid:45.2%25%2C q_cov:97.3%25%2C s_cov:96.4%25%2C Eval:5.6e-77],MGA_10
sequence01	MetaGeneAnnotator	CDS	6818	7102	.	-	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKGRLVNLLEASLIGFELIYIDKKKKLTKLYKDNESISYNVSISIDSTNKISKLEIVQIKWGKNNKSEIIYLDNYPDEIKRNLDIDIKKITEI;locus_tag=LOCUS_0110;note=MGA_11
sequence01	MetaGeneAnnotator	CDS	7228	8298	.	+	0	ID=MGA_12;product=pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943293.1;translation=MSHMIQCITKDGEIARDISIDLSEAELIKAYQTMVLTRTLDTKMVALQRQGRIGFYLSSYGEEACSVGSALGVSNNDWFFPAYREQGAMLLKGVSLNFMISHLRGSAEDEHKGRCLPGLFGCSSKRFVAPSAPVGTQISHAVGTAFASKILEDKVATIVYFGDGATSSNDFHAGLNFAGVYKTPTVFFCKNNQWAISTNVSNQTASDGIAIKAKAYGFDGVVVDGNDVLAIYMVTKSAMEKARDGKGPTLIEAKTYRLSPHSTSDDGSRYQNQTEYKEWLLKDPIARFRKYLENSGIWNREIEQEIQQKTERQINEAINNAESSPMPSLDTLITDVYSEVPDSLNKDFQDFKNNKN;locus_tag=LOCUS_0120;gene=bkdA;note=WP_010943293.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Geobacter sulfurreducens PCA) [pid:43.3%25%2C q_cov:90.7%25%2C s_cov:89.2%25%2C Eval:1.9e-70],MGA_12
sequence01	MetaGeneAnnotator	CDS	8300	8794	.	-	0	ID=MGA_13;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKYLIILIFFLLIINIPHSESHIIGGSNIEVNGILFQFLTDPTFVVEDEDFYFSFSVQNASTKKGLEDIQVKITIYEDNGNVFDIINDIEEIEGDFSIKYNFVNDGIYNVNVEIKNDFIGSLNTEFKLLVANKSILEDSSFILAVLITVIILVLMIRNRIVKK;locus_tag=LOCUS_0130;note=MGA_13
sequence01	MetaGeneAnnotator	CDS	8882	10159	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIEVVFFSIGIITIIGYIASNIFDRTGIPDIPFLILLGIVGSLFFTIGTEGLDFIAPYLAALAIAVILFNGGMYLKIRQVIEDTPRGFFVTSVSVLITITTLTVVGYSINLFVLGSPWGTGREAIFASLFFGAALCGTSSAVIIPLVSKINVSKKAETFLTIESAFTDVFVVVLSVTLLNILSGSNLPDNPGAATTFLQGIAGKFSIGIVFGILGGLIWLKILQSFPTRIGRITSQQDVVHDDILTLTTCLMLYGFSEMSGGNGALAALCFGLVLGNGKEFGFIPSFRTNPVDAGSLMRKFQGQISFLLTTFFFVYLGMIFQAQLIIVILGIFITALLIGARNLSFRLTLKNDKPMMKDIRLLSSMLPRGLAAAAVSQLPTAFGFNWPYMQDLVVSVIIFSVAAAAIGSFVYGKSNEVEANVES;locus_tag=LOCUS_0140;note=WP_013529248.1 K+/H+ antiporter (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:23.2%25%2C q_cov:83.1%25%2C s_cov:52.3%25%2C Eval:1.5e-14%2C partial hit],MGA_14
sequence01	MetaGeneAnnotator	CDS	10179	10919	.	-	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEDVTNELKNSFKLSLYEAKTYQSLLEGIQTVKSISRDSGVPLPRIYDTLNSLENKGFVKKINKKYIPVEPEMALEGRIIQTKYELDNKLRAQRKVKKEIISVLKRKPSLINEDEQFEILIGLQNIGNKFLEIIKYSKKVTISVKKAFEVKELFLSFLSNTKGKNKIIIFTPNSYKISKTDKILLKNANVVLKKRAYILLDLMVSDKGDVMIGVPDASGIPERTIAIWIKNKEFAQSLMSSLTE;locus_tag=LOCUS_0150;note=MGA_15
sequence01	MetaGeneAnnotator	CDS	11037	12323	.	+	0	ID=MGA_16;product=DNA methyltransferase C1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545124.1;translation=MSITKSRLAEPISRITTENSWSFNNLTQKDTNYLTHCYHRYPAKFIPQLARRLILENSGKNEIICDPFYGSGSTILESILHNRIGLGADINPIAYLITMTKTTPLHPSKISHTISSLHHTLKNSKNLNHCEIPYELSRWFDQNTYDNLNNLLYEIEQIKPKKLRLFFLCAFSHILKSSSYWNNGSIKPHKDKTKFLNKINDPIFRYFSHLKKMEIRNEQLGNLLSPKIIENLDYYRRIHLGDLKNLSFHNQCSLIVTSPPYVVSYEYRDIHSLSLSFLKDFFKIIPSKQNFIGSSLRKTDYTKINSYTAGIITDSLSEHNKSLSKTVSTYFLDMQGFFDKAFDLLKPKGRLALVIGNTKLRGVDISNTRVFDEILSTIGFTEHQIIKREIPFKSLPSTRDPKTGRFVSATNKHNKCYSHEYIMIYSKN;locus_tag=LOCUS_0160;note=WP_012545124.1 DNA methyltransferase C1 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:26.7%25%2C q_cov:95.1%25%2C s_cov:75.4%25%2C Eval:2.8e-21],MGA_16
sequence01	MetaGeneAnnotator	CDS	12525	12878	.	+	0	ID=MGA_17;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTRAVCILADIGDVTVVPILSEILKNDKTPLVRHEAAFTLGQLGFSQSLDFLIDAMLHDVDSVVRHESAVALGSIGDESAREALIKALDDKDQLVVHSAFSSLLNLDYLKNHNKEN;locus_tag=LOCUS_0170;note=MGA_17
sequence01	MetaGeneAnnotator	CDS	12930	14015	.	+	0	ID=MGA_18;product=histidinol-phosphate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877195.1;translation=MKIRKFLKDFVPYSWEPSDLEIANSIDKNPEDIIRFDTNVSHKTPSRWLKELITKFDNIEINRYPDSSYISVRKLLAEYCSCDVDEIILTNGADEGLFMAGSLFIEPSSNVILSTPTYSYYEKMIQILGGKTLEVPRNLDFSDNFEEISNSIDDMTNMIILCNPNNPTGNIVDKKILQNLLDINDVPVVVDEAYFEYTGNTVIDLINSYDNLIVIRTFSKAFGLAGLRVGYIVSSKSTTSLLNKVRPPNSVGTLSVNLSKIALQNIDWVNDNIKEILSEKKSFIERISKLDNVTIIPSSSNFMLIKFTNKDGLTVYKELLTKGIVVRDVSEIIGLQDYIRINIGLKDENNKLIQAIEEISK;locus_tag=LOCUS_0180;EC_number=2.6.1.9;note=WP_010877195.1 histidinol-phosphate aminotransferase (Methanothermobacter thermautotrophicus str. Delta H) [pid:30.3%25%2C q_cov:99.4%25%2C s_cov:97.3%25%2C Eval:1.6e-51],MGA_18
sequence01	MetaGeneAnnotator	CDS	14028	14981	.	+	0	ID=MGA_19;product=delta(1)-pyrroline-2-carboxylate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q81HB0;translation=MVLLLTHNDVSSLLTMDDNIKTIEQSFIELSKKKVKMTDRGVVIVEEKNGWYGVMTAHMSNMKSLGTKIVTVFPQNTNLNIPTTQGIISLTDVDTGELTCIMDGSLITGMRTGAVTGVATKYLSKKNSNSVGIFGSGYQSRFQLLAICSVRDISKIEITSPSVDKKNEFIKTLEEELNVPIIIEHNIEKLLNNDIIVTATTSPSPLFDGNLVNPGTHINCIGAHTKQSTEVDSITINRSTVIVDELQTAIREAGGLSENNIFAELADIIIGHKTGRQNDNDITLFKSMGLSIEDISTANMIYNLAVEQGIGNIVNLS;locus_tag=LOCUS_0190;EC_number=1.5.1.49;note=Q81HB0 delta(1)-pyrroline-2-carboxylate reductase (Bacillus cereus ATCC 14579) [pid:33.5%25%2C q_cov:98.1%25%2C s_cov:98.8%25%2C Eval:2.8e-46],MGA_19
sequence01	MetaGeneAnnotator	CDS	14982	15434	.	-	0	ID=MGA_20;product=DNA mismatch repair protein MutT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980328.1;translation=MNQVYPEPTVGALIINNRNEILLVKSHKWINGKYSVPGGHIELGESFEDAIIREIKEETGLDIIPKRLFMIQECVNSKEFFKRKHFIFFDYICISKNISVKLDNNELQEYTWLNIQEINEDDLEPYTKNIIIKFKKDSNLDSKEIYFMKK;locus_tag=LOCUS_0200;note=WP_010980328.1 DNA mismatch repair protein MutT (Sulfolobus tokodaii str. 7) [pid:34.1%25%2C q_cov:86.7%25%2C s_cov:85.6%25%2C Eval:2.6e-14],MGA_20
sequence01	MetaGeneAnnotator	CDS	15522	16286	.	+	0	ID=MGA_21;product=beta-ketoacyl-ACP reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262536.1;translation=MNELTRKVVIITGSTKGIGQSIAKIFSQKGANVVVTSRNLNLAQNIVKELSSYGTDPIAIKTDVTSDEDVLNLIKNVQDYYGKIDILINNAGFPLTKEYWDSSFESITLQDYQSVLDVDLIGSIRCCKAVLPSMRQSMSGNILNISSTPAIAGHDKGAPYTIAKAGILGLTKHLALEYGKYNIRVNSLALGNIRSSATFDHFDNKTQEKLANETSLKRWGETDEVAKTCFAIISDDFSFVNGQTIVVDGGNVLI;locus_tag=LOCUS_0210;gene=fabG;note=WP_002262536.1 beta-ketoacyl-ACP reductase (Streptococcus mutans UA159) [pid:37.5%25%2C q_cov:97.6%25%2C s_cov:98.0%25%2C Eval:1.8e-39],MGA_21
sequence01	MetaGeneAnnotator	CDS	16294	16746	.	-	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSIGSIAIRKQFTDINETKKLQKEVSGYNKQLRSAIMKKDKPLEAKLKKKEPQMKQLQAKLARDSLKPTFIFLVPLMLIWIFLLPQILGSDWYNIPAASSPISMNLILFSTEEVTLESGKTFAYGVTTFFWYLICSISFQGIVMKLMKM;locus_tag=LOCUS_0220;note=MGA_22
sequence01	MetaGeneAnnotator	CDS	16706	16867	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCFLIAIDPIDTNIANPITKKVISGIVFINAPSDSYELKNFFFYDFHTIFES;locus_tag=LOCUS_0230;note=MGA_23
sequence01	MetaGeneAnnotator	CDS	16867	17166	.	+	0	ID=MGA_24;product=twin-arginine translocase TatA/TatE family subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066499.1;translation=MAIGGMEWVWIVLVAGIFLVGTDKIPELARNLGKAIGQFQKSKSDFEREVKSYSDFETTAPSKSLSKFELQKSAAALGIDSTTKTEDQLREAIKRKLDS;locus_tag=LOCUS_0240;note=WP_048066499.1 twin-arginine translocase TatA/TatE family subunit (Methanosarcina acetivorans C2A) [pid:40.2%25%2C q_cov:92.9%25%2C s_cov:87.1%25%2C Eval:5.7e-12],MGA_24
sequence01	MetaGeneAnnotator	CDS	17283	18083	.	-	0	ID=MGA_25;product=Sec-independent protein translocase protein TatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67305;translation=MNKVKTRPIIEHVGELRNRLMRIVLSILICTFGIFIFSTRNIVINETDLTIPYPDIYNNIASQIIIALQEIVLPEYVKVILTTPGQALSAQIHIALIFGIIVSIPLILWEIIGFIKPGLYDNEIKLLRKLLIPATLLFLIGGLFSLFIMVPLTMEFLYKYGVSLQAETYITINEFVSFITFFVLAFGIAFQLPIIMWLTTKLGFIKNTFWKKNWRYTFVILVILGAIITPDASGITMWLITIPMMTLYVIGYIVSRNTTSKRTIKT;locus_tag=LOCUS_0250;gene=tatC;note=O67305 Sec-independent protein translocase protein TatC (Aquifex aeolicus VF5) [pid:32.6%25%2C q_cov:95.9%25%2C s_cov:97.1%25%2C Eval:1.3e-30],MGA_25
sequence01	MetaGeneAnnotator	CDS	18162	19163	.	+	0	ID=MGA_26;product=ketol-acid reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496863.1;translation=MAQVWHDKDINLDQLKNETISVIGYGIQGAAQASNLKDSGLNIIVGVRKGGSSWQQALDDGHKVMEISEAADKSDIIHILIPDMEQPKLYEEQIKPYLKEGNAIGFSHGLVINYGWIKPPEWIDIIMIAPKAPGRRVRELYLENFGTPALIAVQQDFTNNALDRALSIAKGLGCARAGLLQTTFKEEVETDLFGEQADLCGGVACLIQNSFETLVERGYQPEVAYFECLHELKLIVDLVQQYGLKGMYERVSETARYGGLTRGNRVIGDSSRHEMEEILNEIQSGKFADEWRNIYNKEGKKSFDKYLDQIASHQIEFTGKKLRDMMWPNKLNE;locus_tag=LOCUS_0260;note=WP_064496863.1 ketol-acid reductoisomerase (Methanocaldococcus jannaschii DSM 2661) [pid:58.2%25%2C q_cov:97.6%25%2C s_cov:98.2%25%2C Eval:1.7e-105],MGA_26
sequence01	MetaGeneAnnotator	CDS	19273	19752	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLELIFWTLMILPLIVFPIFFLILPPIFDAASIRLGQTDSIQAINVFFTALIDPIKGMQYGEVLAKEVSIPLGLPFIILNFILVSIFLWENETDKTTISKYPLFKQLKEVTSGTKEQAGIISLIPVIRDVKIAKFLNPVFSPLEKIHHKIFHDENEDNN;locus_tag=LOCUS_0270;note=MGA_27
sequence01	MetaGeneAnnotator	CDS	19753	20517	.	-	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867130.1;translation=MNMLDIMYRMHNFRTIKEDTEYVKLVDKNRIIIILNDEMIYYDNIEKIEKSDRYIFLSKHVSQSKKPTLTAHFLGNPSSESPYGGENMQIAATCPNLLKNYIINLDKQKKNLFNYEISLEATHHGPTNISKPCLFVEIGSQIEQWKDINASNIVIKTIIKSIENETNANKVGFGLGGPHYSKKFTEFLINTEYSIAGYISRHYIKYFNQKLLDQILDKCEQEIKYGVIDKKGLGKEKQRIINLLKENKLEIIYI;locus_tag=LOCUS_0280;note=WP_010867130.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:32.6%25%2C q_cov:87.4%25%2C s_cov:83.1%25%2C Eval:4.2e-28],MGA_28
sequence01	MetaGeneAnnotator	CDS	20632	20817	.	+	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGIIDFIKSMFHTLKLAKRSDRKEFLLYVKLTIVGISVVGTIGYIIQMIGSLFRLTGGQV;locus_tag=LOCUS_0290;note=MGA_29
sequence01	MetaGeneAnnotator	CDS	20825	21319	.	+	0	ID=MGA_30;product=transcription elongation factor Spt5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869871.1;translation=MSTSIQSRFFAVKTTGGQEKNVAKFVGTRLDNRQQTGDFSIKFDIHSIVVIDSLKGYVFFEAPNAQVVSDAISGFKHVKNLIPGIVPYDDIQKFFITHSIVTDISINDIVEVTSGPFKNMKAKITRVEPSRSEVTILLLDAPYQLPITIDVDGLRIIEKSKDEN;locus_tag=LOCUS_0300;note=WP_010869871.1 transcription elongation factor Spt5 (Methanocaldococcus jannaschii DSM 2661) [pid:37.3%25%2C q_cov:93.3%25%2C s_cov:98.6%25%2C Eval:1.8e-25],MGA_30
sequence01	MetaGeneAnnotator	CDS	21321	21800	.	+	0	ID=MGA_31;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869872.1;translation=MGEEKIISALIAGGQANAGPPLGPSLAPMGLNVMAIVKEINEKTKEYPGMRVPVKIIVQVENKTFNVEVGIPTSSALLAKESGIEKGSGVPNSEKVGNVTMEQLIKIANVKIEQSYASSIKSAVKELIGSCVSMGITVENKEPKEFLIEINNGKWDKSF;locus_tag=LOCUS_0310;note=WP_010869872.1 50S ribosomal protein L11 (Methanocaldococcus jannaschii DSM 2661) [pid:53.2%25%2C q_cov:98.1%25%2C s_cov:96.9%25%2C Eval:4.3e-45],MGA_31
sequence01	MetaGeneAnnotator	CDS	21865	22518	.	+	0	ID=MGA_32;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250368.1;translation=MVKSQSILETVKKARSAATKRKFKQSFELIINLKDIDIKKNQINLNETIFLPHPPQNKSKVCVIASGDLSLRAKSDADHVLETDKIDGMSDDKRLARKIAYSYDFFLAETTAMPKIGKVLGKFLGPKGRMPLPITIDTQIENMINKYKTAIRIRGRTLSLSTKLGDEDMEDEKIVENALLIINTVVSKLPNNEKNLKDFVVKLSMSPPISISIQEAS;locus_tag=LOCUS_0320;note=WP_011250368.1 50S ribosomal protein L1 (Thermococcus kodakarensis KOD1) [pid:34.8%25%2C q_cov:95.4%25%2C s_cov:96.8%25%2C Eval:1.5e-33],MGA_32
sequence01	MetaGeneAnnotator	CDS	22518	23369	.	+	0	ID=MGA_33;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742658.1;translation=MPTKKSKYPQWKVDTINELTELMKSNKTTAFCNLYKVRATQLMKLRKNFRNDMTIRVVKNTLSKLAIANSNIANSEQLIDSVSKQKAFIFTNMDPFKLFLSLEKGKVDLPARNGDVASDTIIIPSGNTGMQPGPDLTAFKAFNIPTRIDAGSIFVSEDTAVAQKGDIIKSSLAALLSKLDIKPIKAGITIDLASMDNLIYNSQDVIIDIDEYCSNLIQSFNSALNLAVDQEYFSNETIPLLLADAFNKSKNLSIESEYITKDNISLILAKKQQDAKTLSNLIV;locus_tag=LOCUS_0330;note=WP_084742658.1 50S ribosomal protein L10 (Sulfolobus tokodaii str. 7) [pid:30.4%25%2C q_cov:98.9%25%2C s_cov:83.5%25%2C Eval:7.2e-35],MGA_33
sequence01	MetaGeneAnnotator	CDS	23393	23665	.	-	0	ID=MGA_34;product=50S ribosomal protein P1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870009.1;translation=MHKLEQKIDENTVKKVIASTGAKPDEVKIKALVSALGEVDIEDALKNSTATVVAAAPAASSAEAKTEAKEEKVEEKKDEEAMEGLASLFG;locus_tag=LOCUS_0340;note=WP_010870009.1 50S ribosomal protein P1 (Methanocaldococcus jannaschii DSM 2661) [pid:31.2%25%2C q_cov:100.0%25%2C s_cov:91.2%25%2C Eval:4.3e-07],MGA_34
sequence01	MetaGeneAnnotator	CDS	23832	26558	.	+	0	ID=MGA_35;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870068.1;translation=MNKDILRKKFSSDYLNYYNVNLFENEGFSRKQCPSCGNFFWTADDSRSNCPEQPCEQYGFIDNSPTSKKLDYAECWKVIEEYFVKHGHKSVNRYPVVARWRPDLYFTIASIVDFQRIEGGKVTFELPENPLIVPQMCLRFNDIENVGVSGKHFTSFVMIGQHCIANETGYWKNECIDLDYGLLTDVFGIPKKEIIFKEDVWVGYGSFGSSLEYYVKGLELGNAVFTEFDGDPSSYKIMNEKIIDMGAGLERFSWLTQGTPTAYEAVFGNVIDRMIDKCNITYDKDFFRDYSKFSGMLNLDEVSDMEKTRKQVADKLGITKEVFVDKITPFESMFAVLDHVKTLIFAISDGALPSNVGGGYNLRVLLRRSLSKIYSQKWNVTLGEIADWHIDYLSQIYPELKEHRTEILKILMVEEQRYNNTQERIKKIVSNIQQENKRIDEEKLIKLYDSDGITPEFIKDQGLPIEIPANFYAKVTERHLLHQAEKIKRNLDVDDLPATRTLFYENQELNEFDGRVLKVFHESEYSLVVLDQTAFYARAGGQEPDAGVLDKYDVLDVEKYGHIILHKIIKSDIKEGSILKGKINEQRRRILTNHHTATHVMLGAAKRALGSWIWQASAFKDVDKARLDITHFEHLSLKQIEKIEQLANEAIRQNLPVHKLVLDRGEAETKYGFSIYQGGIAPGKTVRIQDIETWDVEACAGTHVSRTGEIGLIKIIKNERIQDGVERLEYVAGETAIEYIQKQNELLISMSNHLSVPVNKISKTLNNLLQDNEKIKRNSKSMIKNRLSDIICDRLINSSMKIGDVSLSIIDWNEVDEDFHILIGEYCINKFDNFIYIGIINKPPNSRFLIFCGDKINKKYKASDLARQISKLSGGSGGGNERFAQGGSSKISDNQTIINTIKSIINQK;locus_tag=LOCUS_0350;EC_number=6.1.1.7;note=WP_010870068.1 alanine--tRNA ligase (Methanocaldococcus jannaschii DSM 2661) [pid:37.6%25%2C q_cov:95.7%25%2C s_cov:97.3%25%2C Eval:2.8e-168],MGA_35
sequence01	MetaGeneAnnotator	CDS	26568	29453	.	+	0	ID=MGA_36;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021621.1;translation=MTINWSDIEQKWRKKWIDSSFHNTDIDLDKKKFFLTVAYPYPNSPQHIGHGRTYTLTDVYARYKRMLGFNVLFPMAFHYTGTPILAMTKRLVENDPELISAFHDVYKIPLSKIKELDEPIKIAQYFHNEIKQGMIEMGYSIDWRREFTTIDKEYSKFIEWQFKKLNSGGFITRGSHPVGWCPKDGNPVGQHDTLGDVEPEIGEYTVIKFNFDDSKLVTATLRPETIFGVTNIWVNPDIEYVKISINDEKWIVSKDSMFKFEHLLLNNSTPEAISGVSLIGKWVENPFTEMKIQLLPASFVDPKNGTGLVMSVPSHAPYDYQAIVDFKQDKNLINKYPDIDTNILSPIDVIKVEKYPNTPAQQLVSNLNIKNQDDSRLVDATKELYTLEFNTGKMLGIAGDYSGLSVKHAKEKVKTDLTQSGLASKLHEILNSPVMCRCGTECIIKMFENQWFIDYGNPDWKKDAHSSINSMSVIPSEIKVEFHNTIDWLHEKACARGSGMGTVLPWDPNWIIESLSDSVIYMAYYTISRLIKEHNLNPSNLTDEFFDYVFLGIGTLEPVSEQTKIDKLLLDELRNEFSYFYPLDSRHSGRDLVPNHLTFFIFNHSAIFPNNLWPKQIVVNGSVLMDGKKMSKSSGNIIPLRQAVKTYGADPIRLGIMSAAELLQDADFSLELVKSFNERLNRMYNLANEIKSTSEYDVNQADSIEKWMISKLQRTIKATTDSMDKLRVRDALHHIVYLLDIDLQWYNRRTRLPIEDKNSFLKYFLETRIKLLTPFAPHFCEEIWELLGHENSITHQNWPTVDENLIDEVAELSEELIKSTIEDINNILKVTKIQTQKIYLYTSASWKWKIYLSALKQDNLKLKELIETSLNNPDYSAFKQHIPKFCQTLFKELSSVNVDTKSKLLRVGPIPEIEILKELEYFYKIDNDIEVHIYSEEDSNIHDPKNRSNYSRPIRPAIFLE;locus_tag=LOCUS_0360;gene=leuS;EC_number=6.1.1.4;note=WP_011021621.1 leucine--tRNA ligase (Methanosarcina acetivorans C2A) [pid:43.1%25%2C q_cov:99.4%25%2C s_cov:99.2%25%2C Eval:4.4e-236],MGA_36
sequence01	MetaGeneAnnotator	CDS	29473	30141	.	-	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAFNFVIIAFFMGIKHAFDADHILVVANILSKSKKLKESLNISLNWGIGHITTTGIMTILIFYNINSNPVRILLENFEVIIPTTLIVMGIISLTVGIPLQHKHQHEHKDGTKHEHIHAHRIGGLLSNKLSPHHTSFGVGIIHGLASNDELFIILVLGLGIGSITVLMSALLLFSLGVVLGMIVFSLILIQTVSSVTKNMKLILNYVIGFSSIIYGLYLFFI;locus_tag=LOCUS_0370;note=MGA_37
sequence01	MetaGeneAnnotator	CDS	30286	31191	.	-	0	ID=MGA_38;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RK51;translation=MLNDLSETTPKARLDIYYPISSKNRVEQEGTYHDYNRLNNLTGKEWIKFQKSWFIINPKPRQKNVLLHPAKFPEELIENFIRFFTKENQTVLDPMMGTGSAIIASMNTNRSAIGIELSEKYTDITVERIQEIMQKEKSKNLDKQENIKLYNCDARLLDKLDISDIDYCITSPPYWNMLHSKGFETQKNRKKNNYDIYYSKDNKDVGNIDDYKKFINELTDIYYKVYKVMKKGGYLTIIVKNIKKGGKIYPLAWDLTRKLDFFTLKDEKIWCQDNVKLAPYGYGYSWVSNTVHNYCLIFKKE;locus_tag=LOCUS_0380;EC_number=2.1.1.-;note=Q2RK51 methyltransferase (Moorella thermoacetica ATCC 39073) [pid:28.2%25%2C q_cov:88.4%25%2C s_cov:97.9%25%2C Eval:3.1e-23],MGA_38
sequence01	MetaGeneAnnotator	CDS	31275	32036	.	-	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLYFNKSPVLMSIRIYTFVIGLMIRDIFLRTFFAQILRFFRLKNIKESYNSRAIKITEKQAIMAARMIALITMIIIMYAVRHYAGLNNLNIVVPGILIGLGISQQMEGTALETITDHMRDCLGTWNTVLYVFAKRKRGKHWKEIVEETEMLWAHPQIRPISGFEESLRRIEGKLSEEKIMKHINKDREELNYYVQVEDNNASKFQFADHALVRMRNIRDKHDTLFDIQQRIGTWTYAIYLGVGTIIWLIQPF;locus_tag=LOCUS_0390;note=MGA_39
sequence01	MetaGeneAnnotator	CDS	32148	32750	.	+	0	ID=MGA_40;product=threonylcarbamoyl-AMP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015966.1;translation=MQQFTSSRLDILKIAKIVNNGGIIAYPTDTVYGLGCDPYNSEAVEKIFQIKVREKKPLPLLCYSLNHACEIAYFDPISIKLAKEFWPGPLTIITPVKNHLLKSLTCNSDFIGLRVPDNDITLSLILECGGYLVGTSANISGYESNHFAPSVISQLKNIDAILIDDLRNKSAESTVVQIKNQNIEILRKGSIDSQSIQNIS;locus_tag=LOCUS_0400;note=WP_011015966.1 threonylcarbamoyl-AMP synthase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:35.9%25%2C q_cov:93.0%25%2C s_cov:88.5%25%2C Eval:8.2e-25],MGA_40
sequence01	MetaGeneAnnotator	CDS	32745	33791	.	-	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNNKLESIFKGITATTLADVFIDRIIKIPDLDSLIRQAKEKSIVGGGSIRGIKQHEMVGGNATNIAYSLVKFGSNVNLFVIGDEFTKRILELRFKEFNNISIKIIQGKPGFTVALETEYEKGVNIMISDIGGIEEFDGKYIRENYEKSISQSDIVIISNWASNTKGNELVENIFTISKNSIKLLDFADLSDSTNRLDELINNLKNNRIIDMISLNENECRILARFLGIKNINSVYTIEEIKRLALEISSTLNVLVDIHTPLGSCSSIDKEIQFVKSFPVKPKMLTGAGDIWNAVNILAFKKKLSVYHRLNIANAAAASYISEFNNGDFSLTKVEELLQSRGISIDSL;locus_tag=LOCUS_0410;note=MGA_41
sequence01	MetaGeneAnnotator	CDS	34004	34378	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFCFIIMDKPISEKQNDILKQIFQLQKDYTSMLKLDRYPDSKDKRIDVLCTAIIHETIELQRLTSWKWWKKPTPFDTNMAKEELIDIWHFVVQASLELGLTPQDILDEYKRKNYINRQREKIGY;locus_tag=LOCUS_0420;note=MGA_42
sequence01	MetaGeneAnnotator	CDS	34437	35876	.	+	0	ID=MGA_43;product=aspartate ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941147.1;translation=MGKSFRIETDSLGRKKVPSSAYYGVQTQRAIENFPISGILHSSEFLDSYLIIKKTAAKTNMKLKLLDKKFALAIIKSADEILSGKFRDQFVVDVFQMGAGTSFNMNCNEVLANRSNQLLNHKLGEYNPIKPNDHVNMSQSTNDTFPTAIRLSILFTLPALENELKLLSVSFLSKSKQFNKILKAARTHLQDAVPITLGQEFNAYSYTIAKCLKDIQYNKKQLYVLGIGGSAVGTGINTHPKYSKQIVHELSVETGLSLKQSNNLIESMQSQKDIADISSSFRNLSLELTRISNDLRLMSSGPRTGLSEISLPAVAPGSSIMPGKVNPSMLEMMNMVCFHVIGCDTGIALATQAGQLELNVMMPMISYNILFSIKILTNAIRQLRKFCIDDITANELVCRKYAEESIGIATILNKYIGYENASKIAQKSSRSDKNIIDIIRSENILTENQLEKILDINSLTHSGNPKFIINKNNKLGENI;locus_tag=LOCUS_0430;gene=aspA;note=WP_010941147.1 aspartate ammonia-lyase (Geobacter sulfurreducens PCA) [pid:50.9%25%2C q_cov:96.5%25%2C s_cov:99.8%25%2C Eval:1.3e-126],MGA_43
sequence01	MetaGeneAnnotator	CDS	35873	37309	.	+	0	ID=MGA_44;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97I33;translation=MKKSNFDSYKSTFSWRYGSEEMRSLFSEKTKRTKWRKIWYELASSQYEYGLLTKSELNDIKKFSSSNNININRSLAHEKNIRHDLMSEIKTFANQAKTGGGKIHLGATSMDIEDNADILIMREALIIILEKTVNCLALLSEKIKSYNKTVCMGWTHIQPAEPTTLGYRFSFYAQDLLMDIKNIEFILENFVIGKGIKGAVGTSASYHRLLGKNTQKLENNIMKKLNIKYFLISSQTYPRKVDFLVLSALSSLAQSLHKFSIDFRILQSPPFGEFKEPRKKQQVGSSAMPFKRNPMMSERISSLTRYASSFLSVAHSNASNSILERTLDDSANRRIIIPETFLALDECLMLYSKILSGMEISKININKNLDAYGPFTLLEPIMMDLSKQGKNRQNLHEEFRKISLQAWDQIELGNPNPLFKLISKNKNLSDFDIDIKNLSDYSKYVGTAPERALILRKSISSVLRKYKNRNKRTSEPKY;locus_tag=LOCUS_0440;gene=purB;EC_number=4.3.2.2;note=Q97I33 adenylosuccinate lyase (Clostridium acetobutylicum ATCC 824) [pid:41.2%25%2C q_cov:92.7%25%2C s_cov:93.3%25%2C Eval:1.3e-86],MGA_44
sequence01	MetaGeneAnnotator	CDS	37327	37893	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903531.1;translation=MKLHLEKNAIRAMGVAECSTRNAKKSTLCAIVMRSDLVIDGCNFGECTIGGNDITKNISLLYKRMKRTDINFIMILGSIMSSYNVVNLNALYNSLDLPIISLSLKLPKNLEMNFKNKFPTSWQRKTKVYSQNGKALKITTKTGHFVYVNISGLSLFETKSVLNKFLLQGSIPEPIRIAKLFARAKTIN;locus_tag=LOCUS_0450;note=WP_010903531.1 hypothetical protein (Halobacterium salinarum NRC-1) [pid:30.0%25%2C q_cov:94.7%25%2C s_cov:96.7%25%2C Eval:2.9e-18],MGA_45
sequence01	MetaGeneAnnotator	CDS	37899	38300	.	-	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITGLAYFQFIYMPLVNKEIEVPEEWENPPEKTTIEIAIGSVEREQEDNFLPKEITVILGKNNAIIWTNLDGIIHTVTAEIGKEFIKSTGNSNFIDPEGEFEFIFLAAGEYTYYCAPHPWMRGTITVLEPEA;locus_tag=LOCUS_0460;note=MGA_46
sequence01	MetaGeneAnnotator	CDS	38469	39254	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEENTSTDKPDDNQISRPDDGSSSESSNTSTDVKSDSSSGVTKPDDSQTVDSTEKSTEPKSKERRNFLKVIAVAGGILGLTPFIPYGSFFTATLGGTEPTRQRIMTVEGFFANVNDMKPDSAIVFPYPRTGDSEKDAEPFRRYQLIRLASDAGGDANNESSFRIYSMVCVHLWCLWDYIEGREIEVDGEKLSGNIECPCHGSNYDPRTGLAHRGPAVLQSKPNNALPTLPIEVDENGDIWVLPPDNALDKNGVVGLGRYV;locus_tag=LOCUS_0470;note=MGA_47
sequence01	MetaGeneAnnotator	CDS	39238	40686	.	+	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVTSKKQSLISKFWDYIVDRLNRTVFLGMKFTMPKKFLSPMGYSGMLTFCLFLLLGVTGAFLMLFYVPGIENAFDSVEYIDEEIPYGFAMRNLHYHGSNAMVFMAVLHLYYQYFSGRYKIKNEMIWVTGVILGVITILEAFTGYNLLFNDRAELAVSIGVSLTVFSPIIGPQLAQMIWGQGFSDFLIRLYALHVFIIPIVMGILMFVHFPRFMVLDIPMWAVMVGIIFITGGVFPVEMGTKFDPNHPPGITVPEWYLTGLYAFIRTGFDKFITGGLLPALLIAMFLFAPFIDHSRKITWKDRPFLTALGVASITQIFVTTVWGFYVDPDVTKDLTQRLFIEPIPYYSAMLISVALSFVVVYGFLKARSVLAGPKLPLKKQRPIILNTTWTYIIMLALVGFEVLLNGMALMAYQGGLWALALFETGAILIIFGIIAHVYRSYNPKVIAAEEAAKAAKEESANEESATEAEVAVPTITNSKTD;locus_tag=LOCUS_0480;note=P0C8M7 cytochrome b6 (Thermosynechococcus elongatus BP-1) [pid:34.7%25%2C q_cov:34.2%25%2C s_cov:77.7%25%2C Eval:8.3e-25%2C partial hit],MGA_48
sequence01	MetaGeneAnnotator	CDS	40688	41704	.	-	0	ID=MGA_49;product=methionine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250397.1;translation=MKKFPIATQEIGSIRKPRWLVKLLQDKNLSDDIKEAGRSFVALMNLKLFEGLGLDIVYDGEARRVEMYEYSIRRIEGLKFAGKIRSWDNKYYNKGRCIKKVQYKGPYHVDEFLFVKEHTSKMIKLPITGAYTLADWSYNESYKSKEDFTIDLAKKVIRPLIRDLVKTGVDFIQIDEPAATTHPDEMELVVKSFNESIKGINAKFGIHICYSEDYSNMYPEVLEMKNHQYELEFANRDSWNKGINHSNRKGYESFLKTVREYGEKKEIGLGVLDVHVDEIESPELVRDRILYAVKITDNPNLIHVNPDCGLRTRTREISFAKLKNMVTGAEMAKRKLEL;locus_tag=LOCUS_0490;note=WP_011250397.1 methionine synthase (Thermococcus kodakarensis KOD1) [pid:40.8%25%2C q_cov:97.9%25%2C s_cov:94.3%25%2C Eval:4.3e-64],MGA_49
sequence01	MetaGeneAnnotator	CDS	41701	42639	.	-	0	ID=MGA_50;product=methylcobamide--CoM methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584103.1;translation=MINSWVTGIYPRNKSLIESTRIYDKNLKEQFKKEKIKLLRLQNENKFDYISDPLIDWDDNIRPFTDNLKGIESGALTRYYENNTFYRQPIIINKISTSGKILKDNLCFNLFSKKSKIKLDILDPFTFYDLSSNEFYKSENEVINAYADIIKKELNSIKRNVKLIQFNAPSLARVKEKDQLDSIKKAMEKITKELDVKTCLNLWGSDISNTFEEFQEFPVDIIGIDFTSSKIDRFDKTDIKKGLACGLIDAKNTKMEKTSGVIRELKNIKELFNPQSLAIIPSWDFEFIPESFAIKKMNIMKQIKEKSKVIKL;locus_tag=LOCUS_0500;note=WP_012584103.1 methylcobamide--CoM methyltransferase (Dictyoglomus turgidum DSM 6724) [pid:26.0%25%2C q_cov:93.9%25%2C s_cov:92.9%25%2C Eval:1.3e-24],MGA_50
sequence01	MetaGeneAnnotator	CDS	42691	43242	.	-	0	ID=MGA_51;product=inosine-5-monophosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867433.1;translation=MFEIDDIVKLRKQLGLTQTELANLSGVSQSLITKMEAKKVEPAYSKVKVLIETLQKQERKDSRTAKNIASKTVKGIQKKLTLKDAVKKIREKNISQLPVFDGDKIVGSLSEKTILHVLSESGSPNEAFAKKVSDVMDSSFPTVDAETPIELLYQILEFFDAVIVTKQAKTVGIVTRSDLFKIK;locus_tag=LOCUS_0510;note=WP_010867433.1 inosine-5-monophosphate dehydrogenase (Pyrococcus abyssi GE5) [pid:38.2%25%2C q_cov:96.7%25%2C s_cov:90.6%25%2C Eval:5.7e-27],MGA_51
sequence01	MetaGeneAnnotator	CDS	43322	43999	.	+	0	ID=MGA_52;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762125.1;translation=MKALILAGGQGKRLRPLTDNKPKPMINISNKPILEWQIMWLKSHNIREIILCTGYMSENIIEYIANGEKFGVEIVYSKEEKPLGTGGALKNSEFLLKDHSSFLVMNGDIMTNMNPDSLIHNLDNSLVGTISVVALRSPFGEVEIQDDGYVSSFKEKPILDNHWINAGVYCLSSEVFSYLSNIGSLESDVFPLLAKQKKLRAIKQSNIKWRSIDNHKDIEEANNEF;locus_tag=LOCUS_0520;note=WP_011762125.1 nucleotidyltransferase (Pyrobaculum islandicum DSM 4184) [pid:48.4%25%2C q_cov:100.0%25%2C s_cov:98.2%25%2C Eval:7.8e-57],MGA_52
sequence01	MetaGeneAnnotator	CDS	44009	45364	.	-	0	ID=MGA_53;product=UDP-N-acetyl-D-mannosaminuronic acid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762251.1;translation=MNNNIMNQKDIQELTRNIKSGDKKLAIYGIGFVGTAIASTWLRAGASVIVVDKKKKLISEIREKKITNTEPKAKETFIEGLSNKKLTATSDGKWASKNSDIKIVSVPVGLSKREADLRFLYSAIGDIISGLKKDDVIIVTPTVPIGTSTKIIRLIEQEKKLKVEKDFFFVYSPERISAGQAIADIENNYPPIISGAGKKSISIASKMFELISSKKPITISTIETAEAEKLIEGLYRDVNIALANELATFCEKVGINYWEIRNAANSQPFSHLHKPGIGVGGYCIPIYPWLLMQTAIDEEIELNFPLLSRFINEKMPKYSVNRIISKLDKNKKRVNATILGLSFRGNVADNRISPTYEITKILTEKKIRVKIHDPFFNYDPLLPKNVKLSQDLDKSIDGADLIIIATDHDEYKEISESYIIKKSHKKPLVFDGRGILDCTKFKKLKILTIGK;locus_tag=LOCUS_0530;note=WP_011762251.1 UDP-N-acetyl-D-mannosaminuronic acid dehydrogenase (Pyrobaculum islandicum DSM 4184) [pid:42.0%25%2C q_cov:92.9%25%2C s_cov:95.5%25%2C Eval:6.3e-88],MGA_53
sequence01	MetaGeneAnnotator	CDS	45410	46804	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNTHQNKTLLIVLPYGIGWDSIVNKKNLDILTGSGLRIVLLCESNMFSTDNPNVVVKTLKKSQRTKSEIAFGLLRNYVFSDTSKQHSETLKIKISELDQSHKFLSIVRRSIGKVFAKSSVIKNILSWIDCKFFVTNDYDNIFFEFKPDYVFITYPFSFYTYPVMRYASNSKIPIIGYVPSWDNLTSKWEVPIKLDKLIVWNDIMKKEAINFLGYNDSQIEISGVPQFDLHSDISSLMDRTEFINSVHGDVNKKILLYATGTTQLSDAEPEIVKMIYEMINNDSFDKPCQLLLRVHPRRNISDFQNIVGKPNVIFQTPGRKSDEFQDSGYIWKSDLTDSNILSNTLNHSDIMINVASTITIESCLFNTPVINIGFDANLELAFNRSVARHFQYSHYLDIVNSNGVKIAKSQDDLLNFINRYLLNPDFESEGRKKIVDTQCHYNDGKSSERLLRYIIDFTNQKSV;locus_tag=LOCUS_0540;note=WP_011963386.1 hypothetical protein (Flavobacterium psychrophilum JIP02/86) [pid:24.6%25%2C q_cov:55.8%25%2C s_cov:49.7%25%2C Eval:4.0e-13%2C partial hit],MGA_54
sequence01	MetaGeneAnnotator	CDS	46816	48510	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFGMAVRFSEVLVNSGTKIKDVLKIINQAPHKNLPSGIAVIVDDSNSLLGIVTDGDIRRALLNEYTIEDSVDKIMNKNPIKFHESLSSDEIIASVSTNDEKKSITKNILIVNDNNQVINILDKSQLGINNLTSISVIGLGYVGLTLAVSLADVGFKVIGIDSNNEIVDKLNKGIPHIHEIGLDSLLRFHLGKNLTIQSTSSQSRSDVYILCVQTPIDDNNEPIVEYIEQATEYIATNLSPNNLVIIRSTVPIGTTRDVIIPILEKTSRLDSEKDFHTASAPERTVAGRALKEIRELPQIIAGFTSTSSQLTNNLFKKLTQTIVNVDSLEEAEMIKLMDNTFRDLIFAYSNQIAFIASNYGIDTSKLIQAANEGYSRNQIPKPSPGVGGVCLKKDPYILISSSKKHGYVPKLTELARIINESMSDYIVSKIESFCKLHDKDISKMKIFVIGFAFKGNPETSDTRQSSTLDVTNKLTHLTNNIVGYDPVISQNELNKLNIKPVKLEEGFNKADCVLIMNNHSSYSKFDIYSLLSQTNKPSMFFDGWSIFGRKVIEKIDHVDYETI;locus_tag=LOCUS_0550;note=WP_010876469.1 UDP-N-acetyl-D-mannosaminuronic acid dehydrogenase (Methanothermobacter thermautotrophicus str. Delta H) [pid:34.9%25%2C q_cov:69.0%25%2C s_cov:90.0%25%2C Eval:8.6e-61%2C partial hit],MGA_55
sequence01	MetaGeneAnnotator	CDS	48511	49398	.	-	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGASTSFYGYYGESIEKKIKKLINIFEESNIRPYIQIGAGKNNTEYSKLVKKLNIYKENYRAVFTIHQSIWLPHDDFYINIASSSNQVRKSSIKCIVKNIDFARDIGIRNISFHGGYAADKLSQEREFEPLDSQNNISYEEAYSNSTNSLNILKDYAGTDIQLSIENFNYRPEKRYLYSQVNDFDKLPKEIGVILNIGHLYYTEKKLNTNNYINEMINSLRNRIHEMHINDNDGSEDLHKLIGEGDIPIKNILKQVSKNRDMPHLIIEAHKNRHKYSDNDLSRNILELDRISKF;locus_tag=LOCUS_0560;note=MGA_56
sequence01	MetaGeneAnnotator	CDS	49454	50404	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIIAELCQNHNGDVNILKKMVWSAADAGATHAKIQTMFSEDLTSRKRFEEGLIDDDGTVTSIKRPYSLELQRLQGLDLTIGDQSLFIDECSAAGIIPLTTVFSRNRLNSIIEIGFKEIKIASYDCSSFPLIKDLKNKFEHVYVSTGATYDNEIEITANLLKDQNFSFLHCVTIYPTPIDKLNLNRINYLRKFTDTIGFSDHTNSSIDGISADIVALWKGVDIIERHFTILDSSQTKDGPVSINPNQLKSLVDYSQMSNDELFEHVQKIHNYELMLGSETHTLSAEELLNRDYYRGRFASKIDGRTIYNWEEVNL;locus_tag=LOCUS_0570;note=WP_001230564.1 N-acetylneuraminate synthase (Leptospira interrogans serovar Lai str. 56601) [pid:32.4%25%2C q_cov:79.7%25%2C s_cov:72.1%25%2C Eval:4.1e-29%2C partial hit],MGA_57
sequence01	MetaGeneAnnotator	CDS	50401	52368	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGQKVLGIIPARGGSKTIPRKNLTNVLGRPLISYTITEALKAKTLSNVVVSSEDEEIIRVSKSYGASVPFVRPDSLAEDDSLAIDVLIHAILETEKHENTTYDIVVMLQPTTPLRTSQDIDDCVNKLINSNCDSVISVADVGAIHPYRMKKIIDDKLVDYDTETIENMPRQSLPLVYIRNGAVYVTKRDILVNHKSLKGNNSLAHLMPAERSLNIDERLDLKLTELIMKDFDWSHIKEINSVSVPWKSWYGNEFLSLTFPKEWNVNVSQMTDAPEIKDSDIEYSILNPLNSDKLSILTKKHQSVCIAVDDLTKPTQAFRIIPFIINELQHAGLSDKNIYFIISTGTHRSLTHSELCKKLGTNIVSKYKVYCHNAYQNNKYLGETSGGTPVYIDNLFLQADFKIGIGTLMPHPYAGFSGGGKIVMPGLAGIKSVDVNHKPVNKSLQGQIGQVKNNSRREDIEEAANMTGLDFIVNTISNSLGNTAAIFSGKPKDVFSIASKKATEIYSTVVPYNMDIGIFNAFPRDTWFLLALNSLNVWGSRDHDKEIVRKGGSIVVITAASEGLGEHGLVGKGMIHHIRRDKHGTFGGPLRNRNLIFYCPTINQNYIQDHYSDDVKVFNNWNSVIAELNKHHGNSANTVVFPNSTLQIDSNIIN;locus_tag=LOCUS_0580;note=WP_010877563.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:30.8%25%2C q_cov:62.0%25%2C s_cov:99.0%25%2C Eval:8.2e-50%2C partial hit],MGA_58
sequence01	MetaGeneAnnotator	CDS	52361	53479	.	-	0	ID=MGA_59;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMKVAIIHYDISMRTGAQRLVLGMGNSMKKLGHEVAYFTAIYDKKSAFKEFQKENVLVSNGRLDYFGKFRAITAYFESKKMMRNGIKKFKPDLYLFSSNYYLANQYNPSIIYCHHPEQLLIDNNDLIRRFLHMPIDWAENNGFKKVNSILCNSEFTSNAIRNKFNRKSSIVFPGVDINKFSYENVEENFILTVNRIVPNKNLQFAINLIQKVVKSKKNVKLIIVGVKQVGFEWHFKELQKNIKKAKLENNVEIRTDVSDDELVELYKKCMIFLYTPKEEHFGIAPIEAMACGKPVIALNTGGPKETVVNEETGFLLDDNLDIWNEKLSLLLDNQQIRRKMGNAARERVVRKFSWDSFTKELNKSLTDIQFN;locus_tag=LOCUS_0590;note=WP_010877557.1 mannosyltransferase (Archaeoglobus fulgidus DSM 4304) [pid:33.2%25%2C q_cov:61.8%25%2C s_cov:64.7%25%2C Eval:3.0e-29%2C partial hit],MGA_59
sequence01	MetaGeneAnnotator	CDS	53476	54426	.	-	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSVDVINNINNKKIMSDNKQVTIINDAAWVGYELANGLRELNVDVKYLPRNFAGPNVKTNPIYSIYGKAIKPFVNAVKAKGIIHVNYALQDAFFVRIIGKKINVLHCHGTDLFGLIDEEFKKQSKDLSKWRWVIEGNLKYANTVIVSTPEMLSLAKTIREDAEYLPNPVDIERFSPSSVKDEQLRAIGFNSWYEKVPKYLIELLEQNNVKVDILDRRPFSYFELQDTLKKYHIYIDRIFTKGVSSFSKTCLEAMSCGLVTIDYRHKEDINNRLMEILDETTRTKESKENRQYIIDNHDRKKISMKLLDIYKRQKE;locus_tag=LOCUS_0600;note=WP_011022166.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:24.5%25%2C q_cov:79.4%25%2C s_cov:73.4%25%2C Eval:1.4e-08%2C partial hit],MGA_60
sequence01	MetaGeneAnnotator	CDS	54434	55408	.	-	0	ID=MGA_61;product=NDP-sugar dehydratase or epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867427.1;translation=MKILVTGSSGFYGSHLIDSLLKDTGNEIYGVDNLHRLEDFTVNPFDIIQDKESLKKRFVSWEMDFRDLTAEKIDEIGIDCVIHLASLVSIPESMVKPMEYFELNEIGTFRFCQELLKTKSRPFLIYASSPEVYGNPIYTPMDINHPCRPRSVYATTKLAAEKHCMVLYEWYKYPVSIIRNFNTYGENQSNTYRGYPAAVPEFITKAIKNEDIQIDGNGKQTRDLMYVKDAVEAYVRVMKEKEKAKGEIFNIGTGVQTSVIDLANKIINISGSSSKLVYKEERSADLEKLEADCSKTEELLNWKPKYSIDEGLEITISWFKELLK;locus_tag=LOCUS_0610;note=WP_010867427.1 NDP-sugar dehydratase or epimerase (Pyrococcus abyssi GE5) [pid:39.1%25%2C q_cov:98.1%25%2C s_cov:96.7%25%2C Eval:4.7e-52],MGA_61
sequence01	MetaGeneAnnotator	CDS	55452	56150	.	-	0	ID=MGA_62;product=PIG-L domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015887316.1;translation=MKINYKNQKVLVIAPHPDDEVLGCGGLISKVKKEGGKVHVLCFTVGNIKQYGGYSNTEKRIKEMNKVMRYLKVDSFNLALAGDEYHLKLDKVPQKKLINIIEKGEVSISTVTPNIVCIPFIGSTNQDHVAVAKASFTACRPVKDARKNISQIVLSYEQPETNWTRKRFHPNFFVDISRDLKTKQKALSLYSSQVRSKNHPRTLNTIEKIAELRGNEISVRYAEAYECHRFII;locus_tag=LOCUS_0620;note=WP_015887316.1 PIG-L domain-containing protein (Sinorhizobium fredii NGR234) [pid:31.4%25%2C q_cov:96.6%25%2C s_cov:96.1%25%2C Eval:3.7e-25],MGA_62
sequence01	MetaGeneAnnotator	CDS	56147	56899	.	-	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARAQNSIDALNNRISAHANFAKYEINDWIIPKLEIKEDSQILDVACGNGKQLIPISKMINANGTITGLDISKELLNEIQLNVRKDNVFLKQGNMEDIGKEFKNEQFDLIFCCFGLYYSKDYKRTISDIYDKLKNNGKCFVCGPMNRNNRELTDIHETFGELPEEYNMHNNFMENNALPYFEPLFKDVRTEVFENPITFPNKEELLRYWKSYTLFEQDVQNKFEDVISNIFIKEKKFITKKVVMGITAQK;locus_tag=LOCUS_0630;note=MGA_63
sequence01	MetaGeneAnnotator	CDS	56950	58539	.	-	0	ID=MGA_64;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RX38;translation=MNTIGRGTWIDKLTKDIIDRELKLNRATDKIIVESGLGASGIPHIGSLGDAIRAYGVKLSLEDMGYKSELIAYSDDMDGLRKIPEDFPDKLQDDLGKPVSSIDDPFGCHESYGEHMSSLLLDGLDKLSIDYSFKSATKIYQSGILNEQIISILKNSMKIGEKISEITGQTKFMNVLPYYPICKNCSRIYTAIPTKFNKENNTIHYKCNDIEIGGNLIKGCNNEDVLNTTIGKGKLSWKVEFAARWSALDVRFEAYGKDIEDSVKINDWISNYILNHAHPFHIRYEMFLDKSGKKISKSIGNVLTPQKWLQYGTPESLFLLMFKRISGSRSLSGEDIPTYMDEIDVIEDVYFNKTTLENKEKTIRTKGLYEYIHHLRPPKEISIHLPYRLLVELAEIAPEENSKDYISKKLIEYQYIKEIDDNLLQRIILGINWARDFKTHNIIDIELNEVEKKALLELISLLEKNSDPEKIQNEVFEIAKKNNIKTKLFFQLIYRILLGSNKGPKLGKYIVDTDKEAIITKLKSSLTKS;locus_tag=LOCUS_0640;gene=lysS;EC_number=6.1.1.6;note=Q2RX38 lysine--tRNA ligase (Rhodospirillum rubrum ATCC 11170) [pid:30.9%25%2C q_cov:94.3%25%2C s_cov:89.1%25%2C Eval:3.7e-58],MGA_64
sequence01	MetaGeneAnnotator	CDS	58547	59140	.	-	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQIVVIGIIVSLVGAYLFTMSSVTVLSEFDNVPTSSFITYYADVKKISLPSANIRMELTNNLKAPQLRDGIEIEGHYVDLFVFDDENYDIFKRCGGERIGAAICKDWNPILEKRNLTGTYNKALDPKINKVTVVVWNHDEDEVIQNSVSIRLESNYSGIANIMLIFGVLIFYIGMTTNTNKSRQKNVKKKIQKEQ;locus_tag=LOCUS_0650;note=MGA_65
sequence01	MetaGeneAnnotator	CDS	59224	59403	.	-	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTHGSLTKAGKVRGQTPKIEGKKRTSRSPRLKSKRSFRTRVILNRTIGQKWDKPPRRR;locus_tag=LOCUS_0660;note=WP_011763628.1 30S ribosomal protein S30e (Pyrobaculum islandicum DSM 4184) [pid:55.8%25%2C q_cov:72.9%25%2C s_cov:76.8%25%2C Eval:6.6e-08%2C partial hit],MGA_66
sequence01	MetaGeneAnnotator	CDS	59497	60711	.	+	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNQLLLTEAGIIIINESSDILTSYRFSTGDELSTYSNIKKGILSHDVEQFIINLSEFISDSFEVNDQSLVNIIKKIHPNSFYKSIDLSNLSNLFIQSNFFTSEEEVNDFLRNFSLEYSKQQIRDMSGKEDLQIIEGINSLDEVDKAINIFTARINEWYGLHFPELEHLIKDSDTYFKFVSLGLDRNTITEPDLTIFNFSEKKLNTIFEAAQNSKGGDINSKDLLMISILSDNVINLVKMRDKMLNYINVLMNKVAPNLSSIAGETIGARLIAKVGGLFKLAKLSSSTIQVLGAEKALFRSLKSGNRPPKHGIIFQHDMVHSSPKWQRGKIARSLASKIAIAARIDAFRGSKDIDIENSLDERYLEIQSKYASPPAIKSQNKFKNKKHNKNRRNIHGKGRRSSR;locus_tag=LOCUS_0670;note=WP_010979285.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:44.6%25%2C q_cov:70.8%25%2C s_cov:70.2%25%2C Eval:2.5e-69%2C partial hit],MGA_67
sequence01	MetaGeneAnnotator	CDS	60683	61366	.	+	0	ID=MGA_68;product=fibrillarin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846944.1;translation=MEKVEDLPDNVVWIEVSGKEKLATKNYVPGNNVYGEHLQKLSNTEFRIWDPFRSKLAASIINGLKNVPFKIGSTILYLGSSTGTTSSHVSDIIDKTGLLFCIEISSRVSRDFIDNVVVFRDNIIPIIADARNVNNYTSIFRQIDSVYCDISQPDQTDIAINNCKKFLTNEKKLLLVIKSRSIDVTKSPQQIYKQEINKLETNGFTVDQMVELYPFDKDHALVLATMH;locus_tag=LOCUS_0680;note=WP_052846944.1 fibrillarin (Sulfolobus tokodaii str. 7) [pid:47.0%25%2C q_cov:95.2%25%2C s_cov:92.7%25%2C Eval:2.1e-49],MGA_68
sequence01	MetaGeneAnnotator	CDS	61369	62073	.	-	0	ID=MGA_69;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867642.1;translation=MKNLNYKLISGTDEAGRGSIIGPLVIACVSADKNTIRKFSRIGIKDSKKITPRNRKIFTEIIIKNAIDVSIKKISPQRIDKAVILRKEFLKKKNKSYGKKIIGLNELEAYSMAKIIDNLDSEIIYVDSCDTNPNKFKERIIKHTKNKIKIYSRHKADELYVIVSAASIIAKHTRDMEIIKLRKKYGNIGSGYPSDHITRAFLRNWVLKNQEIPDFARKSWKTWLNLQPKIDDYV;locus_tag=LOCUS_0690;EC_number=3.1.26.4;note=WP_010867642.1 ribonuclease HII (Pyrococcus abyssi GE5) [pid:39.5%25%2C q_cov:94.4%25%2C s_cov:91.5%25%2C Eval:1.0e-38],MGA_69
sequence01	MetaGeneAnnotator	CDS	62054	62602	.	-	0	ID=MGA_70;product=NTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066487.1;translation=MINSKIWAITGRTRVGKTKVINTLHYRLLSHNIVIGGILTRDVKDNGKRIGIELLNISTGITNELANTRRKTGPRIGKYRVNLKNLDNVISKELESASSNAELIIIDMIGPMELYSRNFCDAIKSILNNDKKVLCAIQTKYNHPIIKDVRNSSKLELLDLNINHKVEVVDKIYNSIIEELKL;locus_tag=LOCUS_0700;note=WP_048066487.1 NTPase (Methanosarcina acetivorans C2A) [pid:33.3%25%2C q_cov:95.1%25%2C s_cov:97.1%25%2C Eval:2.7e-21],MGA_70
sequence01	MetaGeneAnnotator	CDS	62689	63696	.	+	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979293.1;translation=MSKLEPTNVNELTTKINDLSDSRKNLITQLKSLSKRRLELRDEIGDITSKLAEEQAELDPFYNQIKSRRQERQELIKNLKSRRQERQELIKNLIKLRVCVNDTSDALKLIESSSVKSKIKEQRSPNNRKFQKKDNDKNLSKKIQENEWKLQTQQLTRQEEKQIVEHIRTLQIKYQHWRKSSSTRKELSKYLKDIKKLSSQLKSFDDSTNSLSSQLKSFDDSTKSIKVSFDGNKQIIATKIENREELFREMNGFNDDIRELEKVLKKSDQESHLLKSQRSEIIKSIKVGYKSEVLKKKKVILEKEKTKAKEKLESGQALSFDELRLAFDEDDDYLI;locus_tag=LOCUS_0710;note=WP_010979293.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:22.4%25%2C q_cov:86.3%25%2C s_cov:96.8%25%2C Eval:3.3e-16],MGA_71
sequence01	MetaGeneAnnotator	CDS	63677	64834	.	+	0	ID=MGA_72;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147160.1;translation=MMTTLFRKKTSKSRRTRPSKSAPILVLCIDQDDDLGNKTNIHSPIIGPTDCQNAGMKLAITDPEEADANAIFASIKTYNELKKSGRKCAIAIVTGTSSGGFKSDEKIRKEIKMIVSKTKIIDTILVSDDSDESSIIPVVQDIISVNSIQRIVIKHSGALEDTYAVLGRYLKMLIFDQRYSKIALGVPGLIFISWAFLALFGLLGQAVTVTLAILGIVFVIRGFDLDRLTMSLPKLELTSYVKLFSSVAGTLVIIIGVFEGFSNIARLISINQVFSNPSNLLSSSPELIGIFASSSIIFLWIGLGLFAAGDMLSNWIIDNKRRIIRDAILLFTLVFLYFPIQQFANLLIGQGDTFTFIASLIFGLAGSFISVIFMYRRYIRIIQKT;locus_tag=LOCUS_0720;note=WP_048147160.1 membrane protein (Pyrococcus abyssi GE5) [pid:30.2%25%2C q_cov:76.1%25%2C s_cov:79.7%25%2C Eval:3.2e-37],MGA_72
sequence01	MetaGeneAnnotator	CDS	64850	65632	.	+	0	ID=MGA_73;product=UDP diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870889.1;translation=MLIKILRHVGIYKFYENYLKKQISRENPPNHIAIILDGNRRWAKSKFMPVWMGHFAGADIVNDLLDWCTELNVKVITLYALSAENLTRPQNEVDRLFEIISSKLSELLDEPKIDQYHVRVKGIGNISLLPENIQKKIHQIEEKTKENDNLFFNLALAYGGRFEILEAMKNLANKIKDGSLNPHELNYEIIEKHLFTSHLSYPDPDLVIRTSGEERLSGFLLWQSAYSELVFLDVYWPDFRKIDLMRAIRTYQNRNRRYGE;locus_tag=LOCUS_0730;note=WP_010870889.1 UDP diphosphate synthase (Methanocaldococcus jannaschii DSM 2661) [pid:49.0%25%2C q_cov:98.8%25%2C s_cov:91.8%25%2C Eval:5.6e-76],MGA_73
sequence01	MetaGeneAnnotator	CDS	65647	66654	.	+	0	ID=MGA_74;product=adenylosuccinate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978244.1;translation=MTVTVAVGGFYGDEGKGKIVAYLSLSDSHSIAVRGGVGPNAGHTVVYGDDILKLRMLPSAVVNKSTRLLIGPGVLVNPDITLDEARQYGALDRLVVDQSCGIIEQNHITSDKLGFLASKVGSTGSGTGPANAERIMRSGKLAKDLDILKNYLDDVPDIVNSQIDRGHDVLVEGTQGTFLSLYFGNYPFVTSKDVTASAICSDVGLGPKKVDDVIVIFKSYVTRVGEGPFDGEISSEETEKRGWSEIGTVTGRTRRAAPFDFNLAKRAIMLNSASSIAITKLDVLFPSAKGKRKYEELDSDASSFIENIENELKINVSLIGTGPEVYDIIDRRSVI;locus_tag=LOCUS_0740;EC_number=6.3.4.4;note=WP_010978244.1 adenylosuccinate synthetase (Sulfolobus tokodaii str. 7) [pid:52.9%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:1.4e-94],MGA_74
sequence01	MetaGeneAnnotator	CDS	66651	67406	.	+	0	ID=MGA_75;product=orotidine-5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251226.1;translation=MKINFSTKLKNISEKKYTRVILSLDLNCKNNELLKKSISLVRATANDICAVKINYHLLLPLSFNEIKKLISVIHKFNLLVIADLKLNDISSTNVIAIKHLWKMGFDAVIVNPFVGYSEGLESLLKNSKANNKGVIFLVYMSHVGAKEGYGLKIIKNGRKKKLYVDFAERAKRWHADGIVIGATNPRLIKEIANITHNDIDIFTPGVGKQGGNEFQSIKSGANYIIVGRSIINSKNPSLSTSSFKVNSWSIS;locus_tag=LOCUS_0750;EC_number=4.1.1.23;note=WP_011251226.1 orotidine-5'-phosphate decarboxylase (Thermococcus kodakarensis KOD1) [pid:34.2%25%2C q_cov:87.3%25%2C s_cov:91.5%25%2C Eval:2.0e-22],MGA_75
sequence01	MetaGeneAnnotator	CDS	67384	67806	.	-	0	ID=MGA_76;product=diadenosine 5'5'''-P1%2CP4-tetraphosphate pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011761848.1;translation=MLEERSAGIILFNKINNTKFLILKYPSGHWDFIKGNIEKGETDKETAKRETFEETNINNIKIYDGFHELIEYYYYINKNKVHKTVSYYVAETEQKEVKLSFEHTDFKWLDYNSLLKLITFENSKKLLVKGNNFIMKLTKN;locus_tag=LOCUS_0760;note=WP_011761848.1 diadenosine 5'5'''-P1%2CP4-tetraphosphate pyrophosphohydrolase (Pyrobaculum islandicum DSM 4184) [pid:41.5%25%2C q_cov:96.4%25%2C s_cov:95.7%25%2C Eval:5.7e-28],MGA_76
sequence01	MetaGeneAnnotator	CDS	67813	68616	.	-	0	ID=MGA_77;product=inositol monophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583263.1;translation=MNYSEIISKTLLKVQNTIKRRYFKGNHKEIGIGPFGDVQYEIDLLAEEIIIKNIQKEIPDATILSEETGIIQGKNNTLILIDPLDGSLNSVRQIPFFSSTIAIANGPKFSDIIASGAIDIIQGNLYLGNQKSATVDNVRLEPSKRKVLNESTIALDLNIRSESGKKSFRNMENLFLKTKTQRILGSAIMENVFVAAGKIDAFIAPSKQLRTFDVLPAMYIGKKAGLFIKFFNEENDFDILSRERVSYISACTKDLGNNILNEINKID;locus_tag=LOCUS_0770;EC_number=3.1.3.25;note=WP_012583263.1 inositol monophosphatase (Dictyoglomus turgidum DSM 6724) [pid:29.3%25%2C q_cov:86.5%25%2C s_cov:84.9%25%2C Eval:5.6e-18],MGA_77
sequence01	MetaGeneAnnotator	CDS	68678	69742	.	+	0	ID=MGA_78;product=inositol-3-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060968.1;translation=MPKIKIALAGIGNCASALVQGLEYYRQNPDESIGLVQHSIGGIESNDIEFVAAFDVNDKKVGTDLSHAIFQHPNNTAKIIDVPKLDVEVSRAPVKDGIGKYLKEIVDVQDSGGSDVVDIIKSSGADILINYLPVGSTNATKYYAQCALDSKVGFINSMPVFIASSPEWQSKFTDRGLPIAGDDVMSQLGATVVHKSLIKLFVERGVHIDETYQLNIGGDADFLNMLEESRLVDKRISKTSAVRAMAPYPIPTRIGPSDYVDFLKNDKICYVWIKGRYFGNIPVTLDLKLHVMDAYNSAGVVIDAIRATKVALDRKISGPLNSISAYCFKHPPVQMSYEQAKIAFLEFIDGKRDR;locus_tag=LOCUS_0780;note=WP_048060968.1 inositol-3-phosphate synthase (Methanothermobacter thermautotrophicus str. Delta H) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-100],MGA_78
sequence01	MetaGeneAnnotator	CDS	69748	70434	.	-	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAINDQKQINQSIAKITRELIESELGIQDAIARDYANISGIARLLKPKIEKMSNTSINEEAIITAIKRITPRYNSINNEIMDIISKSNINVKTGVAKLSVSKNKGNQEKIQNTLIKNKEEFIQISEATSALTIIYSHKFRNEFIKKFNKSEILEDSMDLAAIIVHSPIEVIQVPGFVFTIYGQVAKRQINIEDTVSCFTDTIIIVRTKDVATAFSALNELFEFPVNKK;locus_tag=LOCUS_0790;note=MGA_79
sequence01	MetaGeneAnnotator	CDS	70492	71670	.	+	0	ID=MGA_80;product=argininosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E0N9;translation=MDKKVILAFSGGLDTSISVSWLNKKHGFDVITAIVDVGQDENFELIEKKAYSIGASKHYTIDAKQEFVENYVSSAIKSNALYQGKYPLATALGRPLIAYKLAEIAKTENTLTFSHGCTGKGNDQARFDITLKSIMPNAKIIAPIRENNLSRDEEIQYAKDLNISIEEKSQFSIDENLWGRSIEGGVLEDPFHEPPSDIYKWIDIDNSSESKYITIEFTNGIPTCIDGNTNSVDMINYLNQTAGKYGIGVVDHIEDRLMGIKSREIYEAPAAITLIEAHKDLEKLVLTRNELETKYLLEQKWSWLIYSGLFVDPLVDAINAFIDKTQERVNGIVKLKIKNGSLTVVGRKSKNSIYDQKLATYSDSSEFSQINSEAFVEIWGLQSKYNEGEKNE;locus_tag=LOCUS_0800;gene=argG;EC_number=6.3.4.5;note=B8E0N9 argininosuccinate synthase (Dictyoglomus turgidum DSM 6724) [pid:52.6%25%2C q_cov:97.2%25%2C s_cov:96.5%25%2C Eval:2.6e-111],MGA_80
sequence01	MetaGeneAnnotator	CDS	71663	73153	.	+	0	ID=MGA_81;product=argininosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870298.1;translation=MNKNIDLLRGNRLSKTSDLASSFISSVDDDILLIEPVKKINIAHMLMLVKNNVIDKKTAIRCIKSLKSIDSSFKLDPNLEDVHMNVESFVISDIGSEIGGQLNLAKSRNDQVATAIRMTSRGFILNVLTNILDLQKIILNVATKHSDYLMPSFTHLQHAQIITLSHNLLAHHDSLSRDIERFQETYHRVNKSPQGSGAIASVIIDVDRNYVAKLLGFDGIVENSIDATTTRDFCVEILSNLTLMMLNIEKIVNELILWSTSEFSFVEIADEFSSTSSIMPQKKNPVIAELIRSKSSIIIGDLITSIGIIKSLTLGYSIDIQDLTPRLWNSIDKSLLSIHLLSVMLSNCKFNKKEMYNNLDDTLIAADLATYLAANYDISFRQSHHIVGTLSKSAMDSNTKLSYIAKNNLVKITKKITGKNIDIKMEELDSIFNYSQNVNSKTTKGSPSNFETKRMIKLRIIQINKSSKFIKQQQNLITKSEILLEKSIKKISGGGN;locus_tag=LOCUS_0810;EC_number=4.3.2.1;note=WP_010870298.1 argininosuccinate lyase (Methanocaldococcus jannaschii DSM 2661) [pid:34.3%25%2C q_cov:97.6%25%2C s_cov:100.0%25%2C Eval:2.5e-80],MGA_81
sequence01	MetaGeneAnnotator	CDS	73153	73326	.	+	0	ID=MGA_82;product=lysine biosynthesis protein LysW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256240.1;translation=MEQKCQDCDAAMKILDDVMIGEIISCPDCGNEFEISKIDSNNVTLIPAESVGEDWGE;locus_tag=LOCUS_0820;note=WP_012256240.1 lysine biosynthesis protein LysW (Chloroflexus aurantiacus J-10-fl) [pid:40.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-07],MGA_82
sequence01	MetaGeneAnnotator	CDS	73328	74194	.	+	0	ID=MGA_83;product=lysine biosynthesis enzyme LysX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256241.1;translation=MDARIGVIYDRIRWEEKEIFKALEEKNIPFSKFDAKKLVLHSNDSDKSIQSTFGNSIIQRCISHYRGMLIAHYLESKNCLVINNSNTSRICGNKFLSTLIFEKSNIATPITLFSFSDKSAEISADKLGYPSVLKPIVGSWGRGVVKLNDKDSAKALIEMRYNDDGLLSKIFYIQQHINRPPRDIRTVVVGDDVIGAEYRYSSNEDWRTNFSLGAKIENCPITKELEDIVLKASKSVGGGVLGVDLMESDDGFLVHEINNNVEFKGVSKFTKDNIAYKIVDYINNISKR;locus_tag=LOCUS_0830;note=WP_012256241.1 lysine biosynthesis enzyme LysX (Chloroflexus aurantiacus J-10-fl) [pid:38.0%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:8.7e-52],MGA_83
sequence01	MetaGeneAnnotator	CDS	74200	75252	.	+	0	ID=MGA_84;product=N-acetyl-gamma-glutamyl-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978134.1;translation=MKVGVIGASGFVGGELLRLIINHPKTELSFATSRQYDGQFLYKTHPNLKGFTDIKFSLLDSTKISDNCDLVFTSVPHCSSFEFINELVTTGVKIVDMSADYRLSNPDMYDKWYGFTHPIPDLLNSFTFGLPELHRDSIKSSKYVSTPGCTALTSILALAPLVQNKIIDHSNIIIDAKVGSSGAGAKPTLASHHANRYGVIRPFKPYAHRHTAEINQELSSISKNSVNVSLSVHSVNLVRGILCTSYASMNSEITEVDIWKSFRQFYTDSPFIRFIGDKKGLYRYPDPKLLVGSNFCDIGFAYDKSASRLVVMSSSDNLIKGAAGTAIQNMNLMSNFEETTGLWTPGIHPM;locus_tag=LOCUS_0840;EC_number=1.2.1.38;note=WP_010978134.1 N-acetyl-gamma-glutamyl-phosphate reductase (Sulfolobus tokodaii str. 7) [pid:44.7%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:6.3e-90],MGA_84
sequence01	MetaGeneAnnotator	CDS	75258	76067	.	+	0	ID=MGA_85;product=acetylaminoadipate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978133.1;translation=MVTIVKIGGSLHSKGLTKNLFEDIKNFSKNESLVLVHGGGDTVTEIAEQLGKKQEFIVSPSGVQSRYTDEETASIFMMVMCGKINKEIVLSLQALGVNAVGLSGIDGNTLNAVRKKKLLIIDERKRKRAIEGGYTGKIQNVNTDLINDLLHLGYLPVISPVALSEEFEILNVNGDRVASNIACYMSANRVIFLTDVDGILLDDTLLTELTLVKSKEILPKLGFGMEQKLISCIESLENGVKEGIIASGLTTNPISSAVKHSNCTVITNE;locus_tag=LOCUS_0850;EC_number=2.7.2.8;note=WP_010978133.1 acetylaminoadipate kinase (Sulfolobus tokodaii str. 7) [pid:41.6%25%2C q_cov:95.2%25%2C s_cov:96.6%25%2C Eval:4.9e-46],MGA_85
sequence01	MetaGeneAnnotator	CDS	76060	77238	.	+	0	ID=MGA_86;product=acetylornithine aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74GU3;translation=MNSEEIISSEDNLLAPVYQKFPIIIERGSGCYVWDSSGKKYLDLMGGYGVSLLGHSNENIVQAITNQANKLTSCHGSFYNEERAKAVLNINKITPKNLDNIYLCNSGTEAIEAALKLCKKHSKNNIISMSGSYHGKTIGSLSLTWNPKYKKSFQPLLDHIDFIPFGEDDFLSKIDDNTSAIFLEVIQGENGVKFASIEYFKKLQEQCDKHNVLLVVDEIQTGLGRTGKMWAHEHYGLKPDILCIGKGLAGGLSVGAMISRSDMTNFSLGEHTTTFGGNPLTSSAINASIDYILKENLIERAGKMGDYFLERLGQLESEYDSVRDFRGLGLMLAVESKFSIKDILFDGLNNGLIMLYSGRTILRFLPPLTIKELEINSVLQILHKLFQNSQTR;locus_tag=LOCUS_0860;gene=argD;EC_number=2.6.1.11;note=Q74GU3 acetylornithine aminotransferase (Geobacter sulfurreducens PCA) [pid:38.1%25%2C q_cov:98.7%25%2C s_cov:99.0%25%2C Eval:3.0e-83],MGA_86
sequence01	MetaGeneAnnotator	CDS	77245	78519	.	+	0	ID=MGA_87;product=acetyl-lysine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978128.1;translation=MDDIDKAIIKILTKDSRTPNTEIAQQVKLSEASVRLRIDKLVSSGAIKNFTITLSDKHLTLLENSLKIYSPSGQEKEFSDFLFSTLNDYEFLNVNRDSANNVFGEIGEGSPTLLLCGHMDTVPGLINVEIKDNVIYGRGSSDAKSSLISMLIAAASFKDKLKTGKIIFAAVTDEEGTGAGIRELLKGNIQPDYAIFGEPSGVDKITVGYKGRFSIKFICKTSPVHASAPWISSNAIEFLFHFWNKLKIELENNADNYYQQVTSCLTQIDGGVADNVMPGNCNLICDIRYPFDYDPNTIISKIDKIVSQFNSNSQINKNEKPIYSYEIIDSTPAFESSKSSIVSRSITRAIIDKIHHKPQFVNKTGTGDMNVLGTSLKIPVVTYGPGNPHLSHTSDEHIVIDEFLMSIDIYKKSIENVFSLIQRI;locus_tag=LOCUS_0870;note=WP_010978128.1 acetyl-lysine deacetylase (Sulfolobus tokodaii str. 7) [pid:33.9%25%2C q_cov:84.2%25%2C s_cov:94.5%25%2C Eval:1.1e-41],MGA_87
sequence01	MetaGeneAnnotator	CDS	78557	80749	.	+	0	ID=MGA_88;product=elongation factor EF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846316.1;translation=MPKYKSTNDIMKIVGNKDQIRNFGVIAHVDHGKTTMSDSLLAGCGIISPNVAGEALVLDSMDMEQKRGITINSANISLYYEFDNTPYVFNMIDTPGHVDFNTRVSRSLRAIDGAVVVSDAVEGVMTQTETVTRQALEERVRPVLYINKIDRLVKELRLTPEKMQEHLIGVISEFNGLIDLYAEPEFKDKWKVSIQDNSIAFGSAKDRWAFSAATAKKNNVNFKTIYDSYKNDKVDELVELAPLHEAILGMVVQHHPPPHVAQKYRVPKIWKGDLDSEIGKAILNCDDNGPVVMMIVNINIDPHAGNVATGRLFSGTVKDGDTVHLLGAKRSGRIQSVNMFMGNQRELVGQFSAGNIPALLGLEHARAGETLSSIKGFTEFESISYVSEPVVTIAVEPKHPKELPKLVEALRKLNIEDPSLVVKINEESGEMLISGMGVLHLDIATTLLKEQNIEIITSEPLINYRETISSNTGPIMAKSPNRHNKLFLRVEPLTETVIKLIRDGKINDNTDKKELAEILRNAGWDRDDAKRVVTIDPGGNMFVDATRGVQYVQESMDSIRAGFADVMENGPIAYENCRGIKATLHHYVPHEDVAHRSYAQLMPASRRALLGSLLSAQPTLLEPIQGIEVKAPSDLIGEIAGVISAKRGKVGEITQKAHLSIIRGDIPASETFDLSEVMRGATAGKAIWSTHFKEWTQVPNSMLSEVISDVRKRRGLSDSPPLASDFIDKD;locus_tag=LOCUS_0880;note=WP_052846316.1 elongation factor EF-2 (Sulfolobus tokodaii str. 7) [pid:52.4%25%2C q_cov:99.6%25%2C s_cov:99.9%25%2C Eval:7.7e-230],MGA_88
sequence01	MetaGeneAnnotator	CDS	80836	81243	.	+	0	ID=MGA_89;product=GNAT family acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775709.1;translation=MYDILKIRSLVFNHQQRLIDVSKGECVEIDGKDLSCIHIIGRLCDHHDNQIIATARLFDNQSPLQLGRLAVDPTFQKHGFGTKLLDYLDSIIHSKPIEMHAQSYLIDWYSKLGWSVSGPEFIECGIKHIRMVKNF;locus_tag=LOCUS_0890;note=WP_012775709.1 GNAT family acetyltransferase (Streptococcus suis BM407) [pid:24.5%25%2C q_cov:97.8%25%2C s_cov:86.0%25%2C Eval:9.3e-07],MGA_89
sequence01	MetaGeneAnnotator	CDS	81244	82347	.	-	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELSDIEMERYSRQIVLDEIGFEGQQKLKNALVTVVGIGGLGSPITQQLVAMGIGKIRIVDRDVVEISNLHRQVLYGDEDIGLSKAEAAYDRLKKINPQVNIEPLTLSINDDTVDKIIIGSDVIVDGLDSVSARYTINRACVRLKIPYVFGSAIVTTGSASTIIPNKTACLECFQPSLRDEEMPKCGTEGVHPSILTTISSVQVAETIRIIIGQEPNLANKLFFADIKGLDYDKITITKQDKCKVCGINANLSTKITKRKLIEDICGREGKSVHIISPKEDLNIDLNYLNKIIEENHFNIIRKGDLSTTIKYNEQITISIVSSGVAIIVGASEERKALEIFSEIIIDKLKVNIEKIDNELEKLIQLN;locus_tag=LOCUS_0900;note=WP_003821634.1 thiazole biosynthesis adenylyltransferase ThiF (Bifidobacterium bifidum PRL2010) [pid:36.1%25%2C q_cov:72.8%25%2C s_cov:99.6%25%2C Eval:2.0e-46%2C partial hit],MGA_90
sequence01	MetaGeneAnnotator	CDS	82352	82633	.	-	0	ID=MGA_91;product=MoaD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_008920730.1;translation=MTEVKVLIPAVMSSATNGERELQIEGETIKDIIEELSKRYGNSFKNKILDIKGKPKPVINIYVNDENIKFLDELSTKVNDNDEILFLPAVSGG;locus_tag=LOCUS_0910;note=YP_008920730.1 MoaD family protein (Aquifex aeolicus VF5) [pid:35.6%25%2C q_cov:96.8%25%2C s_cov:97.8%25%2C Eval:3.9e-13],MGA_91
sequence01	MetaGeneAnnotator	CDS	82636	83865	.	-	0	ID=MGA_92;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878058.1;translation=MKKGMSVKYLQCRKCSKQFHAGLEYVCDECFNPLDVIYDFDKIKLTKDIIKNRKYDLWRYYELLPLRNKNNIVDIGAGFTPLQKADKLAKKLGLNNLYIKNDTVNPSFSFKDRPAGIAVSKSIELGLEAVGSPSTGNLASATAAYAARAGIPCYIFIPYDIEPAKISQAQTYGAHIIPINGTYDDANRLASYAGDEYNIGIVNINLRTYYVEGSKTLAFEVCEQLDWSAPDHVIVPTGSGAMLCAIDRGLEEFNKIDLIPEKNTKITSAQPEGCSPIVDAIKNNSPIKPIKNPNTIAKSLAIGEPGDGIFAVETVKNSGGYGEKVNNDEIREAIRLLASTEGIFAEPGGIVSIAVLKKLVNDGKIDPDEKIVCYVTGNGLKAPDASFVKQPELKIVEPKREVLQNIIRR;locus_tag=LOCUS_0920;EC_number=4.2.3.1;note=WP_010878058.1 threonine synthase (Archaeoglobus fulgidus DSM 4304) [pid:49.9%25%2C q_cov:91.9%25%2C s_cov:93.1%25%2C Eval:1.8e-99],MGA_92
sequence01	MetaGeneAnnotator	CDS	83919	84458	.	-	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METMNLKKFFLLVEKLKTTKRRGWTVKSTVNDIESVADHSYAASTIAMVLSDTMNLNTEKILKMMLLHDLPESIIGDLMPGENPNKSKEEDNVMNNIMTNLPDHVRKEYLEIWNEFKNNKSEESRFAHEIDKLELIIQLFLYKEHISEDVLKEFLHSSKVKINLELNKKVLKEIIGELE;locus_tag=LOCUS_0930;note=WP_011248969.1 oxetanocin (Thermococcus kodakarensis KOD1) [pid:31.2%25%2C q_cov:74.9%25%2C s_cov:74.6%25%2C Eval:3.4e-13%2C partial hit],MGA_93
sequence01	MetaGeneAnnotator	CDS	84458	85480	.	-	0	ID=MGA_94;product=endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023899.1;translation=MGVKLKDLSNPRKTKIENLSGNKIAIDGFNIIYQFLTTIKGPSGEPLMNNKGKITSHLIGLFYRNINLLYNNIEPIYVLDGKPPKLKSILIQKRKEIREKNQEIYLKAIEEGDQEQARRYSHSMIKIDDKILIDCKKILELLGIPYIQAPAEGEATAAYLTELGMADFTVSQDYDALLFGAKKLCRNLTVSGKRRMPRTNRYIDVEPEIIELKEFLRINEINREQLVDIAILIGTDYNPNGFTRIGPKTAIKKIKKYNKIENIPDIKKELELIDINEVRKMFLQPDVIKPDNILKNEIQKEKLISFLCNENDFSEDRILKTIEKLNKIEEQKSESLDKWF;locus_tag=LOCUS_0940;note=WP_011023899.1 endonuclease (Methanosarcina acetivorans C2A) [pid:44.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-81],MGA_94
sequence01	MetaGeneAnnotator	CDS	85535	85837	.	+	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSENEQNLSLESKLGLLSFDWDSSEFIKVDTEICKTCEDKPCLYVCPSQVYTLNDEELVYNIEGCIEMGLCTIVCDQLGNGAIQWNHPSGGKGVNYQLG;locus_tag=LOCUS_0950;note=MGA_95
sequence01	MetaGeneAnnotator	CDS	85930	86997	.	+	0	ID=MGA_96;product=DNA repair and recombination protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878493.1;translation=MPNDSIDLENEISESDNINTESDLSTDESASMLEINSLPGVGPVTTKKLNDVGIYTILDVAVRGPSDISDAAGFEMDKAIDLCNKARLKLVEIGKFDKDFVPASEIYLRRQQIQRISTGSSNLDELLIGGVETQAVTEFYGEFGSGKTQICHTLCLNVQLPVEQGGLDAGAIYIDTENTFRPERLRDIAEKRDMDPDKALERITVAKAYNSSHQELLVGELGKIIADTNAKLVIVDSLMGHYRSEFLGRGTLAVRQHRLNRFMHLLTRTAETHNVAIVITNQVMSAPDTFFGDPTRPVGGHVVAHTSTYRLYLRKSGKNRIAKMKDSPYHPEHEAVFTLNERGVDDPIDVKSKKK;locus_tag=LOCUS_0960;note=WP_010878493.1 DNA repair and recombination protein RadA (Archaeoglobus fulgidus DSM 4304) [pid:51.0%25%2C q_cov:93.0%25%2C s_cov:97.9%25%2C Eval:4.4e-91],MGA_96
sequence01	MetaGeneAnnotator	CDS	87046	89781	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIFLPLLLLLLTPNLSLPSSNAVHDYQEELSITTAGDLSYWSINLIDVNTTGVISPELSSISGIDSFVIFHYSQKGSFNPRFDIFTTHGYGAIDSTLPKSGAILNIKTNSQSNADKFASLISQDLHLGFITYNIDTSSKGMTYSYYSYADSDIITDVLLPVFNNYDSGFNQLINEEFYKSNTNPTLIFSGKKQSNAMIYSIELGGTTTDALVDSTAGDSSVLGMTIDINNLFGVESVNASLDSTKSTISLESFGSTINSNYLLSQNLSDSSIAVSHDIDNINSKLTIELSNGGSFNNTIPLDYYPPVLSVVRIIDKTVGYSGDTIESRITFTNLSPEVDGQTIDEVVFTDDWWTDDFTLLISGEDDIIENLLPGQSVTISKLLQIDTDEPTTIVSKQQDTSFEYKFTLDDKEFSRITHSNSIHIELNDVKPALIAFSLYNSSYVTMNDDFVTELQIKNLGSRAAYSVDVILNDEVFETFESIAPNSFEILELNVSRSDYLFNTQKYQWDITWSDGLVTQTISSNPIFLINDYNYYGPAIIDSPNIVVDKVSDIPVDGIWQDELEVILRITNNGDKNISNIRVSDILPSNVIYLDKNSNITRLNNRLEAHIPLLQPTNSSTFVYNIKSDLSNNILLPPVAVLFSYNEKDYKLLSESVVLPTAVYINKEINTNTAPVGYNYTISVDFSNNGALMLFGVQLNGNDAQYVNEDDSQWNERSTLEVNGDMNYEYSISSDEDVDRNLLQAYGEFVIGGQTVRIFSSQIPIEIVDTPIITIKTIPDEILDNQEIELIVIIDNPSDFPLKLISITNGQNDNIEIFDESLFTKISLLDPKDSIELRTTAKGLSPGKPMLFQPVITHEYKGQLIQVDVDEFSVFVSEEMVNRYIPSIIFSLIILFVTVYLANKLVFRKQ;locus_tag=LOCUS_0970;note=MGA_97
sequence01	MetaGeneAnnotator	CDS	89784	90758	.	-	0	ID=MGA_98;product=diphosphomevalonate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012289187.1;translation=MSNKATAIANTMQGLLKYHGLKNNELRIPYHDSISVNLDALYTKTTVEFGNYEEDELIINNVKQNGSVLKRSLSIIEKIRNLSQINEKVKIVSDNSIKFGEVKGVGFSSSAGAALAVAAFKASKLDSIYGWDLKMISRIARLLAGSACRSVVGEYARWHAGSNDETSFAEKIATKKDLDLRMIAIPLSYEYSTELAHKEVLTSNFFDARIKSANVRLEKIQKSINQGKLDDLGRLVEEDSLELHALTMTGKERILLIRPETINVINLVKQKQKENKPIYYSMQTGPSIFINTNKEFIDEIYDEICELGFKAIKSSIGDSAKIIN;locus_tag=LOCUS_0980;EC_number=4.1.1.33;note=WP_012289187.1 diphosphomevalonate decarboxylase (Halobacterium salinarum NRC-1) [pid:31.2%25%2C q_cov:97.8%25%2C s_cov:96.6%25%2C Eval:4.1e-40],MGA_98
sequence01	MetaGeneAnnotator	CDS	90772	91182	.	-	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869701.1;translation=MEEIEFYGHSEILAMHKSTLEITTHDNLTKNGDCIIGIRANKACKNLNSKIKNEIKKDNNEFIIEIIVEKMKFTTKIKGNSKLTLEHKKDIVLRKSAFTCSRTIGINSEKAAIDMPRKMIYKLQDPKVKGYLKIII;locus_tag=LOCUS_0990;note=WP_010869701.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:40.3%25%2C q_cov:91.2%25%2C s_cov:91.1%25%2C Eval:4.0e-18],MGA_99
sequence01	MetaGeneAnnotator	CDS	91256	91981	.	+	0	ID=MGA_100;product=proteasome endopeptidase complex%2Csubunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876325.1;translation=MFQGQGYDRAITVFSPDGRLYQVEYAMETVRRGSLALGIKTNSGTILAVDEKLSKLQTQGITQKIFQVDDHIGVAAAGYIPDARIQVDQARIIAQSNRLIYDKPVDLETLARKIADSSQQFTQYAGVRPFGVSLIICGVDRSGSHLWKTDPSGNYVAYNATAIGAGSEQVMELFEKKYKDDISFDDAILLAIESIASINDRKDSIQNIILAVVDDKTKTMRTLTDEEIQTYYKKLNLNKAS;locus_tag=LOCUS_1000;EC_number=3.4.25.1;note=WP_010876325.1 proteasome endopeptidase complex%2Csubunit alpha (Methanothermobacter thermautotrophicus str. Delta H) [pid:47.5%25%2C q_cov:98.3%25%2C s_cov:96.0%25%2C Eval:2.5e-59],MGA_100
sequence01	MetaGeneAnnotator	CDS	91986	92399	.	-	0	ID=MGA_101;product=CoA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000151390.1;translation=MEIKEILNKSKNIAVIGLSKDESKDSYRVSKYMKDSGYNIIPINPTADSIINTKSYDKLINLPEDIAKEIDIVNIFRKSEFVEEILEDIIEIKKKYNKIHTVWMQLGIFYDKADTIARENKLNIIMNKCIMVEHRKL;locus_tag=LOCUS_1010;note=WP_000151390.1 CoA-binding protein ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:40.6%25%2C q_cov:97.1%25%2C s_cov:90.5%25%2C Eval:5.4e-23],MGA_101
sequence01	MetaGeneAnnotator	CDS	92603	93046	.	+	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSISEIPDNKNGEAKPKTAKPKTAKPKTAKPKTAKPKTAKPKTAKPKTAKPKTTKSKTTKSKTTLTEESQDYDVGNHILSPLHEKLSDEEVGLLLKQYNVQHSKLPKISLSDPSVDSLDIKSGDVIKITRPSSTSGTTVYYRMVIDL;locus_tag=LOCUS_1020;note=WP_010879378.1 DNA-directed RNA polymerase subunit H (Archaeoglobus fulgidus DSM 4304) [pid:43.2%25%2C q_cov:50.3%25%2C s_cov:97.4%25%2C Eval:2.5e-11%2C partial hit],MGA_102
sequence01	MetaGeneAnnotator	CDS	93047	96598	.	+	0	ID=MGA_103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSNLNENWVIIENLVKKEGIANHHLNSYNEFIEHGIKQIIDEVGAIDVETTGIPYKVNFGKINVGEPRSVELDGSTTRILPLEARLRDLNYAAPITIEMTVEESGISRETQKHHIGDIPIMVRSEKCETSKMAERQMIENGEDPVDPGGYFIINGSERIVVGLEDLSPNKIIVEKDKVGGNKVYRSKIYSSIVGYRAKLELTLKHDGAIMVKLPSSPVDLPVVTLIRALGIENDREIASLISSRPELQNLLEITFEKAVLDRESKCNICKVCGMRIIEDDENIDKNTDKNTDKNTDKNTDKNTDKNTDKNTDKNTDCGHNKVCGKQGDCSHKALMYIGNRVAHGMLDEFRIRKAESILDWGLLPHLGKNLENRYDKAVFIGEAVCKLLELRLGWIEQDDKDHYGNKIVKFAGPMIADLFRTAFRNLIRDMKYQLERTSQRKGLNVVGASIRPGIITDKLANAVATGNWGRGKVGVTQLLDRTNYLSLISHLRRIQSPLSRTQPNFEARDLHSTHYGRICPSETPEGANCGLVKNIALSSIISISSSFDDILDKLTQIGIISSRDVDINDRTRLCKIFIDGRLVGYVKDGNKLVSSFRVMRRQGQINPHVSISLQKYPHKYSSTRIHVSLSSGRVLRPLIVVSNGLPLVTHDVVQRTVNGELSWQDLVNMGVVDLLDANEEENSLVAINDNYITDDHTHVEFFSASILGAVASLIPYAEHNQSPRNTYQSAMSKQSLGFPTPNYDYNTTVRQHLLVYPQNQLVKTSANSLLNIDKRPIGQNCVVAVMSFEGYNIEDAIVMNKSSVQRGLARSFFYRLYDAQAKQYLGGMKDNFEIPNADENTRGYRGEKYYRLLENDGVIMHESVVSGGDVIIGKTSPPRFMEEYKQFEMRGPYRRDTSVAIRPSEVGVVDSVFMTQNEDGEKLYKIRVRDMRIPEIGDKFASRHGQKGVVGMLVNQEDLPYTEFGIVPDIIINPHAFPSRMTVGQFIESIGGKAASFRGTPIDGSTFAGESAEDLGAELEKFGFKSSGSEIMYDGKTGKPFKAEIFIGVVFYQKLHHMVADKMHARARGQVQMLTKQPTEGRARGGGLRFGEMERDCLIAYGASMVLKDRLLDESDKTNVNVCDKCGLLAYYDNQQRKYLCKIDGDDATISTVTIAYAFKLLLQEMMSLNIAPRLLLEDLV;locus_tag=LOCUS_1030;note=WP_011250034.1 DNA-directed RNA polymerase subunit B (Thermococcus kodakarensis KOD1) [pid:53.7%25%2C q_cov:71.9%25%2C s_cov:75.9%25%2C Eval:1.6e-264%2C partial hit],MGA_103
sequence01	MetaGeneAnnotator	CDS	96603	100388	.	+	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLENLKEIGGIIFSILSPSDVRKYSVTEITAPETYDEDGMPVQGGLMDNRLGTLEPGQKCATCGNTALRCPGHFGHIELAEPVLHIAFAEEINKLLHSFCRVCGRFKMLPEDVENFQIKIEAESKFNPKIRDKIAKQLFLKTKKIMLCSYCGAEQNKIEFLKPTIFHEITESGGATRLLPNAIRERLERITDEDLKIVNYNPSTVRPEWFVLQVLAVPPVAVRPSITLESGIRSEDDLTHKVVDILRVNQRVRESKESGTPPLIVQDLVDLLQYHVTTFFDNEVSGIPQSHHRSGRPLKTISQRLKGKEGRFRGSLSGKRVDFSARTVISPDPSLNISEVGVPVEVAKRLSIPEKYSKLNSEFLNKLVLNGSDIHPGANYVIRPDGVKIRLDYVEDKQALVDSLEDGFVVERHLIDGDTVIFNRQPSLHRMSVMGHSIRVLPYRTFRLHPAVCPPYNADFDGDEMNLHIPQSAESRAEALTLMMVHNQIVSPRYGGPIIGGTRDYITAGYLLTHEDTFLEEDEFSDLALAGGFAGKLPTPVKSNPNLYSGKQLFSLFLPEDFNYQLTSKWYRASQNKDSDVLIKNGELLSGIIDRAAIGSEEPDSILHRISKDYGPEEARTFLNSVLSVLRLFISNYGFSLSYKELTLDKPEEKRVYKSIEDSYLKVNELINKYQTDELDRTKGMTKEEALEAYIVNELSKARDKAGRVSDKALPDDNSGVIMARTGARGSSLNLGQMTAALGQQSVRGKRIQNGYSQRALSHFTKGDMSPDSKGFVKSNYRTGLTPTEFFFHAMGGREGLVDTAVRTQQSGYMQRRLINALEHIRVEYDRTVRDPHANIIQFLYGEDGIDPAKSDHGSAVNIVRQVDISMIDNKSKTKPNTKQIDTILKSYKSKFNPKMFEELVDSFSNNYITDFGMKQVSKKVLELYNKALVEPGEASGIVAAQSIGEPGTQMTLRTFHFAGVQEKDVTLGLPRLIELVDARKVPSKPSMDIYLHKSYRVSQLKALDVANKILYTTVKDLVYQTEVDYLEGIKLTFESDVLKNKVITLDEIGDIIIASKREIKQPIDYKNNSIMVLVEDSDAAALFSLRNKLLDLRITGIKDITNLTIVKKGSEWMIQTSGSNLGKVFKIPGVDTNRTTTNNIWETANVIGIEAARKVLINEITHTLDEQGLEVDIRHLILVADLMTSTGVLKSIGRHGIAGTKESVLARAAFEITVPTIAKASVTGEIEELKGVTENVIVGLTVPIGTGMIDIYMSR;locus_tag=LOCUS_1040;note=WP_052846236.1 DNA-directed RNA polymerase subunit A' (Sulfolobus tokodaii str. 7) [pid:53.6%25%2C q_cov:68.4%25%2C s_cov:98.9%25%2C Eval:5.1e-272%2C partial hit],MGA_104
sequence01	MetaGeneAnnotator	CDS	100396	100704	.	+	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINLKPFEKILKNIIKTGEVVFGYKESLSSVDESKLIICSSTVSDNNLELLKEKCTKNSIPFIITGRNSVSLSKSLAINHRISVFSILNADESDLNQILSKL;locus_tag=LOCUS_1050;note=MGA_105
sequence01	MetaGeneAnnotator	CDS	100764	101231	.	+	0	ID=MGA_106;product=transcription elongation factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876680.1;translation=MLKIKPDTIKITSEAFSLMSLFQKVTGAMARDCIVDNKVGRVIFLVNNGEMGLAIGKNGQSIKNIQKSIGKTIELVEYSDDPKKLILNALDSKLTGRYIHDIKINEKSNGRSTATVQVELNKTGAIVGRAGRNAEKARLLAKRYFEINTIKITNT;locus_tag=LOCUS_1060;note=WP_010876680.1 transcription elongation factor NusA (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.8%25%2C q_cov:93.5%25%2C s_cov:98.6%25%2C Eval:2.0e-28],MGA_106
sequence01	MetaGeneAnnotator	CDS	101293	101748	.	+	0	ID=MGA_107;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250029.1;translation=MVELIMGNKSPVGEFAARKQHNKRKYMRWSDGHYKRRVLKLDKKSDPLSGSPQARGIVLEKVGVESKQPNSAIRKCVRIQLIKNGKQITAFLPGDGALNFIDEHDEVNVEGIGGSTGGAMGDLPGVRWQVYKINDVSLNELVYGRKEKPRR;locus_tag=LOCUS_1070;note=WP_011250029.1 30S ribosomal protein S12 (Thermococcus kodakarensis KOD1) [pid:71.7%25%2C q_cov:96.0%25%2C s_cov:98.6%25%2C Eval:3.6e-56],MGA_107
sequence01	MetaGeneAnnotator	CDS	101766	102344	.	+	0	ID=MGA_108;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978220.1;translation=MLFRKWNFSDVEINDPGIKEVICLEPTIIPTSFGRHEHKRFAKSRVNIVERLCNNLMHFGKKKAKNSGRMAGKKYKSINIVKTAFEIIYLQTSSNPIERLVRAIENASPNEDTTTIAYGGVRYHVSVDISPQRRVDLALRFISLAVRETSFSTKKSAEEILANEIIMAAKNDSNSFSIKKKFEQERMAMSSR;locus_tag=LOCUS_1080;note=WP_010978220.1 30S ribosomal protein S7 (Sulfolobus tokodaii str. 7) [pid:53.4%25%2C q_cov:99.5%25%2C s_cov:93.8%25%2C Eval:2.6e-49],MGA_108
sequence01	MetaGeneAnnotator	CDS	102382	103050	.	+	0	ID=MGA_109;product=30S ribosomal protein S3ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978426.1;translation=MAKKRVRGKLKDKWKDKRWITVIAPRYFEHKPIAYIPITSEKYVLNKKVEISMFDIYKKEPQQHSINLQFQITGVTGNNASTILKGHEYSREYLRSLVRRGSSTLSFIHDYSTKDNHLVRIYFIAFAQGKLNSSKKHDIRLVVHNIFLEKCKSLTYSELSKEIVEEKLSSEIFNTIKKIRYLRNVAIHKTKLIKIPETIPDTTKEPLVVEEINNPEDTDISE;locus_tag=LOCUS_1090;note=WP_010978426.1 30S ribosomal protein S3ae (Sulfolobus tokodaii str. 7) [pid:38.5%25%2C q_cov:84.2%25%2C s_cov:96.4%25%2C Eval:1.7e-32],MGA_109
sequence01	MetaGeneAnnotator	CDS	103053	104246	.	-	0	ID=MGA_110;product=translation-associated GTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978424.1;translation=MKIGLIGKPNTGKSTFFNACTLLNVNMANYPFTTIEPSIGMAYVKTDCVCKELEVTDNAVNSICINHQRLIPVKIVDIAGLVPGASKGRGLGNKFLDDIRQADVLIHVIDLSGKTDEEGRILTESIRDPSKDIEMIESEFDTWIYNIIDKDWNNIVRTSKGDKNKFIDLLSNKLSGLAINQNHVIKSIDKSNLTTKNITEWTKENKKIFICELRKLSKPIVIAGNKIDLVESDEYIQKIQNMGRKIIPTASEAELLLRKASEKGIIQYMPGNNNYVINKDKEITPQQTKALETVKKYVLEKWATTGVQNVLNFAFFDLLDMITIYPVEDENKYTNKKGNVLPDAYLLKRESTTKELAYKIHSEIGNKFLYAIDARTKKRLGNDYKLQNNDIIKIVTT;locus_tag=LOCUS_1100;gene=ychF;note=WP_010978424.1 translation-associated GTPase (Sulfolobus tokodaii str. 7) [pid:52.9%25%2C q_cov:99.5%25%2C s_cov:98.2%25%2C Eval:2.3e-115],MGA_110
sequence01	MetaGeneAnnotator	CDS	104285	104983	.	+	0	ID=MGA_111;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870955.1;translation=MHNNILKNNKLYRGIIYDLDGTLNLSSEYYSVYGKYFKSLLSELLDQSIEDIDKLVELALKNKYGLTSLVRSLGIDSAFFYTKLADVIPISTLVSRDEKLIRTIEMINNMNIVQGVCSNTGYGLISKILESIGIKRYFREIISSDETGLKPSPEPYIYTLNKLKINAANCIYVGDRIKMEINTANILGMTTIFVQSYLMEGKNINYSNVDYIVGTIYEIPDLLNKINGGIYV;locus_tag=LOCUS_1110;note=WP_010870955.1 haloacid dehalogenase (Methanocaldococcus jannaschii DSM 2661) [pid:27.4%25%2C q_cov:93.1%25%2C s_cov:98.7%25%2C Eval:3.6e-12],MGA_111
sequence01	MetaGeneAnnotator	CDS	104976	105422	.	+	0	ID=MGA_112;product=50S ribosomal protein L15e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870497.1;translation=MYKHSSTIWKNIFKNNYKEIRERAIEWRKGSTITRLEKPTRLNRARTLGYKAKQGIIIVRIKVSRGGMRRPRPKAGRRQKHAGVVKMKANINMQQISENRVSRKYPNLLVLNSYFVYKDGKNAWHEVILVDPSHPSIKSDADFKYLVA;locus_tag=LOCUS_1120;note=WP_010870497.1 50S ribosomal protein L15e (Methanocaldococcus jannaschii DSM 2661) [pid:49.0%25%2C q_cov:98.6%25%2C s_cov:75.8%25%2C Eval:2.1e-37],MGA_112
sequence01	MetaGeneAnnotator	CDS	105469	106383	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNSYEVRVEKIIDESSDSKSFIFRPTSSDDGLYDYLPGQFFMLESEITRPETIVYDKESKQMIPRGPDVEVVEKKAYSVVSSPTQRGYIELMVKSEQGVFAPYLLNQLHEGDTCKLIGPTGKFMKEIFEKEIENIACWSAGSGIPSSLSLMQYCLDNNLNNKIIVFDSNKTQPDIIYHNKIKEMISKSKNFKAVFTVTRESPNTLPKSPPSRIYYSSGRFWINENTLAKYTDDRNIISKLFGRKRKIHWKDYYNTICGSSSFINGKGRDNQGKMAKLSEGVEDHLIKFECTPSNIDKDQYYLQ;locus_tag=LOCUS_1130;note=WP_011728662.1 3-ketosteroid-9-alpha-hydroxylase reductase subunit (Mycobacterium smegmatis str. MC2 155) [pid:22.1%25%2C q_cov:59.2%25%2C s_cov:44.7%25%2C Eval:4.1e-07%2C partial hit],MGA_113
sequence01	MetaGeneAnnotator	CDS	106384	106746	.	-	0	ID=MGA_114;product=peptidyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877304.1;translation=MSSLEVKQVIIVRIDLQMGKGKIAVQVAHASLSAADIVKKHNNSVHKKWKMNGQAKIVLKIQSLEHLLEIYNLSKKKGVHCYLVQDKGLTQVEEGTVTCLGIGPANSNDIDEITGELKLL;locus_tag=LOCUS_1140;EC_number=3.1.1.29;note=WP_010877304.1 peptidyl-tRNA hydrolase (Methanothermobacter thermautotrophicus str. Delta H) [pid:51.3%25%2C q_cov:95.8%25%2C s_cov:100.0%25%2C Eval:2.1e-27],MGA_114
sequence01	MetaGeneAnnotator	CDS	106810	107967	.	+	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871044.1;translation=MANNSDVVVAGGSLSGFISAREISKEGHSVTVIEEHDKIGEPEKCDGLVSIDALSSLGIIPNKKTIQNKIIGARFFSPSGKLLDIDSSNLDIVVLNRKKFDIELCDNAMNDDTVVEKSTRFINSRLHDDEIIINTSQNQYRCKYFVDAMGISSLMKKQKFGVLQAAKYIIKADWFEPNKVDLYFNQSLSPGFFTWVIPIHENLAKVGIAGYGINSFHNLDYFLKDRECTIMKKIACPIIVSGPIDHFINNNVISVGDSAGQTKPSTAGGIYSGGIAGLFAGQSIHKSLETKQDFLFDYERKWSNMFSSEFTSTRLFRKIFNRLENKQLDNIFDILSSSSDFQDSINKIGDFDFHSLTLLQALGIKKITKLFNVVSSNELTKLFKK;locus_tag=LOCUS_1150;note=WP_010871044.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:29.6%25%2C q_cov:94.0%25%2C s_cov:96.4%25%2C Eval:6.8e-32],MGA_115
sequence01	MetaGeneAnnotator	CDS	108016	108270	.	+	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDHPAKEAPAKEAPAKEAPAKEAPAKEALEIPTCTSCHRPLLPGELSVKFQCPNCAETTVWRCSKCRKFSRSYVCSKCSFEGP;locus_tag=LOCUS_1160;note=WP_010877306.1 RNA-binding protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:52.0%25%2C q_cov:59.5%25%2C s_cov:90.6%25%2C Eval:2.2e-08%2C partial hit],MGA_116
sequence01	MetaGeneAnnotator	CDS	108282	108566	.	+	0	ID=MGA_117;product=elongation factor 1-beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869959.1;translation=MSILVARIKILPTEPGINASKLESLITDILPDKTKLRQITDEPIAFGLFTIFADIEFEDISGTLDILEDSINKLDKVSELETIAVSNTSTGTGE;locus_tag=LOCUS_1170;note=WP_010869959.1 elongation factor 1-beta (Methanocaldococcus jannaschii DSM 2661) [pid:37.9%25%2C q_cov:91.5%25%2C s_cov:97.8%25%2C Eval:2.5e-12],MGA_117
sequence01	MetaGeneAnnotator	CDS	108586	110052	.	-	0	ID=MGA_118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRNLIFINEKIDKQLVLTLNELGINNPTEIQEKVIPNLMDGKDIIAQSNTGTGKTLAFGIPIVQSVEEKTSEIEVLVVVPTRELSAQVMSDIKKISRYKKLRITKICGGESPNIQRASIRKGPSIVIATPGRLIDFIERGVIDLNWVKFIVIDEADTMLEMGFIDDIEFIIRSIRNKHQTALFSATFPKPILQLAKKYQKQAMRIMINEDNRISEEKLEQYYLCANSEKNKTELLFELIEDIEPKKTIIFCRTKSDSYRIHKFIKNLEIRSVLINGDMSQVQRDRSMNGFKQKRTKIIVATDLLSRGIHVENVDYIINYNVPKNRDSYFHRIGRTARVTPGHVDGNTGTAITIVAGSRETWEFQELKRKIKSTIKNFEGKTTYRYEIPLEKVSRKPDNRRNSRYGRNRSNRNSPRNRSEYSPRNRGGEGNRSEYSPRNRGGEGNRSEYSPRKKVYGNRKPSEFKESKNSNQKKPYKKKWNSNKKKKY;locus_tag=LOCUS_1180;note=Q97EU6 DEAD-box ATP-dependent RNA helicase CshA (Clostridium acetobutylicum ATCC 824) [pid:38.3%25%2C q_cov:77.0%25%2C s_cov:70.1%25%2C Eval:1.5e-74%2C partial hit],MGA_118
sequence01	MetaGeneAnnotator	CDS	110127	111410	.	+	0	ID=MGA_119;product=oxidoreductase FixC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461742.1;translation=MTFDYDVIIVGAGPAGSAAAYSLAKNGHQVLILERGKEPGSKNMYGGRIYSYSLSELIPNFADDAPIERNVTKESISFMTENSSFQTTFSSIHSTNHGFTAFRSNFDKWFANKAIEAGAELFPEIKVDDVIIDKTGIIGVKSGNDEIISKLVIAADGATSIIAKKAGLRNQFLSEYFSVGVKEVIELSENVINDRFGISKDNGSALVCVGYPTNYLRGGAFIYTNKSSISLGLVVKGIDLVDKKIQVSSLINQFKNHPDIYPIIKDGKVLEYSAHLVPEAGFNMMPKLFNDGILVCGDAAGMLLNNGYTYRGVDIAISSGIAAAETFMLANNNNDFSNSSLSNYEKLLRQRNVITDLKKFKKGPKYMTNQRLYSEYPKLICDIFENLYNIDGNPQKYIREIIRSSIKENKISTLDLIIDSIKGSNSL;locus_tag=LOCUS_1190;note=WP_011461742.1 oxidoreductase FixC (Desulfitobacterium hafniense Y51) [pid:42.2%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:1.7e-95],MGA_119
sequence01	MetaGeneAnnotator	CDS	111416	112384	.	-	0	ID=MGA_120;product=electron transfer flavoprotein subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005817156.1;translation=MSGILSIIEIKNNEIKNSSLEVLTESRRISIEKNQDNNVMIIGGSDENNINTLKEYGIKSLFIDATKTIEKYSPELYRDVILEVIKLINPEIILFSGTSIGKDLAPRVSSNIKYNLVTECIDILIQSDGLQIKRPIFAGKIIETLKFTTNSIVLSLKTNSFNIEKVEINEPIIKHVNYQRTNNDKLPTLKETIYPQKETLDVSEATIIVSGGRGMKESKNFKLIEELAEILEAAVGASRAVVDAGWRPHSEQVGQTGKIVSPNLYIACGISGAIQHKVGMINSKCIVAINKDKNAPIFKFADYGIIGDVFEIIPDLIKELKK;locus_tag=LOCUS_1200;note=WP_005817156.1 electron transfer flavoprotein subunit alpha (Desulfitobacterium hafniense Y51) [pid:38.5%25%2C q_cov:99.4%25%2C s_cov:98.2%25%2C Eval:1.3e-57],MGA_120
sequence01	MetaGeneAnnotator	CDS	112395	113150	.	-	0	ID=MGA_121;product=electron transfer flavoprotein subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000692397.1;translation=MKIAVCLKQVPDTATQLKISSDNKEIEQTGIKYEINPYDEYALEEALRIKDKDNSVKITVISLGPERVKQSLTKMLAAGADDAIHIQTEDNIIDCSYVASILSKEIKKQQYDLILFGKKSVDQDNNQVGIMIAEINKISCISNCSEFKLDDKKIIANREVEGAIEVFKGELPLIITHEKGKNELRYPSLKNLMRAKKKTINIIKINETIKNNYEVIKLEYPPKREEGKIIGENKSAVHELIKILRDEKKLI;locus_tag=LOCUS_1210;gene=etfB;note=WP_000692397.1 electron transfer flavoprotein subunit beta (Leptospira interrogans serovar Lai str. 56601) [pid:35.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-39],MGA_121
sequence01	MetaGeneAnnotator	CDS	113232	114596	.	+	0	ID=MGA_122;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877192.1;translation=MTNKKKLFGTNGIRFIPGHEFGLDFVVNIGLSVGTFFQGNDIIVGYDGRNSSPSLSKAISSGLMESGKNITDANMVPTPGLQLITQKSYDGGIMITASHNPPEYNGIKVISSNGIEVSRKEETIIENIYFQKKYSRKNWQNVGHMSYNSSVISDYINSIIRNINSLSIKKRGLKIVIDSGNGTQALSAPILAEYLGCKVISLNSHIDSNFSGRGGEPTPKTLDLLSKSVIENQADIGVGYDGDGDRSIFCDENGIVFWGDKSGTLVAKHLILNGMKSPIVTTIATSQIIEDIASNYNVDVYRTKVGSVDVSHKMIELDSKFGFEENGGCLYSPHIAVRDGAMGTALMLELLSSSDKPLSKHLAELPNFYQSKTKFSCPIDDRDSILSSIASSLTEKIDQTDGLKIFWTDKSWSLIRPSGTEPIIRLFSESHSKSQLETITQKCSKLINEHVTNL;locus_tag=LOCUS_1220;note=WP_010877192.1 phosphoglucosamine mutase (Methanothermobacter thermautotrophicus str. Delta H) [pid:38.5%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.8e-90],MGA_122
sequence01	MetaGeneAnnotator	CDS	114605	115906	.	-	0	ID=MGA_123;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868179.1;translation=MAVLTISGLRGIVGKDLTNKDIMKIIYDFIHSSKIKTCAIGRDTRTTSDMLHQIVLSVLIAEGCNVKDLGVTSTPSVFRHTKKNDLDGGICITSSHNPKEWNGLKLIVRPGRIIKPIELKNISTQNNIFTGVLIESETCYYNDLLEFFNQNKFHKLKIAMDFGGGAASVFVRDIFTKLGCQIYTINDFPGIFNRIIDPTEDSLKSLSELIISNNCDIGFAFDADVDRLVIMNEKGEKAPPDFSLLSGIKYVEQRFGLNKAAISIDSSLSIINYLKKINCNIITTQVGEGNVLEKILSEGCDIGGEGSSGGFIYPDFNLCRDGVLLALMTSYLVEKFGKLDKVFSGIEEFNQSRIKIKTDPNNFNIIKKHFAKRNDVILIDGIKITPTENSWVLIRPSNTEKCIRLSAEAKNFNESNKLIEEYKNLINELLKDK;locus_tag=LOCUS_1230;note=WP_010868179.1 phosphoglucosamine mutase (Pyrococcus abyssi GE5) [pid:28.6%25%2C q_cov:98.2%25%2C s_cov:97.6%25%2C Eval:5.1e-47],MGA_123
sequence01	MetaGeneAnnotator	CDS	115999	116442	.	+	0	ID=MGA_124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSPFIDYSKYFSILFSIIIISLIIVFITRVRGGLSAIVLSILALLLFFYWANEIRLTLKKQPGLGIIRSSKKLTYEFIKTTNGVDLIAQISGQQNNLKVNLSDNKIIISSNDGLFKKIKVSKNLRILNYHFKNGTLTVHLLYNTI;locus_tag=LOCUS_1240;note=MGA_124
sequence01	MetaGeneAnnotator	CDS	116435	116956	.	-	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKINLKEIFPKHWINTFSFILVFLFFIGLIGSAISLDLGQASDILEQAQELIPEDIDARTIFLNNFRIAMIMMIPIIGLMLGVLIIFQTGIVFGAAGSSVGISGILLYIVTALTPFFWLEFIAYAASITEGIYIIRGIIEKKINLEIKRILLIIILNFSLLLFGAIIEIFFI;locus_tag=LOCUS_1250;note=MGA_125
sequence01	MetaGeneAnnotator	CDS	116962	117243	.	-	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDWEVLLPALSFTIVGALGIWISFDTNFLFPAETFVQGLHATSMFVLALGLAFIPGGLFKGGTPQPSGIGLAVIVTLITMAGALGVLFLILNI;locus_tag=LOCUS_1260;note=MGA_126
sequence01	MetaGeneAnnotator	CDS	117293	117994	.	-	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGIQIEKMFLIQKELLSRNKPVKLNLRSLTYELITKKRYKKIFISSVIIYSIIFSIISGTVIYQSSINFSEAFNVSIPSIKVIYCCGSIGQYPNAAIYLTEHIGAMLIPISIVLLITISTLVAWNVMFIAFALNNRPKNNGKWLLSIGAIAGLFTGCPTCAGFLLTSVVPGSFVISTTIGSFILFTLSNIYYQMIFLVITLLLLMVSPSIMMGNIKELYEKGCIIENTTIKE;locus_tag=LOCUS_1270;note=MGA_127
sequence01	MetaGeneAnnotator	CDS	118421	118987	.	-	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKDNNPLKGIFTISRFGIFVITAGITAAGSLGLPETSIFEIFPANILNSIDASGEIISSKTIITLLTIIPGFILAPFIALFGMAAIFGITLGHLVIATTSQIGSIDLLSPVFTFLGLFFIRQYKKPENIIGPLIFVLITSLWLSYVGVSITGLDMLPIISFTFLSQLGIVLTGYVLYLIAKQLKIFE;locus_tag=LOCUS_1280;note=MGA_128
sequence01	MetaGeneAnnotator	CDS	118990	119910	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMGKKVKCVYNINFLTKMANNETKKEEYEHHVDTEQVHSYLPAIIGLTAGVFVAAGVIFMLKGFSMALGAGLVMLFILLILIFVNGEIPRWPHIAKESEKMVKAGGTPGKFHEIGDVGFPTALFLLSEIAFFGGAFIAYFYLRSSYAIWPPEGIHHLDVAIPSIQTALLIASSIMIEWATAGVKKGNNNAVKFGFLGAVILGLGFAVIQMGFEWPNLLSSGELTPQDGLFGASFFLLTGIHGVHVIAGVIANAIVTMRAFRNQFDKENHGFLEAAGTYWHFVHIVWLFLFAFLWQDGLSYFQAAL;locus_tag=LOCUS_1290;note=WP_011142159.1 cytochrome b6 (Gloeobacter violaceus PCC 7421) [pid:37.4%25%2C q_cov:60.8%25%2C s_cov:86.5%25%2C Eval:6.6e-29%2C partial hit],MGA_129
sequence01	MetaGeneAnnotator	CDS	119957	120262	.	+	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNYSLYLNELEELRSKQISSKVSQYRKFSVILAVLIHFFALVTGVILLVVFSYSLITMLIFHVTMQMLAYLNIYFGPKLYKKHLRKKIIEPDQIMLNRLK;locus_tag=LOCUS_1300;note=MGA_130
sequence01	MetaGeneAnnotator	CDS	120341	120598	.	+	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILSTFDRIVWGFTIIFTFIILFIVGGGWLLSWYPDPISARAALIKQYYDIVFIAGTMVSAIFIGTFFYLILKFWDRDQPAGLE;locus_tag=LOCUS_1310;note=MGA_131
sequence01	MetaGeneAnnotator	CDS	120601	121026	.	+	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTLEKLEWATIIGAAILLFILGVLSIPILQSLDDPDYYGEPDYVVKVQAAQWSWNFIYPDGHESGELKIKNGDVVRLELESSDVIHSFYIREMGFKVDIIPGKTRIHVISAETPGEYWIQCAEFCGAYHGGMRSKLIIEE;locus_tag=LOCUS_1320;note=Q7NIL9 cytochrome c oxidase subunit 2 (Gloeobacter violaceus PCC 7421) [pid:38.8%25%2C q_cov:81.6%25%2C s_cov:37.7%25%2C Eval:5.8e-20%2C partial hit],MGA_132
sequence01	MetaGeneAnnotator	CDS	121033	122562	.	+	0	ID=MGA_133;product=cytochrome c oxidase subunit 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NMM5;translation=MEIQEDKKETITKEEHHFYSSWKTVLTTTHHTDIGIMYLVFSLFFFFMGGFASLLVRYGLTRGGSISPEAYSSLFTIHGVSMIFLFIIPAWAGFGNYLVPKYIGAKDMYFPKLNALGFWLLPPAAFLIWAGMPNVGWTAYAPLSVYEAGWGMDMTILGLHLVGTSSILGGLNFIVTIMKMRAPSVTYRNMPLMVWTQLTTSFLQVLATPVLAMALTLLLLDRNLGTGFFNPVLGGDPIMFQHLFWFYSHPAVYIMVLPGMGLVSQILPSMSRRRIFGYSSIAVSTALIGFLGFGVWAHHMWTTGLSMTARIPFMFVTLAIAIPSGVKIFNWVATLYGGKLKLSTPMLFSLSFILSFIIQGVQGVFLANIPLDYQLQDTYFVVSHLHYVLFGVSAQAVFAGIYYYFPYMTGRKYNETLGQIHFALTTVGMYTLFTAMQFLGLEGMPRRYYQYLPEFFNLNVAASFGALLIATGALVFLYNILSSWYRGPAVANKEDPWKLSDYNLKEWPE;locus_tag=LOCUS_1330;gene=ctaD;EC_number=1.9.3.1;note=Q7NMM5 cytochrome c oxidase subunit 1 (Gloeobacter violaceus PCC 7421) [pid:46.2%25%2C q_cov:93.7%25%2C s_cov:88.8%25%2C Eval:2.2e-129],MGA_133
sequence01	MetaGeneAnnotator	CDS	122570	122998	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFRIFSISSAIGIYVLIVLGGITTQSGSGMACPDWPLCFGELLPNLTTAIIIELAHRYFAMIVGFLILGTFILAYRDHKDSKYLLASSGITLVLVIAQGYIGMLTVTSVLDPAIVTLHLATSTALFGFSIITALLSLKTN;locus_tag=LOCUS_1340;note=WP_001087694.1 cytochrome oxidase assembly protein (Leptospira interrogans serovar Lai str. 56601) [pid:36.2%25%2C q_cov:89.4%25%2C s_cov:40.3%25%2C Eval:3.0e-19%2C partial hit],MGA_134
sequence01	MetaGeneAnnotator	CDS	123014	123682	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIYNKTVNIFQEGLLKILLGNAFILLMLSSTFERYEVENLFFHIMIEHILYLIVGFLFGSGSDSIVQSFKSNTSIYGKNIIKYYSRYLILNNRYNPFGLTTGLLFIVTLFYWHIPSNFDQAIINYNAHIFMHISIIFSGIFLYTTFKMISRIQSLLFILSIDKVMGIFGFFLTEGSNQIYQTYSLSTQMISGFWMILMMVGIDLICISLILLIYFKLSDK;locus_tag=LOCUS_1350;note=MGA_135
sequence01	MetaGeneAnnotator	CDS	123718	123897	.	+	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMIDIFNIFMNLFIMMYQSDGHNIKGTKQIILSLAVFFILFVAIYLLWQTFYNIPSNQS;locus_tag=LOCUS_1360;note=MGA_136
sequence01	MetaGeneAnnotator	CDS	123959	124903	.	+	0	ID=MGA_137;product=protoheme IX farnesyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846973.1;translation=MSSNSKSINYRTLVSQLIEVSKPSIIYLLDFVAISALLIAYLDVNYVTDPANLSLRTIEGFTIVVGLLFAGTFSSAGSAALNCYVDRDIDIKMERTKNRASATGQLPPNITLIYGIIMIVLAAIISTIFLNLLTTGMILLGSFFYVFVYTIWLKRKTTWNIVIGGFAGSAAAFAGWTAITGQLNLIAILMGSLVFIWTPSHFWALALLKDDDYTAAGIPMLPVVVGKVKAARYTIINTLLLIPFSLVFVLFGFGYVYLTISVIFGILLLYSNVKLLQSPTDKKVALTAFKFSSPYLAIIFIALILDVLFRIPIF;locus_tag=LOCUS_1370;note=WP_052846973.1 protoheme IX farnesyltransferase (Sulfolobus tokodaii str. 7) [pid:38.5%25%2C q_cov:91.7%25%2C s_cov:94.5%25%2C Eval:3.0e-48],MGA_137
sequence01	MetaGeneAnnotator	CDS	124900	125397	.	-	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKMGKVSRSIIMEAPVDDVFMYYARPEHVAGHFPKESKMKVIPIKITEGWGVGTVMRIIGEFGGRAMQWDSITCEVTKNKKIVSKALNGPFKKNVITVNFEEINNATKVTFEADYVLPYYIIGIMIDRIRLRKYVIKGMDTSLQEVKNSVEEKHKEEITVKSTN;locus_tag=LOCUS_1380;note=MGA_138
sequence01	MetaGeneAnnotator	CDS	125451	125672	.	-	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNIVNKAIEYVNHFGYIQWDELKEISHNKKSSIWTVKFSAKQNETKEIFLYTLDIDDLSGNISNMQMTDD;locus_tag=LOCUS_1390;note=MGA_139
sequence01	MetaGeneAnnotator	CDS	125669	125980	.	-	0	ID=MGA_140;product=putative pterin-4-alpha-carbinolamine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MAI8;translation=MEESYRKLNNEEIDEKLSKLDNWIKENNKIKKSFKFKNFADAFTFMTRVAIEIEKINHHPEWFNLYNKVEVELTTHDIGGISNFDFKLAKIMNDVEKIFQNYE;locus_tag=LOCUS_1400;EC_number=4.2.1.96;note=C3MAI8 putative pterin-4-alpha-carbinolamine dehydratase (Sinorhizobium fredii NGR234) [pid:51.7%25%2C q_cov:84.5%25%2C s_cov:84.8%25%2C Eval:2.7e-22],MGA_140
sequence01	MetaGeneAnnotator	CDS	126303	127610	.	+	0	ID=MGA_141;product=elongation factor 1-alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978219.1;translation=MADKPHLNLIIAGHVDQGKSTIIGHLLVDLKVVDERTIAKYAEESEKTGKGDTFKYAWVMDNLKDERERGVTIDLAFKKFETKKYDFTLIDAPGHRDFIKNMITGASEADAAVLCVSAKPGETEIAVGVGGQSREHCFLLKTLGVKQMIVAVNKMDDTQVGYKKERFEEVKIEVEKLLKGVGWDLAKTPIIPVSGWKGDNLITKGDNLAWFDGKTIYEAFDDFEIEAPPIDKPLRLPLQDVYSITGVGTVPVGRVETGTFKVGEKVIIMPSGASAEVKSIESHHVDMSQAQAGDNIGFNLRGVDKKDIRRGDVIGTADSPPKVVKEFTAQIIVVHHPTAIAPGYTPVIHAHTAQAAATITAIVSKLDPRTGGVLEESPKALKTGDAAIVKIQPLRPLCLETFGNFPQLGRFALRDMGTTIAAGVVKEINQEWEIS;locus_tag=LOCUS_1410;EC_number=3.6.5.3;note=WP_010978219.1 elongation factor 1-alpha (Sulfolobus tokodaii str. 7) [pid:55.4%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:2.0e-139],MGA_141
sequence01	MetaGeneAnnotator	CDS	127671	128723	.	+	0	ID=MGA_142;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000818915.1;translation=MTKVSLNDVSKTFKNSSTDAVSKVNLKIHDEEFLVILGPSGSGKSTLLRLIAGLEDLTSGDVYFDSEIMNEVSPRDRNISMVFQNYALFPHMNVFDNIVFPLVSSGKSKLEITEDVNRIASILKISDLLERKPSELSGGEQQRISLGRAIIKKPKVFLMDEPLSNLDASLRAELRTEIKKLHEDLKITFVYVTHDQTEAMTMADRIAVIKDGKLLQVGTPKEIYNSPNHSWIGSFIGSPPMNLIHATAENDSLVINSQTLNLKISSSSQDILIGIRPENITINSSEGRLTGTVLFLEYLGDSNIINVQIEKEIIKIKVSNDSKFSVGDKVWINFSDNDINLFDNNGKSLK;locus_tag=LOCUS_1420;gene=ugpC;note=WP_000818915.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Staphylococcus aureus subsp. aureus N315) [pid:46.4%25%2C q_cov:98.0%25%2C s_cov:97.8%25%2C Eval:1.0e-84],MGA_142
sequence01	MetaGeneAnnotator	CDS	128730	129611	.	+	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVPYKFLIPCLIIIFLVGIGPVFQSFLLSLSEFSLINPSQSPVGFQNYIALFSDSIFWNAIKVTLLLVFGSVFLELAVGIFLALLITNSGPRARGVFSSIFVIPIAIAPIVVGILWSPNSVFDDLNTLLYYGLSLGAYIDTTIPIIYYSLIIISDAYIWAPLIMLVTVAIIRSIPKEQYEAADVMGASSWQKFQKITFPKIITSPALVVTLLLRITDAFRMFEVPYAWNFWLGQDSELGSSVDTVSVLMWKMFSSTMYDFPIAQITAIAIVLLVITLSTCAIILRRSSTLMD;locus_tag=LOCUS_1430;note=WP_003894671.1 transporter (Mycobacterium smegmatis str. MC2 155) [pid:27.7%25%2C q_cov:76.5%25%2C s_cov:68.8%25%2C Eval:1.3e-23%2C partial hit],MGA_143
sequence01	MetaGeneAnnotator	CDS	129616	130491	.	+	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSKNNNSRYIRYMLLAAASLWVLWPISIMVEEGFRVDIGPLFSGRGASFIGEFFQGQGGIRFSTIEYTKALRIEAYPRLLMNSVIIAVSSVLIAILAGLPAGFTLALYRFRGKSFITYSLLAMRTISPFAVLLPFFLIYGRLGLFDTYQGMAIVYLIINLPIITMMMRGFFKDIPKEIFEAAFMSGASDSYILRKIALPLALPGLAAAAVFAFVGTWNEFFYALFLTGTVTKTVSRGVWSGFSESIESFKILEFDELNAGGTLAIIPAVILSLAVQRYLARGFTLGAAD;locus_tag=LOCUS_1440;note=WP_013533026.1 maltose ABC transporter permease (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:33.9%25%2C q_cov:79.7%25%2C s_cov:74.3%25%2C Eval:2.8e-29%2C partial hit],MGA_144
sequence01	MetaGeneAnnotator	CDS	130491	131828	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIKNNQIAVIVVIILFLGTILVYFSLGQSETVDVLPSNENELLSLAKESGKLSIFVDDAVYDESFFNYLDKEFSTKYGIDVEVKTGHWSGLQTQLINEKVSGRSSGPFDLVILSDEATARLIEKQLTFSQTANIISDISSSTITDEVIKSKIAGVDNDGSSVTLWFDVYSYMYNSDEFYKFENVYCYLGLVGEEEEDDDDDDEERCQNVDDDDHDDGDGSGNGDDDDDDDDEETEGIFFPNPVEEQAGIALVVNTVLHYGSSGYYAASYDNSLESEWPELLNFEIEDEPEMEEMDELFGEIEEEIEIDSILEVFDEEEILVGYFRYGSILLESINREIDDEIKVYFGIEGSVKTSVHATIPFNSPNKAAATLMINEILSDNSQIQIASIYGSYPSANIDVFADIFSNAQFYIPFEDISDSLYEWPYYSYPINILDMWRVLFEG;locus_tag=LOCUS_1450;note=MGA_145
sequence01	MetaGeneAnnotator	CDS	131828	132289	.	+	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIVIDSIINRTNNLLNKLNRKNFSALLIIFLLLFVFYLRANAMNLSSQYSSDLESDIENIPTNQLSNTTFFSDVPVSIYTIEGNEKSIIITYVTLINLISGEYEIDLSDHDEFNSVEVQNYYLPGTYKVYVTIENDILILLFERSVGDYNKL;locus_tag=LOCUS_1460;note=MGA_146
sequence01	MetaGeneAnnotator	CDS	132298	132702	.	-	0	ID=MGA_147;product=methylmalonyl-CoA mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173118.1;translation=MSEKIRILVAKPGLDAHDRGILVLCKALRDAGMEVIYSGLLPTPEQVAKIAIDEDVDAIALSLHNGAHLTAFPEVKKYLEIKGIKDIQIIGGGIIPKEDKKELEKNGITGNFGPGTSMETIIEHIRKVVKNQRN;locus_tag=LOCUS_1470;note=WP_011173118.1 methylmalonyl-CoA mutase (Thermus thermophilus HB8) [pid:51.9%25%2C q_cov:96.3%25%2C s_cov:90.8%25%2C Eval:5.8e-33],MGA_147
sequence01	MetaGeneAnnotator	CDS	132719	134458	.	-	0	ID=MGA_148;product=methylmalonyl-CoA mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867965.1;translation=MLETENYWKYKINELTKKKKNNLDFNSKIKEINENCKRWENEVLEQWTNKSLNKDEKYETTSEINIKNIYTYTDIQNNLDNSMPGEFPYTRGPYPDMYRGKKWTMRMFSGFGTPEDTNKRLKYLIENGQTGLSIAFDMPTLYGYDADNERAKGEVGKCGCSISSLEDMEILLKNIPLNEVSTSMTINAPASILTAMYMAVALKNNIPTRELRGTVQTDILKEYIAQKEWAYPPKDHMRIIRDMMEYCTKEMPKWNYVSISGYHIREAGSNAAQELAFTLANGFTYLELGQQAGLKIEEFAPRLSFFFNSTMNFFEEIAKFRAARRIWATVLKEKYGVNDEHSLLLRFHTQTSGASLTWQQPMNNIIRTTIEALAGVFGGTQSLHTNSYDEAWALPTEEAVKVALRTQQIIAEETGITNTVDPLGGSYYLEHLTNELEEKAYRYFDKIDSIGGVISAIEEGYLQKEIAETAYRNQLKIEKEKEIIVGVNKYAEAKGEPIKILKVDDKAQEIQINRLKELKNKRDNKKVSEVLKNLRRTYEDSNKNCMYDTIKAVQAYATLQEIVDIGREVFGEWKEPQIF;locus_tag=LOCUS_1480;note=WP_010867965.1 methylmalonyl-CoA mutase (Pyrococcus abyssi GE5) [pid:54.7%25%2C q_cov:95.3%25%2C s_cov:98.9%25%2C Eval:5.4e-175],MGA_148
sequence01	MetaGeneAnnotator	CDS	134583	135524	.	+	0	ID=MGA_149;product=methylmalonyl Co-A mutase-associated GTPase MeaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249284.1;translation=MTSDFVSSILSGDRRTIARMISMIEKNDPRIIDILTELYPKTGNAFIIGITGPPGTGKSTLINQLINSYRKLNNKVGVIAIDPSSPITGGSLLGDRLRMNNHNLDSDVYIRSMTSGNKSGGISRYTRRSISILDASGIDIIIVETVGTGQSEVDILKITDAVVIVLMPELGDDIQINKAGLMEIGDIFVVNKSDLKGSDKMYTKLLKGISAKNDNWLPKVIKTISTNGDGIDDLIESISDRKNFLNELSNNTSNKKMKIENQILEILIDEINQSFIKQIENHPDLDKLVDKVLMKQIDPEQAAIILKQKLENK;locus_tag=LOCUS_1490;note=WP_011249284.1 methylmalonyl Co-A mutase-associated GTPase MeaB (Thermococcus kodakarensis KOD1) [pid:43.5%25%2C q_cov:96.8%25%2C s_cov:96.2%25%2C Eval:3.6e-70],MGA_149
sequence01	MetaGeneAnnotator	CDS	135528	136265	.	-	0	ID=MGA_150;product=GTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879698.1;translation=MKNIFFTGTAGSGKSQLTSILSNWYQQEEKNVITVNLDPGVNNLPYGIDVDIRDYINLKDIMEKYNLGPNGSLILASDLIATKLQQIEEEIFEYNPDYVFIDTPGQIELFAYRKSGPYFVKNINNEANVNIFLFDATLVSDPTNFLSIALLASSIKLRLAIPQISVLTKKDLITDNQSRILNWADDFSELMNDLKEGEIYDFTSRMAETMMESNIIDELIPISAINNEGIVELIASISRIIDRGE;locus_tag=LOCUS_1500;note=WP_010879698.1 GTPase (Archaeoglobus fulgidus DSM 4304) [pid:38.3%25%2C q_cov:98.8%25%2C s_cov:95.3%25%2C Eval:5.0e-47],MGA_150
sequence01	MetaGeneAnnotator	CDS	136371	137180	.	+	0	ID=MGA_151;product=competence protein ComA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979458.1;translation=MTYFDVVSIGNELLSGRTTNTNLQTICKHLDNIGCQVLKAYVIRDKLNEISSILDLCISSDSDWIIISGGLGPTYDDITLESVSFTLNLPLKINQIALKMIVQRYNILVEQKIIKNFILTESRKKMANLPIGSIPLKNRIGTAPGVLIKHNRKNIICLPGVPKEMEDILINEVLPLLDKTQLHKSKQKTLSIKYVSESELAPIINDLSLSDEEVYIKSHPRGINEGIYDIEIIISVRSATESESIVKLNSITDTLISSIKNLNGIIIDQ;locus_tag=LOCUS_1510;note=WP_010979458.1 competence protein ComA (Sulfolobus tokodaii str. 7) [pid:37.4%25%2C q_cov:98.5%25%2C s_cov:97.7%25%2C Eval:1.6e-41],MGA_151
sequence01	MetaGeneAnnotator	CDS	137184	137399	.	-	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPETKCPECDGIMNFDYMTRKMACKNCGLFTSRDELVNLRDKIRDKQYDERESPKRGNDYLQWWLSDKKKK;locus_tag=LOCUS_1520;note=MGA_152
sequence01	MetaGeneAnnotator	CDS	137650	138783	.	+	0	ID=MGA_153;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879245.1;translation=MTPGLAFFYGGLVRAKNVVNMMMQCFMIMGVVSITWVLWGYSLAFGPSIGGFVGGLSHIGLNGVSGAENISFVVFQMMFAIITPALIVGAIADRFKFTTLIAFVVLWSTLVYSPIAHWVWASGGWLFEMGALDFAGGTVVHISSGMSALVAAIVVGKRTGKLDSIKSHNIPFVLLGAGLLWFGWFGFNAGSALAADHVAANAFLVTNTSAAAGALMMMFLSMRAGGGPSAVMFATGAIAGLVAITPASGFVGPVAAILIGAGVGLVSWFAIQYKNKRGWDDSLDVWAVHGMGGVWGALATGLFANAAYGVGVDGAFAGNVAQMLPQVTAVVATAAYAILITFILLRVLDSTLGLRVSSSEENAGLDKSIHSEEAYQN;locus_tag=LOCUS_1530;note=WP_010879245.1 ammonium transporter (Archaeoglobus fulgidus DSM 4304) [pid:55.1%25%2C q_cov:99.5%25%2C s_cov:95.1%25%2C Eval:3.2e-111],MGA_153
sequence01	MetaGeneAnnotator	CDS	138878	139765	.	+	0	ID=MGA_154;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978942.1;translation=MPEWIVMAGPSSKKLSKSMSKSLDLDLFEVETKLFPDGEKKIRINNDVQNKNIIFVQSLYPPIDKHVIQFLLTVYKLSQMDSKVYACVPYLAYARQDLEFQRGEVASLAAVSRLFHSVGVHSLVTVDIHSTHGLGYFSFPIYSVSAMPLLANYVSNNLDLHSPLAVSPDFGGSARVEAFSKLLDVEYISLKKSRSRTTGEVIMEDSNVEVAGRDILLVDDMISTGTSIVRAANYLKKLGSRKIIALCTHALMVNNAAESIKDAGVNAVISTNTIPNDVSKVDVTEILVDHYKSLQ;locus_tag=LOCUS_1540;note=WP_010978942.1 ribose-phosphate pyrophosphokinase (Sulfolobus tokodaii str. 7) [pid:37.0%25%2C q_cov:95.6%25%2C s_cov:96.9%25%2C Eval:5.3e-52],MGA_154
sequence01	MetaGeneAnnotator	CDS	139824	140780	.	+	0	ID=MGA_155;product=tRNA (guanine-N2)-dimethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876363.1;translation=MFGILESNNIQYKILEEQSRIIILSFMAYDKKYDEFFKRIAYCNYFGILLFHYSSDLNVLSYNEKCRLYLDKIKTFSVRKLNVPNKIDIEYESIIGGLIKDSFPKLTVNLDNPEVSLFICKINNAFLIFSNHLIQDSPRWLNRRPRARPFFLPFAIHPKLSRALINLCRLKPNQTLLDPFCGTGSIGIEASILNINFIGVDISRKICLGAQRNSNYFKLKKFNIIHADSLQLPISEVDGIVTDFPYGRSSIKKFSNIHNFMEDFFNEISVLLKENSYFVYMIPKDWPEYLHPNYNLIDQHEIYIHSSLTRIIKVVQKY;locus_tag=LOCUS_1550;note=WP_010876363.1 tRNA (guanine-N2)-dimethyltransferase (Methanothermobacter thermautotrophicus str. Delta H) [pid:27.0%25%2C q_cov:98.7%25%2C s_cov:93.5%25%2C Eval:9.2e-29],MGA_155
sequence01	MetaGeneAnnotator	CDS	140764	141783	.	+	0	ID=MGA_156;product=ribonuclease Z;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022970.1;translation=MFKNTEYLLFIQNYNSMIIMSDLKIILLGTGGAIPTSKRNLISSVIIRNGELFIFDTGEAIQQSMMKSKVGMNRPTNIFISHMHGDHILGLLGLIQSMSLLLRDKPLFVYGPFGLSKFLKTNIKLLNLKLNYELIIQEIDSGLVVKKNDYKIYAKKGKHSITNYSYIFVELDRPGKFNVSKINKLGIPEGFRWSKLQHGHSIRYKGKTIKPEQILGRSRPGRKIGISGDTRPSKPLTRFFSSCDVLIHESTFSKEEKDLAIKRFHSTSTEAAIVAKESSSNILILTHFSSRYENVKLLEKQACLIHRNTIAAIDLMSFYVPYKEEKKLTKSYILAQTNQ;locus_tag=LOCUS_1560;gene=rnz;EC_number=3.1.26.11;note=WP_011022970.1 ribonuclease Z (Methanosarcina acetivorans C2A) [pid:40.8%25%2C q_cov:89.4%25%2C s_cov:99.7%25%2C Eval:1.9e-59],MGA_156
sequence01	MetaGeneAnnotator	CDS	141749	142150	.	-	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978945.1;translation=MEKFDYKINIIVKTSINKSEDIEKIKEAISNIIKLNYKIKENLIIADTSEYKSLDNLYNIFRNKQTSHIARKNLIRNIENNNTYILFNKQAAKVNSIVICENEDESPLGPIIVKITSNRIIEFIDWFVPKYKI;locus_tag=LOCUS_1570;note=WP_010978945.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:33.3%25%2C q_cov:91.0%25%2C s_cov:86.9%25%2C Eval:2.5e-12],MGA_157
sequence01	MetaGeneAnnotator	CDS	142156	142710	.	-	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876073.1;translation=MKNKKNLVCVTGLPGAGKSLFCEIGNKLGYQLVIMGNQIRKEAKRRNLNDNTESLTQLMIKLRDEKGKNIIAEMCIDEINKSKKRDIIIDGIRNIEEIELFSNIGNVKIVLINNTSEQRIKFLKDRKRSDSPINKKEFNQRDKKELEIGLDEIMKRADIIIENTNLSKEEYIRKSELILNNLLV;locus_tag=LOCUS_1580;note=WP_010876073.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:31.0%25%2C q_cov:85.3%25%2C s_cov:80.5%25%2C Eval:1.4e-20],MGA_158
sequence01	MetaGeneAnnotator	CDS	142797	143357	.	+	0	ID=MGA_159;product=RNA 2'%2C3'-cyclic phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867226.1;translation=MRTFISIAVDNPLVLEKINHFLIPIFNLKSQIKFVDSTKFHFTLRFLGDISDDSVYDISNLLTSVKFNNFSVSFDSVGVFPNKNSISVIWMGADSNSSSILQSLSDCVNSVLPDLPNLKTNKFVPHVTLCRIKHKLPDKKLIDYLDHNSNFLFGTQLISSFSLMKSELTSTGPIYTTLYKYKLVDE;locus_tag=LOCUS_1590;note=WP_010867226.1 RNA 2'%2C3'-cyclic phosphodiesterase (Pyrococcus abyssi GE5) [pid:34.4%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:2.8e-21],MGA_159
sequence01	MetaGeneAnnotator	CDS	143362	144765	.	+	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINSIKKRVLTKYKPSLSDNRKLFKLSNDLIKELWRNNSQNQLPRFPVSDIVLGGSVAKGTWLKESADIDIFIKLNANSNRKDLVNSLEIGKNTLDSLDYPWSLCYSEHPYIEAKTEFLRRKIKINIVSCFDVVNPKDKKSAADRSPHHTKYILGKFNSKLKDEVRILKQFLISNKIYGAEIKTQGFSGYVCELLVLRYGNFQNVLKHMSNFTPGITPGNSIYFDESHYKFTKLHNSPIIMLDPVDPERNLGTAISSQNLNKFIYLSTKFLDNPSNNFFNQSRIKFNESLSDNLLLVYFKHDKKTIDTLWGQLRRSFNHTSKYISKNGFNILRSTISSNDKDQSAFIFLLENISISNTRFHLGPFSHMKNESIAFIKKNKRQSLSFWIDSNGQLNSLQPRQNPKIKDLLITSINSNNMLGIAPGIKNSFNSTCKLYTGKSVISTSKNKSWLNESLGDVIGTESQLS;locus_tag=LOCUS_1600;note=WP_010870623.1 tRNA CCA-pyrophosphorylase (Methanocaldococcus jannaschii DSM 2661) [pid:34.3%25%2C q_cov:73.0%25%2C s_cov:76.2%25%2C Eval:2.4e-50%2C partial hit],MGA_160
sequence01	MetaGeneAnnotator	CDS	144740	145501	.	+	0	ID=MGA_161;product=serine/threonine protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846443.1;translation=MELNHNYLDIHKSPNNELLQHLLCYPKYEDDLFKLRLRELKQLGIEYLELYGPTILNGNPILGKGTRGVVIKAYSKNSEYALKIRRLDSPRRNLLHEVKIQSFANSFGIGPKIVDYSNNFIMMELIRGKVLSDFYFMQSINIEIIRRVIKSLLNQCYLLDLYGIDHGELSDLRKHVIINERVNIIDFDSASTNRKMSNLTSCVQYLFIGGPYSKLFKNLFEIDIDKVIFLLRKYKSKKDYLTFYHLLHFLNMN;locus_tag=LOCUS_1610;note=WP_052846443.1 serine/threonine protein kinase (Sulfolobus tokodaii str. 7) [pid:33.9%25%2C q_cov:90.5%25%2C s_cov:95.5%25%2C Eval:1.6e-19],MGA_161
sequence01	MetaGeneAnnotator	CDS	145670	145951	.	-	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDALQIMDAQKSRGLELEKGNPISRIKKFVPILVPLIINEVIRSGELAEAMESRGYGATKKPTSLYNLELVQWDKIVILVTMSLFSFTMFISF;locus_tag=LOCUS_1620;note=WP_011249696.1 cobalt ABC transporter permease (Thermococcus kodakarensis KOD1) [pid:42.9%25%2C q_cov:97.8%25%2C s_cov:35.5%25%2C Eval:2.1e-14%2C partial hit],MGA_162
sequence01	MetaGeneAnnotator	CDS	145890	146111	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFSNSKPLDFCASIICSASISITGTNLTAVTKANTRSFGNLNHLSTYSNSSGEVMRKNNDVEHIIAINLNAI;locus_tag=LOCUS_1630;note=MGA_163
sequence01	MetaGeneAnnotator	CDS	146157	146342	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIENTAAKVKVLNSLNVILPIVANIIIAENTTARSYKLDTNNASVNNCIEINNLTRGSSL;locus_tag=LOCUS_1640;note=MGA_164
sequence01	MetaGeneAnnotator	CDS	146393	147202	.	-	0	ID=MGA_165;product=cobalt ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870600.1;translation=MIKFKQVSYSHPGGTKALDKINLTINKNSLNAIVGSNGAGKTTLAKHINGLLKPTTGEVFVNNKNTKKSSVAELSKDIGMVFQNSNHQLFADTVKNEILFGLNNFKFDEDFIKERFEWVIKFFDLEKYEETSPLKLSGGEKKRLCLASVLAWNPNIIILDEPTVGQDEVQKNKLKNFINKLHKENKTIIIISHDIEFLWKIQPNIIVMSEGKILETNSAKNIFTNIKLINKARLIAPQITRIYTKLDINEKISNNIEETCRAIQNKRLK;locus_tag=LOCUS_1650;note=WP_010870600.1 cobalt ABC transporter ATP-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:37.0%25%2C q_cov:93.7%25%2C s_cov:91.0%25%2C Eval:5.3e-48],MGA_165
sequence01	MetaGeneAnnotator	CDS	147189	148046	.	-	0	ID=MGA_166;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013399677.1;translation=MTSKEIIKFSDFSFKYNSSKKNILNNINLSFKSNEITILAGPTGCGKSTLLRSIIGLIPHMYDGEYNGNVKIDNVNVKDVEIKDIAKKVGFVFQNPENQIFMFSVERDIAFGLENLGIEQKKIKERINNIMNLLNITHLANKAPHELSDGQKQKTALAGILAMEPKILILDEPTSLLDPKTASEFIELINKLCRKKNMSIIIVEHRLDLVLKYADKLVILSDGKIIANDTPKNLLDYKKQIIPELSIPFSTKLYRKLASNNVKFLEPVTDVEEIINELSDKYDKI;locus_tag=LOCUS_1660;EC_number=3.6.3.-;note=WP_013399677.1 ABC transporter ATP-binding protein (Gardnerella vaginalis ATCC 14019) [pid:39.4%25%2C q_cov:87.7%25%2C s_cov:96.5%25%2C Eval:5.5e-51],MGA_166
sequence01	MetaGeneAnnotator	CDS	148079	148450	.	-	0	ID=MGA_167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTQDVPPWIKEQLERYEQLQQNLQAFLIQKQQIELEVVEIDKALSELEKAVDDSKVYKSAGTIMVSSSKKDAIKDLTESKELANSKLTLLDKQENRIKENLKEVQKKLDDSMKRGTASTNTE;locus_tag=LOCUS_1670;note=MGA_167
sequence01	MetaGeneAnnotator	CDS	148506	148892	.	-	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKQIYIKQEAIDGMLDYCKSLHPVEGILIVRGTNTNKEIRIKNLMIPPLPIHNEVFSSFDQYQIPFDSTILGIAHSHPNGVNMPSDTDLLNFFGRLMIILTPPYLDMNDIQVFDSLGNIMKFIIYN;locus_tag=LOCUS_1680;note=MGA_168
sequence01	MetaGeneAnnotator	CDS	148905	149138	.	-	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQRQFKISAKIKIQSNKETSKLIKESIKQDIEETDSIYTKNDNLIMKINAKEISELRAKISSHIRAANVSYEISKK;locus_tag=LOCUS_1690;note=MGA_169
sequence01	MetaGeneAnnotator	CDS	149119	149334	.	-	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRKSKTTTEFGAKFGSLVRKKYTKVTNNLRLKRNCPECNSIKFKRQSVGIWLCNKCGFKVADSAYETTTI;locus_tag=LOCUS_1700;note=MGA_170
sequence01	MetaGeneAnnotator	CDS	149324	150151	.	-	0	ID=MGA_171;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048053857.1;translation=MPAVKKARIIDSIIKENIISGLNKSTRTDGRGLLDYRTLEIETNVLKDKTNGSTKVRLGESEVWAGIKVETAVPFPDTPAEGVIVCNAEMLPISSQYIEPGPPNEDTIELSRVSDRGIRESGMIDVSELVIKEGEKVFSVYIDIAVVNEDGNLFDAVSIASIVALSNCTMPKFKIEKDEITILEETQPLPIKSLPVSTTFAKIENKIIIDPNADEQEMATARLTLVTDENGKYVSAQKGKPGGFTFEELNHISTIALEKGNEIRDILRKSIKNGA;locus_tag=LOCUS_1710;note=WP_048053857.1 RNA-binding protein (Thermococcus kodakarensis KOD1) [pid:46.9%25%2C q_cov:94.5%25%2C s_cov:97.0%25%2C Eval:3.5e-63],MGA_171
sequence01	MetaGeneAnnotator	CDS	150152	150874	.	-	0	ID=MGA_172;product=exosome complex exonuclease Rrp41;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867734.1;translation=MLSKNNNGRTNGRAIDELRNVSIKAGIINNADGSAMIEFGKNKIVAAVFGPKEVHPKHMMNMDKAVIKCRYHMMSFSTDTRKRPNISRREIEISKVIREAVQPAIIMEDYPRTAIEIYIEILQSDGGSRCAAINAASIALADAGINMRDLITACAAGKANGQVILDIDDTEDKTGEADMPIALLPNMGLVTLFQLDGNLSKDEFDKALELAKSGCNKLYELQRNALSEKYFNNTKTGEEK;locus_tag=LOCUS_1720;note=WP_010867734.1 exosome complex exonuclease Rrp41 (Pyrococcus abyssi GE5) [pid:52.4%25%2C q_cov:95.4%25%2C s_cov:92.0%25%2C Eval:1.4e-67],MGA_172
sequence01	MetaGeneAnnotator	CDS	150879	151553	.	-	0	ID=MGA_173;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978417.1;translation=MKSTSVERKYVIPGDVVIEGDYNATSNVIKRNNKIISTRIGMAEIGYNGVRVIPLNGTYIPRIDDTVIGRIADINAFVWEVDINSYFFGILTGSSVFGKGFSSSKNSMSGQFKKGECIIARIFEFDRTRDPLLSISGPGLGKIKEGKIVSITSSKIPRVIGKKGAMIKLIEQNTGCFMTIGQNGYILLKGSDEGITKAENAIELINKQAHLSDLNDKVISLISK;locus_tag=LOCUS_1730;note=WP_010978417.1 RNA-binding protein (Sulfolobus tokodaii str. 7) [pid:34.7%25%2C q_cov:94.6%25%2C s_cov:87.0%25%2C Eval:1.9e-31],MGA_173
sequence01	MetaGeneAnnotator	CDS	151556	152269	.	-	0	ID=MGA_174;product=rRNA metabolism protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762590.1;translation=MKNVQKKKIDSKFTIIRLSISGERFEILVEPDYALKFKKGEIQDYSKVIAFDEIYADANKGIRVSDEKLKKHLKTDNLQEALKVILKKGELLLTTQQRKQKIEEKRKKIIATISNNYVDPKTKIPHPPQRIEQALQEARISIDPVRDSDEQINGIIDELRKIIPMKSEIHKMKINVPVQFAPQSIGLLKKFSNVESEEWQADGSITAIVNLTPGSKITLIEKLNSLTKGNIIADEIE;locus_tag=LOCUS_1740;note=WP_011762590.1 rRNA metabolism protein (Pyrobaculum islandicum DSM 4184) [pid:37.9%25%2C q_cov:92.4%25%2C s_cov:94.4%25%2C Eval:1.2e-42],MGA_174
sequence01	MetaGeneAnnotator	CDS	152702	153505	.	+	0	ID=MGA_175;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868514.1;translation=MNIKINLSFVQFNPKFGDIEYNLNTVFGLLHKVKPGVVVLPELMNTGYNFISKNEVRDLAEFARTGQTSKFLSEMSLDINSTIIAGFLEKSNNVYYNSAMIVSKGKFLGVYRKTHLFYNEKLLFSKGNTGFRIFNIDNFKLGVMICSDWIWPESARTLSLKGADVIAHPANLILKGLCQRIMPVRCFENHVFAITANRVGIEKRGKDSFHYTGQSQIIDPNMEILSQARSTGNSVRSVAVDLSKARNKRIYKNNHIIKDRITRFYKI;locus_tag=LOCUS_1750;note=WP_010868514.1 apolipoprotein N-acyltransferase (Pyrococcus abyssi GE5) [pid:45.8%25%2C q_cov:97.8%25%2C s_cov:98.9%25%2C Eval:3.6e-57],MGA_175
sequence01	MetaGeneAnnotator	CDS	153520	153903	.	-	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNSYTLGRSREHNLLSKLRKNGWFAIRGSGSKAGMVLVDGKKYFPIDIIAIKKNKKKTVVWFIQVSKYFSDIDEIEKKYLSEWAKKIGGEAILAWTFEKRNKSNSKRGKWLFYNLLDKKYIDIINK;locus_tag=LOCUS_1760;note=MGA_176
sequence01	MetaGeneAnnotator	CDS	153964	154626	.	+	0	ID=MGA_177;product=riboflavin kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879597.1;translation=MNPSYFITLIQLLLHGAKNPIKLSTSELALNLGKTQQTASQHLLYLEKNDLIKRFKIDGINMIQITPLGLEHLQTISQNIESAFDNKSSYLVSGTVFSGLGEGAYYVSLLGYKKQFISKLGYEPYPGTLNLQLSSNLNKQLINSLNDLDGIQINGFSDKTRTYGNALCFPALINSSVQGNILLIERTHHDSSILELISSFYLRKKLRLNDGDVVNVNILV;locus_tag=LOCUS_1770;note=WP_010879597.1 riboflavin kinase (Archaeoglobus fulgidus DSM 4304) [pid:38.5%25%2C q_cov:94.5%25%2C s_cov:88.4%25%2C Eval:5.8e-33],MGA_177
sequence01	MetaGeneAnnotator	CDS	154637	155251	.	-	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISRLEKKLLSIIYINNLLKKNSLKYIQKQLDIEKKSIIKYLENLKSIGLIKEYKKKYFLTEKGRKNIKIVFTGGVYDIIHPGHVYTLKKSKEQGDLLIVSIARDNRVKKIKGNPVNNEKKRLTLVSAIKYVDFTILGSKIDIFKIVIKIKPDIITIGYDQKHQLSELRRLSKINKLKIKIVRLNSPMPYVKSSRLIKSNIQE;locus_tag=LOCUS_1780;note=WP_010868432.1 FAD synthase (Pyrococcus abyssi GE5) [pid:38.5%25%2C q_cov:66.2%25%2C s_cov:93.2%25%2C Eval:1.6e-18%2C partial hit],MGA_178
sequence01	MetaGeneAnnotator	CDS	155256	156284	.	-	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIFAGLGLNEDTITDEINEKIKNAKKIYFERYTSPPIPYNDYKFNFEYEQIGRDFVENGDKILEQSKNETVVLLTYGNPMIATTHMDLRIRAEKLGIKTIILHNSSILSVLPGETGLHSYKFGRTTTLMTKSKIAPLSVYDVIFRNLLSELHSIILLEYNLDENIYLKPNDALKQLLEIEKEQKKQVFSELSLVIVASRVGMKKQNIHCDSVKNLINKEYHKPPHCIIIPSKLHFTEIEALEVIFKIKKETITDNSYKIKSTSIDMLERYIPKVQNALNKINNILENNKKYDDLIKNIDAYIEDAKRFKNEERFELAILSIGYAEGLIDSLIFLGEIELKW;locus_tag=LOCUS_1790;note=WP_010870787.1 diphthine synthase (Methanocaldococcus jannaschii DSM 2661) [pid:37.7%25%2C q_cov:71.6%25%2C s_cov:98.4%25%2C Eval:3.2e-38%2C partial hit],MGA_179
sequence01	MetaGeneAnnotator	CDS	156647	157615	.	-	0	ID=MGA_180;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978451.1;translation=MIKINELMWIERYRPSEIKEFINQESTIKRLKAILKDQKSMPHLLFTGPSGTGKTTLAIIIAKNILGNNWQDYSILLNASDERGINTIRNRVKTFARYADDRKKIPFKMIILDEADEMTNDAQTALRRIMEETSKSCRFILIGNYISNIIEPIQSRCASFSFIRLQEKELINQLESICKNENISYEKEALMRIFETTNGDLRSAINLLQSCSVLGEINKNNIEKATGYSYKKQTEEILELALENNFNQAREKLSALTNIYGLTEKDFLKYINEAISKKKYKETRQLIEILSKYDYRIIVGANPDIQLTALLAEISNIRNDIN;locus_tag=LOCUS_1800;gene=rfc;note=WP_010978451.1 ATPase AAA (Sulfolobus tokodaii str. 7) [pid:45.2%25%2C q_cov:96.3%25%2C s_cov:95.4%25%2C Eval:9.6e-74],MGA_180
sequence01	MetaGeneAnnotator	CDS	157751	158317	.	+	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIGKDNSITSMLNELKVESELSLVKVIAIQDIKQTEIGGFKIGDKDIDSKFEVPRWVAYILVEKNLIELADNDIEIEVLNAIKNEKLLGVHQLSELTPDIYKKINFLLKNWKTKLNNNRELSMEYEKISTSLYDLINIRINKIISFASLPFPPDDIQKLITPEEFLLFDTVRLNVQEWRNSMSGDDF;locus_tag=LOCUS_1810;note=MGA_181
sequence01	MetaGeneAnnotator	CDS	158419	160395	.	+	0	ID=MGA_182;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061327.1;translation=MSQIVYTNSKSLVVDYKDILSYDTELSKILIERPDEVLKEFDDASYDALYSVNAKYAQLIQNEIKVRIRSLPNPVPLRDISSKNLHRLISVEGLVVRTSELKPLATSAAFACTKCGEINLELQNIPVLVKPSKCIRADCSETKNFVFDEKESIFQDYQLIRIQELPEELPPGQLPQSSDVHLTSDMVNIARPGDRLTLAGVIRIDQPESRGTETSSIFRSKIDGNFIDIGSKGPEDIELTKEEKEKILEFSVDSEAYGKLIQSIAPNIQGLERQKEAVLLMLIGAPNRTLEDGTSLRGDINILLVGDPGTAKSELLKYASRLAPRGLYTSGKGSTAAGLTAAVVRERTGMMMLEAGTVVLADKGVACIDEFDKMRNEDRTALHEAMEQQTVSVAKGGINATLNARTAILAAANPEFGRYDNYKTFNDQINIDTPLLTRFDLIFVIKDVPNIPKDEQLGQHILDIHETGKLDIEVPLDFDLLKKYISYAKNFEPRLSKEAKKIILDYYVKTRQAPAVDEEGTQGIAITPRALEGMIRLASARARSLFRNQVTEEDAIFAQNLVKAMYETVGTDPTTGQMDPGILYGKPLSERSKLETSMNLFDELEKSSSKNLVDKNEFIQKLIDTGKFSPAEARKYFKNMSDSGQIYNVNDNLYRKVN;locus_tag=LOCUS_1820;note=WP_048061327.1 ATPase AAA (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.2%25%2C q_cov:97.6%25%2C s_cov:93.7%25%2C Eval:2.1e-122],MGA_182
sequence01	MetaGeneAnnotator	CDS	160405	162579	.	+	0	ID=MGA_183;product=ATP-dependent DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868004.1;translation=MNISSLNLSEKSIDFLHNQGFKTLYPPQAECIKTGLLENDNLIVSTPTASGKTLVAIISALQHIENEGKIIYLSPLRALASEKYADFKKLESLSKPDGSSIKVSISTGDFESNNEYLKNSDIIILTNEKFDSLQRHGIKWLSKVSLIVIDEIHLIGDFYRGPTLEMIIAKMLISDHSPQILGLSATINNVEEISDWIDAKSVISTWRPVDLSEGVFCFGQIDFKDGNPPINIDNSGEGTAIDIAIDMVKQNGQSIIFTETRKRAASLAKKIEKMMPLLLTQEQSNELSDLSQLLDKSDTSTDMNKLLVKLLKHGVAFHHAGVSNQQRRAIESGFRERKIKIICATPTLAAGVNLPARRVVISSYRRYDARYGGMSPISVLDYKQMCGRAGRPQYDDKGETVLIANDESEQDSLFDHYINGDVEDIESALSNEDSLRTHLLAAISSSQFGISKPNLLKLFNNTLYTLQNGNDELEFKVEDSLEFLLDENFIEKRNNKFHSTRFGKQTSLLYINPLTARDFRDAIMSSQKNTNYTMGILQVIASSSDFGRLFSFRKSDESNYLSFINKYQSQFFDIDHSDSDYRLTFRILLALNAWINEKKENDILNLADLDPGDLYFTTENTKWLLNAFYKLTVLFQTRHLLDPILILQNRIQQGIKSELIELTSLKQIGRVYARRLFDSGFKSLNLLYLASIDDISKTPQINSSLAKKIKEQLKDFESDDSDIR;locus_tag=LOCUS_1830;note=WP_010868004.1 ATP-dependent DNA helicase (Pyrococcus abyssi GE5) [pid:38.9%25%2C q_cov:98.5%25%2C s_cov:97.1%25%2C Eval:2.2e-128],MGA_183
sequence01	MetaGeneAnnotator	CDS	162560	163876	.	+	0	ID=MGA_184;product=asparagine synthase (glutamine-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868250.1;translation=MTPTYVRGLLCTVNDGIISSNFDFMDHRAWNGYLCYNKPSDYSITNKLSNFSYDIVCCLGDSPVHDKEILIHGEIYGNYLDIIDKIINSITVDELQLNIQELYRLDGSYCMIIKGKLGTICCRDPLGCKPLYIGKKDNSVSISTQKSILLNSNFQVEDFIPGTAMILENGTLINSRNLSNLNHYSNYDADTLLNLLRTSISSRIGDKKNIGVSFSGGIDSSILISIANEFTEIKAFNVRMKGSHDFENAKKLANLLGIDLIEIEPNKDHIPDDIPNIVSLAEITKPMDVSIALGFYYVANTAKKHNTPTLFVGQLADELFGGYARYIRTIAEESLQFVTEMMNSDVHQAYTKNFERDEKITSPFVDLFVPYASIPLVDFALGCPIDYKIDAANDVRKVILRSVAKKLNLPDEIIYQTKKAIHFSSGIDKVVKRALKNN;locus_tag=LOCUS_1840;note=WP_010868250.1 asparagine synthase (glutamine-hydrolyzing) (Pyrococcus abyssi GE5) [pid:28.6%25%2C q_cov:85.6%25%2C s_cov:80.4%25%2C Eval:1.6e-35],MGA_184
sequence01	MetaGeneAnnotator	CDS	163873	164304	.	-	0	ID=MGA_185;product=protein archease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942323.1;translation=MPYIYKDDISIADAAIEVNSNSLEGVFIDSGKALTNTMINDLGSIDINKEINFKVEAKEIDMLLFEFLEQLVIEKDTNQLLFSEFNVNIKELDEKFELSATAKGEHIDYKKHELCADVKAVTLHKFSLLKKDNNWKAEMILDI;locus_tag=LOCUS_1850;note=WP_010942323.1 protein archease (Geobacter sulfurreducens PCA) [pid:42.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-27],MGA_185
sequence01	MetaGeneAnnotator	CDS	164306	165766	.	-	0	ID=MGA_186;product=RNA-splicing ligase RtcB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74CI9;translation=MNKILDIVKKISNTTWEIPIEYKQGMNVPARIYATKKLLQLIDHQVIDQITNVATLSGIINYAYTMPDAHSGYGFPIGGVAAMDFNEGVISPGGIGFDINCGMRLVLTNLTYNEIKPKLRELVDQLYIKVPAGVGRSGSLNINKSEFREIVERGSTWCIENGYGWEEDLENTEENGIMKNANAEKISDVSIKRGIKQIGTLGSGNHYLEIQVVKPEYIFDEKTAKTIGIFPNQVVIMFHCGSRGFGHQVASDYLKKFLGVMESKYKIKILDRELACAPFQSEEGQDYFSAMQCAINMSFVNRQIILHRIREVFSKVYKMEAEKLGLSMVYDVAHNTAKVEKHEIDGKMKKVIVHRKGATRAFGPGRVEIPIKYRNIGQPVIIGGSMETGSYLLTGTDEAHKETFASTAHGSGRIMSRTKAKRIFRGETLFRDMLKKDIYVKSVSYAGLAEEAGKAYKDIDEVVGVTVDAKISKRVVRFIPIGNIKG;locus_tag=LOCUS_1860;gene=rtcB;EC_number=6.5.1.-;note=Q74CI9 RNA-splicing ligase RtcB (Geobacter sulfurreducens PCA) [pid:63.8%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:9.1e-181],MGA_186
sequence01	MetaGeneAnnotator	CDS	165818	166099	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVNNILMKDDSLIINIKVKTGLKENYIKSEDNIVHIGVKSIPLKNQANIEIIKILSDLFGVKSSNVKIIHGKTNNLKTIEIINPRFIPKNFL;locus_tag=LOCUS_1870;note=MGA_187
sequence01	MetaGeneAnnotator	CDS	166104	166865	.	-	0	ID=MGA_188;product=proteasome assembly chaperone family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250053.1;translation=MSIKLKILKKRKFRNPILICGMPGSGYVGKLAVDHIINEFKSTPICEIQSNSFPPQIIIDKNGVAETMKNTIYHIETQMLKNDILILTGESQPMTEQGNYIISEKILDYTSGLGVKKIFTLAAYITGNFVNKPKVFGTATNKKQVNILKRNGISIMNQGMITGMNGILIGIAKIKGIEGFSLLGETSGYIIDPNSSKAILESLNKILKININLNKLSEKINENKSFMNEIEKMKTDNEGIKHSKKNDSAQYIN;locus_tag=LOCUS_1880;note=WP_011250053.1 proteasome assembly chaperone family protein (Thermococcus kodakarensis KOD1) [pid:31.8%25%2C q_cov:90.1%25%2C s_cov:89.5%25%2C Eval:1.5e-33],MGA_188
sequence01	MetaGeneAnnotator	CDS	166913	167509	.	-	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNYKKTQELDKFEKIIVKELIKNPRISDNKISQNTEIPVRTVNRKRKKLEEIGLINYYTELNTGINGTGMLPSRHLYLIKFKLGITQEKIIKEIKEEPNVRTIFTELIYESHLAEIDGHTALIMIIEGKTDDEINIGFNSKIVPSLEKNHGKNCIINISTIRLGKNIRIFHNYLRMINLDKGYIKNNWPNSAIFPK;locus_tag=LOCUS_1890;note=MGA_189
sequence01	MetaGeneAnnotator	CDS	167565	169943	.	+	0	ID=MGA_190;product=glutamate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846742.1;translation=MSKSIQEVTTFVKIPKPKQKEFWDNQKIEHLRKLAIDGRAAYLWDDHLNSSRVIDRLAFSDIDPIQSNEKFLEHKSDLSLIKDINTSTKLAYGRIDLSAPLYLGDMSFGALSGIPNIALAKASDITGVIAGTGEGGLHPDVAACKQITVQWASARFGVDIDVLKTGLGIVIKIGQGAKPGIGGHLPGSKVTNPISKARRIPVGKDAVSPAPHHDIYSIEDLGQRIWALKEATGKPVFVKVGCTNYVPYIASGVASMGADGIIIDGAGAGTGAAPAVVRDNIGLPIDLVVSCVDRVLTEQNLRSGFSVITAGAVSNAEDTAKLLALGADCVSTGTATLVGLGCLMVHKCHIGFCPALLTNKLLDNPAKVLSLSKSVEWTSNMIYGWIEEFKWILRELNLKSASDLVGRRDLLRGYNMHQETADILDVQIDYSNKSLVGSSPIQRKISEDEFWTPQLQGELRELSGSAGRNPGEAVITSMGSVSAPMVDEPRSVCDWLRSDGAQVTRPSIDPYREEIETSTYLANGNIRLSNPMFFGRLFEQGPVRKIFSEVAYSMGLLFDSENLIDKNTTLNHSLLINHLEFIKNNKSDVSGITINHSELDSLDELSKYNLPIMVRFPSNEQTIDSISSILHKNIAGIIIDWDLENTDDALDLAICTSEIDKILRNTILDKTPIRNKINLLVEGSRVRGASDIFKLIGLGADAVGISKAALISINFNPKKFRNTDESNLDQVKTREKLEYLVLALQKEIKLLAGASGISSIQNSLLGNRELFRSIDLNPEIRTRLGVKPGGSP;locus_tag=LOCUS_1900;note=WP_052846742.1 glutamate synthase (Sulfolobus tokodaii str. 7) [pid:46.0%25%2C q_cov:99.0%25%2C s_cov:99.4%25%2C Eval:3.0e-174],MGA_190
sequence01	MetaGeneAnnotator	CDS	169940	172054	.	+	0	ID=MGA_191;product=glutamate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980280.1;translation=MIKSKIVSKDDCGLFAILRKTNSPKISNSIAVSGIECVRFRGSKYGAGFARFDLDNSNQEYLLKIFVKNEDIFNEIKDILINSGLSIINISSRKISATELPLDISFIVKSSSIEILSNLINEINYKFSIPTYRARIYSSGNYVNVYKDIGYPSDVAISTGLIDSSISGDLYIAHTRQPTNSPGSSAIWCHPFSNLNTAIIHNGDISSFGSNINFLHSRGITNLVGTDSEVVAFIVDYLARVENLSMTDIGLILSNPYDRFLYRLGDKKTDYIRNLLYKYRGAELDGPFTIFIGYSDGDDVYLLSVIDRSKFRPVVIGEDDNYIYMASEECQIRLLSPHANIWTPQPGRFVLASMKKGIIESGSSASIVDATDSSGLLQIRSEYNSENLIDSNNLSSYDLTNSIRTKLLDGPKSINLMNVRGQRYIGINLPKDTVLNIYGTPGNCLANFNKGTSINVYGSAEDNVADTMSEGKITIHGHARDVVGYALQGGKIFVRGNVGNRAFILMREYEESRPVVIVGNRADDYFGEYMAGGLAIVLGIDSIDSSKQEQLVGNFLATGMLRGIIYIRGKVDSDSIGLKPPREDILNYLKYLNHKDVIDNELLKKLSSFTDINLEILKTELSELAFDSVKKLFLSKYSVNLNINYRKLNVHDLKIIMPYLQEFISDFQISTEIYNKLINSYYTVIDSIDKSKELDIPKVTIIEE;locus_tag=LOCUS_1910;note=WP_010980280.1 glutamate synthase (Sulfolobus tokodaii str. 7) [pid:39.5%25%2C q_cov:97.3%25%2C s_cov:99.8%25%2C Eval:7.9e-131],MGA_191
sequence01	MetaGeneAnnotator	CDS	172059	172418	.	-	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEDKELQILKQKKIIELMKNIKNKKKQNNPREIVISRLVDRGTEVLQIAEKYYPNETQIIINKLSELIKQGKIYSSISGGELLTICRNSGLNITVPTSISVSKDGKITPLSEKLKSKK;locus_tag=LOCUS_1920;note=MGA_192
sequence01	MetaGeneAnnotator	CDS	172513	173448	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSDKKILICDKIEPEGIDLLVKSGFDIIENPTITSEELIESIKDVNVVIVRSRTKISKSVIDSASNLELICRPGTGVDNIDLDVAKINNIPVFTSVEASTNAVAELTISLAVSLARFIPRADNALKNDQWIKNSLLGSELRNKIFGIVGMGRIGRRTAVLASALEMNVIGFEKVVVDEEFLTQYNVKQVEFEELLLKSDFISLHLPATPETIHMFGKKQFQLMKNSAFLINTARGQLIIESDLYQALINHEIAGAALDVFENEPPNNDKLIKLNNLIATPHIGAQIIEAQKQASTVIAEKIIKFYLEKRN;locus_tag=LOCUS_1930;note=WP_048061266.1 phosphoglycerate dehydrogenase (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.8%25%2C q_cov:95.5%25%2C s_cov:56.5%25%2C Eval:3.8e-64%2C partial hit],MGA_193
sequence01	MetaGeneAnnotator	CDS	173450	174286	.	+	0	ID=MGA_194;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875643.1;translation=MGELGIAIPSNILEDCQSLFEKSYKLGLIARAASIFNVTNIHIYENQGRSEKNLIMLILRYLVTPQYLRKQLFPIQKELKFAGILPPLKIPSHTVSKNYNLNKLNIRDGICIKFNTKIKKSIIDIGLNKFGILNGKLAIGKIITVSVLSYDKDEKYFLVKKIKPEKYWGYDINYHTSLKSTLKSPYYDIKIITSKFGSVFTTAFKDISDKLLNNSHSNMLIVFGSPKIGLMSVLKRESIATSDLFIINLFPNQGVETVRSEEAILSGLSLFNSLIYSN;locus_tag=LOCUS_1940;note=WP_010875643.1 RNA-binding protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:36.0%25%2C q_cov:97.8%25%2C s_cov:95.5%25%2C Eval:5.7e-37],MGA_194
sequence01	MetaGeneAnnotator	CDS	174507	174884	.	-	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLSKNNIQITIGNSILDGEISKHLAPTIVNMIIKKNRLSGPIVKVKDIMIYSPIGIIAGLHKPKTSFKKGNIAFLASSGSICLFNKDIIIKNKMTIIGNITNGIEKLNDINSGEILIIEIIKE;locus_tag=LOCUS_1950;note=MGA_195
sequence01	MetaGeneAnnotator	CDS	174955	175227	.	+	0	ID=MGA_196;product=DNA-directed RNA polymerase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846508.1;translation=MLRKGNKMLKQNFKVEIGPSHLTRFERAKIIGARALQLSLGAPTFAKSSKNIHDPITLAIKELDTLVLPLTIRRTYPDGNYQNIPLSSLL;locus_tag=LOCUS_1960;note=WP_052846508.1 DNA-directed RNA polymerase subunit K (Sulfolobus tokodaii str. 7) [pid:37.6%25%2C q_cov:93.3%25%2C s_cov:86.0%25%2C Eval:7.8e-09],MGA_196
sequence01	MetaGeneAnnotator	CDS	175237	175464	.	-	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRAYILVNTETDVEEEFIEEVMKLEGVIEVASVYGRYDFVIIVESETMEKVKDIITWKIRRIRSVKSTITLIGV;locus_tag=LOCUS_1970;note=MGA_197
sequence01	MetaGeneAnnotator	CDS	175593	175970	.	+	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEFESNSIKNPVNDEAATKVSSTSGTDVSQSTSSLNTTNNIFIGKKPVMSYAMSGLIQLGQTGEIVVKGRGMVISRAVDVAQIITERLGKGKYSTKSIALDTDVLGDDDNKRNISTIEIVIGTL;locus_tag=LOCUS_1980;note=WP_010879448.1 DNA-binding protein (Archaeoglobus fulgidus DSM 4304) [pid:45.8%25%2C q_cov:64.8%25%2C s_cov:92.1%25%2C Eval:2.6e-12%2C partial hit],MGA_198
sequence01	MetaGeneAnnotator	CDS	175977	177299	.	+	0	ID=MGA_199;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YL42;translation=MSKSSIQNTKFTRRTFSISNDEIKNIVSKFGTPIYIVDENTLRSKVSILKNSFSNYNGKTVIAYSIKSNFNPSIIKIFNDEGISFDLTSLGELYFFIHSGGNLNQVMYTSITEEENEFLEALKLGVNYFVIGSYNGLINLKSASESCQRTPYVLVRINPEINVDADISASFHMSKFGVPINNSTNDNAIYLINKIYDSNLLKFNGIHFHLGSQINDPSCFVKTIDLLNDLITKLQNIIPNFTLNVLDIGGGIPVEYNSSVPSPEYIGKIISDKLNKFIKTINLNPVLIIESGRYLSAESLILVSRIVNLKTYSDGQFLIVDAGYNLLLDSALMNQEYPIDIITKSKRMTYDNIKIGGRLCDTLDVFKIPFNKKYPSAHVNDLVIFRNAGAYSIVFNMPFHCQTKPSIVLRRTDKSVEVIRQSESIEDLFNTEGGNTILQI;locus_tag=LOCUS_1990;gene=lysA;EC_number=4.1.1.20;note=B5YL42 diaminopimelate decarboxylase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:27.5%25%2C q_cov:93.2%25%2C s_cov:94.3%25%2C Eval:2.2e-37],MGA_199
sequence01	MetaGeneAnnotator	CDS	177283	177846	.	-	0	ID=MGA_200;product=2%2C3-bisphosphoglycerate-dependent phosphoglycerate mutase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NJF7;translation=MKLFFMRHGQSTYNMENKFTGWLDPPLSELGKKQSKEIAKELSQYNIDIVYSSTLLRAKQTAEIIINNHPNIPKNIILDPLLNERNYGKWAGKNKNKVKSEVGEEKFLEVRRGWEIPPEDGESLQDTAHRVNNWIEKLKTEHTNNENILIVSHGNTIRAISVLLNINTKENIHNFELQTGKILIFEE;locus_tag=LOCUS_2000;gene=gpmA2;EC_number=5.4.2.11;note=Q7NJF7 2%2C3-bisphosphoglycerate-dependent phosphoglycerate mutase 2 (Gloeobacter violaceus PCC 7421) [pid:36.9%25%2C q_cov:98.4%25%2C s_cov:84.5%25%2C Eval:1.3e-26],MGA_200
sequence01	MetaGeneAnnotator	CDS	177926	178864	.	+	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQLRKDYFLEEFVLVNSSVDVRSSFLADDKSEKICNICKNSKTSSNYIITKSIESVKLEKFDSSEQDLFTIEQKNRTTFFITDSSHKKISKLTVNKLHKLLTLVQETTKEMISEDMKNIQIFVNSGTNSGGNVVHNGFEITNLPVMSPKLNTEIQASKKLILDLGICPMCRVINFETGGPRQILSTVNFLAFCPWTSSHSFEFWIYPKSHQYSFAFIDNHELEDLAQILRSTLGGMDNILNNPSYSIVFHNSLNELDFEIHWHIEIFPKIFNKNGFENGFGIYVNSITPEKSAEILGKAARKELASLIGVV;locus_tag=LOCUS_2010;note=WP_004080684.1 galactose-1-phosphate uridylyltransferase (Thermotoga maritima MSB8) [pid:34.0%25%2C q_cov:62.2%25%2C s_cov:58.6%25%2C Eval:6.4e-27%2C partial hit],MGA_201
sequence01	MetaGeneAnnotator	CDS	178861	179937	.	-	0	ID=MGA_202;product=phosphate starvation-inducible protein PsiE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583631.1;translation=MTYEEKLTEEKINIIDKSKLFSQYENWPKYAKEAIEIRPNVPSKQEINNIIFIGMGGSATSGDIIQNWLRDELNIPFEVLKDYKLPGYVNESTLVIAASISGETSETIYACIEAKAKKKASVVSISAGGMLEKISKKYNIPHTKVQLALTPRASLLYALLPAINLISELDIIKSPKNEFIDMMNLLEIKSHQIKKKISFEKNIAKQIASDILELNTPPTIYSGQTLSAPGYRFKASLNENSKIRAQHILLPELCHNEIQSWGRNHDNKITSIFLRDNKEGLEQKERFDSLSQLLIKMDIKPLEIYTEGKTKLSRIINLIYLLDYVSLYLAILKNIDPTPTPNIDEIKRLLKDRFDEIN;locus_tag=LOCUS_2020;note=WP_012583631.1 phosphate starvation-inducible protein PsiE (Dictyoglomus turgidum DSM 6724) [pid:32.9%25%2C q_cov:95.8%25%2C s_cov:97.2%25%2C Eval:1.3e-45],MGA_202
sequence01	MetaGeneAnnotator	CDS	179934	181214	.	-	0	ID=MGA_203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANNVILIEDKLVQNLEPITLTRTSLELLFGTSNIYTQLKKEIEFENISIFVRDYLTNIAKKQFTESKINKLDCEGDILVINSLVNLNNQNLKKLLKNKEKFITKSGTKFVCARIPSIIIKDIQENNSYQIIKKISNIKKYNIKKIQNNSLIKFPWELIKESSKAINNDYALFKKKSNNIKNVKKISNNKNIWISKNVNIIDKEKTYIDSTNGPVIIDDNVLIEPFSFIKGPVYIGKQTKILGARIYSNTSIDNNCIIGGEIQNSIIHKYTNKAHLGFIGHSIIGSWVNLGARTTNSNLKNTYGKISVNIGKRKVNTNEIKYGCMIGDNVKTAIGSLIFTGINIGVCSQLYGYTTENIPSFTIYKNLKTKELIEYKINKAILTQSRMMKRRNKNQDKHNKALLRYIFEMSTKQREENNVKQGDIRI;locus_tag=LOCUS_2030;note=WP_011119694.1 glucose-1-phosphate thymidylyltransferase (Rhodopirellula baltica SH 1) [pid:40.6%25%2C q_cov:49.5%25%2C s_cov:46.8%25%2C Eval:3.7e-42%2C partial hit],MGA_203
sequence01	MetaGeneAnnotator	CDS	181204	181908	.	-	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIILAGGLGKRARPYTLFLPKPMLPLGEKPIIGHIIDWIKKQHINEIIICTSYLSEIIEDYYKNGKNYNVKITYVKSNKPLGTAGQLKSAEKYLDHNFLCLYSDSLFNFNIKKAINFHKKNNPIVTMILCEYETKIKYGIIELNKDKSIKEWKEKPSINGLINTGCYIMNKEFLKHIPKNKSYNMDQAFIKSQKLKNKICGYPVSGNILDLGDKESYERSFKEFNKVKKSGK;locus_tag=LOCUS_2040;note=WP_010943866.1 phosphoglucomutase (Geobacter sulfurreducens PCA) [pid:35.7%25%2C q_cov:98.3%25%2C s_cov:28.1%25%2C Eval:2.4e-43%2C partial hit],MGA_204
sequence01	MetaGeneAnnotator	CDS	181954	182949	.	-	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSSKDKYNTLTKLIINNTNNYSALIIGCKATELSYDCCEYNILKIGNYKNSEIINDKNMGFIHINYITYEKFLELRNIDSYFLLNNIIIHDNMLRLSTKLNDVIEQRTSIINRYNKSIYIDLTNEIEKANNAIDKSYYQDAGFWILSASYNLIKLIIAQSNTIISPSHLLDQLKYKNHEFNIDDCYSLLNLEITTKSSVERRLKSLNNLYVILLNRSDNEQEYIIKRIELLKNKINWLLKNKMITNAFVLLGYENILLIKKIYNEYCNSKQITPHNYKIINEIINDKDNPYKVSKSTINMLSISNEEHEITLKQNILNKLTNKIKNNIKY;locus_tag=LOCUS_2050;note=MGA_205
sequence01	MetaGeneAnnotator	CDS	182975	183874	.	-	0	ID=MGA_206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRLTNICIIGHISIDKIKNNQIKKTSIGGPPCYSGLVCINEKSNVDAYTKIGYDFPQEYNSWLINNNIQNIGNNSKEKTTSFEINESNNKKILKLKSKCEKINLNNISFRKYDGILISPIVNEIEIKNNNIIEIMDQITMLDPQGYLRKFNNNGLCKLDKFNINLLPKTDIIKISEEESKMIDNSEYFLNRLKRISRKYNITIGTSNDNTVYFIVKNKIYIIKNIINIKIIDSIGLGDILNGVFLNSYIKNEDMLWSVSKGIACTSTSMGIGIEKLEKANNYDEFTDSIYNNIKEIR;locus_tag=LOCUS_2060;note=MGA_206
sequence01	MetaGeneAnnotator	CDS	183933	184217	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKRKSGGRAKGGKGSTGSISCSNCGTLVPKDKAKKKTGRVTLVEPTLARELRAAGTYIATQKTIKYYCVSCAVHYGLVKVRAKDDRRKRTKY;locus_tag=LOCUS_2070;note=WP_010979487.1 30S ribosomal protein S26e (Sulfolobus tokodaii str. 7) [pid:45.7%25%2C q_cov:74.5%25%2C s_cov:73.7%25%2C Eval:9.0e-10%2C partial hit],MGA_207
sequence01	MetaGeneAnnotator	CDS	184221	184808	.	-	0	ID=MGA_208;product=CDP-alcohol phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084742693.1;translation=MLEKLRTRIEPIVDQLGMIVSKLKISPMMLSNLALMCAILSGIYYSKIFDIFIITNIRSEIIAGLFLLLSGIFDILDGSVARITNSVSNKGSFIDSTFDRISEIFIFSGILLGEYTEPIFVLGALSFSLMVSYSRAKADSINITLKGIGIGERSERLLILIIGSFLLLIEEAILIILIIAIITTAQRFFSVMKKL;locus_tag=LOCUS_2080;note=WP_084742693.1 CDP-alcohol phosphatidyltransferase (Sulfolobus tokodaii str. 7) [pid:33.3%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:4.5e-20],MGA_208
sequence01	MetaGeneAnnotator	CDS	184897	185100	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKISKGIDCSIDSCDTLAKRSVSRKNLGSSDFSISSNSNRVYLCSEHYKSWKKSTKETRESERARY;locus_tag=LOCUS_2090;note=MGA_209
sequence01	MetaGeneAnnotator	CDS	185110	186963	.	+	0	ID=MGA_210;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868458.1;translation=MRILLLHSDYIEYKAIKKEIDIAEETVTDLKRYEDVVVLFTCLESQDNENTIKNSLSEIKSSLDNLNCNRVVVYPYSHLSNDLANTSKAVSLLNQFKNSLSEAGNEVQSSPFGWNKSFVISVKGHPLAEQLKIITSDGAESHQSDALRSEERLDSKYMIMSTDGNTESVEKFNYNNFKNLNALQKYELNKSRIVTSHPPHVELMKKLSLVDYEPGSDSGNLRFYPKGRFIKSLLEKYVTFKVKKYGALEVETPIMYDSNHPSLASYLNRFPARQYIVNSDNKELFLRFSACFGQFLMLHDSIISHKQLPVKLYELTRYSFRREKSGELVGLRRLRAFTMPDCHALCRNIEESKTEILKRFNLSREVLQGIGFNQDDYELAIRVTQDFYDENINFIKQIVKDWNRPTFIEIWPEKFFYFIFKWEFNFIDNLGKASALATDQIDVENAERYGITFVDENGDKKTPIILHNSPSGAIERCLYALLEKAAKVQREGKIPSIPFWLCPTQIRIIPLSQDFHDVSLGYLEELFRSGFRVDFDDRDLSVGKKVREAEKEWLPFILVVGKNEVESKKFQVRDRYSGEMVVMPLSELIEHCKKLSNGMITDELPLSQFISDRLQFK;locus_tag=LOCUS_2100;EC_number=6.1.1.3;note=WP_010868458.1 threonine--tRNA ligase (Pyrococcus abyssi GE5) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.8e-179],MGA_210
sequence01	MetaGeneAnnotator	CDS	187019	187888	.	-	0	ID=MGA_211;product=agmatinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023880.1;translation=MSKRDLYISNESLITNLTNSGDNKIDVFGVPFDATSTYRIGSRFAPNVIREAFQNIEIYSKRLEKDLEDINIRDLGNLAKVGDINKMNKMVEEVTREIIADGKIPAILGGDHSLTNGSIRAINNCSLVVFDAHLDFRDEFEGLKLSHATFLRRLYEDGCISNLVHIGSRAATKDEWDFVNKDDITIIDMEKIYNLNTGLKQFKDTLSSSNDVYVSIDLDVIDPAFAPGVGNPEANGMSSREILEFIYCLDNFKITGFDIVELIPAYDNGSTSALAARLLSELICVADKY;locus_tag=LOCUS_2110;gene=speB;note=WP_011023880.1 agmatinase (Methanosarcina acetivorans C2A) [pid:37.9%25%2C q_cov:94.1%25%2C s_cov:94.8%25%2C Eval:1.4e-46],MGA_211
sequence01	MetaGeneAnnotator	CDS	187885	188853	.	-	0	ID=MGA_212;product=deoxyhypusine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021005.1;translation=MEKHTFHTGKVEPMKIWPGMTTNQLVNEMSKSGSFMSGMLAKAVDTYEEMVKTNSYIFLTLSGALVPAGMNKIIIELIERGFINSIVTTGANLVHDMMLAYGGNFYKGDANMKDDVLLEKKIDRIYDVLVSEDDFQSKFDEPLLELYDDIARNNEEKILSISELINKIAQRIPNEPESILKACYKNNVKLFVPTIHDSVFGLQAAIYNRKNPGKLNVDVFKDLQDIWDIRTNEEKSGAIILGGGVPKNFVFQSFYFANKMLDNVIQITLDRPETGGLSGAPPEEAVSWGKIKPDGNKIVVVSEVTLAFPLIASALIERLDKK;locus_tag=LOCUS_2120;EC_number=2.5.1.46;note=WP_011021005.1 deoxyhypusine synthase (Methanosarcina acetivorans C2A) [pid:41.5%25%2C q_cov:97.8%25%2C s_cov:96.8%25%2C Eval:4.8e-57],MGA_212
sequence01	MetaGeneAnnotator	CDS	188901	191444	.	-	0	ID=MGA_213;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762568.1;translation=MSEQLKNDSMILLSASYDGSGKKACLKFYDEKTNSIKLWYDNSEHKPYCLVKKDTDKDLLDKFKKEDKIDIKEITKIDLLNDKEEKMLKIIADNPLIIGGMPGRSIRDRVTAWEADIKYYETYMYDKSLIPGIYYRIKDDKIIPDKFSIPKKTNQMLQKGTENIDNEIKEKINEWAELLSQPLPNIKRVALDIEVHSDKTDRFPKADEARYPIISVGFASSDNFNQVCILRRDGIKPGTNELDKDVEIIFVDNEKELISNIFNVINKYPCVITYNGDDFDLKYIYNRAIKSGIEKDEIPIQLGRINANLKRGIHLDLYRTFRNRSIQIYAFGNKYSEHTLNAVSSAIIGKTKIEFEGEIGDLTNYDLAKYNHNDARITLELTSFDGDLLMKLLLVISRITKMPIDDLSRIGVSNWIRSMVYFEHRKINALIPRKDDLAIDEDELKEMTSEAVIEGKQYQGGMVLEPKIGVHFGVSALDFASLYPSIIKVNNLSYETVRCRHKEHETNLIKGSKHWICNKKRGIISLLVGSLRDIRVNYYKQLPKMSELSSDEKNLYSVVSQALKVILNASYGVLGAPIFPLFFLPVADSTAAIGRNIISETVEAAKNNNIEVLYGDTDSLFIKSIDQNKIDNLIKWSQENQGVDLELEDKYRYAVFSERKKNYIVVKNDGQVIIKGLTGKKSHIPIFIKESFYSAIEKLGEAKTEEDFKKVRSDIKEIAKKSNKQLKEDNVPIEKLAFRMMMSKSTNMYKSTIPQHIRAAKLLEEHNREKGEIDSMKAGDIISFVKTKGGAGVKPLELAKIREIDKKKYEEIMKSTFDQLLEPLGYTFNDILGITKLEDLFWNNSDK;locus_tag=LOCUS_2130;note=WP_011762568.1 DNA polymerase I (Pyrobaculum islandicum DSM 4184) [pid:40.4%25%2C q_cov:97.6%25%2C s_cov:95.3%25%2C Eval:9.9e-176],MGA_213
sequence01	MetaGeneAnnotator	CDS	191497	191859	.	+	0	ID=MGA_214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKMKYITILFALLGLYWTISSLTQQGIPLLIIPGILCLFMSISLNISEFNRFSNKLLFPLLLYNLVLTFYQSYASLTVLSSRFITLEIGIFVLNFVFTLLLTYVLLQSFRKSNRIDIS;locus_tag=LOCUS_2140;note=MGA_214
sequence01	MetaGeneAnnotator	CDS	191886	192926	.	+	0	ID=MGA_215;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249523.1;translation=MDIEKKIELVKRPPTEELIQEDDLKTLFETNNSPKHYIGIELSGILHLGSLLITGFKINDFIKAGIKSSVYLADWHSFINNKFNGNWDEIEQVTKYYEEAFKFFCPNVNIVTSKELYHNNDEYWKNFIKFSKHMTLSRAVRCLTIMGRTEKEQLDLSQYLYPSMQAVDIKELDLDIVHSGTDQRKIHMLVREIFPKMKWKVPVAVHQHLIPGLANNNKLSQKENYKIFNKMSKSNPKNSIFIHDSEEEIISKLKDAWCQEGIIKNNPVLDYTKSIIFHEFNSFTINRSSKYGGDISFSNYEELESEFKNGKIHPLDLKLAVGNKINEIVEPIRAYFSNKKDLFSSL;locus_tag=LOCUS_2150;EC_number=6.1.1.1;note=WP_011249523.1 tyrosine--tRNA ligase (Thermococcus kodakarensis KOD1) [pid:42.1%25%2C q_cov:97.1%25%2C s_cov:95.5%25%2C Eval:3.1e-73],MGA_215
sequence01	MetaGeneAnnotator	CDS	192976	194202	.	+	0	ID=MGA_216;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005784900.1;translation=MLSSINNIITQYPILSNVLPLITLLIVSYLSLQITRRILIRIVFPQIKKSKTSIDDILVKNHLFLRISYLIPILIVNNFAYIIANNTPIGIFTVKLVINILTVLIFSRIIDSVLSSITEVYSKRYEQIPLKSYIQIVKIFILILSGLLIISILSGISPWALLGSIGAISAVLLLIFRDTILSLLANLQITSNKLLQLNDWVEAPAFGADGDVIEIALHTIKVQNWDKTITVIPTHKLIDSSFKNWKGMQRSGGRRIKRAINIDITSIKFCDESMLSKYEKIDLLSSYLKEKKKSLIQSNKNKTYSRDSSSILNSRQLTNIGTFRAYIVSYLKNHEKIRQDMTFLIRQLNPSESGVPIEIYVFANDNDWVNYENIQSDIFDHLVAATSYFDLRIFQNPTGHDLNKLVKN;locus_tag=LOCUS_2160;note=WP_005784900.1 membrane protein (Bacteroides fragilis YCH46) [pid:39.3%25%2C q_cov:95.3%25%2C s_cov:94.2%25%2C Eval:9.4e-88],MGA_216
sequence01	MetaGeneAnnotator	CDS	194213	195364	.	+	0	ID=MGA_217;product=aminotransferase DegT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868279.1;translation=MNRKISVNEPLFDKNEINIVQEIIQSGHLSSSNLYGGKYVKIFEKQIAQYLDVKYAVAINSGTSALYSSLLSLNIKSGDEVIIPSFSFTATASAVVATGAKPVFVDIFEPSNAELFPYTIDPSKIKSNITEKTKAIIPVHLYGCPADIDSISEIASPNQIPIIEDGAQSLGSSYKGNKCGILGNLGCTSLYPTKVITSGEGGVITTDDETLYNELMRIRNHGLDESGQTTRFGLNLRMPEIEAAIASIQLSKLDDFIRIRRKNSDILSDTIEMRQSGRLPEELDPVSVRNWYLYTITLDPGKYGSVRRSKIMEYLAKHDINTAIYYRTPIHKMPYYQNLVGSCNLPNTDYASSTVLSIPNHHGLSEDDILYIGEKFNDAFNTV;locus_tag=LOCUS_2170;note=WP_010868279.1 aminotransferase DegT (Pyrococcus abyssi GE5) [pid:39.3%25%2C q_cov:96.1%25%2C s_cov:97.0%25%2C Eval:1.1e-63],MGA_217
sequence01	MetaGeneAnnotator	CDS	195371	196102	.	+	0	ID=MGA_218;product=dolichol-phosphate mannosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933673.1;translation=MNVSIIIPTYNEKENIVILTNKLTEIFKNSQHNLKIIVVDDNSPDGTSSVVKKLDLFEKSIFLITRQKKLGLGSAYQVGYKHCKENNSDCVIQMDADLSHPPELSLNLLNSILEGNDVAIASRYIDNGGISSWPIHRKIISFSANLLVRILLRSKLNDNTTGYRAFNKKTIDLLIQYDIKSNGFSYLIESVYLFHQKKLKIQEIPFVFRERSFGKTKLSSFEIFRFLLSIFHILIFGITEKID;locus_tag=LOCUS_2180;note=WP_010933673.1 dolichol-phosphate mannosyltransferase (Chlorobium tepidum TLS) [pid:33.1%25%2C q_cov:97.9%25%2C s_cov:97.1%25%2C Eval:9.6e-35],MGA_218
sequence01	MetaGeneAnnotator	CDS	196397	197431	.	+	0	ID=MGA_219;product=hydroxymethylglutaryl-CoA synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249136.1;translation=MKSSTSVYISGYGGYVPKLRLPTSEIAKLWKGGGSGPNKAKSVANIDEDTTTMAVESARNALLMSGACDIGAIFVGTESKPYAVKPTSTIVAQALGVNKTLAADFEFACKAGTEAMQVITGLIGSGMINNGIALGVDTAQGRPGDNLEYTAGSAAAAFILSNSSENSIAKIEDSISYVTDTSDFWRRQTESFPQHLSRFTGEPAYFHHVESSVKLLLEETDSKPSDFKYAIFHQPNPKFPVEVAKRLGFTYEQLEPGLLNPEIGNPYSASSPLGFIATLDVATPGDKILLASFGSGAGSDAFSFMVEDGILEKRKNIIPLQTQINDNIEINYATYTKIRGILKK;locus_tag=LOCUS_2190;note=WP_011249136.1 hydroxymethylglutaryl-CoA synthase (Thermococcus kodakarensis KOD1) [pid:52.5%25%2C q_cov:98.8%25%2C s_cov:97.7%25%2C Eval:7.0e-94],MGA_219
sequence01	MetaGeneAnnotator	CDS	197450	198589	.	+	0	ID=MGA_220;product=acetyl-CoA acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868485.1;translation=MSINISGTGLTKITEHWSKSIIDLAVDSAKQAISESNSSPDMIIIGNMLSSYSSNQENLAAIISEKLGISNITTFKVESSSCSGAMSVHIANNILKSNDLDSILVIGVEKMTDLSPSQIIKANSLGESSEYIQFFGITMNSIYALFSKLYMDHYNVKKEDLSYFPVLSHKNSVLCKHAQFNREFSIESISKASTISSPLGLLDCSPIGDGAASIVLSKKNTSNFDNVNILSSVSSNSSINFFERENMLKFYSTEDCLNKSLNESKIKLSDIDLLEIHDVVPAITANILETLGFSKNGKAASDIASGKYKLNSKPSLSTSGGLKARGNPLSATGIYQIIEITRQLQNRSHVNIDDTKIGLSHNMAGIDSNTVVHILGAVN;locus_tag=LOCUS_2200;EC_number=2.3.1.9;note=WP_010868485.1 acetyl-CoA acetyltransferase (Pyrococcus abyssi GE5) [pid:33.4%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.2e-57],MGA_220
sequence01	MetaGeneAnnotator	CDS	198591	198989	.	+	0	ID=MGA_221;product=cobalt transporter ApaG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762564.1;translation=MSISYWRLRDRYYRIIGSICNSCDFVSFPKFYSCPKCHSVNIADKEMPRTGKLLSYTISYEAMPGFEAELPMIIGLIKLDNGVNIIAQIIDSNIDDIQINVRVKSMFRKINSDGSSGQIYYGYKFKVLNKGV;locus_tag=LOCUS_2210;note=WP_011762564.1 cobalt transporter ApaG (Pyrobaculum islandicum DSM 4184) [pid:35.2%25%2C q_cov:92.4%25%2C s_cov:90.3%25%2C Eval:9.7e-20],MGA_221
sequence01	MetaGeneAnnotator	CDS	199133	199483	.	-	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISEIYLLYFFIVSISITLYWINYLLNSKISNSYIKSHIIAEIMIVILLLISIFSYYYIKNITIVLISLSMGMLLYASVNTIGEFIDKNNRNMIITLILNIIIILSIILLIINRII;locus_tag=LOCUS_2220;note=MGA_222
sequence01	MetaGeneAnnotator	CDS	199480	199902	.	-	0	ID=MGA_223;product=ubiquinol-cytochrome c reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259228.1;translation=MNEKYWLIKEEPTKYSFFDLINDKTTIWDGVRNNLALKNIRKITKNDKVFYYHSGTEKSIIEIVKVIKSPYKDPKHNNEKFVVFNIKPIKKLKNPVELKKIKSLKMFEKFELVRIPRLSVMPVEKKYWDKIIKLSEKEIK;locus_tag=LOCUS_2230;note=WP_012259228.1 ubiquinol-cytochrome c reductase (Chloroflexus aurantiacus J-10-fl) [pid:40.9%25%2C q_cov:94.3%25%2C s_cov:95.7%25%2C Eval:3.0e-29],MGA_223
sequence01	MetaGeneAnnotator	CDS	200055	202310	.	+	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKHWGVILAVLFFSILLLSSIFTVQSPIQRVEAQSLSRWERNWEYHNADPMGTNYNPQTQINSGNVEHLELKWMYPIPSSTDVGANEIGGFGSIEGSMAVPLVIDGNVFLVLNRKTVIAVDAATGSAAWEAAYVTEADNAINAVTEGGRLPITAEVSHTHAMHYIAEVGGGTLWFTDFGCKATGIRASDGSHYKSFDELCLEIPIDSPLGKGIPGNSGYFGSLQPHPAQFLHSKNLFFYSQGGAGEGTWGGRNYLAGHDATTGDVVWRTYLMPPCGDPDSLQKTEVACDPLFEQEKTEWGNWLVANCDKWWIQAKQNYKTNEPNTVDKPYAIKSCDMNQDILRNDWGKMVGNSGISNIWGQLVVDQEDEMLVAGTAQPGPDWNATFRPGPNLFAAAILKLDATNGEIQWAYQTTVRDPWDYDCSWNTILAKDITISGQIRDVVIKGCKNGRVHILDYMTGEPLHVFQSPNQRRTPFAELLDPLNDVEMVRSVANQCDAAQTKYASTCANDGPFYLNCPAVGCLESDIAYNRDLNMIFWSTFNEPRWIQARDAIGPCSVCGGAQDFPAPFEAAINATVHATDANTGELVWTYFIDNRGFRGGTISTADLVFFSGVDGVSRALHAETGQVLHEFNIGQASVVQPSIGADSNGNVKLFRTVGGANWFGFGNLGVDVTPGAIFAFGLPDSIPEPPAPVIQEVEVEVIKEVEVEVIKEVEVEVESISPISYVIIGLGVVLVVVSGVLYSRTRSA;locus_tag=LOCUS_2240;note=MGA_224
sequence01	MetaGeneAnnotator	CDS	202429	203133	.	+	0	ID=MGA_225;product=phosphoglycolate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877951.1;translation=MKYIALDFDGTLTDENHVVDLDALWSATMIQRMGIDIFMVSGRTAYEMYFLAKHTGLKSIVVGENGGVVIENSPASIIKLADKTIPLKAFELISKEIEEVEELITIPRLTEVVLKRTFDLDKAVNIVKKENLNVDLTDSKYSYHITEKGINKATGFKYIIKKLNINPDDCIAIGDSDTDIPLFDFCGYSITMNHVEDQVKEKAKYVTKNNRAKGAIEAFSYIADKFLKKNIDDI;locus_tag=LOCUS_2250;EC_number=3.1.3.18;note=WP_010877951.1 phosphoglycolate phosphatase (Archaeoglobus fulgidus DSM 4304) [pid:30.3%25%2C q_cov:94.4%25%2C s_cov:96.4%25%2C Eval:2.1e-23],MGA_225
sequence01	MetaGeneAnnotator	CDS	203123	205018	.	+	0	ID=MGA_226;product=arginyl-tRNA synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867806.1;translation=MIYRLILRKYKLTIKDEVDRVLEKIDYPKIDYQIKETTNNKFGELYTNIPFMLSKLLKQNPMDLANNIQKNIEFNESITADVSKPGYLNFRINYKKLCYETLAKSNDDINKLMNIGNNEKIILEHTSVNPNKALHIGHARNLFIGDTLARMLRYVGYNLTIMNYIDDSGLQVADIIVGLKYAGFNEQPENGKKFDEYAGDDIYVKVNELYETNKELIEKRKFIMKELESKSEISKYAKKITNTILKNQLETAKRLGAKYDLLVRESDIIFSGGWNEIFEKMKKNKIIEFKKEGKLSGAWIIKTSFKNETDKVIIRSDGTFTYIAKDIVLAAWKIGILDEIFNYKLFDKENNNKLLTTTQDNNSNTISFNNNLRAITIIDSRQSRLQKIIKEILNKFNNTNDKVYEHLSYEVVALSKNTADVLGLETENKKIVQMSGRKGMYINVDTVLDKIKARVFEETKLKNPTESNQWITNTSEKIAIAAFRYELLKSDLDKIIVFDLNNSLKLDGETGPYLLYTFARASRILEKSKSEPKFEKDLYKFLTYQHEIDLIHNMSRIDLMIEEAILNISPMTIAKFTYTFCNQFNSFYEKSSVLYEENEDIKNARLCLVYSFKNSLEFLFNLLGIESLKRI;locus_tag=LOCUS_2260;EC_number=6.1.1.19;note=WP_010867806.1 arginyl-tRNA synthetase (Pyrococcus abyssi GE5) [pid:32.7%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:3.3e-72],MGA_226
sequence01	MetaGeneAnnotator	CDS	205105	205308	.	-	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFMGLLKTNSNNEPGPGNGSELNFYDVKGRQKFNSTKYSIVVKSGRRFAVAKAPSGIDAYRILGKA;locus_tag=LOCUS_2270;note=MGA_227
sequence01	MetaGeneAnnotator	CDS	205455	205853	.	+	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLENLLFIMKDLNFLNEIDRSIISIIKEYSHNSNYPEFIEIFNKLEVIENKILNDYPVATVDEKLNELIKNQDQIRKEIYNELEQYNKNDKNQENILKEKIEPLINNFIINYNKVIKTIKNMDFSDTRKDTI;locus_tag=LOCUS_2280;note=MGA_228
sequence01	MetaGeneAnnotator	CDS	205902	206141	.	+	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLPLKNVVYDIIQAENNTTDTKLIKLLNKSGVDIGKKDMNKILLQLEMMDLVSVRWLGKNEKRIELSDSNSQKENAMW;locus_tag=LOCUS_2290;note=MGA_229
sequence01	MetaGeneAnnotator	CDS	206176	206679	.	+	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIINNNILKEFSGLFIFIILIGSIWIGITITIENDTPFFVVSSRSMIPVLDVGDIILVSGRNNYEDLKIDDIIVFTLPTDKDRVIVHRIHEIRYDEDRGIEIKTKGDHNPNIDGWTVLKRNYIGTVIFTIPSIGNITIWLSPPTNYYIITFIIIILLTKEVKNEEN;locus_tag=LOCUS_2300;note=MGA_230
sequence01	MetaGeneAnnotator	CDS	206757	207314	.	+	0	ID=MGA_231;product=transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762559.1;translation=MSKSEVTIVIENVVASASIHQNVNLNQITKKFDHVEYHPQQFPGLVFRLKEPKTAILIFNSGKMVCTGAKSEQLSKKAVKIVVTKLREKGINITKNATVTTQNIVASVDLKGKIHLEEAARQLTQSMYEPEQFPGLIYRMRKPKTVILMFSSGKLVCTGAKMESQVYEAVENLHKLLEKKGLMIY;locus_tag=LOCUS_2310;note=WP_011762559.1 transcription factor (Pyrobaculum islandicum DSM 4184) [pid:46.4%25%2C q_cov:98.9%25%2C s_cov:92.0%25%2C Eval:2.8e-42],MGA_231
sequence01	MetaGeneAnnotator	CDS	207311	207922	.	-	0	ID=MGA_232;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979530.1;translation=MLNHDEVVELVEALNYCNSFKFGQHVLSGGKTSPYYIDLRLVQSEPKYFKLIINSYIKIINNIGINTFDYICGIATSGLIFSVPISLMLNKPHIYIRKLKKNYGRQQNLEGNIKLNSRVLLIDDIFTSGSSLLDGLNIIHDSGSKVSSALVLVDRQETSHSIFSEFNIKLSTVLNIVDIAEILYSKSIIDNNQKQSMLSKIID;locus_tag=LOCUS_2320;EC_number=2.4.2.10;note=WP_010979530.1 orotate phosphoribosyltransferase (Sulfolobus tokodaii str. 7) [pid:37.8%25%2C q_cov:88.7%25%2C s_cov:90.3%25%2C Eval:1.1e-27],MGA_232
sequence01	MetaGeneAnnotator	CDS	208015	209160	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEIWIPYGNIEVSIDIEPDNLSGLYKNETNIFNSDKIKENTLLNELTDTVNIFDNCNSIGSISIIYKIIKTIEINKSVKEINLIISKNYKKNIQELIKDIKIKITLKIFEELSINELREIIKLKNVIFVSNSTFDPLFGFTGGPISLAKILNDEIINFAFYDKEIILPESGIISHRTQIIKKEYKKYENLISVQIIEDAVGVANCEIGKLNQTFDKSTKLLINNIKPIQKKLEASIISCDYNRINTMINSLHGLWNIHDSLEEKGNVTLVTECLDGFGSVALNQYVQNQVNLKDLINKNEYINGLEDLIFLENIHEKLSINIVSTLPNYYIEKKFKFRPFNTINSALNSTLRRKGKSVTIGIIPYGNNIILESKNNQVKM;locus_tag=LOCUS_2330;note=MGA_233
sequence01	MetaGeneAnnotator	CDS	209194	209703	.	+	0	ID=MGA_234;product=ribosomal-protein-alanine N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762816.1;translation=MQKISSKKVDNIKLRFALTKDIYDIISINLKTLPEHYSHSFFIEILIDSPETFIVAEDENKIIGYIMCRVEYGFSILRKLNLARKGHIVSFAVLDEYRNRGIGKRLVNQAINGMHTRKCVEAYLEVRTNNDLAIKLYEDLEFKKISRLNSYYKDKSDGFLMCKKMNKKN;locus_tag=LOCUS_2340;note=WP_011762816.1 ribosomal-protein-alanine N-acetyltransferase (Pyrobaculum islandicum DSM 4184) [pid:46.3%25%2C q_cov:87.6%25%2C s_cov:84.7%25%2C Eval:1.7e-29],MGA_234
sequence01	MetaGeneAnnotator	CDS	209709	210512	.	-	0	ID=MGA_235;product=tRNA (guanine-N1)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867861.1;translation=MKYSTSEFKKYLSGMDIIGEIAIIKIKPDFLSKKTEIGNVILSNISNLKSVFLQETGVEGEFRVKKIKFLSGIDDSITIYKESGCRFLIDVSKVYFSPRLSNERLRIAQLVKSNERILNMFAGVGPFSIIISKVQPNCQIVDIEINPIAHEYAKENYSLNKITNISSICGNSHQIIKNQFPDNFNRVIMPLPEKSVEFIDDAIYSLKKQGWIHLYVHLNCPDNNVLSYANEFIAKKLNNSSKIRFSRIVKNIGPGWYQIGFDIEINK;locus_tag=LOCUS_2350;note=WP_010867861.1 tRNA (guanine-N1)-methyltransferase (Pyrococcus abyssi GE5) [pid:34.1%25%2C q_cov:97.4%25%2C s_cov:77.3%25%2C Eval:5.4e-37],MGA_235
sequence01	MetaGeneAnnotator	CDS	210530	212338	.	-	0	ID=MGA_236;product=ribosome biogenesis/translation initiation ATPase RLI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877518.1;translation=MSLPIFSNTHRIAALDKANCFSKKCNLECINFCPVNKSGSECIILDSDNKALISESLCNGCGICVNKCPFDAITIVNLAYEMGTDKIHQYDINSFRLYRLPNPIPGKIVGLVGKNGIGKTTALNILAGNLKPNLGNYEKEIPWDDILSHFHGTELINHFKKIINNELSISIKPQAVYKLKDYWKSDGLSLLHSIPNSNFSNDIIEDLNLTNCIKKPIKDLSGGELQRLSIAVAAIKEADIYFFDEPSSYNDVFQRLTVSKTIRNLANKGKSVILVEHDITFLDYLSDYIHILYGEAGVYGVVSSPQSSRTGINNLIDGYLPNENIKFRDAKIKFNIYSPSELNEEIPTVIEYDNFTKTFDNFTLNVSAGKIQQGQVLGIIGGNALGKTTFMRILSGIDKSDQDNIKTDIKISYKPQYLNSDYHDTVKNLLYSQGAKIEDEVFNNGIIRPLSIHKLFEKNVNTLSGGELQKVAIATCLMNDADIYALDEPSAFIDVEDRIVFAQSVQKFVKLNNKSAIIIDHDIQLIDMLSDSLLLFDGINGINGIAHTPTNKNSSMNEFLKNLQITYRRDIETGRPRVNKYNSRLDKEQKNNNQYYYLGKTE;locus_tag=LOCUS_2360;note=WP_010877518.1 ribosome biogenesis/translation initiation ATPase RLI (Archaeoglobus fulgidus DSM 4304) [pid:45.2%25%2C q_cov:97.5%25%2C s_cov:99.1%25%2C Eval:1.4e-152],MGA_236
sequence01	MetaGeneAnnotator	CDS	212419	214599	.	+	0	ID=MGA_237;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878793.1;translation=MNETDVTLKVLEAYTRDVGRGVARIDYEAMDVLDASTGDIIEIKGKRNSVAKCLPLYPSDEGRGVIRIDGLIRNNSGVAISDIVSIKKIKAPPAEKVTVAPLESIPPIDERYLADALESVPVTKGDNIMIPYFGGRLTFQVIGISPMSDAVLITQRTVFSISEKGEVGRGGVPQVNYEDIGGLRNEIRKVREMIELPLRHPEIFEKLGVEAPKGILLYGPPGTGKTLLAKAVATESSAHFISISGPEIMSKFYGESEARLREIFKEAKEKSPTIIFIDEIDSIAPKREEVTGEVERRVVSQLLSLMDGLEGRGKVIVIAATNRPNAIDPALRRPGRYDREIEIKVPDKIGRKEILLIHSRAMPLEEEGEEAVDVDELASKTHGYVGADLEGLCKEAAMKTLRRLLPDMKFDEEKISPEVLDNVRIIKEDFSKALKEITPSAMREVYIETPDVDWDEIGGLNTIKKEIQEAVEWPLKYPETYEKIGYSMPRGVLLHGPSGTGKTLIAKAVAKETGANFISVRGPELLSKWVGESERGIREVFRRARQASPCIIFFDELDSLAPLRGGGGDSQVSERVVSQLLTELDGIQSLDGVLVLAATNRIDMIDPALLRAGRFDKLLYIAQPNRNARMKILEIHIKGKPLSNGVNVGRIADITDGFSGADLASVVNTAVSSVLQNFVSKYNPEEAKKHIKEAIVNMNDLESAVTKVKTSRDGRPVEKSPIDFVK;locus_tag=LOCUS_2370;note=WP_010878793.1 ATPase AAA (Archaeoglobus fulgidus DSM 4304) [pid:60.4%25%2C q_cov:98.5%25%2C s_cov:97.3%25%2C Eval:2.3e-242],MGA_237
sequence01	MetaGeneAnnotator	CDS	214707	215222	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYVLIMQFIQSLASAIQLLIENYGFFGIFFAMVIQAIIPVAIPSDAVIIGAVLLKIDPILIIIASALGSTIGGLFGFMLTRKGGKPLAIKFIGKKHIERLEIWFEKWGNYIIVFGRAAPFLSSDAIAYAAGLTKIKIKLFIILAFIGALLRSIILVYLGDKVMQYFPNLI;locus_tag=LOCUS_2380;note=WP_064496475.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:35.6%25%2C q_cov:87.1%25%2C s_cov:45.4%25%2C Eval:3.7e-19%2C partial hit],MGA_238
sequence01	MetaGeneAnnotator	CDS	215241	216917	.	-	0	ID=MGA_239;product=thermosome subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878948.1;translation=MTQANLGVAPGGQPVIILKEGSSQTKGREAQKNNIMAAKVISEIIRSSLGPRGMDKMLVDGMGDVTITNDGATILKEIDVQHPAAKMMVEVSKTADTEVGDGTTSVVIFAGSLLEKAEELIDKEVHPTIVVDGYKKAAVQALKILDEIAIKVNPNDKKWLKKVAKTSMASKLIWRESDNLSQIVIDAVLSVADNVDNQYKVDVDDVKVEKKAGESLKETSLIKGIILDKEVVHAGMPKKIEGAKIALITSPFEIEKTEFDAKINITNPDQIQEFLDQENTMLKEMADKIEQSGANVLICQKGIDDAAQHYLAKAGILTVRRVKQSDMEKLSRATGGRVITNLEELNKKDLGTSQLVEERKIEEDKWVFIEGCKNPRSVTILIRGGTQRIVDEAERSIHDALMVVRDVLIKPSIVVGGGAPEAELSKSLKSYANKLSGREQLAVQKFAEAIEIIPITLAENAGLDPIDTQVQIGAAHGKGKKWYGVNVIKGEITDCEKLGIFEPTIVKEQIIKAATETACMLLRIDDVVASAKSPAPPPGADMGGMGGMGGMPPGMGMM;locus_tag=LOCUS_2390;note=WP_010878948.1 thermosome subunit (Archaeoglobus fulgidus DSM 4304) [pid:57.3%25%2C q_cov:92.3%25%2C s_cov:94.5%25%2C Eval:5.9e-171],MGA_239
sequence01	MetaGeneAnnotator	CDS	217144	218472	.	-	0	ID=MGA_240;product=TldE-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146938.1;translation=MVLDNILSILESPISSLNSDDFSIIVVKNNEDLIRFSNNNIDVFDTIDNVFVEIYLGKDKKRAIGSTSNLDENSLVNFINSLFKQCNDSPISQDYVNLPSGPFIYANNVASKNISINNFELMLDHVELSINSALKAGASRVSGSFMSSTTEILLKTSAGANSIDKSNTHLLNLRAFSKSNSSGHGLSCSSSINGIDSKKAGERAGTDAKKSINPQTCDVGKYDILFTSTVAADIFQYVGYAASAFSIDTGMSFLANQINNKISSENLSITDVGNPKDGICGRIFDDEGMPTTSTTIIQNGVLKNYLHNMTTSNKYNVESTGNAGIIFPSCWNLDVSSGDTTFDEQLSELQNGLLITNNWYTRFQNMHLGLYSTIPRDACFLVKNGEKVAPIHNIRISDDLPRQLSNIKSLSKQREWIKWWEVEVPTLSPSIIIEQVPVTRST;locus_tag=LOCUS_2400;note=WP_048146938.1 TldE-like protein (Pyrococcus abyssi GE5) [pid:37.1%25%2C q_cov:96.4%25%2C s_cov:96.6%25%2C Eval:8.6e-82],MGA_240
sequence01	MetaGeneAnnotator	CDS	218472	219926	.	-	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868372.1;translation=MNTLSKYEDVLNSIIVESQKYNVEYVEARFHSTWNSIAILKNSQSEPTISSETQGIGIRLIYDGVMVFASTNILDASINQLIKKSISRAKSSKRISKNPVKFSNEKSVIRDWSAIEKENLQDIHIDEIISELTNIDKCVTSFKSDVSFPQRIFYIENSVEEKFYMNSEGAHILSRVPRVEFHSELTAKFNGLISSLTIPGGYAGLGRTGGWETIKEFNFDSYIPKQLKNSSKSIKAKSMKFENDIDVIVGPEVAGLVAHESCGHPFESDRILGREAAQAGESYLDFDSIGKKIGGPEAFVSDDPTIPGSMAFYLFDDEGVEARKRTLLKGGFVTDLLYNRETSYKKNTQSNASSRSVQYDREPIIRMANTFIEPGDYEFEELVKDVKYGVYIKNFMEWNINDTREHQRYVGFEAYLVKNGELDINIKSPVLDTTTTKFWNSIDARSKDLSFTAATCGKGEPMQGAPVHTGGPHVRLRNLKVGNH;locus_tag=LOCUS_2410;note=WP_010868372.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:41.1%25%2C q_cov:97.3%25%2C s_cov:98.5%25%2C Eval:5.1e-99],MGA_241
sequence01	MetaGeneAnnotator	CDS	219947	221806	.	+	0	ID=MGA_242;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146849.1;translation=MILVLLNMDIMTKKTFDKIKIVPDTSIIINGILSEKIENKEIKNSEIIIPIAVLDELQAQASKNQEIGFLGLEELKKIREISLKKKIKFRYLGTRPSLEDIKLSKSGRIDAIIRDESIKNDAILFTGDYVQAIVADVMGAKVNYIPTKFNKENVTFTKFFSDKEITSVHIKQGIPVRVKRGIPGNIKLESVGKVIEEEQINNIIKEIQEYARISEKKDKQINRDGAKVIQLESYRITITLPPFSDKAEITIIKPIKKLQFEDYEISKKLKERIEKAAEGILIAGSPGSGKSTFASSLAEFYSSKNKIVKTIESPKDLQVNPEISQYGQLEGDFEKTAEILLLVRPDYTVFDEVRKTKDFMIFADLRLSGVGMIGVVHASNPVNSIQRFVERIELGMISSVVDTVIFLKDGKISKVYQLELVMKVPTGMQEADLTRPVVEIRDFDNSNLEYEIYTYGEEKIIIPTINIEQKEKISKDIIEKKLRDTFKRYDKNIEIEMLSSKRAIVKTNKKNIPKIIGKNGQEIMNIEKEVGIRIDVEPSTNALGKNINHIIHESGNSLDILFKKKLNGKKLNIYINNDYIFSTTVGKKNKIRVAKDSDIGKTIVSAIVQEKNINVTELN;locus_tag=LOCUS_2420;note=WP_048146849.1 ATPase (Pyrococcus abyssi GE5) [pid:45.2%25%2C q_cov:94.2%25%2C s_cov:97.2%25%2C Eval:4.7e-140],MGA_242
sequence01	MetaGeneAnnotator	CDS	221803	222093	.	-	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLLVIGLLCIIIGYTAIQIAIETLTEIDIYYQDMMAGNLAEDDVLIEEQELMALFGRYEATAMVSRAIIVFGVIVTIYSMKNELIGLKNKIFN;locus_tag=LOCUS_2430;note=MGA_243
sequence01	MetaGeneAnnotator	CDS	222098	222589	.	-	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNISVTITYEDTKVDFKGDSQTVLSSINEFLLKAIPQLELAKKISKNYSLEDILSKFSHLIKITPEGPRIWANSQKISDREKIGLQLLAYHVAYLAEKLHSPSVSINDLNQLTGLNPKSISSRLSELQKLSYISKENINRKIKFKITTQGINWLETGISNRL;locus_tag=LOCUS_2440;note=MGA_244
sequence01	MetaGeneAnnotator	CDS	222603	223091	.	-	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNSITKIKLRISNTEIEIECDIDNLNEIISKIPKIIESINTINDVKSNETLLKLNNNSIEKNGIIPPDININKSDSLTDVLLKLFASNWSNNPKKLSEVRETLQLYGLIYPKQTIAVTLLRMAKSGKLRRFKSNNGEYVYTASNSLISSIENNTKFGILTN;locus_tag=LOCUS_2450;note=MGA_245
sequence01	MetaGeneAnnotator	CDS	223123	223536	.	-	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDSEKISVKLKHGSWEIEITCPENKVKQIVENVIAGLDSKSSDQIISPDEVKPMVDFNKSNEHVICRDLIQTLWKENWFSKEKNLSDVYEELARRGYHYDKTSISHSLKDLVRENILTRNGSMRNYRYVQKRPPVQ;locus_tag=LOCUS_2460;note=MGA_246
sequence01	MetaGeneAnnotator	CDS	223609	223860	.	+	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVSTHLSKNNNIMEILDNMESPYGQNEKIEYLTKILDKLVEIKLNELGKTYFEVVRENKNREAQLKRLSAWNEWLSENNANL;locus_tag=LOCUS_2470;note=MGA_247
sequence01	MetaGeneAnnotator	CDS	223893	224579	.	+	0	ID=MGA_248;product=XRE family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496864.1;translation=MENADLEIISKIAGNVVISNNPGEMLKVWRKRLKIKQITLAKKIGISPSVLSDYESGRRYSPGIIFIKRYIESLVILDKSNNKTLNRLMKEDHSAILGIAEFKKPIKAEELKKVLNLEILNGEDKLETKIYGYTIVDSINTIYMLSGIDFYKIFGATTERVLIFTRVGIGRSPLVAIRVSQLKPRMVVLHGPDKIDKLAIDLADKDKIILGLTTSDKNNNIKNTLSKF;locus_tag=LOCUS_2480;note=WP_064496864.1 XRE family transcriptional regulator (Methanocaldococcus jannaschii DSM 2661) [pid:45.2%25%2C q_cov:92.5%25%2C s_cov:94.4%25%2C Eval:3.3e-42],MGA_248
sequence01	MetaGeneAnnotator	CDS	224617	225414	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMEFQYLLFIILITIFSIIILKLKILDFKGTISSIFIGNLIYLTTGINGFILILQFFIIGFIFTKYKFNQKRIKGIAQEKGGIRSWDNVIANGFGFSLFALIYFITNSELFLIGFISSIAIATGDTLATEIGLLSKNEPKLITNLKKVEAGRSGGITTLGLIASFFGILSIIISSLFVGFIVDYYIILIIIIGSFLGILIDSIFGATVQSQYYCNQCNKYTELAVHHNKNNELISGLSYIDNNIVNLLSIMLGSSFIILIIIFI;locus_tag=LOCUS_2490;note=WP_011021658.1 TIGR00297 family protein (Methanosarcina acetivorans C2A) [pid:34.2%25%2C q_cov:71.7%25%2C s_cov:42.6%25%2C Eval:4.4e-23%2C partial hit],MGA_249
sequence01	MetaGeneAnnotator	CDS	225394	226848	.	-	0	ID=MGA_250;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I7P3;translation=MIMKYEEIQKLFIEKGFFFPSSEIYFDAQAGFWDYGPLGVNFKNKFIELWRKHLVRRDGMLEIDGSQILSKNVFVASGHLENFTDPIVKCQNCNSVYRADRMISDITGDIISEKLSNDEYDKKIKSLKIKCLKCKNILSNVSRFNMMYDIGIGPKKEESYLRPETCQNIFVDFLRLSKTMRIKLPIGIAQFGKSFRNEISPRQSLLRLREFYQAEIEIFFNPNNVDNVDSFSEIKDCVLNINDNDETISKSCEELVNTGILPNKFTAYYLGLVQQFYNKTGINTSKTRFRVLPDDDRAFYATHSFDFEILTSTGWLELVACNNRTDYDLSRHQKISGKDLSVLDNDSKVLPHIFEISMGVDRSLYSIIEHSYKKDGERSLLSLKPGLSPIDVAIFPLLNKNGLSSLSLDIYNNLKLDFNAFYDVSGSIGRRYRRQDEIGTPFCITVDFDSIKNNDVTIRYRDSMKQLRIPITEINNKLLYEYNN;locus_tag=LOCUS_2500;gene=glyS;EC_number=6.1.1.14;note=A5I7P3 glycine--tRNA ligase (Clostridium botulinum A str. ATCC 3502) [pid:36.8%25%2C q_cov:96.9%25%2C s_cov:96.3%25%2C Eval:2.6e-79],MGA_250
sequence01	MetaGeneAnnotator	CDS	226875	227522	.	-	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKSERVFSTSRGPKKHKSRAKKWINYKSAIAFGTIIILLVGGFEYYQYVDETNKREETIMKTELYVPSIDAILWGEVSENGEPMESEYKYSTREFYRGQIMIIYGGSLNYEDRNNIQIIATYPNGTTLTIPKEYIKFERVICHDLFLDEDCDTLSIAESLKYEIIWLWEESQLEEPLGRYNFEIINEQYEKSSVVSNSPECCRSNIDIELLFR;locus_tag=LOCUS_2510;note=MGA_251
sequence01	MetaGeneAnnotator	CDS	227967	228134	.	-	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKCFVKTIGKRREIASIKKNGSAADFPRMMEYWDKDKNQENPKDIPSESHDKYW;locus_tag=LOCUS_2520;note=MGA_252
sequence01	MetaGeneAnnotator	CDS	228131	228379	.	-	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRDSKTGRFVLLRPNDNLLVTNPYVAKLWHPTKNGKLKPEHVTRKMKMKIWLFCDNNLHEPYKWSLSVLRARGREDQYKEG;locus_tag=LOCUS_2530;note=MGA_253
sequence01	MetaGeneAnnotator	CDS	228602	228874	.	-	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPRFAKVPNTPLKLAERIGLGNLRRYKKTGRVAGIAEMIANIVYKKPSSYQVMRIRFLTLAVILLAPEASGLFAYCFLWLIIPPNTKGE;locus_tag=LOCUS_2540;note=MGA_254
sequence01	MetaGeneAnnotator	CDS	228874	229248	.	-	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFGSPEEQTLEQLSQIIEDSKTGFDIDVIDGWYFRIIEFTKEEAPLDLIESISYEQDQLLPMKFKVNCSKRAVPQLIKAIDHFMPEMQYVTQLYFQVVQKIIEKEYKEYNPDPKNPKFGDSN;locus_tag=LOCUS_2550;note=MGA_255
sequence01	MetaGeneAnnotator	CDS	229600	232548	.	+	0	ID=MGA_256;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870461.1;translation=MIFRGGWDTQGLPVELQAEKELGLKGSKIENLKKIGEETLIQSCKDLVLNNYETWEKCDQLLGLSLDHDKAYWTFKDEYIEREWKYLEKAWQNGILEELESVVPYCPSCQTSLSHAEVSQGYENVEDPSLYYKVKLVDEDVFLILWTTMPFTIVTDMLTGVKPESLYSYVKIENEIWILANERLDDLMNVFHIENYEILKEVKGESLDGKKYIHPLAEKYIPELHNLSNQKGVHSVVAEDFVDLSTGTGLVHISPANGEIDFEIGKKRKLPLFNPINDQACFNEKSGKFNGLFVQDTNEVVFDLLKDENALVKLGRLKHEYPLCWRSGHRLLWVARRAYFYRVDKLGDKAVEAAESVEYYFEQNRNRFIEIIKEKRPWCISRERVWGTPLPIWKCESCSHKIGLFSRQAIIDNAIDLPDGDNFELHKPWMDRILINCPKCNNKCHRELFVLDTWHNSGAAPYSSLSDEEYNKFIPATFLTEGIDQTRGWAYTLLIENVILQNSSIPPYKAFLFQGHILDEKGNKMSKKLGNVVEGYKTLQDHSVDLLRFYLMRKADPSKSLNFSFEEMRSRPYQVISTLFNLHKYLKQNGEYDNFDKDKNTLEWAINQKLLSSPDYWILSKLQNLIHDVTQMFNNAHFDTVTSLIDDFIIESFSQIYLPMIRNEIWDDDELKLNRRLSIYSIIYHILYNLNVILHPISPFITEYLYHSMFRNQSILEQTWPQSNDNLVDDDLENEFKSLQIIISQSNSARMKGKLKRRWPLKSAYVYIDEQNAKKLIKHKELLEKFCNVKEIFFVTNIEKIPIELLIKPNYELLGKKLKSNINEFRKIIKEHNSLSLFNHFYKNDIFELKINDTIYEILKKEINFSFIAKENFVLSEKSGFIVILPQERDDTLFIEGYLRDLARRIQSERKESGLDPTEILKNTLIYGIEEDTRKLLIPKLSELKYLVRTKNVEVVDDVNSESNWKDIDIDGKKLKICIISF;locus_tag=LOCUS_2560;EC_number=6.1.1.5;note=WP_010870461.1 isoleucine--tRNA ligase (Methanocaldococcus jannaschii DSM 2661) [pid:33.1%25%2C q_cov:99.4%25%2C s_cov:91.7%25%2C Eval:1.8e-144],MGA_256
sequence01	MetaGeneAnnotator	CDS	232538	234094	.	-	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMQKDTAKGATSLYLSNLVSLFVITGHFVVLTNTLNISDIGIIFGFQIIMYLVATLATFCLPIPIMSPLPLPHAITKFIPEFIASKEEGKANTIFVYSIYSIILIFILTSIIILINSEIINSFLFNGQITNTILFVALIQIFFFTINQFLFGGMIAIGKSYKAGITQAYSIIIKFTSAAIFAYLGYGILGVLIGYFIGDLFFSIITFPICYKKLNNEKQQININQIINYSMPILISSLIIFSVTQIDRIFALINLGLPELGIYTIAIAASTIGAYAPNALATAITPNLSTLHSLKKIDAFRDLSKLYTRYVSFIGMPSAFMIAALSVPLTLIFGEQYISSATPAAIISIAIGLTTFSSIYNSQLFVKGKTRWIMFANIIGLLLFIITIGISQFFNNNLSITYLATGRAVMIISTALIINYKSFIAGDMKYDKVAIVNSLIGSLLMAGILYYSYNYFFNTISLVLSLLFLIPSGLIIYFVYLRQTNTFNSQDVEFIIKIISIKSSKNIIRIRKILGIKN;locus_tag=LOCUS_2570;note=MGA_257
sequence01	MetaGeneAnnotator	CDS	234094	235041	.	-	0	ID=MGA_258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENDSEEDLLLFLDIRDRIDQNLSGERGLLGLAFDPNYSNNNYFFLHYNDFNGNTIISRFTDNKNNPDLISSTELQIIKIEQPYSNHNGGSIVFGPDGYLYIALGDGGGGGDPFLNGQNGKTLLGSILRINVRDSSINKPYKIPNDNPFINNDSFRDEIWAYGLRNPWRMSFDTESGRLFVGDVGQSRFEEINIIEKGGNYGWNIMEGNHCYQNEICDKQNLKSPIFEYSHNEGCSVTGGYVYNGEIKSLKNKYIFADFCSGYIWIIDLTDNKYEKEILLQGPSQISSFGEGEDGEIYLLSFDGRIYKFVEKVRV;locus_tag=LOCUS_2580;note=WP_011069707.1 glucose dehydrogenase (Leptospira interrogans serovar Lai str. 56601) [pid:44.6%25%2C q_cov:91.1%25%2C s_cov:70.7%25%2C Eval:1.3e-67%2C partial hit],MGA_258
sequence01	MetaGeneAnnotator	CDS	235310	235879	.	-	0	ID=MGA_259;product=kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870563.1;translation=MVYMSIIGITGNPATGKKTIGKMVSNRSGFNLIEINQFIIDNNLHKIENNEYVIENIKEIQKKIKKEIHGEKYIIIGHLLSEIFNEEILEKIFVLRCSPEILLKRYNERKYNEIKIRDNIVSEMIGTIYYNTLKKYGHNKTFEINVSDRNIEEVVNEMILIINNKSNIQTHVDWLDVVSKSIKLRKYLS;locus_tag=LOCUS_2590;note=WP_010870563.1 kinase (Methanocaldococcus jannaschii DSM 2661) [pid:29.7%25%2C q_cov:89.9%25%2C s_cov:92.7%25%2C Eval:2.0e-14],MGA_259
sequence01	MetaGeneAnnotator	CDS	236048	236269	.	-	0	ID=MGA_260;product=histone;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060781.1;translation=MSDLEFGLAAVYRIIKKTGAERVGDDAAEELRTVLEGFGLQIAEQALIYAKHAGRKTVKASDIKLAVTEIKKN;locus_tag=LOCUS_2600;note=WP_048060781.1 histone (Methanothermobacter thermautotrophicus str. Delta H) [pid:62.5%25%2C q_cov:87.7%25%2C s_cov:95.5%25%2C Eval:5.1e-13],MGA_260
sequence01	MetaGeneAnnotator	CDS	236321	237124	.	+	0	ID=MGA_261;product=hydrolase TatD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017086.1;translation=MSVFNSLKFNFDEFELIDSHIHLSAPEFNNMYSDLFNYLKITKTLAFNVSETLDDSIITMNLSNISNNLLSFVGIHPKYSSNSNLDDFYHFFEKNYHNINGIGEIGLDKTYVNRGIKFDDQLNTFKYMLNLAEKHNLPVSIHSRDATQDVLNILSSYNISCAMLHWFSGNESQLKQINDSNILISFGPALVYSKSLQRIAKSSNLDRIIVETDGPVHFSACYEGKIAEPSLIPSIIYKLSILWNKDFDDIKNNIIKNLKEYIVVNRH;locus_tag=LOCUS_2610;EC_number=3.1.21.-;note=WP_011017086.1 hydrolase TatD (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:26.6%25%2C q_cov:92.9%25%2C s_cov:96.1%25%2C Eval:4.9e-22],MGA_261
sequence01	MetaGeneAnnotator	CDS	237130	237375	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVWRLSTQVLENNNSLFTTDYEENKKALGTVSEISSKKLHNQIAGCITKIKNNEQKNLKDKDINSDIVDVKISDNNESD;locus_tag=LOCUS_2620;note=MGA_262
sequence01	MetaGeneAnnotator	CDS	237362	237619	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQIKFLGNICKYTNNPNLLIDLKNYSIKQMLSLLDKKFNFEQSFLKNENLLIAVNNIEVSVLNNTDTIIKDGDTISIISINHGG;locus_tag=LOCUS_2630;note=MGA_263
sequence01	MetaGeneAnnotator	CDS	237850	238143	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRISITDQINNAIEISGISPNNNSYIIVSIGKNSSLKLFNTWIYNNLNYSSDINLNNMTQFLKFHNLKINYQKKSNLELELLSYSAVKLITKSSIDI;locus_tag=LOCUS_2640;note=MGA_264
sequence01	MetaGeneAnnotator	CDS	238189	238869	.	+	0	ID=MGA_265;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871052.1;translation=MKKYRTPLLVINFKNYNEVFLNYSISLAKISQSISINKSVEIIVCPPTPVLFNVIDNVNIPVFAQHVDDSNIGSSTGSIIPELLKSINCPGSLINHSEKRIPLEQIKNLINRFRSLELTSLVCAQSIEEVSLIAKIKPDIIAIEPPELIGSGRAVSKVNPKIISDSVDVVAQINKDIDVLCGAGIMTAEDVSIALELGSKGILIASGIIKADNWENKITELSEPMI;locus_tag=LOCUS_2650;EC_number=5.3.1.1;note=WP_010871052.1 triose-phosphate isomerase (Methanocaldococcus jannaschii DSM 2661) [pid:48.6%25%2C q_cov:94.7%25%2C s_cov:97.7%25%2C Eval:9.6e-55],MGA_265
sequence01	MetaGeneAnnotator	CDS	238960	239637	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979256.1;translation=MSQFTSKWNNEHSPGISDKIKEVIRTDKEPIKPKFEYAVRQINTQITKLDQTSQKLKNRDANIFSHIVASLSKHDKSHATVYATELVEIRKMNKIVTQSKLSLEQIALRLNTVSELGDVVITLTPAMGIIKDIQSGVMNILPEAEHEISEISSLLSSILVDAGQIGDNNINFANSNTESRQIMEEASTVAEERMNNQFPDLPSTTNPSSTTNSLSSKNKIEDLFE;locus_tag=LOCUS_2660;note=WP_010979256.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:32.3%25%2C q_cov:89.3%25%2C s_cov:91.3%25%2C Eval:1.0e-32],MGA_266
sequence01	MetaGeneAnnotator	CDS	239691	240488	.	+	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNILRLKIKNIKARNKINRSLKILCKQQKEISTLQIILNQRLNKLNLLYKKSLSNNDSSYDIYKNEYSDIEKLLSNIRINEILIIKSINRMETLKDIHIITNSLEMDIQEYKSIDASLSNIMPDLNNQILMINKSLNQSSTLPELSKNEIFEVNPSIQTNILQPIINQLKNKSDKIESIVKNNQITSIGNKEFNNTSETPMNFKKYNIQSNDKINLDNSITDYINENNGKFDVVDAANELGLSIETVETKTIELMNKGRINIKR;locus_tag=LOCUS_2670;note=MGA_267
sequence01	MetaGeneAnnotator	CDS	240494	241660	.	+	0	ID=MGA_268;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979234.1;translation=MSSAPNVLQTTAQKYANEAIKFDSQGSRGTAIQMYQKSVDALIKLTRLYPNDPFTKTYIKTAKAYQERINELQNTSNIKTKDETESQTKIVETLKSSYDDVILQEKPNVNWNEIVGIEDAKQALRESITFPSMRPDLFPLGWPRGILLYGPPGTGKTLLAAAVASDIDGHFMNADASTIMSKWLGEAEKNVSKLFRSAKRIIDDGASSVIIFIDEVDSLFGKREQEVGGESRVRNQFLKEMDGFTDKTDKGKNLPLYVIGATNKPWSLDWPFLRRFQKRICVDLPNLDARVEMLEIYTSSLKINDGVRLSDLATSLDGYSGSDIRDICQSVQLKVVSKLFEYGSPTQDVEPEEITSADFYEILEKRKPSVSSEMLHAYSTWSDNYKAL;locus_tag=LOCUS_2680;note=WP_010979234.1 ATPase AAA (Sulfolobus tokodaii str. 7) [pid:49.0%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:1.3e-99],MGA_268
sequence01	MetaGeneAnnotator	CDS	241661	242953	.	-	0	ID=MGA_269;product=aspartate--tRNA(Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021688.1;translation=MTNNIEDFNIIDESFYDKIVNVNGWIEDSRSIGSLIFLTLRNSTGILQLVVKKNLISKKLWENIENISRQSIVSVSGKLIHNKKNNITELVVENLHIVNNATHPLPLDPTGRTDSGLDININFRPLALRKPETNALFKLRHNSLMYIREFFIKNNFTEINTPKILSQGAEGGATLFQTQYFDKTAFLAQSPQLYKEQLMISFEKVFEIAHYFRAEKSHTTRHLNEFVSIDFEWAYRDNEETIKFCEELIKFLINKLIKSMPDELELLKSDLKTYVNNFNRISYSDAIDNLNKMDNKKEFGDDITEHDLTILAKKYKHFYFIVDWPKKIKSFYISSYDDSELSKSFDLQFANIELASGGVRIHDIIKLEKSLINSGLNLDSFKSHLQTFKWGMPPHAGLGLGFDRLMMVLANKNNIREVVLYPRDQNRLDP;locus_tag=LOCUS_2690;EC_number=6.1.1.12;note=WP_011021688.1 aspartate--tRNA(Asn) ligase (Methanosarcina acetivorans C2A) [pid:41.1%25%2C q_cov:95.6%25%2C s_cov:94.6%25%2C Eval:2.5e-86],MGA_269
sequence01	MetaGeneAnnotator	CDS	243019	243237	.	+	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGSPIPEPLGRIAHVLLVIGGLNWGLVGLANTNLVSIIANAIGADVVGTLIYTLVGLSAIISVIDVAMASK;locus_tag=LOCUS_2700;note=MGA_270
sequence01	MetaGeneAnnotator	CDS	243286	244134	.	-	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIDEAYLKNQIIPRKSDSRKGQNGIVGIVGGSRLYHGAPALSGLAALRSGCDLVYLFVPETIANPIRSFAPDLIVYPLSDSKITIGNSNKILNFRKTINSFVIGPGLSNQKMAGLTNLVSKLLKNNVKLVLDAGAINNELLNSIEGENVVITAHQGEFNKLIDKSIKSEEERKKVIKEYAKKHNFTVILKGEVDYITDGNQVFLNKSGNSAMTKGGTGDMLSGIIATHLAMNYKLLDAAIIGTYTMGKVGEIVYDKFGFQFLSFDFLDELAKYMKKFNKIK;locus_tag=LOCUS_2710;note=WP_053240506.1 bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase (Pyrobaculum islandicum DSM 4184) [pid:33.5%25%2C q_cov:97.5%25%2C s_cov:54.0%25%2C Eval:9.0e-38%2C partial hit],MGA_271
sequence01	MetaGeneAnnotator	CDS	244183	245652	.	+	0	ID=MGA_272;product=inosine-5'-monophosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67820;translation=MILYGMNSKDIDRGFKLGYTYDDVLLIPQKSSISSRKNTILKSNFSKNIRLNVPIVSANMDTVTESNMAIKIASLGGIGIIHRFMTLDEQVNEVLKVKRSEGIMIEQPITINQDGKIGQVKELMAVHRIGGILVKDDSNKLLGIITKRDLFFEYDDNKLVRDIMTKELITAPKGTSLDDAKTLFIKNKIEKLPITNSSGELVGLLTSKDIYKREKFPISSKDNKGRLLVGAAIGVRNEDIDKAIQLADAEVDTIVIDIAHGHSDHTINMINKIKDKIGKVDLVVGNIATAYGAKDLIEAGVDAIKVGVGSGSICITRIVTGAGVPQLTAIMDCVSVAKEHNIPIIADGGIRNSGDITKALAAGSSTVMIGSLLAGTDESPGVIVSRPNGRYKMTRGMASLGATLDRRINETNSMDEEEMLEYVPEGVEALVPYRGKASEVINKLVGGLRSGLSYCNAKNIEELQKNGQFIRITSAGKAESGAHDVHLVN;locus_tag=LOCUS_2720;gene=guaB;EC_number=1.1.1.205;note=O67820 inosine-5'-monophosphate dehydrogenase (Aquifex aeolicus VF5) [pid:52.2%25%2C q_cov:97.8%25%2C s_cov:97.6%25%2C Eval:1.7e-134],MGA_272
sequence01	MetaGeneAnnotator	CDS	245655	246590	.	+	0	ID=MGA_273;product=deoxyhypusine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979315.1;translation=MNNNLEKIIDIDVNTINSFDDMLKSMGKMGGFNASLIYDGYQITKFMINDEKCLKFLSFPASIIATGNRGLIKELVKRNYFDIIISSCGTLDHDLARSYGEYYKGDFDLDDIVLDKQNMHRLGNVIIPKLSYGNIIEEKMKDLLNQLYSSGITNPSPSFLIEKLGKMIDNESSILYWAQKNNIPVIVPGIMDGSVGSQIWSFYEQNNDFALDVLKDQHIISDYVFKAKRSGSLIIGGGISKHHTIWWNQFKNGLDYAVYITTANEYDGSLSGARTKEAISWGKISNSAKHVTINAEASTILPLFVKGLISK;locus_tag=LOCUS_2730;EC_number=2.5.1.46;note=WP_010979315.1 deoxyhypusine synthase (Sulfolobus tokodaii str. 7) [pid:46.6%25%2C q_cov:98.1%25%2C s_cov:97.4%25%2C Eval:4.3e-76],MGA_273
sequence01	MetaGeneAnnotator	CDS	246697	248781	.	+	0	ID=MGA_274;product=K(+)-insensitive pyrophosphate-energized proton pump;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RLE0;translation=MSEPLTYIDFIAPVVGLASIFFAAYIAITINKYEIGNEKITKLYNAIRIGSKAYLYRQYRTISIIAVIVAIILYIALDYPREDIFPRMPMVSFSFIIGAAFSLLAGYIGMDVATRANARTATAAKTSTETSLNIAYRGGLVMGLFNIGLSLLAVSVLFYIYGQQIQLIIGLAFGASLAALFAQLGGGIFTKAADVGADLVGKVEAGIPEDDPRNPAVIADNVGDNVGDVAGRGADLFESITAENIAAMIVGVAIATALDEPSFVILPLLACALGLIATVIGLPFVRAKNFTDPMIPMRNGMIVTTILIVIGLYFLITNTVHSISLFYASLVGVVSSLLIFVITLYYTASQYRPVTSISSASQSGPGVNIITGFSVALESTILPVLVIVFALGGGFYFGEQFALEHANISPQLGGIYGTAVATMGMLSIAGVILSMDGFGPIVDNAGGLAEMSGADKSLRDKIDIFDAAGNTTKALTKGYALSSAGLAALILFQAYLIDLGHYIPVESINLIDLNIIIALFIGGLLPFAFAAFAIRAVGTTAFQIVAEVRRQFKENPGILKGTALPDYGKAIDISTISAQKGMIIPGLLPIIVPVIVGIVLGPYAVGAFLLSATVSGTLLAFLMNTGGAAWDNAKKNIETGKFGGKGSYAHKASIVGDTLGDPFKDTAGPALHVLVKLINTMALTFIPLFVMFAL;locus_tag=LOCUS_2740;gene=hppA2;EC_number=3.6.1.1;note=Q2RLE0 K(+)-insensitive pyrophosphate-energized proton pump (Moorella thermoacetica ATCC 39073) [pid:47.1%25%2C q_cov:98.0%25%2C s_cov:99.3%25%2C Eval:7.7e-163],MGA_274
sequence01	Aragorn:1.2.38	tRNA	248852	248939	.	+	.	ID=Aragorn_1;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence01	MetaGeneAnnotator	CDS	249235	249387	.	+	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEAYCVKCRTKREMNDPQSITMKNGKPATQGICPECGTKLFRIGKTPTN;locus_tag=LOCUS_2750;note=MGA_275
sequence01	MetaGeneAnnotator	CDS	249420	249818	.	+	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSESVINAPKGLLRLIILDQSSRNPISGTEIIKYIELITNNEWSPSPGSVYLILKNLLAQEYLTEIYLPDNTHKKYGATSKGKSMMIIEKEKLEKTWRTNIYYIKIMAELLNIHESEFLNIIKSHLLNSKHI;locus_tag=LOCUS_2760;note=MGA_276
sequence01	MetaGeneAnnotator	CDS	249823	250242	.	-	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTLSEEKVMSTQNVFEIIFPDQRTKNAAELFSIWLKNSGGNATKNSVSEFANSLQLGKALDNGILFKYSRRNFYMTVLRTLIDMGFIQKNVPIWNESNNKTMYVYSRNIFDIPAKPPTVGFWRISYYICKKWNNLFSE;locus_tag=LOCUS_2770;note=MGA_277
sequence01	MetaGeneAnnotator	CDS	250528	250692	.	-	0	ID=MGA_278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFDYKEKLQTPEGRYEFNMETNQRFNNFNTVLIRSGYDDFQTKIITITGVSIK;locus_tag=LOCUS_2780;note=MGA_278
sequence01	MetaGeneAnnotator	CDS	250845	251216	.	+	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKDEKQRKAIVEALLDEYSRKILCSTTNQAKSVIDIMREQNIPMTSTYRKVKLLIDNKLIKVERSLLTDDGKRYYLYLSSIKSASILFENGELIVEIIPNIMEKPEDKLLRSFTNIKEAMT;locus_tag=LOCUS_2790;note=MGA_279
sequence01	MetaGeneAnnotator	CDS	251216	251494	.	+	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFELLMLRFLKSLIGLLGLLLAYLSLKAYNKTKATNMLFLAIGFSIITVGSVLAGLSFEFLGFSLRQVNIVESIMILLGFVMLVYSIYGTD;locus_tag=LOCUS_2800;note=MGA_280
sequence01	MetaGeneAnnotator	CDS	251479	251763	.	-	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKQYYVILQNQISTIEIMNKHRPKHLEYLIDVHNNGELIVAGRYKNGTGGLIIVHTVSYERALEIAENDPYIINKVRDFDILEYGRFDPQSVP;locus_tag=LOCUS_2810;note=MGA_281
sequence01	MetaGeneAnnotator	CDS	251819	252592	.	+	0	ID=MGA_282;product=NAD(+) synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878500.1;translation=MNYNPNNYDYTVITRKIEKFIFQKINESDSTGIVIGLSGGIDSSVCLALSAKSISNHNILGLILPMKGITPEEDEQDAINLAEQFKIDYRIITLNDIYNSYMKELTDNKIAQGNLLARMRMSLIYYHANLLNRIVIGTGDKSEFMLGYFTKYGDGGVDIAPIGDLFKTQIRILAKKLDVPNNIIKKKSSPRLWKDHDAEDELEMTYDEVDKLLYMIDNNSIKENNLSTQDSTIIKKIKNRQKINYHKLKMPDICKID;locus_tag=LOCUS_2820;EC_number=6.3.1.5;note=WP_010878500.1 NAD(+) synthetase (Archaeoglobus fulgidus DSM 4304) [pid:41.4%25%2C q_cov:96.5%25%2C s_cov:98.0%25%2C Eval:1.0e-53],MGA_282
sequence01	MetaGeneAnnotator	CDS	252595	252822	.	-	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIYIDTTKMSAKGQIVIPIDVRNKLQLETGNKLFVMTYEDAIILQKTNSINTNNQITFLKKAKTVARKFGITL;locus_tag=LOCUS_2830;note=MGA_283
sequence01	MetaGeneAnnotator	CDS	252934	253167	.	+	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRIITILTIWLGGFLFGFIGWYAYPYIGNLMQTLMPIVLNIVDIQITSALLTGFATSIITVVIVVLWANRDKNNRF;locus_tag=LOCUS_2840;note=MGA_284
sequence01	MetaGeneAnnotator	CDS	253235	254080	.	+	0	ID=MGA_285;product=short-chain dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258943.1;translation=MTEKNIIITGITSGIGTEIAIDLAKKGHIINLVARTHESGNKIKDKIIKLTNNEKISVYKCDLALQSDIHEFVDNFKKQNDGLDILINNAGIIPKNRIITSEGIETQFAVNYIAPYLLSRLLIDLLKKNSPSRIVHTSSTAHMSGNLNVNDFQGLDEKYKMWGWRSYFDTKLALTIDTVELAKELEGTGVTCNAVHPGFVNTNLGRYITPKFLLKIMGIFILSSKGGADPIIEAACSDKYEKVSGKYFHRFKQKEASKKVFDKDVVAKLSEYTESITKITG;locus_tag=LOCUS_2850;note=WP_012258943.1 short-chain dehydrogenase (Chloroflexus aurantiacus J-10-fl) [pid:28.8%25%2C q_cov:98.9%25%2C s_cov:95.2%25%2C Eval:3.4e-29],MGA_285
sequence01	MetaGeneAnnotator	CDS	254086	254928	.	+	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNTVVIDHDIIGWAYRNMPRIKSQYDDINIIGKNSSSEELMNNNISDLNIAQYCLKNNCDLITADTKSYIDWFNAYPGINKLMISKFDYWNEGQRPILLIQIKNLKTNLELNPNVKILKSLNTAPARFKNKIISMVNESLIQFPELSDDKITLGITHVNDGNATWEDSYKIRLNPRRLTYFTIGHELTHLLQFKGDLPSTEKSTDVFTLARSMLFLDEPPCYLKVSRKLQNYWEENSQSIHQICKDAIEYRKIHRNYIKWTEINLEKLKINKKQIGPEN;locus_tag=LOCUS_2860;note=MGA_286
sequence01	MetaGeneAnnotator	CDS	255043	255324	.	-	0	ID=MGA_287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFGETDKDEFENEDDEITENGVEYEVAYKILSGSESKVERELNILAHEGWEIEEMHAFDSNNGTVVVVIMSIDAEDSFEEEIKHANNLLYP;locus_tag=LOCUS_2870;note=MGA_287
sequence01	MetaGeneAnnotator	CDS	255340	255594	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVYITYMEIFDKINIQKNELYKKIINSSNDKENVDKAKKIYSELDNMLKIWVETNDSIKFTDEDLQSISQTAELIIKRAEEFL;locus_tag=LOCUS_2880;note=MGA_288
sequence01	MetaGeneAnnotator	CDS	255616	255924	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVKQKITNFQKKLLYYFISIFFIFIILDILNIFPYGIGRIPIEPKSNIPGIKYLYAIGFSYIFSIIMAIINPKRTFVFLLALPPIVLIYKMIKKLIRYYKK;locus_tag=LOCUS_2890;note=MGA_289
sequence01	MetaGeneAnnotator	CDS	255933	256310	.	-	0	ID=MGA_290;product=PPOX class F420-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256786.1;translation=MNLFNKIINSRTISLTTYKKSGKEIHTPVWAIIDNDVGYVRTSKSSGKVKRIKHNHDVIIASCTSSGRIIGNKLSANAEVLELSMHDYQKISQKFQSKYSIIYVVITFLRRINYKNSVIIRLKSK;locus_tag=LOCUS_2900;note=WP_012256786.1 PPOX class F420-dependent oxidoreductase (Chloroflexus aurantiacus J-10-fl) [pid:30.9%25%2C q_cov:87.2%25%2C s_cov:75.4%25%2C Eval:8.5e-08],MGA_290
sequence01	MetaGeneAnnotator	CDS	256297	256500	.	-	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIKNKAIAAIKIIPSMIIPFFTIGSDINFTLLFIISNKLYELLYIKILVQNYIIKLDQMMRIEFI;locus_tag=LOCUS_2910;note=MGA_291
sequence01	MetaGeneAnnotator	CDS	256700	257395	.	-	0	ID=MGA_292;product=amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022907.1;translation=MSNKKVLALQHVEIETPGIILDLMKSKGIEYDCINLSEHSNGYNLSSYDALIIMGGPMSVNDKEHYTFIETEINLVKNYIKNDKPILGICLGSQIIASALGGKISKNPRNELGWHNVTLSTSEGSLFNDVDKQFLAFHWHGDVFSLPNNCRKLAFSEMTESQAFNYGQKCYGLLFHLEITSDIVKNIVIKFKSDLITESLKDNDILENLEHNVELVNNTGRLVFNQWLSLI;locus_tag=LOCUS_2920;note=WP_011022907.1 amidotransferase (Methanosarcina acetivorans C2A) [pid:35.9%25%2C q_cov:83.1%25%2C s_cov:83.3%25%2C Eval:3.3e-34],MGA_292
sequence01	MetaGeneAnnotator	CDS	257444	257662	.	+	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKCQECEFEFSGEGPKSEVVFEESCPKCGSYEIFVKRGNPIVKTISGLFMLFILTTAVLLGLIWYFLAIFW;locus_tag=LOCUS_2930;note=MGA_293
sequence01	MetaGeneAnnotator	CDS	258032	258643	.	+	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNSNSKYIVIILIPIILVLGYFLLFSNNQNEDSVSKVVIIEEENVVSIKKDSVVDVNRAEPVVEPEVIVEEPVPEVVDPEPVPEPVVEPVPEPVVEPVPEPVVEIQILEGKVEIIIENVEFIPNEIIIRVGTIVTWINKDDSDPLYPEHTVSIDILEINSPEIVFGGGPNEKWSHTFVEIGEFSYHCNIHPWMTGKIIVVDE;locus_tag=LOCUS_2940;note=MGA_294
sequence01	MetaGeneAnnotator	CDS	258650	259132	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINEYTLNDCSEILYVVNDAATRYKNVIPTDCWYEPYMSERELLNEFNDGVRMFGDRHNNKLIGVIGFQEIKDVVLIRHAYTLTAHQGKGTGSTLLEYLLNKNQDARLLVGTWRNAKWAIRFYEKFGFVLHEKEETESLLKKYWNIPLKQIENSVVLERH;locus_tag=LOCUS_2950;note=MGA_295
sequence01	MetaGeneAnnotator	CDS	259360	260043	.	+	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYITKNDLLMDIACGTGRISTNVCRSLDLRLILVDKNIRMLNVAMKKINMRHERNKLINMDIYDFLENNGKTDNVKINDINIFTCFNAIHWTGLGLFKKLEEKMSPGSLFIILTRTKKQNNESFFGLNFPKFADKETRLFSLNQLLDGFKECNLSVVETKFLKYQILQKKSKLLEQAKKKSYSTFSLYSNEEYKKAMRIFKDNISSKPEMLNVQYENLLIIGKKQ;locus_tag=LOCUS_2960;note=MGA_296
sequence01	MetaGeneAnnotator	CDS	260081	260266	.	-	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLRSNEYILGVSVVTGIGAVIWNIYVNNMLFEDSLFFGVAAFVIAGILHTSWREIKKRRN;locus_tag=LOCUS_2970;note=MGA_297
sequence01	MetaGeneAnnotator	CDS	260444	260788	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEERKEYEDGSVYVGELKDGKRHGRGTCTYSDGVYDGKWENDVKHGRGKWTYHNERFQHMNYEGVWKNGRQMYTRNKKTQEWDLTIDGEMDRKEESRGIGGYDTDNSYVERGS;locus_tag=LOCUS_2980;note=WP_002719496.1 2-isopropylmalate synthase (Rhodobacter sphaeroides 2.4.1) [pid:38.9%25%2C q_cov:62.3%25%2C s_cov:14.4%25%2C Eval:1.9e-07%2C partial hit],MGA_298
sequence02	MetaGeneAnnotator	CDS	486	1079	.	+	0	ID=MGA_301;product=23S rRNA (uridine(2552)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870893.1;translation=MRLEDAKRDHYRKLAKEQGYRSRSSFKLIELNKKYHIIHPNDNIIDFGAAPGGWLQVVSELIKPDGKIIGIDILPIKPVGENVTILQNDIRTNDFIDRILEILDTKADTILSDIAPNISGIWKIDHNNQVDLTTTIVDKFPNMLKRNGCCVLKAFDGPKLKTLENDLKKNFKNVKLIKPKVSRNPSSELYIVCRGFR;locus_tag=LOCUS_2990;note=WP_010870893.1 23S rRNA (uridine(2552)-2'-O)-methyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:41.2%25%2C q_cov:96.4%25%2C s_cov:79.2%25%2C Eval:2.0e-39],MGA_301
sequence02	MetaGeneAnnotator	CDS	1050	2210	.	-	0	ID=MGA_302;product=tRNA (guanine(10)-N(2))-dimethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876814.1;translation=MSVNLNHSNILFTEGNTQFYVPKNSINNSFPPRNPAFFNTLAKFKRDILITLLNTYASTSDTKLTFADVLSSVGATGIRLANESNYIKKIYFNDVNPIAIEFLNKSLKKNKLNSISEVSTNEAHKFLSIFTNKDNRFDFIDIDPFGSPIQYIDSAIRALKINGILSLTATDGAVLCGVYPKVCLRKYGSLSLKTEYFNEIAIRIFLFSLATISSRYELGIKPIFCHTNKHYIQVYVKIVDSVSSSDGQLGFLRHCTQCNHRVVSETLFLSCDLCSSNCNYAGPLWIGNLFDQSILTEALSHSINDNLTKLFEIALTEISMPPLYYVTDVISKNLRISSFSIDRIISKLHDYNLTGSRTILHPTGFRTNGNINDINRILSESSTNDI;locus_tag=LOCUS_3000;EC_number=2.1.1.32;note=WP_010876814.1 tRNA (guanine(10)-N(2))-dimethyltransferase (Methanothermobacter thermautotrophicus str. Delta H) [pid:32.6%25%2C q_cov:95.9%25%2C s_cov:98.4%25%2C Eval:3.3e-50],MGA_302
sequence02	MetaGeneAnnotator	CDS	2217	2519	.	-	0	ID=MGA_303;product=signal recognition particle;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875804.1;translation=MKDYEKQIIWLDYFNSLYSRSQGRRVSKNRSIKNPLLSDLVEAAKRLDLNPVEHNAIHPRRFSITSGYISVDKKNKKTSVLQDIAKMLTIVKGETNKPSK;locus_tag=LOCUS_3010;note=WP_010875804.1 signal recognition particle (Methanothermobacter thermautotrophicus str. Delta H) [pid:34.1%25%2C q_cov:81.0%25%2C s_cov:90.1%25%2C Eval:3.2e-07],MGA_303
sequence02	MetaGeneAnnotator	CDS	2564	3439	.	-	0	ID=MGA_304;product=2-oxoacid:ferredoxin oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000190138.1;translation=MVVESLKIEEYKSETTPDWCPGCGDFAVLRGVYTALARLKIKSENVVITSGIGCSSNLPGYVNAYGFHGIHGRSLPVANGVKLANSDLTVIATGGDGDGYGIGLGHFIHSMRRNIDITYIVMNNQIYGLTTGQASPTSDRGMRTKSTPSGVLETRINPIVLGLVSGATYISRGFSGTADHLSTLIENAIEHDGFSLVDVLSPCVTYNKIQTYQWFRDRVYKLEDKDHDTTNLEQAIKKSHEWEESIPIGVFYQVEKPTYDGDEPVLKHGPLVKQPLDTDQRISKQLLDEFI;locus_tag=LOCUS_3020;note=WP_000190138.1 2-oxoacid:ferredoxin oxidoreductase subunit beta (Staphylococcus aureus subsp. aureus N315) [pid:48.4%25%2C q_cov:97.3%25%2C s_cov:98.6%25%2C Eval:3.0e-76],MGA_304
sequence02	MetaGeneAnnotator	CDS	3440	5173	.	-	0	ID=MGA_305;product=2-oxoacid:ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065602.1;translation=MSKEEVVLRVVGAAGDGIASTGESFAKICSRSGLHLLAYNSYQSVIRGGFIYLQLRTGRQKIFSHGNKVDFLIALNPLEFQRNLVDVVPGGAVLYNGDKIKPDPSIIPKDVILCPLPVKEILKDIGKNPILQNTVALSALVQLLDLDLDVMKGVISDYFGLKKQSVMELNLQVSEAGYNYAKSNLPKFDFNLNPDYNTKIPVLTGNQALALGSVLAGCKFYAAYPMTPASSILHWLTAHSEKTGMLVKQAEDEISVINMAIGSSFTGVRSMVGTSGGGFALMSEAIGLAGQTETPLVIINSMRGGPSTGLPTKTEQGDLFQAIGASQGDFPKVILAPSTVEDCYYSIIESFNLADQFQIPVIVLSDLFLSEHMESIDDFDFDTTIDRGELIHSIDSDDIYRRFKFTDTGVSPRAMPGTANTIFQASSDEHDDYGNIISDVFTDPEIRTKIMLKRMRKMKFIQEKLVAPKLEGPDDADLTLVSWGSNYNVIHEATKILRTNSKNVNHLHIKYLVPLHKEIGNILSRSKDTLVIEGNYSGQLSKLITMETGFQINNSLFKYDGEPFYLEQIIDKVEDLI;locus_tag=LOCUS_3030;note=WP_048065602.1 2-oxoacid:ferredoxin oxidoreductase subunit alpha (Methanosarcina acetivorans C2A) [pid:39.5%25%2C q_cov:98.8%25%2C s_cov:98.4%25%2C Eval:6.9e-114],MGA_305
sequence02	MetaGeneAnnotator	CDS	5200	5451	.	-	0	ID=MGA_306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877700.1;translation=MAQDDSSIKANHIIDMRGLLCPEPVFRTKQTINEMNVNEVLEVLADDPVAEEDIKSWVKKSGNELISFNKDEKLLKFLIRKIK;locus_tag=LOCUS_3040;note=WP_010877700.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:47.9%25%2C q_cov:84.3%25%2C s_cov:92.2%25%2C Eval:7.9e-14],MGA_306
sequence02	MetaGeneAnnotator	CDS	5536	6864	.	+	0	ID=MGA_307;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496694.1;translation=MEFRLPRGMRDIEDEEYTKIERIRDSFNDTCKVFGFKKLIPSPIEMLSTLEAKSGPGIKDEIYNFKDKKERELGLRFDLTVGTTRYVAGKKDLRRPFRVGTFGDMFRYDEPQKGRYRWFHQWNAEIYYTTGQDDSINYVLELLEFSTFLFNNIGIEKFKIRLGHRKIAETFVNGLLFGELKIPNEKKQQDEVRSVLRLLDKIEKKTKKQILDEAVEIGLERNKAEILIRFGNIKSKDRKEIEEKYISLLIELNLIVNEVSVMPILDYFKGINNIKNIEFDLGLVRGIDYYDGYVFEIVDINNKEIGSIAGGGEYSSLIESFSGPDNLSAVGIAGGVERMMVLIENDKDEKDKLISVIALSGNETEKLINLLRNNNIPTTYRKVHENDIKKGLKFASVNNANIVIIIGEKELSGGKFRVKDMKTGKEELVKKENIINFIKELI;locus_tag=LOCUS_3050;note=WP_064496694.1 histidine--tRNA ligase (Methanocaldococcus jannaschii DSM 2661) [pid:30.5%25%2C q_cov:98.4%25%2C s_cov:99.8%25%2C Eval:1.4e-39],MGA_307
sequence02	MetaGeneAnnotator	CDS	6887	11365	.	+	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNILFVCLVVLSILFIMPPVFAASSNFDMDIRTLDDTSTITEIAITKGNNKTIRIDLPKVNSAFEGTVNLEISGLPTGMEPTFSSTSISDWQGAGSTQLHANLTLEATTGAPTGDHIVTIKAVKSNDTTDFVQKTITLYISDFDISTNLGNIELTPGKSEDIIITVSSKQDGDGDDSKFSGEVELLPVSLNGGTIEFIGSINVPEGGTDTAIARVTIDNDAVPNGDGVNVEIYGKVGDLENFVTIKIKILTNPLFVTVVTDPITNPPMAVIFQPRVLSVTVEDSSGNSVVDASITFTKIGGNGTFENSGITITKTTDGSGKATATFTAKSKESVVISVDAVKTNYVSGSYQVELTIKGGILLSVDPISELINAGDSKLITVNIQSLDGFSSPIELSFMTTPPQPGIQVTFSENQLTPEANGQASTTMTVFIEKGLGTGQYPIEIKGTSTINGEISSSASLSITVPIAEFKLSVTPEEITAWQNDKFELILRLESIGGFDGTVQLQETVPEGITVDFEQKSVPLSPVGENSIKFVTVTITTTTDAEPTERAALMFTGTSVSSTGSAVTTRTWLELKGLFEVTIDATSRIDGTKFVVIWVTDETGNLIRTIQPSELPWSDNFKEGDIIKIKIDKGTIDEDEVSRWVFKEWQEDKTTSLEQEVIIDGPKLFFAEFEKEFSINIRTRPIGSMAGMVNIQGSGWHKEGSTAILTTDEILIERENESRYRFDKWDGSITTNEIYVELLVDGPKVIYAEYVKQYKVTKIIEPPFLADIVTTFDDGWLDQGTELYLQTPKRADEYGFLQWLITGDNINLLTTANPTTIFVTQPLTIRVQYDLLPIVKIESIRMPSNGFEGENSQMWVKLSNSELRGGYVVIRVSTNINGLILGPTEEEIFLAPNEVKIFAVSMNYTRPGNGSIDIMLEKTGSSDNEVSTELKIFSISDKRQVINTGLVLSAKYLPQINEWMVPNEKVRICSSEILEQARISDDAAEIDKTKAILQFVVNKIQPTYNTPKSASALIEDFGIIGCINNEEKIIGDTRTYQILLGSLLKSLDIEVRPVIGVMGISSNMDAPSAMMNTWIEVKLDDEWTIIDPINNIIVNEINKPTNINQEINYRQMYANIPENGGILYAMIYDCISICNVDITKEYSNVESSLKVGSILFVDGDVNIEVQDSNRNFIANGTTNHYKWIENDENEMYIKLIILSEGVDLEYILMKINGQLGKEFELNGMRMINFEPQIKTIKSTLLSKTTSEFKLLSIENDFVLAEFISLEYNNRQIEILSTTSLINQIQQERLNAFQITTTNNQNNNELIIFKIPNSILSDIDSDSSKIIIIMNGKQIPVEIIDDGVLTTITIDNFKNTLQENLISIYLKSYDVNIELRDPLNQIIKNADITMIGEFVNITKISDESVFTKLIPGKYEFTIEYRGEQETISRRINNNDVDVQMQLYRSDSMIVFIISAIFAIIVTIAYTIQKAFLRILPGYTNGKNNIIIDI;locus_tag=LOCUS_3060;note=MGA_308
sequence02	MetaGeneAnnotator	CDS	11362	12690	.	-	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTRSNNRKMFAHDSFILCPVGHKNVRGLDFCASCNLPLINFKKELSILLNNFKTLHLENHNQVVNFGIGDFGSQMLTSLKNSAYSEQLLNYLIIDYADSKNISNISDENTSNDYNCYLINTDYDSKINVWSKFENNFSELAQFEDKIRRIGINNNIDEQTAIITGSMGETLVSGIAPPLIKKLKQINPKASRIVLTSLPSSSETDQVQFNAYCGISRLVRNQKTSGDMLVVLQGSALNKMIGIDRSGKKLGSDFLIPRILQLLTSNGHAINNLGRLAKSLRVLAFSPVYVYGRSYEIYDNLKNILDDAAYFPLSPFQYESIFLNIAIIRVPENVLDSISNKKLENDFNLWNRKRFPSLKESMIQIVPVKENSDRLDVLLLLGGAKLENIIETVKPGYERFKEYIKELDLWDEFEVNEDDFKKFENTITTYDRNISKLLKSN;locus_tag=LOCUS_3070;note=MGA_309
sequence02	MetaGeneAnnotator	CDS	12774	13754	.	+	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSSEIIGQFQSVILNLDKKEIKGRLLISKNIIIFEKKVGLIVKKFEHEFSIKIESIKKIEKEGYSKIVISHKNNEVKTKLTLDTPIETNEIIEKINNIINESIRMEQEKKQSEIDDRVNQANYVIYIYNIVFKLWSLVSLLFIIMKETTQNNWDAVDAKINNFNDLILELDNNKINLNDEAKNIKTSIKSRDSITIINSIKLMISSLGKYFEGQIPYADWKDYMTTTKPRWENLQFFYLFTLSVFQSYYFENMEMLEGKKISQANVIKYMPIINIHFANELFDKTKYSTKTLRETTDTIEQLINETTVKLEDLLKDSLKQVSLLT;locus_tag=LOCUS_3080;note=MGA_310
sequence02	MetaGeneAnnotator	CDS	13751	16123	.	-	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLINSSVIDKVGFKSSTNIDDAIENEKEYQKNLKKILFASAIFLFSVTVLYIIPLYPIPIVFLISLLAGFIGFRSITAGFLVSFILFIPAYLYQASIPFWWLLLCFFIVGLLLAKSLTDSSHIFTIIFGVTAGTLFLTPYYFVAIPLMLFYALIRDNNDSFSNIGLLFSFLIIFVPFNALAFSNHLSVNLTTMRPQEIYSLMTDSSIPIFTQIIYEQSPRLLSFDIPVISESFSGLLSIQNNIFHPYLFILIDNLVIFYFPLLLILSFSFMGVLDRIWPWMDNRGVELSVLPNYSYVISLIIGTIFFIIPLQTMQIPFDYYTGFNSTNSFKSILIAGTLGVAVSLSSITMSRRSEAAELTESVKELCNNNLQTINDSDSQLREIQSICPGIDVSDEFSSINEFREDVAITLDGLNTLSYNALKEKSQKISTLASQQSSNVGSLNLKVLNYHNNQLDKCQDMIGQLDGLGISNLPSINPQHLSYDSETTFDDVLINQRELNDYLLEVSQNTIRVTESLVKVVRTHFDTSLEPTSISVSENFIQQAKGEQALDTLLVTIISLHKRYNRTMEKTIVNLRRLIQRSIKMHESNILPLNESLGHGPRDIETNAIAAEIKINIDELSTFEGILYLPDVMDRLDFLESGTRTVISELLLLLREFEKRNDSRVPMDFLWGKDTQLISEIESSLSRLDDQSTSDLSDRLSNIEYGIKIIENEASTLKKYLIMNEFILNYVNIEPLISSLIAIEGQVIPRQLPVKSKYAIQYLQLFAFGKSTIAFNTDKNILSKITKN;locus_tag=LOCUS_3090;note=MGA_311
sequence02	MetaGeneAnnotator	CDS	16150	18843	.	-	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASDYTSSIQIVGLGGTGANIIESFIQNRDTLIPLLKHDGIKVSLLALDVADHDIRSLDMAYKNLSDDLKTNGIPADKINLVSKTMKFPTPESMFDFIKSYPDFLERDGIKVPEDYQPWLSSSMEIPPLAGGVGRKRALSKAIYGLNYHHLKLVDGYMDKFKEHVFTSTIQPVIFVVYGLGGGSGSGTALDFTRHLRKKIGSGIPIIGLGILPCGGDDPPAKGASCYASLLEHEFSLDRSLNHKIVSSYGEPYQNPFTAFLMMSLGPAYSRTGSVLDARKLVDEAIVDILMKSLNFDLADLFSNIGSNVDLGGKWVNVISTLKVSYPVAEFIELTKIYLDKLDKLRELRKEKLDIYSGNEQSSGLNIILSSCFDELKAIYRGICIEKNTYEESRFEENVQNFLGEGVSMDADLIMHIRGVENSTRALINDLSRSVLSIGLDAPDGTVEARIRTLSEELVSFSTNLSQNYQVLQDRVKQLTEDLRSTLPSAQSLTPRQLQIINDTINLVELIDHYLDGLQLYLQISNLADKLNKTLDKSQNTELHTRMKEAVERINNPELVINFAILSSLLAPIETEVKTLDARLSDCQVMKRLTTERLEVLKSEEENLTIKKRSREQEKNRVGGQAKKIKFGFLGPKKKYMQGKAGDLEHELKIIDSQLEHISEERKIIQLKLSAYQNIERKFEVASSYRKMLTEATTLQNSYYEKMNESMKDRGYYDRVAELTEGEQLKIMQRILLEDEASLTQENMLNEIIDRKHLKEYLSGALGIFRIPATLGLTQKYRTDYLWFTVVSPRGLWDSDLDSEAKTMLSGYVSHDASKSIYIREVESTDPWTMRFLIIAAKGTINNLETFKEMDILYKGTTQGEKLLSHSYLLEQGVYVSPNHELSKTRHDEDLNP;locus_tag=LOCUS_3100;note=MGA_312
sequence02	MetaGeneAnnotator	CDS	18852	19781	.	-	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLMKGIHFLYLFLFLLVMTIVLPVSYSQAPAVITSFTVLDPNGNDVTDGFLVAGGVYSINFEIEIGATLSDKILLTTSMEPSGNYFWTLNNNYDGIDTSTWTPGSQSITFQAVEGIVQFTLTGQIPHAITEKDLVDLDKTIHALEIFPVLVLSLDSMEILDERTYTITDQTIITYDELLNSKKEKLDSISMEEKYNLLALEVISEAEYLTTFGFYDDAIKLLQTIPDSDYPDSPVIATMYLIASIILALTTIIFGILFFRTRSVHSFLISTVDEKANKLDLLLIKASRIDKSLANELETIKKELKELE;locus_tag=LOCUS_3110;note=MGA_313
sequence02	MetaGeneAnnotator	CDS	19851	20357	.	-	0	ID=MGA_314;product=TIGR00725 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022480.1;translation=MYKNNYNKKIAVCGSNSVTSVEVINTAEKVGSEIAKRGGILLCGGMGGVMEAVSRGAKKSNGITVGILPVEDKLEANKYIDIPINTSLGKIRNFFVVSLADAVIGIAGSWGTLSELSMAINLNKKVILLDNTGGIVNLLISQQSLITDANYFVVSDAKSAVDEAFSSK;locus_tag=LOCUS_3120;note=WP_011022480.1 TIGR00725 family protein (Methanosarcina acetivorans C2A) [pid:43.4%25%2C q_cov:76.8%25%2C s_cov:75.7%25%2C Eval:6.3e-24],MGA_314
sequence02	MetaGeneAnnotator	CDS	20350	20784	.	-	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSFATGVTVVTTCFNGIYHGLTVNAFSSLSIDPPLVLICIDKKSQSSKLLKHSKIFAVNILSKNQKYISKAFSDPNNKNRFSNVKTTTKITGSPIIVNSLGYIDCTVEKIFSAGDHNIFIGNVKSLHTKNLDPLLYYRGDYVV;locus_tag=LOCUS_3130;note=WP_013525213.1 flavin reductase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:42.4%25%2C q_cov:99.3%25%2C s_cov:23.9%25%2C Eval:1.4e-24%2C partial hit],MGA_315
sequence02	MetaGeneAnnotator	CDS	20892	21131	.	+	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDCIKCNTTREPIETINFKGDLAVEIKKSVCNECFLEWEDDMQMKVMNEYKLDLSNKEHRDFLVKKMKEFLNLIEQEL;locus_tag=LOCUS_3140;note=MGA_316
sequence02	MetaGeneAnnotator	CDS	21126	23393	.	-	0	ID=MGA_317;product=aconitate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011203425.1;translation=MTEIYSDLNLVNTVYDKMTENIEKLRSISSKPLTLSEKIIFGHLLEDSIKPYEPGKDYIFLKPDRVALQDVTGQMVILQFMQSGLKQVSIPTTVHCDHLIQTNISASEDTKLSLYENNEVYKFLESSCRKYGIGFWKPGAGIIHQVLFENYAFPGGLMIGTDSHTPNAGGLGMLAIGVGGIDASEVMAGFNWEVLLPKKIGVFLTGELNGWCSAKDVILYLASILTVSGGTNSIIEYFGPGTKSISCTGKATITNMGAELGATSSLFPFDNLMSKYLRVTNRVSIADAAEKNIQLLCADNDIEKNPEKYFDKVIKINLSTLEPYIVGPHTPDLARPISQLTHDVIENNYLDNISVALIGSCTNSSYEDMSRVSDIAVQAKNKGITSKIPLLITPGSEQIRATIERDGQLNSLKSIGATVFANACGPCIGQWNRPEAQNTKNTIITSFNRNFPGRNDGSHDTMNFIASPEIVVALSLSGSLSFNPLRDYLVDKEGNKFLLKPPRNISDIPKNGFVSPKDVFIPPISNSNVDVSISPDSKRLQLLKPFPSWDENNYSNITILAKIKGKCTTDHISPAGPWLRYRGHINNISDNLLLGAFNSFTNQIGKGTNYLTNNIEQFSSIARLYKKNNIPWLIVGDNNYGEGSSREHAAMSPRYLGCVAVIAKSFARIHETNLKKQGILALTFDNSDDYNKLIESDRLDILDLNNFSSNKKLSVIINHIDNSHERITLSHSYNTSQIEWFKQGSALNVLRSHIL;locus_tag=LOCUS_3150;note=WP_011203425.1 aconitate hydratase (Bacteroides fragilis YCH46) [pid:54.7%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:1.0e-240],MGA_317
sequence02	MetaGeneAnnotator	CDS	23684	26428	.	+	0	ID=MGA_318;product=helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020807.1;translation=MYIQNFEDNIKKKYNEIGFSNLTNIQSKSYSKIVKGENLLLIAPTGSGKTEAAIIPIIMIIRNNKKKNKVNVLYITPLKSLNRDIFRRIIKYAESEGLRVQIRHGDTSRIEKQKMTKDPPELLITTPETLGIMITNRSTREILTDVKYVVIDEFHELIGNERGTHLTISLERLQKLTPLKITRIGLSATLGNVNNGLQLLSGKEHKSTAILDNTKKDYEIVTKYIQGDLYEVAKFIGNKLRNNSKSTLLFTNTRVEAEALSSILKAREPEFPIEIHHGSLSREVRENAEIKLKSGQPILVVCTSSLELGLDIGSIDNVMQFGSPRQAIKLIQRVGRSKHRTGETSIGTILTNRTDDELESLALIDRVEQRDLEEINIHENSLDVVAHHITGMVIENGKTDLDKTIEIIRNAYPFRNTEREEIIETISMLNNQGILRFDGKTIRRGFKIFEYYYQNLSTIPDSVQFEVIDISKKRIVGRLDQLFVGEYVEPGEPFILKGNSWRIVSIDDEKMTVYVEPMFSELSKVPRWIGELIPVEYKTAQMVGKLRREIDVNKENRISEAQKQIINDTKKILGVIPDDKTLVIEQSITNKLVVIHSCLGSKVNQTLSTLLSTMISSKNGYLVDSKSDAYRISLSSQGEVLGHIEETLKQEIDFKSILEVAVIGTHPLNWKTWHVAKRFGVISKDEKYDKRAARFIQRRFKGTPLDKEIMRELILEKYDLKNTLEIMNKIKQNIIKIKYVDVSEFTPLAKPIIDYSSTFAALPVTVEKSIIELVKKRLEETNNKLVCLSCGNWETVIKPKDLSSDDIYCPRCRSRIVTRTYATDMEIIRIIKKKQKKKKLTRDEKIYYRKLWKVSSLIQNYGKEAAITLSAYGIGPDTAARILRNHLRTDKEELFRKIYVAEKVYVRTRGFWKE;locus_tag=LOCUS_3160;note=WP_011020807.1 helicase (Methanosarcina acetivorans C2A) [pid:33.8%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:3.3e-148],MGA_318
sequence02	MetaGeneAnnotator	CDS	26425	27396	.	+	0	ID=MGA_319;product=phosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763133.1;translation=MTTKRKIYCISHGKDVDGISSAAIVKMAKGAKIFLVNYDKIIEMLERIEDNSEVYVCDLGMNDSITEKFIEECKRITKNGRFTYIDHHILKPNIKKRLLAADIKLVHSRKECAGVLTYELLKKSVPKGASILACYAAITDYMDYQPIAKRLIGKYDRQLLLLESTMLAYALAYNGAKPQFGNKIVDAFQNLSFPHEIKDVSSLANKQAEKMKNIMKVVNKEAKLHKNFACMESTDPTIGLVANMIIGELNVPVAFAYRHNPNGHYEMSFRARYDSKVKLGKIIAKITPLVGGMGGGHNKACGARIPDNKLKSFIKSFSAELNK;locus_tag=LOCUS_3170;note=WP_011763133.1 phosphoesterase (Pyrobaculum islandicum DSM 4184) [pid:27.7%25%2C q_cov:97.2%25%2C s_cov:98.1%25%2C Eval:9.1e-24],MGA_319
sequence02	MetaGeneAnnotator	CDS	27397	28731	.	-	0	ID=MGA_320;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064444.1;translation=MLEKSKKDLEKLAQKPNEDALRLHPFYKGKIETMLKCSIKSFDDFAIWYSPGVAAPCKDISNNKSKVFEHTNKGNSVAVVSDGSRVLGLGDIGPEAGLPVMEGKALLFKYLGGVDAVPIMLDTKDKDEIIRFCQVIAPTFGGINLEDIESPKCFEILSELQQTLPIPVWHDDQQGTALVVLAGLINSANFVNKKFEKLRISLIGSGAANVALVRLLDKAGVDINNIVVVDSNGIINLNRNDLKTNNIKWNIAQTTNKNQLDGGIKESLQDADACIALSKPGPGIIHESWIKNMSDNPIVFACANPVPEIWPWEAINAGACIIATGRSDFPNQVNNSLGFPGIFRGALDVRALKLTDGMCLAAAYEIASYAEEKGLSETQIVPNMNEIEVYAREAAAVAMQAIDEGFAQIKLEKSEVYENALSVIKRSRDITRSQMDLGFIKPAP;locus_tag=LOCUS_3180;note=WP_048064444.1 malate dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:53.6%25%2C q_cov:96.4%25%2C s_cov:97.5%25%2C Eval:3.8e-130],MGA_320
sequence02	MetaGeneAnnotator	CDS	28843	29865	.	+	0	ID=MGA_321;product=dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878151.1;translation=MKIAIIGLGVAGSYLLHTLNKKHEVQGFEMQKAGEFNAVCAWGAAKSEMERIFAQINIDFNDYVLFNGKNINLELKGKIRKIGCKGLVTYNKHQLELDLTKGLNAKYGERIVPSTFPVDEYDLVIDATSLQRVMLPKIKDQLLVPCIEYMVEYENLPYDDFYVKPFSTASGYFWYFPLMKNTAYVGAGDYYRKHMEELDYFNKKHGGKIIKKIGRPIRLSSPEACQPFTQGNVVGVGEAIGTVFPLIGEGIIPSLQCAEILERNIDNIPKYVEEVKEQFKVYSDVYKVIKLKMNNKLNPYSFIRNSGAIWNTYHTMKKQEQRFGLEVRMKDMAEILLTQL;locus_tag=LOCUS_3190;note=WP_010878151.1 dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:29.1%25%2C q_cov:86.2%25%2C s_cov:88.8%25%2C Eval:8.0e-26],MGA_321
sequence02	MetaGeneAnnotator	CDS	29945	31255	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250361.1;translation=MPEAIVKYLAKLDFEIDGSVDKADIIGAIFGQTEGLFGPEMNLNELQKNWKVGRIEITVTSENGKVNGKVVIPMSTDISIVSLIVAAVEQIDKVGPCGSQFKLISIDDVRAIKRDAIAERAKGIMRDWASKSSSEGENILKEVSESTQKRKILSFGKDECPAGPAINSSEEILVVEGRADVLNLMRAGIENTIAVEGTSIPPSIVELAKTKTLSAFLDGDRGGDLILRELNSVVKLIKVFRAPRGKEVEDLTPVELLEHLNKTDKPVENGKYKNNNSRRDNYQRRDNYQRRDNYQRRDNYQRRDNYQRRDNYQRRDNYSKYREEQEIEEKQYSNVQEISTELVTKAKEILPELEGSLEAYLYDSSMNKILKIPVNELVKTLESTENSEHLIFDGIVTERLIEVAETNGIKSIISNRIGNIKNTKSSLKMITFNQIR;locus_tag=LOCUS_3200;note=WP_011250361.1 hypothetical protein (Thermococcus kodakarensis KOD1) [pid:37.8%25%2C q_cov:97.7%25%2C s_cov:92.2%25%2C Eval:6.9e-76],MGA_322
sequence02	MetaGeneAnnotator	CDS	31258	32322	.	+	0	ID=MGA_323;product=mRNA surveillance protein Pelota;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020699.1;translation=MLINRLKKKPGIAVVTPEDTEDLWILRRIIKKGDLITSQTKRVIKDQKEFARPDKGERITVKLCIDVENISLDQLLERIRISGRIIETNDDSISKGSYHSLNLTLGNSLVISKKIIEDFQIALLKKRMKSDRYIIVTIDRRQAGIGLVSGTHLKIFTDIFSGLAGKMYKTKTTYDSFFNELIRNIIIIDSKDTKIIITGPTETKRAFVNYMLTKKPQIHKKTTIIDGVDLSGQEGVYIALKHPDIKKCMKNSELSSAISATEDAIYKISRNDNKISYSFNDVKKVAKMGAIEKVMISSRIFEKGEEEEVISLLDEIEKFNGRIHLLDSSTEIGKQIDSIGGIVALLRYPVYNVD;locus_tag=LOCUS_3210;note=WP_011020699.1 mRNA surveillance protein Pelota (Methanosarcina acetivorans C2A) [pid:29.4%25%2C q_cov:97.5%25%2C s_cov:97.4%25%2C Eval:1.6e-40],MGA_323
sequence02	MetaGeneAnnotator	CDS	32307	32618	.	-	0	ID=MGA_324;product=divalent-cation tolerance protein CutA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545706.1;translation=MKCVILISTFSTMEKAKDISKKVISEKFAACVNIMPINSIYSWNNSIESSNEFLALFKTTDSNISKLRNFLLDEHDYDIPEIIDFELDNVNESYINWMIQSTL;locus_tag=LOCUS_3220;note=WP_012545706.1 divalent-cation tolerance protein CutA (Thermodesulfovibrio yellowstonii DSM 11347) [pid:36.9%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.3e-13],MGA_324
sequence02	MetaGeneAnnotator	CDS	32660	33052	.	-	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLILLGITMNDLKLIGGLILLIFSVDYVLGRNTNYLQKNSETNLAVFPLAIPILAGPGSISYVLVMSGFFLKFFVIIFSILICWCAIRLGSGLLKFFGKDGSQAISRIMGLLIGAVAIRLIREGIFELLA;locus_tag=LOCUS_3230;note=Q9RRY9 UPF0056 membrane protein (Deinococcus radiodurans R1) [pid:29.3%25%2C q_cov:96.2%25%2C s_cov:64.5%25%2C Eval:3.2e-15%2C partial hit],MGA_325
sequence02	MetaGeneAnnotator	CDS	33030	33284	.	+	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPSKINKYPPKNPKPSRIKVEITTALLTVAIRFFFDNLEVNDEKTGMLPIGSSIASRVINDWRNNTKLISEKADTYERSRANE;locus_tag=LOCUS_3240;note=MGA_326
sequence02	MetaGeneAnnotator	CDS	33316	34248	.	+	0	ID=MGA_327;product=tRNA lysidine(34) synthetase TilS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250772.1;translation=MEKTCNKCSKTPVFYRKYSGERLCSECFSNSIIEKARKTITKHKMLKYGEKIAIGVSGGKDSLALLDILVKMQRKNEYELVAITVDEGIENYREEAVELATKACEKYGVKHFNTSFKELFGFTLDNVLDKRKDGKTTSCAICGPLRRRGIELAAKKIGITTIATGHNLDDMLQTFMINLLSGDVYRIKQSKPRSKPKTGFEFKKIKPFTEIYENEIAFYSFQNNLPFQSTDCPHMNENIRNEIRDTINNLEKNHPGIKFSLMKSVEDITNNLELEPKKLITCLICGNSSSSSPCNVCKTESFAKELTKSN;locus_tag=LOCUS_3250;note=WP_011250772.1 tRNA lysidine(34) synthetase TilS (Thermococcus kodakarensis KOD1) [pid:38.1%25%2C q_cov:94.8%25%2C s_cov:93.5%25%2C Eval:2.5e-60],MGA_327
sequence02	MetaGeneAnnotator	CDS	34329	35006	.	+	0	ID=MGA_328;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251241.1;translation=MSYNNQEIGELLDLLGNETRRKILESLADEPKYFIQLSREIGVSQQAVLKHLFLLENFGLIESYREKGNLPAPERKYFKLDKSVYLSVGITGNSIEIKMESIIDKNNLQKIIPHKTKKENKQEDKEFTNIIRNTKSKLEIIAKRMQELEDEKIGLLQEKQQILQIAHQVIRESLDEILARRILYSNLNSRDVTGIEELSEILNTREKEVKIIIKKLEDRFSVGLT;locus_tag=LOCUS_3260;note=WP_011251241.1 transcriptional regulator (Thermococcus kodakarensis KOD1) [pid:31.6%25%2C q_cov:81.3%25%2C s_cov:85.9%25%2C Eval:4.3e-15],MGA_328
sequence02	MetaGeneAnnotator	CDS	35015	35506	.	-	0	ID=MGA_329;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846759.1;translation=MHGHNYRVGNGMPLSKKYAPGTPDLRIARFNTGSRNSDYDVKIQLIAKEKCQIRDNALEAARVGANKKMNKVVPETSYRLSVKLFPHTIISENKMIAAAGADRLQEGMRRAYGKPVGHAARVNIGSIIYEINTYKKYIPEAKRALKTASSKLPGYTSISVLLT;locus_tag=LOCUS_3270;note=WP_052846759.1 50S ribosomal protein L16 (Sulfolobus tokodaii str. 7) [pid:45.7%25%2C q_cov:97.5%25%2C s_cov:92.0%25%2C Eval:1.4e-30],MGA_329
sequence02	MetaGeneAnnotator	CDS	35568	36734	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868101.1;translation=MTKFLITLVNGRLSQSELKNILMKAKIPFKILENNEIFLVLEISKKEELLKLGGIYKIGRIICTNNSLEDLYEKIEKSKILENLEHKQKWNISYYSKNQVDIKTYENMQNFIRTQIKKNTKKSKFIKNNMNSENFIELSVDKEKQTAINILVGYNGNRYYFAENEFSVKSSKFINRDLNRPYQDSKISLSPRTARILVNILGLEKEKIVLDPFCGTGTFLLEALMQGYEIIGIDNRKECVIGTKNNLYWLIKQHKLKNRIKYVKKDNAEVLSSVETSTIDGIVTEPILLPNFKNFPTYTIAEESLKQSKRIYKKGLKSMYRVLKKNGRVSIVTPRIRTRNNEFITFDFRQMIKETKFSLNNNLEEQPFIMNTSNDQKIIREIWLLNKN;locus_tag=LOCUS_3280;note=WP_010868101.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:25.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:5.8e-23],MGA_330
sequence02	MetaGeneAnnotator	CDS	36731	37435	.	-	0	ID=MGA_331;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020727.1;translation=MTYSPDEEISICLIEPQYSINLGYVARIMKNFGFRKLLLIDSKVNIDQARPFASHAVDLLEQAKHIEFEELNQFDTLIATTAITSQRGLSPRQSIPVSKLRSTIKNMGNEVCIVFGRDTTGLTNKELQFVDVIVNIPANSDYPTLNISHALSIVLYELTNYELVDRKIADRTDINRTIEAFIDISKTLGLPSHKLNLIQISLQNIFKRAQPSPRENSVLMGLAHKIKLHFSRKF;locus_tag=LOCUS_3290;note=WP_011020727.1 RNA methyltransferase (Methanosarcina acetivorans C2A) [pid:35.1%25%2C q_cov:93.2%25%2C s_cov:87.1%25%2C Eval:1.7e-30],MGA_331
sequence02	MetaGeneAnnotator	CDS	37480	38022	.	-	0	ID=MGA_332;product=protoporphyrinogen oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867555.1;translation=MTIYEPSDDTELLLKAICKYSSKTVLEIGIGSGIILQKLAHNNIFVVGLDISSESVFYVSSHIKKLKLEKNVDVVLGSGPSMFASHNFDLVVFNPPYLPHDNYTDTTTDGGPTGLELTHKWLELSLDLIKPSGKIVFLQSSLTPLNDYINILRKSIIVNIIMKKKLFFEELFIIEVMPGK;locus_tag=LOCUS_3300;note=WP_010867555.1 protoporphyrinogen oxidase (Pyrococcus abyssi GE5) [pid:36.1%25%2C q_cov:96.1%25%2C s_cov:89.3%25%2C Eval:1.6e-18],MGA_332
sequence02	MetaGeneAnnotator	CDS	38019	38771	.	-	0	ID=MGA_333;product=ribosomal RNA small subunit methyltransferase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O51536;translation=MKLRNKLGQNFLINNNVAKKLVDCALITDTDSVYEIGTGQGILTEYLCKKAKSVISSEIDFSLYKLSATKLSKYNNLQLKHMDGLQYTDDFDIFISSLPYSESERFIYWLLNKNFKHAVVILQKEFIDKITSLPNTNNYRSISVISQYCLNIISIETLSPSNFYPPPKVQSILAIIKPNNSLSVFEIQTIKKLFSFRRKKLSSVLKNLTKSDNILITCGSEFDLSKRIHEFPPNTIVSLAQIMISNGLEQ;locus_tag=LOCUS_3310;gene=rsmA;EC_number=2.1.1.182;note=O51536 ribosomal RNA small subunit methyltransferase A (Borrelia burgdorferi B31) [pid:33.2%25%2C q_cov:98.0%25%2C s_cov:88.3%25%2C Eval:1.0e-26],MGA_333
sequence02	MetaGeneAnnotator	CDS	38786	39346	.	-	0	ID=MGA_334;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867500.1;translation=MTQPHNKKYEEFAYVLDYRPNSRSALIKGRDGTIIQAIGMERLTLLELLGTKGELISLNEKINIGKDGRTKVISVLGKLSYNGLTIESLNSLPEVLEILIKDNESYYVNYFNNSHAITPRLHSLEMIPGIGKTFLSQILKEREKAPFSSFLDIQNRINLKEPEQLIIKRLLEELSGNAKLNLFVRT;locus_tag=LOCUS_3320;note=WP_010867500.1 DNA-binding protein (Pyrococcus abyssi GE5) [pid:42.8%25%2C q_cov:98.9%25%2C s_cov:88.5%25%2C Eval:4.6e-32],MGA_334
sequence02	MetaGeneAnnotator	CDS	39503	39829	.	-	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKKVTIISLSQVKDILSKLDLENADHIQKRTFDYVKNFPDSDYKKINEAAKKIADSDYVNLEQAYEILNINPQTIAELRVFTSGWKKLIPSEDLDKILSTSKDAYE;locus_tag=LOCUS_3330;note=MGA_335
sequence02	MetaGeneAnnotator	CDS	39843	40130	.	-	0	ID=MGA_336;product=50S ribosomal protein L21e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762332.1;translation=MRNNMRHAGFRRKSRSVLSHKRPSGLSYLMINYQPEDRVIININPAQVKGMPHRRFQGYVGVVKTINRRSIELDVQVGNKTKKLITRFEHIKMQR;locus_tag=LOCUS_3340;note=WP_011762332.1 50S ribosomal protein L21e (Pyrobaculum islandicum DSM 4184) [pid:44.6%25%2C q_cov:91.6%25%2C s_cov:91.0%25%2C Eval:3.9e-13],MGA_336
sequence02	MetaGeneAnnotator	CDS	40140	40811	.	-	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIDYRACAAEFIGTFALVFFGSLAIAQSPDSLISIAFAHGLVIAVMVYSLGHASGAHFNPAVTISMIYRKQIDTQNGIAYIFTQLAAGVVAAIAHAIILPNSITLNNLGSTLPGPNVSDITILFVEIILTFFLVFVIFCTAVNKKAPKGWHGFAIGMIITIDILAGGPITGASMNPARSFGPAIISYLYGAEGALQSHHLYWIAPIIGGLIASVIAKIINED;locus_tag=LOCUS_3350;note=WP_011140007.1 aquaporin (Gloeobacter violaceus PCC 7421) [pid:39.9%25%2C q_cov:93.3%25%2C s_cov:74.9%25%2C Eval:1.1e-34%2C partial hit],MGA_337
sequence02	MetaGeneAnnotator	CDS	40823	41338	.	-	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVELTIMNMTSIKSKFVNLLSPIQYAYAHCDIPCGIYDPHRAQLDALTVVRMNQLINDLGDDSDSQAKLGRYMSVKEAHAESCKNELRIIWADYFKPEHLEKYPDLHDLFWKTMKIASKTRQQVSLEAAEELLESVRKIAEIFWTTKGAKTKRQPSLQASGGELVYPVSE;locus_tag=LOCUS_3360;note=WP_011125519.1 superoxide dismutase%2C Ni (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:43.7%25%2C q_cov:74.3%25%2C s_cov:86.0%25%2C Eval:6.3e-27%2C partial hit],MGA_338
sequence02	MetaGeneAnnotator	CDS	41461	41853	.	+	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPKFREGDYVFINKIYYKLNKIKRNDIIGIDNNQKIEIKRIIGIPNDILLINGNSILVNGKKITENDKEKIQNNIHKSEVKLKKEEYYVLGDDYCPRCIDSRKYGPITKKQIIGKCYSNRRCRENYRTR;locus_tag=LOCUS_3370;note=B8E2G2 signal peptidase I (Dictyoglomus turgidum DSM 6724) [pid:35.8%25%2C q_cov:89.2%25%2C s_cov:62.6%25%2C Eval:1.4e-10%2C partial hit],MGA_339
sequence02	MetaGeneAnnotator	CDS	41826	42641	.	+	0	ID=MGA_340;product=2%2C5-diketo-D-gluconic acid reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001060166.1;translation=MQRELSHALVTNEKYRIKIPRIGLGVWGIPENKIEKIVKTAINEGYKHIDTAQIYGNEKGVGKAVKETKEIFITTKLWESNFGYEKTIKACEESLSKLNKIDLFLMHSPHRPELRKETWEAMQYLLKNRYVKAIGVSNFGIHHIKEILSWAEIGPCMNQIELSPFLQRSELVNFCKENGIVTTAYSPLTHGRKINDEQLTEIGKLYKKSSAQILIKWSLQKGNIVIPKSTNNERIKENFKVFDFIIEDKHMEMLDKLEQGFITSWDPTVEP;locus_tag=LOCUS_3380;gene=ara1;note=WP_001060166.1 2%2C5-diketo-D-gluconic acid reductase (Leptospira interrogans serovar Lai str. 56601) [pid:45.6%25%2C q_cov:93.0%25%2C s_cov:92.8%25%2C Eval:1.0e-59],MGA_340
sequence02	Aragorn:1.2.38	tRNA	42702	42790	.	+	.	ID=Aragorn_2;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence02	MetaGeneAnnotator	CDS	42856	44109	.	+	0	ID=MGA_341;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978901.1;translation=MKIGDIAGYSARAIKERYLRSGLTILMVLLGAMLLTGLSGLGEGFNYNIQKEFEALAPDVITITRSPIISGPGEDPDEPDPAPPVELNILTLKSLQGIEGATEVIPSFREGLQIEYAGKSQTTSIIGINPQKLTYVLPGLKFLNGDFTDPNDSTGILLGFTVAYPGGIDEEPFAQVGNLVCAKTAKQEIVGGIEKVVMDKKCFIVRGIIDETGTVFYDQSVSIPLMSANSYLDKKNIYDQIFVVVDKEIGNDLVIEEIRELYGEGIGITTPAQIQETIQGFVGSFNIFLSSIGFISLIVGGVGIITTLYTSVTERTKELGTLKALGATNSNIIMLILFEAIVIGVMGASLGLVAGYGLGWGLTQYGFGSNFGDLIPIFRADALLNVWLTAVTLSIIAGTYPAWRAGKMTPMTALRRD;locus_tag=LOCUS_3390;note=WP_010978901.1 permease (Sulfolobus tokodaii str. 7) [pid:24.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-26],MGA_341
sequence02	MetaGeneAnnotator	CDS	44106	46160	.	-	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMTFNILKQMNKLFIFLVIFSFIIFSFQVLPLAYGQVGGLITISRPLGTYQADWYGIEITQLNQTMQIFMYHQIPNDDLALLLYEDDISEIYDPENNFLPIASGRNFFYSNTILVDFENIPPGYYTMAIVGFNIISGEQTTYNLESNLQLDFMGSTHLVDLFVDGLDNAYPTTVAWDFLGGSYTQTTSDNWFMWVDDSSTFRVNRTVQIDSTERFFVAEDPKWTIVQSETLNLQYFRQYYSSISTFGLNLPIDFSFTSGGQVIHTELIDSWGDWVDDGRSLVLPRIIDASPNERYITTDDVVVKVDKPVDQVIDYKHQWLVSINHNANVDIPVSVSFLGNVVHHNTADTLRLWIDDNSNVVVPSIVSSTPLQRWIVDSNSQFVSSHSEIEINYYEQVKPTIIINGLNVQYPTTITYTSQGQTHTDISSSHWSSWVDLLTPISLDSEISGQIGEKWTTSDNVIASISKPITFSTNYIHEFRVSMLFTDATKTTILSDLPTNVEIIYPDGKTSSITEYSQLWISDGTYTLKNVNYQGMSFTPLSSINFKPENGKSWIIPIGLYDLSFRVDDAFGYSVSNAQVLFTMPNGLKVLKQTDGHGQVTFNMIPEGEYNLEVSNFGLSNVYSGNVSSDSISTQNLSVLLSSFAILISVLLIIIVLSFSYWRSPNLRKTVKTNYKNFTKKTN;locus_tag=LOCUS_3400;note=MGA_342
sequence02	MetaGeneAnnotator	CDS	46187	47992	.	-	0	ID=MGA_343;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005478061.1;translation=MKSNNKYHSQDALVVKNLHLHYKVTKGTIKAVNNISFKIKSGKALGIVGESGCGKTSIALSLLRLLPNNISKSTGTIIINGKKLNNISDDNFRKKIRWKKISMVFQGAMNSLNPVLRVGDQIIEPLVHDGENKSIAKKNACELLKLVGLTDDVYSKYPHELSGGMKQRIIIAMSLIFKPNLIILDEPTSALDVSVQAQIINLLKSLKQKGISMIFITHDIALASDLCNKIAVMKNGQFVEYNNLDNILSAPKHVFTKQLIQSVPILTSKLASRNLSSSNNEIINLQNIKVDFTIRKGLLSSKPFTAVSGVSLKLNSGETLALVGESGSGKTTLGRVALNLIQTTSGKIKFQGSLINHSFDDYSFRKKAQAIFQDPYSSINSFMTVYQILEEPLIIHKINDDIQSEKINKALNDVNLVPPEDYLNKYPHMLSGGQRQRVGIARALMLDPQFIVADEPVSMIDASSRLDILDLLRKLQATKKISFLYITHDIATARQFSDRIAVMFFGHIIEQGNSNDVVKHPLHPYTKSLIEAIPNLDSNNLYRTRQVIPGDSFHPQCTIYNSKKRKVIDLHINNISHTCRKKYPKLQEIKKDHYVSCHIKN;locus_tag=LOCUS_3410;note=WP_005478061.1 ABC transporter ATP-binding protein (Vibrio parahaemolyticus RIMD 2210633) [pid:41.1%25%2C q_cov:88.4%25%2C s_cov:98.3%25%2C Eval:1.2e-111],MGA_343
sequence02	MetaGeneAnnotator	CDS	47998	49431	.	-	0	ID=MGA_344;product=peptide ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240320.1;translation=MSSTSKDNINEFLSSGSGKAGSILLVIFLLISIFVVFTYPLDFGTTIWSNPVYWSDYPKSAPPTWTTLLGDDSFQHQIIDFNSPNDVVLISNQEERIYSKIISYDSNEFPTFVSLSMYDVVYYDRPPIITLSILRPDNEEVLIYREIISPPRPGEEGPFIRYSESPFRINLSGDKSVSSNLLIFLQDKSNEEVSINQIVGSNEKVIFSNLNFDSIESAEILPGDYKIIIKFVVNDERDSISKIRFVLGGSTYGFLGTDSLGRDISIGLLFGFPVALLIGITTSTLTTVIGTTMGIISGYVGGKTDTVIQRFSDTFSNIPLLPILLFLIFIFGPQLWLVMTILVLFGWPGLTIIVRSMVLQIKSGQSIEAAKSLGASKWRIMYRHLFPQLAPFIFAQLVFFTPAAILAEASLSFLGLGDPSIPTWGQILENGFRTGGVYIGYWWWILPPGLLIVITAMIFVFIALALEPIVNPKIKKM;locus_tag=LOCUS_3420;note=WP_053240320.1 peptide ABC transporter permease (Pyrobaculum islandicum DSM 4184) [pid:43.0%25%2C q_cov:97.7%25%2C s_cov:99.2%25%2C Eval:9.4e-106],MGA_344
sequence02	MetaGeneAnnotator	CDS	49428	50477	.	-	0	ID=MGA_345;product=peptide ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762663.1;translation=MSLLRTLFFRGLSLLVVLITVLFLSVIVLGATGFSDRLLTATVSEELRGLRQSLSQNIRDPNELEKVIADRREQLIEFYGLDRPWYYRLPDMIFRILTLDLGEARTIRSFTGSNKVSDIVLERLPNTVILITSATIITSIIGLYVGVKIATQVGSRLERSVSYFSAISYALPAWWLGIIFIILFAFQFRILPSSGMFSAPPPTEPLERFFDRILHAILPVFTLVIVSVGPWTYAVRTMVLNIAQEDFVTAARAKGLSENLVMRRHILRVAAPPIVTSLILGLTGSLGGAILTETVFGWPGMGRLYYEAIIAADESVIVALTFMFTLLYVVARFVLEILYVVLDPRVRYT;locus_tag=LOCUS_3430;note=WP_011762663.1 peptide ABC transporter permease (Pyrobaculum islandicum DSM 4184) [pid:47.2%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:7.9e-93],MGA_345
sequence02	MetaGeneAnnotator	CDS	50499	53243	.	-	0	ID=MGA_346;product=peptide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762664.1;translation=MIYSPSTKFIAILSILLLLITIPQTSYSQNNYVPPHDKPGPAVDILRFRAFHVDIAPKEILANQMDMYYFGLKVAAAKDIRNSPGIKVHEAPTSTISLLLNPAPGPENTLNPFSIKEVRQAMQFIINRDFVVQEIYQGMAVPMLTQVSSYDHDYLTLYDMILESSINYDSDYARIIVNDAMTNAGAELVEGKWHYNDKPIRIDFIIRVEDERRDVGDLIRSEVENLGFIVQSTYQQFGPAIFTVYSTDPNLVGTGGSWHMYTEGWGKSAADRYDSGTLNQMCAPWLGTMPGWQELGFWQYENPELDSLGQRIFSGDFQNEEERNSIYVDASKLCLDESVRLWIANIITNLPADENIEGISSDIIAGPKSLWTQRDAYIPGKNDLTIGNVWVWTARTTWNPVGGFGDVYGNDIWRNMYDPPITRHPFTGLPIPYRANYDVTTSGPGGNLDIPSDSFIWNPETSSWSTVPSGSTATSKVVFDYSKYFNSNWHHGESINMADVIYSIYQTFDLTYNEDKSAMEFSIATVSKPYLDSFKGFRIVDDNKLEVYVDFWHFAPDYIADYASITSITMPWEILYSMDTLVFDQRKAAYSDTAAQRFNVPWLSLVMDGDARLVRSVIRDHNSASTFPSNVFTVQGMQLVSESDAQSRYDSALSWFDQYGMLVISNGPFMLNIYDPPAQYAELHAFRDETYPFKPGQFFFGDANLVDILDIDSTFIELGSDNQFTVTLTGEGNLGLRFALVDEITNEILSKGTASNLNDDKFLITFDSSITSNLQAGLYKLYLAGYSDSLSSLNERLIVLEAVTNKPVSVEPSDNSPIVEDKPRSDISDNQPVSVRESESSSNLMIPIIVALLIVVVGTVFIQSKKSTRKTSRKPKQSTRKPKQSTRKPKQSTRKPKQSTRKSLPKTKRKTNKT;locus_tag=LOCUS_3440;note=WP_011762664.1 peptide-binding protein (Pyrobaculum islandicum DSM 4184) [pid:36.1%25%2C q_cov:92.9%25%2C s_cov:97.5%25%2C Eval:5.2e-170],MGA_346
sequence02	MetaGeneAnnotator	CDS	53256	55679	.	-	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSSAYVLLFIFLTTLFFPLYNPVFAGPEDILWSGARPYRAISPLIPESGILFHEPVSKVFSGAAQGVVRGEDVRFANAKKGAMDDWIANNANADDVKLQAAGAAALVPYRDPSQKFSRNILVTRDFGTVPVQTEPVLAVNPNDPEHLVIGVIDYNFANVVSYVSIDAGQSWSGPFQSKYLQEDLGAAGDPISTFDRKGNVYMGCISIGSDDFNLGGVPLQETVSSISITRSSDGGQTWLQPISSARSKIELNYAQTRYEGENANVTSTGTLRFGFLDKPWMASGPNPENPDEDIIYVVYTHFVTRYDFFFALEGVFLYFRYPVLETTIELVKSEDYGMTWSEPISVSPTVYSTYAGGGGGEGGPLGEESDRVVQFPHVFTHDDGTVYIAYHDSTDDGPFEGLAEIHVTRSDDGGDSISINERIATFNEPFYKSRNAPFRSWASAMPRGAVSDIDGSISLVFGGRPSDKPTDDGDVFFARSTNRGESWTLPKRINDDESPSFQFFPALDIGPDGVIHAFFGDFRDSPSEIKYHMYYTRSDDNGETWLPNSRITDYPTNPNKAFPRGAFIGDYNDIKAVADDVYMIWTDGRLGEITGMNQKIGFARTKPMPSPSIFISPPSGPGGRDVRISGFDFQPDQEIFISVSGVIISTTRTNDDGLFTTDIFIPIAGEGAHTIAAIESSGNVATASFYMDFGFNNLDELENRLSSISESIFDLLQNSSNVNNASPPVDSPPPNIISEIPELSNLPVQINQLQNDISIISNKANTFETLIYTLIAIIIAIVAVVFISISQNDTLDIKKIRKLMRK;locus_tag=LOCUS_3450;note=WP_011205701.1 hypothetical protein (Burkholderia pseudomallei K96243) [pid:23.1%25%2C q_cov:60.2%25%2C s_cov:88.7%25%2C Eval:2.3e-09%2C partial hit],MGA_347
sequence02	MetaGeneAnnotator	CDS	55745	56545	.	-	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTARKTKKSTKSTPLLRNRLFVPIIVAFIIGSVFSYVIVQPQVSDLKTNEDVLNSQILFLENQLSDLKEKESKLTQSQIRVDELQSQVNLFEQEHKQLTQEISSLNNEIVIIETELVDKKEELSLSVQQAELSETELVKLNSRLDLISDTIIKFDNDKLLLVELRKEIPTTRFEALDHWKRVKDIAVTSDPNLGPSVDKVISMVDAYYDWIEQQPGVNSTDAEFFDWIVQGNISGALNYTSEIGKFQNDALLTVIIRMDAALSLVA;locus_tag=LOCUS_3460;note=MGA_348
sequence02	MetaGeneAnnotator	CDS	56646	56927	.	-	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAPVIAPITAPNSRLELSLISVILFFIYTEDALLELTNTPMKLEPIARCIGTLNSNVSAGTIIIPPPSPSNEPIIPATKQVERIYKKTIIST;locus_tag=LOCUS_3470;note=MGA_349
sequence02	MetaGeneAnnotator	CDS	56998	57486	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTKSKTINKKPEKIDQDLSEKREYFEKNTKQIIKYSVIRTKEGVLLSSIGGIFAGLLGVGGGSIFVPIMNRVMNVPLKVAIATSSFMIGMTSLVGAIIFLMNGFFDPEIIAPLILGMFFGAQLGSRINRIIDKQLLNNIFVIVIFYIAFKMIINGLGINVF;locus_tag=LOCUS_3480;note=Q2RLI4 UPF0721 transmembrane protein (Moorella thermoacetica ATCC 39073) [pid:38.7%25%2C q_cov:84.6%25%2C s_cov:50.6%25%2C Eval:4.4e-24%2C partial hit],MGA_350
sequence02	MetaGeneAnnotator	CDS	57492	57815	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKRNAKNDLEELILITIKILLSISIIFSISSIIIEFISIKSYVNFRINIFDINLLLVLALTALFLIPIIRLLIITVKFFREKNYINALTELAILLIILILVVTTIN;locus_tag=LOCUS_3490;note=MGA_351
sequence02	MetaGeneAnnotator	CDS	57808	58101	.	-	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIAELTDGARNVEIPEAEVIDIGETRTVNTRFGTEARVADVKIKDETAEITLSLWNDDIEKVQVGTKLKIGNGYTNSFRGEVKLNVGRYGTLEILS;locus_tag=LOCUS_3500;note=MGA_352
sequence02	MetaGeneAnnotator	CDS	58326	58589	.	-	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNFAEPKKRKSKLGSYDPNNKIGIEANNKINGFFLPPRDLKSSTKPIVPVITITPNTAIILVSFVTMNNSISDDKRPMIIAGPPG;locus_tag=LOCUS_3510;note=MGA_353
sequence02	MetaGeneAnnotator	CDS	58492	59169	.	+	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLLASIPILLLGSYEPSLDFLFFGSAKLTIIYPILVLIAIPITANTVNTIDVLNGVSTGFVIIASIPLLIALVLIGDYNIALVTLILMSVCMAFFQFHKFPSKVFPGDSGTLTIGAMYGAITIVGGIELIGVFALLPAILNSFVYLSSMRDFVEHKNIKVRPTRVLSNNIITAENDRRAPITLVRLIVANNPSNELSIVNTIFVLSIFTATLATIMALLTWLI;locus_tag=LOCUS_3520;note=WP_048060851.1 multidrug transporter (Methanothermobacter thermautotrophicus str. Delta H) [pid:30.1%25%2C q_cov:69.3%25%2C s_cov:47.4%25%2C Eval:3.1e-21%2C partial hit],MGA_354
sequence02	MetaGeneAnnotator	CDS	59170	59415	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLSSLLLIMFIAFLLVFIISVLIFTVIAPLNNIFTFKFGEIVTGIIKITLSFGLFLIWILIIQKIISIYLERKLRDDRN;locus_tag=LOCUS_3530;note=MGA_355
sequence02	MetaGeneAnnotator	CDS	59412	59882	.	-	0	ID=MGA_356;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979852.1;translation=MVDVGHTLPNFQLPDADSSSVDISKFKGKKIVLIFFPAAFTSVCKTELCHFRDDLSKFSALNAEVIGISVDYPFSVKEFATTNNINFLLLCDYNKTVIKQLDIEFPNFLDLNGYTVAKRSVFIIDEEGIIQYKWIADNPGQEPDYDDIDSHLSSMN;locus_tag=LOCUS_3540;note=WP_010979852.1 peroxiredoxin (Sulfolobus tokodaii str. 7) [pid:48.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-41],MGA_356
sequence02	MetaGeneAnnotator	CDS	59908	60408	.	-	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNTSNTIAPTAFIGKNVKLGTNIKIWNMSYIGNNTEIGDNVIIGSLAHVDYDVKIDSNTKIEGLVYIAPKCVIGKNVFIGPSATLTNDPYPPSRKLDGIYVEDNVVIGARSVIKSGVTLGKNCVIAMGSVVTKDVPPNSVVLGSPAKTIYSRDSYDNKMKEWEKS;locus_tag=LOCUS_3550;note=WP_011763299.1 acyltransferase (Pyrobaculum islandicum DSM 4184) [pid:39.2%25%2C q_cov:92.2%25%2C s_cov:67.4%25%2C Eval:1.3e-26%2C partial hit],MGA_357
sequence02	MetaGeneAnnotator	CDS	60405	60698	.	-	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLMLMLVCPSDKTSNLDLIEFEINNLEIESGLLYCHKCVRYYPIINGIPLMLPDNQRNFISESRFLSKWYSKIPDEIKTNSMPFKINNIDDDLL;locus_tag=LOCUS_3560;note=MGA_358
sequence02	MetaGeneAnnotator	CDS	60705	61664	.	-	0	ID=MGA_359;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876508.1;translation=MKVAVVGTGSWGKHHLRVLNDLGCLNSFVEKDEDRRLFYEKKYSIKGFSNIDDLVKNQEVDIVNICTPTTTHFEIAKVTLSNGISTLVEKPLTYSSSQGEELVNLARENKTALTVGFVERFNPIIINIKEILQNQTFGDPLLIEFQRENRWAGVTKDIGVILDSSVHDIDGARWLFDEEPNIVFARTGNVLDSQSTGFVGTAYEDFATIILGFKNQKTAIIIANWVTPYKVRRISVTCSNGNLSGDYMSQEIRQDDGKSVTIPTRKYEEPLVNELKSFIHAVESNTSPIITGVDGLNTIKIAEAAINSAKRGTPIYLDL;locus_tag=LOCUS_3570;note=WP_010876508.1 oxidoreductase (Methanothermobacter thermautotrophicus str. Delta H) [pid:33.4%25%2C q_cov:98.7%25%2C s_cov:97.2%25%2C Eval:3.1e-48],MGA_359
sequence02	MetaGeneAnnotator	CDS	61688	62845	.	-	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKRSVLVYGLSTEGYILSNSLVSNSIQTTILDEKLHVATELTPQILSDYSTARELIEEDSLFSIQPEKNAISENSVIFFTPKIPKTDDYKKQIFSMISELSRELSKDTIFFNCIPVGYGDNYEMIEIIERSSGLNSETDFVYSYLPMEPRTTTSISFGINNIDNQQLVQTCAKNANIKFTQTTNIEISELLHLQKISSFYSPIIAKAESLKKINDYKNRKLLQNEYQYIDDLTNHLSDIRSYTSSLNSGDPSLYIISAIFRGVNSYPRFFIDELKSFMKQNSLKASKTEIYLCWSIDKSEIRGDKSMMHDYIIDKVSDVVGSINDIDDYITTKNGKDSYYLPTSDKKQLLIFGSANDEKILKTLKGNLNDNMFLIHANTVCTR;locus_tag=LOCUS_3580;note=MGA_360
sequence02	MetaGeneAnnotator	CDS	62972	64060	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876418.1;translation=MKVWIDILTPKQALFFEPLIEMLKERGDEVVVTSRRYREVELLLRKRQINSEFIGSHGGKHPDVKLFASIERSKLLTEYFKDDKPDALVSFSSPEGARVAYGLGLINICVSDSPHAEAVSRLTIPLSDCLLTPWIVPDKSWTAYGIERSKIESYKALDPFVWLSRRDLNDKPHSGLNIDKGRNTISLRLEESFASYVSNESYGQEFVLIKRLIEEFRNQNIVVLCRYSEQIDKVLKKFKGRVIVPNDVIDGVALLQESDLFIGLGGTMTAEAALVGTPTISFFSGSYFVERYLVSKGLLTKPRDVDGVIRVSKNFLRDSKIRKQMKMRASRIRSGMEDPIRVIVKKLDYLMREKLNQELYRK;locus_tag=LOCUS_3590;note=WP_010876418.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:29.9%25%2C q_cov:95.0%25%2C s_cov:93.0%25%2C Eval:1.2e-38],MGA_361
sequence02	MetaGeneAnnotator	CDS	64178	65494	.	-	0	ID=MGA_362;product=2-methylthioadenine synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978493.1;translation=MSLVQMSSMSKSSKVYIETYGCSASYSDSEICAGQLTQAGYSIVDNPKDSDVNVIVTCTVKTATANRMSHRIKKLSETNSALVVAGCMPKTQASDIIKINPKASLMGPNSIDKITDIVNSTLRGVSRVELETSTKPKVLLPKIRINPVIDIVEIGTGCLSSCTFCQVKIAKGNLISYSPNVIIEQIVSSTNSGCKEIWLTSTDNGCYGMDMMMDLADLLQSVVKIPNNFLIRVGMMNPMHTKKKFNKLFQSFANNKIYKFLHIPVQSGNNRILKSMLRGHSAEDYKLMSSTFRTKFPLSSIATDIIVGYPTESDEEFQDTINLLKSTQPDVVNLSKYGARPGTKAIEMEQVPNSVINERSKLLTTIIKEISLQQNRKWLNWIGKCFVNEKGKIDGTMIGRNNAYRPIVLKTTDVVLGNTYNVKIIEAHSTYLTAKIFE;locus_tag=LOCUS_3600;note=WP_010978493.1 2-methylthioadenine synthetase (Sulfolobus tokodaii str. 7) [pid:36.7%25%2C q_cov:97.0%25%2C s_cov:99.8%25%2C Eval:4.0e-79],MGA_362
sequence02	MetaGeneAnnotator	CDS	65504	65905	.	-	0	ID=MGA_363;product=PPOX class F420-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013230403.1;translation=MLIMTKLPDETKSLIDGKNIAHVATLKKDGSPHVTPVWIDRIDNNILINITENRLKFKNLKNDKRIAVSITDFNNVYQWTSIIGEVINMTNDGADEHIDKLSKKYLGVPKYPYRQDGEIRTIIEIVPKSVTHS;locus_tag=LOCUS_3610;note=WP_013230403.1 PPOX class F420-dependent enzyme (Amycolatopsis mediterranei U32) [pid:39.5%25%2C q_cov:89.5%25%2C s_cov:89.3%25%2C Eval:9.4e-15],MGA_363
sequence02	MetaGeneAnnotator	CDS	65944	66777	.	-	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNSQNDILSVKGFLSIVIFVLLIQITSLFLTSKFIGLYQFLPSYQPAGNTTTGSILNSVILILFTFFITIIILFLLRSKRFLLLKFMFIFALSVGTFSVSYIIFIVVFNSLFSNSFIIVFSLFLSLITILSMTILKLNVFQLITSFILASLYGTSLAIFLKPPTIIIIPVVFAIYDIYAVFYGPLKSIINSYDDSFDMRPLLVNLENFNIGTGDLIFYSMIPSSVLLLINLPTAIFSIILIHVGIFLTILFLKRFEFFPGLPIPVLFSIIPFLLFY;locus_tag=LOCUS_3620;note=MGA_364
sequence02	MetaGeneAnnotator	CDS	66798	67169	.	-	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSYQKELFSFLLIFGFFMLLQFLPEYEQDSDQLVFELTSKQWEFEPNQIIVQQGQRIVIRITSTDVPHGFAINELNIYTFVPPGQTVEVSFIANEPGVFEIFCNVFCGEGHSNHRGQLIVR;locus_tag=LOCUS_3630;note=MGA_365
sequence02	MetaGeneAnnotator	CDS	67188	68384	.	-	0	ID=MGA_366;product=formate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q930E7;translation=MKILCVLYDDPKDGMPNRYALDSIPKLETYPDGMTLPTPKAIDFNPGDLLGCVSGELGLRKFLEERGHTLVVTADKDAEGCEADKELVDADVVISQPFWPYYLTKKRIESAPNLKMAITAGIGSDHVDLQAAMDHKVDVVEITYSNSISVSEHIVMMILSLVRDYHNQHAIVKSGGWNIADAVKRSYDIEGMHIGTVAAGRIGYSALRKLKPFDVHLHYFDKHRLPEAAEKELDLTFHDSVESLVKVCDVITINCPLHPETENLFDEALINKMKRGAYLVNTARGKICNRESIAKALESGQLSGYAGDVWFPQPAPNDHVWRTMPNHGMTSHTSGTSLSAQARYAAGTREILECFFDGEPIRNQYLIVKDGELAGMGAHSYSKGSATGGSEEAEKYKK;locus_tag=LOCUS_3640;EC_number=1.2.1.2;note=Q930E7 formate dehydrogenase (Sinorhizobium meliloti 1021) [pid:71.5%25%2C q_cov:99.5%25%2C s_cov:98.8%25%2C Eval:3.4e-167],MGA_366
sequence02	MetaGeneAnnotator	CDS	68414	70225	.	-	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIQASAILILVLMILMASTPTIFAQEPVFNWFKPAVNDHNTNFFPQDSINRDNVENLVLSWIYQVPEDPFKIPYVAPSLGLQTAPLVVNGIIYFTTFYNRVIALNAETGAEVWQYQVDVMEFVDEEWWWPVLSQKSITYEDGTIYFMASDCRIIALDALDGSEVFVIPDVCKNVEGNTGFYFGEHAPLIFENLLIARPSVQDGGGRGFVVAYDLDTLDEVWRWFSVPPVGGDPKWDFKDGNKGNIKPFEGDWGETDLIGGGAVWSLISIDEETRTIYFSTGSSPGVIDAALRPGPNLYASSIVALEVDTGEMKWYHQIAPHDINDHEIGWSVILGEIEIKGQRKKAIMAGSKTDHVFVLDALSGQLLHEPLRLGNQAFNVPNDNAGNNADMKISQKTLVGKTFCPGGNGGIEHAGAFASNTLYYVSQKVCWTVTEGPVNYKGKDMQGFIYGAAAGERQNATMFAIDVSDMSIKWVFEIPNRYQSSGVTVSGGVIYAVDRASVMYAIDQETGKELRRIQWGGLGAGSITLGATARGDMMLFIPSGGGQVAANTPGIIAAFKLPEGSADSSAIIGTTNEVILLLIALIAVISAIYIVFKIRTR;locus_tag=LOCUS_3650;note=WP_014537605.1 pyrrolo-quinoline quinone (Ketogulonicigenium vulgare WSH-001) [pid:28.9%25%2C q_cov:82.3%25%2C s_cov:70.0%25%2C Eval:1.8e-40%2C partial hit],MGA_367
sequence02	MetaGeneAnnotator	CDS	70265	71395	.	-	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDYLKELERDAKADGRLIIYASLRGVLQNSVKAFRKKYEHLNLHVEYISSHPVPIERRIEVEAEAFKNLNEEGDPGTADVVMMPQFMLIQMANKGLLRECIPEIKRTHLKLWPNVIKDENATWAAMAVEPTGVVYNDALFKKLYADKGGLDYLPTTFEEYTDPKWSEANGKQVIAGKTIESSHCIQSLVRFPEGKMGFYYLISLKEHIGESRWTELMKRMANNVKPRTYECLLHMTHNLGLGQHIFGLPATLRKQGMGDDYSYMREGGLKPLVLTDIPPSAIARCAGLTSAGKNKSAGELFLNFIFSADWQDELGRTLDGMVPARPGTVTEYWVSQALDKGFIHYPKPEHVAKEKEYIEEFESLGLGSNLPKGTG;locus_tag=LOCUS_3660;note=MGA_368
sequence02	MetaGeneAnnotator	CDS	71461	72543	.	-	0	ID=MGA_369;product=iron ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016302.1;translation=MTDLSIQSLSKKFSNNLVVDNVSFNVLDKSFITILGPSGCGKTTVLRCIAGVEQPDEGIIKIGNETLFSKKNNIMIPTEKRGMGMVYQSYALWPHLTVFENIAYPLKIRNLSKSEIDEKVIDIIKLVRLNGLEDRLVPNLSGGQQQRVALARALVYNPKLLLLDEPLSNLDVILRDEMRTELKELQRKLKITTIYVTHDRTEALSLSDQIIIMDKGMIKASGTPDSLLNNPPNSYAGIILGDMSILRGRVVDLDKSMATISIQGNNLICQRIDQIEKGDDVKVLLKGTEAIIHNSKRTGSNIFQAVIKTSAHTGQFVEYKISIKDQKIKVSRAITEHPLYKAGDNVFIEIPSSACSIVLE;locus_tag=LOCUS_3670;note=WP_011016302.1 iron ABC transporter ATP-binding protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:41.2%25%2C q_cov:97.2%25%2C s_cov:94.9%25%2C Eval:2.4e-68],MGA_369
sequence02	MetaGeneAnnotator	CDS	72653	74167	.	+	0	ID=MGA_370;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012066912.1;translation=MSSKISRRKFLGYAGAAVGLGASGYYALNQFNQPQQTEPIPGNSSAPSGRSTRLAIPKNPQNYLPDEYVDFIRWLESISDNIAGTEMRIAIEAEVAPRALLRNKIDFESSTGTKVLMEFDIYRNNLAKCLLAVSTRSPTFDVMNVDVSQVGRFAPHLIPIEELMETYPELTYPNLNIDEFVKPVIDFTCTYPPNLSLPPWEVDFNGTFMQFPQEVPLMIRFFRKDLYSAEGRDVSVTWDEYLDDVKHFHDPTKAKFGTVLMAARFPSIVMEFHNWLYSFGGKLWDIEKDGTITSAINSEQSLAALDHYLEISKYAEPNSAFYGWAPAAEAMSQRRAATMLNLTEFASLMDIPGESYVVRDVGYSRNPVGESGASHHYSGAGLAIPRYSLNPAAAWVFIQWATFAATQLIVSMDPLALAVPTRTSVYEDSHVKELVSEGTIRHFNVVKDAIDKGEINIKPGFPLWDNIEGEMMNQLNRAIRGQITSKEALKIIEDRAIDQGPFTF;locus_tag=LOCUS_3680;note=WP_012066912.1 ABC transporter substrate-binding protein (Sinorhizobium medicae WSM419) [pid:27.6%25%2C q_cov:96.4%25%2C s_cov:93.4%25%2C Eval:3.6e-39],MGA_370
sequence02	MetaGeneAnnotator	CDS	74223	75140	.	+	0	ID=MGA_371;product=ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867902.1;translation=MGEISINATNVTKAYGDFKAIDDLSLKVDKGGVWALLGPNGAGKTTFLKCILGLREFSGTISIEGYDIVKNPKQAKMQIGYVPQHPTLYDELSVQETLRYFGDMRNVKRSRLKELLEFVGLELWARQPASALSGGMKQRLMLAVALLSDPPTLLLDEPTANLDVRRQLEFRDLINLLVSEGKTVVLTTHLLGDVDQVAKQIMLINKGKLVIKSSVADLFKELDLSSQMYIELADPTKENDAIVALEKAGANDISVKGAWLEMGIDPSNKLDVLNNLRTSNCEIKDFKIEEPNLEDAFMKITGEGQ;locus_tag=LOCUS_3690;note=WP_010867902.1 ABC transporter (Pyrococcus abyssi GE5) [pid:36.5%25%2C q_cov:96.4%25%2C s_cov:97.0%25%2C Eval:7.0e-47],MGA_371
sequence02	MetaGeneAnnotator	CDS	75140	75973	.	+	0	ID=MGA_372;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003695633.1;translation=MPSAFYMILKKELKDSLKSKWLVTFAVTFFFLALGVPYIILGAGGLLPQDYPGMVVGTLITLAVPLVPLVSLAMSSTTIAGERETGTLEYLLAQPASKVEVFFGKYVGIVLSLTLAMMLGYGGAELIVYATNPTFIVSFIYALLYSSLLSAASVGLGFIISVMTKTRAAAIGSGLFLWFVLVIIYDSGFLGVITVALNADALLLPLTIANPVETTRILALMHMADSPLRGELGPQASYLLQEYGSIVASRILAAVLLLWVIIPVSISYLLFRRQDAS;locus_tag=LOCUS_3700;note=WP_003695633.1 membrane protein (Neisseria gonorrhoeae FA 1090) [pid:27.1%25%2C q_cov:97.1%25%2C s_cov:97.8%25%2C Eval:1.9e-24],MGA_372
sequence02	MetaGeneAnnotator	CDS	76003	76431	.	-	0	ID=MGA_373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPFTSATDKISSFIILDISEETQNNKATQITAHLQTNDGLPIQKELITFFINDKIFTNKLTNRNGLASIQIQIAEKTEIFVEFDGSRIYHESISEVIILETANNNETKSIETIPNRLFLFIAVITLGMAGTVVLYIISRKK;locus_tag=LOCUS_3710;note=MGA_373
sequence02	MetaGeneAnnotator	CDS	76610	78778	.	+	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNAFDPGGPPIAGGVPKVVTGNWEWINYQPTGGSYSPQFDINKDNVQHLEMNWIYPYVNQDAEDLGFNLAAQTGSSAPALFIDGVIYIAMNTKAVHAIDATTGQEIWYSDYLSVNPDFNKMVADFPYLQGSRGHVHAMNYYRANDWLIMSSIPCYLAALNVEDGSLAWEMGPEILCGTNEELGNPAQGIMGTFKSKGYFPSISNHPPSFHGDIMVWPSMGASGAGGRSSIIGYDMSNPNAPKQLWRTWVAPAMDGSQKDWAIEQCDITGGNGWYFEYPKYRETGQLALNCKDAPEDAVMNDWINMKPNTPHYGEVHTASAVSPVWGNMPIDPETGIIYMGTGDIGPYPNATFKFGPNLHGSGIIAVDSTTGELVWWFATNPHDLWDMDCSWGGIIGKSEGTKVLIKACKNGIVYALNALTGEPVWVYDPPNIRRDVEMNYGVDKNNDPTGKDACCNMVFEHMNKDWMHQPKDTPVRTICYTHCIESDIAYDGKHVYFAAHNAPRNLTINNVRDFGNNGRAVYFGAEERNVTVFAVDANTGETAWEFFIEPGAFRGGILVTGGVVYAYASDGNLYMLDSDTGELLSKKFFGIPVNVAPTIGAGDDGKHRIGLHVGGGGGFVFRGHGTAPGTFATFGLPDELPRSVAAAPAAGGERIVEVEKIVEVEKIVEVPGEERIVEVEKIVEKEVVTTEEVVSPISYVAIGLGVVLVVVSGVLYQRSKN;locus_tag=LOCUS_3720;note=WP_013096675.1 quinate dehydrogenase (Enterobacter cloacae subsp. cloacae ATCC 13047) [pid:35.5%25%2C q_cov:15.9%25%2C s_cov:15.1%25%2C Eval:5.8e-12%2C partial hit],MGA_374
sequence02	MetaGeneAnnotator	CDS	78968	81187	.	+	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNAFDPGGPPAAGGIPKIVTGNWEWINYQPTGGSYSPQFEINHENVQYLGLQWIFPYTAVESLFPNQQGGSGAPVIIVDGVAYVGKNNRAIHAVDATTGKEVWFSDEQSNLWDRAALHAEFPFFQSSQGHTHGMNYYRGMGDSGWLITSNQPCLLSATNAADGSIAWSMGVEQLCGTTAEYGNPEEGIIGSFGSKGRISGQSNHPPNFHGDIMVWPIMGASGGGGRSSVKGFDMSDPNNPTELWRTWLMPDMRGTDPDWAINQCDIVDGNGWYFSAPDFFESETLAINCKDVPDDVVRNDWINLKEGTPHFGEVHTASAMSVIWGNMPIDPTTGIIYIGTGDVGPYTNSSYKYGPNLYGSAIVAIDSTTGEIVWWFHSNPHDLWDWDCSWGGLLAKAQGTNVLIMGCKNGMAYALNAATGEPVWVWEAPTTWRTAPDTNYGVDVNGNAGVDGEACCRMIKEHMGKDWLNYPSTEPTIMSPWLAGALESDMAFNGKYLFVANYNDPRWTTTENMREFGNQATNIEASGHPVNTTIYAVDINTGQAAWSAFLPDFGFRGGLMTTGNVLYGYAGDGNLYMFNADTGELIDTQLFGVPISVMPTIGAGDDGKHKIFLHIGGGGGYLYAAGSTEGSLAALGLPDVFPDAGEIVQQREVVRNVEVEGPVREVFVEKEVEVEVEVERIVEVEKEVEVERIVEVEKEVQVEIVTTEEVISPVSYVAIGLGVVLIVVAGVLFQRSKS;locus_tag=LOCUS_3730;note=WP_013384676.1 ATP-binding protein (Ketogulonicigenium vulgare WSH-001) [pid:26.6%25%2C q_cov:38.2%25%2C s_cov:50.9%25%2C Eval:8.9e-16%2C partial hit],MGA_375
sequence02	MetaGeneAnnotator	CDS	81219	81701	.	-	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978170.1;translation=MDKFVVDSMNGKLAKKLRFFGFNTLYYKQIRENEIIKIAIQENRIILTSNYELYKLCRSKNVETILTMQESDLNNLIEIGKLLNWQSLDDSKFSTRCTICNNELMEIGKEELQKTIPRNTFQRFYEYYRCCECSKIYWKGSHWNNMADIAQAVNKKLEKK;locus_tag=LOCUS_3740;note=WP_010978170.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:34.0%25%2C q_cov:97.5%25%2C s_cov:90.9%25%2C Eval:2.3e-17],MGA_376
sequence02	MetaGeneAnnotator	CDS	81782	83905	.	+	0	ID=MGA_377;product=alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003895174.1;translation=MRKNQLFVLMLLLLFVTIALPFNLINPSPSAAAQELTREMANWDMINYNQYGTGNNPQSIINNENVADLQMKWVFPYPPSSYPTINGAIKTYAGSGSPALIVDGITYSATNQRALLAIDAETGKLIWNEVVNYDNDETIKQYPHVKGMLPHTHAVNYYDDKGIIIPSFQSCQIDGHDSLVGDVVFQVLELCGTEEEAKAWGNHGYYASIGTHPPQFFEDIMVVPVMGSSGNGGRSFIAGYDVSDMDNPTRVWQTFLVPPSDGDPEWALHECDKGWFFSFPEWQESGRLAVPCGEVESDCLDCLMNDWVNPKSSRGHLHTASTIATIWGHYLIDQETGIVYLGTGESGPYPNAARRPGVNLYGSSIVALDSRTGEFVWWYQSLPHDMWDYDCSWNAVLGEVNGKKAIFKGCKNGFLYALDAATGEPFWIFNPPSLWQPQPGMAYPDPKNLDDLTREWPTAHVGELDFLSANYAGQLEADIAYDNNRIYVGSFNMPVMVSSPEFPNDFGNQLVMIPTNHPTNSTIYAIDANTGDTIWEFFIDGAGFRGGLTVSGGVLYIPSGDGYLYLLNSETGELISKKAFGTGLWTQITIGADASDNMKVFVQTGGQSIASWGPTGIPGALIALGLPDETAISNEPVVVAPGAPAAPAAPGEERIVEVEVERIVETETIKTQTIISPLSYLMIIISFIILVISATLFVTSGNWKFGR;locus_tag=LOCUS_3750;note=WP_003895174.1 alcohol dehydrogenase (Mycobacterium smegmatis str. MC2 155) [pid:25.2%25%2C q_cov:83.5%25%2C s_cov:92.7%25%2C Eval:8.7e-21],MGA_377
sequence02	MetaGeneAnnotator	CDS	83918	84718	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATITKSDRTKIAGLFFIIGIIGIVGIIAYPTVPTFEDQVISNAPSAPRGEPREREAPAAPADPAAPAAPADPAAPANPSREEPALVQISDDHPQAELLLSTIDEFHSAFESRDSRMTLNYYINDKSTYAEWSGQAGAFAGTYKGFSNIRILISTILGNTLDIEIEMVSYEVTYAGDEATVVSQLANTGHGKLIGEFSMEVDAVTKWEFSDGEWRIIDDRWLFTFFKTEVVAEGTVFPLKWDKIGDFSILKNNVLFRDEIKYVAIP;locus_tag=LOCUS_3760;note=MGA_378
sequence02	MetaGeneAnnotator	CDS	84734	86767	.	-	0	ID=MGA_379;product=methanol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002719727.1;translation=MQKVGILIFILIVSALTSLNTEILFSNAIEDNGFNSVAPNYDYRATGFNPQTQINIENVNHLELKWVHAWPLPESIDGIEPRIGSIANPIIVDGIVYNRMEDLRIFAIDAKTGENIWSFQADPYLVNIEIAKRNLPVNLNFDPSLSSHAHSFSYTENKIFAPWPNCQVFGLNAKTGEIEFRLKTPTCKDLEGNEGLFKGLQSSGPVFDTNNRVLIYGTGGREAVEGGRGAFRGYNLDSGELLWTFYLMPPQDVGDPEWTIRVADKGWIQGIRATEIPENILRNDWGECPDNCGFGKGDMGIGWGQWAVDEDNGVAYLATGNPSPSWNATYRPGPNVFSNSVLAIETKTGNLLWWHQIVSHDLGDLDCSWNTVLANVDGINTVFKLCKGAYLYAMDAETGELLWSTDYYPHVKRGSIGPEPNFDFALDPMNKDDMNKPWVSYPNNEPNWRKESGGAESDVTFAYGKLFSTTYHKWSLQKITAVEPSMRNSWGRISVYSDQELAANATVWAHDAKTGELIWKYDIDNVGIRGGVTVSGGMVLFCSTDGTIRALNADSGILIWERFQGYQCPVQPVLGADSDGNIKIFTLIGSGGILGRSEPIPGALLAYGLSENYNSNIEKNVEKEIIKENQQVEEVIITESIITEDNFTYSTIELMGLLFLTLIIGISIGYIIKNKLM;locus_tag=LOCUS_3770;gene=xoxF;EC_number=1.1.2.8;note=WP_002719727.1 methanol dehydrogenase (Rhodobacter sphaeroides 2.4.1) [pid:22.8%25%2C q_cov:87.9%25%2C s_cov:93.0%25%2C Eval:5.0e-26],MGA_379
sequence02	MetaGeneAnnotator	CDS	86817	88841	.	-	0	ID=MGA_380;product=methanol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532070.1;translation=MILFSIIAQSSEIQALYNQGNWEFINHNVRGTNYSPQNQINADNAHMLELKWTFPIPAAEFNEQEGISLTEGSMTPPLVINGTVYFTTNMRDTYAIDSSTGNLKWVNTWDFDWQEAYRKLPITGGALHVHGLNLINGKLFPSTVACSILSINPEDGEIDFELNDTCRNIEGNAYDWDLYIGPGLCGLSSHPGIEYSNIYVTQICGADSNWGGRAFIDGYNLNIDPPERIWRTFLAPPAEGDPEWALHECDKGWFFSYPEWKKNGRLGIPCNEVPRENLINDWGVPKHYNSAVGLLWGQMALDQETGIVYFGTGNQGGWVNNTYAIGPNLFASSIVALNATSGNIIWWYQTVPRDMVQADTAWNTVLTELTINGEKKKAIIKYSVTGLLWALDAATGEPLWIYESPLLESRTSEDGIPRGRTSGHPCIGCDPNTQDGYWNNVMSYYDMHEKKWLNYPSKDWFYIIPLRAGEADIAYNEKEDIVILPLSLGWDASVKAGNHKGIGVPPGEYNLNYPKQKQNTTILAIDANTGEEIWSYFIDGVAFRGGIIATEDLVIIPAADGNLYILNGITGELLHKIFLNTPLTTQPTIGRNSDGDFQIYIINGGRGREEVGGLSHNQIPGSLIALGISEEIEIQENIVNEPSEEIGSVRFTTIFLIILGILSIIILTAYRRRR;locus_tag=LOCUS_3780;note=WP_013532070.1 methanol dehydrogenase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:22.3%25%2C q_cov:89.8%25%2C s_cov:85.2%25%2C Eval:5.9e-19],MGA_380
sequence02	MetaGeneAnnotator	CDS	88920	91112	.	-	0	ID=MGA_381;product=methanol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532070.1;translation=MAIPSGERAERNWEFVNHNSWGSNYSPQNDINKENVNMLELKWIYPFPLASEFLRYQSGGIPFEGVITPPLIVDGNVFVSSNMRNVYSFDGKFGDLNWLNLYKHDWNKARADLPEIAGGAPHIHGLQYVNGLLYSSTLNCSVQAIDALSGELSFEINKICSNVEGNNYSWQSYNGIGKYGSPSHPGPIFQKENILIVAITGATASWGGGRAFIDAYDLDFDPPKRLWRKFLAPPAEGDPEWALHECDKGWFFSYKQWKEEGKLGIPCIDVPRENIMNDWGVPKHFTSSVSAIWGQMSIDEETGIVYFGTGNQGSWPNQTFVTGPNLYAASTIALDVMTGDMVWWYQQVPRDMVEGDSSWNTVLAKLTIDGEEKKVILKYSVTGLLWALDAATGEPLWIFESPLLESRTDPDGAIRGRTAGHPCVGCDPNTQDGYWNNVMSYYDMHEKKWLNYPSKDWFYWIPARAGEADIAVDMDKQTIFLPVAGGVDKAIKAGQYGSLGDKPGEDYYLDTQPKNVTLYAVDAITGKVKWSYFIDGVAYRGGVMSSGGVVYLPAADGNLYMFDADNGQLLDNIFLSNSLLVLPTIGKTIDGEPRLFVISGGRGAYAIGGITKQNIPGAIFSFGLPDNYSEKRNESASSGVDSLCEAGVRIDCVEMPAPAAPADPASPVPVEPEPEKQEQEEKKAESRILESDSVDNYWFDEQFYNVLLGSVVIIIIGISIIKIIKLTNKI;locus_tag=LOCUS_3790;note=WP_013532070.1 methanol dehydrogenase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:23.2%25%2C q_cov:84.5%25%2C s_cov:85.8%25%2C Eval:7.7e-20],MGA_381
sequence02	MetaGeneAnnotator	CDS	91235	92803	.	-	0	ID=MGA_382;product=tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496733.1;translation=MKILAEDLGLNQSLQFKNLQELKKEIVKNKKMDHIPSNSEIFDILPKNKRKYYSQILKIKPTKTASGIAVISVMTKPYNCPHGVCIFCPGGEKIGTPQSYLPTEPATIRALEVEFDPFNQVKNRMIQLKSIGHEIDKVELLIIGGTFMNLPIDYQENFIKSCFDALNGRVSNNIKTAHKIGEKSIVRNVGLSIETKPDWCKEQHIDSVLSFGATRIEIGVQTLSDEIYKHTNRDHTLKDVIESFRIAKDSGFKIVAHMMPGLPGSNFNKDLEDFKTLFSESNFKPDMLKIYPTLVVPGTGLYKMHQKGLYEPYNTQTVINLLTEVKKDIPQWVRIMRIQREISKSEIEAGVDKGNIRELIIAEMRRKGYKCKCIRCREIGLKQLKKGFEINHKDVKILKKKYEASKGYEYFISAEEQKSESLIGFVRLRIPSILAHRKEIDEKTALIRELHVYGQLIPLGKKDNSSWQHKGMGSKLMEEAEKIAKEKESCNKILVISAIGTREYYKKLGYHLQGPYMEKYLR;locus_tag=LOCUS_3800;note=WP_064496733.1 tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3 (Methanocaldococcus jannaschii DSM 2661) [pid:46.8%25%2C q_cov:99.2%25%2C s_cov:97.2%25%2C Eval:2.7e-133],MGA_382
sequence02	MetaGeneAnnotator	CDS	92921	93532	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRYVILLLMFVLGLSSGLASSYIVFYPQINSLNTSINTFAQLQIKQDDVIQSLELSNTLLNEEINLLKLNNSHLSDQLNETQILLEKLQNSSNQIVNFENPIEPLQDPFLEIVDNFQNSEIIINNRTAYQVTGTIVNYNTEAAENIQVQITWWVLSGCGCDSLPQRSEIITIKSIPGRSSLNIDETFHFSFPKFQFLRIEIL;locus_tag=LOCUS_3810;note=MGA_383
sequence02	MetaGeneAnnotator	CDS	93644	95917	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRHLIASLLVITLLVAAAIFVMAPKASAQNVAPALGSTRAERNWEYINANSWGHNFNPQTQLTTENIHLAEMKWVFPIPDADSIGCTNLNGFCGTGSIAPPLIIDGYAYLATNYQTIFKIDMETGAQVWYSERTADGERTDIIGEQVQFHRGLNPPGLPVFSLSAHTHSMNAWELNGEMVLWLNSFGCTIKGISADTGEEVFTLLEHCRNVPTNSGLYNSQGSHAPVIDRSHNQIIVAVGGHMEGSYGGRAYVAAYDLGACSSFPCTIDATTDTHLNWRFFYQPPNGELFPDEYKAWGEWLVDNCAVGWIEGVNSCDVPADVLRWDWAGMPGTYNENTGMPFNAGVSNIWGEIVVDEENGRVYFGTAQPGPDFNTTFTRGPRLFGSAIVGVNTADGSLGWYFQSSTKDVWDMDCSWNTTLMDIDGQRTVIKQCKQGHVHAFDAASGDPIWITEVPGVHFSKYYCNAACDNGAGPNNGLRGRGVLHSVPLGIDGLGDNAKNWAFLDMRVPADVLKPWQSHPAPQSESFWQNPNGSGCAENDIAFDGDRVYVACKNEPVYIRAMNVDFRCHAFTGCFMDNRNDDAPFPRQFNHTVTAIDARTGEVKWDFFVDTVAHRGGVIASGGVIYWNGFDGKLRAVDGVTGELLHQFNFGTALDTQPTIGQTADGQTRLMQSYGGRGLTSQVPSLRGSVPGALTAFGLPDQLPEGVSREVEVREVIKEVEVPVETISPISYVAIGLGVVLVVVAGVLFTRSRQTT;locus_tag=LOCUS_3820;note=WP_011337648.1 quinoprotein glucose dehydrogenase (Rhodobacter sphaeroides 2.4.1) [pid:31.5%25%2C q_cov:20.2%25%2C s_cov:21.0%25%2C Eval:1.8e-11%2C partial hit],MGA_384
sequence02	MetaGeneAnnotator	CDS	96013	96312	.	+	0	ID=MGA_385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIITIGSQAFISGFMLSGASGIHVKNSSDALKQINSLLTTKDIGLVLISNEISKEIEDELNDIRSNNPTPLIYSIPGPGSKIDQVDYRELIKKVLKMS;locus_tag=LOCUS_3830;note=MGA_385
sequence02	MetaGeneAnnotator	CDS	96318	97499	.	-	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTENEIRDALTNVMDPEIHMNIIELNMVKKIQIKNDVVDVLIALTVAGCPLADTIKRDVKNELIKLQGINKVNADTTVMSKEELSILKTKVQKKSGKSEKDLIGRLEKKNNENIIAVVSGKGGVGKSLITALFASELKRSGYNVGILDADITGPSQAKIFGVTKRILKGRNGMIPAETSTGLKIISLNLMLDDPERPTIWRGPIINNLIRQLYSDVDWGDLDYLLVDLPPGTSDASLTVFQSLPLSGVVIVSTPQDLAKMIVSKSANMAKALNIPLIGLVENMSYLSCKKCGERNYILGESESQKFADKLGTKLIVSLPLDPNVAQLCDNGKIEEYQNKIIKSGIQAVENHVKKYADKTEIEAIIGSAGKKLSSAWNDSEKRENKKFKLTPM;locus_tag=LOCUS_3840;note=Q2RHY3 iron-sulfur cluster carrier protein (Moorella thermoacetica ATCC 39073) [pid:55.2%25%2C q_cov:56.7%25%2C s_cov:79.9%25%2C Eval:6.7e-67%2C partial hit],MGA_386
sequence03	MetaGeneAnnotator	CDS	816	2870	.	+	0	ID=MGA_389;product=methanol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010975084.1;translation=MQKTSILIFIIIISVLISLNIRSISSDAIEDDGFNSIAPNYNYKATGFNPQTQINKDNVNNLELKWIHAWPMPESIEGIQPRVGSIANPIIVDGIVYNRMEDLRMYAIDAKTGKEIWSFQAPPYLVNIERAKKDLPINLDFYPSLSSHAHSFSYTEGKIFAPWPNCQVFGLDAKTGEIEFRLETPTCKDLEGNLGLFKGLQSSGPVFDRNNRVLIYGTGGREAVEGGRGAFRGYDLDDGKLLWTFYLMPPQDKGDSEWTIRVADKGWIQGIKATDIPEDILRNDWGKCPDNCGFGKGDIGIGWGQWAVDEENGIAYLATGNPSPSWNATYRPGPNVFSNSVIAIETKTGNLIWWHQIVSHDLGDLDCSWNTVLADVDNTKTVFKLCKGAYLYAINAMDGKLLWSTDYYPYVKRDKIGPQPNFDFALDPMNKEDMNKPWVSYPNNEPNWRKESGGAESDVTFAYGKVYSTTYHKWSLQRITSVEPSMRNAWGRISIYSDKELPTNATVWSHNAKTGELIWKYELDNVGIRGGVTASGEMIWFCDTDGVIRALDAENGKLLWERSQGYQCPVQPAFGADSDGNIKIFSLTGSGGILGRSDPKPGALLAYGLSEKKVNVHEEQETIEVIIEKEVLITKEIINPLSYFILGLSLILIFISGFIFVKSRKNIQLQNNHRENCLHLNYGL;locus_tag=LOCUS_3850;note=WP_010975084.1 methanol dehydrogenase (Sinorhizobium meliloti 1021) [pid:24.2%25%2C q_cov:75.9%25%2C s_cov:80.9%25%2C Eval:6.2e-24],MGA_389
sequence03	MetaGeneAnnotator	CDS	2878	3510	.	+	0	ID=MGA_390;product=phosphoribosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_085984864.1;translation=MFKDRCQAGKKLADKIASNNYPNPIICAIPRGGIEIGFHIAKKLNCRLYTITSKKLRAPNQSELAIGAVAQDGTIYTDDVLIKSLDITESYIENEVENQLSELSSRNNIYKKFNYEKNIENDTVILTDDGIATGSTLKATILSLKENHVKNIIIATPVVANDTKTELRKLVNEIIALNNPTVMYSVSSFYENFPQLTHEEGIKMLQEYLI;locus_tag=LOCUS_3860;note=WP_085984864.1 phosphoribosyl transferase (Methanosarcina acetivorans C2A) [pid:34.6%25%2C q_cov:98.6%25%2C s_cov:95.9%25%2C Eval:7.7e-32],MGA_390
sequence03	MetaGeneAnnotator	CDS	3526	4293	.	-	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATLTKSDRTKVAAVFFLIGIIGVVGIITYPSVPSFPDAEIINEPIRVEVPSQQEEPREGEPVVVVEAEEVVEEEQIISGEHPQQDLLRQTIDEFHNAFASRDSTKTLTYYSQAGANAQWLGQAGAFKGTYKGYNNIRILIATILGNTIDIQINMQNYEVTFLGDRATVVHTLVNTGHGKLIGEFTMEIYAVTVWEYIDGKWFITDDTWEFIYFETEVVAEGTVFPLEWYRFGDYSVLGKNVLISYEEFGLFSNP;locus_tag=LOCUS_3870;note=MGA_391
sequence03	MetaGeneAnnotator	CDS	4296	6308	.	-	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINYDKYGTSHNPQSIINRDNALNLEMKWIFPYDPSTYPKIPGASTYAGSGAPVIIVDGIAYSATNQRALIGVNTETGKIVFNCVPGAKNSKGDVMCGGIPYDNDETQAQYGHVKGLLAHTHAVNYYRDQDIIIPSMQACQIDGHHPLLGDVVFQLLEICGTEEEAKAWGNQGYYASIGTHPPQFYGDIMIVPVMGSSGNGGRSFIAGYDVSDMDNPIRLWQTFLVPPSEGDPEWALHECDKGWFFSFPEWKESGRLAVPCSEVPRENLMNDWINPQSSRNDVHSASTIATIWGHYLVDEETGIVYLGTGESGPYPNALRRPGVNLYGSSIVALDATTGEFIWWYQSVPHDMWDYDCSWNAILGDVAGKKAIFKGCKNGFMYALDAATGEPFWIFHPPSAWLPQPGMAYPDPKNIEDLQRAWPTSHVGEPPDNLTFLSSNYAGVLEADMAYDGERLYLGSYNMPIKVCVPEYPEDFGNTLNMCVAGEHPTNSTIYGLDANTGEELWSFFIDGAGFRGGLTVSGGILYVPSGDGTLYLLNSETGEVISTQYFGIGLWTQATIAADSLDNMKVFIQTGGQSIASWGIRGVPGAMITLGLSEGSGLVSEVAQVDPADVPSQPVQVEEVVTEIETIKTETVISPVSYLMIIISFIILAISATLFITSGNWKLGG;locus_tag=LOCUS_3880;note=WP_003895174.1 alcohol dehydrogenase (Mycobacterium smegmatis str. MC2 155) [pid:31.4%25%2C q_cov:28.4%25%2C s_cov:26.7%25%2C Eval:8.0e-16%2C partial hit],MGA_392
sequence03	MetaGeneAnnotator	CDS	6569	7162	.	+	0	ID=MGA_393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGNNEKFNLPIIIVIFAVAILFLYLLNTPSPFEDIENNEQVIENNEQVIENREPVVNEEPVPGIIAPAINEDCPYGKELKNTPENPMTYVCKLITLENGGEFGDVRLTINNERFQSPIQVKKGTTVTWVMNDKNVVDDGGIPSYYQVYEVNGLFDSGKLFFSEDNSKFSYTFNELGEFEYYCPAHPIMIGTIIVVE;locus_tag=LOCUS_3890;note=MGA_393
sequence03	MetaGeneAnnotator	CDS	7258	9513	.	-	0	ID=MGA_394;product=alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003895174.1;translation=MTRHNLTIVGLLVAVLLALSSFALVVNAFDPGGPPGGGGVPKVVTGNWEFINYQPTGGSYSPQFEINNENAQWLEMKWLFPYTEVDNTWSNAMGGSSAPALIVDGVVYVVKNTQALHAVDAKTGDEIWFSDEPANTWDSEAIAAEFPFFSAQWGHTHAMNYYRESGWLISSNTPCLMTAWNAEDGSLAWSIGVETLCGTVAEYGTPGGAIGTLKSKGRLSSVANHPPAFSGDTMIWPIMGASGGGGRSSVKGFDMSDPNNPVELWNTWLMPPMDGSQKSWAIDVCNEADGNGWYFSAPDFFESGTLAINCKDVPDEAVENDWINLKPGTPHYNEVHSASAMSVVWGNMPVDAELGLVYLGTGDVGPYSNASYRFGPNLFGSAIVALDVDTGKIAWWFHSNPHDLWDWDCSWGGLMAKSQGIKTLIKGCKNGMMYALNAATGEPVWVWEAPTTWRTAPGTNYGMDKDGNAGADGEACCRMTFDHMNKDWLNAPDPEPVIWNPWLAGALESDMSYNGKYIFVANYNDARWTTTGNVIDFGNQASNIQASGHPVNTTIYAVNINTGEADWSAFIPDAGFRGGLMSTGSVVYGYAGDGNLYMFDANTGELVHKRFFGVPVSVMPTIGADSDGKHKIFLHVGGGGGFVYGNTAVEGSLVALGLPDTLPSSPEPIIQIEEREVERIVEIIEEVVVDKEVEVERIVEIPVEVIKEVEVVTEVTVPGGQSISPISYIAIGIGVVLIVVAGVLFQRSRST;locus_tag=LOCUS_3900;note=WP_003895174.1 alcohol dehydrogenase (Mycobacterium smegmatis str. MC2 155) [pid:24.6%25%2C q_cov:81.8%25%2C s_cov:92.2%25%2C Eval:2.7e-20],MGA_394
sequence03	MetaGeneAnnotator	CDS	9621	10091	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIYFIIIILSLPLIQATDKESTFVIISVSDENVQNNNLIEITAKLQNSKGEQIEKQILTFFVNNKIFANRLTNNNGLAQIQFQAKEDIYKVQVEFEGSDFYQESKSEIIIIETIKENNVETEELPIEIIVMISILTLGIAGTGILYYLNKNSKR;locus_tag=LOCUS_3910;note=MGA_395
sequence03	MetaGeneAnnotator	CDS	10106	10942	.	-	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808202.1;translation=MTSPFAMILRKELKDSLRSKWLITFGVTFFFLALGVPYIILGAGGLLPSDYPGMVVGTLITLSVPLVPLVSLAMSSTTIAGEREVGTLEYLLAQPATKLEVFMGKYLGLVISLSLAMLLGYGGAELIVYSTNPEFIASFLFAMAYSLLLAGAAVGLGFIISVSVKTRAAAIGSGLFLWFILVIIYDSGFLGVITVALNANALLIPLTLANPVETTRILALMHMAESPLRGELGPQASYLLAEYGSIVASRVLLAVLILWVIVPVTISYLIFRRQDASN;locus_tag=LOCUS_3920;note=WP_005808202.1 hypothetical protein (Desulfitobacterium hafniense Y51) [pid:34.3%25%2C q_cov:96.4%25%2C s_cov:96.8%25%2C Eval:4.4e-37],MGA_396
sequence03	MetaGeneAnnotator	CDS	10942	11862	.	-	0	ID=MGA_397;product=ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250530.1;translation=MSTNIIVDATDVTKQYGDFKALENLSLQVERGGVWALLGPNGAGKTTFLKCLLGLKEFTGTITIDGIDIRKNPKASKMLVGYVPQHPTLYNDLTVQELLRYFGDMRNVKRSRIRELLEFVGLELWARQSVGALSGGMQQRLMLAVALLSNPPILLLDEPTANLDVRRQLEFRNLISLLVEEGKTVILTTHLLGDVDHIAKKIMLLNKGKLVTKSSVEDLFKQLDLSSQMFIELSDPSKEPDAISALEKAGASDITVKGKWLEMGIDPSRKLSVLNNLRAADCEIKDFKIEEPNLEDAFMKITSGEN;locus_tag=LOCUS_3930;note=WP_011250530.1 ABC transporter (Thermococcus kodakarensis KOD1) [pid:34.8%25%2C q_cov:97.7%25%2C s_cov:98.0%25%2C Eval:2.3e-45],MGA_397
sequence03	MetaGeneAnnotator	CDS	11916	13415	.	-	0	ID=MGA_398;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012066912.1;translation=MSSNISRRKFLGLAGAAVGLGAAGYYGLGFNQNQAIEPGVPVVNDRTTRLALPKNPQNYLPEEYLDFIKWLESVSDKIAGTHLRIAIEAEVGPRALHRNRIDFTSSTGTELLMEFDIYRNNLSKCLLAISTQSPTYDVMNVDVSQVGRFAPHLLSIEELMTQYPDLTYPGLNIEDFVAPVKNFTCTYPPTLAEPWNIDFNGVFTQFPQEVPLMIRFFRKDLYSEEGLEVSTTWDEYLDDIKHFHDPSRTRFGTVLMAAKFPSIVMEFHNWLYSFGGKLWNIEKDGSVTSDINSDVAVAALEHYLEVSKYAEPNSPFYGWAPAAESMSQRRAATCINLTEFASLMDIPGESYVVRDIGYTRNPVGDAGASHHYSGAGLAIPKYSNHPAAAWVFIQWATIAPTQLIVATDPWSLGVPTRKSVFDDEYVKELIAEGTIRHFGAVKNAIDSGEINIKPGFPKWDTVEGELLTQLNGVIRGQLSPRDALNIVQKRAEDMGPFTF;locus_tag=LOCUS_3940;note=WP_012066912.1 ABC transporter substrate-binding protein (Sinorhizobium medicae WSM419) [pid:25.9%25%2C q_cov:81.4%25%2C s_cov:81.3%25%2C Eval:6.3e-36],MGA_398
sequence03	MetaGeneAnnotator	CDS	13511	14626	.	+	0	ID=MGA_399;product=iron ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016302.1;translation=MTELTIKKLTKKFGNNVVVDNISFKIPSEKFVTILGPSGCGKTTVLRCIAGVEKPDGGTINLDNKVLFSKKDNILIPTEKRGMGMVYQSYALWPHLTVFENISYPLQIRNISKDEIKKRVMDILKMVRLEGLEDRLVPNLSGGQQQRVSLARALVYNPTVLLLDEPLSNLDVVLRDEMRTELKDLQKKLKITTIYVTHDRTEALSLSDYIIIMDKGIIKASGSPIELLKKPPNSHAGIILGDMSLISGEIVNSSDSTIDIKIGENILSCNQDKEFDKKDNAFVLIRGTEVIIHNTKRSDSNIFPAKIKSATYAGQVIEYKLIINDQIIKVAKNIEEFITSSDASNHKHSLHEVGKEVFIEIPAMACYLVNE;locus_tag=LOCUS_3950;note=WP_011016302.1 iron ABC transporter ATP-binding protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:42.7%25%2C q_cov:93.5%25%2C s_cov:94.1%25%2C Eval:9.8e-73],MGA_399
sequence03	MetaGeneAnnotator	CDS	14686	15828	.	+	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDLTEMERAAKADGKLIIYASLRGVLQNSVKAFRKKYEHLNLHVEYVSSHPVPIERRIEVEAEAFKNLDQTGDNRHINPGTADVVIMPQFMLIQMSKKGLLRECNSYIKKTHLKLWPDVIKDESATWAAMAVEPTGVVYNDALFKNLYDDKGGLDYLPTTFDEYVDPKWSEVNGKVGIAGQKIQSSHCIQSLVRFPEGKMGFYYLISLKEHIGESKWTELMKMMAKNVAPSTYECLLHMTHNLGLGQHVFGLPATLRKQGMGDDYSYMREGGLKPLVLTDIPPSAIARCAGLTSAGKNKGAGELFLNFIFSADWQNELGRTLDGMVPARPGTVTEYWVSQALDKGFIHYPKPEHVDKENDYVDEFESLGLGSTLPKGIG;locus_tag=LOCUS_3960;note=MGA_400
sequence03	MetaGeneAnnotator	CDS	15898	17682	.	+	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLILVLLISSIPIAISQNLEFNWIKPAGDVKNTNFHPQDEINQNNVDNLVLSWIYQVPEDPFKIPYVAPSLGLQTAPLVVNGITYITTFYNRVIALNAETGTEVWKYQVDVMEFVDEEWWWPVLSQKSLTYHDSVIYFMASDCRIIALDAINGEEMFVIKDVCKDVEGNTGLYFGEHAPIVFENVLVARPSVQDGGGRGFVVAYDINTQKELWRWFSIPPSGGDPEWDFKDADKGNIKPYLGDWGDTDLIGGGAIWSMFALDEETRTIYFSTGSSSAVFDASLRPGPNLYASSIIALNIDNGEMKWYYQVAPHDINDHEVGWSVILAETEINGDVKKVIMAGSKTDHVFVLDAETGKPVHKPLMLGNNAFNVPNDDAGNDADLTISQKFLVGKSFCPGGNGGIEHAGAFSSGMLYYVSQKVCWTVTEGPVNYKGKDIQGFVYGAVPGERQNSTLFAIDVSDMSVKWVFEIPNRYQSSGVMISGGVVYLVDRASVMYAVDVETGKELRKIQWGGLGAGTVTVGATARGEMMLFVPSGGGQVAANTPGIIAAFKLPDNGGDQTSIIGNVRENIFILISVLAVGIAIYSVYNNNRSR;locus_tag=LOCUS_3970;note=WP_014537605.1 pyrrolo-quinoline quinone (Ketogulonicigenium vulgare WSH-001) [pid:29.6%25%2C q_cov:81.5%25%2C s_cov:68.3%25%2C Eval:1.3e-41%2C partial hit],MGA_401
sequence03	MetaGeneAnnotator	CDS	17686	18474	.	+	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGKISNNYSVRLFSPKIITFLMTFILLFYLLQLVQSAGIGPSGGGVDDSLAGLGDSPAGFGNEDVYALEVNLIMKEEVEPYVYPIREQLVEVFWDMKDLESQEMQEFSVSATTDENGKAIFELFPGTYILRVDYQGTSKNETVIVNPNIENKIDWIISRYVIPTYNLEIRDKNGGIVYPKEIIKIIYEGPPQLTDPSNIQLLSDKSTTNKILNFEILSVINRGKVSIIEISPKESFLIANFTPEDPPQTIIYSINIDKSRS;locus_tag=LOCUS_3980;note=MGA_402
sequence03	MetaGeneAnnotator	CDS	18480	18959	.	+	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIISSLGLIQLMIATSIALAVVIVWGVYYPKINRQKKEIKHIKEISFGSNEMFEQLNYYNSSGNFNEGIVFAYNLLRKNLSSMEKYPNDESLTEFETIKKTSSDVSELSNVSSLLMSAYKQYELARFRAKTNSKNLDIMNKILRNITKNNNFIIQVGE;locus_tag=LOCUS_3990;note=MGA_403
sequence03	MetaGeneAnnotator	CDS	18969	19298	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYILFIISISTVIVVYSFIKSRNFDVQIQNNLHSFTYNAFLDMNNNNPNYYRLTEILVKDLNNVKLNHEIINQKDFGTIAKSEKMIKKGFVDERMFAKIKFLHSMYIEK;locus_tag=LOCUS_4000;note=MGA_404
sequence03	MetaGeneAnnotator	CDS	19302	20270	.	+	0	ID=MGA_405;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250797.1;translation=MIKLLANEIYKRINDQISEKIIGKVFETKLLTIALLSEGHVIIEGVPGIAKTLLAKSFANILELDFKRIQLTSDMLPSDITGTFVFNVKEQEFYFRKGPIFTNVILADEINRGIPKTQAALLEAMQENQVTVEGQTEKLPQPFIVIATQNPLEMRGTYPLPEAQLDRFMFRIIMDLPEKEEELTILEKFERGEINQEFDIISADILAAKKEISTKITLSKEIKEYIVSIMRTTRTQSEKINLGSSPRASLHLLQACKVCAALDGRDYVTPDDVKLLLFPLLNHRLIINPDYLLRNANPAKLIDYSVIKELITQSTANIKPPR;locus_tag=LOCUS_4010;note=WP_011250797.1 ATPase (Thermococcus kodakarensis KOD1) [pid:50.9%25%2C q_cov:89.1%25%2C s_cov:91.2%25%2C Eval:6.4e-78],MGA_405
sequence03	MetaGeneAnnotator	CDS	20267	21565	.	+	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDLITRRGYSILSSLFVFVGISIISGELIFATISMFLFSIFFVELLIFLFTISQLSRIKVIREISKKRLFVGDSISVKTILQNDGYRNIGIVKILDDIPDEFQQLGKINNYTLNLGPGEKSEFEYKLEAVQMGRMNLGKLSLYLFDKFGLFYKKRIIKENNFISVLPNVRIGRGNIESNIHLGSLSTSTKTDPLGSDFSGIREYSSGDDYRKIAWKYMAKSSIQEPKIKQFELEQKIDVNFVILNSKHMNDGDIGKRKLDRIVQTAITISSVVNNAGGKFQVIFSERNKPAVISGSVYELCNYLCQIKIDESLEPEKLINHALNYTQRSSILLIVVDSPFPEKIKIEDYTRRFNNKSLVNIFILDTASFITQNIIEKSSKHISELLDNERNHLQEQVNQIRQNNLTVDICTKDNIARKIVESFTTTQLLVE;locus_tag=LOCUS_4020;note=MGA_406
sequence03	MetaGeneAnnotator	CDS	21577	22518	.	+	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYKLILFIGISLPYIIQFYSVGYHRFLFSLFSIIFSSNVYSFSVLMSIAAIFAIVYRLSRGPGSLQDSLIITTLTTPVVFPSLIMLFLLIFSIGEMPSQYLGSASNLYLVGIAAMLIVSPLLGVILHWFAMIKAQGSPIGHILYTMIILSLVNFVFFSSVSVDNINEQLIGHGTNIILNGIFIIKTIISNILQSEMPTVPSNLGNFQPNVNLIYSNTIFGISAALYLYFRLFKDHTLNKLNIDGFETKTFLNIDNIGKISITLILAILLNFVLILGFSTVFQSINLILKASILMLMSTFVITIIFYSYQGRD;locus_tag=LOCUS_4030;note=MGA_407
sequence03	MetaGeneAnnotator	CDS	22520	24190	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIITISILILILLIPLASSQMNEVNNFRIGYSPEKLFNSETGMPSYLAGETIWLHVDNSQTIELKNPQQNTVVKSEINENPTSIYEFKNNDQLGTWSLIVNEKTYQIELSNQQLDAQNNIVEFAFVNKSLEVTGSIVPNFKGIPSQSEVIISKKRDKDSIIIPTKLSIEDMITIINIEYQMEGNEARLHIQPYLGQIGNKEEYSEIGFYNIYTWAELTSEVTLVKKTGNSRFITYLDEPITESTRTYLPITNTPQSGLNITIPSLGNIDKPWTIPLKYGKTLLSIYLEFEGQLFVNRIPIIILEDKIIINPDLIIPTESFGETINYKGILELESDMDIDFLLISKINGIDKIFYFSEKPSISTIQITNELDNKRIENYKLTFEQNIESIKINGTTYLVSNNILVNPTLVINSFQMNKQDINPSRIKLEEGATINILANIGIANIQLIDSIGSLSGNGELTIQRLDVNKDEIFIIEWNGENVEILLPKGKYSAKLEIDGRQGETEFEIDREKKDVIIFIDSLFGVSTGILMFILMTIITVEIGIIYSVWKRNLRIN;locus_tag=LOCUS_4040;note=MGA_408
sequence03	MetaGeneAnnotator	CDS	24191	25321	.	-	0	ID=MGA_409;product=citrate (Si)-synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903548.1;translation=MVQHSNSFPKGLADVVISDTKITSIDGKSGKLFHYGYEISDLAHNSNFEEVTYLLFHGNLPNQSQLEQHKNLIYSYRNVPEQIINLINDFPSDVNTMDFLRTVISYLSTFDPDIDDDSPEANMSKSLRLLAQMPTVLSYFERIKNNLEIIPPDNNLDYSSNFLYMIFGDSPDELAAKTLDQCLVLHADHGFNASTFSARVTISTLSDIHSAITSAIGTLKGPLHGGANESVLKMLNEIQDIENVSNYISKKLAQKEKIMGFGHRVYNTIDPRAIVLREMSKNLQTKFGGNLYDLSYCIEQTVLEKKNLKPNVDFYTASVYSMLNIPSHLFTPLFACSRISGWCAQILEQLSDNRLIRPRARYVGYEPRDFVALNDR;locus_tag=LOCUS_4050;note=WP_010903548.1 citrate (Si)-synthase (Halobacterium salinarum NRC-1) [pid:45.6%25%2C q_cov:98.9%25%2C s_cov:99.7%25%2C Eval:3.2e-95],MGA_409
sequence03	MetaGeneAnnotator	CDS	25404	25841	.	+	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKIQNLVIDLSMFSVGLAFTIAGSALTNGRWIMLVIGLILLAIPIKRSKNLENFSKIKGINEKQIDVRIEKESCMGVGSCVVIAPQVFKLDEASLKSSFMSYAPLELLNKKGASNQTIFEAAQSCPYKAIIIEDKTTKKQIFP;locus_tag=LOCUS_4060;note=MGA_410
sequence03	MetaGeneAnnotator	CDS	25925	26497	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSRIETEKVATWFVYTAIINTILSLLYVTVFLLPDTIGNGHIPPSGDLFSLSVAVASFPGTWLLIAFFIHVFVGILGMVGWAGAYYISSRVMNKRTTNKLLARGHLVLTALGVYVTTTFFALAGFIGGRAMLPETACIVLQDQCMGAGAAIVQTLIKFTVIPTGAGMGIALTGTAIGIINILITLRQEQ;locus_tag=LOCUS_4070;note=MGA_411
sequence03	MetaGeneAnnotator	CDS	26507	27004	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDLIETKLVSKYFFILALVNTFAAICFTLPILNPTSGLPLIIGVFPGTWLLVGYFVFLIVGILGMLGWSVVYSLMPSMFNKKDTSKKFSIIQIVFVELSIYGVATTISYIGWQGGQALRQGLSIASVGFLIEPYVLPTGVFVALALVGQLIGIFNILTTIRMKQ;locus_tag=LOCUS_4080;note=MGA_412
sequence03	MetaGeneAnnotator	CDS	27005	28567	.	-	0	ID=MGA_413;product=thermosome subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867141.1;translation=MNKRTIGDGPISKLNPSQQNLFDASKLIGQMITKSFGPFGLEKLTVNNYGDAFIIRDGKSILEKANLDHPIAKLMLDLAETITKHVGDGSMSAILLTSFLLDQARINIEKGIHPNTIIDGYEKSLEFSLDILDSIRFPIETRSQWHNLVYSSLSSKFGKNESEKLSRLTVEAISSIDYNFRDYTSPDYVNIVSNGGDSILNSRLIDGIVFDAEPISESSRQSLSSAKIAILYSPISISNEGMKKEITINDPTLLGQFKKSEKEILFDCIQRVVDVGANVLFSHKTIDDLLISRLNDLGIFTVKRVPLKYLEMIEKSTGALMVNNPKELTKNKLGHCSSITSMIMYDKNWIFLNNGSKHKSNTILIRTQTQRYSDLYEDLLNRILLLMQTSIKHPYYVFGCGWFEFILAAKLRSFSHNIDNLHQLIIKSYSDSIELIPFSLALNAGFNNIDLIVNTRNLQPSEKKFIYLDLKNRKLSKARNPKIIESAYMKKQILISATETAISILRISDVYRTVSNQKPK;locus_tag=LOCUS_4090;note=WP_010867141.1 thermosome subunit (Pyrococcus abyssi GE5) [pid:30.0%25%2C q_cov:95.6%25%2C s_cov:91.1%25%2C Eval:4.4e-64],MGA_413
sequence03	MetaGeneAnnotator	CDS	28564	30051	.	-	0	ID=MGA_414;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021662.1;translation=MSVSKSISYYLSEHKWLTLIVVNIATFLAPLDTGIVVLVLPNIARDFQTGIEIAIWVSVIYLIVLTTFMTSFGRFSDIHGRKKYFEIGLGIFVIGSFFSGMSNTIAELLIFRIIQAIGAALLLVNSRAIITDAFPPEERRLAMSIHVTVIYLAIATGPALGAVITEYIGWRNVFFINVPLGLFLLPIINSKLKESKKFVSQSMDWLGSLFFASSLSCLLVAITFGPKESWTSIDLYIEEILFPMFGNFHIWSRLTISIPLLLLPVLSLIFMMLFCLAEYRSKNPILDLRMLNQNRLFLSTNLSALFIYTSHFNAIIMISFYLQLIRLIDPIESAFMISAFPFTVVIASLAVGKYSKAISSRDLCALGLTIVAISLLLMSQININSSILFIEVSLIILGIGLSLFAAPNTNANLSSVEPEDRSLANGMLGTMRHLGQSLSLAIGASTVGLFLSEDIYNIGGSISAVQYVEGLSQAFFIGFIIAIIGIFISLIRGNK;locus_tag=LOCUS_4100;note=WP_011021662.1 MFS transporter (Methanosarcina acetivorans C2A) [pid:30.1%25%2C q_cov:96.8%25%2C s_cov:89.0%25%2C Eval:3.9e-62],MGA_414
sequence03	MetaGeneAnnotator	CDS	30109	30711	.	-	0	ID=MGA_415;product=proteasome subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762506.1;translation=MAMPYQVPGATAVGITFENGVVLGAEKRVSYGTYLVSRSGKKVFKINDKVGAAAAGMIADMNILMREVSAHAKILELETNQLLPPNSIAKLMGVIMYQQKWFPMMTQIILAGIENNKPAVYVLDPLGSVIPDEYATVGTGAELAIGIVESEYKKNLTEQEAVDLAIKSIRSAVNRDSASGDGIDILIITDKEIREQSVNT;locus_tag=LOCUS_4110;note=WP_011762506.1 proteasome subunit beta (Pyrobaculum islandicum DSM 4184) [pid:44.2%25%2C q_cov:95.0%25%2C s_cov:93.6%25%2C Eval:1.8e-43],MGA_415
sequence03	MetaGeneAnnotator	CDS	30737	31783	.	-	0	ID=MGA_416;product=ribosomal subunit interface protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867757.1;translation=MLRIDGSQGEGGGQILRTSISLSVALGEPIEIYNIRANRSKPGLRPQHLSVLQTIAKLSNSETHGLSLNSTKVSIYPNKLHSKNLNIDIGTAGSITLLIQSLIQAISISDKKYNFLISGGTDVNWSPSADYFRRLVVPLLETLGFSISTSIIKRGFYPKGNGQINFEIYSPKKLDNLLLVKPQFDNIVIDGILTSEANIPSNESKSKIEYQCQLTKNFLENHDILVDSINPSICNSHSNGSVICISSISSKSFIGSDILATKDIPFDKLGILCSKKFLFEHNSKCTIDHHLADMIIPLLSISKEPSIFLTSFISNHLKTNLEVCKLITGMTYKISKKNQFCYSITINP;locus_tag=LOCUS_4120;EC_number=6.5.1.4;note=WP_010867757.1 ribosomal subunit interface protein (Pyrococcus abyssi GE5) [pid:34.6%25%2C q_cov:96.0%25%2C s_cov:95.0%25%2C Eval:5.5e-46],MGA_416
sequence03	MetaGeneAnnotator	CDS	31841	32344	.	+	0	ID=MGA_417;product=nicotinamide-nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868691.1;translation=MIIGILIGRFQPLHKGHVKAIKFSIENSNKLFIIIGSSEKSHQERNPFTFEEREKMIELALSEEKLDNKIEIVPIKDAKNHSEWILSIKDVIEDYNVVFTNDELTEKLFRKNNTKVVNVTLLDRKNLSSTEVRKRIKSDNKWENLTLPIVADYLVKIDGINRIKSII;locus_tag=LOCUS_4130;note=WP_010868691.1 nicotinamide-nucleotide adenylyltransferase (Pyrococcus abyssi GE5) [pid:35.5%25%2C q_cov:99.4%25%2C s_cov:89.2%25%2C Eval:2.9e-29],MGA_417
sequence03	MetaGeneAnnotator	CDS	32334	33503	.	-	0	ID=MGA_418;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870473.1;translation=MNNSGHDSTLEKLIMLPGPTNVPVEVTKAMMAPSIGHRTADFSSLMKEVIRKGNLLFECDEDIILLSASGTASVEASITNILRKNDKAIVTVCGEFGSRVSEQISSVGASPIELVSDYGSYPSLSDLERALETNPDTKSVYIVTNETSSGAMCHWLKEAGDLTSKYGAFLVADAVSNWGADKMPLNDYNIDYIATGSQKACAAPPGIALISFSTKYKEQMLKDPQKLHYLNLPRYIKYATKFQTPFTPALPLYYALDKAFDLMVDEGMENRYIRHKICGQAFYDAFETMGLQLFGNPDTRSNTVISVSYPGGIDDKEFRGSLATQYGVVVAGGFGDYVGKIFRIGSLGIVNKYHVLTTISAVGNNLKRMGFDANLDSALESAQKNLAKL;locus_tag=LOCUS_4140;note=WP_010870473.1 aminotransferase (Methanocaldococcus jannaschii DSM 2661) [pid:41.5%25%2C q_cov:97.4%25%2C s_cov:98.4%25%2C Eval:2.3e-75],MGA_418
sequence03	MetaGeneAnnotator	CDS	33602	34420	.	+	0	ID=MGA_419;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978306.1;translation=MKNGDLILLNFTAKVKDTGDIIETTVEEEGKKIKKYDDDFVFKPILVAIGAGWVLKGLEEALVDAEVGIKIDLEISPEKGFGLRDASKTRLLPLRKFRDKADQLNIGSEIEVNGRIGIIRFIGSGRAQIDFNHKYAGRILEYNFTIVKKIEDIEEKIKEIIDRRIPNSKEKVDVKVEQNKAIISIPEEYFMLEGLQIIKRAIANDMMKYVDSVTEISFVEQFKNEKKETKDVEQSESTQETKDVEQSESTQETKDVEQSESTQENVNNKNEI;locus_tag=LOCUS_4150;note=WP_010978306.1 peptidylprolyl isomerase (Sulfolobus tokodaii str. 7) [pid:30.4%25%2C q_cov:82.7%25%2C s_cov:97.9%25%2C Eval:2.5e-29],MGA_419
sequence03	MetaGeneAnnotator	CDS	34424	35491	.	-	0	ID=MGA_420;product=NAD(P)-dependent glycerol-1-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_084207594.1;translation=MILNSVKKGHLMELPGRILIGYDIIQEFGNFLTDLDINKPMLFISGKKVQSVVKDNINTSLENFEFHFDWKVIDSATNQITDEISLLCENNDYGIIVGIGGGKSVDVAKLSSYNAHIPFISFPTSASHDGISSPFASIKGSDRPYSFVASPPKGIFADIKIISQAPDRLLSSGCGDLIAKITAIKDWELARDQIGERFGNYASSLSYMSSQILFDESLNLETNRTESVRNIVEALISTGVAAGIAGSSRPCSGSEHLISHALDIISPGNGLHGEKCGISSIIMSKLHGLDWQQIQNALRRINCPTNINDIGITADEMIEAINLAPTIRPDRYTILNKDVLDRDTINKLLSDTDCI;locus_tag=LOCUS_4160;note=WP_084207594.1 NAD(P)-dependent glycerol-1-phosphate dehydrogenase (Pyrococcus abyssi GE5) [pid:40.8%25%2C q_cov:97.5%25%2C s_cov:98.3%25%2C Eval:1.9e-73],MGA_420
sequence03	MetaGeneAnnotator	CDS	35534	35905	.	-	0	ID=MGA_421;product=DUF4186 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001191033.1;translation=MSNSIISYHLFKLNKSKFRSKFDLDIKEYEYMNKHGLDEITKHARKFIIDRLSPAFPFNDGKQTPFKNHPVFIAQHATATCCRKCMNKWYNIPKGVILTSTQIDFAVELIISWIKLHLPTQFD;locus_tag=LOCUS_4170;note=WP_001191033.1 DUF4186 domain-containing protein (Shigella dysenteriae Sd197) [pid:52.3%25%2C q_cov:87.0%25%2C s_cov:89.9%25%2C Eval:6.5e-29],MGA_421
sequence03	MetaGeneAnnotator	CDS	35969	36634	.	+	0	ID=MGA_422;product=translation initiation factor 6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877219.1;translation=MDIIRFNVYRNPNIGIFFRANNKSVLSPPGLASSKISQITKHLKVSNTTLTIGGSKLLGVLTMMNSNGIIVSKLIEDFEEEILKNETGLSVQRLKSRFTAVGNLLAANDYGAIISSLISEEEAERISKNLKVPVKRMNISSMYLIGSMINATNKGAIAHPIINNQDLKIIKEILQVEIENATVNSGIPYVSSGIISNTKNILVGSQTSGPELVMLSRAFGI;locus_tag=LOCUS_4180;note=WP_010877219.1 translation initiation factor 6 (Methanothermobacter thermautotrophicus str. Delta H) [pid:35.3%25%2C q_cov:98.6%25%2C s_cov:97.7%25%2C Eval:9.9e-33],MGA_422
sequence03	MetaGeneAnnotator	CDS	36694	37116	.	+	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAEQQTQALLQQMKLLESYLTEINNRENISINAIMESRAATRAIEMLGNVDSKKFLFPIGSGLLVKIEDKPIFFVNIGAGITIEKNENEVKEFLKERIKDIEKSVETLNSQKKDMSQQYNSIRAALSNIVQGQQNVRQN;locus_tag=LOCUS_4190;note=MGA_423
sequence03	MetaGeneAnnotator	CDS	37100	38002	.	+	0	ID=MGA_424;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249604.1;translation=MFDKIRDTVSNISKIAAEKKISEKELEKIIEELKINLLECEIPFDLIENISENLKKEIIDKTFSRNDEFVEIIKNEFTVAIRDIFNQVNDINLINLIQTNKANPFKILIVGINGSGKTTTIAKLGHLLKENNISSVIVAADTFRAGAIEQIKEHADRLDLKLISQKYGSDPAAVARDGVEYSKSHNIDVVLIDTSGRVQTSNNLMQEISKIKNVIKPDFTIFIGDSLTGNDLVSQAQEFYKFTDFDGSILTKTDANVKGGAILSILSETSKPIIYIGTGQDYKDLEKFNEDKFLSGLFQK;locus_tag=LOCUS_4200;note=WP_011249604.1 signal recognition particle-docking protein FtsY (Thermococcus kodakarensis KOD1) [pid:47.2%25%2C q_cov:89.0%25%2C s_cov:78.1%25%2C Eval:1.9e-65],MGA_424
sequence03	MetaGeneAnnotator	CDS	38013	38933	.	+	0	ID=MGA_425;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868438.1;translation=MKNLISITNLKSKDILQLVKIARRFKRNDKNLPFGNMKNKTLALIFQKPSTRTRLSFEIAMRELGGKSIFLNESDLQLSRGESIKDTARTLSEYVDIVAIRTYKNSDIQEFIDNSSIPVINALSNTNHPCQALSDIQTIIENKKTLRNLKITWIGDSNNVANDFMFGSLKLGADFSFACPKDYSPKKDILKIAEELVKDNKSNLLITTNPIKAVKDSDVVVTDRIISMGDKNIGKKKKTFLPKYKVTKKLMLNAKKNAIFMHCLPAVRGEEVTDEVIDGKNSVIWQQVENKLHMHKALIWTMLNKK;locus_tag=LOCUS_4210;EC_number=2.1.3.3;note=WP_010868438.1 ornithine carbamoyltransferase (Pyrococcus abyssi GE5) [pid:44.6%25%2C q_cov:98.7%25%2C s_cov:95.6%25%2C Eval:2.6e-73],MGA_425
sequence03	MetaGeneAnnotator	CDS	38970	39707	.	+	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITDYMKNTETKNKQNRREFIKYLGGTALGLSIGGLGFLNANNNLVASNQRNLELEENVSSLNEQLDILNSWALYGGGSNIKKMPNIIDKKRTVEMDETFYFDHKTAICRVDNNPEPFIMPTYKMGEVEIEKNTFFMLMSTNSLHVKSIEESDNSTCILEGSIGDCFTEAAAGGSIYGSREKPEPFIPEVVAVDEKSFAFTAYFDEIEAPVNFAIFGPKFTFTGELTTGSVTVKRLHKLAKSLPK;locus_tag=LOCUS_4220;note=MGA_426
sequence03	MetaGeneAnnotator	CDS	39717	41444	.	+	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFILLFLLIINPVFAQDVSLVITINDHYSFNGIGNNIEQPTKGSTNLTLLRIVPPAYNDGISSPSNENSPNPRLISNLVCSQQPDLDIIDERNLSDMNWVWGQFMFHDIGFTPTAIFDPSLRNLDRIQILAPQNDQFYEVNRTMMSVFRSLYDVNTGTDKNNPREQINTITAWMDGSVVYGTSKSHSDKLRTFEGGKLKISEHNSGDLLPIAPIGSLEEKQVRGQAFFAGESRSNEHIAITALHTLFVREHNRIAKEIDEAEPDLTDEEIFQKARKINAAIIQSITYNEFLPSLGIELDSYKGYNKSIDPQISHIFSVVAFRIGHSQVGERVVLINETEDRQIIPMKDTFFNPKIIHEHGIDSILRGLFMTNQQANDIYYHHSIRNFLFDEPQRGGLDLCALDIVRGRDHGIPDYNSVRKETGLNPVEGFDDINQDEEVRMRLKAAYGNIDDLDAIIGILAEEHLEDSTLGQTGYLIIKDQFERIRDGDRLFYLNDPDLENIKEDISKTTLSDVIERNTRIKNLPDNVFFVSEIESENNYSISEQQTIFLYILIFFVVVFGIYGHYRSTKIN;locus_tag=LOCUS_4230;note=WP_011118003.1 peroxidase (Rhodopirellula baltica SH 1) [pid:40.9%25%2C q_cov:87.7%25%2C s_cov:59.1%25%2C Eval:1.9e-103%2C partial hit],MGA_427
sequence03	MetaGeneAnnotator	CDS	41831	42457	.	+	0	ID=MGA_428;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249693.1;translation=MSKDSSIRIGGIAGIISPVFGILMTFLAIYFSPWFVWETNALSDLGVEQAGGTQIAIYLFNIGMVVAGSLIAVFAVLTRSILPSNRKNKIAYAILFIGGINLALVGIFTENFPMIHRIVALLYFVTTPISLMIIGSGKIASDRTFGIFSIGSGAIALVVILGLVISILGISVGGIYPKGAAIPEIVEAIILGLWIGIAGIRVLKTGKI;locus_tag=LOCUS_4240;note=WP_011249693.1 membrane protein (Thermococcus kodakarensis KOD1) [pid:28.3%25%2C q_cov:87.5%25%2C s_cov:89.4%25%2C Eval:4.9e-07],MGA_428
sequence03	MetaGeneAnnotator	CDS	42663	42965	.	+	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSEILTSILVVIGYGILGGLVSGYVFKRIAKLLVVFIALLLLASNYFGYIGPLGTLKVALTNYFMEQTDIGGTLLAGILINIPFTIGFLIGFIIGIKKF;locus_tag=LOCUS_4250;note=MGA_429
sequence03	MetaGeneAnnotator	CDS	42971	43276	.	-	0	ID=MGA_430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIESWSSSWGELNESNMRKKLEQEGFSVITYTYSPGTYFPEHSHSVDKKDTVLSGKFRMTALGSEFVLGPGDMLLVPAGTIHTAEVIGQESVVSLDATKP;locus_tag=LOCUS_4260;note=MGA_430
sequence03	MetaGeneAnnotator	CDS	43337	44074	.	-	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEIFSDKITLLVLDLDGTVFDSSRLLLEEIEKIRCLADSGVRIIISSGRTLHYVLGITRCLGLNDIVICEEGTVIYDCRNDKLTLYGDLNDLLLLKENLSSWLPFCVIPKEAHHDKNIILALDRKPRINVDDFVTEVSSLLYEKKLNLNLTRSDEMINITPPNIDKGFALSNILKSENIDPKSVVAIGDSLNDLSVFDCISYPIAVFNAHELVKKKSVYVSQKENGFCVCEVIDMIISHNKKY;locus_tag=LOCUS_4270;note=WP_000593361.1 Cof-type HAD-IIB family hydrolase (Staphylococcus aureus subsp. aureus N315) [pid:40.4%25%2C q_cov:35.9%25%2C s_cov:30.4%25%2C Eval:2.0e-08%2C partial hit],MGA_431
sequence03	Aragorn:1.2.38	tRNA	44114	44204	.	-	.	ID=Aragorn_3;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence03	MetaGeneAnnotator	CDS	44411	44935	.	-	0	ID=MGA_432;product=16S rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870061.1;translation=MQNLDNVDKRGRPDIVHMSTMSITSTPLYLDKKIKLYIHTISDYVFDIEFGVRLPKSYHRFLGLLEKILSNSSNNKSSSLIKLNKSSFTELSNSIQSDYVAALSRRGTQMTSGHINDKIINSKYPTLLIGGFSHGTFSQNILNSVDDLLSISNHKLESHTVCSRMIYEIEKANL;locus_tag=LOCUS_4280;note=WP_010870061.1 16S rRNA methyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:33.3%25%2C q_cov:97.1%25%2C s_cov:78.5%25%2C Eval:2.4e-21],MGA_432
sequence03	MetaGeneAnnotator	CDS	45112	45432	.	+	0	ID=MGA_433;product=ribonuclease P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867686.1;translation=MNFKKKKQQIAEKRINKLFTDTIVSIKSDYNLAEIQAGRARDFSKKFNIKLGFSQKIFFCHSCKRFIVPGFNSRIRLSKIRKSLNITCLVCGSTYRKIINKSQTYI;locus_tag=LOCUS_4290;EC_number=3.1.26.5;note=WP_010867686.1 ribonuclease P (Pyrococcus abyssi GE5) [pid:38.3%25%2C q_cov:87.7%25%2C s_cov:80.3%25%2C Eval:1.5e-09],MGA_433
sequence03	MetaGeneAnnotator	CDS	45429	45911	.	+	0	ID=MGA_434;product=30S ribosomal protein S19e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250227.1;translation=MIQNIVKLNLTNVNEVPANVLIEALANKLKTEDTVKPPEWSSYVKTGSHAERPPQNDEWWYERCASILRKVYVHGPVGLTDLQEMYGGKKKIKFSKNHQRDAGQSAIRKPLQQLEVTGYVKKKKSEGRIITGKGMSLIDKTSAVILKELSENNPELKKYL;locus_tag=LOCUS_4300;note=WP_011250227.1 30S ribosomal protein S19e (Thermococcus kodakarensis KOD1) [pid:50.0%25%2C q_cov:93.8%25%2C s_cov:100.0%25%2C Eval:6.1e-39],MGA_434
sequence03	MetaGeneAnnotator	CDS	45973	46602	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAIFDAEGVLVDGEFLPKLAKIVGKEDEIWDITKRGINGDIKWETGLIERINKLKGISYEDCIQVANNLPIMHGAKETFNELRRLGFTTITVSGGPDILINRIKKELQIDYAVSNSLIFMEGKLDEVKINVGSDKTIPIESILNEISERKENTVSTIDGANDVKLFDISGLKISFNGTTVINEKADSIVNKKDLREIIPIIKNKFNLE;locus_tag=LOCUS_4310;note=WP_048061103.1 phosphoserine phosphatase SerB (Methanothermobacter thermautotrophicus str. Delta H) [pid:35.8%25%2C q_cov:96.7%25%2C s_cov:41.5%25%2C Eval:5.8e-32%2C partial hit],MGA_435
sequence03	MetaGeneAnnotator	CDS	46607	49573	.	-	0	ID=MGA_436;product=carbamoyl-phosphate synthase (glutamine-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64SZ4;translation=MSFGGQTALNCGVQLAKQGILSKYNVKVLGTKVRGIEMTEDRDLFKQKMTESGIDTPKSRAVYSLDEAKELIQELGYPVMIRAAYTLGGKGGGVAHNEYELDEIVIKGLANSLTKQVLIEEYLGDWKQIEYEIMRDSDGNCVTVCNMENVLGMKVHTGDNIVVAPSQTLTNREYHKLRKLAIKAATVCDIIGECNVQFSLDPSSEDYNVIEINARLSRSSALASKATGYPLAYLAAKVALGKTLPELFNQVTGVTTACFEPSLDYIVVKMPRWDLKKFEYVSRKIGTQMKSVGEIMSIGRSFEEALQKAIRMVDIDKLGLCRPDDNVDYSAETIEDNLVHPSDEILFYVVESLRSGMLIDEVSRISGIDPWFINKINNVVNFERKLLQNRDSLDKSLILEAKKKGFSDKQLSLYLKKDESEIRKTRINYGIVPRTKQIDTLAAEWPAQTNYLYMTYDGSRDDVEYSKKKKLIVLGAGTYRIGSSVEFDWSTMNMVWALKESGYDVIVVNCNPETVSTDYDMSDSLYFEEITLERILDIYDKEQPDGLVACVGGQIANNLVNQLHDYNVKLFGTSSSNIDRAENREKFSALLDEIKVSQPSWQTFTSLDSAYKFADEQKYPLLVRPSYVLSGAAMRVIWTDDNLKTFLEDAAKVNTDYPVVVSKFIEDAWEIEVDAVSDGSNVFIGAILEHIEKAGIHSGDAIMTIPPRNLNPSEEALIIDYTNKIAKHLQIKGPFNTQFIVKDGSVSVIECNLRASRSMPFVSKYSGVNLMQMAARAILGNSISSNFHNYRNIHFVGVKVPQFSFMQLDGADPNLGVEMQSTGEVACFGQNFYDAFLKAIISAGYNIPRQNCSLLVSIGGTENKKKLLPVIKKFSDLGFKTFATEHTADFLDSNNIDSIALYKIGEYERKPNLEDYLIKREFDLIINIPAIKSSIEMDSILEDEYLIRRKAVELGIPVITTVELADVFVNGLNWLNNNNLTIAETAKQ;locus_tag=LOCUS_4320;EC_number=6.3.5.5;note=Q64SZ4 carbamoyl-phosphate synthase (glutamine-hydrolyzing) (Bacteroides fragilis YCH46) [pid:48.2%25%2C q_cov:97.7%25%2C s_cov:89.8%25%2C Eval:1.5e-258],MGA_436
sequence03	MetaGeneAnnotator	CDS	49825	50958	.	-	0	ID=MGA_437;product=carbamoyl-phosphate synthase small chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64SZ3;translation=MKNSVENDAVLMLEDGTKFFGKGFGKSSTVVGEVVFNTGMVGYTESLTDPSYGGQLLTFTYPLIGNYGVPDYSRLDEFSLPAHFESSKIQTNGVIINELCEHPSHWSSTRTFDEWLTSEGITGISGIDTRSLTLKLRESGVMMGLISYEQGETPTDPNSVLSKAQAYETFEFFKNTSTKKPKTYGNYDDKVIILDFGVKNGIIRNVLKRNSSAVVVPYNYTFDQIMDYNPKGIIISNGPGDPRRCNESFDTIKKICNSSIPTLGICLGHQLISLSLGASVYKLQYGHRGQNKSCRDLSSGKSFVTSQNHGYAVDSDSLLNTELQPWFINLDDNSIEGVRHMNNQCIAVQFHPEASPGPYDTSYVFDLFFAMMTGDEL;locus_tag=LOCUS_4330;gene=carA;EC_number=6.3.5.5;note=Q64SZ3 carbamoyl-phosphate synthase small chain (Bacteroides fragilis YCH46) [pid:44.0%25%2C q_cov:96.8%25%2C s_cov:99.4%25%2C Eval:9.7e-84],MGA_437
sequence03	MetaGeneAnnotator	CDS	50993	52237	.	-	0	ID=MGA_438;product=sodium:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868783.1;translation=MSDFNPITTILAISLLIVSAKIFALIFKRVELPEVIGEIIAGMVFGPFAIGGLIVLAGEPLFSGPVNENSVLETFFEIGGMIILFSAGLEFTFKQFRKAGLPAFVIGTAGVVVPFILGYYGSLYVGFGSMESILIGAALTATSIAITIRTLEDLGILKNIESEIMVYAAVVDDVLGLTVLGVVLAIGSTGAIPGLSSIAITTISTISLWILLLLGSVYLLPKFFDFVALSTKDLKLTDDSEKFPTVPSTLETLAIFIILVWGAIAYYVGLSPIVGTFAAGMAIAGSQFKHQIEIFSNHIRIIFAPIFFAYIGAQINLVEIFGIDVFAFTFILALAMLGKFFGCGIPAFIFLRNRIQAQRIGIGMASRGEVGVVIAGIGYSTGMIDSYSFTVLMGVIMVSTVITPILLKLSSNTH;locus_tag=LOCUS_4340;note=WP_010868783.1 sodium:proton antiporter (Pyrococcus abyssi GE5) [pid:28.1%25%2C q_cov:96.1%25%2C s_cov:97.4%25%2C Eval:1.4e-41],MGA_438
sequence03	MetaGeneAnnotator	CDS	52323	53030	.	-	0	ID=MGA_439;product=macrolide ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583200.1;translation=MSSVILQTESLRKVYTGDSLETIALDNVSIKIQKGEFIAVMGPSGSGKSTLLNLIGALDSPSSGKIFIDDIEITSLDSTNLAHLRNRKIGFIFQSFNLISRFSALANVELPLSILGVSSSKRKKRAYEMLKMVGLEDRWQSNPNQLSGGQQQRVAIARALAVDPPIILGDEPTGNLDTKTSKSIIDLLYDLNKKTRKTVILITHDPVVAEQASRIITVVDGNIEDENYNVAKKTI;locus_tag=LOCUS_4350;note=WP_012583200.1 macrolide ABC transporter ATP-binding protein (Dictyoglomus turgidum DSM 6724) [pid:53.0%25%2C q_cov:92.3%25%2C s_cov:92.3%25%2C Eval:1.7e-62],MGA_439
sequence03	MetaGeneAnnotator	CDS	53040	55793	.	-	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISVKSIIILFMLIILIFNQLLVSVPVTYAQGGSSISNSVEINSGKISGTWTTGSEYYKVNVIAGQTLSINLDLISSGTNIDLYLYDPDSSDTNKIELASSKQGDGVDESIQFTPSKSGYYFIKLSGTKYSGLGNYELSVFVTKFEILFSDWGTQSIPIEVTPGDLGNNLQIILRNSGDFDITNLSVELTLPDTLTNRTGGDTLYDISTTTITSGSTNVFNFLVNINEQASIDTISLPLIINYQTTSGLSGMSIDQNINIYISGRSFLKLTSSTQVLSPNESNNINFIIMNEGTANTGSIDLSLTIPSPLNLLGSDNIWRLSSLKPDTQISITTSIFAPKISAGQNYQIIGNFVYSNTFGQTISETRTISLRVDDEPAQQCDVEANEIWNSEKQQCETVSSGIVVVETFWGSSTEKISVEPGDNRVKLNVVIQNRDDGSISGIQGKLLLNDPFNSSNGDDVSLSSFFGATVSSGGTASADFLLDVAKNTEVGTYNLKIEFSYLDKDSILRFETLSFSVNVDGKSNIETTISRNIFTSGTKNDLLLKIENLGTAPVYSVTVSISYGSSSGIFSTSDQDNSRKINQLLSGDSLLLSFPTYVSPTAQQGLYPISFILEYRDINGIQKTESQEFGILVRDWSSPFAITVPDNVLLSGRVTTPSIEIKNTDTDSVFDIKIELQFPSLQSSLPIFLNSGSDIWEYSSLNPGESFLLEPEIFAALSSSDTSFVVQIHISYLDEHGFPHEEIRNVGFTVRGIIDLTYKSIEFDSSVIPAGANSSIVGNLLNQGNDDAKFLTISIMSSDDIIINSESSQYIGEVDEDSLIPFSLNFGVNDLSKDGLASLTLVVTYEDTYGNKYSEVETFTFEVGGNLSDLLPVILDESSNPADLLASPFAIIGVGAFVVLLTIFILRRRNSKQPF;locus_tag=LOCUS_4360;note=MGA_440
sequence03	MetaGeneAnnotator	CDS	56052	56471	.	-	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKKCIFCEIVNGNIRAAIVFETDKFLSFMDKYPLNRGHLLVIPKQHHEFLTDMDNNEVAELFKLVNMISKYLWKLVKADGLSIGQSNGKAASQDIFHVHVHIIPRFDNDSGGGSWPTRKTFTRKELEELASLLKAKLS;locus_tag=LOCUS_4370;note=WP_010979519.1 hydrolase (Sulfolobus tokodaii str. 7) [pid:44.3%25%2C q_cov:76.3%25%2C s_cov:74.5%25%2C Eval:4.2e-23%2C partial hit],MGA_441
sequence03	MetaGeneAnnotator	CDS	56646	58343	.	+	0	ID=MGA_442;product=acetolactate synthase%2C large subunit%2C biosynthetic type;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868462.1;translation=MLKNITKLTGADALIKALENEKVDGIFGLPGGANLPIYDSLYDSDIRHILARHEQNAAHMADGYARASRKPGVCFATSGPGATNLITGIATAFADSSPIIAITGQVASNMIGKDAFQECDTIGIATPVTKYAYQPLTSAEVPQAVKNSFYIATSGRPGPVLIDIPKDSQTEEMEISFPTKPNIRKLSQPPTADLKLINKAADLLLNAERPMIMTGGGVIISGAFKELQAVAEFLVSPVVSTFKGKGGFSETHYLSLGPIGMHGHIEANKLVIEADVLLAAGARFSDRSVGKWDEFGNEMKIIHADIDPSEIGKNKKADIGLIGDIKSTLVLLLSAMEKKSQKRSSDYAWIQKVNEIKDIWRSKPLPAPREITGPKLLKKMREILPTSCLVTTEVGQHQMWASLHFDVAEPGTFFTSTGLGTMGWGLPAAVGAKFARPDLPVVDIAGDGSVQMTESALATSVTENLPIITVIFNNGMLGMVAQWQRLFYERKYIGVELHGIPDYVKIAEAYGAQGIRAQSMKEFEHALKNALSSNVATVIDVPINPEEDVFPFVVPNTALKDMVIA;locus_tag=LOCUS_4380;note=WP_010868462.1 acetolactate synthase%2C large subunit%2C biosynthetic type (Pyrococcus abyssi GE5) [pid:53.0%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:1.6e-168],MGA_442
sequence03	MetaGeneAnnotator	CDS	58427	59332	.	+	0	ID=MGA_443;product=lipoyl synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SLQ4;translation=MPRRSINNNHTRQKLRKPEWLKVNFKQGKNYEKIKKAANTLNLNTVCQEANCPNIYECWDVGTATFMLLGDICTRGCKFCHVKSGNPKGIVDIFEPENIANAVKELELDYVVLTSVDRDDLNDGGASHFADTIQQIRKKNSSTLIEVLIPDFSESVKSLSIVTNSEPTVIAHNIETTRSMTPFVRDARASYDRSLNVLKNIKKLNSKIFTKSSIMLGFDEKYSEVIDTMRDLRKVKVDILTIGQYLQPSDFHINVKQFVHPEEFTKLKNIADNMGFSYVASGPLVRSSYKAGEYFVKSMVK;locus_tag=LOCUS_4390;gene=lipA;EC_number=2.8.1.8;note=Q5SLQ4 lipoyl synthase (Thermus thermophilus HB8) [pid:51.1%25%2C q_cov:93.7%25%2C s_cov:87.3%25%2C Eval:1.8e-79],MGA_443
sequence03	MetaGeneAnnotator	CDS	59336	60310	.	+	0	ID=MGA_444;product=2-oxoisovalerate dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SLR3;translation=MLMTLNQAVKSALDNEMEKNNKIVLLGEDIGKSGGVFRTTEGLFDKFGPKRVIDTPLNESGIVGTAIGMSLYGLKPVIEIQFMDFIFPAFDQIVSELAKFRYRTGGSYTCPVVIRAPYGGGIKGASYHSQSGETHFVHTAGLKVVIPSTPYETKGLLISSIRDDDPVIFFESKRLYRALKEDVPEEAYTIPIGKANIVEEGSDVTIISYGAMLQTVKEALEIIKKDGITAELIDLRTLSPLDSETMIKSVKKTGRAVIVHEAPKTLGMGAEISALINENCLEYLEAPIQRVTGLDTPFPYSLENEYLPDAKFIYNKIKQTVEYS;locus_tag=LOCUS_4400;EC_number=1.2.4.4;note=Q5SLR3 2-oxoisovalerate dehydrogenase subunit beta (Thermus thermophilus HB8) [pid:55.9%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:9.0e-104],MGA_444
sequence03	MetaGeneAnnotator	CDS	60320	61477	.	+	0	ID=MGA_445;product=dihydrolipoamide acetyltransferase component of pyruvate dehydrogenase complex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q749T6;translation=MVYNFKLADIGEGIVEGEVSKWYVKVGDIIKENQPLVEIITEKVTVELPSPTSGTIIKTGPDVGKIIKVGEIIVVIDDGKEEDKVIPEEIQQLEEKQKEQSIQEKPHRKKIIATPAVKRLAKEMGIDINKVKGTEEDGKITEKDVKLYSKLNVENNEQRIAFRGTRRSIAERLSKAANRVVQAWIMEEIDMTKVTELKNKLKDSNSDEIKLTYMPFFVKAAIKSLKSNPRINASLDEETEDIVIKRDYNIGIAIDTEQGLIVPVIKKAQNKNISDIAKEIEKLSINAKSGKLEVEDTRGGTFTITNIGAIGGISSIPIVNHPEVAILAINKIMKKVVLWENKIVPRDRVYLSLSFDHRVLDGADVARFLNSIRKYLEEEPESLIE;locus_tag=LOCUS_4410;gene=bkdF;EC_number=2.3.1.-;note=Q749T6 dihydrolipoamide acetyltransferase component of pyruvate dehydrogenase complex (Geobacter sulfurreducens PCA) [pid:34.9%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:2.6e-63],MGA_445
sequence03	MetaGeneAnnotator	CDS	61477	62112	.	+	0	ID=MGA_446;product=octanoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZVC9;translation=MNDLSIIDLGLIEYKRALKIQKRLVKERMNNSIVDTLLLLEHPDVITLGLQTKTEDVLNQSIPIVKTDRGGSATYHGPGQLIGYIIMDLRKKEITIPMLITKIHESLIKTLNEFNIYAERRRENPGIWIGQKKIASIGLSVRNWITYHGFSLNIDTDLDKFKMIKPCGFDSQIMTSINHNNNRILSSKLIKSSVIKNFSEIFEYNKILRNL;locus_tag=LOCUS_4420;gene=lipB;EC_number=2.3.1.181;note=Q5ZVC9 octanoyltransferase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:46.9%25%2C q_cov:82.5%25%2C s_cov:87.4%25%2C Eval:6.1e-37],MGA_446
sequence03	MetaGeneAnnotator	CDS	62335	62721	.	-	0	ID=MGA_447;product=30S ribosomal protein S8e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875846.1;translation=MVKSLENLRKRKQTGGRIKFSRNRRSDELDSFSVDTLLGDHSVRIKNSRGGNTKVSLVYDNFVNVTDPSNKTVRKISINRVIKNPSNRDYERRGVITKGAILETELGKVRVLSRPGQSGIINGVLINE;locus_tag=LOCUS_4430;note=WP_010875846.1 30S ribosomal protein S8e (Methanothermobacter thermautotrophicus str. Delta H) [pid:49.2%25%2C q_cov:92.2%25%2C s_cov:92.9%25%2C Eval:1.4e-26],MGA_447
sequence03	MetaGeneAnnotator	CDS	62758	63339	.	-	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNFQISTSISKDKRFQAKIEAALYAAGRPLSKFELAKAAGIASTNKSSSLARDLMSKINSTFEAIQMFELDGDRFVIQLKSEFTTSARKFSSRPLLSTAELKTLSHIVYFQPISGKDLAERRGPNSYQHVRMLKQLGFIKSEPFGRTKIFTTTNRLAEYFGLDNDPSVLKQQLIKHGLKPKKSVIMQTTNKS;locus_tag=LOCUS_4440;note=MGA_448
sequence03	MetaGeneAnnotator	CDS	63336	64004	.	-	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNSNQLSKAPLNLLINPKTARKGKPWEIDIADLLDIFLDQIVKKDNPDLRLCGTAAFSSALLYRFKVETLFYFEKLKVKRPRVSRNGPPSIIVLPFRYELYSTSIDDLITNLERILEDVSRHEIEAKEKSSFLQPDLEPDFDKFVVKIEELVGDFKKELTAKLNESDKLLFTELIKDKPLIEQTQSFLLLLFVAVDGLVTLEQIESPDTIESDILIRSVLT;locus_tag=LOCUS_4450;note=MGA_449
sequence03	MetaGeneAnnotator	CDS	64001	67654	.	-	0	ID=MGA_450;product=chromosome segregation protein SMC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867481.1;translation=MVYIKKVETRGFKSFGLRPVNVNFEGQFIGITGPNGSGKSNIVDAILFAIGENKPRMMRVPKLSGLIFDGAGGTPSTSARVTLTLDNTSRDLSIDNDRVTLTREIQSSGDSIYLLNGKKIQKGTLSELLRLALISSDGLNFVPQGMVTHLAELESNEKRALIEEIVGVAEFDEKKDDALKQLDGADRKLEIAMARIGEVKKNIDSLEGERNDQLRLQYLDKERGRLKSIMIAQKLNDVKNSIEENNQLLVQVSQENKKLNEELNNKNKQINTLDTEKQSTLTQVIDGASDDLLSVQIELSKKTEELKKHKTTELEFRTDINKISESLPYLKDMLSENSQTVLKTKENIQTISTSLKDSKTDLEKLNDKMKICDLKRKSLTDSTQAEEKLLTTVNKQLRQSYDDKNHISGLLSKNIAQKSVLQEKLSAAEKKQKETQVVVNVISKSISELDSLQSAEHEYLSNMTNSNSKLANRREKIESELSKAITILTKANEQVLKHESKVEAAKEITSRQNVQSKIKAIAKENSISGCLGGIDDIFDYPDRYKVALQAAAKRWSNAVIVDEITTLLQIVTLIKKHKLGRVALIPLSDVVDFERTKAPKNKDILGSLADFLEVDDKYTGILNFIFGDILLVSSAKTGYMWSQKGYRTVSISGDLFEPGGSVFETGSVSPLANLFFDSKSLIQIKSSVTNLRNSIQKRKTVITSLNSEVKAIELGQNDRKLSIERLISELKNMKNMKDRYVDVISKIETNQNELHKKLTECLTIILKQEKELKDINDLIKTQKDKIDSRSSLQSLKKDLESLETERNMLSDNVNSVSDTIRNNETTLTREQANLEHNLEMQKNQLTKQISDLESELKDKNQFLDDSNSILPELKTTVDTLTSQENLLSDKSRKMKLIIDELDKQIKSLNKEKEIIQKNLIKNTSKSHNIESHTSRLIDSQQSYRDNLNELGYNESISYFFGADVLVTELDKEYNNLRSRVNLLADEQYRDIYSGYKGFSERKNQLQKERTAIVDFINSIDSEKHTAFLDAFKIIDQEFRNLFAKLTTSDSSYCNHDNCPPSRILHGDAWLDFDNPDDIFTAGITLMAKFPNKVERDIVICSGGEKTVAALCLILAIQAVKPAPFYVFDEIDAHLDAVNSSKLAEIIRSRTDKSQIIMVSLKDTILSRVDNMYGVYHERGITKILKYQPKEMNKEKEIIQKNLIKNTSKSQNKGVKVR;locus_tag=LOCUS_4460;note=WP_010867481.1 chromosome segregation protein SMC (Pyrococcus abyssi GE5) [pid:27.0%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:5.5e-122],MGA_450
sequence03	MetaGeneAnnotator	CDS	67822	68979	.	-	0	ID=MGA_451;product=tyrosine decarboxylase MfnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868331.1;translation=MNQSGRSQKEISQKLSSILPLDDNFESGKIIGSMCTKPDLFSQKIYSKYLEKNIGDPGLLKGTLLIEKEVINMLGNLLSKSKPAGYVISGGTEANILAMWSARNHFQKNSPEVIIPSHSHHSFDKAADLLGINLIKIPCIDGVVDTNLVEKRINKNTIMLIGVAGTTPLGLIDPIDLLSDIARRHSLFLHVDASFGGFIIPFLQELGYDLPLFDFKLPGVTSISIDSHKMGIAPIPSSCILFRKRSLLKNIKFNAGYLSGGSEPRTILLGTSPGASIIALWALLNYNGKEGYTKIANRCMRNTNYLYHELLNIPNLSVISKPIINIIGFKLNSGSQKTFVTKIRKQGWSISVFPTHIRIVLMPHIRRTHINAFLTDLKKITKKPL;locus_tag=LOCUS_4470;note=WP_010868331.1 tyrosine decarboxylase MfnA (Pyrococcus abyssi GE5) [pid:44.1%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:2.2e-91],MGA_451
sequence03	MetaGeneAnnotator	CDS	68994	69848	.	-	0	ID=MGA_452;product=3-methyl-2-oxobutanoate hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5HYW9;translation=MNVKKLTEMKKNFQKISAITAYDYSFAKLADNAEIDVILVGDSGAMVMFGYDTTSPVTMEEMLLMSKAVSRGSNHSLLVGDMPFMSYHVSLDEAIRNAGRFIKEGGMQAIKIEGDRNVAKTVSAITKVGIPVMGHIGLQPQMAQSWDGYKIHGNNYSSAKKLIEDAHELEQAGAFCIVLEMITEEVSKIITESINIPTIGIGSGKYCDGQILVLHDLLNLYDSIRPKFVKQYADLKTETLNALIAYKKDILSVNFPTSDHSWSLKPSELQKLRKYFGEIKKAEL;locus_tag=LOCUS_4480;gene=panB;EC_number=2.1.2.11;note=A5HYW9 3-methyl-2-oxobutanoate hydroxymethyltransferase (Clostridium botulinum A str. ATCC 3502) [pid:52.2%25%2C q_cov:95.1%25%2C s_cov:98.2%25%2C Eval:4.2e-75],MGA_452
sequence03	MetaGeneAnnotator	CDS	69870	70634	.	-	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978509.1;translation=MIDNNIPKNHPRANSLKIRELISDSYDIGILSQFGLIAHGRGEAFDYLIGEKTIDISLKTIRVATAQLLMSNSVISVNGNSVALESKNIIKFAKLTNSKIEINLFHKNKRRVLQISRILKKHGAKNIYGIDDDYLTTIPGLESHRRFIDKRGIFIADVVFVPLEDGDRTELLKKMGKIVITVDLNPLSRTSTMADISIIDNLTRVLPEMINQSRTLKNYSQSDLQKIVKKFNNKKQINLVLQYMSKRLIDLSTK;locus_tag=LOCUS_4490;note=WP_010978509.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:52.8%25%2C q_cov:97.2%25%2C s_cov:93.2%25%2C Eval:2.5e-65],MGA_453
sequence03	MetaGeneAnnotator	CDS	70631	71527	.	-	0	ID=MGA_454;product=pantoate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251091.1;translation=MITAFSPGQITGFFATHIEKDPLLTGSIGAGICLQKGVKTTVEILPSTKFKLKIYINGISSHNALVSNSVVNQMIDTSNHKFELVIKHHLDIPIQRGYGSSGASALSLSYALNEALKLGLNDIQAAQIAHIAEIKCKTGLGTVLGTYHGGAQIRFQPGAPGIGKVFQIPITQKKIIATFTLGNLSTSTILNNSNIIKLINKNGNEFLNQLLHKPTNENFLKLSRRFSLLINFFPLEFYKFMKFADRFGMICSMNLFGNSLFSILRTNEINEFYNLFLKSNLRGNIFFSSINHSGAYII;locus_tag=LOCUS_4500;note=WP_011251091.1 pantoate kinase (Thermococcus kodakarensis KOD1) [pid:28.4%25%2C q_cov:94.3%25%2C s_cov:93.3%25%2C Eval:1.0e-23],MGA_454
sequence03	MetaGeneAnnotator	CDS	71661	73286	.	+	0	ID=MGA_455;product=CTP synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250144.1;translation=MGQQNKFIFVTGGVLSGIGKGIVTASVAKLLDLYGISTSCVKIDPYLNVDAGTMNPFAHGEVFVTDDGGETDMDIGTYERFLGKNLSKIHNITTGQVYLDVIESERRGDFLGECVQIIPNITNSIKEKIKQVGEFQNNGVVLVECGGTVGDIESLPFIEAIRQLRLEVGQENSLFIHVTLAPILGPVGEEKTKPTQHSVQELRRIGIQPDIIVVRSEKQLSITSKKKISLFTSVELESIISNPDTESIYNVPENLYNDGIITSIIDKLRLPTREMNWKNWKTVSKTFSKNKKIVNIAIVGKYVSLTDSYVSVNEALSHAAAKLNFMVKLEWVESENFENDESNLKKLDKYDGIIVPGGFGKRGSSGIMLAADYARKNSIPFLGLCFGFQLALIAFAKYACGLEDANSIELDSRTKNPIINILPSQKKVKEKGGSMRLGGHDIEIQKNTRAYEIYGKERIRQRHRHRFEFNQEYQELFEKNDIVLSGFSDNGKRTEILEIPTHPFYMATQYHPEFLSKPGEPEPIYNNFIIAVINKKNVVKN;locus_tag=LOCUS_4510;gene=pyrG;EC_number=6.3.4.2;note=WP_011250144.1 CTP synthetase (Thermococcus kodakarensis KOD1) [pid:52.3%25%2C q_cov:98.2%25%2C s_cov:99.1%25%2C Eval:1.0e-159],MGA_455
sequence03	MetaGeneAnnotator	CDS	73283	73588	.	-	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRISDLQDGQKNASIGGVVTYIGQSREVQVKSGETKKVTTITVQDDSGSIPVSIWGSLIEQIKLNSEIKLEKGYISQFRDQLQFNLGYYGKLFVLLESDNT;locus_tag=LOCUS_4520;note=MGA_456
sequence03	MetaGeneAnnotator	CDS	73585	74199	.	-	0	ID=MGA_457;product=pyridoxal 5'-phosphate synthase subunit PdxT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WYU3;translation=MKKINIGILGVQGDVEEHVASVESAFREIAMDGIVSIIKYPEQIDSINGLIIPGGESTSIGKLSNNSNFHDVMKKKITQGMPVLGTCAGLIFLSTQIVQSSSNTSQKLLGALEIETERNAFGRQHESFQSEFPIPKFDIDRFMGIFIRAPRIRSIGSNVKILAKLNNDIIAVQQGNIIATCFHPELSDNVIFHKYLIELVRETL;locus_tag=LOCUS_4530;gene=pdxT;EC_number=4.3.3.6;note=Q9WYU3 pyridoxal 5'-phosphate synthase subunit PdxT (Thermotoga maritima MSB8) [pid:45.5%25%2C q_cov:97.1%25%2C s_cov:100.0%25%2C Eval:4.1e-43],MGA_457
sequence03	MetaGeneAnnotator	CDS	74199	75161	.	-	0	ID=MGA_458;product=pyridoxal 5'-phosphate synthase lyase subunit PdxS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979488.1;translation=MNKMISLVGQQNMLLSQQISSNFDSQTGTILLKRGFAHMLKHGVIMDVTNVNQAQIAEEAGAVAVMVLDKLPIEVRQSGGVARTAGLKIIKDVVNSVSIPVMAKCRIGHISEAIVLDNSGVDMIDESEVLTPADESSHIWKWDFTTPFVDGAKNLGQALRRIEEGASMMRTKGEPGTGNVVEAVRHMRAMNQDIAKITYFYNTHDNQELFRISKELNASYELVVETGRLGRLPIVNFAAGGITTPADAALMMKLGCDGVFVGSGIYKSSDPLERASAIVLATTFHDKAEVIAEAQEMIDEKKSMVGLGDNLDFKMQDRGI;locus_tag=LOCUS_4540;note=WP_010979488.1 pyridoxal 5'-phosphate synthase lyase subunit PdxS (Sulfolobus tokodaii str. 7) [pid:61.4%25%2C q_cov:87.5%25%2C s_cov:82.1%25%2C Eval:1.9e-90],MGA_458
sequence03	MetaGeneAnnotator	CDS	75244	76341	.	-	0	ID=MGA_459;product=S-adenosylmethionine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3IW86;translation=MTKNFTFTSESVSEGHPDKVADQISDALVDAALSIGDETTRCGIETATTTNYVLVFGETKNFQLTSKEVESIVRNKVREIGYEQEGFHWKHLNFENRLHNQSSDIALATDNFGAGDQGLMFGYACRETPSMMPAPIHYAHQILLHLRTIRNKNPLVLGPDSKSQVSIVYEDNKPVYIDKVVVSTQHADGENKNARKYAETAIMNACNNLIDDNRTEFIINPTGNFVIGGPQGDAGMTGRKIIVDTYGGYAPHGGGAFSGKDPTKVDRSAAYMARWLAKNVVANNWADWCNIQLSYAIGGKKPTSIYVDSNGDNQLIASKICDMNDLTPLDIIRKLDLFNFTEYSKNCIYGHFGDKDVPWEKIEKW;locus_tag=LOCUS_4550;gene=metK;EC_number=2.5.1.6;note=Q3IW86 S-adenosylmethionine synthase (Rhodobacter sphaeroides 2.4.1) [pid:51.7%25%2C q_cov:98.6%25%2C s_cov:96.6%25%2C Eval:6.2e-96],MGA_459
sequence03	MetaGeneAnnotator	CDS	76430	76699	.	-	0	ID=MGA_460;product=small nuclear ribonucleoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013295846.1;translation=MSNNFNEQDNNRIQKPLNILQKSTGKNVMVRLKNDIEYRGIMTNVDAYMNVILNDAEEFADGSLSANFGKVIIRGNNVLFINIKPDILM;locus_tag=LOCUS_4560;note=WP_013295846.1 small nuclear ribonucleoprotein (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.9%25%2C q_cov:78.7%25%2C s_cov:89.7%25%2C Eval:2.9e-13],MGA_460
sequence03	MetaGeneAnnotator	CDS	76773	77573	.	+	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKFKKIDKNNEYNEFDVFMSKNEQIINNNKINGFEFITNGKLDTKIKHETGIEELDSVIYGCPTGTIVDLYGSSSSGKSQILFQIAVNISTNKKKTLFIDSSGNFRPERIIQLSKAKGYDSKKVLNNIYTIRCNSLDCQLGTISKIKEFIKNNNTTCIMLDDLTRNFTDHSFEFRNEMQDILSEYIRELADLAWENNIAVIVTNSIRAKIDDTKIREKETFDFIINKLIHLKVSLKRMEEIWLARNNDGKQCIFNITEDGIGKV;locus_tag=LOCUS_4570;note=WP_011762467.1 DNA repair and recombination protein RadA (Pyrobaculum islandicum DSM 4184) [pid:31.6%25%2C q_cov:60.9%25%2C s_cov:51.8%25%2C Eval:3.9e-19%2C partial hit],MGA_461
sequence03	MetaGeneAnnotator	CDS	77573	77926	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKEAINECIYNIVNGNFIKAKSILAERLKKSSNTKIIGSAIALEGIIAKYSGKNTDIKNSIEDFKIMKKGINEKLSAVWIDDFEKGFFSVWKIFVKTAIENLDNKESVIENPAEKE;locus_tag=LOCUS_4580;note=MGA_462
sequence03	MetaGeneAnnotator	CDS	78030	78191	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIPKNMPILAEGLRDVKPSKPAESPDPMPNMTLSQKIILKINVESGVVNHLI;locus_tag=LOCUS_4590;note=MGA_463
sequence03	MetaGeneAnnotator	CDS	78243	80135	.	+	0	ID=MGA_464;product=fibronectin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867817.1;translation=MELSSIEVFKIISALNKEVGSGNHYLNNIYQVMNDSYLLKLHQADQPKKFIMINPKIGIWLSRYDIEKEQSVGYVTSLRRNLIRAKLIKFEQPAGERICIIHFETKKGLRKLICEFFREGNIVVVDENEKILSCLNKLNVRHREIFPGSMYKLPPSRGISLENFKKEDLKNINNNELEIAKWLGRNYSISKKYIEEILVRININNDRLCTSLSQREIELLEKQIVELIQTIKSNNLNIWIAKEDKTIRDISLIDLSASQQRKYEKAESLMNELDNYITLNLSENKVINKQEKLRKKVIELEKSIQLQNEAYKNNQNISKDLRDLAIKLSKSSNYKEILDNKNVEFIKRRNNIIRIPLIDPKRDLDEDITAIKLSSICFDQAKKIEKKVKSIEIATKKLSKDLGIITNNIDNQEEEISLKIKENSLWFEKFRWFISSEGILAIGGRDAQSNVNIIKKYAKSDDLVFHSDIIGSPFFILNNNANDSTIKEVAIATVAFSRAWKTQTHTNVYYVKSEQVKKGAPSGMYLPKGSFMIEGKKNIIKKIKLELAIGAIKYEGRYMIMSGPVEALKINALAIVLIQPGKSKSSDIAKIVKQKLISELNDSIAKIYKEKSIDEYLRMLPPGESEIVEK;locus_tag=LOCUS_4600;note=WP_010867817.1 fibronectin-binding protein (Pyrococcus abyssi GE5) [pid:30.1%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:6.6e-73],MGA_464
sequence03	MetaGeneAnnotator	CDS	80140	81417	.	+	0	ID=MGA_465;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250756.1;translation=MIDLIINIINGRVWIKGQLENIGISIENGKITKILKQKDLPEADKIIDANNNIVFPGCVDVHSHLRDSEFSYKEDFTSGTSAAVAGGFTTVLDMPNTNPPIINSKELLKRQNKAKDKIFCNIGFYCSPINKMDIKQLIRSNAVGFKIFLHKPFENQDLSEDNLINIMNEIKQNDGILAIHAEDPNLFDNKNNHTVESEVEAIHKIIELAEKTKCKIHIVHVSTKEGIDIIKRKRKQIDISCEATPHHMILNTTKIETKTHHCEPPLRNTENQKAIFENIINGNIDIIGTDHAPHSSRDKEEGKPGFPGLEITMPLMIDLFNKKEITLQRIYEVLVENPIKRFKLKNIGKIKEGYNADLIIINENKKNKINIDRFFSKAKNSPFDKMEVNGEIMKTIVNGHLVFNEGNIVTSPGTGKILQKSIDFI;locus_tag=LOCUS_4610;EC_number=3.5.2.3;note=WP_011250756.1 dihydroorotase (Thermococcus kodakarensis KOD1) [pid:33.0%25%2C q_cov:95.3%25%2C s_cov:96.1%25%2C Eval:4.7e-53],MGA_465
sequence03	MetaGeneAnnotator	CDS	81438	82589	.	+	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQKKIYFPIFGSGTGHANRTTLVANSLENNYKCSFSSFKDGYEFLIAKGFECKRIPALDIWWNKDGTASTMKTIMKSPILMGVFLHHLKNEFQLISKQKPDLVFSDSRLSPLLCAKQLKIPSIVILNQIKLLVEIRNTRRKNFERINGEILGHFWKSANEILIPDLPPPHTICIENINGINSIQNKIQYIGFISKEIDNRKVKIIKKKLNLDKKKHTIYVQISGPQQSRLHIYKEVLKQMKQIKKDYNIIISKGIPNGNNIPKKINDTIVFEWCSWKEMFEISDCLVIRGGHSSIGDALTYGKPSIIIPIKNQSEQIQNAKRIDELGLGIYMKEDEDNSLVDNINKIINEDKFNKTAKNYRDLTKKYNGIQMCKNKIIEYTK;locus_tag=LOCUS_4620;note=MGA_466
sequence03	MetaGeneAnnotator	CDS	82593	83465	.	-	0	ID=MGA_467;product=carboxyvinyl-carboxyphosphonate phosphorylmutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015038963.1;translation=MDNSKSLRKLLQTNNTIFVPGIYDSLSAKIAQRVGFNVVFHTGYGTAASLLGVPDIGLVSFSEMRDRVSTICNSVDIPVIADADTGYGNTLNTMRTVKDYIRSGAAGIILEDQLWPKKCGHMKGKSVISIDDMESKIRAAVQGRHEEKSNLVIVGRTDSLAVEGVDMAIERVKRYKKAGADVLFIEAPNKVDELEIIAKQVKLPLLLNQLEGGRTPLISIKKAQKIGFKIILFPLTSLYASTKAIFDSLTYLKKHNTSLGIENQLITFDKFNQLVDYDKFMKLEKKFSTK;locus_tag=LOCUS_4630;gene=bcpA;note=WP_015038963.1 carboxyvinyl-carboxyphosphonate phosphorylmutase (Bordetella parapertussis Bpp5) [pid:39.9%25%2C q_cov:96.9%25%2C s_cov:85.8%25%2C Eval:1.8e-60],MGA_467
sequence03	MetaGeneAnnotator	CDS	83549	84172	.	+	0	ID=MGA_468;product=rhomboid family intramembrane serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496558.1;translation=MTFDETVYERPNIPNTKWTLRFMGISIIVFILQNILGPGIWQYFAFFPALAIKWPWTLITSVFLHADFNHLLFNMFALFFFGTYLERLLGNNRFLIIFLASGIVGNIGYLVTASNDMIPAIGASGAAYGLMGTLAILAPFMSVYVWGLLPVPMIVLTSIYALIDIAGLSAPSGIAHGAHIAGLIVGIAFGLYLKPYFGYRKNNNVQL;locus_tag=LOCUS_4640;note=WP_064496558.1 rhomboid family intramembrane serine protease (Methanocaldococcus jannaschii DSM 2661) [pid:48.9%25%2C q_cov:86.5%25%2C s_cov:93.7%25%2C Eval:1.3e-39],MGA_468
sequence03	MetaGeneAnnotator	CDS	84167	85333	.	-	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYFLSIHSFLEFLIPILTFSWFIILVFRIISYYKLDQLINKTKLVSNPKISIIIPARNERLNIERCLKSLQQQKYNNFEVIVVDDCSSDNTYELAQRFCQTDHRFSVVRLTKDISDGWVGKNLACHEGYKKSNGDVLLFIDADTEHHNDSLFASLSYMQKNNLDVLTMFPKLICTDFWGKVTLPIIVFMINILYSPLLLNSKNTSVSYLIGGFILIKKDVYKKIGGHESVKESFVEDKSLGTIIKKSGFKLRLIRANDFVRTFSNIGYLNNINAMQRVISASFIEMHLFFGLAAILLAFLGLILPYLLLFRIYSFEFIDVLYIILIISFMKLSYLIEFSDIYHSKLYVFLYPFTIVIFFYVLIISVFKVNSNSSFVWRDRSYNKIKL;locus_tag=LOCUS_4650;note=WP_010933643.1 glycosyl hydrolase (Chlorobium tepidum TLS) [pid:36.2%25%2C q_cov:64.2%25%2C s_cov:64.7%25%2C Eval:1.0e-35%2C partial hit],MGA_469
sequence03	MetaGeneAnnotator	CDS	85400	85735	.	+	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSESNVSISGIACDMVGTITEFGKGAEELFGYTKDEVIGKGNVGMFHTEENVKNLVPVLLQTAVEKGVWEDEVELVRKDGSHFIARLNVKSLKKDGVPIGFMGTTHFVKNL;locus_tag=LOCUS_4660;note=MGA_470
sequence03	MetaGeneAnnotator	CDS	85757	86761	.	+	0	ID=MGA_471;product=1%2C4-dihydroxy-2-naphthoate octaprenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HC24;translation=MKLEVWAKELRIPFLSLPIIFVPLGVMVAYFDVAHINLLHAVLTLIGVLCLHASVNVLNDYFDYKSGIDVATTPTPFSGGSRVLPEKLLSPNNVLIGGIILLFIGSSIGLYFLNYFEFNSILLGIIVISILSVILYSPVLSTLGLGELTVFLNFGPLLFSGIYFIQSGGNCSNCFYGLEIEAIIIGSIVGLMTTGILYINQFPDTEADKSKGRRHLVARLGKKRAVNLYNYMMGASYVIIIISVITPFVIGIGIPLTCIIALATFSLTPKGNFRTASKILGKEYEKIMELIPAMGNTVMTTIQTGILLLIGYLIWYFLSMYVPGATTIIPVNAS;locus_tag=LOCUS_4670;gene=menA;EC_number=2.5.1.74;note=Q6HC24 1%2C4-dihydroxy-2-naphthoate octaprenyltransferase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:27.6%25%2C q_cov:90.7%25%2C s_cov:89.9%25%2C Eval:1.7e-17],MGA_471
sequence03	MetaGeneAnnotator	CDS	86835	87083	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQFKVVAEQTKESFEEEINKLGEGGWEIIHYGSSVSIGSTRSNKMVLFSAILEKEKTITKKKVNQKYREKKTIEKNKINFK;locus_tag=LOCUS_4680;note=MGA_472
sequence03	MetaGeneAnnotator	CDS	87095	87898	.	-	0	ID=MGA_473;product=sulfurtransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9W9Y9;translation=MSDLLMAEWLKDNLDDPNLIPFDIRSPREYNHAHLPRARLIPYEKILSFHEDSSYFDLAPKEQIEELLCNSGITDDSNIVIYGDRGGAIATRLFWSLKYYGLNVKFLDISFSKWMELGYPVSNSIETIEPTDFVLTKPIINFKVDHDYILSKLNDKNLILLDTRSHDEFTGVIVAGSKAGRIPNSKNFPWEMAIGDDGYIFKKTNDLTQIFEKHGITKDREIICYCHVGERASHTFVALKLCDYPNVKIYDRSFADWSDRDNLPIEV;locus_tag=LOCUS_4690;note=A9W9Y9 sulfurtransferase (Chloroflexus aurantiacus J-10-fl) [pid:30.5%25%2C q_cov:98.5%25%2C s_cov:95.8%25%2C Eval:3.6e-33],MGA_473
sequence03	MetaGeneAnnotator	CDS	87899	88126	.	-	0	ID=MGA_474;product=response regulator SirA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_008920728.1;translation=MEVDQSLDVKGLVCPVPVLKTKQFIAKMESGQILEIFATDPASKEDIPAWANRAGHELIELIEDNNHLKFYLRKK;locus_tag=LOCUS_4700;note=YP_008920728.1 response regulator SirA (Aquifex aeolicus VF5) [pid:52.8%25%2C q_cov:96.0%25%2C s_cov:91.1%25%2C Eval:1.5e-17],MGA_474
sequence03	MetaGeneAnnotator	CDS	88149	88388	.	-	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582888.1;translation=MQKQNKKLDLIGQVCPWPVIFTIKELKKLDDGEILEVLVDHLPSTINIPSAVKKDGHEVISSEETEDGIFKIEIKHHNS;locus_tag=LOCUS_4710;note=WP_012582888.1 hypothetical protein (Dictyoglomus turgidum DSM 6724) [pid:43.8%25%2C q_cov:92.4%25%2C s_cov:93.6%25%2C Eval:3.4e-09],MGA_475
sequence03	MetaGeneAnnotator	CDS	88393	89823	.	-	0	ID=MGA_476;product=selenophosphate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846378.1;translation=MSTKQEFWDNVSRYREMGMDPLKWVAGCAVKVDLDTVVYPSLHNLKPSLKQMGISLGERVDADIFPLTVDGPTITRRIYNPSNPEIDIDDLKKINPKRAISLLQVFQKNAEKQEKFQTLLSNLYASISKSDVHFTVGKGHSIITGSPEAEFALFDFISYEEGRSDGWCLSNNDTIQIIDPTEDPSSEQQTNVAISNSLNDLISLGCYEELKVLPVVDAPNEEIQNNISDNMKTFANKYDIELLPSESPQRGKLLIGATLFGTLRKEPPTKLNLLDNGMQILVTRPFGDLAPINVFLSCVADETFLQDLEKTGYTLDDVKKAKNSVINTMNQPNLKVAEIINKYLPEFGNPFDVNEHILATGDLSGPGIMIFKEHAVNAQINISLDYLPLHYPEFVKYATENFLMDNATAGTNGAVAMIANPNVIENIYHDLNYGGCEPQIIGKVLGKGSGSVTISKDVNDMIASDILLNQLNIEGD;locus_tag=LOCUS_4720;note=WP_052846378.1 selenophosphate synthetase (Sulfolobus tokodaii str. 7) [pid:39.9%25%2C q_cov:98.5%25%2C s_cov:98.7%25%2C Eval:3.7e-94],MGA_476
sequence04	MetaGeneAnnotator	CDS	193	1725	.	-	0	ID=MGA_478;product=2-isopropylmalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870707.1;translation=MASNTDLIKIFDTTLRDGEQTPGVSLTPEDKMKIAIQLDKLGVDTIEAGFPITSRGEANAVKEISTAGLSTEICGLARAEPKDVEMVLDCNVDLVHVFIATSDIHMKYKLKMNREEVLERASEMVKLVKERGVPVEFSAEDACRSDPDFLIEVFKAVSNVGVDRIDIADTVGIMNPTTMFSLVTKVKQVIKEPISMHCHNDFGLATANSLAGMLAGAERMHVAINGLGERAGNAALEEVVMSIHNLYQKKTNINTKFIYETSNLVSRLTGINPQPNKAIIGDNAFGHESGIHVHGIINMPITYEPLEPEIVGRKRWIQAGKHAGTHGIKAQLEELGYDATDKQIKEILSRVKDLGDKGKRLTDMDLDSIARSILGQETEERVLELIDISVMTGIKSTPTASVKIAMDGETHVASETGVGPVDSAIKAIQKISDKLAHIRLKDFRIDAITGGTDALGEVVIKVEDDEGNVATARSSDGDIVIASAEAMIDGINKILIKKRVASPKATLPNP;locus_tag=LOCUS_4730;EC_number=2.3.3.13;note=WP_010870707.1 2-isopropylmalate synthase (Methanocaldococcus jannaschii DSM 2661) [pid:56.5%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:6.3e-156],MGA_478
sequence04	MetaGeneAnnotator	CDS	1728	2207	.	-	0	ID=MGA_479;product=acetolactate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496411.1;translation=MKNEYLISIIVENKPGVLYRTANVFRQRGYNIRSISVGELRDNTMSRMTFVIDAEEDSINQLAKVMDKQIDVVEVRILDAKKMIKKELALIKIHVKDQKMIPKIRDIANIGTIIDESINSVIVEITGTSEKITDFVELASDYGKLDIARTGLTAIERGE;locus_tag=LOCUS_4740;note=WP_064496411.1 acetolactate synthase small subunit (Methanocaldococcus jannaschii DSM 2661) [pid:40.0%25%2C q_cov:99.4%25%2C s_cov:95.2%25%2C Eval:1.3e-28],MGA_479
sequence04	MetaGeneAnnotator	CDS	2429	3352	.	+	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFEKINLSINDYAFYWSLPELIGVENGYYEDENLDIKINNVTPTLQIKSKSQMYIDLQKKNLSDFYHAAEYVCLSRVIESDNSKIVGYSPWNKFAINGSFGLYVNSNSNIFFPKHLKDRKIAVEASTGSYYTTIEDLEKYFSIDDSNLLKLGDPHERLLSTLNDETSAASLMGIYCELAVFLGLKKLMESTRRKGTLMISRNDISLDTIQSFIRATNKSISYINNYPDKIRNYYFDKIQFIISKFSIEQQNIISDNKFNILIPKWEPWQEYPEKMFDEIYSWMSTRNLIQSGIKYEDIVNSSIFL;locus_tag=LOCUS_4750;note=MGA_480
sequence04	MetaGeneAnnotator	CDS	3339	3974	.	-	0	ID=MGA_481;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DIE9;translation=MNEKIKIIYNKLDSSYPSIYTSLAYSSPFQLLIATILSAQCTDKVVNKTTKKLFKVYSEPEQLASADIRSIKKIIKSTGYYSIKANRIKNTSRRLVNVYNSQVPDNMEDLLTLDGVGRKTANIVLSVIFNKIDGIAVDTHVKRLSKRLGLTENNNPEKVEIDLMRILPKNIWNRFSILLILHGRKICQAKKPNCNNCMLNNLCPYFKSKEI;locus_tag=LOCUS_4760;gene=nth;EC_number=4.2.99.18;note=Q8DIE9 endonuclease III (Thermosynechococcus elongatus BP-1) [pid:51.0%25%2C q_cov:92.9%25%2C s_cov:88.3%25%2C Eval:2.2e-50],MGA_481
sequence04	MetaGeneAnnotator	CDS	4093	4428	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTRAKSRRSTRRKAPKRKAPKRKPTKKKAAPKRKAPKRKAKTPRKPKYSLLITQSQRNSRDFKVVVLKNGKVTGEPKKIIASKISSTTSNIIKYAQRKRINLSKAWNSVT;locus_tag=LOCUS_4770;note=MGA_482
sequence04	MetaGeneAnnotator	CDS	4479	6152	.	-	0	ID=MGA_483;product=dihydroxy-acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980252.1;translation=MMEKLKTRSNEVTKGPERAPARAMMKAMGLDDNDLGKPLVGVASTWNEATPCNLHLDKLAHKASEGVSNSGGTPREFISISVSDGIAMGHEGMRASLVSREVIADSIELMIHAHRYDGVVTIAGCDKSLPGSIMALARLNLPGIFVYGGTIMPGNINGKDITIQDVFEAVGSYTAGNISLEQLKEIEDNACPGAGSCGGLYTANTMSSISEAIGIALPGSASPPAIDEARNEICKKTGTALMRLLETNIRPRDILTFEAFENAIIILQAMGGSTNGVLHLLAMAREARVNLTLDDFERIRKKIPHIADMRPGGKYVMLDLDKVGGVPVIMKKLLKAGLMNGDVLTVTGKTTKENLEEFNFNETNNIVREVISPISKTGTLTILRGNLAPEGSVIKTAGVKNLQITGNAKVYNGEEEAFVDVSKNKIGEGDIVVIRYEGPKGGPGMREMLGVTAALYGQGLGEKVGLLTDGRFSGATHGLMVGHVSPEAAVGGPIGIVENGDKITIDAVNGKLDIDTTDAEIKERIKKWKGKEPRYKWGVFSKYANSVSSASEGAICK;locus_tag=LOCUS_4780;note=WP_010980252.1 dihydroxy-acid dehydratase (Sulfolobus tokodaii str. 7) [pid:59.8%25%2C q_cov:98.7%25%2C s_cov:98.6%25%2C Eval:5.1e-191],MGA_483
sequence04	MetaGeneAnnotator	CDS	6225	7481	.	+	0	ID=MGA_484;product=TIGR00300 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871002.1;translation=MMKKIRSSKYKKEIEVSGHLIDSMILTKIFDRIMDLQGDFEVKEFKIGRGKHDSSYVKLEVVGKSETHLSKMLQEIYSAGGVSVQLKNVQYRIVKKNCVMPNNFYSTTNNPTFVYMNNKWIKVRNQMMDKAIVLDLSKQTAKCTMLRDIRKGDCLVVGEEGIKIIPPERPREGLDSFQFMSSHTSTEKPIQSISSKLARDLVTIRKNHGKIIVVGGPAIVHTGAVSVLSELIRLGFVQGILAGNALLIHDVEHALFGTSLGINVAQGSYEHMGHRNHIAAVNELFSAGSLKKLVNSGKLKSGIFYECEKNNIPYVLAGSIRDDGPAPEVITDVVAAQKKYQSVLSNADLVIMLSTMLHSIAVGNMISSTVKVMVIDINPSSVTKLLDRGTGQAIGVVSDVGSFLPILLKDIKKLSKNK;locus_tag=LOCUS_4790;note=WP_010871002.1 TIGR00300 family protein (Methanocaldococcus jannaschii DSM 2661) [pid:51.0%25%2C q_cov:97.8%25%2C s_cov:97.9%25%2C Eval:1.9e-123],MGA_484
sequence04	MetaGeneAnnotator	CDS	7519	8766	.	+	0	ID=MGA_485;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249078.1;translation=MIKVKSDIVNNPYSWPIISLSLAIANMTFGFGIFFPYLPLFAESLGASLGLQIGLLTTGFMIARTLTALPFGSISDSIGRKNSIVYGLFMYGIITLLFYFSQDWTHVLILRTIQGITAGLIWPASRAMIYDLVGPGARGSAISVLNISAGVGMALGPLFGAFLILYFQSNYSLNAVDSFRIPFLFAGSFGLFSSFFAFLTLSSSSVSYPRIRLFKMIDNLDSRYVYTFYSSLLMNFSHGFAFGMFRPVLVLYIYQILGYSLLETASISAISFSLGAISNSLGQLVGGRLADNKNRKFIISIAVIFGQLATFSFIFVTNIIQLYLVVIFRFSMIGMFIPSLASLEGDIIPSNQRGQLSGLVEGFRGLGSATGPLICLAFYDYVWYGSPFVISPLLFIICLFLYFVNFKEPLQKAKV;locus_tag=LOCUS_4800;note=WP_011249078.1 MFS transporter (Thermococcus kodakarensis KOD1) [pid:24.0%25%2C q_cov:86.3%25%2C s_cov:84.5%25%2C Eval:3.4e-16],MGA_485
sequence04	MetaGeneAnnotator	CDS	8786	9310	.	+	0	ID=MGA_486;product=transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868546.1;translation=MRLLDKKKFEDSFVKISGLIGGDDYVKVARSLLSNENTTDEEITEQTGLKINSVRKALYDLFGRSLITGIRVRDVKRGWFVYRWKAQRDQVEPFVEAQKHKAIRRLSDRLDFESNNEFYHCGNPTCIKYSFTNAMEVDFKCQVCSQLLRLFDNSRLKDALVWKIDQIKTEGTEQ;locus_tag=LOCUS_4810;note=WP_010868546.1 transcription factor (Pyrococcus abyssi GE5) [pid:34.0%25%2C q_cov:91.4%25%2C s_cov:83.7%25%2C Eval:2.9e-27],MGA_486
sequence04	MetaGeneAnnotator	CDS	9485	10381	.	-	0	ID=MGA_487;product=EamA family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023177.1;translation=MNKKININFNSKRFGIIEITIAALIWGTLGIIVKSIDMEPVAIVAYRSIIAMPIMIFLLRKQKYSLKKIKEGNYKLLMLSGIAITLAWTAHFSAFKLTSIANTVILLYTGPVYVAILAPLLLKEVREKKENICLILSVLGILLIYNQGIGNELSNTGLGFGVISGILFAFVIISTKILSKHYSSLTIVGIQIIISAIILSPELLIKQEILMNNIILLLMLGFIHTALAEFLYIDGLVKISAQKASTISYIEPASAILYAMILLNEIPQGLEIIGILFIVLANIILNVKSEYISKIIKR;locus_tag=LOCUS_4820;note=WP_011023177.1 EamA family transporter (Methanosarcina acetivorans C2A) [pid:28.3%25%2C q_cov:89.6%25%2C s_cov:95.9%25%2C Eval:5.8e-22],MGA_487
sequence04	MetaGeneAnnotator	CDS	10374	11702	.	-	0	ID=MGA_488;product=tRNA(Ile2) 2-agmatinylcytidine synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066507.1;translation=MKTLHLGIDDTDSNEGMCTTYLITLILEKLMKENIKLIDYPNLIRLNPNIPWKTRGNASLCLRFKTDNPEKIFNIAKKTMIIHSESRKNKADSGLVMLSAKKIPNKIKKFSDKCLNREIKMKEMKKIIELNDITYFGQGTKRGLIGALAGIGNTLMKDHTYELIGYRKKNNGQRGVSLESLIKIDKNKKYSTFNNVDYNNYRMLITPHGKDPILFALRGNNPIGLYNAMSKLELYETVERFIIFRTNQGTNEHLKSKLNLIKIKTFESGYINGIVSMKPRVITGGHVFLQVLSNNKSINCAVYAPTVTLKKIARNLEKGDEIEMGGGISKKSKDYERILNVEYIKINNLVQKKIIHNPLCKKCKKSMKSIGYKKGYKCIKCGLQSQKIRVVKTNRDIKNILYLPIPSAQRHLTKPIERYGNENYISGTINKSPKGTWFKIFE;locus_tag=LOCUS_4830;note=WP_048066507.1 tRNA(Ile2) 2-agmatinylcytidine synthetase (Methanosarcina acetivorans C2A) [pid:37.9%25%2C q_cov:94.6%25%2C s_cov:97.9%25%2C Eval:6.2e-64],MGA_488
sequence04	MetaGeneAnnotator	CDS	11714	11944	.	-	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLAYVLINTEIGKEKICHDEIKKIEGVKEVYILYGFYDIVSIVKATNLKKLNNALKKIRQNNHVSTTETMPIIEQ;locus_tag=LOCUS_4840;note=MGA_489
sequence04	MetaGeneAnnotator	CDS	11984	13666	.	-	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSQNETISLDDISVSTRLENNIEITELGVVVINYRLTLDNFGTVDQTIKQDIIFHLPTEYYREIDAYNVISPFNHKLTISRDYNNTLIILQTDENFIIQSGEDVGIEVELVLKDIVIGVTEREGMYKVLLPIIPTSNLHIDRQDMDIVVPNSIPFYNISTTADRSQQMYFEIAEQGFDNITRIDNFSEDIFLLINEGTKSFTIGEVNSFLREIYISSKGEVMIRETIEITNAGGKGIELHKLGLNLIGPERDEFNVPIIRNITSTPSREPAIAARKTIVLQDTPINRLEIKQLTRNILGENMTAVISYEYKLDENLINTNLNSIVAEIPTSSTFKTIAKDYRIRIIQSDTYNILTDSSMEFELKGNDQLYGNNITLSYRPGFAWASNISFPVGTIIFLISLVGMMTQIEKRKEVSEDEIITKMRELTGHYSEKISLIRNILIGVKKWDKNNINIMQISNVKNEINSIRTRTAGELSVLRKDIIDLQPLQKELFNSITRNEQLLDRDIFQILQLYEQRRLNRINIQEMEKKLTNNENNVSKRMDEIISALQTNTENLDQK;locus_tag=LOCUS_4850;note=MGA_490
sequence04	MetaGeneAnnotator	CDS	13877	14887	.	+	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEGKNQDNILAIGVGNSGCKILSALEQKSDLYNFAYISSNSHDFPQSSNGMFVRINLKLGGNISPRMIRSFSQNQLVEISTNIKDADCVILTCDPGENISSALTPVILKMCSDQNIKCLSVISMPYEHEKHRHFNAGVTLTKIKQYSNHTIIIDNDEVLESLPRIPISKAFDLIYSKIALLLSSLFYENSDGLASIFEITDNDKYSILSFGESLDDNNTELAIKNALNMLSNTTNPSSISRVFLFINGNTNLSTTDVISSINMIKGQVSNDAPQISHSYSISNGSNTTAILISSGLTKTKFDDYDPISRILNNNNIDTDIEYYIDEELEIPILPD;locus_tag=LOCUS_4860;note=MGA_491
sequence04	MetaGeneAnnotator	CDS	14890	15321	.	-	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEEFDRTYNVPLGRAWIYPKQRRSKRAVKILKDFAVKHGKSEQVKISEEINELIWDKGIRNPPRKIKVRIVKDKEGLVTVETLKSTRKEETKSVNENNEIIDIKPEIEYAGVKELPKSKDTEIKQETETITEDTEINEKEEK;locus_tag=LOCUS_4870;note=MGA_492
sequence04	MetaGeneAnnotator	CDS	15476	15760	.	-	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEIENNDERSASDPQQKQKIVREQILKVLLTTEARERLANIKIVKPDTAQLIEDQIIQLASSGKIQSSVSDKQIKELLASVQKPQKEFKIKWA;locus_tag=LOCUS_4880;note=WP_052846957.1 DNA-binding protein (Sulfolobus tokodaii str. 7) [pid:44.8%25%2C q_cov:88.3%25%2C s_cov:74.4%25%2C Eval:4.2e-15%2C partial hit],MGA_493
sequence04	MetaGeneAnnotator	CDS	15801	15962	.	-	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVKNEEKINAIAAEIQSLFIEFENIYRESLDKINLMTKQIEKELSANEINE;locus_tag=LOCUS_4890;note=MGA_494
sequence04	MetaGeneAnnotator	CDS	16045	17283	.	+	0	ID=MGA_495;product=phosphopantothenoylcysteine decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249472.1;translation=MNLDIASSKGSELEGKKILLCITGSVSAMESPRIARELIKHGSDVIPVLSYSASKLIGAQLMHWATGNDVITKLTGKMEHVELANGNVDGVDLILIAPCTSNTMSKLAQGISDNPITTICNVALGANVPIVIATGMHEPMYFNPIFQDNKSKLQKYGVTFVEPLLENNKAKMADFNSIFQFILNKLYPQDLKNKNILISAGPTIEHIDPIRIIKNNSSGKTGLSLANEAKKRGANVTLIYGDGSEFPPTSIRTIRVSTSQQLLDTTINELSNSKYDFYIASAAPSDFRVISPSHDKISSRQHHSLNIELEAYPKIINSVKNISSNTKLIAFKALFTSDSKMVEQSVSELFEDSDADFVVVNDVSRKDCGFASDYNEVTIFNRNKNPTKLPYNTKKNISKLLIDYLVANSNFD;locus_tag=LOCUS_4900;EC_number=4.1.1.36;note=WP_011249472.1 phosphopantothenoylcysteine decarboxylase (Thermococcus kodakarensis KOD1) [pid:42.6%25%2C q_cov:96.8%25%2C s_cov:96.8%25%2C Eval:2.4e-78],MGA_495
sequence04	MetaGeneAnnotator	CDS	17270	18025	.	-	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIITNANTRSKQVAVVASFAVIYAIMRVIPSFPVIGAPGASFGMSDVLVPIYAIMFGPYISASAIFLGTFIGFVFGKPFIFLGWDFLPATLGALFIGLIVQKKTMIALVMFILGLTIFTLLPYTETFIPINEQLIVPYNWMHIIAVFILISPITKTALQWIENNSNRTILGLFILAIIGTLFQHIIGGIVFVTTLGIYLQSINPDAFPGIWKTIFFVYPIERILIALGSAIVATPVLRSIKPIWHKSNQN;locus_tag=LOCUS_4910;note=MGA_496
sequence04	MetaGeneAnnotator	CDS	18052	18675	.	-	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNQTIIIVIFFTLGIIIGSMSELIGLNTRNSDTQSKLNLANEKITSLENEISRLKEENSERFIKTNLRIAELTKMLSDRERIRISSIFDDAPLFFNSDIVTLAEITECTKSMRPTFDCKDVVIVYEPKLSDIEKGDIIIFKEKANPLCERYTGERIIHRVENVHTNDGKIMFETKGDGSNLSDYCLVSMEDILWKIIAIVYNTKS;locus_tag=LOCUS_4920;note=MGA_497
sequence04	MetaGeneAnnotator	CDS	18735	19577	.	+	0	ID=MGA_498;product=aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980434.1;translation=MDSNIGKESRISNLFNSYENAFIVAFDHGILMGPINGIKDIEHSVSRVVSGHPDAIQVTPPIAKILSENFLGRNNPSLIARLDTSNFWRSSPLPKTGYYTDLFSVKDAVRLNADAVVAYLLLGFQNDHDEACNLKILSKIVHEAHDYGMPLIIEPLGLAKGYGEETSYSAVRDKNIISLAVRMATEIGADLLKVDYTGDNNSFSEILDSTTCPVLIRGGPKTKTLADSLQMVYDSLELGAKGIIFGRNIWQSNNPTKTTQVYSDFVHKIISLEDASKQLE;locus_tag=LOCUS_4930;note=WP_010980434.1 aldolase (Sulfolobus tokodaii str. 7) [pid:44.0%25%2C q_cov:98.6%25%2C s_cov:99.6%25%2C Eval:2.9e-65],MGA_498
sequence04	MetaGeneAnnotator	CDS	19584	21527	.	+	0	ID=MGA_499;product=acetyl-coenzyme A synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762026.1;translation=MPNSEISSLPVDERYFNDSSSNYHAVRNSALDDSDKFWANIAKELSWFSEWDEILDWKPPFAKWFTGGKINASFNCLDRYMNSEQKNKIAYIWEGENGDKRTLTYSQLFEEVNHFASALLNLGIKKGDKIAFYMPMVPEFPVAILAATRIGATFTVVFSGFSALALADRINDSQAKLIITSDGGFRRGKVLKLKEIVDDALTKTSTVKNVIVLKRVNIEINMTENRDIWWDEAIKNTSDFVEPEQLESDHPLYILYTSGTTGKPKGVLHGTGGYLTYVYATTKWVFDIKKDDIYWCPADIGWVTGHSYFIFGPLLHGATSIMYEGAPDYPNPERLWEMIDRYNVTIFYFTPTGIRALMKHGNELPQKHDLSSLKLLGTVGEPINPAAWKWYYEIIGNKKCPIVDTWWQTETGGIMLSASPNLGLVSLKPGSATFPLPGIDADVVDENGNSLKLGEKGFIVIRRPWPGMFLTLYNDPERYKQVYWEKFSGCYYPGDYAVRDNDGYFWLLGRADEVLNVAGHRLGTIEIEDALVEHPTVVEAAVAGKPDEIKGESIVVFVILKKGNQPSEELRTELFNHVRKVLGPVATPEEIHFVNMVPKTRSGKIMRRVVKAVASGTDIGDVSTLEDGASVEEIKRTIDEFRQSVQS;locus_tag=LOCUS_4940;note=WP_011762026.1 acetyl-coenzyme A synthetase (Pyrobaculum islandicum DSM 4184) [pid:57.2%25%2C q_cov:96.3%25%2C s_cov:95.2%25%2C Eval:2.2e-225],MGA_499
sequence04	MetaGeneAnnotator	CDS	21534	21893	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKFMDDAVEIMRKGGTLLSEKCPRCGGVQVKYKGRVLCIAEDDLSENLQVTTISNDATLSNLRNIVIEKIDLISSSLSRENDVSKQAILVDLLQKYVTLLKDCENPNKIAKNSDKKTN;locus_tag=LOCUS_4950;note=MGA_500
sequence04	MetaGeneAnnotator	CDS	22375	23295	.	+	0	ID=MGA_501;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003898303.1;translation=MMLFVNIPQLIIDSILTGSVLALGAIGLTLVYRVMKFPNFVHAEFMTFGAYSAYAVNQYLHLGLLAGSVSSFIASGFLAVISYRFVFSKLQNVSSAGTTTKLTSMLIASIGLSFIFRHSIQEVWGANVLYFDIEAPAIYEYITARFTAFDLIIISSSVLLVLFLHLFLTYTNLGKSIRATADNPNLSLISGIDTDRVIYTVWFISGGTAGFAGFLRGIDTRLSPWLGWNILLIAFAVVILGGIGSFYGAIVAAYLLGFVENIGVVTLINLDLPTSYRPAIAFSILIIMLIFRPQGLFSTSSTRKGG;locus_tag=LOCUS_4960;note=WP_003898303.1 branched-chain amino acid ABC transporter permease (Mycobacterium smegmatis str. MC2 155) [pid:33.4%25%2C q_cov:96.7%25%2C s_cov:93.7%25%2C Eval:1.8e-42],MGA_501
sequence04	MetaGeneAnnotator	CDS	23296	24225	.	+	0	ID=MGA_502;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003809696.1;translation=MLNFILDALIYAGIFGILAISLNLEAGFTRLMNYGKVAFFGVGAYTSALLALNGYNFIVALVAAVIVSGFAGFLISLPTLRLREDYFAIVTVSFGEILRLFFVSEAWLTNGTRGLPGIPRPLADVISSNNYLLFYTPVVFFFLALSYLIATRIVNSPFGRVLKSIREDELAATSLGKDIFAFKTQSLIIGSSMAGIAGSLFSYHLRFISPDMFFPVLTFSIWTMMIIGGIANMKGTILGALLIQTFERGMAIIKDYLFLPIDPLNFRIIVIGFILVLFMMYKPEGLIPEEKNQSISNPLADKYGNPENR;locus_tag=LOCUS_4970;note=WP_003809696.1 branched-chain amino acid ABC transporter permease (Bordetella bronchiseptica 253) [pid:38.1%25%2C q_cov:91.6%25%2C s_cov:95.7%25%2C Eval:1.1e-58],MGA_502
sequence04	MetaGeneAnnotator	CDS	24203	24967	.	+	0	ID=MGA_503;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496773.1;translation=MGILKIDNIAKSFGGIVALDGVNFSIEKKSISGLVGPNGSGKTTLFNVITGFIPVDFGSIYFNDIDITNLSPDKIANNGMIRSFQIPRPFSKMTVIDNVLLSGRQQLGENILPLLLHKKEVIKQEEENYQRATEILNLLDLSHLTNEYSASLSGGQKKLLELARILMADPEIILLDEPVAGVNPTLANKIFEKIIELRDKYEKTFLIVEHNIDVVRDYCDYVGVMNRGKIIADGDPVKVFEDKKVLNIYLGLDD;locus_tag=LOCUS_4980;note=WP_064496773.1 ABC transporter ATP-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:47.5%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:3.9e-58],MGA_503
sequence04	MetaGeneAnnotator	CDS	24970	25674	.	+	0	ID=MGA_504;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011055908.1;translation=MFEVSKLHSGYDDTIIIEDICLDVRREEIVTIIGPNGSGKSTLLKSIFGLVKPKQGQIKFLNEEITNLKPFKIFEKGISYVPQVENIFSNLTISENLDIGFYTSKIKSPQDELDKIFTIFPQLKDKKSIRSGNLSGGERQMLAIARALIGNPKLLLLDEPTASLAPTLVSEIMEKLVQIRESGTSILLVEQNAKKSLAISNRCYVLVMGKNFFDGKASEVVDNKELGRMFLGNK;locus_tag=LOCUS_4990;note=WP_011055908.1 ABC transporter ATP-binding protein (Thermosynechococcus elongatus BP-1) [pid:44.6%25%2C q_cov:99.1%25%2C s_cov:96.7%25%2C Eval:1.7e-54],MGA_504
sequence04	MetaGeneAnnotator	CDS	25697	26878	.	-	0	ID=MGA_505;product=ethanolamine utilization protein EutJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583297.1;translation=MSNNSGSSIPQNYIILGLIVVAVIAVGLYSTMGSGGDCVVKLGHILPTSGPLAAYADGFQAGVQAAVNEANDQGGIDGCTVQLIEEDSATDPAASAAAAKKLVEVDQVKAIVGVYASSSTLAAAPIAEDGKVIMISPASTSPEVSNAGDFIFRTAPSDALQGVAMADLAWAQGHRTAAIIFVNNQYGQGLADVFEESFKAKGGSITIKVPYELEMATYRTELSQIQGTNPDLILDISYADDGQIIFREAAELGITAQWMGGDGIADPAIFEAPGVAEATQGMIGTKPASPDSPGAAAFEALLEQYGLEAGLYSAEAYDAAKLALMAIDEAGADASGESIRSALISVANGYVGASGDKTFDSNGDVGGTYSLWKISGGAFVDIGSWDPAGVKLD;locus_tag=LOCUS_5000;note=WP_012583297.1 ethanolamine utilization protein EutJ (Dictyoglomus turgidum DSM 6724) [pid:33.5%25%2C q_cov:92.1%25%2C s_cov:95.7%25%2C Eval:2.2e-46],MGA_505
sequence04	MetaGeneAnnotator	CDS	27148	27663	.	-	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVFAIFIENLSELGYLGALLAGFLGSSTLFFSVFPSFITIPIIGSQLNPLFVGIIAGLGAGVGQYLHYYIGVGGRKLFELKKISLSKYKIPQFYNRQKKKGYWEERIKKYGVGIIFIFAATPLTPDDLLWIPLGIMGYPKVPALIAAILGKITLNLLYAYTGFFGLELLK;locus_tag=LOCUS_5010;note=MGA_506
sequence04	MetaGeneAnnotator	CDS	27706	28971	.	-	0	ID=MGA_507;product=gliding motility protein GldE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583682.1;translation=MLEPINLTILIILIILSAISSGSETALVSLNKIKVKTLFKQNKKGSKALMRLKKEPKKLIITILILNNLVNISAAAIATMIAIETFGSVGLGIATGIMTLTILIFGEIIPKSYATSNNEKFALIISRPIEIITILLAPLTIPLMKLSDFITRYDDNNVTPTTTEEEIKIILDVGEQEKIIEKHEKQYMKGVLKSGETTAREVMIPRKNIFVLESKMNIDQSIKKMIESGHTRAPVIEKSKDNVTGIVHLKQLLVAQQKGKGEKNISHVLKSPIFVSQREIVGKLLRELQSKREHMAIVLDEFGGVEGLLTLEDLVEEIVGEILDESDKVFGTIRKINNYTIIANGETDIEEVEKFFKIEFTGIEGASNINGILHNLLKDMPKQGDKIESNGLLLIVEKLDNNMASKVRIIKKIQMNKNNKL;locus_tag=LOCUS_5020;note=WP_012583682.1 gliding motility protein GldE (Dictyoglomus turgidum DSM 6724) [pid:31.6%25%2C q_cov:93.8%25%2C s_cov:94.4%25%2C Eval:2.1e-58],MGA_507
sequence04	MetaGeneAnnotator	CDS	29056	29511	.	+	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546787.1;translation=MIEEQLNQLGLTLPEVPTPVGSYIPSVRINDFVFISGQIPFLNGNILTGKLGDDVSIEEGYERAKICALNALSVVKAEVGSLDKIKRIIKVSGYVNCIDTFTDHPKVINGASDLFGELFGNSGRHTRIAIGNNSLPLNSSVEIDVIFQILE;locus_tag=LOCUS_5030;note=WP_012546787.1 hypothetical protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:47.3%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:4.2e-36],MGA_508
sequence04	MetaGeneAnnotator	CDS	29542	30318	.	+	0	ID=MGA_509;product=coenzyme F420-0:L-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065736.1;translation=MNSIKLSPIKVKLQDSQFDLINLISESLKLNLEHLQDDDILCISSKFVALSEGRCVKLSDIEVSSSADKISKKYNIDSHLSELIFRESDKIFSGIDGFVLTIKNGVLVPNAGIDTSNIMSGYAILYPENPSKSAQNIKSELEKLFRIKISVIITDSRLMPTRIGTTGIAIASAGIDFVQDERGKKDLFGNSIRVTQKAIADDLSSAAQLLMGECDESIPIVIIRESGLNMTKNEDLTQSFSVGIDECIFVKGLSELKL;locus_tag=LOCUS_5040;gene=cofE;note=WP_048065736.1 coenzyme F420-0:L-glutamate ligase (Methanosarcina acetivorans C2A) [pid:36.5%25%2C q_cov:96.5%25%2C s_cov:91.5%25%2C Eval:3.6e-43],MGA_509
sequence04	MetaGeneAnnotator	CDS	30320	30490	.	-	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFEVICENCGHMIYQGMELRYVNDIIKSNSGKCRSCNNIFLKKNFKTEIINNINK;locus_tag=LOCUS_5050;note=MGA_510
sequence04	MetaGeneAnnotator	CDS	30532	31155	.	-	0	ID=MGA_511;product=phosphoglycolate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003020315.1;translation=MLKAVLFDLDGTIIDSNKAIFETYRQVSVKLNKEPPTIEILRSLLGQPSHINLRLLFGDNTHARAIYNEVVKKTHENLPTLPYVKETLDKIDMPMGIVTSKRKENALEILGELIEFFTILITPEQTIKQKPNPEPIYLACKKLSIKPEESVYIGDTIRDYQTALNSGTEFIALIDKGSTSKQFDEIGAKNQVISFNLIPDMIKKLQK;locus_tag=LOCUS_5060;gene=gph;EC_number=3.1.3.18;note=WP_003020315.1 phosphoglycolate phosphatase (Francisella tularensis subsp. tularensis SCHU S4) [pid:28.7%25%2C q_cov:82.6%25%2C s_cov:83.9%25%2C Eval:4.0e-17],MGA_511
sequence04	MetaGeneAnnotator	CDS	31244	31558	.	+	0	ID=MGA_512;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867802.1;translation=MGQSARIKLTSSNLPNLQIVCREIKNITNRTGIKARGPQPLPTKKLKITTRKAPSGNGTSTFDRWQLRIHRRLIDLDADDRTMRQLMRLKIPEDVFIEVNLSNK;locus_tag=LOCUS_5070;note=WP_010867802.1 30S ribosomal protein S10 (Pyrococcus abyssi GE5) [pid:58.6%25%2C q_cov:95.2%25%2C s_cov:97.1%25%2C Eval:4.1e-31],MGA_512
sequence04	MetaGeneAnnotator	CDS	31773	32099	.	+	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAISPKIINDDDFTQTITNNQLVVVDFWAEWCGPCKAMNPIIEELSSIYEKQVLFAKINVDQNPIIPSKYEISSIPTFLIIKNGQIMNSIIGVVTQEIFEEKINEYL;locus_tag=LOCUS_5080;note=WP_010878779.1 thiol reductase thioredoxin (Archaeoglobus fulgidus DSM 4304) [pid:47.3%25%2C q_cov:84.3%25%2C s_cov:67.9%25%2C Eval:3.6e-22%2C partial hit],MGA_513
sequence04	MetaGeneAnnotator	CDS	32122	32991	.	+	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILKNLTIRKGLLSDQLEIRNLCKDIWNDHDFLPEVWNHWIINDIGIFIIAELNHEIVGVYHFYTLDSDSWIETLRVKDNYRRQGIAKYLVNDYIDRSNQLQFETLRLVTSINNSASLSLFHSFDFNEILYPQYLHLDDNLIDSTTDSKQYVIIDDKEDIFSILKNIKINNNLIPLWWRWWNPNNVTLYECAKNSFAIISKSDPSSFILIQHSKNFGYKDDYQLLFFNISSDNLKNSLFYLKTCFSDLVNKKIFCIPDTNSADLQLLENLGFIKGTKLVVLEKSINSI;locus_tag=LOCUS_5090;note=MGA_514
sequence04	MetaGeneAnnotator	CDS	32978	33565	.	-	0	ID=MGA_515;product=ATP--cob(I)alamin adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173934.1;translation=MYSLNYYMYISIILKIYTKGGDKGKTNLFGTAVRISKASKRVKSYGDIDELNSFIGLIISLDSPDQFNDIKKELQKIQNDLFRIGTDLATLSETTKGIKKINKKDVIKLENIIDNYSKELKPLKNFILPGGSSLSSLLHVSRTICRRAERNIVELSEIEDINEEIISYLNRLSDLLFVLARISNKILKIKDIKWN;locus_tag=LOCUS_5100;note=WP_011173934.1 ATP--cob(I)alamin adenosyltransferase (Thermus thermophilus HB8) [pid:47.5%25%2C q_cov:92.8%25%2C s_cov:96.8%25%2C Eval:1.5e-36],MGA_515
sequence04	MetaGeneAnnotator	CDS	33614	33841	.	+	0	ID=MGA_516;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846912.1;translation=MSVDMSVKVLEESLGKIVLIKLKGNKVIRGSLQGFDQHMNLTLDDSQEVIDGDNANDLGTIIVRGDNVILISPPP;locus_tag=LOCUS_5110;note=WP_052846912.1 RNA-binding protein (Sulfolobus tokodaii str. 7) [pid:59.1%25%2C q_cov:88.0%25%2C s_cov:88.0%25%2C Eval:1.5e-17],MGA_516
sequence04	MetaGeneAnnotator	CDS	33851	34018	.	+	0	ID=MGA_517;product=50S ribosomal protein L37e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878375.1;translation=MVKGTTSFGKHGRGQTHMRCRRCGRHSYHLTNKKCASCGFGKTPKIRQYNWLHAK;locus_tag=LOCUS_5120;note=WP_010878375.1 50S ribosomal protein L37e (Archaeoglobus fulgidus DSM 4304) [pid:52.7%25%2C q_cov:100.0%25%2C s_cov:93.2%25%2C Eval:6.0e-14],MGA_517
sequence04	MetaGeneAnnotator	CDS	34083	34865	.	+	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTFEIIIALFGGLLAGTIFSLLLSKFSKSNVNLTTTNVANHKNIPSISEKFETEQARIRYKTLKLEKELHTDALGRIFQAEGDGRITKQERELLSERYREQIKTLDNSLQDSELILEASELETLHVELTNLFTKKLSQIERRLNELLIKLETVKTFSKQEITPIQSEIDKTNESSIEEPPLITKKDISPIRVTNTQAISDHKIVKKVVIGEKLSQENLQPVKKSTIKKPKDTPLADEKVDAIRDEVLDALQRLEQLDVE;locus_tag=LOCUS_5130;note=MGA_518
sequence04	MetaGeneAnnotator	CDS	34866	35093	.	+	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKYLAKLFDDLNIIDIENTSQIELPDDNPTNPRTLISFNERKKMKSLINHENFSVNKISHIKKQKSKLSIEYK;locus_tag=LOCUS_5140;note=MGA_519
sequence04	MetaGeneAnnotator	CDS	35099	35773	.	+	0	ID=MGA_520;product=ribose-5-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021687.1;translation=MSKEEAIIKMGEQAAQKIQDNQFVGLGSGSAVAAFVNALGKRIEEEKIEVHGIPTSMQIEIIAQNNGIILESPSIIPKIDIVVDGADEIDKNYVMIKGGGGAHYREKIMIEAAKESIIVADSSKYVDVITWPVPLEITEFSRFFIEEQIKKHGGNPIIRTLNKGYPLFTQNGNLVIDAHFGKISEPKKLEQLLLNIPGIIENGIFSMKIDTFFRANEDGSVDIV;locus_tag=LOCUS_5150;gene=rpiA;note=WP_011021687.1 ribose-5-phosphate isomerase (Methanosarcina acetivorans C2A) [pid:39.1%25%2C q_cov:95.5%25%2C s_cov:91.5%25%2C Eval:7.3e-39],MGA_520
sequence04	MetaGeneAnnotator	CDS	35798	36103	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDKLSQKLLYNSIIEVWVALCHDLNYDWQDKQIFNSFMTFLRNNDFDIKSLGVCPSGSELKEQYEKKVSIIFGNPNASFVIKTSPETINKLRQFTNAIN;locus_tag=LOCUS_5160;note=MGA_521
sequence04	MetaGeneAnnotator	CDS	36137	36475	.	+	0	ID=MGA_522;product=iron-sulfur cluster insertion protein ErpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P45344;translation=MSQTQIVSISQKAVDKVKEFSKNEEKNTTGLRIYVAGGGCAGLTYGLALEEKSTKEDIVIKIDGLMLFIDPFSAKYLKGSSIDYLESIESSGFKINNPNVTSTCACGKSVSV;locus_tag=LOCUS_5170;gene=erpA;note=P45344 iron-sulfur cluster insertion protein ErpA (Haemophilus influenzae Rd KW20) [pid:44.3%25%2C q_cov:94.6%25%2C s_cov:93.0%25%2C Eval:1.9e-23],MGA_522
sequence04	MetaGeneAnnotator	CDS	36494	36994	.	+	0	ID=MGA_523;product=protein phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846895.1;translation=MLIGDLYRKIYGLLFSKPTNFKWIINNQLVGSGIINSTNELSFLLNNNIKAVLTLTMTPLSKEILSNQSIIYKHVPIVNHSLPSTNQLIESIDFINDCLDNNKPVLVHCRAGIGRTGTILAAYFINQGWTTEESIYHVRKLRPGSIEEHQIKSLNIYYDYLKNKLL;locus_tag=LOCUS_5180;note=WP_052846895.1 protein phosphatase (Sulfolobus tokodaii str. 7) [pid:26.1%25%2C q_cov:85.5%25%2C s_cov:95.5%25%2C Eval:1.4e-07],MGA_523
sequence04	MetaGeneAnnotator	CDS	36999	37493	.	+	0	ID=MGA_524;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870950.1;translation=MKIRFLSKREINSLIEELNNYSLIIDCPKIKQIKSFELNNKIEVFHSDYFIIVKAQEHYFPFLKDFKTIDKLPKIIVDKGAIPFVCKGANIMRPGIKEIDDSFKQDDIIVISEELHTKNIAIGKSMYSSDEILNLEKGIVILNLHFVGDNIWNICKELNFSSIS;locus_tag=LOCUS_5190;note=WP_010870950.1 RNA-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:32.7%25%2C q_cov:93.3%25%2C s_cov:98.1%25%2C Eval:2.2e-18],MGA_524
sequence04	MetaGeneAnnotator	CDS	37542	37838	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTALKIDKDPINKNKQMYLKAIQLKNIDQIPDIKNEISQNMIIILRITPLAQKNVRDLKNAVEELYSYVSTIGGDIARLGDERVVLTPPGVKVWRGIS;locus_tag=LOCUS_5200;note=MGA_525
sequence04	MetaGeneAnnotator	CDS	37835	39745	.	-	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876827.1;translation=MVLSKSQELMTTILQALPPEAEITRVEYEGPRISIYTKNYEFLTSNNEIIADIVNIVKRRLVIRTDKSIRKEENAATEILRNSIPEGIELGNLYFDDALGEVIVEAMEPQKLTNNPEINLHKLSANIGWKIQIKKGSDLPSTSIKTIYYVRQVESENRSQFYRDVGEEIFRPKLSQGSSVTLLSLGGFNQVGRSCMLITTPESKILMDCGILPNAKNSWDAYPRLDWADFDINELDAVIISHAHLDHSGYLPVLFKYGYRGPVYCTEPTLALMSLLHNDYVKIAAHERAQVLYEGRDVKKMIQHTITLPFGLVTDISPDVKLVLNNAGHILGSATSHLHIGEGLHNVVYTGDFKFAKTKLFDETVWNYPRVETLIMESTYGGKADIMPTREQMEANLVNSINSTLKNGGKVLIPSPAVGRAQEIMLVLDQQMREKKLIECPIYLEGMISEATAIHVASTEFLSRDLRNSISKGQGNPFQSEYFTIIDHHNKREEVLRDEPSIIMATSGMLEGGPVMRYFEELVPIEKNKLIFVSYQIAGTLGRRIMDGTNEASIVDQDGKLKIVNLNCPIEKIDGFSGHSDYNQLIKFIGKLRPKLRRVIINHGERSKVENLANSISRIYRIRTQRPEVQEAIKLI;locus_tag=LOCUS_5210;note=WP_010876827.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:43.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:2.1e-159],MGA_526
sequence04	MetaGeneAnnotator	CDS	39732	40403	.	-	0	ID=MGA_527;product=proteasome subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877988.1;translation=MYKENEIPKQVHGTTTVGLVCSDGIVLTTDTRASMGYFIASRTVNKIAVINKHCALTIAGGVADAQYVVDQLKFQSNMYKLEKTYNLPIISAARLTSNLFFSANHQLSPYFADILIGGIDQEGPQLYNIDVFGTLTKEKCYSTGSGSPVAYGIIESEFKESLKVEEAIPIAVKSVYGAILRNAGTGDGLNIVTIKENNLKVYSIEEKQKILKEISGRQRDGIK;locus_tag=LOCUS_5220;note=WP_010877988.1 proteasome subunit beta (Archaeoglobus fulgidus DSM 4304) [pid:44.0%25%2C q_cov:89.2%25%2C s_cov:93.0%25%2C Eval:4.1e-42],MGA_527
sequence04	MetaGeneAnnotator	CDS	40581	41363	.	+	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAVTSGLLQLVLITIAILISSFIVNGYPEPKPPDPELLPMHTIVVETWNNEKNLGKPFETTAASSISVVFYPWDEFGVTDKISVTGISNGTGLVTVIVEEGIYDLKIGEWTTETVEIFENHTIVVHHFDLETLPDIIEINALSHDWQATVDDIISITYTSSFDFIVNLDSVKMSGLDMNNVFCGLEDLSEGEQAAVPVGAIDDLYASDSGCDDEVSILPSETWFDDFIVPVGVSIPWSIVKSNPEITLRISYTELSIDE;locus_tag=LOCUS_5230;note=MGA_528
sequence04	MetaGeneAnnotator	CDS	41356	41784	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDPFTTVIIILQPYNSVLSAGLFIVLLSEFFLLRNDIVREKIVKQKIQFSRKFDERFLKIYKTIQISAFTSGLPQRGSYTIRELIDYLISQNPTDDNLLHSMRLSMEKYAYGNVLIDKSQYSIISKWLSSHKTSSLSRARV;locus_tag=LOCUS_5240;note=MGA_529
sequence04	MetaGeneAnnotator	CDS	41781	42752	.	+	0	ID=MGA_530;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250797.1;translation=MITEIKNISDIQNATNELEVEISKYVVGWSSVIKFLVIGMFTGGHVLIEGVPGTAKTYLAKIFSDTINLSFKRIQSTPDLMPSDITGSYIFNVKTLEFDFHSGPIFSNIVLFDEINRAPPKTQSALLEVMQEGQVTIDGETSILEQPFMLIATKNPIEFAGTFPLPPAQLDRFMARLIMNYPAKEAWIDILEKKNIRGEVVEVDQIIDASSVISARNIILNQVTVSDDVLNFISQLCNSTRNSSHIILGASPTASVSLLNAARGHAAIINGKDNVTIDDVKAVAFDVLNHRIIVRDLEEGQDSKDYGISKIQNILKSNMETIG;locus_tag=LOCUS_5250;note=WP_011250797.1 ATPase (Thermococcus kodakarensis KOD1) [pid:46.9%25%2C q_cov:94.1%25%2C s_cov:96.2%25%2C Eval:1.3e-70],MGA_530
sequence04	MetaGeneAnnotator	CDS	42758	43729	.	+	0	ID=MGA_531;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250797.1;translation=MTDSINSLSDIIKISKDISSGMNKTIVGLSNHINTLTLALLTGGHLLLDGLPGTAKTSLAISFSQLLSISTNRIQSTPDMMPGDVTGTRIYNPKTLEFDFHAGPIFANMVIVDEINRAPPRTQAALLEAMQEGQVTIDGETSILEQPFMLIATKNPLEYEGTFPLSPTQLDRFMFRLNLGYPSIDDEVNILKNKTKTVENIDSIISKDLIVQAKKFIIENISVNDDITDYISKVVQSTRVKEGVILGASPTASVSLLNAARGHAAIINGKDNVTIDDVKAVAFDVLNHRITIKQFDISDSGSDPSENLTIEKVISEILGNGEE;locus_tag=LOCUS_5260;note=WP_011250797.1 ATPase (Thermococcus kodakarensis KOD1) [pid:44.1%25%2C q_cov:85.8%25%2C s_cov:88.0%25%2C Eval:1.1e-64],MGA_531
sequence04	MetaGeneAnnotator	CDS	43733	44716	.	+	0	ID=MGA_532;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250797.1;translation=MINSIKTIEDLKNLRDSLRTEIGSSVVGLDRIIDSLIISIIVGGHVLIEGFPGTGKTLIANLFSKSIQSNSNRIQSTSDLMPSDITGTHIYNPKERIFEFREGPIFSNFVIVDEINRAPPKSQSALLECMQERQVSVEGTTRKMDEPFMVMATKNLIELEGTYPLPEAQLDRFLFRLIIDYPDEKSEAEIVKRKISGFPDINPVVSKDAILDAKNLIHSGINTEKNVLEYISSIVQNTSNIPKVILGASPRASVALLYASKGHAAITEGRSYVIPDDVKAVAFDVLNHRLILQQNATLDLDDSDSNSATKYLRKLIKDCIDDVNIAV;locus_tag=LOCUS_5270;note=WP_011250797.1 ATPase (Thermococcus kodakarensis KOD1) [pid:49.1%25%2C q_cov:87.8%25%2C s_cov:91.2%25%2C Eval:4.5e-71],MGA_532
sequence04	MetaGeneAnnotator	CDS	44723	45955	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKHIRLLMGFFGLMTICSLALLPDATLTMLSVMLALSINLVLFKYLKPSNNFEITRVFDKYQVMPPDDIHTTLDIKYSGRFPANASVEFDCQSLGLNVNTGTVVFQPGEKYDISKTFVADRRGIHKISNTKIVVKDWLLLSGIDIKSNDEAEILVLPHIYPFETSPQTSAAGLLGVSSTIKQGRSSEVWGIRDYQPGDDFKIISWKAMAKSPDHKPKSKITAGEEGQAITIVSDIGKDTELPNGEHISLDIAADLAASLSYNFIKRGTRTGLVLFDTRARVVLKPARGDAHVDSLLRNLAKVQPTQDKFLITSFTNSYLDFSTSEFGNSFILILSRTDDRLIESYLSKLKSNRDLIIILIYNEDNFERAQQIQKTVQNNGIEVILSNHASVKDTMKKMEEWSYATVKRA;locus_tag=LOCUS_5280;note=WP_011250796.1 DUF58 domain-containing protein (Thermococcus kodakarensis KOD1) [pid:25.3%25%2C q_cov:65.4%25%2C s_cov:57.2%25%2C Eval:3.3e-08%2C partial hit],MGA_533
sequence04	MetaGeneAnnotator	CDS	45933	46772	.	+	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPLRELRTYVSLLSVIPIAVMIANPVVLSTFISYLSSLAFFSAFGLIAVYLLLKQVGFIKSLGPNTQVFFESMLLILPIIIPMFTILSTGIPLDFIAAFLAYLVIGTVVSLYRVVLGSGIGAFGKVLYFFFAYLMALMIYAGCVAGQLTGEQFSLLLAFDQIAGIAVYLGYEGYPLELPLAQYVKIGMAFAIPGITFSALAAQVRLSEVKDNPGGDSKMISSLRPAIALLTLGSAILLIPVYLIAFAISNFAPYLVTIIPPVLVMGFILLSLYFVERD;locus_tag=LOCUS_5290;note=MGA_534
sequence04	MetaGeneAnnotator	CDS	46772	48775	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKISSILFIFILLSAFLVFPVSFSQVADRECPASAACDPEDFPFDELTNTMEDFAHLGFDKQSITIPASGSFVVVGPEEELFILSEKGLIITLTTPEGEIVYDGFTRGLEISTIPLPQLKSGETLTLQLTMLEMPMDLLRDAGVFPGDNPLFVGDRAAACINVQNELDGLYKGIQDRRSEITALRNIPGGFQNQTIQSLISRYTNQNQIDLDLIAELNSLFEVGGCERVPRDEQERPENRPTPDDQQVFQKATVVVLGVNELNDFDPTLELAGSRVFLSKPELFEFALLEPSDGYKVLSGQFGTLEYPSVISPGETFTIRYNNTAQDFEPSGETIDFVLETTRKFVINSKTADFVTSIEKNGSVVSTTLTLTDSPTVYFNLMVPELGMSGNGDSPVQFGLHFFHVHSDFTGAGTLNAYLPVYIAPSSEYNLIGYSLASEEQFIIDLENYVPNSPELFIAGKSYGVSTFATSQEFQLPITSIVISDNLGPITAYDIEINDDFATSVFDGKMFVLGNSNDDQFSISSLKIFNFTVDNYTTNMDSDVFGFPNELAIFANINTIDISVLDEFEQPYVEGQILIQKGNEEFLADLLSIPRLKLPNGDYVITHIVNDEIKSTREITISSSGLIEFNVSTLEQQDQILTIVIILESIVIAYLTLRVLLKYFRG;locus_tag=LOCUS_5300;note=MGA_535
sequence04	MetaGeneAnnotator	CDS	48776	49117	.	-	0	ID=MGA_536;product=methionine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880236.1;translation=MRNLVVNSINFNDFTKMEIKVGKILEAVLVSGSNKLIKMKVDIGEEERNLVAGIAQYYSLEDLIGKTVIVLVNLEPKTIFGIESQGMLLASIDGENVSLLQPDKDMKIGSVVG;locus_tag=LOCUS_5310;gene=metG';note=WP_010880236.1 methionine--tRNA ligase subunit beta (Aquifex aeolicus VF5) [pid:52.0%25%2C q_cov:90.3%25%2C s_cov:91.9%25%2C Eval:9.5e-28],MGA_536
sequence04	MetaGeneAnnotator	CDS	49367	51634	.	+	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGFGNAVTGVPQAEAAGANPNANVAAGNWEWINRGPDGGSFMPQDQITSDTVQYLEMKWLYPFQAGVDTTFPNTVQEGASAPPITVDGITYVGKNKQDVVAIDTKTGKQVWYSDVIPNHVDFDAWLAEFPYMQGQYGHTHAMNYYRDTNTLILSSAPCWLKALNADDGTLAWSLGPEILCGTQAEMGNPLGAMGTFKSKGYMSAIQNHPPQIINDIVVWPSFGASGRGGRSSLIGIDISNPSNPVEVYRNWLMPPMDGSQPNWAQDQCDRTNGQVWYFEYPKYIASGGTHLALNCRDAPADAIANDWINLKPNTPHTGEIHTASAFSVVWGNMPYSAQHDLVYMGTGDVGPYPNSTLKFGPNLFGSSLIAVKASTGELGWGFSMLPHDLWDMDCSWGGALREINGVEVYIASCKNGIVVGLNAGTGEPIWVIDPKSIARNMKGWNYGGDSSLGVSGNGGVQVVGPDACCDITFAHMSKDWMNQNSPDCAAGSQTDCDGIAQGPNAWAHIESDMAIDDKYIYMGVQNSPREFQIKNVVDFGNQGSTIQQIEPKNSSIHAFDWRTGNEVWSTYIEGVSYRGGVMVSGGVVYAYASDGNLYMLDSDTGEILNIKLFGVPISVLPTIGADSDGNYKVLAYIGGGGGFLFASNQLPGSLAAFGNPDKLPEVPEAEIIIQVEEVVVEREVEVQVEVERIVEVERVVEKEVPVEVIKEVEVVKEVTLPAEEVISPVSYVAIGLGVVLVVVAGVIYSRSKAS;locus_tag=LOCUS_5320;note=WP_015705583.1 glucose dehydrogenase (Enterobacter aerogenes KCTC 2190) [pid:31.7%25%2C q_cov:17.5%25%2C s_cov:17.5%25%2C Eval:1.4e-11%2C partial hit],MGA_537
sequence04	MetaGeneAnnotator	CDS	51767	53416	.	-	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDNIIITSALPYANGEIHLGHIVSTYLPADILSRFYRQMGKNVVFTCATDDFGTPILLQSEKQNLTPEKYVEYWKNRDLKDFVDLGIEFDDFQNTSSKENIRLTQHFFNQINNNKLIYKKEINQLYCNNDKKYLPDRYVLGTCPYCNEENQYSDGCEKCGRAFNHSEILKPRCAICQNQPILKTSLHYFFKLSALSNKLKTWLEDNQNLQTDVKNYVIKWIEDGLNDWDITRDISWGVKIPLDEAEGKVLYGWFDNHICYISTTIEYLNSKNINGKEFWNNSTIYHFIGKDIVYHHYLFLTAMRLAINEEYKLPDYMPTRGHLMLQGKKFSKSRGMYISLREFLDEFPADYLRYYLTRITPYDQSDVNFDWEDFQVKINNELVANIGNFIHRALSFTNSKYNNMVPEPKEYDKDDEELIKLIRNSKDEIQENINRNQIDRALKIILNLSDGCNKYFQKKEPWRGNSNNTIYLSINAVCNIGIMLYSFMPFSMKKLYKTMNVNDETVNWNNCSQLMIEPGHVINKPEILFEKIENQLIKKQKNKLQYKN;locus_tag=LOCUS_5330;note=WP_010868104.1 methionine--tRNA ligase (Pyrococcus abyssi GE5) [pid:41.0%25%2C q_cov:95.6%25%2C s_cov:74.9%25%2C Eval:7.7e-115%2C partial hit],MGA_538
sequence04	MetaGeneAnnotator	CDS	53503	54219	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISIIVPAYNEGLHLLKNLTKINNSFQFNDFYDYEFIICDNNSTDNTSIIANEFGAKVIFEPINQISKARNTGAKIATGEWLVFIDADSWPSRYLIRNMLDQIYMNKVIGGSSLIQFASCPLWWRATWKLSNFSMPLFDLTPTGAFMFCKKSTFHEIGGFDEELFALEDLDFSRKLRNFGRLIDKKFTIIKQPTYTSSRRVNDFKPRDIVKLAVLLSKSGKSTLKNKNNFLQWYSRK;locus_tag=LOCUS_5340;note=WP_010876517.1 teichoic acid biosynthesis protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:31.6%25%2C q_cov:84.5%25%2C s_cov:33.2%25%2C Eval:4.3e-16%2C partial hit],MGA_539
sequence04	MetaGeneAnnotator	CDS	54261	55292	.	+	0	ID=MGA_540;product=alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880876.1;translation=MKASLFYKYGSPDVLEFDDIEDPIVDNNEVLVRVKACSINHLDLWIRSGKTGYSDIKLPHILGCDISGIIEDSGNASGISNGDEVVVAPGTSCGNCNQCLQGQDNFCREYSIIGGWGRKGGYAEFASVPIQNIMTKPKHLSFEESASIPLTFLTAWNMLVKRAQIKTGEIVLIVGGSSGVGSAAIQIAKLFNCYVFATAGTEEKLIKMKELGADFVINHSNDDFGEIIRENTNRAGADVVFEHVGTATWSRSIDSLTHGGRLITCGTTTGSETDFDIRMLYRRQLSIMGSFMGSKGDLFHLLEFINIGALKPVVGNIFPLKDASKAHDLIENRQHFGKVILKI;locus_tag=LOCUS_5350;gene=adh1;note=WP_010880876.1 alcohol dehydrogenase (Aquifex aeolicus VF5) [pid:47.8%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.8e-89],MGA_540
sequence04	MetaGeneAnnotator	CDS	55323	56639	.	+	0	ID=MGA_541;product=aspartate--tRNA(Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496866.1;translation=MKSEKSNSKKLTRTCYSKDISPDFDNKKVTIIGWLVSIRKQGGIYFIMLYDSTGPLQLIIKKGISSDEIFTQAETLKEHSSVAVLGTIKNNQKAPNGIELHPEEISVLSVSNKVPPFSLYGGQLPNIDKRFDIRAVDLKRPSAQAIIRLRAKSLQSIRNFFINNDYLEVNTPKIIATATEGGSALFPMLYYDKEAFLTQSPQLFKEQLILPFEKVFEIAYAYRAEKSRTLNHISEFISVDMEQAFVNYKDVIITIQELLINLKNDLLDSSLDKLQKLNSVDWTNFDKIPVITYNEAIDIIKVDDPTIEWGDDLSSKSLDILSQKYQSFYYVIDWPSSGKPFYIKVEGDYSESFDLMFGNKELASGGTRVDNKDELRVRLEQKNLNPNGFEFHLNVFDYGMPPHAGFGLGFERLMMIVANQDNIREVSIFPRDQHRLSP;locus_tag=LOCUS_5360;note=WP_064496866.1 aspartate--tRNA(Asn) ligase (Methanocaldococcus jannaschii DSM 2661) [pid:39.0%25%2C q_cov:97.9%25%2C s_cov:99.8%25%2C Eval:3.8e-90],MGA_541
sequence04	MetaGeneAnnotator	CDS	56646	56921	.	+	0	ID=MGA_542;product=aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879817.1;translation=MKDKKIIDSKKYSELSKIDLSSEEAEILNEQFPKILEYFDLLSQIDTSKIDHIESISNVFREDIVHDSIADEILDILNFKKERFVKGPRMI;locus_tag=LOCUS_5370;note=WP_010879817.1 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C (Archaeoglobus fulgidus DSM 4304) [pid:35.4%25%2C q_cov:86.8%25%2C s_cov:88.2%25%2C Eval:2.2e-08],MGA_542
sequence04	MetaGeneAnnotator	CDS	56925	58268	.	+	0	ID=MGA_543;product=aspartyl/glutamyl-tRNA amidotransferase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066007.1;translation=MNDLASKFEDIKEKNKSINAYLTFSNLNTEQLIKNGKLSGKTIAIKDTISTEGLRTTCASKMLENYIPPFDAHVVTLLKKHGVVILGKTNCDEFAMGSSTEHSAFGPTFNPHDLERVPGGSSGGSAAAVAGNLADLALGSDTGGSIRCPASFCGIVGLKPTYGLISRYGLIAYGNSLEQIGPMAKTVYDCALLLECISEYDNRDATCVKTKNIDYTKNLDEDINDLKIAVPKEFFGNGTDKVVESNVWDTIKNLESEGAIVEEISIESVKYSLPAYYIIAMSEASSNLARFDGLRYGLHSGKSKDWNELFSKNRKLGFGFEVKRRIMLGTFALSSGYFDEYYIKAQRVRSLIANDFKRIFSKFDVIVSPTMPTLPFKIGEKITDPLTMYMSDVDTVSSNLAGIPSLSVPCGQSNSLPIGIQLMSTHFNEKLILNLGNKIEQLRGMVN;locus_tag=LOCUS_5380;gene=gatA;EC_number=6.3.5.-;note=WP_048066007.1 aspartyl/glutamyl-tRNA amidotransferase subunit A (Methanosarcina acetivorans C2A) [pid:53.7%25%2C q_cov:98.2%25%2C s_cov:93.1%25%2C Eval:1.4e-132],MGA_543
sequence04	MetaGeneAnnotator	CDS	58265	59683	.	+	0	ID=MGA_544;product=glutamyl-tRNA amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846244.1;translation=MNNSLEGVKIGLEIHCQLTSLNTKMFCNCSSNYRGKEPNTMLCSVCTGLPGSLPVLNKRALEAAIKIGLALNCKISNFSNFFRKNYFYPDSPKNYQITQYDKAGGMAIANKGHVETNLGHVRITRIQMEEDPGKLQYEGSITTSSNTLIDYNRAGISLVEIVTEPDIVSPKHAREFLNTIQSIVETIGECDSSFDGSMRADANVSISGGRRVEIKNISSFKEVERALNFEITRQKTLQAANKMETRHWDDVRRVTVTLRVKEDEEGYRYFPDPDLPPMMISEDYISGLQKSLPELPEKRYLRFENEIGLSNEIARILVKNKDIADYFEESLKYGNYPKLISSWIATDILGYLNRNDLNFNDLTVTPNMIAELAKSVSNSKINESAAKSILIRSISSNEDILTLLESELTNSVNSEELVNIVENVFQNNPKAVNDLKSDSQAIHFLIGQVMKITKGRVNHEDVKKLIEEKLDC;locus_tag=LOCUS_5390;note=WP_052846244.1 glutamyl-tRNA amidotransferase (Sulfolobus tokodaii str. 7) [pid:47.0%25%2C q_cov:98.1%25%2C s_cov:99.2%25%2C Eval:1.4e-114],MGA_544
sequence04	MetaGeneAnnotator	CDS	59866	60963	.	-	0	ID=MGA_545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979465.1;translation=MSNDMVETNLDSLVSIIWLPIFMFLIFYGQRIQMFLMLRNIGKKLTQLEKFNVDSKNRVLESLIDHSKDKKLTKERFDILLQSFVIPPVSMDPKGIMNKLEHILDTQEDNLKNELKIMTKDTDDVDISVLMNLVEVSIGINLMYKYVRHFYISGKKTGSPMIIAQIQMVLHEIMEQAEAYNAAIPSLKAKKPIGDGIGPLVASKLSGESESNELVKDTTVNEVIIENRNAFIVKAKGPGGNVGKPGEAIKKIVEMKNDIALIITIDAALKLEGEKTGEIAEGIGAAIGGPGVERYKIEEIATNNKIKYLAVVTKMSEKEAITQMKEEIEKTAEILLQKIKETIKQHSKDNQNIIIAGIGNTLGVK;locus_tag=LOCUS_5400;note=WP_010979465.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:30.4%25%2C q_cov:97.8%25%2C s_cov:95.5%25%2C Eval:1.4e-47],MGA_545
sequence04	MetaGeneAnnotator	CDS	61043	61600	.	+	0	ID=MGA_546;product=transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762559.1;translation=MPKTKSVISVENVVATGNLKQSLDLIEIDTTFEQTEYNPDRFPGLVFRLPTPKTSTLIFRTGKMVCTGSRSEEQAVIAINKVVKELKKGGIKIKNKPICEVQNIVASVDLGGQIALEDVARQLPRSMYEPEQFPGVILRASEPKAVFLIFSSGKLVCTGTKQEKDIYTAVKKLHTRLEKLNLMIY;locus_tag=LOCUS_5410;note=WP_011762559.1 transcription factor (Pyrobaculum islandicum DSM 4184) [pid:48.9%25%2C q_cov:94.1%25%2C s_cov:87.4%25%2C Eval:2.2e-42],MGA_546
sequence04	MetaGeneAnnotator	CDS	61713	63647	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIASFSSIYVIAQSDNDRGFAWESANYDIRQTNYNPQNQITRDTIVYLADEWTNAFIIPPDIPGIELSMGMRARPLVYNGIVMMPTNFDTIFAHNVQTGLPLWYYAYPMNMTAIIEEFPAISPYKPGVIEEATVFEGYLIFPTADCGMVFLEYLTGTPDFRGELTRGQMCDNIEGNGGYYTGQLYSSPVVDPKSRVLITGTTVSGKSESGRGYVAGYNVDNGELIWRFYLMPPAGGEQNWAMKYNGLGNVDPTPDDWGTATNVGVGLATGQWAIDSEAGIVYVGTSSPAPNFNAVNRPGPNLFSSSILALDINTGDLIWYYQASSHDLNGHGCSWNTTLGNIDDKKVLVTACDDGRLLALDASNGELIWSFLPPNLKYVNVDSSVDPDVDLDKKWIQDPSLDGYWQCPGITGASGGSIAIAYGQVYYMTTNYCDYLLLEPDSENNLDSFGAEIDTKLPWKVPPYRNESGVFEDPNLLKKYMPINATLFAVNIEDGSSNWEFNMPENLTHTGGLIATGDMIIFGSLDGSIYAIDQETGEQVFRKTIGASLGTTPTIAAAASGEQHLFLPVGGLDTRYGQPVSGVFVTSKIRGGPLVPIDSNAHEETIEDADLPLNIAVPVIVLIILVFLLASFGPKRIFSLIQK;locus_tag=LOCUS_5420;note=WP_003089344.1 glucose dehydrogenase (Pseudomonas aeruginosa PAO1) [pid:23.6%25%2C q_cov:55.3%25%2C s_cov:46.8%25%2C Eval:1.7e-12%2C partial hit],MGA_547
sequence04	MetaGeneAnnotator	CDS	63698	65848	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVAKVSKVFVVLPRSHLPSAMEQLSKFDYFHADQPDSSNYDELLSDYSRRTFKIYIQISDLVKELNLKLIPGIMDVLKSGYKDSSTDIQLDRWHDMLTILETKASPIVDSLKEKINQLHVIQEEISKHEANLEAIKLLSNYSINLTNMKNFNHFSINISICNTKDILEIKKSFSDSIFVSSELTDTRSIILIAIQKSKEDMIDKVLRLYETENFTISEELPQNPSEATDFVQKTLQEYYDSLNQVNSELKSLCTKHEDDIFSYFELSRTLYDSCELVKRTGNLKHFAIINGFIPFNLKSEFNNSFNNWIIIYEDVDPYNHHDINHKQAPILMKNSGITKSFKSITLNQGLPNYGEVDPTSFITLSFPIFYGMMFGDVGHGLILLLFGLFLLYRKAPFLKSWGQIFSLSGLVAIFFGVLIGEAFGIELHKVIFIESISHIDFIEHPIIHFIHRSEGHLTSIDVGALRTFLKISVLFGIFHIAIGNLISIYNTTKNREYDELLIEKLPAFLMFVGFVFLMFSFVGAGFKIDQLFSSQREAPLFFITERFLSNFTSYLILPISTVSLYSFSVMMVGFFALIVGKPILIITGKAPKSSIAMTVLINIIDGGIEKIAGSLSNILSYSRLAILLTVHSSLLIVANLALDLPLFASIPMFIILNIIILVLEGLIVYIQTLRLHLYEWFTKFYSGSGSEFQTFPGSPYNISNSHIKLKWKQKN;locus_tag=LOCUS_5430;note=WP_011763451.1 ATPase (Pyrobaculum islandicum DSM 4184) [pid:27.1%25%2C q_cov:51.3%25%2C s_cov:42.9%25%2C Eval:9.1e-26%2C partial hit],MGA_548
sequence04	MetaGeneAnnotator	CDS	65888	66961	.	-	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLLQDETYSATKAYAFRGQILDQQTLTSLTESLDVDELATKLKATAYDQAISRINGKISAKKIENACLEHVANIHYSLLKISPGTELLLTYYLKHIARNLKIILKGKALNKSDEELRNHINLYPEELIGRRDLIAKVLTAETLQDSVDSLTGSEFSKDITTAMKIYKENSQIDIFDVYIDKAYHVQLSNTYKKLNDTEIPYTESLGSKLKPIISYFIDSYNILSTLRAKQWKFEVEQIRNIFIQPTFDISIQKLKNMSTSENIESSIKMLETTKYKKLIPSSFTSDIDSISILENNLRKYEYKKFNKIFIWEAFSESVSLAIIRIKEFEASNIGTIAFGVENAIESKTIQENLIT;locus_tag=LOCUS_5440;note=MGA_549
sequence04	MetaGeneAnnotator	CDS	66970	67302	.	-	0	ID=MGA_550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDKKGEIEQVINSLSDFENELDKIKNQTETKKNELIKITEKEVENIQNKIISKANKNKETNVSKNINKEKIKAKEIIKKGESDTTKLQKKIDVKFDSAVKDVIKKILGV;locus_tag=LOCUS_5450;note=MGA_550
sequence04	MetaGeneAnnotator	CDS	67336	67674	.	-	0	ID=MGA_551;product=NagC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250923.1;translation=MNFNMDNRQSRRMLEKMGLNLEEIPDVEEVVIKTKEKDLIIKAPQVSKIKSKGIDMYQILGNDIEEIIKETSKINEEDIILVSQQANVSSEVAKNALEETDGDLAQAILKLK;locus_tag=LOCUS_5460;note=WP_011250923.1 NagC family transcriptional regulator (Thermococcus kodakarensis KOD1) [pid:43.9%25%2C q_cov:95.5%25%2C s_cov:94.6%25%2C Eval:1.4e-18],MGA_551
sequence04	MetaGeneAnnotator	CDS	67716	68174	.	-	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNNFYVDKILYTVDYLFGNNTNELFHDKEISYKLSNNTNKLRFIYVDNKLFATVKANGTYSLTLEAAKILLEHSNYMMNSVIIIDEIKEYIKEGKSVFNKHVIDAGKNIFPDSEAIIINKNKELIGIGKAITSFEIMKKSNIGVAIKVRHI;locus_tag=LOCUS_5470;note=MGA_552
sequence04	MetaGeneAnnotator	CDS	68217	68753	.	+	0	ID=MGA_553;product=tRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870902.1;translation=MQITLLRLGHRIHRDYRMTTHCALVARAFGSSEMYYCGNEDDKLISIMKKINESWGGDFNIQYLDKWRPFIKKCKKENYFIILCTMYGKNIPDVEIQIRKKFKTHNILVVIGSEKIPFELFSFTDLNVAISNQPHSEVAALAILLDRLFEGKQLQSKFVNSKIDIIPQSTGKKAVYKL;locus_tag=LOCUS_5480;note=WP_010870902.1 tRNA methyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:45.7%25%2C q_cov:98.3%25%2C s_cov:96.6%25%2C Eval:7.9e-39],MGA_553
sequence04	MetaGeneAnnotator	CDS	68741	69766	.	-	0	ID=MGA_554;product=3-isopropylmalate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978405.1;translation=MNYIISVISGDGIGPEITKCGIDVIKSIDEKLDINFEIKQIKAGDVALKEDGIALSEQSIENIRNTDACVKAPVGESAMDVIVKLRQLFDLYANLRPAKSFPTIKSLENDIDILIVRENTEDLYKGQEFRIDDKAIALRTISEKASTRIAEYAFKIAKNRKKKVTSVHKSNVLKITDGLFSNCVKNVSNKYPEIEFSELYVDACAMNLIRNPKEFDVIVTTNMFGDILSDEAAQIIGGLGLAPSANIGDNFALFEPVHGAAMDIAGKNIANPIAMILSIKMMMDWLYDYNNDTKCKIASKIIQESVISSFNNNIKSIELGGNSNTIEIGKYIQTFIKNYNL;locus_tag=LOCUS_5490;note=WP_010978405.1 3-isopropylmalate dehydrogenase (Sulfolobus tokodaii str. 7) [pid:50.0%25%2C q_cov:96.2%25%2C s_cov:97.3%25%2C Eval:6.9e-86],MGA_554
sequence04	MetaGeneAnnotator	CDS	69783	70064	.	-	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNNNLKFNNEWKINMNIESKFITLTLINKDKNKISKKIKRTEIKTSNAHTIGRSLENEYNKKYNVIIEPYNISKIIGLVNNVIKTKLENHQ;locus_tag=LOCUS_5500;note=MGA_555
sequence04	MetaGeneAnnotator	CDS	70126	71811	.	+	0	ID=MGA_556;product=fumarate reductase flavoprotein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878184.1;translation=MSIFADTLIIGSGIAGQRAALEATKYSNNVKLLTKLPVMRSHSISAEGGINSVSLPEDSILNYFIDTVKGSDYFADQDAVHKLVNCANDEILFLEEIGVNFDKHDNNLFSVNKLGGSKFSRTLNSSNQIGFFIMKALLSEIKNSNIQLMENWQVLDLLVHDNQCYGVIAINTDSYLIEEFRSNTVILATGPAGIIYKNTTNSTACTGDGVAIAYRSGALLKDMEFIQFHPTSILGSNVLITERSRSVGAHLLNKNGERFMQKYAPDSLELAPRDIITRAIMNEINNKLGFYDEKFGDYIELSFKHIPVDIINEKLADVKKLAISFTNIDIHTTPLKIIPAQHYMMGGIKINLNCKTSIDQLFAVGECSCPSVHGANRLGGNSLIECLVFGKIAGANASKNKNFDYKDSINFDLLSSYKLLTRQFLQENNYCNLHDISTQLQSLMTSNVGIFRTSESLTYAIDTIKSLKNQLTNPHFDSSITSTFDICKYYELINMFDVSEAISRSALMREESRGSHSRLDFPFRDDQKWLNHILIRKSGSDSQITTENVIITDIKPDLRKY;locus_tag=LOCUS_5510;EC_number=1.3.5.1;note=WP_010878184.1 fumarate reductase flavoprotein subunit (Archaeoglobus fulgidus DSM 4304) [pid:38.9%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:2.5e-105],MGA_556
sequence04	MetaGeneAnnotator	CDS	71855	72865	.	+	0	ID=MGA_557;product=isocitrate/isopropylmalate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011024146.1;translation=MTKKAVIIRGDGTGPELISCTLKILNAVNPNNIEFIECEAGAEWWEKNHGSSLIPSTTMKLIENSDACLKGPTITPTIVSAPRSVAITLRQKFDLYANVRPIKGILKTSSKSIEMLCIREGTEGLYSGIGFKIDNDTAITIRKITRSSCNRIAKFAFNSAKQHNWKTVVPIHKANILRETDDIFLEEVNKISNEYPGIDVEDYFIDNMAQQLYKNPERFNNKVLLSTNLFMDIISEEASALIGSIGNVYSANIGDNYAMFEPAHGSSPKYKGLDKVNPTATILSAAWMLQYLGDIKSRNAIFEATEKVISEGKYVTYDLGGKSKTSEMTSEIINYL;locus_tag=LOCUS_5520;note=WP_011024146.1 isocitrate/isopropylmalate dehydrogenase (Methanosarcina acetivorans C2A) [pid:59.6%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:6.7e-118],MGA_557
sequence04	MetaGeneAnnotator	CDS	72909	73262	.	+	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYDEDDLKKVANTKEWLERKVNDLEIELNTLKQTLDVINRILRTSSFQPAKHIKQSNSQFEQAINQHSSQPITNNNNSYQKLCNKCKVEIEMRKVDEKWGAYIPNSNERHKCVNNE;locus_tag=LOCUS_5530;note=MGA_558
sequence04	MetaGeneAnnotator	CDS	73255	74784	.	+	0	ID=MGA_559;product=GMP synthase [glutamine-hydrolyzing];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHY9;translation=MNRENIIVLDFGGQYSHLITRRIRDLSVYAELLPYDTPAKEIESLNPSGIILTGGPSSVYDKNSPKPDSKIFNLEIPILGICYGLQIIVDAMGGSIIRTDKREYGKATLSISSNQKLFYGIDSKTNVWMSHGDATKTLPDNFKSIGTTDNSPYAAICSDNLYGVQFHPEVTHTSDGTKILNNFLYEICGCTGLWTMDSFIDSSVNQIKSQVGNDSVLCALSGGVDSSTVALLLHKAIGDRLTCVFVDHGLLRKNEADDVLKIFDKLNIKIIFYNESDRFLSLLTDVEDPETRRKLIGQEFIKVFEEISKQNGSFNWLAQGTLYPDVIESASTDGPAATIKTHHNVGGLPEKFNFQLIEPLRELYKDEVRNVAKLIDLPLDILKRHPFPGPGLAVRIIGKFTNEKLSICRDASYIVEEELKKVKLYDSVWQAFALVGDDQAVGVLGDERKMGYIVTVRIVESTDAMTANWVRIPYDVLDNISTRITNEIDNVSWVTYAISSKPPSTIEPQ;locus_tag=LOCUS_5540;gene=guaA;EC_number=6.3.5.2;note=B5YHY9 GMP synthase [glutamine-hydrolyzing] (Thermodesulfovibrio yellowstonii DSM 11347) [pid:53.4%25%2C q_cov:99.0%25%2C s_cov:99.4%25%2C Eval:7.9e-159],MGA_559
sequence04	MetaGeneAnnotator	CDS	74789	76666	.	-	0	ID=MGA_560;product=glutamyl-tRNA(Gln) amidotransferase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146615.1;translation=MENDTNELKVGLEIHQQLASSTKLFCKCNGFQESGNEIYFKRILRPTQSELGKTDPAALFESKKSKRMNYIANLNTSCLVEADEEPPHEISEETLDIALTISYLLKSEPVDEIHVMRKLVIDGSNTTGFQRTVIIATGGELQVDNLKIPVLSISLEEDASRIISKNREQSTYSLDRLSIPLIEITLAPVKFKKEETEKIALTLGRLMRTTGKVARGIGTIRQDVNISIDGINIIEVKGVQQLDMLTDIIKFENQRQTNLLKIKKKLLERGIKKENFKTQSIDISDIFKNTNSKLIKNILMNKGKVMIIKAPKFRELIGQEDHKETRLGRDISSLVKFFGYGGIFHSDELPNYGITKDEMNKISDRIKNESDDAFIILAGNKENMEITLKSIHNRLFQCIIGIPAETRTPTKDGKTNYMRPRPGSARMYPETDIIPIRITDNKRMIIKKTLPQTYEEQINNYKNNIGLNDKLSIQIFDSKYKTLFEKLIQDINLPANFIAAQLTETLVNLSRNNIDINKITDEELEKIFKEIENGVIVKESFEKIIEDICKNDSDINEIINEININKLSEEDVEKIILKIKDKKKEIINEKGKDSFNILMGEVMKELRGKVDGNIVSNKIKELLKD;locus_tag=LOCUS_5550;note=WP_048146615.1 glutamyl-tRNA(Gln) amidotransferase subunit E (Pyrococcus abyssi GE5) [pid:41.8%25%2C q_cov:98.9%25%2C s_cov:97.6%25%2C Eval:1.5e-130],MGA_560
sequence04	MetaGeneAnnotator	CDS	76671	77978	.	-	0	ID=MGA_561;product=glutamyl-tRNA(Gln) amidotransferase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867819.1;translation=MSELSGYKDNSLKLLTEAKIHIGDFIKINTKTTEYVGNLLPRYEYSNENYIVIKLTNGYNIGIDSKKITNIDKIKIGEKPKFVPPSKPDVKESLPKIAILGTGGTIASRIDYKTGAVNPAFSAEELYSIIPELASYANINTQLISNIASEQINPNDWKNIAEKVIEKIKEGNEGIIIGHGTDTMAYTSAALSFALGNCPVPVILTGAQRSTDRPSSDASLNMISSVIVASQKILNGVYLAMHSSIEDNEVSIHSGTRVRKNHTSKRDAFQSIGIDPIAIVNQDKIIIGTELSKNNKKFEPKTNFDENVSLLKFHPGFNSEIIDTIIDSGSKGIILEGTGLGHINSRCNESIKKAINNEIFVGMTSQCLYGRVKMTVYSAGRDLLNIGVTPLEDMLPETALVKLMWAYGNYQNENIKEIMLKNIAGEYTERSTLGR;locus_tag=LOCUS_5560;note=WP_010867819.1 glutamyl-tRNA(Gln) amidotransferase subunit D (Pyrococcus abyssi GE5) [pid:46.6%25%2C q_cov:95.6%25%2C s_cov:96.8%25%2C Eval:3.6e-101],MGA_561
sequence04	MetaGeneAnnotator	CDS	78071	79726	.	+	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYCVNCGNEKKSLNESNLCKDCATLINAIIKRKLLKPDKIVESVPEPVVEPVPEPVRKDVVNSVSNKRKQKFKVNKSKNVTTLKKSYFVNKIIQIGFLPVASLLLIGLFLGLIFSSVIETPVGINSDNDGDDDSSYINELEISLKNIQSKFSTAQNELASTKQLNNDLIIDNDLLTEKIQQYGDLEATIYDINIDLEIIENEKAGLESEIKNNLDEIANLDNQLQANNILFSQKEIELNDLSFKLENLENTQQQLENRKSSLESEVNSLKDQIEDLNFEVRSLEDSNVDLEELNAELQEKLDDAVSTSIENSDEVRFLANTLEQSVVAVHTCYYWNGYTTVGILGQYHFVNDKYYYCVDYGTGFFISTNGCLLTNAHVASGDGFIETNVGILERIYIIELSNGDMKKAYSLKVLGTTNDDLSLLRINSFSSTPVKLAVSHPVAGDQIVTVGHPSLLGHWVRATGEYESRSGDNYYLELPVFYGASGSPVINMDNELIGIIKQMQLKDPIVPSDDVIISKHNYGKEQYERLLGIADNVFEIKSFLAQTVCV;locus_tag=LOCUS_5570;note=MGA_562
sequence04	MetaGeneAnnotator	CDS	79761	80867	.	-	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNLKIISYSSLIISIITLILLLYTIIINPAIFQGLEGQQGLPGPEGQQGLPGPEGQQGLPGPEGQQGLSPNYYAQKVYEENKAGVVFIKVYQMEQQIAVGSGFIYDESGHIVTNNHVIEGGNDFVIVYFDGSMSEANIIGSDSQGDLAVLKTNLPNSFKKLELESEISIGEQVFAIGSPAGFVGSITAGVISQTNRTGLTILPMIQTDAPINPGNSGGPLMNSRGKVVGINTMGYRGGEFEALGFAIPSSLAKIIIPNLIKNGFHEHPFIGISGSFLDPIQIKGRGMPEDITTGFIIQNIVSNSAAEKYELQKEDVIISMGGYSLRAQHDISYILHHFFAPNDNISLKIFRNGEIMDIELILGIRP;locus_tag=LOCUS_5580;note=WP_012869463.1 protease (Thermanaerovibrio acidaminovorans DSM 6589) [pid:37.3%25%2C q_cov:71.7%25%2C s_cov:52.8%25%2C Eval:6.1e-43%2C partial hit],MGA_563
sequence04	MetaGeneAnnotator	CDS	81001	81273	.	+	0	ID=MGA_564;product=cupin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080314.1;translation=MEIHVEKSPSDEQLKQLNVFSWPIWTKEISEFPWEYDIQEICYFLEGKVIITSDNGLQVKLSKHDLVTFPQGLKCTWNILKNVKKHYKFG;locus_tag=LOCUS_5590;note=WP_004080314.1 cupin (Thermotoga maritima MSB8) [pid:55.2%25%2C q_cov:96.7%25%2C s_cov:96.6%25%2C Eval:5.9e-25],MGA_564
sequence04	MetaGeneAnnotator	CDS	81324	81539	.	-	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVSDLLFGGIMAFMMSLVMSLVMTFVSIGFVTNFMNIWFQSFIIGLIVSFPIALIVSPIASKIVKMSIKK;locus_tag=LOCUS_5600;note=MGA_565
sequence04	MetaGeneAnnotator	CDS	81539	81781	.	-	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEIEPEEIEVLNKIRIAKKLGDTRLIISLNRELEIARERNEVRRNPESFLKKDNVFCYNCNTKVEKTHRFCFQCGVFLG;locus_tag=LOCUS_5610;note=MGA_566
sequence04	MetaGeneAnnotator	CDS	82009	82395	.	-	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMEKYRGPSKQYPIIEKKYFMQLFVGLLLILTAIPLETYRGGLTEVEVIQDEGLGNAPSMRPLITGETTAVLAYIAIASGILINIHAMYRYRNNYSEIREQHKRPEMLFLSIGIILTLMTVILSIILI;locus_tag=LOCUS_5620;note=MGA_567
sequence04	MetaGeneAnnotator	CDS	82513	83331	.	+	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKSNIFKPTYDWSKKTALQLYNKANFSFDVDKIHYMDFIKYSNQISDKSINCIIADPPFGISFSGKESLYNRKSKNVQEGYVDIEGDYDVFSQSWIADLSRILKDDGSVWIFSGWSNLSSILNAISNTNLNLINHIIWKYQFGVYTKRKFVSSHYHLLFLTKSKNYFFNKITNYPLDVWEINRKYSPNELKNGTKLPNELVMKCIDFTTKPGDLVFDPFVGNGTTAVVSKSSYRHYFGFEINNKMKHIININLKKTVLGSSYVPYNSRLI;locus_tag=LOCUS_5630;note=B8GZ33 modification methylase CcrMI (Caulobacter crescentus NA1000) [pid:28.9%25%2C q_cov:78.3%25%2C s_cov:65.6%25%2C Eval:8.5e-22%2C partial hit],MGA_568
sequence05	MetaGeneAnnotator	CDS	420	947	.	-	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868805.1;translation=MEVKNLPEKYRHILKQPFGTLIKSFKPSFSEIQSVLNDYTFLITVGDASSENVSGLGLKPNIQIIDLMEKRHKREFPKLTWNKKITIDNPPGTLSNESIILIHDIIKKQIDTLIVVNGEEDLLALPSILFAPIDTYVLYGQPDEGLVVVSVTNLVKTKVHDILIKMGFDENILKY;locus_tag=LOCUS_5640;note=WP_010868805.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:36.9%25%2C q_cov:92.0%25%2C s_cov:92.7%25%2C Eval:2.2e-22],MGA_571
sequence05	MetaGeneAnnotator	CDS	982	1170	.	-	0	ID=MGA_572;product=DNA-directed RNA polymerase subunit E'';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875904.1;translation=MKKELACRKCKNITSGRVCPNCGGTDLSTNWSGLIILSNPDKSQVAKQLEFTKPGKYAVKVS;locus_tag=LOCUS_5650;note=WP_010875904.1 DNA-directed RNA polymerase subunit E'' (Methanothermobacter thermautotrophicus str. Delta H) [pid:53.4%25%2C q_cov:93.5%25%2C s_cov:95.0%25%2C Eval:5.7e-12],MGA_572
sequence05	MetaGeneAnnotator	CDS	1170	1757	.	-	0	ID=MGA_573;product=DNA-directed RNA polymerase subunit E';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869896.1;translation=MFQIIDAEDIVRVNPKDFSGSLDKITSKMLKMKYESVLSPEFGYIVLVMGVKTDKIGKILPGDGATYHNVSFKILTYLPKLQEVVEGEVVEITDFGAFIRIGPTDALLHLSQITDEYLNSDVRQGLIYAQQSKRTINVGTMLRVRITALSLARGSSMGKIGVTCRQPYLGAKDWIQEDLKNNSKTTSTKKQEDKK;locus_tag=LOCUS_5660;note=WP_010869896.1 DNA-directed RNA polymerase subunit E' (Methanocaldococcus jannaschii DSM 2661) [pid:39.9%25%2C q_cov:90.8%25%2C s_cov:95.2%25%2C Eval:2.1e-38],MGA_573
sequence05	MetaGeneAnnotator	CDS	1825	2214	.	-	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTIVLDTSFLIYIANKPLPDSDYVSEIQPYNLITIDDVVKELIGISHDPKIKRSKEGLCALNYIKDIPKEYVPEFDNTDDKIVACASKNNRIIASLDRNIIRKAILSHIDYITIEKTRLIWTINLTKS;locus_tag=LOCUS_5670;note=MGA_574
sequence05	MetaGeneAnnotator	CDS	2219	3445	.	-	0	ID=MGA_575;product=translation initiation factor IF-2 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064633.1;translation=MPKIPNQPEINIGTAGHVDHGKSTIVDAITGKWTSAHSEELRRGITIKVGYADAAFYKCNCDMPSNYSTKESCSKCKNKGKLQRVISFVDVPGHESLMANMLSGAALIDGAILIIAANEEVPKPQTREHLIALQMLGTKQIVIVQNKIDLVSRKNALDNYKKIKEFVKGTVAEKAPIIPISAQHNLNIDALIMTIEDNIKTPKKDIQSSPILQVLRSFDINRPGLSLNKLVGGVLGGSLSQGIFEIGDEIEIQPGYLNKKTEKYQPIFSKISSLSTSAGLMDKVYPSGLVAIGTELDSSLTKSDSLIGAVVGHPNQLPETYDVVNLKVELFDVAIGSPNMLKVDKLKNNEALRLNAGTAVTAGVVTNLLQDKATIKLRRPITVEHKSRLAISRRIGDRWRLIGMGVIS;locus_tag=LOCUS_5680;note=WP_048064633.1 translation initiation factor IF-2 subunit gamma (Archaeoglobus fulgidus DSM 4304) [pid:53.4%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.1e-123],MGA_575
sequence05	MetaGeneAnnotator	CDS	3460	3975	.	-	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGFKIVISDPNTGKSITKEIKDKSAQTLMGMKIGQEIDATIVEIDGTLKISGGSDKVGFPMRSDVGGTAKNRVLLPNGVGFHSKIKGQKKRKLVRGNTISEDIYQVNTILVKGNLIEAPAKEAPAKEAPAKEAPAKEAPAKEAPAKEAPAKEAPAKEKKVDSQDNDIKSD;locus_tag=LOCUS_5690;note=WP_010875899.1 30S ribosomal protein S6e (Methanothermobacter thermautotrophicus str. Delta H) [pid:45.0%25%2C q_cov:64.3%25%2C s_cov:86.5%25%2C Eval:5.2e-21%2C partial hit],MGA_576
sequence05	MetaGeneAnnotator	CDS	4025	5797	.	-	0	ID=MGA_577;product=translation initiation factor aIF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875898.1;translation=MDSKFRQPIVVVLGHIDSGKTSLLDKIRGTAVQSREAGGITQHIGASFFPIDTLEKLCGDLLKKVGGQINIPGILVIDTPGHAVFTNLRNRGGSASDISILVVDVMKGIEVQTRESLDILKKRKVPFLIALNKLDTLPGWRSSTSLTNSLKQLDESTRNNLDNRIYDVVGQLSRYGIQSEAFYRLQDPQKQVAIVPVSAKTGEGIPELMSILVGLTQSYLKQKLTVKNETRGIILEVTEEPGLGDIANVILTDGVLKKFDDVVVAKKDGAFLTKIKAMFMPKPLDEMRDPRDKFSPVDQVVAASGIKISTPDLKGVLGGSPIIGIDDTNLESVKNEIESEIQSIFVETDSVGLIVKADTLGSLEAIVDTLKENDIPISTANTGVVSRKDVIKAQVIRSTNKYLGIILAFGVKILDDATEEANKNGIRVFSKPILYDLVDDYKDWVTSDKDIMQRTELDSIILPCKLQLLKGMVFRRNGPAICGVEILVGSLKQKSILINSEGKEVGVIKQIQDNGQNIQKANKASQIAISMNEPVIGRTIMEGEILYSLPSDAGVRLLQEQYKDSLSSEESGILDEIINLRRKIVPLYGF;locus_tag=LOCUS_5700;note=WP_010875898.1 translation initiation factor aIF-2 (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.5%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:5.6e-143],MGA_577
sequence05	MetaGeneAnnotator	CDS	5851	6255	.	-	0	ID=MGA_578;product=nucleoside diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P31103;translation=MIEKTLVLIKPDGVRQRHIGDIISRFEERGFTIHHVRMLQMNSNQASEFYSQHKEKPFFPELIDYITSGPIVQVVLEGNSVLEVVRQMVGATNSLEAASGTIRGDFGLSHTENVIHASDSLDSFEREFNIMNSI;locus_tag=LOCUS_5710;gene=ndk;EC_number=2.7.4.6;note=P31103 nucleoside diphosphate kinase (Bacillus subtilis subsp. subtilis str. 168) [pid:50.0%25%2C q_cov:97.0%25%2C s_cov:87.2%25%2C Eval:2.1e-35],MGA_578
sequence05	MetaGeneAnnotator	CDS	6258	6437	.	-	0	ID=MGA_579;product=50S ribosomal protein L24e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978232.1;translation=MFSLKKCSFCKKEISLGTGTMFVKNNGDISWFCSSKCRKNTLDLKRDYRKYKWARQGVS;locus_tag=LOCUS_5720;note=WP_010978232.1 50S ribosomal protein L24e (Sulfolobus tokodaii str. 7) [pid:54.5%25%2C q_cov:93.2%25%2C s_cov:90.2%25%2C Eval:4.0e-13],MGA_579
sequence05	MetaGeneAnnotator	CDS	6448	6666	.	-	0	ID=MGA_580;product=30S ribosomal protein S28e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978233.1;translation=MSSKEIHEENTPCEVIQIVGRTGVAGEITQVRVKILDGKDKGRILTRNVKGPVRMNNIIILRETEREARKIR;locus_tag=LOCUS_5730;note=WP_010978233.1 30S ribosomal protein S28e (Sulfolobus tokodaii str. 7) [pid:71.0%25%2C q_cov:95.8%25%2C s_cov:83.1%25%2C Eval:1.0e-21],MGA_580
sequence05	MetaGeneAnnotator	CDS	6677	7048	.	-	0	ID=MGA_581;product=50S ribosomal protein L7Ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240293.1;translation=MSKPYYVKVEIPKEIVEASYEALRQAKQTGKIRKGTNESTKAVERGIAKLVIIAEDVDPPEVVAHLPILCNEMNIPFVFVPQKEQLGQAISIDIGAAVACIIEPGEAKGMLDKIIESLNNLKG;locus_tag=LOCUS_5740;note=WP_053240293.1 50S ribosomal protein L7Ae (Pyrobaculum islandicum DSM 4184) [pid:58.3%25%2C q_cov:97.6%25%2C s_cov:77.4%25%2C Eval:2.0e-38],MGA_581
sequence05	MetaGeneAnnotator	CDS	7239	8606	.	+	0	ID=MGA_582;product=anthranilate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877263.1;translation=MNNIQFKEISINISPFETFAKLSEKFNDIYILESNIGPEKLSEFSYIGFEPSIKITLENKKINVIKENDRIVTEIKDSNDLFSKLREILEENQINNRFNRLIGGLIGFISYDSIRYWENIAENYPKIIYPDFQFGLFNEGIIFDHKKNKIHYYSDNERINEILELLNIERKIGSVEYTKPRLNISKEKFEQNVEIAKEYIKSGDIFQAVLSKKYEFEITGDLLSIYKALRNINPSPYMYYYRVNDLNIIGSSPEMLVRVTDKQIETFPIAGTRPTTNNQEKNDILTKELLSDEKEIAEHIMLVDLARNDVGQISRFGTVNVPEFMQAHQFSHVQHIVSKVTGELRENKDCFDAIRAIFPAGTVSGAPKIRAMEIIRELEEESRGPYAGALGYFSKNQCADFAIVIRTLIVKGKDAYIQAGAGIVADSIPEKEWFETEQKASALITSLEIAKEGDN;locus_tag=LOCUS_5750;note=WP_010877263.1 anthranilate synthase component I (Methanothermobacter thermautotrophicus str. Delta H) [pid:49.0%25%2C q_cov:98.9%25%2C s_cov:94.2%25%2C Eval:2.0e-110],MGA_582
sequence05	MetaGeneAnnotator	CDS	8608	9195	.	+	0	ID=MGA_583;product=glutamine amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880323.1;translation=MKLLVIDNYDSFTFNLVQYFGELSVEPTVFRNDQITIEQFNQIKPERIVISPGPGNPCDEKYFGICSEIIKLSGEKNIPLLGVCLGHQGIGYTFGGRIRRAKTLKHGKTSLIRHDGKGIFNNVPNPFRATRYHSLVVDEQTLPDDLIVSAKAEDDDEIMGLRHKKYNIQGIQCHPESILTDSGKQILQNFIKGKI;locus_tag=LOCUS_5760;gene=trpG;note=WP_010880323.1 glutamine amidotransferase (Aquifex aeolicus VF5) [pid:56.2%25%2C q_cov:98.5%25%2C s_cov:94.9%25%2C Eval:2.7e-57],MGA_583
sequence05	MetaGeneAnnotator	CDS	9195	10256	.	+	0	ID=MGA_584;product=anthranilate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_083774558.1;translation=MIIDAIKKNINREPLSRDEASLAMKEIMTGSATPSQMSAFLISLRMKGESIEEIVALAKTMKEFSNRINPSYNDRLIDVVGTGGDKIKTINLSTISAFVLASANVKIAKHGNRAATGKCGSADVLDRLGYKLDTKPNIVEKCVEKIGIGFMFAPVFHPAMKNVIGVRREIGVRTIFNILGPLTNPADADSMLVGVADIKLMDKYAEILLKLGCKRAVIVHGIDGLDEIATFGKTRMRFIGDLDNTGKEITVKPGDFGLKEITPEEIAGTGIDYNANIMFQILANRLPINNPNVEAVIANSAVGFIVAGKSSSISEGVEKARETLVSGKCIDKLKEFVKFVDGDVEKIEEFESV;locus_tag=LOCUS_5770;note=WP_083774558.1 anthranilate phosphoribosyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:46.3%25%2C q_cov:95.2%25%2C s_cov:98.2%25%2C Eval:3.1e-76],MGA_584
sequence05	MetaGeneAnnotator	CDS	10273	11043	.	+	0	ID=MGA_585;product=indole-3-glycerol phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CPB2;translation=MAAEKIGELIDKGYYDISNQINHQNNSLKEILVKDKIHYPIITEIKFSSPSLGKINDNLEGQREIVEIMEKSGASAISILTQPLYFEGSLENLSIVRKNTSLPILMKDIIIDKKQIDAGFRLGADVILLIETLFQKDENKLEELIRFARNKDLEILLEVNNIEEFKRASTRDIDILGINNRDLNTLELDMKTTNNILSEGFKNDIPIISESGICTSEDIKMIGKTGVNGFLIGTSIMKAKDIGQKVSELTRIEKWI;locus_tag=LOCUS_5780;gene=trpC;EC_number=4.1.1.48;note=Q8CPB2 indole-3-glycerol phosphate synthase (Staphylococcus epidermidis ATCC 12228) [pid:38.3%25%2C q_cov:94.1%25%2C s_cov:91.6%25%2C Eval:1.8e-34],MGA_585
sequence05	MetaGeneAnnotator	CDS	11034	12227	.	+	0	ID=MGA_586;product=tryptophan synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064422.1;translation=MDLKSQPIDGKFGTFGGKYVPETLMPVLDELEEKYNESREDREFNDKLSKLLKDYAGRPTPIYYAENLSKKYGGKIYFKREDLLHGGAHKINNSIGQALLAKSMGKKRVIAETGAGQHGVATAMACALLDLKCEIYIGSKDIERQSPNVFRMKLLGAEVHSVKSGSQTLKDAINEAIRDWVTNVETTYYLIGSVVGPHPYPMIVRDFQSVIGKEIKEQFPKIASKEIPDVIIACVGGGSNAIGTFYHFLNEENKLIGVEAGGLGIDKGKHSSTLVAGSEGVLHGARSYLLQDKEGQIKETHSISAGLDYPGVGPEHSFLKSQKRVEYVSIRDEEAVNAFVEMSKLEGIIPALETSHAIAEAINRAQHIEKDQSIIVTLSGRGDKDTPIIAKYLKEKL;locus_tag=LOCUS_5790;EC_number=4.2.1.20;note=WP_048064422.1 tryptophan synthase subunit beta (Archaeoglobus fulgidus DSM 4304) [pid:66.3%25%2C q_cov:96.5%25%2C s_cov:99.5%25%2C Eval:2.5e-146],MGA_586
sequence05	MetaGeneAnnotator	CDS	12224	13039	.	+	0	ID=MGA_587;product=tryptophan synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496709.1;translation=MNIAQKFKEGKNQNRSLLIGFITAGDPSIELTPTLAEVMVKGGVDIIELGIPFSDPIADGPTIQSSSMRSLSNGTTPKDILEISKEIVNDLDVPVVLLTYYNTIMKMGIETFLQEAEKSKVSGIVTPDLPPEEGKEYIQSARKKSIDTIFLASPATNNMRLDNIINSTSGFLYMVSLFGVTGVRNLFNNYSSDAAKRIVQKVNKRIPVAIGFGISKPEHVNHFTKLGVDGVIVGSSFIRIIEKNIGDTNTMLNQVNNLAKELSQATKISFV;locus_tag=LOCUS_5800;note=WP_064496709.1 tryptophan synthase subunit alpha (Methanocaldococcus jannaschii DSM 2661) [pid:41.4%25%2C q_cov:98.5%25%2C s_cov:94.3%25%2C Eval:1.1e-53],MGA_587
sequence05	MetaGeneAnnotator	CDS	13028	14743	.	-	0	ID=MGA_588;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867608.1;translation=MVFKHSLLNAIQHNGEAKLGAVMSKIIAEDSTLKSDIKQLISEIKPILNQINSMNQNEQIKNFQKDFPNIKTSTTKEEKFSLPELPNFAEYKKIITRFSPNPNGYLHIGHVKAFRLNQRYAHQHSGKLLLRFDDTNPNVIDKNFYKIIEDNLAWMGIEFDEKSYASEFLKKIYEISQQMLIDNYLYICDCEPEIIKTNRLKKQECEHRNTVNTNKKIEEFFSSSDLSHVIIRFKGDMASDNTAMRDPTMMRIINSSHPRTGNTYWVWPTYDLAAPIVDCLQEISHVLRSKEFELRDELYNKITKIVFNQGKIKTRPSIISFSRVLMKGSPTSKSVINTLIEKGQIKEWNDPRLVTISALRRRGFIVEGISNFVDSLGISKSESSPSMELLASFNRKARDKTDKRYFFVKDPIKLKITNIPIQSVTMKHHPTENLGSRTIIISDEFWVSNEDLSNSSEGDVIRLMDLFNIEIKKKSKMIIEADFSSQKPIVGIKKIHWVTTDGIQFKLIIPNNNEFSINSDGSFQFKDESLKLYDGIAENSCKSLQEGELIQFNRIGFCRVDSSNTAILSHK;locus_tag=LOCUS_5810;EC_number=6.1.1.17;note=WP_010867608.1 glutamate--tRNA ligase (Pyrococcus abyssi GE5) [pid:32.9%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.9e-80],MGA_588
sequence05	MetaGeneAnnotator	CDS	14772	15815	.	-	0	ID=MGA_589;product=geranylgeranyl diphosphate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011227641.1;translation=MTNSITDILSEPEIQANKKLIDDTIENFLPKNHRINEIDLLYNMMRDYPSRPAKGIRSSICLFTCQVFGGEIKDALITASALELFQNWILIHDDIEDESELRRGELVLHRKHTIPLAINAGDSLHGKMWSLLHSNSSLLESDLSLNIIEEFIHMLNETTEGQHMELSWSQANDWNISQEDYFLMCIKKTSWYTCITPFRLGNIIAQKHNIDKTKFIEFGKNLGIAFQIRDDILNLTADTKYGKESAGDLIEGKRTLILIHLLKSANTYDREFIELFLSSPRDFREANLHKLLDLISKYKSIDYANAISNELSNNTLTEFDNIFSNLPETRARELLKNITKYMVSRDW;locus_tag=LOCUS_5820;note=WP_011227641.1 geranylgeranyl diphosphate synthetase (Thermus thermophilus HB8) [pid:37.9%25%2C q_cov:89.9%25%2C s_cov:93.9%25%2C Eval:7.2e-54],MGA_589
sequence05	MetaGeneAnnotator	CDS	15805	16899	.	-	0	ID=MGA_590;product=type 2 isopentenyl-diphosphate Delta-isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020653.1;translation=MIEKKSIKIIENRKKEGIELALKNINAKNKTTLFECVELLHCALPEINFTDIKTSTKFLNHNFKFPLLIDSMTGGTPKAKSINIRLAQAAEEFGIGMGVGSQRAGLLSDSLAESFKVVRKNAPNAFIFSNIGGAQLSKGLNYKSIKKLLNMIDANALAVHLNPLQELVQPEGEANFSGILNRIKELSSDLDVPIIVKEVGSGISPSVAKKLSKSKVDAINVAGMGGTSWAGIEQIRAKKFKNNTKSNIGLLFWDWGIPTAATIFQVRNSVKIPIIASGGLRNGLDVAKSITLGANVCALARPMLTPASKSYESLSEFIHQLILEFKSTMFLVGAKNIQELKSTQYITTEPLTSWISKIRGINDK;locus_tag=LOCUS_5830;gene=fni;EC_number=5.3.3.2;note=WP_011020653.1 type 2 isopentenyl-diphosphate Delta-isomerase (Methanosarcina acetivorans C2A) [pid:43.5%25%2C q_cov:98.4%25%2C s_cov:97.3%25%2C Eval:4.4e-78],MGA_590
sequence05	MetaGeneAnnotator	CDS	16896	17654	.	-	0	ID=MGA_591;product=acetylglutamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867666.1;translation=MVNKLTILKLGGSVVTKKSKPLTFNSTSVQNISKVIKKFDEPLIIVHGAGSFGHYYAKRYGISTEPTRSLKPVIKIRDSMLLLNQKIIDILRKNVINTFSFSPMYMYHNNKILNAWKNILTRSLYFGLTPVTFGDVLLGTKGFYIHSGDIIVKDLCNLLNPKRVVFASNIDGIYEDIDDTSSLIPIIKTKHNFKFSKLNYDVTGGIKTKIVQSMKIANLGIEVQITNGLNSKTLMKALKGEHMGTLFIGDKT;locus_tag=LOCUS_5840;note=WP_010867666.1 acetylglutamate kinase (Pyrococcus abyssi GE5) [pid:32.1%25%2C q_cov:96.0%25%2C s_cov:98.8%25%2C Eval:1.2e-22],MGA_591
sequence05	MetaGeneAnnotator	CDS	17639	18577	.	-	0	ID=MGA_592;product=mevalonate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250425.1;translation=MISIADAPGKIILAGEHFVVHGSQALAAAINKRIRVSSSFSTHNNIKYNNQKIQYKNYNIKNDPVAIVRNKTLEYIKQKGAISINIESDIPRGSGLGSSSAICVATAASVASLFNTKLDRKTLYDLAMYGEKQIHVNPSGIDVAVSIIGGIILFSKGSESKRISLDYQPEFIVSISGKKRKTSKMINKFSRLRTSSPYSFHSLVDSSTILTRETLSSLLEKDNVSVGAYFNFFNSTLSNFGLNTIVTDNIIEKCLELGSYGAKITGAGGGGSIIAIAPSKYISKIINTLNNQGFESFSVKLPQEGVKIWSTN;locus_tag=LOCUS_5850;EC_number=2.7.1.36;note=WP_011250425.1 mevalonate kinase (Thermococcus kodakarensis KOD1) [pid:26.4%25%2C q_cov:97.8%25%2C s_cov:96.7%25%2C Eval:1.1e-21],MGA_592
sequence05	MetaGeneAnnotator	CDS	18644	19303	.	-	0	ID=MGA_593;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875684.1;translation=MSVESKQEDESIDVIDDSITKHVSEEVLLSTGIRVGTLVKTKSMATFVSRTRQDGLHIIDVAKTLQRIEVAAKFISKLDSNRVVVYSSREYGKTPILKFTELTGTLPLIGRFMPGTFTNPLYPKHIDPEAVIVIDPLMDQQAVIEATSVGIPVIAICDTDNLTENVDFVIPANNRGRKALAAVMWLLSRSVLQQLGKLSSGDSLSYSIEDFETKLVEEE;locus_tag=LOCUS_5860;note=WP_010875684.1 30S ribosomal protein S2 (Methanothermobacter thermautotrophicus str. Delta H) [pid:46.5%25%2C q_cov:85.4%25%2C s_cov:94.4%25%2C Eval:3.7e-48],MGA_593
sequence05	MetaGeneAnnotator	CDS	19293	20579	.	-	0	ID=MGA_594;product=enolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875683.1;translation=MTKITDIKSRLIYDSRGSETIEVNVLISDIIGTASSPAGASVGKFEAVAFRNGNCKDTVDYLNEYKSQLIGIDALDIYAVRDTLRSIDGTENYSNIGGSAAYAISLASVDAASQILDKPIYEILLNGKPAKMPLPLGNVLGGGMHAGNGSTDIQEFLSYPLGADSIHSGIQTNLLVHKEIKKIIDKKDSKFSGGKGDEGAWAPQLSNTEALEVAQEAINTVSDAVGFEIRLGLDVASSSLWVPDKELYVYSRENISRTTEEQISYVLELIEKYNLIYVEDPLHEEAFSDFTKLSSKNDNCLIVGDDLYVTNTSILRKGIDQNATSFASAFANAAILKVNQAGALGDAMEFANLCNNNKYAIIASHRSGDTVDRHLAHIAIGSGSVMMKSGVVGGERIAKLNELIRIDETNFINNNIPMPIARVTKYVR;locus_tag=LOCUS_5870;EC_number=4.2.1.11;note=WP_010875683.1 enolase (Methanothermobacter thermautotrophicus str. Delta H) [pid:44.2%25%2C q_cov:94.6%25%2C s_cov:96.2%25%2C Eval:2.9e-95],MGA_594
sequence05	MetaGeneAnnotator	CDS	20848	21252	.	-	0	ID=MGA_595;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061175.1;translation=MTKKSKLIPASRKTAKATAVIYQGKGRVYINKTPIEIITPLMARERMLTPLELVGSHRDKVDINIRVSGGGYMGQAEACAIAISRALNNHFKTNDIKNRLTEFDKHLLSGDSRRSESKKFGGPGARRRKQKSYR;locus_tag=LOCUS_5880;note=WP_048061175.1 30S ribosomal protein S9 (Methanothermobacter thermautotrophicus str. Delta H) [pid:52.0%25%2C q_cov:91.8%25%2C s_cov:92.5%25%2C Eval:7.9e-30],MGA_595
sequence05	MetaGeneAnnotator	CDS	21249	21701	.	-	0	ID=MGA_596;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250452.1;translation=MLANSESTVVINGDKHLAGRLCSRIAKMLLNGNRVVLINAEKILLSGSRKNILKENELFLDISSRVHPKHGPFHPKRPDTYMEKMVRGMLPYKKPRGVAAKKRFRVYISVPDKYKKTESKTIEDALAPRSLSYYTTIGELCSSMGWRKIE;locus_tag=LOCUS_5890;note=WP_011250452.1 50S ribosomal protein L13 (Thermococcus kodakarensis KOD1) [pid:40.9%25%2C q_cov:90.7%25%2C s_cov:96.5%25%2C Eval:2.2e-26],MGA_596
sequence05	MetaGeneAnnotator	CDS	21691	22023	.	-	0	ID=MGA_597;product=50S ribosomal protein L18e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869688.1;translation=MTFNKYRIESIKHIARQNNSKIWSNVALKLQRNHEINVGKLSKITKNGDIVAIPGKVLGDGVIGHSITIGAADFSKNAKEKINNAGGKIMLIEKLVEIHPEGKGVKILVS;locus_tag=LOCUS_5900;note=WP_010869688.1 50S ribosomal protein L18e (Methanocaldococcus jannaschii DSM 2661) [pid:41.0%25%2C q_cov:91.8%25%2C s_cov:86.8%25%2C Eval:8.2e-19],MGA_597
sequence05	MetaGeneAnnotator	CDS	22025	22609	.	-	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGVDRVYANALRRFAISEVPCMAVDEVVILENSSVLYDEILAHRLGLIPLTTDLKGYVLPQDCDCKTSLGCSKCRVLLVLDAVATDEVKTIYSGDLISEDNLVKPKLSNIPIVKLAVNQKIKLEAYAKLGKGRDHAKWQPVTVSTLTDTDDPSKFHLTLESTGSLPANEILLEATNILNTKLKEMTKLIKEAN;locus_tag=LOCUS_5910;note=WP_011762451.1 DNA-directed RNA polymerase subunit D (Pyrobaculum islandicum DSM 4184) [pid:54.7%25%2C q_cov:70.1%25%2C s_cov:51.1%25%2C Eval:5.6e-31%2C partial hit],MGA_598
sequence05	MetaGeneAnnotator	CDS	22800	23240	.	+	0	ID=MGA_599;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980145.1;translation=MGRDVSGSKKVIQALSNIKGIGNNLAHYMVRSLKIDKNLRMGMLSDEQIKSIEEGLKNLENLYPGFDLNRQKDMQSGKNQHLIETDLIVSNKQDIDLERILHSWRGTRHSLNLKVRGQRTRCTGRSGKVVGVRKSTLKPAKAGAGN;locus_tag=LOCUS_5920;note=WP_010980145.1 30S ribosomal protein S13 (Sulfolobus tokodaii str. 7) [pid:52.6%25%2C q_cov:91.8%25%2C s_cov:78.5%25%2C Eval:1.4e-30],MGA_599
sequence05	MetaGeneAnnotator	CDS	23241	23846	.	+	0	ID=MGA_600;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980144.1;translation=MGDPKYSRKKAARPRNPWQRNLLKEELELVGQFGLRNKKELHRASTELSRIRKQARQLLAAPTEIRTSKESILLSSLVRKGIVTEDATLDNVLALNVSNFLGRRLQTVILQKGLAKTPHQSRQLITHGHISIGENRITIPSYTVTRNEEPLIKMTEGSTFVLQEISVSEPKNDTHGNPDEKEQLETTKTKGKREETKGKRE;locus_tag=LOCUS_5930;note=WP_010980144.1 30S ribosomal protein S4 (Sulfolobus tokodaii str. 7) [pid:51.6%25%2C q_cov:79.6%25%2C s_cov:91.0%25%2C Eval:2.9e-38],MGA_600
sequence05	MetaGeneAnnotator	CDS	23843	24244	.	+	0	ID=MGA_601;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875677.1;translation=MSESEISKKWGVVHIFSSYNNTIVHITDISGSETIAISSGGRHVKADRFQSSPYAAMKSAQAAAEIAKSKGIEHLHIKVRAVGGVGPRTPGPGAQAVIRAIARAGFRLGKIEDVTPIPHDSTRKAGGRRGRRA;locus_tag=LOCUS_5940;note=WP_010875677.1 30S ribosomal protein S11 (Methanothermobacter thermautotrophicus str. Delta H) [pid:65.6%25%2C q_cov:91.7%25%2C s_cov:91.5%25%2C Eval:4.2e-39],MGA_601
sequence05	MetaGeneAnnotator	CDS	24278	26044	.	+	0	ID=MGA_602;product=glutamine--fructose-6-phosphate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249760.1;translation=MCGIIGYIGNKNAAPILLKSLKRMEYRGYDSAGIATIYNNKIIVKKDIGRIDLINEKIDFDKAEGNIGMAHTRWATHGEVTKENAHPHVSCNDEIIIVHNGIIDNYKELRTKLSSNHIFKSETDTEIILHLIEEEYNKVRNPIATLQNISNILIGSFALVVIFKDYINEIYGIRKYAPLVIGIGEKENFIASDIVSFIDYTDNVVFLEDKEIARVTLDSIEIKNFDGKEIIRDKTHVAWEAADVSKEEFSHHTIKEIHEQSSSIDNALNQKGEEFDNFIKEITSGKNIFLTGSGSSYHAVLIFKKLLSKLVKVPVQAFLASESEEYSELMNNQSILISISQSGETADLLEAIRNIESSGVRILSIYNTIGSSLSRVSDISLNLNCGPEIGVAATKSFTAQLAIIYKIIFQLGKIKDRDEKLNTISTNVKELLNNEKSLHDIIEVLNESNDVYFIGRSIHHPIALEGALKLKELAYIHAEGMAAGEIKHGTLALIEEGTPTIVINPEDETYNDTISNAIEMKSRGAKIIGIAIKNNEVYDYWIKIPKIDNILYPLIEVIPLQLLAYHTAIKRKNNPDYPRNLAKSVTVK;locus_tag=LOCUS_5950;EC_number=2.6.1.16;note=WP_011249760.1 glutamine--fructose-6-phosphate aminotransferase (Thermococcus kodakarensis KOD1) [pid:43.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-145],MGA_602
sequence05	MetaGeneAnnotator	CDS	26048	26272	.	-	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_008920727.1;translation=MTRLIKHSSDAPFIHTTPSGDKIKICMCGLSKKYPFCDGSHHKSKSETDGLCCYDNEGNRVTSVSLSNSEITEV;locus_tag=LOCUS_5960;note=YP_008920727.1 hypothetical protein (Aquifex aeolicus VF5) [pid:45.8%25%2C q_cov:78.4%25%2C s_cov:90.6%25%2C Eval:3.8e-08],MGA_603
sequence05	MetaGeneAnnotator	CDS	26510	27751	.	+	0	ID=MGA_604;product=UPF0272 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CTP4;translation=MSNNILVIDPTIAGISGDMILSSTIDLGANEELVVDNILGIKDYFDNCNELEVSFSNVIKNGFRAKKVDIRIKEDTTNRNVEVLSNKLDKCINGISFSQDAKTFIKKSFDNLISAEKRLHGIQKKQLHLHEAGSIDTFVDIIGTASALDDLGLFELKEIITTPVSIGGGELFFSHGKMRNPGPAILEIARRNKIIIQGGPENYETATPTGMAMLAAFIKNSQEFFPGIKPDLIGVGAGTLDFGEIPNILRMTLGQKSSLLKDEVAIIETNIDDRTGEELGYAMQKIVEQGALDVSLIPIIGKKGRPSQILKVITTISKSEFFSDLVMRETRTLGVRVYPISRFIQKRENLRLNVKIDNNNEEINVKVVKSEIGEIIQFKPEFDQIIKLSEKYKMNLLILKNEITKQVQKELFG;locus_tag=LOCUS_5970;note=Q8CTP4 UPF0272 protein (Staphylococcus epidermidis ATCC 12228) [pid:32.2%25%2C q_cov:95.6%25%2C s_cov:94.7%25%2C Eval:6.7e-49],MGA_604
sequence05	MetaGeneAnnotator	CDS	27740	28507	.	-	0	ID=MGA_605;product=phosphoribosylaminoimidazole carboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020480.1;translation=MTIDEILNKVSNGELSTKDAKKQLQLDLIDKVGQIAKIDTGRSPRKGIPEIILAEGKSPQQVVKIAKKMFSTSNKVIISRIDSFHIKAIQKAFSKKSIMYNELAHAMVISSNTKKSKLFGHVAIITAGTADIPVAEEAKVILDAVDCKTTIYYDVGIAGIHRLFDSLSSVIQEDVDVIVAVAGREGALPSIIAGLVDIPVIGVPTSIGYGYGDKGIAALMSMLQSCALGIATVNIDSGIAAGVLASIIVKKQSTK;locus_tag=LOCUS_5980;note=WP_011020480.1 phosphoribosylaminoimidazole carboxylase (Methanosarcina acetivorans C2A) [pid:45.6%25%2C q_cov:97.3%25%2C s_cov:89.2%25%2C Eval:1.2e-54],MGA_605
sequence05	MetaGeneAnnotator	CDS	28517	29323	.	-	0	ID=MGA_606;product=TIGR00268 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057083.1;translation=MQSLITLKLQDLKSWFSNHDSVLIAFSGGVDSTLLTKIAFTSLGNKAIAVTADSPSIPRSELINAKSLSKLIGIKHLIIETNEMENPNYVKNPSNRCYYCKSELFSTLSNLAKEQNIQTIVDGTNIDDLSDFRPGLIAATENGIHHPFVELEITKLDIRKISKYLDLPTADKPSAPCLSSRIAYGQPITLETLSKIEKAEFIIKKITGIEVLRVREHGNLARIEVGQNERSLLLSESIIDKIDNELKKIGFQYVTLELSGYKSGNLNK;locus_tag=LOCUS_5990;note=WP_011057083.1 TIGR00268 family protein (Thermosynechococcus elongatus BP-1) [pid:47.7%25%2C q_cov:97.0%25%2C s_cov:93.5%25%2C Eval:3.0e-64],MGA_606
sequence05	MetaGeneAnnotator	CDS	29368	29928	.	-	0	ID=MGA_607;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E301;translation=MTVHRELIRTKIKQLRHSQSAENIKNNSLKIYKKLFSTEQLSHSKCIAFYSSLDKEVSTSTMINKALDLGKIVCLPKINSKEKNMMFHNILSTTSLEKNNFGILEPTNDEICTNIDLIIVPGIVFDQSGNRIGFGYGYYDNFLNSTNIKYKIALAFDFQIVDKIDKLEHDIPMDIIITENRIIKIH;locus_tag=LOCUS_6000;EC_number=6.3.3.2;note=B8E301 5-formyltetrahydrofolate cyclo-ligase (Dictyoglomus turgidum DSM 6724) [pid:38.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.2e-25],MGA_607
sequence05	MetaGeneAnnotator	CDS	29933	30295	.	-	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISSRPLKEYIIYNMIKHNSPSDLARRSTIESSSMSSPYVKWINGIVYKITYPASALLSDSFTEQFFDGILWIEIEYAEMPNYDSTINSPQENIVVPVIDNSNDSNEKQLVAWIKDNNK;locus_tag=LOCUS_6010;note=MGA_608
sequence05	MetaGeneAnnotator	CDS	30330	30833	.	-	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890414.1;translation=MVTIQTDKIQNSSVKKKRLILVVSKGTLDMVYPALVLATTAPAMGMTADIYFTFWGLKILTKDGVNSVKIAAVGNPGMPMPNIIGTLPGMTKMASSMMKKKIGKFWPDVYEMIKMAKDSGVKLHACSPTMGFMDVKEEDLIPEVDDIVGASAFLSWASEPDALTLFI;locus_tag=LOCUS_6020;note=WP_010890414.1 hypothetical protein (Halobacterium salinarum NRC-1) [pid:40.4%25%2C q_cov:86.8%25%2C s_cov:76.8%25%2C Eval:3.0e-26],MGA_609
sequence05	MetaGeneAnnotator	CDS	30839	31087	.	-	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEGIKVDRTLDQKGLLCPMPIINTAREVSKLSSGQILEVLSTDPGAPLDFEGWADNTGNILLDSIVEDTNPRTFKFYIKKQ;locus_tag=LOCUS_6030;note=O67415 UPF0033 protein (Aquifex aeolicus VF5) [pid:47.5%25%2C q_cov:97.6%25%2C s_cov:39.1%25%2C Eval:8.0e-14%2C partial hit],MGA_610
sequence05	MetaGeneAnnotator	CDS	31215	32552	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILVTGASGFIGKKLVQFLLDKDLSVRVMSRNIGNLENLNHKNLEKVQADAQDYKQVLDALEGVDVVYYLIHSMEGKTKDWRKFAELDKKIAKNFADVSTARNVKRIIYVGGLVSIPDDQMSKHMLSRKEVGEILKTSESKVTIFRASVILGKEGGGFKMMEYLVERLPVMVCPKWVLTKLQPIYIDDVITYLYESLNVKETEGKTFDIGGPDILEYRNMMKSYAKIINKSFIIIIIPFLSLRLTSYWVDLITPIKASLARPLVEGLKNESIMTENSINNLIPIRLKGVKESLELISHKPEKHDLSTKENILSYLLIILGLVGISHYLFDQRIIAIRPLTEIFTGIWLLMLLVGYFFIKKGARFGALVAAIVSWIAAIFWLIDSMYLISYLPQIGPYPVGKGFAILGNYPDTNTTILNIIGLSIIAILVIIAHFTFYDKKIYKK;locus_tag=LOCUS_6040;note=WP_011124107.1 oxidoreductase (Rhodopirellula baltica SH 1) [pid:38.5%25%2C q_cov:69.2%25%2C s_cov:63.5%25%2C Eval:3.5e-59%2C partial hit],MGA_611
sequence05	MetaGeneAnnotator	CDS	32724	33581	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYIRNKRVKGINYAYLVESTWDKKKQISKQKTVKYLGKSKKLTLEDIPEEYKSNQNVIKFLSKQNNESINYSDLIEKTRKDIFTKLAGQTPVNSSIIYDEYKDYFTITEFYDKIMKQILYDVGDLWEKNKLMIGTEHVISNRLLSVINELNQLQNRKKNKTKLLICNPAGEKHNIVCNILESILINKGYNVYNISPSTPSEDILKYVRNIQPDLILMSITLNANLSSGIKLVKNITKEYNIPILVGGQAITAEQSKMFFPAKIITKDTTFDNSLKQIRNLCQIH;locus_tag=LOCUS_6050;note=WP_011181858.1 methionine synthase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:26.9%25%2C q_cov:46.0%25%2C s_cov:11.8%25%2C Eval:4.4e-08%2C partial hit],MGA_612
sequence05	MetaGeneAnnotator	CDS	33837	34313	.	-	0	ID=MGA_613;product=phosphopantetheine adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061166.1;translation=MSLMLKYKKGAVGGTFDILHVGHKYLLEMTFKISQEVVIGVSSDDFVIKLNKEVIHDYETRIKNIQQFIQSKFPEAIYQIFKLEDYFGPTRYLEEFDVIVLTPENSHRLDSLNTQRKSEGLTLIHGEIIDFLKASDGLPISTTRIKNGEIDSDGNSLI;locus_tag=LOCUS_6060;note=WP_048061166.1 phosphopantetheine adenylyltransferase (Methanothermobacter thermautotrophicus str. Delta H) [pid:38.7%25%2C q_cov:94.9%25%2C s_cov:89.6%25%2C Eval:3.5e-23],MGA_613
sequence05	MetaGeneAnnotator	CDS	34390	35298	.	+	0	ID=MGA_614;product=type II methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870846.1;translation=MMDKLEIDDRFMQAGKIAATVREHFKKKDLIGMTVNQICTEVEEMTRKLGAEPGFPCGVSVNSVTAHYSGELFNDQTIRDNDVIKLDLGAHVDGYVADTATTICYNPDYQELTLATETALNNAIKTVKNKISSSNIGKIISETANRFGFKPISNLSGHSIERFKVHAGVSIPNVWTPLGVSLKTGNVYAIEPFLTVKDGSGYVVDGKTKTIYMLLRRKKTGEKRLDEFTEKIWESRNTLPFSPRWYTDDYKKEELNMILNKLVAKKIMRVYPDLLEANNKVVAQFEHTITPTENGMIIITKT;locus_tag=LOCUS_6070;EC_number=3.4.11.18;note=WP_010870846.1 type II methionyl aminopeptidase (Methanocaldococcus jannaschii DSM 2661) [pid:40.9%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:1.0e-58],MGA_614
sequence05	MetaGeneAnnotator	CDS	35295	35501	.	-	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLPIMGAPDKKRKKLTAYTIEECIKCKNPQKREFKLGDLVHKIIGQCKDCNENIMISMIYGESIKKN;locus_tag=LOCUS_6080;note=MGA_615
sequence05	MetaGeneAnnotator	CDS	35502	36623	.	-	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979465.1;translation=MDLIFILGAGSDVQLTSNPIINLAIFYLPLALLIIYGQRLQTWLITNDLSKTVGRLKEMKDKSRQDTIDHITEGIDNKEEKIKRLDSFLEYFTIMPVDLDPSGVINKLDHLMTTRDERMKDEVKQLFPDLDELKSNSIENVIEIAASFNIIYKVVRHFYLVGKKTNNLLILAQLQMIMPFLMLQADALNQAMNSFKKNQPVGDAIGPMIVGKLMLDKEKHDIAVDTVYAESNISDRKVVLITAKGPNGTVGQPGNAVQELIEKEKPSLLIMIDAALKLEGEKTGEVAEGIGAAIGGIGVDRFRIEESATNNNIPVYAIVVKQTIVEAISLMTKDIAESVNTVHNIINRLIDERTQKNDTVIIVGVGNTIGVIQ;locus_tag=LOCUS_6090;note=WP_010979465.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:32.4%25%2C q_cov:96.0%25%2C s_cov:95.0%25%2C Eval:3.5e-54],MGA_616
sequence05	Barrnap:0.8	rRNA	36694	36803	.	-	.	ID=Barrnap_1;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r0010;note=Barrnap_1
sequence05	MetaGeneAnnotator	CDS	36904	38022	.	+	0	ID=MGA_617;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978108.1;translation=MADYSVTPWEVKGDMNYDRLVRDFGTSHIDEDLLKRIEKHAGELHFMLKRKVFFSHRDLNWIIEKYEKGEKFFLYTGRGPSGNTHLGHLLPWIFTQYLQEKFDVELYFQITDDEKYMFDRNLTRQQVAEFSYENILDIIALGFDPEKTFIFKNTEYIKTMYQISIDIAKHVTFSTAKSIFGFENSTNIGMIFYPSLQAATCFLPAVLKKKNIPCLIPAAIDQDDYWRGIAREIAPKLGYYKPAQIHSKFLPSLQRGEKMSSSRPNTAIFTTDDLEVAENKVKNAFTGGRDTLEEHRKYGGNPDVDSAFQYLYMILEKDDKRVEEIEKDYRAGNLLSGELKEITAEKTKQFLKEHQVKRKHAEKIFDKFILKD;locus_tag=LOCUS_6100;EC_number=6.1.1.2;note=WP_010978108.1 tryptophan--tRNA ligase (Sulfolobus tokodaii str. 7) [pid:55.6%25%2C q_cov:98.4%25%2C s_cov:95.0%25%2C Eval:2.7e-115],MGA_617
sequence05	MetaGeneAnnotator	CDS	38032	39549	.	+	0	ID=MGA_618;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869988.1;translation=MADMNRDNLHLLEKKLLQVISLRIESDLQNLVNESGLTIDQIRRSIEWLKEKNLIELKTTEMRVISLGKKGELARNKGLPEIRLVNKLKVGEKIELAELSKKIGMEKDELSAALGYAKSEKWITVFKENDKVIIKKENINPVSKLEELLNKITKPTEFSNFTIEEQELFRLLVKRPNYIIEKLTKKVRVKITKNGLEISKNISEDNYIDALTPKMLESGEWRNSMLRPLNVESPSPTIYSGKKHPVRIFIDEVREIFVSLGFQEVEGSIVQSSFWNFDALFTPQDHPAREIQDTFYIANEKSSLQVDKQILKNVADVHKNGSNTGSKGWGYEWNIEQAKRMVMRTHTTCVSVRHLADNKPDEARVFSVGKVFRNEKVTFKNLVEFHQIEGIVVGSKVTLRDLMGLLTKFYNKLGFDKIKFWPSFFPYTEPSLQSMVYHEGLSKWIELGGMGIFRPEVTKPLGVNNPVLAWGSGLERLVMLRYGIDDVRELYENDLDWLRRVPLCP;locus_tag=LOCUS_6110;EC_number=6.1.1.20;note=WP_010869988.1 phenylalanine--tRNA ligase subunit alpha (Methanocaldococcus jannaschii DSM 2661) [pid:39.8%25%2C q_cov:97.6%25%2C s_cov:99.6%25%2C Eval:7.7e-98],MGA_618
sequence05	MetaGeneAnnotator	CDS	39540	41192	.	+	0	ID=MGA_619;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878921.1;translation=MPLITIYFDRIFSMLKGNISKEELVEKIPYLGLDIEEQNDEYIKIEYNPNRPDYSTDYGLARSLNSFLDFETEDSKYDINQSDFVINVDKSTKEVRQYIVAAIIKDIKLDDETIRQIITMQEDLHNGIGRGRKKVAIGIHNLDVIKSPLEYITVDDSFAFIPLNKDSDITVKEILNSEIGNQYASILAGHNRYPIIRDANKQVLSFPPIINGDLTRLDSKTTNLFIDVTGTDSDAVSNALSVLFTTLNDAGGKVYAVEINFDEYKIKTPTIKEESIEIEIEYIKSLLGLELTDKEIINYLRRCRISAKIVNNKAIIKTEPFRFDLIHPVDVVEEVALGYGIQNLEPSVPGSDIIGEFDHKQQLLFKARDVLTGLGLIEIMTIGLISEDMLDKSNISRESTMKVVDTKSIEHEVLKNSNIPAILKTFSQNIHKKYPQRIFEVSKIFLKTANGIEEQYHLTVGLAHATVNFTEANSYLNAFGQQLLNINLSTKATKNKLFVDGRAANIVIKEDVKIGIVGEIHPQVLENFSLRTPISLFDINLEELLKKNIL;locus_tag=LOCUS_6120;EC_number=6.1.1.20;note=WP_010878921.1 phenylalanine--tRNA ligase subunit beta (Archaeoglobus fulgidus DSM 4304) [pid:35.7%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:2.2e-101],MGA_619
sequence05	MetaGeneAnnotator	CDS	41187	41795	.	-	0	ID=MGA_620;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_026198805.1;translation=MLSGNNRNIAIIAIVLLVAAFLLFNNNSDSSDDMSNDTRPIVVIETDFGNIVIQLFPEVAPGHVDNFVKLANQGYYDGTTFHRVIPGFMIQGGDPNSKDDDRSNDGQGGHSAQGPDTFVNAEFSQTLKHKRGILSMARAQDPNSAGSQFFIVVTDSFFLDGQYSIFGEVIEGMEVADQIVNEKRDSMDNPLEKVTMKVSIRS;locus_tag=LOCUS_6130;note=WP_026198805.1 peptidylprolyl isomerase (Desulfitobacterium hafniense Y51) [pid:52.1%25%2C q_cov:80.2%25%2C s_cov:92.3%25%2C Eval:2.4e-40],MGA_620
sequence05	MetaGeneAnnotator	CDS	42113	42964	.	+	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEKLIRDLEIRSKNYITQFNKSLEKVFDNHSWSSFHEPLLYATHGGKRIRPLLLMLSAEAVGVPGGKTNLAAVAVELLHTESIIHDDIIDEQIKRRDRDSFHERYGNNTSMLTADFVFGIILEIASRYNDSRIPKELSLAAIRMCEGEQREMSVSSKKVQWVEYLTIISEKTAALFQTSCKLGAIIGGGNEEEIDSLAGFGLNLGIAYQIHDDILDWEKDLKFSDNTDVVGKNEKFVSLTKLREMANVYTGNAKNHLITIKDSEQKDFLTDLADFTIRRDY;locus_tag=LOCUS_6140;note=WP_010875690.1 serralysin (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.3%25%2C q_cov:62.9%25%2C s_cov:56.3%25%2C Eval:7.7e-29%2C partial hit],MGA_621
sequence05	MetaGeneAnnotator	CDS	42948	44396	.	-	0	ID=MGA_622;product=dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021520.1;translation=MDTPITILVILAFAAIISPLFEMVFGKKSIKYVQYLTTLSLLISLFLLIISTLSLIPQESTVPHLLRNDTLGSFFGIIVILVTLLVSLASFDYLKGNSNEFIYYSLLLFTSIGMLILSFAVDLLVIFVAWELMSLPTFILAGFNKQDKLSNEAAVKFFILGALSSGILLYGISLLFGITGSTNLTVISQTLGNISSNLVPLVLFSTISILAGLGLKLSIVPFHMWIPDTYEGSPTTVSALLSAATKKAGFAAAIRIFAVIFPLFYFDLSLALAIVALVTMTLGNLAALTQKSITRLLAYSSIAQAGYLLIGLVVLPYSDLGLIGLLYHSFNHAILQASAFLAAALVKLKTSGSSLDNYNGLAKVMPITSFCLALSLLGLAGIPPLNGFWSKLILFAAAVDGGYAWLAFAGLINTAISVAYYLLIIKRMYMDDTSFKTIKEPFIFVSVLLFASAIIILTGIFPNVLYDITQDISVSFFTNNLV;locus_tag=LOCUS_6150;note=WP_011021520.1 dehydrogenase (Methanosarcina acetivorans C2A) [pid:36.4%25%2C q_cov:83.6%25%2C s_cov:83.4%25%2C Eval:7.9e-76],MGA_622
sequence05	MetaGeneAnnotator	CDS	44398	45879	.	-	0	ID=MGA_623;product=NADH-quinone oxidoreductase subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCG0;translation=MTDVNFPIVSVLIFLPIIAGLVIPILFRTSQKYIIHYSIIIALIELLLTFYSYGLILANGSGGIYNFVEGPVSIIGNFGIDYFVGVDGLSGPLILITSILTLLVLFGSRDLIEDRKMIYYAMIFIFEGAIMGVFTQLNMILFYVFWDVVLIPMFFFIGIWGGPRRRYAAMKFFLFTFVGSIFMLLAFILIYFNVSPHSFNIPEVAGKIPLNLQIISTILFFIGFGVKLPVVPFHTWLPDAHVEAPAPISVFLAGLLLKMGGYGFLRFNIGLLPEASIQYAWIFILIGIITMFYGAIVALTQTDIKKMIALTSVSHMGFVLVGAFTGTIFGISGAIFQMFTHAVAVGLMFMLSGYIHKATGTRNITVIKGLKFSSPRLATLLVLGSMAAMCIPIFSSFISEYLVILGAIQVNVIYVLIVAVPVITVGYFLWMLRRVVMSDHKSNRKWDLSNISTIALVLYLLPLVLTLIAPWLILDVTNPISTVYTNLLSGAAA;locus_tag=LOCUS_6160;gene=nuoM;EC_number=1.6.5.11;note=Q9ZCG0 NADH-quinone oxidoreductase subunit M (Rickettsia prowazekii str. Madrid E) [pid:41.8%25%2C q_cov:89.2%25%2C s_cov:89.8%25%2C Eval:4.3e-93],MGA_623
sequence05	MetaGeneAnnotator	CDS	45889	47988	.	-	0	ID=MGA_624;product=NADH-quinone oxidoreductase subunit L;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546379.1;translation=MSAEINYLIPWLVFSLPILGALLMPVVARAGTKLRDYYAISITLFSAILCALMLPLALAGETFHHQVMWIAALDITAGVLADPLSILMANIVGWLSFSIMVYSLSYMKGEANMTRYWFLMVFFIGSMQLIIFSDNFLQLFFGWEGVGLCSYGLISFWNKDLKKDYVGTIGKKAWGIPLAFSPTHAGSKAFLMTRVGDVSFLIGILILFFFSGTFDFVKLSENHTWAVDLAQSGLLIPVALFIFGGAIGKSAQFPLHEWLPDAMAGPTSVSALIHAATMVKAGVFLIARIGPIFVTAVENISMILPFFEFVAWIGAITAFLAASQAMVSKELKKVLAYSTVSQIGYMMLAFGVAGLTSNFVAGYVAGFFHLTSHAIFKAALFMGAGAVIHETHTKYMNEMGGLRKNMRVTFVAMTIAAGSLAGIPLLSGFWSKDAILASILGVESSMTLIALFGIASITAVMTAFYSFRMIGMIFFGKPSKHIKKLISSGKHVHEAPVLMYAPYVVLAILTVAIGFTGPAIEGFLENSLAHHLEHAVGMEIHEYTFSLNRIAVSTSVIAVLIGCGFSYLFYINNRMTPNQIINSVPGLSNLQKLFENRWYINSLYYKIFVNGSLRLSQLIDKYIETGILSKLNTVIPDYSISSSKVGGRFDAYVVDGTATRIANMNLFFSRIMRKLQTGITEQYVFIFTIGIIALILLLI;locus_tag=LOCUS_6170;EC_number=1.6.99.5;note=WP_012546379.1 NADH-quinone oxidoreductase subunit L (Thermodesulfovibrio yellowstonii DSM 11347) [pid:34.0%25%2C q_cov:96.1%25%2C s_cov:96.2%25%2C Eval:1.1e-95],MGA_624
sequence05	MetaGeneAnnotator	CDS	47988	49517	.	-	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLQAVFLPIILAPVIYLLGLRIGKNVGWIAFLILLYSTGLVLYSGLGTSNSSLFTGTHLETYSWNPIGNFGLYIDSLSFPFAAIILILSTTLSIYSMPYMEHRIKEEFHGSKKFSSDIMNRKMALYYSLYTIYAAGMLGTVLATNLIQFYIFFELMLIPSFFLISEFGYGERQKISLMYFLWTHVGAVSLLAGILTVGFFGGSFNFVEITENTLPSSIRLFVAIAISFGLLVKLAAAGLHVWLPYAHAESPTPISALLSPAMIGIGAYAFLRIFVFILPSIYPSIVFVITLWGLLTMIYGGLMAYAQDDIKRLLAYSSVSQMGYIIFGMGSFYYLGVTGSVFHYVSHGTGKALLFMAAGSIIMQTGGTRSIKKLGGLGSKLPITGIAAMIGFLAIVGVPPTNGFQSEWMIFAGAFGGALESGSTFKLVIASLALAGTPITAGYALLTMRKVFFGELPKGFENIKEPSILVTLPLLFLCALTLTIGVFPSLITDGLVPLLQPIFGGMK;locus_tag=LOCUS_6180;note=WP_010980304.1 oxidoreductase (Sulfolobus tokodaii str. 7) [pid:39.2%25%2C q_cov:81.1%25%2C s_cov:36.5%25%2C Eval:1.7e-76%2C partial hit],MGA_625
sequence05	MetaGeneAnnotator	CDS	49525	49833	.	-	0	ID=MGA_626;product=NAD(P)H-quinone oxidoreductase subunit 4L;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DL29;translation=MEPLLNYFLLSLALLSVGIYGLIAKRNAIRLLFSVEIIINAAIINFVAFARYSDSPLITGQTISLFAIALAATEAAVGLAIIVQAFRLNNDIDVLELKKLRG;locus_tag=LOCUS_6190;gene=ndhE;EC_number=1.6.5.-;note=Q8DL29 NAD(P)H-quinone oxidoreductase subunit 4L (Thermosynechococcus elongatus BP-1) [pid:40.2%25%2C q_cov:90.2%25%2C s_cov:91.1%25%2C Eval:1.3e-13],MGA_626
sequence05	MetaGeneAnnotator	CDS	49841	50332	.	-	0	ID=MGA_627;product=NADH-quinone oxidoreductase subunit J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257850.1;translation=MTDIVFLTVAFLTVIFAILALEARELVYGAVALSLSFLGVAAIFVLLDSLFIAIFQVLVYVGSIAVLIVFVIMLVRRDKWITVKGGNERIFGFVAAILLFSTMAYFSLSTGLAEQYPNPSSIANFYEIGSQLINDYWLILQLTGLVLAVSIVGALTMAKFEKR;locus_tag=LOCUS_6200;note=WP_012257850.1 NADH-quinone oxidoreductase subunit J (Chloroflexus aurantiacus J-10-fl) [pid:32.2%25%2C q_cov:99.4%25%2C s_cov:77.8%25%2C Eval:6.2e-18],MGA_627
sequence05	MetaGeneAnnotator	CDS	50325	50825	.	-	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKLIFGILGAFAVGIRNIFKRRMTLKYPEQRLDLESGYTYDAKSNTASPGFKGRHILYTDKCTGCSLCAIACENIADCIDMVKVEGSWPINPKIIMPQIDYGRCVFCGFCVDACPFDCLFMTPEYELSAVDKRKLVHTPFQLAVFPEKKGNVKLIVDNDEAHHD;locus_tag=LOCUS_6210;note=WP_052847026.1 NADH-quinone oxidoreductase subunit I (Sulfolobus tokodaii str. 7) [pid:39.3%25%2C q_cov:83.7%25%2C s_cov:70.7%25%2C Eval:1.0e-18%2C partial hit],MGA_628
sequence05	MetaGeneAnnotator	CDS	50825	51985	.	-	0	ID=MGA_629;product=NADH-quinone oxidoreductase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HAY9;translation=METFEEFVKMILTLLFWFILLSPLIIFPILFLLVPIFGIDVNIVNEILTATIDPLKAIKLAERYGLGMSSTFFKVAAFPGFTFAALMATAIILYERKLIAKAQLRYGPLYAGRFEGFLQPIADLFKLLGKELIVPEKADKPFFWAAPILTLGLGAALLTVIPLSPTHYIARSDFSLLIPFAIIGFSPLIILIAGWASSNKFAFIGGLRALHQLVAYEIPMLISVLGVVILVGSFDLFKIVEYQKDIWFIFPQFLAAIIFYITILSELERVPFDIPEAETEIVSGWLTEYTGMHFGLLQLGVYLKFYVLALLFTLLFLGGWNGPAFLPPVVWLLSKLFFVITVVILPRAVLPRLRIDQLIRVGWAWLIGLSFINLFLAVIESSLGVI;locus_tag=LOCUS_6220;gene=nuoH;EC_number=1.6.5.11;note=Q6HAY9 NADH-quinone oxidoreductase subunit H ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:38.9%25%2C q_cov:80.8%25%2C s_cov:94.3%25%2C Eval:3.0e-56],MGA_629
sequence05	MetaGeneAnnotator	CDS	51991	53103	.	-	0	ID=MGA_630;product=NADH dehydrogenase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762086.1;translation=MSFNVVNQGGDKLILHVGPQHPGSGHFRIIVTIDGDYIVDAKPDPGYVHRGAEKMAEYRDYIQNIPHLERPVIIDATGITLPYVLTAERIIGVEAPERAQCIRMIMAELNRIISHLYWLAIYGIFLGHSTMFMWPMGDRELFIDLAESIGGVRVTFSYVVPGGVRNDIPPNFKERALKTFDFFEKRIEEYKQIFFDNPLMASRTEGIGVLKKQDAIRLGITGPNLRASGVDSDVRKDEPYCLYDRVNFDIPTRKEGDSYARCIVRLEELQQSMDIVKQVLEIIEPGPIKQVIGGILRGEPGEAFVRTEAARGTMFYHIVSNGEKTPYRVKISVPSFRNLIGMKHLLVGARLADMPAIYWSLDYWPVEADR;locus_tag=LOCUS_6230;note=WP_011762086.1 NADH dehydrogenase subunit D (Pyrobaculum islandicum DSM 4184) [pid:43.8%25%2C q_cov:98.6%25%2C s_cov:94.3%25%2C Eval:6.3e-88],MGA_630
sequence05	MetaGeneAnnotator	CDS	53108	53584	.	-	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVINLDIENKFIESLKDKFKDKIKVEYVEHNRIKVSTNKKNFKTLAIAVKELGFEQVISQGGTDYPDNKKFRVEYHVICLSNKKFRRIMFSLMTEISKAKPEIETLIDVWPSAEFHEQETFENFGITFVNHPRMERLLLPEDWDDIPPLRKDFRLPGR;locus_tag=LOCUS_6240;note=B5YL31 NADH-quinone oxidoreductase subunit C (Thermodesulfovibrio yellowstonii DSM 11347) [pid:30.9%25%2C q_cov:94.3%25%2C s_cov:72.6%25%2C Eval:9.8e-18%2C partial hit],MGA_631
sequence05	MetaGeneAnnotator	CDS	53597	54106	.	-	0	ID=MGA_632;product=NADH-quinone oxidoreductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813216.1;translation=MVDPTLNLLVGRASDIFESIVEKNVREPLRYLVNWGRLYSLWPVHLETACCSIEFGAASGPRYDLERFGMLEAFGSLRQCDVLVVQGTVTRKMAPRMKWVYEQMPNPKWVIAMGACAISGGLYPDSYNVLQGVDKIVPVDVYIPGCPPRPETLIQGIIELQNKIRKSKV;locus_tag=LOCUS_6250;note=WP_005813216.1 NADH-quinone oxidoreductase subunit B (Desulfitobacterium hafniense Y51) [pid:57.4%25%2C q_cov:87.0%25%2C s_cov:85.5%25%2C Eval:2.0e-46],MGA_632
sequence05	MetaGeneAnnotator	CDS	54100	54429	.	-	0	ID=MGA_633;product=NADH-quinone oxidoreductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HAY5;translation=MTIAGVAFSIPTLIIPVLFAPKKRNPIKLQTFEAGQPPTGESRIHLIMQYYSYLIMFVIFDVTVMFLFAWGVAFQNLGIQSLTSLLPFLAVILIPMIYALNLAGKRENW;locus_tag=LOCUS_6260;gene=nuoA;EC_number=1.6.5.11;note=Q6HAY5 NADH-quinone oxidoreductase subunit A ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:32.0%25%2C q_cov:89.0%25%2C s_cov:79.5%25%2C Eval:1.5e-12],MGA_633
sequence05	MetaGeneAnnotator	CDS	54559	54906	.	-	0	ID=MGA_634;product=transcription factor S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249488.1;translation=MQFCPKCNAKTRPQKVETMSTSKVSSKVLITCPSCGYSEKSKPIKIKEVKQEDSKTIRVVDKKTQKLQSMPTTKATCNKCGHDYAYFWEKQTSSLEKASTQFFRCEKCSHTWRAT;locus_tag=LOCUS_6270;note=WP_011249488.1 transcription factor S (Thermococcus kodakarensis KOD1) [pid:38.8%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:4.0e-18],MGA_634
sequence05	MetaGeneAnnotator	CDS	54965	55357	.	-	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496879.1;translation=MNKLQYNFEFQEFLSYFINQLNSECNEDAIVIVEGKKDVYALFSLGFNGRIIEYCNNNNISKLERIAQGYKKLIILFDYDAEGRRLTRKIITSFARTSVIELKYRRNLSIASSGIIKHIEELSNFFPIVI;locus_tag=LOCUS_6280;note=WP_064496879.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:32.8%25%2C q_cov:90.0%25%2C s_cov:92.2%25%2C Eval:7.0e-07],MGA_635
sequence05	MetaGeneAnnotator	CDS	55385	55732	.	-	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQILDGLIFGFVDNFLLIIGTYVGVNLELRFHRFTHQYNPIKKFRSFLKQNSRGVFGGLIGAALSHVLSNTTGAILDPSMRHMVLGIALGTLIPVFFIPIIEIIKQQKNISRTKS;locus_tag=LOCUS_6290;note=MGA_636
sequence05	MetaGeneAnnotator	CDS	55719	56000	.	-	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIALPDGLIFGFIDNSLLLIGAYTGVGIEKFLNEKSSGVLGGVLGATLGNSVSDGVGAILDPTMNDMVVGIVIGTLIPILFIPFIERIRNANS;locus_tag=LOCUS_6300;note=MGA_637
sequence05	MetaGeneAnnotator	CDS	56042	57244	.	-	0	ID=MGA_638;product=butyryl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048186.1;translation=MTFDFSFTETQSEFRREVHDFIHNEILPTVSKYDQNEEFPFENIAKMSAQGYFGLTIPESYGGKGLSKIEYGILLEELGAVCASHGTILGAHLGLCVTPIILYGNDNQKNKFLPQLASGKSIGAFALTEPGAGSDAANLQTSATPDGDDFILNGSKIFCTNGDSADYIIVFAANDKSLGPMGGITSFIVEKDMSGFSVGKKEKKLGLRASSTVELIFENCHVPKENILGDIGTGFMIALSTLDGGRISLAIGSLGAAQRALDLSIDYLRQNQSEGGNLSNRQSIQWKLADVAMEVYASRYLCYNNLVELEKYYEIIESKEKVPRQLRDRVSRGSAISKAYVSEVASRALTTAIEIQGLSGIIAGSEFERGFRDSFIAEIYEGTNDIQRMIIAKELLGLGL;locus_tag=LOCUS_6310;gene=bcd;EC_number=1.3.8.1;note=WP_012048186.1 butyryl-CoA dehydrogenase (Clostridium botulinum A str. ATCC 3502) [pid:42.7%25%2C q_cov:98.2%25%2C s_cov:99.5%25%2C Eval:3.5e-87],MGA_638
sequence05	MetaGeneAnnotator	CDS	57300	58430	.	-	0	ID=MGA_639;product=acyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001011186.1;translation=MNNLSSSKEETEMIKEVIKDFGENEINPIVSDIEDNSDIPTSILEKVSELGLYGMLGSSKFSGAETSFSTFIHGILELAKYSPVLSSHLMFHNVFLVQLLTKFGNNELQELLLNDLNTGKKLGAAVLGDSGNTINIGNINIEAMDEGDSYSISGTKKFVFNGEIADYFIVFCNFGKDSGFLLVDKDNPGISIGKLLNTVGLRGNKSVPISFYSCNVPKTNLIGVPDDINKILHSIQESVWMGLSAISIGLMQSSLNQAVKYSNERQQFSKPISKFEAIQSKLAYIATDIEISSAMLEKVSLLKDNHEDILRLAAMIKITTTEMVQRNTKKALLIHGGYGYIKDYPVEKMVRDAETIKSLCDSNDDLRVLISKPFIN;locus_tag=LOCUS_6320;gene=mmgC;EC_number=1.3.99.2;note=WP_001011186.1 acyl-CoA dehydrogenase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:31.4%25%2C q_cov:96.8%25%2C s_cov:97.9%25%2C Eval:4.1e-50],MGA_639
sequence05	MetaGeneAnnotator	CDS	58557	59144	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMKGTYLLLGINFLVFIIFNIILGNTTCGDIPWRTFCIKSDYLFQFAQVNQLIFSGENLYQLITKMFVHIAALHFALNMISLWFFGIRLEKISSARFLIIVFLLSGLSTSITNLFLGTIVSAGASGAIFGVATVFTILNWNKKNTKILFLVFLIFIHSPALLGSNINYLSHFTGLAIGAILGMIRFQMLNRTID;locus_tag=LOCUS_6330;note=WP_001832757.1 rhomboid family intramembrane serine protease (Staphylococcus epidermidis ATCC 12228) [pid:34.0%25%2C q_cov:74.4%25%2C s_cov:32.5%25%2C Eval:4.3e-15%2C partial hit],MGA_640
sequence05	MetaGeneAnnotator	CDS	59155	60336	.	+	0	ID=MGA_641;product=acetyl-CoA acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876428.1;translation=MSQSYTSNMNKVFLLSAAGTTYGKTDLTARDLSMLASKRAIERAGIKVQDIQAAFIANAFGMAEKQGHLGPLLMSSLGIPHAPSSTIEAACCSGGSAVREAYVNVASGFYDVVLVAGTEKISHLDTLTATTYFSYGGDYCFEGNSGASFPGLYATMARSHMHEYGTTEEELAAVAVKNHENGFLNDKAHFQKKITIDDVLKSAVVADPLKLYDSCPFSDGAAAAIIASEEFMNKNNLQKSVSIKGSGRSGGAGSLHTRKNMSSLESTIRASREALKHANINIKDIDFAEVHDCFTIAEIIAMEDLGIFEKGEASKALVEGRTRINGEIPINPSGGLKSKGHPVGATGVGQIVEVFEQLTGKSEQRQVKDAKIGLTHNVGATGGSCAVHIFERE;locus_tag=LOCUS_6340;EC_number=2.3.1.9;note=WP_010876428.1 acetyl-CoA acetyltransferase (Methanothermobacter thermautotrophicus str. Delta H) [pid:45.3%25%2C q_cov:97.7%25%2C s_cov:100.0%25%2C Eval:1.1e-93],MGA_641
sequence05	MetaGeneAnnotator	CDS	60338	60718	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEDSVFVGDIFEATREGKINAYKCTKCKNQGVAVQAFCEKCGNNKLTTKEIGNVGKVITYTIQTVAPDPFVNEVPYAWIIVELENNIKITGWIPFISSREELNIGQKVKLIKSYKPGMVFEKLSE;locus_tag=LOCUS_6350;note=MGA_642
sequence05	MetaGeneAnnotator	CDS	60752	61726	.	+	0	ID=MGA_643;product=3-hydroxybutyryl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P52041;translation=MVLFVKRVGIVGGGAMGSQIADIMAINGKEVIIKDMSEEFLKKSRENIERNLDDLLKFNLTRADKEIERIEKSNQIQLNDEQKAKIQETLKPKFNEDRKKEALDKIQTTTDYKEFNEVDFVIEAVLENTKLKKEVFSELDKYTPSHAILATNTSSLSITEISSATKRPEKVLGIHFFNPPITLPLIEIIPGIETSEETINDVIDFMSTIRNHRYPMQPIKVKEVPGFLVNRILFAMMNEAYSCYDEGVASMRDIDLAMKAGAGMPMGPFELSDLVGIDVIYHVEEEVRKMIGGNTMRQPSQTIRKLYHAGRYGKKTKKGFYDYT;locus_tag=LOCUS_6360;gene=hbd;EC_number=1.1.1.157;note=P52041 3-hydroxybutyryl-CoA dehydrogenase (Clostridium acetobutylicum ATCC 824) [pid:39.7%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:7.4e-58],MGA_643
sequence05	MetaGeneAnnotator	CDS	61731	62522	.	+	0	ID=MGA_644;product=enoyl-CoA hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000445567.1;translation=MSENEFVKIKVEGGIGIITVDNPPVNALNSNVLEQLDKVIDQASENNEVFGIVITGGGNNAFCAGADIKSFAQLTEPDDVMAVIELGQNVFKKIANVGKPVVAAINGAAFGGGNELALSCDIRISSDRARFSQPEVNLGLIPAWGGTQRLSRLVGVSKAKELIFTGQFVTAQEAYRIGMINKVVPDGEELRAASDIVRQIASRAAPLAVKAAKNIINAGNEEKTLDEGLKLEVEEMKNLVKTEDIQEGIKGFIEKRQPKYKGK;locus_tag=LOCUS_6370;gene=crt;EC_number=4.2.1.17;note=WP_000445567.1 enoyl-CoA hydratase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:43.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-53],MGA_644
sequence05	MetaGeneAnnotator	CDS	62573	62851	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEIIVETLSSSSGGAIFQVTVRDETSQSKHRVRMSHDFHQKLANGKTPEEFIKTSFEFLLAREPKESILGEFDMPKIATYFPEYEEEIKKM;locus_tag=LOCUS_6380;note=MGA_645
sequence05	MetaGeneAnnotator	CDS	62853	63449	.	-	0	ID=MGA_646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEEEKRLRKREREQRRSDRKKRKKRSKQLNVLRKYVLFAAAILLIGYGLFSVVSGPQIGPIGSTHEHLDFLVYIDGTPIDLNQSRYALQSSYAHVHDNEGDIIHLHAINIPLTWFMDSLGLPITENSIKVNGIEYTSDGDNELLVFVNEEKITNLDYALSDEDKLLIYYGPESDIEFALSLVPNRAVEVNNAPNRGD;locus_tag=LOCUS_6390;note=MGA_646
sequence05	MetaGeneAnnotator	CDS	63504	63995	.	-	0	ID=MGA_647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASISLFAFIYPTLSRPDLSLIISVDAELNGIADDYNHEYRPISSDENNIINEIFALRIANLGKVDANNISINLKFEPTNDWYSVISVEQTFGPPVIISDDNVIVEQLSVDETVTIKYVVSMNATSIGSNNLLQRKSHINFVVESDDSPLISENLFNVRLPSS;locus_tag=LOCUS_6400;note=MGA_647
sequence05	MetaGeneAnnotator	CDS	64108	64485	.	+	0	ID=MGA_648;product=amicyanin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085799.1;translation=MKRYVIGFGLVIVILLGVGVVMNDNNVPDEVERRAPEEFHVDAVSKSVFKPAMLNIQVGDTVTWTNIDSEVHSVSSSNVTSDGGVYFHETLLPDETYSVTFDKPGTYFYSCLIKFHGMTGIIRVS;locus_tag=LOCUS_6410;note=WP_011085799.1 amicyanin (Bradyrhizobium diazoefficiens USDA 110) [pid:38.8%25%2C q_cov:78.4%25%2C s_cov:79.3%25%2C Eval:2.0e-09],MGA_648
sequence05	MetaGeneAnnotator	CDS	64513	65364	.	-	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRTKINRTKQFRDIVKFEMIKFLRSRKIRASLILTAIVPILIYLLTDVVSTSFAGAAYGDSNIVTDYQIFINFILVLALVNVVMFGGDSLTSDFENKTGYVLFVNPISRASLLFGKFTAASIALISFNAVYYVIASIFSYIKYSALPANILLSFIFAALFVLGLLSLSFTLSSFFKGSNISYIVFIFLTFVVLGLVEYFLLLIESKPWWSITYAAGIIIYIFEIPYPKDQLIEVPSLFVPGQQQTIVNLIPEVGLSVGVFLLYIMIGLMTSLLLYKRKQLT;locus_tag=LOCUS_6420;note=MGA_649
sequence05	MetaGeneAnnotator	CDS	65365	66105	.	-	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMQAAITIKDLTKSYGKINALDNLSLEIPRGSAFAFLGPNGAGKSTTIKILTSIIKPTSGEAHFFKINALEEPHEALLQVGAIVESAEFYPSLTPLETLEYFGRLRGMNEDKISRNSKKFLKLVGLDDWSNIKIGTFSRGMRQRLAIAQALLHEPPILLLDEPTFGLDPRGMAEIRDIFKDITKQGKTIFFSSHLISEIKEICDNIAIIDKGSLLFADTIKNITKKFDTDDLEEIYLKTIKESVR;locus_tag=LOCUS_6430;note=WP_011250530.1 ABC transporter (Thermococcus kodakarensis KOD1) [pid:45.0%25%2C q_cov:90.2%25%2C s_cov:72.3%25%2C Eval:2.0e-51%2C partial hit],MGA_650
sequence05	MetaGeneAnnotator	CDS	66153	66530	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METRVIGMIILAGVVVQLILGFSGLVTPAMMDPVTIAHVVIGVGGFGVTIFMTNKALKVSTTPITKYVMIIASLVILGQLATGYMLLAGMSNLLISHTMSAWLIIALFVGHAGYAMYYAKKQNQA;locus_tag=LOCUS_6440;note=MGA_651
sequence05	MetaGeneAnnotator	CDS	66581	67246	.	+	0	ID=MGA_652;product=macrolide ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878518.1;translation=MRISLSNITKKFAHTSGDVLAVDNVNLDVDEGEVILLIGPSGSGKTTLLNMIGTIETPTSGQYRFDGELVSYKNIDIMTKFRRKNIGYIFQTFNLLRDLTALENVALVQELSGKVDLCIAKEHLHKVGLSGMENRFPFELSGGQQQRIAIARSMVKNPKVLLADEPTGNLDEKTTHEVFQTLVDMCKNNSTTAIIVSHDLSLSKYTSRIIEMHSGKAVDKS;locus_tag=LOCUS_6450;note=WP_010878518.1 macrolide ABC transporter ATP-binding protein (Archaeoglobus fulgidus DSM 4304) [pid:46.1%25%2C q_cov:96.8%25%2C s_cov:95.2%25%2C Eval:1.6e-46],MGA_652
sequence06	MetaGeneAnnotator	CDS	256	936	.	+	0	ID=MGA_655;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868855.1;translation=MSLKEPIIFINFKTYPEATAKNALKLAEIIDIVSRELGITIFLSPQFTDISPIITEYNIPVFAQHVDYVKPGKNTGHIIPESIKQVGCVGALINHSEKPLSSNEIELTINRCKETKLISCICASNAEETKYIATKHPDMMIVEIPELIGTGKAISTVNPEVISNAISVIREIDENVFIIAGSGISTKDDVNKALELGMQGVGASRAFVTANDPKKILTEMALGLIK;locus_tag=LOCUS_6460;EC_number=5.3.1.1;note=WP_010868855.1 triose-phosphate isomerase (Pyrococcus abyssi GE5) [pid:44.7%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:7.4e-55],MGA_655
sequence06	MetaGeneAnnotator	CDS	948	1385	.	-	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEDERIMEKYRGPSRQYPKIERKYMLRLLGGIFVILMGVIGSAVNVELSQETIMVEGPDPGAGPSEIESGIKITRTVGILALLSGGVINLWSINKYRDEYAEVKETEQRPEMLFILGGLIVTTVALAIAASYIFGVFIFAAAPA;locus_tag=LOCUS_6470;note=MGA_656
sequence06	MetaGeneAnnotator	CDS	1430	1891	.	-	0	ID=MGA_657;product=AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867606.1;translation=MYVLLFTIDETDKAILSEFINDSRLSYREIAKRLNLAVGTVLSRTKKLENEGVIKSYSAILDYEKLGFDITAISEIKVSKGKLTEVEKDIAKLLPTCLVYDVTGENDVIIVAKFKTREEMSIFTKKLLSMSYVERTNSKIVLNIMKEDFRLNL;locus_tag=LOCUS_6480;note=WP_010867606.1 AsnC family transcriptional regulator (Pyrococcus abyssi GE5) [pid:53.5%25%2C q_cov:94.1%25%2C s_cov:98.0%25%2C Eval:4.7e-38],MGA_657
sequence06	MetaGeneAnnotator	CDS	2023	3045	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQKNILVILVVLGILVMVLGIFVVPRQVNYDPRPGLKPQLVLDLDPNSNEMNVFAESITSDKEGNLYVGDNMGRILRINPETASSQVVGTVPPSEAGNCSVLLGIKFNQDGDLFVANGQCGQVWKLDKDKISSSSPGEAKLFKTGLKYANDIAFDRFGRMFVSDSINGIMWAVDVKSKDTIQFANQLTSRDPSFPFGINGMAISDDGTIYFANTGNGVIHKVDVRKEDGAINSVIVWRSHEALIGADGLAFDKAGNLWVTANSRNAILAITPDRRIIEVARNDNTGPLEFPSSITFSGESIFITNFDVGMGENQDNKLGIGPSIVKIHLGIEGLERPPR;locus_tag=LOCUS_6490;note=MGA_658
sequence06	MetaGeneAnnotator	CDS	3060	5378	.	-	0	ID=MGA_659;product=phosphoenolpyruvate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846514.1;translation=MSDPFVLPLRELNQKDSNLVGGKSANLGELINAGLPVPDGFAITAIAYKKLVLDTNLKTEIGNILLNIDLNDFNSMDLASQQIRQLIENITLPEDLKSEILSFYNSLGDDIEVAVRSSATAEDLPSASFAGQMDSFLYIKGFENLLTSIKKCLSSVFSTRAISYRNEKNFDHFLVLASVTVQKMLDPESAGVMFTLNPVTGARDVVYIESSWGVGETIVQGKVDPDSFIINKSDLSILKSNITSKKLMTIRGVTQGKFSIADRASATEVDIPIDLQDKPSIDDNTVKILSEFALKIEKHYNKPMDIEWVCEKNSNSIFIVQARPETVHSQTSSPESKILLKGIGASSGISSGNVNIIADVKNSSDFLDKQILVTQMTTPDWVPTMKRASAIITQSGGKTAHAAIISREYGIPCVVGAKNATTILKTGQEVTVDGTAGCIYDGIIKIQDQSDLSSLPTQFESESWPVTATNIYMNLGSPDLIEKYKGLPFDGIGLMRIEFLIADKIGEHPLKLIEEHKEEKFVTELYNGIYKVASTIFPRPVVVRFSDFKSNEYKKLPGGDKYEPNEENPMIGWRGISRYISQEYEPAFRLECKAIKKLRDAGMTNVWTMLPFARTISEVKQALEIIKDEGLERSDDFKIWLMAETPSLVIQADDFAKLCDGFSIGSNDLTQLMLGVDRDSELLHTLGYFNERDPAVLKAIKSLIESAHNNDITISICGQAPSIYPDFAELLVKQGIDSISANPDSVIRTRRSVAGAERKELLKLRKSQLDSG;locus_tag=LOCUS_6500;note=WP_052846514.1 phosphoenolpyruvate synthase (Sulfolobus tokodaii str. 7) [pid:50.2%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:1.4e-208],MGA_659
sequence06	MetaGeneAnnotator	CDS	5827	6309	.	+	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTGTAVNYFFKMSMLNTIIAIIFLFPILIPQLAFPILITQWPGIYMVLAYFIFLISSVVGFMIWTVAYYLLWNLYEIKNINRNLLYSQIILSEIGALCACIFMYWGGYVGSSAAYSGMSEFVVGVMMEFATIPSGLGIGLMLFGNSFGILNILLALKE;locus_tag=LOCUS_6510;note=MGA_660
sequence06	MetaGeneAnnotator	CDS	6434	6661	.	-	0	ID=MGA_661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKRYLLTNISTSDGLKSLDLKNIRVIRNKFSNTIILKVNLTNLDEIKNKLQKNNIKILQVSGTLKSIKNKNN;locus_tag=LOCUS_6520;note=MGA_661
sequence06	MetaGeneAnnotator	CDS	6658	7131	.	-	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868849.1;translation=MNIFLIILVKIRNKFAFRTIEVTFVIHETENTDKLLSCICDTLGLLDADFVLKRTEGHHGNTIKFVQAYFVRNRVPELTKKILSSLSIDDRNYIITHVTDYLDNKFTFYLRFSKQDIMDKCLKVSYNGSIRIKMKPKIKLHKNIVLNSYEDLLRDYS;locus_tag=LOCUS_6530;note=WP_010868849.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:30.8%25%2C q_cov:77.7%25%2C s_cov:84.4%25%2C Eval:2.4e-08],MGA_662
sequence06	MetaGeneAnnotator	CDS	7157	8155	.	+	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKQVCIGLESTAHTFGASVVDSNGKIMSDVKDIYKAPKGSGIHPREASRHHSSIANEVIQKAIENAKLNYTDLDIISYSAGPGIGPCLRVGATAARALSLKLRKPLVPVNHAIGHIELGCLLTGAINPINLLVSGGHTMILGFNSGKWRVFGETLDLTIGQLIDQIGRYGGYSSPAGAVIEKLALNSDNYLKLPYSVKGNDVSFSGMLTSAKKMMDKGMSIEDVSFSLQETAYSMLAEVTERALSFLEKDQVIITGGVAASTRLKEILELMCKERGAKLSVIPRNYSGDCGAQIAWTGILAYNSGIKVSVDESWVKQSWRLDRVDVKWRK;locus_tag=LOCUS_6540;note=WP_010877037.1 serine/threonine protein kinase (Methanothermobacter thermautotrophicus str. Delta H) [pid:48.0%25%2C q_cov:98.5%25%2C s_cov:61.0%25%2C Eval:7.1e-88%2C partial hit],frameshifted%2C insertion/deletion at around 8146,MGA_663
sequence06	MetaGeneAnnotator	CDS	8143	8766	.	+	0	ID=MGA_664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIINVGAEATVSITDWFGTSAISKHRERKKYRRHELDELIRTNRTLKEVNIMNKIRNKIDVPAIYFVDLNKSEIIMENIIGVKVKDSLNNSNLNKTEIGRKIGKIVGELHKNNIIHGDLTTSNMIIRNNQSICLIDFGLSTTSKKLEDKGVDIRLLKGILQSAHNDVFNEVFNNFKKGYKSVIKNSEVFSIVKKIEMRGRYARVD;locus_tag=LOCUS_6550;note=WP_010877037.1 serine/threonine protein kinase (Methanothermobacter thermautotrophicus str. Delta H) [pid:36.3%25%2C q_cov:96.6%25%2C s_cov:36.3%25%2C Eval:7.0e-30%2C partial hit],frameshifted%2C insertion/deletion at around 8146,MGA_664
sequence06	MetaGeneAnnotator	CDS	8750	9325	.	+	0	ID=MGA_665;product=non-canonical purine NTP pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879726.1;translation=MQELINKKINLATKNLDKYEEMRNILDNYNLDLRVVDLKGMEIQAFSVLSVAEQSAKVIATKTKEPFIVEDSGIYINSLYGFPGPYSSFVYKTIGLGGIVRLIKNREDKTAEFHSAIVYGEDGKIVKSFVGITEGLISTNLQGDQGFGYDPIFIPKGKKKTFAEMSLIEKNEISHRAKATRIFAEWLKEKQ;locus_tag=LOCUS_6560;note=WP_010879726.1 non-canonical purine NTP pyrophosphatase (Archaeoglobus fulgidus DSM 4304) [pid:44.1%25%2C q_cov:93.7%25%2C s_cov:97.2%25%2C Eval:3.5e-38],MGA_665
sequence06	MetaGeneAnnotator	CDS	9383	9820	.	+	0	ID=MGA_666;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762532.1;translation=MHGNSKGKSQSVKPIIMKSDWVKITPEQIGKLIVEMTKEGLNPSQIGTKLRDEHAISSIKAVTGKKMKQLMIENDVKQEIPEDLEALVKRAVSLQNHLKSNKGDRKNVRSLELLEAKVHRLSKYYKKKNIISKDWKYKSVVAQLT;locus_tag=LOCUS_6570;note=WP_011762532.1 30S ribosomal protein S15 (Pyrobaculum islandicum DSM 4184) [pid:40.0%25%2C q_cov:92.4%25%2C s_cov:89.4%25%2C Eval:9.3e-27],MGA_666
sequence06	MetaGeneAnnotator	CDS	9853	10104	.	+	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNIEINITLEFKKKSTATIIAKSLNPDNKDFPEGLIMKQSVKGNRLEIKFKSNNILESLLNTVDEVLSMIDMTNKTLEKVK;locus_tag=LOCUS_6580;note=MGA_667
sequence06	MetaGeneAnnotator	CDS	10106	11386	.	+	0	ID=MGA_668;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868451.1;translation=MIDPKLIRTDPEKIITMLKDRNVGYNFSKLLEIDKKRRILITELESYKMEKNKISQDISMKKKEGSDISKKLIEMKNVSIKIEDLNSNTKQIQEEYINQLESIPNLIHDSVPRGTDNKSNKEIEKWQPAVGLNKNSRDHIELAERNDLIDIERASKISGSRFYFLKNQLVKMNYALISFALEFINKKGYTMIQPPYLMNRKPMSGAVILSDFEEVIYKIENQDLYLIGTSEHALAAMHSDEIFSVDDLPLRYASISPCFRKEAGSHGRDTKGIFRVHQFEKVEIFSVINPEESWNQHEKILSDVKQFYKELEIPYKIVLLSSGDMGKVAAKTFDIEAWLPGQNNYREIVSCSNCTDYQSRRLGIKFRNKPHEESRLTHTLNSTLTATERTLIAIIENYQNEDGSITIPKVLRSYMNNQKEIDSSYA;locus_tag=LOCUS_6590;EC_number=6.1.1.11;note=WP_010868451.1 serine--tRNA ligase (Pyrococcus abyssi GE5) [pid:44.4%25%2C q_cov:97.2%25%2C s_cov:96.0%25%2C Eval:1.5e-104],MGA_668
sequence06	MetaGeneAnnotator	CDS	11373	12572	.	-	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWTEKYRPKVVGEIVGNDIIKGKFNTWLCNWDTSSKPVLLQGPSGVGKTTLVYALAHEYNYHVIELNASNKRTKNTLQTSLAPLFQSTTLFDETILVLIEEIDGLDSRADYGGVDFLIDAIEYISVPIIMTCNSTESKKLSKIIKKCQVYKFNQIEPRQISLVLESITKKENFDIPLDDLITISTHSHGDLRYAINALQTFDSNTEESQTFISKSLSLEQGIHGYLNSNDTTEAMNCILNTHSTPNDILRAIFSSVVSSSKKIPNNELSNILSIISNIDLLLGRILKTREWRQLRYFNSLLVYSLFQNLHQQSIDFSLYQNPFPLQVRIWNDGRNFRTIVQLLNKYMKESTDNIIDLIPFFILILSKQENRNNFLIRLGLEDKEINTINREITNLSKHN;locus_tag=LOCUS_6600;note=WP_010870398.1 ATPase AAA (Methanocaldococcus jannaschii DSM 2661) [pid:27.7%25%2C q_cov:93.0%25%2C s_cov:72.7%25%2C Eval:3.2e-40%2C partial hit],MGA_669
sequence06	MetaGeneAnnotator	CDS	12583	13437	.	-	0	ID=MGA_670;product=prenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877911.1;translation=MIFNFLSAFLSLIRPINSFMIGLAVIVGIAISYPDMLFSRVSLYGFITGFSISAYSMIINDVYDIEIDKINQSERPLPKGIISINSALLLSIILLLIGIVSSFLISYYNVLVAVTFSLLSWFYNIWGKRQGIIGNSIVASSMSIPFIFGGIITGNISLLVWSISLIAFLAGMGREIVKTIADIDGDKIKGIRSVSITYGSKRAMQIASIFIFISILISFIPVYFNLIQIFYIPLIIITDLLLIYSVYNISRDYSKHQSLKVKKLILYAMLLGLITFLVNSMILL;locus_tag=LOCUS_6610;note=WP_010877911.1 prenyltransferase (Archaeoglobus fulgidus DSM 4304) [pid:30.2%25%2C q_cov:97.2%25%2C s_cov:95.9%25%2C Eval:1.5e-32],MGA_670
sequence06	MetaGeneAnnotator	CDS	13434	13973	.	-	0	ID=MGA_671;product=tRNA-intron lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496827.1;translation=MEETTEIIQAQESNKGFLVKDNDSRQELKIRGFGEGKKHGLLLRDYEALFLIYSLKLDVVKDNNKLTFNDILKIALLRDTTAWTKFLIYRDLRTRGYVAKEGFGFGADFRVYDKGDFGSKAAKYIIFAMNEGSEINVSSLTTSVKQISRMGKVPIIAVVERRGEVIYYHLSKTHFRELP;locus_tag=LOCUS_6620;note=WP_064496827.1 tRNA-intron lyase (Methanocaldococcus jannaschii DSM 2661) [pid:34.0%25%2C q_cov:86.0%25%2C s_cov:89.7%25%2C Eval:1.6e-18],MGA_671
sequence06	Aragorn:1.2.38	tRNA	14069	14160	.	+	.	ID=Aragorn_4;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_4
sequence06	MetaGeneAnnotator	CDS	14199	14600	.	+	0	ID=MGA_672;product=peptide-methionine (R)-S-oxide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876350.1;translation=MIMEDKIIKTEDEWKETLSKEQFEICRNKSTEAPFTGKYYKTKDNGIYKCICCDNNLFKSETKFDSRTGWPSFFESYNDSSVRYEVDQTLGMTRTEVLCKKCDSHLGHIFDDGPTPSFKRYCINSVSLKFVKE;locus_tag=LOCUS_6630;EC_number=1.8.4.11;note=WP_010876350.1 peptide-methionine (R)-S-oxide reductase (Methanothermobacter thermautotrophicus str. Delta H) [pid:55.0%25%2C q_cov:97.0%25%2C s_cov:85.4%25%2C Eval:1.1e-42],MGA_672
sequence06	MetaGeneAnnotator	CDS	14628	15140	.	-	0	ID=MGA_673;product=gamma carbonic anhydrase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010920495.1;translation=MIIEFRGKKPKFSSSTFLASSADVIGDVVIGNDVSVWYNSVIRGDFNIINIGDGTNIQDNSVLHVDIGEPLKIGQNTTIGHSCIIHGCTIGDSCLIGMGSLVMNRVVIGSNCIIGAGTLITQDTIIPDNSVVVGRPGKILRQTNKSDLDYINNNAQTYITLKNKYLKKIS;locus_tag=LOCUS_6640;note=WP_010920495.1 gamma carbonic anhydrase family protein (Caulobacter crescentus NA1000) [pid:45.8%25%2C q_cov:90.0%25%2C s_cov:86.9%25%2C Eval:1.0e-37],MGA_673
sequence06	MetaGeneAnnotator	CDS	15516	16499	.	+	0	ID=MGA_674;product=ATP phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YJ68;translation=MSVIKLALPKGSLEKTTYQFIETAGYTIKGQSRTYRPIINDVDISIKILRPQEIPKNVQDGTQDIGISGEDWIKENKANVVNLLNLEYGKVTIVVALSKSNKNKNFSSLLSNHIRNKKPLRISTEYLNLAREYLLNNKIYRDYYGKKIPLITTPWFSSGTNKNVNIMFSFGATEAKPPEEADAIFDVIETGSTLAQNNLKVTDVIMKSSACLIANKKALKEPKKRQKIYDVLTLFKGVVESKTRIHIFMNVRKENLNRVLKIIPSLEAPTISELSKDKWYSLNTIISKEEFTQILPSLRKYVQGLIVHKPVQILPLEKIHEEEGNNI;locus_tag=LOCUS_6650;gene=hisG;EC_number=2.4.2.17;note=B5YJ68 ATP phosphoribosyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:35.4%25%2C q_cov:90.8%25%2C s_cov:92.8%25%2C Eval:2.3e-46],MGA_674
sequence06	MetaGeneAnnotator	CDS	16496	17836	.	+	0	ID=MGA_675;product=histidinol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496833.1;translation=MIRYIEIGKSSTTEQTSKNIRRQTSNSNDSEYVRKIMSDVEKNKDKALLKYSLKFDKVKLTINELKVKNKEIREAYLITNPIIVKELKNLKKSIERTENRIMKSFKNSVKSVNINNGQSFIKYNITPLNSIGCYVPGGKAVYPSSLIMSAVPAKVAGVNRIIVCSPPSSDKKINASVLVAADICNINEIYKVGGAQAIAAMGYGTNIIKPVEKIVGPGNYFVYQAKKIISEEVGIDLPAGPSELLIIADDTADEELIINDLFAQSEHGLDSLCGVVTPSKKLAGNLINLIKERLPSIKRKDIVSKSLLKNGFIVYCKNIRQCIDFTNSFAPEHLEIMTKNQELVAKNITTSGVVLLGKYTPAAFSDYGLGTNHVLPTGGSAKFCSALSSIDFTRRFFIAKSTKNNLKNNLKKIEILSEQEGLFNHGESAKVRFIKKNDKHVSKKNN;locus_tag=LOCUS_6660;note=WP_064496833.1 histidinol dehydrogenase (Methanocaldococcus jannaschii DSM 2661) [pid:40.9%25%2C q_cov:95.1%25%2C s_cov:98.1%25%2C Eval:9.9e-86],MGA_675
sequence06	MetaGeneAnnotator	CDS	17805	18956	.	+	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINTYQKKIINKKPLYQKISQDKINKIDTIIFDCDGVLIDTRKSYDKCIELTISYILKNMLDKKFSKIKISKTTIDMIRQTGGFNNDYKCCYVIILKIASMVPKDSIKSYELKYQNINKKNISNSFEKLQLIKTEINKSNKRKIKINLTKELNEFVKEIKKTDLESIENQIMTGLNKEQKKFVKIIKKFLNYPKNSKTNIIINVFDEFFYGKNFIKKVRKNKSINLNRKGTIENEKIIIKESTLIYLKKKFLNNIAIVSGRGRIGAKATLKDLFRYFNVRGNGFIEDLAREQKNNTKFDKPKPTILKRSVSRLKSKGNILYVGDAMEDLLMTQAANLDKNKQYLFAGIYGTSRLKQNKIKLFMDNEADIIISNINDIPELMSE;locus_tag=LOCUS_6670;note=MGA_676
sequence06	MetaGeneAnnotator	CDS	18958	19578	.	+	0	ID=MGA_677;product=imidazoleglycerol-phosphate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061060.1;translation=MRKAEITRKTKETDITVKVQLEGNGNVKINTSIKFLDHLITSFATHSLIDIQIEATGDLIHHTVEDVALTLGEAINKSLGDRKGIKRFGFAMVPMDDALAYSAVDLVKRIDDALAYSAVDLVKRPFQVTDLKIDKEGIEDMPAEDIYHFIQSFSQSLQANIHVMVKYGNNDHHKVESAIKCIALSIRDAISLDSDRDGTPSSKGIM;locus_tag=LOCUS_6680;note=WP_048061060.1 imidazoleglycerol-phosphate dehydratase (Methanothermobacter thermautotrophicus str. Delta H) [pid:45.4%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:4.2e-43],MGA_677
sequence06	MetaGeneAnnotator	CDS	19578	20186	.	+	0	ID=MGA_678;product=imidazole glycerol phosphate synthase subunit HisH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I243;translation=MTKIAILDYGVGNLFSIQTALNKLGVNTILTSKLNANLEYDGIILPGVGGWKHTVKKIEENRQILREWYDDNKPILGVCLGMQLFFQRSAEGPGKGLEFFEGEIKMLSKEMKIPHIGWNTLKKNNNNPLLEGVEDRSWVYFVHSLYPEPIDHNIISTTTDYGIDFTSMIYDKKIFGTQFHPEKSGKAGAKILKNFVSICDNQ;locus_tag=LOCUS_6690;gene=hisH;EC_number=2.4.2.-;note=A5I243 imidazole glycerol phosphate synthase subunit HisH (Clostridium botulinum A str. ATCC 3502) [pid:41.0%25%2C q_cov:95.0%25%2C s_cov:97.0%25%2C Eval:7.8e-39],MGA_678
sequence06	MetaGeneAnnotator	CDS	20183	20896	.	+	0	ID=MGA_679;product=1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18C71;translation=MRLVPSIDLLDGKVVRLKQGKPELATYYDYNPLDLVKKWQNIGVNRIHIVDLNGTLECGNNYELIKKISENTNIEIQTGGGIRSIDYAKKISNNVSKIVIGTVAMKNKELFQDICEQIGLSKIIISLDYIDEQIMVNGWRDRSGKNLNKSITEFVEYGIETVLLTSIKKDGMLEGPDIQTLQKVRNNTNIEIQASGGISSVEDIEKVKKIGIESIILGRVLHSKIISLEDAMLLEDK;locus_tag=LOCUS_6700;gene=hisA;EC_number=5.3.1.16;note=Q18C71 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:35.2%25%2C q_cov:98.7%25%2C s_cov:97.9%25%2C Eval:8.6e-41],MGA_679
sequence06	MetaGeneAnnotator	CDS	20897	21661	.	+	0	ID=MGA_680;product=imidazole glycerol phosphate synthase subunit HisF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66567;translation=MTLAKRIIPCLDVKQGRVVKGEHFVNLKDAGDPVQLGSKYRNNGADELVFLDITASPEKHKTVSEMVRNVAAKLDIPFTVGGGIRSIDDARGILCSGADKVGINTMAIEKPDLITEISEKFGKQCCVVAIDGKRNENQNSFEVYSYGARKATGLDAIEWAKKVEELGAGEILLTSIDRDGTKDGFDINLTKEIVKVVNIPVIASGGCGKLEHFVNIFQEAEADAALAASVFHYDQFSIAMVKKFLSENQVLVRT;locus_tag=LOCUS_6710;gene=hisF;EC_number=4.1.3.-;note=O66567 imidazole glycerol phosphate synthase subunit HisF (Aquifex aeolicus VF5) [pid:60.6%25%2C q_cov:98.8%25%2C s_cov:98.4%25%2C Eval:7.3e-81],MGA_680
sequence06	MetaGeneAnnotator	CDS	21658	21987	.	+	0	ID=MGA_681;product=phosphoribosyl-AMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879442.1;translation=MIKLSINDINFDKNQGLVPVIVQDNQSKEILMLAYANRLAVDETIKTGYGNYWSRTRNKLWKKGEESGNVQKVLEIKVDCDEDTLIYLVEQTGNACHKNTKTCFQRDLL;locus_tag=LOCUS_6720;note=WP_010879442.1 phosphoribosyl-AMP cyclohydrolase (Archaeoglobus fulgidus DSM 4304) [pid:61.4%25%2C q_cov:92.7%25%2C s_cov:92.6%25%2C Eval:8.5e-32],MGA_681
sequence06	MetaGeneAnnotator	CDS	21988	22662	.	-	0	ID=MGA_682;product=uridylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979322.1;translation=MKTVVIKLSGSLFSFDTNMSELKKITNILDEISRNGFKVIAIAGGGKMARTIQNTARSFGADEAFLDQLGIDVSRIHAKLLTACTTNACNYVPTTLDEVLLYLYSSKIIFSGGLSPGQSTNATAALIAERTKAKLFINATDVDGVFTSDPRQNKNAKLIKSINTKDLLNKIVGDKMNAGTYDLMDLLSLKIIERSKIPTVIIKCDSERIKSTISGKSTGTKIIF;locus_tag=LOCUS_6730;note=WP_010979322.1 uridylate kinase (Sulfolobus tokodaii str. 7) [pid:39.5%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:1.9e-34],MGA_682
sequence06	MetaGeneAnnotator	CDS	22764	24014	.	+	0	ID=MGA_683;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146580.1;translation=MANNIDSVALYKTRKMLRNLSTKSGRGTELISLYIPPKKALHDVVNNLREEYGTATNIKSDSTRNHVQDALTKTQQRLKLFKKTPDNGLVLFVGSLMTNGPGSEEIFVNEIIPPRPVQTYLYRCDDHFHLEYLMDMIKEVDIIGIISIDSTETGFGILSGSKLEVDEVITSGVSGKTRAGGQSARRYERLREMNLSSYYRRVAEHAKKIFLEQNNIKGLILSGPGPTKDSFLKSDYLDYRLKEKILAEIDGAYSGVEGVREAIDKSTNVLKDMRIVEEKKLIQKFLSEIHEERSLAVYGIKEVMNVTTRGAVDVILASDELNTLMISMKCNRCSTGRDEILNRTSYVQEKQELISEPCTSCKSTDFNITETDLIEILEDMASESGTRIEVLSSGSEEGKMLMSFGGLGAILRYNIN;locus_tag=LOCUS_6740;note=WP_048146580.1 peptide chain release factor 1 (Pyrococcus abyssi GE5) [pid:42.7%25%2C q_cov:97.6%25%2C s_cov:98.3%25%2C Eval:2.2e-92],MGA_683
sequence06	MetaGeneAnnotator	CDS	24033	26351	.	+	0	ID=MGA_684;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762768.1;translation=MEPKIKEKNWNVEIEKSISKMWDDESLYEFNINDEREIFTIDTPPPYPSGRPWHIGAAAHYAQIDMIARTARMMDFNVLFPIGIDRNGLPVEIYTEKKFNVSMIKTPREKFTDLCKIALDDLEAEMISTMKNMGLSGLFKQYYRTDSDEYRALTQSTFIELWKKGQVYQSSRPNNYCVKCRTTIADAEIIYRELPSKLVYIKFYLKEENDYVLIATTRPELLSSCQIILVNPEDDRFKHLLNKEIKVPIFNYYVKIIQHPSAKMEFGSGAVMICSYGDYTDVLLFRELKLQEKISIDTNGRMTENAQKYQGLKVNEVREKIIEDLQKTDLVERIENINHRTPCCERSKNPTEIIPMEEYYLKQLEHKDELLDIAKRLQFHPEEHRRRLIDWIEAISIDWPISRRRYNATEIPVWYCKACEEANLPEPGKYYRPWKENPPFDSCKKCGEKEFVGDERTFDTWMDSSISPLFITKYRKDEVFFKKTYPTKLRPQSKDIIRTWLHYTILRCNQLTSEAPFTHTWIMGYGVDERGEKMSKSKGNVIDPMPILEKNGADMFRLWAASEVNLGSDFRISEVKITGVGKFLSKLWNISRFISNFPVVEEEPLETDKWILDELSTVIKESLDGYADYNFFIPANKSREFIWSVFAPHYIELVKQRSYGIDFDEKTKHAAWSTLHICLKNILLLLAPITPFITDKIWRELYSEESIHKQSFPEADWNYGLSSLTANIIGFNSLVWNKKREQGLSLKNEISVDIPEELKLFALDLKSMHKLR;locus_tag=LOCUS_6750;note=WP_011762768.1 valine--tRNA ligase (Pyrobaculum islandicum DSM 4184) [pid:44.2%25%2C q_cov:98.8%25%2C s_cov:96.5%25%2C Eval:6.8e-184],MGA_684
sequence06	MetaGeneAnnotator	CDS	26343	28310	.	-	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLILQPIFIPQIISNPDINGDGIIIAIVDSGVDYNHPALGGGIGADKIVIGGYDFVDNDSDPMDELGHGTHIAGIITNIAPGSKLLAYRVVDYNGLVQSSDVIRALELAVSDGADIINLSLGSMSESEELRKSIKQITNSGVIVVTAVGNNGPIFGSIGDPAKYEDVISVGSHYNYYGDSTLAVVQIDSIKEEIIGLPMIGSVFPVGTLYAELEYVNYARNEDLVDVNLTGKIAVAKRRGEPGEVVFFSEKEFNVAQKGAIGLVIINTLPGLIKGRLLHPSAAIGYIPSIPTILITQEDGEKILNQIDVSNTFVRFAFRNSNLTNFVSLFSSRGPISSFYIKPDLVSFGEQVNSTWLNNSYKHQNGTSFSAPQVTGTVALLLDLHGELDKNQVLGILAPSAIPLKNSYNVYWPSIIQGSGSLNIENALQSPMSIYPAQLSFNLADKQSTHTQFITIESLVSDPMEVSLEHNLQDQDLDVSFNSSNFVLSGTESVVIEVNNKLLNSIQESYTDEFRLTIKTNLSDIQFSLPVLTYFNTISIDIQKISESYIVDILGIEQYDKVLFHVYNKDTADFNEEVFSFDEEMNLKLSPGNYWIYVIISSNDNFEFGGIEYTVDQNSSISSSNYDYIILLISIIFFFSAIILLYYNRKQSS;locus_tag=LOCUS_6760;note=WP_000754194.1 peptidase S8 ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:33.5%25%2C q_cov:71.9%25%2C s_cov:50.4%25%2C Eval:5.3e-57%2C partial hit],MGA_685
sequence06	MetaGeneAnnotator	CDS	28436	30538	.	+	0	ID=MGA_686;product=DNA topoisomerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868544.1;translation=MNKSEVNKLIGIKEYSLVICEKFEASKKIAEALSNNKYRKIRIFNTIIFVVTYNKKNYVLCSAIGHLYTLDFVKKRQKLPSYDCIWVPIRKTVNNRSSIVNSRIKVIKTLSEYAKEFILACDLDQEGETIGYNILKYTCNEKQNIAKRVKFSTLTEDDIKIAFTKIQKNININLAYAGLTRHTIDFLYGINISKALSRAFMINSKKYRTLSIGRVQGPTITYVVENELLAETHVPLPFWSINAYINSAINENNKWIKIKYIEQKILKNRKAVNILEDCKDKKAIVAKIEKINYRVNPPVPFNLSGLQKESFRLHRMNPYQTLIIAEKLYLNALISYPRTNSQKLPSTLNYRQIISDLGELSEFKNITNKLLKKQNIIPIQGKESDKAHPSIYPTGKTTINTLTETEKKIFNLIVKRFLNLFKEPALSEKKNTYFKIGKYDFFCSSKRIIDQGWIDDSVQDEDDLELSRGEELNVKRMKIIENFEEPIHPFNQMTLVQKMEKEEIGTKSTRANIIRTIIDRMYVKGVDLTPTPLAKALVETLKEYSPEILSSEMTRKMEKELRGIENNIVTPEQVLDKTKKDLELIIKSIQGNDKTIGKVLNKASKELAGKQLVKIPLAKCTICQNGDLIITSNSRNRALVCSMSIKGKCIVKASLPKFGYIKIAKIGCKKCSWPKIITTYKRKPWNFCLNPECYSKREKR;locus_tag=LOCUS_6770;note=WP_010868544.1 DNA topoisomerase I (Pyrococcus abyssi GE5) [pid:35.5%25%2C q_cov:96.7%25%2C s_cov:99.3%25%2C Eval:1.4e-108],MGA_686
sequence06	MetaGeneAnnotator	CDS	30535	30780	.	+	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNCKLCDNSVEKGNILCIYHKKALDNLKLGYKIWKKRFNCIEWEKYLKTLLEISTTGKLIKQVIIEEMKVNKINGNKTKN;locus_tag=LOCUS_6780;note=MGA_687
sequence06	MetaGeneAnnotator	CDS	30758	31180	.	+	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIKQKIDLIGNSILIKLKRLKFVNRFWNKSSTLVQTKFLMFFYIAFMILFITGIVNALVEGIGIQTQAPIIPNFQAQTLAEVIMFSTVILCGTFGLISITRGTKQVSKGRTTAAFIISGLGLIAFGLIIGFFLVALKGG;locus_tag=LOCUS_6790;note=MGA_688
sequence06	MetaGeneAnnotator	CDS	31177	31815	.	-	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPINRIHDDNITKINNIQFLNLFNYPVTTIYMQKPEFRKKIIPSILSSIPDSELTIYLDFDTWLRSYFSISSKKMSLMLFSPNKNNLEDSLISLLSWTNPNFNFLIIDSIPSFSLLVNNGMNSNLSHGLLSYYLSSLKNLVQNVNAKMILVSFPTQKSLSQLNTSTKYIAMEILNYFSDTIIYSNDLDKNHKIKVYNKKFPLGKSFILTT;locus_tag=LOCUS_6800;note=MGA_689
sequence06	MetaGeneAnnotator	CDS	31864	32511	.	+	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFLLVTLSTLNANVKIAIITLNSKSYYKITKILRSQGFHFLSLTPDDKIPNSIKLVITTNSEKQLIPEINYLTVEELSNSKTHRYIIIGRLSSTGFNNITIGIDPGYRTGLSVYSENKQIYVSVCRSLNQIKKIVSEICSYFTNSNIVIKIGIGNKHNSYNIANTIKKSIGNQARIEIVNEFGTSNQKTKPNKRLIRDIKAAEIIAFRQGKIYH;locus_tag=LOCUS_6810;note=MGA_690
sequence06	MetaGeneAnnotator	CDS	32708	33379	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSINPSKMRILEDRAEQIGISKLILMENAGSELARVIINKYKEDKSKKILIICGSGNNGGDGLVCARHLLGFADSITVCLLNTNKEWKTKEIQINWQIIRKIKKINKIEFFQNKNFSNMFEQELEKCNIVVDAIFGTGLRGNIKQHCQYVITQINKNHNPIISVDIPSGLDPLNGNVSKNIVKAEVTVTFHKVKDGLLNNKDITGEIITVDIGIPPELENNL;locus_tag=LOCUS_6820;note=WP_010878354.1 bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase (Archaeoglobus fulgidus DSM 4304) [pid:35.9%25%2C q_cov:99.1%25%2C s_cov:43.3%25%2C Eval:8.6e-32%2C partial hit],MGA_691
sequence06	MetaGeneAnnotator	CDS	33417	34055	.	+	0	ID=MGA_692;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979688.1;translation=MELMQIIVGNMKNFTYIVGDSETKNGFIIDPSYDIDKVITAVRKLDLNIKYIFNTHSHWDHTIGNKEAAQRTGAKICAHESSPTNKDVALKDKDVIKIDALTIKIIHTPGHTPDGICYLLSDKTDVKKNFLFTGDTLFVGGCGRTDLPGGKEADLFNSFKKIQRLHDHVKVCPGHDYGSRLISSIRYEKRHNVYLQFENKQEFLSTMKAASR;locus_tag=LOCUS_6830;note=WP_010979688.1 MBL fold metallo-hydrolase (Sulfolobus tokodaii str. 7) [pid:37.9%25%2C q_cov:99.5%25%2C s_cov:92.3%25%2C Eval:7.2e-30],MGA_692
sequence06	MetaGeneAnnotator	CDS	34073	34804	.	-	0	ID=MGA_693;product=GTP cyclohydrolase FolE2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DZH0;translation=MLDNSKLKKYLLNTNLPDVQNESSSVNVFAGISNFKTTFNGNSVTLLLNFTITTSTQNTRGVHMSRLIKSTLNYMSGEYIEHSLLKIYDEITQTQPNCNINVKFQYPVRDQFLDTSITLDSKKVFHYVFKLTGITSCPCSKTITGIGHMQRTILTVELKQNDLINFEEVSLNLNECFSAPLVEFLSRADEANMITETQANSKFVEDVVRDCLKRFPQAKHIHARSFESIHSHDAIASWSTNNA;locus_tag=LOCUS_6840;gene=folE2;EC_number=3.5.4.16;note=B8DZH0 GTP cyclohydrolase FolE2 (Dictyoglomus turgidum DSM 6724) [pid:32.3%25%2C q_cov:90.9%25%2C s_cov:96.5%25%2C Eval:5.9e-16],MGA_693
sequence06	MetaGeneAnnotator	CDS	34877	35551	.	-	0	ID=MGA_694;product=7-cyano-7-deazaguanine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87Y44;translation=MINLTNNKNALVLLSGGIDSAVALWIMKELNYNTYTLTFNYNKRFAKEIKCCSKLSQLSGTLVHKTINLNFLSEFEDEEYTDLSPLYNQKHLIPPNYIPSRNLIFYSIAFWWAETVGIDTIVGGHNKDDINSFPDCNEEFFKPFNSLVNNSTYGSHKMPYKILMPLSKLNKKQVIEEALRLNIPLELTWTCEKQEDIACGLCQSCKLRLNSFSKLDVSDPINYK;locus_tag=LOCUS_6850;gene=queC;EC_number=6.3.4.20;note=Q87Y44 7-cyano-7-deazaguanine synthase ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:34.5%25%2C q_cov:98.2%25%2C s_cov:99.6%25%2C Eval:3.3e-31],MGA_694
sequence06	MetaGeneAnnotator	CDS	35555	36007	.	-	0	ID=MGA_695;product=6-pyruvoyltetrahydropterin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011124736.1;translation=MKYYSTKKFGPITTGHRQWKDSGPCKYIHGYARYIEITFACNTLDDKQWVMDFGGLRDIENWLNEQWDHRLLIASDDPLLSDFKNLHENGGCNLNIMDISKGWGPGIEASCKFVYDYVDQWTKNTTNSRIWVQKVQIWEHENNSAFVSLD;locus_tag=LOCUS_6860;note=WP_011124736.1 6-pyruvoyltetrahydropterin synthase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:30.5%25%2C q_cov:94.0%25%2C s_cov:84.5%25%2C Eval:4.0e-15],MGA_695
sequence06	MetaGeneAnnotator	CDS	36038	36760	.	-	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288100.1;translation=MKILTLGTGDAFSSGGRASTSILLDGSFKILLDCSPQCIQSLRRCNYSPSQIDYIFISHLHGDHSGGLPLFLLNLKQRESGVVKISGPPSLDRQIKNVYSEYYGDIDMMKYFEFKSLSSNYPFTINYLEGDHSVLDYVYKIVLDGVTVVYTGDTRPLDLSTFAKNADYLIHEAGELDSNKADKFAHTTPIQAAKIAKSANVKNLVLIHRPTFSSELIREIQSIFPNTFMPEDLDIIEQSK;locus_tag=LOCUS_6870;EC_number=3.1.-.-;note=WP_002288100.1 hypothetical protein (Enterococcus faecium DO) [pid:30.5%25%2C q_cov:88.3%25%2C s_cov:87.4%25%2C Eval:8.3e-15],MGA_696
sequence06	MetaGeneAnnotator	CDS	36781	37203	.	-	0	ID=MGA_697;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846519.1;translation=MLLPSEIETKTSVPALRALVAKRLINEHHFSQTEAAKLLSVTQAAISNYLRGTRGNFTSFDDDVRIKNIVGEITIMMIEKSELSDIISKFNEACSIIRSSRMLCDIHKKLEPSLDVDNCHVCETDYDPETQTQSFSVTIK;locus_tag=LOCUS_6880;note=WP_052846519.1 transcriptional regulator (Sulfolobus tokodaii str. 7) [pid:31.8%25%2C q_cov:78.6%25%2C s_cov:78.5%25%2C Eval:3.2e-07],MGA_697
sequence06	MetaGeneAnnotator	CDS	37258	37743	.	-	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065425.1;translation=MNQDDPKKCTSLKLVRLGLLKKIQIRHIRRNAIVLNPMSADILSKNDVKYLHHGLVVIDCSWKQSSNVFTKQFPGKNKRLPLLQAGNPTNYSKLFTLSSSEAIAAALFIVGRYDESKLILSKFKWGHTFFELNSEILNLYSSAHSTEELSLVEKEYYKKFL;locus_tag=LOCUS_6890;note=WP_048065425.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:39.5%25%2C q_cov:95.7%25%2C s_cov:89.6%25%2C Eval:4.2e-27],MGA_698
sequence06	MetaGeneAnnotator	CDS	37837	38403	.	+	0	ID=MGA_699;product=putative nucleotidase YqfW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P54480;translation=MEDLKIAIDLDGVLADASKIWIRLLNEKFNIVVTKSDVNKWDFWKKINISKQAFENTLNEAWEEWSTVEETEINLCQKVRTIRNLGKTNLVTARNEKTMNNVMKWLRKNKIEFDNIIVVDEFYSKAKLDYDVFIDDSPIQIMEIANSKKLALIYNQPWNSNVKERNNLIRINNFFEAEKIIEKYKQKI;locus_tag=LOCUS_6900;gene=yqfW;EC_number=3.1.3.-;note=P54480 putative nucleotidase YqfW (Bacillus subtilis subsp. subtilis str. 168) [pid:23.8%25%2C q_cov:98.4%25%2C s_cov:96.9%25%2C Eval:1.7e-10],MGA_699
sequence06	MetaGeneAnnotator	CDS	38467	38910	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNINTTAPVESFRRFLINSTCASYIPESYLYDSEVFPEKDGDTGSIYIEAADKVTLKKERDITFINVRDVLGIIYKSKSGNTTLKWRQIRGRSGKVTGESSTNSLVNLITAKVIDQEYANKLANMETSSEDVDIESNSEIEDKIEN;locus_tag=LOCUS_6910;note=MGA_700
sequence06	MetaGeneAnnotator	CDS	38920	40116	.	-	0	ID=MGA_701;product=acyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763168.1;translation=MTKFLNPTVDDFSIYLKEEHKEIQDLARDFAINEITPIANKIDKDDHIPDSLIKKISELGFLGVPYPTKYGGAGYDYLSMAIVIEELARASCAVSVIPVAHTLIAMPLTSFGTDTQKQQFLIPLAKGEKIGAHAMTESGAGSDVAGISTKATKDGDNWVINGTKAWCTNGDIADTFLIFARTSEEQKRHLGISAFIVERGTPGFTVGNSLPKTGIRGSKSVELILEDVKVPHSNILGDEGKGFYVAMDCYDHGRIEIAAQGVGVGQAAIESASKYITQRNAFGRPIMEFQGPQFMLAEVTAELQASRLLTYWAASLRDQGRDFVSAAAIAKMYATEAGERAALTAIKLGGSAGVATEYPMERYLRDIQVTKIYEGTNDIQRVTLGKLLYKETKNELGI;locus_tag=LOCUS_6920;note=WP_011763168.1 acyl-CoA dehydrogenase (Pyrobaculum islandicum DSM 4184) [pid:45.0%25%2C q_cov:96.2%25%2C s_cov:94.4%25%2C Eval:8.8e-91],MGA_701
sequence06	MetaGeneAnnotator	CDS	40216	40563	.	+	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKIRVHKISSVSDPETAQPGKQIELVEVRGRTDSNVIGGVSGTDEAKMVKGIISQFQSIGMFPINQREMVLPKLTLFLSEAEYDLLAVRFEVNDEFELIMKDGAFMLKRGTEGI;locus_tag=LOCUS_6930;note=MGA_702
sequence06	MetaGeneAnnotator	CDS	40649	40882	.	-	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKIANIVITHECEEQPCHLNNEEQTTWLEKTLPKEKLGWNWKLVDIKVFDVHSPDSNTTDSYISRILDNKDQVSD;locus_tag=LOCUS_6940;note=MGA_703
sequence06	MetaGeneAnnotator	CDS	40968	41591	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTREEMTQELIRIKIPAGVINYIAKKERSIVGAGTINSLNKMNDQAIRSLYSAIIEDKEEREDYLVIRTALWAVKEFQSTKININQHIPNIGDFKISVLNDDDEILAVIDCKMNQYEWNIINEFIEKLRILKEREVKLNSAFIISRNTDTNEIVNMMKNVEGMSNDGVFTTKEKRGLGGLVGGKPNKVNFSMLLEKSKDNYEKVFP;locus_tag=LOCUS_6950;note=MGA_704
sequence06	MetaGeneAnnotator	CDS	41597	42211	.	+	0	ID=MGA_705;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272903.1;translation=MQKLIPLKREFYNRNTIKVAKDLLGKVIVRNTNKDHVLGRIVEVEAYKSGEYDKASHARSRCTDRNKVMFGKNGFSYVYLAYGIYSMFNVVAKNNTEDAGAVLIRGLEPIKGIECMKRNRTAKTDKELTNGPGKLTKALFIDKKCNNIDLTKKGELYITNFEKRKEQVISSSRIGISLDIEKQWRFYLEDNNFVSRYSFNKNNT;locus_tag=LOCUS_6960;EC_number=3.2.2.-;note=WP_041272903.1 DNA-3-methyladenine glycosylase (Desulfitobacterium hafniense Y51) [pid:43.4%25%2C q_cov:94.6%25%2C s_cov:93.1%25%2C Eval:5.9e-34],MGA_705
sequence06	MetaGeneAnnotator	CDS	42586	43806	.	+	0	ID=MGA_706;product=hydroxyglutarate oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405472.1;translation=MLKESEYDIVIIGAGVIGSALANRLSKRFQVKIAIIEKENSIGYHASSRNSGVIHSGFYYKPNSLKARFCVEGNKQLDNYCTSKNIPYKRTGTLVVGKTQTDENNLEALLKRSKENMVPGVRIINEIELKEMEPFTNGKFALYSPMGSIVDSKRLVESLGIEAEKNGVKILLNQKVKGIKTKHNKIFITTSMKEISTKFVINCAGVYADSIAKMMGLKLNYQIIPFRGEYFELPENKSHMVNSMIYPIPDPDLPFLGIHLTKTIENKVIVGPNAVLAPGKEAYRNKDVNFNELIEILSYGGFWKMLKKNHKRVESEFIQSLIKARFLKKVCELIPEIKSDELIKSYSGIRAQLVEKNGELVDDLVVKKYGNSIHVLNVVSPGMTCSLPFVDYIIEKYVEKLNFEEK;locus_tag=LOCUS_6970;note=WP_011405472.1 hydroxyglutarate oxidase (Salinibacter ruber DSM 13855) [pid:36.1%25%2C q_cov:96.6%25%2C s_cov:83.8%25%2C Eval:3.3e-77],MGA_706
sequence06	MetaGeneAnnotator	CDS	43847	44848	.	+	0	ID=MGA_707;product=diphthamide biosynthesis enzyme Dph2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980347.1;translation=MIKIDERKIFEEIRVNKPKSVCISAPDGLMLYLEDISTRIKKEFDIDVYIMGDTCYGSCDTTNFEAKRIGADLAFNIGHTISFEKLGDRTVMIDAFDDINFEPAIKKSIDVLKKFKKIGMVTFSQYLHQIESIKRKFEDNGLQVVIGKGKGQLRDGQVFGCEFYPAFYIREDVDAFVVLGNSNFHGIGVSLSTGKPTFMIDPYAEEISDLEEIVKDREKKAILSIAKARYAEKFGLILGLKEGQFDTKKLLSIKKRLEEKGKEVQLIAMREVTNERMAYFKSIDAFIQTSCPRVSIDGYTFNRPVLSSPQAEALLDLLDGKELDNFLIKPHWL;locus_tag=LOCUS_6980;note=WP_010980347.1 diphthamide biosynthesis enzyme Dph2 (Sulfolobus tokodaii str. 7) [pid:32.6%25%2C q_cov:93.1%25%2C s_cov:94.9%25%2C Eval:4.5e-34],MGA_707
sequence06	MetaGeneAnnotator	CDS	44918	45403	.	+	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGDELAVIEEYESGNGTYVINGQIRASVLGETKFDDKNKYVQVKKADGISSLPQANDQVEGILETDKFLKIIKINGKITFGSLSGLMERSRVSIGTSDYIRGTVISLMNGTIHVGIISENDGVMKCSCTGCGDRVVQIQRGVKCVSCGLFKYKRLAPDFR;locus_tag=LOCUS_6990;note=MGA_708
sequence06	MetaGeneAnnotator	CDS	45466	46380	.	+	0	ID=MGA_709;product=branched chain amino acid aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000208517.1;translation=MPIEETEYMWMDGEFVKWNDANIPILTHSLHYGTAVFEGIRAYPSKDNLVVFRLREHLERLAESCKILPLEHKYSVSDFEKTVIELLRKNQLKKSTYIRPLVYVGYGGIGLNFTGFPINVAIAAFPFGKYFLSPEIKVCVSNWKRISDESMPPQAKASGNYLNSVLAKLDALRSGFDDAILLNKNSMVCEGTGENIFVIKNGEIVTPPVSSSILVGITRDSIIQLAKEMNMEIKEREISKIELYQADEVFFTGTAAEVTGIIEIDNRKIGEGKIGTITNNIRESYAQIVAGNNEKYMHWLTEVY;locus_tag=LOCUS_7000;gene=ilvE;note=WP_000208517.1 branched chain amino acid aminotransferase (Shigella flexneri 2a str. 301) [pid:44.2%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:2.2e-72],MGA_709
sequence06	MetaGeneAnnotator	CDS	46387	47223	.	+	0	ID=MGA_710;product=prephenate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SJB0;translation=MEKNVPKVGFQGEFGSYSDKAVELYFSGVDKKPYKSFLDLFVSLEKNDIELAILPIENSIEGSVLESYELLLKSQLSVVGEINVKVNHCLIAHHNINKDDIEEIYSHAQALGQCSKYLKEFGRNAIATYDTAGSVKMIKEKKLKNAAAIASKDTTTIYDMKLIDENIQDHKDNFTRFFCLSKTQTKATGNDKTSIVFSGTNVPGSLYKALNEFAQKKINLTKIESRLTRKKAWEYNFYVDFEGHIDDDGCQEALQGLRDLGSIVTVLGSYPKLKDNFE;locus_tag=LOCUS_7010;gene=pheA;EC_number=4.2.1.51;note=Q5SJB0 prephenate dehydratase (Thermus thermophilus HB8) [pid:40.2%25%2C q_cov:95.3%25%2C s_cov:95.0%25%2C Eval:1.8e-51],MGA_710
sequence06	MetaGeneAnnotator	CDS	47242	47526	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNMEIKIGKKDKHVTIEISSEDLALGHILRKELIENKNVVFAGVAKRHPLVDKIEIQVETKKVDPIREIAISGDNAVKTSSELLNKFNKSLNK;locus_tag=LOCUS_7020;note=MGA_711
sequence06	MetaGeneAnnotator	CDS	47589	47921	.	+	0	ID=MGA_712;product=transcription factor S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249488.1;translation=MTNAQYTEKFFEKASKEDDSEQRITACMDCGELLESSDEVKSVQEIDLNTKIQIKDEKNDIQTLPATNENCPKCGHEKAYWWMRQTRSGDEPPTRFYRCVKCENTWREYS;locus_tag=LOCUS_7030;note=WP_011249488.1 transcription factor S (Thermococcus kodakarensis KOD1) [pid:42.3%25%2C q_cov:82.7%25%2C s_cov:87.3%25%2C Eval:6.3e-19],MGA_712
sequence06	MetaGeneAnnotator	CDS	47948	48706	.	+	0	ID=MGA_713;product=DNA polymerase sliding clamp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496904.1;translation=MSFLAKTKSSTEWKLITNAISTLVEEPSFEANVEGIQFRGMDPSHVAMIDLNWPNASFEKYECDKEFRLTLRIEELSKLIKRAKQNNSISISAEDDEYMTIKLENGHKREFQIRLIESSHTPQQVPKLALNSKISIDKGVFENTLNDVGVVADHVSIETNKDEIKFVGNGDSGKASIVLSKSDEGVSEIISKEDTKATYSLDYLLNILKAAGTSTETITAEYSNKMPFKLQFRLGEAGGYINFYLAPRIDDK;locus_tag=LOCUS_7040;note=WP_064496904.1 DNA polymerase sliding clamp (Methanocaldococcus jannaschii DSM 2661) [pid:30.7%25%2C q_cov:96.4%25%2C s_cov:99.2%25%2C Eval:6.2e-32],MGA_713
sequence06	MetaGeneAnnotator	CDS	48805	49278	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKEISLVCIFAALYAIGVVFLTPFSFLPIQIRIADALLPLSIIFGFPVIIGLSLGTLVANIFGGLGFIDIIGGTIANFIATYVAWKLGKNKKVPFFVAIACQIIIVSIIVGVYLAYLFRLPVIVGITDIFIGSFVAIGILGSLLLVIIKKRMQVI;locus_tag=LOCUS_7050;note=MGA_714
sequence06	MetaGeneAnnotator	CDS	49275	50105	.	-	0	ID=MGA_715;product=nicotinate-nucleotide diphosphorylase (carboxylating);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020993.1;translation=MNSELERFLNEDIANGDITSDLFIKADETSNATIISRDSGILCGKNEITEIFSNFNIESHWLYQDGDKISKDSKIVNLKGLSRSILISERVSLNLLGHMTGIATATHYAVEIVKKINLHTNISATRKTLPGLRNFEKYSVVVGGGFPHRYNLQEMILIKDNHIKFIDNLEKHIKSIRNQINSNKKIELEVNSLDFALRAINYDVDIILLDNMSVDDIKKFVTILKSSNPPKQILTEASGGINFSNLESYASTGVDIISMGCLTHSSKSLDFSLQII;locus_tag=LOCUS_7060;gene=nadC;note=WP_011020993.1 nicotinate-nucleotide diphosphorylase (carboxylating) (Methanosarcina acetivorans C2A) [pid:42.9%25%2C q_cov:98.9%25%2C s_cov:97.1%25%2C Eval:3.2e-56],MGA_715
sequence06	MetaGeneAnnotator	CDS	50219	51154	.	+	0	ID=MGA_716;product=quinolinate synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SJM4;translation=MNFQEIISNLRDKKNAIILAHNYQIPEIQDLADVVGDSLNLSLQATNSDKDLIVFCGVKFMAETVSILAPNKKILIPDLEAGCSLADTINVKQLREWKVKHPDAIVVSYINTSAEIKAESDYCCTSSNAVKVIETIPQNKEILFLPDFFLGSYIENMTGRKMYIWPGECHVHAKLTADKVNMMQEKHHDADFLIHPECGCVSNILYQSSEGMIKNSNEKILSTGGIIKYAKKSSKKDFVIATETGILHQLQKHNPEKNFYPLKQDAICEYMKKITLEKLYRSLNEEIYEVKVPEDIVKRAIKPITRMIEIK;locus_tag=LOCUS_7070;gene=nadA;EC_number=2.5.1.72;note=Q5SJM4 quinolinate synthase A (Thermus thermophilus HB8) [pid:51.5%25%2C q_cov:98.7%25%2C s_cov:96.5%25%2C Eval:1.1e-92],MGA_716
sequence06	MetaGeneAnnotator	CDS	51173	52183	.	+	0	ID=MGA_717;product=galactose-1-phosphate uridylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393433.1;translation=MEKIRRDYFSDKIVLFTNDKPKKIKNLKRIIKNKNCAYCPGNEHVTGPADLVLISKEGTLAKLSDEQDNFVKDWTVRVFLDKDAIVSPDEAKIFTDYPQYSEPAIGYHYVVILSRKHTVDISEIDSEQWTNILTSVQDKSRWLYAQKHVAYVAIYMNHGIEAGSNVEHPHLQIVSLPTVPPIIEAEAKFMKKPLREKGICPMCDIIKKEESSQRAISKTDNFLVFAPWASTHPFEYWIFPRRHEVSFVKSTQKEIAELSETIHKSITSMIKTLGIISFNLVIHSSPEKKTSKQIHWHIEVYPRIAIKTGLEMSSNIYINKILPENAAKELAKNVQK;locus_tag=LOCUS_7080;EC_number=2.7.7.12;note=WP_011393433.1 galactose-1-phosphate uridylyltransferase (Moorella thermoacetica ATCC 39073) [pid:29.2%25%2C q_cov:98.2%25%2C s_cov:96.7%25%2C Eval:6.6e-41],MGA_717
sequence06	MetaGeneAnnotator	CDS	52190	52609	.	-	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878244.1;translation=MNIITKEITIKTKQENEMIDLSDDINAEIKSSKLDNGIVTIFTRHSTGAITTIEYEPGLKKDFPAMLKRLAPDDIFYEHENTWHDGNGRSHVKASLVGPSITIPFQNKQLLLGKWQHVIFLECNINGRDRQIVFQIMGN;locus_tag=LOCUS_7090;note=WP_010878244.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:45.8%25%2C q_cov:86.3%25%2C s_cov:97.6%25%2C Eval:6.1e-30],MGA_718
sequence06	MetaGeneAnnotator	CDS	52628	53638	.	-	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYKRTDLTTQMNNMGYDPYPYESPVEESTSPKHEDKRADDPPSISPKYIFLIAGLLIGIAAGYVITQSLIGDDESIPVASEILDESNNDELTKLRNELQNTQSEILILQGQLESFDETRDLLSTTNRNLDAANEQLLDNTNKINADAKTIIDLQNELEDVKVDLIEAGQQIDALLNAQAEAPAPMEPPPAAPMEPPPAPDPEPPAPDPEPAPEVEIDEKILLGDINLVYGTSLIPISEPTPIGESINIETNLTNITEESITFSWLATITDVNTGELIVELFAFNLVINSDASMSPSNSWTPIYSGQFRIDVVLVDNLVDRNPLSITKSTVITVS;locus_tag=LOCUS_7100;note=MGA_719
sequence06	MetaGeneAnnotator	CDS	53716	54186	.	+	0	ID=MGA_720;product=peptide-methionine (S)-S-oxide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066219.1;translation=MERAVFGAGCFWHIQDKFSLVEGILTTSVGYSGGSVKNPTYEQVCTGDTGHAEVVEIEYDQDTITYSELLDVFWSCHDPTTKNRQGPDIGHQYRSVIYYFNSEQESLARDSMRKLEKSKKFSNLIVTEIKPIREYYKAEDYHQNYFDKKEFLMDLI;locus_tag=LOCUS_7110;gene=msrA;note=WP_048066219.1 peptide-methionine (S)-S-oxide reductase (Methanosarcina acetivorans C2A) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:96.9%25%2C Eval:1.8e-53],MGA_720
sequence06	MetaGeneAnnotator	CDS	54201	55028	.	+	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFGLTIPVTIGKNWKNKLLNALPLIEDAGISSLLVWDHYMLPEKYGIESNSTIDAWILLSFIAANTTKIKIGTCVTPIPFRPPQQLAKVVSSLDNISDGRVILGVGAGWHKPEFDAYSDWNNNKMRYEKTVEGLEIMRKLWTQDVVNFSGKHYKVENAILQPKPIQKPFPELWFGTTGEKMLKLMIEYGTAWIPVGITSKDYLNHVKYIEKISNKKISLTYYNHRDMETYNVKKVIDEFVTVGCEYFIGLLRYESDDIKQKLKKFKDITLSYDK;locus_tag=LOCUS_7120;note=YP_001705004.1 luciferase-like monooxygenase superfamily protein (Mycobacterium abscessus) [pid:34.0%25%2C q_cov:71.3%25%2C s_cov:65.6%25%2C Eval:8.4e-25%2C partial hit],MGA_721
sequence06	MetaGeneAnnotator	CDS	55221	55604	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLHNEVEAQAIIPFLRTTVAKILMEKYGLTQQQAAKKLGITQATISNYKNRSRGNIELYLITKRVQSYTEQIANVTMKEGNEIIITENFEVALKFIREQGIIYDLHKELENNHVLKDCPLCSNRQK;locus_tag=LOCUS_7130;note=MGA_722
sequence06	MetaGeneAnnotator	CDS	55636	57315	.	+	0	ID=MGA_723;product=spermidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258554.1;translation=MTENVVKNKYFFYLLRFQVFISGASIMALELLGSRLLSPYYGNTLFVWGSLIGITLTGLSAGYSYGGKKSDIGASYQIFSLLIFIAGSYTLLTTLLSGEILKTILIFNLGDIYGPLISSAAFLFVPTFLLGAVTPFAIKLSAKSLQTIGQTTGNLYSLSTIGSIFGTFATTFVLVPVLGVDIILYAISVILIISSIIGISNPLKFVAVILICISIYSAVVVQPPLAGIVYEKETQYHKLLVHDNSVTNIRTLILDNNFHSAMDLNNHERIVYEYTKYFHLGILFAENSQDVLFIGGGGFSAPKRFLVNYPEMSIDVIEIDKDVVIAGEKFFFVPEDERLKIINDDGRTFLRTTDKKYDMIVLDAYDRSYIPFHLMTKEFHQLVSEHLTEDGILVSNIITSISGDSAILFLSELKTMESVYPNIYIYPVVSSQENVIQNIIVVAHKQDISVTKLELLSRQNNIDVDLSQAIENEYEGIIQLESYKILNDNFAPVENYLNPLTGKQYVKRIILEDGIPVDISEDNAYSLDSGITSSQVLIILVAVILLVYSIYSYSYLDNI;locus_tag=LOCUS_7140;note=WP_012258554.1 spermidine synthase (Chloroflexus aurantiacus J-10-fl) [pid:27.0%25%2C q_cov:87.1%25%2C s_cov:95.2%25%2C Eval:5.2e-42],MGA_723
sequence06	MetaGeneAnnotator	CDS	57483	58748	.	+	0	ID=MGA_724;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H2VGQ8;translation=MISTSGLYYKMSDLSKQGIELESAKINLKKFQSWKNSTIKKLRNGIELLCNNYQVEIIFGTAKIKSSKTIEITNGENVKKVSTEQIIIATGSRAKDLEYLKFDNQQIISAKDVLELEHVPESILIVGGGAIGLELGTALAKFGTSVTILEITDKLLPGIEQDLVNVMERSITQIGIKIMLNSKIINVSKNSSEVNITINSNGTETHEKFEKVLVVVGRQANIESLGLEEIGIKFDDNGFIKINESMQTNVPEIYAIGDVVGPPWLAHKASMQGIKLAYHIAKLQTKIQIKNIPYAVYTEPEIASVGLTEEEASKKKLDIRVGKFQFAANARALTSDESKGFIKVIVDNKTHEILGVHIVGNHASNLISEAILGINIGMKVEDIESTIHPHPTLTEALSEAAQASLNKSIHSFIKNTKNENK;locus_tag=LOCUS_7150;EC_number=1.8.1.4;note=A0A0H2VGQ8 dihydrolipoyl dehydrogenase (Staphylococcus epidermidis ATCC 12228) [pid:36.9%25%2C q_cov:98.3%25%2C s_cov:82.3%25%2C Eval:7.8e-77],MGA_724
sequence07	MetaGeneAnnotator	CDS	676	1821	.	-	0	ID=MGA_726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKEKLLKLRTSVEEISVEILHLLSKRFELGRELALLKDNLNFPLIDPAQERKLYERIQNESDSLNINKNFSKKLLKLIIDETVSREQSHLKKFKVKPHQKIGIIGASGNMGKWLTNYFSENGYSIGLYSRKLKRTKKQTKHKIFKSIRDCVIKSDTIIISVPIEVTNTILDEVMNYSDKNKTIIEISSMKKRIVPHMKKLPDNHSRLMSIHPLFGPGANIFKSQKFILIPIKSNNIEQKFFKKLFPTSKLLVCNANEHDKLMAYVISLVYFLNISLILSLDNVSKLKDSSGTSFTIQYLLASGIFHDTPEVISSLQMSNENFHLVLEKFISIINSMEKVISNQDNDEFIKIIKKAKKQITSNTKSYDDLYQLVHSIDSL;locus_tag=LOCUS_7160;note=WP_011024468.1 prephenate dehydrogenase (Methanosarcina acetivorans C2A) [pid:25.5%25%2C q_cov:73.5%25%2C s_cov:59.0%25%2C Eval:6.3e-22%2C partial hit],MGA_726
sequence07	MetaGeneAnnotator	CDS	1827	2927	.	-	0	ID=MGA_727;product=chorismate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q187E5;translation=MTWSTLGERFVLTVFGESHGHSIGCVISGCPAGLPITIKEIQKELDLRKPGISKLTTQRKEQDKVEILSGVFNDYTTGSPICMTIKNKDTRPEDYDNIMKTPRPGHSDFTAWEKYGGFNDLRGGGHFSARLTACFVMGGVIAKKLLKKSFDTDIVAYVKEIGNIKSTSSDFKHIKKYRYSHEVRCPDLIAAKKMSNAIIKAKKQGDSLGGIIECQVINVPVGLGEPIFSALDSELSRAMFSIPAVKGVEFGSGFKSTKLFGSENNDQYIVSKNKIRTKTNNSGGILGGISNGMPIEFRLAFKPPSSISKQQSSFNFKSKKTEKLIVKGRHDPCVLPRAVPIVESVAALVIADHGLRSGHIKPIFKK;locus_tag=LOCUS_7170;gene=aroC;EC_number=4.2.3.5;note=Q187E5 chorismate synthase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:46.6%25%2C q_cov:94.5%25%2C s_cov:97.2%25%2C Eval:1.0e-90],MGA_727
sequence07	MetaGeneAnnotator	CDS	2924	3976	.	-	0	ID=MGA_728;product=3-phosphoshikimate 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496517.1;translation=MSNPSEFNVENSGTTLRFLTSISALVPEGSITITGDSSIQKRPMQPLIDSLNDLGVNCRSIGNDGTPPLIVMGGGIRGGTTEISGSISSQFISSMLISCSKADQETSIKLIEPIVSAPYIDSTLFMIDKFGGLVTNNNNIFNVQPSKYSCNKINIPSDFSAAAFLFTGAILSNGKVTIIMDGQDMPQADKKILSIVSQMGASVKVNSDDSSFTVSSEGSLNGGTFNLSSCPDLLPVVSVLSLICTNSVKITGIEHTKYKESNRMKLISNELQKTGANIVESEDSLIIDSPNSIKPCRLNSYNDHRLFMAFSLIGLHSEGIEVIGRKSIDVSYPNFIDQITSLSGKLVITY;locus_tag=LOCUS_7180;note=WP_064496517.1 3-phosphoshikimate 1-carboxyvinyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:36.7%25%2C q_cov:97.4%25%2C s_cov:79.9%25%2C Eval:8.3e-58],MGA_728
sequence07	MetaGeneAnnotator	CDS	3861	4142	.	+	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLESPVIVIEPSGTRAEMEVKKRKVVPEFSTLNSLGLDNTEGGINSKEESRLLIFAPSFTHESSVAFVSRERSGLTMSVGELDNKPRQSARCV;locus_tag=LOCUS_7190;note=MGA_729
sequence07	MetaGeneAnnotator	CDS	4212	5060	.	-	0	ID=MGA_730;product=shikimate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061249.1;translation=MKTTSTVHGAISIVNALATGKGSALGISLETTAEVLLTSENNIEVIINNDKSEDTSLAHECFKLVQNQFSESCGAKITVNSDIPIGRGLKSSSAAASAITLSCLKAFDLNITEKEILDLSVQASKNAGVTITGALDDTAACFLGGLVVTDNSSNTLMSRKIIDDDYFILIHVPEQKNYTRDVDFSNSDKFKKSIDTLISMVLNGNYLNAMSLNGMIYSKILKQLDVASILALKSNALSAGLSGTGPSVAAICTSDTKSSIIDLWKSLDGDIITAKINNQTGL;locus_tag=LOCUS_7200;note=WP_048061249.1 shikimate kinase (Methanothermobacter thermautotrophicus str. Delta H) [pid:35.2%25%2C q_cov:98.9%25%2C s_cov:97.9%25%2C Eval:4.2e-43],MGA_730
sequence07	MetaGeneAnnotator	CDS	5062	5898	.	-	0	ID=MGA_731;product=shikimate dehydrogenase (NADP(+));inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q818D0;translation=MGNSSNQMLYCLLGNEIKNSLSPVIHNSFFQSNNLEGFYTTFNVNSHDLKNILDTLRKLNFRGANVTIPYKIDIIQYLDSLDSLANSVNAVNTVLYDNEKLIGYNTDVEGFMTPLHKKIQRFDDKKVVVLGSGGASQAVLHGLINVNCQEIIILNRTLDNAKQLISKLNSDVPVSCDKLNQQNIDSLSSVDILVNTIPLHRTNTILNFHSNLGIKLAYDLEYFPKETNFIKQMKSLNTDLIYGYEMLLAQAKLSFQIWTGILPNDDSINGKILSILGD;locus_tag=LOCUS_7210;gene=aroE;EC_number=1.1.1.25;note=Q818D0 shikimate dehydrogenase (NADP(+)) (Bacillus cereus ATCC 14579) [pid:35.1%25%2C q_cov:97.5%25%2C s_cov:99.3%25%2C Eval:3.2e-40],MGA_731
sequence07	MetaGeneAnnotator	CDS	5914	6612	.	-	0	ID=MGA_732;product=3-dehydroquinate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YH80;translation=MKNSLLKPKFCVSIAISNSSKLNSTIAKAFTLGAHMAEIRLDSLTLFSIKQINQLSHNYKNRLILTFRNKNQGGFSNISESERLEILTQLLEIKYSIKDIESDTFLKNYSLFNNERNLIVSWHNFKSTPSTTVMTNLIQNISNKLTSARQIIKIATYANTLDDCNKIFSLYSKFRKSKFQLLAFCMSDTGSMTRILSPMFGAPFVYCFMGNKSVAPGQVHINTLKKIYANFS;locus_tag=LOCUS_7220;gene=aroD;EC_number=4.2.1.10;note=B5YH80 3-dehydroquinate dehydratase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:30.6%25%2C q_cov:93.1%25%2C s_cov:93.8%25%2C Eval:6.1e-12],MGA_732
sequence07	MetaGeneAnnotator	CDS	6602	7678	.	-	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKLRTIMVEPRISADELVNFNQLLFESGIKSIFLPEIQDSDDFSKFETYSFSNNADVKVVNAETLNDIEPNQRFSYLTTLNDNSNLDEIVHAAKSNAESVIIEFEENTEWKIIPLENLIAELHGMKTKIFTVINDPSEIKMMFTILELGVDGVLLRTSNIDDVTKLNSELSELSKITLSVAEIIEIKEVGIGERACVDTASMLNQGEGLLVGNQANFMFLLHNESAGSGFTSPRPFRVNAGSIQCYTLLPDNRTKYLSELESGTEVMIVSHEGSVRTSVVGRLKIESRPLFLIRAKSEDKIGGVLVQNAETIAFVQDDGKPISTTLLKVGDKILVKTESNKGRHFGMEVDEYILEK;locus_tag=LOCUS_7230;note=WP_010870761.1 3-dehydroquinate synthase II (Methanocaldococcus jannaschii DSM 2661) [pid:45.1%25%2C q_cov:70.1%25%2C s_cov:69.8%25%2C Eval:9.1e-60%2C partial hit],MGA_733
sequence07	MetaGeneAnnotator	CDS	7678	8433	.	-	0	ID=MGA_734;product=fructose-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869899.1;translation=MSNINRNGKILAVTLDHGLTIGPVHGLIDMNKTIDAIQKGGASAVVVHKGTFKNLDLQINIGKIIHLSASTNLSVFPDDKVIVGSPELALEMGADAISVHINIGSSHDRNMLEDLGLIADECAELKLPLLAMMYPRGENIPDPFDPKIVAHVARIGAELGADIVKTVYTGDSDSFRTVVEGCPVPVVIAGGPQTNNDKDLLDMVKGAVDAGAIGVSMGRNIFQHSNPENITRAISKIIFDNSSVESAMEAI;locus_tag=LOCUS_7240;EC_number=4.1.2.13;note=WP_010869899.1 fructose-bisphosphate aldolase (Methanocaldococcus jannaschii DSM 2661) [pid:53.5%25%2C q_cov:96.8%25%2C s_cov:89.7%25%2C Eval:7.9e-72],MGA_734
sequence07	MetaGeneAnnotator	CDS	8590	9987	.	+	0	ID=MGA_735;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3MGC2;translation=MGLKLFNSLGKAKEVFVPKNDNKVTVYCCGPTVYDYIHIGNLRTFLFEDILIRYLQYKGYEVQFVMNITDVDDKTIKSSRNEGITLEEYTKKFTDEFFKDLSNLDVIKASIYPKATEYIDDIEEHIIELEKKGYCYQSDGSYYFSINKFSGYGKLSGLEIKKTKGKTRLNEDEYIKDDVQDFALWKSWNNEDGDVYWEGKLGKGRPGWHIECSVMSTKILGEQIDIHAGGVDLIFPHHENEIAQTESITNKQFVKYWIHAEHLIVEGKKMAKSEGNFFTLRDLLEKGHDAKNIRFLLISSHYRSQLNFTFDGIYQAKENIDRIQEIYSKIQAYNADTGLNENLSKITKEAVIGFEDAMDNDLDTPVALASIFKFIRDLNKYVDENIILEKNKLEILDYFERVNKILRILSKEILDTDKEIKELIKERENARNIKNWKKSDEIRDKLLKKGFVIEDTSDGTVVKRK;locus_tag=LOCUS_7250;gene=cysS;EC_number=6.1.1.16;note=A0A0H3MGC2 cysteine--tRNA ligase (Chlamydia trachomatis 434/Bu) [pid:43.8%25%2C q_cov:99.4%25%2C s_cov:95.4%25%2C Eval:1.0e-120],MGA_735
sequence07	MetaGeneAnnotator	CDS	10018	10314	.	-	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNKNKDIPEEIEFKMLDSHPDGHDEVVFQLEDGSIIKIRVNIDRAGVATNYNNPDGSKHYNIQASMNVNVISSDRKYKLSKFGVKPNRSVTSKPYK;locus_tag=LOCUS_7260;note=MGA_736
sequence07	MetaGeneAnnotator	CDS	10401	11969	.	+	0	ID=MGA_737;product=tRNA guanosine(15) transglycosylase TgtA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978287.1;translation=MFEIKATDLAARIGKLYSKNGNIETPTLLPVIHPVNQTINTNLIKKIGFQAIMTNSYITWQKYEKEAIEKNIHSIVEFDGPIMTDSGGYQVLEYGKVDVDAIEIAKFQEDIGSNFCNILDKPTSLRDNWKTAKNSVLQTLESCEKTLNEIERKSIWMGPIQGGKFLDLVQFSANEISKMNFDMYTLGSPTEIMENYDYKLLANMIITAKKNIPIEKPLHLFGLGHPLSLSMAVALGCDTFDSASYILYAKHGRYFTENGTRNINELEYLPCICEICNKYSVREIRSLENIERIKTIGIHNLWLLWKEIVSTRQAIREGRLWEYIGVRARAHPKMWDAFRYISDNAEGITNLQPRFKSKGMFLTSVPDNKRPELTLYRKNIIKFFKKFEKQKIIIIPVTRNRPLFYDNKLRKILERNTNKAIIGYIIPPFGFVPYQITDIYPISHFEMSENMRYDNTHIQEVIDLLNIQFLTLKPESIVYIKDNKLDQKIIDFIIRKLQPEKIIDNESNDVYSELERILQNQV;locus_tag=LOCUS_7270;note=WP_010978287.1 tRNA guanosine(15) transglycosylase TgtA (Sulfolobus tokodaii str. 7) [pid:39.9%25%2C q_cov:88.3%25%2C s_cov:93.5%25%2C Eval:1.3e-87],MGA_737
sequence07	MetaGeneAnnotator	CDS	11960	12664	.	-	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISARLFPEDLSVDGLSLITGFHGIGSTGYLAINHLIHTFKPERIAIFETDYLSPISSISSGKIITPFEIYKKNNLAFLRFAVPPLQGRELVFLRNVCEIIIEKNFKELILLGGLDSQLKKDNSTFRYVKTSSYELSKSLINSKSLEDERIIIGPVAQMLNFMEIRNFPTLALLPYATSTRLDPRAASEVIRILSSMFDINVELESLVKQAIKLESDSPPLIDNIKSDPSDIYT;locus_tag=LOCUS_7280;note=MGA_738
sequence07	MetaGeneAnnotator	CDS	12710	13978	.	+	0	ID=MGA_739;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980269.1;translation=MKLTTLGASREVGRSAFLLEIEDKSIILDYGVQIRQPMTWPLHVNPKKIDAIILSHAHLDHSGGIPSFYVSNDIKTYCTAPTLQISNLLIDDFINLSNEVTKQYLPYQHQELERMNNNIIIIDMNSEFNIGNIKVKFINAGHMPGSVSIIIEGEGKRIIYTGDINASDQNLVKGANTKYGELDLLITEATYGTSNHPDREEVEKEFVSFAKDVTERGGTLLVPAFAVGRSQEIGCVLKSHNFSLPVAMDGMALKTNKILLNNLEFLNNPELFKKMLNELTIAKNWKQRKELVNNPGVIIAPAGMMVGGLSSYYKEIISMNEKNAISLVSYQAEGTPGRTLLEKKMIRINGKLKKIKGKLEQFNFSSHSGSKELFDMISEIKGNPTIVAVHAEEEQAINFVNIIQKDFQYEAIAPKLGDKIII;locus_tag=LOCUS_7290;note=WP_010980269.1 MBL fold metallo-hydrolase (Sulfolobus tokodaii str. 7) [pid:38.2%25%2C q_cov:98.3%25%2C s_cov:97.6%25%2C Eval:1.5e-75],MGA_739
sequence07	MetaGeneAnnotator	CDS	13994	14509	.	-	0	ID=MGA_740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTKISIIIALILLLGAGGIVINYFFSEQELDDCQNYRPPDFVECWPSQVPPPSESQVPPPSEDPIQFDVILNPPRETKVMKEQTVTFDGMIQPIKQDVKIGVNILDESGAAVYRCSFGQTYTNSDGSFSVDLNVGSTCQGTVSVVAFIIDEPNGVDPPKSRYYTIEILSA;locus_tag=LOCUS_7300;note=MGA_740
sequence07	MetaGeneAnnotator	CDS	14516	14920	.	-	0	ID=MGA_741;product=iron-sulfur cluster scaffold-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259321.1;translation=MSEDIYKEIILDHYRNPRNKGKIDNSEISFQDYNPVCGDRLNLDIKLDNNIVSDIKFDGEGCAISQASASILTEMLMGKSIDDLSKFSKDDLLEELGTPSLGPARIKCALLSLKVLKVGTYKYLGTKLPDDLDG;locus_tag=LOCUS_7310;note=WP_012259321.1 iron-sulfur cluster scaffold-like protein (Chloroflexus aurantiacus J-10-fl) [pid:48.3%25%2C q_cov:88.8%25%2C s_cov:92.3%25%2C Eval:1.3e-29],MGA_741
sequence07	MetaGeneAnnotator	CDS	14917	16146	.	-	0	ID=MGA_742;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q1WR13;translation=MTSDLFQDIKNDFPIFSNRINGKEFIYLDSAATTQKPNSVIDSIVNYYKNYNSNIHRGIYSISIESTENYENARNNIGNFIHSNSSKEIIFTRNATEAINLVANTWACTNLHEGDSIILTEMEHHSNLVPWQILAKKLKLNLDFIKISDNGKLVLDNLEDLLANNAKFLALTHASNVIGTINPIKEIISKAHNYGVVTLVDAAQSVPHMPVDVQAYDSDFFVFSGHKMLGPTGIGVLHAKKQLLENMEPFLYGGDMISNVSLHDAQWNEIPWKFEAGTPNIAGVIGLGKAVDYLNEIGMDKIRKHNQELFTYALERLSELKDFHIFGPQDDDTTGCVISFSYSDFHPHDIASILDNESIAVRAGHHCAQPLVEKLGVPATTRASFYVYNTKSDIDKLFDGLQKVSSVLI;locus_tag=LOCUS_7320;EC_number=2.8.1.7;note=Q1WR13 cysteine desulfurase (Lactobacillus salivarius UCC118) [pid:51.6%25%2C q_cov:97.1%25%2C s_cov:97.1%25%2C Eval:6.0e-127],MGA_742
sequence07	MetaGeneAnnotator	CDS	16146	16901	.	-	0	ID=MGA_743;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000929160.1;translation=MKSTLEINDLHVSVEGKSILKGVNLSINKGENHAIMGPNGSGKSTLANTLMGHPKYTIDRGDIILDGDSIIKLSPDKRAKKGLFLAFQYPHEVSGVSVFNFLRSSFNSVTAKPDSKPISIIAFRKYLKEQMEILNVEEEFVKRYINEGFSGGEKKKSEILQMAVLKPKIAILDETDSGLDIDALKTVSEAVNAMSSPDLGILLITHYKRILQYVKPDFVHVLLDGRVVKSGSMSLAQELEDKGYDWIRDSL;locus_tag=LOCUS_7330;note=WP_000929160.1 ABC transporter ATP-binding protein (Bacillus cereus ATCC 14579) [pid:56.6%25%2C q_cov:99.2%25%2C s_cov:94.6%25%2C Eval:3.2e-81],MGA_743
sequence07	MetaGeneAnnotator	CDS	17001	18035	.	+	0	ID=MGA_744;product=cysteine synthase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546059.1;translation=MKTLQVQSTSNTKNAENIINKVGNTPLIKLDKLFDNSKEIYAKIEWCNPPGSVKARPAAWMIYEGEKQGNLIKGKTTVIEPTSGNTGIALSYFAKSLRYKIELAVPERMSDETKEILKKNGAKLLETEDDLCPRVGPGTDQAIALAAALIKNHPEEYYSPNQYENDANFQSHYNGTGPEIWKQTNGSISAFISGIGTGGTITGVGTYLKEKNPEIKIIAVQPQKNHNIQGLRNLEESEKPELYKRRSNVIDEMITISDKESFNMIKKLAMDENIFAGPSTGTVLAGLNKTKTKFKKGSIVLLFGDNAMKYKSIYTKFNLYTENEFDSLLNNSRDLCVSSDLQPT;locus_tag=LOCUS_7340;EC_number=2.5.1.47;note=WP_012546059.1 cysteine synthase B (Thermodesulfovibrio yellowstonii DSM 11347) [pid:39.1%25%2C q_cov:86.0%25%2C s_cov:95.4%25%2C Eval:8.6e-52],MGA_744
sequence07	MetaGeneAnnotator	CDS	18056	19102	.	-	0	ID=MGA_745;product=phosphoribosylaminoimidazole synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249163.1;translation=MKKSWSYKKAGVDITGVKSSHSNISKLLNKTLGFRDGKIGEVINGSGHYAGVIKLTKDEYLAFHTDGVGTKVLVAQQYSKFDTVGIDCVAMNVNDLICVGAEPISLVDYIAIKKNNPMLIKEITKGLVKGSKLSSTPIVGGETAIMPDVIDGYGNKAFDLAASGIGIITEKTNMLNRKIKSGDIIIGLQSSGIHSNGTTLARKVLLEKYSLRKKMYKSKRLGDLLLEPTIIYSKAIMDILNNIKSIHGLAHITGGAFTKLTRISSGTVGFSIDLPKTPFIFELIQKTGNISNKEMQRTFNMGYGFVVICPKSQYSDVDSILSDYKINNTIIGNIVSHRGVKINGKSIA;locus_tag=LOCUS_7350;EC_number=6.3.3.1;note=WP_011249163.1 phosphoribosylaminoimidazole synthetase (Thermococcus kodakarensis KOD1) [pid:45.3%25%2C q_cov:98.3%25%2C s_cov:98.8%25%2C Eval:2.7e-77],MGA_745
sequence07	MetaGeneAnnotator	CDS	19115	19957	.	-	0	ID=MGA_746;product=phosphoribosylaminoimidazole-succinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8NMH6;translation=MSYADQDRSLIKKGKVKDAYEYDLDHVLFEFSDRISAFDVILPTVVPKKGEILCNFAKFFFENLNVNNHFIKTVDSNQIVVKKLDIIPIECIVRGYLYGGLFDRVNSGEVTIECENILATKLTEPIFDPTTKSDIKDEPITEEQILSQGIVSETELEYLKSTSISIYKKILSMASKSGFLIADLKLEFGKDKNGNILLADSIGPDEFRLWSQDKYKIGKTQESFDKQILRDWLIDSGFKKQLDYARKNNQNLPDPPTLPQDLVDLIQSRYITAYKQFSSQ;locus_tag=LOCUS_7360;gene=purC;EC_number=6.3.2.6;note=Q8NMH6 phosphoribosylaminoimidazole-succinocarboxamide synthase (Corynebacterium glutamicum ATCC 13032) [pid:37.4%25%2C q_cov:96.4%25%2C s_cov:93.3%25%2C Eval:1.7e-44],MGA_746
sequence07	MetaGeneAnnotator	CDS	19954	20397	.	-	0	ID=MGA_747;product=5-(carboxyamino)imidazole ribonucleotide mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870121.1;translation=MNKQVAIISGSKSDSKVTDQITKIFDDFGIDYESKVISAHRNHGELQEYISNSSASVFIGVAGLSAHLPGVIASLTTKPVIGVPVDAKLGGIDSLLSISQMPPGIPVAAVGIDNGRNAALLAIEILALSDNSISEKIHQYRESWKTK;locus_tag=LOCUS_7370;note=WP_010870121.1 5-(carboxyamino)imidazole ribonucleotide mutase (Methanocaldococcus jannaschii DSM 2661) [pid:58.0%25%2C q_cov:97.3%25%2C s_cov:91.1%25%2C Eval:7.2e-43],MGA_747
sequence07	MetaGeneAnnotator	CDS	20390	21640	.	-	0	ID=MGA_748;product=phosphoribosylamine--glycine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74FJ8;translation=MNVLVIGSGGREHALCLSISHSKLLTNLYCLPGNPGIKDLAKCIDGTPMNNDFVLKICEEHSIDLVIVGPEAPLTNGLVDILNRENISVFGPDAKAAELEGSKIFMKNLCRKYEIPSAEYSTFTDFDSAIFYLESKTIPVVIKANGLAAGKGVIIARTKSQAIETVRDMLVNNKFGSAGNSIVIEEFLEGQEASFFAISDGNKILPLGFAQDYKPIFDGNKGPNTGGMGSYSPVKFIDDSLKQEILSLTQKTIDAMNEEGRTYRGVLYVGLMLNGKEIKILEYNVRFGDPECQVLLPRIKNDLLEILLFASKGELNKVSNFDLDTKSVVCVVLSSPGYPENPIIGSEIIIKNNSHVLQAGTEQKNNKLYSKGGRVLNVIGTGDDLTTARNNAYKSINDVEWKDMYYRTDIGLIENE;locus_tag=LOCUS_7380;gene=purD;EC_number=6.3.4.13;note=Q74FJ8 phosphoribosylamine--glycine ligase (Geobacter sulfurreducens PCA) [pid:45.5%25%2C q_cov:98.8%25%2C s_cov:98.6%25%2C Eval:3.9e-105],MGA_748
sequence07	MetaGeneAnnotator	CDS	21659	23065	.	-	0	ID=MGA_749;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869699.1;translation=MKEKCGLFAAFSKSKKDVIPIITIGLRGLQHRGQEAWGIATPNMNPFKQNGLVSDNLAQSAQVLQHMKTNIAIGHVRYSTAGGTSISHAQPFSINKKFCIAHNGTVCDLNSVDNKTGKKVRRINDTSIVGKRLLSILKQNEFDWFKSIELLCEELVGAYCFVILTPNGEIYAFRDTRGFRPLCIGWHKKTKSYLISSESCAFSMLGAELKRDIKPGEIVKISDNGIESYLFSRGERTAHCSFEYIYFAHPSSVIDQTSVYESRRKLGQMLAELYNVKGDVVIPVPDSARPAALGFSEKSGIPMVEGLMKDRYANRGSLRSFIQPKYRERLKINRWIMPVQSAVEGKHVIVIDDSIVRGISSKAIVKTLRNSGAKSVKILVTFPPIRHPCRAGIDFPTHEELIAFNVSGKNSDIDLINTKVSKAVNADFVGYNNIENLSAGIGKKQSDLCMSCHTGEYGVLNRNLSNKE;locus_tag=LOCUS_7390;note=WP_010869699.1 amidophosphoribosyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:40.2%25%2C q_cov:96.8%25%2C s_cov:97.0%25%2C Eval:9.9e-84],MGA_749
sequence07	MetaGeneAnnotator	CDS	23062	25272	.	-	0	ID=MGA_750;product=phosphoribosylformylglycinamidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876986.1;translation=MSSTQSVSYSLTSSELEYIEKSLNRKANTVELAMIDAQWSEHCSYKSSKSLLKLLPTKGKRVLLGPGYEAGVLDVDNGQILTMHIESHNHPSAIDPYGGAATGVGGVLRDILSIGTRPIAVLDSLRFGNLNNPNNRWLLQNVVRGIADYGNCVGIPTIGGEISFDSCFETNCLVDVVSIGLGKKKQLIFSEAKNIGDILVLLGGSTGRDGIHGSSFASKDLEDESDNRSAVQIPDPFVKKLIIEATLDALNTGFVSGLKDLGGGGLACCLSEISDMGNNGVEVDLDKIHLRESDMLPYEILISESQERMLFVVNPNNLDEILDSFDKYHLPYSIIGKVTNSKHVVIKQNNSIIVDLPTTLIANAPLINWPKTRPDYLDNISNSKPELPINVKETILKVLSSPNLASKSWVFSQYDHEVGTNTVIKPGESGASVIRIAPDKFIAISVDGNPSHCYLDPYNGSAGVVAEAMRNVISVGAEPIAMLDHLQFGNPSNSDVFWTFNETIKSISDFCSYIDLPCVGGKVSFYNEDAKTHEAIKPSPVISVVGLIKGAHNLRTRQLDSSYPLIVMIGETFDELGGSEYYSIMGNNQLGNVSKVNFELEKMSQKLVRDGIKVGLFGAVNDCSKGGFLHSLLQMCTTSDIGATVDLSKIPTTCKRWDDLLFSESHSRFLVTIKEENFVNLMNISRNHNIPVSIIGSIGGRDLQLKNKDELFFSIDIDYISNYVYSSLSKLMDDVI;locus_tag=LOCUS_7400;note=WP_010876986.1 phosphoribosylformylglycinamidine synthase (Methanothermobacter thermautotrophicus str. Delta H) [pid:43.3%25%2C q_cov:94.3%25%2C s_cov:96.2%25%2C Eval:4.4e-164],MGA_750
sequence07	MetaGeneAnnotator	CDS	25269	25982	.	-	0	ID=MGA_751;product=phosphoribosylformylglycinamidine synthase subunit PurQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67190;translation=MKVAIIQFPGTNCDIDSFRVFNDELKVETDLFWHEKKDDLQKYDAVVLPGGFSYGDRLRAGIIAAYSPIIKQLKKLSLQGKPIIGICNGFQILVETGLLPGSLLTNSNLKFICKWVTLKVENNNLFTNSFQSGSLIHMPIAHNEGRYYVSDEKLNELERNNQIILRYADSSGTTSMDSNPNGSVSNIAAVSNVEGNVIGMMPHPERASDSILSPYFTNDGLEIFRSMILSLEVMLKE;locus_tag=LOCUS_7410;gene=purQ;EC_number=6.3.5.3;note=O67190 phosphoribosylformylglycinamidine synthase subunit PurQ (Aquifex aeolicus VF5) [pid:52.6%25%2C q_cov:96.2%25%2C s_cov:99.1%25%2C Eval:5.9e-66],MGA_751
sequence07	MetaGeneAnnotator	CDS	25984	26250	.	-	0	ID=MGA_752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTVSEFKIDVLISQRPEIRNPEGETILQDLLLRNNFDDVNSVTVSKVIHLVIKANNLEDAKARALFICDELRIYNPLVSSCTIRGSK;locus_tag=LOCUS_7420;note=MGA_752
sequence07	MetaGeneAnnotator	CDS	26315	27154	.	-	0	ID=MGA_753;product=putative endonuclease 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A9WII8;translation=MKLGVHVSISGSIDLSIDRARSLNLNTFQIFTRNPRGWKFSNLKEIDIDNFKRKVLSENILSVVCHMPYLPNLSSPRDDVYNISIKTLSSELDRCNQLDIDYVVTHIGSHLGSGLDAGLTRVINACNTALSNSSNNSMIILENTSGTKNNVGSKFEELKYIFDNINDKSRIGFCFDTCHAFAAGYDLSSNESVISTFNEFDRIIGLKYLKIIHLNDSKGELGNGLDRHQHIGKGNIGNIGFRQLLKNNIIKKLPLILETPIDENYGDKENIKQIKLLAK;locus_tag=LOCUS_7430;gene=nfo;EC_number=3.1.21.2;note=A9WII8 putative endonuclease 4 (Chloroflexus aurantiacus J-10-fl) [pid:41.1%25%2C q_cov:99.6%25%2C s_cov:98.2%25%2C Eval:2.1e-55],MGA_753
sequence07	MetaGeneAnnotator	CDS	27165	27452	.	-	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTYRSQVKIIADVLTSINDGNAGERGLGITRIIQKANLSYNRAIKIVNRLVDSGLVEQVYIDRSQRYVISHKGIQFLQSHSDFADFAESFGMKL;locus_tag=LOCUS_7440;note=MGA_754
sequence07	MetaGeneAnnotator	CDS	27439	28104	.	-	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGTYFLFPNYIEGILHIIGAIIGFRVARIAREGYRVTRSPTLLRITISFIFLTIGFMITGVTYFFGQFAIRIELFGISIALASLFFIIAAIFELFGYFILALGHGIKSFNVLATPALFGFFTTVSILSILKSLSFVFLLYGAFETFLSYLEVKRRSILYMFFGFGLLSVGELIKWLALFYTGLNPLMIASILVKLFGFIMLYTPVRSFSTLKGMNDDVDL;locus_tag=LOCUS_7450;note=MGA_755
sequence07	MetaGeneAnnotator	CDS	28554	28859	.	+	0	ID=MGA_756;product=stress response translation initiation inhibitor YciH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496503.1;translation=MDVCNKCGLPVDLCVCQELEKENTRIIVRLEMRRFRKPTTIIEGLESKSTDVTEIAKKLKNILACGGSGKGNLVVLQGDHRGVLKAHLIGLGFSEYSIEVQ;locus_tag=LOCUS_7460;note=WP_064496503.1 stress response translation initiation inhibitor YciH (Methanocaldococcus jannaschii DSM 2661) [pid:49.0%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:3.2e-23],MGA_756
sequence07	MetaGeneAnnotator	CDS	28866	29075	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKIKSLKNKFSSYLNFKTQYTLSDSKIKICPKCTAELEFVNEQLNWLMPQKFNCKECNYEGSIYLEK;locus_tag=LOCUS_7470;note=MGA_757
sequence07	MetaGeneAnnotator	CDS	29107	29532	.	+	0	ID=MGA_758;product=dCMP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932428.1;translation=MSRPTWDIYFMEIAQQISKRSTCDRKHVGAVIVRDKVILSTGYNGSIRGIKHCDEIGHLIENGHCVRTVHAEVNAVAQAAMNGTNISNSSIYLTASPCWFCFKILVNSGIKKIYFGEFYKDDKIFTFAQETGIDLVDMSNK;locus_tag=LOCUS_7480;note=WP_010932428.1 dCMP deaminase (Chlorobium tepidum TLS) [pid:49.0%25%2C q_cov:95.0%25%2C s_cov:81.7%25%2C Eval:7.8e-33],MGA_758
sequence07	MetaGeneAnnotator	CDS	29546	30478	.	-	0	ID=MGA_759;product=transcription initiation factor IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978312.1;translation=MKRDKLGSVTDRAASDKCTRCGKGPIVVDSSGGEMTCSNCGFVIVDKIEEEGPEWRAFSKEEKDDRARTGVPSSLAMHDMGLATVIGAEDRDAAGRSLPASMKAAIERLRTWDGRSQVHEPVDRNLRQAFSELDRLADKLNLSDAVIEKAAYIYRKALEKGLVRGRSISALIAASLYAACRDTETPRTLKDVAAACNIKKKDIARCYRLLLREMELRMPVVDPTKCVSRIASKAGLSEKTKRSALLILHKAEATRTSAGKDPMGLAAAALYVACVMEGESKTQKDVAEAAGVTEVTIRNRYKGLKAALQI;locus_tag=LOCUS_7490;gene=tfb;note=WP_010978312.1 transcription initiation factor IIB (Sulfolobus tokodaii str. 7) [pid:46.2%25%2C q_cov:94.2%25%2C s_cov:94.8%25%2C Eval:9.3e-71],MGA_759
sequence07	MetaGeneAnnotator	CDS	30666	32108	.	+	0	ID=MGA_760;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E028;translation=MIKVGITEKKDDNFSEWYTQVVLKAELIDYSSVKGFIILREYGYSIWENIQAILDKEFKINEIKNAYFPLLIPESLLNRESEHFKGFTPEVFWVTKTGNNDIENKLAIRPTSETIAYESYSKWINSWRDLPLKLNFWNSVLRAEIKDTKPFIRTSEFLWQEGHTVHQTEEQAIKQVETMLELYKNFVNRCLALPILTGRKSEKEKFVGAEYTLTLEGIMPDGKALQMGTSHHLGQNFSKPFNISYLGKDEKQHLAWQTSWGVSWRLIGALIMTHGDDKGLILPPKIAPIQVVIIPIYYDEEKKKKILDISNEIARQFKDKGIRVHVDSNEQYTPGWKFNQWEMKGVPIRIEIGPKDLDNNSIIVVKRNSKDKKQLEISNNLGEQIIKELNDIQIQLFNKAKEKQEKMIYKVDSYRDLCKKLNNNLGFMKTNWCESQECENKIKEETGADIRLIENINESIAKCVVCSEKTSTAVYFAKAY;locus_tag=LOCUS_7500;gene=proS;EC_number=6.1.1.15;note=B8E028 proline--tRNA ligase (Dictyoglomus turgidum DSM 6724) [pid:50.8%25%2C q_cov:99.0%25%2C s_cov:98.3%25%2C Eval:9.1e-141],MGA_760
sequence07	MetaGeneAnnotator	CDS	32182	32982	.	+	0	ID=MGA_761;product=undecaprenyl-diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979881.1;translation=MDTIQIIIFSIIQGIIEWLPISSQGNLIILMLEGLNLNIENALKLSIILHLGTVISACVYFRKEIYLIISNLKNYKFGYKNEIDSLTTFVILATISSSIVGIILFSRLLEIVESNIFLIIIGIGLLITGIIQKTIKSELKNTKNLNHIVSIVTGILQGIAVIPGISRSGITTSYLLLNKYNPSTALRLSFIISIPAVVLANVYVLFFEGVQNLQLTEVIIAIIFSFISGLISIRSFIKIAERIKFWIFSIVIGLILLIPEILKIIN;locus_tag=LOCUS_7510;EC_number=3.6.1.27;note=WP_010979881.1 undecaprenyl-diphosphatase (Sulfolobus tokodaii str. 7) [pid:27.9%25%2C q_cov:92.9%25%2C s_cov:92.8%25%2C Eval:4.1e-21],MGA_761
sequence07	MetaGeneAnnotator	CDS	33038	33310	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDVQETKFKVKVYDYPEGEKPKRVSKEVTKLLKGVVSTKKIAKLKKQAIHCPVLDEERNFVECFTCKSFIRRVMGEVDCAGGPAELDLR;locus_tag=LOCUS_7520;note=MGA_762
sequence07	MetaGeneAnnotator	CDS	33313	34416	.	-	0	ID=MGA_763;product=DNA topoisomerase VI subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876639.1;translation=MAKRKSKKQSKLEEQKLNIKSQLKELGEKIYMDLDAQKFPTIHFPSRSVRNIVYDKETQQYILGSNTVSRTASNIKHIRPFAQLTWLAFFANELMSNKKSSTLRDVYYSSQAYAVDYENQSESDAIITDLESVISIAREQLHIYPEERSAIFGDLNIEYTVPGYEGNKLNLSSHPDGYLIGPSLSTADFIDTSAEMIIAIEKGGLFNRFVEEKVHSKYKSIIIDTAGQAPRATRYMLKRLHKELNLPVYIMTDGDVYGEHIAMVIVSGSAGAAHLRELTVPSAKWLGIWASDIEKYKLPTIPMTEIDLKRIGELKRDPRYQKGIWNKELDVFMKIKKKCELEAFSKYGLTTIVDKYLPDKLEQAKSM;locus_tag=LOCUS_7530;EC_number=5.99.1.3;note=WP_010876639.1 DNA topoisomerase VI subunit A (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.3%25%2C q_cov:94.3%25%2C s_cov:97.5%25%2C Eval:2.2e-77],MGA_763
sequence07	MetaGeneAnnotator	CDS	34416	35957	.	-	0	ID=MGA_764;product=DNA topoisomerase VI subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979316.1;translation=MLKTKTTFSGISPSEFFYRNRDLAGYGNPAKALYTSTRELVENSLDACESAEILPSLYVKMSPIVEHLSESEPRTYQLKVSDNGPGIDPSKTPDAFGRVFYGSKYKLRQARGMFGMGGTMAVLYGQISTSKPVVVYTSTDGKKSHKFTLRIDIQKNEPLVLNNEIIDGKGQTGTTVELLLTGDSFRASAKIHDYFLETALVTPYAEITFIDAQGRMFYYPRSTKILPKPPEETQPHPHGFDFEGMRRLIQQTSDKTLHKLLTNNFHRVGQTTSTNFFKFAKINPNLSPTDLSYENIVKMVDAMHKYESFLPPDAHCLSPLGKDIMNAGIMSELSPEFSTIAIRPPSAYSGFPFIVEVGLAYGGKVTHHGVKLYRYANRIPLLYDEGSDLAWQVVKDLVIDKKRAYKIPDNAPLAIITHVCSTKVPFKTAGKEFLADRPELERELKNAVREVLRKLRLHLSRKTSQEAVKRRRDIYSKYLPIIAEFSKSLSGKKTLPNYHSMLKSELDKIESET;locus_tag=LOCUS_7540;EC_number=5.99.1.3;note=WP_010979316.1 DNA topoisomerase VI subunit B (Sulfolobus tokodaii str. 7) [pid:41.4%25%2C q_cov:97.9%25%2C s_cov:94.5%25%2C Eval:1.7e-108],MGA_764
sequence07	MetaGeneAnnotator	CDS	35944	36513	.	-	0	ID=MGA_765;product=RNA-processing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903653.1;translation=MMFRKTIRIPLDRVGAVVGRSGKTKIWIEEKCKVTLKIDSSSGEILISSDNLSSNPLLSVDLVQAISHGFSQSNASNLFAENNYLNIIDLKPYCGKSSNSLSRIKSRLIGQNGKTRRVMEEITNTHISVYGHSISVIGSYEQIKLIEDAINVIISGGQHKTAYNLLQRNRTRSKLDRLKLWEDSSIVKN;locus_tag=LOCUS_7550;note=WP_010903653.1 RNA-processing protein (Halobacterium salinarum NRC-1) [pid:31.5%25%2C q_cov:88.4%25%2C s_cov:91.3%25%2C Eval:1.3e-21],MGA_765
sequence07	MetaGeneAnnotator	CDS	36500	37300	.	-	0	ID=MGA_766;product=serine/threonine protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060945.1;translation=MIPIDQIDDRAIKKALYKVNKSEKTNRFLNKRSEDFQVFQDVFNKPTLMTLNHFFSNRTLSYLNGIVNSGKESNIFWGVTPDGNDVAVKIYLTVSTDFRKRLQYIEGDNRFKNISHNRRKLIELWARKEYKNLLKAYSINIPVPKPIAVRRNILIMEFQGSDGSSFPTLSETEVTELDLEKTLSIISRLYKESHLVHSDLSEFNIFKNSNDIILFDFGSAVDISHPMSNDFLLRDLTNLYRFFSKRGIIVFNIKQKFGEIIENDVS;locus_tag=LOCUS_7560;note=WP_048060945.1 serine/threonine protein kinase (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.0%25%2C q_cov:92.9%25%2C s_cov:91.5%25%2C Eval:1.6e-44],MGA_766
sequence07	MetaGeneAnnotator	CDS	37303	37614	.	-	0	ID=MGA_767;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876635.1;translation=MGKRKVLNEKSLKEVVLPQEGEMYGRVLKHLGSELIQIKCNDGKIRIGRIRGKLKRRVWIRENDVVIIAPWEFKSEERGDILWRYTVGQVEWLLAQGYLSKDL;locus_tag=LOCUS_7570;note=WP_010876635.1 translation initiation factor IF-1 (Methanothermobacter thermautotrophicus str. Delta H) [pid:46.7%25%2C q_cov:87.4%25%2C s_cov:90.9%25%2C Eval:1.1e-20],MGA_767
sequence07	MetaGeneAnnotator	CDS	37651	37962	.	-	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNDSFVYRSVINNNIKVVNLCDSENIGKTISDKDFEIEISSDYFGNQIIDETKAIDLLKNSNTLTLVGNRIVELAIKHDLVSVESVKKVEGISFALVFKFTQ;locus_tag=LOCUS_7580;note=MGA_768
sequence07	MetaGeneAnnotator	CDS	37965	38381	.	-	0	ID=MGA_769;product=translation initiation factor IF-2 subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846888.1;translation=MEDVSYKKLLTRIEDQLSKVDVKEKDRIEIPKVETYWVGQKTFFKNFNVYPKLLRRTSEHFLMFLSKEFATSASLDGDRAIFIGRKTPDSFDFIIKRYIRQYVTCSVCDSYDTSLDKVKRLFFIICDACGAKTTAGSR;locus_tag=LOCUS_7590;note=WP_052846888.1 translation initiation factor IF-2 subunit beta (Sulfolobus tokodaii str. 7) [pid:35.7%25%2C q_cov:92.8%25%2C s_cov:92.1%25%2C Eval:3.5e-14],MGA_769
sequence07	MetaGeneAnnotator	CDS	38455	38976	.	+	0	ID=MGA_770;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q183I0;translation=MIENMDIRKIIKDYPNYPKKGIIFKDMWPVIEEPAAFDYILTEFEKNFNGKIDTVIGIESRGFVIGAALANRLKIKFIPIRKKGKLPGKTISRDYKLEYGNASIEIKNESLKNRKILIIDDLLATGGTIGAAIKMIEILNGKIIGLGFLIELEFLNAREKFTNYNIFSIVRYE;locus_tag=LOCUS_7600;gene=apt;EC_number=2.4.2.7;note=Q183I0 adenine phosphoribosyltransferase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:44.7%25%2C q_cov:97.1%25%2C s_cov:100.0%25%2C Eval:4.7e-38],MGA_770
sequence07	MetaGeneAnnotator	CDS	38969	39760	.	+	0	ID=MGA_771;product=5'-methylthioadenosine phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867247.1;translation=MNNINAEIAIIGGTGIYNTDIITNKEIVNISTPYGETSDSLTIGEYNERKIVFLPRHGKKHNVPPHKINFRANMWALKEIGVTRIIAPCAVGSLREEMKPGHIAIPDQFIDRTKNRPCTFYEKGIVAHISTADPFCPNLRKIAITVGNKLEYNIHDKATQVCIEGPRFSTRAESNMFRSWKADTINMTLFPECVLAREAQICYIAIATITDYDVWAEKVVSHHEVLKTLEKNVEKTINIIKNIIPEINKERNCLCAHALDEAI;locus_tag=LOCUS_7610;EC_number=2.4.2.28;note=WP_010867247.1 5'-methylthioadenosine phosphorylase (Pyrococcus abyssi GE5) [pid:54.2%25%2C q_cov:96.2%25%2C s_cov:97.3%25%2C Eval:5.6e-71],MGA_771
sequence07	MetaGeneAnnotator	CDS	39807	41048	.	+	0	ID=MGA_772;product=S-adenosyl-L-homocysteine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978302.1;translation=MSKISDKTLAEKGKKSYEWAYKNMPTLITAINKASEDFSFNRTKIAVCLHVTKETSVLVMGLKKIGADVYLAGANPLSTQDDIAAYLDSEGIHVFAWRGQNDKEYQECINEILYAEPEIIMDDGSDAHITVHQNSKFKELNIIGGTEETTTGVVRLEALVKSSKLRYPIIAVNNAQTKHLFDNRYGTGQSTFDGILRSTALLIAGKKITVCGYGWVGKGIATRAKGLGGIVSISEIDPIRAIEAVMDGFDVKPINELSKESNIFITATGQKHVINKNSIQNMKDGTILANAGHFDLEIDVEFLRNNTKNIKKIRDNLEEYELENGNKIFLIAKGRIANLVAAEGHPPEVMSLSFSNQLLGAIKIKLDHDKLDGLIDMPKEIDNKVARYALDGMNVRIDRQTQEQKDYGESYVI;locus_tag=LOCUS_7620;EC_number=3.3.1.1;note=WP_010978302.1 S-adenosyl-L-homocysteine hydrolase (Sulfolobus tokodaii str. 7) [pid:55.7%25%2C q_cov:98.1%25%2C s_cov:97.3%25%2C Eval:6.6e-121],MGA_772
sequence07	MetaGeneAnnotator	CDS	41049	42257	.	-	0	ID=MGA_773;product=metalloprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867359.1;translation=MEEKDSNIDLRFPLIILKTKKGQSLMNRLAQIRVIYYLSWISLVLMPIFSFIAIIILLLTVSLYLSVPEVREIARDAGPQGALLIPGLNPYLPIIYGWIAIFLGIVIHELSHGVVARSLDIPVRSSGLLFLIFLPIGAFVEVDDKKLDSISFRKSGRIIAAGSGSNIIVGLLALFLLIGVVNTMEPVAEGIPVSKVVVDSPANLAGLFPGDIITHLNNEPISNSDVFQTRLQSFSPGDEIILTVHRNSKQYSYNLVLSNRPDNNNEPFIGVMPPSVDIYESLARYQNGLSFSPNLLLYFSFPSGDSSVPFSNSMQSYYTSSLGNQYVIFSNLLFWIWFINFNLGIFNSLPLGPLDGGQAFKRGLKSITRNTLSTNTINLISRFVSLFIITLILSMFVLPYLL;locus_tag=LOCUS_7630;note=WP_010867359.1 metalloprotease (Pyrococcus abyssi GE5) [pid:29.7%25%2C q_cov:85.6%25%2C s_cov:78.0%25%2C Eval:4.1e-35],MGA_773
sequence07	MetaGeneAnnotator	CDS	42362	42661	.	+	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLPIRRWDGESRRWLDELDGVVKVPAKMTRDTGNEQEDEKYATICVMCDKRITRPQIDGGRKAYWNEGISNGKLIKSGWIHQECLSFNSGVYEKAYMP;locus_tag=LOCUS_7640;note=MGA_774
sequence07	MetaGeneAnnotator	CDS	42662	42976	.	-	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTFSEDDILEAISEVVDPEINVPIIEMGEGNGLIDEVNISDNNSVEIKYHATTPYCPPVFALQISMDIKRSVEKMIDTGKVKVIVSGHSMSKQINDKINDNQ;locus_tag=LOCUS_7650;note=MGA_775
sequence08	MetaGeneAnnotator	CDS	178	1248	.	+	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEQKNQRLLLVSVVIIALTIGFLIGGTFVYHTNNETELKQYQAVVFNTISKTATVIDNIQFNILTNVDIDIEEGQYGAHFNENNNKLYLIHDGESELLILNPQSLEIESKVRVGSNLQHAGIFDKTGEIFFLISRDSNSLVMINTTTDRIISKIEVQEQPHHIALLKDSVAVTNTKSQSISIVDIIKMDVKYNIKIDAEPLMIVSDKEDKIFVGTIRPSKIFFIDNNEVKNSIKLESNPHGIALTLDKKNLLVTLPEDDKILVIDMKGKIVKELKTGSFPHNIDIDPNGKYGYISNSNDASVSIIDLTDFEIVATIETGNGSHNVQFYNIMNSNSQLNVAKDDSKIISANFNCGG;locus_tag=LOCUS_7660;note=WP_011461894.1 hypothetical protein (Desulfitobacterium hafniense Y51) [pid:29.5%25%2C q_cov:56.7%25%2C s_cov:66.5%25%2C Eval:1.7e-18%2C partial hit],MGA_778
sequence08	MetaGeneAnnotator	CDS	1252	2349	.	+	0	ID=MGA_779;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000492327.1;translation=MLEYNNIFSLGATLLIGLGFGILLQKGRFCFTSALRDFIAFKDTRVLNGVIIGIVTMMLGTSLVYILGVSSSHFWISNYGLSNIIGGFIFGIGMVYGGGCASGTLYRAGEGYIHYWLVLISACIGYISFAALFPEFFLPYFFVPLQIFDGYSIIASLESLAPIVPIVLIGSSIIYLRSKNKLIINQTIQSIKISNISSESLKSEWDTKLVGAGMGILATLWFVVWGTLSVTGPQAKWTGLIYSEIFGLGTLQQNVYWNSVIFRDGIFSISLDMILFVSLILGAFISAYSSGDFKIRTIKRSRIPNALIGGLMMGFGSRMAPGCNISNTFSGLAFLSVAGFITSLGLLLGVYVTTHWMFRKSGCAI;locus_tag=LOCUS_7670;note=WP_000492327.1 membrane protein (Escherichia coli O157:H7 str. Sakai) [pid:25.0%25%2C q_cov:93.4%25%2C s_cov:92.0%25%2C Eval:2.0e-25],MGA_779
sequence08	MetaGeneAnnotator	CDS	2365	2631	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEERTVNDEDLKEIEENAVIIDMEGEVCPYPQIIAREEIKKIDSGKIVVIKTDHVMATKAVPQSVSNYVSHYGIWKSGSGQYKIILWK;locus_tag=LOCUS_7680;note=MGA_780
sequence08	MetaGeneAnnotator	CDS	2681	4174	.	+	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLRIAYAGVIQLIAQFSTLITGLIFVTLVTRNLPVDEFGLWQTLGSSVGLLLIPLAPLNYWTLRYSARGQDVAKTSLLSGIIAVPIFVIAYLTLALTASSSIETILIYVLIYSIQIPALCIWEVVRPVARSYKPEYLGYATIALEIGKVFGAYYAITILKLGLTGAILSLALGQFLQLAIVIYIIRPKLRGIFNSSIVKKWYKAAWIPISNISVSRLSISDSILVAIILGSTTVVGIFQASRVFTLIIRYSEVFLRVLYPKLIRDGRNEDITLTFRLQSFVVVPLAVGALMLTEPLLGILGEQYVKASLILRILTIVAIIEGIEFFMWNILTGLEKVDEDINNLQFKKLRNSWLVRLPLIDLMKYAAYFLILGTIMYTSKGIGNEFTLGMYWAITLLLVTVPITIYKIILAKRVMKFEFPKLSIFRYIVSGIIMAGFLYFYQELIPLTGTSVRSVITYIIPPGFISVLIYSIVVLSIDSFIRKSTIDFIKGLRDKV;locus_tag=LOCUS_7690;note=MGA_781
sequence08	Aragorn:1.2.38	tRNA	4266	4343	.	-	.	ID=Aragorn_5;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_5
sequence08	MetaGeneAnnotator	CDS	4407	5687	.	+	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLKTKEYVIEFIAQAIGIPNELKYIYEDIPEDIIKQISIALTGKNIDAETFDQNALPVVDELIQWAQEVYEEVCKENNIPAIWKSRWPNGKKFAVALTHDSDSIDVTKEHLQKVKDRFSESDLKEALEGRKNLYWNVERIKEIEDKFEFKSSFYFLTSEYNLEQYKNVLDELIKNGWEVGLHAGFGTHDNEDKMKEDIMEFKRQLGHQPIGVREHYLQFDYHKTLDFLERNQFVYDTSLGFREHPGFFLGTSMPFNPPRENWERRKIIELPLIIMDTSLWGYMDLNEDDGMKLIEEYIANIKKVSGLLTILWHQEAFLMKRGEIYTMILEKLAKEECFVSSGIIISKWWNDRNDTEISIVEDSEKGWKCSIRNVVKGLCIEIKNFDATKDMSINGQGRIIHKSEADGEVYCIIELEGNCELTYV;locus_tag=LOCUS_7700;note=WP_011020209.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:31.9%25%2C q_cov:62.0%25%2C s_cov:81.4%25%2C Eval:1.7e-34%2C partial hit],MGA_782
sequence08	MetaGeneAnnotator	CDS	5680	6756	.	+	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNILVTGSGGIGGVNFINALRIASNDYVITGTDFNKYYLEFPQVDFKYRTPRHSDSKFLQMIKEIIEKNKIEFLHPSPHSEASVITKNKDQINTATYLPEYDIIIRDKLQTQEILEKNSIPVAKTEIVNSLDEIESKKKRFADDKIWVRMKSGAGGKLSLLCKSVEEIKDWIKLWVNRGSADYSDFMIQEYLPGRNIACDSLWYNGEFIASYTRERLEYPFKHISPSGITGTPTVSRIIIDEQVNEISKKAILAVDSKPHGSYAVDLKSDKDDNPIVTEIDSGKFHTTTPLWGIVANKLKLDSRMNLADYYCKIGMNIIEPENLGTDIYPEGLYLLRHIDTGTWIWKEDGFKVKIL;locus_tag=LOCUS_7710;note=MGA_783
sequence08	MetaGeneAnnotator	CDS	6753	7346	.	+	0	ID=MGA_784;product=phosphoglycolate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003020315.1;translation=MIELVVFDLDGTIIRLPVRYDFLRAQLKEKYKIEGEFFIIPTIIEKTRGRDDLKKDAFEFICKEECNAIKDLEIYEGIIDVIKEIHSKNKKIALVTLQCEKAATRILDIIGIKNLFSSVITRDNYTNRYEQIINTMNRFNMKANQTLMIGDRINDFESAEKVGCQSIIIRRGDQKINPLMNCVKGDSELKNKVLKIL;locus_tag=LOCUS_7720;gene=gph;EC_number=3.1.3.18;note=WP_003020315.1 phosphoglycolate phosphatase (Francisella tularensis subsp. tularensis SCHU S4) [pid:26.9%25%2C q_cov:87.3%25%2C s_cov:86.2%25%2C Eval:4.3e-10],MGA_784
sequence08	MetaGeneAnnotator	CDS	7341	8360	.	-	0	ID=MGA_785;product=epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403373.1;translation=MSDIIESDLSYLIQHNKKFRVSNKKFLITGGAGFLGSWLCEILLAKNAKVYCIDNLSSGRTENVKHLFKNKSFVFKKINITKQSLNIKPDYIFHLASRPSPDDYLKNPIQTIDVNTEGTRKILELARKSNSKLLFSSTSEVYGEAILFPTPENYYGNVSPIGPRSCYDESKRLCESLCMAYYRTYGLDLRIVRLFNTYGPKLRGDSNYGRALSRFIWQSVNNKNLTICGNGRQTRSFCYITDMINGLFGSLLTKQTKGEVFNLGYPKETRIIDLARMIIKLTNSKSRITYLPMPENDPKRRLPKISKAKKIIGFNPNIKLEDGLSKTVRWNLETNYKYL;locus_tag=LOCUS_7730;note=WP_011403373.1 epimerase (Salinibacter ruber DSM 13855) [pid:47.2%25%2C q_cov:89.7%25%2C s_cov:94.1%25%2C Eval:2.2e-76],MGA_785
sequence08	MetaGeneAnnotator	CDS	8361	9233	.	-	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240442.1;translation=MLKKVIIPVAGRGTRLLPTTKVQPKEMLPVFSSLNDDLLLKPMVQLIFEQLFDFGIHDFCFIVGKEKRVIKDHFSPDYSILNNLSNQKNTVSFKDMKSFYNRIEKSNITWINQSNPLGYGHAVSLASSFVGDDDFILHAGDTLIIQPNNLHLKELNRLSNHADCIVALEKIKNPSAYGVVLGKRNKKIETNFNVYTIQEAVEKPLTSISNLAIMALNKFTPDVMKILKKIQPGYGGEIQITDAIQHMIDSQMKVLGYEYSNSCIRLDIGTPETYFHAQQTSKKLATKGWM;locus_tag=LOCUS_7740;note=WP_053240442.1 hypothetical protein (Pyrobaculum islandicum DSM 4184) [pid:36.3%25%2C q_cov:97.9%25%2C s_cov:96.7%25%2C Eval:3.5e-48],MGA_786
sequence08	MetaGeneAnnotator	CDS	9292	10611	.	+	0	ID=MGA_787;product=UDP-glucose/GDP-mannose dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011024335.1;translation=MEYDVAFVGLGYVGLSTSVCFANRGINVLGIDIDSKKLNKIKKANSPIHEKGINELLEKAIKKNKLSLSKNITDVSKTKIIFLTVGTPSKKDGSIDFRYINQAVKDIGISIKYAEQYFIIVIKSTVIPGTTSRIIKDLERYSGKTGSIDFGVIVNPEFLQEGNAINDTLNPDKIVIGSNSEKDKIIISKLYRKIYKKNLPIINTTPGNAELIKYANNSLLATKISFMNYIARLAERIPEGDVVEIKNAIGMDKRISESFLNAGLGFGGSCFPKDVKALIAFSKNLGVEAEILQSVIKINDTQFMSVFNILNDKLGKLERKKISILGLSFKPETDDVRDATSIKIIKRLLRKKAVVRVYDPIANNNIKKIFGNSITYAMDSKSCLRNADCCIIVTEWNEFKKLNADDFIKVMRRPLIIDGRRIFSKKKFKKLEYQAIGLG;locus_tag=LOCUS_7750;note=WP_011024335.1 UDP-glucose/GDP-mannose dehydrogenase family protein (Methanosarcina acetivorans C2A) [pid:45.0%25%2C q_cov:98.4%25%2C s_cov:99.1%25%2C Eval:3.8e-98],MGA_787
sequence08	MetaGeneAnnotator	CDS	10647	11027	.	+	0	ID=MGA_788;product=NADPH-dependent 7-cyano-7-deazaguanine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9F719;translation=MTALKVSKRILKKLTNPASEPYQIEIDAPEFTFYGVKNQPDYASINISMIPEKAVIELKSFKLYLQQYRNEIASYERVINRIYDDLIQVYKPKRLVIKIKFNARGGIVSKLTIDSFERELFIEREK;locus_tag=LOCUS_7760;gene=queF;EC_number=1.7.1.13;note=Q9F719 NADPH-dependent 7-cyano-7-deazaguanine reductase (Chlorobium tepidum TLS) [pid:40.0%25%2C q_cov:85.7%25%2C s_cov:94.0%25%2C Eval:2.0e-17],MGA_788
sequence08	MetaGeneAnnotator	CDS	11011	11256	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAKSKFRIIRTIDGIKCNSCPLKSENKNELPCSLRITMDPKFSFIRVICGYCDFKSKIYYKTILGIDGILDEHAKVKKIE;locus_tag=LOCUS_7770;note=MGA_789
sequence08	MetaGeneAnnotator	CDS	11267	12034	.	-	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVGCMQVGGDCSWILNSSLNNLSKMVDEIVLVGGDVSQESKKIIDACDRVVDTNFYSDNKSRIEWNDMNSLLRMAQKQDADWILFMDADETFEPRFAHAIREHINDSSVGMYKFHRYWLWKSTDYYRSDRPEKFSTFAYNSYLVRSVQSLYFPNPGGPFWKRLIRHFQGKEKLRPYFGREPIHGVIGKTIESEIILLHHAALNWEQFVKNQMWYAALIAKRQPKSSVLDIVNQLYSILDVSTLELSPVDKEWL;locus_tag=LOCUS_7780;note=MGA_790
sequence08	MetaGeneAnnotator	CDS	12090	13001	.	+	0	ID=MGA_791;product=NAD dependent epimerase/dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000646256.1;translation=MKKYLIVGGSGFLGSHIVNTLISKQAKVSVSDIIGPQYAIKIKEHMNSINYIWKSAEDLNENDISNIDCILFLAAQADVPLVLSSPKYSFHTNTAGLINALELVRIKKNIRLIYMSSKNVYGKAKNLPISEEETLRPTDPYGAGKAAADLMCQSYASAFDLPITIIRSSGLFGPNSRLQQVIPIFIKQALSDSPITIEGDGSQSTDFNYVQNLVDAIITISESNINGIYNIAYGKDYSIKNIADLILEITNSNSQIKSLPWRSGEKGMKLSLSIEKAKKDFGYSPTVSFKTGIEKTIEWVASI;locus_tag=LOCUS_7790;gene=wcaG;note=WP_000646256.1 NAD dependent epimerase/dehydratase (Leptospira interrogans serovar Lai str. 56601) [pid:29.9%25%2C q_cov:97.7%25%2C s_cov:90.0%25%2C Eval:2.1e-35],MGA_791
sequence08	MetaGeneAnnotator	CDS	13001	13372	.	+	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIKVIKIKESFIDKRGKITNILEKPVTSIVIITSKKGAIRANHYHKKDSHWSYIIKGKMEYYEERKSGKVEKAIVKAEEMVYSAPEVPHAMKFLENSIFLAMTTQKRLKGKYDKDTIPYEII;locus_tag=LOCUS_7800;note=MGA_792
sequence08	MetaGeneAnnotator	CDS	13369	14091	.	+	0	ID=MGA_793;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065490.1;translation=MTFEDKKIILTGASSGIGLELLRYFIKQKATVFASSRNERELTSNDKQKCNFELLDLSNTDSVERYVNSILKEEEKIDILINNAGVAHNLSFIEEIKFDELNTVIKDNLMPTFNMIKYIMPVMKKNNSGIIINLASRAGRRAVPRLSAYSAAKFAVRGLTEAVAKEIQNTEIKCISISPAGVNTEMRAMVFGKEDAENQQTTSRITDIITRILTNEFEVPNGSDVIIIKDKEPIIKVPEV;locus_tag=LOCUS_7810;note=WP_048065490.1 NAD(P)-dependent oxidoreductase (Methanosarcina acetivorans C2A) [pid:33.0%25%2C q_cov:79.6%25%2C s_cov:82.6%25%2C Eval:9.7e-24],MGA_793
sequence08	MetaGeneAnnotator	CDS	14088	15299	.	+	0	ID=MGA_794;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015887438.1;translation=MKCRSCKQEEFVDFISLKKQPPANAFLRREDFDKELLYPLDVTCCKNCLLVQLTENSYIPRDKLFLDYAYASSISGGLRTHFTDFAKKLKSEFNAKKIVDIGSNDGVLLKPLFELGFDAIGVEPAVNLAKQANDNGLTTLCTYFDRKIVDKIISDKGQVDIIVASNVFAHLDEYHNIIENVKSLLTKEGVFIVEVQYFSDMIKEMTFDNIYHEHVLYYTIHSLTNLFSYHNMNVYKIEKIPTHGGSIRAYISKSNQVKHHSVNDLLREEKENGIDNIQTLEEFNKKLQNNIQEIRELFSELNKKNKRIFGYGAPAKSSTMINSIGLDKNNIELIIEDSPLKQGLYTPGSHIPIKEPEILQNNTPDYLMIFAWNYADEIIKKVEEKYNKMNYIIPMPELRIIEN;locus_tag=LOCUS_7820;EC_number=2.1.1.-;note=WP_015887438.1 methyltransferase (Sinorhizobium fredii NGR234) [pid:31.8%25%2C q_cov:99.8%25%2C s_cov:94.4%25%2C Eval:5.3e-67],MGA_794
sequence08	MetaGeneAnnotator	CDS	15383	16471	.	-	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLIAVTPLAFAVTITSDKDEYHPGDQLIVSGTAGPNEDLTFKVTNPNGAQVAVGQVAADDNGDFSITLLRFPSVATTTFPFGSYTVTATAGSGSAELTVTLTETTAAAPSQPAASQESGGFAVTVTSEGTYNAGDTVSIYVLTTEDGVLTDATISVASVKAPNGAENVLSTCGKVSTGLQRCSYNVAGGIGTYAVLVSAFTDAGSSSAIGTFQVSAGAQPHPPQAAVESNAPILNAIANVASDLDNVGNDVNRLEGNFPINIPRTEIPEGVSLAQISSALDAAVADLKSAVSGSQSAIQGNVDANGDDIVSAIDDISANANAAAQGSSQAASTALIAAVLAAIAVILQIVIIVRGNLLKN;locus_tag=LOCUS_7830;note=MGA_795
sequence08	MetaGeneAnnotator	CDS	16554	20732	.	-	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFAGIPIAPNAQAASTGTITVSKAQMFGNATVSISISDPDIGVQELKDTYNPTVALEWTNATSTYSLNVTQNTGGTWVAYVTNSLWVRYSCQAYGQAASNVLHGGGNAAGFGIKNATGYLNATHGGSATATTVSANGWALMGAGANGIAEGGCAKAYINNNHLSNGAPNTRTYGNHSHTHMSTATTGANKYYGRSVANPGLTAMTFTRDGIIQGLNMTRGHTMTVTYKDSADSTGAAKDISTTIKYKETKASIYNTEEKQTTVTPGATLSLFVDWSDGNQDPTEKEVLHLSNTSSALVASIVTSSNATLQNLVNKTLHYFGGAAHEGHKSTSFRLNFTETGLNTGIFECTNVAPALASSTCIEMENWRYNTTGVQSTALTHRTAIWNYTSDNVGSSGWKDGDTFKLAFTPFGNYTQGIYNATSCGGQGGSSTSTKGGCYNGTSVTLTITETTGTMTTSATAVSSSSDVTVTITDADMNHNPLVKDDITRVFVELNDSSPVTVTATESAVNSSIFDFTIRTTIGTTTSGCSYSTSADRLTCTIRPEGLKNAVFDIKYDDKYAGTVAAATVTATTTAATLTTDKTSYDESATSITLTFTDPDANDASATKEQYLFNSTRKPNPQTNDGSCNGIFVGSTCNNKQIANFSITSINGTNGYHDIRNHSALVMETGVNTGIWETVVTLATLRTNSDGGRGKTSGTLGLAAGDSLVFTVKDLFDTATVNVTVTIGGTVGALSFDRSDFPITVDHASTAKVRNQSRVNATVTLTDVDKNINVNARDNATLRMRILNGTGEIVGTVMGQALGVGAMGYMSWYNITALETGVNTGVFTLKFGINWGNANGDFPTVLNYSKPTQQYFTLDRMQDMVGGDICFEWEDGASSSNITTANSAPGSTSGNAAKKGVSKCLEIKGHDASITADITTGKLGDSFVVTATEADYNRDTEVKDTLYMLMIGTAKQTAPSETDTAKYNLTIALTETGVNTGEFTKTIKLEPGKSPFDTTLTANQYLRLRIRDNATSNSFYSGAGLARASATHAITIQSTTATLTVTPGDKTGPDNVLYVKLVDPDLMTTAASGVVLTQATSNGTSDVEKPTASNGTTASGTYWFGITIARSTGTPTDEDGTLHVNASDTIYFHYSDAANSAGVLEVVTATLTVTTESGAITTDKANYLIGDFMTVTVNDLDANTSPSTKQSITVKVVTDSWEIGTTITLQETSADSSVFDGKIEFIATTKGVPSASQITASIGDVVTIKYTDTLCDNNKKCTLSVEKKIGQALSKTEQVPAGTPEIVDTSGNAFASPSVGDIVIVQASITNDDDVAHTVTFLVQIKNSAGEIINLGWVRDIELSTDESQTPGLSWLPDTAGTYTAEVYVWTSISEAEALSPVKSVTFTIA;locus_tag=LOCUS_7840;note=MGA_796
sequence08	MetaGeneAnnotator	CDS	21061	22050	.	-	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGMALGYDVHHFADKANTDGTSYYNIALDPFSSSPEESGFRHATFLYPLLTYIIAQGNPFATALTMEIINIIAFSVSVVMFSKVVSLDNSKSATLFYAFNPILLISTHGGMNEPLFFAFMFGALYYFKIDNFKLSAILLAFASLTRPDFVIFSFPFFLFSKNRNFLPYFLIPSFALFVHSLHLVYRFGFDHFLKFTSGVDSGFPHSMLGIPFQTFFQNRFFGGINTPVITGANYFINEFIAWSIFFALLLSIYFIYNKKHIDYFSLSLIVFGSVIQPAYSYFSGYFRFISMTPYLYKLPGLTLNNRLLSIVGIIYIASSIFLLFGWFF;locus_tag=LOCUS_7850;note=MGA_797
sequence08	MetaGeneAnnotator	CDS	22305	23309	.	+	0	ID=MGA_798;product=GHMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966336.1;translation=MKKRIEKLTAIAPHRISICGGGTDFPLFYQEYGGAVINFAITRFSVIKLTKLKNTFVVNAKDVNEYYKGTKEELLKIKNPSMVLYTILQKAIPAKISVKSDVPPGSGLGSSGTLAINLVNAFHHLDNKKNISPLELSNRAFNLEANIFKKSVGKQDHMPAAFGGFNYIQYKKNKTIVTPFKKSITNQLTNFCLLFYLGSTRDADKILRRQEKRLQSKSSEMIDVLKTVNILTRNMKKDLDDGNFKDVGNALEIAWELKKKFTKGITNRFIDKVHDITIESGAYGAKVTGAGGGGHFLVISDKKYHRKIVKNLKKVGCERISFNISQGASIKYGK;locus_tag=LOCUS_7860;note=WP_010966336.1 GHMP kinase (Clostridium acetobutylicum ATCC 824) [pid:30.1%25%2C q_cov:95.8%25%2C s_cov:89.3%25%2C Eval:1.1e-35],MGA_798
sequence08	MetaGeneAnnotator	CDS	23299	23847	.	+	0	ID=MGA_799;product=phosphoheptose isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259619.1;translation=MENEEFLQDSKKSIDSLIENNDKISEMINVLVRARMTKKSVFVIGNGGSSSTASHFVCDLLKTSINNTQPRFRAQCLTDNTPVMTAWANDVSYDDIFSEQLKNFVKEGDILIAISCSGNSPNILKAVEDAKRREIKTIGLTGQSGKLAELADLVIQVPSNNILLIEGIHSVLLHYITEVLRG;locus_tag=LOCUS_7870;note=WP_012259619.1 phosphoheptose isomerase (Chloroflexus aurantiacus J-10-fl) [pid:45.8%25%2C q_cov:83.5%25%2C s_cov:75.7%25%2C Eval:2.0e-32],MGA_799
sequence08	MetaGeneAnnotator	CDS	23844	24290	.	+	0	ID=MGA_800;product=D-glycero-beta-D-manno-heptose-1%2C7-bisphosphate 7-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O25531;translation=MKLPALFIDRDGTIVRQIDGSYISSINQIELIKTIYPVISLLQNEGYVVIMVTNQAGINKGIVTRKQVDEINQHIIQSLKKYGIEIFDVYVCPHKIEEKCKCRKPEPGLLLKAGEEHDLDLENSVIIGNSDMDTEAGRRAGLKKVIKI;locus_tag=LOCUS_7880;gene=gmhB;EC_number=3.1.3.82;note=O25531 D-glycero-beta-D-manno-heptose-1%2C7-bisphosphate 7-phosphatase (Helicobacter pylori 26695) [pid:40.7%25%2C q_cov:93.9%25%2C s_cov:79.8%25%2C Eval:1.8e-25],MGA_800
sequence08	MetaGeneAnnotator	CDS	24287	25066	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITVITPVHGKYTKYAKMIEEIGQKLNEQTIKPHEWIIVCDKKSQWLKNLKLPSFTIVLVAEKNNISLKRNLALDNAKSEFIFLLDSDQIPESNELLSECIKKCSNDFDLIRIPEKFSNTGNYLKRCYHHLRGLYWTKNNEGIPRFVRSNLVKDLRFDPEMLHFEDKLFFEEIRIKNKEGVTENMIIHNEDFELYSNLRKVRIAHKQSKIHKIKPSFRLNPSIIIKETPISLLPGVVFILGLRTIAKRILPVESGTSR;locus_tag=LOCUS_7890;note=MGA_801
sequence08	MetaGeneAnnotator	CDS	25106	25609	.	+	0	ID=MGA_802;product=acyl-CoA thioesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003975762.1;translation=MEGKTVKDSSIISSHLMLIQDAGNFLVNETGMFRPMVHGGTLMTLVDEIAGMVATKHARTQVATACMDMQFLSPAFAGNRLIVKASVNYTTKTSMEIGIRIEAEDMKTGISTHTNSCYLIAVAIDNEGKPKQVPTIIPETDEEKRRFKEAKIRNDERLQKRKNKPID;locus_tag=LOCUS_7900;note=WP_003975762.1 acyl-CoA thioesterase (Streptomyces coelicolor A3(2)) [pid:42.0%25%2C q_cov:95.8%25%2C s_cov:77.7%25%2C Eval:7.8e-27],MGA_802
sequence08	MetaGeneAnnotator	CDS	25599	26813	.	-	0	ID=MGA_803;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870985.1;translation=MDLKCINCSSLFELDQIIFNCTKCNDLLEVQYDLDEIANNLNPKWRGHPLSVWKYKDFLPIDSNADRITLNEGGTRLHHSQKLASFIGIDKLYIKNEGDNPTASFKDRGMTVSVTKAKQLGAKTIICASTGNTSASLAAYGARGGLKRIVLIPSGKVAYGKLSQAMICGAKVIQIDGNFDQCLEVVMEISNKSDNIYLVNSINPFRIEGQKTILFEIFEQLGHIPDWIIVPVGNAGNISSIWKGLNEFYQLGIINKFPKLIGVQAEGSAPIAEAFSKGVMKVRNIEKPETLATAIRIGAPASWKKALRAIYDSNGLAETVSDKEILEGQMNLAKLEGLFIEPASASPLAALKKLLRKGIISSDEEVVCIATGHGLKDPDVITNFVAKPTEVSADVSKISKIINQ;locus_tag=LOCUS_7910;EC_number=4.2.3.1;note=WP_010870985.1 threonine synthase (Methanocaldococcus jannaschii DSM 2661) [pid:52.9%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:1.5e-117],MGA_803
sequence08	MetaGeneAnnotator	CDS	26813	27751	.	-	0	ID=MGA_804;product=homoserine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496725.1;translation=MKKKKSIIAIGPASSANLGSGFDCFAIALNDLHDIVKITENDTSAVTIKNLGLKTGIPNNPKYHTGGLVALNIIKEFNLSGVDITVKKGVPPGKGLGSSAATAAAVTIALNKLFSLKLNNKEKLRFAASGEIASAGVSHADNVAGSLFGGFVVINSSNHQDIVSFPPPKNLFICIGIPKVKTPAKKTGLARKLIPEKVRFTDAISNVSYASLMVAGFSTGDKYLIGKSMNDNIVEPARSHTIPNYNLLKTELLKIGALGVAISGAGPSVISLLENKKSFNRIKKCFKEQFKSAGYDSSIIFTSIGKGARVIK;locus_tag=LOCUS_7920;note=WP_064496725.1 homoserine kinase (Methanocaldococcus jannaschii DSM 2661) [pid:33.8%25%2C q_cov:96.2%25%2C s_cov:97.6%25%2C Eval:3.2e-42],MGA_804
sequence08	MetaGeneAnnotator	CDS	27880	28890	.	+	0	ID=MGA_805;product=homoserine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871127.1;translation=MRTILIGLGIIGQSYCQLLDNRKKDLLSDYGIDSKIVAVADSKGVAINEKGIEISDILGIKKANKSVSELPIGDKNKTSIDLIKEIDAELLVDATPTNIEHGEPSASLLDNAMKTKKNIITANKGPLALAFSSLVEKADYNNIILKYSATVGGGTPVLEFGRKCLEADRILEIQAILNGTTNYILTEMDNRGLSFDKALKEAQELGFAEADPTLDVDGFDAAAKLVIMGNLLLNRELVLSDLKINGIRDITQKDITKAKDNGNTIKLIASINNVAEVKPISISKNDPMSVAGALCSVKFTSEFAGEEIIIGKGAGGMETASAMIRDLVEIKQNMRV;locus_tag=LOCUS_7930;EC_number=1.1.1.3;note=WP_010871127.1 homoserine dehydrogenase (Methanocaldococcus jannaschii DSM 2661) [pid:39.9%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:6.1e-71],MGA_805
sequence08	MetaGeneAnnotator	CDS	28892	30280	.	+	0	ID=MGA_806;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020190.1;translation=MKIVIKFGGTSVGDGKKIINVCNIVNKLTKDNQVIVVSSALQSTTDQLFDLAQSAKKGEINTELIDDITNRHENAIKFVIKNKEIQMEVLKLTVELIEDLKKTIDGIITINELSNKTLDYILSFGERLAVPIISAKLRDIGLKSKHFTGGEIGIVTDENFGNASPLMKVTQHNVKNNLSNIDEEIIPVVTGFLGVTQQGQISTIGRGGSDFSATLIGMCLNVDEIWIMTDVDGLLTANPKMYPNAKTIPQLSYEEASEMAVMGAKGMHPRALEPAKIAKIPVIIKNTFRPEVEGTRISKEAIVKPNEITKAITSLNGLAMLTVSGLNMVGNPGTAGEMFNMLGRNNINIVMISQSISEANITFLIKHEDLRKALSVLQVSLLGKSAVTDITSDDEVSVISIVGAGMKGTHGVAARLFGAIARGNMNVKMIAQGSSEQNISFVVDESNSKNAIKVIHKEFKMD;locus_tag=LOCUS_7940;EC_number=2.7.2.4;note=WP_011020190.1 aspartate kinase (Methanosarcina acetivorans C2A) [pid:43.7%25%2C q_cov:99.8%25%2C s_cov:97.9%25%2C Eval:1.1e-106],MGA_806
sequence08	MetaGeneAnnotator	CDS	30333	31409	.	+	0	ID=MGA_807;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496420.1;translation=MYKVIIIGATGIVGQQFISALQKHPWFEITCLAASKNSAGKKYIDAIKNENGSIQWFGKEQLNDNISEMIVKNGDEINPLDFDIAYSALETRAASIIEPKFAKHIPVLSTASAFRYEKDVPILIPAVNDNHVSLLEKQKERGWNGFIAPQANCTATGLAITLKPILDKFGIDSVIMTSLQAVSGAGRSPGVPVFDLVDNIIPYIPEEEEKVTREIKKILGNNNGQEIKNVDFNVSATCTRVNVLDGHTESVLVNTSNKAEVEEIIEVMEKFANSISENNLPSAPRKLITIHKDPFRPQPRLDRELEGGMTTSVGRIRKDEAFSNGIKYVLVSHNTRMGAAKGVVLTSEMLVKEKIIKN;locus_tag=LOCUS_7950;note=WP_064496420.1 aspartate-semialdehyde dehydrogenase (Methanocaldococcus jannaschii DSM 2661) [pid:46.8%25%2C q_cov:98.6%25%2C s_cov:99.1%25%2C Eval:7.4e-78],MGA_807
sequence08	MetaGeneAnnotator	CDS	31474	31950	.	+	0	ID=MGA_808;product=AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878644.1;translation=MEKFDEIDIKILSRLIQESNISIPKLSEKIDVNSSVVYSRIKRLVKKGFIKKYTLEIDENLLGYPIRAIIGCNINSRQRENILKNISEIQATREIVEITGRFDLLVWLNVQSLNDLHDLVSQKISQIDGLTHTEIFIEMKREKIPFISKIKPEINGEK;locus_tag=LOCUS_7960;note=WP_010878644.1 AsnC family transcriptional regulator (Archaeoglobus fulgidus DSM 4304) [pid:31.9%25%2C q_cov:89.9%25%2C s_cov:96.0%25%2C Eval:6.0e-15],MGA_808
sequence08	MetaGeneAnnotator	CDS	31954	32667	.	+	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILQRFKDESIKEKIPKKIIKEISRKIKFVEQGVNRIEESSKIKFPDYYVEPYLPVSSTSLEKGNIGALFARTIPIQTNSGVKIIVQLSAPLVAFGLKGTLQAILAHEFLHYIEFVRKFKKMDIISDEIANTLFEAQFADADRIFKPKLIFRDGKKSPQIIRHLKEKFHDHSVDEKLNKKTNEQWIKKGLPVVRVSPTSNITRIPIEVIMRTRFDPLIEQRIKELEESAKKRKKYN;locus_tag=LOCUS_7970;note=MGA_809
sequence08	MetaGeneAnnotator	CDS	32639	33475	.	+	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKNVKNTINEKEKRIILKILKKSTKKLDVEAICVYGSRISGYAKEKSDYDLIVVINNYKEKIRYKYIFNKIDISAIFVDKNEIITDANNASMGEFVIGRLINPYQSLLNETFFKNIEIEYKKRIIKESIEKLQNTYRSLVIYLKIPIEFFLFEKLNLRMRTYPPVKYSYIMTYGIKDNNMEKSLKGFKVAIKKLHDENINYDNGIIRIKINKKINNNLRLNFRVIKRILIHYYIHMRAGRVKINIVIKELFSKINRNKEMEKIPERLANPRCLLEVS;locus_tag=LOCUS_7980;note=MGA_810
sequence08	MetaGeneAnnotator	CDS	33479	33622	.	-	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKECPRCGKGNFLAEHFDRLSCGKCGYADFKQSKKIPAKEAPAKEA;locus_tag=LOCUS_7990;note=WP_010878609.1 30S ribosomal protein S27ae (Archaeoglobus fulgidus DSM 4304) [pid:75.0%25%2C q_cov:68.1%25%2C s_cov:58.2%25%2C Eval:3.5e-09%2C partial hit],MGA_811
sequence09	MetaGeneAnnotator	CDS	726	1181	.	-	0	ID=MGA_814;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064485.1;translation=MPEFAYSFKDYDPVVHVRASGREINMSPKASREVCKTIKGKKLTDAIDLLDFVINLNRPIHFRRHKKEVAHKRSTEKFHAGRYPVKVAKQISLILNEVEYNADFKGLDTSNIRIIHAATHRARTIPGYIPRAMGRSSARNHELVHVEIIAG;locus_tag=LOCUS_8000;note=WP_048064485.1 50S ribosomal protein L22 (Archaeoglobus fulgidus DSM 4304) [pid:43.3%25%2C q_cov:99.3%25%2C s_cov:98.0%25%2C Eval:6.2e-32],MGA_814
sequence09	MetaGeneAnnotator	CDS	1255	1650	.	-	0	ID=MGA_815;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250489.1;translation=MAKEFKYRGYSMQDLQSMSLEEFLKLVPSRQRRSITRGLSDTKKKILDQVDDIKNNSSSKPIRTHSRDLILLPKMLGLTIHTYTGKEFVPVEIKPSMIGHYLGEYAITNKKVQHGTPGIGSSKSSLYVPLK;locus_tag=LOCUS_8010;note=WP_011250489.1 30S ribosomal protein S19 (Thermococcus kodakarensis KOD1) [pid:62.8%25%2C q_cov:98.5%25%2C s_cov:97.0%25%2C Eval:1.9e-44],MGA_815
sequence09	MetaGeneAnnotator	CDS	1654	2397	.	-	0	ID=MGA_816;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875647.1;translation=MGKRILSQRRGYGGMRYRSHNKGKIAPALYPFIDSSNTTLGIVKDLLHEKGRAVPLAKISFNDKIYYIPAVNGLKVNQKVSIGSESIVEIGNILPLNDIPEGTSICNIERTHGDGGKIAKSAGTSALLYSKTSAGSIVRLRSGKSIVLQKNCRATIGSLASTGVKEKPFLKAGNKARYAKAYGILHPRVRGVAMGAHYHPFGGGRHQSPHQSTSTSRNAPPGRKVGSIAASKTGPGRAKRRSRISVV;locus_tag=LOCUS_8020;note=WP_010875647.1 50S ribosomal protein L2 (Methanothermobacter thermautotrophicus str. Delta H) [pid:47.7%25%2C q_cov:96.0%25%2C s_cov:100.0%25%2C Eval:4.0e-52],MGA_816
sequence09	MetaGeneAnnotator	CDS	2400	2666	.	-	0	ID=MGA_817;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250491.1;translation=MRPDQAASIILRPYVTENTFDSIERENKLVFLVKDDATKQTIKQALSILYEVKVKSINTAQTIKGKKAFVTFDESSAALDLATKLGVM;locus_tag=LOCUS_8030;note=WP_011250491.1 50S ribosomal protein L23 (Thermococcus kodakarensis KOD1) [pid:47.5%25%2C q_cov:89.8%25%2C s_cov:93.0%25%2C Eval:1.5e-12],MGA_817
sequence09	MetaGeneAnnotator	CDS	2656	3456	.	-	0	ID=MGA_818;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250492.1;translation=MMLSVYDLDGNEVEKIELPKIFSTPYNPRLIKRSVLAIQSHSLTPNGSDPLAGERGSTESWNTGRGISRIGRIKSHSGPRAGSAAGVGGVTGGRTAHPPVSSKNIYKKLNKKEKTAALVSAISASMNKELVINRGHKIDNLSHFPLIVVDDIESINRTKDIKLTLINLGLNDELNRLSNVRLRSGKPRLRGRSKKVKKGPLIVYSQDFGIKNACQNLLGVDLVEANNLTVADVAPGNEAGRLIVWTKNSFSNFSNNVNKVVEINAS;locus_tag=LOCUS_8040;note=WP_011250492.1 50S ribosomal protein L4 (Thermococcus kodakarensis KOD1) [pid:42.3%25%2C q_cov:92.9%25%2C s_cov:95.7%25%2C Eval:1.7e-51],MGA_818
sequence09	MetaGeneAnnotator	CDS	3453	4457	.	-	0	ID=MGA_819;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875644.1;translation=MGRKHSSPRRGSLAFRPRGRHGTLHARIRNWPSIKLDEPKLLGFMGFKVGSLHVMTVDSYDNSPTFGKTIFNHSTVLSCAPITVVGLRAYQNTIDGLCVFSEAYADKLPKELLRKQKFHSDTDSNIKKIQDNLESIHKLSAIISVPPKQAGLSQIKPYSFEIDIGGGTIDAQFEYLKNILGNTINISDIIKPGMLIDILGVTKGKGWQGPVKRFGIKKKQHKSRKTVREVGTVGAWSPANIMYTVPRAGQMGFHQRTEYNKKVLLISNEKEHSINPNGGFTHFGLIPGDYIIIKGSLPGPVKRPVTLRYPMRPTSAKLSVPKILQISTQQGEFE;locus_tag=LOCUS_8050;note=WP_010875644.1 50S ribosomal protein L3 (Methanothermobacter thermautotrophicus str. Delta H) [pid:41.7%25%2C q_cov:97.3%25%2C s_cov:97.6%25%2C Eval:6.1e-71],MGA_819
sequence09	MetaGeneAnnotator	CDS	4539	4811	.	-	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSETGKGTKSEKNSKKNLNDDLGHGVFLPDVDESNLKQVFGSTQAITIYETSRILNINASIANKFLFDLESKNLITRVGGYSGHYVWKLI;locus_tag=LOCUS_8060;note=MGA_820
sequence09	MetaGeneAnnotator	CDS	4900	6651	.	+	0	ID=MGA_821;product=putative DNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67398;translation=MEYSIVAQAYDNMEKTRKRLELLEILSELFTKTPINVIEKIVYLTQGKIKPDFYGVELGMSDKLVIKSLEKTTAMSKKKIEEQYNKTGDLGEVTRITLSEKVQTTLVNHKLTVERVYKTFEEISNTTGQGSIEMKVAHLSGLLSDCTPLEGKYIVRTLTGILRLGIADYTVLDALAVTFTGNKTNRKHLERTYNISGDLGKVASVVANKGLDALREINIVVGNPIRPMLAERLSSAEEVMEKIGENVSLEYKLDGERLQIHSKKECIKIFSRRLEDITNHYPDVLKIINEIDVENIIVEAEVVAIDKEKGSFLPFQELMHRRRKHKIEEAVINYPVSINLFDIIYLNNEDLTNMSYKERRNILRDIASKNNQLNIVKQKIAKSSEEIDNFLEQAIEEGCEGLVIKDLKGVYRAGAREYLWIKLKKEYKSEMSDTLDLVIIGALYGRGKRANTYGALLLAAYDKKYDVFRSFCKVGTGFSDENLKIIYEKLQNSKIKNKHATVDSKMEVDVWFKPNLVLEISGSEITISPIHTSNINEIRKNFGFALRFPIFTGRIREEKMPQDITTTVEIRNEYEKQLKRVKK;locus_tag=LOCUS_8070;gene=lig;EC_number=6.5.1.1;note=O67398 putative DNA ligase (Aquifex aeolicus VF5) [pid:45.5%25%2C q_cov:99.3%25%2C s_cov:99.1%25%2C Eval:3.3e-148],MGA_821
sequence09	MetaGeneAnnotator	CDS	6684	7355	.	+	0	ID=MGA_822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLNSTMFSVDSEDKARGKTYGDLLDESRKVLSSSRELSNVFKSVIDNDVKQVDATIKKIGEAEDEVEGFRRSLTRELREVGNLLIKREELLETGQQIEEIAGYISGVAFRLSIIDYKSVKKANVKKLFEELLDMIIDLVYRLNEMVRSLSNNPSHVDEVGEEMQQIERKIDLKYRNLVKIIIKEVTGVKEMILLKDAAEHIEEMADRCLQASDSIKIIAIGL;locus_tag=LOCUS_8080;note=MGA_822
sequence09	MetaGeneAnnotator	CDS	7357	7917	.	+	0	ID=MGA_823;product=tRNA-intron lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978320.1;translation=MATKVFRGELVENRIVIWNIKSSKQIFGTGYFGKPLGVQKPKGTDFDAPLILDLIEGYYLVLENKLSIYDTVSRKRVSKKKLIEKCENEYILFKEKFMVYKELRAMGYVVTPGIKFGSDFAVYEHGPGIDHAPYIIQVVLPESNITSTGIVLAGRLATTVKKKFIIAVVDESKNEVEFLAFDWWRA;locus_tag=LOCUS_8090;EC_number=3.1.27.9;note=WP_010978320.1 tRNA-intron lyase (Sulfolobus tokodaii str. 7) [pid:39.5%25%2C q_cov:94.6%25%2C s_cov:97.2%25%2C Eval:1.2e-32],MGA_823
sequence09	MetaGeneAnnotator	CDS	7954	8742	.	+	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978333.1;translation=MKDNLVEENDFVLFYLSPKKKWLVQVVMEKQIHTHAGFIEPKDVIGKEYGQKILTNTNKEIYLLYPKLNDFILKSKRATQILYPKDMSIIVGWTNLCSGKNVIEAGTGSGSLSCFIANLIRPSGHLYSYDNREESYRIAKKNIDKAGLTQYITLINKDVKLGIEEKNMDVAILDLGDPWTLIEAMKNSLKPGGSLASVSPTINQVEKVVIELQKQGFIEIETLEILMREMEVREGKTRPSMRMIGHTTYLTFARKSLDIVKV;locus_tag=LOCUS_8100;note=WP_010978333.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:35.6%25%2C q_cov:96.6%25%2C s_cov:98.4%25%2C Eval:1.6e-46],MGA_824
sequence09	MetaGeneAnnotator	CDS	8762	9343	.	+	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKADLVEDISFFLYLIPVTVYLVYTVYNLTILNITYVDNYLSVARNPIWFVLSLLAISISFIFQIQSVNKDERQKILSIHSKRMRMIGIVIIVLSLAEAILVSDVQTNPTGLFLTARFPILFTSIMFLQSAFIQIPFSLQTKEKFTRNSLSSILIIAGPITYYIGDMLNLPFLISLSIALMLVIFGIILFSRN;locus_tag=LOCUS_8110;note=MGA_825
sequence09	MetaGeneAnnotator	CDS	9340	10143	.	-	0	ID=MGA_826;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989984.1;translation=MQELLEKQAFLFDVEGVLCDSIDIETCFPIVPNFINSLKDRDIKIAIVTNISRKPKKIVFNKLKSMNIPIRLEEIYTSGSTTAMIIKETYPNTTCFVISEWGLKKDIEDIGIKISNDDADLVVIGANRNLTFQELNHAMRLVLNGAKLICSGTTTYFKGTYHSDTGYFLGESSIANAISHATSQPIQYIGKPYPEIFDKVLSDLCVPADHAVMIGDNILSDIRGANSFGITSVLTTNDNNVDFSSINDSDKPKYTVKNLEELYNILF;locus_tag=LOCUS_8120;note=WP_010989984.1 haloacid dehalogenase (Listeria monocytogenes EGD-e) [pid:26.8%25%2C q_cov:95.1%25%2C s_cov:96.9%25%2C Eval:4.9e-22],MGA_826
sequence09	MetaGeneAnnotator	CDS	10208	11413	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKSLENLSKDVVNCKKCQLYKSRTKAVPGIGNTKSKILFVGEAPGANEDIKGIPFCGRGGKLLRKSIEKIGIKENEVYITNLVKCRPPDNRRPTQDEIETCKKYLQEEMRLIKPELTILLGKTAISNIHENVLLKENHGKIIEKAGNKYLLTYHPAAILRNPNRINTFLNDLRKIRTIKKQKTTSMKIILKKMKHMIEKTTTDELTTLGEVGKEKDPFKVLISTILSSRTKDEVTLNATKRLFSKYKNAEELLQAPISSIKELIRPVAFYKTKAMKIRQVAKIIYIKNNNKVPDERNQLLKLPLVGRKTANCVLVYGFGKPAIPVDVHVHRISNRLKLVETKTPEETEQELSKITNENYWIQINEYFVRFGQLICKPINPKCNECDFQKTCPYRLNNQK;locus_tag=LOCUS_8130;note=WP_010876402.1 endonuclease III (Methanothermobacter thermautotrophicus str. Delta H) [pid:54.6%25%2C q_cov:45.6%25%2C s_cov:78.5%25%2C Eval:2.3e-54%2C partial hit],MGA_827
sequence09	MetaGeneAnnotator	CDS	11424	12125	.	-	0	ID=MGA_828;product=flavin-dependent thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SJB8;translation=MTIEVLDSGFVEVVDYLGSDLTVVNSARVSFGKRKTTYEDGDRNLVRFLAKHKHYSPFRHMVVQFHVKAPEFVMRQWYKHVVGIETTSSSATKDHAWNELSGRYVPVKDFYKPKVWRQQSPDNKQASGEDLPENINIECLKIFDNFMQNVDEAYKNLLKLGVAKEQARTILPLNQYTEVYWTASFQAIMNFLELRNEKTAQWEIRQYALAIKKLVSDLFPETIKIWSEVHDWE;locus_tag=LOCUS_8140;gene=thyX;EC_number=2.1.1.148;note=Q5SJB8 flavin-dependent thymidylate synthase (Thermus thermophilus HB8) [pid:43.9%25%2C q_cov:94.4%25%2C s_cov:75.9%25%2C Eval:1.4e-43],MGA_828
sequence09	Aragorn:1.2.38	tRNA	12191	12265	.	+	.	ID=Aragorn_6;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0060;note=Aragorn_6
sequence09	MetaGeneAnnotator	CDS	12375	13226	.	+	0	ID=MGA_829;product=formyltetrahydrofolate deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903430.1;translation=MNIADISIIGPDKKGIVASVTNFIFKNQCNIEEVNQNVINNVFFMSIKISFNQRNINKEEFNNGLKKVAKGLGLKSRIFFDGQKRKNMAILVTKEEHVLHQLLISIRKRKLNVNIPIIIGTTNSLEHICKKYKIKFIAIKDQNQSSREEKILKILDKNNIDFIVLARYMKILSPKFVWNYPNRIINIHPSLLPAFPGAMAYMQAFEKGVKISGATAHFVTVDLDQGPIIVQESFKLNKTKSIEEIKRLGKECENKALIKAVALFVNNKLECRWGKVIIKNNRR;locus_tag=LOCUS_8150;note=WP_010903430.1 formyltetrahydrofolate deformylase (Halobacterium salinarum NRC-1) [pid:36.9%25%2C q_cov:96.8%25%2C s_cov:90.8%25%2C Eval:4.3e-48],MGA_829
sequence09	MetaGeneAnnotator	CDS	13245	13577	.	-	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKSSDELINHLIDQGRVKLHKFQPSGRQLWTVVGSLGDQLIFGNEDYCSCKGFYFSLMRKNLSSCYHLKAFKIAKQTQKYSSIEISDSDYKLFFTLLTKSIKKQIEIN;locus_tag=LOCUS_8160;note=MGA_830
sequence09	MetaGeneAnnotator	CDS	13609	14364	.	+	0	ID=MGA_831;product=phosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020802.1;translation=MIELIRILYPHPAMLLSNDNKKYIVISDLHIGFEERFVKQGIAIQSSTEKMQEVLKELIKIEKPDSVIILGDIKDSISTVTKLERIEVPKFFKEIAKLIDVRVIPGNHDGNIKYLLPNNIKVEDIKGIQIDSTGLLHGHTNINKSFKEIDRIIIGHLHPIYNQQNSPLSGYQMWSILKSKKNELFQNDKGDIEVITIPSFNKELTASGFSIHRKNNICPIIRKIKPYIFDAVFLTLEGDIIGDLNSLSKII;locus_tag=LOCUS_8170;note=WP_011020802.1 phosphoesterase (Methanosarcina acetivorans C2A) [pid:26.6%25%2C q_cov:95.2%25%2C s_cov:89.1%25%2C Eval:1.6e-19],MGA_831
sequence09	MetaGeneAnnotator	CDS	14417	15190	.	+	0	ID=MGA_832;product=aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902472.1;translation=MEDLMKPFLKDGKSLLIAYDQGLEHGPSADFDDRNVNPQFIMDIAEKGNFSGVVFQKGCAEKYYKESSGIPLIVKVNGKANLTKGDVISRQVCSVKKAISIGAKGIGYTIYAGSSYESEMFQEFGRIQEEAHDHGLPAISWVYPRGGKISDLGGDSTKETVAYAARIGLELGADAVKIKYPGNSEDFKWAVQSAGKAHVFMSGGPKTNTDEEFLKLVTGVMDAGATGVAVGRNVWQHQEPLEMAKKIKEVIFEGKRL;locus_tag=LOCUS_8180;note=WP_010902472.1 aldolase (Halobacterium salinarum NRC-1) [pid:45.2%25%2C q_cov:96.1%25%2C s_cov:93.2%25%2C Eval:7.7e-54],MGA_832
sequence09	MetaGeneAnnotator	CDS	15216	16235	.	+	0	ID=MGA_833;product=pyrophosphate--fructose 6-phosphate 1-phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O08333;translation=MKVAILTGGGDAPGLNPVIRSAVKVAKENQIEIIGIRKGWAGLVELNHFPLSWEDVKNLHSEGGTFLLSSRTNPIKMENGIKIVSNNLNQVADGLVAMGGEDTLGVANELYKNGINVIGVPKTIDNDLFSTDYTIGFDTAINTTVDAIDRIRTTGKSHERFMVIEVMGRHAGWLAVHSGLASGADLILYPEEKYDIQEICNKIKELKEQGQKSGIIVIAEGAEEKEKSYTTQDKELDAFGHVKLGGVGEKLAKTIEKNTGIETRHIVLGHLVRGGTPSAFDRIYGARLGYGAIKLVLEKKWGQMLTLRGTEIKSMPLEEGVKKLKTVTNDYKDLIRQLT;locus_tag=LOCUS_8190;gene=pfkA1;EC_number=2.7.1.90;note=O08333 pyrophosphate--fructose 6-phosphate 1-phosphotransferase (Streptomyces coelicolor A3(2)) [pid:50.0%25%2C q_cov:96.5%25%2C s_cov:96.2%25%2C Eval:2.8e-87],MGA_833
sequence09	MetaGeneAnnotator	CDS	16331	18079	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKWKTLEHNGVLFPPEYNYQGISVKINDKKIKLTKIQEEMAWAWIKKRETPYIEDKIFIKNFLKDFLDKFEEKYHKLSINDFNFSEIIIIQEQEKKYNSRPEIKKKLAAKRKKRRESLKEKYGYATVNGVKTEVGNYMVEPASIFIGRGEHPFRGKWKRRAEPDEIVLNLGEKALAPICPIKGKEWGKIVHDKESTWLAKWHDQLTNKDKYIWLADSSTIRQEQDKLKYEKAIKLGKSIKKIRNHIKNNLGSSDIKKRKVATVAYLIDKLAMRVGDEKDEDEVDTVGSTTLRVEHVKINGAKIEFDFLGKDSVRWKKTLEEKSTGREWSKEYHSIFLNNMEEFTKGKKPSDTIFDKISSTDVNRFLAEGMKGITAKVFRTYHATNEVIDYLENCGLKSTNDEYMKIYHAKMANLEAAIQCNHKKTPTKNWENSMEKKEDKIRSINQELKKIKSLIKNHNHKCVICDTKLAIDNEKIKCEKEELHKDKVKLRKKLERQKIRIVKEKERINKKHNKIEERLNKMKVKVEVDKKTKEYNLNTSLRNYIDPRIYKKWSEKIELDWNKVYPKTLQRKFQWVEQTERE;locus_tag=LOCUS_8200;note=MGA_834
sequence09	MetaGeneAnnotator	CDS	18085	18615	.	-	0	ID=MGA_835;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011122936.1;translation=MSHIPIGSSAPDFNLKATDNNFYTLSSFSDKKILVVMFTCNNCPFVKAYEDRLIRIQEDYSAKSVSLVAINSNETINYPEDTFEKMQIRVNEKSYNFPYLRDEDQSVASSFGASFTPEIFVFDIKRKLRYHGRIDDNKDKTVVTSNDLRNTLDEILTDKDVTNSETHAIGCSIKWA;locus_tag=LOCUS_8210;note=WP_011122936.1 thioredoxin family protein (Rhodopirellula baltica SH 1) [pid:42.5%25%2C q_cov:97.7%25%2C s_cov:88.3%25%2C Eval:4.5e-39],MGA_835
sequence09	MetaGeneAnnotator	CDS	18702	19802	.	+	0	ID=MGA_836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876182.1;translation=MIPGARKLINRLIPEVTNRKIGDPHIQGEDIEVFSSKKENFRLINKIESPRDIGFVDGGNLELIGAPNFSIQLNRTYSAKWHNDKRILNKRLEFFSATYSTLLVDNQIYYKTIFELDTNQTELRKLLPKEDDLSFSANDRTIMSGNQIADISRVSSIGRRFAEWMNASDLVNVLEENDILMIDGTLQTNFTNESTYLANLRKKARNKGVILCGLSKTSSLQTTTGLSLLGSIDRLAEENNIKREWYYPFAVSRSTDHDVMIFIIKLSRNSDRIFRFEVDRKTFEELKDLQINEIFSTIMKNSNDLSFIGYPYGLIDADNMARVSYDESDEYKGIITSILSQSGASKEFLRHIQAKDAHDILNMILK;locus_tag=LOCUS_8220;note=WP_010876182.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:29.6%25%2C q_cov:96.7%25%2C s_cov:95.2%25%2C Eval:3.0e-34],MGA_836
sequence09	MetaGeneAnnotator	CDS	19885	21450	.	+	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSEIDFVGQVVSGNIAGILIREKNDGKSIELGDLLIIDEDKDNSVILKVFDLSFGSQISPSNMELAAGLSLEEMGGEIGFYDSSLRNYTLANAKAIINITKGEIKIPKVLPKFFSKIRYATKEDLQFISTPPEDPVYLGNIRSGSKVLDDVPVQLNGNDFFTHHVLIPATTGRGKSNLVKTMLWSVLKLGKFGVLVLDAHDEYYGRHELGLKDNQNAKEKLRYYSSDAPVGSNTLLINIKTIAPEHFEGIVNFTEAQKQAIWLFSNTFREHWIERIVLSDVREFEGLVQDTTLAVLQRKLRTSLGIYQKDGEIICDNPVFSMRGGESTLDGITGHLQDGKIVIIDTSKLADQTELLIGSMIASKVFYRYRASKGKGQLVNNCPISIIIEEAPRVLSNDQLQEAGENIYSTIAREGRKFKVGLIAITQLTSLIPKIILSNLNTKIILGNEMSTERRSIIDCAAQDLSEEDKTIASLDKGEAIVSSVFTKFAIPIYTPLFEEIARRESKKSNKDEYELKLD;locus_tag=LOCUS_8230;note=WP_048060840.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:48.4%25%2C q_cov:64.7%25%2C s_cov:96.2%25%2C Eval:1.3e-79%2C partial hit],MGA_837
sequence09	MetaGeneAnnotator	CDS	21462	22748	.	+	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKFAHMADVHIGAHKDKRLIDLEIDAFNESIDICIKEDVKFIIIAGDFFDKPVPELDQVKKIIKKLIELSELSIPVYVIYGSHDYSPGQDSMIDLLEAAKIIIKIYNPKSVDGKIRLEMYQDKETGVKLAGISARKVGLEKEYFEKLDREYLENQDGFKIFVFHSGIEEFKPSFLKGAMDMECIPINWFPKGFNYYAGGHIHKRDEFSIQNYQNIIFPGPSFIGWGTKDYTDVAKGEKRGFYIISCEDDKIIENGIKFIEIKKIEGNFIEFDVTGKRSKQVNDEINKKLEEEEVNDKLVVVRIFGELLSGKTSDIDTIGIRKSLTERNAISPQINRNKLSTKEFQKIRISSEDKLEIEEGLLRENIVNVKAENKLLQGKKGITMAKELLRILKKSPKDSSGKNSTAIQDKITESSIEILELSEIMED;locus_tag=LOCUS_8240;note=WP_010876180.1 double-stranded DNA repair protein Mre11 (Methanothermobacter thermautotrophicus str. Delta H) [pid:41.2%25%2C q_cov:96.3%25%2C s_cov:68.3%25%2C Eval:2.6e-83%2C partial hit],frameshifted%2C insertion/deletion at around 21441,MGA_838
sequence09	MetaGeneAnnotator	CDS	22751	24742	.	+	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKQLVLENIRSHELTEIEFAEGKTLIRGDIGSGKSSIMMSIEAALFGKKLKQLIRKGKENGSIKLIFDIQENNGKTKRYSVIRKLSERTQKGGEIIYHDENKKAIYSADELSIEITRILGINETAKAQEIFGAFVLTRQNQLRQLVEGSTKHDEDTRTTILMKAFGMEVYKFAMDNAERLTKRINTTRIRKDAQIREMPELEKNIKEVSHEIDNKKNNLGSITQLVKTKEANYQSKDNEYNKVKEERMKIIEINTLIASKKNEIKQKKEEILQNDKKKDLKKIKIDETGKTIEQIKKGIENLIPLDELRNKENRLMDQITHLKRDMDRKEDEAKRYEGIREDGKCSTCGREISDISGYDELISTANMKKEDVEKEIIKINEEKESIQKTIEENQRNKDLKRDVEEIDEIDEINKRLNGKVLGLTNEIDEQKTELNKLPDENRLKMLEEELKLVEKEFRDENDRLTIITTQINEQTSNLKEKNQRLEKLKQKKLEMDNLDDINEWLNKYFIGTVQLIEDHVLHTVNYKFNELFKDWFELLVDDTSKTVRVDEKFTPIIEQNKYDQEFDELSGGEQAGMALAYRLALNSLIRQQPTGFRPELLMLDEPTDGFSKEQLTKVSNILSDIENKQVIIVSHNQEFAKLDQIINVTKENDISKIHIQS;locus_tag=LOCUS_8250;note=WP_010876179.1 double-stranded DNA repair protein Rad50 (Methanothermobacter thermautotrophicus str. Delta H) [pid:29.0%25%2C q_cov:72.9%25%2C s_cov:56.2%25%2C Eval:1.0e-47%2C partial hit],MGA_839
sequence09	Aragorn:1.2.38	tRNA	24749	24835	.	-	.	ID=Aragorn_7;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0070;note=Aragorn_7
sequence09	MetaGeneAnnotator	CDS	24937	26148	.	+	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNVYGDNHSEWSTKSPMPTIRTEHTAAIIDDRIYIIGGFDRNGDVINRVEVYDISEDKWIEVKPMPVALHHASATSFENKLYVIGGFINGWNPISRMYIYDAQEDSWIKGESMPTARGALTTQRYDNYIFAIGGMTSLGPTTINEMYDIEKETWVAKEPMPTAREHLASGIIEDRIFVIGGRVQFGANLNNNEMYNIDEDLWENAPAMISKRGGLAAAVIGESIFVFGGESRRSTFDNNEEFNTLENLWSDRQPMPTSRHGLVAISYNFSIFVIGGGTEPGFSMSGINEVFTILEITDELLISEEEENKQEQIGEVVSEEEENKQEQIGEVVSEEEENKQEQIGEVVSEENDPFNSCELVDRCLSPNEQTSSKIIYYLFIVVAGILLLAIILTLISFYKQIN;locus_tag=LOCUS_8260;note=NP_639451.2 ring canal kelch-like protein (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:26.7%25%2C q_cov:67.5%25%2C s_cov:81.5%25%2C Eval:1.6e-26%2C partial hit],MGA_840
sequence09	MetaGeneAnnotator	CDS	26165	27190	.	-	0	ID=MGA_841;product=large conductance mechanosensitive channel protein MscL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870654.1;translation=MVNLSSLLAFNDVIISGIILLLSIIVAYVVDYYSRRTIFRFKTKDNAPLRLPIFLFVISLGLNLLVYINDNLFILQTNYIEVFFRIFTVFIAAILANRIIKSSLADSSVKRKMDLFSLRILQRISTWSISFTCFWIIVALLGYDIGNNLILILVALVSIILAFAIAKDTLGNLISGLIIFIWKPFKHGDYLLVKEKNFSGIITNIGLIFSKLIDNNQNTIIVPNNILLQNKSYVSQDKNYPIIVTYATSNFQYVDKIRRLLIQSAINTTNVEEKPRPIALISDFNNNEVIIELISYTTKYNQLRKISSNIRTNFLKELKASGKINKTKRKSEYFDPEEMIY;locus_tag=LOCUS_8270;note=WP_010870654.1 large conductance mechanosensitive channel protein MscL (Methanocaldococcus jannaschii DSM 2661) [pid:26.2%25%2C q_cov:91.8%25%2C s_cov:91.4%25%2C Eval:2.7e-13],MGA_841
sequence09	Aragorn:1.2.38	tRNA	27304	27391	.	-	.	ID=Aragorn_8;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0080;note=Aragorn_8
sequence09	MetaGeneAnnotator	CDS	27496	27717	.	+	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQIGLALHIAKSGRLIIQCKDKKINGKNIFDKRGNKIAKVSEIIGPIKSPYISAIPLNDKVKRVIGKNVYIR;locus_tag=LOCUS_8280;note=MGA_842
sequence09	MetaGeneAnnotator	CDS	27727	28644	.	+	0	ID=MGA_843;product=transcription initiation factor IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020659.1;translation=MTVQNSESIFCNFCRTPLIGDAERGEYVCPGCGSVGSDRIIDNGPEWKAIDSDDKMKKVRTGAPTSLALHDRGLSTQIGDLVNDRNSMNVKSVERMKKWQQRLRTSSSQERGLANVLGKISEFSRVLNLPDATKETAALIYRKALANGTAKSKSIKGMAAASIYLACRKCNTSKSMKEISIIAGLPKSTIAKYYRLILKEVEQKYVPLHPLQGYISKIVNKAELDSKIQIHAIKMSSQINDTKLTSGKSPAGIAAAFVYISSVMLGEKIPQREIAEYAEVTEVTIRNRTREILERYTIRQIIKTK;locus_tag=LOCUS_8290;gene=tfb;note=WP_011020659.1 transcription initiation factor IIB (Methanosarcina acetivorans C2A) [pid:38.6%25%2C q_cov:97.4%25%2C s_cov:89.6%25%2C Eval:1.2e-59],MGA_843
sequence10	MetaGeneAnnotator	CDS	953	2557	.	-	0	ID=MGA_846;product=tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496733.1;translation=MTQINSTQDEMKKWKTLAKDLGLEESYNVSNLHDIKRHIGKIRYIDRIPSNSELMEILPNNKRKQYLNLLKIKPTKSASGIAVIAVMTKPFNCPHGVCIFCPGGEKIGTPQSYLPTEPATMRALEAEYDPCKQINNRLNQLVKIGHYTNKVELLIIGGTFMNLPFDYQQEFIKSCYDALNGKKSRDLNHAKNLAEKSEIKNVGLSVETKPDWCKQKHIDLALGFGITRIEIGIQTLSDKIYKETNRGHTLKDVEESFQIAKDSGYKIVAHMMPGLPGSNIQKDYEDFNTLFNDPIYKPDMLKIYPTLVVPGTGLYKMYQENKFSPYNTEKVINLLADVKKNIPPWIRIMRIQREISKDDIEAGTNKGNVRELILERMKQNGDECKCIRCREIGLKLLKKKLEINNYDIKIKNMKYDSSGGKEYFISAEETKTESLVGFVRMRIPSRKSHRKEINENTAIIRELHVYGQVVPIGEKDLKSWQHKGTGTELMLEAERLAREELSIKKILVISAIGTREYYRKLGYELSGPYMSKIL;locus_tag=LOCUS_8300;note=WP_064496733.1 tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3 (Methanocaldococcus jannaschii DSM 2661) [pid:44.6%25%2C q_cov:98.5%25%2C s_cov:96.8%25%2C Eval:3.2e-126],MGA_846
sequence10	MetaGeneAnnotator	CDS	2630	3193	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQFYRMVYFVVLLSSFILLYFSNTSITEFESNISDLQSINETNEQYIEQLIQKNQLLSHELTKLKQNNTSLFQEINKLNILFNNPLVTQANLTATQTFSSYEIIVDGNSMSVVNGTITNFGLQDATDVSVEITWWILSDCGCDALPARTELVKLDYIPSSSVYEFEETFPFNFPTFQFLVVDIQWN;locus_tag=LOCUS_8310;note=MGA_847
sequence10	MetaGeneAnnotator	CDS	3344	5599	.	+	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRRVYVSILVAALLIAASLFLTPMVNAQNVVPALGSSRAERNWEFINANSWGHNANPQTQLTSENVHQAELKWIFPIPDADSIGCTTMTFCGTGGIAPPLIVDGNAFYATNYQTIFSVNMADGSQNWYSERTADGDDPDIIGPAVANNRGLNPPGLPVYSLAAHTHSMNYWELNGKGILWLNSFGCTIKGIDATNGDEVFTLKQHCRNVETNSGLYNAQGSHAPVVDRSHNQIIVAVGGHMEGSYGGRAYVAAYDLGACSSFPCEIDATTDAHLNWRFFYQPPNGELFPEEYAAWGQWLIDTCDVGMIEGFDACDVPEDILRWDWGGIPGTYNEKTGMPYNAGVSNIWGQVVIDEENGKIFFGTAQPGPDFNATYTRGPRLFGSAIVALNSADGTLAWYFQSTTKDLWDMDCSWNTTLMDIDGRRTVIKQCKQGHVHAFDANTGEVLWITEVPGVRFSKYYCNAACDNAAGPANGLHGRGVLHSQALGIDGLNANNNWFFLDPRSQADMDKPTQWHPSTEPHWQNPNGSGCAENDIAFDGNNIYVSCKNEPAYFKILPQEQRWGSFWGGFIENHIDDAPFPPQRNHSVTAINARTGAVEWDFFVDTVTHRGGMVASGGVVYWNGFDGKLRAVAADDGELLHMFNLGSALDTQPTIGQDANGKTLLLQSFGGRGLGGENLRGSVPGAIMAFGLPDDLPEGVSREVEVREIVVTETVEVETVSPISYVVIGLGVILVVVSGVLYSRSRQTTT;locus_tag=LOCUS_8320;note=WP_011104907.1 glucose dehydrogenase ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:32.9%25%2C q_cov:18.8%25%2C s_cov:19.9%25%2C Eval:1.2e-12%2C partial hit],MGA_848
sequence10	MetaGeneAnnotator	CDS	5702	5998	.	+	0	ID=MGA_849;product=ATP synthase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979479.1;translation=MKIVALGSRAFVSGFMLSGVNGMPVSDSSSALQKVKSLVNDKEVGLILISNDIFESIDDEITDIRSAHPIPLIYQIPNPGSKMEEVDYRALIKKVLKM;locus_tag=LOCUS_8330;note=WP_010979479.1 ATP synthase subunit F (Sulfolobus tokodaii str. 7) [pid:29.5%25%2C q_cov:96.9%25%2C s_cov:95.0%25%2C Eval:1.9e-07],MGA_849
sequence10	MetaGeneAnnotator	CDS	5999	7141	.	-	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPEIHMNIIELNMVKEINISPNKVDVLIALTVAGCPLAETIKKDVRNELMKFDEINDVNVTTTVMTKEELNKLKINVQKNKSVPQSQDDLIARLDKKNNENLIAVVSGKGGVGKSSITAMLASELKRSGYNVGILDADVTGPSIAKIFGVNKRIMKGKNGIIPAETKSGLKLISVNLMLDNPEMPTVWRGPIINNLIRQLYSDVDWGNIDYLLIDLPPGTGDAPLTVFQSLPLSGIVLVSTPQDLAKMIVSKSANMARMLKIPLLGLIENMAYLNCKHCGENSYIMGKSKSEEFAKRLDTELIAALPFETDIPELCDTGKIEEYKNKEIIKCVEKIKNIINEQKDKMAIESIVNIAGGNISSAWNKSDQQKKKFKLTPV;locus_tag=LOCUS_8340;note=Q2RHY3 iron-sulfur cluster carrier protein (Moorella thermoacetica ATCC 39073) [pid:48.3%25%2C q_cov:63.2%25%2C s_cov:86.0%25%2C Eval:2.4e-66%2C partial hit],MGA_850
sequence10	MetaGeneAnnotator	CDS	7314	7916	.	+	0	ID=MGA_851;product=V-type ATP synthase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868883.1;translation=MNDNSSTKIILDEVSSDAEKEIESILKTGLDEAYKIIEDFELKSKNEQLVIDSQQEKEFDIKSRQIIGAAEMQSRNSNLKLLEKNINKVFDTALQQFNKQKGKNYDKALELFINEGINSIDDDEILIFCNKTDIRMVQNLINKISSKSKKNLQLSDDSLKTLGGVIVTSFDGTVSVNNTIEERLDRMRAELRTDIVKKFN;locus_tag=LOCUS_8350;EC_number=3.6.3.14;note=WP_010868883.1 V-type ATP synthase subunit E (Pyrococcus abyssi GE5) [pid:23.3%25%2C q_cov:96.5%25%2C s_cov:97.0%25%2C Eval:5.7e-18],MGA_851
sequence10	MetaGeneAnnotator	CDS	7922	8533	.	-	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKMLNRRELTASILFSSIALVLHPPFLPLGIPAPYAPFLIYQIWEIPLFICLFLFGPIAAIVAGIINFLSLLVFFPGQLISGPVYNLIAIYATYCGVLLFKKIKIINNLQNTERNILSVNFILLIILTIIFRTSTMTIVNYIALPMPPPIGFSIPMEIIPTTLGLIAIFNSTTIIYSIPIAYIITQLVGKSTSIQTWILKN;locus_tag=LOCUS_8360;note=MGA_852
sequence10	MetaGeneAnnotator	CDS	8594	9103	.	-	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTKIIALILLVAIGLGAIVFILPDSPDNNQEIIEKRDSIEENVKPPENKPEEIEEKVDEVEEKVDDEILSGQVDIVLDNLQFNPSVITIKKGTTVTWKNVDRTIGGSGGAVGWHNVVEGPVGKRGDHIFKSSELNVNAGFSYKFEEVGEFVYHCQPHPTMTAKIIVVD;locus_tag=LOCUS_8370;note=YP_001705377.1 hypothetical protein (Mycobacterium abscessus) [pid:33.3%25%2C q_cov:53.3%25%2C s_cov:48.1%25%2C Eval:1.4e-07%2C partial hit],MGA_853
sequence10	MetaGeneAnnotator	CDS	9244	11034	.	+	0	ID=MGA_854;product=ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250553.1;translation=MQAKGKIIWISGPAVKADGMSTAEMYETVEVGKDKIVGEIIRLTGDTAFIQVYESTSGLTPGEPVVGTGNPLSVTLGPGMMGTIYDGLQRPLDKIAAKAGSFITRGIHVPPLPKKKWNFIPEVKVGDTIHGGSILGSVKETDLIDHKILVPPTQFSGKITEIVKEGSYDKDHVIAIVEKKGTKSELTMHHQWPVRKARPFTQRYDPELPLITGQRVLDTFFPISKGGTGAIPGGFGTGKTVTLHQIASWSDASVVFHIGCGERGNEMTEVLIKFPELKDPKTGKSLMERTVLVANTSNMPVAAREASIYTGITMAEYYRDMGYDTVLVADSTSRWAEALRELSGRLEEMPAEEGYPSYLASRLAEFYERAGRVKCLGSPDRDGSVTVIGAVSPPGGDFTEPVSTHTMRCIKTFWALDTKLAYSRHYPSINWMTSYSGYSESIDKWWVDNVDKDRPKLRLETYTILQREDVLKEIVRLLGPEALPDEEKLILDVARMIKEGFLQQMAFDKVDRYCNPDKQVKMLRLYTDFYKESQKALKNGATVDEIRSLHIVSQIIRSKYEISDDELDKMDELSKNMFKSFSDLSNKEVAAVVNTK;locus_tag=LOCUS_8380;EC_number=3.6.3.14;note=WP_011250553.1 ATP synthase subunit A (Thermococcus kodakarensis KOD1) [pid:60.2%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:2.0e-201],MGA_854
sequence10	MetaGeneAnnotator	CDS	11018	12415	.	+	0	ID=MGA_855;product=V-type ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869712.1;translation=MSTQNRSAGLEYTNISEIKGPLLIINGVTNSAFDELVEITTPSNEKRLGRVLEIGGGTAVVQVFEGTSGLSIANTKTRFLGKTMEIPVSDQLLGRVFDGLGRPIDGLPDPIGEKFLDINGESINPERRDFPEDFIQTGISSIDGLNTLVRGQKLPIFSGAGLPHNLLAAQIARQATVPGKGEEFAVVFAAIGVQNSEAAFFRKSLEESGAIKRSILYINLADDPAIERIITPRVALTAAEYLAFEKETHVLVIISDMTNYAEALREISAAREEVPGRKGYPGYLYTDLATIYERAGKIKGKNGSLTQIPILSMPSDDITHPIPDLTGYITEGQIVLGRDLHRKEIYPPVSILSCLSRLMKEGVGEGKTRKDHQNVSSQLYSAYSRALELRALAEIVGKAGLASNDIKYLEFGDLFEDKFLKQGFDENRTLEDTLGIAWNLFITLPIDELTKVKQDEIDSYLKVDE;locus_tag=LOCUS_8390;EC_number=3.6.3.14;note=WP_010869712.1 V-type ATP synthase subunit B (Methanocaldococcus jannaschii DSM 2661) [pid:62.3%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:9.2e-167],MGA_855
sequence10	MetaGeneAnnotator	CDS	12415	13047	.	+	0	ID=MGA_856;product=V-type ATP synthase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979483.1;translation=MSSSNKRPPPTKIELIKIKRSLVVAKSVYKILEDKRDVLLKNIDEMIDEAGKARNEMSEPLSNAYRSLFNAYMSLGPSKLESIAFTSPPHIDVDVDVKVVVDVRIPTISINEKKIGLNYGFADSDSKLDDATQMMRLALPRILRAAEYENSILELARSLEKTQRLLNALDYVIIPGYTESINYISSILEEREREDFARLKHVKKILESKR;locus_tag=LOCUS_8400;EC_number=3.6.3.14;note=WP_010979483.1 V-type ATP synthase subunit D (Sulfolobus tokodaii str. 7) [pid:33.7%25%2C q_cov:98.6%25%2C s_cov:96.3%25%2C Eval:1.2e-29],MGA_856
sequence10	MetaGeneAnnotator	CDS	13054	13179	.	+	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNEDYKTLIKKIKEEYESYLSALKKEVISAKDKAYKELGK;locus_tag=LOCUS_8410;note=MGA_857
sequence10	MetaGeneAnnotator	CDS	13193	13495	.	+	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKTSLLLITIISTIFLQFLPIAYAQEESSVAGEKYLGAGIAFAGAALGAGLAVGRAGSSALAAAAENESMMTNGLIITALGEAIAIYGIVVALLIMGS;locus_tag=LOCUS_8420;note=MGA_858
sequence10	MetaGeneAnnotator	CDS	13498	13713	.	-	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNKIKKKTFRIIPTMLIVILVMFGTLSGIYLSEIIDNPISIILPFILSTIGLIAAILLIIKLSKIINKK;locus_tag=LOCUS_8430;note=MGA_859
sequence10	MetaGeneAnnotator	CDS	13715	14173	.	-	0	ID=MGA_860;product=aspartate carbamoyltransferase regulatory subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868441.1;translation=MSEKELRINRIKHGTVLDHIESGKALNVLSALNIKGTDGNQVSVAMNVFSKQFNKKDIIKIENKILAVEETNRLALIAPNSTINIIKDYKVTEKRNVELPKNFKGVFRCTNPTCISNSNEPIISELTVINKYPPKLQCKYCTRISLPEELMT;locus_tag=LOCUS_8440;EC_number=2.1.3.2;note=WP_010868441.1 aspartate carbamoyltransferase regulatory subunit (Pyrococcus abyssi GE5) [pid:48.0%25%2C q_cov:96.7%25%2C s_cov:96.7%25%2C Eval:1.1e-34],MGA_860
sequence10	MetaGeneAnnotator	CDS	14239	15165	.	+	0	ID=MGA_861;product=aspartate carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762814.1;translation=MKNPFYNRDIVSIKDFQRIELEYLFQFADKINTNFPVGSLNDKSIGLIFFEPSTRTRLSFESAMNSLGGRSIGFGDLSFTSTEKGENLTDSLSTVDKYVDAIVLRHTSEGVSRYASEICDNPIINAGSGSEEHPTQAMLDVFTIIKECGKVDGLNIAIFGDLKYGRTVYSLLYALSKYKPNIHLVSPELLQLRQDPLTQLQENLNISIHENLSDIISNLDVIYTTRIQKERFPDLQEYERVKGSYRIDEELLTNAKDNLILLHPMPRSGEIPNNIDNTKFAKYFHQITYGKLIRATLLYLIFTEDPSF;locus_tag=LOCUS_8450;note=WP_011762814.1 aspartate carbamoyltransferase (Pyrobaculum islandicum DSM 4184) [pid:50.5%25%2C q_cov:95.5%25%2C s_cov:97.7%25%2C Eval:1.4e-79],MGA_861
sequence10	MetaGeneAnnotator	CDS	15162	17564	.	-	0	ID=MGA_862;product=ribonucleotide-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545329.1;translation=MEINETLSKNIIKVLKARYLLKFDDGRQERPDELFRRVANAIAIADNEYKDFNNEESEEIFYKMMKSFEFLPNSPTLMNAGAQLGQLSACFVLPVNDNTSSILDAVKTQAIVQKTGGGTGFSFSNLRPEGDQVGSTGSVASGPVSFMQLFDKCTQVIKQGGKRRGANMGILSINHPDVTEFIEMKKNNMKLPEEAKIMKEFNISVAITDKFMNKLEKNEYHEFINPRTGKEVLKCNKCNKNIFPESEIEIKCKLCDGDGKRIKAKELWQKIIDCAWSCADPGLIFIDKINNSNSNPLREHFTIESTNPCGEVPLLPNESCNLGSINVAKFANKENNDIDWDRLRECSRNAIHFLDNVVTVNKYPTKEIEELSHNMRRLGLGVMGLADLLSKLKIRYGSEESFRFSRKLMKFVSEVAWKMSEELAETRGTFPYWDKSDFAKIGKKVRNVNCTIIAPTGSIGTIANCSPGIEPHFALVFIRHSRIKERSEEFEELHYLNESFSMAIEERDIILDKEKIKEISENGGSIQNISWIPTEIKEMFPISADLPARQHVQMQSTFQEFVDDGVSKTINLPNESTREEVEEAYRLSYKTHCKGITVYRDGCLDIQVLETDKTKNLRNAKLNNKSTHMLPGGYKRPEYLIGRTYRFTYTNSGLFITINKDQNGIPREVFIERGKSGDEEKAAYEGMGRLISIALQSDVDVKSIIKTMRGIQTRNVSWHQTKVGSIAIRSVPDAIAHALADSIHVESEVSEPKVSKIENKVIEIPNKNTNKSKCISCGEMSLIYIEGCNKCLSCSYSSCS;locus_tag=LOCUS_8460;EC_number=1.17.4.1;note=WP_012545329.1 ribonucleotide-diphosphate reductase subunit alpha (Thermodesulfovibrio yellowstonii DSM 11347) [pid:44.6%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:2.4e-171],MGA_862
sequence10	MetaGeneAnnotator	CDS	17860	19962	.	-	0	ID=MGA_863;product=anaerobic ribonucleoside triphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061309.1;translation=MSIGPYRTSKRVRTIYSVIASSNRLDILRILNSKGPLSYSELKTLAGFKSKKESGKFAYHLRKLVKQMLVTLNRAERRYTVTNLGRLILNLTRQIEEQSVIESGKIYVRTSREMMEEFKPDKILQALVKEAGMPVDLAQKMTSEAEARLYKFQTSYLTAPLIREIVNALLIEHGYEEYRHKLTRIGLPIHDVTQMLNQHSRSTNGVDSLVTQTSKAVFSEYLLLNQLSRDVTDAHLSGDIHISNLGVWGLKPDTVFINLNSLPSQGIKVKGKLLNSIHIAQAKNFSESLSNIVLLTTELSKEINVEIAYNNFIDYIINFIDNKISGNIKENIIQMFKMISQVVADNNSPFVSLNLTTTKDTKKDEKQITKVEKIILDSYESYLQTVAIPKITLIIHIGENNDNAEKEELLKKIFTINKKGGYIAINGESKNNFSYSGINKSVIKNTAGGNIVLHSVAINLPRLAYESNKDNTYFRAKVNLILKTAISALSTRRSIIDNMIGKGLLPLLNINTGIISNQKIPLIINLTGLDEAIDNILGTKTTEKERGKLAGKILDTAMEEISNSSKKLGEEFGLSVITDGSGKRFTNIDIEKFGKGRVITKSNSNEYQQSIILDFNEQAKINELYSYIKKYRGGYSIYLDTTNMTMKDFLENYKIISKKIMFFKYCRKLKVCISCALKNTNNTEKCVNCNSTALQEYPVR;locus_tag=LOCUS_8470;note=WP_048061309.1 anaerobic ribonucleoside triphosphate reductase (Methanothermobacter thermautotrophicus str. Delta H) [pid:22.1%25%2C q_cov:87.1%25%2C s_cov:86.1%25%2C Eval:4.4e-33],MGA_863
sequence10	Aragorn:1.2.38	tRNA	20067	20142	.	+	.	ID=Aragorn_9;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0090;note=Aragorn_9
sequence10	MetaGeneAnnotator	CDS	20156	21583	.	-	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILMNKKRLIIIFTLSITLGLIVGTQLINNNIRFQENGSQDSCNIRKENKNRYINEYVIPDHCSAPVAITIDNDGIIWFIENNNSKLVSFNQKNNVFNEYEISNYYSNIKSWSIITIDNEIWFTDHQNNLIWKFNKKNNLFEHYIIPTANAYPVQIINDMNGRILVSEIFGKKIAIIDRDFTLTNTSKGITEIEPPLDLEVLGGIAVDQDNTIWFTMLTWPIEGQLGNYKEGKFNFYKLPEGVLSPVGVAILDNNIWINDHGSNQFVVFNTHNKTYTKFITSPSKTDYTTTLPYWNKFDMNGNLWMNIHQSNTIAKFDTTRFVLIEYDIPTRNLDWGGIANALQFDIDNEGNIWFTEWTENKIGFLDVKKPLEFSIESSTREIEIESDDSGEVILTIEPEKMIEVDIEVSGTFTGNGLLKNISITFEQIDNKFNTKQEIPIKIEPQNLDSGSYTIMLSVRNQEITQSIPVKLIIK;locus_tag=LOCUS_8480;note=MGA_864
sequence10	MetaGeneAnnotator	CDS	21822	22028	.	+	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIVAGKALDSDLVFRIIGLSLVLLGLLSIRYTSTTPTLAPQIIPIYYFISALLVIAGLFGLVSVIRD;locus_tag=LOCUS_8490;note=MGA_865
sequence10	MetaGeneAnnotator	CDS	22063	23106	.	+	0	ID=MGA_866;product=inositol-3-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979254.1;translation=MIRTVILGIGNSASALIQGLEYYKNDNYKSSLWHPVVGNYKVSDIEIVGAYDINKNKINNDISKAIFTSPNNLEKFIEPKDFGIVVEKGILEDELNTNLKSSLQFKTNSVSDFHASLTEKNPDIVLNLISSGLNKTSETYAKISVDVGSNFINSTPTSIATNESIVKNFNDNKLIVVGDDLMSQFGGTAFHKGIMNLMHERGIHINESYQLDVGGGLETNNTLDEDLRKTKRNIKSHTIESELPYEVQTVSGTTDYVDFMGNSRTNYFWIEGESFLGSKIKFDIYLRSTDGPNAGGLLFDILRGIQYSKDMNESGNIEILSNFGFKSTLTKNELRKSYQDFSKKYIV;locus_tag=LOCUS_8500;note=WP_010979254.1 inositol-3-phosphate synthase (Sulfolobus tokodaii str. 7) [pid:33.5%25%2C q_cov:98.8%25%2C s_cov:98.9%25%2C Eval:6.3e-50],MGA_866
sequence10	MetaGeneAnnotator	CDS	23686	24732	.	+	0	ID=MGA_867;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869742.1;translation=MNGRKLFQGCYTALITPFTDDYQVDYEGLANLVEFQISENVSGILVAGTTGESPTLSWSEHEKIIKTVYDVAGEKAVVIAGTGSNNTEESLKVTKFAHNLGINHILLIDPYYNGPSSLEIRKEYLEVIADKFPSLTIIPYIIPGRTGTKLLPQDLAFSYKNYPNINVVKEATGDFENAKLTRKLCGENFSILSGDDDKTVSLIQDPDIKANGVISVASNIVPAAITELVSLVLTNNQNFVNLQKDISPLFKLVGVQTHESTELGTVVVKSRNPVPTKTLMKLFGMPAGPSRKPLGLVTYQALNFILKQAQIVCENSNLFKPIEEFFDLNIQERLYSDIYLKGLYYESY;locus_tag=LOCUS_8510;EC_number=4.2.1.52;note=WP_010869742.1 4-hydroxy-tetrahydrodipicolinate synthase (Methanocaldococcus jannaschii DSM 2661) [pid:36.9%25%2C q_cov:83.0%25%2C s_cov:92.7%25%2C Eval:3.6e-45],MGA_867
sequence10	MetaGeneAnnotator	CDS	24719	25525	.	+	0	ID=MGA_868;product=4-hydroxy-tetrahydrodipicolinate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YGJ4;translation=MNRIKLCVIGACGRLCSTIIQESIDKFEIVGAVEAANNPNIDKTLNDLGIIESDIKITSSEDLSSAIIDADITISATNPQSELLNAPIYVENNKKIIIGTTGFSVEESSQLMSIFDNNVPSIITSNFSIGMNFLYNLSELVGQLPDEFEVSINEKHHSKKIDSPSGTALSLAKIISISKGYKDLIFDRSKHGKRQQSELDVTSERLGGIPGIHEINIAGQYELLRFEHIAFSRAAFARGALVAAIWLHNVSEPHVYSMKDVITKVISD;locus_tag=LOCUS_8520;gene=dapB1;EC_number=1.17.1.8;note=B5YGJ4 4-hydroxy-tetrahydrodipicolinate reductase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:33.6%25%2C q_cov:96.6%25%2C s_cov:98.5%25%2C Eval:1.5e-31],MGA_868
sequence10	MetaGeneAnnotator	CDS	25536	26822	.	+	0	ID=MGA_869;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876948.1;translation=MWKIEFPLKNINGKLSFANINTLNLAKQFGTPLFVTDSERIISNYNLLYSAFSSHYDKFKINYAVKANNNLSVLKLFNSLGSGADCSCPEEIFLAKKMGFSSKDIIYTGNYNSDDQLSYALKQKIIINIDDLSILIRLLKIGTPNFISLRINPGIGGGSDSRLVFGGKDTKFGMSKTAAMNGYLYAKKKGVKKFGIHMMTGSSILDSSYFKKATNKLIDIATEIVEDCKISIDFVNIGGGFGIPYKPPEKSLDIKKVGSDIGKIFNGKKSSKILNNPWLFVEPGRYLVADSTILLTRVHSIKADPTPTFVGTDAGMNTLLRPALYDAYHHIVNASRLNSPNKKIVNVCGQICENTDILAKNRKLGNVKEGDLLAILNVGAYGFSMSSQYNTRPRAAEIMIHKGKSKLIRQRESIKDLIKGQKLVTWFK;locus_tag=LOCUS_8530;note=WP_010876948.1 diaminopimelate decarboxylase (Methanothermobacter thermautotrophicus str. Delta H) [pid:44.0%25%2C q_cov:96.7%25%2C s_cov:96.7%25%2C Eval:3.2e-94],MGA_869
sequence10	MetaGeneAnnotator	CDS	26819	27979	.	+	0	ID=MGA_870;product=LL-diaminopimelate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877916.1;translation=MKFSTRLNSLPPYPFAKLENLISTKRQQGVDLISFGIGDPDLKPPDFVNKALIDGLSIPGNHNYSSSSGEQPFLESISTWFENRFNVTLNPDEEICALIGSKEGLAHVFRAFLNSGEKIAVPNPGYPLYQHGGTILNEFNPVIIDLNEDSNFIPKTEQLQEADFSGIYLNYPNNPTGAVITSSDLNNIVDVCNANGSIIVYDNAYSEITYGDYKAPSILESDHARQNSIEFHSLSKTFNMTGYRIGFAVGNKTLIDGLKKIKNQIDSGSPKFIQYAAKVALDSYINGHPPQEILDNLKIYENRMNLLTNGLLKLGYDVQMPLGTFYLWMKIEEDCESFAMKLLDHGIVVTPGSGFGDAGSNYVRFSLTVSESDISLALEKIPENEK;locus_tag=LOCUS_8540;EC_number=2.6.1.1;note=WP_010877916.1 LL-diaminopimelate aminotransferase (Archaeoglobus fulgidus DSM 4304) [pid:41.7%25%2C q_cov:98.4%25%2C s_cov:97.9%25%2C Eval:7.2e-82],MGA_870
sequence11	MetaGeneAnnotator	CDS	840	1790	.	-	0	ID=MGA_873;product=UDP-N-acetylglucosamine 4-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010920236.1;translation=MKVLVTGTGGMGAHISKVLVDNNVDCSLYGTCRQTEAISKIVDINKIEMHKGDILDSTRLESVIKENGIDHIIHTAGPRATQCRKHDYVNDSETGIRVHTMGTSNVLEASRKLDIKRVIYTSTGSVYLANKIPPPDGTFIKETDSVVPFNSDDIYASGKVACEYQGFNYAKAYGIEFASIRMAHVYGPWPGDMGRGRAVGEMVDAFLNNKEITVEEQMAQWTYLYDLAEEHYAALTSPTLKHEIFNAGSGTISGLTDVKDILAKKGDVSKIHVDTSKKGSKKFPFDMSAAANQLDFKPKYTLESGVGNLIDWYSKK;locus_tag=LOCUS_8550;EC_number=5.1.3.7;note=WP_010920236.1 UDP-N-acetylglucosamine 4-epimerase (Caulobacter crescentus NA1000) [pid:26.6%25%2C q_cov:98.1%25%2C s_cov:96.6%25%2C Eval:1.3e-19],MGA_873
sequence11	MetaGeneAnnotator	CDS	1794	2486	.	-	0	ID=MGA_874;product=putative transaldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66520;translation=MKFFLDTANIDQIKEAKDMGILDGVTTNPTLVSKENKSEHELYSEIIEICKGKPVSLETTSNDTDVIVKQGQEFVNTYGKDVYVKVANTKEGLKAVRTLFDSGINCNVTLTFSASQYLLAAKAGARVVSPFIGRLDDISLDGNMTLIQDIEKIRRNYAFDNEGKPTSEHFPNKAETLVSSIRHPVHVVQAAVMGAPLATMPFKVLNMLFKHPLTDIGFDTFMKDYESVNK;locus_tag=LOCUS_8560;gene=tal;EC_number=2.2.1.2;note=O66520 putative transaldolase (Aquifex aeolicus VF5) [pid:53.5%25%2C q_cov:99.1%25%2C s_cov:97.7%25%2C Eval:1.5e-58],MGA_874
sequence11	MetaGeneAnnotator	CDS	2585	4591	.	+	0	ID=MGA_875;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011142294.1;translation=MLDSKIDELCINTIRFLAVDAVEAAKSGHPGLPMEAAPMGYKLFTQILKHNPSNPNWINRDRFVLSSGHGSMILYSLLHLCGYDLSLDEIRNFRQLGSKAPGHPEYGETSGVETTTGPLGQGFSAGVGMAFAQRYLANKFNTSEHKIIDHKIYAFCSDGDLMEGISSEAAAIAGHQKFNNLIYVYLDNRISIDGNTSLTTSEDIKKRFEAHGWFVQNIEGNKLQDFSEAIKNSKQQLEKPSLIIARTHIGFGSPNKQDSEAAHGAPLGTEETKLTKENLGWPLEPTFYIPDEVKKEFQKTISKGKEYESEWLQIYESYKNINNELASEFENIMKGNLPHDWDKNLPTFNEDEFLATRQASGKTLNVLADNIPAIIGGSADLMDSTNVRIKTSVDSLPDAPYGRNIHFGVREHAMGAIVYGMAAYGGIIPFGSTFLIFSDYMRGSIRLASIMGLRVIFVYTHDSIGVGEDGPTHQPIEQIANLRAVPNLTVIRPGDANETVVAWKTALQTTSGPTALILTRQKLPVLDRKSNNIASSENLQKGAYVIMNSDNSPDIIIIATGSELHLAVEAHKELKNKGINSRIVSMPSWELFEKQSSEYKEQVLPSTIKKRISIEAASTFGWERYIGLEGIAIGMKTFGASAPGNVLMEEFEFNVKNLISTSLKILNK;locus_tag=LOCUS_8570;note=WP_011142294.1 transketolase (Gloeobacter violaceus PCC 7421) [pid:54.0%25%2C q_cov:99.6%25%2C s_cov:98.5%25%2C Eval:3.1e-214],MGA_875
sequence11	MetaGeneAnnotator	CDS	4599	5249	.	-	0	ID=MGA_876;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q746Z3;translation=MKIAPSMLASKPENYVEDVKILEKANVEWFHIDMLDGTFTNTHAFPVEHLKIINNASDFPMDIHLMTNHPIESLPEYIDAGGDMLTAHVEAVNPRKYIDAVKKYDKMVGLAINPDTSLSAIVDYIGELDRILIMTVVPGKTGQSFIEAPLSKVREARMLIDKHHYDVELCVDGGINEKTAPLAVDAGVDVVVSGAGILYKEDMIKAVADLRALASE;locus_tag=LOCUS_8580;gene=rpe;EC_number=5.1.3.1;note=Q746Z3 ribulose-phosphate 3-epimerase (Geobacter sulfurreducens PCA) [pid:31.9%25%2C q_cov:99.5%25%2C s_cov:97.7%25%2C Eval:1.8e-31],MGA_876
sequence11	MetaGeneAnnotator	CDS	5355	6332	.	+	0	ID=MGA_877;product=translation initiation factor IF-2B subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496898.1;translation=MSKSDPINIPTVSGVVDIDVDDAYKQIKDMRIHGAGRIARLAASALKNFVENSKVSDRDQFYNNIIDAGEKLRSARPTAVSLPNAVNIVLASTKKSYNSGESADNIRETTIHRAEQFVHDSLDAYNKIGEYGGKRIRNGDTVITICNSEAAISVLKKAHDMGKGIKIICCETRPLFQGQKTAATLSKHGCDVTIIIDSAVRRFIDKVDRAVCGADAIAINGALVNKIGTSQLAAIAHEARVKLMAAAETYKFYPDTMFGELTEIEERDATEVCSEEYLKAYPNIKVRNPVFDVTPPENIDIIVTEKGIIPPSGASLIIKELIELM;locus_tag=LOCUS_8590;note=WP_064496898.1 translation initiation factor IF-2B subunit delta (Methanocaldococcus jannaschii DSM 2661) [pid:53.5%25%2C q_cov:92.6%25%2C s_cov:96.7%25%2C Eval:1.1e-80],MGA_877
sequence11	MetaGeneAnnotator	CDS	6346	7260	.	+	0	ID=MGA_878;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496966.1;translation=MIIYGGSEGQILATQVAKLLEAKLGQIEITKFPDAEKYVRYHDDVENEDVVLIHPMGLKPDELFIEYLLICSALKDGKAKSITTFVPYFAYARQDSRFNPGEPGSFYLVSKIIDDLGIDMIYTIDLHLQRVNDLSDLIKKTPTENLSAVPDIANWIKNNAELKNPIVLGPDEESEQWAKVAAETIGVDYEIMIKTRYSATEVSITTKEGKPLPVSGRDVVIIDDIISSGGTIIEAVKLVREAGAGKIVVGCTHPVLRGKTPFDSALANIYDSGVSIVVGTDTVPSQVSYVSVADLIAKTVKSKL;locus_tag=LOCUS_8600;note=WP_064496966.1 ribose-phosphate diphosphokinase (Methanocaldococcus jannaschii DSM 2661) [pid:41.4%25%2C q_cov:97.0%25%2C s_cov:98.6%25%2C Eval:1.1e-52],MGA_878
sequence11	MetaGeneAnnotator	CDS	7287	8486	.	+	0	ID=MGA_879;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496567.1;translation=MLSIQDFDIYNKTVFLRCDINSPIDPVTLKILDKSRLVEVSETINALKDCKLIVASHQGRLGKSDYVSMEQHAPVLSELVNKEVKFVPDIFGPTAINAIKNLNSGDILLLENLRFTAEENTEMHPNQAVTSHLVSKLAKYIDYCVLDAFSTAHRSHPSIIGFAEIMPTCAGKIVEREVNALQNIVNDSSIKFTAILGGAKIPDRLKSIQKLIEANRIEKTLLGGLIGNVFLAATGKVPISATSIDDEKLINDAKSLLEKYPDKFILAEDVAIEVNGKRTEKSILELSSSDRIFDIGQETIIKYSQQIDNAQNIFITGPLGMFENLEFRLGTKEILTKLSNTSAKTITSGGHLSAVLSQLNLKNKIYHVSTAGGALIRYLTGEELPLLNALNNSSSKYNK;locus_tag=LOCUS_8610;note=WP_064496567.1 phosphoglycerate kinase (Methanocaldococcus jannaschii DSM 2661) [pid:37.6%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:5.5e-77],MGA_879
sequence11	MetaGeneAnnotator	CDS	8496	8849	.	+	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKEKFPTWLAEEISSAKMKKSETLELTGCLLEINKKENKVDAQFYEQLPDGRHIATLFLQNKKNLKDLELGKEYAFKVIVNKSALSDKAKDYLNKNYLISLDNLYGFELESLTLLK;locus_tag=LOCUS_8620;note=MGA_880
sequence11	MetaGeneAnnotator	CDS	8894	10162	.	+	0	ID=MGA_881;product=3-hydroxy-3-methylglutaryl-CoA reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879232.1;translation=MKKKNSRIPGFYKLNPKDRLNKLKEFSNLSNDELSILESMSGITLHNASKMIENAVGGISIPIGIATNFRINSEEFLIPMATEEPSVIAACSKAASITRELGGFHTKSRDNIMRTQIQLVGITNIPLARKNILEQKSELLKLAKEKTPTLSSIGGGATDIHLKELDTKRGKMLIVEISIDCKDAMGANACNTVAEALAPTIEKLTDGKSVLRIVSNFTTERLVESFATFDKELLGGGEVVELILDASEFAYNDPYRSVTSNKGIMNGITAIAIATGQDTRAIESAIHAYASISGKYLPLTMWEKDSLGNLRGIIKIPLPVGIVGGASSVHPSAKICLKILDVKTAAQLSEIMASVGLAQNLAALRALVSEGIQEGHMKLHSKNLASSAGAKGDLVKKISDIMIKEKNVNFQRAKELINEFNE;locus_tag=LOCUS_8630;note=WP_010879232.1 3-hydroxy-3-methylglutaryl-CoA reductase (Archaeoglobus fulgidus DSM 4304) [pid:52.1%25%2C q_cov:97.9%25%2C s_cov:94.3%25%2C Eval:3.0e-113],MGA_881
sequence11	Aragorn:1.2.38	tRNA	10182	10256	.	-	.	ID=Aragorn_10;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0100;note=Aragorn_10
sequence11	MetaGeneAnnotator	CDS	10514	11272	.	+	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSENQDKFLDKSLALAVRNMKDAGYELHNKISIEVDSDLQFMGYAKMDESNCSIVVADWALDSDMLNGLILHELAHIYYTEINSPSHQADIINEIMNQIIEHEGLSNLEALSLNEGLNHLQNIIVDDIVFQLMNNKRERKLIQNFFVTWMSDQPTGNALLDASLLARNAFALASLKRRNIFSDVAEQMNNKNKQFLSFYTHADKMKFEAFENFLIQFQLDNSNDFEAELMEYSELLINFLRPNNESLETLR;locus_tag=LOCUS_8640;note=MGA_883
sequence11	MetaGeneAnnotator	CDS	11273	12298	.	-	0	ID=MGA_884;product=5-formaminoimidazole-4-carboxamide-1-(beta)-D- ribofuranosyl 5'-monophosphate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869629.1;translation=MTSIATLGSHCSLQVLKGAKEEGFNTVLVTKSSREKFYKRYDFIDEYIVVEDFQEIMNDDIKNKLSKTDSILIPHGTLISEVGIENIEKLDVPIFGNRHILRWEADRNLKTQLMEKSGVSIPKTFNSPEDIDCLTISKLSGARGGSGYFLAKNSEDYYLHVEKFKKQGLMTDDDKLQIQEYIVGVPVYFQYFYSPLKNELELFGIDKRYETNVDGLGRIPSINQNEIELSPTYIVVGNLPLVLRESLLIEVYDIGEDFVTASKELVPPGMPGPFCMEGVYDSSGKFVAFEFSARIVAGTNIFTTGSPYSYLTYGPNMSMGRRIALEIKNGIENNTLNQLIT;locus_tag=LOCUS_8650;gene=purP;note=WP_010869629.1 5-formaminoimidazole-4-carboxamide-1-(beta)-D- ribofuranosyl 5'-monophosphate synthetase (Methanocaldococcus jannaschii DSM 2661) [pid:48.8%25%2C q_cov:99.4%25%2C s_cov:94.7%25%2C Eval:7.9e-98],MGA_884
sequence11	MetaGeneAnnotator	CDS	12295	13389	.	-	0	ID=MGA_885;product=5-formaminoimidazole-4-carboxamide-1-(beta)-D- ribofuranosyl 5'-monophosphate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846248.1;translation=MIDRSILQNQVKSYDNDNISITALGSHSALDIMDGATSENLNTIVVCQKGRETTYKHFHRIINDVITLPKFSDLLNDDIQQSLISKNSILIPHRSLTAYIDYDSIENNLKIPIFGNREMLRTEERNVEKNQYYLLEKANIRYPKLFNKPEDIDRLVIVKVMESTRKIERAFFTASSHKEFTEKAEKRIAQGIINAEDLAAARIEEFVLGTYFNFNFFYSILHDRVEFLGIDRRLQTNLNDFTSLPAKQQLEIDVELQNIEVGHMPATIRESFLEQVFEIGNKFVNSTKKEFNPGMIGPFALQSAITKDFELVVFDVSPRVPGSPVLMMSPYTHYYYGKSFGTGKRIAMEIVEAIKEERLDEVVT;locus_tag=LOCUS_8660;note=WP_052846248.1 5-formaminoimidazole-4-carboxamide-1-(beta)-D- ribofuranosyl 5'-monophosphate synthetase (Sulfolobus tokodaii str. 7) [pid:48.1%25%2C q_cov:95.1%25%2C s_cov:99.4%25%2C Eval:3.6e-88],MGA_885
sequence11	MetaGeneAnnotator	CDS	13429	14148	.	+	0	ID=MGA_886;product=ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966816.1;translation=MISIQNVSKWFGKFKAVNNINIEVKEGEIFGLIGLNGAGKTTTQRMVSTVFQPSEGEIIVNGFNSKKNASEVRKNIGFLPTEVGLYDRLTAKEVVRYFGMLNDIDKEEINDKMNEIFEKLALTEYANKRCAKLSRGNKQKVAIARAIIHQPPVFIFDEPTSGLDVISSRAVLDFVTQCRNDNKTILYSSHSMHETEEICDKIAIIHGGKILKTAPITKLLTEYETLEKAFIAIVKGEES;locus_tag=LOCUS_8670;gene=natA;note=WP_010966816.1 ABC transporter (Clostridium acetobutylicum ATCC 824) [pid:47.5%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:1.3e-60],MGA_886
sequence11	MetaGeneAnnotator	CDS	14196	15335	.	+	0	ID=MGA_887;product=sodium ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986712.1;translation=MRDRRTLFATVIIPILLIPIMTFGIPLLFSNTEVRIVEQTQYIAITNYESSEKFTKLIDNSRSLTVIKIDKPIDEAIRNGTISIGLEIPKDFDQRILEEKSINITIYYDASSRTSNIAYSKVLQVLGSYSSNVVDERLSNREINPQILDPIRVIRKNVATEDEVSGYLLSLILPPLLAIIVATGGMNASIDLTVGEKERHTLEALLVTSASRRDLITGKFLAVLSATLLSIAFIMLSLSGSVSYLSTLSIGQMQIYLTLQTSIIVFGILSLMALMISAMGMAIASFAKSFKEANNYLTPMLFIIVILSFGSYGISIEDVGIIPFIIPILNVTLIIQEVLVNNFNLMHFILTVTSTLLISASMIILASWIFHKESLLFRA;locus_tag=LOCUS_8680;note=WP_011986712.1 sodium ABC transporter (Clostridium botulinum A str. ATCC 3502) [pid:31.3%25%2C q_cov:99.5%25%2C s_cov:95.4%25%2C Eval:2.1e-49],MGA_887
sequence11	MetaGeneAnnotator	CDS	15345	16460	.	+	0	ID=MGA_888;product=proline dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966073.1;translation=MSNIIKARVKKIFSFTKSLKVKPDAILIKNGIEGQLDSTFFYLTGIRSGLFEDCSIIAYPTGKVCLLTSKLEEQSALKTPHIEINTFGTEVEYKELLKKKLSKVKALGMNYNELSYTNYLWIRMLLKNVKNGVNINKPIGEARCIKDEIEIKELRKSAKIASNTFQTIVGSLKESITENQLSSIINHDLEKQGASGPSFQTIVAFGKHTAEPHYAPQNFKLKKNKLVLCDYGARYNRYCSDITRTIFFGKANRSIKEMYETVKQASEIGIKKIKIGVKANEIHNAVEDFINSTKYKGRFIHSTGHSIGLKVHDGASISKKSKLILEEGMAFTIEPGIYIPKVGGVRIEDDIIIRKNKPEIITKVSRELIEV;locus_tag=LOCUS_8690;note=WP_010966073.1 proline dipeptidase (Clostridium acetobutylicum ATCC 824) [pid:33.3%25%2C q_cov:97.6%25%2C s_cov:98.0%25%2C Eval:1.2e-49],MGA_888
sequence11	MetaGeneAnnotator	CDS	16461	17492	.	-	0	ID=MGA_889;product=threonine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083156.1;translation=MLNVNKSMPKSVIAASAGNHAQGTAYAASLLKIPCTIVMPENASPTKVSATADYRASIILSGSNYDESYSTAESIAAKTSTTIIHPFDDPFVITGQGTIGLEIVESLKEVDVIIASVGGGGLISGLCVALKEKYPHIKIIGVQPASVPSMIKSKQNRKPTTVPSRFTIADGIDVKTPGKLTFEIVKKHVDKLITVTDIEIAEAMFLLLERGRIVSEPAGAASVAGLLSGKLSIKGKNVVPIISGGNVDMPLLNKLITRGLISSGRIIRMIVGLRDKPSALKDVLEVIGSRNANILDVQVDRLYKKIGLGPVEVLISMETKSPTHTKELLKTLKQNGFIYRLIE;locus_tag=LOCUS_8700;EC_number=4.3.1.19;note=WP_004083156.1 threonine dehydratase (Thermotoga maritima MSB8) [pid:44.4%25%2C q_cov:97.1%25%2C s_cov:82.8%25%2C Eval:1.7e-79],MGA_889
sequence11	MetaGeneAnnotator	CDS	17782	18519	.	+	0	ID=MGA_890;product=proteasome assembly chaperone family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250847.1;translation=MMDVEIIRRTKVKLKNPILICGLPDSGFVGKISSYHFAKGIRALKFADMYSSHLPAQTIINEDGTIDPLKFEFYYKKGKNDLLIFTGDVQSETAEGQHIISRAVLNFVKTLGCKTVYAIGGLITNNLSVPPKIYGATVSKSLIKDLQGFGIENMKENNIVGMNGILFALSKNVGMKGFGIYSETQGEFPDIMAAKELIHVLSKITGFKPNLRELIREEKHLKYLQKSLESKVNNESEEKIRRYIT;locus_tag=LOCUS_8710;note=WP_011250847.1 proteasome assembly chaperone family protein (Thermococcus kodakarensis KOD1) [pid:23.4%25%2C q_cov:94.3%25%2C s_cov:93.0%25%2C Eval:2.0e-16],MGA_890
sequence11	MetaGeneAnnotator	CDS	18512	18967	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKIVKDLYITELKISNVSNAPFIIDAVGSYPNQFTVTEEILQSWNINPDRTIIGKNLILTLESIKVLDNQTNYLQIERLEKAIRRRYRYLPDQSFVEEIEFIFSCNSPRLKSEPIPCPNYQIKLSIKESEYSELYELPLNTYFKISCQIK;locus_tag=LOCUS_8720;note=MGA_891
sequence11	MetaGeneAnnotator	CDS	18992	20122	.	-	0	ID=MGA_892;product=glycine oxidase ThiO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002456682.1;translation=MMHNEFIILGSGISGICTSYFLEKSGHDSIILDTNNPLYGPGSTIKSAGIISHFFPFPEEIRLVQNSLRFYKELIHSSSEKISYNNSGLLAICPKSDEQQLSNFTTAMTSANVNYYYLDKVELKKTYPMISTPFNEIGIISEDSGYFDINQLFPFLFNYIQTQHNRLFTNVQIKNIQNEHPFRFHTNHGEFTSDKVIIAGGAWSNKIAKLFNCNIKFDIYSTQATILSISRLFNQSISSLPILYKMNSGLYCRPFSPSSFLFGDGTKKYSDDPNNFKFDINESFHKYVLQQANELFPNISINSLQKSWSGLYTSSQDSRPIIGELKDNLFFLGCFNGLGMMLAPGCSKLLVDFVLQNNSSQDYNAFDIQRFNNKNI;locus_tag=LOCUS_8730;note=WP_002456682.1 glycine oxidase ThiO (Staphylococcus epidermidis ATCC 12228) [pid:20.2%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.6e-17],MGA_892
sequence11	MetaGeneAnnotator	CDS	20173	21162	.	+	0	ID=MGA_893;product=daunorubicin resistance protein DrrA family ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979838.1;translation=MEAVRVKNLSKVFNKKIIAINKVSFTVKEGEIFGFLGPNGAGKTTTIKVLTTLLKPTNGEVIVSSFDVVKDSDAVRKSIGIVPQALTLDDDLKGMANIRLAAKLYHVPDKIAKERIKKLLDMVGLSDAAEREVNTYSGGMRKRLELIIGLVHEPKILFLDEPTLGLDIQTRSVIWKYLKNLNKEKGLTIFITTHYLEEADFLCDRIGIINQGKILIEGSPSKLKEKLGGDIIEILVDKPDEVRKSLEQQNIVKKVDINEQNLRIEVEKCDIALPIILELCNSKGIIVRKASITKPSLDEVFLKYTGKSLRDAESTNADNFTKYIMRRRR;locus_tag=LOCUS_8740;note=WP_010979838.1 daunorubicin resistance protein DrrA family ABC transporter ATP-binding protein (Sulfolobus tokodaii str. 7) [pid:48.9%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:5.0e-86],MGA_893
sequence11	MetaGeneAnnotator	CDS	21159	22034	.	+	0	ID=MGA_894;product=multidrug ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979837.1;translation=MIRETWILVGRELEKWYKVPALIFSALIQPIVWIILFGNSFNPTRLISLDNFITPENIPPEVAMAITEFIASASNLILEQSFQGAPNYLTYLTGGVLSTLILFSSAFSGGSVIWDRRFGFLDKLLVAPIPRSSIYFSKVFSTVIKALIQCSLVFIIALLIPSGLVLAELNFTLIFLVFLSLFMLASGFSCIFVAMALRMRKWETLIAMANLVNLPLLFASGALFPISFMPNWLQTIARLNPITYSADLTRTLFITGKVTSNVIFDFQILAVFSITLMLLGSFAARYGLNMD;locus_tag=LOCUS_8750;note=WP_010979837.1 multidrug ABC transporter permease (Sulfolobus tokodaii str. 7) [pid:39.9%25%2C q_cov:94.5%25%2C s_cov:90.1%25%2C Eval:2.1e-53],MGA_894
sequence11	MetaGeneAnnotator	CDS	22077	23051	.	+	0	ID=MGA_895;product=heat-shock protein HtpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980430.1;translation=MKLLKLQLTILGTIGLLIALSTLIFSIILSMLAGTYNIGFVVFLVVIFNGVQWYFAPKFIEKIYKVREIKKTEKITNASGQWIYDTVNRICESTKMPIPKIMYSNIAIPNAFAYGSPRYGNRIAITQGLFDRLELEEIEAVIGHEIGHLKHKDVQIMMVASLLPSILTMIGHSLIWGSIFNRRNSGGVLAIAFAAIIGGFILNLVCMSLGRTRESYADLHCEQHVPDGGRKLQEGLAKISEYTEELRMKKHKDMKISGFNALMISDPDSSHKDIISLHRSKIKLSDRELVEKYAKKEITSKEHLLELLSTHPNITKRLNALGKK;locus_tag=LOCUS_8760;note=WP_010980430.1 heat-shock protein HtpX (Sulfolobus tokodaii str. 7) [pid:32.4%25%2C q_cov:94.4%25%2C s_cov:93.5%25%2C Eval:2.7e-39],MGA_895
sequence12	MetaGeneAnnotator	CDS	541	1332	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINNYFNNVRQISPKIISMLICFIFLFYLLQFVQSSGFGPSETIPDNAEAQISNSPLGFSEADSQILSVNIIMKSEATPFIAPIENQLVEVFWQMVDVNTTEVRTLSVSTSTDENGNGIFELLPGYYTLRVDYNGIKKNESIIITPDEDREINWIISKYSISTYRIEFKDKNNQGVIYPKEIILLVYEEGPQLDKPLVIELYKNSTSASQKISSFTIVNIVNKARASIIEITPNENFIISEFKTESPPEVIMYSIDIENIRG;locus_tag=LOCUS_8770;note=MGA_898
sequence12	MetaGeneAnnotator	CDS	1338	1826	.	+	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQNLISISILMQLMFVIIIALGVIIISGAAYPRIKFKTGKRELDVNDVSFGSNKMYEELNNYNSSGNFNDGIIFVYKLLRNNLSKMESFPNKNHLTEFEIINQTVSKTPELKNISTLIIEAYKKYELARFRAITNSSDLNDMNNITRNMTKHNHYIINTVE;locus_tag=LOCUS_8780;note=MGA_899
sequence12	MetaGeneAnnotator	CDS	1830	2168	.	+	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLLLLSIIIVTSSTLIYSYYYRKNILTDNVIINYSQTFQGLLGIDQQPPNYFEATKILRNEIEEYRVRNDQLLKNDLRFLQIINRELEKGEINYKSFMKMKELHALHVGKR;locus_tag=LOCUS_8790;note=MGA_900
sequence12	MetaGeneAnnotator	CDS	2175	3143	.	+	0	ID=MGA_901;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868720.1;translation=MTIEKAEELFNKIENNISKKIVGKTDEIKLLTIALLSNGHVILEGVPGIAKTLLAKSFADSLELEFKRIQLTPDMLPADITGTFVYNVKEQDFFFRKGPVFGNVILADEINRGIPKTQSALLEAMQEYQVTVEGKTHELQKPFFVIATQNPIEMQGTYPLPEAQLDRFMFRITMDLPSKKDEIDIINKFSTGDIFININSINLDLKKTNNEILHNVKLSNEIKEYIVELLAATRNDSEKILLGASPRATVHLFQASKTLAAINGRDYVIPDDVKSLLFPLLNHRLLLNPDYLIKNTDPSRPYNYDVVKKLISEISTAASPPR;locus_tag=LOCUS_8800;note=WP_010868720.1 ATPase (Pyrococcus abyssi GE5) [pid:48.9%25%2C q_cov:95.3%25%2C s_cov:97.4%25%2C Eval:2.9e-78],MGA_901
sequence12	MetaGeneAnnotator	CDS	3150	4451	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITNRGYLIISAAFVFLTISALANEIQFLTISIFLFSLILVEFGIYLVSLYDFNNIDVKTTTSKSRIFLGDEVLIKTTFTHDGKRGIGQVLMIDHIPTGLLSIEKKSDSIINLKAGTEYSINFRVKSLQMGKWNVGKFTLATTDKFGIFVNKRNIENQCNIGVLPIIRMGKRKAQARIQSGSFPTRAKRDPRGTEFTGIREYYTGDDYRAIAWKQMAKTPQHNPLIKQYEFDQEIGLILVIGNSEFTNDGQIGSRKLDIAIDAALSLGSIVNSSGGKFNVIFSQNSKPTMISGSVYELCNKLYQITPDKKFNVENLMNFSLPFAKQSSLVLFLMDSSYPNLIEPKMFIQKYTDLRNIRTFFFDTSTFHNKKSKNNQNDDAYDLIVKRETKHLKQQVKILRSYKISADICTKTNTSNKLVNSISENRILLESFS;locus_tag=LOCUS_8810;note=MGA_902
sequence12	MetaGeneAnnotator	CDS	4448	5416	.	+	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLLSGLILLGLSFPYIIQFIIYDYQMFVILVLKNIISGNLSSISSFMAFAAIIAYAFRIKRGPGSLQDSLIITTLTMPVVFPSLVMIGIIISQGGQISSEYFRAASDLYLVGITSLVIALPFIGIINQWYNGLNSRGSPFSQIVATMIIFSVINFVFISASFSEEITLASERLKIHGVNIILDGIFAFQLVLNNILQTGNPVIPQNITANVRPYFSPIIGGTVFGISSAFYLYFRLYRKYSEDEKSINSLTKKIPLLELDNLGYISRIIMVGLIINFIIIIGASFFVEAMDLILKSTVLFLMFLFMVGIVSEKTIKRSWL;locus_tag=LOCUS_8820;note=MGA_903
sequence12	MetaGeneAnnotator	CDS	5413	7095	.	+	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIVIFLILISTLIPTTVATQEDPLLIRIGYSPEKLFNSDIGVPSFIQNEDLWIHPNKQINVKLIDPIGNIAINSKIDTHPSLIYKFQNNDHIGTWELNINDKYSYSIELSEQSLSKINHNEEFHLINNTVSINGVFETNFKEIPTSTEVIINKKRQSGLFEIPTSTSIDGNNIRLQISHSQKQNGVEIYVYPFLDAEEQQVEVGESLNIENQNIFVWAEITSEVSLIKNSGKSKFITYIDEEITKTARINLPIINIPSSSLNISLPSLGKSNNPWTIPLKYGRAELSIYLEHDGKLGVERIPIIIMPEKLIINPDRIIQLSAFEKSLLYNTELEISNDLEVEFVLITKINGIDKLLYFSKSPSISKIFVHNRLTNERLNNYELVFSEFIEKAKLNEITYILTQTNKISVNILINSFQVEKSSYEPKLLEIEQNKDVIITTAAGMANIRIFDALGLIEENGEIVISRVDYNNLEEQLVVNWTGNEIQVLLPQGKYLATVDINNVKGMIEFQVEQSENQVDIMLNSFYGISTNIWIFILTTIITIELGFAFMVWKKALNK;locus_tag=LOCUS_8830;note=MGA_904
sequence12	MetaGeneAnnotator	CDS	7099	8223	.	-	0	ID=MGA_905;product=citrate (Si)-synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903548.1;translation=MSTDKNSKGLDDIIVTSSELTLIDGSSGKLSYCGYDISTLTSNCSFEEVIFLLWHGSLPSINELNNFKAKINQNRHIPPQLISLIQQSPKESSTMDLLRTCVSYLSSFDSDLLDTSSDSKMNTSLKLLAKIPTILCYSERIRHNQELIEPNPDLDIAANFLYMLKGKLPDDSFTRIFDKCLIIHADHGLNASTFAARVTASTLSDVYSAITSAIGTLKGPLHGGANEAVMAMLNEIKKPENAQNYILDKLKKKDRIMGFGHRVYKTIDPRAVILCNMSKQLQSDYGGVLYDISMEIENIMDREKNLKPNVDFYAASVYTMLNIPSHLFTPIFAVSRISGWCAQILEQYVDNRLIRPRANYIGYKSRTFIPLKDR;locus_tag=LOCUS_8840;note=WP_010903548.1 citrate (Si)-synthase (Halobacterium salinarum NRC-1) [pid:46.4%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:1.2e-94],MGA_905
sequence12	MetaGeneAnnotator	CDS	8301	8729	.	+	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLRDLILDLSLFSIGLTLTILGSSMYSGRWIIMLIGIIMVIIPIKRSNLGSFSKVQGINEIDIKVEIDKDSCMGVGSCVSIAPQVFKIDEASLKSSFMAYAPLKLLDEHGASNQTILEAAQSCPYKAIIVNNKDNDERIFP;locus_tag=LOCUS_8850;note=MGA_906
sequence12	MetaGeneAnnotator	CDS	8809	9384	.	+	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNRVETEKVATWFIYAAIINTILSLLYVTVFLLPDTIGNGHIPPSGDLFSLSTAVAMFPGTWLLIAFFVHVFVGILGMAGWAGVYFISSRVMNKQTTNKLLARGHLVMTALGVYVTTTFFSLAGFIGGRAMLPETACVVLVDQCMGAGAAIVQTLIKFTVIPTGVGMGLALTGTAIGIINVLITLRQQQ;locus_tag=LOCUS_8860;note=MGA_907
sequence12	MetaGeneAnnotator	CDS	9394	9888	.	+	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDLIETRIISKYFLVLALINTIAAIFFTLPILIPTSGIPLIVGVFPGTWLLIAYLLFLIVGVIGMLAWSMVYNLIESIFQKKNTIKKLAIIHLVFVELAIYGCASTMSFIGWQGGQALRQGLSIASVGFLIEPYVLPTGVFVSLVLLGQLIGVYNIFSTIRMK;locus_tag=LOCUS_8870;note=MGA_908
sequence12	MetaGeneAnnotator	CDS	9896	11455	.	-	0	ID=MGA_909;product=thermosome subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876429.1;translation=MTDDVSNSKFSKLNSTQQNMFMASNILSRMVSSSFGPYGLNKLTLNEFGDVFILKDGQSIFEKAGFEHPVAKILFDLTGSLSNSFGDGTITSTLFFSQLINNAQKNIELGIHPNIIIDGYDAALKEALILLDTMKMPISTLDDWQNIVFTYLSSKFSRLESFDLSHLIFKALFSIDPTFTSQYCTDYVDILGLGGKSINESLLIDGILFDADVLSSQMPQSITDGKIAIVQSAMSIDKGVFEKQIELHDPESLNAFLHSEKKIMFDMVDYVVNSGANVLFSHKTIDDLTTQRLSRAGILTVKRVPLKKIEMIERSTGCTMVRTPQDLTKNALGYSNSVKSVQLLDKNWILIEGGHLHKANTLLIRSVNQRLGDSFEDLMKRSLTLLRKTIINPYFVFGGGSIEIDISKKLHIFSTKLANLDRITVKSFAESLEYIPLVLASNSGMNKLDSYVKIRNYQSLDKNFMGVDAFSRKFLNMKNKGIIEPVSLKRQILISATEAAISIIRVLDVYNTSKNNSKT;locus_tag=LOCUS_8880;note=WP_010876429.1 thermosome subunit (Methanothermobacter thermautotrophicus str. Delta H) [pid:30.3%25%2C q_cov:96.5%25%2C s_cov:92.6%25%2C Eval:8.6e-76],MGA_909
sequence12	MetaGeneAnnotator	CDS	11497	12984	.	-	0	ID=MGA_910;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948370.1;translation=MLSNISKSLSEQKWLTLIIVNLATFMAPLDTGIVSLVLPIIARDFKTGIEIAIWVPVIYLIILTVFMTSFGRYSDIHGRKKFFIIGLGIFVVGSFLSGISQTIAELLIFRIIQAIGAALLLVNSRAIITDVFPPEERRLAMSIHVTVIYIAIASGPALGSIITEYIGWRNVFFLNIPLGLCLIPITYSKLIESKQSLSKSMDWLGSALFALTLSTLLVAITFGPKENWTTIDAYIEQIYLPLFGNFHLWSRISISIPLLILPILSLVFLILFVIVESKVKYPILDLKMLRHNRLFLSTNLSALFVYTAHFNSIVLFSFYLQLIRLFDPIEAAFMISAFPITVVIVSILVGKYSNLISSRDLSVLGMSIIAIALLLMSRIDLSSSILFIEISLIILGIGLSLFAAPNTNANLSSVPPDQRSLANGMLGTMRHMGQSLSLAIGASVIGIFLSTDIYNVGGSISATQYVQGLSQSFLIGALIAIVGISFALIRGKDPT;locus_tag=LOCUS_8890;note=WP_011948370.1 MFS transporter (Clostridium botulinum A str. ATCC 3502) [pid:29.3%25%2C q_cov:94.1%25%2C s_cov:91.2%25%2C Eval:6.7e-54],MGA_910
sequence12	MetaGeneAnnotator	CDS	13069	13668	.	-	0	ID=MGA_911;product=proteasome subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762506.1;translation=MAIPYQIPGATAVGLTFDKGVVLGAEKRVSYGTHITSKSAKKLFTITDQVAAAAAGMIADMNILVREVSAHVRIIELETKQPVTPNSIAKLMSVIMYQQRWFPLLTQVILAGIESKPSIYVLDPLGSVIPDDYATVGTGAELAIGVVESGYKKNMQEKEAKDLVIKSIRSAINRDAASGDGIDLLILDNNGIREESFKT;locus_tag=LOCUS_8900;note=WP_011762506.1 proteasome subunit beta (Pyrobaculum islandicum DSM 4184) [pid:46.6%25%2C q_cov:95.5%25%2C s_cov:94.1%25%2C Eval:5.4e-45],MGA_911
sequence12	MetaGeneAnnotator	CDS	13704	14729	.	-	0	ID=MGA_912;product=RNA 3'-phosphate cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978549.1;translation=MLRIDGSHGEGGGQILRTAVSLATALETSIEVYDIRANRPKPGLRPQHLSSIQSIANISQAETSGLFLNSTKITFFPNKIISQDMKIDIGTAGSIPLLLQSLIQSICISGKTYNFSILGGTDVNWSPSADYFRRLVIPILKTLGFLVSISIPKRGFFPRGNGQINLEIKSPKTLNALSLNNPAYEDITIDSISTSDKKNFAQIQCKSAQKFLEKHGIYPNSINHSVCDSSSSGSVICISSCSDKSFIGSDALTNNDITAEQLAILSSKKFLFEYNSNCTIDHHLADMVIPLLSLSKEPSAFLTSSISSHLQTNLEISKLLTGMTYKISRKNKFCYSVSINP;locus_tag=LOCUS_8910;EC_number=6.5.1.4;note=WP_010978549.1 RNA 3'-phosphate cyclase (Sulfolobus tokodaii str. 7) [pid:34.6%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:7.5e-48],MGA_912
sequence12	MetaGeneAnnotator	CDS	14786	15292	.	+	0	ID=MGA_913;product=nicotinamide-nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249022.1;translation=MRIGILIGRFQPLHKGHVEAISFSLQYSDKLFIVIGSSEKSNQKRNPFTFEERKNMFKLVINFRSMNNKAIKIVPITDAKNHLEWIKSINNAIGDYNVIFTNDELTEKLFKKQNVEVINVPLLEREELSGTEVRKRLELDKDWQDLVMPIVAEYLVKINASDRIKSII;locus_tag=LOCUS_8920;note=WP_011249022.1 nicotinamide-nucleotide adenylyltransferase (Thermococcus kodakarensis KOD1) [pid:32.9%25%2C q_cov:97.6%25%2C s_cov:87.2%25%2C Eval:3.0e-26],MGA_913
sequence12	MetaGeneAnnotator	CDS	15282	16490	.	-	0	ID=MGA_914;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870473.1;translation=MNSFTILKMSNTSNFGTFQKLIMLPGPTNVPIEVTEAMISPSIGHRTSDFSSLMDKVVRKGNILFECDENIVILTASGTAAVEASITNILRKGDQAIVTVCGEFGSRVSEQISGVGASPIQLIADYGDYPSLSDLERALETNPDTKAVYIVTNETSSGAMCHWLKEAGDLTSKHGAFLIADAVSNWGADKMPLRDYNIDFVATCSQKSIAAPPGLALISISTKYKDQIFKDTQKLHFLNLPRYINFFDKKSQTPFTPALPLYFALDKAFDLMLDEGMDNRYLRHEYCGKAFYDAFEAMGLKLFGVQEVRSNTVISVAYPDGIKDKDFRSSLETQYGVVVAGGFGDYAGKLFRVGSLGMVNQYHVLTTISAIGNNLRRLGFNANLDSALDAAMKNLTNIRSKL;locus_tag=LOCUS_8930;note=WP_010870473.1 aminotransferase (Methanocaldococcus jannaschii DSM 2661) [pid:40.5%25%2C q_cov:93.8%25%2C s_cov:97.7%25%2C Eval:1.1e-75],MGA_914
sequence13	MetaGeneAnnotator	CDS	486	971	.	+	0	ID=MGA_917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIELISNGLTMGKAQSRLTILIISMTTFNAIIFSNLLNGAGQIFINLITFGFVLISEYLLTKQTIESSSNRLILFNQLGAQTRAIISLIISRFIIVGLIGIIFGIIVGSSIAYTINISLNVISSLLHSSIITISILTILGICIGSYLAIIQSFKQNNYFS;locus_tag=LOCUS_8940;note=MGA_917
sequence13	MetaGeneAnnotator	CDS	981	1655	.	+	0	ID=MGA_918;product=peptide ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948859.1;translation=MPLPIIKLLDVRKHYDNYYDHNVFSNINLEINSGQIIAAKGTIGSGKTTLLNLICGIIKPDSGRIYIDRYDITSMSSNNLLSLRANIFGIVPQQHNLIPELTIAKNLELPLIFTGITKNERSVIVNNTLKKIGILSLASRLAGTLSVGESEIVSIARSMVTDPPILLMDEPTEGLDPIISEMILSLIRGDSILNNKTIFITTHDERILNIADKIIHVKENMIYN;locus_tag=LOCUS_8950;note=WP_011948859.1 peptide ABC transporter ATP-binding protein (Clostridium botulinum A str. ATCC 3502) [pid:37.7%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.2e-36],MGA_918
sequence13	MetaGeneAnnotator	CDS	1804	2973	.	+	0	ID=MGA_919;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870473.1;translation=MIIDSNDDPYDSFLMVPGPTIVDQKVRNVMSNNQMGHLSEQFTNDFMKLLDLSKKIFVTKNGSPFIITGSGTIAMEATVLSLLEKHNKGLILDTGYFAQRFGKMLNCYEIKSHILPFNFGQHADPDILKKELIKNNYDAVFITHVDTSSTVMNNISELVDVVKNYDSLAIVDSVCGVGGCELNFDKLGADIVLTTSQKALGSVPGACLMMLSSKAIDILETRKSIIPSYYLNLKNWKLHMENPKTYIATPAIQIMIALKTAIELIMEEGLENRWNRHKRIAKSIQSGIESLNLDFIAEENYRAYTVTGFYVPEGQSLDIQSRLKSEYNIEVANGFGKTKHNALRVGHMANIGDFEVIKFLTGLESILHDYDEKIKLGTAVAAASEYLTQ;locus_tag=LOCUS_8960;note=WP_010870473.1 aminotransferase (Methanocaldococcus jannaschii DSM 2661) [pid:35.1%25%2C q_cov:97.7%25%2C s_cov:98.4%25%2C Eval:9.2e-61],MGA_919
sequence13	MetaGeneAnnotator	CDS	2975	3163	.	-	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTGVFGMAISIIGLIMLTLSIFINQPKQELPDDITKKYCVNCIAEIKKIDNICPLCESIQ;locus_tag=LOCUS_8970;note=MGA_920
sequence13	MetaGeneAnnotator	CDS	3087	3260	.	+	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIDNVNIIKPIIDIAIPNTPVKIIKNNPDMNITNPYVVRSIHINYNYNVILNKLN;locus_tag=LOCUS_8980;note=MGA_921
sequence13	MetaGeneAnnotator	CDS	3257	3835	.	+	0	ID=MGA_922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNYSFENYSGKNTLIVGGIDSDISNNKNILLANLINEAIDLGYGNRISIIEMCPNNTSFKNIKFADQLLKYVDNIENFNYIKPKIVHWPRVYGNSPKEIINFSVENSRNLIECLDNYRKRPTRILFINELNFYLHMGTIHWLMRAISKSSTFIGTCFRSKFPYSDYNTGISRRERRLIDRLSHTVDNVINL;locus_tag=LOCUS_8990;note=MGA_922
sequence13	MetaGeneAnnotator	CDS	4062	4973	.	-	0	ID=MGA_923;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020863.1;translation=MISIIGAGNVGSTTALQIISHDLDNVTLIDVLKDKAEGEAMDISQMAGGMGIDKKIFGTNDFSKLDKSDIIIVPAGLGRKPGETRMDLLHKNMKIIKSVGENIKKYSPNSIVIMITNPLDAMTYVMYKTLNSKREKIFGMSGALDNLRFKNVLSEKLGVSRKLLTTIVIGEHGEGMLPLIRYSTVNEIPLNESTDEKILEECYNDTINAAAKIIRLKGATFYAPSIAIYQMIEAIKLDKKITIPASTFLKGEYNQKGICIGVPVILGKNGIEKIIQYELTKQELKQFNIGVQNIKNAINETNL;locus_tag=LOCUS_9000;EC_number=1.1.1.37;note=WP_011020863.1 malate dehydrogenase (Methanosarcina acetivorans C2A) [pid:41.1%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:2.5e-65],MGA_923
sequence13	MetaGeneAnnotator	CDS	5281	6306	.	+	0	ID=MGA_924;product=glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064727.1;translation=MMIKVGINGFGVIGRRAAYAVTKQDDMELIGIGKTNPDYKAKIGIENGFSFFVPEVVHKEKFDKKGLKVSGYIDELIKNSDIIIDATPGTLGEMYRKKYLNAETPSLFQGGESKDLAEVSFVAQCNYEKSAGKKVVRVVSCNTTGLSRVLDSIDKNHGISKVTSVIARRAVDPDLPKGMVDSVSLDPVTVPSHHGPDVNTILPELDIVTMAIKIPTTHNHVHSLIIDLKNTSISSDSIIDTLKNTPRVMLVSSADGVKSTAHTFDLGRELGRNRGDMYESMIWKDSITVIGDRAYMYMAVAQESIVLPENIDAIRATLQTNTREESIKKTNDSLCIGGPTS;locus_tag=LOCUS_9010;EC_number=1.2.1.59;note=WP_048064727.1 glyceraldehyde-3-phosphate dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:46.6%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:3.1e-86],MGA_924
sequence13	MetaGeneAnnotator	CDS	6333	6908	.	+	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLLDSSIEYYLLKEKGWDLGYGKIYDSEGEVIGKMDRRLRNIRGLTKLSEVDGTGILKIQRKFLTPRITYDIFENHEDDSKHGKQFARCIRAFTSIIRPKMWLNYDPDNSGRPRKRLDAQGSFAGWNFTVVSEGKDIAEVKKLDRYRDIVFTGLLDRSDTHAIHILDKTFNRKILLGFIMCIERSLNTKK;locus_tag=LOCUS_9020;note=MGA_925
sequence13	MetaGeneAnnotator	CDS	6915	7466	.	-	0	ID=MGA_926;product=amino acid transporter LysE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263915.1;translation=MSFTPGPGNILSTAHGAQYGFRKTTNLLAGLISGWATLGLVIGFSISFIQQQQIIIDILTWICAAVIIRLAWKLGTAQPISNEYEYTNKLGFKTGFFFSLVNGKAWVFFLTLMGGFSQYWGTGYIEIIGLVVFVSIFGLAAISSWAYAGNLLKEIFSSPRHAKILNKIFGISLLIVAIEIIIN;locus_tag=LOCUS_9030;note=WP_011263915.1 amino acid transporter LysE (Vibrio fischeri ES114) [pid:29.3%25%2C q_cov:90.2%25%2C s_cov:84.1%25%2C Eval:3.6e-13],MGA_926
sequence13	MetaGeneAnnotator	CDS	7545	7796	.	-	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERRIIAQILLGVILLFSVFLTFITEISIGPNSIPYGFDISPREQARLQAGNTVWESIPIILFIAGTALIISGIMKYRDISQK;locus_tag=LOCUS_9040;note=MGA_927
sequence13	MetaGeneAnnotator	CDS	7833	8084	.	-	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERRIIAQILLGAVSLILFIPTFLVSRSDPYFLLYVLSLIPITPNPFKQYQLYQAYTIPIVLFIAGTTLIINGIMKYRDISQK;locus_tag=LOCUS_9050;note=MGA_928
sequence13	MetaGeneAnnotator	CDS	8121	8372	.	-	0	ID=MGA_929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKVRNQFLIGGLIVLVAIIIYFFGITPGQVTECDPRVAGGGIEDCRSYSAFQRSTIPIILFIVGTIFLIRSIIMNKEMSEK;locus_tag=LOCUS_9060;note=MGA_929
sequence13	MetaGeneAnnotator	CDS	9127	9396	.	+	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKKNSEDKFQWTAGTVAVALVALYLSRGLIATAIEGIILLIIYIISIFAVASGAYFFWTKGDERWEDYVEGMKNRADKIIRRILREN;locus_tag=LOCUS_9070;note=MGA_930
sequence13	MetaGeneAnnotator	CDS	9715	10104	.	-	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKNERTRSGSDFKEKYERGTGFPSGPKKSRITYVYQRTHTWPDGTKYDGEWKDDKKHGKGVYTFHSGAKYEGEFKDDKYHGIGVYTYSDGEKYEGEFKDGERWTGTYYSKDGTTSENKDGKEISRKQI;locus_tag=LOCUS_9080;note=WP_008765612.1 phosphatidylinositol-4-phosphate 5-kinase (Bacteroides thetaiotaomicron VPI-5482) [pid:46.6%25%2C q_cov:65.9%25%2C s_cov:22.6%25%2C Eval:4.0e-18%2C partial hit],MGA_931
sequence14	MetaGeneAnnotator	CDS	277	1428	.	-	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPELVDLQKETTYETINRVNSNYWKGKNVLITGITGFVGSWLTEILSSKSVNANIYGLLRRQSNPNLRNIQHLLDRKNIKLIKGDLQDLGSIVNAIKESESEVIYHLAAQSFVPHSFASPIDTYSTNVTGTLNMLEALRLTPRDISLHYAGSSEEYGLVIRNNEHYKSMLSKYNIILPVPDFDANNNVINETPVKETNPLRKIGTSPYGSSKRQAEDACRTYVSCYGLDVHLTRAFNHTGPRRGNEFVTSEVTRQIAQGIKENRKHVSLGNLDSIRDFTDVRDIILGYLCVIEKGTKGDVYNLASGTGITIEELLKISLNIARDNYKLENMDYKLDTTRLRPTDLPVLIGDASKAKEKLGWQPKIPLERTILEMIQHHINLMR;locus_tag=LOCUS_9090;note=WP_011763221.1 GDP-mannose 4%2C6-dehydratase (Pyrobaculum islandicum DSM 4184) [pid:43.4%25%2C q_cov:73.6%25%2C s_cov:66.3%25%2C Eval:2.7e-57%2C partial hit],MGA_934
sequence14	MetaGeneAnnotator	CDS	1574	2617	.	-	0	ID=MGA_935;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011976081.1;translation=MLAQNKNLLIAVVVIILIAIAGLTMFGGPSAEGAVLVYGSVDAEDMQPVIDAFHEANPDIRIEYARGSPSETYTRIQTEIDAGAKTADLVMLSFPGSLSLVDDGFAQSYKSPNAANWPDELKDPDGNWQAVLLLGQVITYNTNLVSEDELPKTLNDLTDPKWNGKITMHDYTRGTTSTRIWATLAEGPLGAEKTIDFLTKLEANVQPVRQRSTGAQVDEVSRGEYHIGIVGQLHDVVKAKMDGAPVEILQLEDFPLMWGPTAVVLLEAAENPDAAKVFIDFLVTEDAQIIIGNVDVRFAALPDVESSTKHTLGAATPAGMDLLRYPNADARANHDKWHDIFKEIAGE;locus_tag=LOCUS_9100;note=WP_011976081.1 ABC transporter substrate-binding protein (Sinorhizobium medicae WSM419) [pid:30.3%25%2C q_cov:77.8%25%2C s_cov:81.6%25%2C Eval:3.8e-23],MGA_935
sequence14	MetaGeneAnnotator	CDS	2755	3558	.	+	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METTSSKHPHVNKGRVRENIINSLSQQPYSLTDLSRILKVSKPTISYHLTNLMKDGIIEAYGTKKGRGGFRSKLYILKQNLDSKLPSVSSDSYYLDLLSGIFESSKLEWTIEKNNNIGKNIQIFLYHAFRLLRSVTKTRHHDILRNYGNRIGKEVIGKKFDNNLKNNLSSLSEFFEKNDIGNIKVVLSDEKYHPEYRFQCLGCFQARENGGPVCNLTKGIIEGFLDYNYGNRYEIGERQKDGTLYESCVFPMRRTKTRGRAEAINIE;locus_tag=LOCUS_9110;note=MGA_936
sequence14	MetaGeneAnnotator	CDS	3561	4265	.	-	0	ID=MGA_937;product=pyrroloquinoline-quinone synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0QYN5;translation=MSNKKPLPKSKFLALLKTEAKKRYPDKHPFNKLLYEGQLNKSQIHGWINNWFYYQTIIPLKNGAVISNCSLSDVRRIWISRILEYDGYSEVEGALQGWIKFAESTGLSKKDLYSDNYLPGVKVAADSLLNYVKTHSWFEGISTSLSQIFLPAAIDKRVYALSKYYSDFIDPQGLNYFMALSAQARKDSQIALNILMKYSESYEMQLKAVDSVLFTEDVLWSMFDSIYSFYVVND;locus_tag=LOCUS_9120;gene=pqqC;EC_number=1.3.3.11;note=A0QYN5 pyrroloquinoline-quinone synthase (Mycobacterium smegmatis str. MC2 155) [pid:36.2%25%2C q_cov:90.6%25%2C s_cov:89.1%25%2C Eval:4.9e-41],MGA_937
sequence14	MetaGeneAnnotator	CDS	4347	4607	.	+	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYLVIGITFLLLGLLMRQNALNQIIEFEQIQRELDSLSVNFLAGTRDGIRRNILASRGMIGSGAFITIYAIYEDLAKIKNKFI;locus_tag=LOCUS_9130;note=MGA_938
sequence14	MetaGeneAnnotator	CDS	4608	5612	.	-	0	ID=MGA_939;product=iron ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013097700.1;translation=MNNKKIIIYGTIEVWEFESWIDGFNKIHPNVEVEYFRKYVFGTPSPMSQKIKQDLNEKGSSADIVLSAISPHLQMLNQDLFYPYNSRERRNISDSLKDSEGFWTSVVLLPVIQIYNTDLVDKNELPKSHIDLLTPRWKNKLSIHDVTLGTFGSNWLSSLRNEFSTAQWSNFVNSLSNQQLQLWPLFRQVLGNVSLGNSDIGLTVMLYEYLRALDKDLPIKRFVISDIPTLISATAASILKTSKNIESAKLFIDFIISKEGQNLIGNNYLRIPASLNSNSKFSLSKLLPNEQYSIFPSKEVLDTTDNDRILFQKLFTQQTSPNNAFDTDVDDVLK;locus_tag=LOCUS_9140;note=WP_013097700.1 iron ABC transporter substrate-binding protein (Enterobacter cloacae subsp. cloacae ATCC 13047) [pid:25.5%25%2C q_cov:79.6%25%2C s_cov:77.5%25%2C Eval:1.6e-15],MGA_939
sequence14	MetaGeneAnnotator	CDS	5609	7357	.	-	0	ID=MGA_940;product=methanol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002719727.1;translation=MLLFLGNISNANSENAFDWKYPAFDKDNTGFSPQTVISKDNVDNLDLNWIYQFDAVESIDDDIVPPEGLQTTPLIYRGIVYVATGYNEVHAIDASDGSPLWSFKPDVNDYKNTKVWAKRLATRSLTIHEDALYVQTSECSIYGFDLMTGDIIFELPETCSNIPGNNGEYFSPFSPIFFDNLLITRAQGNAFGGRGFISAYDVETKELVWQWFSSPPTGGELNWGYEYAKLGNIEPFADDWGYTNYIAGGTSWGLLATDESSETLFLLTGEPANQFDAALRPGPNLFSSSIVALDIRTGNIKWYYQMSTHDITNNDPGWKVVYTSISVDGVEHKAILAASKSNYLYVVDAQTGTLIHEPIHFGPESYNLTNENTENQSDMFASQIKYIGEIFCPSHLGGVFAGMAVADNVAYISSQNVCGTVIPRQLEYKGEIIDGYVYRLDLNRTTNGSIYAIDLSTSEVKWQTDLNDRIQSASLVVSAGVLYSIDRSGIFYAIDIDNGNIIKSIPFNSIGSAGPSIGADAYGSMMIVFPIGGGTLTGNNPGILVSMSVSESSNSQYESLLFGITLLSLLYVAIVTRRRLKY;locus_tag=LOCUS_9150;gene=xoxF;EC_number=1.1.2.8;note=WP_002719727.1 methanol dehydrogenase (Rhodobacter sphaeroides 2.4.1) [pid:24.2%25%2C q_cov:83.2%25%2C s_cov:81.8%25%2C Eval:5.1e-32],MGA_940
sequence14	MetaGeneAnnotator	CDS	7486	8238	.	+	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVKLDLMNKINCGDTLDLMKNIESNSVHLAITSPPYNVGKDYDAHNDLMGYDEYLDWLAKVWMETKRVLKDGGRFALNVGPTGIRDFKPLHHDLSNRLREIGMIFRTEILWYKQTMLKRTAWGSWKSPSNPHIIPSWEYVLIFSKNSMKLEGDKTKSDITRDEFLNFSDGHWNILPVTKNRKGHPAPFPEELIYRLIKYYSYEENVILDMFGGTGTVAYVVAKNHRNFIHIDISREYCKVASDRLETLQ;locus_tag=LOCUS_9160;note=Q9WYG3 methyltransferase (Thermotoga maritima MSB8) [pid:41.8%25%2C q_cov:97.6%25%2C s_cov:74.8%25%2C Eval:1.0e-50%2C partial hit],MGA_941
sequence14	MetaGeneAnnotator	CDS	8252	9283	.	-	0	ID=MGA_942;product=LLM class F420-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256339.1;translation=MDIDVVITNSPISNISSISKKAEDVGFNCLWTSETKHNPFLPLAIAAENTTRIKLGTAIAIALARSPMTLAYTSWDLAQLSQGRFILGLGTQVKGHVQRRFGMNWDSPVEQLVDIIHALRAVWTSWQNQSKLDFTGKYFKLNLMTPFFNPGPIDYPKIPIFIAGVNKQLCKTAGELCDGFHVHPLHSKDYLKDFVIPNIEFGSEKANRNISNVSVSGSAFIVTGPDEQSMSKQKEFVRSQIAFYASTPTYSTVFKLHGWDDISKDLTKLSLLGKFNEMPDLISDEILETIAIIGAPKDIAHLAMKKYSGLLDRINFYIPFELTMSNPLMLAWWKQTINSIQSS;locus_tag=LOCUS_9170;note=WP_012256339.1 LLM class F420-dependent oxidoreductase (Chloroflexus aurantiacus J-10-fl) [pid:51.1%25%2C q_cov:88.9%25%2C s_cov:88.2%25%2C Eval:1.8e-89],MGA_942
sequence15	MetaGeneAnnotator	CDS	130	1167	.	-	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNMSQSIKLKLDSFIQDKYKNNSQMVVRLTDGSIIFVDEQALDKTKMSDEGCPVKTFGVRYRVMSDDMKTVTAQYLIPNEVLELAKTRGKEFAGIKLPVGTLWNDQTTKFGVWLKIYPNFQQIGTNDRGEIVLRDRKDFQPMTGAVINSNNTIIMGRAERLVTRLSKTDADIDCAEADAWLKAFEILDGTATLTRDYLCAGIQYRHEGNAPYLNLTTDVNFFDLDDKEMLDLRKIIQSRFDKIGRNIPNVKIRSVINLPKTEEDFNSILSKLKEKGTSAKELGLPESYSDSRFYNPDKNTISSSNFVLFVPLAELPDEITITTINTDYHGEVKSRGVLSPLMAI;locus_tag=LOCUS_9180;note=MGA_944
sequence15	MetaGeneAnnotator	CDS	1211	1483	.	-	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978435.1;translation=MSGKKDENQELLNRALAILKSVSANQGTPRNIRKRIADILVTLKDDSSSIGVRAANAISMLDDVSQDPNMPSFSRVTIWSAVSTLESIRD;locus_tag=LOCUS_9190;note=WP_010978435.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:42.9%25%2C q_cov:93.3%25%2C s_cov:94.4%25%2C Eval:5.0e-16],MGA_945
sequence15	MetaGeneAnnotator	CDS	1743	3140	.	+	0	ID=MGA_946;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007329803.1;translation=MTEEIAFSYDKYDFKKSTENYVYKGKRGLSEEIVKMISEKKDEPQWMRDFRLKSFKLFNSKEMPKWGADLSQIIFNNIYYYAKPTDKQANKWEDVPEDIKNTFEKLGIPEAERKFLAGVGAQYESDVVYHNLRKDLKEQGVIFYGMDEGLKKHEDIVKEYFGKIIPPEDNKFAALNSAVWSGGSFVYIPKGVHVDMPLQAYFRINAENIGQFERTLIIADEGSSIHYIEGCTAPVYSSESLHSAVVELIAKKGAKIRYTTIQNWSSDVYNLVTKRAYAYENATVEWIDGNIGSKITMKYPSVYLLGNGAKAEILSCAYAGKNQHQDSGGKVIHLAPNTSSKIIAKSISKDGGRSSYRGLLHIAKGATNVKSTVRCDALILDDDSISDTYPYNEIIEEDATLTHEATVGKIGEDQLFYLMSRGLTEDEATRIIVLGFFEPFLKELPMEYAVELNRLMALEMEGSVG;locus_tag=LOCUS_9200;note=WP_007329803.1 Fe-S cluster assembly protein SufB (Rhodopirellula baltica SH 1) [pid:62.9%25%2C q_cov:98.1%25%2C s_cov:97.0%25%2C Eval:2.1e-174],MGA_946
sequence15	MetaGeneAnnotator	CDS	3158	4822	.	+	0	ID=MGA_947;product=Fe-S cluster assembly protein SufD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173864.1;translation=MQKNIFEDISTDIIKSISKDNNEPHWMLEFRLENFEKFQESSFEQSNLFTKYNDFLTGFNSGIVNFEKKNIQSKIKTEHRGKHINFLQVNGEMVEKNIESNNKNNNIILTDISDAIKKYPDIVKSYLEKNHNRDKFEYLSNALFTTGLFIHIPKNTQIIEPIRYINRQENLNEGVFNKNIIILEDNSIFNLFTEYYSSTKFTDKDSIIFGYSQDIFVGNDTKLTVTEMELFNKNVFSFLNKRTEVGNGSSVKMAVGYLGGKISRSRSYSNLIGENSTVEDLHVLVGTNEEKYDLVTSIYHSGKGTKGIVDVKGVLSGKSQMTLKGMNKIEKQAHNSDTFLGGHAIILGNEARANIIPGLEINNRNVKAKHSAAVAPINEDLLFYLQSRSLNKDTSVKLILGGFLESILKRIEIPVIKEQIQEMIDYKLKDVSSQVQEGQLQEGQLQETSAEKGKFKKVCKLSDVQNGEMRNIFVENKNILIANINNKIFATSGQCTHQEVNLEDGFLLDGDITCPLHLSKFSLNTGKPLNPPAIKELLIYNIKIQDEEIYVEID;locus_tag=LOCUS_9210;note=WP_011173864.1 Fe-S cluster assembly protein SufD (Thermus thermophilus HB8) [pid:23.4%25%2C q_cov:75.1%25%2C s_cov:97.9%25%2C Eval:1.4e-34],MGA_947
##FASTA
>sequence01
CAAAGGCTAAACCAAAGACTGCTAAACCAAAGGCTAAACCAAAGACTGCTAAACCAAAGGCTAAACCAAAGACTGCTAAACCAAAGGCTAAACCAAAGACTGCTAAACCAAAGGCTAAACCAAAGACTGCTAAACCAAAGACTGAAAAATCAGCTGCTGTAAAATCTAAGTCTGATTCTTTATTACTTCGTACTCAAATAAATAAAAGACGTCCAGCTTTTCAAACTCAAGAATCTTGGCGCTATAAACGTATTGGTTCTCAATGGAGAAAACCAAAAGGTTTTGATAGTAAGATGAGAATTCAGAAAAAAGGATGGCCTGCTATTGTTAAAATCGGTTATAGAGGCCCAAAAGATGTTCGTGGACTTCATCCATCTGGATATAATGATATATTGATCTATAATATTGACGGTCTTAAAAAATTAGATCCATCTGTTGATGCTATTCGATTATCTGCAAAAATTGGGAAAAGATATAGATTATTAATCATTAATGAAGCAGATAAACTTGGCTTTAAAATCTTAAACAAAGGGAATATTAAAAAAAGGTAATTGAATTTGACAAATCTAAAAATTAAGAAAAAACTGGCAGCAAGAGTATTTGGTGTTGGACAACACAGACTCAAAATCAATTCCAAAGAATCTGATAAATTAGAAGACGCAATTACACGCGGTAGTATAAGAAGTCTCAAAAAAGACGGAATTATTACTTTACCTAAGAAACAAGGAATTTCATTAGGTCGTCAAAGAATTAAAAAGAAAAAAACAAAGCGAGGTAGAACACAGGGTTCTAAAGAAGGCGCAAAATTCTCTCGTGTAACAAAAAAACGACGTTGGATTATTAAAGTTCGAGCACAAAGAAAAAGATTAAAAATTTTTAAGGATCGTCAAGAAATATCGAACGCATCATTTTGGCAGTTATATAAAATGTCAAGCTCTGGTGACATTCGTTCTATTAAACATCTTAATGAATTAATTTCTAAACATAAAGGGGAAGATTAATTATGGTTACTGGTACATATATTCCAATCTTTAGACGACGCAGAACTGGAAAAACTGATTATTCAAAACGAAAATCTATGCTTATTTCTAAATCTATTATACTTTGCATTAGAATTAGCAATAAACATTCTACATTTCAATTTATTGAACCCAAAATTCAAGGTGATTTAGTTAAGAGTGGAAGTCATTCTAGCCAACTCAAAAAACTTGGTTGGAATGGTTCTGGCAAGAACCTTTCTGGATTGTATCTTACTGGATATTTAGCTGGAAAAAAAGCTAAATCAGTAGGTGTTAATGATGCTATTTTATATATTGGCAGACAGGAATTTCAATCCGGTCAAAAATTAATTTATGGTTTGAAGGGAGTTATAGACGCAGGTGTTAATATTCCTGCAAGTGAAGATATATTTTCTAATTTAGAAAAATTCAAAACAGATACTCTTCAAAAGATAGTAGAACAAATAGATTTACAATATGGTTAATGACTATGGATAAACAAAAAACAAGTAATAAAACAGACGATAAAGGCAAATCTGCGGGTAATAATAAAACTATTGGAGGAAGACCTGCAGGCCGTAAAAGAACTTATGAAAGAAAACCTATAGTTGTCCCTCCTTGGGCTCCTCGTACTCGACTAGGCACACTTGTCCAGTCAGGTTCAGTTCAATCACTTGACACAATATTTCAAAATGGCTGGAAAATTAAAGAATATGAAATTGTAAATAAATTAATTCCTGATATAAAGTCTTTTGTAGTTCATATTGGCGTAGTACAAAAACAAACTGATGCTGGTGAGTCTACAAGATTTAAATCAGTTGTAGCAATTGGAGACGAAAATGGTTGGTTTGGTGTAGGAACTGGTAAAAAACCACAAATGAAAGATGCAATAGATAGCGCAACACAGAATGCTTTACTTAATATTATTCCAGTGAAACTTGGTTGTGGCAGCTGGGAATGTAGATGCGGAACTAATCATTCTATTCCTTATCGTACAATTGGAAGAGGAGGTAGTGTTAAAATTGAATTAATTCCAGGCCCAAAAGGACTAGGATTAGTTGCTGGTGAAACTATTCGTAACTTGCTTGCTTTAGCTGGTATAAAGGATGTATGGTCTAAAAGTTTTGGTTCAACTAGTACTATGCCCTCTGTCGCTAATGCTATTTATGATTCAATTAGACAACTTCATGGTATGAGTGTTTAGTGGTTTATTATGTCTGCATTTATAGTTGTTAATCTTCGTGGTACAATAAATCAATCACATCATATTAAGAAAACTTTAGAACATTTGCATTTAGAAACTCGTTTTCGTGCTACAATAATTCCAGACAATGAAATTTATAGAGGTATGTTACAAGTTGTAAAAAATCATGTTGCATGGATTGATGCAGATCCATCTGTCATTGAATCACTAATTACAAATCGAGGTGAAAAAACTAATAGTATTAAATATGATTCTGACTTTGCACAGAAAGATGGTTTTAAAGATATTGCTGAATTATCTCACGCTTTAACTGACAATAAAATTAAAATTTCTTCTGTTTCTAATCTTAAACCATCCTTTCGTTTATCTTCGCCTAAAGGAGGATTCAGGAAATCTATAAGAAGAATGCATTCTCAAGGAGGTTCATTAGGTTACAATCCTGATTTATCTAAACTAATTTTAAATATGATATGATATATGAGTGATGGATTATGGGAACAAGAAACAGAAAAATAAGGAGGTTACGTGGTTCACGATCTCATGGATGGGGACAAGTAAAAGGCCATAGGTCGCATCCTGGAGGACGTGGAAATGCAGGATTGATGAAGTATAAATGGAGTTGGACTGTTAAATATGACCCCGATCATTTCAAAAAACCTTCTCTTAATCCTCCTAATCGTATAATTATTAAAAAATGGATTAATGTAGGGGATTTAGACGGTTTATTTTCAAATTATCAAAAAGATTCACCAATTGACCTTGAAAAACTTGGTTATGAAAAACTGCTTGGTTCTGGATTTGTAAAAGGTTCTTACGACATACTTATTGATTCATTTACTAAACAAGCAAAATTAAAACTCGAAAAAGCAGGCGGAAAAATAGTCGTGAGGTCTTAAAATTGGGCGTGATTACTCAATTCGTTCGACAAATTGCATCAATTTTACCAGAAGTAGAAAAACCAAAGCAAAAATCTTCATTGACTAATAGATTATTATGGACAGCATTAGCCTTGACAATATATCTTGTTATGGCACAAATCCCTTTATATGGCGTTGCATCTGGAATGCAGGATCAATTGTCGTACACAGCAATTATTTTTGCATCTTCTCAAGGCACATTAATGGCACTTGGAATAGGCCCTATTGTTACTGCAGGTTTGATATTACAGCTTTTGAAAGGAGCGGAAATTGTTAAATTAAATTTTGATAAACCAGATGATAGAGCGTTATTCTCTGCTGGCACTAAAATATTAGCTCTTATAGTCACTTTTGCTGAAGCAGTTGCATTTATGATTGGCGGCTCATTTGGTCTAGATTTATCATTTAGCACAAGTGCTGTAATAATCATTCAGTTGATGATTTCTGGACTTACAGTAATCCTCTTAGATGAATTAATTCAAAAAGGTTGGGGACTTGGAAGTGGAATTAGTTTGTTTATTGCTGCAGGAGTAGCTCAACTAATCTTCTGGAATATGTTTAGTCTTATTCCTGCTGGCCAAAGTTATTTTGGGGTAATTCCTCATGTGGTTACAACTCTTCTTTCTGGTTCTCCTGAAAGTATGTTTATGCGACCAGGTGGTCTCCCTAGTGTTCTTACTCTTTTATTAACCTTGATTGTAATCGCTTTAATTGTATACGCTGAAGGAATAAGGATTGAAATTCCAATTACTTCAACTAAATACAGAGGATTTCAAGGCACTTATCCAATAAAATTATTATATGTTTCCGTTCTTCCAGTTATTCTTACTGGCGCACTATTGGCTAATATTACATTCTTTTCACAAATTGTTTGGTCACGTTTTAACGCTGCAAATGCTAATACTTTCTTAAACCTTTTTGCTCAATACAATACTGCAGATCCTAGCGCAGGCCCTATAGGAGGATTTGCATATTATGTTTCTCCTCCACGTGGAATTGAGGTTCTATCTGTCGAGCCACTTCGAGCTATCTCGTATATGTTATTTTATGTGGTTATGTGTACAATATTTGCACGTGTATGGGTAGAAATTGGAGGTCTAGGTTCAAAAAGTGTAGCAAAAAAACTACTTGGAGCAAATGTTCAAGTTCCTGGATTCCGTCGTTCTGAAGCATCTGTTGAGATTCTTCTTGAGAGATATATCCCAGTTATTACTATAATTGGCGGAATACTTATGGGAATATTAGCTTCAGGAGCTGATATCTTGGGCATTTTTGGTGGAGGTACTGGAATATTACTTATGGTTAGTATATTCATAAACTATTATCAAATTCTAATGAGAGAAAGACTTGAATCAATGATGCCAGGACTTGCAAGTTTCTTAGGTAAAGATTGATGATAATTGGCGCAAACTAAACGTGTTGTAATTGTTGGTATTCCTGGAGTTGGGAAAACTACAGTTGTTACAGAAGTATTTTCTATCTTAGAAAAGAAAAATCTCAAAATTGAAAACCTTACTTTTGGGACAATTATGTTTCAAGAAGCTAAAAAACTTGGAATATCCAATCGTGACGAAATGAGAACTTTATCAACTGATAAACAACAAGAGTTACAAATTAAGGCTGCACAATTTATTGCAAACATTAATTCTGATGTTATTTTACTTGATACACATCTGTTTGTTAAAAATACTTCAGGTTATATGCCTGGTTTGCACATGTCTATTCTTAAATCATTAGTTCCAACTAATCTTATTCTTGTTGAAGCGTTGCCTGAGGATATTCTCAGTCGAAGAGAAAATGATCCAACTCGTAATCGTGATACTGTTACTATTGAATCTATTGAACTTGATAACCAAATAGCACGTAGTATGTTATCCTCTGTCGGCGTACTTACTGGCGCATCATTATTTATTGTGACCAATGCTGATGGAAAATCTCAAGAAGCTGCACAATTTATTGTTAATTCATTGGAATTTGATTAGAGTTTTTTTGTTATGGAAGGCATAATATTATCAGGAATGCCAGCTGTTGGAAAAACTACTGTTGCACATTCACTTTGTAAAGAATTTAATATTAAATATTGTTCAGGTGGTGATTTGCTAAAAGAAATTGCTAAAGAAAAAGGATTTGAAGTTTCTGGTCTTGATTGGTGGGATACTGATAATGGCATGAAATTTTTATCAAATCGAATGAATGATTCCTCTTTCGATAAACTCGTTGACCAACGTTTAACGAATTTGTTAAACGTTGGAAACGTCGTTCTTACTAGTTACACACTTCCTTGGTTAACATCAAATGGAATATCTATTTGGTTAGACGCTTCAAAAGACAATAGAATTCTTCGATTATGTTCAAGGGATAATATATCTCTTATACAATCCAAAAAAATTATTGATGCACGTGATATAAAAAATAAACAAATCTATGAAAAATTATATGGTATGAAACTTGGTGAAGATTTATCTGTTTTTGACATAATTATTGATACAAACGATATGGATATTAATCAAGTTTGTAGGAATGTTATTAATTCAGTAAATGAATCACTTTAAGCTAAATAATACAGAACAAATCATTATCGATGAAGAACCTGACATTCTTGATTCCGGTTCATATCCAGATAAGAGACAAATTAGTGATTTAATTGATAATTGTATTATTTTCGTTGACAAACAATCAGGCCCAACAAGTCATCAGGTTGTCTCTTGGATTAAATCAATGTTAAACCAGAGTAAAGCAGGTCATAGTGGGACTCTTGATCCAATGGTCACTGGCTTATTACCTATTAGTCTTGGTAATGCTACCAAAGCATTACAAATTTTATTATATGGACCCAAAGAATACATTGCTGTAATTAGGTTACACAATAGTGTTAACAAATCTAAATTATATGATTGTCTTAAGCAATTTACAGGTCCTATATATCAGCGTCCGCCACAACGTTCTGCAGTAAAACGCCAAACTAGAATTAGGAATATTTATGAAATTGAGGTATTAGACGATACAAGTAGATTGTTGTGCTTACGCGTACTTTGTGAGGCAGGGACCTATATTAGAAAATTGGTTTATGATATTGGAGAAATAATGCAATGTGGAGCTACTATGATAGAATTACGACGAACACGTGTAATGCATATTGATGAGGAAAACAATTTTGTTCGATTACATGAATTAAATGATGCAATACATAGATTCAAAACTCAAAATGACGAAACTAGATTTAGACAATTAGTTCATCCAATTGAATTAATTGTAAAACCACTGAAATCTATTACAGTTCGATGTTCTGCAATTGATTCGTTATGTCATGGCGCACAGCTTGCTATTCCAGGTATTCTTAAATTATCTAAAAATATATCATTAAACGAAAACATATCTATATTATCACAAAAAGGCGAATTAGTAGCACTTGCAGAGTCTTTGATGACCACTGATGATATCCTTAATAATGAAAAAGGTATTGCATGTAAAACTAAAAGAGTAATTATGAAAATTGGAACTTACCCAAAACTCTGGACTAAACATGATACCAAAGATTAACATATTCACAAAGAATTTATCTTTGTAAGTTGTTTGTTCGAATCATAGCCGGGGTAGTCTAGATCAATGGACAATCTGGTAAGGCGCAAGCCTGGAATATATTTCTGTGAGCTTGTGACTCGCAAGGGTCTCGTGGGTTCAAATCCCACTCCCGGCGTTTATATTTCTGTGATTTTTTTAATATCTATATCGAGATTTCTTTTTATCTCATCTGGATAATTATCTAAATATATTATTTCAGATTTATTATTTTTTCCCCATTTTATTTGAACTATTTCTAATTTACTAATTTTGTTTGTTGAATCTATAGATATAGATACATTATATGAAATCGATTCATTATCTTTGTACAATTTTGTTAATTTCTTTTTTTTATCTATATAGATTAATTCAAATCCTATCAGTGAAGCTTCTAAAAGATTAACTAATCTTCCTTTATACATTACTTATTATAATTATTAGTAAATACAATTATTTCTATCCCTACAACATTATTTTCGTTTATTGTCGAATAATTCTAAAACGTTAAAAAGCATTTCTGCCAAACCCGGTTTTACGGATTAACAATATGTCACATATGATACAGTGTATTACAAAGGATGGAGAAATAGCTCGAGATATTTCTATTGATCTTTCTGAAGCAGAATTAATCAAAGCATATCAGACAATGGTTCTTACTCGTACTCTTGATACAAAAATGGTTGCTCTGCAAAGACAAGGGAGAATTGGTTTTTATCTATCATCTTATGGGGAAGAAGCTTGTTCAGTTGGTAGTGCACTTGGAGTTTCTAACAATGATTGGTTCTTTCCTGCTTATCGTGAACAGGGCGCAATGCTTCTCAAAGGCGTTTCACTTAACTTTATGATTTCACATTTACGCGGTAGTGCTGAAGACGAACACAAAGGACGTTGTCTTCCTGGTTTATTTGGTTGTAGTTCTAAGAGATTTGTTGCCCCATCAGCACCTGTTGGCACACAAATTTCTCATGCTGTTGGTACAGCTTTTGCATCTAAGATTTTAGAAGATAAAGTAGCTACTATCGTTTATTTCGGAGATGGAGCAACTTCTTCTAATGATTTCCATGCTGGTCTTAATTTTGCAGGTGTTTATAAAACACCAACTGTTTTCTTCTGTAAAAATAATCAATGGGCTATATCTACAAATGTATCAAATCAAACTGCCTCTGATGGAATTGCAATTAAAGCAAAAGCTTATGGTTTTGACGGTGTTGTTGTTGATGGCAATGATGTGTTGGCAATATATATGGTAACTAAATCTGCTATGGAAAAAGCACGTGACGGCAAAGGACCTACTCTTATTGAAGCAAAAACTTACAGACTTTCACCACATTCTACTTCTGATGACGGATCTAGATACCAAAATCAAACCGAATACAAAGAATGGCTATTAAAAGATCCTATTGCAAGATTTCGTAAATATCTTGAAAATTCTGGCATATGGAATCGTGAAATTGAACAAGAAATTCAACAAAAGACTGAAAGACAGATTAATGAAGCAATTAATAATGCAGAATCATCTCCTATGCCTAGTTTAGATACTCTGATTACTGATGTTTACTCTGAAGTTCCTGATTCTTTAAATAAAGACTTTCAAGATTTCAAGAATAATAAAAACTAGTTTATTTCTTTACTATACGATTTCTAATCATTAATACTAATATGATAACTGTTATTAATACAGCTAATATAAATGAAGAATCTTCCAATATAGATTTATTTGCTACTAATAGCTTGAATTCCGTATTCAACGATCCAATAAAATCATTTTTTATCTCTACATTTACATTATAAATTCCATCATTTACAAAATTATATTTTATAGAAAAATCTCCTTCTATTTCTTCAATATCATTAATTATATCAAATACATTACCATTATCTTCATAAATTGTAATTTTTACTTGAATGTCTTCTAATCCTTTTTTTGTTGATGCGTTTTGTACACTAAAACTAAAATAAAAATCTTCATCTTCAACAACAAATGTAGGATCTGTAAGGAATTGAAAAAGTATTCCATTTACTTCTATATTTGAACCTCCAATAATATGAGATTCGCTGTGTGGAATATTAATTATTAATAAAAAAAAAATAAGAATTATTAGATATTTTCTCATATCATTTCAATTATTTTTAAGTAGTTAAATGTAATGTTGAAGTAAAATATATGATGACTATCTCTTCTTTTCAGGCGATAAATATTTATGGAAATTGAAGTAGTTTTCTTTTCAATTGGAATAATTACAATTATTGGTTATATAGCATCCAATATTTTTGATAGAACTGGAATTCCTGATATACCATTCTTAATTCTTTTGGGTATTGTTGGCTCACTCTTTTTTACTATTGGAACTGAAGGATTAGATTTTATTGCCCCATATCTTGCTGCTCTTGCTATTGCTGTTATTTTGTTTAATGGCGGAATGTATCTTAAGATAAGACAAGTTATTGAAGATACTCCTCGTGGATTTTTTGTGACTTCTGTTAGTGTATTAATTACTATAACTACTCTAACTGTGGTTGGCTACTCTATTAATTTATTTGTATTAGGTTCTCCTTGGGGAACTGGACGCGAAGCTATATTTGCTTCATTATTTTTTGGAGCAGCGTTATGTGGTACTAGCTCTGCAGTAATTATTCCTTTAGTTAGTAAAATAAATGTAAGTAAAAAAGCAGAAACCTTTCTTACAATAGAATCTGCATTTACTGATGTATTTGTAGTTGTACTCAGTGTTACTCTTTTAAATATACTCAGTGGCTCTAATCTTCCTGATAATCCCGGTGCCGCAACAACTTTTCTTCAGGGAATTGCAGGTAAATTTTCTATTGGTATAGTTTTTGGTATATTAGGGGGTCTGATTTGGCTTAAAATTTTACAAAGTTTTCCTACACGAATAGGTAGAATTACTTCACAACAAGATGTAGTTCACGACGATATTTTGACACTCACTACTTGTTTGATGTTATATGGCTTCTCTGAAATGAGTGGAGGTAATGGTGCACTTGCAGCTTTGTGTTTTGGTTTAGTGCTTGGCAATGGTAAAGAATTTGGTTTTATTCCTTCGTTTCGAACGAATCCTGTTGACGCCGGTTCTCTTATGAGAAAATTCCAAGGACAAATTTCTTTTCTTTTAACAACGTTCTTTTTTGTTTACCTAGGGATGATATTTCAGGCTCAATTAATAATTGTAATATTAGGGATTTTTATTACAGCATTACTTATAGGCGCACGTAATTTATCTTTTAGACTTACTTTAAAAAATGATAAACCCATGATGAAAGATATACGTTTATTATCATCTATGCTACCTCGTGGTCTTGCTGCCGCTGCTGTATCTCAATTACCTACTGCTTTTGGTTTTAATTGGCCTTATATGCAAGATCTAGTTGTTTCTGTAATAATCTTCTCTGTTGCCGCAGCCGCTATTGGAAGTTTTGTTTATGGGAAATCTAATGAAGTTGAAGCTAATGTTGAATCTTAATCTTATATTCTAGATGTCCTTATTCTGTCAAAGAACTCATTAACGATTGTGCAAATTCTTTATTCTTTATCCAAATCGCAATTGTACGTTCAGGTATACCTGATGCATCTGGAACTCCTATCATGACATCTCCTTTATCTGACACCATCAAATCCAGTAGAATATAGGCTCGTTTTTTTAGTACTACATTTGCATTTTTTAATAAAATCTTATCTGTTTTTGATATTTTGTACGAATTTGGTGTAAATATGATTATCTTATTTTTGCCTTTCGTATTGCTTAAAAAACTTAGAAATAATTCTTTAACTTCAAATGCTTTTTTTACACTAATTGTGACTTTTTTTGAATATTTTATAATTTCTAAAAACTTATTGCCAATATTTTGTAATCCTATTAATATTTCAAATTGTTCGTCTTCATTTATTAGTGAAGGTTTCCTTTTTAATACAGAAATTATTTCTTTTTTTACTTTTCTTTGCGCTCTTAATTTATTATCCAGTTCATATTTTGTTTGTATAATTCGTCCTTCTAAAGCCATTTCTGGTTCTACTGGAATATATTTTTTATTTATCTTTTTTACAAAACCTTTATTTTCTAAACTATTCAGTGTGTCGTATATTCTTGGTAATGGAACTCCTGAATCTCTAGAAATTGATTTTACAGTTTGAATCCCTTCTAATAAACTCTGATATGTTTTTGCTTCATACAAACTCAATTTGAATGAATTTTTTAATTCGTTTGTAACATCTTCTTTATTCAATTAAACAATATCTGTTTTTAACATATTTCAGCTTAGCTATGATATCAATTGAAACTAACTCCGGTGGAAAGTATTTTTGACTTACTATGAATAAAACTACAAATTCAAGTTAATTGTATGTCCATTACTAAATCTAGATTAGCAGAACCAATTTCTAGAATAACAACAGAAAATTCTTGGTCATTTAATAATCTTACACAAAAGGATACTAATTATCTTACTCATTGCTATCATCGCTATCCTGCTAAATTTATTCCACAATTAGCAAGAAGGTTAATCTTGGAAAATTCTGGAAAGAATGAAATTATTTGTGATCCATTTTATGGATCTGGTTCGACAATATTAGAGTCTATTCTTCATAATAGAATTGGTTTGGGCGCTGATATTAATCCAATTGCTTATTTAATTACAATGACTAAAACTACACCTCTTCATCCTTCAAAAATTTCTCATACTATTTCTTCATTACACCATACTCTTAAAAATTCAAAAAATCTTAATCATTGTGAAATTCCATACGAATTATCTCGTTGGTTTGATCAAAATACCTATGATAATCTTAATAATTTGTTATATGAAATTGAACAAATCAAACCTAAAAAACTTCGTTTATTCTTTTTATGTGCATTTTCTCATATCTTAAAAAGTTCAAGTTATTGGAATAATGGATCAATAAAACCTCATAAAGATAAAACTAAGTTCTTAAACAAAATTAATGATCCAATATTTAGATATTTTTCACATTTAAAGAAAATGGAAATTCGTAATGAACAACTTGGAAATCTACTTTCTCCAAAAATTATTGAAAATCTTGATTATTATAGACGTATTCATTTAGGCGACCTAAAGAATTTATCATTTCATAATCAATGTTCTCTTATTGTAACTTCGCCTCCATATGTAGTAAGCTATGAGTATCGTGATATTCATTCTCTGAGTTTGTCTTTTCTTAAGGATTTCTTCAAGATTATTCCCTCAAAACAAAATTTTATTGGTTCTTCATTGAGAAAAACAGATTACACAAAAATAAATAGCTATACTGCAGGTATTATTACGGATTCCTTATCTGAACACAATAAATCTCTGTCAAAAACTGTTTCTACATACTTTCTTGATATGCAAGGTTTCTTCGATAAGGCTTTTGACCTCTTAAAACCTAAAGGACGTTTAGCTTTAGTTATAGGAAATACTAAATTACGTGGTGTTGATATATCAAATACTCGAGTTTTTGACGAAATCTTATCAACTATTGGTTTTACTGAACATCAAATTATTAAGAGAGAAATACCTTTCAAGTCCTTGCCCTCTACACGTGATCCAAAAACTGGACGTTTTGTTTCTGCTACAAACAAACACAATAAATGTTATTCTCACGAATATATTATGATTTATTCTAAAAACTAATATTTTTTGTTCAAATCAATAATTATTTAAATTAATTATGATAGTAAATTTGTTATATGCTCGGTAATCTACAAAAAAAAGAATCAATTAGTTCCAAGAACTGCTAAAGATCTTGAAATTCTTGTTAATTGTGATCGATTTTTTGAGGAAAAAGATCTACATTTTTTTATAAATCTACTTCAGCATGACGAGAGTATTTCTGTGCGTACTCGTGCTGTGTGTATTCTTGCAGATATAGGAGATGTTACTGTGGTTCCTATATTGTCTGAAATTCTAAAAAATGACAAAACTCCTCTTGTAAGACATGAAGCAGCTTTTACTCTTGGACAATTAGGTTTTTCTCAGAGTCTTGATTTTCTTATTGATGCCATGCTTCACGATGTTGATAGCGTAGTAAGACATGAATCCGCTGTTGCTTTAGGTTCAATTGGTGACGAATCTGCAAGAGAAGCTCTAATTAAGGCACTCGATGATAAAGATCAACTTGTTGTTCATTCTGCCTTTTCTTCTTTATTGAATCTAGATTACCTTAAAAATCACAATAAAGAAAATTAATTCACAAGGAATTAATATTATAATAAGAAATAAAATACATTAAGATCAATTATGAAAATCCGAAAGTTTCTAAAAGATTTTGTTCCATATAGTTGGGAACCATCTGACCTCGAAATCGCAAACTCTATTGATAAAAATCCTGAAGATATTATTAGATTTGATACAAATGTTTCGCATAAAACTCCGAGTCGTTGGTTGAAAGAACTAATTACTAAATTTGATAATATAGAGATTAATCGTTATCCTGATTCTTCTTATATTTCTGTCAGAAAATTACTTGCGGAATATTGTTCATGTGATGTTGACGAAATAATCCTAACAAATGGAGCTGATGAAGGATTGTTTATGGCGGGTTCATTGTTTATTGAACCATCTAGTAATGTTATTCTTTCTACTCCAACGTATTCGTATTATGAAAAAATGATTCAAATTTTAGGCGGTAAAACTCTTGAAGTACCACGAAATCTTGATTTTTCTGATAATTTTGAAGAGATTTCTAATAGTATTGACGATATGACTAATATGATAATCCTATGCAATCCAAATAATCCAACAGGTAACATTGTAGATAAAAAAATCCTTCAGAATTTATTAGATATTAATGACGTTCCTGTGGTTGTTGATGAAGCATACTTTGAATATACAGGAAATACAGTTATAGATTTAATCAATAGTTATGATAACCTTATTGTCATTCGAACTTTTTCAAAAGCATTTGGACTAGCTGGTCTTCGTGTTGGTTATATTGTTTCTTCTAAAAGTACTACTTCTCTCTTGAATAAAGTTCGACCTCCTAATAGTGTTGGAACATTATCTGTTAACCTCTCGAAAATTGCATTACAAAATATTGATTGGGTCAATGATAACATTAAAGAAATATTATCTGAAAAGAAATCCTTTATTGAAAGGATTTCTAAACTCGATAATGTTACTATAATTCCAAGTTCATCTAATTTCATGTTAATAAAATTTACAAACAAAGATGGATTAACTGTGTATAAAGAATTATTGACTAAAGGCATTGTTGTACGTGACGTCAGTGAAATCATAGGACTTCAAGATTATATTCGAATAAATATTGGTCTAAAAGATGAAAATAATAAATTAATTCAAGCTATTGAAGAAATATCTAAATAATTGGTGTAATATTTGGTTCTTCTTCTTACTCATAATGACGTTAGTTCCCTATTAACAATGGATGATAATATCAAAACTATAGAACAAAGTTTTATTGAATTATCTAAAAAAAAGGTCAAAATGACTGATAGAGGTGTGGTTATTGTGGAAGAAAAAAATGGTTGGTATGGAGTTATGACTGCACATATGAGTAATATGAAATCACTCGGTACTAAAATTGTAACTGTTTTTCCACAAAATACTAACTTGAATATACCTACTACTCAAGGTATTATTTCTTTGACTGATGTAGATACTGGAGAATTAACTTGTATTATGGATGGTTCACTGATCACGGGTATGAGAACAGGAGCAGTTACTGGCGTTGCTACTAAATATCTCTCAAAGAAAAACTCTAATTCTGTTGGAATATTTGGTTCTGGATATCAATCTAGATTTCAATTACTAGCTATATGTTCTGTTCGAGATATCTCTAAGATTGAAATTACAAGTCCTTCTGTGGATAAAAAAAATGAATTTATAAAAACTCTTGAAGAAGAATTAAATGTTCCTATTATTATTGAACATAATATTGAAAAACTACTTAATAATGATATTATAGTCACCGCAACAACTTCTCCATCTCCGTTATTTGATGGAAATCTTGTAAATCCAGGCACTCATATTAATTGTATTGGCGCACATACTAAACAAAGCACTGAAGTAGATTCTATTACTATAAATCGTAGTACGGTTATCGTTGATGAATTACAAACAGCAATTCGTGAGGCCGGAGGACTTTCAGAAAACAATATCTTTGCTGAATTAGCAGATATTATTATTGGTCATAAAACTGGTCGGCAGAATGACAATGATATAACTTTGTTTAAATCAATGGGCTTATCAATTGAGGATATATCTACTGCTAATATGATTTATAATCTCGCTGTAGAACAAGGAATTGGTAATATTGTGAATTTATCTTAGTTACTTCTTCATAAAATAAATTTCTTTACTGTCTAAATTACTATCCTTTTTAAATTTAATTATTATATTTTTCGTGTACGGTTCTAAATCATCTTCATTTATTTCTTGAATGTTGAGCCAAGTATATTCTTGTAATTCATTATTATCTAATTTTACAGAAATATTTTTACTTATACAAATATAATCGAAGAAAATAAAATGTTTTCGTTTAAAAAATTCTTTTGAGTTAACACATTCCTGTATCATAAATAATCTCTTTGGTATTATATCTAATCCTGTTTCTTCTTTAATTTCTCTTATAATTGCATCTTCAAATGATTCCCCTAGTTCAATATGACCACCTGGAACTGAATATTTTCCATTGATCCATTTATGAGATTTTACTAATAGGATTTCATTTCGATTATTAATAATTAAAGCTCCAACTGTAGGTTCTGGATAAACCTGATTCATTATAATTTACTTTGCGGAATTCTGATATAAATCTCCGTTGAATTTCATATAGAAAGGTTGAAATTCTAATTTTTTTATTATCTCATTATGAATGAGTTGACTCGTAAAGTAGTAATTATTACAGGTTCAACTAAAGGCATTGGTCAATCAATTGCTAAAATATTCTCACAAAAAGGTGCTAATGTAGTTGTTACATCGAGAAATCTTAATTTAGCACAAAATATTGTCAAAGAATTAAGTTCCTATGGTACTGATCCTATTGCAATAAAAACTGATGTTACTAGTGACGAAGATGTACTAAATCTTATTAAAAACGTTCAAGATTATTATGGAAAAATTGATATTTTAATTAATAATGCAGGGTTTCCATTAACAAAAGAATATTGGGATTCTTCCTTTGAATCAATTACTCTTCAAGACTACCAAAGTGTACTTGATGTTGATTTAATTGGAAGTATTCGATGTTGTAAAGCTGTACTTCCTTCTATGAGACAATCAATGTCTGGTAATATACTTAACATATCTTCTACTCCTGCTATAGCAGGTCATGATAAAGGAGCTCCTTATACAATTGCTAAAGCAGGTATTCTTGGATTAACCAAGCATCTTGCACTTGAATATGGCAAATATAATATTCGTGTAAATAGTCTTGCTCTTGGCAATATTAGAAGTTCTGCTACCTTTGATCATTTTGATAATAAAACACAGGAAAAACTTGCTAATGAAACATCTCTAAAACGATGGGGCGAAACAGACGAGGTAGCAAAAACTTGTTTTGCTATAATTTCTGATGATTTTAGCTTTGTCAATGGACAAACTATTGTTGTCGACGGCGGTAATGTTTTAATTTAAATTAAATTTACATCTTCATTAATTTCATTACTATTCCTTGGAAGGATATTGAACATATCAAATACCAAAAGAAAGTTGTAACTCCATATGCGAATGTTTTTCCTGATTCTAGAGTAACTTCTTCTGTCGAAAATAGAATTAAATTCATAGATATTGGCGATGATGCTGCTGGAATATTATACCAATCTGAACCAAGTATTTGTGGTAATAAAAATATCCAGATTAACATAAGTGGAACAAGAAATATAAAAGTAGGTTTTAAACTATCTCTTGCTAATTTTGCTTGTAACTGTTTCATTTGAGGTTCTTTTTTCTTTAATTTTGCTTCTAATGGCTTATCTTTTTTCATTATTGCTGATCTTAATTGTTTATTATATCCAGATACTTCTTTTTGCAGCTTTTTTGTTTCGTTAATATCTGTGAATTGTTTTCTTATTGCTATAGACCCTATTGATACCAATATTGCTAATCCTATTACAAAGAAAGTGATTTCTGGTATAGTATTTATCAATGCACCTTCTGATTCATATGAATTAAAAAACTTTTTCTTTTATGATTTCCATACTATATTTGAATCATAATGGCTATTGGTGGAATGGAATGGGTCTGGATTGTACTAGTTGCAGGAATATTTCTTGTAGGTACTGATAAAATTCCTGAATTAGCAAGAAATCTTGGTAAAGCTATTGGACAATTTCAAAAAAGTAAATCAGATTTCGAACGTGAAGTAAAGTCTTATTCTGATTTTGAAACAACAGCTCCGTCAAAAAGTCTTTCTAAGTTTGAATTACAGAAATCTGCAGCCGCTCTAGGTATTGATTCTACTACTAAAACTGAAGATCAACTTAGAGAAGCTATTAAAAGAAAACTTGATTCATAAATTCAAGTTTTTTCTTTATTGATAAATATGTTTGACATTTGATATATTATTGGGACGAACAATGACGACACAGCCCTCTGATTTGATGACGAGGATCTTGAGTATGTGAGTTCGTCTCATGTTTTTATTGTTCTTTTTGATGTAGTATTTCTAGATACTATATATCCAATTACATACAAAGTCATCATAGGTATTGTTATCAACCACATTGTTATTCCGCTTGCGTCAGGGGTAATAATTGCACCTAATATTACTAATATAACAAATGTATATCTCCAATTCTTTTTCCAAAATGTGTTTTTTATAAATCCTAACTTTGTTGTTAACCACATAATTATTGGTAGTTGAAAAGCAATACCAAATGCTAACACAAAAAATGTTATGAATGATACAAATTCATTTATTGTGATATATGTTTCTGCTTGTAACGATACACCATATTTATACAAAAACTCCATTGTTAAAGGAACCATTATGAAAAGTGAAAATAAGCCCCCTATTAAAAATAATAGAGTTGCAGGTATTAACAATTTTCTTAATAATTTTATCTCATTGTCATATAGTCCTGGTTTTATAAATCCTATTATTTCCCATAATATTAATGGTATTGAAACAATAATTCCAAATATTAATGCAATATGTATTTGAGCAGATAGTGCTTGTCCTGGTGTAGTAAGAATAACTTTTACATATTCAGGGAGAACTATCTCTTGTAAAGCTATAATTATTTGAGACGCAATGTTATTGTAAATATCTGGATATGGAATTGTTAAATCTGTTTCATTAATTACTATATTTCTTGTTGAAAATATAAAAATCCCAAACGTGCAAATTAATATCGATAACACGATTCGCATAAGGCGGTTTCTTAATTCTCCTACATGCTCTATAATTGGTCTTGTTTTTACCTTATTCACTCTAATTTCTACTACATGAAGTTTCTTAAATTATTCTAATAAATAGATTTAATAATTAGATTAAGACTTTTCATTAACATGGCTCAGGTTTGGCACGATAAAGATATTAATTTAGATCAACTAAAAAATGAGACTATTTCTGTTATTGGTTATGGTATTCAAGGTGCTGCTCAGGCTTCTAATCTAAAGGATTCCGGACTCAATATAATTGTTGGTGTACGAAAAGGCGGTTCTAGCTGGCAACAAGCTCTTGATGACGGACATAAAGTAATGGAAATATCTGAAGCCGCAGACAAATCTGATATAATTCATATTCTAATTCCTGATATGGAGCAACCTAAATTATATGAAGAACAAATAAAACCCTATCTCAAAGAAGGAAATGCTATTGGGTTTTCTCATGGTTTAGTTATCAATTATGGGTGGATAAAACCTCCTGAGTGGATTGATATTATAATGATTGCGCCAAAAGCTCCTGGAAGACGTGTTAGAGAATTATATTTAGAGAATTTTGGAACTCCTGCATTAATTGCTGTTCAACAAGATTTTACAAATAATGCATTAGATAGAGCTCTGTCTATTGCAAAAGGTTTGGGTTGTGCTAGAGCAGGTCTTTTACAAACTACTTTCAAAGAAGAAGTTGAAACTGACTTATTTGGAGAGCAAGCTGATTTATGTGGTGGTGTTGCCTGTTTAATTCAAAATTCTTTTGAAACATTGGTTGAACGAGGTTATCAACCTGAAGTTGCTTACTTTGAATGTCTTCACGAACTAAAACTTATTGTTGATCTTGTACAACAATATGGTCTTAAAGGAATGTATGAAAGAGTTAGTGAAACTGCTCGATATGGCGGTTTGACTCGAGGCAATCGCGTTATAGGAGATTCTTCTCGTCACGAAATGGAAGAAATTCTTAATGAAATACAATCAGGTAAATTTGCAGATGAATGGCGAAATATATATAATAAAGAAGGGAAAAAATCATTTGATAAATATCTTGATCAAATAGCCTCACATCAAATCGAATTTACTGGTAAAAAACTACGTGATATGATGTGGCCTAATAAACTTAACGAATGATTATTGGAAAAATCGAAAGGTTAAAATTAAAGATTTAAATTTTCTACTTTGGAGAGGAAGAAAAATATCCGAAAAAAATACTTTTGAATTCGAGAAATGGCTTAAGTCAATGCTTGAGCTCATATTCTGGACTCTAATGATTCTTCCACTTATTGTATTTCCTATCTTTTTCTTAATATTACCTCCTATTTTTGATGCTGCAAGTATTAGGCTTGGCCAAACTGATTCTATTCAAGCAATTAATGTATTCTTTACAGCATTGATTGATCCAATCAAGGGTATGCAATATGGCGAAGTATTGGCAAAAGAAGTATCTATTCCACTTGGTTTACCATTCATTATATTGAATTTTATTTTAGTTAGTATATTTCTTTGGGAAAACGAAACAGACAAAACAACTATTTCTAAATATCCTTTGTTTAAACAATTAAAAGAAGTTACCTCTGGAACAAAAGAACAAGCTGGAATTATTTCCCTTATTCCTGTGATAAGAGATGTAAAAATTGCTAAATTTCTTAATCCTGTTTTCTCTCCACTTGAAAAAATTCATCATAAAATTTTTCATGATGAAAATGAAGATAACAATTAATTAAATATATATTATTTCTAATTTGTTTTCTTTCAGCAAGTTAATTATTCTTTGTTTCTCTTTTCCTAAACCTTTTTTATCAATTACTCCATATTTAATTTCTTGTTCACATTTATCTAAAATTTGATCAAGTAATTTTTGATTAAAATATTTTATATAATGTCTTGATATGTATCCTGCAATAGAATATTCTGTGTTAATTAAAAATTCTGTAAATTTCTTTGAATAATGAGGTCCTCCCAAACCAAAACCTACTTTATTTGCATTTGTTTCATTTTCTATTGATTTAATAATTGTTTTGATTACTATATTTGACGCATTGATATCTTTCCATTGTTCAATTTGTGAACCAATTTCAACAAATAAACATGGTTTAGAAATATTTGTTGGACCATGATGTGTTGCTTCTAAAGATATTTCATAATTAAATAAATTCTTTTTCTGTTTATCTAAATTTATAATATAGTTCTTTAACAAATTTGGACATGTTGCAGCAATTTGCATGTTTTCTCCTCCGTATGGAGATTCACTTGATGGATTTCCTAGAAAATGAGCAGTTAGTGTTGGCTTTTTACTTTGACTTACATGCTTTGACAAAAAAATATATCTATCTGATTTCTCAATCTTTTCTATATTATCATAATAAATCATTTCATCATTCAAAATGATTATTATCCTGTTTTTGTCTACTAATTTGACATATTCTGTATCTTCCTTTATCGTTCTAAAATTATGCATTCTATACATTATATCTAGCATATTCATGCTTGCTGGATCTTTCTTTGATACTATGAAGGTTGATTTGTTGATTATTGCACACCTTTTCTATCTATAACAAAAAGTTTATCAAATATAATCTATCATTCAACAAAGAATAAATTGGCAGGTATTATTGATTTCATCAAATCCATGTTTCATACGCTCAAATTGGCAAAGAGATCTGATAGAAAAGAATTTCTTCTCTATGTAAAACTTACAATTGTAGGGATAAGTGTTGTTGGTACTATTGGCTATATTATCCAGATGATTGGTTCACTATTTAGATTAACTGGCGGTCAGGTTTGAGATTATCATGAGTACATCTATTCAAAGTAGATTTTTTGCAGTAAAAACAACTGGTGGACAAGAAAAAAACGTTGCTAAATTTGTAGGCACTAGATTAGATAATCGGCAGCAAACTGGTGATTTTTCAATTAAATTTGATATTCATTCTATTGTTGTTATTGATTCACTCAAAGGCTACGTTTTCTTTGAAGCTCCTAATGCACAAGTCGTATCTGATGCAATTTCTGGATTTAAACATGTTAAAAATCTGATTCCTGGTATAGTTCCATATGATGATATACAAAAGTTTTTTATCACACACTCGATTGTCACAGATATATCTATTAATGACATAGTTGAAGTGACCAGTGGTCCGTTTAAAAATATGAAAGCAAAAATAACGCGTGTTGAACCTAGTCGTTCTGAAGTCACTATTTTGTTACTTGACGCTCCATATCAATTACCTATTACCATTGATGTTGATGGTTTACGTATAATTGAAAAATCAAAAGATGAGAATTAATATGGGAGAAGAAAAAATTATATCTGCATTAATTGCTGGTGGACAAGCAAATGCTGGACCCCCTCTTGGACCTTCTTTAGCTCCGATGGGATTAAACGTTATGGCTATTGTTAAAGAAATTAATGAAAAAACTAAAGAATATCCAGGAATGAGAGTTCCTGTCAAAATAATTGTGCAAGTTGAAAATAAAACCTTTAATGTTGAAGTGGGAATTCCTACATCTTCTGCACTTTTAGCAAAAGAATCTGGTATTGAAAAAGGTTCAGGTGTACCAAATTCTGAAAAAGTTGGTAATGTTACTATGGAACAATTAATAAAAATTGCCAATGTAAAAATTGAACAATCGTACGCAAGTAGTATAAAAAGTGCAGTTAAAGAATTAATTGGTTCATGTGTGAGTATGGGTATAACTGTTGAAAATAAAGAACCAAAAGAATTTCTTATTGAAATTAATAATGGGAAATGGGATAAATCCTTCTAATTGACAATGGTATAAAATTTATAAAATGGAATTGTTTTTAGAATTATGTATATTGGTGTAAAAATTGGTTAAATCACAATCTATACTTGAAACAGTCAAAAAAGCACGTTCTGCTGCTACTAAACGCAAGTTTAAACAATCCTTTGAACTGATTATTAATTTAAAAGATATAGATATTAAAAAAAATCAAATTAATCTTAACGAAACAATTTTCTTACCTCATCCGCCCCAAAATAAATCAAAAGTTTGTGTTATTGCATCAGGAGATCTTAGTTTACGGGCAAAATCTGACGCCGATCACGTTCTTGAAACTGATAAAATTGATGGAATGTCTGATGATAAACGTTTAGCTAGAAAAATTGCTTATTCTTATGACTTCTTTCTTGCAGAAACTACTGCTATGCCAAAAATAGGAAAAGTATTGGGTAAATTCTTGGGACCTAAAGGTAGGATGCCTTTGCCTATTACAATTGATACTCAAATTGAAAATATGATTAATAAATACAAAACTGCAATACGAATAAGAGGCAGAACTTTGTCTTTATCTACTAAGTTGGGAGATGAAGATATGGAAGACGAAAAAATAGTTGAAAATGCATTATTGATAATCAACACAGTTGTATCTAAACTTCCAAATAATGAAAAAAACCTTAAAGACTTCGTTGTAAAACTTTCAATGTCTCCACCAATTAGTATTTCTATTCAGGAGGCAAGCTAATGCCTACTAAAAAATCCAAATATCCACAATGGAAAGTAGATACTATAAATGAACTTACCGAATTAATGAAATCCAATAAAACTACTGCATTTTGTAATCTGTACAAAGTCCGTGCTACTCAATTAATGAAATTAAGGAAGAATTTCAGAAATGATATGACTATTCGTGTTGTGAAAAATACACTTTCCAAACTTGCCATTGCAAATTCTAATATCGCTAATTCTGAACAACTTATTGATTCTGTTTCAAAACAAAAAGCCTTCATCTTTACTAATATGGATCCATTCAAACTCTTTCTATCACTTGAAAAGGGTAAGGTTGATCTTCCTGCTCGTAATGGTGATGTTGCATCTGATACAATTATAATCCCATCAGGTAATACAGGTATGCAACCTGGTCCTGATCTTACTGCTTTTAAAGCATTTAATATTCCAACTAGAATAGACGCTGGTAGTATTTTTGTTAGTGAAGATACTGCCGTAGCACAAAAAGGTGATATTATTAAATCTTCTCTTGCCGCTCTGTTATCTAAGCTTGATATCAAACCAATTAAAGCTGGCATTACAATTGATCTTGCATCTATGGACAATCTAATATACAATTCTCAAGATGTTATTATTGATATTGATGAATACTGTTCTAATCTAATTCAATCATTTAATAGTGCACTTAATCTAGCAGTTGATCAAGAATATTTTTCCAACGAAACTATTCCTTTATTACTTGCCGACGCCTTTAACAAATCAAAAAATCTTTCTATAGAATCCGAGTACATTACTAAAGATAATATATCATTGATATTAGCTAAGAAACAACAAGACGCAAAGACACTAAGTAATTTAATTGTATAAGATTAAGTATTTTTATAAATAATCTAGCCGAATAAACTAGCTAATCCTTCCATAGCTTCTTCGTCTTTCTTTTCTTCTACTTTTTCTTCTTTTGCTTCTGTTTTTGCTTCAGCTGATGACGCTGCAGGTGCTGCTGCTACTACTGTGGCCGTCGAATTCTTTAATGCATCCTCAATGTCTACTTCGCCTAATGCAGAGACTAATGCTTTGATTTTCACTTCGTCAGGTTTTGCACCCGTTGACGCAATTACTTTTTTTACAGTATTTTCATCAATCTTCTGTTCAAGCTTATGCAAAAGCAAAGCCGCATAAATGTATTCCATTTGTATATCGTTACAATTTTTTTTTCATATATATAAGGTTTAAAATATTACAGAAAATTATAATATTTTTACTTTTTTTGCCTTTTATTATTATGGTTAGGTAGCTATTAATAAGTAAAAATTCCCAAGTTTAATTGTCATGAATAAGGACATCCTTCGTAAGAAGTTCTCTTCAGATTATTTAAATTATTATAATGTAAATCTATTCGAAAACGAAGGTTTTAGTAGAAAACAATGTCCTAGCTGCGGCAACTTCTTCTGGACTGCAGATGATTCACGTTCAAATTGTCCAGAACAGCCTTGCGAACAATATGGATTTATTGACAATTCTCCTACTTCTAAAAAATTAGATTACGCTGAATGTTGGAAAGTAATAGAAGAGTATTTTGTTAAACATGGACACAAAAGTGTAAATAGATATCCTGTTGTTGCACGTTGGCGACCTGATTTATATTTCACAATTGCCTCAATAGTGGATTTTCAAAGAATCGAAGGAGGAAAAGTAACTTTTGAACTTCCTGAAAACCCATTAATAGTTCCTCAAATGTGTTTAAGATTTAATGATATTGAAAATGTAGGAGTTAGCGGAAAACATTTTACTTCTTTTGTAATGATTGGCCAACATTGTATTGCAAATGAAACTGGTTATTGGAAAAATGAATGTATTGATTTGGACTATGGTTTATTGACCGATGTTTTTGGCATTCCTAAAAAAGAAATTATCTTTAAAGAAGATGTGTGGGTTGGTTATGGATCTTTTGGTTCTTCGTTGGAATATTATGTAAAAGGATTAGAGTTGGGTAATGCGGTATTTACTGAATTTGATGGAGATCCTAGTAGTTATAAAATTATGAACGAAAAAATAATTGATATGGGTGCTGGATTAGAGAGATTTAGCTGGTTGACTCAGGGAACTCCGACTGCTTATGAGGCAGTATTTGGAAATGTTATTGATCGTATGATTGATAAATGTAATATTACATATGATAAAGACTTTTTTAGAGATTATTCAAAATTTTCTGGCATGTTGAACCTAGATGAAGTTTCTGATATGGAAAAAACTCGTAAACAAGTTGCAGATAAACTTGGTATTACGAAAGAAGTTTTTGTTGATAAAATTACTCCATTTGAATCAATGTTTGCGGTTCTTGATCATGTTAAAACTCTCATTTTTGCAATTAGTGATGGCGCGTTACCCAGTAATGTTGGCGGCGGTTATAATTTGCGTGTTTTGCTTCGTCGTTCTTTATCTAAAATTTACTCCCAAAAATGGAATGTTACTTTAGGAGAGATTGCTGATTGGCATATTGACTATCTATCACAAATTTATCCTGAATTGAAGGAACATAGAACTGAAATATTGAAAATCTTGATGGTTGAAGAACAACGATATAATAATACTCAGGAAAGAATCAAGAAAATAGTTTCTAACATTCAACAAGAAAACAAACGAATTGATGAAGAAAAATTAATAAAATTATATGATTCAGATGGCATTACTCCTGAATTTATTAAAGATCAAGGTTTGCCTATTGAAATACCTGCAAATTTTTATGCAAAAGTTACTGAACGACATCTACTTCATCAGGCAGAAAAAATAAAACGGAATCTAGACGTAGATGATTTACCAGCAACTCGTACGTTATTTTACGAAAACCAAGAACTAAATGAATTTGATGGACGTGTGCTTAAAGTATTTCATGAATCTGAATATTCTCTTGTTGTGTTAGATCAGACTGCTTTTTATGCACGTGCAGGTGGACAAGAGCCTGATGCTGGTGTTTTGGACAAATATGATGTTCTTGATGTTGAAAAATATGGCCATATAATTCTTCATAAGATTATAAAATCCGATATCAAGGAAGGTTCAATTCTCAAAGGAAAAATTAACGAACAGAGAAGACGAATTCTAACTAATCATCATACTGCTACTCATGTTATGTTGGGCGCTGCAAAAAGGGCTCTTGGTTCATGGATTTGGCAAGCCTCTGCATTTAAAGATGTAGATAAAGCCCGTTTAGATATTACACATTTTGAACATTTGTCTCTTAAACAGATTGAAAAAATTGAACAATTAGCAAACGAAGCTATTAGACAAAATCTTCCTGTTCATAAATTAGTATTAGATCGAGGCGAAGCAGAAACGAAATATGGATTCTCGATATATCAAGGTGGAATTGCTCCAGGTAAAACTGTTAGAATTCAGGATATTGAAACTTGGGATGTTGAAGCTTGTGCAGGTACTCATGTATCTCGTACTGGAGAAATAGGACTTATTAAAATTATCAAAAACGAAAGGATTCAAGATGGCGTAGAAAGATTAGAATACGTTGCTGGTGAAACTGCTATTGAGTACATACAAAAACAGAACGAATTACTAATTTCTATGTCAAATCATCTATCAGTTCCTGTTAATAAAATATCTAAAACACTCAATAATTTACTACAAGATAACGAAAAAATAAAACGAAATTCAAAATCTATGATTAAAAATCGTTTGTCAGATATCATTTGTGATAGACTTATTAATTCTAGTATGAAGATTGGAGATGTTTCTTTATCAATAATTGATTGGAATGAAGTAGATGAAGACTTTCATATACTTATTGGAGAATATTGTATAAATAAATTTGATAATTTCATATATATTGGCATCATAAACAAACCCCCTAATTCTAGATTCCTTATTTTCTGCGGAGATAAAATTAATAAAAAATATAAAGCATCTGATTTAGCTCGTCAGATTTCAAAATTATCTGGCGGCTCTGGTGGCGGTAATGAAAGATTTGCACAAGGAGGTTCATCTAAAATTTCTGATAATCAAACTATAATTAATACAATTAAATCAATTATTAATCAAAAATGAGGTGGTTTATTGACTATAAATTGGAGTGATATTGAACAAAAATGGAGAAAAAAATGGATTGATTCTTCTTTTCACAATACTGATATTGACTTAGATAAAAAAAAATTTTTTCTTACTGTAGCTTATCCATATCCAAATTCTCCACAGCATATTGGACATGGTAGAACATATACTCTCACTGATGTTTATGCTAGATATAAACGAATGTTAGGTTTTAATGTATTATTTCCAATGGCTTTTCACTATACTGGAACTCCAATTCTTGCTATGACAAAACGACTTGTGGAAAATGATCCTGAATTGATTAGCGCTTTTCATGACGTATATAAAATTCCACTTTCTAAAATTAAAGAACTTGACGAACCAATAAAAATTGCTCAATATTTTCATAATGAAATTAAACAAGGAATGATTGAAATGGGTTATTCTATTGATTGGCGACGCGAATTTACTACAATTGATAAAGAATATAGTAAATTTATTGAATGGCAATTCAAAAAACTCAATTCAGGCGGTTTTATTACTCGAGGAAGTCATCCAGTTGGTTGGTGTCCTAAAGACGGCAATCCAGTTGGCCAACATGATACACTTGGAGACGTTGAACCTGAAATTGGCGAATATACTGTTATTAAATTCAATTTTGATGATTCAAAATTAGTTACTGCAACTCTTCGTCCAGAAACTATATTTGGCGTTACGAATATTTGGGTCAATCCTGATATAGAATACGTAAAAATTTCAATAAATGACGAGAAATGGATTGTTAGTAAAGATTCTATGTTCAAATTTGAACATTTACTTTTGAACAACTCTACTCCTGAAGCAATCTCTGGTGTATCATTAATTGGTAAATGGGTTGAAAATCCATTTACAGAAATGAAAATACAATTATTACCTGCTTCTTTTGTGGATCCTAAAAATGGTACTGGTCTTGTAATGTCTGTACCATCGCATGCACCTTATGACTATCAAGCAATAGTTGATTTCAAACAAGATAAAAATCTTATAAACAAATACCCTGATATCGATACCAATATTCTTTCTCCCATAGATGTTATTAAAGTTGAGAAATATCCAAATACTCCTGCTCAGCAACTAGTTTCTAATCTTAATATAAAAAATCAAGATGATTCACGATTAGTTGATGCAACAAAAGAGCTATATACTCTTGAATTTAATACTGGTAAAATGCTCGGCATTGCAGGTGATTATTCAGGACTGTCTGTTAAACATGCTAAGGAAAAAGTAAAAACTGATCTTACTCAGTCTGGCCTTGCAAGTAAATTACACGAAATTCTTAATAGTCCTGTAATGTGCCGCTGTGGAACTGAATGCATCATAAAGATGTTTGAAAATCAATGGTTTATTGATTATGGAAATCCTGACTGGAAAAAAGACGCACATTCTTCCATAAATTCAATGTCAGTTATTCCTTCAGAAATTAAAGTTGAATTTCATAACACTATAGATTGGCTTCATGAAAAAGCATGTGCTCGTGGTTCAGGTATGGGAACTGTATTGCCTTGGGACCCTAATTGGATTATTGAAAGTTTATCGGATTCAGTAATCTATATGGCTTACTATACAATTTCTAGATTAATTAAAGAACATAATCTTAATCCGTCAAATCTTACTGATGAATTCTTTGATTACGTATTTCTTGGCATTGGAACTCTTGAACCAGTTTCAGAACAAACCAAAATTGATAAATTACTCCTTGACGAACTTAGAAATGAATTTTCATATTTTTATCCACTAGATAGTCGACATTCTGGTCGTGATCTTGTACCTAACCATCTGACATTTTTTATTTTTAACCATTCTGCAATATTTCCTAACAATTTATGGCCAAAACAAATTGTAGTTAATGGCTCAGTATTAATGGACGGAAAAAAGATGTCCAAATCCTCCGGTAATATAATTCCTCTTCGACAAGCTGTGAAAACATATGGCGCTGATCCTATTCGTCTTGGAATAATGTCTGCTGCAGAATTATTACAAGATGCCGACTTTAGTCTTGAATTAGTAAAATCATTTAATGAACGATTGAATCGTATGTATAATCTAGCTAATGAAATCAAGTCTACATCAGAATATGATGTAAATCAAGCAGATTCGATTGAAAAATGGATGATTAGTAAATTACAAAGAACAATAAAAGCTACTACAGATTCAATGGATAAACTTCGTGTTAGAGATGCTTTACATCATATTGTTTATCTTCTTGATATAGATTTACAATGGTACAATCGAAGAACACGTCTTCCTATTGAAGATAAAAATTCCTTTTTAAAATATTTCTTGGAAACTCGTATAAAACTTCTAACTCCTTTTGCTCCACATTTTTGTGAAGAAATATGGGAACTACTTGGCCATGAAAATTCTATTACTCATCAAAACTGGCCCACTGTTGACGAAAATCTAATCGACGAAGTTGCAGAATTATCTGAAGAATTAATAAAAAGCACAATTGAAGATATTAATAACATACTTAAAGTTACTAAAATTCAGACTCAAAAAATATATCTTTACACTTCCGCTAGTTGGAAGTGGAAAATATACTTATCTGCACTTAAACAAGATAATCTTAAACTTAAAGAATTAATAGAAACTAGTCTGAATAATCCTGATTATTCTGCGTTTAAACAACATATACCTAAATTCTGTCAGACTCTATTCAAAGAACTTTCTTCTGTTAATGTTGACACAAAATCAAAACTTCTCCGTGTAGGTCCGATTCCTGAAATAGAAATTCTAAAAGAATTAGAATATTTCTATAAGATTGATAATGATATTGAAGTTCATATATATTCTGAAGAAGATTCAAATATTCATGATCCAAAGAACCGTTCAAATTATTCTAGACCTATTAGACCTGCTATATTCTTAGAATAGATTATTCAGTAATCTGTAATCATATAAAAAATAAATATAATCCATATATTATGCTTGAAAATCCAATTACATAATTTAATATCAATTTCATATTCTTTGTTACTGAACTTACTGTTTGGATTAAAATTAAACTGAATACTATCATTCCTAAAACCACTCCTAATGAAAACAATAATAATGCACTCATTAATACCGTGATTGAACCTATTCCTAATCCTAATACTAATATAATAAACAATTCATCATTACTTGCTAATCCATGTATAATTCCTACTCCAAATGAAGTATGATGTGGTGATAATTTATTACTTAGTAATCCACCGATTCGATGAGCATGAATATGTTCATGTTTAGTTCCATCTTTATGTTCATGTTGATGTTTGTGTTGTAAAGGAATTCCGACTGTCAAGCTGATTATGCCCATTACTATAAGTGTTGTTGGTATAATTACTTCAAAGTTTTCTAATAGAATTCTGACAGGATTAGAATTGATGTTATAAAAAATCAGAATAGTCATAATTCCTGTTGTTGTTATATGCCCAATTCCCCAGTTTAAACTGATATTAAGAGATTCTTTCAGTTTCTTTGACTTCGATAGAATATTTGCAACTACTAATATATGATCAGCATCAAAAGCATGTTTAATTCCCATGAAAAAAGCAATAATTACAAAATTAAATGCTTCCATATTTAATTTGAACTGTCATCTGTATATATAATAAGCCCCAGCTGGGATTTGAACCCAGGACCTACTACTTACGAGGTTCGACATTATTTAGCCGCTCTGGCCGACCTGAGCTACCGGGGCACAAACATTCATTCTTTATTTAGATTATTCCTTTTTAAAAATTAAACAATAATTATGCACTGTGTTGCTAACCCATGAATATCCATAACCATATGGAGCTAGTTTTACATTATCCTGACACCAAATTTTTTCATCTTTTAAAGTGAAGAAATCCAGTTTTCTTGTCAAATCCCATGCTAGAGGATATATTTTTCCGCCTTTCTTGATGTTCTTAACAATGATTGTTAGATAGCCTCCTTTCTTCATCACTTTGTAAACTTTATAATAGATATCTGTCAATTCATTGATGAATTTCTTATAATCATCTATGTTTCCTACATCTTTATTGTCCTTTGAATAATATATATCATAATTATTTTTCTTTCTATTCTTTTGCGTTTCAAATCCTTTTGAATGTAGCATATTCCAATAAGGCGGTGAAGTTATGCAGTAGTCTATATCTGATATGTCAAGTTTATCTAATAATCTTGCATCACAATTGTATAATTTGATATTTTCTTGCTTATCAAGATTTTTTGATTTTTCTTTTTGCATTATTTCTTGTATTCTTTCTACTGTTATGTCTGTATATTTTTCTGACAGTTCTATACCTATTGCACTTCTGTTAGTATTCATTGAAGCAATTATTGCACTTCCTGTTCCCATCATTGGATCTAATACTGTTTGATTTTCTTTTGTAAAGAATCTTATGAAATTTTCAATTAATTCTTCTGGGAACTTGGCTGGATGAAGAAGAACATTCTTTTGTCTAGGTTTGGGATTAATTATAAACCAACTCTTCTGAAATTTTATCCATTCTTTACCTGTTAAATTGTTTAATCTATTATAATCGTGGTAAGTGCCTTCTTGCTCAACTCTGTTCTTTGACGATATTGGATAATAAATATCGAGTCGTGCTTTCGGTGTAGTTTCTGATAAATCGTTTAGCATTATATTCTCTTAATAAGATTAATCGATAATGTGTCTAGTCTATATGATTTGATTATTGTGTTGAAAGAATTACTATACTTAGCCTAGAATGGCTGAATTAACCAAATGATTGTTCCTACTCCTAGATATATGGCATATGTCCAAGTTCCTATTCTTTGTTGAATATCAAATAAAGTATCGTGTTTGTCTCTAATATTTCGCATGCGGACTAATGCATGATCTGCGAATTGAAATTTACTCGCATTATTATCTTCTACTTGTACATAATAATTCAGTTCTTCTCTGTCTTTGTTAATATGTTTCATTATTTTTTCTTCAGATAATTTTCCTTCAATTCTCCTTAACGACTCTTCAAATCCAGATATTGGTCTTATCTGTGGATGCGCCCAAAGCATTTCTGTCTCTTCTACTATCTCTTTCCAGTGCTTTCCTCTTTTCCTTTTTGCAAAAACATACAACACTGTATTCCATGTTCCCAGACAGTCTCTCATATGATCCGTTATTGTTTCCAATGCAGTTCCCTCCATCTGTTGACTTATACCTAAACCAATTAAAATACCTGGAACAACAATATTCAAATTATTTAATCCTGCATAATGTCTAACTGCATACATAATAATTATCATTGTAATTAACGCTATCATTCTTGCTGCCATAATAGCTTGTTTTTCAGTTATCTTAATTGCTCGTGAATTATAACTCTCTTTGATATTTTTTAGTCTAAAGAATCTTAATATTTGTGCAAAGAATGTTCTCAAAAATATATCTCTTATCATTAATCCAATTACGAATGTATAAATTCTTATTGACATTAGAACAGGTGATTTGTTAAAATACAAATCCATTTTTTTCCTGTAACTATTAAATGCATTTATGTTATTTTTTCTGTTTGATGAATTAACCACTCTTAATCCTTTCCGCAGAATTATTAGGAATGTAGTTCCCATATAAACCATATGCAACAATTTACTAGTTCTAGGCTCGATATACTGAAGATTGCAAAAATTGTAAATAATGGAGGAATTATTGCTTATCCGACTGATACTGTTTACGGATTAGGTTGTGATCCATATAATTCTGAGGCTGTTGAAAAAATCTTTCAAATTAAAGTACGTGAAAAAAAGCCTTTACCGTTACTTTGTTATTCTCTTAATCACGCATGTGAAATTGCATACTTTGATCCAATTTCAATAAAATTAGCGAAAGAATTCTGGCCTGGTCCACTCACTATTATTACACCTGTTAAAAACCATCTATTGAAATCACTCACTTGTAATTCCGATTTTATTGGTCTTCGAGTTCCTGATAATGATATTACTTTGTCATTGATTCTAGAATGCGGCGGGTATTTAGTGGGCACCAGTGCTAATATTTCTGGATATGAATCTAATCATTTTGCACCTTCAGTAATTTCTCAACTCAAAAATATTGACGCAATTCTAATTGACGATCTTCGGAATAAATCTGCAGAATCAACTGTTGTTCAGATAAAAAATCAAAATATTGAAATTCTCAGAAAAGGAAGTATAGATTCTCAATCGATACAGAATATTTCATAATGAATCAATAGAAATTCCACGTGACTGTAATAATTCTTCAACTTTAGTTAATGAAAAATCTCCATTATTGAATTCTGATATATAACTTGCTGCTGCTGCATTTGCAATATTTAATCTATGATAAACTGATAATTTCTTTTTAAATGCTAGTATATTTACTGCATTCCAAATATCTCCTGCCCCTGTTAGCATTTTTGGTTTTACTGGAAATGATTTAACAAATTGAATTTCTTTATCTATCGATGAACATGAACCAAGTGGTGTATGAATATCTACTAATACATTGAGTGTAGATGATATCTCTAATGCTAATCTTTTTATTTCTTCAATAGTATATACAGAATTTATATTCTTAATTCCTAAAAATCTCGCTAATATTCTACATTCATTTTCGTTTAGACTTATCATGTCTATAATTCTGTTATTCTTTAAATTGTTAATCAATTCATCTAATCTATTTGTTGAATCTGATAAATCTGCAAAATCTAACAATTTTATACTATTTTTAGATATTGTAAATATATTTTCAACTAATTCATTTCCTTTCGTATTTGATGCCCAATTTGATATTATTACAATATCGGATTGACTAATTGATTTCTCATAGTTTTCTCTAATGTATTTTCCATCAAATTCCTCTATCCCTCCTATATCACTAATCATTATATTGACACCTTTTTCATATTCAGTTTCTAATGCAACTGTAAAGCCAGGTTTACCTTGAATTATCTTTATTGAAATATTATTGAACTCTTTAAAACGTAACTCTAAAATTCTTTTTGTAAATTCATCTCCAATAACAAAGAGATTAACATTACTGCCAAACTTTACAAGTGAATAAGCAATATTAGTTGCATTTCCTCCTACCATTTCATGCTGTTTTATTCCTCTTATGCTTCCTCCTCCTACTATGGATTTTTCTTTAGCTTGTCTGATTAACGAGTCTAAATCTGGAATTTTAATTATTCGATCTATGAAAACATCTGCTAACGTGGTAGCTGTTATTCCCTTAAAAATTGATTCTAGCTTATTATTCGGCAATTTTTCTCAATACATTTAACATGAGTAATAATAATGGAATTTCCAACATAAAGAATAAAGGACTAGTTGTATTGAAGTACAGGGAAAGAAGATATAGTCCAACTGTTAAGAAAAAAATCATTGTGATAAGAAACAACCCAGTTTTTATCCATATATTTTTCTTCATCCTTTGCAGGTTCATATAAAATACCCAACGTAATTGATATTAAACTATGTTTTGTTTTATAATTATGGATAAACCAATTAGCGAAAAGCAGAATGATATATTGAAACAAATCTTTCAATTACAAAAAGATTATACTTCTATGTTGAAATTAGATAGATATCCTGATAGTAAAGACAAACGAATAGATGTTTTATGCACTGCAATAATTCACGAGACAATTGAATTACAAAGACTAACATCATGGAAATGGTGGAAAAAACCAACTCCATTTGATACAAATATGGCCAAAGAAGAATTAATTGATATATGGCATTTTGTAGTTCAAGCTTCACTTGAATTAGGTCTAACTCCTCAAGATATACTTGATGAATACAAAAGAAAAAATTATATTAATAGACAGCGAGAAAAAATTGGCTATTGACTAAAATAACTTTGAAACTATCCTAAAAGTAAAATACACATGTTTTTGATAATTACTTGTGGGTAAATCATTTAGAATTGAAACTGATTCATTAGGTAGAAAAAAAGTACCTTCTTCTGCTTATTATGGTGTTCAAACACAACGCGCCATTGAAAATTTTCCAATTAGTGGTATATTACACTCTTCTGAATTTTTAGATTCATATCTGATAATTAAAAAAACTGCTGCTAAAACCAATATGAAATTGAAGTTATTAGATAAGAAGTTTGCACTTGCTATAATAAAATCTGCCGATGAAATACTAAGTGGTAAATTCAGAGATCAATTCGTTGTTGATGTATTTCAGATGGGTGCTGGTACTTCATTTAATATGAATTGTAATGAGGTTCTTGCAAATCGTTCTAATCAATTACTTAACCATAAGCTTGGAGAATACAATCCAATAAAACCCAATGATCATGTTAATATGTCTCAATCTACAAATGATACCTTTCCTACTGCAATTCGATTATCAATTCTTTTTACTCTCCCTGCACTTGAAAATGAACTTAAATTATTATCTGTTTCATTTCTATCTAAATCTAAACAATTTAATAAAATTCTTAAGGCTGCACGAACTCATTTGCAAGACGCAGTTCCAATAACTTTAGGACAAGAATTTAATGCTTATTCTTACACTATTGCCAAATGTCTCAAGGATATTCAATATAATAAAAAACAACTATATGTTTTAGGTATTGGTGGTAGTGCTGTAGGCACTGGAATAAACACTCATCCTAAATATTCAAAGCAAATAGTACATGAACTTTCTGTTGAAACCGGTTTATCACTAAAACAATCAAACAATTTAATAGAATCAATGCAAAGTCAAAAAGATATAGCTGATATTTCTTCTAGTTTTCGGAATCTTTCTCTGGAATTAACTAGAATATCAAATGATCTAAGACTTATGTCGTCAGGACCAAGAACAGGTTTATCTGAAATATCTCTACCTGCAGTTGCACCTGGTTCATCAATTATGCCCGGTAAAGTGAATCCATCAATGCTTGAAATGATGAATATGGTCTGTTTTCACGTTATTGGTTGTGATACAGGTATTGCTCTTGCAACTCAGGCTGGGCAACTAGAACTTAATGTAATGATGCCTATGATATCTTATAATATATTATTTTCCATAAAGATACTTACTAATGCAATCAGACAGCTAAGGAAATTTTGTATTGATGATATAACTGCTAATGAATTAGTTTGTAGAAAGTATGCTGAAGAAAGTATTGGCATAGCAACAATTCTGAATAAATATATTGGGTATGAAAATGCGTCAAAAATTGCTCAAAAATCTTCTCGTTCCGATAAGAACATTATCGATATTATTCGTTCTGAAAATATTCTAACTGAAAATCAACTTGAGAAAATTCTTGATATTAATTCATTAACTCATTCAGGTAACCCCAAATTTATAATAAACAAAAACAATAAATTAGGTGAAAATATTTGAAAAAATCTAATTTTGATAGCTACAAATCAACTTTCTCTTGGCGTTATGGTAGTGAAGAAATGAGATCACTGTTCTCTGAAAAGACGAAACGAACCAAATGGAGAAAAATTTGGTATGAACTTGCATCCTCTCAATATGAATACGGATTACTCACTAAATCAGAATTAAATGATATTAAGAAATTTTCATCTTCAAATAATATAAATATAAATCGTTCCTTAGCTCATGAAAAAAATATTCGCCATGATTTAATGTCAGAAATTAAAACATTTGCAAATCAAGCAAAAACTGGAGGTGGAAAAATACATCTTGGTGCAACTTCTATGGATATTGAAGATAATGCAGATATACTAATCATGAGAGAAGCATTAATAATTATTTTAGAAAAAACAGTTAATTGTTTAGCTTTGTTATCTGAAAAAATTAAATCGTATAATAAAACTGTTTGTATGGGTTGGACTCATATTCAACCTGCTGAACCAACAACTCTTGGATATAGATTCTCATTTTATGCACAAGACTTGCTTATGGATATAAAGAATATTGAATTTATTCTTGAGAATTTTGTTATTGGTAAAGGTATTAAAGGCGCAGTTGGCACATCTGCAAGCTATCATAGGTTGTTGGGTAAAAATACTCAAAAACTTGAAAACAACATAATGAAAAAATTGAATATAAAGTATTTCTTAATTTCTTCTCAAACATATCCTCGTAAAGTTGATTTCCTTGTACTTTCTGCTTTATCATCTCTTGCTCAAAGTTTACATAAATTTTCTATCGATTTTAGAATTTTACAATCACCTCCTTTTGGTGAGTTTAAGGAACCAAGGAAAAAACAACAAGTTGGTTCTAGTGCTATGCCATTCAAGCGTAATCCCATGATGTCTGAACGCATTTCATCTTTAACACGTTATGCATCATCGTTTCTTTCTGTTGCTCATTCTAATGCCTCAAACAGCATTTTGGAAAGAACTCTTGACGATTCAGCAAATCGTAGAATAATTATTCCGGAAACCTTTCTAGCACTTGACGAATGTTTAATGCTTTATTCAAAAATCTTGTCTGGTATGGAGATATCTAAAATCAATATAAATAAGAATCTAGATGCATATGGACCTTTTACCTTGTTAGAACCTATTATGATGGATTTATCTAAACAAGGAAAAAATCGTCAAAATTTACATGAAGAATTTCGAAAAATTTCTTTACAAGCATGGGATCAAATAGAACTTGGTAATCCTAATCCTTTGTTTAAATTAATATCTAAAAATAAGAACTTATCAGATTTCGATATTGATATAAAAAATCTTTCTGATTACTCTAAATATGTTGGTACTGCCCCTGAAAGAGCTCTAATCTTAAGAAAATCCATTTCTTCTGTTCTTAGAAAATATAAAAATAGAAACAAAAGAACTTCTGAACCCAAATATTAGTTTTATTTGTTATTCTTATGAAACTCCATCTAGAAAAAAATGCAATTCGTGCAATGGGAGTTGCAGAATGTTCTACACGTAATGCAAAAAAATCTACATTATGTGCTATTGTTATGAGAAGTGATTTAGTTATTGATGGTTGCAATTTTGGTGAATGTACGATAGGCGGCAATGATATTACAAAAAATATTTCATTATTGTATAAAAGAATGAAACGAACTGATATTAATTTTATTATGATTCTAGGTTCTATAATGAGTAGTTATAATGTTGTTAATCTTAATGCTTTATATAACTCACTTGATTTACCAATAATTTCTTTATCATTAAAACTACCAAAAAATCTTGAAATGAATTTTAAAAATAAGTTTCCCACTTCTTGGCAACGAAAAACAAAGGTTTATTCTCAAAATGGAAAAGCATTAAAAATTACTACTAAAACAGGTCATTTTGTTTATGTTAACATTTCAGGTTTATCTTTATTTGAGACTAAATCTGTCTTAAATAAGTTTTTGTTACAAGGCTCAATTCCTGAACCAATAAGAATTGCAAAACTATTTGCACGTGCAAAGACTATTAATTAAATGAATTAAGCTTCAGGTTCTAAAACTGTTATTGTTCCTCTCATCCAGGGATGTGGTGCACAATAATACGTATATTCTCCGGCCGCAAGAAATATGAATTCAAATTCTCCTTCAGGATCTATAAAATTCGAATTTCCTGTTGACTTTATGAATTCTTTTCCTATTTCTGCTGTTACAGTATGTATAATTCCATCCAAATTTGTCCATATTATAGCATTATTTTTTCCTAATATTACAGTAATTTCCTTTGGCAAGAAATTATCTTCTTGTTCTCGTTCCACTGATCCTATAGCAATCTCTATTGTAGTTTTTTCCGGTGGATTTTCCCATTCTTCAGGAACTTCTATTTCTTTGTTCACTAGAGGCATGTATATAAACTGAAAATACGCAAGTCCAGTAATGGACACTAATATTAATAGTAAGAAAACTGGTCCTGCTATCTTTGACGTCTCCGACACAATTACTAAAAAAATAAAGCTACTTATAAATATCCTACTTTCTACCATTTTTGGCAAGAATGAAAATAAATATATATAGACCTAATGAATATTGTTCTAGACTAGGTGGTTTTTTAAATGATAGAAGAAAATACATCAACTGACAAACCCGATGATAATCAAATTTCTAGACCTGATGATGGCTCTTCTTCCGAATCTTCAAATACTTCAACTGATGTAAAATCAGATTCTTCTTCTGGTGTAACTAAACCCGATGATTCACAAACTGTTGATTCTACTGAAAAATCAACCGAACCTAAATCTAAAGAACGTAGAAATTTTCTTAAGGTAATTGCTGTTGCTGGAGGTATTTTAGGTCTTACACCGTTTATTCCCTATGGTTCATTCTTTACTGCAACATTAGGTGGCACTGAACCTACTAGACAGAGAATTATGACTGTAGAAGGTTTTTTTGCTAATGTAAATGATATGAAACCTGATTCAGCTATTGTATTTCCTTATCCAAGAACAGGTGATTCTGAAAAAGACGCCGAGCCTTTTCGTAGATATCAATTAATTCGACTTGCGTCAGATGCAGGAGGCGATGCAAATAACGAATCATCTTTTAGAATTTATAGTATGGTTTGTGTACATCTTTGGTGTCTTTGGGATTATATTGAAGGCAGAGAAATAGAAGTCGATGGAGAAAAATTATCTGGTAATATTGAGTGTCCCTGTCATGGCAGTAATTATGATCCTCGAACTGGTTTAGCACATCGAGGACCTGCAGTTTTACAATCTAAACCAAATAACGCTCTTCCAACACTTCCTATTGAAGTTGACGAAAACGGAGATATATGGGTTCTTCCGCCAGATAATGCTTTAGATAAAAATGGAGTTGTAGGACTTGGCCGTTACGTCTAAAAAACAAAGTTTAATTTCTAAATTTTGGGACTATATAGTAGATCGATTAAACCGAACTGTATTCTTAGGAATGAAATTTACAATGCCTAAAAAGTTTTTAAGCCCTATGGGTTACAGTGGCATGCTAACTTTTTGTCTCTTTTTGCTTCTCGGTGTAACTGGTGCATTCCTAATGTTGTTTTATGTTCCAGGAATTGAAAATGCTTTTGACAGCGTTGAATACATTGATGAAGAAATTCCATATGGATTTGCAATGAGAAATTTACACTATCATGGTTCTAACGCAATGGTCTTTATGGCAGTTCTACATCTTTATTATCAATATTTTAGCGGTAGATATAAAATTAAAAATGAAATGATATGGGTTACTGGTGTAATTCTTGGTGTTATTACTATATTAGAAGCATTTACTGGATATAATCTTCTCTTTAATGATAGGGCTGAATTGGCTGTTAGTATAGGTGTTTCATTAACTGTATTTAGTCCAATTATAGGACCACAACTTGCCCAAATGATTTGGGGACAGGGATTCTCCGACTTTTTAATAAGACTATATGCCCTTCATGTATTCATTATTCCGATTGTAATGGGCATTCTTATGTTTGTTCATTTTCCACGGTTTATGGTTTTAGATATTCCAATGTGGGCTGTAATGGTCGGAATAATTTTTATTACTGGAGGAGTATTTCCCGTTGAAATGGGCACAAAATTTGATCCAAATCACCCTCCTGGTATTACTGTACCTGAATGGTATCTTACAGGGTTGTATGCTTTTATTCGGACTGGTTTTGATAAATTTATTACAGGTGGATTGTTGCCGGCACTTCTGATTGCTATGTTCTTGTTCGCTCCATTTATTGATCATAGTAGAAAAATTACCTGGAAAGATAGACCTTTCTTAACTGCTCTCGGAGTTGCTAGCATAACTCAAATATTTGTTACTACAGTTTGGGGATTTTATGTTGATCCCGACGTTACAAAAGATCTTACTCAAAGATTGTTTATTGAACCAATTCCATATTACAGTGCTATGTTGATTAGTGTTGCTTTAAGCTTCGTCGTTGTCTATGGTTTCTTAAAAGCACGGTCTGTTCTTGCTGGTCCTAAACTACCCTTAAAAAAACAAAGACCAATTATATTGAACACTACTTGGACTTACATCATTATGCTTGCACTTGTTGGTTTTGAGGTACTACTTAACGGAATGGCATTAATGGCTTATCAAGGCGGATTGTGGGCACTTGCTCTATTTGAAACTGGTGCAATATTAATTATATTCGGAATAATTGCTCATGTTTATCGTTCTTATAATCCTAAGGTAATTGCAGCAGAAGAAGCTGCGAAAGCTGCTAAAGAAGAATCTGCTAATGAAGAATCTGCTACTGAAGCTGAAGTTGCTGTACCAACTATAACAAATTCTAAAACAGATTAATTTATAATTCTAATTTCCTTTTAGCCATTTCTGCGCCAGTTACCATATTTTTTAACTTTGCAAATGATATTTCTCTTGTTCTAGTTCTTAGTCCACAATCAGGATTTACATGAATAAGGTTTGGATTATCAGTGATTTTTACTGCATATAGTATTCTGTCTCTTACTAATTCTGGTGATTCAATCTCATCAACATGTACATCTAATACTCCTAAACCAATCTCTTTCTTCTCACCATATTCTCTAACTGTCTTTAAAAATGACTCGTATCCCTTCCTGTTTGAATGATTAATGCCTTTATTCCAAGAATCTCTATTTGCAAATTCTAATTCATATTGGTGATTCTTCATTTCTAATACTTCGGGATACATATTTGAATAATCTTCACTATAGCATATGTGTATTCCAAATTTCGCATTTATCCCCTTTATGGATTCATTAAATGATTTTACAACTAATTCCATTTCATCTGGATGAGTTGTCGCTGCAGGTTCATCAATCTGAATAAAATCTACACCAGTTTTAACTAAATCTCTAATCAATGGTCTGATGACTTTTTTCGCTAAATCAATGGTAAAGTCCTCTTTTGATTTGTATGATTCATTGTAAGACCAATCTGCTAATGTATAAGCTCCAGTTATTGGTAGTTTTATCATCTTACTTGTGTGCTCTTTTACGAAAAGAAATTCATCAACATGATACGGTCCTTTGTATTGAACTTTCTTTATACATCTGCCTTTGTTGTAGTATTTATTGTCCCAAGATCTAATTTTTCCTGCAAATTTTAAACCTTCAATTCTTCTTATACTGTATTCATACATCTCTACTCTCCTAGCTTCTCCATCATAGACTATATCTAATCCTAAACCTTCAAATAACTTCAAATTCATTAATGCAACAAAACTTCTACCAGCTTCCTTAATATCATCTGATAAATTTTTGTCTTGTAATAATTTGACCAACCATCTTGGTTTTCTTATACTGCCAATTTCTTGAGTTGCTATAGGAAACTTTTTCATAATTTAATCACTTTACTTTTTTCTTTTATTTGTTTCATTATGTTCATTTTCTTAATTGCAAATGATTCTGGTATGAATTCAAAGTCCCAACTTGGTATTATTGCTAATGATTGTGGATTAAATAATTCTTTAATATTCTTTAATTCTCGAATAACTCCAGATGTTTTTTCCATTTTGGTATTTTTTGCATCGATCAAACCACAAGCTAATCCTTTTTTAATATCTGTTTTATCAAACCTGTCAATTTTTGAACTAGTAAAATCTATGCCGATTATATCGACAGGAAATTCTTGAAATTCTTCAAACGTATTTGATATATCTGAACCCCATAAATTCAAACATGTTTTAACATCTAGTTCCTTTGTTATTTTTTCCATAGCTTTTTTAATACTATCTAACTGATCTTTTTCTTTTACTCTTGCTAATGATGGAGCATTAAACTGGATTAGTTTTACATTTCTTTTTATTGAATTTAGCTCTTTTTTAATTATATCTGCGTAAGCATTAATGACTTCATTTTCTGACTTGTAAAATTCATTTGAAGACAAGTCATAGAATGTAAATGGATCTAATATGTCTAGTTTAATCTTGGATTTCTTTGAAAATAAATTAAAACATAAGTTATCCTTGAGAATCTTACCTGAAGTTGATATCTTATTGATAATAATTGGCTGACGATAAAAAGTATTATTTTCATAATATCTTGTTAATGCCCCACTTTCTATTCCTTTTAGATTGTCTGTAAATGGCCTAATGTTGTCGTCCCAATCTATTAATGGATCTGATATATAATCGAATTTATTTTCGTTTTGTAGTCGTAATAATTTTATTTTTTCTTTTTTAAATTGCTCTTTTAAATTTTTGTCATATATTCTTGTTGATTCAATTAATGATTTGTTTCTTGGATAAATCCCTGTAACCCAACTATTTATCAATTCTTGTTCTTATTGTTTTGTAATTATCTATATTAAAAATATTTCCTAATTTTATTTTATCTTGAATAAATCACTTCTTGTTACAATTCCTACTGTTTTTGCTTGTTTTGTGACAATTACTGCATCAAAGAATTCCAATATTTGGTATAATAGTTCAATAGGCGTTTCCGCATCAACTGTTGGGAAAGACGAATCCATTACATCGGAGACTTTTTTCGCAAATGCTTCATTTGGAGAACCTGATTCTGATAAAACATGTAAAATAGTTTTTTCTGATAAACTTCCAACAATCTTATCTCCATCAAAAACAGGTAATTGTGAAATATTTTTCTCTCGAATCTTTTTTACAGCATCTTTTAATGTTAATTTTTTTTGTATTCCTTTAACAGTTTTAGAAGCTATGTTCTTTGCAGTTCTTGAATCTTTTCTTTCTTGTTTTTGCAACGTTTCTATTAATACCTTTACTTTTGAATATGCAGGTTCTACTTTCTTCGCTTCCATTTTAGTAATTAACGATTGACTCACTCCAGATAGATTGGCCAATTCTGTTTGGGTTAATCCTAGTTGTTTTCTTAATTTTACAATATCATCTATTTCAAACATTATTCTTTATACATATGGAAGAAAAGATATGTCTTTTGGAAACAGATAAACTATAGTTAATAATATCTCAATTAATAGCATGAAAGCACTTATTCTTGCAGGAGGTCAGGGTAAAAGACTTAGGCCTTTAACTGACAATAAACCTAAACCTATGATTAACATTTCTAACAAGCCTATTCTTGAGTGGCAAATAATGTGGCTAAAATCACATAATATTAGAGAAATTATTCTTTGCACTGGTTATATGAGCGAAAATATTATCGAGTATATTGCAAATGGAGAAAAATTTGGCGTTGAAATAGTTTATTCTAAGGAAGAAAAACCTCTTGGGACCGGTGGAGCATTAAAAAATTCTGAATTTCTTCTAAAAGACCACTCGTCTTTTCTCGTCATGAATGGTGATATAATGACTAATATGAATCCTGATTCTCTCATTCATAATCTTGATAATTCTCTTGTTGGAACAATTTCTGTAGTTGCTTTGCGAAGTCCTTTTGGCGAAGTTGAAATTCAAGATGATGGGTACGTATCTAGCTTTAAGGAAAAACCTATACTGGACAATCATTGGATTAATGCTGGAGTATATTGTTTATCTAGTGAAGTATTCAGTTATTTATCTAATATCGGTAGTTTAGAATCTGATGTTTTTCCATTACTTGCTAAACAAAAAAAACTTCGAGCAATCAAACAATCAAATATAAAATGGCGATCTATAGATAATCATAAAGATATTGAAGAAGCTAACAATGAATTTTAGTTCTTAACACTATTTTCCAATTGTTAAGATCTTTAGTTTTTTAAATTTTGTACAATCCAGAATACCTCTTCCATCAAACACTAGAGGCTTCTTATGTGATTTTTTTATTATATAGCTCTCTGAAATTTCTTTATACTCGTCATGATCCGTTGCAATAATTATTAAATCTGCTCCATCTATAGATTTATCTAAATCTTGACTTAATTTTACATTTTTTGGTAATAGCGGATCATAATTAAAGAAAGGATCGTGTATTTTTACTCTTATTTTCTTTTCTGTTAAAATCTTTGTAATTTCATATGTTGGCGAGATACGATTGTCCGCTACATTTCCTCTAAAGCTTAATCCCAAAATTGTTGCGTTAACTCGTTTCTTATTTTTATCTAGTTTAGATATTATTCTATTTACTGAATATTTTGGCATTTTTTCATTTATGAATCTGCTTAACAATGGAAAATTTAACTCAATTTCTTCATCTATTGCAGTCTGCATTAATAACCAAGGATATATTGGAATACAATATCCTCCTACACCTATTCCTGGTTTATGTAAATGACTAAATGGTTGTGAATTTGCTGCATTTCTAATTTCCCAATAATTTATTCCTACTTTCTCACAAAATGTAGCTAATTCATTTGCTAACGCAATATTTACATCTCTATACAAACCCTCAATTAATTTTTCAGCCTCTGCGGTTTCTATGGTCGATATTGTGATAGGTTTCTTTGAAGAAATTAATTCAAACATCTTACTTGCGATTGAGATACTCTTTTTGCCAGCTCCTGATATGATTGGTGGATAATTGTTTTCAATATCTGCTATTGCTTGACCTGCAGAAATTCTTTCTGGTGAATAAACAAAAAAGAAATCTTTTTCAACCTTTAATTTTTTTTCCTGTTCAATTAATCGAATTATTTTTGTTGATGTTCCTATTGGAACTGTAGGTGTTACAATTATAACATCATCTTTTTTTAGTCCACTGATTATATCTCCTATTGCAGAATATAGAAATCTCAAATCTGCCTCTCTCTTACTTAATCCTACTGGTACTGATACAATTTTTATGTCTGAATTTTTTGACGCCCATTTTCCATCTGATGTTGCAGTTAATTTTTTGTTACTTAATCCTTCTATGAATGTTTCTTTGGCTTTTGGTTCTGTATTTGTAATCTTTTTTTCCCTTATTTCACTAATTAATTTCTTTTTTTTATCTACTACAATAACTGACGCCCCTGCCCTTAACCAAGTTGATGCAATTGCAGTTCCGACAAAACCAATTCCATAAATTGCTAATTTCTTGTCTCCTGACTTGATATTTCTTGTTAATTCCTGTATGTCCTTCTGATTCATAATATTATTATTCAAAACATTTTAATTAACGTTCTTAACATCTTACAGCAGTTTAATAGTGTGTTGAATACGCATCAAAATAAAACCCTATTGATTGTTTTACCCTATGGAATAGGTTGGGATTCTATTGTTAATAAGAAAAATCTCGATATATTGACTGGTTCCGGACTTCGTATTGTTTTACTTTGCGAATCAAATATGTTCTCAACTGATAATCCTAACGTTGTAGTTAAAACTTTAAAAAAATCTCAACGAACTAAATCTGAAATTGCTTTTGGTTTATTACGGAATTATGTCTTTTCTGATACGAGTAAACAACATTCTGAAACTCTTAAGATAAAAATTTCTGAATTAGATCAATCACATAAATTTCTGTCTATTGTTCGACGTTCTATTGGTAAGGTTTTTGCAAAAAGTTCCGTTATTAAAAACATACTTTCTTGGATTGATTGTAAATTTTTTGTTACTAATGATTACGATAATATATTCTTTGAATTTAAACCGGATTATGTTTTTATAACTTATCCATTTTCTTTTTATACATATCCTGTAATGAGATATGCTTCTAATTCTAAAATTCCAATTATAGGATATGTTCCTAGCTGGGATAATCTTACTTCTAAATGGGAAGTTCCGATTAAACTTGATAAATTAATTGTATGGAACGATATAATGAAAAAGGAAGCAATAAATTTCTTAGGATATAATGATTCCCAAATTGAAATTAGTGGTGTTCCACAATTTGATTTACATTCAGATATTTCATCATTAATGGATCGCACTGAATTCATTAATTCAGTTCATGGTGACGTTAACAAGAAAATACTATTGTATGCGACAGGAACTACTCAACTTTCTGATGCAGAACCTGAAATTGTAAAAATGATATATGAAATGATAAATAACGATTCATTTGATAAACCTTGTCAATTGTTATTACGTGTTCATCCACGACGTAACATCTCTGATTTTCAAAACATTGTTGGTAAACCTAATGTTATATTTCAAACTCCTGGTAGAAAATCTGATGAATTTCAAGATTCTGGTTATATTTGGAAATCTGACTTGACTGATTCTAATATTTTATCAAATACTCTAAATCATTCTGATATTATGATTAATGTTGCCTCTACTATTACAATTGAATCCTGTTTATTTAACACACCTGTTATAAATATTGGATTTGACGCAAATCTTGAATTAGCTTTTAATAGATCTGTGGCTAGGCATTTCCAATATTCTCACTATCTAGATATAGTTAATTCAAATGGCGTAAAAATTGCAAAGTCTCAAGATGATTTATTAAATTTTATAAACAGATATCTTCTTAATCCTGACTTTGAATCCGAAGGACGTAAGAAGATTGTTGACACACAATGCCATTATAATGACGGTAAATCTTCTGAACGCCTGTTAAGATATATAATAGATTTCACTAATCAAAAGTCAGTTTAGAAGTAAGAGATATGGTGTTTGGTATGGCTGTTAGATTTAGTGAGGTTCTAGTTAATTCTGGAACTAAAATTAAAGATGTTCTAAAAATTATTAATCAAGCTCCACATAAAAATCTTCCATCTGGTATTGCAGTAATTGTTGACGATTCAAATTCTTTATTGGGTATAGTTACTGATGGAGATATTCGACGTGCATTACTTAACGAATATACTATTGAAGATTCTGTTGATAAAATAATGAATAAAAATCCAATAAAATTCCATGAAAGTCTTTCATCTGACGAAATTATTGCTTCTGTTTCTACTAACGATGAAAAAAAATCAATCACTAAGAACATTTTGATAGTAAATGATAACAATCAAGTTATTAATATTTTAGATAAATCACAACTTGGAATAAATAATCTTACGTCTATTTCTGTTATTGGCCTTGGATATGTTGGTTTAACTTTGGCAGTATCTTTGGCTGATGTTGGATTTAAAGTTATTGGTATAGATTCTAATAATGAAATTGTTGATAAACTAAATAAAGGAATTCCTCATATTCACGAAATTGGTTTAGATTCTTTATTAAGATTTCATCTCGGTAAAAACTTAACCATTCAATCAACTTCTTCCCAATCTCGCTCAGATGTTTATATTTTGTGTGTTCAAACTCCAATAGACGATAATAATGAACCAATTGTAGAATATATTGAACAAGCTACCGAATACATTGCAACTAATCTATCACCCAACAATCTTGTTATAATTAGATCAACTGTTCCCATAGGAACAACTAGAGATGTAATTATTCCAATTCTCGAAAAAACATCTAGATTAGATTCAGAAAAAGATTTTCATACTGCTTCTGCTCCTGAACGAACAGTTGCTGGTAGAGCTTTAAAAGAAATTCGAGAACTCCCTCAAATTATTGCAGGATTTACTTCTACTAGCTCACAACTAACTAATAATTTATTTAAAAAATTAACTCAAACTATTGTTAATGTTGATTCTCTTGAAGAAGCTGAAATGATTAAACTTATGGATAATACTTTTCGTGATTTGATTTTTGCTTATTCTAATCAAATTGCTTTTATTGCTAGTAATTATGGTATTGATACTTCTAAATTGATTCAAGCTGCTAATGAAGGTTATTCTAGGAACCAAATTCCTAAACCTAGTCCAGGTGTTGGTGGCGTTTGTTTGAAAAAAGATCCATATATTTTAATTTCAAGTTCTAAGAAACATGGATATGTTCCTAAGCTTACTGAACTTGCTCGAATAATTAATGAAAGTATGTCTGATTACATTGTTAGTAAAATAGAAAGCTTTTGTAAATTGCACGACAAAGATATTTCTAAGATGAAAATATTTGTAATCGGATTTGCATTTAAGGGCAATCCTGAAACTTCTGATACTCGACAATCGTCCACTCTTGATGTTACTAATAAATTAACTCACTTGACAAATAATATAGTTGGATATGATCCTGTTATTTCTCAAAACGAACTTAACAAATTAAATATTAAACCTGTTAAACTTGAAGAAGGTTTCAATAAAGCTGATTGCGTTCTTATTATGAACAATCATAGTTCATATTCCAAGTTTGATATATATTCTCTTCTTTCTCAAACCAATAAACCATCTATGTTCTTTGATGGTTGGAGTATTTTTGGTCGTAAAGTGATTGAAAAAATAGATCATGTCGATTATGAAACTATTTGATTAAAATTTTGATATTCTATCTAATTCTAATATATTTCTTGAAAGATCATTATCAGAGTATTTATGACGATTTTTATGCGCTTCAATAATTAAATGTGGCATATCTCTGTTTTTTGACACTTGTTTTAATATATTTTTTATTGGTATGTCACCCTCTCCTATAAGCTTGTGTAAATCTTCTGATCCATCATTATCATTGATGTGCATTTCGTGTATTCTATTTCTAAGTGAATTAATCATTTCGTTGATATAATTATTTGTATTTAATTTCTTTTCTGTATAGTATAGATGTCCAATATTTAGAATAACACCAATCTCCTTTGGCAGTTTATCAAAATCATTAACTTGTGAATATAAATATCTTTTTTCAGGTCGGTAATTGAAATTTTCAATACTTAATTGTATATCCGTTCCTGCATAATCTTTCAGTATATTGAGGGAGTTTGTTGAATTACTGTATGCTTCTTCATAACTAATATTATTTTGTGAATCTAGTGGTTCAAATTCACGTTCTTGTGATAATTTGTCTGCCGCATATCCTCCATGAAATGATATATTTCTTATGCCTATATCTCTAGCAAAATCGATGTTCTTTACAATACATTTAATGCTAGATTTTCTTACTTGATTGCTAGAACTTGCAATATTTATATAAAAATCATCATGTGGTAACCAAATACTCTGATGAATCGTGAAAACAGCCCTGTAATTTTCCTTATATATATTTAATTTCTTCACTAATTTACTATATTCAGTATTGTTCTTTCCCGCTCCAATTTGTATATACGGTCGTATATTTGACTCTTCAAAAATATTAATTAATTTTTTAATTTTTTTTTCAATTGATTCCCCATAATATCCATAAAATGAAGTAGAAGCACCTATCATATCTTAATATATTTAGTAACAGGCTTATATTTTAGCAATTCAATTTTAAATTATTGTGACAAAAATTATCGCTGAACTTTGTCAAAATCATAATGGCGATGTAAATATTCTAAAAAAGATGGTTTGGAGTGCAGCTGATGCTGGCGCAACACACGCTAAAATACAAACAATGTTTTCTGAAGATTTGACTTCCCGAAAACGTTTTGAAGAAGGATTGATTGACGACGATGGTACTGTTACTTCTATTAAACGTCCTTATTCTCTTGAGTTACAAAGATTACAAGGTTTAGATCTTACTATTGGTGATCAATCTTTATTTATTGATGAATGTTCCGCAGCTGGAATAATTCCTCTCACAACTGTTTTTAGCAGAAATAGACTTAACTCAATTATTGAAATAGGTTTTAAAGAAATAAAAATTGCAAGTTATGATTGTTCAAGTTTTCCATTAATAAAAGATTTAAAAAATAAATTTGAACATGTATATGTTTCTACTGGTGCTACGTATGATAATGAAATAGAAATTACAGCAAATTTATTAAAAGATCAGAATTTCTCCTTCTTACATTGTGTAACAATATATCCTACTCCAATTGATAAATTAAATCTTAATAGAATTAATTATCTTAGAAAATTTACTGACACAATTGGTTTTAGTGATCATACTAATTCAAGTATTGATGGAATAAGTGCAGATATTGTAGCATTGTGGAAAGGTGTTGACATAATTGAAAGACATTTTACGATACTTGATTCTTCACAAACAAAAGATGGACCTGTGTCTATTAATCCTAATCAGCTAAAAAGTCTTGTAGATTATTCTCAGATGAGTAATGACGAATTATTTGAACACGTACAAAAAATCCATAATTATGAACTTATGCTTGGTTCTGAAACACATACTCTGAGTGCGGAAGAATTACTGAATAGAGATTATTACAGAGGCCGTTTTGCATCAAAAATCGATGGAAGAACTATATATAATTGGGAAGAAGTTAATTTATGACTGGTCAGAAAGTTCTAGGCATAATACCTGCTCGTGGAGGTTCTAAAACAATTCCTAGAAAAAATCTTACTAATGTATTGGGTAGACCTCTTATATCCTATACAATAACTGAAGCATTAAAAGCAAAAACCCTATCTAATGTTGTTGTATCTTCTGAAGACGAAGAAATAATTCGAGTTTCAAAATCCTATGGCGCATCTGTTCCCTTTGTAAGACCTGATTCTCTTGCAGAAGATGACTCTCTTGCTATTGATGTTTTAATTCATGCTATTCTAGAGACTGAAAAACACGAGAATACAACTTATGATATTGTTGTTATGCTTCAACCAACTACTCCTTTACGTACGTCTCAAGATATTGACGATTGTGTTAATAAACTAATTAATTCAAATTGCGATTCTGTAATTAGTGTAGCTGATGTTGGTGCAATTCATCCATATCGAATGAAAAAAATTATTGATGATAAATTAGTTGATTATGATACTGAAACCATTGAAAATATGCCAAGACAAAGTCTTCCTCTTGTGTATATTAGAAATGGCGCTGTTTATGTTACTAAACGTGATATTCTTGTAAATCATAAATCTCTAAAAGGAAATAACAGTCTTGCCCATTTGATGCCTGCTGAACGTTCTCTTAACATTGATGAAAGACTAGATCTTAAATTAACTGAATTAATTATGAAAGATTTTGATTGGTCTCATATTAAAGAAATCAATTCTGTTTCTGTACCGTGGAAATCTTGGTATGGAAATGAATTCTTATCCTTGACTTTCCCTAAAGAATGGAATGTAAATGTCTCGCAAATGACTGATGCGCCAGAAATCAAAGATTCTGACATTGAATATTCTATACTTAATCCTCTAAATAGTGATAAATTGTCTATTCTTACTAAAAAACATCAATCAGTTTGTATTGCTGTTGATGATCTCACTAAGCCTACTCAAGCATTTCGTATAATCCCGTTTATTATTAATGAACTTCAACACGCAGGTCTGTCTGATAAAAATATTTATTTCATTATTAGTACTGGAACTCACAGATCATTAACTCATTCTGAACTGTGTAAAAAACTTGGAACCAATATAGTATCAAAGTATAAAGTTTATTGCCATAACGCATATCAAAATAATAAATATCTTGGAGAAACTTCTGGAGGTACTCCTGTATATATTGATAATTTGTTTCTACAAGCAGATTTTAAGATTGGAATAGGAACATTGATGCCACATCCATATGCTGGATTTAGTGGCGGTGGAAAAATTGTTATGCCTGGCCTTGCAGGTATAAAATCTGTTGACGTAAATCACAAACCTGTTAATAAATCACTTCAAGGCCAAATTGGCCAAGTCAAAAATAATAGTCGACGAGAAGACATTGAAGAAGCTGCAAATATGACTGGTTTAGATTTTATTGTTAATACAATATCTAATTCATTAGGTAATACTGCTGCAATTTTTTCAGGTAAACCTAAAGACGTATTCTCTATTGCATCAAAAAAGGCAACGGAAATTTATTCTACAGTTGTTCCATATAACATGGATATTGGTATTTTTAATGCATTTCCTAGAGATACTTGGTTTTTGCTGGCGTTAAATTCTCTTAATGTTTGGGGATCTAGAGATCATGATAAAGAAATTGTGCGTAAAGGAGGTAGTATTGTAGTAATTACTGCTGCATCCGAAGGTTTAGGAGAACATGGACTTGTCGGAAAAGGAATGATTCATCATATTCGAAGAGATAAACATGGAACTTTCGGCGGCCCTCTTCGAAACCGTAATCTTATTTTTTATTGTCCTACTATTAATCAAAACTATATACAAGATCATTATTCCGACGATGTTAAAGTTTTTAATAACTGGAATTCTGTTATTGCTGAGTTAAATAAACATCATGGTAACAGTGCTAATACAGTAGTTTTTCCTAATAGCACATTACAAATTGATTCAAATATAATTAATTAAATTGAATGTCTGTTAGACTCTTATTCAATTCTTTAGTAAATGAGTCCCAACTAAACTTTCTTACAACTCTCTCTCTTGCAGCATTTCCCATTTTTCTTCTTATTTGCTGATTATCAAGTAATAATGATAGTTTTTCGTTCCATATATCCAAATTATCATCTAATAAAAATCCGGTTTCTTCATTAACAACTGTTTCTTTTGGCCCTCCTGTATTTAATGCTATTACAGGTTTACCACAAGCCATTGCTTCTATTGGAGCAATTCCAAAATGCTCTTCTTTTGGCGTATATAGGAATATCATACATTTCTTATATAATTCTACTAATTCATCATCCGATACATCTGTACGAATTTCTACATTGTTTTCAAGTTTTGCTTTTTTAATATTTTTTTGTAACTCTTTAAAGTGCCATTCGAATCCTACTTGTTTAACTCCTACAATGATTAGTTTAACATTCTTTTTCGATTTTACTACTTTTTGTATTAGATTTATTGCAAATTGTAAATTTTTATTTGGCACAATTCTGTTTACTGTCAATATAAAATTTTCTTCTACATTTTCATATGAAAATTTGTTTATATCTACTCCTGGAAAAACTATTGAACTTTTTCTATTGAACTTGTTTCTTATTGCATTGCTAGTGAATTCTGAATTACATAGAATACTATTTACTTTCTTAAATCCATTATTTTCTGCCCAATCTATTGGCATATGTAAAAACCTTCTAATTAAATCGTTGTTATCAATTAATAATTGTTCTGGATGGTGACAATAAATTATTGATGGATTATATTGATTTGCTAAATAATAATTTGAACTAAATAAATATAAATCTGGTTTAAATTTTTTTATTCCGTTTCTCATCATCTTTTTACTTTCAAAATATGCAGTAATTGCCCTAAATTTTCCAAAATAATCTAATCTTCCATTACTGACTAATACATTTTCTTTTTGGAATTCTTTAAAAGCACTTTTTTTATCATATATTGCCGTAAAATAAGCTACTTCATGACCGAGTTTTTTCATTGAATTACCCATACCCAATACTAGTCTTTGCGCTCCAGTTCTCATCGATATATCATAATGAATAATTGCTACTTTCATCTTCATTCTTTTTGCCTTTTATATATGTCTAATAGTTTCATAGATATTTTTTTCCTATCATGATTATCTATTATGTATTGTCTATTTTCTTTTGATTCTTTTGTTCTGGTCGTTTCATCTAGGATTTCCATTAATCTATTGTTTATATCTTCTTTATGTCGGTAATCTATTGTTACTAATCCACATGACATTGCTTCAAGACAAGTTTTACTAAAAGATGATACTCCCTTTGTAAAAATTCTATCAATGTATATATGATACTTCTTTAACGTATCTTGTAATTCAAAATACGAAAATGGCCTCCTGTCAAGTATATCTACTTTAACATTGTTCTGTTCTAATAATTCTATTAGATATTTTGGTACTTTTTCATACCACGAATTAAAACCTATTGCTCTTAATTGTTCATCTTTTACACTTGACGGAGAGAATCTTTCAATATCAACTGGATTTGGCAGATATTCTGCATCTTCTCTTATGGTTTTAGCTAACGAAAGCATTTCTGGCGTTGACACAATAACTGTATTTGCATATTTCAAATTTCCCTCTATTACCCATCGCCATTTTGATAAATCTTTACTTTGCTTTTTAAATTCTTCATCAATTAATCCAAATAAATCTGTTCCATGACAATGTAATACGTTGATCTTTTTTCCTATTATACGAACGAAAAATGCATCTTGTAATGCATAATTTACATGAATTATTCCTTTTGCTTTTACTGCATTTACAAATGGTTTTATTGCTTTTCCATATATTGAGTAAATTGGATTAGTTTTCACATTTGGCCCAGCAAAATTTCTTGGCAAATATTTCACATCAACATTTAACTCACGAAGACCATTTGCAAGTTCGTAACCTACCCAAGCCGCATCGTTTATTATGGTTACCTGTTTATTATCACTCATTATTTTTTTATTATTGATATTGTTTATAACATCTACCGATTTCATAAAGTTGTTATTTTAATAATTCTTTGAACCAAGAAATAGTTATTTCAAGACCCTCATCAATTGAATATTTAGGTTTCCAATTTAGTAATTCTTCTGTTTTACTACAATCTGCTTCTAGCTTTTCAAGATCTGCAGAACGTTCTTCTTTATAAACAAGTTTTGATGACGACCCTGATATATTAATAATTTTATTTGCAAGATCTATGACACTTGTTTGTACACCTGTTCCAATGTTGAATATTTCTCCTTTTGCTTTTTCTTTTTCTTTCATTACTCTAACATAAGCTTCTACTGCATCTTTTACATACATTAAATCCCTTGTTTGTTTTCCATTACCGTCAATTTGAATATCTTCGTTTTTTATTGCTTTAGTTATGAATTCTGGTACTGCCGCAGGATATCCTCTATAAGTGTTACTTTGATTTTCTCCATACGTATTGAAATTTCTGATTATGGATACAGGGTATTTATACCATTCGTATAGCACCATGCAATGTTTTTCTGCTGCTAGTTTTGTTGTTGCGTATACACTTCGAGGTCTACATGGATGGTTTATATCCATTGGTGTGTAAATTGGATTTCCATATACTTCTGGCGACGAAGCATAAATTAGAAAAGGTCTACTTTTAGTTTTCAATAATTCTTGACAAAATCTGAATGTTCCGATTTCATTTAGTTCAAAATATTCCATTGGTTTTACCATTGATTCAGGAATTGATACTAAAGATGCTAAATGAATTACACAATCAATTCCAATTTCATCAATCTTCTCTGCTGTTAAATCCCGAAAGTCCATTTCCCAACTAACAAATCTCTTTTTCAGACTTTCTTTATCTTGTATTATATCAAATGGATTTACAGTAAAATCCTCTAATCGATGTAAATTATCAACACCATATATTTCATTTCCTGTATCTTTTAATAATGAATCAATTAGATGTGATCCATAAAAACCAGACGAACCTGTAACTAATATTTTCAATTTATATTGTTTAAATCTTGGTTATAATTAATTATTTCCATAATTATATAATAAACCTGTGACATTCATACGCTTCAGCATATCTTACACTTATTTCATTACCTCTTAATTCTGCTATTTTTTCAATTGTATTTAGTGTTCTTGGATGATTTTTACTTCTTACTTGTGATGAATATAAAGACAATGCTTTTTGTTTAGTTTTTAAGTCTCTACTTATGTCCACAAAGAAATTTGGATGAAATCTTTTTCTTGTCCAATTTGTTTCAGGTTGTTCATATGATAATACAATTTGAGAAATATTTTTTCTTGCATCTTTTACTGGTCTACAAGCTGTGAAACTTGCTTTTGCAACTGCTACATGATCTTGGTTTGTAGAACCTATAAATGGAATACAAACAATGTTTGGAGTTACTGTAGATATGGAAACTTCTCCTTTTTCAATTATATTGATTAACTTTTTTTGAGGAACTTTATCTAGCTTTAAATGATATTCATCTCCTGCCAGTGCTAAATTGAAAGAATCTACTTTAAGGTATCTCATTACTTTGTTCATTTCTTTTATTCTTTTCTCGGTATTGCTGTATCCACCATACTGTTTGATATTTCCAACTGTAAAGCATAAGACATGTACTTTACCTCCTTCTTTTTTTACTTTTGATATTAATCCTCCACATCCAAGAACTTCATCATCAGGATGAGGTGCAATGACTAGTACTTTCTGATTTTTATAATTAATTTTCATTTTTGTGCAGTTATTCCCATTACAACTTTCTTTGTAATAAATTTCTTTTCTTTAATAAATATATTTGAAATCACATCTTCAAATTTGTTCTGTACATCTTGTTCAAATAATGTATAAGATTTCCAATATCTAAGTAATTCTTCTTTATTAGGGAATGTTATAGGGTTCTCAAAAACTTCTGTCCGAACATCTTTGAATAATGGCTCAAAGTACGGTAGTGCGTTATTTTCCATAAAATTATTATGCATATTGTATTCTTCTGGAAGTTCTCCAAAAGTCTCATGTATGTCTGTTAATTCACGATTATTTCTATTCATAGGACCACATACAAAACATTTTCCATTATTCTTTAGTTTATCATAGATGTCACTGATTGTTCTTTTATAATCTTTTGAATAATATAATCCAAAACAACAGAATATTAAATCAAATTGTTCATTTTTAAACTCCTTTCCAATATCTTCCATATTTCCTTGCTTCAAAAACACATTATCTTTTCTTACATTCAATTGGATTTCATTTAATAATTCTTTAGATATATCTAATCCTGTAATAGTTCCGTTTGCATTAATCATCTTACTTATTGGAATTAGTTGTTTACCATTTCCACATGCTACATCTAATATCTGACTATCTTCTTTGATTTCTAACTTTGGAATTATCCAATCATTTATCTCATATTTAGCAAAATTTGCATGTGCAGATATTCTGTTATTTAGTGCGTCAATTGAATTTTGTGCTCTTGCCAATATTACTCACTTTGATAATAATCTTGTCCTGAATTAAACTATTACTCTAGTTAAGATTTTGTTAATGATGATTTGAGTTTTGTTATTATGGCCTCTTTATCTGTATCCACTATATATTTACCTAGTTTTGGACCTTTATTACTGCCTAATAATATTCGATAAATTAGTTGAAAGAACAGTTTTGTTTTTATGTTATTCTTCTTTGCAATTTCAAAGACTTCATTTTGAATCTTTTCTGGATCTGAGTTTTTCTCTAATAATGAAATTAATTCCAATAATGCCTTTTTTTCAACTTCATTTAATTCAATATCTATTATGTTGTGTGTTTTAAAATCTCTTGCCCAATTTATTCCTAATATAATTCTTTGTAGTAAATTGTCATCTATTTCTTTTATATATTGATATTCTATCAGTTTTTTTGAAATATAGTCTTTAGAATTCTCTTCCGGTGCAATTTCTGCTAATTCTACTAATAATCTGTAAGGAAGATGTATTGATATTTCTTTTGGCGGACGTAAATGATGTATGTATTCATACAAACCTTTGGTTCTTATGGTTTTTTCCTTATTTTCTAGTGTTGTTTTATTGAAATAAACGTCTTCAATTACATCTATTTCATCCATATATGTTGGTATGTCCTCACCGGATAAAGATCTTGATCCAGAAATCCTTTTGAACATTAACAAAAATAAAGATTCAGGTGTTCCATATTGAAGCCATTTTTGTGGCGTTAAAACATTTCCTATCGATTTAGAAATCTTTTTCCCTGATTTGTCTAAAAACATTTCATATCTGATGTGAAATGGATGCGCATGATTGAGTATATAGTTTGAAATCCAATCATTAATTTTAACTGAATCTTCTATATCTTTTCCATACGCTTCAAATCTTACATCCAAAGCAGACCATCTAGCTGCAAATTCAACTTTCCAACTTAGCTTTCCTTTTCCAATTGTTGTATTTAATACATCTTCGTTATTACAACCTTTGATTAAATTTCCTCCAATTTCTATATCATTACATTTGTAGTGAATTGTATTATTTTCTTTATTAAATTTTGTAGGAATTGCCGTATAAATTCTGCTACAGTTTTTACATATTGGATAATATGGTAACACGTTCATAAATTTTGTTTGACCAGTTATCTCTGATATTTTCTCTCCAATTTTCATTGAATTTTTTAATATACTAATTATTTGTTCATTTAAAATACCGCTTTGATATATTTTTGTGGCACTTTTAAAACTGTAATCGATACTGAGTTTATCTAATCCATCTAGTAGTAAAGAACTCATATGTTCACCATAAGATTCATGACATCCAAATGGATCGTCAATAGAAGATACAGGTTTTCCAAGATCATCTTGAAGTTTATCTGGAAAATCTTCAGGTATTTTTCTAAGTCCGTCCATATCATCTGAATAAGCTATTAATTCTGATTTGTAACCCATATCTTCTAATGACAGTTTTACCCCATAAGCTCTTATTGCATCTCCTAGACTTCCTATATGTGGTATTCCTGATGCTCCTAATCCACTCTCTACAATAATCTTATCTGTTGCTCTGTTTAGTTTTAATTCTCTATCAATAATATCCTTGGTTAGTTTATCAATCCATGTCCCTCTTCCTATAGTATTCAAAAATTAATCATTGTTCCTTTTGAATTTTCTTTTTAACATTTTTCTGTCGAGATTTATTAGTGTTTGTTGTCATACCTATGTAAAATATTAATACTCCAAATATCAGCATAATGTTTGCTATTCCACTATAATTTGATTCCAACCTTATTGAAACCGAATTCTGTATAACTTCGTCTTCATCATGATTCCATACAACTACTGTTACTTTATTGATTTTTGGATCTAGAGCTTTATTGTATGTTCCTGTTAGATTCCTTTTTTCAAGTATTGGATTCCAATCCTTACAGATCGCTGCGCCTATTCTTTCTCCGCCACATCGTTTGAATATATCGTAATTTTCGTCATCAAATACAAACAAATCAACATAATGACCTTCTATTTCTATTCCATCTCTCAATTGAGGAGCTTTTAAATTATTTGTTAATTCCATTCTAATGTTGGCAGATGGTAATGAGATTTTCTTAACATCTGCGTAATATGTTATGAAACTACTTGTTGGTACGTTATCAAATTCAGATAATACCGTGACTGAAGACATTGTAAACAAATATGCGCCAACTAAACTTACTATTATTCCAATTACTACAATTTGTTTATTCATTCTTATCTGATTTTAATTACTAGAATAGATTAATAAAATATATGTTCTAAATTAATAATAAAAATATGATTATTTGTTAATTTCTATCTGCGTCTAGGTGGTTTATCCCATTTTTGACCAATTGTTCTATTCAGAATGACTCTTGTTCTAAAAGATCTTTTTGATTTTAACCTAGGACTCCTACTTGTTCTTTTTTTACCTTCAATTTTAGGGGTTTGACCTCTAACTTTGCCTGCTTTTGTTAACGAACCGTGAGTTGGCATATCAATTATTGTAATTTCGATATTTAAAAATCTAGTGTTTATTTACATGTTATTGAGAAACTTTAAGAATGTTTACTAACTATTTTCAATATCTTGTCAAATCAGTTATTACTTACAGAGGCCGGAATTATTATAATTAATGAAAGCTCTGATATTCTAACGAGTTATAGGTTTTCTACTGGTGATGAACTCTCAACCTATTCGAATATTAAAAAAGGAATCTTAAGTCATGACGTCGAACAATTTATTATTAATCTCTCTGAATTCATTTCTGATTCATTTGAAGTTAATGATCAATCATTAGTCAACATAATCAAAAAAATACATCCAAATTCATTTTATAAGTCCATTGATTTATCTAATCTTTCTAATCTTTTTATTCAATCTAATTTTTTTACATCGGAAGAAGAAGTTAATGATTTTCTTCGAAACTTTTCACTAGAATACTCTAAGCAACAAATCCGTGATATGTCTGGAAAAGAAGATCTTCAAATTATTGAAGGTATAAATTCTCTTGATGAAGTTGATAAAGCAATTAATATATTTACAGCTAGAATTAATGAATGGTATGGTTTACACTTTCCCGAACTTGAACATCTTATTAAAGACAGTGATACATATTTCAAATTTGTTTCTTTAGGATTAGATCGCAACACTATAACCGAACCTGATTTAACCATTTTTAATTTCTCGGAAAAAAAACTTAATACTATATTTGAAGCTGCTCAAAATTCCAAAGGAGGTGATATTAATTCTAAAGATCTGTTAATGATTTCTATTTTATCTGATAATGTAATAAATTTGGTGAAAATGCGTGACAAAATGTTAAATTATATCAACGTTTTGATGAATAAAGTAGCGCCTAATCTTAGTTCAATTGCTGGGGAAACAATTGGCGCACGTCTCATTGCAAAGGTTGGTGGTTTATTTAAGCTTGCGAAATTATCTTCTAGTACTATACAAGTTCTCGGCGCAGAGAAAGCATTATTTCGTTCATTAAAGAGTGGTAATAGACCTCCTAAACATGGAATTATTTTTCAACATGATATGGTTCATTCTAGTCCAAAATGGCAACGTGGAAAGATTGCTCGTTCCTTAGCAAGTAAGATTGCTATTGCTGCACGGATTGATGCATTTAGGGGCAGTAAAGATATTGACATAGAAAATAGTCTTGACGAGCGGTATCTTGAAATTCAATCCAAATATGCTTCTCCACCTGCTATTAAAAGTCAAAATAAATTCAAAAATAAAAAACATAACAAAAATCGAAGGAATATACATGGAAAAGGTAGAAGATCTTCCAGATAACGTAGTTTGGATTGAAGTTAGCGGTAAGGAAAAACTAGCAACAAAAAACTATGTTCCAGGCAATAATGTTTATGGCGAACATTTGCAAAAATTATCAAATACTGAATTCCGAATTTGGGATCCTTTTCGAAGTAAACTTGCCGCTTCTATTATTAACGGACTCAAAAATGTTCCCTTTAAAATTGGTTCTACAATTCTTTATTTAGGTTCTTCTACTGGTACTACTTCATCTCATGTATCTGATATTATTGATAAAACTGGTTTATTATTTTGTATTGAGATATCATCGCGAGTGTCTCGAGATTTTATAGATAATGTTGTAGTTTTTCGTGATAATATTATACCAATTATTGCTGATGCTCGTAATGTTAATAATTATACTTCAATATTTCGTCAAATTGATAGTGTATATTGTGATATATCTCAACCCGATCAGACTGATATAGCTATAAATAACTGTAAAAAATTTCTTACGAATGAAAAAAAATTACTTCTTGTGATAAAATCTCGAAGTATTGATGTTACCAAATCTCCTCAACAAATCTATAAACAAGAAATTAATAAATTAGAAACAAACGGTTTTACTGTAGACCAAATGGTGGAACTTTATCCTTTTGATAAAGATCATGCACTTGTTCTTGCTACTATGCATTAATTTTATACATAATCATCTATTTTTGGTTGTAAATTCAACCAAGTCTTCCAAGATTTTCTTGCAAAATCTGGGATTTCTTGATTCTTTAACACCCAATTTCGTAAAAATGCCCTTGTAATGTGATCCGATGGATATCCACTTCCGATGTTTCCATACTTCTTTCTTAGTTTTATTATCTCCATGTCACGCGTATGCTTAGCAATTATTGACGCTGCAGATACAATTACATATAATTCATCTGCTTTATGCCTCGAATAAATTTTTATCTTATTTTTTGTATGCTTGATTATTCTTTCTTTGAATTTATTTGGATTAGTATCACACGAATCTACATATATAATCTCTGAATCCAAATTATCAATAATCTTTGCCATTGAATATGCTTCTAATTCGTTTAATCCAATTATTTTTTTACCGTATGATTTATTTTTTTTCTTTAGGAATTCCTTTCTTAATATTACTGCTTTATCAATTCTTTGCGGAGATATCTTTTTAATTGATACATCAATTGCATTTTTGATAATTATTTCAGTAAAAATTTTTCTATTTCTTGGTGTTATTTTTTTTGAATCCTTTATCCCTATTCTGGAAAATTTTCTTATAGTGTTCTTATCTGCACTCACACACGCTATTACTAAAGGCCCTATTATTGAACCTCTACCTGCTTCATCAGTCCCTGATATTAATTTATAATTTAAGTTCTTCAATTATACTGTTGTATATTTTATCAACCACTTCAACTTTATGATTTATATTCAAATCTAATAATTCTAATTTTGATGAATTTCTTACATCTTTAATAATTGGATGGTTGTATTTTGTTTGAATTGCACATAACACTTTCTTATCATTATTTAATATTGATTTGATTGCATCACAGAAATTTCTACTATAAAGTTCCATAGGCCCTATCATATCAATTATTATTAGTTCTGCATTAGACGATGCACTTTCTAATTCTTTTGATATTACGTTGTCTAAATTTTTTAGATTAACTCTATATTTTCCTATTCTTGGCCCTGTTTTTCTTCTAGTATTAGCTAACTCATTTGTTATTCCTGTTGATATATTAAGTAATTCTATTCCTATTCTTTTTCCATTATCTTTTACATCTCTTGTTAAAATTCCTCCAATTACAATATTGTGAGATAATAGACGATAATGTAATGTATTAATGACTTTCGTTTTTCCTACCCGTGTTCTTCCAGTAATTGCCCAAATCTTTGAATTAATCAATATTAATTATATTTTATAGATAGTTTCAGTTATTTATACAAAATGTCCATAAATATTTTATTTAAGACATTATTACACAAGATTACTTGTCAAAACTCGAGCCTACTAATGTAAATGAATTAACAACAAAAATCAATGATTTATCAGATTCTAGAAAGAATCTAATTACTCAATTAAAATCATTGAGTAAGAGAAGACTTGAATTAAGAGATGAAATTGGTGATATAACTTCTAAATTGGCAGAAGAACAAGCCGAATTAGATCCATTCTATAATCAAATAAAATCTCGTCGTCAAGAGAGACAAGAATTAATTAAAAATTTAAAATCTCGTCGTCAAGAGAGACAAGAATTAATTAAAAATTTAATAAAACTTCGGGTTTGTGTAAATGATACTAGTGACGCTCTAAAACTTATTGAATCATCTTCTGTAAAAAGTAAAATAAAAGAACAACGTTCACCAAACAATAGAAAGTTTCAGAAAAAAGATAACGATAAAAACTTGTCTAAAAAAATACAAGAGAATGAATGGAAATTACAGACACAACAACTTACTCGACAAGAAGAAAAACAGATAGTTGAACATATACGAACATTACAAATAAAATACCAACATTGGAGAAAATCTAGTTCGACTCGCAAAGAATTGTCTAAGTATCTTAAAGATATTAAAAAACTAAGCTCTCAATTAAAAAGTTTTGATGATTCAACAAATTCTCTAAGCTCTCAATTAAAAAGTTTTGATGATTCAACAAAATCTATTAAAGTATCTTTTGATGGCAATAAACAAATAATTGCTACAAAAATAGAAAATCGTGAAGAACTATTTCGTGAAATGAATGGTTTTAATGATGATATTCGCGAATTAGAAAAAGTTCTCAAGAAATCCGATCAAGAATCACACTTATTAAAATCTCAACGTAGTGAAATTATTAAATCAATTAAAGTAGGATATAAATCTGAAGTTCTTAAGAAAAAGAAAGTAATTCTTGAAAAAGAAAAAACTAAAGCTAAAGAGAAACTTGAATCTGGTCAGGCCCTTTCATTTGATGAACTAAGATTGGCTTTTGATGAGGATGATGACTACCTTATTTAGGAAAAAAACTTCTAAATCTAGAAGAACTAGACCTTCAAAATCTGCTCCTATTCTTGTATTATGTATTGACCAAGATGACGATTTAGGAAATAAAACAAATATTCATTCTCCTATTATTGGCCCTACAGATTGCCAAAACGCAGGTATGAAATTGGCCATTACTGATCCAGAAGAAGCTGATGCTAATGCTATATTTGCATCCATTAAAACATATAACGAACTCAAAAAATCTGGGCGTAAATGCGCAATCGCTATTGTTACTGGAACTAGTTCTGGTGGTTTCAAATCAGATGAAAAGATTCGTAAAGAAATTAAGATGATTGTATCTAAAACTAAAATTATTGATACTATTTTAGTTTCTGATGATTCTGACGAATCTAGTATAATTCCTGTTGTTCAAGATATTATTTCTGTTAATTCAATACAAAGAATTGTCATAAAACATAGTGGCGCTCTCGAAGATACATACGCAGTTCTTGGCAGATATTTGAAGATGTTGATCTTTGATCAACGTTATTCAAAGATTGCATTGGGCGTTCCAGGATTAATTTTCATTTCATGGGCCTTTCTTGCATTATTTGGTTTGCTTGGGCAGGCAGTTACTGTGACATTGGCTATTCTGGGGATTGTATTTGTAATAAGAGGTTTTGATTTAGATAGATTGACAATGTCTTTGCCAAAATTAGAGCTTACTTCATATGTTAAATTATTCTCATCAGTGGCAGGAACTTTAGTTATTATTATTGGCGTTTTTGAAGGATTTTCTAATATTGCAAGATTAATTTCTATAAATCAGGTATTTTCTAATCCTTCAAATTTATTGTCTTCCTCACCAGAATTAATTGGAATATTTGCCTCATCATCTATAATTTTTCTTTGGATTGGTCTTGGCTTATTTGCTGCAGGCGATATGTTATCAAATTGGATTATTGATAATAAACGTAGAATTATTCGTGATGCTATTTTACTTTTTACTTTGGTTTTTCTTTATTTTCCCATACAACAATTTGCAAATCTTTTAATTGGTCAAGGCGATACATTTACTTTTATTGCTTCACTTATTTTTGGATTAGCTGGATCTTTTATTAGTGTAATTTTCATGTATCGACGATATATTCGAATTATTCAAAAGACGTAAATAGGCAAGATAATATTGCTTATTAAAATTTTACGTCACGTAGGTATATACAAATTCTATGAAAACTATTTGAAAAAACAAATTAGTCGTGAAAATCCTCCTAATCATATAGCTATAATCTTAGATGGTAATAGGCGTTGGGCAAAATCTAAATTTATGCCTGTGTGGATGGGACATTTTGCAGGAGCAGATATTGTTAATGATCTACTTGATTGGTGTACTGAATTAAATGTTAAAGTTATTACCCTATATGCTTTGTCTGCTGAAAACCTAACTCGTCCACAAAATGAAGTGGATAGATTATTTGAAATTATATCTAGTAAACTTAGTGAACTACTTGACGAACCAAAAATTGATCAATATCATGTACGAGTTAAGGGTATTGGAAATATCTCTTTGTTACCAGAAAATATACAAAAGAAAATTCATCAAATTGAGGAAAAAACTAAGGAGAACGACAATTTATTTTTTAATCTTGCACTTGCCTATGGAGGAAGGTTTGAAATATTGGAGGCTATGAAAAATCTAGCAAACAAGATCAAAGACGGTTCACTAAATCCACACGAATTAAATTATGAAATAATTGAAAAACATCTATTTACTTCTCATTTATCCTATCCAGATCCTGATTTAGTAATTAGAACATCTGGAGAAGAGCGCCTTAGTGGTTTTCTTTTATGGCAAAGTGCATATAGTGAACTAGTTTTTCTTGATGTTTATTGGCCTGATTTTCGTAAGATTGATTTAATGCGAGCGATTAGAACATATCAAAACAGAAATAGGAGATATGGCGAATAGGTATTGAATAGCATATGACAGTTACAGTTGCAGTTGGTGGTTTTTATGGAGATGAAGGAAAAGGTAAGATTGTTGCATATTTATCACTTTCTGATTCTCACTCAATTGCAGTACGGGGTGGTGTTGGTCCTAATGCAGGTCATACTGTGGTTTATGGCGACGACATATTGAAATTAAGGATGTTACCTAGTGCAGTTGTAAATAAGTCTACTAGATTATTAATTGGACCTGGTGTATTGGTTAATCCTGATATTACACTCGACGAAGCACGACAATATGGAGCGCTTGATCGCTTGGTAGTAGATCAAAGTTGTGGAATTATAGAACAAAATCATATTACTTCTGATAAATTAGGGTTTCTAGCTTCTAAAGTAGGTAGTACTGGTAGTGGAACTGGTCCTGCAAACGCAGAAAGAATCATGAGAAGTGGAAAACTGGCTAAAGATTTAGATATATTAAAAAATTATCTTGACGACGTTCCTGATATTGTGAATTCTCAAATTGATCGCGGCCATGATGTGTTAGTTGAAGGAACTCAAGGAACATTCTTGTCTTTGTATTTTGGCAATTATCCGTTTGTTACTTCTAAGGATGTTACAGCATCTGCAATATGTTCAGACGTTGGCCTTGGTCCAAAAAAAGTCGATGATGTTATTGTAATTTTCAAATCTTATGTAACTCGAGTAGGTGAGGGGCCTTTTGACGGAGAAATATCTTCAGAGGAAACCGAAAAAAGAGGCTGGAGTGAAATTGGGACTGTAACTGGCCGAACAAGGCGTGCTGCACCATTTGATTTTAATTTAGCAAAAAGAGCTATTATGCTAAATTCAGCTTCTAGCATTGCTATTACTAAGCTTGATGTTCTTTTCCCTAGTGCAAAAGGAAAAAGAAAATATGAAGAATTAGACTCAGACGCTAGTTCATTTATTGAAAATATAGAAAATGAATTAAAGATTAATGTTAGTCTTATTGGAACTGGTCCTGAAGTATATGATATTATTGATAGACGATCGGTGATTTGAAAATAAACTTCTCTACAAAATTAAAAAATATCTCAGAAAAAAAATACACTAGAGTTATTTTATCTCTTGATTTAAATTGCAAAAATAACGAACTTCTTAAAAAATCCATTTCTCTTGTACGTGCTACAGCAAATGATATCTGCGCAGTTAAAATTAACTATCATTTATTATTGCCTTTGTCTTTTAATGAAATTAAAAAACTTATTTCTGTAATTCACAAATTTAATCTATTAGTTATTGCAGATCTTAAATTAAATGATATATCTTCTACTAATGTTATTGCAATAAAACATCTTTGGAAAATGGGTTTTGACGCAGTAATAGTAAATCCTTTTGTCGGTTATTCAGAAGGTTTGGAATCACTTTTAAAAAATTCCAAGGCCAATAATAAAGGCGTAATATTTCTAGTTTATATGAGTCATGTTGGAGCAAAAGAAGGATACGGACTTAAAATTATAAAGAATGGTCGGAAAAAGAAATTATATGTTGATTTTGCTGAACGTGCTAAGCGTTGGCATGCTGATGGAATAGTAATTGGTGCTACAAATCCACGTTTAATTAAAGAAATTGCTAATATTACTCATAATGATATAGATATCTTTACACCTGGCGTCGGCAAACAAGGTGGCAATGAATTTCAATCTATTAAATCCGGCGCAAATTATATCATTGTTGGTCGTTCTATAATTAATTCAAAAAATCCTTCTTTGTCTACTTCTTCGTTTAAAGTTAATTCTTGGTCAATTTCATAATAAAATTATTTCCTTTTACCAATAATTTCTTAGAATTTTCAAAAGTTATTAGTTTTAATAAACTATTATAATCTAACCATTTAAAATCTGTATGTTCGAACGATAATTTTACTTCTTTTTGTTCAGTTTCTGCTACGTAATATGATACTGTTTTATGAACTTTATTTTTATTTATGTAATAATAATATTCAATCAGCTCATGAAAACCATCATAAATTTTTATATTATTTATATTTGTCTCTTCAAATGTCTCCCGCTTAGCTGTTTCTTTATCCGTTTCTCCTTTTTCAATATTACCTTTTATGAAGTCCCAATGACCTGATGGATATTTTAATATTAAAAATTTAGTATTATTAATTTTATTAAATAATATTATTCCCGCTGATCGTTCTTCTAACAATTATACTCAATCTATTTTATTTATTTCATTTAATATATTATTTCCTAAATCCTTTGTGCAGGCTGAAATATATGATACTCGTTCTCTTGATAATATGTCAAAATCGTTCTCCTCATTGAAAAATTTTATGAATAATCCAGCTTTTTTACCAATATACATTGCAGGTAAAACATCAAATGTTCTTAATTGCTTTGATGGAGCAATAAAAGCATCTATTTTACCTGCCGCAACAAACACATTCTCCATTATTGCTGATCCTAGTATTCTTTGTGTTTTGGTCTTTAGAAATAAATTTTCCATATTTCTGAATGATTTTTTTCCACTTTCTGATCTTATGTTTAAATCCAACGCTATTGTCGATTCATTTAAAACTTTTCTTTTGCTGGGTTCAAGCCTTACATTGTCAACCGTCGCACTTTTTTGGTTACCTAAATATAAATTTCCTTGTATTATGTCAATTGCCCCAGATGCAATTATATCAGAGAATTTGGGTCCATTAGCAATTGCTATAGTAGAACTAAAAAACGGTATTTGTCTAACTGAATTTAAACTTCCATCTAGTGGGTCAATTAATATTAATGTATTATTTTTTCCTTGAATTATTCCAGTTTCTTCTGATAGAATTGTTGCATCCGGGATTTCTTTTTGTATATTTTTGATTATTATTTCCTCTGCTAATAGATCTATTTCATACTGCACATCGCCGAACGGACCTATTCCAATCTCTTTATGATTGCCCTTGAAATATCTACGTTTAATCGTATTTTGTACTTTTAATAACGTTTTTGATATAATTTCTGAATAATTCAATACAACTTGATTGTTACTTGAATTTAAAAACTTAATATTGAATACTTTTTCTTAGATACCTATGCCAAAGATTAAAATTGCTCTTGCAGGAATCGGTAATTGTGCATCTGCATTGGTTCAAGGTTTAGAGTATTATAGACAGAATCCTGATGAATCCATAGGACTTGTTCAACATTCAATCGGCGGAATAGAATCTAATGATATTGAATTTGTTGCTGCATTTGACGTTAATGATAAAAAAGTTGGTACTGATCTTTCTCATGCAATTTTTCAACATCCAAATAATACCGCTAAGATTATCGATGTTCCTAAACTTGACGTTGAAGTATCCAGAGCGCCTGTTAAAGATGGTATTGGTAAATATCTAAAAGAAATTGTTGATGTACAAGATTCTGGTGGTTCAGATGTAGTTGATATTATAAAAAGTTCTGGAGCTGATATTTTAATTAATTATTTACCTGTTGGCAGTACTAATGCCACTAAATATTATGCTCAATGTGCCCTAGATTCTAAAGTAGGTTTTATTAATTCAATGCCTGTTTTTATTGCATCGTCTCCTGAATGGCAATCTAAATTTACAGATAGGGGCCTTCCCATTGCTGGTGATGACGTTATGAGCCAATTAGGTGCCACTGTTGTTCATAAAAGCTTGATTAAATTATTTGTTGAACGCGGCGTACATATTGACGAGACCTATCAACTCAATATTGGCGGTGACGCTGATTTTCTTAATATGCTAGAAGAATCTAGACTAGTCGATAAACGCATAAGTAAAACATCTGCTGTACGTGCAATGGCACCTTATCCTATACCTACTCGTATTGGCCCTAGTGATTATGTTGATTTTCTAAAAAACGACAAGATTTGTTATGTGTGGATTAAAGGTCGTTATTTTGGCAATATTCCTGTTACATTAGACTTGAAACTTCATGTTATGGATGCTTATAATAGCGCAGGTGTTGTTATTGATGCAATTCGTGCTACAAAAGTCGCACTAGACAGAAAAATTTCAGGCCCATTAAACAGTATATCCGCATATTGTTTTAAACATCCTCCTGTTCAAATGTCTTACGAACAGGCTAAAATTGCATTTCTTGAATTTATTGATGGAAAACGAGATCGATAAAAATTTTATTTTTTATTTACTGGAAATTCAAATAATTCGTTTAATGCCGAAAATGCAGTTGCAACATCTTTTGTTCTTACTATTATTATTGTATCTGTGAAACAACTTACTGTATCTTCAATATTTATTTGCCTTTTTGCAACTTGTCCATAAATTGTAAAAACAAATCCAGGTACTTGTATAACCTCTATTGGACTATGTACTATGATTGCGGCCAAGTCCATCGAATCTTCTAGTATTTCTGATTTATTGAATTTCTTTATAAATTCATTTCTGAATTTATGAGAATAAATTATTGTTAATGCAGAGGTAGCTTCAGAAATTTGTATAAACTCTTCTTTATTCTTTATTAGTGTGTTTTGAATTTTTTCTTGATTACCTTTATTCTTTGAAACAGATAACTTTGCAACTCCTGTTTTTACATTAATATTACTCTTTGAAATAATATCCATAATTTCGTTATTTATGGAATTATATCTAGGAGTTATTCTTTTAATTGCCGTAATTATTGCTTCTTCATTAATGCTAGTATTACTCATCTTTTCAATTTTTGGTTTTAATAATCTAGCTATTCCGCTTATGTTAGCGTAATCTCTTGCAATTGCATCTTGAATTCCTAGTTCTGATTCTATTAGTTCTCTTGTAATTTTTGCAATTGATTGATTTATCTGTTTCTGGTCATTAATAGCCAATAATGATCAGATATGACCAAAAACTATTAAAAGGTTTCTAAATAAATCCTTCTGATAATGGACAAGAAAGTTATTTTAGCTTTTTCAGGAGGCTTGGATACTTCAATATCCGTGAGTTGGCTCAATAAAAAACACGGATTTGATGTAATCACTGCTATTGTTGATGTTGGACAAGATGAAAATTTTGAATTAATTGAAAAAAAAGCATATTCAATAGGAGCATCAAAACATTATACTATTGACGCAAAACAAGAGTTTGTAGAGAATTATGTTTCCTCTGCTATAAAATCCAATGCATTATATCAAGGTAAATATCCTTTGGCTACTGCTTTAGGAAGACCATTGATTGCATACAAATTAGCTGAAATTGCTAAGACCGAAAATACATTAACTTTTTCCCATGGATGTACAGGAAAAGGTAACGATCAGGCAAGATTTGATATAACCTTAAAATCAATTATGCCAAATGCTAAAATTATTGCGCCTATTAGAGAAAACAACCTATCTAGAGATGAAGAAATCCAATATGCAAAAGACTTGAATATCTCAATTGAGGAAAAATCACAATTTAGTATCGATGAAAATCTTTGGGGTAGATCAATTGAAGGCGGTGTTTTAGAAGATCCTTTTCATGAACCTCCTTCTGATATATACAAATGGATTGATATTGATAATAGTTCAGAATCTAAATATATAACGATTGAATTTACTAATGGCATTCCTACTTGTATAGACGGAAATACTAATTCTGTAGATATGATTAATTATCTAAACCAAACTGCTGGCAAATATGGTATTGGTGTAGTAGATCATATTGAAGATAGACTTATGGGAATAAAATCAAGAGAAATATATGAAGCTCCTGCTGCAATTACCTTAATTGAAGCTCATAAAGATCTTGAAAAATTGGTCTTAACAAGAAATGAATTGGAAACAAAATATCTTTTAGAACAAAAATGGAGCTGGCTTATTTATTCTGGATTATTTGTGGATCCATTAGTAGACGCTATAAATGCTTTTATTGATAAAACTCAAGAGCGCGTAAATGGCATTGTTAAATTAAAAATTAAGAATGGCTCACTGACTGTTGTTGGTAGAAAATCTAAAAATTCTATATACGATCAAAAACTTGCAACCTATTCAGATTCCTCTGAATTTAGTCAAATCAATTCTGAGGCCTTTGTTGAAATTTGGGGTCTACAATCAAAATATAATGAAGGAGAAAAAAATGAATAAAAATATTGATTTACTCAGAGGCAATAGACTTTCAAAAACATCTGATCTTGCGTCTTCTTTTATTAGTTCTGTAGATGATGATATATTACTTATTGAACCTGTAAAAAAAATTAATATTGCTCATATGCTTATGCTGGTCAAAAATAATGTAATTGATAAAAAGACTGCTATTAGATGCATTAAAAGTCTAAAATCTATTGATAGTTCCTTTAAACTTGATCCTAATCTTGAAGACGTTCATATGAATGTTGAATCATTTGTAATAAGTGATATCGGTAGCGAAATTGGAGGTCAATTAAATCTAGCGAAAAGTAGAAATGATCAAGTTGCAACTGCAATAAGAATGACATCTCGTGGGTTTATTCTAAATGTCTTAACAAATATTCTTGATTTACAAAAAATTATTCTTAATGTTGCCACAAAACATAGTGATTACTTGATGCCTTCTTTTACTCATCTTCAACATGCACAAATTATAACACTTTCACATAATCTTCTTGCACATCACGATTCATTATCTAGAGATATTGAAAGATTCCAGGAAACTTATCACAGAGTTAATAAATCTCCACAAGGTTCTGGCGCAATCGCTTCAGTAATTATTGATGTTGATAGAAATTATGTAGCTAAACTACTTGGATTTGACGGCATTGTTGAAAACTCAATTGATGCTACTACCACTCGTGATTTTTGTGTTGAAATATTATCGAATCTCACATTAATGATGTTAAATATCGAAAAGATTGTTAATGAATTGATTTTATGGAGCACTTCTGAATTCTCGTTTGTTGAAATCGCTGATGAATTTAGTTCAACAAGTAGTATTATGCCTCAAAAAAAGAACCCTGTTATTGCAGAATTGATAAGATCAAAATCTTCGATAATTATCGGAGATCTTATTACATCAATTGGAATAATTAAATCTCTCACGCTTGGATATAGTATTGATATCCAGGACCTAACTCCAAGATTGTGGAATTCTATAGATAAATCATTGTTATCTATTCATTTATTATCTGTTATGCTATCTAACTGTAAATTTAACAAAAAAGAGATGTATAATAATCTAGATGATACTCTAATCGCAGCTGATTTAGCTACTTATCTCGCCGCTAATTATGATATTTCCTTTAGACAATCACATCATATTGTAGGTACATTGTCCAAATCCGCAATGGATTCTAACACTAAATTGTCTTATATAGCAAAAAACAACCTTGTTAAAATTACAAAGAAAATCACCGGTAAAAATATTGATATAAAAATGGAAGAACTTGATTCAATTTTTAATTATAGTCAAAATGTAAACTCAAAAACCACCAAAGGTTCTCCTTCTAATTTCGAGACTAAAAGAATGATAAAATTAAGAATAATACAAATTAATAAATCATCTAAATTCATTAAACAACAACAGAATTTAATTACTAAATCTGAAATCCTTCTTGAAAAATCTATTAAAAAAATATCAGGAGGTGGAAATTAATGGAACAAAAATGTCAAGATTGTGATGCAGCAATGAAGATTCTAGATGACGTCATGATTGGAGAAATTATAAGTTGTCCTGATTGCGGTAATGAATTTGAAATTAGTAAAATTGATTCAAATAATGTTACCTTAATACCTGCAGAATCTGTTGGGGAGGATTGGGGCGAGTAATATGGATGCCCGTATTGGTGTTATTTACGACCGTATACGTTGGGAGGAAAAAGAAATCTTCAAAGCTTTGGAGGAAAAAAATATCCCATTTAGTAAGTTTGATGCAAAAAAACTTGTATTACATAGTAACGACTCTGATAAATCAATTCAGTCTACATTTGGAAATTCTATAATTCAAAGATGCATAAGTCATTATCGTGGAATGCTAATTGCTCATTATCTAGAATCAAAAAATTGTTTGGTTATAAACAATTCTAACACGAGCAGAATTTGTGGTAATAAATTCCTCTCTACCCTGATTTTTGAAAAATCAAATATTGCCACTCCCATTACTTTATTCAGTTTTTCAGATAAATCCGCTGAGATTTCTGCAGATAAATTAGGTTATCCTTCTGTACTTAAACCAATTGTTGGTAGTTGGGGAAGAGGCGTTGTAAAACTCAATGACAAAGATTCTGCTAAGGCATTAATTGAAATGAGATATAACGACGACGGTTTATTATCAAAAATCTTCTATATCCAACAACATATTAATAGACCTCCAAGAGACATCAGAACAGTTGTTGTAGGGGATGACGTGATTGGCGCAGAGTATCGTTATTCATCCAATGAAGATTGGAGAACCAATTTTTCACTTGGAGCAAAAATTGAGAATTGTCCTATTACAAAGGAATTAGAAGATATTGTTCTTAAAGCATCTAAATCTGTTGGCGGTGGAGTTCTTGGTGTTGACTTAATGGAAAGTGATGATGGCTTTCTAGTTCATGAAATAAATAATAATGTTGAATTCAAAGGTGTTTCAAAATTCACCAAAGATAATATAGCCTATAAAATTGTAGACTATATTAATAATATTTCGAAAAGGTAATTGCAATGAAAGTTGGAGTAATTGGCGCATCTGGTTTTGTCGGCGGAGAATTATTAAGATTAATTATTAATCATCCTAAAACTGAACTTTCTTTTGCAACTTCTAGGCAATATGACGGACAATTTTTGTATAAAACTCATCCCAATCTCAAAGGATTTACTGATATTAAATTCTCATTATTAGATTCTACAAAAATTTCAGATAATTGTGATCTTGTTTTTACTTCTGTTCCACATTGTAGTTCATTTGAATTTATAAATGAACTTGTTACTACTGGAGTAAAAATCGTTGATATGAGTGCAGATTACAGACTTTCCAATCCTGATATGTATGATAAATGGTATGGTTTCACACATCCTATTCCTGATTTATTAAATTCCTTTACTTTCGGCCTTCCTGAACTGCATAGAGATTCAATAAAATCAAGTAAGTATGTATCTACTCCTGGATGTACTGCATTAACTTCTATTCTGGCATTAGCTCCACTCGTACAAAATAAAATAATTGATCATAGTAATATCATAATCGACGCAAAAGTTGGTTCATCTGGAGCTGGAGCAAAACCTACTCTTGCATCTCATCACGCTAACAGATATGGAGTAATTCGTCCCTTCAAACCATATGCGCATAGACATACTGCTGAAATTAATCAAGAACTTTCAAGTATATCTAAAAATTCAGTAAATGTTTCTTTATCTGTACATTCAGTAAATCTTGTTCGCGGTATTTTATGTACTTCATACGCATCCATGAATTCAGAAATTACCGAAGTTGATATATGGAAAAGCTTTAGGCAATTTTATACTGATTCTCCTTTTATTAGATTTATTGGAGATAAGAAAGGACTTTATAGATATCCAGATCCAAAATTATTAGTCGGTTCCAATTTCTGTGATATTGGATTTGCTTATGATAAATCCGCGTCTAGATTAGTTGTTATGTCTTCTTCTGACAATCTAATTAAGGGCGCTGCGGGTACTGCTATACAAAATATGAATCTTATGTCTAACTTTGAAGAAACTACCGGTTTGTGGACTCCTGGAATACATCCAATGTGATTCTAATGGTTACAATTGTAAAAATAGGCGGAAGCCTACATAGTAAAGGATTAACCAAAAATTTATTTGAAGATATTAAGAATTTTTCAAAAAATGAATCTCTAGTACTTGTTCATGGCGGTGGAGATACTGTAACTGAAATTGCAGAACAATTGGGTAAGAAACAAGAATTTATTGTTTCTCCTTCAGGAGTTCAAAGTAGATATACTGATGAAGAAACTGCATCAATTTTTATGATGGTTATGTGTGGGAAAATCAATAAAGAAATTGTGCTATCCTTACAAGCATTAGGAGTTAATGCAGTAGGTCTTAGTGGAATAGACGGAAATACATTGAATGCAGTTCGTAAGAAAAAGTTGTTGATAATAGATGAAAGAAAAAGAAAACGTGCAATTGAAGGTGGCTACACTGGTAAAATTCAGAATGTTAATACTGATCTAATAAATGATTTGTTACATTTAGGCTATCTTCCTGTTATATCTCCAGTAGCTCTAAGTGAAGAATTTGAAATCTTGAATGTAAATGGAGATCGTGTTGCCTCCAATATTGCTTGTTATATGAGTGCCAATCGCGTAATATTTCTTACAGATGTTGACGGTATACTTCTTGATGATACATTATTGACTGAATTAACTCTGGTTAAATCTAAAGAAATTCTTCCAAAGCTTGGTTTTGGCATGGAACAAAAATTAATTTCATGCATTGAATCATTAGAAAATGGTGTCAAGGAAGGAATTATAGCATCTGGTCTAACAACAAATCCAATATCAAGTGCTGTCAAACATTCTAATTGTACGGTGATTACAAATGAATAGCGAAGAAATAATTAGTTCTGAAGATAATTTATTAGCACCTGTTTATCAAAAATTTCCTATTATAATTGAAAGAGGCAGTGGATGCTACGTATGGGATTCTTCGGGTAAAAAATACCTTGATTTAATGGGAGGATATGGCGTTTCATTATTGGGCCATTCAAATGAAAACATTGTTCAAGCAATAACCAATCAAGCAAATAAACTAACTAGCTGTCATGGTTCTTTTTATAATGAGGAAAGAGCAAAAGCTGTATTAAACATTAATAAAATTACCCCAAAAAATCTTGATAATATATACTTGTGTAACAGTGGTACTGAAGCAATAGAAGCCGCATTGAAATTATGTAAAAAACATTCAAAAAATAATATTATTTCTATGTCTGGTTCATATCATGGTAAAACAATTGGTTCCTTGTCACTTACCTGGAATCCTAAGTATAAAAAATCCTTTCAACCTCTTCTTGACCATATTGATTTTATCCCATTTGGAGAAGACGATTTCTTGTCTAAAATTGATGATAATACTAGTGCCATATTCTTGGAAGTTATTCAAGGTGAAAACGGTGTAAAATTTGCTTCAATTGAATATTTTAAGAAATTACAAGAGCAATGCGATAAACATAATGTATTGTTAGTAGTTGATGAAATCCAGACTGGTTTAGGAAGAACTGGTAAAATGTGGGCTCATGAACACTACGGTTTGAAACCAGATATTTTATGTATTGGTAAAGGACTTGCAGGAGGTCTGTCTGTGGGAGCAATGATCTCAAGAAGTGATATGACAAATTTTTCTCTTGGCGAACATACTACTACTTTTGGAGGCAATCCTTTAACCTCTTCTGCAATCAATGCTTCTATTGATTATATACTAAAAGAAAATCTAATTGAAAGAGCAGGAAAAATGGGCGACTATTTCTTAGAAAGACTTGGTCAACTTGAATCTGAATACGATTCTGTTCGTGATTTTCGTGGCCTTGGATTGATGCTTGCCGTCGAATCAAAATTTTCAATCAAAGATATATTGTTTGACGGCCTGAATAATGGTCTGATTATGTTATATTCTGGCAGAACAATATTAAGATTCTTACCTCCATTAACAATAAAAGAATTAGAAATAAATTCTGTATTGCAAATTCTACATAAATTATTTCAAAATTCTCAAACAAGGTAGTATGAAATGGACGATATAGATAAGGCTATAATTAAAATTCTTACAAAGGATTCTAGAACTCCTAATACTGAAATTGCACAACAAGTCAAACTTTCCGAAGCCAGTGTAAGATTACGTATTGATAAACTTGTTTCTTCAGGAGCAATAAAAAATTTTACAATTACATTGAGTGATAAACACCTTACACTGCTTGAAAACTCTCTAAAAATTTACTCTCCTTCTGGACAAGAAAAAGAATTTTCAGATTTCTTATTCAGTACATTGAATGACTATGAATTCTTAAATGTAAATCGTGATTCAGCAAATAATGTTTTTGGTGAAATTGGAGAAGGCAGTCCTACGCTTCTGCTTTGTGGACATATGGATACTGTTCCTGGTTTGATTAATGTAGAAATTAAAGATAATGTAATTTATGGAAGAGGCTCTTCAGATGCTAAATCATCTCTCATATCAATGTTGATTGCAGCTGCATCGTTTAAAGATAAATTAAAAACTGGAAAAATTATTTTTGCTGCAGTAACTGATGAGGAAGGAACCGGCGCAGGAATTAGAGAATTATTAAAAGGAAATATCCAACCTGATTATGCTATATTCGGTGAGCCTAGTGGCGTTGATAAAATTACTGTTGGATATAAAGGTAGATTCTCTATCAAATTTATTTGTAAAACTTCTCCTGTTCATGCAAGCGCTCCTTGGATATCTTCTAATGCAATAGAATTTTTGTTTCATTTCTGGAATAAACTAAAAATTGAACTTGAAAATAACGCTGATAATTATTATCAACAAGTAACTTCATGTTTAACTCAGATTGATGGAGGAGTTGCGGATAATGTTATGCCTGGAAACTGTAATCTAATTTGTGATATCCGTTATCCATTTGATTATGATCCTAATACTATAATTTCAAAAATTGACAAAATTGTATCGCAATTTAATTCAAATAGTCAAATTAACAAAAATGAAAAACCTATTTATTCTTATGAGATTATTGATTCAACTCCTGCTTTTGAAAGCTCGAAATCGTCAATTGTTAGTAGATCTATTACTCGAGCTATAATTGATAAGATACACCATAAACCTCAATTTGTTAATAAAACAGGTACTGGGGATATGAATGTATTAGGCACTTCCTTAAAAATTCCTGTTGTTACTTATGGACCAGGAAATCCTCATTTATCCCATACTTCTGACGAACATATAGTTATTGATGAATTTCTTATGTCCATTGATATTTATAAAAAATCCATTGAAAATGTTTTTAGTTTAATCCAAAGAATTTAATAACAAATATTTTTCATTAACATATCAGTGTAACTACGTGCCAAAATACAAATCTACAAATGATATAATGAAAATTGTCGGCAACAAAGATCAAATAAGAAACTTTGGTGTAATTGCTCATGTTGATCATGGTAAAACTACTATGAGCGATAGCTTATTAGCTGGTTGTGGAATTATTAGCCCTAATGTTGCAGGTGAAGCTCTTGTACTTGATTCTATGGACATGGAGCAGAAGAGAGGAATTACTATTAATTCTGCAAATATTTCTCTTTACTATGAATTTGACAATACTCCGTATGTATTTAATATGATAGATACTCCTGGTCATGTTGATTTTAATACTAGAGTTTCGCGAAGTCTTCGTGCAATAGATGGCGCTGTTGTAGTTTCTGATGCTGTTGAAGGTGTTATGACTCAAACTGAAACAGTGACTAGACAAGCTTTAGAAGAACGCGTTCGTCCTGTTTTGTATATTAATAAAATTGATAGATTAGTTAAAGAATTAAGATTAACTCCAGAAAAGATGCAAGAACATCTTATAGGTGTAATTAGTGAATTTAATGGATTAATTGATTTGTATGCAGAACCTGAATTCAAAGATAAATGGAAAGTTAGTATTCAGGATAATAGTATTGCTTTTGGATCTGCTAAAGACAGATGGGCATTTAGTGCAGCTACTGCAAAAAAGAATAATGTTAATTTCAAAACTATTTATGACTCGTATAAAAACGATAAGGTAGACGAATTAGTAGAACTAGCGCCATTACACGAAGCAATTCTTGGGATGGTTGTTCAACATCATCCTCCTCCTCACGTTGCACAAAAATATCGCGTTCCTAAGATCTGGAAAGGCGATTTAGATAGCGAAATTGGGAAAGCTATTCTCAATTGTGATGACAATGGCCCAGTTGTTATGATGATTGTTAATATCAATATTGATCCACATGCCGGTAATGTAGCAACTGGTAGATTGTTTTCTGGAACTGTTAAGGATGGAGATACTGTTCATTTACTTGGCGCAAAAAGATCTGGAAGAATTCAATCTGTAAATATGTTTATGGGAAATCAACGCGAACTTGTTGGACAATTTTCTGCTGGAAATATTCCAGCATTGTTGGGACTAGAACATGCTCGAGCAGGTGAAACATTGAGTTCAATCAAAGGATTTACTGAATTTGAATCTATTTCATATGTTTCTGAACCTGTTGTGACTATTGCAGTTGAACCAAAACACCCTAAGGAACTTCCCAAATTAGTCGAAGCATTACGTAAACTCAATATTGAAGATCCAAGCTTGGTTGTTAAAATAAATGAAGAAAGTGGCGAAATGTTAATTTCTGGAATGGGAGTTTTACATCTTGATATTGCTACAACTCTACTTAAAGAACAGAATATAGAAATTATTACATCTGAACCACTAATTAATTATCGTGAAACTATTTCTAGTAATACAGGTCCAATAATGGCAAAGTCTCCAAATCGTCATAATAAATTATTCCTTCGAGTAGAACCCTTAACTGAGACAGTAATTAAATTAATTCGCGATGGTAAAATTAACGATAATACTGATAAAAAAGAACTTGCTGAAATTTTACGTAATGCAGGTTGGGATAGAGACGATGCAAAACGTGTTGTTACAATTGATCCTGGTGGAAACATGTTTGTTGATGCTACAAGGGGCGTACAATATGTACAAGAATCAATGGATTCTATTCGAGCAGGTTTTGCCGATGTAATGGAGAATGGACCTATTGCATATGAAAATTGTAGAGGTATAAAAGCTACACTTCATCATTATGTTCCACATGAAGATGTTGCACATAGAAGCTATGCACAACTAATGCCTGCATCACGTCGAGCTCTTCTTGGATCACTCCTTTCTGCTCAGCCTACTCTTTTGGAACCTATACAAGGAATCGAGGTAAAAGCTCCTTCAGATCTGATTGGTGAAATTGCAGGTGTTATTTCTGCCAAACGTGGAAAAGTTGGTGAAATAACACAAAAAGCACATTTGTCTATTATACGTGGAGATATTCCTGCTTCTGAAACTTTTGATTTGTCTGAAGTTATGAGAGGTGCTACTGCAGGTAAAGCTATTTGGTCTACTCATTTCAAAGAATGGACTCAAGTTCCCAATTCTATGTTATCTGAGGTTATTTCCGATGTTCGAAAACGTCGTGGATTATCAGATTCTCCACCTCTTGCATCTGATTTCATCGATAAAGATTAATCATTCTTTCTTTCACTTTATTTGTGAATCATCAACCATCTATTAGACTCTCTCATTATCAATTCAATGATTTATCTTTAATCGATTTGTATGATATATTGAAAATTAGAAGCCTTGTTTTTAATCATCAACAACGTTTAATTGATGTTTCTAAAGGCGAATGTGTAGAAATTGACGGTAAAGATTTGTCTTGTATACATATAATCGGCAGACTATGTGACCATCACGATAATCAGATTATTGCCACCGCAAGATTATTTGATAATCAGTCTCCACTTCAATTAGGGAGGCTGGCTGTTGATCCAACTTTTCAAAAACATGGTTTTGGAACAAAACTTTTGGATTATCTAGATTCAATTATACACTCCAAGCCCATAGAGATGCACGCACAATCTTATCTTATTGATTGGTATTCAAAATTGGGTTGGTCTGTTTCTGGTCCTGAATTCATTGAATGTGGAATTAAACATATTCGTATGGTTAAAAATTTCTAATCAGTTAAGCTGAATTAATTTTTCTAATTCATTATCAATCTTTTCTATATTAACTTTCAATTTATCTATTATAATTTCACTAAATATTTCTAGTGCTTTTCTTTCTTCTGATGCGCCTACTATTATTGCTACACCACTGGATACAATGCTGATTGTTATTTGTTCATTATATTTTATTGTAGTACTTAGGTCTCCTTTTCTAATTATATTGAAATGATTTTCTTCAATAATCTTATTTAGATAATTCAGATCAATATTGAGATCTTCTTTTGGACTAATGATATGAACTGATTTTCCTTCTCTACCGCATATATCTTCTATTAATTTTCTTTTTGTTATTTTAGTTGATAAATTTGCATTAATTCCACATACTTTACATTTATCTTGTTTTGTAATTGTAATCTTATCATAATCTAATCCCTTGATGTCTGCAAAAAATAATTTATTAGCTAAATTTGGTTCCTGGCCAATTATTATTCTAATAGTTTCTGCTACTTGCACACTTGATATTGTAGTTAATATTGATGGATGCACTCCTTCTGTTCCACATTTAGGCATTTCTTCGTCTCTTAATGATGGTTGAAAACATTCTAAGCACGCTGTTTTATTGGGTATTATTGTTGATGCTGATCCAGTTGTTACTATTGCAGATCCAAATACATATGGGATTTTTAATCTAACACAAGCTCTGTTAATTGTATATCTTGCAGATACTGAATCTAGACCATCTACTATAACATCTGATCCAATAATTATTTTATCTACAGTATCATCATTAATAGATAACGTCAATGGTTCTATATTGACTTGCGGATTTATTTTTTTTAATCTATCATATGCTGCTTCTGCTTTTGATAATCCAATATCTTCGTCTCCATATAATACCTGTCTGTGTAAATTTGATATTTCAACCACATCTCTGTCTACAATTCTAATTTTTCCTATTCCCATTGCAACAAGTTGTTGTGTTATTGGCGAACCTAATCCTCCTATTCCAACCACTGTTACTAGTGCATTCTTTAATTTTTGCTGACCTTCAAATCCAATTTCATCAAGAACAATTTGTCTAGAATATCTTTCCATTTCTATATCTGACAATTCCATTAAATCATCCTCCACTCACTGCTGGTAAAAATAAAATCTCATCATTATCATTTACTTTTGTTGAAAGTTCATCTAGAAATTTTATATTTTCATCATTAACGTAAATGTTGATAACTGGTTTTGGTTTTCCTTTAATATCAAGTATTTTATTCTTAAAACTGTTTCCATATCTTTTTGATAGTTCTTCTATTATGTCTTTTATAGTTTCTCCCTCTATTTGTAATTCTCTTTCCCCGTTTGTTGCAGATGACATTACCGCTGGAATTAGAACTTTTACTTCCGTCATTTTTATCGCCTTATTATATTCTGTAATACTTCCCTTTTTGGTTCCACAATCTTTAATTCTGGTTGTTTGACGAATGACGCATCTGGAGCTTTTAATCCATTTCCTGTAACATAACATACTATTTTTTCATCTGGGTCGATTTTACCATCATTTACTAGTTTTTTTAGTACTGCTATAGATACTATGCCTCCTGGTTCAGCAAATATACCTTCAGTGCTTGCTAGAAGTCTTATTGCTTCCCTTATTTCATCGTTGTTTACTTTTTCTCCATAACCTCCTGAATTCTTTACTGTTTCAACTGCAAATATTCCGTCTCCTGGTTCTCCTATTGCTAAACTTTTTGCAATGGTATTTGGATTCTTTATTGGTTTTATTGGACTATTGTTTTTTATCGCATCTACAATTGGCGAACAGCCCTCTGGCTGTGCGCTGGTAATTTTCGTGTTTTTTTCAGGTATTAAATCGATTTTATTAAATTCTTCTAATCCTCTATCTATCGCACATAACATTGCACCGCTGCCCGTTGGAACTATTACATGATCAGGAGCTGACCAATCTAGCTGTTCACATACCTCAAATGCAAGTGTTTTAGAACCTTCAACATAATAAGTTCTTAAATTTATGTTTACTATTCCAATATTATATTCATCTCCTGCATAAGACGCTAATCTGTTTGCATCATCATAAGTTCCATTTATTGGTATTATGTGTGCTCCATAAGTCTGAGCTTGAGATATTTTTGCAGGTTCTATGTCATATGGGATGAAAATATAACATGGAATTCCAGCTCTTGCTGCGTATGCTGCAGTAGCCGAAGCTAAATTTCCTGTTGAAGGAGATCCTACTGCCTCTAATCCTAATTCTATTGATTTAGATACTGCTATTCCTGCTGGTCTGTCTTTAAACGAAAATGATGGGTTTACTGTATCATTTTTAATGTACAGATTATTTAATCCTAATTTTTTAGCAAGTTTATCTGCTTTCTGTAACGGTGTAAAACCGGCTCCTATGTCTACTATGTTATTTTTGTTTCTTAGTGGCAATAATTCATAATATCTCCATAAATCATATTTTCTATTTTTTATAATATCTTTTGTTAGTTTAATTTTATCAAAGTCATATATTACGTCTAATGGATTGAAACATTCATCACAAACATATTCTAAACCTGCATGAAATTGCTTGGAACATTTCCTACATTGTAGATATTTTACTGACATACCTTTTTTCATTTACTTATTCATAAATAAATATTTTCTTGTGAATATTATTCTTATATGAATATCTATTCTAATTCACCAATTATCTCTTTTAATACTTTTTTGTTTAATTCTAAATTTATTTTTACTTTTGAAGAATGTAAAAATTCTTTTAATACATCTTCTGATATGTGTTCTTTATATAGAAATAATTGAATAATTAATTCTAGCTTATCTATTTCGTGAGCAAATCTAGATTCTTCTGATTTGTTATTCTTAAATTCATTCCATATTTCTAAATATTCTTTTCGCACGTGATCTGGTAGATTTGTCATAATATTATTCATTACATTGTCTTCTTCTTTACTCTTGTTTGGATTTTCTCCTGGCATTAGATCGCCAATAATTGACTCGGGCAAATCATGTAGTAACATCATTTTTAATATTTTTTCAGTATTTAGATTCATAGTATCTGAAAGAACCATTGCAATTGTTGACGCTGCATAACTATGATCTGCAACTGACTCGATGTCATTTACTGTTGATTTTACTGTCCACCCTCTTCTTTTTGTAGTTTTTAGTTTTTCTACTAATAAAAAAAATTTTTTTAGATTCATTGTTTCCATTAAAACCACTTGTCCAAACTTTCTGATTTCTGTTCCTCTATCTTATTTAATTTTTCTATCGTTTTTAATATTCTATCTTCTGAAAAATCATTTTCATTACATAAAAATGAAATAAGTTTCTCTTTTTGTATTTCATTTTTTAATATATTATCAGGTTTAATTACATCTGGCTGAAGAAACATTTTTCTAACTTCATTAATATCAATTAATTCTAATTCTTTTTTTATATCTGGTATATTTTCTATTTTATTATATTTCTTGATTTTTTTTATTGCAGTTTTAGGTCCAATTCTAGTAAAGCCATTTGGGTTATAATCTGTTCCTATTAATATTGCAATATCAACTAATTGTTCCCTGTTTATTTCATTTATTCTTAGAAATTCCTTTAATTCAATTATTTCTGGTTCAACATCTATGTATCTATTTGTTCTTGGCATTCTTCTTTTTCCAGAAACTGTTAGATTTCTACATAATTTCTTTGCTCCAAATAATAGAGCGTCATAATCTTGACTTACTGTAAAATCTGCCATTCCTAATTCTGTAAGGTATGCGGCAGTGGCCTCTCCTTCTGCAGGAGCTTGAATATATGGTATACCTAATAATTCAAGAATTTTCTTACAATCAATTAATATTTTATCGTCAATTTTTATCATTGAATGAGAATATCTTCTTGCTTGTTCCTGATCACCTTCTTCAATTGCTTTTAAATATATTTCTTGATTTTTTTCTCTAATTTCTTTTCTTTTTTGAATTAATATAGATTTTAATTTTGGTGGTTTTCCATCTAGAACGTAAATTGGTTCAATATTGTTATACAAAAGATTGATATTTCTATAGAATAATCCAATTAAGTGACTAGTAATTTTTCCTTTGTTATTCATTAATGGTTCTCCTGATGGACCTTTAATTGTTGTTAAAAATTGATAGATTATATTGAAACCATCTATTGCTATTTTGTTACCTGATAGGTTCTCGATTTTTGTTTTTCTTGGATTTGACAAGTCTTTTAATTTAACACCCATTATATTTCTATTGTTTCGATATGTTTATTATTAGTTTTCTAATTTAACAAATACATGCCATCTGAAAACGAACAAAATCTCTCATTAGAATCCAAATTGGGCCTTTTGTCATTTGATTGGGACTCTTCTGAATTTATTAAAGTTGATACCGAAATCTGTAAAACTTGTGAAGATAAACCTTGTTTATACGTTTGTCCTTCGCAGGTATATACTCTAAATGATGAAGAATTAGTCTATAATATCGAAGGTTGTATTGAGATGGGTTTATGCACAATAGTTTGTGATCAACTTGGTAACGGCGCTATTCAATGGAATCATCCTTCCGGTGGTAAAGGCGTTAATTATCAGTTAGGTTAATTTTCATCTATTATTCTTTTTACAAGTAAAAAAATTTCAAGTTAAAAGATTATTACTACCTATTGCTAACTATATATTAAAGGGGAATGTTTATGCCAAATGATTCTATTGATTTAGAAAATGAAATTTCTGAATCCGATAATATAAATACGGAATCCGATTTATCTACCGATGAAAGTGCATCAATGCTGGAAATTAATTCTCTTCCTGGTGTTGGTCCAGTTACTACTAAAAAACTAAATGATGTTGGAATTTATACTATTCTCGATGTTGCTGTTCGAGGCCCTAGTGATATATCTGACGCAGCTGGTTTTGAAATGGACAAGGCTATAGATTTGTGTAATAAAGCTAGACTAAAATTAGTTGAAATTGGTAAATTCGATAAAGATTTTGTGCCTGCTAGTGAAATTTATTTAAGAAGACAACAAATTCAAAGAATATCTACTGGCAGTAGTAATTTAGATGAATTATTGATTGGTGGAGTGGAAACTCAAGCTGTAACAGAATTCTATGGTGAATTTGGCTCTGGTAAAACTCAGATTTGTCATACGTTATGTCTTAATGTACAGTTGCCTGTCGAACAAGGTGGACTTGATGCAGGTGCTATATATATTGATACTGAAAATACATTTCGACCTGAAAGACTTAGAGACATTGCAGAAAAACGAGATATGGATCCCGATAAAGCTCTAGAAAGAATAACAGTTGCTAAGGCATACAATAGTTCACATCAGGAATTACTTGTTGGAGAATTAGGTAAAATTATCGCGGATACTAATGCTAAGCTTGTAATTGTTGATTCTTTAATGGGTCATTATCGATCAGAATTTCTAGGACGTGGAACTCTTGCAGTTAGACAACACCGACTTAATCGCTTTATGCATCTATTGACTAGAACTGCTGAAACTCATAATGTTGCTATTGTTATAACAAATCAAGTTATGTCTGCTCCTGATACTTTCTTTGGAGACCCCACTCGTCCTGTTGGCGGTCATGTAGTAGCTCATACAAGTACATATAGGCTATATTTGAGAAAATCTGGTAAAAATCGTATTGCCAAAATGAAAGATAGCCCTTATCATCCTGAACATGAAGCTGTTTTTACTCTTAATGAACGTGGAGTAGACGATCCAATAGATGTAAAAAGCAAAAAGAAATAAATAAGAAATCCAAAACATTATCTATTATTAAAAAGGGTTGATGTTGTAATGAGAAAAATCTTTTTGCCATTGTTGTTATTATTACTAACTCCAAATCTCTCCCTTCCTTCTAGTAACGCTGTTCATGACTATCAAGAAGAACTTTCAATTACAACTGCTGGAGATTTATCATATTGGTCAATTAATTTAATTGACGTTAATACAACTGGTGTTATTTCTCCTGAATTATCTTCTATTTCCGGTATTGATTCATTTGTGATATTTCATTATTCTCAGAAAGGCTCTTTCAATCCAAGATTTGATATTTTTACAACACACGGTTATGGAGCAATTGATTCCACATTACCAAAAAGTGGCGCTATTTTGAATATAAAAACTAACAGTCAATCTAACGCTGATAAATTTGCTTCATTAATATCTCAAGATCTTCATTTAGGATTTATAACATACAATATTGATACATCCTCAAAAGGTATGACGTATTCATATTATTCTTATGCAGATTCTGATATTATTACAGATGTTTTATTGCCCGTCTTTAATAATTATGATTCTGGATTTAATCAATTAATTAACGAAGAATTTTATAAATCTAATACTAATCCAACTTTAATTTTTTCCGGTAAAAAACAAAGCAATGCTATGATTTATTCAATTGAATTAGGAGGAACTACTACAGATGCTCTTGTTGATTCTACTGCTGGAGATTCAAGTGTTCTTGGTATGACTATTGATATAAATAATTTATTTGGTGTTGAATCTGTAAATGCTTCTTTAGACTCGACTAAATCAACAATTTCTTTAGAGTCATTTGGTTCAACTATTAATTCTAATTATTTATTATCTCAAAATCTTTCTGATTCTTCAATTGCTGTAAGTCATGATATTGATAATATAAATTCTAAATTAACTATAGAGTTGTCTAACGGTGGTTCATTTAATAATACAATTCCTTTGGATTATTATCCTCCTGTTCTTTCTGTAGTTAGAATAATTGACAAGACTGTTGGTTACTCTGGCGATACTATTGAATCTAGAATTACTTTTACAAATCTCTCACCTGAGGTTGATGGTCAAACAATTGATGAAGTTGTTTTTACCGATGACTGGTGGACTGACGACTTTACTCTTCTAATATCTGGAGAAGACGATATTATAGAAAATTTACTACCTGGCCAATCTGTAACAATTTCAAAATTATTGCAGATTGATACTGATGAACCAACTACTATTGTGTCTAAGCAGCAAGATACTTCATTTGAATATAAATTTACATTAGACGACAAAGAATTTTCAAGAATCACCCATTCTAATAGTATTCATATTGAATTAAATGATGTAAAACCAGCATTGATCGCTTTTTCGTTATATAATAGTTCATATGTTACTATGAATGATGATTTTGTCACAGAATTACAAATAAAAAATCTTGGCTCTCGTGCTGCTTATAGTGTAGATGTAATTCTGAATGACGAGGTATTTGAAACATTTGAATCAATTGCTCCAAACTCATTTGAAATTTTGGAACTTAATGTTTCTAGATCAGATTATCTTTTTAATACTCAGAAATATCAATGGGATATTACTTGGTCAGATGGTTTAGTTACACAAACAATTTCTTCTAATCCAATTTTTCTGATAAATGATTATAATTACTACGGACCAGCAATTATTGATTCCCCCAACATAGTTGTTGATAAAGTATCTGATATTCCTGTAGATGGAATATGGCAAGATGAATTAGAAGTTATTCTAAGAATTACTAATAACGGCGACAAGAATATTTCGAATATCCGTGTTTCTGATATTCTTCCTTCTAATGTTATTTATTTAGATAAAAATAGTAATATCACTCGTCTGAACAATCGTCTTGAAGCACATATTCCATTGTTACAACCTACAAACTCTTCTACTTTTGTATATAATATCAAGTCAGATTTGTCAAATAATATTCTCCTGCCTCCTGTCGCTGTTTTATTTAGTTACAATGAAAAAGACTACAAATTACTTTCTGAATCAGTTGTTTTACCAACTGCTGTATATATTAACAAAGAGATTAACACAAATACGGCACCTGTTGGATATAATTACACCATCTCTGTCGATTTCTCAAATAATGGCGCGTTGATGCTTTTTGGCGTCCAGCTAAATGGCAATGATGCTCAATATGTTAATGAAGACGATTCTCAATGGAACGAACGTTCAACATTAGAAGTTAATGGTGATATGAATTATGAATATTCAATTTCCAGTGATGAGGATGTTGATCGTAATCTTTTACAGGCATATGGCGAGTTTGTAATTGGCGGTCAAACTGTTAGAATATTTTCTTCACAAATTCCTATTGAAATTGTTGATACTCCTATAATTACTATTAAAACTATACCTGATGAAATCTTAGACAATCAAGAAATTGAATTAATTGTTATAATTGACAATCCCTCTGATTTTCCTTTGAAATTAATCTCAATAACTAATGGTCAAAATGATAATATTGAAATTTTTGATGAATCTTTATTTACTAAAATTTCTCTATTAGATCCTAAAGATTCTATTGAATTAAGAACTACTGCCAAGGGCTTGTCACCTGGCAAACCAATGTTATTCCAACCAGTTATCACCCATGAATACAAAGGACAATTAATTCAAGTTGATGTTGATGAATTCTCAGTATTTGTTTCTGAAGAAATGGTAAATCGATATATTCCTTCTATAATATTTTCACTTATTATTCTGTTTGTAACTGTATATTTAGCTAATAAGCTTGTTTTTCGAAAACAATAGCATTAGTTAATTATTTTAGCCGAATCACCAATTGATGATTTTATTGCTTTAAATCCTAATTCACATATCTCATCATATATCTCGTCAATAAATTCCTTATTTGTATTTATAAAAATAGATGGACCTGTTTGCATTGAATAATAAATTGGTTTATTCTCTTTTTGTTTTTGTTTAACTAAATTAATTACATTAATTGTTTCAGGCCGAATTAGTAAAATTCTTTCTTTTCCAGTCATTGTTAATGCATGAAGTTCCAATGAATCTTCCTCCACTAATCTTCCAAGATCATCTAATTTTCCTTGATTAATTGATTTTTGAATTTTTTCTAATCGAACATTTGCACTTTTAATTCTTGCATCAAAGAAATTTGAAGTTAATACTTCTTTATGAGCAAGTTCTGTTGAATATTCATAAGATAACGGAATTGCTATCATTCTAAGATCTAAATCTTTTTTTGTTGCTATCTTTTCAGCAAATGATGTTTCATCATTTGAACCTGCATGCCATCTTGCATATTCACCGACTACACTTCTACATGCTGATCCTGCTAATAATCTAGCAATACGAGAAATCATTTTTAAATCCCATCCATAAATTGAATCTAATTTCGAAGCTTTAAATGCCGCTACTGCTAATGCAGCACCTGCCGAAGAAGAAAATCCCACTCCTTTAACTTCTCCAAATTTAATGCTATTGTCAGACACAATTTTTACTTTTTCATTAATTTGTGACAAGTTTCTGATTTTTTCTATTATTGATAATGATCGTTTTAATACTGAGCCATTTTGTTTTACATTATTGATTATTAATTCATCTTCTTCATAATTTCCAAATTCAACTGTGGTTTTTGTATATAATGCATCCAAATTTACTGAAATACTATCATGATATGGAATTCTAAGTTCATTATTCTTTAGACCATGATATTTCAATAAGCCTTGCATTGTATTTGCTATTGCTGTTGCTTTATTTGACAAAATCTAATCCCTTCTATATTATTATTTTTAGATAGCCTTTAACTTTTGGATCTTGTAATTTGTATATCATTTTCCTCGGCATGTCTATTGCAGCTTTTTCCGAATTAATTCCTATTGTTCTTGAACATGTAAATGCACTTTTTCTTAATACTATATCCTTTTTGTGTTCTAAAGTGAGTTTTGAATTTCCTTTTATTTTTGTTGTGAATTTCATTTTTTCAACTATTATTTCTATGATAAACTCATTATTGTCTTTTTTAATTTCGTTTTTAATTTTACTATTTAAGTTTTTACAAGCTTTATTTGCACGAATTCCTATTATACAATCGCCATTCTTAGTAAGATTATCATGTGTTGTTATTTCTAATGTTGATTTATGCATTGCAAGTATTTCTGAATGACCATAAAATTCAATTTCTTCCATTGTCATATTACTCACTATTTAATTTATTCTTAAAACTTTAAATGTTAACTAAAACAAATTATTTTTGATTATTATGTTTCAAGGACAAGGTTACGATCGTGCAATCACTGTATTTTCACCTGATGGTCGTTTATATCAAGTTGAATATGCTATGGAAACTGTTAGAAGAGGTAGTTTAGCTTTAGGTATTAAAACTAATAGTGGTACAATTCTTGCTGTTGATGAAAAATTATCTAAATTACAAACACAAGGTATAACTCAAAAAATTTTTCAGGTCGATGATCATATTGGTGTAGCAGCTGCAGGTTATATTCCTGATGCTCGTATTCAAGTTGATCAGGCCAGGATAATTGCACAAAGTAATCGATTGATTTACGATAAACCTGTAGATCTAGAAACATTAGCTCGTAAAATTGCAGATTCTTCACAACAATTTACTCAATATGCTGGAGTAAGACCTTTTGGTGTCTCATTAATTATTTGTGGAGTTGATAGATCTGGTTCACATTTGTGGAAAACTGATCCTAGTGGTAATTATGTTGCATACAATGCTACTGCAATTGGTGCTGGTAGTGAACAAGTAATGGAACTTTTTGAGAAAAAATATAAAGATGATATATCTTTTGACGATGCCATTTTATTAGCGATAGAATCAATTGCTTCTATTAATGATCGTAAAGATTCAATTCAGAATATAATACTAGCAGTTGTTGATGATAAGACTAAAACTATGAGAACACTCACTGATGAAGAAATTCAAACTTATTATAAAAAATTAAATCTCAATAAAGCAAGTTAACTGTTTATAATTTTCTATGTTCTACCATTATACATTTATTCATAATTATATTCAATTTGTTTTCTCTTGCAATTGTATCTGCTTTATCATAAAATATTCCTAATTGCATCCAAACTGTGTGTATTTTGTTATATTTCTTCTTTATTTCTATTATATCTTCTAATATTTCTTCAACAAATTCCGACTTCCTAAAAATATTAACAATATCAATCTCTTTTGCTATATCTTCTGGAAGATTTATTAGTTTATCATAAGATTTTGTATTTATTATTGAATCTGCGGTAGGATTTATTGGAATGATATTATATCCAGAATCTTTCATATATTTGGATACACGATAGCTATCTTTTGATTCATCTTTTGATAAGCCTATTACTGCAATATTTTTTGATTTATTCAATATTTCTTTAATTTCCATATTTCTACTAATTCTTTTTATCTTTAATTTACTTTTTTTTAATTTTTTTAAAAAAATTAAATTACAGGCTAAAAGACAAAGAATATAAGGAGGCATTTTCCATTTTTCTATATCTGTTGCAGTTAATTATTGGTTTTAATATGTTTGGTGCTTTTTAGATATCTTGATTGCATATATTTATCTGAAAAAGGAAGAGGTAAACCATGAGTATTTCTGAAATTCCTGATAATAAAAATGGTGAAGCAAAGCCAAAGACTGCAAAGCCAAAGACTGCAAAGCCAAAGACTGCAAAGCCAAAGACTGCAAAGCCAAAGACTGCAAAGCCAAAGACTGCAAAGCCAAAGACTGCAAAGCCAAAGACTACAAAGTCAAAGACTACAAAGTCAAAGACTACGTTGACTGAAGAATCTCAAGATTATGATGTTGGTAATCATATACTGTCGCCTTTACATGAGAAACTTTCTGATGAAGAGGTTGGACTCTTACTTAAACAGTATAATGTTCAACATTCTAAACTTCCAAAAATCTCTCTTTCTGATCCATCAGTAGATTCACTTGACATAAAATCCGGTGATGTAATTAAAATAACGCGACCCAGTTCTACTAGTGGAACTACTGTTTATTATAGAATGGTGATTGATCTATAGTTGAAATTTTCTAATCTAAACGAAAATTGGGTAATCATTGAGAATTTGGTTAAGAAGGAAGGAATTGCCAACCATCATTTGAATTCATATAACGAATTTATCGAACATGGTATTAAACAAATTATTGATGAAGTTGGCGCAATAGACGTTGAAACAACTGGTATTCCATATAAAGTAAATTTTGGTAAAATCAATGTCGGCGAACCACGATCTGTTGAATTAGATGGTTCAACAACTAGAATTCTGCCTTTGGAAGCACGTTTACGAGATCTTAATTATGCTGCACCTATAACTATTGAAATGACTGTTGAGGAAAGTGGAATCTCTAGAGAAACTCAAAAACACCATATTGGAGATATTCCAATTATGGTTCGATCTGAAAAATGTGAGACTAGTAAGATGGCAGAAAGACAAATGATTGAAAATGGTGAAGACCCTGTTGATCCAGGTGGTTATTTTATAATTAATGGTTCTGAACGTATTGTAGTCGGATTAGAAGATTTATCACCAAATAAAATTATTGTCGAAAAAGATAAAGTTGGAGGTAATAAAGTTTATAGATCAAAAATCTATTCATCTATTGTTGGTTATCGTGCAAAACTTGAATTAACTCTCAAACATGACGGTGCAATTATGGTGAAATTACCTAGCTCACCTGTTGATTTACCTGTTGTTACATTAATTCGCGCACTTGGTATTGAAAATGATCGAGAAATCGCTTCATTAATTTCATCACGACCTGAACTTCAAAATCTTCTTGAAATTACATTTGAAAAAGCAGTTCTTGATCGAGAATCTAAATGTAATATTTGTAAAGTATGTGGAATGAGAATTATCGAAGATGATGAAAATATAGATAAAAATACAGATAAAAATACAGATAAAAATACAGATAAAAATACAGATAAAAATACAGATAAAAATACAGATAAAAATACAGATAAAAATACAGATTGTGGCCATAACAAAGTTTGTGGAAAACAAGGTGATTGTAGTCATAAAGCTCTTATGTATATTGGAAATCGTGTTGCTCATGGAATGCTTGATGAATTTCGTATTAGGAAAGCAGAATCGATTCTAGATTGGGGTCTATTACCACATTTAGGTAAAAACCTTGAAAATAGATATGATAAAGCTGTTTTTATTGGAGAAGCTGTCTGTAAATTGCTTGAACTTCGATTAGGTTGGATTGAACAAGATGATAAAGATCATTATGGTAATAAAATTGTAAAATTTGCAGGTCCTATGATTGCCGATTTATTCAGAACTGCATTTCGTAACTTAATTCGAGATATGAAATACCAATTAGAAAGAACTTCACAAAGAAAAGGTTTGAATGTAGTTGGCGCTTCTATAAGACCTGGTATAATTACTGATAAACTTGCTAATGCAGTTGCTACAGGTAATTGGGGTCGAGGAAAAGTTGGTGTCACTCAACTATTGGATCGTACTAACTATTTGTCTTTGATTAGTCATCTCCGTAGAATTCAATCTCCTTTAAGCCGTACACAACCAAACTTTGAGGCTAGAGACTTGCATTCTACTCATTATGGAAGGATTTGTCCAAGCGAAACTCCTGAAGGAGCTAATTGTGGATTAGTAAAGAATATTGCACTCTCATCGATTATTTCAATTTCTTCTTCTTTTGATGACATTCTTGATAAACTAACTCAAATTGGTATAATTTCCTCCCGAGATGTTGATATTAATGATCGTACTAGATTGTGTAAAATCTTTATTGATGGACGTTTAGTTGGTTATGTTAAAGATGGTAATAAGTTGGTTTCTAGCTTTCGAGTTATGAGACGCCAAGGACAAATTAATCCACACGTAAGTATTAGTTTACAGAAATACCCTCATAAATATTCATCAACTCGTATACATGTTTCACTTAGTTCTGGAAGAGTTTTACGACCTCTTATTGTTGTTTCTAACGGATTACCTCTTGTTACTCATGATGTAGTACAAAGGACAGTTAATGGTGAGCTTAGTTGGCAAGATCTTGTAAATATGGGAGTAGTTGATCTTCTTGATGCTAATGAGGAAGAAAATTCACTTGTTGCAATTAATGATAATTATATTACTGATGATCATACTCATGTAGAGTTTTTTTCTGCATCTATATTAGGTGCAGTTGCATCACTTATTCCATACGCAGAACATAATCAGTCTCCCAGAAATACATATCAATCTGCTATGTCAAAACAATCCTTGGGTTTTCCTACTCCAAACTATGATTATAATACTACTGTACGACAACATCTTCTTGTTTATCCACAAAATCAATTAGTTAAAACTAGTGCTAATAGCTTACTTAATATTGATAAACGACCTATTGGTCAAAATTGCGTTGTTGCTGTTATGTCATTTGAAGGATATAATATTGAAGACGCCATAGTTATGAATAAATCATCTGTTCAACGAGGTCTTGCTAGATCTTTCTTTTATCGTCTTTATGACGCTCAAGCTAAACAATACTTGGGAGGTATGAAAGATAACTTTGAAATTCCTAATGCAGATGAAAATACTAGAGGCTATAGAGGCGAAAAATATTATAGATTACTAGAAAATGATGGAGTCATAATGCATGAATCTGTAGTATCTGGCGGAGACGTAATTATTGGTAAAACTAGCCCTCCTAGATTTATGGAAGAATATAAACAATTTGAAATGAGAGGTCCATATCGACGAGATACTTCTGTTGCTATAAGACCTTCTGAAGTTGGTGTTGTTGATTCAGTTTTTATGACACAAAATGAGGATGGAGAAAAACTCTATAAGATTCGTGTTAGAGATATGCGAATCCCTGAAATTGGTGATAAATTTGCATCAAGACATGGGCAAAAAGGAGTTGTTGGTATGTTAGTTAATCAAGAGGATCTGCCTTATACTGAATTTGGAATTGTTCCCGATATTATTATTAATCCTCATGCATTTCCATCTAGGATGACCGTTGGTCAGTTTATTGAATCAATTGGAGGGAAAGCAGCGTCATTTCGAGGTACCCCAATAGACGGTTCAACTTTTGCAGGAGAAAGCGCTGAGGATCTTGGGGCTGAATTAGAAAAGTTTGGTTTTAAATCTAGCGGTTCTGAAATTATGTATGATGGAAAAACCGGTAAACCTTTCAAAGCTGAAATATTTATTGGCGTTGTTTTTTATCAAAAATTACATCATATGGTAGCTGATAAAATGCATGCGAGAGCACGCGGACAAGTTCAAATGCTTACAAAACAACCTACTGAAGGTCGAGCTCGTGGTGGCGGTTTACGATTTGGTGAAATGGAACGTGATTGTCTTATTGCATATGGTGCATCAATGGTTCTTAAAGATCGATTATTAGATGAATCTGATAAAACAAATGTTAATGTTTGTGATAAGTGCGGTTTACTTGCATATTATGATAATCAACAGAGAAAATATTTATGTAAAATTGATGGAGATGATGCAACAATCTCTACTGTTACTATTGCATACGCCTTTAAATTACTCTTACAAGAGATGATGAGTCTCAATATTGCTCCAAGATTATTGTTGGAGGATTTGGTTTAATCATATGTCTCTTGAAAATCTTAAAGAAATTGGCGGGATAATTTTTTCCATATTATCTCCTAGTGATGTTAGGAAGTACTCTGTTACTGAAATAACCGCACCTGAGACTTATGACGAAGATGGCATGCCCGTTCAAGGAGGTCTTATGGATAATCGATTAGGCACTTTAGAACCTGGCCAAAAATGTGCTACTTGTGGCAATACTGCTTTACGTTGTCCTGGACATTTTGGGCATATTGAACTTGCAGAACCTGTGTTACATATAGCATTTGCAGAAGAAATTAACAAATTATTACATTCATTTTGCCGTGTCTGTGGAAGATTTAAAATGCTTCCTGAAGATGTTGAAAATTTTCAAATAAAAATAGAAGCAGAATCTAAGTTTAATCCTAAAATACGGGATAAAATTGCTAAACAATTATTTTTAAAAACAAAAAAGATAATGCTTTGTTCATATTGTGGCGCCGAACAAAATAAAATTGAATTTCTCAAACCAACAATCTTTCATGAAATTACTGAATCTGGCGGAGCAACTCGACTACTTCCAAATGCCATTCGTGAAAGACTTGAACGAATAACTGATGAAGATCTAAAAATAGTGAATTATAATCCTTCTACTGTACGGCCTGAGTGGTTTGTTTTACAAGTTTTAGCTGTTCCTCCTGTTGCAGTCAGACCTTCTATAACTTTAGAATCTGGAATTCGTTCTGAAGACGATCTAACACATAAAGTAGTTGATATTCTTCGTGTAAATCAACGCGTGCGTGAAAGTAAGGAATCTGGCACTCCTCCATTAATTGTACAAGATCTTGTTGATTTATTACAATATCATGTTACTACTTTCTTTGATAATGAAGTTTCAGGAATTCCACAATCTCACCATAGATCTGGAAGACCATTAAAAACTATTAGTCAAAGACTAAAAGGTAAGGAAGGCAGATTCAGAGGAAGCCTATCTGGAAAACGAGTCGATTTTTCTGCTCGTACTGTTATATCACCTGATCCATCACTAAATATTTCTGAGGTTGGTGTACCTGTTGAAGTTGCTAAAAGACTTTCAATACCTGAAAAGTATTCAAAATTGAATTCTGAGTTTCTTAATAAACTTGTTTTAAATGGTTCTGATATTCATCCTGGTGCAAATTATGTTATAAGACCTGATGGAGTAAAAATTCGTTTAGATTATGTTGAAGATAAGCAGGCATTAGTTGATAGTTTAGAAGATGGATTTGTAGTTGAAAGACATCTAATTGATGGGGATACCGTAATATTTAATCGACAACCATCTTTACATCGTATGTCAGTTATGGGACATTCAATTCGTGTTCTTCCATATCGTACATTTCGTTTACATCCTGCTGTTTGCCCACCATATAATGCCGATTTTGATGGTGATGAAATGAATCTTCATATCCCTCAAAGTGCAGAATCTCGTGCCGAAGCACTTACATTAATGATGGTCCACAATCAAATTGTTTCTCCACGATATGGCGGTCCAATAATTGGCGGAACTCGTGACTATATAACTGCTGGATATCTATTGACACATGAAGATACATTTCTGGAAGAGGATGAATTTTCTGATCTTGCATTAGCAGGAGGTTTTGCTGGAAAATTACCAACACCTGTTAAATCAAACCCTAATTTATATTCAGGAAAACAATTGTTCTCATTATTTTTACCTGAAGACTTCAACTATCAATTGACATCTAAATGGTATCGTGCAAGTCAGAATAAAGACAGTGATGTATTAATAAAGAATGGTGAATTATTGAGTGGAATTATTGATAGAGCTGCCATTGGGTCTGAAGAACCTGATTCTATTTTACATAGAATTAGTAAAGATTATGGTCCAGAGGAAGCTCGAACTTTTCTTAATTCTGTTTTGTCCGTCTTACGATTGTTTATCAGTAATTATGGTTTTTCATTAAGTTATAAAGAACTTACTTTGGATAAACCTGAAGAGAAGAGAGTCTATAAAAGTATTGAAGATTCATATCTTAAAGTTAACGAATTAATTAACAAGTACCAAACCGATGAATTAGATCGTACTAAAGGAATGACAAAAGAAGAAGCGCTTGAAGCTTATATTGTTAATGAATTATCAAAAGCAAGAGATAAAGCTGGACGTGTTTCTGATAAAGCACTGCCTGATGATAATTCTGGTGTAATTATGGCCCGTACTGGAGCTAGAGGTTCTAGTCTAAATCTAGGACAAATGACCGCTGCGTTAGGCCAACAATCTGTACGAGGCAAACGTATTCAAAATGGTTACAGTCAAAGAGCGTTAAGTCATTTTACAAAAGGAGATATGTCACCTGATTCCAAAGGTTTTGTAAAATCAAATTATCGAACAGGACTTACTCCTACAGAATTCTTTTTCCATGCTATGGGCGGACGTGAAGGTCTTGTTGATACAGCAGTACGAACACAACAAAGTGGCTATATGCAACGACGACTCATTAATGCACTTGAACATATTCGTGTAGAGTATGATAGAACTGTTAGAGACCCACATGCAAATATTATACAATTTCTTTATGGCGAAGATGGAATAGATCCTGCAAAAAGTGATCATGGAAGCGCTGTTAATATTGTTCGTCAAGTAGATATTTCTATGATTGATAACAAATCAAAAACTAAGCCTAATACTAAACAAATTGATACAATTTTAAAATCCTATAAATCTAAATTTAATCCTAAAATGTTCGAAGAATTGGTTGACTCTTTTTCTAATAATTACATAACTGACTTTGGTATGAAACAGGTTTCGAAGAAAGTATTAGAATTATATAATAAGGCATTAGTAGAACCCGGAGAAGCTAGTGGAATTGTTGCCGCTCAATCAATTGGTGAACCTGGCACACAAATGACACTTAGAACATTTCACTTTGCTGGTGTTCAAGAAAAGGATGTTACTCTTGGTTTACCTAGACTAATTGAATTGGTTGACGCAAGAAAAGTTCCTTCTAAACCTTCAATGGATATTTATCTTCATAAATCTTACCGTGTTTCTCAATTAAAAGCATTGGATGTTGCTAATAAGATACTTTATACAACTGTTAAGGATCTCGTTTACCAGACTGAAGTTGATTATCTTGAAGGTATAAAACTTACTTTTGAATCTGACGTTCTTAAAAATAAAGTAATTACATTAGATGAAATTGGCGATATTATTATTGCTTCTAAACGCGAAATAAAGCAACCTATTGATTATAAAAATAATTCTATTATGGTTCTAGTTGAAGATTCTGACGCAGCTGCCTTATTCTCATTAAGAAATAAATTACTCGACTTAAGAATAACTGGAATTAAAGATATAACAAATCTTACTATTGTTAAAAAAGGTTCAGAATGGATGATTCAAACATCAGGTTCTAATCTTGGTAAAGTATTCAAAATTCCAGGTGTTGATACAAATCGTACTACTACTAATAACATTTGGGAAACTGCAAATGTAATAGGTATTGAAGCTGCACGTAAGGTTCTAATTAATGAAATTACTCATACATTAGATGAACAAGGTCTCGAAGTTGACATTAGACACCTTATTCTTGTAGCTGATTTAATGACTTCTACAGGAGTGTTAAAATCTATAGGCCGACATGGAATAGCTGGAACTAAAGAAAGTGTTCTTGCACGTGCAGCATTTGAAATTACAGTTCCTACAATTGCTAAAGCATCTGTTACTGGTGAAATTGAAGAACTAAAAGGTGTTACTGAAAATGTTATTGTTGGTCTAACTGTTCCTATTGGTACTGGAATGATTGATATTTACATGTCAAGGTAATAAAAAAATGATTAATCTTAAACCATTTGAAAAAATTTTAAAAAATATAATTAAAACAGGAGAAGTTGTATTTGGTTATAAAGAAAGCTTATCTTCCGTTGATGAATCAAAGTTAATTATATGCTCTTCTACTGTTTCAGACAATAATCTTGAATTATTAAAAGAAAAATGCACAAAAAATTCTATTCCATTTATTATTACTGGCAGAAATTCTGTATCATTAAGTAAATCTCTTGCTATAAATCATCGAATATCTGTATTTTCTATTCTAAATGCTGACGAATCTGATTTAAATCAAATTTTAAGTAAATTATAAATTATTTTTATTTATAGATAACATTAAAATAGCTTAATTATTAAAAATCAACTAACAATTTGCTAAAAATTAAACCAGATACAATTAAAATTACGTCCGAAGCATTTAGTCTGATGTCATTATTTCAAAAAGTTACTGGTGCAATGGCACGTGATTGTATAGTTGATAATAAAGTAGGTCGTGTAATATTTCTTGTAAATAATGGAGAAATGGGCCTTGCGATTGGTAAAAATGGCCAATCAATTAAAAATATTCAAAAATCAATTGGGAAAACAATTGAACTTGTTGAATATTCTGATGATCCAAAAAAACTAATTTTAAATGCCTTAGATTCTAAACTTACAGGAAGATATATTCACGATATTAAAATTAATGAAAAATCAAATGGCAGATCAACTGCAACTGTTCAAGTGGAATTGAATAAAACTGGTGCAATTGTTGGTCGTGCAGGACGAAATGCTGAAAAAGCACGGTTACTTGCCAAAAGATATTTTGAAATCAATACTATAAAAATTACAAATACTTGAAAGTTACATTTAATAATTACATTATGTATTAATTATAAAATAGGTCTATGAACAACAATAAATGGTCGAATTAATTATGGGAAATAAATCACCTGTTGGAGAATTTGCAGCAAGAAAACAACATAATAAAAGAAAATATATGAGATGGTCTGACGGACATTATAAAAGACGTGTTCTTAAATTAGATAAAAAATCGGATCCTCTTTCCGGTTCTCCACAAGCTCGCGGTATTGTTTTAGAGAAAGTTGGTGTAGAATCAAAACAACCTAATTCTGCAATTAGAAAATGTGTTAGAATACAATTAATTAAAAATGGAAAACAAATAACTGCTTTTTTACCTGGTGATGGCGCATTAAATTTTATTGACGAACATGATGAAGTAAATGTTGAAGGAATAGGAGGTTCTACTGGTGGAGCTATGGGAGATCTTCCTGGTGTTCGATGGCAAGTGTACAAAATAAATGACGTATCATTGAACGAACTTGTTTATGGAAGAAAAGAAAAACCAAGACGGTGATTTATTCGAGTAATCTTTTGTTATTTAGAAAATGGAATTTCTCTGATGTTGAAATTAATGATCCAGGTATTAAGGAAGTAATTTGCCTTGAACCTACAATTATACCTACTTCATTTGGCCGACATGAACATAAACGTTTTGCGAAATCTCGTGTTAATATTGTTGAACGACTTTGTAATAATCTGATGCATTTTGGGAAAAAGAAAGCAAAGAATTCTGGCAGAATGGCTGGTAAAAAATATAAATCAATTAATATTGTTAAAACTGCTTTTGAGATAATATATTTACAAACAAGTTCAAATCCAATTGAACGACTAGTTCGAGCTATTGAAAATGCCTCTCCAAATGAAGATACAACTACTATAGCTTATGGCGGCGTTAGATATCACGTTTCAGTTGATATATCACCACAACGACGTGTTGATTTAGCTTTACGATTTATTTCATTAGCAGTTAGAGAAACATCTTTCTCAACTAAAAAAAGTGCTGAAGAAATATTAGCGAATGAAATTATTATGGCCGCAAAAAATGATTCTAATAGTTTCTCTATAAAAAAGAAATTCGAACAAGAACGAATGGCAATGTCATCAAGGTAGTTTATGATTTAGATTTAATATTATATGGTGAATTAAAATGGCAAAAAAAAGAGTAAGAGGAAAATTAAAAGATAAATGGAAAGATAAACGCTGGATTACGGTAATTGCTCCACGTTACTTTGAGCACAAACCTATAGCTTATATTCCAATAACTTCTGAAAAGTACGTTCTTAATAAGAAAGTTGAGATTTCAATGTTTGATATCTACAAAAAAGAACCTCAACAACATTCTATAAATCTCCAATTTCAAATTACTGGTGTTACTGGTAATAACGCTTCTACAATTCTCAAAGGACATGAATATTCACGTGAATATCTCCGAAGTTTAGTAAGACGAGGCTCTTCAACATTAAGTTTTATTCATGATTATTCTACTAAAGATAATCATTTAGTTCGGATATATTTTATTGCGTTTGCACAAGGTAAACTGAATTCTTCAAAGAAACATGATATTAGATTAGTCGTGCATAATATATTCCTTGAAAAATGTAAATCACTAACCTATTCTGAATTATCTAAAGAAATAGTTGAAGAAAAACTGTCTTCAGAAATTTTCAATACAATTAAAAAAATTAGATATTTAAGAAATGTTGCTATTCACAAAACTAAATTAATAAAAATTCCTGAAACTATTCCAGATACTACTAAAGAACCACTTGTTGTTGAAGAAATTAATAATCCAGAAGATACCGATATTTCAGAATAAAATTATGTAGTTACAATTTTAATTATATCATTATTTTGTAATTTATAATCATTTCCCAATCTTTTTTTTGTTCTTGCATCTATTGCATAAAGAAATTTATTACCTATTTCAGAATGAATTTTGTAAGCAAGTTCTTTTGTTGTAGATTCTCTTTTAAGCAAATACGCGTCTGGAAGTACATTGCCTTTCTTATTTGTATATTTATTTTCATCTTCAACTGGATAAATAGTAATCATATCTAATAAATCGAAAAAAGCAAAATTTAATACATTTTGTACTCCTGTTGTTGCCCATTTTTCTAATACATATTTTTTTACAGTTTCTAGTGCTTTTGTCTGTTGAGGTGTTATTTCTTTGTCTTTATTAATTACATAATTATTATTTCCTGGCATATATTGAATTATTCCCTTTTCACTTGCTTTTCTTAGCAATAATTCAGCTTCTGACGCAGTTGGAATAATTTTTCTTCCCATGTTTTGTATTTTTTGAATATATTCATCTGATTCAACTAAATCTATTTTGTTTCCTGCAATTACTATTGGCTTTGACAATTTTCTTAATTCACATATGAATATTTTTTTATTTTCTTTAGTCCATTCTGTTATGTTTTTTGTTGTTAAATTTGATTTGTCTATTGACTTTATTACATGATTTTGATTAATTGCTAAACCACTTAATTTATTACTTAATAAATCTATGAATTTATTTTTATCACCTTTTGATGTTCTAACAATATTATTCCAGTCTTTATCTATAATATTATAAATCCAAGTATCAAATTCTGATTCAATCATTTCTATGTCTTTTGATGGATCTCTGATAGATTCTGTTAAAATTCTTCCTTCTTCATCTGTTTTTCCTGATAAATCAATTACATGAATCAAAACATCTGCTTGCCTTATATCATCTAGAAATTTATTTCCTAGGCCTCTTCCTTTAGAGGCGCCTGGAACAAGACCTGCTATATCTACTATTTTTACAGGTATTAATCTTTGGTGATTAATACATATTGAATTTACTGCATTATCTGTTACTTCTAATTCTTTGCAAACACAATCTGTTTTTACATATGCCATTCCAATACTTGGTTCAATAGTTGTGAATGGATAATTGGCCATATTTACATTGAGTAATGTACAAGCATTGAAAAATGTTGATTTACCTGTATTTGGTTTACCAATTAATCCTATCTTCATTAACTTTATTAGTTCTATACAAATATATAGGAATATTATTGCATAATAATATATTAAAAAACAATAAATTATATCGTGGCATAATATACGATTTGGATGGTACTTTAAACTTATCTTCTGAGTATTATTCTGTATATGGTAAATATTTTAAATCTTTATTATCTGAATTATTAGATCAATCAATCGAAGATATAGATAAACTAGTTGAACTTGCTCTAAAAAACAAATATGGTTTGACATCTCTTGTTCGCTCTTTAGGTATTGATTCTGCTTTTTTTTATACTAAATTAGCTGATGTTATTCCGATTTCTACTTTAGTATCTCGAGATGAAAAATTAATTCGTACTATTGAAATGATTAACAATATGAATATTGTTCAAGGAGTATGTTCTAATACTGGTTACGGCTTAATTTCTAAGATTCTTGAATCAATCGGTATTAAGAGATATTTTAGAGAAATTATAAGTAGCGATGAAACAGGGCTTAAACCATCTCCTGAACCATATATTTATACTTTAAATAAATTAAAAATTAATGCTGCTAATTGCATTTATGTTGGAGATAGAATAAAAATGGAAATAAACACCGCAAATATTCTAGGCATGACTACAATATTTGTTCAAAGTTATCTTATGGAAGGAAAAAATATTAATTACAGTAATGTTGATTATATTGTCGGAACAATCTATGAAATACCAGATTTACTTAATAAAATAAATGGTGGGATATATGTATAAACATTCGTCAACTATTTGGAAGAATATCTTTAAGAATAATTATAAAGAAATTCGTGAACGCGCTATTGAGTGGAGAAAAGGAAGTACTATAACTCGTTTAGAAAAACCGACTAGACTTAATCGTGCTCGTACTTTGGGTTATAAAGCTAAGCAAGGAATAATTATAGTTCGAATTAAAGTTAGCAGAGGTGGAATGCGTAGACCTAGACCAAAAGCTGGAAGAAGACAAAAACATGCAGGAGTTGTTAAAATGAAAGCTAATATTAATATGCAACAAATTTCCGAAAATCGTGTTTCTCGTAAATATCCAAATCTTCTTGTTCTTAATTCATATTTTGTTTATAAAGATGGAAAAAACGCATGGCATGAAGTTATATTAGTGGATCCATCACATCCATCAATTAAATCTGACGCTGATTTTAAATATCTTGTCGCATAAAAACGAAATTTTTTTATTTATTAAGTTATTGAATAGTTAAGTCGATATGCCTAATTCATATGAAGTTCGTGTTGAAAAAATTATAGATGAAAGTAGTGATTCAAAATCATTTATATTTCGTCCAACTAGTAGTGACGACGGTTTATATGATTATCTTCCTGGTCAATTCTTTATGCTTGAATCTGAAATTACACGCCCTGAAACAATAGTTTATGATAAAGAATCTAAGCAAATGATTCCACGTGGACCTGATGTTGAAGTTGTTGAAAAAAAAGCTTATTCTGTTGTTTCATCTCCTACGCAAAGAGGTTATATTGAATTAATGGTAAAAAGTGAACAAGGCGTGTTTGCTCCCTATTTACTTAATCAATTGCACGAAGGAGATACATGTAAGCTAATTGGTCCTACAGGTAAATTTATGAAAGAAATATTTGAAAAAGAAATAGAAAATATTGCTTGTTGGTCTGCAGGTAGTGGTATTCCATCATCTCTTAGTCTGATGCAATATTGTTTGGACAATAACCTGAATAACAAAATAATTGTTTTTGATAGTAACAAAACTCAACCTGATATAATCTATCATAACAAAATTAAAGAAATGATTTCAAAATCTAAAAATTTTAAAGCAGTATTTACAGTAACTCGTGAATCTCCTAATACACTTCCAAAATCTCCTCCTTCTAGAATATATTATTCTAGTGGTCGATTTTGGATTAATGAAAATACACTTGCAAAATACACTGACGATCGAAATATTATTTCAAAACTTTTTGGACGTAAACGTAAAATTCATTGGAAAGATTATTATAATACTATTTGTGGAAGTTCTAGTTTTATTAATGGAAAAGGTAGAGACAATCAAGGCAAAATGGCAAAACTTAGTGAAGGTGTCGAAGATCATCTTATCAAATTTGAGTGCACTCCATCAAATATTGATAAAGATCAATATTATCTCCAATAATTAAAGTAGCTTTAATTCTCCTGTTATCTCATCTATATCATTAGAATTTGCAGGACCTATTCCCAAACAAGTTACTGTTCCCTCTTCAACTTGTGTAAGACCTTTATCTTGAACAAGATAACAATGTACGCCTTTCTTTTTTGATAAATTATATATTTCTAATAAATGTTCTAAAGATTGGATTTTTAATACAATCTTTGCTTGACCATTCATTTTCCATTTTTTATGTACTGAATTATTATGTTTTTTTACAATATCCGCAGCAGAGAGAGAAGCATGAGCCACTTGAACTGCTATTTTACCTTTTCCCATTTGTAAATCAATTCTGACTATAATAACTTGTTTTACTTCTAATGATGACATATGTTGTATTTTTGTTTAGAGATTGATTAATATATTTGTTAAAAATTATTTATTTTATTAATTATGGCTAATAATAGTGATGTTGTAGTTGCAGGCGGTAGTCTTTCAGGCTTCATTTCTGCCCGTGAAATCTCAAAAGAAGGACACTCTGTAACTGTAATTGAAGAACATGATAAAATTGGCGAACCCGAAAAATGCGATGGCTTAGTTAGTATTGATGCATTATCATCCTTGGGTATAATACCAAACAAAAAAACCATTCAAAATAAGATTATTGGCGCAAGATTTTTCTCTCCATCTGGAAAACTTCTTGATATTGATTCATCAAATCTTGATATTGTCGTCTTAAACAGAAAAAAATTTGATATTGAACTATGTGACAATGCTATGAATGATGACACTGTTGTTGAAAAATCTACCAGATTTATAAATTCTCGCTTGCACGATGACGAAATTATTATAAATACATCACAAAACCAATATCGTTGTAAATATTTTGTTGACGCAATGGGTATTTCTTCATTAATGAAAAAACAAAAATTCGGAGTTTTACAAGCTGCAAAATATATTATAAAAGCTGATTGGTTTGAACCAAATAAAGTTGATTTATATTTTAATCAATCTCTTTCTCCTGGTTTTTTTACTTGGGTAATACCAATTCATGAAAATTTGGCTAAAGTTGGGATTGCTGGATATGGAATTAATAGTTTTCATAATCTTGATTATTTTTTAAAAGATAGAGAATGCACTATAATGAAAAAAATTGCCTGCCCCATTATTGTATCCGGACCTATTGACCATTTTATTAACAATAATGTAATTAGTGTTGGTGATTCTGCTGGTCAAACAAAACCTAGTACTGCTGGAGGAATATATTCAGGTGGTATTGCTGGATTATTCGCAGGTCAAAGTATTCATAAAAGTCTTGAAACAAAACAAGATTTTTTATTTGATTATGAAAGAAAATGGAGTAATATGTTTTCCTCTGAATTTACTTCTACCCGCCTCTTTAGAAAAATATTTAATAGACTTGAAAATAAACAGCTAGATAATATTTTTGATATATTGTCTTCTTCTTCTGATTTTCAGGATTCTATTAATAAAATAGGCGATTTTGATTTTCATTCACTTACATTATTACAAGCTTTAGGAATTAAAAAAATTACTAAATTGTTTAATGTAGTTTCTTCTAACGAACTTACTAAACTATTTAAAAAATAATATTATTATTAATAAACTGATAAATAATAGAAAATATGGCAATAAACTATGACAGATCATCCAGCTAAAGAAGCTCCAGCTAAAGAAGCTCCAGCTAAAGAAGCTCCAGCTAAAGAAGCTCCAGCTAAAGAAGCATTGGAAATACCTACTTGTACATCTTGCCATAGACCTTTACTGCCAGGTGAACTTTCTGTTAAATTTCAATGCCCTAATTGTGCCGAAACAACAGTTTGGAGATGTTCAAAATGCCGTAAATTTAGTAGGTCATACGTGTGTTCTAAATGTAGTTTTGAAGGCCCGTAGGTGTGTTATTATTGAGTATATTAGTCGCTAGAATTAAGATATTACCTACTGAACCTGGAATTAACGCTTCTAAACTTGAATCTCTTATTACTGATATATTGCCCGATAAAACAAAACTTAGACAAATAACAGACGAACCTATCGCATTTGGACTATTTACTATATTTGCTGATATTGAATTTGAAGACATATCAGGAACTCTTGATATTCTTGAAGATTCTATAAATAAATTAGATAAAGTTAGTGAACTTGAAACTATTGCAGTGAGTAATACGTCTACTGGTACTGGAGAATAATATCTTTATTTATTAGTTTCTAATACTTTTTCTTTTTGTTACTGTTCCATTTTTTCTTATATGGTTTTTTTTGATTACTGTTTTTACTTTCTTTAAATTCACTTGGCTTCCTATTTCCATATACTTTCTTTCTTGGCGAATATTCAGATCTATTTCCTTCGCCTCCTCTATTTCTTGGCGAATATTCAGATCTATTTCCTTCGCCTCCTCTATTTCTTGGCGAATATTCAGATCTATTTCTTGGCGAATTTCTGTTTGATCTATTTCTTCCATATCTTGAATTTCTTCTATTATCTGGCTTACGACTGACTTTTTCTAATGGAATTTCATATCTGTAAGTAGTCTTTCCTTCAAAATTCTTTATTGTACTTTTTATCTTTCTTTTTAATTCCTGAAATTCCCATGTTTCTCTACTACCTGCAACTATTGTTATTGCCGTTCCAGTATTTCCATCAACATGACCCGGAGTAACTCTTGCTGTTCGACCAATTCTATGAAAATATGAATCTCTATTTTTTGGTACATTATAATTAATAATGTAATCTACATTTTCTACGTGTATTCCTCTACTCAATAAATCAGTTGCTACAATTATCTTCGTTCTCTTTTGCTTAAATCCATTCATTGATCTGTCTCTTTGCACTTGACTCATATCTCCATTAATTAATACTGATCTTATTTCCAAATTTTTTATGAATTTATGAATTCTATAAGAATCAGACTTTGTTCTACAGAAAATAATCGTTTTTTTGGGTTCTATATCCTCTATTAATTCAAATAATAATTCCGTCTTATTTTTTTCACTGTTTGCACATAAATAATATTGTTCCAATTTTTCTTCTGATATTCTATTATCTTCATTTATCATTATTCTCATAGCTTGTTTTTGATATTTTTTCGCTAATTGTAATATTGGTTTAGGAAAAGTTGCAGAAAATAGCGCTGTTTGATGTTTATTTCTTATAGATCTAATAATAAATTCTATATCGTCGATAAATCCCATTTCTAACATTGTATCTGCTTCATCAATTACTATGAATTTAACCCAATTTAGATCTATTACTCCTCTTTCGATAAAATCTATCAATCTTCCAGGTGTTGCAATTACTATACTTGGGCCTTTTCTTATTGAAGCTCTTTGTATATTTGGAGATTCTCCTCCACAAATTTTTGTAATTCTTAACTTCTTGTACCTAGAAATCTTTTTAATATCACTCATTACTTGAGCTGATAATTCTCTGGTTGGTACTACTACTAATACTTCTATTTCACTTGTTTTTTCTTCAACGCTTTGCACAATTGGTATTCCAAAAGCTAATGTTTTTCCTGTTCCTGTATTAGATTGAGCAATTATATCTTTTCCATCCATCAAATTTGGAATTACTTTTTCTTGAATTTCTGTTGGATTATTAATTCCTAATTCATTTAATGTTAATACCAGTTGTTTATCAATTTTTTCATTAATAAAAATTAAATTCCTATCCACTAATGTTCTTATTTATCAACTAAGTTATTCCTTATAACAATGTTAATATTTATCAAATTAGAATTTTTATATTAATGACTTTTGATTACGACGTAATAATTGTTGGAGCTGGACCTGCTGGTTCTGCAGCTGCTTATAGTTTAGCTAAAAATGGTCATCAAGTACTAATTTTAGAAAGAGGTAAAGAACCTGGTTCTAAAAATATGTATGGAGGCCGAATTTATTCTTATTCACTTTCTGAATTAATTCCGAATTTTGCTGACGACGCTCCGATTGAACGTAATGTTACTAAAGAAAGTATATCGTTTATGACAGAAAACTCTAGTTTTCAAACTACATTTTCATCTATTCATTCCACTAATCATGGTTTTACTGCATTTCGATCTAATTTTGATAAATGGTTTGCAAACAAAGCTATTGAAGCTGGCGCTGAATTATTTCCTGAAATTAAAGTTGACGATGTAATAATTGATAAAACTGGTATTATTGGTGTAAAAAGTGGTAATGATGAAATTATATCCAAACTTGTTATAGCTGCTGATGGCGCTACTTCTATTATTGCAAAAAAAGCAGGTCTTAGAAATCAATTTTTGTCTGAATATTTTTCCGTAGGTGTCAAAGAAGTTATTGAACTTTCTGAAAATGTAATTAATGATAGATTTGGCATCTCTAAAGACAATGGGTCTGCATTAGTTTGTGTTGGTTACCCTACTAATTATCTTCGAGGCGGCGCTTTTATTTATACTAATAAATCATCTATTTCACTAGGTTTGGTTGTTAAAGGAATTGATCTTGTAGATAAAAAAATACAAGTTTCATCCCTCATAAACCAATTCAAAAATCATCCAGATATATATCCTATAATTAAGGATGGGAAAGTTTTAGAATACAGCGCACATTTAGTTCCAGAAGCCGGTTTCAACATGATGCCAAAATTATTCAATGATGGTATATTGGTGTGTGGTGACGCTGCAGGAATGTTGTTGAATAATGGATATACTTATCGTGGTGTTGATATTGCTATTTCTTCGGGTATTGCAGCTGCTGAAACTTTCATGTTAGCAAATAACAATAATGATTTTTCAAATTCATCATTATCAAATTATGAGAAATTACTTAGACAACGGAATGTAATCACAGATCTTAAAAAATTCAAGAAAGGACCAAAATATATGACTAATCAACGACTATATTCTGAATATCCTAAACTTATTTGTGATATATTTGAAAATTTGTACAATATAGACGGAAATCCACAGAAGTATATTCGTGAAATTATAAGAAGTTCAATTAAAGAAAATAAAATTTCAACTCTTGATTTAATTATTGATTCTATTAAAGGAAGTAATTCTTTATAATTTTATTATTTTTTTAATTCTTTAATTAAATCAGGGATTATTTCAAATACATCTCCAATTATTCCATAATCTGCAAATTTGAATATTGGTGCATTTTTATCTTTATTTATTGCAACTATACATTTTGAATTAATCATTCCAACTTTATGTTGTATTGCACCGGATATTCCACAAGCAATGTATAGATTTGGCGAAACAATTTTACCTGTTTGACCAACTTGTTCTGAATGAGGTCTCCATCCTGCATCCACTACTGCCCTTGAGGCACCAACTGCAGCTTCAAGAATTTCTGCCAATTCTTCTATTAGTTTAAAATTTTTTGATTCTTTCATTCCTCTTCCTCCTGATACTATTATTGTAGCTTCTGAAACATCCAACGTTTCTTTTTGTGGATAAATTGTTTCTTTGAGTGTTGGAAGTTTATCATTATTTGTTCGTTGATAATTGACGTGTTTTATTATAGGTTCATTAATCTCCACTTTTTCTATATTAAATGAATTCGTCTTTAATGATAATACTATTGAATTTGTAGTAAATTTTAATGTTTCAATGATTTTTCCTGCAAATATTGGACGTTTTATTTGTAATCCATCTGATTGAATTAAAATATCAATGCATTCAGTTACTAGATTATATTTAATATTTGAAGACACTCTTGGAGCTAAATCTTTTCCAATAGATGTACCTGAAAATAAAATTATTTCTGGATTTATTAGTTTAATTACTTCTAAAATTACATCCCTGTAAAGTTCTGGCGAATATTTTTCTATTGTCTTAGTAGCATCTATGAATAAAGACTTTATTCCATATTCCTTTAATGTATTTATATTATTTTCATCAGATCCTCCTATGATCATTACATTGTTGTCTTGATTCTTTTCTATAGAAATTCTTCTACTTTCTGTTAGTACTTCTAAAGAAGAATTCTTTATCTCATTGTTTTTTATTTCTATTATTGATAATATTCCTGACATTATAATTACCTTAAATTAATTTTTTTTCATCTCGTAGAATTTTTATTAATTCATGAACTGCTGATTTATTTTCCCCTATTATTTTTCCTTCTTCTCTTTTTGGCGGATATTCTAATTTAATTACTTCATAATTATTTTTGATTGTTTCATTGATTTTAATTATGTTAATTGTTTTTTTCTTTGCTCTCATTAAATTTTTTAATGATGGATATCTTAATTCATTTTTACCTTTTTCATGTGTTATTATTAATGGTAATTCTCCTTTAAATACCTCAATTGCTCCTTCTACTTCTCTATTTGCAATAATTTTCTTATCATCTAATTTGAATTCTGAACAATTAGAAATACATGATATTTTATTTATTTCTGCAATCATTATTCCTACTTGATTATTATCTTGATCTACTGATTTCTTTCCAAATAGTATTAGATCATATTGTTGTTTTTTGATTTCTTTTGATAATATACTTGCTACATATGAACAATCAATAATATTATCTTCTGTTTGTATGTGTATTGCATCATCTGCTCCTGCTGCTAACATTTTTGTTAATGATTGTTTAACTCTTTCAGGTCCTAGCGAAATAACCGTGATTTTTACACTATTATCCTTGTCTTTTATTCTAAGAGCTTCTTCCAATGCATATTCATCATATGGATTTATTTCATATTTTATTCCTGTCTGTTCAATTTCTTTATTATCACTAGAAATCTTTAGCTGTGTTGCTGTATCTGGCACTTGTTTTAAACATACTGCTATTTTCATATGTCGATTCTGATAAGATATATTTGCATTTAGCATTTGCGATATTGTTTTATTTCTTATTCTCTATGTGTAAAGTTAATATTGACTAATAAGAAAAAACTTTTTGGAACAAACGGTATTAGATTTATACCAGGTCATGAATTTGGTCTTGATTTTGTTGTTAATATCGGTCTTAGTGTGGGAACTTTTTTCCAAGGAAATGATATAATTGTCGGATATGACGGTCGCAATTCTAGTCCTTCACTTTCTAAAGCAATTTCATCTGGATTAATGGAATCTGGTAAAAATATTACAGATGCTAATATGGTTCCTACTCCTGGCCTTCAATTAATTACTCAAAAATCATATGATGGCGGTATAATGATTACTGCGTCACATAACCCGCCAGAATATAACGGCATTAAAGTTATTTCTTCTAATGGCATCGAAGTCTCGCGAAAAGAAGAAACTATTATTGAAAATATTTATTTTCAGAAAAAATATTCACGGAAAAATTGGCAAAATGTTGGTCATATGAGTTATAATAGTTCTGTTATATCAGATTATATCAATTCAATAATCCGAAATATTAATTCATTATCTATAAAAAAACGCGGATTAAAAATTGTTATAGATTCAGGCAATGGAACTCAGGCGTTAAGTGCTCCAATTCTTGCTGAATATTTAGGATGTAAAGTAATTTCTCTAAATAGCCATATTGATAGTAACTTCTCAGGACGTGGTGGTGAACCTACTCCAAAAACTTTGGATTTACTTTCTAAATCTGTTATTGAAAATCAAGCTGATATAGGTGTGGGATATGACGGCGATGGAGATAGAAGTATATTCTGCGATGAAAATGGCATTGTATTTTGGGGAGATAAATCTGGAACTCTTGTTGCTAAACATCTTATTCTCAATGGGATGAAGTCTCCAATTGTTACTACTATTGCAACTTCTCAAATCATTGAAGATATCGCGTCTAATTATAATGTTGATGTATATCGTACCAAAGTAGGTAGTGTAGACGTTTCTCATAAAATGATAGAATTAGATTCAAAATTTGGTTTTGAAGAAAACGGAGGCTGTCTTTATTCTCCTCATATTGCAGTACGTGATGGAGCTATGGGCACTGCACTCATGCTTGAATTGTTGTCTTCTTCTGACAAACCATTGTCAAAACACCTTGCAGAATTGCCTAATTTTTATCAATCAAAGACAAAATTTTCTTGTCCAATAGACGATCGAGATTCAATACTATCTAGTATTGCTTCATCATTAACTGAAAAAATCGATCAAACAGATGGACTTAAAATTTTCTGGACTGATAAGAGTTGGTCATTAATTCGTCCAAGTGGAACTGAACCTATTATTCGATTATTTAGTGAATCTCATAGTAAATCTCAATTAGAAACTATAACACAAAAGTGTTCGAAACTCATTAACGAACATGTAACTAATCTCTAGTTTTTTCTTTATTTATCTTTTAATAACTCATTTATCAAATTCTTATATTCCTCAATTAATTTGTTTGATTCATTAAAATTTTTTGCCTCTGCTGATAATCTAATACATTTTTCTGTATTTGATGGTCGGATTAACACCCAACTATTTTCCGTAGGTGTTATTTTTATTCCATCAATTAATATTACATCATTTCTTTTTGCAAAGTGTTTCTTTATTATATTAAAATTATTAGGATCTGTTTTTATTTTTATTCTACTTTGATTAAATTCTTCAATTCCTGAGAATACTTTATCTAACTTCCCAAATTTTTCGACTAGATATGAAGTCATTAATGCAAGTAGAACTCCATCTCTACATAGATTAAAATCAGGATAAATGAAACCTCCACTACTACCTTCTCCTCCTATATCACAACCTTCACTTAGAATTTTTTCTAATACATTACCTTCTCCTACTTGAGTAGTGATGATATTGCAATTAATTTTCTTTAAGTAATTTATAATTGATAACGAACTATCTATGCTTATTGCGGCTTTGTTTAATCCAAATCTTTGTTCAACATATTTTATACCTGATAATAAAGAGAAATCAGGTGGTGCCTTCTCTCCTTTTTCATTCATTATTACTAATCTATCTACATCAGCATCAAATGCAAATCCAATATCACAATTATTTGATATTATTAATTCCGATAATGATTTAAGAGAATCTTCAGTTGGATCAATTATTCTATTGAATATTCCAGGAAAATCATTTATTGTATATATTTGGCATCCAAGTTTTGTAAAAATATCTCTTACAAATACACTTGCCGCTCCTCCTCCAAAATCCATTGCTATTTTCAATTTATGAAATTTATTTTGATTAAAAAATTCTAATAAATCATTGTAATAACAAGTCTCTGATTCTATTAATACACCGGTAAAAATATTATTTTGTGTTGATATATTTTTTAACTCGATAGGTTTGATTATTCTACCCGGCCTAACAATTAATTTTAGTCCATTCCATTCTTTTGGATTGTGAGAAGACGTTATACAAATCCCTCCATCTAAATCATTTTTCTTTGTATGTCGGAATACTGAGGGTGTTGATGTAACTCCTAAATCTTTTACATTACATCCTTCTGCTATGAGTACAGATAGTACTATTTGATGTAACATATCTGAAGTTGTTCTTGTATCTCTTCCAATTGCACATGTTTTTATTTTTGAAGAATGAATAAAATCATAAATTATTTTCATTATATCCTTGTTTGTTAGGTCTTTTCCAACTATTCCTCTTAACCCCGATATGGTTAGTACTGCCATAATCTTACTATATTGGACATAATGTTAACTTTTTTCATTAATTCGCTAACATCGTAACATTTTTGATTTACTATAATCTAGTTATTCTATATATGCGTAAATCTCCATTTATAGATTATTCAAAGTATTTCTCTATTCTATTTAGTATAATTATTATTAGTTTAATAATTGTATTTATTACTCGGGTACGAGGTGGTTTATCTGCTATTGTACTTAGTATTCTTGCTCTGTTATTATTTTTTTATTGGGCTAATGAAATACGATTAACTTTGAAAAAACAACCTGGATTGGGAATAATACGTTCATCAAAAAAATTAACATATGAATTTATTAAGACAACTAATGGCGTCGATTTAATTGCACAAATATCCGGACAACAAAACAATCTTAAAGTTAATCTTTCTGATAATAAAATTATTATTTCTAGTAATGATGGATTGTTTAAAAAAATTAAAGTCTCTAAAAATTTACGTATTCTGAATTATCATTTTAAGAATGGAACTCTTACTGTCCATTTACTTTATAATACTATATGAAAAAAATTTCAATAATAGCACCAAATAATAACAATGAAAAATTCAATATTATTATTAACAATATTCTTTTTATTTCTAAATTTATCTTCTTCTCAATTATACCACGTATAATATAAATTCCTTCAGTAATGCTTGCTGCATACGCAATAAATTCTAACCAGAAAAATGGTGTTAAAGCAGTTACAATATAAAGAAGTATTCCTGAAATTCCTACACTGCTTCCTGCTGCTCCAAATACTATACCTGTTTGAAAAATTATTAATACTCCTAACATTAAGCCAATTATTGGAATCATCATTATCATTGCGATTCGAAAATTATTCAAAAAAATTGTTCTTGCATCTATGTCTTCTGGTATTAATTCTTGTGCCTGTTCTAATATGTCAGATGCTTGTCCTAAATCTAATGAAATAGCTGAACCAATTAGACCTATGAAAAATAAAAAAACTAGAATAAAACTAAATGTATTGATCCAATGTTTTGGAAAAATTTCTTTTAGATTAATTTTCATCACGGGTATTATATATTTAGAATGAGGAATAGTACTCCTAATGCTCCTGCCATCGTAATTAGAGTAACTATTACTGCAAGACCAATTCCACTTGGTTGTGGCGTACCTCCCTTAAATAATCCACCAGGAATAAACGCAAGCCCTAATGCTAGTACAAACATTGATGTCGCATGTAATCCTTGAACAAACGTTTCCGCCGGAAACAAGAAATTTGTGTCAAATGATATCCATATTCCCAACGCTCCTACTATTGTGAAAGATAACGCTGGAAGTAGTACTTCCCAATCCATAAAAAAACATGTATCCATGAAAATAAAAATGTTGTCTTTTTACCAAAAACTATTCTTTAATCGTTGTATTTTCGATTATACATCCTTTTTCATATAGTTCTTTGATATTTCCCATCATTATTGAAGGAGATACCATTAATAATAATAGGGTTATTACAAGAAAAATCATCTGATAGTAAATATTTGATAATGTAAACAATATGAATGAACCTATAGTCGTAGAAATTACAAATGAACCTGGTACTACACTCGTTAATAAGAAACCTGCACATGTTGGACATCCAGTAAAAAGACCAGCAATTGCTCCTATACTTAATAGCCATTTTCCATTATTTTTTGGTCGATTATTTAACGCAAACGCAATAAACATTACATTCCATGCTACTAGCGTTGAAATAGTAATTAGTAATACAATGCTAATTGGTATTAACATTGCACCAATATGCTCTGTTAAATATATTGCGGCATTGGGATATTGACCTATAGATCCACAACAATAAATAACTTTGATTGATGGTATTGATACATTAAACGCTTCGGAAAAATTTATACTAGATTGATAAATTACTGTTCCAGAAATTATACTAAAAATTATTGAATAGATAATTACTGAACTGATGAATATTTTTTTGTATCTTTTTTTTGTTATTAATTCATATGTTAAAGACCTTAAATTAAGTTTAACTGGTTTATTCCTTGATAGTAATTCTTTTTGAATAAGAAACATCTTCTCAATTTGTATACCGATCATAAGCGCTCCAGTAAATAAGCTAATTATGTATAATATGACGATATATTGTATGAGATGTGAAAGATTTTGAAGATAATTATTTATTATTGAATTATAAATTAAGGAACTGCCGATAATTGTCACGAGTCCGAATATTAACCACTCGTAATTATCTTTCAATGCTGATATTTATCTCTCATCATTTAAAAAAGTAAAGTCTAATTAGTATCGAGTGAATAGATTATATATTGCCTAGAAATTGGTTGGAACCCTTCAATTTTACTTTTGCGGTATCTTTTTTATTTACTGGGTTGATATTTCCCTTCCCTGCATTAGATAGTAGTGATTTACTTGTTCAAGGATTGCGATTGGGGATGATTTTTTTAGGAATTTACCTTATTTTTGGAATTGTTAGAAAACGCCGAATGAAAATCAAGTAGATGTTATTTATTCGAATATTTTTAGTTGTTTTGCAATAAGATATAATACATAACCAGTTAGTACTATTCCTAATTGTGACAAAAATGTGAAACTGATTATTGGCAGCATATCTAATCCTGTAATAGAAACTCCAACATAAGACAACCAAAGAGATGTTATTAAAACAAAGATTAATGGACCTATTATGTTTTCAGGTTTTTTATATTGTCTTATAAAGAATAATCCTAAAAATGTGAATACAGGAGATAATAAATCTATTGATCCAATTTGTGATGTGGTAGCAATCACTAGATGACCTAATGTTATTCCAAATATTGCAGCCATTCCGAATAATGCAATAAACGGCGCTAATATAAAACCTGGTATTATTGTTAGTAATGTAATAATTGTTTTCGAAGAAATTATTTCCCCTGACGCATCAATTGAATTTAATATATTTGCTGGAAAAATCTCAAAGATTGATGTTTCTGGCAGACCAAGACTTCCTGCTGCAGTAATACCTGCTGTAATTACAAATATTCCGAAACGACTTATTGTAAAAATTCCTTTTAATGGATTATTATCTTTTGTCAATGTTATAGTGCCGCCTGGAAATACGAAAGTCCATCTTGCCATAAGAATGCGAATAAGAATAACCATACAATATGTACAAAGTGCCAATATGTTCCTGCAGCTTCTAAGAAACCATGATTCTCTTTATCAAATTGATTTCTAAATGCTCTCATTGTAACTATTGCGTTTGCAATTACTCCTGCGATTACATGGACTCCGTGAATACCAGTTAGTAAAAAGAATGAAGCGCCAAACAAACCATCTTGTGGCGTTAATTCTCCAGAGGATAATAGATTTGGCCATTCAAATCCCATTTGTATAACTGCGAATCCTAAACCTAGTATTACAGCTCCAAGAAAGCCAAACTTTACTGCATTGTTGTTTCCTTTTTTTACTCCTGCAGTAGCCCATTCAATCATTATACTACTAGCAATTAAAAGTGCAGTTTGTATACTTGGTATTGCAACATCCAGATGATGAATTCCTTCTGGTGGCCATATTGCATAAGAAGATCTTAGATAGAAATATGCGATAAAAGCTCCTCCAAAGAATGCTATTTCTGATAAAAGAAATAAAGCCGTTGGAAAACCTACATCTCCAATTTCGTGGAATTTTCCAGGTGTACCTCCTGCTTTTACCATCTTTTCAGATTCTTTTGCAATATGTGGCCATCTTGGTATTTCTCCATTAACAAAAATCAATATTAATAGAATAAATAACATTACTAGACCTGCTCCGAGCGCCATTGAAAATCCTTTTAACATGAATATGACTCCTGCTGCTACAAATACTCCTGCTGTTAAGCCAATTATAGCTGGCAGATAAGAATGAACCTGTTCTGTATCTACGTGATGTTCATATTCTTCTTTTTTTGTTTCATTATTTGCCATCTTAGTTAAAAAATTTATATTATAAACACATTTAACTTTTTTTCCCATAGCCATTTCTGATAATCTAAAACATTTAATTAAATACTATGTACTATAAGACTTGTTGAATTATTCTTTATATCTTAACGAATTGGAGGAACTTAGAAGTAAACAAATATCTAGTAAAGTTTCTCAATATAGGAAATTTTCTGTAATTCTTGCCGTTCTTATTCATTTCTTTGCACTTGTTACCGGAGTAATACTATTGGTTGTTTTCTCATATTCTCTTATTACTATGCTTATTTTCCATGTAACTATGCAAATGTTAGCTTATCTTAATATCTATTTTGGACCAAAATTGTATAAAAAACATCTTAGAAAGAAAATTATTGAACCGGACCAAATTATGTTAAACAGATTAAAATAATCCTGATTGATTAATTTCAAATCTGGAAGGAGCAGAAATCCTAATATATCAAATTAATGCACTATGATTTGATTGTAATTGGCTATACTCTCGACTTTTGATAGGATTGTTTGGGGATTTACTATCATTTTTACATTTATTATACTCTTTATAGTTGGAGGTGGTTGGTTACTGTCATGGTATCCAGATCCCATTTCTGCTAGGGCTGCATTAATTAAGCAATATTATGATATTGTATTTATTGCTGGCACAATGGTTTCTGCTATATTTATTGGTACTTTCTTTTATTTGATATTGAAATTCTGGGATAGAGATCAGCCTGCAGGACTTGAATAACTATGAATACATTAGAAAAATTAGAATGGGCTACAATTATTGGAGCTGCAATTTTATTGTTTATTCTTGGGGTATTATCAATACCCATTTTACAATCACTAGACGACCCTGATTATTATGGAGAACCAGATTATGTTGTTAAAGTACAAGCTGCTCAATGGTCTTGGAACTTTATATATCCTGACGGTCATGAATCTGGCGAATTAAAAATTAAAAATGGAGATGTAGTTAGATTGGAATTAGAAAGTTCAGACGTTATTCATAGTTTCTACATTCGTGAAATGGGTTTTAAAGTTGATATAATTCCAGGTAAAACTCGAATTCATGTAATTAGCGCAGAAACTCCTGGCGAATATTGGATTCAATGCGCAGAATTCTGTGGCGCTTATCATGGTGGAATGAGATCTAAATTAATAATAGAGGAATGATAACTTATGGAAATACAAGAAGATAAAAAAGAAACAATCACAAAAGAAGAACACCATTTCTATTCTAGTTGGAAGACTGTCCTAACAACTACTCATCATACTGATATTGGTATAATGTATCTTGTGTTCTCTTTATTCTTCTTTTTTATGGGCGGTTTTGCTTCATTACTCGTTAGATATGGTTTAACACGTGGCGGTTCTATTTCGCCCGAGGCATATTCTAGTTTGTTTACGATTCATGGTGTAAGTATGATATTCTTATTTATAATACCTGCTTGGGCAGGTTTTGGAAATTATCTTGTTCCAAAATATATTGGAGCTAAAGATATGTACTTCCCTAAGCTTAACGCATTGGGATTCTGGTTGTTGCCTCCTGCAGCATTTTTAATTTGGGCAGGTATGCCAAATGTAGGTTGGACTGCATATGCGCCATTATCGGTTTACGAAGCTGGTTGGGGAATGGATATGACAATACTTGGCCTTCATTTGGTCGGAACTTCTTCAATTCTTGGAGGTCTTAACTTCATTGTCACAATCATGAAAATGCGTGCTCCTAGCGTTACATACAGAAATATGCCATTAATGGTATGGACTCAATTGACTACTTCTTTCTTACAGGTTCTTGCTACTCCTGTTCTAGCAATGGCCTTGACTTTGTTACTTCTGGATAGGAATCTGGGAACTGGATTCTTTAATCCTGTTCTTGGCGGTGATCCGATAATGTTTCAACACTTATTCTGGTTTTACTCACACCCTGCCGTATATATCATGGTTTTACCTGGAATGGGTTTAGTTTCACAAATATTGCCAAGTATGTCGAGAAGACGGATTTTCGGATACAGTTCCATTGCAGTTTCTACTGCCTTGATCGGTTTTCTTGGATTCGGTGTCTGGGCACATCATATGTGGACTACTGGACTATCAATGACTGCTCGTATACCATTTATGTTCGTGACGCTGGCTATTGCTATACCGTCTGGCGTCAAAATATTCAATTGGGTGGCAACACTATACGGTGGCAAGCTTAAACTCAGTACTCCGATGCTTTTCAGTTTAAGTTTCATTTTGAGTTTTATTATTCAAGGAGTTCAAGGTGTTTTTCTCGCCAACATACCTTTAGATTATCAACTCCAAGATACGTATTTTGTCGTTAGTCACTTGCATTATGTTTTATTTGGTGTTTCTGCTCAGGCTGTATTTGCCGGAATATATTATTACTTTCCATATATGACTGGTAGAAAATACAATGAAACACTCGGACAAATTCATTTCGCCTTAACTACTGTCGGAATGTATACTTTATTCACTGCTATGCAATTCTTGGGATTAGAAGGAATGCCTAGGAGATATTATCAGTATCTGCCAGAATTTTTCAATCTTAATGTAGCTGCCTCGTTTGGCGCTTTGTTAATTGCCACTGGAGCATTAGTGTTCTTGTACAACATATTATCTAGTTGGTACAGAGGTCCTGCTGTAGCTAATAAAGAAGATCCATGGAAACTATCTGATTACAATCTAAAGGAATGGCCCGAATAACCATCAAATGAATATCTTTAGGATTTTCTCAATATCTTCTGCAATTGGAATCTATGTTCTTATTGTTCTAGGAGGAATTACTACTCAAAGTGGTTCTGGTATGGCTTGTCCAGATTGGCCTTTGTGCTTTGGTGAATTACTTCCAAATTTAACCACTGCGATAATAATTGAACTGGCTCATCGTTACTTTGCAATGATTGTTGGTTTCCTAATACTTGGTACATTTATACTAGCTTATAGAGATCATAAAGATTCAAAATATCTACTTGCTTCGTCAGGTATTACACTTGTTTTAGTTATTGCACAAGGTTATATTGGAATGCTTACTGTCACCAGCGTACTTGACCCTGCTATTGTAACACTTCATTTGGCTACATCTACTGCACTGTTTGGTTTTTCAATAATTACTGCTCTTTTATCTTTAAAAACTAATTGATTGAATTAATCGATAATGGAAAATATTTATAATAAAACTGTAAACATATTCCAAGAAGGACTATTAAAAATTCTTCTTGGAAATGCGTTTATATTACTGATGTTATCTTCTACATTTGAACGATACGAAGTGGAAAATCTCTTTTTTCACATAATGATTGAACATATATTATATCTTATCGTTGGTTTTCTTTTTGGCTCTGGTTCTGATTCAATAGTTCAATCATTTAAATCTAATACATCGATTTATGGAAAAAATATTATAAAATATTATTCTAGATATCTTATATTAAATAATCGATACAATCCTTTTGGTTTAACTACTGGATTATTATTTATTGTTACGTTATTTTATTGGCATATTCCATCTAATTTTGACCAAGCAATAATTAATTATAACGCACATATCTTTATGCATATTAGTATTATATTTTCTGGTATATTTTTATACACTACTTTTAAAATGATTTCAAGAATTCAATCACTTCTTTTTATACTGTCTATTGATAAAGTGATGGGTATTTTTGGTTTCTTTTTGACAGAAGGCAGCAATCAAATCTATCAAACTTATTCGTTATCAACACAAATGATTTCCGGATTTTGGATGATATTAATGATGGTAGGAATTGATTTAATCTGCATATCCTTAATTTTATTAATCTATTTTAAATTGTCTGATAAATAATCGGTTAATTTAAAAATAGGAAGATTCTAACTAAAATGATGATTGATATATTCAATATTTTTATGAATCTATTTATTATGATGTATCAATCTGACGGACATAATATTAAAGGCACTAAACAAATAATTCTTTCATTAGCTGTATTTTTTATTCTTTTTGTTGCGATTTATCTTCTTTGGCAAACATTCTATAACATTCCATCTAATCAATCTTAATTTAATTTTTAGTTAAATAAGTCAATTTTATATTCTACAAGTAATTTTGTTGATACATCGAATGTCATCTAATTCCAAGTCAATAAATTATCGAACTCTTGTATCTCAATTGATAGAAGTTTCTAAACCATCAATAATCTATCTTCTCGATTTTGTGGCTATTTCGGCATTATTGATTGCTTATCTTGATGTAAATTATGTTACTGATCCTGCTAATCTGTCTTTAAGAACTATTGAAGGTTTTACTATAGTTGTTGGACTTCTTTTTGCAGGAACTTTTTCTTCTGCAGGTTCTGCTGCATTAAATTGTTATGTTGATAGAGATATTGACATTAAAATGGAAAGAACAAAAAATCGGGCTAGTGCTACTGGCCAACTTCCTCCTAATATTACTTTGATTTATGGAATAATTATGATTGTACTTGCTGCAATTATTTCAACTATCTTTCTTAATTTATTGACTACAGGAATGATTCTATTAGGATCATTTTTCTATGTATTTGTTTATACAATTTGGCTAAAACGAAAAACTACTTGGAATATAGTAATTGGTGGTTTTGCAGGAAGCGCTGCTGCATTTGCAGGATGGACTGCTATTACTGGACAACTCAATCTTATTGCTATTCTTATGGGTTCGTTAGTTTTCATATGGACTCCATCACATTTCTGGGCATTAGCTTTATTGAAAGACGACGATTATACAGCAGCAGGTATTCCTATGCTGCCTGTTGTCGTTGGTAAAGTAAAAGCTGCACGTTATACTATTATCAATACTCTCTTGTTAATTCCATTTTCATTAGTCTTTGTATTATTTGGTTTTGGTTATGTATATCTGACAATTTCTGTTATATTTGGAATTCTTTTATTATACAGTAATGTAAAACTACTTCAAAGCCCTACTGATAAAAAAGTAGCTCTTACGGCATTCAAATTTTCTAGTCCATATCTTGCAATAATTTTCATTGCATTGATATTAGATGTTCTATTCAGAATTCCTATTTTTTAGTTAGTTGATTTTACTGTTATTTCTTCTTTATGCTTTTCTTCTACTGAATTTTTGACTTCTTGTAGACTAGTGTCCATTCCTTTGATTACATATTTTCTTAAACGTATTCGATCAATCATTATTCCTATTATGTAATATGGCAATACATAATCAGCTTCAAATGTTACTTTTGTTGCATTGTTAATTTCTTCGAAGTTTACTGTTATTACATTCTTTTTAAATGGACCATTTAATGCCTTTGAGACAATTTTTTTATTTTTTGTTACTTCACAGGTTATGCTATCCCATTGCATAGCTCTTCCGCCAAATTCACCTATTATTCTCATTACAGTCCCAACTCCCCATCCTTCTGTGATTTTAATTGGAATAACTTTCATTTTTGATTCCTTAGGAAAATGACCTGCTACATGTTCTGGTCTTGCGTAGTACATAAAAACGTCATCTACAGGCGCTTCCATAATTATGCTTCTAGATACTTTACCCATTTTAAACAATATACTAACTCATTTTGAATACTTATATCTTTTGGATATTACCACTTTAGAAATTAATCATCTGTCATTTGCATATTTGAAATATTTCCGGATAAATCATCAATATCTAAAGTATACAAAAATATTTCCTTGGTTTCATTTTGTTTAGCAGAAAATTTTACAGTCCAAATGGAAGACTTTTTGTTATGAGATATCTCCTTAAGCTCGTCCCATTGTATGTATCCAAAGTGGTTTACATACTCTATTGCTTTATTAACTATATTCTTTTTATTCATTCATAATTCTGAAAAATTTTTTCTACGTCATTCATTATTTTCGCTAATTTAAAATCGAAATTACTTATTCCTCCAATATCATGAGTAGTTAATTCTACTTCAACTTTATTGTATAAATTAAACCATTCTGGATGATGATTTATTTTTTCTATTTCTATTGCAACTCTAGTCATAAATGTAAATGCGTCAGCAAAATTTTTAAATTTAAATGATTTTTTTATTTTATTATTTTCCTTAATCCAATTGTCTAATTTAGATAATTTTTCATCAATTTCTTCATTATTTAATTTTCTATAACTTTCTTCCATATTATATGATTGTGACGGTAGTTTTTTATTGTTTATGGTAGTTACTTATTTCGGTCTCGCGACCCGCGGTATGATCTTATGATATCCCGCAGGCTCAGCTTGGTAGAAACGATTGCCAAAAGCTTCCGGCTGTAGAGATAGGCCTTGGCTTATCTAAACAGTTTGCCAAGCATACAGGAACCGGACTGTCGTCGGAGATAGTAAAATCGACGAATTCAAATTGGCTTAGTCCATGAATGTCCGACCCGCGGGACCATTATGTTAATTTTTCAGAAGAAGAATATATATATACATAAGTTATGCACTGAATTATTAGGAAAAAATGGCTGATAAACCTCATTTAAATTTAATAATTGCTGGTCATGTAGATCAAGGTAAATCTACTATAATTGGCCACCTTCTTGTTGACCTCAAAGTTGTTGATGAACGAACAATTGCAAAGTATGCAGAAGAATCTGAAAAGACTGGTAAAGGTGATACATTCAAGTATGCATGGGTTATGGACAATCTCAAAGATGAAAGAGAACGTGGTGTTACTATTGATCTTGCATTTAAGAAATTTGAAACAAAAAAATATGATTTTACGCTTATTGATGCACCTGGACACCGAGATTTTATTAAGAATATGATTACTGGGGCTTCTGAAGCAGATGCTGCAGTGCTTTGTGTTTCTGCCAAACCTGGCGAAACTGAAATTGCTGTTGGCGTAGGCGGCCAATCTAGGGAGCATTGTTTTTTACTAAAAACACTTGGCGTTAAACAAATGATTGTCGCTGTAAATAAAATGGATGATACTCAAGTTGGATATAAAAAAGAACGATTTGAAGAAGTAAAAATTGAAGTTGAAAAATTATTAAAAGGCGTTGGTTGGGATCTTGCAAAAACACCAATTATTCCAGTTTCAGGATGGAAGGGAGATAATCTAATTACTAAAGGTGATAATCTTGCTTGGTTTGACGGCAAGACTATTTATGAAGCATTCGATGATTTCGAAATAGAAGCTCCTCCTATTGACAAACCTTTGAGACTTCCACTCCAAGACGTATATTCAATTACTGGTGTAGGAACTGTTCCTGTTGGACGTGTAGAAACTGGTACATTCAAAGTAGGAGAAAAAGTTATTATCATGCCTAGTGGCGCTAGCGCTGAAGTTAAATCAATAGAATCTCATCATGTTGATATGTCACAAGCACAAGCTGGTGATAATATCGGATTCAATTTAAGAGGCGTAGATAAGAAAGACATAAGACGTGGTGATGTTATAGGAACTGCTGACAGTCCACCTAAAGTTGTAAAAGAATTTACTGCACAAATTATAGTTGTACATCATCCAACTGCAATTGCACCAGGATATACTCCTGTTATACATGCACATACTGCCCAAGCTGCAGCTACTATTACTGCGATTGTTTCCAAATTAGATCCTCGAACTGGAGGTGTTCTAGAAGAATCTCCAAAAGCATTGAAGACAGGCGATGCTGCAATAGTAAAAATTCAACCACTGAGACCATTATGTCTTGAAACGTTTGGTAATTTCCCTCAATTGGGTAGATTTGCACTTCGAGATATGGGAACCACTATTGCTGCTGGCGTAGTTAAAGAAATTAACCAAGAATGGGAAATTTCATAAATATTTTTTTTATATTAACTTTTTTAAAATATTTATTAAGATTGGATATATATTATATTTATGACTAAAGTCTCTCTAAATGATGTTTCCAAAACTTTCAAAAATTCTAGCACTGACGCAGTATCTAAAGTAAATCTAAAAATTCACGATGAAGAATTTTTAGTTATTCTTGGTCCTTCTGGCAGCGGAAAATCTACCTTATTACGATTAATTGCAGGTCTTGAGGATCTTACTTCTGGAGATGTCTACTTTGATTCTGAAATAATGAACGAAGTATCACCACGTGATCGTAATATTTCTATGGTATTTCAAAATTATGCTTTGTTTCCTCATATGAATGTTTTTGATAATATTGTTTTTCCTTTGGTATCTTCAGGAAAATCAAAGTTAGAAATTACAGAAGATGTTAATAGAATTGCTTCAATATTGAAGATTTCAGATCTTTTAGAAAGAAAACCCTCTGAATTGAGTGGCGGTGAACAACAACGCATATCTCTTGGCCGCGCTATTATTAAAAAACCTAAAGTCTTTCTCATGGATGAACCATTATCTAATCTTGACGCATCATTACGTGCTGAGTTACGTACAGAAATCAAAAAATTGCACGAAGATTTGAAAATCACATTTGTTTACGTTACACATGATCAGACCGAAGCTATGACTATGGCTGATCGAATTGCTGTAATTAAAGATGGAAAACTATTGCAGGTCGGCACACCTAAAGAAATTTATAATTCACCTAATCATTCTTGGATTGGTTCATTTATTGGTTCTCCTCCTATGAATTTAATTCATGCTACTGCAGAAAATGATTCGTTAGTGATTAATTCACAAACGCTTAATCTAAAAATTTCATCCTCTTCTCAAGATATTCTAATTGGCATACGACCTGAAAATATTACAATTAACTCTAGTGAGGGCCGACTCACTGGAACTGTATTGTTCTTAGAATACCTGGGAGATAGTAATATAATTAACGTGCAAATTGAAAAAGAAATAATCAAAATAAAAGTTTCTAATGATTCCAAATTCTCTGTAGGAGATAAAGTTTGGATTAATTTTTCCGATAATGATATCAATTTGTTTGATAATAATGGTAAATCCTTAAAGTGATTATTCTTGAAAGTTCCCTATAAATTTCTAATTCCTTGTTTGATTATAATCTTCCTTGTTGGTATTGGTCCAGTATTTCAATCATTTCTTCTTAGTTTATCAGAATTTTCATTAATCAATCCATCTCAGAGTCCTGTTGGCTTTCAAAATTATATTGCATTATTTTCAGATTCTATTTTTTGGAATGCAATTAAAGTTACTCTTTTATTGGTATTTGGGTCTGTATTTCTTGAATTAGCTGTAGGAATATTTCTTGCTTTATTAATAACTAATTCTGGTCCAAGAGCAAGAGGCGTATTTTCTTCAATTTTTGTCATTCCGATAGCTATTGCTCCAATTGTTGTTGGTATATTGTGGTCTCCTAATTCTGTTTTTGACGACCTTAATACTTTACTTTATTATGGTTTGTCTCTTGGAGCGTATATTGACACAACAATTCCTATTATATATTATTCTTTGATTATAATTTCCGACGCATATATCTGGGCGCCATTAATAATGTTGGTTACTGTAGCAATTATTAGATCAATTCCTAAGGAACAATACGAAGCTGCCGATGTGATGGGTGCTTCATCTTGGCAAAAGTTTCAGAAAATTACTTTTCCTAAAATAATTACTTCTCCTGCTTTGGTAGTAACTTTACTTTTAAGAATTACCGATGCATTTAGAATGTTTGAAGTTCCGTATGCATGGAATTTCTGGCTTGGCCAAGATTCAGAACTTGGCTCATCAGTTGATACTGTTAGTGTTTTAATGTGGAAAATGTTTTCATCAACTATGTATGACTTTCCAATAGCTCAAATTACTGCAATTGCTATTGTATTATTAGTTATTACATTATCTACTTGCGCAATAATTTTACGAAGATCTTCTACTTTAATGGATTGATTTTATGAGCAAATCTAAAAACAACAATTCGCGTTATATTCGATATATGCTTTTGGCAGCTGCTTCACTTTGGGTTTTATGGCCTATTTCAATTATGGTCGAAGAAGGATTTCGAGTTGATATAGGTCCTTTGTTCTCTGGCCGTGGAGCAAGTTTTATCGGTGAATTTTTTCAAGGACAAGGTGGTATTAGATTTTCTACTATTGAATATACAAAAGCATTGAGAATAGAAGCCTATCCGCGTTTATTAATGAATAGTGTAATAATTGCAGTTAGTAGCGTATTGATTGCTATTCTTGCAGGACTTCCTGCTGGATTTACATTGGCTTTGTATAGATTTCGTGGCAAATCGTTCATTACATATTCATTATTAGCAATGAGAACAATCTCACCGTTTGCTGTACTTCTTCCATTTTTCCTAATTTATGGTAGATTGGGACTTTTTGATACATATCAGGGAATGGCTATAGTCTATCTTATTATTAATTTACCAATAATCACTATGATGATGAGGGGTTTCTTCAAGGATATTCCAAAAGAAATATTTGAAGCAGCTTTTATGTCTGGCGCATCTGATTCGTATATTCTTCGAAAAATTGCTTTACCTTTGGCATTGCCCGGTCTAGCTGCTGCAGCTGTTTTTGCATTCGTTGGAACTTGGAATGAATTCTTTTATGCTTTATTTTTAACTGGTACAGTTACTAAAACTGTTTCACGTGGAGTGTGGTCTGGTTTTTCTGAATCTATTGAATCCTTTAAGATTTTAGAATTTGACGAACTGAATGCAGGAGGAACCCTTGCTATCATACCAGCTGTTATACTTTCATTGGCTGTACAAAGATACCTTGCTCGTGGATTTACTCTTGGTGCCGCAGACTGATGTCTAATATTAAAAACAATCAAATTGCTGTAATTGTCGTAATCATCTTATTTCTAGGAACAATTCTAGTGTATTTCTCTTTAGGGCAATCTGAAACTGTAGATGTTCTTCCATCAAATGAAAATGAATTGCTCTCATTGGCGAAAGAATCAGGTAAATTAAGTATATTTGTAGATGATGCGGTATACGATGAATCTTTTTTCAACTATCTCGATAAAGAATTTTCTACAAAATATGGAATTGATGTTGAGGTTAAAACTGGACATTGGTCTGGACTTCAGACACAATTAATTAATGAAAAAGTTTCTGGTCGTTCTTCTGGCCCATTTGATTTAGTTATCCTTAGTGATGAAGCCACTGCACGTTTAATTGAGAAACAACTAACATTTTCTCAAACTGCCAATATAATTTCTGACATTTCAAGTAGTACTATTACTGATGAAGTAATCAAGTCAAAAATTGCTGGTGTTGATAACGACGGATCAAGTGTAACTTTGTGGTTTGACGTTTATTCTTACATGTATAATTCTGATGAATTCTACAAATTTGAAAATGTATATTGTTACTTGGGATTAGTTGGTGAAGAAGAGGAAGATGACGACGACGATGATGAAGAAAGATGCCAAAATGTAGACGATGATGACCATGATGATGGCGACGGTTCAGGCAATGGTGACGATGATGACGACGACGATGACGAAGAAACGGAAGGTATCTTTTTCCCTAATCCCGTTGAAGAACAAGCTGGCATTGCTTTAGTAGTAAATACCGTTCTTCATTATGGTAGCTCTGGTTACTATGCTGCCTCATATGATAATTCATTAGAATCAGAATGGCCTGAATTATTGAATTTTGAAATTGAAGATGAACCTGAAATGGAAGAAATGGATGAATTATTTGGAGAAATAGAGGAAGAAATAGAGATTGATTCAATTCTTGAAGTTTTTGACGAAGAAGAGATATTAGTCGGCTACTTTAGGTATGGATCTATCTTACTCGAATCAATTAATAGGGAAATTGACGATGAGATAAAAGTGTATTTTGGTATTGAAGGTAGTGTAAAAACTAGCGTTCATGCAACTATTCCATTTAATTCTCCAAACAAAGCTGCAGCTACTTTGATGATTAATGAAATTCTCAGCGATAATTCACAAATACAGATTGCATCAATTTATGGAAGCTACCCATCTGCTAATATTGATGTATTCGCTGATATCTTTAGTAACGCTCAATTCTATATTCCATTTGAAGATATTTCTGATTCATTATACGAGTGGCCATATTATTCTTATCCTATCAATATACTTGATATGTGGCGTGTTTTGTTTGAAGGATAGTGGTTATTGTGATTGATTCAATTATTAATCGAACAAATAATTTATTGAACAAACTTAATCGGAAAAATTTTTCAGCATTACTGATAATATTTTTATTATTATTCGTTTTTTATTTACGAGCCAATGCAATGAATCTTAGCAGTCAATACAGTTCTGATTTAGAATCTGACATTGAAAACATTCCAACAAATCAACTTTCCAATACAACCTTTTTTAGTGATGTACCTGTGTCAATTTATACCATTGAAGGAAACGAAAAATCCATTATTATAACTTATGTTACATTGATCAATTTAATTTCTGGCGAATATGAAATAGATCTTAGTGATCACGACGAATTCAATTCTGTTGAAGTTCAAAATTATTATTTACCTGGAACATACAAAGTTTATGTTACTATTGAAAATGACATCTTAATTTTACTGTTTGAACGTTCTGTTGGAGATTATAATAAACTCTAGTTACTACTTCAATTACGTTGATTTTTTACTACTTTTCTTATATGTTCAATTATAGTTTCCATTGATGTTCCTGGTCCAAAGTTTCCTGTTATTCCATTTTTCTCTAGTTCCTTTTTATCCTCTTTTGGTATTATTCCACCACCTATTATTTGTATATCTTTGATTCCTTTGATTTCTAGATATTTTTTTACTTCTGGAAATGCCGTTAAATGCGCACCATTATGTAAACTCAATGCAATTGCATCTACATCTTCATCAATTGCTATTTTTGCCACTTGTTCAGGAGTAGGTAATAAACCACTGTATATGACTTCCATTCCTGCATCTCTTAATGCTTTACATAACACTAATATTCCCCTATCATGCGCATCTAAGCCAGGTTTTGCAACTAATATTCTTATTTTTTCAGACATTGATCGTTCTTACCTTTTAAAATATTTGAGGTTCCTTCCATTCTCCAAAAACTTCTCTTCCAATATCAACTATTTCTTGTAATGTCGCATATGCTTGTACTGCCTTTATGGTATCATACATACAATTCTTGTTACTGTCTTCATAGGTTCTTCTTAGATTTTTTAATACTTCTGAAACTTTTTTATTATCTCTTTTATTTTTTAATTCCTTCAATCTGTTTATCTGAATTTCTTGTGCTTTGTCATCTACTTTTAATATTTTTATTGGTTCTCCTTTTGCCTCAGCATACTTATTTACACCTACAATAATTTCTTTTTCTTTTTCAATTTTTAATTGATTACGATACGCTGTTTCAGCAATTTCTTTTTGCAAATATCCTTCTTCTATTGCACTTATTACTCCTCCTATTGAATCTATTTTATCAAAATATCTATATGCTTTTTCTTCTAGTTCATTAGTTAAATGTTCTAAATAATATGATCCTCCTAGTGGATCTACTGTATTAGTTATTCCTGTTTCTTCTGCAATAATTTGCTGTGTTCTTAAAGCCACTTTTACTGCTTCTTCAGTTGGCAATGCCCAAGCTTCATCATATGAATTTGTATGTAATGATTGTGTGCCTCCGAATACACCTGCAAGAGCTTCTATTGTAGTTCTAATAATATTGTTCATTGGTTGTTGCCAAGTTAATGATGCACCTGATGTTTGTGTGTGGAATCTTAATAATAATGAATGTTCATCATTTACCCCATATTTTTCCTTTAGAACTGTTGCCCATATTCTTCTCGCTGCTCTGAATTTAGCTATTTCTTCAAAGAAATTCATTGTACTATTGAAAAAGAATGATAATCTAGGCGCAAATTCTTCTATTTTTAATCCTGCTTGTTGACCTAGTTCTAAATATGTAAATCCATTTGCTAAAGTAAATGCCAATTCTTGTGCTGCATTAGAACCTGCTTCCCTTATATGGTATCCACTTATACTAACATAGTTCCATTTTGGCATTTCTTTTGTACAATATTCCATCATGTCACGAATGATTCTCATATGATCTTTTGGTGGATATGCCCATTCTTTTTGTGCAATGTATTCTTTTAGAATGTCTGTTTGTACAGTACCTCTTAGTTCCCTAGTTGGAATATTATTTTTTAATGCTACTGCCATATACATTGCAGTTAAAATTGATGCAGGAGCATTGATCGTCATTGAAGTACTCACTTCATTAAGTGGTATGTTTTTAAGTAATATTTCCATATCTTCCAAAGAAGAAATACTACATCCACATTTACCTACTTCTCCTTTTGCTCTTTCATTATCTGCATCATATCCATATAAAGTTGGCATATCAAATGCAATGCTTAATCCTGTTTGACCGTTTTCTATTAAATATTTTAATCTTTTATTTGTGTCTTCTGGTGTACCAAATCCCGAAAACATTCTCATTGTCCATTTTTTCCCTCTATACATATCAGGATATGGCCCTCTTGTATATGGAAATTCTCCCGGCATCGAATTATCTAGATTATTTTGTATATCTGTATAAGTATAGATATTTTTAATATTTATTTCTGAAGTTGTTTCATATTTTTCATCCTTATTTAATGATTTATTAGTCCATTGTTCTAATACTTCATTTTCCCAACGTTTACAATTCTCATTTATTTCTTTAATTTTACTATTAAAATCTAAATTATTTTTCTTCTTTTTTGTTAGTTCGTTAATTTTATATTTCCAATAGTTTTCTGTTTCTAGCAATATTGTTGACCTATGGTAAAACTAAAAATATAATACTTTAATTCATTTCGGTATTTCTAAATAAAACTTCGTCAAACATCAAAGTTATTAATTATATATCTGCATAACAATAACATAGTATCTCATGACCAGCGATTTTGTTAGTTCTATATTGTCAGGAGATAGACGGACAATAGCTAGAATGATTTCTATGATTGAAAAGAACGACCCACGAATTATTGATATATTAACAGAACTTTATCCCAAAACAGGAAATGCCTTTATCATTGGTATTACTGGCCCTCCAGGCACTGGAAAAAGTACACTAATAAACCAATTAATTAATTCATATAGAAAACTGAATAATAAAGTCGGCGTAATTGCAATAGATCCGTCTAGTCCTATAACTGGCGGATCACTTTTGGGAGATCGTTTACGTATGAATAATCATAATCTTGATTCTGACGTCTATATACGAAGTATGACCTCTGGCAATAAATCTGGTGGAATTTCTCGTTATACTCGTCGAAGTATTTCAATTCTTGATGCGTCAGGAATTGATATAATTATTGTTGAAACTGTTGGCACTGGACAATCTGAAGTTGATATTCTAAAAATTACCGATGCTGTGGTAATAGTTTTGATGCCAGAGTTAGGTGATGATATTCAAATTAATAAAGCTGGATTGATGGAAATTGGCGATATATTTGTTGTAAATAAATCAGATCTTAAAGGTTCAGATAAAATGTACACTAAATTACTAAAAGGTATTAGTGCTAAAAATGACAACTGGTTACCTAAAGTGATAAAAACTATTTCTACAAATGGAGATGGCATTGACGATCTAATAGAATCTATATCAGACCGAAAAAATTTTCTCAATGAACTATCTAATAATACCTCTAATAAAAAAATGAAGATTGAAAATCAGATTTTGGAGATTTTAATTGATGAAATTAATCAATCATTTATAAAACAAATAGAAAATCATCCAGATCTTGATAAACTTGTTGATAAAGTATTAATGAAACAAATTGATCCAGAACAAGCAGCTATTATCCTAAAACAGAAACTTGAAAATAAGTAATGTTTATTCTCCTCTATCTATTATTCTTGAAATTGAAGCTATTAGTTCTACAATTCCTTCATTATTGATTGCAGATATAGGTATTAATTCATCAATAATGTTTGATTCCATCATAGTTTCTGCCATTCTACTAGTAAAGTCATATATTTCTCCTTCCTTAAGATCATTCATTAATTCTGAAAAATCATCTGCCCAATTCAAAATTCTAGATTGATTATCTGTAATCAAGTCTTTCTTTGTTAAAACTGAAATTTGAGGAATAGCTAATCTTAATTTTATTGAACTTGCAAGTAATGCGATTGATAGGAAATTTGTTGGATCTGAAACTAAAGTTGCATCAAATAAAAAAATATTCACATTAGCTTCATTATTAATATTTTTTACAAAATACGGACCACTTTTTCTATATGCAAATAGTTCAATTTGTCCAGGTGTATCTATGAATACATAATCTGGATTATATTCAAATATTTCTTCTTCAATTTGTTGTAATTTTGTTGCAATCAAATCTGACGCCAAAATTAATGAACCATTTGGCCCCAGATTATATTTTTCCATAATGTCTTTTAAATTAATATAATCTCTAATATCAACATCTATTCCATATGGCAGATTATTTACACCAGGATCAAGATTTACTGTTATGACATTCTTTTCTTCTTGTTGATACCAATTCGATAAAATTGAAGTTAGTTGACTTTTTCCGGATCCTGCTGTTCCTGTAAAAAATATATTCTTCATCTCATAATCATTCTCTTTTCATGTTATCTAGTTTTCTAAAAGATAATAGTTGGAGTTAAGTTTTTTACACAAAAGTTAACAATAATTCTTTAGTTTATCATTATAATGACTTATTTTGATGTTGTTTCAATTGGGAATGAACTTTTGTCTGGTCGAACTACTAATACCAATCTTCAAACAATTTGTAAACATCTAGATAATATTGGTTGTCAAGTTTTGAAAGCATATGTTATTCGTGATAAATTGAATGAAATCTCTTCTATTCTTGATCTTTGTATTTCTAGTGATTCTGATTGGATTATAATTTCTGGAGGTCTCGGGCCGACATACGATGATATCACTCTTGAGTCTGTGAGTTTTACCCTAAATTTACCCCTAAAAATTAATCAAATTGCCTTAAAAATGATTGTTCAACGTTATAATATCCTTGTTGAACAAAAAATCATTAAAAATTTTATTCTTACTGAAAGTAGAAAAAAGATGGCTAATTTACCCATAGGTTCTATTCCTTTAAAAAACCGTATTGGAACTGCACCAGGCGTTCTGATAAAACACAACAGAAAAAACATTATATGTTTACCTGGAGTTCCAAAGGAAATGGAAGATATCTTAATTAACGAAGTACTTCCTCTGTTGGATAAAACACAACTTCATAAATCTAAACAAAAAACTCTTTCGATTAAGTATGTAAGTGAATCAGAACTCGCACCAATTATAAATGACTTATCATTGTCTGACGAAGAAGTATACATTAAATCACATCCTAGAGGCATAAATGAAGGAATTTATGATATTGAGATTATTATATCTGTTCGATCTGCAACTGAATCTGAATCCATTGTTAAACTTAATTCAATTACTGATACATTAATTTCTAGTATAAAAAATTTAAATGGAATTATAATAGATCAATAAAATTTATTTCTTTTTCTTATCTGACAACCACCATTGTAAATAGTCGTTACCTCTTTTGGGACTCTCTCTTTCATCATATTGTTTATCTCGTATTTTATCACGTAAGTTTACTAATTCGTCTCTACTGGTAAATAATCCACAATTCTTACAAGCCATTTTTCTTGTCATATAATCAAAATTCATTATTCCATCACATTCTGGACATTTTGTCTCTGGCATTATGTAAAATCACCAAAATCTTCTATTTAAGATTTAAATAATTGTTTTTTTGTTTTTTTATAGGCTATAAAATGACTATATTTTATAATTAACATTTTTTTAGTTATTTTTCTATATATTGGTTATTTGTCTAGAAATTCTATCAAAAACTGAACAAAGATAAAGTTAATATATTATTAATTGAATGCCTATTCCTATGGATACTGGTAATGTAGCCTGGTTACTGACGGCTTCGGCCTTGGTATTGCTTATGACACCTGGCCTTGCTTTTTTTTATGGCGGGTTGGTTCGAGCAAAAAACGTAGTAAATATGATGATGCAATGTTTCATGATTATGGGAGTTGTTAGCATCACTTGGGTTTTATGGGGATACTCATTGGCCTTTGGTCCCTCAATTGGAGGTTTTGTTGGAGGACTTAGTCACATCGGTTTGAATGGAGTAAGTGGAGCTGAAAATATTAGCTTTGTAGTCTTTCAAATGATGTTTGCAATAATTACTCCAGCACTTATTGTTGGTGCTATTGCAGATCGGTTCAAGTTTACCACACTCATTGCATTTGTAGTGTTGTGGTCTACTTTAGTATATTCACCTATTGCTCATTGGGTGTGGGCTTCAGGAGGATGGTTGTTTGAAATGGGCGCACTTGACTTTGCAGGTGGTACAGTTGTACACATATCTTCAGGTATGTCTGCTTTAGTAGCTGCCATAGTTGTTGGAAAGCGTACAGGAAAACTTGATAGTATTAAATCACATAATATTCCATTTGTCTTACTTGGAGCTGGATTGCTCTGGTTTGGTTGGTTTGGTTTTAATGCAGGAAGTGCTTTAGCAGCTGATCATGTTGCAGCAAACGCATTTCTTGTGACTAATACATCCGCAGCAGCTGGAGCATTGATGATGATGTTTCTTAGTATGCGTGCTGGTGGAGGTCCTAGTGCTGTAATGTTTGCTACAGGAGCTATAGCTGGTCTTGTTGCTATTACGCCTGCATCAGGTTTTGTAGGACCTGTTGCTGCTATTCTTATTGGCGCTGGCGTTGGCTTAGTTTCATGGTTTGCCATTCAATATAAGAATAAACGTGGATGGGATGATTCTCTAGACGTTTGGGCTGTTCACGGAATGGGAGGAGTCTGGGGTGCGCTTGCAACTGGATTATTTGCAAATGCTGCCTATGGAGTTGGTGTTGATGGCGCATTTGCAGGCAATGTCGCACAAATGCTTCCTCAAGTTACTGCAGTAGTTGCAACTGCCGCTTATGCCATCCTAATCACATTCATACTCTTGAGAGTACTTGATTCTACACTTGGACTACGTGTTAGCTCTTCAGAAGAAAACGCTGGATTAGACAAATCTATTCATTCCGAAGAAGCATATCAAAACTAATATAATACTGAATCAATCGAGTATAGACTCGGTTGATTCTATCTATTTTTATATATGGTTATTAACAATAATTTCACAATTATAATTGATTATATTGCCTGAATGGATTGTCATGGCTGGTCCATCTTCTAAGAAATTATCTAAATCTATGTCGAAATCACTTGATCTTGATTTATTTGAAGTTGAAACTAAATTATTTCCTGATGGAGAAAAGAAGATTCGAATTAATAATGATGTACAGAATAAAAATATAATATTTGTTCAGAGTCTTTATCCACCTATTGATAAACATGTTATACAGTTTTTACTTACTGTTTATAAATTGAGCCAAATGGATTCTAAAGTTTATGCATGTGTTCCATATCTTGCTTATGCACGTCAAGATCTTGAATTCCAACGTGGGGAAGTAGCTAGCCTTGCAGCAGTTTCTCGATTATTTCATTCTGTTGGAGTTCATTCACTTGTTACTGTTGATATTCATAGCACTCATGGATTAGGATATTTTTCATTTCCTATATATAGCGTTTCTGCTATGCCATTGTTGGCCAATTATGTTTCTAATAACCTTGACTTACATTCTCCTTTGGCAGTTTCTCCTGATTTTGGAGGTTCTGCTAGAGTAGAAGCTTTTTCTAAATTATTAGATGTTGAATATATTTCCCTAAAAAAGTCTCGTAGTCGTACTACCGGTGAAGTTATTATGGAAGATAGTAATGTTGAAGTTGCTGGCCGCGATATATTATTAGTAGACGATATGATTAGTACAGGCACAAGTATTGTACGTGCCGCAAATTACCTTAAAAAACTAGGTTCTAGAAAAATTATTGCTTTGTGCACTCATGCTCTTATGGTCAATAATGCTGCTGAATCTATTAAGGACGCAGGTGTTAATGCAGTTATTTCCACTAATACGATTCCTAATGATGTGAGTAAAGTTGATGTCACAGAAATCCTTGTTGACCACTATAAATCATTACAATAACTCTTGGATTAGCATCTTCATTTTTTCAGGAGATCTTCCTCAACTTGGAAAAAGTGAGTTGTTTGGAATATTAGAATCAAATAATATTCAATATAAAATTCTTGAAGAACAATCTAGAATTATAATACTTTCATTTATGGCTTATGATAAAAAATATGATGAATTCTTTAAGAGAATAGCATATTGTAATTATTTTGGCATATTATTATTTCACTATTCTTCAGATTTAAATGTACTTTCTTATAATGAAAAATGTAGATTATACCTTGATAAAATTAAAACATTCTCTGTTCGAAAATTGAATGTTCCTAACAAAATAGATATAGAGTATGAAAGTATTATTGGCGGATTAATTAAAGATTCATTTCCAAAGTTAACAGTAAATCTTGACAATCCTGAAGTTTCTTTATTTATTTGTAAAATTAATAATGCATTTCTAATTTTTTCTAATCATTTAATTCAAGATAGTCCACGTTGGCTTAATCGAAGACCTCGTGCTCGACCATTTTTTCTTCCATTTGCTATACATCCAAAATTATCTAGAGCATTAATTAATTTATGTCGATTAAAACCTAATCAAACTTTATTAGATCCATTTTGTGGTACTGGCAGTATTGGAATTGAAGCTTCTATATTAAATATTAATTTTATAGGTGTTGATATATCTAGAAAAATCTGTTTGGGCGCACAACGTAATTCTAATTACTTTAAACTTAAAAAATTTAATATTATTCATGCGGATTCTCTTCAACTTCCTATTTCTGAAGTGGATGGAATAGTTACTGATTTTCCTTATGGTCGTTCTAGCATTAAAAAATTTTCTAATATTCATAATTTTATGGAAGACTTTTTTAATGAAATATCAGTTTTATTAAAGGAAAATTCATATTTCGTTTATATGATTCCTAAAGATTGGCCTGAATATCTTCATCCAAACTATAATCTTATCGATCAACACGAAATATATATTCATAGTAGCCTTACTCGAATAATCAAAGTTGTTCAAAAATACTGAATATTTATTATTTATACAAAATTATAATAGTATGATTATAATGTCTGATTTAAAAATTATTTTACTTGGTACTGGTGGGGCAATTCCTACTAGTAAACGAAATCTTATCTCAAGTGTTATAATTAGAAATGGAGAATTATTCATTTTTGATACTGGTGAGGCTATTCAACAGTCTATGATGAAAAGTAAAGTAGGTATGAATCGTCCTACAAATATTTTCATTTCACACATGCATGGCGATCATATTCTAGGTTTGCTTGGTTTGATTCAAAGTATGTCTCTTCTATTGCGTGATAAACCTTTATTTGTTTACGGACCTTTTGGACTTTCTAAATTTCTTAAAACTAATATTAAGTTATTAAATCTAAAATTAAATTATGAATTGATTATTCAAGAAATTGATTCTGGTTTAGTTGTTAAAAAAAATGATTATAAAATTTATGCTAAGAAAGGTAAACATTCTATTACTAATTATTCTTACATATTTGTTGAATTAGATCGCCCAGGAAAATTTAATGTTTCTAAGATAAATAAACTTGGAATTCCTGAAGGTTTTAGATGGTCTAAATTACAACATGGACATTCAATACGTTATAAGGGCAAAACAATAAAACCCGAACAAATCTTAGGAAGATCAAGACCTGGTCGTAAAATTGGCATTTCTGGTGACACTAGACCCTCAAAACCACTAACTCGTTTCTTTTCATCTTGCGACGTTTTAATTCATGAATCAACTTTTTCCAAAGAAGAAAAAGACCTTGCAATTAAACGATTTCATAGTACTTCAACTGAAGCCGCAATTGTTGCCAAAGAATCATCTTCTAACATATTGATTTTAACTCATTTTAGTTCTCGTTATGAAAATGTAAAATTACTTGAAAAACAAGCTTGTTTAATTCACCGAAATACTATTGCAGCAATTGATTTGATGTCTTTTTATGTTCCTTACAAAGAAGAAAAAAAACTCACTAAATCTTATATTTTGGCACAAACCAATCAATAAATTCTATAATTCTATTTGAAGTAATTTTTACAATTATAGGTCCTAAAGGTGATTCATCTTCATTTTCACATATTACAATTGAATTTACTTTTGCAGCCTGTTTATTGAATAAAATATATGTATTATTGTTCTCTATATTCCTTATTAGGTTCTTTCTTGCTATATGTGATGTTTGTTTATTTCGAAATATATTGTATAAATTATCTAATGACTTATATTCTGATGTATCTGCAATAATTAAATTTTCTTTAATCTTATAATTTAATTTAATTATATTAGAGATTGCTTCTTTTATTTTTTCTATATCTTCTGATTTATTGATAGATGTTTTAACAATTATATTAATTTTATAGTCAAATTTCTCCATCTCATTCACACTAATAAATTATTAAGAATTAATTCAGATTTTCTTATATATTCTTCTTTTGATAAATTAGTATTCTCTATAATTATATCTGCTCTTTTCATAATTTCATCGAGTCCTATTTCTAATTCTTTCTTGTCTCGTTGATTGAATTCTTTTTTGTTTATTGGAGAGTCACTTCTCTTTCTATCTTTCAAAAATTTGATTCTTTGTTCCGAAGTATTATTTATTAAAACTATTTTCACATTTCCTATATTTGAAAATAACTCAATTTCTTCTATATTTCTTATCCCATCAATTATTATATCTCTTTTTTTTGATTTATTAATTTCATCTATACACATCTCTGCTATTATGTTCTTTCCTTTTTCATCTCTTAATTTAATCATTAATTGTGTTAACGATTCTGTATTATCATTTAAATTCCTTCTTTTTGCTTCTTTTCTAATTTGATTTCCCATTATTACTAATTGATATCCTAATTTATTCCCTATTTCACAAAATAATGATTTTCCTGCACCAGGTAATCCTGTAACACAAACTAAATTCTTTTTATTTTTCATAATATGCTTATCTTGTAATTATTATTAAGAGTAATTTTTAAAATTAATTAACTAATCTTAAAATATATAGAATTATTGATTATTATATGAGAACATTCATTTCTATTGCAGTAGATAATCCGCTTGTTCTTGAGAAAATTAATCATTTTCTTATACCTATTTTTAATCTTAAATCTCAAATTAAATTTGTTGATTCTACTAAATTTCATTTTACTTTAAGATTTCTTGGAGATATTAGTGATGATTCTGTTTATGATATTTCTAATTTGTTAACTTCTGTAAAATTTAACAATTTTTCAGTTTCTTTTGATTCTGTTGGAGTCTTTCCTAATAAAAATTCTATATCTGTTATTTGGATGGGAGCAGATAGTAATTCTTCATCTATACTTCAATCTCTTTCAGATTGTGTTAATTCTGTATTGCCTGATCTTCCAAATCTTAAAACAAATAAATTTGTACCACATGTCACATTATGTAGAATTAAACATAAACTACCTGATAAGAAATTAATTGATTATCTTGATCATAATTCTAATTTTTTATTTGGTACACAATTAATTAGTAGTTTTTCTTTAATGAAGAGTGAATTGACTAGTACCGGACCAATTTATACCACTTTATATAAATATAAATTAGTGGACGAGTGATTATTTGGATATTAACTCAATCAAAAAACGAGTCTTAACAAAGTATAAACCTTCACTATCGGATAATCGAAAATTATTTAAACTTTCCAATGATCTCATAAAAGAACTTTGGCGTAACAATTCTCAAAATCAACTGCCTCGTTTTCCAGTATCTGATATCGTACTGGGTGGTTCAGTCGCCAAAGGAACTTGGTTAAAAGAATCTGCTGACATAGATATTTTTATCAAACTTAATGCGAACTCAAATAGAAAAGATTTGGTAAATTCACTTGAAATAGGGAAAAACACTCTCGATTCACTTGATTATCCTTGGTCATTATGTTATTCTGAACATCCATATATAGAAGCTAAGACTGAATTCTTGCGCAGAAAAATTAAAATTAATATTGTTTCTTGTTTTGATGTTGTAAATCCAAAAGACAAGAAAAGCGCAGCAGATAGGTCTCCACATCATACTAAATATATTCTTGGTAAATTTAATTCTAAATTGAAGGATGAAGTTCGAATATTGAAACAATTCTTGATTTCAAATAAAATATATGGGGCTGAAATTAAAACTCAAGGATTTAGTGGTTATGTTTGTGAATTGCTTGTTCTTAGATACGGGAATTTTCAAAATGTTCTGAAACATATGAGTAATTTTACTCCAGGAATTACTCCAGGAAATAGTATTTATTTTGATGAATCTCATTATAAATTTACTAAATTACATAATTCACCAATAATTATGCTTGATCCAGTTGATCCTGAAAGAAACCTTGGAACTGCTATCTCTTCTCAGAATCTTAATAAATTCATTTATCTGTCTACAAAATTCTTAGATAACCCATCAAATAATTTCTTTAATCAAAGTAGAATTAAGTTCAATGAATCGCTTTCGGATAATCTTTTACTTGTCTATTTTAAACACGATAAAAAAACTATTGATACATTATGGGGTCAATTACGAAGATCCTTTAATCACACTTCAAAATATATCTCAAAAAATGGCTTTAATATTCTTCGTTCTACTATCTCAAGTAACGACAAAGACCAGAGTGCTTTTATTTTCCTACTTGAAAATATCTCTATTTCAAATACCCGTTTTCATCTAGGGCCTTTTTCACATATGAAAAATGAATCAATTGCCTTTATTAAAAAGAACAAGCGACAATCACTATCCTTCTGGATTGATTCCAATGGCCAACTTAATTCACTTCAACCTCGACAAAACCCAAAAATTAAAGATTTACTCATTACTTCAATTAATTCCAATAATATGCTAGGAATTGCTCCAGGGATTAAGAATTCGTTTAATTCTACTTGTAAACTTTATACTGGCAAATCTGTAATTTCTACATCAAAAAATAAATCTTGGTTGAATGAATCTTTGGGCGATGTTATTGGAACTGAATCACAACTATCTTGATATTCATAAAAGTCCAAATAATGAACTTCTTCAACATCTTCTTTGTTACCCTAAATATGAAGATGATTTGTTCAAATTAAGATTACGAGAATTAAAACAACTTGGAATAGAGTACCTTGAACTCTATGGTCCTACAATACTTAATGGCAATCCAATTCTTGGCAAAGGAACAAGAGGGGTTGTAATAAAAGCTTATTCTAAAAATTCTGAATACGCATTAAAAATTAGAAGATTAGATTCACCACGTCGTAACTTATTACATGAAGTAAAAATCCAATCATTTGCCAACTCGTTTGGAATTGGACCTAAAATTGTTGATTATTCAAATAATTTCATCATGATGGAACTGATTCGTGGTAAAGTATTGTCAGATTTCTATTTTATGCAATCGATTAATATTGAAATAATTCGACGTGTAATTAAATCATTATTGAATCAATGTTATCTGTTAGATTTATACGGGATTGATCATGGTGAACTTAGTGATTTACGTAAACACGTGATAATTAATGAACGTGTAAATATTATTGATTTTGATTCTGCAAGCACTAATAGAAAAATGTCAAATCTCACGTCTTGTGTACAATATTTGTTTATTGGCGGACCTTATTCTAAATTATTTAAAAACTTGTTCGAAATTGATATTGATAAAGTAATATTTTTACTTCGTAAATACAAGTCTAAAAAAGATTATTTAACTTTTTATCATTTACTACATTTTTTAAACATGAATTAAATACTTTCATTTATTTACGTCTTGTATGGGGCCGTTGTCTAGTTATTTAGAGATATATTCTATTTAGGAAAACTTGGTCTAAGATGCCAGAATATTTAATTGGCTAACCTGGGGACCTTGTTTGAATGCTGGTGATCGCGTGTTCAAATCACGCCGGCCCCATTTAAATTAAAATGAAATAAACATTGTAAAAGAAAATAAACTCATTGTTACAAGTATTACAATTTTATCCCATTGAACTAGTTCTAAATTATATAGTGAAGTTGGTTTTTTTGTAGCGCCATAACCTCTCGATTCCATTGCTTCTGCAAGTTCTCCACTTCTAATTACTTCATTTATTATTAATGGCACAAGAATAGGAACGAATTTTTTAATTCGTGAAATAGGATTGCCTTTTTCTAATTCTAAACCTCTTGATTTCTGTGCGTCCATTATTTGTAGTGCATCCATTAGTATAACTGGAACAAATCTAACTGCTGTTACAAAAGCAAATACAAGATCATTTGGTAATCTGAACCATCTTAGTACATATTCTAATTCATCCGGTGAAGTTATGAGAAAAAATAATGATGTTGAACATATTATTGCAATAAATCTTAATGCAATTTGAATTGAGTATACTAAACTATAACCTGCAAAATAATTTATTACTAATATGATAATTGAAAATACTGCTGCAAAAGTTAAGGTTCTTAATAGTCTTAATGTTATTTTACCAATTGTCGCAAATATTATTATTGCAGAAAATACAACTGCTAGATCGTATAAGTTGGATACTAATAATGCAAGTGTAAATAATTGTATTGAAATTAATAATTTAACTCGTGGATCAAGTCTATGAATCATTGAATCTATTTTTCTAAAAATAAATCCATTTGATATCCAGTACATTTATTTTAACCTCTTATTTTGAATAGCTCTACATGTTTCTTCAATATTATTTGAAATCTTTTCATTTATATCTAATTTTGTGTAGATTCTAGTTATTTGTGGCGCAATTAATCTTGCTTTATTAATTAATTTTATATTTGTAAAAATATTTTTTGCAGAATTTGTTTCTAAAATTTTTCCTTCTGACATTACTATGATATTTGGCTGTATCTTCCATAAGAATTCAATATCATGTGAAATTATAATTATTGTTTTATTTTCTTTATGAAGTTTATTTATAAAATTTTTTAATTTATTTTTTTGTACTTCATCTTGTCCTACTGTCGGTTCATCTAAAATTATAATATTGGGATTCCATGCTAATACTGATGCAAGACATAGCCTTTTCTTTTCTCCACCACTTAATTTTAAAGGAGATGTTTCTTCATATTTTTCTAAATCAAAAAATTTTATAACCCATTCAAATCTTTCTTTTATAAAATCTTCATCAAATTTGAAATTATTTAATCCAAATAATATTTCATTCTTTACTGTATCTGCAAATAATTGATGATTTGAATTTTGAAATACCATGCCGATATCTTTTGATAATTCTGCAACAGATGATTTTTTTGTATTTTTATTATTTACAAATACTTCACCTGTAGTCGGTTTTAATAATCCATTTATATGTTTTGCTAATGTTGTTTTTCCTGCTCCATTGCTGCCTACTATGGCATTTAATGAATTTTTATTAATTGTTAAATTAATTTTATCTAATGCTTTTGTGCCTCCTGGATGTGAATAACTTACTTGTTTAAATTTTATCATATTTATCACTTAATTCATTTATTATTTCTTCGACATCTGTAACTGGTTCTAAAAATTTTACATTATTGGAAGCTAGTTTTCTATATAATTTTGTTGAAAACGGTATACTTAATTCCGGTATAATTTGTTTTTTATAATCTAAAAGATTTTTTGGTGTATCATTTGCAATTATTTTACCGTCTGAAAGAATTACTAATTTATCTGCATATTTTAATACCAAATCTAATCTGTGTTCTACAATAATTATTGACATATTTTTTTTTCTGCATAATTTATTTATTAATTCAATAAATTCACTGGCTGTTTTTGGATCTAACAAAGAAGTTGGTTCATCAAGAATTAAGATTTTTGGTTCCATTGCTAAAATTCCTGCTAGCGCAGTTTTTTGTTTTTGTCCGTCTGAAAGTTCATGAGGTGCTTTATTAGCTAAATGTGTTATATTGAGCAGATTCATAATATTATTAATTCTTTCTTTAATTTTCTTTTGTTCTATCCCTAAATTTTCTAACCCAAACGCAATGTCACGTTCCACTGAAAACATAAAAATTTGATTTTCTGGATTTTGAAAAACAAATCCAACTTTTTTTGCTATGTCCTTTATCTCAACATCTTTTACATTGACATTATCTATTTTTACATTTCCATTATATTCTCCATCATACATATGTGGTATTAATCCTATGATTGATCGTAATAGTGTTGATTTTCCACAACCTGTAGGACCTGCTAAAATTGTTATCTCATTTGATTTAAAACTTAAATTTATGTTGTTTAAAATATTCTTTTTCGAAGAATTATACTTAAACGAAAAATCACTAAATTTGATTATTTCTTTTGACGTCATTGCTATTACTTGAATTTTCAGACATAATAATATTATTCTGTATTAGTGCTGGCCGTACCTCTTTTCATTGAATCATCCAGTTTTTTTTGCACTTCTTTTAGATTTTCTTTTATTCTGTTTTCTTGTTTATCTAACAAAGTTAATTTTGAATTTGCAAGTTCTTTTGATTCTGTCAAGTCCTTTATTGCATCTTTTTTACTACTAGATACCATTATTGTTCCTGCTGATTTGTACACTTTTGAATCATCTACAGCTTTTTCTAATTCTGATAAGGCCTTATCAATTTCTACAACTTCTAATTCAATTTGTTGTTTTTGTATTAAAAATGCCTGTAAGTTTTGCTGTAATTGCTCATATCTTTCTAGTTGCTCTTTTATCCATGGTGGAACATCTTGAGTACTCATAACGTATTCGATTTGCTTTTTAATCTAAATAAACTTTCGTCATAATTTCAAGTATCTAATTATAAATAATAAATTTCATTATATTCCCAAGAGAATCAAATACCTGTATATCATTCATGTCTAAGTAAGGAGGAGTTAATATAATCATTAAGCGACCAAAAAAGTTTAACAGATCAGTATCTGATGGCATATTTACTCCATTTGGGTGTGAATGAGCAATTCCTAATATTGTAGAATCGAATGGAATTTGGTATTGATCAAAGCTCGAAAATACCTCATTATGGATTGGTAATGGAGGTATCATTAAGTTCTTTATCCTAATTTCTTTATTAGTATTTGTTCCTCGAACAATTAAAATTCCTTCTACTGGATGTAAAGATTTACAATAATCCAACATTCCATCAATTGCTTCTTGTTTGATGTATATTTGTTTATTATTCATAACTAATTTTAATTATTTCTTTGATATTTCATATGATACATTTGCAGCACGTATGTGTGATGATATTTTTGCTCTTAGTTCTGATATTTCTTTAGCATTAATTTTCATAATTAGATTATCATTTTTGGTGTATATGGAATCTGTTTCTTCTATATCTTGCTTGATTGATTCTTTTATTAATTTGGATGTCTCTTTGTTACTTTGTATTTTTATCTTTGCTGATATTTTAAATTGTCGTTGTTTCATATGCCGAATCTGCTACTTTGAATCCACACTTGTTACACAACCATATTCCTACTGATTGTCTTTTGAATTTTATTGAATTACATTCTGGACAATTTCTTTTTAATCGTAGATTATTAGTTACCTTTGTATATTTTTTCCTTACTAGTGAACCGAATTTTGCACCAAACTCTGTGGTTGTTTTACTCTTACGCCCCATTTTTTATTGACTTCCTTAATATATCTCTTATTTCGTTGCCTTTTTCGAGTGCAATTGTTGAAATATGATTTAATTCTTCGAAAGTAAAACCTCCAGGCTTACCTTTTTGCGCAGATACATATTTTCCATTTTCATCTGTTACTAATGTTAATCTTGCTGTAGCCATTTCTTGTTCATCAGCATTTGGATCTATGATTATTTTATTTTCTATTTTTGCAAATGTCGTTGATACAGGTAATGATTTTATTGGTAGTGGCTGTGTTTCTTCGAGTATTGTAATCTCATCTTTTTCTATTTTAAATTTAGGCATTGTACAGTTTGATAATGCTACTATGCTTGCTATTGACACTGCATCAAATAGATTTCCGTCTTCATTTACTACTGCTATATCTATATAAACCGAAAATACCTTCTCTCCTTCTTTAATTACTAATTCTGATACATCAATCATTCCTGATTCTCTAATTCCTCTATCTGAAACTCTTGATAATTCTATTGTATCCTCGTTCGGTGGACCTGGTTCAATATATTGAGAAGAAATTGGTAACATTTCTGCATTACAAACAATTACGCCCTCAGCTGGTGTATCTGGGAATGGCACTGCAGTTTCTACTTTTATTCCTGCCCAAACTTCACTTTCTCCTAATCTGACTTTTGTAGAACCATTTGTTTTATCTTTTAATACGTTTGTTTCTATTTCCAATGTTCTATAATCTAATAAGCCTCTTCCATCAGTTCTTGTTGATTTATTAAGTCCAGATATTATATTTTCTTTTATAATTGAATCTATAATTCTTGCTTTTTTTACAGCTGGCATTTATTTTTCTTCTCCAGTTTTTGTATTATTAAAATATTTTTCTGATAATGCATTTCTTTGAAGTTCATATAATTTATTACATCCACTTTTTGCTAATTCGAGTGCTTTATCAAATTCGTCTTTTGATAGGTTTCCATCCAATTGAAACAATGTAACGAGACCCATGTTTGGTAATAATGCAATAGGCATATCTGCTTCCCCTGTTTTATCTTCAGTATCGTCTATGTCTAAAATTACTTGACCGTTAGCTTTTCCTGCAGCACATGCTGTTATTAAATCTCTCATATTAATTCCTGCATCTGCTAATGCTATAGATGCTGCATTAATTGCAGCACATCTTGAACCTCCATCTGATTGAAGAATTTCAATATATATCTCGATAGCAGTTCTAGGATAGTCCTCCATTATTATTGCAGGTTGAACTGCTTCTCTAATTACTTTTGATATTTCTATTTCTCTTCTTGATATATTGGGTCTTTTTCTAGTATCAGTTGAGAATGACATCATGTGATATCTACATTTTATAACTGCTTTATCCATATTCATCATGTGTTTTGGATGAACTTCTTTTGGTCCAAATACTGCAGCTACGATTTTATTTTTTCCAAATTCAATCATTGCTGAACCATCTGCATTATTTATTATCCCTGCTTTTATTGATACATTTCGCAATTCATCAATTGCTCTTCCATTGGTTCTTCCATTATTGTTTTTTGACAACATTACTTCACTTTGAAATTAAACTTATAACTTTGTCGTTTAAATCCGATAAATGAGCTTGCTTATTTATTAATTCTATTGCATTTTCGGCTTTTGTAATTCCTTCGTCTGAACCTTTTAATAAAATATATCCATTTTGTCCTATTGTCATAAAACAGCCTGTATTTTGCTCAATCAGTTTTATCATTGCTCCTTTCTTACCAATTACTCTTGGTATTTTTGATGATGTAATAGACACTATTTTTCCTTCTTTTATTTTGCCTAATCCGGGACCACTTATTGAAAGTAATGGATCTCTTGTTCTATCAAATTCAAATATTCTGGCAATAATACATTCGCCTTTTTTAAATTGTCCACTCATTGAATTCTTAGACGAAGAAAATCCTTTTCCAAATACTGAAGATCCTGTCAATATCCCAAAAAAATACGAATTTATATCTACTTCCCATACAAATGCGTTAATGTCTGCAATTCTTCCAATTACTGTATCATCAATTCTTGGAATATACGTTCCATTTAATGGAATTACTCTGACTCCATTATATCCAATTTCTGCCATTCCTATTCTTGTACTAATTATTTTATTATTACGCTTAATTACATTTGAAGTAGCATTATAATCTCCTTCAATTACTACATCTCCAGGAATGACATATTTTCTTTCTACTGAGGTTGATTTCATTGTTATTCTATTTCATCTGCTATTATATTACCTTTAGTTAAAGAATTTAGTTTTTCTATCAATGTAATTTTTGAACCAGGAGTTAAGTTGACTATTGCAGTTATAGAACCATCTGCTTGCCACTCCTCAGATTCGACATTACTGAATTTCTTTAATAAACCTATTGATTGTGGTGCAAATTGCACTGGAACATTGATTTTCATTTTATGAATTTCTGATTTCATTGGAATTATTTTTCTTAATTCATCTATTATTCCATTGATTTGTTCATCTGAGTCTCTAACAGGATCAATACTGATTCTTGCTTCTTGTAGTGCTTGTTCGATTCTTTGTGGAGGGTGAGGAATTTTTGTCTTTGGATCTACATAATTATTTGAAATTGTTGCTATAATCTTTTTACGTTTTTCTTCAATTTTTTGTTTTCTTTGTTGAGTAGTTAGTAATAATTCCCCTTTCTTTAAAATTACCTTTAACGCTTCTTGTAGATTATCTGTTTTTAGATGTTTTTTTAATTTCTCATCTGACACACGAATTCCTTTATTTGCATCAGCATATATTTCGTCAAATGCAATTACTTTGGAATAATCTTGTATTTCCCCTTTCTTAAATTTTAATGCATAATCAGGTTCTACTAGAATTTCAAATCGTTCGCCTGAAATTGATAATCTGATTATTGTAAATTTTGAATCAATTTTTTTTTTCTGAACATTTTTCATGTATATAAACATCAACCATTATATTTCATATAAAGTTGATAAATGCGGGTCCTAGGGGATTTCCATTGGAAGTCGGACCCCTGGCCACCGGATTTCTTTCCTGATGTTAAAAGTCCGGTGCTTTAGGAATTTATACTACCTGGCTGAGCTAAGGACCCACAAAATTCATTGAATATTCATGTATTAGTATCTTTACTTGAGTTATTATTTTTAATTTAATTTATTATAAAACGCCCCGGGCGGGAAATTCCGAAATCTTTTTGGATTTCTTTTGAACCCGCGTCTAAAGCGTGACAGGCTCCAATGCTAGGCCGAGATATGCAATTATAATAATCTCTACACCACCGGGGCTAAATATTTCAAAACATTCTGAAACTATAACTCTTTCTTTTTGTTTATATTTAAAAATGAAAAAATCAATTTATTACTATATTGAATATTAAAATTAATCTTAGTTTTGTACAATTTAATCCTAAATTTGGAGATATAGAATATAATTTGAATACTGTTTTTGGTTTGTTACATAAAGTAAAACCTGGTGTTGTTGTTCTTCCAGAATTAATGAATACAGGATATAATTTTATAAGTAAAAATGAAGTTCGTGATTTAGCTGAGTTTGCTCGAACTGGCCAAACCTCTAAATTTTTATCCGAAATGTCATTAGATATTAATTCAACAATTATTGCTGGATTTCTAGAAAAATCAAATAATGTTTATTATAATAGTGCAATGATTGTGTCAAAAGGAAAATTCCTTGGCGTATATAGAAAAACACATTTGTTCTATAATGAAAAACTACTATTTTCAAAAGGCAATACTGGGTTTAGAATATTTAATATTGATAACTTCAAACTTGGTGTAATGATTTGTTCTGATTGGATATGGCCTGAATCTGCAAGAACTCTTTCATTAAAAGGCGCAGATGTAATAGCTCACCCAGCAAATCTTATTCTTAAAGGTTTGTGTCAACGAATTATGCCTGTTCGTTGTTTTGAAAATCATGTGTTTGCTATTACTGCAAATAGGGTTGGTATAGAAAAACGTGGAAAAGATTCGTTTCACTATACTGGTCAAAGCCAAATTATTGACCCTAATATGGAAATATTATCTCAAGCAAGATCTACTGGTAATTCTGTTCGTTCTGTTGCTGTGGATTTATCGAAGGCCAGAAATAAAAGAATATATAAAAATAATCACATAATTAAAGACCGAATTACTCGTTTTTATAAAATATAATTTTTCTAATTATTTCACTTATTGATTATATCAATATATTTTTTATCTAATAAATTATAAAATAACCATTTACCTCTTTTTGAATTAGATTTATTTCTTTTTTCAAATGTCCATGCTAGTATTGCCTCGCCACCTATTTTTTTTGCCCATTCGCTTAAATATTTCTTTTCTATTTCATCAATATCACTAAAATATTTTGAAACTTGAATAAACCATACAACTGTTTTTTTTTTATTTTTTTTAATTGCTATGATGTCTATAGGAAAATATTTTTTCCCGTCTACTAAAACCATTCCTGCTTTTGATCCAGAACCTCTTATTGCAAACCATCCATTTTTTCTAAGCTTGCTTAATAAATTATGTTCTCTGCTTCTACCCAGAGTATATGAATTTGTCATGCTTCTAATATTAATTTGTGGAATATGTTAAAAACTATTATATAGTGGAGAAATATGTAAATGAATCCATCTTACTTTATAACACTCATTCAATTACTTCTTCATGGCGCAAAAAACCCCATAAAACTTTCTACATCTGAACTTGCTCTTAATTTAGGTAAGACTCAACAAACTGCCTCTCAACATTTATTATATTTAGAAAAAAATGACTTGATTAAACGTTTTAAAATCGATGGAATTAATATGATTCAAATAACACCTTTAGGACTTGAACATCTACAAACTATTAGTCAAAATATAGAATCTGCTTTTGATAATAAGAGTTCATATTTGGTTTCTGGTACTGTATTCTCAGGCTTAGGAGAAGGCGCATATTACGTCTCTCTTCTTGGTTATAAGAAGCAATTTATCTCAAAACTTGGCTATGAACCATATCCTGGAACACTTAATCTCCAACTATCTTCAAATTTAAACAAACAATTAATAAATAGCCTAAATGATTTAGATGGTATTCAAATTAATGGTTTTTCTGATAAAACACGAACATACGGAAATGCCTTATGTTTTCCTGCCTTAATTAATTCTAGTGTTCAAGGTAATATCCTCTTAATAGAAAGAACTCATCATGATAGTTCTATTCTTGAATTAATTTCTTCTTTTTACTTAAGAAAAAAACTTAGACTTAATGATGGAGATGTTGTTAACGTAAATATTTTAGTATAGTTTATATTTTCTATTCTTGTATGTTGCTTTTTATTAAACGAGAACTTTTTACATAAGGCATTGGAGAATTTAATCTTACGATCTTTATTTTCAGTTTATTTATTTTTGACAATCTTCTTAATTCACTGAGTTGATGTTTTTGATCATATCCTATAGTTATTATATCCGGTTTTATTTTTATTACAATTTTAAATATATCTATTTTACTTCCTAATATTGTAAAGTCTACATATTTAATTGCTGAAACTAATGTTAAACGCTTTTTTTCATTATTAACAGGGTTTCCTTTAATCTTTTTTACACGATTATCTCTTGCAATAGATACAATTAATAGATCTCCTTGTTCTTTTGATTTTTTTAATGTATATACGTGCCCTGGATGAATTATGTCATATACTCCTCCTGTAAATACAATTTTTATATTTTTTCTTCCTTTCTCGGTTAAAAAATACTTTTTTTTATATTCTTTGATTAATCCTATTGATTTCAGATTCTCAAGATATTTTATTATCGATTTTTTTTCAATATCAAGTTGCTTTTGTATATATTTTAAAGAATTTTTTTTTAATAAATTATTTATATAAATAATTGACAATAATTTTTTTTCTAGTCTACTAATTTTCATATTCTTACCACTTTAGTTCTATTTCTCCCAAGAATATCAATGAATCTATTAATCCTTCTGCATATCCAATACTTAATATCGCTAATTCAAATCGTTCTTCATTTTTAAATCTTTTTGCATCTTCTATATACGCATCTATATTTTTGATTAGATCATCATATTTTTTATTATTCTCTAAAATATTATTAATTTTATTTAATGCATTCTGTACTTTTGGTATATATCTTTCCAACATATCTATAGATGTTGATTTTATTTTATACGAATTATCTGTTATGGTTTCTTTTTTTATTTTAAATATTACTTCTAGTGCTTCTATTTCTGTGAAATGTAATTTACTTGGTATGATTATACAATGTGGCGGTTTGTGATATTCTTTATTTATTAGATTCTTTACTGAATCACAGTGAATATTTTGCTTTTTCATTCCAACTCTTGAAGCAACGATTACTAAACTTAATTCGCTAAATACTTGTTTTTTTTGTTCTTTTTCTATTTCTAATAATTGTTTTAATGCATCATTTGGTTTGAGATATATATTTTCATCAAGATTATATTCTAATAATATTATTGAATGAAGTTCTGATAATAAATTTCTAAATATTACATCATATACCGATAATGGGGCTATTTTTGATTTTGTCATTAGCGTTGTTGTTCTACCAAATTTATAGGAATGAAGACCTGTTTCTCCTGGTAATACAGATAGAATTGAACTATTGTGTAGGATTATAGTTTTAATCCCTAATTTCTCTGCCCGTATTCTCAAATCCATATGCGTTGTTGCAATCATTGGATTTCCATATGTCAATAATACTACTGTTTCATTTTTTGATTGTTCGAGTATTTTGTCTCCGTTTTCTACAAAATCTCTTCCAATTTGTTCGTATTCAAAATTAAATTTATAGTCATTATATGGAATAGGAGGGCTGGTATATCTCTCAAAATATATTTTCTTTGCATTTTTTATTTTTTCATTTATTTCATCTGTAATTGTATCTTCATTTAATCCTAATCCTGCAAAAATTAACATTTTGTTTCTAATTATATCGAAGGAAAATGTTCATATAAAAAGTAAATTGAAGTATCTTTGCACAACATTGGGTCTGTGGCTCAGCCAGGTAGAATATTTGCCTATAGCGGCTGGCTCTTAACCAGATATGTTTTTTAACATATAGGTGATTAAGTCGTGGGTTCAAATCCCACCAGACCCGTTAATAATCTTGATCTAATAACTTCCTTCTGCTAGTGGTCTTAAATGTCTTTTCCATGTCTTTGTATTACATTTCAAACATTTGTATAATGATTTACCTTTTCTCATCATAACATCTTTTTGTTTAATAATTATATGACTTGTTTTTGACATACATGTGTTACAATATCTATTTTCTTTTATCAATTTATGTCATTTCTTATATTCGAGATTTCAGCCAACAAAGCTGTAAGTTGTATATCAGGATTTGCACCTACTATAATTCTATAGTCATATTTTGATAATATTTCTATTAACTGTCTAGTTTCTTTATATTTTTTCTTACTAATTGCTTCGTTTATATATTTTAAAAAGTCCTTTTCTGTTAAACCATATATATTTGTTAATGCACTTAATTTTTCTCTTGCTTGATTAAAATTATTTTCTAATGCTAATTCTAATATCTCTTCTGTTTGTTTTTTATATGAATATCCTGTAGCTTTTTCTATATTATTCTTATTTATTTCTCCAAGTACCGAACATGATTGTAATAGATTGATTGCAGATCTTAAATCCCCATTTGTTGTTTCAAATATTCTCATTAATGCTTCTTTTTCATATGATATATTTTCATTTTTACATATTGATTCTAGCTGATTTATTAATTCTTTCTCTTGCAATCTAATAAAACTAAATGACGCACATCTACTTTGTATTGGTTCAATTATATTCGAAATATAATTACCAATTAAAATGAATCTACATGATTTTGATGTTTCTTCCATTATTCTTCTTAATGCTGTTTGCGCATCATTTGTCATTTCATCTGCTTCATCAAGAATTATCATTTTAAATGGTATTTTTTTTCTATCATCTGCATATCTTGCAAATGTTTTCACTCTATTTCTTATTGTGTTTATGCCTCTTTCATCTGATGCATTTAATAATATTGAGTAATCTTGCCAATTATTTCCCAGTATATTTTTTGCAATTATTATTGCTAGTGTTGTTTTTCCTGTTCCAGATGGACCTGTGAATAATAAATGTGGCATTGATTTTTGATCTTTTAAAATTGCCTTTAGTCTCTTTATTGTTGATTCTTGATTAATAAATTCTTTAATTTCCGACGGTCTATATCTTTCTATCCACATTAATTCATTTATTTTAATCATCTAACAATTTTTCTCCTTATTCTTTAATAATATTGTTTCTTTTTGAGTTTTACTTAATTTTGTCTATTGAAATTGAGTTATTGTATAATCACAGCTGTCTTATAATCCTAAGTACATGATATTAATATATAGAGTATGTCAATTGGAAAAGATAATTCAATCACTAGTATGCTGAATGAATTGAAAGTTGAATCTGAATTATCTCTTGTTAAAGTTATTGCCATTCAAGATATTAAACAAACTGAAATTGGCGGTTTTAAGATTGGTGATAAAGATATTGATAGTAAATTTGAAGTCCCTCGTTGGGTCGCATATATTCTTGTAGAAAAGAATTTGATTGAACTTGCAGATAATGACATAGAAATTGAAGTTCTTAATGCTATAAAAAATGAAAAATTATTAGGCGTTCATCAATTATCTGAATTGACGCCAGATATTTATAAAAAAATAAATTTCTTATTGAAAAACTGGAAGACTAAATTAAATAATAATCGAGAATTATCTATGGAATATGAAAAAATTTCAACATCTTTATACGATTTAATTAATATTAGAATCAATAAAATTATATCATTTGCTTCTTTACCATTTCCCCCTGATGATATTCAAAAATTAATTACTCCTGAAGAATTTCTATTATTTGATACTGTGAGATTAAATGTTCAAGAATGGCGTAATTCTATGTCTGGTGATGATTTCTGACCGAACAATCTGTTAGTACTCATGGATATTGGAAAGATACTTTTGTACGTTTTATTAAAAATTTCAAAGATAAGTCTAATTTCTTAAAATATCAAGAAGCCTTGTCACAAATTGTTTATACTAATTCAAAATCTCTTGTTGTTGATTATAAAGATATTCTAAGCTATGACACTGAATTGTCTAAAATTCTAATTGAAAGACCTGATGAAGTTCTTAAAGAATTTGATGATGCTTCATATGACGCTTTATATTCTGTAAACGCTAAATATGCACAATTAATACAAAATGAAATTAAAGTTCGTATTAGATCATTGCCTAATCCAGTTCCTTTGCGTGATATTTCTAGTAAAAACCTTCATCGTTTAATCTCTGTGGAAGGACTCGTTGTTCGAACATCCGAATTAAAGCCGTTGGCTACTAGTGCAGCTTTTGCTTGTACTAAATGCGGAGAAATAAACCTGGAACTTCAAAATATTCCTGTTCTTGTTAAACCTTCTAAATGTATTAGAGCTGACTGTTCAGAAACAAAAAATTTTGTATTTGATGAAAAAGAGTCTATTTTTCAAGACTATCAATTAATTCGTATTCAAGAATTACCCGAGGAATTACCTCCTGGTCAATTACCGCAATCCTCTGATGTTCATTTAACTAGTGATATGGTTAATATTGCTCGACCTGGAGATAGATTGACACTTGCTGGTGTAATAAGAATAGATCAACCAGAATCTCGAGGTACTGAAACATCTTCTATTTTTAGATCAAAAATTGATGGTAATTTTATTGATATTGGTTCTAAAGGACCAGAGGATATAGAACTTACTAAAGAAGAAAAAGAAAAAATATTAGAATTTTCTGTAGATTCTGAAGCATATGGTAAGCTAATACAATCAATAGCTCCAAATATCCAAGGATTGGAAAGACAAAAAGAAGCGGTTTTACTTATGTTAATTGGTGCACCAAATAGAACTTTAGAAGATGGTACATCTCTTCGTGGTGATATTAATATATTATTGGTCGGAGATCCTGGAACAGCTAAGAGTGAATTGTTAAAATATGCTTCTAGACTTGCACCTCGTGGCTTGTATACTTCTGGTAAAGGTTCTACTGCTGCAGGTCTTACAGCTGCCGTTGTACGTGAAAGAACTGGTATGATGATGTTGGAAGCTGGTACTGTTGTGTTAGCTGATAAAGGAGTTGCATGTATTGATGAATTTGATAAGATGAGGAATGAAGATCGTACTGCATTACATGAAGCTATGGAACAACAAACTGTTAGTGTAGCTAAAGGAGGAATTAATGCTACGCTTAACGCTAGGACTGCAATCTTGGCTGCTGCAAATCCTGAGTTTGGCCGATATGATAACTATAAAACTTTTAATGACCAAATTAATATTGATACTCCGTTATTAACAAGATTTGATTTAATATTTGTAATAAAAGACGTTCCAAATATTCCCAAAGACGAACAACTTGGTCAGCATATTCTCGATATACATGAAACTGGTAAACTTGATATTGAAGTTCCACTTGATTTCGATTTACTTAAGAAATACATTAGCTACGCAAAGAACTTTGAACCTAGATTATCTAAAGAAGCAAAAAAAATTATTTTAGATTATTATGTAAAAACCCGTCAGGCTCCGGCAGTTGACGAAGAAGGAACTCAAGGCATTGCAATAACTCCTCGAGCATTGGAAGGCATGATTCGTCTTGCTTCTGCACGTGCGAGATCCTTATTCCGTAACCAAGTAACTGAAGAAGATGCAATATTTGCTCAAAATCTTGTTAAAGCAATGTATGAAACAGTGGGAACTGATCCAACTACCGGACAAATGGATCCAGGAATTCTTTATGGAAAACCCTTAAGTGAAAGAAGTAAATTAGAAACCTCTATGAATTTGTTCGACGAACTTGAAAAATCATCATCAAAAAATCTCGTTGATAAAAATGAATTTATTCAAAAATTAATAGATACTGGAAAATTTTCTCCAGCAGAAGCAAGAAAATACTTCAAAAATATGAGTGATAGTGGCCAAATCTACAACGTAAACGATAATTTATATCGGAAAGTAAACTAGATATCTTATTTGAATATCTCATCGCTCAATTTATCTGAAAAATCTATTGACTTTTTACATAATCAAGGTTTTAAAACACTTTATCCACCACAAGCCGAATGTATAAAAACTGGATTGCTGGAAAACGATAATCTGATAGTATCTACTCCTACTGCCAGTGGAAAAACTTTAGTGGCAATCATATCTGCACTTCAACATATTGAAAATGAAGGAAAAATTATTTATTTATCTCCTTTACGAGCGCTTGCAAGCGAAAAATACGCTGATTTTAAAAAATTAGAAAGTCTTTCGAAACCTGATGGTTCATCAATAAAGGTTAGTATTTCTACTGGTGATTTCGAATCAAATAATGAGTATCTTAAAAATTCTGATATAATTATTCTTACAAATGAAAAATTTGATTCACTTCAACGACATGGAATTAAATGGCTCTCTAAAGTCAGTTTGATTGTTATTGACGAAATACATCTTATAGGTGATTTTTATCGTGGCCCAACATTGGAAATGATAATTGCTAAAATGCTAATTTCTGATCATTCTCCCCAAATTCTTGGATTAAGTGCCACAATAAACAATGTAGAAGAAATCTCTGATTGGATTGACGCAAAGTCTGTTATATCTACATGGAGGCCAGTAGACCTTTCTGAGGGAGTATTTTGTTTTGGTCAAATTGACTTTAAAGATGGAAATCCACCTATAAATATAGACAATTCTGGAGAAGGTACGGCTATTGATATAGCAATTGATATGGTTAAACAAAATGGCCAAAGTATTATTTTTACTGAAACAAGAAAACGTGCTGCCAGTCTTGCTAAAAAAATTGAAAAAATGATGCCACTGCTGTTAACCCAAGAACAATCTAATGAATTATCAGATCTCTCTCAATTATTAGACAAATCTGATACTAGTACTGACATGAATAAATTACTTGTAAAATTATTAAAACACGGAGTTGCTTTTCATCACGCCGGTGTAAGTAATCAACAACGCCGGGCAATAGAATCAGGATTTCGAGAAAGAAAAATAAAAATTATTTGTGCAACACCGACTCTAGCTGCAGGTGTTAATCTTCCAGCAAGGCGTGTAGTTATAAGCAGTTATCGTAGATATGATGCGCGATATGGAGGAATGTCTCCTATTTCTGTTCTAGACTATAAACAAATGTGTGGACGTGCAGGTAGACCTCAATATGACGATAAAGGTGAAACCGTCCTGATTGCTAATGATGAATCAGAACAGGATTCATTATTTGACCATTATATTAATGGTGATGTTGAAGATATTGAATCTGCATTAAGTAATGAAGATTCATTACGTACACATCTTCTTGCAGCTATATCATCTAGTCAATTCGGAATTTCAAAACCAAATTTGTTAAAATTATTTAATAACACTCTTTACACACTTCAAAATGGAAATGACGAACTAGAATTCAAAGTTGAAGACTCTCTTGAATTCTTGTTAGATGAGAATTTTATTGAAAAACGTAATAATAAATTTCACTCAACTCGATTTGGTAAACAAACATCGCTGCTTTATATTAATCCATTAACCGCACGTGATTTTCGCGATGCTATTATGTCTTCTCAAAAAAATACTAATTATACAATGGGTATTCTTCAAGTAATAGCTTCCAGTTCTGATTTTGGCAGACTGTTCTCATTTAGGAAATCTGACGAATCTAATTATCTTTCATTTATCAATAAGTATCAATCTCAATTTTTTGATATTGACCACTCAGATTCTGACTATCGTTTAACTTTTCGTATTCTTCTTGCTTTGAATGCTTGGATTAATGAAAAAAAAGAGAACGACATTCTTAATCTTGCGGATCTTGATCCTGGTGATTTATATTTCACTACTGAAAATACAAAATGGCTTTTAAATGCATTTTATAAACTGACTGTTTTATTCCAAACTAGACATTTACTTGATCCTATACTGATTCTTCAGAATCGCATCCAGCAAGGAATTAAATCTGAATTAATTGAACTCACTAGTCTTAAGCAAATAGGTCGTGTATATGCTAGAAGGTTATTTGATTCAGGATTTAAATCACTTAATTTATTATATCTTGCTTCTATTGACGATATTTCCAAGACTCCTCAAATAAATTCTTCCTTAGCTAAAAAAATTAAAGAACAATTAAAGGATTTTGAAAGTGATGACTCCGACATACGTTAGAGGATTATTATGCACTGTTAATGATGGAATCATTAGTTCTAATTTTGATTTTATGGATCATCGTGCATGGAATGGATATTTATGTTACAACAAACCATCGGATTATTCTATCACTAACAAATTATCTAATTTTTCTTACGATATAGTTTGCTGTTTAGGTGATTCTCCCGTTCATGATAAAGAAATATTAATTCATGGTGAAATATATGGGAATTACCTTGACATTATTGATAAAATTATTAATTCCATTACTGTAGATGAATTACAATTAAATATTCAAGAATTATATCGACTTGACGGTTCTTATTGTATGATAATCAAAGGCAAGTTGGGTACTATTTGTTGTCGTGATCCACTTGGCTGTAAACCTCTTTATATTGGCAAAAAAGATAATTCTGTTTCAATATCTACACAAAAATCAATTTTACTTAATTCTAATTTTCAGGTCGAAGATTTTATCCCAGGTACTGCTATGATATTGGAAAATGGTACTTTAATTAATTCTCGCAATCTCTCTAATTTGAATCATTACTCTAATTATGACGCAGATACTTTGTTAAATCTCTTAAGAACATCAATATCTTCTAGAATAGGAGATAAGAAAAATATTGGTGTCTCCTTTTCTGGCGGTATTGATAGTTCAATTTTAATTTCCATTGCTAATGAATTCACTGAAATCAAGGCCTTTAATGTACGAATGAAAGGTTCACATGATTTCGAAAATGCAAAAAAACTTGCTAATTTACTTGGAATTGATCTTATTGAAATTGAACCAAATAAAGATCATATTCCTGATGACATTCCAAATATTGTTTCTCTTGCTGAAATTACCAAACCTATGGATGTAAGTATTGCATTAGGATTCTATTACGTGGCAAATACCGCTAAAAAACACAATACCCCCACACTTTTTGTAGGTCAACTTGCTGATGAATTATTTGGCGGTTATGCTCGTTATATTAGAACTATTGCTGAAGAAAGTCTTCAGTTTGTTACTGAAATGATGAATTCGGACGTACATCAGGCGTATACTAAAAATTTTGAACGAGATGAAAAAATCACATCTCCGTTTGTCGATTTATTTGTTCCATATGCTTCTATACCGTTAGTAGATTTCGCACTTGGCTGTCCCATAGATTATAAAATAGATGCTGCAAATGATGTAAGAAAAGTAATTCTTCGTTCCGTAGCTAAGAAATTAAACCTTCCAGACGAAATAATTTATCAAACTAAGAAGGCAATTCATTTCAGTTCTGGAATTGATAAAGTTGTTAAACGAGCATTAAAAAATAACTAGATATCAAGTATCATTTCAGCTTTCCAATTATTGTCCTTTTTTAATAGACTAAATTTATGTAATGTGACTGCTTTTACGTCTGCACATAACTCATGTTTTTTATAATCAATGTGTTCGCCTTTTGCTGTTGCAGATAGTTCAAATTTTTCATCTAATTCTTTAATATTTACATTAAACTCACTGAATAATAATTGGTTTGTATCTTTTTCTATTACTAATTGTTCTAAAAATTCAAATAATAACATATCTATTTCTTTTGCTTCTACTTTGAAATTAATTTCTTTGTTGATATCTATACTTCCTAGATCGTTGATCATGGTATTTGTTAACGCTTTTCCTGAATCGATGAAAACACCCTCTAATGAATTTGAATTAACTTCTATAGCCGCATCTGCTATTGAAATGTCATCTTTGTATATGTAAGGCATATTATCCCTTTATATTGCCTATTGGAATGAATCTTACAACTCTTTTTGATATTTTTGCATCTACCGTAACTCCTACTACTTCATCAATATCTTTGTATGCCTTTCCTGCTTCTTCTGCTAATCCTGCATACGAGACTGATTTTACATAAATATCTTTCTTTAACATATCTCTAAATAAAGTTTCACCTCTGAAGATTCTTTTTGCTTTAGTTCTACTCATAATTCTTCCACTTCCATGAGCTGTACTTGCAAATGTTTCTTTGTGTGCTTCATCCGTTCCAGTTAATAGATATGAGCCTGTTTCCATACTTCCACCAATAATTACTGGTTGTCCAATGTTTCTATATTTTATTGGAATTTCTACTCTTCCAGGACCAAATGCACGAGTTGCACCTTTTCTATGAACTATAACTTTTTTCATTTTTCCGTCTATTTCATGTTTTTCCACCTTTGCAGTATTATGCGCTACATCATATACCATTGAGAGACCTAATTTTTCTGCTTCCATTTTATACACTTTTGAAAATACTTCTCTAATTCTATGTAGTATTATTTGTCTATTGACAAATGACATGTTGATTGCACATTGCATTGCTGAAAAATAATCTTGACCTTCTTCTGATTGGAATGGGGCACATGCGAGTTCCCTATCTAAGATTTTGATTTTATATTTACTTTCCATTACGCCTAAAAACTTTTTTAAATAATCAGATGCAACTTGGTGACCAAAACCTCTGCTTCCACAATGAAACATAATTACTACTTGATTTGGAAATATTCCTATTGTTTTTGCTGTTTTCTCATCAAATATGTATTCTGGTTTTACTACTTGTATTTCTAGATAATGATTTCCTGAACCTAACGTTCCAATTTGTTTTATTCCTCTTTTTATTGAAACATCACTAATTTTTTCAGCATTTGCATTTTTCATTATTCCATTTTCTTCTGTATTTTCTAAATCTTCTTCCCATCCATATCCGTTTTCAATACACCATGTAGAACCTCTTTCTACAATTTCACGAAATTCAGATTTGTTTATATTAAGAGATCCTGATCTTCCTACTCCTGCAGGTACTTTGATATATAATTGATCAACTAACTCTCTTAATTTTGGTTTTATTTCATTATACGTGAGATTTGTTAATACTAATCTCATACCACAATTAATATCAAATCCTATTCCACCCGGTGATATTACTCCTTCATTAAAATCCATTGCAGCTACTCCTCCTATTGGGAACCCATATCCACTATGGGCATCTGGCATTGTATATGCATAATTTATTATTCCAGATAATGTTGCAACATTAGTAATTTGATCTATTACTTGATGATCTATTAATTGAAGTAATTTTTTTGTTGCATAGATTCTTGCAGGTACATTCATACCTTGTTTATATTCTATTGGTATTTCCCAAGTTGTATTTGATATTTTTTTTACTATATCTAATATCTTATTCATATGACTATCTACTACAATTAAAAATGCCAGACACTAAATATATATCTTCATATGTTAGTTAATAATATTCTAATGAAAGATGATTCTTTAATAATTAATATAAAAGTTAAAACAGGATTAAAAGAAAATTATATAAAATCTGAGGATAATATTGTGCATATCGGTGTTAAATCTATTCCTTTAAAAAATCAAGCAAATATTGAAATTATTAAAATTCTCTCAGATTTATTTGGAGTTAAATCTTCTAATGTCAAAATTATACACGGGAAAACAAATAATCTAAAAACTATTGAAATAATTAATCCTCGTTTTATTCCTAAAAATTTTCTTTAATATATTAATTAATGTATTGTGCGCTATCATTTTTTTTGGAATGTTTTATTCCCTCGTTATCCGTTTTCATTTTTTCTATTTCATTCATGAATGATTTATTTTCATTTATCTTTTCTGATAATTTATTTAGATTGATATTTATTTTTAATATTTTATTAAGTGATTCTAGTATTGCTTTTGATGAATTTGGATCAATTATGTATCCTGATGTTTCTCCTAATAACGAAAAACCTTCTATGCCTTTTATTTTTGCAATACCAATTAAAATACCATTCATTCCTGTAATCATTCCTTGATTCATTATGGATATTCCATTACGCTTTAGAATATTTACTTGTTTTTTATTAGTTGCAGTTCCAAAAACTTTTGGTTTATTTACGAAATTTCCTGTTATATAAGCTGCAAGTGTAAATATTTTTTTAACTCCTAATCCTGATGTATAGTCTAGTATTTTTTCTGATATTATATAATTTCCTTGTTCAGTCATTGGCTGAGATTCTCCTGTTAAAATTAATATATCATTTTTTAACATTTGTGTTTCTATGTGATATATTGTATTTTTCATTGTTTCTGCTACTCCATTTTTATCAATTATTATTTGTGGTGGAAATGAATTACTTTGAATTTCACATATTGGAGTTGATTTAAATTCATTAATTATATGATCTACCGCTAATTTTCCAACATAACCGCTTCCTGGCATTCCACAAATTAATATTGGATTTCTAAATTTTCTTTTTTTTAGGATTTTTAATTTTATACTCATTTGAATATTGTTTTATTGTAGTTATCATTTATTAATGTGACTTATAATTATTTTGGAAATATTGCTGAATTTGGCCAATTATTTTTTATATATCCTTTATCTAAATTTATCATTCGTAAATAATTATGAAATATTCTTATATTTTTTCCAAGTCTTATTGTTGAAATATTGATTATGCAATTTTTTCCATGATTTTTTTCTAATGATGGCACAATTTTTGAGTTAAATCCAATATTAATTTCATCATCAGTTTTTCCCTCTATTATCATTATTAATGCAGTATGTCCATCTATTTCAGCTAAATGTGATTCATAAATTAATTCAGTAAATATTGTTCTTACATTTGGTTCTTCTTTTATTTCTTTTATTATTTTTTCTTGAGTTATTCCAAGCTTAAATTTTATTAAATAAAGATGTCTTGATGGTAACATTCCTGTTCCATTTATTCCAGTATTTAATTCAGTATAATAATTAATTAGTCCTATTTCTTCAAGTTTTTTTCTTTTTCTATTTACTGTTCTAACAGGGATTTCTGTATTTTGACTAATTTTATTATCAGAAATTCGTGGATTTTTAATTAACTCTTTGACTATTATTTTTTCAAATTTGTCCAATTCTTGCGTTTTTTTATAATTTTTGACCAATATTAGTCAAATATATACCGAAAAAGATATAATAACTTTTCTATTATTAGAATTAATGTCGAAATCTATTCAAGAAGTTACAACATTTGTTAAAATACCAAAACCAAAACAAAAAGAGTTTTGGGATAATCAAAAGATTGAGCATCTTCGTAAATTAGCTATTGATGGCCGAGCTGCATATCTTTGGGATGACCATTTAAATAGCTCACGTGTTATTGACCGACTTGCTTTTTCTGATATTGACCCAATTCAATCTAATGAAAAATTTTTAGAACATAAATCTGATCTTTCTTTAATTAAAGATATTAATACATCGACTAAATTAGCTTATGGCAGAATTGATTTATCAGCTCCATTATATCTTGGCGATATGTCTTTTGGCGCACTTAGTGGAATTCCTAATATAGCATTAGCTAAAGCTTCTGACATTACTGGAGTTATTGCAGGAACTGGAGAAGGAGGATTGCATCCTGATGTTGCTGCTTGTAAACAAATAACTGTTCAATGGGCTTCAGCACGTTTTGGAGTTGATATTGATGTATTGAAGACTGGTTTAGGAATTGTAATAAAAATAGGTCAAGGAGCAAAACCAGGTATTGGTGGACATCTTCCAGGATCTAAAGTTACTAATCCAATTTCAAAAGCTCGTCGTATACCTGTTGGTAAAGACGCAGTATCTCCAGCACCACACCACGATATTTATTCAATAGAAGATTTGGGTCAAAGAATTTGGGCATTAAAAGAAGCAACAGGAAAACCAGTTTTTGTTAAAGTTGGATGTACTAATTATGTTCCATATATTGCTTCAGGTGTTGCAAGTATGGGCGCTGATGGAATTATTATTGATGGCGCTGGTGCGGGTACTGGTGCTGCACCTGCTGTTGTTCGGGATAATATAGGCTTACCTATTGATTTAGTAGTATCTTGTGTTGATAGAGTTCTAACAGAACAAAATTTACGAAGTGGTTTTTCAGTAATTACTGCTGGCGCTGTTAGTAATGCTGAAGATACTGCAAAACTTCTTGCTTTGGGAGCTGATTGTGTTAGTACTGGAACTGCTACACTTGTGGGTTTGGGTTGTTTAATGGTTCATAAATGTCATATTGGTTTCTGTCCTGCACTTTTAACAAATAAATTACTAGACAATCCTGCTAAAGTTCTATCACTTTCAAAATCTGTTGAATGGACATCTAATATGATTTATGGTTGGATTGAAGAATTCAAATGGATTTTACGAGAATTGAATCTAAAATCTGCATCAGATTTAGTAGGGCGTCGTGATTTACTTCGTGGTTACAATATGCATCAAGAAACTGCAGATATTCTTGACGTACAAATTGATTATTCAAATAAATCATTAGTTGGTTCATCTCCTATACAACGAAAAATATCTGAAGATGAGTTCTGGACTCCTCAATTACAAGGAGAGCTTCGTGAATTATCTGGTAGTGCAGGTCGAAATCCAGGAGAAGCTGTAATAACAAGTATGGGATCAGTTTCTGCTCCTATGGTAGATGAACCTCGTTCAGTTTGTGATTGGTTAAGAAGCGATGGCGCACAAGTTACTCGACCAAGTATTGATCCTTATCGAGAAGAAATTGAAACATCTACCTATCTTGCAAATGGCAATATTAGACTTTCTAATCCTATGTTTTTTGGTAGATTGTTTGAACAGGGCCCTGTAAGAAAAATTTTTTCTGAAGTAGCATATTCAATGGGTTTGTTGTTTGATTCTGAAAATCTAATTGATAAAAATACAACTTTAAATCATTCATTGTTGATTAATCATCTTGAATTTATTAAAAATAATAAATCGGACGTATCTGGTATTACAATTAATCATTCTGAACTTGATTCATTGGACGAACTTTCTAAATATAATCTTCCTATTATGGTGAGATTTCCATCTAATGAACAAACAATTGATTCTATATCTTCAATTTTACATAAAAATATTGCAGGAATTATTATTGATTGGGATTTGGAAAATACTGATGATGCACTTGATCTTGCTATTTGTACTTCGGAAATTGATAAGATTTTAAGAAATACTATTCTTGATAAAACTCCTATTAGAAATAAGATTAATCTCCTTGTTGAAGGAAGCAGAGTAAGAGGAGCATCTGACATATTCAAATTAATTGGACTTGGAGCTGATGCAGTCGGAATAAGTAAAGCTGCTTTAATATCTATTAATTTTAATCCAAAAAAGTTTCGTAATACAGATGAATCAAATCTTGATCAAGTTAAAACTAGAGAGAAATTAGAATATCTAGTTCTTGCTTTACAAAAAGAAATAAAACTTCTTGCTGGAGCATCAGGTATTAGTTCTATTCAGAATTCATTATTAGGAAATCGTGAACTTTTTCGTTCTATTGACTTAAATCCTGAAATTCGTACACGATTGGGAGTTAAGCCAGGTGGCTCACCATGATTAAATCTAAAATAGTTAGTAAGGACGATTGTGGTCTTTTTGCCATACTTAGAAAAACAAATTCTCCTAAGATTTCTAATTCAATTGCAGTTTCTGGTATTGAATGTGTAAGATTTCGTGGAAGTAAATATGGTGCTGGTTTTGCACGTTTTGATTTGGATAATTCTAATCAGGAATATTTATTAAAAATATTTGTTAAAAATGAAGATATATTTAATGAAATAAAAGATATTTTAATTAATTCTGGCCTATCAATAATTAATATTTCCTCTCGAAAAATTTCTGCTACTGAATTACCTCTTGATATATCATTTATTGTTAAAAGTTCTAGTATTGAAATATTATCTAATCTAATTAACGAAATTAATTACAAATTTTCAATTCCTACTTATCGCGCTAGAATATATTCTTCTGGTAATTACGTGAATGTTTACAAAGATATTGGATATCCTTCTGATGTTGCAATATCAACTGGATTAATTGATTCTTCAATTAGTGGAGATTTATATATTGCTCATACTAGGCAACCTACTAATTCACCTGGTTCTTCTGCTATATGGTGCCATCCATTTTCTAATCTAAATACTGCTATAATTCATAATGGCGACATTAGTTCATTTGGTTCAAATATTAATTTTCTTCATTCTCGAGGAATTACTAATTTAGTAGGAACTGATAGTGAGGTTGTTGCTTTTATTGTTGATTATTTAGCTCGTGTTGAGAATTTATCTATGACTGATATAGGACTCATTCTTTCTAATCCTTATGATCGTTTCCTCTATAGACTAGGAGATAAAAAAACAGATTATATTCGCAATTTATTATACAAATATCGCGGCGCTGAATTAGATGGACCATTTACTATTTTTATTGGATATTCAGATGGAGATGACGTTTACCTTCTTTCAGTTATTGATAGATCGAAATTTAGACCAGTTGTAATTGGCGAAGATGATAATTACATCTATATGGCAAGTGAAGAATGCCAAATTCGTTTATTGTCTCCTCATGCAAATATCTGGACTCCTCAACCTGGACGTTTTGTACTTGCATCAATGAAGAAAGGAATTATTGAATCTGGAAGTAGTGCCTCTATAGTGGATGCTACTGATAGTTCAGGACTTTTACAAATTCGTTCCGAATATAATTCTGAAAATCTTATTGATTCTAATAATTTGTCTTCTTACGACTTAACTAATAGTATTAGAACTAAATTACTTGATGGTCCTAAATCAATCAATCTAATGAACGTACGCGGCCAAAGATATATTGGAATTAATTTACCAAAAGATACCGTATTAAATATTTATGGCACTCCAGGTAATTGTCTTGCCAATTTCAATAAAGGTACGTCCATTAATGTTTATGGAAGTGCAGAAGACAATGTTGCCGATACTATGTCTGAAGGAAAAATAACTATTCATGGACATGCACGAGATGTTGTTGGTTATGCATTACAAGGAGGTAAAATATTTGTTCGAGGCAACGTAGGAAATCGAGCATTTATATTAATGCGCGAATACGAAGAAAGTAGACCAGTAGTAATTGTTGGTAATCGTGCAGATGATTATTTTGGCGAATATATGGCCGGTGGTCTTGCTATTGTTTTAGGTATTGATTCTATTGATTCATCCAAACAAGAACAATTAGTTGGTAATTTTCTTGCTACAGGTATGTTAAGAGGCATAATCTATATTCGTGGTAAAGTTGATTCTGATTCAATTGGACTAAAACCTCCGAGAGAAGATATTTTAAATTATCTTAAATATTTAAATCATAAAGACGTAATTGACAATGAATTATTAAAAAAACTTTCTTCTTTTACTGACATTAATTTGGAAATTCTAAAGACTGAATTGTCAGAACTGGCATTTGATTCAGTTAAAAAATTATTCTTAAGTAAATATAGTGTTAATCTTAATATTAATTACAGAAAGCTTAATGTACATGATCTCAAAATAATTATGCCTTATCTTCAAGAATTTATATCTGATTTTCAAATTTCTACAGAAATTTATAATAAACTTATTAATTCATATTATACTGTGATTGATTCTATTGATAAATCTAAAGAATTAGATATTCCCAAAGTTACTATTATTGAAGAATAAATGATTATTTTTTACTTTTTAATTTTTCTGATAATGGAGTAATTTTTCCATCTTTTGATACTGAAATTGATGTTGGTACTGTAATATTTAATCCTGAATTTCTACATATTGTTAATAATTCTCCTCCTGATATTGAACTATAAATTTTTCCTTGTTTAATTAATTCTGATAATTTATTAATAATTATTTGTGTTTCATTTGGATAATATTTTTCTGCTATTTGTAATACTTCCGTACCTCTATCAACAAGTCTAGAAATAACAATTTCTCTTGGATTATTTTGTTTCTTTTTATTTTTAATATTTTTCATTAATTCTATTATTTTTTTTTGTTTTAATATTTGTAATTCTTTGTCTTCTTCCATTACAACTATTATTACTAATTCTATTAATAAGATTATATCATATACTTAAAAAATATAAGACTTAAATGTAGTAATTAGACAATAAATTTTATTATTGAATTCTGATAAAAAAATTCTTATTTGTGATAAAATTGAACCAGAAGGCATCGACTTATTAGTAAAATCTGGTTTTGATATTATTGAGAATCCAACAATTACTTCTGAAGAATTAATTGAATCAATTAAAGATGTTAATGTTGTTATTGTAAGAAGTAGAACTAAAATATCGAAATCTGTTATTGATTCTGCTTCAAATTTGGAATTAATATGTAGGCCGGGAACTGGTGTGGATAATATTGATTTAGACGTAGCAAAAATAAATAATATTCCAGTGTTTACATCAGTTGAAGCATCTACTAATGCAGTTGCAGAATTAACTATTTCTTTAGCAGTTAGCCTCGCACGATTTATTCCAAGGGCTGATAATGCATTAAAAAATGATCAATGGATAAAAAATTCTCTTTTAGGCAGTGAATTACGTAATAAGATCTTTGGTATTGTCGGAATGGGTAGAATTGGAAGAAGAACTGCAGTTCTTGCTTCTGCGCTTGAAATGAATGTTATTGGATTTGAAAAAGTAGTTGTAGATGAGGAATTTCTTACTCAATATAATGTTAAACAAGTAGAATTTGAAGAATTATTATTAAAATCTGATTTTATTAGCTTACATCTTCCTGCTACTCCAGAAACTATTCATATGTTTGGTAAAAAACAATTTCAACTAATGAAAAATAGTGCGTTTCTTATCAATACTGCGCGTGGCCAATTAATTATTGAATCCGATCTTTATCAAGCATTAATTAATCATGAAATAGCAGGAGCTGCACTTGATGTATTTGAAAATGAACCACCAAATAATGATAAATTAATTAAATTAAATAATTTAATTGCAACTCCTCATATAGGTGCACAAATAATAGAAGCACAAAAACAGGCTTCTACAGTTATTGCAGAAAAAATAATCAAATTTTATTTAGAAAAGAGGAATTAAGTTGGGAGAATTAGGAATCGCTATTCCATCAAATATTCTTGAAGATTGTCAATCACTTTTTGAAAAATCATATAAATTAGGACTAATTGCTCGCGCTGCATCTATTTTTAATGTTACAAATATTCATATTTATGAAAATCAAGGACGATCTGAAAAGAATCTTATTATGTTGATATTAAGATATCTCGTAACACCACAATATCTTAGGAAACAGCTTTTTCCCATTCAAAAAGAACTAAAATTTGCTGGGATACTACCTCCTCTTAAAATTCCTTCTCATACAGTATCTAAGAATTATAATTTAAATAAATTAAATATTCGTGATGGAATTTGTATAAAATTTAATACAAAAATTAAAAAGTCTATTATTGATATTGGCTTAAATAAATTTGGTATTTTGAATGGTAAATTAGCTATTGGCAAAATAATTACAGTATCAGTTCTTTCTTATGATAAAGACGAAAAATACTTTCTAGTAAAAAAAATTAAACCTGAGAAATATTGGGGTTACGATATCAATTATCACACATCATTAAAAAGTACTTTAAAATCTCCCTATTATGATATAAAAATTATAACTTCAAAATTTGGTTCTGTTTTTACAACAGCTTTTAAAGATATTTCTGATAAACTTTTGAATAATTCTCATTCTAATATGTTAATTGTATTTGGTTCACCAAAAATAGGATTAATGTCTGTATTAAAACGTGAAAGTATTGCAACATCTGATCTTTTTATAATTAATTTATTTCCGAACCAAGGAGTTGAAACAGTTCGAAGTGAGGAAGCAATTCTATCTGGATTGTCTCTTTTTAATTCATTGATTTATTCAAATTAACTTTAGAGAGTTTCATCAAATAATTCTGTTCTTTTTCTACTTAAGATAAATCCTATTATTGAGAATATTATTGCAAAAATTATTAATCTCACATTCATAAATATTTGAAAATCTGAATCTAATACAATAAATATGATTCCGGATATCATTATCAATGAGATAATTGATGATAAAAAATCAACGTATTTTATTTTTTGCTGTAGATTCATTATTTCGATAATTATTCTTTAATAATTTCAATAATTAAAATTTCTCCTGAATTTATATCATTTAATTTTTCAATTCCATTTGTAATATTTCCAATAATTGTCATTTTATTTTTTATAATTATATCTTTATTAAATAGACATATTGAACCACTTGATGCTAAAAAAGCAATATTTCCTTTTTTGAACGATGTTTTAGGCTTATGTAATCCTGCAATTATTCCTATTGGACTATAAATCATAATATCTTTAACTTTAACTATTGGCCCACTTAATCTATTTTTTTTAATTATCATATTTACAATTGTTGGCGCTAAATGTTTCGATATTTCACCATCTAAAATACTATTTCCAATGGTTATTTGTATATTATTCTTTGATAATGAGCTCATTGCACTATAATAGAAAAATTTATTATGTTATAAACTGTATTAAAATGGATTAGTAACTACTGAGTTATTCATGTTAAGAAAAGGAAATAAAATGTTAAAACAAAATTTTAAAGTAGAAATAGGACCGAGTCATCTTACTAGATTTGAGCGTGCAAAAATAATTGGTGCTCGTGCATTGCAGTTATCTCTTGGTGCACCTACTTTTGCTAAATCATCAAAGAATATACATGATCCAATAACTCTTGCTATTAAAGAATTAGATACTTTAGTTCTTCCTTTGACTATTAGACGGACTTATCCTGATGGTAATTATCAAAATATACCATTATCTAGCTTATTATAATTATAATATTTATACGCCGATTAATGTTATTGTTGATTTTACACTTCTAATACGTCTAATTTTCCAGGTAATGATGTCTTTTACTTTTTCCATAGTTTCTGATTCTACAATTATTACAAAATCATATCTTCCATAAACAGAAGCCACCTCAATTACTCCTTCTAACTTCATTACTTCTTCTATGAATTCTTCTTCTACATCTGTTTCTGTATTTACTAATATATACGCTCTTGGCATCTAGTTCACAGAATTTCATATTACTATATTCTATATAAATCACCTTAGTTTATTTACGATAATTATAAATTAAATCATTATTTAGCACCATGTTTAAATAAGAATTTTTTGATAAAAAAACTACAAAAATGTCTGAATTCGAATCTAATTCAATAAAGAATCCTGTTAATGATGAAGCTGCTACTAAAGTTAGCTCAACCTCTGGTACTGATGTATCTCAATCTACTTCTAGTCTAAATACAACAAATAATATATTTATTGGTAAAAAACCTGTTATGAGTTATGCAATGTCTGGTCTTATACAACTTGGACAAACTGGAGAAATTGTTGTTAAAGGTAGAGGTATGGTAATATCTCGTGCAGTTGATGTCGCTCAAATAATTACTGAACGACTAGGAAAAGGAAAATACTCTACAAAAAGTATTGCATTAGATACTGATGTTCTCGGAGATGACGATAATAAAAGAAACATCTCTACAATTGAGATTGTTATAGGTACCTTATAGTAAAAATTGTCAAAATCATCTATTCAAAATACAAAATTTACTAGAAGAACTTTTTCTATTTCTAATGACGAAATAAAGAATATTGTATCTAAGTTTGGAACACCTATTTACATTGTCGATGAAAATACTCTTCGTAGTAAAGTTTCAATATTAAAAAATTCTTTTAGTAATTATAATGGTAAAACTGTTATTGCATATTCAATTAAATCTAATTTTAATCCATCAATAATTAAAATATTTAATGACGAGGGAATTTCTTTTGATTTAACTTCATTAGGCGAATTATATTTTTTTATACATAGTGGTGGTAATTTAAATCAAGTAATGTATACCAGTATTACTGAAGAAGAAAATGAATTTCTTGAAGCATTGAAATTAGGAGTTAATTATTTTGTAATTGGTTCATATAATGGTCTAATTAATCTTAAATCTGCTTCTGAATCATGTCAACGTACTCCTTATGTTTTAGTAAGAATTAATCCAGAAATCAATGTTGATGCAGATATAAGTGCATCATTTCATATGAGTAAATTTGGAGTTCCTATTAATAATTCAACAAATGATAATGCAATATATCTCATTAATAAGATCTATGATTCTAATCTACTCAAATTCAATGGAATACATTTTCATTTAGGTTCTCAGATTAATGATCCTTCATGTTTTGTTAAAACTATTGATTTACTTAATGATTTAATCACCAAATTACAAAATATTATTCCTAATTTTACGTTAAATGTTTTAGATATTGGTGGAGGTATTCCAGTAGAATATAACTCATCTGTTCCATCTCCTGAATATATTGGAAAGATAATCTCTGATAAATTAAATAAATTTATAAAAACAATTAATTTAAATCCAGTTCTTATTATAGAAAGCGGCAGATATCTTTCTGCAGAGTCATTAATTCTAGTTTCTCGTATTGTTAATTTAAAAACTTATTCTGATGGACAATTTCTTATAGTCGATGCAGGATATAATCTACTTTTAGATTCAGCATTAATGAATCAGGAATATCCTATTGATATAATTACTAAATCTAAAAGAATGACTTATGATAATATTAAAATTGGTGGACGTCTTTGTGATACCCTTGATGTCTTCAAAATTCCGTTTAATAAAAAATATCCATCTGCTCATGTTAATGATTTAGTTATTTTTAGAAACGCTGGTGCATATTCTATTGTGTTTAATATGCCATTTCATTGTCAAACTAAGCCTTCTATAGTTTTACGTCGTACTGATAAAAGTGTTGAAGTGATTAGACAATCTGAAAGTATTGAAGATTTATTTAATACTGAAGGCGGTAATACTATTCTTCAAATATAAGTATCTTTCCAGTTTGTAATTCAAAATTATGGATATTCTCTTTTGTATTTATATTTAATAGTACTGATATTGCTCTAATTGTATTACCGTGTGATACAATTAATATATTCTCATTATTAGTATGCTCAGTTTTTAATTTTTCAATCCAATTATTTACTCTATGGGCCGTATCTTGTAGAGATTCTCCATCTTCTGGAGGAATTTCCCATCCTCTCCTTACTTCTAAAAATTTTTCTTCTCCCACTTCACTTTTTACTTTATTTTTATTTTTTCCTGCCCATTTTCCATAATTTCTTTCATTCAATAGTGGATCTAAAATAATATTTTTCGGGATATTTGGATGATTATTAATAATTATTTCTGCTGTTTGTTTTGCTCTTAATAATGTACTTGAATATACAATGTCTATATTGTATTGTGATAGTTCTTTTGCAATCTCCTTTGATTGTTTTTTTCCTAATTCTGATAATGGTGGATCAAGCCATCCTGTAAATTTATTTTCCATATTATATGTTGATTGACCATGTCGCATAAAAAATAATTTCATTATAAAATCTTATAATTCAATATATAAATATATTATCTAGATTAAAGACCTATATGCAATATATACATAAAAACTACGTTTGAAGCAACTTCGTAAAGATTATTTTTTAGAAGAATTTGTTCTTGTAAATTCCTCTGTTGATGTTCGTTCATCTTTTCTTGCTGATGATAAATCTGAAAAAATATGTAATATTTGTAAAAACAGTAAAACATCTAGTAATTATATTATAACTAAATCTATTGAATCAGTTAAACTTGAGAAATTTGATAGTTCTGAACAAGATCTATTTACTATAGAACAAAAAAATCGTACAACTTTTTTCATTACTGATTCTAGTCATAAAAAAATTAGTAAACTTACTGTTAATAAACTTCATAAATTATTAACCTTAGTACAGGAAACTACTAAAGAAATGATTTCTGAAGATATGAAAAATATTCAAATTTTTGTTAATTCAGGAACTAATTCTGGCGGAAATGTTGTTCATAATGGTTTTGAAATAACAAATCTTCCAGTAATGTCTCCTAAATTAAATACTGAAATCCAAGCTTCGAAAAAATTAATTCTTGATTTAGGAATATGTCCAATGTGTCGTGTTATAAATTTTGAAACTGGCGGCCCTAGACAAATACTTTCAACTGTAAATTTTTTGGCTTTTTGTCCTTGGACGTCATCTCATTCTTTTGAATTTTGGATATATCCTAAATCTCATCAATATTCATTTGCTTTTATTGATAATCATGAATTAGAGGATTTAGCACAAATTCTTCGTTCTACACTTGGCGGTATGGATAATATTTTGAATAATCCTTCCTATAGTATTGTGTTTCATAATTCCTTGAATGAATTAGATTTTGAAATTCATTGGCATATTGAAATTTTTCCCAAAATATTCAATAAAAATGGCTTTGAAAATGGATTTGGTATATATGTTAATTCAATTACTCCTGAAAAAAGTGCTGAAATTTTAGGTAAAGCTGCTCGAAAAGAACTTGCTAGTTTAATCGGTGTGGTTTAATTTATTTCATCGAATCTATCCTTTAGTAATCTTTTAATTTCATCTATATTTGGTGTTGGTGTTGGATCTATATTTTTTAATATTGCAAGATATAACGACACGTAATCAAGTAAATATATTAAATTTATAATTCTACTAAGTTTTGTTTTTCCTTCTGTATATATTTCTAATGGTTTTATATCCATTTTAATTAATAATTGACTTAATGAATCAAATCTTTCTTTTTGTTCTAAACCTTCTTTATTATCTCTCAAGAAGATCGATGTAATTTTATTATCATGATTCCTTCCCCATGATTGTATTTCATTATGACAGAGTTCTGGTAATAATATATGTTGCGCTCGAATTTTTGAATTTTCATTTAGTGATGCTTTAAACCTATATCCTGGTGCCGATAATGTTTGTCCAGAATATATTGTTGGTGGTGTATTTAATTCTAATATGTCACTTGCAATTTGTTTTGCAATATTTTTTTCAAACGAAATTTTTTTCTTTATTTGGTGACTTTTTATTTCTAATAGATTCATCATATCTATAAACTCATTTTTTGGTGATTTAATTATATCTAGTTCTGAAATAAGATTTATTGCAGGTAATAAAGCATATAGTAAACTTGCTCTTGGCGTTAGTGCTAATTGCACCTTAGTGTGTGGTATGTTATATTTTTTACTTATTTTTTCTAGCATTCCTCCTGCAGATATTGATACTACTGAAGCTTTTTTCTTTGCTTTTGCTTCAATACACGCATAAATTGTTTCACTTGTCTCTCCTGAAATCGACGCTGCAATTACTAAGGTTGATTCATTTACATATCCTGGTAATTTGTAATCTTTTAACACTTCAAATGGTATATTTAATTCATCTCTCAACCAGTTTTGAATTATATCCCCTGATGTAGCAGAACCTCCCATTCCTATGAATATTATATTATTAATTTCTTGTTTGGAAGGAACATTTGGCCTTATTTCTATTGCTTCTTTTGCATATTTTGGCCAATTTTCATATTGACTGAATAATTTCGATTTATCTATAATGTTTATTTTTTCTTCAGTTAATTTTTCTTCATACGTCAAATTCTTATATCTCCTTGTTTTACATTATTTTCTTCTCTTTGTTTTGTACTCATTTCGAATATATATCGTAGTAATGCTTTATTGTGTTTATCTTGGTTTTTATTTCTTCTTTTCATCATTCTTGATTGTGTTAATATTGCTTTATTAATTTTATATTCAATTAATTCCTTTGTTTTCAAATTTTTATATATTGTAAATGAAGGAATATTTTCTGTAGTATAGCCATATAATTGTGAACATACTCCTATATTTATTCCTGTAAAAATTAATGATCCAATAGCAGTTTTAACATTATCTCCTATCATGCAACCATATTTTATTTCATTCGTATTTACTTTTCTTTTACCAATATTCACACTAATCTTTCCATAAGTGTTTTTCAAATTTGAATTAGTTGTTCGAGCTCCAAGATTTACCCAAGAACCTATAATTGAATGTCCAATAAATCCTAAATGTGCTTTGTTTGTATATTTGTGGATAATTGAATTCTGAATTTCTCCACCAATGATACAATTATTATCTATTGAAGTATTTGAATAAATTCTAGCTCCTAAAATTTTTGTTTGTTTGCCAATATATACAGGACCTTTAATAAATGAAAATGGTTCAATTAAGACGTTATCATCTATAATTACCGGTCCATTGGTAGAATCAATATATGTTTTTTCTTTATCTATAATGTTTACATTTTTTGAAATCCATATATTTTTATTATTTGAAATTTTTTTGACATTTTTAATATTATTTGATTTCTTTTTGAACAATGCATAATCATTATTTATTGCTTTTGAAGATTCTTTAATTAATTCCCATGGAAATTTAATTAAAGAATTATTTTGAATTTTCTTAATATTATATTTCTTTATATTGGAGATTTTTTTAATAATTTGATATGAATTATTTTCCTGAATATCTTTAATTATTATGGAAGGAATTCGCGCACAAACGAATTTTGTGCCTGATTTAGTAATAAATTTTTCTTTATTTTTCAGTAATTTCTTTAAATTCTGATTATTTAGATTTACTAGTGAATTTATTACTAAAATATCTCCTTCACAATCTAATTTATTTATTTTCGATTCTGTAAATTGTTTTTTTGCTATATTTGTAAGATAATCTCTTACAAATATTGATATATTTTCAAATTCTATTTCTTTTTTTAATTGTGTATATATGTTAGATGTTCCAAATAACAGTTCTAACGATGTTCTCGTTAGTGTTATGGGTTCAAGATTCTGTACTAACTTATCTTCAATTAATATAACATTATTTGCCACTTTTTTTCACTTTATTAAATTCCTTGAAACTTCTTTCATATGATTCTTTATCTCCAAGATCTAATATATTTCCACTTACTGGATATCCACAGATTTTATTTTTTAATTTTTGACTTTTGATGAATGCTTGATCCATATTATATGATTTATTTTTTGGTATATGTTTTAAAAATTCTTTATTCATAATATAACAACCAGTATTTATTAAACCATTTATTGATGGCTTCTCTTTCCATTCTTTTATTGATTTATCTTTATTTAGTTCTATTATTCCATATTTTATTTTTGTTTCATATTCACATAATATCATTGTAACAATTGGATTGTTTTTTTTATGAAAATTTATTGCTTTTTTTATATTAAAATTAAATAAGGAATCACTATATAGACATAAAAAATTATGGTCCAAATATTTTTCAGCAGATTTTAGTTGTCCGGCAGTTCCTAATGGTTTATTTGATTTTACATAAGTAATTTTTACATTATAATTTTTTCCATTTTTATAATAGTCTTCAATAATTTCACTCAAATAAGACGTACAAATAATTATTTCATTAATATGTTGTTTTTTAATCCAGTCAATTATATGCCCTATTATTGGTTTTTCTCCAAGTGGCAGCATTGGTTTTGGTAAAAATAATGTGTATGGTCTTGCTCGTTTGCCTAACCCTCCTGCAAGAATTATTGCTTTCATTATATCACTTAATTCTATTCTGAAACGTGTGTACTAAATAAGTTTTCAATATTTTATATTATTTTTAATTTTATTAGTTAATTTATTTAATATATTTTGTTTTAATGTAATCTCATGCTCTTCATTTGATATTGATAGCATATTGATTGTTGATTTTGATACTTTATATGGATTGTCTTTGTCGTTTATTATCTCATTTATGATTTTATAATTATGTGGTGTAATCTGTTTTGAATTGCAATATTCATTGTAGATTTTTTTTATTAATAATATATTTTCATACCCTAATAATACAAATGCATTCGTAATCATTTTATTTTTTAATAACCAATTGATTTTATTTTTTAATAATTCAATTCTTTTAATGATATATTCTTGTTCATTATCAGATCTGTTTAATAATATTACGTATAGGTTATTTAGTGATTTTAATCGTCTTTCTACAGATGATTTTGTAGTTATTTCTAAGTTTAGCAGTGAATAACAATCATCAATATTAAATTCATGATTTTTGTATTTTAATTGATCCAATAAGTGTGATGGACTAATAATTGTATTGCTTTGAGCTATTATTAATTTAATTAGATTATAGCTTGCAGATAAAATCCAAAATCCTGCATCTTGATAGTATGATTTATCTATTGCATTATTTGCTTTTTCAATTTCATTTGTTAAATCAATATATATTGATTTATTATAACGATTTATTATTGAAGTTCGCTGTTCTATAACGTCATTTAATTTTGTTGATAATCTTAACATATTGTCATGAATTATTATATTATTTAACAAAAAATACGAATCAATATTTCTTAATTCTAAAAATTTTTCATATGTAATATAATTAATATGAATAAAACCCATGTTTTTATCATTGATTATTTCTGAATTTTTATAATTACCAATTTTTAATATATTATATTCACAACAATCGTATGATAATTCAGTTGCTTTACATCCTATTATTAATGCAGAATAATTATTTGTATTATTTATTATTAATTTTGTAAGTGTATTGTATTTATCTTTCGAACTATTCATATCTATAACCTTAATTAACTGAAAATTAACGAATTTCCTTTATATTATTATATATAGAATCTGTAAATTCATCGTAATTATTAGCTTTTTCTAATTTTTCTATACCTATTCCCATACTTGTTGATGTACATGCTATACCTTTTGATACCGACCAAAGCATGTCTTCATTTTTAATATATGAATTAAGAAATACTCCATTTAGTATATCTCCTAATCCTATTGAATCAATTATTTTTATATTAATAATATTTTTTATTATATAAATTTTATTTTTAACAATAAAGTAAACTGTGTTATCATTACTTGTTCCTATAGTTATATTATATTTTCTTGAAATTCTTTTTAATCTATTTAAAAAATATTCTGAATTATCAATCATTTTTGATTCTTCTTCACTAATTTTTATTATATCTGTTTTTGGCAATAAATTTATGTTAAATTTATCTAATTTACATAATCCATTATTGTTAAATTTTCTTAAATATCCTTGAGGATCTAACATTGTTATTTGATCCATTATTTCAATAATATTATTATTTTTAATTTCTATTTCATTTACAATTGGACTGATAAGAATTCCATCATATTTTCTGAAGGATATGTTATTTAAATTAATTTTTTCACATTTACTTTTTAATTTTAATATTTTTTTATTATTTGATTCATTTATTTCAAAACTCGTTGTTTTTTCCTTTGAATTATTTCCAATATTTTGTATATTATTATTTATTAACCATGAATTGTATTCTTGTGGAAAATCATATCCTATTTTTGTATATGCGTCAACATTTGATTTTTCATTTATGCAAACCAGTCCTGAATAGCATGGGGGCCCTCCTATAGATGTTTTTTTAATCTGATTATTTTTTATTTTATCTATTGATATATGTCCAATTATGCAAATATTTGTCAATCTTCTTTTCATTTAATATTCTTATTTCCATAAGATTTATGCATAAGCAGATTCCCTATATTATGTTAAAATGACTAAAAAAAGAAAGAGTGGCGGTAGAGCAAAAGGTGGAAAAGGCTCAACAGGTTCTATTTCTTGTAGTAATTGTGGAACTCTTGTTCCTAAAGATAAAGCCAAGAAAAAAACTGGTCGAGTTACTCTTGTTGAACCTACTTTGGCAAGAGAATTACGTGCAGCTGGTACTTATATAGCAACTCAGAAAACTATAAAATACTATTGTGTTTCATGTGCTGTTCATTATGGATTGGTTAAAGTAAGAGCAAAAGACGATCGACGTAAACGTACAAAATATTAATTTTTATAATTTCTTCATTACTGAAAAAAACCTTTGTGCAGTCGTAATTATAGCAATTATTAAAATAATTAGTATTGCTTCTTCAATTAATAACAAAAAACTACCAATTATTAGAATTAATAATCTTTCTGATCTCTCTCCTATTCCTATTCCTTTTAATGTAATATTTATTGAATCTGCTTTTGCCCTTGAATAGCTCACCATTAATGAAAAAGATAGGGCTCCTAATACGAAAATCGGTTCTGTGTATTCTCCTAGTAGTATTCCTGAAAAAATAAATATTTCTGATATTCTATCAAATGTTGAATCAATAAATGAACCTTTATTTGATACACTATTTGTTATTCTTGCAACAGATCCGTCTAAAATATCAAAAATTCCAGATAAGAGTAAAAATAGCCCTGCAATAATTTCACTTCTAATATTTGTTATAATAAATATATCAAATATTTTTGAATAGTAAATTCCAGATAAAATTGCACACATTAATGCTAAGTTACTGAGCATCATGGGAGAAATTTTTAATTTTGATACAATCATACCTAGTTGATCTACTATTGGTTCAATTCTAGTTCTTAATTTTTCTAACAAGTATTTTGATAATTTGCATTCTCGTTTATTATACCTTTCTAATTCAATACTTTAAATAGCAAAATATGAATAATCAATTGAGATTATTATGGGAAAAATTAGTAAAGGAATTGATTGTTCAATTGATAGTTGTGACACTCTTGCTAAAAGATCGGTTAGTAGAAAAAACCTTGGCTCATCTGATTTTTCGATATCTTCTAATTCTAATCGAGTATATTTATGTTCTGAACATTATAAATCCTGGAAAAAATCTACAAAAGAAACAAGAGAATCTGAAAGAGCAAGATATTAGGTGTAAAAAATGAGAATTCTACTATTGCATTCTGATTATATCGAATATAAAGCAATTAAAAAAGAGATTGATATAGCTGAAGAAACTGTTACAGATTTAAAAAGATATGAGGACGTTGTTGTTTTATTTACCTGCTTAGAATCTCAAGACAATGAGAATACTATTAAAAATTCTCTTTCCGAAATCAAATCTTCACTTGATAATCTTAATTGTAATCGTGTTGTGGTTTACCCATATTCTCACTTGAGTAATGATCTTGCAAATACATCGAAAGCTGTATCGTTATTAAATCAATTCAAGAATAGTTTGTCTGAAGCAGGAAATGAAGTTCAGAGTAGTCCATTTGGATGGAATAAATCATTTGTTATTAGTGTAAAGGGCCACCCTCTTGCAGAACAATTAAAAATAATTACATCAGATGGTGCAGAATCACATCAAAGCGACGCTTTAAGATCTGAAGAACGTTTAGATTCAAAATATATGATAATGTCTACTGACGGAAACACTGAATCCGTAGAGAAATTTAATTATAATAATTTCAAAAATCTTAATGCATTGCAGAAATATGAATTAAACAAGTCTCGAATTGTTACATCTCATCCTCCTCATGTCGAACTAATGAAAAAATTATCTTTGGTTGACTATGAACCAGGTTCCGATTCTGGCAATTTACGTTTTTATCCTAAGGGAAGATTCATTAAATCTTTGTTGGAAAAATACGTTACATTCAAAGTTAAAAAATATGGCGCATTGGAAGTAGAAACTCCAATTATGTACGATTCTAATCATCCTAGCCTTGCCAGTTACCTGAATCGTTTTCCAGCAAGACAGTATATAGTTAATTCTGATAATAAAGAACTATTTTTAAGATTTAGTGCATGTTTTGGACAATTCCTGATGCTTCATGATTCGATTATATCTCATAAACAGTTGCCTGTTAAATTATACGAACTTACTCGTTATAGTTTTCGTCGTGAAAAATCTGGTGAATTGGTCGGTCTCAGACGATTACGTGCTTTTACAATGCCTGATTGTCATGCATTATGCAGAAACATTGAAGAATCTAAGACCGAAATATTAAAAAGATTTAATCTGTCTCGAGAAGTTCTTCAGGGAATAGGTTTTAATCAAGATGATTACGAATTAGCAATTCGAGTCACTCAAGATTTCTATGACGAGAATATTAATTTCATTAAACAAATCGTTAAAGATTGGAATCGACCTACCTTTATTGAAATCTGGCCTGAGAAATTCTTCTATTTCATATTCAAATGGGAATTCAACTTCATTGATAATCTGGGTAAGGCTTCTGCTCTTGCTACTGATCAAATTGATGTTGAAAATGCTGAAAGATATGGAATTACTTTTGTCGATGAAAATGGCGACAAGAAGACTCCGATTATCTTACACAATTCTCCAAGTGGAGCTATAGAAAGATGTTTGTATGCTTTATTAGAAAAAGCAGCAAAGGTGCAAAGGGAAGGTAAAATTCCTTCTATTCCATTCTGGCTCTGTCCAACGCAGATTCGTATAATTCCGTTATCGCAAGATTTTCATGACGTTTCATTGGGTTACCTTGAAGAGTTATTCCGCTCTGGTTTTAGGGTTGATTTTGACGACCGTGATCTCTCTGTCGGCAAAAAGGTTCGTGAAGCCGAAAAAGAATGGTTGCCGTTCATACTTGTTGTCGGTAAAAATGAAGTGGAAAGTAAAAAATTCCAAGTTCGCGATAGATATTCTGGCGAAATGGTCGTAATGCCCTTGTCTGAACTGATCGAACATTGCAAAAAACTATCGAACGGAATGATAACCGACGAACTTCCTCTCTCACAATTTATCTCAGATAGGCTTCAGTTCAAATAAGTTTTGTACAATTTATAATATATTTAAATTTAAAACGGAAAAACAAAAGTAGAAATTAGTATTTATCTGCAACGCAAATTAGTTCCGACAGTAGTCTTGCTGCCAAAGCTGACGTCGAACCGTTGTCGTATGCTGGTATTAGCTCGACAATGTCGAACCCTGTTATCTTGAAATTATCCAGACAATAAATGAATTCCAGTATTTCCCTGCTCGACATGCCGTTTGCTTCTGGGTTTCCTACTCCTGGTGCAAACGCTGGATCAATTACGTCCAAATCGATGCTGACGTATACATCGTTTGAACTACTTAGTGTATCTTTGAATTGTTTTAATCCTGTATTTAAATTATAGATCTTTTCCATGTCGATTATTGTTATGTCGTCTTTGTTCACAAAATCCCATTCGTCTTTTGTTGCTGCCCTTGAACCAATGTGTACAAGATTTGATATACATCCATCCTCATACAATCTCCTGAGAAAAGTCGCATGACTTAGTTTTAATCCTTCGAATTCATCTCTGAAATCTAGGTGTGCATCAAAGACTACTAAGGAACAGTTGTTGATAGCTCTAATGGACCCATTAGTTAATGAATGGTCTCCACCTAATATCGCAGGAATCTTACCATCAGCAATAATCTCTCTTGTAACTTCTTCTACCATTTTGTTCATCTTGTTGATGTCTCCGACTTTAGCTAAATTGCCTAGATCTCTAATATTGATATCCTCCAAGTCCTTTTCTAATCTCTTTGAATAAATCTCAATGTTCTGGAAAGCTTCCCGAATTACATTTGGAGCAAATCTAGAGCCAATTCTGTATGTAGAGGTTGCGTCAAACGGCACTCCGAAAACATCTATTTTGTTATCTCCGCTGTTGGTCAGGTTTGTAATCAATGACTCATTTGATATGTAAAGATCTCTCTTGCTCATTTCTTATCCAATCTCTCAATCAATGCTGACGCAATTAAAGGAAATGCTAATGTGACTTCGGATACTACAACAATTTTGTTTCCATCTGGTTTGATTTTTCCCCAAGACACTGCTTCTTCTGGAGGCGCTCCTGATAATCCTCCTGTTTCAGGACGGTCTAGTGTTATTTGTATTACGTTGTCCAACATCTTGTTTGCAAAATAGAACGACTGAAATACGAAATTCTTGGGAACTCCACCTCCTAATATTATTGCTCCTGATTTCTCTTCATTTGTTCTTATGTCCCAGATGTCTTGTAGATCTTTGAATACGTCTACATTTAGTTTTCCTGGATTCTTTCTATTGTAAATTGCTGCTTGTAACCCAAATACTGAGTCATGTATTGTTGGAACGAATAATTTGACATTGTTTTTGTAACATGCTTTTAATATTGATTCAGGTTCATTTGGGATTCTTTGCGCAATTTTATTTATCAGTTCTGATATTGATAATATTTTTTCTTCATTATTTCTTGCAATATCATCATATAATTCTAATAATGGTTCATCAAACTTTGATTGAAAATCGTCTTCAGAAACTAATACGTCATAAATCCTGTCTATCTTCTTCTCAAGTAATACATCATCTTTCATATTTGCATCTCCTTTGTAAAAATTGCCACCATATGCTAACATCATGTCATGAACTAGGTTTGCTCCTGTTGTTACAATCGAATTGATAAATCCTCTTTCAATTAATTCTATAATTATTTTGTTCATGCCTGCTGGAACAAGTGCACCAGAAAGTGTTAGGAATATGTATGAATTTGTTTTTACCATCTCTTCATATGTGTCTACTGCTTTCGCAAGCATACCTGACATAAATGAACCTGATTTACTCATTTCATTGACTAGTTGATTGGTTGTCATTCCTGGCCATATTTTCATTGGTTCTACTTTTCCTGTATGAAAAGTATGTTTTTCCATGATTAATCATTAATATTGAGTATATAAAAAATCTATCATGTTTTAATTTATTTATCAGAATTATTCCAAAATAAATCTTCAAGCTTTGTAATTCCTAATATATCGTTGAATGTATATCCTAACGGTTCTAATAATTGATCAAAAGTACTTTTCATAATTTCTTCATATTTTTTTTTATCAATTTCTCTTATTTTTGCTAATTCCAAAGGTTTTACGCCTGCTCCTCCTTTGGTTTTTACAAATGAAATAATATCTCCTGCTTTCATCGAATCAATTTCTCCTTTTTCTCTATTGTGTTCTTCTAATAATTTTGCTGCTCGTATATGTTGTGGAATTGTCGATTTATACATATTAGTTGATTTACTCATCATCATTCGGAATGCTAATTTCTCAATTGGTACATTATCTTCTTTTAATTGTTTGTTGCTTTTTTTTGCAATTTCTTTTATGTCACTTCTGACTTTTTTAAAATCTTCTTCCGTTTTTGCTTCACCTAATTTTTCTATTGCGGAATAAAAAGATTCTTTTATAAATATTGGAATATGACTTTTTTTTCCAGTGAGTCCTTTAATTATTACTTGACCATCATTTTTAACAACAATATAATTTTTCTTTCTTTCTGAGAATACTGCATATCTATATTTATCTTCTAATTCTAGATCTACTCCTTGATTTTCTTGTGACCATTTTATTAAATTATCTATTTTGTTTTGATCTATTGATTTAATGAATAATGAATCTGTATCTCCATATAATACCTCGATATTATTATTTTTTGCTGCTTCTACTGTCTCAGAAATTATATTTCTTCCAATTGCTGCTGTTGAATCAGCGACTGGTAAAAAAAATAATGGAAAAATTGGGGCTCCTAATACTCCATAACTTGCGTTTAAAATGACCTTTAACGCTTGTGACACGACTGAATATAGATTTTTTTCATCAGATGATAGTTCTGACATTTTTGGCAATTGTTTGTAATAGTTAACTCTGATGTCTCTTAGAGAACCGACTAATAATGATATTATTCCTCTTTTTTTATTACAAATCCAATGTTTACTTCCTTTAATTAAATTTGTCTCGTGTTCTTTATGCCTACATCTTACTGTTTCATAAGATAAATTATTGACTTTTATTATACTAGGATATAGACTAGCAAAATCCAGTGCTGATACTCCGAAATGAACTCCTATTTTTGGTTCTAAAACCATTCCGCCTTGATATTGTTTTCCTTCGATTACTGCCTCAGAAGTCATTTCCTTTAATTCATCTTCATCAATTGCCAAGTCATCTTTACGTGGTATTAGCGCATTTATTTTTCTATGTTCGAAATACACCATACTTCTAATCCAATTCGACACTCCTATTCTAGACAGATCATCAATAGGCATCTTTGTAATTCTTGAAATAACAAGCAATAATTTCATTAATAGATCTCCATCAAAACTTGTTAATTCCAATGTAATTCGAGCGTCATTATGATTATATTTTGCAAGATCATAATTTGTCAAGTCGCCTATTTCTCCTTCGAATTCAATCTTAGTTTTCCCAATTATCGCAGAACTGACTGCATTCAAAGTATGTTCAGAATATTTATTTCCAAATGCATAAATTTGAATTGATCTATTCCTAAACGTTCTATACAAATCTAAATGTATTCCACGCTTTAGATTTGCATTAATTCGTCCTAATTGTATTGGTATTTCATCCTTTTCAATTCCTGACTTTATGGCTCTGTTGTAGATATATTTCAAATCAAAATCATCTCCATTATATGTTATAACACAAGGATACTTGTTTATCACATTGAAGATATTACTAATCAGTTCCTTCTCATTATCTACAAAGATGATTTCTACGTCTTTATCTAATTCATTAGTTCCTGGTTTTATTCCATCTCTACGCAGAATACACACCTGATTAAAATTATCACTTGATGCAAATCCAACAGAAATTATTGGATATCTTGCTTCATCTGCCTTTGGAAATCTATCTGTCTTGTCAGAATGTACTTCAATATCCAATGCTACACGTTTTATATTGGGTAAAGGCTGGCTAAGTAATTCCGCCCATTCATTAATTTTTTCTTTTATTTCATTATCAATATTTTCTGTTCCTTTTTGTAACATTTGATTGGTTTTTTTCGGTATTGAAAATTTATCTGGTATTATTTTATCATCTTTTATTCTATAATATATTCCGGGTATTAATGATTTATCATACATGTATGTTTCATAATATTTTATATCTGCTTCCCAAGCAGTTACTCTATCTCTAATACTTCTTCCTGGCATTCCTCCTATTATTAACGGATTGTCAGCAATAATTTTCAACATTTTTTCTTCTTTGTCATTTAACAAGTCAATTTTCGTTATTTCTTTAATGTCAATTTTATCTTCTTTTTTAAATTTGTCAAGAAGATCTTTATCAGTATCTTTTTTGACTAAACAATATGGTTTGTGTTCTGAATTATCATACCACAATTTTATACTATTTGTTTTTTCATCATAGAATTTTAAACATGCTTTTTTTCCTGAACCATCATATGACGCTGATAATAATATCATACTATCATTTTTTAATTGTTCACTCATCTGTAATCTTATATATTAATGGTGATATAAAGAAATATTAATAATTAATTGGATGCTTGTTAAGATGAAATATATTACAATATTATTTGCACTGCTTGGATTATATTGGACTATTTCTAGTTTGACTCAACAAGGAATTCCTTTGTTAATTATTCCTGGAATTCTTTGTTTATTCATGTCCATTTCATTAAATATATCTGAGTTTAACCGATTTTCTAATAAATTATTATTTCCTTTGTTATTGTATAATCTTGTTCTTACTTTCTATCAGTCCTACGCATCATTAACCGTCTTATCTTCTCGTTTTATTACGTTAGAAATTGGTATATTTGTTCTAAATTTTGTTTTTACTTTACTTCTTACTTATGTTCTATTACAATCATTTCGTAAAAGTAACCGCATAGATATATCTTAAATAATTTTATATACTCAAATCATGATATGGATATAGAAAAAAAAATTGAGTTGGTCAAACGACCTCCTACTGAAGAATTAATCCAAGAAGATGATTTAAAAACTCTATTCGAAACTAATAATTCTCCCAAACATTATATTGGAATTGAATTATCTGGTATTTTGCATTTAGGAAGTCTTCTTATAACTGGTTTTAAAATTAATGATTTTATAAAAGCTGGTATTAAATCATCTGTTTATCTTGCTGATTGGCACAGTTTTATCAATAATAAATTTAATGGTAATTGGGATGAGATAGAACAAGTTACAAAATATTACGAAGAAGCATTCAAATTCTTTTGTCCAAATGTTAACATTGTTACTAGCAAAGAATTATATCATAATAATGACGAATATTGGAAGAATTTTATTAAGTTCTCTAAACATATGACTTTGTCTAGAGCTGTTAGATGTTTAACTATAATGGGAAGAACTGAGAAAGAACAATTAGACCTCTCACAATATCTATACCCATCAATGCAGGCAGTTGATATTAAAGAACTTGATCTTGATATAGTACATTCTGGAACTGATCAACGTAAAATACATATGCTTGTTAGAGAGATATTTCCAAAAATGAAATGGAAAGTTCCCGTAGCAGTACATCAGCATCTTATTCCTGGATTAGCAAATAATAATAAATTATCACAAAAGGAAAATTATAAAATATTTAATAAAATGAGTAAATCAAACCCAAAGAACTCCATTTTTATCCATGATTCAGAAGAAGAAATTATTTCTAAACTTAAAGATGCTTGGTGTCAAGAAGGTATAATAAAAAACAATCCTGTTTTAGATTATACTAAATCTATAATATTTCATGAATTTAATTCATTTACAATTAATAGATCAAGTAAATATGGAGGCGATATCTCATTTTCTAATTATGAAGAACTCGAATCTGAGTTTAAAAATGGTAAGATTCATCCTCTTGATTTAAAATTAGCAGTAGGTAATAAAATTAATGAGATTGTTGAGCCCATTCGTGCTTATTTTTCAAATAAAAAAGACTTATTTTCATCTCTTTGAAAAATGTTATAATAATCAGTTGCTGTAATTATTATCAGGGATATTCAAAATGTTATCATCAATAAACAATATAATTACTCAATATCCTATATTGTCTAATGTTCTTCCTCTTATTACACTACTAATTGTTTCATATTTATCACTTCAGATTACAAGAAGAATATTAATTCGCATTGTATTTCCACAAATAAAAAAATCTAAAACAAGTATTGATGATATATTAGTTAAAAATCATTTATTTTTAAGAATATCTTATTTAATTCCAATTCTTATTGTAAATAATTTTGCATATATTATTGCCAATAATACTCCAATAGGAATTTTTACTGTTAAACTTGTTATTAACATCTTAACTGTATTAATATTTTCCCGGATAATTGATTCAGTCTTATCATCTATTACAGAAGTTTATTCAAAACGATATGAACAAATACCATTAAAAAGTTACATACAAATAGTAAAAATTTTTATTTTAATATTATCTGGTTTACTAATTATTTCAATTTTATCTGGCATATCCCCGTGGGCATTACTTGGAAGCATTGGTGCAATAAGTGCTGTTTTACTTCTCATTTTTCGAGATACTATTCTTTCATTACTGGCAAATCTACAAATCACATCGAACAAACTTCTACAGCTTAATGATTGGGTAGAAGCCCCTGCATTTGGAGCAGATGGAGACGTTATTGAAATCGCTTTGCATACAATTAAAGTTCAAAATTGGGATAAAACAATAACTGTTATTCCTACTCACAAGCTTATTGACTCTTCTTTTAAAAATTGGAAGGGTATGCAACGAAGTGGCGGAAGAAGGATAAAACGCGCAATAAATATTGATATTACTTCAATAAAATTCTGTGATGAATCAATGTTATCTAAATATGAAAAAATTGATTTATTGTCTAGTTATTTAAAAGAAAAAAAGAAATCCTTAATTCAATCAAATAAAAATAAAACATATAGTAGAGATTCATCATCTATTCTTAATTCTAGACAATTGACTAATATTGGTACTTTTCGCGCATATATTGTATCGTATTTAAAAAATCATGAGAAAATCAGACAAGATATGACCTTTTTAATAAGGCAATTAAATCCATCTGAAAGTGGCGTTCCAATTGAAATTTATGTATTTGCTAATGACAATGATTGGGTTAATTACGAAAATATCCAATCTGATATCTTTGATCATCTTGTCGCCGCTACATCTTACTTCGATCTTAGAATATTTCAAAATCCAACTGGCCATGATTTAAACAAACTTGTTAAAAATTAGGTAATTTCTAATGAATCGAAAAATTTCAGTAAATGAACCATTATTTGATAAAAACGAAATTAATATTGTTCAAGAAATTATTCAAAGTGGCCATTTGAGTAGTTCTAATCTATATGGCGGAAAATATGTAAAAATATTTGAAAAACAAATTGCACAATATCTTGATGTTAAATATGCAGTCGCAATTAATTCAGGAACTTCTGCATTATATTCTTCACTTCTCTCATTGAATATCAAATCTGGTGACGAAGTAATTATTCCATCATTTAGTTTTACTGCTACTGCAAGTGCTGTTGTAGCAACTGGCGCAAAACCTGTATTTGTAGACATTTTTGAACCGTCTAACGCTGAATTATTTCCTTATACTATTGATCCTTCTAAAATCAAATCAAATATAACTGAAAAAACTAAGGCAATAATTCCTGTTCATTTATATGGTTGCCCTGCTGATATTGATTCTATTTCTGAAATTGCTTCTCCTAATCAAATTCCAATTATTGAAGATGGGGCACAATCTCTTGGTTCTTCTTATAAAGGAAATAAATGTGGAATTCTAGGTAATCTTGGATGTACAAGTCTTTATCCTACTAAAGTTATTACTTCTGGAGAAGGCGGTGTGATTACTACTGATGATGAAACACTGTATAATGAATTAATGAGAATTCGTAATCATGGTCTTGATGAATCTGGGCAAACTACTCGATTTGGATTAAATTTAAGAATGCCTGAAATAGAAGCAGCTATTGCATCTATTCAATTAAGTAAACTTGACGATTTCATTCGAATTAGAAGAAAAAATTCTGACATTCTCTCAGATACAATTGAAATGAGACAATCAGGCAGGTTACCTGAAGAGTTGGACCCAGTAAGTGTTCGTAATTGGTATTTGTATACTATCACTCTTGATCCAGGAAAGTATGGCAGTGTTCGACGATCAAAAATTATGGAATATTTAGCAAAACATGATATTAATACTGCAATATATTATCGCACACCTATCCATAAAATGCCATATTACCAGAATCTTGTTGGTAGTTGCAATCTACCAAATACTGATTATGCATCTTCTACAGTTCTATCCATTCCTAATCATCATGGATTATCTGAAGATGACATTCTATATATTGGAGAAAAATTTAATGATGCTTTTAATACAGTCTGATGTATTATGAATGTATCAATTATCATTCCAACTTATAATGAGAAAGAAAACATTGTAATTTTAACTAATAAACTAACTGAAATATTCAAGAATTCTCAACATAATCTGAAAATTATTGTCGTAGATGATAATAGTCCTGACGGAACATCTTCTGTAGTAAAAAAACTCGATTTATTCGAAAAATCAATATTTTTAATCACACGACAAAAAAAACTTGGATTAGGTTCTGCATATCAAGTTGGATATAAACACTGTAAAGAAAATAATTCAGATTGTGTTATTCAAATGGACGCCGACCTCTCACATCCTCCTGAATTATCATTAAATTTATTGAATTCAATACTTGAAGGCAACGATGTTGCTATTGCATCTCGCTATATTGATAATGGCGGTATTAGCTCTTGGCCTATTCATCGAAAAATAATTAGTTTTAGCGCAAATTTACTTGTTCGTATTTTATTACGTTCAAAATTAAATGATAATACAACCGGATATAGAGCATTTAATAAGAAAACTATTGATTTATTAATTCAATATGATATTAAATCAAATGGATTCTCATATCTTATTGAATCAGTTTATTTATTTCATCAAAAAAAATTAAAAATACAAGAAATTCCGTTTGTTTTTCGCGAACGAAGTTTTGGCAAAACTAAACTTTCTTCATTTGAAATTTTTCGTTTTCTTTTGTCAATATTTCATATTTTAATATTTGGAATTACTGAAAAAATTGATTAAACCAAAAAAATTATATGCTATTAGTTGATTAATAAACTCATTAAATTGGAATATGACTCAGATAATGTTTTTAGTGGATTAATTTATGAGTGTGTACGATGCGGTACACCTGTTACTACTGAAGATCTTGCTTTACTGCCTGAAATCAAATGTATATGTGGGTATCGAATATTGAAAAAAAGGCGCCCATCTGTCATAAAACAGCTTAAATCAATATAATATTCGTCATTTGATTAATAATTGCAATATTTTCTGTAGGTTTTTATAACTTTAAATTATTATTCATTCCTAACTATGAAAAGTTCTACTTCTGTTTATATCTCAGGGTATGGAGGTTATGTTCCTAAATTAAGACTTCCAACTTCTGAAATTGCCAAATTATGGAAAGGTGGAGGCTCTGGACCTAATAAAGCAAAAAGTGTTGCTAATATTGATGAAGATACAACAACAATGGCAGTAGAATCTGCACGTAACGCATTGTTAATGTCTGGCGCTTGTGATATTGGCGCTATTTTTGTTGGTACTGAGTCTAAGCCATATGCAGTTAAACCAACTAGTACAATTGTTGCACAAGCATTAGGAGTAAATAAAACTCTAGCTGCTGATTTTGAATTTGCGTGCAAAGCAGGAACTGAAGCTATGCAAGTTATAACAGGATTAATTGGTTCTGGAATGATAAATAATGGCATTGCTTTAGGTGTAGATACTGCACAAGGGAGACCCGGTGATAATTTAGAATATACTGCAGGTAGTGCGGCCGCAGCATTTATTTTGTCAAATAGTTCTGAAAATAGCATTGCAAAAATTGAAGATAGTATTTCATATGTAACTGATACAAGCGATTTTTGGAGAAGGCAAACTGAATCATTTCCACAACATTTATCAAGATTTACTGGTGAACCTGCATATTTTCATCATGTAGAATCTTCTGTAAAATTATTGTTAGAAGAAACAGATTCTAAACCTTCTGATTTTAAATATGCAATTTTTCATCAACCAAATCCTAAATTTCCGGTTGAAGTTGCAAAACGTCTTGGTTTTACATATGAACAACTTGAACCTGGTTTATTGAATCCAGAAATTGGAAATCCTTACTCTGCAAGTTCACCTTTGGGTTTCATTGCAACTCTTGATGTTGCTACACCGGGCGATAAAATATTATTAGCTTCTTTTGGTTCAGGAGCAGGTAGTGACGCTTTTTCATTTATGGTTGAGGATGGAATATTAGAAAAAAGAAAAAATATTATTCCATTGCAAACACAAATAAATGATAATATTGAAATTAATTATGCTACATATACAAAAATTCGAGGAATTCTTAAGAAATAATTTTTTTGGCGGATTATAATGTCAATCAATATTTCAGGAACTGGACTTACTAAAATTACTGAACATTGGTCTAAATCAATAATTGATCTTGCTGTAGATTCTGCTAAACAAGCTATTTCTGAATCTAATTCCTCACCCGATATGATTATTATTGGAAATATGTTATCATCTTATTCATCAAATCAGGAAAATCTTGCCGCAATTATATCTGAAAAACTTGGTATTTCTAATATTACTACTTTTAAAGTTGAATCATCGTCATGTTCTGGCGCTATGTCAGTTCATATTGCAAATAATATTTTAAAATCAAACGATCTTGATTCAATATTGGTTATTGGTGTTGAAAAAATGACTGATTTATCTCCATCACAAATAATAAAAGCTAATTCTTTGGGAGAAAGTTCTGAATATATACAATTCTTTGGAATTACAATGAATTCAATATATGCATTATTTTCAAAATTATATATGGACCATTATAATGTTAAAAAAGAGGATTTATCATATTTTCCTGTACTTTCACATAAAAATTCTGTTTTATGTAAACATGCTCAATTTAATCGTGAATTTTCTATAGAATCAATTTCTAAAGCTTCAACTATTTCATCGCCTCTTGGATTACTAGATTGTTCTCCTATTGGGGATGGCGCAGCTTCTATAGTTTTATCTAAAAAAAATACTTCGAATTTTGATAATGTTAATATTCTTTCTTCAGTTTCATCAAATTCATCTATTAACTTTTTTGAAAGAGAAAATATGTTAAAGTTTTATTCAACTGAGGATTGTTTAAATAAATCATTAAACGAATCAAAAATTAAATTATCTGATATTGATTTATTAGAAATTCATGATGTAGTGCCAGCAATTACTGCAAATATATTAGAAACATTGGGATTTTCAAAAAATGGAAAGGCTGCATCTGATATTGCTTCTGGTAAATATAAATTAAATTCAAAACCATCTCTTTCTACATCTGGCGGATTGAAAGCACGTGGGAATCCTCTTTCTGCTACTGGTATATATCAAATTATTGAAATTACAAGACAACTTCAAAATAGATCTCATGTTAATATTGACGATACAAAAATTGGATTATCCCATAATATGGCAGGTATTGATTCAAATACTGTCGTTCACATTTTAGGAGCTGTTAACTAATATGTCTATTTCATATTGGCGATTGAGGGATAGATATTATAGAATTATCGGTTCAATTTGTAATTCATGTGATTTTGTCTCATTTCCTAAATTTTATTCATGCCCAAAATGTCATTCTGTAAATATTGCCGATAAAGAAATGCCTCGTACAGGAAAATTATTGTCTTATACTATTTCTTATGAAGCAATGCCAGGATTCGAAGCTGAATTACCTATGATTATTGGTTTGATTAAATTAGATAACGGTGTTAATATAATCGCTCAAATAATTGATTCAAATATTGACGACATTCAAATCAATGTTCGAGTAAAGTCTATGTTTAGAAAAATTAATTCTGATGGCAGTTCTGGACAAATTTACTATGGTTATAAGTTTAAAGTTTTAAATAAGGGAGTGTAGGGCAGATCTAAAAGAAAGGGGGGAGTTAATATCTACCCTCTCCCAACTCGACAATAATTATACTATATAATTTCGTTACAAGCTATAGTAACAAAAAATATTGACAAACATATACGAATATTTTAATCAATTTCTAATCTGAATTAGATTATCCGATTAATTATTAATAAAATAATAGATAAGATAATTATTATGTTCAAGATTAAGGTTATTATCATATTTCTATTATTTTTATCAATAAATTCTCCTATTGTATTGACACTTGCATATAATAACATTCCCATTGATAATGAAATTAAAACTATTGTAATATTTTTTATATAATAATATGAAAATATTGATATTAATAATAAAATTACAATCATTATTTCAGCTATGATGTGAGACTTGATATACGAATTACTTATTTTTGAATTTAATAAATAATTAATCCAATATAATGTAATAGATATAGACACAATAAAAAAATATAATAAATAAATTTCAGATATCATTTAATTTCCTTCTCTGATAATTTAATTATTTTATCCCAATACTTTTTTTCTACTGGCATTACAGAAAGTCTTGGTATTCTTACTAGTTCAAATTTCTCGAACATTTTTAGCGATTTAATTTTTTTTAATTCCACAGGGTTTTTTAGTTTTTTTATTGGTTTAATATTAAAAACAACAAATTTTTCATTATTGTGTTTTGGATCTTTATATGGACTTTTTATTACTTTTACTATTTCAATTATTGATTTTTCTGTTCCTGAATGATAATAAAATACTTTATCATTTTTTGTAATTTTTCTTATATTTTTTAGCGCAAGATTATTTCTTACTCCGTCCCAAATTGTTGTTTTATCATTAATTAAATCAAAAAAAGAATATTTTGTAGGTTCTTCTTTTATTAGCCAGTATTTTTCGTTCATTAATTTCTTTATAGTGTAAATGGTCAATTTTAGTTTTTTTTATTTATTTTACTAATAATTAGTGATAAATTATTATTACTTTTTCTCTTAATAATATTAATTTATCATAAAATTGCTATCTTTTTATACTAAAAGATAGACATTCCGGCCTAATGAACCAAAAACATTGGGGAGTAATTCTAGCAGTGCTATTCTTTAGTATCCTGCTACTCTCATCTATTTTTACAGTTCAGTCTCCTATACAACGTGTAGAGGCTCAATCGTTAAGTAGATGGGAAAGAAATTGGGAATACCATAACGCAGATCCTATGGGAACTAACTATAATCCACAAACACAAATTAATTCAGGCAATGTTGAACATCTTGAGTTAAAGTGGATGTATCCTATTCCTTCATCAACAGATGTTGGTGCAAATGAAATAGGAGGTTTCGGTAGTATTGAAGGCAGTATGGCTGTTCCATTAGTAATTGACGGAAACGTCTTTCTCGTCTTAAATCGTAAGACCGTAATTGCAGTTGATGCAGCTACTGGTTCTGCAGCTTGGGAAGCCGCATATGTTACTGAAGCAGACAATGCAATTAACGCAGTAACCGAAGGTGGTAGATTACCTATTACAGCAGAAGTTTCACATACACATGCAATGCATTACATTGCTGAAGTTGGTGGCGGAACTTTATGGTTTACAGACTTTGGTTGTAAAGCAACAGGAATCAGAGCATCCGATGGCTCACACTACAAATCATTTGATGAGTTGTGTTTAGAAATTCCAATTGATAGCCCTCTAGGAAAGGGTATTCCAGGTAACAGCGGTTACTTTGGAAGTCTTCAACCTCATCCTGCACAATTCTTACACAGTAAGAATTTATTCTTCTACTCACAAGGTGGAGCAGGTGAAGGTACTTGGGGTGGCCGAAACTATTTAGCTGGTCATGATGCAACAACCGGCGATGTCGTATGGAGAACATATTTAATGCCTCCTTGTGGCGATCCTGACAGTTTACAAAAAACTGAAGTAGCATGTGATCCACTCTTTGAACAAGAAAAAACTGAGTGGGGTAATTGGCTAGTCGCTAACTGTGATAAATGGTGGATTCAAGCAAAACAGAATTATAAAACAAACGAACCAAACACAGTTGACAAACCTTATGCAATTAAATCATGTGATATGAATCAAGATATCCTCAGAAATGACTGGGGTAAGATGGTAGGAAACAGTGGTATAAGCAACATTTGGGGACAGTTGGTAGTTGACCAAGAAGACGAAATGCTCGTCGCCGGTACTGCTCAACCAGGTCCTGACTGGAATGCTACATTTAGACCAGGTCCAAACCTATTTGCTGCAGCAATACTCAAACTTGATGCAACCAATGGCGAAATTCAATGGGCTTATCAAACTACTGTAAGAGATCCATGGGACTATGATTGTTCCTGGAACACTATTCTAGCCAAAGATATAACTATAAGTGGTCAAATTAGAGACGTAGTAATCAAAGGATGTAAGAACGGTAGAGTTCATATTCTTGATTATATGACTGGCGAACCACTTCATGTATTCCAATCACCAAATCAAAGACGAACACCATTCGCTGAATTGTTGGATCCATTGAATGATGTTGAAATGGTACGATCAGTAGCTAATCAATGTGATGCAGCACAAACAAAGTATGCATCTACATGTGCAAACGACGGACCATTCTATCTAAACTGCCCTGCAGTTGGATGTCTAGAATCTGACATAGCATATAACCGAGATCTCAATATGATTTTCTGGTCTACATTCAATGAACCAAGATGGATTCAAGCAAGAGATGCTATAGGACCATGTTCAGTATGTGGTGGAGCACAAGATTTCCCTGCACCATTTGAAGCAGCAATTAATGCTACAGTTCATGCAACTGACGCAAATACAGGTGAATTGGTATGGACATACTTCATCGACAATAGAGGATTCCGTGGTGGTACAATATCCACTGCAGATCTTGTATTCTTCTCAGGAGTTGACGGAGTTTCACGTGCACTTCATGCAGAAACAGGTCAAGTCTTACATGAATTCAACATTGGTCAAGCATCAGTCGTACAACCAAGTATTGGAGCTGATAGTAACGGAAACGTAAAATTATTCCGAACTGTTGGTGGCGCTAATTGGTTTGGCTTTGGAAACTTAGGAGTTGACGTAACCCCTGGTGCAATATTTGCATTCGGTCTACCTGATTCAATTCCAGAACCTCCAGCACCAGTAATACAAGAAGTTGAAGTCGAAGTAATCAAAGAAGTTGAAGTCGAAGTAATCAAAGAAGTCGAAGTCGAAGTAGAATCAATTAGTCCAATTTCATATGTTATAATTGGATTAGGCGTAGTTCTAGTCGTTGTCTCCGGCGTACTTTACTCACGAACTCGATCCGCATAATAAAATAAGTTGCCTTCGGGCAACTTACAATTTTTTTTAATATAACAAAAAATATTCTTTTACTTAATTATTTGATATTTATATAATCATTTTATTATAGATAAGTCAGATTTATTATATGAAATATATAGCTCTTGATTTTGACGGAACGCTCACGGACGAAAACCATGTAGTAGATTTAGACGCACTTTGGTCTGCTACGATGATACAGAGAATGGGTATAGATATATTCATGGTAAGTGGACGAACTGCATATGAGATGTATTTTTTAGCAAAACATACTGGATTAAAATCAATAGTTGTTGGAGAAAATGGCGGTGTAGTTATTGAAAATTCGCCTGCGAGTATTATAAAACTTGCTGATAAAACAATTCCATTAAAAGCATTTGAATTAATTTCAAAAGAAATAGAAGAAGTTGAAGAATTAATAACAATTCCAAGATTAACTGAAGTAGTATTGAAAAGAACATTTGATTTAGATAAAGCTGTTAATATAGTAAAAAAAGAAAACCTTAATGTTGACTTGACTGATAGTAAATATTCTTATCATATAACAGAAAAGGGAATTAATAAAGCAACAGGATTTAAATATATTATAAAAAAATTAAATATTAATCCAGATGATTGTATAGCAATAGGTGATAGCGACACAGATATACCATTATTTGATTTTTGTGGATATTCTATTACAATGAATCATGTAGAAGATCAAGTGAAGGAAAAAGCCAAATATGTTACAAAAAATAATAGAGCAAAGGGAGCAATTGAAGCATTTAGCTACATAGCAGATAAATTTCTTAAAAAGAATATAGATGATATATAGATTGATATTAAGAAAGTATAAATTAACAATTAAGGACGAGGTAGATAGAGTTCTAGAAAAGATTGATTATCCAAAAATCGATTATCAGATTAAGGAAACAACAAACAATAAGTTTGGTGAACTTTACACAAATATTCCTTTTATGTTGTCTAAATTACTGAAACAAAATCCTATGGATTTAGCAAATAATATTCAAAAAAACATAGAATTTAATGAATCAATAACTGCTGATGTATCAAAACCCGGATACTTGAATTTTAGGATCAATTATAAAAAATTGTGTTATGAAACACTTGCAAAAAGTAATGATGATATTAATAAATTAATGAATATAGGGAATAATGAAAAAATAATACTCGAGCACACAAGTGTAAACCCAAACAAAGCATTACACATAGGACATGCAAGAAATCTATTCATAGGCGACACGTTAGCAAGAATGTTGAGATATGTAGGTTACAATTTAACGATTATGAACTATATTGATGATTCAGGATTACAGGTTGCAGATATAATTGTTGGATTAAAATATGCAGGGTTCAATGAACAACCAGAAAATGGAAAAAAATTTGACGAATATGCAGGAGATGATATTTATGTCAAAGTAAATGAATTGTATGAAACAAATAAAGAATTAATTGAAAAAAGAAAATTTATAATGAAAGAACTAGAAAGTAAATCCGAAATAAGTAAATATGCAAAAAAAATTACCAATACAATATTAAAAAATCAATTAGAAACAGCAAAAAGATTGGGTGCAAAATATGATTTATTAGTACGTGAGTCTGATATTATTTTTTCAGGTGGATGGAACGAAATCTTTGAAAAAATGAAAAAAAATAAAATTATAGAATTTAAAAAAGAAGGAAAATTAAGTGGCGCATGGATAATTAAAACATCATTTAAAAATGAAACTGATAAAGTAATTATTAGAAGTGATGGAACATTTACATATATTGCAAAAGATATTGTTTTAGCCGCATGGAAAATTGGTATATTAGATGAAATTTTTAATTATAAATTATTTGATAAAGAAAATAATAATAAATTACTAACTACAACACAAGATAATAATTCAAATACAATTTCATTTAATAATAATTTAAGAGCGATTACAATAATTGATTCAAGACAAAGTAGATTACAAAAAATAATTAAGGAAATATTAAATAAATTTAATAATACTAACGATAAGGTTTATGAACATTTAAGTTATGAAGTTGTTGCATTAAGTAAAAATACTGCAGATGTTTTAGGATTAGAAACTGAAAATAAAAAAATTGTACAAATGTCAGGAAGAAAAGGAATGTATATTAATGTAGATACTGTATTAGATAAAATTAAAGCAAGAGTATTTGAAGAAACAAAATTAAAAAATCCTACTGAATCAAATCAATGGATTACTAATACATCAGAAAAAATTGCTATTGCAGCATTTAGATATGAATTATTAAAAAGTGATTTAGATAAAATTATAGTATTTGATTTAAACAATTCATTAAAATTAGATGGAGAAACAGGCCCATACTTATTATATACCTTTGCAAGAGCATCAAGAATATTAGAAAAATCTAAATCTGAACCTAAATTTGAAAAAGATCTCTATAAATTTCTTACTTATCAACATGAAATTGATTTAATTCATAATATGTCAAGAATTGATTTAATGATTGAAGAAGCAATATTAAATATATCTCCAATGACAATTGCTAAATTTACGTATACTTTTTGTAATCAATTTAATTCATTTTATGAAAAAAGTTCAGTATTATATGAAGAAAATGAAGATATTAAGAATGCAAGACTGTGTTTAGTGTATTCATTTAAAAATTCACTTGAATTCTTATTTAATTTATTAGGAATTGAAAGTTTAAAAAGAATTTAAAAAAAATAGTTAAAAAAAAATAGTTATGGCAAAATGCCATAACCCGATTTTAGTAAACCATAGTATTGGCGATTCTTGTGAAGAATCTATGCTTTACCTAATATTCTATATGCGTCAATTCCAGATGGAGCTTTTGCAACTGCAAATCTGCGTCCACTTTTTACAACGATACTGTATTTGGTTGAATTAAATTTCTGTCTTCCTTTGACATCGTAGAAATTTAGTTCGCTTCCATTTCCTGGACCTGGTTCGTTGTTAGAATTGGTTTTTAGTAATCCCATGAATCCCATGAGAAAAGTTATGTGAATTATGTTTAATTCAAGTTAAGTGAAAAAAAATCAACCTTTAGGTTAGATGAACTAGGTGTAATTATATCAAATTTTAACGAAATATATTGTTTTTTTATATGCATATTTATGATTATAGATAAATATTATTGTTAGAGAATTTATTATTTATTATGAAAGATTTAAATTTTTTAAATGAAATTGATAGAAGTATAATTTCTATTATTAAAGAATATTCTCATAATTCAAATTATCCTGAATTTATTGAAATATTTAATAAATTAGAAGTAATTGAAAATAAGATTCTAAATGACTATCCAGTAGCTACTGTGGATGAGAAATTGAACGAATTGATAAAAAATCAAGATCAAATAAGAAAAGAAATCTATAATGAATTAGAACAATATAACAAAAATGACAAAAATCAGGAGAATATACTAAAAGAAAAAATTGAGCCCCTAATTAATAATTTTATAATAAATTATAATAAAGTGATAAAAACCATTAAAAATATGGATTTTTCAGATACAAGAAAGGATACTATTTAATTTACAGGTTATAAATTGGTTTAAATAATAAAAATATTATAAAATTACATGGTCCTTCCATTAAAAAATGTAGTTTATGATATAATACAAGCAGAAAATAATACAACTGATACTAAGTTAATAAAACTATTAAATAAATCTGGAGTGGATATAGGTAAAAAAGATATGAATAAAATATTACTACAGTTAGAAATGATGGATCTTGTATCAGTAAGATGGCTCGGTAAAAATGAAAAAAGAATAGAATTATCTGATAGTAATAGTCAAAAAGAAAATGCTATGTGGTAAAGATAAATATTAATAATATATATTAAAATTTATCATGAAAATAATAAATAATAATATATTGAAAGAATTTTCTGGATTATTTATATTTATTATATTAATTGGTAGTATTTGGATTGGAATTACAATAACAATAGAAAACGACACACCATTTTTTGTTGTAAGTAGTCGAAGTATGATACCAGTATTGGATGTCGGAGATATTATACTTGTAAGTGGAAGAAATAATTATGAAGATTTAAAAATTGATGACATAATTGTATTTACATTACCGACAGATAAAGACAGAGTTATAGTACATCGAATACATGAAATAAGATATGATGAAGATAGAGGAATCGAAATAAAAACAAAAGGTGATCATAATCCAAATATTGATGGATGGACCGTATTAAAAAGAAATTATATTGGTACAGTAATATTTACAATTCCATCAATAGGAAACATTACAATATGGTTATCTCCACCAACGAATTATTACATAATTACTTTTATAATAATTATTTTATTAACAAAAGAAGTAAAAAATGAAGAAAATTAATCCAAAAAGAATAACTAACACAAGTAAATTAGAATTATATTTATATATCTTGATTTGAATTTCTGATTAGTAATATGATGTCAAAATCAGAGGTCACTATTGTAATTGAGAATGTAGTAGCATCTGCATCAATTCATCAAAATGTCAATCTAAATCAAATAACAAAAAAATTTGATCACGTTGAATATCATCCTCAACAATTTCCTGGATTGGTTTTTAGATTAAAAGAGCCAAAAACAGCAATTTTAATATTTAATTCAGGAAAAATGGTTTGCACAGGCGCAAAATCAGAACAATTATCAAAAAAAGCAGTAAAAATAGTTGTAACAAAATTAAGAGAAAAAGGAATTAATATTACAAAAAATGCAACTGTTACAACACAAAATATTGTTGCTTCAGTGGATTTAAAAGGTAAAATCCATCTCGAAGAAGCCGCAAGACAATTAACTCAATCAATGTATGAACCAGAACAGTTTCCTGGTTTAATATATAGAATGCGTAAACCAAAAACAGTTATTTTAATGTTTTCAAGTGGAAAATTAGTTTGTACTGGGGCTAAAATGGAATCACAAGTATACGAAGCAGTAGAAAATCTTCATAAATTATTAGAAAAAAAGGGATTGATGATTTATTAATCAATAATTTTTGACAGCATTGATTGTTTTTGATTATTGTCAATAATTGATTTAGAATAAAGTATTTCAGCAATATCTACAATATTCAATACAGTAGATAATTTAATATTAAATTCTGAAAATATAGAATGAGATGTTTCTTGTCGATCAACTAATACTAATGCAGACGAAACTTTACTTCCAGAATCATGTATTATATTTAATCCATCCAGCAAAGAAGAACCAGAAGTAAATATATCATCAATTAATAATACCCTTGAATTCAATTTAATATTACCTTCAAGATTTTGTTGTCTGCCATAATTTTTCTTTAATTTACGAATATAAATATGAGGTTTATTTAACATTAATGAGATTGGTACTGAAAAAATTAATCCAGATGTTGCAATTCCACATATATAATCAAATGTATTTATTCCAATATTGTTAATTATTTTAATATAAGAATTAATAATTAATTTAAAATATTTTGGCTCACTTTGTACTAATCTGAGATCTATGTAATAAGGACTAGTCTTTCCACCACTCAATACATGTTGTCCAAATTTAAATGAATTACAATAATTTAACGCTTCAACTAATTCAACTACTTCATCATGATTTAGCAAAATAAAATTACGCCAATATCATGTTATATACTAGACTCTATAAGCATTATGAATCGAATCTTTATAATTAAATTAAACGTAAAAAAATAGCGTTGCCAGAAATTTGGATACCATATGGAAACATAGAAGTATCAATTGATATTGAACCAGATAATTTATCAGGATTATATAAAAATGAAACTAATATATTTAATTCAGATAAAATAAAAGAAAATACCTTACTGAATGAATTAACTGATACTGTAAATATATTTGATAATTGCAATTCTATTGGTTCAATATCAATTATTTATAAAATAATTAAAACAATTGAAATTAATAAATCTGTAAAAGAAATTAATTTAATTATAAGTAAAAATTATAAAAAAAATATTCAAGAATTAATTAAAGATATTAAAATTAAAATTACATTAAAAATATTTGAAGAATTATCAATTAATGAATTAAGAGAAATAATTAAATTAAAAAATGTAATATTCGTATCTAATTCAACATTCGATCCATTATTTGGATTTACTGGTGGGCCAATATCCTTGGCAAAAATATTGAATGATGAAATTATTAATTTTGCATTTTATGATAAAGAAATAATTTTACCTGAATCTGGAATTATTTCACATAGAACTCAAATTATTAAAAAGGAATATAAAAAATATGAAAATTTAATATCTGTTCAAATAATTGAAGATGCAGTTGGAGTAGCTAATTGTGAAATTGGTAAATTAAATCAAACATTTGACAAATCAACAAAATTATTAATTAATAATATAAAACCTATACAAAAAAAATTAGAGGCGTCTATAATTAGTTGTGATTATAATAGAATTAATACAATGATAAATTCTCTACATGGTTTATGGAATATTCATGATTCATTAGAAGAAAAAGGAAATGTAACACTCGTTACAGAATGTTTAGATGGATTTGGTTCAGTTGCATTAAATCAATATGTTCAGAATCAAGTTAATCTAAAAGATTTAATTAATAAAAATGAATACATTAATGGATTAGAAGATCTAATATTTTTAGAGAACATACATGAGAAATTATCAATAAATATTGTATCAACATTACCTAATTACTATATTGAGAAAAAATTCAAATTTCGTCCATTTAATACTATAAATAGCGCTCTAAATTCAACACTTAGAAGAAAAGGCAAGTCAGTTACAATTGGAATAATTCCATATGGAAATAATATAATTTTAGAATCTAAAAATAATCAGGTAAAAATGTAAACTTAAATTTAACTATAAAATAATTATATTATATTGCAAAAAATTTCCTCAAAAAAAGTTGATAATATAAAATTAAGATTTGCATTAACGAAGGATATATATGATATAATATCAATAAATCTAAAAACCTTACCAGAACATTATTCACATAGTTTTTTTATTGAAATATTAATTGATTCTCCTGAAACATTTATTGTAGCAGAAGATGAAAATAAAATTATAGGTTATATAATGTGCAGAGTTGAATATGGTTTTTCAATATTAAGAAAATTAAATTTAGCACGAAAAGGACATATTGTATCGTTTGCTGTACTTGATGAATATAGAAATAGAGGAATTGGAAAAAGATTGGTAAATCAAGCAATAAATGGAATGCATACAAGAAAATGCGTTGAAGCATATTTAGAAGTAAGAACAAATAATGATTTAGCAATTAAGCTATATGAAGATCTGGAATTCAAAAAGATTTCAAGATTAAATTCTTATTATAAAGATAAAAGTGATGGATTTTTAATGTGTAAAAAAATGAATAAAAAAAACTAAGATCGTTATTTATTAATTTCTATATCGAAACCAATTTGATACCAGCCTGGCCCAATATTTTTAACTATTCTAGAAAATCGAATTTTAGAAGAATTATTTAATTTTTTAGCGATGAACTCATTTGCATAAGATAAAACATTATTATCAGGACAATTTAGATGTACATAAAGATGAATCCAACCTTGTTTTTTTAATGAATATATGGCATCATCGATAAATTCAACTGACTTTTCAGGTAAAGGCATAATAACACGATTAAAATTATCAGGAAATTGATTTTTTATAATTTGGTGAGAATTACCACAGATTGAAGATATATTTGTAATTTTATTCAACGAATAATTTTCTTTAGCATATTCATGGGCAATCGGATTAATCTCAATATCAACAATTTGGCAATTAGGTTGAACTTTTGAAATAATGATTGAAAAAGGTCCTACACCGGCAAACATATTGAGGATTCTTTCATTTGATTTTACTAATTGAGCAATACGTAATCTTTCATTTGATAATCTAGGAGAAAAATAAACTTTTGAAACATCTATTAAAAAACGACATCCCGATTCTTTGTAAATAGTAATTGAATCATCGATACCAGAAAGAAATTTTATTTTTTTAACACGAAATTCGCCTTCTACACCAGTTTCTTGTAAAAAAACTGATTTTAAATTACTTATGTTGGAAAGAATTACATTCCCAATCTCAGTTTTTTTTGATAAGAAATCTGGTTTAATTTTTATTATGGCAATTTCACCAATTATATCCATTCCGGAAAGATATTTTTTAAATTCTGAAGTTGAATATTTCATAATTAATCAGATTAATATTATTCAGTTTTTCCTAAATAATAATATTGATTATTATTTTTTTGTTCTTTATCTAAACGACTATTGTATTTGTTTACTCGTGGTCGACCAGTTTCAATATCACGCCTATATGTAATTTGAAGATTTTTAAGAAATTCATTCATTGAAGAATTTTTATTTGTTGGGGTATGAGCAATGCCATTTATACCATTAATTCCATCAAATAATAATAACGAATCACTTAGCATATCGATTAATTGTATATCATGATCAATTATTATAGCCGATTTATTATTTAATTTAACGAATTTTTGTACTGATTGTGCAAAAACTATTCGATCTTCTACATCAATAAAAGCAGAAGGTTCATCTAATGCATAGATGTCTGCATCATTCATTAAACAAGTAGCTATAGCTACTTTTTGCAATTCGCCACCACTCAAAGTGTTTACATTTTTTTCAAAAAGTTTATGAATAGATAGTGGCCTGATTATTCCATTATTAAATACTTCATCTTCAATTTTAGCACCTTGAGAATAAAGTAAGTTTTTTACAGTATCATGGTAATCAGAATTTAAATATTGAGGTTTATATGAAATTTTTATATCTGTTTTAATATTATCTTGATCGGATTTGTCAATACCAGAAAGAATTCTCATAAAAGTAGTCTTTCCCAAAGCATTGCCACCTATTATACCAAGTACTTGACCTTGTTGTATTTTTCCAGCCGATACATTTAATGTAAAATTGTCAAATGTCTTTGTAAAATTATCATATTCAATAACTGTAGGTATTTCTTCATTTAATTCAGAAGGAGAATATATATTAAATTTAATTTTTGCATCACGAAATTTAATATTTTCATTTGGTAAATATCCATCTATTAAATTATTTATACCTGTACGTGAAGACTGGGGTGAAGATACTACCCCGTATACGCCAGCTTCACCATATAGTATGTGGATGTAATCACTTAGATAATCAAGAAATGTTATATCATGTTCAACTAAAATAACACTTTTTCCTTTATTCGCTAAATTTCTTATTGTTTTTGATACTGTTAATCTCTGGAATACATCATTATATGAAGAAGGTTCGTCAAAAAAATAAATATCCGCTTCTTTTATTGCTGCAACAGCAATAGATAAACGTTGTAATTCACCACCGCTTAGATCTTTAATTGGTTTTTTTATACAATTAGTTAGATTAAGATCTTCAATTATATCATTCGAAAAGTTACTGTTAGGAATACTATGAAGAAGAGATAATCCATCAGATTTCCAATAATCCTTTAATTTATAAACTGCTTGTGGTTTAATTGAGATAGATAATTCATTATTAATTATTTTTTTGAAATGATTTATTAATTCAGTACCATGAAAATGACTGAGAATATCATCCCATGGGATTTCTTTTTCATAATTCCCTAAATTTGGTTTTAAATTGCCTGCTAAAATATTAAGTGCAGTTGTTTTCCCAATACCATTTTTTCCAACAAGCCCAACAATTTTTCCAGGAATAGGATTAGGCAATCGATAAAGACGAAAAGAATTAATATCGTATTGATGAATTTTATCAGTTCCCATTTCATATGCTAGATTTACAATCGTAATAGCATCAAAAGGACATTTATTTACACAAATTCCACAACCATTACACAACGATTCACTGATCAATGCTTTATTATCAGAATCAAGAATTATACATTCGCTTCCTGATTTATTTACAGGACAAAAATTAATACATTCAAGATTACATTTTTTTGAAAAACAATTAGCTTTATCCAATGCAGCTATTCTATGTGTGTTAGAAAAAATAGGAAGACTCATACATCATTGTCATATTTATTTTTTATATATAATCATTTTTATATAATAAAAACTTACTCACTTTAAGTGAGTAACTGATATTGAATGAAACTGATGTTACATTAAAAGTGCTTGAAGCATACACCAGAGATGTAGGACGTGGCGTAGCTAGAATTGATTATGAAGCAATGGACGTTTTAGATGCATCGACAGGCGATATTATTGAGATCAAAGGAAAACGAAATTCAGTAGCGAAATGTTTACCATTATATCCTTCAGATGAAGGAAGAGGTGTAATAAGAATTGATGGATTAATAAGAAATAATTCAGGAGTTGCAATTAGTGATATAGTTAGTATAAAGAAAATTAAAGCGCCTCCAGCTGAAAAGGTTACAGTAGCTCCACTTGAATCAATCCCTCCCATTGACGAAAGATATTTAGCTGATGCATTGGAAAGTGTTCCAGTAACTAAAGGCGATAATATTATGATTCCCTATTTTGGAGGAAGATTAACATTTCAAGTTATAGGAATTTCTCCTATGAGTGATGCAGTATTAATTACCCAAAGAACAGTATTTTCCATATCCGAAAAAGGTGAAGTAGGAAGAGGAGGAGTTCCACAAGTAAATTATGAAGATATTGGAGGACTAAGAAATGAAATAAGAAAAGTTAGAGAAATGATAGAGCTTCCTTTAAGACATCCAGAAATATTTGAAAAATTAGGAGTAGAAGCACCAAAAGGAATTTTATTATATGGACCTCCAGGTACTGGTAAGACATTACTAGCAAAAGCTGTTGCAACTGAAAGCAGTGCTCATTTTATTAGCATTAGTGGACCGGAAATTATGAGTAAATTTTATGGTGAATCAGAAGCAAGATTAAGAGAAATTTTTAAAGAAGCAAAAGAAAAATCGCCTACCATTATATTTATAGACGAAATAGACTCTATTGCACCAAAAAGAGAAGAAGTTACTGGTGAAGTTGAACGAAGAGTCGTTAGTCAATTATTGTCATTAATGGATGGTTTAGAAGGAAGAGGAAAAGTAATTGTAATTGCCGCAACAAATAGACCAAACGCAATAGATCCTGCATTACGTAGACCTGGAAGATACGATCGAGAAATAGAAATAAAAGTACCTGATAAAATAGGAAGAAAAGAAATACTTCTGATTCATTCAAGAGCAATGCCATTAGAAGAAGAAGGAGAAGAAGCTGTGGATGTTGATGAATTAGCATCAAAAACTCATGGATACGTCGGTGCCGATTTAGAAGGATTATGTAAAGAAGCAGCAATGAAAACATTAAGAAGATTATTACCTGATATGAAATTCGACGAGGAAAAAATATCACCTGAAGTTTTAGATAATGTCCGAATAATCAAGGAAGATTTTTCCAAAGCACTAAAAGAGATTACTCCATCAGCAATGAGAGAAGTTTATATTGAAACGCCAGATGTAGATTGGGATGAGATTGGAGGGCTAAACACTATTAAAAAAGAAATACAAGAAGCTGTTGAATGGCCACTAAAATATCCTGAAACATATGAAAAAATAGGTTATTCAATGCCAAGAGGCGTATTGTTACATGGACCATCAGGAACAGGTAAAACATTAATTGCAAAAGCAGTAGCAAAAGAAACTGGCGCAAATTTCATAAGTGTGAGAGGGCCTGAATTACTTTCGAAGTGGGTTGGAGAATCAGAAAGAGGTATTAGAGAAGTATTTAGAAGAGCACGTCAAGCATCTCCATGTATAATATTCTTTGATGAATTAGATTCACTAGCACCATTACGAGGAGGCGGAGGAGATAGTCAAGTTTCAGAGAGAGTTGTTAGTCAATTATTAACAGAACTAGATGGAATACAATCTTTAGATGGTGTATTAGTTCTTGCAGCAACAAATAGAATAGATATGATTGATCCAGCATTACTAAGAGCAGGAAGATTCGATAAATTACTGTACATAGCACAACCCAATAGAAACGCACGTATGAAAATATTAGAAATACACATTAAAGGAAAGCCATTAAGTAATGGCGTCAATGTTGGAAGAATCGCTGATATTACTGATGGTTTCAGTGGAGCAGATTTAGCATCAGTAGTAAATACTGCTGTATCAAGTGTGTTACAAAATTTTGTTAGTAAATATAATCCAGAAGAAGCAAAAAAACACATTAAAGAAGCAATAGTAAATATGAATGACTTAGAATCAGCGGTAACAAAAGTAAAAACTTCAAGAGATGGAAGACCCGTAGAAAAATCTCCAATTGACTTTGTTAAATAAGAATGCAATAGTTATTATAATTATTAGCAGAATATTTATTGATAATAATATTAGGATTTAATCTTTCAAAAAGATTTTTATTATTTAAAAAAAGGGTCTAATTAGTAATGTATTACGTTCTAATTATGCAATTTATTCAATCATTGGCATCTGCTATTCAATTATTAATAGAAAATTACGGATTTTTTGGTATTTTCTTTGCAATGGTCATACAAGCAATAATACCAGTTGCAATACCATCAGATGCAGTAATTATAGGAGCCGTATTACTAAAAATTGATCCAATTTTAATTATAATTGCCTCTGCGTTAGGTTCAACAATAGGAGGATTATTTGGATTTATGCTTACCAGAAAAGGAGGAAAACCACTTGCAATTAAATTCATAGGCAAAAAACATATTGAAAGGTTAGAAATTTGGTTTGAAAAATGGGGAAATTATATTATCGTTTTTGGCAGAGCTGCACCGTTTCTTTCTAGTGATGCAATTGCATATGCCGCAGGATTAACAAAAATAAAAATTAAATTATTTATAATACTGGCGTTTATTGGCGCACTATTGAGGAGTATAATTTTAGTATATCTAGGAGATAAAGTTATGCAATATTTTCCCAATTTAATTTAACATAAATATATTGTATTTCTACATCATACCCATGCCTGGTGGCATTCCTCCCATTCCTCCCATACCGCCCATATCGGCGCCAGGGGGTGGAGCAGGACTTTTTGCAGATGCAACAACATCATCAATTCGTAATAACATACATGCAGTTTCTGTTGCAGCTTTGATTATTTGTTCTTTAACAATAGTAGGTTCAAATATTCCTAATTTTTCACAATCAGTTATTTCTCCTTTAATAACATTAACTCCGTACCATTTTTTCCCTTTACCGTGAGCTGCACCAATTTGTACTTGAGTATCAATCGGATCAAGACCTGCATTCTCTGCTAAAGTAATTGGTATAATTTCTATAGCTTCTGCAAATTTTTGTACGGCAAGTTGCTCTCTTCCACTCAATTTGTTAGCATAAGATTTTAATGATTTTGATAATTCTGCTTCTGGTGCACCTCCACCAACTACGATAGATGGTTTAATTAGTACATCTCGAACAACCATTAAAGCATCATGTATTGATCTTTCAGCTTCATCTACAATTCTTTGTGTTCCACCACGAATTAATATAGTAACTGAACGAGGATTTTTACATCCTTCAATGAATACCCATTTATCTTCTTCTATTTTCCTTTCTTCAACTAATTGCGACGTCCCTAAATCTTTTTTATTTAGTTCTTCAAGATTAGTAATTACTCTACCTCCTGTTGCACGTGATAATTTTTCCATATCACTTTGCTTAACTCTACGAACAGTAAGAATACCTGCTTTTGCAAGATAATGTTGCGCAGCATCGTCAATTCCTTTTTGACATATTAATACATTAGCTCCAGATTGTTCTATTTTATCTGCCATTTCTTTGAGCATTGTATTTTCTTGATCGAGAAATTCTTGTATTTGATCAGGATTTGTAATATTAATTTTAGCATCAAATTCTGTTTTTTCTATTTCAAAAGGAGATGTAATTAATGCAATTTTGGCACCTTCAATTTTTTTAGGCATACCCGCATGTACAACTTCTTTATCGAGTATAATTCCTTTTATTAAAGAAGTTTCCTTAAGTGACTCACCTGCCTTTTTCTCAACCTTGACATCATCCACATCAACTTTGTATTGATTGTCGACATTATCTGCAACAGATAATACTGCATCAATAACTATTTGAGATAAATTATCTGATTCACGCCAAATTAACTTAGAAGCCATACTAGTTTTTGCTACTTTCTTTAACCATTTTTTATCATTAGGATTTACTTTTATTGCTATTTCATCAAGAATTTTTAATGCTTGGACTGCAGCTTTTTTATAACCATCTACTACAATTGTCGGATGTACTTCTTTATCAATTAGTTCTTCAGCTTTTTCAAGGAGAGAGCCAGCAAAAATTACTACTGATGTAGTTCCATCTCCTACTTCAGTGTCTGCTGTTTTTGATACCTCAACCATCATTTTTGCTGCAGGGTGTTGAACGTCAATTTCTTTAAGAATAGTTGCCCCATCATTTGTAATAGTAACATCACCCATGCCATCAACTAACATTTTATCCATACCTCTAGGTCCTAGTGAACTGCGTATTATTTCGGAAATAACTTTTGCAGCCATAATATTATTTTTTTGTGCTTCACGGCCTTTAGTTTGACTTGAACCCTCTTTTAATATTATAACGGGTTGTCCGCCAGGAGCCACACCTAAATTTGCTTGTGTCATTTATTAATACCTAATTATTATATTACTACTATAGATTATAACATATATAAAAATTATTTCCTAATTATCAAATATCGCAATCAAGCTCTTCAATTCTGTTTGGATCAAATAAACAGGCATAACATAAATTTTCAATCATATGTGCTTCAGTAGTAGGTACAAATAAACCATTACACAATGCACAAGTATTCATAATTACTCGATATAATATCATATTAAGTAATAATTAAGTTGAGCGTGTTACTGGAACTTGTTCAATAATTATAGAAGGAGATAATGTGGGAACTTCTACTTCCCACCATTTAATCCATTCACGTTGTTTTGACAAGGACTTGATATTTGATAATTGTCTAGGCAAATCGTCACTAATACGAATATTATGAATCGGCGCGACTTTTTCTCCATTTTTAACGAGAAAACATGCGTCTCTTGGAATAGTAGAATATAATCCAAGATGCATATTTTGAAATCTAGTATACCAATTATTAGTAATTAATAATCCATTTTGTAGTTCAGATAATTGTTCATCAAATGTTGTATCTCCAGATGAGACATCTAGATTCCAACAACTAGGAAAAATTATTCCCGCATTACCAGTAGATTCAACATTATATTTATTCGAAGTTGTCATATTATGTAGATAATTTTTCAATACACCATTTTGTATTATTGTTGTAGAAGTTGTTGGCATGCCTTCGTCATCAAAAATACGACCACATATTCCATCTTTTGGATTGCCCACATCAGTAATAGAAAGATTTTCTGATGAAATTTTATTGTTTATTTGATTTGCAAGAAAAGACATTCCTGTATCAATTGAAAATGCAGATGCAGCATAACCAACATATTGGAATATATCTGCTGCAACAGTAGAGGTGAATAATATATCATATTTACCAACATCACAAGTTTGTGGATTAATTGATTTTTTAGCATCAGTACCAGCACGTTCGCCAGCTTTTTTTGAATCAATGCCGTTAATAGAAGATGAACAAGAAAGTCCATGACCGCTAGAATTACTTTTACTGAAAGCACGTAAATTTAATAAATGTGTGTTAGATTTATCAATAGAATTAGCTCCAGCAGATGTTTTTAATAATATTTCAGTTGTAGAACTCATAAATGAACCTGAAACTCTAGATGCTCCAGCTTTTAATGCTGAATTAATTGAAAGTTCTACATGATCAAGCATTAATTCAAAATTATTTATTGAAATATTTTTAGAAGCGACATTATTAGCATATATAAATGGACCCGATGGTAAATTTACATAATCTTGAGAAATTGGTGAATCGTTACATTGTTTAAATAAAGAATTTATAAAATTCACGAGAGAATTTTCGTCTAAATTTGATGTAGAGCCAATTGCACGTTTTTTATCTTTACCAAGATAAATTTCTACAAATACATTATCAATAGTATCAAATACATCAATATTATTATTACTAAATCGTATTAGATCTTCATTATTTTTAACAACTATAATGGAAAAATCATCAGAATTAAGAGACGAAATTGGACTTTCAAGAATTGATAGAATATTATCAAGAACCATTAATGATTTCCTACCTTGAGATTTCTTAATCTAACATGAGGACCTCCTGTATGTACAGGAGCGCCTTGCATTGGCTCGCCTTTACCGCAAGTTGCTGCAGTAAAACTTAGATCTTTTGATCGTGCATCAATTGAATTCCAAAATTTAGTTGTTGTTGTGTCTAGTACAGGTGATTTAATGTTAATATCTAATTCACCATTTTTAACAAGATATGCTTCAAAACCAACATACCTTTGATGTTCTCTAGTATCATTAATATTCCATTCCATAAAATTTTTTATATAAACGCCATATTTTACATCTTTAACTAATTCTTCAAATTCATAATCTCCAGGTTCGATAAATGTATTAGCCATTCTAATTATAGGCTCTCTGTCATATTGAACACTTCGTGATGATGCATTACTTTGAGTATTTTTTTTATAAGAAGTTTCTCGATTGTATAAAAGATCAGTAACAAAACCTCCTTTAAGCAATGTACGTTTACGCGCTTCTACTCCTTCGTCGTCAAATAAATAAAATGCCATAGAACCTGGAATTGTTGGATCATCACTAACAAATGCTTCAGGCCCACCAATCTTTTTTCCAATGCTGTCAAAATCTAAATAAGATTCTCCTGCCTGAGCAGCTTCTCGACCAAGAATTCTATCGGATTCAAATGGATGACCACAAGATTCATGTGCTACTAAACCTGCAACCTCAGGACCAACTATTACATCTATGTCATTTTCAAATTTCATGGATTTTGCCTTTATTGATTTTGATGAATTTTTTAATTGTTTAGGAATATAAGAATCAAAATTAAATTCTTTGATAGTTTCCCAACCACCAGTTCGACCCAATCCAGCATAACCTCCAGGAATAGTTAATGAAGATATTAAACCATTGAATTTTGCAGTTAGTTCACTATGAAATTCAACTCTAGGAACACGACTTAAAATATGTGCGCCTTCACTATTCATATAGAATTTTTCTTCAACAGAATTTTCAATATAAAAAATTCTTTGAGGAAATGAAACGTCAGATTTAAACGAAGTAACACATTTATCAATATTAGTAAGTTCAGATATAATCTCATCAATATGAATATCTTGTAAATTTTCTTTTTCAATAGCAGACCAATCTCGAATTACTGATTTTTCATTAGAAAACTTTACTGGATTTTTTGAAATTCGTTTAGAAGATTTTGCTCTAGATATTGATTTTTTAATAAGTTGATTAATAGATGCATCTAATATATTAGTAGACGCAAAAACCATTACCCCATCATATATTAGACGAATTCCAATACCTTGAGTTTCTGATGAAATAGTTGGTTCTGATTGACTATTTTTTAATATTGCAATAGAATTCCATGTAGAATGAAATCTCGCTTCAACATATTCTACATTGTATTTTTGTGATTCAACAATTATAGAATTTAGCACATCTTCGTATTTTGATAGTGTATTCAATGGTAGATTTATAATAATCGGTGATATTAGTTTTATTAAACATGGATATAATGACTAAAAAGACATTTGATAAAATAAAAATAGTTCCAGATACAAGTATAATAATTAATGGAATATTATCAGAAAAAATAGAAAATAAAGAAATCAAAAATTCTGAAATAATCATACCAATTGCAGTATTAGATGAATTGCAAGCACAAGCATCTAAAAATCAAGAAATAGGATTTTTAGGATTAGAAGAATTAAAGAAAATAAGAGAAATATCATTAAAAAAGAAAATTAAATTTAGATATTTAGGAACAAGACCATCTTTAGAAGATATAAAATTATCAAAGAGTGGACGAATAGATGCTATAATACGTGACGAATCAATAAAAAATGACGCAATATTGTTTACAGGAGATTATGTACAAGCAATTGTTGCTGATGTAATGGGAGCTAAAGTAAACTATATACCAACAAAATTTAACAAAGAAAATGTAACATTTACAAAATTTTTTTCTGATAAAGAAATAACTAGCGTTCATATTAAGCAAGGAATACCAGTTAGAGTAAAAAGAGGAATTCCAGGTAATATTAAATTAGAATCTGTTGGAAAAGTAATTGAAGAAGAACAAATTAATAATATAATTAAAGAAATACAAGAATATGCAAGAATAAGTGAAAAAAAGGATAAACAAATTAATAGAGATGGAGCAAAAGTAATTCAATTAGAATCATATCGAATAACTATTACGTTGCCTCCATTTTCAGATAAAGCAGAAATTACAATAATCAAACCAATTAAAAAATTACAGTTTGAAGATTATGAAATCTCAAAAAAATTAAAAGAAAGAATTGAAAAAGCGGCTGAAGGTATATTAATTGCAGGAAGTCCTGGTTCTGGAAAAAGTACTTTTGCATCAAGTTTAGCAGAATTTTATTCTTCAAAAAATAAAATAGTAAAGACTATTGAATCACCAAAAGATCTTCAAGTAAATCCAGAAATTTCTCAATATGGTCAATTAGAAGGAGATTTTGAAAAAACTGCAGAAATATTATTATTGGTAAGGCCAGATTACACTGTATTTGACGAAGTAAGAAAAACAAAAGATTTTATGATTTTTGCAGATTTACGTTTATCAGGTGTTGGAATGATAGGCGTAGTTCATGCAAGTAATCCAGTAAATTCTATTCAGAGATTTGTAGAAAGAATTGAATTAGGCATGATAAGTAGCGTAGTAGATACAGTAATTTTTCTAAAAGACGGAAAAATATCAAAAGTATATCAATTAGAATTAGTAATGAAAGTACCAACAGGAATGCAAGAAGCAGATCTTACTAGACCTGTTGTAGAAATACGTGATTTTGATAATTCAAATCTTGAATATGAAATTTATACATATGGCGAAGAAAAAATAATAATACCAACAATTAATATAGAACAAAAAGAAAAAATTTCAAAAGATATTATTGAAAAAAAATTACGTGATACATTCAAACGATACGACAAAAATATTGAAATTGAAATGTTATCATCAAAAAGAGCTATTGTGAAAACAAATAAAAAAAATATTCCAAAAATAATTGGAAAAAATGGCCAAGAAATTATGAATATTGAAAAAGAAGTGGGAATAAGAATAGATGTTGAGCCATCTACTAATGCATTAGGAAAAAATATAAATCACATAATTCATGAATCTGGAAATTCATTAGATATACTATTTAAGAAAAAATTAAATGGAAAAAAATTAAATATCTATATTAATAACGATTATATTTTTTCTACAACAGTCGGGAAAAAAAATAAAATTCGTGTTGCTAAAGATTCAGATATTGGAAAAACAATAGTTAGTGCAATTGTTCAAGAGAAAAATATTAATGTAACTGAATTAAATTAATTAAATATTTTATTTTTTAATCCGATTAATTCATTTTTCATTGAATAAATAGTAACAATTACTCCAAAAACAATAATTGCTCTGCTAACCATTGCTGTGGCTTCGTAGCGTCCAAATAATGCCATTAGTTCTTGTTCTTCTATAAGAACATCATCTTCGGCAAGATTGCCCGCCATCATATCCTGATAATATATATCAATTTCAGTAAGAGTTTCAATAGCTATTTGTATTGCTGTGTATCCTATTATTATACATAATAATCCAATAACAAGTAGGTATTTTTTCATAAAATTACAACCTATTTGATATTCCGGTTTCTAGCCAATTAATACCTTGTGTAGTAATTTTAAATTTAATTTTTCGATTTATGTTTTCTTTACTTATATAACTTAATTTTTGAAGTTCACTAAGTCTAGAACTTATTGATTTTGGATTTAAGCCAGTCAATTGATTGAGATCGTTTATTGAAACTGAAGGCGAATGTAATTTTTCTGCTAAATATGCAACATGATATGCAAGTAATTGCAAACCAATTTTTTCACGATCACTTATTTTTTGTGAATTAGCCCATATTCGAGGGCCTTCAGGAGTGATTTTAATTAAATGAGAGAATTTTGATAATATATCTTCAAGAGAGTAGTTTTTAGAAATTTTTTTGGCTAATTCAAGCTGCGGAATTGCTTTTAATAAAAATTCGTTAATAGAAGATAGTACAGTTTGTGAGTCTCCCTTAAAATCAACTTTTGTGTCTTCATATGTAATTGTCACAGATATATTTGTCAAATTATCACCTGATTTAATTTGTCAGAATACCAAATTTAGTATTATTTTCGATGGACGAAATAAGAGAATTTGAAGCAGTATAAACATATTCGCCATTATTACTTTTGAATCGTCGAAGTTTACCAGATTTTGCCATGCGTAATAAAGTGACAGCTATAGTTTGTTTAGGATAAATAAGACCATATAGTTGTAGGGTTTCACGAACCTCACTTAATTTTTTAGGATTATTTGACCAATTACTAGCAAATAATTTAAGAAGCACATCAGTTAACGAATCAGATTTATTTATATTAATATCTGGAGGAATTATGCCATTTTTTTCTATAGAATTATTATTTAATTTTAATAAAGTTTCATTAGACTTAACATCATTTATAGTATTTATTGATTCAATAATTTTGGGTATTTTTGATATAATTTCATTTAGATTGTCAATATCACATTCAATCTCAATTTCGGTATTAGAAATTCGTAATTTAATTTTGGTAATTGAATTAGTCATTAAAATTAACGCTCAAATATAATTTATTAACTTATTGTACCGGAGGTCTTTTTTGTACATATCTATAATTTCTCATTGAACCATTTCTAGTAAGAATATTTTCTCTAACTAAATCCTTTAATGAATGCGAAATGCTTGTTTTATCATAATGATAACCTCGTCTCGCCAATTCTTCATATACATCGGAGAGGTTTTTTTCTTTACTAAACCAATTTTCTTTCCACAAAGTTTGTATTAAATCCCGACAAATTACGTGTTCATTCGATTTATTAAAATCAACCATAGGCTTTACTTCATCAGGACTAATGATTTGATCTGAAGATTTTGAATCAAGACCAGCAATGACATTTTCAACAATTTGTTTAACTTTATTCTCTGGGCAGGTAATTTCAATTTCCCAACTGCCATGTTTTAGTTTAACAGAAATTTTTTCGCTATCCGACATCTTAACTCTTATTGTGCATCTTGCACAACATTTATATTTGAATGTTTCTTATACATGTTGTGCAAGATGAACATGAAAGTAAGTACACATTTAAGCAAAAATAATAACATTATGGAAATACTTGATAATATGGAATCTCCTTATGGTCAAAATGAAAAAATTGAATATTTAACAAAAATTCTTGATAAACTTGTTGAAATTAAATTAAATGAACTTGGAAAAACATATTTTGAAGTAGTTCGGGAAAATAAAAATAGAGAAGCACAATTGAAAAGACTTAGTGCATGGAACGAATGGCTAAGCGAAAATAACGCAAATCTATAGTATATTAATAACTTCGCTAATTAACTAATATATTGGAAAATGCAGATTTAGAAATAATTTCAAAAATTGCTGGAAATGTTGTAATTAGTAATAATCCAGGAGAAATGTTAAAAGTTTGGAGAAAAAGATTAAAAATTAAACAAATCACATTAGCTAAAAAAATTGGAATTTCTCCTTCAGTGTTAAGTGATTATGAAAGTGGTCGAAGATATTCGCCAGGTATTATTTTTATAAAACGTTATATTGAATCATTAGTCATTCTTGATAAATCAAATAATAAAACATTAAATCGATTAATGAAAGAAGATCATTCAGCTATATTAGGAATAGCAGAATTTAAAAAACCAATAAAAGCAGAAGAATTAAAAAAAGTTCTTAATCTTGAAATATTAAATGGCGAAGATAAATTAGAAACAAAAATATATGGTTATACAATTGTAGACAGTATAAATACAATTTATATGCTATCTGGAATAGATTTTTATAAAATATTTGGCGCAACTACAGAAAGGGTTTTAATATTTACAAGAGTTGGAATTGGAAGATCTCCACTAGTGGCAATTAGAGTTTCTCAATTAAAACCAAGAATGGTAGTATTACATGGCCCTGACAAGATAGATAAATTAGCAATTGATCTAGCTGATAAAGATAAAATAATTCTAGGATTAACTACAAGTGACAAAAATAATAATATAAAAAATACATTGTCAAAATTTTAATATTATTTATATATGGCCTAACTATTCAAGGACTGTAATGATAATGGAATTTCAATATTTGTTATTTATAATATTAATAACAATATTTTCAATAATAATTCTAAAATTAAAGATATTAGATTTTAAAGGAACTATAAGCTCAATATTCATTGGAAATTTAATTTATCTTACAACAGGAATTAACGGTTTTATCTTAATATTACAATTCTTTATTATCGGATTTATATTTACAAAATATAAATTTAATCAAAAAAGAATTAAAGGAATTGCACAAGAAAAAGGAGGAATTAGAAGTTGGGATAATGTAATTGCAAATGGTTTTGGATTTTCATTATTCGCATTAATATATTTTATTACTAATTCAGAATTATTTTTAATTGGATTTATTTCATCTATAGCAATTGCAACAGGAGACACATTGGCAACTGAAATAGGTTTATTGAGTAAAAATGAACCAAAATTAATTACTAATCTAAAAAAAGTAGAAGCAGGGAGATCTGGCGGAATAACAACACTTGGATTAATTGCATCATTTTTTGGAATATTATCTATAATAATTTCTTCATTATTTGTTGGATTTATTGTAGATTATTATATAATATTAATAATAATTATAGGATCTTTTCTTGGAATATTAATTGATAGTATATTTGGCGCAACAGTACAATCTCAATATTATTGTAACCAATGTAATAAATATACAGAATTAGCCGTTCATCATAATAAAAATAATGAACTGATAAGTGGACTTTCTTACATTGATAATAACATAGTAAATCTTTTATCTATAATGTTGGGTTCAAGTTTTATAATATTAATTATTATATTCATATAGTAGCTTATTATTAATTTCAGTTATAGGAATTCTTAATTGTTTCATTGAATCTCTATATCTAATTGTTACATCATTATTTTTAATTGAATCAAAATCTACTGTTATACAAAAAGGAGTACCAATCTCATCCTGTCTTCTGTAACGCCTACCGATTGAACCAGATACATCATAAAATGCATTAAAATCTAATTTAAGATTATTATAAATATCCAATGATAAAGATGACAAACCATTTTTATTTAATAATGGAAAAATAGCGACATCAATTGGTGATAAACCAGGTTTTAAAGATAATAGAGATCTTTCCCCATCTTTTTTATAAGAATGTTCGATTATTGAATATAAACTACGATCAACTCCCATAGAAATTTCAAATATATGAGGTAGAACTTTTGAATCATTATCTAGAACAGATAGATCTTTACCACTAATTTTTTGATGACGACTAAGATCATAATCCGTTCTATTATTACATGCAACAAGTTCAAGCCAACCTGTTGACGTTAGTATTTCAAAATCAAATGAATGAGTGGCATAAAAAGCACGATCGTCATCAGGAAGAACACGAAAACGAGTTTTTGATGTATTAATTCCAGTTTTATTATAAAATTGCTGAACAAGTCCTAGATAATAAGCTGTAAATTTATTTGGAAGTATTCCAGTATTAACTAATTCTTCACATGATTTACTTATAGTTTCATCATTATCATTTATATTAAGCACACAATCCTTAATTTCAGAAAAGCTATCAACATTATCTACATTATTTGGATTAAAGAATATTTCAATTTCAGCTTGATAAAATTCTCTTAGTCGTAATAGACTTTGACGAGGAGATATTTCATTTCGAAAACTTTTTCCAAATTGTGCAATACCAATTGGTAATTTTATTCTCATCGTTTTTGATAATCTAAGAAAATCAACAAAAATATTCTGACATGTTTCCGGACGAAGATACGATTCTTCTTTTTTTGGCCCAATTCCTATATCATACATCATATTGAATCTAGAAACGTTTGATAGTATGTTTTTGCATTTTAAACATTTAATCTTTAATGATTTAATTTTTTTATCATATTCATCGTTTGATAATTTTTCTGAAATTATGTCTCCTGTTATATCAGAAATCATTCGATCAGCTCTATAAACAGAATTACAATTTTGACATTTTACAATAGGATCTGTAAAATTTTCAAGATGACCCGAAGCTACAAATACATTTTTTGAAAGTATCTGACTGCCATCTATTTCTAACATTCCATCACGGCGAACAAGATGTTTCCTCCATAATTCAATGAATTTATTTTTGAAATTAACGCCCAATGGCCCATAATCCCAAAAACCTGCCTGAGCATCAAAATATATTTCTGAACTGGGGAAAAAGAAGCCTTTCTCTATGAATAATTTCTGAATTTCTTCATATTTCATTATCAAATATGAAGTTTCTCTTGTTCTTAATGTTATCTAAATAGTAATTCTATATCTATATTAGACCTGCAACATTCTGGCGAATTACTCACAACACTTGATTTCTCGTATTGCTCATTGATAATTTCAAAATTGTATCTTCCTAATGGTTCCTCTAACTGACTTTCTTCCCATAACCAGATGATTTCGTATTTTAATGATTCCGCAATAGATAACGTGTCACAATCTTCATCCAAGAATAAATCATGGCAAATCACGCGTTCAAATTTTATGTACTCCTTAGGGATTGTCAAAGTAGTGCCGTTTGGATAAGTAGCAATTATTTGTATGTTGTTTCTGTCTTCGTAGTTCAAAGATCCTCCATAGATTATCATTATTTGGCCTCGATAGAATTCTCTAGTAGAATATTTGTATTCTGATTCCATTGGCTCACCATTCTCTGAAACTTCTCCCCATAATATAGCATCTATAGAAGGAACATACAGCTCCGTCTTCATTATCGTCTCTTCACGCTTGTTTGTTTCATCTACGTATTGGTAATATTCGAAACCGCCTACTAATAAAATAATGATTGTGCCAAAAGCTATTGCCGACTTGTAGTTTATCCACTTTTTAGCCCTACTCTTGTGCTTTTTTGGGCCTCTTGAAGTGGAGAAAACCCGTTCAGATTTCTTGACCATCTAGATATAATTGTTTTTGACTTGTATATTTTTTGCTAATGGTTACTTATGTTTAATCGAGAGAAAATCCTGGCGGTCCGTCCTTAGCATTACATTTCTTTTCGTATTTTGTTTTTCTTCCTTCGGTTGAGTAATGACTTTACTATACCGCGTTTGAATACCCAAGGACGAATATAATTAAAAGTAAACTTGGCGACTCTCCCCTTATTTGGATTAATTACCTCTAATTTTTTCAAGGTGTCCTCAATTTTTATTAGAAATTTAGTTATTTTATACACTCCCAGCCTATAGAATCAGGTTTCTCTAGTTCTTAATGTTATCTAAACGGCAATTCTATATCTTCTTGTTTTTCTTGCACCATGGATGCAGTATTTTGAATTTTATTCTATCTTTAGTCATATAACGCACTGATTTCTTGTATCCCTCTCCGCACAACCTGCATTTTCACCAATATTTGTCATGACTTTCTGACGGAATGTCTTTCGGATTCTCTTGATTTTTGTCCTTGTCCCAATATTCCATCATGCGTGGGAAGTCAGCTGCGCTTCCGTTCTTCTTGATTGATGCAATCTCTCTCCTTTTTCCTATTGTTTTTACAAAGCATTTTGTCATCCTTCTTTATATTGATCTTCTCGACCTCTAGCTCGTAGTACTGATAAAGACCATTTATATGGTTCATGTAGATTATTATCGCAAAACAGCCAAATCTTCATTTTCATTTTCCTAGTGACATGCTCTGGCTTCAGTTTTCCATTTTTGGTAGGGTGCCATAGCTTTGCTACATATGGATTTGTAACTAACAGGTTATCATTAGGTCTTAATAGAACAAATCTACCAGTTTTAGAGTCTCGTTTCACAATATAATATACCTATACGAAAATATATCATATTATTTTGAATTATATGCGTGATTTATTGTAAATAGATGTAAATAGTGTAACTTAGCGTATCTTGATGGCCTTCTAGGATCAGTTATTGTCATTTTGGTTGATTTTATTGCGTTATAGTTGCATTTAGTGTCCGTTGAGATGCATTTATTGCTCTTTGGCTTGGTCTGGATTGTACTCTTTGTATCTCATCTACTCGCCCTTGGTGTTTGGCGGTATTATTAGCCATAGGAAACAATAAGCAAAAAGTCCAGAAGCTTCTGGCGCCAGTAAAATAACAGCTAAAGTCAGGAATCTAATTCTCATTACCTGATAACTAGATGGTTTTTTATAGACTATATTTGCTATCATTTCAGCTATGCCTGCCACACGACCCGTTTTTTTGTATCTACGCAAATTTCCTAGTCCTATACGCTCCGCTAATTTTAGGGGGGTATTTGGAACTTTGGCAAATCTCGGAAGCATTAATTACTGTCTCCAAACTTGGGGTTTTTTGGGTCAGGATTGTATTCTTTGTATTCCTTCTCGATTATTTTCTGGACAACTTGGAAGTAGAGTTGAGTGACATACTGCATCTCAGGCATGAAATGGTCTATTGCCTTGATTAGTTGTGGAACTGCTCTTTTTGAGCAATTTACCTTGAATTTCATGGGCAGTAGCTGATCTTGCTCGTAACTTATGCTTTCTATCAGGTCTAGAGGCGCTTCTTCCTTCGTAAATTCGATTATTCTGAAATACCAACCATCTATGACGTCAATGTCAAAACCTGTTTTTGAGTCTTCGATGATTTGAGACAATTGTTCCAATGTCTGTTCTTCTGGAGAACCAAATATGTTCATATCTAGTAGTGCTACATAATGACACTAATTCTCAGTGGTAATTTTTTTTTCACCTTTCTGTTATAATTCGTTTCTACTAAAAGCTTATACTGTATTTAATATCAAATTCAGTTTAATGCAAGCAGGAAACCTTGATTCGGAACTAAATCTCAAAGAAACCGAGGCAACTATTAGAAAATATTGGGACGATATTGACATTAAAAATTTGATTCAAAAAAGTATTCAGATCAAAAGGTTGCCGCATTTGTAGAAGGTCCTCCAACACTTAATGGAAAACCACATATTGGCCATATTCGAGGAAGAATAATCAAAGATATTTGGTATAGATTTAACGTTTTAAATAATTACAATGTGATTTTTCGTGGTGGTTGGGATACTCAAGGTCTTCCAGTTGAATTACAAGCTGAGAAAGAATTAGGTCTAAAAGGAAGTAAAATCGAGAATCTGAAAAAAATTGGAGAAGAAACTCTTATTCAGTCTTGTAAAGATTTGGTATTAAATAACTATGAAACTTGGGAGAAATGTGATCAATTACTTGGTTTATCTCTTGATCATGATAAAGCATATTGGACTTTTAAAGACGAATATATTGAAAGAGAGTGGAAATATCTTGAAAAGGCATGGCAAAATGGCATACTGGAAGAACTCGAATCTGTAGTTCCATACTGCCCAAGCTGTCAAACGTCTCTTAGTCATGCAGAAGTATCTCAAGGATATGAAAATGTTGAGGATCCATCATTATATTATAAAGTGAAATTAGTTGATGAAGATGTATTTCTTATTTTATGGACTACTATGCCATTTACCATAGTTACTGATATGTTAACTGGCGTAAAACCTGAATCACTTTATTCTTATGTCAAAATTGAAAATGAAATCTGGATACTTGCTAATGAAAGACTGGATGATTTAATGAATGTATTTCATATAGAAAATTATGAAATATTAAAAGAAGTTAAAGGAGAATCACTAGATGGTAAGAAATACATTCATCCACTTGCTGAGAAGTATATTCCTGAGTTACATAATCTTTCTAATCAAAAAGGTGTTCATTCTGTAGTTGCAGAAGATTTTGTTGATTTGTCTACTGGAACTGGATTGGTTCATATTTCTCCTGCAAATGGCGAAATTGACTTTGAAATAGGCAAGAAAAGAAAACTTCCATTATTTAATCCAATAAATGATCAAGCTTGCTTTAACGAAAAATCAGGTAAATTTAATGGATTATTTGTTCAAGATACTAATGAAGTAGTATTTGATTTATTGAAAGACGAAAATGCATTAGTAAAACTTGGTCGATTAAAACATGAATATCCTTTATGTTGGCGATCAGGACATAGATTGTTATGGGTTGCACGACGTGCATATTTTTATCGAGTTGATAAATTAGGCGATAAAGCAGTTGAAGCTGCAGAATCTGTTGAATATTATTTTGAACAAAATAGAAATAGATTCATTGAAATTATTAAAGAAAAGAGGCCTTGGTGCATATCTAGAGAACGAGTTTGGGGCACTCCTCTTCCAATATGGAAATGTGAATCATGTTCACATAAAATTGGTTTGTTTTCTAGACAAGCAATTATTGATAATGCAATAGATCTCCCTGACGGAGACAATTTTGAATTACACAAGCCATGGATGGATCGTATATTAATTAATTGTCCTAAATGTAATAATAAATGCCATAGAGAATTATTTGTTCTTGATACGTGGCATAATAGCGGCGCTGCTCCTTATTCTTCTTTGTCTGATGAAGAATACAACAAATTTATTCCTGCAACATTTCTTACCGAAGGTATTGATCAAACACGTGGTTGGGCCTACACTCTTTTAATTGAAAATGTTATTCTGCAAAATTCTAGTATACCTCCATATAAGGCATTTTTATTTCAAGGTCATATTCTTGATGAAAAAGGAAATAAAATGAGTAAGAAATTAGGTAATGTTGTAGAAGGTTATAAAACACTTCAAGATCATTCTGTAGACCTATTAAGATTTTATCTTATGAGAAAAGCAGATCCTTCAAAAAGTCTTAATTTTAGTTTCGAAGAAATGCGTTCAAGACCATACCAAGTGATTAGTACATTATTCAATCTTCATAAATACCTCAAACAAAATGGCGAATATGATAATTTTGATAAAGACAAAAATACTCTTGAATGGGCAATTAATCAAAAATTATTATCTTCTCCAGATTATTGGATATTGTCTAAATTACAAAATTTGATCCACGATGTTACTCAAATGTTCAATAATGCCCATTTCGATACTGTTACATCATTAATTGATGATTTTATAATTGAAAGTTTTAGTCAAATATACCTTCCAATGATAAGAAATGAAATATGGGATGATGATGAATTAAAACTTAATAGACGTTTGTCCATTTATTCTATAATATACCACATTCTTTACAATCTTAATGTAATACTGCACCCAATATCTCCTTTTATTACTGAATATTTATACCATTCAATGTTTAGAAATCAATCTATACTTGAGCAAACATGGCCTCAAAGTAATGATAATTTAGTTGACGATGATCTAGAAAATGAATTCAAATCATTACAAATCATAATATCACAAAGTAATTCCGCAAGAATGAAAGGCAAATTAAAACGAAGATGGCCATTAAAGTCTGCATATGTATATATTGACGAACAAAATGCAAAAAAACTAATTAAACATAAAGAACTTTTAGAAAAATTTTGTAATGTAAAAGAAATATTTTTTGTGACAAATATTGAAAAAATACCTATAGAACTTTTAATTAAGCCTAATTACGAATTATTGGGAAAGAAACTAAAGTCCAATATAAATGAATTTAGAAAAATAATAAAAGAGCATAATTCTTTATCTTTATTTAATCATTTTTATAAAAATGATATATTTGAATTAAAGATTAATGATACAATATATGAAATTTTAAAAAAAGAAATTAATTTTTCATTTATTGCTAAAGAAAATTTTGTATTATCTGAAAAATCAGGATTTATTGTTATATTACCACAAGAAAGAGACGATACTTTATTCATTGAAGGTTATTTAAGAGATTTAGCAAGGCGAATACAATCAGAACGTAAAGAATCCGGGTTAGATCCAACTGAAATATTAAAAAATACACTTATTTATGGAATTGAAGAAGATACTAGAAAATTACTAATTCCAAAATTATCGGAATTAAAATATCTTGTTAGAACCAAAAATGTTGAAGTTGTTGATGATGTTAACTCTGAATCCAACTGGAAAGATATAGATATAGATGGAAAAAAATTAAAAATTTGTATTATTAGTTTTTAATTCCAAGTATTTTTCTTATTCTAATAATATTTTTTGAAGATTTAATTGATATAATTTTTATAATAAATTCAACATCTTGACTATTGAAAGTATTTGTTTGTCTTAAATAAACAAAATAAATAATTAATCCTGATGGAATTAAAAATAACAATGATAATACTAATGATATAGTATTGAAGAAATAATTATATGAATAATATAAAATACCTGCCATTAATAAAGATCCAATTAATGAATTTACTATAGCAACTTTATCATACTTCATATCCCCTGCTATAAATGATTTATAGTTTATAATTAATGCAGTACTAATAATCATAACTGCTCTTCCAGTTGCTAAATATGTTATACTTAAATTATTATTAAAAAATTGAGATATGCCAATTGTAATTATAAATAATAATAAACCAATAATGTTTGCAAACATTATCCATCTTGTTTTTCCTTTAACAAATAATTGACTATTATAAATTGAAGAAAATGTTGTTAATCCTATTGCAATTGAAATTATTGCAGCCGGAGTCGCACTAGAAATATATTGTTCACCAAAAATTAATGTCAATGGAACTGATAATGCTGCAATCATAAATGCAGATGGCATGCCTATAAAAGAAACATATCTTGTGTATAATTTTGATAAATCTCTAAACGCGTCGATCTTTTTCAATGAATGTAAGGTTGATAGATTTGGAGTTATTGCCGTTGCAAGAGCATTTGGAGCATAGGCTCCAATTGTTGATGCTGCAATAGCAATTGTATAAATTCCTAATTCAGGCAATCCTAGATTTATTAAAGCAAATATTCTATCAATTTGTGTGACACTAAATATTATTAAAGATGAAATTAAGATTGGCATTGAATAATTAATTATTTGATTAATATTGATTTGTTGCTTTTCATTATTTAATTTCTTATAACAAATTGGAAATGTAATTATTGAGAAAAATAAATCTCCTATAAAATACCCTATTAACACTCCTAGAATCCCATATCCTAAATATGCAAAAATTGCCGCTGAGGTGAATTTAATTATAATTGAATAAGCTTGTGTAATTCCTGCTTTGTAGCTCTTTCCAATTGCAATCATACCACCAAATAAAAATTGATTTATCGTGAAAAAGAAAATCTGAATTAATGCAACAAAGAGTATCGTGTTTGTTATTTGTCCATTAAATAGAAATGAATTAATTATTTCTGAATTAATTAGAATTATTATAGATGTTAATATAAAAATTAAAATAATTGAGTATATAGAGTATACAAATATTGTATTGGCTTTACCCTCTTCTTTTGACGCTATGAATTCTGGTATAAATTTGGTTATTGCATGAGGTAATGGCAAAGGCGACATTATTGGTATTGGTAAACAAAATGTTGCCAAAGTTGCCACTAAATACATAATTATTTGAAATCCAAAAATTATTCCTATATCTGATATATTTAATGTATTAGTTAAAACTACAAAATGTCCTGTTATTACAAAAAGTGAAACAAGGTTTGATAAATATAAAGAAGTAGCGCCTTTTGCAGTATCTTTTTGCATCATTATACTCTCACTTTCTCAACAAATTTGTATATTCTTCCATCAAAGGATAATAAATAGATTTCACCATCTTCTCCTTCTCCAAAAGATGATATTTGTGATGGACCTTGTAATAATATTTCTTTTTCATATTTATTATCTGTAAGATCAATTATCCAAATATATCCACTACAAAAATCTGCAAATATATATTTATTTTTTAATGATTTTATTTCTCCATTATATACATATCCTCCAGTTACAGAACAACCTTCATTATGTGAATATTCGAAAATAGGTGATTTTAAATTTTGTTTATCGCAAATTTCATTTTGATAACAATGATTACCTTCCATTATATTCCAACCATAATTCCCACCTTTTTCAATAATGTTGATTTCTTCAAATCTAGATTGTCCTACATCTCCCACAAATAATCTTCCTGATTCAGTATCAAAACTCATTCTCCATGGATTTCTTAAACCATATGCCCATATTTCATCACGAAAAGAATCATTATTTATAAATGGATTATCATTCGGAATTTTGTATGGTTTATTTATTGATGAATCTCTAACATTTATTCTTAAAATTGAACCAAGTAAAGTTTTTCCATTTTGTCCATTAAGGAATGGATCGCCTCCTCCACCTCCGTCACCTAATGCAATATACAAGTATCCATCAGGTCCAAAAACAATACTTCCTCCATTATGATTTGAATATGGCTGTTCAATTTTTATTATTTGTAATTCAGTACTTGATATTAAATCTGGATTATTTTTATTATCTGTAAATCTAGATATTATTGTGTTTCCATTAAAATCATTATAGTGTAGAAAGAAATAATTATTATTACTATAATTAGGATCAAATGCTAATCCTAAAAGACCTCGTTCGCCACTTAAATTTTGATCAATTCTATCCCTGATATCTAAAAATAATAATAAATCTTCCTCAGAGTCATTTTCCATAGAGAGTATTATGCCGTCTCTTATTACAATAAATATTCTTTCAGTTTTATCATTTGCATGTGTTAAGTATATTAAATTATTTAATTCAATTTCTTTAAATGCAATTTCAAGTTTTAATTCTTTTGAACTCTGTTCTAATTTATTTTCATTTTGAACAATATAGTTTTGATTTGAATTAGAAAATAATTCATTATAAATTAATGGATAATATAATATTCCAATAATAAAAAAAATTATTCCTGGAATAAATATTAATTTTTTTTGTTATTCAACTTAAATATTTCCTCAATTTTATTGATTTTGATACAACATCCAACCAATCTACATGTGTTTGTATATTACTCTTATTATTAATTATTAAAATCATTTCATTAACCACTTCTTCTATATTTCTATCTGATACATTGATTTCAAAAGTTTTATTATGACCATATTTTTTTAATGTATTATAATATATAGTTCCTATCATTTCTGATACTATGTTATCTCTAATCTTTATTTCATTATATTTTCTTTCATTATATCTTTTTAATAATATTTCAGGTGAACATCTAAGCACAAATATTTTTTCTAGTATTTCTTCATTAAATATTTCTGATAATAAATGACCAATTATTATATATTTCTCTCCATGAATCTCTTTTTTTATTTTCTTTTGTATTTCTTTAATATTTTCTATTACATATTCATTATTTTCGATTTTATGTAGATTATTATCAATTATAAATTGATTAATTTCAATTAAGTTAAATCCACTTCTGTTTGATACCATTTTTCCAATAGTTTTCTTCCCTGTTGCTGGATTTCCCGTTATTCCTATTATACTCATATAAACCATTCATAATTTTAGATATAATAAACATAATATGTGCTCCGGACGGGATTTGAACCCGTGTCAGCGGATTGAGAACCCGCTATCCATGACCTATTAGTATTTTATTTGGCCGAACTAGACGACCGGAGCTCGGTTAGTAGTTATAATTCTATAAAGTTAAAATATTAATACTTAATTTTTTTTAATTTCTGTTACAGCTAACTTGATATCTGATGCTTTTACTGTTTTTCTACCTGCATGTTTTGCATAAATCAATGCCTGTTCTGCAATTTGTAATCCAAATCCTTCTAAAACTGTTCTCAATTCTTCGGCAGCATCATCTCCTACTCTTTCAGCTCCTGTTTTTTTTATTATTCTGTAAACTGCTGCTAAACCAAATTCTAAATCACTCATTGTCGTAAGAAAAACTACTAATTGAAGTTATATAACCTTTTTTTACTTTAATTGTCTGTATTTAACTCGTTGAAGTTTAATTTTGACGAATTTGAGTTAATTGATTCTCATATTCATTTATCTGCTCCGGAATTTAATAATATGTATTCAGATTTATTTAATTATCTGAAAATAACTAAAACCTTAGCTTTTAATGTGTCTGAAACTTTAGACGATTCAATTATTACTATGAATCTTTCTAATATCAGTAATAATTTACTTTCATTTGTAGGAATTCATCCAAAATATTCATCTAATTCAAATTTGGACGACTTTTACCATTTTTTTGAAAAAAATTATCATAATATTAATGGAATCGGAGAAATTGGTTTAGATAAAACATATGTAAATAGAGGGATTAAATTCGATGATCAATTAAACACTTTCAAATATATGCTAAATTTAGCTGAAAAACATAATCTTCCTGTTTCAATACATTCAAGAGACGCTACACAAGATGTATTGAATATACTTTCTTCATATAATATATCGTGCGCAATGCTGCATTGGTTTTCAGGAAATGAAAGTCAATTAAAACAAATAAATGATTCAAATATTTTAATTTCTTTTGGACCAGCATTAGTTTATTCCAAATCATTACAAAGAATAGCTAAATCATCTAATTTAGATCGTATAATTGTTGAAACCGATGGACCTGTTCATTTTTCTGCATGTTATGAAGGTAAAATTGCTGAACCATCTCTTATACCAAGTATAATCTATAAATTAAGTATATTATGGAATAAAGATTTCGATGATATAAAAAATAATATAATAAAAAACTTGAAGGAATATATAGTTGTAAATCGTCATTAAATATATTGAAACGTGTATGGAGATTATCCACTCAAGTATTAGAAAATAATAATTCATTATTTACTACTGATTATGAAGAAAATAAAAAAGCATTAGGAACCGTATCTGAAATAAGTTCAAAAAAATTACACAATCAAATTGCCGGTTGTATAACTAAAATTAAAAATAATGAACAAAAAAATCTTAAAGATAAAGATATTAATTCAGATATAGTAGATGTTAAAATTTCTGATAATAATGAATCAGATTAAATTTTTAGGAAATATTTGTAAATATACTAATAATCCTAATTTATTAATTGATTTAAAGAATTATTCAATTAAACAGATGTTATCATTACTTGATAAAAAATTTAATTTTGAACAATCATTTTTAAAAAATGAAAATTTATTAATTGCTGTTAATAATATCGAAGTATCAGTTCTAAATAATACGGATACAATAATTAAAGATGGTGATACAATATCAATAATATCTATAAATCACGGGGGATAAATTTACATAAAATATCTAAAGATGATTATTGCGGAATTATATTAATTAATGCTCATCCCTCTAAAAATTTTTTAAATCAACTGAGAACTAAATTTCCTAAATTAATTATTCAATTTATAAATCCAAATTCTGTTATTAATATTAATCACTTAAAATGGGCAATAAAACAGTCATATTTTGCTAAAAAACGTAACCTACTTGCTGCTAGAGAACTAGAAGTTGATTTATTGATGCGTATTTCTATTACTGATCAAATTAATAATGCAATTGAAATTTCTGGAATTTCACCTAATAATAATTCATATATTATTGTATCAATTGGTAAAAATTCTTCTTTAAAACTATTCAATACTTGGATATATAATAATTTAAATTATTCGTCTGATATTAATTTAAATAATATGACACAATTTTTAAAATTTCATAATCTTAAAATAAATTATCAAAAAAAATCTAATCTTGAACTTGAATTATTAAGTTATTCTGCTGTAAAACTTATTACTAAATCTTCTATTGATATTTAATTTATTCACTATAAGCATTAATATATCTTATACATTTTGAAATATATGAAAAAATATCGTACTCCTTTATTAGTAATTAATTTTAAAAATTATAATGAAGTTTTTTTAAATTATTCTATATCATTGGCAAAAATATCTCAATCTATTTCTATAAATAAATCCGTTGAAATAATTGTTTGTCCACCAACTCCTGTTCTTTTTAATGTTATTGATAATGTAAATATTCCTGTATTTGCACAACATGTAGATGATTCTAATATAGGTAGTTCGACTGGTTCAATTATACCAGAATTATTAAAATCTATTAATTGTCCTGGTTCACTTATTAATCATTCAGAAAAACGTATACCATTAGAACAAATTAAAAATTTAATAAATAGATTTCGTTCACTTGAATTAACATCTTTAGTTTGTGCTCAATCAATAGAAGAAGTAAGTTTAATTGCAAAAATAAAACCAGATATTATAGCTATAGAACCTCCTGAATTGATTGGTTCTGGACGAGCTGTTTCAAAAGTTAATCCTAAAATAATTTCTGATTCAGTTGATGTAGTTGCACAAATTAATAAAGACATAGATGTTCTATGTGGAGCCGGAATAATGACTGCAGAAGATGTATCAATTGCTTTAGAATTAGGATCTAAAGGAATATTAATTGCTAGTGGAATAATTAAAGCAGATAATTGGGAAAATAAAATTACTGAATTATCTGAACCTATGATTTAATTCTGTACAATTATGATTAAATCTTTTTGACAAATAGGCGAAGTGATGTTGTATTATAGCTGATAATAAAAAAGTTATTATACATTATACATGTCTCAGTTCACTTCAAAGTGGAACAACGAACACAGCCCAGGAATCAGTGATAAAATTAAAGAAGTGATTCGTACTGACAAGGAACCTATAAAACCTAAATTTGAATATGCAGTTCGGCAAATAAATACACAAATAACAAAATTAGATCAAACAAGTCAAAAATTAAAAAATCGAGACGCAAATATTTTTAGTCATATTGTTGCATCTTTATCAAAACACGATAAATCACATGCTACTGTTTATGCTACTGAATTAGTAGAAATAAGAAAAATGAATAAAATTGTAACACAATCAAAACTTTCATTAGAACAAATTGCATTAAGACTTAATACAGTTTCAGAATTAGGGGATGTTGTTATAACATTAACTCCTGCAATGGGTATAATAAAAGATATTCAATCAGGTGTTATGAATATATTACCAGAAGCTGAACATGAAATTAGTGAAATTAGTAGTTTATTGAGTAGTATTTTAGTAGACGCTGGTCAAATTGGTGATAATAATATAAACTTTGCAAATTCTAATACAGAATCACGTCAAATTATGGAAGAAGCATCTACTGTTGCAGAAGAAAGAATGAACAACCAATTCCCTGATCTTCCATCTACAACAAATCCATCATCAACAACTAATTCATTATCGTCTAAAAATAAAATAGAAGATTTATTTGAGTGACAGAATAATTCTGTCATCTGTGGTTTTTCTAGTTTTTATAAATAGGTGAAAAAATGTTTAACATACTTAGATTAAAAATAAAAAATATTAAAGCACGTAATAAAATTAATCGTTCATTAAAAATTTTATGCAAACAACAAAAAGAGATATCTACATTACAAATTATATTAAATCAGAGATTAAATAAACTTAATTTATTATATAAAAAATCATTATCAAATAATGATTCTTCATATGATATATATAAAAACGAATATAGTGACATAGAAAAATTATTAAGCAATATTCGAATTAATGAAATCTTAATAATTAAGTCCATTAATAGAATGGAAACATTGAAAGATATACACATAATTACTAATTCACTTGAAATGGACATTCAAGAATACAAATCTATAGATGCCTCACTTTCAAATATTATGCCAGATCTAAATAATCAAATATTGATGATAAATAAATCACTAAATCAATCATCAACTTTACCTGAATTGTCAAAAAATGAGATATTTGAAGTAAATCCTTCTATTCAAACAAATATTCTTCAACCTATAATCAATCAACTTAAGAATAAGAGTGATAAAATTGAGTCAATTGTAAAAAATAATCAAATTACGTCTATAGGTAATAAAGAATTCAATAATACAAGTGAAACACCAATGAATTTTAAAAAATATAATATTCAATCAAATGATAAAATTAATCTAGATAATTCAATTACTGATTATATTAATGAAAATAATGGAAAATTTGATGTTGTTGACGCAGCAAATGAATTGGGTTTATCAATCGAAACAGTTGAAACAAAAACAATTGAATTAATGAATAAGGGGAGAATAAATATTAAACGGTGAAAATTATGAGTTCAGCACCAAATGTATTACAAACAACTGCACAAAAGTATGCTAATGAAGCAATAAAATTTGATTCGCAAGGGTCTCGTGGCACAGCAATACAAATGTATCAAAAATCTGTTGATGCATTAATAAAATTGACTAGATTATATCCTAATGATCCATTTACAAAAACTTATATTAAAACTGCAAAAGCTTATCAAGAAAGAATTAATGAATTACAAAATACTTCTAATATTAAAACAAAAGATGAAACAGAATCACAAACAAAAATTGTTGAAACATTGAAATCTTCATATGACGATGTAATACTTCAAGAAAAACCAAATGTTAATTGGAATGAAATTGTTGGCATTGAAGATGCAAAGCAAGCACTTCGTGAATCAATAACTTTTCCATCAATGAGACCTGATTTATTTCCTTTAGGTTGGCCACGTGGAATTCTATTATATGGACCACCAGGGACAGGTAAAACATTATTGGCAGCTGCTGTTGCATCTGATATTGATGGTCATTTTATGAATGCTGATGCGTCAACAATTATGTCAAAATGGTTAGGAGAAGCTGAAAAAAATGTATCTAAATTATTTCGATCTGCAAAACGGATTATTGATGATGGAGCTTCATCTGTAATTATTTTTATTGATGAAGTTGATTCATTATTTGGCAAACGTGAACAAGAAGTTGGTGGCGAATCTCGTGTTCGTAATCAATTTTTAAAGGAAATGGATGGATTTACAGATAAAACAGATAAAGGTAAAAATTTACCTCTTTATGTAATTGGGGCTACAAATAAGCCTTGGTCTTTAGATTGGCCATTTTTAAGAAGATTTCAAAAGCGTATATGTGTTGATCTTCCAAATCTTGACGCACGAGTAGAAATGTTGGAGATTTATACCTCCTCATTAAAAATTAATGATGGTGTTAGATTGTCAGATTTAGCCACTTCACTTGATGGATATTCTGGAAGCGATATAAGAGACATATGTCAATCTGTCCAATTAAAAGTAGTTTCAAAATTATTTGAATATGGTTCACCAACTCAAGATGTTGAACCTGAAGAAATTACATCAGCAGATTTTTATGAAATATTAGAAAAAAGAAAACCCAGTGTCTCATCAGAAATGTTACATGCATACAGTACTTGGTCAGATAATTATAAAGCACTATAATCAAGGATCAAGTCTATTTTGATCTCTTGGGTATAATACTACTTCTCTAATGTTATTTTTATTAGCTAGAACCATCATTAATCGATCAAATCCTAAACCTAAACCTGCATGAGGTGGCATGCCCCATTTAAATGTTTGAAGATGTGATTTGAAACTATCTAGATTTAATCCTGAATTGATTAAACTCTTTTCTAATTTAATAATATCATGAATTCTAACTCCTCCTGACGCTAATTCAATATTAGCAAATTGTAAATCAAATGATTTACTTAATTCTGAGTCATCATAACTAGAAATATAAAATGACTTAATTTTTTTTGGCCAATCTACAATAAAATAAAAATGTTTGTATTTCTTAGCAAGTATTGTTAAATCATGTTCAGTAATATCATCACCAAATTCTTTTTTATTATCCATTTTATTCAAATTATCTATTGCATCACTATAAGAAATTCTATTAAAATTATTAACATATGTTTTCAAATCTGATTTTAATAATTCTAATTCATCAGGCATGGATTTTATTAATTTATTGATTAAAAATTTAATTAATTCTTCACAAAATTTAATTGTTTCTTCATTATCACGATAAGCCCATTCAAAATCAATACTTACAAATTCATTTAAATGTCTAGTGGTATGTGATTTTTCAGCTCTAAAATAATGTGCTATTTCAAATACTTTTTCAAATGATATCATTAATTGTTCTTTATATAATTGTGGACTTTGAGCTAAAAATGCTGTTTTATCAAAATATTGTGTTTGAAATAATGTTGCGCCTCCCTCTGCTCCTTGTGATAAAATTTTCGGTGTATTAATTTCTGTGAAATTATTTTTTATAAAAAATTCTCTAATATACATTAATGAATTATGTCGAAGTTTAAATAATGCATTAGTTTCTGGTTTTCTTAATGCTAATGGCCTAAAATTAATATTAATATCTAATCCTGAATCAGTTCTACCTGTTGGATCTAATGGTAATGGATGTGTTGCATTATTTACAATATGAAGGTTTTCAACAACTAATTCTGTGATATTATTTTTTTTATTATGAATTAGTTTTCCACTAACACTTACTATGCTTTGTCTTGAAATATTTTCTATATTCTCCCATAATTTTTTTGAAATGAGATTTTTTTTAACTACTAATTGTAATATTCCTGTTGAATTTCTTAAGGTTAAAAATATTAATGAACCAATAGATCTTGAATCTTCGATCCATCCATTTACATTTACAATTTTATCATAAAATGATTCATCTATTATATTAAAATCTTCTATATTGTTCGTCATATTGCTATTATTCAACGTATATACAATACTGGTATATATTGTTCTTTTGCGTATATTGAATTACAATGGCAGGTAGTCCAATTCCGGAACCGTTAGGTAGAATTGCACATGTCTTATTAGTCATTGGCGGTCTTAATTGGGGTCTTGTTGGTTTAGCCAACACAAATCTTGTTTCAATTATCGCCAATGCTATTGGCGCTGATGTCGTAGGTACATTAATTTACACGTTAGTAGGATTAAGTGCTATAATTAGCGTTATAGACGTTGCAATGGCATCTAAATAAATAATATATTATATGAGCTGTGTGAATACAGCTCATTTTTATTTTTTATTATTTTATTTTATTAAATTTTTTCATATATTTAGCTAATTCATCTAAGAAATCAAATGATAAAAATTGAAAACCAAATTTATCATAAACAATTTCGCCTACTTTTCCCATAGTATATGTTCCAATGATAGCTGCATCTAGCAATTTATAATTCATCGCAAGATGTGTTGCAATAATTCCTGATAACATGTCTCCTGTTCCACCTTTTGTCATAGCAGAATTACCTGATTTGTTTAGAAATACTTGATTTCCATCAGTAATATAATCTACTTCTCCTTTTAATATTACAGTAAAATTATGTTTTTTTGCATATTCCTTTATTACTTTTTTACGTTCTTCTTCAGATTTAATTGATTTATCTATTAATTTATTAAATTCGCCTTGATGAGCAGTAATAACAACATTTTCTCCTTCTATACTGTTTAATAATTCATTATTTATTGCACCTGCATCTAACACCAATTTTACATTATTTTTTAATAATTTTGACACTAAATTAGTTAAACCAGCCATTTTTTGATTTGATAAACCTGGACCAATAACAAATGAATTAATGGTTTTTCTAAAATTTAATATTTTATTTGAATTTCCTATAGTAATTTTAGAATCAGATAGTGGATAAACTATTAAATCTGGGGCAAATGAACGTATTGGATTTGCAATAGTTTCTGGAACAAATAAATATACTAAATCACAACCAGATCGTAAAGCTGCTAATCCAGATAATGCAGGAGCTCCGTGGTATAGTCTACTACCTCCAACAATTCCTACAATACCATTTTGACCTTTCCGTGAATCAGATTTTCTAGGTATTATTTGATTTTTTAGGTATGCCTCATCAATTATCATGCAATTAAAAATATTGATAGAAAGTTAAAGTTATATCTTTGCATTTTTATGATACTCTATGGAATGAATAGTAAAGATATTGACCGCGGTTTTAAATTAGGTTATACTTATGACGATGTATTATTAATTCCTCAAAAATCAAGTATTTCTTCACGTAAAAATACTATTTTAAAATCAAATTTTTCAAAAAATATTCGATTAAATGTACCAATTGTAAGTGCAAATATGGATACTGTTACTGAATCAAATATGGCAATAAAAATTGCCAGTTTAGGTGGCATCGGAATAATTCACAGATTTATGACATTAGACGAACAAGTTAATGAGGTTTTAAAAGTAAAAAGATCTGAAGGGATTATGATTGAACAACCTATAACAATAAATCAAGATGGTAAGATTGGACAAGTAAAAGAATTAATGGCAGTTCATAGAATTGGAGGAATATTAGTTAAAGATGATTCAAATAAATTATTGGGAATAATTACTAAACGTGATTTATTTTTTGAATATGATGATAATAAATTAGTTCGAGATATAATGACAAAAGAACTAATTACTGCACCAAAAGGTACAAGTTTAGATGATGCAAAAACTTTATTTATAAAAAATAAAATTGAAAAATTACCAATCACTAATTCTTCTGGAGAACTTGTTGGATTACTAACTAGTAAAGACATTTACAAGCGTGAAAAGTTTCCTATTTCATCAAAAGATAATAAAGGAAGATTACTTGTTGGGGCTGCAATAGGAGTAAGGAATGAGGATATTGATAAGGCGATACAATTAGCTGATGCTGAAGTTGATACAATTGTTATTGATATTGCGCATGGGCATTCAGATCACACAATTAACATGATTAATAAAATAAAAGATAAAATTGGTAAAGTGGATCTTGTTGTAGGAAATATTGCTACTGCTTATGGTGCAAAGGACTTAATTGAAGCTGGAGTTGATGCAATTAAAGTAGGGGTTGGTTCTGGTTCAATTTGTATAACTCGTATTGTAACAGGAGCAGGAGTTCCACAATTAACTGCTATAATGGATTGTGTGTCTGTTGCAAAAGAACATAATATTCCTATAATTGCAGATGGCGGTATTAGAAACTCTGGAGACATCACCAAAGCATTAGCTGCAGGTTCATCTACAGTAATGATAGGTAGTTTGTTAGCAGGTACTGATGAAAGTCCAGGTGTAATAGTTTCACGTCCTAATGGTAGATATAAAATGACAAGAGGTATGGCGTCACTAGGTGCTACACTTGATAGAAGAATAAATGAAACTAATTCGATGGATGAAGAAGAAATGTTAGAATATGTTCCTGAAGGAGTCGAAGCATTAGTTCCATATAGAGGAAAAGCAAGTGAAGTAATTAACAAATTAGTAGGAGGATTAAGATCAGGATTAAGTTATTGTAATGCAAAAAATATTGAAGAATTACAAAAAAATGGTCAATTTATTCGAATTACTAGTGCGGGTAAAGCTGAAAGCGGCGCTCACGATGTTCATTTAGTGAATTAATTTTGAATAATAATTTAGAAAAAATAATTGACATCGACGTAAATACAATTAATTCATTTGACGACATGTTGAAGTCAATGGGGAAAATGGGAGGATTTAATGCTAGCTTAATTTATGATGGATATCAAATAACCAAATTTATGATTAATGATGAAAAGTGTTTAAAATTTTTATCTTTCCCTGCATCTATTATTGCTACTGGAAATAGAGGATTAATTAAAGAATTAGTTAAAAGAAATTATTTTGATATAATTATATCATCTTGTGGAACATTAGATCATGATCTTGCTCGTTCATATGGGGAATATTATAAAGGCGATTTTGATTTAGATGATATAGTTTTAGATAAACAAAATATGCATAGATTAGGTAATGTAATTATTCCAAAATTATCATATGGGAATATTATTGAAGAAAAAATGAAGGATTTACTTAATCAACTATATTCTTCCGGTATTACTAATCCATCACCTTCATTTTTAATAGAAAAACTTGGTAAAATGATTGATAATGAAAGTTCAATATTATATTGGGCTCAAAAAAATAATATACCTGTTATTGTTCCTGGTATAATGGATGGCTCAGTAGGAAGTCAAATCTGGTCATTTTATGAACAAAATAATGATTTTGCACTTGACGTCTTAAAGGATCAACATATCATTTCAGATTATGTATTTAAAGCAAAAAGAAGTGGTTCTTTGATTATTGGAGGAGGTATTTCTAAACATCATACAATATGGTGGAATCAATTCAAAAATGGCTTAGATTATGCAGTGTATATTACTACTGCAAATGAATATGATGGAAGTTTAAGTGGCGCAAGAACTAAAGAGGCTATATCTTGGGGAAAAATATCAAATTCAGCAAAACATGTTACTATAAATGCTGAAGCAAGTACTATCTTGCCTCTTTTTGTTAAAGGGTTAATTTCTAAATAGAATTTAAATAAGATAAAAATTAATTTATGTGTTTTTTTACAAATATAGGCGATAAGAATGGCATTTATATAAAACTTTAATCTCAAAATTATGTAGGATAAACAACTTGTCAGAACCATTAACATACATCGATTTTATAGCACCAGTTGTAGGATTAGCATCAATATTCTTTGCAGCGTATATTGCTATTACGATAAATAAATATGAAATTGGTAATGAAAAAATTACTAAGCTTTATAATGCAATTCGAATAGGTTCAAAAGCATATTTATATCGTCAGTATAGAACAATTTCAATTATAGCAGTTATTGTTGCAATTATTTTATATATAGCACTTGATTATCCAAGAGAAGATATATTTCCTAGAATGCCAATGGTTAGTTTTTCATTTATAATAGGTGCTGCATTTTCATTGCTTGCAGGTTACATTGGAATGGATGTTGCAACACGAGCTAATGCAAGAACTGCCACTGCTGCAAAAACCAGTACTGAAACATCTTTGAATATTGCCTATAGAGGGGGATTAGTAATGGGTCTATTTAATATAGGATTAAGTCTTCTTGCAGTTTCTGTTTTATTTTATATTTATGGACAACAAATTCAATTAATTATTGGATTAGCCTTTGGCGCAAGTCTTGCTGCTTTATTTGCACAACTTGGAGGCGGAATATTTACAAAAGCTGCTGATGTTGGCGCCGATTTAGTAGGAAAAGTTGAAGCAGGAATACCTGAAGACGATCCAAGAAATCCTGCAGTAATAGCAGATAACGTAGGAGATAATGTTGGTGATGTAGCTGGACGAGGCGCAGATTTATTTGAATCTATAACCGCAGAAAATATAGCTGCTATGATAGTAGGGGTTGCTATAGCTACTGCATTAGATGAACCTTCATTTGTAATATTGCCATTATTAGCTTGTGCTCTTGGACTTATTGCTACAGTTATTGGATTGCCATTTGTTCGTGCTAAAAACTTTACTGATCCAATGATTCCCATGAGAAATGGAATGATCGTTACAACAATATTAATAGTTATTGGACTATACTTTTTGATTACAAATACAGTACATAGTATATCTCTATTTTATGCATCTTTAGTAGGAGTTGTATCTAGTTTACTAATATTTGTAATTACTTTATACTATACTGCAAGTCAATATAGACCTGTCACTTCAATCTCTTCTGCTTCACAAAGTGGACCTGGAGTTAACATAATAACAGGTTTTTCAGTTGCATTAGAGAGTACTATCTTACCAGTACTCGTAATTGTTTTCGCTTTAGGAGGAGGATTTTATTTTGGCGAACAATTTGCATTAGAACATGCAAATATTTCTCCTCAATTAGGAGGTATTTATGGAACTGCAGTAGCAACAATGGGAATGTTATCAATCGCAGGAGTTATATTAAGTATGGATGGATTTGGTCCAATTGTTGATAATGCAGGAGGATTGGCAGAAATGTCTGGAGCAGATAAATCTCTTCGAGATAAAATTGATATTTTTGATGCTGCTGGAAACACGACCAAGGCATTAACAAAAGGATATGCATTGAGTTCAGCAGGTCTTGCAGCTCTAATTTTATTCCAAGCTTATCTTATCGATTTAGGGCATTATATTCCTGTAGAAAGTATCAATCTTATAGATCTAAACATAATAATTGCATTATTTATAGGTGGTCTTTTACCATTTGCATTTGCAGCGTTTGCAATAAGAGCAGTAGGAACAACTGCATTTCAAATAGTAGCAGAAGTTCGTCGACAATTTAAAGAAAATCCAGGAATATTAAAAGGAACAGCTTTACCTGATTATGGGAAAGCAATTGATATTAGTACAATATCTGCACAAAAAGGAATGATTATTCCAGGTTTGCTACCAATTATCGTACCTGTTATCGTAGGAATTGTGTTAGGGCCATATGCAGTTGGAGCCTTTTTATTAAGTGCAACTGTGAGTGGAACCTTATTGGCATTCCTAATGAACACAGGAGGCGCTGCATGGGATAATGCAAAGAAAAATATTGAAACAGGTAAATTTGGAGGAAAAGGTTCTTATGCTCATAAAGCGTCGATAGTAGGAGATACATTAGGAGATCCATTCAAAGACACTGCAGGTCCTGCATTGCATGTATTGGTTAAATTAATTAATACAATGGCTTTGACATTTATTCCATTATTCGTTATGTTTGCTCTGTAATCTTTACGCAAATTAATAAACAAAACAACAACAATATTGTAATATAGTAGTTTTATCTCAAGTTTCTTACGGTGGGATGGCGGAGAATAATTATTCTGCAACGGTTACGCGTGCGCCTGCAGAGCGCATCTACATGGGTTCAAATCCCATTCCCACCTTGTTAATATTACAATATAATTCATCAATTTAGTAAAATTCCTTACCGGTTATTTTTATTAGATTTATTAATTTTCTTGAAATATATTGACTTAAATTATCTAATTGTTCTGAATTCATATTATTACTTAATTTAAAAGCCAATTCTCATTCCAATTCTAAAAATAATTAATAATCAATCTTCTAAAATTTAAAATAAGGTATCTAAATTGGTTTATTTGATAATTGGAGATAGTTATTAGGGCATTTAAATCGTCTTTAAATACAAATCATGCATCCTAAAATTAGGTAATTAATATGGTTGAAGCATATTGTGTAAAGTGTAGAACAAAACGAGAGATGAATGATCCACAAAGTATTACTATGAAAAATGGTAAGCCTGCAACTCAAGGTATATGTCCTGAATGTGGAACGAAATTGTTCAGAATTGGAAAGACACCCACCAATTAAATCATCTCTCCCATTCTTTTTACATATATAAAATGTCGGAATCAGTAATCAATGCTCCAAAAGGGCTTTTAAGGTTGATTATATTAGACCAATCTTCAAGAAATCCAATTAGTGGAACTGAAATAATCAAATATATAGAATTAATAACTAATAATGAATGGTCTCCTAGTCCAGGTTCAGTATATTTGATACTAAAAAATCTACTTGCGCAAGAATATTTAACAGAAATATATTTGCCAGATAACACTCACAAAAAATATGGAGCTACGTCAAAGGGCAAATCAATGATGATAATAGAAAAAGAAAAATTAGAGAAAACTTGGAGAACTAACATATATTATATAAAAATAATGGCAGAATTACTAAATATACATGAATCAGAATTTCTTAATATTATAAAATCTCATCTATTGAATTCTAAGCATATATAACAAATTATTCTGAAAATAAATTATTCCATTTTTTACATATATAATAAGAAATACGCCAAAATCCTACTGTTGGAGGTTTAGCAGGAATATCAAAAATATTACGTGAATATACATACATAGTTTTATTATTAGATTCATTCCAAATTGGAACATTTTTTTGAATAAAACCCATATCAATTAAGGTTCTCAATACAGTCATGTAAAAATTTCTTCTGCTATATTTGAATAAAATGCCATTATCTAAAGCTTTCCCAAGTTGAAGACTATTCGCAAATTCACTTACTGAATTTTTTGTTGCATTACCTCCAGAATTTTTTAACCAAATTGAGAATAATTCCGCAGCATTTTTTGTACGTTGATCTGGAAAAATTATTTCAAATACATTTTGTGTAGACATTACTTTTTCTTCAGATAATGTACGCATATGCGATTTAATGGTAGCTGGCACAGAATAATATTAAATATACACAAATTATTGTATACGTGTCAAAAATAAATAGTGTTTTTGTTAAAATAATCATTATTATTTATTAAAATTATTAATAATTATTTAGAATACAACAAACAGCCTCATTACCAAGGTATGAGATTCCAAAGAAATCTCCTGTTTATTGAATTCAATTGCGGATCATTAAAATCATAGGGGAGAAAAAGCATAATGATCCTCAATTAGACTCGATGTATATAATTATACAACCGCAATATTTTGTTATTTGATTGATACTCCAGTGATTGTGATTATTTTAGTTTGAAAATCATCATATCCTGAACGAATTAATACTGTATTGAAATTATTGAATCGTTGATTAGTTTCCATATTAAATTCATATCTTCCTTCAGGGGTTTGTAATTTTTCTTTGTAATCAAAAGCCATTACTGTACCGATTCCAAATATTAACAGAAATATTGTTAAAATTGAGATATTTTTCATAAATGTATTTTTCATAATTAATATTATATGATTATGTATAAATATTATAATGACAATTATCATTAGTGGATTCCAGATATGGAAATGAATAAATTATGATTATCAAGGATGAAAAACAGAGAAAAGCAATTGTTGAAGCTCTATTAGATGAATATTCAAGAAAAATTTTATGCTCAACAACTAATCAAGCAAAATCAGTCATCGATATTATGCGCGAACAAAATATACCAATGACTTCGACATATAGAAAAGTTAAATTATTAATAGATAACAAGCTCATCAAAGTTGAGAGATCTTTGCTTACGGATGATGGAAAACGATATTATTTATATTTGAGTTCAATAAAAAGCGCATCAATTTTATTTGAAAATGGTGAATTAATTGTTGAAATTATTCCAAATATAATGGAAAAACCAGAAGATAAATTATTACGTAGCTTTACTAATATCAAAGAGGCGATGACATAATGGAATTCGAATTACTAATGTTAAGATTTTTAAAGTCTTTAATTGGCTTACTTGGATTACTTCTAGCCTATCTTAGTCTAAAAGCATACAATAAGACTAAAGCTACAAATATGCTATTTCTTGCAATAGGATTTAGCATAATTACTGTTGGTTCAGTATTAGCCGGTTTATCATTTGAATTTCTTGGATTTTCTTTACGACAAGTTAACATTGTAGAATCCATAATGATATTGTTAGGGTTTGTTATGTTAGTATATTCAATTTATGGAACTGACTGAGGATCAAATCTCCCATATTCCAATATATCAAAATCTCTAACTTTGTTGATTATATATGGATCATTTTCAGCAATTTCTAATGCTCGTTCATATGAAACTGTGTGAACAATAATTAAGCCGCCAGTTCCATTTTTGTATCTACCTGCTACTATTAATTCTCCATTATTGTGTACATCAATAAGATATTCAAGATGTTTCGGTCTATGTTTATTCATTATTTCAATAGTAGAAATTTGATTTTGTAAAATTACATAATATTGTTTTTCCATAATTATATTACAATAGAAATTATAACTTAAATTATTCTATATATGTTAAATTTATGTGAATTATAATCCAAACAATTATGATTATACAGTTATAACCAGAAAAATTGAAAAATTCATATTTCAGAAAATTAATGAATCAGATTCAACTGGAATAGTTATTGGTCTTAGTGGTGGTATTGATTCAAGCGTATGTCTTGCGTTATCTGCCAAATCAATATCGAATCATAATATTCTTGGATTAATTCTGCCAATGAAAGGAATTACACCAGAAGAAGATGAACAAGATGCAATAAACCTTGCTGAACAATTCAAAATAGATTATAGAATAATTACGTTAAATGATATATACAATTCATATATGAAAGAATTAACTGATAATAAAATTGCGCAGGGAAATCTATTAGCAAGAATGAGGATGTCTTTAATATATTATCATGCAAATTTATTAAATAGAATAGTTATTGGAACTGGAGATAAAAGTGAATTCATGTTAGGATATTTTACCAAATATGGAGACGGTGGTGTAGACATTGCTCCAATTGGTGATTTATTTAAAACACAAATTAGAATATTGGCCAAGAAATTAGACGTGCCAAACAACATAATTAAGAAAAAAAGTAGTCCTAGATTATGGAAAGATCATGATGCAGAAGATGAATTAGAAATGACTTATGATGAGGTGGATAAATTACTATATATGATCGATAACAATAGTATCAAAGAGAACAATTTATCAACGCAAGATAGTACAATTATTAAAAAAATTAAAAATAGGCAGAAAATTAATTATCATAAATTAAAAATGCCAGATATTTGTAAAATTGATTAATTTTAAAGAGTTATTCCAAACTTACGAGCAACTGTTTTTGCTTTTTTAAGAAAAGTTATTTGATTATTAGTATTAATTGAATTTGTTTTTTGTAAAATAATTGCGTCTTCATAAGTCATTACAAAAAGCTTATTTCCAGTTTCTAATTGAAGTTTATTACGAACGTCAATAGGTATTACAATTTGTCCTTTTGCAGACATTTTTGTTGTATCGATATATATATTTTCCATATAAAATAGGTATTTATATCAACATATTGAGATTAACCAAAAATATTCTTCACACTTTAGTTAATCAAAATTGGTTTGTTTTGATAAATTTGACATAATTAATATAAAACTATGGGTAGAATAATCACAATATTAACTATTTGGTTAGGTGGATTCTTATTTGGGTTCATTGGATGGTATGCATATCCATATATAGGAAACTTGATGCAGACTTTAATGCCCATTGTATTGAATATTGTTGATATACAAATAACATCTGCTTTACTCACTGGTTTTGCAACATCGATAATTACCGTAGTAATAGTAGTATTATGGGCAAATAGAGACAAAAATAATAGATTTTAAATACATTTTTAATATCTCTAGGTCTCTATATTATATTTATATATAATTTAATATAAATTTAGGAATCATGACAGAAAAAAATATAATCATTACAGGAATTACCTCAGGAATAGGAACTGAAATAGCAATAGATTTAGCTAAAAAAGGACATATAATAAATTTAGTTGCAAGAACACATGAATCAGGAAACAAAATCAAAGATAAAATAATTAAATTAACAAATAATGAAAAAATTAGTGTCTATAAATGTGATTTAGCATTGCAAAGTGATATTCATGAATTTGTAGATAATTTCAAAAAACAGAACGATGGTCTTGACATATTAATAAACAATGCAGGGATAATACCAAAAAATAGAATAATTACAAGTGAAGGAATAGAAACACAATTTGCAGTAAATTATATTGCCCCATATTTATTATCTCGTCTTTTAATAGATTTATTGAAAAAGAATTCTCCTTCAAGAATAGTACATACATCATCTACTGCGCACATGTCAGGAAATCTTAATGTTAATGATTTTCAGGGGTTAGATGAAAAATATAAAATGTGGGGATGGCGTTCATATTTTGATACTAAATTAGCTTTAACAATAGATACTGTAGAGCTTGCAAAAGAATTAGAAGGAACTGGAGTCACTTGTAATGCAGTTCATCCAGGATTTGTAAATACGAATCTGGGCAGATATATTACTCCTAAATTCCTTCTTAAAATTATGGGAATATTCATTTTATCTTCAAAAGGCGGCGCAGACCCAATTATTGAGGCTGCATGTTCAGACAAATATGAAAAGGTATCTGGCAAATATTTCCATCGATTTAAACAAAAAGAAGCGTCAAAAAAGGTTTTTGATAAAGACGTGGTCGCTAAGTTATCTGAATATACTGAGAGTATTACCAAAATAACAGGTTAGAATTCTTGACCAATACAGTAGTTATTGATCATGATATTATTGGTTGGGCTTATAGAAATATGCCGAGAATTAAGTCACAATATGATGATATCAATATAATAGGAAAAAATAGTTCTTCGGAAGAATTAATGAATAATAACATAAGTGATTTGAACATTGCACAATATTGCCTTAAAAATAACTGTGATTTAATTACTGCAGATACAAAATCTTATATTGATTGGTTTAATGCTTACCCTGGAATAAATAAATTAATGATTTCAAAATTTGATTATTGGAATGAAGGTCAAAGACCAATTTTACTTATTCAAATTAAAAATCTTAAAACTAATTTAGAATTAAATCCTAATGTTAAAATTTTAAAATCATTAAACACAGCACCTGCAAGATTCAAAAATAAGATCATATCAATGGTTAATGAATCATTAATTCAATTTCCAGAATTATCTGATGATAAAATTACATTAGGAATAACTCATGTCAACGATGGAAATGCAACATGGGAAGATAGCTACAAAATTAGATTAAATCCCAGAAGACTGACATATTTTACAATAGGACACGAACTAACACATTTATTACAATTTAAAGGCGATTTACCTTCGACTGAAAAATCTACGGATGTTTTCACACTTGCAAGATCGATGTTGTTTCTTGACGAACCCCCTTGCTATTTGAAAGTATCAAGAAAATTACAGAATTATTGGGAAGAAAATTCACAATCAATACATCAAATATGCAAAGATGCAATAGAATATAGAAAAATACATAGAAATTATATAAAATGGACAGAAATAAATTTAGAAAAATTAAAAATTAATAAAAAGCAAATTGGCCCCGAGAATTAATTAATACTCGGTGGCGTTCGAATTAAGTGATGAACCATAGATATATAAAATATATCTCAATCCGATAATCATTACTTTAATATTTTAAATATAATTCCGGGTGTTGAATATATTTTATGGATAGAGTAAATTATTTGCATGTTTAATTTCTTCTTCAAATGAATCTTCTGCGTCAATTGACATGATAACAACAACTACAGTTCCATTATTCGAGTCAAATGCATGCATTTCTTCTATCTCCCAACCTTCATGTGCTAAAATATTTAATTCTCTTTCTACTTTGGATTCAGATCCAGATAATATTTTATAGGCAACTTCATATTCGACTCCATTTTCAGTAATTTCGTCATCTTCATTTTCAAATTCATCTTTATCAGTTTCTCCAAATAGATTCATATTAATGATATTAATTTGAAAGTATATATAACGTATATGGAGATTTTTGATAAAATCAATATACAAAAAAATGAATTGTATAAAAAAATCATCAATTCGTCAAATGATAAAGAGAACGTTGATAAAGCAAAAAAAATATATAGCGAATTAGATAATATGTTGAAAATTTGGGTGGAAACTAACGATAGTATAAAATTTACGGATGAGGATTTACAATCAATATCACAAACAGCAGAACTTATAATAAAGAGAGCAGAAGAATTTTTATAATCAATATAAGTTGAGTACAAAATGCGCGTCAAACAGAAAATTACTAATTTTCAGAAAAAATTATTATATTATTTTATTTCTATATTTTTTATATTTATAATTTTAGATATATTAAATATATTTCCTTATGGAATTGGTAGAATTCCAATTGAACCTAAATCTAATATTCCAGGAATAAAATATTTGTACGCAATTGGTTTTTCCTATATTTTTTCAATAATTATGGCAATTATTAATCCAAAAAGAACATTTGTATTTTTATTAGCATTACCACCAATTGTATTAATATATAAAATGATAAAAAAATTAATCAGATATTATAAAAAATAAATGCTCTATTATTTTGATTTTAATCTTATAATTACACTATTTTTATAATTAATTCTTCTTAAAAAAGTAATTACGACATAGATTATACTATATTTTGATTGAAATTTTTGACTTATTTTTTGATAATCATGCATACTTAGTTCAAGTACTTCAGCATTTGCAGAAAGCTTGTTTCCAATAATCCTACCAGAAGAGGTACAAGAAGCTATAATTACATCATGATTATGCTTTATTCTTTTTACCTTGCCTGACGATTTAGATGTACGAACATATCCAACATCATTATCGATGATTGCCCATACAGGAGTATGTATTTCTTTTCCTGATTTTTTATAAGTAGTTAAACTAATTGTTCGACTATTAATAATTTTATTAAATAAATTCAATACGCATCATTTGATCTAATTTAATTATATAATTTTGAACTAATATTTTAATATATAATAATTCATATAATTTATTACTAATGATAAATAATAAAGTAAAATTAATGTCAGAACCAATAGTAAAAAAAGGAATTATCATACTAGGAATTATTTTTATTGCTGCAATTGCTTTGTTTTTAATCGAAATCATAATTTACTAATACATATCGACGTCGATATCAACATCGATATAGGTTCAATCTAAACATTATTATAAAATAACGTAATTATCCGGTAACTTTAAATGATATAATGTCATAATTATTATTGGATTTCAGCAAACAGGAGATTTCTTTGGAATCTCATACCTTGGTAATGAGGCTGTTCGTTGTATCCGATTTTACAATCATTCAAATTAAAGATAACCATTGATTAAATACCAATCTTCCTGTATTATTTACAAGTTCAACGTTATGTTCAAGATTCTCTAAAATATCATTATCTTTTAAAGATTCAGTAATTAAATCGGACTTGAATTTTATAACTATATTTTTTACAATATCGCTTGTAATTTCTAGATGAAATAACAAACCATAACATTTTTGACCATAATTAAAGGCCTGTGATTCTGTCATTTCACTAAATGCTAATTTTCGACAGTTATTTGGTAATGAAAAAACATCGCCATGCCAATGAAAGGCGAGAAATTGTTTGTCAACATCATTAAATAAAGAACCCTCCGATGTAGAAAGAGTTACATTATGCCAACCTAATTCATTTCGTGGATTTTTTGATATTTTTCCGCCCAAAGCAGAAGCAATGATCTGACTGCCTAAACATATACCTAGAATTGGTTTATCATTTTTTATGTAATTTTTAACTAAATTAATTTCGGTCTCAATGAAAGTATAATGTTCTTTATCATTAACGCTCATTGGACCACCCATAATTATTAGAGCGTCGTAAGAAGACAAATTATAACCATTTGAATGTTCGCTTAAATTAATACAATCATACTCTATTCCTTTTGATTTCATCAAATCCAGAATTATGCCAGGAGTTTCTATTTCAACATGTTGTAAAGCAAGTACTTTTTTATTAGACATAATTTTACTATTGAGTTTTTATATAATAAACTTGATTGCATAGAATATATGCTAAAATGCCAAGAATGTGAATTTGAGTTCTCTGGAGAAGGTCCAAAATCAGAAGTTGTTTTTGAAGAATCATGCCCTAAATGTGGCAGTTATGAAATATTTGTAAAAAGAGGAAATCCAATAGTTAAAACAATCTCAGGATTGTTTATGTTATTTATTTTAACAACAGCAGTCTTACTTGGTCTAATTTGGTACTTTTTAGCAATATTTTGGTAAAATCACTCTAGAAGCCTTTTATCAACTAATTGGGCCATTTTGATCATGTTTTATCAAAAATTAAATAGATTTATTAACAAATTATTTTTACAAATTATTAGGAGTGAATATGATGTCATTTAGAGACAACCGCGAAATGCATAAAGCTACTTGCTCAGATTGTGGTAATGAATGTGAAGTACCATTCAAACCAGACGAAGATCGACCAGTTTATTGCAAAGAGTGTTTTTCAAAAAACCGAAGGCCAAGAAATTAGAAAAATAGTGAAATAGTTGTAAAAACTGATTAAATTTTTATAATTTTTACTAACCCAGTGGTAACTATATCAATTAGATAGTTTTTTCTAGTATTTTTTAGTATAATAAAGCAATGTCAAATTCTAATTCAAAATATATAGTCATAATACTAATTCCTATCATTCTAGTTTTAGGATACTTTTTACTATTTTCCAATAATCAAAACGAAGACAGTGTTTCCAAAGTTGTAATAATTGAAGAAGAAAATGTAGTTTCCATCAAGAAAGATTCTGTTGTTGATGTTAATCGAGCAGAACCGGTTGTTGAACCAGAAGTTATTGTGGAAGAACCAGTTCCAGAAGTTGTTGATCCAGAACCTGTTCCAGAACCTGTTGTAGAACCTGTTCCAGAACCTGTTGTAGAACCTGTTCCAGAACCTGTTGTAGAAATACAAATTTTAGAAGGAAAAGTAGAAATAATTATCGAGAATGTAGAATTTATTCCTAACGAAATTATTATTCGTGTTGGTACAATAGTTACATGGATCAATAAAGACGACAGCGATCCATTATATCCAGAACATACAGTTTCAATAGACATATTAGAAATAAACTCGCCTGAAATAGTCTTCGGTGGAGGTCCAAATGAAAAATGGAGTCATACTTTTGTCGAAATAGGAGAATTTAGCTATCATTGTAATATACATCCGTGGATGACTGGTAAAATTATTGTTGTAGATGAGTAATAATAAATGATAAATGAATATACACTGAATGATTGTTCCGAAATTCTTTATGTTGTAAATGACGCTGCCACAAGATATAAAAATGTCATCCCTACTGATTGTTGGTACGAACCCTACATGTCGGAAAGAGAACTATTAAATGAATTTAACGATGGAGTACGAATGTTTGGAGATCGTCATAATAACAAATTAATCGGAGTAATTGGATTCCAGGAAATAAAGGATGTTGTTCTGATAAGGCACGCTTACACTTTAACTGCCCACCAGGGCAAAGGCACGGGAAGCACTTTACTTGAATATCTATTGAATAAAAATCAGGATGCTCGTTTACTGGTGGGTACTTGGCGAAATGCTAAATGGGCAATTCGGTTTTATGAGAAATTTGGCTTTGTTCTTCATGAAAAAGAGGAAACTGAGTCATTGCTAAAAAAATATTGGAATATACCGTTGAAACAAATTGAGAATTCAGTAGTATTGGAAAGGCATTAGAAACTGCGAATATCTCGGCAAACGCAACTAATTTTTATCAATAAATATTTCCAAAAATGAAATAATTACAAATGTTATAATAACTGCCATTAAGCTATTAAAATTATAATAATGGGTTTTGAAAAATTATAGCAACGGATTTTGAAAGTAATGTTCATTTTAATGAGGTTGCAAATTACTATGAGCGACTAAGAGAGGATGTATATTTAATTGATATAATTGACGTTATGAAAAAATATATAACGAAAAATGATCTTTTGATGGACATTGCCTGTGGAACTGGTAGAATATCAACCAATGTGTGTAGATCACTTGATCTTAGACTTATACTAGTTGATAAAAATATCCGCATGCTTAATGTTGCAATGAAAAAAATCAATATGCGACATGAAAGGAATAAATTGATTAATATGGATATTTATGATTTCTTAGAAAATAATGGAAAGACGGATAACGTAAAGATTAATGACATTAATATATTTACATGTTTTAATGCAATACATTGGACTGGGTTAGGATTATTTAAGAAACTTGAAGAAAAGATGTCGCCAGGGTCTTTATTCATTATACTAACTAGAACAAAGAAGCAAAATAATGAATCATTTTTTGGGTTGAATTTTCCAAAGTTTGCCGATAAAGAGACTCGTCTTTTTTCGTTAAATCAATTACTTGATGGATTCAAGGAATGTAATTTATCCGTAGTAGAAACTAAGTTTTTAAAATATCAAATATTGCAAAAAAAATCCAAATTATTAGAACAGGCAAAGAAAAAATCATATTCAACCTTTTCACTATATTCAAATGAAGAATACAAAAAAGCAATGAGAATATTTAAGGATAATATCTCCTCCAAACCGGAGATGTTAAATGTGCAATATGAAAATTTGTTGATTATTGGAAAGAAACAATAGAATTTAGTAAAAACTGCAAATATATAGTAAAGTTCAGCTAATTTCTTCTTTTCTTTATTTCTCTCCAGGACGTATGTAAAATCCCAGCAATGACAAATGCAGCGACCCCGAAAAACAGCGAGTCCTCGAAAAGCATATTGTTGACATAGATATTCCAGATAACTGCGCCAATTCCCGTAACCACTGACACTCCCAAAATGTACTCGTTGCTTCTTAGAGACATGCTATATCGTATTATTTTCCATTATATAACGCTAAGGTCCGAGTAAACTTAGTTAGCCTCGGCTTATACGCAGTTATGTTTCGCTAGGGTGGGTGTATTTTGGTGTAAAGTGTCGTTAAGTGCAGTTATCCACAATTATTTTATGTTATTTTGTCATATATGCAATTGTAAATACCAATGACTGAAGAAAGGAAAGAATATGAAGATGGCTCAGTTTATGTGGGTGAATTGAAGGACGGAAAGAGGCACGGAAGAGGAACCTGTACATATTCTGATGGAGTTTATGATGGTAAATGGGAGAACGACGTGAAACACGGAAGAGGAAAGTGGACATATCATAATGAGAGATTTCAGCACATGAATTATGAAGGCGTATGGAAGAATGGCAGACAGATGTATACCAGAAATAAGAAAACCCAAGAATGGGATTTAACTATTGATGGTGAAATGGACAGAAAAGAAGAAAGCCGCGGGATTGGCGGGTATGATACGGATAATTCATACGTTGAAAGAGGATCATAAAATGAAAAAACCGCGAATATCTCGGTAAGAATAATTATCCACAACTAATTTTAGTTATTTTACTGTGTAAACACATGTGGGAAAGAAGAAAAATTCAGAAGACAAGTTCCAATGGACTGCAGGAACAGTGGCAGTCGCACTTGTGGCACTCTATCTTTCCAGAGGACTAATCGCCACTGTAATAGAGGGAATAATACTTTTGATAATATACATAATCGGCATTTTTGCAGTTGCGTCTGGGGCATATTTCGTCTGGACAAAAGGAGATGAGAGATGGGAG
>sequence02
AGAAACACCAACAGTAGAAAAGAAAATAAAACGAGGAAGAAAAAGCAAAGTTGTAGAAACACCAACAGTAGAAAAGAAAATAAAACGAGGAAGAAAAAGCAAAGTTGAATTTGCAGATCTTACTGCAAGAGTTTATGAAATTGTAGTTGAGAATGGAAGAGAAGGAATACTACAAAGTGAATTGTGGAAAAAATTAGGTTTGAGTAGTAGAGAAGGTTCTAGATTAGCTATAAAATTAGAAAAAAGAAGAATAGTAGATAGACAAAAACTCTTGGAAGGAGGAAGGTGGACATATAAATTAACACCAGTTAAATTTCCAGTAAAAATTGATTCCATAGAACATATTCCATGTATAACATGTCCAGATGAAGAAAGATGTTCGGCAACTGGAGTAGTTACACCATTCAATTGTTTATTGATTGAGAATTGGGTCATTGCTGAACAAAATAAAATGAAAACAAAATAGTTTATGGAGAAATTATATTTTGCGATTAGAAGATGCTAAAAGAGATCATTATAGAAAGCTAGCAAAAGAACAAGGTTATAGAAGTAGATCATCTTTCAAGCTTATAGAATTAAATAAAAAATATCACATAATTCATCCAAATGATAATATTATAGATTTTGGGGCAGCGCCTGGTGGTTGGTTGCAAGTAGTGTCTGAATTAATTAAGCCAGATGGTAAAATAATAGGTATAGATATACTACCAATCAAGCCTGTTGGAGAGAATGTAACTATACTTCAAAACGATATAAGAACAAATGACTTTATAGATAGAATATTAGAAATTTTAGATACAAAAGCAGATACAATATTATCTGACATAGCGCCAAATATATCAGGGATATGGAAAATCGATCATAACAATCAAGTAGATTTAACTACAACAATCGTAGATAAATTTCCAAATATGTTAAAAAGAAATGGCTGTTGTGTGTTAAAAGCATTTGATGGGCCAAAGTTAAAAACGTTAGAAAATGATTTGAAAAAGAATTTTAAAAATGTGAAATTAATAAAACCAAAAGTAAGTAGAAACCCAAGTAGTGAATTATATATCGTTTGTAGAGGATTCAGATAAAATTCTATTAATATCATTAATATTTCCATTCGTTCGAAAACCTGTAGGATGAAGAATAGTCCTAGAACCAGTTAAATTATAATCATGTAATTTAGATATTATTCTATCTATTGAAAAAGAAGAGATTCTCAGATTCTTAGAAATTACATCAGTAACATAATATAAAGGGGGCATAGAGATTTCAGTTAATGCAATTTCAAATAATTTTGTTAAATTATCATTAATAGAATGACTTAATGCTTCAGTTAAGATAGATTGATCAAATAAATTTCCAATCCAGAGAGGACCTGCATAATTACAATTAGAAGAACATAAGTCACATGATAAAAATAGTGTTTCAGATACAACTCTATGATTACATTGAGTACAATGTCGAAGAAAACCAAGTTGTCCATCAGAAGAGGAAACAGAGTCAACAATTTTTACATAAACTTGAATATAATGTTTATTAGTATGACAAAAAATTGGTTTTATTCCAAGTTCATATCGAGATGAAATAGTAGCTAATGAAAATAAAAATATTCTAATTGCAATCTCATTAAAGTATTCAGTCTTTAGAGACAAGCTACCATATTTACGTAAACAAACTTTTGGATATACACCACAAAGAACTGCGCCATCAGTAGCAGTGAGAGAGAGAATTCCATTTATTTTTAATGCGCGAATAGCAGAATCAATATATTGTATTGGAGAGCCAAATGGATCTATATCTATAAAATCAAAACGATTATCTTTATTTGTAAAAATAGATAAAAATTTATGCGCTTCATTTGTAGATACTTCAGAAATTGAATTTAGTTTATTTTTTTTAAGAGATTTATTTAGGAATTCAATGGCAATAGGATTAACGTCATTAAAATAAATTTTTTTAATATAATTAGATTCATTTGCTAAACGTATACCAGTTGCACCGACACTAGATAACACATCAGCAAAAGTTAGTTTTGTATCAGAAGTAGAAGCATAAGTATTCAATAATGTAATAAGTATGTCACGTTTGAATTTTGCAAGTGTGTTAAAAAATGCAGGATTTCTTGGTGGAAAAGAGTTATTAATACTGTTCTTTGGAACGTAAAATTGTGTATTGCCTTCAGTAAATAAAATATTTGAATGATTAAGATTAACAGACATAAATAATCATTTCGAAGGTTTATTTGTTTCACCTTTAACAATAGTAAGCATCTTGGCAATATCTTGAAGAACAGATGTTTTCTTATTTTTTTTATCAACAGATATATAACCAGAAGTAATTGAAAAACGCCTAGGATGGATGGCATTGTGTTCAACAGGATTAAGATCGAGTCTTTTTGCAGCCTCAACAAGATCAGATAATAAAGGATTTTTAATCGAACGATTTTTTGAAACTCGTCTACCTTGAGAGCGAGAGTACAAAGAATTAAAATAATCTAGCCATATTATTTGTTTTTCATAATCTTTCAATAATTAGACACTCCATTGAGTTCATTTTGTTTTTAACAAAACAACTAGATAAATTCATCTAATAATTGTTTAGAAATACGTTGATCTGTATCAAGTGGTTGCTTAACTAATGGTCCATGTTTCAATACAGGTTCATCACCATCATAAGTAGGTTTTTCAACCTGATAGAAAACCCCAATTGGAATACTTTCTTCCCATTCATGTGATTTTTTTATTGCTTGTTCTAGATTAGTGGTATCGTGATCCTTATCTTCTAACTTATAAACACGATCTCGAAACCATTGATAAGTTTGAATTTTATTATAAGTAACACATGGACTAAGAACATCAACAAGAGAGAAACCATCATGTTCTATAGCATTTTCAATTAGAGTAGATAAGTGATCAGCAGTACCAGAAAAACCCCTTGAAATATATGTAGCGCCAGAAACTAAACCCAATACAATAGGATTAATACGAGTCTCTAATACTCCAGATGGTGTTGACTTTGTACGCATCCCTCGATCACTAGTGGGTGATGCCTGACCAGTTGTTAATCCATAAATCTGATTATTCATAACAATATATGTGATATCAATATTACGCCGCATTGAATGAATAAAGTGTCCCAAACCTATTCCATATCCATCTCCATCACCACCAGTTGCAATGACAGTTAGATCAGAATTAGCAAGTTTAACTCCATTAGCTACAGGAAGAGATCTACCATGAATTCCATGAAATCCATAAGCATTTACATAACCAGGTAAGTTTGATGAACAACCAATTCCGGAAGTTATAACAACATTTTCAGATTTAATTTTTAAACGAGCAAGTGCAGTATAAACGCCACGTAAAACTGCAAAATCTCCACATCCAGGACACCAATCAGGTGTTGTTTCTGATTTGTATTCTTCAATTTTAAGAGATTCTACTACCAACTAAATCAAATCCTCAACTTTATCTATTATTTGCTCCAAATAAAAAGGCTCGCCATCATACTTAAAAAGAGAATTATTTATTTGAAAACCTGTTTCCATTGTAATTAATTTAGAAAGTTGGCCACTATAATTTCCTTCAATAACAAGAGTGTCTTTACTGCGTGAAAGTATATTTCCAATTTCTTTGTGTAGTGGTACAAGATATTTTATATGTAAATGATTAACATTTTTAGAATTAGTTCGAAGTATTTTAGTTGCTTCGTGAATAACATTATAATTAGAACCCCAACTTACAAGTGTAAGATCTGCATCATCAGGACCTTCTAATTTAGGAGCTACAAGTTTTTCTTGTATAAATTTCATTTTTCTCATACGTTTAAGCATAATCTTGGTACGAATCTCAGGATCTGTAAATACATCACTTATTATATTCCCATAATCATCATGTTCATCACTACTAGCCTGAAATATAGTATTGGCAGTACCAGGCATAGCACGAGGAGATACACCAGTATCAGTAAATTTAAATCGTCGATAAATATCATCAGAATCAATTGAATGAATAAGTTCGCCTCGATCAATTGTAGTATCAAAATCGAAGTCATCTATAGATTCCATATGTTCGGACAAAAACAAATCAGATAAAACTATGACAGGAATTTGGAATTGATCAGCCAAATTAAAAGATTCAATGATAGAATAATAACAATCTTCAACGGTAGATGGTGCAAGAATGACTTTAGGAAAATCTCCCTGTGATGCACCAATTGCCTGAAAAAGATCTCCTTGTTCAGTTTTTGTTGGAAGACCGGTAGATGGACCACCTCTCATAGAATTAATTATTACCAGAGGTGTTTCTGTTTGACCAGCTAATCCAATAGCTTCAGACATTAAAGCAAATCCACCACCTGATGTTCCTACCATAGAACGTACACCAGTAAATGAAGAACCAATTGCCATATTAATAACAGAAATTTCGTCTTCTGCTTGTTTGACAAGCATACCAGTTTTTTCAGAATGTGCAGTTAACCAGTGTAATATTGAAGATGCAGGAGTCATTGGATAAGCAGCATAAAATTTACAACCGGCTAAAACAGAGCCTAAGGCAAGAGCTTGATTACCAGTTAGGACAGGTATTTTTGTATTATAATCAGGATTTAGATTAAAATCAAATTTTGGAAGATTAGACTTTGCATAATTATAACCTGCTTCAGAAACTTGTAGATTCAGTTCCATAACAGATTGTTTCTTTAGACCAAAATAATCACTAATAACACCTTTCATAACATCTAAATCAAGATCAAGTAATTGAACAAGAGCACTCAATGCAACTGTATTTTGAAGTATAGGATTTTTTCCAATATCTTTCAGAATTTCTTTTACAGGCAAGGGACAAAGAATTACATCTTTTGGTATTATACTTGGATCAGGTTTAATTTTATCCCCATTATATAAGACAGCACCACCAGGGACTACGTCGACTAGATTACGTTGAAATTCCAATGGATTTAATGCAATTAAGAAATCTACTTTATTACCATGAGAAAAGATTTTCTGACGACCTGTACGAAGTTGTAAATAGATAAAACCTCCACGTATAACAGATTGGTAGCTATTGTATGCGAGAAGATGTAAGCCACTACGTGAGCAAATTTTTGCAAACGATTCACCAGTAGATGCAATGCCATCTCCTGCGGCTCCTACAACTCTTAAAACAACTTCTTCTTTTGACATCAGTAGAGATAAATGCAGAATTTACATTATTTAATCTTACGAATTAAAAATTTTAGCAATTTTTCGTCTTTATTAAAGGAAATCAATTCATTTCCTGACTTTTTTACCCAAGATTTAATGTCTTCTTCTGCGACAGGATCGTCTGCAAGCACTTCGAGTACTTCGTTAACATTCATTTCATTAATGGTTTGCTTGGTTCGAAAAACTGGTTCAGGACAAAGAAGACCTCTCATATCAATAATGTGATTTGCTTTAATAGAAGAATCATCTTGCGCCATGAATGAAATACAAATGCTCTTCAATAAATAGTTATTTAGTGTGTCATATATCATACAAGAAGATTAGGAAAACGAGGAATAATTATGGAGTTTAGACTACCGAGAGGGATGAGAGATATAGAAGATGAAGAATATACTAAAATTGAAAGAATAAGAGATTCTTTTAATGATACATGTAAGGTATTTGGATTTAAAAAATTAATACCATCTCCAATAGAGATGCTTTCAACGCTTGAAGCAAAAAGTGGTCCTGGAATAAAAGATGAAATTTATAACTTCAAGGACAAAAAAGAAAGAGAACTTGGTTTAAGATTTGATCTTACAGTGGGAACAACGCGTTATGTAGCAGGCAAAAAAGATTTACGAAGGCCTTTTCGAGTAGGAACTTTTGGTGATATGTTCAGATATGATGAACCTCAAAAAGGAAGATATAGATGGTTTCATCAATGGAACGCTGAAATTTATTATACAACAGGACAAGATGATTCTATAAATTATGTCTTGGAACTACTTGAGTTTTCAACATTTCTATTCAACAACATTGGTATTGAGAAATTCAAAATAAGATTAGGTCATAGAAAAATAGCGGAAACCTTTGTAAACGGTTTGTTGTTTGGAGAATTAAAAATTCCTAATGAGAAGAAACAACAAGACGAAGTAAGATCTGTTCTCAGACTATTAGATAAGATAGAGAAAAAAACGAAGAAACAAATACTTGATGAAGCAGTTGAAATAGGTTTAGAAAGAAATAAAGCAGAAATATTAATTAGGTTTGGAAATATCAAATCAAAAGATAGAAAAGAAATTGAAGAAAAATATATTTCATTATTAATTGAATTAAACTTAATTGTTAACGAAGTTTCTGTTATGCCGATTCTTGATTATTTTAAAGGAATTAACAACATAAAAAACATAGAATTTGATTTGGGATTAGTTAGAGGAATAGACTATTATGATGGTTATGTGTTTGAAATAGTTGATATAAATAATAAAGAAATTGGTTCAATAGCTGGAGGAGGAGAATATAGTAGTTTAATTGAAAGTTTTTCTGGTCCAGATAATTTAAGTGCAGTTGGAATAGCAGGTGGAGTTGAAAGAATGATGGTATTAATTGAAAACGATAAAGATGAAAAAGATAAATTAATATCAGTAATTGCTCTTTCAGGTAATGAAACTGAAAAATTAATTAATTTGCTAAGAAATAACAATATACCTACAACCTATAGAAAAGTACATGAAAACGATATAAAGAAAGGATTGAAATTTGCGTCGGTAAACAATGCAAATATTGTGATAATAATTGGGGAAAAGGAACTATCAGGCGGGAAATTTAGAGTCAAAGACATGAAAACGGGAAAAGAAGAACTCGTTAAGAAAGAAAACATAATTAATTTTATTAAAGAATTAATATAATTATATTATAAGAAACATAGTAATGAGAAATATATTATTTGTTTGTTTAGTAGTTCTAAGTATTTTATTTATTATGCCGCCAGTTTTTGCGGCAAGTAGTAATTTTGACATGGATATTAGAACATTAGACGACACATCCACAATTACAGAAATTGCAATTACAAAAGGAAATAATAAAACAATTAGAATAGATCTACCAAAAGTAAACTCGGCATTTGAGGGAACAGTAAATCTGGAGATATCAGGTTTACCAACTGGGATGGAACCAACATTCAGCTCAACTTCTATAAGCGATTGGCAAGGAGCAGGAAGTACACAACTTCATGCAAACTTAACTCTTGAAGCAACAACTGGGGCGCCAACGGGGGATCATATAGTTACAATCAAAGCAGTAAAAAGTAATGATACTACTGATTTTGTACAAAAAACAATAACATTATACATTTCTGATTTTGATATATCTACGAATCTAGGAAACATTGAATTGACACCAGGGAAATCTGAAGATATCATCATAACAGTAAGTTCTAAACAAGACGGTGATGGTGACGATTCTAAATTTTCAGGTGAAGTTGAATTGTTACCAGTATCTCTAAATGGAGGAACTATAGAATTTATTGGTAGTATAAATGTTCCGGAAGGAGGAACAGATACTGCAATAGCACGAGTAACTATAGATAATGATGCAGTTCCAAATGGCGATGGAGTTAATGTTGAAATCTATGGAAAAGTTGGAGATTTAGAAAATTTTGTAACAATTAAAATAAAAATATTAACAAATCCGTTATTTGTTACGGTTGTTACTGATCCAATAACTAATCCACCAATGGCAGTAATTTTTCAACCAAGGGTGCTATCTGTAACTGTAGAAGATTCATCAGGAAATTCTGTAGTAGATGCATCAATAACATTTACAAAAATAGGTGGAAATGGTACATTTGAAAATTCAGGAATAACTATAACAAAAACAACAGATGGTAGTGGAAAAGCCACAGCTACATTCACAGCTAAATCAAAAGAATCAGTCGTTATCTCAGTTGATGCAGTGAAAACAAATTATGTTAGTGGAAGTTATCAGGTCGAACTTACTATAAAAGGAGGGATTTTGCTATCAGTCGACCCCATATCAGAACTAATTAATGCAGGGGATTCAAAATTAATAACAGTAAATATTCAATCTTTAGATGGATTTAGTTCGCCCATAGAACTATCATTTATGACTACTCCGCCCCAACCTGGAATACAAGTAACTTTTTCTGAAAATCAATTAACACCAGAAGCAAATGGTCAAGCAAGTACTACAATGACAGTATTCATTGAAAAAGGTTTAGGGACGGGACAGTACCCTATAGAAATAAAAGGAACATCGACTATAAATGGAGAAATTTCATCGTCTGCATCTTTATCAATTACAGTACCAATAGCAGAATTCAAACTGAGTGTTACTCCAGAAGAGATAACAGCATGGCAAAATGATAAATTTGAATTAATTTTAAGATTAGAATCAATAGGCGGTTTTGATGGAACAGTTCAACTACAAGAAACTGTTCCAGAAGGGATAACAGTTGACTTTGAACAGAAATCTGTTCCATTGAGTCCGGTGGGAGAAAATTCAATAAAGTTTGTCACTGTAACTATTACAACAACGACTGATGCAGAACCTACAGAACGCGCAGCATTAATGTTTACTGGAACGTCTGTTTCATCTACTGGTTCAGCAGTAACAACTCGAACATGGTTAGAATTAAAAGGATTGTTTGAAGTTACAATTGACGCTACAAGTAGAATTGACGGAACTAAATTTGTAGTAATTTGGGTAACCGATGAAACAGGAAATCTAATTCGGACAATTCAACCAAGTGAACTTCCATGGTCAGACAATTTTAAAGAAGGAGATATAATCAAAATAAAAATAGACAAAGGAACTATTGATGAAGATGAAGTTTCAAGATGGGTTTTCAAAGAATGGCAGGAGGATAAAACAACAAGTTTAGAACAGGAGGTAATTATTGACGGGCCAAAATTGTTTTTTGCAGAATTTGAAAAAGAGTTTTCCATCAATATACGAACACGTCCAATAGGAAGTATGGCAGGAATGGTTAACATACAAGGTTCGGGATGGCATAAAGAAGGTTCAACTGCAATATTGACTACAGATGAAATACTGATTGAAAGGGAGAATGAATCAAGATATAGATTTGATAAATGGGATGGATCGATAACAACTAATGAAATATATGTGGAGTTACTTGTTGATGGTCCAAAAGTGATTTATGCAGAATATGTTAAACAATATAAAGTAACTAAAATAATAGAGCCGCCTTTTCTTGCAGATATAGTAACTACATTTGATGATGGATGGTTAGATCAGGGTACTGAACTATATCTTCAAACGCCGAAGAGAGCTGATGAATATGGATTTTTGCAATGGTTAATTACAGGAGATAATATTAATTTGTTGACAACAGCAAATCCCACAACTATATTTGTAACTCAACCACTAACAATCAGAGTTCAATATGACTTACTTCCTATAGTAAAAATAGAATCAATAAGAATGCCAAGCAATGGATTCGAAGGAGAAAATTCACAAATGTGGGTAAAATTATCAAATTCAGAACTAAGAGGAGGTTACGTAGTAATAAGAGTGTCAACTAACATCAATGGATTAATTTTAGGACCTACCGAAGAAGAGATATTTCTTGCGCCAAATGAAGTAAAAATATTTGCAGTTTCAATGAATTATACAAGACCAGGAAACGGTTCAATAGATATTATGCTAGAAAAGACAGGAAGTTCAGATAATGAAGTTAGTACGGAGTTGAAAATCTTTTCAATAAGTGACAAGAGACAAGTAATAAATACAGGATTGGTACTTAGTGCTAAATATTTACCGCAAATTAATGAATGGATGGTTCCAAATGAAAAAGTACGAATTTGTTCATCGGAAATTTTGGAACAAGCAAGAATTAGTGATGATGCTGCAGAAATAGATAAGACGAAAGCAATTTTACAATTTGTAGTAAATAAAATACAACCTACGTACAATACTCCAAAAAGTGCATCTGCTCTAATAGAAGACTTTGGAATAATTGGTTGTATTAACAATGAAGAAAAAATAATTGGTGATACTAGAACTTATCAGATTTTATTGGGAAGTTTATTGAAATCTTTGGATATAGAAGTTAGGCCAGTAATTGGAGTGATGGGGATATCATCAAACATGGATGCGCCAAGTGCAATGATGAATACATGGATTGAAGTTAAGTTAGATGACGAATGGACAATTATTGATCCAATTAATAATATTATAGTAAATGAAATAAACAAACCCACGAATATAAATCAAGAAATCAACTATCGGCAAATGTATGCAAACATACCGGAAAATGGTGGAATTTTATATGCTATGATTTATGATTGTATAAGCATTTGCAATGTAGACATTACCAAAGAATATAGTAATGTAGAATCATCATTAAAAGTTGGTTCAATATTATTTGTAGATGGAGATGTAAATATAGAAGTGCAAGATTCAAATAGAAATTTTATTGCAAATGGAACAACAAATCACTATAAATGGATTGAAAATGACGAAAATGAAATGTATATTAAACTAATTATACTTTCAGAAGGAGTAGATTTAGAATATATATTAATGAAGATTAATGGACAACTAGGAAAAGAATTTGAGTTAAATGGAATGAGAATGATTAATTTTGAGCCACAAATAAAAACAATAAAATCTACATTATTATCAAAAACCACTTCAGAGTTTAAATTACTATCAATAGAAAATGACTTCGTACTAGCAGAATTTATAAGTTTAGAATATAATAATAGACAGATTGAAATTCTTTCAACGACGTCTTTAATTAATCAGATACAACAAGAAAGATTAAATGCATTTCAAATAACAACTACAAATAATCAGAATAATAATGAATTAATCATTTTTAAAATACCAAACTCAATTTTATCGGATATTGATTCTGATTCGTCAAAAATTATAATTATAATGAATGGCAAACAAATTCCAGTAGAAATTATTGACGATGGAGTATTAACAACAATTACAATAGATAATTTCAAAAATACTTTACAAGAAAATTTAATCTCCATATATCTCAAGTCATATGACGTAAATATAGAATTAAGAGATCCACTAAATCAAATTATTAAAAATGCAGACATCACAATGATTGGAGAGTTTGTCAACATCACAAAAATAAGTGACGAATCAGTATTTACAAAACTTATTCCTGGAAAATATGAATTTACTATAGAATATCGAGGAGAACAAGAAACAATTTCAAGAAGAATTAATAACAATGATGTCGATGTGCAAATGCAACTTTATCGATCAGATTCAATGATTGTATTTATCATATCAGCAATATTTGCAATAATTGTAACAATAGCTTATACAATACAAAAAGCATTCTTAAGAATACTACCAGGATATACTAATGGAAAAAATAATATAATAATAGATATTTAGTTAGATTTTAGTAATTTAGAAATATTACGATCGTATGTTGTAATTGTGTTTTCGAATTTTTTAAAATCGTCTTCGTTAACTTCAAATTCATCCCACAAATCAAGTTCTTTAATATATTCTTTAAAACGTTCATATCCAGGTTTAACAGTTTCAATGATATTCTCTAATTTGGCGCCGCCTAGGAGTAATAATACATCCAATCGATCAGAATTTTCTTTAACCGGAACGATTTGAATCATAGATTCTTTTAATGAAGGAAATCTTTTTCTGTTCCATAAATTAAAATCATTTTCCAATTTTTTATTAGAAATAGAATCAAGAACATTTTCAGGTACACGAATAATAGCAATGTTTAGAAATATTGATTCGTACTGAAAAGGAGATAATGGAAAATATGCAGCGTCGTCAAGTATATTTTTTAGATTGTCGTAGATTTCATAACTTCGTCCATAAACATAAACTGGCGAAAAAGCCAAAACCCTAAGAGATTTAGCAAGTCTACCAAGGTTATTAATTGCATGGCCATTACTAGTTAACAATTGTAGTATCCTAGGAATTAAGAAATCAGATCCTAATTTCTTTCCTGAACGATCAATACCAATCATTTTATTTAATGCGGAACCTTGCAAAACAACAAGCATATCACCAGAAGTTTTTTGATTTCTTACCAAACGAGAAATTCCACAATAAGCATTAAATTGTACTTGATCAGTTTCACTACTCGATGGAAGAGAAGTTAAAACTATACGTGAAGCTTTAGGATTTATTTGTTTTAACTTTTTAATTAAAGGAGGAGCAATACCTGAAACAAGAGTTTCGCCCATTGAACCAGTAATTATTGCAGTTTGTTCGTCAATATTATTATTAATACCAATACGACGAATTTTATCTTCAAATTGAGCTAGTTCAGAAAAATTATTCTCAAACTTACTCCATACATTAATTTTTGAATCATAATCAGTATTAATTAAATAGCAATTATAATCATTAGAAGTATTTTCGTCAGAAATATTAGAAATGTTTTTGGAATCAGCATAATCAATTATAAGATAATTCAATAATTGTTCAGAATAAGCAGAATTTTTCAAGGACGTAAGCATTTGTGAGCCAAAATCGCCAATTCCAAAATTAACAACCTGGTTATGATTCTCTAAATGAAGAGTTTTGAAATTATTTAGCAAAATGGAAAGTTCTTTCTTGAAATTTATTAGAGGGAGATTACAAGATGCGCAAAAATCTAGACCACGGACATTCTTATGGCCAACTGGACAAAGAATAAAGGAATCATGAGCAAACATCTTACGATTATTAGAACGTGTCATCATAATATATAATATTAAAGGATAATAAAAATAATTAGTTTAGATAGACATAATTCCTATAAATTATTAGTTAATAATAAGATATAATGAAAAGTTCAGAGATCATAGGTCAATTTCAATCAGTAATATTAAATCTTGATAAAAAAGAAATAAAAGGCCGTCTTTTAATATCAAAGAATATTATAATATTTGAAAAAAAGGTAGGATTAATAGTAAAAAAATTTGAACATGAGTTTTCTATAAAAATCGAATCAATAAAAAAAATTGAAAAAGAAGGATATTCTAAAATTGTAATTTCGCATAAAAATAACGAAGTAAAAACAAAATTAACCTTAGATACACCTATTGAAACTAATGAAATAATTGAGAAAATTAATAATATAATCAATGAATCAATAAGAATGGAACAAGAAAAGAAACAATCAGAAATTGATGATAGAGTTAATCAGGCCAATTATGTTATCTATATCTACAATATCGTATTCAAATTATGGTCTCTAGTGAGTTTATTATTTATAATTATGAAAGAAACTACACAGAATAATTGGGATGCAGTAGATGCAAAAATAAATAATTTTAATGATTTAATACTAGAATTAGACAATAATAAAATCAATCTGAATGATGAGGCAAAGAATATTAAAACATCAATTAAAAGTAGAGACTCGATAACAATAATAAATTCAATAAAATTAATGATAAGTTCATTAGGTAAATATTTTGAAGGTCAAATTCCTTATGCTGATTGGAAGGATTATATGACTACTACGAAACCAAGATGGGAGAATTTACAATTCTTTTATCTTTTTACTCTATCTGTGTTTCAATCTTATTACTTTGAAAATATGGAAATGTTAGAAGGAAAAAAAATATCTCAAGCTAATGTAATAAAATATATGCCTATAATAAATATTCATTTTGCAAATGAATTATTTGATAAAACAAAATATTCAACAAAAACACTTAGAGAGACAACAGACACAATTGAGCAATTGATAAATGAAACAACTGTAAAGTTAGAGGATTTATTAAAAGATTCATTAAAACAAGTTAGTTTATTAACCTAATTTTTTGTAATCTTTGAGAGTATGTTTTTGTCTGTATTAAAAGCAATAGTAGATTTACCAAAAGCAAAAAGTTGTAAGTACTGAATGGCATATTTAGACTTTACAGGTAATTGTCTAGGAATTACTTGTCCTTCAATCGCAATTAATGAAGAGATTAGGGGTTCAATATTGACGTAATTCAAAATGAATTCATTCATAATCAGATATTTTTTTAGTGTACTTGCTTCATTTTCGATGATTTTTATTCCATATTCGATATTAGATAATCTATCAGACAAATCAGATGTAGATTGGTCGTCAAGACGACTTAGCGAAGATTCGATTTCTGAAATCAATTGTGTATCTTTACCCCAAAGAAAATCCATAGGTACTCTTGAATCATTTCGTTTTTCAAATTCTCTTAGTAATAGTAAAAGCTCACTAATAACAGTACGAGTACCGGATTCAAGAAAGTCTAATCTATCCATGACATCAGGAAGATATAGAATACCTTCAAAGGTAGAAAGTTCGTCAATATTTATTTTAATTTCTGCGGCAATAGCATTAGTTTCTATATCACGAGGACCATGACCAAGAGATTCATTTAATGGAAGAATGTTTGATTCATGCATTTTAATTGATCTTTGAATTAAACGTCTAAGGTTAACAATTGTCTTTTCCATGGTACGATTATATCTTTTATGAAGGGAAATAATTGTTACAAGAAGAGTATCTAATGCTTGTTCTCCTTTTGCTTGTTGAATAAAATTTTCACTGACAGAAATTGAAGTAGGTTCTAATGAAGTATCAAAATGAGTTCGGACAACTTTAACAAGACTTTCAGTAACTCGAATAGTGTTTTGAGAAACTTCCAATAAATAATCATTTAATTCTCTTTGATTTATAAGAACATCGTCAAAAGTTGTTTCAGAATCATAGGATAAATGCTGAGGATTAATAGAAGGAAGATTGCTAATACCTAAGCCATCTAATTGCCCAATCATATCCTGGCATTTATCGAGTTGATTATTATGATAATTAAGAACTTTAAGGTTTAGTGAACCGACATTAGATGATTGTTGAGAAGCTAACGTAGAAATCTTTTGAGATTTCTCTTTCAAAGCATTATATGACAGAGTGTTTAATCCATCAAGTGTTATAGCAACATCTTCTCTAAATTCATTGATAGAACTAAATTCATCGCTTACATCAATACCAGGACAGATAGATTGTATTTCTCGAAGTTGCGAATCTGAATCATTAATTGTTTGTAGGTTGTTATTACAGAGTTCCTTAACTGATTCAGTGAGTTCCGCGGCCTCAGAACGACGTGACATAGTAATTGAAGATAGTGAAACTGCAACTCCAAGAGTACCAGCAATAAGAATTGATTTAAATGAATTAGTTGAATTGAAACCTGTATAATAATCAAAAGGAATTTGCATAGTTTGTAAAGGAATAATAAAGAATATTGTTCCAATAATCAATGATATTACATAAGAATAATTAGGTAAAACGCTTAATTCAACACCGCGGTTATCCATCCAAGGCCAAATTCTATCAAGTACACCCATAAAAGAAAATGATAGAATGAGAAGTAATGGAAAATAAAATATTACCAGATTATCAATAAGTATAAACAAATATGGGTGAAATATGTTGTTTTGAATGGAAAGAAGTCCAGAAAAAGATTCACTAATTACTGGAATATCAAATGATAACAACCTTGGACTCTGTTCATAAATAATTTGTGTGAAGATAGGTATTGAACTATCAGTCATTAAAGAATAAATCTCTTGAGGTCGCATAGTAGTAAGATTAACAGAGAGGTGATTAGAGAATGCAAGTGCATTAAATGGAACGAAGATTATGAGAAAAGAGAACAACAGTCCAATATTACTAAAGGAGTCATTGTTATCTCTAATTAATGCATAAAAAAGCATGAGAGGAATTGCAACAAAATAATACGGAGTTAAGAATAGAGTACCTGCAGTTACACCAAAAATAATAGTAAATATATGACTTGAATCAGTTAATGATTTAGCTAGAAGTAGACCGACAATAAAGAAACAAAGTAATAGCCACCAAAAAGGAATTGATGCTTGATATAAATATGCTGGAATAAATAAGATGAATGAAACTAAAAATCCTGCTGTAATAGAACGAAAACCAATAAAACCAGCAAGTAGTGAAATAAGAAATACTATTGGTATTGGATATAATGGAATTATATAAAGAACAGTAACACTAAAGAGGAATATAGCACTTGCAAAGAGAATTTTTTTTAAGTTTTTTTGATATTCTTTTTCATTTTCAATAGCATCATCAATATTTGTAGAAGACTTGAATCCAACTTTATCAATTACGGAGGAATTGATTAATTTAGACAATGTATTTTCACGAAATTCATATAAAATTATGGATTTAGATCTTCATCATGTCTAGTCTTAGAGAGTTCATGATTAGGAGAAACATAAACTCCTTGCTCTAAAAGATATGAATGAGAGAGTAATTTCTCGCCCTGAGTTGTACCTTTATAAAGAATATCCATTTCTTTGAATGTTTCTAAGTTATTTATAGTGCCTTTTGCAGCAATTATAAGGAATCTCATAGTCCAAGGATCTGTTGACTCGACTTCACGGATATAAATGCTCTTGGATGCATCGTGAGAAACATAACCTGATAACATAGTTTTAGCCTCTGAATCAAGATCGGAATCCCATAATCCACGTGGACTCACTACAGTAAACCAGAGATAATCAGTCCGATACTTTTGAGTTAAGCCTAAAGTAGCAGGAATTCTAAATATACCAAGTGCGCCAGAAAGATATTCTTTCAGATGTTTACGATCAATTATTTCATTTAGCATATTTTCTTGCGTAAGTGAGGCTTCATCTTCAAGAAGTATACGTTGCATAATTTTTAGTTGCTCACCTTCAGTTAGTTCAGCAACACGATCATAATAACCTCTATCTTTCATTGATTCATTCATCTTTTCGTAATAAGAGTTTTGTAGTGTTGTGGCTTCAGTCAACATCTTTCTATAAGATGATGCAACTTCAAACTTTCTTTCGATATTTTGATATGCAGAGAGTTTGAGTTGAATAATTTTCCGTTCTTCAGATATGTGTTCTAATTGTGAATCAATTATTTTGAGTTCATGTTCAAGATCTCCTGCTTTGCCTTGCATGTATTTCTTCTTTGGACCAAGAAAACCAAATTTAATCTTCTTAGCTTGACCGCCCACTCTGTTTTTTTCTTGTTCTCTACTACGTTTTTTAATTGTAAGATTTTCTTCCTCGGATTTTAAAACTTCTAATCTTTCAGTTGTTAATCGTTTCATTACTTGACAGTCACTAAGTCGTGCATCAAGTGTTTTTACTTCAGTCTCAATAGGAGCAAGCAAGGATGACAATATAGCAAAATTGATTACAAGTTCTGGATTGTTGATTCTTTCAACTGCTTCTTTCATTCGTGTATGTAATTCAGTATTTTGTGATTTATCAAGTGTTTTGTTAAGTTTGTCTGCAAGATTACTGATTTGTAGGTATAACTGTAAGCCATCAAGGTAATGATCGATGAGTTCAACTAGATTAATTGTATCATTAATGATTTGAAGTTGTCTTGGTGTAAGACTCTGTGCACTAGGTAAAGTACTACGTAAATCTTCAGTTAATTGCTTAACTCGATCTTGTAAAACTTGATAGTTTTGTGATAGATTAGTACTAAAAGATACTAATTCTTCGGAAAGAGTCCTTATTCTAGCTTCAACAGTTCCATCAGGAGCATCAAGACCTATTGATAAAACAGATCTTGATAAATCATTAATTAGGGCCCGAGTAGAATTTTCCACTCCACGTATATGCATAATTAAATCAGCGTCCATAGATACCCCTTCACCAAGGAAGTTTTGTACATTTTCTTCAAACCTGGATTCTTCATAGGTATTTTTCTCGATGCATATTCCACGATATATTGCCTTTAATTCGTCAAAGCACGATGATAAAATAATATTAAGACCAGAAGATTGTTCGTTTCCAGAATAAATATCTAATTTTTCTTTTCGTAATTCACGTAGTTTATCCAATTTATCAAGATAGATTTTTGTCAGTTCAATAAATTCAGCAACAGGATAAGAGACTTTCAAAGTAGATATTACGTTTACCCACTTCCCTCCTAAATCTACATTAGAACCAATATTACTAAATAAATCAGCTAAATCAAAATTCAAAGATTTCATTAGAATGTCAACTATTGCTTCGTCGACAAGTTTCCTAGCATCAAGTACACTACCTGTTCTACTATATGCAGGTCCTAAAGACATCATAAGAAAAGCAGTAAAAGGATTTTGATACGGTTCTCCATAAGAACTTACAATTTTATGATTTAATGAACGATCAAGAGAAAATTCATGTTCGAGAAGTGATGCATAACAAGAAGCGCCTTTAGCAGGAGGATCGTCACCACCACATGGAAGAATACCTAAACCAATTATTGGTATTCCACTACCAATTTTCTTTCGTAGATGTCGAGTAAAATCTAATGCAGTTCCACTACCGGATCCTCCACCAAGCCCATAAACAACAAAAATAACTGGTTGTATAGTAGAGGTAAATACATGTTCTTTAAATTTATCCATATAACCATCAACAAGTTTAAGATGATGATAATTCAGTCCATAAATTGCTTTTGATAAGGCGCGTTTTCTTCCAACACCACCAGCTAATGGAGGAATTTCCATTGATGAAGATAACCAAGGTTGATAATCCTCTGGTACTTTTATGCCGTCACGTTCAAGAAAATCTGGATAAGATTTAATAAAATCAAACATTGATTCAGGAGTAGGAAATTTCATAGTTTTGCTTACAAGATTAATTTTATCGGCAGGAATTCCATTTGTTTTTAAATCGTCAGACAGATTTTTGTATGCCATATCTAGGCTGCGTATATCATGATCTGCAACATCTAACGCGAGAAGAGAGACTTTGATACCATCGTGTTTAAGCAAAGGAATTAGGGTATCTCGATTCTGGATAAAAGACTCGATAATATTTGCACCGGTTCCTCCCAATCCGACAATTTGTATTGAACTAGTATAATCAGACGCCAAATCAATCACTACTCTAATTCTTTAAGCTCCTTTTTAATAGTTTCAAGTTCATTTGCTAAGGATTTATCAATCCTAGATGCTTTAATAAGTAATAAATCTAATTTATTTGCTTTTTCATCAACAGTACTAATAAGAAAAGAATGTACAGAACGTGTTCTGAAGAATAATATTCCAAAGATAATAGTTGTAAGAGCAAGAATTATACTTGCAATCAAATACATCGTAGCAATAACTGGTGAATCCGGATAGTCTGAATCAGGAATTGTTTGAAGAAGTTTTATTGCATCATCATAAAATCCAAAAGTAGTGAGATATTCAGCTTCAGAAATTACTTCAAGTGCTAATAAATTATATTTTTCTTCCATAGAGATTGAATCAAGTTTTTCTTTTTTAGAATTTAAAAGTTCGTCATATGTAATAATTGTTTGATCTGTAATTGTATAAGTTCGTTCATCAAGTATTTCCATAGAATCTAGTGACAACACAAGAACAGGAAAGATTTCTAGAGCATGAATAGTTTTATCAAGATCAACTAAATCTTTTTCAGTAATTGCGTGAGGTATTTGTCCAGTCAAAGTAAATTGAACAATTCCCTCAACAGCTTGAAATGTAATTGATTGTGAACCTGGAGTCCAAGTAGAAGTATCAATACCGTCATAATTATTATTCAAAGTCCAAAAATAATTTCCGGATGGTTCCATACTAGTAGTCAAGAGTATTTTATCAGATAATGTTGCACCAATTTCGATTTCAAAATTTATACTGTAAACTCCTCCAGCAACAAGGAAACCATCAGTAACATCATTACCGTTTGGATCAAGTACAGTGAAACTAGTTATTACAGCAGGTGCTTGAGAATATGATACCGGAAGTACAATCGTCATAACAAGTAAGAATAAAAACAAATAAAGAAAATGAATACCTTTCATTAAATACATACTGATATTATTTATTATTCAAATATATATTTTCACCAAGATTTCTACTGAAAGGAACAAGCTTGATGATTATTTAGAAGAAAAGGCCTCATCAACTGCAGATTTTGCATCAGAAACAACAAAATAATTAGCATCAGTAATTAATGATTGTTGTGAAATTAGTAGATTAACTATACCGCCGGTATTATCAAGTAGAATAACTTTTTTGTTAAGATTTATAGCCATAGAAAGTTCAGAAAGAGTTCCCCAACTTCCAGCAATTCCAATTACTGCATCGGCAAGACTTACAACAAAAAAGTTTCGAATTTTACCAAGAGAAGTGTTTATAGGAATATCAATGTACTTATTCGCTTCCAATTTATCTTCAACAGGTAGAATTCCAACAGTAATTCCGTTTGATTTTTTTGCACCGCGAGAAACAGCTTCCATTACACCACCCATGCCACCACACAATAGAATTCCACCACGTTTAGCAATCTCCGAACCAACTTTTTCTGCAGTATTAATAACTTCAACGGATGTAACAGAATTACTTCCACAAACTGCAATTTTTTTATTATAATTATTTTTATACAACATAATCACCACGATAATAAAGTAATGGATCTAAATTTTTTGTATGAAGGGATTTAACATTGCCAATAAAAATATTGTGGTCGCCTGCCGAAAATATCTTTTCTACAGTACAATCTATATAGCCCAATGAATTGACAATAATTGGAGAACCAGTTATTTTTGTTGTTGTTTTTACATTAGAAAAACGGTTTTTATTATTTGGGTCTGAAAAAGCTTTACTAATATATTTTTGATTTTTACTTAAAATATTTACTGCAAAAATTTTACTATGTTTAAGAAGTTTAGAAGATTGAGATTTTTTATCAATACATATCAATACTAGAGGAGGATCTATTGAAAGTGATGAAAATGCATTAACAGTCAAACCATGATAAATTCCATTAAAACAAGTAGTTACAACTGTAACTCCAGTTGCAAAAGAGCCCATAACGTGTTTGAATTTTTTGATATTAATTGTCACAAAGTGTCTGCGTAATTCAAGAATATATATTATGTATAAGAAGATTTTTTGATGAGTAGGGAGATTACTATACTATGATAGATTGTATAAAATGCAATACGACTAGAGAACCTATTGAAACAATTAATTTTAAAGGAGATTTAGCCGTAGAAATTAAAAAATCAGTATGTAACGAGTGTTTTTTAGAATGGGAAGACGATATGCAAATGAAAGTAATGAATGAATACAAACTAGATCTATCAAATAAGGAACATAGGGATTTTCTAGTAAAGAAAATGAAAGAATTTTTAAATTTAATTGAACAAGAATTATAGAATATGTGAACGTAAAACATTTAATGCAGAACCTTGTTTGAACCATTCAATTTGAGATGTATTATATGAATGTGATAAAGTGATTCGTTCATGAGAATTATCTATGTGATTAATGATTACAGATAACTTTTTGTTTGAAGAGAAATTATTTAAATCAAGAATATCTAATCGATCAGATTCAATTAATTTATTATAATCATCGGAATTATCAAAAGTTAAGGCAAGTATACCTTGTTTTTTTAGGTTTGTTTCATGAATACGTGCAAAACTTTTTGCGATAACAGCAACACAACCTAAATATCTAGGAGACATTGCAGCATGTTCACGACTACTTCCTTCACCATAATTATTATCGCCAACAATTAACCATGGAATATTATTTTTTTTATATAAACGAGCAATGGAAGAAAATTGTTCAATATTGTTTGTAAGATAATTAGTTCCTTTGCCAATTTGATTAGTGAAGGAATTAAATGCACCAAGTAATAAATTATCACTAATATTATTAATATGACCACGATAACGTAACCAGGGTCCAGCAGGAGAAATATGATCAGTAGTGCATTTACCTTTTATTTTTGCAAGGATTGTTATATTGGAATAATTATTTTCGTCCCAACTAGGAAATGGTTTCAGTAATTGTAATCTTTTACTGTCAGGTGAAATAGAAACATCAACATTTGAATTAGAAATAGGTGGAATGAAAACATCTTTAGGAGAAACGAAACCATTTTTGGGAATATCTGATATATTTCTTGGAGGTTTTAATAGAAACTTATTACCTTCCTTATCAACTAAATAATCTCTAAGTGGATTAAATGATAAGCTTCCACTTAATGACAAAGCAACGACTATTTCAGGGCTAGCAATGAAATTCATTGTGTCATGACTTCCATCGTTTCTTCCAGGAAAATTTCTATTAAAGGAAGTTATAATGGTATTTTTAGTATTTTGAGCTTCTGGTCTATTCCATTGACCAATACAAGGACCACAAGCATTAGCAAAAACAGTAGCGCCAATTGATTTAAGACTATTAAGTTGTCCATCACGCTCAATAGTAGCACGAATTTGTTCAGAACCAGGAGTAATTAACAATGGAATCTTAGAGGTAATACCTTTGTTTTTAGCTTGTACAGCTATATCTGAAACACGAGACATATCCTCGTATGAAGAATTAGTACAACTTCCAATAAGTGCAACAGAAATATTATCAAGATAATTATTTTCGATTACATCGTGAGTTAATTGAGAAATTGGTCTAGCAAGATCAGGAGTATGTGGACCGACTATATAAGGTTCTAAAGTAGAAAGATTTATTTTTATAACTTTATCAAAATATTTCTCAGGATTTTTTTCAATATCATTATCTGCACAAAGTAATTGTATATTCTTTTCAGCTGCATCTGCAATTGAAACACGATTAGTAACTCGAAGATATTTTGACATTAGATTATCAAAAGGAAACAATGACGAAGTTGCACCTAATTCAGCACCCATATTGGTAATAGTTGCTTTCCCAGTACAACTAATTGATTTTGTGCCAGGGCCAAAATATTCGATAATGGAATTTGTACCGCCAGAAACAGTAAGAATTGAAGCTAAATAAAGAATTACATCTTTAGCAGAACACCAGCCGTTGAGCTCACCAGTAAGAAATACGCCAATTTTTTTTGGTAGAAGAACCTCCCAATTAAAACCAGCCATAACTTCTGATGCGTCTATTCCACCAACGCCGATTGCAAGCATTCCTAAACCTCCAGCGTTAGGAGTATGTGAATCAGTTCCAATCATTAAACCACCTGGAAACGCATAGTTCTCAAATAAGACTTGGTGAATAATACCAGCACCAGGTTTCCAAAAACCAATTCCATATTTACGACAAGAAGATTCTAAGAACTTATACACTTCATTATTTTCATATAAAGAAAGTTTAGTATCTTCAGATGCGGAAATATTAGTCTGAATAAGGTGATCGCAATGAACAGTAGTAGGAATAGAAACTTGTTTCAGTCCAGATTGCATAAACTGTAAGATAACCATTTGTCCAGTAACATCCTGTAACGCAACACGGTCAGGTTTAAGAAATATATAGTCTTTTCCTGGTTCATAGGGTTTAATCGAATCTTCTAACAGATGTCCAAAAATAATTTTTTCAGACAAAGTCAAAGGTTTTGAACTAATTGAACGTAACTTTTCAATATTTTCTGTCATTTTATCATAAACAGTATTAACTAGATTTAGATCTGAATAAATTTCGGTCATTTTCCACTAATTAAGATTAGAAATTTCTTTCTAATAATAATTCTGTATTATTCATTACTCGTAAAAGTTAAATGAATATAGATTTGTAGTAATTAATGTGTCAATTAATGCGTTTTTCAACTGGCAAACTTCCCTCATAGCACTACTTTTCATAATAGTTATAATAACGATTTTTGTGTATGAATATCAAATAAATAAAGTTCAAGTTCGATAAACCAATACTCAATGTTAACATTCATATAAATGGATTCAGATATTATAAAAGAGGAACAAAAATTTAAAAATTTACCATGTATATTCAGAACTTTGAGGACAATATAAAAAAGAAATATAACGAAATTGGTTTTAGTAACTTAACTAATATTCAAAGTAAATCTTATTCAAAGATTGTAAAAGGAGAAAATCTTTTACTAATTGCGCCAACAGGTTCAGGAAAAACAGAAGCTGCAATAATACCCATAATTATGATAATTAGAAACAACAAAAAGAAAAATAAAGTAAATGTATTATACATTACTCCACTCAAATCATTAAATAGAGATATATTTAGACGAATAATAAAATATGCAGAATCTGAAGGATTACGAGTACAAATAAGACATGGAGATACATCAAGAATTGAAAAACAGAAAATGACTAAAGATCCTCCAGAATTATTAATAACTACACCGGAAACGTTAGGAATTATGATAACAAATAGATCTACAAGAGAAATATTAACTGATGTAAAGTATGTAGTAATTGACGAGTTTCATGAATTAATTGGTAATGAAAGAGGTACACATTTAACAATATCACTAGAAAGATTACAGAAATTAACACCGTTAAAAATTACAAGAATTGGATTATCTGCTACGTTAGGAAATGTAAATAATGGATTACAATTATTATCTGGGAAAGAACATAAATCTACAGCAATATTAGATAATACAAAAAAAGATTATGAAATAGTAACCAAGTATATTCAAGGAGATTTGTACGAAGTTGCAAAATTTATTGGAAATAAATTAAGAAATAATAGCAAATCAACATTGTTATTTACAAATACAAGAGTTGAGGCGGAAGCTCTAAGTTCAATTTTGAAAGCAAGGGAGCCAGAATTCCCAATTGAGATTCATCATGGTTCATTATCTAGAGAAGTAAGAGAAAATGCAGAAATAAAATTAAAAAGCGGACAACCAATATTAGTTGTATGTACTTCGTCATTAGAACTTGGACTTGATATAGGCAGTATAGATAACGTAATGCAATTTGGATCTCCAAGACAAGCAATTAAACTAATTCAAAGAGTAGGAAGGAGTAAACATAGAACTGGTGAAACATCAATAGGCACAATTTTAACTAATCGTACGGATGATGAATTAGAATCATTAGCATTAATTGACAGAGTTGAACAAAGGGATTTAGAGGAGATAAATATTCATGAAAATTCACTTGATGTAGTGGCACATCATATTACTGGAATGGTAATAGAAAATGGTAAAACTGATTTAGATAAAACAATTGAGATAATAAGAAATGCTTATCCTTTTAGAAATACAGAAAGAGAAGAAATAATCGAAACAATTAGTATGTTAAATAATCAAGGAATATTGAGATTTGATGGTAAAACAATAAGAAGAGGATTTAAGATTTTTGAATACTATTATCAGAATTTATCAACAATACCTGATTCGGTTCAATTTGAAGTAATAGATATTTCAAAGAAAAGAATCGTAGGAAGATTAGATCAATTGTTTGTTGGTGAATATGTAGAACCAGGTGAACCATTCATACTGAAAGGTAACTCGTGGAGAATAGTATCTATTGATGATGAAAAGATGACAGTATATGTTGAACCTATGTTCTCAGAGTTATCAAAAGTTCCTCGTTGGATTGGAGAACTAATACCTGTTGAATATAAGACTGCACAAATGGTTGGAAAGTTGAGAAGAGAGATCGATGTTAATAAAGAGAATAGAATAAGTGAAGCACAAAAACAAATTATTAATGATACAAAAAAGATACTTGGAGTAATTCCTGATGATAAGACACTAGTTATTGAGCAATCAATTACAAACAAATTAGTAGTAATACATTCGTGTTTAGGTTCAAAAGTTAATCAAACTCTATCTACTTTATTATCAACTATGATTTCATCAAAGAATGGTTACTTGGTAGATTCAAAATCAGATGCATATAGAATATCACTATCATCGCAAGGTGAAGTTTTAGGACATATAGAAGAAACATTAAAGCAGGAAATAGACTTCAAAAGTATATTAGAAGTAGCAGTAATCGGAACTCATCCACTTAATTGGAAAACGTGGCATGTTGCAAAGCGTTTTGGAGTAATTAGTAAAGATGAGAAATATGATAAACGGGCAGCTCGTTTTATACAAAGAAGGTTCAAAGGTACACCACTAGATAAAGAAATAATGAGAGAATTAATTCTTGAAAAATATGATTTAAAAAATACACTAGAGATAATGAATAAGATAAAACAGAATATAATTAAGATTAAATATGTAGATGTATCGGAATTTACTCCTTTAGCGAAGCCAATAATAGATTATTCGAGTACATTTGCTGCATTACCAGTAACAGTTGAAAAGAGCATTATTGAATTAGTTAAAAAAAGATTAGAAGAAACAAATAATAAATTAGTATGTTTAAGTTGTGGAAACTGGGAGACTGTAATTAAACCAAAAGATTTATCCAGTGATGATATTTATTGTCCAAGATGTAGATCAAGAATTGTTACACGAACATACGCAACAGATATGGAAATTATAAGAATTATAAAAAAGAAACAGAAGAAAAAGAAATTAACGCGTGATGAGAAGATATATTATAGAAAATTATGGAAAGTTTCATCATTAATACAGAATTATGGAAAAGAAGCAGCAATTACACTGTCGGCCTATGGAATAGGACCAGATACTGCAGCAAGAATATTACGAAATCACTTGAGAACAGATAAAGAAGAATTATTTAGAAAGATATATGTTGCAGAAAAAGTTTATGTTAGAACAAGAGGATTTTGGAAAGAATGACAACTAAAAGAAAAATATATTGTATTTCTCATGGAAAAGATGTAGATGGAATTTCTTCAGCTGCAATAGTAAAAATGGCCAAAGGAGCAAAAATATTTCTAGTAAATTATGATAAAATAATTGAAATGCTAGAAAGAATAGAAGATAATTCAGAAGTTTATGTGTGTGATTTGGGAATGAATGATTCAATTACAGAAAAATTCATTGAAGAATGTAAAAGAATAACAAAAAATGGTAGATTTACCTATATAGATCATCATATTTTAAAACCAAACATAAAGAAAAGACTTCTTGCAGCAGATATAAAATTAGTTCATTCAAGAAAAGAATGTGCAGGAGTCTTAACATATGAATTACTAAAAAAATCAGTGCCAAAAGGTGCGTCAATTCTTGCATGCTATGCTGCAATAACTGATTATATGGATTATCAACCAATTGCAAAAAGATTAATTGGCAAATATGATCGTCAATTACTATTACTTGAATCAACAATGTTAGCGTATGCACTAGCATATAATGGTGCAAAACCACAATTTGGTAACAAAATTGTAGATGCTTTTCAAAATCTAAGTTTTCCACATGAAATAAAAGATGTTTCGTCATTAGCAAATAAACAAGCTGAAAAAATGAAAAACATAATGAAAGTGGTTAACAAAGAAGCCAAACTTCATAAAAATTTTGCATGTATGGAATCAACAGACCCAACAATAGGATTAGTCGCAAATATGATAATAGGAGAATTAAACGTTCCAGTTGCATTTGCTTATAGACATAATCCTAATGGCCATTATGAGATGTCTTTTCGTGCAAGATATGATTCAAAGGTTAAATTAGGAAAAATAATAGCAAAAATAACACCTTTAGTAGGAGGAATGGGAGGAGGTCATAACAAAGCTTGTGGTGCAAGAATTCCTGATAACAAACTAAAGAGTTTTATTAAATCGTTTTCGGCAGAACTTAACAAATAATCAAGGAGCAGGTTTTATAAATCCTAAATCCATTTGACTACGAGTAATATCACGAGAACGTTTAATTACACTTAATGCATTTTCATAAACTTCAGACTTTTCGAGTTTTATCTGTGCGAAGCCTTCGTCAATTGCTTGCATAGCCACAGCAGCAGCTTCACGTGCATATACTTCAATTTCGTTCATATTGGGAACTATTTGAGTTTCAGAAAGCCCTTTTTCTTCTGCGTACGAAGCAATTTCATAAGCAGCTGCTAGACACATGCCGTCAGTAAGTTTTAAAGCACGAACGTCAAGAGCGCCTCGAAATATTCCAGGAAAGCCTAAAGAATTATTAACTTGATTAGGAAAATCAGATCTTCCAGTAGCAATTATACAAGCTCCTGCATTTATTGCTTCCCATGGCCAGATTTCTGGAACAGGATTAGCACAAGCAAAAACAATAGGATTATCAGACATATTTTTGATCCAAGATTCATGAATAATACCCGGTCCAGGTTTAGATAGTGCAATACAAGCGTCTGCATCTTGTAAAGATTCTTTTATTCCACCATCAAGTTGATTCTTATTTGTAGTTTGTGCAATATTCCATTTAATATTATTAGTTTTTAAATCGTTACGATTTAAATTAATGATGCCATTACTATCAACTACAACAATATTATTAATATCTACACCAGCTTTATCTAAAAGTCTCACTAATGCAACATTAGCTGCGCCACTACCAATTAGACTTATTCGAAGTTTCTCAAATTTTTTATTCACAAAGTTTGCAGAATTTATTAAACCAGCAAGAACAACAAGTGCAGTACCTTGTTGATCGTCATGCCAGACAGGAATAGGCAAAGTTTGTTGAAGTTCAGATAGTATTTCAAAACATTTAGGGCTTTCTATATCTTCAAGATTTATTCCTCCAAAAGTAGGAGCTATAACTTGACAGAATCTAATTATCTCATCTTTATCTTTGGTGTCTAACATTATCGGTACTGCATCAACACCGCCAAGATACTTGAATAAAAGTGCTTTTCCTTCCATAACTGGTAAACCAGCTTCAGGTCCTATATCACCCAAACCCAAAACACGTGATCCATCACTAACCACAGCTACTGAATTTCCTTTATTAGTATGTTCAAAAACTTTTGATTTATTATTACTAATATCTTTACAAGGAGCTGCTACACCTGGAGAATACCAAATTGCAAAATCGTCAAACGATTTAATAGAACATTTCAACATAGTTTCAATTTTCCCCTTATAAAATGGATGTAATCTTAATGCATCTTCGTTAGGTTTTTGAGCTAGCTTTTCCAAGTCTTTTTTACTTTTTTCTAACAAATTACTTACCCTAATGTTGGTGTATTTTTATCTATTTATCAAGTTAGCTCTAAAAAATGAAAATATAAAACAGCATACATATAAAGAAACACGTAGTATTTTGAAATAATCTTGAAAATAGCAATAATTGGATTAGGGGTAGCAGGTTCTTATTTATTACATACATTAAATAAAAAACATGAAGTTCAAGGATTCGAAATGCAGAAAGCAGGTGAATTTAATGCAGTTTGCGCTTGGGGAGCAGCAAAAAGTGAAATGGAAAGAATTTTTGCCCAAATAAATATTGATTTCAATGATTATGTGCTTTTTAATGGTAAAAATATTAATTTAGAATTAAAGGGAAAAATTAGAAAAATAGGATGTAAAGGACTTGTTACTTATAATAAACATCAGCTAGAATTAGATTTAACAAAAGGTCTGAATGCCAAATATGGGGAGAGGATAGTACCGAGCACATTTCCAGTAGATGAATATGATTTGGTAATTGACGCTACAAGTTTGCAAAGAGTAATGTTACCAAAGATTAAAGATCAACTACTTGTACCATGTATAGAATACATGGTAGAATATGAAAATTTACCATATGATGATTTTTATGTAAAACCATTCAGTACTGCTAGCGGATACTTTTGGTATTTTCCATTAATGAAGAATACAGCATATGTTGGAGCAGGAGATTATTATCGAAAACATATGGAAGAATTAGATTATTTTAATAAGAAACATGGTGGAAAGATAATAAAGAAAATTGGTCGGCCAATTCGTTTGTCGTCACCAGAAGCATGTCAACCATTTACACAAGGAAATGTAGTTGGAGTAGGAGAGGCAATTGGTACTGTGTTTCCATTAATAGGAGAAGGAATAATTCCAAGTTTACAGTGTGCAGAGATATTAGAAAGAAATATTGATAATATTCCAAAATATGTTGAAGAAGTTAAAGAACAATTCAAGGTATATTCAGACGTGTATAAAGTCATTAAATTAAAAATGAATAATAAACTAAATCCGTATAGTTTTATTCGTAATTCAGGTGCTATTTGGAACACCTACCATACAATGAAGAAACAAGAACAGAGATTTGGATTAGAAGTTAGAATGAAAGATATGGCAGAAATATTACTAACTCAGTTGTAAACTTTATATCATTGTAAATTCTAATGTAACTTGTTAGTTATGATATACGACAAGTATTTTTTAATTGGTGTTAATTTAATTGCCAGAGGCTATAGTAAAATATTTAGCAAAGCTAGACTTTGAAATAGACGGATCAGTAGATAAAGCAGACATTATTGGTGCAATATTCGGTCAAACAGAGGGCCTTTTTGGACCAGAAATGAATCTTAATGAGCTTCAAAAGAACTGGAAAGTAGGAAGAATAGAAATTACAGTAACATCAGAAAACGGAAAAGTCAATGGAAAAGTTGTAATTCCAATGAGTACAGACATATCAATTGTATCATTAATAGTGGCTGCAGTTGAACAAATTGATAAAGTAGGACCTTGTGGTTCACAATTTAAATTAATTTCAATTGATGATGTCAGAGCAATAAAAAGAGATGCAATTGCAGAACGAGCAAAAGGAATAATGAGAGATTGGGCTTCAAAATCTTCGAGTGAAGGCGAAAATATATTAAAAGAGGTTTCAGAATCTACACAAAAAAGAAAAATATTATCATTTGGAAAAGATGAATGTCCTGCAGGTCCTGCAATTAATTCATCTGAAGAAATATTAGTTGTTGAAGGAAGAGCAGATGTGCTAAATCTTATGAGAGCAGGAATTGAAAACACTATAGCAGTGGAAGGAACAAGCATTCCTCCATCAATTGTAGAATTAGCAAAAACGAAAACTCTATCTGCATTCCTCGATGGAGACAGAGGCGGAGATTTAATATTGAGGGAATTGAATAGTGTAGTAAAATTAATAAAAGTATTCAGAGCTCCACGAGGAAAAGAAGTAGAAGATTTGACACCAGTAGAATTGTTAGAACATCTGAATAAAACAGATAAACCTGTTGAAAATGGAAAATATAAAAACAACAATTCTAGAAGAGATAACTATCAGAGAAGAGATAACTATCAGAGAAGAGATAACTATCAGAGAAGAGATAACTATCAGAGAAGAGATAACTATCAGAGAAGAGATAACTATCAGAGAAGAGATAACTATTCCAAATACAGAGAAGAACAAGAGATAGAAGAAAAACAATATTCCAATGTGCAAGAAATTTCTACTGAACTTGTTACTAAAGCGAAAGAAATTTTACCAGAATTAGAAGGAAGTCTTGAAGCGTATTTATATGATTCAAGTATGAATAAAATTTTAAAAATACCAGTAAATGAATTAGTAAAGACTCTAGAATCAACGGAGAATTCGGAACATTTAATATTCGATGGAATAGTAACAGAAAGGTTAATTGAAGTTGCCGAAACTAATGGAATAAAATCAATAATTTCAAACAGAATAGGAAATATAAAGAACACTAAAAGTTCTCTGAAGATGATTACATTTAACCAGATAAGGTAGTTATGTTAATAAATAGGCTAAAAAAAAAGCCTGGAATAGCTGTAGTAACACCAGAAGATACAGAAGATCTCTGGATATTAAGACGAATTATAAAGAAAGGAGATTTAATTACTAGTCAAACAAAACGAGTAATAAAAGATCAAAAAGAATTTGCACGGCCTGATAAAGGAGAAAGAATAACAGTAAAATTATGTATAGATGTAGAGAATATTTCACTGGATCAATTACTAGAAAGAATTCGTATATCAGGAAGAATTATTGAAACTAATGATGATTCAATAAGTAAAGGATCATATCATTCTCTAAACTTAACATTGGGAAATTCGTTAGTAATTTCAAAAAAGATAATTGAAGATTTTCAAATTGCATTATTAAAAAAACGAATGAAATCAGACAGATACATCATAGTAACAATAGATAGAAGACAAGCAGGAATAGGTTTAGTGTCTGGTACGCATTTAAAAATATTTACAGATATTTTTTCGGGTTTAGCAGGAAAAATGTATAAAACTAAAACAACATATGACAGTTTTTTTAATGAATTAATTAGAAATATTATTATTATTGATTCGAAAGATACAAAAATTATTATAACAGGGCCAACAGAAACAAAAAGAGCATTCGTAAATTATATGTTAACAAAGAAACCACAAATTCACAAAAAAACCACCATTATAGACGGAGTAGATTTATCAGGACAAGAAGGAGTGTATATTGCTCTAAAACACCCAGATATTAAGAAATGCATGAAGAATTCAGAATTATCATCTGCAATTTCAGCAACAGAAGATGCAATATATAAAATATCTAGAAATGACAATAAAATATCATATAGTTTTAATGACGTAAAAAAAGTCGCCAAAATGGGCGCAATAGAAAAAGTAATGATATCAAGTAGAATTTTTGAAAAAGGTGAAGAAGAAGAAGTGATTAGTTTATTAGACGAAATTGAGAAATTTAATGGTAGAATACATCTACTAGATAGTTCAACAGAAATAGGTAAGCAAATAGATTCAATTGGAGGAATTGTTGCGTTGTTAAGATATCCTGTCTATAATGTTGACTGAATCATCCAATTAATATATGATTCATTAACATTATCTAATTCAAAATCAATAATTTCAGGAATATCGTAATCATGTTCATCCAACAAGAAATTCCGTAATTTTGAAATATTTGAATCAGTTGTCTTGAATAATGCAAGAAATTCATTTGATGATTCGATAGAATTATTCCAAGAATAAATAGAATTGATAGGCATTATGTTAACGCATGCTGCAAACTTTTCACTGATTACCTTTTTAGAGATATCTTTTGCTTTTTCCATTGTAGAGAAAGTTGAAATTAGAATAACGCATTTCATAAAATAAATTATGAAAAACTAGTGAATAAACTTAGTCTTTATTACGCAAGTAATTCAAAAATACCTTCACGGATCAACCTAATTGCTACAGCGCCAATTAATAATCCCATAATTCTTGATATTGCTTGTGAACCATCTTTGCCAAAGAATTTTAACAAGCCAGAACCAAGACGTATAGCGCACCAACATATTAAAATGGAAAAAATTATCACAAAAAATTTTAAAAAAAATCCAGACATAACGAGAACATAACTAATACTACCAGGACCTGCAAGAATTGGAATTGCCAATGGAAAAACGGCCAGATTAGTTTCAGAATTTTTTTGAAGATAGTTTGTATTACGGCCAAGAACATAATCAACGGAAAAAATAAGTAAAATTAGGCCTCCGATTAGTTTAAGATCATTCATAGTGATTCCAAGTAAAATTAACAAGTATCCGCCAAAAAATCCAAAACCAAGTAGGATAAAAGTAGAAATAACAACAGCTTTATTAACAGTAGCTATACGTTTTTTCTTTGATAATTTAGAAGTCAATGATGAAAAAACAGGAATGTTACCAATAGGATCAAGTATAGCAAGCAGAGTAATCAATGATTGGAGAAATAATACCAAATTAATATCTGAAAAAGCTGACACATACGAACGTTCTCGTGCTAATGAATAAGTCTATTTATAAGATATTATTCTAAGTTATTATGGAAAAGACATGCAATAAATGTTCTAAAACACCCGTATTCTATAGAAAATACTCAGGAGAAAGATTATGTTCAGAATGTTTTTCGAATTCAATAATTGAAAAAGCAAGGAAAACAATAACAAAACACAAAATGTTAAAATACGGTGAGAAAATTGCAATAGGTGTTTCTGGAGGCAAAGATAGTCTTGCGTTATTAGATATTTTAGTCAAAATGCAAAGAAAGAATGAATATGAATTAGTCGCCATAACAGTTGACGAAGGAATTGAAAACTACAGAGAAGAGGCTGTCGAATTAGCAACAAAAGCATGTGAAAAATATGGTGTAAAACATTTCAATACATCGTTTAAGGAATTATTTGGATTTACACTTGATAATGTTTTAGATAAAAGAAAGGATGGCAAAACTACATCGTGTGCAATTTGTGGTCCGTTAAGAAGAAGAGGAATAGAATTAGCAGCAAAGAAAATCGGAATTACTACTATAGCAACTGGTCATAACTTAGATGACATGTTACAAACTTTCATGATCAATCTCTTAAGTGGAGATGTATATAGAATTAAACAATCAAAACCTCGTTCAAAACCAAAAACTGGCTTCGAATTTAAGAAGATAAAACCATTCACAGAAATTTATGAGAATGAAATTGCATTTTATAGTTTCCAAAATAATTTACCATTTCAATCAACTGATTGTCCACATATGAATGAGAATATTAGAAATGAAATAAGAGACACAATAAATAATTTAGAAAAAAATCATCCTGGAATTAAATTTAGTTTGATGAAATCAGTTGAAGATATAACAAATAATCTAGAATTAGAACCCAAGAAATTAATAACGTGTTTGATTTGTGGAAATAGTTCTTCCAGTAGTCCATGTAATGTATGTAAAACAGAGAGTTTTGCAAAAGAGTTAACAAAATCAAATTAAGTTACTCGTCATAGTAAGTAACAATTCGTTACTAACATTAATAGTGAGGGTTTTATATCAGAACCACTTAATTTAATATAATGAGTTATAATAATCAAGAAATTGGGGAATTATTAGATCTTTTAGGAAATGAAACTAGACGAAAAATATTGGAGAGTTTAGCAGATGAACCAAAATACTTTATACAACTATCAAGAGAAATAGGAGTAAGTCAACAAGCAGTTCTAAAACATTTGTTTTTACTCGAAAATTTTGGACTTATTGAATCGTACAGAGAGAAAGGTAATCTTCCGGCGCCAGAAAGAAAATATTTTAAATTAGATAAATCAGTCTATTTGAGTGTTGGAATAACAGGAAATTCCATAGAGATTAAAATGGAGAGTATTATTGATAAAAATAATTTACAAAAAATCATTCCGCACAAAACTAAAAAGGAGAATAAACAGGAAGATAAAGAGTTTACAAATATTATAAGAAACACTAAAAGTAAACTTGAAATTATTGCAAAGAGGATGCAAGAATTGGAAGATGAAAAAATTGGTTTATTACAAGAAAAACAACAGATTTTACAAATTGCTCACCAAGTTATACGAGAATCTCTTGATGAGATTTTAGCACGAAGAATTCTATATTCAAACTTGAATTCGAGAGATGTAACAGGTATTGAGGAATTATCTGAAATACTAAATACTAGAGAAAAAGAAGTAAAAATTATAATAAAGAAATTAGAAGATAGATTTTCAGTAGGTTTAACTTAATCAGTGAATTAAGTTAAAAGTACAGAAATAGAAGTATATCCTGGAAGTTTAGAAGATGCAGTTTTTAATGCTCTTTTTGCTTCGGGAATGTATTTTTTATAAGTATTAATTTCATAAATAATAGAACCAATATTAACACGTGCGGCATGACCAACAGGTTTTCCATAAGCACGTCTCATACCTTCCTGAAGTCTATCTGCACCAGCTGCAGCAATCATTTTATTTTCGCTAATTATAGTATGAGGGAATAGTTTAACAGATAACCGGTAACTTGTTTCTGGAACGACTTTATTCATTTTTTTATTTGCTCCAACTCGCGCAGCTTCAAGAGCATTATCACGAATTTGACATTTTTCTTTTGCAATAAGTTGGATTTTCACATCGTAATCGGAATTACGTGATCCAGTATTAAAACGTGCAATTCTAAGATCAGGAGTACCAGGAGCATATTTTTTACTTAGAGGCATACCATTTCCAACTCGATAATTGTGACCGTGCATAATACGATATAACAAGATTAAAGATATAATTAAGTGTGTTCAAACAATGTAAAATACAGAAATGACTAAATTCCTAATAACATTAGTTAATGGAAGGCTTTCACAATCCGAACTAAAAAATATTCTGATGAAAGCAAAGATTCCATTTAAAATATTAGAAAATAACGAGATATTCCTAGTACTAGAGATAAGCAAAAAAGAGGAATTACTCAAACTAGGTGGAATATACAAAATTGGAAGGATAATATGTACAAATAATTCATTAGAAGATCTTTATGAAAAAATAGAAAAAAGTAAAATATTAGAGAATTTAGAACATAAACAGAAATGGAATATAAGTTATTATTCTAAAAATCAAGTAGATATTAAAACATATGAAAATATGCAGAATTTTATAAGAACGCAGATAAAAAAAAATACTAAGAAAAGTAAATTTATAAAAAATAATATGAATTCAGAAAATTTCATTGAATTATCGGTTGATAAAGAAAAACAAACAGCAATAAATATTCTAGTAGGATATAATGGAAATAGATATTATTTTGCAGAAAATGAATTTAGTGTAAAATCTTCAAAATTCATCAATAGGGATTTGAATAGACCGTATCAAGACTCGAAGATTAGTTTATCGCCAAGAACAGCTAGAATATTAGTAAATATATTAGGATTAGAGAAAGAAAAGATTGTTTTAGATCCATTTTGTGGAACTGGAACTTTTTTATTGGAAGCATTAATGCAAGGATATGAAATAATTGGGATTGATAATAGAAAAGAATGTGTAATTGGTACAAAAAATAATTTATATTGGCTTATAAAACAACATAAATTAAAAAATAGAATAAAATATGTAAAGAAAGATAATGCTGAAGTACTTTCTAGTGTTGAAACGTCAACGATAGATGGAATAGTGACAGAACCAATTTTATTACCGAATTTTAAGAACTTTCCAACATACACTATTGCAGAAGAATCACTAAAACAATCAAAAAGAATTTATAAAAAAGGATTGAAATCAATGTACAGAGTATTAAAGAAAAATGGAAGAGTATCCATAGTAACTCCAAGAATTAGAACTAGAAACAATGAGTTCATTACATTTGATTTTCGTCAGATGATAAAGGAAACAAAATTTAGTTTAAATAATAATCTAGAAGAACAGCCATTTATTATGAATACATCAAATGATCAGAAAATTATAAGAGAGATCTGGTTACTAAATAAGAATTAAAATTTTCTACTAAAATGTAATTTAATTTTATGAGCAAGTCCCATTAGTACACTATTTTCTCTAGGAGAAGGTTGAGCGCGTTTAAAAATATTTTGAAGACTAATCTGAATCAGATTAAGTTTATGAGAAGGCAATCCAAGAGTTTTGGAAATATCAATAAATGCTTCAATGGTACGATTAATGTCAGTTCGATCAGCAATTTTACGATCTACAAGTTCGTAGTTTGTTAATTCATAAAGAACAATAGATAATGCATGACTTATATTTAATGTAGGATAGTCTGAATTAGCAGGAATATTAACAATAACATCGACAAATTGTAATTCTTTGTTTGTAAGTCCTGTTGTATCTCGTCCAAATACAATACATACTTCATTACCCATATTTTTTATAGTAGAACGAAGTTTTGAAACAGGAATGCTCTGACGAGGACTAAGTCCTCTTTGACTAGTTATTGCAGTAGTAGCAATTAACGTATCAAACTGGTTAAGCTCTTCGAATTCAATATGTTTAGCTTGTTCTAGAAGATCAACTGCGTGAGAAGCAAAAGGTCGTGCTTGATCAATGTTCACTTTAGAATCAATTAACAACAATTTACGAAAACCAAAATTTTTCATTATTCTAGCTACATAACCAAGATTGATTGAATATTGTGGTTCGATTAAACAAATAGAAATTTCTTCATCTGGAGAATAAGTCATGGTATTCAGAGTTCACATCTTATAATTAGATTTACCAAATATAATTATTTACCTGGCATAACTTCAATAATAAATAATTCTTCGAAGAAAAGTTTTTTCTTCATAATTATATTTACAATAATCGATTTTCTAAGAATATTAATATAATCATTTAATGGTGTGAGACTTGATTGAAGAAAAACTATTTTTCCAGAAGGTTTAATCAAATCAAGAGAAAGTTCAAGCCATTTGTGGGTAAGTTCAAGTCCAGTTGGACCTCCATCAGTAGTGGTATCAGTATAATTGTCATGGGGCAAATAAGGTGGATTAAAAACAACTAGATCAAAGTTATGAGATGCAAACATTGATGGTCCACTACCCAACACTACATCAACATTTTTTTCTAATTTGAGTTTTTTAATGTGTGAACTAACATAAAAAACTGATTCAGAACTTATATCTAGACCAACAACAAAAATGTTGTTATGAGCAAGTTTTTGAAGAATAATACCTGATCCTATTCCAATTTCTAAAACAGTTTTGCTACTATATTTGCAAATAGCTTTAAGCAATAACTCGGTATCATCAGATGGTTCATAAATTGTCATTGTTCTAAACCATTACTGATCATAATTTGAGCTAGAGAAACTATCGTATTTGGAGGAAATTCATGAATACGCTTGGATAAATCAAATTCACTACCACAAGTAATCAAGATGTTATCAGATTTAGTCAAGTTTTTTAAAACTGAACTTAATTTTTTACGTCGAAATGAGAATAATTTCTTGATCGTTTGAATTTCAAACACACTAAGTGAATTATTTGGTTTTATAATAGCTAGAATAGATTGGACTTTAGGAGGCGGATAAAAATTCGATGGAGATAGAGTTTCAATAGATATTATATTAAGACAATATTGCGAAATAACACTAATTGAACGATAGTTATTAGTATTTGGCAAAGATGTTATTTTATCAATAAATTCTTTTTGAAGAATGACTACTGCGTGCTTAAAATTTTTATTGAGTAACCAATAAATAAAACGTTCAGATTCAGAATATGGTAAACTTGAGATAAATATATCAAAATCGTCAGTATATTGTAAACCATCCATGTGTTTTAGCTGAAGATTATTATATTTCGATAATTTAGTTGCAGATAGTTTATAAAGTGAGAAATCAATTTCGGAAGAAATTACTGATTTAGCTTTTTTACAAAGATATTCAGTAAGAATTCCTTGGCCAGTTCCAATCTCATAAACTGAATCAGTGTCAGTAATTAAAGCACAATCTACAAGTTTTTTAGCTACATTATTGTTAATGAGAAAATTTTGACCAAGTTTATTCCGGAGTTTCATAAGAACGTATTAGATTATGTACGAACAAATAGATTTAGTTTTGCGTTGCCAGATAATTCTTCTAATAGTCGTTTAATAATTAATTGTTCAGGTTCTTTAAGATTTATACGATTTTGAATATCCAAAAATGAAGAAAAGGGAGCTTTTTCTCGTTCTTTTAATATTTGACTAAGAAAAGTTTTACCAATACCTGGTATCATTTCTAATGAATGTAATCTTGGAGTGATTGCATGAGAATTATTAAAATAATTAACATAATAGCTTTCGTTATCTTTAATTAGAATTTCTAATACTTCTGGTAATGAATTAAGTGATTCAATGGTTAATCCGTTATAAGATAGTTTCCCAAGAACGCTAATTACTTTGGTTCTTCCGTCCTTACCAATATTAATTTTTTCATTAAGAGAAATTAATTCTCCTTTAGTTCCTAATAATTCTAAAAGTGTAAGTCTCTCCATACCAATTGCTTGAATAATTGTTCCATCACGGCCTTTAATAAGAGCAGAACGACTGTTAGGACGATAATCAAGTACATATGCGAATTCTTCATATTTCTTATTATGTGGTTGAGTCATAAAATTTACCTCGTAATAATTTTAGTATATTAGTTATAAAATATGAAAAGACGAGTTAACAAAGTAATTAATAAAAATAGAAGTGTGACTCAATTCGTCTCGATGTTGTATAAGTATGCTTTGGCTTTAAACTTTGTTGATAAATAGGAGTTAAATTTATTCGTAGGCATCTTTACTAGTAGAAAGTATTTTATCTAAATCTTCTGAAGGAATAAGCTTTTTCCAACCGCTAGTAAATACACGCAATTCAGCAATAGTTTGTGGATTTATATTAAGAATTTCATATGCTTGTTCAAGATTTACATAATCAGAATCTGCAATTTTTTTTGCTGCTTCATTAATTTTTTTATAATCAGAATCTGGAAAGTTTTTTACATAATCAAAGGTTCGTTTTTGAATATGATCAGCATTCTCTAAATCAAGCTTAGATAGAATATCTTTTACTTGTGATAAACTAATTATTGTAACTTTTTTATTCTTCATGATTTTTCTTCACTTATCTTTGCATTTTAATATGTTCAAAACGAGTAATAAGTTTTTTAGTTTTGTTACCTACTTGAACGTCAAGCTCTATAGAGCGTCTATTGATAGTTTTAACTACACCAACATATCCTTGAAATCTACGATGTGGCATTCCTTTAACTTGCGCTGGATTAATGTTAATGATTACTCTATCTTCAGGTTGATAATTAATCATAAGATAGCTTAACCCTGAAGGTCTCTTATGGCTTAATACCGAACGTGATTTTCTTCTAAAACCTGCATGTCTCATGTTATTTCTCATATACTATATTTAATCTTCATTAATAATTTTTGCTATAACTGATGCAATTAAACCACCAATAATAGGGGCTATCCAATACAGATGATGGCTTTGTAAAGCACCTTCTGCTCCATATAGATAAGAGATTATAGCAGGTCCAAATGATCTTGCAGGGTTCATCGAAGCGCCAGTAATTGGGCCACCAGCCAATATATCAATAGTAATAATCATTCCTATTGCAAATCCATGCCAACCTTTAGGAGCTTTTTTGTTAACTGCTGTACAAAAAATTACAAAAACTAAAAAGAACGTTAAGATAATTTCGACAAATAGAATAGTAATATCAGAAACATTAGGACCTGGTAAAGTAGAACCAAGATTGTTTAAAGTAATACTATTAGGAAGAATAATTGCATGAGCAATTGCAGCTACTACACCTGCAGCTAGCTGTGTAAATATATAGGCAATACCATTTTGTGTATCTATCTGTTTTCTATAAATCATAGAGATAGTAACAGCAGGGTTAAAATGAGCGCCAGAAGCATGACCAAGTGAATAAACCATTACAGCAATTACTAAACCGTGTGCAAATGCAATAGAAATAAGAGAATCAGGACTTTGTGCTATTGCAAGACTGCCAAAAAATACAAGTGCAAACGTGCCGATGAATTCAGCAGCGCAGGCGCGATAATCAATAGTCATTAAAAATCAAATTATTCAGAGACTGGGTAAACTAATTCTCCACCAGATGCTTGCAAAGAAGGTTGTCTTTTTGTTTTAGCGCCTTTTGTGGTCCAGAATATTTCAGCAATTTTTCGTACAGATTCTAGAAGTTCTTCTGCGGCTTCTAAACTGACTTGTTGTCGCGTCTTTGATGCAATTTTCATTGTTTTCCAAAACAAATCATGTAAGTCAGGATATTTTTCAAGATGCTCTGGTTTAAAATAATCAGCCCAGATAATTCGTAATTCATTTTTACAACTTTCTGCGTGTGCTTCTTTTACTGACATATATCTACCTAATTTTGCTTGACTGTCGGAATCATCTCCAAGATCATTAATAAGTTGATTCATACGCACAACAGTCAGTGCGTCTAATTGAGCTCTATGCGGATCATATATACCACATGGAATATCACAATGTGCATACGCATATTGTATAGGAGATAAAAGATTAACAAATTTACTTTTAATAGACGTCATATTCATAATAGTTAATTCAACATACATACTTTAAAATTTAACTATAAAGAAAAAAGAATTAAAATGTGGTCTTACTAAGAATATTAAACACAGTATTTGCACCAATTTATTATATTACAGCAAAGAAATTTGTAATAATTGGACACTGTATGGAACCCAAATTTAGAGAAGGTGATTATGTATTTATTAACAAAATATATTATAAATTAAATAAAATTAAACGAAATGATATAATCGGTATAGACAATAATCAGAAAATTGAGATTAAAAGAATTATAGGCATACCAAATGACATATTGTTAATCAATGGAAATTCTATACTAGTAAATGGAAAAAAAATCACAGAAAATGATAAAGAAAAAATTCAAAATAATATTCATAAATCAGAAGTTAAATTAAAAAAAGAAGAATATTATGTATTAGGAGATGACTATTGTCCACGATGTATTGATTCGAGGAAATATGGTCCAATAACAAAAAAGCAAATAATAGGCAAGTGTTATAGTAATAGAAGATGCAGAGAGAATTATCGCACGCGTTAGTAACAAATGAAAAATATAGAATAAAAATACCAAGGATTGGACTTGGAGTCTGGGGAATACCTGAAAATAAGATAGAAAAGATAGTAAAAACTGCAATCAATGAAGGGTATAAACATATAGATACGGCGCAAATTTATGGAAATGAAAAAGGAGTAGGAAAAGCAGTAAAAGAAACAAAGGAGATTTTTATTACTACAAAATTATGGGAAAGTAATTTTGGATATGAAAAAACAATAAAAGCTTGCGAAGAAAGTTTATCAAAGCTAAATAAGATTGATTTATTTTTAATGCATTCTCCGCATAGGCCAGAACTACGAAAAGAAACTTGGGAGGCAATGCAATACTTGCTGAAGAATAGATATGTAAAAGCAATTGGAGTTTCAAATTTTGGAATTCATCATATTAAAGAAATATTATCATGGGCAGAAATTGGACCGTGTATGAATCAAATAGAATTATCTCCATTTCTTCAGAGAAGCGAATTAGTGAATTTCTGTAAAGAAAATGGAATAGTTACAACAGCATATAGTCCATTAACACATGGAAGAAAGATAAACGATGAACAGTTAACAGAGATTGGAAAATTATATAAAAAATCATCAGCACAGATATTAATTAAATGGAGTTTACAGAAAGGTAACATAGTTATACCGAAATCTACAAATAATGAAAGAATAAAAGAAAATTTTAAAGTATTTGATTTTATAATTGAAGATAAACATATGGAAATGCTAGATAAATTAGAACAAGGATTCATAACATCATGGGATCCAACTGTAGAGCCATAATATTTTATAAACAAGAATATATCCATCATATTTAATATCAATATCTTGACATTGAATTTATGCGGGGGTCGCCCAGCCTGGTCAACGGCGTTAGGTTGAGGGCCTAATCTCTTAGGAGTTCGTGGGTTCAAATCCCATCTCCCGCATCCGCTAAAAACAGATGCCTAATACAAACAATAGAATATTTATTGGAGTGATTACATAATGAGTGATATTGAAAATTGGGGATATAGCAGGATATTCTGCAAGGGCTATTAAAGAGAGATATCTGAGATCAGGTCTTACAATTCTAATGGTATTACTTGGAGCAATGTTGTTGACGGGATTAAGCGGTCTAGGCGAAGGATTTAATTACAATATTCAAAAAGAATTTGAAGCTTTAGCGCCAGATGTCATTACAATAACTCGATCTCCAATAATAAGTGGGCCTGGTGAAGATCCTGATGAACCAGATCCAGCTCCTCCAGTTGAATTAAATATACTAACATTGAAAAGCTTGCAAGGAATAGAAGGAGCAACAGAAGTCATACCGAGTTTTAGAGAAGGTTTGCAAATAGAATATGCAGGAAAATCTCAAACAACTTCCATAATTGGAATAAATCCACAAAAATTAACTTATGTGCTTCCAGGATTAAAATTTCTTAATGGAGATTTTACAGATCCAAATGATTCGACTGGAATATTACTTGGATTTACAGTTGCATATCCAGGTGGAATAGATGAAGAACCGTTTGCTCAAGTTGGAAATCTAGTTTGTGCGAAAACTGCAAAACAAGAAATAGTTGGTGGAATAGAAAAAGTTGTCATGGATAAAAAATGTTTTATTGTACGAGGAATAATTGATGAAACAGGAACTGTATTTTATGATCAATCAGTATCAATTCCTTTAATGTCAGCAAATAGTTATCTAGATAAGAAAAATATATATGATCAAATTTTTGTAGTCGTAGACAAAGAAATTGGAAATGATTTAGTAATTGAAGAAATACGAGAATTATATGGAGAAGGAATAGGAATTACAACACCTGCACAAATACAAGAAACAATACAAGGTTTTGTAGGAAGTTTCAATATTTTCCTTAGCAGCATAGGATTCATATCTTTAATTGTAGGAGGAGTAGGAATAATTACGACATTATACACTTCAGTAACCGAAAGAACAAAAGAACTAGGAACACTTAAGGCGTTAGGAGCAACAAATTCAAACATTATAATGTTAATTCTTTTTGAAGCAATTGTAATAGGAGTAATGGGTGCTTCTCTTGGTCTTGTAGCAGGATATGGATTAGGATGGGGACTAACACAATATGGCTTCGGCTCTAATTTTGGAGATCTTATACCAATATTTCGTGCAGATGCGTTACTTAATGTGTGGTTAACAGCAGTAACTTTGAGTATTATTGCAGGAACGTATCCCGCTTGGAGAGCAGGAAAAATGACTCCAATGACAGCATTAAGAAGAGACTAATTTGTTTTCTTCGTGAAATTTTTATAATTTGTTTTAACAGTCTTACGTAGATTGGGAGATCTCCAATATGAGAAACTCAGAACAATGATAATTAATAATACCGAAATTAAGATTGCAAATGAAGAAAGTAATACACTAAGATTTTGAGTAGAGATAGAATCACTAGAAACATTACCGGAATATACATTAGACAATCCAAAATTGGAAACTTCAAGATTATATTCTCCTTCTGGAATCATATTAAAAGTGACTTGCCCATGTCCATCTGTTTGTTTCAAAACTTTAAGGCCATTTGGCATGGTAAATAAAACTTGTGCATTAGAAACGGAATATCCAAATGCATCATCAACACGAAACGACAAATCATATAAGCCAATTGGAATAATCCAAGATTTACCATTTTCTGGTTTAAAATTAATAGAAGATAAAGGTGTAAAAGACATTCCTTGATAATTTACATTTTTTAGAGTGTATGTTCCATCAGAAATCCAAAGTTGCGAATATTCAGTGATTGATGATGTTTTTCCATCAGGATAAATTATTTCGACATTAGTTGGAAGGTCAGAAAGTATTGTAGTCTTTGTAGCATCAGTAAACAACATAGATACTCGAAATTCATGTATATAATTAGTAGAAAAAGTAATGGGTTTACTAATTGAAGCAATTACATTATCACTAGTAGTCCATTTTTCACCAATTTGACCTGAAATTTCTGAATCAAGAGATATTGGAGTAAGTAAATCAACCCAACTAGACCAATGAGAAGATGAAATATCTGTATGAGTCTGACCTTGAGATGTATAAGTAATGGTTGTTGGATATTGAACGTTTAATCCATTTATAATAATAGTAGGCTTGACTTGTTCGTAATAGTTAATTTCTATTTCAGAATGTGAACTAACGAATTGAGAATTAGAATCAACTATCCATCGTTGAAGTGGAGTGGAGGAAACTATTGAAGGTACAACAACATTAGAATTATCGTCAATCCAAAGACGTAACGTGTCAGCAGTATTATGATGTACAACATTTCCTAGAAAAGAAACAGAAACAGGAATATCTACATTAGCATTGTGATTAATAGATACTAACCATTGATGTTTGTAATCAATTACTTGATCAACAGGTTTATCGACTTTAACAACAACATCATCAGTAGTAATATAACGTTCATTTGGACTTGCATCAATAATTCGAGGAAGAACTAAAGATCTACCATCATCAACCCAATCACCCCAAGAATCAATTAATTCAGTATGTATTACTTGACCACCAGAAGTAAATGAAAAATCAATTGGTAAATTAAGACCGAACGTACTAATAGATGAATAATATTGACGAAAATACTGTAAATTTAAAGTCTCAGATTGAACAATTGTCCACTTAGGGTCTTCAGCTACAAAAAACCTTTCGGTAGAATCAATTTGAACTGTTCTATTTACACGAAAAGTACTACTATCATCAACCCACATAAACCAATTATCAGACGTAGTTTGTGTATAAGAACCTCCTAAGAAATCCCAAGCAACAGTAGTTGGATATGCATTATCTAATCCATCAACGAACAAGTCAACTAAATGTGTTGAACCCATGAAGTCAAGTTGTAAATTGGATTCAAGATTATAAGTTGTTTGTTCACCTGATATAATATTAAACCCTACTATTGCCATAGTATAGTAACCTGGAGGTATATTTTCAAAATCAACTAGAATTGTATTTGAATAAAAGAAATTTCTTCCTGAAGCAATTGGTAAAAAGTTGTTTTCTGGATCATATATTTCAGAAATATCATCTTCATAGAGAAGAAGTGCTAAATCATCATTAGGAATTTGATGATACATGAAGATTTGCATAGTTTGATTTAATTGAGTGATCTCAATTCCATACCAATCAGCTTGATAAGTTCCAAGAGGTCGAGAAATTGTAATAAGTCCACCTACTTGTCCGTAAGCAAGAGGAAGAACTTGAAATGAAAATATGATAAAAGAAAAAATTACTAGAAAAATAAATAATTTATTCATTTGTTTCAGGATATTAAAAGTCATTATCATTTATAACTAATATTGAGAAAACTAATTTAATTTTTTATATGACAAGAGACGTAGTGATCTTTCTTAATTTCTTGAAGTTTAGGATATTTTTTACGACATGTATGAGAGATGTTATTTATGTGTAAATCAATAACTTTACGTTTTTTAGAATTATATATTGTACATTGTGGATGAAAGCTATCGCCAGGAATTACTTGTCGTGTTCGATATAAATTATTTGAATCAAGATTAGGAATTGCTTCTATAAGTGATTTTGTATAAGGATGTAATGGATGTTTTACAACATCATTAGAATTACCTTGTTCAATTATATGACCAAAGAACATTACAGCAATTCGATCAGAAAATTGTCGAGCAGTGGCAATATCATGTGTAATATATAAGAAACTAATTTTCTTAGTAGCCTGTAGTTTACGTAAGAGATCAAGAATGTCTAAGCGACTAGATGCATCAATCATTGATACAGGTTCGTCAGCTACAATGAATTGAGGATCTAACATTAATGCTCTAGCAATACCAACACGTTGCCTTTGACCACCTGATAACATATGTGGATATTTATTTAGATAATCTTCGGGTGGAACAAGATTAACATCATTAAGAGCTTTGTTAATTTTTTCGGATTGTATATCATCATTTATCTTATGAATAATTAGTGGTTCTTCAAGAATCTGATAAACAGTCATGAATGAATTGATTGATGAATAAGGATCTTGAAATATTGCTTGAGCTTTTTTACGGAAAGAATAATCATCAAAAGAATGATTAATTAATGAACCTTGAAATTTTATTTTTCCAGAAGTTGTTTGAATTAAATTTAATGCAACACGTCCAAGAGTTGTTTTACCACTTCCCGATTCTCCCACAAGTGCAAGTGTTTCACCAGAATTAAGTTTAAGAGATACACCAGATACTGCAGTAAAAGGTTTAGATGACAGCAAGCCTTTTCGAATTGTAAAATCGACTTTTATGTTTTGTAGATTAATTATTTCATTATTGGAAGAAGACAGATTACGAGAAGCAAGTTTTGAAGTTAATATAGGAACACTTTGAATTAATTGTTTTGTAAAAACATGTTTTGGAGCAGAAAGAATATTATCAAGATTGTTATATTCAACAAACTGTCCATTTTTCATAACTGCGATTTTATTACATAAATCACTAGCAAGAGCAATATCATGTGTAATAAAAATCATTGAGATACCTTTTTGCTTAAGAGATTTGAGAAGATTTATAATCTGAGCTTGAACACTAACATCTAGAGCAGATGTTGGTTCATCAAGGATGATAAGATTGGGTTTGAAAATCAAAGACATAGCAATAATTATGCGTTGCTTCATTCCACCACTAAGTTCGTGAGGATATTTAGAATATACATCGTCAGTCAATCCAACTAATTTTAATAATTCACATGCATTTTTCTTTGCAATAGATTTATTTTCACCATCATGAACAAGAGGTTCTATAATCTGATCTCCAACACGTAAAACAGGATTAAGAGAGTTCATTGCGCCTTGAAAAACCATTGAAATTTTTTTCCATCTAATTTTTTTTCGAAAATTATCATCAGAAATATTGTTTAGTTTCTTTCCGTTAATTATGATCGTACCTGTAGATTTTGAAATGTTATTTGGTAGCAATCTCAATAATGATAAAGCAATACTGGTTTTTCCGCAACCAGATTCTCCAACTATTCCTAATGCTTTACCGGATTTAATTTTAAATGATATATTATTTACAGCTTTTATTGTGCCTTTAGTTACTTTATAATGTAAATGAAGATTTTTAACAACAAGAGCATCTTGTGAATGATATTTATTATTTGATTTCAACATAATCACATCTTTTTAATTTTAGGATTTACAATAGGTTCTAGTGCAAGAGCTATAAAAACAAAAATCATAGCAGTAATTACAATTAATAACCCTGGAGGTAATATCCACCACCAATACCCAATATATACGCCACCAGTACGAAATCCATTTTCCAGAATTTGACCCCAAGTTGGAATAGAAGGATCTCCTAAACCAAGAAAACTAAGTGATGCTTCAGCAAGTATTGCAGCAGGAGTAAAGAAAACTAATTGTGCAAATATAAATGGCGCAAGTTGTGGAAATAGATGTCGATACATAATTCGCCACTTTGATGCACCTAAGGATTTTGCTGCTTCAATTGATTGGCCAGATTTTATTTGTAGAACCATTGATCTAACAATAATTGTCAAACCGGGCCAACCAAATAATACTAAAATTGTCATAACTAACCACAACTGTGGTCCAAATATAAAAATAAGAAAGAGCAATATCGGTAGTAAAGGAATATTAGAAAACGTATCAGAAAATCTTTGAATAACTGTATCTGTTTTACCACCAACATAACCACTAATTATTCCCATAGTAGTACCTATCACAGTAGTCAAGGTTGATGTAGTAATACCAATCAATAACGCAACAGGAAAACCAAACAGCAATCCAATAGAAATATCTCGTCCAAGAGAATCAGTACCAAGAAAACCATATGTTGACCCGCCCAAAACAAATCTAATTTTAGAAATAGAATCACGTTCATCATTGACAACAAATTTAATTATAATTTTATAATCTCCAGGAAGAATTTCTGCAGATTCAATAGAATCAAAATTTAAGTTAGAAAATATTACTTTTTCATTAGAACCAACAATTTGATTAATGGATACTTCTTCATTTGATTTATCTTGTAAAAATATTAGTAAGTTTGACGAGACAGATTTATCACCACTTAGGTTAATTCGAAAAGGAGATTCTGAATAACGTATAAATGGTCCTTCTTCTCCAGGTCGAGGAGGAGAAATGATTTCTCTATAGATTAAAACTTCTTCATTATCAGGTCTTAAGATTGATAATGTAATAATGGGAGGTCGATCATAATATACAACGTCATACATCGATAGAGAAACAAAAGTTGGAAATTCATTGGAATCATAACTAATTATTTTGCTATATATTCTCTCTTCTTGATTAGAGATTAAAACAACATCATTGGGAGAATTAAAGTCTATAATTTGATGTTGAAATGAATCATCTCCTAACAAAGTAGTCCATGTTGGAGGAGCAGATTTAGGATAATCAGACCAATATACAGGATTGCTCCAAATAGTAGTACCAAAATCTAACGGATATGTAAAAACAACAAAAATAGAAATTAAAAGAAAAATCACTAATAAAATAGATCCTGCTTTACCAGAGCCACTTGATAAAAATTCATTTATATTATCTTTAGAAGTGCTGCTCATGTATACCTCACTCTTGGATCTAAAACGACATACAAAATTTCAAGAACAAAACGAGCAACTACATAAAGAAGTGTAAACATAAATGTTAGAGCTACTATCACTGATTCGTCGGCAGCTATTATAGCTTCATAATATAATCTTCCCATACCAGGCCAACCAAAAACAGTTTCAGTTAGAATTGCACCGCCTAAAGAACCAGTTAGACCTAATATTAAACTAGTAACAATTGGTGGTGCGGCAACACGAAGAATATGACGGCGCATAACTAGATTTTCAGATAGTCCTTTTGCACGAGCAGCAGTAACGAAATCTTCTTGTGCTATATTCAAAACCATTGTACGAACAGCGTATGTCCATGGACCAACAGATACAATAACTAGAGTAAAAACTGGAAGAATAGCATGTAATATTCTATCAAAGAATCTTTCCAATGGTTCAGTAGGAGGTGGAGCACTAAACATCCCAGATGAAGGTAAGATACGGAATTGAAAAGCAAATAATATTATAAAAATTATACCCAACCACCAAGCTGGTAATGCGTAAGATATTGCGGAAAAATATGAAACTGAACGTTCCAAACGTGAACCTACTTGAGTTGCAATTTTAACACCAACATACAACCCAATTATTGAAGTTATAATTGTTGCAGAAGTAATAAGAATAACTGTATTTGGAAGACGTTCAAGAACTATATCACTAACTTTATTACTACCTGTAAAACTCCTTATTGTGCGTGCTTCTCCTAAATCAAGTGTAAGTATTCGGAAGATCATATCAGGTAATCTATAATACCAAGGTCTATCCAATCCATAGAATTCAATCAATTGTTCGCGCCTATCTGCAATTACTTTTTCTAGTTCATTTGGATCACGAATATTTTGCGAAAGAGACTGTCTCAATCCTCGTAATTCTTCACTAACAGTCGCTGTTAGTAATCTATCAGAGAACCCTGTTGCGCCAAGAACAATAACTGAAAGAAAAAGAACTGTAATTAAAACGACAAGTAATGATAATCCACGAAAGAATAATGTTCGAAGAAGAGACATACAGTGTCTAAGCTGTTAATTCTAAGTTTTATTTGTCTTTCTTTTTGTTTTAGGTAGAGATTTTCTGGTAGATTGTTTAGGTTTTCTGGTAGATTGTTTAGGTTTTCTGGTAGATTGTTTAGGTTTTCTGGTAGATTGTTTAGGTTTTCGACTTGTTTTTCGAGTAGATTTTTTACTTTGAATGAAGACAGTTCCAACAACAACAATAAGTAAAGCAACTATTATTGGAATCATTAGATTTGATGAAGATTCTGATTCTCTCACTGAAACAGGTTGATTATCAGAAATATCAGATCGAGGTTTATCTTCAACAATGGGTGAATTATCAGACGGTTCAACAGAAACAGGTTTATTAGTAACTGCCTCAAGTACAATTAATCTTTCATTAAGAGATGAAAGACTATCACTATAACCTGCAAGATATAATTTGTATAACCCGGCTTGAAGATTTGACGTAATAGAGCTGTCAAAAGTTATTAGAAATTTGTCATCATTCAAGTTGGAAGCTGTACCTTTTGACAAGATTTCATTAGTAATTTCGTCTACCAATGCAAATCGAAGACCAAGATTACCTTCTCCAGTTAACGTTACAGTAAATTGATTATCAGAACCGAGTTCAATAAAAGTAGAATCAATGTCGAGTATGTCGACAAGATTAGCGTCTCCAAAGAAGAATTGTCCGGGTTTGAAAGGATAAGTTTCGTCTCGAAAAGCATGTAATTCAGCATATTGGGCAGGCGGGTCATAGATATTCAACATAAATGGTCCATTTGATATTACTAGCATTCCGTATTGGTCAAACCAGGATAATGCAGAATCATATCTACTTTGAGCATCAGATTCAGAAACAAGTTGCATACCTTGAACAGTAAAGACATTAGAAGGAAAAGTACTTGCAGAATTATGATCTCGAATAACACTACGAACAAGTCTAGCATCTCCATCCATCACAAGGCTCAACCATGGAACATTAAATCGTTGCGCAGCAGTATCACTATAGGCGGCTTTTCGTTGATCAAAAACTAATGTATCCATTGAATAAAGAATTTCCCAAGGCATTGTTATGCTAGTTATACTGGCATAATCAGCAATGTAATCAGGAGCAAAATGCCAGAAATCAACATAGACTTCGAGTTTGTTATCATCAACAATACGGAACCCTTTGAAGCTATCAAGATATGGTTTAGAGACAGTTGCAATTGAAAATTCCATAGCAGATTTATCTTCATTATAAGTTAAATCAAAAGTTTGATAAATTGAATAAATTACATCAGCCATATTAATTGATTCTCCGTGATGCCAGTTCGAATTAAAATATTTTGAATAATCAAATACAACTTTACTAGTTGCAGTTGAACCTGAAGGAACAGTTGACCAAGAACTTGTTTCAGGATTCCAAATAAATGAATCTGAAGGAATATCAAGATTGCCACCAGGTCCCGAAGTAGTCACGTCATAATTTGCGCGATAAGGTATTGGTAATCCTGTAAAAGGGTGTCGAGTAATTGGAGGATCGTACATATTTCTCCATATATCATTACCATAAACATCTCCAAATCCTCCAACAGGATTCCACGTAGTACGTGCAGTCCATACCCATACATTTCCTATAGTCAAATCATTTTTACCGGGAATATAAGCGTCTCTTTGTGTCCACAGGCTTTTTGGTCCAGCAATTATATCAGAACTAATTCCTTCAATATTTTCATCTGCAGGTAGATTAGTAATAATATTTGCAATCCACAATCGGACAGATTCGTCAAGACAGAGTTTAGATGCGTCTACGTAAATTGAATTACGTTCTTCTTCGTTTTGAAAGTCGCCACTAAAAATTCTTTGTCCCAAGGAATCTAATTCAGGATTTTCATATTGCCAGAAACCTAATTCTTGCCATCCAGGCATAGTTCCTAACCATGGAGCACACATTTGATTCAATGTACCAGAATCATATCGATCAGCTGCGCTTTTACCCCATCCTTCAGTATACATATGCCATGAGCCACCAGTACCAACTAAATTAGGATCTGTGCTATAAACGGTAAAAATAGCTGGGCCAAATTGTTGATATGTAGATTGTACAATAAAACCGAGATTTTCAACTTCAGATCTTATTAAATCACCAACATCTCTGCGTTCATCTTCAACACGAATAATAAAATCAATGCGTATGGGTTTATCATTATAATGCCATTTGCCTTCAACTAATTCAGCTCCTGCATTAGTCATTGCGTCGTTTACAATAATCCTTGCATAATCTGAATCATAATTGATAGAAGATTCAAGAATCATATCGTATAAAGTTAGATAATCATGATCATAAGAACTCACTTGAGTTAACATTGGAACAGCCATACCTTGATAAATTTCTTGAACTACAAAATCTCGATTAATAATAAATTGCATAGCTTGCCTAACTTCTTTAATTGAAAAAGGATTAAGAGTATTTTCAGGACCTGGTGCAGGATTAAGTAGTAGTGAAATAGTTGATGTTGGAGCTTCGTGGACCTTAATTCCCGGTGAATTACGTATATCTTTTGCAGCAGCAACCTTCAGACCAAAATAATACATATCCATCTGATTAGCAAGAATTTCTTTAGGGGCAATATCAACATGAAAAGCTCGAAATCTCAGAATATCAACAGCAGGTCCAGGTTTATCGTGAGGTGGTACATAATTATTTTGACTATAAGATGTCTGAGGAATTGTAATAAGTAGGAGTAAAATACTTAGAATTGCAATAAATTTTGTGGACGGACTATATATCATGAATTTCACTTATTATTTGCGCATTAATTTACGAATTTTTTTAATATCTAGAGTGTCATTTTGAGAAATCGAAATGAATACTACTGCAACGATTGCAATAATAATTGCAATCAAAGTGTAGATTAGAGTTTCAAAAGTATTTGCTTTGTTTGATATAATAGATATATCATTCTGAAGTTGATTAATTTGAACAGGAAGATTACTTAATTCAGGAATTTCAGAAATAATATTAGGTGGTGGAGAATCAACAGGTGGACTCGCATTATTTACATTAGAAGAATTTTGTAACAAATCAAAGATAGATTCAGATATGCTGCTCAATCTATTTTCTAGTTCGTCAAGATTATTAAAACCAAAGTCCATATAGAACGAAGCAGTAGCTACATTTCCAGAAGATTCTATTGCTGCAATTGTATGAGCGCCTTCACCGGCAATTGGAATAAATATATCAGTAGTAAAGAGTCCGTCATCGTTAGTACGAGTTGTAGATATAATTACGCCACTTACCGAAATGAAAATTTCTTGATCGGGTTGGAAATCAAATCCAGAAATACGTACATCTCTACCTCCAGGTCCAGATGGAGGACTTATAAATATAGAAGGAGAGGGCATTGGTTTAGTTCGTGCAAAACCAATCTTTTGATTCATGCCGGTAATTTCACCCAATCTGCCATCAGTCCAAATCATGTATACATCATCAGCTACAGCTTTGATATCGTTATAATCGCCGATAAATGCGCCTCGAGGAAAAGCTTTGTTAGGATTCGTTGGATAATCTGTAATTCTGGAATTAGGTAACCAAGTTTCTCCATTGTCATCAGACCGTGTATAATACATGTGATATTTTATTTCACTTGGACTATCACGGAAGTCGCCAAAGAATGCATGAATAACTCCATCAGGTCCAATATCAAGAGCAGGAAAGAATTGGAATGAAGGACTTTCATCATCGTTAATACGTTTTGGAAGTGTCCAAGATTCCCCTCTATTAGTTGAACGGGCAAAAAATACGTCTCCGTCATCAGTAGGTTTATCGGAGGGTCTGCCTCCAAAAACAAGACTTATAGATCCATCTATGTCAGAAACAGCTCCACGAGGCATTGCACTGGCCCAGGATCTAAAAGGAGCGTTCCTAGATTTGTAAAATGGTTCATTAAATGTAGCTATACGTTCATTAATAGAGATTGAATCGCCGCCATCGTCGGATCTAGTAACATGAATTTCGGCTAATCCTTCAAAAGGTCCATCATCAGTAGAGTCATGATAGGCAATATACACTGTGCCGTCATCATGTGTAAATACATGAGGAAATTGAACAACTCTGTCACTTTCTTCGCCAAGTGGGCCTCCTTCTCCGCCACCACCTCCTGCATATGTAGAATATACAGTAGGGCTAACTGATATTGGCTCGCTCCACGTCATTCCATAATCTTCAGACTTTACTAATTCAATTGTTGTTTCAAGAACAGGATATCGAAAATAGAGAAACACGCCTTCTAAAGCAAAGAAGAAGTCATATCTTGTAACGAAATGTGTGTAAACGACGTAAATTATATCTTCATCAGGGTTTTCAGGATTTGGACCTGATGCCATCCAAGGTTTGTCTAAGAAACCAAATCTCAGTGTACCAGTACTAGTAACGTTTGCATTCTCACCTTCATATCTCGTTTGAGCATAATTTAATTCAATTTTACTTCGAGCGCTCGATATTGGTTGTAGCCACGTTTGACCGCCATCACTAGAGCGAGTAATTGAGATACTGGAAACTGTTTCTTGTAGAGGAACGCCTCCAAGATTAAAGTCGTCACTTCCAATAGATATACAACCCATGTACACGTTTCCTTTTCTATCAAATGTAGAAATTGGATCTCCGGCAGCGCCAAGATCTTCTTGCAAATATTTAGATTGAAATGGACCGCTCCATGATTGTCCAGCGTCTATACTAACATATGAAACAACGTTAGCAAAATTATAATCAATTACGCCTATTACAAGATGTTCAGGATCATTAGGATTTACAGCAAGAACTGGTTCAGTTTGTACAGGAACAGTACCAAAATCTCTAGTAACTAGAATATTTCGACTAAATTTTTGAGAAGGATCACGATAAGGCACTAGTGCAGCAGCGCCAGCAGCCTGTAATTTCACATCATCAGCATTAGCATTATTTGCTATCCAATCGTCCATTGCACCTTTCTTAGCATTCGCGAAACGAACGTCCTCACCTCTAACTACTCCCTGAGCAGCACCGGAAAAGACTTTTGAAACAGGTTCGTGGAATAGTATACCACTTTCTGGAATAAGTGGAGAAATTGCTCTGTATGGCCGAGCGCCACTCCAAAGAATATCTTCAGGGCCTGCAAAAACTGGATTATACAAAGGGAAAAATAATGTAGTAAGAAATATGAAAAGCAATACATATGCAGATGATTTCATTTGGATATATCCGTTATTAATATATTTAAAGTGTTTATTAATAGAAAAAAACCATCTAAAAAGAATCAAGCAACAAGACTTAGTGCTGCGTCCATACGAATAATAACTGTAAGCAGAGCGTCATTTTGAAATTTTCCAATTTCAGAAGTATAATTTAGTGCACCACTTATATTACCTTGAACTATCCAATCAAAGAATTCAGCATCAGTGGAATTAACTCCTGGTTGTTGTTCAATCCAATCATAATATGCATCAACCATAGAAATAACTTTGTCAACTGATGGACCTAAATTTGGATCGCTAGTTACTGCAATATCTTTAACTCTTTTCCAATGATCGAGTGCTTCAAATCGAGTAGTAGGTATTTCTTTACGTAATTCAACCAATAGAAGTTTATCATTATCAAACTTTATTATAGTGTCACTAATCAAATCTAAGCGTGAATTTAATTTTACTAATTCAGTTTCAGAAAGTTCTGCTTGTTGAACAGATAAACTAAGTTCCTCTTTCTTATCGACAAGCTCTGTTTCAATAATAACAATCTCATTATTCAAAGAAGAGATTTCTTGAGTAAGTTGTTTATGTTCTTGTTCAAATAGATTAACTTGAGATTGGAGCTCATCAACACGAATTTGTGATTGAGTCAATTTAGATTCTTTTTCTTTTAAGTCACTAAGTTGATTTTCAAGGAATAGAATTTGGGAATTGAGTACATCTTCATTAGTTTTTAAATCACTAACTTGAGGTTGAACTATCACATAACTAAAGACAGAACCAATAATAAATGCAACAATAATAGGTACAAATAACCTATTTCTCAATAATGGAGTAGATTTGGTACTTTTTTTGGTTTTTCTAGCAGTCATATTTATTTTCTCTAAGACAAACTGATTTATAATTTTTCAGGAATTAGGTAAATTTTTCACTATGGGAATAATAATATTATTAATGAGATTAGAGTGAAATTCATGTGGATATAATAGTTTTTTTATATATTCTTTCAACCTGTTTTGTGGCAGGAATTATAGGTTCGTTGCTAGGGCTTGGTGGAGGAATAATAATAGTTCCTGCGCTAACATTACTATTTAACGTTCCAATGCACCTGGCAATTGGTTCAAGTTTCATAGGAGTATTAGTTAATTCAAGTAGTGCATCTTCAGTATATATAAAAAATAGGATTACAGATATTAGACTAAGTTCAAGTCTAGAATTAGGAGCAGTAATTGGAGCAATTACTGGTGCATACATTGCTTTATCAATCAATAGCAATATTCTCAGTGTACTTTTTGGAATTACATTATCTTATGTAGCAATAAATATGTATACTAAATCAAAAACAATAAATAAAAAACCTGAGAAAATAGATCAAGACTTAAGTGAAAAAAGAGAGTATTTTGAAAAAAATACAAAACAAATTATAAAATATTCAGTAATTAGAACAAAAGAAGGTGTATTATTAAGTTCAATAGGAGGAATATTTGCAGGATTGTTAGGAGTTGGAGGAGGTTCAATTTTTGTACCAATAATGAATAGAGTGATGAATGTGCCATTAAAAGTAGCAATTGCAACAAGTAGCTTTATGATTGGAATGACATCACTTGTTGGAGCAATAATTTTCTTGATGAATGGTTTTTTTGATCCAGAAATAATAGCACCATTGATTTTAGGAATGTTTTTTGGTGCACAATTAGGATCAAGAATAAACAGAATTATAGATAAACAATTATTAAACAATATATTTGTAATAGTAATTTTTTATATTGCATTTAAAATGATAATAAATGGTCTAGGAATAAATGTGTTCTGATAAACATGATTAAAAGAAATGCTAAGAACGATTTAGAAGAACTAATATTAATTACAATAAAAATATTGTTATCAATATCAATAATTTTTTCAATAAGTTCAATTATAATTGAATTTATTTCAATAAAATCCTACGTAAATTTTCGGATTAATATATTTGATATTAATTTATTATTAGTATTAGCTTTAACTGCATTATTTCTAATACCAATTATAAGACTATTAATTATTACAGTAAAATTCTTTAGAGAAAAGAATTACATTAACGCATTAACAGAACTAGCTATATTACTAATAATATTGATATTGGTAGTTACAACAATTAACTAAGAATCTCAAGTGTGCCGTATCTGCCAACATTGAGCTTAACTTCCCCACGAAAACTGTTGGTATAACCATTACCAATTTTAAGTTTAGTACCTACCTGTACTTTTTCTATATCATCATTCCATAATGATAGTGTGATTTCTGCTGTTTCGTCCTTAATTTTAACATCTGCAACTCGAGCTTCTGTACCAAAACGAGTGTTAACTGTTCGTGTTTCTCCTATATCAATAACTTCAGCTTCAGGAATTTCAACGTTCCTTGCGCCATCTGTTAATTCAGCTATATTCATTTACACAGTTAATATAAATTTTCTATATATTTTAACTTTAGTATTTAATTAGGTTAGACATTACAAATGCTATAGAAGATGAATTCAGAAATATATAACTACATTATACTAATAGCAATATCATTTATTATAACATATATTTCGAGTAAGTTCCTAATTTCAGTCTTAAAAAATTCAAAAAGGGAAGTTTTAGATTATCATAAAGAAGAACAAAAGTTTGTGGCTTATCCAGGAGGTCCGGCAATAATCATAGGTCTTTTATCATCACTTATGCTATTATTCATAGTAACAAATGATACAAGGATTATTGCAGTATTTGGTGTTATAGTAATTACAGGAACAATTGGTTTAGTAGATGATTTCAAGTCTCTTGGAGGCAGAAAGAAACCATTGATTTTATTATTAGCTTCAATACCAATTTTATTATTAGGATCGTATGAACCAAGTTTAGATTTTCTCTTTTTTGGTTCTGCAAAATTAACAATCATATATCCAATACTTGTATTGATTGCAATACCTATAACAGCTAATACAGTAAATACAATTGATGTATTAAATGGTGTATCAACTGGATTTGTAATAATTGCTTCAATTCCATTATTAATTGCCTTGGTATTGATAGGAGACTATAACATTGCATTAGTGACATTAATATTAATGTCAGTTTGCATGGCATTTTTTCAATTTCATAAATTTCCATCAAAAGTATTTCCAGGAGACTCAGGAACACTTACAATTGGTGCAATGTATGGAGCAATTACAATTGTAGGAGGTATAGAACTTATTGGAGTTTTCGCTTTACTACCAGCTATATTGAATTCGTTTGTCTATTTATCCAGTATGCGAGACTTTGTAGAACATAAAAATATCAAAGTAAGACCAACAAGAGTACTATCTAACAATATAATTACAGCAGAGAATGACAGAAGAGCGCCAATAACATTAGTTCGATTAATAGTAGCAAATAATCCGTCAAATGAATTATCAATTGTGAATACGATTTTTGTATTAAGTATATTTACAGCTACACTTGCAACAATAATGGCATTATTAACTTGGTTGATATAAATGAAAAATTTATCTTCTTTACTTTTAATAATGTTTATTGCATTTCTATTAGTATTCATAATTTCTGTATTAATATTTACTGTAATAGCTCCTTTAAACAATATATTTACATTTAAATTTGGAGAAATTGTTACAGGAATAATAAAAATCACACTAAGCTTCGGTTTGTTTTTGATTTGGATTTTGATAATACAAAAAATAATTTCAATATATTTAGAAAGAAAATTAAGAGATGATAGAAATTAATTCATTGATGATAGATGAGAATCAATATCATCGTAATCGGGTTCCTGACCAGGATTATCTGCAATCCATTTATATTGAATAATTCCTTCCTCATCAATAATAAAAACAGATCTTTTAGCAACAGTATATCCATTCAAGTCGAGGAAATTTGGAAATTCAATATCAAGTTGTTTAATTACAGTTTTATTATAATCACATAAGAGTAAGAAATTAATATTATTAGTGGTAGCAAATTCTTTTACGCTAAATGGATAATCAACACTTATTCCAATAACTTCTGCATTTAGAGCGGAAAATTTACTTAAATCATCACGAAAATGACATAATTCAGTTTTACAGACTGATGTAAATGCAGCAGGAAAGAAAATTAGGACGATTTTTTTGCCTTTAAACTTTGATATATCAACAGAAGAAGAATCTGCGTCAGGAAGTTGGAAATTTGGTAAAGTATGTCCTACATCAACCATATACAGTAAAATTCGTCTCTACTATTTAGGATTTTTCCCATTCTTTCATTTTATTATCATAGGAGTCTCTTGAATAGATAGTCTTTGCAGGAGAGCCAAGAACTACACTATTAGGAGGAACATCTTTTGTAACAACAGATCCCATTGCAATAACACAATTTTTTCCTAATGTTACACCAGATTTTATTACAGATCTAGCTCCAATTACTACGTTATCTTCGACATAAATGCCATCAAGTTTTCTACTTGGAGGATACGGGTCATTAGTTAAGGTTGCAGAAGGACCTATAAACACATTTTTTCCAATAACACATTTAGGAGCAATATATACCAAACCTTCAATCTTTGTATTAGAATCAATTTTTACATCATAATCAACATGAGCAAGGGATCCAATAATTACATTATCACCAATTTCTGTATTATTCCCAATATATGACATATTCCAGATTTTGATGTTAGTTCCTAATTTTACATTTTTTCCTATAAATGCAGTAGGCGCAATTGTATTACTAGTATTATTCATAATAAATCATCATCAATATTATTAATTTTAAATGGCATGCTATTAGTTTTTATTTCATCAGGTATTTTGCTATACCATTTAGATAAAAAACGAGATTCTGAAATAAAATTTCTTTGATTGTCAGGAAGCATTAGTGGTATTCCATTAATTATAGGATAATACCGAACACATTTATGACAATATAATAAACCGGATTCAATCTCTAAATTATTGATTTCAAATTCAATCAAGTCAAGATTAGAGGTTTTATCAGAAGGGCAAACAAGCATCAACATTAATTTTTTTTTCATTAATAATCACAAATCCAAATAGATTGGAGTTCCACGTTTAGCAGAATTTATTGCAGCTTCAGCGATTTTAATGGTATTTAGGCCATCTACACCGGTAATTATTGGAGATGTATTGGATTCAACTGCATGAATAAAGCTTTTTAACTCATTTACTAATGGTTCTTCGTATTTACGAGTAGGGATAGTAACAGATTTACCGTCATCTTGCCTGATTTCTTGAGACATATAATCACCAGAGAGATTACCATTAGAACATGTGACTGAAATTCGACGAACTTTATATGGAGTTACCCAATTGGCAATAATTATAGCGGTTTTTTGATTCTTAAAACCAAGTATTATTGTTGCAAAATCTTCATAAGCAGTTCCAACAAATCCAGTAGATTGAGAATCTAATACATTACCAGTTCTTGCAAAAACAATATTAGGTTCTTCATCAAACAACCACCTAGCACCATCAATATCATGTACTGATGAATCTAGAATAACGCCAATATCCTTTGTGACACCCGCCCATCTATTTTCACGCTGAAATTCAATCAACAAAGGATCTCCAAAAGTTTGATTCTGAAGAATTTCCTTAATATTAATAATAATTGGATTAAATCTTTCTACAAAACCTACAGTTAAAGCAGTTTTATTTTCACGAGCTAAATTTACTAATTCCTCTCCTTGTGAAGAAGAATAGGTTAGGGGTTTTTCTACTAATGTAGATATGCCATTAGAGAGTGTAACTTTAGCTATTTCAAAATGTGTTGTTGTGGGAGTGCATATATTTACAATATCAACTTCTTGATTTTTTACCAAGTCGTCAATATTAGAAAAACCTTTAATAGAATATTTTTTTTCATAAAATAATCTACGATCTTCATCCTTTTCTACAAAAGAATTCAAACATCCTAAATCATTTAGTACACGGAGATGATGCTTACCCCATGAACCTGTTCCGACCACAGCTACTTTCAATATTAATTTAACTCCTCAAGCAATTATCTAGTACATACTGTATTGGCGTGAATTAAAAACATATTGTCATTCAAGTTTCCTTTAAGAGTTTTTAGGATTTTTTCATCATTCGCTGAACCAAATATCAATAACTGTTTTTTGTCACTAGTAGGTAAATAATAACTATCTTTACCATTCTTAGTTGTGATATAATCATCAATATCATTTATACTCCCAACAACATCAGAAACTTTATCAATTATATAGTCGTGCATCATAGATTTATCACCACGAATTTCTGATTTATCAATTGACCAGCAAAGATAAATCTCAGTTTTACTGGCTTTAAGTGAATTTTGTTTCATGAATGACTTAAGTTCGTCGATAAAAAATCTTGGATAAGAATTAACGCCACGAAATATAGCAGATATAATATACAAAGAAGGATCACCAGAATTTAGTGAAGAAGTATAAGAACGTATATCAGATAAATGATTAGTAAGGTCGTCAATATATTGATATTCATTTTGTAAGAGTTTACGATTTTTATAATCATTAATTTTTTTCAAGGATTCTGCTTTGGCAATAATAGGAGAATAAAATGATGAAATTTTTTGCAAATGTAAGAGTTCAGATATTTCGATGTTAGTTGTTTGGGTAAATTTAATATTTGCATTTTTTGCACAGGTTTGTACTAGCTGCTGATTATCAATATTATTAATTCCAAAAGAAATTGATGTAGTAGTTCTTGGTTCCATTGGAAGATAAGAATAGACAAAATCAGTTTCTGAATTTAGTCCACTACTTCTTTCTATAATTTCAATCATTTCATAATTATCTCCATAACCAACTGGAATACAATTAAAAAAGATTGTATCTTTAGAAAGCTCTCTAGAGAGTTCAGAGATCATAGAAAAGATTTGTTTTTTATAATCGTCAGTTTTTGGAATTTTGGGTGTAAAGAAAATGACAGAATTCTCACTAATGGCATTTTTTTCAGGTTGAATGCTAAAAAGTGAATCTTCTTCAATTAATTCTCTAGCAGTAGAATAATCAGAAAGAATTTGAGGAGTAAGTTCTGTAGCAACGTGCAATTTTTCGTCAAGAATTGTGGTCTGGATAGAGTTTGAGACTAACGAGTTAGAGAGAATATAACCCTCTGTACTAAGGCCATAAACTAAAACAGATCTTTTATTATCCAAATTATTACAATATACAATCTTTATTTATATTAATAAATTGTCAAAATATGGAAAATTTGCTAATGATAATAAAGATTAAAAAAAGTTATATCATGTAATTTACAAAGAAATATACGCAATTAAGATATGAAAGTTTGGATTGATATATTAACGCCAAAGCAAGCACTGTTTTTCGAGCCTCTTATTGAAATGTTAAAAGAAAGAGGAGACGAAGTTGTAGTTACATCACGTAGATATAGAGAAGTTGAATTATTGTTACGTAAAAGACAAATTAATTCAGAGTTTATTGGAAGTCATGGTGGAAAGCATCCTGATGTAAAATTATTTGCTAGTATAGAAAGAAGTAAATTACTTACAGAATATTTTAAAGATGATAAACCAGATGCGCTGGTTTCTTTTAGCTCACCAGAAGGAGCAAGAGTAGCATACGGATTAGGACTAATCAATATATGTGTAAGTGATTCACCTCATGCAGAGGCAGTATCAAGACTAACAATTCCTTTATCAGACTGTCTGTTAACACCATGGATAGTTCCAGATAAGTCTTGGACAGCATATGGAATTGAAAGAAGTAAGATAGAATCTTACAAAGCGTTAGATCCCTTTGTGTGGCTATCAAGAAGAGATCTAAATGATAAACCACATTCAGGATTAAATATTGATAAAGGAAGAAATACAATTTCATTAAGATTAGAAGAGAGTTTTGCGTCCTATGTTTCGAATGAATCATATGGACAAGAGTTTGTATTAATTAAACGTCTAATTGAAGAATTTAGAAACCAGAACATTGTAGTGCTTTGTAGATATTCTGAACAAATAGATAAAGTATTAAAAAAATTCAAAGGAAGAGTTATTGTACCAAATGATGTAATAGATGGAGTCGCTCTACTACAAGAATCTGACTTATTTATCGGACTTGGAGGAACTATGACAGCTGAAGCTGCATTGGTAGGAACGCCAACAATATCATTTTTTAGTGGAAGTTATTTTGTAGAAAGATATTTAGTATCAAAAGGACTCCTAACCAAACCAAGAGATGTAGATGGAGTAATCAGAGTATCGAAGAATTTCTTAAGAGACTCAAAAATTCGAAAGCAAATGAAAATGAGAGCAAGTAGGATTAGATCAGGAATGGAAGATCCAATTAGGGTTATAGTAAAAAAACTTGATTATCTAATGAGAGAAAAACTTAATCAAGAACTATATCGAAAATGATATTAGCCCGGTTTAGCCCGGTGGAGGATAACAATCTACCGAGTGTAGCGGTCAAGCATATCGCCCTTTGGAGAATGAAGAAAGGCGGTGACGGCAGTTCGAATCTGCCCCGGGCTATTATTCAAAGATTTTAGCAGTAAGATAAGTAGAGTGAGCTTCTATGATTTTTACATTATAAGTATTCCCAAGAACAACGTCAGTAGTTTTTAAGACAATCGGCCTATATGCATTATTTCTTCCAATCATCGTGCCATCTATTTTTCCTTTTTCATTTACAAAACACTTACCAATCCAATTAAGCCATTTTCGGTTCTGTTGTAAAGAAATCTCTTTAATGATAGTTGTTAATAATTTGGATCGTTCATTAATGACAGAGTTAGGAACTTGTTCCATTTCAATAGCTTTGGTTCCGGGTCTAGCTCCATATTTTGAAAGATTAACAACATCGGGTTGTGTAGATTTTAAAAGATTAATTGTATCTTGAAATTCTTCATCAGATTCAGTTGGGTAACCAACAATAATATCAGTGGCAATTGATGAAAGAGGAAACTTTGTTCGAAAAGTAGATGACATAAGCTTATAATCTTCCGCAGAGTGGCCTCTTAACATTGATTTTAATATACGATTATTTCCTGATTGGACAGGAATGTGAAGAAATTTATATATCTTGTTATTGGCAAATGATTGGAATAATTTATTAAATTTCTTTTTTGTATGCATTGGATTCATCATACCAACACGAATTAAAAAATTATTAGGAATCTTAACAACTGATTGAAGTAAATCAGCAAGATCCATCATCATATCCATACCATAACATCCATTATCTGTAGATGTTAACCATATTTCTTTACAACCTGAATTAGTCGAGCTAACAATCTGTTCAATAATAACATTAGGTGAATAACTAATCAGATTACCTTTAGCAATTTTCACTTGACAAAATGTACAGGAACTTAAACAACCAGTTCCAATTTCTACTATATCAATCACTGGATTAATCCTAATTTTTGGTAGTAATACCTTAGGCTTCGTTGACGTTTCTAATTCAACACGAGAAACGCCTCGAAGAGTTGAGTTAACAATGTCAGTGATTTTATCAATAGAATTAGGTCCCATTAAACTAGCTTTTGGATTAATTTTTATTATGTCACTAGCTTGTGTCTTTGGCATACAACCAGCAACAACTAAGGCAGAATTGGTTTCCGATAGTTTTTTTATTCTATGTGACATACGGTTTGCAGTTGCTGTTTTTACAGTACAGGTAACAATAACATTCACATCAGAATCTTTAGGATTATCAACTATCGAATATCCTGCTTGAGTTAATTGACCTGCACAGATTTCTGAATCAGAATAACTTGCGCTGCATCCATAAGTTTCAATATATACTTTTGAGCTTTTAGACATAGAAGACATTTGAACTAAGGACATAAAGATATTTTAACTATGAGTAACAGACTTGGGAACAATCTCAATAATTGTTCTTATCTCACCATCCTGTCTATATGGATATTTAGGGACTCCAAGGTATTTTTTTGATAATTTATCAATATGTTCGTCGGCGCCGTCATTAGTCATGTTTATAACTTCGCCAATTATAGATGTCCACTGATAAACATTATTAAAATCAGTTATACTTACAGCAATACGTTTATCATTCTTTAGGTTTTTAAATTTAAGTCGATTTTCGGTGATATTAATTAGAATATTATTATCAATACGATCAATCCAGACAGGAGTAACATGTGGACTACCGTCTTTTTTTAAAGTAGCAACATGAGCAATATTTTTACCGTCAATAAGAGATTTTGTTTCGTCAGGTAATTTAGTCATAATTAACATTAGTAAATAATAAGTTATAAGAATTTGATGATATAATTTTAATAAAATAAAAGAAATGGAATAATAGAAAATAAAACAGGAATGGGTAAACCAGGAAAGAATTCAAATCTTTTGAGGAATAATATTGTTAAAAATATCCCGACATGTATCAAAATAATACTAAAAATAGCTGTAGGTAAATTAATCAATAATAACACGGATGAAGGAATCATTGAATAAAAGATAAGATCTCCGGTCCCAATATTAAAATTTTCAAGATTAACAAGTAAAGGACGCATGTCAAATGAATCATCATAGGAATTAATGATTGATTTTAGTGGCCCATAAAATACTGCATAAATGTCATAAATTGCAAATACAACAGGAATAATAATAATAGTCGGTGGTTTAAGAAAGATAGCTAACGAAGTTCCATATAATGAAGCAAGAATAAATGAGGTAATTAATTGAAATACGTTTAATTTAAGAATCGTCATTGAAAGTATAGTTATCAAACTCAGAAATAATGAAAATACAATAATAAAAGAATTAGAAAAAAGTGAATTAAAAACAACAATAAAGATAATATAACTAACTGAAAATGTTCCTACACTTAAAGCAAAAATAAACATGAATTTCAGTAAGAGGAATCGTTTAGAACGTAGTAAAAAAAGTATAATAATCGTAATAAAAAATGTAAATAAAATAAGAATTACTGAATTTAATATAGATCCGGTTGTAGTATTTCCAGCTGGTTGATATGATGGAAGAAATTGATATAATCCAATAAATTTACTAGTTAAAAATAAAGATGTTATTTGAATAAGAAGTACAAATATAACAATTGACAAGAAGCCTTTTACTGAAAGGATATCATTTTGAGAATTAGACATAATAAATAATAATCAAATAATTAACGTACAATTAATTGGCCACGATGATTCGAATGACCTTCACCGCAAAAAACATTACAGAAGATTTCAAATACGCCTGGTTCATTAGCAATAAATGAAACTTCTACGGTTTGTCCAGGAGGTACAAAAGTGTAAATATTTAATTCGTTAATAGCAAATCCATGTGGAACGTCTGTACTTGTAATTCTAATAACTATTCTTTGACCCTGTTGAACAATAATCTGATTAGGTTCAAATTCCCACTGTTTTGAGGTCAGTTCAAATACTAGCTGATCAGAATCCTGTTCGTATTCTGGAAGAAATTGCAATAACATAAAGAAACCAAAAATTAGTAGAAATGAAAATAATTCTTTTTGATAAGATAATTTCATTTTAATTAGCCATTTCCATTATTTTTTATACTTCTCTGCTTCTTCTGATCCACCAGTTGCACTCCCTTTACTATAAGAATGAGCACCCATTCCTGCAAGTTCTCCATCTTTTACAATTAAGTATTGATTTCTTATTGGTTCACCATCAAAGAAACATTCCAATATCTCTCTTGTACCAGCAGCATACCTTGCCTGTGCTGATAAAGATGTTCCTGAAGTATGTGAGGTCATACCGTGGTTTGGCATTGTTCTCCAAACATGGTCATTAGGTGCTGGTTGAGGAAACCAAACGTCTCCTGCATACCCACTTAACTGACCTGACTCTAATGCTTTTGCAATAGATTCTCTATTACAAATCTTTCCTCTAGCAGTATTAACTAGATAAGCACCTCGTTTCATTTTATTGATTAATGCTTCATCAAATAAATTTTCTGTTTCTGGATGCAATGGACAATTAATTGTAATAACATCACAAACTTTAACTAATGACTCTACTGAATCGTGGAATGTTAAATCTAATTCCTTTTCAGCAGCTTCAGGTAATCTGTGCTTATCAAAGTAATGTAAATGTACATCAAATGGTTTTAATTTTCTTAAAGCAGAATATCCTATTCGGCCTGCTGCTACAGTACCGATGTGCATGCCTTCTATATCATAAGAACGTTTAACAGCATCAGCAATATTCCAACCACCTGATTTTACAATTGCGTGTTGATTGTGATAATCCCTTACTAAAGATAAAATCATCATAACAATATGTTCTGATACAGAAATTGAATTAGAATAAGTTATTTCAACTACATCAACTTTATGATCCATAGCCGCTTGTAAATCTACATGATCGGATCCTATACCTGCCGTAATTGCCATTTTTAAGTTTGGTGCACTTTCTATTCTTTTTTTTGTTAAGTAGTAAGGCCAAAATGGCTGTGATATTACAACGTCAGCATCAACTAATTCTTTATCCGCTTCACAACCTTCAGCGTCTTTATCCGCTGTAACTACTAATGTATGTCCGCGCTCTTCTAAAAATTTTCTTAATCCTAGTTCTCCTGAAACACAACCTAACAAATCGCCAGGATTAAAGTCAATTGCTTTTGGTGTTGGTAATGTCATGCCATCTGGATATGTTTCTAATTTAGGTATACTGTCTAAAGCATATCTGTTTGGCATGCCATCTTTTGGATCGTCATATAACACGCATAATATTTTCATTTTAATTTTCCTTTTATTATTCTACTTCATCATCTTGTTCGAATTTTAAAAACTATGTAAATTGCTGATATTACAGCTATTAATGCAATTAAAAGTAAAATTACCTCGTTTGTAGTTCCTATAATTGCAGAAGAATCTGCTGAGCCTTCAGGCAGTTTAAACGCAGCAATTATTCCTGGAGTGTTTGCTGCTACTTGACCTCCTCCTGATGGTATGAATAACATCATATCGCCTCTTGCAGTTGCTCCTAATGTGATACTGCCTGCACCTAGTCCTCCCCATTGAATTCTTCTTAATTCTTTACCTGTTTCTTGATCAATTGCATACATTACACTTGCTCTATCTACTGCATAAATAACTCCTCCACTAACTGTAACTCCAGAACTTTGGTATCTGTTTGGTATTTCAAAAACCCATTTTATACTCATATCTGATACATCAATTGCAAACATTGTAGCATTTTGTCTTTCTCCAGCTGCTGCACCATAGATAAAACCTTGCATATCTTTCCCTTTGTAATTTACTGGACCCTCTGTTACAGTCCAACAGACCTTTTGACTAACATAATATAGTGTATTTGACGCAAATGCTCCTGCATGTTCAATTCCTCCATTACCTCCAGGACAAAAAGTTTTTCCAACTAATGTCTTTTGCGAAATCTTCATATCTGCATTATTTCCTGCATTATCATTTGGAACATTAAATGCTTGATTGCCCAGTCTTAACGGCTCATGAAGAAGTTGACCTGACAAAGCATCCAAAACAAATACATGATCAGTTTTGGAACCCGCCATTATGGCTTTTTTCCTCTGCCCTTTAATTTCAATTTCACCCAGAATTACACTCCAACCTATCTCATGATCGTTAATGTCATGTGGTGCTATTTGATGATACCATTTCATTTCACCCGTATCAACCTCTAAAGCTACAATAGAACTTGCATAAAGATTTGGTCCTGGTCGTAATGCAGCGTCAATTACTCCTGGACTGCTTCCAGTTGAAAAATATATAGTCCTTGTTTCTTCATCAATGGAAATCAAGCTCCATACAGCTCCACCGCCTATTAGATCGGTTTCACCCCAATCACCTTCGAATGGTTTGATATTTCCTTTATTCCCGTCTTTGAAATCCCATTTTGGATCTCCTCCTACAGGTGGTACTGAGAACCATCTCCATACTTCATCTAATGTATCTAAATCATATGCAACAACAAATCCTCTTCCTCCACCATCTTGAACTGAAGGCCGTGCAATTAACAAATTTTCAAATATTAAAGGTGCATGCTCTCCAAAATAGAAACCAGTGTTTCCTTCTACATTTTTACAGACATCAGGAATTACAAACACTTCACTGCCATCAAGAGCATCTAAAGCAATTATTCTACAATCAGATGCCATAAAGTAAATTGTTCCGTCTTCATATGTTATGCTTTTTTGACTTAGAACTGGCCACCACCATTCTTCATCTACAAATTCCATTACATCTACTTGATACTGCCAAACTTCTGCGCCAGTTTCTGCATTTAATGCAATTACACGATTATAAAAAGTTGTAAAATAAATTATGCCATTTACAACTAAAGGTGCAGTTTGTAAACCTAGAGATGGTGCAACATAAGGAATCTTGAATGGATCTTCTGGCACTTGATATATCCAACTTAAAACTAAATTCTCTACATTATCTCGATTAATTGAATCTTGGGGGAAAAAATTTGTATTGTGATCATTAACAGCAGGTTTGAACCAGTTGAAAACTGGTTCTTGCGCAAAAATTGTTGGCGTACTTGCCATTAATATCATTAATACAAGTATTAAAATTGCGCTTGCCTGTATTATTCTCATAATAATATCAATTGACTTACTCTTAATAACTTGAATGTACTATCCTGTGCCTTTAGGTAAATTACTGCCGAGTCCTAGACTTTCGAATTCCTCAATATATTCTTTTTCTTTGGCTACATGTTCAGGTTTTGGATAGTGAATGAATCCTTTGTCTAATGCTTGACTTACCCAATATTCAGTGACAGTTCCAGGCCTTGCTGGCACCATCCCATCTAACGTTCTTCCTAATTCATCTTGCCAATCTGCACTAAATATAAAGTTCAGGAATAATTCTCCTGCACTCTTGTTTTTACCTGCAGATGTTAATCCTGCACATCTTGCAATTGCAGATGGCGGAATATCTGTAAGAACTAGTGGCTTTAGTCCTCCTTCTCTCATGTAAGAATAATCATCTCCCATTCCTTGTTTACGAAGTGTCGCAGGAAGACCGAAAATATGTTGGCCTAATCCTAGGTTATGCGTCATGTGTAAAAGACATTCGTATGTACGAGGCTTAACATTATTCGCCATTCTTTTCATAAGTTCTGTCCATCTACTTTCACCTATGTGTTCTTTTAATGAAATTAGATAATAGAATCCCATTTTTCCTTCAGGAAATCTTACCAGAGATTGAATACAATGACTTGATTCAATCGTCTTTCCAGCTATTACTTGTTTACCATTAGCTTCACTCCATTTTGGATCTGTATATTCTTCAAATGTTGTTGGGAGATAATCCAAACCTCCTTTATCAGCATATAATTTCTTAAATAATGCATCATTATACACAACTCCTGTTGGTTCAACAGCCATAGCTGCCCATGTTGCATTTTCATCTTTGATTACATTTGGCCATAGCTTAAGATGTGTCCTTTTTATTTCTGGAATGCATTCTCTTAATAGTCCTTTATTTGCCATTTGTATTAGCATAAATTGCGGCATCATTACCACATCTGCGGTACCTGGATCTCCTTCCTCGTTGAGATTTTTGAATGCTTCTGCTTCAACCTCGATTCTTCTTTCTATTGGTACTGGGTGAGATGAAATATATTCTACATGGAGATTTAGATGCTCATATTTTTTTCTAAAAGCCTTGACAGAATTCTGTAAAACGCCCCTCAACGACGCATATATTATTAATCTTCCATCTGCTTTAGCATCTCTTTCTAATTCTTTAAGATAATCTGACATATTAACTAAATATAAATTTCAAGCGAATAATAACAAATCATTTAGAATAATACTAACTTATTTTCTTATTCTAATACTATCGAACATGCTGATGAAGGTATTTCAATGAACACGTTATCTCCAGCTTTGTACAATGGGTGCTCTGTTATAGCTCTTGAAACTTTAATTTTTTGATCTTTAATTGATATTTTATATTCAACAAATTGTCCAGTATGCGCTGAAGTTTTTATAACTGCTTGAAATATATTTGAGCCTGTTCTTTTCGAATTATGAATTATTGCCTCAGTACCTTTCAATAAAACTTTTACATCATCACCTTTTTCTATTTGATCTATACGCTGGCAAATCAGATTATTTCCTTGTATGCTGATAGTCGCCATGGATTTGTCCAAGTCTACTACTCTCCCTCTTAAAATAGACATATCTCCTAATATTATTCCAGCATATGAATTCGGTGGATTATTTAATAATGAATCCGGTGTACCTGATGCTTTAATCATTCCTTTATCCATAATAATTATTTGATCACTTAGAGAAAGTGCTTCAGTTCTATCATGTGTTACATAAATTGTAGTTATTTTTAACTTTCGTTGCAGTTCTTTAAGTTCAGTTCTCATTTCATCTCGCAGGATGACATCAAGATTACTTAATGGTTCATCTAAAAGAAGTAGTTTTGGATTATAAACCAAAGCTCTTGCTAAAGCAACTCTCTGTTGTTGTCCTCCGCTTAAATTTGGAACTAATCTATCTTCTAACCCATTTAATCTTACTAATTTAATAATGTCAATTACTTTTTCATCAATTTCAGATTTTGATAAATTTCTAATTTTTAATGGATATGCAATATTCTCAAATACAGTTAGATGAGGCCATAGTGCATATGATTGGTAGACCATTCCCATTCCTCTTTTTTCAGTTGGAATCATGATATTGTTTTTTTTCGAAAATAGCGTTTCATTCCCAATTTTTATTATTCCTTCATCAGGTTGTTCAACACCTGCAATACATCGAAGTACTGTTGTCTTTCCACAACCACTTGGTCCAAGAATTGTGATAAACGATTTATCTAAGACATTAAAGCTAACATTATCTACAACTAAATTATTGCTAAATTTTTTAGATAATGATTGAATACTTAAATCTGTCATATAATTTCAATAGTTCTTCCACGAATAAATAATTTGCATTTTCTTCTAATATTGATAGTTATTATATTTACATAATGTTTATTTCACAGGTATAGTAATTATTTTCAATTTGTCATCGAAAATCTCACGACGTAAATTCCTTGGATATGCAGGTGCGGCTGTGGGTTTAGGTGCGTCGGGTTATTATGCTCTGAATCAATTCAACCAACCGCAACAAACCGAACCGATACCTGGAAATTCTTCAGCTCCTAGTGGTCGTTCCACAAGATTAGCAATACCTAAAAATCCTCAAAATTACCTTCCTGATGAATATGTAGATTTTATACGTTGGTTGGAATCTATTTCTGATAATATAGCTGGCACCGAAATGCGTATTGCTATAGAAGCTGAAGTTGCTCCTCGTGCTTTACTTAGAAATAAAATAGATTTTGAATCATCTACTGGAACTAAAGTACTCATGGAATTTGATATATATCGTAATAATTTAGCAAAATGCTTGTTAGCGGTTTCTACTCGATCTCCTACTTTTGATGTCATGAATGTAGATGTTTCGCAAGTCGGAAGATTTGCTCCTCACTTGATTCCTATTGAAGAGTTAATGGAAACATATCCTGAGCTAACTTATCCTAATCTTAATATTGATGAATTTGTTAAACCAGTTATAGATTTTACTTGTACCTATCCTCCAAATCTGAGTCTTCCACCTTGGGAGGTTGACTTCAATGGAACATTTATGCAATTTCCACAAGAAGTTCCTCTAATGATAAGGTTCTTCCGTAAGGATTTATATTCCGCAGAAGGTCGTGACGTTTCTGTTACATGGGATGAATATCTTGATGACGTCAAACATTTCCACGACCCTACTAAAGCAAAATTCGGTACAGTTCTTATGGCCGCACGGTTTCCATCTATTGTTATGGAATTTCATAATTGGTTGTATTCTTTTGGAGGCAAGCTCTGGGATATAGAAAAAGATGGAACAATTACTTCGGCTATCAATAGCGAACAATCACTAGCAGCTCTTGATCATTATCTTGAGATCAGTAAATACGCAGAACCAAATTCTGCATTTTATGGTTGGGCTCCTGCTGCAGAAGCGATGAGCCAAAGACGAGCCGCAACTATGCTCAATCTTACTGAATTTGCTTCTTTGATGGATATTCCAGGTGAATCTTATGTTGTTCGAGACGTTGGTTACTCTCGTAATCCTGTCGGTGAAAGTGGTGCATCACATCATTATAGTGGAGCTGGATTGGCAATTCCAAGATATTCACTAAATCCTGCTGCTGCATGGGTGTTTATTCAATGGGCAACATTTGCCGCAACTCAATTGATAGTTTCAATGGATCCTTTAGCTTTGGCTGTTCCTACAAGAACTTCAGTTTATGAAGATTCTCATGTAAAGGAACTTGTTAGCGAAGGAACCATACGTCATTTTAACGTTGTAAAAGACGCAATAGATAAAGGAGAGATTAATATTAAACCTGGATTTCCACTCTGGGATAATATTGAGGGAGAAATGATGAACCAGTTAAATCGTGCAATTCGTGGTCAAATTACTTCAAAAGAAGCACTAAAAATTATTGAGGACCGTGCAATAGATCAAGGTCCTTTTACCTTTTAATTCTAATAAATACTTAAGTATCTTTAATCACCCAATGTCTCATTAGGGGATTTGAATGGGAGAAATATCAATTAATGCAACAAATGTTACAAAAGCCTACGGTGATTTTAAAGCTATAGACGATCTTTCTCTTAAAGTCGATAAAGGAGGAGTGTGGGCATTGCTTGGTCCTAACGGTGCAGGAAAAACTACATTTCTAAAATGTATTTTAGGACTAAGAGAATTTTCTGGTACTATTTCCATTGAAGGTTATGATATTGTAAAAAATCCTAAACAAGCAAAGATGCAAATTGGTTATGTTCCGCAACATCCGACTCTTTATGATGAACTTTCTGTTCAAGAAACATTGCGTTATTTTGGTGATATGAGAAATGTTAAAAGATCAAGACTTAAAGAACTTCTTGAATTTGTTGGTCTTGAGCTATGGGCACGACAACCAGCTTCTGCTCTCTCTGGTGGAATGAAACAAAGATTAATGTTAGCTGTTGCTTTACTTTCTGACCCTCCTACACTTTTACTTGATGAACCAACTGCAAATCTCGATGTAAGACGTCAGTTAGAGTTTAGAGATTTAATTAATTTGTTAGTTAGCGAAGGTAAGACTGTTGTATTAACTACTCATCTTTTGGGAGATGTTGATCAAGTCGCAAAACAAATCATGTTAATTAATAAAGGAAAGCTTGTAATCAAATCATCTGTTGCTGATTTATTCAAAGAGTTAGATCTCAGTTCACAAATGTATATCGAATTAGCTGATCCAACCAAAGAAAACGATGCTATCGTTGCTCTTGAAAAAGCCGGTGCTAATGATATATCTGTTAAAGGTGCTTGGTTAGAAATGGGTATTGATCCTTCTAACAAACTTGATGTTCTTAATAATCTAAGAACTTCTAATTGTGAAATTAAAGATTTTAAGATTGAAGAACCTAATCTTGAAGATGCATTTATGAAAATTACAGGTGAGGGTCAGTAATGCCTAGTGCCTTTTATATGATATTAAAAAAGGAACTAAAAGATTCCTTAAAAAGTAAATGGCTAGTTACTTTTGCAGTTACATTCTTCTTTCTTGCTTTAGGCGTTCCGTATATTATTTTAGGAGCAGGCGGTTTACTTCCTCAAGATTATCCTGGTATGGTGGTAGGAACTCTAATTACTCTGGCCGTTCCTTTAGTTCCCTTGGTTTCTTTAGCTATGTCATCTACTACAATTGCTGGTGAAAGAGAAACTGGAACTCTTGAATATTTATTAGCCCAACCTGCCTCAAAAGTTGAGGTATTTTTCGGTAAATATGTAGGCATTGTTCTTTCTCTTACTTTAGCTATGATGCTTGGATATGGTGGTGCTGAGTTGATTGTATATGCTACAAATCCTACTTTTATTGTGTCATTTATTTATGCATTATTATATTCTTCTTTGCTTTCTGCTGCCTCTGTCGGTTTAGGATTTATTATATCTGTTATGACAAAAACCCGTGCAGCAGCTATAGGTAGCGGATTATTCTTATGGTTTGTTCTTGTAATCATTTATGATAGTGGATTCTTAGGAGTTATAACCGTGGCATTAAATGCAGATGCATTATTGTTGCCATTGACAATTGCTAATCCAGTCGAAACAACAAGAATTTTGGCATTGATGCATATGGCAGATAGTCCACTACGTGGTGAATTAGGTCCACAAGCTTCATATCTTTTACAAGAATATGGTTCAATCGTTGCATCAAGAATTCTTGCTGCAGTTCTTCTTCTTTGGGTAATTATTCCTGTTTCAATATCTTATCTTTTGTTTAGAAGACAAGATGCTAGTTGATGAAGTAGTTCATTTTTTATTACACCTGATTATTTTTTTCTAGATATAATATACAAAACAACTGTACCTGCCATTCCCAATGTTATTACTGCGATAAACAAAAATAATCTATTAGGAATTGTTTCAATGGACTTTGTTTCATTGTTATTTGCAGTCTCTAAAATTATTACTTCACTTATTGATTCATGATAGATTCTTGACCCATCAAATTCAACAAATATTTCTGTTTTCTCAGCTATTTGAATTTGAATCGATGCTAATCCATTTCTATTTGTCAGTTTATTTGTAAAAATTTTATCATTAATGAAAAAAGTAATTAATTCTTTTTGAATTGGCAACCCATCATTTGTTTGTAAGTGAGCCGTTATTTGTGTAGCTTTGTTATTTTGTGTTTCTTCAGATATATCCAATATTATAAATGAAGATATTTTGTCCGTTGCACTTGTAAATGGAATCAATAATAAAATTATTGTAAATATGTATAGTATCTTCACACAATTGATTATAATTTGAATTTAATATTTATTCCGTATATTTAAATATCAATTTTTTACTCTCCGGCTTATGAAACTCGACAATAAACTCGTAGTTGGGTTGCTGGTTACTATACTCTTAGTGGTCTCATCATTTACCTTAATGGTAAATGCTTTTGATCCAGGAGGTCCTCCAATCGCTGGGGGAGTACCAAAAGTAGTAACGGGCAACTGGGAGTGGATTAATTACCAACCAACAGGTGGTAGTTACAGTCCACAATTTGACATAAATAAAGACAATGTTCAGCATTTAGAAATGAATTGGATTTATCCATATGTCAATCAAGATGCCGAAGATCTCGGATTTAACTTGGCTGCACAAACAGGTTCAAGTGCTCCTGCATTATTTATTGATGGTGTAATATACATTGCAATGAATACTAAAGCAGTACATGCTATTGACGCAACAACCGGCCAAGAAATTTGGTACAGTGATTATTTAAGTGTAAATCCAGACTTTAATAAAATGGTTGCAGACTTTCCATATCTGCAAGGAAGCCGGGGACATGTTCACGCAATGAATTATTATAGAGCAAATGACTGGCTCATTATGAGTAGTATTCCTTGTTATCTAGCTGCATTGAATGTAGAAGATGGCAGTCTCGCATGGGAAATGGGTCCAGAAATATTATGTGGAACAAATGAAGAACTCGGTAATCCTGCACAAGGCATAATGGGAACCTTCAAAAGTAAAGGTTATTTCCCTAGTATATCTAACCATCCTCCATCATTCCACGGTGATATTATGGTATGGCCTTCAATGGGCGCTAGTGGCGCTGGTGGCCGATCTAGTATTATAGGATATGATATGAGTAATCCTAATGCTCCTAAACAATTATGGAGAACTTGGGTTGCTCCAGCAATGGACGGCAGTCAAAAAGACTGGGCGATTGAACAATGTGATATAACCGGTGGAAACGGCTGGTACTTTGAGTATCCAAAATACCGTGAAACTGGACAACTTGCTTTGAATTGTAAAGATGCTCCTGAAGATGCAGTTATGAATGACTGGATTAACATGAAGCCAAACACTCCTCATTATGGTGAAGTACATACTGCAAGTGCAGTTTCTCCAGTTTGGGGTAACATGCCAATAGATCCTGAAACTGGTATTATTTATATGGGAACCGGTGATATCGGACCTTATCCTAATGCTACTTTCAAATTTGGACCAAATCTTCATGGTAGTGGTATAATTGCAGTTGATTCAACAACTGGTGAATTAGTATGGTGGTTTGCTACAAATCCACACGATCTCTGGGACATGGATTGTTCTTGGGGTGGAATCATTGGCAAATCAGAAGGAACTAAAGTCCTAATCAAAGCATGTAAGAATGGTATCGTTTATGCATTGAATGCACTTACTGGTGAACCCGTATGGGTATATGATCCACCAAACATTCGAAGAGATGTTGAAATGAATTATGGTGTTGATAAAAATAACGATCCTACAGGAAAGGACGCATGTTGTAACATGGTCTTTGAACACATGAACAAAGATTGGATGCATCAACCAAAAGATACTCCAGTAAGGACAATCTGTTACACTCACTGTATAGAATCTGACATTGCATATGACGGAAAACATGTATATTTCGCCGCGCATAACGCTCCACGAAATCTTACAATTAACAATGTCCGAGACTTTGGTAACAATGGTAGAGCAGTTTACTTTGGCGCTGAAGAACGAAATGTAACTGTATTTGCAGTTGACGCAAATACTGGTGAAACAGCTTGGGAATTCTTTATAGAACCTGGTGCATTTAGAGGAGGCATTCTAGTAACAGGTGGTGTTGTCTATGCATATGCAAGTGATGGAAATCTCTATATGTTAGATAGCGACACTGGAGAATTATTATCAAAGAAATTCTTCGGTATACCTGTCAATGTTGCTCCTACTATCGGTGCAGGAGATGACGGTAAACATAGAATCGGTCTTCATGTAGGTGGAGGCGGAGGATTTGTCTTCCGTGGACATGGTACAGCACCTGGAACATTCGCTACCTTTGGACTTCCCGATGAACTTCCACGTAGTGTAGCAGCAGCACCCGCAGCAGGAGGAGAACGAATAGTCGAAGTAGAGAAAATCGTCGAAGTAGAAAAAATCGTCGAAGTACCTGGAGAAGAACGAATAGTCGAAGTAGAGAAAATCGTTGAAAAAGAAGTAGTCACTACTGAAGAAGTAGTAAGTCCAATTTCTTATGTTGCAATTGGATTAGGCGTAGTTCTCGTAGTCGTCTCTGGCGTTCTATACCAGCGAAGTAAGAACTAGATATAATAGTTTGGATGGACAATTGCAAATGCAATTGTCTTCCATTATTTTTTTTAGCAATTTCTAATAATTTGACTTTTTTCCACTAGTTTATATATAATTTTTAATAATACCGGCAACATGACTCGACACATAACGTTAGTCGGGTTGCTAGTTGCTATCCTTCTAGCGATCTCATCATTTTCCTTAATGGTAAATGCTTTTGATCCAGGAGGTCCTCCCGCCGCTGGAGGAATACCAAAAATAGTAACGGGCAACTGGGAGTGGATTAATTATCAACCAACAGGTGGTAGTTATAGTCCACAATTCGAAATTAATCATGAAAATGTTCAGTACTTGGGGTTACAATGGATATTTCCATATACTGCCGTGGAGAGCCTTTTTCCTAATCAACAGGGAGGCTCTGGTGCACCTGTAATAATTGTTGATGGTGTAGCATATGTTGGTAAAAACAACAGAGCTATACATGCAGTGGATGCAACTACAGGTAAAGAAGTATGGTTCTCAGATGAACAAAGTAATTTATGGGATCGTGCTGCCCTACATGCTGAGTTTCCATTTTTCCAAAGCAGTCAAGGACATACACATGGTATGAATTATTACCGTGGTATGGGTGATTCTGGCTGGTTGATAACAAGTAATCAACCATGTTTGCTTAGTGCAACAAATGCAGCTGACGGTTCTATAGCATGGTCTATGGGTGTAGAACAACTATGTGGCACCACAGCTGAATATGGTAATCCTGAAGAAGGTATAATTGGCAGCTTTGGAAGCAAAGGCCGAATATCTGGACAATCTAATCATCCTCCTAACTTCCATGGAGACATCATGGTATGGCCTATAATGGGTGCTAGTGGTGGAGGCGGTCGTTCTTCTGTAAAAGGTTTTGACATGAGTGATCCAAATAATCCAACAGAACTTTGGCGAACTTGGTTGATGCCTGATATGAGAGGCACTGATCCCGATTGGGCAATTAATCAATGTGATATTGTCGATGGTAATGGCTGGTACTTCTCTGCACCTGACTTCTTTGAATCAGAAACACTTGCAATAAACTGTAAAGATGTGCCTGACGATGTTGTTAGAAATGATTGGATAAATTTGAAAGAAGGCACTCCTCATTTCGGTGAGGTTCATACTGCAAGTGCTATGTCGGTTATTTGGGGTAACATGCCAATAGATCCTACAACTGGTATTATATACATTGGAACTGGCGACGTTGGACCATATACTAATTCATCATACAAATATGGGCCAAATCTCTATGGAAGTGCTATAGTTGCTATAGACTCTACAACCGGTGAAATAGTTTGGTGGTTCCATTCAAATCCACACGATCTTTGGGACTGGGACTGTTCTTGGGGTGGATTGTTAGCAAAGGCACAAGGAACTAATGTTCTAATAATGGGATGTAAGAATGGCATGGCTTATGCACTTAATGCAGCTACTGGTGAACCCGTATGGGTCTGGGAAGCTCCAACTACATGGAGAACTGCACCAGATACTAATTACGGCGTTGATGTAAACGGAAATGCAGGAGTCGATGGTGAAGCTTGTTGTCGTATGATAAAGGAACACATGGGTAAGGATTGGTTGAATTATCCAAGTACAGAACCCACTATTATGAGTCCTTGGTTAGCCGGTGCACTTGAGTCCGATATGGCCTTTAACGGTAAATATCTCTTTGTGGCAAATTACAATGATCCACGTTGGACTACAACTGAAAACATGAGAGAGTTTGGTAATCAGGCCACTAACATTGAGGCAAGTGGACATCCAGTAAATACTACAATTTATGCTGTTGATATAAACACTGGACAAGCTGCTTGGAGCGCATTCTTACCTGACTTTGGATTTAGAGGAGGGTTGATGACAACTGGTAATGTACTCTATGGATATGCTGGAGATGGAAATCTCTATATGTTCAATGCAGATACTGGTGAATTGATCGACACACAATTATTTGGTGTACCTATTAGTGTAATGCCAACAATCGGTGCAGGCGATGATGGAAAACACAAAATATTCCTCCATATTGGAGGCGGTGGTGGTTACCTCTATGCAGCTGGATCAACTGAAGGTTCATTAGCTGCACTTGGATTACCTGATGTATTCCCAGACGCTGGTGAAATAGTTCAACAACGTGAAGTAGTAAGAAACGTTGAGGTAGAAGGTCCAGTACGAGAAGTATTCGTTGAAAAGGAAGTCGAAGTGGAAGTCGAAGTAGAGAGAATCGTTGAAGTCGAGAAAGAAGTCGAAGTAGAGAGAATCGTTGAAGTCGAGAAAGAAGTCCAAGTCGAAATAGTCACTACTGAAGAAGTAATCAGTCCAGTTTCTTATGTTGCAATTGGACTCGGTGTAGTTCTCATAGTAGTCGCTGGTGTACTATTCCAACGAAGTAAAAGCTAAATTAAACAAGTTGTCCCAAATGGGACAACTACTATTTTTTTTCAAGTTTCTTATTTACAGCTTGTGCTATATCTGCCATATTATTCCAATGACTTCCTTTCCAGTAAATCTTAGAACATTCACAACAACGATAATATTCATAAAATCTTTGAAACGTATTTCTTGGAATTGTTTTTTGTAATTCCTCTTTTCCTATTTCCATTAATTCATTATTACATATGGTACATCTTGTTGAAAATTTAGAATCATCTAATGATTGCCAGTTTAATAATTTACCGATCTCAATCAGATTATTCAAATCTGATTCTTGCATAGTGAGAATTGTCTCTACATTCTTTGATCTGCAGAGCTTGTATAATTCATAATTCGATGTCAAAATTATCCTGTTTTCTTGTATTGCAATCTTGATAATTTCATTTTCTCGTATTTGTTTATAATATAAAGTATTAAATCCAAAAAAACGTAGTTTTTTGGCTAGTTTACCATTCATAGAATCAACCACAAATTTATCCATTATCTAGCTTATATTGTTGTTTTACTATAACTTTTAAAATCCCGATAAACCTATTAATAATGCAAGGTGAATTTTTCAACGTGAGAAAAAATCAATTATTTGTCTTAATGTTGTTATTGTTATTTGTTACTATTGCACTTCCTTTTAATTTAATTAATCCATCGCCTTCTGCAGCTGCTCAGGAACTAACTCGAGAAATGGCTAATTGGGATATGATAAATTACAATCAATATGGAACTGGTAATAATCCACAGTCAATAATTAACAATGAAAATGTTGCTGATTTACAAATGAAATGGGTATTTCCTTATCCCCCATCGAGTTATCCAACGATTAATGGCGCAATCAAAACTTATGCTGGTTCAGGTTCTCCTGCTTTAATTGTTGATGGTATAACTTATTCCGCTACGAATCAAAGAGCTTTACTTGCAATAGATGCAGAAACTGGAAAACTCATTTGGAATGAAGTTGTGAATTATGATAATGATGAAACTATCAAACAATATCCTCATGTTAAAGGAATGTTGCCCCATACTCATGCTGTTAATTATTATGATGACAAAGGAATAATTATTCCAAGTTTTCAATCATGCCAAATCGATGGCCATGATTCTTTGGTTGGTGATGTTGTATTTCAAGTCTTAGAATTATGTGGAACGGAAGAAGAAGCTAAAGCTTGGGGAAATCACGGTTATTATGCAAGTATAGGCACTCATCCTCCTCAATTTTTTGAAGATATAATGGTAGTTCCAGTTATGGGTTCGTCTGGAAATGGTGGACGATCTTTCATTGCTGGATATGATGTTAGTGATATGGATAATCCCACAAGAGTTTGGCAAACCTTTTTGGTACCTCCATCAGATGGTGATCCAGAATGGGCGTTACATGAATGTGATAAGGGATGGTTCTTCTCATTTCCTGAATGGCAAGAATCAGGTCGATTAGCCGTGCCTTGTGGTGAAGTAGAATCAGATTGTCTTGATTGTTTAATGAATGACTGGGTTAATCCTAAAAGTTCTCGTGGACATTTACACACAGCTAGTACTATTGCTACTATTTGGGGCCATTATCTTATTGATCAAGAGACTGGAATAGTTTATTTGGGAACCGGAGAAAGTGGACCGTATCCAAATGCTGCAAGACGACCAGGAGTGAATTTGTATGGAAGTTCTATTGTAGCTCTTGATTCTCGTACTGGTGAATTTGTATGGTGGTATCAAAGTCTTCCACATGATATGTGGGATTATGATTGTTCATGGAATGCAGTTCTGGGCGAAGTAAATGGCAAGAAAGCTATTTTCAAGGGTTGTAAAAATGGCTTCCTATATGCTTTAGATGCCGCTACTGGTGAACCCTTCTGGATATTTAATCCTCCGAGTTTATGGCAACCACAACCTGGAATGGCTTATCCTGATCCAAAGAATTTAGATGATTTAACCCGTGAATGGCCTACTGCACATGTTGGTGAACTAGATTTCTTGAGTGCAAATTATGCTGGTCAGTTAGAAGCTGATATTGCATATGATAATAATAGAATTTATGTAGGTTCTTTCAATATGCCAGTAATGGTTTCCTCTCCCGAATTTCCTAATGACTTTGGAAATCAACTTGTTATGATACCTACTAATCACCCTACTAATAGCACTATTTATGCAATTGATGCAAATACTGGAGACACTATTTGGGAATTCTTTATAGACGGTGCAGGATTTCGTGGAGGATTGACTGTTTCTGGTGGTGTTTTATACATCCCATCAGGAGATGGTTATTTATATTTACTTAATTCTGAAACAGGTGAATTAATATCAAAGAAAGCTTTTGGAACTGGCCTTTGGACTCAAATAACGATTGGAGCTGATGCTTCAGACAATATGAAAGTATTTGTTCAGACAGGCGGTCAAAGTATTGCATCTTGGGGCCCTACAGGAATTCCTGGCGCACTAATTGCTTTAGGTTTACCTGATGAAACGGCTATTTCTAACGAACCTGTTGTTGTAGCACCTGGAGCGCCCGCAGCGCCCGCAGCACCTGGCGAAGAACGAATCGTTGAAGTCGAAGTAGAGAGAATCGTCGAAACAGAGACTATTAAAACTCAAACAATTATTAGTCCCTTATCTTATCTCATGATAATAATTTCCTTTATAATTCTGGTTATTTCTGCTACGTTGTTTGTAACAAGTGGAAATTGGAAATTTGGTCGCTAATATGTGATTCATATGGCTACTATTACTAAATCTGATCGCACAAAAATCGCTGGATTATTTTTTATTATTGGCATAATAGGAATTGTTGGTATAATTGCTTATCCTACTGTACCGACTTTTGAAGATCAAGTAATAAGTAATGCACCGTCAGCTCCGCGTGGAGAACCTAGAGAACGTGAAGCACCCGCCGCCCCAGCAGATCCCGCAGCACCCGCCGCCCCAGCAGATCCCGCAGCCCCAGCTAATCCTTCTAGAGAGGAACCAGCACTTGTACAAATCAGTGATGATCATCCTCAAGCTGAATTATTGCTATCTACAATTGATGAATTTCATTCTGCATTCGAGTCTCGTGATAGTAGGATGACATTAAATTATTATATAAATGATAAATCTACATATGCAGAATGGAGTGGCCAAGCAGGCGCATTCGCTGGTACTTACAAAGGATTCTCTAATATTAGGATATTAATTTCAACAATTCTTGGAAATACGTTAGATATTGAAATTGAAATGGTTTCGTATGAAGTTACATATGCTGGAGATGAAGCCACTGTTGTTTCTCAATTGGCAAACACTGGTCATGGAAAATTAATTGGCGAATTTTCAATGGAAGTTGATGCTGTAACAAAGTGGGAATTCTCTGACGGTGAATGGAGAATTATTGATGATCGCTGGTTGTTTACATTTTTCAAAACCGAAGTTGTAGCAGAAGGCACTGTGTTTCCTCTAAAATGGGATAAAATTGGTGACTTTAGCATATTGAAAAATAATGTGCTATTTAGAGATGAAATAAAGTACGTTGCTATTCCGTGATTGTATTTTTAATAATTACATTAACTTATTTTTAATAATATATCCTATTGAAATTCCGATAATTAAAGTTAGAAATAATAACCCCATTAATTCAATTGTAGAATATGTAAAATTATCTTCTGTTATTATTGATTCAGTAATTATAACTTCTTCAACTTGTTGATTTTCTTTGATGATCTCTTTTTCTACATTCTTTTCTATGTTTGAATTATAATTCTCTGATAAACCATAGGCCAATAAAGCTCCAGGTATTGGCTCTGAACGGCCTAGTATTCCTCCTGATCCAATTAATGTGAAAATTTTAATATTACCATCGCTATCTGCCCCTAATACCGGTTGTACAGGACATTGATAACCTTGGAATCTTTCCCAAATAAGAATACCACTATCTGCATTTAGAGCTCTTATTGTTCCATCTGTAGAACAAAATAAAACCATTCCTCCTGAAACAGTAACTCCTCCTCGTATTCCGACATTATCTATATCATATTTCCAAATCAGTTCTCCTGTTTTTGCATCATGAGCCCAGACCGTAGCATTAGCAGCTAGTTCTTGATCCGAATATACTGAGATTCTTCCCCATGAATTTCTCATAGATGGTTCAACTGCTGTAATCTTCTGCAGTGACCATTTATGATAAGTTGTAGAAAATAACTTTCCATATGCAAATGTTACATCGGATTCCGCACCTCCTGATTCTTTTCTCCAATTCGGTTCATTATTTGGATATGAAACCCATGGCTTATTCATGTCATCCTTATTCATTGGGTCAAGAGCAAAATCAAAATTAGGTTCTGGGCCTATACTTCCTCTTTTTACATGTGGATAGTAATCAGTACTCCATAATAATTCTCCAGTCTCTGCATCCATTGCATAGAGATATGCTCCTTTACATAACTTGAAAACTGTATTAATTCCATCTACATTTGCTAATACAGTATTCCATGAACAATCCAAGTCACCTAAATCATGTGATACAATTTGATGCCACCAAAGTAAATTGCCTGTCTTAGTTTCTATAGCTAAAACTGAATTACTGAAAACATTTGGACCTGGCCTATATGTAGCATTCCAACTTGGAGATGGGTTACCAGTTGCTAAGTATGCTACTCCATTATCTTCATCTACTGCCCATTGGCCCCAACCTATTCCCATATCTCCTTTTCCGAATCCACAATTGTCAGGACATTCGCCCCAATCATTTCTCAATATGTTTTCTGGAATCTCAGTTGCTCTTATTCCTTGAATCCAGCCTTTGTCTGCTACTCTTATAGTCCATTCTGGATCTCCTACATCTTGTGGTGGCATAAGGTAAAATGTCCAGAGTAATTCTCCTGAATCAAGATTGTAACCTCTGAATGCACCTCTTCCTCCTTCAACTGCTTCTCTACCTCCTGTTCCATAAATCAGAACCCGATTGTTTGTGTCAAATACTGGACCTGAAGATTGCAAACCTTTGAATAATCCTTCATTTCCTTCCAAATCTTTGCATGTTGGGGTCTTTAATCTAAATTCAATTTCTCCTGTTTTTGCATTAAGACCAAAAACCTGACAATTCGGCCATGGTGCAAATATCTTATTTTCGGTATAAGAAAAGCTATGAGCATGACTGGATAAAGACGGATCAAAATTTAAATTGACCGGTAGGTTTCTCTTTGCAATTTCTATATTTACTAAATATGGATCTGCTTGAAATGACCAAATATTTTCTCCAGTTTTTGCATCAATTGCAAAAATTCTTAGATCCTCCATTCGATTATAAACGATCCCGTCTACAATTATGGGATTTGCAATAGAACCTATTCTTGGTTCTATTCCGTCTATCGATTCAGGTAATGGCCATGCATGCACCCATTTTAATTCCAAATGGTTTACATTTTCTATATTTATCTGAGTTTGTGGGTTAAATCCCGTTGCACGATAATCATAATTTGGAGCAACAGAATTAAAACCATTGTCTTCTATTGCATTAGAAAATAATATTTCAGTATTCAGTGAAGTTAAAGCTGAAACAATTAAAATAAAAATTAATATGCCTACTTTTTGCACAAATTAAATTTATCATGTCTTCCCTAATAGGTTTAGTGAAAAATTTATTTTACCTTCTTCTTCTATATGCGGTTAGAATTATAATTGATAATATTCCAAGAATAATTAGGAAAATTGTAGTAAATCTAACCGAGCCAATTTCTTCTGATGGTTCATTGACGATATTTTCTTGTATTTCTATTTCTTCTGAAATACCTAATGCAATCAAAGATCCTGGTATCTGATTATGTGACAATCCGCCTACTTCTTCTCTTCCCCTTCCTCCGTTTATTATATATATCTGAAAGTCACCATCAGAATTTCGCCCAATTGTCGGCTGAGTCGTCAATGGTGTATTTAAAAATATTTTATGTAATAGTTCTCCTGTTATTCCGTTTAATATATATAAATTTCCATCAGCAGCGGGTATTATTACCAAGTCTTCTGTAGCAATAATTCCGCCTCTAAATGCTACTCCATCAATAAAATAACTCCATATTTCTTCACCAGTATTTGCATCTATTGCTAATATTGTTGTATTTTGTTTTTGTTTTGGGTAATTTAGATTATATTCTCCAGGTGGAACTCCTATTCCTTTATGATTACCTGCTTTTACACTAGCATCCCATCCAAGACTTAATGGCAATATCACTATGTCTTCTTTTTCATTGTAAGCAATGTCTGCTTCTCCAGCTCTTAATGGTATAATGTAAAACCAATCCTTTGATGGATAATTCAACCATTTCTTTTCGTGCATATCATAGTAACTCATTACATTATTCCAATATCCATCCTGAGTATTTGGATCACATCCTATGCAAGGATGACCCGAAGTCCTTCCTCTTGGAATTCCATCTTCACTTGTTCTACTTTCCAATAGAGGTGATTCATATATCCACAATGGTTCACCAGTAGCGGCATCAAGAGCCCAAAGTAGACCTGTAACAGAATATTTTATTATAGCTTTTTTCTTTTCTCCGTTTATCGTCAATTCAGTTAGAACTGTATTCCACGCTGTGTCTGCTTGCACCATATCTCTTGGTACTGTTTGATACCACCATATTATGTTTCCACTTGTTGCATTTAGTGCTACTATTGAAGACGCAAATAAATTGGGTCCAATAGCATATGTATTATTTACCCATCCGCCCTGATTTCCAGTTCCGAAATATACTATTCCCGTCTCCTGATCCAATGCCATTTGTCCCCACAGCAAACCTACTGCGGAATTATAGTGTTTTGGCACTCCCCAATCATTTATCAGATTCTCTCTTGGAACCTCGTTACATGGAATTCCAAGTCTTCCATTTTTTTTCCATTCTGGATATGAGAAGAACCATCCCTTATCACATTCATGTAACGCCCATTCTGGATCTCCCTCTGCTGGCGGTGCTAAAAACGTCCTCCATATTCTTTCAGGTGGATCTATATTCAGGTTATATCCATCAATGAATGCTCTACCTCCCCAATTTGAATCTGCTCCACATATTTGTGTAACATAGATGTTTGAATATTCTATTCCAGGGTGTGATGATAGTCCGCATAATCCTGGTCCAATGTACAAGTCCCAATCATATGCATTTCCTTCAATGTTCCTACATGTATCATTTAATTCAAAATCGATTTCTCCATCTTCTGGATTTATTGATAAAATGGAACATGCTACTGTACTAGGAAACAATTTACCATTAATCAGATTCAATCCATGAACATGTAATGCACCGCCTGTTATTGGTAATTTTCTATAAGCTTCTTGCCAATCAAAATCCCATGTATTTACCCACTTTAGATTTCCTGTTGAAGAATCTATTGCATATGTGTCTCTCATGTTGGTTGTAAAATATACTGTGCCATTAATTACCAAAGGAGGCGTCATTGAACCTTCTGTTAAAGAAATCCCTTCTTGTTCATTAAATTCAGCAGCAGGAATTGGGAAAGTCCATTTCAATTCCAACATATGTGCGTTATCTGCGTTAATCTGATTCTGTGGTGAGTAGTTTGTTCCTCTCACATTATGATTAATGAATTCCCAATTGCCTTGATTATATAATGCTTGAATTTCTGATGATTGTGCTATTATGCTGAATAATATCAAAATAATTATTATAGTTATCTTCAATTTCTTACCAGAATATTACAATTATAATATTTAGAATTTGATGTTTTTTTGTTATTATATCTTATTTGTTAATTTTATGATTTTTATAATGGATATTCCAATTATTATAATTACTACAGAACCTAATAATACATTATAGAATTGTTCATCGAACCAATAGTTATCTACCGAATCACTTTCTAAAATTCTTGATTCTGCTTTTTTCTCCTCTTGTTCTTGTTTCTCAGGTTCTGGTTCTACTGGTACTGGAGATGCGGGATCTGCTGGGGCGGCGGGTGCTGGCATTTCAACACAATCAATTCGCACTCCTGCTTCGCAAAGAGAATCAACACCTGATGATGCCGATTCATTCCTTTTTTCACTATAATTATCAGGTAAACCAAAAGAAAATATAGCCCCCGGAATGTTTTGTTTTGTTATGCCTCCTATTGCATAAGCTCCTCTTCCTCCACTAATTACAAATAATCTTGGTTCCCCATCAATTGTTTTTCCTATTGTTGGTAATACTAATAATGAATTACTAAGAAATATATTATCTAATAGTTGCCCATTGTCGGCATCAAACATATACAAATTTCCATCTGCCGCCGGCAAATATACAACTCCGCCACTTGACATTACTCCGCCCCTATATGCAACTCCATCAATAAAATAACTCCATTTCACTTTACCTGTTATTGCATCAACTGCATATAACGTAACATTCTTTGGTTGTGTATCGAGATAATAATCTTCACCTGGTTTGTCTCCTAGACTTCCATATTGTCCTGCTTTTATTGCTTTATCTACTCCTCCTGCGACAGGAAGAAAAATTGTTTGTTTGTCCATATCTACTGCAATATCTGCTTCTCCTGCTCTTGCTGGAATCCAATAAAACCAATCCTTTGATGGATAATTCAACCATTTCTTTTCGTGCATATCATAGTAACTCATTACATTATTCCAATATCCATCCTGAGTATTTGGATCACAACCTACACAAGGATGTCCTGCAGTTCTTCCTCTTATCGCTCCATCTGGATCTGTTCTACTTTCTAGTAATGGTGATTCAAATATCCACAATGGTTCACCAGTAGCTGCATCAAGTGCCCAAAGTAGACCTGTAACAGAATATTTTAGTATTACTTTCTTTTCTTCACCATCTATTGTTAGTTTAGCGAGAACAGTATTCCAAGAACTGTCTCCTTCTACCATGTCTCGTGGAACTTGTTGATACCACCAGACCATATCTCCTGTCATTACATCTAGAGCTATTGTAGATGCTGCATACAAATTTGGACCCGTTACAAATGTCTGATTAGGCCAACTGCCTTGATTTCCAGTACCAAAATAGACTATGCCTGTTTCTTCATCAATTGACATTTGACCCCATATTGCTGACACTGACGACGTAAAATGTTTTGGAACTCCCCAGTCATTCATTATATTCTCCCTTGGAACGTCTATGCAAGGAATCCCAAGTTTACCTTCTTCTTTCCATTGCTTATATGAGAAGAACCATCCCTTATCACATTCATGTAACGCCCATTCTGGATCTCCCTCTGCTGGCGGTGCTAAGAATTTTCTCCATAATCTCTTTGGAGGATCGAAGTCTAAATCATATGCATCTATAAATGCTCTACCGCCTCCCCATGATGCTGTAGCTCCTGTAATTGCCACTATTAGGATATTCTCTTTTTGAAATATCGGACCTGGATGAGATGGAGAACCGTACTTCCCTATACCGTTATATGATTGCCATGAATAGTTGTTTCCTTCAACATTACTGCAAATCTTGTTAATTTCAAATGATAATTCACCAGAAAGAGCATCTATTGCTTGAACTGAACAATTTAATGTACTCGAATACAATAATCCATTTACATATTGTAAACCATGAATATGAGGCGCTCCTCCTGCAATTTCAGGTAAATCGGCTCTGGCTTTATTCCAATCGTGTTTGTATAAATTTAGCCAATTAAGATCTCCAAATTTTCCATCAAATGAATAAACATTTCTCATATTTGACGAAACAAATACATTCCCATCTACTATTAGCGGAGGTGTTATTACGCCCTCGAATGGAATTCCTCCTGATTGATATCTTAAAAACTCTGATGCAAGTGGAAATGGATATATCCATTTTAATTCTAACATATTGACATTTTCTTTGTTAATGTCATTTTGTGGGCTATAATTACTCCCCCAGCTGTTATGATTTACAAATTCCCAATTTCTTTCTGCACGTTCTCCGCTAGGAATTGCCAATAGGTTGTTGTCTGCTTCAATAAACACTTTATTGAAAGTTGAAAAAATCAATAAGAACAAAAGAATTAGTATATACCCATATGAAAAATTCGTTATTGTTTTCATAAACACTACCAATACATTTATCTCAAATATTTTTCCATGTAAGGTCCTTGAAGATGATATCCTAATTTTTTATAATATTCTCTTGTTCCAATGGCACTTATAACGAGTATCTTATTACACGACTCTTTTTCTTTTGCAATTTTCTCTGCTTCTTCCATTAGTTTACTTCCCATTCCTTTATGTTGCCAACTAGAATTGTCTTTTTTTCCCAATGGAATTAGTTGACCATATACATGAAGTTCTCTGATTAGAGCTGTTTTTTCATCAATTTCTTTTCTATGTGCTAAAATTGAAGGAATTCGAAGTCTTACAAAACCAATTAACGATTCACTTTTTTGCTCTTCCGCTGATATGAAATATTCATAACCTTTTGACGCTTCATATTTCTTCTTTAATATTTTTACATCTTTATGATTTATTTCAAATCCCTTTTTTAATTGTTTTAATCCGATTTCTCTACATCTAATACATTTACATTTGTAGCCTTTTCTTCTCATTTCTGCAATAATTAATTCTCGTATGTTGCCCTTATCCACTCCTGCTTCGATTTCTGATTTGGAAATTTCTCTTTGTATCCTCATTATTCTTACCCATTGTGGAATGTCTTTCTTAACTTCTGTTAATAAATTGATAACTGTTTGAGTATTGTATGGTTCATACAATCCTTTTTGATGCATTTTGTATAATCCAGTTCCAGGAACAACTAAAGTCGGATAAATTTTTAACATATCAGGCTTAAAATTAGATTCTGAAAATAAAGTTTTGAAATCTTCCAAGTCCTTATTGAAATTTGATCCAGGTAGTCCTGGCATCATATGCGCAACTATTTTAAAACCAGAATCTTTAGCTATTCTGAAAGATTCTATCACATCTTTTAATGTATGATCTCTGTTAGTGTGCTTATAGATTTCATCAGATAAAGTTTGTACGCCTATTTCTATTCGTGTAGCTCCAAATGATAGAACACTATCTATGTGCTGTTCTTTACACCAATCAGGCTTTGTTTCTATGCTAAGTCCTACATTTCTAACAATTGATTTTTCCCCTATTTTATGAGCTGTTTTTATATTATTGGAAACTCTTCCATTAAGAGCATCAAAACAAGATTTTATAAAATTCTCCTGATAGTCGATAGGAAGATTCATGAAAGTACCTCCAATTATTAATAATTCTACTTTGTCTATTTCATGTCCTATTGATTTTAATTGAATCATTCTATTTTTTACTTGATTAAATGGATCGAATTCAACTTCCAATGCTCGTATTGTAGCAGGTTCAGTAGGCAAATAGCTCTGAGGCGTTCCAATTTTTTCGCCGCCTGGACAGAAAATACAAACTCCATGAGGACAATTATATGGCTTTGTCATTACTGAAATCACCGCTATTCCTGATGCTGTTTTTGTAGGCTTTATTTTTAGAATTTGAGAATAATACTTTCGTTTATTTTTTGGAAGTATGTCAAATATTTCTGAATTACTTGGTATGTGATCCATCTTTTTATTTTTGACTATTTCTTTTTTTAATTCTTGTAAATTTTTAAATTGTAATGATTGATTTAAACCTAAATCTTCAGCAAGTATTTTCAAATTGTTTTTTATAATTGTTTGTTGATGCTCCGACAAGATTTTAAATATTAATTAACTTTGGCTCTATATATTACTTCATTATATAAAGAATATTAATTTGTTCATAATATATGTAATATGTCTAGATATGTAATTCTGTTATTGATGTTTGTTCTTGGTTTATCTTCTGGTCTAGCTTCGAGCTATATTGTTTTTTATCCGCAAATTAATTCGCTTAACACTTCCATTAACACATTTGCACAATTACAAATTAAACAAGATGATGTTATTCAATCTCTAGAATTAAGTAATACTTTACTCAATGAAGAAATTAATTTACTCAAATTAAATAATTCACACTTGTCAGATCAATTAAATGAAACACAAATATTATTAGAAAAACTCCAAAATTCTTCGAATCAAATTGTAAACTTTGAAAATCCAATTGAACCTTTGCAGGATCCATTTTTGGAAATTGTTGATAACTTTCAAAATTCAGAAATAATCATTAATAATAGGACTGCTTACCAAGTAACTGGAACAATTGTAAATTATAACACGGAAGCAGCTGAAAACATTCAGGTCCAAATAACTTGGTGGGTTTTAAGCGGTTGTGGTTGTGATTCTCTTCCACAACGCTCTGAAATAATCACAATTAAATCTATTCCTGGCCGTTCTTCTCTTAATATAGACGAAACATTTCATTTTTCATTCCCAAAATTTCAATTTTTACGTATAGAAATTTTGTAAAATTGTTTTTTGACGTTAAATACTCTCTTTTTATGCTATAAACTATTGAAATGAATCTTTTTTTTGTGTTTCTGGAGGGATTTATATATATTTTATTGCTAAAACCACCTCATGACTCGACATTTAATAGCTAGTCTATTAGTTATTACACTACTTGTCGCAGCAGCTATATTTGTGATGGCCCCTAAAGCCAGTGCACAAAATGTAGCACCAGCTTTAGGTTCAACTAGAGCTGAACGTAATTGGGAGTATATTAATGCAAACTCTTGGGGACATAATTTTAATCCTCAGACACAATTAACTACCGAAAACATTCATCTCGCTGAGATGAAATGGGTATTTCCAATACCAGATGCTGATTCAATAGGGTGTACTAACTTAAACGGGTTCTGTGGAACAGGTAGTATTGCACCTCCTCTTATTATAGATGGATATGCATACCTCGCCACTAATTACCAAACCATCTTCAAAATCGATATGGAAACTGGAGCTCAAGTTTGGTATAGTGAACGAACCGCAGACGGAGAAAGAACAGATATTATTGGTGAACAAGTACAATTCCATCGTGGATTAAATCCACCTGGTCTTCCAGTCTTTTCACTATCAGCTCACACACACTCAATGAACGCTTGGGAACTAAATGGTGAGATGGTCCTTTGGCTCAATTCCTTTGGTTGTACTATTAAAGGAATTAGTGCTGACACTGGTGAAGAAGTTTTCACTTTGTTAGAACATTGTAGAAATGTACCAACTAATTCTGGTTTATACAATTCACAAGGTTCACATGCACCAGTTATTGACCGCAGTCACAATCAAATAATTGTAGCAGTTGGTGGACATATGGAAGGAAGTTATGGTGGCAGAGCATATGTAGCAGCATATGATCTTGGCGCATGTAGCAGCTTCCCTTGTACTATTGATGCAACAACAGATACTCATCTGAATTGGAGATTCTTCTATCAACCTCCTAACGGTGAACTATTCCCTGATGAATACAAAGCATGGGGTGAATGGTTAGTTGATAACTGTGCCGTAGGATGGATTGAAGGCGTAAATTCATGTGATGTACCAGCAGACGTTCTTCGATGGGACTGGGCAGGAATGCCTGGAACTTATAATGAGAACACAGGTATGCCATTCAATGCAGGTGTAAGCAATATTTGGGGTGAAATCGTAGTTGATGAAGAAAATGGTAGAGTATACTTCGGTACAGCTCAACCAGGACCTGATTTCAACACAACATTTACAAGAGGACCTCGTCTATTCGGTTCTGCCATAGTTGGTGTGAATACCGCTGACGGTTCACTTGGTTGGTATTTCCAAAGCTCTACAAAAGATGTTTGGGATATGGATTGTTCATGGAATACGACCCTCATGGATATTGATGGTCAACGAACAGTCATTAAACAATGTAAACAAGGTCACGTTCATGCATTTGATGCAGCTTCTGGAGATCCAATATGGATTACTGAAGTACCTGGTGTACATTTCTCCAAGTATTATTGTAATGCAGCATGTGATAACGGCGCAGGACCTAACAATGGTCTTAGAGGTCGTGGTGTACTACACTCTGTACCACTAGGTATAGATGGTCTAGGAGACAATGCAAAGAATTGGGCATTCTTAGATATGAGAGTACCTGCAGATGTCCTCAAACCATGGCAAAGTCACCCTGCACCTCAATCTGAAAGCTTCTGGCAAAATCCTAACGGTTCTGGATGTGCAGAAAATGATATCGCATTCGATGGTGATAGAGTATATGTTGCATGTAAGAATGAACCTGTATACATTCGAGCGATGAATGTAGATTTCAGATGTCATGCATTCACAGGATGCTTCATGGACAATAGAAACGACGATGCACCGTTCCCGCGACAATTTAATCACACAGTTACAGCAATTGATGCTCGTACTGGTGAAGTAAAGTGGGACTTCTTTGTTGATACAGTTGCACACCGTGGTGGTGTCATAGCCTCCGGTGGAGTAATCTATTGGAATGGTTTCGATGGCAAACTACGTGCAGTCGATGGAGTTACTGGTGAACTTCTTCATCAATTCAACTTTGGTACAGCTCTAGATACACAACCTACTATCGGTCAAACAGCTGATGGACAGACACGACTTATGCAATCCTATGGAGGCAGAGGTCTAACAAGTCAAGTACCATCACTCAGGGGTTCAGTACCAGGTGCTCTTACTGCATTTGGCTTACCTGATCAACTACCAGAAGGCGTTAGCCGAGAAGTAGAAGTTAGAGAGGTAATCAAAGAAGTAGAAGTACCAGTAGAAACAATTAGTCCAATTTCTTATGTTGCAATTGGACTCGGCGTCGTATTAGTCGTCGTTGCTGGAGTTCTCTTCACAAGATCACGTCAAACAACTTAAGATGATAGTTGTCCCTCTGGGACAACTTCATATTTTTTTTCCCGATTAAATTCCTTCAGCTACACTTATTATTATAAAAACCAAAATAAATTTCATTGAAAATAATTACTATTGGGTCACAAGCATTTATTTCTGGATTTATGCTATCTGGCGCAAGTGGAATACATGTAAAAAATTCTTCTGATGCTCTAAAACAGATTAATTCACTTTTAACTACAAAAGATATTGGTCTTGTTCTTATCAGTAATGAAATTTCAAAAGAAATCGAGGATGAATTGAATGATATTCGCTCAAATAATCCCACGCCATTAATATATTCAATACCTGGTCCTGGTAGTAAAATTGACCAAGTTGACTATCGCGAACTAATCAAAAAAGTCTTAAAAATGTCTTGATTATCTTACATTGGTGTTAATTTAAATTTCTTATTTTCTCTTTTCTCTGAATCATTCCATGCCGATGATAATTTTTTCCCTGCACTACCAATGATAGCTTCAATTTCTGTTTTATCTGCATATTTTTTAACATGATTTTCAACAGCTTGTATTCCGCTCTTAATTATTTTGTTTTGATATTCTTCTATTTTTCCATTATCGCAAAGTTGTGCTACATTAGGATCCAATGGTAATGAAACTATAAGTTTTGTACCTAATTTATCCGCAAATTTCTGACTTTCTGATTCTCCAAGTATGTAGTTGCGCTCTCCACATTTCTTACAACTCAAATATGACATATTTTCCACTAGACCTATTAGCGGGATGTTCAATGCTTTCGCCATATTTGCTGATTTACTGACAATCATCTTTGCCAAATCTTGTGGAGTACTTACAATAACAACTCCAGATAAAGGTAAAGATTGAAAAACAGTAAGTGATGCATCACTAGTTCCAGGTGGTAAATCGACCAGTAGATAGTCCAAATCACCCCAATCAACATCTGAATATAATTGCCTGATTAAATTATTAATAATAGGTCCTCTCCAAATTGTTGGTCTTTCTGGATCGTCCAACATTAAATTTAATGAAATTATTTTTAAACCTGTGCTAGTTTCTGCAGGAATCATTCCATTTCTTCCTTTTAATATTCTTTTGGTAACTCCAAATATTTTTGCTTGACTTGGTCCAGTAATATCTGCGTCAAGTATACCTACGTTATATCCTGATCTTTTTAATTCAGATGCAAATAATGCAGTAATTAGTGATTTTCCAACTCCTCCTTTGCCAGAAACAACAGCTATTATATTTTCATTATTTTTCTTTTCTAATCGTCCAATTAGATCTTTTTCTGATTTACCAGACTTCTTTTGTACCTTTGTTTTCAGAATTGATAATTCTTCTTTAGACATTACAGTTGTATCTGCATTAACTTTGTTTATTCCCTGTAATTTGATTAATTCATTTTTCACATCTCTTTTTATTGTATCAGCTAAAGGACATCCTGCAACAGTCAATGCAATTAATACGTCGACTACGTCATTTTTAATTTGGATTTTTTTTACCATGTTAAGCTCTATTATGTTCATATGAATCTCCGGATCCATGACATTTGTTAAAGCATCTCTGATTTCATTTTCTGTTGACATGATTTTCACTGATTAATTGGTATTGATATTATTAATTTTTATGATTATATAATATTGATTATATATTTTTGATTTGATAATTAACTATTAAATATAAATAGATAGTGGTTATTTTTACTAGTGATGTCTCATGGAAAATAATCAGAAAAATAGCAATATTCTTGATGACGTTGCAAAAGAAACTGAAACTGAAATTATGTCTATTATTAACGAAGGATTTGAACAAGCCAGA
>sequence03
AGATCCAGACGGGGTCGTACGAGGCAGAACTTCAGGTCATCCCTGTATAGGATGTGATCCAAAAAGCCAAGACGGCTATTGGAATAATGTACTGAGTTACTACGATATGCAAGAAAAGAAATGGTTGAACTATCCATCAAAAGACCGGTTTTATATAATACCGCTAAGGGCAGGTGAGGCAGATATTGCATATAACGAAAAAGAAAATATCATCATATTTCCATTAAGTCTAGGTTGGGATGCAAGTGCACGTGCTGGAAATCATCAAGGAATAGGAGTTCCTCCAGGTGAATATAATCTAAACTATCCAAACCAAATGCAGAATACAACAATTTTAGCAATAGATGCAAATACTGGTAAAGAAATATGGAGTTATTTTATTGATGGAGTTGCATATAGAGGAGGAATTATAGCGACAGCAGATTTAGTTATTGCTCCTGCTGCTGATGGAAATTTATACATAATAAATGGAATTACAGGAAAGCTAGTACATAAAATATTTCTGAATACGCCACTATTAACACAACCAACAATAGGAAAGAATTCAGATGGTGAATCCAATATATACATAATTAATGGTGGAAGAGGAAGAGAAGAAGTAGGAGGATTATCTCATAGTCCTATACCAGGTTCATTAATTGCATTAGGTCTATTGGAAGATATAGAAAAAGACACTGAGATAAATGAAAAAAACAATTTCATAATCTTATTAATATTAGTAATGATTGTAATCTGGCTGTCGTATAAAAAATGAATTTAATATAATCCTTATTTTTTCACTAAACCTATTAAGGAATACATGATAAATCTAATTTGTGCAAAAAACAAGCATTTTAATTTTTATTATAATTATTTCAGTATTAATTTCATTAAATATTAGATCAATATCTTCAGATGCAATTGAAGATGATGGATTTAATTCTATTGCGCCAAATTATAATTATAAAGCAACAGGATTTAATCCACAAACTCAAATAAATAAAGACAATGTGAACAATCTGGAATTAAAATGGATACATGCATGGCCAATGCCAGAATCAATAGAAGGTATTCAACCCAGAGTAGGTTCTATTGCCAATCCAATAATTGTGGATGGAATAGTATACAATCGAATGGAAGATTTAAGGATGTATGCAATAGACGCAAAAACCGGAAAAGAGATTTGGTCATTTCAAGCACCTCCATATTTAGTAAATATAGAACGTGCAAAAAAAGACCTCCCGATTAATTTAGATTTTTATCCATCATTATCAAGTCATGCTCATAGTTTTTCATATACTGAAGGCAAAATATTTGCGCCTTGGCCAAACTGTCAGGTTTTTGGTTTAGACGCAAAAACTGGAGAAATAGAATTTCGACTTGAAACGCCAACATGTAAAGATTTAGAAGGAAATTTAGGATTATTCAAAGGACTACAATCGTCAGGACCTGTTTTTGATAGAAACAACAGAGTTTTGATCTATGGTACAGGTGGAAGAGAAGCAGTAGAAGGAGGAAGAGGAGCTTTTAGAGGCTATGATTTAGATGATGGAAAATTACTTTGGACATTTTACCTCATGCCACCACAAGACAAAGGAGATTCAGAATGGACAATCAGAGTCGCAGATAAAGGATGGATTCAAGGAATTAAAGCTACAGATATCCCAGAAGATATTTTAAGAAATGATTGGGGAAAATGTCCAGATAATTGTGGTTTTGGTAAAGGTGATATAGGAATAGGCTGGGGTCAATGGGCAGTTGATGAAGAAAATGGAATAGCGTATTTAGCAACAGGAAACCCATCACCAAGTTGGAATGCTACATACAGACCTGGACCCAATGTATTCAGTAATTCAGTAATAGCGATAGAAACAAAAACGGGTAATTTAATATGGTGGCATCAAATAGTGTCACATGATTTAGGTGATTTGGATTGTTCTTGGAATACTGTATTAGCAGATGTTGATAATACAAAAACAGTATTCAAATTGTGTAAAGGAGCTTATTTGTATGCAATAAATGCAATGGATGGAAAACTACTCTGGAGTACAGATTACTATCCATATGTCAAAAGAGATAAAATTGGACCACAACCAAACTTTGATTTTGCATTAGATCCGATGAATAAAGAAGATATGAATAAACCATGGGTGTCGTATCCAAATAATGAGCCAAATTGGAGAAAAGAATCAGGAGGTGCAGAATCAGATGTAACATTTGCGTATGGAAAAGTATATTCAACAACTTATCATAAGTGGTCTTTGCAAAGAATAACATCAGTGGAACCTTCAATGAGAAATGCTTGGGGAAGAATTTCAATTTATTCAGATAAAGAATTACCAACAAATGCAACAGTATGGTCACATAATGCAAAAACTGGAGAATTAATCTGGAAATACGAATTAGACAACGTAGGAATAAGAGGAGGAGTTACAGCATCTGGTGAAATGATTTGGTTTTGTGACACTGATGGAGTAATTCGTGCATTAGATGCAGAAAATGGTAAATTATTATGGGAAAGATCGCAAGGATATCAATGTCCAGTACAACCAGCATTTGGAGCAGATAGTGATGGAAACATAAAAATATTTTCGTTAACAGGGTCAGGAGGAATACTAGGAAGGTCGGACCCAAAGCCTGGAGCATTATTAGCTTATGGATTGTCAGAAAAAAAAGTGAACGTACATGAAGAACAAGAAACTATTGAAGTAATAATTGAAAAAGAAGTTTTAATAACAAAAGAAATTATTAATCCATTATCATATTTTATATTAGGACTTTCATTAATATTGATTTTCATTTCTGGATTTATATTTGTAAAATCCAGAAAAAATATTCAATTGCAGAATAATCATAGGGAAAACTGTTTACATCTAAATTACGGATTATAAGATATTCATGTTTAAAGATAGATGTCAAGCAGGAAAAAAATTGGCGGATAAAATAGCATCAAATAATTATCCAAATCCAATTATATGTGCTATACCAAGAGGAGGCATAGAAATAGGTTTTCATATTGCAAAGAAATTAAATTGTAGATTGTACACTATTACTTCAAAAAAATTAAGAGCGCCAAATCAATCAGAATTAGCAATTGGAGCAGTTGCGCAAGATGGAACAATATATACGGATGACGTATTAATTAAATCTCTAGACATAACTGAATCCTATATTGAAAATGAAGTAGAAAACCAGTTGTCAGAATTATCTTCACGTAATAATATTTATAAAAAATTTAATTATGAAAAAAATATTGAGAATGACACAGTAATATTAACAGATGATGGAATTGCAACAGGATCTACTCTAAAAGCAACCATATTATCATTAAAAGAAAATCATGTAAAGAATATAATTATTGCAACACCAGTTGTAGCGAATGATACAAAAACAGAACTTCGTAAACTTGTAAATGAAATTATTGCACTAAATAATCCAACAGTCATGTATTCAGTAAGTAGTTTTTATGAAAATTTTCCTCAATTAACTCATGAAGAAGGAATTAAAATGTTACAAGAATATTTAATATAGACGATTTTTAGGAAATTAAGGATTAGAAAATAATCCAAATTCTTCATATGAAATTAAGACATTTTTACCAAGAACACTGTAATCGCCAAATCTATACCACTCTAATGGAAAGACAGTTCCTTCAGCTACTACTTCAGTTTCAAAGTATATAAATTCCCAAGTATCATCAGTAATAAACCATTTTCCATCAATATATTCCCACACGGTAACAGCATAAATTTCCATAGTAAATTCGCCGATAAGCTTTCCATGTCCTGTATTTACTAAGGTATGAACTACAGTAGCTCTATCTCCAAGAAAAGTAACTTCGTAATTTTGCATATTAATTTGAATATCTATAGTATTACCAAGAATTGTAGCAATAAGAATTCTAATGTTGTTGTAGCCTTTGTAAGTGCCCTTAAAAGCACCTGCCTGACCGAGCCATTGAGCATTAGCCCCCGCTTGTGAATAATAAGTTAAAGTTTTAGTACTATCTCTGGATGCAAAAGCATTATGAAATTCATCAATAGTTTGTCTAAGAAGATCTTGTTGAGGATGCTCGCCACTAATTATCTGTTCTTCTTCGACCACTTCTTCGGCTTCAACAACAACTACAGGTTCACCTTCACGAGGTTCCTCCTGTTGACTAGGTACTTCTACACGTATTGGTTCGTTTATTATTTCTGCGTCTGGAAAACTAGGAACCGAAGGATAAGTAATTATTCCAACAACGCCTATAATACCAATCAGAAAAAAAACTGCTGCAACTTTTGTTCTATCAGATTTTGTTAGTGTAGCCATAATTATCCGCCTAATTTCCAATTTCCACTTGTTATAAATAGTGTAGCAGAGATTGCTAAGATAATAAATGAAATGATAATCATAAGATAAGAAACAGGACTAATTACTGTTTCAGTCTTAATAGTTTCAATTTCAGTAACAACTTCTTCCACTTGAACAGGTTGAGATGGAACATCAGCTGGATCAACTTGGGCAACTTCAGAAACTAAACCAGATCCTTCAGAAAGTCCAAGTGTAATCATTGCTCCTGGAACACCTCTTATTCCCCAAGACGCAATACTTTGTCCGCCAGTTTGGATAAACACTTTCATATTATCAAGGGAGTCAGCTGCAATTGTAGCTTGTGTCCACAAACCTATACCAAAGTATTGTGTCGATATAACTTCACCAGTTTCAGAATTCAACAGATACAACGTACCGTCTCCAGATGGAACATATAAAATTCCACCGGATACAGTTAAACCACCTCTAAAACCAGCTCCGTCAATGAAGAAGCTCCAAAGCTCTTCGCCAGTATTCGCATCTAAACCATAAATTGTTGAATTTGTAGGATGTTCGCCAGCGACACACATGTTAAGCGTATTGCCAAAGTCCTCAGGATATTCAGGAACACAAACTTTTATAGGCATATTATATGAACCGAGATATAATCTCTCTCCGTCATATGCCATATCAGCTTCAAGTACTCCTGCATAATTTGAACTAAGAAAAGTTAAATTATCTGGAGGTTCGCCGACATGAGATGTAGGCCATGCACGCTGAAGATCTTCTATATTCTTTGGATCAGGATAAGCCATTCCGGGTTGTGGTAACCATGCGCTTGGAGGATGAAAAATCCAAAATGGTTCGCCAGTTGCTGCATCAAGTGCATACATAAAGCCATTTTTACATCCTTTGAATATTGCTTTCTTTCCAGCTACATCTCCAAGTATTGCATTCCAAGAACAATCATAATCCCACATATCATGTGGTACAGACTGATACCACCAAATAAATTCGCCAGTAGTTGCGTCAAGTGCTACAATAGAACTTCCATAAAGGTTTACGCCAGGTCTTCGCAATGCATTAGGATAAGGTCCACTTTCACCAGTGCCTAAATAAACAATACCGGTTTCTTCATCAACTAAATAATGACCCCATATTGTTGCAATAGTGCTTGCAGAATGAACATCGTTACGTGAACTCTGTGGATTAATCCAGTCATTCATGAGATTCTCTCTTGGAACCTCACTGCATGGAACAGCAAGTCGACCAGATTCTTTCCATTCTGGAAATGAGAAGAACCATCCTTTATCACATTCATGTAATGCCCATTCAGGATCGCCTTCAGAAGGTGGAACCAAAAATGTTTGCCAAAGTCTTATTGGATTATCCATATCACTTACATCATAACCAGCAATGAACGATCGACCTCCATTACCTGATGAACCCATAACAGGAACTATCATTATATCTCCATAAAATTGCGGAGGATGAGTTCCTATACTAGCATAATAACCTTGGTTGCCCCAAGCTTTAGCTTCTTCTTCAGTACCACATATTTCAAGTAGCTGAAAAACAACATCACCAAGCAATGGATGGTGTCCATCAATTTGACATGCTTGCATACTTGGAATAATTATATCTTGATCCCTGTAATAATTTACTGCATGAGTATGTGCTAACAGTCCTTTAACATGTCCATATTGTGCTTGTGTTTCATCATTGTCATATGGTATACCACCACACATTACGTCGCCTTTAGAATTTTTAGCACCTGGAACACAATTGAATACTATTTTTCCAGTTTCAGTATTAACACCAATAAGAGCTCTTTGATTTGTTGCAGAATATGCAATTCCATCAACAATTATAACAGGAGCACCTGAACCAGCATATGTTGATGCACCGGGTATTTTTGGATAAGTTGATGGGTCATATGGAAAAATCCATTTCATTTCAAGATTTAAAGCATTATCACGATTAATGATTGATTGTGGATTATGACTTGTGCCATACTTGTCATAGTTGATCATCTCCCAATTTCTCATTTCTGGAGTCAAATCCTCCTGACCGGATGCGATGGAAACCTTGTCGTTAAAATTAAAAGAATAAGACATAGATGCGATAAGCAGAATAATTAACACAAATAATTGAATCTGTCTCACGAAGTAAATTTATCAGCGTTATTAATAGGTTTTATTGAAATCATTAATTTCATACATAAATTTGCCGAAATTATATATCAAAATATTAGAATATAAGTATATTAACAAAGAACAAAGTTCATTAATTATTGCCTGGAAATAATGAAAAATTCAATCTACCAATCATTATTGTTATATTTGCTGTTGCAATATTATTTCTCTATTTACTAAACACTCCAAGTCCTTTTGAAGATATAGAAAATAATGAACAAGTAATAGAGAACAACGAACAAGTAATAGAAAATAGAGAGCCAGTTGTCAACGAAGAACCTGTACCAGGAATTATTGCTCCTGCAATAAACGAGGATTGTCCATATGGCAAAGAATTAAAAAATACACCAGAAAATCCAATGACATATGTGTGTAAGCTAATTACTCTAGAAAATGGTGGAGAATTTGGAGATGTAAGACTAACAATTAATAACGAAAGATTTCAGTCGCCAATACAAGTAAAGAAAGGAACTACAGTAACTTGGGTAATGAACGACAAGAACGTAGTTGATGATGGAGGAATTCCTTCATATTATCAAGTTTATGAAGTAAATGGTTTATTCGATTCAGGAAAGTTATTTTTTTCTGAAGATAATAGCAAATTCAGTTATACATTTAATGAACTAGGAGAATTCGAATATTATTGTCCAGCTCATCCTATTATGATCGGAACAATTATTGTAGTAGAATAATTTAAGTTATTTTAAAAAAAATATTTAATTTTGGTTTACACTAGAATAATAATTTAAAAAAAGATTTGTTGTCCCCGAAGGGACAACTTTGAATTTTAAGTTGATCTAGATCGTTGGAATAGAACGCCAGCTACTACGATAAGAACAACACCAATTCCAATTGCAATATATGAAATTGGACTGATGGATTGTCCACCTGGAACAGTAACTTCTGTTACTACTTCTACTTCCTTGATAACTTCAACAGGTATTTCGACTATTCTCTCGACTTCAACTTCCTTGTCTACGACTACCTCTTCTATTATTTCTACAATCCTTTCTACTTCACGTTCTTCAATTTGAATGATTGGTTCAGGACTTGAAGGTAATGTATCAGGAAGTCCAAGAGCTACTAATGAACCTTCAACTGCAGTGTTTCCATATACGAAACCACCACCACCACCTACATGTAGGAAGATTTTATGTTTGCCGTCAGAATCGGCGCCGATTGTTGGCATAACACTAACAGGAACTCCAAAGAACCTCTTGTGAACTAATTCGCCTGTATTTGCGTCGAACATGTATAGGTTCCCGTCACCGGCATAACCATATACAACTGAACCAGTAGACATCAGTCCACCCCGGAAGCCTGCGTCAGGAATGAAAGCACTCCAGTCGGCTTCACCTGTGTTGATATTTACAGCATAGATTGTTGTGTTAACTGGATGACCACTTGCTTGAATATTAGATGCTTGATTACCAAAGTCTATAACGTTTCCAGTTGTTGTCCAACGTGCATCATTATAGTTTGCAACGAATATGTATTTGCCATTGTATGACATATCAGATTCAAGTGCTCCTGCAAGCCATGGATTCCATATAACAGGTTCTGGATCAGGTGCATTCAACCAATCTTTGTTCATGTGGTCGAATGTCATACGACAACAAGCTTCGCCATCGGCTCCTGCATTTCCGTCTTTATCCATGCCGTAGTTAGTTCCAGGTGCAGTTCTCCATGTAGTAGGAGCTTCCCACACCCATACGGGTTCACCAGTGGCTGCATTAAGTGCGTACATCATTCCGTTCTTACAACCTTTGATTAAAGTTTTTATTCCCTGAGATTTGGCCATAAGACCGCCCCATGAACAATCCCAATCCCATAGGTCGTGTGGGTTAGAATGGAACCACCATGCGATTTTACCAGTATCTACGTCCAATGCTACAATAGCACTACCAAAGAGATTTGGTCCAAACCTATATGATGCATTACTATAAGGTCCTACATCACCAGTTCCTAGATATACCAAACCTAATTCGGCGTCAACGGGCATATTACCCCAAACTACTGACATTGCACTAGCACTGTGTACCTCATTATAATGAGGTGTGCCTGGTTTCAAGTTGATCCAATCATTTTCTACTGCTTCATCTGGAACGTCTTTACAATTTATTGCAAGTGTACCAGATTCAAAGAAATCAGGTGCAGAGAAGTACCAGCCATTTCCGTCTGCTTCATTACAAACATCGATAGCCCAGCTTTTCTGTGAACCATCCATAGGTGGCATCAACCATGTATTCCATAATTCAACAGGATTATTTGGATCGGACATATCAAATCCTTTAACGGATGATCGTCCACCACCACCGCTTGCGCCCATTATAGGCCAGATCATAGTGTCTCCACTAAATGCTGGAGGGTGATTTGCTACTGAAGACAGTCTGCCTTTGCTTTTAAGGGTTCCAATAGCACCACCGGGGGTACCATATTCGGCAACGGTTCCACAAAGTGTTTCAACACCTATACTCCATGCCAAAGAACCATCTTCAGCATTCCATGCAGTCATTAAACATGGTGTGTTACTTGATATCAACCATCCAGATTCTCTGTAATAATTCATTGCATGAGTGTGTCCCCATTGTGCACTGAAGAATGGAAATTCTGCAGCTATTGCTTCTGAATCCCATGTGTTTGCTGGTTCATCAGAGAACCAAATTTCATCTCCGGTCTTTGCATCAACAGCGTGCAGTGCTTGTGTATTCTTTACAACATATACAACTCCATCAACGATAAGTGCAGGTGCACTTGAACCGCCCATAGCATTTGACCAGGTATTGTCAACTTCTGTATATGGAAATAGCCATTTCATTTCCAGCCATTGTGCATTTTCATTATTTATTTCGAACTGTGGGCTATAACTACCACCGGTTGGTTGATAATTAATAAATTCCCAGTTACCAGTAACGACTTTTGGGACTCCTCCGCCACCAGGAGGACCTCCTGGATCGAATGCATTAACTACTAATGCAAAAGAAGATAACGCCAAAAGTACGGCGACTAGCAACCCAACTATAGTTAAATTGTGTCGAGTCATGGAAGCAATGAAGGATTATAATATATAAAATAATGGTTAAAATAAAAACTTAATTATAGTAAATCATTCGTAAAACTAATATTTTATTCCTAAATAATTGTATATGAATGAAGGCAATATACTTTATAATAATTATTCTAAGTCTACCTCTTATACAAGCAACTGATAAAGAATCTACTTTCGTAATTATTTCAGTTTCAGATGAAAATGTACAAAATAATAATCTCATAGAAATTACTGCAAAATTACAAAATAGTAAAGGCGAACAAATCGAAAAACAAATACTGACATTTTTTGTTAATAATAAAATCTTTGCAAATAGATTAACAAATAATAATGGTTTAGCTCAAATTCAATTTCAAGCTAAAGAAGATATATACAAAGTTCAAGTTGAATTTGAAGGTTCAGATTTTTATCAAGAATCGAAAAGTGAAATTATTATAATCGAAACAATAAAAGAAAACAATGTCGAAACAGAAGAATTACCAATCGAGATTATTGTAATGATTTCCATATTAACATTGGGAATAGCTGGAACTGGAATATTATATTACTTAAATAAAAATTCAAAAAGATAAATTCAAAAAGTTGTCTAATTAGATGCGTCTTGTCTTCTAAATATAAGATAAGATATTGTAACTGGAACAATAACCCAGAGAATTAATACAGCTAAAAGAACTCTCGACGCAACAATAGAACCATATTCTGCTAGAAGATAACTAGCTTGAGGTCCCAACTCTCCTCTAAGTGGGCTTTCTGCCATATGCATCAATGCAAGTATTCTTGTTGTTTCTACAGGATTTGCTAAAGTAAGTGGAATAAGTAATGCATTTGCATTTAATGCAACGGTAATAACACCTAAGAAACCACTATCGTATATTATTACTAAAATAAACCAGAGGAATAAACCACTTCCAATTGCTGCAGCTCGTGTTTTTACTGAAACAGAAATTATAAATCCTAACCCAACAGCTGCACCAGCAAGTAATAATGAATAAGCCATTGCAAAAAGAAAGGAAGCAATAAACTCTGGATTTGTAGAATATACAATAAGTTCTGCACCACCATAACCCAAAAGCATAGCGAGAGATAGAGAAATTACTAAACCAAGATATTTACCCATGAATACTTCAAGTTTTGTAGCAGGCTGAGCAAGAAGATATTCTAGAGTACCGACTTCTCTTTCACCAGCAATAGTAGTAGAAGACATAGCTAGAGAAACTAAAGGAACAAGTGGAACTGAAAGAGTAATTAAAGTTCCAACAACCATACCAGGATAATCAGAAGGTAATAATCCACCTGCGCCAAGAATAATGTAAGGAACTCCAAGTGCTAGAAAGAAGAAAGTTACACCGAAGGTGATAAGCCATTTACTTCTTAGTGAATCTTTTAATTCTTTTCTTAAAATCATTGCAAAGGGACTAGTCATTAGTTTTCACCTGATGTAATTTTCATAAATGCGTCCTCAAGATTTGGTTCTTCAATCTTGAAATCTTTAATCTCACAATCTGCAGCTCTTAAATTGTTCAATACGCTTAGTTTTCTGGAAGGATCAATACCCATTTCGAGCCATTTTCCTTTAACAGTTATATCGCTAGCTCCTGCTTTTTCAAGGGCAGAAATAGCATCTGGTTCCTTGGAAGGATCTGATAATTCAATAAACATTTGTGAAGATAAATCTAATTGTTTGAAAAGATCTTCAACAGATGACTTTGTTACAAGTTTTCCTTTATTAAGTAACATAATTTTTTTTGCAATATGATCAACATCACCTAACAAGTGAGTGGTAAGAATTACTGTTTTTCCTTCTTCTACAAGTAAGCTAATTAAATTCCTAAATTCTAACTGACGCCTAACATCAAGATTTGCTGTAGGTTCGTCAAGAAGAAGAATAGGTGGATTAGAAAGCAAAGCAACTGCAAGCATTAATCTTTGTTGCATTCCTCCAGATAACGCTCCAACAGATTGACGCGCCCATAACTCAAGACCTACGAATTCAAGTAGTTCACGAATACGTGAACGTTTAACGTTACGCATGTCACCGAAATACCTCAACAATTCTTGAACAGTCAGGTCATTATAAAGAGTTGGATGTTGTGGAACATATCCTACAAGCATTTTTGATGCCTTTGGATTTTTTCTTATATCAATACCATCAATGGTAATAGTTCCAGTAAATTCTTTTAATCCTAACAAACATTTGAGAAATGTAGTTTTACCTGCACCGTTTGGACCAAGTAATGCCCATACACCACCACGTTCAACTTGAAGTGATAAATTTTCTAGTGCTTTAAAATCACCATATTGTTTTGTAACATCAGTTGCATCGACTATTATATTAGTGGACATAATTCCCCAGAAATTCCTTCAGTCTTAAACCTATTAAAGATTCCTATAACAGTTTAAAATGTAAAAGGTCCCATATCCTCTGCGCGTTTTTGAACTATATTTAAAGCGTCTCGAGGAGATAGCTGGCCACGAATTACGCCATTTAGTTGTGTAAGCAGTTCACCTTCTACTGTATCCCATTTTGGAAATCCTGGTTTAATATTTATTTCTCCGCTATCAATTGCATTCTTAACTGCACCAAAGTGCCTAATTGTTCCTTCAGCAATTAGTTCTTTAACATATTCATCATCAAAAACAGATTTTCTAGTTGGGACGCCAAGAGACCATGGATCCGTAGCAACAATTAGTTGCGTTGGTGCAATAGTTGCCCATTGTATAAACACCCATGCTGCAGCAGGATGATTTGAATACTTAGGAATTGCCAATCCTGCACCAGAATAATGATGAGATGCACCTGCATCGCCAACTGGATTTCGTGTATATCCTATATCTCTAACAACATATGATTCACCTGGAATATCCATTAATGATGCAAACTCTGTTAGATTTATACAAGTAGCTGCACGTCTCTGAGACATCGACTCGGCAGCAGGAGCCCATCCATAAAATGGAGAATTTGGTTCTGCATATTTACTCACTTCAAGATAATGTTCTAATGCAGCAACTGCAACATCGCTATTTATATCAGAAGTAACTGAACCATCTTTTTCAATATTCCAAAGTTTACCACCAAATGAATAAAGCCAATTATGAAATTCCATAACTATAGATGGAAACTTTGCAGCCATCAATACAGTGCCAAATCTAGTTCTTGAAGGATCATGAAAATGTTTTATGTCATCAAGATATTCATCCCAAGTAGTAGAAACTTCAAGTCCTTCTTCTGAATATAGATCTTTCCTGAAAAATCGAATCATTAAAGGAACTTCTTGTGGGAATTGAGTAAACACTCCATTAAAATCAATATTCCATGGTTCTGCAAGAGTTGGAGGATAAGTACATGTAAAGTTTTTTACAGGTGCGACAAAATCTTCTATGTTAAGTCCAGGATAAGTTAAATCTGGATATTGTGTCATTAATTCTTCAATAGAAAGCAGATGTGGTGCAAATCTACCTACTTGCGATACATCAACATTCATTACGTCATATGTTGGTGACTGAGTAGAAATCGCTAACAAACATTTTGAAAGATTATTCCTGTAGATATCAAATTCCATTAATAATTCAGTACCTGTAGAAGAAGTAAAATCAATACGATTTCGATGAAGTGCTCTTGGGCCAACCTCTGCTTCAATGGCAATTCTTAAGTGAGTTCCGGCAATTTTATCAGAAACAGACTCGAGCCATTTTATAAAATCCAAATATTCTTCAGGCAGGTAATTTTGTGGATTTTTTGGAAGAGCGAGTCTTGTAGTCCTATCATTAACAACAGGTACGCCAGGTTCTATAGCTTGATTTTGGTTAAAACCCAATCCATAATAGCCAGCAGCGCCTAAGCCTACAGCAGCACCTGCCAAACCTAGAAATTTACGACGGGAAATATTAGAAGACAATAAAAATCAATAATAATCATTTAATATAAATTATCTTATATGGCAATAATTAATTACACATTCATACATTATACTAATAATCTAAGAGGTAAAAAATGACTGAACTAACTATTAAAAAATTAACAAAAAAATTTGGAAACAACGTAGTAGTTGATAATATAAGTTTTAAAATACCAAGTGAAAAATTTGTAACAATTTTAGGTCCAAGTGGATGCGGTAAAACAACAGTATTAAGATGTATTGCAGGTGTTGAAAAACCGGATGGCGGGACAATAAACTTAGATAATAAAGTATTATTTTCAAAAAAAGATAACATTCTGATTCCTACGGAAAAAAGAGGAATGGGAATGGTATATCAATCATATGCTCTTTGGCCACATCTTACAGTTTTTGAAAATATATCGTATCCATTACAAATTAGAAATATATCAAAAGACGAAATAAAAAAAAGAGTTATGGATATATTAAAAATGGTAAGGTTAGAAGGTCTTGAAGATAGATTGGTGCCAAATCTTAGTGGCGGTCAACAACAAAGAGTTTCATTAGCACGAGCTTTAGTTTATAATCCAACAGTTTTATTACTTGATGAACCACTTAGCAATCTCGATGTAGTGCTTAGAGATGAGATGCGTACAGAATTAAAAGACTTGCAAAAAAAACTAAAAATCACTACAATATATGTAACACATGATAGAACTGAAGCACTTTCATTAAGTGATTACATAATAATAATGGACAAAGGAATAATAAAAGCTTCAGGAAGTCCAATAGAATTGTTAAAAAAACCACCAAATTCCCATGCAGGAATTATTTTAGGTGACATGTCTTTAATATCTGGAGAGATTGTAAATTCGTCTGATTCAACTATAGATATAAAAATTGGTGAAAACATACTAAGTTGTAATCAAGATAAAGAATTTGATAAGAAAGATAATGCATTTGTGTTAATTAGGGGAACTGAAGTTATTATTCATAATACAAAAAGATCAGATTCAAATATTTTTCCTGCAAAAATAAAGAGTGCAACATATGCAGGTCAAGTTATTGAGTATAAATTAATTATAAATGATCAAATAATTAAAGTGGCAAAGAATATAGAAGAATTCATAACTTCGTCAGATGCTTCTAATCACAAACACAGTTTACATGAAGTTGGAAAAGAAGTGTTTATCGAGATACCAGCTATGGCATGTTATCTAGTAAATGAATAATAACTAGTTAGAATTATTCTACATTAAGTGTTTTAAATCAAATCTATAATGTACATGGTATGTCAGATTTAACAGAAATGGAAAGAGCAGCAAAAGCAGATGGAAAATTAATTATATATGCGTCATTAAGAGGAGTATTACAGAATTCTGTCAAGGCTTTTCGTAAGAAATATGAACATCTAAATTTACACGTTGAATATGTTTCATCACATCCAGTACCAATAGAAAGAAGAATAGAAGTTGAAGCAGAAGCATTCAAGAATCTAGATCAAACAGGAGATAATCGTCATATCAATCCAGGTACTGCAGACGTAGTAATAATGCCACAATTCATGCTAATACAAATGTCGAAAAAAGGATTGCTACGAGAATGTAATTCGTATATAAAAAAGACACATCTCAAACTATGGCCAGATGTAATTAAAGATGAAAGTGCAACATGGGCAGCTATGGCCGTTGAACCAACAGGTGTTGTTTACAATGATGCATTATTCAAGAATTTGTATGATGATAAAGGAGGTCTAGATTATCTTCCAACAACATTTGATGAATATGTTGACCCAAAATGGAGTGAGGTTAATGGTAAAGTAGGAATAGCTGGACAAAAAATTCAATCAAGTCATTGTATCCAATCGCTTGTAAGATTTCCTGAAGGAAAAATGGGATTCTATTATTTAATTTCATTGAAAGAACACATAGGTGAAAGTAAATGGACAGAACTTATGAAGATGATGGCAAAGAATGTTGCTCCTTCTACATATGAATGTCTTCTACACATGACACATAATCTAGGATTAGGTCAACATGTTTTTGGTCTTCCAGCAACACTCCGTAAACAAGGAATGGGAGATGATTATTCTTACATGAGAGAAGGAGGTCTAAAGCCATTAGTTCTAACAGATATTCCACCATCTGCTATCGCAAGATGTGCGGGATTAACATCTGCAGGTAAAAACAAGGGTGCAGGAGAGTTATTCCTTAACTTTATATTTAGTGCAGATTGGCAAAATGAATTAGGAAGAACACTAGACGGAATGGTGCCAGCAAGACCTGGAACAGTTACAGAATATTGGGTCAGTCAAGCACTAGATAAAGGATTTATACACTATCCAAAACCAGAACACGTCGACAAAGAAAATGATTACGTAGACGAATTCGAAAGTCTAGGACTAGGTTCAACGCTACCTAAAGGAATAGGTTAAGCCACTCAAGTTATTAACATCCAGTCAAATAATATTATTATGAAAACTGTGCAAATAAGCATCACAATGATGCTTATCTTAGTTTTATTGATTTCAAGTATACCGATAGCAATTTCACAAAATCTAGAATTTAACTGGATAAAACCAGCAGGAGATGTAAAAAATACTAATTTTCATCCACAAGATGAAATTAATCAAAATAATGTAGACAACTTAGTGTTGAGTTGGATCTATCAAGTACCTGAAGATCCATTTAAAATTCCATATGTAGCTCCTTCACTGGGTTTACAAACAGCACCATTAGTTGTAAATGGAATTACATACATAACTACATTTTACAATAGAGTAATTGCACTAAACGCAGAAACAGGAACAGAAGTATGGAAATATCAAGTAGATGTTATGGAATTTGTTGATGAAGAATGGTGGTGGCCTGTACTAAGTCAAAAGAGTTTAACATATCACGACAGTGTAATTTATTTTATGGCTTCAGATTGTAGAATCATAGCACTTGATGCAATTAATGGCGAAGAAATGTTTGTGATAAAAGATGTTTGTAAAGATGTTGAAGGAAATACAGGATTATATTTTGGAGAACATGCACCTATAGTTTTTGAAAATGTTTTGGTAGCAAGGCCTTCTGTTCAAGATGGAGGAGGTAGAGGATTTGTTGTTGCGTATGATATAAATACACAAAAAGAATTATGGCGTTGGTTTTCAATTCCGCCATCAGGAGGAGATCCTGAATGGGATTTTAAAGATGCTGATAAAGGAAATATTAAACCATATCTAGGTGATTGGGGAGACACAGATTTAATTGGAGGAGGAGCAATATGGAGCATGTTTGCATTAGACGAGGAAACAAGAACAATATATTTTTCAACAGGTAGTAGTTCAGCAGTATTTGATGCGTCTCTAAGACCAGGTCCAAATCTTTATGCTAGTTCAATAATAGCATTGAATATAGATAATGGAGAAATGAAATGGTATTATCAAGTAGCGCCCCACGATATTAATGATCATGAAGTAGGATGGAGTGTAATTCTTGCTGAAACTGAAATAAATGGGGATGTGAAAAAAGTAATAATGGCAGGTTCTAAAACAGATCATGTTTTTGTATTGGATGCGGAAACAGGAAAACCAGTACATAAGCCGCTTATGTTAGGAAATAATGCTTTTAATGTTCCGAATGATGATGCCGGAAATGATGCAGATTTAACTATATCACAAAAGTTTCTTGTAGGAAAATCTTTTTGTCCTGGTGGAAATGGAGGTATTGAACATGCAGGTGCGTTTTCTTCAGGAATGTTATATTATGTCAGTCAAAAAGTTTGCTGGACTGTTACAGAAGGACCTGTTAACTACAAAGGAAAAGACATACAAGGATTTGTTTATGGAGCAGTACCAGGTGAGAGACAAAATTCCACGTTATTTGCAATAGATGTATCAGACATGAGTGTCAAATGGGTATTTGAAATTCCAAACAGATATCAAAGTTCTGGAGTAATGATCAGTGGAGGAGTAGTATATTTAGTAGATAGAGCAAGTGTAATGTACGCTGTAGATGTAGAAACAGGTAAAGAATTACGCAAGATACAATGGGGCGGATTAGGAGCAGGTACAGTTACTGTAGGTGCAACAGCGAGAGGAGAGATGATGTTATTTGTACCATCAGGCGGCGGTCAAGTAGCAGCAAATACACCAGGAATCATAGCAGCATTCAAATTACCCGATAACGGAGGAGATCAAACAAGCATAATAGGAAATGTGCGAGAAAATATATTCATATTAATTTCAGTATTAGCTGTAGGTATAGCAATTTATTCAGTATATAATAATAATAGAAGTAGATAATAATTGTCTGGAAAAATATCAAATAATTATAGTGTTCGTCTATTTAGTCCTAAAATTATAACCTTTTTGATGACATTTATTTTATTATTTTATCTATTGCAATTAGTACAAAGTGCAGGCATAGGTCCATCAGGAGGCGGAGTGGACGATAGTCTAGCAGGACTAGGTGATTCGCCTGCAGGTTTTGGAAATGAAGATGTATACGCATTAGAAGTTAATTTAATTATGAAAGAAGAGGTAGAACCTTATGTCTATCCCATTAGAGAACAATTAGTAGAAGTATTTTGGGACATGAAAGATTTAGAATCACAAGAGATGCAAGAATTTTCAGTTTCTGCTACTACAGATGAAAATGGAAAAGCGATATTTGAGTTATTTCCTGGAACGTATATATTGAGAGTTGATTATCAAGGAACGTCTAAAAATGAAACAGTTATAGTTAATCCAAATATAGAAAATAAAATTGATTGGATTATATCAAGATATGTAATACCTACATACAATTTAGAGATCAGGGACAAAAATGGGGGAATAGTTTATCCAAAAGAAATTATTAAAATTATTTATGAAGGGCCACCACAATTAACAGATCCATCAAATATTCAATTATTATCGGACAAATCAACTACGAATAAAATATTAAATTTTGAGATATTGAGTGTAATAAATAGAGGAAAAGTTTCAATTATTGAAATAAGTCCTAAAGAAAGTTTTTTAATTGCGAATTTTACACCAGAAGATCCACCACAAACAATAATTTATTCAATTAATATAGATAAAAGCAGGAGTTAGATAACATGGAAATCATTTCAAGTTTGGGTTTAATTCAATTAATGATTGCAACATCAATAGCCTTAGCAGTAGTAATTGTTTGGGGAGTATATTATCCAAAAATCAATAGACAAAAAAAAGAAATAAAACATATTAAAGAAATATCATTTGGAAGTAACGAGATGTTTGAACAATTAAATTATTATAATTCTAGTGGTAACTTTAATGAAGGGATAGTATTTGCTTATAACCTATTAAGAAAAAACTTGTCCAGTATGGAAAAATATCCAAATGATGAATCATTGACAGAATTTGAGACTATTAAAAAAACATCAAGTGACGTTTCAGAACTATCAAATGTATCAAGTCTATTGATGTCTGCGTATAAACAGTATGAATTAGCAAGATTTAGAGCAAAAACAAACTCAAAGAACTTAGACATCATGAACAAGATATTAAGAAATATAACTAAAAATAACAACTTCATTATTCAAGTGGGGGAATAATAATTGGACATGTATATCTTATTTATAATATCAATTTCAACGGTAATTGTAGTTTATTCATTCATAAAGAGTAGAAATTTTGATGTTCAAATACAAAACAATCTACATAGTTTTACATATAATGCATTTTTAGATATGAATAATAATAATCCAAATTATTATCGTCTGACAGAAATACTAGTAAAAGATTTAAACAACGTGAAATTAAATCATGAAATAATTAATCAAAAAGATTTTGGCACAATAGCAAAGTCAGAAAAAATGATAAAAAAAGGATTTGTAGATGAAAGAATGTTTGCAAAGATTAAGTTTTTACATTCTATGTATATTGAGAAATAAAGGATGATAAAATTGTTAGCAAATGAAATTTATAAAAGAATAAATGATCAGATTTCAGAGAAAATTATTGGAAAGGTTTTTGAAACAAAATTATTGACAATAGCACTATTGTCAGAAGGTCATGTAATTATAGAAGGCGTACCAGGAATAGCAAAAACCTTATTGGCAAAATCATTTGCAAACATACTAGAACTTGATTTTAAGAGGATACAATTAACTTCAGATATGCTTCCATCAGATATAACAGGAACATTTGTCTTCAATGTAAAAGAACAGGAATTTTACTTTCGTAAGGGACCAATATTTACAAATGTTATATTAGCAGATGAAATAAACAGAGGAATACCAAAAACGCAAGCGGCATTATTGGAAGCTATGCAAGAAAATCAAGTAACTGTAGAAGGACAAACAGAAAAACTTCCACAGCCATTCATAGTAATTGCAACGCAAAATCCTCTAGAAATGAGAGGAACGTATCCATTACCAGAAGCGCAGTTAGATAGGTTCATGTTTCGAATAATAATGGATTTACCAGAAAAAGAGGAAGAATTAACTATACTCGAGAAATTTGAACGAGGTGAGATTAATCAGGAATTTGATATTATAAGCGCAGATATACTAGCTGCTAAAAAGGAGATTTCTACAAAAATCACATTATCAAAAGAAATTAAAGAATACATAGTATCAATAATGCGTACAACTCGAACACAATCGGAAAAGATTAACTTAGGATCTAGTCCACGTGCGTCATTGCACTTATTGCAAGCATGTAAGGTATGTGCTGCATTAGATGGACGAGATTATGTAACTCCTGATGATGTGAAATTATTGTTGTTTCCGTTATTAAATCATAGGCTAATAATAAATCCTGATTATTTACTTAGAAATGCAAACCCTGCAAAATTAATTGATTATTCTGTTATTAAAGAACTAATAACTCAATCAACAGCCAACATAAAGCCGCCAAGATGAGAGACTTGATTACTAGAAGAGGTTATTCAATTCTTAGTTCTCTATTTGTATTTGTTGGGATTTCTATAATTTCAGGTGAATTGATATTCGCAACGATTTCGATGTTTTTATTTTCAATTTTCTTCGTTGAATTATTAATTTTTCTTTTCACAATTTCTCAATTGTCAAGAATTAAAGTCATTCGAGAAATATCGAAAAAAAGACTGTTTGTTGGAGACAGTATATCTGTAAAAACAATTTTACAGAATGATGGTTATCGTAATATTGGAATAGTAAAAATATTAGATGATATACCTGATGAATTCCAACAATTAGGAAAGATTAACAATTATACATTAAATCTTGGACCTGGAGAGAAATCAGAATTTGAATATAAATTAGAAGCAGTTCAAATGGGAAGAATGAATCTTGGAAAACTATCATTATATTTGTTTGATAAATTTGGATTATTTTATAAGAAGAGAATTATTAAGGAAAATAATTTCATATCAGTTTTACCAAATGTAAGAATAGGAAGAGGAAATATTGAATCAAACATACATCTAGGATCTCTATCAACAAGTACAAAAACAGATCCACTAGGTTCTGATTTTAGTGGTATTAGAGAATATAGTTCAGGTGATGACTATAGAAAAATTGCATGGAAATATATGGCAAAATCTTCAATTCAGGAACCAAAAATAAAACAATTTGAACTTGAACAAAAGATAGATGTAAACTTTGTTATCTTAAATAGTAAACATATGAATGACGGTGACATTGGTAAAAGAAAGTTAGATAGAATAGTTCAAACTGCAATAACTATATCATCAGTAGTCAATAATGCAGGAGGAAAATTTCAAGTAATTTTTAGTGAGAGAAATAAACCTGCAGTCATAAGTGGTAGTGTTTATGAATTATGTAATTATTTATGCCAGATTAAAATAGACGAATCATTAGAACCAGAGAAATTAATTAATCATGCGTTAAATTATACCCAAAGATCTTCAATATTATTAATTGTTGTAGATAGTCCATTTCCAGAAAAAATAAAGATTGAAGATTATACGAGAAGATTCAACAATAAAAGTTTAGTCAATATTTTTATTCTAGATACAGCTTCATTCATTACACAAAATATTATAGAGAAATCAAGTAAACATATTTCAGAATTATTAGATAATGAAAGGAATCACTTACAAGAACAAGTAAATCAGATTAGACAAAATAATTTAACCGTAGACATATGTACAAAAGATAACATAGCAAGAAAGATTGTAGAGAGTTTCACTACAACGCAACTGTTAGTAGAGTGAAATATTTGAATATGAGATATAAATTAATACTTTTTATTGGAATTTCACTTCCATACATAATTCAGTTTTATTCTGTAGGATATCATAGATTTCTGTTTTCTTTATTTAGTATTATATTTTCATCGAATGTGTATTCTTTTTCCGTATTAATGTCAATAGCAGCAATATTTGCAATTGTTTATAGACTTTCAAGAGGACCAGGTTCATTACAAGATTCATTGATAATTACTACATTAACAACACCTGTAGTTTTCCCATCTCTGATAATGTTATTTTTATTAATATTTTCAATTGGAGAGATGCCAAGTCAGTACTTGGGTTCTGCATCAAACCTATACCTTGTTGGAATTGCAGCAATGCTAATAGTTTCGCCATTATTAGGCGTAATTTTACATTGGTTTGCAATGATAAAAGCACAAGGATCGCCTATTGGGCACATTCTATACACAATGATTATATTGAGTTTAGTGAACTTTGTATTCTTCAGTAGTGTGTCTGTAGATAATATAAATGAACAATTAATAGGACATGGAACTAACATAATTCTTAATGGTATTTTTATTATTAAGACTATAATCTCAAACATACTCCAATCAGAAATGCCAACAGTTCCTTCAAATCTAGGTAATTTTCAACCAAATGTTAATTTGATTTATAGTAATACAATATTCGGTATATCAGCTGCTCTATATCTATATTTCAGATTATTCAAAGACCATACATTAAATAAATTAAATATTGATGGATTTGAAACAAAGACATTTTTAAATATAGATAATATAGGAAAAATCAGTATAACATTAATATTGGCAATTCTTTTGAATTTTGTTTTAATTTTAGGGTTTTCAACTGTCTTTCAATCAATAAATTTGATATTAAAGGCAAGTATTCTGATGTTAATGTCAACATTTGTAATAACAATAATATTTTATAGTTATCAAGGAAGGGATTAGTTTGAAAATCATAACAATATCAATTTTAATATTAATATTATTAATTCCGTTAGCATCATCACAAATGAATGAGGTAAATAATTTTAGAATTGGTTATTCTCCTGAGAAATTGTTCAACAGTGAAACAGGAATGCCGTCCTATTTAGCAGGTGAAACAATTTGGTTACATGTAGATAATTCTCAAACAATAGAATTAAAAAATCCTCAACAAAATACTGTAGTTAAATCCGAAATTAATGAAAATCCAACATCAATATATGAATTCAAGAATAATGATCAATTAGGCACATGGTCATTAATAGTAAATGAAAAAACGTATCAAATAGAATTATCAAATCAACAATTAGACGCACAAAACAACATCGTAGAATTTGCATTTGTCAATAAATCTTTAGAAGTTACAGGCAGTATCGTACCTAATTTCAAAGGTATACCTTCACAATCAGAAGTTATTATATCAAAAAAAAGAGATAAAGATTCGATAATCATACCAACTAAATTATCAATAGAAGATATGATAACAATTATTAATATAGAATATCAAATGGAAGGAAATGAGGCAAGGTTACATATACAACCATACTTGGGTCAGATTGGGAATAAAGAAGAATACTCGGAAATTGGATTTTATAATATTTATACGTGGGCAGAGTTAACTTCAGAAGTTACACTAGTAAAGAAAACAGGAAATTCAAGATTTATTACTTATTTAGATGAACCAATAACAGAATCTACAAGAACTTATCTACCAATAACAAATACACCTCAAAGTGGATTAAATATAACTATTCCAAGTCTTGGAAATATTGACAAGCCATGGACTATTCCATTAAAATATGGAAAAACTTTATTATCAATATACTTGGAATTTGAAGGTCAGTTATTTGTAAATAGAATACCAATTATAATTTTAGAAGATAAAATAATAATAAATCCGGATTTAATTATACCAACTGAATCATTTGGAGAGACAATAAATTATAAAGGCATATTGGAATTAGAAAGCGATATGGATATAGATTTTCTTTTAATAAGTAAAATAAATGGAATAGATAAGATATTTTATTTTTCAGAAAAACCATCAATTAGTACAATTCAGATAACAAATGAATTAGATAATAAAAGAATAGAGAATTATAAACTAACATTTGAACAGAATATTGAATCAATAAAGATTAATGGAACTACATACCTAGTGTCCAACAACATTTTAGTTAATCCAACATTGGTTATTAATTCATTCCAAATGAACAAACAAGATATCAATCCATCGAGAATCAAACTGGAGGAGGGTGCAACAATCAATATACTTGCAAATATAGGAATAGCAAATATACAATTAATTGATTCAATTGGTTCATTATCAGGAAATGGAGAATTAACTATACAAAGATTAGATGTAAATAAAGATGAAATATTTATTATAGAATGGAATGGAGAAAATGTTGAAATTTTACTGCCAAAAGGCAAATATTCAGCAAAATTAGAAATAGACGGACGTCAAGGAGAAACCGAGTTTGAAATAGATAGAGAAAAGAAAGACGTAATAATATTCATAGATTCATTATTTGGAGTTTCTACTGGAATCTTAATGTTCATATTAATGACAATAATTACAGTAGAAATAGGAATAATATATTCCGTTTGGAAGAGAAATCTAAGAATTAACTAATTATCTATCATTTAAAGCAACAAAATCACGAGGTTCATAGCCAACATATCGAGCCCTTGGACGAATTAAGCGATTATCTGAAAGCTGTTCTAAGATTTGTGCACACCAACCTGATATTCTAGAACAAGCAAACAGAGGTGTAAATAGATGAGAAGGAATATTCAACATTGAATAAACTGAAGCTGTATAAAAATCAACATTTGGTTTAAGATTCTTTTTCTCAAGTACAGTTTGTTCAATACAATAAGATAAATCATACAGATTTCCACCAAATTTAGTTTGAAGATTTTTGGACATTTCCCGTAAGACAATTGCTCGTGGATCAATAGTATTGTATACCCTATGTCCAAATCCCATTATTTTTTCTTTTTGTGCAAGTTTCTTAGATATATAATTAGAAACGTTTTCAATATCCTGAATCTCATTTAGCATTTTAAGAACAGATTCATTTGCACCACCATGTAATGGTCCTTTCAAAGTCCCAATTGCAGAGGTTATAGCAGAATGAATATCAGAAAGAGTAGATATAGTAACTCTGGCAGAAAATGTTGATGCATTAAATCCATGATCTGCGTGCAATACAAGACATTGATCAAGAGTTTTTGCTGCTAGTTCATCAGGAGAATCTCCAAAAATCATATACAAAAAGTTTGAAGAATAATCAAGATTATTGTCGGGAGGAATTATTTCAAGATTGTTTTTGATTCTTTCAAAATAAGATAAAACAGTGGGCATTTGTGCAAGTAATCGGAGAGATTTACTCATATTTGCTTCTGGAGAATCATCATCTATATCAGGATCAAAAGTCGAAAGATAGGATATAACAGTTCGTAAAAAATCCATAGTATTAACGTCAGATGGAAAGTCATTAATTAGATTAATAATTTGTTCAGGAACATTACGGTAAGAATAAATTAGATTTTTGTGTTGTTCAAGTTGAGATTGGTTTGGAAGATTGCCATGAAATAAAAGATATGTAACTTCTTCGAAATTGCTATTATGTGCTAAATCAGATATTTCATATCCATAGTGAAATAATTTACCAGATTTGCCATCAATAGAAGTTATTTTAGTATCAGATATAACTACATCTGCCAAACCTTTTGGAAACGAGTTACTATGTTGAACCATATAAAAAAATGTCATTAATAGTTTAATAGCTTTTTTAAAAAAGTTTGAAATCTTAAATAAACATATTGTAATGTTATATATAATGGAAAAGAAAATTCAGAATTTAGTAATAGATTTATCAATGTTTTCAGTTGGTTTAGCATTTACAATTGCAGGTTCTGCATTAACTAATGGAAGGTGGATCATGTTAGTTATTGGACTTATATTGTTAGCAATACCAATTAAACGATCAAAAAATTTGGAAAATTTTTCTAAAATAAAAGGAATAAATGAAAAACAAATAGATGTAAGAATTGAAAAAGAATCTTGTATGGGAGTTGGAAGTTGTGTAGTAATAGCCCCTCAGGTTTTTAAACTAGATGAAGCCAGTCTAAAATCATCCTTTATGTCTTATGCGCCACTTGAACTATTAAATAAAAAAGGTGCAAGTAATCAAACAATTTTTGAAGCTGCACAGTCATGTCCATACAAAGCAATAATCATAGAAGACAAGACAACGAAAAAACAGATTTTTCCTTAAATTAGTAAATTTTAGAACTAATATTTAATTGTTGAACCTAAGGTTTTTATTGTTACAATGTTGAGATTTAATGTGGGAAAAGTATGTCGAGTCGTATAGAAACTGAAAAAGTGGCTACTTGGTTTGTATATACTGCAATTATTAATACTATATTATCATTACTGTATGTCACAGTGTTTCTACTTCCAGATACAATTGGAAATGGACATATACCTCCATCAGGCGATTTATTCTCTTTATCAGTTGCAGTAGCAAGCTTTCCTGGAACATGGTTGTTAATTGCATTCTTTATACATGTGTTTGTAGGAATATTAGGAATGGTTGGATGGGCAGGAGCATATTATATTTCTTCAAGGGTTATGAACAAGAGAACAACTAACAAATTACTTGCAAGAGGCCATCTTGTTCTAACTGCATTAGGAGTATATGTTACCACAACTTTCTTCGCGTTAGCAGGGTTTATTGGCGGAAGAGCAATGTTACCTGAAACAGCATGTATAGTATTACAAGATCAATGTATGGGAGCAGGTGCAGCAATTGTTCAGACTTTAATAAAGTTTACAGTAATTCCAACAGGTGCAGGAATGGGAATAGCACTAACTGGAACTGCAATAGGAATTATAAATATACTAATTACACTCAGACAAGAACAATAAATTAATCACATGTCAGATTTAATAGAAACAAAGTTAGTGTCAAAATATTTTTTCATACTAGCACTTGTCAATACATTTGCTGCAATTTGTTTTACACTTCCAATTTTAAATCCAACATCAGGACTTCCACTAATTATAGGTGTTTTTCCTGGAACATGGTTGTTAGTAGGTTATTTTGTATTTCTTATTGTCGGAATATTGGGAATGTTAGGATGGAGTGTTGTATACAGTTTAATGCCTTCTATGTTCAATAAGAAAGACACATCTAAAAAATTCTCAATAATTCAAATAGTATTTGTCGAACTATCAATATATGGAGTTGCTACCACAATTTCATATATAGGATGGCAAGGAGGCCAGGCATTAAGACAAGGATTGTCAATAGCGTCAGTAGGATTTTTGATTGAACCTTATGTTCTGCCTACAGGAGTTTTTGTTGCATTAGCTTTGGTCGGACAATTAATAGGCATATTCAACATATTAACTACAATTAGAATGAAACAATAATCACTTAGGTTTTTGATTTGAAACGGTACGATATACGTCGCTTATTCGAAGAATAGAGATAGCAGTTTCAGTAGCGCTAATCAGTATTTGTTTTTTCATATATGCAGATTCAATAATTTTTGGATTTCTTGCTTTTGATAACTTGCGATTTTTTAGATCAAGATAAATAAACTTCTTCTCTGAAGGCTGAAGATTTCGAGTATTAACGATAAGATCTATATTATTAAATCCTGCATTAAGAGCTAGAGAAAACGGAATCAATTCAATTGAATCAGAATAGGATTTAATAATCAATTGATGTAAATTGTCGATATTATGAGAAAATGAACGAAGTTTAGCAGCAAGAATGAATTCAAACCAACCACAGCCAAAAACATAATATGGATGTTTAATTGAGGTTTGCATTAATAAAAGAATCCGATTAAGTAAATCTTCATAAAGATCACTATATCGTTGTGTCTGAGTACGAATTAGAATAGTATTAGATTTGTGTTTAGAGCCGTTGTTTAAAAAAATCCAATTCTTATCATACATTATCATAGAGGTTATACTTGAACAATGACCCAATTTATTTTTCGTTAATTCTTTTGGATTATTTACCATCAGGGCGCCAGTAGATTTTTCTATCATTTCAAGATATTTTAACGGAACACGTTTCACTGTAAATATACCAAGATCATTAAGACGAGAAATTAATAAATCATCAATAGTTTTATGACTAAACAATACATTTGCTCCAACATCAACAACACGTTGAATACAATCAAATAAAATTTCTTTTTCTGATTTTTTAAATTGTCCTAGTAAAGTAGGATCATTTATAGTAATTTCTTTTTTCATTCCTTCATTAGAAATCGATATTGGTGAATATAGAATTGCTATTTTCGCAGAAGACAGTGATTGACGGGATGATTCAGATATTGGTTCAGCGTCAAAAACTATTCCGTCAATTAATCGACTATTCAAGATAGAATCACCACCATTACTAACAATATTTACATAATCAGGAGATGTATAATCACGAAAATTATAATCAATTGAAGATATTGCTTCTACAGTGAGACGAGATAGTTTCTCTGATTCATTTTTTCCAAATTTAGAAGACAAAGAAGAATAAACAAGATTGTGCCATTGAGAACGAGTTTCAATAGGAAAGCGAATTGAGTCAAGAATATCAAGAGAGAATTCCAATGATTTCTCATAACCATCTATAATAGTATTTGGATGAATTCCTTTTTCAATATTAATACGTGCTTGGTCGAGTAAAAAAGATGTAAGAAGAATTGCAGACATTGATCCATCACCAACATGTTTTGTAATAGTTTCAGCTAAATCAAGCATAAGTTTTGCAATTGGATGATCAAGGTTAGCTTTTTCTAAAATAGATTTACCATCTCGAATAATAAATGCGTCGCCATAATTATTTACTGTTAGTTTTTCAAGGCCAAAGGGTCCAAATGATTTCGTAATCATTTGTCCAATCAATTTAGAGGCATCAAAGAGATTTTGTTGTGAAGGGTTTAATTTAGAGATTGGACCATCTCCAATAGTTCTTTTGTTCATTTATTTCCACGAATTAAGCTAATAAAAATACCAATTATTGCAATTATAAAACCAATAAAGAATGCTTGACTCAAACCTTCAACATATTGTACTGCAGAAATAGAACCACCAATATTATAAATATCTTCAGAAAGAAACAACCCAACAGTCGATGCGCCAATTGCAAGACTAAGAGATTGGCCCAGATGTCTCATTGTTCCTAACATTCCATTTGCTAGACTTCGATCTTCAGGTTCAACAGATGAAAGATTTGCATTAGTGTTTGGGGCAGCAAACAAGGATAAACCAATTCCTAGAATAATCAATGAGACTTCAATAAATAATATTGAAGAATTAATATTAATTTGACTCATTAGAAGAAGTGAAATAGCTACAATAGTAAGTCCTAAAGCACAAAGATCTCTAGAAGAAATAGCTTTAGAATATTTGCCAACAGCTAGTGATGCAATTACTACTGTAAAAGGGAAAGCAGATATCATGAAAGCTGATTCAATTGGATCAATCAATCTAATCAATTGCAGATAAAAGGAAATCATGATAATTGCATTAAAATGAGAAGTATATATGAACAAAGCAGAAAGATTTGTAGAAAGGAATAATCGGTTTTGATTTAACATCCTTAAATCGAGTATTGGATTTTTGGACCTATATTCAGCTAAGCAAAATAGCATCATAAAAATAAGAGAAAGAACAGGAAGAAGTAATAATGGAATCGAGATGGTTAAACGTGACCAGATGTGAAAATTGCCAAACATCGGAAATAATATTTCTTCAATATAAAGATCAATACTGGTCCAACTTTCTTTAGGTCCAAATGTTATAGCAACAAGAAGACAGGATAACGAAGATGCGAAAAATAATGAACCCAACCAATCCATAGACTGAGAAACAAATTTCTTACTTTCTTTAAGTTTTGAGTTAATAATTGGAAGCAGAAACAAACCTAAAGGTACATTTATGAAAAAGACATTTCTCCATCCTATATATTCAGTAATAACTGCACCTAAAGCAGGCCCAGTAGCTATAGCAAGATAAATAACTGTAACATGAATACTCATAGCTAATCTTCTTTCCTCAGGAGGAAATGCGTCAGTAATTATTGCACGACTATTGACCAATAAAAGTGCAGCTCCAATAGCTTGAATAATTCTAAAGATTAATAATTCGGCAATAGTGTTTGACATTCCACTAAAAAATGAACCAATAACAAATATTCCAAGACCAATTTCAAAGTATTTTTTTCTTCCATGAATGTCAGAAAATCTACCAAAGCTAGTCATAAAAGTAGTAAGAACTATTAGATAGATTACAGAAACCCATATTGCAATCTCAATACCGGTTTGAAAATCTCTTGCAATATTTGGCAGGACAAGCACTACAATACCTGTATCAAGAGGAGCTAGAAAGGTAGCTATATTTACAACAATTAGTGTTAACCATTTATGCTCTGAAAGATAATAAGAAATAGATTTAGACACAGACATAGAATATAATAACTTACTGTATAAATTATACCAAAAAAATAAGATAAGATATATAAATTAAGTATTAACTGATTGTTCACGTATTTCTTTATCAGTAATAATCAAGATATCAATACCATCTCCAGAAGCAGAATCTCTATTTACTGCAGAACGAATAGATTTGATTGCCAAATCAACGGCTTCCTGTTCAGTTAGATTTTTCTTATATTCAGATTCAACAATTCCAATTGCTAACTCTGCCCCAGTTCCAACTGTAGCATATTCATCAGGAATAACTGAACCCAACGGATCAAGAACATAAACAGCAGGTTTGTTGTTTTCAATACCTGCAAGTATTATTTGAGTCATCATAGGAAACCATTTTTGTTGATACATAATAACGCCCATTAATTTTGCAATTGAGTTAGGAGGAAGTAATTGGTTAGTTTCAAGTTCCAAAATTTTTGCATGAGCAGATACTTCTCTCATTAAGATGTTCATATCGGCAATCATACCAGCAGCAGCAGCTCCAACTTTATCGTTAATTTTGAAAACTTTCTTTCCAGATCTACTAACTAAATATGTACCGTAAGAAACACGTTTTTCCGCTCCTAAAACAACTCCATTTTCAAAAGTTATGCCAACTGCAGTTGCTCCGGGTACCTGATAAGGCATTGCCATACAAAAAAATTCACTATTATCCTTTTTAAGGATTAATAGTAATTGAATAACAAAATTGATTTTTTTTACTAATTTTGTATGTCATTCCAGTGATTAATTTACAAACTTCCAAATTAGTCTTTAGGTGATTACTAATAAAAGATGTTAAGAAAATGGATGGTTCTTTAGATATTGAAAGTAATGGTATTATCATATCAGCTAGGTGATGATCAATGGTACATTTAGAATTATGTTCAAAAAGAAATTTTTTTGAGCACAAAATTCCAAGTTTATCAAAAGGAATATCTTTTGTTGCAAGTATATCAGAACCTATAAAACTTTTTGAAGAAATACTAGAAATACAAATAACAGAACCATTAGAATGAGAATTACAGATAGATGGATTAATTGAATCAACTAAAATATCATGATTTTCTAAGAAATTTTTTGTGAGTTGACATTGATATTCGATCTTCGATTTTGATTCGTTTGATGGAATATTAGCTTCAGAAGTCAATATTCCATCAATTACAATATTATCAAATTGAGGTTTAACTAATAATAAATTATCAAGTTTTTTCGGTGAATAAATTTCAAAATTAATTTGGCCATTGCCTTTTGGATAAAAACCACGTTTTATAATAGAAGTAGAAATAGAAAATCCCAAAGTTTCTAACAAAGGAACAACTAATCGTCGAAAATAATCAGCAGAAGGGCTCCAATTAACATCAGTTCCACCAGAAATTAAAAAATTATATTTTTTATCACTTATACTAATAGCTTGAATTAAAGATTGAATCAACAAAGTAATACTTCCTGCAGTTCCGATATCTATATTTAGATTTTTTGAATGAAGTTTATTTGGATAAATAGAAACTTTAGTTGAATTAAGAGATAATCCATGAGTTTCAGAATTACTAAGTTTTGCAATAGTTTGAAGTACTGAAAGATGTTGGGGACGAAGACCTGGTTTACTTCTATTAGCACGTATATTATAAATTTCTATAGGTTCGCCAAGAGCAACGGACAATGAAATTGAAGTCCTGAGTATTTGGCCTCCTCCTTCGCCCTGTGAGCCATCAATTCTCAGCATTATATCAATAATAACAAAGGGGATTTAAATAGAATATCTCTTACTAAAATAAAGGATATGATAATTGGGATATTGATTGGAAGATTCCAACCATTACACAAAGGGCATGTAAAAGCAATAAAATTCTCTATAGAAAATTCCAATAAATTGTTCATAATTATTGGAAGTTCTGAGAAAAGCCATCAAGAAAGAAATCCTTTTACATTTGAAGAAAGAGAGAAGATGATTGAATTAGCGCTATCAGAAGAAAAACTTGATAATAAAATTGAAATCGTTCCCATAAAAGACGCAAAAAATCATTCAGAATGGATATTGTCAATCAAGGATGTTATAGAAGATTATAATGTAGTTTTTACAAATGACGAACTAACAGAAAAGTTGTTTAGAAAAAACAATACAAAAGTTGTAAATGTCACCTTGCTAGATAGAAAGAATTTATCGTCAACAGAAGTAAGAAAAAGAATAAAATCAGACAATAAATGGGAAAATCTAACACTTCCAATAGTAGCAGATTATTTGGTAAAGATTGATGGAATTAATAGAATAAAATCTATAATTTAGCAAGATTTTTCTGAGCACTTTCTAAAGCTGAATCTAGATTTGCATCAAAGCCCATTCGTTTGAGATTATTTCCAACAGCAGAAATTGTAGTTAGAACATGATACTTGTTAACAATCCCAAGACTGCCTATTCTAAAGATTTTACCTACGTAATCTCCAAACCCACCTGCTACGACAACACCATATTGTGTAGCTAAAGAACCGCGAAATTCTTTATCGTCAATTCCTCCTGGATAAGATACGGATATTACAGTATTTGAACGAGTATCTGGATTGCCAAAAAGTTGTAATCCCATTGTTTCAAAAGCATCATAAAATGCTTGTCCACAAATCTTATGTCGAATATATCTATTTTCCATACCTTCATCTACCATCAAATCAAAAGCTTTGTCTAAAGCATAATATAATGGTAATGCTGGAGTAAATGGGGTTTGGAATTTAGTAGCGTATTTTATATAACGAGGAAGATTAAGGTAATGAAGTTTCTGTGGATCTTTTAACATTTGTTCTTTGTATTTAGTACTAAACGAGATTAATGCAATACCAGGAGGTGCAGCGCATGCTTTTTGGCTACCAGTAGCTATATAATCAATATTATAGTCGTTAAGAGGCATTTTATCAGCTCCCCAATTAGAAACAGCGTCAGCAACAAGAAACGCTCCGTATTTGGAGGTTAAATCGCCTGCTTCCTTAAGCCAATGACACATTGCACCAGAAGAGGTTTCATTAGTAACGATATAAACAGATTTGGTATCGGGATTGGTTTCTAAAGCACGTTCTAAATCAGATAAAGAAGGATAACTTCCATAATCAGATACTAGCTCAATAGGAGATGCTCCTACACTAGAAATTTGTTCAGATACTCTGCTGCCAAACTCCCCACAAACAGTAACAATTGCTTTATCATTTTTTCTGAGAATGTTTGTAATACTTGCCTCAACTGAAGCAGTACCAGAAGCACTAAGAAGAATTATATCTTCGTCACATTCAAAAAGAAGATTGCCTTTACGAATAACTTCTTTCATAAGTGAACTAAAATCAGCAGTACGATGTCCAATACTAGGGGCCATCATAGCCTTAGTAACTTCAACAGGCACATTTGTCGGGCCCGGAAGCATAATAAGCTTTTCTAATGTTGAATCATGTCCAGAATTGTTCATATAATTTATGAGTAGTATAATTACTAGAGATACATAACTTTTTCGAAGATTTGTAGGCGCTATTTTATTTTTATACCTCCGTTGTAAGATAATAATCTATGAAGAATGGAGATTTAATATTATTGAATTTTACTGCAAAAGTAAAAGATACCGGAGACATTATAGAAACAACAGTAGAAGAAGAAGGGAAAAAAATAAAGAAATATGATGATGATTTTGTTTTTAAACCAATATTAGTTGCAATTGGAGCAGGATGGGTATTAAAAGGTCTAGAAGAAGCACTCGTAGATGCAGAAGTTGGAATAAAAATTGATCTTGAAATTTCGCCTGAAAAAGGGTTCGGTTTAAGAGATGCCTCAAAAACACGATTATTGCCATTGAGAAAATTTAGAGATAAAGCAGATCAGCTCAATATAGGATCAGAAATAGAAGTTAATGGAAGAATAGGAATTATTAGATTTATTGGTTCAGGAAGAGCTCAAATTGATTTTAATCATAAATATGCAGGAAGAATATTAGAATATAATTTTACTATTGTAAAAAAAATTGAAGATATTGAAGAAAAGATTAAGGAAATAATTGATAGAAGAATTCCTAATAGTAAAGAAAAGGTAGACGTAAAAGTTGAACAAAATAAAGCAATTATTTCAATTCCAGAAGAATACTTCATGCTTGAAGGATTACAAATAATAAAACGTGCAATTGCAAATGACATGATGAAATATGTAGATAGTGTTACAGAGATATCATTTGTTGAACAATTCAAGAATGAGAAGAAAGAAACTAAAGACGTTGAACAAAGTGAATCAACGCAAGAAACTAAAGACGTTGAACAAAGTGAATCAACGCAAGAAACTAAAGACGTTGAACAAAGTGAATCAACGCAAGAAAATGTGAATAATAAGAACGAAATATAATAACTAAATGCAATCAGTATCAGAGAGTAGTTTGTTAATAGTATCTCTATCAAGAACGTCTTTATTCAAAATTGTATAACGATCAGGGCGAATTGTGGGAGCAAGATTTATTGCTTCAATCATTTCATCTGCAGTTATACCAATATCATTAATATTAGTAGGGCAATTTATTCGTCTAAGTGCATTTTGAATTTGTTGCCAATCTAAGCCATGTAGTTTTGACATAATTATTGAAGATATTCCACATTTTTCTCCATGTAAACCATTACCAGGAGAGATTATGTCAAGAGCATGACTAATAAGATGTTCAGAACCACTACATGGTCTACTGCTGCCTGCAATACCTGCAGCAACACCAGTACTAATTAGAGCCTCGACAATATTCCTTACACTTTCAGTTCGATTTGTCTCTAAATTCAGTGATTCGTCAAACAAGATTTGAGAACTCATATAAGAAAGACTTGATGCATAATTTCCAAATCTTTCGCCAATTTGATCACGTGCAAGCTCCCAATCTTTTATAGCTGTAATCTTTGCAATAAGATCGCCACAACCACTTGATAATAATCTATCAGGAGCTTGAGAAATAATTTTAATATCAGCAAAGATTCCCTTAGGAGGACTAGCTACAAAAGAATACGGTCTATCCGAACCTTTGATTGAAGCAAATGGACTAGAAATACCATCATGTGAAGCACTAGTGGGAAAGCTAATAAAAGGAATATGTGCATTATAGGAAGACAATTTAGCAACATCTACAGATTTTCCTCCTCCAATACCAACAATAATCCCATAATCATTATTTTCACAAAGTAGAGAAATTTCGTCGGTAATCTGATTCGTTGCGCTATCAATAACTTTCCAATCAAAATGAAATTCAAAATTTTCTAATGAAGTATTAATATTATCTTTAACAACAGATTGAACTTTTTTACCACTAATAAATAACATCGGTTTGTTTATATCGAGATCAGTTAGAAAATTACCAAATTCCTGAATAATATCATAACCTATCAAGATACGACCAGGTAATTCCATTAAATGTCCTTTTTTAACAGAATTCAATATCATAAAATCGATTTAATCTTTTATATCTATTTAATTTGAATGTATTTAATCAAATTGAGTTGGGAGATGTAATTTAATCCAGCTAATGATGAGTTCAACAGCAAAATCTATTTGTGTTGATGTTAAAATTACACCTTTAGGAATATTATACCATTTATTCATGCATTTACGACAACAAGTTGCAGTAGCATGTTGAGCGATAAAAACTGGATGGTTTTTGAAAGGAGTTTGTTTACCATCATTAAAAGGAAATGCAGGAGAGAGTCTATCAATAATAAATTTTCGAGCATGTTTGGTGATTTCATCTAATCCATGCTTATTCATATATTCATATTCCTTTATATCAAGATCAAATTTACTACGAAATTTAGATTTATTTAATTTGAATAGATGATAACTAATAATTGAATTCGACAATAATAATCAGTAAAACACAAGCCCTATAAGTCATCTACCAAATTTATTTATGTGTAAACATAGTTGGACATAATTCGTTTTAATGTTTATAGAAATCCAAATATAGGAATTTTCTTTAGGGCCAATAATAAATCAGTTCTAAGTCCACCTGGCTTAGCTTCTTCAAAAATATCTCAAATTACAAAACATCTCAAAGTATCAAACACAACATTAACAATAGGAGGCTCTAAACTATTAGGAGTATTAACAATGATGAATAGTAATGGAATAATTGTATCAAAATTAATAGAAGATTTTGAAGAAGAAATTTTAAAAAATGAAACAGGCTTATCAGTACAAAGATTAAAATCACGATTTACTGCAGTAGGAAACTTATTAGCAGCAAACGATTATGGGGCAATAATATCAAGTTTAATTAGTGAAGAAGAAGCAGAAAGGATTTCAAAGAATTTAAAAGTACCAGTAAAAAGAATGAATATTTCGTCAATGTATCTAATTGGCTCAATGATCAATGCAACAAACAAAGGAGCAATTGCACATCCTATAATAAATAATCAAGATTTGAAAATCATTAAAGAGATTTTACAAGTAGAAATAGAAAATGCAACTGTAAATAGTGGAATTCCATATGTTTCATCAGGAATTATTTCCAATACAAAAAACATACTGGTTGGAAGTCAAACCAGTGGACCTGAACTAGTAATGCTTAGTAGAGCTTTTGGGATTTAGAATATGTTCATGATTGTTTCATAAGTGTTTTTAAATAGGGAAAACAAACCAAGACTAAATTGAGTGCTGAACAACAAACACAGGCATTACTTCAACAAATGAAGTTATTAGAGTCGTACCTAACGGAAATCAACAATAGAGAGAATATATCTATAAATGCTATTATGGAAAGTCGAGCAGCAACCAGAGCAATTGAAATGTTAGGCAATGTGGATTCAAAAAAATTTTTATTTCCAATAGGATCAGGATTATTAGTAAAAATAGAAGATAAACCAATATTCTTTGTTAATATTGGAGCTGGAATAACAATCGAAAAAAATGAGAATGAAGTAAAAGAATTTCTTAAAGAAAGAATTAAAGATATAGAAAAATCTGTAGAAACATTGAATTCACAAAAAAAGGACATGTCACAACAATACAATAGTATTAGAGCTGCTTTGAGCAATATTGTGCAGGGCCAACAAAATGTTCGACAAAATTAGAGATACGGTATCAAACATTTCTAAAATCGCTGCAGAAAAAAAGATTTCAGAAAAAGAACTTGAGAAAATAATTGAAGAACTAAAAATTAATTTATTAGAATGCGAAATACCATTTGATTTAATAGAAAATATATCGGAAAATCTAAAAAAAGAAATAATAGATAAAACATTTTCGAGAAATGATGAATTTGTAGAAATTATAAAAAATGAATTTACTGTTGCAATTAGAGACATATTCAATCAGGTGAATGACATAAATTTAATTAATTTAATTCAAACAAACAAAGCTAATCCATTTAAAATATTGATTGTTGGAATAAATGGGTCAGGAAAAACAACAACAATAGCAAAATTAGGTCATCTTCTAAAAGAAAACAATATTAGTTCAGTTATAGTTGCAGCTGATACATTCAGAGCAGGAGCAATTGAACAGATTAAAGAACATGCAGATAGATTAGATTTGAAATTAATATCTCAGAAATATGGATCAGATCCTGCTGCAGTAGCAAGAGATGGAGTAGAATATTCAAAATCTCACAATATTGACGTAGTTTTAATTGATACGTCAGGTCGTGTGCAAACAAGCAATAATCTTATGCAAGAGATATCAAAAATAAAGAATGTAATAAAACCTGATTTCACGATATTCATAGGAGATTCTTTAACTGGAAATGATTTAGTTTCTCAGGCACAAGAATTCTATAAATTTACTGATTTCGATGGATCAATACTAACTAAAACAGATGCAAATGTCAAAGGTGGAGCCATTTTATCAATATTGAGTGAAACATCAAAACCAATAATATATATAGGAACTGGACAAGATTATAAAGACCTTGAGAAGTTCAATGAAGATAAATTTCTATCAGGATTATTTCAAAAGTGATGTATAAAATATGAAAAATTTGATTTCAATAACTAATCTAAAATCTAAAGATATATTGCAATTAGTAAAAATAGCAAGAAGATTCAAAAGAAACGATAAAAATCTACCATTTGGGAATATGAAAAACAAAACTCTAGCATTAATTTTTCAAAAACCATCAACTAGAACTAGATTGAGTTTTGAAATAGCAATGAGAGAATTAGGAGGAAAATCTATCTTTCTCAATGAATCAGATTTACAATTATCAAGAGGAGAATCAATAAAAGACACTGCTAGAACACTTTCAGAGTATGTTGACATTGTAGCAATTCGTACATATAAAAATTCAGATATTCAAGAGTTTATAGATAATTCATCAATACCAGTAATAAATGCATTATCAAATACTAATCATCCATGTCAAGCATTATCAGATATACAAACAATAATAGAAAATAAAAAGACATTACGTAATCTAAAAATAACTTGGATTGGGGACAGTAATAATGTAGCAAACGACTTCATGTTTGGATCTTTAAAATTAGGCGCTGATTTTTCATTTGCTTGTCCTAAAGACTATTCGCCTAAGAAAGATATATTAAAAATTGCTGAAGAATTAGTTAAAGACAATAAATCGAATCTTCTTATAACTACAAATCCAATCAAAGCTGTAAAAGATTCTGATGTGGTAGTAACTGATAGAATAATATCAATGGGAGATAAAAATATAGGAAAAAAGAAGAAAACATTTCTTCCCAAATATAAAGTAACAAAAAAGCTAATGTTAAATGCTAAAAAAAATGCAATATTTATGCACTGTTTACCTGCAGTGCGTGGAGAAGAAGTAACAGATGAAGTAATTGATGGCAAAAATTCAGTAATATGGCAACAAGTTGAAAATAAATTACATATGCATAAAGCATTAATTTGGACTATGTTGAATAAGAAATAATTTTTATAATGCCGTTATATATATATAAAGAAGTGGTTGATTACTGACTATATGAAAAATACGGAAACAAAAAATAAACAAAATAGGAGAGAATTTATCAAATATCTGGGAGGTACAGCATTAGGCTTGAGTATTGGTGGATTAGGATTCTTAAATGCAAATAACAACCTAGTAGCTTCAAATCAAAGAAATTTAGAATTAGAAGAAAATGTATCATCTCTTAATGAACAGTTGGATATATTAAATTCCTGGGCATTATACGGAGGAGGCAGTAATATTAAAAAAATGCCAAACATAATTGATAAAAAACGAACAGTTGAAATGGATGAGACTTTTTACTTTGATCATAAAACTGCAATTTGTAGAGTCGATAATAATCCTGAACCATTTATAATGCCTACGTACAAAATGGGAGAAGTTGAAATTGAAAAGAATACATTTTTCATGTTAATGTCAACAAATAGTCTACACGTAAAATCAATTGAAGAATCAGATAATTCAACATGTATTCTAGAAGGTTCTATTGGGGATTGTTTTACTGAAGCAGCTGCAGGAGGAAGTATTTATGGTTCAAGAGAAAAACCAGAACCGTTTATTCCAGAAGTTGTAGCAGTAGATGAAAAATCATTTGCTTTTACTGCGTACTTTGATGAAATTGAAGCTCCTGTAAATTTTGCAATATTTGGACCGAAATTTACTTTTACAGGAGAATTAACAACAGGTTCAGTAACAGTAAAAAGATTACATAAATTAGCAAAGTCTTTACCAAAATAAGAAATCCGCATGAAAAAATATTTTATTTTATTATTTTTATTAATAATAAATCCAGTATTTGCACAAGACGTATCTCTGGTTATAACAATAAATGATCATTATAGTTTTAACGGAATAGGCAATAATATAGAACAACCAACAAAAGGTTCAACAAATCTAACATTACTTAGAATAGTTCCACCTGCATACAATGATGGAATATCTTCACCGTCAAATGAAAATTCGCCGAATCCAAGATTAATAAGTAATTTAGTTTGTAGCCAACAACCAGATTTAGACATAATTGATGAAAGAAATTTATCTGATATGAATTGGGTGTGGGGACAATTCATGTTTCATGATATAGGTTTTACACCGACGGCAATATTTGACCCATCACTACGGAATCTAGATCGAATTCAAATATTAGCTCCTCAAAATGATCAATTTTACGAAGTAAATAGAACAATGATGTCGGTTTTTCGGAGTCTTTATGATGTAAACACAGGAACTGACAAGAACAATCCACGTGAACAAATAAACACAATAACTGCATGGATGGATGGAAGTGTAGTATATGGAACTTCGAAATCACATTCAGATAAATTGAGAACATTTGAGGGTGGAAAATTAAAAATAAGTGAACATAATTCTGGAGATTTATTACCGATTGCTCCTATAGGTTCGTTAGAGGAAAAGCAAGTGAGAGGACAGGCTTTCTTTGCAGGAGAATCTAGGTCTAATGAACATATTGCAATAACAGCTTTGCATACATTATTTGTTAGAGAACATAACAGAATTGCAAAAGAAATCGATGAGGCAGAACCAGACTTAACAGATGAAGAGATATTTCAAAAAGCAAGAAAAATCAATGCTGCAATAATTCAATCTATAACATATAACGAATTTTTACCATCTTTAGGAATAGAATTAGATTCATACAAAGGTTATAATAAATCTATAGATCCTCAAATATCTCATATTTTTTCAGTGGTAGCATTTCGAATTGGACATAGTCAAGTAGGAGAGAGAGTTGTGCTAATTAATGAAACAGAAGATAGACAAATAATTCCAATGAAAGATACGTTCTTCAATCCAAAAATTATTCACGAACATGGAATTGATTCAATATTAAGAGGACTTTTTATGACAAATCAACAAGCAAATGATATTTATTATCATCACAGTATCAGAAATTTCTTATTTGATGAACCACAAAGAGGAGGGCTAGATCTTTGTGCGTTAGATATTGTAAGGGGTAGAGATCATGGAATACCTGATTATAATTCTGTAAGAAAAGAAACTGGATTAAACCCAGTAGAAGGATTTGATGATATAAATCAAGATGAAGAAGTTAGAATGAGGCTTAAAGCTGCATATGGGAACATTGATGATTTGGATGCTATAATAGGTATATTAGCAGAAGAACATTTAGAAGATTCAACTCTGGGTCAAACTGGATATTTAATTATAAAAGACCAATTTGAACGAATAAGAGATGGAGATCGTTTATTCTACTTGAATGATCCTGATTTAGAAAATATAAAAGAGGATATTTCTAAAACAACATTATCAGATGTAATTGAAAGAAATACAAGAATAAAGAATTTACCAGATAATGTATTTTTTGTATCAGAAATTGAATCAGAGAATAATTATTCAATTTCAGAACAACAAACAATATTTCTATATATTTTAATATTTTTTGTAGTTGTTTTTGGTATTTATGGTCATTATAGAAGCACAAAAATCAACTGAATAACAAGTTTCTATATATTATTAAAGTAATCAATATAGTGGCAACAGGTAGGGTTGGAGGGATAGCCGTCCCCCGTGCTGAAACCGGCTATATGCAGCACCAGTAACCATTGGCTAAAGTATAATTTGCAAATACCTACCATCTTGCTTGAATGAAATCACGCCGTGATTGGTGGTCACAAGAGATAGCTATTTCGAAGGGAATAGTAATTCTTTAACTACTGAAACCGGACAGGTCCGGGAGGGAGCATCCGTATAGTGGGGTGGTTGCGCTTTCACGTCTACGTGAATGACTTTGTGAGATTGGAAAAGGGTTTGTATGTTATATGAATCCCCTTGGAGCTGTTGCCAATATTCTTAAAGGTGTTAAATCATATTAATAATCAATGTCCAAAGATAGTTCAATAAGAATAGGAGGCATAGCAGGAATTATAAGTCCTGTATTTGGTATTTTAATGACTTTTTTGGCTATTTATTTTTCTCCATGGTTCGTCTGGGAAACAAATGCATTAAGTGACCTTGGAGTAGAGCAGGCGGGCGGTACGCAAATTGCAATCTATCTATTCAATATTGGCATGGTCGTTGCAGGTTCTCTAATAGCAGTATTTGCAGTTTTAACAAGGTCCATTTTACCAAGCAATAGAAAAAATAAAATAGCGTATGCAATTTTATTTATTGGAGGTATCAACCTTGCATTGGTAGGAATATTTACGGAGAACTTTCCAATGATTCATAGAATAGTTGCATTGCTTTACTTTGTTACAACTCCGATAAGTTTGATGATCATTGGTTCAGGTAAAATAGCAAGTGACAGAACTTTCGGAATATTTAGTATTGGTTCAGGAGCAATAGCATTAGTAGTAATTTTAGGATTAGTAATTTCAATATTGGGAATATCAGTAGGTGGAATTTATCCCAAAGGAGCAGCAATTCCAGAAATTGTAGAAGCAATTATTTTGGGTCTGTGGATAGGAATAGCAGGAATTAGAGTATTAAAAACAGGAAAAATTTAATTATAATAATTTGAGTTTCAAGAAAATAATTGAAACGTTAATAATATCAATACCTACAATTCTTATGCCGTGGTTGCCTAGCCTGGTAAGGCGCAGGATTGCTATTTTGCAAAAATCCTGTCTCCGCAAGGAATCGTGGGTTCAAATCCCACTCACGGCGTCATAATTTCTAAAAATTTATCTTTGGTAAAAGATATCAACTAACATGGTATCAGAAATATTAACGTCAATATTAGTTGTAATTGGTTATGGAATACTAGGAGGTCTAGTATCAGGTTATGTATTCAAACGTATTGCAAAACTACTTGTAGTATTTATTGCGTTATTATTACTTGCTTCAAATTATTTTGGTTATATAGGACCGTTAGGGACTTTAAAAGTGGCATTAACGAATTATTTTATGGAACAAACAGATATAGGTGGAACATTATTGGCAGGAATTCTAATAAATATTCCATTTACAATAGGTTTTCTTATAGGTTTCATAATAGGAATAAAAAAATTCTAGTGTACTTACGGTTTTGTAGCATCCAAGCTAACAACAGATTCTTGGCCAATAACTTCAGCAGTATGTATAGTACCTGCAGGAACCAACAACATATCACCAGGGCCTAGAACAAATTCACTCCCTAGAGCAGTCATTCTGAATTTACCAGACAATACAGTATCTTTTTTATCGACAGAATGTGAATGTTCAGGAAAGTATGTTCCAGGACTATAAGTATAAGTAATAACACTAAATCCTTCTTGTTCTAATTTTTTACGCATATTTGATTCATTCAATTCACCCCAAGAGGAACTCCAGGATTCAATATCCATAAATACTAATAGAATACAATACGATAAAAGTAATTTTTCAATTTTATAAATAAATATTAATTAATATTTTTTATTATGAGAAATAATCATATCAATAACTTCACAAACACAGAAGCCGTTTTCCTTTTGGGATACATAAACAGATTTCTTTTTAACTAATTCGTGAGCATTAAAAACTGCAATAGGATAAGAAATACAATCAAAGACAGACAAGTCATTTAAAGAATCGCCAATAGCAACAACAGATTTTGGATCAATATTCTCAGATTTGAGAATATTACTTAATGCAAAGCCTTTATCGATATTTGGAGGCGTTATGTTTATCATTTCATCTGAACGTGTCAGATTCAAATTAAGTTTCTTTTCATATAACAAACTGGATACTTCAGTAACAAAATCATCAACATTAATTCTAGGTTTTCGATCAAGTGCAAGAATTATATTCTTATCATGATGTGCTTCTTTAGGAATAACACAGAATGGTAACCAAGAAGATAAGTTTTCTTTAAGCAGAAGAAGGTCATTTAAATCTCCATAAAGAGTCAATTTATCATTACGGCAATCATAAATTACTGTTCCTTCTTCACAAATTACTATATCATTAAGACCCAAACATCGAGTAATTCCAAGAACATAATGTAAAGTACGACCACTAGAAATAATTATTCTCACACCACTATCAGCAAGACATCGTATTTTTTCAATCTCTTCTAATAAAAGTCTAGAAGAATCAAAAACAGTGCCATCCAAGTCAAGTACTAAAAGAGTAATCTTATCAGAAAAAATTTCTTTATTCACAGGATAGAATAAGAAACTTGATATATAACTAATTAATAAATGCCGAGAGCCGGATTTGAACCAGCGACAGCTCCGGCTTCAGCGGAGTGTTAGAGTTTTATAATCTCTCCCAGGCTGAGCTACCTCGGCAATAAATAAAATTTAGTATTATAGAATATAATGTTTCTAATAAATTTAGATTTTAATTATTAAAAATGCGGTCGACGGGATTTGAACCCGTGTTCCGGGGTTGGAAACCCCGTGTCCTAGACCAAATTATCCCCTTTTGAAAGGACTGGACGACAACCGCTATATTTCTAAGAGGATATTAGTAGATAAAAAATATTTATAATATTTTCAAAGATTAGCTTTTTCTATTTCATAAATCATTCTAGAACAAACAGTATGTGACTCTAATTTATGATTACTAATAGACAATAGATCATCAACAGAATTAAGAATATTTTGAGAAAATGTTCCGTGTGAAAATCCTCCAATTAATAAAGTAGGATATTTTGAATTAATTATTTTATCATTAATGTGACCAGATGTCATTTGAGTTCCACGTCGAGATAGTGCGGCAACGTAATCAGACTGAATTGAATTAGAAAGTTCAGTAAAAGATGATTTATTTAATTTTATTAATGAACTAGATTTGTTATTAGAAGAATTAGAGAGAATCTTTTCTAATAAACCAAGAAATCTGTGATATGATTTAGGTAAACGCACTCCAAATTCTATATCAAAAACGTAATCAGAAATTGTATGAATATATAGTTTGATCTTTTTGTCTAAATACAAAGGAGTTGATGTTATAGACATAGTACTCATATGTACAATATCAGGTCGTCCTCTTTTATCGACATTATCAAGGTTTTGCATTAAATTTGAATGGAAGCTCTTATCTAAGAAGGGGCTATTGATTTTATTAAATTTATTAGAAAAACTCGTAATTAAGTCGTCAGGAACTAATTCTAAAGCAGATTCAGTTAAGATGATAGTCAGATATTCCACAATATATAAAAAATTTGTATTATTAAATACATTATGGAAATCCCATGAACTTCAAAAAAAAGAAGCAACAAATAGCAGAAAAAAGAATAAATAAACTATTTACAGATACTATAGTATCAATAAAATCTGATTATAATCTTGCAGAGATACAAGCAGGACGAGCAAGGGATTTTTCTAAAAAATTCAATATAAAACTTGGATTTTCACAAAAGATATTTTTTTGTCATAGTTGTAAAAGATTCATTGTGCCTGGATTTAATTCTCGTATAAGGCTGTCAAAAATAAGAAAATCACTAAATATTACATGTCTAGTTTGTGGTTCTACATATAGAAAAATAATAAACAAGAGTCAAACCTATATATGATACAGAATATTGTGAAACTTAATTTGACAAATGTTAATGAAGTGCCTGCAAATGTATTAATAGAAGCATTGGCAAACAAATTAAAAACTGAAGATACAGTAAAACCACCTGAATGGTCTAGTTATGTTAAAACAGGTTCGCACGCGGAAAGACCTCCACAAAATGATGAATGGTGGTATGAAAGATGCGCGTCAATATTACGAAAGGTATATGTACACGGTCCGGTAGGTTTAACAGATCTACAAGAAATGTATGGCGGTAAAAAGAAAATTAAATTTTCAAAGAATCATCAAAGAGATGCAGGTCAATCTGCAATTAGAAAACCATTACAACAATTAGAAGTAACAGGATATGTTAAAAAGAAAAAATCTGAAGGAAGAATTATTACAGGAAAAGGAATGAGTTTAATTGATAAAACTAGTGCAGTAATATTAAAGGAATTATCAGAAAATAATCCGGAATTAAAAAAATACCTATGATAATTCTACAGGTTTATTAAGAAACAAAATTTAATAAATAATTAATTAAGGAGAATATTTTTTGTTAGCAATATTTGATGCAGAAGGAGTTTTAGTTGATGGTGAATTTTTACCAAAATTAGCAAAAATTGTCGGAAAAGAAGATGAAATATGGGATATCACAAAGAGAGGTATAAATGGAGATATAAAATGGGAAACAGGATTAATTGAAAGAATTAATAAATTGAAAGGAATTTCTTATGAAGATTGTATACAAGTGGCGAATAATCTACCTATTATGCATGGGGCAAAAGAAACATTTAATGAATTACGTAGATTAGGGTTCACAACTATAACAGTATCAGGTGGTCCTGATATTTTAATCAACAGAATAAAAAAGGAATTACAAATTGATTACGCAGTTTCAAATTCATTAATTTTTATGGAAGGAAAATTAGATGAAGTAAAAATTAATGTAGGTTCCGATAAAACCATACCAATAGAATCTATATTAAATGAAATAAGTGAACGAAAAGAAAATACAGTATCTACAATAGATGGCGCAAATGATGTAAAATTATTTGATATATCAGGTTTAAAGATTTCTTTTAACGGTACAACGGTAATAAATGAAAAAGCAGATTCGATTGTGAATAAGAAAGATTTGAGAGAAATAATTCCAATAATTAAAAATAAATTTAATCTAGAATAAAGGATTATTGTTTAGCAGTTTCTGCTATAGTAAGATTGTTATTATTAAGCCAATTAAGACCGTTTACAAAAACGTCAGCTAATTCAACAGTAGTAATTACTGGAATTCCCAATTCAACTGCTTTTCGACGTATGAGATATTCATCTTCAAGGATAGAATCCATCTCAATAGATGATTTTATAGCAGGAATATTTATAATTAAATCAAATTCACGTTTAATTAAATAATCTTCAAGATTAGGTTTTCTTTCATATTCTCCGATTTTATATAGCGCAATGGAATCAATATTATTCGAATCAAGAAAATCAGCAGTATGTTCAGTTGCAAATGTTTTAAAGCCAAGGTCTGAAAATTTTTTAATAACAGGTAATAATTTTTTCTTATTTTCAGTACCGCCAATACTCACAAGTAAACTACAATTTTGTCGTGGAATGTTGTAACCTGCAGAAATTATCGCCTTTAGAAATGCATCATAAAAATTTTGACCAAAACAGGCCACCTCACCAGTAGATTGCATCTCTACTCCAAGATTAGGATCAGCGCCATCTAATTGCATAAAGGAAAATTGTGGAACTTTAACACCAACAAAGTGAATATTTCTATAATTATGAAAATTCGAAGAGATCGAGTTACCTAAAATAGCACGTGCTGCCATTTGCATAAGATTTACGCCACTATATTTTGATACAAATGGCATTGAACGAGACGCTCTTAGATTACATTCAATAACTGAAACAGAACCATCTTTGACAATAAATTGCGTATTGAAAGGTCCTTTAATTTGAAGGTGTTTTGCTATTTTATTTGTATAATCAATAATTAATGCTTCTTCACTAGGATTTAGATTTCTTGGAGGAATGGTCATTATTGCATCACCAGAATGAATTCCTGCTTTTTCAATGTGTTCAAGAATAGCGCCAATAAAGACATTACTTCCATCAGATACTGCGTCGACTTCGATTTCCCAAGCATCTTCGATGAATTTACTAACAACAACCGGATAATCAGTGTTAACTTTTGCTGCATCCTCAAGAAATGTTTTGAGATTGTCATCAGTCCAGATTACTCTCATCGCAGCGCCACTTAGAACATAAGAAGGACGAACTAAAAGAGGATATTTCTGTTCGTCGGCAAATTTATACGCGCTATCAAGAGAAGTAAATGTTTGCCAAGAAGGCTGTGAGACTTTTATTTCGTCTAATAATGCGCTGAATTTTTCACGATTTTCTGCTCTATCAATATTTGAACTAGAGGTGCCAAATAGTTTCACATTATAATCATGCAATTGATTGACCAAATTATTGGCAATTTGTCCACCAACACAAGCTACAAGACCGTCGGGTTGTTCTTTATCGTAAATATCTAGAATTCTTTCTAATGTTATTTCTTCGAAATATAGGCTATCGCTCATATCATAATCAGTTGAAACAGTTTCAGGATTACAATTTACAACAATAACATCATATCCACTTTCCTTTAATGCCCAAACCATATTCATAGTAGACCAATCAAATTCAACTGAACTACCAATTCTGTATGTGCCAGCGCCAAGAACAATGAGTTTTTTCTTTTTTGAATATTCCACGTCGTCACGTGAACCATCATAGGTCATGTATAAATAATTGGTTTGAGCAGGCCATTCAGCCGCCAGTGTATCAATTTGTTTAGTTCTAGGAACAATACCATAATTTATTCGTGTTTTTCGAATCTCAGATTCGTCTTTTTTGAGATAAAGTGATAATTGTTTGTCTGAAAAGCCTTTTTTCTTAGCTTCAAGAATGAGAGATTTGTCAAGAGAATCACGGTTTTGTAATAATTTGCGTTCAAAATTTACAACATTATTTATTTTATTAATAAACCATGGATCTATTCCAGATATCCTAGAAACTTCATCAATCAGCATTCCAGAACGTAAAGATTCAACAACATAAAACAGAATTTCGTCACTTGGATGAACTAGATTATCTTCAATTGTTTCTGCACTATAATCAACATTATCATCAGGTCTACAAAGACCTAATTTATCTATATCAACCATGCGAATAGCTTTTTGTAATGCTTCTTCAAAAGATCTTCCAATAGACATAATTTCTCCAACAGATTTCATCTGAGTTCCAATCTTTCGAGATACATATTCGAATTTTTTAAGATCCCAACGAGGCATTTTAACAACTATATAATCAAGAGAAGGTTCAAAACACGCAGTAGTAACTCCGGTAACTTGATTGAAGAGTTCAGGTAGAGTTTTACCTAATGCAACTTTGGCAGCAAGATACGCTAAAGGATAACCAGTAGCTTTTGATGCAAGTGCAGAAGAACGTGATAATCGTGCATTTATTTCAATTACATTATAATCTTCAGAACTAGGATCTAAAGAAAATTGTACATTACATTCTCCAATAATATCACATACGGTTGCAGCTTTAATTGCAAGTTTTCTTAATTTATGATATTCGCGATTAGTTAGTGTTTGTGAAGGAGCTACAACAATATTATCGCCGGTATGAACCTTCATGCCCAAAACATTTTCCATATTACAAACAGTAACACAATTTCCATCAGAGTCGCGCATAATTTCATATTCAATTTGTTTCCAATCTCCAAGATATTCTTCAATTAGAACTTGCTTGGTAAGACTATTAGCGAGACCTTTGATGACTATTTCGTCAAGTTCATATTCGTTATGAGCAACACCACCTCCTTTACCACCTAATGTATAGGCAGCACGAATCATGACAGGATATCCTAGTTCCTGAATTAATTCTTTAGCTTCGTCAAGAGAATATACAGCCCGACTTTTTGGCGTATCTATACCTGATTCAGTCATCTTTTGTTTGAAAAGATCTCTATCTTCAGTCATTTCTATTCCACGAACTTTAGTGCCTAAGACTTTTACATTATATTTTGACAATATTCCTTGTTTAGCAAGTTGAACTCCACAATTTAATGCAGTTTGTCCACCGAAACTCAATAAAATTGCATCTGGACGTTCTTTAGCGATAACTTTTGTTACAAATTCAGGAATAACAGGAACAGAATAAACATTTGGACAGATACGTGAATCAGTTTGAATAGTGGCAATATTTGGATTAACGAGAATAGTTTCTATTCCTTCTTCTCTTAGAGCTTTTATACATTGGCTTCCAGAATAATCGAATTCTCCAGCTTCACCAATCTTGATAGCTCCACTACCAAGAACTAGAACTTTGTTAATCTTAGAATCTATAATTCATCACCAGTCATCATTGCAAAGAATAAATCGAATACGTATGAGGTGTCATAAGGACCCGGAGATGCCTCAGGATGAAATTGGACAGCAATACATTGATTATTCATATGTCTAACTCCTTCTATAGAATTATCATCTAGATTAATGAACCAAGGTTGCAGTTCAGTATTTAATAGCGAATCTGAGTCAACAGCATATCCATGATTTTGACTTGTAACAAAACTCTTGCCACTAGATAAATCTCGACAAGATTTATTTTGGCCACGGTGACCGTATTGTAATTTATATACAGAAGCGCCAAGAGAAAGTGAAATTAATTGATGTCCTAAACATATACCCAAAGTAGGAATAGAAGAATTACAAATTTTTTTAATTGTGTCAAAAGATTCATTGCATCTTCGAGGATCTCCTGGTCCATTACTAATAATTATTCCTTTAGGATTATAGTCCATAATTTGGTCAAAAGTATAATTGTATGGAACTACTACAGCAGAAGAATTTCGTTTTAATACATTTCTAATAATGCCGTTTTTTACACCAAAATCCAATATTATGACTTTATCGTCATAATTTCCATATGTCTTAGGTTTTTTAGTACTGGTATTTTTAAAGAACTCGAAAGTTTCATAAGCTTGTGCTTTACTTAAGACAGAATTTGGGTCAGTCGGAGTTTCACCTTGCTCATAACTAATCAAACCCATCATAACTCCAGATTCTCTGAGCTTCAAAGTTAAACTTCTAGTATCTATGCCAGAAATTCCAGTTATTCCTTCTGAAGTTAACCATTCATCAAATGTCCGAGTGGAACTCCAATGACTAGGATGTTCACAAAGTTCATTGATAATAACGCCATTTGTTTGAATTTTTGATGATTCAAAATGAGCTGGAAGAGAGAACTCATCAAGACGTGAATAATCAGGAACTCCATAATTACCAATCAAAGGATAAGTAAAAGTCAATAATTGGCCTCCATAAGATGGATCAGTTAATGATTCAGTATAACCAACCATCCCAGTATTGAAAACTACTTCTCCAACTACTGTAGAAGATTTACCAAAACCTTTGCCAAAAAATTTAGTGCCGTCCTCTAGCATTAGAACAGCATCATTTTCTACAGAGTTTTTCATTAATAATTAAATTCAAAGCAAGAATATAAAAATTTTAGTGTGTATTAGACGAGAGCTTAAGAAGAATTGGAGTAATAACCGTACTAACCATAATCACACCCATAAGAACGGTAAAAGAATAACTATCAATCATGCCTGTAGAATAACCTATTCCGGCAATAACTACACCCACTTCACCACGAGAGGCCATACCAATACCAATTCTTTGGGCTTGAATTCGATTACGTAGAAATATAAATGCTGGAATGCCACAACCAAAAAATTTACCAAGCATCGCTAATGCAAGAATAAATGTAAATGCAAAAACATCAATACCAAATATTTCTACAAGGTTAATTTGGGCGCCAATATATGCAAAGAAGATTGGCGCAAAAATAATTCGAATGTGATTACTAAATATTTCAATCTGATGTTTAAACTGTGATCCAGCAATAGCCATACCTGCAGCAAATGTTCCAACTATTGGTGATAATCCAACATAGTATGCAATTGCTCCCCAAACCAAAATTATGAAAATTGCCAAAGTTTCAAGTGTTGAAGGAACAGTAGGAAATTTTTCAGAATCGTCGGTTAATTTAAGATCTTTAGTACTTAACGCAACAAAATCAAAAAATTTTGGTAATAAATAAACCGAGCCCAATAACAACAATATCCATAAAGAAATGGTTGATATGGTAGTTATCGCAATACTAGATAATCCAGGAATAGCACCTGTACTTCCAATTGCAAGAACAACACCAAGGACAGTTAAACCTAATACATCATCTACAACTGCGGCATAAACCATAATTTCAGATTCTATGTTCTTTAATATACCAAGGTCTTCTAGGGTTCGAATAGTAATTGCAATACTGGTAGCAGTAAGAGCTGCGCCAATAAGTATAGATTCCATTGATCCAAAACCAACATAAAGACTTCCATAGTAACCCAAGATAAATGGTACAACAACACCAGCAGTTCCTATAACAAATGCAGGTAATCCAGCCTTTCTAAATTGTTTAAACGTAAATTCAAGTCCTGCACTAAATAATATAATCATACCGCCGATTTCAAAGAAAGTCTCCAACACAGAGTTTTCGTTAACAGGTCCACTAAATAGAGGTTCGCCTGCTAACACAATTAAACCGCCTATTGCAAAGGGTCCAAAAACCATACCTGCAATAATTTCTCCAATAACTTCAGGAAGTTCTACACGTTTAAAAATTAAAGCAAAAATTTTGGCGCTGACAATCAATAAACTAATTGCAAGAATTGTTGTTATTGGATTAAAATCAGACACAGTATATCAAATACAATTATATAGACAGATGTATATAATTTTAATAAGTCAATAGTATTTTTTAATTTGTCGGCAAAACGCCCTATTAAATAGTTTTTTTCGCTACATTGTAGTTTTCGTCTTCAATATTTCCATCTACAACAGTAATTATACGAGAAGCTTGTTCAGCGACAACAGGATCATGAGTAATAAGAATTACAGTTTTTCTGGTTTTTTTATTAAGATCGTATAATAAATCTATAATAGATTTAGAAGTTTTAGTATCAAGATTTCCTGTAGGTTCGTCTCCAAGAATAATTGGTGGATCAACAGCTAAAGCACGAGCTATTGCGACACGCTGTTGTTGACCGCCACTAAGTTGATTAGGATTACTTTGCCATCTATCTTCCAATCCTACCATCTTAAGCATCTCGTAAGCACGTTTCTTTCTTTTAGAAGAACTAACACCAAGAATAGATAATGGAAGTTCTACATTTGCTAGTGCTGAAAAACGAGAAATTAAATTAAATGACTGGAAAATAAATCCAATTTTTCTATTTCTCAAATGAGCTAAATTGGTGGAATCAAGACTAGTAATTTCTATATCGTCAATAAAGATTTTACCAGAAGAAGGAGAATCTAATGCGCCAATTAGATTTAATAAGGTAGATTTTCCACTTCCTGAGGGTCCCATAACTGCAATAAATTCTCCTTTTTGAATTTTTATACTCACATTATCAAGTGCTATTGTCTCCAGACTGTCTCCAGTATAGACCTTTCTTAATGACTCTGTTTGCAATATTACTGAAGACAATTTATCCACCTAGAATGGTTGTTTAGAGTTACGACGTCGAAGAATAAAAATTGTCAATAAAACAACAAATGCCCCAACACCAATAATTGCAAATGGTGAAGCTAATAAATCAGCAGGATTTGAAGATTCGTCAAGAATTACTGGTAGTAAATCACTAAGATTCCCTCCTACTTCAAAAGTGAAAGTTTCAACTTCTGAATATTTGTTGCCGTATGTATCTTCGTAAGTAACTACAAGAGTTAAAGATGCAAGTCCATCTTTAGATAAATCGTTAACTCCAAAGTTCAAACTAAAAGGAATCAAGCTATCTTCATCTACTTCTCCAATATATTGTGAACTTTCTGAATTTATTATTATATCATCACTGCTCATAATAGAGATAGTAAGAAATTTAGCATCGTCATTGCCTTGATTTAACAGATTGCCAACTATACTTGAATTTGCTCCAGCAGGAATAACAGACGAATCAAATTCTATAGATTTATAAGTCAAGTCAATTATTCCACGAACAGTAAAACCAACGTTTCGAATTTCTTCATGTGGAAATCCATGTTCGTCAAGATATGATATATGTATTTGTACAACAAATGATGTGTCAGAAGAACTTAATGCTGCAAAAATTTCTGGTTCAAGAAGAAATGATTCACCAGGATTCAACGAAGAATATTCCCATATATCACTACCAGAATTTAGAAATATAGGTAAAGAGGATTGAAGTGAAGGAAATTGAAGTTCAATTTTTATATCGAAAACAGAATCAGTGTCAGTATTTTTAATTTCAATAGAGGGAGTAGTAACACGACCAGATAAAAGAACATTATCAGGTACTGTTATAGCAAATGGTGAAGACCAATCTCTAACAAGTATACCAAATTCTTGTGATTCAGTTTTCTGTATTCCATTAATATCACGGTATTCTAAAATGAAGGAAATTGGATAAAGTCCTTGTTGAGCAGTGGGAGACACATAAGTAGGAAAAGATAATAATAAACTATCGCCAGACAACAATTGATTTATTTTTCTGCTATTATCCTGATCAGATGTAGAAAAGATTCCAGAGGAGGAACCATAAGAAATAGAAACAGTAACGGAGTAAACAGGAGCAGTTCCAAGATTTTCAATTTTTAACAACAAGTCATTTTTTGTTCCACTAGTAAAAATATTTCTGGAAATAGTTGTCTCTATGTTGCTTTTCCCATCAACATTGACGGAAAATGACAAAGTCTCAAATCTTAATATTGAATCCTTATCAAGATAAGAAAATTCAATTTTTAGATTATATGTACCTACTTCAGTATTTTTAGCTACATCAAGAAGAAAATCTGCTGAAGCAGTACCGCCACTAGATACAGTGGCGCCAAAGAAACTAGAGAGAGAAACATCATCACCATTAGAAGAATTAAATGGGTCATTAAGAAGGAGTTTTCCTTGAATTCCACTAATAGAACCATCATCTCGATTTTGTATAACTACATTAAGTTTCACACGATTGTCGCCGGGTTCGACAGAAATTTTTTCTGTTGAACTACCCCAAAAGGTCTCAACTACAACGATTCCACTACTTACTGTCTCACATTGTTGTTTTTCAGAATTCCAAATTTCATTCGCTTCTACATCACATTGTTGAGCTGGCTCATCATCAACACGAAGAGAAATAGTGCGTGTTTCGGAGATTGTTTGACCGAACGTATTTGAGTAAACAAAGTTTCCAATAATTTGATAATTCTGGCCTGCAGAAATTTTTGGTGCGAAAATAGAAGTTGTAATAGATATCTGCGTATCTGGTTTTAGAGATGAAAGTCTCCATATATTGTCTGAGCCTAGTAGATTTAGCGGAGAAGGAATAGTTAAAGACAGGTCTATTGAGCCAGTATTAGCAGTACCCTCATTCATTATAATGAAATTAATATTGTTAGATTCATTAGGAGAAAGAACTTGTGTACTTGAAGTAAGTTTAAGAAAGCTTCTTCCACTTATGTATATATTAATATTTTGATCAATAGACATACCACTTAGTCCAGACGTAGTTTGATAATTAATAATTAATGGTAAAGAAATTGTATCAATAGAAGCTTGTTCGTTGATGTTAACTAGGAAATTAAATACATTAGTGGAACCAGAAGTTATAGTAGTAGTTGATATATCGTACAATGTATCGCCGCCAGTTCGATTAGTGAGTGTGTCAGGCAATGTTAATTCGACGGATAAATTAGTTATATCAAAATCCCCACTATTTCGCAAGATAATCTGTAGATTATTGCCCAAATCGCCAGGTGTAACTTCTATAGGTATAGATTGTGTTCCCCAATCTGAGAATAATATTTCAAATTTAGTAACAAACACACTTAATTCATAATTTCCAAGACCAGAATATTTAGTTCCGGAAAGTTTGATGAAATAATAGCCAGATTTAGAAGGAGTGAATTGAATACTTTCGTCTACGCCGTCGCCTTGTTTAGATGAAGCAAGCTCTATCTTATTCGTATCTGAACTATCTGGATCATATAGATAGAGATCTATATTTGTTCCAGAAGAGATTAAATCTAAGTTAATAGAGAGTGTCTGTCCGGCAATAACATTTACTTTATAATATTCAGAACCAGTTGTCCAAGTACCACTAATTTTCCCAGAATTTATTTCTACAGAATTGGAAATAGATGAGCCTCCTTGTGCATAAGTAACAGGAACAGAAACTAGGAGTTGATTAAAAATTAAGATAATCAGCATAAACAAAATAATAATTGATTTTACAGATATTTTCACGTTAATTAGCACGTTGAGGTGATTAATAAGGCTAATATTCAAATTTTAAATTTAGCAGCAAGAAAGAAACCTAATAAAAAAAATATGAGTGGACCGGAAGGGATTTGAACCCTCGACCTCCCCCATGCCAAGGGGGTATCCTACCAGACTAGACGATTGGCGATATACCAGCCCGTCATAATTAATATGATAACCTGTCCAAGTATAATAGAAAAATGGATGCTTAAGAGTTTTTAAGATTATAATAAATTATTAGAATTAACTTAATTTAGCTTTAAGAAGAGAAGCAAGTTCTTCTAATTCTTTTCGAGTAAATGTTTTTCGAGTTGGCCAAGAACCCCCACCACTATCATTATCAAATCTAGGAATTATGTGAACATGAACATGAAAAATATCCTGACTTGCAGCTTTGCCATTAGATTGACCTATACTTAAGCCATCAGCTTTTACTAATTTCCAAAGATATTTAGAAATCATATTTACCAATTTAAATAATTCTGCAACTTCGTTGTTATCCATATCAGTTAAGAATTCATGATGTTGCTTTGGAATAACTAAAAGATGACCACGATTAAGAGGATATTTATCCATAAATGAAAGAAATTTATCAGTTTCAAACACAATAGCAGCACGTATATTGCCATTAACTATTTCACAAAATATACATTTCTTCATCATAGTTCTTCAGAGTAAACTTTCATAATTAATTAATAATGTCCGATATATTTATATCGTAATTTTAGATTGTTACATTAGAAGAGTGTTTAATATGAAATTCCGTAATAAGTTTTTATCGGTCTCTTACGTAGTATAATCATTGTATAATATATTCAATTCATGAAGTGAATTTTTGTGTTAAAAAATATAACTAAATTAACAGGGGCAGATGCTTTAATCAAAGCATTAGAAAATGAGAAAGTAGATGGAATATTTGGTTTACCAGGTGGTGCAAATCTACCAATATATGATTCGTTATATGATAGTGACATTCGGCATATCTTAGCAAGACATGAACAGAATGCAGCGCATATGGCAGATGGTTATGCTCGTGCATCAAGAAAACCTGGAGTTTGTTTTGCAACATCAGGTCCCGGTGCAACAAATCTAATTACTGGTATTGCAACAGCTTTCGCTGATTCATCACCAATTATTGCAATCACTGGACAAGTAGCATCAAATATGATAGGGAAGGACGCTTTTCAAGAATGTGATACAATAGGTATTGCCACACCAGTAACAAAATACGCTTATCAACCTCTTACATCTGCAGAAGTTCCCCAAGCAGTAAAAAATTCATTTTATATTGCTACTTCAGGTAGACCAGGTCCAGTTCTTATTGATATACCAAAGGACTCACAAACAGAAGAAATGGAAATAAGTTTTCCGACGAAACCAAATATTCGGAAACTAAGTCAACCACCGACTGCAGATCTTAAATTAATCAACAAAGCAGCAGACCTTCTTTTGAATGCAGAAAGACCAATGATAATGACTGGAGGAGGAGTAATAATATCAGGAGCTTTTAAAGAACTACAAGCTGTAGCAGAATTCTTAGTTTCTCCTGTTGTTTCTACATTTAAAGGAAAAGGTGGTTTTTCAGAAACACACTATTTGTCTTTAGGACCGATTGGAATGCACGGACATATTGAAGCAAATAAATTAGTAATTGAAGCAGATGTTTTACTTGCCGCAGGAGCAAGATTTTCAGATAGATCAGTAGGGAAATGGGATGAATTTGGAAATGAAATGAAGATAATTCATGCGGATATAGATCCATCAGAAATTGGAAAAAACAAGAAAGCAGATATTGGTTTAATTGGAGATATAAAAAGTACATTAGTGCTTCTTTTATCAGCAATGGAAAAGAAGTCACAAAAAAGAAGTTCAGATTATGCGTGGATACAAAAAGTCAACGAGATTAAGGATATCTGGAGAAGTAAACCTCTTCCAGCACCTCGTGAAATAACAGGTCCAAAATTACTAAAAAAGATGAGAGAGATTTTACCAACGTCATGCTTGGTAACAACAGAAGTCGGACAACACCAGATGTGGGCATCGTTACACTTTGATGTTGCCGAACCTGGAACATTTTTCACTTCAACTGGATTAGGTACTATGGGATGGGGTTTACCTGCAGCAGTAGGAGCAAAATTTGCAAGACCAGATTTACCAGTTGTTGATATAGCTGGAGATGGAAGTGTACAGATGACTGAATCAGCATTAGCAACTTCAGTTACGGAAAACTTGCCGATTATAACAGTAATCTTTAACAATGGAATGTTAGGAATGGTTGCACAATGGCAAAGATTGTTCTATGAAAGGAAATACATAGGTGTAGAACTTCATGGAATTCCAGATTATGTTAAGATAGCAGAAGCATACGGGGCTCAAGGCATAAGAGCGCAATCAATGAAGGAATTTGAACACGCATTAAAGAATGCGCTAAGCAGTAACGTAGCAACTGTCATAGATGTACCAATCAATCCTGAAGAAGATGTGTTTCCATTTGTCGTTCCAAATACTGCTCTAAAAGACATGGTAATTGCTTAATCAACAAAAAAATTAGCAAAATGCCAAAGTTTTGGTAAAAAAACGAAATGATTTATTATGAATGAGAATAAAAAATTTTAAGATTGCCTCGAAGATCAATTAACAATAATCATACAAGACAAAAATTACGAAAACCGGAGTGGCTTAAAGTTAATTTTAAGCAAGGGAAAAATTATGAGAAGATCAAAAAAGCAGCAAATACATTGAATTTGAATACTGTGTGTCAAGAAGCCAATTGTCCAAATATATACGAATGTTGGGACGTAGGAACCGCTACATTTATGTTATTAGGAGACATTTGTACAAGAGGTTGTAAATTTTGTCATGTTAAATCAGGAAATCCAAAAGGAATTGTTGACATATTTGAACCAGAAAATATAGCCAATGCAGTAAAAGAATTAGAACTAGATTATGTTGTATTGACATCAGTTGATCGTGATGACTTGAATGATGGAGGTGCTTCTCATTTTGCAGATACAATACAACAGATACGTAAAAAGAATAGTAGTACATTAATTGAGGTTTTAATACCTGATTTCTCAGAGAGTGTAAAATCTTTATCAATTGTAACTAATTCAGAACCGACAGTTATTGCACATAATATAGAAACAACAAGAAGCATGACACCTTTTGTAAGAGATGCAAGAGCTTCATATGACAGATCATTAAATGTATTAAAGAACATAAAGAAATTAAATTCGAAAATTTTTACCAAGTCGTCAATAATGCTAGGATTTGATGAAAAATATTCTGAAGTAATAGATACAATGCGAGATTTAAGAAAAGTGAAAGTAGATATTTTAACAATCGGTCAATATCTACAGCCTTCAGATTTTCATATTAATGTTAAACAATTTGTTCATCCAGAAGAATTTACAAAACTAAAAAATATCGCGGATAACATGGGTTTCAGTTATGTTGCGTCAGGTCCTTTAGTTAGAAGTTCATACAAAGCAGGAGAATATTTCGTAAAGAGTATGGTGAAATAAGCAATGTTAATGACATTAAATCAGGCTGTTAAGAGTGCATTAGATAATGAAATGGAAAAGAACAACAAAATAGTACTTTTAGGCGAAGATATTGGAAAGAGTGGAGGTGTCTTTAGAACTACAGAAGGACTTTTCGATAAATTTGGTCCAAAACGAGTAATTGATACACCACTTAATGAATCAGGAATAGTAGGAACTGCAATAGGAATGTCGTTATATGGACTAAAACCTGTTATCGAAATACAATTCATGGATTTTATTTTTCCTGCATTTGATCAGATTGTTTCAGAACTTGCTAAATTTAGATATAGAACAGGAGGTTCTTATACATGCCCAGTAGTAATAAGAGCTCCTTATGGAGGAGGTATAAAAGGCGCATCGTATCATTCGCAAAGTGGAGAAACTCACTTTGTTCATACTGCAGGATTAAAGGTCGTTATACCATCAACTCCATATGAAACTAAAGGGTTGTTAATTTCGTCAATTAGAGATGATGATCCAGTAATATTTTTTGAGTCAAAAAGACTTTACAGAGCATTAAAAGAAGATGTTCCAGAAGAAGCGTATACAATTCCTATTGGTAAAGCAAATATAGTGGAAGAAGGAAGTGATGTAACAATAATTAGTTATGGAGCTATGCTACAAACAGTAAAAGAAGCATTAGAAATAATTAAAAAAGACGGAATTACTGCAGAATTAATTGATTTAAGAACTCTGTCTCCATTAGATTCAGAAACAATGATTAAATCAGTAAAGAAAACAGGACGTGCAGTTATCGTACATGAAGCGCCTAAAACACTGGGTATGGGTGCAGAAATATCTGCTCTAATTAATGAGAATTGTTTAGAATATCTAGAAGCGCCTATACAAAGAGTAACAGGACTAGATACACCATTTCCATATTCGTTAGAAAATGAGTATCTACCTGATGCGAAATTTATTTATAATAAGATAAAACAAACAGTTGAATATTCATAGTGATTTTATATGGTATACAATTTTAAATTAGCAGATATTGGAGAAGGAATAGTTGAAGGAGAAGTAAGTAAATGGTATGTAAAAGTCGGAGATATAATAAAGGAGAATCAGCCACTTGTAGAAATTATAACTGAGAAAGTAACTGTAGAGCTGCCGTCACCAACAAGTGGAACAATAATAAAGACGGGTCCCGATGTGGGAAAAATTATCAAAGTAGGTGAAATAATAGTAGTAATTGATGATGGAAAAGAAGAAGATAAGGTAATCCCAGAAGAAATACAACAACTGGAGGAGAAACAAAAAGAACAATCAATACAAGAAAAACCACATAGGAAAAAAATTATTGCCACTCCTGCTGTAAAACGATTAGCAAAAGAAATGGGAATAGACATAAACAAGGTTAAAGGAACTGAAGAAGACGGAAAGATAACAGAGAAAGATGTAAAGTTATATTCGAAATTAAATGTGGAAAACAATGAACAAAGAATTGCTTTTAGAGGAACAAGAAGATCTATAGCAGAAAGACTATCTAAAGCAGCTAATAGAGTAGTTCAAGCATGGATTATGGAAGAAATTGATATGACTAAAGTGACAGAATTGAAGAATAAATTAAAAGATTCGAATTCAGATGAGATAAAATTAACATATATGCCATTTTTTGTTAAGGCTGCAATAAAATCATTAAAATCAAATCCAAGAATTAATGCGTCATTAGATGAAGAAACAGAAGACATTGTAATAAAAAGAGATTATAACATAGGAATTGCAATAGATACTGAACAAGGATTAATAGTACCAGTAATTAAAAAAGCACAAAACAAGAATATTTCAGACATAGCAAAAGAAATAGAAAAATTATCAATTAATGCGAAGTCAGGTAAACTAGAAGTAGAAGATACACGAGGAGGAACGTTCACAATTACTAACATTGGTGCAATTGGAGGAATATCGTCTATTCCAATTGTGAACCATCCTGAAGTTGCAATATTAGCAATAAATAAAATAATGAAAAAAGTAGTTTTATGGGAAAACAAGATTGTTCCAAGAGATAGAGTATATTTGTCTTTATCATTTGATCATAGAGTGTTAGATGGTGCAGATGTTGCACGATTTTTAAATTCAATTAGAAAATATTTAGAAGAAGAACCAGAGAGTCTTATTGAATAATGAATGACCTTAGTATCATAGATTTAGGATTAATTGAATATAAACGGGCATTAAAGATACAAAAAAGATTAGTAAAAGAAAGAATGAATAATTCAATTGTAGATACATTATTGTTGCTTGAACATCCAGATGTAATAACACTAGGATTGCAAACAAAGACTGAAGATGTTCTGAATCAATCAATACCAATTGTAAAAACAGACAGAGGAGGAAGCGCTACTTATCATGGACCAGGTCAGTTAATTGGCTATATAATAATGGATTTACGGAAAAAGGAAATAACAATCCCGATGCTTATTACAAAGATTCATGAAAGCTTAATCAAAACACTAAATGAATTTAATATTTATGCAGAAAGAAGAAGAGAAAATCCAGGAATATGGATTGGTCAGAAAAAAATTGCTTCAATTGGATTATCTGTAAGAAATTGGATAACATATCATGGATTTAGTCTAAATATTGACACTGATTTAGATAAATTTAAAATGATTAAACCATGTGGTTTTGATAGTCAGATTATGACGTCAATAAATCATAATAATAACAGAATCTTATCATCGAAGTTAATTAAATCAAGTGTAATAAAAAATTTTTCAGAAATTTTTGAATATAATAAGATATTAAGAAATTTGTAATAATATAGATTAGAGATATTGTTTATACATACTAAGACTTTGACTTTTTATTAAGATACCACCACATGAACCAGAAGCCAAGAGATAAAGTTAACACAACAATAGCAATGCTCCAAGATACAAGAGTTTGAAGAAAATAATCAGAACCAACAAAAATCTGTGCTAAAAGTTGCATATTATAAACCTCGAATTAACTAAATTTAAATCTGTTGGCAAAAAAAATCATTCATTAATAAGTACGCCATTAATAATTCCAGATTGTCCAGGTCTAGATAAAACTCTAACTTTTCCAAGTTCAGTTTCTAATATTGCACCTTTAGTAATAACACCGCGTCTTTCATAATCCCGATTAGATGGGTTTTTGATGACACGATTAATAGAAATTTTTCTAACAGTCTTATTGGAAGGATCAGTAACATTTACAAAATTATCATAAACTAATGACACTTTTGTATTTCCTCCTCGTGAATTTTTAATACGCACTGAATGATCGCCTAATAAAGTATCAACAGAAAACGAATCTAATTCATCAGAACGGCGATTTCGAGAGAATTTAATTCTTCCGCCAGTCTGTTTTCGTTTTCGTAGATTTTCTAATGATTTTACCATTTTAATTATATTGTAATTTCATCCTTATATAATTATTTATGATTTATTGGTAGTTTGCATAATAACAGATTTTTTAGGTTTAAGTCCATGCTTAATTAATTGTTGTTTTAAGACAGAGGGGTCATTATCGAGCCCAAAATATTCTGCAAGTCGATTTGTAGTAGTAAAAATTTTAGTTCTTCCAAAAGGTTCTGACTTGATAAAACCTAGCTGTTTAAGCATTCTCACATGTTGATATGAATTAGGGCCACGTCTTTCTGCCAAATCTTTTCCCGAAATAGGTTGAAAATAGACAATGTGAGACAGAGTTTTGAGTTCGGCAGTAGACAATAATGGCCTAGAAGAGAATTTTCTTGCAGATGTAGTAAATTCAGATTTTAATTGAATAACGAATCTATCGCCATCTAATTCAAACATTTGAATTGCTTCAAATGTTGAATTAATTTTAGACATAAGATCTCTAGCAAGACTAGATGATTTATTTGTCGAAGCAATACCTGCAGCTTTTGCTAATTCAAATTTGGATAATGGACGACCTGCGGCATATAATGCAGCTTCAATTTTAGCTTGAAATCTCTTATCCTTAGAAATAGATGTAGATATTTGAAAATTGGTCATGTTAATACACTACGAATAAGAATATCTGACTCTATAGTATCAGGAGATTCAATTTGTTCAAGAGTAACTAAACCATCTACTGCAACAAATAGAAGTAATAAAAATGATTGTGTTTGTTCAATTAATGGTTTATCTTTAATCAATTCTGTAAATAATAATTTATCAGATTCATTTAATTTAGCAGTAAGTTCTTTTTTAAAATCACCAACTAATTCTTCAATTTTGACAACAAATTTATCGAAATCAGGTTCTAAATCAGGTTGTAAAAAAGAAGATTTTTCTTTAGCTTCAATCTCGTGTCTTGAAACATCTTCTAAAATTCTTTCTAGATTTGTAATTAAATCGTCAATTGAAGTAGAATACAATTCATAACGAAATGGTAGAACTATAATACTAGGAGGGCCATTACGTGAAACTCTCGGGCGCTTTACTTTAAGTTTTTCAAAATAAAATAAAGTTTCAACTTTAAATCTATATAGCAAGGCGGACGAAAATGCGGCAGTTCCGCACAAACGTAAATCTGGATTATCTTTTTTAACTATTTGATCAAGAAAAATATCTAATAAATCTGCAATATCAATTTCCCAAGGTTTGCCTTTTCGTGCAGTTTTTGGATTAATTAATAGGTTCAATGGTGCTTTTGATAGCTGATTAGAGTTACTCATCTGACTTTAACTCCTTTGTTCTGACTTTTTGAAGTATTTTTTATAAGATTTTTTTGAATTATTTCTTTTTCTTTATTCATTTCTTTAGGTTGATATTTGAGTATCTTTGTAATACCGCGCTCATGATATACTCCATACATATTATCAACTCGAGATAAAATTGTATCTTTTAGACTAACCATAATTATCTGAGATTTATCAGTTCTACTTCGAATTATTTCGGCCAATTTACTAGAATTAACAGCATCTAAATGAGCGTCAATTTCATCAAAAACATAAAAGGGTGCAGGTTTTACTGCTTGAATAGCTAATATTAAACACAATGCAGCAACAGTTTTCTCGCCACCACTACAGATAACAATATCTCGTTCAACTTTATTTGGAAATTTTGCCATTAAAGTAATGCCTGCAGTAAAAATGTCATCAGGATTATCAAAGTCCAACCATGCATCTCCGTGAAGTATTCGACTTGGAGGACAGTTATCGTGATTACAATAACTACTATCGCTTGTAGTAAGTTTCGCAAAAAGATTACGAAATTCTTGATCAATTATTTTGAATGCGTCAAGAAATGCTGTATGTTTTTCTGAATCAATACTATTGATAAAGTCAACAATTGCGGTTCTTTCTTTTTGAAGCTGATTTTTTCTTTCAGAGAACCCTTTGTATCCTGAGTATATGTCACGATATTGTTCATCTGCCAATAAATTAACTCTAGAACGTAAGTTATTGTATTCTTTATCAAGTTCTGTAACAAGAACGTCGGCGCCAAAGAAATATGATATTGATTCGTTATAACCAAGTTCATTTAAATTATCTCTATAAGATTGTTGAGAATCAATTAGTCTTGAAGTATGACTTTCTATGTTATGACTTTTTGAAGTATTTTTTATAAGATTTTTTTGAATTATTTCTTTTTCTTTATTCAAAGACTTAATCTGCTTATCAAGCTCATCAATTATTAACTTCATTTTTCGGGATTTGTCAGAAAGTAAATTTTCTTGTGATGTAAGTGTATCAACAGTGGTTTTAAGCTCAGGCAATATAGAATTACTATCATCAAGAAATTGGTTTTTATCCTTCAATTCACTTTCTAAATCAGAAATTTGTTTAGTAAGTTGATTTTTTTGCATTTCTAGATTATGTTCAAGATTTGCCTGTTCTCGTGTAAGCGTTGTTTCATTATTTCTTATTGTATCAGATACTGAATTAACGTTATCAGATAACATATTTCGTTCAGTTTCTAAAGATTCAAGGTCTTTTTTTAAAGATTGAAGAGAAGATCGAGAATCAATCTTGTCTTTCTGTGTTTTAATTAAATCATTTATATCTTTGAGTTCCTTTTCCTGTTTTAAGATTATTGTTAAACATTCTGTAAGTTTCTTGTGTAATTCATTTTGATTTGTTTCTATTTTAGAAATAACATCAACATAACGATCTTTCATATTTTTCATATTCTTAAGCTCAGAAATCAGGCGTTCAATAGATAATTTTCTATCATTTTGACCTAATTCTATAGCTTTCACTTCAGAATTCAAACTTGTTATTACAGTCTTACGTTTTTGTATCGAATTTCTTAGATTGGTAACACTAGATTTAATTTGAATTAATGATTTTGAATCAAAGAATAAATTAGCAAGAGGTGAAACACTACCAGTTTCAAAAACAGAGCCTCCTGGTTCGAAAAGATCTCCAGAAATACTAACAGTACGATAGCCTTTTTGTGACCACATATAACCGGTTTTAGCAGATGAAACTAATAGTATATCTCCAAATATGAAATTTAGAATTCCAGTATATTTATCATCTACTTCGAGAAAATCAGCCAAAGAACCTAAAATATCTTTGTTTTTAGGTGCCTTAGTTCTTTCAAAATCGACAACATCAGAGAGAGGAATTAAAGCAACACGACCAAGTTTGTGTTTCTTAATTAACGTAACGATTTGGAGTAAGGTAGTTATTTCATCTACAATAACAGCATTTGACCATCTTTTGGCGGCAGCCTGCAAGGCAACTTTGTATCGATCAGGATAATCAAAGATATCATCAATTCCCCCTAAACAACCACTGATGGAATTTTCTTTTGCAATTGCTTTAATTTTTGATTGGACATTTTGTCTTGATGTTATTTCCTTAGCAGCTTCAACTTTAGATTCATGTTTAAGAACTTGTTCATTAGCTTTAGTAAGAATAGTAATTGCCTTAGATAACTCAGATTCAATTTTTTCACGACGATTTGCTAATTTAGAATTTGAATTAGTCATATTAGAAAGATATTCGTGTTCAGCAGATTGTAATGAATCTAATTCAGATATAGATTTAGAGATAACATTAACTACAACTTGTGTTTCTTTTTGCTTCTTTTCAGCAGCAGAGAGTTTTTCTTGAAGAACAGACTTTTGTGCAATATTCTTAGACAATAATCCACTAATATGATTTTTATCGTCATATGATTGTCTTAGTTGTTTGTTAACAGTGGTTAATAATTTTTCTTCTGCTTGAGTAGAATCAGTAAGAGATTTACGTTTTAAATCACATATTTTCATTTTATCATTTAACTTTTCTAGATCAGTTTTAGAATCTTTGAGCGATGTTGAAATAGTTTGTATATTTTCTTTGGTTTTTAAAACAGTTTGACTATTTTCAGAAAGCATATCTTTTAGATATGGGAGTGATTCACTTATTTTATTAATGTCAGTTCGAAACTCAAGTTCTGTGGTTTTATGTTTTTTTAATTCTTCAGTTTTTTTAGATAATTCAATTTGAACCGATAATAAATCATCACTTGCGCCATCAATTACTTGTGTAAGAGTTGATTGTTTTTCAGTATCTAAAGTGTTAATTTGTTTATTTTTATTATTTAATTCTTCATTTAGTTTTTTATTTTCTTGTGAAACTTGAACTAGTAATTGGTTATTTTCTTCAATTGAATTTTTTACATCATTAAGTTTTTGTGCGATCATTATTGATTTGAGTCTTCCTCTTTCTTTATCTAGATATTGTAATCTTAATTGATCGTTTCTTTCTCCTTCTAAGGAGTCAATATTTTTCTTCACTTCTCCGATTCTAGCCATTGCAATTTCCAATTTCCTATCAGCTCCATCTAATTGTTTTAATGCGTCATCTTTTTTTTCGTCAAATTCAGCAACACCAACAATTTCTTCAATTAAAGCTCTTTTTTCATTGGATTCGAGCTCGGCCAAATGAGTAACCATACCCTGTGGAACGAAGTTTAATCCGTCAGAACTAATTAATGCTAAACGTAATAATTCAGATAGAGTGCCTTTTTGGATTTTCTTGCCATTAAGTAAATATATACTATCTCCACTAGATTGAATTTCTCTAGTCAAAGTAACTCGATCATTATCAATTGAGAGATCGCGACTAGTGTTATCTAGTGTAAGTGTAACCCTTGCACTTGTTGAGGGAGTTCCTCCTGCTCCATCAAAAATTAATCCACTTAATTTAGGGACACGCATCATCCTTGGTTTATTCTCTCCAATAGCGAATAAAATTGCATCAACAATATTACTTTTGCCAGAACCATTAGGACCAGTTATTCCTATAAATTGACCTTCGAAATTTACATTAACAGGTCTAAGACCAAATGACTTAAAACCCCTTGTTTCAACTTTTTTAATATATACCATTTAGATCAATCAAATTGAACACTTCAATGAAGTGAACTAATATTTTCAACAAAGATTTAATATATAAATCCGGATAATGAAATATTATTTACATTTTAGAATAATAAGTTAATTTTTTTGCTTATATGTATAGAATAACAGCAATAAAAAGTATAAAAAAAGTAAAACTAAAGTGGTTTTTTTGTAATTTTTTTAAGATCAGTAAGAAATGCGTTAATATGTGTACGTCGGATATGCGGCATAAGCACAATACGTATATGTGTTGGAAAAACAGAAATTGACCAACCTTGTTTACGAATTTTAGTAACAAAGGTTTTTTGACTGCCAGAATTTAGTTTGAATCCAATAATATTAATAATTGGTTTTGAAATAACAGAGAGGTTAGGAATATTAAGTAATTCATGATACAAATAATTAGTATTCCTCATACATCGATTAGCAATTTTTGTATATCCTTCTTTACCATTATAATTAAGAAGAGCCCATAATGCAATAATCGACGCACCTGGACTAGTTCCTAATAGTATAGTGCGAGGTTCAGAACCACCAGAAAGATAACCTGCATTAAATTTAATATTTTTTAACAAACTACGTTTACGAAATAGAATACAACTTGAAGGAATTGGAGCAATTCCCATTTTATGTGAATCAATGCTAATAGAGGTTACACCAGGTAGTTTGAAATCAAACAATGGTAAATCATATCCGAGTTCTTGGAGAAATGGGATAATAAAACCTCCAAAAGAGGCATCAACATGTAGAAATAGAGAATGACGACGAGCAATATCAGAGAGTAAGTCAATTGGATCAATCAAACCAAGAGGAGTTGTTCCTGCAACACCAATTAACATTATTGTATTCTTATTGATTCGTTTTTCAACCAGATTAGTATCAACCACACCATCAATACAAGGTATTTTAATTAGATTAATGCCAAGAAGATCTGCGGCTTTGTCAAAAGAATGATGAGAATGAGAAGGAATTATAACTTCTGGGGAATTCTTTTGAAAGTGATTTCTAGCTGACCACATTGCCAAAATGTTTGCTTCAGTACCACCAGAAATTACATATCCAGCAGGTTTAGATTTTGATAGTAGATTACCAAGCATATTAATAACTTCTTTTTCAATTAATAATGTGCCTTTTAATAGACCAGGATCTCCAATATTTTTTTCAAGGTATTTAGAATATATTTTTTGAGAAAAAAGATCAGGTTTAGTGCACATTGAACCAATTATTTTACCTGACTCAAAATTATCATCAAGAGGTAGTATAGAAGATAATTTTTGAGAAATTTCTTTTTGACTTCGGCCAGATTGATTCATCACTATCACAAAAATTAAAGTTCAGCCTTTTTAATTTCGCCAAAATATTTTCTTAATTTTTGTAATTCAGATGGTTTAAGCGACCAAGAATGATCAGAAGTTGGAAAATTAACTGATAATATATCTTTTTTATAAGCAATTAGCGCATTCAACGTTTCAGTTTTTAAATCTGCATATTGTTTAACAAATTTTGGTCTAATTGAATCATATAGATTTAGTAAATCGTGCAAGACAAGAATCTGACCATCACAGTATTTACCTGAACCAATTCCAATAGTGGGAATATTTATGGATTCTGTAATTATTTTTGATACTTCTTCTGTAATCATTTCTAAAACTATACAAAAAGCTCCAGCTTGTTCAAGCTCATGTGCATCTTCAATAAGTTTTTTTGCAGAACTATAATTGTTTCCATGAATTTTATAACCATCCCAAGATTGTGCCATTTGGGGTTGTAAACCAATATGTCCCATCACAGGTATACCTACTTTAGTAATTGCACTAACAGTCTTAGCAACATTTCTATCACCTTCAATCTTAATCGCCTGCATTCCTCCTTCTTTGATAAAACGTCCAGCATTACGAATTGCTTCATCTAACGATACATGATATGACATAAATGGCATATCGCCAACAAGAAGTGAATGATTAGAGCCACGTGAAACAGCTTTAGACATCAATAACATTTCTTCCATAGTAACAGGAGAAGTAGTATCATAACCAAACATCACCATAGCACCTGAATCGCCAACAAGAATCACATCAATTTCTGCATTATCAGCTAGTTTGGCAAATGAGTAATCATAAGCTGTAATAGCGGAAATCTTTTGAAAATTCTTCTTCATTTCGGTTAATTTTTTAACATTCAATACGCTGACACCTATATTTTATTACTTGGTAGACAAATCTATTAATCTTTTAGACATGTATTGAAGTACTAAATTAATTTGTTTTTTATTATTAAATTTTTTAACTATTTTTTGAAGATCGGATTGTGAATAATTTTTCAGAGTTCGTGATTGATTAATCATTTCAGGTAGAACTCGAGTAAGATTATCAATGATACTAATATCAGCCATTGTAGATGTACGTGAAAGTGGATTAAGATCAACAGTAATTACAATTTTGCCCATTTTTTTAAGAAGTTCAGTTCTATCACCGTCTTCTAATGGAACAAAAACAACATCAGCTATAAAGATTCCACGTTTATCAATAAATCTTCTATGGCTCTCAAGTCCAGGGATTGTAGTAAGATAATCATCATCGATTCCATAGATGTTCTTAGCACCGTGTTTTTTTAATATTCTAGAAATTTGTAAAACTCTTCTTTTATTCTTATGAAATAAATTAATTTCAATCTTTGAGTTAGTTAATTTAGCAAATTTAATAATATTCTTAGATTCTAATGCAACAGAATTACCATTTACAGAAATAACAGAATTCGACATTAACAATTGTGCAGTTGCAACACGAATTGTTTTAAGTGAGATATCAATGGTTTTTTCACCAATAAGATAATCAAATGCTTCACCACGGCCATGAGCAATCAAACCAAATTGTGAAAGTATTCCAATATCATATGAATCAGAAATAAGTTCTCGAATTTTTAAAGAATTAGCTCTTGGATGGTTTTTTGGAATATTATTATCAATCATATAATATATGCACCAGAATGATTAATTGAAGAGAAGAATATATTGCCGCGCAAATTACTTTTTAAGAACAGATTATAAAATTCATTTATCTCGTTAGTTCTTAATATTGAAAATAATGAATTACCAAAAAGATTCATACTACAAATCATACCAAATCGATCTGCGAATTTCATGAACTTATAGAACTCTAATGGAAAGAAATTAATAAGTAAAGAGAATCTTCGAGATAACTTTAAAAAATTCTCATTAGTTGGTTTGTGAAGCAATTGATTCAAGAATTCATTACCGTTTTTATTAATTAATTTTATAATATTTGAATTATTCAATATAGTAGAAGTAGATAAATTACCAAGTGTAAATGTTGCAATTATTTTTTTTTGTGTAATTGGTATCTGAAACACTTTACCAATTCCGGGAGCGCCAGGTTGAAATCTTATTTGTGCGCCACCATGATAAGTTCCTAAAACAGTACCTAATCCAGTTTTACATTTGATTTCTGCAATATGTGCAATTTGTGCAGCTTGAATGTCATTAAGACCTAGTTTAAGAGCTTCATTAAGTGCATAAGACAAACTAAGAGCAGATGCTCCACTTGAACCATAACCTCGTTGAATTGGAATATCAAGATGATGTTTTATTACAAGCTCGAACTTGTGATTTGAAGTATCAATCATTTGGTTAACAACAGAATTTGAGACTAAAGCATTATGACTGGAAATGCCATTAATATAGATTTTTAATTTAAATTTTGTAGATGGTAATATTTCGACAGTCGTTTTAACACCTTTTTGTAGACAAATTCCTGCGCCAATTGAGCCAGTCAACAATGGATCTTTCTCAATATGTGTTGCAAAGAAACCGGTGATTTGGCCAGGAGAAAATGCGGTAATCAAAGTTTATATTAATTTTATATATCTAATACTAATTAATTCTAACCGATAAATTTAAAATATGATAGATAATTGTTGTAGAAACTGTTAAAACTGATAATAGTTACTTTTCTATATGCAGACATCAAAGCAATATTTGGGTCAACAGAATAAATTCATATTTGTTACAGGAGGAGTTCTTTCCGGAATAGGAAAAGGCATAGTAACTGCATCTGTTGCAAAATTATTAGATTTGTATGGAATTTCTACATCGTGTGTAAAAATAGATCCTTACCTTAATGTTGATGCAGGAACAATGAATCCATTTGCGCATGGTGAAGTATTTGTAACTGATGATGGGGGAGAAACAGATATGGATATTGGTACTTATGAGAGATTTTTAGGAAAAAACTTATCAAAGATTCATAATATAACAACAGGGCAGGTTTACCTAGATGTAATTGAATCAGAGCGAAGAGGAGATTTTTTAGGAGAATGTGTACAAATTATTCCTAATATAACAAATTCCATCAAAGAAAAAATAAAACAGGTTGGTGAATTCCAGAACAACGGAGTAGTATTAGTAGAATGTGGAGGTACTGTAGGAGATATTGAAAGTTTACCTTTTATTGAAGCAATACGACAACTAAGACTAGAGGTTGGGCAAGAGAATTCACTATTTATTCATGTAACGTTAGCACCAATCTTAGGGCCAGTAGGAGAAGAAAAAACGAAGCCGACTCAACATAGTGTTCAAGAATTAAGAAGGATAGGAATACAACCAGATATAATTGTTGTAAGAAGTGAAAAACAGCTATCAATAACATCAAAAAAGAAGATTTCTTTATTTACAAGTGTAGAATTAGAAAGTATTATTTCCAATCCTGATACAGAATCAATTTACAATGTGCCAGAAAATCTATACAATGATGGAATAATCACATCAATTATAGATAAATTAAGATTGCCTACAAGAGAAATGAATTGGAAGAATTGGAAAACAGTTTCGAAGACATTTAGCAAGAATAAAAAGATAGTCAATATAGCAATAGTTGGAAAATATGTATCTTTAACAGACAGTTATGTAAGTGTGAATGAAGCATTATCTCATGCAGCAGCGAAATTGAATTTTATGGTAAAGTTGGAATGGGTAGAAAGTGAGAATTTTGAGAATGATGAGAGTAATTTAAAGAAATTAGACAAATATGACGGAATTATTGTTCCTGGAGGATTTGGAAAAAGAGGAAGTAGTGGTATAATGTTAGCTGCAGATTATGCCAGAAAGAATTCCATCCCATTTCTAGGTCTTTGTTTTGGATTCCAGTTAGCATTAATTGCATTTGCAAAATATGCATGTGGATTAGAAGATGCAAATTCAATAGAATTAGATTCGAGAACTAAGAATCCAATTATCAACATATTACCATCACAAAAGAAAGTTAAAGAAAAAGGAGGAAGTATGAGACTAGGAGGACATGACATAGAAATTCAAAAAAATACACGAGCTTACGAGATTTATGGAAAAGAAAGAATTAGGCAACGTCATAGACACAGATTTGAATTTAATCAAGAATATCAAGAATTATTTGAAAAAAATGACATAGTATTATCAGGTTTCAGTGATAATGGAAAACGAACTGAAATATTAGAAATACCAACTCATCCATTTTATATGGCAACGCAATATCATCCAGAATTTTTAAGTAAACCAGGTGAACCTGAACCAATTTATAATAATTTTATAATAGCTGTAATTAATAAAAAAAATGTAGTGAAGAATTAGGTATTATCAGATTCAAGCAAGACAAATAATTTCCCATAATAACCTAAATTAAATTGGAGTTGATCTCGGAATTGAGAAATGTAGCCTTTTTCAAGTTTGATTTCAGAATTTAATTTTATTTGTTCTATCAAAGATCCCCAAATACTAACAGGAATTGAACCTGAATCATCTTGGACGGTTATTGTAGTAACTTTCTTAGTTTCTCCAGATTTTACTTGAACTTCACGCGATTGACCAATATATGTAACAACTCCTCCAATACTTGCATTTTTTTGTCCGTCTTGAAGATCAGATATTCTCAAAGTGTTTCTCGAACCAATTCTATTAGGTATTTATGAAATATGACATTATCTGAGAGTTCTGGATGAAAGCAAGTTGCAATAATATTACCTTGCTGTACGGCAATAATATCATTGTTTAATTTAGCAAGTATTTTGACATTCGATCCAATACTTCGTATTCGAGGAGCACGGATAAATATGCCCATAAATCTATCTATGTCAAACTTTGGAATTGGGAATTCAGATTGGAAAGATTCGTGTTGTCTTCCAAAAGCATTACGTTCAGTTTCTATTTCAAGTGCTCCCAAGAGTTTCTGTGAAGTATTAGAAGAACTCTGAACAATTTGAGTAGATAAAAAGATTAAACCTGCACAAGTTCCGAGAACAGGCATACCTTGAGTGATTTTCTTTTTCATAACGTCGTGAAAATTACTATTATTAGATAATTTACCGATAGAAGTGCTTTCTCCACCGGGTATTATTAGTCCATTGATAGAGTCAATTTGTTCAGGATATTTTATTATACTAACAATGCCATCCATGGCAATTTCTCGAAAAGCAGATTCAACAGAAGCAACATGTTCTTCAACATCACCCTGCACACCAAGAATACCAATATTGATTTTTTTCATCATATACCACGGTCTTGCATTTTAAAATCAAGATTGTCACCAAGACCAACCATAGATTTTTTTTCATCAATCATTTCTTGTGCTTCTGCAATTACCTCAGCTTTATCATGAAAAGTAGTTGCCAATACAATAGCAGATGCTCTTTCTAAAGGATCAGAAGATTTGTATATTCCTGAGCCAACAAAAACACCGTCACAACCAAGTTTCATCATTAAAGCTGCGTCAGCAGGAGTGGTAATTCCACCAGCTGCAAAGTTTACAATAGGTAATCTGCCAAGACGACCGGTTTCAACAACTAATTCATATGAAGCATTCAATTCTTTCGAAATACGGAATAGCTCTTGATTATCGTGTGTATTATAGAAATAGGTTATTTTTGCAATATCTTGATTCATAGCACGCATATGTCGAACAGCTTCTACAACATTACCAGTTCCAGGTTCACCTTTAGTACGCATCATAGAAGCACCTTCTTCAATTCTTCGTAATGCTTGACCAAGATTCTTTGCTCCGTCTACAAAAGGAGTAGTAAAATCCCATTTCCATATATGAGAAGATTCGTCAGCAGGAGTTAGAACTTCTGATTCATCAATCATATCAACGCCCGAGTTATCTAAAACTATTGCTTCAGAAATATGACCTATTCTACATTTCGCCATTACTGGAATAGATACACTATTCACAACGTCCTTAATTATTTTCAGTCCTGCAGTACGAGCAACACCACCAGATTGTCTCACTTCAATAGGTAATTTATCAAGAACCATAACTGCAACAGCTCCAGCCTCCTCTGCAATTTGAGCTTGATTTACATTAGTAACATCCATAATAACTCCATGTTTGAGCATATGTGCAAAACCACGTTTTAGTAATATTGTGCCAGTCTGAGAATCAAAATTACTAGAAATTTGTTGCGAGAGTAACATATTTTGCTGGCCAACTAATGAAATCATCTTATTCAATATGAATTAGATATAGACAAGTAAAAAGTTTTTTGTTAATAGATTAATGGAAACAAAGATATTTAATTATCGTATAAGGTCATTACCATTTTTCAATTTTTTCCCAAGGTACATCTTTATCTCCGAAATGTCCATATATACAATTTTTAGAATATTCTGTAAAGTTGAAAAGATCAAGCTTACGGATTATATCAAGTGGTGTAAGATCGTTCATATCACAAATTTTACTGGCAATTAATTGATTATCGCCATTAGAGTCAACGTATATAGATGTTGGTTTTTTACCACCAATGGCATAGCTTAATTGAATGTTACACCAATCTGCCCAATTATTTGCTACTACATTCTTTGCCAACCACCTAGCCATATAAGCAGCTGAGCGATCAACCTTTGTAGGATCCTTGCCTGAAAATGCGCCACCCCCATGAGGAGCATATCCGCCATAAGTGTCAACAATAATTTTACGACCAGTCATTCCAGCATCTCCTTGAGGTCCTCCAATAACAAAATTACCAGTTGGATTTATTATAAATTCAGTACGATTATCATCAATAAGATTGTTACATGCATTCATAATTGCAGTTTCTGCATATTTTCTAGCATTCTTATTTTCTCCGTCGGCATGTTGTGTTGAAACCACAACTTTGTCAATGTATACAGGTTTATTGTCTTCGTAAACTATACTAACTTGACTTTTAGAATCAGGGCCAAGTACAAGTGGATTTTTATTTCTAATAGTACGAAGATGGAGTAGAATTTGGTGTGCGTAATGTATTGGTGCAGGCATCATAGAGGGTGTTTCACGGCACGCATAACCAAACATTAATCCTTGATCTCCTGCACCAAAATTATCAGTAGCCAATGCAATATCTGAAGATTGATTATGCAAGCGATTTTCAAAATTCAGATGTTTCCAATGAAATCCTTCTTGTTCATAACCAATTTCACGGACTTTATTTCTAACAATTGATTCAACTTCTTTAGAAGTCAGTTGAAAGTTTTTAGTTTCTCCAAAAACTAGAACATAATTAGTAGTGGTAGCTGTTTCAATACCACATCTTGTAGTTTCATCACCTATAGATAGAGCAGCATCAACCAACGCATCGCTGATTTGATCAGCAACTTTATCTGGATGTCCTTCTGATACTGATTCGGAAGTAAAAGTAAAATTCTTTGTCATTATAACATGACCCTAAATTACAACGAATAAGCCGAAGTATTATTATCAAGAGTTGAAACAAGAGAATTAATTATGAGAATCAAGAAAATCACATCAAAATATCTGGTTTAATGTTAATAAACAAAACATTATTTCCGCGTATAATAACTTTACCAAAATTAGCAGAGAGAGATCCATCAGCAAATTCCTCGGCATCATTAAGAATTACATTCATATAGGCATCTACATTGGTCATTATACCACGGTATTCAATATCATTTTTTAGTCTCACCATAACATTTTTACCAGTAGATTTTTGTAATATATTAAGTGGTTTTTGGATTCTGTTATTGTCTTGTTCGTTAAAGTTGTTACTCATCTAAGTGGAAAACACTCAAACAAAAATAAAAAGCTTGGGATTGTTATAAAGAACGTATTTAAGGAAGATATAAATGAATAATAAATTTAAAAAAATAGATAAGAATAATGAATATAACGAATTTGATGTATTTATGTCAAAGAATGAACAAATAATAAATAATAACAAAATAAACGGATTTGAATTCATTACTAATGGTAAGTTAGATACAAAAATCAAACATGAAACAGGCATAGAAGAATTAGATTCAGTTATATATGGATGCCCAACAGGTACAATAGTAGATTTATATGGATCAAGTTCTTCAGGTAAATCACAAATCCTATTTCAAATAGCAGTAAATATTTCAACGAATAAGAAAAAGACATTATTTATTGATTCGTCGGGAAATTTCCGACCTGAAAGAATCATTCAATTAAGTAAAGCAAAAGGATATGATTCAAAGAAAGTTTTAAACAATATATATACAATTAGATGTAATTCATTAGATTGTCAATTAGGAACAATTTCAAAGATTAAAGAATTTATAAAAAATAACAACACAACCTGTATAATGTTAGATGATTTAACAAGGAATTTTACAGATCATTCATTTGAATTTAGAAATGAAATGCAGGACATATTATCAGAATATATTAGAGAGTTGGCAGACTTAGCTTGGGAAAATAACATTGCAGTGATTGTTACAAATAGTATAAGAGCTAAAATAGATGATACTAAGATTAGGGAAAAGGAAACGTTTGATTTCATAATCAATAAATTAATTCATCTAAAAGTGAGTTTAAAAAGAATGGAAGAAATATGGTTAGCAAGGAATAACGATGGAAAACAATGTATTTTCAATATCACAGAAGATGGAATAGGTAAAGTGTAATGTCAAAAGAGGCAATTAATGAATGTATATACAATATAGTAAACGGGAATTTTATAAAGGCAAAATCAATATTGGCTGAACGTCTTAAAAAATCATCAAACACTAAGATTATTGGATCTGCCATTGCATTAGAGGGAATTATAGCAAAATATTCTGGAAAGAATACAGATATAAAAAACTCAATAGAAGATTTTAAAATAATGAAAAAAGGAATTAATGAAAAGCTATCCGCAGTATGGATTGATGATTTTGAGAAAGGGTTCTTTTCAGTATGGAAAATCTTTGTGAAAACAGCAATAGAGAATTTAGACAACAAAGAAAGTGTTATAGAAAATCCAGCTGAAAAGGAATAAACCAATAAAGCTTCCCAATCCAGTTGTAAAAAGTTTAAGACGTTCGTCTTCTTTGATTTTTGAATAATATAAGTTTCTTACAATAGCTAAAGAAAAAAGATACATGGATATTCCAAAAAATATGCCCATATTAGCAGAAGGATTAAGAGATGTAAAACCAAGTAAGCCTGCAGAGAGTCCAGATCCTATGCCGAATATGACTCTCAGCCAGAAAATAATATTAAAAATAAATGTAGAATCAGGTGTTGTCAATCATCTAATATAGAAATCCAAGAAGATATAAAACTATATAGACAATAATATCTTGGGATTTTAATTGGAATTATCGTCTATTGAAGTATTTAAGATAATTTCTGCATTAAACAAGGAAGTAGGATCAGGAAATCATTATTTAAATAACATTTATCAAGTGATGAATGATTCGTATTTATTAAAATTACATCAGGCAGATCAACCAAAAAAATTTATTATGATAAATCCAAAAATTGGAATATGGTTATCAAGATATGATATTGAGAAGGAACAATCGGTAGGATATGTAACATCATTACGAAGAAATTTGATAAGAGCAAAATTAATAAAATTTGAGCAGCCTGCGGGAGAAAGGATATGCATAATTCATTTCGAAACAAAAAAAGGATTAAGAAAGTTAATTTGTGAATTCTTCAGAGAAGGCAACATAGTAGTAGTCGATGAAAATGAAAAAATCTTATCATGTTTGAATAAATTAAACGTAAGACATAGAGAGATATTTCCGGGTAGTATGTATAAACTACCACCATCAAGAGGAATTAGCTTAGAAAATTTCAAAAAGGAAGATTTAAAAAATATCAATAATAATGAATTAGAAATAGCAAAATGGTTAGGACGCAATTATTCTATATCAAAGAAATATATTGAGGAAATATTAGTAAGAATAAATATTAATAACGACAGACTTTGCACATCGTTATCACAAAGAGAAATAGAATTATTAGAGAAACAAATAGTAGAATTAATTCAAACAATTAAATCAAATAACTTGAACATCTGGATTGCAAAAGAAGATAAGACAATAAGAGACATATCATTGATAGATCTTAGTGCAAGTCAACAAAGAAAATATGAGAAAGCAGAGTCATTAATGAATGAATTAGACAATTACATCACATTAAATTTATCAGAAAACAAGGTAATTAATAAACAAGAAAAATTAAGAAAAAAAGTAATTGAATTAGAAAAATCTATTCAATTACAAAATGAAGCATATAAGAATAATCAAAACATTTCAAAAGATTTACGAGATTTGGCAATAAAATTAAGTAAATCAAGTAATTATAAAGAAATTTTAGATAATAAAAATGTTGAATTTATTAAACGAAGAAATAATATTATTAGGATACCATTAATTGACCCAAAAAGAGATTTAGATGAAGATATAACAGCAATAAAACTTTCTTCAATTTGTTTTGATCAGGCTAAAAAAATTGAAAAGAAGGTAAAATCTATTGAAATTGCGACAAAGAAACTAAGTAAAGACTTGGGGATTATTACAAACAATATTGATAACCAAGAAGAAGAAATCTCACTAAAAATAAAAGAAAATTCTTTATGGTTTGAGAAATTTAGATGGTTTATTTCATCAGAAGGAATACTAGCTATAGGTGGAAGAGATGCACAATCAAATGTAAATATAATAAAAAAATATGCAAAATCAGATGATCTAGTTTTTCATTCAGATATTATAGGGTCGCCATTTTTTATATTAAATAATAATGCAAATGATTCAACAATTAAAGAAGTTGCAATTGCTACAGTAGCCTTCAGTAGAGCTTGGAAAACGCAAACGCATACAAATGTTTATTATGTAAAATCTGAACAAGTAAAAAAAGGAGCTCCAAGTGGCATGTATTTACCAAAGGGAAGTTTTATGATTGAAGGTAAGAAAAATATAATAAAAAAAATTAAACTTGAACTTGCTATTGGTGCTATAAAATATGAAGGTAGATACATGATTATGAGTGGGCCTGTAGAAGCATTAAAGATCAATGCATTAGCAATTGTATTAATTCAACCGGGAAAAAGCAAGTCTTCTGATATTGCAAAAATAGTAAAACAGAAGCTTATTTCCGAATTAAATGATTCTATAGCAAAGATATACAAAGAAAAATCAATTGATGAATATTTACGAATGTTGCCTCCTGGAGAATCAGAAATAGTGGAAAAATAGTCAGGTGATTGATTTAATAATAAATATTATAAACGGAAGAGTTTGGATTAAAGGTCAGCTAGAGAATATTGGGATATCTATAGAGAATGGAAAAATAACAAAAATATTAAAACAAAAAGATCTTCCAGAAGCAGATAAAATTATAGATGCGAATAATAATATCGTGTTTCCTGGGTGTGTTGATGTACATTCACACCTAAGAGATTCAGAATTTAGCTATAAAGAAGACTTTACGTCAGGAACAAGTGCGGCAGTTGCAGGAGGATTTACAACTGTATTAGATATGCCTAATACAAATCCGCCAATAATTAATTCAAAAGAACTATTAAAAAGACAAAATAAAGCAAAGGATAAGATTTTTTGTAATATAGGATTCTATTGTTCGCCAATTAATAAAATGGACATCAAACAGCTAATACGTTCTAATGCAGTTGGATTTAAGATTTTTTTACATAAACCATTTGAAAATCAAGATTTGTCAGAAGACAATCTTATCAACATTATGAATGAAATAAAACAGAATGATGGAATCCTAGCAATACATGCTGAGGATCCAAATTTGTTTGATAATAAGAATAATCATACAGTTGAATCGGAAGTTGAAGCAATTCATAAAATAATTGAGTTAGCAGAAAAAACAAAATGTAAAATACATATTGTACATGTTTCAACAAAAGAAGGAATAGACATTATTAAAAGAAAAAGGAAACAAATAGACATATCATGTGAAGCAACACCTCATCACATGATCCTGAATACAACTAAAATAGAAACGAAGACACATCATTGTGAACCGCCATTAAGGAATACAGAAAACCAGAAAGCAATATTTGAGAATATTATAAATGGAAATATAGATATTATTGGAACGGATCATGCGCCGCATTCGTCAAGAGATAAAGAAGAAGGAAAACCAGGATTTCCAGGGTTAGAAATAACTATGCCACTAATGATTGATTTATTTAACAAAAAAGAAATCACTTTACAAAGGATTTATGAAGTTCTAGTAGAGAATCCAATCAAAAGATTCAAATTAAAAAATATTGGAAAGATTAAGGAAGGTTATAATGCAGATTTGATAATAATTAACGAAAATAAAAAAAATAAGATCAATATAGATAGATTTTTTTCTAAGGCAAAAAATTCACCGTTCGATAAAATGGAAGTAAATGGCGAAATAATGAAAACAATTGTGAATGGGCATTTAGTATTCAATGAAGGAAATATAGTTACCAGTCCAGGAACAGGTAAAATATTACAAAAATCAATTGATTTTATTTAATATTATAATTAACGGTAAAAATGAAACAAAAGAAAATATACTTTCCAATTTTTGGATCGGGAACTGGACATGCAAACAGAACTACATTAGTTGCAAATTCTTTAGAAAATAATTATAAATGTTCTTTTAGTTCGTTTAAAGACGGTTATGAATTTTTAATAGCAAAGGGTTTCGAATGTAAAAGAATTCCAGCATTAGATATATGGTGGAACAAGGATGGAACTGCATCAACAATGAAAACAATAATGAAATCACCCATATTGATGGGGGTTTTTCTACATCATCTTAAAAACGAATTTCAACTAATTTCTAAACAAAAACCTGATCTTGTTTTTAGTGATTCAAGATTATCTCCATTACTGTGTGCAAAACAACTAAAAATTCCATCAATAGTTATTCTCAATCAAATTAAATTGTTAGTAGAAATACGAAATACACGACGAAAAAATTTTGAACGAATAAATGGAGAAATATTGGGACATTTCTGGAAATCTGCTAATGAAATATTAATTCCAGATCTGCCACCTCCACATACAATTTGTATAGAAAATATAAATGGTATAAATTCAATACAAAATAAAATACAATATATTGGGTTTATATCTAAAGAAATAGATAATAGAAAAGTAAAAATTATTAAAAAGAAATTAAATTTAGATAAGAAAAAACATACCATATATGTACAAATAAGTGGTCCTCAACAATCTAGACTCCATATTTACAAAGAAGTACTAAAACAAATGAAACAAATTAAAAAAGATTATAACATAATTATTTCAAAAGGAATTCCAAATGGAAATAATATTCCAAAAAAAATCAATGATACAATCGTATTTGAGTGGTGTTCATGGAAAGAAATGTTTGAAATATCGGATTGTTTGGTAATAAGAGGAGGACACTCAAGCATAGGTGATGCGTTAACATATGGAAAACCATCAATTATAATTCCAATAAAAAATCAAAGTGAACAGATTCAAAATGCAAAGAGAATAGATGAATTAGGATTGGGGATTTATATGAAAGAAGATGAAGATAATTCATTAGTCGATAATATAAATAAAATTATAAATGAAGATAAATTTAATAAAACTGCAAAAAATTATAGAGATTTAACTAAGAAATATAATGGAATACAAATGTGTAAAAATAAGATAATAGAATATACAAAGTAATTATTATTTAGTGGAAAATTTTTTTTCTAGCTTCATGAATTTATCATAATCAACAAGTTGATTAAATTTATCAAAAGTAATTAATTGATTTTCAATACCAAGAGAGGTATTATGTTTCTTTAAATAAGTAAGAGAATCAAATATTGCCTTAGTAGATGCGTAAAGAGAAGTCAAAGGAAACAATATAATCTTAAAACCAATTTTTTGAGCTTTCTTAATAGATATTAAAGGAGTACGGCCACCTTCCAATTGATTTAATAGTAAAGGGAGTTTAACTTGTTTTGCAATAATCTCTAATTCGTCAACTTTATTTGGAGCTTCAATAAACAAAACATCTGCACCAGCTTTCTTATATCGCTTTACTCTTTCAATAGCCATATCTACACCTTCAACTGCTAAACTATCGGTTCTGCCTACAATAACTAGATTAGATTTTTCTTCGTGTCTGCCTTGTACAGCTGCACGAATTTTAGATTCCATATCGTCAATTGAAATAACAGATTTTCCTTTCATATGACCGCATTTTTTTGGCCACAATTGATCTTCAAGAATTATACCAGCAGCACCTGAACGAATATAATCTTTTACTGTTCTCATTGTATTCAGTGTATTTCCATAACCTGTATCTGCATCGGCAATAACAGGAATATCTACAGAATTACATATTGTGGAGACGCGATCCCTCATTTCTGAAAAGCTAACTAAACCTATATCTGGAACACCAAGTAATGATGCTGCAGTTCCATATCCGGTATGAAAAACTACATTAAATCCTACACGTTGAGCAATTTTTGCACTAAGTGAATCATAAATACCAGGGACAAATATTGTATTATTCGTTTGTAAAAGTTTACGAAGGGATTTTGAGTTATCCATAATTCATTAGAGGATTAGTCACTATTATTTGTAACACAAAAACAACCAACTATTTTATAATGCTTGGATAGACTAGTATAAACATGACATTTGATGAGACCGTTTATGAACGGCCAAACATTCCTAATACCAAATGGACACTTAGATTCATGGGAATATCAATTATAGTCTTCATATTGCAAAATATTTTAGGGCCAGGAATTTGGCAATACTTTGCGTTTTTTCCTGCACTTGCAATAAAATGGCCATGGACATTAATTACCTCAGTATTTCTTCATGCTGATTTTAACCATCTGCTTTTCAATATGTTTGCGTTATTTTTCTTTGGAACTTATTTGGAAAGGTTATTAGGAAATAATAGATTCTTAATAATATTTTTGGCGTCTGGAATAGTTGGTAATATAGGATATTTAGTAACAGCGTCAAATGATATGATTCCTGCAATAGGAGCGTCAGGTGCAGCATATGGACTTATGGGAACATTAGCAATTTTAGCGCCATTTATGTCAGTTTATGTTTGGGGATTATTACCAGTTCCAATGATTGTTCTAACATCAATATATGCATTAATTGATATAGCAGGTCTGTCTGCGCCATCAGGAATAGCACACGGAGCTCACATAGCAGGATTAATTGTAGGCATAGCATTTGGATTATATTTAAAACCATATTTTGGATATAGAAAAAATAATAACGTACAGTTATAATTTAATTTTATTATATGAACGATCGCGCCAAACAAATGAAGAATTAGAATTTACTTTAAACACTGAAATAATCAAAACATAAAAAAAGATCACAATAGTAAATGGATATAAAAATACATAAAGTTTAGAATGATAAATATCAGAGAATTCTATAAGATATGATAATTTCATAAAAGAAATTATTAAAATAATATATAGAACGTCAATAAATTCAAAAGAATAGATTCGAAAGAGAAGAAGATAAGGCAATATAAGACCAAGAAAAGCCAACAAAATAGCAGCTAAACCAAAAAAAAGATGCATTTCGATAAAAGATGCAGAGATAACACGCTGCATAGCATTAATATTATTTAGATATCCAATGTTTGAAAAAGTTCGAACAAAATCATTTGCGCGTATTAAACGTAATTTAAAACCAGATTTTTTTATAATTGTTCCAAGTGATTTATCTTCCACAAAAGATTCTTTAACACTTTCGTGTCCGCCAATTTTTTTATATACATCTTTTTTAATTAGAATAAAACCTCCAATTAAATATGAAACAGAGGTGTTTTTTGAATTTAATAATAATGGTGAATACAATATATTAATCATGAAGACAATTATAGGCAAAGTAACTTTCCCCCAGAAATCAGTACAAATTAATTTAGGAAACATAGTTAGAACGTCGAGATTATTTTTTTGCATATAGGAAAGAGAAGCAAACAGAGAATCGTTATGATGTTCTGTATCAGCGTCTATAAATAATAATACATCGCCATTAGATTTTTTATAACCCTCATGACATGCTAAATTTTTTCCAACCCAGCCATCGCTAATATCTTTTGTTAAACGTACAACAGAGAAACGATGGTCGGTTTGACAAAACCTTTGAGCAAGTTCATATGTATTATCGGAAGAACAATCATCAACAACAATAACTTCAAAATTATTATATTTTTGTTGTTGTAAAGATTTTAAACACCGTTCGATATTTAATCGTTCATTTCTTGCAGGGATGATAATAGAAATTTTAGGATTGGAGACGAGTTTTGTTTTGTTAATTAATTGATCTAATTTATAGTAGCTAATAATTCTAAAAACAAGAATAATAAACCAAGAAAATGTAAGAATCGGAATAAGAAACTCTAGAAATGAATGTATCGACAAAAAATATATCATGATTTGTATTTATATATCTAACAAGATTTATTTATAACAAAATATTACTATATACTAGTGGTAATTATGAGTGAAAGTAATGTATCAATATCAGGAATAGCATGCGATATGGTAGGAACTATAACAGAATTTGGTAAAGGAGCCGAAGAATTGTTTGGTTACACAAAAGATGAAGTGATTGGAAAGGGGAATGTTGGAATGTTCCATACGGAAGAAAATGTAAAGAATCTAGTTCCAGTGCTTCTTCAAACAGCTGTAGAAAAGGGTGTTTGGGAAGATGAAGTAGAATTAGTAAGAAAAGACGGTTCACATTTCATTGCAAGACTCAATGTCAAATCATTAAAAAAAGATGGTGTGCCAATTGGTTTCATGGGTACAACACATTTTGTTAAAAATCTTTGAATTAAGATTTTTGGTGATTAATTGAAACTTGAAGTCTGGGCAAAAGAATTAAGAATTCCGTTTCTCAGTCTTCCGATTATTTTTGTTCCATTAGGAGTAATGGTTGCATATTTTGATGTTGCCCATATTAATTTACTTCATGCAGTATTAACTCTAATAGGTGTGTTATGTTTACATGCTAGTGTAAATGTCCTAAATGATTATTTTGATTATAAAAGTGGAATAGATGTTGCAACAACACCGACGCCATTTAGTGGAGGTAGTAGAGTATTACCTGAAAAATTACTGTCGCCAAATAATGTTTTAATTGGTGGAATTATTTTGTTGTTCATAGGATCTTCAATTGGTTTATATTTCCTAAATTATTTTGAATTTAATTCTATCTTATTAGGAATAATTGTAATTTCTATTTTATCAGTAATATTATACTCCCCAGTACTTTCTACTTTAGGGTTAGGGGAATTAACAGTATTTCTTAATTTTGGTCCATTATTATTCTCAGGAATTTATTTTATTCAGAGTGGAGGAAATTGTTCTAACTGTTTTTACGGATTAGAAATTGAAGCTATTATAATTGGTTCAATTGTCGGATTAATGACAACAGGAATACTATATATTAATCAATTTCCAGATACTGAAGCAGATAAATCAAAAGGTAGACGTCACCTCGTTGCTAGATTGGGGAAGAAGAGAGCAGTTAATTTATACAACTATATGATGGGAGCAAGTTATGTTATCATTATAATAAGTGTTATAACACCCTTTGTGATTGGAATAGGAATTCCATTAACATGCATTATAGCATTAGCTACTTTTTCTTTAACACCAAAAGGGAATTTTCGAACCGCATCAAAAATTTTGGGTAAAGAATATGAAAAAATAATGGAATTAATTCCTGCAATGGGAAATACAGTAATGACAACAATACAAACTGGAATACTATTGTTAATAGGATATTTAATTTGGTATTTTCTGTCTATGTACGTCCCTGGCGCAACAACCATTATTCCTGTAAATGCTAGCTAATTATTTAAAAATAACAATAAGAAAGATCATAGCAATAAAAAAGATTATATCAAAGGAATAAATGTTGATGGTTATGAGACAGTTTAAAGTTGTTGCTGAACAAACAAAGGAGTCGTTTGAAGAAGAAATAAATAAACTAGGTGAAGGAGGATGGGAAATAATTCATTATGGGAGTTCAGTAAGTATAGGATCTACACGTTCTAATAAGATGGTATTATTTAGTGCAATATTAGAAAAAGAAAAAACTATTACTAAAAAAAAAGTAAACCAAAAATATAGAGAAAAAAAGACTATTGAAAAGAATAAAATCAATTTCAAGTAAATAATCATTAACTAGACTTCAATTGGTAAATTATCACGATCACTCCAATCAGCAAATGACCGATCGTAAATCTTAACATTGGGATAGTCACACAGCTTCAACGCAACAAAAGTGTGAGAAGCTCGTTCACCAACGTGACAATAACAAATTATTTCTCTATCCTTTGTAATACCATGTTTTTCAAAAATCTGTGTCAAATCATTTGTCTTTTTAAATATATAACCATCATCACCAATTGCCATTTCCCAAGGAAAGTTTTTCGAATTTGGTATCCTTCCAGCTTTAGATCCCGCTACAATAACTCCAGTGAATTCATCATGACTCCTAGTATCAAGCAAGATTAAATTTTTATCGTTAAGTTTTGATAGAATGTAATCATGATCAACCTTGAAATTAATTATAGGTTTAGTTAGAACAAAATCGGTAGGTTCTATTGTTTCAATACTGTTACTAACAGGATAGCCTAATTCCATCCATTTAGAAAAACTAATATCAAGAAACTTAACATTTAATCCATAGTATTTTAAAGACCAAAACAATCTTGTAGCAATTGCTCCACCTCTATCTCCATAAATAACAATGTTTGAATCATCGGTTATACCGCTATTGCATAACAATTCTTCAATTTGTTCTTTTGGAGCAAGATCAAAATAAGAAGAATCTTCATGAAAACTTAATATTTTTTCATATGGAATAAGTCGAGCTCGAGGTAAATGTGCATGATTATATTCACGTGGAGATCTTATATCAAAAGGTATAAGATTCGGATCGTCTAGATTGTCTTTAAGCCATTCAGCCATTAATAAATCAGACAATTATTTTTTCCTCAAATAGAATTTCAAATGATTGTTGTCTTCAATAAGTTCTATTAGTTCGTGACCAGCACGATTGGCCCATGCAGGAATATCTTCTTTAGAAGCAGGATCTGTTGCGAAAATTTCCAAAATTTGACCACTTTCCATTTTTGCAATAAATTGTTTAGTTTTGAGAACAGGAACAGGACAAACAAGTCCTTTAACATCTAATGATTGATCAACTTCCATTTAAAAATCACCAAAAGTAAAATCAGCTATTATGATGTTTAATTTCAATTTTAAAAATACCGTCTTCAGTTTCTTCAGAACTAATAACTTCATGTCCATCTTTTTTAACAGCAGATGGAATGTTAATTGTGGAAGGTAAATGATCAACAAGTACTTCTAATATCTCACCGTCATCTAGTTTTTTTAATTCTTTTATAGTAAATATAACTGGCCAGGGACATACTTGCCCAATAAGATCGAGTTTTTTGTTTTGTTTTTGCATGAAATTAATCTCCTTCAATGTTTAACTGATTTAATAAAATATCTGAAGCTATCATATCATTTACATCTTTCGAAATAGTAACACTTCCACTTCCTTTACCAAGTACTTTTCCAATAATTTGTGGTTCACATCCTCCATAGTTTAAATCATGATAAATATTTTCAATAACATTTGGATTAGCAATCATTGCTACAGCTCCATTCGTTCCTGCAGTAGCATTATCCATAAGAAAATTCTCGGTAGCATATTTAACAAATTCAGGATAATGTAAAGGAAGGTAGTCCAAAGAGATATTGATTTGTGCATTAACAGCATGTTCCTTAAAGATCATTATACCTGGACCAGAAAGATCTCCAGTTGCCAAAATATGTTCATTAACATCAAATGGATTACCGAATTCTGGCAGGTATTTATTAATTATTTCAGCAACTTTTAGATTCGGTTGATTCATTGTATTGATAACTGAATTCTTAGCTTTTTTAACATCGTCTAGAGTGTAACCGGTCTTTTCTAAATCCTGAAGAAAAGTCTCGTCGGCAACACATGATAAGAATACATTAATCGGAGCCAAATCACCAAAGGGACGTGTGACTAGAATTTGCATACCATTATCAAGAAGATTTAATTTAGTAGGAGGTTCTTTTCTTAATGTTCCAAACAACGTAGCGCCAATTAATAATTTACCACGTTGAGGAGATTCTGATGGAAGTAACTCAATATCATATTTATTTGCAAAAGTCTTCATATTATCAGATATATTGTTTTGAATTTCTTCATTCGGTGCATCAACAACTGGTAAAACTTTGAGTTCTTCATAACAGCCTAAAGAAATTAAATCATTAAGAGAGTTAGATATAGCAACATTGGTTTGTTGTTCTGAGGATGGATCCTCAGTTGGATCAATAATTTGAATAGTATCATTATTTGATAAACACCAGCCGTCAGATCTTCCTTCTTCGTATGAAATAAAATCAAATAATGCAAATTCAGCTTCTGGAGAACCTGTAATAATCGAGTGTCCTTTGCCAACAGTAAAATGAACATCAGATTTTGATATTGAGGCGTATAAATTACTCAATAATGTTTGAAATTTTTCTTGTTTTTCTGCATTCTTCTGAAATACCTGTAGTAAAGAGATTGCGCGCTTTGGATTAATTTTTTTTAAATCGTCTATATCAATCTCAGGATTGGAAGGATTATATATCCTGCGAGTTATTGTTGGACCATCGACAGTTAATGGAAAGATGTCAGCGTCTACGCGCTCTCCTAAAGAAATACCCATTTGCTTTAAACTAGGTTTTAAATTATGTAGGCTAGGATATACTACTGTATCAAGATCTACTTTAACAGCACAACCTGCAACCCACTTTAAAGGATCCATACCCATCTCTCTATATCGAGAAACGTTGTCCCAAAATTCTTGTTTTGTACTCATCTATTAACAAACAATCAAAATACCGAAAAATATATAAGTATAACGGCATTATAAAAATATCGGGATTAGAATATGGCAAATACAAACGTAAATAGAAGAGATTTCCTAAAGTATGGAGTTGGAGCAGCTGTTGGCCTAGGAATAGGCGGAGCAGGTTATCTAACATCAAATTCTCAAGTTGGCACATTAACAAGTGAACTTGAACAGGTAAAAGAAAAATTAGAAGGAAGAGGACATTTAGGCTATGTCTTTGGCGCTGAAGGATCAATTGCGACTATAGATCTAGCTCGTGGAAAAGTCTTAGCATCATCAGGACCTACTTGGATTGCAGATGCAGGAAGAGTAGACTGGGCTAACCACTATCCAGATAAAAATGGAAATGTTTGGGGACTTGGAAGAGCTGGTGGAAAAGCTACGGTGTATCAAGTAAATCCGTCAACGAATGAGAAGTTAACAGAAATACCATTAGAAGGAGCGTGGAGATCTGCATTAGCAGAGACTGATGTAGATGGGAAATATGGATATTTTTTGAATCTATTAGTTGCTAAAATTCCAGATGAGCAATTACTGGGGGCAAGAGGTGAAGTTGAAAACATTGCTTCGTCAGATACAATATCTCCTTCAATAATCTATAAAGTTGATCTTCAAAGTGGAAAGATAGTAGGTGAACTAGAAGTTCCAAAGTTTTGTTGTGATGTTGCGATGGCACCTGATGGCAGATTATGGTTAACAAATCAGCTGGAGAGTTTGTTAACAGTAGTAGATACAAATAGTTTCACTGTGGAAGAGCATTTAGCGGAAGAATATTCAGATTGGGGAGGAAGCATGGTAACAATTTCTCCAAACAATGATTTGGCATTCATTGAAGTAAATTCAGGAGCAAATTGGTCAATTATTGATCCAGATATCTTTGCTAATGCGGATGGAGAAGAAATGGTTTGGGATATAAAAGCAAAAGAGATAATAAAAAGATTTCCATTAAAAGATTCGTCTCCAAGAACAAGTGAATTTACTCCTGATGGAAAATACTGTGTAGTTAGAACCAGACCAGCATCAATAGTATATGATGTAGAAAGCTTGACTGAAGTCACGAAGATAGAAATTGAGAATACTGGACATCCAGCATTTAGTCCTGACAGTACTCTTGCGTATATACCAAATCCTGGAGACAGTTCAGTTGATGTATTCGAGGTAGGATCTTTCAAGAAGGTCGATAGTCTAAAACTACCTTATTC
>sequence04
TACCTCATGAACAAGATGACGATCAATGTAAATCAAAGAAGGTTCGTTTTCTCGTTCAACTACAACATGGGAATTCCATATTTTCTCAAATAATGTTTCGGTCATTATTTTCTAAACCTACATGTGCTGCTATGATTTTCTCTGTCATGGTCATCGACATAAATCATCAATGTAGAAATTATCTTATATATATTAGGGATTTGGTAAAGTTGCTTTGGGACTAGCTACTCTCTTCTTTATAAGAATCTTATTAATTCCATCAATCATTGCTTCCGCACTTGCAATTACTATATCTCCATCAGAAGATCTTGCAGTAGCGACATTTCCTTCGTCATCTTCTACTTTTATTACTACTTCACCTAATGCATCAGTTCCTCCTGTTATTGCATCAATTCTGAAATCTTTTAATCTAATATGAGCTAATTTATCACTAATTTTCTGAATTGCTTTAATTGCTGAATCTACAGGACCTACTCCTGTTTCAGATGCAACATGAGTTTCTCCATCCATTGCAATCTTTACTGACGCAGTAGGAGTTGATTTAATTCCAGTCATTACTGATATATCTATTAATTCTAATACTCGTTCTTCTGTTTCTTGTCCTAAAATAGATCGTGCAATAGAATCTAAATCCATGTCAGTCAGTCTTTTTCCTTTATCTCCTAAATCCTTTACACGTGATAATATTTCCTTAATTTGTTTATCAGTTGCGTCATATCCAAGTTCTTCTAGTTGTGCTTTTATGCCATGAGTTCCTGCATGTTTACCTGCTTGTATCCATCGTTTCCTTCCTACTATTTCAGGTTCTAGAGGCTCATATGTAATTGGCATATTGATAATTCCATGTACATGAATACCTGATTCATGCCCAAATGCATTGTCTCCTATTATTGCTTTATTTGGTTGTGGATTAATTCCTGTAAGTCTTGAAACTAGATTTGATGTTTCGTATATGAATTTTGTATTGATGTTTGTTTTTTTCTGATATAGATTGTGTATCGACATTACTACTTCTTCTAATGCTGCATTTCCTGCTCTTTCTCCTAATCCATTAATTGCAACGTGCATTCTTTCTGCACCTGCCAACATGCCTGCAAGAGAATTTGCTGTTGCTAAACCAAAATCATTATGACAATGCATACTAATTGGTTCTTTTATTACTTGTTTGACTTTAGTCACAAGGCTAAACATTGTTGTTGGATTCATTATACCTACTGTGTCTGCTATGTCAATTCTATCTACTCCTACATTACTTACTGCTTTGAACACTTCAATTAAGAAATCAGGATCTGATCTGCACGCATCTTCTGCGGAAAACTCTACAGGAACTCCTCTTTCTTTTACTAATTTTACCATTTCAGAAGCTCTTTCTAATACTTCTTCTCTATTCATTTTTAATTTATATTTCATGTGTATATCAGAAGTTGCTATAAATACGTGAACCAAGTCAACATTGCAATCTAATACCATTTCTACATCTTTTGGTTCTGCTCTAGCTAATCCACATATTTCGGTACTTAATCCTGCTGTTGAAATTTCTTTAACTGCATTTGCTTCTCCTCTTGATGTTATTGGAAATCCTGCTTCAATGGTATCTACTCCAAGTTTATCTAATTGAATAGCTATTTTCATTTTATCTTCTGGTGTTAAACTCACTCCAGGAGTTTGTTCACCATCTCTTAATGTTGTATCAAAAATTTTTATTAAATCTGTATTACTAGCCATTTTTATTCTCCTCTTTCGATGGCTGTTAATCCTGTTCTTGCTATATCTAGTTTTCCATAATCTGATGCTAATTCAACAAAATCAGTAATCTTTTCAGATGTACCAGTTATTTCAACTATTACTGAATTTATTGATTCATCGATTATGGTTCCTATATTTGCTATATCTCTAATTTTTGGTATCATTTTCTGATCTTTAACATGAATCTTAATTAACGCTAATTCTTTTTTAATCATTTTTTTTGCATCGAGAATCCTTACCTCAACAACATCGATTTGTTTATCCATAACTTTTGCTAGTTGATTTATTGAATCTTCTTCAGCGTCTATTACAAATGTCATCCGTGACATCGTATTATCTCTTAATTCACCAACTGAGATACTTCTAATGTTGTAACCTCTCTGTCTAAAGACATTTGCAGTTCGATATAGCACTCCTGGCTTATTTTCAACAATTATAGAAATTAAATATTCATTTTTCATTTTAATACTTGCCAGTTGTTTTTTGAAATAAATTATATATTTTATGAACTTGAGATACCAACACTATTCACCCAAAACGTTAATTTATAAATGGTAAAATTTTAAAGTTTAAGAAGTAGACTTAACAGTAAATCTACACTTAAAGTTGGCAATCTTTTACTAACGTTCACAGGATAACAAAGTTTCAAACTATTAATAAATCTTGCGTATAATAATATTATATGTCAAATTTCGAGAAAATTAATCTTAGTATTAATGATTATGCATTTTATTGGTCCTTACCTGAATTAATTGGTGTTGAAAATGGATATTATGAAGATGAAAATTTAGATATAAAAATTAATAATGTTACTCCCACATTACAAATAAAAAGTAAAAGTCAAATGTATATTGATTTACAAAAAAAGAATTTATCTGATTTTTATCATGCAGCAGAATATGTTTGTTTGTCTCGTGTAATTGAAAGTGATAATTCTAAAATTGTTGGTTATTCTCCCTGGAATAAATTTGCAATTAATGGAAGTTTTGGATTGTATGTAAACTCAAACTCCAATATATTTTTTCCCAAACATCTGAAAGATAGAAAAATAGCTGTTGAAGCGTCTACCGGTTCTTATTATACAACAATTGAAGATCTTGAAAAATATTTTTCAATAGACGATTCAAATTTATTAAAACTTGGTGATCCACACGAAAGATTACTTTCAACATTAAATGATGAAACTTCTGCAGCTAGTTTGATGGGTATATATTGTGAATTGGCAGTGTTTCTTGGTTTAAAAAAACTTATGGAATCAACACGAAGAAAAGGAACCTTGATGATTTCACGTAATGATATTAGTTTAGATACAATTCAATCATTTATTCGTGCAACAAATAAATCAATTAGTTATATTAATAATTACCCTGACAAGATTAGAAATTACTATTTTGATAAGATTCAATTCATTATAAGTAAATTTTCTATAGAACAACAAAATATTATATCTGATAATAAATTTAATATTTTAATTCCTAAATGGGAGCCTTGGCAAGAATATCCTGAAAAAATGTTTGATGAAATTTATTCTTGGATGTCAACAAGAAATTTAATACAATCAGGAATTAAATATGAAGATATAGTTAATTCTTCTATATTTCTTTAGATTTAAAATATGGACAAAGATTGTTCAACATACAGTTATTGCAGTTAGGTTTCTTTGCTTGACAAATCTTTCTGCCATGCAATATTAATAATATTGAAAACCTATTCCAAATATTTTTTGGCAGGATCCTCATTAAGTCGATTTCAACCTTTTCAGGATTATTATTTTCTGTAAGACCTAATCTTTTACTTAATCTTTTAACATGCGTATCGACTGCTATTCCGTCGATTTTATTAAATATTACTGATAATACAATATTTGCAGTTTTTCTTCCCACTCCATCTAAAGTTAATAGATCCTCCATGTTGTCTGGTACTTGAGAATTATATACATTCACAAGACGCCTTGATGTATTCTTAATTCTGTTTGCCTTAATCGAATAATATCCAGTTGATTTTATTATTTTCTTGATACTCCTAATATCTGCACTTGCAAGTTGTTCCGGTTCTGAATATACTTTGAATAATTTTTTTGTAGTTTTATTAACTACTTTATCAGTACATTGAGCTGATAAGATGGTTGCAATTAATAGCTGAAATGGCGAACTATATGCTAGTGATGTATATATTGAAGGATAAGAAGAATCTAGTTTATTATAAATAATTTTTATTTTTTCATTCATTATGATTGTATTCTTAATAAAATTATTAAAGCTAACTTTTATAACGAAGATCGAAATCAAGCGTAAATAAAATTATCATACACCAAATGTAAATATACTAATTATTCCACCTAATATTATGGTTACACGTGCAAAATCACGTCGATCAACCCGACGCAAAGCACCAAAACGCAAAGCACCAAAACGAAAACCCACCAAGAAAAAAGCCGCACCAAAACGCAAAGCACCAAAACGCAAAGCAAAGACACCTAGAAAACCCAAATATTCTCTACTAATTACTCAGAGTCAACGAAATAGTCGTGACTTTAAAGTTGTTGTATTGAAAAATGGAAAAGTAACAGGTGAGCCAAAAAAGATTATAGCATCTAAAATCTCATCAACTACTTCTAACATAATTAAATACGCTCAACGTAAAAGGATTAACTTATCAAAAGCTTGGAATTCAGTCACTTAGATTAATAAAATTAGTAAAAGAAAGTATGAGTTCTTAGTGTTTTCTATAATTTACTTACATATTGCTCCTTCAGATGCAGATGATACCGAATTTGCATATTTAGAAAAGACTCCCCATTTATATCTTGGTTCTTTTCCCTTCCATTTTTTTATTCTTTCTTTAATTTCAGCATCTGTTGTGTCTATATCTAGCTTTCCATTAACTGCATCTATTGTTATTTTATCACCATTTTCTACTATTCCTATTGGTCCACCGACTGCTGCTTCTGGAGAAACATGACCAACCATTAATCCATGTGTAGCTCCTGAGAAACGCCCATCTGTTAATAGACCTACTTTTTCCCCTAATCCTTGTCCATAAAGGGCTGCAGTTACACCTAACATTTCTCTCATTCCAGGACCTCCTTTTGGCCCTTCATATCTAATTACAACTATATCTCCTTCTCCAATTTTATTTTTTGATACATCGACAAATGCTTCTTCTTCTCCATTGTATACTTTTGCATTTCCTGTTATTTGTAAATTCTTTACTCCTGCAGTTTTTATTACAGAACCTTCTGGCGCTAAATTTCCACGCAATATTGTTAATGTTCCTGTTTTACTTATTGGCGATATAACTTCTCTAACTATGTTGTTTGTTTCATTAAAATTGAACTCTTCTAAATTTTCTTTTGTTGTTTTTCCTGTTACTGTAAGAACATCTCCATTCATTAAGCCTGCTTTAAGTAATTTTTTCATTATAACTGGTACTCCTCCTACTTTATCTAAATCCAACATTACATATTTTCCTCCTGGTCTCATATCTGCTATATGAGGAATTTTTTTTCTAATTCTTTCAAAATCATCTAATGTGAGATTTACTCTAGCTTCTCTTGCCATTGCTAATAGATGCAGTACTCCATTTGTTGATCCTCCCATTGCTTGCAATATAATTATTGCATTTTCAAATGCTTCAAATGTTAATATGTCTCTTGGTCGAATATTTGTTTCTAATAGTCTCATTAATGCAGTACCTGTTTTCTTACAAATTTCGTTTCTTGCTTCATCTATTGCTGGTGGTGATGCGCTTCCAGGTAGTGCTATTCCAATTGCTTCACTTATAGACGACATAGTATTTGCTGTATATAATCCTCCACAAGATCCTGCTCCAGGACATGCATTATCTTCAATTTCTTTAAGTTGTTCAAGAGAAATATTTCCTGCTGTGTAACTTCCTACTGCTTCAAAAACATCTTGAATTGTTATGTCTTTTCCATTGATATTTCCAGGCATAATTGTGCCTCCATAAACAAATATTCCTGGTAAATTCAAACGAGCTAGAGCCATTATTGAACCTGGAAGACTTTTATCACATCCTGCAATTGTTACTACTCCATCATATCTATGAGCATGAATCATCAATTCAATTGAATCAGCAATTACTTCTCTACTTACTAACGACGCACGCATTCCTTCGTGACCCATTGCTATTCCATCACTTACTGAAATTGAAATAAATTCTCTTGGCGTACCACCTGAGTTTGAAACTCCCTCTGATGCTTTATGCGCTAATTTATCTAAATGTAGATTACATGGAGTTGCTTCATTCCATGTGCTTGCAACTCCCACTAACGGCTTTCCAAGATCATTATCATCTAGTCCCATAGCTTTCATCATTGCTCTGGCTGGTGCTCTTTCTGGACCTTTTGTTACCTCGTTACTTCGTGTTTTTAATTTTTCCATCATTTAATATTACTGTAAATTATCTTGTATTTTTGCCTTTATTAATAACCTAAATATTACATTGAGTTAATTATAATGATGAAAAAAATTCGCTCGTCTAAATATAAAAAAGAAATTGAAGTTAGTGGACATCTTATTGATTCAATGATTCTTACAAAAATTTTTGATCGTATAATGGATTTACAGGGAGATTTTGAAGTTAAAGAATTTAAAATAGGCAGAGGGAAACATGATTCTAGTTATGTTAAACTTGAGGTTGTTGGAAAGAGTGAAACACATTTATCTAAAATGCTTCAAGAGATATATTCTGCAGGCGGCGTATCAGTTCAATTAAAAAATGTTCAATATCGAATTGTTAAGAAAAATTGTGTAATGCCTAATAATTTCTATTCTACTACTAATAATCCTACATTTGTTTACATGAATAATAAATGGATTAAAGTTCGTAACCAAATGATGGATAAAGCAATTGTTCTAGATCTAAGTAAACAAACTGCAAAATGTACTATGTTAAGGGATATTAGGAAAGGAGATTGTTTGGTTGTTGGAGAAGAAGGAATTAAAATTATACCTCCTGAAAGACCTAGAGAAGGACTTGATTCATTCCAATTTATGAGTAGTCACACCTCTACTGAAAAACCTATTCAATCAATTTCTTCAAAATTAGCTAGAGATTTAGTTACTATTAGAAAAAATCACGGTAAAATTATTGTTGTAGGAGGTCCTGCAATTGTGCATACTGGCGCAGTGTCCGTTCTCTCTGAATTAATTAGATTGGGATTTGTACAAGGAATACTTGCTGGAAATGCCTTACTTATTCATGATGTCGAACATGCATTATTTGGAACGTCACTCGGAATTAATGTTGCTCAAGGTTCTTACGAGCATATGGGACATCGGAATCATATTGCTGCAGTTAACGAATTATTTAGTGCTGGTTCTCTAAAAAAATTAGTGAATTCGGGTAAATTAAAATCTGGAATATTCTATGAATGTGAAAAAAACAATATTCCCTATGTCCTTGCTGGTTCAATTCGTGACGATGGCCCTGCTCCAGAAGTTATAACCGATGTAGTCGCCGCACAGAAAAAATATCAATCAGTTCTTTCTAACGCAGATTTAGTAATTATGCTTTCTACAATGTTGCATTCAATTGCCGTTGGCAATATGATATCTTCTACTGTTAAGGTAATGGTAATTGACATTAACCCTTCCTCTGTTACAAAACTTTTAGATCGAGGTACAGGTCAAGCAATTGGAGTTGTTTCCGATGTCGGTTCATTTCTTCCTATTTTATTAAAGGATATAAAAAAATTATCTAAGAATAAATAGATTAATGTAATGAAATTTTAAATTATTCATTATAAAAATGATTAAAGTTAAATCAGATATTGTAAATAATCCATATTCCTGGCCTATAATTTCACTATCTCTCGCAATTGCAAATATGACATTTGGTTTTGGAATATTTTTTCCATATCTTCCATTGTTTGCTGAATCACTTGGTGCTAGTTTGGGGTTACAAATTGGTTTACTTACAACTGGATTCATGATTGCAAGAACTCTTACTGCTTTGCCATTTGGTTCAATTTCTGATAGTATTGGAAGAAAGAATTCTATTGTTTATGGGTTATTTATGTATGGTATTATTACTTTGTTATTTTATTTTTCACAAGATTGGACTCATGTTTTAATATTACGTACTATTCAAGGTATTACTGCTGGATTAATTTGGCCGGCTTCAAGGGCTATGATCTATGATTTAGTTGGTCCTGGAGCAAGAGGAAGTGCAATTTCTGTTTTGAACATATCTGCAGGAGTGGGTATGGCTCTTGGACCTCTATTTGGCGCATTTTTGATTTTATACTTTCAATCTAATTATTCATTAAATGCCGTTGATAGTTTTCGAATTCCATTTCTATTTGCTGGATCTTTCGGTTTATTTTCATCATTTTTTGCATTTCTAACTTTATCTTCTAGTAGTGTTTCTTATCCAAGAATTCGTTTATTTAAGATGATTGACAATTTGGATTCCAGGTATGTTTATACATTTTATAGTTCACTTTTGATGAATTTCTCACATGGATTTGCTTTTGGAATGTTTAGACCCGTTCTTGTATTATATATTTATCAAATTCTTGGATACTCGCTCCTTGAAACTGCTAGTATATCCGCCATATCTTTCTCTTTAGGTGCTATTTCTAACTCATTAGGACAGCTTGTTGGCGGCCGTCTGGCAGACAATAAAAATCGGAAATTCATTATTTCTATTGCAGTAATATTTGGACAATTGGCAACTTTTTCATTTATTTTTGTAACTAATATTATACAATTGTACCTTGTTGTTATTTTTAGATTTTCAATGATTGGTATGTTTATTCCCTCTTTAGCTTCTTTAGAAGGAGACATAATTCCTTCTAACCAACGTGGACAATTATCCGGTTTGGTAGAGGGTTTTAGAGGTCTTGGTTCTGCTACTGGACCATTGATATGTTTAGCATTTTATGATTATGTCTGGTATGGCTCACCATTTGTTATATCCCCTTTACTTTTTATTATTTGTTTATTCTTGTATTTTGTTAATTTCAAAGAACCACTACAAAAAGCAAAGGTTTAATTTTATTAAAATACGTTAAATGAGATTATTGGACAAAAAAAAATTCGAAGATTCGTTTGTTAAAATCTCTGGACTTATTGGCGGCGATGATTATGTTAAAGTTGCTAGATCACTATTGAGTAATGAAAATACTACTGATGAAGAAATTACAGAACAAACTGGATTAAAAATTAATAGTGTAAGAAAAGCATTGTATGATTTATTTGGCAGATCTTTGATTACTGGAATTCGAGTTCGTGACGTAAAAAGAGGTTGGTTTGTATACAGATGGAAAGCACAACGTGATCAAGTTGAACCATTTGTTGAAGCACAAAAACATAAAGCTATACGAAGACTATCTGATCGACTTGACTTTGAATCAAACAATGAATTCTATCATTGTGGAAATCCTACCTGTATTAAGTATAGTTTTACCAATGCAATGGAAGTTGATTTTAAATGCCAAGTTTGTAGCCAATTATTAAGACTTTTCGATAATTCACGATTAAAAGACGCATTGGTTTGGAAGATAGATCAAATTAAAACTGAAGGAACTGAACAATAATTTATTTAATTAATTTGCCTTTTGAATATACTTATAGGCATCAATTACGTCCTTCTTTTTGTAATTATTTAGCGAGGTGGGGAAGCCAGGTTCATCCCGGCGGGCTCATAACCCGCAGATCGGTGACTGTTTTTGCATTGACAAATACAGCCGAATGTTCAAATCCACTCCTCGCTATCTTTTTATGATTTTTGAGATATATTCACTTTTTACATTTAAGATTATATTTGCTAATACAATAAATAAAATTCCTATTATTTCTAATCCTTGAGGAATTTCATTTAATAAGATCATTGCATATAATATTGCACTAGCAGGTTCTATATATGATATTGTAGATGCTTTTTGCGCACTAATTTTAACAAGTCCATCAATATATAGAAATTCTGCCAATGCAGTATGAATAAATCCTAACATTAGAAGTAGAATAATATTGTTCATTAAAATTTCTTGTTTTATTAATAGTTCTGGCGATAGTATTATTGCGGATATTATAATTTGTATTCCTACTATTGTTAAGCTTGAATAATGTTTACTTAGTATTTTTGTAGAGATTATTACAAACGCAAATAATATTCCAGATATAACACCAAATCCTAATCCTGTATTACTTAGTTCATTGCCTATTCCTTGATTGTAAATTAATAATATTCCTAATACTGATAAAATTAAACAAATATTTTCTTTTTTTTCTCGGACTTCTTTAAGCAGTAATGGTGCTAGAATTGCTACATATACTGGTCCTGTATATAGTAATATTACTGTGTTTGCAATTGATGTAAGTTTAAATGCTGAAAAATGCGCAGTCCATGCTAATGTTATTGCAATTCCTGATAACATTAATAGTTTATAATTTCCTTCTTTTATCTTCTTTAACGAATATTTTTGTTTTCGTAATAAAAAAATCATAATTGGCATTGCTATAATTGATCTATACGCAACTATTGCTACTGGTTCCATATCAATTGATTTTACAATTATTCCTAGCGTTCCCCAAATTAAAGCCGCAATTGTTATTTCAATTATTCCAAATCTTTTGGAATTAAAATTTATGTTTATTTTTTTATTCAAATATTTTGAACCATGTTCCCTTTGGACTTTTGTTGATTGTACCAGAAATATAATTCTCATTTCCATACCTTTCTATTGGTTTTGTTAGGTGACGTTGCGCTGAAGGTATTGGCAAATATAATATATTTTTTATATCTCGATTAGTTTTTACAACTCTAATTTTTTGTGACTGTAGACCACACTTTATACACTTGTATCCTTTTTTATATCCGATTGATTTCATTGATTTTTTACATTTCTTACACAAAGGATTATGTATGATTTTTTTTTGAACTAGGTTGTTGATTTTAATATATTCTACATTTAATATTCTTTCATAATCTTTTGATTTTTTACTAATACCTCCTCCCATTTCTATTTCATCACCTTTTTCAAGATTTCTTGCAATTTTTTTTAATGTAACAGTTGGCGCATATACTGCACAATTTATTGATTTGTTATTAGACAATACTTGCAAGAATACATGCCCTCCTGTTATTACCCTTGGTTTCATAGACACTATTCCATTTATATAGCCTGATTCGAACGTTTTTATTTTTATTAAATTTAGTTTACTTTTTAGATGTTCATTTGTTCCTTGGTTTGTTCTAAATATTATAAATCGCTCCACTGTTTCATATAGTTCTAATTTTGACATAGCGTTGTATAGACCAATTGGATTATTTCCTCTTAATGCAAATAGAATTGGATCTTTTCCATGTGGAGTTATTAACATTCTATAATTATTATAATCAACATTGTTGAATGTTGAATATTTTTTGTTTTTATCAATTTTTATCAGCGATTCAAGACTGACTCCTCTTTGTCCATTGTTTTTTTTTCTATAACCTATTAATTCATATGTATGATCTTTCATTAGTGTATTTCCTATTCCTGCTAAAGCTCCAATTAATCCTCTTTTTGTTCCCTGACCAAAGTACGTAATATCATTTAGTTCAATTATTTTTTTCATTTCTTTCATTTTTATTTCTCGATTTAGACACTTGTCCGAAAACTTTTTTATTTTATTTGGGATTTTTTTTGCACTTAACATCACTAAACCTGAATCTGCTTTGTTTTTTCTACTTTCAGAATGTATTATCATTGTTTTTTTCGCAATATTGAATATTTTCTCTGGATTATCTGTTTTGAATCTTAGACATAATGACGCATTACCTCGTGTTTTCCATGGAATATTGGGATTTAATCTGATTAAATTTGGATAATCTATTAATTTGATATTTTCTTTCATTAATTTTTCTAAAATTAATGTAATCAGATATGTAGTACACATTCCTTCATTGGAATCAGTATCATCTATTCCTAGGTGTAATGTCTTCAAAATATATCAGATTATTGTTCTATTATCGGCATTGTTTCTGTTGTTGAGACGTGATTATTTTGTCTAATTTTTTTTAATGCATTATTTAATTTTTTTAGGTTTGTGGCTTTGACTATACTAACTATGTCGTAAAATCCATATAAAATATAAACTTCTTTTACGCCTTCTATTTTCTTTATCTCATCATGACAGATTTTTTCTTTCCCTATTTCTGTATTAATTAGTACATATGCCAATGACATTTTAAATAATTATTAATAGTGGCTATTTTATAAAACAATTTACTTTTGATCTAAATTTTCAGTATTTGTTTGTAAAGCCGAAATAATTTCATCCATTCTTTTTGATACGTTATTCTCATTATTTGTTAATTTCTTCTCCATTTCTTGAATATTTATTCTATTTAATCTGCGTTGTTCATAAAGTTGTAATATTTGAAATATGTCTCTATCTAATAATTGTTCATTTCTTGTAATTGAATTAAATAATTCTTTTTGTAATGGTTGTAAATCAATTATGTCTTTTCTTAGTACTGAAAGTTCTCCTGCAGTTCGTGTTCTTATTGAGTTGATTTCATTTTTCACGTTACTGATTTGCATAATATTAATATTATTTTTATCCCATTTTTTTACACCAATTAATATATTTCTTATTAATGAAATCTTTTCACTGTAATGACCAGTTAATTCTCTCATTTTTGTTATTATTTCGTCTTCAGATACTTCCTTTCGTTTCTCAATTTGAGTCATCATCCCAACTAATGATATTAGGAATATTATTGTGCCTACTGGAAATGATATATTACTTGCCCATGCAAATCCTGGTCTATAGCTTAAGGTAATATTGTTACCATATAATTGATCATTTCCTTTTAATTCAAATTCCATTGATGAATCTGTTAATATGTTATATGTATCTGATTGAATTATTCTAATTCTGTAGTCTTTTGCTATAGTTTTGAATGTAGAAGAAGTTGGAATCTCTGCAACAATTGAATTTAAATTCGTATTAATTAGGTTCTCGTCTAGTTTATATTCATAACTTATGACTGCAGTCATATTCTCACCTAAAATGTTTCTTGTTAATTGTTTAATTTCTAATCTATTTATTGGTGTATCCTGTAACACAATTGTTTTCCTCGCTGCTATTGCTGGCTCCCTACTTGGTGTTGATGTTATATTTCTAATTATTGGCACATTGAATTCATCTCTTTCTGGACCAATGAGGTTTAATCCTAGTTTATGTAATTCTATTCCTTTACCTCCTGCATTTGTTATTTCTATAGTTTCTCTAATCATAACTTCGCCTTTCGAAGAGATATATATTTCTCTTAGAAAACTATTTACTTCGCCTATAGTGAATGATTTAGTTCCTTCATTTATTAATAGAAATATATCTTCTGAGAAATTATCGATTCTTGTAATATTGTCAAAACCTTGTTCTGCAATTTCAAAATACATTTGTTGACTTCTGTCTGCAGTTGTTGATATGTTGTAGAATGGTATTGAATTTGGTACTACTATGTCCATATCTTGTCTGTCAATATGTAAGTTTGATGTTGGAATTATTGGTAATAAGACCTTATACATTCCTTCTCTTTCTGTAACTCCTATTACAATATCTTTAAGCACTAACTCCACTTCAATTCCTACATCCTCTCCTGATTGTATTATAAAATTTTCATCTGTTTGTAATATGATTAATGTATTGTTATAATCCCTTGAAATTGTTAATTTATGATTAAATGGCGAAATAACATTGTATGCATCTATTTCTCTATAGTATTCTGTTGGCAAATGGAATATAATATCCTGTTTAATTGTTTGATCGACTGTTCCAAAATTATCTAGTGTCAACCTATAATTGATTACAACTACTCCTAATTCCGTAATCTCAATATTATTTTCTAACCGCGTTGAAACTGAAATATCATCGAGTGAAATTGTTTCATTCTGTGAATGCACTAATGGCATTACTGAAAATATGAATAATGATAAAATTATTATTGTGGCTACTTTCAACTTATAAAAATTCATAAGTCTCTTGAGATTTATGTTTTTTCTTTGTTTTATAAAAAAAATGCTATCTTACGCTCATCCGGTCAATTTTATTTCATAATTTGTATAATTTAATAATTCTTAACAGATATACGTATTTTTACCCTATTCTATTCAATGAATGAGGGGAAAAATCAAGATAATATTTTAGCAATAGGAGTTGGTAATTCTGGATGTAAAATTCTTTCTGCTTTAGAACAAAAATCCGACCTTTATAATTTTGCGTATATTAGTTCTAATTCACATGATTTTCCACAATCATCTAATGGCATGTTTGTTAGAATAAATTTGAAATTAGGAGGCAATATTTCTCCACGTATGATTCGTTCATTTTCTCAAAATCAACTCGTTGAAATCTCTACAAATATAAAAGATGCTGATTGTGTTATTCTTACATGTGACCCCGGTGAAAATATTAGTTCTGCGTTAACTCCTGTTATTTTAAAGATGTGTTCTGATCAAAATATAAAATGTTTGTCTGTTATTTCTATGCCATACGAACATGAAAAACACAGACATTTTAATGCTGGAGTTACTTTAACAAAAATTAAACAATATTCAAATCACACTATTATAATTGATAATGATGAAGTCCTAGAGTCACTTCCAAGGATACCAATATCTAAGGCTTTTGATTTAATATATTCAAAAATTGCATTATTACTCTCTTCTTTATTTTACGAAAATTCTGATGGCCTCGCATCGATATTTGAAATTACTGATAATGACAAATATTCTATTTTGAGTTTTGGTGAATCATTAGATGATAATAATACTGAGCTTGCAATCAAAAATGCATTAAACATGTTATCTAATACAACAAATCCTTCTTCTATATCTCGTGTTTTCTTATTTATTAATGGTAATACTAATCTTTCTACTACTGATGTTATATCTTCAATTAATATGATTAAAGGCCAAGTTAGTAATGATGCACCACAAATCTCTCATAGTTATAGTATTTCAAATGGCTCTAATACTACAGCTATCCTCATTTCTTCTGGTTTAACAAAAACAAAATTTGACGATTATGATCCCATATCTCGTATACTTAACAATAACAATATCGATACTGACATTGAATATTATATAGACGAAGAACTTGAAATACCCATCCTACCTGACTAATATTATTTTTCTTCTTTTTCATTAATTTCTGTATCTTCAGTTATTGTTTCTGTTTCTTGCTTAATTTCTGTATCTTTAGACTTTGGTAATTCTTTTACACCAGCATATTCTATTTCTGGTTTTATATCAATAATCTCATTATTTTCATTAACTGATTTCGTTTCCTCTTTTCTTGTAGATTTTAGTGTTTCTACAGTTACAAGTCCTTCTTTGTCTTTTACAATTCTTACTTTTATTTTTCTTGGTGGATTTCTAATCCCCTTGTCCCATATTAGTTCATTAATTTCCTCTGATATCTTAACTTGTTCTGATTTTCCATGTTTTACTGCAAAATCTTTCAAAATTTTTACTGCCCGTTTACTTCGTCTTTGTTTTGGATATATCCACGCTCTTCCTAATGGAACATTATAAGTTCTATCAAATTCTTCTGGCATTATTTGACCTCTAATTTAGTTCTTCTCCAATTTCTGCGTTTTGGATTAGTTGTTACACCTCTTTTAGTTTTAACAACCACCCATGTAGGCACAGGATTATTTTGCCTTCTCTTTTTCATTAATCTCTTTTTTATTCCTGATGTTAATTTTGACATTATGCCCACTTTATTTTGAATTCTTTTTGAGGTTTTTGAACTGATGCTAAAAGTTCTTTAATTTGTTTATCTGAAACAGAACTTTGAATCTTTCCTGACGACGCTAACTGAATTATTTGATCTTCGATTAATTGAGCTGTATCCGGTTTGACTATTTTAATATTTGCCAATCTTTCTCTTGCTTCAGTTGTCAACAGCACTTTAAGTATTTGCTCTCTTACTATTTTTTGTTTTTGTTGAGGATCTGACGCAGATCTTTCATCGTTGTTTTCTATTTCAGCCATTTTTTAACACTTATATTCAAATTGATTGTCTTTTAAATATTTATTCATTAATTTCATTTGCCGATAATTCTTTTTCAATCTGTTTTGTCATTAGGTTTATTTTATCTAAAGATTCTCTATATATATTCTCAAATTCAATAAATAAGCTCTGAATCTCTGCTGCTATTGCATTTATTTTCTCTTCATTTTTTACATTTTTCATGTCAAATAGACATTTTATTTTTAGCTATTTAAATAATAAACTCATTACTTTTTATTTACTAAATATATACAATATTATTGTTATGAATCTCGATATAGCGTCAAGTAAAGGCAGTGAACTGGAAGGAAAGAAAATTCTCTTATGTATTACAGGTAGTGTTTCTGCAATGGAATCTCCACGTATTGCTCGCGAATTAATTAAACATGGTTCTGATGTTATTCCTGTTCTTAGTTATTCTGCATCTAAATTGATTGGCGCACAGTTGATGCATTGGGCTACTGGAAACGATGTTATTACAAAATTAACTGGTAAAATGGAACATGTTGAACTTGCAAATGGCAATGTAGATGGTGTTGATTTAATATTAATCGCTCCTTGTACATCTAATACAATGAGTAAACTTGCTCAGGGTATTTCTGACAATCCAATTACTACAATTTGTAATGTTGCTCTTGGTGCAAATGTTCCAATAGTTATTGCAACTGGAATGCACGAACCAATGTATTTTAATCCTATTTTTCAAGACAATAAATCAAAATTACAAAAATACGGTGTTACTTTTGTTGAACCCTTATTAGAAAATAATAAGGCAAAAATGGCCGATTTTAATTCTATATTTCAATTTATTTTAAATAAATTATATCCTCAAGATTTGAAAAATAAAAATATTCTTATTTCTGCTGGTCCAACTATCGAACATATAGATCCAATTCGAATAATAAAAAATAATTCTTCTGGAAAAACTGGTTTGTCTCTTGCTAATGAAGCTAAAAAACGTGGAGCAAATGTTACTCTAATTTATGGAGATGGAAGTGAGTTCCCTCCTACTTCAATAAGAACTATTCGCGTTTCTACTTCTCAACAATTATTGGATACAACAATCAATGAGCTCTCTAATAGTAAATATGATTTTTATATTGCATCTGCAGCTCCCTCTGATTTTCGTGTTATTTCTCCATCACATGATAAAATTTCATCACGTCAACATCATTCTTTGAATATAGAATTGGAAGCATATCCTAAAATTATTAATTCTGTGAAAAATATTTCTAGCAATACAAAACTAATTGCATTTAAAGCATTATTTACTTCTGATTCAAAGATGGTTGAACAATCTGTTTCAGAATTATTTGAAGACTCCGACGCTGATTTTGTTGTAGTTAATGATGTTTCAAGAAAAGATTGTGGTTTTGCTTCCGATTATAATGAGGTCACAATCTTTAATCGTAATAAAAATCCCACTAAATTGCCTTATAATACAAAGAAAAATATTTCAAAACTACTTATAGATTACTTGGTTGCAAATTCTAATTTTGATTAGATTTATGCCATATTGGTTTGATAGATCTTAAGACTGGTGTCGCTACAATAGCAGAACCTAAAGCAATTAATATTCTTTCAATTGGATATACAAAGAAAATTGTTTTCCAAATTCCAGGAAATGCATCTGGGTTGATTGATTGTAGATATATTCCAAGTGTTGTAACAAATACGATGCCTCCTATGATATGTTGGAATAATGTTCCAATAATCGCTAATATAAACAATCCTAATATTGTTCTATTTGAGTTGTTTTCAATCCATTGTAATGCAGTTTTTGTTATAGGCGAAATTAATATGAATACTGCGATAATATGCATCCAATTATATGGAACTATTAATTGTTCATTTATTGGAATAAATGTTTCAGTATAAGGCAATAATGTAAAAATAGTTAATCCTAGTATAAACATAACTAAAGCAATCATCGTCTTTTTTTGTACAATTAGCCCAATGAATAATGCTCCAAGTGTAGCTGGTAAAAAATCCCATCCAAGAAAAATAAACGGCTTTCCAAAAACAAATCCTATAAATGTCCCAAGAAATATTGCCGATGCCGAAATATATGGACCAAACATAATTGCATAAATCGGTACTAAAACATCAGACATACCAAAACTTGCTCCAGGTGCACCTATAACAGGAAATGAAGGTATCACTCTCATTATGGCATATATTACTGCAAATGATGCAACGACAGCAACTTGTTTACTACGTGTATTGGCATTCGTAATTATTGACATTACTAAACATATTCTTTTGTATTTTTTTAACTTTTGGTATTATAGACTATTGCTATTATTTTCCACAATATGTCTTCCATTGATACTAAGCAATAATCTGATAAATTACTACCATCACCTTTTGTTTCAAACATAATTTTACCATCATTTGTGTGGACGTTTTCTACTCTGTGAATTATTCTCTCTCCTGTATATCTTTCACATAATGGATTTGCTTTTTCTTTGAAAATAATTATATCGCCCTTTTCTATATCGCTTAATTTGGGCTCATATACTATTACAACATCTTTACAGTCAAATGTTGGTCTCATACTTTTTGTACATTCTGTTATTTCTGCTAACGTGACTATATCTGAATTAAAAAATAATGGCGCATCATCGAATATTGAAGATATCCGTATTCTTTCTCTATCTGAAAGCATTTTTGTTAATTCTGCAATTCTTAGATTTGTTTTGATAAATCTTTCACTATTTTCTTCCTTTAATCTCGAAATCTCATTTTCTAATGACGTAATTTTTTCATTTGCTAAGTTTAATTTTGATTGCGTGTCTGAGTTTCTAGTATTTAATCCAATTAATTCGGACATTGAACCAATTATTATTCCTAAAGTGAAGAATATGACTATAATAATTGTTTGATTTTTATTCATTTTCTATATATTAATAATTACTTAGTAACAAATAAATCTCCTAAAATTATATCTTTTTTATGGATTCAAATATAGGTAAAGAATCAAGAATTTCGAATTTATTCAATTCATATGAAAATGCATTCATTGTTGCTTTTGATCATGGAATTCTAATGGGTCCAATAAATGGGATTAAAGATATAGAACATTCTGTTTCAAGAGTTGTATCTGGTCATCCTGATGCTATACAAGTAACTCCTCCTATTGCTAAAATATTATCGGAAAATTTTCTTGGAAGAAATAATCCTTCATTGATAGCAAGACTTGACACTTCAAACTTCTGGCGATCCTCTCCTCTTCCAAAAACTGGTTATTATACTGATTTATTTTCTGTAAAGGACGCAGTAAGACTAAATGCAGATGCAGTTGTAGCATATTTGTTACTTGGATTTCAAAATGACCACGATGAAGCATGTAATCTGAAAATTCTCAGTAAAATTGTTCATGAAGCACATGATTATGGCATGCCTCTTATAATTGAACCACTGGGTCTAGCAAAGGGCTATGGTGAAGAGACATCTTATTCAGCAGTTCGCGATAAAAATATAATATCTCTTGCAGTAAGAATGGCTACTGAGATCGGTGCTGATCTTCTAAAAGTTGATTATACTGGAGATAATAACTCTTTTAGTGAAATTTTAGATTCTACAACTTGTCCTGTTCTAATTCGTGGCGGTCCCAAAACAAAAACATTAGCTGATTCTCTTCAGATGGTATATGATTCACTCGAACTAGGTGCAAAAGGGATTATTTTTGGACGTAATATATGGCAATCTAATAATCCAACAAAGACTACTCAAGTTTACTCCGATTTCGTTCATAAAATTATAAGTCTTGAAGACGCATCGAAGCAATTGGAATGATTGATTATGCCGAATTCTGAAATTAGTTCTTTACCTGTAGACGAGCGATATTTTAATGATTCATCTTCTAACTATCATGCTGTAAGAAATTCTGCACTAGATGATTCTGATAAATTCTGGGCAAATATTGCCAAGGAATTGTCCTGGTTTAGTGAATGGGACGAAATTCTTGATTGGAAACCACCGTTTGCAAAATGGTTTACAGGAGGTAAAATAAACGCATCATTTAATTGCCTGGATCGTTACATGAACTCTGAACAAAAGAATAAAATTGCCTATATCTGGGAAGGTGAAAATGGCGATAAAAGAACACTCACCTATTCACAGCTCTTCGAAGAAGTTAATCACTTCGCTAGTGCGTTACTCAATTTAGGCATAAAAAAAGGTGATAAGATAGCATTTTACATGCCTATGGTCCCTGAATTTCCTGTTGCTATACTTGCTGCTACAAGAATAGGTGCCACGTTTACAGTCGTTTTCTCAGGATTTAGTGCTTTAGCACTTGCCGATCGAATCAATGATTCACAGGCAAAGTTGATTATTACTTCTGATGGTGGTTTTCGACGTGGTAAAGTATTGAAACTTAAAGAGATTGTTGATGATGCACTAACAAAAACTTCTACTGTGAAAAATGTTATTGTTCTGAAAAGAGTTAATATTGAAATTAATATGACTGAAAATCGAGATATCTGGTGGGACGAAGCAATAAAGAATACTAGTGATTTTGTTGAACCTGAACAACTTGAATCCGATCATCCGTTGTATATTCTTTATACTTCTGGTACAACTGGGAAACCCAAAGGTGTGTTACATGGGACTGGAGGGTATTTGACTTATGTATACGCAACTACAAAGTGGGTTTTTGATATTAAGAAAGACGATATTTATTGGTGTCCTGCAGACATTGGATGGGTTACTGGACATAGTTATTTCATTTTTGGCCCACTACTTCATGGTGCTACATCAATTATGTATGAAGGAGCTCCAGATTACCCAAATCCAGAAAGATTATGGGAAATGATTGATCGATATAATGTCACAATATTTTATTTTACTCCAACAGGAATCCGAGCATTGATGAAACATGGAAACGAATTGCCACAAAAACACGATTTGAGTAGCCTTAAACTACTTGGTACTGTTGGCGAACCAATTAATCCTGCAGCTTGGAAATGGTATTATGAAATAATTGGAAATAAGAAATGTCCTATAGTAGATACTTGGTGGCAAACTGAGACAGGTGGCATAATGTTATCTGCTTCTCCAAATCTCGGTCTTGTTTCACTTAAACCTGGGTCTGCAACTTTTCCTCTTCCTGGAATTGACGCTGATGTAGTTGACGAAAATGGAAATTCTCTTAAACTCGGCGAAAAGGGATTTATTGTTATCAGACGTCCTTGGCCTGGAATGTTCTTAACCTTATACAATGATCCTGAACGCTACAAACAAGTGTACTGGGAAAAATTCTCAGGGTGCTACTATCCAGGTGATTATGCTGTAAGAGATAATGATGGATATTTCTGGTTACTTGGACGTGCAGATGAGGTTCTTAATGTTGCTGGACATAGGTTAGGTACTATAGAAATCGAAGATGCATTAGTAGAACATCCTACAGTTGTTGAAGCTGCAGTTGCTGGAAAGCCTGACGAAATCAAGGGTGAATCTATTGTTGTATTTGTAATACTAAAAAAAGGCAATCAACCCTCAGAAGAACTTCGTACTGAATTATTTAATCATGTAAGAAAAGTTCTTGGTCCAGTTGCTACTCCTGAAGAGATTCATTTTGTTAATATGGTGCCAAAGACGCGTAGTGGAAAAATCATGCGACGTGTAGTTAAAGCAGTTGCATCTGGAACTGACATTGGCGATGTATCTACATTGGAAGATGGAGCGTCTGTAGAAGAAATAAAACGAACCATTGACGAATTTCGTCAATCAGTACAGAGTTGATTATGTATGACTAAGTTTATGGATGATGCTGTCGAAATAATGCGAAAAGGCGGTACCCTGCTTAGCGAAAAATGCCCTCGATGTGGTGGCGTACAAGTGAAGTATAAAGGTAGAGTACTTTGTATCGCAGAAGATGATTTATCAGAAAATCTTCAAGTTACCACAATTTCTAATGATGCTACTCTATCAAATCTTCGTAATATAGTAATTGAAAAGATTGATCTCATTAGTAGTTCATTGAGTAGGGAAAATGATGTATCTAAGCAGGCAATATTGGTCGATCTACTTCAAAAGTACGTTACATTGTTAAAAGACTGTGAAAATCCAAATAAAATAGCTAAAAATTCCGATAAAAAAACAAATTAATACTGCGATTCATTTTTATTTAGTGCCTCGGCTCTGCCTCGGTTCATCTGCGAGATAGCTCAGCATGGCTAGAGCGTTTCCTTGGTATGGAACAAAAAGGAAAAGGTCCCGGGTTCAAATCCCGGCCGAGGCTCTAATTTTGCCACCAAGATTGATAGTGCGTTGTGGCCTTCGATTCAATCTCAAAAACTCCTTTAAATGTAACCAATGATTTACCTCCATCTAATAAATTCTCATATTATGTAAATTATCAAAAAATTGCAGTTTTTCATGCTGATTATTCATCAGCATGTCAATTTTATTCGTTTTGTCTGCAATCTGACCTATAACTCATAGGTTCAGTCGGTTTTGTAAGACCATTTCATATATTTTTCTCACCTTTGTCATTTTGACGGTGTTATACGAACATTTTATTTGGCTTGATACAATTATTAAAACCTTTACATAATCATAACAATGAAATTCTAGTTTTAATTATTAGATGATGTTGTTTGTTAATATTCCACAATTAATTATTGATAGTATTCTAACTGGAAGTGTATTAGCATTAGGTGCTATAGGACTCACTCTTGTATATCGCGTCATGAAATTTCCTAATTTTGTACATGCAGAATTCATGACTTTTGGAGCTTATTCTGCTTACGCTGTTAATCAATATCTCCATCTTGGTCTCTTAGCTGGCAGTGTTTCGTCATTCATCGCTTCTGGATTTCTTGCCGTTATTTCTTATCGTTTTGTGTTCTCGAAATTACAAAATGTTAGTTCTGCTGGCACGACGACTAAATTGACTTCGATGTTGATAGCTTCAATCGGTCTAAGCTTTATCTTTAGACATTCGATCCAAGAAGTCTGGGGAGCTAATGTGCTTTATTTTGATATAGAAGCTCCTGCAATATACGAATACATTACTGCAAGATTCACTGCTTTCGATCTAATAATTATCTCATCATCTGTTTTACTTGTTCTCTTTTTGCATCTTTTCCTCACTTATACAAATCTTGGAAAATCAATCCGTGCGACTGCAGATAATCCTAATCTCTCATTAATCAGTGGGATAGATACTGATAGAGTCATATACACTGTCTGGTTTATTAGTGGAGGCACTGCTGGATTCGCCGGTTTCTTGCGTGGAATAGACACTCGTCTCTCTCCCTGGTTAGGTTGGAATATACTATTGATTGCTTTTGCAGTAGTGATTCTTGGTGGTATTGGAAGCTTCTACGGAGCCATTGTTGCAGCTTATCTGCTCGGTTTTGTAGAAAATATTGGCGTTGTTACACTGATTAATCTAGATCTGCCTACCAGTTATCGACCTGCCATTGCATTTTCTATATTGATTATAATGTTAATCTTTAGACCTCAAGGACTTTTCAGTACGTCTAGTACAAGGAAAGGCGGTTAGATGCTTAATTTTATACTCGATGCTCTGATATACGCTGGTATTTTCGGTATTCTGGCAATCAGCCTAAACCTTGAAGCAGGGTTTACTCGTTTAATGAATTATGGTAAGGTAGCTTTCTTCGGTGTTGGTGCGTATACTTCTGCATTATTGGCATTGAATGGGTACAATTTTATTGTTGCCTTGGTTGCGGCGGTTATTGTGTCAGGTTTCGCAGGTTTCTTAATCTCCCTTCCTACTCTTAGACTTCGCGAAGATTATTTCGCTATAGTTACTGTCTCATTTGGCGAAATTCTTAGGTTGTTCTTTGTAAGTGAAGCATGGCTCACTAACGGAACACGTGGATTACCTGGTATACCAAGGCCACTGGCAGATGTCATATCTTCAAACAATTATCTTCTCTTCTATACTCCCGTTGTTTTCTTCTTTCTGGCTTTAAGTTATTTAATTGCAACACGAATCGTCAACTCTCCGTTTGGTCGAGTTCTGAAATCAATACGAGAAGATGAACTTGCAGCAACATCACTCGGCAAAGATATCTTTGCATTTAAAACACAATCTTTGATTATCGGTTCCTCGATGGCAGGAATTGCAGGCAGCCTCTTTTCTTACCATCTTCGTTTTATATCTCCTGATATGTTCTTTCCAGTACTGACATTTTCTATTTGGACAATGATGATAATTGGTGGAATTGCAAACATGAAAGGCACAATCTTAGGGGCATTATTAATACAAACTTTCGAACGTGGAATGGCTATTATAAAAGACTATTTGTTTCTTCCAATAGACCCTCTCAATTTTAGAATTATTGTTATCGGTTTTATTCTTGTTTTGTTTATGATGTACAAACCTGAAGGGCTTATTCCAGAAGAAAAGAATCAATCAATTTCAAATCCGTTGGCGGATAAATATGGGAATCCTGAAAATAGATAACATCGCCAAATCATTTGGAGGAATTGTTGCATTAGACGGTGTAAATTTCTCTATCGAAAAAAAATCAATTTCTGGATTAGTGGGACCTAATGGTTCTGGTAAAACTACTCTGTTTAATGTTATTACCGGATTCATTCCAGTAGATTTTGGTTCTATCTATTTCAATGATATTGATATTACTAACCTCTCTCCTGATAAAATTGCAAACAATGGAATGATTCGTTCTTTCCAAATACCAAGACCATTCTCTAAAATGACAGTAATTGATAATGTACTATTAAGCGGGAGACAACAGCTTGGAGAAAATATTCTTCCTTTGCTACTACATAAAAAGGAGGTCATCAAACAAGAAGAAGAAAACTATCAACGAGCTACAGAAATTCTAAATCTTCTTGATCTGTCGCATCTAACAAATGAATATTCTGCTAGCTTATCTGGCGGTCAGAAAAAACTACTTGAATTGGCACGAATATTGATGGCCGATCCTGAAATTATACTCTTGGACGAACCAGTTGCAGGAGTTAATCCCACTCTTGCTAATAAAATCTTTGAAAAGATTATTGAATTGCGCGATAAATATGAAAAAACCTTCTTGATTGTAGAACATAACATTGACGTAGTTAGGGACTATTGTGATTATGTAGGAGTTATGAATCGTGGTAAAATAATTGCTGATGGTGATCCTGTAAAAGTTTTCGAAGATAAAAAAGTATTGAACATATACTTGGGGCTTGACGATTAGTTTTGTTTGAAGTATCAAAATTACATTCTGGATATGACGACACAATAATAATTGAAGATATTTGTCTTGATGTTCGACGTGAAGAAATTGTTACCATAATAGGTCCTAATGGTTCTGGTAAAAGTACATTGTTAAAAAGTATATTTGGACTTGTAAAACCAAAACAAGGTCAAATTAAATTCCTAAATGAAGAAATAACCAACTTGAAGCCATTCAAAATATTTGAAAAAGGAATATCTTACGTTCCACAAGTTGAAAATATATTCTCTAATCTCACAATTTCTGAAAATCTAGATATTGGTTTCTATACATCTAAAATCAAATCTCCACAAGACGAATTAGATAAAATTTTCACTATTTTTCCTCAACTGAAAGATAAGAAATCTATAAGATCTGGAAATCTTAGTGGTGGCGAACGTCAAATGTTGGCAATTGCCCGAGCGTTGATTGGCAATCCAAAGTTATTGTTACTTGATGAACCTACAGCTAGTCTTGCTCCTACTTTAGTTTCTGAAATCATGGAGAAATTAGTTCAAATCAGAGAATCTGGAACTTCAATTCTACTTGTTGAACAAAATGCAAAAAAATCTCTAGCTATTTCTAATAGATGCTATGTGTTGGTTATGGGGAAAAATTTCTTTGATGGTAAAGCTTCAGAAGTTGTTGATAATAAAGAACTTGGACGTATGTTCCTCGGTAATAAATAAAAAAAAAGAGGGGTTTATCGATTTAGTCTAGCTTTACGCCAGCTGGATCCCAAGATCCTATATCGACAAACGCTCCGCCTGAAATTTTCCAGAGACTATAGGTTCCACCTACATCTCCATTACTATCGAATGTTTTGTCGCCTGATGCGCCTACATAGCCGTTCGCTACGCTAATTAACGCACTTCTGATAGATTCTCCTGATGCATCTGCTCCTGCTTCATCAATTGCCATTAAGGCTAATTTAGCAGCATCGTATGCTTCTGCAGAATATAATCCTGCTTCAAGTCCATATTGTTCTAATAGAGCTTCGAAAGCTGCGGCTCCAGGTGAATCAGGTGATGCTGGTTTTGTACCAATCATTCCTTGTGTTGCTTCTGCAACACCTGGTGCTTCAAATATAGCAGGATCTGCTATACCATCGCCTCCCATCCATTGCGCTGTAATTCCTAGTTCTGCTGCTTCTCTGAATATTATTTGTCCATCGTCTGCATATGAGATATCAAGTATTAGATCTGGATTTGTTCCTTGAATCTGAGATAGTTCTGTACGATACGTTGCCATCTCTAGTTCATATGGAACTTTAATTGTTATACTTCCGCCCTTTGCCTTGAATGATTCTTCGAATACATCAGCTAATCCTTGTCCATATTGATTATTTACAAAGATTATTGCTGCTGTTCTATGACCTTGTGCCCATGCTAAGTCTGCCATTGCAACACCTTGTAATGCATCACTAGGTGCAGTACGGAAAATGAAATCTCCTGCATTTGATACTTCTGGTGATGTAGATGCTGGCGAGATCATGATGACTTTGCCATCTTCTGCTATTGGTGCTGCTGCTAGTGTTGATGAACTAGCATAGACTCCTACAATTGCTTTTACTTGATCAACTTCGACAAGTTTCTTTGCTGCTGCTGCTGACGCAGCTGGATCTGTCGCTGAATCTTCTTCTATCAGTTGTACGGTACAGCCATCTATTCCGCCTTGATCATTAGCTTCGTTTACAGCAGCTTGAACTCCTGCTTGGAAGCCATCAGCATATGCTGCCAATGGACCGCTAGTTGGTAATATGTGTCCTAGTTTTACGACACAATCTCCACCACTGCCCATTGTTGAATATAATCCAACGGCAATGACTGCCACGACAATTAGTCCGAGAATAATATAGTTTTGTGGAATACTACTTCCCGAGTTATTTGACATGCAATATTGAATGTTATTATTAAATATAAAATGTATATATTGTGTTTTTTTGACGCCTAATTTTCTATATTTGTGCCTTTTTTCTAATATATTATTTATTTATTAGGGACAGAAATTTTTTTAGTATGTGCCGGGGCAATAGCCGGGGTTTGATTACTCGAAAGCTCAGCCTGGTTAGAGCGCCAGCCTCTATAAAAAGGGCGTTACTCATAATCTGGAGGTCGTGGGTTCGAAATTTTTACGAAAGACCCACTCCCGGCATCATTAATTTATTTCAATAGTTCTAATCCAAAGAATCCTGTATATGCATATAATAAATTTAATGTAATTTTTCCTAGTATTGCTGCAATTAATGCAGGTACTTTTGGATATCCCATTATACCAAGTGGTATCCAAAGTAAATCGTCTGGAGTTAATGGCGTTGCTGCAAAAATAAAAATTATTCCTACTCCATATTTTTTAATTCTTTCTTCCCAATACCCTTTCTTTTTCTGTCGATTATAGAATTGCGGTATTTTATATTTACTTAATGAGATTTTTTTCAATTCAAATAATTTTCTTCCACCTACTCCGATATAATAATGAAGGTACTGACCTACTCCTGCTCCTAATCCAGCTATTATTCCTACAAAAAGAGGATTGAGTTGAGAACCGATAATTGGAATTGTTATGAATGATGGGAATACAGAAAAAAATAATGTACTTGATCCAAGAAATCCAGCTAGTAAAGCACCTAGATATCCTAATTCAGATAAATTTTCTATGAAAATTGCAAATACATCCATTTTGTTATAATTTAATATTTAATATCATTAGTTATATTTGTTCTATAACTTATTGTTCTTATTCATTTGAATTTTTTTAATTATTCTTACTTTACTTGCCATGTTGTTGTCTAATTTTTCGACAATTAATAATAATCCATTACTTTCTATTTTATCTCCTTGTTTTGGCATGTCTTTTAATAAATTGTGTAATATTCCGTTTATGTTTGATGCCCCTTCTATTCCTGTGAATTCAATTTTAAAGAATTTTTCAACTTCTTCAATATCTGTTTCTCCATTGGCAATTATTGTGTAATTGTTTATTTTTCTTATTGTTCCAAATACCTTATCACTTTCATCTAATATTTCTCCTACAATCTCTTCTACTAAATCTTCTAATGTCAATAGTCCTTCTACTCCTCCAAATTCATCTAATACTATTGCCATGTGTTCTCTTTTTGATTGTAATTCCCTAAGTAATTTTCCGACTATTTCTCTTTGTGAAACAAATATAGGACTTTTCAGTACGTGAGATATGTTTTTTTCTCCTTTTCCTTTTTGCTGTGCCACAAGAAGTTGTTTTAAATGTACTATTCCAGTGACATTATCTTTGGATTTTTCAATTACTGGCGCCCTAGTATGACCACTTTCAATCATTTTTTTTATTGATTGATCAATATTCATCTTTGATTCTAAGACAAAAATATTTTTTCGTGGAATCATTACTTCTCTTGCTGTTGTTTCACCTGATTTTAAAACGCCTTTCATGTATTGTTTTTCATGTTTTTCAATAATTTTTTCTTGTTCACCGACATCGAGTATTATTTTTATTTCTTCTTCCGTTGTAGTAGGAGTTACATTATTGTCATCATATCTAGTTATGAAATCTGATAATTTCATTAATGGAATTGTTAATGGGGCTAATAATATTGTGATTATTTCAATTGGCCTAGATATAATTAATGCAAATTTTTCATTATTGCTTGTCGCATATGATTTTGGTATAATCTCTCCAAAAATTAATATTGTTAAGGTCATAATTCCAGTTGCAATTCCTAATCCGACAGATCCAAATGTTTCAATAGCAATCATTGTTGCTATTGCTGCTGCACTAATGTTTACTAGATTATTCAATATTAATATCGTTATGATTAATTTTTTTGGTTCTTTTTTTAATCTCATTAATGCTTTTGAACCCTTTTTATTTTGTTTAAATAATGTTTTTACTTTAATTTTGTTTAATGATACTAATGCTGTTTCACTTCCTGATGAAATGGCTGATAGAATAATTAAAATTATTAAGATTGTTAAATTAATTGGTTCCAACAAAATTTTGTTACATTAATTAATTGTTTTACTTTAATATATGATTTTACTACAAACTTATTATCTAACAATTGTTTTGTCTATATTATGATTGAAGAGCAATTAAATCAGTTAGGTTTAACACTTCCTGAAGTTCCAACTCCTGTTGGTTCATATATTCCTTCTGTTCGAATAAATGATTTTGTTTTTATATCTGGTCAAATCCCGTTTCTTAATGGAAATATTCTAACTGGTAAATTAGGTGATGATGTTAGTATTGAAGAAGGTTATGAACGTGCAAAAATTTGTGCTTTAAACGCATTAAGTGTTGTTAAAGCTGAAGTAGGATCACTTGATAAAATTAAAAGAATTATCAAAGTTTCTGGTTACGTAAATTGTATTGATACATTTACTGATCACCCTAAAGTCATCAATGGCGCTTCAGATTTATTTGGCGAATTATTTGGTAATTCTGGTAGGCATACACGTATTGCTATTGGCAATAATTCTCTTCCTTTAAATTCTTCTGTGGAAATTGATGTTATATTTCAAATTTTAGAATAGATAAATAATAATTAATGAATAATTATTGCATTGAATTCAATAAAACTGTCACCAATTAAAGTTAAATTACAAGATTCACAATTTGATTTAATTAATCTAATTTCTGAATCATTAAAACTTAATCTTGAACATTTACAAGATGACGATATATTATGTATATCTAGTAAATTTGTTGCATTATCTGAAGGGCGTTGTGTAAAACTATCTGATATTGAAGTCAGTTCCTCTGCTGATAAAATATCTAAAAAATATAATATTGATTCTCATTTATCTGAGCTAATTTTTCGTGAATCTGATAAAATTTTTTCTGGTATTGATGGATTCGTTTTAACTATTAAAAATGGCGTTCTAGTTCCTAATGCAGGAATCGATACTTCAAATATAATGTCTGGTTATGCAATTCTTTATCCTGAAAATCCATCGAAATCAGCACAAAATATAAAGTCTGAATTAGAAAAATTATTTAGAATTAAAATTTCTGTAATAATTACTGATAGTCGATTAATGCCTACTAGAATAGGAACTACCGGTATTGCAATCGCCTCTGCAGGAATTGATTTTGTTCAAGATGAAAGAGGGAAAAAGGATCTTTTTGGCAATTCAATTAGAGTGACTCAGAAAGCAATTGCTGATGATTTAAGTTCAGCTGCACAATTGCTTATGGGAGAATGTGATGAGTCAATTCCAATTGTTATTATTCGAGAAAGTGGTTTAAATATGACAAAAAACGAAGATTTAACTCAATCATTTTCTGTTGGTATTGATGAATGTATATTTGTGAAAGGACTTTCTGAATTGAAATTATAGGCTACTTATTTATATTATTTATAATTTCTGTTTTAAAATTTTTCTTTAAAAAGATATTGTTACAGCTTCTACATTTTCCACTATTTGATTTAATAATATCATTTACATATCTTAACTCCATTCCTTGATAAATCATATGTCCGCAATTTTCACAAATAACTTCAAATACCATTGATGATGTTATGATTAATTAATTAATAACATTTGTTATGATCATTTTTGTAATTTTTTTATCATATCCGGAATTAAATTAAATGAAATAACTTGATTTTTTGCTCCAATTTCATCGAATTGTTTTGAAGTTGATCCTTTATCAATTAATGCTATAAATTCTGTTCCTGAATTTAATGCAGTTTGATAATCTCTTATTGTGTCACCAATATAGACACTTTCTTCCGGTTTTATTGATAATTTTTTACATGCTAAATATATTGGTTCCGGATTTGGTTTTTGTTTAATTGTTTGTTCAGGAGTTATTAATATAGTAAAAAATTCTATTAATTCTCCTAATATTTCTAACGCATTTTCTTTTCTTTTCGATGTTACAATTCCCATTGGCATGTCGATTTTATCTAATGTTTCTTTAACATATGGTAAAGTAGGTAGATTTTCGTGTGTTTTTTTCACTACTTCGTTATAAATTGCTCTTGCATGTGTATTGTCTCCAAATAATAGTCTTAAATTAATGTGTGACGGCTGCCCTAGTAGACTTCTTAGTATTTCTATTGTAGGTGGTTCTTTGTTTAGCTTAACACTTACTTGTCTATATGTTTCGAAAATTGCTTTATTTGAATCTATAATTGTTCCATCTAAATCAAATAATACAGCTTTTAACATTTACTTAATAGGTTTTTTATTAATTATATGTCCTTTTCGTGAAATGCAAAATTCAAATACCTGAATGTTTCATCTATTAAGATAACTAATGGGTCAGTCTGCAAGAATTAAATTAACGAGTAGTAATCTGCCAAACTTACAAATAGTTTGTAGAGAAATTAAGAATATTACTAATCGAACTGGCATTAAAGCTAGAGGCCCTCAGCCTCTTCCAACTAAAAAACTTAAGATAACTACTAGAAAAGCTCCTTCTGGAAACGGCACAAGCACATTTGATAGATGGCAACTAAGAATTCATCGACGTTTAATTGATTTAGATGCTGACGATCGAACAATGAGGCAACTTATGCGACTTAAAATTCCTGAAGATGTCTTTATCGAAGTTAATCTTTCTAATAAATAAATTTTATACGCCGGGAGTGGGATTCGAACCCACGAGTCCCGAGGGACACAGGCTTTCAAGGCCTACGCTCATTTTTATGATCCGCGCATTATTGTGTCTAATGAGACCACTCTGCCATCCCGGCAAATATCAATCTCTTTAAAGCTATAAAAATAATTTTATAATTGAAATTTTTTTTCAGAAAACTTATAATTGGCGTAATACATAAAATAATGTGCAAGCAATTTCTCCTAAAATAATAAACGACGATGATTTTACTCAAACAATTACAAATAATCAACTTGTTGTTGTTGATTTTTGGGCTGAATGGTGTGGTCCTTGTAAAGCTATGAATCCTATAATTGAAGAATTATCTTCAATATATGAAAAACAGGTTTTGTTTGCTAAAATAAATGTTGATCAAAACCCAATTATACCATCCAAATATGAAATAAGTTCTATACCTACCTTTCTTATTATAAAAAATGGCCAAATTATGAATTCCATTATAGGTGTTGTTACACAAGAAATATTTGAAGAAAAAATTAACGAATATCTATAAACTTTGATTCATAATTATTTTTATGAGTATACTAAAAAATCTTACAATTCGTAAAGGCTTACTTTCTGATCAACTAGAAATTCGCAATCTGTGTAAAGATATATGGAACGATCATGATTTCCTTCCTGAAGTCTGGAATCATTGGATTATTAATGACATTGGGATTTTTATAATAGCTGAACTTAATCATGAAATTGTTGGCGTATATCATTTCTATACCCTTGATTCAGATTCTTGGATTGAAACATTAAGAGTTAAAGATAATTATCGACGTCAAGGTATTGCAAAATATCTTGTTAATGACTATATAGATCGTTCTAATCAATTACAATTTGAAACTTTACGTCTTGTAACATCTATTAATAATTCCGCATCACTTAGTCTTTTCCATAGTTTTGACTTTAATGAAATATTATATCCACAATATTTACATCTTGATGACAATCTTATTGATTCCACTACTGATTCAAAACAATATGTTATTATTGATGATAAAGAAGATATATTTTCTATTTTAAAAAATATAAAAATAAATAACAATCTAATTCCTTTATGGTGGAGATGGTGGAATCCTAATAATGTCACTCTTTACGAATGCGCAAAAAATTCATTTGCCATAATCTCCAAATCTGACCCCTCGTCATTTATTCTTATTCAACATTCTAAAAATTTTGGTTATAAAGATGATTATCAATTATTATTTTTTAATATTAGTAGTGATAATTTAAAGAATTCTTTATTTTATCTTAAAACGTGTTTTTCTGATCTTGTTAATAAAAAAATTTTCTGTATTCCAGATACTAATTCAGCCGATTTACAATTATTAGAAAATTTAGGTTTTATAAAAGGTACTAAACTTGTAGTTTTAGAAAAATCAATTAATTCCATTTAATATCTTTTATTTTTAATATTTTATTTGAAATTCTGGCTAAAACAAAAAGTAAATCTGATAATCTATTTAGATATGAAATAATTTCTTCATTAATATCTTCAATTTCACTTAGTTCTACTATGTTTCTTTCTGCACGTCTACATATTGTTCTACTTACATGAAGTAATGAAGATAATGATGATCCCCCTGGCAGAATAAAATTTTTTAGTGGTTTCAATTCTTTTGAATAATTATCAATAATGTTTTCTAGTTTTATTACATCTTTTTTATTTATTTTTTTTATTCCTTTAGTAGTTTCTGATAATGTAGCTAAATCTGTTCCAATTCTAAATAGATCATTTTGAATTTTTTGCAATTCTTTTTTTATATCATTGAATTGATCTGGAGAGTCTAAAGATATAATTAAACCTATAAAAGAATTTAATTCGTCTATGTCACCATATGATTTTACTCTTTTTGACGCTTTACTTATTCTTACAGCTGTTCCAAATAAATTAGTTTTTCCTTTGTCTCCTCCTTTAGTATAAATTTTCAATATAATTGAAATATACATATAATAATTTAAGGAATACATTTTGAATTTACTTATATAACTGAATTTCCTACCTTTTTGTGAGAAACATTGTCTGTTGATATGTCAGTAAAGGTACTTGAAGAAAGTTTAGGTAAGATTGTTTTAATTAAACTTAAGGGAAATAAGGTAATTCGCGGTTCACTTCAGGGTTTCGATCAACATATGAATCTGACTCTAGATGATTCTCAAGAAGTTATCGATGGAGATAATGCCAATGATTTGGGAACTATAATAGTCCGTGGCGATAATGTAATTCTTATATCTCCGCCACCCTAGGTGATAATTATGGTTAAAGGCACTACTTCATTTGGAAAACATGGTCGAGGCCAAACTCATATGCGTTGTCGTAGGTGTGGCCGACATTCATATCACTTAACAAATAAAAAATGTGCATCTTGTGGTTTTGGTAAAACACCTAAAATAAGACAATATAATTGGTTACACGCTAAATGATTTTCCTAATTATTAGCTTATACTAAGAAAGTTTATATCCGGATTATTCTATTGAAAAAATGAAATGTCAACTTTTGAAATAATTATTGCATTGTTTGGCGGCTTATTGGCAGGAACAATATTTTCTCTTCTATTGAGTAAATTTTCTAAATCCAATGTAAATCTAACAACCACCAATGTTGCAAACCATAAAAATATTCCTAGTATAAGTGAAAAATTTGAAACTGAACAAGCAAGAATACGATATAAAACACTTAAACTTGAAAAAGAATTACACACTGACGCTCTAGGAAGAATTTTTCAAGCAGAAGGAGATGGTAGAATTACTAAACAAGAAAGAGAACTCTTATCAGAACGATATAGAGAACAAATTAAAACTCTTGATAATAGTTTACAAGATTCAGAATTAATTTTAGAAGCAAGTGAATTGGAAACCTTACATGTTGAACTAACTAATTTATTTACAAAAAAATTAAGTCAAATTGAAAGACGATTAAACGAATTATTAATAAAACTTGAAACTGTAAAAACATTCAGTAAACAAGAAATTACACCAATTCAAAGTGAAATTGATAAAACTAATGAATCTTCTATTGAAGAACCTCCTTTAATAACAAAAAAAGACATATCACCAATCAGAGTTACAAATACTCAAGCAATATCTGATCATAAAATAGTAAAAAAGGTAGTAATTGGAGAAAAATTATCACAAGAAAATCTACAACCTGTTAAAAAAAGCACAATTAAAAAACCTAAGGATACACCTTTAGCCGATGAAAAAGTAGATGCCATTCGAGACGAAGTATTAGATGCCTTACAACGCTTAGAGCAACTGGATGTTGAGTGAATGAATAAAAAATATTTAGCTAAACTATTTGATGATTTAAATATTATTGATATTGAAAATACTAGTCAAATTGAATTACCTGACGATAACCCAACAAATCCCCGAACTTTAATATCATTTAATGAAAGAAAAAAGATGAAATCATTGATAAATCACGAAAATTTCTCTGTAAATAAAATATCACATATAAAAAAACAAAAAAGTAAATTATCTATAGAATATAAGTGAATTATATGAGTAAAGAAGAAGCAATAATAAAAATGGGTGAACAAGCTGCTCAAAAAATCCAAGATAATCAATTCGTTGGTTTGGGTAGTGGTTCTGCAGTTGCAGCTTTTGTTAATGCATTGGGAAAAAGAATTGAAGAAGAAAAAATTGAAGTTCATGGCATTCCTACCTCCATGCAAATTGAAATCATAGCTCAAAATAATGGAATAATTTTAGAATCTCCATCTATTATTCCTAAAATTGATATTGTAGTAGATGGCGCAGATGAAATTGATAAAAATTATGTAATGATTAAAGGTGGAGGTGGCGCTCACTATCGCGAAAAAATTATGATCGAAGCTGCAAAAGAATCCATTATTGTAGCTGATTCATCCAAGTATGTTGATGTAATTACTTGGCCTGTTCCATTAGAAATTACGGAATTCTCAAGATTCTTTATCGAAGAACAAATTAAGAAACATGGAGGCAACCCTATTATTCGTACATTAAATAAAGGTTATCCGTTATTTACACAAAATGGTAATCTTGTTATTGACGCACATTTTGGTAAAATTTCTGAACCTAAAAAACTCGAACAGTTATTGTTGAATATTCCTGGAATAATCGAAAACGGAATTTTTTCTATGAAGATAGATACATTTTTTCGAGCAAATGAAGATGGTTCTGTTGATATAGTATGAATTATATTGTTGTTGCGATATATGATGAGTCTTGATAAATTATCTCAAAAACTTCTTTATAATAGTATTATTGAAGTCTGGGTTGCCTTATGTCATGATTTAAATTATGATTGGCAAGATAAACAAATATTCAATTCTTTTATGACTTTTTTACGCAATAATGATTTTGATATAAAGAGTTTGGGCGTCTGTCCGTCAGGAAGTGAATTGAAAGAACAATATGAAAAAAAAGTTTCTATTATTTTTGGAAATCCAAATGCTAGTTTTGTAATAAAAACTAGTCCTGAAACTATTAACAAGTTACGTCAATTTACTAATGCTATAAATTAAAAATTTATATTCATTCATTAATAAATAATATTAATGAGTCAAACTCAAATTGTTAGTATCAGCCAAAAAGCAGTAGATAAAGTTAAAGAATTTTCTAAAAATGAAGAAAAGAATACCACTGGATTAAGAATTTATGTTGCAGGTGGTGGTTGTGCAGGATTGACCTATGGATTGGCGTTAGAAGAAAAAAGTACAAAAGAAGACATTGTGATTAAAATTGATGGATTAATGCTCTTTATTGATCCATTTAGCGCAAAATATCTCAAAGGTTCATCAATTGATTACCTCGAATCCATTGAATCATCTGGATTTAAAATAAATAATCCTAATGTTACTTCAACATGTGCTTGCGGTAAATCTGTCTCAGTATAAACAAAATCGATTTTTAACATGTTAATTGGCGATCTTTATAGAAAAATTTATGGTTTATTATTTTCTAAACCAACTAATTTTAAATGGATAATTAATAATCAACTAGTTGGCTCAGGAATAATTAATTCCACAAACGAATTGTCATTCCTGCTTAACAATAATATCAAAGCAGTTCTTACATTAACTATGACTCCTTTAAGTAAAGAAATACTTTCAAATCAATCTATTATTTATAAACATGTTCCAATTGTTAATCATTCATTACCATCTACAAATCAACTCATTGAATCTATTGATTTCATAAATGATTGTTTAGATAATAATAAACCAGTACTGGTACATTGTAGAGCTGGAATAGGAAGAACTGGAACGATTCTCGCCGCATATTTTATTAATCAAGGATGGACAACTGAAGAATCTATTTATCATGTAAGAAAATTACGCCCTGGTTCAATTGAGGAACACCAGATTAAATCCTTGAATATTTATTATGATTATTTAAAAAATAAATTATTGTGATTTTATGAAAATAAGATTTTTATCAAAACGAGAAATTAATTCTCTAATTGAAGAATTAAATAATTATTCATTAATTATAGATTGTCCTAAAATCAAACAAATAAAATCATTTGAACTAAATAATAAAATTGAAGTATTTCATTCTGACTATTTTATTATTGTTAAAGCTCAAGAACATTATTTTCCATTTTTAAAAGATTTTAAAACTATTGATAAACTTCCTAAAATTATTGTTGATAAAGGAGCTATTCCTTTTGTTTGTAAAGGCGCTAATATAATGAGACCTGGAATAAAAGAAATTGATGATAGTTTCAAACAAGATGATATAATTGTTATTTCTGAAGAATTACATACTAAGAATATAGCAATTGGTAAATCTATGTATTCTTCTGATGAAATACTAAATCTTGAAAAAGGCATTGTTATTTTAAATCTTCATTTTGTTGGAGATAATATATGGAATATTTGTAAAGAACTTAATTTTTCCAGCATTTCTTAAAGTCTGATTTGTGTAAATTAATAAGTAATGGTATCTTGATAATTACCGTTGACCGCTCTTAAGATTGACAAAGATCCAATTAATAAAAATAAACAAATGTATTTGAAAGCAATACAATTAAAAAATATTGATCAAATTCCTGATATTAAAAATGAAATTTCTCAAAATATGATTATAATATTGAGAATTACTCCACTTGCACAAAAAAATGTTCGCGATCTTAAAAATGCTGTTGAAGAACTATATAGCTATGTTTCTACAATTGGTGGAGATATAGCTCGACTTGGAGACGAACGAGTCGTATTAACTCCTCCTGGTGTTAAAGTTTGGAGAGGTATATCTTAAATTAGCTTAATAGCTTCTTGAACTTCTGGTCTCTGTGTTCTTATTCTATAAATTCTTGAAATTGAATTAGCTAAATTTTCAACTTTACTACGTTCTCCATGGTTGATTATCACTCTTCTTAATTTTGGTCTTAATTTACCAATAAATTTAATTAATTGATTATAATCTGAATGACCACTAAATCCATCAATTTTTTCTATTGGACAATTTAAATTAACAATTTTTAATTTTCCATCTTGATCAACTATACTAGCTTCATTTGTTCCATCCATTATTCTTCTTCCTAATGTTCCTGCAATTTGATAGGACACAAATATTAATTTATTTTTTTCAATTGGAACTAATTCTTCAAAATATCTCATTACCGGACCTCCTTCTAACATTCCTGAAGTTGCCATTATTATTGATGGTTCATCTCTCAAAACCTCTTCTCTTTTGTTATGATGATCTATTATTGTAAAATATTCACTTTGGAAAGGATTTCCTTGACCTTTTGATATACTATTTCTCAAATCACGACTTAGAAATTCAGTAGATGCTACATGTATTGCTGTTGCTTCTGAAATCATTCCTTCTAGATAAATTGGACATTCAATTAGTTTCTTTTCGCGCATTTGCTGATCTAATACTAGCATAATTTCTTGTGCTCGTCCAACTGCAGGACTTGGGATTAATACTTTGCCACCATTTTTAAGTGTTGAATTTATTGAATTTACTAAATTTGCTTCCATTTGCTCCCTAGTAGGCATAATGTCTGCTTTTCCTCCATATGTACTTTCCATTATTAGTGTTTCAACTCTTGGATAATTCCATACAGTTTCATCAAAGAGTTTTGTTTTTGCAAACTTGAAATCTCCAGTATATACTACGTTGTGAAGGCCTTCTCCTATGTGTAAATGTGAAGTTGCCGAACCTAATATATGACCTGCATTATTTAGAACTAATTTTACATCTGGTGATATATCAGTGACTAATCCAAATGGTAAAGTAATTGTATGTTGTATCATTTTCTTTACGTCTCTTCCTTCATAGAGTACTTGCGCACGTTCATGCGCTGCTATTTTCACGTAATCATTGTGTAATAGACTCATTAGAGCTAATGTTGGTTCGGTACAATATACTGGACCTCTGTATCCATATTTGAATAGTACTGGTAGATATCCTGAATGATCTAAATGAGCATGTGAAATTATTACTGCATCTAACTCATTTATGTCAAAATCTGCCCAATCCAATCTTGGATATGCGTCCCACGAATTTTTTGCATTCGGTAGTATTCCACAATCCATTAAAATTTTACTTTCTGGAGTTGTTATTAACATACAAGATCTTCCTACTTGATTAAAACCCCCTAAACTTAGTAATGTAACACTAGAACCCTGTGATAATTTTGGTCTGAATATTTCTTCACCTACGTCCCTATAGAATTGACTTCTATTTTCTGATTCAACTTGCCTCACATAATAAATTGTTTTTATACTTGTTGATGGTAAATCTGAACCTTTTTTTATTTGAATTTTCCAACCAATGTTAGCTGATAATTTGTGAAGATTTATTTCTGGATTATTTGTTAATTTTTGTGGTTCCATTGCTTCTACTATTACTTCGCCTAATGCATCATCAAAATACAAATTTCCTAATTCAATACCTTCTGGTATTGAATTTCTTAATATTTCGGTAGCTGCATTCTCTTCTTTTCTTATTGATTTATCAGTTCGTATTACAAGTCTCCTTTTTACTATGTTAACAATATCTGCAATTATTTCATTATTACTTGTTAGAAATTCATAATTCTTTGTGTAAATTGATATTCTAGGACCTTCATATTCAACTCTAGTAATCTCTGCTTCTGGTGGTAATGCTTGTAATATTGTTGTCATTAATTCTTGTGATTTACTTAATACCATCTCGTTGTCTTCCAGAAATCTCTTTTAGGATTTTTTGTTTTTCTTCAATTGAATATACTTTTAGATTGTTCTCTTTTATTGTTACGATATTAAGACCATCTCCTGTTCCAGCGTTTCTTAAAATTGCTCCATATACAGATTTTACGGCAATAGGAATTGCTTCTTCCACTTTTAACGATTCTTTGAATTCACTTTCAATTATGCCATATGCAACGGGTGAACCACTACCTGTTGAATAACATTTTTCTTTTGTTAATGTTCCAAAAACATCAATATTGTATAGTTGTGGCCCTTCTTGATCTATGCCTCCGATTAAGATGTCTGCAAAATACGGAGATAGTTGATGATTAGCAGAGAAAAATAAATTTGATGTTAATCTTGCCGCAGATATTATTGGTAGATTGTATGTTTTTTCTAATTTATACATATTAGATTGGAATTTTAATTGATCTACGACGTATTGTGCATCTGCTACTCCTCCTGCAATTGTTAATGCACAATGTTTGTTAATTACTGCAATTTTATTTACTGTTCTACTTGCAATAAAATAACCCATAGATGCTCTTGTGTCTGTTGTTAATACTATTCCGTCACTACAGACTAAACCCACTGTAGTAGTGCCGTGAACTTGTTTTGGTATTTCATTTTCTTTATACATATTAAATACTGCCTCAGGAAAAAATGTTATGTTATGGAATTATTGTTAATTACAGTAAATAAATGTTGTTGTTAATGATTTAAAGTTATGGTAATAGTTTGCAGTTTTTTTTAAAATCTTTATAAATATTAAATTTACAACTAACTAGAAGGGGAAAGATGTAAGGAGATAAATAATTTGAGTGCTGTTACTTCTGGTTTATTACAACTAGTATTAATTACAATTGCAATATTGATTAGTTCTTTTATTGTTAATGGTTATCCTGAACCAAAACCACCTGATCCTGAATTATTACCAATGCATACGATTGTAGTTGAGACATGGAATAATGAGAAAAATCTTGGTAAGCCATTTGAAACAACTGCCGCATCAAGTATTAGTGTTGTATTTTATCCCTGGGATGAATTTGGCGTAACTGATAAAATTTCTGTAACTGGAATTTCTAATGGTACCGGATTAGTTACTGTTATTGTTGAAGAAGGTATATATGATCTAAAAATTGGTGAATGGACCACTGAAACTGTTGAAATCTTTGAAAATCATACAATTGTTGTACATCATTTTGATTTGGAAACACTTCCTGATATTATAGAAATAAACGCTTTATCACATGATTGGCAAGCTACTGTCGACGACATTATTTCTATAACGTATACTAGTTCCTTTGATTTTATAGTTAACTTGGATTCTGTAAAGATGTCCGGCCTTGATATGAATAATGTATTTTGTGGTCTTGAAGATCTTTCAGAAGGTGAACAAGCTGCTGTTCCAGTTGGCGCCATAGATGATCTTTATGCATCGGACAGTGGTTGTGACGATGAAGTTTCCATACTTCCAAGTGAAACTTGGTTTGATGATTTTATAGTTCCTGTAGGAGTTTCTATTCCTTGGTCAATTGTAAAATCTAATCCTGAAATTACTTTACGAATTTCATATACTGAGTTGAGTATTGATGAGTGATCCTTTTACTACTGTGATTATTATTTTGCAACCATATAATTCAGTACTTTCTGCTGGTTTATTTATTGTTTTACTTTCAGAATTTTTCTTATTACGTAATGATATAGTACGTGAAAAAATTGTTAAACAAAAAATACAATTTTCAAGAAAATTTGATGAAAGGTTTCTTAAAATTTACAAAACAATTCAAATATCAGCATTTACATCTGGTTTACCACAGCGTGGTTCATACACAATTAGAGAACTAATTGATTATCTTATTTCACAAAATCCAACAGACGATAATCTTCTTCATTCAATGAGATTGTCAATGGAAAAGTATGCATATGGAAATGTATTAATTGATAAATCTCAATATAGTATTATTTCCAAATGGTTATCTAGTCATAAAACTTCAAGTTTGTCGAGGGCTCGGGTTTGATTACTGAAATAAAGAATATTTCTGATATTCAAAATGCCACTAATGAGCTCGAAGTAGAGATTTCAAAGTACGTTGTTGGCTGGTCAAGTGTAATAAAGTTCCTAGTTATTGGTATGTTTACGGGCGGACATGTTCTAATTGAAGGTGTACCTGGCACTGCAAAAACTTATCTTGCTAAAATTTTTTCAGATACTATTAATTTATCTTTTAAAAGAATTCAATCTACTCCTGATTTGATGCCATCTGATATTACCGGTTCATATATTTTTAATGTGAAAACGCTTGAATTTGATTTTCATTCGGGTCCAATATTCTCAAATATTGTTCTCTTTGATGAAATTAATCGTGCTCCTCCTAAAACTCAATCTGCTCTTCTTGAAGTTATGCAAGAAGGCCAAGTCACAATTGATGGAGAAACATCCATTCTCGAACAACCGTTCATGTTAATTGCAACTAAGAATCCTATTGAATTTGCAGGTACTTTTCCATTACCTCCTGCTCAATTAGATAGATTTATGGCCCGTTTAATTATGAATTATCCTGCTAAAGAAGCATGGATTGATATTTTAGAAAAGAAAAATATACGCGGTGAGGTTGTTGAAGTAGATCAAATAATTGACGCTTCATCAGTTATCTCTGCAAGAAATATTATATTAAATCAAGTTACTGTTTCTGATGATGTATTGAATTTTATATCTCAACTTTGTAATTCAACAAGAAATTCGTCACATATTATTCTAGGCGCAAGTCCTACTGCATCTGTTTCACTTCTTAATGCAGCCCGTGGTCATGCTGCAATTATTAATGGTAAGGATAACGTAACTATCGATGATGTAAAAGCTGTCGCATTTGACGTTCTTAATCATAGAATCATTGTAAGAGATCTTGAAGAAGGCCAAGATTCAAAAGATTATGGTATTTCAAAAATTCAAAATATTCTCAAGTCTAATATGGAAACTATTGGTTAATTTTTATGACTGATTCTATTAATTCACTTTCTGATATAATAAAAATTTCAAAAGATATTAGTTCTGGAATGAATAAAACAATAGTTGGGTTAAGTAATCATATCAATACACTTACATTGGCTTTATTGACTGGTGGACATTTACTTTTGGATGGTCTTCCTGGTACTGCAAAAACATCTTTAGCTATATCGTTTTCTCAGTTGCTATCTATTTCTACAAATAGAATTCAATCCACTCCTGATATGATGCCAGGAGATGTAACAGGAACTAGAATATACAATCCAAAAACGCTTGAATTTGATTTTCATGCTGGACCCATTTTTGCTAATATGGTTATAGTTGATGAAATTAATCGTGCTCCACCTCGAACTCAGGCTGCTTTACTTGAGGCTATGCAAGAAGGCCAAGTCACAATTGATGGAGAAACATCCATTCTCGAACAACCGTTCATGTTAATTGCAACTAAGAATCCTTTAGAATACGAAGGAACTTTTCCATTGTCCCCAACACAATTAGATAGATTTATGTTTCGTCTTAATCTTGGTTATCCTTCTATTGATGACGAAGTTAATATTCTAAAAAATAAAACTAAAACAGTAGAAAATATTGATTCAATCATATCAAAAGATTTAATAGTTCAAGCTAAAAAATTTATCATTGAAAATATTTCTGTTAACGATGATATTACAGATTATATTTCTAAAGTAGTCCAATCGACCAGGGTTAAGGAAGGAGTAATCTTAGGCGCAAGTCCTACTGCATCTGTTTCACTTCTTAATGCAGCCCGTGGTCATGCTGCAATTATTAATGGTAAGGATAACGTAACTATCGATGATGTAAAAGCTGTCGCATTTGACGTTCTTAATCATAGAATTACTATAAAACAATTTGATATTTCTGATTCTGGTTCAGATCCTAGTGAAAATTTAACTATAGAAAAAGTAATTTCTGAAATACTTGGAAATGGAGAAGAATGATATATGATTAATTCAATCAAAACTATTGAAGATTTAAAAAATTTAAGAGATTCTCTTAGGACCGAAATTGGTAGTAGTGTTGTAGGTCTTGATAGAATTATCGATTCATTGATTATTTCTATTATTGTTGGTGGTCATGTTCTTATTGAAGGTTTTCCAGGAACTGGTAAGACATTAATTGCAAATCTTTTTAGTAAATCAATTCAATCTAATTCGAATAGAATTCAATCTACTTCTGATTTAATGCCTTCTGATATTACAGGAACTCACATATACAATCCAAAAGAAAGAATCTTTGAATTCCGTGAAGGGCCAATATTTTCTAATTTTGTAATTGTAGATGAAATTAATCGAGCTCCACCAAAATCTCAATCTGCTTTGTTAGAATGTATGCAAGAGAGACAAGTTAGTGTAGAAGGAACGACTCGAAAAATGGACGAACCATTTATGGTTATGGCAACTAAAAATTTGATTGAATTAGAAGGAACTTACCCTCTTCCAGAAGCACAATTGGATCGATTTTTATTTAGATTGATTATTGATTATCCTGACGAGAAAAGTGAAGCTGAAATAGTCAAACGAAAGATAAGTGGATTTCCTGATATTAATCCTGTCGTTTCTAAGGATGCAATATTAGACGCAAAGAATTTAATTCATTCAGGTATTAATACTGAGAAGAATGTCCTTGAATACATATCTTCTATAGTGCAAAATACTTCTAATATTCCTAAAGTAATTCTTGGCGCTAGTCCACGTGCTTCAGTTGCTTTATTATATGCTTCTAAAGGTCATGCCGCAATAACTGAAGGCCGTTCATATGTAATTCCTGATGATGTTAAAGCTGTTGCATTTGATGTACTTAACCATCGATTAATTTTACAACAAAATGCAACACTTGATCTAGACGATAGTGACAGTAATTCTGCAACTAAATATTTAAGAAAACTTATTAAAGATTGTATAGACGACGTAAATATTGCGGTTTGATTCAAAATGAAGAAACATATTCGCCTTTTAATGGGTTTCTTTGGTTTGATGACAATATGCAGTTTAGCATTGTTACCAGATGCAACATTGACTATGTTATCTGTAATGCTCGCATTGTCTATTAATCTTGTTCTTTTTAAATATCTTAAACCATCAAATAATTTTGAAATAACTCGTGTTTTTGATAAATATCAAGTTATGCCTCCAGATGATATTCATACAACATTAGACATAAAATACAGTGGCCGTTTTCCTGCAAACGCATCAGTGGAATTTGATTGCCAAAGTTTAGGTCTTAATGTTAATACTGGAACAGTTGTTTTCCAACCTGGTGAAAAATATGATATTTCAAAAACATTTGTCGCAGATAGAAGAGGAATTCATAAAATCTCTAATACTAAAATTGTTGTTAAAGATTGGTTATTACTATCTGGGATTGATATTAAATCAAATGACGAAGCTGAAATATTAGTACTTCCACACATATATCCGTTCGAAACGTCACCACAAACATCTGCTGCTGGATTATTAGGAGTTTCTTCAACTATAAAACAAGGACGAAGTAGTGAAGTTTGGGGAATAAGAGATTATCAACCTGGAGATGACTTTAAAATCATTTCATGGAAAGCTATGGCAAAATCTCCTGATCATAAACCTAAATCAAAGATAACTGCCGGAGAAGAAGGACAGGCTATTACTATTGTTTCTGATATTGGAAAAGATACTGAACTTCCTAATGGTGAACATATTTCCCTTGATATTGCAGCAGATTTAGCTGCATCTTTGTCGTATAATTTTATTAAACGTGGTACAAGGACCGGTTTAGTTCTTTTTGATACTAGAGCTCGTGTTGTATTAAAACCAGCTCGTGGAGACGCACACGTAGATTCATTATTACGTAACCTTGCAAAAGTTCAACCTACTCAAGATAAGTTTCTTATTACTAGTTTTACCAACTCTTATCTTGATTTTTCTACTTCAGAATTTGGAAATAGTTTTATTTTAATTCTTAGTCGAACTGACGATCGATTAATTGAATCTTATTTATCAAAATTAAAATCTAATCGTGATTTAATTATTATTTTGATTTATAATGAAGATAATTTTGAAAGAGCCCAACAAATTCAAAAGACTGTACAAAATAATGGAATTGAGGTTATTTTATCTAATCATGCTTCTGTAAAAGATACAATGAAAAAAATGGAGGAGTGGTCGTATGCTACCGTTAAGAGAGCTTAGAACTTACGTTTCTCTACTTTCTGTTATTCCAATTGCTGTGATGATTGCTAATCCTGTTGTTTTATCAACATTCATTTCTTATCTCTCTTCTCTTGCATTTTTCAGTGCTTTTGGTCTTATTGCAGTGTATTTATTACTTAAACAAGTTGGATTTATTAAATCACTAGGACCAAATACACAAGTATTTTTTGAAAGTATGCTTCTTATTCTTCCAATTATTATTCCAATGTTTACAATTCTTTCTACTGGTATTCCTCTAGATTTCATTGCTGCATTTCTTGCATACCTAGTTATTGGTACTGTTGTTTCTCTGTATCGTGTTGTTCTAGGAAGTGGTATTGGTGCTTTTGGTAAAGTACTTTATTTCTTTTTTGCATATCTGATGGCTTTAATGATCTATGCAGGTTGTGTAGCAGGTCAACTTACAGGCGAACAATTTTCTTTATTGCTGGCTTTTGATCAAATTGCAGGAATTGCAGTATATCTTGGTTATGAAGGATATCCTTTAGAACTTCCACTTGCCCAATATGTAAAAATAGGAATGGCATTTGCTATACCTGGAATAACATTTTCTGCTTTAGCTGCACAAGTCAGACTTTCTGAAGTTAAAGATAATCCTGGAGGAGACTCAAAAATGATAAGTTCTTTACGTCCTGCAATTGCACTTCTTACGCTTGGAAGTGCCATATTGTTGATTCCAGTATATCTAATTGCTTTTGCAATTTCAAATTTTGCTCCATATTTAGTTACAATAATTCCTCCTGTGTTGGTAATGGGATTTATTCTTCTTAGTTTATATTTTGTTGAGAGGGATTAATGATGAAAATATCTTCAATTTTGTTCATTTTTATTTTATTATCTGCATTTCTTGTATTCCCTGTATCTTTTTCTCAAGTTGCCGATAGAGAATGTCCTGCTTCTGCTGCTTGCGATCCAGAAGATTTTCCGTTTGATGAATTAACTAATACTATGGAAGATTTTGCCCATCTTGGTTTCGATAAGCAAAGCATTACAATTCCTGCTTCTGGAAGTTTTGTAGTTGTTGGTCCTGAAGAAGAATTATTTATTCTTTCAGAGAAAGGTCTTATCATTACGTTAACAACTCCTGAAGGAGAAATTGTATACGATGGTTTTACTCGTGGACTTGAAATTTCAACTATACCTCTTCCTCAATTAAAAAGTGGCGAAACCTTGACACTTCAACTAACTATGTTGGAAATGCCTATGGATCTATTACGCGATGCAGGAGTATTTCCTGGAGATAATCCTCTTTTTGTAGGTGATAGAGCTGCCGCTTGTATAAACGTACAAAATGAACTTGACGGTTTATACAAAGGTATTCAGGACCGCAGATCAGAAATCACAGCTCTTAGAAATATTCCAGGCGGTTTTCAAAATCAAACTATTCAGAGTCTAATATCTAGATACACTAATCAAAATCAAATAGATTTGGATTTAATTGCAGAATTAAATTCGCTGTTTGAAGTTGGAGGATGTGAACGTGTTCCAAGAGATGAACAAGAACGACCAGAGAATAGGCCTACTCCTGACGATCAACAAGTATTTCAAAAAGCTACTGTTGTTGTTCTCGGAGTAAATGAACTTAATGATTTTGATCCAACCCTTGAATTGGCAGGTAGTAGAGTATTTTTATCTAAACCTGAATTGTTCGAATTCGCATTATTGGAACCATCTGATGGATATAAAGTATTAAGTGGACAATTTGGCACACTTGAATATCCTAGTGTTATATCTCCTGGTGAAACATTTACAATTAGATATAATAATACTGCTCAAGATTTTGAACCATCTGGCGAAACTATTGATTTTGTGCTTGAAACCACTAGGAAGTTCGTTATTAATTCAAAAACAGCTGATTTTGTTACAAGTATAGAGAAAAACGGCTCCGTTGTTTCCACTACTTTGACTTTAACAGATTCTCCGACCGTATATTTCAATTTAATGGTTCCAGAACTTGGTATGTCTGGTAATGGTGACTCTCCTGTACAATTTGGCTTGCATTTCTTTCACGTACACTCTGATTTTACTGGTGCAGGGACTCTAAATGCTTATTTGCCTGTGTATATTGCTCCTTCTAGTGAATACAACCTAATTGGTTATTCTTTGGCCTCTGAAGAACAATTTATAATTGATTTAGAAAATTATGTACCGAATTCTCCTGAATTATTTATTGCTGGTAAATCATATGGGGTTTCTACATTTGCTACATCCCAAGAATTTCAATTGCCGATTACATCTATTGTTATTTCTGATAATCTTGGTCCTATAACTGCTTATGATATAGAAATAAATGATGATTTTGCAACAAGTGTTTTCGATGGAAAAATGTTTGTCTTAGGAAATAGTAATGACGATCAATTTTCTATTTCTAGTTTGAAAATTTTTAACTTTACTGTTGATAATTATACAACTAATATGGATTCTGATGTTTTTGGTTTTCCTAACGAATTAGCAATTTTTGCCAACATTAATACTATTGATATATCTGTTCTTGATGAATTCGAACAACCATATGTTGAGGGACAAATTCTTATTCAAAAAGGCAACGAAGAATTTCTTGCTGATTTATTGAGTATTCCTAGATTAAAATTACCAAATGGAGATTATGTAATTACCCATATTGTTAATGATGAAATTAAATCCACACGTGAAATAACTATTAGTAGTTCAGGGCTAATTGAATTTAACGTAAGTACTTTAGAACAACAAGATCAAATTTTAACAATTGTAATAATTCTAGAATCTATTGTTATTGCATACTTGACTCTCCGAGTATTATTAAAATACTTTAGAGGATAATTATCCAACCACTGAACCTATTTTCATATCTTTATCTGGTTGTAACAAAGATACATTTTCTCCGTCAATCGACGCAAGTAACATTCCTTGTGATTCAATTCCAAATATTGTTTTAGGTTCTAAATTTACTAACACAATTACAGTTTTTCCTATTAAATCTTCTAAAGAATAATACTGTGCTATTCCTGCAACAAGGTTCCTTTCTTCTTCTCCAATGTCTACCTTCATTTTGATTAATTTGTTTGAACCAGAAACTAATACTGCCTCTAGTATTTTTCCAACTTTAATTTCCATTTTTGTAAAATCATTAAAATTTATTGAATTCACAACTAGATTTCTCATTATTAGAATATTTATGTTTTTTTCGATTATATTTGATTAATTTATTTTTTTTATACAAATATTATATAATTGTTGTAATTTTTACACATTTATCATATAATTGTTGTAATTTATTAATTTTTATATATCGCGTTGATAAATAACTTAAAAAAAATTCATTAAATAATATGAATGTTTATGATATTCATGAATCATAGGTATTGGCTTATATCTATAGCTACAGCTTTGCTGTTGCTTACTTCAATTTGGATGGCTGGTTTCGGCAATGCTGTAACCGGTGTTCCCCAAGCTGAAGCAGCAGGAGCAAATCCCAATGCAAATGTCGCGGCCGGCAATTGGGAATGGATAAACAGAGGCCCCGACGGCGGAAGCTTTATGCCGCAAGATCAGATTACTTCAGATACTGTTCAGTATCTTGAAATGAAATGGTTATATCCATTCCAAGCAGGAGTTGATACAACATTTCCTAATACTGTTCAAGAAGGCGCTTCTGCTCCCCCTATCACTGTTGATGGCATTACGTATGTTGGAAAGAACAAACAAGATGTCGTTGCAATTGATACAAAAACTGGTAAACAAGTATGGTACAGTGATGTAATACCAAATCATGTAGATTTCGACGCATGGCTTGCTGAGTTTCCATATATGCAAGGACAATATGGTCACACTCACGCAATGAACTATTATCGTGATACAAATACTCTGATATTAAGTTCTGCACCATGTTGGTTGAAAGCATTGAATGCTGACGATGGAACTCTCGCGTGGTCATTAGGACCAGAGATTCTTTGTGGCACTCAAGCCGAAATGGGTAATCCATTAGGTGCAATGGGAACCTTCAAAAGTAAAGGTTACATGAGTGCAATTCAGAACCATCCTCCACAGATTATTAATGATATAGTTGTGTGGCCTTCATTCGGTGCAAGTGGCCGAGGTGGTCGATCTAGTTTAATTGGTATTGACATTAGTAACCCATCTAATCCAGTAGAAGTATATCGTAACTGGTTAATGCCTCCAATGGACGGTAGTCAACCTAATTGGGCACAAGACCAATGTGATAGAACTAACGGTCAAGTATGGTACTTTGAATATCCTAAGTATATTGCTTCTGGCGGTACACATCTTGCATTAAATTGTAGAGATGCACCTGCAGACGCAATAGCTAACGACTGGATAAACTTAAAACCAAATACTCCTCACACAGGTGAAATTCACACCGCAAGTGCGTTCTCAGTAGTATGGGGCAATATGCCTTATAGTGCACAGCACGATTTAGTCTACATGGGAACTGGTGATGTAGGACCTTATCCTAACAGTACTCTTAAGTTCGGACCAAATCTCTTTGGTAGTTCTCTTATTGCTGTCAAAGCCTCAACAGGCGAATTGGGATGGGGATTCTCAATGTTACCTCACGATTTGTGGGATATGGATTGCTCTTGGGGAGGCGCTCTAAGAGAAATTAATGGTGTTGAAGTCTATATTGCATCGTGTAAGAACGGTATTGTAGTGGGTCTAAATGCTGGTACTGGCGAACCTATATGGGTCATTGATCCAAAAAGTATCGCTAGAAACATGAAAGGTTGGAACTATGGTGGTGACTCAAGCCTCGGCGTAAGCGGAAATGGCGGAGTACAGGTAGTCGGTCCTGATGCATGTTGTGACATAACATTTGCACACATGAGCAAAGACTGGATGAACCAGAACTCACCTGACTGTGCAGCAGGTTCACAAACAGATTGTGACGGCATAGCACAAGGTCCAAACGCATGGGCACATATCGAATCTGATATGGCTATTGACGACAAATACATCTACATGGGTGTACAAAACTCACCAAGAGAATTCCAAATCAAGAATGTTGTAGACTTTGGTAACCAAGGAAGTACAATCCAACAGATTGAACCAAAGAACTCAAGTATTCACGCATTCGACTGGAGAACCGGTAACGAAGTTTGGAGTACTTACATCGAAGGTGTTTCATATAGAGGCGGTGTCATGGTAAGTGGCGGCGTTGTATATGCATATGCTAGCGATGGAAACTTGTACATGTTGGATTCAGACACTGGTGAAATTCTAAATATAAAATTATTTGGAGTTCCAATTAGTGTACTACCAACTATTGGTGCAGATTCTGACGGAAACTATAAAGTATTAGCATACATCGGTGGCGGTGGAGGATTCTTGTTCGCAAGTAATCAACTACCTGGCTCATTAGCTGCATTTGGTAATCCTGACAAACTACCTGAAGTTCCTGAAGCAGAAATAATCATTCAAGTCGAAGAAGTAGTCGTTGAACGAGAAGTAGAAGTTCAAGTTGAAGTCGAACGAATCGTTGAAGTCGAGAGAGTAGTCGAAAAGGAAGTACCAGTTGAAGTCATCAAGGAAGTAGAAGTAGTAAAAGAAGTTACTCTACCAGCGGAAGAAGTCATCAGTCCTGTTTCATATGTTGCAATTGGACTTGGTGTAGTTCTAGTGGTAGTAGCTGGCGTTATCTATTCTAGATCCAAAGCAAGTTAATTCTTATTAGCTGTCCCTAAAGGGACAGCTACAAATTTTTTTTAATTTTCTTGAACTAACGTTTAGTTTTTAATATTTATTTGTATGAATGTAAATTTTTCATTAATAATAAATACAAAAGGATTATTCTTATCAGTTTTTATATTGTAATTTATTTTTTTGTTTTTTAATCAATTGATTTTCAATTTTTTCAAATAATATTTCTGGTTTATTTATCACATGTCCTGGTTCTATCATTAATTGAGAACAATTATTCCAATTTACAGTTTCATCATTTACATTCATGGTTTTATATAACTTTTTCATACTAAACGGCATAAATGAATAGAGCATTATTCCTATGTTACAAACTGCATTTATGCTGAGATATATTGTATTATTGCTATTTCCTCTCCATGGTTCTTTCTTTTGAAAATATTTATTACAACCGTCTGATAAATTTAGAATTATTTTTAATGCTCTGTCGATTTGGTTCCTGTTAATATTCTCTTGTATTTCATCTTTTGAATTTCTTATTAATTTTATTAATTCTTCATCATCTTTATCATATTCTTTTGGTTCTGGCACCATGTTATTGTATTTTGAATTTGTGAAACTTAATGCCCTGTGTATGAAATTACCTATGTTCGCAACTAATTCATTGTTTATTTTTACCTGAAAATCTTCCCAATCGAAGTTCACATCTGATTGATCGTAAGGAGTTATTCTTGTAAGATAATATCTCAAGTAATCTGCAGGGAACTCATCCAAAAACTCTCTTAGACTTATGTACATTCCTCTACTCTTTGAAAATTTCTTTCCTTGAAGCATCAAGTGTCCTCGAGTGGGCATATAATCTGGTAATTTGTACTCTTCATTAATTGCCAATCTCATTGCAGTCAAAAATAAATAATGATGATATACTATGTCTTTTCCAATAAAATGATATATTGTTGAATTATTCCAGAATTCTTTTCCATTAATATTTTTAGAATTGAGATATTCTATTGTAGTTGAAATATAACAAATATGATTATCAAACCAGCCATAGAGCACTTTCCCTTCAGCTTCGTCAAGTGGAATCTTTACCCCCCATGAAATATCTCTCGTTATATCCCAGTCATTCAATCCATCTTCTATCCATTTGATAACATAGTTTTTTACATCTGTTTGTAAATTTTGATTATCTTCAAGCCATGTTTTTAATTTATTAGATAGTGCTGAAAGCTTAAAGAAATAATGAAGACTTGTCTTCAAAATTGGTTGGTTCTGGCAAATTGCACATCTGGGTTTTAAAATTTCTGAATGATTAAACGCTCTTCCACATTTTTCACATCCGTCTGAATATTGATTTTCTTCATTACAATACGGACATGTTCCCAATACATATCTGTCTGGAAGATATTTCTTATCATTATTGCAATATAACTGATTTATTTCTTTTTTATAAATTAATTTATTGTTATTAATCTGATTGAAGAAATGTTGTGTTAATCTAATGTTTTCTTTAGAGCTTGTATTCTGAAAATCGTCAAATTCAATTCCTAAATCTACGAAATCTTTCAAATCACGATTCTTCCAATATTCTACATATTTTTCTGGCGTTAAGTTTTGTTTTTCTGATTGTAATAGTATGGGCGTTCCAAAATCATCGGTCGCGCAGGTGAATACGACATTCTTTCCCATCTGTCTATAAAAACGAGATAATATATCTGCTGGCAAATATGTTGATACGATATGTCCTAGGTGTATTTCTCCATTTGCATACGGTAATGCACTAGTAATAATAATATTATCCTTCATTAAATTTCACATTAAAATTGTTGTCTAATCTTACTGTATTATAATAATTTAAAAAGTTAAATACACATATTCTCTTAGCCATCATATTGAAAATATCAATAATTGTACCTGCCTATAACGAAGGGTTGCATTTACTTAAAAATCTCACTAAAATTAATAATTCATTTCAATTTAATGATTTTTATGATTATGAATTCATAATTTGTGATAACAATTCTACTGATAATACTAGTATTATTGCTAATGAATTTGGTGCGAAAGTTATATTTGAACCAATTAATCAAATCTCTAAGGCTCGTAATACTGGCGCAAAAATTGCTACTGGTGAATGGCTTGTTTTTATTGATGCCGATTCATGGCCTTCTAGATATCTTATTAGAAATATGCTTGATCAAATTTACATGAACAAAGTTATTGGTGGCAGTTCTTTAATACAATTTGCTTCCTGTCCATTGTGGTGGAGAGCTACTTGGAAATTATCGAATTTTTCTATGCCGCTGTTTGATCTTACTCCTACTGGCGCATTTATGTTTTGTAAAAAATCTACATTTCATGAAATTGGTGGATTTGACGAAGAACTTTTTGCATTAGAAGACTTGGATTTCTCACGTAAACTTAGAAATTTTGGTAGATTGATTGACAAAAAATTTACTATAATTAAACAACCTACTTATACATCCTCTAGACGTGTAAATGATTTCAAACCAAGAGATATTGTCAAACTTGCTGTTTTATTATCCAAAAGTGGCAAATCTACATTGAAAAATAAAAATAATTTTCTTCAATGGTACTCTAGAAAATAATAAGAAATTTTTATATTTAGTAGATTGCTTTTTTAATTAAATTGAAGGCTTCATTATTCTATAAATATGGTTCTCCTGACGTTCTTGAATTTGATGATATAGAAGATCCAATCGTCGATAATAACGAAGTTTTAGTTAGAGTAAAGGCTTGTTCCATTAATCACCTTGATCTCTGGATTAGAAGTGGAAAAACTGGTTATTCAGATATTAAATTACCTCATATTCTGGGATGTGATATATCTGGAATAATTGAAGATTCTGGTAACGCATCTGGTATTAGCAATGGAGACGAAGTCGTTGTAGCTCCTGGAACGAGTTGTGGTAATTGTAATCAATGTCTTCAAGGCCAAGATAATTTTTGTAGAGAATATAGTATTATTGGAGGCTGGGGAAGAAAAGGCGGCTATGCTGAATTTGCTTCAGTGCCAATCCAAAATATTATGACAAAACCTAAACATCTCTCATTTGAAGAATCTGCATCTATTCCGTTGACCTTTTTAACTGCTTGGAATATGTTAGTCAAACGCGCACAAATTAAAACTGGAGAAATTGTATTGATTGTTGGCGGTTCTAGTGGTGTTGGCAGTGCTGCAATACAGATTGCAAAATTATTTAATTGCTATGTTTTTGCTACTGCAGGAACTGAAGAGAAATTAATCAAAATGAAAGAACTTGGCGCTGATTTTGTCATTAATCATAGTAATGATGATTTTGGTGAAATTATAAGAGAAAACACTAATCGTGCTGGCGCTGATGTTGTATTTGAACACGTTGGCACTGCAACTTGGTCTAGGAGTATTGATTCACTTACTCATGGCGGCCGATTAATCACTTGCGGTACTACTACTGGTTCTGAAACTGATTTTGATATTCGTATGCTATATAGAAGACAGTTGTCAATCATGGGATCCTTTATGGGTTCCAAAGGAGACTTATTTCATCTTCTTGAGTTTATCAACATAGGTGCCTTGAAACCTGTTGTTGGCAACATATTTCCTCTTAAAGATGCAAGTAAAGCTCATGATTTGATTGAAAATAGACAGCATTTTGGTAAGGTTATTCTCAAGATTTAATACTTAAACAAACAATTCGGTATTATTGATATGAAAAGTGAAAAATCAAATTCAAAAAAACTGACTAGGACTTGTTATTCTAAAGATATTTCTCCAGATTTTGATAATAAAAAAGTTACAATTATTGGTTGGCTTGTAAGTATAAGAAAACAAGGAGGAATATATTTTATTATGTTATATGATTCTACTGGCCCTTTACAACTAATTATAAAAAAAGGTATTTCGTCAGATGAGATTTTTACACAAGCAGAGACATTAAAAGAACATTCATCTGTTGCAGTTCTTGGAACAATTAAAAATAATCAAAAGGCTCCTAATGGCATTGAATTACATCCCGAAGAAATTTCTGTCTTGTCTGTTTCTAATAAAGTTCCTCCATTTTCACTTTATGGCGGCCAACTACCTAATATCGACAAACGATTCGATATTCGAGCTGTAGATCTGAAACGGCCTTCTGCACAGGCAATTATACGATTGCGTGCGAAATCATTACAATCTATTAGGAACTTTTTTATTAATAATGATTATCTGGAAGTTAATACTCCTAAAATTATTGCTACTGCAACTGAAGGTGGTTCTGCTCTCTTTCCTATGTTATATTATGATAAGGAAGCATTCCTGACTCAAAGTCCACAATTATTCAAAGAACAACTTATTTTACCATTTGAAAAGGTATTTGAAATTGCATATGCATATCGTGCCGAAAAAAGCCGAACTCTAAATCATATCAGTGAATTTATTTCTGTTGATATGGAACAGGCATTTGTTAATTATAAGGATGTTATTATTACAATTCAAGAATTGTTGATTAATCTTAAGAATGATTTACTAGATTCAAGTCTTGACAAATTGCAAAAATTGAATTCAGTAGACTGGACAAATTTTGATAAAATTCCTGTTATTACATACAATGAAGCAATTGATATAATCAAAGTTGACGATCCAACAATTGAATGGGGTGATGATTTGTCATCTAAATCATTAGATATTTTATCTCAAAAATATCAATCATTCTATTATGTTATTGATTGGCCCTCTTCTGGCAAACCATTTTATATTAAAGTTGAAGGAGATTATTCTGAATCATTTGATCTAATGTTTGGTAATAAAGAATTAGCTTCTGGAGGCACTCGTGTAGATAACAAAGATGAATTACGAGTACGATTAGAACAAAAGAATCTCAATCCTAATGGATTTGAATTCCACCTTAATGTATTTGATTATGGTATGCCCCCACATGCAGGATTTGGTTTGGGATTTGAAAGACTTATGATGATTGTTGCTAATCAAGATAACATAAGAGAGGTAAGTATATTTCCAAGAGACCAACATAGACTTTCGCCGTGATAATTATTGAAAGATAAAAAAATCATTGACTCAAAAAAATATTCTGAGCTCTCTAAAATTGATTTATCTTCAGAAGAGGCCGAAATACTTAATGAACAATTTCCAAAAATTCTTGAATACTTTGATTTATTGTCCCAAATTGATACATCTAAAATTGATCATATCGAATCAATTTCAAACGTTTTTCGTGAAGATATCGTTCATGATTCCATTGCCGATGAGATTCTTGATATACTTAATTTTAAGAAAGAACGTTTTGTTAAAGGCCCTAGGATGATATAGAAAATGAATGATCTTGCTAGTAAGTTTGAGGATATTAAAGAAAAAAATAAATCAATAAACGCTTATCTTACTTTTTCCAATTTAAATACAGAACAATTAATTAAAAATGGTAAGTTATCTGGAAAAACTATTGCGATAAAAGATACGATATCTACTGAAGGTTTGAGAACAACGTGTGCCTCAAAAATGTTAGAGAATTATATTCCTCCATTTGATGCACATGTTGTGACGTTATTAAAAAAACATGGGGTAGTAATTCTAGGCAAAACGAATTGTGATGAATTTGCAATGGGATCTAGTACTGAACATAGTGCATTTGGCCCAACTTTTAATCCTCATGATCTTGAAAGAGTTCCTGGTGGTTCTTCAGGCGGAAGCGCTGCTGCTGTTGCAGGTAATTTAGCCGATTTGGCTTTAGGAAGTGACACTGGCGGTTCTATTAGGTGCCCTGCTTCATTTTGCGGAATCGTTGGTTTAAAACCAACATATGGTCTGATTAGTCGTTATGGGCTCATTGCTTACGGAAATAGTTTGGAACAAATTGGCCCAATGGCAAAAACTGTTTATGATTGTGCATTATTGTTGGAATGCATTTCTGAATATGATAATCGTGACGCTACTTGTGTAAAAACAAAAAATATTGATTATACAAAAAATCTTGATGAAGATATTAATGATTTAAAAATTGCAGTACCCAAAGAATTTTTTGGCAATGGCACTGATAAAGTTGTTGAATCAAATGTTTGGGATACTATTAAAAACCTTGAATCAGAAGGCGCTATTGTTGAAGAAATAAGTATTGAATCTGTGAAATATTCTCTTCCCGCTTATTATATAATTGCAATGTCTGAAGCTAGTTCTAATCTTGCAAGATTTGATGGACTTCGATATGGATTACATAGCGGTAAATCTAAAGATTGGAACGAACTCTTTTCTAAAAATAGAAAGCTTGGTTTTGGATTTGAAGTCAAGAGAAGAATCATGCTTGGTACATTTGCATTATCATCTGGATATTTCGACGAATATTATATTAAAGCACAACGTGTTCGTTCATTAATTGCTAATGATTTCAAGAGAATTTTTAGTAAATTTGACGTAATTGTATCTCCTACTATGCCAACTTTGCCTTTTAAAATAGGAGAAAAAATAACTGATCCATTAACTATGTATATGAGCGATGTAGATACTGTTTCTTCAAATCTTGCAGGAATTCCCTCTTTATCTGTTCCTTGTGGTCAATCCAACTCACTTCCTATAGGCATTCAATTAATGTCCACTCATTTCAATGAGAAATTAATTCTAAATCTTGGAAATAAAATTGAACAATTAAGAGGCATGGTAAATTGAATAACTCTCTTGAAGGAGTAAAAATTGGCCTAGAAATACATTGTCAGCTTACATCTCTCAATACAAAGATGTTTTGCAATTGTTCTTCAAACTATCGTGGAAAAGAACCAAATACAATGTTATGTTCTGTTTGTACAGGTTTACCAGGTTCTCTTCCTGTATTGAATAAAAGGGCTCTTGAGGCTGCTATTAAAATTGGATTGGCTTTAAATTGTAAAATATCTAACTTTAGTAATTTTTTCCGCAAAAATTATTTCTATCCTGATTCACCTAAAAATTATCAAATTACTCAATATGATAAGGCAGGAGGAATGGCTATTGCCAATAAAGGCCATGTTGAAACAAATCTTGGACACGTTCGCATTACTCGTATTCAAATGGAAGAGGATCCAGGCAAATTACAATATGAAGGAAGCATAACTACATCATCAAATACTCTAATAGATTACAATCGTGCTGGAATATCTTTAGTAGAAATTGTTACTGAACCTGACATCGTATCTCCTAAACATGCCAGAGAATTTCTTAATACAATTCAATCAATTGTAGAAACTATTGGTGAATGTGATAGTTCATTCGATGGTTCGATGCGTGCGGACGCAAATGTGTCTATTAGTGGCGGCCGAAGAGTGGAAATAAAAAATATATCTTCTTTTAAAGAAGTTGAACGCGCATTAAATTTTGAAATTACAAGACAGAAAACACTTCAAGCAGCTAATAAAATGGAAACTAGACATTGGGATGATGTTCGTCGCGTTACTGTAACTCTTCGAGTCAAAGAAGACGAAGAAGGCTATAGGTATTTTCCTGATCCTGACTTGCCCCCTATGATGATTTCCGAAGATTATATTTCAGGATTACAAAAATCACTTCCTGAATTGCCTGAAAAACGTTACCTCCGTTTTGAAAATGAAATAGGTTTATCAAATGAAATTGCTAGAATACTTGTTAAAAATAAAGACATTGCTGATTATTTTGAAGAGTCGTTAAAATATGGAAACTATCCTAAATTAATAAGTAGCTGGATTGCTACCGATATACTAGGATATCTTAATAGAAATGATCTTAATTTTAATGATTTGACTGTCACTCCTAATATGATAGCCGAGCTTGCTAAATCTGTATCAAATTCAAAAATTAATGAATCTGCCGCTAAATCTATTCTTATAAGATCAATTTCTTCTAATGAAGATATTCTTACTTTATTAGAATCAGAATTGACCAATTCAGTAAATTCAGAAGAACTTGTCAATATTGTAGAAAATGTTTTTCAAAATAATCCAAAAGCAGTTAATGATCTAAAAAGTGATTCACAGGCAATACATTTCTTAATTGGCCAAGTAATGAAAATTACTAAAGGCAGAGTAAATCATGAAGATGTTAAAAAACTTATTGAAGAGAAATTGGACTGTTAAGTAAAGTGAATTCAAAGTCATTAATGTATTTTGGACTGTCTTTAATTTTGATCTTAATTGCCCCGCGTTTTTTGGTAATAGGCATACCTGACGCCAATGTTATTGATTTTTTAATTGGATTTTTTGTAGTATTTTTTTCTTATCTATTTTTATCTCTAGGTATATCTAATACAGTAGAATAATTATTTTACACCTAATGTGTTTCCTATTCCAGCAATTATTATGTTCTGATTATCTTTTGAGTGTTGTTTTATTGTTTCCTTTATTTTTTGTAATAATATTTCTGCGGTTTTTTCTATCTCTTCTTTCATTTGAGTGATAGCTTCTTTTTCTGACATTTTTGTTACTACGGCTAAGTATTTTATTTTATTATTTGTGGCAATTTCTTCAATTTTGTATCTTTCTACTCCGGGACCTCCTATTGCAGCTCCAATTCCTTCAGCTATCTCGCCTGTTTTTTCTCCTTCTAATTTTAATGCCGCATCTATTGTAATTATTAATGCTATATCATTTTTCATTTCTACAATTTTTTTTATTGCTTCTCCTGGTTTTCCTACATTTCCTCCAGGTCCTTTTGCTTTCACGATAAAGGCATTTCTATTTTCTATTATTACTTCATTTACTGTTGTATCTTTTACTAATTCATTACTTTCAGATTCTCCACTTAACTTTGAAGCAACTAGTGGTCCTATCCCATCTCCTATTGGTTTTTTTGCTTTTAGAGAAGGTATTGCTGCGTTATATGCTTCTGCTTGCTCCATTATTTCATGTAAAACCATTTGAATCTGCGCTATAATCATTGGACTTCCTGTTTTTTTTCCACTTATGTAGAAATGCCTTACATATTTATACATTAAATTTATTCCTATTGATACTTCAACTAAATTCATTAGAACACTGATATCTACATCATCTGTATCTTTTGTCATAATTTTTAATTCATTTTTTAAATTATCTTCTTGTGTATCTAATATATGTTCAAGTTTATTCATTATTCCTTTTGGATCCATTGATACAGGTGGTATTACAAATGATTGAAGCAATATATCGAATCTTTCTTTTGTTAATTTTTTGTCTTTACTATGATCTATTAAACTCTCTAATACTCTATTTTTTGAATCGACATTAAATTTTTCTAATTGGGTAAGTTTTTTTCCAATATTTCTAAGCATTAGAAACATCTGAATTCTTTGACCATAAAATATTAAAAACATGAATATTGGTAACCATATAATACTCACAAGTGAATCAAGATTTGTTTCTACCATGTCATTACTCATTACTCAATAAGTGAAATTTAAGCCTTGTAGAATCGTTATCAAACTCTTTTTATATTGGAAATTACTATTAATATCGATTTTGCCGAAGACTAAATCTGTTATTAGTGTTGAAAATGTTGTCGCAACTGGCAATCTTAAACAAAGTCTTGATTTAATTGAGATTGACACTACTTTTGAGCAAACAGAATATAACCCGGATAGATTTCCAGGATTAGTATTTAGATTACCTACTCCAAAGACTTCTACTCTTATTTTTCGAACTGGCAAAATGGTTTGTACTGGTTCTCGTTCTGAGGAACAAGCTGTAATTGCAATCAATAAAGTAGTAAAAGAACTCAAGAAAGGTGGTATTAAAATTAAAAATAAACCAATTTGTGAAGTACAAAACATAGTTGCTTCAGTAGATCTTGGTGGTCAAATTGCTCTTGAGGATGTTGCTAGACAACTACCTCGTTCAATGTATGAACCAGAACAGTTTCCTGGTGTAATATTACGTGCCTCCGAACCTAAAGCTGTCTTTTTGATATTTTCTAGTGGCAAACTTGTTTGTACAGGTACAAAACAAGAAAAGGACATATACACTGCTGTAAAGAAACTTCATACTAGACTTGAAAAACTCAATCTTATGATTTATTGAGTTTAATAATATGTTTCTTGATTTTATTAATCTTTAAATTTAAGTTAAGTTGATTATTAATAGTTTGAATATTATTAATAAGTACACATACACATCTTTTATTTTATTTTTAATGCTTATTGCAAGTTTTTCATCAATTTATGTTATTGCTCAATCAGACAATGATCGTGGTTTTGCTTGGGAATCTGCAAATTATGATATTCGACAAACAAATTATAATCCACAAAATCAAATTACACGGGATACAATAGTATACTTGGCTGACGAATGGACTAACGCATTTATTATTCCTCCTGACATTCCTGGTATTGAACTTAGCATGGGGATGAGAGCTCGTCCACTTGTTTATAATGGAATTGTTATGATGCCTACTAATTTCGATACTATTTTTGCACATAATGTTCAAACAGGGTTGCCACTGTGGTATTATGCATATCCTATGAATATGACTGCTATAATTGAAGAGTTTCCTGCAATTAGTCCTTATAAGCCCGGTGTTATTGAGGAAGCTACTGTTTTTGAAGGCTATCTTATATTTCCAACTGCCGATTGTGGAATGGTGTTTCTAGAATATTTAACGGGAACTCCTGATTTTAGAGGTGAACTTACAAGAGGTCAAATGTGTGATAATATAGAAGGTAATGGTGGTTATTATACTGGTCAATTATACAGTAGTCCTGTAGTAGATCCTAAAAGTAGAGTTCTTATAACTGGTACTACTGTTAGTGGTAAATCTGAATCAGGCCGAGGATATGTTGCAGGATATAATGTTGATAATGGGGAACTAATTTGGAGATTTTATTTAATGCCTCCTGCTGGCGGCGAACAAAATTGGGCAATGAAATATAATGGTTTAGGAAATGTTGATCCAACTCCAGACGATTGGGGAACAGCAACTAATGTTGGAGTAGGCCTTGCTACTGGTCAATGGGCAATTGATAGTGAAGCAGGTATTGTTTATGTAGGCACATCATCACCAGCACCAAATTTTAATGCTGTTAATAGACCTGGCCCTAATTTATTCTCATCTTCTATACTTGCACTCGATATTAATACTGGAGATTTAATTTGGTATTATCAAGCATCTAGTCATGATTTAAACGGTCATGGATGTAGTTGGAATACTACATTAGGAAATATAGATGATAAAAAAGTATTAGTTACTGCTTGTGATGATGGACGATTATTGGCTCTTGATGCTTCTAATGGTGAATTGATTTGGTCTTTTCTTCCACCTAATCTAAAATATGTTAATGTAGACAGTTCTGTTGATCCTGATGTAGATCTTGATAAAAAATGGATTCAGGACCCATCTTTAGATGGATATTGGCAATGTCCTGGAATTACTGGAGCTAGTGGCGGTTCTATTGCTATAGCTTATGGACAGGTATACTATATGACAACGAATTATTGTGATTATTTGTTACTCGAACCTGATAGTGAAAATAATCTTGATTCATTTGGTGCGGAAATAGACACAAAACTTCCATGGAAAGTTCCTCCATACAGAAATGAATCTGGAGTTTTTGAAGATCCCAACCTGTTGAAGAAATATATGCCAATAAATGCAACACTTTTTGCAGTAAATATAGAAGATGGTTCAAGTAATTGGGAGTTTAATATGCCTGAAAATCTGACCCATACCGGTGGTTTAATTGCAACTGGCGACATGATAATATTTGGTTCATTGGATGGCTCAATTTATGCAATTGACCAAGAAACTGGCGAACAAGTTTTTAGAAAAACCATTGGCGCATCATTAGGAACAACTCCTACTATTGCAGCTGCCGCGTCAGGCGAACAACATTTATTTTTGCCTGTTGGTGGATTGGATACAAGATATGGCCAACCTGTTTCCGGTGTTTTCGTAACATCTAAGATTCGAGGCGGCCCATTGGTTCCTATAGATTCAAATGCTCATGAAGAAACAATTGAAGATGCTGATTTACCTCTTAACATTGCCGTTCCTGTTATAGTTTTAATAATTCTTGTATTCTTGTTAGCATCATTTGGCCCAAAAAGAATTTTCTCTTTAATACAAAAATAACTAATCTTTATTAAAAAGCATAGTTACGAAAATATTATTAGGTGTATTAAATGGGAGTAGCCAAAGTTTCAAAAGTATTTGTTGTTTTACCACGTTCACATCTACCAAGTGCTATGGAACAACTTTCAAAGTTTGATTATTTTCATGCAGATCAACCTGATTCAAGCAATTATGATGAATTATTAAGTGATTATTCAAGGAGAACTTTTAAAATTTATATACAAATTTCTGATCTTGTTAAAGAATTAAACCTGAAACTCATTCCTGGCATAATGGACGTACTGAAATCTGGATATAAAGATTCATCTACAGATATCCAATTAGATAGATGGCATGATATGTTAACTATTCTTGAAACTAAAGCTTCTCCTATTGTTGATTCACTTAAAGAAAAAATAAATCAATTACATGTTATTCAAGAAGAAATATCAAAACACGAAGCAAATCTTGAAGCAATTAAGTTATTGTCAAATTATTCAATTAATCTTACAAATATGAAAAATTTTAATCACTTTTCAATTAATATTAGTATATGCAATACTAAAGATATTTTAGAAATTAAAAAAAGTTTTAGTGATTCTATATTTGTTAGTTCTGAACTTACTGATACACGTAGTATAATTCTAATAGCAATTCAGAAATCTAAAGAAGATATGATAGATAAAGTATTGCGATTATATGAAACTGAAAATTTCACTATTTCTGAGGAATTACCTCAAAATCCATCTGAAGCAACTGACTTTGTTCAAAAAACTCTACAGGAATACTATGATTCTCTTAATCAGGTTAATTCTGAATTGAAATCTCTATGTACAAAACATGAAGATGATATTTTCTCATATTTTGAATTGTCTAGAACATTATATGATTCTTGTGAATTAGTTAAAAGAACTGGTAATTTGAAACATTTTGCAATAATTAATGGATTTATACCTTTTAATCTAAAATCTGAATTTAATAATTCTTTTAATAATTGGATAATAATTTATGAAGACGTTGATCCGTATAATCATCATGATATTAATCATAAGCAAGCTCCAATTTTAATGAAAAATTCAGGTATTACCAAATCTTTCAAATCCATTACTCTTAATCAAGGTTTACCTAATTATGGCGAAGTTGATCCAACTTCGTTTATTACTTTATCATTTCCTATATTTTACGGAATGATGTTTGGCGATGTTGGTCATGGTTTGATATTGTTGTTATTTGGATTATTTTTATTGTATAGAAAGGCGCCCTTTTTAAAATCATGGGGACAAATATTTTCTCTTTCTGGTTTAGTTGCAATTTTCTTTGGTGTATTAATTGGTGAAGCTTTTGGAATTGAATTGCATAAAGTTATTTTTATAGAATCAATTAGTCATATTGACTTTATTGAACATCCAATTATTCATTTTATTCATCGTAGTGAGGGACATTTAACATCTATTGATGTAGGCGCTTTACGTACATTCTTAAAAATATCTGTTCTTTTTGGTATATTCCATATTGCAATTGGTAATTTGATTTCCATATATAATACTACAAAAAACCGAGAATACGACGAACTATTAATTGAAAAACTTCCTGCTTTTCTAATGTTTGTTGGATTTGTATTTCTTATGTTTTCATTTGTTGGAGCTGGATTTAAAATCGATCAATTATTTAGTTCACAAAGAGAAGCTCCTTTATTCTTTATTACTGAGAGATTTTTATCTAATTTTACATCTTACTTGATTTTGCCAATATCTACTGTTTCATTATATTCTTTTTCAGTTATGATGGTTGGTTTCTTTGCATTAATTGTTGGCAAACCAATTTTAATTATTACCGGTAAAGCACCAAAAAGTAGTATCGCTATGACAGTGTTAATTAATATAATAGATGGCGGAATAGAAAAAATTGCTGGTTCTCTTTCAAATATACTGAGTTATAGTAGATTAGCTATTTTACTTACCGTTCATTCATCATTATTAATTGTAGCTAATCTTGCACTTGATTTACCACTATTTGCTTCAATTCCTATGTTTATTATTTTGAATATAATAATTCTTGTGCTTGAAGGATTGATTGTATATATTCAAACTTTAAGATTACATCTTTATGAATGGTTCACTAAATTTTATTCTGGTTCTGGTTCAGAATTTCAAACATTCCCTGGTTCTCCTTATAATATTTCAAATTCACATATTAAATTAAAGTGGAAACAAAAAAATTAATATTTGAATCTTGATTTTTGTAAATTATTTAATTTATAATTATGTGATTAAATTTTCTTGAATTGTTTTTGATTCTATTGCATTTTCTACTCCAAATGCAATTGTTCCTATATTTGAAGCTTCAAATTCTTTTATTCTTATAATTGCAAGAGATACTGATTCAGAGAATGCCTCCCAGATAAATATTTTATTGAATTTTTTATATTCGTATTTTCTTAAATTATTTTCGAGTATTGAAATACTATCTATATCACTTGTAAATGATGATGGTATAAGTTTTTTATATTTAGTAGTTTCTAACATTTTAATTGACGATTCTATGTTCTCTGATGTTGACATATTTTTTAATTTTTGAATTGAAATATCAAATGTCGGCTGAATAAATATATTTCTGATTTGTTCTACTTCAAATTTCCATTGTTTAGCCCTTAATGTGGAAAGAATATTATATGAATCAATAAAATATGAAATAATTGGTTTTAATTTTGAACCTAATGATTCTGTATAAGGAATTTCTGTGTCATTTAATTTTTTATATGTGTTCGATAATTGCACATGATATGCTTTGTCTATATAAACATCAAAGATATCAATTTGTGAATTTTCTTTGTATATTTTCATAGCAGTAGTTATGTCTTTACTGAATTCACTTCCTGTAAGTGAATCAACTGAATCTTGAAGTGTTTCTGCAGTAAGAACTTTTGCAATTAGATCTCTTCTTCCTATTAGTTCTTCTGGATATAGATTAATGTGATTTCTTAATTCTTCATCTGATTTGTTCAAGGCTTTGCCTTTTAATATTATTTTTAGATTTCTTGCTATATGCTTCAAATAATATGTTAATAATAATTCAGTTCCTGGAGATATTTTTAGAAGACTATAATGTATATTTGCTACATGTTCCAAACATGCATTTTCTATTTTTTTTGCAGAAATTTTTCCATTAATTCTAGATATCGCTTGGTCATAAGCTGTAGCTTTTAATTTTGTGGCTAATTCATCGACATCTAATGATTCTGTTAGTGATGTTAGTGTTTGTTGATCTAATATTTGACCTCGAAAAGCATATGCTTTTGTAGCAGAATAAGTTTCATCCTGTAGTAAACTATTCATTTTAGTGTTTAAACACCTAATATCTTTTTAATTACATCTTTAACTGCAGAATCAAATTTTACATCAATTTTTTTCTGTAATTTGGTAGTATCTGATTCACCTTTTTTAATTATTTCTTTTGCTTTAATTTTTTCTTTATTAATATTTTTACTAACATTTGTTTCTTTATTTTTATTTGCTTTACTTATTATTTTATTTTGTATGTTTTCAACTTCTTTTTCTGTTATTTTAATTAATTCATTTTTTTTTGTTTCAGTTTGATTTTTTATTTTATCTAATTCATTTTCAAAATCTGATAAGGAATTTATTACTTGTTCAATTTCTCCTTTTTTATCTGTCATTATAAAAAAACTCTTATATTCCTAATATTTAACTTATTTTAATTTTAGAATTGCCTGTGCAAGATCTCCGTCTGTTTCTTCTAAGGCATTTTTTGCAACTTCTGAACTAACATTTGCTTGTTGTGAAACTAATATTATATCTTCTTCATTAATTTTACTTGTTTCTTTTATAATTTCTTCTATGTCATTTCCTAATATTTGATACATATCAATTCCTTTACTTTTTATTTTAGATACTTGGGGCGCTTTAATTATTAGGTCTTTTTCTTTAGTTTTTATAACTACTTCTTCAACATCTGGAATTTCTTCTAAATTTAATCCCATTTTTTCAAGCATTCTTCGACTTTGTCGATTATCCATATTAAAGTTCATATAATTATTGTTTTGTTTAACTCTGATAAATATTTTACATTTTAAATATGTCTTACTTTAATTGCTACTCCTATATTTGATTTTTTCATTATCTCAAATGATGTTATTGCTTTCCCAATTCCGATTAATTCTTTATTTTTATTGATTATTATTGCTTCAGAATCTGGAAATATATTCTTTCCAGCATCAATTACATGTTTGTTAAAAACTGATTTCCCTTCTTTAATATATTCCTTTATTTCATCAATTATTATTACTGAATTCATCATATAATTTGAGTGTTCAAGTAATATTTTAGCAGCTTCTAGTGTTAAGGAATATGTTCCATTAGCTTTTACCGTCGCAAATAATTTATTATCAACATATATGAATCTGAGTTTATTTGTATTGTTTGATAATTTGTAACTGATTTCTTTATCATGAAATAATTCATTTGTATTATTTCCAAATAAATAATCTACTGTATACAATATTTTATCTACATAAAAATTATTTGTCAAATCATAATGATTTATAATATATGATTATAAATCATTTACTCAATGCAAATTACACTTTTACGATTAGGTCATAGAATACATCGTGATTATAGAATGACTACTCATTGTGCATTAGTTGCTCGAGCATTTGGCTCTTCAGAAATGTATTATTGTGGTAATGAAGACGATAAATTAATTTCTATAATGAAGAAAATTAATGAATCATGGGGCGGTGATTTTAATATTCAATATTTAGATAAATGGAGACCTTTTATTAAAAAATGTAAAAAAGAAAACTATTTTATTATTCTTTGTACAATGTATGGAAAAAATATTCCTGATGTTGAAATTCAAATTCGTAAAAAATTTAAGACACATAATATTTTAGTTGTGATTGGCTCAGAAAAAATACCATTTGAATTATTTAGTTTTACAGATTTAAATGTTGCAATTTCTAATCAACCGCATTCTGAAGTTGCCGCATTAGCAATTCTTCTAGATCGTTTATTTGAAGGGAAACAACTTCAATCTAAATTTGTAAATTCAAAAATCGATATTATCCCACAGAGTACAGGGAAAAAGGCTGTTTATAAATTATAATTTTTTATAAACGTTTGAATGTATTTTCCTATTTCTATCGTATTTGAATTACCTCCTAATTCAATTGATTTTATATTATTATTAAAACTCGATATTACAGATTCTTGAATTATTTTTGACGCAATTTTGCATTTAGTATCATTATTATAATCATATAACCAGTCCATCATCATTTTTATTGATAAAATCATAGCTATTGGATTTGCTATATTTTTTCCTGCAATATCCATTGCTGCACCGTGAACCGGTTCAAATAAAGCAAAATTATCTCCAATGTTGGCTGATGGGGCTAATCCAAGTCCACCAATTATTTGCGCCGCCTCGTCTGATAATATATCTCCAAACATATTTGTTGTAACAATTACATCAAATTCTTTTGGATTTCTTATTAAATTCATTGCACATGCATCGACATATAATTCTGAGAATTCAATTTCTGGATATTTATTTGAAACATTTTTTACACAATTTGAAAATAATCCATCGGTTATTTTTAATACATTAGATTTATGTACTGATGTGACTTTCTTTTTTCTGTTTTTAGCAATCTTAAACGCATATTCTGCAATTCTTGTAGATGCTTTTTCACTTATTGTTCTTAATGCTATTGCTTTATCATCTATTCTAAATTCTTGACCTTTGTAGAGATCCTCAGTATTTTCTCTTACAATTAATATATCAATATCATTTTCTAGACTTTTTATCGTAGGGAATGATTTTGCTGGTCTTAAGTTTGCATATAGATCAAATAATTGTCTTAATTTGACTATTACATCCATTGCAGATTCTCCTACCGGTGCTTTAACACAAGCATCTGTATTTCTTATGTTTTCAATTGATTGTTCTGATAAGGCAATTCCATCTTCTTTTAATGCAACATCTCCTGCCTTTATTTGCTTTATTTCAAAATTAATGTCAAGTTTTTCATCTATGGATTTAATTACATCAATTCCACATTTTGTAATTTCTGGGCCTATTCCATCGCCTGATATTACTGATATTATATAATTCATAAATTTATCATTTCAATTATTGATGATTTTCTAATTTTGTTTTTATAACATTATTTACTAATCCTATGATTTTACTAATGTTATATGGTTCTATAATCACATTATATTTTTTATTATATTCATTTTCTAAACTTCTTCCTATTGTATGAGCATTACTAGTTTTAATTTCTGTCCGTTTAATTTTTTTACTAATTTTATTTTTATCTTTATTAATTAAAGTTAATGTAATAAATTTAGATTCAATATTCATATTTATTTTCCATTCATTATTAAATTTTAAATTATTATTGCTTTTCATAATTCTGATAATAATTACTTACGCATAAACTTAACTACTTTCATTTATTTTTAATAATCAATTGAGTATATTTGCTGATACATTGATTATTGGTTCTGGAATTGCAGGCCAACGTGCTGCACTTGAAGCTACTAAATATTCGAATAATGTTAAATTATTAACTAAATTGCCTGTAATGCGTTCCCATTCAATATCTGCTGAAGGAGGAATTAATTCTGTTTCTTTACCAGAAGATTCAATTCTTAATTATTTTATTGATACAGTAAAAGGCTCAGATTATTTTGCCGATCAAGATGCAGTACACAAATTAGTAAATTGCGCTAATGATGAGATATTATTTCTTGAAGAAATCGGCGTCAATTTTGATAAACATGATAATAATTTATTTTCAGTAAATAAATTAGGCGGCTCTAAATTTTCTCGTACACTAAATTCATCTAATCAGATTGGCTTTTTTATAATGAAAGCATTGCTTAGTGAAATAAAAAATAGTAATATTCAATTAATGGAAAATTGGCAGGTTCTTGATTTACTTGTTCACGATAATCAGTGTTATGGTGTAATAGCAATAAATACTGATAGTTATTTAATTGAAGAATTTCGTTCAAATACTGTAATTTTAGCTACTGGACCTGCTGGCATTATTTATAAAAATACAACAAATTCAACAGCTTGTACAGGGGATGGAGTCGCAATTGCTTATCGTTCTGGCGCATTGTTGAAAGATATGGAATTTATTCAATTTCACCCAACATCAATACTTGGTTCAAACGTTCTTATTACTGAAAGATCACGTTCAGTTGGCGCTCATTTATTGAATAAAAATGGCGAACGATTTATGCAAAAGTACGCTCCTGACAGTCTAGAACTTGCCCCAAGAGATATTATAACTAGAGCTATTATGAATGAAATTAATAACAAATTGGGTTTTTATGATGAGAAATTTGGCGATTATATAGAATTATCTTTTAAACACATTCCTGTTGATATAATTAATGAAAAATTAGCTGACGTAAAAAAATTAGCTATTTCTTTTACTAACATTGATATTCATACTACTCCTTTGAAAATAATTCCTGCACAACATTATATGATGGGAGGAATTAAAATTAATCTTAATTGCAAAACTTCTATCGATCAATTATTTGCCGTTGGTGAATGTTCTTGTCCCAGTGTACACGGCGCTAATCGTCTTGGTGGCAATTCTTTGATTGAATGTTTAGTTTTTGGAAAAATTGCAGGCGCTAATGCAAGTAAAAATAAAAATTTTGATTATAAAGATTCTATTAATTTTGATTTACTTTCGTCGTATAAATTATTGACGAGACAATTTTTACAAGAAAATAATTATTGTAATCTTCATGATATATCTACACAATTACAATCTTTGATGACATCTAATGTTGGAATATTCAGAACTAGTGAATCTTTAACTTATGCTATTGATACAATTAAATCTCTAAAAAATCAACTTACTAATCCTCATTTTGATAGTTCAATTACTTCAACTTTTGATATTTGTAAATATTATGAATTAATCAATATGTTTGATGTGTCTGAAGCTATATCTCGGTCAGCCCTTATGCGTGAAGAAAGTAGAGGTTCTCATTCTAGGTTAGATTTTCCATTTAGAGACGATCAAAAATGGCTAAATCATATATTAATTCGCAAATCTGGTTCTGATTCTCAAATAACTACTGAAAATGTTATAATAACTGATATTAAACCTGATTTAAGAAAATATTAAAGTACCTAACATTTTTATTTTATTCAATTTAGCTAGTAATTAATTGACAAAAAAAGCTGTGATTATTCGAGGTGACGGTACTGGACCTGAGCTTATTTCTTGCACTTTAAAAATTCTTAATGCCGTTAATCCAAATAATATCGAATTCATTGAATGTGAAGCAGGCGCAGAATGGTGGGAGAAAAATCATGGTTCTAGTTTAATTCCATCTACTACAATGAAATTAATAGAAAATAGTGACGCTTGTCTTAAGGGTCCAACTATTACTCCAACTATAGTTAGTGCTCCTAGAAGTGTAGCTATTACATTGAGACAAAAATTTGATCTTTATGCAAATGTTCGCCCAATAAAAGGTATTTTAAAAACTAGTTCCAAATCAATCGAAATGTTATGTATAAGAGAAGGGACTGAGGGATTGTATAGTGGTATTGGTTTTAAAATTGATAACGATACCGCAATAACTATAAGAAAAATTACACGTTCTTCTTGTAATCGAATTGCAAAATTTGCTTTTAATTCTGCCAAACAACATAATTGGAAAACAGTAGTTCCAATTCATAAGGCAAATATTCTTCGTGAAACTGACGATATATTTCTTGAAGAAGTAAATAAAATTTCTAATGAATATCCTGGTATTGATGTTGAAGATTATTTTATTGATAATATGGCTCAACAATTATATAAAAATCCTGAACGATTTAATAATAAAGTATTATTGAGCACAAATTTATTTATGGATATTATTTCTGAAGAAGCATCTGCATTAATTGGAAGTATAGGAAATGTTTATTCTGCAAATATAGGAGATAATTATGCAATGTTTGAGCCTGCACATGGAAGTTCTCCAAAGTACAAAGGGCTAGATAAAGTTAATCCTACTGCAACAATATTGTCTGCTGCTTGGATGCTTCAATATCTTGGAGATATTAAATCAAGAAATGCTATATTCGAAGCGACAGAAAAAGTAATTTCTGAAGGAAAATATGTTACTTATGATTTAGGCGGTAAATCTAAAACATCGGAAATGACGTCTGAAATCATTAATTATTTATAAATTCTAAAATGCTTATACGTTTCTTTTAATTTTATTATATTGTATGAGTTATGACGAAGATGATTTAAAAAAAGTAGCTAATACTAAAGAATGGTTAGAAAGAAAAGTTAATGATCTTGAAATTGAACTAAATACTCTAAAACAAACATTGGATGTTATTAATAGAATTTTACGAACTTCTAGTTTTCAGCCAGCTAAACATATTAAACAATCAAATTCTCAATTTGAGCAGGCTATAAATCAACATTCCTCACAACCTATAACAAATAATAACAATTCATATCAAAAATTATGTAATAAATGCAAAGTTGAAATTGAAATGCGTAAAGTAGACGAAAAGTGGGGCGCTTACATTCCTAATAGTAATGAACGCCATAAATGTGTTAATAATGAATAGAGAAAATATTATAGTTTTAGATTTTGGCGGTCAATATTCACATTTGATAACTAGACGAATCAGGGATTTATCCGTTTATGCTGAATTATTACCATATGATACACCTGCTAAAGAAATTGAATCATTGAATCCATCTGGTATTATTCTTACCGGTGGACCTAGTAGCGTTTATGATAAAAATTCTCCTAAACCTGATTCTAAAATATTCAATTTAGAAATACCAATTCTTGGTATCTGTTATGGTTTGCAAATAATTGTTGATGCTATGGGAGGATCAATTATACGAACTGATAAACGAGAGTATGGTAAAGCAACTTTATCTATATCATCTAACCAAAAATTATTCTATGGAATTGATTCAAAGACTAATGTTTGGATGAGTCACGGAGATGCTACAAAAACGCTTCCAGATAATTTCAAGTCAATTGGCACTACTGATAATTCGCCTTATGCAGCTATATGTTCAGATAATTTATACGGTGTACAATTTCATCCTGAAGTAACTCATACCTCAGATGGAACAAAAATTTTGAATAATTTTCTTTATGAAATATGTGGCTGTACAGGTTTATGGACGATGGATTCATTTATTGATTCTTCTGTAAATCAAATAAAGTCTCAAGTTGGAAATGATTCTGTTCTTTGCGCATTGAGTGGAGGAGTAGATTCCTCAACAGTTGCATTATTGCTTCATAAAGCTATTGGCGATAGACTTACTTGTGTATTTGTTGATCACGGATTACTACGTAAAAATGAGGCTGACGATGTTTTGAAAATATTCGATAAATTAAATATTAAAATCATTTTTTATAATGAATCTGATAGATTTCTTAGTTTACTTACAGATGTTGAAGATCCTGAAACACGCCGAAAACTCATTGGTCAAGAATTCATCAAAGTATTTGAAGAAATTAGTAAACAGAATGGCTCTTTTAATTGGTTAGCTCAAGGAACCTTATATCCTGATGTTATTGAAAGTGCTTCAACTGACGGACCTGCTGCAACGATCAAGACTCATCATAATGTTGGCGGACTTCCAGAAAAATTTAATTTTCAGTTAATTGAGCCACTTAGAGAATTATATAAAGACGAAGTACGTAATGTTGCTAAATTAATTGATTTGCCTTTAGATATCTTGAAAAGACATCCATTTCCAGGTCCAGGATTAGCAGTTCGAATAATTGGTAAATTTACTAATGAAAAATTATCTATTTGTAGAGACGCTAGTTATATTGTTGAGGAAGAACTTAAAAAAGTAAAACTTTATGATAGTGTTTGGCAGGCATTTGCTTTAGTTGGCGATGATCAAGCTGTTGGTGTTCTTGGAGACGAACGTAAAATGGGTTACATAGTAACTGTTAGAATTGTAGAATCAACTGATGCTATGACTGCTAATTGGGTTAGGATTCCATATGATGTTTTAGATAATATTAGTACAAGAATAACTAACGAGATTGATAATGTAAGTTGGGTTACTTATGCAATATCTAGCAAACCGCCGTCTACAATTGAACCACAGTAAATAATTAATCCTTCAATAATTCCTTTATCTTATTACTTACTATATTGCCGTCAACTTTTCCACGTAATTCTTTCATTACTTCTCCCATTAATATATTAAAAGAATCCTTTCCTTTTTCATTAATAATCTCTTTTTTCTTATCTTTTATTTTTAATATTATTTTCTCAACATCTTCTTCACTTAATTTATTTATATTAATTTCATTAATTATCTCATTGATGTCACTATCATTTTTACAAATGTCTTCAATTATCTTCTCAAAAGATTCTTTAACAATAACTCCATTTTCAATTTCTTTAAATATTTTTTCTAGTTCTTCATCTGTAATTTTATTTATATCTATATTATTTCTACTTAAATTAACTAATGTTTCAGTTAATTGCGCTGCAATAAAATTAGCAGGTAGATTTATGTCTTGTATTAATTTTTCAAATAGTGTTTTATATTTTGAATCAAATATCTGAATTGATAATTTATCATTTAATCCAATATTGTTTTTATAATTATTAATTTGTTCTTCATATGTTTGCGGCAATGTTTTCTTAATTATCATTCTTTTATTATCAGTTATTCTAATTGGAATTATGTCTGTTTCTGGATACATTCTTGCAGATCCAGGTCTAGGTCTCATATAATTGGTCTTTCCATCTTTTGTAGGGGTTCTTGTTTCTGCTGGTATTCCAATTATACATTGAAATAATCTATTATGAATACTTTTTAAAGTAATTTCCATGTTTTCTTTATTTCCTGCAAGAATTATGAATGCATCATCTGATTCATTTTTTATCCTATCGGAAATTTTATTCATTTCATCTTTTGTTATTCCATAATTAGGTAATTCGTCTGAATGAAATATTCCTCCATATCCGAAAAATTTTACTAAAGAGGAAATGTCACGACCTAATCTTGTTTCTTTATGATCTTCTTGTCCAATTAATTCTCTAAATTTTGGTGCTTTTATTATCATTACTTTACCTTTGTTCATTAGTATATTTTTTATTAATTTAGAATTTGTATTTTTGAAAATATCTGATATGTCTATAGATTGTGTTTTGAAATTCTCTTTTTTTATACCTCTTTCTAATAATTTTTTCTTGATTTTTAGTAAATTTGTTTGTCTTTGATTCTCAAATTTGATAATATCTGTTAACATATCTAATTGCTGTACTCCTTTTACTTCAATTATATTAATTCCATCTATTGAGATGTTTACATCTTGTCTAATTGTTCCTATGCCTCTTGCTACTTTCCCTGTTGTTCTCATTAATCTTCCTAAAGTTAATGCAATTTTTTCTGTTTCTTCTTTTTTAAATTTCACAGGAGCGAGTGTAATCTCTATTAATGGAATTGATAATCTATCTAATGAATAAGTTGATTGTTCTCTGTTTTTACTAATAATTCGTGACGCATCTTCCTCAAGACTTATTGAGAGTACTGGTATTTTCAAATTATCTACTTGTAATTCTCCTCCTGTGGCTATGATTACTGTTCTCTGAAAACCAGTGGTATTTGAACCATCTATGACTAATTTTCTCATTACGTGTATTTCATCGACTGGTTCAGATTTTAATAAATAGGATATTGTTAGAGCTATATCCAGGGTTTCCTCGCTTATTTCATGAGGCGGTTCTTCATCTGCTTCAACAAGACAACTTGTGTTTAAATTTGCTATGTAATTCATTCGTTTTGATTTTTTTGATTCAAATAATGCTGCTGGGTCAGTTTTACCTAATTCGCTCTGAGTAGGTCGTAAAATTCTTTTGAAATATATTTCATTTCCCGATTCTTGAAATCCATTACATTTACAAAATAATTTGGTTGAACTTGCAAGTTGCTGATGTATTTCTAATCCTACTTTTAATTCATTTGTATCATTTTCCATATTTCTATCTACCTAGTGTTGATCTTTCTGTATATTCTCCAGCAATATTTTTTAGCATTATTTCTTTGATATTTTCATTTTGATAATTTCCATATGCCCACATTAATTTTACTAATGCAGTTTCTGGAAGCATGTCTTCAAGTGGCGTTACTCCAATATTTAGTAAATCTCTTCCTGCTGAATAAACTGTCATTTTTACTCTTCCATACAAACATTGAGAGGTCATCCCAACAAATATTTCATTATTTATTGCTTTTTTAATTGATTCATTACATCGTGAATTGATATGACCTAATCCTGTGCCTTCTAGTATTATACCTTTTGAACCAGAATCTATAATTGTATCTATAATTTCTGAATTAAATCCTGGATGAAACTTTAGTAATGAAACATTTTCATCAAAATTAGTCTTTGGTTCAAATTTCTTATTATTTTTTGATAATTCTGTTCCAATTATTATTTTATCTTGATTTACAATTGCTATTGGATCAATTCCTATTGATTGAAACGCATCGCGTTTTGAAGTATGGTTTTTTCTTACTCTTGTACCCGAGTGAATGGAGACCTCGTTGTCTTCAATACTTGAATGCATTGCTAAATATACGCCATTAAGAATTTTTTGAGAAGCAACAATAACAGATGAAATCATGTTTAAAGACGCATCAGATGAAGGCCTATCTGTTGATCTCTGAGCTCCAGTAAGTATCACTGGTACTGGACAATTTCCTAAAGCAAAACTCAGTGCCGCAGAAGTATATGCCATTGTATCTGTTCCATGACCAATAATTATTCCTTCATTTCCTTCTTTGATTTTTTCTATTACTTTTTCTGCAATATTCTTCCAGTCATTTGGATTTATTTGTTCACTTGCAATATTGGAAATTAATTGTGTGTTAATATTTGCATAAGACGCTAATTCTGGTATTATTGAATATAATTCTTCAGCGGAAAATGCAGGGTTAACTGCACCTGTTTTGTAATCGATCCTTGATGCAATTGTTCCTCCAGTTCCTAGTATTGCTATCTTTGGAAGCGACTCTTTTACATCTGGCTTTGAGGGCGGTACAAATTTTGGTTTTTCACCGATCTTTATCTTATCTATATTTGTTATTTTTTTGGAATCTATTCCTATATTGTAACCATTTGTTAATTTTATTACAATGTAATTTTCATTAGAATATTCATATCTTGGGAGTAGATTTCCTACATATTCTGTTGTTTTTGTATTAATTTTTATGAAATCTCCAATATGTATTTTTGCTTCCGTGAGTAGTTTTAATGAATTGTCTTTATAACCACTTAATTCTGACAATGTTATTCATTAAAACTATTACATGCTATGAAATAACTTTTATTTTTATATTATAATTTAACATTTTAGTAATTGTATCATATAAAATATGTATGCCTTATTGCGTAAATTGTGGTAATGAAAAAAAATCACTGAATGAATCCAATTTATGTAAAGATTGTGCTACTCTTATTAATGCCATTATAAAAAGAAAATTACTTAAACCGGATAAAATTGTTGAATCAGTTCCAGAACCCGTTGTTGAGCCAGTTCCAGAACCTGTTAGAAAAGACGTCGTAAATAGTGTATCTAATAAAAGAAAACAAAAATTTAAAGTAAATAAATCAAAGAATGTTACAACCTTAAAAAAATCATATTTTGTTAATAAAATTATTCAGATTGGTTTTCTACCTGTTGCCTCATTATTACTTATTGGATTATTTCTAGGATTAATCTTTTCATCCGTTATAGAAACACCAGTGGGTATTAATTCTGATAATGATGGTGACGATGATAGCAGTTATATTAACGAATTAGAAATTTCATTAAAAAATATTCAATCTAAATTTTCTACTGCTCAAAATGAGTTGGCGTCTACAAAACAATTAAATAATGATCTTATAATAGACAATGATTTACTAACAGAAAAAATTCAACAATATGGTGATCTAGAGGCTACAATATATGATATTAATATAGATTTGGAAATTATTGAAAATGAAAAGGCTGGCCTTGAATCCGAAATCAAGAATAACTTGGATGAAATAGCTAATTTAGATAACCAATTACAAGCAAATAATATTTTATTTAGTCAAAAAGAAATCGAATTGAATGATTTGTCTTTTAAATTAGAAAATCTTGAAAATACTCAACAACAACTTGAGAATAGGAAATCTTCACTTGAATCTGAAGTTAACTCATTAAAAGATCAGATCGAAGATTTAAATTTTGAAGTACGAAGTCTTGAGGATTCTAATGTAGATCTAGAAGAACTTAATGCTGAATTACAAGAGAAACTTGACGATGCAGTAAGTACTTCGATAGAAAATTCTGACGAAGTTAGATTTCTTGCAAATACTTTAGAACAAAGTGTAGTAGCTGTACATACTTGTTATTATTGGAACGGTTACACTACTGTTGGCATACTTGGCCAATACCATTTTGTTAATGACAAATATTATTATTGTGTAGATTACGGCACAGGATTTTTTATTTCTACTAATGGATGCCTTCTTACTAATGCACATGTCGCATCTGGAGATGGTTTTATAGAAACTAATGTAGGAATATTGGAAAGAATATACATAATTGAACTTTCCAACGGCGATATGAAGAAAGCTTATTCATTAAAAGTACTTGGAACAACAAATGATGATCTATCATTATTAAGAATTAATTCTTTTTCTTCTACTCCTGTTAAATTAGCAGTTTCTCATCCAGTTGCCGGTGATCAAATAGTTACTGTTGGACATCCATCATTGTTAGGACATTGGGTTAGAGCTACTGGAGAGTATGAGTCTAGATCAGGAGATAATTATTATCTTGAACTTCCAGTATTTTATGGTGCTAGTGGCTCTCCTGTTATAAATATGGATAATGAGTTGATTGGCATAATTAAACAAATGCAACTGAAAGACCCTATTGTTCCCAGCGATGATGTAATTATCTCAAAACACAACTATGGAAAAGAACAATACGAACGTTTGCTAGGGATTGCCGATAATGTATTTGAAATAAAAAGTTTCTTAGCTCAAACAGTTTGCGTATAATATATTGCTAGAATGATAATACAAATTGACTAATTTAAGGCCTAATTCCTAATATTAATTCAATATCCATTATTTCGCCATTTCGGAATATCTTTAATGATATGTTGTCATTTGGCGCAAAGAAATGATGTAAAATGTAAGATATATCATGTTGAGCTCTTAATGAGTAACCACCCATAGATATTATTACGTCTTCTTTTTGTAATTCATACTTTTCTGCAGCAGAGTTTGACACAATATTTTGTATGATAAATCCTGTTGTTATATCTTCTGGCATTCCTCTTCCTTTAATTTGTATAGGATCTAGAAAAGAACCTGATATTCCAATAAATGGATGTTCATGGAATCCATTTTTTATTAAATTTGGGATGATTATTTTTGCTAAACTTGATGGTATTGCAAATCCTAGTGCTTCAAATTCTCCTCCTCTGTATCCCATTGTATTAATGCCAACAACTTTACCTCTGGAATTCATTAATGGCCCACCTGAATTTCCAGGATTTATTGGCGCATCAGTTTGTATCATGGGCAATATTGTTAAACCTGTTCTATTTGTTTGACTAATAACTCCTGCTGTTATTGATCCTACAAATCCTGCAGGACTGCCTATTGCAAATACTTGTTCTCCTATTGATATTTCACTTTCTAATTCTAATTTTTTGAATGAATTGGGTAGGTTTGTTTTTAAAACTGCCAAATCTCCTTGGCTATCACTTCCAATTATATTTGCTTCACTCATTGATCCGTCAAAATATACAATAACAAAATCATTTCCTCCTTCTATTACATGATTGTTAGTTACTATATGACCACTTTCATCATAGATGAATCCTGATCCTACTGCAATTTGTTGTTCCATTTGATATACTTTTATGAATACAACTCCTGCTTTATTTTCTTCATAAACTTTTTGTGCATAATAATTTGGTGATAATCCTTGTTGACCTTCTGGCCCTGGAAGTCCTTGTTGACCTTCTGGCCCTGGAAGTCCTTGTTGACCTTCTGGCCCTGGAAGTCCTTGTTGACCTTCTAGTCCTTGAAAAATTGCTGGATTGATAATTATTGTATATAATAATAAGATTAATGTTATAATACTAATAATAAGAGAAGAATATGATATTATTTTTAAATTACTACTCATATCTAGTACTAAATATAATTATTATTCATGTTTAATAATGTGTTCTTATTATCGTAATCAATATCAAATATTGTTATTAAATATATTTTATGTATTATGAAATAATTATTTAGAAGAAACTATTATATAATTTATGGAAATTCATGTAGAAAAATCTCCTTCTGACGAACAGTTGAAACAATTGAATGTTTTTAGCTGGCCTATTTGGACTAAAGAAATTTCTGAGTTTCCTTGGGAATATGACATTCAAGAAATCTGTTATTTTCTCGAAGGCAAAGTAATTATTACTTCTGACAATGGTTTACAAGTTAAATTATCTAAACATGATTTAGTTACATTTCCACAGGGTCTAAAATGTACGTGGAATATTCTAAAAAACGTGAAAAAACATTACAAATTTGGATAATCTGGTTCTTGAAATATAATAAAGATATTTGAATAGTTATATTATATTTATTACTTTTTAATAGACATTTTTACAATTTTAGATGCAATTGGAGAAACAATCAAAGCTATTGGAAATGACACAATTAGTCCAATTATAAATGATTGAAACCAAATATTCATAAAATTAGTAACAAAACCTATAGATACAAATGTCATTACAAGAGACATTACTAAAGACATCATAAATGCCATAATTCCACCAAATAATAAATCAGAAACATTCATTATCCAAGAAACACTCCACATTGAAAACAAAATCTATGAGTTTTTTCAACCTTAGTATTACAATTATAACAAAATACATTATCTTTTTTTAAGAAACTTTCTGGATTTCGTCGGACTTCATTTCTTTCTCGCGCTATTTCTAATTCTCTATTAAGTGAAATTATTAGTCTTGTATCACCTAATTTTTTCGCTATTCTTATTTTGTTTAATACTTCTATTTCTTCAGGTTCTATTTCATCCATATATTTACAAATAACTATGGTAAAGCTTACACATAAAAATTTATTATAAAAATTTACCAGAGAATAGGAAACATAATAGTACTTAGAAATAATAAAAGAACAAACCAAGTAATAATTGATTTATAAATTGGATTGGATTTATTCAATAATTGTATACCATAACTTTTACATTTTGGACAAAATTCATCAAATACAATATTAGTTATTTTTTTATCTGATATTTAGTGTTAAATTAAAATTATCGATAATATGACGGTCATTAATGTTAAAATAATTCCTATTGACAAAAACAACATTTCCGGTCTTTTATGTTGTTCCCTTATCTCGCTATAATTATTTCTATATCTATACATGGCATGAATATTTATTAATATTCCACTTGCTATTGCAATATATGCTAAAACTGCAGTTGTCTCTCCTGTTATAAGCGGTCTCATAGATGGCGCATTGCCCAATCCCTCGTCTTGTATAACTTCTACCTCAGTTAAGCCTCCTCTATATGTTTCTAGTGGAATTGCTGTTAATATTAATAATAATCCAACAAATAGCTGCATAAAATATTTTTTTTCTATTATAGGATATTGTTTACTTGGCCCTCTGTATTTTTCCATCAATTTGATAATAACTTAATATGATTATGCCTAAATATTTTACTGTCTTTAATATATTGGTAAATTGATTATGGTGGAAAATATCTTACTTAAAAGAAAAGAATGGAGCAATTTTTATTAATGATAAAAAAATCCAATATTTTTAAACCCACTTATGATTGGTCAAAAAAGACTGCTTTACAATTATATAATAAAGCAAATTTTTCTTTTGATGTTGATAAAATACATTATATGGATTTTATAAAATATTCTAATCAAATTTCTGATAAATCTATTAATTGTATTATTGCAGATCCTCCTTTTGGCATTTCATTTTCTGGAAAAGAATCACTTTATAATAGAAAATCTAAAAATGTTCAAGAAGGTTATGTTGATATAGAAGGGGATTACGATGTTTTTTCTCAGTCTTGGATTGCTGATCTTTCTCGAATTCTTAAAGATGATGGATCTGTTTGGATATTTAGTGGATGGAGTAATTTAAGTTCGATTTTAAATGCTATTTCAAACACAAATTTAAATTTAATCAATCATATTATTTGGAAATATCAATTTGGTGTTTATACTAAACGAAAATTTGTTAGTAGTCATTATCATTTGTTATTCTTGACTAAATCAAAAAATTACTTTTTTAATAAAATTACAAATTATCCTCTTGATGTTTGGGAGATTAATCGTAAATATTCTCCTAATGAATTAAAAAATGGTACTAAACTTCCAAACGAGTTAGTTATGAAATGTATTGATTTTACAACAAAACCTGGTGATTTAGTTTTTGATCCATTTGTTGGTAATGGCACTACTGCTGTTGTTTCTAAATCTTCATATCGACATTATTTTGGTTTTGAAATAAATAATAAAATGAAACATATAATTAATATTAATTTAAAAAAAACTGTGCTTGGTAGTTCTTATGTTCCATATAACAGTCGATTAATTTAATCCAAATAGAAATTAATTAACTTCTTGCCCATTTGGGTAGCAGTTTCTTTTTTTTCAAAAAACATTAATAATACAGTTATTATTGATTATTTAATTGTCTAAAGTTAACCCAAAATTAATACTGGTTCTTATTCCAATCGTATTGATTATAGGCTATTTTATTATTTTTAATCCAGAATCTGTAGTTGTTGAGCCAGTTGTTGAGCCAGTTGTTGAGCCAGTTGTTGAGCCAGTTGTTGAGCCAGTTGTTGA
>sequence05
CTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTCAACTTTGGCAATATTTCTTTTAAGAATATATTTTGAAAGATATTTTTTAGCTAAGTTTTCGTCGTTGTAAACATAAAATAGACCGGATACCTTATGTGAGCCTGCACGATGTGATAACTTAATTGAATATACTGTATCAGGATTAATACGTGCTTGTTTTGCAATCAATGTAGCAGCTTCGCGACGATTGAACATACTATTTTCTACATCAAAGACGGCAGAAATTTCAATTCGTTCCATGAGGAGATTTTCTAGTTTTTCAAATTTTTCGAAGTTCATCTAATACAAGGCTTATTAATTTCAGATATTAATACTTTAGGATATTTTCATCAAAACCCATTTTAATTAATATATCATGTACTTTGGTTTTTACCAGATTTGTAACGGAAACCACAACTAATCCTTCATCAGGCTGTCCATATAATACATAAGTATCTATTGGAGCAAATAAGATTGATGGAAGGGCAAGTAAATCTTCTTCGCCATTGACGACAATCAAAGTGTCTATTTGTTTTTTTATTATATCATGAATTAAAATAATTGATTCATTTGATAGAGTACCTGGAGGGTTATCTATTGTAATTTTTTTATTCCAAGTTAGTTTTGGGAACTCACGTTTATGTCGTTTTTCCATTAAATCAATAATCTGTATATTTGGTTTAAGTCCTAAACCTGAAACATTTTCAGAGGATGCGTCGCCAACAGTAATTAAAAATGTATAATCATTCAATACAGATTGTATTTCAGAAAATGAAGGTTTAAAAGATTTAATTAGAGTGCCGAATGGTTGCTTGAGAATATGTCGATATTTTTCTGGCAGATTTTTAACTTCCAAATTACATCAAGGCAAGTAATTGATATGTCTATAATTATGATACTTTAACAGCATATTTACCGGGTTTTGTAAATTCTAATTGTTTAGCAACTTGAGATTTATCTGGATTTGATAATATAATTAAACCAGACCAATTAGTACTAAGATCAGTGCCTCCGCAATTTGGACAAACACGGCCAGAAGTAATATTTTTACATTTTCGGCAAGCTAATTCCTTTTTCATTACTTTTTATCTTCCTGTTTCTTAGTTGAAGTTGTTTTTGAATTGTTTTTTAGATCTTCTTGAATCCAATCTTTTGCACCGAGATAAGGCTGTCGGCAAGTGACGCCAATCTTACCCATCGAACTACCACGAGCTAAACTTAGAGCAGTAATACGAACTCTTAACATTGTCCCAACATTAATTGTACGTTTACTTTGTTGTGCATAAATCAATCCTTGTCTTACATCACTATTTAGATACTCGTCAGTGATTTGAGATAAATGTAATAAAGCGTCAGTAGGTCCAATTCGAATGAATGCGCCAAAATCAGTAATTTCAACAACTTCACCTTCAACAACTTCTTGTAATTTTGGTAAATAAGTAAGAATTTTGAAGCTTACATTATGATAAGTCGCACCATCACCTGGTAATATTTTACCAATTTTATCCGTTTTAACTCCCATAACTAACACTATATATCCAAATTCTGGAGAAAGAACACTTTCATACTTCATTTTTAGCATTTTTGAAGTAATCTTATCCAGAGATCCACTGAAATCTTTTGGATTCACACGTACTATATCTTCTGCATCGATTATTTGAAACATATCTGCATACCTAGAACAATTTTATCACGAAAGGGAGTAATATGAATTTTTCGATTTATAGAAAATCTCATGATTTAGTTAAATTTATAGTCCAAATCAGTCGTGTTTTTTCAATAGTAATATAATCAATATGGGAAAGAATTGCTTTGCGAATAATATTACGGTCCAAGCTAGCAATTATTCTATTATTTTTTGACGCGCAAGCAACAATTTTATCATCAGTGTTATCAAATTCAGGAACATATTCTTTGGGAATATCTTTAATATAATTTAATGCACAAAGTCCTTCCTTAGAACGTTTGATTTTAGGGTCATGAGAAATTCCAATTAATTCTTTAACAACATCATCAATTGTAATGAGATTATAAGGCTGTATTTCAGAAACGTAATCAGAATCAGGTAGAGGTTTATTTGCGATATAAATTAAAAAACTAGTATCAAGCACAATAGTTCGCAAAATATTAAGAGATTACCCCCATTCCAATGAGACGCCATCTATCTCCAATTCTCCTACTAATAGCTAATCTGCTTTTATGTTCTACAGTTATTGGACGTCGTAGCTTAATTGTAGCTTTATCTTGAAGTAAATTAGTAACAACTCCTGCAGTAACTGCAGTACCTGCATTTAATCGTAGTGCTTCGTTGTTTTTTAGTTTATCAACTTTTAACATGTTAGGAGAACCAATAGCAACGTCAAAGAGTTCAACTTTAAGATTAACAACATCATAAGTTTCAGGAAGTTGGTTAGGATGACCAACAACTGCACCAATAAGAGAATCACTTTTTGTTAAAGAAGAATCTAATTCAGTTCCAATAGCAACTAATCCACTTGGATAAACTTTATCCATTAACCCTGCACTAGTACTCAGACTAGAGATTTTACTAAAAATTGGTTGATATTTTTCAGTCTTTTTATTAAGGTAACCAGGTTGAATTTCTATTTCATCACCAATTTCAAAAATTCCCTGAGATAACGAACCTCCTAACACGCCGCCAACTAATTTATTTAATGATAGTCCAGGACGATTAATATCAAAAGAACGTAACACTTGAAGAATAGGAGAAGATTGGATATCTTTTTTAGGTGTTTTTATATTATCTTCAATAGTCATAATTAAAGCATCAATATTCAGGTTATGTTGTGCAGATATTGGAATAATTGGGGCTTTTTCGGCAACAGTACCCTTAACAAATTCCTTAATTTTTTTATAATTGTCAAGAGCGTTTTTTCTAGACACCAAATCAATTTTATTTTGCACAATAACTATTTGTTTGGTTCCAAGCATTTGTAATGCAATAAGATGTTCACGAGTTTGTGGTTTTGGAACTTCTTCATTAGCAGCAATAATAAGTATTGCACCATCAATTAATGCTGCACCTGATAACATATTTGCCATTAAACTTTCATGACCAGGAACATCAACAAAACTTATAACACGTTGTAATTTACCTTTATTTTTACATTTAGAACAAGATTCTTTAGTTGAATAATTAGAAGGCATATCGCAATTACATTTATAAAAAGCAGCATCTGCATATCCAACTTTAATAGTTATTCCTCGGCGAAGTTCTTCACTATGAGCACTCGTCCATTTACCAGTAATTGCATCAACAATTGTGCTTTTACCATGATCTACATGACCAGCAGTACCAATATTTATTTCAGGCTGATTAGGAATTTTCGGCATACTTTAAATCAACATTAATCAGATTTAATATCATTATCCTGAGAATCAACTTTTTTTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTATTAAATTACCTTTAACAAGTATTGTATTGACTTGATAAATATCTTCAGAAATGGTATTTCCACGAACTAGTTTACGTTTTTTTTGTCCTTTTATTTTAGAATGAAATCCAACTCCATTAGGAAGTAAGACTCTATTTTTAGCTGTTCCACCAACATCACTTCTCATTGGAAATCCAACTTTATCACTCCCACCACTAATTTTGAGTGTTCCATCAATCTCAACAATAGTAGCGTCAATTTCTTGACCGATTTTCATACCCATAAGTGTTTGAGCAGATTTGTCTTTAATCTCCTTAGTTATAGATTTCCCGGTATTTGGATCGGAAATTACGATTTTAAATCCTGGCAAAGTAATGTTTCACTTATTTTTGTTTCTATAAATCTTTTTAATATTTTAATTAAAATCCATACAGAGGTACAATTTTGCGACGTAAATTAATTATTTCGTCCAAAATACCAGATTCTTCACTGGAAAGAGAGTCTTTATATTGTTCTTGTAATAATCGTACACCTGCATCACTAGGTAAACTATATAGAATTTCACCTTCCATAATAGTTCTGCCAATAACAGGTTCATTCATAGATATTGCAATTTGACTAGCTTTATTTGCTTTTTGAATATTTTGACCATTATCTTGAATTTGTTTTATGACGCCAACTTCTTTACCTTCGGAATTAATAAGAATGGATTTTTGTTTTAAAGAACCTACAAGAATTTCTACGCCGCATATTGCTGGTCCATTTCTTCTAAATACCATTCCTTTCAACAATTGTAATTTACAAGGCAATATGATAGAATCTAATTCAGTTCTTTGCATAATATCTTTATCAGAAGTTACCCAGTCTTTATAGTCGTCAACAAGATCGTAAAGTATAGGTTTCGAAAAAACTCTAATGCCGTTTTTATTTGCTTCTTCAGTAGCGTCATCAAGTATTTTAACACCAAAAGCAAGAATAATTCCAAGATATTTGTTAGTCGATCTAATAACTTGAGCTTTAATAACATCCTTCCTAGAAACCACTCCTGTATTGGCTGTACTTATTGGAATATCATTTTCTTTTAAAGTATCTACAATAGCTTCCAATGAACCCAATGTATCGGCTTTAACAATAAGACCAACACTATCAGTTTCAACAAAAATAGATTGGATTTCTGATTCTATTTCATTTTTTACAGATTCAAGATTTGTATCATCAATACCAATGATTGGAGAGCCTCCAAGAACACCTTTTAAATCAGGGGTAGAAATCTTTATGCCTGATGCTGCAACAACTTGATCAACAGGAGAGAATTTATCTCTGGGATCTCTCATTTCATCTAATGGTTTTGGCATAAACATTGCTTTAATCTTAGTAAGAAAAGCTCCGTCTTTTTTAGCAACAACTACATCATCGAATTTTTTTAGAACGCCATCAGTAAGAATTACATTAGCAATATCTCCAAGACCTGGTTCCTCCGTAACCTCAAGAATAATTCCACGAGTTTCATTTTTTACAGTAAGTTTTTGTTTTAAATAACTTTGAGTCAAACCAACAAGAATTGACATTAGTTCAGGAATTCCTTCGCCAGTTTTTGCACTAACTGGAACAATTGCCACTTGTTTTTGTGGATCTTGTAATCTATAAAACGCTTCAGATTGAATTCCATATCTAGAGAGTTGTCCAACGACATCGTAAATACGATTATCAAGATTATTACGAGTAGATTCGTCTAGTTGCTTTAGCGAATTTGTCAAGCTTGTAGACGATCTCCATCCAGGTAGAGTGTCTAGCTTGTTGAGAGCAATAAGGAAAGGAACTTTACGTTTCTTGAGTATATCTAAACTCTCACGGGTTTGTACTTCAATACCCTTCATAACATCAACAACAAGAATTGAAATATCTGATGCAGAACCTCCGCGATTTCTTAAATTAGTAAAAACTGCATGACCAGGAGTATCAATAACAAGAATTCCAGGAATGTTAATTTGACCTCCTACTTTTTTTAATAAATCACCACAAAGTTTTTCTAAAGTATCAATTGGAAAGAAACTTGCGCCAATATGTTGTGTAATACCTCCAGCTTCACGTGATTGGACAGCCGTACCTCGGATTTTATCTAGAAGTGAAGTTTTACCAGAGTCAATATGGCCTAATACTACAACAATTGGTTGTCGAAATTTTGAATCCATTATAATCACTATATACTTAGATTAGGTAAAAGATATTTATTTAGAATTCTTTCTTAAATACTATTCATAATATTAAATTCTCGTTCAAAACTATCTAAAGAATCAGATGCATGAATAACATTTTCTGTATGACTTAAACCGAAATCACCTCGAATTGTACCTGAAGCAGCTTCAAGGGAATTTGTAGCTCCAACCATTTGACGTACAACCTCGAGAACAGAATTACCTTCAAGAACTACCTGAACTATTGGACCGGAAGTTATATAATCTATAAGCTCAGGAAAAAATGGTTTTTCTTTATGTTGTGAGTAAAATTCAGAAGCTTGATTAGAATTCATTTGTAACATTCGAACATGGTGAATAGTAAATCCACGTTCCTCAAAACGACTTATAATATCTCCAATATGTCTTTGCCTTACACCGTCAGGTTTTATAAGAACAAGTGTTTTTTCTATCAAGCTTAAGATACTCCTTGTCTAGCCCATTTATATTTCCTATAATCACGTTTAAGATCAAGAGTATTTTTCCTACACTTAGAAGAACAAAACCAACTAATGTCACCATTATTTTTAACAAACATTGTACCTGTACCCAAAGAGATTTCTTTTTTACAAAAACTACATTTTTTTAATGAAAACAAATGTATTCATCTACCGAATTTTACGAGCTTCTCTTTCAGTTTCGCGTAATATAATTATATTATTCATACGAACTGGACCTTTTACATTTCTAGTTAGAATACGACCTTTATCTTTTCCATCTAAAATTTTTACTCGAACTTGTGTAATTTCGCCTGCAACTCCAGTACGCCCAACAATTTGTATTACTTCACAAGGTGTGTTCTCTTCGTGAATTTCTTTAGAGCTCATGAAGTATTATCTAACCTTTTAAATTATTTAGAGATTCAATAATTTTATCTAACATTCCTTTTGCTTCACCTGGTTCTATAATACAAGCTACTGCAGCACCTATATCAATGCTAATTGCTTGACCAAGTTGTTCTTTTTGAGGTACAAAAACAAATGGAATATTCATCTCGTTACATAAAATAGGTAAATGAGCTACTACTTCAGGGGGATCAACATCCTCAGCAATAATAACTAATTTAGCAATTCCACGTTCAACAGCCTTTGTGGATTCATTAGTACCTTTTCGAATTTTACCAGTCTGTTTTGCTTGTCTTAGAGCTTCGTAACTTGCTTCAACTATCTCTTTTGGTATTTCAACTTTTACATAATAAGGTTTAGACATTCTATAATCACTCGTTATTTACTGAAATATAACTACTTGGGTTCATCTTTAACACATTATATCGCCCAATAATATTTTTTCCAAGTAGATTAAAAACTTTCATATTTTTCCGTAATTTATTTAAATATATCCGCAACAGAATAAAGTAATTAGTGAATGAATATGGGCGATCATTTTTGGCAAGAAGAAATTGAACAATATACAATTCAAAGAGATATCTATTAATATTTCGCCATTTGAAACATTTGCTAAACTATCTGAAAAATTTAATGATATATACATACTAGAATCTAACATAGGTCCAGAAAAATTATCAGAATTTTCTTATATTGGATTTGAACCGTCAATAAAAATTACTTTAGAGAATAAAAAAATCAATGTAATAAAAGAAAACGATAGGATTGTGACTGAAATTAAGGATTCAAATGATTTATTTAGTAAATTAAGAGAAATTTTAGAAGAAAATCAAATAAACAATAGATTCAATCGATTAATTGGAGGATTAATAGGATTCATTTCATATGATAGTATAAGATACTGGGAGAATATTGCAGAAAACTATCCAAAAATAATATACCCTGATTTTCAGTTTGGTTTATTCAATGAAGGAATAATATTCGATCATAAGAAGAATAAAATACATTATTATTCTGATAATGAAAGAATAAATGAAATATTAGAATTATTGAATATTGAAAGAAAAATTGGATCTGTAGAATATACAAAACCAAGATTGAATATTAGTAAGGAGAAATTTGAACAAAATGTCGAAATTGCGAAAGAATATATAAAATCAGGAGATATATTCCAAGCGGTATTATCTAAAAAATATGAATTTGAAATAACTGGAGATTTATTATCAATTTATAAAGCCCTGAGGAATATCAATCCGTCGCCATATATGTATTATTATAGAGTCAACGATCTAAACATCATTGGATCGAGTCCGGAAATGTTAGTGCGAGTCACGGACAAACAGATTGAAACATTTCCAATTGCTGGAACACGACCAACAACTAACAATCAGGAAAAGAATGATATATTAACAAAGGAGCTGTTATCAGATGAAAAAGAAATAGCTGAACATATAATGTTAGTAGACTTAGCAAGAAATGATGTTGGTCAAATTTCAAGATTTGGAACAGTAAATGTGCCTGAATTCATGCAAGCACACCAATTTAGTCATGTTCAACATATTGTGTCAAAAGTAACTGGTGAATTAAGGGAAAATAAAGATTGTTTTGATGCAATACGAGCGATTTTTCCTGCTGGAACTGTATCTGGAGCGCCAAAAATACGTGCAATGGAAATAATTCGAGAATTAGAAGAAGAATCAAGAGGTCCATATGCAGGAGCTTTAGGGTATTTTTCGAAGAATCAGTGTGCAGATTTTGCAATAGTAATTAGAACTTTAATAGTAAAGGGAAAAGATGCATATATTCAAGCAGGAGCAGGTATTGTTGCAGATTCAATACCCGAAAAGGAATGGTTCGAAACTGAGCAAAAAGCAAGTGCTTTAATTACGTCATTAGAAATAGCTAAAGAAGGAGATAATTAAAATGAAATTATTGGTAATAGATAATTATGACTCGTTTACATTTAATCTAGTTCAATACTTTGGTGAGCTATCTGTAGAACCAACAGTATTTAGAAATGATCAAATTACAATTGAACAATTTAATCAAATCAAACCCGAACGAATAGTTATTTCTCCTGGACCAGGTAATCCATGTGATGAGAAGTATTTTGGAATATGTTCAGAAATAATTAAACTATCTGGAGAAAAAAATATTCCTTTATTAGGTGTATGTCTTGGACATCAAGGAATTGGTTATACATTTGGTGGAAGAATTAGAAGAGCAAAAACCTTGAAGCATGGAAAGACTAGTCTGATTAGACATGATGGTAAAGGCATTTTTAATAATGTTCCAAATCCTTTTAGAGCAACTAGATATCATTCATTAGTGGTAGATGAACAAACATTACCAGATGATTTGATAGTTTCTGCGAAAGCTGAAGATGATGATGAAATAATGGGTTTACGACATAAAAAATACAACATTCAAGGAATTCAATGTCATCCAGAATCAATTTTAACAGATTCAGGAAAACAGATATTACAGAATTTTATCAAAGGGAAAATATAATGATAATTGATGCAATAAAAAAGAATATCAACAGAGAACCACTTTCGAGAGATGAAGCCTCACTGGCTATGAAAGAAATTATGACTGGTTCTGCTACACCGTCACAAATGTCTGCATTCTTGATATCATTGAGGATGAAAGGAGAATCAATTGAGGAGATAGTAGCATTAGCAAAAACTATGAAAGAATTTTCGAATAGAATTAATCCTTCATACAATGACAGATTAATAGACGTAGTAGGGACAGGAGGAGACAAAATAAAAACTATTAATTTAAGTACAATTTCTGCATTTGTGCTTGCATCTGCAAACGTAAAAATAGCAAAACATGGAAATAGAGCCGCAACAGGAAAATGTGGAAGTGCAGATGTGCTTGATAGATTAGGATATAAACTTGATACAAAGCCGAACATAGTAGAAAAATGTGTTGAAAAAATAGGAATAGGTTTTATGTTTGCGCCAGTTTTTCATCCAGCAATGAAAAACGTAATTGGAGTTCGAAGAGAAATTGGAGTTAGAACAATTTTCAATATTTTGGGACCTTTAACAAATCCTGCAGATGCAGATTCGATGTTAGTAGGAGTTGCAGATATCAAATTAATGGACAAATACGCAGAAATATTACTAAAGCTTGGTTGTAAACGTGCAGTAATTGTGCATGGGATAGATGGTTTAGATGAAATCGCTACATTTGGAAAAACAAGAATGAGATTTATTGGAGATTTAGACAACACAGGAAAAGAAATAACCGTTAAACCAGGGGACTTTGGTTTAAAAGAAATTACGCCTGAAGAAATTGCAGGTACTGGAATAGATTACAATGCCAATATCATGTTTCAAATTCTTGCCAATAGATTACCAATTAATAATCCTAATGTAGAGGCAGTAATTGCAAATTCTGCTGTAGGATTTATTGTAGCAGGAAAATCATCGTCAATTTCAGAAGGAGTCGAGAAAGCTAGAGAAACATTAGTTTCAGGAAAGTGTATAGATAAGCTAAAAGAATTTGTAAAATTTGTCGATGGGGACGTTGAAAAAATTGAAGAATTCGAATCTGTTTAATGATAAATTCTTAACTGTGGCGGCTGAGAAAATTGGAGAATTAATTGATAAAGGCTATTATGATATTTCAAATCAAATAAATCACCAAAATAATAGTCTAAAGGAAATATTGGTTAAAGATAAAATACATTATCCAATAATTACTGAAATCAAATTTTCATCACCTTCATTAGGAAAGATTAATGATAATTTAGAAGGGCAAAGAGAAATAGTAGAAATAATGGAAAAAAGTGGAGCATCAGCTATATCAATTCTCACACAACCATTGTATTTTGAAGGGTCTTTAGAGAATCTAAGTATTGTAAGAAAGAACACAAGTTTACCAATATTAATGAAAGATATAATTATTGATAAGAAACAAATTGATGCAGGTTTTAGATTAGGTGCAGATGTTATATTATTAATAGAAACGTTATTTCAAAAAGATGAGAATAAACTAGAAGAATTAATTAGATTTGCAAGAAATAAGGATCTTGAGATATTATTAGAAGTAAATAACATAGAAGAATTCAAACGAGCCTCAACAAGAGATATAGATATTCTTGGAATAAACAATAGAGACCTCAATACATTAGAATTAGATATGAAAACAACAAATAACATTTTATCAGAAGGTTTTAAGAATGATATTCCAATAATAAGTGAAAGTGGAATATGTACAAGTGAAGATATTAAAATGATTGGAAAGACTGGCGTAAATGGGTTTTTAATAGGAACATCAATAATGAAAGCAAAAGATATTGGACAAAAAGTAAGTGAATTAACGAGGATAGAGAAATGGATTTAAAATCACAACCAATTGATGGAAAATTTGGAACATTTGGTGGAAAATATGTTCCTGAAACTTTAATGCCTGTCTTAGATGAACTAGAAGAAAAATATAATGAAAGCAGAGAAGACCGCGAATTTAATGATAAATTATCAAAATTGTTAAAAGACTACGCAGGAAGGCCTACGCCAATTTACTATGCAGAAAATCTATCAAAGAAATATGGTGGTAAAATTTATTTTAAAAGAGAAGATCTATTGCACGGTGGTGCACATAAAATCAACAATAGCATTGGACAAGCACTATTGGCTAAATCGATGGGGAAAAAACGTGTAATTGCAGAAACCGGCGCAGGACAACACGGAGTGGCAACTGCAATGGCATGTGCATTATTAGATTTAAAATGTGAAATATACATAGGAAGTAAAGATATAGAGAGACAAAGCCCAAATGTATTCAGAATGAAATTATTAGGAGCAGAAGTGCATAGTGTAAAAAGTGGATCACAAACACTAAAGGATGCAATTAATGAAGCAATAAGAGATTGGGTTACGAATGTAGAAACAACTTATTATTTAATTGGTTCAGTGGTTGGACCACATCCTTATCCAATGATTGTAAGAGATTTTCAAAGTGTAATAGGAAAAGAAATAAAAGAACAATTTCCAAAAATTGCGTCTAAGGAAATTCCAGATGTCATAATAGCTTGTGTTGGAGGAGGGAGTAACGCAATTGGAACATTTTATCATTTTCTAAATGAAGAAAATAAATTAATAGGTGTGGAAGCAGGAGGATTGGGAATTGATAAGGGAAAACATTCGTCGACTCTAGTGGCTGGAAGTGAAGGAGTTTTGCATGGTGCGCGCAGTTATTTGTTACAAGATAAAGAAGGACAAATTAAAGAAACACATAGTATTTCTGCAGGTTTAGATTATCCAGGTGTAGGACCAGAACATTCTTTCTTGAAATCTCAAAAGAGAGTAGAATATGTTAGTATAAGAGATGAAGAAGCTGTAAATGCTTTTGTCGAGATGTCAAAATTAGAAGGAATTATTCCAGCATTAGAAACATCTCATGCAATAGCTGAAGCAATAAACCGTGCACAACATATTGAAAAGGATCAATCAATCATTGTGACTTTATCAGGAAGAGGAGACAAAGATACACCAATAATTGCAAAATATTTGAAAGAAAAACTATGAACATAGCTCAAAAATTTAAAGAAGGAAAGAATCAAAACAGATCACTATTAATTGGTTTTATAACTGCAGGTGATCCATCAATTGAATTAACACCAACACTGGCAGAAGTTATGGTGAAAGGAGGAGTAGACATCATTGAATTGGGAATACCATTCTCAGATCCCATTGCAGATGGTCCAACAATACAATCTTCTAGTATGAGATCATTATCTAATGGAACAACACCAAAAGATATTTTAGAAATTAGTAAAGAAATTGTAAATGATTTGGATGTTCCTGTAGTTTTGCTTACCTATTATAATACTATAATGAAAATGGGCATAGAAACTTTTTTACAAGAAGCTGAGAAGTCAAAGGTCTCAGGAATAGTAACACCAGATTTACCACCTGAAGAAGGTAAAGAATACATACAATCAGCAAGAAAAAAATCAATTGATACAATATTTCTAGCAAGTCCAGCAACAAATAATATGAGATTGGATAATATAATCAATTCAACAAGTGGTTTTCTTTATATGGTGAGTTTGTTTGGAGTAACAGGAGTGAGAAATCTATTTAATAATTATTCATCAGATGCTGCTAAAAGAATTGTTCAAAAGGTAAATAAAAGAATACCAGTAGCAATTGGATTTGGTATATCAAAACCTGAACATGTAAATCATTTCACAAAATTAGGAGTTGATGGAGTAATAGTAGGGAGTTCATTCATAAGAATAATAGAAAAGAATATAGGAGATACAAATACAATGCTCAATCAAGTAAATAATTTAGCAAAAGAATTATCTCAAGCTACAAAAATATCATTTGTGTGATAATATTGCTGTATTAGAACTATCAACTCTACAAAATCCAATTCGATTAAATTGAATTAATTCACCCTCCTGAAGAGATTTACAGGAATTTTCTGCAATTCCATCGTATAGTTTAAGACTTTCGTCTTTAAATTGAAAAGAACCATCAGAATTGATAGAAAATTCATTATTATTTGGAATAATAAGTTTAAATTGTATTCCATCAGTTGTCACCCAATGAATTTTTTTAATCCCAACAATAGGTTTCTGGCTAGAAAAATCAGCTTCAATAATCATTTTAGACTTTTTCTTAATTTCAATATTAAACAAATCCATAAGTCTAATCACATCCCCTTCTGAAGAATTACTTAAATCTTCATTAGAAACCCAAAATTCATCAGATATTATTATAGTTCTGGAACCAAGATTTTCAGTTGGATGATGTTTCATAGTAACTGATTGTATAGGAATATTTGTAATTTTTAATTTAATGGGATCTTTAACAAAAAAATAACGTTTATCAGTTTTATCACGTGCTTTTCGATTAAATGAAGCAAGAAGTTCCATGCTAGGTGAAGATTCGCTTTTACTAATACCTAATGAATCAACAAAGTTACTGATGCCTTCTACGATAAAACCACGTCGACGAAGTGCAGAAATTGTAACAAGTCTTGGGTCATTCCATTCTTTGATTTGGCCTTTTTCAATGAGGGTGTTAATTACGCTTTTAGATGTAGGGGAGCCTTTCATCAATACGCGAGAAAAGCTAATTATCGAAGGTCTGGTTTTTATCTTTCCTTGATTAAACACAATCTTGGTAATTTTATTATATAATTCATCGCGTAACTCAAATTCTTTTGAACGAAGAACGTGACTAATTTCTTGTAAACAATCAACTATTGGAGCAGCAAGATCGTATGTAGGCCAAACCCAATACGTATTACCTGTTCTTGGATGAGAAGAATTTATTATTCTCATCATAGTTGGATCACGCATAGCTGTATTATCAGATGCCATATCTCCTTTAAAGCGAATAATTACATGAGATAAGTCTGAAGAAGAAAAGAATTCTTCTATTTTTTTGTTAGTATTAACAGTATTACGATGTTCGCATTCTTGTTTTTTTAATCTATTAGTTTTTATAATTTCAGGTTCACAGTCACAAATATATAAATAATTATCTATAAGCATCTGTTGGGAAATTTCATAGATTTTTTTAAGGAATTCTGACGCATAAGATTTTTCATCAAATTCAATCCCCATCCAAGCTAAATTGTCCTCAATTATTTTATAGAAGTTTTTATCTATAACATTTGGATTAGTATCATCAAAACGAAGTAAGAGTTTACCAGAATGTTGATGGGCGTATCTCTGATTTAAACGAAATGCTTTCACATGTCCTATATGTAAATATCCATTTGGATTTGGAGAAAAACGTGTTATTATTTTTTTATACTCGGCAAAATTTGGAAGTTCAGGAAGTGAAAATTTTTCCTCTTTTGTGGTAGAAGTTTTTATATTTGGAAAATCTTTCTGAAAGTTTTTAATCTGTTCGTTTTGATTCATAGAATTGATTTGATTTAAGATTGGTTTGATTTCAGAAATTAATTGTTTAATGTCTGATTTAAGAGTAGAATCTTCTGCAATAATCTTACTCATAACAGCACCGAGTTTGGCTTCACCATTATGTTGAATTGCATTTAATAAGCTGTGTTTGAATACCAATCTCCGAAGTCTGGAGCTTGTCAAAATCTTACCAATCCCTAGAAACCATATATTTAGTAATATTTTTTAATAATTCACGGGCTCTGGTTTCAGGTAAATTAGAGAAAATATTATCAAATTCAGTTAAGGTATTGTTAGAAAGTTCATTGGAAATAGCATTAGCATAATCAATAGATTTGTACTTAGAAATTAGATCTAATAATTTATGTAAATTTGCTTCACGAAAGTCTCTAGGACTACTAAGAAATAATTCGATAAATTCACGATCGTAGGTATTAGCAGATTTCAATAAATGGATTAGAATTAATGTTCTTTTACCTTCAATCAGATCTCCTGCAGATTCTTTACCATATTTAGTATCAGCAGTGAGATTAAGAATATCATCTCTAATTTGAAAAGCAATTCCCAGATTTTTACCAAATTCTATAAATTTGGTTTTGTCAATATTATGTTTCTGTGCAATTATATTTCCTAACCGGAAAGGAGTAATACAAGTATACCAAGAGGTTTTTTTAATACACATTAAGAAATAATCCTCTTGAGAAATATTCCAATCATTAGCTTGAGACCAAGATAACTCCATGTGTTGTCCTTCAGTAGTTTCATTTAACATATGTATGAATTCTTCTATAATATTGAGAGAAAGATCTGATTCTAGCAATGAAGAGTTACTGTGTAATAAAGACCACATTTTACCATGCAGTGAATCACCGGCATTAATTGCTAGGGGAATAGTGTGTTTACGATGTAAAACAAGTTCTCCACGACGTAGCTCAGATTCATCTTCAATATCATCGTGAATTAAAATCCAATTCTGAAATAATTCTAGTGCTGATGCGGTTATTAACGCATCTTTTATTTCGCCACCAAAAACCTGACAAGTAAATAGACAAATAGATGAACGTATGCCTTTAGCAGGACGTGATGGATAATCTCTCATCATATTGTATAATAAATCAATTTCATTTATTCTATGGTTCTTCGGTAAAAAATTTTCAATAGTATCATCAATGAGTTTCTTGTTAGCCTGTATTTCAGGTTCAGATAAAATATCAGTAATGCTATTTGTCATTAATCCCACGAATCTTTGAAATCCAGCTAGTAAGTGGTTCTGTAGTAATATATTGAGTAGATTTTAATTCTTGAATATTTTTTGCGCCAACAAGAAACATAGTTGATTTAAATTCCAATATTAATTGGTGAATGAATTCTGAAAGTGATTCGTATGATTTAGATGCTGGAGTAAGCATTGGACGTGCTAAAGCACAAACATTAGCGCCAAGAGTAATACTTTTAGCAACATCTAATCCATTGCGTAAACCACCTGATGCAATAATTGGAATTTTAACTGAATTACGAACTTGAAAGATAGTAGCAGCTGTAGGAATTCCCCAATCCCAGAACAATAAACCAATATTAGACTTTGTATTATTTTTAAATTTTTTAGCGCGAATTTGTTCAATACCAGCCCAACTAGTACCACCCATACCAGCTACATTTATTGCGTCAACTTTACTTTTAGATAATTTTTTAGCAACAGATGGAGATATACCTGAACCAACTTCTTTTACAATTATAGGTACGTCTAAATCAGAAGAAAGTTCTTTTATTCTATTTAAAATTCCTGAGAAATTAGCTTCTCCTTCAGGTTGAACGAGTTCTTGTAAAGGGTTAAGATGAACTGCTAAAGCATTTGCGTCAATCATATTTAATAATTTTTTAATAGATTTATAATTTAATCCTTTAGAAAGTTGTGCACCACCAATATTTGAAAAAATAAATGCATTTGGTGCATTTTTTCTTACAACTTTAAAACTTTCTGCTAAGGAATCTGATAATAATCCAGCGCGTTGGCTGCCAACGCCCATACCAATACCAAATTCTTCAGCTGCTTGTGCCAATCTGATATTAATTGATTTAGCTTTAGGAGTACCACCAGTCATTGAATCAATCAATAAAGGAAATTTAAAATTATGATTAAGGAATTTTGTAGAGGTTTTAATATCAGTGAAATTGATTTCAGGCAATGCGCAGTGTAATAATTCAACGCATTCAAAAAGTGTTGTTTTATTTTTTGCATTAATATTTTTTAGTGCAAGTTCAATACCTTCTTTTTTACGATTTTCAATAATTTTAATTGATTTTTTTTCGATCAAGTTTTATCACCAATAAATAATGTTCCCATATGTTCACCTTTTAATGCTTTCATTAAAGTTTTAGAGTTTAAACCATTAGTAATTTGAACTTCAATTCCAAGATTAGCAATTTTCATACTTTGCACAATTTTCGTTTTTATTCCACCAGTAACATCATAATTAAGTTTAGAAAATTTAAAATTATGCTTAGTTTTTATTATTGGAATTAAGCTGGAAGTATCATCAATATCTTCATATATCCCATCAATATTTGATGCGAATACGACGCGTTTTGGATTTAATAAATTACACAAATCTTTTACAATAATATCTCCAGAATGAATATAAAATCCTTTAGTTCCAAGTAAAACATCACCAAAAGTAACAGGTGTTAAACCAAAATACAAGCTTCTTGTTAAGATATTTTTCCAAGCATTTAGAATTTTATTATTATGATACATGTACATCGGAGAGAAAGAAAATGTATTGATTACATTCTTACGTAGAATATCAATAATCTTTTGGTTCAATAATAGCATAGAATCTCTAATTTTAATAACAGGTTTAAGAGAACGAGTAGGTTCAGTAGATATACCATAACGTTTTGCATAATAGTGACCAAATGAACCAGCTCCATGAACAATAATCAAAGGTTCGTCAAATTTTTTAATTACTTTGGAAATATTTTGAACTGAAGTAGAATTAAATGTTAGTGGCTTAGATTTTTTAGTAACAACAGAACCACCTAATTTTAAAATTGTTAATTTGTTGACCATATCTTTACACCTTCTTGTGGTAGTTTAACGGAAAACGATTCAAAGCCCTGGTTATTTAATGTATTAATGATTTTACTAATGTATTTGGAAGGTGCAATAGCAATTATTGAACCGCCTCCTCCTGCACCAGTAATCTTTGCTCCATAAGAACCAAGTTCAAGACATTTTTCGATAATATTGTCTGTAACAATTGTATTTAATCCGAAATTAGATAATGTAGAATTAAAGAAATTAAAATATGCCCCTACAGAAACATTATCTTTCTCTAGTAAAGATGATAATGTCTCTCTAGTTAGTATAGTAGATGAATCCACAAGACTATGAAAAGAATAGGGGGAACTAGTGCGCAATCTACTAAATTTATTAATCATTTTAGAAGTTTTTCGTTTTTTACCACTAATTGATACAATAAATTCAGGTTGATAATCAAGGCTTATACGTTTAGATTCAGAACCCTTACTGAATAATATTATACCGCCTATTATACTAACAGCAACATCTATCCCAGAAGGATTAACATGAATTTGTTTTTCTCCATACATAGCCAAGTCATAAAGAGTTTTCCGGTCAAGTTTTGTATTAAAAAGTGATGCGACAGATGCAGCAGTAGCTACACATATAGCACTAGAGGAACCTAAACCAGATCCCCTAGGGATGTCAGATTCAATATTAATAGATATAGCCCCTTTCTGTTTTATATATTCAAGAGTTTTATTACGAACAATGGCAACAGGATCATTTTTAATATTATAATTCTTGTATTGAATCTTTTGATTATTGTATTTAATATTATTATGTGTAGAGAAGCTACTCGAGACACGTATTCTTTTATTTATTGCAGCAGCCAATGCTTGTGAACCGTGTACAACAAAGTGTTCGCCAGCGAGTATAATTTTTCCAGGAGCGTCGGCAATTGAAATCAAATTACTATTTAAAACACATTACAACAATAAAAATCAGTGGTTAATTATAGGATTAAATAGAAAAAATTATTCTTCTTCAACTAATTTTGTCTCGAAATCTTCTATTGAATATGATAGTGAATCACCTGAAGACAACTTGCCCAGCTGTTGAAGAACAGATCTTGATAATAACCACATAACCGCAGCAAGTGCTTTACGTCCTCGATTGTTTGCAGGAATAACAAAATCAACATTTTCGGTAAGATTATCTGTATCACATATAGCAATTACTGGAATTCCAACACTAGTTGCTTCAATAACGGCTTGTTGATCCATCAATGGATCAATTACAATAACTGCTTCAGGATCTATATGTTTAGGATATAAAGGGTTAGTAAAAGTTCCTGGCATAAATCTACCAATTAAAGGAAGTGTGCCAGTTAGTTCTGTAAATTTAAGTATGGGAGTTTTACCATATTCACGAGATGAATACACTACAACACGATTAGAATCAAGTTTAGAAATGAATTTTGCAGCTACTTCAATACGTTGTAAGGTCTTGGCAACATCAATTATATGTAATCCATCTTGACGGGTTCGACTAACAAACGTAGCCATAGATTTAGTTTTAACTAGTGTTCCTACTCGAATTCCTGTAGATAACAATACTTCTTCAGACACGTGTTTAGTGATAGAATCATCTATAACGTCAATACTTTCATCTTCTTGTTTAGATTCAACGGACATATTTGGTAACTCTCGCAATAGGCATCGGTATATTATTATTTATAAAGTTAGTTTCATCAATACGAATTAATTCATTTAGTTTAGCAATTCTTTCACCGCCAACAACACCACTTTTCATCATCACTGAACCAGAACCAATAGCAATGTGAGCTAGATGTCGGTCAACCGTATCGCCTGAACGATGAGATGCAATAATAGCATATTTATTATTATTGCATAAATTAGCAAATTCCATTGCGTCGCCTAATGCGCCTGCTTGATTTACTTTCAGAATTGCAGCATTAGCAAAAGCAGAAGCAAAGGAAGTGGCATTTTGATCTATGCCTTTTCGAAGTATGGATGTATTTGTGACATATAGATCGTCTCCAACAATGAGGCAATTGTCATTTTTAGAAGATAGTTTAGTAAAATCAGAGAAAGCCTCCTCGTGAAGAGGATCTTCTACATAAATTAAATTATATTTTTCAATCAATTCAAGAACATAAGAGATTTGTTCCTCAGTAGTACGAGATATATTTTCACGTGAATAGACATAAAGTTCTTTATCAGGAACCCAAAGAGAAGAAGAAGCAACATCAAGACCTAATCGTATTTCGAATCCAACTGCATCTGAGACAGTATTAATAGCTTCTTGGGCAACTTCAAGTGCTTCAGTGTTAGATAGTTGTGGAGCCCATGCGCCTTCATCGCCTTTACCACCAGAGAATTTTGAATCTTTTTTGTCGATGATTTTTTTGATTTCTTTATGAACTAGAAGATTAGTTTGGATTCCAGAATGTATCGAATCAGCTCCAAGAGGATAAGAAAGGAATTCTTGAATATCAGTTGAACCATTTCCTGCATGCATTCCACCACCAAGAACATTACCCAAAGGAAGTGGCATTTTGGCAGGCTTTCCGTTAAGAAGGATTTCATAAATTGGTTTATCAAGAATTTGTGAAGCTGCATCAACAGATGCAAGAGATATTGCATAAGCAGCAGAACCACCTATATTAGAATAATTTTCTGTGCCATCTATACTTCTCAATGTATCTCTAACTGCATAAATATCTAAAGCGTCAATACCAATCAGTTGAGATTTATATTCATTTAAATAATCAACAGTATCTTTACAATTTCCATTACGAAATGCAACTGCTTCAAATTTACCTACACTGGCACCAGCAGGTGAAGACGCTGTACCAATTATATCAGAAATAAGAACATTAACTTCAATAGTTTCACTACCTCGACTATCATAAATTAAACGTGATTTAATATCTGTAATTTTCGTCATATTTGAATACACATTTAAGATTATTATGAATCAAGTTCAGAACGTCTTTGATTTACACTTTCATGATATTCAACTATTTGATCTATTACATTAGATTCAGAGAGTAACATTCTCCTACAACAATACCGTGGAACTCCAAGATCATTAAGAATCTGTGTAGGATCTTCTCCATTAGCAGTTCTAGACTCGAGAGCTTCTAGTTTATCAGCAACTACTGCGCCACAACTAAAACAACGAACAGGAATAATCAGAGTAAATCATCAACAACCTATCTATATGATTTTTGTTTTCTTCGTCGGGCACCAGGACCGCCAAATTTCTTAGATTCAGAACGTCGTGAATCACCAGAAAGAAGATGTTTATCAAATTCAGTTAACCGATTCTTAATATCATTAGTTTTAAAATGATTATTTAACGCACGAGAAATTGCTATTGCACATGCTTCTGCTTGACCCATATATCCACCTCCAGAAACACGAATATTAATATCAACTTTATCTCTATGACTGCCAACTAATTCTAGAGGAGTTAACATTCTTTCTCTTGCCATAAGTGGAGTAATAATTTCAATAGGAGTTTTGTTAATGTAAACTCTTCCTTTACCTTGATAAATAACTGCAGTAGCTTTTGCTGTCTTTCTAGATGCAGGAATTAATTTAGATTTTTTTGTCATTCGATTTTTCTCCATCCCATAGATGAACATAACTCTCCAATCGTAGTATAATAAGATAATGACCTAGGTGCTAATGCGTCTTCAATAGTTTTAGATTCAGTTTTTTTATATTTATCTGGAACAGAAATATATACCCTAAAGCGTTTTTTGGCTGCTACGCCTCTTGGTTTTTTATAAGGCAACATTCCTCTTACCATTTTTTCCATATATGTATCTGGACGTTTAGGATGGAAAGGACCATGTTTTGGATGTACACGACTAGAAATATCTAAAAACAATTCGTTTTCTTTAAGAATATTTTTACGGCTTCCAGAAAGAAGAATTTTTTCAGCATTAATCAAGACAACACGATTACCATTTAATAACATCTTAGCAATTCTAGAACATAGTCGCCCAGCAAGATGCTTATCTCCATTAATAACAACGGTGGATTCAGAATTAGCTAACAAGGATTTTCACTCCTTTTCCTTCAGGATGTATTTCAACAAGTTTTTCAATTAACATAATTTTTCCGCCAGCATTATTAATTTTTTCTTTTGCATTTTTAGAAAAATCTGCAGCTCCAATAGTAATAGAATGTCCTATTACACCATCACCAAGAACTTTACCTGGAATAGCAACAATATCACCATTCTTAGTAATCTTAGATAATTTTCCAACATTAATTTCGTGATTACGTTGGAGTTTCAGAGCAACATTAGACCATATCTTAGAGTTGTTTTGTCGTGCAATATGTTTTATAGACTCGATTCGATATTTATTAAATGTCATTTTAATTCGCCTCCTTAATCAATTTAGTCATTTCTTTTAATTTTGTATTTAATATATTCGTAGCCTCTAATAATATTTCATTAGCAGGCAAACTTCCTGTTGATTCTAGTGTAAGATGAAACTTTGAGGGGTCATCAGTATCAGTAAGGGTTGATACAGTAACAGGTTGCCATTTTGCATGATCACGTCCTTTTCCTAGTTTAGCATACGCTTCTAATTTGATTTTTTGATTTACAGCAAGTTTAACAATTGGAATATTACTAAGTTTTGGTTTTACAAGATTATCTTCAGATATTAAATCACCAGAATAAATTGTCTTAACTTCATCGGTAGCAACGGCATCAAGAACCAGTAATACTCGACATTTAGAACAACCAAGTGATGTTTTACAATCACAATCTTGCGGTAATACATATCCTTTCAAATCAGTTGTAAGAGGAATTAGACCTAAACGATGAGCAAGTATTTCATCGTAAAGTACAGAAGAGTTTTCAAGTATTACAACCTCATCTACGGCCATACAAGGAACTTCGCTAATTGCAAATCTTCTTAACGCATTAGCATAAACTCTATCGACGCCCTTCAAGAGCAACTTTATGTGTGAATCGGAAGATTCAATTATTTTAATGGTAGTTAATTTTATCGCCTTGATTACCTTAGTAAACGCAAAATATTATAATTAAAACCTTATCATTTTTCGATAAAGATTAATTAGAGGCTTTAAATACATATGTATAAAATTGTCAGCATCAGAATTCAAGTATATAGTAAGAATAATGGGAAGAGATGTAAGTGGCTCTAAAAAAGTCATCCAAGCACTCTCCAATATAAAAGGAATAGGAAATAATTTGGCACATTATATGGTTCGGTCGTTAAAAATTGATAAAAATTTGAGAATGGGAATGTTATCAGATGAACAAATTAAATCAATAGAAGAAGGTCTTAAGAATCTGGAAAATTTATACCCAGGATTCGATTTAAATCGTCAAAAAGATATGCAGAGTGGTAAAAATCAGCATTTAATAGAAACAGATCTAATTGTATCAAATAAACAAGATATAGACTTAGAAAGGATTTTACATAGTTGGAGAGGTACGAGACACTCACTAAATTTAAAAGTAAGAGGACAAAGGACAAGATGTACTGGTCGATCAGGAAAAGTTGTGGGAGTACGTAAATCAACATTGAAGCCAGCAAAAGCAGGAGCAGGTAATTAGATGGGAGATCCAAAATATTCAAGAAAGAAAGCAGCTCGTCCAAGAAATCCGTGGCAACGAAATTTATTAAAAGAAGAATTAGAATTAGTCGGTCAGTTTGGTTTACGAAATAAAAAAGAACTTCATAGAGCTTCAACAGAATTGTCAAGAATCAGAAAACAAGCTAGGCAGCTTCTAGCAGCTCCGACAGAAATTAGAACGTCAAAAGAATCTATTTTATTATCGTCTTTAGTAAGAAAAGGAATTGTTACTGAAGATGCAACACTTGATAATGTATTAGCATTGAATGTTTCAAATTTTTTGGGAAGAAGATTACAAACAGTAATATTACAAAAAGGATTAGCTAAAACTCCACATCAATCAAGACAATTAATTACACACGGTCATATATCAATTGGAGAAAATAGAATAACAATACCAAGTTATACAGTTACACGAAATGAAGAACCGTTAATAAAAATGACAGAAGGAAGTACATTTGTATTACAAGAAATATCTGTTTCAGAACCAAAAAATGATACACATGGAAACCCAGATGAAAAAGAACAACTGGAAACAACAAAAACTAAAGGTAAAAGAGAAGAGACTAAAGGTAAAAGAGAATGAGTGAGTCTGAGATATCTAAGAAATGGGGCGTGGTGCATATTTTTAGTAGTTATAACAATACAATTGTTCATATAACAGATATTAGTGGATCAGAAACAATAGCTATAAGTTCGGGTGGAAGACATGTTAAAGCAGATAGATTTCAATCATCTCCATATGCAGCAATGAAATCTGCACAAGCAGCTGCTGAAATTGCTAAATCGAAAGGAATAGAACATCTACACATAAAAGTACGTGCAGTGGGAGGTGTAGGTCCAAGAACTCCGGGTCCAGGAGCTCAAGCAGTAATTCGAGCAATTGCAAGGGCAGGTTTTCGGTTAGGAAAAATTGAAGATGTCACGCCGATTCCTCATGATTCGACAAGAAAAGCTGGCGGAAGAAGAGGAAGAAGAGCTTAGTTTTTATCTATTAACTTAGTTTCAAGCTCTAATATGTGTGGTATTATTGGATATATTGGAAATAAAAATGCGGCGCCAATATTATTAAAGTCTCTAAAAAGAATGGAATATAGAGGATATGACTCAGCAGGAATTGCTACAATTTATAATAATAAAATAATTGTGAAAAAAGATATTGGAAGAATTGACTTAATAAATGAAAAGATAGATTTTGATAAAGCTGAAGGAAATATAGGAATGGCTCATACTAGATGGGCAACTCATGGTGAAGTTACAAAAGAAAATGCGCATCCTCATGTATCATGTAATGATGAAATAATTATAGTACATAATGGAATTATAGATAATTACAAAGAATTACGTACAAAATTATCATCAAATCATATTTTTAAAAGTGAAACTGATACTGAAATAATTTTACATTTAATTGAAGAAGAATACAATAAAGTAAGAAATCCAATTGCTACATTACAGAATATAAGTAATATATTAATAGGTAGTTTTGCATTAGTAGTAATTTTTAAGGATTATATAAATGAAATATATGGAATTAGAAAATATGCGCCATTAGTTATTGGTATAGGTGAAAAAGAGAATTTTATAGCAAGTGATATTGTTTCATTTATTGATTATACGGATAATGTAGTATTTTTAGAAGATAAAGAAATAGCCAGAGTTACTTTAGATTCAATAGAAATAAAGAATTTTGATGGAAAAGAAATAATACGTGATAAAACACACGTTGCATGGGAAGCAGCAGATGTATCAAAAGAAGAATTCTCTCATCATACAATAAAAGAAATACATGAACAAAGTTCTAGTATAGATAATGCATTAAATCAAAAAGGAGAAGAATTTGATAATTTTATAAAAGAAATAACTAGTGGGAAGAATATATTTCTCACAGGTTCGGGCTCTAGTTATCATGCAGTTTTAATCTTCAAAAAATTACTTTCAAAATTAGTTAAAGTTCCAGTACAAGCATTTTTAGCTAGTGAATCTGAGGAATACAGTGAATTAATGAACAATCAGTCAATACTAATATCTATATCACAAAGTGGTGAAACTGCAGATTTACTTGAAGCAATTCGTAACATTGAAAGTAGTGGGGTTCGAATTCTATCAATTTACAATACAATTGGATCATCTTTATCAAGAGTAAGTGATATTAGTCTAAATTTGAATTGTGGGCCAGAAATTGGTGTAGCTGCAACTAAAAGTTTTACAGCTCAACTTGCGATTATCTACAAAATAATCTTTCAGTTAGGAAAGATAAAAGACAGAGATGAGAAACTTAACACAATATCAACTAATGTTAAAGAATTACTAAATAATGAAAAATCTTTACATGATATAATAGAAGTACTTAATGAATCAAATGATGTATATTTCATAGGTAGATCAATTCACCATCCAATTGCATTAGAAGGTGCATTAAAGCTAAAAGAACTAGCATACATTCATGCAGAAGGAATGGCAGCAGGAGAAATTAAACATGGTACATTAGCACTTATAGAAGAAGGAACACCTACAATAGTAATTAATCCAGAAGATGAAACATATAACGATACAATAAGTAATGCAATAGAAATGAAATCAAGAGGCGCAAAGATAATTGGAATAGCAATAAAGAATAATGAAGTTTATGATTATTGGATAAAAATTCCTAAAATAGATAATATTCTATATCCATTAATTGAAGTTATTCCTTTGCAACTTCTAGCATATCATACAGCAATTAAAAGGAAAAATAATCCAGATTATCCAAGGAACTTAGCAAAATCAGTAACTGTGAAATAACAACTATACTTCAGTAATTTCTGAGTTAGAAAGTGATACTGATGTTACTCTATTTCCTTCGTTATCATAACAGCACAATCCATCAGTTTCAGATTTAGATTTATGATGAGAGCCATCACAAAAAGGGTATTTTTTACTAAGACCGCACATACAGATTTTAATTTTATCACCAGAAGGAGTTGTATGAATAAAAGGTGCATCAGAAGAGTGCTTAATCAACCTAGTCATGAAAATTCCATACGAACAATAAGTAATAAACTTTGAATAAAAAAAATTATTAATTATGAACTAGTGGGCACGCCCGGATTTGAACCGGGGACCTTCGCCATGTAAAGGCGATGTCCTAACCATTCTAGAAGTCATACAGACTCAGGCTAGACGACGTGCCCCCTTATATAATTTTCATTAATAGTTATTTTAAGTCTTCATCCTTAAATTAGATTTTATTAATAATCATAGAGAAAGATGTCAAACAATATTTTGGTAATTGATCCAACTATAGCAGGAATATCAGGAGATATGATATTAAGTTCTACAATAGATTTAGGTGCAAATGAAGAACTAGTAGTTGATAATATTTTAGGAATAAAGGATTATTTTGATAATTGTAATGAACTTGAAGTAAGTTTTAGTAATGTTATAAAAAATGGTTTTCGAGCGAAAAAAGTAGACATTAGAATTAAAGAAGATACTACAAATCGAAATGTGGAAGTATTAAGTAATAAGTTGGATAAATGTATTAATGGAATTTCTTTTTCGCAAGATGCAAAGACGTTTATAAAGAAATCATTTGATAATTTAATTTCTGCAGAAAAAAGATTACATGGGATTCAAAAAAAACAACTTCACTTACATGAAGCGGGTTCCATAGATACTTTTGTTGATATCATTGGAACAGCGTCAGCATTAGATGATCTAGGATTATTCGAATTAAAAGAAATCATTACAACACCAGTTTCCATAGGAGGTGGAGAACTATTTTTTTCTCATGGAAAGATGCGAAATCCAGGACCGGCAATATTAGAAATAGCGAGAAGAAATAAAATAATAATTCAAGGAGGACCTGAAAATTATGAAACTGCAACACCCACAGGCATGGCTATGCTTGCAGCATTTATAAAAAATAGTCAAGAATTTTTTCCAGGAATAAAACCTGATTTAATAGGTGTAGGAGCAGGTACGTTAGATTTTGGAGAAATTCCAAATATTCTCAGAATGACATTAGGACAAAAATCAAGTTTATTGAAGGACGAAGTTGCAATAATTGAAACAAACATTGATGATAGAACAGGAGAAGAACTAGGATATGCTATGCAAAAAATAGTTGAACAAGGTGCATTAGATGTATCATTAATACCTATAATAGGAAAGAAAGGTCGTCCAAGTCAAATATTAAAAGTAATTACTACAATTAGCAAGTCAGAATTTTTTTCAGATTTAGTAATGCGTGAAACAAGAACTTTGGGTGTTAGAGTATATCCCATATCAAGATTCATTCAAAAGAGAGAGAATTTGAGGTTAAATGTTAAGATAGATAACAATAATGAAGAGATTAATGTAAAAGTTGTGAAATCGGAAATAGGAGAAATAATTCAGTTTAAACCTGAATTTGATCAGATTATAAAATTGTCCGAAAAATACAAAATGAATTTACTAATATTAAAAAATGAGATAACAAAACAAGTGCAAAAAGAACTATTTGGTTGATTGTTTTTTAACAATAATAGATGCTAGAACGCCTGCTGCTATTCCAGAATCAATATTAACAGTTGCAATACCCAGAGCGCATGACTGCAACATACTCATCAATGCAGCTATTCCTTTATCTCCATAACCATAACCGATTGAAGTAGGTACACCAATAACAGGAATGTCTACCAAGCCAGCAATAATAGAAGGTAAAGCGCCTTCACGACCTGCAACAGCGACTATTACATCCACGTCTTCCTGGATTACAGAAGATAGAGAATCAAATAATCTGTGTATACCAGCGATTCCGACATCATAATATATAGTAGTCTTACAATCAACTGCATCAAGAATTACTTTAGCTTCTTCAGCAACAGGAATATCTGCAGTACCAGCAGTAATAATCGCAACGTGTCCAAAAAGTTTAGATTTTTTAGTATTAGAAGAAATTACCATGGCATGAGCTAGTTCATTATACATAATAGATTTTTTAGAAAATGCTTTTTGTATTGCTTTAATATGAAATGAATCAATGCGGCTAATTATTACTTTATTTGAAGTTGAAAACATCTTTTTAGCAATTTTAACAACTTGTTGAGGAGATTTCCCTTCTGCCAAAATTATTTCAGGAATGCCTTTCCTAGGTGATCGACCTGTGTCAATTTTAGCAATTTGTCCCACTTTATCAATTAAATCTAATTGAAGCTGTTTTTTAGCATCTTTAGTAGAGAGTTCTCCATTAGAAACTTTATTTAAAATTTCGTCAATAGTCATTTTATAGAATTATTTATTTAGATTACCTGATTTATAACCTGATAGTTCTAGAGTTACATACTGAAATCCAATTTTTTTTAATTCATTGTCAATTTTGTCGATAATAGATTCACTCAACAATAAAGATCTTTCGTTTTGACCAACTTCAATTCTTGCTAAATTACCGTGTTCACGAACTCTTAATACTTCAATACCTGTTATTTTTTTTATTATAAATTCAGCTTTTTCGATTTTACTTAATGTTTCTAGTGTTATAGGTTGACCATATGCTATTCGAGAAGATAAACATGGTGCAGAGGGTTTATCAGCAGTAGGTAAATCAAGATATTTGGAAATTTTCCGAATATCAAGCTTAGTTATTTCAAGTTCAACAAATGGATGATGAATTCCATTTTCAGTGGCTGCAATGAGTCCTGGCCGGAAATCAGACAAATCATCAATATTAGTACCATCCACAATGGTTTGAATATTCTGTTCTTTAGCCAGATTTGATAATGTGGAAAATAATTCAGATTTACAATAATAACAACGATTTGATGGATTTTTAACATAATTAGGATTTTCCATTTCATTAGTCTCTATTATCAAATGCTTAATGCCAATAAGCTTAGACAAAGATTTAGCATTAATTAGTTCACTTCTTGGAATACTAGGTGAATCTGCAGTAACAGCAATTGCTTTATTTCCCAGACTTGTAAATGCTATTTTTGTCAATAAAGTGCTATCAACTCCACCAGAAAACGCAATTAAAACAGAATCATGATTACTAAACCATGATTTTAAATCTTGTAATTTTAAAGTAATAAGACTTTGCAATGTCTACAATTAGATGAATGATACAAGAGTTAATATGTTTATAATTAATGAATTTTGATTATGCGATTTTCGGTAATAATAATATCCATAGGAATGTCATGTTCAAGTTTGTCTATTTTATCAACAATTTGAAAATCAAATGCAAGAGCAATTTTATATTTAATATTTGTAGAATTCAGAAAATTATCATAATAACCATAACCAAAGCCAATTCTATTACCAGATTGATCAAAAACAATACCTGGAACTATAATAAGATCAATATTAGTGCATATTTCATCATTAGTAGGTTCTAATATACCAAAATTATTTTTTTCTAAGGAAGTAGTCGAAAGAATATTATGAAACATCATATTTTTTTCTTTAGAATTTATTTTTGGTAAACAAACAATTTTTCCTAGATCTAATGCTTTGTTAATCATAGTGGATGTGGAAACCTCTTTATCTAAAGAAGAATAAAATGCAATGCATTTACTATGGGACAATTGTTCAGTGGAAAATAATTTTTTATAAATTTTTAATGAATTATTTTTTATATTCTCTGCTGATTGTGAATGACGTAATTGTTTAATTTTAGTACGAATTAATTCGCGATGAACAGTCATGTGTTTATTTATTATTATCTTTAATCCACGCAACTAGTTGTTTTTCATTACTGTCATTACTGTTGTCAATAACTGGAACTACAATATTTTCCTGTGGTGAATTAATAGTAGAATCATAATTTGGCATTTCTGCATATTCAATTTCAATCCATAAAATACCATCAAAGAATTGTTCTGTAAAACTATCGGATAGTAATGCAGATGCAGGATAAGTAATCTTATAGACAATTCCATTAATCCATTTAACATATGGAGAAGACATAGAACTGGATTCTATAGTACTTCTTCTAGCTAGATCACTAGGAGAATTATGTTTAATCATATTATAAATAATATATTCTTTTAATGGTCTAGAGCTTATTTTCATATTTCTTACTTAATGTAAACCTAATTTCTAATACTTAAATGAATAAAGTGAGTGCGTCAGGTTCACTTGCCCAAGACAAGAAGGCCGATGCGCCAACAATATCATCTACTTCAGGAATAAGATCTTCCTCTTTAACATCCATGAATCCCATTGTAGGAGAACAAGCATGAAGTTTGACTCCACTATCTTTAGCCATTTTAATCATTTCATAAACATCTGGCCAGAATTTACCAATCTTCTTTTTCATCATAGAAGAAGCCATTTTAGTCATTCCGGGTAAAGTTCCAATTATATTAGGCATAGGCATACCAGGATTTCCAACAGCTGCAATTTTTACAGAATTAACACCGTCTTTTGTAAGAATTTTCAATCCCCAAAAAGTGAAATATATATCAGCCGTCATTCCCATAGCAGGTGCAGTTGTTGCAAGAACAAGAGCAGGATAAACCATATCTAGGGTACCTTTAGAGACTACCAATATTAGTCTCTTTTTTTTAACTGATGAATTTTGGATTTTATCTGTTTGAATAGTTACCAAATTAATCACTGTTTTTTAATATAAAACTTAAAAGTTCTTGGATTAGTATCTTCTACAATACTATCAAGAAGAATATTACCAGTATTATCAGCCCAACCTTCAAAATCAAGTGGAGCACCAGGATCAGTAGAAAGAACTTCAAGAATTTGTCCTGATGAAAGTTTCGAAACTTCTCGAGCAGTATTTATTATAGGCATTGGGCAAAGCAATCCTTTTTGATCCAGTGTGCGGTCAACTTTTATTCCTTCTAACATAATAATATTCCGGATTATAAGGCCGTTTTATATATAAAGGTTATGTGTAAACAGAATTCCGAATTAGTAGTCACTAGGTTAGAATAACCAAACCACTTTTAACATTGCTAAAAAGATATTATAAGAAATGAAGATATTAGTGACTGGAGCAAGTGGCTTCATCGGAAAGAAACTTGTACAATTTCTATTAGATAAGGATCTATCTGTTCGTGTAATGTCGAGAAATATAGGAAATTTAGAGAATCTAAATCATAAAAATTTGGAGAAAGTACAAGCAGATGCGCAGGATTACAAACAAGTACTAGATGCATTAGAAGGAGTTGATGTTGTATATTATCTAATCCATTCAATGGAAGGAAAAACTAAAGATTGGAGGAAATTTGCAGAACTTGATAAGAAAATTGCAAAGAATTTTGCTGATGTTTCAACAGCGCGCAATGTAAAGAGAATAATCTATGTAGGAGGACTAGTGAGTATTCCGGATGACCAGATGTCTAAACATATGTTAAGTAGAAAAGAAGTTGGAGAAATATTAAAGACGTCGGAATCCAAGGTTACAATTTTCCGTGCTTCAGTTATATTGGGAAAAGAAGGTGGAGGATTTAAAATGATGGAATATTTGGTAGAAAGACTACCAGTAATGGTTTGTCCAAAATGGGTTCTAACAAAGTTACAACCAATATACATAGACGATGTTATAACATATCTGTACGAAAGTCTAAATGTCAAAGAGACAGAGGGTAAAACCTTTGACATTGGGGGTCCAGACATATTAGAATATAGAAATATGATGAAATCCTATGCAAAAATAATTAACAAATCATTCATAATAATAATTATACCATTTTTAAGCCTGAGATTAACTTCATATTGGGTTGATTTGATTACGCCAATTAAGGCGTCGTTGGCTAGGCCGCTGGTCGAAGGATTAAAAAACGAATCAATAATGACTGAGAATTCCATAAATAATCTCATTCCAATTCGATTAAAAGGAGTAAAGGAATCATTAGAATTAATATCACATAAACCAGAAAAACATGATTTATCAACCAAAGAAAACATATTATCGTATTTACTGATTATATTAGGACTAGTAGGTATTTCTCATTATTTATTTGATCAAAGAATAATAGCAATACGACCATTAACAGAAATATTCACTGGAATTTGGCTATTAATGTTGTTAGTTGGGTACTTTTTCATAAAGAAAGGAGCAAGATTTGGGGCATTAGTGGCAGCCATTGTGAGTTGGATTGCTGCAATATTTTGGTTAATTGATAGCATGTATTTGATTTCCTATTTACCACAAATTGGACCATATCCTGTGGGCAAAGGATTTGCAATCTTAGGAAACTATCCAGATACAAATACTACAATATTAAATATAATTGGATTATCGATAATTGCAATATTAGTAATTATAGCACACTTTACATTTTATGATAAAAAAATTTATAAAAAGTAGATTAAGAAATATCCCAAGAATCCGCCGTATATTGCATGAGTAATAAAACTTGTAATATATGGAACGCTACCCAATGGATTCATTTGTTATAATTTTATGAACTGGTAAAAGAGTCAGAACCCAAACAACTAAAGCATAAATAATTCCAATTAAGATAATATTTACAAATAAATGGTTTACATAAGAAATAAGAGAGTAAAAGGAATAAATTATGCTTATCTAGTTGAAAGTACATGGGACAAAAAGAAACAAATTTCAAAACAAAAAACTGTAAAGTATCTTGGTAAATCAAAAAAATTAACTCTGGAGGATATACCAGAAGAATATAAGAGTAATCAAAACGTAATAAAATTTCTTTCAAAGCAAAACAATGAATCTATAAATTATAGTGATCTAATCGAAAAAACACGTAAAGATATATTTACAAAATTAGCTGGTCAAACACCAGTAAATTCATCAATCATATATGATGAATACAAGGACTATTTTACTATAACAGAATTTTATGATAAAATCATGAAACAGATTTTGTATGATGTAGGAGATTTGTGGGAAAAAAATAAATTAATGATAGGTACAGAACATGTAATAAGCAATAGACTACTGAGCGTAATTAATGAACTAAATCAACTACAAAATAGAAAAAAAAATAAAACCAAATTATTGATATGTAATCCAGCAGGGGAAAAACACAACATTGTCTGTAACATATTAGAATCAATATTAATTAACAAAGGATACAATGTTTACAATATTTCTCCTTCAACTCCGAGCGAAGATATATTAAAATACGTAAGAAACATCCAGCCAGATTTAATATTAATGTCAATAACACTTAATGCAAATCTAAGTAGTGGAATAAAGTTAGTAAAAAATATAACAAAAGAATACAATATACCCATATTAGTAGGTGGACAAGCAATAACTGCTGAACAATCAAAAATGTTTTTCCCAGCTAAAATAATAACAAAAGATACCACATTTGATAACAGTTTAAAACAAATTAGAAATTTATGTCAAATTCACTAAATTAAGATTTTCTTTACACTTCACTCAGATTGCATATACATAAAAATAAATGGGGACGGCAGGATTTGAACCCACGATCTCCCGGTCACTGCTGCTCCAAAGGCACATCATCCATTAAGTCAGTTCACCTAAATCATTACTATTAGCATCTGGAGCCGTTAGCGGCACATCTGTGCTGACGCCATAACCGAGCTAGGCTACGTCCCCTACTTCTAGAATCAATATTCAAGTTATAATATATATTGGCTATACTTTTTAAATTAAAGAATTACCATCAGAATCTATCTCGCCGTTTTTAATACGAGTGGTAGATATAGGAAGTCCGTCACTAGCCTTGAGAAAATCTATAATCTCTCCATGTATAAGGGTTAGACCTTCAGATTTTCGCTGCGTATTTAAGGAATCCAGTCGATGAGAATTTTCAGGTGTTAGAACAATTACATCAAATTCTTCTAAATAACGAGTTGGTCCAAAATAGTCTTCAAGTTTAAAGATTTGATATATAGCTTCTGGAAACTTGGATTGGATAAATTGTTGAATATTCTTAATTCGTGTTTCATAATCATGAATAACTTCTTTATTTAATTTGATTACAAAATCATCAGAACTTACCCCGATAACAACTTCTTGAGAGATTTTAAATGTCATTTCGAGTAGATATTTATGACCAACATGTAAAATATCAAATGTGCCTCCTACGGCGCCTTTTTTGTACTTTAGCATTAAAGACAATAAGAACTTATTTGAATTTAGATTTATCTTAATTGAAATGTAAGTAGATTTTTAAGGAAAATAAAATGACTACCTAATGATGGACAAATTAGAAATAGATGATAGATTCATGCAAGCAGGAAAAATTGCAGCTACAGTTAGAGAACATTTTAAAAAGAAAGATTTGATAGGAATGACAGTAAATCAAATATGTACAGAAGTAGAAGAAATGACGAGAAAATTAGGAGCAGAACCAGGTTTTCCATGTGGAGTTTCAGTAAATAGCGTAACAGCCCACTATAGTGGTGAATTATTTAATGACCAAACCATAAGAGACAATGATGTAATTAAACTAGATCTTGGCGCTCACGTAGATGGCTATGTAGCAGATACAGCAACAACAATTTGTTATAATCCAGATTACCAAGAATTAACACTGGCAACGGAAACTGCGCTTAATAATGCGATAAAAACTGTAAAGAATAAGATTTCTTCTTCAAATATTGGAAAAATTATTTCAGAAACAGCAAATAGATTTGGATTTAAACCTATATCAAACCTTTCTGGTCATTCAATTGAGAGATTTAAAGTCCACGCAGGTGTGTCAATTCCCAATGTTTGGACGCCACTTGGTGTGAGTCTAAAAACTGGTAATGTATATGCAATTGAACCATTTCTTACAGTAAAAGATGGTTCAGGATATGTAGTAGATGGAAAAACAAAAACTATCTACATGCTATTAAGAAGAAAGAAAACTGGTGAGAAAAGACTAGATGAATTCACAGAAAAGATATGGGAAAGTCGAAATACATTACCGTTTTCTCCAAGATGGTATACAGATGATTATAAAAAAGAAGAACTGAATATGATTTTGAATAAACTGGTTGCAAAAAAAATTATGCGAGTTTATCCAGATTTATTAGAAGCTAATAATAAAGTTGTTGCACAATTTGAACATACAATAACACCTACAGAAAATGGCATGATAATTATAACAAAAACTTAGTTCTTTTTTATAGATTCGCCATAAATCATAGAAATCATAATATTTTCATTGCAATCCTTACATTGGCCAATAATCTTATGAACTAAATCTCCAAGTTTAAATTCTCTTTTTTGAGGATTCTTGCATTTTATACATTCCTCAATTGTATAAGCGGTAAGTTTTTTACGTTTTTTATCGGGAGCGCCCATTATTGGTAAAGACATCTATTGAATCACACCTATAGTATTTCCAACGCCGACTATAATTACTGTATCATTTTTCTGTGTTCGTTCGTCAATAAGTCGATTAATTATATTATGAACAGTATTCACACTTTCTGCAATATCCTTGGTCATTAAAGAAATAGCTTCTACAATGGTTTGTTTTACAACAATTGCATAAACTGGAATATTATTATTTGTAGCAGATTCCTCAATTCTAAATCTGTCAACTCCAATTCCACCTATTGCAGCACCGATTCCTTCAGCCACTTCACCGGTCTTTTCTCCTTCTAATTTCAGTGCTGCGTCAATCATAATCAAAAGAGACGGTTTTTCCTTTTCAATTAACTCTTGAACAGCATTACCGGGTTGTCCTACAGTGCCATTAGGTCCTTTAGCAGTAATTAAAACTACTTTACGGTCGGAAATATTGGATTCTGCATAAACTGTATCAACAGCTATATCATGTTTTTCTTTATCTAACATTAGTTTTCCAACAATCATTGGACCAATTGCATCACCTACAGGTTGATTCTTTTTGAATGAATTCATTGCCTGATTTAATGCGTCAGCCTGTAGCATAAGAAAAGGCATAATCATTTGTAATTGGGCAAGAATGAGAAGATTATTTGTCTTTTTCCCTACTAAATAAAAATGACGGACAACTTTGTATATAATATTAAATGATGCTGCAATTTCTATAACATTTTCAATTGAATTAGATTTAAGTTCGTCCAAGTCAGGAAATAATTGCTTAACCTCATCTTTCATTCTCTCATCCCTAGTAGTCATAAGATGATCTAATTTGTTTATTACACCTGAAGGATCTAAATCAACAGGCATAATAGTAAAATATTCAAGAAATGAATCAAGTCGTTTAATTTTTTCTTCTTTGTTATCAATTCCTTCAGTTATATGATCAATAGTATCTTGTCGGGACTTATCTTTCATTTCTTTAAGACGTCCAACAGTTTTTGAAAGATCATTAGTAATTAACCAAGTCTGGAGTCTTTGTCCATATATAATAAGTAAAGCTAAAGGGAGATAAAATATAGCAAGATTAATTATTGGATTACTTGTTAGTTGAACATCGCTTCCAGCACCTAAAATAAATATTAAATCCATAAAATTAACTCCAGTGATGTTAATTATATTTTCACTAGCAGATAAGGATTATTAGTAATATAAAAAGTGCCGGCACCAATGCTTCACGAGACCGTTAGGACCTCACTAACACAACGGCGTCAACGGTCTTAACTTCTGGGTTCGGAATGGGACCAGGTGGAACCCCGTCGCTATGGCCGGCAACAATAAATAATTAAAATAACACATACATTAACTTTTTCATTATTTACATAATAAAATCATATTAACGAAAGATAACATATTAAATGCAGGTGTAATATTGGCAGATTATTCAGTAACTCCATGGGAAGTAAAAGGAGATATGAATTATGATAGATTAGTTAGAGATTTTGGAACTTCGCATATTGATGAGGATTTATTAAAAAGAATAGAAAAACACGCAGGAGAATTGCATTTTATGTTGAAAAGAAAGGTATTTTTTAGTCATAGAGATCTCAATTGGATAATTGAAAAATATGAAAAAGGAGAAAAGTTCTTCTTATATACAGGAAGAGGTCCATCAGGCAATACACATCTAGGGCATTTACTCCCTTGGATATTTACACAATATCTCCAAGAGAAATTTGATGTAGAATTATACTTTCAAATTACTGATGATGAGAAATATATGTTTGATAGAAACCTAACAAGGCAACAGGTTGCTGAATTTTCATATGAAAACATATTAGATATAATTGCACTAGGATTCGATCCAGAAAAAACATTCATCTTCAAAAATACAGAATATATAAAAACAATGTATCAAATTTCTATTGACATAGCAAAACATGTAACGTTTTCTACTGCAAAAAGTATATTCGGTTTTGAAAATAGTACAAACATAGGAATGATTTTTTACCCATCTTTACAAGCAGCAACCTGCTTCTTACCTGCCGTATTAAAGAAAAAAAACATACCATGTTTAATTCCTGCTGCAATAGATCAAGATGATTATTGGAGAGGAATTGCAAGAGAAATTGCGCCAAAACTTGGATATTATAAACCAGCGCAAATACATTCTAAATTTCTACCAAGTTTACAACGAGGAGAAAAGATGAGTTCGTCAAGACCAAATACAGCAATATTTACAACTGATGATTTAGAAGTTGCAGAAAACAAAGTAAAAAATGCATTTACAGGAGGAAGAGATACTTTAGAAGAACATAGAAAATATGGTGGTAATCCAGATGTTGATAGTGCATTTCAATATCTATATATGATTCTGGAAAAAGATGATAAACGAGTAGAGGAAATTGAAAAAGACTATAGAGCAGGAAATTTATTATCAGGTGAACTAAAGGAAATTACAGCCGAAAAAACCAAGCAATTCTTAAAAGAACATCAAGTAAAAAGAAAACATGCAGAAAAGATTTTCGATAAATTTATTTTGAAAGATTAGGTTTTATAATTGGCAGATATGAACAGAGATAACTTACATTTATTAGAAAAAAAATTACTGCAAGTTATATCTTTGAGAATTGAATCGGATCTCCAGAATCTAGTAAATGAATCAGGATTAACAATAGACCAAATAAGAAGATCTATAGAATGGTTAAAAGAAAAGAATCTAATTGAATTAAAAACTACTGAAATGAGAGTAATATCATTAGGGAAAAAAGGAGAGCTAGCAAGAAACAAAGGATTACCTGAAATTAGATTAGTCAATAAGTTAAAAGTTGGAGAAAAAATCGAGTTAGCAGAATTATCCAAGAAAATAGGCATGGAAAAAGATGAATTATCAGCTGCTTTAGGATATGCAAAATCAGAAAAATGGATCACAGTTTTCAAGGAAAATGATAAAGTAATTATTAAAAAGGAAAATATTAATCCAGTCTCAAAACTAGAAGAGTTATTAAATAAAATTACCAAACCAACAGAATTTTCTAATTTTACTATTGAAGAACAAGAATTATTTAGATTGTTAGTAAAAAGACCAAATTACATCATAGAAAAATTAACCAAAAAGGTTCGTGTGAAAATTACAAAAAACGGTTTAGAAATTTCGAAGAACATAAGTGAAGACAATTATATTGATGCACTGACACCAAAAATGTTGGAATCAGGGGAATGGCGTAATTCCATGTTACGGCCATTAAATGTTGAATCTCCATCTCCAACAATATACTCAGGAAAAAAGCATCCTGTAAGAATATTCATAGATGAAGTAAGGGAAATTTTTGTGTCGTTAGGATTTCAAGAGGTGGAAGGATCTATAGTTCAATCTTCATTTTGGAATTTTGATGCATTATTTACACCACAAGATCATCCTGCAAGAGAAATTCAAGATACATTTTATATTGCGAATGAAAAATCGTCACTGCAAGTTGATAAACAAATATTGAAAAATGTTGCAGATGTGCATAAAAATGGTTCAAATACTGGTTCAAAAGGATGGGGATATGAATGGAATATTGAACAAGCAAAGAGAATGGTAATGAGAACTCATACAACTTGTGTTTCGGTAAGACATTTAGCAGATAATAAACCGGATGAAGCAAGAGTTTTTTCAGTTGGAAAAGTTTTCCGTAATGAAAAAGTTACATTTAAGAATTTGGTAGAATTTCATCAAATTGAAGGAATAGTGGTAGGTAGCAAAGTAACATTAAGGGATTTGATGGGACTATTAACAAAATTCTACAATAAATTAGGATTTGATAAGATAAAGTTTTGGCCATCATTTTTTCCCTATACTGAACCATCGTTACAATCAATGGTTTATCATGAAGGATTGTCAAAATGGATAGAATTAGGAGGAATGGGAATATTTAGACCAGAGGTTACAAAACCACTAGGTGTAAATAATCCTGTATTAGCTTGGGGAAGTGGACTAGAGAGACTAGTAATGTTGAGATATGGAATAGATGATGTGCGCGAGCTTTATGAAAACGATTTGGACTGGTTAAGGAGAGTTCCATTATGCCCTTAATTACAATCTACTTTGACAGAATATTTTCAATGTTGAAAGGCAATATTTCAAAAGAGGAATTAGTTGAAAAGATTCCCTATCTTGGTCTTGATATCGAAGAACAAAATGATGAATATATAAAAATAGAATATAATCCAAATCGCCCAGATTATTCAACTGACTACGGATTGGCCAGATCTCTGAATAGTTTCCTAGATTTTGAAACTGAAGACTCAAAATATGATATTAATCAAAGTGATTTTGTCATTAATGTTGATAAATCAACTAAGGAAGTTAGACAATACATTGTAGCTGCTATAATAAAAGACATAAAATTAGATGATGAAACAATCAGGCAAATTATTACAATGCAGGAAGATCTTCACAATGGTATTGGAAGAGGAAGGAAGAAAGTTGCAATAGGAATTCATAATTTGGACGTTATAAAATCACCTTTAGAATATATCACAGTAGATGATTCATTCGCATTTATTCCATTAAACAAGGATTCAGATATTACAGTAAAAGAAATATTGAATTCAGAAATAGGAAACCAATATGCAAGTATACTTGCAGGACATAACAGATATCCAATTATCAGGGATGCGAACAAACAAGTTTTATCTTTTCCTCCAATAATCAACGGAGATTTAACTCGATTGGATTCAAAAACAACTAATCTGTTCATTGATGTAACTGGAACTGATTCAGATGCAGTGTCTAATGCATTATCTGTTCTATTTACGACGCTTAACGATGCAGGAGGAAAGGTTTATGCTGTAGAAATTAATTTTGATGAATACAAGATAAAGACTCCTACAATCAAGGAAGAAAGTATAGAAATAGAAATAGAATATATCAAATCGCTTTTAGGATTAGAATTAACGGATAAAGAAATTATAAATTATTTACGACGATGTCGAATTTCAGCTAAAATAGTAAATAATAAAGCAATAATAAAAACAGAACCGTTCAGATTCGATTTAATACATCCTGTGGATGTTGTAGAAGAGGTTGCATTGGGTTATGGAATACAGAATTTAGAACCTTCAGTACCTGGATCTGATATTATTGGAGAATTTGACCATAAACAGCAATTGTTATTTAAAGCAAGAGATGTTTTGACTGGACTAGGATTAATTGAAATAATGACTATTGGATTAATCAGTGAAGATATGTTAGATAAATCGAATATTAGCAGGGAAAGTACAATGAAAGTAGTAGATACAAAGAGTATTGAACATGAAGTTTTGAAAAATTCCAATATACCAGCAATTCTTAAAACATTTTCACAGAACATTCACAAGAAATATCCACAAAGAATTTTTGAAGTTTCAAAAATTTTTCTTAAGACAGCCAATGGCATAGAGGAACAGTATCATCTAACTGTGGGATTAGCGCATGCAACAGTAAACTTTACAGAAGCAAATTCTTATCTTAATGCATTTGGACAACAATTACTTAATATTAATTTATCAACAAAAGCAACTAAAAACAAATTGTTTGTAGATGGCAGAGCTGCAAATATTGTTATTAAAGAAGATGTAAAAATTGGAATAGTGGGGGAAATACATCCTCAAGTTCTAGAGAATTTTTCATTAAGGACTCCAATTTCGTTATTTGATATTAATTTAGAGGAATTATTGAAAAAGAATATACTATGAACGAATAGAAACTTTCATAGTGACTTTCTCAAGAGGATTGTCCATTGAATCTCGTTTTTCGTTAACAATTTGATCAGCGACTTCCATGCCTTCAATAACTTCACCAAATATAGAGTACTGACCATCCAAGAAGAAAGAATCAGTTACAACGATAAAGAATTGCGAACCTGCAGAATTAGGATCTTGTGCACGAGCCATTGATAATATACCTCTTTTATGTTTCAAGGTTTGACTAAATTCTGCATTAACAAAGGTATCTGGTCCTTGTGCAGAATGTCCTCCCTGACCATCATTACTGCGATCGTCATCTTTAGAATTGGGATCGCCTCCTTGTATCATAAATCCAGGGATAACTCGATGAAAAGTGGTTCCGTCATAATATCCTTGATTAGCTAATTTTACAAAATTATCAACATGCCCAGGAGCAACTTCTGGAAAGAGTTGTATAACTATATTACCAAAATCAGTTTCAATTACAACTATTGGTCTCGTATCATTGCTCATATCATCTGATGAGTCAGAGTTATTATTAAATAAAAGAAATGCAGCTACAAGAAGTACTATAGCAATAATAGCAATATTACGATTGTTGCCACTTAACATAATAATTTAGAAAATATACTAGTCCTTATTTATTTCTTGTTAAAAATACATAAATCAGTACGATAATGATATAATGTGATTAAATATACACTGTGACGGCCAACTATGAATAAGTGTGTTAACACAGTAATGATTTTTTGGCCACCCAGCGGTGTGACAGATCACAAAAGCCCCGAGTTAAGAGGAATGGTAAGGGAAGGCTTTGAGCCGAAACAATGACCTATGTCAGTCAGAGGCGGGGCATAATTAAATATATAGAATAAACTTCTGTCGGTATAATTCAAGTGTTATAAACAAGGAAAAAAAAATTATAATGCTTGAATAAAGAAAAATTAATTCGGGATCTAGAAATCAGGTCAAAAAATTATATTACACAATTTAATAAGTCATTAGAAAAAGTATTTGATAATCATAGTTGGTCTAGTTTTCATGAACCTTTATTATATGCAACACATGGTGGAAAAAGAATAAGACCGTTACTTTTAATGTTATCAGCAGAAGCTGTTGGCGTACCTGGTGGTAAAACGAATCTTGCAGCAGTTGCAGTTGAGCTACTACACACAGAATCAATCATTCACGATGATATAATAGATGAACAAATCAAGAGGCGCGATAGAGACTCGTTCCACGAACGATATGGAAATAATACATCTATGCTAACAGCAGACTTTGTATTTGGTATTATTTTAGAAATTGCATCCAGGTATAATGATTCGAGAATACCAAAAGAATTATCGTTAGCAGCAATAAGAATGTGTGAGGGAGAACAAAGAGAAATGAGTGTCAGTTCAAAGAAAGTCCAATGGGTTGAATATCTCACAATAATTAGTGAAAAAACGGCTGCATTATTTCAAACTTCATGTAAATTAGGAGCAATTATTGGAGGTGGAAATGAAGAAGAAATAGATAGTTTAGCAGGTTTTGGACTAAATCTAGGAATTGCATACCAAATTCATGATGATATTCTAGATTGGGAAAAAGATCTGAAGTTTTCGGATAATACTGATGTAGTTGGAAAAAATGAAAAATTTGTAAGTTTGACCAAGCTAAGAGAGATGGCGAATGTTTATACAGGAAATGCAAAGAATCATCTTATCACAATAAAAGATTCTGAACAAAAAGATTTTCTTACAGATTTAGCTGATTTTACAATCAGACGAGATTATTAGTAAAAAAAGACACGCTAATATCTTGAGTTATATCATATAGCACATTTGGAAAGATTCCAGTTAAGATTATTATTGCAGAAGCAAAGAGTAGAACAGAAACAAAGATGAATGGTTCTTTTATTGTTTTAAATGATGTGTCGTCCATGTACATTCTTTTTATAATTAGTAAATAATAAGCTACAGAAATTGCAGTGTTAATTAATCCTGCAAAAGCTAACCAAGCATAACCACCATCAACAGCAGCGGCAAATAATATTAACTTGCTCCAAAATCCATTTAGTGGAGGAATTCCTGCAAGACCTAATAATGATAATGCTAAACAAAAAGAAGTTATTGGCATTACTTTGGCTAATCCGTTGTAATTATCTAAAGAACTGCCTGAAGTTTTTAGTTTAACTAAAGCAGCAGCAAGAAAAGCTGAGGCTTGTAATATTGCATGATTGAAAGAATGATAAAGCAAGCCAATTAAACCAAGATCTGAATATGGTAAAACTACTAGACCGATAAGAAGATAGCCGGCTTGTGCAATACTGGAGTATGCCAACAATCTTGTAATAGACTTTTGTGTAAGAGCTGCTAAATTACCAAGAGTCATTGTGACTAATGCGACAATAGCAAGTGCAAGTGAAAGATCAAAATAAAATAATGGAAATATAACAGCAAAAATTCTTATTGCTGCGGCAAAACCAGCTTTCTTTGTAGCAGCCGAAAGCAAAGCACTAACAGTTGTAGGAGAACCTTCATACGTATCTGGAATCCACATATGAAAAGGAACAATAGATAACTTAAGTCCAAGGCCTGCAAGAATAGAAATAGTAGAAAAGAGGACTAATGGGACTAAATTTGAAGAAATATTACCAAGCGTTTGTGAAATAACTGTCAAATTAGTTGATCCAGTGATGCCAAATAATAATGATATTCCATAGAGAAGAATTCCAGATGAGAGTGCTCCAAGAATAAAGAATTTAACAGCAGCTTCGTTTGAAAGTTTATCTTGTTTATTGAAACCTGCTAAAATAAATGTAGGAAGACTCATTAGCTCCCAAGCAACAAAAATGACTAGCAAATCAACAGCAAATGAAAGTATCAACATTCCGATTGAAGTAAACAGTAGCAAAGAATAATAAATAAATTCATTAGAGTTTCCTTTTAGATAGTCAAACGAAGCTAAAGAAACTAATAATGTAACTAGTATAACTATTATTCCAAAAAATGATCCAAGAGTATCATTACGAAGTAAATGAGGAACTGTAGATTCTTGTGGTATTAAAGAAAGAGTTGAAATAATTAACAAAAATAATGAAATTAATAATGATAAAGTGGTAAGATATTGTACATACTTTATTGACTTTTTACCAAATACCATTTCAAAAAGTGGAGATATGATTGCTGCAAAAGCCAATATAACAAGTATAGTTATAGGAGTATCCACTTTATGCTGCGGCTCCTGAAAGTAAATTCGTATATACAGTAGAAATTGGATTTGTTACATCCAATATTAACCAAGGGGCAATCAAAGTTAGAACTAGTGGAAGGAGATATAAAACTAAAGCAATTGTGGAGATATTACTAAGATCCCATTTTCTATTAGATTTATGATCAGACATCACTACCCTTCTTAACATCCATAAGAAATATCCAACTGTTATCACGGGCACAGCAACAATTAATACATAAATTACATTAACCTGAATCGCGCCCAAAATTACCAGATATTCACTTATAAAACTACTAAAGATAGGAATACACATCGCGGCCATTGAACCTAGTACTAATAAAGTAGCGAGTCGTGGGCTTGAAAATTTCAATCCTTTAATAACTGTAATATTTCTTGTTCCTGTGGCCTTATGGATATAACCAGATAACATAAACATGAGTCCTACAGCAACAGCATGAGTAAACATTTGAAAGATTGCGCCAGAAATGCCAAATATAGTTCCAGTAAAAGCTCCAACTAGTACAAATCCCATATGACTTACACTAGTTAGTGCAATCATTTTTTTTATATCCGTTTGAGTTAGAGCCACTATTGCACCATAAAACATAGTAATTATACCGATAAGTATAAAGATCCAAGCATATTGAATTGAAGCTTCGGGAAGTAATCCAATATTAAAACGTAGAAATCCATATCCGCCCATTTTTAGAAGCAACCCTGCAAGAAATACACTAATTGGAGCAGGAGCTTCTACATGAGCATCAGGAAGCCATGTATGAAATGGAACTACAGGTAATTTAACACCAAATCCAATGAAGAAAAGTATTGTAGAAATAATTTGTAAATTCAGAGGAATTTTTCCGGCGACTTCAGGAATATTAAATGAATGAGGAGAAACATTAAAATAAATAAGAATGAATGCAAGCAGCATAAAAATACTACCAACAAATGTAAACAAAAAGAACTTCATAGCAGCATAACGTCTACGAGGGCCGCCCCATATTCCTATGAAGAAAAACATTGGAATTAGAACTACATCCCAGAAAACATAAAATAAAATCATATTTAATTGAGTAAAGACGCCCATAATTGCTCCTTCAAAGATGAATATCATAGCATAGTAAATCATTTTACGATCTTCAATAAGATCACGTGAACCAAATAGAACTAAGAGAGTAAGAATTGATGTGATTAAGATTAAAGGTCCGCTAAGTCCATCAACACCAACAAAATAATCTATACCAAAATTACCAATAATAGAAACAGGTCCTTCAACAAAATTATATATGCCACCACTACCATTTGCTAAAATTAATCCATAGGAATAGAAAGTTAATAGTAATTCTATTAGAGCAATTATAATTGAATAATGAATAATGTATTTTTGAGAAGTTCTAAATAAAATTGGAATTACTAAGCCAGCAATTATAGGTAGAAAAATTAAAACAGAAACAATCGGGAAATTAACGTCGGTCATCAGAATCACCTAAATCAATAATAGTATTAGAGCAATAATCCCTATAGTAAAGATAAAAACATATTGTTCAGTAATGCCTGTTTGAAGTTTTCTCATAATACGTGAAAAGAATAGATTCATATTTGCAATACGAGTAGCAGTGCCGTCAACTACATACGCATCAAAGCGACCGCCAACTTTTGAAGACGAAATTGAATAGTCAGGTATTACTGTATTTAATTTTGAAAGAATACCAGTTTCAATATATTTATCTATAAGTTGTGATAATCGTAATGAACCATTAACGAAGATTTTATAGTAAAGTGAATTAATATACCAACGATTTTCAAAGAGTTTTTGTAGATTAGATAAACCTGGAACGCTATTTATGATTTGATTAGGAGTCATTCTATTATTAATATAGAATAAATAACTAAATCCACAACCAATTAGAACAGCAATAACAGAAGTAGACACAGCAATACGATTAAGAGAAAATGTATATTCGTGAATTTCCATTCCAACTGCATGTTCAAGATGATGCGCCAATGAATTTTCAAGGAATCCTTCAATGGCTGGACCTGTAAAACCGATTGCGACAGTAAGAATTGCAAGAACTACATATGGAGCATACATTAATACAGGAGCTTCATGAACATGTTTGCCACTAGATATTAATTTTTTAATGTGTTTACTTGGTTTACCAAAGAATATCATACCAATCATTCTAAAGCTATAAAATGCAGTCATAACTGCAGTAATACTTGCTATTCCAAAAAGAGCAATCAAAGTCATAGAGCTTTCAACACCAAGTATAGAAGCCAATATTGCGTCTTTACTCCAGAAACCACTAAGAAGAGGAATTCCAGCTAGAGACCCAGCTGCAATAGTCATCGCAACAAAAGTCACACGCATATTTTTACGTAAACCTCCCATTTCATTCATATATTTGGTATGCGTTTCATGAATTACTGCACCTGCGCCCATAAATAGTGCAGCTTTAAAAATCGCATGACTTGTTAAATGAAAGAATCCTGCAACATAACCAGCAACAAAGTTAGAAGTTAATCCTGCAACACCAAAAGCCAACATCATATAACCAATTTGAGATACAGTGGAATATGCAAGAACTTTTTTTAGTTCTTTAGACACCATAGCCTGAGACGCTGCCAAAAATGCAGTAATAGCGCCAATCCAAGCTACAAATTCAAAGAATGGTAAAATCATAGAAATATTTTCTACTGCGGTGACAAAAATTGGACCAATACGAGCAATTAGAAAAACTCCAGCTTTGACCATGGTTGCAGCATGAATTAATGCTGATACAGAAGTCGGACCGGCCATGGCATCAGGTAACCATTCATGTAAAGGAAACTGAGCAGATTTCCCTATAGCTCCGCCAAATATGAATAATGCAACAGGAATCAATAATCCTGATTGTGCTAAGTCAACTGCCCAAGTATGATTCTCAGATAATTTAACAAAATCAAAAGTTCCAGAAAAGAAGAACAGTATAAGAATACCAATCAGAAATGATACATCACCAACTCGAGTCATTAAGAATGCTTTACTTCCAGCATGAGTAGGTGAAAATGCAAGTGGAATTCCCCAAGCTTTCTTTCCAATAGTTCCAACATAATCTTTCTTGAGATCTTTATTCCAGAAACTAATCAAACCATATGAACATAATCCTACACCTTCCCAACCAAAAAATAATTGAAGGAAATTATCAGAAAAAATAATAAGTTGCATGCTTCCAATAAAGAAGACCATAAGGAACCAATATCGAGTCATGTTTGCTTCTCCTTTCATATAACTAAGACTGTAAACCATTATTGAGAAAGAAAGCCAACCTACAATATTTGCCATAAGAATACTTAATGGATCAGCGAGAACGCCAGCAGTAATGTCTAGTGCAGCAATCCACATAACTTGATGATGAAATGTTTCTCCTGCTAAGGCAAGAGGTAACATTAATGCACAAAGTATTGCAGAAAATAATGTAATAGATATTGCATAATAATCTCTTAATTTAGTACCAGCCCGAGCAACTACTGGCATAAGTAATGCGCCAAGAATTGGAAGTGAAAATACTAACCAAGGAATTAAATAATTTATTTCTGCAGACACTATTTCATACCGCCAAAAATAGGTTGAAGTAATGGAACAAGTCCATCAGTAATAAGCGAAGGAAAGACGCCAATTGTCAGAGTTAGAGCACAAAGAAATAATAAAGGCAAAGTCACAAGAATAGAAGGTTCCTTTATATTTTCAAAACCTTTTGGGAGTTCGCCAAAGAATACTTTTCTCATAGTAAGTAGAGCATAACCTGCAGTTATTGGTGTGCCAGCTAATGCCAATGATGCAATAACTAGTTTGAAAGTAGAACCACTTTCTAGAGCACCGCCAAAAGCTCCAGCAAATATCATCCATTCTGATTGGAAGCCATTAGTAGGTGGAACTCCTACAATAGCAAGGAAACCAATCATTGCTGCAATACCAGTTATTGGAAGTTTACTCCCCAAACCTCCTAGTTTTTTAATACTTCGAGTTCCTCCTGTTTGCATAATAATTGATCCTGCTGCCATGAATAGCAAAGCTTTGCCAGTACCATGACTAACATAATGAAATACTGAACCTGTGACTCCAAGATAATAGAATGATCCCATGCCAAAAATTATGTATCCCATTTGACTAACACTAGAATAAGCTAACAATCTTTTAATATCGTCTTGAGCATAAGCCATAAGTCCTCCGTAAATCATTGTAAGAAGTCCCCATAATGTAATCACAAAAACTATACTTGGATATATGGACGGAAGAATGAATACGAATATTCGGAGAAATGCATATGCACCGATGCCTATCATAGCTGGGGAAAGTAATGCACTAATTGGTGTAGGAGATTCTGCATGTGCATAAGGCAACCAAACATGAAGTCCAGCTGCAGCAAGTTTCACAAGTAATCCAAAGCTTATAGCAATTGCAACGAATAGTCTAATTGAACTTGGTAATGTGTTTTCTGTAATTTCTACAAAATTAAAACTTCCACCAAAAAAGCCTACAGTTAATATTCCTGCAAGTAAGGAAACTGCACCAACATGTGTCCACAAGAAATACATAAGTGAAATTTTTTGTCTTTCCCCATAGCCAAATTCAGAGATTAAAAAGAATGAGGGAATCAACATAAGTTCAAAGAATATATAAAATTGAATTAAATTTGTTGCTAATACTGTACCCAACATACCTGCAGCATAAATTGTGTATAGACTATAATAGAGTGCCATTTTTCTATTCATTATATCGGAAGAGAACTTTTTAGAACCATGAAATTCTTCTTTAATTCTATGTTCCATATAAGGCATAGAATATATGGATAAAGTAGTAGATAGAATAAGGATAATAGCTGCAAATGGAAAGCTCAGACTATCAATGTATAGACCAAAATTGCCAATAGGATTCCATGAATAAGTTTCTAAATGTGTGCCTGTAAATAATGAACTATTAGAAGTTCCAAGTCCAGAATATAATACTAATCCTGTACTGTATAATAAGATAAGAAATGCAATCCAACCAACGTTTTTTCCAATACGTAAACCTAGAAGATAAATAACAGGAGCTAGGATTATTGGTAGAAAAACTGCTTGCAATAATAACAAATTAATATCAACCTCTTAATTTTTTTAATTCTAGAACATCAATGTCATTATTTAGCCTAAATGCCTGAACAATAATAGCTAAACCAACGGCTGCTTCTGTTGCAGCCAATGCAATTGCAAATAATGAAATCGTCTGACCAGTTATGAGAGGAGAGTCAGAATATCTTGCAAAAGCTACAAAATTAATTATTGCAGCATTAATAATAATTTCTACAGAAAAAAGTAAACGTATTGCATTTCTTTTAGCAATTAATCCATAAATACCTACAGATAATAACGCTAGCGATAAAAGGAAATAATTGAGTAGAGGTTCCAAATAAATTTCACCGTTTTTCAAACTTTGCCATTGTAAGTGCACCAACAATAGATACTGCAAGAACTAATCCAGTTAATTGAAGAATTAACCAATAATCATTAATTAATTGTGAACCAATTTCATAGAAGTTAGCAATTGATGATGGATTTGGATATTGTTCAGCAAGACCTGTCGACAAAGAGAAATATGCCATTGTAGAAAATAACAAAATTGCTGCAACAAAACCAAAAATCCTTTCATTACCTCCTTTAACAGTAATCCATTTGTCTCTTCGTACAAGCATAATAACAAAAACTATCAATACTGCAATTGAACCAACGTAAACAAGAACTTGGAAGATCGCTATAAACAAAGAATCAAGAAGAACAAAGATTGCTGCAACTCCAAGGAAAGAAAGTGATAAAGCAACAGCTCCGTAAACTAGTTCACGTGCTTCAAGTGCTAAGATAGCAAATATAACAGTGAGGAATGCGACTGTGAGAAAAACAATATCAGTCATGATGAGCCTCATCATTATCAACAATTAATTTTACATTGCCTTTCTTTTCGGGAAATACAGCAAGTTGAAAAGGAGTATGAACTAATTTTCTTTTATCTACAGCAGACAGTTCATATTCAGGAGTCATAAACAGACAATCAAATGGACAAGCATCAACGCAAAATCCACAAAAAACACATCGCCCATAATCTATTTGGGGCATAATAATTTTTGGATTTATAGGCCAACTACCTTCAACTTTTACCATATCAATACAATCGGCAATATTTTCACAGGCTATAGCGCACAGAGAACAACCAGTACATTTGTCTGTATAAAGAATATGTCTTCCTTTAAAGCCTGGACTGGCTGTATTGGATTTAGCGTCATATGTATAACCAGATTCAAGATCTAAACGTTGTTCAGGATATTTTAGAGTCATACGTCTTTTAAAGATATTACGAATTCCTACAGCAAAAGCGCCCAAAATTCCAAAGATGAGTTTATAATTCATTAAATTACACCTAGTGACGATTCAATAACTGCTAAAAACAAATTAATAAATGATAATCCAATTAACCAAGCCCAACCAACTCTGATTAATTGATCTATACGTAACCGAGGTAAAACAGCACGTGGAAGAATTACTACAGTAATAACAAAAAACAATTTACTCAATAGCCAGACAACAGGTGGAAGAAAAGCAGGTCCATTCCAACCTCCTAAAAATAACAAGGTAAAGAGTAAAGCAAGAACATAGAATTTAAGATAAACACCAAGCTGCAATAAACCAAAGTGCATTCCAGTATATTCAGTCAACCATCCAGAAACGATTTCAGTTTCAGCTTCTGGTATATCAAAAGGAACTCTTTCTAGTTCAGAAAGAATTGTAATATAAAATATAATTGCTGCAAGAAATTGCGGAAATATAAACCAAATGTCCTTTTGATATTCTACAATCTTAAAAAGATCGAAGGAACCAACAAGTATTACAACACCAAGAACTGAAATAAGCATAGGAATTTCATAAGCAACAAGTTGATGTAATGCTCTAAGTCCTCCAATGAATGCAAATTTATTGCTGCTAGCCCAGCCAGCAATAAGGATAATCAATGGACTGAAGCCAATTATTGCAAAAGGAATTAATAAGCTAAAATCTGATCTTGCGATATAGTGTGTTGGAGACAAAGGAATTACAGTAAGTAATGCGGCACCAAGTCCAAGAGTAAGAATTGGAGCGGCCCAGAAAAATGGCTTGTCTGCCTTTTCAGGTACGATTAATTCTTTGCCGAGGAGTTTAAACAAATCTGCAATGGGTTGTAAAAACCCTTCAAAACGTCCAGCATACAATGGTCCATATCGAAGCTGTGCTTTTGCTATTAATTTACGTTCATAAAGAATTATTGCAGTTGCCATTAATGCAGCAAATGTGAAACCAGGAAAAGCTGCTACTTTAAAGAAAGTAGAAGACATACCCAGACCGTATCTTTCAGCAAGTTTAATAGCTTTTAACGGATCGATTGTTGCAGTTAAAATTTCGTTGACTATATTTACATCAATTCCAAAAATTGGAACAAGTAAAAACAATATTGGAAAAATTATAAGAGGTGAAAGTAGAATAAACCAGAAAAGTAAAGTTAGTATCATTTTTACAAATTCTTCAAAAGTTTCCAATTATTTCACCTATCTGCCTCAACTGGCCAATAATCTAAGCTCCAATATATTGCAGGCATATCTGCTAATCTAGCACCAACTAACAAATGTTTCATTCCAATTAAATTTCTAAAAGAAGGAACACTAATCTTAACTCTATATGGAGTCTTTTCACCATTACTAACTATATGATAAAACATAGTTCCTCTGGCAGCTTCTGTACGTACAAAGGCTTCACCAGGCTCTCCACGCAAAATTCCTCCAATGACTTGTTTAATTGGTCCAGGTTCTATAATTTCAAGAACTTGTTTAACAATATCCATACTTTGTTGAAGTTCTTCTAGTCGAACAATACATCTTGCATATGAATCACCTTCTTTGCGTGTAGGTATATCAAAATTAACTCTATCATAAAGGCAATATGGTTCATCTTTACGAACATCAGAATCAACTCCAGAAGCACGAAGATTAGGACCTGTAATACCAAGTCTAATTGCATCTTGTTTCTTTAATACGCCAATACCTTCTGTTCGTGAAGCCATAAGGGGATTATCAAAAAAGATTTGCTTATATTCTTCAATACGTTTTTCAAAAAAATCAAATGTCTTTAGTGCTCTTTCTTTGAAATTTGGAGGTATATCATTTCTCACTCCTCCTGGAACAACATATGAAAAAGTTACACGAACTCCACCAATTGATTCTGCTAGATCAATAAACAGTTCACGATCTCCCATGGGCCACATAAACATGGTTGAATGACCAAGAAATATTCCATAGATTGCTAGCCAATAGAGATGAGAAATAATTCTATTTAGCTCTGCCATGATCATTCGTATACATTGAGCGCGTTCAGGAGCTTCTACGCCAATAATTCGTTCTGCAGTAAGGACATATGGTAAAGTTATACCCGTCGCATCTATTATAACTGGACGTTCAAGATGTGGAATATTTTGAATATAATCCCTATATTCAGCCATCTTTTCTGCACCGCGATGTACATAACCGGGATCAGGTTTAGCATCAACAATATAATCGCCATCAATTGTAACAATAATACGAAAGTGACCAGAACCAGGATGTTGTGGTCCAACGTGGAGAATTAGTTTATCTCCACCTTGATTTACAACATTAAAAGACATTTTATCACCTTCCCGGTAAACGAAAATCTTTTCTCAATGGAGGTATGTCATCCCAATCTTCAGGTAAAAGTAATCTTTCCATTCTAGGATGATTTACAAATGTTATTCCAAAATTTTCAAAAGTTTCTTGTTCATGAAATTCTGCACTAGGCCATACATCGATTAATGTCTCAATCTCAGGTTTAGCTTTTGAAATTTCTGTCATAAGACTAAACATAATACGACGAAATTTTTTATTAGACAAACAAATAACATGATATTCAACACGAAATTTTTTATTGTCTGGATAATCTGTTCCGCCTTGAGAAATAACTTGCTCAAAACCTAATTCTTTAACTGCAATGGCTAAAGTCTTGAAGTTTTTTTTATTAGTAGAAACTTTTATTCTGTTATGTTCGACGTATTCAACTTTAATTTTATCTTTAAATTTATCTTTTAAACTTTCAATAAATTTATTTTCAATATCTAGATTAATTACCATGGATTTAATACATTACACCTTGGATTTCCTTATCTTATTTTGAAGTTCAATAATTCCTTGAATGAGTGTTTCAGGTCTTGGGGGACAGCCAGGTATGTAAACATCTACAGGAACAATTTTATCAACTCCTTGAAGAACGTTATACGAATCAGGATACAAACCTCCAGATATTGCACATGCACCCATTGCAATTACCCATTTAGGATTAGGCATTTGCTCATATACCCATTTCATTCTAGGTGCCATTTTTCGAGTAACCGTACCTTGAACAACTAATACGTCACATTGTCTTAATGAACCAAAAGCTTCCAACATTCCAAACCGTTCAAGATCATATCTTGGACCTGAAGCAGCACCGAATTCAATACTGCAACAAGCTGTTTCTAAGTGAACAGGCCATAAAGAGTATAATCTTCCCCAATTAACAAGATACCTTAATGGTTCTCGTACGTTTTTTTCTACAATACTTTCAAAAATATCGCTAGCTCTGCCTACAAGTAGATTAAGAGTCGGATCTACCAATTTTCTCTTTTCCCTGCAAGATTCAATGCATAAATCATTGGAATAAGTATTACCGCTAGAAATGGTAACAAACTAGTCAAACTTTGAATTCCTAAATTTTGAAATGCCACTCCCCATGCAAACAAAAACATAACTGTTACATCGAAAATAACAAACATAATCAAATAAGAATAATATTGCATAATCAAATGAATACGTGATTCGCCTGTAGGAGGCTGCCCTGCTTCGAATGTTTGTAATTTAATAGGATTACGTTTCTTAGGCGCGAATAAAACAGGTATAATTAGAGTAGGAATTGAAAAGGCCACTCCGGCGATAGTCATTACCAAAATGAGGCCAAACTCTGGAGATACCATTTAATATACAAATATTAAATTTTTTTAAGTTTATTTAAAGCTTAAATAAAAAACTAATATTTTAATTGTATTGTATAATTTTATTATTTACCGAATTTAAGTTGCTCGCCATGTATGAGAACACTTTTCACATCGGAAAAATTGAGTAGAAGCTTTCTCTAAACTACTTGTTTGTTTCTCCCAAAAGTATGCATAATCATGACCGCATTTATTACAAGTAGCTTTAGTAGTTGGCATAGATTGTAGTTTTTGAGTTTTCTTATCTACAACTCTAATAGTTTTACTGTCTTCTTGTTTTACCTCCTTAATTTTTATAGGTTTAGACTTTTCTGAATAACCACAAGAGGGACAGGTTATAAGAACCTTTGAACTAACTTTTGAAGTAGACATAGTTTCTACTTTCTGTGGTCTTGTTTTTGCATTACACTTGGGGCAGAATTGCATTACTCATTACTCCTAAAATATTGAATATTATGTAGTGTAAAATTATATAAAATTTTCGCTAAATTACAATCGGAAAGAAATTAGATAGTTCTTCTATATGCTTGATGATGCCACTTGACGCAATAGATAAATTACGTCGATATTTTAGTTCAATAACTGAAGTTCGTGCAAAAGACGTAATTATTTTTCTAGTAAGTCGTCTACCTTCTGCATCGTAATCAAATAATATAATTAGTTTTTTATATCCTTGTGCAATACGTTCTAATTTTGATATGTTGTTGTTGTTGCAATATTCAATAATTCTTCCGTTAAAACCAAGAGAAAATAATGCATAAACATCTTTTTTTCCTTCGACAATTACAATTGCGTCTTCATTACATTCAGAGTTAAGTTGATTGATAAAATAAGAAAGAAATTCTTGAAATTCAAAATTGTATTGTAGTTTGTTCATTAAATATATGAATAAAAAATTTATATATTAACTCTTAGTACGACTGATATTTTTTTGTTGTTTTATTATTTCAATAATTGGAATAAAAAATACAGGAATTAAAGTTCCTAGAGCTATACCAAGAACCATATGACGCATAGAAGGATCAAGAATTGCTCCCGTTGTATTGGATAAAACATGTGATAAAGCAGCTCCGATCAATCCGCCAAATACTCCTCGAGAATTTTGTTTGAGGAAAGATCGAAATTTTTTAATTGGATTGTATTGATGAGTGAAACGATGAAAACGTAATTCAAGGTTAACACCAACATATGTGCCAATTATCAATAGAAAATTATCAACAAATCCAAAGATTAGTCCATCAAGAATTTGCATTACGTATCCTCTCAATAAATGGAATAAATAATATGGGAATAAGTGTTCCAATAACTATTCCAACAACCATATCATTCATTGTAGGATCAAGAATTGCTCCCACACCATCAGATACTGAATTACCTAAAGTAGCTCCTAGGACGCCTCCAAGTACTCCACTGGATTTCTCATTAAGAAATTTTTCAATACCAACTCCAGTATATGCACCAATTAAGAGCAAAGAATTATCAATGAAACCAAAAATTAATCCGTCAGGAAGAGCAATCATCACCTTTAGATAATTATACTCAATAATAAAAAATTCGATTATTAAAGACCTAAACCAAGCAATTCTTTAGCAATAATCATTCTTTGAATGTCATTTGTACCTTCATAAATCTCTGCAATGAATGAATCTCGAAAACCTCTTTCAAATTCTGAACCAGCAATAATTCCAGAGAGTCCTTGTATCTCAATAGCAGTAGTAAGTGCACGTGAAGCAACTTCAGAAACATAAGCTTTAGAGATTGCAGAACCACGCGAAACTCGATCGCGTAATTGTCTAGGAACTTTTTCTTTTGATTCGATGATTTCATAATATTTCTCCAATTCAACTAAATTGTTATAACACAGATATCTTGATGCATAGACTTCCATAGCTACATCTGCTAATTTCCATTGAATGGATTGTCTGTTGGAGAGATTACCACCTTCACTTTGATTTTGTCGAAGATAGTCAATAGATAAATCTAGAGCACGTTGAGCAGCACCTAATGAACCAATAGCAAGTGAAATACGGCCTCCATCAAGAGTTGAAAGTGCAATCATAAAACCAGTTCCAATATCACCTAGAATATTTTCTTTAGGTACGTGACAATTTTCAAAGATTAGTTCCACAGTAGAAGAAGCTCTAAGACCAAGTTTTTTTTCTTTTTTACCGACAGAAAAACCTGACATGTCTTTTTCTACAATAAAGGAAGTAATGCCACCCATTGGTCCAAGAGATTTATCATTAGCTGCAAAAACGATTATATAATCTGCAGAATCTCCGTTAGTACAGAAGATTTTACTACCATTAAGAATAAAATCATCGCCGTCAGGAGTAGCACTTGTTTGAAGATTTGCTGCGTCGCTACCTGCACCAGGTTCAGTTAATGCAAATGCGCCAATTGATTTACCAGAAGCAAGTTGTGGAAGAAATTTATTTTTTTGATTGTCGTTTCCATACAAGATTATTGGAGTAACACATAATCCTAAATGTGCTCCAAGTATAGTACCGTGTGATGCACAAACAGCGCCAAGTTCTTCAAGAAGAATGCCATACTCAATTTTTGAAAGTCCTTTTCCTCCGTAACTTTCTGGAATAGTTAACCCAAAATATCCTTGTGCTGACATTTTTGCAATATTTTCGAAGGGAAATTCTTCATTTTGATCATATTTGCTTACTGTTGGAAGTATTTCATTGTGAATAAAGTCATGAACCTCACGACGAAATTCAGATTGTGTTTCAGTAAATGAGAAATCAAATGTCATTATTAATTAAGATAAATCTAGTTACTTTAAGTTTATCGTCACTAATCAAATACGCCTAATTAATAAATGGCTTGGATATTAATACACGTAGATCATCATTAGAATCACAAAGGGACTTTATTGTTTCAGCATCACGAACCATTTTCTCAACAGGGTAGTCTTTGATATATCCATAACCACCGTGGATAAGAAGGGCTTTTTTAGTATTACGTTGAACCATTTCTGTAGTAGTAATTTTTATCATTGCGGCTAATCTTAAAATATCTTCATGATTATCTTTCAATAAAGAAACTTTTTCCAACATTGCAGACGAAATTTCGATATCTGTAGCTATGTAGGCAAGTTTACTTTGTATTGCTTCGAACTTACTAATTGGTTTTGAAAATTGTTGTCTTTCATTAGAATATTTTACAGCTTGATTAAGGCTAGATTGCATTAGTCCTATACTAATTGCACTTAGACCCATCCAAACACTTTCTTGAATAGAATGAAGTATTTTGTTTATATCGTCAGGAACACCGATCAAATTAGTTTTAGGTACATTACAACTATAGAAGGAAATTGGAACAGATTTATTTCCTCGTAAACCAACCGTATTGAGCAGTTTGCCAATAGAAATACCAGGATTATCTTTGTCAACTAACAAAAAACCAGAATCTTTACCAAAATTACAAAATACAATAAAATAATCTGCTATTTCTCCATTAAATACAAATTTTTTAGTTCCACTGATTGAATAACTATCTCCTTCGTCCATAGCCTCAATATTAATATTTCCAATGTTAATTGTATTTCCGCTATCACCAAGTACGGCAGCACCAAGTTTTTTACCAGTATTTAGGTCATTTAATAAAAGTTCTTGTAGTTCGTTATTACCAAATTTTGTCAACAATTGAACTAAAAAGACATTATGAAACATTAAATGAGAGGATAAAACTGGTGAATATTTTGCAAGTTCCAGAATTCCATGAATAAATGTAGAGAAACTTGTTTCTGCACCACTAAACTTACTGGAACCCAACATTCCATACAAACCTAATTCAGAAACCTTTTCTAGAATTGAAGTTGGTATATCAGAATTATCTTCAATATCTGAAACAATGGGATTAATTTCGTTCTCGCCGAAATCTTTGATTACTTCCTTAATCATTTCTGTTTCTTCTTTTGAAGATGACAAGTTATTCATAATGCAGGTTCCTAACATAATAATCTTATCCAAGAAAATATTGCGCTATTACGAGAATAAATAAAAAAATTAATAAGACTTTTATCGTGATAATAATAACAAGTTTTCGACAGCGTGATATAATAAATGATTATGAAAGGAACTTATCTTCTACTAGGAATTAATTTTCTAGTTTTTATAATTTTCAATATCATATTAGGAAATACAACATGTGGAGACATACCATGGAGAACTTTCTGTATAAAAAGTGATTATCTTTTTCAATTCGCGCAAGTTAATCAATTAATATTCTCAGGAGAAAATCTTTATCAACTAATTACAAAAATGTTTGTGCATATAGCAGCATTACATTTTGCATTAAATATGATTAGTTTATGGTTTTTCGGCATAAGATTAGAAAAAATTTCGAGTGCGCGATTTCTTATTATCGTATTTTTATTATCAGGTCTTTCTACAAGTATTACAAATTTATTTCTTGGTACAATTGTTTCTGCAGGAGCTTCAGGAGCAATTTTTGGTGTCGCAACAGTATTCACAATCCTGAATTGGAATAAAAAAAATACTAAAATATTATTTCTAGTTTTTTTAATTTTCATACACTCTCCAGCATTACTAGGATCTAATATTAACTATCTTTCACACTTTACTGGGTTAGCAATTGGGGCAATACTCGGAATGATAAGATTTCAGATGTTAAATAGAACTATAGATTAATTACTTTTTTATGTCGCAAAGTTACACATCAAACATGAACAAAGTATTCTTGTTGAGTGCAGCAGGAACAACGTATGGAAAAACTGATTTAACTGCAAGGGATTTATCTATGTTAGCTTCGAAACGTGCAATAGAAAGAGCAGGAATAAAAGTACAAGATATTCAAGCTGCGTTTATAGCAAACGCATTTGGTATGGCTGAGAAACAAGGTCATTTGGGTCCATTATTAATGAGTAGTTTGGGCATTCCTCATGCTCCATCATCAACGATAGAGGCGGCATGTTGTAGTGGAGGATCAGCAGTCAGGGAAGCCTACGTTAACGTCGCGTCAGGTTTTTATGATGTGGTTTTGGTCGCTGGAACTGAAAAAATTAGTCACCTGGATACACTTACAGCAACAACTTATTTTTCATATGGTGGAGACTATTGTTTTGAGGGAAACTCTGGAGCATCTTTCCCTGGGTTATATGCAACAATGGCAAGGTCGCACATGCATGAATATGGCACAACAGAGGAAGAATTAGCTGCTGTAGCTGTAAAAAATCATGAGAATGGATTTTTGAATGATAAAGCACATTTCCAGAAAAAGATTACGATAGATGATGTGCTCAAATCTGCAGTTGTGGCCGATCCATTAAAGCTTTATGACAGTTGCCCTTTTTCTGATGGTGCAGCGGCAGCAATAATTGCTAGTGAAGAATTCATGAATAAGAATAATCTACAAAAAAGTGTGTCTATAAAAGGTTCGGGAAGATCAGGAGGTGCTGGATCATTACATACTCGAAAAAATATGAGCAGTCTAGAATCTACTATTAGAGCATCAAGAGAAGCACTAAAACATGCAAATATAAATATTAAAGATATAGATTTCGCTGAAGTTCACGATTGTTTTACAATCGCCGAAATAATTGCAATGGAAGATTTAGGTATATTTGAAAAAGGCGAAGCTAGTAAAGCATTAGTAGAAGGAAGAACTAGGATTAATGGAGAAATTCCAATAAATCCGTCTGGAGGTCTTAAATCAAAAGGTCATCCTGTTGGTGCAACTGGAGTTGGTCAAATAGTAGAAGTTTTTGAGCAATTAACAGGAAAGTCTGAACAAAGACAAGTTAAAGATGCAAAAATTGGATTAACTCATAATGTCGGTGCGACTGGAGGCAGTTGTGCGGTCCATATCTTTGAGAGGGAATAAAATGTCTGAGGATTCAGTATTTGTTGGAGATATATTTGAAGCTACAAGAGAGGGAAAAATCAATGCATATAAATGTACTAAATGTAAAAATCAAGGAGTCGCAGTACAAGCATTTTGTGAAAAATGCGGAAATAATAAATTAACTACTAAAGAAATTGGCAACGTTGGAAAAGTAATAACTTATACAATCCAAACAGTTGCTCCAGATCCATTTGTAAATGAAGTTCCATATGCTTGGATAATTGTAGAACTGGAAAATAACATCAAGATAACTGGATGGATACCATTTATTTCTTCAAGAGAAGAATTAAACATAGGACAAAAAGTAAAACTCATTAAATCATACAAACCTGGAATGGTTTTCGAGAAACTATCTGAATAAAAGTTAAATGAAATACAATGTGAGTTCATTATAATGGTATTATTTGTAAAACGCGTTGGAATAGTAGGTGGTGGAGCCATGGGCAGTCAAATTGCAGATATCATGGCAATCAATGGTAAAGAAGTAATAATAAAAGATATGTCAGAAGAATTTCTTAAAAAATCAAGAGAAAATATTGAAAGAAATTTGGATGATTTATTGAAATTTAATTTAACACGAGCTGACAAAGAAATAGAACGAATTGAAAAATCAAATCAAATACAATTAAATGACGAACAAAAAGCAAAAATACAAGAGACATTAAAACCAAAATTCAATGAAGATAGAAAGAAAGAAGCGTTAGATAAAATACAAACTACCACAGATTATAAAGAATTTAATGAAGTTGACTTTGTAATTGAAGCAGTACTTGAGAATACAAAGTTAAAAAAAGAAGTGTTTAGTGAATTAGACAAATACACGCCATCACATGCGATACTAGCAACAAATACATCATCACTATCAATAACAGAAATTTCATCGGCAACGAAACGACCAGAAAAAGTTTTAGGAATACATTTTTTCAATCCGCCAATAACCTTACCTTTAATTGAAATAATACCTGGAATTGAGACAAGTGAAGAAACAATTAATGATGTAATTGATTTTATGTCTACAATAAGGAATCATAGATATCCTATGCAGCCTATAAAAGTAAAAGAAGTTCCAGGATTTCTTGTTAATAGAATACTATTTGCAATGATGAATGAAGCATATTCCTGTTATGATGAAGGAGTAGCTTCAATGAGAGATATAGATCTTGCAATGAAAGCTGGAGCAGGTATGCCGATGGGACCATTTGAACTATCTGATTTAGTTGGAATAGATGTAATATATCATGTAGAAGAAGAGGTAAGAAAAATGATAGGTGGAAATACTATGCGTCAGCCATCACAAACTATCAGAAAGCTTTATCATGCTGGACGTTATGGAAAGAAAACAAAGAAAGGATTTTACGATTATACGTGATAATATGTCAGAAAATGAATTTGTGAAGATAAAAGTAGAAGGCGGAATTGGAATAATTACTGTAGATAATCCACCAGTAAATGCGTTGAATTCAAATGTATTAGAACAATTAGACAAGGTAATCGACCAAGCATCAGAAAATAACGAAGTTTTTGGAATCGTAATAACAGGAGGAGGAAACAATGCATTCTGTGCTGGTGCAGATATTAAATCATTTGCTCAGTTAACAGAACCAGACGATGTGATGGCTGTAATAGAACTTGGTCAAAATGTTTTTAAAAAAATTGCAAATGTTGGTAAACCTGTTGTTGCTGCAATAAATGGTGCAGCATTTGGCGGAGGAAATGAATTAGCGCTTTCTTGTGATATTAGAATTTCTTCAGATAGAGCAAGGTTTTCCCAACCTGAGGTCAATTTAGGATTAATACCTGCATGGGGAGGAACTCAAAGATTAAGTAGATTAGTTGGAGTTTCAAAAGCTAAAGAGCTTATTTTCACTGGGCAGTTTGTTACTGCACAAGAGGCTTACAGAATTGGAATGATAAATAAAGTAGTGCCAGACGGAGAAGAATTACGCGCTGCTTCAGATATTGTAAGACAAATTGCGTCAAGAGCAGCTCCATTGGCGGTAAAAGCTGCAAAGAACATAATTAACGCAGGAAATGAAGAAAAAACATTAGACGAAGGATTAAAGCTTGAAGTTGAAGAAATGAAAAATCTGGTAAAAACTGAAGATATTCAAGAAGGAATAAAGGGTTTCATAGAAAAAAGACAGCCAAAATATAAGGGAAAATAGAGAATTCAGAAGTCTTAAATTTATAGAATTTTCAAATAATGTTGATTAACATGGTTGAAATAATTGTAGAAACATTATCTTCGTCTAGCGGTGGAGCAATCTTTCAAGTTACAGTTAGAGATGAAACTAGTCAATCAAAACATCGAGTAAGAATGAGTCATGATTTCCACCAGAAACTTGCAAATGGAAAGACTCCGGAAGAATTTATAAAAACATCATTTGAATTTCTATTGGCTCGAGAACCTAAAGAATCAATTTTAGGAGAATTTGATATGCCAAAGATAGCGACGTATTTTCCTGAATACGAAGAAGAGATAAAAAAGATGTAATTTAGTCTCCTCTATTCGGAGCATTATTAACTTCCACAGCTCTGTTTGGAACAAGGCTCAAAGCAAATTCAATATCAGATTCAGGGCCATAATAGATAAGTAACTTATCTTCGTCTGAAAGTGCATAATCAAGATTGGTTATTTTTTCTTCGTTTACAAATACGAGTAATTCGTTGTCACCGTCACTAGTATATTCAATGCCATTAACCTTAATCGAGTTCTCTGTTATAGGAAGGCCAAGAGAATCCATGAACCAAGTTAATGGAATATTTATTGCATGTAGATGTATTATATCACCTTCATTATCATGTACATGAGCATAACTACTTTGTAGTGCATAACGTGATTGATTCAAATCAATAGGTGTGCCGTCGATATAAACAAGAAAATCAAGATGTTCGTGTGTTGAACCAATTGGACCAATTTGTGGACCAGAAACTACTGAGAATAATCCATAACCAATAAGTAAAATGGCGGCGGCAAAAAGAACATATTTCCTAAGAACATTAAGTTGTTTAGATCTTTTCTTTCGTTTTTTACGATCAGATCGTCGTTGTTCTCTTTCACGTTTTCTTAGACGTTTTTCTTCTTCACTCACAAAGTGAGAGTATTAAAAAGTACAATATAAATTAATATAATATTTTAAAAGAATTTAAGAAGATGGCAACCTAACATTGAACAAATTTTCAGAAATTAATGGACTATCGTCAGATTCTACAACAAAGTTAATATGAGATTTTCTTTGGAGTAGATTATTAGATCCAATGGATGTCGCGTTCATGGATACAACGTACTTTATAGTAACTGTTTCATCAACAGATAATTGTTCAACAATCACATTATCGTCAGAAATTATAACAGGAGGGCCAAATGTTTGTTCAACAGATATAACAGAATACCAATCATTAGTTGGTTCAAACTTAAGATTTATTGATATATTATTTGCGTCAACTTTGCCCAAATTAGCAATGCGTAATGCAAATATTTCATTTATAATATTATTCTCGTCACTACTAATTGGCCGGTATTCATGATTATAATCATCTGCAATTCCGTTTAATTCAGCGTCAACTGAAATTATGAGGCTTAGATCTGGTCTCGATAGTGTTGGATAAATAAAGGCAAAAAGCGATATAGATGCCACAAATATCACGGCGTATATAGCAATTTTCGAAGTACTAGTCATGATTTTTTTATTTATGTAAATGGTATTAAGGTTTTTTAGTCATATTCCCACAAAAATAGTTGTTTTGTCCATGAAAAGATATGTTATAGGATTTGGGCTTGTTATAGTTATTTTACTGGGCGTGGGTGTTGTTATGAACGACAATAATGTACCTGATGAAGTAGAAAGAAGAGCACCAGAAGAATTTCATGTTGATGCAGTAAGTAAAAGTGTATTCAAACCGGCAATGTTAAACATACAAGTTGGAGATACAGTAACGTGGACAAACATAGATTCTGAAGTTCATAGTGTATCTAGTTCAAATGTCACTTCAGATGGCGGAGTATATTTTCATGAAACTTTGTTGCCAGACGAAACATACAGTGTTACATTTGACAAACCTGGGACTTACTTCTATTCCTGTTTAATTAAATTCCATGGAATGACAGGAATAATCAGAGTTTCGTGACTGAATTGTCTACATCTGCTTCTAAAATCAAGTAAGTTGCTTGCGTTTATAGAGCAATAAAGATGTCATTAATCCTATCATAATATAAAGTAAGAATACCCCAACACTGAGTCCTACTTCGGGAATGAGATTAACAATAGTTTGTTGTTGCCCTGGAACGAATAATGATGGTACTTCTATGAGTTGATCTTTAGGATAAGGAATTTCAAAGATGTATATTATAATGCCGGCAGCGTATGTAATAGACCACCAAGGTTTTGATTCTATAAGCAACAAGAAATATTCTACCAACCCAAGGACTACAAAGGTGAGAAAAATGAATACGATATATGATATATTGCTTCCTTTGAAAAAAGAACTAAGTGTAAAAGACAAAGACAACAACCCCAAGACGAACAATGCTGCAAAGATAAACGAAAGAAGGATGTTAGCTGGTAATGCGGAATACTTGATATATGAAAAGATAGAGGCAATTACATAATACACAGCATTAAATGATATCAATGCAATAGATGCAGCTGTGAACTTACCAAAGAGTAAACTAGCTCTTGATATAGGATTCACGAATAGTACATAACCTGTTTTATTTTCAAAATCACTAGTTAGTGAATCACCACCGAACATTACGACGTTTACAAGGGCGAGAACAAGTATGAAATTTATGAAGATTTGATAGTCGGTAACAATATTGCTGTCGCCATATGCTGCGCCGGCGAAAGAAGTTGAAACAACATCTGTAAGAAGATAAATCAGGATTGGTACAATCGCAGTCAGTATCAAGGAAGCCCTAATTTTACGACTGCGGAGAAATTTAATCATTTCAAATTTTACAATATCTCGGAATTGTTTGGTTCGGTTAATTTTTGTACGTTTAAGCATCTACCTAACGGACTCCTTTATTGTTTTCAGATATATTTCTTCAAGATCGTCAGTGTCGAATTTCTTCGTAATATTTTTTATAGTATCTGCAAAAAGCAGACTGCCTTTATCTATTATCGCAATATTATCACAAATTTCTTTGATTTCACTGATAAGATGTGAACTGAAAAAGATTGTTTTTCCCTGTTTTGTAATGTCCTTAAAGATGTCACGAATTTCTGCCATTCCACGTGGATCAAGTCCAAATGTAGGTTCATCGAGTAACAAAATTGGAGGTTCATGCAATAATGCTTGTGCAATTGCTAGCCTTTGCCTCATTCCACGAGAGAATGTTCCGATTTTTATATTTGACCAATCATCAAGGCCTACAAGTTTAAGAAATTTTTTCGAGTTTCTTGAGATTTTATCTTCGTTCATTCCACGTAATCGACCAAAATATTCTAATGTTTCTAAAGGAGTTAGAGATGGATAGAATTCTGCAGATTCAACAATTGCGCCTACCTGTAACAATGCTTCGTGCGGTTCCTCTAATGCATTAATTTTAAAGAAATGTGCTTCGCCAGATGTTGGTTTAATTATAGAAGTCAGAATTTTTATAGTTGTACTTTTACCAGCTCCGTTTGGTCCCAAGAATGCAAATGCGGAACCACGAGGAATTTCAAGCGAAAGATTGTCAAGAGCATTTATCTTTCCATAGCTCTTTGTAAGGTCTTTAATAGTAATTGCAGCCTGCATTATCATAAAGTTAGTCAGACATAGTTATAAATTACAATAACGAAACTGGAAATATGGAAACTCGAGTAATCGGAATGATTATACTTGCAGGAGTAGTTGTTCAACTTATTCTAGGATTTTCGGGTCTAGTAACACCTGCAATGATGGATCCAGTAACAATAGCACATGTAGTAATCGGAGTTGGAGGGTTTGGTGTAACGATATTTATGACCAACAAAGCGTTGAAAGTTTCTACAACTCCAATAACCAAGTACGTTATGATCATAGCATCATTGGTTATTTTAGGTCAACTCGCAACAGGCTATATGCTGCTAGCAGGAATGAGCAATCTACTTATTTCTCATACAATGAGTGCATGGTTAATAATTGCATTATTTGTAGGACATGCTGGATATGCCATGTATTACGCTAAAAAACAAAATCAAGCGTAGAAAGAATATATTGAATGTTTAAACAAACAACTCAAGGTTGTATCTAGTTAATGCGAATTTCATTATCCAATATTACAAAAAAATTTGCGCACACTTCAGGAGATGTTTTAGCTGTAGATAATGTAAATCTAGATGTTGATGAAGGTGAGGTAATATTATTAATTGGTCCAAGTGGTTCAGGAAAAACAACGCTATTGAACATGATAGGAACAATTGAAACTCCAACTTCAGGTCAATATAGATTCGATGGAGAATTAGTTTCATACAAAAATATCGATATAATGACAAAGTTTCGAAGGAAAAATATTGGATATATATTTCAAACATTCAATCTGTTAAGAGATCTTACTGCTCTGGAAAATGTTGCATTAGTTCAGGAACTGAGTGGCAAAGTAGATCTCTGTATTGCAAAAGAACACCTTCATAAAGTTGGGTTAAGTGGAATGGAAAACAGATTTCCTTTTGAGTTGAGTGGTGGACAGCAACAAAGAATTGCAATAGCAAGGTCAATGGTAAAGAATCCAAAGGTCTTACTTGCAGATGAGCCAACTGGAAACTTGGATGAAAAAACCACACATGAAGTGTTTCAGACATTGGTAGACATGTGTAAAAACAATTCAACAACTGCGATAATAGTCTCACACGATCTTAGTCTCAGCAAGTACACTTCTAGAATTATTGAAATGCATTCAGGAAAAGCTGTTGACAAGAGTTAGTTCACCTTGATTGCAATAATATTGAAATCATTAATCAGAGGACTACGAAACTTCAAGTTCAGACTGTTTCTGATGCTGTTTCTCATATTCATGACTGCAATGATGAGCGTAACGCTTAGGGAATTTTCTAGTAATGCAGATGATCTTTATCTGAATATTTATGACGAGGCCAATTTGGCAGATATAGTAGTAGAGACAGATACGTGGATGTATTCCGAAAATGCTTTCTTGGAGGCATGTTCAGGGGCAAATAGCGATTCAAAGTCGCTGAAAGTGAATAAATGCGAGACTCGTATATCTGTAGATGGGCGTTTCAAGCGCAGTGACGGAGTTTGGATACCTGCACTTGTTTATGGACATGTTCCTGATTCACAAGTAACACAATTATTTCCAAATAAAAAATTTCCTATCGGGAGCGATAATGATGGAATCATAAATGTGATTGTGGATACTCATGCTGTAGAACAGCTAGCAATTGAAGATGGTGATTTGTTATTGTTGAACATTAACAATGAGGTAAATGAGTTTCGAGTAAAGTCATCAGGTAGTTCTCCATTGCATCTTTGGTTTGCACCTACGGAGAGCATCATACCACCAGAAGATGGCGAGTTTGCCGTGATATACATGGATGTAGGTTTGCTTGCAGAGATAATCGACGTGGAAAGTGACATGAGAAACATGATGTTAATTGATTTGGAGGGAACGCCTCAATACGACCTTCAGAATACTCAAGAAGACGAGGGAGAGGAATTGAAAGTTATGAAAGATATTTTTTCGGAACGCCTCAAGTCAAGCAACATAGAAATCTTCCAAGTTCTTGATCGTGGAAATATATTTTCGGTAGAATTACTTCGCCAGGATTTGGGCGGTGCAAAAGTCATGGCTCCTGCAATGACTGTGATGTTAACATTGGTTTCTGGATTTGTTCTTGCAATAA
>sequence06
AAAGGTGGAGGAGGCAAAAAGAAAGCTGCTCCAAGGCGTAAAGGTGGAGGAGGCAAAAAGAAAGCTGCTCCAAGGCGTAAAGCTGTAAAGCGTAAAGCTGTAAAGCGTAAAGCTGTAAAGCGTAAAGCTGCGCCAAAGAAAAAAGCTGTAAAGCGTAAAGCTGCGCCAAAGAAAGCATTAATGACCGATACTTTCCAGGAATGGGTAAATCAACAAATATCTTTACTAAATAAGAAACGTTAAGAGAATTTAATATTGAGTCTTAAAGAACCCATAATATTCATTAATTTTAAAACATATCCTGAAGCTACAGCAAAAAATGCTTTGAAATTGGCTGAAATCATTGACATTGTATCAAGGGAATTAGGAATAACTATATTCTTATCACCGCAATTTACCGATATTAGTCCTATAATTACAGAATACAACATACCAGTATTTGCACAACACGTAGACTATGTTAAACCTGGTAAGAATACTGGGCATATAATTCCAGAATCAATTAAACAGGTAGGATGTGTGGGAGCATTAATTAATCATTCGGAGAAACCGCTTTCTTCCAATGAAATAGAATTAACAATCAATAGGTGTAAAGAAACTAAACTAATATCATGTATCTGTGCAAGTAATGCTGAAGAAACAAAATATATAGCAACAAAACATCCTGATATGATGATTGTTGAAATACCTGAATTAATAGGAACTGGAAAAGCAATTTCTACTGTAAATCCAGAAGTAATTTCTAATGCTATAAGTGTAATTCGAGAAATAGATGAAAATGTGTTTATAATTGCTGGCTCAGGTATATCCACAAAAGATGATGTAAACAAAGCGCTTGAATTAGGAATGCAAGGAGTTGGCGCAAGTAGGGCTTTTGTTACTGCGAATGATCCAAAGAAAATTTTAACAGAAATGGCATTAGGATTAATTAAATAAATAATTTCATATTAAGCTGGCGCAGCGGCAAAGATAAAAACGCCAAAGATATAGCTTGCTGCAATTGCCAGTGCAACAGTTGTTACAATCAATCCACCAAGGATAAATAACATTTCGGGTCTTTGTTCAGTTTCTTTTACCTCTGCATATTCATCACGATATTTATTTATTGACCACAAATTAATAACACCGCCAGACAATAGTGCAAGAATGCCAACTGTACGTGTTATTTTAATGCCAGATTCTATTTCGCTAGGTCCAGCTCCGGGATCAGGGCCTTCTACCATAATAGTTTCTTGACTAAGTTCTACATTTACTGCTGAACCTATAACACCCATAAGTATTACAAATATGCCTCCAAGAAGTCTTAACATATATTTACGTTCTATTTTAGGATACTGCCTGGAAGGTCCTCTATACTTTTCCATAATACGTTCGTCTTCGCTCATGTTTAATCACATAATGAGAATAAATATCTATTAAAGATATCGCATCATAAGTTCAATCGAAAATCTTCTTTCATAATATTTAAAACAATTTTACTATTGGTTCTCTCTACATACGACATAGATAGAAGTTTCTTTGTAAAAATGCTCATTTCTTCCCGAGTTTTAAATTTAGCAACAATAATTACATCATTTTCTCCTGTCACATCATAAACAAGACAAGTAGGAAGTAATTTAGCTATATCTTTTTCAACTTCTGTTAATTTTCCTTTTGAAACTTTAATTTCAGAAATTGCAGTAATATCAAATCCTAATTTTTCATAATCTAGAATTGCTGAATAAGATTTAATAACTCCTTCATTTTCAAGTTTTTTTGTTCTACTCAGAACGGTACCAACCGCAAGGTTGAGTCGCTTGGCTATCTCACGATAGGACAAACGTGAATCATTAATAAATTCACTAAGAATCGCTTTATCGGTTTCATCAATTGTGAACAATAATACATACAAGGAATTGTCAAATATAAAGAATAAGTTTAAAATTCTGGACAAGTGTCCAATAATAATAATAGTTAAAGATTTTATATTTTAACAAAATGCCTATAAATAACCGAATAAATGATGAATAAGGGAGAAGGTCAATGAAACAAAAGAATATTTTGGTCATTTTAGTTGTATTAGGTATTTTAGTAATGGTTTTGGGAATATTTGTAGTTCCACGTCAAGTAAATTATGACCCAAGACCAGGATTAAAACCACAGCTAGTATTAGATTTAGATCCTAACTCAAATGAGATGAATGTATTTGCAGAATCAATTACATCAGACAAAGAAGGAAATTTATATGTAGGAGATAACATGGGAAGAATTTTACGTATTAATCCAGAAACTGCATCATCTCAAGTTGTTGGAACAGTTCCACCGTCCGAAGCGGGTAACTGCAGTGTTTTGCTAGGAATTAAGTTTAATCAAGATGGTGATCTTTTTGTTGCAAATGGACAATGTGGACAAGTATGGAAACTTGATAAAGATAAAATAAGTTCAAGTTCTCCTGGAGAAGCTAAATTATTCAAAACTGGTTTGAAATATGCGAATGATATAGCATTTGATAGATTTGGTAGAATGTTTGTATCAGATAGTATTAATGGAATAATGTGGGCAGTAGATGTAAAATCAAAAGATACTATACAATTTGCAAACCAATTAACATCTAGAGATCCAAGTTTTCCATTTGGTATTAATGGAATGGCAATTAGTGATGATGGAACCATATATTTTGCGAATACAGGAAATGGTGTAATTCATAAAGTTGATGTTAGAAAAGAAGATGGAGCAATAAATTCAGTTATAGTATGGAGATCTCATGAAGCTTTAATTGGGGCAGATGGATTAGCATTTGATAAAGCTGGAAATTTATGGGTTACAGCAAATAGTAGAAATGCAATATTGGCTATAACTCCTGATAGAAGAATAATAGAGGTAGCGAGAAATGACAATACTGGGCCACTAGAATTTCCTTCAAGCATAACATTTTCAGGAGAATCAATATTCATAACAAACTTTGACGTAGGAATGGGTGAAAACCAAGATAATAAACTTGGTATAGGTCCATCAATAGTAAAAATACACTTAGGTATAGAAGGATTAGAAAGACCTCCACGGTAAATAAGTTATATAAATTAACCAGAATCTAATTGACTTTTCCGTAATTTTAGAAGTTCCTTTCTTTCTGCTCCTGCGACAGAACGACGTGTTCTTATTACAGAATCAGGATTTGCACTAATACTATCAATACCCTGTTTTACTAGCAATTCAGCAAAATCAGGATATATTGACGGAGCTTGTCCACAAATGGAAATCGTAATGTCATTGTTATGTGCAGATTCTATTAAGGATTTAATTGCCTTCAACACTGCAGGATCGCGTTCATTAAAATAACCAAGAGTATGGAGTAGTTCGGAATCACGATCAACTCCTAACATAAGTTGGGTCAGGTCATTACTGCCAATAGAGAAACCATCACATAACTTTGCAAAATCATCTGCTTGAATTACAAGACTAGGAGTTTCTGCCATGAGCCAAATTTTAAAATCATCACTTCGTTCCAATCCTTCGTCCTTGATAATTTCTAATGCTTGTTTCACTTCAGAAATTGTTCTAGCAAATGGTAACATTGTCCAAACATTTGTCATACCTGCATCTCTTAATTTTTTAATTGCCTTACATTCTAAACGAAATGCAGGTTCATATTCTTGACTAATATATCTTGAAATGCCTCTCCAACCAATCATAGGATTTTCCTCATTAGGTTCATATTTATCTCCACCAGGAAGTTTTTTATATTCATTGGATTTAAAATCACTAAACCGTACAACTACAGGACGAGGAAAAATAGTACTTGCGACTTTGTATATTCCATTATAAAGTTCTGTAACAAATTTTTCTTCCTTATGTTCTTCAATAAGTTTAAGAGGATGTTCTCCAATTTTGTCTGCAATAAGAAATTCAATACGCATTAAACCAATACCATCAAATGGTAAACCTTTGTATTTCTCAATAAGATCAGGTGATCCTAAATTCATATAAATATTGGTTGCAGTTACCGGCCACGATTCACTTTCAAATTGAGTAGGTAAAGATGATAAATCAGACTGATCTTGAATTTTTATTATGCCATCGTATATGCATCCTGCAGTCCCATCAACAGTGACTTCCTGCCCAGTTTTTAATATTGTTGTTGCGTTCTTCGCGCCAACAACACAAGGAATTCCATATTCTCTAGAGATAATAGCAGCATGAGCAGTTTTACCACCAGACTGGGTAATAATCGCAGAAGCACGTTTCATCGTTGGGACCCAATCAGGAGTAGTCATTTGTGTAACAAGAATTTGTTTATCGAGAAAGTCAGATGAATTCTTAACATCGGCTATAATATTTACATTACCAGAACTAATACCTGAAGATGCGCCAATTCCTTTTAGAAGAATTTTAGATTCAGGGCTGGATGTTTGAGAATGAACAGTTTCCGGTCTAGCTTGAACAATAAAGATAGAATTAGAATTTTTTTCACAAACCCATTCAATATCCATTGGTTTATTATAATGTTTCTCAATTTTTAGAGCAAATTCAGACAAGATTTTTACTGTGTTGTCATCAATAGATGGTTTATCTTGTAAATCAATAGGTATATCAACTTCTGTTGCAGAAGCTCTATCAGCAATTGAAAATTTTCCCTGTGTAACGCCACGGATGGTCATTAATTTTTTACTAGTAATATTACTTTTCAAAATAGATAAATCAGATTTGTTTATAATAAATGAATCAGGATCAACTTTACCCTGTACTATAGTTTCTCCAACACCCCAAGAACTTTCAATATATACAACATCTCGTGCGCCAGTTACAGGATTAAGAGTAAACATGACACCTGCAGATTCAGGATCCAACATTTTTTGTACAGTAACACTAGCAAGAACAAGAAAGTGGTCAAAGTTTTTTTCGTTTCTATAAGAAATTGCACGTGTAGAAAAAACTGAGCTAAGACATTTTTTAATAGAAGTTAGAAGATTTTCAAATCCTTTAATGTATAAAAAAGAATCCATTTGGCCAGCAAAACTAGCAGATGGAAGATCTTCAGCAGTTGCACTACTACGAACAGCAACTTCTATATCATCTCCCAAAGAATTATAAAAAGACAATATTTCAGATTTTAAATCTTCAGGGAGTGTAATATTCTCGATTAACTGCCTAATTTGCTGACTTGCGAGATCCATTGAATTAAAATCATTTAAATCAATATTCAATAAAATATTACCAATTTCTGTCTTTAGATTAGTATCTAGAACTAATTTTTTGTATGCAATAGCTGTTATAGCAAAACCATCAGGAACAGGAAGGCCAGCATTTATTAATTCTCCAAGATTAGCGCTTTTTCCACCAACTAAGTTACTATCTTTTTGGTTAAGTTCCCGCAAAGGTAAAACAAAAGGATCAGACATAACGGTTTATCTATTAATATGCAACACAAATTCTATTAAACATTCCTAGTTTAGAAACAATGCTTGAATTCTGTATAGTAAGAATTATCCGGAAACCTAATTTTCAAATACAATTACTTCATTACTATAAATACTTGCTATATCAATTTTATTTTTTAATTTTATTAAATCCATATCTTTTAATCCCAATAATTTTAGTTCCTATAGGATTATTATACTATTATTTTATCGAGAGAAAGAGAAATGTTGAATTATCAATATTATGGGGAATTTTCATTATAATTTTTGGTCTTATATTTTTATTTTTATTGAGTCAGCTAGAAATTCAGACATTCCGAGAAGATTTGGCAACTTGGAAGACATTAGCATCAGTTATAATCTTAAGTGGTACTCTAGGTTCATTAATTTTAATGATATTAAGAATTAAGTCGTTGAGGAAATAAACGACATGATAAAAACCGGAACAGCTGTAAACTACTTTTTTAAAATGTCTATGTTAAACACAATTATTGCAATAATTTTTTTATTTCCCATATTAATTCCACAGTTAGCTTTTCCAATTTTGATTACTCAGTGGCCAGGAATATATATGGTTCTAGCTTATTTTATATTTTTAATTTCATCAGTTGTTGGATTTATGATCTGGACAGTTGCTTATTATTTACTTTGGAATTTATATGAAATAAAGAATATAAATAGGAATTTATTATACTCACAAATTATATTATCAGAAATTGGTGCATTATGTGCATGTATTTTTATGTACTGGGGAGGCTATGTTGGTTCGTCTGCAGCATATTCAGGAATGTCAGAATTTGTAGTAGGAGTAATGATGGAATTTGCAACAATACCAAGTGGATTAGGAATTGGTTTAATGCTATTTGGTAATTCATTCGGAATATTAAATATACTACTTGCATTAAAAGAATAATGGTCAGTTTCGTCGCAGTGTCCTCATAACTCAGAATAAAAGAGGATTAATATCCTGGAGCTTCATCTGAATTCAGTCTGGGGCGACTATACTTCATCCCATTTCATATATACGTTACAATAATTTAATTGTTTTTATTTTTAATTGATTTAAGTGTACCAGAAACTTGTAGAATTTTGATATTGTTCTTTTGTAATTTATTTTTGATTTCGTCAAGATTAGTAAGATTTACTTTTAGAATTATTGTGTTACTAAATTTATTTCGAATAACTCGTATATTCTTCAAATCAAGAGATTTAAGACCATCAGAAGTACTAATATTTGTTAACAAGTATCTTTTTTTAATTTTCAAGAATAATCCCTCAATAAATCTTCATATGAATTTAACACTATATTTTTATGTAATTTAATTTTCGGTTTCATCTTTATTCTTATTGAACCGTTATAAGAAACTTTAAGGCATTTGTCCATGATGTCTTGTTTACTAAATCGTAAATAAAAAGTGAATTTATTATCAAGATAATCCGTAACATGTGTAATAATATAATTTCGATCGTCAATACTAAGAGAAGAAAGAATCTTTTTAGTTAATTCAGGAACTCTGTTCCGGACAAAGTATGCTTGTACAAATTTAATAGTGTTACCATGATGTCCTTCGGTTCTTTTCAAAACAAAATCAGCATCTAATAACCCCAATGTGTCGCAGATACAGGATAATAATTTATCAGTATTTTCAGTCTCGTGAATGACAAAAGTGACTTCAATTGTTCGAAAAGCGAATTTATTTCGTATTTTTACCAATATAATTAGAAATATATTCATGATTATTAGTCTTAAATCTTAACTAATGAAAACGAAACAAGTTTGTATAGGCTTAGAATCTACAGCGCATACATTTGGAGCGTCTGTTGTAGACTCAAATGGTAAGATAATGTCAGATGTAAAAGATATTTATAAAGCACCTAAAGGTTCTGGAATACATCCACGTGAAGCATCAAGGCACCATTCAAGTATTGCAAATGAAGTTATACAAAAAGCAATAGAAAATGCAAAATTAAATTATACAGACTTGGACATCATTTCTTATTCTGCTGGACCGGGTATAGGACCATGTTTAAGAGTTGGTGCAACAGCAGCACGTGCTTTATCATTAAAATTAAGAAAACCTCTTGTTCCAGTTAATCATGCAATTGGACATATTGAATTAGGTTGTTTGTTAACTGGTGCAATAAATCCTATTAATCTCTTAGTTTCAGGAGGTCATACCATGATACTTGGATTTAATTCTGGAAAATGGAGAGTATTTGGTGAAACACTAGATCTAACAATAGGTCAACTAATTGATCAAATAGGAAGGTATGGAGGTTATAGTTCTCCTGCAGGAGCTGTAATTGAAAAACTTGCTCTAAATTCAGATAATTATCTGAAATTACCATATTCAGTAAAAGGTAACGATGTTTCATTTTCAGGAATGTTAACTAGTGCAAAAAAGATGATGGATAAGGGAATGAGTATTGAAGATGTAAGTTTTTCATTACAAGAAACTGCATATTCAATGTTAGCTGAAGTTACAGAAAGAGCTCTATCTTTCTTAGAAAAAGATCAGGTAATAATAACAGGAGGAGTAGCGGCTAGTACACGATTGAAAGAAATACTGGAACTCATGTGTAAAGAAAGAGGAGCAAAATTATCAGTAATACCAAGAAATTATTCAGGAGATTGTGGTGCACAAATTGCATGGACTGGAATATTAGCATATAATAGTGGAATAAAGGTTTCAGTTGATGAAAGTTGGGTAAAACAGTCTTGGAGATTAGACAGGGTTGATGTAAAATGGAGAAAATAATTAATGTAGGTGCAGAGGCTACTGTATCTATTACGGACTGGTTTGGAACATCTGCTATTTCAAAACATAGAGAGAGGAAAAAATATAGACGTCATGAACTAGATGAACTGATTAGAACTAATCGTACTTTAAAAGAAGTAAATATAATGAATAAAATACGAAATAAGATAGATGTTCCAGCTATTTATTTTGTTGATTTAAATAAATCAGAGATAATTATGGAAAATATAATTGGCGTGAAAGTAAAGGATTCATTAAATAATAGTAATTTGAACAAAACAGAGATTGGGAGGAAAATTGGGAAAATAGTAGGAGAACTACATAAAAACAATATTATTCATGGTGATTTAACTACATCAAACATGATAATAAGAAATAATCAAAGTATTTGTTTAATTGATTTTGGATTATCTACAACAAGTAAAAAATTGGAAGATAAAGGAGTAGATATAAGATTGCTGAAAGGAATTTTACAAAGTGCACATAATGACGTTTTTAATGAAGTGTTTAATAATTTTAAAAAAGGATACAAATCAGTTATAAAGAATTCAGAAGTTTTTTCTATTGTAAAAAAGATTGAAATGAGAGGTAGATATGCAAGAGTTGATTAATAAAAAAATTAATTTAGCAACAAAAAATTTGGATAAATACGAAGAGATGAGAAACATACTTGACAATTATAATTTAGATCTACGAGTCGTGGATTTAAAAGGAATGGAAATACAAGCGTTCAGTGTATTATCGGTGGCAGAACAATCTGCAAAAGTCATTGCAACAAAAACCAAAGAACCATTTATTGTCGAAGATTCGGGAATATATATTAATTCATTATATGGTTTTCCAGGACCTTACTCTTCTTTTGTCTATAAAACAATAGGACTTGGAGGGATAGTCAGGTTAATTAAAAATAGAGAAGATAAAACAGCTGAATTTCATTCAGCTATTGTATATGGAGAAGACGGGAAAATTGTAAAAAGTTTTGTAGGCATCACTGAAGGATTAATATCGACTAATTTACAAGGTGACCAGGGCTTTGGTTATGATCCAATATTTATTCCGAAGGGAAAAAAGAAAACTTTTGCAGAAATGTCGTTAATTGAGAAAAATGAAATATCTCATAGAGCAAAAGCTACACGTATATTTGCTGAATGGTTGAAAGAGAAACAATAGAAAACGCAAGATTTATGACTAGAAACATCTTATACGGAGAGAGGATAATTGACTAGAATGCATGGAAATAGTAAAGGAAAATCACAATCTGTGAAACCTATTATTATGAAATCTGATTGGGTTAAAATAACGCCAGAGCAAATAGGAAAGTTGATTGTAGAAATGACTAAAGAAGGGCTTAATCCTAGTCAAATTGGAACAAAGCTAAGAGACGAACATGCGATTTCTTCAATAAAGGCAGTTACTGGGAAAAAAATGAAACAACTTATGATAGAGAATGATGTAAAGCAAGAAATACCTGAAGATTTAGAAGCTCTAGTTAAGAGGGCAGTAAGTTTACAGAACCACTTAAAATCAAATAAAGGAGATAGAAAAAATGTTAGATCTTTAGAATTATTAGAAGCTAAAGTTCATAGACTTTCAAAATATTATAAAAAGAAAAATATCATTTCAAAAGATTGGAAATACAAATCAGTAGTCGCACAATTAACTTAGTTTTGAAATAATAGATTATCTAAAAAATAGATATGAAAAGAAATATAGAAATCAATATTACTCTGGAATTCAAAAAAAAATCAACAGCTACTATTATTGCAAAATCACTAAATCCAGATAATAAGGATTTTCCTGAAGGATTAATCATGAAGCAAAGTGTAAAAGGTAATAGATTAGAGATTAAATTCAAATCTAATAATATATTAGAATCTTTGTTAAATACGGTAGATGAAGTTTTATCAATGATAGATATGACAAATAAAACATTAGAAAAGGTGAAATAAATTGATAGATCCAAAATTAATAAGAACTGACCCAGAAAAAATCATAACAATGTTAAAGGATAGAAATGTTGGTTATAATTTTTCGAAACTTTTAGAAATAGATAAAAAAAGAAGAATATTAATTACAGAATTAGAATCTTATAAGATGGAAAAGAATAAAATTTCCCAAGATATATCAATGAAAAAGAAGGAAGGTTCTGATATATCGAAAAAATTAATAGAAATGAAGAATGTTTCAATAAAAATTGAAGATTTAAATAGTAACACAAAACAAATTCAAGAAGAATATATTAATCAATTAGAATCAATCCCGAATTTAATTCATGATTCAGTACCAAGAGGGACAGATAATAAATCTAATAAGGAGATTGAAAAATGGCAACCAGCAGTGGGATTAAATAAGAATTCACGTGACCATATTGAATTAGCTGAAAGGAACGATTTGATTGATATAGAGAGAGCAAGTAAAATTTCTGGATCAAGATTTTATTTTTTGAAAAATCAATTAGTAAAAATGAATTATGCATTAATTTCATTTGCTCTTGAATTTATTAATAAAAAAGGATATACAATGATACAACCGCCATATTTAATGAATAGGAAGCCTATGAGTGGGGCAGTAATATTATCAGATTTTGAAGAAGTAATCTATAAAATTGAGAATCAAGATTTGTATCTTATTGGAACATCAGAGCATGCATTAGCTGCAATGCATTCTGATGAAATATTTTCTGTTGATGATTTACCATTAAGATATGCTTCAATTAGTCCGTGCTTTAGAAAAGAAGCAGGTTCTCATGGTAGAGATACAAAAGGAATATTTAGAGTACACCAATTTGAAAAAGTTGAAATTTTTTCTGTTATAAATCCAGAAGAATCTTGGAATCAGCATGAAAAGATTCTATCAGATGTAAAACAATTTTATAAGGAATTGGAAATACCTTATAAAATTGTTTTATTAAGTTCAGGAGACATGGGTAAAGTAGCTGCAAAAACTTTTGATATTGAAGCTTGGTTACCTGGTCAAAATAATTATAGAGAGATAGTTTCATGTAGTAATTGTACAGATTATCAATCTCGTAGACTAGGTATAAAATTTAGAAATAAACCACATGAAGAAAGTAGATTGACGCATACATTAAACAGTACATTAACTGCTACAGAACGTACACTAATTGCAATAATTGAAAATTATCAAAATGAAGATGGAAGCATTACAATTCCGAAAGTGCTAAGATCATATATGAATAACCAGAAAGAAATAGATTCTAGTTATGCTTAGAAAGATTTGTAATTTCTCTATTAATGGTATTAATTTCTTTATCCTCAAGTCCTAATCGAATTAGAAAATTATTTCGGTTTTCTTGTTTTGATAGAATTAAGATAAAAAATGGAATGAGATCAATTATATTATCTGTAGATTCTTTCATGTATTTATTTAGTAATTGTACGATAGTACGAAAGTTACGGCCATCATTCCAGATACGAACTTGTAGAGGAAATGGATTCTGGTATAAACTAAAATCAATGGATTGTTGATGTAAATTTTGAAATAATGAATAAACTAAGAGAGAATTAAAATATCGTAGCTGTCGCCATTCACGAGTCTTTAGTATTCTACCAAGTAACAAATCAATATTCGAGATGATAGATAGAATATTAGATAATTCATTATTTGGAATTTTCTTCGAACTTGAAACAACACTACTAAATATTGCGCGTAAGATGTCGTTTGGGGTAGAATGAGTATTAAGAATACAATTCATGGCTTCAGTTGTATCATTAGAGTTAAGATATCCATGAATTCCTTGTTCAAGAGACAGTGATTTAGAGATAAAAGTTTGTGATTCTTCTGTATTGGAATCAAAAGTTTGAAGTGCATTTATTGCATAACGTAAATCTCCATGAGAGTGGGTTGATATAGTAATCAAATCATCAAGAGGAATATCAAAATTTTCCTTTTTAGTAATAGATTCAAGAACTAAGCTTATTTGACGTGGTTCAATTTGATTGAATTTATACACCTGACATTTTTTAATAATTTTTGAAAGTTTTTTAGATTCAGTTGAATTACAAGTCATAATTATTGGGACAGATATATACTCAATTGCATCAATAAGAAAATCAACACCACCGTAATCAGCACGTGAATCAAGTCCATCTATTTCTTCAATTAATACTAATATTGTTTCGTCAAAGAGTGTAGTAGATTGAAAGAGAGGCGCAAGTGAAGTTTGAAGAGTATTCTTAGTTCTTTTATTGCTAGCATTTAGTTCAATAACATGATAATTATATTCATGAGCTAGTGCATAAACCAAAGTAGTTTTACCAACACCAGATGGACCTTGTAATAAAACTGGCTTGGATGATGTATCCCAATTACATAACCATGTATTGAATTTACCTTTAATGATATCATTGCCAACTATTTCTCCAACAACTTTAGGTCGGTATTTTTCTGTCCACATATTAACACCACTACAATAATATCATACTATTAACTAAAAACGTGATTAATCCTAATAACATAGCATAAAGAATCAATTTCTTAACTTTTAGTGATTGGTGTTTTGAATAATCTCTAGAAATATTATAAACAGAGTAAATTAATAATAAATCAGTAATAATTATCAGTGGAATATAAAAAATTTGAATTAAATTAAAGTAAACAGGAATAAATGAAATAAGAATAGAAATAAAGATAAATATTGATGCGATTTGCATTGCACGTTTTGATCCGTAAGTAATAGAAACTGATCGAATTCCCTTGATCTTATCTCCATCAATATCAGCGATTGTCTTGACTATTTCTCTGCCCATTCCTGCAAGAAAAGCTATAAGAGAAATAGACCAAACCAATAAAGATATATTACCAGTAATAATTCCTCCAAAAATAAACGGTATAGACATAGAGGATGCCACTATAGAATTACCAATAATTCCTTGTCTTTTACCCCAAATATTATAGAACCAAGATAATAAAGAAAAAGTAACAGCAACTAAAACATTATAATATGAAATAAGAAAAGAGCTAACAATACCAATCAATAATAATATAATAGATAATAATAAAGCTGAATTGATTGAAATTATTCCTTTAGGAAGAGGACGTTCAGACTGATTTATTTTATCAATTTCAATGTCATAAACATCATTAATTATCATCGAATATGCAGAAATAGAAAATCCTGTAATGAATCCATATAATGATACTCTTGAAAATAACATATCAGGATAACTGATTGCAATTCCTACAATTACAGCTAAGCCAATCATAAAAGAATTGATTGGACGAATTAATGAAAGAAACGCAGACAGAAAATTAAAAATCAAGGTAACTCACGAAAATGAGTTTTAGATAAATGATAATAAATAACTTCCCCTCGTCTTTCAACTACAGCTATAATTGGAACTTTTCCCATTCTAGAAATTTGTTTCACAGAAGTGGTTAAAGAGCTTACGTTGATTTCTGAACCTTCATTCATTGCAAAGATAATATATTTTGCAGCTTTAGAACCAAAATCCCCTTTATCATAAACTCGAAAATCTGCACCAAATCCAAACCCTTCCTTTGCTACGTATCCACGAGTTCGAAGATCTCGGTAAATTAAAAATTTTGTCCAAGCAGTAGTATCACGCAACAAAGCAATTTTAAGAATGTCATTGAAAGTTAATTTGTTATTATCTTTAACAACATCAAGTTTTAACGAATATATTAAAAAAAGAGCTTCATAATCTCTTAATAGTAAACCATGTTTTTTCCCCTCGCCGAAACCACGAATTTTTAATTCTTGACGAGAATCATTGTCTTTAACTAAAAAACCTTTGTTACTTTCTTGAGCCTGTATAATTTCAGTTGTTTCTTCCAATTACTAATCAACACTTATAATAATTTAAGGAACTTATATGGAATATCTTTTTCCTATTAATCTGTATTTTTATAGTAAATTACGTAATTTATTGTTGGGCCCGTAGCCCAGCCTGGATAGGGCGTTGGTCTTCGGATGAACACAGATGATAACCAAAAGTCGTGGGTTCGAATCCCTCCGGGCCCATTTCCTATTTAAACAATTATAATAGATTAAGAATGAGGAATGATTATGGAAGATAAAATCATTAAAACTGAAGATGAATGGAAAGAAACTTTATCGAAAGAACAATTTGAAATATGTCGTAATAAATCGACTGAGGCACCATTTACTGGTAAATATTATAAAACAAAGGATAATGGTATTTACAAATGCATATGTTGTGATAATAACTTATTCAAGTCCGAAACAAAATTTGATTCGAGAACTGGTTGGCCAAGTTTCTTTGAGTCATATAATGATAGTTCAGTAAGATATGAAGTTGATCAAACTTTAGGAATGACTAGAACCGAAGTACTTTGTAAAAAATGTGATTCGCATTTAGGACATATATTTGACGATGGACCCACACCATCATTTAAGAGATATTGTATTAATTCTGTATCATTAAAATTTGTTAAAGAATGATATAGAGCTAATGATTTGATAAAGCCTCTACGATATTTTTTTTAGATATTTATTTTTAAGCGTAATATAGGTTTGTGCGTTGTTATTAATATAATCTAAATCAGATTTATTTGTTTGTCTTAATATTTTTCCTGGTCGACCGACCACAACACTATTATCAGGAATTATTGTATCTTGTGTAATCAGTGTACCAGCACCAATTATACAGTTAGATCCTATCACAACTCTATTCATAACCAATGATCCCATTCCAATTAAACAAGAATCACCTATTGTACATCCATGGATTATACAACTATGACCAATTGTTGTGTTTTGACCAATCTTAAGAGGTTCACCAATATCTACATGTAAAACACTATTGTCTTGAATATTCGTTCCATCACCAATATTAATAATATTAAAATCTCCACGAATTACAGAGTTATACCATACACTGACATCATTTCCTATAACAACATCACCAATTACATCTGCACTACTAGCAAGAAATGTGCTAGATGAGAATTTTGGTTTTTTTCCACGAAATTCAATTATCATATAAAATAACTAGTAAAGTATAATCAAAAAGCATATCTAATAAAAATTAAAGTGCAGGGGATGGGATTTGAACCCATGAACCTCTAGAGGAGAGGATATCTCAACAAGCCGATCTTGAGTCCTTTCCGCTATGATTATCCGCGGTTGACCAGGCTTTGCTCTATTAAGATTCGCTACCCCTGCTCAATCAATTAGTTTATACTAACAGCAAATGTTTAAATAAAGGATTCAATAAAAACTTAATTGAAAATGAGGTATTGCCTTCATAAAGAATAATTGTTTTTGTACATCCTTCAGTTTTTACTATACAAATTTACGATATTTAATAAGCAAGTTCTCATTAGTTCCTGTTAATACTAAGAGTGATTATGAACTATGTCAGTAATTAAATTAGCATTACCCAAAGGTTCTTTGGAAAAAACAACGTATCAATTTATTGAAACTGCAGGATATACAATTAAAGGTCAATCAAGAACTTACAGGCCAATAATTAATGATGTAGATATTAGTATAAAGATCTTAAGACCGCAAGAAATACCTAAAAATGTACAAGACGGAACTCAGGATATCGGTATATCAGGAGAAGATTGGATAAAAGAAAATAAGGCAAATGTAGTAAATTTATTAAATCTTGAATATGGAAAAGTGACTATCGTAGTAGCATTATCAAAATCAAATAAAAATAAGAATTTCTCATCGTTATTGTCGAATCATATTAGAAACAAAAAGCCGTTAAGAATTTCAACGGAATATTTGAATTTAGCAAGAGAATATCTACTTAACAATAAAATATATAGAGATTATTATGGCAAAAAAATACCGTTAATTACTACTCCATGGTTTAGTTCTGGAACAAATAAAAATGTTAATATCATGTTTTCGTTTGGCGCAACAGAGGCAAAACCACCAGAAGAAGCAGACGCCATATTCGATGTTATTGAAACAGGTTCAACTTTAGCGCAAAACAATCTTAAAGTTACAGATGTAATTATGAAGTCGTCTGCGTGTCTAATTGCAAATAAAAAAGCATTAAAAGAACCAAAAAAACGACAAAAAATTTATGACGTCCTTACTTTGTTCAAAGGCGTTGTTGAATCAAAAACAAGAATTCATATATTCATGAATGTAAGAAAAGAGAATCTAAACCGTGTTTTAAAGATTATTCCTTCACTTGAAGCGCCAACAATTAGTGAATTATCAAAAGACAAATGGTATTCTCTAAATACGATAATATCAAAGGAAGAATTTACTCAAATATTACCATCGTTACGCAAATACGTGCAAGGGCTTATCGTACATAAACCCGTACAAATACTGCCATTGGAGAAAATCCACGAAGAAGAAGGTAATAATATTTGATTCGTTATATTGAAATTGGAAAATCATCAACCACAGAACAAACATCAAAAAACATACGTCGTCAAACAAGTAATTCCAATGATTCAGAATATGTAAGAAAGATAATGAGTGATGTAGAGAAAAATAAAGATAAGGCATTGTTAAAATATTCGTTAAAGTTTGACAAAGTGAAATTGACAATAAATGAATTAAAAGTAAAAAACAAAGAGATTCGAGAAGCATATTTAATTACTAATCCAATAATTGTAAAAGAATTAAAGAATCTGAAAAAATCTATTGAAAGGACAGAAAATAGAATCATGAAGTCATTCAAAAATAGTGTAAAAAGTGTTAATATAAACAACGGCCAAAGTTTCATAAAATATAATATAACTCCATTGAATAGTATAGGGTGTTACGTACCAGGAGGTAAAGCAGTATATCCTTCGTCATTAATTATGTCAGCAGTACCAGCAAAAGTAGCTGGAGTAAATAGAATAATAGTATGTTCTCCACCATCCTCTGACAAGAAAATTAATGCGTCAGTATTAGTTGCAGCAGATATTTGTAATATAAATGAGATATACAAAGTTGGAGGAGCACAAGCAATTGCTGCAATGGGATATGGAACAAATATTATAAAACCTGTAGAAAAAATAGTAGGACCAGGAAACTATTTTGTTTATCAAGCAAAAAAAATTATATCAGAAGAAGTAGGGATCGACTTACCTGCAGGTCCTTCAGAATTATTGATAATTGCAGACGATACTGCAGATGAAGAATTAATCATTAATGATTTATTTGCTCAATCTGAACACGGTTTGGATAGTTTATGTGGAGTAGTTACACCCTCAAAAAAACTAGCGGGAAATTTAATTAATTTAATTAAAGAACGATTGCCAAGTATAAAACGGAAAGATATTGTAAGTAAATCATTATTAAAAAATGGCTTTATTGTGTATTGTAAAAATATACGACAATGTATTGACTTTACGAATAGTTTTGCACCAGAACACCTTGAAATTATGACTAAAAATCAAGAGTTAGTAGCAAAAAATATCACAACAAGCGGTGTAGTTCTTTTAGGAAAATACACTCCAGCAGCATTCAGTGATTATGGATTAGGAACAAATCACGTATTGCCAACAGGAGGATCAGCAAAGTTTTGTTCTGCATTATCAAGTATAGACTTTACAAGAAGATTTTTTATAGCAAAATCAACAAAAAATAACCTAAAAAATAATTTGAAAAAGATCGAGATATTGTCTGAGCAAGAGGGTTTATTTAATCATGGTGAATCCGCAAAAGTGAGGTTTATAAAAAAAAATGATAAACACGTATCAAAAAAAAATAATTAATAAAAAACCTCTATATCAAAAGATTTCTCAAGATAAAATCAACAAGATTGATACAATTATCTTTGATTGTGATGGGGTCTTAATTGATACAAGAAAATCATATGATAAATGTATAGAGCTTACAATATCATATATCCTAAAAAATATGTTAGATAAGAAATTTTCAAAAATTAAAATATCAAAAACAACTATAGATATGATAAGACAAACTGGCGGATTCAACAATGATTATAAATGTTGTTATGTAATAATATTAAAAATTGCATCTATGGTGCCAAAAGATTCAATAAAATCATATGAATTAAAATATCAAAACATTAATAAAAAAAATATTTCAAATTCATTTGAAAAATTACAATTAATAAAAACAGAAATCAATAAATCAAATAAAAGAAAAATCAAAATTAATTTAACAAAAGAATTAAATGAATTTGTAAAAGAAATAAAAAAAACTGATTTAGAATCAATTGAGAATCAAATTATGACTGGATTAAATAAAGAACAAAAAAAATTCGTAAAAATTATAAAAAAATTTTTAAATTACCCAAAAAATAGTAAAACAAATATTATAATAAATGTATTTGATGAGTTTTTTTATGGAAAAAATTTTATAAAAAAAGTTAGAAAAAATAAATCAATTAATTTAAATCGAAAAGGCACAATTGAAAATGAGAAAATTATTATAAAAGAATCGACGTTAATTTATTTAAAAAAGAAATTTCTTAACAATATAGCAATTGTATCAGGAAGAGGTAGAATTGGAGCCAAAGCAACTCTAAAGGATTTATTTAGATATTTTAATGTGAGAGGAAATGGATTTATTGAGGATTTGGCCAGAGAGCAAAAAAATAATACAAAATTTGATAAACCTAAACCAACTATTCTAAAAAGATCCGTATCTAGATTAAAATCTAAAGGAAATATTCTCTACGTTGGAGATGCAATGGAAGATCTTCTAATGACACAAGCGGCTAATTTGGATAAAAATAAACAATATTTATTTGCAGGTATTTATGGAACGTCAAGATTAAAACAAAATAAAATAAAATTATTCATGGATAATGAAGCAGATATAATAATAAGTAATATTAACGATATACCTGAATTAATGAGTGAGTAAATTGAGAAAAGCTGAGATAACAAGAAAAACGAAAGAAACTGACATAACAGTTAAGGTACAATTAGAAGGAAATGGAAATGTGAAAATCAACACATCAATAAAATTTTTAGATCATCTGATTACTTCGTTCGCAACTCATAGTTTAATTGATATACAAATTGAAGCTACAGGAGATTTAATACACCATACAGTCGAAGATGTAGCATTAACACTTGGTGAAGCAATTAATAAGTCGCTAGGAGATAGAAAAGGAATAAAGAGATTTGGATTCGCAATGGTTCCAATGGATGATGCATTAGCATATTCAGCAGTAGATTTAGTCAAACGTATTGATGATGCATTAGCATATTCAGCAGTAGATTTAGTCAAACGTCCATTTCAAGTTACTGATTTAAAAATAGATAAAGAAGGAATTGAAGATATGCCGGCAGAAGATATTTATCATTTTATTCAATCATTTTCACAAAGTCTGCAAGCAAATATTCATGTAATGGTAAAATATGGAAATAATGATCATCACAAAGTTGAATCAGCAATAAAATGTATAGCATTATCGATTAGAGATGCAATTTCACTAGATAGTGACAGAGATGGAACCCCCTCATCAAAGGGGATAATGTAATGACCAAGATTGCAATCTTAGATTATGGTGTAGGAAATTTATTCAGTATTCAAACAGCATTAAATAAACTTGGAGTTAATACGATTTTAACATCAAAATTAAATGCTAATCTAGAATATGATGGAATAATTCTTCCAGGTGTAGGAGGTTGGAAACACACAGTAAAGAAGATAGAAGAAAATCGACAGATTCTACGAGAATGGTATGATGATAATAAACCAATACTAGGTGTCTGTCTTGGAATGCAGTTATTCTTCCAAAGAAGTGCAGAGGGACCTGGAAAAGGATTGGAGTTTTTTGAAGGAGAAATCAAGATGTTATCCAAAGAGATGAAGATACCTCATATTGGTTGGAATACCTTGAAAAAGAATAACAATAACCCTCTTTTAGAGGGTGTAGAAGATAGATCTTGGGTATATTTTGTGCACTCGTTATATCCAGAACCAATTGATCACAACATAATTTCGACAACAACGGATTATGGAATAGACTTTACTTCAATGATATATGATAAAAAAATATTTGGAACTCAATTTCATCCAGAAAAATCAGGAAAGGCAGGAGCAAAGATATTAAAAAATTTTGTATCAATTTGTGATAATCAATGAGATTAGTGCCGTCAATAGATCTTTTAGATGGAAAAGTAGTAAGATTAAAGCAAGGAAAGCCAGAGTTAGCGACTTATTATGATTATAATCCATTAGACCTTGTTAAAAAATGGCAAAATATTGGGGTAAATAGGATACATATTGTGGATTTGAACGGCACATTGGAGTGTGGAAACAACTATGAACTTATAAAAAAAATTTCAGAAAATACAAATATAGAGATCCAAACAGGTGGAGGAATAAGATCAATCGATTATGCAAAAAAAATATCTAATAATGTCTCTAAAATTGTTATTGGTACAGTTGCTATGAAAAATAAGGAATTATTTCAGGATATTTGTGAACAAATTGGTTTATCAAAAATAATTATATCATTAGATTATATTGATGAACAGATAATGGTCAATGGTTGGAGAGATAGATCAGGAAAGAACTTGAATAAATCAATTACAGAATTTGTAGAATATGGTATAGAAACTGTATTACTTACATCCATTAAAAAAGATGGAATGTTAGAAGGACCAGATATACAAACATTACAAAAAGTGAGAAATAATACAAACATAGAGATTCAAGCTAGTGGAGGCATTAGTTCTGTAGAAGATATTGAAAAAGTGAAGAAAATAGGTATAGAATCTATAATTTTAGGGAGAGTACTCCACAGTAAAATTATTTCATTAGAAGATGCAATGCTATTGGAGGATAAGTAAATGACATTAGCGAAAAGAATAATTCCATGTTTAGATGTCAAACAAGGAAGAGTTGTAAAAGGAGAACATTTTGTCAATTTAAAGGATGCAGGAGATCCTGTGCAACTAGGCTCAAAATATAGAAACAATGGAGCAGATGAATTAGTTTTTCTAGATATAACTGCATCTCCAGAAAAGCATAAAACTGTAAGTGAGATGGTTCGAAATGTTGCGGCTAAATTAGATATACCTTTTACAGTTGGAGGAGGAATACGTAGTATTGATGATGCAAGAGGAATACTTTGTAGTGGCGCAGATAAAGTTGGAATAAACACAATGGCAATTGAGAAACCAGATCTAATAACCGAAATCTCTGAAAAATTTGGAAAACAATGTTGTGTAGTAGCAATAGATGGTAAAAGAAACGAAAATCAAAATAGTTTTGAAGTATATAGTTATGGAGCAAGAAAAGCAACAGGATTAGATGCAATAGAATGGGCAAAAAAAGTAGAAGAACTTGGTGCCGGGGAAATATTATTAACTTCCATAGATAGAGATGGAACTAAAGATGGATTTGATATAAATTTAACAAAAGAAATTGTTAAAGTTGTAAATATACCAGTTATCGCCAGTGGAGGTTGTGGAAAATTAGAACATTTTGTTAATATATTTCAAGAAGCTGAAGCAGATGCAGCATTAGCAGCTTCGGTTTTCCATTATGATCAGTTTTCTATTGCAATGGTAAAGAAATTTCTATCAGAAAATCAGGTGTTAGTAAGAACATGATAAAGTTATCAATAAATGATATAAATTTTGATAAGAATCAGGGATTAGTTCCAGTTATTGTACAGGATAATCAATCAAAAGAGATACTAATGCTAGCTTATGCTAATCGTTTGGCAGTAGATGAAACTATCAAAACAGGTTATGGTAATTATTGGAGTAGAACACGTAATAAACTTTGGAAGAAAGGTGAAGAATCAGGTAACGTACAGAAAGTATTAGAAATAAAAGTAGACTGTGATGAAGACACTTTAATTTATCTAGTAGAACAAACAGGCAATGCTTGTCATAAGAATACAAAAACATGTTTTCAAAGAGATTTACTGTAGTTAAAATATAATTTTTGTGCCAGTAGATTTACCAGATATAGTAGATTTAATACGTTCACTATCACATTTTATTATTACAGTAGGAATTTTAGAACGTTCAATAATCTTTAGAGAAAGTAAATCCATCAAGTCGTAAGTACCTGCATTCATCTTATCGCCAACGATTTTATTCAGTAGGTCTTTTGTGTTAATTGATTTAATTAGTTTAGCATTTTTATTTTGTCTTGGATCAGATGTGAAAACACCGTCTACGTCAGTAGCATTGATAAATAACTTTGCTTTTGTTCTTTCAGCAATTAATGCGGCAGTAGCATTAGTACTTTGTCCTGGAGACAAACCTCCACTAAAGATAATTTTTGAAGAATATAGATATAGAAGAACTTCGTCTAACGTGGTTGGAACATAATTACATGCATTAGTTGTACATGCTGTAAGTAATTTTGCGTGAATTCTAGAAACATCAATGCCAAGTTGGTCAAGAAATGCCTCATCAGCGCCAAATGACCGAGCTGTATTTTGAATAGTGCGAGCCATTTTACCACCTCCAGCTATGGCAATAACTTTAAAGCCATTACGACTAATCTCATCAAGAATATTTGTGATCTTCTTAAGTTCAGACATGTTTGTATCGAACGAAAACAAACTTCCACTTAATTTAATTACTACGGTTTTCATTTCATCACTTATGATTATAAGCAATCATCTTATTAATTTTAATTTATTAATAAATATAATATAATATCTGGAAATTTCATTAATCATAATAAGGTGAATTTTTGGCAAATAATATTGATTCAGTAGCACTATATAAGACTAGAAAAATGCTGAGAAACCTCTCTACAAAATCAGGGAGAGGAACAGAATTAATTTCATTATATATTCCGCCAAAAAAAGCACTTCATGACGTAGTAAACAACTTAAGAGAAGAATATGGAACTGCAACAAACATCAAATCAGATTCAACTAGAAATCATGTTCAAGATGCATTAACGAAAACTCAACAGAGATTAAAACTGTTCAAAAAAACACCAGATAATGGATTAGTATTATTTGTTGGATCGTTAATGACTAATGGTCCCGGTAGTGAAGAAATATTTGTTAATGAGATTATTCCACCAAGACCGGTTCAAACATATCTATACAGATGTGATGATCATTTTCATTTAGAATATCTAATGGATATGATTAAAGAAGTGGATATAATAGGTATAATTTCAATTGATTCAACTGAGACAGGTTTTGGAATTCTTTCTGGCTCTAAATTAGAAGTTGATGAAGTCATTACTTCAGGAGTTAGTGGGAAAACAAGAGCAGGTGGACAATCAGCGCGAAGATATGAAAGATTAAGAGAAATGAATTTATCAAGTTATTATAGGCGAGTAGCAGAACATGCAAAAAAAATATTTCTCGAACAAAATAATATAAAAGGACTAATATTAAGTGGACCTGGACCAACGAAAGACTCATTCTTAAAAAGTGATTATTTAGATTATAGATTAAAAGAAAAAATTTTAGCTGAAATAGATGGAGCTTATTCTGGAGTAGAAGGGGTAAGGGAAGCAATAGATAAATCTACAAATGTTTTAAAAGATATGAGAATTGTAGAAGAAAAGAAATTGATACAGAAGTTTTTATCGGAGATACACGAAGAAAGGAGTCTTGCAGTTTATGGAATTAAAGAAGTAATGAACGTTACAACTAGAGGTGCAGTAGACGTTATTCTTGCATCGGATGAACTAAACACGTTAATGATATCAATGAAATGTAACAGATGTTCAACAGGCAGAGATGAAATTCTAAATAGAACTAGCTATGTACAAGAAAAACAAGAACTAATAAGTGAACCATGTACATCATGTAAATCTACAGATTTTAATATAACTGAAACAGATTTGATTGAAATTTTAGAAGATATGGCTTCAGAGTCTGGTACAAGAATCGAGGTTTTAAGTAGTGGTTCAGAAGAAGGTAAAATGTTAATGAGTTTTGGTGGACTAGGAGCAATATTAAGATACAATATAAACTAAAAAAATTGAGGGATTAAATTGGAACCAAAAATAAAAGAAAAAAATTGGAATGTTGAAATTGAAAAAAGTATTTCGAAGATGTGGGATGATGAATCGCTATATGAATTCAATATTAATGATGAGAGAGAAATATTCACAATTGATACGCCGCCACCTTATCCATCAGGAAGACCTTGGCATATAGGTGCTGCAGCACATTATGCACAAATAGATATGATAGCTCGAACTGCAAGAATGATGGATTTCAATGTATTATTTCCTATTGGAATTGACAGAAATGGATTACCTGTAGAAATCTATACAGAAAAGAAATTTAATGTAAGTATGATAAAAACACCTAGAGAGAAATTTACTGACTTGTGTAAAATTGCATTAGATGATCTAGAAGCTGAAATGATTTCAACAATGAAAAATATGGGTTTATCAGGGTTATTCAAGCAGTATTATAGAACAGACTCGGATGAATACAGGGCTCTTACACAATCTACATTCATTGAATTATGGAAAAAAGGTCAAGTATACCAATCGTCAAGGCCAAATAATTATTGTGTAAAATGCCGTACTACAATAGCAGATGCGGAGATAATTTACCGAGAACTTCCATCAAAACTAGTTTACATAAAATTCTATTTAAAAGAAGAGAATGATTATGTATTAATTGCTACTACGAGGCCAGAGCTATTATCTAGTTGTCAAATTATACTAGTTAACCCTGAAGACGACAGATTCAAACATTTGTTAAATAAAGAAATAAAGGTACCAATTTTTAATTACTATGTAAAAATAATCCAACACCCTAGTGCAAAAATGGAATTTGGTTCTGGCGCAGTAATGATTTGTAGTTATGGAGACTATACTGATGTTTTATTGTTTAGAGAGTTAAAATTACAAGAAAAAATAAGTATTGATACAAATGGTCGTATGACAGAAAATGCACAAAAATATCAAGGGCTTAAAGTTAATGAAGTTAGGGAAAAAATCATCGAAGATTTACAGAAAACAGACTTGGTTGAACGAATAGAAAATATAAATCATCGAACACCATGTTGTGAAAGAAGTAAAAATCCAACTGAAATCATTCCAATGGAAGAATATTATTTAAAACAGCTAGAACATAAAGATGAATTATTAGATATTGCAAAAAGATTGCAATTCCACCCTGAAGAACATAGAAGAAGATTAATAGATTGGATAGAAGCTATTTCAATTGATTGGCCAATTTCAAGAAGGCGATATAATGCGACAGAAATTCCTGTTTGGTATTGTAAAGCTTGTGAAGAAGCAAATCTACCTGAACCTGGAAAATATTATAGGCCATGGAAAGAAAATCCTCCTTTCGATAGTTGTAAAAAATGTGGAGAAAAAGAATTTGTAGGAGATGAGAGAACATTTGATACGTGGATGGATTCAAGTATATCTCCGTTATTTATAACAAAATACCGGAAGGATGAAGTATTTTTTAAAAAGACCTATCCTACAAAGTTAAGACCTCAATCAAAAGATATCATTAGAACATGGTTACATTATACAATATTAAGATGTAATCAATTAACATCAGAAGCGCCATTCACACATACTTGGATTATGGGTTATGGAGTAGACGAAAGGGGTGAAAAGATGAGTAAAAGTAAAGGAAATGTAATAGATCCCATGCCAATATTGGAAAAAAATGGAGCAGATATGTTTAGATTATGGGCGGCATCAGAAGTAAATCTTGGATCTGATTTTAGAATATCTGAAGTAAAAATAACTGGTGTAGGAAAATTTTTATCGAAACTATGGAATATTTCAAGATTTATCTCAAATTTTCCTGTTGTGGAAGAAGAACCTTTAGAAACAGACAAATGGATATTAGATGAATTATCAACAGTAATAAAAGAATCGTTGGATGGATATGCAGATTATAATTTCTTTATTCCTGCAAATAAAAGTAGGGAATTTATTTGGAGTGTATTTGCACCGCATTATATAGAACTAGTGAAACAAAGATCTTATGGAATAGATTTTGATGAAAAAACAAAACATGCTGCTTGGTCAACGTTACATATTTGTCTGAAAAATATATTATTATTATTAGCTCCAATAACACCATTTATTACAGATAAAATTTGGAGGGAATTATATTCAGAAGAGAGTATACATAAACAAAGTTTTCCAGAAGCAGATTGGAATTATGGATTATCTTCGCTTACAGCTAACATAATCGGATTTAATTCATTAGTGTGGAATAAGAAGCGAGAACAAGGACTCTCATTAAAGAACGAGATATCAGTAGACATACCAGAAGAACTGAAATTGTTTGCATTAGATTTGAAATCTATGCATAAATTAAGATGATTGTTTTCGATTATAATATAATAAAATTATTGCTGAAAAGAAAAAAATAATTGAAATTAGAAGTATAATATAATCATAGTTTGAACTAGAAATAGATGAATTCTGGTCAACTGTATATTCAATTCCTCCAAACTCAAAATTATCGTTCGAGGAAATTATAACATAAATCCAATAATTTCCAGGAGATAATTTTAGATTCATTTCTTCGTCAAAAGAAAATACTTCTTCATTAAAATCAGCAGTATCCTTGTTATATACATGGAATAATACTTTGTCATATTGTTCGATTCCTAAAATATCAACAATATATGATTCTGATATTTTTTGAATATCAATGGAAATTGTATTAAAATACGTCAAAACTGGAAGAGAAAATTGTATATCGGAAAGATTAGTTTTTATTGTCAGTCTAAATTCATCAGTGTAAGATTCTTGGATAGAATTTAATAATTTATTATTAACTTCGATAACAACAGATTCAGTTCCACTTAATACAAAATTACTGGAATTAAAAGATACATCGAGATCTTGATCCTGAAGATTATGTTCAAGAGATACTTCCATAGGATCAGATACAAGAGATTCAATAGTAATAAATTGTGTATGAGTAGATTGTTTATCTGCAAGATTGAAAGATAATTGTGCAGGATAAATTGACATAGGAGATTGTAAGGCATTTTCAATATTCAAACTACCAGATCCTTGTATGATAGACGGCCAGTATACATTATACGAATTTTTTAATGGAATTGCAGAAGGTGCAAGTATACCCAGAACTTGGTTCTTATCTAATTCACCATGAAGATCTAATAACAAAGCAACAGTACCAGTAACTTGTGGTGCTGAAAAACTTGTTCCATTCTGATGTTTATAAGAATTATTTAGCCATGTAGAATTAACTTGTTCGCCAAATGAAACTAAATCTGGTTTTATATAAAAAGATGAAATTGGTCCACGGGAACTAAATAATGAAACAAAATTTGTTAGATTACTGTTACGAAAAGCGAATCTAACAAAAGTATTTGACACGTCAATTTGGTTAAGAATTTTTTCTCCATCTTCTTGTGTAATCAGAATAGTAGGAATACTTGGAATATATCCAATAGCTGCACTAGGATGTAGAAGTCTACCTTTAATTAAACCAGGTAAAGTGTTAATTATAACAAGTCCAATTGCGCCTTTCTGTGCAACATTAAATTCTTTTTCTGAGAAAAATACAACTTCACCTGGTTCACCTCGTCTTTTTGCCACAGCAATTTTTCCAGTTAAATTTACGTCAACAAGATCTTCATTTCTTGCATAGTTAACATATTCGAGTTCAGCATATAATGTTCCAACTGGAAAAACAGAACCTATCATTGGCAAACCAATTATTTCTTCTTTAATACTATCTATTTGTACAACAGCCAGAGTTGAATCTCCATAATAGTTGTAATGTGAACCAACTGAAATTACATCTTCATATTTTGCAGGATCTCCAATACTACCAAAAATTGGTCCGTTATTACCAACAGCAGTTACAACAATTACACCAGAATTAGTAATTTGTTTAATGGATTTTCGAAGTTCTTCAGATTCAGACATGCTTCCTAAACTAAGGTTAATAATATCAGCTCCATCGGATACAGCAAGTTCAAGTGCACGAATTACATCACTTGATTGTACTAAACCATTATAATCTACAACTCGATAAGCCAGAAGTTTAGAACCAGGAGCAATGTTTGTAATTATTCCAGCAATGTGTGTGCCATGACCAAGTTCATCCATAGGATCTGAATCATTATCAACAAAATCATATCCGCCAATTACAATCTTGTCGGCACCAATACCTCCACCAAGAGCAGGATGATTATAATCAACCCCAGAATCAACAATAGCAATTATAATTCCATCACCATTAATATCTGGATTAGAGATTATTTGTGGGATAAAAATAGGTTGTAAAATTAGTAATAACATAATTAGCAAGCTGATTAGTCTATCCATCAATAATGTTAATTCAAGATAAAAATTAAGGTTTTTGAATAATGAAAAAAGTTGGCACTATCTAGAGTTAAGTAATCCAAGAAATTATAATAAAATATATGAACAAATCAGAGGTGAATAAACTAATTGGAATAAAAGAATATTCTCTTGTAATTTGTGAAAAATTTGAAGCTTCAAAAAAGATTGCAGAGGCTTTATCAAATAATAAATATAGGAAAATTAGAATTTTTAATACAATAATATTTGTAGTAACATATAACAAGAAAAATTATGTGCTTTGTTCTGCTATTGGACATCTTTATACATTAGATTTTGTAAAGAAACGTCAAAAATTACCATCATACGACTGTATTTGGGTACCAATACGTAAAACGGTCAATAATAGATCATCAATTGTAAATTCTCGAATTAAAGTAATTAAAACATTATCTGAATATGCGAAGGAATTTATTCTCGCCTGTGATTTAGACCAAGAAGGCGAAACAATTGGTTATAATATTTTAAAGTACACATGTAACGAAAAACAGAATATTGCTAAACGAGTAAAATTTTCGACATTAACTGAGGATGATATTAAGATTGCATTTACTAAAATTCAAAAAAATATTAATATTAATTTAGCTTATGCTGGACTAACTCGTCATACTATAGATTTTTTATATGGAATAAATATCTCAAAAGCACTATCAAGAGCTTTTATGATAAATAGTAAAAAATATAGAACTTTGAGTATTGGTCGTGTACAAGGTCCTACAATTACATATGTAGTTGAAAATGAATTACTAGCAGAAACACATGTGCCGTTACCATTTTGGTCAATAAATGCATATATTAATTCAGCAATAAATGAAAATAATAAATGGATTAAAATCAAATATATCGAACAAAAAATATTAAAAAACAGAAAGGCAGTAAACATTCTTGAAGATTGTAAAGATAAAAAAGCAATTGTTGCTAAAATTGAAAAAATCAATTATAGAGTAAATCCACCTGTTCCATTCAACTTAAGTGGATTACAAAAAGAGTCTTTTAGGTTACATAGGATGAATCCATATCAAACATTAATTATTGCAGAAAAGTTGTATCTGAATGCATTAATTTCTTATCCACGAACCAATAGTCAAAAATTACCTTCTACACTAAATTATCGTCAGATAATTTCGGATTTAGGTGAATTGTCTGAATTTAAAAATATAACAAATAAATTATTAAAAAAACAGAATATTATTCCTATACAAGGTAAAGAATCAGATAAAGCCCATCCTAGTATATATCCAACTGGAAAAACAACAATCAATACACTAACTGAGACAGAAAAAAAGATATTTAATCTAATTGTAAAAAGATTTCTCAATTTATTTAAAGAGCCAGCATTAAGTGAAAAGAAAAATACATATTTTAAAATTGGAAAATATGATTTTTTTTGTTCGTCAAAAAGAATAATTGATCAAGGGTGGATAGATGATTCTGTTCAGGACGAAGATGATTTAGAATTATCTCGAGGAGAGGAATTAAATGTAAAACGAATGAAAATAATAGAAAATTTTGAAGAACCAATACATCCATTTAATCAAATGACATTAGTGCAGAAAATGGAAAAAGAAGAAATAGGAACTAAATCTACCAGAGCAAATATTATTCGTACTATAATTGATAGAATGTATGTAAAAGGTGTTGATTTAACACCGACGCCGTTAGCAAAAGCATTAGTTGAAACTCTAAAGGAATATTCGCCTGAAATTTTATCATCAGAGATGACAAGAAAGATGGAAAAAGAACTTAGAGGAATTGAAAATAATATAGTAACACCTGAACAAGTTTTAGATAAAACAAAAAAAGATCTGGAATTGATAATAAAATCCATACAAGGAAATGATAAAACTATAGGAAAAGTTTTAAATAAAGCTTCAAAAGAATTAGCCGGAAAGCAATTAGTAAAAATACCATTGGCAAAATGTACAATTTGTCAAAATGGTGATTTAATAATTACATCAAATTCAAGAAATAGAGCACTGGTATGTTCGATGAGTATAAAAGGTAAGTGTATAGTAAAAGCATCTTTACCAAAATTTGGTTATATAAAAATTGCAAAAATTGGTTGTAAAAAATGTTCTTGGCCAAAAATTATTACTACCTATAAAAGAAAACCATGGAATTTTTGCTTAAATCCAGAATGTTATAGTAAAAGGGAAAAAAGATGAAAAATTGTAAATTATGTGATAATTCTGTGGAGAAAGGAAATATATTATGTATATATCATAAAAAAGCTTTAGATAATCTAAAATTAGGTTATAAAATTTGGAAAAAGAGGTTTAATTGTATTGAATGGGAAAAATATTTAAAAACCTTATTAGAAATATCAACAACTGGAAAATTAATAAAACAAGTAATAATAGAAGAAATGAAGGTGAATAAAATAAATGGCAATAAAACAAAAAATTGATTTAATTGGAAATAGTATATTAATTAAATTAAAACGTCTAAAGTTCGTAAATCGGTTCTGGAATAAGTCATCAACTTTAGTTCAAACTAAATTTCTTATGTTTTTTTATATAGCATTTATGATTTTGTTTATTACTGGAATTGTTAATGCTTTAGTAGAAGGAATCGGTATACAAACCCAAGCGCCAATTATACCAAACTTTCAAGCACAAACACTCGCAGAAGTTATTATGTTCAGTACGGTAATACTCTGTGGAACGTTTGGTTTAATTTCTATTACTAGAGGTACAAAACAAGTTTCAAAGGGAAGAACAACTGCTGCATTTATTATTTCAGGTTTAGGATTAATAGCGTTTGGATTAATTATTGGATTCTTTTTAGTTGCATTAAAAGGCGGCTAGGTTGTTAATATAAAAGATTTTCCTAGAGGAAATTTTTTATTATAAACTTTGATTTTATGGTTCTTATCGAGATCATTAGAATATATTATTGTGTCACTAAAGTAGTTTAGAATTTCCATTGCTATATATTTGGTTGAAGTATTTAATTGAGAAAGAGACTTTTGCGTAGGAAAACTTACCAGAATCATTTTTGCGTTGACGTTTTGGACTAGATTTTTTAGTGAAGATAAGTAGTAACTTAACAATCCATGACTTAGGTTTGAATTCATTCCATTATTTACGAGTAAAGAAAATGATGGAATAGAATCAATTATTAGAAAATTAAAGTTTGGATTAGTCCAAGATAAAAGAGAAATTAGAGAATCTTCAAGATTATTTTTATTTGGGCTAAATAGCATTAACGACATTTTTTTTGAACTAATACTAAAATAGCTTCGAAGCCATGTATCAAAATCTAGGTAAATAGTTAGTTCTGAATCAGGTATGGAGGAGAGAATGGAGGGGATAATTTTTTTTCGAAATTCTGGTTTTTGCATATAAATTGTAGTAACAGGATAATTAAACAAATTTAAAAATTGAATATTGTTAATTTTAGTAATATTATCATCATGAATGCGATTTATCGGTATTTTCATGTATTAAATATAAAGGGTTAACTAAATATTTAAGAGAGAAAAAGCACTTTGTATTTTTTGTTGGTAACATTATCTACACTTAATGCTAATGTCAAGATAGCAATTATCACACTAAATAGTAAATCATATTATAAAATTACAAAAATATTAAGAAGTCAAGGTTTTCACTTTTTAAGTTTAACACCGGATGATAAGATACCTAATTCTATTAAGCTAGTTATTACAACTAATTCAGAAAAACAACTTATTCCAGAAATTAATTATCTTACAGTGGAAGAACTATCAAATTCAAAAACCCATCGTTATATAATAATTGGCAGATTGAGTAGTACAGGTTTTAATAATATTACAATAGGTATTGATCCAGGATATAGAACAGGTTTAAGTGTATATAGTGAGAATAAGCAAATATATGTAAGTGTTTGTAGATCGTTAAACCAAATTAAAAAAATAGTTTCGGAGATTTGCAGTTATTTTACAAATAGTAATATTGTAATAAAAATTGGAATTGGGAATAAACATAATTCATATAATATTGCAAATACAATAAAAAAAAGTATTGGTAATCAAGCTAGAATAGAAATAGTAAACGAGTTTGGAACTTCCAATCAAAAAACTAAACCAAATAAAAGATTAATTAGAGATATCAAAGCCGCAGAAATTATTGCATTTCGTCAAGGAAAGATTTATCACTAGTGTATAATTTAACGTTCTTTGTTATCTTTAGTACAAAATATATTACTAGAAGGTCCACACGATAAACAAACAAAGTCAATATGATCACTGATTGGAATTTTATCCATGGGTTTACTACAAACTGAACAATTTTTTCTGTTCATATGTTAACATATTTTTATTAATAGTAGTTTAACTTAAACTTATAGCATATCAATTGAAATCTATTAACCCATCAAAAATGAGAATATTAGAAGATAGGGCAGAACAAATTGGGATATCAAAACTAATATTAATGGAAAATGCGGGTTCAGAATTAGCAAGAGTAATTATAAACAAATACAAGGAAGATAAATCAAAAAAAATATTGATTATTTGTGGTAGTGGAAACAATGGAGGAGACGGATTAGTATGTGCTAGGCATTTATTAGGATTTGCTGATTCAATAACTGTTTGTTTGTTAAACACAAATAAAGAATGGAAAACAAAGGAAATTCAAATTAATTGGCAAATCATTAGAAAGATAAAGAAAATTAATAAAATTGAATTTTTTCAAAATAAAAATTTTTCGAACATGTTTGAACAAGAACTTGAGAAATGCAATATAGTAGTAGATGCAATTTTTGGTACAGGATTACGAGGTAATATAAAACAACACTGTCAATATGTAATTACTCAGATTAATAAAAACCATAATCCTATAATTTCAGTAGACATTCCATCTGGATTAGATCCACTAAATGGAAATGTTTCAAAAAATATTGTAAAAGCTGAAGTAACAGTTACATTTCATAAAGTAAAAGATGGATTACTTAACAACAAAGACATAACAGGAGAAATAATTACTGTAGATATCGGTATACCGCCAGAATTGGAAAATAACCTATAATAATATATTCGTCAACCACTAATGTGAAACAGATTTAATGGAATTAATGCAGATTATCGTCGGAAATATGAAAAATTTTACATATATAGTAGGCGATAGTGAAACAAAAAACGGATTTATTATTGATCCGTCGTATGATATTGATAAAGTAATAACAGCTGTAAGAAAACTAGATCTAAATATAAAATATATTTTCAATACTCATAGTCATTGGGATCATACAATTGGAAATAAAGAAGCAGCACAAAGAACTGGAGCAAAGATTTGTGCTCATGAGAGTTCTCCAACAAACAAAGATGTAGCACTAAAAGATAAAGATGTTATTAAGATAGATGCATTGACTATAAAAATAATACATACTCCAGGACACACGCCAGATGGTATTTGTTATTTATTATCAGATAAAACAGATGTGAAAAAAAATTTTCTGTTTACGGGTGACACATTATTTGTAGGTGGATGTGGAAGAACCGATCTTCCTGGTGGAAAAGAGGCGGATTTGTTCAATAGTTTTAAAAAGATTCAAAGACTGCATGATCATGTAAAAGTTTGTCCAGGTCACGACTATGGCTCTAGACTTATTTCTAGTATTAGATATGAAAAACGTCATAATGTATACCTGCAATTTGAAAACAAACAAGAGTTTCTTAGCACAATGAAAGCAGCTAGTCGTTAGAAAATTTTTATCTATAATTAAGCATTGTTTGTAGACCACGAAGCTATTGCATCATGAGAATGAATTGATTCAAAGCTTCTTGCATGAATGTGTTTGGCTTGAGGAAATCTCTTGAGGCAATCTCTTACTACATCTTCTACGAATTTTGAATTAGCTTGTGTTTCAGTAATCATATTTGCTTCGTCTGCACGACTTAGAAATTCAACCAAAGGAGCAGAAAAACATTCGTTAAGATTTAGAGAAACTTCTTCAAAATTAATTAAATCGTTTTGTTTTAATTCTACTGTAAGTATTGTACGTTGCATATGACCTATTCCTGTAATTGTTTTACTACAAGGACATGAAGTAATGCCTGTAAGTTTAAATACATAATGAAATACTTTTTTAGAATCTAATGTAATTGAAGTATCAAGAAATTGATCACGGACAGGGTATTGAAATTTTACATTAATATTACAATTAGGTTGTGTTTGAGTTATTTCATCATAAATTTTGAGTAATGAATGTTCAATATATTCACCACTCATATAATTTAAAGTAGATTTTATTAAACGGCTCATATGAACACCACGAGTATTTTGAGTAGAAGTTGTAATAGTAAAATTGAGTAGTAATGTGACTGAATTTCCATTAAAAGTAGTTTTGAAATTAGAAATACCTGCAAAAACATTAACTGAAGAACTTTCGTTTTGTACGTCAGGTAAATTAGTATTTAACAAATATTTTTTGAGTTTCGAGTTGTCTAACAAAAAACCATCTCTTTATTACACTTATTGAATAATATAATATAAAATTATGTTTTGTAAAGCCTGCTGTGTAAATTATTTATAGTTTATGGGGTCAGATACATCGAGTTTTGAAAAACTGTTTAAGCGTAATTTACAGGATTGACATAAACCGCAAGCAATGTCCTCTTGTTTTTCACAAGTCCATGTTAATTCTAAAGGAATATTTAGACGTAAAGCTTCCTCAATAACTTGTTTTTTATTTAGTTTACTCAATGGCATTAATATTTTATAGGGCATCTTATGAGAACCGTAGGTTGAATTATTAACCAAACTATTGAATGGTTTAAAAAATTCTTCGTTACAATCAGGAAAAGAATTAATATCATCTTTATTATGGCCTCCAACAATAGTATCAATTCCAACTGTTTCTGCCCACCAAAAAGCAATAGAATAAAAAATTAAATTTCTGGATGGAATATAATTTGGTGGAATAAGATGTTTTTGGTTGTAGAGAGGACTTAAATCAGTATATTCTTCGTCTTCAAATTCGGAGAGAAAGTTAAGATTAATTGTTTTATGTACAAGAGTTCCTGATAATTGGGAAAGTTTAGAACAGCATTTAATTTCCTTAGCAAATCTTTTGTTGTAATTAAAAGTAAGAGTATAGGTATTATAATTCAGTTCTTTCATTATCCATAATGCAACTGCAGAATCAATACCTCCAGAAAGAAGCACTAAGGCATTCTTATTGTTCGTCAAATTAATCATAACTTAATCTAGTGAAACAAATGCTGAATTGTTTTCATGTTCCCAAATTTGTACTTTTTGTACCCAAATCCGTGAGTTAGTTGTATTCTTTGTCCATTGATCAACATAATCATAAACAAATTTACATGAAGCCTCTATTCCTGGACCCCATCCTTTAGAAATATCCATAATATTAAGATTACAACCGCCATTTTCATGTAAATTTTTAAAATCTGAAAGAAGTGGATCATCACTAGCAATTAACAATCGATGATCCCATTGTTCATTTAACCAGTTTTCTATATCTCGTAAACCACCAAAATCCATAACCCATTGTTTATCATCGAGAGTATTACAAGCAAAAGTAATTTCAATATACCGAGCGTAACCATGTATATATTTACAAGGTCCAGAATCCTTCCATTGACGATGTCCAGTAGTTATTGGGCCAAATTTTTTAGTTGAATAATATTTCAATGAAAATTATTACTTCAAGATAAATTATAACTATTTAGATTGTTCAATAATATCAAGATCTTCAGGCATGAAAGTATTTGGAAAAATTGATTGAATCTCACGAATTAGTTCGGAACTAAAAGTGGGTCTATGTATTAATACAAGATTTTTAACATTTGCAGATTTAGCAATTTTAGCGGCTTGAATAGGAGTAGTATGAGCAAATTTATCAGCTTTATTAGAATCTAATTCACCGGCTTCATGAATAAGATAATCTGCATTCTTAGCAAATGTAGAGAGATCAAGAGGTCTTGTATCACCAGTATAAACGACAGTAACACCATCAAGTACGATTTTATAAACATAATCTAAAACTGAATGATCGCCTTCTAGATAATTTATAGTAAATGGATAATTTGATGAAAGAGATTTAAATTCAAAATATTTCATCATATCAATATCACCATAATATTCAGAATAAACATTTTTTATTTGACGATCTAAACTTGGAGGGCCACTAATTTTAACAACTCCTGATTCGCGTTGTTTAAGATTTAACAAAAATAATGGCAATCCGCCAGAATGATCTCCATGGAGATGTGATATAAATATATAGTCAATCTGACTTGGTGAATAATTACAACGTCGTAATGACTGAATACATTGTGGTGAACAATCCAGAAGAATTTTAAAACTTCCATCTAGAAGAATGGATGTACTAGCTCGTCCACCAGACGAAAAAGCATCTCCAGTTCCTAAAGTGAGTATCTTCATTGTTAATAACAATCAAATATCTATTTAATAGTCACGCTAAAACTTTGTGTTTGAGTTTCTGGATCGTAATCCGTTTCACAAACATGGCAATTATCTACATCAAGTGAAGGCTCTAATTTTTTGTGAATATCACATAACATTCGACTACTTCTTATTATGCTACAAGCTTCATTAAACTTTGAAATAATGTCACTAAGTTCAGATTTTTCAATCATCATTATGGTAATTTCACCAACTATATTTTTTATACGTACATCATCATCGAAGGAAGTAAAATTTCCTCTTGTGCCACGAAGATAATTACTAATGGCGGCTTGAGTAACGCTAAGTAATTTCGCAGCCTCCGTTTGACTAAAGTGATGTTCATTGATTAATCGTTTTGCAACTAGAGCTCTAAGAGCAGGAACGGATGTTTTAGTTTCGATCTCCGAAGGCAGTAGCATCTTATTATTAATATTTGTAATTATTGTACTTAAGGATATTGTGTTTAAATTTAATTATAAGAATTTTTTGTAGTATTCTTTTTCGACAAGGGAAAGTTCCTCTGTACTATGAGCACTAGAGTATAAATTCAAAATCTCGGAATTTAATTCAAAAAACGTATGGCCCCATTTGAATTTTGAAAGTATTAATTTAGATTCATCATATCGACCAACAATAAATAGTGCTGCAGCAATAGCCTCAGATGATGAAAGTGTAAAGAGTTTACTATAATTTGTGGGGTTACCTGCTTGTAATAGAGGCAACCGTTTATTTTTACCTGGAAATTGTTTTGTAAAAACATTAGAACTTTGTTTCCAGGAACAATCAATAACAACTAAACCATGATGTAAATATTTAACATCGTTTTTAGAAAGAATATCAGCAGACATAGGATTTAAGACAATAGCATTTCTACGAATATGACGTATCTGGATTTTTTTTAATAAACCTAGTCGCACTAATTTTAACGATGTGCATTTTTTTGGATCGTCTTGATTCATATGATAAACAAATAAATTTGAAACTTCCAATGTAATAATAAATAAATGTATTACAATGTTTTAATATTTTTAAGAGTGGAAAAAATATAATCTATGGAAGACTTGAAAATTGCAATAGATCTAGACGGAGTATTAGCTGACGCATCAAAAATTTGGATTAGACTATTAAATGAAAAATTTAATATTGTAGTAACCAAAAGTGATGTAAATAAATGGGATTTTTGGAAAAAAATTAACATATCAAAACAAGCATTTGAAAATACATTAAATGAAGCTTGGGAAGAATGGTCTACAGTAGAAGAAACAGAGATTAACTTATGTCAGAAAGTAAGAACTATAAGAAATCTTGGAAAAACAAATCTAGTAACTGCAAGAAATGAGAAAACAATGAATAATGTAATGAAATGGTTAAGAAAAAATAAGATTGAGTTTGATAATATAATAGTAGTTGATGAGTTTTATTCAAAAGCTAAATTAGATTATGATGTATTTATTGATGATTCGCCAATACAAATAATGGAAATTGCCAATTCAAAAAAGTTAGCTTTAATTTATAATCAACCTTGGAATTCCAATGTCAAAGAACGTAATAATTTAATTAGAATAAATAATTTCTTTGAAGCAGAAAAAATCATAGAAAAATACAAACAAAAAATCTGAAGATATATCTTCATAGATGAAAACATACGTAAACTAAATTAATAAGAAAATCATACATAAAATATGGTTAACATAAACACTACTGCACCTGTAGAAAGCTTTAGGCGATTTCTTATTAATAGTACATGTGCTTCGTACATACCTGAAAGTTATTTATATGATTCCGAAGTTTTTCCTGAGAAAGATGGAGATACTGGATCTATATATATTGAGGCGGCAGATAAAGTTACGTTAAAAAAAGAACGTGATATAACTTTCATAAATGTAAGAGATGTCTTAGGAATTATTTATAAATCAAAAAGTGGAAATACAACTCTCAAGTGGAGACAAATACGAGGAAGAAGTGGAAAAGTAACAGGTGAATCTTCCACTAATTCATTAGTAAATTTAATTACAGCAAAAGTAATTGATCAAGAATATGCAAATAAACTTGCCAACATGGAAACAAGTTCAGAAGATGTTGATATTGAATCTAATAGTGAAATTGAAGACAAAATAGAAAACTAGTATTTAGGACTATATACCTAATTCATTTTTTGTTTCTTTGTAAAGTAATTTACCGAGAGTTACACGTTGGATGTCGTTTGTTCCTTCATATATCTTAGTAACTTGAATATCACGGAGATATCTTTCCATAGGATATTCTGTAGCAACACCTGCAGAACCACCTAATTTAATTGCAGTTAATGCCGCTCTTTCCCCCGCTTCTGTAGCATACATCTTTGCAATAGCTGCCGCAGAAACAAAATCTCTACCTTGATCTCGAAGTGAAGCTGCCCAATAAGTCAAAAGTCTAGAAGCTTGTAGCTCTGCTGTAACCTCTGCTAACATAAATTGTGGGCCTTGAAATTCCATAATGGGTCGTCCAAATGCATTTCTTTGTGTAATATATTTCGATGCTGATTCAATAGCTGCTTGGCCAACTCCAACTCCTTGGGCGGCAATTTCAATTCTTCCATGATCATAACAATCCATTGCAACATAGAATCCTTTTCCTTCGTCCCCAAGAATATTAGAATGTGGGACTTTTACATCTTCAAGAATTAATTCAACAGATTTTGAACCACGAATGCCAGTTTTTGGAAGTGAATTACCAACTGTAAATCCTGGGGTTCCACGTTCAACTATAAATGCGCTTATTCCTAAATGACGTTTTTGTTCTTCAGAAGTGCGAGCAAAAATCAGGAATGTATCTGCAATATCACCATTTGTACACCATGCTTTTGTACCATTAATAACCCAATTATCGCCATCTTTAGTTGCTTTTGTAGAAATTCCTGCAACATCAGAACCTGCACCTGATTCGGTCATAGCATGTGCACCAATTTTTTCTCCTTTAGCTAAGGGAATTAGAAATTGTTGTTTTTGTGTATCAGTACCAAAACTAGTAAGTGGCATTGCAATTAAAGTGTGAGCTACTGGAATTACTGATACAGCACAACTTGCGCGTGCTAATTCTTCAATTACAATAGCCATAGATAAATAATCATAACCGGCCCCTCCATATTTGGTGGGATATGGAACTCCGAGAAAACCTAATTCTGATATTTTTTTTATTAATGAATCAGGTATGTGATCATCTTTGTCAATCTTGTTGGCAATGGGAGTAATTTCATTGATTGCAAAATCACGTGCTAAATCTTGAATTTCCTTATGTTCTTCCTTTAAATATATGGAAAAGTCATCAACTGTGGGATTGAGAAACTTTGTCAAGTAAACTACTTTAAAATAAAAATATATTATAAAGGTTTAATTATTGAAAATATATGTAAAAAGTTTATAGATATAAATCAGGTGTAATGATGATTATATATGGTTAAAATTCGAGTTCATAAAATTAGTAGTGTGTCAGATCCTGAGACTGCGCAACCTGGTAAACAAATTGAATTAGTAGAGGTTCGAGGTAGAACAGATTCAAACGTAATAGGAGGAGTAAGTGGAACGGATGAAGCGAAAATGGTAAAAGGAATAATCTCACAATTTCAATCAATTGGAATGTTTCCGATTAATCAAAGAGAAATGGTATTACCAAAATTGACATTATTTCTTTCAGAAGCAGAATATGACTTATTAGCTGTTCGTTTTGAAGTAAATGATGAATTTGAATTAATAATGAAAGATGGTGCATTTATGTTAAAACGTGGAACTGAAGGAATATAATAATACTAAATATTAATTCAAATTACTTTAATAATACATAATGGTCTTGGATTCAAATCCAGAATTCCAAATTAATTAAATCAATCTAGTCAGATACTTGATCTTTATTGTCAAGAATTCTTGAAATGTACGAGTCAGTAGTGTTTGAATCAGGACTGTGCACATCAAACACTTTAATGTCAACTAGTTTCCAATTCCAACCAAGTTTTTCTTTTGGAAGAGTTTTTTCTAGCCACGTAGTTTGTTCTTCGTTATTAAGATGACAAGGTTGTTCTTCACATTCGTGTGTAATGACTATGTTAGCAATCTTTTTTGCCATATATCAATAAGAACATTGTCCTTATTTAGTTTAAATTGAGAAATCAATAATACATTTATAATATCAAAATTTAGTAATATGAGAAATGAAAACTAGAGAAGAAATGACACAAGAACTAATAAGAATAAAAATTCCTGCTGGAGTGATTAATTACATTGCAAAAAAAGAAAGATCTATAGTGGGAGCAGGTACAATAAACAGTTTGAATAAAATGAATGATCAAGCAATTAGATCTTTGTATTCTGCAATTATAGAAGATAAAGAAGAAAGAGAAGATTATTTGGTAATTAGGACTGCACTTTGGGCAGTAAAGGAATTTCAATCAACAAAGATTAACATTAATCAACATATTCCAAATATTGGAGATTTTAAGATATCTGTATTAAATGATGATGATGAGATATTAGCAGTAATTGACTGTAAAATGAATCAATATGAATGGAACATTATTAATGAATTTATTGAAAAACTGAGGATATTAAAAGAAAGAGAAGTAAAATTAAATTCTGCATTTATTATATCTAGAAATACTGATACGAATGAAATTGTGAATATGATGAAAAATGTAGAAGGAATGAGTAATGATGGAGTTTTTACTACGAAAGAGAAGAGAGGCCTTGGTGGTTTAGTAGGCGGAAAACCAAATAAAGTTAATTTTTCAATGTTATTAGAAAAATCTAAAGATAATTATGAAAAAGTTTTTCCGTGAACATATTGCAGAAACTAATTCCATTAAAAAGAGAATTTTATAATAGAAATACGATTAAAGTAGCAAAAGACCTACTAGGAAAAGTTATTGTACGCAATACCAACAAAGATCATGTATTAGGACGAATTGTTGAAGTGGAAGCATACAAATCTGGAGAATATGATAAAGCTAGTCATGCACGAAGTCGTTGCACAGATAGAAATAAAGTTATGTTTGGGAAAAATGGTTTTTCTTATGTTTACTTGGCATATGGAATATATTCTATGTTTAATGTAGTAGCAAAAAATAATACAGAAGATGCAGGTGCAGTACTAATACGCGGATTAGAACCAATTAAAGGAATTGAATGTATGAAAAGAAATAGAACTGCTAAAACTGACAAAGAACTAACTAACGGCCCAGGTAAACTCACAAAAGCTCTTTTTATCGATAAGAAATGTAATAATATCGATTTAACGAAAAAAGGAGAATTATATATTACAAATTTCGAAAAACGAAAAGAACAAGTAATATCATCTTCAAGAATTGGAATATCTTTGGATATTGAAAAACAGTGGAGATTTTATCTTGAGGATAATAATTTTGTATCTAGATATAGCTTTAACAAGAATAATACTTAATGAATTATGTGAGTCGGTGTGTAGGTATCGGTTATACTGAGGAAACTCCTCTCTCCTATCAGGAATATGATGTTGAGAAACATATCTAGAGATAGATGGCAACGGAGCAGAAACGATATCCAAACCTGTTAATACAATGATGATGAAAATCTGAGGTTCCAGGAATAGGAATGAAACGGTCGTCCCATATGGAGCAAGGCCAAACAAAGTCTAAGAATACCTGATCGAGACTTGGGTAGGCCGCTAAGCTGAATCCTACTTAAAACAGAAAGAGGGTTACAACCGAGACGCATTAAATTGATGGTAAACAAGATTTACCATCAATTATGAATTTTATAATTTGTTTTTATTAGGTCAATACAATAGTTTTTTTTATGCTGAAAGAATCTGAATATGATATTGTAATAATAGGAGCAGGTGTAATTGGCAGTGCGCTTGCTAATAGATTAAGTAAGAGATTTCAGGTTAAGATTGCCATAATTGAAAAAGAAAATTCCATTGGTTATCATGCAAGTAGTAGAAATAGTGGTGTAATACATAGTGGATTTTATTATAAACCAAATTCGCTAAAAGCAAGATTTTGTGTAGAAGGTAATAAACAACTGGATAATTATTGTACAAGTAAGAATATTCCATACAAAAGAACGGGGACTCTTGTTGTCGGTAAAACTCAAACAGATGAAAACAATTTAGAGGCATTACTAAAACGAAGTAAAGAGAACATGGTGCCAGGTGTTAGAATAATTAATGAAATAGAGTTGAAGGAGATGGAACCGTTTACGAACGGAAAATTTGCGCTGTATTCTCCGATGGGAAGTATAGTTGATTCAAAAAGATTAGTTGAATCTTTGGGAATTGAAGCAGAAAAAAATGGTGTGAAAATACTACTAAATCAGAAAGTTAAGGGTATTAAAACAAAACATAATAAGATTTTTATAACAACATCAATGAAGGAAATTTCTACAAAATTTGTAATAAATTGTGCAGGAGTATACGCAGATAGTATAGCAAAGATGATGGGATTAAAATTAAATTATCAAATAATACCATTTAGAGGAGAATATTTTGAACTACCAGAAAATAAATCTCATATGGTGAATTCTATGATATATCCTATTCCAGATCCAGATCTTCCGTTTTTAGGAATTCACTTAACAAAAACAATTGAAAATAAAGTAATTGTCGGTCCAAATGCAGTTCTTGCACCAGGAAAAGAGGCTTACAGAAATAAAGACGTCAATTTTAATGAATTAATTGAAATATTGAGTTATGGAGGATTTTGGAAGATGCTAAAAAAGAATCATAAAAGAGTAGAAAGTGAATTTATTCAATCTTTGATTAAAGCAAGATTCTTGAAAAAAGTATGTGAATTAATACCTGAAATCAAATCAGATGAATTAATTAAGAGTTATTCAGGAATCAGAGCACAACTTGTTGAAAAAAATGGGGAATTAGTTGATGATTTAGTAGTAAAAAAATATGGAAATTCGATTCACGTGCTCAATGTAGTATCACCTGGAATGACTTGTAGTTTGCCATTTGTAGACTATATTATAGAAAAATATGTTGAAAAATTAAATTTTGAAGAAAAGTAAAATTACAAATAGAAGGTTCATAAAATATTAGGTAAGAAAAATGATTAAAATTGATGAAAGGAAAATATTTGAGGAAATACGTGTAAACAAACCAAAAAGTGTATGTATAAGTGCACCAGATGGTTTGATGCTATATCTAGAAGATATATCAACAAGAATAAAGAAAGAATTTGATATAGATGTGTACATAATGGGAGATACTTGTTATGGAAGTTGTGATACTACAAATTTTGAGGCAAAAAGAATTGGAGCTGATTTGGCATTCAACATTGGTCATACAATTTCATTTGAGAAGCTTGGCGATAGAACGGTAATGATTGATGCATTTGATGATATTAATTTTGAACCTGCTATAAAGAAATCAATTGATGTACTCAAGAAGTTTAAAAAAATAGGTATGGTAACATTTAGTCAATATTTACATCAAATTGAGTCAATCAAAAGAAAATTTGAAGATAATGGATTACAGGTAGTTATTGGAAAAGGAAAAGGGCAATTAAGAGATGGACAAGTTTTTGGTTGTGAATTTTATCCTGCTTTTTATATTAGAGAGGATGTTGATGCATTCGTTGTATTAGGTAATAGTAATTTCCATGGAATCGGTGTATCATTATCGACTGGAAAACCAACATTCATGATTGATCCCTATGCGGAAGAAATTAGTGATTTGGAAGAAATAGTAAAGGACAGAGAGAAAAAAGCGATTTTATCAATTGCCAAAGCTAGATATGCGGAAAAATTTGGTTTGATTTTAGGTTTAAAAGAAGGTCAATTTGATACAAAGAAATTATTATCTATTAAGAAAAGATTAGAAGAAAAAGGGAAAGAAGTGCAATTAATTGCAATGCGAGAAGTTACAAATGAACGAATGGCATATTTCAAGTCTATTGACGCTTTTATTCAGACATCATGTCCAAGAGTCTCAATAGATGGATATACATTTAATAGACCTGTATTATCATCTCCCCAAGCAGAAGCATTATTAGATTTATTAGATGGGAAAGAATTAGATAATTTCTTAATTAAACCACATTGGTTATAATACGAAGTTTAAATATTTTTAAATTAGAAATAAACTATGGAACACAGTAATAAACGAAAAAGGAATGTCATGCCCGGTGACGAATTAGCAGTAATCGAGGAATATGAATCTGGAAATGGTACTTATGTAATAAATGGACAAATTCGTGCATCTGTCTTGGGAGAAACAAAATTTGATGATAAGAATAAATATGTGCAAGTTAAAAAAGCAGATGGTATTTCTTCATTACCGCAAGCGAATGACCAAGTTGAGGGAATTCTTGAAACAGATAAGTTTTTGAAAATTATAAAAATAAATGGAAAAATTACGTTTGGGTCTTTATCAGGTTTGATGGAAAGATCAAGAGTATCTATTGGAACAAGTGATTACATTCGTGGAACTGTAATAAGTTTAATGAATGGAACAATTCATGTAGGCATAATAAGTGAAAATGATGGAGTAATGAAATGTAGTTGTACTGGATGTGGAGATCGAGTTGTACAGATTCAAAGAGGTGTAAAATGTGTGAGTTGTGGATTATTTAAGTATAAAAGACTGGCACCGGATTTCCGTTAAAAAATATTAAATTTTCAAAGTTTTTATAGAGAATTTTACATTTAACCGGGAGGAGAGATTTTTTGCCTATAGAAGAAACTGAATATATGTGGATGGATGGAGAATTTGTAAAGTGGAATGATGCAAATATACCAATTTTGACTCATTCATTACATTATGGAACGGCTGTCTTTGAAGGAATAAGAGCGTATCCTTCAAAAGATAATTTAGTGGTATTTAGATTAAGAGAACATTTAGAACGCTTAGCAGAATCATGTAAAATACTACCGCTTGAACATAAATATTCTGTGTCGGATTTTGAAAAAACTGTAATAGAATTATTAAGAAAAAATCAATTAAAAAAATCTACTTATATTAGACCATTAGTTTATGTCGGTTACGGTGGCATAGGATTAAATTTCACAGGTTTTCCTATAAATGTAGCCATAGCAGCATTTCCATTTGGAAAATATTTTTTGAGTCCAGAGATTAAAGTCTGCGTATCAAACTGGAAAAGAATTTCTGATGAATCAATGCCTCCACAAGCAAAAGCAAGTGGAAATTATTTAAACTCAGTACTTGCAAAGTTAGATGCTTTAAGATCAGGGTTTGATGATGCAATTTTATTAAATAAAAATTCTATGGTTTGTGAAGGTACTGGAGAAAATATTTTTGTTATTAAAAATGGAGAAATTGTAACGCCCCCAGTCTCATCTTCAATACTTGTTGGAATAACTAGAGATTCAATAATTCAACTTGCTAAAGAAATGAATATGGAAATTAAAGAAAGAGAGATATCGAAAATAGAACTTTATCAAGCAGATGAAGTTTTCTTTACTGGAACGGCGGCTGAAGTAACTGGAATAATTGAAATTGATAATAGAAAAATAGGTGAGGGTAAAATAGGAACTATTACAAATAATATTAGAGAATCTTATGCACAAATTGTTGCTGGAAATAATGAAAAATATATGCATTGGTTAACCGAGGTATATTAGATTATTTTGGAAAAGAATGTTCCTAAAGTTGGGTTTCAAGGAGAATTTGGTTCATACAGCGATAAAGCAGTTGAATTGTATTTTTCAGGTGTTGATAAGAAACCGTATAAAAGTTTTTTGGATCTTTTTGTATCTTTAGAAAAAAACGATATAGAATTGGCAATTTTGCCAATTGAAAATTCAATAGAAGGGAGTGTTTTAGAATCTTATGAGTTACTTTTGAAATCTCAATTATCAGTTGTTGGAGAAATTAATGTGAAAGTAAATCATTGTCTAATAGCTCATCATAACATAAATAAAGACGATATTGAAGAAATATATTCTCATGCTCAAGCCTTAGGTCAATGTAGTAAATATTTAAAAGAATTTGGTCGGAATGCAATTGCTACTTATGATACAGCAGGTAGTGTGAAGATGATTAAAGAAAAAAAATTAAAAAATGCTGCGGCAATTGCGAGTAAAGATACAACAACAATATATGATATGAAATTAATTGATGAAAACATTCAAGATCATAAAGATAATTTTACTCGTTTTTTCTGTTTGTCAAAAACACAAACAAAGGCCACAGGGAATGACAAAACATCAATAGTATTCTCTGGAACAAATGTTCCTGGATCATTATATAAAGCATTAAATGAATTTGCGCAAAAAAAGATTAACTTAACAAAGATTGAATCAAGACTTACAAGGAAAAAAGCTTGGGAATATAATTTTTATGTAGATTTTGAAGGTCATATAGATGATGATGGTTGTCAAGAGGCGTTACAAGGATTAAGAGATCTAGGCAGTATTGTAACTGTACTAGGTTCATATCCTAAATTAAAAGATAACTTTGAATAGCTGTAAAATTAACAGAAAATGAAGAATATGGAAATAAAAATAGGAAAAAAAGATAAACACGTAACAATTGAGATAAGCAGTGAAGATTTGGCGTTAGGACATATTTTACGAAAAGAATTGATTGAAAATAAAAATGTGGTTTTTGCAGGAGTAGCAAAACGGCATCCATTAGTAGATAAAATTGAGATTCAAGTAGAAACAAAAAAAGTAGATCCTATAAGGGAAATAGCTATTAGCGGAGATAATGCAGTAAAAACAAGTAGTGAATTATTAAACAAATTTAATAAATCATTGAACAAATAATTATCATAATACGGTGAATGGATTTGAATTTCTGTACGTCTTGTGGAGGCAGAGTAGTACCAATGACAAACGCACAATATACAGAAAAATTTTTTGAGAAAGCAAGTAAGGAAGATGATTCTGAGCAGAGAATAACAGCATGCATGGATTGTGGAGAATTATTAGAATCAAGTGACGAAGTAAAATCAGTACAGGAAATTGATTTGAATACAAAAATTCAAATAAAAGATGAAAAAAATGATATTCAAACACTTCCAGCAACAAATGAAAATTGTCCAAAATGTGGACATGAAAAAGCATATTGGTGGATGAGACAAACTAGAAGTGGAGATGAACCTCCTACAAGATTTTATAGATGTGTGAAATGTGAGAATACTTGGAGAGAATATTCTTAACAATAAGGCTAACTTAGGTGAATATTGTGAGCTTTCTAGCAAAAACTAAATCTTCTACGGAATGGAAGTTGATAACTAATGCAATTTCTACGTTAGTAGAAGAACCAAGTTTTGAAGCAAATGTAGAAGGGATACAATTCAGAGGAATGGATCCATCACATGTTGCAATGATAGATTTGAATTGGCCAAATGCATCTTTTGAGAAATATGAATGTGATAAAGAATTTCGATTAACGTTAAGAATTGAAGAATTATCTAAATTAATAAAAAGAGCAAAACAAAATAACAGTATATCAATATCAGCAGAAGATGATGAATACATGACTATAAAACTGGAAAATGGTCATAAAAGGGAATTTCAAATTCGTTTAATTGAAAGTTCTCATACACCACAACAAGTACCAAAATTAGCATTAAATTCTAAAATTAGTATAGACAAAGGTGTTTTTGAAAATACATTAAATGATGTTGGAGTAGTGGCTGATCATGTATCAATTGAAACAAATAAAGATGAAATTAAATTCGTTGGAAATGGAGATTCGGGTAAAGCTTCTATTGTATTAAGTAAATCTGATGAAGGAGTATCTGAAATTATATCAAAAGAAGATACTAAAGCAACTTATAGTTTAGACTATTTACTAAATATTTTAAAAGCAGCGGGCACTTCGACAGAAACAATAACGGCTGAATATTCTAATAAGATGCCATTTAAATTACAATTCAGGTTAGGGGAAGCAGGCGGATATATTAATTTCTATCTTGCGCCGAGAATTGATGATAAATAGAAATAGTTTTTTATGTTGAAATAAATTAAAATAATAAAGTGGGTGGATAGTACATCTCTGTCTGTTCCGCTATATAAATCCCGGTTTGGAGATGAAAAATGAATTCAAAAGAAATATCGTTAGTCTGTATATTTGCGGCGTTGTATGCAATTGGTGTAGTGTTCTTGACGCCATTTAGTTTTTTACCAATACAAATAAGAATTGCAGATGCGTTATTACCGCTTTCAATTATTTTTGGATTTCCGGTAATAATTGGTTTATCACTAGGTACATTAGTTGCAAATATATTTGGTGGATTAGGATTTATTGATATAATTGGTGGAACAATTGCTAATTTTATTGCAACGTATGTTGCATGGAAGTTAGGAAAAAATAAGAAAGTTCCATTCTTTGTTGCTATAGCTTGTCAAATTATTATAGTTTCAATCATTGTTGGAGTGTATCTCGCTTATCTTTTTAGATTACCTGTTATTGTAGGGATAACTGATATATTTATTGGATCGTTTGTGGCAATTGGAATATTAGGTTCATTATTACTAGTCATAATAAAAAAGCGTATGCAAGTAATTTAGATTATCTGTAATGAAAAATCTAATGATTTACTAGAATGCGTTAAACATCCCATTGAAATTATATCTACACCTGTGGATGCATAAGATTCGAGATTTGAAAAATTAATACCGCCTGAGGCTTCAGTTAGAATTTGTTTCGGTGGATTTGATGATTTCAGTATAGTCACGAATTTTTTGATATCATCAACTGACATATTGTCGAGTAATATAATATCAACGTCATAATTAATAGCACGTAGGGCAAAATCTAAAGAATTAACTTCTAGTTCAATCTTTTTGTTAGAGTTAATTTGGTTACGAATAGATTTAATGTGTTTTTCTAAATTATCAATAAATTTAATGTGATTATCTTTGATTAGTATCATTTCTTGAAGATTATATCTATGTGGAAATCCCCCACCTACTACAACAGAATATTTCTCAAAGTTTCGAAGGCCAGGAAGGGTTTTTCTTGTAGCAGAAATATTAGTATGTAAATTTATTTTTTTCACAATTTCTACAGCATAATGTGTCGCAGTAGCAATGCCGGTCATATGACCTAATAAATTTAAAGAAACTCTTTCAGAAATCAAGATAGATCTTGATAATCCCTTAAGATTTACTATTTTTGAGTCTTTGGAGATTTTATCTCCGTCTTGATAAAGCCAATGGGATTCTATATTAAAATTACTAAATATCTCTGTAATTTCATTTTTTCCACAAAGAATTCCAGAATCACGACTAATTATTGTTGCATTAGATGTTTCGTCTGCTTTTATAAATAGATCTGATGTTATATCGCCATTTGCAATATCTTCGTTAAGAAAACGTTCTAGTTCTGAATTCAACTGTATCTCGTATTAGAAGTGAACACACAAAATATAAAAACAAGCGAATCAGTGCTTGATATTGTTATTAAGAAAAAAGGTGATGGTATATAGGACAAATAAGCTCGTCAAAGGTGAATTTTCAAGAAATCATTAGTAATTTACGTGATAAAAAAAATGCAATTATTCTAGCACATAATTATCAAATTCCTGAGATACAAGATTTAGCTGATGTAGTTGGAGATTCACTTAATCTTTCATTACAAGCTACAAACTCAGACAAGGATTTAATTGTTTTTTGTGGAGTAAAGTTTATGGCAGAAACAGTTTCAATTTTAGCTCCAAATAAGAAAATCTTAATTCCTGATTTAGAAGCTGGTTGTTCTTTAGCAGATACCATTAATGTGAAACAATTACGTGAATGGAAAGTAAAGCATCCAGACGCAATAGTTGTATCATATATCAATACATCTGCTGAGATCAAAGCAGAAAGTGATTATTGTTGCACATCGTCTAATGCTGTTAAAGTAATTGAGACAATTCCTCAAAATAAAGAGATTTTATTTTTACCAGATTTTTTCCTTGGTTCATATATTGAGAATATGACTGGTAGAAAAATGTATATTTGGCCTGGTGAATGTCATGTACATGCAAAACTTACAGCCGATAAAGTAAATATGATGCAAGAAAAGCATCATGATGCAGACTTTCTAATACACCCAGAATGTGGTTGTGTATCAAATATATTATATCAATCATCAGAAGGAATGATAAAAAATAGTAATGAAAAAATATTATCCACTGGAGGAATAATAAAATATGCAAAAAAATCTTCTAAGAAAGACTTTGTTATTGCAACTGAAACAGGTATTTTACATCAACTACAAAAACACAATCCAGAAAAGAATTTTTATCCTCTTAAACAAGATGCAATATGTGAATATATGAAGAAAATTACTTTAGAAAAATTATATCGATCGTTAAATGAGGAAATCTATGAGGTAAAAGTTCCAGAAGATATTGTTAAAAGAGCTATTAAACCAATAACAAGGATGATTGAGATAAAATAGTTTTGATAGGAGGATGGTTTGGAAAAAATACGTAGAGATTATTTTTCTGATAAGATTGTTTTATTTACTAATGATAAACCAAAAAAGATTAAGAATTTAAAGAGAATTATTAAAAATAAAAATTGTGCATATTGTCCTGGAAATGAACACGTAACAGGTCCTGCTGATTTAGTATTAATATCTAAAGAAGGTACATTAGCAAAATTATCAGATGAACAAGATAATTTTGTAAAAGACTGGACAGTGCGTGTGTTTTTAGATAAAGATGCAATAGTTAGCCCTGATGAAGCTAAAATATTCACCGATTATCCACAATATAGTGAACCAGCTATAGGATATCATTATGTAGTTATATTAAGTCGAAAACATACAGTAGATATTTCAGAGATTGACAGTGAGCAGTGGACTAATATTTTAACATCTGTTCAAGATAAATCGCGTTGGTTATATGCGCAAAAACATGTGGCATATGTAGCAATATATATGAATCATGGAATTGAAGCAGGTTCAAATGTAGAACACCCTCACCTGCAAATTGTGAGTCTACCAACAGTTCCACCAATAATTGAAGCAGAAGCAAAGTTTATGAAGAAACCGTTACGGGAAAAAGGAATATGTCCTATGTGTGATATAATAAAAAAAGAGGAATCAAGTCAAAGAGCAATATCAAAAACGGATAATTTTCTAGTATTTGCTCCTTGGGCATCTACACATCCATTTGAATATTGGATATTTCCACGTCGTCATGAAGTAAGTTTTGTAAAATCAACGCAAAAAGAAATTGCGGAATTATCAGAAACAATTCATAAAAGCATAACATCGATGATTAAGACTTTAGGAATAATTTCTTTTAATTTAGTTATACATTCGTCTCCAGAAAAGAAAACATCAAAACAAATTCATTGGCATATTGAGGTTTATCCGCGGATAGCGATAAAAACCGGATTAGAAATGTCTTCTAATATATATATTAATAAAATTCTGCCAGAAAATGCTGCAAAAGAATTAGCAAAAAATGTTCAAAAATAAACGTTTTTAATTTCCCATTATTTGAAAAACAATTTGTCGATCGCGTCCATTAATGTTACATTCAAGAAATATAACATGTTGCCACTTACCCAAGAGAAGTTGTTTATTTTGAAAAGGAATAGTAATACTAGGACCAACTAATGATGCTTTTACATGGGAGCGGCCATTTCCGTCGTGCCAAGTATTTTCATGTTCATAAAAAATATCATCTGGAGCTAATCTTTTCAGCATTGCTGGAAAATCCTTCTTAAGACCAGGTTCGTATTCAATTGTTGTAATAGCCCCGGTTGAATGTCTAGTAAAGATAGTTACTATTCCGTTATCAAGTTTAGAAGATTTAATTTCAGCATTTATATCGTCAGATAAATCAATCATTTCGTTTTCTTGTTTTGTTTTTATAGTAATTTCTTTAGTTATAATATTCATTTTGATTCAAATAACTTATTATGAAACAGTAATAACCGTACTTTTGGTAATGGAAAGAGGATTTCTGTCTACAAGATTATCTACTAAGACAACGTCAATCCTAAATTGCCCGGAATAAATAGGAGTCCAGCTGTTACTAGGACTCATAGATGCATCGGAGTTTATTACCAAATTAAATGCAAATAATTCTACGATAAGTTCCCCGGTATTAACATCAGTAATCGTAGCAAGCCAAGAAAAAGTTATAGATTCTTCTGTTATATTTGTAAGATTAGTTTCAATATTTATAGATTCGCCAATGGGCGTTGGTTCAGAAATAGGAATTAAAGATGTTCCGTATACTAAATTAATATCGCCTAACAAAATTTTTTCGTCAATTTCTACTTCAGGTGCTGGTTCTGGGTCTGGAGCTGGTGGTTCTGGGTCTGGAGCTGGTGGTGGTTCCATTGGCGCTGCTGGTGGTGGTTCCATTGGCGCTGGTGCTTCTGCTTGCGCATTTAATAAAGCATCAATCTGTTGTCCTGCTTCTATAAGATCAACTTTAACATCCTCAAGTTCGTTTTGAAGATCTATAATGGTTTTAGCGTCAGCGTTAATTTTATTTGTATTATCTAAAAGTTGTTCATTGGCAGCATCAAGATTTCGATTTGTAGTCGAAAGTAAATCTCGAGTTTCATCAAAACTTTCTAATTGACCTTGTAAAATTAAAATTTCTGACTGGGTATTTTGTAACTCATTCCGTAATTTAGTTAATTCATCATTATTTGATTCATCGAGAATTTCAGAAGCAACGGGAATTGATTCGTCATCACCTATCAAAGATTGAGTAATTACATAACCAGCAGCTATACCAATTAACAAACCAGCTATGAGAAAGATGTATTTGGGAGAAATTGAAGGAGGATCATCAGCACGTTTATCCTCATGCTTAGGACTAGTAGATTCTTCTACAGGAGATTCATAAGGGTATGGGTCGTATCCCATGTTATTCATTTGAGTTGTTAAGTCAGTTCTTTTATATTTTTTCATAGTAAAAAATATAATATAGAAATTATTGAATAATTTACAATATCTTAATATTAAGATTAGTTGCTATTTATTAGTAAATGGAAAGGGCAGTTTTTGGAGCTGGATGTTTTTGGCACATTCAAGATAAATTTAGCCTGGTAGAAGGCATCTTAACAACGTCAGTAGGATATTCTGGAGGTTCTGTAAAGAATCCAACCTATGAGCAAGTCTGTACTGGTGATACAGGTCATGCAGAAGTAGTTGAAATTGAATATGATCAGGATACTATAACGTATTCTGAGTTATTAGATGTATTTTGGTCATGTCATGATCCTACAACAAAGAATAGACAGGGACCGGATATTGGTCATCAGTATCGTTCTGTTATATATTATTTTAACAGTGAACAAGAAAGTTTAGCAAGAGATTCGATGAGAAAACTTGAAAAATCAAAAAAGTTTTCTAATTTAATAGTGACAGAAATTAAACCCATAAGAGAGTATTATAAAGCAGAAGATTATCATCAGAATTATTTTGATAAGAAAGAATTTTTAATGGATTTAATATAGGACGCAGATAATAATTGAAATTTGGATTAACAATACCTGTCACGATTGGAAAAAATTGGAAAAACAAATTATTGAATGCTTTACCATTAATTGAAGATGCAGGTATCTCTTCGTTGTTGGTGTGGGATCATTATATGCTTCCAGAAAAATATGGAATTGAAAGTAATAGTACAATTGATGCATGGATATTATTGTCATTTATAGCTGCAAATACAACCAAAATTAAAATTGGTACTTGTGTCACACCAATTCCTTTTAGACCTCCACAGCAATTAGCAAAGGTCGTTTCATCTTTAGATAATATCTCAGATGGTAGAGTTATTCTAGGAGTCGGTGCAGGTTGGCATAAACCAGAATTTGACGCTTATAGTGATTGGAATAACAATAAGATGCGTTATGAAAAAACAGTAGAAGGATTAGAAATAATGAGAAAACTTTGGACACAGGATGTTGTAAATTTTAGTGGGAAACATTATAAAGTTGAGAATGCAATTTTACAGCCAAAACCAATTCAAAAACCTTTCCCAGAATTATGGTTTGGTACCACGGGAGAGAAGATGTTAAAATTAATGATTGAATATGGAACAGCATGGATTCCTGTTGGAATAACATCAAAAGATTATTTGAATCATGTAAAATATATAGAAAAAATTTCGAATAAAAAAATTAGTTTAACTTATTATAATCACAGGGATATGGAAACATATAATGTAAAGAAAGTAATTGATGAATTTGTAACAGTAGGTTGTGAGTATTTTATTGGATTATTAAGATATGAATCAGATGATATTAAACAGAAATTAAAGAAGTTTAAAGATATTACGTTATCTTATGATAAATAGTGGGCACGCCCGGATTTGAACCGGGGACCTTCGCCATGTCAAGGCGATGTCCTAACCATTCTAGGAATTCTTTTTGATTCTGGCTAGACGACGCGCCCCTGATATGATGAAAAGAGAAAGTTATTTAATTGTTCCAGTATTGTGATTATTTTCCATCAGATTCTATAAATAGTATAAAAGTAAAACATTAATATGCTTCTTCATAACGAAGTTGAGGCTCAAGCAATAATTCCTTTTCTACGTACTACTGTAGCAAAAATATTAATGGAAAAATATGGGTTAACTCAGCAACAGGCTGCAAAAAAATTGGGCATAACACAAGCAACTATCAGTAACTATAAGAATCGAAGTAGAGGAAATATTGAATTATACTTGATTACAAAACGCGTACAATCTTATACTGAACAAATAGCTAATGTCACAATGAAGGAGGGTAATGAAATTATAATTACAGAAAACTTTGAAGTAGCATTAAAATTTATTCGTGAACAAGGAATTATATACGACTTACATAAAGAATTGGAAAATAATCATGTATTAAAGGATTGTCCACTATGCTCTAACAGGCAAAAATAATTATGTATAATTAAAATTGAGTTGAGTATTAGTGACAGAAAATGTTGTAAAGAATAAATATTTTTTCTATTTATTAAGATTTCAAGTATTTATATCAGGGGCTTCCATTATGGCTTTAGAACTTTTAGGAAGTAGGTTATTGTCGCCATATTATGGAAATACATTATTTGTATGGGGCAGTCTAATAGGAATCACATTAACTGGACTAAGTGCTGGTTATTCTTATGGTGGTAAAAAATCAGACATAGGAGCATCATATCAAATATTTTCTTTATTAATTTTTATTGCTGGTAGTTACACTCTACTCACAACTTTGTTGTCGGGTGAGATTTTGAAAACCATCTTAATATTTAATTTAGGAGATATATATGGACCATTAATATCGAGTGCGGCATTTTTATTTGTACCAACGTTTTTACTAGGTGCAGTCACTCCTTTTGCGATAAAGTTAAGTGCAAAATCACTTCAGACAATTGGACAAACTACTGGGAATTTATATTCATTATCAACAATAGGAAGTATTTTTGGAACATTTGCAACAACTTTTGTCCTTGTACCAGTACTTGGAGTTGATATAATTCTATATGCAATAAGCGTAATCTTAATAATATCATCAATAATTGGAATTTCTAATCCACTAAAATTTGTTGCAGTAATATTAATTTGTATATCAATTTATTCTGCAGTAGTGGTTCAACCACCATTGGCTGGAATTGTGTATGAAAAAGAAACTCAATACCATAAATTGTTAGTACATGACAATTCAGTAACCAATATCCGAACATTAATTTTAGATAATAATTTTCATAGTGCAATGGATCTTAATAATCATGAAAGAATAGTTTATGAATATACAAAATATTTCCATTTAGGTATATTATTTGCAGAGAATTCTCAAGATGTATTATTTATTGGAGGTGGGGGATTTTCAGCTCCAAAAAGATTTCTTGTCAATTATCCAGAGATGTCGATCGACGTAATTGAAATTGATAAAGATGTTGTAATTGCAGGAGAGAAATTCTTTTTTGTTCCTGAAGATGAACGATTGAAAATCATCAATGACGATGGACGTACTTTTCTTAGAACAACAGACAAGAAATATGATATGATAGTACTTGATGCTTATGATCGAAGTTATATTCCTTTCCATTTAATGACAAAAGAATTTCATCAATTAGTTTCAGAGCATCTAACTGAAGACGGGATACTAGTTTCAAATATAATTACTTCAATAAGTGGTGATTCAGCAATTTTATTTTTATCAGAATTAAAAACAATGGAAAGTGTCTATCCAAATATTTATATTTATCCTGTTGTGTCAAGTCAAGAAAATGTAATACAGAACATAATCGTAGTAGCGCATAAACAAGATATTAGTGTTACGAAGTTGGAATTATTATCACGTCAAAATAATATTGATGTTGATTTGTCTCAAGCAATAGAAAACGAATATGAAGGAATCATACAACTTGAATCGTATAAAATTTTAAATGATAATTTTGCACCTGTAGAGAATTATTTAAATCCATTAACTGGAAAACAATACGTTAAAAGAATTATCTTAGAAGATGGAATTCCAGTAGATATATCTGAAGATAATGCCTATAGTTTGGATTCAGGAATAACATCTAGTCAAGTTTTGATTATATTAGTAGCAGTAATTCTATTAGTATATTCGATTTATTCATATAGTTATTTAGATAACATCTAGGTTGGTGGGATATTATACCAGAGTTTCAAGTCGTAATTATAGGAGCTGGACCTGGAGGTTATGTAACAGCAATAAAATTAGCCCAATTAGGTCAAAAAGTAGCATTAATAGAGAATGATAAACTTGGTGGGGAATGTCTGAATTATGGATGTATACCATCAAAAACTATGATTAGTACGAGTGGTTTGTATTATAAAATGTCAGATTTATCAAAACAAGGGATAGAACTCGAATCTGCTAAAATAAATTTAAAAAAATTTCAGAGTTGGAAGAATTCTACTATAAAAAAATTAAGAAATGGAATAGAACTTCTATGTAATAATTATCAGGTAGAAATTATTTTTGGAACCGCTAAAATAAAAAGTTCAAAGACAATAGAGATTACAAATGGAGAAAATGTAAAAAAAGTTTCTACTGAACAAATAATTATTGCCACGGGTTCTCGAGCAAAAGACTTAGAATATTTAAAATTTGATAATCAACAAATTATTTCTGCAAAAGATGTGTTAGAATTAGAACATGTTCCGGAATCAATATTAATAGTTGGAGGAGGAGCTATTGGTTTAGAATTAGGAACTGCATTAGCAAAATTTGGAACTAGTGTAACTATTCTAGAAATAACTGATAAATTATTACCTGGTATCGAACAAGATTTAGTAAATGTTATGGAAAGATCAATTACTCAAATTGGAATAAAAATAATGTTAAACTCAAAAATTATAAATGTTAGTAAAAATTCTTCAGAAGTCAATATTACAATTAATAGCAATGGTACAGAAACACATGAAAAGTTTGAAAAAGTTCTAGTTGTTGTAGGTAGACAGGCAAACATAGAGAGTCTAGGTTTAGAAGAAATTGGAATAAAATTTGACGATAATGGATTTATTAAAATTAATGAATCGATGCAAACAAACGTTCCAGAAATATATGCAATTGGAGATGTAGTAGGACCTCCTTGGCTAGCACATAAAGCATCTATGCAAGGGATCAAACTCGCATATCATATTGCCAAGTTGCAAACTAAAATACAGATAAAGAACATTCCATATGCAGTGTATACTGAACCTGAAATAGCTTCAGTAGGTCTAACTGAAGAAGAAGCATCAAAAAAGAAACTAGATATTCGTGTAGGAAAATTTCAATTTGCTGCAAACGCTAGAGCATTAACATCAGATGAAAGTAAGGGATTTATTAAGGTAATAGTAGATAATAAAACACATGAAATTTTGGGAGTACACATAGTGGGAAATCATGCCTCAAATTTAATTAGCGAAGCTATATTAGGAATTAATATTGGAATGAAAGTTGAAGATATTGAAAGTACTATTCACCCACATCCAACTTTAACAGAAGCATTATCTGAAGCTGCACAAGCAAGTTTGAATAAATCAATACATTCATTCATAAAAAATACTAAGAATGAAAATAAATAAAAAAAATAAAAAAATTTAGTGTATCTACCAAGATATACGATTAATTAATTTAATAGTGATAAATTAAATTAACGTCGTTTCTTTCCGCCTTTACGCCTTGGAGCAGCTTTCTTTTTGCCTCCTCCACCTTTGCGCTTTGGAGCAGCTTTGCGCTTTGGAGCAGCTTTGCGCTTTGGAGCAGCTTTGCGCTTTGGAGCAGCTTTGCGCTTTGGAGCAGCTTTGCGCTTTGGAGCAGCTTTGCGCTTTGCA
>sequence07
CAGACTTTCCCTCCCCTTATTCAATAAACTACTTACACTTATCAAAAGCTACATTCAGCATGTTGCACTCGGATTAACCTCGTCGTGCTTTCGCACATTGCGAAGTTTTCGCGCCTGCTGCGCCCCGTAGGGCCTAGACCCTTTTCTCAGTGTCCATCTCCGGGCTCCTTCTCTCAAAGCCCGCACCGGTAATCGGCTTGGTGAGCCATTACCTCACCAACAACCTGATCGGCCGCAGTCCCATCTTAAAGCAATAAATCAAACATGCTCGATTATCTTTTAAGTCATAAACCGATTCCAGGAAAAATGACCTATCATATATTAATCCCAGTTTCCCGGGGTTATCTATGTCTTTAAGGCAGGTTGACTACGTGTTACTGAGCCGTATGCCACACTTCTTACATAGTCAAGAAATGTTCGACTCGCATGGCTTAATCTTTATCCGATAGCAGTCGGGTCCGGCAGGATCAACCGGATACATATTGGGAGTACAGTTTTAATATCTAAAACAAGATAGCAAATATCGGATTCAATATATATTGAATCTTCATTGATTGTTTGCGAATCTGGAGGTCGTAATATCATAGTTTAAGCATACTGCTATACTCAACTACGACGCCGCCAAGCGAAACGCAGATTCATTAAACCGTGTATTTAGAATATAAATGTTCTGAATTAGAGTGAATCGATGCTATGAACGAGTTGATATAGATCATCATATGATTTTGTATTTGAAGTGATCTGTTTTTTGGCTTTTTTTATTATTTTAATAAATTCATCGTTATCTTGATTAGAAATTACTTTTTCCATGGAATTAATAATTGATATGAATTTTTCAAGAACTAAATGAAAATTTTCATTACTCATTTGTAATGAAGATATTACTTCTGGAGTATCATGAAAAATACCAGATGCTAAAAGATATTGAATTGTAAATGATGTACCGGATGAATCTTTAAGCTTAGATACATTATCTAAGGATAAAATAAGGGAAATATTTAAGAAATAAACCAAGGATATAACATAAGCCATTAATTTATCGTGTTCATTAGCATTACAAACTAACAATTTTGAAGTAGGAAACAACTTCTTAAAGAATTTTTGTTCAATATTATTAGATTTTATAGGTATAAGAATGAATTTTTGAGATTTGAATATGTTTGCGCCGGGACCAAATAAAGGATGGATACTCATAAGTCTAGAATGATTATCAGGTAATTTCTTCATATGAGGAACGATTCGTTTTTTCATAGAAGATATCTCAATTATAGTTTTGTTTTTGTCAGAATAGTTCATTACTTCGTCAAGTATAGTATTTGTAACTTCAATAGGTACGCTAATAATGATTGTATCAGATTTGATGACACAATCACGAATAGATTTAAAGATTTTATGTTTTGTTTGTTTTTTCGTTCGCTTTAGTTTTCTACTATAAAGTCCTATAGAATAACCATTTTCAGAAAAATAATTAGTAAGCCATTTACCCATATTGCCACTTGCTCCAATAATTCCAATTTTTTGATGAGGTTTAACTTTAAATTTCTTTAAATGGCTTTGTTCACGAGAAACAGTTTCATCAATAATTAATTTTAAAAGTTTCTTGCTAAAATTTTTGTTTATGTTGAGAGAATCAGATTCATTTTGAATACGTTCATATAATTTACGTTCTTGGGCTGGATCTATTAATGGAAAATTTAGATTGTCTTTAAGAAGTGCTAGCTCACGTCCTAATTCAAAACGTTTGGATAGAAGATGAAGTATCTCTACTGAAATTTCTTCAACAGAAGTTCTCAACTTCAATAATTTTTCTTTATCATTCAATTAAATCACTTTTTGAATATAGGTTTAATATGACCAGAGCGTAAACCATGATCTGCAATCACTAATGCTGCAACACTTTCAACAATTGGAACCGCTCTTGGAAGAACACATGGGTCATGTCTTCCTTTCACAATAAGTTTTTCAGTTTTTTTAGATTTAAAATTAAATGATGATTGCTGTTTTGAGATTGATGAAGGAGGTTTAAACGCAAGTCTGAATTCAATTGGCATGCCATTAGAAATACCTCCTAAAATACCGCCAGAATTATTGGTCTTTGTACGGATTTTATTTTTACTAACTATATATTGATCATTATTTTCAGAACCAAATAATTTTGTTGATTTAAATCCACTCCCAAATTCTACGCCTTTAACAGCAGGAATAGAAAACATTGCACGGCTAAGTTCTGAATCTAATGCAGAAAATATAGGTTCGCCAAGACCAACAGGTACATTAATGACTTGACACTCAATTATACCTCCCAAACTATCACCTTGCTTTTTTGCTTTAATTATAGCATTTGACATTTTCTTTGCGGCTATTAAATCTGGACATCTTACTTCATGAGAATAACGATATTTCTTTATATGTTTAAAATCAGAAGACGTAGATTTTATATTTCCAATTTCTTTTACATAAGCAACAATATCAGTATCAAAACTTTTTTTTAGTAATTTTTTAGCGATTACGCCACCCATGACAAAACAAGCAGTTAATCGAGCAGAAAAATGTCCTCCACCGCGAAGATCATTAAATCCACCATATTTTTCCCATGCAGTAAAATCAGAATGACCTGGACGAGGAGTTTTCATAATATTATCATAATCTTCAGGTCTAGTATCTTTATTTTTAATTGTCATACATATTGGGGATCCAGTTGTATAATCATTAAAAACACCAGATAGGATTTCGACTTTATCTTGTTCTTTTCTCTGTGTTGTAAGTTTTGATATGCCAGGTTTTCTTAAATCTAGTTCTTTTTGTATTTCCTTAATAGTAATAGGGAGACCTGCAGGGCATCCACTGATAACACAACCTATTGAATGTCCATGGCTTTCACCAAAGACAGTTAAAACAAAACGTTCGCCAAGAGTACTCCAAGTCAATAAGTAATCACCAGTTTTCCCGAAAGAGAAGTAATCTGATCGATAAAATTAGGATAAGAAACATCTATACTTTTTCTTCCTATGACTTCGATTCCTTCTGAATGTAAACCAATTAGTGAGAATGCCATGAATAATCTATGATCGTTATAAGAATTAAGCCTGCAGGGTTTTATGGAATTTGGAGAATCGATAATCAAACTATCTTCAGATTCGACGATATTAGCTCCTGTTTTCTGTAATTCATTAGAAATAAGTTTCATACGATTGGATTCTTTATACTTAGTATGTTCAATTCCAGTAATCTTAACAGAATTAGTACAAATTAATGATAAAACAGAAACTACAGGTAATAAATCAGGGCATGAAGATAAATTAAAAGTTCCGCCGTTTAAACTGCCTTCAGAAGATACAGTAAATGATGAATCGTCAGAATTGACTTTTACAGAAGCGCCCATTTGAGAAACAATACTCAGGATTTTTTTATCAGCTTGAGGCATGTCTTGACCATCCATAATTATTGTCACTTTACCATTAGAAAGTATTGCCCCAGTAAAAAGAAATGCAGCGGCAGAAAAATCACTAGGAATATTAATTTTATTACAAGAATATTTACTGGGTTGAACATTGAAGATATTATTATTATTTGTAACAAGACCGCCGAATTTATCGATCATAAATAAAGTAGAATCAATATATGGGGCCGATACAATGGGTTCAATTAATTTAATACTAGTTTCTTGATCAGCCTTTGAACATGAAATTAACATAGATGAGATAAATTGGGATGATATAGAACCAGATATTTCTGTAGTGCCGCCACGAATTCCTCCTCCCATTACAATAAGTGGAGGAGTTCCATCATTTCCAATAGATCTACAATTAACTCCAAGGTCATTTAGAGAATCAATCAATGGTTGCATAGGACGTTTTTGAATGCTAGAATCACCAGTAATTGTAATAGAGCCTTCAGGAACTAGAGCAGAAATGGAAGTTAAAAAACGTAAAGTAGTTCCTGAATTTTCAACATTAAATTCGCTAGGATTAGACAATACAGAAGGCGGAATTAATTCCAAAGAAGAGTCCAGACTGTTGATTTTCGCACCAAGCTTTACGCACGAGTCGAGTGTTGCATTTGTATCACGAGAAAGAAGTGGATTAACAATGAGCGTAGGAGAGCTAGACAACAAACCTAGACAAAGTGCACGGTGTGTGTAACTTTTACTATTGGGAGGTTTGATAGTACCTGAAAGTTTAGATGGTTTCATAGTAATACTATCCATAAAATCACAATCCTGTTTGATTATTTATTTTGGCAGTTATAATATCACCGTCAAGACTTTTCCATAAATCAATTATGGAAGATTTTGTATCTGAAGTGCATATTGCCGCAACAGAAGGTCCAGTGCCTGATAGTCCAGCAGATAGAGCATTAGACTTCAGAGCAAGAATCGAAGCAACGTCCAATTGTTTTAAGATTTTGGAATATATCATGCCATTAAGTGACATAGCATTCAAATAATTTCCATTCAGGACCATGGAAATTAGTGTGTCAATAGATTTTTTAAATTTATCAGAATTAGAGAAATCTACATCTCGTGTATAATTTTTTTGTTCGGGAACGTGAATCAAGATAAAATAATCATCGTCAATTATTTTTCTCGACATAAGGGTATTGGATGAATTATCAGTAACTACTAAACCGCCTAGAAAACATGCAGCAGTATCATCTAATGCACCAGTTATTGTTACGCCAGCATTTTTAGAAGCTTGAACGGATAAATCAAGAATTTCTTTCTCAGTTATATTAAGATCAAAAGCCTTTAAACAAGATAACGTAATGGCAGAAGCAGCTGCGCTAGAACTTTTTAAACCTCTTCCAATAGGAATGTCAGAATTTACAGTAATTTTAGCTCCGCAAGATTCAGAAAACTGATTTTGAACAAGTTTAAAACATTCATGAGCTAAACTTGTATCTTCTGACTTGTCGTTGTTGATTATTACTTCAATGTTATTTTCGGATGTTAACAATACCTCAGCAGTAGTTTCTAAAGATATACCTAAAGCTGAACCTTTGCCAGTGGCTAAAGCATTAACTATCGATATGGCTCCATGAACAGTAGATGTAGTTTTCACATTAATCACCCAATATAGACAGTATTTTACCATTGATAGAATCATCATTAGGTAATATACCAGTCCAAATCTGAAATGATAGCTTTGCTTGAGCTAATAGCATTTCATATCCATATATTAAATCAGTATTAAGAGATTTCATCTGTTTAATAAAATTGGTTTCTTTGGGGAAATATTCCAAATCATATGCAAGTTTTATACCTAGATTTGAATGGAAATTAAGAATTGTGTTGGTTCTATGAAGAGGAATAGTATTCACTAAAATATCAACACTAGACAAAGAATCAATATTTTGTTGATTTAATTTATCGCAGGAAACGGGAACGTCAGAATTGAGTTTTGAGATGAGTTGTTTGGCATTATCAAGTGTGCGATTAAGAATTATTATTTCTTGACAATTCACATTAATCAGACCGTGTAATACAGCTTGAGAAGCTCCACCAGATCCAAGAACTACAACTTTTTTATCATCAAATCTCTGAATTTTTTTATGTAAAGGTGTCATGAAGCCTTCGACATCAGTGTTGTAACCAATCAATTTTTCATTGTCGTATAAAACAGTATTAACTGCATTTACCGAATTAGCAAGGGAATCAAGAGAATCCAGATATTGAATAATGTCAATTTTATAAGGTATTGTTACATTTGCTCCACGGAAATTCAGTTTACGTAATGTATCAAGTATGTTTTTAAGATCATGAGAATTAACATTAAATGTAGTGTAGAAACCTTCAAGGTTATTTGATTGGAAGAAACTATTATGAATGACAGGAGATAAAGAATTTTTTATTTCATTCCCCAGTAAACAATATAGCATTTGATTGGAACTATTTCCCATAATTATCACATATTATTAGGAAAAATTTGCATATATTTTCTTCAGAGTATTTATATGTACTTGACCAGGAGCGACGGATTTGTTTCCCATAAAACAATATACAAAAGGAGCTCCAAACATAGGTGACAAGATTCTTGTCATTGAACCTGTGTCACTCATACAAAATGCCAATAATTGGAATTTAGATTTTCTAAATTTAGAATATAAACTAAATATTTTATTACAATCGTCCAATGTATTTGCATAAGTGGCAATTTTAATAATTTGTCTAGCAGATGTTAATTTATTCGAAATATTTTGAATTAGATTTGTCATAACAGTTGTAGACGGAGTAGATTTAAAATTGTGCCAGGAAACAATCAGATTTCGTTCATTATTGAACAGGGAATAATTTTTTAGAAATGTATCTGATTCGATGTCTTTAATAGAATATTTTATTTCCAATAATTGAGTTAAGATTTCAAGACGTTCTGATTCTGAAATATTAGAAAAACCGCCTTGATTTTTATTCCTAAAAGTAAGAATAAGTCGATTTTTATAGTTGTGAGAAAGTTGATTTATCTGTTTAATAGAAAATAAAGTTAAAGAATCTAATCGAATTTCTGCCATATGCGCCCCTAAGGTAAATGCTTTAGCAATAGTAGAATTTAATTTTGAAGAATTAGAAATTGCTATTGAAACACAAAACTTTGGTTTTAGCAAACTATTTTTCAAGTATGTATTCATCTACTTCCATGCCAAAATGTCTTCCCTTATTAGATTCAGTCTTAACAAGAATTTTGTCACCAACTTTAAGCAAAGTTGTGGAGATAGGTTTTCCATCATCTTGTACAAATGCAATTGTTTCAGCATTTTGCACCAAAACACCACCAATTTTATCTTCAGATTTAGCCCGAATAAGAAATAGAGGTCTACTTTCAATTTTTAATCTTCCTACAACAGAAGTTCTTACTGAGCCTTCATGTGAAACAATCATAACTTCAGTGCCACTTTCAAGTTCTGATAAATATTTAGTACGATTGTCAGGTAATAATGTATAACACTGAATGGAACCTGCATTTACTCTAAATGGTCTAGGTGATGTGAATCCTGAACCTGCAGATTCATTGTGTAGTAAGAACATAAAATTCGCTTGATTGCCAACTAACAATCCTTCTCCCTGATTTAGCATAGATGCTGTATCAACACAAGCTCTTTCCCCAATCCCTACTTCTTTGATTTCAATAATTTCTGCAACGCTGAGAGTTATTTTTGATAGTTCACTCAATTCAGAATTTAACTTAGTTACATCGTCAATATTTGATGTTCTTAATAGAACACCATCGACACCCAATTCCAGTATAGTAAACATCATTTTGATTTCAGAGGGATCGTTGATTACGGTAAATATCTTAGTTTTCATGCCATGTAATTCGGCAATCAGATTCTCCAATGGAATAATCTTCCATTCAGTATTTTCTTCAAATTCAATAATAACGGATTCGGCATTGCTTTTTGCAGCATGAACAATTTCGTCAAGATTAGAATTATCATTCAAAGTAGTTAAATAGGAAAATCTTTGATTAGGTTCAATATCGTTCAGTGTTTCTGCATTAACAACTTTAACATCTGCATTATTAGAAAAGGAATAAGTTTCAAATTTAGAGAAATCATCAGAATCTTGGATTTCAGGCAGAAATATGCTTTTTATTCCAGATTCAAAAAGCAATTGATTAAAATTAACAAGCTCGTCTGCAGAAATTCTAGGTTCGACCATAATAGTACGTAATTTCTTGGTCATCAAATAGCCTCCATGGCAGATTCTACTGAGCTGTTATCAAAAATAATTTTGGAGATAGCTCGTGTAATATTTTCAGGATTAGAATGTTGGAAAATATTTCGGCCCATTGATACACCAATTGCTCCAGCGTCGACCGCACCTTTAACCATATCAAGTAAATCCTTGTCATTATTAGTTTGTGGGCCTCCAGCTATAACAACCGGGACAGGACATCCCTCAACCACTGTACGAAAACTATCTGAATCTCCTGTATATACAGTTTTAACAATATCAGCGCCTAATTCAGCTCCAATACGTGCAACATGAGCAACGATTTTTGGATCAAATGGATCTGGAATATTTTCACCGCGAGGATACATCATAGCAAGCAATGGTAGTTTTAATTCTGCGCATTCATCAGCAATAAGGCCCAAATCTTCCAACATATTTCTGTCATGACTAGAACCAATATTAATATGAACAGAAATTGCGTCAGCGCCCATTTCAAGAGCTAATTCAGGACTACCAACAATTACTTTATCATCAGGAAATACAGAGAGATTCGTACTAGCAGACAAGTGTATTATTTTTCCTATATTAATTTGCAGGTCTAGATTTTTGAATGTTCCTTTATGTACAACAACTGCAGAAGCGCCGCCTTTTTGTATTGCGTCAATAGTTTTATTCATGTCGATTAAACCGTGAACTGGACCAATGGTCAGACCATGGTCTAAAGTTACTGCAAGGATTTTTCCATTACGATTAATATTACTCATAATTCATGACACCAAAAATAAACAATTAGATTAGAGTGTAGACTAGAGATATGAAAAGAACCAATAACGGTAACTTGTATATTGAATCATATTACGCTCTAAATATGATAAAAAGAGTTTTGATATATAAATACCACTTTTGTACATACACGCATAATGGGATTAAAATTATTTAATTCGTTAGGAAAGGCTAAGGAAGTATTCGTGCCAAAGAACGATAACAAAGTAACAGTGTATTGTTGTGGTCCTACAGTATATGATTATATTCATATAGGAAATCTCAGGACATTTCTGTTTGAAGATATACTAATTAGATATTTGCAATACAAAGGATATGAAGTACAATTTGTAATGAATATAACTGATGTAGACGACAAAACGATAAAGTCTTCTAGAAATGAGGGAATTACATTAGAAGAATATACAAAAAAATTTACAGATGAATTTTTTAAAGATTTGAGTAATTTGGATGTAATAAAAGCCTCAATTTATCCAAAGGCAACTGAATATATAGATGACATAGAAGAACACATAATTGAATTAGAAAAAAAAGGATACTGTTATCAAAGTGATGGATCGTATTATTTTTCAATCAATAAATTTTCAGGCTACGGAAAATTATCAGGGCTAGAAATAAAAAAGACAAAAGGCAAAACACGATTGAATGAAGACGAATATATAAAAGATGATGTACAGGATTTTGCATTATGGAAATCATGGAATAATGAGGATGGAGATGTTTATTGGGAAGGTAAATTGGGGAAAGGTAGACCAGGATGGCATATTGAATGTTCTGTAATGTCAACAAAAATATTAGGAGAACAAATAGACATTCATGCAGGAGGAGTAGATCTAATATTTCCACATCACGAAAATGAAATAGCTCAAACTGAATCAATTACTAACAAACAGTTTGTTAAATATTGGATACATGCTGAACATCTAATTGTAGAAGGAAAAAAGATGGCAAAATCTGAAGGGAATTTTTTTACGCTAAGAGATCTTTTAGAAAAAGGTCACGATGCAAAGAATATTAGATTTTTATTGATTTCGTCTCATTATAGATCACAACTAAATTTTACTTTTGATGGAATATATCAAGCGAAAGAAAACATTGACAGAATACAAGAAATTTATTCAAAAATTCAAGCATATAACGCAGATACAGGTCTAAATGAAAATTTAAGTAAAATTACAAAAGAAGCTGTAATTGGTTTCGAAGATGCAATGGATAATGATCTAGATACGCCAGTTGCATTAGCAAGCATATTCAAATTTATTAGAGATCTTAACAAATATGTAGATGAGAACATAATATTAGAGAAAAATAAATTAGAAATATTAGACTATTTTGAACGAGTTAACAAGATATTAAGAATATTATCAAAGGAAATATTAGACACTGATAAAGAGATTAAAGAATTAATTAAAGAAAGAGAAAATGCAAGAAATATAAAAAATTGGAAAAAATCAGATGAAATTAGAGATAAGTTATTAAAAAAAGGATTTGTAATTGAAGATACTTCAGATGGAACTGTTGTAAAACGTAAATAAAAAAAAAGATTTAGGAAAAAAAACTAGCAATTATTTATAGGGTTTGGAGGTAACAGATCTATTAGGTTTTACTCCGAATTTTGAGAGTTTATATTTTCGATCAGATGATATTACATTAACGTTCATTGATGCTTGTATGTTATAATGTTTAGAACCATCAGGATTGTTATAATTAGTAGCAACGCCAGCTCGATCAATATTTACTCTGATTTTAATAATAGAACCATCTTCTAGTTGAAAAACCACCTCATCATGTCCATCAGGATGGGAATCTAGCATTTTAAATTCAATTTCTTCAGGAATATCTTTATTCTTATTATTGCTCATAATACAGAATCAAATGGATAATATTAAAATTTTTATTGAAATTAAAAAGTAAAAATAAGATATTATATTAAAAGAATATTAAGATAATGTTCGAAATAAAAGCGACAGATTTAGCTGCAAGAATTGGAAAATTATATTCAAAGAATGGAAATATAGAAACTCCTACTCTTTTACCAGTAATACATCCTGTTAATCAAACAATTAATACAAATCTAATTAAAAAAATTGGATTTCAGGCAATAATGACAAATTCCTATATAACATGGCAAAAATATGAAAAAGAGGCAATTGAAAAAAACATCCATTCAATTGTTGAATTTGATGGTCCAATTATGACTGATTCTGGCGGATATCAAGTATTAGAATATGGAAAAGTGGATGTAGATGCAATAGAAATAGCTAAATTTCAAGAAGACATAGGATCTAATTTTTGTAATATATTAGATAAACCAACAAGTTTAAGAGATAATTGGAAGACTGCAAAAAATAGTGTATTGCAAACATTGGAATCATGTGAAAAAACACTAAACGAAATTGAACGTAAATCTATATGGATGGGACCTATTCAAGGTGGTAAATTTTTGGACTTGGTACAATTTTCGGCAAATGAAATATCAAAAATGAATTTTGATATGTATACACTAGGAAGTCCAACAGAAATAATGGAAAATTATGACTATAAACTATTAGCAAATATGATTATAACTGCAAAGAAAAATATTCCAATAGAAAAACCATTACATTTGTTTGGATTAGGTCATCCACTATCACTATCAATGGCGGTAGCTTTAGGATGTGATACATTTGATTCTGCGTCATATATATTATATGCAAAACATGGAAGATACTTTACTGAAAATGGAACAAGAAACATAAATGAATTGGAATATCTTCCATGTATTTGTGAAATATGTAATAAATATTCTGTAAGAGAAATAAGGTCACTAGAAAATATTGAGAGAATAAAAACAATTGGAATTCACAACTTATGGTTGTTGTGGAAAGAAATAGTATCCACAAGACAAGCAATAAGAGAAGGAAGGTTATGGGAATATATTGGCGTACGTGCAAGAGCTCACCCAAAAATGTGGGATGCTTTTAGATATATTTCTGATAATGCAGAAGGAATAACTAATTTACAACCTAGATTTAAATCAAAAGGAATGTTCTTAACTTCAGTTCCAGATAACAAGAGGCCAGAATTAACACTCTATAGAAAAAATATTATAAAATTCTTTAAGAAGTTTGAGAAACAAAAAATAATAATAATTCCTGTTACTAGAAATAGACCTCTATTTTATGATAATAAATTAAGGAAAATATTAGAAAGAAATACAAACAAAGCAATTATAGGGTATATTATTCCACCATTTGGATTTGTACCTTATCAAATTACAGATATTTATCCAATATCACATTTTGAAATGTCTGAGAATATGAGATACGATAATACACATATTCAGGAAGTGATAGACTTATTGAATATACAATTTCTAACATTAAAACCAGAATCAATTGTATACATTAAAGATAATAAATTAGATCAAAAAATAATTGATTTCATCATAAGAAAATTACAACCAGAGAAAATAATTGATAATGAATCAAATGATGTATATTCAGAACTAGAAAGAATATTACAAAATCAAGTATAAATGTCAGATGGGTCAGATTTAATATTATCAATTAAAGGTGGACTATCAGATTCCAATTTAATTGCTTGTTTAACAAGAGATTCTAATTCAACATTTATATCAAACATAGAAGATAGTATACGGATTACTTCTGAAGCTGCTCGAGGATCCAATCTAGTAGAAGTTGCATAAGGCAGCAAGGCAAGTGTAGGAAAATTACGTATTTCCATAAAATTTAACATTTGTGCAACAGGACCAATAATAATTCGTTCGTCTTCAAGTGATTTAGAATTAATAAGTGATTTAGATAGTTCATAAGAGGATGTTTTTACATATCTAAAAGTAGAATTGTCTTTTTTTAATTGAGAATCAAGTCCACCCAATAGAATTAATTCTTTGAAATTTTTTTCAATGATTATTTCGCATACATTACGTAGAAATACAAGTTCTCTGCCCTGCAATGGAGGAACTGCAAAACGAAGAAAAGCAAGATTGTTTTTTTTATAAATTTCAAAAGGTGTAATAATTTTTCCTGAACTTATAGACGAAATGGGAGAGAGGTAATCTGTTTCAAAGATAGCAATTCTCTCTGGTTTAAATGTATGTATTAAATGATTAATCGCAAGATATCCTGTAGAACCTATTCCATGAAAACCAGTAATTAATGATAGTCCATCGACAGAAAGATCTTCAGGAAACAACCTAGCAGAAATCATTAATGATTATATATATCAGAGAACTAAAAATCTTACTGATAATTTATGAAACTCACTACACTAGGAGCTTCAAGAGAAGTAGGACGTTCTGCTTTTCTCTTAGAAATTGAAGATAAGAGCATAATACTCGACTATGGCGTACAGATTAGGCAACCAATGACATGGCCATTACATGTTAATCCAAAAAAAATAGATGCGATCATATTAAGTCATGCACATCTAGATCACAGTGGAGGTATACCTTCATTTTATGTTTCAAATGATATCAAGACATATTGTACAGCGCCAACATTACAGATCAGTAATTTATTAATTGATGATTTTATAAATTTATCAAATGAAGTTACGAAACAATACTTGCCATATCAACATCAAGAATTGGAAAGGATGAATAACAACATAATTATCATAGATATGAATTCAGAATTTAATATTGGAAATATAAAAGTGAAATTTATTAATGCAGGTCATATGCCAGGAAGTGTAAGTATAATAATTGAAGGAGAAGGAAAGAGAATTATATATACAGGAGATATCAATGCGTCGGATCAAAATCTAGTTAAAGGAGCAAATACAAAATATGGAGAATTAGATTTATTGATTACAGAAGCAACATATGGAACTAGTAATCACCCCGACAGAGAAGAAGTAGAAAAAGAATTTGTAAGTTTTGCAAAGGATGTAACAGAAAGAGGGGGAACATTATTAGTTCCTGCATTTGCTGTAGGAAGATCTCAAGAGATTGGATGTGTTTTAAAATCACATAATTTTTCACTTCCTGTTGCAATGGATGGAATGGCATTAAAAACCAATAAGATTTTACTAAACAACTTGGAATTTTTAAATAATCCAGAATTATTTAAGAAAATGCTTAATGAATTAACAATTGCAAAAAATTGGAAGCAAAGAAAAGAATTAGTAAATAATCCAGGAGTAATAATTGCGCCAGCAGGAATGATGGTAGGAGGCTTATCTTCTTATTATAAAGAAATTATTTCAATGAACGAAAAGAATGCAATTTCATTAGTTTCGTATCAAGCCGAAGGAACTCCAGGAAGGACATTATTAGAAAAGAAAATGATCCGAATTAATGGAAAATTAAAAAAGATTAAAGGAAAACTTGAACAATTCAATTTTTCATCGCATAGTGGAAGTAAAGAATTATTTGATATGATATCAGAAATAAAAGGAAACCCAACAATAGTTGCAGTACATGCAGAAGAAGAACAGGCAATTAATTTTGTAAATATAATTCAAAAAGATTTCCAGTATGAAGCAATTGCTCCTAAACTAGGAGATAAAATAATTATTTAGAATAACAATGTCTGTTTACGCAGATAGTATTTCTATAGTATAATATCTGCTTTTAGGAGGATCAACTCCATTCGGTTCGTCTATAATAAATGCAACTACACTAACAGTACCTTGACAAGTAGAACCAACATTCAAATCAACACTAAAACTACCATCAGAATTTGTGTAAGTTTGACCGAAACTACAACGGTAGACTGCAGCACCCGATTCGTCAAGAATATTTACTCCAATTTTAACATCTTGTTTAATTGGTTGGATCATTCCATCGAAGGTAACTGTTTGTTCTTTCATCACTTTCGTTTCTCTCGGTGGATTAAGAATTACATCAAATTGAATTGGATCTTCGGAAGGTGGAGGTACTTGCGATTCTGAAGGTGGAGGTACTTGCGATGGCCAGCACTCGACAAAGTCTGGAGGCCGATAGTTCTGGCAGTCATCCAATTCCTGTTCTGAAAAGAAATAATTTATTACTATTCCGCCTGCACCCAGCAATAATATTAATGCAATAATTATCGAAATTTTAGTATCCAAATCAAATCATCCGTCCAAATCATCTGGTAATTTGGTTCCAAGATATTTATAAGTTCCAACCTTAAGAACTTTAAGTGATAAAAGAGCACATTTTATTCGTGCGGGGCCCAATGAAGGAGTTCCCAATTCTTCTAACAAATCATCCTTTGAAAATTTTGATAAATCGTCTATTGATTTGCCCATTAGCATTTCAGTAAGTATTGAAGCAGATGCTTGGCTGATTGCGCATCCTTCGCCGTCAAATTTTATATCAGAAACAATATTATTATCAAGTTTAATATCAAGATTAAGTCTATCTCCACATACAGGATTATAGTCTTGAAAAGAAATCTCTGAGTTGTCTATCTTCCCCTTATTTCTAGGATTTCTATAATGATCGAGGATAATTTCCTTATAAATATCTTCACTCAAATCAACACACTACTTACTTTTTGTAAACCATCAAATAATTTATCAATATCGGATTTAGTATTGTAAACATAAAAACTCGCACGAGTAGTAGCAGGAACTCCTAATTTTTCCACTAATGGTTGTGCACAATGATGTCCAGCACGTACAGCTATAGATTCATTATCGAGAATTGAAGCAATGTCATGTGGATGAAAATCAGAATAAGAGAAAGATATAACACAACCAGTTGTATCATCATCTTGGGGTCCAAAAATATGAAAATCTTTCAGTTCAGACAATCTTTCTAAAGCATACGTAAATAATTCTTGATTGTGTTTTCTAATTTTATCCATACCAATTTCATTAAGATAATCTACTGCTTTTCCTAATCCAATTACTCCAGCAATATTTGGTGTTCCAGCTTCAAATTTCCAAGGAATTTCATTCCATTGTGCGTCATGCAAACTAACATTAGAAATCATGTCGCCGCCGTAGAGAAATGGTTCCATATTTTCTAAGAGTTGCTTCTTAGCATGTAAAACGCCAATTCCTGTTGGGCCTAACATTTTATGGCCTGAAAATACAAAGAAATCACTATCATATGCTTGAACGTCAACAGGCATATGAGGAACTGATTGAGCTGCATCAACAAGAGTAACTACACCATAATTATGAGCCTTAGAAATAATTTCTTTGATTGGATTTATAGTTCCAATTACATTAGACGCATGTGTTAAAGCAAGAAATTTTGCATTATTAGCAAGTAAATCTTCCAAATTATCAAGAACCAATTTACCATTATCACTAATTTTAATAAAATCTAGATTAAGTTTTAGCTTCTTAGCAAGAATTTGCCAAGGAACGAGATTACTATGATGTTCCATCTCAGTAAGAATAATTGAATCACCTTCATGAAGATTTGTACAAGCCCAAGTATTAGCAACTAGATTAATAGCTTCAGTAGCATTACGAGTAAAAATTATTTCCTTTGAAGAATTAGAGTGGATAAAATTTCCAATATTATTACGAGCATTTTCATAGTTTTCTGTAGATTCTATACTGATTGAATATATTCCACGGTGGATATTAGAATTATAGTTTTTATAGTAATTCACAATTGAATCTATAACTGAATTTGGTTTCTGAGTAGTAGCGGCGCTGTCAAGATAGATGAATTCTTTTCCATTTATGCGATTTGAAAATATTGGAAAGTCGTTTTTAATATCTTGAAATAAATCACTAGTCATTATAATGAATCACGAATCCAATCGTAACCTTTATCCTCAAGTTCTTGAGCTAACGACATTGAACCAGATTTAACTACTCTGCCATCCAATAAAACATGAACGAAATCAGGTTTTACATATTGGAGTATACGTTTATAATGAGTAATCAAAAGTATTCCTAAATCAGGACTAGACATGGCATTAACAGCTTCAGAAACAGTTTTTAGTGCGTCTATATCTAAACCAGAATCAGTTTCGTCCAGAATTGCAATTTTGGGTTTAAGAACTGCCATCTGTAGAATTTCACTTTTTTTCTTTTCGCCTCCCGAAAAACCTTCATTAATATATCTTTTTACAAATTCTTCTTCTACGTTAAGAATTTCCATTTGTTCTTTAAGGTATTTTCTAAAAGCAATGATTGATATAGGTTTACTATCTGGTTTTGCGGTAACCGAATTAAAGGAAGATCGTAGAAAATTAAAGACACTTACACCTGATACTTCATGAGGATATTGAAAGGCAAGAAATAGGCCTTTTTTTGCTCGCTTATCCGGTGAAAGTTTAATTATACTATCGCCGTCAAGAATTATATCTCCGCGATCTATGGTATATTTTGGATGGCCCATAAGAGTATTTGCGAGTGTGCTTTTACCAGAGCCATTTGGCCCCATTATTGCATGATTTTCTCCTTTATTAATTGATAAATTTACACCTTTAAGAATTGATTTTCCCTCAACAGAAACATGAAGATCATTAATTTCTAGAGTTGATTTCACAATGCGTTCATGCAGTAAAAATATTTAAGTCTATAACAGCCGTTATAAAACATTCTATCATATAGAAGAATTTATAACAGTGTATAACGGGCTAATAATTTGAAAACATTGCAAGTTCAATCAACTTCGAATACTAAAAATGCAGAGAATATTATAAATAAAGTAGGCAATACGCCACTCATCAAATTAGATAAACTATTTGATAATTCAAAAGAAATATATGCAAAAATTGAATGGTGTAATCCTCCTGGTTCAGTTAAGGCGAGACCAGCAGCATGGATGATTTATGAAGGAGAAAAACAGGGAAATTTAATAAAAGGCAAAACAACTGTAATTGAACCAACTTCTGGAAATACAGGAATTGCATTGAGTTATTTTGCAAAATCATTAAGATATAAAATTGAATTAGCAGTTCCAGAAAGGATGAGTGATGAAACAAAGGAGATCCTAAAAAAGAATGGTGCAAAATTATTAGAAACTGAAGATGATTTGTGTCCAAGAGTAGGACCTGGAACTGATCAAGCTATAGCATTAGCAGCAGCATTAATCAAGAATCATCCAGAAGAATACTATTCTCCTAATCAATATGAAAATGATGCAAACTTTCAATCACATTACAATGGTACAGGCCCCGAGATCTGGAAACAAACAAATGGAAGTATAAGTGCATTCATATCAGGAATAGGAACTGGAGGAACTATAACCGGAGTAGGAACATATCTAAAAGAAAAAAACCCAGAAATTAAAATTATTGCTGTGCAACCTCAAAAAAACCATAACATTCAAGGATTAAGGAATCTTGAAGAATCAGAAAAACCAGAATTATACAAAAGAAGAAGTAATGTAATAGATGAAATGATAACAATTTCAGATAAAGAATCTTTCAATATGATAAAAAAATTAGCTATGGATGAAAATATATTTGCAGGTCCTTCCACAGGAACAGTTCTCGCAGGATTAAATAAAACAAAAACAAAATTCAAAAAAGGATCAATCGTACTATTATTCGGAGATAATGCGATGAAATATAAAAGCATCTACACCAAATTCAATCTATATACTGAAAATGAATTTGACAGTTTATTGAACAATAGTCGAGATCTATGTGTAAGTTCGGATTTACAACCTACTTAATACATTTTTTTAATATCTTCTTAGGCTATAGATTTGCCGTTTATTTTGACGCCGCGATGTGAAACAATGTTACCGATTATTGTATTATTAATCTTGTAGTCAGATAGTATTGAATCAACATCAGAATATTGTGATTTAGGGCAAATAACAACAAATCCATATCCCATATTAAACGTTCTTTGCATTTCTTTATTAGATATATTACCAGTTTTTTGAATTAGTTCAAAAATGAAAGGAGTTTTAGGTAAATCAATAGAAAAACCAACAGTACCAGAACTGATTCGAGTAAGTTTGGTGAATGCGCCGCCAGTAATATGAGCAAGGCCATGAATTGATTTTATATTATTAAGGATATCCATAATAGCTTTTGAATATATTATAGTTGGTTCAAGTAACAAATCGCCCAAACGTTTTGATTTATACATCTTTTTACGAAGAGAATATTTTTCTAACAAAACTTTCCGTGCAAGTGTAGTGCCATTGGAATGAATTCCAGAGCTTTGTAAACCAATAATTATATCGCCAGATTTTATCTTTCTATTCAACATATTTGTTTTTTCAGTAATAATACCAATACCTGACGCAGCAAGATCAAAAGCTTTGTTTCCATATCCATCAATTACATCAGGCATTATTGCTGTTTCACCACCAACAATTGGGGTTGAAGACAATTTAGAACCTTTAACCAATCCTTTTGTTATTTCTTTTATCAACATTGGATTATTTTTTTTAATTGCAATATAATCAACTAGAGATATAGGTTCAGCGCCGACACAAATAAGATCATTTACATTCATAGCAACGCAATCAATTCCGACAGTATCAAATTTTGAATACTGTTGTGCAACTAAAACTTTGGTGCCAACGCCATCAGTGTGAAAAGCTAAATATTCATCTTTTGTTAATTTTATAACCCCTGCATAATGACCTGAACCATTAATTACTTCTCCAATTTTTCCATCACGAAAACCAAGAGTCTTATTTAGTAATTTTGAGATATTAGAATGACTAGATTTGACTCCGGTGATATCTACGCCTGCCTTTTTATAAGACCAAGATTTTTTCATTTTAAATAATCATTATTGAGAAGAAAATTGTTTGTAGGCAGTAATATATCGAGATTGTATAAGATCCACTAAATCTTGGGGCAAAGTTGGCGGATCAGGTAAATTTTGATTATTTTTTCGGGCATAATCTAGTTGTTTTTTAAATCCACTATCAATAAGCCAGTCACGAAGTATTTGTTTGTCAAAACTTTCTTGAGTTTTTCCAATCTTATATTTGTCTTGAGACCATAACCTAAATTCATCAGGACCAATAGAATCAGCTAAAAGAATATTTCCATTTTTATCTTTACCAAATTCTAATTTTAAATCTGCAATAAGAAAACCAGATTTAGATGCCATCGACAAAATTTTCTTGTAAATAGATATTGAAGTAGATTTCAGATATTCCAATTCAGTTTCGGAGACAATACCTTGAGATAAAATCTGTTCTTCAGTTATAGGTTCGTCTTTTATGTCAGATTTTGTAGTTGGATCAAAAATTGGTTCTGTCAGTTTGGTTGCTAAGATATTTTCACATTCAATAGTAACCTCACCACTATTTACTCGATCAAAAAGACCTCCATATAAATATCCACGAACGATACATTCAATAGGTATAATATCTAATTTTTTAACTACGATTTGATTTGAATCCACAGTTTTAATAAAATGATTATTTACGTTTAAATTTTCAAAGAAAAATTTTGCAAAATTACATAATATTTCACCTTTTTTTGGAACAACAGTAGGAAGAATAACATCAAAAGCAGAAATACGATCTGAAAATTCAAACAATACGTGATCTAAATCATATTCATATGCGTCTTTGACTTTCCCTTTTTTGATTAAAGAACGGTCTTGATCTGCATAACTCATTTTGTCTTCCAACTTTCTCTATATTGGTGAATTTTTTCAGAGATAGAATTATCACTTAATGCTAGAATCTCTATCGCCAACAATGCAGCATTTCTTCCATTATCAATCCCAACTGCAGCAACTGGAATACCTGGAGGCATTTGAGATATAGACAATAAGGAGTCAATTCCTCCTAATTTAGCATCAACAGGAACTCCAATAACAGGCTTCGTGGTCAATGAAGCAATAACTCCTGGAAGATGAGCAGATAAACCTGCAACGCCAATAAAGACAGAAGCAGATGAATTTGATATGTATTCTTGTAATTCTCCGTGGTTTCGATGTGCTGAAATCACTTTAGATTCATAATCAATGCCAAAATCATCAAAGATTTTGGTTATTTGATCAGTAACTTTTGAATCAGATTTACTACCAGATATTATAGCGACTTGTTTATTCATTTTCAATTAAACCTATATCAGTTCTATAATACATATCTTTCCATTCTACATCATTTATAGATTTATATGCATTATTCCTCGCAGTTGTCAAATCATCACCAGTTCCAATAACATTAAGTACTCTGCCTCCTTTAGAATACAACTTGTTATTTTTTTGTTCAGTTCCAGCTTGCAATACATGACTATTATTTTTTATAATAATTTCAGAACCAATTATAGGATTTTCAGGATATCCTGGAGAAGACAGAACAACACAGACAACAGATTTTGTATCTAAATCAAAATTACTAACTTTATTTAATTCGCCCTTACTAGCAAATAACAAGATTTCTAATAAATCATTTTTTATTCTAGGAAGTAATACTTGACATTCGGGATCTCCAAAACGAACATTATATTCTAAAATTTTGATTTCTTTGCCATTTAACATCAACCCAACATACAATACACCTCTGTAAGTTCTTCCTTCTTCATTCATTGCATCAATTGTTTTTTGTGTAAGGGATAATATCTCTTGTTTAAGTGAATCGTCAATAAATTTTACAGGACTATAAGAACCCATTCCGCCAGTATTGGGACCTTTATTACCATCAAAAATTGGTTTGTAATCCTGAGCAAAACCTAATGGAAGGATTTTATTTCCATCAGAAATAGCAAAAAAACTCGCTTCTTGGCCTTCAAGAAATTCTTCTATAACAATAGAATTTCCAGCAGAACCAAATTTATTATTAACAAGCATATCACGAACAGTTTCAATAGCTTGAGATTTTGTACGAGCTATTATAACACCTTTACCAGCAGCTAAACCATTAGCCTTTATTACAACAGGTATGGTTTTTGATTCAAGATAAAAAATGGCGGAATCAAAATCAGTAAATGTAGAATATTCAGCAGAAGGTATTTCGTATTTTCTGCAAAGATTTTTCATGAAAATTTTTGAACCTTCTAATTCAGCAGCCTTTGCATCAGGCCCAAATACAGAGATATTTTCACGATTAAGAATATCAACAAGGCCATTAGTCAATGGAGCTTCAGGTCCAACAATGACTAAATCTATTGAATGTTCTTCACAAATTTTTAGAACAAAATCATTATTCATAGGAGTTCCATCAATACATTTAGCTAAATCTTTAATTCCTGGATTTCCAGGTAAACAATAAAGATTTGTTAAGAGTTTTGAATGAGAAATTGATAAACAAAGTGCATGTTCTCTTCCGCCACTACCAATAACCAATACATTCATGAGAAATGATTTCCTATATTATTCTTTATTGCTAAGATTACGATTAAGAACGCCGTATTCGCCAGTATGACAAGACATACATAAATCAGATTGTTTTTTACCAATACCAGCGGAGAGATTTTCAATATTATTATAACCAACAAAATCAGCATTCACAGCTTTACTAACTTTTGTGTTAATTAGATCAATATCAGAATTTTTTCCAGATACATTAAATGCAATTAATTCCTCATGTGTCGGAAAATCAATACCTGCTCGACAAGGATGTCTAATAGGAGGAAAAGTAACAAGAATTTTAACACTTTTTGCGCCAGAATTACGAAGTGTTTTAACTATAGCTTTTGAACTAATGCCTCTAACTATACTATCGTCAATTACAATAACATGTTTCCCTTCAACAGCACTTTGAACGGGCATAATCCAACGATTAATCTTTAAACGTTCTCTGTATTTGGGTTGGATAAAACTTCGTAAAGAACCACGGTTTGCATATCTGTCCTTCATTAAACCTTCAACCATAGGAATACCTGATTTTTCAGAGAATCCTAAAGCTGCAGGGCGTGCAGAATCAGGAACAGGAATAACAACATCTCCTTTAACATTATATAATTCAGCTAACATTTGTCCTAATTTACGTCGACTTTCATAAACACTAGTCTGATCAATAACAGAACTAGGATGTGCAAAATAAATATATTCAAAAGAACAATGAGCAGTTCGTTCACCTCTAGAAAATAAATAAGATTCAATTCCGTTATCTGAAATTTTGACAATCTCACCTGGTTTAATATCGCGCTTTAATTCTGCGCCCAGCATGGAAAAAGCACAACTTTCAGATGAAATAAGGTAACTCTTTGTTTTTTTATGCCAACCAATACACAATGGTCTAAAACCACGTGTATCTCTAAATGCGTAAATTTCGCCATTCGGAGTTAATATAACAAAACAGTAAGCTCCTACAAGTTCTTCGCATAACAATTCAATTGATTTAAACCAATCAAATTCATTTTGTTTTAAAATGGATAAGAGTCTTTTTCCAACTATGGAGGTATCATTTATTCTTCTAACTTTTTTTCCAGTTTTATTATCTACAGAATTTAGATCACAAACAGTTCCATTATGAGCAATACAAAATTTTTTATTTATAGAAAATGGCTGAGCGTGAGAAATGGATGTTCCGCCAGCAGTTGAATATCTAACATGCCCTATTGCAATATTAGTTTTCATATGTTGAAGAACTTGAGCAGATTGTGCAAGATTATCAGAAACCAGTCCGTTTTGCTTAAAAGGATTCATATTTGGAGTAGCAATGCCCCATGCTTCCTGACCTCTATGTTGTAAACCTCGTAATCCAATTGTTATAATTGGAATTACGTCTTTTTTTGATTTAGAAAATGCTGCAAACAATCCACATTTTTCTTTCATATTACATCGTCCATTAACTTGGATAAACTAGAATATACGTAATTAGATATATAATCAATATCGATTGAAAAAAATAATTCGTCTTTATTTTTAAGTTGTAAATCTCTTCCTCCAATAGAACCAATAATAGATACAGGAATGTTATGATTCCTAGATATATTCATCAAGTTAACAAAATTCTCTTCTTTAATTGTTACAAGGAAACGTGAATGAGATTCGGAAAACAATAAATCGTCCCAACGTTTGCAAGTTGTCGGAATCTTTGAAAGATCAACTGTAGCGCCTATATCACTAGTAGTACACATTTGTAGAAGTGAATGAAGAAAGCCGCCTTTTGAACAGTCATTTACAGCACCAAACAATCCAACTTTTATTCCATCACGAACTAATTTTTGTGACATTTTTTCAAGTTCGAAATTTACTTTTGAAACATTACCTAATTGATTGTTGCCCATAATTGAATAATATTCAGATCCTCCTAATTCATCAAATGTCTCACCAATCATAACAATTAATGGATATGATGAATCTAGTTGTCGAGTCCGAAGATTATGTGCGCCTTTTATCAAACCGACTACAGAAATTACAGGACTAGGTTTAATAGCTTCATGAGTTTTTGCATCTTCATTATAGAAACTAACTTTTCCTCCAACACATGGAAGATCGATATAAGAACAAAAATCAGAAATAGATTTGATCGTTTCATTAAATGTCCAAAATACATCTGAATTACTAGGATTCCCAAATTGCAAATGATCTAACATAGCAATAGGTTCTGCACCAACAGAAATTACATTTCTCATTGCTTCAGCAACAACACCAGCTGAGCCATTATAAGGATCAAGATAACAATGTGAAGGATTTCCATCAACCGAAATAGCAATAAATTTATCCGGTGCGATTCGAATTACTGATGCGCCAGATTCACCTGGTTTAATTACAGTATTTGTACCAACTTCATGATCATATTGACTAAAGACCCATGATTTACTAGCAAGATTTGGAGAGGATAGGACTTTCAATATTGTTTCTTTAACATTGATTGGAAGCTCGGGTTTTGAATTTGATATATTATCTAAATAGTCAGGTCTTGTTTTTGGCCAATTGATTAATGGAGCATTTGCAATAAGAGTAGTGGGTAAATCTACAATAATACTATTGTTTTGTTTAATTACTACATGTTTACTATTAGTAACTTTCCCAATAATAGAATATGGAAGATGATACTTATCAAAGGAATCAAGTATTTCATCAAGATTGTTTGGATTTACAACAAATAACATTCTTTCTTGTGATTCAGATATGAGGATCTCATAAGGTAGCATGTCAGATTCTCGTAAATGGATTTTATCAAGATCAACCTCAACACCATTATTGCCCATATCACTAATTTCAGATAAGCAACAGGCAAGTCCTCCGCCTCCAAGGTCTTTAAGTCCAGAAACAAATCCAGTATTTAATGCGTCAAGAGTAGCTTCAATAATTAATTTTTTTACAAAAGGATCAGGGATTTGAACTGCAGAACGATTGTCAGATTCATCTTCTAAATCTTTAGATGCAAAGGAGGAACCATGTATTCCATCTCGACCAGTACTGCCTCCTAATAATACTAATATATCTCCTATATTTTTTGCTTCGGAAAAAATTAATTGTTTCTTTTTACCTAATCCAATAGATACAACATCAACTAAACAATTTGTTTCAAAACAACTATCAAAAGAAATTTCTCCGCCAATGGTAGGAATGCCAACACAATTACCATAATCGGCAATTCCACGAACAACGTTTTGGAGAAGCCATCGATTGTTTGGATTATTTAGATTACCAAAACGTAAAGAATCAAGAACGGCTATGGGTCTAGTGCCAATAGACAAGATATCACGAAGAACTCCACCAACTCCTGTCGCGGCACCACCATAAGGATCAATTGCAGAAGGATGATTATGGCTTTCTATATGCATAGTAAGAATTTGACCATTATCAACATCTAAAACGCCAGCTTCATATCCAGGTCCAAGTAATACTCTTTTACCTTTTGTGGGAAGAAGTTTAAGAAGGGATTTTGAAGATTTATAACTACAATGTTCGGACCATTGAGCATCAATCATTGCTAATTCAACAGTATTAGCTTTACGATTGAGAGATTTTTCTATATATTCAAGTTCAGAAGAAGTAAGAGAATAACTCACAGATTGTGTTGAACTCATTCTTTTAACATAACCTCGAGAGATAAAATCATAGAACGAAAAATTTCAAGACCGTCATTTGTAAAATAAGGACTAAGTATAGAATCAGATGCTCGTTCAGGATGAGGCATCATGCCAATAACATTACCTTCAACATTAGATACAGCAGCAATATTTGAAACGGAGCCATTAGGATTACTATCCATAGAAGTAGTTCCAGAAGAATCAGCATATCTTAATATAATTTGATTATTTCTTTCTAATTCATTTAGTTTTTCATCACTTACATAATATCGTCCTTCATTATGAGCAATAGGCATATGAATTAAAGAACCAGATTGAAATGAATTTGTAAATAAATTATTATTTTCAACTTTAAGAGTAACCCATTTACAAATAAATTTGAGATTTGAATTGGTTAATAAAGATCCAGGAAGCAAACCAGTTTCAACTAATATTTGAAAACCATTACATATTCCAATGATTGGTTTTCCTTGAAGAGAAAGTTTTTTCAATTGTTTAATTATAGGACTATAAGCTGCAATTATTCCAGCGCGCAAACGATCTCCATAAGAAAATCCTCCTGGCAGTACAACCGCGTCATATTTTTGTAAATCATCTTTTTTTTCATGCCAAAATAAATCAGTTTCAACTTTAAGTTCATCATTAAAAACACGAAATGAATCTATATCACAATTTGTTCCAGGAAACTGTATTATAGCAACCTTCAAATCATTTAGAACCTCGAATTGTACAAGAGCTTACCAAAGGATTATAAATTCGCAATTCATCACAAATAAACAAAGCTCTAGCTTTAGCATCTTCAAGATTGTTAGCTTTAATAACTAAATGAATAACTTTGGATACTGTAACGGAATTAACATCGTCAAAGTTGTTGCGTAATAATAAATCTTGTAAAATTGTTTCTCCTTCCGGATTTCGTATTTCCGGTCTCTGTGAAATCAAAACATCAATTTTGAATTCAGAGACTGTGTTCACTTTGCCCCATTAGAGGTGTGTAATTAATCAAATATATACATAGTGATTAGTTGAATTAAAAAAATCATTTGGCAAGTAATTTAATTTGTTTAATATTTTCTTTGTCTCCATAATTTTCGTCTATTGGAGTTTCTAGAATCAGAGGAAGTTTTTTAATTATATTATTTTTTAGTAATTGCCGGAAACCAATATTTCCAATATTACCCTTGCCTATATGTTGATGTCTATCCAAACCATTTCCCAATTCGCCTTTTGAATCATTAAGATGAATAATTTTTAGATATTTTAAGCCTATTATTCTATCAAATTCATTAAATGTACTAATTACTGATTCATTACTGGAAAGATCATAACCTGCGGCAAACGCATGACACGTATCGAAACAAAATCCAATACGAGATTTATCATTAATATTATCAAAAATATATTTTAATTCTTCAAACTTGGAACCAACATTATTTTTTGTTCCAGAAGTATTTTCCAATATTATCATAGAATTGTTTGAAGAATTAGATAGAGCAGTATTACACGCATTTATGACTCTTGTTAGGCCTGCGTCAAGACCTGAACCAAGATGACTTCCTATGTGTGTAACAACATAATCTATGTCCAATTGATTACACCTATCTAGTTCAGAACTCAGAGTTTTGATTGAAATATTATAAACATCATCTCTCGGAGAAGAAAGATTAGGTAAATATGGCATATGACAAACAACGGATAAGATATTTTCTGATAAGACTTTACGTTTAAAATTATCAATATCAATTTCTTTTAGATTAGAAAATTTCCATCCACGGGGATTTCTTGTAAATATTTGAAACGTGTTAAGATTTAGAGAGCGAGCTCTATCAATGGATAAATCTATAGAACCGGAAATAGATACATGAACTCCAAGTTTCATTTAATGAGAACTATAATTTCATTCCAAAACTTTCTGCAAAGTCTGCAAAGTCAGAATGTGATTGTAAAAATTGTATTCCTTTGTGACTTATAACATACCTTTGACTACGATCGATGTAAACTTGTTCTACTAAACCAGAATCAACTAAACGATTTACAATTTTTATAGCTCTATTATATGACAAATTTGCTTTTTGAATTATTCGAGTAATACCTAATCCTCTTTCTCCTGCATTACCATCATTGATTGATGTTAAAACATCTGCAATTATCTTTACTTGAGATCTATAAGTCGACATCATCATTCATTCCTTTTAATGTAGAAAAGCTCCTCACTGGCGTATAAAGCATTATGAATCCAAATAATTTGACTAAAATAGAAGCTATCATCAACGGATTTAACCCAGTATAAAATAAGGCCAGCCACTTAATAAGTTCGCCTACTGATAATAAACCAAAACCAAAAAACATATAGAGGATTGAACGTCTTTTGACTTCTAAATATGATAAAAAGGTCTCAAATGCTCCATAAAGAAGAAAAACAAACGACAGTGACTTCAAAATGGATAATATTGATACTGTAGTAAAAAAACCAAATAGAGCAGGAGTAGCAAGTACATTAAATGATTTAATACCATGTCCAAGAGCGAGAATAAAATAACCGAATAATTCAAATATTGCAGCAATAATAAAGAATAACGATGCTAAAGCAATAGAAATTCCAAATAATTCAATCCTTATTGCAAATTGACCAAAAAAGTAAGTAACGCCCGTTATCATGAATCCAATTGTCAGAAAAATAAATGAAATAGTAATTCTAAGCAACGTAGGACTTCTAGTAACTCTATAACCTTCTCTTGCAATACGCGCTACTCGAAAACCAATAATAGCGCCAATTATGTGTAATATTCCCTCTATATAGTTTGGAAATAAAAAATAGGTGCCTAGCATAGTAATTATGTACAATAGGTAAATTATAAGGTTAAAAATTTACTAGATTGATTTAATTATGGAATAAAGTATAGCAAACACACTAAAAAAAATCAGGAGTGGAGATGTAACAAAAGTAAAATTACTGCTTTTATATATATAAATGAGAAACCAAGGAATTTTACCAGAAGTAATTATATTAAAGTGCTTAGACAATTCAGGCAATAAAATAAGAACTAATCCAAACAATACAAAAATGTAACCAAGATAAGAAATAGGATTATTAGGGTTCAATTAGTTAAGAATAAAGATTATTGCGTATATATATAATTTTATTATGCTTATATACAACAACAATACTTATCTAGGAAGTTTATTCCAATCTATTCTGTGAGTGGAGAAGAGTATACAACTGCTAAATAACTCAATCTTAAGATTAAATAATTTTACATGTAATAATGGGATAATTCATGGACGTATGTAATAAGTGTGGTCTGCCAGTAGATCTTTGTGTTTGTCAAGAGCTAGAAAAAGAAAATACAAGAATTATTGTAAGACTAGAGATGAGAAGATTTAGAAAGCCAACAACAATAATTGAAGGATTAGAGTCGAAAAGTACAGATGTAACAGAAATCGCAAAGAAATTAAAGAACATTTTAGCATGTGGAGGATCAGGAAAAGGCAATTTAGTTGTACTTCAAGGAGATCACAGAGGCGTATTAAAAGCGCATCTAATAGGCTTAGGTTTCAGTGAATATTCAATAGAGGTACAATAGATAAAGATGTTTGAAAAAATAAAAAGCTTGAAGAATAAATTCAGTAGTTATCTAAATTTCAAAACGCAATATACCCTGTCAGACTCCAAAATAAAAATATGTCCAAAATGTACTGCAGAATTAGAATTTGTAAACGAACAACTCAACTGGCTAATGCCCCAAAAATTTAATTGTAAAGAATGTAATTATGAAGGAAGTATTTATCTCGAGAAATAATCTTAATAGAGATAGAAATCAATATTAAGATATGTCAAGGCCGACATGGGATATTTATTTTATGGAAATTGCCCAACAAATATCAAAAAGATCTACCTGTGATAGAAAACATGTAGGGGCAGTAATTGTTAGAGACAAAGTAATTCTTTCCACGGGATATAATGGAAGTATAAGAGGAATAAAACATTGTGATGAAATAGGTCATTTAATTGAAAATGGTCACTGTGTAAGAACTGTTCATGCAGAGGTTAATGCTGTAGCCCAGGCAGCAATGAATGGAACAAACATAAGTAATTCAAGCATATATCTAACAGCAAGTCCATGTTGGTTTTGTTTTAAGATATTGGTAAATAGCGGGATAAAAAAAATATATTTTGGAGAGTTTTACAAAGATGATAAAATTTTTACTTTTGCGCAAGAAACTGGAATAGATCTAGTAGATATGAGCAATAAGTAAAAAAAAAGGAAAATTAGATTTGTAAGGCAGCTTTCAAGCCTTTGTATCTGTTACGAATGGTAACTTCAGTAACGCCAGCAGCTTCAGCGACGTCTTTCTGTGTCTTACTTTCTCCTTCCATTACACAAGCAACATATAGAGCAGCGGCAGCAAGACCCATAGGATCTTTTCCAGCAGAAGTTCTTGTAGCTTCAGCTTTATGTAAGATTAATAAAGCACTCCGTTTTGTTTTTTCGGATAAACCTGCTTTACTTGCAATCCTAGAAACACATTTTGTAGGATCTACAACAGGCATTCGAAGTTCCATTTCACGCAAAAGCAATCGATAACAACGCGCTATATCTTTTTTCTTAATATTACATGCAGCAGCAACATCTTTTAAGGTTCTAGGAGTTTCGGTATCACGACAAGCAGCGTATAAAGATGCTGCAATTAATGCAGAAATAGAACGTCCTCTAACCAAACCTTTTTCAAGAGCTTTTCTATAAATGTAAGCAGCTTTTTCAATAACTGCATCACTAAGATTTAATTTATCAGCTAACCGATCCAATTCACTAAATGCTTGTCTAAGATTTCTATCGACAGGTTCATGAACTTGACTTCTGCCATCCCAAGTACGTAATCTTTCAATTGCTGCTTTCATTGAAGCAGGTAACGAACGGCCGGCAGCATCGCGATCTTCGGCACCAATAACAGTAGCTAGACCCATATCATGCATAGCAAGTGAAGATGGAACACCAGTTCTGGCTCGATCATCTTTTTCTTCTTTAGAAAAAGCTCTCCATTCAGGACCTTCTTCTTCAATTTTATCTACAATAACAAAACCACAGTTGCTGCAAGTCATTTCTCCACCGGAAGAATCAACAACTATAGGTCCTTTACCACATCTTGTACACTTATCACTAGCAGCACGATCTGTTACAGAACCTAATTTATCTCTTTTCAATCAAATATTCACCAATTTATTTTGTTTTCATATTTAAGTATTATCATACTTAGTATTCCGGTTGTTGTGTAGATGTTATATTTAAACTTTAGTATATTAATATATTATGGGATTAAAATGACAATGAATGATAATATTATATTGGGAATAAAAGAAAATATTTTACTCATAAAAAGTTGAAATTACGTTGATTAAGGTAGGAATAACTGAAAAGAAGGATGATAATTTTTCAGAATGGTATACACAAGTAGTATTAAAAGCAGAATTGATTGACTATTCGTCAGTAAAAGGATTCATAATACTAAGAGAATATGGATATTCAATATGGGAAAATATACAAGCAATTCTAGATAAAGAGTTTAAAATAAATGAAATAAAAAATGCATACTTTCCATTGTTAATTCCTGAATCATTATTAAATAGAGAATCAGAGCATTTCAAAGGTTTCACACCAGAAGTATTTTGGGTAACAAAAACAGGAAATAATGATATAGAAAATAAATTGGCAATTAGGCCGACATCAGAAACAATAGCATATGAATCATATTCAAAATGGATTAATAGTTGGAGAGATCTTCCTTTAAAATTAAACTTTTGGAATTCAGTATTGCGAGCAGAAATAAAAGATACAAAACCATTTATTAGAACATCAGAATTTTTATGGCAAGAAGGTCATACAGTCCACCAAACAGAAGAACAAGCAATTAAACAAGTTGAAACCATGTTAGAGTTGTACAAAAATTTTGTAAATAGATGTTTGGCATTACCAATATTAACAGGAAGAAAGAGTGAAAAAGAAAAATTTGTTGGAGCAGAATATACTTTAACATTAGAAGGAATAATGCCTGATGGAAAGGCATTACAAATGGGAACGTCTCACCATTTAGGACAAAATTTTTCAAAACCATTTAATATAAGTTATCTAGGAAAAGATGAAAAACAACATTTAGCATGGCAAACATCTTGGGGTGTATCATGGAGATTAATAGGAGCTTTGATAATGACGCATGGAGATGATAAAGGATTAATATTGCCTCCTAAAATTGCGCCAATACAAGTAGTTATAATTCCTATATATTATGATGAAGAAAAAAAGAAGAAAATTTTGGATATTTCTAATGAGATTGCTAGGCAATTTAAAGATAAAGGAATAAGAGTGCATGTTGATTCTAATGAACAGTACACTCCTGGCTGGAAGTTCAATCAATGGGAAATGAAAGGAGTACCAATAAGAATTGAAATAGGCCCAAAAGATTTAGATAATAATTCAATAATTGTAGTAAAACGAAATTCAAAAGATAAAAAACAATTAGAAATTTCTAATAATCTTGGAGAACAAATAATTAAAGAATTAAATGATATACAAATTCAGCTATTTAATAAGGCAAAAGAGAAACAAGAAAAAATGATATACAAAGTAGACAGTTATAGAGATTTATGTAAGAAATTAAATAATAACCTAGGATTTATGAAAACAAACTGGTGTGAAAGCCAAGAATGTGAAAATAAAATAAAAGAGGAAACAGGAGCTGATATAAGACTAATAGAAAACATAAATGAATCAATAGCAAAATGTGTAGTTTGTTCGGAAAAAACTTCAACGGCAGTTTATTTTGCTAAAGCATACTAATTTAATCTCAATATTGCAATAAATCAATAAGCTAACCAGATTTTTATTATTGTATAACGTTTTAAACAACATAATGGATACAATTCAAATAATAATCTTTAGTATTATTCAAGGAATTATTGAATGGCTTCCAATTTCAAGTCAAGGAAATTTAATAATTTTAATGTTAGAAGGATTAAATCTCAACATAGAAAATGCACTAAAACTTTCAATCATATTACATCTAGGAACAGTAATTTCAGCTTGTGTTTATTTTCGAAAAGAAATTTATCTCATAATTTCAAATCTTAAAAATTATAAATTTGGATACAAAAATGAAATAGATTCTCTGACTACATTTGTAATTTTAGCTACAATATCGTCAAGTATAGTTGGAATTATTTTATTTTCGAGACTTTTAGAAATAGTAGAAAGCAATATATTTTTAATCATTATAGGAATAGGATTATTAATTACTGGAATAATTCAAAAAACAATAAAATCAGAATTGAAAAATACAAAGAATCTAAATCACATTGTATCAATAGTAACAGGAATTCTTCAAGGAATTGCTGTAATTCCAGGTATATCAAGATCTGGAATTACGACATCTTATTTGCTATTAAATAAATATAATCCAAGTACTGCATTAAGGTTATCGTTCATTATCAGTATACCGGCAGTCGTCTTAGCAAATGTTTATGTATTATTCTTTGAAGGAGTGCAAAATTTACAATTAACAGAAGTAATTATTGCAATAATTTTTTCATTTATTTCAGGTCTAATATCAATAAGAAGTTTTATCAAGATTGCAGAGAGAATAAAATTTTGGATATTCTCAATAGTAATAGGGTTAATATTATTAATACCAGAAATATTAAAAATAATAAATTAATCAAAAAGTAGTTGTAAGCATAGAATTATAAAGCTATCATGTAGAATAATTTATCATGAATGACGTGCAAGAAACAAAATTCAAAGTGAAAGTATATGATTATCCGGAGGGAGAGAAACCGAAAAGAGTTTCTAAAGAAGTTACGAAACTGTTGAAAGGCGTTGTAAGTACAAAAAAAATTGCAAAATTAAAAAAACAAGCAATACATTGTCCTGTTTTAGATGAAGAGAGAAATTTTGTAGAATGTTTTACCTGTAAATCATTCATTAGAAGAGTAATGGGTGAAGTAGATTGTGCAGGAGGGCCTGCAGAATTAGATCTAAGATAATATTACATACTTTTTGCTTGTTCTAATTTGTCTGGTAAATATTTATCAACAATAGTTGTAAGTCCATATTTGCTAAAAGCTTCTAGTTCGCATTTCTTCTTGATTTTCATAAATACATCAAGTTCCTTATTCCAGATGCCTTTCTGATATCTGGGATCGCGTTTTAATTCGCCAATTCTTTTCAGATCAATTTCAGTCATTGGAATTGTTGGAAGTTTGTATTTTTCTATATCAGAAGCCCAAATACCAAGCCATTTTGCAGAAGGTACAGTTAATTCACGAAGATGTGCAGCACCAGCAGAACCAGAAACAATTACCATTGCAATATGTTCTCCATAAACGTCACCATCAGTCATAATATAAACTGGAAGATTCAATTCTTTGTGTAAACGCTTAAGCATATATCGAGTAGCACGGGGCGCCTGGCCTGCAGTATCAATTATTATAGATTTATATTTTGAATGGACTTTTTCTTCGACAAATCGATTAAACAAACCGCCTTTTTCAATTGCAATAATCATTTCTGCAGATGTATCTATAAAATCAGCAGTGCTAAGACTAGGTCCAATTAGATAGCCATCAGGATGTGATGAAAGATTTAACTTATTGCCTTCATAACCTGGAACAGTATATTCTATATTGAGATCGCCAAAAATTGCAGAACGTTCTTCAGGATATATGTGTAATTGCTCTCTTGCAATAGAGATAACAGATTCAAGATCAGTAATTATAGCGTCAGATTCAGATTGATTTTCATAATCTACAGCATATGCTTGAGAAGAATAATAAACATCTCGAAGAGTTGATGATTTTTTATTTGACATTAATTCGTTCGCAAAAAATGCCAACCAAGTTAGCTGAGCAAAGGGCCTTATATGTTTAATGTTTGATGCAGTTCGTGAAACGGTATTTGAACCAAGAATATATTGTTGAGTTTCCTTATCATAAACTATATTTCTGACAGAACGGCTAGGAAAATGTATTGTAGGAAATTTTTGTGCGTCAAGATCCATATAGATCTTTTCTCCAAGTTCTTTTAATTGAGATTTAATATTGAGTTTTTGTTCTTCTAATTTAGATTGTTTTTTAGATTTACGTTTCGCCATTAGGTTTCACTCTCAATTTTATCAAGTTCACTTTTTAACATAGAATGATAATTGGGTAATGTTTTTTTACCAGACAGAGATTTTGAGAACTCGGCAATTATTGGAAGATATTTTGAATAAATATCTCGTCGGCGTTTAACTGCTTCTTGAGATGTTTTACGAGATAAATGTAAACGAAGTTTTCTAAGAACTTCACGAACGGCATTTTTTAATTCTCTTTCTAATTCAGGTCTATCAGCAAGAAATTCTTTACCTGCAGTTTTAAAAGGAACCTTAGTTGAACAAACGTGAGTAATTATTGCTAAAGGTGCATTATCGGGAATTTTATATGCTCGTTTCTTATCAATAACAAGATCTTTGACGACCTGCCAAGCAAGATCGCTTCCTTCGTCATAGAGTAATGGAATACGATTGGCGTATCGATATAATTTAACACCATGATGTGTAACTTTTCCACCATATGCCAATCCAACTTCAACAATAAATGGAAAACCAGAGTATGCAGATGGAGGACGTATTGCAATAGTAGAAAATTCCGGAGACAGTTCACTCATTATACCTGCGTTCATTATATCTTTTCCTAATGGAGATAAACAATGAGCGTCAGGAGGAAGAAATGATTCATATTTGTGCATTGCGTCTACCATTTTTACAATGTTTTCATATGATAAGTCGGTAGGGCTTAGATTAGGATTGATTTTTGCAAATTTGAAGAAATTAGTAGATGTTGTTTGGCCAACACGATGAAAATTATTTGTAAGTAATTTATGAAGAGTTTTATCACTAGTTTGTTGAATTAATCGTCTCATTCCTTCAAAATCAAAACCATGAGGATGAGGCTGAGTTTCTTCAGGAGGTTTTGGTAGAATTTTAGTACTCCTTGGATAGTAAAACATCCTTCCTTGTGCGTCAATAAAAGTTATTTCTGCATAAGGAGTAACTAATGCAGTTTCAAGGAAATAATCATGAATTTTTGCAGAGGCACGAAATGAATCGCCAGTCAATAACAATTCTACAGTTGTACCCGTTTGACCTTTCCCATCAATTATCTCATTATTTAAAACAAGCGGTTCATTTTTTTGTATATCAATTCTTAATGTAAATTTATGGGATTTTTTTCCATCAGTAGAAGTATAAACTACTACAGGCTTACTTGTTGATATTTGGCCATACAAAACAGCCATAGTACCACCCATTCCAAACATACCTCGTGCTTGTCTAAGTTTATATTTACTTCCATAGAAAACACGACCAAATGCATCAGGTGTTTTTGAAGGATCTATTCCAGGTCCATTATCACTAACTTTTAATTGATATGTTCTAGGTTCGGATTCAGATAGATGTTCAACTATAGGAGACATTTTTACATATAGACTGGGTAATATTTCAGCAGATTCACAAGCATCAAGAGAATTTTCAACTAATTCTCTTGTAGAAGTATACAAAGCCTTTGCAGGATTACCATAACCTGCTAAATCTCGATTTCTATAAAAAAATTCACTAGGAGAAATACCAGAGAACGTTGTTTTAGTTTTTAACAATTGATGAGTCCTCCCATAATTTAAGTCGATCTAACTTAGATCTAGTTCTATTACGTTGTAAAAGATTATAAGCAGTTTTATGTTGTCCGCCAGAAATTATCACATTTATTGCATCTTCAATTAACTTAATTTGTTCATAAGAACCAATAACAGATATAGAATGTCCATACACTGAGATGTGTGTATTAGTAATTTCTTCCATAACTCTTCGAGTTTTACCATTTTGACCAATAAGGCGAGATTTAATTCTTGATAAAGAATTAGATGATTTTCCGCAATATGGTTTAAGATCGATAATATTAAGGTAATTATTTTCTGCAAATAGATTCGATGCATTCGATTGTGAGAAACCATGACTAATTGCTTGAACTAGATCAACAGATAGTAAAGGATTAGACGATAAATTATCACTAGAAATAAGAATTTCGCCACTAGAACTATCAATCTTCAAAGTTACTTTACATTTTTCTTCAATCCAGATTTTAGTTTTTCCAGATCTTCCAACTACTGCACCAACACGATCAAGTGGGATTCTAATAGTTTTACGAAACATCATTTTCAATTATTTCTCCAAATTTTTGTTTAATATTAAATACTATTATTCCACGTTTTGAAAAGAATCGGTATAAATTGGTTAAATCTCTTAGTAAAAAATCGTTGGACATTGGATGAGAAATATCTACTGCAGAACCAAAATCAAATAATATAATATCATTTGAATTTTTAAATATATTAAATTCAGAAAGATCTGAATGAACAAGATGAGATTCTTTGTATAATCTAGAAATAATAGAAAGAGTTTTTTCAAGATCGAGTTCGGTAACTTCAGTTTCTGATAAAGTAGGAAATGAAGAGCCGTCACTGCCTTGAAATTCCATAATTAAGATATTTCGTCTAACAGCAATTGGTTTTGGAACAGGAATATTTATAGAATAAGCTTTTAATAAATTTTTATATTCCTTTCGAGCCCACAATTCAATCAATTTACGTCTATTATGACTAATATTTTTAAAGCGATTATCTCCTTCTATATATTGAAGTCTTTTTCGAAAATCAGTAGATACAGTTAAATAGATTTTTACAGCAACGTCATTTCCATCTGGAGTAACACCCCAAAAGATATTTGATTCTTTTCCTGAATTAACAATACCATTAAGATATGAAAGAGTTCTATTACTAAAGAAATGATTAAGAGTCATAAGTGTAGGTTTATTAAAAACATCTTGAAACACCTGAAAATCTTCTGAACGTTTATTCAAAAATCTATTAGTTTTTTCAGACTTGTTAACTTTATATAATGCTTTTTTAATCGCTCTATCATCTATTTGATCAATAGGAATCATTCTTACAAATCCTTTGAAAGATAGCCTTGTGCCAATAGCCATTCTACTTGTCCCACAGTATACCTCCAAAGTATATCCCCACGTTCTTCACTTTTAAATTCCCAAGGGGCAATAATAACAACATCATTTTCACGTATCCAAACTCTACGTTTCAATTTACCTCTTATTCTTCCAATACGAATTTTTCCATCATTACACTTTATTTGAATTAATTCACTGCCTAGATGTTTGAGAACACGACCGTACATTTCACCTTCTTGCGGTAAAACAACCTCTTTCAGTGATTTTTCATTTAGAACTTTTCTCTTGCCCATTATATCACAATATAATTGTAAGAATTATTAATTAAGTTATTGTGTAAATTTAAAAACTAAGGCGAAAGAAATACCTTCAACCTTTTTAACTGACTCTACGGAAACCAAATCATGTTTAATAGCAAGTTCAACAATACGATTACCAACTAGAGTTAACGTATTAGAATTTTTCAACAAATCAATTGCTTTAGTTTCATCAATTATCTGATTACCAAAATAATCACTAGATATTTCAATCTCAAAATCTTTGTCAGAAATGGTTTTTCCAATATTTTCTGAATCACAAAGATTTACAACCTTTATATTATTATTAATAACAGAACGGTAAACAAACGAATCATTATTCATAATTATCTGGACCCAGCTGTAGTTTTGGCACCGCAAGCGTCACATATAATAAAAAATAGTCTTTTTACTTTATCTAGAGAAGTATCATAACTATCACAAACTGAACAAGTTACATATTGCCTAATATAACGTTTAATTATAAAATCAAAAGAATCAGGTGTTTTGCGTCCAATAAAAATTGCACGATCACCATCTAAAGATGCAGAAGTAGCGAATTCTTTAGAAAGAAACATTAAGAAATGTTCAGATGTTCTTCGCAACAATTTAGGATATACATTAAAATTTTTAAAAAATGTTTTCTGGCCTACCCAATACGTTTCAACTTTTGGTATTTCGATTCTATCTTTTTCCTTAACGTCAACTTTGGACAATTGATCTTCAATTCTGGTCAAAAGTTTCTTGTAAGATACATCTTCCATTAACTAATGAAAACAATATCAAAAGAATATAATTGTTTCTAATATGATGGGAATTATTATAACAAATAGCATTATGATAGAAAACATGGATATACGAAAGATAATAAAAGACTATCCAAATTATCCAAAAAAAGGAATAATATTCAAAGATATGTGGCCGGTCATAGAAGAACCAGCTGCATTTGACTATATATTAACAGAATTTGAAAAAAATTTTAATGGAAAAATTGACACAGTTATAGGAATAGAATCTAGAGGATTTGTAATAGGAGCTGCGCTTGCAAATAGGCTAAAAATAAAGTTCATACCAATTAGAAAAAAAGGAAAACTCCCTGGAAAAACAATTTCAAGAGATTATAAACTTGAATATGGAAATGCTTCAATAGAAATAAAAAATGAATCATTAAAAAATAGAAAGATTTTGATTATAGACGATTTGTTAGCGACCGGAGGAACAATAGGAGCTGCAATAAAGATGATTGAAATTTTGAATGGGAAAATAATAGGCTTGGGATTTTTAATAGAGCTTGAATTCCTAAATGCAAGAGAAAAATTTACAAACTACAATATATTTTCAATTGTGAGATATGAATAACATAAATGCAGAAATAGCTATCATTGGTGGAACAGGAATTTATAATACGGATATAATTACAAATAAAGAAATAGTTAATATTTCAACTCCATATGGAGAAACTTCAGATTCATTAACAATAGGAGAATATAATGAAAGGAAAATAGTATTTCTACCAAGACATGGTAAAAAACACAATGTCCCACCACACAAAATTAATTTTCGTGCAAACATGTGGGCACTAAAAGAAATAGGAGTGACTAGAATAATTGCTCCATGTGCAGTAGGAAGTTTAAGAGAAGAAATGAAACCAGGTCATATTGCAATACCAGATCAATTTATTGACAGAACTAAAAATAGGCCATGTACATTCTATGAGAAAGGCATAGTTGCGCATATATCAACAGCAGATCCATTTTGTCCTAATCTCAGAAAAATAGCAATTACAGTAGGAAATAAATTAGAATACAACATTCATGATAAAGCAACTCAAGTCTGTATAGAAGGACCAAGATTTTCAACACGAGCAGAATCGAACATGTTCAGAAGTTGGAAAGCTGATACAATAAATATGACACTATTTCCTGAATGTGTATTAGCGAGGGAAGCGCAAATTTGCTATATTGCAATTGCAACAATAACTGACTATGATGTATGGGCAGAAAAAGTCGTATCACATCATGAAGTATTAAAAACACTAGAGAAGAATGTGGAAAAAACGATCAATATTATTAAAAATATAATTCCAGAAATTAACAAAGAACGAAATTGTCTATGTGCACATGCATTAGATGAAGCAATTTAAACAACAGCAATAAAGATTTTAATAAGCAGTAACATGCAAATAATAAATGAGTAAGATTTCAGATAAAACATTAGCGGAAAAAGGAAAAAAGTCATATGAATGGGCATATAAAAACATGCCCACACTTATTACAGCAATTAATAAAGCTTCAGAAGATTTTTCTTTTAATAGAACCAAGATAGCTGTGTGTTTACACGTAACAAAAGAAACTTCAGTATTAGTCATGGGATTAAAGAAGATTGGAGCAGATGTTTATCTAGCAGGAGCAAATCCACTATCTACACAAGATGATATTGCTGCATATTTAGATTCAGAAGGAATACATGTTTTTGCCTGGAGGGGTCAGAATGATAAAGAATATCAAGAATGCATAAACGAAATATTATATGCTGAACCAGAGATCATAATGGACGATGGTTCAGATGCTCATATTACGGTACATCAAAATAGTAAATTTAAAGAACTAAACATTATTGGAGGAACAGAAGAAACAACAACAGGAGTTGTAAGATTGGAAGCTTTAGTAAAAAGTAGCAAGCTGAGATATCCAATTATTGCAGTAAATAATGCACAAACAAAACATCTATTCGATAACCGTTATGGAACAGGACAGAGTACATTCGATGGAATATTAAGATCAACTGCGTTATTAATTGCAGGGAAAAAGATAACAGTATGCGGTTATGGATGGGTAGGTAAAGGAATAGCAACTAGAGCAAAAGGATTAGGAGGAATAGTTTCAATATCAGAAATTGACCCTATAAGAGCAATAGAAGCTGTCATGGACGGATTTGATGTAAAACCTATTAATGAATTATCAAAAGAATCAAATATTTTCATTACAGCAACAGGACAAAAACACGTTATTAATAAAAATAGTATTCAAAATATGAAAGATGGAACAATATTAGCAAATGCAGGACATTTTGATCTTGAAATAGATGTAGAATTCTTACGAAATAATACAAAAAATATAAAAAAAATTAGAGATAATCTGGAAGAATATGAATTAGAAAATGGTAATAAAATATTTCTGATTGCAAAAGGAAGAATTGCTAATTTGGTAGCTGCAGAAGGTCATCCACCGGAAGTAATGTCCTTATCATTCTCAAATCAACTTCTTGGTGCAATAAAAATTAAATTAGACCATGATAAATTAGATGGTTTAATTGATATGCCGAAAGAAATTGATAATAAAGTTGCTAGATATGCATTAGATGGAATGAATGTTAGAATAGATAGACAAACACAAGAACAAAAAGACTATGGAGAATCATATGTCATATAATTAAAGAAGATAAGGAAGAACAAACATAGATAAAATCAGAGTAATTATAAATAAAGAAACGAATCGACTTATTAGATTAATTGTATTTGTAGATAGAGTATTCCTAGTAATAGATTTTAATCCACGTTTAAATGCTTGGCCGCCATCCAATGGACCAAGAGGTAGTGAATTAAATATACCTAAATTAAAATTAATGAACCAAATCCAAAACAGTAAGTTTGAAAATATAACATATTGGTTTCCTAAACTAGAAGTGTAATAACTTTGCATAGAATTAGAAAAAGGAACGGAACTATCTCCTGATGGAAAGGAGAAATATAATAATAGATTTGGAGAAAATGACAATCCATTTTGATATCTTGCAAGAGATTCATAAATATCAACGGAAGGAGGCATTACACCAATAAATGGTTCATTATTATTATCAGGTCGATTTGATAAAACTAAATTATAACTATATTGTTTAGAATTGCGATGTACAGTAAGAATGATTTCGTCGCCTGGGCTAAAACTTTGTAAGCGTGTCTGAAATACATCAGAATTTGAAATAGGTTCATTGTTCAAGTGAGTGATAATATCACCAGGAAATAAACCAGCCAGATTTGCAGGAGAATCAACAACTACTTTACTAACAGGAATTCCTTCAGCAACTGGTTCCATAGTATTAACAACACCAATTAGTAAAAATAAGGCCAAAAGTCCAACAATAATATTACTACCAGATCCAGCAGCAATTATACGTCCTGATTTTCTAAATGAAATAGAATCTAATTTTTTATCATCGACTTCAACAAAAGCCCCAATTGGTAAGAAAATAAGAAACAATAATCCACTAGAACGAACAGGAATATCTAAACTTCTAGCTACTACTCCATGAGAAAGTTCGTGTATTACAATACCAAGAAAAATAGCAATCCATCCATAAATAATTGGCAAATATGGATTTAACCCAGGTATTAATAAGGCGCCCTGTGGGCCTGCATCACGAGCAATTTCACGAACTTCAGGAACTGAAAGATATAATGAAACAGTTAATAATAAAATAATAATAGCAATAAATGAAAAAATAGGCATCAACACTAGAGATATCCAGCTTAAATAATATATAACCCGGATTTGGGCAAGACGATTCATTAAACTTTGGCCTTTTTTTGTTTTAAGTATAATCAAAGGAAATCGTAAATCAATATTAGAATCTTTTTCTTCCATATGATTTAGAAATAAATTAACAAGTATAAAGATTAACTGGAAAAAATATTTGCAATAAGAATAGAATAATCAATAAATATCTGGATTAATGATAAAATATCATATTGAAGTTACCTATTAGGCGTTGGGATGGCGAATCAAGAAGATGGTTAGATGAGCTAGATGGAGTTGTAAAAGTACCAGCAAAAATGACGCGAGATACAGGTAATGAACAAGAAGATGAAAAATACGCTACAATTTGTGTAATGTGTGATAAAAGAATCACAAGGCCACAAATAGATGGCGGAAGAAAGGCATATTGGAATGAAGGAATTAGTAATGGGAAATTAATTAAATCAGGATGGATTCATCAAGAATGCTTATCATTTAATTCAGGCGTATATGAAAAAGCCTATATGCCTTAATCATTGGTTATCATTTATTTTATCATTAATTTGTTTGGACATTGAATGTCCTGAGACAATAACTTTAACCTTTCCTGTATCAATCATTTTTTCTACACTACGTTTTATATCCATTGATATTTGTAATGCAAAAACAGGAGGGCAATAAGGAGTAGTAGCGTGATATTTAATTTCAACGGAATTATTGTCTGAAATATTAACCTCGTCAATTAATCCATTTCCTTCTCCCATTTCAATTATAGGAACATTAATTTCTGGATCGACAACTTCAGATATTGCTTCTAATATATCGTCTTCTGAAAAAGTTTTTGACATACCTTAGGAACCTTATTCAGCATCTGTATTGCCTTCAGCATCTGTATTGCCTTCAGCATCTGTATTGCCTTCAGCATCTGTATTGCCTTCAGCATCTGTATTGCCTTCAGCATC
>sequence08
AATACTGGACATCCAGCATTTAGTCCTGACAGTACTCTTGCGTATATACCAAATCCTGGAGACAGTTCAGTTGATGTATTCGAGGTAGGATCTTTCAAGAAGGTCGATAGTCTAAAACTACCTTATTCACCATCAAAGATTATTCCAATCAATACAAATAACTACTAAGTGGAATAGTTGTCAGAACAAAAGAATCAGAGGTTACTATTAGTTAGTGTCGTAATAATTGCACTAACAATAGGCTTTTTGATTGGAGGGACTTTTGTTTATCATACAAATAATGAAACAGAATTAAAACAGTACCAAGCAGTAGTATTCAATACTATAAGCAAAACAGCAACTGTAATAGACAATATTCAATTCAATATCTTAACGAATGTAGATATTGATATTGAAGAAGGCCAGTACGGAGCGCATTTTAATGAAAATAATAATAAATTATATTTAATTCATGACGGTGAATCGGAACTATTAATTCTGAATCCACAGTCATTAGAAATTGAATCAAAGGTTCGAGTTGGTTCAAATCTTCAACATGCAGGAATATTTGATAAGACAGGCGAAATTTTTTTCTTGATAAGTCGTGATTCAAATTCACTAGTAATGATAAACACAACAACAGATAGAATAATATCTAAAATAGAAGTTCAAGAACAACCACATCACATTGCATTACTGAAAGATTCGGTGGCAGTTACAAATACAAAATCGCAGTCAATATCAATTGTAGATATAATAAAAATGGATGTAAAATACAATATCAAGATTGATGCAGAACCATTAATGATAGTATCAGATAAAGAAGACAAAATATTTGTTGGGACAATAAGGCCTTCAAAAATTTTCTTTATCGACAACAATGAAGTAAAGAACAGTATAAAATTAGAATCAAATCCTCATGGAATAGCTCTAACCTTAGATAAGAAGAATCTTCTCGTGACTTTACCGGAAGATGATAAGATATTAGTAATAGATATGAAGGGGAAAATAGTCAAAGAACTAAAAACAGGAAGTTTTCCGCATAACATAGACATAGACCCCAATGGAAAATACGGATATATTAGCAACAGCAATGATGCAAGTGTATCAATCATAGATTTAACAGACTTTGAAATTGTTGCGACAATAGAAACAGGAAATGGATCACATAATGTACAATTTTATAATATAATGAATAGCAATTCACAATTAAACGTGGCAAAAGATGATAGCAAAATCATTAGCGCGAATTTTAATTGCGGAGGTTAGAATATGCTCGAATATAATAATATTTTTTCATTAGGTGCTACATTACTTATTGGATTAGGTTTTGGAATACTACTGCAAAAAGGGCGTTTTTGCTTCACAAGCGCATTAAGAGACTTCATTGCATTCAAAGATACAAGAGTACTAAATGGAGTAATTATCGGAATTGTAACAATGATGCTAGGTACTAGCTTAGTATATATTTTAGGAGTTTCTAGTTCTCATTTCTGGATATCAAATTATGGATTATCAAATATAATAGGAGGATTCATTTTTGGAATAGGAATGGTTTATGGAGGAGGATGTGCTTCGGGAACACTATATCGTGCTGGAGAAGGATACATACACTATTGGCTAGTATTAATTTCAGCTTGTATAGGATACATATCTTTTGCAGCACTATTTCCCGAGTTCTTTTTACCATACTTTTTTGTTCCGTTACAAATTTTTGATGGATATAGTATAATTGCAAGTTTAGAATCATTGGCGCCAATTGTCCCTATAGTGTTAATAGGCTCATCAATAATTTATCTGAGAAGCAAGAATAAATTGATCATAAACCAAACGATACAAAGTATAAAGATATCAAATATTTCTTCTGAGAGTTTAAAATCTGAATGGGATACAAAATTAGTCGGAGCAGGAATGGGAATATTAGCTACATTGTGGTTTGTGGTTTGGGGGACATTAAGTGTTACAGGTCCACAAGCAAAATGGACAGGTTTAATTTATAGTGAAATATTTGGATTGGGAACTCTTCAGCAGAATGTGTATTGGAACAGTGTCATATTTCGTGATGGGATTTTTTCCATTAGCTTGGATATGATATTATTCGTTAGTCTAATTCTTGGAGCTTTTATTTCTGCTTATTCGAGTGGAGACTTCAAGATAAGAACAATAAAGAGATCTAGAATCCCAAATGCATTAATTGGTGGATTGATGATGGGTTTTGGTTCAAGAATGGCACCAGGTTGTAACATTAGCAACACATTTAGTGGTTTAGCGTTTTTATCGGTAGCAGGTTTTATAACATCATTAGGTCTGTTATTAGGAGTATATGTTACTACTCACTGGATGTTTAGAAAATCAGGTTGTGCGATTTAATAATAGGTGGATGTTATGGAAGAAAGAACAGTGAACGACGAAGATTTGAAAGAAATTGAAGAGAATGCAGTAATAATTGACATGGAAGGAGAAGTATGTCCTTACCCTCAAATTATTGCAAGAGAGGAGATTAAGAAAATTGATTCAGGAAAAATTGTAGTAATAAAAACAGATCATGTAATGGCAACTAAAGCAGTTCCTCAATCAGTAAGTAATTATGTCTCTCATTATGGAATATGGAAATCAGGTTCAGGGCAATATAAAATAATTCTATGGAAATAAATTAAAGAAAAGAATATATTAACAATATGTTACAAAGAAAGTTGTTCAATTGACATTAAGAATAGCTTATGCAGGCGTAATTCAGCTAATTGCTCAGTTTTCTACACTAATTACAGGACTTATTTTTGTTACATTAGTAACAAGGAATCTTCCTGTTGATGAATTTGGTTTATGGCAAACGTTAGGAAGTTCTGTAGGATTATTGTTAATACCTCTAGCTCCATTAAATTATTGGACGTTGAGATATTCAGCTAGAGGTCAAGACGTAGCAAAAACATCTTTATTATCAGGAATTATTGCAGTACCAATTTTTGTTATAGCATATTTAACACTTGCACTAACAGCGTCGTCGTCAATAGAAACAATATTGATTTATGTATTAATTTACAGCATACAAATTCCAGCTTTATGTATATGGGAAGTAGTTAGACCAGTTGCAAGATCATATAAACCGGAATATTTAGGATATGCAACAATTGCATTAGAAATTGGAAAAGTATTTGGTGCTTATTATGCGATAACAATTTTGAAACTAGGATTAACGGGTGCAATATTATCATTAGCGTTAGGACAATTTTTACAATTAGCTATTGTTATCTACATAATAAGACCGAAATTAAGAGGAATATTTAACAGTTCTATTGTAAAGAAATGGTATAAAGCTGCATGGATACCAATATCGAATATATCAGTTTCAAGATTATCGATTTCTGATTCAATACTTGTAGCAATAATTCTTGGATCAACTACGGTTGTCGGAATATTCCAAGCAAGCAGAGTGTTTACGTTAATTATTCGGTATAGTGAAGTATTTTTGCGTGTTTTGTATCCAAAATTAATTCGTGATGGCAGAAATGAAGATATTACATTAACATTTAGACTACAGAGTTTTGTGGTAGTTCCACTTGCTGTTGGTGCGTTAATGTTGACAGAACCACTTTTAGGAATTTTAGGAGAACAATATGTTAAAGCAAGTCTAATATTAAGAATTTTAACAATAGTTGCCATAATTGAAGGAATAGAATTTTTCATGTGGAATATATTAACGGGTTTGGAAAAAGTTGATGAAGATATAAATAATCTACAGTTTAAAAAATTGAGAAATAGTTGGTTAGTTAGGTTGCCTTTAATTGATTTGATGAAATATGCAGCATATTTCCTAATATTAGGAACAATAATGTACACATCAAAAGGAATAGGAAATGAATTTACTCTAGGTATGTATTGGGCAATAACATTGTTGTTAGTAACAGTTCCAATTACAATATACAAAATCATATTAGCAAAACGTGTAATGAAATTCGAGTTTCCTAAATTATCAATATTTAGATATATTGTTTCAGGAATAATAATGGCAGGATTTTTGTACTTTTATCAAGAATTAATTCCGTTAACAGGAACTTCGGTAAGATCCGTTATTACATACATAATACCACCAGGATTTATTTCTGTATTAATTTATTCAATAGTTGTGTTAAGCATAGATTCATTTATTCGAAAATCTACAATTGATTTTATAAAAGGATTAAGAGACAAAGTATAATGGGAATTTATCTTTTTTTAAAACATAAAACTATCTAATATCGAGGACGTCGTTCAATAGCAACAATATCTGCAGTATTAAAGAAAAAACAACAGGCCCGGAGAGACTTGAACTCCCGGTCTCCAGCTCCGCAAGCTGACGCCTTAATCCAATCTAGGCTACGGGCCTACACATACAGACCGTATAACTAGAATATAAAATCAAATATAGATGCAAACGATTTATAGATATTGTGAGCTTGCTGAAAACAAAGGAGTATGTTATAGAATTCATAGCTCAAGCTATAGGAATACCAAATGAATTAAAATATATCTATGAAGATATTCCTGAAGATATAATTAAACAAATATCCATTGCGCTAACGGGAAAAAATATAGATGCAGAAACATTTGATCAAAATGCATTACCGGTAGTTGATGAGTTAATTCAATGGGCACAAGAAGTTTATGAAGAAGTGTGTAAAGAGAATAACATTCCAGCTATTTGGAAAAGTAGATGGCCAAATGGTAAAAAATTTGCTGTTGCACTCACACATGATTCAGATAGTATCGATGTTACAAAAGAACATTTACAGAAAGTTAAGGATCGTTTTAGTGAAAGTGATTTAAAAGAAGCATTAGAAGGTCGAAAGAATTTATATTGGAATGTAGAAAGAATCAAAGAAATTGAAGATAAATTCGAATTCAAGTCTTCGTTTTATTTTTTAACAAGCGAATATAATCTTGAACAATACAAAAATGTTTTAGATGAATTAATAAAAAATGGGTGGGAGGTTGGATTGCATGCAGGATTTGGCACACATGATAATGAGGATAAAATGAAAGAGGATATAATGGAATTTAAGAGGCAATTAGGACATCAGCCAATTGGAGTTCGTGAACATTATTTGCAATTTGACTATCACAAAACGTTAGATTTTCTAGAAAGAAATCAATTTGTATATGATACTTCATTAGGTTTTAGAGAACATCCAGGGTTCTTTTTAGGAACATCAATGCCATTTAATCCACCAAGAGAGAATTGGGAGAGGAGAAAGATAATCGAGTTGCCATTAATCATAATGGATACAAGTTTATGGGGATACATGGATTTGAATGAAGACGATGGAATGAAATTAATAGAAGAGTATATTGCAAATATCAAAAAGGTTAGTGGTTTACTCACAATATTATGGCACCAAGAAGCATTTTTGATGAAAAGAGGCGAAATTTATACAATGATTTTAGAGAAATTAGCAAAAGAAGAGTGTTTTGTATCCTCTGGAATTATTATATCAAAATGGTGGAACGACAGAAATGATACAGAAATATCAATAGTAGAAGATAGTGAGAAAGGATGGAAATGCAGTATCAGGAATGTTGTAAAGGGATTATGCATAGAAATAAAGAATTTTGATGCGACAAAGGATATGTCAATTAATGGTCAAGGTAGAATAATTCATAAATCAGAGGCTGATGGAGAAGTATATTGTATAATCGAATTGGAAGGAAACTGTGAATTAACTTATGTCTAAAAACATACTGGTAACTGGTTCAGGAGGAATAGGAGGAGTAAATTTCATTAATGCGTTAAGAATAGCAAGTAACGATTATGTAATTACCGGAACCGATTTCAATAAATATTATTTAGAATTTCCGCAGGTAGATTTCAAATATAGAACGCCAAGGCATTCGGATTCAAAATTTTTACAAATGATTAAGGAAATAATTGAAAAAAATAAAATTGAATTTTTACACCCTAGTCCACATTCTGAGGCAAGTGTCATTACAAAGAACAAAGATCAGATAAATACTGCAACGTATTTGCCAGAATATGACATTATAATTAGGGATAAATTACAAACACAGGAGATATTAGAAAAAAACTCAATTCCTGTTGCAAAAACTGAAATAGTAAATTCTTTAGACGAAATAGAATCAAAGAAAAAAAGATTTGCAGATGATAAAATATGGGTTAGAATGAAAAGTGGAGCAGGAGGAAAATTAAGTTTATTATGTAAAAGTGTGGAAGAAATAAAAGATTGGATTAAACTTTGGGTAAACAGAGGAAGTGCAGATTATTCGGATTTTATGATTCAAGAATATCTACCAGGTAGAAATATAGCTTGTGATAGTCTTTGGTATAATGGAGAATTTATTGCTTCTTATACTAGAGAAAGATTAGAATATCCATTTAAACACATTTCTCCATCGGGAATCACGGGAACACCAACAGTATCTAGAATAATTATTGACGAACAAGTGAATGAAATTTCTAAGAAAGCAATTTTAGCAGTAGATTCTAAGCCTCATGGAAGTTATGCAGTTGATTTAAAAAGTGATAAAGATGATAATCCAATAGTAACAGAAATTGATTCTGGAAAATTTCATACAACAACTCCACTATGGGGAATAGTAGCAAATAAATTAAAATTAGATTCTAGAATGAACTTGGCAGATTATTACTGTAAAATAGGAATGAATATAATAGAACCAGAAAACTTGGGAACAGATATCTATCCAGAAGGACTTTATTTGCTCAGACATATTGATACGGGAACCTGGATTTGGAAAGAAGATGGATTCAAGGTAAAAATACTTTGATAGAATTAGTGGTTTTTGATTTAGATGGTACAATAATTAGATTACCTGTAAGATATGACTTTCTAAGAGCTCAGTTAAAAGAAAAATATAAAATTGAAGGTGAATTCTTCATTATACCAACCATAATAGAAAAAACAAGAGGAAGAGACGATTTGAAGAAAGATGCATTTGAATTTATTTGTAAAGAAGAATGCAATGCTATAAAGGATTTAGAGATTTACGAAGGAATTATTGATGTAATAAAAGAAATACATTCAAAGAACAAGAAAATTGCATTAGTAACACTTCAATGTGAAAAGGCAGCAACAAGAATTCTGGATATAATTGGAATAAAGAATTTATTCTCAAGTGTAATAACAAGAGATAATTATACAAATCGTTATGAACAGATAATCAATACTATGAACAGATTTAATATGAAAGCAAATCAAACATTAATGATTGGAGATAGAATTAATGATTTTGAGTCAGCAGAAAAAGTTGGTTGTCAATCAATAATAATAAGGCGCGGAGATCAGAAGATAAATCCATTAATGAATTGTGTAAAAGGTGATTCTGAACTCAAAAACAAAGTGTTAAAAATATTATAAATATTTATAGTTGGTTTCTAAATTCCAACGAACTGTTTTAGATAGTCCATCTTCAAGTTTAATATTAGGATTAAAACCTATAATTTTTTTAGCTTTACTAATTTTTGGTAGTCGACGTTTGGGGTCGTTTTCAGGCATAGGTAAATAAGTAATTCGCGATTTACTATTTGTGAGTTTAATTATCATTCTGGCTAAATCAATAATGCGAGTTTCCTTAGGGTAACCAAGATTAAATACTTCACCTTTAGTTTGCTTTGTGAGTAAAGATCCAAACAATCCATTAATCATATCAGTAATATAACAGAATGATCGGGTTTGTCGACCATTGCCACAAATGGTCAAATTTTTATTATTAACAGATTGCCAAATAAATCTAGATAAAGCTCTACCGTAATTACTATCGCCACGAAGTTTTGGTCCATAAGTATTAAATAATCTTACAATACGTAAATCTAAACCATATGTTCGATAATAAGCCATGCATAAAGATTCACATAATCTTTTACTTTCATCATAACATGATCGAGGTCCAATAGGACTTACATTTCCATAATAATTTTCTGGAGTTGGAAAAAGAATTGCTTCTCCATAAACTTCGGAAGTAGATGAAAAAAGAAGTTTTGAATTTGATTTTCTTGCTAATTCAAGAATTTTTCGAGTGCCTTCAGTGTTTACATCAATAGTTTGAATTGGATTCTTAAGATAATCATCAGGAGATGGTCTACTAGCTAAATGAAATATATAATCAGGCTTAATGTTCAGAGATTGTTTGGTAATATTAATTTTTTTAAAAACAAAAGATTTATTCTTGAATAAATGTTTAACGTTTTCTGTACGGCCAGATGAAAGATTATCAATACAATAGACCTTAGCATTTTTTGCTAATAGAATCTCACATAACCAACTTCCTAAGAATCCTGCGCCTCCAGTAATTAAAAATTTTTTATTAGAAACACGGAATTTTTTATTGTGTTGAATTAAATATGAGAGATCGGACTCGATTATATCTGACAATTACATCCAGCCTTTAGTAGCAAGTTTTTTGGAGGTTTGTTGGGCATGAAAATAAGTTTCAGGAGTGCCAATATCAAGTCTAATGCAAGAATTAGAATATTCATAACCCAATACTTTCATTTGTGAATCGATCATATGTTGTATAGCATCAGTAATTTGTATTTCTCCTCCATAACCTGGCTGAATTTTCTTTAGGATTTTCATAACATCAGGAGTAAATTTGTTTAAGGCCATTATAGCAAGATTAGAAATACTTGTAAGAGGTTTTTCAACTGCTTCTTGTATTGTATATACATTAAAATTAGTTTCAATTTTTTTATTACGTTTTCCAAGAACAACACCGTAAGCACTAGGATTTTTAATTTTTTCCAAAGCTACAATGCAATCTGCATGATTAGATAATCGATTTAGCTCTTTTAGATGTAAATTATTGGGTTGAATTATTAGAGTATCACCAGCATGAAGAATGAAATCATCATCTCCTACAAAAGAAGATGCTAAAGAAACAGCGTGTCCATACCCTAATGGATTACTTTGATTAATCCAAGTAATGTTTGATTTTTCAATTCGATTATAAAAAGATTTCATATCCTTAAAAGAAACAGTATTTTTTTGATTTGATAAGTTATTTAATATTGAATAATCAGGAGAAAAATGATCTTTTATTACACGTTTTTCTTTACCAACAATAAAACAGAAATCATGGATTCCAAAATCAAATAATTGCTCAAAAATAAGTTGTACCATTGGTTTTAATAACAAATCATCATTCAAAGAAGAGAAAACAGGGAGCATTTCTTTAGGTTGAACTTTAGTTGTAGGAAGTAATCTAGTTCCTCGACCTGCTACAGGAATGATGACTTTCTTTAACATATTTATCCTCTATTCTATTCTCATAATCCATTTATTTCAATGTATCATCAGCATATGTATGGAATATGACGTGGCTTTTGTGGGTCTTGGTTACGTAGGATTATCTACATCAGTATGCTTTGCAAACAGAGGAATAAATGTATTAGGAATAGATATTGATTCAAAAAAGTTAAATAAAATCAAGAAGGCAAATTCTCCAATTCATGAAAAAGGCATAAATGAATTATTAGAAAAAGCCATAAAAAAGAATAAACTATCATTAAGTAAGAATATTACAGACGTATCCAAAACAAAAATAATATTTCTCACAGTGGGCACACCAAGTAAGAAAGATGGATCAATAGATTTTAGATATATTAATCAAGCGGTAAAAGATATAGGAATATCAATAAAATACGCTGAACAATATTTCATAATTGTCATAAAAAGTACAGTAATACCGGGTACTACGTCAAGAATTATCAAGGATTTAGAAAGATATTCAGGAAAGACAGGGTCGATAGATTTTGGAGTAATAGTAAATCCAGAATTTCTACAAGAAGGAAATGCAATAAATGATACACTAAATCCTGATAAAATAGTAATAGGTTCTAATTCAGAAAAAGATAAGATAATTATTTCTAAATTATATAGAAAAATCTATAAAAAAAATCTACCAATAATTAATACAACGCCAGGAAATGCTGAATTAATAAAATATGCAAATAACTCATTACTTGCAACTAAAATAAGTTTCATGAATTACATAGCAAGATTGGCAGAAAGAATACCAGAAGGAGATGTAGTAGAAATTAAAAATGCAATTGGAATGGATAAAAGAATTTCAGAATCATTCTTAAATGCAGGTTTAGGTTTTGGAGGATCATGTTTCCCAAAAGATGTCAAGGCATTAATAGCTTTTAGTAAAAATCTTGGCGTCGAAGCAGAAATTTTACAATCAGTAATAAAAATAAACGATACACAATTTATGAGTGTATTTAATATTTTAAATGACAAGCTAGGAAAATTAGAAAGAAAAAAAATCTCTATTTTAGGTTTATCGTTCAAACCTGAAACAGATGACGTAAGAGATGCAACTTCAATTAAAATTATTAAGAGATTATTGAGAAAAAAAGCAGTAGTTAGAGTTTACGATCCAATAGCAAATAACAATATAAAGAAGATATTTGGTAACTCAATTACTTATGCAATGGATTCTAAATCGTGTTTAAGGAATGCAGATTGTTGTATTATAGTAACTGAATGGAATGAATTTAAGAAACTGAACGCGGATGATTTTATTAAAGTGATGAGAAGGCCATTAATAATAGATGGAAGAAGAATTTTTTCAAAGAAAAAATTTAAAAAATTAGAATATCAAGCCATTGGTTTGGGATAATCTAATTAAGATGTAAGGATTTAATATATAGTATAATGACTGCACTCAAAGTCAGTAAAAGAATATTGAAAAAGTTAACAAATCCGGCGTCAGAGCCATATCAGATTGAGATAGATGCGCCAGAATTTACATTCTATGGAGTAAAGAACCAACCGGATTATGCTTCGATTAACATATCAATGATTCCTGAGAAAGCGGTAATTGAATTAAAATCTTTTAAGTTGTATCTCCAACAATATAGAAATGAAATTGCTTCATACGAAAGAGTAATTAATAGAATTTATGATGATTTGATACAAGTATATAAACCAAAAAGATTAGTAATTAAAATAAAATTTAATGCCCGTGGTGGAATTGTGTCAAAATTAACAATAGATTCATTCGAACGTGAATTATTTATTGAGCGCGAAAAGTAAATTTAGAATTATTAGAACAATAGATGGAATAAAGTGTAATTCTTGTCCATTAAAAAGTGAGAATAAGAATGAATTACCATGTTCATTAAGAATTACTATGGATCCGAAGTTTAGTTTCATTAGAGTAATATGTGGATATTGCGATTTTAAATCAAAGATTTACTATAAAACGATTTTGGGAATAGATGGAATCTTAGATGAACATGCGAAAGTAAAAAAGATAGAATAAAAAATATTAATCATAACCACTCTTTATCAACAGGCGATAATTCAAGAGTAGATACGTCTAATATACTATAAAGCTGATTCACTATATCTAATACAGAAGATTTAGGTTGTCGTTTGGCAATTAGAGCAGCATACCACATCTGATTTTTTACAAATTGTTCCCAATTTAATGCAGCATGATGAAGTAATATTATTTCACTTTCAATAGTTTTTCCAATTACGCCATGAATTGGTTCTCGTCCAAAATACGGTCTTAGTTTTTCTTTACCTTGAAAATGCCTAATTAATCTTTTCCAAAATGGGCCTCCAGGATTTGGAAAATAAAGGGATTGAACGGAACGTACTAAATAACTATTATAGGCAAACGTAGAAAATTTTTCAGGTCGGTCAGATCTATAATAATCAGTACTTTTCCACAACCAATAACGATGGAATTTATACATTCCTACACTTGAATCATTAATGTGTTCACGAATAGCATGAGCAAATCTAGGTTCAAATGTTTCGTCAGCGTCCATAAACAATATCCAATCAGCATCTTGTTTTTGTGCCATCCGCAAAAGAGAATTCATATCATTCCATTCAATACGTGATTTATTATCAGAATAGAAATTAGTATCAACAACACGATCACATGCGTCAATAATCTTTTTACTCTCTTGGGACACGTCACCTCCAACAAGAACAATTTCATCAACCATTTTAGATAAATTGTTCAAACTAGAATTTAATATCCATGAACAATCACCACCAACTTGCATACATCCAACTATTTTCATATAAACAAAACTCCTGAAGATTCATATATAATGTCTTGGAATTCTTACATAATAAATGAAGAAATATCTAATTGTTGGTGGTTCGGGTTTCTTAGGTTCGCATATCGTTAACACATTAATATCAAAACAAGCAAAGGTTTCTGTTTCAGATATAATAGGTCCACAATATGCAATAAAAATTAAAGAACACATGAATTCAATTAATTATATCTGGAAAAGTGCAGAAGATTTAAATGAAAATGATATTTCTAATATTGATTGTATATTATTTTTAGCAGCGCAAGCAGATGTTCCACTGGTTCTTTCATCGCCAAAATATTCATTTCATACAAATACAGCAGGATTAATTAACGCATTAGAATTAGTAAGGATAAAAAAGAATATTCGTTTGATTTACATGAGTAGTAAAAATGTCTATGGTAAAGCGAAGAATTTACCAATATCAGAAGAAGAGACACTTAGACCAACAGATCCATATGGTGCAGGTAAAGCAGCTGCAGATTTAATGTGTCAGAGTTATGCATCAGCATTTGATTTACCAATAACAATCATAAGAAGTAGCGGGTTGTTTGGTCCAAATTCAAGACTACAACAAGTTATACCCATATTCATTAAACAAGCACTATCAGATTCACCAATTACAATAGAAGGAGATGGCAGTCAATCAACTGACTTTAATTATGTACAGAATTTAGTTGATGCAATAATAACAATTTCAGAATCAAATATTAATGGCATATATAACATAGCATATGGAAAAGATTATTCAATAAAAAACATAGCAGATTTAATATTGGAAATAACAAATAGCAATTCACAAATAAAGAGTTTGCCATGGAGATCTGGTGAAAAAGGCATGAAATTGTCATTATCAATTGAAAAAGCGAAAAAAGATTTTGGATATTCTCCAACAGTATCATTTAAAACAGGTATAGAAAAAACAATAGAATGGGTGGCAAGTATCTAATGGTAATTAAGGTAATCAAAATAAAAGAATCGTTTATTGATAAAAGAGGAAAGATAACAAATATTCTAGAAAAACCAGTAACAAGTATTGTTATTATAACTTCAAAAAAGGGAGCAATAAGAGCAAATCATTATCATAAAAAAGATTCTCATTGGTCGTATATTATTAAAGGAAAAATGGAATACTATGAAGAAAGAAAGAGTGGAAAAGTAGAGAAAGCAATAGTAAAAGCGGAAGAGATGGTTTATAGTGCACCGGAAGTACCTCATGCAATGAAATTTTTAGAAAATTCAATATTTCTAGCAATGACAACTCAAAAACGACTTAAAGGCAAATATGATAAAGATACAATCCCATATGAAATAATATGACATTCGAAGATAAGAAAATTATTTTAACTGGAGCGTCTAGCGGAATTGGACTGGAGTTGCTAAGATATTTCATTAAACAGAAAGCTACAGTGTTTGCTTCATCAAGAAATGAAAGGGAATTAACTTCGAATGATAAGCAAAAATGTAATTTTGAATTATTAGATTTATCTAATACAGACAGTGTAGAGAGATACGTTAATAGTATCTTAAAGGAAGAAGAAAAAATAGATATTCTAATAAACAATGCAGGAGTTGCTCACAATTTATCTTTTATTGAAGAAATTAAATTTGATGAATTGAATACGGTGATAAAAGACAATCTAATGCCGACGTTCAACATGATAAAATATATAATGCCCGTAATGAAAAAAAATAATTCAGGCATAATAATTAATCTAGCATCAAGAGCGGGAAGAAGAGCAGTACCCAGGTTGTCTGCTTATAGTGCTGCGAAATTTGCAGTAAGAGGATTGACAGAAGCGGTTGCGAAAGAAATACAAAATACAGAAATCAAATGTATTTCTATTTCTCCAGCAGGAGTCAATACTGAAATGAGAGCAATGGTTTTCGGTAAAGAAGATGCAGAGAATCAGCAAACAACTTCGAGAATAACAGATATAATTACAAGAATATTGACAAATGAATTTGAAGTGCCAAATGGTTCAGATGTGATAATCATAAAGGACAAAGAACCAATAATCAAGGTGCCAGAAGTTTGAAATGTAGATCCTGTAAACAGGAAGAATTTGTAGATTTCATATCATTAAAGAAACAACCTCCTGCAAATGCGTTTTTGAGAAGAGAAGATTTCGACAAAGAATTACTATATCCACTTGATGTTACATGTTGCAAAAACTGTTTACTGGTACAATTGACTGAAAATAGTTATATTCCGAGAGACAAGTTATTTTTAGATTATGCATATGCCTCATCAATATCAGGTGGATTAAGAACACATTTTACAGATTTTGCAAAAAAGTTAAAGTCAGAATTCAATGCAAAAAAAATAGTAGATATTGGTTCAAATGATGGAGTATTGCTAAAACCATTATTTGAATTAGGTTTTGATGCAATAGGGGTAGAACCTGCAGTAAACTTAGCAAAACAAGCTAATGACAATGGTCTTACAACATTATGTACATATTTCGATAGAAAAATTGTTGATAAAATTATTTCAGATAAAGGTCAAGTAGATATAATAGTTGCATCAAATGTTTTTGCGCATTTAGATGAATATCATAATATCATTGAAAATGTAAAGTCACTATTAACAAAAGAAGGCGTATTTATTGTAGAAGTACAATATTTTTCAGATATGATTAAAGAAATGACATTCGATAACATATACCATGAACATGTATTATACTATACAATACATTCTTTGACGAATTTATTTAGTTATCATAATATGAATGTATACAAAATTGAGAAAATACCAACACATGGTGGATCAATTCGCGCATATATATCAAAATCAAATCAGGTAAAACATCATAGTGTAAATGATTTATTGCGTGAAGAAAAAGAAAATGGAATTGACAACATACAAACATTAGAGGAATTTAATAAAAAACTTCAAAACAATATCCAAGAAATTAGAGAACTATTTAGTGAGTTAAACAAAAAGAATAAACGAATTTTTGGTTATGGTGCACCTGCTAAATCGAGTACCATGATTAATTCAATTGGACTAGACAAGAATAATATAGAATTAATTATTGAAGATTCGCCACTCAAGCAAGGATTATACACACCTGGAAGTCACATCCCAATAAAAGAACCAGAAATACTACAAAATAATACTCCAGATTATCTAATGATTTTCGCGTGGAATTACGCAGATGAGATAATTAAAAAAGTCGAAGAGAAATATAACAAGATGAATTATATAATTCCAATGCCAGAACTAAGAATAATTGAAAATTAAAAAATATTTCAATAGAATAAAATTAACATTAAAAGAAATTAAATAAAAAAAAGAAATGGAGCGCGTAAACGCGCTACATTTATCTAGTTTTTGAGTAGATTTCCTCTAACGATGATTACTATTTGTAGTATCACTGCAATTGCTGCAAGAACTGCGGCAATTAGAGCCGTTGATGCTGCCTGAGATGAGCCTTGTGCGGCTGCATTAGCATTAGCTGAGATGTCATCAATAGCTGATACGATATCGTCTCCGTTTGCGTCGACGTTACCTTGAATTGCTGATTGACTACCAGATACTGCTGATTTCAAATCGGCAACTGCTGCATCTAATGCACTACTAATTTGAGCTAAGCTTACACCTTCAGGGATTTCTGTCCGTGGGATGTTGATTGGGAAGTTACCTTCTAATCGATTTACGTCATTACCGACGTTATCAAGGTCGCTTGCCACATTCGCAATAGCGTTTAGTATTGGCGCATTACTTTCCACCGCTGCTTGTGGTGGATGTGGTTGTGCACCAGCTGAGACTTGGAATGTTCCAATAGCTGAGCTAGAACCGGCATCTGTGAATGCACTCACAAGGACTGCATATGTGCCTATTCCACCAGCTACATTATATGAGCATCTTTGTAATCCAGTACTAACTTTTCCACATGTACTTAGTACATTTTCTGCACCATTAGGGGCCTTTACACTAGCAACAGATATTGTTGCATCGGTTAAGACTCCGTCTTCAGTGGTTAGTACATAGATTGAAACTGTATCACCAGCGTTGTATGTACCTTCTGATGTTACAGTAACGGCAAATCCTCCGCTCTCTTGACTTGCTGCAGGTTGACTTGGTGCTGCTGCTGTAGTTTCTGTAAGAGTTACAGTTAGTTCCGCTGAACCACTACCAGCTGTTGCTGTTACAGTGTAACTTCCAAATGGAAATGTAGTTGTTGCTACGCTTGGGAATCTCAATAGTGTTATTGAGAAATCACCGTTGTCGTCAGCTGCAACTTGTCCAACTGCGACTTGTGCGCCATTTGGATTTGTTACTTTGAATGTAAGATCCTCATTTGGACCAGCTGTTCCTGAAACAATTAACTGATCACCAGGATGGTATTCATCCTTGTCACTAGTAATTGTGACAGCAAAGGCTAGTGGAGTTACTGCAATGAGTAACAGCACTGACATCACTACTGCTAAAGCTACGTTCATTTTTCCCGTCTGGAAAAATAAGAGGGGGGAGGTCAACTTGTGTTGTCCTCTCCTATGCTATAGTGAAGGTTACGCTCTTCACGGGTGATAGAGCTTCTGCTTCACTTATGCTTGTCCATACGTAGACTTCTGCTGTGTATGTTCCTGCTGTGTCAGGCAACCAGGATAGACCTGGAGTCTGAGATTCGTCTGTTGAAAGTTCAATATCCCTGACCCAACCGAGGTTGATAATTTCACCAGCTGAATTCTTGATTTGTACCAAGAATGTTACTGTGTGAGCAACATCGTCATCGTTTGTGATACTTGCTTGGACGATTACGATATCTCCAACGCTTGGAGATGCGAATGCGTTGCCAGATGTATCAACGATTTCTGGGGTGCCTGCTGGGACTTGTTCAGTCTTCGACAATGCTTGACCTATCTTCTTTTCTACTGAGAGTGTACACTTCTTGTTGTTATCACAGAGAGTATCTGTGTACTTTATGGTGACTACGTCACCAATAGAAGCAGTGATTTGTGATGCTGAAGGTACGCCTTTAGTAGTGGCAATGAATTCTATCTTGCCATCGAAGACACTACTGTCTGCACTAGTTTCTTGCAAGGTTATAGTAGTTCCGATTTCCCAACTATCTGTGACTACTTTCACAGTGATCGATTGTTTCGTAGATGGACTTGTATTTGCATCAAGGTCATTTACGGTAACCGTCATGAAGTCGCCTATGAGATAGTTTGCCTTGTCAGTAGTAATTGCACCAGATTCTGTCGTAACAGTTAATGTGGCGGTTACTACTTCTAAGACTCCAGCTGAGTTTGCAGCGTCTGAGTAATGGAAGTATATTGTATCACTTGCATTGACATGAAGTGTTCCGTCTTCGTCTGTAGGTGTTCCTGTAGATCTGGCTATTGTAATGCCGAACCAGTATGTACCTGATGCGGTTGTTCCGTTGGAGGCGGTTGGTTTTTCAACATCGCTAGTTCCGTTGGATGTAGCCTGTGTCAACACGACACCGCTGGCTGCAGTTGTCATTAAGTCAGGATCAACAAGTTTTACATACAGAACATTGTCTGGACCAGTTTTATCTCCTGGAGTAACAGTCAATGTTGCAGTTGTACTTTGGATAGTGATTGCATGTGTTGCAGATGCTCGAGCTAAACCTGCTCCTGAATAGAAGCTGTTAGATGTTGCATTATCTCTGATACGTAGTCTGAGGTATTGGTTAGCAGTCAAGGTTGTGTCGAATGGCGATTTGCCTGGCTCTAACTTGATTGTCTTTGTAAATTCACCTGTGTTCACACCAGTTTCTGTAAGTGCAATGGTTAGGTTGTACTTTGCAGTATCAGTTTCTGAAGGTGCAGTTTGCTTTGCAGTACCAATCATTAGCATGTATAGTGTATCCTTGACTTCAGTGTCTCTGTTATAGTCAGCTTCAGTTGCTGTAACTACAAATGAGTCACCTAGTTTACCAGTAGTAATATCTGCTGTGATAGATGCGTCATGTCCCTTTATTTCAAGACACTTGGAAACACCTTTCTTTGCAGCATTACCTGATGTGGATCCTGGAGCACTATTTGCTGTTGTGATGTTAGAACTTGAAGCACCGTCTTCCCATTCGAAACATATGTCTCCGCCAACCATATCTTGCATCCTATCTAGGGTGAAGTATTGTTGTGTTGGTTTTGAATAGTTCAGTACCGTTGGGAAGTCGCCATTTGCGTTACCCCAATTGATTCCGAACTTCAATGTAAAGACACCTGTGTTTACACCAGTTTCTAATGCAGTTATGTTATACCAAGACATGTATCCCATTGCTCCTACACCAAGTGCTTGACCCATTACTGTACCGACGATTTCGCCTGTGCCGTTAAGTATACGCATACGTAATGTCGCGTTATCACGAGCATTTACGTTAATGTTCTTATCGACATCGGTCAAAGTCACTGTTGCATTAACACGAGATTGATTTCTTACCTTAGCTGTACTTGCATGGTCAACTGTAATCGGGAAGTCAGAACGATCAAACGACAATGCGCCGACTGTTCCGCCAATTGTAACCGTTACGTTAACAGTTGCAGTATCGAACAAGTCTTTCACTGTGAAGACTAATGAGTCTCCTGCGGCAAGACCTAATGTACCACTTGTCTTTCCTCTACCACCGTCTGAGTTGGTTCGTAGTGTAGCAAGTGTTACTACAGTCTCCCATATACCAGTGTTTACACCAGTTTCCATTACTAATGCTGAATGGTTTCGTATATCATGGTAACCGTTGGTTCCGTTGATAGACGTAATTGAGAAGTTTGCTATCTGCTTGTTATTACATGTACTACCTACAAAGATACCGTTACACGAACCGTCATTGGTTTGTGGATTAGGTTTCCTAGTAGAGTTGAACAAATACTGTTCTTTAGTAGCTGAAGCGTCATTAGCGTCTGGATCAGTGAACGTCAAAGTAATTGACGTAGCTGATTCGTCGTATGACGTCTTATCAGTTGTAAGTGTTGCAGCGGTTGTTGTTGCTGTAACAGTTGCTGCTGCTACTGTTCCTGCATATTTGTCATCATATTTAATATCAAATACAGCATTCTTCAATCCTTCAGGTCTTATTGTACACGTCAGTCTGTCAGCAGATGTGCTGTAACTACATCCTGATGTGGTTGTACCAATAGTTGTACGAATCGTGAAATCAAAGATACTTGAATTAACAGCTGATTCTGTCGCAGTGACAGTTACAGGTGAGCTATCATTGAGTTCAACGAAAACTCTTGTAATATCGTCTTTCACCAATGGATTATGATTCATATCTGCATCAGTAATTGTTACTGTTACATCAGATGAACTACTTACTGCAGTTGCAGATGTAGTCATTGTACCAGTCGTTTCTGTGATGGTCAATGTAACTGATGTTCCGTTGTAACAACCACCTTTTGTACTAGTACTTGAACCACCTTGTCCTCCACATGAGGTAGCGTTATAGATACCTTGTGTGTAGTTTCCAAAGGGTGTAAATGCTAACTTGAATGTATCACCATCCTTCCATCCAGAACTTCCTACATTATCAGATGTGTAGTTCCAAATAGCAGTCCTGTGTGTTAAAGCAGTAGATTGTACTCCTGTTGTATTATAACGCCAGTTCTCCATTTCTATACATGTGGAACTTGCAAGTGCAGGGGCTACATTGGTACATTCGAATATACCAGTATTAAGTCCTGTTTCTGTAAAGTTCAACCTGAATGATGTAGATTTATGACCTTCATGCGCTGCACCACCAAAGTAGTGTAGTGTCTTATTTACAAGGTTCTGAAGAGTAGCATTAGATGATGTTACTATTGAAGCAACTAAAGCAGAAGATGTATTACTTAAGTGTAAAACTTCTTTTTCTGTTGGATCTTGGTTACCATCAGACCAGTCTACAAATAGACTGAGTGTGGCACCAGGGGTTACCGTGGTTTGTTTTTCCTCGGTATTATAAATTGAGGCTTTTGTCTCTTTGTACTTTATTGTTGTACTAATATCTTTTGCAGCACCAGTACTATCGGCAGAATCTTTGTATGTAACTGTCATGGTATGACCTCGTGTCATATTAAGTCCTTGAATTATACCATCTCTGGTAAATGTCATAGCAGTTAATCCTGGATTAGCTACTGATCTTCCGTAGTATTTGTTTGCACCAGTTGTTGCAGTGGACATGTGAGTGTGTGAGTGATTACCGTAAGTCCTTGTGTTTGGTGCACCGTTTGATAAGTGATTGTTGTTAATGTATGCTTTCGCACAACCACCTTCTGCGATACCATTAGCACCAGCTCCCATCAAGGCCCATCCATTAGCTGATACAGTTGTAGCAGTAGCGGATCCACCGTGTGTTGCGTTTAGATAACCTGTTGCGTTCTTTATACCAAAGCCGGCTGCGTTTCCGCCACCGTGAAGAACGTTAGAGGCTGCCTGTCCGTATGCTTGACATGAATAACGTACCCAAAGTGAATTGGTTACATATGCAACCCATGTACCACCAGTGTTCTGAGTAACATTCAGTGAATACGTACTTGTAGCATTTGTCCATTCAAGAGCTACTGTTGGATTGTAAGTGTCCTTTAGTTCCTGAACACCAATATCTGGATCAGATATTGAAATTGAAACAGTAGCGTTTCCGAACATTTGTGCCTTGGATACTGTAATTGTGCCTGTTGAGGCTGCTTGTGCGTTGGGTGCGATTGGAATGCCTGCAAATAAAAGCAAGCTGGCAACTAACAAAAACGTCGCCGTAACCGCCTTCAATTGCGTAGAGTAAAGCCATTTAGAATTTAGATTATAGTTCATTCTATATACTCCTAAGCAAAATTGTTTGATTTTAACATATAAAGCTTATGGATAAATTATCCATCAGAGCAGGAATTGGAGAGAAACTTGAGTTAAGAGCCAATTATAAAGTTATTTAGACAAAAAGATAAAAAAACATTATGGATAAAATCATTTAAGCTGTAATCCGGTGAATAAAATAAAAAGAGCTAGAAAAACCATCCGAAAAGAAGAAAAATACTACTTGCAATGAATAAAATAAAAAGAGCTAGAAAAACCATCCGAAAAGAAGAAAAATACTACTTGCAATATAAATAATTCCCACTATAGAAAGTAAACGATTGTTCAATGTTAGACCAGGAAGTTTATATAAGTAAGGAGTCATTGAAATAAAACGGAAATATCCTGAAAAATATGAATAAGCTGGTTGAATAACAGATCCAAATACAATTAATGACAAACTAAAATAATCAATGTGTTTTTTATTATAAATAAAATAAATTGATAACAATAATGCAAAGAAAATTGACCAAGCAATAAATTCATTGATAAAATAATTTGCGCCAGTTATGACCGGAGTATTAATACCTCCAAAGAAACGATTTTGGAAAAATGTTTGAAAAGGAATTCCAAGCATACTATGTGGAAAACCGGAATCAACACCTGATGTAAATTTTAAAAAGTGATCAAAACCAAATCGATAAACAAGATGTAAACTGTGAACAAAAAGTGCGAAAGATGGAATTAAAAAATATGGAAGAAAGTTTCGATTTTTTGAAAATAAAAAGAATGGAAAAGAAAATATTACAAAATCAGGTCGAGTTAAAGAAGCAAATGCTAATAATATTGCGGACAATTTAAAATTATCAATTTTAAAATAATATAATGCACCAAACATAAATGCAAAAAATAATGGTTCATTCATGCCTCCATGTGTTGAAATAAGTAAAATTGGATTGAATGCATAAAAAAGTGTTGCAGATTTAGAATTATCTAAAGATACAACTTTAGAAAACATCACAACACTTACAGAAAAAGCAATGATATTAATTATTTCCATAGTTAATGCAGTAGCAAAAGGATTTCCTTGTGCAATAATGTATGTCAATAATGGATAAAGAAATGTTGCATGTCGAAAACCACTTTCTTCAGGAGAGGAAGAGAATGGATCAAGTGCAATATTATAATATGATGTGCCGTCAGTATTAGCTTTATCTGCAAAATGATGAACGTCGTAACCTAGAGCCATACCTAACAAAAAAAAGAGCAGATTAAAGGAAAAAATTACTAAAAATAATTTACGGTTATCTTTCAAATGATTGCTTAATGATTGAATAAGTTTGGTAGCCACATTTAATCATAGATAATATTATTATAACTATACTAATGTCTATTGAATTAGAGTGAAAAACGAATAAACTTTACAAAAAAAAGTAGAAATATATTAGTCGTGTGATACAACTACAGACAAAAAACTTTTACAATGATGTGAATTACACAAAAGTAAAGAGAATGAAAAAAAGAATTGAAAAATTAACTGCAATAGCTCCACATAGAATAAGTATATGTGGAGGTGGAACTGATTTTCCGTTATTTTATCAAGAATACGGAGGTGCAGTAATAAATTTTGCAATAACAAGATTTTCCGTTATTAAATTAACAAAATTAAAAAATACATTTGTAGTTAACGCAAAAGATGTAAATGAATATTACAAAGGAACTAAAGAAGAATTATTAAAAATAAAAAATCCTTCAATGGTATTATACACAATTCTACAAAAAGCAATTCCAGCAAAGATATCAGTTAAAAGTGATGTACCGCCCGGAAGTGGTCTTGGTTCATCAGGAACATTAGCAATTAATTTAGTTAATGCATTTCACCATTTAGATAATAAAAAGAATATATCGCCATTAGAACTTTCAAATAGAGCATTTAATTTAGAAGCAAATATTTTCAAAAAATCAGTTGGTAAACAAGATCATATGCCTGCAGCATTTGGAGGATTTAATTATATACAATATAAAAAGAACAAAACAATTGTAACACCATTCAAAAAAAGCATAACAAATCAATTAACTAATTTTTGTTTACTTTTTTATTTAGGATCTACAAGAGATGCAGATAAAATATTACGAAGACAAGAAAAACGATTGCAAAGTAAGTCAAGTGAAATGATTGATGTATTAAAAACTGTTAATATTTTAACAAGAAATATGAAAAAAGATTTAGATGATGGAAACTTTAAAGATGTTGGAAATGCATTAGAAATTGCTTGGGAATTGAAAAAAAAATTCACAAAAGGTATTACAAACAGATTTATTGATAAAGTACATGACATTACTATTGAATCAGGAGCTTATGGTGCAAAAGTCACAGGTGCAGGAGGAGGAGGTCATTTTTTGGTCATTTCTGATAAAAAATATCATAGAAAAATCGTAAAAAATCTTAAAAAAGTGGGATGTGAACGAATCTCATTCAATATATCTCAAGGAGCTAGTATAAAATATGGAAAATGAGGAATTCTTACAAGATTCAAAGAAGTCCATAGACAGTCTTATAGAAAACAACGATAAGATTTCAGAAATGATTAATGTGTTAGTTCGAGCAAGAATGACGAAGAAAAGTGTTTTTGTAATTGGAAATGGAGGAAGTTCATCAACAGCTTCACATTTTGTTTGTGATTTGTTAAAAACTTCTATTAATAATACACAACCGAGATTTAGAGCTCAGTGTTTAACAGATAATACACCAGTAATGACAGCATGGGCAAATGATGTTTCATATGACGATATATTTTCAGAACAGTTAAAAAATTTTGTAAAAGAAGGAGACATTTTGATAGCTATAAGTTGTAGTGGTAATTCTCCAAATATTTTAAAAGCAGTAGAAGACGCCAAAAGAAGAGAAATAAAAACAATAGGATTAACAGGTCAATCGGGTAAATTGGCAGAATTAGCAGATTTAGTTATACAAGTTCCTTCAAATAACATATTACTGATTGAGGGAATTCATTCAGTGTTGTTACATTATATAACAGAAGTATTAAGAGGATGAAATTACCCGCTTTATTTATTGATAGAGATGGTACAATTGTACGGCAAATAGACGGTAGCTATATTTCGTCGATTAATCAAATAGAATTAATTAAAACAATTTACCCGGTAATATCACTACTGCAAAATGAAGGATATGTGGTAATAATGGTAACAAATCAAGCAGGAATTAACAAAGGCATAGTAACTAGAAAACAAGTAGATGAAATTAATCAACATATAATTCAATCTCTAAAAAAATATGGAATAGAAATATTTGATGTGTATGTATGTCCGCATAAAATTGAGGAAAAATGTAAATGCAGAAAACCAGAACCAGGATTATTATTAAAAGCAGGAGAAGAACATGATCTTGATTTAGAGAATAGTGTAATTATTGGAAATAGTGACATGGATACAGAAGCAGGACGGCGAGCAGGATTAAAAAAAGTGATTAAGATATGAGTATAACTGTAATAACACCAGTACACGGAAAATATACAAAATATGCAAAAATGATTGAAGAAATTGGACAGAAACTAAATGAACAAACAATTAAACCACATGAATGGATTATAGTTTGCGATAAAAAATCTCAATGGTTAAAAAATTTAAAATTACCTTCATTCACTATCGTATTAGTTGCAGAAAAAAATAATATTTCTCTAAAAAGGAATTTAGCTTTAGATAATGCAAAAAGCGAATTTATATTTTTATTAGATTCTGATCAAATACCAGAGTCGAATGAATTATTATCAGAATGTATTAAAAAATGTTCTAATGATTTTGATTTAATTCGCATTCCAGAAAAATTTTCAAATACAGGAAATTATCTAAAAAGATGTTATCATCATTTAAGAGGATTGTATTGGACAAAAAATAATGAAGGAATACCAAGATTTGTTAGAAGTAATTTAGTAAAGGATTTACGTTTTGATCCGGAAATGTTACATTTTGAAGATAAATTATTTTTTGAAGAAATAAGAATAAAGAATAAAGAAGGGGTGACAGAAAATATGATAATTCATAACGAAGATTTTGAATTATATTCAAATTTACGAAAAGTAAGAATTGCACATAAACAAAGTAAGATTCATAAAATAAAACCATCTTTTAGATTAAACCCTTCTATAATAATAAAAGAAACACCTATTTCTTTACTTCCTGGAGTAGTTTTCATATTAGGATTAAGAACAATTGCAAAAAGAATATTACCAGTAGAATCAGGGACTTCAAGATAATCATTCTTATTAAATACAAAGATTTCAAAGAAGATAATAATGGAAGGAAAAACAGTAAAAGATTCGTCAATTATTTCATCACATTTAATGCTAATTCAAGACGCTGGAAACTTTCTTGTAAATGAAACTGGTATGTTCAGACCAATGGTGCATGGAGGAACGCTAATGACGTTGGTAGATGAAATAGCAGGAATGGTAGCAACTAAACATGCTAGAACACAAGTAGCAACAGCATGTATGGATATGCAATTCTTGTCACCTGCATTTGCTGGAAATAGATTAATCGTAAAGGCGTCAGTAAATTATACAACAAAAACATCAATGGAAATAGGCATACGTATCGAGGCGGAAGATATGAAAACAGGAATATCAACACATACAAATTCATGTTATCTCATAGCAGTAGCAATAGATAATGAAGGTAAACCTAAGCAAGTACCTACAATAATACCTGAAACTGATGAAGAAAAAAGGCGTTTTAAAGAAGCAAAAATTAGAAATGACGAAAGATTACAAAAAAGAAAAAATAAACCTATTGATTGATGATTTTACTGATTTTAGAAACATCAGCTGAAACCTCAGTTGGTTTTGCGACAAAATTGGTAATAACATCAGGATCCTTAAGTCCATGTCCAGTAGCAATACAAACAACTTCTTCGTCACTGGAGATAATTCCTTTTCGAAGTAATTTCTTCAATGCTGCGAGTGGAGAAGCGCTAGCTGGTTCAATAAACAAACCTTCAAGCTTAGCTAGATTCATTTGTCCTTCTAATATTTCTTTGTCAGAAACAGTTTCTGCAAGGCCATTAGAATCATATATTGCTCTTAATGCTTTTTTCCAGCTTGCAGGCGCACCAATTCGTATTGCAGTGGCCAATGTTTCTGGTTTTTCTATATTACGCACCTTCATTACGCCCTTTGAAAATGCTTCAGCGATAGGTGCTGAACCCTCAGCTTGAACGCCAATTAGTTTAGGAAATTTGTTTATAATTCCAAGTTGATAAAATTCATTTAATCCTTTCCATATTGAGCTAATATTTCCTGCATTACCGACAGGAACAATTATCCAATCAGGAATATGTCCTAATTGTTCGAATATCTCAAATAGAATTGTTTTCTGACCTTCAATTCTAAAAGGATTAATTGAATTAACTAAATAAATATTATCGGATTTATTTGATATTTCCATAACTACTTCAAGACATTGATCAAAATTACCGTCGATTTGAATAACCTTAGCACCGCAAATCATCGCTTGAGATAGTTTTCCATAAGCAACTTTTCCTGAGGGAATCAACACAATTCTTTTCAACCCTCCACGAGCTCCATAAGCTGCTAATGATGCAGAAGTATTTCCTGTAGAAGCACATATTATAGTTTTAGCACCAAGTTGCTTAGCTTTAGTAACTGAAACAGTCATACCACGATCTTTAAAAGATGCAGTAGGATTATCACCTTCATTTTTAATATACAATTTATCGATTCCAATAAAACTAGCTAACTTTTGTGAATGATGTAATCGTGTTCCTCCTTCATTCAGAGTAATCCTATCAGCATTAGAATCAATAGGAAGAAAATCCTTGTATTTCCATACAGATAATGGATGTCCTCGCCATTTTGGATTCAGGTTGTTTGCTATTTCATCTAGATCATATTGAACTTCAAGTAAATCATTACATTTAGTACAATTGAATATTATTTGATCAAGTTCGAATAATGAAGAACAATTAATGCATTTTAAATCCATTATTTTATCACGCGTGCACCTTTACCAATAGATGTAAAAATAATAGATGAATCATAACCTGCAGATTTAAATTGTTCTTTAAAACATTTTTTAATTCTATTAAATGATTTTTTATTTTCTAACAAAGAGATAACAGATGGACCTGCACCACTAATGGCAACACCTAATGCCCCTATTTTCAATAATTCAGTTTTAAGTAAGTTATAATTTGGTATAGTATGTGAACGAGCAGGTTCTACAATATTATCATTCATTGATTTACCTATTAGATATTTATCTCCAGTTGAAAATCCTGCAACCATCAGTGATGCATATGATACATTACTTATTGCGTCAGTAAATCGAACTTTTTCTGGAATTAGTTTTCTAGCTAAACCAGTTTTTTTTGCAGGAGTTTTTACTTTTGGAATGCCAATACATATAAACAAATTTTTTGGAGGTGGAAATGATACAATGTCTTGATGATTAGACGAGTTTATTACAACAAATCCGCCAAACAATGATCCTGCAACATTATCTGCATGACTTACACCAGCAGAAGCTATTTCACCACTTGCCGCAAATCTTAGTTTTTCTTTGTTATTTAATTTAAGAGAGAATAATTTATTTAATGCAATTGTAACAGCGGCAGCTGTAGCAGCACTACTACCAAGTCCTTTACCAGGAGGCACACCTTTTTTCACTGTGATGTCTACACCTGATAAATTAAATTCTTTAATTATATTTAGTGCTACAAGTCCTCCAGTATGATATTTTGGATTATTTGGAATTCCTGTTTTAAGTCCAAGGTTTTTGATTGTCACAGCAGAAGTATCATTTTCTGTAATTTTCACTATGTCGTGTAAATCATTTAATGCAATTGCAAAACAATCAAAACCAGAACCAAGATTGGCGCTAGATGCTGGCCCAATAGCAATAATACTCTTCTTTTTCTTCAATAAAAATTATTAATGTTTGAATAATATAATAACATATTCATATTTTATGCACAATATAACGAGGAAATTCAATATATTGAAGAAATTGTCAATATGTTTGAATAGGTAGATTAAGGAGAAATAGTGGATTGAGAACTATATTAATTGGATTAGGTATTATTGGCCAGAGTTATTGTCAATTATTAGATAATAGAAAAAAAGACCTATTATCAGATTATGGAATAGATTCTAAAATTGTTGCAGTTGCTGATTCAAAAGGCGTAGCAATAAATGAAAAAGGAATAGAGATTAGTGATATACTTGGCATAAAGAAAGCGAATAAATCGGTTTCAGAACTACCGATAGGTGATAAAAATAAAACATCAATTGATTTGATTAAAGAGATTGATGCAGAACTGTTAGTTGATGCAACGCCAACGAACATAGAGCACGGTGAACCATCAGCTAGTCTATTAGACAATGCTATGAAAACGAAAAAGAACATAATTACAGCAAATAAAGGACCGTTAGCACTTGCTTTTTCATCATTAGTAGAAAAAGCAGATTATAATAATATTATTTTGAAATATAGTGCGACAGTAGGTGGAGGAACTCCAGTTTTAGAATTTGGAAGAAAATGTTTAGAAGCAGACAGAATATTAGAGATACAAGCAATATTAAATGGAACAACAAACTATATACTAACTGAAATGGATAATAGAGGATTAAGTTTTGACAAGGCTTTAAAGGAAGCACAGGAATTAGGTTTTGCAGAAGCTGATCCAACTTTAGATGTCGATGGCTTCGATGCAGCTGCAAAATTAGTCATAATGGGAAACTTATTATTGAATAGAGAATTAGTGTTGAGTGATCTGAAGATTAACGGTATAAGAGATATCACACAAAAAGATATTACTAAAGCAAAAGATAATGGGAATACTATAAAATTAATTGCAAGTATAAATAATGTGGCTGAAGTAAAACCAATATCAATATCAAAAAATGATCCGATGTCAGTAGCTGGAGCTTTGTGTTCAGTGAAATTCACTTCGGAATTTGCAGGTGAAGAAATTATTATTGGTAAAGGAGCAGGAGGAATGGAGACAGCAAGTGCAATGATTAGAGACTTGGTAGAAATTAAGCAAAATATGAGGGTTTAAGATGAAAATAGTAATAAAATTTGGGGGAACGTCTGTTGGAGATGGAAAGAAAATCATTAACGTATGTAATATTGTGAATAAATTAACGAAAGATAATCAGGTTATAGTTGTGTCCTCTGCATTACAATCGACAACAGATCAACTATTTGATTTAGCACAAAGTGCAAAAAAAGGAGAAATTAATACAGAATTAATTGATGACATAACAAATAGGCATGAAAATGCAATAAAATTTGTTATAAAGAATAAAGAAATTCAAATGGAAGTTCTTAAATTAACAGTGGAATTAATTGAAGATTTAAAAAAAACAATTGATGGAATAATAACGATAAATGAATTAAGTAATAAAACACTTGATTATATACTGTCATTTGGAGAGAGATTAGCAGTACCAATAATCTCAGCAAAACTTAGAGATATAGGATTAAAATCCAAACATTTCACAGGAGGTGAAATTGGAATTGTAACTGATGAAAATTTTGGGAATGCGTCACCGTTAATGAAAGTTACTCAACATAATGTAAAGAATAATTTATCTAATATTGATGAAGAAATAATACCGGTTGTTACAGGGTTTCTTGGAGTAACACAACAAGGACAGATATCAACAATAGGAAGAGGTGGATCAGATTTCAGTGCGACATTAATTGGAATGTGTTTAAATGTAGATGAAATATGGATTATGACAGATGTAGATGGATTGCTAACTGCAAATCCAAAGATGTATCCAAATGCCAAGACTATTCCTCAATTGTCATATGAGGAAGCGTCAGAAATGGCAGTAATGGGAGCAAAGGGAATGCATCCAAGAGCATTGGAACCCGCAAAAATAGCTAAGATTCCAGTAATAATAAAAAATACATTTAGGCCAGAAGTAGAAGGTACTAGAATTAGTAAGGAGGCAATAGTAAAACCAAATGAGATTACAAAGGCAATAACATCACTAAATGGATTAGCAATGTTAACAGTATCAGGTTTGAACATGGTTGGTAACCCGGGTACTGCAGGAGAGATGTTTAACATGTTAGGTAGAAATAATATAAACATAGTAATGATTTCACAGAGTATTTCTGAAGCAAATATAACATTTCTAATTAAACATGAGGATTTAAGAAAGGCACTCAGCGTGTTGCAAGTAAGTCTTCTAGGAAAGAGTGCAGTAACAGACATAACGTCAGATGATGAAGTATCTGTAATATCCATTGTTGGGGCAGGAATGAAAGGAACGCATGGGGTTGCTGCAAGGTTGTTTGGCGCAATTGCGAGAGGAAATATGAACGTAAAGATGATTGCTCAAGGCTCATCTGAACAAAACATATCTTTTGTAGTAGATGAATCTAATTCGAAAAACGCTATTAAAGTAATTCATAAAGAGTTTAAAATGGACTAAATATTCACAAAAACAATACTTTTAAGTTTCTTACCAATATTTGAAAATAAGAATGTATAAAGTAATTATTATAGGTGCAACAGGAATAGTTGGACAACAATTTATTTCAGCATTACAGAAACATCCATGGTTTGAGATTACATGTTTAGCAGCGTCAAAGAATTCTGCAGGTAAGAAATACATTGATGCAATAAAGAACGAAAATGGTTCAATTCAATGGTTTGGAAAAGAACAATTGAATGACAATATAAGCGAAATGATAGTGAAAAATGGTGATGAAATAAATCCGTTAGATTTCGATATAGCCTATTCTGCTTTAGAAACTAGGGCGGCAAGTATAATTGAACCAAAGTTTGCAAAACATATTCCAGTTTTGAGTACAGCGTCAGCTTTTAGATATGAAAAAGATGTACCAATATTAATCCCTGCAGTAAATGATAATCATGTATCACTTTTAGAAAAACAAAAGGAACGAGGATGGAATGGATTCATAGCGCCGCAAGCAAATTGTACAGCAACAGGCTTAGCAATTACATTAAAACCTATTTTAGATAAGTTTGGAATAGATTCAGTAATTATGACATCCTTACAAGCAGTATCAGGAGCAGGACGTAGTCCAGGGGTTCCTGTTTTTGATTTAGTAGACAATATAATTCCATACATTCCAGAAGAGGAAGAAAAAGTAACAAGAGAAATAAAAAAAATATTGGGTAATAATAATGGACAAGAAATAAAAAACGTAGATTTCAATGTTTCAGCAACATGTACAAGAGTAAATGTATTAGATGGTCATACAGAATCAGTATTAGTAAATACGTCGAATAAAGCTGAAGTAGAAGAAATAATAGAAGTAATGGAAAAATTTGCTAATTCAATTTCAGAAAATAATCTTCCATCAGCACCAAGAAAATTAATTACAATACATAAAGATCCATTTAGACCGCAACCACGATTAGATAGGGAATTAGAAGGTGGCATGACAACGTCAGTTGGGAGAATCAGAAAGGATGAGGCATTTTCAAATGGAATAAAATATGTTCTAGTTTCTCATAATACACGCATGGGAGCAGCGAAAGGAGTAGTACTTACAAGTGAAATGCTTGTAAAAGAGAAAATAATCAAGAATTAATTTTTTATAACTTTTTAAATTGTTATTAATATATTTTATAATATTAGAAGGAATTTGAGAAAAATTGGAGAAATTTGATGAAATAGATATAAAGATTTTATCTAGATTAATTCAAGAATCTAATATATCAATCCCAAAATTAAGTGAAAAAATTGATGTTAATTCTTCAGTAGTTTATAGTAGAATAAAAAGACTGGTAAAAAAAGGATTTATAAAAAAATATACACTGGAGATTGATGAAAATTTATTAGGTTATCCAATTAGAGCAATAATTGGATGTAATATTAATTCAAGACAAAGAGAAAACATTTTAAAAAATATATCAGAAATTCAAGCAACAAGAGAAATTGTAGAAATTACTGGAAGATTTGATTTACTAGTTTGGTTGAATGTGCAATCATTAAATGATTTACATGACTTAGTATCTCAAAAAATATCACAAATAGATGGATTAACTCATACTGAAATATTTATTGAGATGAAGAGGGAAAAAATACCTTTTATTTCAAAAATAAAACCAGAAATAAACGGTGAAAAATAATAATTGGATATATTACAAAGGTTTAAGGACGAAAGTATTAAAGAAAAAATTCCAAAGAAAATAATTAAAGAAATATCTAGAAAAATAAAATTTGTTGAGCAAGGAGTTAATAGAATAGAAGAATCATCAAAAATAAAATTTCCAGATTATTACGTAGAACCATATCTGCCAGTTTCTTCTACAAGTTTAGAGAAAGGAAATATAGGAGCTTTATTTGCAAGAACTATACCGATTCAAACGAATAGTGGAGTTAAAATAATAGTTCAATTATCTGCACCGCTAGTAGCATTCGGACTAAAAGGTACACTTCAAGCAATACTTGCACACGAATTTCTTCATTATATAGAATTTGTACGAAAATTTAAAAAAATGGATATAATTTCAGATGAAATTGCAAATACATTATTTGAAGCGCAATTTGCAGACGCAGATAGAATTTTTAAGCCTAAGTTAATATTTAGAGATGGAAAAAAATCACCGCAAATAATACGACATTTAAAAGAAAAATTTCATGATCATTCAGTTGACGAAAAATTAAATAAAAAAACTAATGAACAATGGATAAAAAAAGGATTGCCTGTTGTACGTGTTAGTCCAACCAGTAATATAACTAGAATTCCAATTGAAGTAATAATGAGAACAAGATTTGATCCACTAATTGAACAAAGAATTAAAGAGTTAGAGGAAAGTGCAAAAAAACGTAAAAAATACAATTAATGAAAAAGAAAAAAGGATTATTCTGAAAATCCTTAAGAAATCAACAAAAAAACTAGATGTTGAAGCAATTTGTGTCTATGGATCAAGAATATCTGGATATGCAAAAGAAAAAAGTGATTATGATTTAATTGTTGTAATTAATAACTATAAAGAAAAAATAAGATACAAATATATTTTTAATAAGATCGATATTTCTGCAATTTTTGTAGATAAAAATGAAATAATAACAGATGCAAATAATGCTTCAATGGGAGAATTTGTAATTGGTAGATTAATTAATCCGTATCAATCATTATTAAATGAGACATTCTTTAAGAATATAGAAATTGAATATAAAAAAAGAATAATTAAAGAATCAATAGAAAAGCTTCAAAACACATATAGAAGTTTAGTAATATATTTGAAAATCCCTATAGAATTTTTTCTATTCGAAAAACTTAATCTAAGAATGAGAACATATCCACCTGTGAAATATAGCTATATCATGACATACGGAATTAAGGACAATAATATGGAAAAAAGTTTGAAAGGTTTTAAAGTTGCAATAAAAAAATTGCATGATGAAAATATAAATTATGATAATGGAATAATACGAATTAAAATTAATAAAAAAATTAATAATAACCTAAGATTAAATTTCAGAGTAATAAAACGAATATTAATTCATTATTATATTCATATGCGAGCAGGAAGAGTAAAAATTAACATAGTAATAAAAGAATTATTTTCAAAAATCAATCGTAATAAAGAAATGGAAAAAATACCAGAACGTCTTGCAAATCCTAGATGTCTACTAGAAGTTAGTTAGAAGCTAAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAATTTTTTTAGATTGTTTAAAATCAGCGTAACCGCATTTGCCACAAGATAATCGATCAAAATGTTCTGCAAGGAAATTACCTTTTCCACAACGAGGACATTCTTTACGCAATCTAGTAAGTTTTGTATCTTTTACTTCATAGAATTTGAATATTTGAGGGCTAAATCTTGGTTTTCGTTTTTTACGTTTTTCTCTAGTTTTTACAACAGGTTGTTCAGCAGGTACATCTCCATCAACTTCTTCAACTTCTTCAGTTTTTTTCTCTTCTTCTATCAGAATAAATCACCTAATTATTTTTTATTTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCTTCTTTAGCTGGAGCT
>sequence09
GTGTTTCTGCAGGTGTTTCTGCAGGTGTTTCTGCAGGTGTTTCTGCAGGTGTTTCTGCAGGTGTTTCTGCAGGTGTTTCTGCAGGTGTTTCTGCAGGTGTTTCTGCAGTTTCAGATTTAATATGTTTAAACTCAGGATGATATTTGTCAGGCAAAGCAACAAATACCTTAATTCCAACTAATCCAACGTTTAATAATGATTCACAGGATGCAAAGTCAACAGATTGAGATGCAGTAAATCCTGCCTTAGGAACAACTCCTGCTTTAAATTTTTCAAAATTAGCTCGATCACTACGCATTTTACCAGCAACTTGTATTTCTACACCACGTGCTCCGGCATTCATAATCATTCTCATTGTCCAATTAGCTGCACGTCGAATAGGTTGACCACGATTAATTGAAGAAGCTAAACGACTAGCCATAATTCTTGCGTCAAGTTCAGGAAATTTAACTTCGGTAACTGAGATTTGTGGATTTATTAAATGAAACTGCGTTTCTAATGTTTCAGTAAGAGAACGAATGCCAGAACCTCTTCGTCCTATTACAAGACCAGGTTTATTTACAAATATATTTAATGTAGTGCCAACAGGAGTTTTTACAATATCAACTGAAGAAAAACCAGAATCTGCTAATTCAGATTTTAGAAAATCTTCTAATGCAGTTAGATTAATATTTTTTTCTAGTACTTTTTTTATCATAGATATTTGCGATTTTTCCATAAATTTATCAACCTGCAATTATTTCTACATGAACTAATTCGTGGTTTCTAGCCGAACTTCTCCCCATTGCACGAGGTATGTAACCAGGAATAGTCCTTGCACGATGTGTAGCAGCATGTATAATACGAATGTTAGATGTATCCAAGCCTTTAAAATCAGCATTATATTCAACTTCGTTTAAAATTAAAGATATTTGTTTAGCTACTTTAACAGGATATCTTCCTGCATGAAATTTTTCAGTAGAACGTTTATGTGCTACTTCTTTTTTGTGTCGTCGAAAATGTATAGGACGATTAAGATTAATTACAAAGTCGAGTAAATCAATAGCATCAGTCAATTTTTTACCTTTAATAGTTTTACAAACTTCACGAGAAGCCTTAGGACTCATGTTAATTTCTCTTCCAGATGCACGAACATGAACAACTGGATCATAATCTTTGAAACTATAAGCAAACTCCGGCATTTTTTAATTATACACCTCAACCATACAATTTAGAAATCTATTAAAAATATAAGTTTCTTTCACTTTCAAAAACCTATTTCAATGGTACGTAGAGACTAGATTTGGAAGATCCAATCCCAGGTGTTCCATGTTGTACTTTTTTATTAGTAATAGCATATTCACCAAGATAATGACCAATCATTGATGGTTTGATTTCGACAGGAACAAATTCTTTTCCTGTATATGTATGAATAGTCAATCCCAACATCTTTGGTAATAAAATAAGATCTCTAGAATGTGTACGGATAGGTTTCGAAGAAGAATTATTTTTAATATCATCAACTTGGTCTAAAATTTTCTTTTTAGTATCAGATAAACCACGAGTTATTGAGCGTCTTTGACGAGATGGTACGAGTTTCAAAAATTCTTCAAGAGACATACTTTGTAAATCCTGCATTGAATAACCTCTATATTTAAATTCTTTAGCCATAGCTTATACCACTGAAATCCTAGATCTTCGTTTAGCACGGCCTGGTCCAGTTTTACTAGCAGCAATTGAACCAACTTTACGTCCAGGTGGTGCATTTCTAGAAGTTGAAGTACTTTGATGAGGACTCTGATGTCTGCCACCGCCAAATGGATGATAATGAGCTCCCATTGCTACACCGCGGACTCTAGGATGAAGAATCCCATATGCTTTTGCATAACGTGCTTTATTACCAGCTTTTAAAAAAGGTTTTTCTTTAACGCCTGTAGAAGCCAGTGAACCAATAGTGGCCCGGCAATTTTTTTGAAGAACAATACTTTTTCCTGAGCGTAATCGAACAATGGAACCAGCAGATGTTTTACTATATAATAATGCAGATGTACCAGCACTTTTTGCAATTTTTCCACCGTCACCGTGTGTTCTTTCAATATTACAAATAGATGTTCCCTCAGGAATATCATTTAAAGGAAGTATATTTCCAATTTCTACAATAGATTCAGAACCAATAGAAACTTTTTGATTTACTTTAAGTCCATTTACAGCAGGAATATAATAGATTTTGTCATTGAACGATATTTTAGCAAGAGGTACAGCACGGCCTTTTTCATGCAATAAGTCCTTAACTATACCAAGAGTAGTATTACTAGAATCAATAAAAGGGTATAAAGCTGGGGCAATTTTGCCCTTATTATGACTTCGATACCTCATACCTCCATAGCCTCGTCGTTGAGAAAGAATTCTTTTACCCATAATCACATTACGCCTAATTTTGTAGCAAGATCAAGGGCAGCACTACTTTCGTCAAAAGTGACAAAAGCTTTCTTCCCTTTAATAGTCTGAGCTGTATTAATTGATTTCACTTTTACCTCGTATAGAATACTAAGAGCTTGTTTTATAGTTTGTTTAGTAGCATCATCTTTTACAAGAAAAACTAATTTATTTTCCCGTTCTATGCTATCAAAGGTATTTTCTGTAACGTATGGTCGAAGAATTATTGAGGCGGCCTGATCAGGACGCATTTATCTCCACCACTTTATTAACATTATTAGAAAAATTTGAAAAAGAATTTTTAGTCCAGACAATAAGTCTACCTGCTTCATTTCCAGGTGCGACATCAGCAACAGTAAGATTATTTGCTTCAACTAAATCAACTCCAAGTAGATTTTGACAAGCATTTTTAATTCCAAAGTCTTGAGAATAAACAATAAGAGGGCCTTTCTTGACTTTTTTCGATCTTCCCCGTAATCTTGGCTTACCGGAGCGAAGTCGTACATTTGAAAGTCGATTCAATTCGTCATTAAGACCTAAATTAATCAGAGTAAGTTTAATATCTTTAGTTCGATTAATAGATTCTATATCATCAACTACAATTAGCGGGAAATGAGATAAATTATCAATTTTATGACCGCGATTTATAACAAGTTCTTTATTCATAGAAGCTGAAATAGCAGACACAAGAGCGGCTGTTTTTTCTTTTTTATTTAATTTTTTATATATATTCTTAGAACTAACTGGGGGATGTGCAGTACGTCCTCCAGTAACACCACCAACTCCAGCAGCACTACCAGCTCTTGGGCCAGAATGAGATTTTATACGACCAATTCTAGAAATGCCTCTTCCAGTGTTCCAAGATTCGGTACTGCCTCTTTCACCAGCAAGTGGATCAGAACCATTTGGAGTTAGACTATGTGATTGAATAGCAAGAACTGATCGCTTTATCAATCTAGGATTATATGGAGTAGAAAAAATCTTAGGAAGTTCGATTTTTTCAACTTCATTTCCATCTAAATCATAAACCGATAACATCATTCAAATTCGCCTTGTTGAGTACTTATTTGCAGAATCTTAGGAACACTTAATTTTGCACTAGTTGGTCTCATTGGATATCTAAGTGTAACGGGTCTTTTCACGGGACCAGGTAAAGATCCTTTGATTATAATATAGTCACCAGGTATTAATCCAAAGTGTGTAAAGCCGCCATTTGGATTAATACTATGCTCTTTTTCATTTGATATAAGAAGAACTTTCTTATTATATTCTGTTCGTTGGTGAAATCCCATTTGACCAGCGCGAGGAACTGTATACATAATATTTGCTGGGCTCCATGCGCCAACAGTGCCAACTTCTCGAACAGTTTTTCGAGATTTATGTTGTTTCTTTTTTATACCAAATCTTTTTACAGGTCCTTGCCAACCTTTACCTTTTGTAACACCAAGAATATCAATTAGCATTCCTGGTTTTATAATATCAGAAATATTTATCGTATTGCCTAAAATGTTCTTAAGATATTCAAATTGAGCATCAATTGTTCCGCCACCAATATCAATTTCAAAAGAATATGGTTTAATTTGAGATAAACCTGCTTGCTTAGGAGGAACAGAAATAATAGCACTAAGTTTATGAATTGATTCAAGATTATCCTGAATTTTTTTTATATTAGAATCAGTATCAGAATGGAATTTCTGTTTTCTTAATAATTCTTTAGGAAGTTTATCAGCATATGCCTCACTAAAAACACAAAGTCCGTCAATGGTATTTTGATAAGCCCTGAGACCAACAACAGTAATAGGCGCGCATGATAATACAGTAGAATGATTAAAAATTGTTTTGCCAAAAGTGGGAGAGTTATCATAGCTATCAACAGTCATAACATGAAGAGAGCCGACTTTGAATCCCATAAAACCAAGTAGCTTGGGTTCATCTAATTTAATACTAGGCCAATTCCGAATTCTTGCATGTAGAGTACCATGTCTACCCCTTGGTCGAAATGCCAAAGAACCTCGTCTTGGAGATGAATGTTTTCTACCCAAACTATTACACTTTGATTAAGATAAAACAACCTCGAGTTAATTTTTAAGTATTATGATATTAAATTTTATTATCTAGATTTATCAAATTAATTTCCAGACATAATGTCCAGAATAACCACCAACTCGAGTAATCAAGTTTTTTGATTCAAGATCGAAAAGGAATTTATTAGCAATAGATGCATTAATATTCAAGATTCTAGAGGTTTCGTAAATAGTAATAGCTTGTGTGCTGCCAAAAACCTGTTTAAGGTTACTCTCGTCTACATCAGGAAGAAATACCCCATGTCCAAGGTCGTCATTCAAGTTCTTTTTTGAATTTTTTTCAGATTTAGTTCCTTTTCCTGTTTCAGACATACATAGTATCAAAAAATATAATAAGATAAACTTTACCAAGAAATTGAAAAAGACTAAATTAATAATATTTGGCATGTATTGAGAATATATGGAATACAGTATAGTTGCACAAGCTTATGATAATATGGAAAAAACTCGAAAAAGACTAGAACTTTTAGAGATTTTATCGGAATTATTCACAAAAACTCCAATTAATGTAATCGAAAAAATAGTATACTTGACTCAAGGTAAAATAAAGCCAGATTTTTATGGTGTAGAGCTTGGCATGTCTGATAAATTAGTAATTAAATCATTAGAAAAAACAACTGCTATGTCGAAAAAAAAGATAGAAGAACAATATAATAAAACTGGAGATTTAGGGGAAGTAACAAGAATTACTTTATCAGAGAAAGTGCAAACAACTCTTGTAAATCATAAGTTAACAGTAGAGAGAGTGTACAAAACATTTGAAGAAATTTCTAATACAACTGGTCAAGGTTCAATAGAAATGAAAGTTGCTCATTTATCAGGATTGTTATCTGATTGTACACCACTAGAAGGAAAATACATTGTAAGAACGCTTACAGGAATACTAAGATTGGGAATTGCAGACTACACTGTATTAGATGCATTAGCAGTTACATTTACAGGCAATAAAACAAATAGAAAACATTTAGAAAGAACATACAATATATCAGGTGACTTAGGTAAAGTTGCAAGTGTTGTTGCAAACAAAGGATTAGATGCATTACGAGAAATTAATATTGTAGTTGGAAATCCTATAAGACCAATGCTTGCAGAAAGATTAAGTTCAGCAGAAGAAGTTATGGAGAAAATTGGAGAAAATGTGAGTCTCGAATATAAATTAGATGGAGAAAGATTACAAATCCATAGTAAGAAAGAATGTATAAAGATTTTTTCAAGAAGACTAGAAGACATAACAAATCATTATCCGGATGTTTTGAAAATAATTAATGAAATAGATGTAGAAAATATAATAGTAGAAGCAGAAGTAGTTGCAATAGATAAAGAAAAAGGCTCATTCTTACCCTTTCAAGAACTTATGCATAGAAGAAGAAAACATAAAATCGAAGAAGCAGTAATAAACTATCCAGTATCGATTAATTTATTTGATATAATATATTTGAATAATGAAGACTTGACAAATATGAGTTATAAAGAGAGAAGAAATATATTAAGAGATATAGCAAGTAAAAATAACCAATTAAATATAGTTAAACAGAAAATAGCTAAAAGCTCCGAAGAAATAGATAATTTTCTTGAACAAGCAATTGAAGAGGGTTGTGAAGGATTAGTAATAAAAGACTTAAAAGGAGTTTATCGAGCAGGAGCAAGAGAATATCTTTGGATCAAATTAAAAAAAGAATACAAATCAGAAATGTCAGATACATTAGATTTAGTGATAATAGGAGCATTATATGGAAGAGGTAAACGAGCTAATACATATGGAGCATTACTTTTAGCAGCATATGATAAAAAATACGACGTATTCAGAAGTTTTTGTAAAGTAGGAACAGGATTTTCTGATGAAAATTTAAAAATAATCTATGAAAAACTTCAGAATAGTAAAATAAAAAACAAACATGCTACAGTAGACTCTAAAATGGAAGTTGATGTTTGGTTTAAACCAAATTTAGTATTGGAAATTAGTGGTTCAGAAATAACAATAAGTCCTATTCATACGTCAAATATAAACGAAATTAGAAAAAATTTCGGGTTTGCATTAAGATTTCCAATATTCACTGGAAGAATCAGAGAGGAGAAAATGCCTCAAGATATAACAACAACCGTAGAAATTAGAAATGAATATGAAAAACAGCTAAAAAGAGTAAAAAAGTAAATTATTCTGTAAATTAATGTTTTTTAAGATGTATGACATTAAACAGTACTATGTTTTCTGTAGATTCTGAAGATAAAGCAAGAGGAAAAACTTATGGTGATTTACTTGATGAATCAAGAAAGGTATTATCTTCTTCGAGAGAATTATCAAATGTATTTAAATCAGTAATTGATAACGATGTAAAACAAGTTGATGCTACAATTAAAAAAATAGGAGAAGCTGAAGATGAAGTTGAAGGTTTTAGAAGATCGCTAACTAGAGAATTAAGGGAAGTAGGAAATTTATTAATAAAGAGAGAGGAATTGTTAGAAACAGGTCAACAAATAGAAGAAATTGCAGGTTACATAAGCGGAGTTGCATTTAGATTATCAATTATTGATTATAAATCAGTAAAGAAAGCAAACGTAAAAAAACTATTTGAAGAATTACTAGACATGATTATTGATTTAGTATACAGATTAAACGAAATGGTAAGATCACTTTCTAATAATCCAAGTCATGTAGATGAAGTTGGAGAAGAAATGCAACAAATAGAAAGAAAAATTGATCTAAAATATAGAAACCTTGTTAAAATTATTATAAAAGAGGTAACTGGAGTAAAAGAAATGATATTACTAAAAGATGCAGCAGAACACATAGAAGAAATGGCTGATAGATGTTTACAAGCTTCAGATTCAATAAAAATCATTGCAATAGGATTATAATATGGCAACTAAGGTCTTCAGAGGAGAATTAGTAGAAAATAGAATAGTAATTTGGAATATAAAATCATCTAAGCAGATATTTGGAACTGGATATTTTGGGAAACCACTAGGTGTACAAAAACCAAAAGGGACTGACTTTGATGCGCCATTAATACTTGATTTAATCGAAGGTTATTACCTAGTATTAGAAAATAAATTATCAATTTATGACACAGTTTCTAGGAAACGAGTTTCAAAAAAGAAATTAATAGAGAAATGTGAAAATGAATACATATTATTCAAAGAGAAATTCATGGTATACAAAGAGCTGAGAGCAATGGGATACGTTGTTACACCTGGAATAAAATTTGGAAGTGACTTTGCTGTATATGAACATGGGCCAGGAATTGATCATGCACCTTATATTATTCAAGTTGTGTTACCGGAATCAAATATTACTTCAACAGGAATTGTATTAGCAGGACGTTTAGCAACGACCGTAAAAAAGAAATTTATAATTGCCGTAGTAGATGAAAGTAAGAATGAAGTAGAATTTTTAGCTTTTGACTGGTGGAGAGCTTAAACTAATCTTTATATCATAATAAATATCGAAAGATACATGAAAGATAATCTTGTTGAAGAAAATGATTTTGTGTTATTCTATTTATCGCCAAAAAAGAAATGGTTAGTTCAAGTTGTTATGGAAAAACAAATACACACACATGCAGGATTTATTGAACCTAAAGATGTAATTGGAAAAGAATACGGTCAGAAAATTTTAACTAATACTAATAAAGAAATTTATTTATTATATCCAAAATTAAACGATTTTATTCTTAAATCAAAACGTGCGACACAAATTTTATATCCAAAAGATATGTCAATAATCGTAGGTTGGACTAACTTGTGCTCAGGAAAAAATGTAATTGAAGCTGGAACAGGCAGTGGATCTCTAAGTTGTTTTATAGCGAATTTAATTCGTCCAAGTGGACATTTATATTCATACGATAATAGAGAAGAATCCTACCGGATTGCAAAGAAAAATATCGACAAAGCAGGATTAACGCAATATATAACATTAATCAATAAAGATGTAAAATTGGGAATCGAAGAAAAAAACATGGATGTGGCAATATTAGATTTAGGGGATCCATGGACATTAATTGAGGCTATGAAAAATAGTCTCAAACCAGGAGGTTCATTAGCATCAGTATCACCTACAATTAATCAAGTTGAAAAAGTTGTAATTGAATTACAGAAACAAGGATTTATAGAGATAGAAACATTGGAAATTCTAATGAGAGAAATGGAAGTAAGAGAAGGAAAAACAAGGCCTTCAATGAGAATGATTGGGCATACCACATATCTAACATTTGCAAGGAAAAGTTTAGATATAGTAAAAGTTTGAGTTCTAAGGAGAGAAGAGAATGAAAGCTGATTTAGTAGAAGATATATCGTTTTTCCTGTATTTAATACCAGTTACTGTGTATCTTGTTTATACTGTATATAATTTGACTATATTGAACATTACATATGTAGACAATTATTTATCAGTCGCAAGAAATCCAATTTGGTTTGTCTTATCATTATTGGCAATTAGCATCTCATTCATTTTTCAAATACAATCAGTTAACAAAGATGAAAGACAAAAAATATTATCTATTCATTCAAAAAGAATGAGAATGATTGGAATAGTAATCATAGTATTGTCATTGGCAGAAGCAATATTAGTATCAGATGTACAAACTAATCCAACAGGTTTATTCTTAACAGCAAGATTTCCAATATTATTTACATCTATAATGTTTCTACAATCAGCATTCATACAAATTCCTTTTTCATTACAAACAAAAGAAAAATTTACAAGGAATTCATTATCTTCAATATTAATTATAGCAGGACCTATAACATATTACATAGGTGATATGTTAAATTTACCATTTTTAATTAGTCTGTCTATAGCATTAATGCTAGTTATATTCGGTATAATATTATTTAGTAGAAACTAGAACAGAATATTATAAAGTTCTTCTAAGTTTTTCACTGTGTATTTTGGTTTATCTGAATCATTAATCGAAGAAAAATCAACATTATTATCATTAGTTGTTAAGACACTAGTTATACCAAATGAGTTTGCGCCTCTTATGTCAGAAAGAATATTATCACCAATCATAACCGCATGATCAGCAGGAACGCATAAATCAGATAATACTTTATCAAAGATTTCAGGATATGGTTTACCAATATACTGAATTGGTTGGCTAGTAGCATGACTGATTGCATTAGCAATTGATGATTCGCCAAGAAAATAACCTGTATCAGAATGATAAGTTCCTTTAAAGTATGTGGTAGTACCAGAACAAATTAATTTCGCTCCATTCAACACAAGACGCATAGCATGATTTAATTCTTGGAATGTAAGATTACGATTTGCGCCAATTACAACAAGATCTGCGTCATCATTAGATATCTTTATTCCAATATCTTCAATATCTTTCTTCAGACCCCATTCACTAATAACAAAACATGTAGTGTTAGGATAGGTTTCTTTAATAATCATTGCTGTAGTAGAACCTGATGTGTAGATTTCTTCAAGTCTAATTGGAATATTCATAGATTTGAGTTTATTAAAAACAATTTTTTTAGGTTTTCTTGATATGTTAGTTACAATAGCAATTTTAATATCGCGGTCTTTTAAAGAATTAATAAAGTTTGGGACTATAGGGAAACAAGTTTCAATATCAATACTATCACAAAGAACTCCCTCTACATCAAAAAGAAATGCTTGTTTTTCAAGTAATTCTTGCATAATATATTAAAGAAAAAGTCACAATTATCTTTTATTTAACGCATGTTAATTTAGCTCTATAAACATGGCATACAAGTCTCTTGAAAATTTATCAAAAGATGTAGTAAATTGTAAGAAATGTCAATTATACAAATCAAGAACCAAAGCAGTTCCTGGAATTGGGAACACAAAGAGTAAAATTTTATTTGTAGGAGAAGCACCTGGCGCAAATGAAGACATTAAAGGAATTCCTTTTTGTGGTAGAGGAGGAAAATTATTAAGAAAAAGTATAGAAAAAATAGGAATTAAAGAAAATGAGGTTTATATAACAAATTTGGTCAAGTGTAGACCTCCTGACAACCGTAGACCAACACAAGATGAAATTGAAACATGTAAGAAATACTTACAGGAAGAAATGCGATTAATTAAACCTGAATTAACAATACTTCTAGGTAAAACTGCAATAAGCAACATACATGAAAATGTATTATTAAAAGAAAATCATGGAAAAATTATTGAAAAAGCAGGAAATAAGTATCTCCTTACATATCATCCAGCAGCAATATTAAGAAATCCAAATAGGATTAATACATTTCTAAATGATTTAAGAAAAATAAGAACAATCAAGAAACAAAAAACTACATCAATGAAAATTATTCTTAAAAAAATGAAGCATATGATTGAAAAAACAACGACTGATGAATTAACAACACTTGGAGAAGTAGGAAAGGAAAAAGATCCATTCAAAGTATTAATATCTACAATTTTATCGTCTAGGACAAAAGATGAGGTGACATTGAATGCAACTAAACGTCTTTTTAGTAAATATAAAAATGCAGAAGAATTATTACAAGCTCCTATTTCAAGCATCAAGGAACTAATTAGACCTGTAGCATTCTATAAGACCAAAGCAATGAAGATTAGACAGGTTGCTAAGATTATTTATATTAAAAATAATAATAAAGTGCCCGATGAAAGAAATCAATTATTAAAACTTCCTTTAGTAGGAAGAAAAACAGCAAATTGTGTGTTAGTTTATGGATTTGGAAAACCTGCAATTCCTGTAGATGTACATGTTCATAGAATTTCAAACAGATTAAAATTAGTAGAAACAAAAACACCTGAAGAAACTGAACAAGAATTATCAAAAATAACTAATGAAAATTATTGGATACAAATTAATGAATATTTTGTACGATTTGGACAATTAATTTGCAAACCAATTAATCCAAAATGTAATGAATGTGATTTTCAGAAAACCTGTCCGTATAGATTAAATAACCAAAAATAAAAATCAACAATTATTCCCAATCATGTACTTCTGACCAGATTTTAATAGTCTCAGGAAAAAGATCAGAAACTAATTTCTTAATAGCTAGAGCATATTGTCGAATTTCCCATTGAGCTGTCTTTTCATTTCTTAATTCAAGAAAATTCATAATTGCTTGAAATGAAGCAGTCCAATATACTTCAGTATACTGATTAAGGGGAAGAATAGTACGAGCTTGTTCTTTTGCGACGCCAAGTTTTAGTAGATTCTTATATGCTTCATCCACATTTTGCATAAAATTATCAAAAATTTTTAGACATTCAATATTGATATTTTCTGGTAAATCTTCGCCAGAAGCTTGCTTATTATCTGGGGATTGTTGTCTCCAAACTTTGGGTTTATAAAAATCTTTTACAGGTACATAACGACCACTAAGTTCATTCCATGCGTGATCTTTAGTAGCTGAAGAACTTGTGGTTTCTATTCCAACAACATGTTTATACCATTGTCTCATAACAAATTCTGGAGCCTTAACATGAAATTGTACGACCATATGTCTAAATGGTGAATAATGTTTATGTTTTGCAAGAAATCGAACGAGGTTTCTATCTCCATCTTCATACGTAGTTTTACGTTTGCCAAAAGAAACACGAGCAGAATTCACAACAGTCAAATCAGAACCCAAATAATCAACTACTTCGACAAAACCACTATCCAAAACTTCAATCGTCATAATAATGAATTATAATTAAGAGGAAGTAATATAAAAAAAGACAGATTAAATATATTATCTTATGTGCTTCGATAGCTCAGACTGGTCAGAGCGCTTGCCTTGTAAGCAAGATGTCGAGGGTTCGAATCCCTCTCGAAGCTTATTGAATAATTACATAATATATTATATATTTACATAACTAAAAGATGAGAGATGATTAATTATATTAAGAATTAGATTATCAGTATTAACAACAAATAGAGTGATTTAATGAATATAGCAGATATTTCAATTATTGGGCCTGATAAGAAAGGAATTGTAGCATCAGTAACAAATTTTATTTTTAAAAATCAGTGCAATATTGAAGAAGTAAATCAGAATGTAATAAACAATGTTTTTTTTATGAGTATTAAAATCTCATTTAATCAAAGAAATATTAATAAAGAAGAATTCAACAATGGATTAAAGAAAGTGGCAAAAGGGTTAGGTTTAAAGTCAAGAATATTTTTTGATGGACAGAAACGAAAAAACATGGCAATTTTAGTTACAAAAGAAGAACATGTGTTACATCAACTATTAATATCAATTAGAAAAAGAAAATTAAATGTAAATATTCCAATTATAATAGGTACAACAAATTCATTAGAACATATTTGTAAAAAATATAAAATTAAATTTATTGCGATAAAAGACCAAAATCAGTCATCGCGAGAAGAAAAAATTCTAAAAATATTAGATAAAAATAATATTGATTTCATTGTATTGGCTAGATATATGAAAATACTATCTCCAAAATTTGTTTGGAATTATCCAAATAGAATAATCAACATACATCCATCACTATTACCAGCATTTCCAGGCGCAATGGCATACATGCAAGCATTTGAGAAGGGCGTAAAAATTTCCGGAGCTACTGCGCATTTTGTAACTGTCGATTTAGATCAAGGACCAATCATCGTGCAAGAGTCATTTAAATTAAATAAAACAAAATCAATAGAGGAGATAAAAAGATTAGGAAAAGAATGTGAAAATAAAGCACTAATAAAAGCAGTTGCACTTTTCGTTAATAACAAATTAGAATGTAGATGGGGAAAAGTTATCATTAAAAACAATAGAAGATAAATTTAAAGAGATAATAAATTAATTTATTTCAATTTGTTTTTTAATACTTTTAGTTAATAATGTAAAAAACAATTTATAATCAGAATCAGAAATTTCAATGGATGAATATTTTTGAGTTTGTTTAGCAATTTTAAATGCTTTAAGATGATAACAAGAAGATAAATTTTTTCTCATGAGAGAAAAGTAAAAACCCTTACAGCTACAATAATCTTCATTGCCAAAAATTAATTGATCGCCAAGACTTCCAACAACAGTCCATAATTGTCTGCCACTAGGTTGGAATTTATGTAATTTTACACGTCCTTGGTCAATTAAATGATTAATGAGTTCGTCAGAAGATTTTTTCTTCATGAATAATTTAATATAATTACCAGTATATCAAATGATTGAATTGATAAGAATTTTATATCCGCATCCAGCGATGTTATTGAGTAATGATAATAAAAAATACATAGTCATAAGTGATTTGCATATTGGATTTGAAGAAAGATTTGTGAAGCAAGGAATAGCAATACAAAGTTCAACAGAAAAGATGCAAGAGGTCTTAAAGGAACTAATTAAAATAGAAAAACCTGATAGTGTAATAATATTAGGAGATATAAAAGACAGCATATCAACTGTGACAAAATTAGAACGAATTGAAGTACCAAAATTTTTTAAAGAAATAGCAAAATTAATCGATGTCAGAGTCATTCCAGGAAATCATGATGGAAATATAAAATATTTACTGCCAAATAATATTAAAGTCGAAGATATTAAGGGAATACAGATAGATTCAACGGGATTATTACATGGTCATACAAACATAAATAAATCGTTTAAAGAAATTGATCGAATAATTATTGGTCATTTACATCCAATATACAATCAACAAAATAGTCCACTATCAGGATATCAGATGTGGTCTATTTTAAAGTCAAAAAAGAATGAATTATTTCAGAATGACAAAGGTGATATCGAAGTAATTACAATACCTTCATTTAATAAAGAATTAACAGCAAGTGGATTTTCTATTCATCGAAAAAACAATATTTGTCCAATTATAAGAAAAATAAAGCCGTATATTTTTGATGCTGTATTTTTGACGTTAGAAGGGGATATAATAGGTGATTTAAATTCTTTATCCAAAATAATCTAAAATAGAAGATAAGAAATATTAGGAGGTTTTGTACCAAATATCTAGATAGCGCATGGAAGATTTAATGAAACCGTTTTTGAAAGATGGAAAGAGCTTGTTAATAGCTTATGATCAAGGTCTTGAACATGGACCAAGTGCAGATTTCGATGATAGAAATGTAAATCCGCAATTTATCATGGATATAGCTGAAAAAGGAAATTTTTCAGGAGTAGTGTTTCAGAAAGGATGTGCTGAAAAATATTATAAAGAATCTTCAGGAATTCCTCTTATAGTTAAAGTAAATGGAAAAGCTAATCTAACGAAAGGCGACGTCATATCAAGACAAGTGTGTTCCGTAAAAAAAGCAATTAGTATTGGAGCAAAGGGGATTGGATACACTATATATGCAGGTAGTTCATATGAATCAGAAATGTTTCAAGAATTTGGTAGAATACAAGAAGAAGCACATGATCATGGTCTCCCAGCAATATCATGGGTATATCCAAGAGGAGGAAAAATTTCTGATCTTGGAGGAGATTCAACAAAAGAAACTGTAGCATATGCAGCGCGAATTGGTTTAGAACTAGGTGCAGATGCTGTAAAAATAAAATACCCAGGTAATTCAGAGGATTTTAAATGGGCGGTGCAATCTGCAGGTAAAGCACATGTATTCATGTCGGGTGGTCCAAAAACAAATACAGATGAAGAGTTTTTGAAATTAGTAACAGGAGTAATGGATGCAGGAGCAACAGGAGTAGCTGTGGGAAGAAATGTATGGCAACATCAAGAACCTCTTGAAATGGCAAAAAAAATTAAAGAAGTAATTTTTGAAGGTAAAAGATTATAATATCTATTATAAATAGGTAATTGTAATGAAGGTAGCAATACTAACTGGTGGAGGTGATGCTCCTGGATTAAATCCTGTAATACGTTCAGCAGTAAAAGTAGCAAAAGAAAATCAAATTGAAATAATAGGTATTAGAAAAGGATGGGCAGGATTAGTTGAATTAAATCATTTTCCATTAAGTTGGGAAGATGTTAAGAATCTACATTCAGAAGGGGGTACATTTTTACTTTCTAGTAGAACAAATCCTATAAAAATGGAAAATGGAATAAAAATTGTTTCAAATAATTTAAATCAAGTAGCAGACGGTCTAGTTGCAATGGGAGGAGAAGATACACTAGGTGTAGCAAATGAATTATATAAAAATGGAATAAATGTTATAGGAGTACCAAAAACAATTGACAATGATCTTTTTTCAACTGATTATACAATTGGATTTGATACTGCAATAAATACTACAGTAGACGCAATTGACCGAATAAGGACAACAGGTAAATCGCACGAAAGATTTATGGTAATAGAAGTAATGGGTAGGCATGCAGGATGGTTAGCAGTACATTCAGGATTAGCATCTGGAGCAGATTTAATATTATATCCAGAAGAAAAATATGATATTCAAGAAATATGTAATAAAATTAAAGAATTAAAAGAACAAGGTCAAAAAAGTGGCATTATCGTAATTGCAGAAGGAGCAGAAGAGAAGGAAAAATCATACACTACACAAGATAAAGAATTAGATGCATTTGGTCATGTAAAATTAGGAGGTGTAGGTGAAAAATTAGCAAAAACAATCGAAAAGAATACAGGAATAGAAACAAGGCACATAGTTTTAGGGCATTTAGTAAGAGGTGGCACTCCTTCAGCATTTGACAGAATATATGGTGCTAGATTAGGTTATGGAGCAATTAAATTAGTTTTAGAAAAAAAATGGGGACAAATGCTCACTTTAAGAGGAACAGAAATAAAATCAATGCCATTAGAAGAAGGAGTAAAAAAACTAAAAACAGTAACGAATGATTACAAGGATTTAATTAGGCAATTAACATAAACAAATAGTAACACAAAAAACATAAAATATATATATAAAAATGAAAAATTATTAACTTATTCGTAAGGATAAAATAAATTAATTGGTGAAAAATAATGAAATGGAAAACATTAGAACATAATGGCGTATTGTTTCCGCCGGAATATAATTACCAAGGAATTTCAGTAAAAATAAATGACAAAAAAATAAAATTAACAAAAATTCAAGAAGAAATGGCATGGGCATGGATAAAAAAGAGGGAAACGCCATATATTGAAGATAAAATTTTTATAAAGAATTTTTTAAAAGATTTTCTAGATAAATTTGAAGAGAAATATCACAAATTATCAATAAATGATTTTAATTTTTCAGAAATTATAATAATTCAAGAACAGGAAAAAAAATATAATTCCAGACCAGAAATAAAGAAGAAACTTGCAGCTAAACGTAAAAAAAGGAGAGAAAGTCTAAAAGAAAAATATGGTTACGCCACAGTAAACGGAGTTAAGACAGAAGTTGGAAATTATATGGTTGAACCAGCATCAATTTTTATTGGTAGAGGAGAACATCCATTTAGAGGGAAGTGGAAAAGAAGAGCAGAACCAGATGAAATAGTTTTAAATTTAGGAGAAAAAGCGTTAGCTCCTATATGTCCTATAAAAGGTAAAGAATGGGGAAAGATTGTTCATGATAAAGAATCAACATGGTTAGCAAAATGGCACGACCAATTAACAAATAAAGACAAATATATTTGGTTAGCTGACTCATCAACAATACGTCAGGAACAGGATAAATTAAAATATGAAAAAGCGATTAAACTGGGTAAATCAATTAAGAAAATAAGGAATCATATTAAGAATAATTTAGGATCTTCTGATATTAAAAAACGAAAAGTTGCAACAGTGGCTTATCTAATTGACAAGTTGGCAATGAGAGTAGGAGATGAAAAAGACGAAGATGAAGTAGATACTGTAGGATCAACAACATTAAGAGTGGAACATGTAAAAATCAATGGGGCGAAAATAGAATTTGATTTTCTAGGTAAAGACAGCGTAAGATGGAAGAAGACACTAGAAGAAAAAAGTACTGGAAGGGAGTGGAGTAAGGAATATCACAGTATATTCCTTAACAATATGGAGGAATTTACGAAAGGAAAGAAACCAAGTGATACAATATTTGATAAAATATCATCAACGGATGTAAATAGATTTTTAGCAGAAGGTATGAAAGGAATTACGGCAAAGGTATTCAGGACATATCATGCTACAAATGAAGTTATAGATTATCTAGAAAATTGTGGATTGAAATCTACAAATGACGAGTATATGAAAATTTATCATGCAAAGATGGCCAATCTAGAAGCAGCAATACAATGTAATCATAAAAAAACACCTACAAAGAACTGGGAGAATAGTATGGAAAAGAAAGAAGATAAAATTAGAAGTATAAATCAAGAATTAAAAAAGATTAAATCGTTAATAAAAAATCATAATCATAAGTGTGTCATTTGTGATACGAAATTAGCTATTGATAATGAGAAAATCAAATGTGAAAAAGAAGAATTGCATAAAGATAAAGTAAAATTAAGGAAGAAATTAGAAAGGCAGAAAATTCGTATTGTAAAAGAGAAAGAGCGTATTAATAAGAAACATAATAAAATTGAAGAAAGGTTGAATAAGATGAAAGTAAAGGTAGAAGTAGATAAGAAAACTAAAGAATATAATCTCAATACATCTTTGAGAAATTACATAGATCCACGAATATACAAGAAGTGGTCAGAAAAAATTGAATTAGATTGGAATAAAGTATATCCAAAAACCCTACAAAGGAAGTTTCAATGGGTAGAACAGACTGAAAGAGAATAAGTAATTTAAGCCCATTTAATAGAACATCCAATGGCATGAGTTTCAGAATTAGTAACGTCCTTATCTGTCAATATTTCATCTAGAGTATTTCTTAGATCATTAGAAGTAACAACAGTTTTGTCTTTATTATCATCTATTCGACCATGATATCTTAATTTCCGCTTAATATCAAATACAAAGATTTCAGGAGTAAATGAAGCACCAAAGGACGAAGCAACGCTTTGATCTTCATCTCTCAGATAAGGAAAATTATAAGATTTTTCATTAACGCGAATTTGCATTTTTTCGAAAGTATCTTCTGGATAGTTAATGGTTTCATTTGAATTTATAGCAACGAGAGAAACGGATTTAGCAGAATAATCTTCTTGAATACGTATTAATCGATCTTCATATGCTTTAACAAAAGGGCAATTATTACAAGTGAACATTACTACAAGAATTTTTTTGTCTGAAAAAGAAGACAGAGTGTAGAAATTATTATCAGTTGCTTTTAAATTAAAATCAGGAGCACTTGAACCAATTGGAATATGAGACATACAAATAATAAAAAATAATAATTATTAATGTTTTTGCAAAGATTTAAAATTACATACAACTATAAAATAATTAACAGATTATTTTGATGATTCCTGGTGCACGAAAGTTAATAAATAGACTAATTCCTGAGGTAACAAATAGAAAGATTGGAGACCCACATATACAAGGAGAAGATATTGAAGTATTTTCGTCAAAAAAAGAAAATTTTAGATTAATAAACAAGATAGAATCTCCAAGAGATATAGGATTTGTAGATGGAGGAAATCTTGAACTAATAGGAGCGCCTAATTTTTCTATTCAATTAAATAGGACGTATTCAGCAAAATGGCACAACGATAAACGAATATTAAATAAGAGATTGGAATTTTTCTCTGCAACATATTCAACATTGTTAGTAGACAACCAGATTTACTATAAGACAATTTTTGAATTAGATACGAATCAAACAGAATTAAGAAAACTACTACCGAAGGAAGATGATTTGTCTTTTTCTGCTAATGATCGAACTATAATGAGCGGAAATCAAATAGCAGACATATCAAGAGTTTCGTCTATTGGGAGAAGATTTGCGGAATGGATGAATGCAAGTGATTTAGTTAACGTATTAGAGGAAAACGACATACTAATGATTGATGGAACATTACAAACAAATTTCACAAATGAATCAACATATCTAGCAAACTTAAGGAAAAAAGCAAGAAATAAAGGTGTAATCTTATGTGGACTTTCAAAGACAAGTTCATTACAAACTACAACAGGTCTGTCATTATTAGGAAGTATAGATAGATTAGCAGAGGAAAACAACATCAAAAGAGAATGGTATTATCCATTTGCAGTATCTAGATCTACTGACCACGATGTAATGATATTCATTATAAAACTGTCAAGGAATTCAGATAGAATATTCCGGTTCGAAGTAGACAGGAAGACATTTGAAGAGTTAAAGGATTTACAGATTAATGAAATTTTTAGTACAATAATGAAAAATTCCAATGATTTATCTTTTATTGGTTATCCATATGGTTTGATTGATGCAGATAATATGGCAAGGGTTTCTTATGACGAGAGTGATGAATACAAAGGAATAATAACATCAATATTATCGCAATCAGGTGCATCAAAAGAATTCTTACGGCATATTCAAGCAAAAGATGCACATGATATATTGAACATGATACTAAAATAAAGAGAGTGTATTGACCATCTGTAAAAAATTATTGCTAAGAATGAATTTATTATAAGAAGATAATAAACAACAGGGGAATTATTTGAAAAATAGTGAAATAGATTTTGTTGGGCAAGTAGTTTCTGGAAATATTGCAGGAATACTAATTCGGGAAAAAAATGATGGAAAAAGTATAGAATTAGGAGATTTATTGATTATCGATGAAGACAAAGATAATTCAGTAATATTAAAAGTATTTGATCTAAGTTTTGGAAGTCAGATATCTCCGTCAAACATGGAACTGGCAGCAGGTCTTAGTTTAGAGGAAATGGGAGGTGAAATAGGATTCTATGACTCAAGTTTAAGAAACTATACACTAGCGAATGCAAAAGCAATTATTAACATAACAAAGGGAGAAATAAAAATCCCAAAAGTTCTTCCAAAGTTTTTTTCAAAGATACGTTATGCAACAAAAGAGGATTTACAGTTTATTTCTACACCGCCAGAGGATCCAGTATATTTAGGAAATATAAGAAGTGGGTCGAAAGTATTAGATGATGTCCCAGTTCAACTTAATGGAAATGATTTCTTTACTCATCATGTTCTTATACCGGCCACTACAGGAAGAGGAAAGAGTAATTTAGTCAAAACAATGTTATGGAGTGTTTTAAAATTAGGAAAATTTGGAGTATTGGTATTAGATGCACATGATGAATATTATGGAAGACATGAATTAGGTTTAAAAGATAATCAGAATGCAAAAGAAAAATTACGATATTATTCATCAGATGCGCCAGTAGGAAGTAACACACTATTAATCAACATAAAGACAATTGCTCCAGAACATTTTGAAGGAATAGTGAATTTTACCGAAGCGCAGAAACAAGCAATTTGGTTATTCTCGAATACCTTTAGAGAACACTGGATTGAAAGAATTGTTCTCAGTGATGTAAGAGAATTTGAGGGACTAGTTCAGGATACCACTCTGGCAGTTTTACAAAGAAAATTAAGAACTTCTTTAGGAATATATCAAAAAGATGGGGAAATAATTTGTGATAATCCTGTTTTTTCTATGCGAGGAGGAGAATCTACGTTGGATGGAATAACAGGACATTTACAAGATGGAAAGATTGTAATAATTGATACATCAAAATTAGCAGATCAGACAGAATTACTTATTGGTAGCATGATTGCAAGTAAAGTATTTTATAGATACAGAGCATCGAAAGGAAAAGGTCAACTTGTTAATAACTGTCCAATAAGCATAATCATAGAAGAAGCCCCCAGAGTGTTATCGAATGATCAATTACAAGAAGCAGGCGAAAATATCTACAGTACAATAGCACGAGAAGGTAGAAAATTCAAAGTAGGATTAATTGCAATAACACAATTAACGAGTTTAATTCCAAAGATAATTCTAAGTAATCTAAATACGAAGATAATTTTAGGTAATGAAATGTCAACAGAAAGAAGATCAATAATTGATTGTGCTGCTCAGGATTTGTCAGAAGAAGACAAGACAATAGCAAGCTTGGACAAGGGAGAAGCAATAGTAAGCAGTGTATTTACAAAATTTGCAATTCCAATTTATACACCTCTCTTCGAAGAAATTGCTCGTCGTGAATCAAAGAAAAGCAATAAAGACGAATATGAATTGAAGTTGGACTGAGGATTAGATTAATGTTCAAATTTGCGCATATGGCAGATGTCCACATAGGAGCACACAAAGACAAGAGATTAATTGATTTAGAAATTGATGCATTCAATGAATCAATAGATATTTGCATCAAGGAAGACGTGAAATTCATCATTATTGCTGGAGATTTTTTCGATAAACCAGTACCTGAACTAGACCAAGTTAAAAAGATAATTAAAAAATTGATAGAACTATCAGAATTGAGTATTCCTGTCTATGTTATCTATGGTAGTCATGATTATAGTCCTGGACAGGATTCAATGATAGATTTGTTGGAAGCAGCCAAGATAATTATTAAAATATATAATCCAAAATCAGTGGATGGAAAGATAAGATTAGAAATGTATCAGGACAAAGAAACTGGTGTTAAATTAGCTGGAATATCTGCAAGAAAAGTAGGGTTGGAAAAAGAATATTTTGAAAAACTAGATAGGGAATATCTTGAAAACCAAGATGGTTTCAAAATTTTTGTATTCCATAGTGGAATTGAAGAATTTAAACCGAGTTTTTTGAAAGGTGCCATGGATATGGAGTGTATACCAATTAATTGGTTCCCAAAAGGTTTCAATTATTATGCAGGTGGTCACATACACAAAAGAGATGAATTCAGTATTCAAAATTATCAAAATATAATATTTCCTGGGCCATCATTCATCGGTTGGGGAACAAAAGACTATACAGATGTAGCTAAGGGTGAAAAAAGAGGGTTCTATATAATATCCTGTGAAGATGATAAGATAATTGAAAATGGAATAAAGTTTATAGAAATAAAAAAAATTGAAGGAAACTTTATTGAATTTGATGTTACAGGAAAGAGATCAAAACAGGTTAATGACGAGATAAACAAAAAATTAGAAGAGGAAGAAGTGAATGACAAACTAGTAGTAGTAAGGATTTTTGGAGAATTACTTTCAGGAAAGACTTCTGATATTGATACAATCGGAATAAGAAAATCGTTAACGGAGAGAAATGCAATATCGCCACAAATTAACCGTAATAAATTGTCAACGAAAGAATTTCAGAAAATCAGAATATCTAGTGAAGATAAATTAGAGATAGAAGAAGGATTATTAAGAGAAAATATAGTCAATGTAAAAGCCGAGAATAAATTATTACAAGGAAAAAAAGGAATAACCATGGCCAAAGAACTTTTAAGAATTTTGAAAAAGTCTCCTAAAGATTCAAGTGGAAAGAATTCAACGGCAATACAGGATAAGATAACTGAATCAAGCATAGAAATATTAGAATTATCAGAAATAATGGAGGATTAACAATGATTATCAAACAACTTGTATTAGAAAATATCAGAAGTCATGAATTGACAGAAATTGAATTTGCGGAAGGTAAAACACTGATACGTGGAGACATTGGATCTGGAAAATCAAGTATTATGATGTCGATAGAAGCAGCATTATTTGGAAAAAAATTAAAACAATTAATAAGAAAAGGTAAGGAAAATGGAAGTATCAAATTAATATTTGATATCCAAGAGAATAATGGGAAAACAAAGAGATATTCAGTAATTAGAAAACTATCAGAACGTACACAAAAAGGTGGAGAAATAATTTATCATGATGAAAATAAAAAAGCTATATACTCGGCAGATGAATTATCAATAGAAATTACAAGAATACTTGGCATTAATGAAACAGCTAAGGCACAAGAAATATTTGGTGCATTTGTTCTAACAAGACAGAATCAATTAAGGCAATTAGTAGAAGGTAGTACAAAACATGATGAAGACACAAGAACAACAATTTTAATGAAAGCGTTCGGGATGGAAGTGTATAAATTTGCAATGGATAATGCAGAAAGGCTTACAAAACGAATCAATACAACAAGGATTAGAAAGGATGCTCAAATAAGAGAGATGCCTGAACTTGAGAAGAACATAAAGGAAGTATCACACGAAATCGATAATAAAAAAAATAATTTAGGATCTATTACACAATTAGTGAAAACTAAGGAAGCGAATTATCAATCAAAAGATAATGAATATAATAAAGTTAAGGAAGAAAGAATGAAGATTATTGAAATAAATACATTAATTGCAAGTAAAAAAAATGAGATTAAACAAAAGAAAGAAGAGATTTTACAGAACGATAAGAAAAAAGATCTTAAAAAAATAAAAATAGATGAAACTGGAAAAACAATTGAACAAATTAAAAAAGGTATAGAAAATTTAATACCATTAGATGAACTTAGAAATAAAGAAAATAGATTGATGGATCAGATCACACATTTAAAAAGAGATATGGATAGAAAGGAAGATGAAGCAAAAAGATACGAAGGAATACGAGAAGATGGAAAATGTAGTACTTGCGGGAGAGAAATAAGCGATATTTCAGGTTATGACGAGTTAATTTCTACGGCAAATATGAAAAAAGAGGACGTAGAAAAAGAGATTATCAAGATAAATGAAGAAAAGGAATCGATTCAAAAGACAATTGAAGAGAACCAAAGAAATAAAGATCTAAAAAGAGATGTAGAAGAAATTGATGAAATTGATGAAATAAATAAGAGATTAAATGGGAAGGTTCTAGGTTTAACTAATGAAATAGACGAACAGAAAACAGAATTAAACAAATTACCAGATGAAAATAGATTAAAGATGTTAGAAGAAGAGTTGAAATTAGTTGAAAAAGAATTTCGTGATGAAAATGATAGATTAACAATTATTACAACCCAGATTAATGAACAAACAAGTAACCTAAAAGAAAAAAATCAAAGATTAGAGAAACTGAAACAGAAGAAATTAGAAATGGATAATTTAGATGATATAAACGAGTGGTTAAACAAATATTTTATCGGTACAGTGCAATTAATTGAAGATCATGTACTTCATACTGTAAATTATAAATTTAATGAATTATTCAAAGATTGGTTTGAATTACTAGTAGATGATACAAGCAAAACAGTAAGAGTTGATGAGAAATTTACACCAATTATTGAACAGAATAAATATGATCAGGAATTTGATGAGCTTTCAGGAGGAGAGCAGGCAGGAATGGCACTTGCGTATAGATTAGCATTGAATAGTTTGATAAGACAACAACCAACAGGTTTTAGACCGGAATTATTGATGTTAGATGAACCAACTGATGGTTTTAGTAAAGAGCAACTTACAAAAGTTAGTAACATATTATCAGACATTGAGAATAAACAAGTAATCATAGTATCTCATAATCAAGAATTTGCAAAGCTCGATCAAATAATAAATGTAACAAAAGAAAACGACATATCAAAAATACACATACAATCTTAGAAATTAATGCGGGAGGTGGGATTTGAACCCACGAACACCTAAGTGATAGGAGCCTAAATCCTACGCCTTTGACCTGGCTGGGCTACCCCCGCACTGATTATATCAGTTTATTTAACACTATAAAGAATATATTTTGATTGAAATATTTTATTTTAATATTAATACTCGTTTCTTCTCAATTTTACGTTTTAAATATGGGTAATGTATATGGGGATAATCATTCTGAATGGTCAACAAAGTCCCCAATGCCAACAATAAGAACAGAACATACAGCAGCCATTATTGATGACAGGATATACATTATTGGAGGATTTGACCGTAATGGAGATGTAATAAACAGAGTAGAGGTATACGACATAAGTGAGGACAAATGGATAGAAGTAAAACCTATGCCTGTTGCATTACATCATGCATCTGCAACATCATTTGAGAATAAGCTATATGTTATTGGGGGATTCATTAATGGATGGAATCCAATTTCAAGAATGTATATTTATGATGCGCAAGAAGATTCTTGGATAAAAGGAGAATCAATGCCAACTGCAAGAGGTGCATTAACAACTCAGAGATATGACAACTATATTTTTGCAATAGGTGGAATGACTAGTTTGGGACCTACAACAATAAATGAGATGTATGATATAGAAAAAGAAACATGGGTAGCAAAAGAACCAATGCCAACTGCAAGAGAACATCTTGCATCAGGAATTATAGAAGATAGAATTTTTGTCATAGGAGGAAGAGTTCAGTTTGGTGCAAATTTGAACAACAATGAGATGTATAATATAGATGAAGATTTATGGGAGAATGCTCCAGCAATGATTTCAAAGAGAGGAGGTCTAGCAGCAGCAGTAATTGGAGAAAGTATCTTCGTGTTTGGAGGAGAATCAAGACGATCGACATTCGATAATAATGAAGAATTCAATACGTTGGAAAATCTATGGTCAGATAGACAACCAATGCCAACTTCTAGACATGGTTTAGTTGCAATATCATATAATTTCTCAATATTTGTCATTGGGGGAGGAACAGAACCAGGTTTTAGTATGAGTGGAATAAACGAAGTATTCACCATATTAGAGATTACTGATGAGTTGTTAATTTCAGAAGAAGAGGAAAACAAGCAAGAGCAAATTGGCGAAGTTGTTTCCGAAGAAGAGGAAAACAAGCAAGAGCAAATTGGCGAAGTTGTTTCCGAAGAAGAGGAAAACAAGCAAGAGCAAATTGGCGAAGTTGTTTCCGAAGAAAATGATCCATTTAATTCGTGTGAATTAGTAGATAGATGTCTATCGCCAAACGAACAGACATCATCAAAAATTATTTATTATTTATTTATAGTAGTGGCAGGAATTTTATTATTGGCAATAATTCTTACATTAATTTCATTTTATAAACAGATTAATTAAAACACAATCAACAATACTAATAAATCATTTCTTCAGGGTCAAAGTATTCAGATTTGCGTTTTGTTTTATTAATTTTTCCTGATGCTTTTAATTCTTTAAGAAAATTTGTTCGAATATTAGAAGATATTTTTCTTAGTTGATTGTATTTAGTTGTATAAGAAATTAATTCAATAATAACTTCGTTGTTATTAAAATCACTTATTAGTGCAATAGGACGAGGTTTTTCTTCAACATTAGTTGTATTTATTGCAGATTGAATTAAAAGTCTTCTAATTTTATCAACATACTGAAAATTACTTGTTGCATATGTAACAATAATTGGATAATTTTTATCTTGAGAAACGTAAGATTTGTTCTGAAGCAATATATTATTAGGAACAATTATTGTATTTTGATTATTATCAATAAGTTTACTAAATATTAAACCAATATTTGTAATGATTCCTGAAAAATTTTTTTCTTTAACAAGTAGATAATCACCATGTTTGAATGGTTTCCAAATAAAAATAATTAACCCCGATATCAAATTGCCTAAAGTATCTTTTGCAATAGCAAATGCAAGAATTATAGAAACTAAAGCAACAAGAATTAATATCAAGTTATTTCCAATATCGTATCCAAGAAGTGCAACAATAATCCAGAAACAAGTGAAACTAATTGACCAAGTAGATATTCGTTGTAATATTCGTAAAGAGAAAAGATCCATTTTTCTCTTAACAGAAGAGTCAGCTAAAGAAGATTTAATAATTCTATTAGCAAGAATGGCAGCAATAAATACAGTAAAAATTCTAAAAAATACTTCGATATAATTTGTTTGTAGAATGAACAAATTATCATTAATATAAACTAATAAATTCAAACCAAGACTTATGACAAATAGAAATATAGGCAGACGTAATGGAGCATTATCTTTAGTCTTAAAACGAAAAATTGTTCGTCTAGAATAATAATCAACTACATAAGCAACAATAATAGAAAGAAGTAAAATAATTCCAGATATAATCACATCATTGAAAGCGAGTAATGATGATAAATTTACCATACGAAAACTATAAAGTAGAATGGTTATAGGTTTAACGGATAGATAATATCATCATTAATATATCAATAACAAAAAATCATATTAGTCTTACCAAATAGAAGTAATGATCAAATACGGGCCCGGAGGGATTTGAACCCACGACCTCCGGCTTTCCTCATAATAGAGGGCCGATGCTCTAATCCATGCTGAGCTACGGGCCCATAATTAGATTAAATTAATCAAATATAATTATTGCAATACTTATCAAGAAAATATTTAAAACTAAACTGGAAAAAGGTTAATAAAATCAACATGTTTTAATAATTATGGAACAAATTGGATTGGCTTTACATATAGCAAAAAGTGGAAGATTAATAATTCAATGTAAAGATAAAAAAATTAATGGAAAAAATATTTTTGATAAGAGAGGAAATAAAATTGCAAAAGTTTCAGAAATAATAGGTCCGATTAAATCTCCATACATTTCTGCAATTCCTTTAAATGATAAAGTTAAAAGAGTTATAGGCAAGAATGTCTATATTAGATAATAATTTAATTTGACAGTACAAAATAGTGAATCGATTTTTTGTAATTTTTGTAGAACGCCATTGATTGGAGATGCTGAAAGAGGAGAGTATGTTTGTCCAGGATGTGGTTCAGTAGGAAGTGATCGAATCATAGACAACGGACCGGAATGGAAAGCAATTGATTCAGATGATAAAATGAAAAAAGTTCGAACTGGTGCACCAACTAGTTTAGCACTACACGACAGAGGACTTTCTACGCAAATAGGAGATTTAGTAAATGATAGAAATTCGATGAATGTTAAATCAGTGGAACGAATGAAAAAATGGCAACAAAGATTAAGAACTTCATCTTCACAAGAAAGAGGATTAGCAAATGTATTAGGGAAGATAAGTGAATTTTCAAGAGTTTTAAATTTACCAGACGCTACTAAAGAAACGGCTGCATTAATTTATAGAAAAGCATTAGCGAATGGAACTGCAAAGAGTAAATCAATTAAAGGTATGGCTGCAGCATCAATTTACCTTGCGTGTAGAAAATGTAATACAAGTAAATCAATGAAAGAAATTTCAATTATAGCAGGATTGCCAAAATCAACGATTGCAAAATATTATCGTTTAATATTAAAAGAAGTAGAACAAAAATATGTTCCATTGCATCCTTTACAAGGATATATATCAAAAATTGTAAATAAAGCAGAATTAGACTCAAAAATCCAAATACATGCAATTAAGATGTCTAGCCAAATAAATGACACAAAGCTTACTAGTGGAAAATCACCAGCAGGAATCGCTGCGGCATTTGTATATATATCGTCAGTAATGCTAGGAGAAAAAATACCACAAAGAGAAATAGCAGAATATGCAGAAGTAACAGAAGTCACAATTAGGAACAGAACTAGAGAAATACTAGAAAGATATACAATAAGACAGATAATAAAAACAAAATAAATATTAAAGACAACAATCAGATATTAATAATACTTGAATTCCTATGATAAAAAATAAAGATAATTTAAATGATGAATTAGAAAATAAAGTTGTAGAAACACCAACAGTAGAAAAGAAAATAAAACGAGGAAGAAAAAGCAAAGTTGTAGAAACACCAACAGTAGAAAAGAAAATAAAACGAGGAAGAAAAAGCAAAGTTGTAGA
>sequence10
AGGAACTCCCCAGTCATTCATTAGATTCTCTCTTGGAACCTCACTGCATGGAATTGCAAGTCGACCAGATTCTTTCCATTCTTGATACGAGAAGAACCATCCCTTATCACATTCATGTAATGCCCATTCAGGATCACCTTCTCCAGGAGGTGCTAGAAAAGTCCTCCATAGTCTTTTCGGCGGATTGTAATTTAGATCATACCCATCAATGAATGCTCTGCCTCCTCCCCATGAAGCTGTTGCTCCAGTAATTGCAACAACAAGAATATTGTCTTTTACATATATTGGTCCTGGATGCGAAGGCGATCCATATTTTCCAACTCCTTTATACATGGGCCAAGAATAATTATTTCCTTCAACATTATTACAAATTTTGTCTATTTTGAATGATATTTCTCCAGATATGGCATTTATTGCTTCTACTGAACAATTTAAAGTGCTTGTGAATAGATTTCCATTATTAAATTGCAAACCATGAATATGAGGTGCTCCTCCAGCAATTTCTGGTAATTCTTTTAACGCATTATTCCAATCATGCTCATAGATTTTTATCCAATTCAAATCTCCAGAATTAGCATTAAGCGAATATACGTTCCTCATATTTGACGCGACAAATATTTCTCCATCTACAATTAAAGGCGGAGTTATTGCTCCTTCAAATGCTATCCCTCCAGGTTGATATTTTAAAAACTCTGATGCAGGAGGAAATGGATAAGTCCATTTCAATTCTAACATGTGAGCATTGTTAACATTGATCTTATTTTGAGGCGAATAATTTGTACCAAATGAATCGTGATTTACAAATTCCCAATTTCTTTTCAATCTGTCTATTTCCTCAACATTGATATTATTTGTTGCTTCTGTGTTAATATTATTAAATTGAAAAATAGTAGAAATTGAAATCATTAATATTAAAATAATTATGATGCTTTTCATAAATCTAGTCACTTAATTATAGTATTTTTGACATATATGGACCTGATAATTCATATCCTAGCTTTCTATAATATTCTCTAGTTCCTATTGCACTAATTACTAATATTTTTTTGATTGATAATTCTTCTCTAGCTAGTCTTTCTGCTTCAAGCATCAACTCTGTTCCTGTTCCCTTGTGTTGCCAACTCTTCAAATCTTTTTCACCAATTGGCACAACTTGACCATAAACATGTAATTCTCTGATTATTGCAGTATTTTCATTAATTTCTTTTCTATGTGACTTTCTCGAAGGAATACGCATTCTTACAAACCCTACCAATGATTCTGTCTTTGTTTCTTCTGCACTAATGAAGTATTCCTTTCCTCCTGAAGAATCATATTTCATATTTTTAATTTTAATATCATAATTATTAATCTCTAATTTCTTTTTTAGCAGTTTTAATCCAATCTCTCTACATCTTATACATTTACATTCATCTCCATTTTGTTTCATTCTTTCTAATATCAATTCACGGACATTTCCTTTATTTGTCCCTGCTTCAATATCATCTTTAGAAATCTCTCTCTGAATTCTCATTATTCTAATCCATGGCGGAATATTTTTTTTCACATCTGCTAGTAAATTAATTACTTTTTCTGTGTTGTATGGACTGAATTTATTTTCTTGATACATCTTGTATAATCCAGTACCAGGAACTACTAGTGTTGGATAAATCTTTAACATATCTGGTTTGTATATGGGGTCATTAAATAATGTGTTAAAATCTTCATAATCTTTCTGAATATTTGAACCAGGAAGTCCAGGCATCATATGAGCAACTATCTTATAACCAGAATCTTTGGCTATTTGGAATGATTCTTCGACATCTTTTAGTGTATGTCCTCTGTTTGTCTCCTTGTATATTTTGTCTGATAATGTCTGTATGCCTATTTCTATCCTTGTAATACCAAAACCTAAAGCAAGATCAATGTGTTTTTGTTTACACCAATCTGGTTTTGTTTCTACACTAAGCCCAACATTTTTTATTTCTGACTTTTCTGCTAAATTCTTTGCATGATTTAAATCCCTTGATTTTTTTCCATTTAACGCATCATAACATGATTTTATAAATTCCTGTTGATAATCGAAAGGTAAATTCATAAATGTTCCTCCTATTATTAATAGCTCTACTTTATTTGTGTAATGACCAATTTTAACCAATTGATTTAATCTATTGTTAATTTGTTTACAAGGATCATATTCTGCTTCAAGAGCTCTCATAGTAGCTGGTTCAGTTGGTAAATAACTTTGAGGCGTTCCTATCTTTTCGCCTCCAGGACAGAAAATGCAAACACCATGTGGACAATTAAACGGTTTTGTCATTACTGCTATTACTGCAATGCCTGATGCACTTTTTGTTGGTTTAATTTTTAGTAAATTTAAATATTGTTTACGTTTATTATTTGGTAGTATTTCCATTAATTCTGAATTACTGGGTATTCGATCTATGTATCTAATTTTTCCTATATGTCTCTTAATATCATGAAGATTTGATACGTTGTATGATTCTTCTAGTCCTAGATCTTTTGCTAGTGTTTTCCATTTTTTCATTTCATCTTGCGTAGAATTAATTTGTGTCAATTAATTCATATAAATACAAACCTCTATATGAATTATTTTAAAGAATATAATATTGTGTATGATATATAATTTATGAATCAATTTTATAGAATGGTATATTTTGTTGTTTTGCTTTCATCCTTCATTCTACTCTATTTCTCTAATACATCAATAACTGAATTCGAATCAAATATATCTGATTTACAATCAATTAATGAAACTAACGAACAATATATTGAACAATTAATTCAAAAGAATCAATTACTTTCTCACGAATTAACCAAATTAAAACAAAATAATACTAGTCTTTTTCAGGAGATTAATAAATTGAATATCTTATTTAACAATCCTTTGGTGACTCAAGCTAATCTTACTGCAACTCAAACTTTTTCAAGTTATGAAATTATAGTTGATGGTAATTCAATGTCTGTTGTAAATGGCACAATAACTAATTTTGGATTGCAAGATGCAACAGATGTTAGTGTGGAGATTACTTGGTGGATATTAAGTGATTGTGGTTGTGATGCATTACCGGCAAGAACTGAGTTAGTTAAATTGGATTATATTCCCTCAAGTTCAGTATATGAATTTGAGGAAACATTTCCATTCAATTTTCCTACTTTCCAGTTTCTTGTAGTTGATATTCAATGGAATTAATTTTTAGTTTAACAATAATTATTAATTTTTTTTGATAATTTATTATACATTAATTTTTACGGTCAAATACTCATTATTTGTAAATTATATTGTGATTTTTCTAATAATAATTCGAGGGATTTATATGTTTTTTGAACATTATGGACCGGCATGACTCGACGTGTATACGTAAGTATCCTAGTTGCTGCACTATTAATTGCAGCCAGTTTGTTCCTAACCCCTATGGTTAACGCACAAAATGTTGTACCTGCACTTGGTTCTTCAAGAGCAGAACGAAATTGGGAATTCATCAACGCAAATTCCTGGGGACACAATGCTAATCCACAGACACAATTAACATCCGAGAACGTACACCAAGCCGAATTGAAATGGATATTTCCTATCCCTGACGCAGATTCAATTGGTTGTACAACAATGACATTCTGTGGTACTGGTGGTATTGCTCCACCATTAATTGTCGACGGGAATGCTTTCTACGCAACCAATTACCAAACTATATTTTCAGTTAATATGGCAGATGGTAGTCAAAATTGGTACAGCGAACGAACAGCAGACGGTGATGATCCAGATATAATTGGTCCAGCAGTTGCAAACAACCGCGGACTTAACCCACCAGGTTTACCTGTATACTCTCTAGCCGCACATACCCATTCAATGAATTATTGGGAATTGAACGGCAAAGGTATTCTTTGGCTCAACTCATTTGGTTGTACAATCAAAGGAATTGACGCTACAAATGGCGACGAAGTATTTACTCTAAAACAACACTGCAGAAATGTAGAAACAAACTCTGGTTTATATAACGCACAAGGTTCTCATGCACCAGTTGTCGACAGATCTCATAATCAAATTATTGTAGCTGTTGGCGGACATATGGAAGGAAGCTATGGCGGACGTGCATATGTAGCTGCATATGACTTGGGAGCATGTTCAAGTTTCCCTTGTGAAATTGACGCAACTACAGACGCACATCTCAACTGGCGATTCTTCTATCAACCACCAAACGGTGAATTGTTCCCAGAAGAATATGCAGCTTGGGGTCAATGGTTAATTGATACATGTGATGTAGGTATGATTGAAGGCTTTGATGCCTGTGACGTTCCAGAAGATATCCTAAGATGGGATTGGGGTGGTATTCCTGGTACATACAATGAAAAGACTGGTATGCCATACAATGCAGGTGTAAGTAACATCTGGGGTCAAGTTGTAATAGATGAAGAAAATGGAAAGATATTCTTCGGAACAGCACAACCTGGTCCAGACTTTAACGCAACCTATACTCGTGGACCTCGTCTATTTGGTTCAGCCATAGTTGCGTTGAACTCTGCTGACGGCACACTAGCATGGTACTTCCAAAGTACTACAAAAGACCTTTGGGACATGGACTGTTCATGGAATACAACCTTAATGGATATCGATGGACGAAGAACTGTTATCAAACAATGTAAACAGGGTCACGTTCATGCATTTGACGCAAATACTGGTGAAGTATTATGGATTACTGAAGTTCCTGGTGTAAGATTCTCCAAGTACTACTGTAATGCAGCATGTGATAATGCCGCAGGACCTGCAAATGGCCTTCACGGTCGTGGCGTACTACACTCTCAAGCACTAGGTATTGACGGTCTTAACGCTAACAACAACTGGTTCTTCTTAGATCCAAGATCCCAAGCTGACATGGATAAACCAACCCAATGGCACCCATCAACAGAACCTCACTGGCAGAATCCAAACGGTTCAGGCTGTGCTGAAAACGACATAGCATTCGATGGTAACAACATCTATGTATCCTGTAAGAATGAACCTGCTTACTTCAAAATTCTTCCACAAGAACAACGATGGGGTAGTTTCTGGGGAGGTTTCATTGAAAACCATATAGACGACGCTCCATTCCCACCACAAAGGAATCACTCCGTAACTGCAATTAATGCAAGAACTGGAGCTGTTGAATGGGACTTCTTCGTAGATACTGTTACACACCGTGGCGGTATGGTTGCATCAGGTGGTGTAGTCTACTGGAATGGTTTCGATGGTAAACTAAGAGCAGTCGCTGCAGATGATGGAGAACTTCTACATATGTTCAATCTAGGTTCTGCATTAGACACTCAACCTACTATTGGTCAAGACGCTAATGGTAAGACTTTACTCCTACAATCATTTGGAGGTAGAGGTCTAGGTGGAGAAAACTTAAGAGGCTCCGTTCCTGGTGCCATAATGGCGTTTGGCTTACCTGACGACTTGCCTGAAGGTGTTAGCAGAGAAGTCGAAGTCCGTGAAATAGTCGTTACAGAGACAGTTGAAGTAGAAACAGTTAGTCCAATTTCATATGTTGTAATTGGATTAGGTGTAATTCTAGTCGTTGTTTCTGGCGTACTCTACAGCAGATCTCGTCAAACTACAACATAATAACATAGTAATTTAGTTGTCCCGAAAGGGACAACAAAATTTTTTTTTTAAATAATATAGTATTCAGTTACACTTATTATTGTATAGATTAATTAATTTTCAATGAAAATTGTTGCATTGGGTTCTAGAGCATTTGTTTCTGGTTTTATGTTGTCCGGCGTTAATGGGATGCCGGTCTCTGATTCATCAAGTGCTCTTCAAAAAGTTAAGTCTCTTGTAAATGACAAAGAAGTCGGATTAATCTTAATCAGTAATGATATATTTGAATCAATAGATGATGAGATTACTGATATTCGTTCCGCACATCCAATTCCACTTATTTATCAAATTCCTAATCCTGGTTCAAAAATGGAAGAAGTGGATTATCGCGCATTAATTAAAAAAGTATTGAAGATGTAGTTATACCGGTGTTAATTTAAATTTCTTTTTTTGTTGATCTGATTTATTCCATGCTGATGAAATATTACCTCCGGCAATGTTTACTATTGATTCAATGGCCATTTTATCTTTTTGTTCATTAATGATATTTTTTATTTTTTCTACACATTTTATTATTTCTTTATTCTTATATTCTTCTATTTTTCCAGTATCACAGAGTTCTGGAATATCAGTTTCAAATGGCAGTGCAGCAATTAATTCTGTATCCAATCTTTTTGCAAATTCTTCACTTTTGGATTTTCCCATGATGTAACTATTTTCCCCACAATGCTTGCAATTTAAATATGCCATATTTTCTATTAAGCCAAGTAGTGGAATCTTTAACATTCTTGCCATATTTGCAGATTTACTTACTATCATTTTTGCCAAGTCTTGCGGTGTACTAACTAATACAATTCCCGATAATGGTAATGATTGAAAAACTGTAAGTGGCGCATCTCCTGTTCCAGGAGGCAGATCAATTAAAAGATAGTCGATATTTCCCCAATCCACGTCTGAATACAATTGTCTAATTAAGTTGTTAATGATCGGACCCCTCCATACAGTTGGCATCTCAGGATTATCTAACATCAAGTTTACTGAAATTAATTTTAGCCCAGATTTAGTTTCTGCAGGAATGATTCCATTTTTTCCTTTCATTATTCTTTTGTTAACACCAAAAATCTTTGCAATACTTGGCCCAGTAACATCAGCGTCAAGAATTCCAACATTATATCCACTTCTCTTTAATTCTGATGCAAGCATGGCTGTAATTGATGATTTACCTACACCTCCTTTTCCAGACACCACTGCAATTAAATTCTCGTTGTTTTTCTTATCTAATCTTGCAATAAGATCGTCTTGAGATTGTGGTACACTTTTATTTTTCTGCACATTAATTTTTAATTTATTTAATTCTTCTTTTGTCATTACAGTTGTAGTAACATTGACATCGTTTATTTCATCGAATTTCATTAATTCGTTTCTAACATCTTTCTTGATTGTTTCTGCTAATGGACAACCTGCAACTGTTAGAGCAATAAGCACATCTACTTTATTAGGACTAATATTGATTTCCTTAACCATATTTAGCTCTATTATATTCATATGAATTTCTGGATCCATTACATTAGTTAACGAATTCCTGATTTCTTTTTCTGTTATCAAAAGCTTACATGATAAATTTGATATTATCACTTATTATTGTTGCCATAATTTCCACCATGAAATTTTAATTTAATTAAATTGTTATATATGTAAATAATTTATAATTAATTTATTAATACAGGTGTTAAAAATGAATGATAATTCATCTACTAAAATTATTCTTGACGAAGTCTCTAGCGATGCTGAAAAAGAAATCGAATCTATATTAAAGACTGGCTTAGACGAAGCTTACAAAATAATTGAAGACTTTGAATTAAAATCTAAAAATGAACAACTTGTTATAGATTCTCAACAAGAGAAGGAATTTGATATAAAATCAAGACAAATTATTGGCGCTGCAGAAATGCAAAGCCGTAATTCTAATTTAAAACTTTTAGAAAAGAATATCAATAAAGTTTTTGATACTGCTTTACAACAATTTAATAAACAAAAAGGAAAAAATTATGATAAAGCACTCGAATTATTTATCAATGAAGGTATAAATTCAATAGATGATGACGAAATTTTAATTTTTTGTAATAAAACTGATATTCGTATGGTTCAAAATTTAATTAATAAAATATCTTCAAAATCTAAAAAAAATCTTCAGTTATCTGATGATTCTTTAAAAACATTAGGTGGTGTAATTGTTACTAGTTTTGATGGAACTGTTAGTGTTAATAATACTATTGAAGAACGATTGGATCGAATGAGAGCGGAATTACGTACTGATATAGTTAAAAAATTTAATTAAAATTTCTAATTCTTGAGTATCCATGTTTGTATGGAAGTTGATTTTCCTACTAGTTGTGTAATTATATATGCTATTGGAATTGAATAAATTATTGTTGTAGAATTAAATATTGCTATTAGTCCTAGGGTTGTAGGTATTATTTCCATTGGTATTGAAAAACCGATTGGTGGTGGCATTGGAAGTGCGATGTAATTTACAATAGTCATTGTTGACGTTCTAAATATGATTGTTAAAATTATTAATAATATAAAATTTACAGATAAAATATTACGTTCTGTATTTTGTAGATTATTAATAATTTTTATTTTTTTGAATAATAACACGCCACAGTAAGTTGCATAGATTGCTATTAAATTATATACAGGGCCTGAAATTAATTGACCTGGAAAGAAAACTAAGAGTGATAGAAAGTTAATTATTCCTGCTACGATGGCTGCAATTGGACCAAATAAAAACAAACATATGAAAAGAGGTATTTCCCATATTTGATAAATTAGAAATGGAGCATATGGTGCAGGTATTCCTAAAGGGAGGAAAGGTGGATGTAATACTAATGCAATGGAAGAAAATAGAATTGAGGCTGTTAGTTCTCTTCTATTGAGCATTTTTTTATACAATTAACCTACTAATTTTATATTCCGTAATAAATATTTTGTTACTACAAAAAAACTTGTAATCTAATCTACGACTATTATTTTTGCCGTCATAGTTGGATGAGGTTGGCAATGATACACAAACTCGCCTACTTCCTCAAATTTATAGGAAAAACCTGCATTGACATTGAGTTCACTTGATTTGAATATATGATCTCCTCTTTTTCCTACAGGACCTTCAACAACATTATGCCAGCCAACAGCTCCACCGCTACCCCCTATTGTTCTGTCAACATTTTTCCAAGTTACTGTGGTTCCTTTTTTTATGGTAATTACAGAAGGATTGAATTGTAAATTATCTAATACTATGTCAACTTGTCCCGATAATATTTCATCATCAACCTTTTCTTCGACTTCATCAACTTTCTCTTCTATTTCTTCTGGCTTGTTTTCCGGAGGTTTGACATTTTCTTCTATGCTATCACGTTTTTCAATAATTTCTTGATTGTTGTCCGGAGAATCTGGTAATATAAACACTATTGCACCCAATCCAATTGCAACTAATAATATTAACGCAATGATTTTTGTATCCATTAGTTTAGTGAATGATACGGTACTGGATTTAAAATTTGCTAATTTGTATTCTTTATTAATATTTCTATTGGTTATTTATATTGGCAAAAATAGAATTGTTTTTAAACTCTGAATTCTGACGAAAATATAGTTGATTATTAATGCAAGCAAAAGGTAAAATTATTTGGATTAGCGGTCCTGCAGTAAAAGCTGATGGTATGTCAACTGCCGAGATGTATGAAACAGTCGAAGTTGGTAAAGATAAAATTGTTGGAGAAATTATTAGATTGACAGGTGATACTGCATTTATTCAAGTTTATGAATCAACTAGCGGTTTAACACCTGGTGAACCAGTAGTTGGTACTGGTAATCCATTGTCTGTAACTCTTGGTCCTGGAATGATGGGAACTATTTATGATGGTTTACAAAGACCTTTAGATAAAATAGCAGCTAAAGCAGGTTCATTTATTACTCGAGGCATTCATGTTCCTCCACTTCCAAAGAAAAAATGGAATTTTATTCCTGAAGTTAAAGTTGGTGATACTATTCATGGCGGCAGTATTTTAGGTAGTGTTAAAGAAACTGATTTAATTGATCATAAAATTCTTGTTCCACCAACTCAATTCAGTGGTAAAATTACTGAAATTGTAAAAGAAGGAAGTTATGATAAAGATCATGTTATTGCAATAGTTGAAAAAAAAGGAACTAAATCTGAATTAACTATGCATCATCAATGGCCAGTGAGAAAAGCTAGACCATTTACACAAAGATATGACCCAGAATTACCTCTCATAACTGGACAACGTGTTTTAGATACATTTTTCCCAATTTCAAAAGGTGGAACTGGTGCAATTCCTGGTGGTTTTGGAACAGGAAAAACCGTTACATTGCATCAAATTGCTTCGTGGTCTGACGCAAGTGTAGTTTTCCATATTGGTTGTGGAGAACGTGGAAATGAAATGACTGAAGTTTTGATAAAATTTCCTGAATTGAAAGATCCCAAAACAGGTAAATCATTAATGGAAAGGACTGTCCTAGTTGCAAACACCAGTAATATGCCAGTTGCTGCTCGAGAAGCAAGTATCTATACTGGAATTACAATGGCAGAATATTATAGAGACATGGGTTATGATACTGTCTTAGTTGCTGATTCAACAAGTCGTTGGGCTGAAGCTCTTCGTGAACTTAGTGGAAGATTAGAAGAAATGCCTGCAGAAGAAGGTTATCCTTCTTATCTTGCATCAAGATTAGCAGAATTCTACGAACGTGCAGGCAGAGTCAAATGTTTAGGTTCTCCTGATCGAGATGGGTCTGTAACAGTTATTGGAGCTGTATCTCCGCCTGGTGGTGATTTTACAGAACCTGTTTCTACTCACACGATGAGATGCATCAAAACTTTTTGGGCTCTAGATACTAAACTTGCATATTCGAGACATTATCCATCTATTAATTGGATGACTAGTTATTCTGGATATTCTGAATCTATCGATAAATGGTGGGTTGATAATGTAGATAAGGATAGGCCTAAATTAAGATTAGAAACATATACAATATTACAACGTGAGGATGTTTTAAAAGAAATAGTTCGGTTATTGGGCCCAGAAGCTTTACCAGACGAAGAAAAATTAATTCTCGATGTAGCTCGTATGATAAAAGAAGGCTTCTTACAACAAATGGCTTTTGATAAAGTTGATAGATATTGTAATCCCGATAAACAAGTTAAAATGTTGAGATTATACACTGATTTCTATAAAGAATCTCAAAAAGCTCTCAAGAATGGTGCAACTGTAGACGAAATTCGTAGTTTGCACATAGTCTCACAAATTATTCGTTCGAAATATGAAATTTCTGATGACGAACTTGATAAAATGGATGAATTGTCTAAGAATATGTTCAAGTCGTTTAGTGATTTGTCAAATAAGGAGGTAGCTGCTGTTGTCAACACAAAATAGATCAGCCGGTTTAGAATACACTAATATCTCTGAAATTAAGGGACCTCTATTAATTATTAATGGAGTTACTAATTCTGCTTTTGATGAATTAGTTGAGATAACTACTCCTTCAAATGAGAAACGTTTAGGTCGTGTTCTTGAAATAGGTGGAGGCACTGCTGTTGTACAAGTCTTTGAAGGTACTAGCGGTCTCTCTATTGCAAATACTAAAACTCGGTTCTTAGGAAAAACAATGGAAATTCCTGTTTCTGATCAATTGTTGGGAAGAGTATTTGATGGCCTTGGTCGTCCTATTGATGGACTTCCTGATCCTATTGGAGAAAAATTCCTTGATATTAATGGCGAATCTATTAATCCTGAACGTAGAGACTTTCCAGAAGATTTTATTCAAACAGGCATTTCATCAATTGACGGTCTTAATACTCTTGTTCGAGGTCAGAAATTGCCTATATTCTCTGGCGCTGGACTTCCACATAATCTTCTAGCTGCACAAATTGCACGTCAAGCTACTGTACCTGGTAAAGGCGAAGAATTTGCTGTAGTCTTTGCTGCAATTGGTGTTCAAAATAGCGAAGCGGCTTTCTTTAGAAAATCATTAGAAGAAAGTGGAGCAATAAAAAGAAGTATTTTATACATTAATCTAGCAGATGATCCTGCAATAGAGAGAATCATTACTCCTCGTGTTGCACTAACTGCTGCTGAATATTTAGCTTTTGAGAAAGAAACACACGTTCTAGTTATAATTAGTGATATGACTAATTATGCTGAAGCGTTAAGAGAAATTAGTGCTGCTAGAGAAGAAGTTCCAGGAAGAAAGGGATATCCTGGTTATTTGTATACTGATTTAGCAACAATTTATGAACGTGCAGGTAAAATAAAAGGTAAAAATGGAAGTCTAACTCAGATTCCTATACTTTCGATGCCCTCTGACGATATCACACATCCTATTCCTGATCTTACAGGTTATATTACTGAAGGACAGATTGTATTAGGACGTGATCTTCATCGAAAAGAAATTTATCCGCCCGTTAGTATACTTTCTTGCTTAAGTCGTTTGATGAAAGAAGGTGTAGGTGAAGGGAAAACTCGTAAAGATCATCAGAATGTTAGTAGTCAATTGTATAGTGCTTATTCTCGTGCATTGGAACTAAGAGCTCTTGCAGAAATTGTTGGAAAAGCAGGACTTGCATCAAATGATATCAAATACTTGGAATTTGGCGACTTATTTGAAGATAAATTCCTTAAACAAGGTTTCGACGAAAATCGAACCCTTGAAGACACACTTGGCATTGCATGGAATTTATTTATTACATTACCGATTGATGAATTAACAAAAGTCAAACAAGATGAAATTGATTCATATCTGAAGGTTGATGAGTAATGTCCAGTTCTAATAAACGTCCTCCACCAACTAAAATCGAGTTAATTAAAATTAAACGCAGTCTTGTTGTTGCAAAATCTGTTTACAAAATTCTTGAAGACAAAAGAGATGTTCTTCTAAAAAATATTGATGAAATGATTGACGAAGCAGGAAAAGCTCGAAATGAGATGTCTGAACCACTTTCTAATGCATATAGATCTCTGTTTAACGCATACATGTCATTGGGTCCTTCTAAACTTGAGTCTATTGCTTTTACTTCACCTCCTCACATAGATGTGGATGTCGACGTTAAGGTTGTTGTAGATGTAAGGATTCCGACAATTTCTATTAATGAAAAGAAAATTGGTTTAAATTATGGTTTTGCTGATTCTGATTCTAAACTTGATGATGCTACGCAGATGATGCGTTTAGCCCTTCCTCGAATTCTTCGCGCTGCCGAATATGAAAATTCAATTCTCGAACTTGCACGATCTTTAGAAAAAACACAAAGATTACTTAATGCATTGGATTATGTTATTATTCCCGGATACACAGAATCAATAAACTATATTTCTTCAATCTTAGAAGAACGAGAAAGAGAAGATTTCGCAAGACTTAAACATGTGAAAAAAATCCTAGAAAGTAAGAGATGAGATTTATTGGATAATGAAGATTATAAAACATTAATCAAAAAAATAAAGGAAGAATATGAATCATATCTTAGTGCACTAAAGAAAGAAGTTATTTCTGCAAAAGATAAAGCTTATAAGGAATTGGGAAAATAATTCCAATATAAAAATGAACTACAAAACATCACTACTATTAATAACAATCATTTCAACAATTTTCCTACAATTTCTACCCATTGCATACGCACAAGAGGAATCTTCTGTAGCTGGAGAGAAATACTTAGGTGCAGGAATCGCATTTGCAGGCGCAGCACTAGGCGCAGGTTTAGCTGTTGGTCGTGCAGGTTCCTCTGCTTTAGCTGCAGCTGCAGAAAATGAAAGCATGATGACAAATGGTCTGATCATTACTGCTTTGGGTGAAGCTATTGCTATATATGGAATTGTTGTTGCTCTATTGATAATGGGAAGCTAAAATTACTTTTTATTAATTATTTTAGATAACTTAATTATTAGTAAGATAGCTGCTATTAATCCTATTGTTGATAATATGAATGGAAGAATTATAGATATTGGATTATCTATAATTTCAGATAAATAGATTCCAGATAATGTTCCAAACATTACTAATATTACTATTAACATTGTAGGAATAATTCTAAATGTCTTCTTTTTTATTTTATTCTTTAACAACTTAAGTCATTAATTCTTCTGGCAATGAAATTCTTGTACAGTATTTACATTGTAGCTTTGGCGGATATTTGTTAATTACAGTTAGTTCTGAAATAATTGGCTCATTTGAATTTGAAATGCATGTAGGATTTGTACATCTGAACACTCCCTTGAAATTTTTTGGTAATTCAACATTCCTTTTTTCTGTTACTTTATAATCTTTAATTATGTTGATTGTTGAATTAGGCGCTATTAATGCTAATCGATTCGTTTCTTCTACAGCTAGTATTTTGTTTTCGATTTTTATTATATCCTTCTTATTGAATTGTTTACTAAACACATTCATTGCTACAGAAACTTGATTTCCATCAGTTCCCTTAATATTAAGTGCAGATAAAACATTCAATGCCTTTCCTGATTCAATATGATCCAGTACTGTTCCGTGTTTTATTCTATTGATTCTTAGTTCTTTTTCAGACATAGTTTCTTAATTCCATTTAATATACGTAAGTTTATATTAATGTATCTTATACATTAATCAAAAGATTGAAAAATCCATTTTATAACCGAGATATTGTTTCGATAAAGGATTTTCAACGTATTGAGCTAGAGTATCTCTTTCAATTTGCAGATAAAATAAATACTAATTTTCCCGTTGGTTCTTTAAATGATAAATCAATTGGTTTGATATTTTTTGAACCTAGTACTAGAACTCGATTGAGTTTTGAATCTGCTATGAATTCATTAGGTGGTAGGTCTATCGGTTTTGGGGATTTATCCTTTACATCCACTGAAAAGGGAGAAAATCTTACTGATAGTTTATCTACTGTTGATAAATATGTTGACGCAATCGTATTAAGACATACTAGTGAAGGTGTATCTCGATATGCTTCTGAAATATGTGACAATCCAATAATTAATGCTGGAAGTGGCAGTGAAGAACATCCTACTCAAGCCATGTTGGATGTTTTCACTATAATAAAAGAATGTGGTAAAGTTGACGGTCTTAATATTGCAATCTTTGGTGATTTAAAATATGGTCGAACAGTATATTCTTTATTATACGCTCTTTCTAAGTATAAACCAAATATTCATCTTGTTTCTCCTGAACTACTTCAACTTCGACAAGACCCACTTACTCAACTTCAAGAAAATCTAAATATCTCTATCCATGAAAATCTTTCTGATATAATCTCTAATCTAGATGTAATTTATACTACGAGAATACAAAAAGAACGTTTTCCGGATTTACAAGAATATGAAAGAGTAAAAGGCTCTTATCGCATTGACGAAGAATTACTTACAAATGCAAAAGATAATCTTATCTTACTTCATCCTATGCCAAGATCCGGTGAAATACCAAATAATATTGATAATACCAAATTTGCAAAATATTTCCATCAAATAACCTACGGAAAACTAATTAGAGCTACTTTGTTATATCTTATTTTTACAGAAGATCCTTCTTTTTAACTGCAACTCGAATATGAGCAAGATAGGCACTTATTACATCCTTCTATATATATAAGGCTCATTTCTCCACACGATATACATTTACTTTTATTAGTATTTTTGTTTGGAATTTCAATTACTTTATTTTCTATTTTTGATACTTTGGGTTCACTTACTTCACTTTCTACATGTATGGAATCTGCTAACGCATGTGCAATTGCGTCTGGAACAGATCTTATTGCTATACTTCCTACTTTTGTTTGATGCCATGATACATTTCTTGTTTGTATGCCACGCATAGTCTTAATTATTGATTTTACATCTACATCAGATTGCAATGCTATTGATATTAAACGCCCCATTCCCTCGTACGCCGCTTTTTCTTCATCACCTGACTTTCCTCTTTCAATGAATACTTCTCTTGGAATTCCATTTTGGTCTTTATTTATTGTTATAAATAACCCGCTATTTGTATAGGTAAACCTATAGGTTCTACCAATTAGATATTCTGGCCTCTTATAACCTCCTGGAAGCATGTGTGTACTTTTATTATTTAATTTAGCATTACGTAGGTTCTTTGTTTTGTCTGTTTCTAGTACTTGAATGTCCAGACAACCATCTCGATAGACTGTTATGCCTTTACAATGGGTTTTATAAGATAATCTATATGCTTCCTCAACTTCCTCCCTAGTTGATTCATTTGGTAAATTTATTGTTTTACTTACTCCATCATCGACAAATTCCTGAAATGTTGATTGCATTTGTACATGTTGTCTTGCTGGCAAATCTGCCGAAATCGGAAACATTTCTTTTATCTCTGTTGGAATCCATGATATATTTTGAATACTTCCCCCGTTTTCAGATATTTCTTTTATTTTTTCCTTGTCTAGAATGATATCTCGTTCTTCTATGGCCATAGAAAATGATTCGTTTAAATAATGAAGTTCTTCAAATTCTTCACTTCGTTCTTTAATTCTTGAATGTCTAATAAAAACCAAAGCAAAATGTGGTTCTATTCCTGGAGAACAATTTGCTATCGTACCTATTGATCCTGTTGGCGCAATAATTGTACAATTAACATTTCTAACTTTTTTTCCTATCTTTGCAAAGTCACTTTTATCCCAATATGGGAATGTTCCTCTTGTTTCTGCTAATTCTTCAGACATTTTCCATGCGACTTCTGAAACAAACTTCATTAATTTTCTTGAAAATCTAAATGATTCTTCTGATCCATATCTTATTTTTAATTTACTTAACAAATCCGCAAGGCCCATTACACCTAGGCCTAATCTTCTCATATTGTGAGACAGTTCTTCTATTTCTTTTGTTGGATATTTATTTACTGTTACGACATTATCTAGAAAATGTATTGCATTTCTTGAACATTCTCTGAGCCTATCCCAATCAATATCATTGTTTTCTTTGTTTGCAAATTTTGCAACATTTATAGAACCAAGATTACAGCTTTCATTTGGAAGTAATGGAACTTCACCACACGGATTTGTTGATTCAATTGTAAAATGTTCTCTTAATGGATTTGAATTACTATTATTAATTTTATCAATAAAAATTAATCCTGGGTCTGCACAACTCCAAGCACAATCAATAATCTTTTGCCATAGTTCTTTAGCTTTAATTCTTTTTCCATCGCCATCACATAATTTACATTTTATTTCAATTTCTGATTCTGGGAAAATATTTTTATTACATTTATTACATTTGAGAACTTCTTTTCCAGTTCTTGGATTTATGAATTCATGATATTCATTTTTCTCTAATTTATTCATGAACTTATCTGTTATTGCAACTGAAATATTGAATTCTTTCATAATTTTTGCTTCTTCTGGTAATTTCATATTATTTTTTTTCATTTCAATGAATTCTGTGACATCAGGATGATTAATACTTAATATTCCCATATTTGCTCCACGTCTTTTCCCTCCTTGTTTTATTACTTGTGTGCATTTATCGAATAATTGCATGAATGATACTGGTCCTGAAGCTACTGATCCTGTTGAACCAACTTGATCTCCTTCAGGCCTTAGGTTTGAGAATGAAAATCCAGTTCCTCCGCCTGTTTTTTGAACTATTGCTTGTGTTTTTACTGCATCTAATATTGAACTAGTATTATCATTTACTGGTAGTACAAAACAAGCAGATAATTGACCTAGTTGAGCCCCTGCATTCATTAATGTTGGTGAATTTGGCAAAAATTCAAAACTTTTCATCATTTTATAAAATATTTCTTCAGATTCCTCGTTGTTGAAATCCTTGTATTCATTATCTGCAATTGCAATTGCATTTGCTACTCTCCGGAATAACTCGTCTGGACGTTCTTGCCTTCCATCATCAAATTTTAACAAGTATCTAGCTTTCAATACTTTTATTATATTTTTAGATAACGTTTCATTTATTTCCAAATCTTAACACCTTATGCAGACATTTTAATGTGTCTTTCTAGTATTTTTATTTTTATTAGACAAATGTTCAGTTTTTTAAAAAATAATATCCTCATATGTTCCTATGGGCGAATCTGTATTTGATACTTTATTTTAAAAATAATTGACAAGATATTTCTGTTAGTATTAATTCATGATTGTAACAATAGATGAAAAAATGTTTTAATTGAAGAAATCTGTTTATTTTGAACTGCTTTTTTTCCTAATATATAATTCATCTGTCAATTGTTTATGACTTGCTACTTATAAAAATAAATTATCTAACCGGATACTCTTGTAATGCAGTTGAGTTACAATTAACACATTTCTCCGTATTATTGGTATTTTTTAACGCGCATGAAATACATACTTTTAATTTTCTACAATATTTGAAAAACATGATCTTTTTTGATATTATCTTGTAATTCTCCAAGAAATCCTTCATAGTCATATTTGTAGTATCTAAATAAATTGAATAGCCTCCTCTATATTTTTTAATATAAGAATATAATTCGTTAATTTTAGCTTGTTCATTAAAATCTAGTATTATTGATTGTTGATATTCATTTGAATTTGATTTCGTTATTACTCTTCCTTTGCCAAATTTTTCTATATCTATGTTTGTGAATCTCTTCCCAGAACCATCTGTTATGACAGATAATCCAAATTCTTCACCTAGTTTTTTACTTGAATTTGATATTTCTTCCATTGCAGTATCTAGAATCTTTCCTGCTAATTTTCCTCGTTCTTTTTCTGTCGTTTTTGTGCCTAGTATATTATCAATTGCCTCATCTAATCCTGTTAAATTTATTATTAGAGGAATTTTCTGATTAGAAATTATACCTGTATTAATATTCAGTAATGGCAATAATCCTTTTCCTATCATGTTGTCAATTATTGATCTTCTTGTCGAAAGTGCAGAAATTGCAGTTTTTAAAATTAAATTAACTTTTGCTCTAAAATAAGTATTATCTTTGTTTGATTCATAGGCTAATCTTGGTAGATTTATTGCTACTGAATGCAATACTATATTTCCGCCTGCCGTGTTCTTTATTACAGATTTATTAATTCCAGAATAAGAAAAATTATTTTTTGATTCGCCGTTTATTGCAATATATCCACCTTTCTTATTTATCGTAAATATTTTTTTTAATAATTCTTCTTTTTCTGCGTTGTCATTATTTTCTCCAATATGTATAATTAATGTTATTTTTGGAATCGCAACTGTTTGTAAATATGATTCATAGCTATCTAAAATAATTTTTTCCACTTTTGTTATTTGTTTTTCATCTTTTTTTGTATCTTTTGTCGTTGTGAGATTTAATGATACGAATGGACTGTTGTTATCTGCAACAACTTGCGAAATCATTTTAAACATTTGTATTATATTCTCTTTTATATTTCCTGATATTTTGTTGTCTATGAAATTAATAATATAATCTATAAAATTATTGTATGCAATTTCTACATTTATTTCTTTACTTAATTCTGTTGTGAGAAGAACAATATTAGATAGACTCTCTGAAAAATTTTTTGCTTGTGCGATATGTATTGAATTTAGTAATTTTCCTTTTACTTTAATTCCTTGTGAAGGTAGTGAATTCAAATTAATAAATACTGTGTCAGGTTTTAGACCCCATACTCCAAGATTCGAAATATGTATATCTCCTGATAAATGTGCATCTGTTACATCTCGTGATAATTGATTTAATAATAAATATTCAGAAAATACAGCTTTTGAAGTCTGTGTAACAAGAGAATCAACTCCATTTGTACTTCTTGAATGTTGGTTTAACATTTGTGTAACATCGTGTATTGGCAGTCCTATTCTTGTTAATTTATGCCTATATTCTTCATATCCGTGTTCTATTAGTAATGCATTTACTATTTCCCTAATTAATGGAGCTGTTAGGTAACTTGTTTGAAATTTATATAATCTAGCTTCTGCTTCACTGGTCATTTTTTGCGCTAAATCAACAGGCATTCCTGCTTCTTTTACTAAAGCTTGTAGGATTTTATCAGGCTTGAATTCTTCCATCATCTCTCGTGATGTTCTGACATAGATCTTTCCACTTTCTATAACACTTTGCTCTTCAATTTGTCTAGTTAAATTTAGTATTAATCTTCCCAAATTTGTTACTGTATATCTTCTTTCTGCCCTGTTTAATGTAACTAGCATTTGTTTAACGAGTTTTCTTAAATGATAAGCAAATTTGCCAGATTCTTTCTTTGATTTAAATCCTGCTAGGGTTTTTAGTTCTGAATAACTTAATGGACCTTTAGAATTTAATATTCGTAAAATATCTAATCGATTTGAAGACGCAATAACCGAATAAATTGTCCTTACCCTTTTTGATGTTCTGTAAGGACCTATTGACATTCTTATAAATAACCAAAAAACACATTTAAAGGTTAAGTAAAATTGACTTAATTCTTTCTGAACTAGATACGCTTTTTTATTATATATTCAATTGTACGTTAATGGGGGCGGTCGTCTAGGCTGGTCTAAGATGTTAGCTTTGGGAGCTAGTGATCGGGAGTTCAAATCTCTCTCGCCCCATCCTTATAATTTATTATTTTATAATTAATTTTACAGGGATTGACTGTGTTATTTCTTGATTTCTTACGCTAAGCATTATAGTATAGCTTCCAGAATCCAAATTTTGCGGTTCAATTTTTATTGGGATTTCTTGTTTTGTATTAAATTTATTATCTATTTGTTCAAATGTAATTGAAATATTTTTTAATAATCCATTTCCTGTGAATGTGCCAGATACTTCTATATCTACTTCGATCATCTTTTCTGGTTCTATAGTTAATATAACTTCTCCAGAATCATCTGATTCAATTTCTATTTCTCTAGTAGAAGATTCTATTGAGAATTCTAGCGGTTTCTTAACGTCAAGAAATCCAATTTTGTTTTCTGTCCATTCTGTAAACCATATGTTTCCCTCGTTATCTATATCAAACTGAAGTGCATTTGCAATACCTCCCCAATCTAGATTTCTTGTAGGTATATCATATTCAATTAGTACAAACCTAGTAGTGTCAAATTTTGCTATTGTATTTGATTGATGAATATTCATCCAAAGATTTCCATTCATATCAAATTTATTCCAATATGGTAAAGTTGTAGTATAGTCTGTTTTACTTGGCGAAGTGATAAATTTTGTATATGTTTTGTTATGAGTATTAAATACAACAAATTGATTAGAACCGTGATCATTTATCCAGATGTTATTATCTAAAATTGCAACTCCTACAGGAGATAATACTCCTTCAGGAAGTTTATAAAAATTAAATTTACCTTCTTTATAATTTCCAAGTTGCCCTTCAATTGGCCATGTAAGCATTGTGAACCAAATTGTATTATCTTGATCAACAGCTATTCCTCCTAAAACTTCTAAATCTAATGGTGGCTCAATTTCAGTTATGCCTTTACTAGTATTTGTTAATGTAAAATCCCGATCTATTATTGCAATTTTTTTTCCAAAGATTTCTGACACTAAAATTCTTCCATTCATATCATTAATTATTTGAACCGGATAAGCATTTGCAGTTGGAATTATATAATGTTCAAATAGGTTGTTCTTTTTGTTGAATTTCCATATTAAATTATTTTGATGATCTGTAAACCAAATTTCATTATCTATTGTTATTATGCTCCATGATTTTATATTTGAGTAATAATTTGATATTTCATATTCGTTAAAGACATTATTTTTCTGATTAAACGAAACAAGTTTACTATTGTTGTTTTCTATAAACCAGATTATTCCATCATTATCTATTGTTATTGCAACTGGGGCTGAACAATGATCTGGAATTACATATTCATTGATGTATCTGTTTTTGTTCTCTTTTCTTATATTACAACTGTCTTGGCTACCATTTTCTTGAAATCTGATATTATTATTTATTAATTGCGTTCCAACTATTAATCCTAAAGTTATCGATAACGTAAAAATTATTATTAATCTCTTTTTATTCATCAAAATCATTCATTCACCATATTTTATTAATATTATAGAATAATTAATTAATTATAAGATAATCAATTCAATAATAATTAGGCCGGGGTTGCCGAGCCAGGTCAAAGGCGCTGGACTTAAGATCACTCTCAAGAGATGAGAGTCAAATAATATGACATCCCGTCACTTAGGTGTTCGTGGGTTCAAATCCCACCCCCGGCACCATTTTTATAGAAAGACTAATACCATGTTATGATGAATATATTTCATGTCAATTGTAGCTGGTAAAGCGTTAGACTCTGATCTTGTTTTTCGAATTATTGGATTAAGTCTAGTATTGTTGGGATTATTATCAATTCGTTATACTTCTACTACTCCGACACTTGCTCCACAAATAATTCCGATTTATTATTTTATATCTGCATTACTTGTCATAGCTGGATTATTTGGACTTGTTTCTGTTATCCGTGATTAAAGTATAAATTATATTATTCATAGCTAATGACTAAATGATTCGAACAGTAATTCTTGGCATAGGAAATTCTGCTAGTGCCTTGATTCAAGGTCTCGAATATTATAAAAATGATAATTATAAATCTAGTCTTTGGCATCCTGTTGTTGGTAATTACAAAGTATCTGATATTGAAATAGTTGGAGCTTATGATATTAACAAAAATAAAATTAATAATGATATATCTAAAGCTATATTTACATCACCAAATAATCTAGAAAAATTTATTGAACCAAAAGATTTTGGCATTGTTGTTGAAAAAGGTATTCTTGAAGATGAACTTAATACTAATCTTAAGTCATCATTACAATTCAAAACTAATTCTGTATCTGATTTCCATGCTTCGTTAACTGAAAAGAATCCTGACATTGTCTTGAATTTAATTTCGTCTGGATTAAATAAAACCTCAGAAACGTATGCAAAAATATCTGTAGATGTTGGTTCAAATTTCATTAATTCAACTCCCACTAGTATTGCTACAAATGAAAGTATCGTTAAGAATTTTAACGATAATAAATTGATTGTTGTTGGTGATGATCTTATGAGTCAATTTGGTGGTACTGCTTTTCATAAAGGAATAATGAATCTTATGCACGAACGAGGAATCCATATTAACGAAAGTTATCAACTAGACGTTGGTGGTGGTCTTGAGACAAATAATACTCTTGATGAAGACTTGCGTAAAACAAAAAGAAATATCAAATCTCATACTATTGAATCGGAATTACCTTATGAAGTTCAAACTGTCTCAGGTACTACTGATTATGTAGATTTTATGGGTAATTCTCGTACAAATTACTTCTGGATTGAAGGAGAATCCTTTCTTGGCTCAAAAATTAAATTTGATATTTATCTCCGAAGTACTGATGGGCCTAATGCTGGCGGTTTGTTATTTGATATACTTCGAGGAATTCAATATTCTAAAGATATGAATGAATCAGGTAATATTGAGATATTATCTAATTTTGGTTTTAAATCTACTTTGACCAAAAATGAATTAAGAAAATCATACCAGGACTTTTCAAAAAAATACATTGTATAATTTGATTTATATTATTGAGCGCCGTCGACAGGATTTTCATTTTTAACCTTGAACCTGCGACCAGCTGATTAACAGTCAGCTGCTCTACCACGCTGAGCTACGACGGCAAACGACACTCAAGTTACGAATGAATCAATTATTTAAATTAATTTCTATTATGTTTTATTTTGCTTTTTATGTACTTTAACCTAATTGTCGTTTTTGTCAAAGCTTTCAAACTATAGTTGGTAAATTTAATTTATTTATAGTATATTCGATTAATAATGTCCTGGAAATTAGTTTATAAAAAAATGAAAAAAAAGAATAAATCTAAATCTCTTGAATGGAAGAGATAAATAATAATCTTAAATTTATTAATTTTTTTCTAAATCGTATTATAATGGGCCCGGTGGGCTTCGATCCCACGACAAACCGATTTCTCCTATTATATGAGTCGGTCACTTTTGGCAAAATAATTCTGCCAAGCTGAGTTACGGGCCCTATCAATTCAATTACTCAGTCTTATTTTTAGGTTTATTCTATATATTTATCTTATATTTTATATTTTTCCGTAGCACTTAACTTGCATCATAGTATAAAATGAACGGTAGAAAATTGTTTCAAGGATGTTATACCGCTCTAATAACTCCATTCACTGATGATTATCAAGTTGATTATGAAGGCCTAGCTAATCTTGTTGAATTTCAAATTTCTGAAAATGTTTCTGGTATTCTCGTTGCAGGAACTACTGGAGAAAGTCCTACATTATCTTGGTCTGAACATGAAAAAATAATTAAGACTGTATATGATGTAGCTGGCGAAAAGGCGGTTGTTATTGCTGGTACAGGAAGTAATAATACTGAAGAAAGTTTGAAAGTTACAAAATTCGCTCACAATTTAGGTATAAATCACATTTTACTTATTGATCCATATTATAACGGCCCTAGTTCACTTGAAATACGAAAAGAATACTTAGAAGTTATTGCAGACAAATTTCCTTCTTTAACTATTATTCCTTATATTATACCTGGTCGCACAGGGACTAAGTTACTTCCACAAGATCTTGCTTTTTCATATAAAAATTATCCAAATATAAATGTTGTAAAAGAAGCTACTGGGGATTTCGAAAATGCAAAATTGACTAGGAAATTATGCGGTGAAAATTTTTCTATTCTATCTGGTGACGATGATAAAACTGTTTCTTTAATTCAAGATCCTGACATTAAAGCTAATGGAGTAATTTCAGTCGCTTCAAATATAGTTCCTGCTGCAATTACTGAACTCGTTTCCTTGGTATTAACTAACAATCAAAACTTTGTTAATCTTCAAAAAGATATATCTCCCTTATTCAAACTCGTTGGAGTACAAACACATGAATCAACTGAACTTGGAACTGTTGTTGTTAAATCCCGTAATCCTGTTCCTACAAAAACTCTTATGAAGTTATTTGGTATGCCTGCGGGTCCTTCTAGAAAACCACTTGGTCTTGTTACATATCAGGCCTTAAATTTTATCTTAAAACAAGCCCAGATAGTCTGTGAAAATAGTAATTTGTTCAAGCCTATTGAAGAGTTTTTTGATTTAAATATACAGGAAAGATTATACTCTGATATATATCTAAAGGGATTGTATTATGAATCGTATTAAGCTCTGTGTTATAGGTGCATGTGGCAGACTTTGTAGTACTATAATTCAAGAAAGTATAGATAAATTTGAAATAGTCGGAGCAGTTGAAGCTGCAAATAATCCTAATATTGATAAAACTCTTAATGATCTCGGCATAATTGAATCAGATATCAAAATAACAAGTTCAGAAGATTTATCATCCGCTATTATTGATGCTGATATTACAATATCTGCTACAAATCCTCAATCTGAACTTCTTAATGCTCCTATTTATGTCGAGAATAATAAAAAAATTATAATTGGTACAACTGGATTTTCTGTAGAAGAATCTTCTCAACTTATGTCTATATTTGATAATAACGTTCCTTCCATTATAACCTCAAATTTTTCTATTGGAATGAATTTCCTTTATAATCTGTCTGAATTGGTTGGACAATTACCTGACGAATTTGAAGTTAGTATAAACGAAAAACATCATTCTAAAAAAATTGATTCTCCAAGTGGAACTGCTTTATCACTTGCTAAAATTATCTCAATTTCTAAAGGATATAAAGACCTAATCTTTGATCGTAGCAAACATGGTAAGCGACAACAATCTGAACTTGACGTTACTTCAGAACGACTAGGAGGTATACCTGGAATTCATGAAATTAATATTGCCGGCCAATATGAACTTCTTCGTTTTGAACATATTGCATTTTCGAGAGCTGCGTTTGCCAGAGGTGCATTAGTTGCTGCAATTTGGCTTCATAATGTTTCTGAACCACATGTTTATAGTATGAAAGATGTAATTACGAAAGTAATATCTGATTAGTGAAATTATTATGTGGAAAATTGAATTTCCTTTAAAAAATATAAATGGAAAATTATCTTTTGCTAATATCAATACATTAAATCTCGCCAAGCAATTTGGAACGCCATTATTTGTTACTGATTCTGAAAGAATTATTTCAAATTATAATCTATTATATTCTGCATTCTCTTCACACTACGATAAATTCAAAATTAACTATGCCGTAAAAGCTAACAATAATCTTTCTGTTCTTAAATTATTCAATTCTTTAGGTAGTGGAGCTGATTGTTCATGCCCTGAAGAAATCTTTTTGGCTAAAAAAATGGGTTTTTCCAGCAAAGATATTATATATACTGGAAATTATAATTCTGACGATCAACTTTCTTATGCCTTAAAACAAAAAATTATAATTAATATTGATGATTTGTCCATTCTAATCCGTTTACTTAAGATTGGAACTCCTAATTTCATCTCACTCCGAATAAACCCTGGAATAGGCGGCGGTTCAGATAGTCGATTGGTTTTTGGTGGAAAAGACACAAAATTTGGTATGAGTAAAACCGCCGCGATGAATGGATATCTTTATGCTAAAAAGAAAGGCGTAAAAAAATTCGGCATCCATATGATGACCGGTTCATCAATTCTTGATTCATCTTATTTCAAAAAAGCCACTAACAAATTAATTGATATTGCCACCGAAATTGTAGAAGATTGTAAAATTTCAATTGATTTTGTTAATATAGGTGGAGGTTTTGGCATTCCTTACAAACCTCCAGAAAAATCACTTGATATTAAAAAAGTTGGCTCCGATATTGGTAAAATTTTCAATGGAAAGAAATCCTCAAAAATTCTTAATAATCCTTGGTTGTTTGTCGAACCTGGTAGGTATCTTGTAGCAGATTCTACTATTCTATTAACTCGTGTTCACTCAATAAAAGCCGATCCGACTCCAACATTTGTTGGCACTGACGCCGGAATGAATACATTACTTCGACCTGCATTGTACGACGCATATCATCATATTGTTAATGCTAGCAGACTTAATTCTCCAAATAAAAAAATTGTAAATGTTTGTGGTCAAATTTGTGAAAATACTGATATTCTTGCAAAAAATCGAAAACTTGGAAATGTAAAAGAAGGTGATTTATTAGCTATTTTGAATGTTGGCGCATATGGGTTCTCTATGAGTTCTCAATATAATACTCGTCCTCGAGCTGCAGAAATAATGATTCATAAAGGGAAATCCAAACTTATTCGTCAAAGAGAAAGTATAAAAGATTTAATTAAGGGACAAAAACTTGTTACGTGGTTTAAATGAAATTTTCTACTAGACTAAATTCTCTTCCTCCTTATCCTTTTGCTAAACTTGAAAATCTTATCTCGACAAAACGCCAACAAGGTGTAGATCTTATTAGTTTTGGTATTGGCGATCCTGATTTAAAACCACCTGATTTTGTAAATAAAGCATTAATAGATGGCCTTTCTATTCCTGGAAATCATAATTATTCTTCAAGTTCTGGCGAACAACCTTTTCTTGAAAGTATATCTACTTGGTTTGAAAACAGATTTAATGTTACTCTTAATCCTGATGAAGAAATCTGTGCTTTAATTGGCTCAAAAGAGGGATTGGCACATGTATTTCGTGCATTTCTTAATTCTGGAGAAAAAATTGCAGTGCCTAATCCTGGATATCCGTTGTATCAACATGGCGGCACAATTTTAAATGAATTTAATCCAGTTATAATTGATTTAAACGAAGATTCAAATTTTATTCCGAAAACAGAACAATTACAAGAAGCAGATTTTTCTGGCATTTATTTAAATTATCCTAATAATCCTACTGGAGCCGTTATTACATCTTCTGATCTTAATAATATAGTTGATGTCTGTAATGCGAACGGTTCAATTATTGTATACGATAATGCATACTCAGAGATTACCTATGGTGATTATAAAGCCCCATCTATTCTCGAATCTGATCATGCACGTCAAAATAGTATTGAATTTCATTCTCTTTCTAAAACATTCAATATGACTGGTTATAGGATTGGTTTTGCAGTTGGTAATAAAACTCTTATTGACGGTCTTAAAAAAATAAAAAATCAAATTGATTCGGGTTCTCCAAAGTTTATTCAGTATGCTGCAAAAGTTGCACTTGATAGCTATATCAACGGTCACCCACCTCAAGAAATTCTTGATAACCTAAAAATTTATGAAAATCGAATGAATCTTCTTACTAATGGTTTATTGAAGCTTGGTTATGATGTTCAGATGCCTCTTGGCACATTTTATTTATGGATGAAAATCGAAGAAGATTGTGAAAGTTTTGCAATGAAATTACTAGATCATGGTATAGTTGTTACTCCTGGTTCGGGTTTTGGCGATGCTGGCAGTAATTATGTTCGTTTCTCACTTACTGTCTCTGAATCTGATATTTCTCTAGCACTAGAAAAGATTCCTGAAAATGAAAAATAAGAATACTATATAAAAGTTTTAATAATATGTTATATTTTTTGTATAAAAAATTAGTAATCTTTTTTTACTTTAGATTGTTTGAAAGTTATTATGCCAATTGACCAAGAATTCTATAAAAATCTAAAACCAGTTGCTCGTTCAGAACATGGTTACTTGATATGGGGACCAGGTAAAGAAGGAGCTGCTGCTGAGGACGATGAAGTTAAGAATGCTTATGAAGCTGCCGGAGAGACATTTGAACCATTAGGTATTCATGGAACATATGTTGCTATAGATTTTGATGATTGTGTTGCCGATGGTGCTTGTTTACCTGCCTGTCCAGTAAGTGTTTTTGAATGGACTAAAAATCCAGGTTTTAGTGGTACTGATGAAAAACTAGATTTAACTGATAAAGCTGCACCAGTTCGTGAATCTGATTGTATTTGGTGTATGGCTTGTGTTACTGTATGTCCAACTGAAGCAGTAAAGGTTGACGAAGCTTTAGTTTCTGTTGCCCAAAACGCTGAGAGTAGCCTTGATGCTACAGATGCTGAAGGCAATACAGATGCTGAAGGCAATACAGATGCTGAAGGCAATACAGATGCTGAAGGCAATACAGATGCTGAAGGCAATACAGATGCTGAAGGC
>sequence11
AGTTTCCAATGTTGTTTCTAGATCTGTTGTTACTTGTGGCACATAGAACATATCTCCTTCAGGATGATGACCTTCTGATTTTGCCTTGTCAAGAGCTTCATAGATTTTAGTAATTCTATCCATTAATGGAGAACACCATTGGTTGTGATACGTTTCATCATCTTTGTACGTATCAAAACCACCGCAAGCTGCATCATAAAATTGAGCAGCTGCACCATCATCTGTAACTCCCATTTTAGGCTTTAATGTTGCACCAAGATGCGGTCTTCTTGTTTCAGTTGTTCCACAAATCTTCCTCATTCCTTCAACTCCAAATTGTGGACCTTTGAATAATTTAAGAACACTTTTTGGTAGTTGGAGATCGACCCATTTACATTGTGGTATTGGTGTGAATCCCATCCAATTACCAGTAACAAAGGTAAATAAATCTGGTATTCCTCTGTTGTCCATATCTAAAAGATAAATAGGAAAAGCTACTTTGACCCAACCGGAATGTTTAAGAGAGCCACTTGGATCCTCAAATTTCCATGAGAATACTTTTGCTGCGGTTTTATGCGCCAAGTCGGTTGCTGTAGCTACGTCGGTAAAAGTACCAACTGATTGCTCTGCAGCAATAATTATACCTGCATGTTCTATATCCATTCTAGGATCACAGGTGATGAAAAATGTACCTATAATATAATTATCTGGATCAATCTTATCCGGTGTTGTTTGGAATACACTCGATTCACTATGTTCAATAGTAGGAGTATCCCATGTTTTTTTAATTTCTGGCATACTAATAAAAATTTTTTAAGATATTTATAGGTTTAGAGAATTTACTTTCTGGTAATTAAAAGTTACTTCTTAGAATACCAATCAATAAGATTTCCTACGCCAGATTCAAGAGTATATTTAGGTTTAAAGTCAAGTTGGTTTGCAGCTGCACTCATATCAAATGGAAATTTCTTTGATCCTTTTTTTGATGTATCAACGTGAATTTTACTAACATCGCCTTTCTTTGCTAGAATATCTTTTACGTCAGTTAAGCCTGAAATAGTTCCTGAACCTGCATTAAAAATTTCATGTTTGAGAGTTGGAGAAGTAAGTGCAGCATAGTGTTCTTCTGCTAAATCATAAAGATAAGTCCATTGTGCCATTTGTTCTTCAACAGTAATTTCTTTGTTATTCAAAAATGCATCTACCATTTCACCAACTGCTCGGCCTCTTCCCATATCTCCGGGCCAAGGTCCATAAACATGAGCCATTCTGATTGAGGCAAATTCTATTCCGTATGCCTTTGCATAATTAAATCCTTGATATTCGCATGCAACTTTTCCAGAAGCATATATGTCATCACTATTGAAAGGTACAACTGAATCAGTTTCTTTGATAAATGTGCCATCAGGGGGAGGAATTTTATTAGCAAGGTATACAGAACCGGTACTTGTGTAGATGACTCTTTTAATATCCAACTTTCGTGATGCTTCTAAAACATTTGATGTGCCCATTGTATGAACACGAATTCCAGTTTCAGAATCATTAACATAATCATGCTTTCGGCACTGAGTTGCACGTGGACCAGCAGTATGTATAATATGATCAATACCATTTTCCTTAATGACAGATTCTAATCTTGTTGAATCCAATATGTCACCTTTATGCATCTCGATTTTGTTTATATCAACAATTTTAGAAATGGCTTCGGTTTGACGACAAGTACCGTACAATGAACAATCTACATTATTGTCTACTAATACCTTTGAAATGTGTGCGCCCATTCCACCTGTACCTGTTACAAGAACTTTCATTTTCTATTTATTGACAGATTCGTAATCTTTCATGAAGGTGTCAAATCCAATATCTGTCAATGGATGTTTGAATAGCATATTCAATACTTTAAATGGCATTGTCGCAAGTGGAGCGCCCATAACTGCAGCTTGAACTACATGAACTGGATGACGAATACTCGAAACTAATGTTTCAGCTTTATTTGGAAAATGTTCGCTGGTTGGTTTACCTTCATTATCAAAAGCATAATTTCTTCTAATTTTCTCTATGTCTTGTATTAAAGTCATATTTCCATCCAAACTTATATCGTCTAATCGTCCAATGAAAGGACTAACTACTCTTGCGCCTGCTTTTGCCGCAAGAAGATATTGCGAAGCTGAAAATGTAAGTGTTACATTACAGTTGATTCCTGAATCAAATAATGTTCTAACTGCTTTTAATCCCTCTTTTGTGTTTGCAACTTTTACATAAACATCTTTCCCATATGTGTTTACGAATTCTTGGCCTTGTTTAACAATAACGTCAGTATCATTTGAAGTAGTTTCCAAACTAACTGGTTTTCCCTTGCATATTTCTATAATTTCTGAATACAATTCATGTTCAGATTTATTCTCTTTTGAAACTAGAGTGGGATTGGTCGTAACGCCATCTAATATCCCCATGTCTTTGGCCTCTTTTATTTGGTCAATATTTGCTGTATCTAAGAAAAATTTCATTTTGTTCTCATTATTCTACAATTTTTATGTATAATAAAATTTTTCTTTTCGATTTATATATGGCTTAATTTCAATATTAGTTAATAAAGGTAACAATATTGTTAGATAGTAAAATTGATGAATTATGTATTAATACAATTAGATTCTTAGCGGTAGATGCAGTAGAGGCAGCAAAGTCTGGTCATCCAGGGTTACCAATGGAAGCTGCTCCAATGGGCTATAAATTATTCACACAGATATTGAAACATAATCCAAGTAATCCGAACTGGATTAACAGAGATCGTTTCGTTTTATCGTCAGGTCATGGTTCAATGATATTATATTCTTTATTACATCTTTGTGGATATGATCTTTCTTTAGATGAAATTAGGAATTTTAGACAGTTAGGAAGTAAAGCGCCTGGCCATCCAGAATATGGAGAAACTTCTGGAGTAGAAACAACAACAGGTCCATTAGGTCAGGGATTTAGTGCGGGTGTGGGAATGGCATTTGCACAGAGGTATTTAGCTAATAAATTCAATACATCTGAACATAAAATTATTGACCATAAAATTTATGCATTCTGTAGTGATGGAGATTTAATGGAAGGTATATCTTCTGAAGCTGCAGCAATTGCAGGTCATCAGAAATTTAATAATCTAATATATGTCTACTTGGATAATCGTATTAGTATAGATGGAAATACTTCTCTTACAACATCAGAAGATATAAAAAAGAGATTCGAGGCTCATGGATGGTTTGTTCAAAACATTGAAGGAAATAAGCTACAAGATTTTAGTGAAGCTATAAAAAACAGTAAACAACAATTAGAAAAACCATCTCTAATTATTGCACGAACGCATATAGGTTTTGGTAGTCCAAATAAACAGGACAGTGAAGCTGCACATGGTGCTCCATTGGGAACTGAGGAAACTAAATTAACTAAAGAAAATCTTGGTTGGCCATTAGAACCGACATTCTACATACCTGATGAAGTGAAAAAGGAATTTCAAAAAACGATTTCCAAGGGAAAAGAATATGAATCAGAATGGCTACAAATTTACGAATCATATAAAAATATCAACAACGAGTTAGCGTCAGAATTTGAAAATATAATGAAAGGTAATCTTCCACATGATTGGGACAAGAATCTTCCAACATTTAATGAAGATGAATTTCTTGCAACAAGACAGGCATCAGGAAAAACACTAAATGTATTAGCTGATAATATTCCTGCAATAATTGGTGGATCTGCAGATTTAATGGACTCCACAAATGTTCGAATTAAGACATCTGTTGATTCTTTACCAGATGCACCATATGGACGTAATATTCATTTTGGGGTTAGAGAACATGCAATGGGAGCAATTGTGTATGGAATGGCTGCATATGGAGGGATAATTCCTTTTGGAAGTACATTCCTAATTTTTTCGGATTACATGAGAGGATCAATACGTTTGGCATCAATTATGGGCTTACGGGTCATTTTTGTATATACGCATGATAGCATCGGAGTAGGTGAAGATGGACCAACACATCAACCAATTGAACAAATAGCGAATTTACGTGCAGTTCCAAATCTTACAGTAATAAGACCAGGAGATGCGAACGAAACAGTTGTCGCATGGAAAACTGCATTACAAACTACAAGTGGACCAACTGCATTAATACTTACTAGACAAAAACTACCTGTATTAGATAGAAAATCAAATAATATAGCTTCCTCAGAAAACTTGCAAAAAGGTGCATATGTAATTATGAATTCAGATAATTCGCCAGATATAATTATAATTGCTACTGGTTCTGAATTACATTTAGCAGTAGAAGCTCATAAAGAATTAAAAAACAAGGGCATTAATTCTAGGATAGTAAGTATGCCAAGTTGGGAATTGTTTGAGAAACAATCATCAGAGTATAAAGAACAAGTTTTACCATCTACAATAAAAAAGCGAATCTCAATTGAAGCAGCAAGTACTTTTGGCTGGGAAAGATATATTGGGTTAGAAGGAATTGCAATCGGCATGAAAACCTTTGGAGCGTCAGCTCCTGGAAATGTATTGATGGAAGAATTTGAATTTAATGTTAAGAATTTAATAAGTACAAGTTTGAAGATATTAAACAAATAGATTCTTATTATTCAGAAGCAAGTGCTCGCAAATCTGCTACTGCTTTAATCATATCTTCTTTATACAAAATTCCTGCGCCAGATACCACAACATCTACTCCAGCATCTACAGCTAAAGGTGCTGTTTTTTCATTGATTCCGCCATCGACACATAATTCTACATCATAATGATGTTTGTCAATAAGCATACGTGCTTCTCTTACTTTAGATAGTGGTGCTTCAATAAATGATTGGCCAGTTTTACCAGGAACTACAGTCATAATTAGAATTCGATCTAATTCTCCAATATAATCAACAATAGCAGACAGAGAAGTATCTGGATTAATTGCAAGTCCAACCATTTTATCATATTTTTTAACTGCGTCGATATACTTTCTAGGATTTACTGCTTCAACATGGGCAGTAAGCATATCCCCTCCAGCGTCGATATATTCAGGTAGAGATTCAATTGGATGATTTGTCATAAGATGAATATCCATAGGAAAATCTGATGCGTTATTTATTATTTTTAGGTGTTCAACAGGGAAAGCGTGAGTATTAGTGAATGTTCCATCTAACATGTCAATGTGAAACCATTCAACATTAGCTTTTTCTAGAATTTTTACATCTTCAACATAGTTTTCTGGTTTTGATGCTAACATCGATGGAGCAATTTTCATGAGTATAATGTTAATTCTTATACTGAAATATATAAAATTTCTAATCAGTTATTAAAAAATATTTCTTAACACTTAAGTAATTTATTATGGATAATTTTTATTAGTATGTCTAAATCAGACCCAATAAATATCCCTACAGTCTCGGGAGTTGTTGATATTGATGTTGATGATGCGTATAAACAAATTAAAGATATGCGTATACATGGAGCAGGACGAATTGCAAGATTAGCTGCAAGTGCATTAAAAAATTTTGTAGAGAATTCAAAAGTTTCAGATCGTGATCAATTTTATAATAACATTATAGATGCGGGTGAGAAATTACGATCTGCTAGGCCAACTGCAGTTTCACTTCCAAATGCGGTCAATATTGTTCTAGCTTCAACTAAAAAATCTTATAATTCAGGTGAGTCAGCAGATAATATTCGAGAAACTACTATTCATAGAGCTGAACAATTTGTCCATGATAGTTTAGATGCTTATAATAAAATTGGTGAATATGGTGGAAAACGTATTAGAAATGGTGATACAGTAATTACTATTTGTAATAGTGAAGCGGCAATAAGCGTATTAAAAAAAGCACACGATATGGGCAAAGGAATAAAAATAATATGTTGTGAAACTCGGCCATTATTTCAAGGACAGAAAACAGCAGCTACATTATCTAAACATGGTTGTGATGTTACAATAATTATTGATTCTGCAGTAAGGAGATTTATTGATAAAGTTGATCGTGCAGTTTGTGGGGCAGATGCTATTGCAATAAATGGTGCGCTTGTTAACAAGATAGGTACATCTCAATTAGCAGCTATTGCACATGAAGCTCGTGTTAAATTAATGGCTGCTGCAGAAACATACAAATTTTATCCAGATACAATGTTTGGGGAACTTACAGAGATAGAAGAAAGAGATGCCACAGAAGTTTGTTCAGAAGAATATCTAAAAGCATATCCAAATATAAAAGTTCGAAACCCTGTATTTGATGTAACGCCACCAGAGAATATTGATATTATTGTAACTGAAAAAGGCATTATACCTCCATCTGGTGCATCATTAATAATAAAAGAATTAATAGAACTAATGTAAAAGATAATATAAAATGATAATATATGGTGGATCAGAAGGACAAATTTTAGCAACACAGGTTGCTAAATTACTTGAGGCAAAATTAGGGCAAATTGAAATAACAAAATTTCCAGATGCAGAAAAATACGTTCGTTATCATGACGACGTTGAGAATGAAGATGTAGTTTTAATTCATCCAATGGGTTTAAAACCAGATGAATTATTTATTGAATATCTTTTAATATGTTCTGCATTGAAAGATGGGAAAGCAAAATCAATTACTACGTTTGTACCTTATTTTGCTTATGCAAGACAAGATTCAAGATTTAATCCAGGTGAACCTGGAAGTTTCTATCTAGTTTCTAAAATAATAGATGATTTAGGGATTGATATGATTTATACAATTGATTTACATTTGCAAAGAGTAAATGATTTGAGTGATTTAATTAAAAAGACTCCAACAGAAAATCTAAGTGCAGTACCAGATATTGCAAATTGGATTAAAAATAATGCAGAATTAAAGAATCCAATTGTTTTAGGTCCTGACGAAGAGTCAGAACAATGGGCAAAAGTAGCTGCAGAAACAATAGGTGTAGATTATGAAATTATGATTAAGACAAGATACAGTGCTACAGAAGTCAGTATTACAACAAAAGAAGGTAAACCTCTTCCAGTAAGTGGTAGAGATGTTGTAATTATTGATGATATAATTAGTTCAGGAGGGACAATTATTGAGGCGGTTAAATTAGTTCGAGAAGCAGGAGCGGGTAAAATTGTCGTTGGTTGTACACATCCAGTTCTTCGTGGAAAAACACCATTCGATTCTGCATTAGCTAATATATATGATTCAGGAGTTTCAATAGTCGTTGGAACTGATACAGTTCCGAGTCAAGTTAGTTATGTTAGTGTAGCTGATTTAATTGCTAAAACAGTAAAGAGTAAGCTATAACAACATCTCAAATTGGGGCAACAAGCATGTTATCAATACAAGACTTTGATATTTATAATAAAACTGTGTTCTTACGATGTGATATCAATAGTCCGATCGATCCAGTTACATTAAAAATACTAGACAAATCTCGATTAGTTGAAGTGTCAGAAACAATTAATGCATTAAAAGACTGCAAATTAATAGTTGCATCTCATCAAGGAAGATTAGGAAAATCAGATTACGTTTCTATGGAACAGCATGCGCCAGTACTTTCTGAGTTAGTAAATAAAGAAGTAAAATTTGTTCCAGATATTTTTGGTCCAACTGCAATTAATGCAATTAAAAACCTTAACTCTGGAGATATATTACTACTTGAAAACCTAAGATTTACAGCAGAAGAGAACACAGAAATGCATCCCAATCAAGCAGTAACATCCCATCTTGTGAGCAAATTAGCAAAATATATCGATTATTGTGTATTAGATGCATTCTCAACAGCACACCGTTCTCATCCATCAATAATTGGATTTGCAGAGATAATGCCTACTTGTGCGGGAAAAATTGTTGAACGAGAAGTTAATGCTTTACAAAATATAGTAAATGATTCAAGTATAAAATTTACTGCAATTCTGGGAGGTGCAAAAATCCCTGATCGATTAAAATCTATTCAGAAGTTAATTGAAGCAAATAGAATAGAAAAAACATTATTAGGAGGGTTAATTGGAAATGTTTTCCTTGCAGCAACCGGTAAAGTCCCTATATCTGCAACGTCAATTGATGATGAAAAATTAATTAATGATGCCAAATCTCTTTTAGAAAAATATCCAGATAAATTTATTTTAGCAGAAGATGTAGCAATTGAAGTTAATGGAAAAAGAACAGAAAAATCAATACTAGAACTCAGTTCTTCTGATCGAATTTTTGATATTGGACAAGAAACTATTATAAAATATTCACAACAAATTGACAATGCTCAAAATATTTTCATAACAGGTCCACTTGGCATGTTCGAGAATTTGGAATTTAGACTTGGGACTAAAGAAATTCTTACTAAATTATCAAACACAAGTGCAAAAACAATTACTAGTGGAGGTCATTTAAGTGCAGTACTTTCACAACTAAACTTGAAAAATAAAATCTATCACGTTAGTACAGCTGGAGGAGCACTTATTAGATATCTTACGGGTGAGGAATTGCCATTGCTAAATGCATTAAATAATTCATCATCAAAATATAATAAGTGATTATTACAATTGGTAAAAGAAAAATTCCCAACTTGGTTAGCTGAAGAAATTTCTTCTGCAAAAATGAAAAAATCAGAAACATTAGAATTAACAGGGTGTCTATTGGAAATTAATAAAAAAGAAAATAAAGTCGATGCTCAGTTTTATGAACAATTACCTGATGGTAGACATATTGCTACATTGTTTTTACAGAATAAGAAAAATCTTAAAGATTTAGAACTTGGTAAAGAATATGCCTTTAAAGTGATTGTTAATAAGTCAGCTCTAAGTGATAAAGCCAAAGACTATCTAAATAAAAATTATTTGATTTCTCTAGATAATTTATATGGTTTTGAATTGGAATCTTTAACTTTACTTAAATAATCTACAGATACTCATTTTACTGATGATTGTTTTAGGTATCTTATATGAAGAAAAAGAATTCAAGAATTCCTGGTTTTTACAAATTAAATCCTAAAGATAGATTAAATAAACTAAAAGAATTTTCAAATTTATCGAATGATGAATTATCAATTTTAGAATCAATGTCAGGAATAACACTTCACAACGCATCAAAAATGATCGAAAATGCAGTTGGAGGAATTTCTATCCCTATAGGAATAGCAACTAATTTTCGAATAAATTCAGAAGAATTTCTAATTCCCATGGCTACTGAGGAACCATCAGTAATAGCTGCCTGTAGTAAAGCTGCAAGTATAACACGTGAACTGGGAGGATTTCATACAAAAAGCAGAGATAATATAATGCGTACACAGATTCAACTTGTTGGTATAACAAACATTCCATTAGCAAGAAAGAATATTCTTGAACAAAAATCCGAATTATTAAAATTAGCTAAAGAAAAAACACCAACATTATCTTCTATTGGAGGTGGCGCAACAGACATACATCTCAAAGAATTAGATACAAAACGAGGAAAAATGTTAATTGTTGAAATTAGTATTGATTGTAAAGATGCAATGGGAGCAAACGCCTGTAATACTGTTGCAGAAGCTTTAGCGCCAACAATTGAAAAACTAACTGATGGAAAATCGGTATTGAGAATTGTTTCAAACTTTACCACTGAAAGATTAGTTGAATCATTTGCAACATTTGATAAAGAATTACTTGGAGGAGGAGAAGTTGTTGAATTAATTCTTGATGCTTCTGAATTTGCTTATAATGATCCATATAGAAGTGTAACAAGTAATAAAGGAATAATGAATGGAATAACTGCAATAGCAATAGCAACTGGACAGGATACACGTGCTATAGAATCAGCAATCCATGCATACGCTTCAATTTCTGGAAAATATCTTCCATTAACAATGTGGGAAAAAGATTCGTTAGGAAATTTACGTGGAATAATAAAGATTCCACTTCCAGTAGGTATAGTCGGTGGGGCATCTTCTGTACATCCAAGTGCAAAAATTTGTTTAAAGATTCTTGATGTAAAAACAGCTGCCCAACTAAGTGAAATTATGGCTTCTGTAGGTCTTGCGCAGAATCTTGCAGCACTACGTGCGTTAGTATCAGAAGGCATACAAGAAGGGCATATGAAACTTCATTCTAAGAATCTAGCAAGTTCTGCAGGTGCTAAAGGAGATTTAGTAAAAAAAATTTCAGATATTATGATTAAGGAAAAAAATGTTAATTTTCAACGTGCAAAAGAATTGATTAATGAATTTAATGAATAAATTATTCATAATTAATATATGCGGTCACCGGGATTTGAACCCGAGTTATTAACTTGGCAAGCTAACGTATTAGACCAGACTATACGATGACCGCTTAAATTTAATTTATACTTGCCTTCTTTAAGTTTTGAGTTATTGGATAAATAATTATGTAAATACTTTATAGTATATTTAAGGGCCGGTAGTTCAGCGGTAGAATTGAAAGATATATTTTCCGCTTCGCATGTGGAATGATAATAATAATCCCGTAAGATCAAGGGTTCAATTCCCTTCCGGTCCATTATAGTAATGTTTAAGTTATTAAGGCTTAAATTCACAATTGGTAAATAATTAATTAGGAATTGTAGAAAATTGAAATCAGAAAATCAAGATAAATTTTTAGATAAATCTCTTGCACTTGCAGTTCGAAATATGAAAGATGCAGGTTATGAATTACATAATAAGATTTCCATTGAAGTAGATTCTGATTTGCAATTTATGGGTTATGCAAAGATGGATGAGAGTAATTGTTCAATAGTTGTTGCAGATTGGGCTCTTGATTCTGATATGCTTAATGGATTAATTCTTCACGAACTGGCTCATATATATTACACAGAAATTAATTCTCCGTCACATCAGGCAGATATCATTAATGAAATCATGAATCAGATAATTGAACATGAAGGACTAAGTAATCTGGAAGCACTTTCCCTTAATGAAGGACTTAATCATCTTCAGAATATTATAGTGGATGATATTGTATTTCAATTAATGAATAATAAAAGAGAAAGGAAATTAATTCAAAACTTTTTTGTAACATGGATGTCAGACCAACCTACTGGGAATGCGTTGTTAGATGCTTCCTTACTTGCTAGAAATGCATTTGCATTAGCATCATTGAAGAGACGGAACATATTTTCAGATGTAGCTGAACAAATGAATAATAAAAATAAACAATTTCTTTCATTTTACACACACGCAGATAAAATGAAATTCGAAGCGTTTGAAAATTTTCTTATACAATTTCAGCTTGATAATAGTAATGATTTTGAAGCAGAATTAATGGAATATTCTGAGCTATTAATAAATTTTTTAAGACCTAATAATGAGTCGTTAGAGACTCTTAGATAATCAAGTTATTAATTGATTGAGTGTATTATTCTCAATGCCATTTTTTATTTCTAAAGCAATCCGTCTACCCATACTCATATTGGGGCCATAAGTTAAGTATGAATATGGAGAACCTGTTGTGAATATATTTGTTCCAGCAACTATACGCGCCGAGAACTCAAATGCGACAAATTTTCCAGATGAATCATAAACACCTTCCATACAAAATGGACCAGGCATACCAGGTGGAACTAATTCTTTACTTGCGGTGACAAAGTCTTCTCCTATGTCATATACTTCAATAAGAAGAGATTCTCTGAGTACTAAAGGAAGATTTCCAACTACGATATATGTTGGAGATAACTCAATTTCATTTTGATTTATACTAGGAATTCGTCCTAAACCATCTACATTTGTTTCATATCGTTTATCAATTCCAAATAGTTCTAATTCATTTTTGAGTGGTGAATAAAAGTATTGAAAGTATACTGGAACTCCTACAATATATTCTTGAATTTGAAGCTTATCGTCATCAGTCATTAAACCTTGTTTTTTGAATTTTTCGACGTGTAAATAATAATCTTCTGAATTTTTTGCTAGAAAATAACCAGAACCACCACGGGCTCCGGACAATTTAGAAATAGTAAGACAATCAATGTCTTCAGGTGAATTGAATGTTTTTGGAATAGAAACACCTGATTTTTCCATTAATTGAGTTTTAAGATTGCGATCTGCTTCCCAACGTAGAATATGTCTGTTTCCAAAAATTGGAACGTCAAGTTTCTCAATATTTTCAATCCCTACTTCAGAGATCAATGTCCCATGAGGAATTAAAATGGAATCGGTTTTAGATAGTTTATTTTTAATATCATCGTTCATAATTTCTTGAAAATCTTCTACTACAATATATTCGTCGATAAAATCATATCTCTTGTAAAATTTTTCTCGAGATGACTTGGTAACTAAAACAGTATTAAATCCCTCTTCTTTAGCTCCTTTAAGAACTTGTAGTGAACAATGAGAACCCAGAGTTGCTATACTCGTCAAGTAACCACCTCATCTAGTCGTTCTTCTTTTATTGCTTCGACTATTTCCATTGCAATTCTTTTACCAGTACCGAAAGATTTGCCATAATAATAATGTGTATAAGGACTCATCATTAAAACCGGACTTCCTGGAACACGAGGTGAAACGTCAAATACGACTAGTTCGAAATCTTTTGTAATTGCACTTTGTAGTGCAAATGGGCCTATCATACCTGGATTAAATTCTTTTTTAGTAGAATTAACGAATTTATTTCCAATTTCAAAAACTTGTTCTAGAAATGATTCACGAATTGTAGCAGGCATATGTCCAACTTCTATATTCTGTAACTCAACATCAATCTCAAGTTGTTGTTTAGCAGGTAATGAAGTGAAATCATTAAGGTTAGTTTGTAAACGTCGATCAATGCCAAGAAATTCTACACGATCGTGGAGGATTGAATAAAAGAAATTGAAATTGAAATATGTGCCTAATACAAATTCTTCTATACGTGCAGCTGCTAGGTCTTCAGCATTTATTATGCCTTGAGCAATACGTTTCTCTGCTTTTTCAGTAAATTCTTTATGACTAGAGGCGGTAAAGAATGCACGTTCAATTTTTCTTGTAGACTCCATTACTTTTACTATTACAAGACGATCAATATCTTCAGGTTTATTAAATAATTTAGGATATCGAATATTAGCTTTTTCAAGAAGATAATATTGATTTTTTTCAACATTCCTTTCTTCAGTGCGTAGCATTTCTCTATTACCAAAAATAGGAATTTTGAGATTGTTCTCAATAGAATCATAATCAATGTATGCAGTGAGAGAACGATGAGGAATTAATATAGAATTTTTGGAGATTAATGATTGTTGTATATCATCATTTAATAGATCAGAGAACTTAGGCAAAGTAATAACATCATTAATAATTCGGTGAAAATGTTTGTAGGTAGTTTCTCGGCCTTTTTGACAAACCACTATAGTATTTAGATTCTCAGAAGTGGCCCCATCCATAATATCTAGAGCAGAATGGCTGCCAAGTGCAGTAATAGATATGTTGTCATTATCATAGCTTTTTACTTGGTTTTGAAGAATACTTCTGTCAATCATTACCAATTATTTTATAGAACTATACTTATTTAATGATAATTGATATCAATACAAAATGTTTCTAAATGGTTCGGAAAATTCAAAGCAGTAAATAATATTAATATTGAGGTAAAAGAAGGTGAGATTTTTGGATTAATAGGACTAAATGGCGCAGGTAAAACAACTACACAAAGAATGGTTTCAACAGTATTTCAGCCATCTGAAGGAGAGATAATTGTAAATGGTTTTAATTCGAAGAAGAATGCCTCTGAAGTAAGAAAAAATATTGGATTTTTACCAACTGAAGTTGGTCTTTATGATAGATTAACAGCAAAAGAAGTAGTAAGATACTTTGGTATGTTGAATGATATAGATAAAGAAGAAATAAACGATAAGATGAATGAAATTTTTGAGAAATTAGCTCTCACTGAATATGCAAACAAGAGATGTGCTAAGTTATCAAGAGGCAATAAACAAAAGGTTGCCATTGCAAGAGCTATAATTCATCAACCACCGGTTTTTATATTCGATGAACCAACGTCTGGTTTAGATGTTATATCATCACGAGCAGTACTTGACTTTGTAACACAATGTAGAAATGACAATAAAACAATTTTATATTCGTCTCATTCTATGCATGAAACAGAAGAGATTTGTGATAAGATAGCAATAATACATGGTGGAAAGATATTAAAAACTGCACCAATAACAAAATTATTAACAGAATATGAAACACTTGAGAAAGCATTCATTGCGATAGTAAAAGGTGAGGAATCTTAAGAATTAAACACATTAGTGCAGTATATAAAAAAGAAATTAAAGATATATTGAGAGATAGAAGAACACTCTTTGCAACAGTAATAATTCCGATTTTGTTAATTCCTATTATGACATTTGGAATACCATTACTCTTTTCTAATACCGAGGTAAGAATAGTAGAACAAACACAATATATAGCAATAACAAATTATGAATCGTCAGAGAAATTTACAAAACTAATTGATAATAGTAGATCATTAACAGTAATAAAAATAGACAAGCCAATTGATGAGGCAATTAGGAATGGAACAATTTCAATTGGCTTAGAAATACCTAAAGATTTTGATCAAAGAATATTAGAAGAGAAAAGTATCAATATAACAATATATTATGATGCGTCTAGTAGAACTTCAAACATAGCCTATTCAAAAGTATTACAAGTACTTGGCAGCTATAGTAGTAATGTTGTGGATGAAAGACTATCAAATAGAGAAATTAATCCTCAAATATTAGATCCAATACGTGTAATTCGGAAGAATGTTGCTACCGAAGATGAGGTTTCAGGATATCTACTTTCATTAATTTTGCCGCCATTATTAGCAATAATAGTTGCTACAGGTGGAATGAATGCATCAATAGATTTAACTGTGGGAGAAAAAGAAAGGCATACACTAGAAGCACTTTTAGTAACATCAGCTAGTAGACGTGACTTGATAACAGGAAAATTTTTAGCAGTATTATCAGCAACCTTACTTTCTATTGCTTTCATCATGTTGAGTCTATCTGGTTCTGTAAGCTATTTGTCCACACTCTCAATTGGACAAATGCAAATATATTTAACATTACAAACGTCAATTATTGTTTTTGGAATACTATCATTAATGGCATTAATGATATCTGCTATGGGAATGGCAATAGCGAGTTTTGCTAAGAGTTTCAAAGAAGCAAATAACTACTTAACTCCAATGTTATTCATCATAGTAATTCTTTCATTTGGTTCATATGGAATCTCGATAGAAGATGTTGGAATCATTCCATTTATAATACCAATATTGAATGTTACGTTAATTATTCAAGAAGTTCTAGTTAATAATTTCAATTTAATGCATTTTATTTTGACAGTTACATCAACTCTGCTAATTTCAGCCAGTATGATAATATTAGCAAGTTGGATTTTCCATAAGGAGAGTTTGCTATTTCGGGCATAGTTGACTATCATGAGCAATATCATTAAAGCACGAGTCAAAAAGATTTTTTCATTTACAAAATCATTAAAAGTGAAACCTGATGCAATCTTAATTAAAAATGGAATAGAAGGACAATTAGATTCAACATTTTTTTATTTAACAGGAATACGTTCTGGATTGTTTGAAGATTGTTCAATAATTGCATATCCAACAGGAAAAGTATGTCTATTAACTTCCAAATTAGAGGAACAAAGTGCACTAAAGACACCACATATTGAAATTAATACATTTGGAACTGAAGTTGAATATAAAGAACTATTAAAGAAAAAGTTATCGAAAGTAAAAGCTTTGGGAATGAATTATAACGAGTTATCTTATACGAATTATCTTTGGATAAGAATGCTTTTGAAAAATGTAAAAAATGGAGTGAATATAAATAAACCAATTGGAGAAGCTAGGTGTATAAAAGACGAAATTGAAATAAAGGAATTACGAAAAAGCGCAAAAATCGCGAGCAATACCTTTCAAACCATTGTAGGATCATTAAAAGAAAGTATTACTGAGAATCAGTTGTCTTCAATAATAAATCATGATTTAGAGAAACAAGGTGCGTCAGGTCCTTCATTTCAGACTATTGTAGCATTTGGCAAACATACAGCAGAGCCACATTATGCACCACAGAATTTTAAATTAAAGAAGAATAAATTAGTTCTTTGTGATTACGGTGCACGTTACAACAGATATTGTTCAGATATTACAAGAACAATATTCTTTGGCAAGGCAAATAGAAGTATTAAAGAAATGTATGAAACAGTAAAACAAGCAAGTGAAATAGGAATAAAAAAAATTAAAATCGGTGTAAAAGCAAATGAAATACATAATGCAGTAGAAGATTTTATTAATTCTACAAAATACAAAGGGCGATTTATACATTCAACGGGGCATAGCATTGGATTAAAAGTTCATGATGGTGCATCAATTAGTAAAAAGTCAAAATTGATTTTGGAGGAAGGAATGGCATTTACAATAGAACCTGGAATATATATTCCAAAAGTTGGTGGTGTAAGAATTGAAGATGATATAATTATAAGAAAAAATAAACCTGAGATAATAACTAAGGTTTCACGAGAATTAATTGAAGTATAATTACTCAATTAATCTATATATAAATCCATTTTGTTTGAGAGTTTTTAACAGCTCTTTAGTATGAGTGGGGCTTTTGGTTTCCATACTAATCAAAACTTCTACAGGCCCTAAACCAATTTTTTTGTATAATCGATCAACTTGTACATCAAGAATATTTGCATTTCGCGATCCTATAACCTCGAGAACATCTTTCAGAGCACTAGGCTTGTCTCTCAATCCTACAATCATTCGAATAATTCTACCAGAACTAATTAGACCACGAGTAATGAGCTTGTTCAGCAAAGGCATATCTACATTACCACCACTAATAATAGGAACAACGTTTTTACCTTTTATTGATAATTTTCCAGATAGTAAACCTGCAACTGAAGCTGCGCCTGCAGGTTCAGAAACTATTCGACCACGTTCAAGCAAGAGAAACATAGCTTCGGCAATTTCTATATCAGTAACTGTGATTAATTTATCAACATGTTTTTTCACAATTTCAAAAGTCAGTTTACCTGGTGTTTTTACATCAATTCCATCTGCAATAGTAAAACGGGATGGAACAGTAGTAGGTTTACGATTTTGTTTGGATTTTATCATAGATGGTACACTAGCAGGTTGAACACCAATAATTTTTATATGTGGATATTTTTCTTTTAGTGCAACACATAAACCACTAATTAGACCTCCGCCTCCAACAGAAGCAATAATTACATCAACTTCCTTGAGAGATTCAACAATTTCTAATCCAATTGTTCCTTGCCCAGTAATAACAAAAGGATCATCAAAGGGATGAATGATTGTTGTAGAAGTTTTTGCAGCAATAGATTCAGCGGTAGAATATGATTCGTCATAATTTGAACCAGATAAGATAATAGATGCCCTATAATCTGCTGTTGCAGAAACTTTTGTAGGAGATGCATTTTCTGGCATAACAATAGTACATGGAATTTTAAGTAGTGAAGCAGCATAAGCAGTTCCTTGTGCGTGATTACCTGCGGATGCAGCTATCACACTTTTTGGCATAGATTTGTTAACATTCAACATTTTCCAATAAGCACCTCTAACCTTGAATGCTCCAGTCTTTTGTAGATTTTCAAGTTTCAGATAAGTTTGACAGTCAGCAAGTACTGAAAGTGTATTTGAATAATCAAGAGGAGTTTCTTTAATAACAGGAGCTAGTGCCTCTTTGGCTTTCCTTACATCTTTAATAGATAAATCAATAAGAAACTTGAGTTCTACTTATATATGAATTTTATTCCTAAATGAAAAACAACATATTATCAGAGAAATGATGAATGAATAAGGTTATTTTGGATTGTATTAAACTAACATAATGATGGATGTAGAAATAATAAGGAGAACGAAAGTAAAATTAAAGAATCCTATATTAATTTGTGGATTACCTGATTCTGGGTTTGTTGGAAAGATTTCCAGTTATCATTTTGCAAAAGGAATACGCGCATTAAAATTTGCAGACATGTATTCCTCGCATTTACCTGCACAAACAATTATTAATGAAGATGGAACAATAGATCCTTTAAAATTTGAATTTTATTATAAAAAAGGGAAAAATGATTTGTTAATTTTTACTGGCGATGTGCAATCAGAAACGGCAGAAGGTCAACATATTATATCAAGGGCCGTACTTAATTTTGTAAAAACTTTAGGTTGTAAAACAGTATATGCAATTGGAGGATTAATTACAAATAATTTATCAGTCCCACCGAAGATATATGGTGCAACTGTTTCGAAATCATTAATAAAAGATCTACAAGGTTTTGGAATAGAGAATATGAAGGAAAACAATATAGTAGGGATGAATGGAATATTATTTGCATTATCAAAAAATGTTGGTATGAAGGGTTTTGGAATCTATAGTGAAACACAAGGTGAGTTTCCTGATATTATGGCAGCAAAGGAATTAATTCATGTATTGTCCAAGATAACAGGATTTAAACCAAATCTTCGTGAGTTAATTCGCGAAGAAAAACATTTGAAATATTTACAAAAAAGTTTAGAATCAAAAGTAAATAATGAATCTGAGGAGAAAATAAGAAGATACATTACTTAATCTGACAACTGATTTTGAAATAAGTATTCAAAGGTAATTCATACAATTCAGAATATTCAGATTCTTTGATTGATAATTTAATTTGATAATTTGGACAAGGAATTGGTTCAGATTTTAATCTAGGAGAATTACAAGAGAAAATAAATTCAATCTCTTCAACAAATGATTGATCAGGTAAATATCGATAACGTCTTCGAATCGCTTTTTCAAGACGTTCAATTTGAAGATAGTTTGTCTGATTATCAAGTACTTTTATTGATTCTAGAGTTAGAATTAGGTTCTTTCCAATGATTGTACGATCTGGATTAATATTCCAGGATTGAAGAATTTCCTCAGTGACAGTGAATTGATTTGGATAACTTCCTACAGCATCAATAATGAAAGGCGCATTGGAAACATTTGAAATTTTTAATTCTGTAATATAAAGATCTTTAACGATTTTAACCATATCAATATAATAACAAATGATATCTCATATATTTTTATTGTTAAAACGTTGAATATCGAATGCATTATAATCTTGCGATGAATTATTTTGAAGAACAAAATCAACGAGTAATTTTGAACATCCTGGAGCAAGCATCATTCCCAATCCATTGAAGCATCCCAGAAAGAATAAATTATCTTTCAATTCACCAATAATGGGTCTAGAATCTTGACTAGATGTATATAATCCAGACCAGCTTTTTTGAAGAGAATTAATTGAGATATTTGGGAACAATTCATTTGCTTGTTGTAAAACATATTTGTGAAATGATTCATTAATGTCAAACTTAAAGTTATTTGGATCGTCTGAATATTTTTTAGTGCCGTCGCCAAATAAGAATGAAGAAGGCGAAAAAGGTCTGCAATAAAGACCGCTATTCATTTTATACAATATTGGTAATGATGAGATAGATTGATTAAATAATCTAGAAATTGACAGAATAGTAGCTTGCGTTGAATAAATATCAAATTTAATATTGCAATTAAATAGTTTTGCAATTTTGTTAGACCAAGCACCACCGGCAATTATCACTTTATCTGATGTGAATTCACCATGATTAGTATGGAATCTGAAAGGATGTTCATTTTGAATATTCTTGATTTGAACGTTAGTAAATAAACGATTGTGTTGAGTTTGAATATAATTAAAAAGAAAAGGAAATAATTGATTAATATCAAAATAGCCACTATCTTCAGAGATGATACCAATTTCATTGAAAGGTGTTGAAATCATAGGATAAGTTTTTTTTAATTCAACTTTATCAAGATAATAATAATTAACATTAGCGGATGTCATGGCGGTTGTGAAATTAGATAATTGTTGCTCATCAGACTTTGGACAAATAGCAAGCAAACCTGAATTATTATAGGAGATTTTTTCTGATGATGAATGGATTAGTTCTTTATAGAATCTTAGACTGTTTTGAACAAGGCGAATTTCTTCTGGAAATGGAAAAAAGTGAGATATTATTCCAGCAGATTTGATTGTAGAACCTGGACCGTATAATGGATTATTTGTGTCCAGAATGATAGAATCATGCCCTGATTTTTCAAGAAAGTAAGATGTACAAATACCAGAAATACCTGAACCTAAAATAATAAATTCATTGTGCATCATTATAAACGCACATAAAGATTATTTATTAACATAACATCAATGATATGTCAATGGAAGCAGTAAGAGTAAAAAATCTGAGCAAAGTTTTTAATAAAAAAATTATTGCAATTAATAAAGTGAGTTTTACTGTTAAAGAAGGTGAGATTTTTGGATTTTTAGGTCCAAATGGAGCAGGTAAAACAACGACAATTAAGGTTCTAACTACACTACTAAAACCAACGAATGGAGAGGTAATTGTATCTTCTTTCGACGTGGTAAAAGATTCAGATGCAGTTAGAAAGTCCATAGGAATTGTTCCACAAGCCCTAACATTAGATGATGATTTGAAAGGAATGGCAAATATAAGGCTTGCAGCAAAATTATATCATGTTCCAGATAAAATTGCAAAAGAAAGAATAAAAAAGCTACTTGATATGGTTGGGCTTAGTGATGCAGCAGAACGTGAAGTAAACACTTATTCAGGAGGCATGAGAAAAAGATTGGAATTAATTATTGGATTGGTTCATGAACCAAAAATATTATTCCTAGATGAGCCTACATTAGGATTGGATATACAAACTCGTTCGGTAATTTGGAAATATCTAAAAAATCTCAACAAAGAAAAAGGACTAACTATATTTATTACAACTCATTATTTGGAAGAAGCTGATTTTTTGTGTGATAGAATTGGAATTATTAATCAGGGAAAGATATTGATAGAAGGCTCTCCATCAAAATTAAAGGAAAAATTAGGTGGGGATATAATTGAAATATTGGTTGATAAACCAGACGAAGTAAGAAAATCACTCGAACAACAAAATATTGTAAAAAAAGTTGATATTAATGAACAAAATCTTCGCATAGAGGTAGAGAAATGTGACATTGCATTACCAATAATACTTGAACTATGTAATTCAAAAGGAATTATTGTAAGAAAAGCTTCCATTACCAAACCATCGTTAGATGAAGTATTTCTCAAATACACAGGAAAATCATTGAGAGATGCTGAATCAACTAATGCAGATAATTTTACAAAGTACATTATGAGGAGAAGAAGATGATTAGGGAAACATGGATATTAGTTGGAAGAGAATTAGAAAAATGGTATAAAGTACCAGCGTTGATTTTTTCAGCATTAATACAACCAATAGTTTGGATAATACTTTTTGGAAATTCATTCAACCCAACTAGATTGATTTCATTGGATAATTTTATTACTCCTGAAAATATACCACCTGAAGTTGCAATGGCAATAACGGAATTTATTGCTAGTGCAAGTAACTTAATTTTAGAACAATCATTCCAAGGTGCTCCAAATTATTTAACATATCTAACAGGTGGAGTTTTATCGACATTAATTTTATTCTCTTCGGCTTTTAGTGGAGGTTCTGTTATATGGGATAGAAGATTTGGATTCCTTGACAAGTTATTAGTTGCTCCAATACCAAGAAGTTCCATATATTTTTCAAAGGTTTTTTCTACAGTGATTAAAGCATTAATTCAATGTTCGCTAGTATTCATTATAGCCCTATTAATTCCTAGTGGTTTGGTGTTAGCAGAGTTGAACTTCACACTGATTTTCCTTGTATTCTTATCATTATTCATGTTAGCATCAGGATTTTCTTGTATATTTGTCGCAATGGCATTGAGAATGAGAAAATGGGAGACATTAATAGCAATGGCAAATCTAGTCAATCTTCCATTATTATTTGCAAGTGGTGCATTGTTTCCAATTTCATTTATGCCAAATTGGTTACAAACTATTGCAAGATTAAATCCAATAACATATTCAGCAGATTTGACAAGAACATTATTTATTACCGGTAAAGTAACTAGTAATGTTATTTTTGATTTTCAAATACTTGCTGTATTTTCTATAACATTAATGTTATTAGGATCATTTGCAGCTCGATATGGATTAAATATGGATTAAATTAATAAAATATATAATACATAATTATGCTAATTGGTTACCATGAAATTATTAAAACTTCAACTCACGATTTTAGGAACGATAGGATTATTAATTGCGTTATCAACTTTAATTTTTTCAATAATTCTAAGTATGCTAGCAGGAACATATAATATCGGATTTGTAGTTTTTTTGGTAGTCATTTTTAATGGTGTGCAATGGTATTTTGCCCCAAAATTCATAGAAAAAATATATAAAGTGAGAGAAATAAAAAAAACAGAGAAGATAACCAATGCCAGTGGTCAATGGATTTACGATACGGTCAATAGGATTTGTGAAAGTACAAAGATGCCAATACCAAAGATTATGTATTCAAATATTGCAATACCAAATGCATTTGCATATGGTTCACCAAGATATGGTAATAGGATTGCTATAACACAAGGATTATTCGACAGATTGGAACTTGAAGAGATAGAAGCAGTAATAGGGCATGAAATAGGACATCTAAAACACAAAGATGTTCAAATAATGATGGTGGCTTCACTTCTACCATCGATACTTACAATGATAGGGCATAGTTTAATTTGGGGTTCAATATTTAATAGAAGAAATAGCGGAGGTGTACTTGCAATAGCATTTGCAGCAATAATTGGAGGTTTTATTTTAAATCTAGTTTGTATGTCTTTAGGGCGTACAAGAGAAAGTTACGCAGACTTACATTGTGAACAACATGTACCAGATGGTGGAAGAAAGTTACAAGAAGGTTTGGCCAAGATTTCAGAATATACAGAAGAATTAAGAATGAAAAAGCATAAGGATATGAAAATTTCAGGATTTAATGCATTAATGATAAGTGATCCAGATTCTTCTCATAAAGATATTATATCGCTTCACCGTTCTAAGATTAAATTATCTGATAGAGAACTAGTGGAAAAATATGCTAAAAAAGAAATTACGTCCAAGGAACATCTTCTTGAACTTTTGAGCACTCATCCAAACATAACAAAACGATTGAATGCATTAGGAAAGAAATAGAACTTTCCTAATATTCAATATGTGTCCATTCGCCTTTTGGACCATAAGTTACGCCAAATTCCTTTTCCATGAAAGTTTTGTAGTCATCTAATGTAACATGTTTCCAATTATCGAATATATCTGGCATCTCTGAGAGTAACCAGTTAACATCTTGTGTGATAAAGAGTCCGGGTGCTCCATTGACGATAAATGGAGGTGTGACTTCACAGCTCTTTTCCCATAGTTGTAATTGTTTATCTAGCTTTTCAAATACTGCTTTACCAGTAGATGCGTCACCATTGCCAATTACAGAATAATCTCCTGCTTTTGCTTTGGCATATGCATCAACAAGTTTGTCTCCAATGATTCCGTGTTCCATTAAGAAACCACTGAAATCAGGATATGCATTGTACATAGGTTCGTGTTTACCAGATGGAGTCCTTCCAACTAGCAAATATTCAACAGCTTCTTTTGCACTAACTCGTTTTGCAAAGAAATCTAAGTCAGCATTTCTTTCAAGAAATACATGTGCAGAAATTGGTCTTACAGATCTATCATACAATAAATGACCCCAATGTGGTTCATAGAAAATTCTTTCAGGGAAGAATTCATGTGTTACTTTACCAAGGTATTTCTTGCATCCTGATGCGCCAAAATCTGCTAATGCGTTTTCGAGCATAGGTTCATTCTCAATGAGAATAAAGTCCAATCCAGGGAAACCGCCAGTTCTTGCATAAAGTGACTTTTCAGTTGGCCAAAATGACCATGTACCATCATCATTTTCTGAGATTTCAATCCAGTCTTCTTGGCACATAATGCCAACGCCAGCAACTACTTCGTCAACTTTTGCTTGGAAGTCGCTTTCAGAAAGGTCTGGATGTTGTTTCTTAAGAATTATTTCGTATCTGCGGCGTAATTCTTGCCTTCTAAACTTTTCATTCTTTTCAGCAAAGAATGATGTTGCAGTGGTTTTACCAGTACCTGTAGGACCTGTAAATGTAGTAGCAGTTCCATTTTGACTTAAAACTCCTGATCCTGCATGTGCAGAAATAACGTCGACAAGAGATAATATTGCCATTAATGGAGACAATACACCACGAGACTTTACTTCACCATGATAATCAGTATTGATTGTTGTAATAGTGATTTCATCAGG
>sequence12
TGCATCCAGAAACAGAAAATTTATTTGATGAAGCATTAATCAATAAAATGAAACGAGGTGCTTATCTAGTTAATACTGCTAGAGGAAAGATTTGCAATAGAGAAGCAATTGCAAAAGCATTAGAATCAGGTCAGTTAAGCGGGTACGCAGGAGACGTTTGGTTTCCTCAACCAGCACCTAATGACCACGTTTGGAGAACAATGCCAAACCACGGTATGACACCTCATACTTCAGGAACATCTTTATCAGCACAGGCACGATATGCAGCAGGTACAAGAGAGATATTGGAATGTTTCTTTGATGGTGAACCAATAAGAAATCAATACTTAATTGTAAAAGATGGAGAACTTGCAGGAATGGGTGCTCATTCTTATAGTAAAGGGAGTGCAACGAGTGGATCTGAAGAAGCAGCGAAGTATAAAAAATAATGGAAATACACAGATGGGGATTTAAAATAATTATAAAGAATTTTTTTAATAGTACATGGTCAGGGTTAAAAGCAATTTACATAGTTTTTAAAATTTGAAGAAGATGATATTAATGTCGATAAATAATTATTTTAATAATGTTCGTCAAATAAGTCCAAAAATAATTTCAATGTTAATATGTTTTATTTTTCTTTTTTATTTATTACAATTTGTACAAAGTTCAGGATTTGGTCCATCTGAAACAATTCCAGACAATGCCGAAGCACAAATATCAAATTCTCCTCTGGGATTTTCCGAGGCAGATTCTCAAATATTATCTGTGAATATAATTATGAAATCAGAAGCAACACCATTTATCGCTCCAATTGAAAATCAACTCGTAGAAGTTTTTTGGCAGATGGTAGATGTTAATACTACGGAAGTGCGTACATTATCAGTTTCAACATCTACAGATGAAAATGGAAATGGAATATTTGAACTGCTTCCAGGCTATTACACATTACGAGTAGATTATAACGGTATAAAAAAGAACGAAAGTATAATCATTACACCTGATGAAGATCGGGAAATTAATTGGATTATATCAAAATATTCTATATCCACATACAGAATTGAATTTAAAGACAAAAATAATCAAGGAGTAATTTATCCAAAAGAAATTATATTATTAGTTTATGAAGAAGGGCCTCAACTAGATAAACCACTAGTAATAGAACTTTACAAAAATTCAACAAGCGCATCACAAAAAATATCAAGTTTCACAATAGTAAATATAGTAAACAAAGCACGTGCATCGATAATTGAAATTACGCCAAATGAAAACTTTATCATTTCAGAGTTCAAAACAGAATCTCCACCTGAAGTCATTATGTATTCAATTGATATTGAGAATATAAGAGGATAAGGAATATGATACAGAATCTAATTTCGATTTCAATATTAATGCAACTAATGTTCGTAATTATAATTGCATTAGGCGTAATTATAATTTCAGGAGCTGCATACCCTCGAATAAAATTCAAAACGGGAAAAAGGGAATTAGATGTAAATGATGTTAGTTTTGGAAGTAATAAAATGTACGAAGAATTGAATAACTACAATTCTAGTGGTAATTTTAATGACGGGATAATATTTGTTTATAAATTATTAAGAAATAACTTATCTAAAATGGAGTCTTTTCCTAATAAAAATCATTTAACTGAATTTGAAATAATTAATCAAACAGTATCTAAAACGCCAGAGCTTAAGAACATATCAACTTTAATCATAGAAGCATATAAAAAATACGAGTTAGCAAGATTCAGAGCTATAACAAATTCTTCAGATCTTAATGATATGAACAACATAACTAGAAACATGACTAAACATAATCACTACATAATTAATACGGTTGAGTGAAATATGGATTTATTATTATTATCAATCATTATTGTAACTTCTTCTACATTAATCTATTCATATTATTATCGAAAAAATATACTCACAGATAATGTTATTATTAATTACAGTCAAACATTTCAAGGATTGCTTGGAATAGATCAACAACCTCCAAATTATTTTGAAGCAACAAAAATATTGCGTAATGAAATTGAAGAATACAGAGTTAGAAATGATCAATTATTAAAAAATGATTTAAGGTTCTTGCAAATAATTAATCGTGAATTAGAAAAAGGAGAAATTAATTATAAATCATTTATGAAGATGAAAGAACTTCATGCGTTGCATGTGGGAAAGAGGTAAAAAGAATTGACAATTGAAAAAGCTGAAGAATTATTTAATAAAATAGAAAATAATATTTCAAAAAAGATAGTAGGCAAGACAGACGAGATTAAACTTTTGACTATAGCATTACTATCAAATGGCCATGTTATATTAGAAGGAGTGCCAGGAATAGCTAAAACACTTCTCGCAAAATCATTTGCAGACTCATTAGAATTAGAATTCAAAAGAATTCAGTTAACCCCAGATATGCTACCTGCAGATATAACCGGAACTTTTGTTTATAATGTTAAAGAACAGGACTTTTTCTTTAGAAAAGGTCCCGTATTCGGCAATGTAATTCTGGCAGATGAGATAAATAGAGGGATTCCAAAAACTCAATCGGCTTTACTGGAAGCAATGCAAGAATATCAAGTTACAGTAGAAGGAAAGACTCATGAGCTTCAAAAGCCATTTTTTGTCATAGCAACTCAAAATCCGATTGAAATGCAAGGCACATATCCTTTGCCTGAAGCTCAGTTAGACCGTTTTATGTTTCGAATAACAATGGATCTACCATCAAAGAAAGATGAAATAGATATTATAAACAAATTTTCGACAGGCGATATATTCATAAATATAAATTCAATAAATTTAGATTTGAAAAAAACAAATAACGAAATATTGCACAATGTAAAATTATCTAATGAAATAAAAGAATACATAGTTGAGTTATTAGCAGCCACAAGAAATGACTCGGAAAAAATTCTACTTGGAGCAAGTCCTAGAGCAACAGTACATTTGTTTCAAGCAAGTAAAACATTGGCGGCTATAAATGGTCGAGATTATGTAATTCCGGATGATGTTAAATCACTCTTATTTCCATTATTAAATCACAGATTATTACTAAATCCAGACTATCTCATAAAAAATACGGATCCATCGAGGCCATATAATTACGATGTTGTTAAAAAGCTAATTTCAGAAATAAGCACTGCTGCATCACCACCAAGATGATTAATTATGATAACCAATAGAGGTTATTTAATTATTAGTGCGGCATTTGTTTTCCTTACAATTTCAGCTTTGGCAAATGAAATACAATTTCTTACAATTTCAATTTTTTTATTTTCTTTGATTCTTGTTGAATTTGGAATATACTTGGTTTCTCTTTATGATTTCAATAATATAGATGTAAAAACGACGACGTCAAAATCTAGAATATTCTTGGGAGATGAGGTATTAATTAAGACTACATTTACACATGATGGTAAAAGAGGAATTGGCCAAGTATTAATGATAGATCATATACCGACTGGTTTGTTATCAATAGAGAAGAAAAGCGATTCAATAATTAATCTTAAAGCAGGAACGGAATATTCTATCAATTTTAGAGTAAAATCCTTACAGATGGGTAAATGGAATGTAGGAAAATTCACACTTGCAACAACTGATAAATTTGGTATTTTTGTGAATAAAAGAAATATTGAAAATCAGTGTAATATCGGAGTTCTTCCTATCATCAGAATGGGAAAAAGAAAAGCACAGGCTAGAATTCAAAGTGGTTCATTTCCAACTAGAGCCAAACGAGATCCACGTGGAACCGAATTTACCGGAATTAGAGAATACTATACAGGAGATGATTATAGGGCAATTGCATGGAAACAAATGGCAAAGACGCCTCAGCACAATCCATTGATTAAACAATATGAATTTGATCAAGAAATAGGATTAATACTTGTCATTGGTAATTCAGAATTTACAAATGACGGACAAATAGGCAGTCGTAAGTTAGACATAGCAATAGATGCAGCTTTATCTCTTGGCTCAATAGTCAATTCATCAGGCGGGAAATTCAATGTTATTTTTAGCCAAAATAGTAAGCCGACTATGATAAGTGGAAGTGTTTATGAATTATGTAATAAATTATACCAAATTACTCCAGATAAAAAATTCAATGTAGAAAATCTAATGAATTTCTCTTTGCCGTTTGCTAAACAATCATCTTTAGTTTTATTTTTAATGGATTCATCATACCCCAATTTAATTGAGCCAAAAATGTTTATACAGAAATACACAGATTTAAGAAATATCAGAACATTCTTCTTTGACACATCAACATTTCATAATAAAAAATCAAAAAACAATCAAAATGATGATGCATATGATTTGATTGTCAAGAGAGAAACGAAGCATTTAAAACAACAAGTGAAAATATTACGTTCGTATAAAATATCTGCCGATATTTGTACAAAAACGAATACATCAAATAAGCTAGTAAATAGCATTTCAGAAAATAGAATATTATTGGAGAGTTTTTCTTGAAATTTTTATTATCAGGCTTAATCTTACTTGGTTTGTCTTTTCCTTACATTATTCAATTTATTATTTATGATTATCAGATGTTCGTCATATTAGTTTTAAAGAATATCATATCTGGAAATTTATCATCAATATCTTCATTCATGGCATTTGCAGCAATTATCGCTTATGCATTTAGAATAAAACGAGGTCCAGGATCATTGCAAGATTCTCTAATTATCACCACATTAACTATGCCTGTAGTCTTTCCTTCATTGGTAATGATCGGGATAATAATTTCTCAGGGTGGGCAGATTTCATCAGAATATTTTAGAGCTGCTTCAGATCTTTATCTAGTAGGTATAACTTCACTAGTCATAGCACTTCCATTTATAGGAATCATAAATCAATGGTATAATGGACTAAATTCACGAGGATCGCCATTTTCACAGATTGTTGCTACAATGATAATATTTAGTGTAATTAACTTTGTATTCATCTCAGCAAGTTTTTCAGAAGAAATTACATTAGCATCAGAACGATTAAAAATTCATGGAGTAAATATAATTCTAGACGGTATTTTTGCATTTCAATTAGTATTAAATAACATTTTACAGACGGGCAATCCTGTTATTCCACAAAACATTACAGCAAACGTGCGACCATACTTTTCCCCAATCATCGGGGGAACAGTATTTGGAATTTCTTCAGCATTTTATTTGTACTTTAGACTATACAGAAAATATTCAGAAGATGAAAAATCAATTAATTCATTAACAAAAAAAATTCCTTTATTAGAATTAGATAATCTTGGTTATATATCTAGAATTATTATGGTTGGACTTATTATTAATTTTATAATAATAATTGGCGCATCATTTTTTGTTGAAGCAATGGATCTTATTTTGAAATCTACAGTTCTGTTCTTAATGTTCTTATTCATGGTTGGAATAGTAAGTGAAAAAACTATAAAGAGGTCCTGGCTATGAAAAATATAGTTATCTTTTTAATTTTAATATCGACACTTATCCCTACTACAGTAGCTACACAAGAAGATCCATTACTAATTAGAATCGGGTATTCACCTGAAAAATTATTTAATTCAGATATAGGCGTGCCTTCATTCATACAAAATGAAGATTTGTGGATTCATCCAAATAAACAAATCAATGTAAAGTTAATTGATCCTATAGGCAATATTGCAATTAATTCAAAAATTGATACACATCCAAGTTTAATATACAAATTTCAGAATAATGATCATATAGGAACATGGGAATTAAATATTAATGACAAATATTCATATTCAATAGAATTATCAGAACAATCCTTGAGTAAAATTAACCATAATGAAGAATTTCATCTAATTAATAATACAGTATCAATAAATGGAGTATTTGAGACTAATTTTAAAGAAATACCAACTTCAACTGAAGTAATCATTAATAAAAAAAGGCAAAGTGGATTATTTGAAATTCCAACATCTACATCAATAGATGGTAATAATATAAGATTACAGATTTCTCATAGTCAAAAACAGAACGGAGTAGAAATTTATGTGTATCCATTTCTAGATGCTGAAGAACAACAAGTAGAAGTTGGAGAATCACTCAATATAGAAAATCAAAATATATTTGTTTGGGCTGAAATTACGTCAGAGGTTTCTTTAATAAAGAATTCTGGTAAATCGAAATTTATAACATATATTGATGAAGAAATTACAAAGACGGCAAGAATTAACCTTCCAATTATAAACATTCCAAGTTCTTCATTAAACATATCATTACCGAGTTTAGGTAAATCAAATAATCCATGGACTATACCATTGAAATACGGAAGAGCAGAACTTTCTATATATTTGGAACATGATGGTAAATTAGGAGTAGAAAGAATACCAATAATTATTATGCCTGAAAAATTAATTATAAATCCAGATAGAATAATTCAATTGAGTGCGTTTGAAAAGTCACTACTATACAATACAGAACTAGAAATATCCAATGATTTAGAAGTAGAATTTGTTTTAATAACAAAAATAAATGGAATAGACAAATTATTGTATTTTTCAAAGTCTCCATCAATCAGTAAAATATTTGTTCATAATAGATTAACTAACGAGAGATTAAATAATTATGAGTTAGTATTTAGTGAGTTTATTGAAAAAGCAAAATTGAATGAAATAACATACATATTAACTCAAACAAATAAAATCAGTGTTAATATATTAATTAATTCATTTCAAGTAGAAAAATCATCATATGAACCAAAATTATTGGAAATTGAACAAAATAAAGATGTCATTATAACAACCGCTGCAGGAATGGCAAATATTAGAATTTTCGATGCGTTGGGATTAATTGAAGAAAATGGCGAAATTGTCATTTCAAGAGTAGACTATAACAATCTAGAAGAACAACTAGTAGTAAATTGGACAGGAAATGAGATACAAGTATTACTTCCCCAAGGTAAATATCTAGCAACAGTTGATATAAATAATGTCAAAGGCATGATAGAATTCCAAGTTGAGCAATCAGAAAACCAGGTAGACATAATGTTGAATTCATTCTATGGAATATCGACAAATATTTGGATATTTATTTTAACAACCATAATAACGATTGAATTAGGATTTGCATTTATGGTTTGGAAAAAAGCGTTGAATAAATAAAAATTAACGATCTTTCAATGGGATAAATGTTCTGGATTTATAACCAATATAATTTGCGCGTGGACGTATCAATCTATTATCAACATATTGTTCAAGAATTTGAGCACACCAACCAGAAATACGTGAAACTGCAAAAATAGGGGTAAAAAGATGAGATGGAATATTCAACATTGTATAGACAGAAGCAGCATAAAAATCAACATTAGGTTTTAAATTTTTTTCACGGTCCATTATATTTTCGATTTCCATAGATATATCATAAAGAACGCCACCGTAATCAGATTGAAGTTGTTTAGACATATTACAAAGAATGACAGCTCGAGGATCTATAGTTTTGTACACTCTATGACCAAATCCCATAATTCGATCCTTTTTCTTCAATTTATCAAGAATATAATTCTGAGCATTTTCAGGCTTTTTAATTTCATTTAGCATTGCCATTACAGCTTCATTTGCGCCACCATGTAAGGGACCTTTTAATGTTCCAATAGCTGATGTGATAGCAGAATATACATCAGATAAAGTAGATGCAGTTACTCTAGCAGCAAAAGTTGAAGCATTTAGACCATGATCAGCATGAATAATTAAGCATTTATCAAATATCCGTGTAAAAGAATCGTCAGGTAATTTACCTTTCAACATATACAAGAAATTTGCAGCTATATCCAAGTCTGGATTAGGTTCTATAAGTTCCTGGTTGTGTCTTATTCTTTCAGAGTAACACAAAATAGTGGGAATTTTTGCTAATAATTTAAGTGATGTATTCATCTTTGAATCTGAACTTGTATCTAATAAATCAGAATCAAAAGAAGATAGGTAGGAAACACAAGTACGCAATAAATCCATGGTAGAAGATTCTTTAGGAGATTGCTGGATTAAGGAAATTAATTGCGGTGGAATATGACGATTCTGATTAATTTTAGCCTTAAAATTGTTAAGTTCATTAATAGATGGTAATGATCCATGCCATAATAAAAAAATAACCTCTTCAAAGCTACAATTTGATGTAAGAGTAGAAATATCGTAGCCGCAATAAGATAACTTGCCACTAGAGCCATCAATGAGAGTTAATTCACTTGAAGTGACAATAATATCGTCTAGACCCTTACTATTTTTATCAGTACTCAATATTTCACCATAAACAAGATTGATAGTATTTTAAATCTTAAATAAATAGTTTGATTAATCCATAGTGTAAAGTAAAAATGCAACTTCGGGACCTAATTCTAGATTTATCATTATTTTCTATAGGTTTAACTCTAACCATTTTAGGTTCTTCTATGTATAGTGGAAGATGGATAATAATGCTAATTGGCATAATCATGGTAATAATACCAATAAAAAGATCTAATCTTGGGAGTTTTTCAAAAGTTCAGGGAATAAATGAAATAGATATCAAAGTAGAGATAGACAAAGATTCATGCATGGGAGTAGGTAGTTGTGTTTCAATAGCCCCGCAAGTATTCAAAATCGATGAAGCCAGTTTAAAATCATCTTTTATGGCCTATGCTCCACTTAAATTGCTAGATGAACATGGGGCAAGCAATCAAACCATATTAGAAGCAGCTCAATCTTGCCCATATAAAGCAATAATAGTCAATAATAAGGATAATGATGAAAGAATTTTTCCATAAAAGGCCGTTATCTGTTAAGCAAATATTTTAGAACAACCGAATGTTTTTATTTCTACAGTGTCTGATTTTATTTATAAAAATGTCTTCAAATCGTGTAGAAACAGAAAAGGTGGCAACATGGTTCATATATGCTGCAATAATTAATACGATTTTATCATTACTATATGTAACAGTATTTCTACTTCCAGACACAATTGGAAATGGTCATATACCACCATCAGGAGATTTATTTTCATTATCTACTGCAGTAGCAATGTTTCCTGGAACTTGGTTATTAATAGCATTCTTTGTACATGTATTTGTAGGAATACTAGGAATGGCAGGATGGGCAGGAGTTTATTTCATATCATCAAGAGTTATGAATAAACAAACAACAAACAAATTACTTGCAAGAGGTCATTTAGTTATGACTGCATTAGGAGTATATGTCACTACAACGTTCTTTTCTTTAGCAGGATTTATTGGTGGAAGGGCAATGTTACCTGAAACAGCATGTGTCGTACTTGTTGATCAATGTATGGGAGCTGGTGCTGCAATTGTTCAAACATTAATTAAATTTACAGTAATTCCAACAGGAGTAGGAATGGGATTGGCTCTAACTGGAACTGCAATAGGAATAATAAACGTTCTAATTACATTAAGACAACAACAGTAAATCAATCATATGTCAGATTTAATTGAAACAAGAATTATATCAAAGTATTTTCTTGTACTTGCACTAATTAATACAATAGCTGCAATTTTTTTCACTCTACCAATCTTAATACCAACATCAGGAATTCCTTTAATTGTAGGTGTATTTCCAGGTACATGGCTTTTAATCGCTTATTTGTTATTTTTAATTGTTGGCGTGATAGGAATGCTTGCATGGAGTATGGTATACAATTTAATTGAATCAATATTTCAAAAGAAGAATACAATAAAGAAATTAGCAATAATACATTTGGTGTTTGTAGAATTAGCGATTTATGGTTGTGCAAGTACAATGTCATTTATAGGATGGCAAGGAGGTCAAGCATTAAGACAAGGATTATCTATTGCGTCAGTAGGATTTCTTATAGAACCGTATGTTCTTCCTACAGGTGTGTTTGTATCATTAGTTCTTTTAGGACAATTAATTGGAGTTTATAATATATTTTCGACAATAAGAATGAAATAAATTTTTACTATGTTTTTGAATTATTCTTTGAAGTGTTATAAACATCCAATACTCTGATGATTGATATTGCAGCTTCAGTTGCGCTTATCAAAATTTGTCTTTTTAAACTAACAGGTTCAATAATTCCTTTATTTTTCATATTTAAAAATTTACGGCTAAATGCATCGACTCCCATAAAATTTTTGTCAAGAGACTGATAATTTCGTATTTTAACATACGAATCTAATTTATTCATACCGGAATTAGATGCAAGGACTAAAGGAATATATTCTAATGATTCGGCAAAAGATTTGACTGTAATTCTATCTAAATTAGCTAACTTTGTTGAAAAAATGTGTAATTTTTTAGAAATGTCAATTTCAATAGAACCGCCACCAAAAACAAAATAAGGATTAATTATGGTTTTGCGTAATAACGTCAAACTTCTTTTCATAAGGTCTTCGAAACTATCGCCAAGTCTTTGATTAACAGATCGAATTAAAAGAGTATTGGCTTTGTGTAAATGGCCGCCTTCAATCAGTATCCAATTTTTATCGAGAAGTTGTACAGATTTTACAGAGTTAGAATAGCCTAAGGCATTCTTTGTTAAGTCTTGAGGAGTTCTAACCATAGTACAGCCAGTGGAACGTTCAATCATTTCAATTTTTTTCAGGGGTACTCGCTTTACTGTTAAAATACCTGCACGCGATAATCTTTGAGTGGTCAGGTCATCAATAGTTTTGTGTGAAAATAAAACATTTGCACCACTATTAACAACGTAATCAACCATATCAAACATTATCTTTTTCTCAGAATGGAGAAAGGCATTTAGTGATTCAGGATCGTGTAATTCAATTTGTTTTTCAAAAACACCCTTATCAATTGACATAGCAGATTGAACAATAGCAATTTTTCCATCGGTAATAGATTGAGGCATTTGAGACGACAGTACATCAGCATCAAATAATATTCCATCAATCAACAAACTTTCATTAATTGATTTTCCACCAAGTCCTAAGATATCAACATAATCGGTGCAATATTGTGATGTGAATGTTGGATCAATAGAGAACAATGCCTTAAAGATTAAATGAGACAAATCAAATGATTCTAATCGAGAAAATTTTGACGATAGATATGTAAAAACTATATTTTGCCAATCGTCTAAAGTAGAAATAGGCATTTTCATCGTATCAAGTAAGATAAGTGCTTCTTTCAGAGCTGCGTCATATCCATCTATAATTATATTAGGATGTATTCCAAGTTCAATGTTTTTTTGTGCGTTATTTATCAACTGAGAGAAGAACAATGTAGATGTAATAGTCCCATCACCAAAACTATTAGATAACGAACCAGTTAGATCGAACAAAATTTTTGCGACTGGATGTTCAAAACCAGCTTTCTCAAAAATCGATTGGCCGTCTTTAAGAATAAAAACATCGCCAAATTCATTTAAAGTTAATTTGTTTAAACCATATGGACCAAATGAAGAACTCACCATTCGTGAAAGTATATTTGAGGCCATAAACATATTCTGTTGAGTAGAATTAAGTTTAGAAAACTTACTGTTAGAAACATCATCAGTCATCAATATATAAATAAGAAAATTAGTTTTTATAAATTATTAATTTAAGTGGGATCTTTCCCTCGAATTAAAGCAAAAGAAATTCCAACAATAGCAATTAGAGCTCCAATTAGGAACGATTGACTTAGACCTTGCACATATTGGGTGGCAGAAATAGAACCCCCAACATTATAAATATCTGTGGAAAGAAAAATACCAATTACTGAAGCTCCAATAGCAAGACTGAGAGACTGACCCATATGTCTCATTGTGCCTAACATTCCATTTGCCAAACTTCGTTGATCAGGAGGAACAGACGATAAATTAGCATTTGTATTTGGTGCTGCAAACAAAGAAAGTCCAATACCTAGAATAATTAATGAAATTTCAATAAATAAAATTGATGAAGATAAATCAATTCTGCTCATTAGTAATAATGCAATAGCAATAATAGACATCCCAAGTACGCTTAAATCTCTTGATGAAATTAAATTGGAATATTTACCAACAAGGATAGATACAATAACCACCGTTATAGGAAAGGCAGAAATCATAAATGCTGCTTCAATAGGGTCAAACAATCGAATTAATTGCAAGTAAAATGAGAATAAAACAATACTATTGAAATGTGCAGTATACACGAATAAAGCAGACAAATTTGTAGATAGGAACAAACGATTATGTCGCAACATTTTTAGATCCAATATGGGATATTTCACTTTAGATTCTACAATAACAAATAATATTAGAAATACAAGAGAAAGGATGGGCAGAATAAGAAGCGGTATAGAAATAGAAATTCTTGACCAAAGGTGGAAGTTTCCAAAAAGAGGCAGATATATTTGTTCAATATAAGCATCAATAGTAGTCCAGTTCTCTTTAGGGCCAAATGTAATAGCAACTAACAGAGTAGACAAAGTTAAAGCAAATAATGCAGAACCAAGCCAATCCATCGATTTGCTAAGAGATTGTTTACTTTCAATTAATTTGGAATAAGTAATTGGAATAAGACACAAACCAAGAGGAATGTTAAGGAAAAACACATTTCGCCAGCCTATATATTCAGTTATAATGGAACCAAGTGCAGGACCACTGGCTATAGCAATATAGATAACAGTAACATGAATACTCATAGCCAATCGCCTCTCCTCGGGTGGAAATACGTCAGTTATTATAGCACGGCTATTAACAAGTAGTAAAGCAGCCCCAATAGCTTGTATTATTCTAAATATTAGCAATTCTGCAATAGTCTGAGAAATGCCGCTGAGAAATGAACCTACAACAAAAATACCTAATCCAATTATGAAAAACTTTTTTCGTCCATGAATATCAGAATAACGCCCGAAACTCGTCATAAATACAGTCAGGATTATAAGATAAATTACGGGAACCCATATTGCAATTTCAATACCGGTTTTAAAATCTCTGGCAATAATTGGTAAAACTAGAGACACTATACCAGTATCTAGAGGAGCCATAAAAGTTGCTAGATTAACAATTATGAGTGTAAGCCATTTTTGCTCGGAGAGAGATTTTGAAATATTGCTTAACATTATTTACTTCCTGATAATGATAGTCAACAAAGATATATCATTCTGTTTATTTAGAAAAAAAATTAGTTTTCCAATATAAAATATCTATGTTTTAAAAGATTCTTCTCTAATCCCATTATTATCTAGAATCAATAAATCTATTCCATCTCCAGAAGCTGCATCACGATTTATTGCAGATCGAATTGATTTTATAACAAGATCTTTAGCTTCTTTTTCTTGCATGTTTTTTTTATAACCAGATTCAACAACACCAATTGCAAGTTCAGCGCCAGTACCAACAGTTGCATAATCATCAGGAATAACGGAGCCTAACGGATCTAATACATAAATTGATGGTTTACTTTCAATTCCAGCAAGAATAACTTGGGTTAAAAGTGGAAACCAACGTTGCTGATACATTATAACAGACATTAATTTTGCTATTGAATTCGGAGTAACTGGTTGTTTTGTTTCCAATTCAATAATTCGAACATGAGCAGAAACTTCACGAACAAGAATATTCATATCTGCAATCATTCCAGCAGCAGCGGCAGCTACTTGATCCGTTATTGTAAATAGTTTTTTGGCAGATTTACTAGTAATATGAGTACCGTAAGAAACACGTTTTTCAGCACCCAATACCACTCCTTTATCAAAAGTTAGCCCTACAGCCGTAGCGCCAGGAATTTGGTATGGAATAGCCATGATTATAACTCAAAGATTTTTCATTATTATCCTTTTTAAGGATTAATACTCACGGAATAACAAAATTTATTCTTTCGACTTATCTTATAGGTCATTCCTGTAAGTAATTTAGAAATTTCCAAATTGGTTTGTAAATGAGAACTTATAGACGATGTTAAAAAAGCAGATGGTTCTTTTGATAATGATAGAAGAGGTATCACCATATCTGCGAGATGATGATCTATTGTACAATTAGAATTATATTCAAAAAGAAATTTTTTTGAAGATAATATTGCAAGTTGTTCAGCAGTAATATCATTATTGGTGAGAGCGTCAGATCCAATAAAGCTTTTATCAGAACAGCTAGATATACAAATAACAGATCCTGAAGAACTAGAATCACAAACAGAATGATTTATAGAATTTGGATATATACCGTGTTTTTCTAAGAATTTTTGTGCAGATTTACATTGTATTTGAGCGAAGTTTTTTTTATCAGAAGTAGATATGCTATCAATAGTAATATCTTCATATGCAGGATTATTCAATGATAAAGCGTTAAGTGTTTTAGGAGATTTAATTTCGAGATTGATTTGTCCATTGCCACGTGGAAAGAATCCACGTTTTGGTATACTAATAGATACTAGGAATCCTAAAGTTTTCAATATAGGAATAACTAATCGTCGAAAATAATCAGCAGATGGACTCCAATTAACATCAGTACCGCCCAATATAGAAAAATTATATGTTTTTCCACTAATACAAATAGACTGAATTAATGATTGCAATAATAATGGAATACTTCCTGCAGTCCCAATATCAATTTTCATATCTTGAGAAATAATCTTATTTGGAAAAAAAGTAATTTTGGTAGAATTTAGAAAAAGGCCACTAGTCTCAGCTTGGCTAATGTTTGCAATTGATTGAATTGAGGAGAGATGTTGAGGACGAAGGCCAGGTTTAGGCCTATTAGCTCGAATATCATATACCTCAATAGATGTTTCAAGTGCAGTTGCTAATGAAACAGCAGTTCTTAATATCTGGCCACCGCCTTCACCGTGTGAACCGTCGATTCTTAACATTATACAAATAATGAAAATGGAGATTTAAATAGAATCCCTCTCGCTAAAAGAGAGGTATGCGTATTGGGATATTAATTGGAAGATTTCAGCCATTGCATAAAGGCCATGTAGAAGCAATATCTTTTTCTTTGCAATACTCTGATAAACTGTTCATAGTTATTGGAAGTTCAGAAAAGAGCAATCAAAAAAGAAATCCTTTTACATTTGAAGAAAGAAAAAATATGTTCAAATTGGTAATAAATTTCAGATCAATGAATAATAAAGCAATTAAAATTGTTCCCATAACAGATGCAAAAAATCATTTGGAATGGATAAAATCAATAAATAATGCAATAGGAGATTATAATGTAATTTTTACAAATGATGAATTAACGGAGAAGTTATTTAAAAAACAAAACGTGGAAGTAATAAATGTACCATTATTAGAGAGAGAGGAATTATCTGGTACTGAAGTGAGAAAAAGACTAGAATTAGATAAAGACTGGCAGGATTTAGTGATGCCAATAGTTGCTGAATATTTAGTAAAAATTAATGCAAGTGATAGAATAAAATCTATAATTTAGATCGAATGTTTGTAAGATTCTTCATTGCTGCATCCAAAGCAGAATCAAGATTTGCATTAAAACCAAGACGTCTAAGGTTATTTCCAATAGCAGAGATTGTAGTAAGAACATGATATTGATTAACCATGCCTAGACTACCAACTCTGAACAATTTACCTGCATAATCACCAAATCCGCCAGCTACAACTACACCATATTGTGTTTCTAGAGAACTACGAAAATCTTTGTCTTTAATTCCATCAGGATAAGCTACAGAAATCACAGTATTAGAACGGACTTCTTGTACACCAAAAAGTTTCAAGCCCATTGCTTCAAAAGCATCATAAAATGCTTTACCACAATATTCATGTCTAAGATATCGATTATCCATTCCTTCATCTAACATTAAATCAAAAGCTTTGTCTAAAGCAAAATACAATGGTAACGCGGGAGTAAACGGCGTTTGTGATTTTTTATCAAAGAAATTAATATAACGAGGCAAATTAAGAAAATGAAGTTTTTGTGTGTCCTTGAAAATTTGATCTTTGTATTTAGTACTAATGGAAATCAATGCAAGACCAGGAGGTGCAGCAATAGATTTTTGGCTGCAAGTAGCTACAAAATCAATATTGTAATCACGAAGAGGCATTTTATCAGCACCCCAATTTGAAACTGCATCAGCAATTAAGAACGCACCGTGTTTTGATGTCAAATCACCGGCTTCTTTGAGCCAATGACACATTGCACCAGAAGAGGTCTCATTAGTAACAATGTAAACTGCCTTTGTATCAGGATTTGTTTCTAATGCACGTTCAAGATCAGACAATGACGGATAATCTCCATAATCTGCAATAAGTTGAATTGGAGAAGCCCCAACACCGGATATTTGTTCAGAAACACGACTGCCAAATTCTCCACAAACAGTGACTATAGCTTGATCACCTTTTCTAAGTATATTGGTAATGCTAGCTTCTACAGCTGCAGTACCTGAAGCAGTAAGAATAACAATATTTTCATCGCATTCAAATAGAATATTACCTTTACGAACAACTTTATCCATAAGAGAACTAAAATCACTAGTACGATGCCCTATACTAGGAGAAATCATAGCCTCAGTCACTTCAATAGGAACATTTGTGGGTCCGGGAAGCATAATAAGTTTTTGAAACGTACCAAAGTTAGAAGTGTTTGACATTTTTAATATTGTAAATGAATTCACATATACATAACCCTTTCTTAAAATAACTGAATTTGTTTTTTACAATATAATTTCGCATATTCTAGAAATTATTCAAATACTCGGAGATAAAATAAATAGCCATGGAAAAGGGAGATTTAATATTATTAGATTTTACTGCAAAAGTTAAAGATACAGGAAATCTTATAGAAACAACAATACTAGAAGAGGCTAAAAAACTAGATAAAGAGGATTCAGATTACACTTATAAACCAAAATTAATAGCGATTGGCGAAGGATGGGTGCTAAAAGGTTTAGATGATATTTTAAGCGAGACTGAAATAGAAAAAAATACACAAGTAGACATTCCACCTGAAAAGGGATTCGGTAACAGAGATCCTTCAAAAATAAGATTAATGCCAATTAGAAAGTTTGAAGATAAAGTCGATAAACTTGAAATCGGTTCAGAAATTGATATTGATGGAAGAATTGGAATTGTTAGATTTATAGGATCAGGACGAGTTCAAATGGATTTCAATCATCGTTATGCAGGAAAAACATTAGAATATAATTTTACAATTATAAAAAAAATAGAAAACAAAATAGAAAAAATACAATCATTAGTAGATCGAAGAATCCCACAAGGAAAAGAAAAGATCAATATTACAGTTGAAGATTCAACAACAACAATTATAATTCCAAAAGAATATTTTCTAATTGATGGGCTTCAAATAATAAAAAAAGCATTATCAAATGAATTAATGAAATATATCGATGATTTGAAGAAAATTTCATTTGTTGAAGAGTTCAAATCAGATAAAATTGATGAGCAAAAACAAGCAACAGAAGTAGAGAAGGATGATATTAAATCAACAGAAGTAGAGAAGGATGATATTAAATCAACAGAAGTAGAGAAGGATGATATTAAATCAACAGAAGTAGAGAAGGATGATATTAAATCAACAGAAGTAGAGAA
>sequence13
AACCAATGACAAAACCTGAACCAGAACCAATGACACAACCTGAACCAGAACCAATGACACAACCTGAACCAGAACCAATGACACAACCTGAACCAGAACCAATGACACAACCTGAACCAGAACCAATTCCTGAAGATAAAGAAGTTCACCCTACAATAGTTTCAGACGATATGTTTACAAATATTTCTCATAATCCAGTTGTTGAACCAGAAGTTATTGTGGAAGAACCTGAACCAGAAGTTGTTGATCCAGAACCAATGAAAGAACAAAACGAATTTCAATTATTTGGAAATACTGAAAATATAGAATCTCAAGATTCGTTAATTACAAAAATTACTGATTATGCAAACAAACATCCTGATTTAAGTCCAATTGAAGATAATTCTATTCCAATTGAACCTCCAAAGTCAATGCCTAAATCTGAAAGAACTGAAACTGGCTGGAAAATATCATTCGAATAATTATATTTTGTGTTGGTAAATAATTTGTTAATCGAATTAATTAGTAACGGCCTTACTATGGGCAAAGCACAATCCAGGCTTACAATACTAATAATATCTATGACAACTTTTAATGCAATAATATTTTCAAATTTATTAAATGGCGCAGGTCAAATATTTATTAATCTTATAACATTTGGGTTTGTTTTAATTTCTGAATATTTACTTACAAAACAAACAATTGAATCATCTTCTAATCGTTTGATTTTATTTAATCAACTTGGCGCTCAAACACGTGCAATAATTTCATTAATAATTTCTAGATTTATTATTGTAGGATTAATTGGTATAATCTTTGGAATAATTGTTGGTTCAAGTATTGCTTATACAATTAATATATCATTAAATGTGATTTCTAGTCTTTTACATAGTTCAATTATTACTATATCAATTCTAACAATTTTAGGCATTTGTATTGGTTCATATCTTGCAATAATTCAATCATTCAAACAAAATAATTATTTCTCTTAGTGATATTATATGCCACTTCCAATTATAAAATTATTGGATGTAAGAAAACATTATGATAATTATTACGATCATAATGTTTTTTCAAATATTAATTTAGAAATTAATTCTGGTCAAATAATTGCTGCTAAAGGTACTATTGGTTCTGGAAAAACTACTTTACTTAATCTTATTTGTGGTATAATAAAACCGGATTCTGGAAGAATTTACATTGATAGATATGATATTACTTCAATGTCATCAAATAATTTGTTATCATTACGTGCAAATATATTTGGAATTGTTCCACAACAACATAATTTAATTCCTGAATTAACTATTGCTAAAAATCTCGAATTACCATTAATATTTACTGGAATTACAAAAAATGAAAGATCAGTAATTGTTAATAATACTTTAAAGAAAATTGGTATTTTATCACTTGCTAGTAGATTAGCAGGAACATTAAGTGTTGGCGAATCTGAAATTGTTTCAATTGCTCGAAGTATGGTTACTGATCCTCCTATATTGTTAATGGATGAACCCACTGAAGGTTTGGATCCAATAATATCTGAAATGATTTTATCTTTAATTCGTGGTGATTCTATTCTGAATAATAAAACAATATTCATAACTACTCATGATGAACGTATTTTGAATATTGCTGATAAAATAATTCATGTTAAAGAAAATATGATTTATAATTGATCGTATTATAGCTTAATGTGGTAGCAATGAGGACTCAGAGTTACGTTGAATTAATTATGACGAGAAGGCATTTGACCGAGCTACCTATTTTATTATTAATTTCATTATTTTCTAATAATTTTTAAAGAACTCAAGGTTAGTACATTCTATGATTATTGATTCTAATGATGACCCATATGACTCATTTTTGATGGTTCCAGGTCCAACTATTGTTGATCAAAAAGTTCGTAATGTTATGAGTAATAATCAAATGGGTCATTTAAGTGAACAATTCACAAATGATTTTATGAAATTATTAGATTTGTCGAAGAAGATATTCGTTACTAAAAATGGGTCTCCTTTCATTATTACTGGTTCTGGAACTATTGCTATGGAAGCTACAGTATTAAGCTTGTTAGAAAAACACAATAAAGGATTAATATTAGACACTGGATATTTTGCACAACGTTTTGGCAAAATGTTAAATTGCTATGAAATAAAATCTCATATTTTACCTTTTAATTTTGGACAACATGCAGATCCTGATATATTAAAAAAAGAACTTATAAAAAATAATTACGATGCAGTTTTTATCACTCATGTTGATACCTCTTCTACTGTAATGAATAATATTTCTGAATTAGTAGACGTTGTTAAAAATTATGATTCACTTGCAATAGTTGATTCTGTTTGTGGTGTAGGAGGTTGCGAATTAAATTTTGATAAACTCGGCGCAGATATAGTTTTAACTACTTCTCAAAAAGCACTTGGTTCTGTCCCAGGAGCTTGCTTAATGATGCTTTCTTCTAAAGCAATTGACATTCTCGAAACTCGTAAATCAATTATTCCTTCTTATTACTTAAATTTGAAAAATTGGAAACTGCATATGGAAAATCCAAAAACGTACATAGCTACTCCTGCAATTCAAATTATGATAGCATTAAAAACAGCAATAGAATTAATTATGGAAGAAGGACTGGAAAATAGATGGAATAGACATAAAAGAATTGCAAAATCTATACAATCAGGAATTGAATCATTAAATTTAGATTTTATTGCAGAAGAAAATTATCGCGCATATACAGTTACAGGATTTTACGTTCCTGAAGGTCAATCACTTGATATTCAATCTCGTCTTAAATCAGAATATAATATTGAGGTTGCTAATGGATTTGGAAAAACAAAACACAATGCATTAAGAGTTGGACATATGGCTAATATAGGTGATTTTGAAGTTATAAAATTTTTAACTGGTTTAGAATCAATTTTACATGATTACGATGAAAAAATTAAATTAGGAACTGCTGTAGCTGCAGCTTCTGAATATTTAACCCAATAATTTATTGTATTGATTCACATAATGGACAAATATTATCTATTTTCTTGATTTCTGCTATACAATTGACACAATATTTTTTGGTTATATCATCAGGCAATTCTTGTTTAGGTTGATTGATAAATATTGATAATGTTAACATAATTAAACCAATTATTGATATTGCCATTCCAAATACTCCTGTTAAAATCATTAAAAATAATCCAGATATGAATATTACAAATCCATATGTTGTAAGAAGTATCCACATTAACTATAATTATAATGTTATTCTAAATAAATTGAATTGAATAACTATTCTTTTGAAAACTATTCTGGAAAGAATACTCTTATTGTTGGTGGTATTGATAGTGATATTTCTAATAATAAAAATATTCTTCTTGCTAATTTAATTAATGAAGCAATTGATCTTGGTTATGGGAATAGAATCTCAATTATTGAAATGTGTCCTAATAATACTTCATTTAAAAATATTAAATTTGCAGATCAACTTTTAAAGTATGTTGATAATATTGAAAATTTTAATTACATTAAACCTAAAATTGTTCATTGGCCTCGTGTTTATGGTAATAGTCCAAAAGAAATAATTAATTTTTCTGTTGAAAATTCACGTAATTTGATTGAATGTTTAGATAATTATAGAAAAAGACCTACTAGAATTTTATTCATTAATGAATTAAATTTCTATCTTCATATGGGAACAATTCATTGGCTTATGAGAGCTATTTCTAAATCTTCAACTTTTATTGGAACTTGTTTTAGATCAAAATTTCCTTATTCTGATTATAATACTGGTATATCTAGAAGAGAACGACGATTGATTGATCGTTTATCACATACGGTTGATAATGTTATTAATTTATAATAAAATTAACTTTTTTAATTAAAATATTTGACTTTAATTAATAATTATTCTTTATGATATTATTATTTAATGCATCAACAACATATTGATCAATCTAATCAGAATTCAATTATTTGTAATTATTGTGGTAAATTATTAAATCGCGAATATTATTTCAAATGTAAAAAATGTTTATACACTTATTGTTTTATACATAAATCAAAACATTTATCTTGTTCTTCAATTTTTACAAATTAGTTTCATTTATTGCATTTTTTATGTTCTGAACACCTATATTAAATTGTTTTAATTCTTGTTTAGTTAATTCATATTGAATTATTTTTTCTATTCCATTTTTTCCTAATATCACAGGTACTCCAATACAAATTCCTTTTTGATTATATTCTCCTTTTAAGAAAGTTGATGCAGGTATTGTGATTTTTTTATCTAATTTTATAGCTTCTATCATTTGATATATGGCAATTGATGGCGCATAAAATGTAGCTCCTTTTAATCTAATTATTTTTGCAGCAGCATTTATTGTATCATTATAACATTCTTCTAATATTTTTTCATCAGTAGATTCATTTAATGGTATTTCATTTACTGTTGAATATCTAATTAATGGCAACATCCCTTCTCCATGTTCTCCAATTACTATTGTTGTTAGTAATTTTCTAGAAACTCCTAATTTTTCAGAAAGTACGTTTTTAAATCTTAAATTATCTAAAGCTCCTGACATTCCAAATATTTTTTCTCGTTTACTGTTTAATGTTTTATACATTACATATGTCATTGCGTCAAGAGGATTTGTAATCATGATTACTATTGAATTAGGAGAATATTTTTTTATATTTTCACCAACTGATTTTATTATTTTCATATTTTTATGTAATAGATCCATTCTGGTCTCTCCAGGTTTTCTTCCTAAACCTGCAGGAACTATTATGATGTCTGATTTATCCAATTTACTAAAATCATTAGTTCCAAATATTTTTTTATCAATTCCCATTCCACCTGCCATTTGAGAAATATCCATGGCTTCTCCTTCTGCTTTATCTTTTAATACGTCAATCAAAGTTACATTATCTAAATCATGACTAATTATTTGTAATGCGGTTGTGCTTCCTACGTTTCCTGCGCCAATTATTGAAATCATGTGAATATTCTTTTTTTTTGCTTAATGAATCTTTAGATTTTTTCAAATATTATAATTTTTGAAAATCTTTATTTTTTTTTATAAAAATATATTATTTAAAAAATATTTTTTTTGAGAATATTTCTATTGTAGGAATAATCTTACTTTTCTTACTTATAATATTTTGATATTTTTCATTATTATTATATAATAATTATAATAATAAATGAAAAAATTGCAAGATTTACATAATAAATTTTCAACATCGGTAATTATAGTTAATTTTATAATACTGTTATACAATCACAAATTTAACAAGTAGGGATAAATGATGATTAAAGTAGGAATAAATGGATTTGGTGTAATTGGCAGAAGAGCAGCTTATGCTGTTACTAAACAAGATGATATGGAATTAATTGGTATTGGAAAAACAAATCCTGATTACAAGGCAAAAATTGGAATAGAAAATGGTTTTAGTTTTTTTGTACCTGAGGTTGTTCATAAAGAAAAATTTGATAAAAAAGGATTAAAAGTTTCCGGTTATATTGATGAACTTATAAAAAATTCTGATATTATAATCGATGCTACTCCAGGTACTCTTGGCGAGATGTATCGAAAAAAATATCTCAATGCAGAAACTCCTTCTTTATTTCAAGGAGGAGAATCTAAAGATCTTGCTGAAGTATCTTTTGTTGCTCAATGTAATTATGAAAAATCTGCAGGCAAAAAAGTAGTTCGTGTTGTTTCGTGTAATACTACTGGTTTAAGTAGAGTTTTAGATTCAATTGATAAAAATCATGGGATTTCTAAGGTTACTTCTGTAATAGCACGTCGTGCTGTTGATCCTGATCTTCCAAAAGGAATGGTTGATTCTGTGTCATTGGATCCTGTAACAGTGCCATCTCATCATGGTCCTGATGTTAATACTATTTTACCTGAACTAGATATTGTTACAATGGCAATTAAAATTCCTACAACACATAATCATGTTCATAGTTTGATTATAGATCTCAAGAATACTTCAATTTCTTCTGATTCAATAATTGATACATTAAAAAATACTCCTAGAGTAATGCTTGTTTCATCAGCAGATGGAGTAAAGTCTACTGCTCATACTTTTGATCTTGGTAGAGAATTGGGTAGAAATCGTGGAGATATGTATGAAAGTATGATCTGGAAGGATTCGATAACTGTTATTGGAGATAGAGCATATATGTATATGGCTGTTGCACAGGAATCTATTGTTTTACCAGAAAATATAGATGCAATTCGTGCTACTCTTCAAACAAATACTAGGGAAGAGTCAATTAAAAAAACTAACGACAGTCTTTGTATTGGTGGACCTACATCTTAATATATTAATTATTATAATCGAAAATAATGACATTACTTGATTCTTCAATAGAATATTATTTATTAAAAGAGAAAGGTTGGGATCTTGGATACGGTAAAATTTATGATTCTGAGGGAGAAGTTATTGGAAAAATGGATAGACGATTACGCAACATTCGTGGATTAACTAAATTATCTGAAGTTGATGGTACAGGAATATTGAAAATACAACGAAAATTTCTCACGCCTAGAATAACTTATGATATATTTGAGAATCATGAAGATGATTCTAAACACGGTAAACAATTTGCACGATGTATTAGAGCATTTACATCTATAATTCGTCCTAAAATGTGGCTTAATTATGATCCTGACAACAGTGGCAGACCTAGAAAACGATTGGATGCACAAGGTTCATTTGCAGGATGGAATTTTACTGTAGTCTCTGAAGGAAAAGACATTGCAGAAGTTAAAAAATTAGACAGATATAGGGATATTGTATTTACTGGTCTGCTGGATAGATCTGATACTCATGCTATACATATACTTGACAAAACTTTCAATAGAAAAATACTTCTTGGTTTTATCATGTGTATTGAAAGAAGTCTTAACACCAAAAAATAAAATTTGTTAATTTATTATAATTTCAATTGCAACTATAAGAAGAGATATTCCAAAAATTTTGTTTAGAATTTTTGCATGTCTTGGCGAACTAAAAATTTCTTTTAGTAGATTTCCTGCATATGCCCATGAACTGATTGCTGCTAAACCAAAAATCGAGACAAATACTACCAATCCTATAATTTCAATATATCCTGTTCCCCAATATTGAGAGAATCCTCCCATTAAAGTTAAAAAAAATACCCATGCTTTTCCATTTACTAACGAAAAAAAGAAACCAGTTTTGAATCCTAATTTATTTGTATATTCATATTCATTTGATATTGGTTGTGCTGTTCCAAGTTTCCATGCTAGTCTAATTATTACAGCTGCACAGATCCATGTTAGAATATCGATTATAATTTGTTGTTGCTGAATAAAAGATATAGAAAAACCTATGACCAATCCTAGGGTTGCCCATCCAGAAATTAATCCAGCAAGAAGATTCGTTGTTTTTCTGAATCCATATTGTGCCCCATGCGCAGTGCTTAGAATGTTTCCAGGTCCTGGTGTAAAGCTCACGGAAAATACAAACCATGTCATCACCAGAAGAGTTTCAAAATCCATGAAATAAAATTTTTTTGATGATGTAAAAGTTTACTACTTTTGTGAAATGTCTCTATATTTCATTATTCCACTAATTATTAGTGCAGTTCCTGCAATGAATAAAATTATTGGAATTGATTCCCATACTGTATTACCTGCTTGAAGTCGTGCTTGTTCTCTGGGAGATATATCAAACCCATATGGTATTGAATTGGGTCCTATGGAAATTTCTGTTATAAAAGTTAGGAATACACTAAAAAGTAAAATCACACCTAATAATATCTGAGCAATAATTCGTCTTTCCATTGGTTGTGTTATATTTTATAATAATGTAAAAGTTTACTACTTTTGTGAAATGTCTCTATATTTCATTATTCCATTAATTATTAGTGTGGTTCCTGCAATGAATAAAACTATTGGAATTGTGTATGCTTGATATAATTGATATTGTTTAAACGGATTTGGCGTAATCGGTATAAGACTTAGAACATATAGCAAAAAATATGGATCTGATCTTGAAACAAGAAAAGTCGGAATGAACAGAATTAGTGAAACCGCGCCTAATAATATCTGAGCAATAATTCGTCTTTCCATTGGTTGTGTTATATTTTATAATAATGTAAAAGTTTACTACTTTTCTGACATTTCCTTATTCATAATTATACTGCGAATCAAAAATATTGTACCAACAATGAAAAGGATAATTGGTATTGTTGATCTTTGAAAAGCTGAATAACTTCTGCAATCTTCAATTCCTCCCCCTGCTACTCTTGGATCACATTCTGTTACTTGGCCTGGGGTTATTCCAAAAAAATATATTATAATTGCAACTAACACAATTAATCCTCCAATCAAAAACTGATTGCGTACTTTATTTTCCATAAATTATTTTAATTTATAGAATCTATTTAGTCTTTATCGATGTCGATATCAATGTCGATATGTTTATTCTTGTTTGTTTTTATTTATTCCAATTATTATTAGTGTAGTTCCTGTAATAAAGAAAACCAACGGTGTTGTATATTGTTGATATATCTGGAATTGTTGATAACCAAGCGGTGGAGCCATATTACATAGTGGATGACAAATTGATCTTTCGCTTGGTCCTATTGTCATTTTTTAGTAAAAAACGCCAAAACTGCGAATATCTCGGTAAACGTAACTAATTTTAGTTATTTTAACGTGATATTCAACATGATAAATTGGAACAGCATACTAAGATGGATACATCTTACATTTGGACTGATGCTTGGTGCATATTTCTTTAGAATCAATCAGAACATCATGGGAGGAATCTGGTCCGAGGGAGTAACTATGTTCGTAAGCAACGTGGTAATATTCTTCCTTTTCTGGACAGGAATCTCCAAGTGGCAACTTCCGCGAATAATGAAATTCTACAGAAATCGTAAACGGTAAACGCTGAAATGAATATTCGCTGTTTGATTTCAAAGCATAATTGGACAAAAATAGGAGGTGCTCATAGAGCTGGAAATGGTAAGTTTAGTCAGAATTACAAATGCATGAAATGCGGAAAAGTTAAAAAAACAATCAGTTAAGGAATTAAGAAAAACTGCGAATATCTAGGTAAATTTGGTTATCCACAACTAATTTTAGTTATTTTACTGTGTAAACACATGTGGGGAAGAAAAAAAATTCAGAAGACAAGTTCCAATGGACTGCAGGAACAGTAGCAGTCGCACTTGTGGCACTCTATCTTTCCAGAGGACTAATCGCCACTGCGATAGAGGGAATAATACTTTTGATAATATACATAATCAGCATTTTTGCAGTTGCGTCTGGAGCATATTTCTTCTGGACAAAAGGAGATGAGAGATGGGAAGATTATGTTGAAGGCATGAAGAACAGGGCAGACAAAATTATCAGGAGAATATTAAGAGAAAACTGATCTAGCAAAAAAACCGCGAATATCTTGATACACGCAACTTATTTTAGTAATCTTATCAAAAACCCCCGCCCTTTTCTCTGCGAAACATGTCACTTTCCATGCTTGGGACGTTCTGTCATTTTTTAGTAAAAAATGCTAAAGCTGCGAAATTCGTAGTTTTTGCATATTTTGTATAGGTGTTCCAAGATCTCACATAATGTCCCTAGTGTATATCTAGCTATCACCGGATGCCTATGGCAGGATTACCCCCAGATGTACCAACAAAAGGTATTTGGAACGGCAAAGTAGCTATTTTCCCCTCGATATTCGCAGTTTTTACTAGATTTGTTTTCTGCTAATTTCCTTGCCGTCTTTGTTTTCTGAAGTTGTTCCATCTTTACTATAATACGTTCCAGTCCATCTTTCGCCGTCCTTGAATTCGCCTTCGTACTTTTCTCCGTCAGAATATGTGTATACTCCTATTCCGTGATATTTGTCGTCCTTGAATTCGCCTTCGTACTTTGCTCCGCTATGAAATGTATATACTCCTTTTCCGTGCTTTTTGTCGTCCTTCCATTCGCCGTCGTACTTTGTTCCGTCAGGCCATGTGTGTGTTCTTTGATATACATATGTTATACGGGATTTCTTAGGTCCTGACGGAAAACCTGTCCCTCTTTCGTACTTTTCTTTAAAATCAGACCCACTCCTCGTTCTTTCATTTTTTCCCATTTTTATCAAATTCAATGAAATAACTATCAAACCCATTAAAACAAAAATAATAAAAACAATAATTATCAAAGTTGAAAATCTCAATATAATTGAATATAGTTCCGAGAGAATAACCAAGAGTATTATCGTCCCAAGAACATATTTGGATAGCAAAAAACGCAACAAATTTTTAGTTCACATTACATTTTACGAATTATCTATTAACAAGATTTAGAGTAATTTCTAAATTATTAAGTGCCCAAAGACGGAAATATTGTTCACGATCTCCTGTTTTATCTGGAGAGGAATCCTCACTAAATGCAAG
>sequence14
ATCCATAAATTTTGAGATTGATTCATATAGAAAGATTAGATTGTTGGAAGGTCTAGATGATATTGATCTTACTCTTAAAGAAGATGAAAAAATTGAAAAATTTGAAAATGACTCTTCTATAATATCAATCTTTTAGAAATGGATAAAATAGGAAAATTAGAGTTTTTTTGCACGTTTAAAATTATTACCGCAGCTATTACAAACATTTTTATTGTCAATTAATTCAAAATTTGCTGACCAACATTTAGGACAAACAGAAACTGACAAAATAACAGATCATCTCATCAGGTTAATGTGATGTTGAATCATTTCTAAAATTGTTCTTTCAAGAGGAATTTTTGGTTGCCATCCAAGTTTTTCTTTTGCTTTAGATGCATCTCCAATAAGTACTGGTAAATCAGTAGGTCGTAATCTAGTTGTATCTAATTTATAATCCATATTTTCAAGTTTATAATTGTCACGAGCAATATTCAAAGATATTTTTAATAATTCTTCAATTGTAATGCCTGTGCCACTAGCTAAATTGTAGACGTCTCCTTTAGTGCCTTTTTCAATAACACAGAGATATCCCAATATAATGTCACGTACATCAGTAAAATCTCTAATAGAATCAAGATTTCCTAAAGAAACATGTTTTCGATTTTCTTTAATACCTTGTGCAATTTGCCGTGTAACTTCGCTTGTCACAAACTCATTACCACGTCTTGGTCCTGTATGATTAAATGCACGGGTTAAGTGTACATCAAGGCCATAACATGATACATATGTTCTACAAGCATCTTCTGCTTGTCGTTTCGAAGAGCCATAAGGAGAAGTTCCAATTTTACGTAGTGGATTTGTTTCTTTAACAGGAGTTTCATTAATTACATTATTATTTGCATCAAAATCAGGAACAGGTAAGATAATATTATATTTTGATAGCATTGATTTATAATGTTCATTATTACGAATAACTAAACCATATTCTTCACTGGAACCTGCATAATGTAAAGATATATCACGTGGCGTAAGTCTTAATGCTTCAAGCATATTAAGAGTTCCAGTAACATTTGTAGAATAAGTATCAATTGGAGATGCAAAGCTATGAGGTACAAAAGATTGAGCAGCTAAATGATAAATAACTTCTGATTCAGATTCTTTAATTGCATTAACAATGGAACCAAGATCCTGTAAATCTCCTTTAATCAATTTAATATTTTTCCGGTCTAGCAAATGTTGGATATTCCTAAGATTGGGATTAGATTGTCTTCTAAGTAGTCCATAAATATTGGCGTTAACTGATTTAGAAGAAAGAATTTCAGTAAGCCAAGAACCTACAAAACCAGTTATTCCAGTAATTAAAACATTTTTACCTTTCCAATAATTACTATTAACACGATTAATAGTTTCATAGGTTGTTTCTTTTTGTAAATCAACTAGTTCGGGCATCAATTATGATGTAAAACACAAAGATAATAAATATTGTTAAGAGATATCAGAATTTTAACAAACACTAAAAATAAAAAAAATAATGAATGACATGCATTTCATGAAGGGGAATGCGATGTCATTCGGGTTCTAATAATATGATTTCTTATTCGCCAGCTATTTCTTTGAATATATCATGCCATTTATCATGATTGGCTCTGGCGTCAGCATTTGGATATCTTAGAAGATCCATGCCCGCAGGAGTAGCTGCTCCAAGGGTATGCTTAGTACTTGACTCGACATCAGGCAAGGCTGCGAACCTTACATCTACATTGCCAATAATGATTTGTGCGTCTTCAGTGACCAAGAAATCGATAAATACTTTTGCTGCGTCTGGATTTTCAGCTGCTTCAAGAAGTACTACGGCAGTTGGACCCCACATCAATGGGAAATCTTCTAATTGAAGAATTTCAACAGGTGCGCCATCCATTTTTGCTTTTACCACGTCATGTAATTGTCCTACAATACCAATATGATATTCGCCTCGTGATACCTCGTCAACTTGTGCTCCAGTACTACGTTGTCTAACTGGTTGTACATTTGCTTCCAACTTTGTTAGGAAATCAATTGTCTTTTCAGCACCCAATGGACCTTCTGCAAGAGTAGCCCAAATTCTAGTTGAGGTTGTTCCTCTAGTATAATCATGCATTGTGATTTTACCGTTCCATTTTGGATCAGTAAGATCATTCAAGGTTTTAGGCAATTCGTCTTCAGAGACTAAATTTGTATTGTATGTAATTACTTGTCCTAGTAACAAAACTGCTTGCCAATTACCGTCAGGATCTTTAAGCTCATCAGGCCAGTTTGCTGCATTTGGAGATTTATACGATTGTGCAAAACCATCGTCAACCAAGGATAGGGATCCTGGAAAACTCAACATTACTAAATCAGCTGTTTTTGCACCAGCGTCTATTTCAGTTTGTATTCTAGTATACGTTTCAGAAGGTGATCCTCGAGCATACTCGATTCTTATGTCAGGATTTGCTTCATGAAATGCATCAATTACAGGTTGCATATCTTCTGCGTCTACAGAACCATACACCAAAACGGCACCTTCCGCAGATGGACCGCCGAACATTGTTAAACCAGCGATTGCAATTAAAATAATTACAACAACTGCAATCAAGAGATTCTTATTTTGTGCTAACATATTCAGTAAAAGTATAAATATTTATATTTAGTCCCTGTTAGAATTATTATAACAAGAATGAATATTATATTATCAGGCGTGAAAAACATCACAAATATGAAAAAGATAATTCTAACAATATAAAAAGATGATATTATTTGGAAACCACAAGTAGCAAACATCCACATGTTAACAAAGGTAGAGTTAGAGAAAACATAATAAATTCATTATCACAGCAACCATATTCACTAACAGATCTTTCTAGAATACTCAAAGTTTCAAAACCAACAATCAGTTATCATCTAACCAATTTAATGAAAGATGGAATAATAGAAGCATACGGAACAAAAAAAGGAAGAGGAGGATTTAGATCTAAACTATATATATTAAAACAGAATTTAGATAGTAAATTACCATCAGTGTCTTCTGATTCATATTATTTAGATTTATTGTCAGGAATATTTGAAAGTAGTAAATTAGAATGGACAATTGAAAAAAATAATAACATAGGAAAAAATATTCAAATATTTTTATATCATGCATTTAGATTATTGAGAAGTGTTACTAAAACAAGACATCATGATATATTAAGAAACTATGGAAACAGAATTGGCAAAGAGGTAATTGGTAAAAAATTTGACAATAATTTAAAAAATAATTTAAGTTCTTTATCAGAATTTTTTGAAAAAAATGATATTGGGAATATTAAGGTGGTATTAAGTGACGAAAAATATCATCCTGAATATAGATTTCAATGTTTAGGATGTTTTCAAGCAAGAGAAAATGGAGGTCCAGTATGTAATTTGACAAAAGGAATAATTGAAGGTTTTTTGGACTACAACTATGGGAATAGATATGAAATAGGAGAAAGGCAAAAAGATGGAACGTTGTATGAATCTTGTGTATTCCCTATGAGGCGTACAAAAACACGTGGAAGAGCAGAGGCGATAAATATAGAATGAATTTAATCATTTACTACATAAAAAGAATAAATTGAATCGAACATAGACCAAAGTACATCTTCAGTGAACAATACAGAATCAACTGCCTTTAATTGCATCTCATATGATTCAGAATACTTCATAAGAATATTGAGAGCAATTTGACTATCTTTCCTAGCTTGAGCAGATAATGCCATAAAATAATTCAGACCTTGTGGATCAATAAAATCACTATAATATTTAGATAAAGCATAAACACGCTTATCAATTGCAGCAGGTAAGAAAATTTGGCTTAAAGATGTAGAAATACCTTCGAACCAAGAATGAGTTTTTACATAATTCAATAATGAATCAGCTGCAACCTTGACTCCTGGTAAATAATTATCAGAATATAGATCTTTTTTCGACAGGCCTGTAGATTCTGCAAATTTAATCCATCCTTGAAGTGCGCCTTCTACTTCTGAATAACCATCATATTCTAGTATTCTTGAGATCCAAATTCGACGTACGTCAGATAAAGAACAATTTGAAATAACTGCCCCGTTTTTTAATGGAATAATGGTTTGGTAATAAAACCAATTATTTATCCATCCATGTATTTGTGATTTATTTAATTGCCCTTCGTACAAAAGTTTGTTAAATGGATGTTTATCTGGATAACGTTTTTTTGCTTCAGTTTTAAGTAATGCAAGAAATTTACTTTTTGGCAATGGTTTTTTGTTAGACATAAAAAAAAGAAAGGTAGAATATAATAAAAACAATACGTAAGGAATAAATTGTTTATGAACAAAGGGAGAAATAGGATATAAATGAAGAAAATCTATCTAGTAATCGGAATAACATTTTTATTATTAGGTTTATTGATGCGACAAAATGCATTAAATCAAATTATTGAATTTGAGCAAATACAAAGAGAACTAGATTCATTATCGGTTAATTTTTTGGCAGGAACTAGGGATGGAATAAGGCGCAACATATTAGCTAGTAGAGGAATGATTGGTTCTGGTGCTTTTATTACGATTTATGCAATTTATGAAGATTTAGCTAAAATAAAGAATAAATTTATTTAATCATTTTAAAACATCGTCAACATCTGTATCAAAAGCATTATTTGGAGATGTTTGTTGAGTAAATAATTTTTGAAATAATATTCGATCATTATCAGTAGTATCAAGAACTTCTTTAGATGGAAAAATTGAATATTGTTCATTTGGCAATAATTTAGAAAGCGAGAATTTAGAATTAGAATTTAAAGAAGCAGGAATTCTTAGATAATTATTTCCAATTAAATTCTGGCCTTCTTTAGAGATTATAAAATCTATAAATAATTTAGCAGATTCTATGTTTTTTGATGTTTTCAATATTGATGCTGCAGTAGCTGATATCAATGTAGGAATGTCAGATATTACAAATCTCTTTATAGGTAAATCTTTATCCAGTGCGCGAAGATATTCATAAAGCATTACAGTTAATCCAATATCACTGTTCCCCAAACTTACATTTCCAAGAACCTGCCTGAACAATGGCCACAATTGTAGTTGTTGATTAGAAAGAGAATTAACAAAATTAGACCATTGCGCAGTAGAGAATTCATTTCTAAGAGAAGACAGCCAATTACTTCCAAAAGTACCAAGAGTTACATCATGAATAGATAGTTTGTTTTTCCATCTAGGAGTAAGTAAATCAATATGGCTTTTAGGAAGTTCATTCTTATCAACTAAATCAGTATTGTAAATTTGAATTACAGGTAGAAGAACAACAGATGTCCAGAAACCTTCAGAATCTTTTAATGAATCAGAGATATTACGTCTTTCTCGAGAATTATAAGGGTAAAATAAATCTTGATTAAGCATTTGTAAATGTGGAGATATTGCACTTAATACTATATCTGCAGAACTACCTTTTTCATTTAAATCTTGCTTAATTTTTTGAGACATAGGAGAAGGAGTTCCAAAAACATATTTACGAAAATATTCAACTTCAACGTTAGGATGAATTTTATTGAAACCATCTATCCAAGATTCAAATTCCCAGACTTCTATAGTGCCGTAAATAATTATTTTTTTATTATTCAATATTTAAGCCTACGTCTCGTTACTATTGCAACATAAAGCAACGAAAGTAAAGTGATTCCAAATAATAGAGATTCATATTGAGAATTGGAAGATTCAGATACTGACATAGAAACTAATATTCCTGGATTATTACCGGTGAGTGTTCCACCTCCAATAGGAAATACAATCATCATTGAACCATATGCATCTGCGCCAATTGAGGGCCCTGCAGAACCAATTGAATTAAATGGAATTGATTTGATGATGTTGCCATTGTCTATATCAATAGCATAAAATATGCCACTACGATCTATAGAATAAAGAACACCTGCGCTAACGACAAGAGATGCGCTTTGAATTCTATCATTTAGATCTGTTTGCCATTTTACTTCGGAAGTTGACAAATCAATAGCGTAAATGGATCCATTAGTGGTTCTATTTAGATCGAGTCTATATACATAACCATCAATAATTTCTCCTTTATATTCCAATTGTCTAGGAATAACTGTACCACAAACATTCTGAGAAGAAATATACGCAACGTTATCTGCCACTGCCATTCCAGCAAAAACACCTCCTAAGTGACTGGGACAGAATATTTCTCCAATATACTTGATTTGGGAAGCAAACATATCAGATTGATTTTCAGTATTTTCATTGGTGAGATTGTAGCTTTCAGGCCCAAAATGAATTGGTTCGTGAATTAAAGTTCCTGTTTGTGCGTCTACCACATACAAGTAATTACTTTTGGAAGCAGCCAAGATAGCTTTATGCTCAACTCCGTCTACAGAGATAGAAGTATAAACTACTTTCCAACCAGGATCATTATTAGTTATGTCGTGAGTGCTCATTTGATAATACCATTTGATATTACCTGTTCTAATATCTAGTGCAACGATTGAGCTAGAAAACAGATTTGGTCCTGGACGAAGTGCCGCATCAAATTGATTAGCGGGTTCGCCAGTTAATAGAAACAATGTTTCAGAAGATTCATCAGTTGCAAGCAATCCCCATGAAGTGCCGCCTGCAATATAATTTGTATAACCCCAATCATCAGCAAATGGTTCTATATTGCCAAGCTTTGCATATTCATATCCCCAATTTAATTCTCCTCCAGTTGGAGGAGAAGAAAACCATTGCCAGACTAATTCCTTAGTTTCTACGTCGTATGCAGAAATAAATCCACGTCCGCCAAATGCATTTCCTTGCGCACGTGTAATAAGAAGATTGTCGAAAAAGATTGGAGAGAAGGGGGAGAAATATTCGCCATTATTTCCAGGAATATTAGAACAAGTTTCTGGCAGTTCAAAGATAATATCTCCAGTCATTAGATCAAATCCATAAATAGAACACTCGCTAGTCTGAACATATAGTGCGTCTTCATGAATAGTTAGAGAACGGGTCGCTAATCTTTTTGCCCATACTTTAGTATTCTTATAATCATTTACATCAGGTTTAAAAGACCACAAAGGACTGCCGTCAGATGCATCGATGGCATGAACTTCATTATAGCCAGTTGCTACATAAACAATTCCTCGATAAATCAAAGGAGTAGTCTGAAGACCTTCTGGAGGAACTATATCATCATCAATTGATTCAACTGCATCAAATTGATAGATCCAATTAAGATCTAAATTATCAACATTATCCTTGGAGATTACGGTTTGTGGACTAAATCCTGTATTGTCTTTGTCAAATGCAGGATATTTCCAATCAAATGCGTTTTCAGAATTGGCATTAGAAATATTGCCAAGAAATAATAACATAACGAGGAATAATATTATCGTATTCAATAGGGTTGTAATTATCAAATTGAGCAATAAAGTTTCACATTAATGAGAAGAAAAATTCATTTTTGTATAACTAAATCAATGTTTCTAAAGAAAAACATACATTGGAAGTAAAATTAGACTTGATGAATAAGATAAACTGTGGAGATACTCTAGATTTAATGAAGAATATAGAATCAAATTCTGTACATCTTGCAATTACTTCTCCTCCATATAATGTAGGAAAAGACTATGACGCACATAATGATTTGATGGGGTATGATGAATATCTTGATTGGTTAGCAAAAGTTTGGATGGAAACAAAAAGAGTACTAAAAGACGGAGGAAGATTTGCATTAAATGTAGGGCCAACAGGAATAAGAGATTTTAAACCACTGCATCATGATTTGTCTAACAGATTAAGAGAAATTGGAATGATATTCAGAACAGAAATTTTATGGTACAAACAAACAATGTTAAAAAGAACAGCTTGGGGAAGTTGGAAGAGTCCTAGTAATCCACATATAATTCCTTCATGGGAATATGTATTAATTTTTAGTAAGAATTCAATGAAACTCGAAGGAGATAAAACAAAATCAGATATTACACGAGATGAATTTCTCAATTTCTCTGACGGACATTGGAACATATTACCTGTTACAAAAAATAGAAAAGGTCATCCAGCACCATTTCCTGAAGAATTAATCTATAGACTAATAAAATATTATTCGTATGAAGAGAATGTTATTTTAGATATGTTTGGGGGCACTGGAACAGTAGCATATGTAGTAGCAAAAAACCATAGAAATTTTATTCATATAGATATTTCTAGAGAATATTGTAAGGTTGCGTCAGATAGACTAGAAACTTTACAGTAAATAAAAAGTTACACTAGGAAGATTGTATTGAATTAATTGTTTGTTTCCACCATGCCAACATAAGTGGATTAGACATTGTTAATTCAAAAGGAATATAGAAATTTATTCGATCCAATAATCCAGAGTATTTTTTCATAGCAAGGTGGGCAATATCTTTAGGAGCTCCTATTATTGCAATAGTTTCAAGAATTTCATCAGAAATTAAATCGGGCATTTCATTAAATTTACCTAATAAAGATAATTTTGTAAGATCTTTTGATATATCATCCCAACCATGAAGTTTGAAAACTGTAGAATAAGTAGGTGTAGATGCATAAAATGCAATTTGTGAACGAACAAATTCCTTTTGTTTAGACATTGATTGTTCATCAGGTCCAGTAACAATAAAAGCAGATCCACTAACAGATACATTTGAAATATTTCGATTAGCTTTTTCAGAGCCAAATTCAATATTTGGTATTACGAAGTCCTTAAGATAGTCCTTAGAATGTAAAGGATGAACATGAAAGCCATCACACAATTCGCCGGCAGTTTTACAAAGTTGTTTGTTAACACCAGCAATAAATATAGGAATTTTAGGATAATCAATTGGGCCAGGATTAAAAAATGGAGTCATTAAATTTAATTTAAAATATTTTCCAGTAAAATCTAATTTAGATTGATTTTGCCACGAAGTCCACACTGCACGAAGTGCATGAATAATATCTACAAGTTGTTCAACAGGCGAATCCCAATTCATTCCAAAACGTCTTTGAACATGTCCTTTGACCTGAGTTCCAAGACCTAGAATAAATCGGCCCTGAGATAATTGAGCCAAATCCCAAGATGTATATGCCAATGTCATAGGACTACGCGCTAAAGCAATAGCTATGGCAGTACCTAATTTTATTCTAGTAGTATTTTCTGCAGCTATTGCAAGAGGCAAAAATGGATTATGTTTCGTTTCACTAGTCCATAGACAATTAAACCCTACATCTTCTGCTTTTTTGGATATACTTGAAATGTTAGAAATAGGAGAATTAGTAATTACAACATCAATATCCATTAGCAGAATATATAATTTAATCAATATAAAAATTAAGGACTATCTATCGTGTATAGTTTTTACGCGGCACGAAATGAACATAAAATACGCATTGAATTATTGGGAAAGGCAAGCTAAATTAGTCGACCGAAGCCTTCTAACTTACACTTCCAAACCATCAACGTTATCTTCTATAACGATTCTTCTTTGCAACAATTTCCCGAAGGAAATTATAAACAAAAGGCTGTCTTTTCTCGGGAGTGGCTTCGAGCTTAGATGCTTTCAGCTCTTATCCACAACAGCTTAGCTGCCCGGCATTGCTCTGTCGAACAACCGGTAGACCAGAGGCCGCGTTGATCTGTTCCTCTCGTACTAAGATCAACTTCCCCTCAGACAACCACCGCATCCATCAGATAGAGACCGACCTGTCTCACGACGGTCTAAACCCAGCTCACGTTCCCCTTTAATGGGCGAGCAGCCCCACCCTTGGCTCCTGCTGCAGAACCAGGATGGGAAGAGCCGAC
>sequence15
ATTCTTTTCAGCAAAGAATGATGTTGCAGTAGTCTTACCAGTTCCTGTAGGACCTGTAAATGTAGTAGCAGTTCCTCTTTGGTTTAGAATACCTGATCCTGCATGTGCAGAAATAACGTCGACAAGAGATCATATTGCCATTAATGGAGACAATACACCACGAGACTTTACTTCACCATGATAATCAGTATTGATTGTTGTAATAGTGATTTCATCAGGTAATTCAGCTAATGGTACAAATAGTACAAAGTTTGATGATGAAATTGTATTTTTATCTGGATTATAGAAACGTGAATCAGAATAAGATTCAGGCAATCCTAATTCTTTTGCAGAAGTACCCTTTTCTTTTAATTTAGAAAGGATTGAGTTGAAATCCTCTTCAGTTTTTGGAAGATTGATTACTGATCTAATCTTAACATTAGGGATATTACGACCGATTTTATCAAATCGAGATTGGATAATCTTTCTTAGGTCAAGCATTTCTTTGTCATCTAGATCAAAGAAGTTAACATCAGTAGTTAGATTGAGATAAGGTGCATTTCCTTCATGTCGGTATTGAATACCAGCACATAGATAGTCGCGAGTTAAGGTAGCGGTACCGTCAAGAATTTCAAATGCCTTTAACCAAGCATCAGCTTCAGCACAATCTATATCGGCATCAGTTTTAGATAGACGTGTAACTAAACGTTCTGCTCTGCCCATAATAATTGTATTATTTGAATTAATTACTGCACCAGTCATTGGTTGAAAATCTTTTCGGTCACGTAGTACAATTTCTCCACGATCGTTTGTTCCAATTTGTTGGAAGTTTGGATAAATTTTTAACCAAACGCCAAATTTAGTGGTTTGATCGTTCCAAAGGGTACCAACAGGAAGTTTTATACCAGCAAACTCTTTTCCTCTTGTTTTAGCAAGTTCAAGAACTTCATTAGGAATTAGGTATTGAGCAGTAACAGTTTTCATGTCATCACTCATTACTCGATATCTCACTCCAAAGGTTTTAACAGGACAACCTTCATCGCTCATTTTTGTTTTATCTAAAGCTTGTTCGTCAACAAAGATTATAGAACCATCAGTTAAACGTACAACCATTTGAGAATTATTTTTGTACTTGTCTTGAATGAAACTATCAAGTTTTAATTTAATACTTTGACTCATATTATTCATTATAATTGAAAATTAGCAATTAATAAATACTCTTTAATTATAATTAATCTCTTATACTTTCTAGAGTACTTACTGCACTCCATATAGTAACACGAGAAAATGAAGGCATATTTGGATCTTGTGAAACGTCATCTAGCATACTAATTGCATTGGCAGCTCGAACGCCAATACTGGAAGAATCATCTTTCAATGTAACAAGAATATCTGCAATGCGTTTTCTAATATTTCGAGGAGTACCTTGATTAGCAGATACGGATTTCAATATAGCAAGTGCTCTATTTAGAAGTTCTTGATTTTCGTCTTTTTTCCCACTCATTAAACATCACTTACTTCTAACATATGCAGATTTATAATATGTTATGGGCCATGGGAGATTTGAACTCTCGACCTTTCGATATCTGAATGTATTATCAGTCGAACGCTTTTGCCGAATTATTCTCTAACCAAGCTGAGCTAATGGCCCTATTGCGTTTCTTTAACAATCATTTATTTAAATGATGATTTTTACAGGAATTTTTAGAGAAATATATAACTATAGTAATATCTATTAATATAAGCGTAATATATTAGTACTTATGACAGAAGAAATTGCCTTTAGCTATGATAAGTACGATTTCAAGAAATCTACAGAGAATTATGTATATAAAGGTAAAAGAGGGTTATCAGAAGAAATCGTCAAAATGATTTCAGAGAAAAAAGATGAACCGCAATGGATGAGAGATTTTAGATTAAAATCATTCAAATTATTTAATTCAAAAGAAATGCCAAAATGGGGAGCAGATTTATCACAAATTATATTTAATAATATTTACTATTACGCGAAGCCAACTGACAAACAAGCAAACAAATGGGAAGACGTTCCAGAAGATATTAAGAACACATTTGAGAAGTTAGGGATACCAGAAGCCGAAAGAAAATTTTTAGCAGGAGTTGGAGCTCAATATGAATCAGACGTTGTTTATCACAATTTGAGAAAAGATTTGAAAGAACAAGGAGTTATTTTTTATGGAATGGATGAAGGTCTAAAAAAGCATGAAGATATTGTAAAAGAATATTTTGGTAAAATTATTCCGCCAGAGGACAATAAGTTTGCAGCTTTGAATAGTGCAGTTTGGAGTGGAGGATCTTTTGTATATATTCCAAAAGGTGTCCACGTAGATATGCCTCTACAAGCATATTTTAGAATCAACGCAGAAAATATAGGCCAGTTTGAAAGAACATTAATTATAGCAGACGAGGGAAGTTCGATTCATTATATTGAAGGATGTACAGCACCGGTTTATTCATCAGAATCATTACATTCAGCAGTAGTAGAACTAATTGCTAAAAAAGGAGCAAAGATTCGTTATACAACAATACAAAATTGGTCTAGTGATGTGTATAACTTAGTAACTAAAAGAGCATACGCGTACGAGAATGCGACAGTCGAATGGATAGATGGAAACATAGGTAGTAAGATAACTATGAAATATCCATCAGTCTACCTGTTAGGTAATGGAGCAAAAGCAGAAATATTATCTTGCGCATATGCAGGAAAGAATCAACATCAAGATTCTGGAGGAAAAGTAATACATCTTGCACCTAATACATCATCAAAAATTATTGCAAAATCGATATCAAAAGATGGAGGAAGATCAAGTTATAGAGGTTTATTACATATAGCCAAAGGCGCAACTAACGTAAAATCGACTGTCAGATGCGATGCTTTGATTTTAGATGATGATTCAATTTCAGATACTTACCCATATAATGAGATTATTGAAGAAGATGCAACACTAACACACGAGGCAACCGTCGGAAAAATAGGTGAAGATCAATTATTTTATCTAATGTCAAGAGGATTAACAGAAGATGAAGCGACAAGAATCATAGTATTAGGCTTCTTTGAACCATTTCTCAAAGAACTTCCAATGGAATATGCAGTTGAATTAAATCGACTAATGGCTCTAGAAATGGAAGGTTCAGTAGGCTAAAAAAATGAGATTGCAATATGCAAAAAAATATTTTTGAAGATATATCAACCGATATAATTAAATCAATCTCAAAAGATAACAATGAACCTCATTGGATGTTAGAATTTCGCCTAGAAAATTTTGAAAAATTTCAGGAGTCGTCATTTGAACAATCAAATTTATTTACAAAATATAATGATTTTCTTACAGGATTTAACTCAGGAATTGTCAATTTTGAAAAAAAGAACATTCAATCTAAGATAAAAACAGAACATCGAGGAAAACATATCAACTTCTTACAAGTTAATGGTGAAATGGTTGAGAAGAATATTGAAAGTAATAACAAAAATAACAACATAATATTAACAGATATCAGCGATGCAATAAAGAAATATCCAGATATTGTCAAATCGTATCTAGAAAAAAATCATAACCGTGATAAATTCGAATATCTATCTAATGCGTTATTTACTACTGGATTGTTTATTCATATACCTAAGAATACGCAAATCATAGAACCAATAAGATATATTAATCGACAAGAAAATTTGAACGAAGGAGTCTTCAATAAGAATATAATAATACTAGAAGACAATTCAATATTTAATTTATTTACTGAATATTATTCATCAACAAAATTTACTGACAAAGATTCAATAATATTTGGTTATTCACAGGATATTTTTGTTGGAAATGATACGAAGCTAACAGTGACTGAAATGGAATTGTTTAACAAAAATGTTTTTTCATTCTTGAATAAAAGAACAGAAGTAGGAAATGGAAGTTCTGTGAAAATGGCAGTAGGATATTTAGGAGGGAAAATATCTAGATCTAGAAGTTATTCAAATTTAATTGGTGAAAATTCAACAGTAGAAGATCTGCACGTTCTCGTTGGAACAAATGAAGAAAAATATGATCTTGTAACAAGTATTTACCATTCAGGTAAGGGTACAAAAGGCATAGTAGATGTAAAGGGAGTATTATCTGGGAAATCACAAATGACACTTAAAGGAATGAATAAAATTGAGAAGCAAGCTCATAATTCAGATACATTTTTAGGAGGTCATGCAATTATTCTTGGAAATGAAGCTAGAGCAAACATTATTCCTGGATTAGAAATTAATAATCGAAATGTTAAGGCAAAACACTCTGCAGCAGTCGCTCCAATTAATGAAGATTTACTATTTTATCTTCAATCAAGATCTCTTAACAAGGATACTTCAGTTAAGTTAATTTTAGGAGGATTTTTAGAATCTATATTAAAAAGAATAGAAATACCAGTAATTAAAGAACAAATTCAAGAAATGATTGATTATAAGTTGAAGGATGTATCATCACAGGTACAAGAAGGACAATTACAAGAAGGACAATTACAAGAAACATCTGCTGAAAAAGGAAAATTTAAAAAAGTTTGTAAACTTTCAGATGTTCAAAATGGAGAAATGAGAAATATATTTGTAGAAAATAAAAATATTTTGATTGCAAATATCAATAACAAGATATTTGCCACAAGTGGACAATGTACACATCAAGAAGTTAATTTAGAAGATGGATTTTTGTTGGATGGAGATATAACATGTCCACTACATTTATCAAAATTTAGTCTAAATACAGGTAAACCATTAAACCCACCCGCTATAAAAGAACTATTAATATATAATATAAAAATCCAAGACGAAGAAATATACGTTGAAATAGATTAAATATACTTTATAAAACTGAACAAATTCTATTAAAATGAGGGCCGGTAGTTCAGCGGTAGAATATCCGACTTGCATGTAAAAAACCAAGAACTCGGAAGGTCGAGGGTTCAAGTCCCTTCCGGTCCATTAAAAATAAAAAAAGACATCAATGTTATAAGAGTGAATTGTAATAAATATAATGAATAAAATGGCAAAAAAGAAAACTGGAAAGAAAAAAGCTGCAAAGCGCAAAGCTGCTCCAAAGCGCAAAGGTGGAGGAGGCAAAAAGAAAGCTGCTCCAAAGCGCAAAGGTGGAGGAGGCAAAAAGAAAGCTGCTCCAAGGCGTAAAGGTGGAGGAGGCAAAAAGAAAGCTGCTCCAAGGCGTAAAG